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
D1-29_00001	960	gyrA_1	COG0188	DNA gyrase subunit A	GTGACAACCACCCACCACTGGCTGCTGTTCTTCACCAACCTGGGCCGCGTCTACCGCGCGAAGGCCTACGAACTGGTGGAGGCAGGCCGGGACGCCAAGGGCCAGCACGTGGCCAACCTGATGGCGTTTCAGCCGGACGAACACATCGCCCAGGTGCTGGACCTCAAGGACTACCAGCACGCGCCCTACCTGGTCCTGGCCACCAAGCGCGGCCTCGTAAAGAAGACACGCCTGGAGGACTACGACACCAACCGCTCCGCCGGCGTTATCGCCATCAACCTGCGCGATGAGGATGAGCTGGTGTCCGCCCAGTTGGTATCCGAAATGGATGACCTCCTGCTGGTGTCCCGGAAGGGTCAGTCCATCCGCTTCACGGCTACCGATGATGCCCTTCGTCCGATGGGCCGTGCAACCTCCGGTGTCACGGGGATGAAGTTCCGCGAGGACGACGAACTGCTGGCAGCCAACGTGGTCACTGATGGATCGTTTGTGTTCATCGTGACCGAGGGCGGCTACGCCAAGCGCACGGCCGTGGAAGAGTACCGGCTCCAGGGCCGCGGCGGATTGGGAATCAAGGTTGCCAAGCTTGCCGAAGAGCGCGGTGACCTTGTGGGTGCACTGATCGTCCAGGAAGAAGACGAAGTCCTGGTGGTAATGGAAGGCGGCAAGGTGGTCCGTTCCTCGGTGGCCGGCGTTCCCGCAAAGGGCCGTGACACCATGGGCGTCATCTTTGCCAAGCCGGACAAGAATGACCGGATCATCGAAGTGGCACGGAACAGCGAACGCGGTCTCGAGGGAGATGAATCCCTGGAGGATGACGTAACGTTGGCTGATGAGGCTGGATCCCCCGAGGGATCCGCAGAATCAGAGGCAGTGGCAGAAACATCACCGGCCGTTGAGTCAGAGGACGCCTCCGGCGACGCTGAGCCGAACGAAGACTACACCGGAGGTAACGAGTGA	MTTTHHWLLFFTNLGRVYRAKAYELVEAGRDAKGQHVANLMAFQPDEHIAQVLDLKDYQHAPYLVLATKRGLVKKTRLEDYDTNRSAGVIAINLRDEDELVSAQLVSEMDDLLLVSRKGQSIRFTATDDALRPMGRATSGVTGMKFREDDELLAANVVTDGSFVFIVTEGGYAKRTAVEEYRLQGRGGLGIKVAKLAEERGDLVGALIVQEEDEVLVVMEGGKVVRSSVAGVPAKGRDTMGVIFAKPDKNDRIIEVARNSERGLEGDESLEDDVTLADEAGSPEGSAESEAVAETSPAVESEDASGDAEPNEDYTGGNE				NA	NA	NA	NA	NA
D1-29_00002	654			hypothetical protein	GTGAGTAATCCCGACTCATATCCCACACCGAGCACGAATGGTCCTGGCGGAACACGCCAACCCGCGACAGCTCCCCGGGTGAACGCCCCCGTTCGTCCCCAGCAGCGGCCGGCAGCTGCCGGCGCTCCGAGCCAGCGGCCCGCAGTTCCGGGCCAGCGCCCCGCCCAAGGGCCCGTTCAGGGTCAGCCGGGTTCCGGCCAGCGGCCTGCTCCAGGCCAGCGGCCGGCGGCTCCGGGCCAGCGGCCCCAGCAGGGCGCTCCCGGACTGGTCAAGCCGGCACCCAAAGCCAAGGTGAGGCGGGCCCGGCTGCTTGTCAGCAAGGTGGACCCGTGGTCGGTCCTGAAAATGGCATTCCTCCTTTCGGTGGCGCTGGGAATCGTTACCGTGGTTGCCGCCATCGTGCTCTGGACGGTCCTGGACCTCACCGGCATCTTTGACCAGGTGGACAGTCTCCTGGGAACCCTTGCCGGTGCGGAGGGTGGCGGGTTCGAACTGAAGAAGGTCGCATCCCTGGGGCAGGTGGCCTCGTTTGCCACCATCATTGCCGTGGTAAATGTTGTACTCCTGACAGCGCTGTCCATGCTGTCCGCCGTGCTCTACAACCTGTCGGCGGCACTTGTCGGCGGCATCGGTGTCACTCTTACGGACGACTGA	MSNPDSYPTPSTNGPGGTRQPATAPRVNAPVRPQQRPAAAGAPSQRPAVPGQRPAQGPVQGQPGSGQRPAPGQRPAAPGQRPQQGAPGLVKPAPKAKVRRARLLVSKVDPWSVLKMAFLLSVALGIVTVVAAIVLWTVLDLTGIFDQVDSLLGTLAGAEGGGFELKKVASLGQVASFATIIAVVNVVLLTALSMLSAVLYNLSAALVGGIGVTLTDD				NA	NA	NA	NA	NA
D1-29_00005	1011			hypothetical protein	ATGGTGACCTTCTTAATCGCGGCGCTTGGCGTGCTGGGGGTGGCATCGTCGGGTCCGCTGATTGCCGCCACCTTGGGCGCCACCAGTGTGAGTGCCCTGGCCATAGCTTTCTGGCGCAACGCCATCGGGGCAGCGGTCATGGCAACCCCGACCCTGATCCGTGAGCCCCGGCAATTTGGTCACGTCAGCCGGCGGGAGTTCCGCTGGTCTCTTTTGGCGGCAGTCGCCCTTGCCCTGCATTTTGCGTGCTTTATCACCTCACTTCAACTGACATCGGTGGCTGCCGCCACAGCGCTGGTCTGCCTCCAATCCGCGTGGATTGCCGTCTTCCAGCTGTTCCGCGGAACCAGGCACGGGTGGCCGGTGCTCGCCGGACTGGGGATTGCGTTTGGCGGTGTTGTGGCGATCACCGGCTTCGATATGGGATCCTCTCCCAGCGCCCTGCTTGGGGATCTGCTGGCGGTGGCCGGAGGCGCCCTTGCCGGCCTGTACACCTTGGCGGGCGGCAAGGCGCGGCAAAGCATGACCACGGGAACCTACACCACCCTGTGCTACGGGATGTGCGCCGCGGTGGTAGCTCTGCTGGCGCTGCTCACCAACCAGCGCCTGACGGGGTTCGAGGCCGCGGGATGGCTGGGCATCGTGGCAATCACCGTGTGCGCCCAACTGGTGGGCCATACGGCGTTTAACCACCTGCTGGCCACCATGAGCCCGCTGTTGGTCTCAATGATCATCCTGCTGGAGATCCCGGGCGCTGCCGTGCTGGCTGCGATCTTCCTGCACGAGACCCTCCCGGCCGGCACCTACGCGGGGCTGGGACTCATCCTGGTGGGACTGGCGGTTGTGGTCCTGGGACAGAAGAGCGGCATTGCAGCCGGCCGCAGCCGCCCAGGCGGCGCCGGAACAGCCGGCGAAACCGGAACAGCCGGAAGAACCGGCAAAGGGAAGGGCGGGGCCGGGAGCGGCGAACCGCCGTCGGACCAGCCCCTGGCCGAGCTGGGAACTGACTAG	MVTFLIAALGVLGVASSGPLIAATLGATSVSALAIAFWRNAIGAAVMATPTLIREPRQFGHVSRREFRWSLLAAVALALHFACFITSLQLTSVAAATALVCLQSAWIAVFQLFRGTRHGWPVLAGLGIAFGGVVAITGFDMGSSPSALLGDLLAVAGGALAGLYTLAGGKARQSMTTGTYTTLCYGMCAAVVALLALLTNQRLTGFEAAGWLGIVAITVCAQLVGHTAFNHLLATMSPLLVSMIILLEIPGAAVLAAIFLHETLPAGTYAGLGLILVGLAVVVLGQKSGIAAGRSRPGGAGTAGETGTAGRTGKGKGGAGSGEPPSDQPLAELGTD				NA	NA	NA	NA	NA
D1-29_00006	876	arnC_1		Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	ATGTCAGCCGATAAATCCTCTGGGGATGCCTTGAACGACGCAGCACAGCTGCCCAGCGTGTCCATCGTCATCCCGGCCTACAACGAGGAGAGCGTTATCAGGCAGTGTCTCATCGCTGCCATCTACCAATCCGTTCCGGCCCACGAGATCATCGTGGTGGACAACCGCTCCACGGACCGGACCGCAGCCATCGTGCGGCAGATGCAGCAGGAATATCCCGAGAGTCCGGTTATTCTGCTCAGCCAGCATGAGGAACAGGGCCTGATTCCCACCCGCAACTACGGCCTGAACCACGCAACCGGCGATATCCTGGGGCGCATTGATGCGGATTCAGTCGTGGAGCCGGACTGGGTGGAGCAGGTACAGAAGGCATTCCTGGACGAATCCGTGCAGGCGGCCACCGGCCCCGTGGTCTATTACGACATGCCCATGCGGCGGTTCGGCTTGAAGGCCGATGACAAGATGCGCCAGCTGATGCTGAAACTCGCCAAGCACCAGTACCATTTCCTGTTCGGCTCCAACATGGCCATGCGGGCCTCGGCCTGGGAGACCATTCGCGACGAAACCTGCCGCGATGAGAAGGACGAGATGCACGAGGACATCGACCTCTCACTGCATCTTGCCGACCACGACCTGAGGGTGCAGTACTGGCCTCAGATGGTCTCCGGCATGTCAGCGCGCCGGCTCGAGGATTCCCCCCGGGACTACCGCTACTACGTAACCCGTTTTGACCGCACGTACAAGGCACACAACGTCAAGAAAATGGCGCTCAAGGCTCCCATGGTGGTCTTCTTCTCGGTGTACTTTCCGGCCAAGCTCCTGCGTGCAATCCACACCGTAAATACCACCCAGCCCGTCCGCCGCGGCGGCCAGTAG	MSADKSSGDALNDAAQLPSVSIVIPAYNEESVIRQCLIAAIYQSVPAHEIIVVDNRSTDRTAAIVRQMQQEYPESPVILLSQHEEQGLIPTRNYGLNHATGDILGRIDADSVVEPDWVEQVQKAFLDESVQAATGPVVYYDMPMRRFGLKADDKMRQLMLKLAKHQYHFLFGSNMAMRASAWETIRDETCRDEKDEMHEDIDLSLHLADHDLRVQYWPQMVSGMSARRLEDSPRDYRYYVTRFDRTYKAHNVKKMALKAPMVVFFSVYFPAKLLRAIHTVNTTQPVRRGGQ				NA	NA	NA	NA	NA
D1-29_00007	957			hypothetical protein	GTGAAGAAATCGGATCGTATTGCCCGTGACCTTGAGCAGTCTGTCAGCAGTGCAGTAGAGAACGCCAAGGATTGGGCAACCCCCCGCGTGGAAGCAGCAGTGGACTGGGCTGTTCCCCGTTTGCAGCATGGCCTGGACACCGCATCTCCCAAGATCCAGGAGGGGCTGAAGACGGCCGCTTACAACCTGGCCGACGGCGTTGCAACGGTAACGCCCCGGATCCAGGACGGCCTGGCCCACCTCGCCCCCAAGATCCATGACGCGGTGGAAGGCACCACCCCGCGCCTCCACGAAGCGCTGGACAAGGCCACTCCGGTAATCCTGAACGCACGGGACCGCGTGGTGGTGGAATACCTCCCGCGCCTCTCTGACCAGATCGGCCATGCGTCCGATGCCGTGCACCGTACTCTGGAGAACGCACCGACTCACGTTGACGCTGTGGCGCAGAAGCTCGGCGACGTCGGCATCGTGCATGCCCTGCAGGAACAGGCGCAGACCACAGGCACCCAGATCAAGGCTGCGGCAGCTGAAGCAGGCAAGGCGGTAGGCGTTCAGCTCGCCCAGCCCGAGAAGCCGAAGAAGCGCGGCTGGCTGGTCTTTGGTGTCATTGCCGCGGCAGTAGCCGCAGGCGTGGCAGCCTGGAAGGCCTCCAAGCCTGTTGAGGACCCGTGGAAGACGCCGTCTCCCGTTACCCCAACACCGGCGCCGGTTCCCGCTGCCACAGTGACCGAGGGGCAGGAGTCCGCAGCTGCAGGAACGGATAGTGCCGCCACCGCTACGTTGACGGGCGCAACCTCAGCCACCACGGAGGACGCTGACCAGGACGCAGCTGACAAGGCCAAGCATGTAGCTGATGAGGCCAGTGACGCCGCTGCAAAAGCGTCCACCGATGCGAAGACCGCCATGAAGAACATCGCGTCCAACATGAACGGTTCCGCGGACAAGGGCACCAGCTAA	MKKSDRIARDLEQSVSSAVENAKDWATPRVEAAVDWAVPRLQHGLDTASPKIQEGLKTAAYNLADGVATVTPRIQDGLAHLAPKIHDAVEGTTPRLHEALDKATPVILNARDRVVVEYLPRLSDQIGHASDAVHRTLENAPTHVDAVAQKLGDVGIVHALQEQAQTTGTQIKAAAAEAGKAVGVQLAQPEKPKKRGWLVFGVIAAAVAAGVAAWKASKPVEDPWKTPSPVTPTPAPVPAATVTEGQESAAAGTDSAATATLTGATSATTEDADQDAADKAKHVADEASDAAAKASTDAKTAMKNIASNMNGSADKGTS				NA	NA	NA	NA	NA
D1-29_00008	546	cypB		Peptidyl-prolyl cis-trans isomerase B	ATGACTGCCATCGCAACTGCAAAAGCAACCATCCACACAAGCCTCGGCGACATCGCCGTGAACCTCTTCGGCAACCACGCGCCCAAGACGGTCAAGAACTTCATCGGACTCGCCACGGGCGAGCAGGCCTGGACCCACCCGGAGACGGGTGAGGACAAGACCGGCACGCCGCTGTACAACGGCACCATCTTCCACCGGATCATCAAGGACTTCATGATCCAGGCAGGCGATCCCCTGGGCCGCGGCGTCGGCGGACCCGGCTACAAGTTCGACGACGAGATCCACCCGGAGCTCAGCTTCAACCAGCCGTACAAGCTGGCCATGGCAAACGCCGGAATCCAGATGGGCAAGGGCACCAACGGCTCGCAGTTCTTCATCACCACCATCCCCACTGACTGGCTTCAGGGCAAGCACACCATCTTCGGCGAAGTGGCCGACGACGAATCCAAGAAGGTCGTTGACGCCATTGAAGGCGTTCGCACCGGCATGGGCGACCGCCCTGTTGAGGATGTCACCATCAACAGCATTGATATTGAACAGCTCTAG	MTAIATAKATIHTSLGDIAVNLFGNHAPKTVKNFIGLATGEQAWTHPETGEDKTGTPLYNGTIFHRIIKDFMIQAGDPLGRGVGGPGYKFDDEIHPELSFNQPYKLAMANAGIQMGKGTNGSQFFITTIPTDWLQGKHTIFGEVADDESKKVVDAIEGVRTGMGDRPVEDVTINSIDIEQL	PGPT0015110_1914	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
D1-29_00009	882	gluP	COG0705	Rhomboid protease GluP	ATGAGTTACGGAATCCCGTCGGTCGAGCCGTCCGCGCAAGTCCCGGTCTGCCCCAGGCACCCGGACCGGCCCTCCTATGTGCGCTGCCAGCGCTGCGGGCGCCCCGCGTGCCCCGATTGCCAGCGGGCGGCCGCCGTCGGGTTCCAATGCATTGACTGTGTCAACGAGACAAAACGGACGACGCCGGCAGTCCGGACGGTCTACGGCGGCGCCGTAGCAACCGGCAAACCACTGGTGACGTTTGGAATTATCGCCGCTTGTGCGGTGATGTATGTTCTTCAATGGATTGTTCCTGGTGAGTGGATCTTCCAGAACCTGGCATTCGCCAATGGATTCGTCAATCCCGACTCTGGCCAGTTCGAACCGTGGCGAATGCTGACGGCGGCTTTCCTGCACTCCCAGGGTTTCATCCTCCACATTGTGCTGAACATGTACATGCTGTGGATTTTTGGCCAGGCACTCGAACCGCTCCTGGGCAGGGTCCGCTTCCTGGCCTTGTATCTCATCTCCGCTATCGGCGGGTCCGTGGGCTACCTGCTCCTGACGCCCGGCTATGTGCCTGGCGTGCCTCAGGCCGGCGTGGTTGGCGCTTCCGGGGCAATCTTCGGACTTTTCGGGGCAATGCTCCTGGTTCAACGGCACCGGGGCGGCGACACCCGGCAGTTGTGGGTACTCATCGCCATTAATGGCGTAATCGGCTTCGTCATTCCACAGATTGCCTGGCAGGCGCACCTCGGCGGGCTCATTACCGGCGGGCTATGCGCGGCCGTGATCGCCTACACTCCCCGTGGACCACGGCAGGCCCTGCTGCAGGGCTGCGGCCTGGCAGCAGTTGTCATCCTGCTCTTTCTGGTGAGCTGGCTCCGGGTAACCGCTGGCTGA	MSYGIPSVEPSAQVPVCPRHPDRPSYVRCQRCGRPACPDCQRAAAVGFQCIDCVNETKRTTPAVRTVYGGAVATGKPLVTFGIIAACAVMYVLQWIVPGEWIFQNLAFANGFVNPDSGQFEPWRMLTAAFLHSQGFILHIVLNMYMLWIFGQALEPLLGRVRFLALYLISAIGGSVGYLLLTPGYVPGVPQAGVVGASGAIFGLFGAMLLVQRHRGGDTRQLWVLIAINGVIGFVIPQIAWQAHLGGLITGGLCAAVIAYTPRGPRQALLQGCGLAAVVILLFLVSWLRVTAG				NA	NA	NA	NA	NA
D1-29_00010	471			hypothetical protein	ATGAGCGCCACCACCACGCAGCACATTTTCCTGGACAAGCAGCACCCAGCCATCTGGCGGGCCTTGAACGGCTTGGGCCTGAAAGTCCGCGAGGCTGCTGCGGAGACCGGGATCGACAGTACAATCATCGATCTCCTCTATGTACGGATCTCCCAACTCAACGGTTGCGCGTACTGCCTGGACATGCACGTGAAAGAAGCCGTGGACAATGGTGAAACGCCGCAGCGTCTGGCCGTGCTGCCGGCCTGGCGGGAGACGGCACTCTTCACCGACAAGGAGCGGGCTTCCATCGCGCTTGCAGAATGCATCACGGAGCTGCCGGATTACCGGTCCCGGGAGCATGAGGAGGGATATGCCCGTGAACACCTCAGTGCCGAGGAATTCTCGGTGGTCAGCTGGCTGGCGATCACAATGAACGCCTTCAACCGCGTATCAATCACCAGCCATCATCCGGTGCGCCGGGAGCGTTAA	MSATTTQHIFLDKQHPAIWRALNGLGLKVREAAAETGIDSTIIDLLYVRISQLNGCAYCLDMHVKEAVDNGETPQRLAVLPAWRETALFTDKERASIALAECITELPDYRSREHEEGYAREHLSAEEFSVVSWLAITMNAFNRVSITSHHPVRRER				NA	NA	NA	NA	NA
D1-29_00011	615	tag	COG2818	DNA-3-methyladenine glycosylase 1	ATGGCCCCCGGCAGCGACGGCTCCATGATTGGAGCCGACGGATTGGCCCGGCCGCCGTGGGCCTCCGTTGATCCCCTCTTGCGGGAGTACTACGACACCGAGTGGGGCCTGCCTGTCCGGGACGAGCAGGGACTCTACGAGCGGATCTGCCTGGAGGGCTTTCAGGCTGGGCTGTCCTGGGCGATTATCCTGCGCAAGCGCCCCGCCTTCCGGGAGGCGTTTCACGACTTCCAGCCGGACACCGTTGCAGCCTTCACGGAGGCTGACGTGGAGCGCCTCCTCCAGGACCCCGGCATCGTCCGGAACCGGCTCAAGATCCGGGCGGCCATCGCCAATGCCCGTGCAACAGTTGCCCTGCGTGAACAGGGTGGCCTGGTGGCCTTCGTCTGGCGGTATCAGCCGGAAACAACGCCACACCCCCTTACCCACGCGGACATTCCCACCCAGTCGCCGGAGTCCGTGGCGCTGTCCAGAGCCCTGCGCAAGCAAGGGTTTTCCTTCGTCGGGCCCACCACAATGTTTGCCCTGATGGAAGCAATCGGAATGATTGATACCCACCTGCTGGACAGCCACCGGCGAGGCTCATCGGGAGTGTGGCCACAGGCACTTCGCTGA	MAPGSDGSMIGADGLARPPWASVDPLLREYYDTEWGLPVRDEQGLYERICLEGFQAGLSWAIILRKRPAFREAFHDFQPDTVAAFTEADVERLLQDPGIVRNRLKIRAAIANARATVALREQGGLVAFVWRYQPETTPHPLTHADIPTQSPESVALSRALRKQGFSFVGPTTMFALMEAIGMIDTHLLDSHRRGSSGVWPQALR				NA	NA	NA	NA	NA
D1-29_00012	255	crgA		Cell division protein CrgA	GTGCCAGAGTCAAAGCCACGCAAGAAGACTTCCAGCGCTGTGCCGGCATCTTCCTCAACCCAGGCATATAAGCCAAACCCCATCTGGTTCAAGCCTGTGATGTTCGGCCTGATGATCATCGGCCTGCTCTGGATCATCACTTTCTACATCAGTGAAGGCCGGCTTCCCGTCCAGGCCTGGGAGTCATGGAACATCGTCGCCGGCTTCGGGATCGCCATCATCGGCTTCCTGATGACCACCCGCTGGCGTTCCTAG	MPESKPRKKTSSAVPASSSTQAYKPNPIWFKPVMFGLMIIGLLWIITFYISEGRLPVQAWESWNIVAGFGIAIIGFLMTTRWRS				NA	NA	NA	NA	NA
D1-29_00013	789	srtE1	COG3764	Sortase SrtE1	GTGGTATTGCAGGAAAAGGCGAGGCCCGCCGCTGTGCCGGCTCCCGGCGTCGTCCTTCTGCGCGGGACTGTCCAGGTGCTGGGTGAACTGCTCATCACCGCCGGCATTGTCCTGCTGCTCTTTGTGGCGTGGCAGCTCTGGTGGACAAATGTGGAATCGGACGCCAAGCAGAGCGCGATCATCAAGGAATTCGCCCAGGACCTTGGCGGCGCCACACCGGCCCCAGCTGCCGCCCCGGACCCGGGAGCAGCGCCGGTGGACTACGGCGCTCCGGTGGTTTCCGCGGCCCCGGGCCACGCCGGAACCATCGGCCTCATCTACATCCCCCGATTTGGCGAAAGCTATACCCGGCCCATCGTCCAAGGAACCACAGGAGACGTGCTGGATACCCTGGGGCTGGGCCATTACAGCAGTACAGCCATGCCCGGGGCCGTAGGAAACTTTGCGGTGGCGGGACACCGTCAGACCCACGGGGCCGTTCTGGACAACATCCACACGCTGGTACCGGGCGACAGGATTTATGTCCAGACCAAGGACGGCTACTACGTCTATGTCTTCCGCAACAACCAGATAGTGCTGCCGTCCAGGACGGACGTGCTGGAACCGGTGCCCACCCGGCCCGGCGTAGCCCCGACTGAAAGATTCCTCACCATGACCAGCTGCAACCCGCGCTTTGGCTCGCAGGAGCGCATTATTGCCTACGCACTGCTGGAGAGCTGGCGGCCTGCCTCTGCGGGTCCTCCGGCTGAAATCGCCGCGCAGGTGGCTGCCGCCATAGGGAAGGGCTGA	MVLQEKARPAAVPAPGVVLLRGTVQVLGELLITAGIVLLLFVAWQLWWTNVESDAKQSAIIKEFAQDLGGATPAPAAAPDPGAAPVDYGAPVVSAAPGHAGTIGLIYIPRFGESYTRPIVQGTTGDVLDTLGLGHYSSTAMPGAVGNFAVAGHRQTHGAVLDNIHTLVPGDRIYVQTKDGYYVYVFRNNQIVLPSRTDVLEPVPTRPGVAPTERFLTMTSCNPRFGSQERIIAYALLESWRPASAGPPAEIAAQVAAAIGKG	PGPT0024075_1349	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284	NA	NA
D1-29_00014	171			hypothetical protein	ATGTATGCATGGATCTTCCGGAACCTCCCGGGACCCCTGTGGCTCCGGATTCTGACCTCGCTGGTCCTGATTGCCGCCGCGCTGGTTTTGATGGTCCAGTTCCTTTTCCCCTGGATGTCCCAATTCACCCAATTCACCGACTCAACGATTGGTTCACTAAGCCAGCCATGA	MYAWIFRNLPGPLWLRILTSLVLIAAALVLMVQFLFPWMSQFTQFTDSTIGSLSQP				NA	NA	NA	NA	NA
D1-29_00015	642	trpG	COG0512	Anthranilate synthase component 2	ATGACCACAACCAAGATCCTGGTCGTAGACAACTACGACAGCTTTGTTTACACCCTGGTGGGTTACCTCCAGGAGCTCGGCGCCGAGACCACCGTGGTGCGCAATGACGACGTCACCCTGGCGGAAGCGATCGAGATGGCCGAAACCCGCGACGGCGTGCTCATCTCACCGGGCCCCGGCAACCCCGCTGAAGCCGGAGTCTGCATCGAGCTGATCAAATGGTGCGGCGGGAACACCAAGCCGATGTTTGGGGTCTGCCTGGGACACCAGGCTTTGGCCGAGGCCTACGGAGGCAAGGTCACCCACGCCCCGGAGCTGATGCACGGCAAGACGTCCCCCGTGGAGCACAACGGCACCAGCGTTTTTGTGGGGCTCCCCTCCCCCGTCACCGCCACCCGCTACCACTCACTCGCAGCGGTCCGGGAAACCATCCCCGACGCCCTGGAAATCACGGCGGAAACATCATCAGGAGTGGTGATGGGCCTCCAGCACCGGACGGCACCGCTCTGCGGCGTGCAGTTCCACCCCGAGTCGGTGCTGACCGAGGGCGGCTACCAGATGCTGGGCAACTGGCTGGAGTCGCTCGGCATGGCTGGAGCGGCAGCGCGGGCTGCGAAGCTGAGCCCGCTCATCCAGAACTGA	MTTTKILVVDNYDSFVYTLVGYLQELGAETTVVRNDDVTLAEAIEMAETRDGVLISPGPGNPAEAGVCIELIKWCGGNTKPMFGVCLGHQALAEAYGGKVTHAPELMHGKTSPVEHNGTSVFVGLPSPVTATRYHSLAAVRETIPDALEITAETSSGVVMGLQHRTAPLCGVQFHPESVLTEGGYQMLGNWLESLGMAGAAARAAKLSPLIQN	PGPT0008000_362	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008000-pabA-K01664	NA	NA
D1-29_00016	1908	pknB	COG0515	Serine/threonine-protein kinase PknB	GTGGACCATCAGCGTGTCCTGAACGGCCGCTATGAGCTTGGTGGACTCCTTGGCCGTGGGGGCATGGCGGACGTTCACCGGGGAGTGGACACCCGCCTGGGCAGGACGGTCGCGATCAAGTTGCTGCGGCCGGACATGGCGCGCGATCCGCAGTTCCAGGCCCGTTTCAAGCGTGAGGCGCAGTCTGTTGCGGCCCTCAACCATCCATCCATCGTTGCCATCTACGACACAGGCGAGCACACGGTTCCCGACGGCTCTGAGGACAATGTCAGGGTTCCCTACATTGTGATGGAATTCGTCGAAGGCCAGACTCTCCGTGACCTGATCCGGGCCAGGGAAGTCAGTATCGATCAGGCCATCGATTACTGCCTCGGGGTGCTGTCCGCCCTGGAGTACAGCCACAAGGCCGGAATTGTTCACCGGGACATTAAGCCGGCCAACGTGATGTTCTGCGACGGCTCCAATTCCGTCAAAGTCATGGACTTCGGGATTGCCCGCGCCATCGCTGACTCCTCTGCCACCATGACGCAGACGCAGGCGGTAGTGGGAACGGCCCAGTATCTTTCACCGGAGCAGGCACGCGGGGAAACCGTGGACGCGCGCAGCGACCTCTACTCGGCGGCGTGCCTGCTCTACGAAATGCTCACCGGCCGTCCGCCCTTTATCGGCGACAGCCCGGTGTCCGTCGCCTATCAGCACGTCCGTGAGATTCCAGAGCCCGCCAGCAGCGTGAACCCGGAGGTTTCAGCGGCCCTTGACTCTGTCCTGGCCAAGGCCCTCCAGAAGAACAGGGCCGATCGTTTCCAGGATGCTGCGGCTTTTCGGCGTGCACTCCGCGCCGCCCGGGCAGGGGTTCCTGTCCCCGAGCTTCCGGCGACGGAAGCCCCCACAGACCCGAACGACCACGTCCCCTCACCGGAACGCGCCCCGGCCACGGAGGCTTTCGCTTACACCGGTGCCAGCTTCCTGGATGATGCCCCTACCGGGAGGCTCCGGGCCAGCAGCCATGCCCTGGCGGAGGACGGCCCCGCTGTCCGGACGGCCGCCAACGATGAGCCCTCCGAAGCAGATGCGCTGCCCCTGGCATTCTCAGCGGAACGTGAGCGGACTCCGAGGCAGAAGTCCCGGCGTCGTGCGTGGACCGCCACCTTGGTGATTTTCACCCTGCTGGTCCTGGCAGGGGGAGGGTTCTGGGTCTACAGCATCGTGAACCAGCCGCCTCCCGCCCCTCCCAAAGTGGAGATCCCGTCGGTGGCCTCGCTAACGGAGTCTGCCGCCCTCCAGGAACTCTACGGTGACAACCTGCGCCCCCAGATCAAGCGTCTCCAGCACGACACAGTGCCCAAGGGGACAGCCATCGGCACGGACCCGGCGGCTGGAACTTTACTGGACCCCAATTCGGAGGTGGTGCTGAACATCTCCGACGGCCCCACAGCGGTGAAGATTCCTGACAACATCCCCGGCCAGACCGAGGCTGCCGCCCGCGATATCCTGCGTCAGGGCGGCCTGGTGGGTGCCGCCTCCACCACAGAGGCCAACAGCGCCACGGTGCCGGCGGGCAAGGTGATCACCACCAGCCCCGCGCCTGGCCAGATGGTGGCCGTGGGCAGCACCGTGGAAATTGTTGTTTCCACCGGCAAGGTTTCCATGCCTGAACTGCGTGGCCGGACCAGGGCTGAAGCGGAGGCCGCACTGAAGGAGCTCGGCCTGGTCCCCAATGTCGCGGAAGTCGAAAACTCCCAGGTGGAGGCAGGACGGGTGACGGATCAGAGCGACCCCGTCAACACCGCTGTTCCACAGGGCAAGGTCATCAATCTCGTAGTGGCCAAGGCACCGCCGCCCCCGCCTGCCACCCCCACGCCGACGCCCACACCAACTGCCACCAAAAAGGACCTACTCGGCGGGTAA	MDHQRVLNGRYELGGLLGRGGMADVHRGVDTRLGRTVAIKLLRPDMARDPQFQARFKREAQSVAALNHPSIVAIYDTGEHTVPDGSEDNVRVPYIVMEFVEGQTLRDLIRAREVSIDQAIDYCLGVLSALEYSHKAGIVHRDIKPANVMFCDGSNSVKVMDFGIARAIADSSATMTQTQAVVGTAQYLSPEQARGETVDARSDLYSAACLLYEMLTGRPPFIGDSPVSVAYQHVREIPEPASSVNPEVSAALDSVLAKALQKNRADRFQDAAAFRRALRAARAGVPVPELPATEAPTDPNDHVPSPERAPATEAFAYTGASFLDDAPTGRLRASSHALAEDGPAVRTAANDEPSEADALPLAFSAERERTPRQKSRRRAWTATLVIFTLLVLAGGGFWVYSIVNQPPPAPPKVEIPSVASLTESAALQELYGDNLRPQIKRLQHDTVPKGTAIGTDPAAGTLLDPNSEVVLNISDGPTAVKIPDNIPGQTEAAARDILRQGGLVGAASTTEANSATVPAGKVITTSPAPGQMVAVGSTVEIVVSTGKVSMPELRGRTRAEAEAALKELGLVPNVAEVENSQVEAGRVTDQSDPVNTAVPQGKVINLVVAKAPPPPPATPTPTPTPTATKKDLLGG				NA	NA	NA	NA	NA
D1-29_00017	1722	pknD_1		Serine/threonine-protein kinase PknD	GTGAGGCCTACAACGGGAATCACCCTCGGCGGCAGATTCCAGCTGACCACGCGGATTGCGATCGGCGGCATGGGCGAGGTCTGGAAGGCGAAGGACCTCATCCTGGGCCGGATAGTCGCCATCAAGGTGCTGAAGGAGGAGTACACCGGCGACCCCGGATTCCTCCAGCGGTTCCGCGCCGAGGCACGCCACACTGCACTCCTGAACCACGAGGGCATCGCCAACGTTTTCGACTACGGCGAGGAAGAGGGCTCTGCCTACCTGGTGATGGAACTGGTTCCAGGCCAGCCGCTGAGCAGCATCATTGAACATGAGCGGGTGCTGTCGCCGGACCGTACCCTGTCCATGATTGCCCAGACTGCCCGCGCCCTGTCCATCGCCCACGCCCAGGGCCTGGTGCACCGCGACATCAAGCCGGGCAACCTGCTGATCATGCCCGACGGCCGCGTCAAGGTGACTGACTTCGGCATTGCCCGCCTGGCCGACCAGGTTCCGCTCACGCAGACCGGACAGGTGATGGGCACCGCCCAGTACCTCGCGCCGGAACAGGCCACGGGGCAGACAGCCACCGGGGCCTCGGACATCTACTCGCTGGGCGTGATCGGGTATGAGTGCCTCACCGGACGCCGGCCGTTCTCCGGCGAGTCCCAGATCGCCATTGCGCTTGCGCAGGTGAACGACGCTCCGCCACCGCTGCCGGATACACTGCCCAAGCCGATCCGTGCCCTCCTGATGTCCATGCTGGCGAAGGATCCGAAAAACCGTCCGGCCAATGCCATCAAGCTGGCGGAGGCCGCGGAAGCCATCCGCCGAGGGGACATCAACGCTGCCCAGGCGGCAGTCCCTGGCATGCTGCTCTTCGACGCAGCCACCGGACCCATCACGGCTCCGGTGGATGTTGCCACCGCGCCCACGGGCGTCATCAGCGGGCAGAAGGACAGTTCGACGACGTCGACCTCCGCCCTGCCCCTGCTGGGCGCCGGAGCTGCGGGTGCTGCAGCCGGCCTTGCCGCCGGAGCGGCCGCGGCGAACGCCGACGGCGGCGGTTCCGGCGCAGGCACCGGCATGGGGAGCACGCTCTCCCGTGCAGATGCACTGGCGGCCGAGCGTACGTGGGACCAGGAAGAGGAAATCTACGACGACGAACCTGCCGATGAGCCAGAGCGCCGCGGCCGCAGCCCCTGGACCTGGCCCCTTATCGCTTTGATCCTGCTGGTGCTGTTTGCATTGGTGGGCTTCTTCCTCTCCCAGCAGGGAATCTTGTTCCCCGGCACCGAAACCACCAGTTCGGCGGCCAGCAGCCCGGCATCCACCAGGGCCACCCCCACCACCACGGCGCCGTCACCCACTGCCACCCGGACCACGCCTGCACCCACGCCGACCCCGACACCCACTCCGGAAACGGTGAACATCATTTCCACGGCCTATTTGGGTAAGGATTACCGCCAGGTCCAGTCGGCCCTGGAGCAGCTTGGCCTGTCCGTCACGGTCTTGCCACAGCAGAGCGCGGAAACGGCCGGGACTGTGCTTCAGATTAACCCGACCGGGACGGTCCCGAAGGGTACGCTGGTAACAGTTATCTATGCCGTTCCCATCCCTGCACCGCCCCCCTCGACGCCACCGGCCCCACCGTCCAGCCCGGCAGCCACGTCAGGCACAGACCCCCTTCCCGACTGCACGGCCGGCCAGCTGCCGGGTGTGCCTCCCACCTGCAAGCCGTAA	MRPTTGITLGGRFQLTTRIAIGGMGEVWKAKDLILGRIVAIKVLKEEYTGDPGFLQRFRAEARHTALLNHEGIANVFDYGEEEGSAYLVMELVPGQPLSSIIEHERVLSPDRTLSMIAQTARALSIAHAQGLVHRDIKPGNLLIMPDGRVKVTDFGIARLADQVPLTQTGQVMGTAQYLAPEQATGQTATGASDIYSLGVIGYECLTGRRPFSGESQIAIALAQVNDAPPPLPDTLPKPIRALLMSMLAKDPKNRPANAIKLAEAAEAIRRGDINAAQAAVPGMLLFDAATGPITAPVDVATAPTGVISGQKDSSTTSTSALPLLGAGAAGAAAGLAAGAAAANADGGGSGAGTGMGSTLSRADALAAERTWDQEEEIYDDEPADEPERRGRSPWTWPLIALILLVLFALVGFFLSQQGILFPGTETTSSAASSPASTRATPTTTAPSPTATRTTPAPTPTPTPTPETVNIISTAYLGKDYRQVQSALEQLGLSVTVLPQQSAETAGTVLQINPTGTVPKGTLVTVIYAVPIPAPPPSTPPAPPSSPAATSGTDPLPDCTAGQLPGVPPTCKP				NA	NA	NA	NA	NA
D1-29_00018	1458	pbpA	COG0768	Penicillin-binding protein A	GTGAACCAGGCAATAAGGAACTCGTGGGTGGCGGCAGTCGCCATGTTCGCGCTGATCTTCGGCGCCCTGAGCTACGTCCAGGTGGTGGGCGCCGATGAACTCAAGGCCAACGCATGGAACAACCGTGCCATCCTCCAGAACTACTGCAACGACCGCGGCGCCATTATCGTGGGCGGAACTCCTGTGGCGGAGTCCGTGGAAGGTTCTGAGCAGTGCAAGTTCCAGCGGACCTATACACAGCCGGAGCTGTACGCCGGAATCACCGGCTACTTCTCGCAAAATTACGGTGCGACGGGGCTGGAGCAGACCATGGGCGAGCAGCTTGCGGGCAGCTCCGACCAGCTCTTCCTGGACCGGATCGGCCAGCTGTTCCTGGGCAACCAGCCCAAGGGTGCCTCGGTGGAACTCACTATTGATCCTGAACTCCAGAAGCTCGCCTACAGCCTGATCCCGGATGGTCAGCGCGGTTCCATTGTGGTGACCAACCCCAGGACAGGCGCAATCCTGGCCATGGTGTCCAAGCCCTCCTACGATCCGAACCTCATCGCCACGCAGGATCCGGCGGCAGAAGCAGCAAACATCAATGAGCTACTCAAGGTTCCCGGCATCAACCTGAACCAGAACGTCAGTGGACCCACAGGCAACCTGCTGGCCCCGGGGTCCGTCTACAAGCTTGTTGACACTGCGGCCGCCCTCAATTCGGGCAAGTACAACAAGGACAGCGTGCTGCCCAATCCCGCGGAAATGCCGTTCGAAGGGATCCAGTACAAACTGCCCAACTATGCTGGCGGCAACTGCTACACCCGGGACACTGCTTCGTTCGCCTTCGCCCTGCAGCAGTCCTGCAACACCCCGTTCGCCAGTATTGCCCTTGACCTGGGACGGGACGCGATCGCGCAGCAGGCTGAAAAGTTCGGGTTCGGCCAGGATCTTGGCGACCAACTGAAGCTTAACTACGCGCCGGGCAACGGCTTCCCTGACGGTCTGGACGCGCCGGGGCTTGCGCAGTCGGCGATCGGCCAGAAGGATGTCCGCGCCACTCCGCTGCAGGTTGCCCTGATGACGGCGGCCATCGCCAACGGCGGCGTTCAGATGAGCCCAAACCTCATCAAGACCGTCCGTTCGCCTGACCTTCGGGTAGTGGATGAGCCTCAGCCGAAGATGTTGCGCACGTCCACCACTCCTGAAATCGCCCAGCAGATCACCCAGTGGATGACCAGCGCGGTGACCGACGGCATTGCCCGCAACGCCGGCGTCCCGGGTGTCCAGGTAGCTGGCAAGACCGGCACTGCGGAGCTCGGCAACGGCCTGAACAACTCTTGGTTTACCGGGTTCGCCCCGGCGAACAACCCGCAGGTGGGTGTCACCATCGTCATGGAGGGCGTTGACATCACCACCGGCGCACAGCTAACCAGTCCGAACGCGAAGAAGATTTTTGAGGCGGTGTTGAATAAGTGA	MNQAIRNSWVAAVAMFALIFGALSYVQVVGADELKANAWNNRAILQNYCNDRGAIIVGGTPVAESVEGSEQCKFQRTYTQPELYAGITGYFSQNYGATGLEQTMGEQLAGSSDQLFLDRIGQLFLGNQPKGASVELTIDPELQKLAYSLIPDGQRGSIVVTNPRTGAILAMVSKPSYDPNLIATQDPAAEAANINELLKVPGINLNQNVSGPTGNLLAPGSVYKLVDTAAALNSGKYNKDSVLPNPAEMPFEGIQYKLPNYAGGNCYTRDTASFAFALQQSCNTPFASIALDLGRDAIAQQAEKFGFGQDLGDQLKLNYAPGNGFPDGLDAPGLAQSAIGQKDVRATPLQVALMTAAIANGGVQMSPNLIKTVRSPDLRVVDEPQPKMLRTSTTPEIAQQITQWMTSAVTDGIARNAGVPGVQVAGKTGTAELGNGLNNSWFTGFAPANNPQVGVTIVMEGVDITTGAQLTSPNAKKIFEAVLNK	PGPT0023920_564	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023920-pbpA-K05364	NA	NA
D1-29_00019	1398	rodA	COG0772	putative FtsW-like protein	ATGAGCCAGCTCAGCACCATCCTTAAACCGCGGCGCAACACCGAGCTGCTGCTGCTGCTGGTGGCACTGGCCGTCGGGATCGGCGCCAACATGCTGGTGGGTGTGGACCAGGAAAAGGCCTTTGATTCGGACTTCTGGTTCCAGTCCAGCCTGCTGGCCGTCGCCGCCCTCGCCTTCCACGCTGTGCTGCGCGTCCGCGCCAAATATGCTGATCCGGTAATACTTCCACTGGTGGTGGCGTTGAACGGACTGGGCCTGGCCATGATCCACCGGCTCGACGCGCCCGGCGACGACACCGGAAACAACCAGCTGCGCTGGACCCTGATCGCCATGGCCGTCGCCATCGCCGTGATCTGGTCCCTGAAGGACCACCGCATCCTGCGCCGCTTCACCTACATTTCACTTGCTGTCAGTGCGCTTCTGCTGGTCCTGCCGCTTATCCCGGGCATCTCGGCCGGTGAAATCCTGGGCGCCCGCGTGTGGATCCGGCTTGGCCCCATGACGTTCCAGCCGGGCGAGGTAGCCAAGATCACCCTCGCTATATTCTTCGCCGGGTATCTTTCCTCGAACCGGGACCTGATCCTGCTGGCTGGCCGCAAAATCGGGCCCCTGCAGTTCCCCCGCTTCAAGGACATGGGCCCCATGATCACCGCCTGGCTGGTCAGCATCGGTGTGCTGATCTTCCAGCGCGACCTCGGATCCTCTGTCCTGTTCTTCGGCCTCTTTATCGTGATGATTTACGTTGCCACCAGCCGGATCAGCTGGGTTGTGATCGGCGTAGGCCTCCTGCTCGGCGGCGGTTTCGTGGCCTCCAGGGTGTTCTCCCATGTGGGGCTGCGGATCGATGGCTGGCTGAACGCCTTCACCGATGAGGTGTACGGGCGGTCCCCCGGCGGTAGCCACCAAATTGTGCAGGGACTGTTCGGCATGGCCAACGGGGGGCTGGTCGGTACTGGCCTGGGCCAGGGCAGGCCCAATCTTGTCCCCTTCGCCAACAGCGACATGATCATTGCCTCGTTCGGCGAAGAGCTGGGGCTGATCGGCCTTTTCGCCATCGTCATGATGTTCCTGCTGCTGTTCACGCGCGGCTTCCGGGCGGCCCTGGGTACCCGGGACGCCTTCGGCAAACTGCTGGCCTGCGGATTGTCGTTCGCCATTGCCCTGCAGTGCTTCGTTGTCATCGGGGGCGTCACCCGGCTCATCCCGCTGACAGGGCTGACCACCCCGTTCCTCGCCGCCGGTGGTTCGTCCCTGCTCGCCAACTGGATCATTGTTGGCCTGCTGCTGATGATTTCGCATGCAGCGCGTGGCCCGGTGGATACCACTCCGCTGGCGCCCGCCCAGGTGGCCGAAGCCGCCGGCATTGACACTCCTACCGAGGCGGTGAAGCCCCTGTGA	MSQLSTILKPRRNTELLLLLVALAVGIGANMLVGVDQEKAFDSDFWFQSSLLAVAALAFHAVLRVRAKYADPVILPLVVALNGLGLAMIHRLDAPGDDTGNNQLRWTLIAMAVAIAVIWSLKDHRILRRFTYISLAVSALLLVLPLIPGISAGEILGARVWIRLGPMTFQPGEVAKITLAIFFAGYLSSNRDLILLAGRKIGPLQFPRFKDMGPMITAWLVSIGVLIFQRDLGSSVLFFGLFIVMIYVATSRISWVVIGVGLLLGGGFVASRVFSHVGLRIDGWLNAFTDEVYGRSPGGSHQIVQGLFGMANGGLVGTGLGQGRPNLVPFANSDMIIASFGEELGLIGLFAIVMMFLLLFTRGFRAALGTRDAFGKLLACGLSFAIALQCFVVIGGVTRLIPLTGLTTPFLAAGGSSLLANWIIVGLLLMISHAARGPVDTTPLAPAQVAEAAGIDTPTEAVKPL				NA	NA	NA	NA	NA
D1-29_00020	1902			hypothetical protein	ATGGCCGCCCCTGACATTTCCGCACACGAGGCCAAGCCCGTGCAGCGGCCCCTCATCATGCGCTACGCAGCGCGCTCGGATGTGGGCCGTATCCGGGCCAAGAATGACGACTCCGCCTATGTGGGACGCCACCTGGCGGTCGTGGCGGACGGCATGGGCGGGCACGCGGGCGGCGATGTTGCTTCTGCGGCCACCGTCCTGGACATGCTGCACCTTGACCACGGGGATTACGACGGCGACGCCGCCACCGTCCTGGCGGACGAGATCCAGACAGCAAACTCACTGCTGTCCGAATTGGTCCATATGAACCCGAAGCTTGCCGGCATGGGGACCACAGTCACCGCTTTGCTCCTGGCCGAAGGCAGGCTGCACTTCGCCCACATCGGCGACTCCCGCGCTTATCGCCTGCGCGATGGCATCTTCGAACAAGTCAGCGTGGACCATACGTTTGTCCAGCGCCTGATCGATGAAGGCCGGCTGCGCCCGGAAGAGGCCGAGACCCACCCGCACAAGAACGTCCTGATGCGCGTGCTGGGAGATGTTGATGCCAGCCCCGAATTGGACCTCGACGTGCTGGATGTCAAGCCCGGTGAACGCTGGCTGCTCTGCTCGGACGGACTGAACTACGTCGCCGGCCATGTGGTGGAGAGGACAGTCCGCGAGACAAAGGACCTCCGCGAGTGCGTCGAGACCCTTGTTGACCTGACCCTCGAGGCTGGCTCTCCGGATAACGTCACCGTGGTGATGGTGGAGATCGCTGAGGAAACCCCCGACGACGTCAATACTGCCGCCGTCGACGTCGTCCCTCCGGCGTTGGCAGCCGGAACCGCCGGACCAACCCAAACTGCCGCGCTGGGTTCCGCGGGGAAACCCGGCTCAGGGCCGAACGAGGCAGCAGCGTCCCTCCCGTCGTCAGGAGAGCCCGCGTCTGACAGGGGTTTTGCGGCCAGGGGTTTTGCGGCCAAGGGCATAACGGCTAAGGGTTCCCCGGACGGAGCGGCAGGAGGCGCCGGTTCCACCCGGGCAGTTCCTCCCGCAGGTGCCGCCGGGGCTGCATCCGGCGGTTCCGCGGCAGCTTCCAGTGGCACAGCTGGCGGCACTGATGACGGCCCACCGGAGGAAACCGGTGCCGAGGACGAAGCCTCCTCCACGGACCCACAGCTGGGCGAGCACCTGTCCGCCGAAGTCCTTCGGGAAGAGCTGGCTTCGCGGCCGCACGAACTCGTGGGGGCGGCGGCCTCGGCTGCAGAATCGGGCTCCATACCAACCATCGCCGGCCGCACCGTCGCCCGGCGCGCCGCCACCGTCCTCACGCACAAAGCTGAGCAGCCCTCCGGAGATTACGAGGAATTCCTCGGACAGCCTCGGCCCCGCAGATGGGTGACCCTGTCCATCGCCGCTGCTGTGGTGCTTGCCCTGACGGTCGGGCTGTGGCTCGGATACGCCTGGACCCAGACCCGCTATTACGTGGGCGAATACAATTCCCGGGTTGCCATCTATAACGGCGTTTCCCAGCGCCTGGGGCCCATCCAGCTCTCCACACTGGAGACTGAAACGGAGATTCGGATGGATTCACTTCCCCAATTTTCCCAGCAGCGCGTCCGCCAGACCGTCCCCGCCCGCGACCTTTATGATGCCCAACGGATCGTCAAGAACCTGGAGCTCACCGGAACAACGTCCCCGGCTGATGACTGCGTCACGCCCACTCCAACGCCCGGAGCCACCACGGCTGCTGCAGCACCCCCGCCCGCCGATCCCGCGGCTCCGACGGCAACGCCGGCCCCATCGGATCCGGCAGCTCCAGCGGCAACGCCCCCGCCCGCCGATTCGGCAGCCCCGCCGGTAACGCCCGCGCCAACAGCTACTCCCAGTCCCACTGCCGTCTGCGAGGGGGGCCAATGA	MAAPDISAHEAKPVQRPLIMRYAARSDVGRIRAKNDDSAYVGRHLAVVADGMGGHAGGDVASAATVLDMLHLDHGDYDGDAATVLADEIQTANSLLSELVHMNPKLAGMGTTVTALLLAEGRLHFAHIGDSRAYRLRDGIFEQVSVDHTFVQRLIDEGRLRPEEAETHPHKNVLMRVLGDVDASPELDLDVLDVKPGERWLLCSDGLNYVAGHVVERTVRETKDLRECVETLVDLTLEAGSPDNVTVVMVEIAEETPDDVNTAAVDVVPPALAAGTAGPTQTAALGSAGKPGSGPNEAAASLPSSGEPASDRGFAARGFAAKGITAKGSPDGAAGGAGSTRAVPPAGAAGAASGGSAAASSGTAGGTDDGPPEETGAEDEASSTDPQLGEHLSAEVLREELASRPHELVGAAASAAESGSIPTIAGRTVARRAATVLTHKAEQPSGDYEEFLGQPRPRRWVTLSIAAAVVLALTVGLWLGYAWTQTRYYVGEYNSRVAIYNGVSQRLGPIQLSTLETETEIRMDSLPQFSQQRVRQTVPARDLYDAQRIVKNLELTGTTSPADDCVTPTPTPGATTAAAAPPPADPAAPTATPAPSDPAAPAATPPPADSAAPPVTPAPTATPSPTAVCEGGQ				NA	NA	NA	NA	NA
D1-29_00021	483	fhaB	COG1716	FHA domain-containing protein FhaB	ATGAGCGAACTGACCATTACGGCGCTGCGGTTTGGATTCCTGCTTCTGCTCTGGGTCCTCATCTTCAGCATCGTCTCTGCCATGCGCCGCGACCTGATGGTGGGCCGCAAGGCCGCCGTCGGAACTCCCACTGCCCGCCAGGTCCGCAGAAATCCGGAACTGGCCGAAGGACCGCCACAGCCGGTGAAGCAGCAGGCGCGGCAACTCGTGGTCACCGAGGGCCCGCTCAAGGGAACCACCCTTCCCCTGGCAGCCAGTCCCATCCTGCTCGGCAGAGCCCAGGAAGCCACTTTGGTACTGGAGGACGATTACGCCTCCGGCCGCCACGCCAGGCTTTTCCCGCAGGGCAGCCGATGGTTCATCGAGGATCTGGGATCCACCAACGGCACCTACCTTGCCGATCAGCAACTTACCCGTGCCCTGCCCGTTGAGCCTGGCGTACCCGTGAGAATCGGCAAGACGGTCATCGAATTGAGGCCATAA	MSELTITALRFGFLLLLWVLIFSIVSAMRRDLMVGRKAAVGTPTARQVRRNPELAEGPPQPVKQQARQLVVTEGPLKGTTLPLAASPILLGRAQEATLVLEDDYASGRHARLFPQGSRWFIEDLGSTNGTYLADQQLTRALPVEPGVPVRIGKTVIELRP				NA	NA	NA	NA	NA
D1-29_00022	744			hypothetical protein	ATGGGATTGCTGGACAAGGTCGAGCGTGGCATCGAGAAAGCCGTCCGCGGTGTCTTCTCCACCGGTTCAAAAGCCCAGGTGGAGCCTGTGGAGATTGCCAGCCGGCTCCGCCGCGAAGTGGACAACAAGGCCATTACCATCGCCGCCGGACGCACTCTGGCGCCCAACATCTTCGACGTCCAGCTCAGCGACGACGACTTCAGGCGGGCCCAGGACTGGGGCACTCCGCTGGCCGAGGAACTGTGCGATGTGGTGATCAACCACGTCCGCAGCCAGGGGTACACCCTGAAAGGCTCCGTCCGCATTTCCTTCCGCCGTCAGGAAGAGCTGCGGGCCGGTGACTTCGAGATCAAGTCCTCCACCGAAAAATCGGCGGCTGCCCCGGGCAGGCCGTCACCCCGCCCCAACATGCCAGCTGCGCCGAGCCGCGCGCCCATCCGCCTCCAGCCCGTCCTGGACATCGATGGCCAGCGGTATTCGCTCAACGCTCCATCCATTGTGCTGGGACGGTCCTCCGAGGCCGATATCCTGGTTGACGATACGGGCGTCTCACGCAAACACCTCGAAATCCAGACTGAAAACGGTGTGACCAGCGCGGTGGACCTGGGTTCCACCAACGGCAGCTACGTCAACGGGCATAAAGTGTCCGGAAGCACCGAACTCACTGACGGCTCCACCATCACGATGGGACGGACAAAGATCATCTTCCGCCTGCTGCCCGCCAATACCGGTGGCCGCCCATGA	MGLLDKVERGIEKAVRGVFSTGSKAQVEPVEIASRLRREVDNKAITIAAGRTLAPNIFDVQLSDDDFRRAQDWGTPLAEELCDVVINHVRSQGYTLKGSVRISFRRQEELRAGDFEIKSSTEKSAAAPGRPSPRPNMPAAPSRAPIRLQPVLDIDGQRYSLNAPSIVLGRSSEADILVDDTGVSRKHLEIQTENGVTSAVDLGSTNGSYVNGHKVSGSTELTDGSTITMGRTKIIFRLLPANTGGRP				NA	NA	NA	NA	NA
D1-29_00024	393			Universal stress protein	ATGAGCGTCGCGGTTGGTTATGCGTCCAGTAAGGAAGGGCGCGCGGCACTGCATGCCGCCATCAATGAGGCAGCCCTGAGGGCCACAACGCTGCAGATCATGGGGCCGGCCGCTGCGGAGGAATCCACGGCCGCAGACCAGGACATCGAGGAGGCGATTGCAGCCGCAGCGGCGCTCGGCGTCAAAGCCACCCTGCGCCGCAATGAGGGCCTGGACCCAACTGACGTCATGATCGACGCGTCCTATGAGGAGGACGTTGAGTTGATCGTCATCGGGGTGCGCCGGCGCTCTCCCGTTGGCAAGCTGTTTCTAGGCAGTACCGCACAGCGGGTGATCCTGGAGGCGGGCTGCCCTGTTACGGCGGTCAAGGCCGACGTCGGGCCCGCCGCCTAA	MSVAVGYASSKEGRAALHAAINEAALRATTLQIMGPAAAEESTAADQDIEEAIAAAAALGVKATLRRNEGLDPTDVMIDASYEEDVELIVIGVRRRSPVGKLFLGSTAQRVILEAGCPVTAVKADVGPAA				NA	NA	NA	NA	NA
D1-29_00025	951		COG1052	2-ketogluconate reductase	ATGAACAACACAGCCGTCCTGCAGGTGGGGCCCCTCATGCCTATGGTCCAAGACGCCATCGTTGGCGAGTACGGAGCCCTGCGGCTCCCCGATTCAGCCGCAGACCAGGAGGCGTTCCTGCGGAGGCATGGAGAGTCTTTCGGCGTCGCGGTGACATCCGGAAAGATCGGGGTGGGTACCGAGCTGATGCGCGCCCTGCCCAACCTCCGCGCGGTGGTCAATTTCGGCGTCGGCTATGACACCACCGATGTTGCCCAGGCCGCCCAACGGGGCATCACCGTCAGCAACACGCCCGATGTCCTTAACGACTGCGTGGCTGACACTGCGATCGCGCTCTACCTCGATGTCCTGCGCAAAACCAGCGCCGCGGACCGCTATGTCCGCCGTGGTGATTGGGTCAGCAAGGGAAACTTCCCCCTTGCCACCAAGGCGAGCGGGACGCGCGTGGGCATCCTGGGCCTTGGCCGGATTGGGCAGGTCATCGCACGGCGGCTTGAAGCCTTCGACTGCACCATCAGCTACCACAGCCGCAGCAGGGTAGCCGGGGTCAGTTATGAGTACGCTGCGTCCCCACGGGAACTCGCGCAGGGCTGCGATGTGCTGATCATCGCTGCCGCCGGCGGTCCGGAATCGGCGGGGCTGGTGGATGCGGATGTCATTGCCGCCCTCGGTGCCAGGGGCTATCTCATCAACATCGCGCGGGGTTCTGTCGTGGACCAGGAAGCGCTGGTTTCCGCCCTGCTGGCCGGGCGGCTTGCCGGCGCCGGACTGGATGTCTTTGCCGACGAACCAAAGGTCCCCGAGGACCTCCTGGCCCTGGACAACGTGGTCCTGCTGCCGCACCTGGGCAGCGGCACGCACGAAACCAGGGCCGCCATGGCCGAACTCACCCTGGCAAACCTCCGGTCATTCCTGGCCACGGGGTCCGTCCTGACAGCCGTCTCCGTATGA	MNNTAVLQVGPLMPMVQDAIVGEYGALRLPDSAADQEAFLRRHGESFGVAVTSGKIGVGTELMRALPNLRAVVNFGVGYDTTDVAQAAQRGITVSNTPDVLNDCVADTAIALYLDVLRKTSAADRYVRRGDWVSKGNFPLATKASGTRVGILGLGRIGQVIARRLEAFDCTISYHSRSRVAGVSYEYAASPRELAQGCDVLIIAAAGGPESAGLVDADVIAALGARGYLINIARGSVVDQEALVSALLAGRLAGAGLDVFADEPKVPEDLLALDNVVLLPHLGSGTHETRAAMAELTLANLRSFLATGSVLTAVSV	PGPT0001315_9	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-VITAMIN_C|ASCORBIC_ACID_BIOSYNTHESIS,PGPT0001315-2_ketogluconate_reductase-K22229	NA	NA
D1-29_00026	1560	sgrR_1		HTH-type transcriptional regulator SgrR	ATGACGCCTTCTTCAAAGCATCCTTTTCACCCCGCCCTTCTCACTTGGCCGGCGCTGGCCTCAGCCGGGCTTCTGGCACTCACCGGCTGCTCAGTGGCCAATTCCGACGGCGGCACGGCCGCCGCGAGCACCGTACGCGTGGTGCTGGGCCAGGAACCCCCCACCCTGGAAGCGTGTGAATCAAACCTGACGTCCACCGGGGTGGTGGTCCGCTCCAACGTGACCGAACCCCTGATCGAGCGGAACCCCCAGACAGGCGAACTCGAGCCCAAGCTCGCCACCGAATGGGAACCAACCTCTGATACTGAGTGGACCCTGAAGCTGCGCGAAGGCGTCACGTTCCAGGACGGCACCCCGTTCAACGCTGAAGCCGCGGCTTTCACCATCGATCGGGCGGTCAACTCCAAACTCGGCTGCAATGTTGAAGGCTACGTCTTTGGCGACGCCGACCTGCTGGTTAAGGCGGTGGATGCCATCACCCTGACGGTCACCACCCCCGAACCGGATCCGATCCTCCCGCTTCGCCTTTCATTCCTGGAAGTTGTTCCTGCCTCAACAAGCACCACCGAGAAGGTCCGCGAGCCGATCGGCACCGGCCCCTACAAAATCGAGAAATGGGACGCCGGCCAGAAGATCTCCCTGACCAGCTGGGACGGCTACTGGGGCGACAAGCCCGCCTACGCCAAAGCCGAATACCAGTGGCGCTCCGAAAGCTCGGTGCGTGCCGCCATGATCACCAGCGGCGAAGCTGACGTGGCCATGGGCCTGAGTCCGGACGACAACATGGGCGACCTCGGGATCGACTACCCCAACAACGAAACCGTGGCATTGAGGCTCGACGCCAACGAGGCCCCGCTGAACGACATCCGGGTCCGGCAGGCCATCAACTACGCCATCGACAAAGAGGGAATCGTCAACTCGCTCTACCAGGGCAAGCACCAGGTGGCGGCCCAGCTGGTTCCGGAAGGCATTGTGGGACACAACGCGGAACTGAAGGGCTGGGCCTTCGACCTGGACAAGGCCAAGGACCTGGTTTCCCAGGCCAAGGCTGACGGCGTGGATACCTCAGCGCAGATCTCCCTCGTTGTCCGCAGTGCACAGTTCCCCAAGATCACCGAACTGGCGCAGGTCCTGCAGGAACAGCTGAGCCAGGCCGGACTGAACGTCAAGCTGAAGATGCTTGAAACAAGCCAGCACCTGACGTACCAGGTCCGTCCCTTCGCCGACGACGAAGGCGCCGTCGCCCTGATGACCCAGCACGGCAACCAGGCCGGCGACGCAGCGTTCACCGTTGACCAGTACATGCTGTCCACCGGCGCCCAGAGCTACTTCGGCACTCCCGAGTTCGACGCCATGATCAAGAACGCCGATGCCGCCTCAGGCGACGAGCGGAAGAAGGACTTTGAGGAGATCTTCGCCTACCAGAATGACAAGGTGGTCCAGTTCGCCCACATCTCCCACCAGACCGGCATCATCGGCAAGGCGAAGTCCGTGAACTACACGCCCAACTCCTCAAGCGGCGATGAACTGCGCGTTTCGGAAATGACCCCGGCCAGCTAG	MTPSSKHPFHPALLTWPALASAGLLALTGCSVANSDGGTAAASTVRVVLGQEPPTLEACESNLTSTGVVVRSNVTEPLIERNPQTGELEPKLATEWEPTSDTEWTLKLREGVTFQDGTPFNAEAAAFTIDRAVNSKLGCNVEGYVFGDADLLVKAVDAITLTVTTPEPDPILPLRLSFLEVVPASTSTTEKVREPIGTGPYKIEKWDAGQKISLTSWDGYWGDKPAYAKAEYQWRSESSVRAAMITSGEADVAMGLSPDDNMGDLGIDYPNNETVALRLDANEAPLNDIRVRQAINYAIDKEGIVNSLYQGKHQVAAQLVPEGIVGHNAELKGWAFDLDKAKDLVSQAKADGVDTSAQISLVVRSAQFPKITELAQVLQEQLSQAGLNVKLKMLETSQHLTYQVRPFADDEGAVALMTQHGNQAGDAAFTVDQYMLSTGAQSYFGTPEFDAMIKNADAASGDERKKDFEEIFAYQNDKVVQFAHISHQTGIIGKAKSVNYTPNSSSGDELRVSEMTPAS	PGPT0004430_14422	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
D1-29_00027	930	gsiC_1	COG0601	Glutathione transport system permease protein GsiC	ATGCTGATCTACTTGAGAAAGCGGATTCTTTCCAGCGCACTTCCGTTGGTGGTGGTAATCGTCGGTGTATTTGCACTGGCCAGGATGACGGGCAACCCCGCCAGCCTGTACCTGCCGCTGAACGCCACCCAACAGATGCGGGACGAGTTCACTTCACGCAACGGTTTCGACCAGCCGCTGCTGGTACAGATGGCTGACTATTTTGGCGGCGTACTCCGCCTGGACTTCGGCCAGTCCCTGCGCACCGGACAGGATGCGGCAGCCATGGCTTTGCGAGCCTTTCCCGCCACCCTGCAGCTCGCCGCCACCACCATGGTGCTGGCCGTCCTGCTGGCCCTGGTGGTGGGTTGCTGGGCCGCGTTGAAGCCGAACGGCATCGCCGACCGGATCTCAAGTTTTGTCTCCATGGCTGCCGCTTCCATCCCTGACTTCTGGCTGGCCATCGTGGGCATCTGGGTCTTCGCCATTACCCTGGGCTGGCTTCCGACATCGGGGGTGTCGGGGGCCAGCGCCTGGGTGCTGCCCATTGCAACCCTGCTGTTGCGGCCTTTCGGGGTGCTGGTCCAGATCGTCCGTGGCTCCATGGTGTCCGCATTGTCGGAGCCGTATATCAAGCTGGCCCGCAGCCGGGGTGCGGGCGAGCTGCGGGTGGTGACCCATCACGCACTGCGCAACGCCGCCGCGCCGGCCCTCACGGTGGCCGGTGACCTGACTGTAGGCCTGGTCAATGGTGCCGTTGTGGTGGAGACCATCTTCGGCTGGCCCGGGATCGGAAAGCTGATGATCGATTCGATCCTGCAGCGCGACTTCGCCGTCCTGCAGGCGGCGGTGCTGCTCACCGCCGTCGCAATCTTTGCCCTGAACATCCTCATCGACATGGGCTACGCGCTGCTGGACGCGCGCGTTCGCCCGGTCACGGCACGGGCTTAG	MLIYLRKRILSSALPLVVVIVGVFALARMTGNPASLYLPLNATQQMRDEFTSRNGFDQPLLVQMADYFGGVLRLDFGQSLRTGQDAAAMALRAFPATLQLAATTMVLAVLLALVVGCWAALKPNGIADRISSFVSMAAASIPDFWLAIVGIWVFAITLGWLPTSGVSGASAWVLPIATLLLRPFGVLVQIVRGSMVSALSEPYIKLARSRGAGELRVVTHHALRNAAAPALTVAGDLTVGLVNGAVVVETIFGWPGIGKLMIDSILQRDFAVLQAAVLLTAVAIFALNILIDMGYALLDARVRPVTARA	PGPT0004445_13710	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
D1-29_00028	963	ddpC_1	COG1173	putative D,D-dipeptide transport system permease protein DdpC	ATGAAAAGTCCATCGACTGAAAGCGCCGCTGTTAAGGGCACCGAAAAGCAGGAAGGAAGGCTAAGCCTCTTCCGTCTCCTATTAAAGGACCGGTTCGCCACCGTATCCGCTGTCCTCCTGGTCCTGATCGGACTGACCGCCCTCATCGGGCCGGCACTGATGGGTGACCTGGCCACCAAACAGAACCTGCTGTTCGCCAACAAGGCCCCCTTCAGCTTCGCCTATGGGTGGGAATACATCCTGGGCAGCGATTCCCTGGGCCGGAGCATGCTGGCCAGGCTGGTGGTGGCCAGCCGGACCACCTTCTCCGTGGCCCTTCCCGCCGTGGCGGTGGCGCTGCTGATTGGTTCGCTGTGGGGAGTCTGGGCCGGCTATCACCGCGGCTGGCGCGAGAACGTGTCCATGCGCATAGCCGACGTCATCATGAGCTTCCCCTCCCTGCTCCTGGCCGTCGTTGTCCTGTACGTCTTTAGCCCCAGCGCCGGCAACATCGTGCTGATCCTGGCCCTCACCCGAATTCCGATTTATCTCCGCACCGCCCGGGCGGAGTCAGCCGAGCTGCAGAGCAGGACATTCGTGGATGCGGCCCGTACCTTTGGCGCCAGGCCCAACGCGATCATCGGCCGGCATGTCATCCCCGTGGTGTTGCCCACCCTCCTCACGCTGGCCACCCTGGAATTCTGCTACGTTATGCTCGCCGAATCCTCCCTGAGTTTCCTGGGCATCGGCATCCAGCCGCCGGACGTGAGCTGGGGCCTGATGGTGTCTCAGGGACGTCAATACCTGCAGACCGCCTGGTGGCTTTCCATCTTTCCCGGCGTTGCCATCGTTATCACCACCATCGCCGCCAACGTGCTGGCCGCCTGGCTGCGGATCGCCACTGATCCGGCCCAGCGCTGGCGCCTCGCCCTTCCCCGCAAGCGGCTGATTGCCCGCATTCCAGTCAAGGAGGCACAGCCGTGA	MKSPSTESAAVKGTEKQEGRLSLFRLLLKDRFATVSAVLLVLIGLTALIGPALMGDLATKQNLLFANKAPFSFAYGWEYILGSDSLGRSMLARLVVASRTTFSVALPAVAVALLIGSLWGVWAGYHRGWRENVSMRIADVIMSFPSLLLAVVVLYVFSPSAGNIVLILALTRIPIYLRTARAESAELQSRTFVDAARTFGARPNAIIGRHVIPVVLPTLLTLATLEFCYVMLAESSLSFLGIGIQPPDVSWGLMVSQGRQYLQTAWWLSIFPGVAIVITTIAANVLAAWLRIATDPAQRWRLALPRKRLIARIPVKEAQP	PGPT0004450_3137	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
D1-29_00029	1134	oppD_1	COG0444	Oligopeptide transport ATP-binding protein OppD	GTGAGAACAGCTGCAGAACAAGCTCGCGCGCCACGTACCGGGACCGCAGGCAACCCGCGAGAAGAGGCCAGGGCCCATGATGTTGTCCTGCAGGTCAGGGACCTCGCCGTGGACATCCGAACCCACAGGGGCACAGTCCGCGCTGTCAACAGCGTGGCATTCGAGGCGCGTGCCGGGGAAACCTTGGCCCTGCTGGGCGAATCCGGCTGTGGCAAGTCCATGACAGCCAAGGCACTTGCCGGAATCATGGATCCGGTCTGTGACCTGGCCGGCGGAGAGATCATCCTGAATGGGACGGACCTCGCGCCGCTGACTCCCAAGGAACGGCTCAAGTTCGCCGGGCCCGAACTGGGCATCGTCTTCCAGGACGCTCTCACGGCCCTGAATCCCGTCTATACCGTGGGCACCCAGCTGGGCGAGGCGTTCCGGATCCACCGTGGCCTCAACGCCAGGCAGGCCCGGGTTGAGGCCGTGGACCTGATGAAGCGCGTGGGAATTCCGGAGCCCGAGTCCAGAATCAATTCCTACCCCCATCAGTTTTCCGGGGGCATGCGCCAGCGCATCCTGATCGCCATGGCCGTTGCCCTCAACCCGCGGCTGCTGATCGCCGACGAGCCCACCACCGCCCTGGACGTCACGGTCCAGGCACAGATCATGCAGCTGCTGCGGACCCTCCGGGAAGAGGGCCAAATGGCCGTTGTCCTGATTACCCACGACCTGGCTGTGGTGGCTGAAGAAGCCGATTCAGTGGCTGTCATGTACGCGGGCAACGTGGTGGAGAGCGGTCCGGTCTCCGAGGTCTTCTCCGATCCCCGCCACCCCTACACCAAGGGCCTCCTGGAGTCGGTGCCCGTGCATTTGGAACGCGGCGCCCAGCTGAAGTCCATCGCCGGCAGCCCGCCGGAACTTCACGACATCCCCTCCGGCTGCGTCTATCAGTCCCGTTGTCCCCTGGTGCAGGACATCTGCCGGGCTGAGCGCCCCGTCCTGCGTCCCGTTACCCAACCTGGCACCCCGGACCAACGCGTGCCTGACACACATTCCGGCATCCAGCCCGGCACCCAGCCTGACACCCAGGCGAGGCCGGTACGCGCCGCCGCCTGCCACTTCAGTGAGGAGCTGAACAATGTCTGA	MRTAAEQARAPRTGTAGNPREEARAHDVVLQVRDLAVDIRTHRGTVRAVNSVAFEARAGETLALLGESGCGKSMTAKALAGIMDPVCDLAGGEIILNGTDLAPLTPKERLKFAGPELGIVFQDALTALNPVYTVGTQLGEAFRIHRGLNARQARVEAVDLMKRVGIPEPESRINSYPHQFSGGMRQRILIAMAVALNPRLLIADEPTTALDVTVQAQIMQLLRTLREEGQMAVVLITHDLAVVAEEADSVAVMYAGNVVESGPVSEVFSDPRHPYTKGLLESVPVHLERGAQLKSIAGSPPELHDIPSGCVYQSRCPLVQDICRAERPVLRPVTQPGTPDQRVPDTHSGIQPGTQPDTQARPVRAAACHFSEELNNV	PGPT0021030_361	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021030-oppD-K15583	NA	NA
D1-29_00030	1026	btuD_1		Vitamin B12 import ATP-binding protein BtuD	ATGTCTGAGCCCCTGCTGAAAATCGACGGCCTCTCCAAGACTTTCCACGTCGCCAGGAGCGCCAGCGGCAACACCCGGCTGAAGGCCCTGGACGGGATCAGCCTGAGCGTGGGACGCGGCGAGACACTGGGCCTGGTGGGTGAGTCAGGGTGTGGAAAGTCCACGCTGGCCAGGACCCTGATGATGCTGGAGACGCCTGACGAAGGGACCGTCAGTTTTGAAGGAACCAACCCCTTTGGACTGCGCGGGAAGGAATTGCTCACGTGGCGTCGGCGGGTCCAGATGGTGTTCCAGGACCCCTTTGCCTCCCTTAACGCGCGGATGAGTGCCGGCGACATCGTCTCCGAACCGTGGGCCACGCACCGTAGCCTCTATCCGTCGTCGAAGGAGCGCGAGGCCAGGGTCCGCGAACTGCTGCATCTGGTGGGACTGCGTCCGTCCGATGCCCGCAAATCGCCGCAGGAGTTCTCCGGCGGCCAGCGGCAGCGCCTGGGCATTGCCCGTGCCTTGGCACTGAACCCTGACGTCATCATCCTGGACGAACCAGTCTCAGCCCTTGACCTCTCCGTGCAGGCGCAGGTCCTGAACCTGCTCAATGACCTTCAAAAGGAGCTTGGGGTGTCCTACATCTTCATCTCCCATGACCTCACGGTGGTCAGGCATGTGGCAGACAGGGTGGCGGTGATGTACCTGGGCAGGATCATCGAAACGGGAGCCACGGAAGAGGTCTTTGACCACCCTCGGCACCCCTACACGGCTGCCCTGATGTCGGCGTCGCCGAAGCTGGACGTCAGCGGGGCGAAGCGGGACAGAATTGTCCTGAAAGGTGAGCTGCCCTCTCCGTTGGATCCGCCGTCGGGCTGCCGCTTCCGTACCCGGTGCTGGCAGGCACAGGACATCTGCGCCAAGGTGGCGCCGGAACCCCAGGTGCTGGCGGCCCCCGATGGCACCCGGCACGTGGCGGAATGCCACTTTCCACTGGCCGCCATCAAGGGACTGACAGGCGCCGCTGCTTCGGCCGGATGA	MSEPLLKIDGLSKTFHVARSASGNTRLKALDGISLSVGRGETLGLVGESGCGKSTLARTLMMLETPDEGTVSFEGTNPFGLRGKELLTWRRRVQMVFQDPFASLNARMSAGDIVSEPWATHRSLYPSSKEREARVRELLHLVGLRPSDARKSPQEFSGGQRQRLGIARALALNPDVIILDEPVSALDLSVQAQVLNLLNDLQKELGVSYIFISHDLTVVRHVADRVAVMYLGRIIETGATEEVFDHPRHPYTAALMSASPKLDVSGAKRDRIVLKGELPSPLDPPSGCRFRTRCWQAQDICAKVAPEPQVLAAPDGTRHVAECHFPLAAIKGLTGAAASAG	PGPT0021035_768	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021035-oppF-K10823	NA	NA
D1-29_00031	732			hypothetical protein	ATGAACGCCCCAGAGTATGCAGTCATCGCCGGTGTGATCTTCCTGGCAGCCTGCCTGCAGGCCTCGACAGGTTTCGGCATGGGAATGCTGGCCGCGCCGGTCATCGCGATGGTGGAGCCGGAGCTGCTGCCCGCTACGCTGATTCTCCTTGCCCTGCTGGTGACCATTATGGTCACTGTGCGGGAGCGCCAGAGCCTGGACCTGCGCGGTACAGGGTGGGCACTGGTGGGCCGGATCCCCGGAAGCATTGCGGGCGCCTTCCTGGTGGCGGCCCTGTCTAAGGAGGGCCTGGCGTGGGCCGTTGCCATCGTGGTGGTGGCAGGCCTGGTATTGGCTGCCAGGGGATGGGCGCCGCCTCCTGTCAGGGTGAACCTGATCGCGGCGGGGGCGGCCTCCGGGATCATGGGCACGGCGACATCCATCGGCGGGCCGCCCATGGCACTGATCTGGCAGGGGCACCACGGCCCGCAGCTTCGGGGCACCATGAGTGCGTTCTTTATGGTGGGCTCCGCGATGTCCCTGGTGTCGCTGGGGCTCGCAGGTGTTGTCACACCCGGGATGCTGATGCTGGCGCTCTGGATGGTCCCTGCCGTGGTGGCCGGCTACGCGGCGTCGCGGTGGGTGAACCGCTTCCTTAATGCCGCACGCCTCAAGCTGCTGGCGCTGGGCGCCTCTGCACTGGGAAGCGTGCTGCTGATCGGCCAGCTCACGCTGGCCGCAGTGGTGTCCTGA	MNAPEYAVIAGVIFLAACLQASTGFGMGMLAAPVIAMVEPELLPATLILLALLVTIMVTVRERQSLDLRGTGWALVGRIPGSIAGAFLVAALSKEGLAWAVAIVVVAGLVLAARGWAPPPVRVNLIAAGAASGIMGTATSIGGPPMALIWQGHHGPQLRGTMSAFFMVGSAMSLVSLGLAGVVTPGMLMLALWMVPAVVAGYAASRWVNRFLNAARLKLLALGASALGSVLLIGQLTLAAVVS				NA	NA	NA	NA	NA
D1-29_00032	1068	hprA	COG1052	Glycerate dehydrogenase	GTGAGTGCTGCGGCAGCTTCCCCACACCGTCCGTCTTCCCCTCCGGAAGCACTGCGCATCGTGGTCACCGATCCGATCATCAGCCGTTTCCAGAACCGCTTAACGCTCGACGGCGGCCATCACCACTGGAACATGGCGGCGGCTTGGACACCGGAACGACAGCTGGAGGCGCTGGCGGGTGCCGACGTCGTCGTCTGCTCTTCCCTCAACCCCGAGCAGGCGGCGGCCGCAAGACGGCTGCGGCTGGTGCACGTGACGGGCGCCGGCTACGACAAAATTTCCTTTCCGGAACTGGCGGCGGAGGCGGCAGTCGCCAACACCTTCCACCATGCACGGCCCATCGCCGAACACGTCCTCATGGTCACCCTGATGCTTTCCCGGAACGTTGTGGCCGCCGACCAAGCCGTCCGTAACGGGCAGTGGCGGACCATCGCCACGGACAGCACCGTGCCCTTCCATCCCTCCCTGGGCGATCTCACGGTGGGGATGGTGGGGCTGGGTTCCATCGGGGCCGAGGTGGCACGCCTGGCCGGGCAGCTGGGAATGAAGGTCAGGGCTGTCCGCCGCACACCCACGGCGTCCGTTCCCGACGGCGTGAAGCTGGACTGGGTGGGCGGGAACGACGAACTTCCCCGGCTCCTGGCCGCGTCAGACGTTGTGGTGGTCACCGTTCCACTGGATTCCTCCACACAGGGCTTGGTCGGGGCTGCTGAGTTGGCGGCGATGAAGAAGTCGGCGCTCCTTATAAACGTCTCGCGCGGCCCGGTGGTGGATCAGGCTGCGTTGTATTCGGCCCTCAAAGACAGGCGAATTGCCGGTGCAGGCATCGACGTCTGGTGGGGATCACCGGCCGACGGCGCTGTTCCGCCGGCGGCGCTTCCCTTCGCCTCGCTGGACAACACCGTGCTGACGCCGCACCATTCCGGACATGCCAGGACCACCTTCGAACGCCGTGCGGAGGACATTGCCGCCAACATCCGCCGGCTCTCGGAGGGCAGGGAACTGGTGAATGTGGTGCCCAGGACGTTTGGGCACGGGACGGTCAGGACACCACTGCGGCCAGCGTGA	MSAAAASPHRPSSPPEALRIVVTDPIISRFQNRLTLDGGHHHWNMAAAWTPERQLEALAGADVVVCSSLNPEQAAAARRLRLVHVTGAGYDKISFPELAAEAAVANTFHHARPIAEHVLMVTLMLSRNVVAADQAVRNGQWRTIATDSTVPFHPSLGDLTVGMVGLGSIGAEVARLAGQLGMKVRAVRRTPTASVPDGVKLDWVGGNDELPRLLAASDVVVVTVPLDSSTQGLVGAAELAAMKKSALLINVSRGPVVDQAALYSALKDRRIAGAGIDVWWGSPADGAVPPAALPFASLDNTVLTPHHSGHARTTFERRAEDIAANIRRLSEGRELVNVVPRTFGHGTVRTPLRPA				NA	NA	NA	NA	NA
D1-29_00033	1302	gudD_1	COG4948	Glucarate dehydratase	GTGAACCAGGCGTACCAACCTGCATATCATCTGAACCAGGTCAGCATCACTGACGTATCCATCACGCCGGTGGCCTTCAAGGATCCGCCACTGCTCAACACCGTCGGCGTGCATGAACCGTTCGCCCTGCGGGCAGTGGTTGAGGTACACACAGACTCCGGCATCTCTGGCCTGGGCGAAACCTATGGCGACGCCGGCCACATCGCCCGCCTCGAACTGGCGGCGCGCGCCCTGACCGGCGCTGACGTCTTCAACATCAACGAACTGCGCAGCCGGGTTGCCATGTCCCTGCAGCAGGACACCATCCGCGGCGGCCACGGCATGAGCGGCATGGTCACAGGATCCAGCACCACTGACAGGGTCCTCTCCGCGTTCGATGTGGCCGCTTTGGACATCCAGGGAAAGCTTCTGGGCCGCCCGGTCAGCGACCTGCTCGGCGGGGCCGTCAGGGACTCGGTGCAGTTCAGCGGATACCTCTTCTACAAGTGGGCCGGCCACCCCGGCCAGGAGGATGACGCGTGGGGCGCAGCCCTGGACCCGGCCGGAATCGTCCGCCAGGCACGGGCCATGGTGGACCGGTACGGCTTCCAGGCGCTCAAGCTTAAGGCAGGCGTATTCCCGCCGGAGGAAGAAACAGCGGCCATCAAAGCCCTTGCCGCCGAATTCCCCGGCGTGCCGCTGCGCATCGATCCCAACGGCGCCTGGACCGTGGAGACCTCCATCCGGGTGGGGAAGGAACTGGACGGCATCCTTGAGTACCTGGAGGACCCGACCCCCGGCATCGAGGGCATGGCAGCCGTCCGCAGGGAGGTGGGCATGCCGCTGGCAACGAACATGTGCGTGGTCAGCTTTGCCGACGTTGCCCCGGCAGTGGCTGCAGGCGCCGTGGACGTCATCCTCTCAGATCACCACTTCTGGGGAGGCCTGCGCCGGACCCAATTCCTGGCGGGCATCACCGAGACCTTTGGCCTGGGCCTGTCCATGCATTCAAATTCCCATTTGGGCATCAGCCTGGCTGCCATGGTCCATCTCGCGGCCGCCACCCCCAACCTCGACTACGCCTGTGACACACACTGGCCATGGAAGGACCCGGCCGAAGACGTTATTGCCCCGGGCCAGTTCGCCTTCGAGGGCGGCGCCGTCACGGTCCCCACCGGCCCCGGGCTGGGAGTGGAACTGGACGGTGACGCCCTGGCCCGCCTGCACCGGCAGTACCTGGATTCCGGGCTGCGGAGCCGGGACGACACGGGTTACATGAAACGCCTCCACCCCTCCTACCAGCTCCAGAGTCCCCGCTGGTGA	MNQAYQPAYHLNQVSITDVSITPVAFKDPPLLNTVGVHEPFALRAVVEVHTDSGISGLGETYGDAGHIARLELAARALTGADVFNINELRSRVAMSLQQDTIRGGHGMSGMVTGSSTTDRVLSAFDVAALDIQGKLLGRPVSDLLGGAVRDSVQFSGYLFYKWAGHPGQEDDAWGAALDPAGIVRQARAMVDRYGFQALKLKAGVFPPEEETAAIKALAAEFPGVPLRIDPNGAWTVETSIRVGKELDGILEYLEDPTPGIEGMAAVRREVGMPLATNMCVVSFADVAPAVAAGAVDVILSDHHFWGGLRRTQFLAGITETFGLGLSMHSNSHLGISLAAMVHLAAATPNLDYACDTHWPWKDPAEDVIAPGQFAFEGGAVTVPTGPGLGVELDGDALARLHRQYLDSGLRSRDDTGYMKRLHPSYQLQSPRW	PGPT0018180_805	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
D1-29_00034	912	tfdS		HTH-type transcriptional regulator TfdS	ATGTTTTCCTTGCCCCAACTTGAGGCCTTTGTTGCCGTCGCCGAGGAACTGCACTTTGGTGCGGCGGCCGAGAGGCTCAACATGACCCAGCCTCCACTCAGCCGGCAGATCCAGATGCTCGAGAAGAAGCTCGGGACGCAGCTTTTTGGCCGCACCAGCAGGAAAGTGGAGTTGACCGCCGCCGGTGCCACGCTGCTTCCACGGGCACGGCAAATCCTGGACATGTGCATCAAGACGGATTTGGATGTCCGGCGGGTCTCATCGGGCGAAGCAGGCGCCATCACTGTGGGGTACACCGCCATCGCCGGCCAGAGCGCGCTTCCTTTGATGCTGCGCCGCGCTGCCGAGAGCATGCCCGGTGTGTCTTTTGTGCTGCGGGAGCTGGTTTCCACGGACCAGATGGATGGATTGGTCAAGGGCAGTGTGGATATCGGCCTGCTGCGTCCCATTGTGGGCCGGCCTGGCGTGGTGTCCCGGCCGCTGATGAAGGACCGCCTGGTGGTGGCGCTGCCTGAGGGCAGCTCCCTGCTGGGCAACATGGCGGCACCAGAGGGCGAGCCATTGCCCCTGGGCTCCCTGGACAGGCTGCCCCTGCTAATGTACTCCACCAAGGAGGCCCGGTACTTCCATGACCTGGTGCTTCGCCTTTTTGCCAGCGCCGGCGCGCACGCCAATATCACCCAGTACGCCAGCCAGGTGCCGGCCCTGCTGGCGTTCGTTCAGGCGGGACTCGGGGTGACCCTGGTGCCCGCCTCCGCCATGGCCTTTGCCCCTGCCGGGGTGGAATTCCACGAGATCGACGGGCGGCACGGCATCAAGGAGTTGAACCGGGTGGACCTTGAGCTGGCGTGGAACGAGGAGACGGCCAACCCTGCGGTGCTGAGGCTGCTTGACCTGATCGAATCCCCCTGA	MFSLPQLEAFVAVAEELHFGAAAERLNMTQPPLSRQIQMLEKKLGTQLFGRTSRKVELTAAGATLLPRARQILDMCIKTDLDVRRVSSGEAGAITVGYTAIAGQSALPLMLRRAAESMPGVSFVLRELVSTDQMDGLVKGSVDIGLLRPIVGRPGVVSRPLMKDRLVVALPEGSSLLGNMAAPEGEPLPLGSLDRLPLLMYSTKEARYFHDLVLRLFASAGAHANITQYASQVPALLAFVQAGLGVTLVPASAMAFAPAGVEFHEIDGRHGIKELNRVDLELAWNEETANPAVLRLLDLIESP				NA	NA	NA	NA	NA
D1-29_00035	696	lutR_1	COG2186	HTH-type transcriptional regulator LutR	ATGAGCCGGAACCTGACCGCGGATCTCGCCGCCGACCTTCGCACCCGCATTGTGGACGGCGTGATCCAGCCCGGGGAGAAACTCCCGAGCGAAAACACCCTGATCGGCGAATTCGGCGTCAGCCGGACAGTGGTCCGCTCCGCCCTGACCCGGCTCCAGGCTGAGGGACTGGTGGAAACCGAGCGCGGCCGGGGCAGCTTCGCGCTGACCCCTCCTGCCGAGGGGACCCCGGCCGCACCCGGCAGCCGGCCCGTGGTAACCATGGAGGACCGCCTCCACCTGCTGGAGTTCCGGATGGGCGTGGAGGCGGAGGCCGCTGCACTGGCCGCCCGCAACCACAACGACCGCCAACTCAGGGCAGTGGACAAAGCCCTTGAGGAGTTCACCGCCAGCTCGGACCACCCCGCGCACGCCATGAAGTCCGACTACGAGTTCCACCGAGCCATTGCTGCCGCCTCCGGCAATCCGTTCTATTCCGACTGCCTGTTGGCCCTCGGCCAGACCATGATCGCGATGCCGCGCACCCGGCTGATGACCGGCGTCGAGCATTATGCGCGGGACAACTTCGACCAGGTGGTGCATGAGCACCGCTCCATCCTTGCTGCCATCGCGGACCGCGACGAAGCCTCAGCCGCGGCCGCGATGCGAAGCCACCTGGCAAATTCCCGACGGCGGCTGCGAGCCTCCCGCCAATAA	MSRNLTADLAADLRTRIVDGVIQPGEKLPSENTLIGEFGVSRTVVRSALTRLQAEGLVETERGRGSFALTPPAEGTPAAPGSRPVVTMEDRLHLLEFRMGVEAEAAALAARNHNDRQLRAVDKALEEFTASSDHPAHAMKSDYEFHRAIAAASGNPFYSDCLLALGQTMIAMPRTRLMTGVEHYARDNFDQVVHEHRSILAAIADRDEASAAAAMRSHLANSRRRLRASRQ				NA	NA	NA	NA	NA
D1-29_00036	1128		COG4948	L-talarate/galactarate dehydratase	ATGAGCACCGTAGACGTCATCCGTCACGTCAAACTTTCCACCGCGAGACTTCCGCTCACTGTCCCGATCAGTGATGCCAAGGTCTTCACTGGCCGTCAGAAACCCATGACCGAGGTGGTCTTCCTCTTTGCCGAGATCACCACGGAGCAGGGCCACAGCGGCGTCGGCTTCAGCTACTCCAAGCGCGCCGGCGGCCCCGCCCAGTACGCGCACGCCAAGGAGGTCGCCGAAGGAATCATCGGCGAGGACCCCAACGACATCGGCAAGCTCTACACCAAGCTCCTCTGGGCCGGCGCCTCCGTGGGCCGCTCGGGCGTTGCCACCCAGGCCTTGGCTGCCATCGACATCGCCCTCTACGACCTCAAGGCCAAACGCGCCGGACTCCCCCTGGCCAAGTTCCTGGGCTCCTACCGTGATTCAGTACAGACCTACAACACCTCCGGAGGGTTCCTCAACGCCTCCCTTGACGAGGTCAAAGCCAGGGCAACCGAGCTCCTGAATGACGGCATCGGCGGCATCAAGATCAAGGTGGGCCTGCCGGATACCGCAGAGGACCTGCGCCGCGTGGCAGGCATTCGCGAGCACATCGGCTGGGACGTCCCCCTGATGGTGGATGCCAACCAACAGTGGGACCGGGCCACCGCACTGCGGATGGGGCGCCAGCTGGAGGAATTCAACCTCGTCTGGATCGAGGAGCCGCTGGATGCCTACGACTTCGAGGGCCACGCCCATCTGGCCAATGTGCTGGATACGCCCATCGCCACCGGTGAGATGCTGGCCTCCGTAGCGGAGCACAAGGGCCTGATCAGTGCCAACGGCTGCGACATCATCCAGCCTGACGCACCCCGCGTCGGCGGCATCACCCAGTTCCTGCGCCTCGCCGCTCTGGCAGACGAGCGTGGACTGGGCCTGGCCCCGCACTTCGCCATGGAAATCCACCTTCACCTCGCCGCCGCATACCCCCGCGAGCCGTGGGTGGAGCACTTCGACTGGCTGGACCCGCTGTTCAACGAACGCCTCGAAACCAAGAACGGCCGGATGCTGGTTCCGGACCGCCCCGGCCTGGGGGTCACGCTCAGCGACCAGGCGCGCGCCTGGACCACCGAAAGCGTGGAGTTCGGCGCGTAA	MSTVDVIRHVKLSTARLPLTVPISDAKVFTGRQKPMTEVVFLFAEITTEQGHSGVGFSYSKRAGGPAQYAHAKEVAEGIIGEDPNDIGKLYTKLLWAGASVGRSGVATQALAAIDIALYDLKAKRAGLPLAKFLGSYRDSVQTYNTSGGFLNASLDEVKARATELLNDGIGGIKIKVGLPDTAEDLRRVAGIREHIGWDVPLMVDANQQWDRATALRMGRQLEEFNLVWIEEPLDAYDFEGHAHLANVLDTPIATGEMLASVAEHKGLISANGCDIIQPDAPRVGGITQFLRLAALADERGLGLAPHFAMEIHLHLAAAYPREPWVEHFDWLDPLFNERLETKNGRMLVPDRPGLGVTLSDQARAWTTESVEFGA	PGPT0018185_162	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
D1-29_00037	921			hypothetical protein	TTGGGCGGCGTTGTCTCCGCAATACTCATCGTCTCCGCGGTCATCGCTGCAGGCTATTTCGCGGCCCGGCTTCGGATCCTCGGACCCGAGGTCCAGGGTGCCCTGACCCGCACTGCCTTCTACATCACCAACCCGGCGCTGCTGTTTACGGTAGTCGCCGGCAGCGACATCCGCGCTGCACTGGGAACCGATGCCCCGCTCGCGCTGCTCTCCGCAGCGATAGTGGGGCTTCTCTATTGGCTGGCGAGTTTCCTGTTCTTTCGGCGTCCGGTGGCGGAGACCGCCGTCGGGGCCATGGCAAGCAGCTACGCGAACGCCAACAATATTGGCATCCCCGTCTCCCTCTACGCGGTGGGGACGGCGCAGCATGTGGCCCCAGTGCTCCTGGTCCAGCTCCTGGTGCTGGCGCCGTTCTACCTCACTGTCCTGGGGCTGGCCTCAGGCTCCACGATCTCGTGGCGGAAGGTGCTGCTCCAACCGTTCGCCAATCCCATGATCATCGCCTCCGGACTGGGTGTCGTCGTGGCCCTCACCGGCTGGACCGCGCCGGACCTGCTGCAAAAGCCCATCGACATGCTCGCCGGAGGCGCCGTGCCAATGGTGCTGCTGGCCTTCGGCCTCTCCCTTGCTGGCAAGGCGCCCCTGCAAAAGGGCGACGGCCGCGTGGAAACGCTCGTGGCCACGTTCCTCAAAATTGCCGGAATGCCGCTCGTCGTGTGGGGCCTGGGCCGCTTCGTTTTTGGACTGGACGGGCAGCACCTGCTCGCCAGCGTCATCATGGCCGCGCTGCCCACTGCCCAAAACGTCTTCCTCTTTGCCTCCCCCTATGGGCGCGGCATGACAGTGGCCCGCGATGTCATCCTGTGCACCACAGTGCTCAGCATCGGCGCGCTCCTGGCCGTGGCCTGGCTGGTTCACTGA	MGGVVSAILIVSAVIAAGYFAARLRILGPEVQGALTRTAFYITNPALLFTVVAGSDIRAALGTDAPLALLSAAIVGLLYWLASFLFFRRPVAETAVGAMASSYANANNIGIPVSLYAVGTAQHVAPVLLVQLLVLAPFYLTVLGLASGSTISWRKVLLQPFANPMIIASGLGVVVALTGWTAPDLLQKPIDMLAGGAVPMVLLAFGLSLAGKAPLQKGDGRVETLVATFLKIAGMPLVVWGLGRFVFGLDGQHLLASVIMAALPTAQNVFLFASPYGRGMTVARDVILCTTVLSIGALLAVAWLVH	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
D1-29_00038	1329	gudD_2	COG4948	Glucarate dehydratase	ATGAGCACCCAGCCCACCATCGCCAAGACTGAGGTCGTCCCGGTCGCCGGGCACGACAGCATGCTGATGAACCTCAGCGGTGCCCACGGACCCTTCTTCACCCGCAACGTGGTCATCATTACCGATTCAGACGGACGCACCGGACTGGGCGAGGTGCCCGGCGGCGAGAAGATCAAGGCCACCATCGAGGAAGCCGGGACGCTCATCACCGGCCAGCCCGTGGCCCGCTACCGCTCCCTGCTGCGGGAAGTCGCGGCGGAGTTTGCCGACCGCGACGCCGGCGGGCGCGGCCTACAGACCTTCGACCTGCGCACCACCGTGCATGCCGTCACCGCCGTCGAATCCGCCCTGCTGGACCTTCATGGGCAGTTCCTCGGCGTCCCCGTCGCCGAACTGCTGGGCGATGGCCAGCAGCGCACGTCGGTGCCGATGCTCGGCTACCTCTTTTTTATCGGCGATCACAGGCGGACCGATCTTCCCTACCTCGTGGAGGAATCGCCGTCGGATCGCTGGGAGAAGCTGCGCCGCCAGGAGGCCATGACACCGGAAGCCGTGGTGGCCCTGGCGGAAGCGGCCCAGGAGCGCTACGGCTTCAGCGACTTCAAGCTCAAGGGCGGCGTACTGTCCGGGGATGACGAAGTTGATGTGGTCACTGCCCTCGCCAAGCGCTTCCCCGACGCGCGGGTCACCCTTGATCCGAACGGCGGCTGGCTCCTGGAGGAAGCCATCCGCCTCGGCAAGCGGATGCAGGGCGTCGTGGCTTATGCGGAGGATCCGTGCGGCGCGGAAGGCCGGTTCTCGGGCCGCGAGGTGATGGCCGAATTCCGCCGTGCCACCGGCCTCAAAACTGCCACGAACATGATCGCCACGGACTGGCGGGAAATGTCGCACGCCATCCGCAGCAACGCCGTCGACATCCCGCTGGCCGATCCCCACTTCTGGACCATGTCCGGCTCCGTCCGCGTCGCGCAACTGTGCAACGAATTCGGCCTGACCTGGGGATCACACTCGAACAACCACTTCGACATCTCGCTGGCCATGTTCACCCACACCGGTGCCGCGGCTCCGGGTGAGATCACGGCGCTGGACACGCACTGGATCTGGCAGGACGGGCAGGGCCTGACCAAGAACCCGCTGCAGATCCACGACGGCGCCATCGAAGTCCCCTCTGCTCCGGGCCTGGGCATCGAACTGGACCGTGAGGCGCTGGACAAGGCTCACGAGCTGTACCTGCAGCACGGCCTTGATGCCCGCGACGACAGCATCGGCATGCAGTACTACATCGATGGCTGGTCCTTTGATCCGAAGCGGCCCTGCCTGGTCCGGTAA	MSTQPTIAKTEVVPVAGHDSMLMNLSGAHGPFFTRNVVIITDSDGRTGLGEVPGGEKIKATIEEAGTLITGQPVARYRSLLREVAAEFADRDAGGRGLQTFDLRTTVHAVTAVESALLDLHGQFLGVPVAELLGDGQQRTSVPMLGYLFFIGDHRRTDLPYLVEESPSDRWEKLRRQEAMTPEAVVALAEAAQERYGFSDFKLKGGVLSGDDEVDVVTALAKRFPDARVTLDPNGGWLLEEAIRLGKRMQGVVAYAEDPCGAEGRFSGREVMAEFRRATGLKTATNMIATDWREMSHAIRSNAVDIPLADPHFWTMSGSVRVAQLCNEFGLTWGSHSNNHFDISLAMFTHTGAAAPGEITALDTHWIWQDGQGLTKNPLQIHDGAIEVPSAPGLGIELDREALDKAHELYLQHGLDARDDSIGMQYYIDGWSFDPKRPCLVR	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
D1-29_00039	1608	LhpG		Alpha-ketoglutaric semialdehyde dehydrogenase 3	GTGACACTCACCGGACATTCCTTCATCGCCGGGCAGCCCCTCGTCGGCGGCGGCAAGACCACTTTCGGATTCAACCCCGCCACGAATGAACAGCTGGACCCCGCCTACTCGCTGATCACCGAAGAACAGCTGACGACGGCGACCTCCGCCGCCGCCGCTGCCTACCCCTCCTTCTCCACCCTGGATCCGGAAACCCTCGCCGCGTTCCTGGACGCCATCGCTGACAACATCGAGGCCATCGGCGAGGAACTGATCATCCGCGCCGGCCAGGAAACCGGGCTTCCGGCTGCCCGGCTGCAAGGCGAACGGGCCCGCACCACCGGCCAGCTCCGCCTCTTCGCGAACGTTGTCCGGCAGGGCGATTTCCGCGGCGTCCGCATTGACCCGGCCATCCCGGACCGTGCCCCGTTGCCGCGTGCGGACATCCGCCAGCGGCAGATCCCGCTCGGCCCCGTGGCAGTGTTCGGCGCCAGCAACTTCCCGCTGGCGTTCTCGACGGCGGGCGGCGACACCGCCTCGGCCCTCGCCGCGGGCTGCCCTGTCGTGTTCAAGGCCCACAACGCCCACCCCGGCACCAGCGAACTGGTCGGCCAGGCAGTGGCCAAGGCCGTCAAGGACTTCGGCCTGCACCCCGGCGTGTTCTCGCTCGTCTATGGCCCCGGGGCCAGCATCGGCCAGGCCCTGGTGACCGACCCTGCGATCAAGGCCGTGGGGTTCACCGGTTCCCAGGCCGCCGGCATATCGCTGATGCGCACCGCGGCCGCCCGGCCCGAACCCATCCCCGTCTACGCCGAAATGTCCTCGCTCAATCCTGTTTTCGTCTTTGAAGGCGCCCTCAACGGCTCCGCCGAAGACATCGATGCCCTCGCCGCCCAGTACGTCACCGCGGTCACCGGAAGCTCCGGGCAGCTCTGCACCTCTCCCGGACTGCTGTTCGCCCCCGCAGGCGAGGCAGGGGACAAACTCGCTGCCGCCGTCGGCCGCGCCGTCTCGGCCTGTGCAGGACAGACCATGCTCACGGAGGGCATCGCCGGATCCTGGAACGCCGGCGCCGAAGCCCTCGGCGCCGCAGCCGGCGTCACCGTCGTCGGACAGGGCACCACCGGCCCCACCGAAAACGCCCCGGCGCCCACCATCTTCGGCACCCAGGTCCGGGACTTCGTCACCAACCACGTCCTCCACCAGGAAATCTTCGGCGCAGCATCCCTGGTCATCCGCTACTCCAACACCGAAGAGCTCCTGGACGCCATCACCAAACTCGAAGGCCAGCTCACCGCCACCCTGCAGCTCACCGAGGCCGACTATCCGACGGCGGCGCCCCTGATCCCTGCCCTCGAACAGAAAGTGGGCCGCATCATCATCAACGGCTGGCCCACCGGCGTCGAAGTAGGCCACGCCATGGTCCACGGCGGCCCCTTCCCCGCCACCTCCGACTCCCGCACCACCTCCGTAGGCACCCTCGCCATCAACCGTTTCCTGCGCCCCGTCGCCTACCAAAACCTCCCCCAGGAACTCCTCCCCGTCCCGCTGCAGGACACCAACCCCTGGCACCTCAACCGGCGCATCGACGGCACCGTGGTTACGGCAGATGCAGAGGTCAACGCATGA	MTLTGHSFIAGQPLVGGGKTTFGFNPATNEQLDPAYSLITEEQLTTATSAAAAAYPSFSTLDPETLAAFLDAIADNIEAIGEELIIRAGQETGLPAARLQGERARTTGQLRLFANVVRQGDFRGVRIDPAIPDRAPLPRADIRQRQIPLGPVAVFGASNFPLAFSTAGGDTASALAAGCPVVFKAHNAHPGTSELVGQAVAKAVKDFGLHPGVFSLVYGPGASIGQALVTDPAIKAVGFTGSQAAGISLMRTAAARPEPIPVYAEMSSLNPVFVFEGALNGSAEDIDALAAQYVTAVTGSSGQLCTSPGLLFAPAGEAGDKLAAAVGRAVSACAGQTMLTEGIAGSWNAGAEALGAAAGVTVVGQGTTGPTENAPAPTIFGTQVRDFVTNHVLHQEIFGAASLVIRYSNTEELLDAITKLEGQLTATLQLTEADYPTAAPLIPALEQKVGRIIINGWPTGVEVGHAMVHGGPFPATSDSRTTSVGTLAINRFLRPVAYQNLPQELLPVPLQDTNPWHLNRRIDGTVVTADAEVNA	PGPT0018165_62	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
D1-29_00040	915		COG0329	putative 5-dehydro-4-deoxyglucarate dehydratase	GTGGCAAAGTACACCCCGCAGGAACTGGCAGACACCCTCAAGGAAGGCCTGCTGTCCTTCCCGGTGACGGCTTTCGACGCCAACCTGCAGTTCGACGAGGAAAGCTACCGCAAGCACCTCGCCTGGCAGGCCAGCTTCCCCGTGGCCGGCCTCTTCGCAGCAGGCGGCACCGGCGAGGGTTTCTCCCTCACCCCTGCGGAATCCGAGCGTGTTGTCAGCGCCGCCGTTGATGAAGTGGGCTCCATGGTTCCCGTCCTGGCCTCCGCCGGCGGTTCCACTGCCCAGGCCATCGAAAACGCCAAGGCTGCCGAAGCCGCGGGTGCCGACGGTCTCCTGCTCCTCCCCCCGTACCTGACCGAGGCTGACCAGGGCGGCCTGACCGACCACGTCAGCGCCATCTGCTGCGCCACGTCGCTGGGTGTGATCATCTACAACCGCGCCAACGCCATCTACAAGGACACCACCGTGGCCACCCTCGCGGACCGCCACGAGAACCTCATTGGCTTCAAGGACGGCGTGGGCGACCTCGAACACGATGCCCGCGTCTACGCCAAGCTCGGCGACCGCCTCTTCTACCTCGGCGGCCTTCCCACAGCGGAGACGTTCGCCCTTCCGCTGCTGCAGCTCGGGATGAGCACCTACTCTTCCGCCATGTACAACTTCGTCCCGCAGTTCGCGCTGGACTTTTACCAGGACGTCCGCAACAACGATCGCGTGGCCGTGAACAAGAAGCTCAACGAGTTCGTGATCCCGTACCTGGACATCCGCGACCGGGTCAAGGGCTACTCCGTCTCCATCGTCAAGGGCGGCCTCGACGCCATCGGCCGCCCGGCCGGCGGTGTCCGCCCGCCGCTGCAGAACCTGGCACCCCAGGATCTCGCGGATCTCAAAGCCCTCATCGCCCGCGTTTCCTGA	MAKYTPQELADTLKEGLLSFPVTAFDANLQFDEESYRKHLAWQASFPVAGLFAAGGTGEGFSLTPAESERVVSAAVDEVGSMVPVLASAGGSTAQAIENAKAAEAAGADGLLLLPPYLTEADQGGLTDHVSAICCATSLGVIIYNRANAIYKDTTVATLADRHENLIGFKDGVGDLEHDARVYAKLGDRLFYLGGLPTAETFALPLLQLGMSTYSSAMYNFVPQFALDFYQDVRNNDRVAVNKKLNEFVIPYLDIRDRVKGYSVSIVKGGLDAIGRPAGGVRPPLQNLAPQDLADLKALIARVS	PGPT0018160_401	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
D1-29_00041	888	hcaR_1		Hca operon transcriptional activator HcaR	ATGTTTACGTTTGACCAGTTGGCTGGATTCATCGCTGTGGCAGAGGAACTTCACTTTGGCCGCGCCGCAGAACGGCTCAACATGACCCAGCCGCCGCTGAGCCGGCAGATCCAGAAGCTGGAAAAGATCATCGGCACCGAACTGCTGGAGCGCGACAATCGGAAGGTGCAGCTCACCCCGGCGGGCGAGGCCTTCCTCGACGAGGCCAGGCGGCTGATGGCCTTGGCCACCCGGGCTCCCGTCACCGCGCGGCGCATCGCCACGGGGCGTTCGGGCATCCTGCGGGTGGGCTTCACCGCTGCCAGCGGCTTCAGCATCCTGGGGCCGCTGCTGGAGGAGATTGCGGAGATCATCCCGGACGTGGACATCGACCTGCAGGAACTCGTCACCGGCGAACAGATTGAGGGGCTCCTCACGGGAGTGCTGGACCTGGGCCTGGCCAGGCCACCGTTCGACCGGGAGATCTTCGACTCGCACCTGCTGTATACCGAGCCCATGATGCTGGCCGTTCCCAGCGGGCACCGGCTCGCGGACCTTTCCCGTCCCATCGAGGACTCCGACATAAAGGAAGAGCCCCTGATCATGCACTCACCCACAAAAGCCGCTTACTTCTACGACCTGGTGGTCCGGATGTTCCCCATCCAGCACGGCAACGTAATCCACACGGTCAGCCAGATCCTCACTATGGTTTCCCTGGTGGCGGCCCGCCGCGGGGTGGCTTTCGTCCCGCATTCGGCCACGCTGCTGGCCATCAAGGGTGTGGACTTCCTCCCCCTCGCCAAGCTGGCCAGCGAGCAGCCCGTGGAATTGCATGCCATCTGGAACCGGAAAGTGGCCAACCCTGCCCTGCGGCGGCTGCTGCAGGATCTGGAGTTCCGCACCGAGTAG	MFTFDQLAGFIAVAEELHFGRAAERLNMTQPPLSRQIQKLEKIIGTELLERDNRKVQLTPAGEAFLDEARRLMALATRAPVTARRIATGRSGILRVGFTAASGFSILGPLLEEIAEIIPDVDIDLQELVTGEQIEGLLTGVLDLGLARPPFDREIFDSHLLYTEPMMLAVPSGHRLADLSRPIEDSDIKEEPLIMHSPTKAAYFYDLVVRMFPIQHGNVIHTVSQILTMVSLVAARRGVAFVPHSATLLAIKGVDFLPLAKLASEQPVELHAIWNRKVANPALRRLLQDLEFRTE				NA	NA	NA	NA	NA
D1-29_00042	1002			hypothetical protein	ATGAAGCACTTCCCCACACGCCGCACGATTCTCGGTGCGGCCGCCGCCACGCTGCTGGCGCTGACCGCCTGCGGCAATGTCGCCGGCGGCGGCACCGCCGATGCGGCCAAATACCCTACCGGGCCCGTCAGCCTCTCCGTGGGCCAGGCTGCCGGCGGCAGCACTGACCTGATCGCCCGTGCCCTCGCCGAAGGGGCCGCAAAGACCCTCGGCCAGCCGATCCCGGTGGTGAACAAGCCCGGCGCCAACGGCGCGCTTGCCACCAAGGAAGTGGCGGGCAAACCGGCCGATGGCCACGAACTGGTCCTGCTCAATGCATCCCTGATCACCATCACACCGTTGGCAGTCACTGCCGATGAAGCCGTGAACATTGATGACCTGGACGTCATCGCGGGCTTGTCGCAGGACGATTACGTCCTCGTGGCCAGCACTGACTCCGGCTTCAAGACGTTCGACGACGTCACCGCCGCAGGGCGCAACGTCACCTTTGGCACCACGGGCGTTGGCACCGGAAGCCAGCTGGCCCAGACCGTTCTGTTCAAGCAGGCCAAGGTCCAGGGAACCGACATCCCCTTTGACAGCGGCAAGCCCGCCCTGACGGCAGTCCTGGGCAACCAGGTTGAGCTCGCCACCATCCAGCTCGGCGAGGCGATGCCGCAGATCGAGGCCGGCAAGGTGACACCGCTGCTGGTCTTCTCGGAGGAGCGCACCAGCTTCCTCCCCGACACCCCCACTGCCAAGGAAGCCGGCTATGACGTTCCGGTTGCGCAGTACCGCGCCGTGGCCGCCCCCAAGGGCACCCCGCAGGAAGTCAAGGACAAGCTGCTCGCTGCCTTCCAGGAGGCCTTCAAATCGGACGCCTACAAGGAGTTCAACAAGAAGAACTCGCTGACGCCGAAGGAGATCTCCGGCGAGGAGGTTGTTACGGAATGGAAGGAATACGCCGCGAAGTACAAGGAGCTGGTGGAGAAGTACGACATCAGCCTGAGCGGAAATAAGTGA	MKHFPTRRTILGAAAATLLALTACGNVAGGGTADAAKYPTGPVSLSVGQAAGGSTDLIARALAEGAAKTLGQPIPVVNKPGANGALATKEVAGKPADGHELVLLNASLITITPLAVTADEAVNIDDLDVIAGLSQDDYVLVASTDSGFKTFDDVTAAGRNVTFGTTGVGTGSQLAQTVLFKQAKVQGTDIPFDSGKPALTAVLGNQVELATIQLGEAMPQIEAGKVTPLLVFSEERTSFLPDTPTAKEAGYDVPVAQYRAVAAPKGTPQEVKDKLLAAFQEAFKSDAYKEFNKKNSLTPKEISGEEVVTEWKEYAAKYKELVEKYDISLSGNK	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
D1-29_00043	591			hypothetical protein	GTGAGTCCTGTGAAAGGAACACCCGCAGTTCCCGCCGGAGGCAGCGAGGCGGTTGCCCCCGGCGGGGAAACCCCCGGTACCGGCCCCGGCGAGGTTCTCGACGACCTGACGCCGGAGCAGCTCGCAGCCCAGTGGGAGGAGGAGAAGCCTCCCGCGGCAGGAGCCCTGGCCAACGCGGCATCCTCGCTGGTGGTCCTCGCAGTGGGGATCGGCGCCGTCGTCCTTTCCGTGGCGATGGGCCTGGGCACCCCGGCCAGCCCGCAGCCCGGCCTCTGGCCGTTCATTATCAGCTGCGTCATGGTGGCCCTCGGCTTGTTTCAGCTGATCGTTGGCCGGCGCAACCGGGACGCGGAGAAGTTCACCCGCATGTCCACCGCGCCGCTGACCGGACTGGTGACCCTCGCCGCCATGGTGGCCCTAATGCCGCTGATCGGGTTCGAAATTCCTGCCCTGGTGCTGTGCATCATCTGGATGCGCTTCCTGGGCGGCGAAACCTGGCGGTCCACCCTCGTTGTCAGCGCAAGTGTGGTCCTTGCCTTCTACGGCATCTTCGTCCTCGCGCTCGGCACCTCCGTTCCCCACCTTTTCTAG	MSPVKGTPAVPAGGSEAVAPGGETPGTGPGEVLDDLTPEQLAAQWEEEKPPAAGALANAASSLVVLAVGIGAVVLSVAMGLGTPASPQPGLWPFIISCVMVALGLFQLIVGRRNRDAEKFTRMSTAPLTGLVTLAAMVALMPLIGFEIPALVLCIIWMRFLGGETWRSTLVVSASVVLAFYGIFVLALGTSVPHLF	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
D1-29_00044	1530			hypothetical protein	GTGGATTTTCTTAATCCCGTGATCAACGGATTCGCGGTTGTCCTGGAGCCCACAAACCTCCTGTACTGCCTGCTCGGCGTGGTCATCGGCATGCTGATCGGTGTGCTGCCCGGCCTGGGGCCCGCGGCAACCATCGCCATCCTGCTTCCGCTCACCTACAACGTGGAGCCGGTGACGGCCATCATCATGCTGGCCGGCATTTTCTATGGCGCACAGTACGGCGGCACCATTACATCCGTGCTGCTGCGGCTCCCCGGCGAAGCGTCCTCGGTGGTCACCGTCTTCGACGGCTACCAGATGGCCAAGCAGGGCAAGGCCGGTACTGCACTTGGTCTGGCCGCGATCGGTTCCTTCGTCGGCGGCACTGCAGCCATCATTGGCCTGACCTTCCTTGCCCCGCTGGTAGCCAGCTTTGCACTGGATTTCGGCCCGCCCGAGTACACAGCCCTGGCCATGCTGGGCATCCTGCTGGTGGCAACCATCAGCAGCGGCTCGAAGGCCAAAGCCCTGATCGCCGCCGCCCTGGGCCTTCTGCTCGCCAGCGTTGGCAGGGACATCTTCACCGGCGAAAGCCGCTTTACCTTCGGCAGCCTGCAACTCGCAGACGGCATCGATTTTGTACCGATCGCCATGGGCATTTTCGGACTCGGCGAGATCCTCTACAACCTGGAGGAACGGCACCGGGCCGCGAAGGCGCCGTCGAAAGTTGCAAACGTCTGGCCGTCCCGGAAGGAACTCAAGCAGGCCTCCGGGGCGATTGGCCGCGGATCGGTGCTGGGCTTCTTCCTGGGAATCCTCCCCGGAGGCGGCGCAACCATCGCCTCGATGGCGTCCTACGCCATGGAAAAGAAGCGGGCCAAGCAGCCTGAGCGCTTTGGCAAGGGTGCCCCCGAGGGCGTCGCCGGACCGGAAACCGCCAACAACGCCGCCGCCACATCGTCGTTTATCCCGTTGCTGACGCTTGGCATCCCGGCCAACGCCACCATGGCGCTGATGTTCGGTGCGCTGCTGATCCAGGGTGTCACCCCCGGACCGCAGCTCGTGGAACAAAACCCGGAGCTCTTCTGGGGCGTGGTGAACTCCATGTACATCGGCAACATCCTGCTGCTGATCATGAGCCTGCCGCTGGTAGGCATCTTCGTGAAGATCCTCCGCGTCAGGGCCGCCATCCTGGCTCCCGTCACGGCACTCATCACGCTGCTGGGTGCGTACACCATCAACAACAGCATGTTCGATGTCACCCTGGTGGTCGTCTTCGGCATCATCGGCTACCTGATGAAGAAGTTTGGCTTCGAACCGGGCCCGCTGGTCCTGGCTTTTGTGCTGGGCGAGCTGCTGGAAAGCTCCATGAGGCGCTCCCTGCTGGTCTTCGGCGGGGATCCCACCGGATTCTTCGGCCGCCCGATTTCGGCGACCCTTCTGGTGGTCTTTGTCCTGGTAGCAGTGCTCCCGGCTATCCGCAGCACCATTGCCAAGCGCAAAATAACCGCCACCACGGCCGTCACCCCGCACATCAAGGAGAAGGTATGA	MDFLNPVINGFAVVLEPTNLLYCLLGVVIGMLIGVLPGLGPAATIAILLPLTYNVEPVTAIIMLAGIFYGAQYGGTITSVLLRLPGEASSVVTVFDGYQMAKQGKAGTALGLAAIGSFVGGTAAIIGLTFLAPLVASFALDFGPPEYTALAMLGILLVATISSGSKAKALIAAALGLLLASVGRDIFTGESRFTFGSLQLADGIDFVPIAMGIFGLGEILYNLEERHRAAKAPSKVANVWPSRKELKQASGAIGRGSVLGFFLGILPGGGATIASMASYAMEKKRAKQPERFGKGAPEGVAGPETANNAAATSSFIPLLTLGIPANATMALMFGALLIQGVTPGPQLVEQNPELFWGVVNSMYIGNILLLIMSLPLVGIFVKILRVRAAILAPVTALITLLGAYTINNSMFDVTLVVVFGIIGYLMKKFGFEPGPLVLAFVLGELLESSMRRSLLVFGGDPTGFFGRPISATLLVVFVLVAVLPAIRSTIAKRKITATTAVTPHIKEKV	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
D1-29_00045	405			Universal stress protein	ATGAGCATCATCGTCGGATTTGTCCCCACTCCCGCAGGAGAAGCCGCGCTGACGGCAGGCATCGCGGAAGCCAAGCTCCGCAACGAGGACCTGCTGATCGTCAACTCGGCCCGGGAAGGCGCCCTCGTGGACAAATCGGTGGCAGCCGACGACGTGCTCGCCCGGGCTGCCCGCCGTGCAGCCGACGCCGGGGTGAACGCCAGCGTTGTTCAGCCTCCGTACCAGCACGATCTTGCTGACGAGTTCCTCGACGTCGCCCGCGAAGCGGACGCATCGCTGATTGTCATCGGGCTCCGGCACCGCACGCAGGTGGGCAAGTTCATCCTGGGAAGCCATGCACAGCGGATCCTCATGCAGGCCGACCGCCCCGTCCTCGCCGTCAAGGCGGACGGAGCCGGTTTCTAG	MSIIVGFVPTPAGEAALTAGIAEAKLRNEDLLIVNSAREGALVDKSVAADDVLARAARRAADAGVNASVVQPPYQHDLADEFLDVAREADASLIVIGLRHRTQVGKFILGSHAQRILMQADRPVLAVKADGAGF				NA	NA	NA	NA	NA
D1-29_00046	702	tetR		Tetracycline repressor protein class B from transposon Tn10	ATGCCGGCAGTATCAGCCGCATCAGGAAGCAGGACCGGAGCCGCCGGCAATTCCTCCACTGCAGCGCGGCGGCGGGCAGGACGCCCGTCAGCCGCCGTCCTGGACAAGGCAGGCATCACGGCCGCCGCCCTGGACCTCATCGGCAAGAAGGGCTACGACGGCCTCACCATGGCCGGACTGGCGCGTCTACTGGAGGTGGCGCCGTCGGCCCTTTACAACCATGTAGCGTCCAAACGGGACGTCCTCCTGCTGGTGGAGGACCACCTCACGGCCCTGGTGGATGTGTCCGGCTTCGGCGTGGAACCCTGGGAAGACGCCGTGCGGACATGGGCGTGGAGCTATCGTGACGTCTTCGCCCAGCACACTCCGCTGATTCCGGTGATAGCCGTCCTGCCCGTGACGGACGCACCGCAGACCCTCGCCATGTACGAGACGGTGAGTGCCGCTTTCCTGGCTGCCGGCTTCCCCCAGGAGCGGATTGTGTCCGCGATCGTAGCTCTGGAATCGTTCATTTTCGGCTCGGCCTATGACGTGACAGCACCCGCTGACATTTTCGATGCCGGCAGCATGGCCGGCGCCACTCCGCATTTCACCGGGGCGGTGCAGAGCCTGGCCGCCCAGAGGCACCACAAGCCGGCTGATGTTGCCTTCGGCCTGGGCCTGGAGGCGCTCATCACTGGGCTCGGAGCGCTGCGGAGCTAA	MPAVSAASGSRTGAAGNSSTAARRRAGRPSAAVLDKAGITAAALDLIGKKGYDGLTMAGLARLLEVAPSALYNHVASKRDVLLLVEDHLTALVDVSGFGVEPWEDAVRTWAWSYRDVFAQHTPLIPVIAVLPVTDAPQTLAMYETVSAAFLAAGFPQERIVSAIVALESFIFGSAYDVTAPADIFDAGSMAGATPHFTGAVQSLAAQRHHKPADVAFGLGLEALITGLGALRS				NA	NA	NA	NA	NA
D1-29_00047	1404	puo		Putrescine oxidase	ATGCTGAACCTTAACCGCGACGTTGTGGTCGTGGGAGCCGGGCCCTCCGGCCTGACCGCCGCCCGTGAACTGAAGAAGGCCGGCCTGAGCGTTGCCGTGCTGGAAGCCCGTGACAGGGTGGGCGGCCGCACCTGGACCGATACCGTGGACGGCGCCGTGCTGGAAATCGGCGGCCAATGGGTCTCGCCGGACCAGACCGTGCTGCTGGAGCTGCTGGAGGAACTGGGGCTTAAAACCTATTCGCGGTACCGCTCCGGCGAGTCGGTCTACATCGGTGCCGACGGCAAACCCGTCCGCTACTCCGGCGACTCCTTCCCCGTGGACGCGGCCACCGCCGTCGAGATGGACAAGCTGATTGGCCTGCTGGACGGGCTGGCCGCCGAAATTGGCCCCACCGAACCCTGGGCGCACCCGAAAGCCCGGGAACTGGACACCATTTCCTTCCACCACTGGCTGCGGGCCAATTCGGACAACGAGGAAGCCTGCAACAACATCGGCCTGTTCATCGCCGGCGGCATGCTGACCAAGCCTGCGCACGCCTTCTCAACACTGCAGGCAGTGCTGATGGCGGCCTCTGCGGGGTCCTTCACCCACCTCACTGATGAGGACTTCATCCTGGACAAGCGGGTGATCGGCGGGATGCAGCAGGTCTCGCTGCTGCAGGCGCAGGAGTTGGGGGACGACGTGGTCCTTAACAGTCCCGTGCGCAGCATTAACTGGAGCACGGATCCCGACGGCGGCAGCGGCGACCGCTACCGGGTCACCGCCGTTTCCGAGCGGGCAACTGTCAACGCGCGGTTTGTGATCATGGCCGTCCCGCCGAACCTCTACTCGCGGGTTTCGTTCAATCCGCCGCTCCCGCGCCGGCAGCACCAGATGCACCAGCACCAGTCGCTGGGCCTGGTCATTAAGGTGCACGCCGTCTACAGCACGCCGTTCTGGCGGGAGCAGGGGCTGTCAGGGACCGGCTTTGGCGCCGGTTCCCTCGTCCAGGAGGTCTACGACAACACCAACCACGGCGATTCCCGCGGCACGCTGGTGGGGTTCATTTCCGACGAAAAGGCCGACGCCGTCTTCGAACTGGGTGCTGAGGAACGCAAGCGGGCAGTCCTTGAATCGATCGCCGGGTTCCTGGGGGACAAGGCCCTGGAGCCGGAGGTCTATTACGAGTCGGACTGGGGCTCGGAGGAGTGGACGCGCGGAGCTTACGCCTCCAGCTATGACCTGGGTGGCCTGCACCGCTACGGCAAGGACCAGCATGCGCCGGTGGGGCCGATCTACTGGTCCTCCTCAGACCTTGCTGCCGAGGGCTACCAGCACGTGGACGGTGCCATCCGGATGGGCAGGATCACTGCTGCCCGTATCTGCGAGGTTGCCCGGGTGGCAGTGCCGGCAGGGGTCTAG	MLNLNRDVVVVGAGPSGLTAARELKKAGLSVAVLEARDRVGGRTWTDTVDGAVLEIGGQWVSPDQTVLLELLEELGLKTYSRYRSGESVYIGADGKPVRYSGDSFPVDAATAVEMDKLIGLLDGLAAEIGPTEPWAHPKARELDTISFHHWLRANSDNEEACNNIGLFIAGGMLTKPAHAFSTLQAVLMAASAGSFTHLTDEDFILDKRVIGGMQQVSLLQAQELGDDVVLNSPVRSINWSTDPDGGSGDRYRVTAVSERATVNARFVIMAVPPNLYSRVSFNPPLPRRQHQMHQHQSLGLVIKVHAVYSTPFWREQGLSGTGFGAGSLVQEVYDNTNHGDSRGTLVGFISDEKADAVFELGAEERKRAVLESIAGFLGDKALEPEVYYESDWGSEEWTRGAYASSYDLGGLHRYGKDQHAPVGPIYWSSSDLAAEGYQHVDGAIRMGRITAARICEVARVAVPAGV	PGPT0007642_60	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007642-puo-K03343	NA	NA
D1-29_00048	1305			hypothetical protein	ATGACTGATGCTCCTATCCGCGTCAACGACAACGGCGCCTGGTGCTGGTTCCAGGACGAGCGGGCGCTGATCGATCCCGGGAACAACACGCTCCTGGTGGGCTCTGTGGCCGCACCCGAGGGCCCCGGCGGTTCGGCCAGGGGCGGAAATATCGAGGTTGCCGTGCTGGACCTGGGCACAGGGGAGCGGCGGGTGCACGTACTCCATGAGCGGCTTGAATCGGATGACCACAACGCCCCTGCGCTTCTGATCCGGCCGGATGGGCGCTACCTCGCGATGTACGCCAAGCACAAAACAGACAACTATTCCCGCTGGCGGGTGTCCGTCCGGCCGCATGATGCCAGCGAGTGGAGTCCGGAACAGAGCTTCGACTGGACAGAGCTGGCCGACGGCCGGGGTGCAACCTACTCCAACCTGCACCGGCTGTCCGCGGAGGCGCTGACCTACAACTTTGTCCGCGCCGTCAATGATGATCCCACCATGATGGTCTCCGGCGACGACGGCAGCACCTGGAGCTACGGGGGCAAGCTTTTCACGCGGCCCAAAGTGGGGTACGTCAACGGGTACACCCGGTATTCCTCCAACGGCACGGACCGGATCGACCTGATCACCACCGACCACCATCCCCGGGATTTCAACAACAACATCTACCACGGCTACCTCCAGGGCAACGCGCTGCATGACACCACCGGGCGGGTGGTCAGCAAACCCGTGATCGGCTCGGCCGGTGTCTCGCAGACCGAACTCACCACCATTTTCGCCGCCGGAAGGGAGCTCGACGGCGACGTCCTCACCCACGGCTGGACAGCCGATCTCCGAAGGGACGGCACCCAGCTCGCGGCGATCATCACCTGCCGGGCCAACGACGTCAACGGCCCCCTCGAGCGGAACCAGCAGCTCGACGTCGACGATCACCGCCTGCTCTACGCGCGGTTTGACGGTTCCAGCTGGGCGCTTCATCCGCTTGCCGTGGCCGGCCCCGGGTTCCTCCCGCACGAGCAGGACTACACTGGGCTGGGAGCTGTGGACCCTTACGACCTGGACCACGTTTACATCTCGGCCCCGGTGGATCCGCGCTCCGGCCGCGCCACCGAACACTACGAGATCTACTCTGGGCGTACGTCCGACGGCGGCGCGGGCTGGGTCTGGGAGGCTGTCACTGAGGGGTCCGCCGTCGACAACCTGCGGCCGATGGTGGTTCCGGGAGACCCCGCCGTGCACGCGCTCTGCTGGTTCACGGGATCCATGAGGTCATCGCAGGCGTTTGAGACAGAGATCGTGGCGGTGGTGAATCGCTGCTACTGA	MTDAPIRVNDNGAWCWFQDERALIDPGNNTLLVGSVAAPEGPGGSARGGNIEVAVLDLGTGERRVHVLHERLESDDHNAPALLIRPDGRYLAMYAKHKTDNYSRWRVSVRPHDASEWSPEQSFDWTELADGRGATYSNLHRLSAEALTYNFVRAVNDDPTMMVSGDDGSTWSYGGKLFTRPKVGYVNGYTRYSSNGTDRIDLITTDHHPRDFNNNIYHGYLQGNALHDTTGRVVSKPVIGSAGVSQTELTTIFAAGRELDGDVLTHGWTADLRRDGTQLAAIITCRANDVNGPLERNQQLDVDDHRLLYARFDGSSWALHPLAVAGPGFLPHEQDYTGLGAVDPYDLDHVYISAPVDPRSGRATEHYEIYSGRTSDGGAGWVWEAVTEGSAVDNLRPMVVPGDPAVHALCWFTGSMRSSQAFETEIVAVVNRCY				NA	NA	NA	NA	NA
D1-29_00049	612			hypothetical protein	ATGGAGCCAACAGAAACGAAAACCCGTGACGAGTTCGGCAGGCTGCTGGCGGACCGTGAGGTGTGGCGCCAGGCAGTAACCCTGGAGGCGGCCGGCGAGCTGACCGCCCGGTGGCTGGAAGGCAGCAGCGAGTACCAGGCGGCCACGTTCACAGCCCGCTACGACGACGAAACCCGCCACATAGCTTTGGCACTGGCCGCGCTCAACCGGAACGGGCTGTTCACCAAGGAGTCCCAGCCGGGCCTGCGGTCCGGAGCACACGTCCAGCGCGAATATGTCACGGGCTTCTGCAGCGCTGACGCAGCCGCCGAGCTCCTGTCCCTGTCCACGCGGTCCGATCTTGTCACAGTGGTACACGCACCCGGCGAGGCCAGCAGCGCGGCGATCCCTGTCACGCTGTCCGGAACCGAGGTGGTCACGGTGCTCGGCACCAGCGAAAACCCGGTCAGTGAGGAACAGATCCGGGGCTGGGCGGATGAGACCAACGAAACCCTGGCGCTCCTGCTGGCCGATTCCTGGTACGTGGAGATCCTGGACCCGGTGTGGGGCAGGAGCGACGTTCTGCTGCCCGCGGTGCTTTCCGCGCTGGCGTCACTGGCGTCCCGTCAGTAG	MEPTETKTRDEFGRLLADREVWRQAVTLEAAGELTARWLEGSSEYQAATFTARYDDETRHIALALAALNRNGLFTKESQPGLRSGAHVQREYVTGFCSADAAAELLSLSTRSDLVTVVHAPGEASSAAIPVTLSGTEVVTVLGTSENPVSEEQIRGWADETNETLALLLADSWYVEILDPVWGRSDVLLPAVLSALASLASRQ				NA	NA	NA	NA	NA
D1-29_00050	960			hypothetical protein	ATGGACAACCAGCCCCACAACCGCGCCGACATTCGGGACTTCCTGGCCAGCCGTCGCGCCAAAATCCGGCCTGAGGATGTGGGGCTGCCGGCAGGCACCAGGCGGCGCGTTCCCGGGCTGCGCCGCGAAGAGGTGGCGGTTCTCGCCGGGGTCAGCACGGAGTGGTATGCCCGCCTTGAAAAGGGTCATATCAGGGGTGTGTCGGAGGATGTCCTGAAGGCAGTGGCCCGCGCACTGCACCTGACCGACGAGGAATGCCTGTATCTCTTCGAACTGGCGCGGGCTGCCAACCCCGCCCGCCGCCCAAGTTCCCGCCGCAAAGAAGCCGACGTCGCGGCACCGGTCCAATGGCTGCTCGACTCCATGACGATGTCCGCAGCGTTCCTCCGCAACGGCAGCCTCGACATTCTGGCCACCAATCCGTTGGGGCGTGCACTTCATGCGCCGATGTTCGCCAGCAGCACCGCCGCTGCCCACGGCCACGCGAACTTCGCGCGCTTCCACTTCCTTGACCCCGCGGCCCGGGACTTCTACGTGGATTGGGAAGGTGGCGCCGCCGTCACAGCTGCTCTGCTGCGGGCCGAAGCCGGACGTGATCCCAACGACGCCTCCCTTCGCGCACTGGTGGGCGAATTGTCCACACTGAGCCCGGAGTTCCGAACGCTCTGGGCATCGCATGACATCCGCTTCCGCCACGAGGGAACCAAGCGCCTGCGTCACCCGGTGGTGGGCGACCTGGAGCTGACCTACCAGCCCCTCTCCCTGCCGAGCCTCCCCCGGGCCATGCATGAACTCAGCGTCTACACCGCCGAACCGGGAACCACCAACGAAGAGCGCATCAAGGTCCTGACCAGCTGGGCGGCCACGGCTGCCGCCGAAGCAGCTGCCGCGGAAGCAACGGAAGCAACGGAAGCAACGGAAGCAGCGGAGCCGGGCAGCCGGCAAAACCCGGCTGTCTGA	MDNQPHNRADIRDFLASRRAKIRPEDVGLPAGTRRRVPGLRREEVAVLAGVSTEWYARLEKGHIRGVSEDVLKAVARALHLTDEECLYLFELARAANPARRPSSRRKEADVAAPVQWLLDSMTMSAAFLRNGSLDILATNPLGRALHAPMFASSTAAAHGHANFARFHFLDPAARDFYVDWEGGAAVTAALLRAEAGRDPNDASLRALVGELSTLSPEFRTLWASHDIRFRHEGTKRLRHPVVGDLELTYQPLSLPSLPRAMHELSVYTAEPGTTNEERIKVLTSWAATAAAEAAAAEATEATEATEAAEPGSRQNPAV				NA	NA	NA	NA	NA
D1-29_00051	1044	adhC2_1	COG1064	NADP-dependent alcohol dehydrogenase C 2	ATGCTTTCCGTTAATGCTTACGCAGCCCCGTCCCCCACCGGTGACCTGGGCCCCACCACCATCGAACGCCGCGACGTCGGGCCCCATGACGTGCTGATCGAAATCAAGTACGCGGGCATCTGCCACTCTGACATCCACACCGTGCGCGGAGACTGGGGACCCCAGCAGTACCCGTTGGCCCCCGGCCACGAGATCGCAGGGATCGTCACCAAGGTGGGCACCGAAGTCACCAAACATGCCATCGGAGACCGCGTTGGCGTCGGCTGCATGGTCAACTCCTGCCGTGAGTGCGCCAATTGCCTGAAGGGCGAGGAGCAGTACTGCCTGAACGGCATGATCGGCACCTATGGAGCCGAAGACCGCGACGGAACCGTCACCCAGGGCGGCTACTCCACCCATGTGGTGGTCACCGAAGACTTCGTGGTGCGCATCCCTGAGGGGCTGGACCTCGCTGCTGCGGCGCCGCTGCTCTGCGCCGGGATCACCACCTTCTCCCCGCTCCGCCGCTGGGGTGCCGGACCCGGCAAGAAGGTTGCCGTCGTCGGCCTCGGCGGACTCGGGCACATGGCCGTCAAGCTCGCGTCCGCAATGGGCGCCGAGGTGACCGTCCTCTCCCAGTCCCAGAAAAAGCAGGAGGACGGGCTGCGCCTGGGCGCCGACAGCTACTACGCCACCAGCGATCCCACTACGTTTGAACAGCTCGCCGGGACGTTTGAGCTGATCATCAACACGGTCAGCGCTTCGATCGACATCTCTGCCTACCTCCAGCTGCTGACCCTCGACGGCGCCCTGGTGAACGTGGGCGCCCCCGCCGAGCCGCTTCCGGTCAACGCCTTCGCCCTCATCATGGGCCGGCGCTCGTTTGCCGGCTCGATGATCGGCGGCATCCGTGAAACGCAGGAGATGCTGGACTTCTGTGCCGAACACGGACTCGGCGCGGAAGTTGAAGTCATCCCTGCCGGCAAGATCAATGACGCTTACGAACGCGTCCTGGCCTCCGACGTGCGCTACCGCTTTGTCATCGACACGTCGACCCTGAACTAG	MLSVNAYAAPSPTGDLGPTTIERRDVGPHDVLIEIKYAGICHSDIHTVRGDWGPQQYPLAPGHEIAGIVTKVGTEVTKHAIGDRVGVGCMVNSCRECANCLKGEEQYCLNGMIGTYGAEDRDGTVTQGGYSTHVVVTEDFVVRIPEGLDLAAAAPLLCAGITTFSPLRRWGAGPGKKVAVVGLGGLGHMAVKLASAMGAEVTVLSQSQKKQEDGLRLGADSYYATSDPTTFEQLAGTFELIINTVSASIDISAYLQLLTLDGALVNVGAPAEPLPVNAFALIMGRRSFAGSMIGGIRETQEMLDFCAEHGLGAEVEVIPAGKINDAYERVLASDVRYRFVIDTSTLN	PGPT0024430_1740	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
D1-29_00052	1527			hypothetical protein	ATGCCACAGCTGCCGCTTCGCAGGGTCGGCTTCATTTCTATTGGGGGAATCTTGATCACCGTTCTGCACCGCGCCCTGCGCCAATTCCTGTCTGCGGCCCTAGCTGTTGGCGTTGTGCTGGCACTCGTCATCGCTGCCGTACTGATTCCCTCCACAGCGGCGCACGCTGATTCTGAAGGCGAGGACCGGGTACAAACCACCTACCTCATCGAAAGCGAATGGCCGCGGGTCAGGTTGGCGGCGCAGAAGGCATTGGATAGCAATTCACCAGTAGTGATTCGGGAGTTCCTCCGTTACGGGCAGTATCTCGCGGCTGCCATGGACCAGGAGGAACAGGCCATCCTCCTGCTGACGGGAAACGCAGAGTCTGCCAGCCTCGAAGCGCAGTCGCAGAGGCTGGCTGCCGAAAGCTTCCTGGTCCAGGCGAACGATCCCCAGCGCGCCATCGCTGCCGCTGCGTCTGCCAAGACGGCGGCGGAAGCCGCACGGGCGGCAGCGGGGAAGGCAGCCGAGGCCGTGAAAGCCGCCCAAGTAACAGAGCAAGCTTCCCGGGCGGAGGAGCATGCGCGGTTCCTGACTGATTGGGCCTTCCGAACAGCTGAGGCCAAGGCTGCCAACCTGGTAGAAGATGCCCGGCTGGCCGCAGAAGCCGAAAGCAGGATTAACAACCCGGAACCCTATCCAACGGATGAGCAGATCACGGCTGACAGGCAACGGACGTATCAGTACCTGGCTACGGGCACCCCGCACGTCCAGTCGTCTGCAAAGAAGGTCCTGCTGGGGAATGATCCCCTTCTGGTGCGCTCATTCCTGGTGGAAGGTGTCTTCGCGGCCGAGGAATTGGACAACAGGATTTTTGCCTACGCGCTGCTTGAAACGGGCGGTTCCGAAACAAGGGCCGGCGCTGATGTCGCCATAGACGGGACGCGGGAAATGGTCCGCACTTTTGTCCAGACCGAGCAGTTCCGGTTGGCAGCGAGGGACCAGGAAAAAGCGGCCCACGTGATGGGCATCCAGGCACGAATTTTGGTCTCCAAAAACCTTGCAAGCCAGGCTGCGTCGGACGCCGCAGCCGCCGAAGCAGCGGCTGCCGCGGCAGCCACACTGGCGGCGGCTTCCAAAGCAACCAGCACACCTTCCAGCCAGACCGGAACGGCCATCAAACAGGCACCGGCTCAGGGCAGACTTGGCCTCACGGGTGGCACCGCCCTGAACACAGGACTCTTCGGTGCAGCCTCCTCCCCGGAGCTGCCTGCACCGGCTGAGGCCGCTGCCCCCGCGGAGCTGGCGGAAACCCCAACGCCTGCTGCAGCCGCTGCCCCTCCGGCGGGCAAAACATCCTCCGGAACGGGCGATGCCGATAAGAAGGCGGCCGATAAGAAGGCGGCTGCACCGCAGGCCAGCGGGACGCAGGCAAGCCAGAATACCGGGCTTCCTCTGTGGGCCATCCTGCTCGGCCTGGGAGTGTTAGTACTGGCGGTTGCTTGCAGCATCCTTGTCCTGCGCCGCCGCAGGATTCTGGCCTAA	MPQLPLRRVGFISIGGILITVLHRALRQFLSAALAVGVVLALVIAAVLIPSTAAHADSEGEDRVQTTYLIESEWPRVRLAAQKALDSNSPVVIREFLRYGQYLAAAMDQEEQAILLLTGNAESASLEAQSQRLAAESFLVQANDPQRAIAAAASAKTAAEAARAAAGKAAEAVKAAQVTEQASRAEEHARFLTDWAFRTAEAKAANLVEDARLAAEAESRINNPEPYPTDEQITADRQRTYQYLATGTPHVQSSAKKVLLGNDPLLVRSFLVEGVFAAEELDNRIFAYALLETGGSETRAGADVAIDGTREMVRTFVQTEQFRLAARDQEKAAHVMGIQARILVSKNLASQAASDAAAAEAAAAAAATLAAASKATSTPSSQTGTAIKQAPAQGRLGLTGGTALNTGLFGAASSPELPAPAEAAAPAELAETPTPAAAAAPPAGKTSSGTGDADKKAADKKAAAPQASGTQASQNTGLPLWAILLGLGVLVLAVACSILVLRRRRILA				NA	NA	NA	NA	NA
D1-29_00053	594			hypothetical protein	GTGGTGCCAGCCGCAATGGAGTTCTTGCTTCTCACGGTGGGGCCGTTCCTTTTCTGGGGTGCCCTGCTGGTGGCCGCGGTGGCCGGCACGGTGTTCGCCGTCCGCCGCCACGCTATGCTGCAGGCCGACGGAACCTCAGACACCATGTTTTGGGACGTCTTTATGGGTTCCGTTGTGGCGGTTCCGGCCATTCTGATCCCGGCGCTGGAATCCCCGTTGTCCGGCTTGCTGCTGAGTGTTGTTGGTGGGGCCGCGGGTATCGCCTCCTACCGGTACAGCCCCCGGGTTCTGGCCTGGCAGCAGCTCAGGAGGCAGCGGCGGCTGGATCAGCCCGTTCACCAGGCAGCACAGGCACAGCATGAGGAACTGCTGGCCCGCTGGCGCAGATACGAACTCGATCCTGCCCTGTGCATCGACTACCCCGCTATCACCGATGTCCGGATGCCCGAAACCTCGGCCCTGATCAGGGCTATGCGTGATGCGGAGGAGCTGCGGGCGGTACGCCACGAAGGGTACCCGCCCGCCGTCACCCGGCTTGTGCAGGCCCTCGCCGCCGCGGAAAAGGCAGCAGGCATCCCGGCAAACGGACACTAA	MVPAAMEFLLLTVGPFLFWGALLVAAVAGTVFAVRRHAMLQADGTSDTMFWDVFMGSVVAVPAILIPALESPLSGLLLSVVGGAAGIASYRYSPRVLAWQQLRRQRRLDQPVHQAAQAQHEELLARWRRYELDPALCIDYPAITDVRMPETSALIRAMRDAEELRAVRHEGYPPAVTRLVQALAAAEKAAGIPANGH				NA	NA	NA	NA	NA
D1-29_00054	759	pxpA_1		5-oxoprolinase subunit A	ATGCCATTCATCGATCTGAACAGCGACGTCGGAGAGTCCTTCGGCAGCTGGACCATGGGCGACGACGCGGCCATCTTCCGCCACGTTTCCAGCGCCAACGTGGCCTGCGGCTTTCATGCCGGTGACCCCACCACCATCGCCAGGACCTGCCGCGACGCCGTAGCCGCAGGCGTGACCATTGGCGCCCATGTGGGATACCGGGACCTTGCCGGATTCGGCCGCCGGTTCCTGGACTGCTCAGCCACCGAACTCGCAGATGACGTGCTGTACCAGCTCGGGGCACTGCAGGCCCTGGCGAAGGCCGCGGGCTCGGAGATCAGGTACGTCAAACCGCACGGCGCCCTGTACAACACCATCGTCCATCACGAGGTGCACGCCCAGGCGGTGGTGGATGCCGTCCACGCGTTCGGTGCCGAACTTCCGCTGCTGCTCCTGCCCGGTTCTGTGGCGCTGCGCAAGGCCGAGTCCCGCGGGCTCCGGGCGGTGGCGGAAGCCTTTGCCGACCGCGCCTACAATCCTGACGGCACCCTGGTGTCCCGCCGGGAAGAAGGCGCGGTGCTGCACGAGAACGACGTAGTCACCAGAAACATGGTGCGCCTGGCCACGGAGGGCAAAATCGTGGCACGGGACGGCTCAGTCCTGGCAGTGCACGCCGACAGCATCTGCGTGCACGGGGACACTCCGGGCGCCGTAGCCATGGCTGGAGCAGTCCGTGCGGGGCTTGAGGCGGCCGGTGTCACCGTGCGGAGCTTCGTATGA	MPFIDLNSDVGESFGSWTMGDDAAIFRHVSSANVACGFHAGDPTTIARTCRDAVAAGVTIGAHVGYRDLAGFGRRFLDCSATELADDVLYQLGALQALAKAAGSEIRYVKPHGALYNTIVHHEVHAQAVVDAVHAFGAELPLLLLPGSVALRKAESRGLRAVAEAFADRAYNPDGTLVSRREEGAVLHENDVVTRNMVRLATEGKIVARDGSVLAVHADSICVHGDTPGAVAMAGAVRAGLEAAGVTVRSFV				NA	NA	NA	NA	NA
D1-29_00055	1698			hypothetical protein	ATGAGCATCACCGGGGTGCGCTGGGCCGGGCCGCGCGCATTGCTGGTGGAGCTGACGGACCTTGCGTCAGTGCTCGCCTTCCATCACCGCGTCCAGTCGGAGCCCTTCCCCGGCCAGCTCGACGCCGTCGCTGCCGCCGCCACAGTGCTGCTGAAATTCGCCTCGCACCGCCAGGCGCTGACTGCGCGCGCCGCCGTCGAACATTTCCAGCTGGACGCCGTCGAGCAGGACGGCGGCAGGGAGGTCACCATTGAGGTGGTGTACGACGGCGAGGACCTCGCCGAGGTGGGCAGGCTCACCGGCCTCGGGCCCGACGGCGTCATCGCGGCGCACACAGGACAGGTGTGGACGGCTGCCTTCGGCGGCTTCGCCCCCGGCTTCGCCTATCTGGTGGGCGAAAACGACAGCCTCACCGTTCCCAGGAGGACGTCACCGCGCACCGCTGTACCGGCCGGCTCCGTCGCACTGGGCGGTCAGTTCTCGGCCGTGTACCCGCGGCAGTCCCCGGGCGGCTGGCAGCTCATCGGACGGACGTCTGCAGTGATGTGGGATCTGGACAGGGAGCAGCCCGCCCTCATCCGCCCCGGCGACAAAGTGCGTTACGTGGCCGTGAACAGCGCCGCTGCAGACAGTGCCGCTGCAGACCGGGCGGCGGGTGTGCCCGCAGCAACCCCTGCCACCGCGGATCCTGCCCAAGCGGATCCTGCATTGGGTGCTGCCGGCACCCGGGACGAAGGGGTTTCCGGACTGGAGGTCGAGTCACCAGGATTGCAGTCACTCCTCCAGGACCTGGGCAGGCCCGGGCTGGGGGACCTGGGTGTTTCCGCGGCCGGGGCGGCGGACCAGCGGTCAACCCGCCAGGCGAACAGGCTGGTGGGGAACGAACCCGGAGCCGCCGTCATTGAGAATCTCCTCGGCGGGCTTTCCGTCAGGGCCCGGGGGGACCAGGTTCTCGCGACGTCAGGCGCCAGCGTTCCGCTGGAGATCCGTTCCGGGAAGGGAATGGTGCTGCGGCGCCCCGCCGGCTGTGCTCCCTTTGCCCTGCTCGACGGCGAAAGCCTCACCCTGGGTGCGCCGTCCCTGGGGCTGCGCAGTTACCTGGCAGCCCGCGGCGGTTTCGACGTCCCGCAGGTGCTTGGCAGCAGGTCGAGCGACACCATGTCCGGTCTGGGTCCTCCTCCGTTGAGTGCGGGAACGCTGCTGCCGGTGGTACCTGTCGACGGCGTCCGCCCGGTGGGTGAGCCCGAATCCTCCACGTTGCGGCTGGGACCAGGAACGGCAGAGCTCCGGGTAACGCCGGGCCCGCGGGATGACTGGTTCACCGCGGCGGCCGTCCAAGCCCTCTCCGGCCAGGCCTGGCAGGTCACGGACCAGTCGAACCGGATCGGCGTCCGGCTTGTTCCCGAAGCCGGGGACGGCCGGTCCCTTGAACGCAGCCGCGCGGGCGAACTCGCCAGCGAGGGCGCCGTGGCGGGTGCGCTGCAGGTTCCGCCGAGCGGGCATCCTGTCCTCTTCCTGGCCGACCATCCGGTGACTGGCGGCTATCCGGTGATTGCCGTCGTCGTGCCCGAAGATCTTCCGACGGCGGCGCAGCTGCCGCCGGGCTGCCGGGTCCGGTTCACTCTGGTGGACCCGGCCACCCTCGAACCCCTTGAACCAGCCGCCAGCGGCATCATTTCAGAAGGAATCCCGTCATGA	MSITGVRWAGPRALLVELTDLASVLAFHHRVQSEPFPGQLDAVAAAATVLLKFASHRQALTARAAVEHFQLDAVEQDGGREVTIEVVYDGEDLAEVGRLTGLGPDGVIAAHTGQVWTAAFGGFAPGFAYLVGENDSLTVPRRTSPRTAVPAGSVALGGQFSAVYPRQSPGGWQLIGRTSAVMWDLDREQPALIRPGDKVRYVAVNSAAADSAAADRAAGVPAATPATADPAQADPALGAAGTRDEGVSGLEVESPGLQSLLQDLGRPGLGDLGVSAAGAADQRSTRQANRLVGNEPGAAVIENLLGGLSVRARGDQVLATSGASVPLEIRSGKGMVLRRPAGCAPFALLDGESLTLGAPSLGLRSYLAARGGFDVPQVLGSRSSDTMSGLGPPPLSAGTLLPVVPVDGVRPVGEPESSTLRLGPGTAELRVTPGPRDDWFTAAAVQALSGQAWQVTDQSNRIGVRLVPEAGDGRSLERSRAGELASEGAVAGALQVPPSGHPVLFLADHPVTGGYPVIAVVVPEDLPTAAQLPPGCRVRFTLVDPATLEPLEPAASGIISEGIPS				NA	NA	NA	NA	NA
D1-29_00056	1764	carB_1		Carbamoyl-phosphate synthase large chain	ATGAAAAAGGTCCTGATCGCCAACCGCGGCGAGATTGCCGTCCGCATCGCCCGCGCCTGCTCCGATGCCGGCCTGCAGTCCGTTGCCGTGTACTCGGATCCCGACGCCGACGCCCTCCACGTGCGGCTGGCGGACGAAGCCTTCGCGCTGGACGGGTCCTCGGGCGCCGAGACCTACCTGGACATCGGGAAGATCATTGGCGTGGCCCGCCGGGCAGGGGCAGACGCGGTGCACCCCGGATACGGGTTCCTGTCAGAAAACGCGGACTTCGCCCAGGCGGTGATGGACGCCGGGCTGACGTGGATTGGACCCACACCCCAGTCCATAAGGGAACTGGGCAACAAGGTGACTGCCCGTGACATCGCCGTGCGGGCCGGCGCGCCCTTGGTGCCCGGCAGCGACGGTCCGGTGGCCAACGCCGACGAGGTCCTGGCCTTCGCCCAGGAATACGGCCTGCCGGTGGCCATCAAAGCTGCTTTCGGCGGCGGCGGGCGCGGGCTGAAGGTTGCCCGGCGCCTTGAGGATATTGAGGACGCCTTCGAATCGGCGGTCCGCGAATCCACCGTGGCATTTGGCCGCGGGGAGTGCTTTGTGGAGCGCTTCCTGGACCAGCCCCGCCACGTGGAAGCCCAGGTCCTGGCGGATACGCACGGCAATGTGGTGGTGCTGGGCACGCGGGACTGCTCCCTGCAGCGCCGCAACCAGAAGCTTGTGGAGGAAGCGCCCGCCCCGTTCCTTACCCCCGAACAGCGCGCCCAGATCCACGCCTCCGCCAAAGCAATCTGCCGGGAAGCCAACTATCACGGTGCCGGAACCGTGGAGTACCTGGTGGGCAAGGACGGCATCATCTCCTTCCTGGAAGTGAACACCCGGCTGCAGGTGGAGCACCCCGTCACCGAGGAAACGTCCGGTGTGGACCTGGTCCGTGAACAGTTCCGGATCGCCGCCGGCGGCGTCCTGCCCTTTACGGAGGATCCGGAACCGCGCGGTCACGCCATCGAATTCAGGCTGAACGCCGAGGACCCGGCCCGCGGTTTCCTTCCCGGTCCGGGCACCGTGGAGGCCTTCGAGCCGCCCACCGGCCCCGGCATCCGGGTGGACAGCGGGGTCCGTTCAGGATCGGTGGTGCCCGGCCACTACGACTCCCTGCTGGCCAAGCTCATTGTGCACGGCGAGGACCGTCCCCAGGCCCTGCGCCGGGCCCGGGCCGCCTTGGACGAAATGCAGATCAAGGGCCTGCCTACCGTGCTGCCGTTCCACCGGGCCGTGGTGCGCCACCCAGATTTCCTGGCCGAAGACCGCCTTGGCGTCCACACCACGTGGATCGAGAACGAGTTTGCCGAACCCCTCGCCGCGTCGCCGGAGATTGCCCGTACCGCGCCCGACGCCGCGCGGAACACCATCACGGTGGAGCTGGACGGAAAGGCGGTGCAGCTTGGGCTGCCGGCCAGGCTCTATGAGGCTTTGCTGAGTGGCGGCGGTGGTTCGGGGGCGCTTGCCGGTTCTGGCTCCGTTGGGGCTGGGCTGTCCGGAGGTTTGGTCGGGGCCGAGGACACCGGCCTCACCTCGCCGATGGCTGGGTCGCTGGTGAAATGGCTGGTGGAGAGCGGTGATGCTGTGGTGGCCGGGCAGCCTGTGGCGGTGCTCGAGGCCATGAAGATGGAGACCACCGTTGCCGCCCACCGGTCAGGCACTGTGGCCAGGGGCCCGCAAGAGCCGGGCACCGCCGTCGGGCGTGGAGACGTCCTGGCCAAAATCAGCTGA	MKKVLIANRGEIAVRIARACSDAGLQSVAVYSDPDADALHVRLADEAFALDGSSGAETYLDIGKIIGVARRAGADAVHPGYGFLSENADFAQAVMDAGLTWIGPTPQSIRELGNKVTARDIAVRAGAPLVPGSDGPVANADEVLAFAQEYGLPVAIKAAFGGGGRGLKVARRLEDIEDAFESAVRESTVAFGRGECFVERFLDQPRHVEAQVLADTHGNVVVLGTRDCSLQRRNQKLVEEAPAPFLTPEQRAQIHASAKAICREANYHGAGTVEYLVGKDGIISFLEVNTRLQVEHPVTEETSGVDLVREQFRIAAGGVLPFTEDPEPRGHAIEFRLNAEDPARGFLPGPGTVEAFEPPTGPGIRVDSGVRSGSVVPGHYDSLLAKLIVHGEDRPQALRRARAALDEMQIKGLPTVLPFHRAVVRHPDFLAEDRLGVHTTWIENEFAEPLAASPEIARTAPDAARNTITVELDGKAVQLGLPARLYEALLSGGGGSGALAGSGSVGAGLSGGLVGAEDTGLTSPMAGSLVKWLVESGDAVVAGQPVAVLEAMKMETTVAAHRSGTVARGPQEPGTAVGRGDVLAKIS	PGPT0001705_1632	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
D1-29_00057	684			hypothetical protein	ATGAACGCTGCACTCCAAGGGATCGCCGACGGCGACCATGCAACCCACGCCCACACCGGGGCGTGGGTTGCCGGCGTGCTGCGCGCACGCATCTCCGCCGGGCAGCTTCCGCCCGGGACCAAGCTGTCCGAGCAGAAGCTCTCAGAAGCCCTGGGCGTTTCGCGGAACACGCTGCGGGAGGCGTTTACGGTATTGGCTGGCGAGTCGGTGGTGCAGCGCATCCCCAACCGCGGCGTGTATGTTGCCGCGCCGGATGCGGAGGATGTGCGCGAGATCTACCGGGTGCGGCGTCTGATCGAACCCGCGGCGGTGCTGTGGGGCGAGAAGACAGAGGGAGTCCTGGACCGGCTTGACGCGATCATCGCGGGGGCCCGGGAGGCCCTGGCCGCCGGCTCCATTCCCGGCATGGCGGACGCCAACCAGGAACTGCACAAGGCGCTGGTCTCACTCTCCGGCAGTGCCTCCTTGGATGAGCTGATGGAAAAGGTCCTGGCCGAGATGCGCCTGGTTTTCCATGCCATGGCCACCACTCCTGATTTCCACAGCCACTATGTGGAGCGCAACGCGGCCCTGGTGGCCCAGATCCGCTCCGGCCAGCGTGAAGAAGCGGCCGCGGAGCTTCGCCGTTACCTTGACGCCGCCGAGCAGGAGCTGCTGGCCCACATCGGCGCCGTCCCCGCCTGA	MNAALQGIADGDHATHAHTGAWVAGVLRARISAGQLPPGTKLSEQKLSEALGVSRNTLREAFTVLAGESVVQRIPNRGVYVAAPDAEDVREIYRVRRLIEPAAVLWGEKTEGVLDRLDAIIAGAREALAAGSIPGMADANQELHKALVSLSGSASLDELMEKVLAEMRLVFHAMATTPDFHSHYVERNAALVAQIRSGQREEAAAELRRYLDAAEQELLAHIGAVPA				NA	NA	NA	NA	NA
D1-29_00058	825		COG4336	Putative hydro-lyase	GTGACTGTTTCAACAAACCTTCCTGCCGGCGTCGAACTTCCCCACAATCCGGCAGCGCTGCTGCCGTCCCAGGCCCGCGCACTGTTCAGGTCGGGCCTGGTGACACCCACCTCCGGCTGGAGCGCCGGATACGCACAGGCCAACCTGATCATCGTTCCCAAAGCCCAGGCGTTCGACGTTCTGCTGTTCGCGCAGCGCAACCCGAAGCCTTGCCCCATTTTGGGAGTGCTCGACGCCGGCGAAACCACCGGGGCGCTGCTGGCCGGCGGCGATGTGCGCACCGACGTTCCCCGTTATGCCGTGTACGTCGACGGCGAAAAGACGGACGAGCCCACGGACATCTCAGGCTACTGGCGCGATGACCTGGTGACATTCATTGTCGGCTGCAGCTTCACGTTTGAGGCTGCCCTCCAGGAGAACGGCATCAGGGTGGCCCACATCGACCAGGGGGTCAATGTGCCGATGTACCGCACCGCGGTGCGCTGTGAACCGGCCGGTTCCCTGGCCGGACCCCTGGTGGTGTCCATGCGGCCCGTTCCGGCGTCTCAGGTGGCCGACGCCGTCCGGATCACCTCGCGGTATCCGGCAGTCCACGGTGCACCCGTGCATGTGGGGAATCCGGCCGAGCTCGGCATTGCCAGCCTTGGCCGCCCGGACTTTGGCGATGCCGTGGACATCCCCGCCGGCCATGTGCCTGTGTTCTGGGCGTGCGGGGTGACGCCGCAGGCCGCCGTCATGGAGTCCAGGCCGGCCCTGGCCATTGGGCATGCTCCTGGGCACATGCTGATCACCGACGCCAGGGACAGTAGCTACCTGGTGCCTTAG	MTVSTNLPAGVELPHNPAALLPSQARALFRSGLVTPTSGWSAGYAQANLIIVPKAQAFDVLLFAQRNPKPCPILGVLDAGETTGALLAGGDVRTDVPRYAVYVDGEKTDEPTDISGYWRDDLVTFIVGCSFTFEAALQENGIRVAHIDQGVNVPMYRTAVRCEPAGSLAGPLVVSMRPVPASQVADAVRITSRYPAVHGAPVHVGNPAELGIASLGRPDFGDAVDIPAGHVPVFWACGVTPQAAVMESRPALAIGHAPGHMLITDARDSSYLVP				NA	NA	NA	NA	NA
D1-29_00059	1221			hypothetical protein	GTGGAAAGTACGGCAACACTCAAACCAAGCACAACGAAAGCCGGCAGGCGCTCGGCTCTCCTGGGAGCCATGTTCCTCATGGCAACCAGCGCAATCGGTCCAGGTTTTATCACCCAGACGGCAGCGTTCACTGTGCAGCTGGGGGCTGCCTTCGCGTTCGCCATCCTCGTTTCGATCCTCGTGGACATCGCGGTGCAGACCAACGTCTGGCGAGTCATCGGTGTTTCGGGGATGCGGGCCCAGGAGCTCGGCAACAAGGTCCTGCCCGGTGTGGGCTGGTTCCTCGCCGGCCTGGTCTTCCTGGGCGGCCTGGTCTTCAACATCGGCAACATCGCCGGTACCGGCCTGGGTACCAACGCCATGATGGGGCTGGATCCCAAGCTCGGTGGTGCCATCTCCGCTGTCATTGCCATCCTGATCTTCCTGAGCAAAAAAGCAGGCGTGGCACTCGACAAAATCGTCGTAATCCTGGGCGCACTGATGATTCTCATGACCCTTTACGTGGCCATCGTCTCGGCCCCGCCCCTGGGTGAGGCCCTCCGGAACACAGTAATGCCGGAGAAAGTGGACTTCCTGGTGATCACCACCCTCATCGGCGGCACCATCGGCGGCTACATCACGTACGCAGGCGCGCACCGGATGCTCGACTCCGGCGCGACCGGCGTGGAGCACGTCAAGGAGATCACCAGAAGCTCCATCCTGGGCATCCTGGTGACCTGCGTGATGCGCGTCCTGCTCTTCCTGGCAATTTTCGGAGTGGTGGCAGGCGGTGTGGCCCTGGCCAACAACAACCTTGCCGCCTCGGCCTTCGAAGCCGCAGCCGGCCAAGTGGGCCTGCGCATGTTCGGCGTGATCCTCTGGGCCGCCTCCATCACCTCGGTGATCGGCGCCGCCTACACCTCCGTTTCCTTTGTCACGAAGTCCTCCACCAAGGAACGCACCCGCAACCTCATCACCGTCGGCTTCATTGCCTTCTGTGCTGTCGCCTTCCTTCTCATCGGCCAGGCACCACAGCAGCTGCTCATCTTCGCCGGTGCCTTCAACGGCCTGATCCTCCCCGTGGGCTTCGCCCTCCTGCTGTGGGTGGCCTGGCGGCGCCGCGATCTTATGCAGGGCTATGCCTACCCCAAATGGCTGCTCATCATCGGCGTCCTGGCCTGGTTGCTCACCCTGTTCCTTGGCTGGAATTCACTGGCCGGCCTCGCCAAGCTGTGGGCCTAG	MESTATLKPSTTKAGRRSALLGAMFLMATSAIGPGFITQTAAFTVQLGAAFAFAILVSILVDIAVQTNVWRVIGVSGMRAQELGNKVLPGVGWFLAGLVFLGGLVFNIGNIAGTGLGTNAMMGLDPKLGGAISAVIAILIFLSKKAGVALDKIVVILGALMILMTLYVAIVSAPPLGEALRNTVMPEKVDFLVITTLIGGTIGGYITYAGAHRMLDSGATGVEHVKEITRSSILGILVTCVMRVLLFLAIFGVVAGGVALANNNLAASAFEAAAGQVGLRMFGVILWAASITSVIGAAYTSVSFVTKSSTKERTRNLITVGFIAFCAVAFLLIGQAPQQLLIFAGAFNGLILPVGFALLLWVAWRRRDLMQGYAYPKWLLIIGVLAWLLTLFLGWNSLAGLAKLWA	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
D1-29_00060	867			hypothetical protein	GTGGGCTTCGGAGCCATAGGATCTGGCGTAGGCCCACTCCTCTTGGAGGATGCGGTTGAAGCGCTCGACTTTGCCATTGGTTTGGGGTCGGTAGGGCCTGGTGCGTTTGTGCGTGATCCCGGCTTCGGCCAAGACAGCGGCGAAGGAGCGGGAGCGGTAGCAGGAGCCGTTGTCGGTCAGCACTCGCTGGATCCTGACGCCCTGGGCGGCGAACGCGGCGATGGCGTTGCGCATGAACGCCGACGCGGTCTCCTTGGTTTCATCGGGCAGGATCTCGGAATAGACAAACCGGGAATGGTCATCCACTGCGTGGTGCAGGAACGTGTAGCCCCGGACCTGGCCGCGGTCCTTGGGTCGGCCTTCGGCGAGGTTCCTTGCCCGGGAGTTCGCTTCGCCCCGAACCCTCCCCTGGACGCGGTGTCCGCCGCCGTGGGGGATGCGTCCGAGCTTCTTGATGTCCACGTGGATCATTTCGCCCGGCCAGGCATATTCATACCGTCGGGCGCGGTCCCGGCCGCGGACCCTGATCCCTGTGGCCGGATCGGTGAAGCGCAGCGGCGGGCAGAGGTACCGGGTCAGGATGCGGTGAACCGTGGAGACGTTCAGGTGCAGGTGGTACGCGATCCGCGCCGGACCCCAGCGCCTGTTCACCCTCAGTCCGAGCACCCGCCGCTCAGTCCGCATCCGGGTTTGGTGCGGGCACGTCAGGGGCCGGCTCCTGCGATCCTCAAGCCCCGCCTCACCGAACTCCCGGTAGCGGCGGGACCAGCGCGCGGCCGTCGGGACAGAAACGTTGAACCTCTCCGCTGCCCGGCGCAGCGGCCAGCCATCAACCACAATGCACCGGGCCAGCTGCAGACGCCCTGA	MGFGAIGSGVGPLLLEDAVEALDFAIGLGSVGPGAFVRDPGFGQDSGEGAGAVAGAVVGQHSLDPDALGGERGDGVAHERRRGLLGFIGQDLGIDKPGMVIHCVVQERVAPDLAAVLGSAFGEVPCPGVRFAPNPPLDAVSAAVGDASELLDVHVDHFARPGIFIPSGAVPAADPDPCGRIGEAQRRAEVPGQDAVNRGDVQVQVVRDPRRTPAPVHPQSEHPPLSPHPGLVRARQGPAPAILKPRLTELPVAAGPARGRRDRNVEPLRCPAQRPAINHNAPGQLQTP				NA	NA	NA	NA	NA
D1-29_00061	390			hypothetical protein	ATGACCTCTGATAACTCCCAGTCCATGAAGCCGGCCACCGTTGCCAAGAAGCTTGGCATCTACCTGCCCGCAACACCGCAGGAGTTCCAGGATTCAACCATCAGCCGCGCAGATTTCGCCGAACTCCAGTCCAATCCGCCCGAGTGGCTCATCGAGCTCCGCCGGAACGGCCCGCACCCGCGCCCCGTGGTGGCCCAGAAGCTGAACGTCTCCATCAGCGGCCTGGCCCGCGGCGGTGTTGAGGAAGCACTAACGACGGCCGAAATCACCGCGCTGCTGCAGGCTCCTCCGCAGTGGCTGGTCACGGAACGCGCCACGCACGCCGCTGTGCGTGCCGAGGCCCAGCGCGTAAAGGACGAGGCCGCCAAGAAGGCGGCCAAGAAGGGCTAG	MTSDNSQSMKPATVAKKLGIYLPATPQEFQDSTISRADFAELQSNPPEWLIELRRNGPHPRPVVAQKLNVSISGLARGGVEEALTTAEITALLQAPPQWLVTERATHAAVRAEAQRVKDEAAKKAAKKG				NA	NA	NA	NA	NA
D1-29_00062	747			hypothetical protein	GTGCCCGCTGACATTGACTCCCAGAACCCCAGCTCCTTCGAAACTTCCGCACCTGAGGCCCCGCGGGTGCTGCGGTTTGCATACGTGGCCGGAGTTACTCCGGGGAAGTGGATCCGCCGCTGGGAAGAGCGCGTGCTGGATATCCCGCTGCAGTCCTTTATGACCGACGACGGCGCGCAACTGGAAGTGTTGCGGGACGGCACCGCCGACCTCAGCTTTGTCCGGCTGCCGGTGGAGCGCGAAGGCCTGAACGTCATCCCGCTCTACGAAGAGCAGCCGGTGGTGGTTGCGCCCAAAGGCCACGAAATTTCAGTTTTTGAGGAAGTGGCCCTGGCTGACCTGTCCGAGGATACGTTCCTGGACGTCGCGGCACTTGGTGGCCCCGAGCAGGCACTTCAGGTTGTCGCGACGGGCGCCGGCCTGGCGATCCTGCCCATGTCCGTGGCGCGGCACTTCAACGTCAAAGACACCGTTGCGCGCCGGCTTACAGGGGCGCCCGTGACAGAGATAGCGCTGGCATGGCCAAGCGGATCCGAGGACGAGATCATCGAGGAGTTCATCGGAATAGTCCGGGGACGCACGGCGCAAAGCTCCCGGCAGCCGTCCGCGCAGCAGGAGAAGCCCAAGAAGGAACCCAAGCCGGACCGGCGCGGCACCGGCGTCAAGAAGCCAAAAGTGGCGCAGCGATACGCCCCCAATCCGGACAAGGGCCGGGGCAAGGGCTCGCGGAAAAAGGGCAAGCGGTAG	MPADIDSQNPSSFETSAPEAPRVLRFAYVAGVTPGKWIRRWEERVLDIPLQSFMTDDGAQLEVLRDGTADLSFVRLPVEREGLNVIPLYEEQPVVVAPKGHEISVFEEVALADLSEDTFLDVAALGGPEQALQVVATGAGLAILPMSVARHFNVKDTVARRLTGAPVTEIALAWPSGSEDEIIEEFIGIVRGRTAQSSRQPSAQQEKPKKEPKPDRRGTGVKKPKVAQRYAPNPDKGRGKGSRKKGKR				NA	NA	NA	NA	NA
D1-29_00063	3426			hypothetical protein	ATGGGAGCTCCTAGCAAACTTCCTAGCTTCACTAAACTCGCAGACGATGTTGCGGCGGACCTCGGAGCCGACATCTCGGAGGCAACAGGGGCGGAAGATCTGGTACTGGGGCAACTCGACGATGACCCGCAGCAAGACGTTCACACGATAGTCCAACGACACATTTTGCGGGCAAAGCAGGGAAATGCATTGCATGCAGCCTTAGCAAGGCTTGCCTCGGCGGGACCGGCCCCAAAGGTTGTAACCACAAACTACGACCCGTTCCTGTCATTAGCCCTCGAGACCGCGGGAGCAGAACTTGAGGAGTTTCGCGCGCCCGCATTGCCCATGGGCGATGATTTCGAAGGCCTGGTCTACTTGCATGGTTCGGTGCATCAGGATTCGCGAAAACTGGTCCTCACAGACAAGGACTTTGGGCGTGCATATCTAAGCGATGCGTGGGCGGCAAGGTTTCTCGAGCGGATGTTCCACCAATATGTCGTGTGCTTTGTGGGGTACAGCCATCACGACATGGTGCTTTCTTATCTGGCGCGAGGTCTTCGACCAGGGTCCAAGCGATATGCCTTCACCTCCGAGGGAGTCTCAGGCAGTGCGCGCTGGTCCAGTTTAGGCATCGTTCCGATTTTGTACGCGGATACGGACAACTCTCATGAGCAGTTGCTGACTGCGATTCAAGACTGGGGCATCTGGGCAGCATCCGGGCTTTTAGATAAGCACGAGCTGGTGCGAGAAATGGTGGGCAATCCGCCAACGGGGATCCCGGATGAAGACGACTTCCTTGAAAAGGCCTTGGATGACGATGTCCTTGCCCGGGCATTTTGCACGAAGGCCCGGGGCAGGGAATGGTTGGACTGGGTCGTAAGCAAGAACGCGTTCCGGCGACTTACAGACGCATCTGAAACGACTTTCTCCTTAAGCCAAGCCGCCTTAGCGAACTGGTTTGCTAAGGATTTCGTCGTTTCCGACTCGGAGTCCCTTTATGCACTCTCTCTCCTCACAAAGCAAAACAAGCGACCAAGCCGGGCGCTCTGGAGCGCCGTCTGTATGGAACTTATCGACGTAACTGAACGTCGTGATTGGGTTACACCGTGGGTTTTCTGGCTACTGGATCACCTATCCCCCGACCATGCCGCTGAACTCGAGGGATTGGCTTGGCTGATTGCGGAGGCTAAGTGCCTATCGACAGCTGATCTGCTCGTTGTTCTTGAAGAGCTACTCAAGCCCCGGCCGCGGACAACCAATCAGCTGCTGGGTGACAGAACAGAATATGTCGTCGAGGTGAGCCTTACATGGATGGATTCGCTGCAAGAAAGATGCTCGAGCCTGACATCTGAAGCTTCGAGTGCGTTAGAGCTTCTGAGGATTCTTGAAGGTACCATGTACGGCATCTTTATCAGGAACCGTTCTCTCTCCGGCTCGGACTACGACTCATGGGCCTTCAGCAGAAGATCCATAGAAGACTCGCCCCAGAATGGAATTGACGAGTCTGCAGACCTGGTTATCGATTTGGCCCGGGACTGCATCCTGTGTCTCGTCCAGACACGGGATCCTAATCTGGGAAGTAGCCTGAACAGGTGGCTGGCCGGCCCGGTGCCCATGCTTAGGCGCCTTGCTGTATTCGGATGGCGCCAGCGGTCAGATGTGTCAGAGGCCGAGAAGCTCGAATGGCTGCTTGACCAAGAGGACGGACACCTGCTCTTCGAACCTCAGCTCCGGTACGAGTCGCTAAAGCTTATTCGGGCGGCCCTTCCCAAAACGGACCAATCCATGCGCTCAAGGCTTGTAACCGTGGTGCTCCATGGTTCCCATGCCAAGCAGCCCTATCGAGACTACGAAACCCATGATGTGTTGGCATGGCTGCTGAATCTCGATTCGGCCTTGGTCGAGGCAGCAAGAGCACTGACCGACTTGAAAGAAAAGTATCCAGATCTCGGGAGGCTTCCGTATGCAGATCTGGACGCGCCGGAGGTGGATTTTGACTGGGCAACCTCTACAAACGAGAGCCCCTGGTCCGAAGAGTATCTGCACAGTCTTATTAACGGTGACCCGGCATCAGCGGCAAACGAAATCACTAGCCAACTTGCGCTTTCCTCGTCCTCCATACGTTGGTCAGGAGTCACTCAGCAGGTGGCAGCGGTGGTTTCCCGATGGCCAGATGACGGTTTCCTGCTATGGAACAACGCCCTCAGTGAACCGAGATTGCTGGCCAGCATTATGAATGGATGGGCCGGAAACCCTGCAGACGCGGCCTACGCCGAACGAGTGATCAGCGTTATTTCAACGTTGGACCTTAAGGAAAGCGGGCCAGCAGTGGCTTCCCTTCTGAGTCCGCGAGCGAGTAATCAAACAGCAGGACCACCCTGGCCGGCACTCCCCCAAGCCCGAGACCTGGCTTTTGCCGCCTGGTACAAACTTGGTCGGTCACCGAGTACAAGCGCGGACCCATTCGGCTCCGCGCTCAACAGCGACGACGGACATTTGGCCGAATTTTGGATAGAAGCAATACGCCATGATTGGCGCCTCCACAAGGACGATTGGGAAGGCATCCAAGGCCAAATCCGTGAGGCAGTAGATTGCATATGTAGTCGCGAGGTTCTGCTCAACACAACCGGATGGGCAATCCTTGTACGGCACCTTCGGTTCCTCCACTCAGCCGACGCCGAGTGGACCACCGCACATATCGTGCCTCTACTGAAATGGAGCTCGTCACCAGTGGCAGCGGCCGCGTGGACGGTGGTCGTGCAAACAGCTGGCATCAATCAAGCTCTATTGGACGATGGCCTGAAGCCAGAGCTGATAAAGACAGTTGAACGCTCTACGGACCTAGCCGAAACCGCTCAGCGTCAACTGTCCAAGCTCTGCGCTTCCGTGACAGTCCACAGCGTGTGGTCCGTCAATATCAAACTCCAGTGGCTCTTGGAGCTAACACGTGCATCAACCCCCGAATTTTGCGCAATCATTATCCGGTCAATCCGCCAGCAGCTGGCAGAGGCTACGCACGAAGTGCTCTCAAAATGCTGGAACGATTGGATGAAAGCCTACTTAGCGGCTCGGGTCGAGGGACGTCCAAGAACCGTGGATGCACAAGAGGCCTCGGCCCTAGCCGAGTGGGTGGAAGTCTTGGACTCCCCACAAAGTATCGAAAGGGCCATCGAGTACATCCGCCTGATGCCAGCTGCACTGAGCTTCCCTCCGAGACTCCGCAAGATGGAGGACAGCCGCGTCAAGTCGGCCCCCAACGCATACGCGAAGCTGTTGGCTCATCTACTGGCGAACACCGCTCGCCCTCAATACTTGGGAAGGGATCTAGAGAAGCTGTACATGATCCTTGCTGCCGACACGCGAGTTGAAAGAACACATCTACGCACCATCCGAGAGCAATCACTGCGGTTGGGTATCGAGGCGGCCACAGATTGGCCTGATTAG	MGAPSKLPSFTKLADDVAADLGADISEATGAEDLVLGQLDDDPQQDVHTIVQRHILRAKQGNALHAALARLASAGPAPKVVTTNYDPFLSLALETAGAELEEFRAPALPMGDDFEGLVYLHGSVHQDSRKLVLTDKDFGRAYLSDAWAARFLERMFHQYVVCFVGYSHHDMVLSYLARGLRPGSKRYAFTSEGVSGSARWSSLGIVPILYADTDNSHEQLLTAIQDWGIWAASGLLDKHELVREMVGNPPTGIPDEDDFLEKALDDDVLARAFCTKARGREWLDWVVSKNAFRRLTDASETTFSLSQAALANWFAKDFVVSDSESLYALSLLTKQNKRPSRALWSAVCMELIDVTERRDWVTPWVFWLLDHLSPDHAAELEGLAWLIAEAKCLSTADLLVVLEELLKPRPRTTNQLLGDRTEYVVEVSLTWMDSLQERCSSLTSEASSALELLRILEGTMYGIFIRNRSLSGSDYDSWAFSRRSIEDSPQNGIDESADLVIDLARDCILCLVQTRDPNLGSSLNRWLAGPVPMLRRLAVFGWRQRSDVSEAEKLEWLLDQEDGHLLFEPQLRYESLKLIRAALPKTDQSMRSRLVTVVLHGSHAKQPYRDYETHDVLAWLLNLDSALVEAARALTDLKEKYPDLGRLPYADLDAPEVDFDWATSTNESPWSEEYLHSLINGDPASAANEITSQLALSSSSIRWSGVTQQVAAVVSRWPDDGFLLWNNALSEPRLLASIMNGWAGNPADAAYAERVISVISTLDLKESGPAVASLLSPRASNQTAGPPWPALPQARDLAFAAWYKLGRSPSTSADPFGSALNSDDGHLAEFWIEAIRHDWRLHKDDWEGIQGQIREAVDCICSREVLLNTTGWAILVRHLRFLHSADAEWTTAHIVPLLKWSSSPVAAAAWTVVVQTAGINQALLDDGLKPELIKTVERSTDLAETAQRQLSKLCASVTVHSVWSVNIKLQWLLELTRASTPEFCAIIIRSIRQQLAEATHEVLSKCWNDWMKAYLAARVEGRPRTVDAQEASALAEWVEVLDSPQSIERAIEYIRLMPAALSFPPRLRKMEDSRVKSAPNAYAKLLAHLLANTARPQYLGRDLEKLYMILAADTRVERTHLRTIREQSLRLGIEAATDWPD				NA	NA	NA	NA	NA
D1-29_00064	927			hypothetical protein	ATGCCGACCAACCAGCTGCCCCCGACTATTTGGAAGAACCTTGTCGTCGAGACTCAGTTCGCCACAGAGCTGACGTTGACCGGCCTCCGAAGGTTATGCTCCGTCCCTACCGATCCTGCGCTCGAGCAGTGGGGGAGTGATGAGCAGAACTATGCACTCCACGTCGGGATGTACTCATACTCGTCCGGCTTAGAACGTCTGTGCAAGCTGGCCATCGCCTGCAACGGGTACGCGGCCACGAAGGAGTTCCCCAAGCTCCGCAGCTACTCGCACAAAATAGGGAAACTGCTTGACGCTGTTGAGGAGTTAACTCCCGCAGGCCCTAAGGCCACTTTCCACGACGCAAAGTACGTCGTTCGACCTGTGGATGGCCTCGATCCTGACCTTACGAACACGGTCGAGCGGTTCGCTAACGGAGCCGGACGGTACGAACACCTGGACTCGCTATGGAACGACGATGCTGAGGTCAATACCTATAACGAGTGGTCTGAACTTGCCGCAAGGTCTTCGGTCTCAGAAGAAGTGAGCCAACTAATCTCCCTCAGGGATGCCATGGCGCGCGCGATCCGATCCGAACTGAGCGACGTCGGGCTCGAATCTGCCGGGGAGACCGTGATGGAAGATCTGGAGCTCCCGATGTTCGAGCCATCGGTAGGCGTGGTGATCAGCCTGTTCCGGAAGGTCCGATGGGTATCAACCATCCTTGATGTTGCCACCGGCTACACGGATCCCGGTCTTCCGATTCTCGGCGATGTCGTCTCTCCAACCTTCATTCACCCGTCGGCGGACTTTTTCAACTACCACATCGCCAGATTCTCAGATGATTCTGTCGTCCAAGAGGAGCTGGCAGAGGTGTACCCGCGGATTAATGCACGTGAGGAGGAAGAAGGCGAAGGGGAGTTCGAAGACAGCAGGATCAAGGTTTGA	MPTNQLPPTIWKNLVVETQFATELTLTGLRRLCSVPTDPALEQWGSDEQNYALHVGMYSYSSGLERLCKLAIACNGYAATKEFPKLRSYSHKIGKLLDAVEELTPAGPKATFHDAKYVVRPVDGLDPDLTNTVERFANGAGRYEHLDSLWNDDAEVNTYNEWSELAARSSVSEEVSQLISLRDAMARAIRSELSDVGLESAGETVMEDLELPMFEPSVGVVISLFRKVRWVSTILDVATGYTDPGLPILGDVVSPTFIHPSADFFNYHIARFSDDSVVQEELAEVYPRINAREEEEGEGEFEDSRIKV				NA	NA	NA	NA	NA
D1-29_00065	108			hypothetical protein	ATGGTCTCTAGGAGTGTCGGATACTACCTTAAGGCAACCGAGGCCAGGAAGGCCCGAGCGGGGGCATCGGAGGTTGCTGAGAGAAGTAAGAACGGCCTGAGCCGCTAA	MVSRSVGYYLKATEARKARAGASEVAERSKNGLSR				NA	NA	NA	NA	NA
D1-29_00066	1479	pknD_2		Serine/threonine-protein kinase PknD	ATGCAGATCAAGCTCGACAGAAAAACGTGGACCCGAGGACCTGCCTTGACCGAAGGTGAAGGCGGCTTCGGCAAGGTATATCTCGCATCAAACGCCGAGGCCGAGGATGCTGTTGCGAAGTTTGTGGAAAAGACTCCGGGCGCCACCCGTGAAATGCTCATTGGAGAGTATTTGCAGGCCACGAATTGCGCTAATGTCGTTCCTGTCCTGGACTCGGGTGAACACGAGAACTTTTGGGTAATTGTCATGCCTCGCGCAGAAATGTCTCTCGCCCAGCGGTTGGCTCAACCCGAACCCGTAGAACTCGCAGAGTGCCTGAAGATTCTCGACGACGTGGCTCAAGCCTTGGTCAGCCTCGACGGTCATGTTGTCCATCGAGACCTGAAACCCGCGAACGTCCTATTGTTGGATGGTACGTGGTGCCTTGCAGATTTTGGAACATCCAGATACACGGAAGCTGCCACGGCGGAGCATACATGGAAAGACACTGCCACGGTCATGTATGCGGCCCCAGAACAATGGCTGGCGGAACGGGCCACGGCCGCCACAGACATCTATGCCTTTGGGGTCATGGCCTACGAAGTGGTTGCGGGACATTTGCCGTTTCCTGGACCGAGTCCAGCAGACTATCGGGAACAGCACCTCAAAGTGCTCCCCCCGCCACTTACCGGTGGGACTGGTCGGCTGCGCAACATCATCTCCGAGTGCTTAAACAAGGCCCCTGAAGCGCGGCCGAGAGCAGCCAACATTCTGTCTCGGCTTCAAAAATCCACTATTGAACCAGCTCTCGCCGGCATACAGAAGCTGGCCAACGTCAACACCGAAGTAGTTGCACGCCGGGCCCAGGCGCACGCCGAACAACGGGTACTGGAGGATCACGCTGCAAGCAGAGCCCGCCTCTTTGCATCATCAGCAGGCATGTTTGAATCATTCGCCCAACCGCTAATCGAAGCAGTTGAGGACAATGCTCCGACTGCGTCGATCAAAAGAGGATTGGGGAACGGGAACCAGATATTCACGGCCGAACTCATGGGCGCAAAACTGGGGCTCAGCCGCCCTAAACAAGAGCCTAAATGGGATGGCCCGTTCGACGTCATCGGCAGCGCGGTGGTCAGCGTCGTTCGGCAACGCCCCAATAGTCGTGGATGGCTAGGACGAAGCCACTCGCTTTGGTTCTGTGATGCGCATAGGCGAGGGCAGTACGGGTGGTATGAGTTGGCTTTCATGAAAACGTTTTTCCGAGGGCCGCAGGATCAAATTGAACCTTTTTCGCTGGAACCAAAATTGGCTTCAGATCACTTTGCCATGGTTATGGGAACCGGCCAGCTTGCTTGGCCAGTGACCGAAGTGGACAGGGACGATCCCAGCGAGTTCCTCAATAGATGGCTGGGCTGGTTTGCAGACGCAGGAGTGGGAACGTTGGGCCAACCCAGCACCATGCCAGAACGAATCCCCAGCGGATCCTGGCGCACGAAGTAG	MQIKLDRKTWTRGPALTEGEGGFGKVYLASNAEAEDAVAKFVEKTPGATREMLIGEYLQATNCANVVPVLDSGEHENFWVIVMPRAEMSLAQRLAQPEPVELAECLKILDDVAQALVSLDGHVVHRDLKPANVLLLDGTWCLADFGTSRYTEAATAEHTWKDTATVMYAAPEQWLAERATAATDIYAFGVMAYEVVAGHLPFPGPSPADYREQHLKVLPPPLTGGTGRLRNIISECLNKAPEARPRAANILSRLQKSTIEPALAGIQKLANVNTEVVARRAQAHAEQRVLEDHAASRARLFASSAGMFESFAQPLIEAVEDNAPTASIKRGLGNGNQIFTAELMGAKLGLSRPKQEPKWDGPFDVIGSAVVSVVRQRPNSRGWLGRSHSLWFCDAHRRGQYGWYELAFMKTFFRGPQDQIEPFSLEPKLASDHFAMVMGTGQLAWPVTEVDRDDPSEFLNRWLGWFADAGVGTLGQPSTMPERIPSGSWRTK				NA	NA	NA	NA	NA
D1-29_00067	261			hypothetical protein	GTGGAGGAGCTGGAACCGGCCGAGGTGATCGCGCTCGAAGTTGCCCGGATCGACAACCTTATGTGGCGGCGACGTTGTTTCATGCGCCGCCAGAGTTGGCCGTGCGGAGATCGCGCTGGTTCTGTAGGGGCTATGGCTGCATACGAATCGCAGCTGCATTTCGCGAGAACGCTGGGGTGGAAGCTGGAGGCCAAATGGACTCCGGGCTACTGCGAAGGCTGCTCGGATGAGCGGCAAGTTCTTCGCCGACAACAATCGTAA	MEELEPAEVIALEVARIDNLMWRRRCFMRRQSWPCGDRAGSVGAMAAYESQLHFARTLGWKLEAKWTPGYCEGCSDERQVLRRQQS				NA	NA	NA	NA	NA
D1-29_00068	258			hypothetical protein	ATGAGCAAGTCCCATTTTGAGGTTTTTCTCGCGCAGACCATCCACGAGGAGCGCGACAACGAGGCAGGCCTCAGCCCAGACGAGCTTTACGGGGTCTATACCAGCTGGTGCCTTCTGAACAACGAGGAACCCGAGGCTCCCGCAGCCCTATGGGCCGCACTGAAGGCCCACCGCATCGCGCCTGCACACAATCACCTGGTCATGAAAGGACCGGCGGCCGCGGACTACATCGTCGCCAGCGCACCGGATATCGTCTGA	MSKSHFEVFLAQTIHEERDNEAGLSPDELYGVYTSWCLLNNEEPEAPAALWAALKAHRIAPAHNHLVMKGPAAADYIVASAPDIV				NA	NA	NA	NA	NA
D1-29_00069	297	relF	COG2161	Antitoxin RelF	ATGTCAGGCTATAATTCAAGCATGAGAACTGTACCGCTCAGCGAGGCCAAGGACAAACTCTCAGCCCTCGTGGAGGAAGCAGACAGAACCCACGAAATCATTCAGATCACACGGCACGGGCACCCATCAGCGGTGCTGATGTCAGCGGACGACCTGGAATCCCTGCAGGAAACGATCCACTGGCTGTCCCAGCCAGGTATCCGCGAGGATGTGGATCAGGCGCGGCGCGACATCGCCGAAGGCAACACGACCAGCGGCGCCGACCTGCGCCGCGAGTTCGGACTGCCGCCGCGGTGA	MSGYNSSMRTVPLSEAKDKLSALVEEADRTHEIIQITRHGHPSAVLMSADDLESLQETIHWLSQPGIREDVDQARRDIAEGNTTSGADLRREFGLPPR	PGPT0027475_337	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YoeB-YefM_TOXIN-ANTITOXIN_SYSTEM,PGPT0027475-antitoxin_yefM-K19159	NA	NA
D1-29_00070	282	relE	COG2026	Toxin RelE	GTGAGCGAAACAGAATCAGACGACACGGCCGCGTGGAAGGTCGAAGTCACGAGCCCGGCCCTGAAAGGATTCCACCGGCTTCCCGCGAAGGCGGCAGCAGCCATCGTTGAATTCGTCACCGGCCCGCTGGCCGACAATCCCCGTCGGTTCAGCAAACCCCTCACAAACGAACTGCTTGGCCTGCGAACGGCACGACGCGGCGACTACCGTGTGCTGTTCACCCTCGACGCTGAAGACCACATCCTGTACGTCCACCGCATCGAACACCGATCCGACGTATAG	MSETESDDTAAWKVEVTSPALKGFHRLPAKAAAAIVEFVTGPLADNPRRFSKPLTNELLGLRTARRGDYRVLFTLDAEDHILYVHRIEHRSDV	PGPT0027425_359	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
D1-29_00071	1563	lysP	COG0833	Lysine-specific permease	ATGACGCTAACGAACGAAACTTCCGCAGATATCAAGCCAGACAAAGCGGCGCAACACGGTTCTTCCCTTGCGACACGGGAGGATCCTAGCTCCGGTGGTACCGCCAATGAGCTCAAGCGCGGATTAAGCAGCCGCCACCTGCAGATGATTGCCATTGGCGGTGCGATCGGTACGGGGCTGTTTGTTGCCTCGGGCGGCACCATTGCACAGGCGGGTCCCGGCGGTGCATTGGCCGCCTACGCGCTGGTCGGGCTGATGGTATTCCTGCTGATGCAGTCACTGGGCGAAATGTCGGCCAAAATCCCGGTCGCCGGTTCCTTCCAGTCCTTTGCCACCCGTTTCGTCTCCCCGTCCTTTGGGTTCGCGATCGGCTGGAACTATTGGTTCAACTGGGCCATCACCGTGGCAGCCGAGCTGGTCGCGGCCGGAATCATCATGGATTTCTGGTTCCCGGGGGTCCCCGGCTGGGTATGGGCCGGGATCTTCCTGCTGGTGCTGACCGGGCTCAACGCCCTCTCGGCGAAAGCCTTCGGTGAGTCGGAGTTCTGGCTTTCCCTGATCAAGGTCAGCGCAGTGGTGATTTTCCTGGTCGCCGGCGTGCTGATGATCTTCGGCATCCTCGGCAATTCCTCCCCAGGACTAAGCAACTGGGAAAACCGCGAAGACGTATTCCACGGGGGTTGGGTCTCGATCATCTCGGTCTTCATGATTGCCGGGTTCTCGTTCCAAGGCACCGAGCTGGTGGGTGTGGCGGCAGGCGAAGCCAAGAACCCACGACGCGAGGTGCCAAAGGCTATCCGCACCGTCTTCTGGCGCATCATGCTTTTCTACATCGGCGCCATCTTCATCATTGGCTGCCTGATCCCCTTCACCGATCCGAGCCTGTTGGCATCCGGCGAAGCCGATATCGCAGCCTCCCCCTTCACCTTGGTCTTCTCAAATGCAGGGATCGCCTTCGCAGCGGCCTTGATGAACGCGGTGATCCTGACCGCCATCCTGTCCGCTGGCAACTCCGGGCTGTATGCTTCCACCCGGATGCTTTACGCGATGGCCCATGACGGCATGGCCCCGAAAATCTTCGGCCGAACGAATGGGCGCGGCGTGCCGATCCCGGCCCTGCTCGCCACCGCATCCGTGGGACTCTTCGGGTTCCTCTCGGCGATAATCGGCCAGGGCGCGGCGTACTCGTGGCTGCTGAACATGTCAGGCCTGTGCGGCTTCATCGTCTGGGCGGGAATCGCAATCTCCCATTACCGTTTCAGGCGCGGCTTCCTCGCCCAGGGAAATAAAGTCAGCGACCTGCCATACAGAGCATCCCTGTTCCCCATCGGCCCACTGCTGGCCTTCGCCTTGTTGATCCTGGTAATCGCAGGACAGAACTACGAGGCAGTGCTTGCCGGACGGAGCCTGGAGGTACTTTCCTCCTACATTGGACTGCCGATCTTCATCGCCCTATGGCTGACTCACCGCTACATCACCAAATCAAAGGTCGTACCGTTGCTCGAGATGGATCTCACGGGACCAAAGGACCTCGAGGACGGACCTCGGGACGGCACCCAATAG	MTLTNETSADIKPDKAAQHGSSLATREDPSSGGTANELKRGLSSRHLQMIAIGGAIGTGLFVASGGTIAQAGPGGALAAYALVGLMVFLLMQSLGEMSAKIPVAGSFQSFATRFVSPSFGFAIGWNYWFNWAITVAAELVAAGIIMDFWFPGVPGWVWAGIFLLVLTGLNALSAKAFGESEFWLSLIKVSAVVIFLVAGVLMIFGILGNSSPGLSNWENREDVFHGGWVSIISVFMIAGFSFQGTELVGVAAGEAKNPRREVPKAIRTVFWRIMLFYIGAIFIIGCLIPFTDPSLLASGEADIAASPFTLVFSNAGIAFAAALMNAVILTAILSAGNSGLYASTRMLYAMAHDGMAPKIFGRTNGRGVPIPALLATASVGLFGFLSAIIGQGAAYSWLLNMSGLCGFIVWAGIAISHYRFRRGFLAQGNKVSDLPYRASLFPIGPLLAFALLILVIAGQNYEAVLAGRSLEVLSSYIGLPIFIALWLTHRYITKSKVVPLLEMDLTGPKDLEDGPRDGTQ	PGPT0020630_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_LYSINE_TRANSPORT,PGPT0020630-lysP-K11733	NA	NA
D1-29_00072	1404			hypothetical protein	ATGTCTGTAATTGCAAACCTGGAAGTGGCACCCACCCAGGTAGAAGACCTGGTGGCGCTCCCGGCATGGCAGGCTCTGAAGGCCGCCGTCATTGGGCTGCAGCAGGTTCAGGTCCAGGACGGTTCCGTTCCGGAACCAGCTGACCATGGCCAGGCGCGCCAGTATGTGGGCATCATCACTGATTCCGTCAACGAGCTGCGCGCCCATCTTCCCCACGACAGCGAATACCTGGAACTGCTCGTGCAGGACTTCCAGCGGTGGGAGTCTGAGGGCTTCGTCGGACCTGACTTCCTCGACTCGTTGGTAGCCTTCCACCCCGAGCAGTGGCGCATCGATGGGCTGCCGCACCTGGTTGTGTTCCCCATGTACACGCAAAACGGCAGCACCAACCGCTACATTGAGGCCGTCATCGTCGAGGTTATCTGGCCCTCTTTCGTCGCTGAACTGGAGGCGGGCAACTACTCGAACAAGCTGTTTGTCCCCATTAGGTTCGTGGATTTCACGCCCGGCTACGACACGAACTCTGCAGTGCTCTTCCCCGAGAGCGTTGCGGTCCGAAGCACCCCCTCGTTCACCTGGGGAGGCATATTTGCGGACCGCGAAGCTGCCCGGTTCCGCCGCGTCCTGAAAGCTGCTGCCGACATTACCTCGTTGGACCTGCCTGCTGACGCCGCGGAATTGATCGAAGACCACCACCTCACGGAGAAAACCTTCGTGATGTGGGATCTGATTCATGATCGGACCCACATGCGCGGGGACTTGCCCTTTGACCCGTTCATGATCAAGCAGCGGATGCCATATTTCCTTTACTCTCTGGAGGAACTCCGCTGTGACCTGACCGCTTTCCGCGAATCAGTCCTCATCGAGCGGGATGAAACGGCTTCCGAGGATGCACGCAAGCACGCCAAGCTGGTCCAGTACGCCGTGATCTTCGACCGCATTTTCCGCTTCGCCATTACCGGAAACCGGGTTCGTAACTACGACGCCGTGGGCGGCCAGTTGCTGTTCGCGTGGATGCACCAGCACCGGGTCCTGCACTGGACCGATGGGAAGTTGAGCATCGACTGGAAGGACGTCGCTGACGTGGTCGTCGAGCTGGGCCGGCGCATCGAAGAACTCTACTGGCGTTCGATCGACCGGCCGAAGACGGCACACTGGCTCGCTGCCTATGAGCTGGTCTCCGAAACCCTCACCCCCCACCCGGCATCCGTGTGGGCCAAGGGACCGGAGGCACTTCCGCTGGACGGCCCGCCCCGGGGTCTGACGGATCAGGTCCTCGATGACGAATTCCCCCTGTCGATGTTCTACGAGGCACTGGAGAAGAAGATGCGCCCTGTTATTGATTCAACTGCGGGAATCACCGGCAAGAGCCCCGTGAAGACTGAGGGCGAGGCGGGCGCATGA	MSVIANLEVAPTQVEDLVALPAWQALKAAVIGLQQVQVQDGSVPEPADHGQARQYVGIITDSVNELRAHLPHDSEYLELLVQDFQRWESEGFVGPDFLDSLVAFHPEQWRIDGLPHLVVFPMYTQNGSTNRYIEAVIVEVIWPSFVAELEAGNYSNKLFVPIRFVDFTPGYDTNSAVLFPESVAVRSTPSFTWGGIFADREAARFRRVLKAAADITSLDLPADAAELIEDHHLTEKTFVMWDLIHDRTHMRGDLPFDPFMIKQRMPYFLYSLEELRCDLTAFRESVLIERDETASEDARKHAKLVQYAVIFDRIFRFAITGNRVRNYDAVGGQLLFAWMHQHRVLHWTDGKLSIDWKDVADVVVELGRRIEELYWRSIDRPKTAHWLAAYELVSETLTPHPASVWAKGPEALPLDGPPRGLTDQVLDDEFPLSMFYEALEKKMRPVIDSTAGITGKSPVKTEGEAGA				NA	NA	NA	NA	NA
D1-29_00073	750			hypothetical protein	ATGAGCCAGGATCTCTCGGAGCGTACGATCGTCGTCGCCGGTTCAACAAGCGCTGCCGGAGTGGCAGTAGTCCGCGCTCTTTCGCAGGCAGGGGCACGCGTAGCCGCAGTGGACATTCTTGAGGACCGGGTGCAGGAGCTCTCTGGCACATACGCCAACGTCGAGGGCTATGTCTGCAACCTCGCGGACCTGCAGGCCGTTGAGGACTTAGCGGCCTCGGTCCGGAACGATCTGGGTCCCGTGGACGGCCTTATCCACCTTGTAGGAGGGTGGCGAGGCGGTGCCGGCATCAGTGGCCAGGCGGATGAAGACTGGGACTTCCTGCACACCAGCGTCCTCACCACCCTGAGGAACACCAGCCGCGCGTTCTACGACGACCTGGCTGCCTCCCCTGTGGGACGCCTGGCCATCGTTTCCGCACAGTCCGCTTCCGCTCCGACAGCCGACGGCGCCGCTTACGGCGCCGTTAAGTCCGCGGCTGAGGCATGGACCCTGGCCGTGGCTGACGGCTTCCGGCAACCGCAAGGCGGAAAGGAAAACACCCAGCACTCGGCCGCCCTGATCTTCGTGGTCAAAGCTCTGGTCGACGACCGGATGCGGGCAGCCCAGCCGGAACGGAAATTCCCTGGTTTCACCGATGTCAGTGTCCTTGCCGACGCTGTTCAGCAGATCTTCGACATGGAGGCAGAAAAGATCAACGGGCAGCGCTTGCCCCTCACTGCCGGCCAGCTCGTGGGTCTGCCGGCATGA	MSQDLSERTIVVAGSTSAAGVAVVRALSQAGARVAAVDILEDRVQELSGTYANVEGYVCNLADLQAVEDLAASVRNDLGPVDGLIHLVGGWRGGAGISGQADEDWDFLHTSVLTTLRNTSRAFYDDLAASPVGRLAIVSAQSASAPTADGAAYGAVKSAAEAWTLAVADGFRQPQGGKENTQHSAALIFVVKALVDDRMRAAQPERKFPGFTDVSVLADAVQQIFDMEAEKINGQRLPLTAGQLVGLPA	PGPT0003180_21639	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
D1-29_00074	1095	ltaE_1		Low specificity L-threonine aldolase	ATGAGCGTCAGCATTGATTCCACAGCAGGGCAGCTACTGTCGGCGCGCCTGCACGACCCGACCTACCGGGGCTTCGCTTCGGATAACTACGCCGGGGCTCACGCCGAAATCATCGAAGCGGTTCAGGCGGCCAACGAAGGCCACGTCACCGCATACGGCGAAGATGTCTACACGGCCGCGCTACAAGAGCTCGTCCAGTCCCACTTCGGGTCAGCTGCCAGCGCATACCCGGTCTTCAATGGCACCGGTGCCAACGTGCTTGCCCTGCAAGCCCTGCTCCCGCGCTGGGGCGCTGTCATCTGCGCGGCGACAGCCCATATCAACACCGACGAAAACGGCGCCCCGGAACGCATCGGCGGAATAAAGCTCCTCCCGGTCCCCACACCCGATGGCAAACTAACCCCGGAATTGATCGACGCCGAGGCCTGGGGGTGGGGAGACGAGCACCGGGCGCAACCGCTGGTGGTATCGATCACCCAGACCACCGAGTTGGGGACCTGCTACACGCCAGGTGAAATCCAACGGATCGCGGAACACGTCCATGCCAAGGGCATGAAACTGCACCTGGACGGTGCAAGACTGGCCAACGCCGCAGCACATCTCGGCCTTCCTCTGCGGGCATTCACCACCGACGTCGGTGTGGACGTCCTGTCCTTCGGCGGCACCAAAAATGGGCTGCTGTTCGGCGAAGCCGTCATCTGGCTCAACCCACAGTGTGACCCGGGCATGAGCTACCTGCGCAAAATGAACATGCAGCTCGCATCAAAAATGCGGTTCGTCTCGGCACAACTGATAGCCCTGCTGACAGATGGGCTGTGGCTGCGCTCCGCCAGCCACGCCAACGAGATGGCGAAACGCCTCAGCGAAGGGATCTCCGCCATTGACGGTGTTTCCCTGACGCAAGCCACACAGTCGAATGGCGTCTTTGCCGTCCTCCCACCGCACCCAGCCGCGAAAGTCAGGGAATCCTTTCGCTTCTACGACTGGGACCAGGCACGCGGGGAAGTCCGGTGGATGTGCTCCTGGGACACCACCGAAACGGATGTCCAAGCCCTTCTTGCCGCCGTTCGGGATGCCATAGACTCCCCGACTTAA	MSVSIDSTAGQLLSARLHDPTYRGFASDNYAGAHAEIIEAVQAANEGHVTAYGEDVYTAALQELVQSHFGSAASAYPVFNGTGANVLALQALLPRWGAVICAATAHINTDENGAPERIGGIKLLPVPTPDGKLTPELIDAEAWGWGDEHRAQPLVVSITQTTELGTCYTPGEIQRIAEHVHAKGMKLHLDGARLANAAAHLGLPLRAFTTDVGVDVLSFGGTKNGLLFGEAVIWLNPQCDPGMSYLRKMNMQLASKMRFVSAQLIALLTDGLWLRSASHANEMAKRLSEGISAIDGVSLTQATQSNGVFAVLPPHPAAKVRESFRFYDWDQARGEVRWMCSWDTTETDVQALLAAVRDAIDSPT	PGPT0020465_575	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020465-ltaE-K01620	NA	NA
D1-29_00075	528			hypothetical protein	ATGACAGGCAGTCTCGATCCAGATGCCCGGAACAGCTACCGCTTGCTCACCGTGGCGGCCCGGCTGGTACAGCGGCGGCAGGACGATGCGCTGGCTCCGCTCGGACTGACACGGGCTGCCGTGATCGCCTTGGAAGGACTTGCCGCGGGGCCGTTAAACCAGGAACAGCTCGCCGCGGTGATCCACGTCCAAAGCCAGACCCTCGGCAGGGTCCTGACCCGGCTGGAAGGCAGCGGCCACATCACCCGGGCGCGGCAGGCCGCGGACCGCAGGCAGTTCAAGGTGGAGCTGACGGAGGCGGGGTGGGCGGCGCTGGTGGCAGCGCGGACTGCCGAGGTCAACGCCTATCCAAGCGATCCGGACATCAGCTGGAAAGCACTCCGGGAGGAACTCACAAAGTTCGTCAGTTCCTTCCCGGCAGCCCAGCCCGACTCCGGCGTTCTTCCGTTCTCCAGCCCTGATCACAAGGGCCGGCGGTCCGGCTGGCACGGCTCCATGCTCCACGGCGTGGACGACAGCGGCGAATGA	MTGSLDPDARNSYRLLTVAARLVQRRQDDALAPLGLTRAAVIALEGLAAGPLNQEQLAAVIHVQSQTLGRVLTRLEGSGHITRARQAADRRQFKVELTEAGWAALVAARTAEVNAYPSDPDISWKALREELTKFVSSFPAAQPDSGVLPFSSPDHKGRRSGWHGSMLHGVDDSGE	PGPT0013155_401	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-29_00076	336			hypothetical protein	ATGAATCGCCGTCTTGCCGCCCTGTCCGCCCTCCCCCTGATGCTGCTTCTTTCCAGCTGTGCCTCCGTACAGGAAGCCGCCGAATCCGCCGCGAGTGATGCGTCATCGAAGGTGGCCACCGCCGCCGCTGACGAAGTGAAAAAGCAGGTGTGCGCGGTGGTGCAGGACGGACTGGTCAGCGTTGAGGACAAGGCCCTGCTGGGCGGGCTGGTCTCCGCCGCGGAGACAGCTGGCGTTCCCGCAGAAATCACGACGCCGTTGGGCCAGATCGCCGATGCCGGCGACCAGGTGCCGGCTGAGTCAGTCACCGCATTGAAGGACGCCTGCACAGCTTAA	MNRRLAALSALPLMLLLSSCASVQEAAESAASDASSKVATAAADEVKKQVCAVVQDGLVSVEDKALLGGLVSAAETAGVPAEITTPLGQIADAGDQVPAESVTALKDACTA				NA	NA	NA	NA	NA
D1-29_00077	270			hypothetical protein	ATGACCGATATAGCTGCTGTGCTTGGCAGGCTGTCGCAGGATGAGCTTGAAGAGCTCCGGACCATTGGACCCCAGGGGCATCTGCCAAAACATCTGGTTGCGGCGCTGGACACGGCGGCCGGCGGACCCGGTGCCGGACGGGGGTACTACGTTCCCACTGGAAGTGTCAGTGAGACCGGGGGCCCCCACGTGGCGCTCCGCAGCGATGTTTCACGCTGGCTCTTCCCGCCGATCCTTCACGCTGGCCAAACGACTCCTGAGGACCGGTAG	MTDIAAVLGRLSQDELEELRTIGPQGHLPKHLVAALDTAAGGPGAGRGYYVPTGSVSETGGPHVALRSDVSRWLFPPILHAGQTTPEDR				NA	NA	NA	NA	NA
D1-29_00078	1257	xyoA	COG0277	putative xylitol oxidase	ATGCAAAACTGGGCAGGAAACCTCGAATACTCCTCTACGGAGATTCGCCGTCCACGCTCTGTGGAGGAACTCGCTGAGGTGGTGGCAGGCGCCAGCCGGGTTAAGGCCCTGGGGTCCCGGCACTCCTTTAACCGGGTGGGCGACACCAGCGGCGTCCACGTGCTCCTCGACGGACTGCCGCAGGAAATCGAGCTGGATTCCGAGGCTCGGACCGTCAGGGTGAGCGGTGGCGTCAGCTACGGCGAGCTGTGCCGCAGGCTGGACCAGGCCGGCGTCGCCATCCACAACCTGGCCTCCCTGCCCCACATCTCCGTGGCGGGGGCCATCCAGACCGGAACCCACGGCTCCGGAGTCAACAACCCCTCCCTGGCGGGCGCCGTCAAACGCATCGACCTGGTCCGCCCCTCGGGTGAACAGGTCTCGCTGTCCGCCGCGGACGGGGACCAGTTCCTGGGCAGTGTTGTAGGCCTCGGCGCCCTGGGAATCGTCACCGGACTGGAACTGTCCGTCCGGCCAAGCTTCCACATGCGGCAGCGCGTCCTCGAAAATCTGCCGTGGGACAGTGCCCTGGAGAACTTCTCCGCCCTGGTCTCCAGCGCGTACAGCGTCAGCCTCTTTACTGACTACGCGGGAGACGTCATCGATCAGGTCTGGCTGAAGGCCCTCGATTCCGAACCTGCCCTAACCGGGCTCTTTGGCGCCACCGCGGCCGCAGAGGCGCGGCATCCCCTGCCCGGAATGTCGGCGGAAACGTGCACACCCCAACTGGACGAACCCGGGCCATGGCTGGACCGCCTGCCGCACTTCCGGCACGAGTTCACTCCCAGCAACGGCGCGGAGCTGCAAAGTGAATTCATCATGCCACTGGAGCAGGCGCCGGCCGCATTGCAGGCGGTACGCACCCTGGCGGCCAAGGTGGCGCCGCTGCTGTTCGTGTCCGAGATCCGCACGGGCGCGGCTGACGAGTTCTGGCTGAGCCCGTTCTACCGGCAACAGAGCGTGGCCCTGCATTTCACCTGGAAGCCCCTGCAGGCTGAGGTTGAGGCTGTCCTTCCGGAGCTCGAGGACCTGCTCCGTCCGTTTGGTGCCCGGCCACACTGGGGCAAGCTCTTTACCCCTGCCGGCCACGACTGGGAAGCGCTCTATCCCAGGTTCGGTGACTTCCGGTCACTGGCCTCGGCACATGATCCGGAGGGCAAGTTCCGCAACGACCTGCTGGACAGCATCCTGGGGGTCCCCGCGGCGAGCGCCCGGTAG	MQNWAGNLEYSSTEIRRPRSVEELAEVVAGASRVKALGSRHSFNRVGDTSGVHVLLDGLPQEIELDSEARTVRVSGGVSYGELCRRLDQAGVAIHNLASLPHISVAGAIQTGTHGSGVNNPSLAGAVKRIDLVRPSGEQVSLSAADGDQFLGSVVGLGALGIVTGLELSVRPSFHMRQRVLENLPWDSALENFSALVSSAYSVSLFTDYAGDVIDQVWLKALDSEPALTGLFGATAAAEARHPLPGMSAETCTPQLDEPGPWLDRLPHFRHEFTPSNGAELQSEFIMPLEQAPAALQAVRTLAAKVAPLLFVSEIRTGAADEFWLSPFYRQQSVALHFTWKPLQAEVEAVLPELEDLLRPFGARPHWGKLFTPAGHDWEALYPRFGDFRSLASAHDPEGKFRNDLLDSILGVPAASAR				NA	NA	NA	NA	NA
D1-29_00079	1257			hypothetical protein	ATGGGCTGGAACAGTTGGGACTGCTACGGCACCACGGTCACCGAGGAGGAGGTGCTGGCCAACGCTTCTTTTATGGCTGAACACCTGCTGCCTCATGGCTGGGACACGGTGGTGGTGGACATCCAGTGGTACGAACCCGCAGCCCGCGCCGGCGGCTACAACGATGGCACCGCCCTGGAACTTGATGCCTTCGGCCGGCAGTTGCCTGCCGTCAACAGGTTCCCGTCGGCCGCTGAGGGAGTTGGCTTCAAGGACCTTGCGGACAGGATCCACGGCCTGGGCCTCAAATTCGGCGTACACATCATGCGCGGCATCCCGCGACAGGCTGTCAGGGACCGTCTTCCGGTGGAAGGCACGGACTTCACGGCTGACCAGGTTGCCGACCAATCGTCCGTCTGCAACTGGAATACGGACAACTTTGGGCTGAACCACCAGCATCCGGGTGCCCAGGCCTACTACGACTCACAATTGCGCCTCTTTGCCGCCTGGGGAGTGGACTTCGTCAAGGCTGACGACATGCTGGGTCCCTACTACGCGGAGGAGATAGCGGCCTACCAGCGCGCCATCTCGAATTCTGGGCGGGAAATTGCCCTGAGCCTGTCGCCAGGCCGCGCGCTGTCCCTGGCCCACCTGGAACACCTGCAGGGCAACTCACAGATGTGGCGGGTATCGGATGACCTCTGGGATGTCTGGGAGGACGTGGAGGCCCAGTTCGCCCGGATGGCCCGCTGGGCACCCCACCAGCGCGCAGGCGCCTGGGCAGATGCCGACATGCTGCCCGTGGGCAGGATCGCCCTCAGGGCCGAGCGCGGTGCCGAGCGGCTGAGCCGGCTGACCATGGATGAACAGCGGACCATGATGACCCTCTGGTGTGTGTCCCGGTCGCCGCTGATGCTGGGCTGTGACCTGCCGTCCTCGCCCCCGGAAACGCTTGAACTCCTCACCAACCGTGACCTCCTTGACGTCCTGAACGCCAGCCGAAACAACCGCGAACTGCTGCGGGACGGCGATCTTGTCCTGTGGGAAGCGGAAAGCGCGACGTCGGAGGACCGTTTTGTTGCGGTCTTCAACACCGGGACAGGGGACTTGGTCCGCTCGCTTCCGCTCGGTGACCTTGGTTTGGCCTCCGCATCATGGAAGGCGAGGGAGGCCTGGAGCGGCAACAACGCCGTGCCCAGCCTGAAGGATGGCCTGCCCGCGCTCGACGTGAAGCTGCCTGGCCATGGTTCACAGCTCTTCCGCTTCACGGCGGAATAG	MGWNSWDCYGTTVTEEEVLANASFMAEHLLPHGWDTVVVDIQWYEPAARAGGYNDGTALELDAFGRQLPAVNRFPSAAEGVGFKDLADRIHGLGLKFGVHIMRGIPRQAVRDRLPVEGTDFTADQVADQSSVCNWNTDNFGLNHQHPGAQAYYDSQLRLFAAWGVDFVKADDMLGPYYAEEIAAYQRAISNSGREIALSLSPGRALSLAHLEHLQGNSQMWRVSDDLWDVWEDVEAQFARMARWAPHQRAGAWADADMLPVGRIALRAERGAERLSRLTMDEQRTMMTLWCVSRSPLMLGCDLPSSPPETLELLTNRDLLDVLNASRNNRELLRDGDLVLWEAESATSEDRFVAVFNTGTGDLVRSLPLGDLGLASASWKAREAWSGNNAVPSLKDGLPALDVKLPGHGSQLFRFTAE	PGPT0018835_2911	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407	NA	NA
D1-29_00080	870			hypothetical protein	ATGAACATCACACGTACACCCCAGAACCCCGCCACCCCCACCCTTGACCTGGGCCGGCTGCGCCCTGACTGTGGCAGCTGCTTCGCCCTGTGCTGCACAGCCTTCGGCTTCACCCGCTCCGCGGACTTCGCCATCGACAAGCCCGCCGGCACACCCTGCCGGAACCTGGGCCAGGACTTTTCCTGCACCATTCATGACCGACTCCGGCCCAGGGGTTTTTCCGGCTGCACGGTCTTTGACTGCTTTGGTGCGGGGCAGGCCGTCTCGCAGCGGCTTTTCGGCGGCATCAGCTGGCGGGATAACCCGGGCTCACAGCAGGACATGTTCGCCGCGTTCAAATCCATGAGGCAGCTGCACGAAATGCTGTGGCACCTGGCCGAGGCCCAGGCAAGAACGTTCGATCCCTATGCCGCCGGGGATGCGAAGAAACTGGCCGGGAGGATCGAGGCGATTGCCGGCGGGACTGTCTCCGGGCTCCTCAACTGCGACATGGAAAGCCTTCACGGCGAAGTCAGGGGAACCTTGATGGAGATCAGCGAAGAGGTGCGGGCGGCCCGCTTTGCCGACGGCGGCGGTCACCTTGATCCGGACCTGCAGCCGGGCGCGGACCTGATGGGAGCCAACCTCCGCCAGCGCCAGCTCTGCGGGGCGGATCTGCGGGGCGCTTATCTTATTGGTGCCGACCTCCGGGGCGCCGACCTCGCCGGCGTGGACCTGTTGGGGGCCGACCTCCGGGATGCACGGCTGGACGGCGCTGATCTTTCCGCCGCGCTGTTCCTCACCCAGCCGCAACTCAACTCAGCCAGGGGCAACAGGGCCACCGTCCTCCCGCCGCGCCTTACGCCGCCGTCGCACTGGCTGGTTGGCTAA	MNITRTPQNPATPTLDLGRLRPDCGSCFALCCTAFGFTRSADFAIDKPAGTPCRNLGQDFSCTIHDRLRPRGFSGCTVFDCFGAGQAVSQRLFGGISWRDNPGSQQDMFAAFKSMRQLHEMLWHLAEAQARTFDPYAAGDAKKLAGRIEAIAGGTVSGLLNCDMESLHGEVRGTLMEISEEVRAARFADGGGHLDPDLQPGADLMGANLRQRQLCGADLRGAYLIGADLRGADLAGVDLLGADLRDARLDGADLSAALFLTQPQLNSARGNRATVLPPRLTPPSHWLVG				NA	NA	NA	NA	NA
D1-29_00081	381			hypothetical protein	ATGCGAATTACCTTGATCAGAACCGCTTTGAGCCTAGGCCTCTTTGCGGTTTTCCTTCTTCCGGGACCGGCGCTGGCCATCACGGCAGAACCAGTTGCCGATACGCCGGCCCTGCAGGCAGCCGCTACGCAGACCCAGCAGCCCACGGCTACCCGGCAGCCCACCCCGACCGAAGCGCCCACAGGAGTAACGCCCGCCCCAACGGGACAAGCAACCGCCCCTGAAACCTCGCCGCCTGTGCCGGGGGAGGGTGACAGAACGGAGACTACGCAGACCGGCAATGACATGACGCCGCTCGTAGTGGGGGCGATACTGCTCCTCATCGTGTTGGCCGCTCTTTTCTACTTGTGGAGGCAACGCCGCACGGACACGGAGGTATGA	MRITLIRTALSLGLFAVFLLPGPALAITAEPVADTPALQAAATQTQQPTATRQPTPTEAPTGVTPAPTGQATAPETSPPVPGEGDRTETTQTGNDMTPLVVGAILLLIVLAALFYLWRQRRTDTEV				NA	NA	NA	NA	NA
D1-29_00082	723			hypothetical protein	GTGACCTCTGAATCAACCACATCAGCCGAGCCGGCAGTTCCCCAGCTGTCCCGGCGCGAACTCAACAAAGCGGCAACCCGGCAGGCAATCACGGATGCCACCATGGAGCTTGTCCGGCAAAAGGGCCTGGGCAACTTCACGGTGGAGGACATCGCCGACGCCGCGGGCGTCTCGCGCCGCACCTTCTTCAACTACTACGCCAGCACCGAGGCGGCGATCGGAAACGTCACCCACGGTTTCCTGGACGTAGCGCTCCAGCAGTTCCGGTTGCGCCCGGCGGGTGAGCCGGTGATCGTTTCGGCAAGGGAAGCCCTGATGGCCCTTGCCGATCCCATGGCCGTGGCGCCCGTTGCCGAGCTCTTCAGCCTGATTCAGCAGAACCAGCAGCTCGCCCGTACGGAGCTCGAAGCGTGGGACCACTGCGCCGGGCAGATTATTGAGGCGGCACGTGAGCGCATTGCCGGGAACACCGGCGTCGAACTGGATGAGCTGTACCTCCGCGCGCTGGCAGGCTCGGTCATTTCCTGCGGCAAGGCCGCAGTGGAGGTCTGGTTTGCCCGCTGCGGCGCCGACCTCTCCGAGGCCTCCATGGCCACGCTCCGGCAACTGATGATCGATTCCATGGATCTGCTGGCCTGCGGTTTCGGCACAACGCCAGACACCTCACAGACTTCCCAGGCTGCTGAAACCCCGGCATCCGCACTTCCCACAGATCGGCACTGA	MTSESTTSAEPAVPQLSRRELNKAATRQAITDATMELVRQKGLGNFTVEDIADAAGVSRRTFFNYYASTEAAIGNVTHGFLDVALQQFRLRPAGEPVIVSAREALMALADPMAVAPVAELFSLIQQNQQLARTELEAWDHCAGQIIEAARERIAGNTGVELDELYLRALAGSVISCGKAAVEVWFARCGADLSEASMATLRQLMIDSMDLLACGFGTTPDTSQTSQAAETPASALPTDRH				NA	NA	NA	NA	NA
D1-29_00083	2532			hypothetical protein	ATGGCCTTACTCCTTTACCGCCTGGGCAAGTTTTCCTACCGCCACCGCTGGCTAGTGATCTCGGCGTGGCTTGCCGTCCTCGTCGCCGTCGGCGGCTCGGCTGCCGCCTTCCACGGCACCATGTCCAACAACTTCCAGATCCCCGGGACCGAAACCCAGCGGATGCTGGACAAGCTGAAGGCAGACCTGCCGGCTTCCTCGGGCGGCACCGCCGGAATCGTTTTCGAGGCCGACGGCGATGGGTTCAGCCAGGAAGGCAAGGCCGCCGTGACTGCCGCGCTGGCCAAGCTGGGCACCCTGCCGGACGTCCAGGGAACAGTGGATCCGTTCGCCATCCAGGCCCAGCTTGACCAGGGAGCAGCGGACCTGGCAACCGGCGAGCAGAAAGCTGCGGCCGGGAAGGCGCAGCTGGACAAATCCGCCGCAGAACTCGCGGCAGGAGCTGCCCAGCTGGCCCAGGCTGAACAGCAGATGAAGGCCGCCGGGCTTCCCGACGCTGCCATCGAGGCCCAGCTGGGCCAGCAGAAAGCGGCGATTGCCGCCGGGCAGCAGCAGCTCGACGCCGGCCGGAAGGATCTCGAGGCGGGCACCGCTGAGCTGGAACTCGGCAAACGCCGGATCGCGGCTTCCGAAGGCATGCGTTTCGTGTCCGAGGACGGGAAGGCAGCCCTCGCCCAGGTGCAGTTCAAAACCTCCATCAATGCGATCGATCCGGCTGTCCGCGAGGAAGTCCAGGAGATCGCCCAGGAAGTGTCGTCAGCAGGCGTCACGTCCTACGCCAGCAAAGAGATCACCGAGGATGTTTCCGACCTGTTCGGAATTTCCGAGATCCTCGGCATCGCCATTGCAGCCTTGGTGCTGATCGTCATGCTGGGCACGCTGATCGCTGCCGGATTGCCGCTGCTGATGGCAGTGGTGGGAGTCGCCGTCGGCGTGGGCGGCACATTCGCCCTCACCAGCGTGGTGGATATGAGTTCCATTTCACCCATGCTTGCCCTCATGCTGGGCCTTGCCGTGGGCATCGATTACTCCCTCTTTATCGTCAACCGGCACCGGAACCAGCTGCTGGCGGGGATGGACGCGGAGGAGTCCGCCGCCCTGGCCACCGGCACGTCCGGCAACGCCGTACTGTTCGCCGGGCTTACCGTCATCATCGCGCTCGCGGCTCTGGTGGTGCCCGGGCTCCCCTTCCTGGCGGTGATGGGCCTTTCCGCCGCGGCCACTGTGGCAGTCGCCGTCGTGGTTGCCCTGACCCTCACCCCGGCCGTCCTGTCGCTCGTGGGCCGACGCCTGATCTCCCGGCGCAGGTGGGCGAAGGCCGAAGCGCACAACGCGGCACCCGGCCACGAAGAAGCAGACCGTACCAAGGAAGAGCACCGGAGCAGCCATGGCTGGGGAGGCCTGGTCACCCGCCACCCCATCCTGGCCCTCCTGGCCGGCGTTGTCCTGTTGGGTGTGCTGGCCCTGCCGGCCAGCCAGCTCCGGCTGGCCCTGCCCGACGGCGGCTCCGAGCCCGTGGCCTCCCAGGCCTACAAGGCGTACGACGCCACCAAGCGCAGCTTCGGCGAGGGCATGACCGGACCCATCGTGGTGGTGGGCGAGTTCCCCGCCGGCCTGAACGAAGCCGAAGCAGTGTCAAAACAGTACGACGTGGCCGACGTCCTGCGGGGTGTGGACAACGTCACGGCGGCCGTCCCGGTTGCGCTGAGCGAGGATCGCCGCACGGCCGTATTCCAGGTGATCCCGCGGGAAGGGCCCGCCAGTGCGAGCACCGTCCAGGTGGTCTCCGAACTCCGTGCGAGGAACGCCGAAATCAAGGACTCCACGGGCGTTACCGTCGGTCTCACCGGGCAGACCGCCGGCAACATCGATGTCTCCACGAAACTGGGCGACGCCCTGCCCCCCTACCTGGCGATCGTCGTCGGGCTCTCCCTGATCCTCCTGCTCCTGGTGTTCCGCTCCATCGTGGTGCCGCTGCTGGCCACGGGCGGGTTCCTGCTGTCCCTGGCGGCCGCGTTCGGAGCCGTCGTCGCCGTCTACCAGTGGGGCTGGCTGGGGACAGTGTTTGACGTTCCCAACCCCGGCGCGGTGCTCAGCTTCCTGCCCATCATCCTGATCGGCGTGCTGTTCGGCCTGGCCATGGACTACCAGGTGTTCATCACCTCCGGCATGCGGGAGTCCTACATGCACGGCGAAACCGCCAAACACGCCGTGCGGACAGGTTTCAGCCATGCCGCCGCTGTGGTCACCGCCGCCGCCATCATCATGGTCAGCGTCTTCTCCGGGTTCGTCTTCAGCCACCTGACCATGGTGCGCCCGCTCGGTTTTGCCATGGCGTTCGGCGTCCTGGTGGATGCGTTTGTGGTCCGCATGACCATTGTTCCTGCCGTCATGTACCTGCTCGGCGAAAAGGCCTGGTGGCTGCCCACCTGGCTGGACCGCATCCTGCCCGATGTTGACGTGGAGGGCGCGAAACTCCGGGCGGACATACCGCCGGCCGCGCTCAGGGAAAAGGAGGGCTCCATCCGCTAG	MALLLYRLGKFSYRHRWLVISAWLAVLVAVGGSAAAFHGTMSNNFQIPGTETQRMLDKLKADLPASSGGTAGIVFEADGDGFSQEGKAAVTAALAKLGTLPDVQGTVDPFAIQAQLDQGAADLATGEQKAAAGKAQLDKSAAELAAGAAQLAQAEQQMKAAGLPDAAIEAQLGQQKAAIAAGQQQLDAGRKDLEAGTAELELGKRRIAASEGMRFVSEDGKAALAQVQFKTSINAIDPAVREEVQEIAQEVSSAGVTSYASKEITEDVSDLFGISEILGIAIAALVLIVMLGTLIAAGLPLLMAVVGVAVGVGGTFALTSVVDMSSISPMLALMLGLAVGIDYSLFIVNRHRNQLLAGMDAEESAALATGTSGNAVLFAGLTVIIALAALVVPGLPFLAVMGLSAAATVAVAVVVALTLTPAVLSLVGRRLISRRRWAKAEAHNAAPGHEEADRTKEEHRSSHGWGGLVTRHPILALLAGVVLLGVLALPASQLRLALPDGGSEPVASQAYKAYDATKRSFGEGMTGPIVVVGEFPAGLNEAEAVSKQYDVADVLRGVDNVTAAVPVALSEDRRTAVFQVIPREGPASASTVQVVSELRARNAEIKDSTGVTVGLTGQTAGNIDVSTKLGDALPPYLAIVVGLSLILLLLVFRSIVVPLLATGGFLLSLAAAFGAVVAVYQWGWLGTVFDVPNPGAVLSFLPIILIGVLFGLAMDYQVFITSGMRESYMHGETAKHAVRTGFSHAAAVVTAAAIIMVSVFSGFVFSHLTMVRPLGFAMAFGVLVDAFVVRMTIVPAVMYLLGEKAWWLPTWLDRILPDVDVEGAKLRADIPPAALREKEGSIR				NA	NA	NA	NA	NA
D1-29_00084	387			hypothetical protein	ATGCCGTTGGATCAGCTAGCCGCGATCTTTGCCTGCGTGATTCTGGGTGGCCTGGCAGTTTTCCAGGCCGCACTGGTTGCCGGGGCTCCGCTGGGGAGAATGGCCTGGGGAGGGCAGCACGAAGTGCTCCCCGGCCGGCTCAGGGCAGGCAGCGCGGTGTCCATTGGGCTGTACGCACTTTTTGCCTACGCAGCCCTGGCCAAAGCCGGCCTGGCCCCGCCCCTGGTCAACGAATCCTTCACCTCGGTCTTTTCCTGGGTGCTGACAGGCTACTTCGCCCTGGGCGTGGTGATGAACGGTATCTCCCGGAGCAAGCCGGAACGCCTCGTCATGACCCCCACTGCACTGTTACTCGCAGCCTTGTACCTGGCGCTGTCCGTCAACTGA	MPLDQLAAIFACVILGGLAVFQAALVAGAPLGRMAWGGQHEVLPGRLRAGSAVSIGLYALFAYAALAKAGLAPPLVNESFTSVFSWVLTGYFALGVVMNGISRSKPERLVMTPTALLLAALYLALSVN				NA	NA	NA	NA	NA
D1-29_00085	294			hypothetical protein	ATGTCATTCCAGGCTTACCTCGACGCCATCGAGGACAAAACAGGTCTCACCCCCAGGCAGCTTGTGGAGAAGGCGCGGGAGCGGGGCTATCACCTGCCTGATACGAAAGCCGCAAACATTGTTGATTGGCTGAAAGAGGACTACGGACTGGGACGTGGGCATGCCATGGCGCTGGTCCATGTCATCAAAAAAGGTCCAGTAATTGATGACAAACACGTCGGCTCCGCGGGCACCCATGCCGACGCATCAAATGTCCTGTGGCTTGACGGCAAAGCCACCAAGCCGTCTTCCTAG	MSFQAYLDAIEDKTGLTPRQLVEKARERGYHLPDTKAANIVDWLKEDYGLGRGHAMALVHVIKKGPVIDDKHVGSAGTHADASNVLWLDGKATKPSS				NA	NA	NA	NA	NA
D1-29_00086	1920	ams	COG0366	Amylosucrase	ATGCTTGAACCCGCAAACGCAGAACACTTCGACAGCGCCAAGGTGCTCACCGCCGTCGCAGAGAAAGCCGGCATCCGTCCAGGGGACGGGGACTGGGCCGATTTCGAACGGCGCTTCCACGTCCATTTCCCCGACTTGGCGCGCCTTTTTCACGCACTCTACGGCTCACGGCCTGACTTCCAGGATCAGCTGATTTCCCTTGTGCTTGAGGCGGCAAGGTCCTGGCAGGAAAGGGCGGCGGACCTGAAGATCCAGGACGCCGAAAGCGACGGCGGCTGGTTCGAGTCCAACCGTATGCTCGGCGGGGTCTGCTACGTGGACCGGTACGCCGCCGACCTTGAAGGTGTCCGTGCCCGTATCCCCTACTTCAAGGAACTGGGCCTTACCTACCTGCACCTGATGCCGCTTTTCCTGGCACCCGAACCGTTGTCCGACGGCGGCTACGCGGTGTCCAGCTACCGGCAGGTCAATCCGCGGCTCGGAACCATGCAACAGCTGCGCGGGCTTGCCGCCGAACTGCGCGCCAACGGTATCAGGCTGGTTGTGGACTTCGTCTTCAACCACACGTCAAACGAGCACGAGTGGGCCCGGAAAGCTGCCGACGGCGATGCGGACTTCAGCGACTACTACTGGATTTTCCCTGACCGGAGAATGCCTGACGCGTTCGAGCAGAACGTGCGGGAGATCTTCCCGGAAGACCACCCCGGCTCCTTCGTGCAGCTGCCCGACGGCAGGTGGGTATGGGCCACGTTCCACACCTACCAATGGGACCTGAACTACACCAATCCTGAAGTGTTCCGGGCAATGGCGGCCGAGATGCTCTTCCTCGCCAACCAGGGCATCAGCATCCTCCGGATGGACGCCGTCGCCTTCATCTGGAAGAAGCTGGGAACACCCTGCGAAAACCAGCCCGAGGCACATACCCTGCTGCGGGCCTTCAACGCGGTCTGCCGGCTGGCCGCCCCGTCACTGCTCTTCAAATCCGAAGCCATTGTCCACCCGGACGAGGTGGCCCTGTACATCGATCCGGCGGAGTGCCAGCTCTCCTACAACCCGCTTCAAATGGCGCTCATCTGGGAGTCGCTGGCCACACGGAACGTTTCGCTGCTCTCCCAGGCCCTGGAACGCCGCCACAACATTCCCCCTGGGACATCCTGGGTGAATTATGTCCGGAGCCACGACGACATCGGCTGGACGTTCGGCGATGAGGACGCCGCAGAGCTCGGAATCAACGGCTTCGACCATCGCCGGTTCCTGAACTCCTTCTACGTCAACCGCTTCCCGGGCAGCTTCGCACGCGGTGTGCCCTTCCAGGACAACCCCAACACCGGCGACTGCCGCATCTCGGGAACAACTGCCTCGCTCTGCGGGCTGGAGCATGATTCGGTCCAGGCGGTGGACCGGATCCTGCTGGCCCACTCGGTGGCATTCAGCACCGGGGGCATACCCCTGCTGTACCTGGGCGACGAGGTGGGCCAGCTCAATGACTACGAGTACGCCGCGGAGGAAGGCCACGAAGCCGACAGCCGCTGGGTGCACCGGCCCCACTTTCCGGCCGAACGCTACGCACACCGCCATGACCCGTCAACCCCCGAGGGCGCCATCTTCGCAGGCCTGCGCAGAATGGCGGATGCCCGGGCCAGTACCCCTGAACTGGCAGGCACCCGCCTCATTCCGTTCGACACAAAAAACCCGGGCGTCCTTGGCTACCAGCGGCCCGGCGAGGGAACACTGGTACTTGCCCTTGCCAACTTCAGCGACCATCCCCAGATCATCCAGGCCGGGACACTCTCAGGCTTCGCACCGGAGGCCGTGGACATTCTGTCCGGCAACCCGGTAAGCCTCAACAACGGAATAGTCCTCCCGGGGCTGGAGTACGCCTGGCTCCGGGTTGTGCCGGTGAACCCGCAATCGTCCTAG	MLEPANAEHFDSAKVLTAVAEKAGIRPGDGDWADFERRFHVHFPDLARLFHALYGSRPDFQDQLISLVLEAARSWQERAADLKIQDAESDGGWFESNRMLGGVCYVDRYAADLEGVRARIPYFKELGLTYLHLMPLFLAPEPLSDGGYAVSSYRQVNPRLGTMQQLRGLAAELRANGIRLVVDFVFNHTSNEHEWARKAADGDADFSDYYWIFPDRRMPDAFEQNVREIFPEDHPGSFVQLPDGRWVWATFHTYQWDLNYTNPEVFRAMAAEMLFLANQGISILRMDAVAFIWKKLGTPCENQPEAHTLLRAFNAVCRLAAPSLLFKSEAIVHPDEVALYIDPAECQLSYNPLQMALIWESLATRNVSLLSQALERRHNIPPGTSWVNYVRSHDDIGWTFGDEDAAELGINGFDHRRFLNSFYVNRFPGSFARGVPFQDNPNTGDCRISGTTASLCGLEHDSVQAVDRILLAHSVAFSTGGIPLLYLGDEVGQLNDYEYAAEEGHEADSRWVHRPHFPAERYAHRHDPSTPEGAIFAGLRRMADARASTPELAGTRLIPFDTKNPGVLGYQRPGEGTLVLALANFSDHPQIIQAGTLSGFAPEAVDILSGNPVSLNNGIVLPGLEYAWLRVVPVNPQSS	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
D1-29_00087	705			hypothetical protein	ATGGACATCATCCTGGTACCCGGTTTCTGGTTGGACGCCTCGTCATGGGCGGAGGTGACGCCAGCCCTGGAGGCGGCAGGGCACACGCCCCATCCGCTCACCCTTCCCGGCCTCGAGTCTGCAGACGCCCCGCGCGCCGGAATTGGCCTGCGTGACCACATCGATGCCGTCGTGAAGGCCGTGGACGGGATGGAAGGGAAAGTGGTGCTGGTGGGCCATTCGGGCGGCGGCGCCATCATCCACGGTGTGGTTGACGCGCGGCCGGACCGGGTGGAGCGGGCCATCTACGTGGACAGCGGCCCCCTGGGCGAAGGCGGCGTCATCAACGATGAGCTGCCGGCGGAGGGCGACGACATTCCCCTGCCGCCTTGGGAGGGTTTCGAAGACGCCGATCTCACGGACCTCACGGAGGATCTTCGTGCCCAATTCCGGGCCCGCGCCATCCCGCAGCCCAAGGGCGTGGCGTTCGATCAGCAACACCTGCACGACGTGCGCCGTTATGACGTCCCCGCCACCGTGATCGCGTGCGAGTTTCCCTCCTCACTGCTTCAGGAGTGGATCGACGCCGGCCATCCCTACGTGGCGGAGCTGGCCCGCATCCGGGACGTGGAGTACGTGGACCTTCCCACGGGGCACTGGCCCCAGTTCACCAAACCGGCGGAACTGGGCCAGGCAATCCTGGCAGCGGTGGACCGCAAGGTGTGA	MDIILVPGFWLDASSWAEVTPALEAAGHTPHPLTLPGLESADAPRAGIGLRDHIDAVVKAVDGMEGKVVLVGHSGGGAIIHGVVDARPDRVERAIYVDSGPLGEGGVINDELPAEGDDIPLPPWEGFEDADLTDLTEDLRAQFRARAIPQPKGVAFDQQHLHDVRRYDVPATVIACEFPSSLLQEWIDAGHPYVAELARIRDVEYVDLPTGHWPQFTKPAELGQAILAAVDRKV				NA	NA	NA	NA	NA
D1-29_00088	1473			hypothetical protein	ATGACGAAGTCACGATCTTGGACAACGCGCGCAGCGGGATTGGCAGCGGCTTTCGGCATCGCGCTGACAGCGGCGGTGCTGCCGCCGGCCGCGGGCGCCGCCATTGAAAACAGACCAGCGATAGAACACCAGCTGGCTGCTGACCAGAAGCAGGCCGGAGCACACAAGCAGCAGGCCGACCTGCCGGGCGGCAAAACGGTGGTGGGCCAGACCTCGCCAATCCACGATCCCGCGCTGATCATCGCCGACGACGGCACGTGGTACGTCTATTCCACCGGACTGCTAAACAGGGAGAACGGCGGGACCATCCAGATCTGGTCCTCCTCGGACCAGGGAACGACGTGGGAGTACAGCGGCACGGTCTGGGACAAGATTCCGGCGTGGATTGATGAACACTTCGCCGACGGCGAGCTGCCGGGCAACCTGTGGGCACCGGAAATCACCGAACACAACGGGACCTACTACCTGTACTACTCGGCGTCGCGCTTTGGCGGGAACAACTCTTTGACCGCCCTCGCCACCAACACCACTCTTGACCCCAACGACCCCGACTACGAGTGGGTGGACCAGGGCCTGGTGGTCTCCTCCCCCGCCACGGGGCTGGATCCGAACAACCCCGGCAAGACGTTCAACGCGATCGACGCCGGCATCATCGAAGATGCGGACGGCACCCCGTACATGGCCATCGGCTCGTTCTGGTACGGGATCTTCCTGGTGCCCATCGAGTGGCCCACCGGCAAGCCTGTGGCCGACTGGCAGTCCAAGACCGTCAACATCGCGGACCGCTTTATGCCGGGCAACCCGGTCGAGGCGCCGTACATCACCCGGCACGGCGGCTACTACTACCTGTTTGTCTCCTTCGACTCCTGCTGCCGGGGCGGGGACTCCACCTACAAAGTGGCGGTGGGCCGCTCCACGTCCGTGAAGGGCCCCTACCTGGACAAGGACGGCCGCGACATGTTCGGCGGCGGCGGGTCTGTGGTGCTGGATTCGCACGGTGCAATCACGGGCCCGGGCGGACAGTCGGTTTTTGGCGACTACCTGGCGTTCCACTACTACGACGGGTCCAACCAGGACATCCCGTACTTCCCCACCCTGGGCCTGCAGAAGATCAACTGGGTGGACGGCTGGCCCGCTTTTGACCAGACCCTGGAGCTGCCGGCGGTACAGAAGCAGCCGAAGCCGGTATCCATAAACGCCGGGAAGACGGCCGTATTCGCCGCCACAGCCACCGGGACGCCAGGCCCGGTGGCTGTCTGGGAGACGTCCTCCGATGGCGGGGCCACCTGGGAGCAGCTCGAATCCCAGCCCATCACCAAGCGGACGGACGAAGGCACGTACCGGTCCACCCTCGAGTTGGCGGCCGCTTCCACGGAGGACGACTCCCCAGAGCCGGGGCTTCTGGTGCGTGCCGTTTTCCACAACGCACACGGCTCGGTGACCACCGACGCCGTCGGACTTTCGGTGCGGTAA	MTKSRSWTTRAAGLAAAFGIALTAAVLPPAAGAAIENRPAIEHQLAADQKQAGAHKQQADLPGGKTVVGQTSPIHDPALIIADDGTWYVYSTGLLNRENGGTIQIWSSSDQGTTWEYSGTVWDKIPAWIDEHFADGELPGNLWAPEITEHNGTYYLYYSASRFGGNNSLTALATNTTLDPNDPDYEWVDQGLVVSSPATGLDPNNPGKTFNAIDAGIIEDADGTPYMAIGSFWYGIFLVPIEWPTGKPVADWQSKTVNIADRFMPGNPVEAPYITRHGGYYYLFVSFDSCCRGGDSTYKVAVGRSTSVKGPYLDKDGRDMFGGGGSVVLDSHGAITGPGGQSVFGDYLAFHYYDGSNQDIPYFPTLGLQKINWVDGWPAFDQTLELPAVQKQPKPVSINAGKTAVFAATATGTPGPVAVWETSSDGGATWEQLESQPITKRTDEGTYRSTLELAAASTEDDSPEPGLLVRAVFHNAHGSVTTDAVGLSVR	PGPT0019090_287	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINANASE,PGPT0019090-abnA-K06113	NA	NA
D1-29_00089	1332			hypothetical protein	ATGACGAAGTCACGTCCCATGGCCGCTGCCTTGGCGCTTTTGACCGCAACAGGCCTGATGCTCGGCGGATGCTCCGCCCCAACAGGCGGGGATGCCGGCGAAAAGAAACTCACCTTTATGTTCCGTGGGGGTGAGGACGAAAAGAAGGCCTACGAAAAGGCCGTCGCGCAGTTTGAAATGGACAACAACGTGGACGTGGACATCATCGTCACCACCGCGGACCAGTACGCCACCAAGCTGAAGGCTGCCATCGCCGGCAAGCAGGTCCCGGACGTCTTCTACATCGGCCCCGGCGACGTCCAGGCGTACGTGCAGAACGGCATCGTCAAGGACATCACCGAGTACGTGGAGAAGTCCGACACCATCGACCTGGACAACATCTGGGAGTACGGCGTCGACAGTTACCGCTATGACGGAAAGCGGGTGGGCGAAGGTGCCATCTACGCCCTCCCCAAGGATGTTGGACCGTTCTCCTTCGGCTACAACAAGACCATGCTGGAGAAGGCAGGCATCCCGCTTCCGGACAAGGACAAGCCCTACACCTTCGACGAATTCGTGGCCGCGGCCAAGAAGCTGACAGCCGACACCAACGGGGACGGCGCCCTGGACCAGTGGGGCACCGGCCTGAACGTCCAGTGGAACCTGCAGCCGTTTGTCTGGTCCAACGGCGGCGACTGGCTCAACGAGGACCGCACCAAGGTCACGGTGGACACGCCGGAGTTTGCCGAATCCCTCCAGTGGTTCGCTGACCTGCAGAACGTCCACGGCGTGACGCCGTCCGTTGCCGAGGCACAGACCCTGGACACGTACCAGCGCTGGATGAAGGGCGAAATCGGCTTCTTCCCGATCGCTCCGTGGGACCTCTCCACCTACCAGAAGCTGGGCTTTGAATGGGATGTGATCCCGTACCCGGCCGGCGACACCGGCAAGACCGCCAGCTGGATCGGAACGCTGGGCGTCGCGGTGTCTGAGAGCACCAAGCACCCGGAAGACGCCGTGAAACTGGTGGAATACCTGACGGCCAACAAGGAAGCCCAGCAGAGCCTGGTGGATGCGGGTATCCAGATCCCCAACCTGAAGGACATGGCTGAGACCTGGGCCGCCGACACCACCACCAAGCCTGCCAACAAGGCCGAGTTCCTGCAGATCGTGAAGGACTACGGGCGGGCCCTGCCGGGCGGCAACACCTTCAACGCCGAGTGGTACGACGAACTCTTCACCAACATTCAGCCCGTGCTGGACGGCAAGCAGACCGCAGCCGACTACCTGAAGGAAGCCCAGCCGCGGATGCAGGAATTCCTGGACGCAGCCAACCAGCAGGCCGGCAGCTAA	MTKSRPMAAALALLTATGLMLGGCSAPTGGDAGEKKLTFMFRGGEDEKKAYEKAVAQFEMDNNVDVDIIVTTADQYATKLKAAIAGKQVPDVFYIGPGDVQAYVQNGIVKDITEYVEKSDTIDLDNIWEYGVDSYRYDGKRVGEGAIYALPKDVGPFSFGYNKTMLEKAGIPLPDKDKPYTFDEFVAAAKKLTADTNGDGALDQWGTGLNVQWNLQPFVWSNGGDWLNEDRTKVTVDTPEFAESLQWFADLQNVHGVTPSVAEAQTLDTYQRWMKGEIGFFPIAPWDLSTYQKLGFEWDVIPYPAGDTGKTASWIGTLGVAVSESTKHPEDAVKLVEYLTANKEAQQSLVDAGIQIPNLKDMAETWAADTTTKPANKAEFLQIVKDYGRALPGGNTFNAEWYDELFTNIQPVLDGKQTAADYLKEAQPRMQEFLDAANQQAGS				NA	NA	NA	NA	NA
D1-29_00090	903	lacF_1		Lactose transport system permease protein LacF	ATGTCATCAACCATCACGCGCCGCTCGCGGCTTCACCGGAAGGAACACCAGGCCGCCCTTGTCTTTGTTGCCATACCGGTGATCGGGTTCCTCCTCTTTACGCTTTTCCCCTTGCTGTTCTCCGTGTATGCGTCCTTCACCAACTGGAACGGTATCTCCGCTCCGGTGTTCAAGGGCCTGGACAACTACACCAAGATGTTCGGCGACAGGTATTTCCTGAAGTCGCTGTGGAATACCGTCTTTATGATGATCGGCATCCCCGTGGGCCTGGTCATTTCGCTGGCCCTGGCACTTGCCATGAACCGCAAGATGCGTGGCACCACGTTCTTCCGCACGGTCTACTACCTGCCGGTGATCTCCTCCATCGCGGCCGTGGCCATCCTGTGGCAGTGGGCCTTCAACGGCGATTTCGGCCTCATTAACCAGGGGCTGGGACTGCTGGGAATCGACGGCCCCAACTGGCTGCAGGACACTGCCACCGTGAAGCCTGCCCTGATCATCATGGCGGTGTGGAAGGGGCTGGGGTATTCGATGCTGCTTTACCTGGCCGCCCTCCAATCGGTGCCCCGCTACCTGTATGAGGCCGCCGCCCTGGACGGCGCCTCGGCCTGGCAGCAGTTCCGCCACATCACCATTCCGATGGTCCGGCCGGTTACTTTCTTCCTTATCGTCACCAGCATCATTGGCGGTTCCCAGATCTTCGTGGAAATCAACATCATGACCCCCACCGGCGGCCCGGAGTTCGAGTCCGCTTCCATCGTCTGGTACATCTGGCAAAAAGCGTTCGACAACCTCCAGATGGGCTACGCCTCCGCCATGTCCGTGGTCCTGGGGCTGCTGGTCTTCATCATCACTTTCATCCAGTTCCGGCTTAACCGCCGCAACCAGTTTTCGATCGATTGA	MSSTITRRSRLHRKEHQAALVFVAIPVIGFLLFTLFPLLFSVYASFTNWNGISAPVFKGLDNYTKMFGDRYFLKSLWNTVFMMIGIPVGLVISLALALAMNRKMRGTTFFRTVYYLPVISSIAAVAILWQWAFNGDFGLINQGLGLLGIDGPNWLQDTATVKPALIIMAVWKGLGYSMLLYLAALQSVPRYLYEAAALDGASAWQQFRHITIPMVRPVTFFLIVTSIIGGSQIFVEINIMTPTGGPEFESASIVWYIWQKAFDNLQMGYASAMSVVLGLLVFIITFIQFRLNRRNQFSID	PGPT0016535_3247	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
D1-29_00091	954	lacG_1		Lactose transport system permease protein LacG	ATGTCCGCGCAGAATGTCATCACCACCCCTCCGCTGAAAACCACCGAGCCGATCCCCGGCCACCGGCGGGACAGAACCGGCAACCAGCCGCACCGTGCCAAGGATGGCCAGCGTTCGACCAAAAACGGGCTCAGGCTGGGCAATATCCTGACCACCCTGATCCTCAGCGTGGGCGCCATCATCATGATCGCGCCGCTCGCCTGGACCTTTTCCACGTCACTGAAAACCAAAGACGGCGTGTTCGAGCTTCCGCCGCAGTGGATTCCGGACCCGTTCGTCTGGGAAAACTATGCGCGGATCTGGACGGCCGGGCCGCTCCTCACCGGCATCCAGAACAGCCTGATCGTGGCATGCTCCGTCACCATCATCGGTTCCCTGACCTCGGCGCTTGCCGCCTTCGCGTTCGCCAAGATGCGGATGCCCTTTAAGAACGTCCTGTTCCTGGGGCTGCTGTCCGGCCTGATGATCCCGTTCCCCACGCTGATGATTCCGCAGTTCACCATCTTCGCCAGCATCGGCTGGGTGGACACCCTGCTGCCGCTGATCGTGCCCGGGCTGTTCGGCAACATCATCATGATCTTCTTCCTGCGCCAGTTCCTGAACAGCGTGCCGGACTCCATCGTGGAGGCGGCAAGGATCGACGGCGCGTCCTACCTGCAGATCTTCTGGACCCTGATCATGCCCGCCATCCGCCCTGCCCTTGCGGCCCAGTTCATCCTCTGGTTCATGGCCATGTGGAACGACTACCTGGCACCGATCATCTACCTCAACTCGCCCGGAACGCAGACCCTGCAGCTGGTGATCGCCAACTTCAATGCCCAGTACGCCATCCAGACCGATTACCCCCTGATCATGGCGGCATCGTTCATCGCGCTGCTGCCCGTCCTGATCGTTTTCATCGTGTTCCAGCGCCAGATCATCGAATCAATCGCCCTCTCGGGATCCAAGGGCTGA	MSAQNVITTPPLKTTEPIPGHRRDRTGNQPHRAKDGQRSTKNGLRLGNILTTLILSVGAIIMIAPLAWTFSTSLKTKDGVFELPPQWIPDPFVWENYARIWTAGPLLTGIQNSLIVACSVTIIGSLTSALAAFAFAKMRMPFKNVLFLGLLSGLMIPFPTLMIPQFTIFASIGWVDTLLPLIVPGLFGNIIMIFFLRQFLNSVPDSIVEAARIDGASYLQIFWTLIMPAIRPALAAQFILWFMAMWNDYLAPIIYLNSPGTQTLQLVIANFNAQYAIQTDYPLIMAASFIALLPVLIVFIVFQRQIIESIALSGSKG	PGPT0016540_2463	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
D1-29_00092	681			hypothetical protein	ATGACGGGCAACAACCTCGCCGTTACACCGAACGAATTGCATCTGGGCTGGGCCGGCCGGGTGATGCAGTGGCTGGGTTTCGCCACCCGGCTGGTGCTGGTGAACATGCTGTTTGTGGCCGGGGCGCTGGCTGGACTGCTGGTTTTTGGACTGTTCCCCGCGGCCGTCGCGGCCACCACCATCCTGGCCAGGCTGCGTGCAGGGCTTGCCGGGGAGCATCTGGTGCGTGACTTCATCAGCGTGTACCGCTTCCAGTTTTGGCACGCCAACCGGGTGGGCAGCATATTCTGGCTGGCCGGCGTCGTACTTGGCCTTAACGTCCTCAGCGTGCTGGGACCGGAGGGCGCCGTGTTGCTGTCCTCGCCAGTCCACGCCGTCCTTCTTCTTGTGGCGGCGATGGCAGGCACTGCCACCTTCCTGGCGGCCGCGACGGCGGTGGCCATCTGCAGCCGCTACCGTGACTCGATAGTACGGACCTGGCGGACGGCCTTTGTGCTTCCGCTGGTGTCGCCCGTGATGAGCATTTCGCTGCTGCTGAGCCTGCTGGCATGCGCCGTCATCTTCTCCGGAACGACCGTCCTGCTGCCGCTGGCAGGGGCATCGGTTCCCCTGCTGCTTTCCGGATGGCTGGTGGAACGCCGGCTTTCCACCCTCCAACAGGGGCGCACCGTCCCCGCCTGA	MTGNNLAVTPNELHLGWAGRVMQWLGFATRLVLVNMLFVAGALAGLLVFGLFPAAVAATTILARLRAGLAGEHLVRDFISVYRFQFWHANRVGSIFWLAGVVLGLNVLSVLGPEGAVLLSSPVHAVLLLVAAMAGTATFLAAATAVAICSRYRDSIVRTWRTAFVLPLVSPVMSISLLLSLLACAVIFSGTTVLLPLAGASVPLLLSGWLVERRLSTLQQGRTVPA				NA	NA	NA	NA	NA
D1-29_00093	1551	afuB	COG3534	Exo-alpha-(1->6)-L-arabinofuranosidase	GTGACCATCACCTCCGCTGCTGCTGAACAGACCGACTTGGCTGTTGTGGCACCCACCGTCATCACCATCGACAGGTCCGCCGTCGTTGCCCCCGTCAGCCGGCGCATCTTCGGCTCCTTCGTGGAGCACCTGGGCAGGTGCGTCTACGACGGCATCTACGAGCCCGGGCACCCAACCGCCAACGAGGACGGATTCCGGCTGGACGTCATCGAGCTGGTCAAGGAACTCGGCTCCAGCACCATCCGCTACCCCGGCGGAAACTTCGTTTCCGGCTACCGCTGGGAGGACGGCGTGGGACCGCGGGACCAGCGGCCGGTCCGCCGCGACCTCGCCTGGCACTCGCTGGAATCGAACCAGGTTGGCCTGGACGAGTTCGCCCGCTGGTGTGAGCTCACCGGCTCCGAGCTGATGATGGCCGTGAACCTGGGCACCCGCGGCATCGACGCCGCCCTTGACCTGCTGGAGTATGCCAACCACCCCTCCGGCACCGCCCTCAGCGAGCAGCGCATCGCCAACGGAGCCAAGGATCCCTACAACATCCGGATGTGGTGCCTCGGCAACGAAATGGACGGCCCGTGGCAGATCGGCCACATGTCGGCAGACAGCTACGGCAGGCTCGCAGCCCGTACGGCGTCCGCCATGAAGACCGCGGACAAGGACCTGCAGCTGGTGGTGTGCGGCTCCTCGAGCTCCTCCATGCCCACATTCGGCGAATGGGAGCGGGTGGTCCTGGAGCACAGCTACGACTACGTGGACTACATTTCCTGCCACGCCTACTACCAGGAGCGCAATGGCGACCTGGGCTCCTACCTCGCATCCTCGCTGGACATGCAGTACTTCATCGAGACCGTGGTGGCCACCGCCGACCACGTCAAGCACAAGCTCAAGAGCAAAAAGACCATCCAGCTCTCCTTCGACGAGTGGAACATCTGGTACCTGGACGAGCACCAGGCCTCCGACGAGGTCAACGAGGAATGGACCCACGCCCCGCGCCAGCTGGAGGATGTCTACTCCGTGGCCGACGCCGTGGTGTTCGGCAACCTGCTCATCACCCTGCTGAAGAACCACGACCGCGTGGCTGCGGCCTCGCTGGCGCAGCTGGTGAACGTGATTGCGCCCATCATGACCGAGCCCGGCGGCGACTCCTGGCGGCAGACCACGTTCTTCCCGTTCTCCGTCACCTCGCGCCTGGCCCGTGGCGAGGTGCTCCGCCCGCGCATTGAGGCAGGGACGTACACGACGGCGGTCTATGGCGAAGCGCCGCTGGTGGACGCCGTGGCAACCGCCGACGCCGCCACCGGCCAGTCGGCGCTGTTCCTGGTGAACCGCAGCCAGACGGAGGCGATCGACGTCAGCATCAACGTTTCAGAGTTGAAAGCCACCGTGGTCACCGAGGCCGTCACCCTCCACGACGAGGACGTGTACGCCAAGAACACCCTCCAGGACCAGAACCGTGTGGGCCTGAAGCAGCTCAACGGTGCCGTCCTGGAGGAGGGCACGCTCACGGTGACGCTGCCGCCGGTGTCCTGGTCCGCCGTCGCGCTTGGCTGA	MTITSAAAEQTDLAVVAPTVITIDRSAVVAPVSRRIFGSFVEHLGRCVYDGIYEPGHPTANEDGFRLDVIELVKELGSSTIRYPGGNFVSGYRWEDGVGPRDQRPVRRDLAWHSLESNQVGLDEFARWCELTGSELMMAVNLGTRGIDAALDLLEYANHPSGTALSEQRIANGAKDPYNIRMWCLGNEMDGPWQIGHMSADSYGRLAARTASAMKTADKDLQLVVCGSSSSSMPTFGEWERVVLEHSYDYVDYISCHAYYQERNGDLGSYLASSLDMQYFIETVVATADHVKHKLKSKKTIQLSFDEWNIWYLDEHQASDEVNEEWTHAPRQLEDVYSVADAVVFGNLLITLLKNHDRVAAASLAQLVNVIAPIMTEPGGDSWRQTTFFPFSVTSRLARGEVLRPRIEAGTYTTAVYGEAPLVDAVATADAATGQSALFLVNRSQTEAIDVSINVSELKATVVTEAVTLHDEDVYAKNTLQDQNRVGLKQLNGAVLEEGTLTVTLPPVSWSAVALG	PGPT0018655_1567	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209	NA	NA
D1-29_00094	996	abn-ts		Intracellular endo-alpha-(1->5)-L-arabinanase	GTGGGGCTGGCTGCGGCGCTGGCCGCCGTCGTCGTGGTCCTGTCCGCGTGTGCCGCCGTTCCCGGCGCCACAGCCAAACAGGAACCAACGGAAGCTGGGCTGACCGGGGATATTTTCACCCACGATCCTGCCCTGGTGAAGGGCGGGGAGGGTAAACCCTGGTTCATCTACTCCACCGGAAACGGCCAGGTGGCGGACGGAAACATCCAGATCAGGCGCTCCACCGATGGCAGGAACTGGGAATACGCCGGCGAGGTCTGGCAGCAGAAACCGGCCTGGCTTGCGGCGGCGGTTCCCGGTGTGGACAACCTCTGGGCGCCGGAGCTGTACCACCAAAACGGCACCTGGTACCTCTACTACTCCGCCTCCACCTTCGGCAAGAACCTGTCCGTGATTGCGCTGGCCACCAACACCACGCTTGACCCGGAGGACCCGGGCTATGAATGGGTGGACCGGGGGCAGGTGATGTCCTCGAAGGGGGAGCGGTTCAACGCCATTGATCCCGGCATTGCCGAGGACGCGGACGGCACGCCGTGGATGACCTTCGGTTCGTTCTGGACCGGGCTGCAGCTGGTGGAGCTCGAGTGGCCCAGCGGGCTGCCCGCGGCGGGTGCAGAGCCGGTGACAATAGCCGACCGGAAGGCGCCGCCGAATGCGATCGAGGCGCCCTACATCCTGCCGCACGACGGTGCCTTCTACCTCTTCTTCTCCCGCGATTTCTGCTGCCAGGGGCTGGAGAGCACCTACAACATTGCCGTCGGGAAATCGGACAGCATCAACGGCCCGTATGTGGATGCCGAGGGCAAGGCACTGCTCGACGGCGGCGGCACACCGCTGCTGGGCACCGACGGCGGGCGCGTGGGGCCGGGCGGCCAGTCCGTTTCCGGCGGCACGCTCGCATTCCACTACTACGCCGAGGAACTTGACGGCGCCTTCCGGCTGGGCCTGGCCGAGCTGGAGTGGAAGGACGGCTGGCCCACCGCCCGCTGGCAGTAA	MGLAAALAAVVVVLSACAAVPGATAKQEPTEAGLTGDIFTHDPALVKGGEGKPWFIYSTGNGQVADGNIQIRRSTDGRNWEYAGEVWQQKPAWLAAAVPGVDNLWAPELYHQNGTWYLYYSASTFGKNLSVIALATNTTLDPEDPGYEWVDRGQVMSSKGERFNAIDPGIAEDADGTPWMTFGSFWTGLQLVELEWPSGLPAAGAEPVTIADRKAPPNAIEAPYILPHDGAFYLFFSRDFCCQGLESTYNIAVGKSDSINGPYVDAEGKALLDGGGTPLLGTDGGRVGPGGQSVSGGTLAFHYYAEELDGAFRLGLAELEWKDGWPTARWQ	PGPT0019090_662	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINANASE,PGPT0019090-abnA-K06113	NA	NA
D1-29_00095	1008	degA_1	COG1609	HTH-type transcriptional regulator DegA	ATGGCAGCGACTCTTCACGACGTGGCCCGGGTCGCCGGCGTGTCCTTCAAGACGGTCTCCAACGTCATCAACAACCACCCGCATGTCCGGGACACCACCCGCGCCAAAGTGGAGCAGGCCATCGCCGAGCTGGGCTACCGCCCCAACCTGACCGCCCGCAGCCTGCGCTCCGGACAGACAGGTGCCGTCACCCTGGCGCTCCCCCAGCTCAGCCTGCCCTACTTCGCCGAGCTGGCCGATGCCGTGATCGAAGCCGCCGCGAAGCACGGCCTGGTGGTGCTGATCGAGCAGACAGGCGCTGACCGCGCGCGGGAACTCGAAGTGATGTCCAGCCCGCGGCTCAAGATGTCGGACGGCCTGATTTTCAGCCCGCTCGCCATGGGCCAGGAAGACGCCGACCTGGTTAAGGCCGACGTGCCGATTGTCCTGCTGGGTGAACGCATCTTCGGCAGCGGCTCGGATCACGTCACCATGCAGAACGTCACCGCGGCGCGGGCAGCCACCGACCACCTGCTGGACATCGGCCGGAAGCGAATCGCCGTGGTGGGCGCCCACCAGGGGGAAGTCATTGGTTCTGCCGGGCTGCGGCTCCGCGGTTACCGCGAGGCGCTTGAGGCCCGGGGCATCCCGTACGACGACGGGCTCGTTGCCTACGTCCGGGACTGGCATCGCTCCAACGGCGCTGCGGCGATGCACGATCTGCTGGACCGCGGCGCATCCTTCGACGCGGTGTTCGGGCTGAACGACACCTTGGCGCAGGGCGCCATGCGGGTCCTGCAGGAAGCGGGCTTCCGTGTGCCGGACGACGTCGCCGTGATCGGCTTCGATGACCTGGACGAAACCCGCTATTCGCTCCCCACGCTCAGCACCGTGGACCCGGGGCGGGTGGAGATTGCGGAGACCGCCATCCGGATGCTCATGGAGCGGATTAAGAACCCGGATGGCGGCGCGCCGCGTCAGATCGAAGCTGCCTTCCGCGTGGTGCCGCGGGAATCAACGGCGAGCTGA	MAATLHDVARVAGVSFKTVSNVINNHPHVRDTTRAKVEQAIAELGYRPNLTARSLRSGQTGAVTLALPQLSLPYFAELADAVIEAAAKHGLVVLIEQTGADRARELEVMSSPRLKMSDGLIFSPLAMGQEDADLVKADVPIVLLGERIFGSGSDHVTMQNVTAARAATDHLLDIGRKRIAVVGAHQGEVIGSAGLRLRGYREALEARGIPYDDGLVAYVRDWHRSNGAAAMHDLLDRGASFDAVFGLNDTLAQGAMRVLQEAGFRVPDDVAVIGFDDLDETRYSLPTLSTVDPGRVEIAETAIRMLMERIKNPDGGAPRQIEAAFRVVPRESTAS	PGPT0021075_439	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
D1-29_00096	1185	rsgA_1		Small ribosomal subunit biogenesis GTPase RsgA	TTGAAAAATTCTTCAGGCAACAGCCTGGACAGCATTGCTTTACCCACTTCCGGCCACAACGGGCCCACTTCCGGCCACAACGGGCCCAGCCTGTACGGCTATAACCCCGCCGTGGAACGGCACTTCGACGAAAATCCGCCCCCGGTCAGCAGTACGGCCTGCGAGCCTGGCCGTGTGGTCCGGGTGGACCGCAGCATGGTGCTGGTGGCGGTCGGCGCGGAACTCCTGCACCTGCCCTACCCGCTGGATGCCGGCGTGCCGGTAACGGGCGACTGGGTATGGATCGGACCCAACCGTGCCGGTGACCGGCAGATAGTCGCGATCCTTCCCCGGCGCTCGGAACTCAGCCGAAAGCGCGCCTTCGAGGCCTCGTCGGCCGCCCAGGTGCTGGCCGCAAACATGGACGTGATCGGCGTGGTGGTGCCGGTGGACCGGCCGCTCACGCACAACCGGCTCGAACGCACCCTGGTTGCCGCGTGGGACTCGGGAGCCGTTCCCTTGGTGATCGTCACCAAAGCGGACCTCGCGGACATAGCGGACGACGTCGTCGGGCAGGTCATCCTGCAGGCGGCGGGAGTTGAGGTGGTCACCACCTCCGCCGAGCATGGGGACGGAATCGATGAACTGCTGGGCCGCCTGCCGGCGCGCAGCACGTTGGTCCTCCTAGGGCCTTCCGGTGCCGGCAAATCCACCCTGATCAACGCGCTGGTGGGGCACAACGTCCAGGACACTGGCGCCGTCCGCTCCGGTGACTTCAGGGGCAAGCACACCACCACCTCCCGTGAACTGGTGCCTCTGGCGGACGGCACCGTCCTGATGGACACTCCCGGCGTCCGCGGGTTTGGGCTTTTCGACGCCGACGACGGGATGGAGCAGATGTTCGGCGACGTGGACGAACTGGCCGGCCTCTGCCGGTTTTCGGACTGCGCCCATGAGCGGGAGCCCGGCTGTGCGGTGCGGCAGGCCCTCGCCGACGGCACGCTCGAGGACCGGCGCTGGAACAACTACCTGAAACTCCAGCGCGAACTGGCAGCACTTGCCCGCCGCAAGGATGCCGCAGCCACCCGGGCGTACCAGCGCGAGTGGCACCAAAAGGTGGTGGGAGGAGGGACATCCCAGCGTTCCGCGGAGCGGGCCAGGTCGGAGCGGCAAGAGGAACAGCGGTCTAAACGGAAGCGGCGCTAA	MKNSSGNSLDSIALPTSGHNGPTSGHNGPSLYGYNPAVERHFDENPPPVSSTACEPGRVVRVDRSMVLVAVGAELLHLPYPLDAGVPVTGDWVWIGPNRAGDRQIVAILPRRSELSRKRAFEASSAAQVLAANMDVIGVVVPVDRPLTHNRLERTLVAAWDSGAVPLVIVTKADLADIADDVVGQVILQAAGVEVVTTSAEHGDGIDELLGRLPARSTLVLLGPSGAGKSTLINALVGHNVQDTGAVRSGDFRGKHTTTSRELVPLADGTVLMDTPGVRGFGLFDADDGMEQMFGDVDELAGLCRFSDCAHEREPGCAVRQALADGTLEDRRWNNYLKLQRELAALARRKDAAATRAYQREWHQKVVGGGTSQRSAERARSERQEEQRSKRKRR	PGPT0009020_165	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
D1-29_00097	180			hypothetical protein	ATGGAACGCCGCCTCTGGCGGAACCCTCAGGTGGAGGCTAAAGTTGGGACCGGTCCGGTAATTCACTTCGATGGACCACACGAGAGAGCGGAGGTGTTTTTGATGACTGTCATTGCCGCGCGCCCCGGGCGCTTTGCAACCATCACCCTAACCACCCCCGTCTCCAGCCGCACCGCGTAG	MERRLWRNPQVEAKVGTGPVIHFDGPHERAEVFLMTVIAARPGRFATITLTTPVSSRTA				NA	NA	NA	NA	NA
D1-29_00098	225			hypothetical protein	ATGGAAGATCCACGACTGACGGCCCGAAGGCTTATTGAGCAGGATGCGCGGTACCTCCGTGAGCTGTGGCTCAGCTACTGGTCCAACGGCGGCGAGGCACAACTGCTTGAGTTCGAGTCGTACCTTCACGGCGTGTACGAGCGCAGCGAATCGGACCTGAAGATTCTTTCCTGGGCGATACACGACGTTCAACCCTCGAGCAGGCCGCCACAGCGCCGCTACTGA	MEDPRLTARRLIEQDARYLRELWLSYWSNGGEAQLLEFESYLHGVYERSESDLKILSWAIHDVQPSSRPPQRRY				NA	NA	NA	NA	NA
D1-29_00099	387			hypothetical protein	ATGGAACTGATTTTCGTGCGCTATCAGGCAAGTGCCCCCAACGCCCGTGGACGGTACCCGGGGATCTTCGCCTTGGCGAACGGTCTGGCAAGGGGCGGCAGGCTCAGCGGTGAGGACTGGGCTTCCTGGCGCGCCGCGAACGATCACTACGACGCCGCCTACACGGACCCTTCGACAGTTGACAGGTCCGTCTACGACCCCCACATCAACCCGTCGGCGCAGTCCTGGTTCAAGGGCAGCGCCGCACACCTGCTGGAAGGAGTGGCTTTTTACACGGATCTTCTGGGCCGGTATGACGTTGGCTGGCAGGTGCTCTATTCCGCCAACCCAGGAAAAATCCTGTACGAAGACGATGTGCAGGTAGTTGTTGCACCTTATGAAGGATGA	MELIFVRYQASAPNARGRYPGIFALANGLARGGRLSGEDWASWRAANDHYDAAYTDPSTVDRSVYDPHINPSAQSWFKGSAAHLLEGVAFYTDLLGRYDVGWQVLYSANPGKILYEDDVQVVVAPYEG				NA	NA	NA	NA	NA
D1-29_00100	402			hypothetical protein	ATGGACGAAGGCCGAATAACCCTGCTGCAGGTTGCCCAGCGGGCCACCGACCTCCAGCGTGCTGCCGGCTTCTACACAGACCTGCTGGGCCAACCTCCCACAGCACTCTTTGATCCTCCCGGCCTGCTGTTCTTTGACGTTGACGGTGTCAGGCTCCTGCTCGAAAAGGGCGCCCAGTCCGCGGTGCTTTACCTCCGGGTGGCTGATGTCAGGGCCGAGGTAGAGCGCCTTAAAGGCCTGGGAGTGGAGATCGTGTCCGAGCCGCATGTCATCTTCAGCCATGCCGACAGCACCCTGGGCCCGGCCGGAACCGATGAATGGCACGCGTTCATCCGTGACAGTGAAGGAAACACTCTGGGGCTGGTCAGCCAGTTAGCCCCCGACGGCGGCACGCTGGCCTGA	MDEGRITLLQVAQRATDLQRAAGFYTDLLGQPPTALFDPPGLLFFDVDGVRLLLEKGAQSAVLYLRVADVRAEVERLKGLGVEIVSEPHVIFSHADSTLGPAGTDEWHAFIRDSEGNTLGLVSQLAPDGGTLA				NA	NA	NA	NA	NA
D1-29_00101	1029	adhT_1		Alcohol dehydrogenase	ATGAAGGCCGCCGTTCACAGTCGTTTTGGCGGGCCGGACGTGGTCCCGGTGAAAGAGGTGCCTGCGCCCTCCCCGCGACCGGGGGAAGTGCTGATCAAAGTCCACGCGAGCACGGTGAGTGCCGCCGACCTCCGCGCGCGCAGCCGCGACGTCCCGCGCGGGCTGGGTTTGCTTGCTGCGCTGGCCCTTGGCGTCTTCACACCGCGCCGCGCCGTCCTGGGCATGGACGTCGCCGGCGTTGTTGAGGCTGTGGGCGCGGGGGTGACATCAGTCAGGCCGGGGACCGAGGTGATCGCGATGCTGGGCAGCAGGTTCGGCGGCCACGCAGAGTACGTATGCCTCCCTGCTGAAGCCGCCATTGCGGCCAAACCGTCCAACATGACGTTCCAGGAGGCGGTGACCCTGGTGTTCGGAGGACTGACAGCCCTCGTTTTCCTCAACCGCGCGGGGCTAAAGCCGGGTGACACTGTCCTGGTCAACGGCGCGTCCGGGGCTGTGGGCGCGGCAGCGGTGCAGCTCGCCAAACAGCTCGGCGCGCATGTCACTGCTGTCTGCAGTGACGCCGGGCGGGAACTCGTCACCTCGCTCGGGGCGGACCGGATGATTGATTACGCCACGGTTGATTTCACCGCAGAGGCCACCACGTACGACGCCGTGATGGACTGTGCGGGGAACGCCCCCTTCGAGCGGGCGGCGGCTTCCGTCAAGCCCGGCGGCTCGCTGTTGCTGGTGGTCGCGGATCTGAAGGGAATCATCTGGTCGTCGTGGCGTAGCCGGATCAGCGGGAAGCTGGTCAGCGCCGGCAACGTCCAGTACACCGCCAAGGATCTCGAGTACCTCGTCCAGCTGGCCGAAGCCGGGCGTTTTCGGGCCGTCATAGAGCGCACCTATACGCTGGCCGACGTCGTGAAGGCCCATCGGTTTGTCGATACGGGACGCAAGAAGGGAAGCGTCGTTTTGCAGATATTTGGCGGCGTTGCCACACCTGACATTGAGCACTCAGGCCAGCGTGCCGCCGTCGGGGGCTAA	MKAAVHSRFGGPDVVPVKEVPAPSPRPGEVLIKVHASTVSAADLRARSRDVPRGLGLLAALALGVFTPRRAVLGMDVAGVVEAVGAGVTSVRPGTEVIAMLGSRFGGHAEYVCLPAEAAIAAKPSNMTFQEAVTLVFGGLTALVFLNRAGLKPGDTVLVNGASGAVGAAAVQLAKQLGAHVTAVCSDAGRELVTSLGADRMIDYATVDFTAEATTYDAVMDCAGNAPFERAAASVKPGGSLLLVVADLKGIIWSSWRSRISGKLVSAGNVQYTAKDLEYLVQLAEAGRFRAVIERTYTLADVVKAHRFVDTGRKKGSVVLQIFGGVATPDIEHSGQRAAVGG				NA	NA	NA	NA	NA
D1-29_00102	651			hypothetical protein	ATGACTCCGCTGACAGTCACAGCCGCTCCGCCCGCCAAACGCATGCGGGCGCAATGGCCCGTTCCCGCCGGACTCATTCTCCTCAGCCTTATCCCGGTCATCGCGGGGGCCGCACGGCTCACGGAGCTGACTGGAGGGGCGGCCATCACGCCGCAAAACGCCCGCTTCTTCGCCTCGCCCGTGCCCGTGGTGATCCACATCGTCAGCGTCACTGTCTACAGCCTCCTCGGGGCATTCCAGTTCGTCCCGTCACTTCGGGGCAGGCGGGGCTGGCACCGCATGGCCGGAGGAATTCTTATACCTGCCGGCCTGCTCGCCGCACTCTCAGGCCTGTGGATGTCCGCCTTCTACCCATTGCCCGACGGCGACACGGACGTGCCGCTGCGGCTGCTTTTCGGCTCGGCAATGCTGGTCAGCCTCATCCTGGGAGTCGTGGCTGTCCGGCGCCGTGACTACGTGCGGCACAGCATGTGGATGACGCGCGGCTACGCCATCGGCGTCGCGGCGGGGACACAGGCCCTGGTGATCGGCCCCTGGATACTCCTGGCGGGGCCGCCCAGCGAACTGACCAAGGCACTGCTGATGGGGGCAGCCTGGGTGATCAACGTGGCGGTGGCCGAGTGCGTCATCCAGCGGCGGGTTGCGCGATGA	MTPLTVTAAPPAKRMRAQWPVPAGLILLSLIPVIAGAARLTELTGGAAITPQNARFFASPVPVVIHIVSVTVYSLLGAFQFVPSLRGRRGWHRMAGGILIPAGLLAALSGLWMSAFYPLPDGDTDVPLRLLFGSAMLVSLILGVVAVRRRDYVRHSMWMTRGYAIGVAAGTQALVIGPWILLAGPPSELTKALLMGAAWVINVAVAECVIQRRVAR				NA	NA	NA	NA	NA
D1-29_00103	744			hypothetical protein	ATGACTGAGCAGCTGGAAACGACGCGCCGCATTCCGCTGAACAGGGACCGTGTCCTGCAGGCCGCCGTCGTGCTGGCAGACGAAACCGGCATCAGCTCACTGAGCATGCGAAGGCTCGCCCAGGAACTCAGTGTGGTGCCTATGGCGCTCTACAAGCACGTAGCCAACAAGGACGAGCTGTTCAACGGAATGGTGGACGCCGTCATTGCCGAGATCGGAGCGCCTGCCCCGGCGGCAGACTGGAAAGCCGGGGTGCGGGCGCGGGTCCTCGCCGCGCGCCAGGCACTCCTGCGGCACCCCTGGGCTCGCCAGGTGGTCGAGTCCCGCACCACCAAGTCCCCTGCGGTGCTTGGGTATATGGACGATTTCATCGGGCTGTTCCTGGCCGGCGGATTCTCGGTTGACCTCACCCATCACGTGATGCACGCCCTGGGCAGCCGCATGTGGGGGTTCACGCAGGAGCTGTTCGACGACCAGGCGGGCCCCGCCACCGAAGGCGCAGCCGCCGAAAGCAATGCGAACGCCGCGGAACAAGCGGCGATGTTGCAGGAGATGGCCGCCCGGTATCCGAACATCCTGCAGGTGGCCATGGCTGCCGGGCATGAGGAGGATTCTGTGGTGGGGCGCGGCTGCGACGACCAGTTTGAATTCGAGTTTGCCCTTGATCTCCTGCTGGACGGGTTTGAGCGGCTGCATGCCCAAAGCTGGACATCGCGGCGGGCAACCCCTCCGGGTCCGGGGTAG	MTEQLETTRRIPLNRDRVLQAAVVLADETGISSLSMRRLAQELSVVPMALYKHVANKDELFNGMVDAVIAEIGAPAPAADWKAGVRARVLAARQALLRHPWARQVVESRTTKSPAVLGYMDDFIGLFLAGGFSVDLTHHVMHALGSRMWGFTQELFDDQAGPATEGAAAESNANAAEQAAMLQEMAARYPNILQVAMAAGHEEDSVVGRGCDDQFEFEFALDLLLDGFERLHAQSWTSRRATPPGPG				NA	NA	NA	NA	NA
D1-29_00104	615			hypothetical protein	ATGGATGGAGACAGAAGGACAGGCAGGCGCCGAAAGCTGATGGCGATCGCGGCGGCAGTAGCGGTGGCCGGACTCGTTATTGGCTTGGTGGTGTTTAAACCCTGGCTCCTGTTTGTGGACGTCCGCGTGGACGAACAGCTCCCGGCGGTGGCGGCACCAGCCGTCACGGAACCCACCGCCACGGCCTCGTCTCCCGCAGCCTCTCCCCAGACTGCCTCTCCTTCAACCGCGCCGCCCCCTGCCCAGCCAACTCCAGCAGGCCCCGTGGAACTGGCAGTAGGCAAGCTGATCAGCCACGAACACGCCACCACCGGGACGGTCCGGCTTGTTCAGCAGCCGGACGGCTCACGGGTGCTGACCCTGGAGAACCTGGACACCTCCAATGGTCCTGATGTGCACGTGTGGCTTAGCGCTGCGGACGTGGTGGAGGGAACCGCAGGCTGGTACACGGCTGGATCGGCGGAACACTATGACCTCGGCCTGATCAAGGGAAACCAGGGCAACCAGGTCTACGCCATCCCTGCGGAGGTTGATCTGTCGAAATACAGGTCCATTGACCTCTGGTGTGTCCAATTCAGTGTTTCCTTTGGCGCGGCACAACTAATTCATAACTGA	MDGDRRTGRRRKLMAIAAAVAVAGLVIGLVVFKPWLLFVDVRVDEQLPAVAAPAVTEPTATASSPAASPQTASPSTAPPPAQPTPAGPVELAVGKLISHEHATTGTVRLVQQPDGSRVLTLENLDTSNGPDVHVWLSAADVVEGTAGWYTAGSAEHYDLGLIKGNQGNQVYAIPAEVDLSKYRSIDLWCVQFSVSFGAAQLIHN				NA	NA	NA	NA	NA
D1-29_00105	1152			hypothetical protein	ATGGTTCTGGATACAGCGACGCTGAGGTTCGCCTTCGGGCTGATGGCGTTGGCGCTTGGGGTTTTGTTCTACTTCTCGGCGTACCGGACCACACGCTCCCCGTATAGCGGCTGGTGGTGCCTGGCCCTGGTGTTCTTTCTGACCGGCTCCGGCGCCTTCCTCCTCGACGGCACGGCGCACCAGTGGTGGGCCAACCCGCTGGGAAACGTGCTGCTGGTCCACGGCGGGGTGGCTGTCTGGGCGGGTGCCCGTTCGCTGCGGACAGTGCGGCCACCACGATGGGCTTTCACCGGGCTTCCCCTGATCACCCTGATCGCCTCCGCCCTGGACAATCCCGCCACTAATGTCTGGGCCGGCGGTCCCGTTTTCCTGGGCGCGATGGGGCTTTCGATCGGGCTGGGGTCCCGTGAGCTGTGGCGGCTGGAACCCGGGTACTCGCGGGCCCGGATCCCCATGGCGGCCGCGGCAGGTGCGGTCTCCGTCTTCTACTTTGGCCGGCTGCTGGCCTTCCTCCTCGACGGGCCTGGCGGGGACACCTTCGAAACGTTCTTTGGCTCTGGGGTCACCACGCTGGTCACCATGGTGATGCTGGTTGTGGTTTCCTTCAGCATGGCCGGGCTCAGCAGCGAGCAGCAGACCCGGGCGCTGCGAATGGTGGCCAGCAGGGATGACCTCACCGGCCTCCTCAACCGCAAAGCCTTCCTGGACCTGGCCTCAGAGCAGCTGGCGGAGACTGCCGTCACCAAGCCGTCCGGGGTCCTGATCCTTGCTGACCTGGACCACTTCAAAGCCGTCAACGATACCTACGGCCACGCCGCCGGGGACCTGGTCCTGCAGGCCTTTGCACTGGCATGCCAGGACACCATCCGCTCCACCGACCTGGCCGGACGATACGGCGGCGAGGAGTTTGTCCTCCTCATCCCCGGCGGAACAGCGGACCGCGCAGAAAGGGTGGCAGACGCGATCAGCCTTCGGTTGACCCAGGCGTCAAAGCCGGAGGGGCCGCAGATGCCCACCGTGAGTTACGGGATTGCCCTGTACGACGCCGATACCCCCGGCCTGGAGGCGCTGATCGCCGCCGCCGATACTGCCCTTTATGCGGCCAAGTCATCGGGACGGAACCGCACCGCCCGCAGCGACAGGGCGGGGTAG	MVLDTATLRFAFGLMALALGVLFYFSAYRTTRSPYSGWWCLALVFFLTGSGAFLLDGTAHQWWANPLGNVLLVHGGVAVWAGARSLRTVRPPRWAFTGLPLITLIASALDNPATNVWAGGPVFLGAMGLSIGLGSRELWRLEPGYSRARIPMAAAAGAVSVFYFGRLLAFLLDGPGGDTFETFFGSGVTTLVTMVMLVVVSFSMAGLSSEQQTRALRMVASRDDLTGLLNRKAFLDLASEQLAETAVTKPSGVLILADLDHFKAVNDTYGHAAGDLVLQAFALACQDTIRSTDLAGRYGGEEFVLLIPGGTADRAERVADAISLRLTQASKPEGPQMPTVSYGIALYDADTPGLEALIAAADTALYAAKSSGRNRTARSDRAG				NA	NA	NA	NA	NA
D1-29_00106	1266			hypothetical protein	ATGGAGAATATTCATCTCACGGGCACCGAGTCCCGTACTGCCGTATCAAGTACCGCCGTATCAAGCCCGGCCGGTCCGAGTACCGCCGCACCCAGCCCCTCCGCATCCCGCACCGCGGGGCGGCTCCACGCTGCCCTTCTGGTCGCCGGCAGTTGCATGCCGGTGCTGGGCGCGGTCCTGCTGGCCCCGGTGCTGCCCACCCTCAGCCAGGCCTTTGCCGGCACCCCCGGTGTCGCCATCCTGGTACCGCTGACCCTGACGCTGCCGGCCCTCTTTGTCGCCCTGTTCTCACCGTTGGCGGGATACGTCGCGGATCGGGTGGGACGCAAGCAGCTGCTGATCTTCGCCATGCTTGCCTACGCGCTTTTCGGGACGGCACCGCTGTGGCTTGAAACCCTGGAATCGATCGCGCTCTCCAGGGTGGGCGTCGGCATCGCCGAGGCTGCCATCATGACCTGCTGCACCACCCTTATCACCGACTACTACGCCGGGGAGCAGCGCAACAAGTACCTGGGGCTGCAGACCATGGTCAGCGCGCTCGCGGCCACCGCTTTCTTCGCCCTCGGAGGAGCCCTGGGCAGCATCAGCTGGCGCGCACCGTTCTGGCTCTACGCCGTCAGTGCGGTCATTGTCATTCCGATGATCTTCAAGCTCTGGGAACCGGCCAAGACCCAACGCACGACGGCGGCCAGGACTCCGGTGCCGTGGCGGCAGATCGGCGCACCCGCCGCCGTGACGCTGTTCGGCGGCATCGTCTTCTATGCACTCATCGTCCACCTGCCTTACGTCATCACGGGCCTGGGCGTGGCTGATGCCGCCCTGATCGGGCTCGCGGCGGCCATCGCTTCCCTCGCCACCGCGGCAGGGGCCATCTCCTTCCGCTTCCTGGCGAAACTGGGCACCCGCAGCCTGCTGGCGCTCGCCTTCGGACTCGCCGCCGTCGGACTTTCCATGGTTTCCCTGGCCGGCAGCGTGCCCCTTGCCATCGCCGGAGCCGTGGTGGCCAGTGCCGGAACCGGTGTGCTGCTGCCAACCCTCCTGACGTGGGCCGTCAGCGGCCTGGAACTGCGGCAGCGCGGGCGTGGCACAGGCATCTGGACCGGAACCCTGTTCGTGGGGCAGTTCCTGACGCCCATTGTCCTGGGAAGTGCCGCCACGGCCCTGGGCAACCTCAGCTTCGCCTTGGGGGCGCTGGGCATCGCCTGTGCTGTCGCCTTGCTGGCTGTGCTGGTCCGCGGACCGCGGATGGTGCCGGCCAGCCATTAG	MENIHLTGTESRTAVSSTAVSSPAGPSTAAPSPSASRTAGRLHAALLVAGSCMPVLGAVLLAPVLPTLSQAFAGTPGVAILVPLTLTLPALFVALFSPLAGYVADRVGRKQLLIFAMLAYALFGTAPLWLETLESIALSRVGVGIAEAAIMTCCTTLITDYYAGEQRNKYLGLQTMVSALAATAFFALGGALGSISWRAPFWLYAVSAVIVIPMIFKLWEPAKTQRTTAARTPVPWRQIGAPAAVTLFGGIVFYALIVHLPYVITGLGVADAALIGLAAAIASLATAAGAISFRFLAKLGTRSLLALAFGLAAVGLSMVSLAGSVPLAIAGAVVASAGTGVLLPTLLTWAVSGLELRQRGRGTGIWTGTLFVGQFLTPIVLGSAATALGNLSFALGALGIACAVALLAVLVRGPRMVPASH				NA	NA	NA	NA	NA
D1-29_00107	963	nodD2_1		Nodulation protein D 2	ATGGGTATGAAGAACCTGGACCTGAACCTGCTGCCGCAACTGCAGGTCCTGCTGGAACTGCGGAACGTGTCCAGGGCGGCGGAACGGCTTCAGCTCAGCCAGCCCGCCACCAGCGCGGCCATGGCCCGGCTGCGGCGGCACTTCGACGACGAACTCCTGGTCCGGAACGGCCGCACCTACGATCTCACGCCGTTCGCGCAGGCACTGGTCCCGCTGGTGGATGAAGCGATGCTTCACATCCGGCGGGCCACGCGCGTCCGCTCCGGTTTTGACGCCGCCACGAGCGAGCGGGAGTTCGTCATCGCGGCTTCGGATTATGCGTCAGCGCTGATGGTTGGCCCGCTGCGGGGAATCCTTCAGCAGGAGGCGCCCAACGTGGCCGTGGACTTTGTGCCCACCGCCGGCATCCAGGGCAAGCTGGCTGACTACTCCAGGCTGGATCTGCTGGTGGGGCCCACCGGTTACCACATGCAGGGCACCAGCAAACAGCTCTTCCGGGACAGTTTCGTAGCGGTCCTGGACGCCGGCAACCAGCTCCTTCAGCAGCCCCAGCTGACACTGGAGGACCTGACCCGGGTTCCCCACGCCGTCGGCTATTTCGGTGAGGGAATCAGTACCCCGGCGGACAGGCTTTTCGAATCACGCGGCCTCCAGCGCCGGGCTGCTGCGGTAGTGGCCGGCTTCCTGTCCCTGCCGCTGCTGGTGGAAGGGACGGACCTTGCGGCGCTGGTGCCGCGGATGCTGGCGGCACGTGCCCAGCGGGGTGCGAACATCGCGGTGCTGGAGTTTTCCGAAGAAGGTGAAGCGTCCCTCGTGGAGGCGATGTACTGGCACCCGTCCCAGACGGAGGATCCGGCGAGCATCTGGCTGCGTTCGGTGGTGCAGCGGGCATGTTCACGGCTGCAGGAACTTTTTCCTGCCACCGTTCACCCGGTCACGGTAACGGTGGGTCCTTCCGGCTAG	MGMKNLDLNLLPQLQVLLELRNVSRAAERLQLSQPATSAAMARLRRHFDDELLVRNGRTYDLTPFAQALVPLVDEAMLHIRRATRVRSGFDAATSEREFVIAASDYASALMVGPLRGILQQEAPNVAVDFVPTAGIQGKLADYSRLDLLVGPTGYHMQGTSKQLFRDSFVAVLDAGNQLLQQPQLTLEDLTRVPHAVGYFGEGISTPADRLFESRGLQRRAAAVVAGFLSLPLLVEGTDLAALVPRMLAARAQRGANIAVLEFSEEGEASLVEAMYWHPSQTEDPASIWLRSVVQRACSRLQELFPATVHPVTVTVGPSG				NA	NA	NA	NA	NA
D1-29_00108	3201			hypothetical protein	ATGACGAATCGATGCAGACGCCTCTGGGCCTCCACCGCCGTCGGGGCAACAACGGCTGTCATGGCTGCCGGCCTCCTGGCCGGCCCTGCGATGGCCGTCCCCGCGCTTGGCCCCGCAGTTACGGAGCCGGTCCCGGCCGGCGCGGTGACGGTGAAGCCGGATCCCTCTTATCAGGGTGACCCTTTTGAGGGTTGGGGAACCAGCCTGGTCTGGTTCGCCAACGCCACCGGTGACTACCCGGATGAGGTGCGGGAACGGCTTGCCGAGATGGTGTTCGGCGATGAAGGCCTGAACCTGAACATTGCCAGGTACAACATCGGCGGCGGGAACGCGCCGGACGTCAAGGACTACCTTCGGGCCGGCGGCGCCGTCGAGGGATGGTGGAAGGCACCGGAAGGAACCACCCGGACGGACAAGGACTGGTGGGACCCGGAGAACCCGGAACACTGGAACCTGGACGCGGACCAGACCCAGCGCTGGTGGATCGACCGTATCAAGGCCGACGTCACCAAATGGGAAGCCTTCAGCAACTCCCCGCCCTGGTTCCAGACCGTCAGCGGCTACGTGTCCGGCGGCTTCAACTCCTCAGAGGACCAGCTGCGCACCGAAAGCATCGACGAATTCAACACCTATCTCCTGCGCGTTGTTGAAGAGCTCGAGGACGCCCACGGCATCAAGATCGATACCCTGGACCCCTTCAACGAACCCAACACACCCTACTGGGGCACCAAGCTCGGGGCCGACGGTGAGCCTGTGGGAGGCCGGCAGGAGGGAGCCCACATTGGGCCCGAACTGCAGCAGAAAGTCCTGAAGTCCCTCGCTGGCCAGCTCGCCGAAGCTGACACCGACGCTGTCATCTCCGCCATGGATGAGACCAACCCGTCCATCTTCACCAACAACTGGAACAGCTACTCCGAGGAGAGCCGGGCACTGGTTGACCAGCTCAACGTCCACACCTACGGCACCGGCCAGCGCACCTCGGCCCGCGACATCGCCAAGGGCGAGGGCAAACCCCTCTGGATGAGCGAAGTGGGCGGCGCCTGGATGTCCGGGCAGAACTTCGTCAGCATGCAGCCCGGCCTGGGCCTGGCCAAGCAGATGGTGGATGACCTGCGCGAGCTCGAGCCCAAGGCCTGGGTGTTCTGGCAGCCGGTGGAGGACTACAACAACATGAAGCCCGGCGGGGAGAGCGAAGCCGGGTCCAACTGGGGCGAAATCCAGCTCCCCTTTGACTGCACCGCCGAGGACACGCTGGAAACCTGCCCCATTTACACCAACACCAAGTACAACACCGCCCGGAACTTCACCCAGTTCATCGAGCCCGGCGACCGCCTGGTGAAGGTCAATGATCCGAAGAGCGCTGCCGCCGTTTCCGACACCGGCGCAACCGTGGTCCACGTGAACGACAGCGCTCAGGAGCACCCGGTGGTCCTGGACCTGTCAGGTTTCGGAGCGATCCAGGGCAACGCGACAGTCACGCCGGTGGTCAGCGACGTCAACGGGGCATTGGTCAAGGGCCAGCCCATCGCCGTCGGACGCAACGCCACAGCCACCCTGACAGTGCCCAAGGAATCCGTCACTACGTTCATCATTGACGGCGTCCAGGGCGTGTCCAAGGACGCATCCCTGGTCCAGGCAGGCCACGTCTACCGGCTCCAGGGTGTGCAAAGCGGCAAGTCCATCGCCGTTGCCCCTAACGGAACGTCCGCCGTCATCCGCTCGGGCGCTGCCGCAGAGCAGCTGTGGACCATCCGGCTGCTCAGCGGCGAAAACAGCAACCAGGCCCGCTATGCCGTGGGAACTGCAGACGGCACGCGGGAACTGGCATCGGTGGAGAACGCGGTGACGCTTGTGGACGCAGCCGAGATTCCGGCCGAGAACGCGCAGTGGATCCTGTCCACCACCGGCGACGGCACCTACACCCTGGTGAACGCTGCAAGGGGCAGGCTCCTGGAGGTGGGCGGAAACGCCACCGCCGAGGGATCAGCAGTCACCACGTGGATGGCCAACTCCGCCGACAACCAGCGCTGGACCATTGTGGATGAAACCATCCAGGGCTTCCAGGAGATCAACATCTTCACCGTCCCGGGATCCGTTCCGCAGCTTCCGGCAACCGCCACTCCGCTCTACCCGGGCGGTGCCCGCGGCGAGCTTGCAGTGACGTGGAAAATGCCTCCGGACAGCCTCTGGAAGACTCCGGGGACAACAGTGGCGGTCAAGGGAACCGTGACGGACGCACTGGGCGCCGTGCACGAAGTCCGCGCCAGCGTCACCGTGGACACCCTGGTTTCCACGCTTCCTGCCCGTGCCAAGACCTACGTGGGCGGCACACCCGTTCTCCCGTCCACCATCACAGCGGTGGCCGAACACGGCGGAACAGTCGAACGCGCGGTGGCGTGGGACGCCGTCGGGCCTGCCGCTGCGGCGGGGATCCTGACGGTTAACGGCGCCGCTGATGCCGGGGACGGCACCACCCTTCCGGCAACTGTCCGCGTCCAGGTCACGGAGGCCGCTGTTGACAATGCGGCCGACGACGACGGCGCCTCCATCAGCGCCACCTTCACGGAGCCGGGCTACGGAACCGCCGGCCTCCGCAACGGCAACCTGACGGACAAGGCGTGGTCCAACTGGAAGTCCAGCAGCAAGAACGTTGCCGACACCCTGACGGTGGCCCTTCCGGCCACCAGGACGGTCAAGGAACTCAAGGTGCACTTCTACCGCGACGGGTCCACGGACAGTTATGCGCAGACCGTCCAGGTCCAGACCAGGACAGCCAGCGGGAGTTGGGTGAACGCCGGCCCGGCGGTCTCCGTGCCCGGCGGCAGCCCGGCGCCCGTGGTGTCCGTGCCCGTGGCCAACGTGGACACGAAGGAGGTCCGCGCCATACTCACGGCCCGACCCAACACCCACATGACCGTCAGCGAGATCCAGGTGATGGCGCTGTCGGCGGGCAAGTCCTCTGACGCCTCCGCCGCCGGGATCGCCGTCGACGGCCAGGCAGTGCCCGGCTTCGACCCGGCTACCAGCACGTACAGCGTGGAATGGGGCGGCGCACTGCCCCAGGTGACTGCAACGGCGACGGACCCGTACGCCACCGTAGCGGTCCAGCAGCCCGACCAGCAGACGCGGAAAGCCGTGGTCACCGTGACCAGCGAGGACGGCACCCAGTCACGGACGTATGAGGTAGGAATCGGACGCTAG	MTNRCRRLWASTAVGATTAVMAAGLLAGPAMAVPALGPAVTEPVPAGAVTVKPDPSYQGDPFEGWGTSLVWFANATGDYPDEVRERLAEMVFGDEGLNLNIARYNIGGGNAPDVKDYLRAGGAVEGWWKAPEGTTRTDKDWWDPENPEHWNLDADQTQRWWIDRIKADVTKWEAFSNSPPWFQTVSGYVSGGFNSSEDQLRTESIDEFNTYLLRVVEELEDAHGIKIDTLDPFNEPNTPYWGTKLGADGEPVGGRQEGAHIGPELQQKVLKSLAGQLAEADTDAVISAMDETNPSIFTNNWNSYSEESRALVDQLNVHTYGTGQRTSARDIAKGEGKPLWMSEVGGAWMSGQNFVSMQPGLGLAKQMVDDLRELEPKAWVFWQPVEDYNNMKPGGESEAGSNWGEIQLPFDCTAEDTLETCPIYTNTKYNTARNFTQFIEPGDRLVKVNDPKSAAAVSDTGATVVHVNDSAQEHPVVLDLSGFGAIQGNATVTPVVSDVNGALVKGQPIAVGRNATATLTVPKESVTTFIIDGVQGVSKDASLVQAGHVYRLQGVQSGKSIAVAPNGTSAVIRSGAAAEQLWTIRLLSGENSNQARYAVGTADGTRELASVENAVTLVDAAEIPAENAQWILSTTGDGTYTLVNAARGRLLEVGGNATAEGSAVTTWMANSADNQRWTIVDETIQGFQEINIFTVPGSVPQLPATATPLYPGGARGELAVTWKMPPDSLWKTPGTTVAVKGTVTDALGAVHEVRASVTVDTLVSTLPARAKTYVGGTPVLPSTITAVAEHGGTVERAVAWDAVGPAAAAGILTVNGAADAGDGTTLPATVRVQVTEAAVDNAADDDGASISATFTEPGYGTAGLRNGNLTDKAWSNWKSSSKNVADTLTVALPATRTVKELKVHFYRDGSTDSYAQTVQVQTRTASGSWVNAGPAVSVPGGSPAPVVSVPVANVDTKEVRAILTARPNTHMTVSEIQVMALSAGKSSDASAAGIAVDGQAVPGFDPATSTYSVEWGGALPQVTATATDPYATVAVQQPDQQTRKAVVTVTSEDGTQSRTYEVGIGR				NA	NA	NA	NA	NA
D1-29_00109	1347			hypothetical protein	ATGAACAAAACCCTGACCCGGCGCGGCCTGCTGCAGAGCTCGGCCGTGGGAGTTGCCGCCGCACTCGCCCTCGGCCTGAGCGGTTGCGGCGCCGCCGCCCCCGCCGCCCAGCAGACGGTGTCCAGCAACGCCGTCGAAGAAGCCCTTCAAAAGGGCGGAAAGCTGACCGTGTGGGCGTGGGAGCCAACGCTGAAGAAGGTCGTGGAAGGCTTCGAAGCGAAATACCCCAACGTGGACGTGGAACTGGTCAACGCCGGCACCGGCAATGATCAGTACACGGCCCTGCAGAACGCGATCTCGGCCGGTTCCGGAGTTCCCGATGTTGCCCAGGTGGAGTACTACGCATTGCCGCAATTCTCGCTGGCCAAATCCGTCACCGATCTTGGCCAGTTTGGCGCCTCGGACCTCAAGGACGCGTTCACGCCGGGACCGTGGGCCTCGGTCCAGGCGGCAGGCGGGGTCTACGGCCTGCCCATGGACTCCGGCCCCATGGCCATATTCTACAACAAGGAACTGTTCGCCAAGCACGGCATCGAAGTACCCACAACCTGGGACGAGTTCCTGGAAGCCGGCCGCGCACTGAAGAAGGCCGATCCGAACGCCTACATTGCCAACGACACCGGCGACGCAGGCTTCACCACCAGCATGATCTGGCAGGCCGGCGGAAAGCCGTACAAGGTCAGCGGCAACGACGTAACCGTTAATTTCTCCGACGACGGGTCAAAGAAGTTCGCCGAGACCTGGCAAAAGCTCATCGACGAGGACCTCCTTGCGCCCATCAGTTCCTGGAGCGATGAGTGGTACAAGGGACTGGGCAACGGCACCATCGCCACCCTGTCCACCGGGGCATGGATGCCGGGCAACCTCTCCTCCGGTGTCGCCGAAGGCGCAGGCAAGTGGAGCGTGGCGCCCCTTCCCCAGTGGAAGGAAGGCGGCAAGAGCAGCTCGGAAAACGGCGGAAGCTCACTTGCCATCCCCGCCGCCAGCAGCCAGGCCGCCCTCGCGTACGGCTTCCTGAAGTACTCCAACGTCGAGGACGGCGTCAAGACCCGCATCGACGGCGGTTCCTTCCCCGCCACCGCCAAGGAAATCTCCTCCCCCGAGTTCCTGAACGCTGAATTCGCATACTTCGGCGGTCAGCAGGCCAACAAGATCTTCGCCGAGTCAGCCCAGAACGTGGTCCAGGGCTGGTCCTACCTGCCCTTCCAGGTGTACGCCAACAGCATCTTCAACGACACCGTCGGCCAGGCCTACGTCTCTGACACCAAGCTGGTGGACGGCCTGGCCGATTGGCAGAAGGCATCCGCCAAGTACGGCACCGAGCAAGGTTTCACCGTCAAGGAATAG	MNKTLTRRGLLQSSAVGVAAALALGLSGCGAAAPAAQQTVSSNAVEEALQKGGKLTVWAWEPTLKKVVEGFEAKYPNVDVELVNAGTGNDQYTALQNAISAGSGVPDVAQVEYYALPQFSLAKSVTDLGQFGASDLKDAFTPGPWASVQAAGGVYGLPMDSGPMAIFYNKELFAKHGIEVPTTWDEFLEAGRALKKADPNAYIANDTGDAGFTTSMIWQAGGKPYKVSGNDVTVNFSDDGSKKFAETWQKLIDEDLLAPISSWSDEWYKGLGNGTIATLSTGAWMPGNLSSGVAEGAGKWSVAPLPQWKEGGKSSSENGGSSLAIPAASSQAALAYGFLKYSNVEDGVKTRIDGGSFPATAKEISSPEFLNAEFAYFGGQQANKIFAESAQNVVQGWSYLPFQVYANSIFNDTVGQAYVSDTKLVDGLADWQKASAKYGTEQGFTVKE	PGPT0016545_3439	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
D1-29_00110	951	araQ_1	COG0395	L-arabinose transport system permease protein AraQ	ATGAGCGTCCCCACTGCCTCCCGCCCCGCCACCCCAACCGCTGCCCCTGCCGGTCAAAGGCGCACCACGCCTGCCAGGCTGCGCCCCCAACGGGTCACCTCCAAGCGCCGGTCCCGCCGCAGCGTCATGCTCACCCTTGTGACCGGGGTGGTCCTTCTGTACAGCCTGGCGCCGCTGGTGTGGCTGCTGATCAACGCCACCAAAACCCAGGAAGGGCTCTTCAGCTCCTTTGGACTGTGGTTCGCCGGTGATTTTGTCCTGTGGGACAACATCACCCGGACGTTCACCTACGACGGCGGCATCTTCCTCCGCTGGCTGGGCAACACGGTGCTGTACGTCGTGCTCGGCGCCGGGGGTGCCACCTTCCTGGCGGTCCTTGGCGGCTACGCCCTGGCCAAGTTCGACTTTCCGGGAAAGAAGGGGGTCTTTGCCGTGGTGATCGGCGCGGTGGCCGTTCCCGGCACGGCCCTGGCGGTGCCCACCTTCCTGATGTTCAGCCAGATGGGCCTGACCAACACACCGTGGGCTGTCATCATCCCCTCACTCATCTCGCCCTTCGGCCTGTACCTCATGTGGACCTTCGCCTCCGAGGCGATCCCCACCGAGATTCTCGAGTCAGCCCGCATTGACGGAGCCAGCGAGGCCCGGACGTTCTTCCAGGTCTGCCTGCCGCTGCTGACGCCGGGCATCGTCACAGTGCTCCTCTTCACCATGGTGGCCACCTGGAACAACTATTTCCTGCCACTGATCATGCTCAAGAACCCGGACTGGTACCCGCTCACCCTGGGGCTGAACGCCTGGAACGCCCAGGCGGCCACCGCCGGCGGCGAGGCCATCTTCAACCTGGTCATCACCGGATCAATGCTCACCATCCTGCCCCTCATCGCCGCGTTCCTGCTCCTGCAGCGGTACTGGCAATCAGGCCTGGCGGCCGGAAGCGTCAAAGAATAA	MSVPTASRPATPTAAPAGQRRTTPARLRPQRVTSKRRSRRSVMLTLVTGVVLLYSLAPLVWLLINATKTQEGLFSSFGLWFAGDFVLWDNITRTFTYDGGIFLRWLGNTVLYVVLGAGGATFLAVLGGYALAKFDFPGKKGVFAVVIGAVAVPGTALAVPTFLMFSQMGLTNTPWAVIIPSLISPFGLYLMWTFASEAIPTEILESARIDGASEARTFFQVCLPLLTPGIVTVLLFTMVATWNNYFLPLIMLKNPDWYPLTLGLNAWNAQAATAGGEAIFNLVITGSMLTILPLIAAFLLLQRYWQSGLAAGSVKE	PGPT0016540_1493	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
D1-29_00111	927	lacF_2		Lactose transport system permease protein LacF	ATGACAATGGTGTCCCCGCCGATAGCAGCCCCTGCTGCTACCGCTGCCGTCCAGCGGAAACCCCGCCGGCGCTCCTGGGCAGGGTGGTGGTTTATCGGCCCGTTCATGGCAGTCTTCGCCCTGGTGTTCCTCGCACCGATTGCCTACTCGATCTACCTCAGTGTCTTCCGCACCCAGCTCATTGGCGGAACCACCTTCGTTGGCCTGAACAACTACACCCGGGCACTGTCCGATCCGCAGTTCTGGTCGGCCTTGGGCCGGGTCTCCATGTTCCTGGCGGTCCAGGTTCCGGTGATGCTCTTTATCGCCCTGCTGGTTGCCCTCGCGCTGGACAGCGGCCGGCTGTACGGCAAGGCATTTTTCCGCATCTCCATCTTCCTGCCGTATGCAGTGCCTGCCGTGGTGGCCGCCCTGATGTGGGGATTTATGTACGGTCCCCGCTTCGGACTGGTGGGGAACATCAACCAGGCCTTCGGGCTGCAGTTGCCCAGCCCCCTCTCCGCCGAACTGGTCCTGGTCTCGATCGGGAACATCGTGACCTGGGAATTCATCGGCTACAACATGCTCATCTTCTACTCCGCGCTGACGGTCATCCCCAAGTCCCTGTACGAGGCGGCAGAGATTGACGGGGCCGGGCAACTGAGGGTCATTTCGGCCATCAAAATCCCGGCCATTCGCGGTGCGATCGTGGTGGCAACCATTTTCTCGGTCATCGGGAGCTTCCAGCTATTCAATGAACCGAGCATTCTGAAGAGCCTTTCACCGAACACCATCTCAACGTTCTTCACGCCAAACCTGTACGCCTACTCCCTCTCCTTCTCAGGCCAGCAATACAACTACTCCGCCACGGTGGCGATCATCATGGGCCTGCTCACGATGGCTATCGCCTTCGCAGTCCAGGCCCGCGGCATGCGAAAGGAACGCTAA	MTMVSPPIAAPAATAAVQRKPRRRSWAGWWFIGPFMAVFALVFLAPIAYSIYLSVFRTQLIGGTTFVGLNNYTRALSDPQFWSALGRVSMFLAVQVPVMLFIALLVALALDSGRLYGKAFFRISIFLPYAVPAVVAALMWGFMYGPRFGLVGNINQAFGLQLPSPLSAELVLVSIGNIVTWEFIGYNMLIFYSALTVIPKSLYEAAEIDGAGQLRVISAIKIPAIRGAIVVATIFSVIGSFQLFNEPSILKSLSPNTISTFFTPNLYAYSLSFSGQQYNYSATVAIIMGLLTMAIAFAVQARGMRKER	PGPT0016535_1768	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
D1-29_00112	1059	lacI_1	COG1609	Lactose operon repressor	ATGTCCTCACAGCCGGGTCAACCCCCCATCCAGGAAGCAGTTGCCTCCCTGGCCCGTCGGCGCGTCTCCATGGCCGACGTCGCCAAGCTTGCAGGGGTCTCCTCCCAGACCGTTTCGCGGGTCTCCAACGGCAGCCCCGATGTGGTGCCCGGGACCCGGCAGCAGGTTATTGCGGCAATGGACCAGCTGGGCTACCGGCCCAACAGTGCGGCCAGGGCATTGAAGCGCGGAAGCTTCCGAACCATCGGCGTCATTCTCTTTTCGCTGTCGTCCTTCGGGAACGTCCGGACGCTAGAGGCCATTGCCCTGCATGCCGCCAGGGAGGACTTTGCCATCACGCTCATTCCGGTCACGGCGCCCACCCAGGCCGGCGTGCAGGGAGCGTTTTCCAGGATGGGCGAGCTGGCCGTGGACGCGGTCATCGCCATCATGGAAGTCCAGCTCCTGGATGCCGCCACAGTGACAGTGCCGCCGGGAGTGAAGGTTGTGGTGGTGGATTCGAACGCCGGTTCCGACTACAGCGTGGTCGACACGGACCAGGCGGACGGCGCCAGGCAGGCTGTGGAGCACCTTCTTGGGCTGGGCCACCAAACGGTGTGGCATGTGGCGGGGCCGGAGAAATCCTTCGCCAGCGAGCGGCGGCAGGAGGCGTGGCGGAACACGCTGCTTGCCCGGGGCAGGACGGTGCCGCCCACCGTGCGTGGAGACTGGTCGGCCGGGTCAGGCTATGAAGCCGGCTTGTGGCTTGCAGAGCAGGAGGGGTGCACTGCCGTCTTCACCGCCAACGACCACATGGCCCTGGGTGTGCTCCGCGCCTTCCGCGAAAAGGGCATTTCCGTTCCCGGGGACATCAGTCTTGTAGGTTTCGACGACGTACCTGAGGCGTCCTCGTACACCCCGCCACTCACCACGGTCCACCAGGATTTCACGGAGGTGGGCCACCGCTGCGTGGACAACGTCCTCCATCAGATCCGCAGCAATACGGCTGATCCCGGGATGGTCCTGGTGCCCACGCGCCTGATCATCCGCGAGAGCACGGCGCCGCCACGCCTTCCCTGA	MSSQPGQPPIQEAVASLARRRVSMADVAKLAGVSSQTVSRVSNGSPDVVPGTRQQVIAAMDQLGYRPNSAARALKRGSFRTIGVILFSLSSFGNVRTLEAIALHAAREDFAITLIPVTAPTQAGVQGAFSRMGELAVDAVIAIMEVQLLDAATVTVPPGVKVVVVDSNAGSDYSVVDTDQADGARQAVEHLLGLGHQTVWHVAGPEKSFASERRQEAWRNTLLARGRTVPPTVRGDWSAGSGYEAGLWLAEQEGCTAVFTANDHMALGVLRAFREKGISVPGDISLVGFDDVPEASSYTPPLTTVHQDFTEVGHRCVDNVLHQIRSNTADPGMVLVPTRLIIRESTAPPRLP	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
D1-29_00113	1077	rbsR_1	COG1609	Ribose operon repressor	ATGGATTCGCAGGAGAACAGTTCGGGTACGCCGTCGGCGGCTGCCCCCTTGAAGCAGGCCCGCCGCGCCCAGCCGGTTACCCTGCGTCAGGTAGCCGAAGCCGCAGGCGTTTCCACAGCCACTGTTTCCCTGGTGGTGAACAAGAAAAAGGCCGCCCGGATCTCCGATGAGACCCGCAAACGGGTACATGACGCGATCCGGGACCTCGGCTACCGGCCCAACGCCATGGCCCAAACCCTAGTCAGCGGCAGTTCCAGGTTCATCGGCCTCGTCGCCGACGCCATCGCCACCACCCCGTTCGCGGGCCAGATCATCCACGGCGCCCAGGACGAAGCCTGGAAACATGGTTTCGCCCTTCTCATCGCCAACACCGAAGGCAACCGGGAGCTTGAAACCGACGCCATCGCCATGATGCTCGAATACAAGGTCCGAGGCATCCTCTACTCCACCTGGTTCCACCGTGCCACGGACGTCCCGGACTCCCTCCGGGAATCGGATTTCGTCCTCGTCAACTGCTTTGCCGAGGAACCGGGCGCCCGGGCGGTGGTCCCGGACGAAATCCAGGGCGGCCGTTCGGCCACGGAGATCCTGCTCAGGCATGGGCACCGCCGGATCGCCTTCATCAACGCCACCATCCCCGCCCCGGCGAAGGACGGACGGCTCCAGGGCTACAGGGAAGCCTTGGAGGCTGAAGGCATCGTCTTCGACGACGGCCTGGTCCTTGAAGCCTATCCGGACCAGGAAGGCGGGTTCGGGGCCACCGAGGCACTCCTCAAACTCGGCGTCACAGCGGTGTATTGCTATAACGACCGAATGGCGATGGGACTGTACGACGGGCTCCGCGAGCATGGGCTCTCCATCCCGGACGATATTGCAGTGGTGGGGTTCGACAACCAGGAAGTCATCGCCGCCCACCTCCGGCCCCCACTTTCCACCGTCTCCCTCCCGCACTACGAACTGGGCGCAGCCGGTGTGAGAGTGCTGCTGGGCCTTGACGAACCACAGTCCGGCGGCCCCGCGAAAATTTACTGCCCCACCGTGGAACGGAACTCCGTCCGGGCCTTGGCCCCCGCCTGA	MDSQENSSGTPSAAAPLKQARRAQPVTLRQVAEAAGVSTATVSLVVNKKKAARISDETRKRVHDAIRDLGYRPNAMAQTLVSGSSRFIGLVADAIATTPFAGQIIHGAQDEAWKHGFALLIANTEGNRELETDAIAMMLEYKVRGILYSTWFHRATDVPDSLRESDFVLVNCFAEEPGARAVVPDEIQGGRSATEILLRHGHRRIAFINATIPAPAKDGRLQGYREALEAEGIVFDDGLVLEAYPDQEGGFGATEALLKLGVTAVYCYNDRMAMGLYDGLREHGLSIPDDIAVVGFDNQEVIAAHLRPPLSTVSLPHYELGAAGVRVLLGLDEPQSGGPAKIYCPTVERNSVRALAPA	PGPT0017992_4088	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
D1-29_00114	906	ngcG_1	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGACCGCGCCAGCAGCCCCAGTCACCCGGCCTGTTACAGCACTGCCGGAGAGCCGGCCGCCGCTCCGCAGACGGAAACCGGCCACCCTCCACGGCACCCTGTCGAGGGTAATCATCGCCCTCATCGTCATCGTGCAGGTCTACCCCCTGGCCTGGCTTTTCATCACCAGCCTCCGCACCGAACACGACTTCGCCACCGGCGACCCGTTCGCGCTCCCCAAGGCGATCACTTTCGAGAACTACGCCCGCGCCTTCGAGACCGGCAACCTCGGAATGAACATCCTCAACAGCTTCATTGTCACCATGGGCGCCAACGTGCTGATTGTGCTCCTGGGAATGATGGCCGCGTATGCCCTGCAGGTTCTCGGCTTCCGCTTCAGCAAGTTTGTCCGGAGCCTTTTCCTGATCGGCATCATCGTTCCCGTGCAGATCGCACTCGTCCCGCTGTTCATCGACTACTCCAGCATCAACCTGCTCGACACCTACCCGTCGATGATCATCCCCCTGGCCGGCTTCGCCCTGCCGATGTCCATCTACCTCTTTTCCTCTTTCTTTGAGTACATCCCCCGGGAAACGTACGAGGCAGCGTCGCTGGACGGTGCCGGGCCCTACCGCATCTTCGGACTCATCACCCTCCCCCTTTCGGTCAATACCGTTGTGACGGTTGTCTTGGTCAACAGCATCTTCATCTGGAACGACTTCATCTTCGCCAACACCTTTGTCCTCTCCGAGGAACTGAAGACCATTCCGCTGGGCCTGCAGAACTACATCGGCGCGATGGGTAAAACAGACTGGACAGCCACGTTCGCCGCCGTCTGCGTCACCATCACCCCCCTCCTCCTGGTCTTCCTCGTGCTCAACAAGGCAATGATCCAGGGCCTGGAAAGCGGGGCGAACAAGGGATGA	MTAPAAPVTRPVTALPESRPPLRRRKPATLHGTLSRVIIALIVIVQVYPLAWLFITSLRTEHDFATGDPFALPKAITFENYARAFETGNLGMNILNSFIVTMGANVLIVLLGMMAAYALQVLGFRFSKFVRSLFLIGIIVPVQIALVPLFIDYSSINLLDTYPSMIIPLAGFALPMSIYLFSSFFEYIPRETYEAASLDGAGPYRIFGLITLPLSVNTVVTVVLVNSIFIWNDFIFANTFVLSEELKTIPLGLQNYIGAMGKTDWTATFAAVCVTITPLLLVFLVLNKAMIQGLESGANKG	PGPT0016340_160	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
D1-29_00115	882	melD_1	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGCTTCCCAACAGGTCACGACTCTCCGTCCTGGTCTTCCTGCTCCCTCCCTTGCTGCTTTACGGCGTCGCAGTGCTGTTCCCCATCATGCAGTCGCTGTTCCTGAGCTTCTTCTCCTGGAACGGCATCAGCGATATGGAGTTCGTGGGGCTCGCCAACTACGTGCGGATGCTCACAGCGGACGACATCTTCTGGCGCTCGTTCTTCAATGCCCTCGGCTATCTGGCCATCTGCCTGGTTCTGCAGCTCGGCGGCGCACTGCTCGTCGCCAGCCTCCTGACCTCCATGAGCAGGGGCCGCGAGCTCATCAAAACCCTCTACCTCCTGCCTGCTGTTATCTCCACGGTGGCCATCGCGTTCCTGTTCGTGCGGATCTACTCAATCGAACCGGTGGGCCTGCTCAACCAGCTCCTGCACTGGATCGGGCTCGGCGCCCTTGAACGCCCGTGGCTTTCGGACATCAATACGGTCCTCGCCGCCGTTTCCGCCCCGGAAGGCTGGCGGTTCACGGGCCTTTACATGCTCATCATTTACGCGGCGCTGCTGTCCGTCCCGAAGGAATTGGAGGAAGCCGCCAGGCTCGACGGCGCATCACGGTGGCAGCTGTTCACCAAGATCCGCTTCCCGCACATCATGCCCGTCTGGATCACCACCACGATCATGGCAACCACCTACGGCCTGCGCGGCTTCGACATCCCGTACCTGATGACGAACGGCGGCCCAGGGCAGTCCTCGGAGCTGCTGACCACGTACATGTACAAGACCGCATTCACCAGCACTGACTTCGGATACGCCAGCACCATCGCCGTCTTCATCGTCGTCGAATGCCTGGTCGCCGTCGGACTGATCCTCTTCATGCTCAAGCGAAAGGCGGACGCATGA	MLPNRSRLSVLVFLLPPLLLYGVAVLFPIMQSLFLSFFSWNGISDMEFVGLANYVRMLTADDIFWRSFFNALGYLAICLVLQLGGALLVASLLTSMSRGRELIKTLYLLPAVISTVAIAFLFVRIYSIEPVGLLNQLLHWIGLGALERPWLSDINTVLAAVSAPEGWRFTGLYMLIIYAALLSVPKELEEAARLDGASRWQLFTKIRFPHIMPVWITTTIMATTYGLRGFDIPYLMTNGGPGQSSELLTTYMYKTAFTSTDFGYASTIAVFIVVECLVAVGLILFMLKRKADA	PGPT0016335_1796	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
D1-29_00116	1335			hypothetical protein	ATGAAGAAGTTATTCCGAACGGCGGCCGTAGCGACGGCCGCAGCACTCGCCCTCGCCGGATGCGGCAGCGGAGGAACCACTGATCCTTCCAACGTCAGTCCCACCGGGGAGGTCAAGCCCCGCGAAATTTCGTGGCTGCTGTCCCGGCCGGCGGACGGGGCGGTCATCAACATCATGAAGAAGCTCGCGGACGACTACGCCAAGGACCACCCGGGCTTCTCGCTCAACCTGATCACCACCCCGGACAGGCCCTCCTACATCCAGAAGCTTGAAACCCTGGCGGCCGCGAACAAGCTCCCCGAGCTTTTCGACACCGACGCCACACCGTTCGCCCAGCAGCTGGCCAAACAGGGAAAGATGGTCGACGCCGAAAAGCTGCTCAAGTCCCTGGACGTGTATGACGACTACCGGCCCAGCGCGCTGGACTACCAGCGGTTCGACGACGGATCCCTGCACATGATTCCGTTCCAGTTCGAGCTGGAATTTATCTGGTACAACAAGGCCCTGCTGCAGAAGGCAGGGGTGTCCACCCCGAAATCCCTCGACGACATCCCCGCCATGTGCACCGCCCTGCGCAACGCCGGCATCACGCCGATCGCCATCGACGGCCAGGACCAATGGCCCCTGGAGCGGTACGTCGCGTACCAGCCGTTCCGCGCAGCCGGCCCCGATTTCATCCAGAAGCTCAAGAAGGGCGAAGCGAAGTTCTCCGACCCCGCAGGCCAAAAGACCGTCCAATGGCTGGCATCGCTCGGCAAGGCCAAGTGCTTCCAGGATGGATTCTCCTCACAGGGCTACTCCGACGCACAGAACCAGTTCACCTCCGGGCAGGCAGCCATGTACAACATCGGCACCTGGGAACTGCCCAGCCTGGCAACTGACAGGCTGAACCCGGCAGTGCGGGATGACATCGACTTCTTCACCCTCCCCACCACTGAAGGATCAGTCACCGCCGCCAACGAATTCGTCTCTCCGTCCGGTATCGGTATGGCCGTCAATGCCAAGACCTATGACCCGCTGGTGAGCGACTTCCTGAAGTTCGCCCTGACAAAATACCCGTCCGAATACGCTGCCACCGGCGCACTGTCCCCCACAACGAACGTGGAGACGATAGTTCCGGCCAACGCAACTCCCCTGTACAAGAAGGCTCTGGAGAAGGCCAACGACCTCGGGGACGAGCAGGCGATGCCGTGGGATACCCAGCTCGATCCCACCACTAACGGCAGGCTGCAGCAGGAGCTTGTGCTCCTGGTCCAGGGCAACATCACGCCCGAACAGTTCACCAGCACGATGGATAACGCCGTCGCGCAGAACGCCCCGAAGTTCTTCAAGTAA	MKKLFRTAAVATAAALALAGCGSGGTTDPSNVSPTGEVKPREISWLLSRPADGAVINIMKKLADDYAKDHPGFSLNLITTPDRPSYIQKLETLAAANKLPELFDTDATPFAQQLAKQGKMVDAEKLLKSLDVYDDYRPSALDYQRFDDGSLHMIPFQFELEFIWYNKALLQKAGVSTPKSLDDIPAMCTALRNAGITPIAIDGQDQWPLERYVAYQPFRAAGPDFIQKLKKGEAKFSDPAGQKTVQWLASLGKAKCFQDGFSSQGYSDAQNQFTSGQAAMYNIGTWELPSLATDRLNPAVRDDIDFFTLPTTEGSVTAANEFVSPSGIGMAVNAKTYDPLVSDFLKFALTKYPSEYAATGALSPTTNVETIVPANATPLYKKALEKANDLGDEQAMPWDTQLDPTTNGRLQQELVLLVQGNITPEQFTSTMDNAVAQNAPKFFK	PGPT0016330_829	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
D1-29_00117	1437	sacA_1		Sucrose-6-phosphate hydrolase	ATGAAACACTCAGTCTTCTTTCAGCCCTCCGATGGATGGGTTGGAGATCTTATCCCGTTCCAGAAGGACGGAGAGTTCTGGCTCTTCTACCTTCATGAGGTACGCGCAGACCCGAAGCCGGGAACCTCATGGCACCTGGTGACCACCAAGGACCTCACGCAGTTTGAGAACCATGGTGTTGCGCTCCAACACGGAGGCGAAGCCGACCTGGATTTCAACGCCTACACAGGAAGCGTCGTCGTCGACGAAACCGGTAGCCACCACTTGTTCTACACGGGTCAAAACCCTCACAACCTCGGACCGGACGGAGCCCCTCTTCAGCTGGTCATGCACGCCACGAGTATCGACGGGATGCAGACCTGGGTGAAGCACCCGGAACTCACCTTCGGCGCCCCGGAAGGCTACGAGTCCGGCGACTGGCGGGATCCTTTCGTCTTCCGGGACGAGAGCTCAGGGCAATGGAGGATGCTGCTGGCGGCGCGGCACTCCGCAGGACCGGAACGCCGGCGAGGTGTCATAGCCCATTGCGTCTCCAACGACCTGGTGACGTGGCAGCACACTGAACCGTTCTGGGATCCGCGCCGCTACATCACCCATGAATGCCCGGACGTTTTCTCCTGGGGCGACTGGTGGTACATGGTCTACTCGGAGTTCTCAGAATCATTCACCACCCGGTACCGCATGGCCAAGAGCCCCGACGGCCCATGGAGCGTACCGGACCTGGACAGCGTGGACGGGCGCGCCTTCTACGCCTCCAAGACCGCCGAACGTGACGGACGCCGGTTCTTTTTTGGATGGATCGCCAGCAAGGAAGGCAACAACGACGACGGCCCCTGGCAGTGGGCCGGCACGATGTCCGTCCTGGAAGCCCGGCAAAACCCGGACGGAACCCTGGGGTTCGCTTTCGCCGACGAACTCGTCGACAGCTTCTGGGAGGACGTCCCGGTATCCCTGACTAACCGGCTGCCGGTGCGACTGCACGTCCCGGACTCGTACACCGCCGTCGTCTCTGACGAAGAACTGCCCGGCCAGTTCTATGCCAAGGCAGTCCTGGACATCGAACCCAACACCACAGAATGCGGGTTGTTGCTTCGCTCCAGCCAGGACGGGGACAAATCCTACGTCCTGCGCCTGGAACCCAAGCGCGGCCGCATGGTGTTCGACCGTTGGCCGCGGAAAGTTACCGGTGACGCCCAATGGCACGTCTCCGGGGACGTTCCGTTCGCCATCGAACTGGAACGCCCCTGCGATCTTGCTCCCGGGCAGCACACGCTCGAAGTCGTTGTGGACGGGGACCTGTGCGTTGCCGTTCTGGATCGGCAGGTGGCTCTCAGCACCAGGATCTACGACCTGGCAGCAGGGCGGATCGGCGTCTTCACCGGGGAAGGGTCAGCAACCCTTACGGAACTTCAAGTCCGCCAACGCACAAACAACTAA	MKHSVFFQPSDGWVGDLIPFQKDGEFWLFYLHEVRADPKPGTSWHLVTTKDLTQFENHGVALQHGGEADLDFNAYTGSVVVDETGSHHLFYTGQNPHNLGPDGAPLQLVMHATSIDGMQTWVKHPELTFGAPEGYESGDWRDPFVFRDESSGQWRMLLAARHSAGPERRRGVIAHCVSNDLVTWQHTEPFWDPRRYITHECPDVFSWGDWWYMVYSEFSESFTTRYRMAKSPDGPWSVPDLDSVDGRAFYASKTAERDGRRFFFGWIASKEGNNDDGPWQWAGTMSVLEARQNPDGTLGFAFADELVDSFWEDVPVSLTNRLPVRLHVPDSYTAVVSDEELPGQFYAKAVLDIEPNTTECGLLLRSSQDGDKSYVLRLEPKRGRMVFDRWPRKVTGDAQWHVSGDVPFAIELERPCDLAPGQHTLEVVVDGDLCVAVLDRQVALSTRIYDLAAGRIGVFTGEGSATLTELQVRQRTNN	PGPT0018815_2247	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193	NA	NA
D1-29_00118	570	betI_1		HTH-type transcriptional regulator BetI	GTGAAAAACGGCGAACAGGTTGACAGACAGTCGCGCATTCTCGAAGCGGCGCTGGACCTGCTGTCGCGCCACGGCATTTCAGGAGTGAATATGCGGGCGGTGGCCCGCGAAGCGGGCGTGGCGCTCGGGCTGGTGAACTACTACTACGAAGACAAGATGAGCCTGATCCGTGCGGCCCTGCACCGGATAGACCAGCATGACCTGATGCTGGTCACGCCCGATCCGGACTCGCCCCCGGACGAACAGCTGAAGAAGGCCCTCCAGCGCGTTGCAGGCCCGGAATTGCTGACCACACAATATCTGTCCCTTCGGCTCCACCTCTGGGCGCTGGCACAAGCCCATGAAGACTTCGCCTCCATCAATGCGGCGGCGTTCGAGCGCTATCTCCAAGGGCTCGCCACGCTGATCGGAAATGCCAGGCCCGAGCTTTCCAATGACGAATGCAGGGAGCGGGCGGCTGACATCGTCGTCGTGCAAAACGGGATGTGGCTTACGGCGCTCCTTGGTGTTGACAAGGAATCCATCCGGCGGAGCATCGCCCGCACCGAAGAGATCGCCTTCGCCGCCTAG	MKNGEQVDRQSRILEAALDLLSRHGISGVNMRAVAREAGVALGLVNYYYEDKMSLIRAALHRIDQHDLMLVTPDPDSPPDEQLKKALQRVAGPELLTTQYLSLRLHLWALAQAHEDFASINAAAFERYLQGLATLIGNARPELSNDECRERAADIVVVQNGMWLTALLGVDKESIRRSIARTEEIAFAA				NA	NA	NA	NA	NA
D1-29_00119	366			hypothetical protein	ATGAAACGCGCGTTCGCGTCCGGTGGGCTGCTTCTGTTGCTGACCCCACTGCTGGCTGGCTGTGTGGGCGACTACTTCGCATCCGGCGACTGCGATGATCTTGCGAACGAGCTCTCTCCGGTCATCGAGAAGTCCATCGGGTCCGCGCCATCCATAAACAGCACTTGGGGCGACGGCGGGATGAGGCCATGGTGCCGAATCGACTTCTCGACGACCAAAGAGTATGCGCCCGACGATGAGCGCCTCAGCGCGCTGAAGTCCGAAGTCGAGGCCGGAATGGCGGACTGGTCAAGTGGCGTCGTCGTGACAATACAGGCGGGCAACGACCGCAGCATTGAAGTTCTTTCGCCTGACGAACAGGACTGA	MKRAFASGGLLLLLTPLLAGCVGDYFASGDCDDLANELSPVIEKSIGSAPSINSTWGDGGMRPWCRIDFSTTKEYAPDDERLSALKSEVEAGMADWSSGVVVTIQAGNDRSIEVLSPDEQD				NA	NA	NA	NA	NA
D1-29_00120	324			hypothetical protein	ATGACTGCCTGGGGCATCACGTTTCCTCTCACCCGGAAGATAGGTCTTTTGCTCGTCAGCCCTGATGAACTCATTGGGCACGTGGCCGGAGACGAAGTTGCGACCGGCCGCTTTGATCTCGCCCAAGCTCCGTCGACAGCAGCAGCCAATTTGTTCAATGACGCCACGATCAGGAACGCCCGCCAATGGATCTTCCACCACCCGGACGACTCGCACCTTGTGCCGGACGACCTGCCCGAGCCGAGAAATAGGGAAATGGAAGTGATCGGCGGACCCGTGGAGTTCTCGGGAAAACCACTCTTCGGGTCACTCCCGCCAGAGTAA	MTAWGITFPLTRKIGLLLVSPDELIGHVAGDEVATGRFDLAQAPSTAAANLFNDATIRNARQWIFHHPDDSHLVPDDLPEPRNREMEVIGGPVEFSGKPLFGSLPPE				NA	NA	NA	NA	NA
D1-29_00121	591			hypothetical protein	ATGAGTGACCTTCTGACCAAATACGCCCTTGAGCGACTCGACGTTGCCTTGCAACTTGCTCGAGTTCCTACCGCTTGGGAGCTGCTGAACCCTGGCATACCTAAAAGCCAGGTCAGGGAGGCCGTGTCCTTACATGGCCTCCCCAATAGCCCGGAGCTCGAAACGTTGTATGAATGGCACGACGGTACGGGTTCCGGTTCTGGGGCAGCACTCTTGGGAGACCTGTGGCTCATACCCGGGTTTTATCTGCTCTCATTGGATGAAGCCATCACAAACTATGCCGCCTTTAGAAAGGACCAGCGCTGGAACCAGAACTGGTTTCCAGTGTTCGCAGACGGGGGTGGGGACTTCTACGTAATCGACTTCGCCAACGCTCCCGCTCGCGTTGTCCGTCATTTCCGTCTTGAGGAGGTGGAACACCCTGTCGAGTACGGATCTCTCGCAGCAATGATTGACACGTTCGCTGCAGCCTTTGCATCGGGGGCGATCTTTGTCGATGAAACCGGGTACGTTGGCGTGAACGACGAGGCTTTCAATGCCATCGCTGCCCGGATGAATCCGGACATTCCTTGGTGGACTGATTCGGTGTGA	MSDLLTKYALERLDVALQLARVPTAWELLNPGIPKSQVREAVSLHGLPNSPELETLYEWHDGTGSGSGAALLGDLWLIPGFYLLSLDEAITNYAAFRKDQRWNQNWFPVFADGGGDFYVIDFANAPARVVRHFRLEEVEHPVEYGSLAAMIDTFAAAFASGAIFVDETGYVGVNDEAFNAIAARMNPDIPWWTDSV				NA	NA	NA	NA	NA
D1-29_00122	183			hypothetical protein	ATGAGATTCCCCTTCCAGTTTCTGTTCTTGGCCTTCTCAATCGCCATGACCTACACATACATAATCCTCAGCGAGAATGCTGACACATTGGACCGGCGGGCCCTGTCCGGGGCGATCGGAGCCGGCATGGCCGTCGTCGTCGTAGGGTTAGTGATCTTCTGGATGCTGGGTATCTTACGATAG	MRFPFQFLFLAFSIAMTYTYIILSENADTLDRRALSGAIGAGMAVVVVGLVIFWMLGILR				NA	NA	NA	NA	NA
D1-29_00123	444			hypothetical protein	ATGACATCGGATTTTGATTGGGCGCGCTTCCGTGAGGCCTTCGGGGACGACCCCGGCGTGCTCCCTGATGGCGAGGTACTCGGAAGTACAGAACACGACTGGGATGATGTGTTTGCGATGCTGCACCGCAGCGGCTGGGAGCTGTCAACCAGTGATGGCCATTCACCGCTCCCGCCCAATAGACACGGTCTCGCTGAACTTGAGAGTTTTGCCGTTTGGCCCGTCGACGGCGTACGCGTCAACTTTTTCCCCGGGCCGCACGCCGTGTTTTTCGACATCGACCTCCGGGAACTAGTCAACCAGGCCAAAGTGGACGGCCTGGCCCACTTGATGAGAAAGCTCGGAACCACGCTTGGTCGAGATGTCGTGATTAGAGACGAAGGTTCGAGTGGCGCGCCGGTCCTTCGCTACACACCTGCAACAGACCAATTTTCACTAAGGTGA	MTSDFDWARFREAFGDDPGVLPDGEVLGSTEHDWDDVFAMLHRSGWELSTSDGHSPLPPNRHGLAELESFAVWPVDGVRVNFFPGPHAVFFDIDLRELVNQAKVDGLAHLMRKLGTTLGRDVVIRDEGSSGAPVLRYTPATDQFSLR				NA	NA	NA	NA	NA
D1-29_00124	129			hypothetical protein	GTGATTCCCAAGGGGCCCCTTCAGTCGAAGAAAAGCGTCCGCTCAAGGTTCGGCTACCGGGCCACCAAGGATGCGGTGATCGACCGGCTTACGGGCACGGCTATCACGTGTCCCGACGCAGCGAGCTAA	MIPKGPLQSKKSVRSRFGYRATKDAVIDRLTGTAITCPDAAS				NA	NA	NA	NA	NA
D1-29_00125	462			hypothetical protein	ATGTATTCGTTTTCTTCTGATGGCCTGAAGGGATTTGGCGTGCTGGACCACATTGACCACAACCCCGGTATCGTCGCTCGCGTCGCGCAGCACGTGATCGAAGAAGACCTGGGCTACGAGGCGGTCGTGCTTGCCAATCGAGCCGATATGCCTACCTGGCAATTGGAAATCCAGAGGCCGCTCGACCCGGACGACCAGGATCGCCGGCTTGGTCTTGATACCTATTGCCTGGTACTGCCCACCGGAGCTACGGCCTACGGATGCTTGGCTTCGGCGAGTGTTTCTGGGCAACGCCTTCGCTTGACCTTTCCTGCGGATCGATTGACGGAGCTCGGGCTCACCGACTCGACGCTCGAGCTCCAGCTCGAGCTGGAAGCGGCATCCCTAGATGTGCTCGTGACTGGCTTGCGCCAGGTGCTCGGTTCGCCACGCGGTCCCGCCCTCGGCGGTCTCCTGACGTGA	MYSFSSDGLKGFGVLDHIDHNPGIVARVAQHVIEEDLGYEAVVLANRADMPTWQLEIQRPLDPDDQDRRLGLDTYCLVLPTGATAYGCLASASVSGQRLRLTFPADRLTELGLTDSTLELQLELEAASLDVLVTGLRQVLGSPRGPALGGLLT				NA	NA	NA	NA	NA
D1-29_00126	300			hypothetical protein	ATGACGCATGTGATCGTTCGGGCTACTGCGGTGCGATGGGCAGACGACGACTTCCCGGGATGGATCGAGGTCGACCTTGTCGACGCGGAGGGTCGGACTCATCGGATCGTTGAGAAGGTCCCTGTCCTCACCAGAGCCAACATCACGGCGGCGTCGACGTTCCCGCTTGAACTGTGGATACAAGCTGAGTTCGAGCGCATGCAGGGTGGCGCTATCTTGGTACGGTTTGCCCATGGCGTAGAAACCACCGATGGCCTTGACCTGATCGGAATGGAGGGGCACGCCGTCCGCTGGCTTTGA	MTHVIVRATAVRWADDDFPGWIEVDLVDAEGRTHRIVEKVPVLTRANITAASTFPLELWIQAEFERMQGGAILVRFAHGVETTDGLDLIGMEGHAVRWL				NA	NA	NA	NA	NA
D1-29_00127	1734	betA_1		Oxygen-dependent choline dehydrogenase	ATGACAAAAACCCATTACGACTACGTCATCGTCGGCGGCGGAAGCGCGGGTTCCGTGCTCGCCAACCGGCTGAGCGAAGGAGGCCAGAGCAGCGTCCTGGTTCTCGAGGCCGGACGCAGCGACTACCCCTGGGACCTTTTCATCCAGATGCCCGCCGCGCTGACGTTCCCCAGCGGCAACCCGCTGTACGACTGGCGCTACCAGTCCGATCCTGAACCGTACATGGGCGGCCGCCGCGTGGCCCACGCCCGCGGCAAGGTCCTGGGCGGTTCCAGCTCCATCAACGGCATGATCTTCCAGCGCGGCAACCCCCTCGACTACGAGCGGTGGGGCGCTGACGCCGGCATGGACACGTGGGACTTCGCCCACTGCCTGCCCTACTTCAACAAAATGGAAAACGCCCTGGCAGCGGACCCTGACGACGAACTCCGCGGGCACGACGGCCCGCTGGTCCTGGAACGCGGTCCGGCCACCAACCCGCTCTTCCAGGCGTTCTTCAAGGCCGCCCAGGAAGCCGGCTACCCCCTGACCGACGACGTCAATGGTTACCGCCAGGAGGGCTTTGCTGCCTTTGACCGCAACGTCCACAAGGGCCAGCGCCTCTCAGCCTCCAGGGCGCACATCCGCCCCAACGCAGGCCGCCAGAACCTCACCGTGCTGACCAGGGCGATGGTCACCAAGGTCAACTTCAAGGGCACCGTTGCCACCGGCGTCACCTACCGCCGCAACGGCCAGACCCACGTGGTCAACGCCGGCGAGGTCATCCTGTCCGGCGGCGCCATCAACACCCCACAGTTGCTGCAGCTGTCCGGTGTGGGCGAAGCCGGGCACCTGAACTCCCTGGGCATCAATCCCGTGGTCAACCTCCCCGGCGTCGGCGAGAACCTCCAGGACCACCTGGAGGTCTACATCCAGCACGCCTGCACCCAGCCGGTGTCCATGCAGCCAAACCTGGACCTGTGGCGCTACCCCCTGATCGGCCTGCAGTGGCTGCTGGGACGCAAGGGCCCAGCGGCCACCAACCACTTCGAAGGCGGCGGGTTCGTGCGCTCCAACGACGACGTGGCCTACCCCAACCTGATGTTCCACTTCCTGCCCGTGGCGGTGCGCTACGACGGCCAGAAGGCGGACGCCAAGCACGGCTACCAGGTGCACATCGGCCCCATGTACTCCGATGCCCGCGGCACCCTGAAGATCAAGTCCACCGACCCCACCGTCCACCCGTCCATGATCTTCAACTACCTCTCCACGGAGCAGGACCGCCGCGAATGGGTGGAAGCCGTCCACGTGGCCCGCGACATCCTGGGCCAATCCGCCATGATGCCCTTCAGCGGCGGGGAGCTCTCACCCGGACAAAGCGTCAGGACCGACGCGGAAATCCTGGACTGGGTGGCCAAGGACGCCGAAACCGCCCTGCACCCCTCCTGCACCGCCAAGATGGGCCCGGAGTCCGATCCGATGGCCGTGGTGAACCCGCTCGACATGTCCGTCCATGGCACCCAGGGCCTCCGCGTTGTGGATGCCTCGGCCATGCCGTACGTAACCAACGGCAACATCTACGCGCCCGTCATGATGCTCGCCGAGAAGGCCGCCGACCTGATCGCCGGGAAGGCACCGCTGGCCCCCCAGCACGCCGAGTTCTACCGCCACGGGATCTCTCCCCTTGAAAAGGACGGCACAGAGCGTAATGGCGCCGGTACTGCAACTGCACCTGCCCGTAAGGCAAGGGCCTAG	MTKTHYDYVIVGGGSAGSVLANRLSEGGQSSVLVLEAGRSDYPWDLFIQMPAALTFPSGNPLYDWRYQSDPEPYMGGRRVAHARGKVLGGSSSINGMIFQRGNPLDYERWGADAGMDTWDFAHCLPYFNKMENALAADPDDELRGHDGPLVLERGPATNPLFQAFFKAAQEAGYPLTDDVNGYRQEGFAAFDRNVHKGQRLSASRAHIRPNAGRQNLTVLTRAMVTKVNFKGTVATGVTYRRNGQTHVVNAGEVILSGGAINTPQLLQLSGVGEAGHLNSLGINPVVNLPGVGENLQDHLEVYIQHACTQPVSMQPNLDLWRYPLIGLQWLLGRKGPAATNHFEGGGFVRSNDDVAYPNLMFHFLPVAVRYDGQKADAKHGYQVHIGPMYSDARGTLKIKSTDPTVHPSMIFNYLSTEQDRREWVEAVHVARDILGQSAMMPFSGGELSPGQSVRTDAEILDWVAKDAETALHPSCTAKMGPESDPMAVVNPLDMSVHGTQGLRVVDASAMPYVTNGNIYAPVMMLAEKAADLIAGKAPLAPQHAEFYRHGISPLEKDGTERNGAGTATAPARKARA	PGPT0013615_1262	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
D1-29_00128	1554	gbsA_1	COG1012	Betaine aldehyde dehydrogenase	ATGACCGCCACCGTTGAGCAAATCCACCACGTCGGGAAAGGCCAGGAGGCCATTAAGGGCCTGTACTTTGACGGCGCCTGGCAACAGACATCCGACGGCGGGACAACAGTTGTGCGCTGCCCGGCGGACGGGCGCGAGGTGGCAGTTGTCGCCTCGTCAACCGTCGAGGACGCGGAGCGGGCGATCGCCAGTGCCCGGGCAGCGTTCGACGGCGGCGCGTGGCGCCGGCTGACGGACATCGAACGCGGCGAGGTCCTGCTTCGCATCGCCGGGCTGCTTGAGCGGGACAAGGCGGCTTATGCCCGGGCCGAGGCGCTGGACACCGGCAAGCGCCTCGTTGAGGCGGAATACGACATTGACGACATTGCCGCGTGCTTCCGTTACTACGGCAAGATAGCGGGCCTGGATGCGGGCAGGGTCATCGACACGGGCCGGGCGAACGCCATCAGCCGCGTGGTTTACGAACCGCTTGGCGTCTGTTCCCTCATCGCACCATGGAACTACCCGCTACTCCAGGCGGCCTGGAAAGTGGCACCGGCACTCGTCGCGGGAAATTCCTTCGTGCTCAAGCCCAGTGAGCTCACGCCGTCCACCTCCATCCTGCTCATGGAAACGCTGGCAGAGGCCGGGGTTCCCGCCGGCGTCGCAAACCTGGTCACGGGACGCGGATCGAGGGTGGGTCCTCTCTTGAGTTCGGACCCGCGTGTGGATCTCGTCTCCCTGACCGGAAGCCTGGCCACGGGCCAGACCATCATGGCGGCCGCCGCGGAGACCGTGAAGCGCGTCGCCTTCGAGCTCGGCGGAAAGAACCCCAACGTCGTCTTCGCTGACGCCGACTGGGACTCCGCCATCGACAATGCCCTGACAGCTGTGTTCCTGCACTCCGGCCAGGTCTGCTCGGCAGGGGCGCGACTGGTGGTCGAGGAGACCATCGCGGAGCGCTTCGTTGCCGAAGTGGTGGAACGGGCGAAAAACATCCGGATGGGCGGGCCGTTTGATCCCGATGCAGAAACGGGTCCGCTCATTTCCGCCAAGCACCGCGAGCAGGTCCACGCCTATGTCCAGGCCGGCATCGCGGAGGGCGCTGAGCTTCTGTGCGGCGGCTACATCCCCGACGACGGGACGCTCGCGGACGGATTCTTCTACCCGCCCACCGTGCTGGGCAACTGCCGCTCGGGTATGAGCGTGCTGCGGGAGGAGTCATTCGGCCCGGTGCTGACCGTTGAGACATTCCGGACCGAAGCCGAAGCCGTTGCCATCGCCAACGACACGGAGTACGGCCTGGCGGGGGCGGTGTGGACTTCGGACGCGTCAAAAGCGCAGCGTGTTGCGGGCGCCCTCCGGCACGGAACAGTATGGATCAATGACTACCACCCGTACGTCCCGCAGGCGGAGTGGGGCGGTTTCGGCAAGTCCGGCATTGGCCGTGAACTTGGCAGCGCGGGCCTCAATGAATACCGCGAGGCAAAACATATCTGGCAGAACATCCAGCCCGCACCCAGCGGCTGGTTCGGCTCATCTTCGGACGGAACGGGGGCGGGTCCGGCCGAATAA	MTATVEQIHHVGKGQEAIKGLYFDGAWQQTSDGGTTVVRCPADGREVAVVASSTVEDAERAIASARAAFDGGAWRRLTDIERGEVLLRIAGLLERDKAAYARAEALDTGKRLVEAEYDIDDIAACFRYYGKIAGLDAGRVIDTGRANAISRVVYEPLGVCSLIAPWNYPLLQAAWKVAPALVAGNSFVLKPSELTPSTSILLMETLAEAGVPAGVANLVTGRGSRVGPLLSSDPRVDLVSLTGSLATGQTIMAAAAETVKRVAFELGGKNPNVVFADADWDSAIDNALTAVFLHSGQVCSAGARLVVEETIAERFVAEVVERAKNIRMGGPFDPDAETGPLISAKHREQVHAYVQAGIAEGAELLCGGYIPDDGTLADGFFYPPTVLGNCRSGMSVLREESFGPVLTVETFRTEAEAVAIANDTEYGLAGAVWTSDASKAQRVAGALRHGTVWINDYHPYVPQAEWGGFGKSGIGRELGSAGLNEYREAKHIWQNIQPAPSGWFGSSSDGTGAGPAE	PGPT0007165_86	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130	NA	NA
D1-29_00129	1728			hypothetical protein	ATGTTAGAACCCACAAAGCGTGCAGACGCAAGCGGCATGGACGAATTCGGCTATGCCCAGACACTGGACCGCAGCATCGGCAAGTTCGCCAGCTTCGCGGCAGGAGTCAGCTACATCTCCATCCTCACCGGCGTATTCCAACTCTTCTACTTTGGCTTTTCCATGGCCGGCCCCGCCTATGCGTGGTCCTGGCCCCTCGTTTTCGCCGGCCAGCTGATGGTGGCGCTATGTTTCGCTGAGCTGGCCGGCCGCTACCCGGTAGCCGGCTCGGTGTACAACTGGGCCAAGCGGCTCTCGTCGGGGACATTCGCCTGGCTGGCCGGCTGGCTGCTGCTCATTTCCTCGATCGTGGCGCTGGGAGCCGTGGCCCTTGCACTGCAGCTCACCCTGCCCCAGATCTGGTCCGGTTTCCAGATCATCGGCGACGGCACCGGCACCTACGATTTCGCCCTCAACGGCGTGCTGCTCGCCAGCATCATGATCTCCATCTCCACCCTCATCAACGCCTTCGGCGTGAAGCTGATGACCCGAATCAACAGCATCGGCGTCTTCGTGGAGCTCGCTGCCGCCGCGCTCCTCATCCTGGCCCTTGCCTGGCATGTGGTGCGGGGACCGGAAGTCCTTTTCAGCACCGAAGGCTACGGCATGGACCACGACCTTGGCTTCTTCGGGGTGTTCCTCATCGGCGCCATGGCCTCCGGCTACGTGATGTATGGCTTCGACACCGCCAGTTCCCTCGGCGAGGAGACGAAGGACCCGAAGAAGACTGCCCCCAAGGCCATCCTCCGTGCAATCACGGCGTCCTTCATCCTCGGCGGCCTGATTCTCCTTGGCGGACTCCTGGCCGCCCCCGACCTCAACGACCCCAAGCTGGGCGCTGCCGACGGCGGCCTGCAGTACATCGTGCTCTCCGTGTTGGGAGGCCCCTTCGGGAAGGCGTTCCTGGTGTGCATCGTCGTGGCCGTTATCGTCTGTACCCTGGCCGTTCACGCCGCCGCCATCCGCATGATGTTCGCCATGGCCAGGGACAACAACCTGCCCTTCAGCCGCCAGCTCAGCAAGGTGCATCCCGAGCGGAAGACGCCCACGGTGGCGGCCATCGTCATCGGAATCATCGCCATCATTCCGCTGATCGTCAACGTCTCCCAGCCAGCGATCTTCACCATCCTTTCCAGCATCAGCATTGTCCTGATCTACCTGTCCTACCTGCTGGTTACCGTTCCACTGCTCCGCAAGCGGTTCCAGAAGAAGTGGCCTCTGGCGGACGACAGCACGGAGCCGGGCTTCAGCCTGGGCAAGTGGGGGCTGCCCGTGAACATCGTGGCGGTGCTGTGGGGCGGCGCCATGACGCTGAACCTGATCTGGCCACGCCCGGAAATCTACAACTCGGTGCCCCCGTTCGAGTGGTACCTGCAGTGGGGCGGCGTCCTGTTCGTCGGCGCCGTCACCGGAGGCGGCGCGCTCCTTTACCGGTTGAAGATCAGGCACCAGACGGGTGTGCTCGCCGCCCACGCGGCACCCGCCCCGGCAGACCCCTCCCAGGGCTCCGCCGCCACAGGATCCACGGTTGCCCCCGAACTGGCACTGGCCCCTGTCCATGCCATGTCGGCACAGTCCTCTTCGGAAACGGACGTCTCTTCGGACACGAACGCCTCTTACAAGGATGGAGAGCTTCCTGACGCGCTGGCAGTCCAGGGTGCAACGTCAGGGAAAGGTCCGGGGTCGTAG	MLEPTKRADASGMDEFGYAQTLDRSIGKFASFAAGVSYISILTGVFQLFYFGFSMAGPAYAWSWPLVFAGQLMVALCFAELAGRYPVAGSVYNWAKRLSSGTFAWLAGWLLLISSIVALGAVALALQLTLPQIWSGFQIIGDGTGTYDFALNGVLLASIMISISTLINAFGVKLMTRINSIGVFVELAAAALLILALAWHVVRGPEVLFSTEGYGMDHDLGFFGVFLIGAMASGYVMYGFDTASSLGEETKDPKKTAPKAILRAITASFILGGLILLGGLLAAPDLNDPKLGAADGGLQYIVLSVLGGPFGKAFLVCIVVAVIVCTLAVHAAAIRMMFAMARDNNLPFSRQLSKVHPERKTPTVAAIVIGIIAIIPLIVNVSQPAIFTILSSISIVLIYLSYLLVTVPLLRKRFQKKWPLADDSTEPGFSLGKWGLPVNIVAVLWGGAMTLNLIWPRPEIYNSVPPFEWYLQWGGVLFVGAVTGGGALLYRLKIRHQTGVLAAHAAPAPADPSQGSAATGSTVAPELALAPVHAMSAQSSSETDVSSDTNASYKDGELPDALAVQGATSGKGPGS				NA	NA	NA	NA	NA
D1-29_00130	903			hypothetical protein	ATGACGCAGCAGCTCAGCAACATCCGCATCCGAGACCCGTTCATCCTGCACCTGCCGAGCCGGTCCACCTATTACCTGTTTGGAACCACGGACGATCAGCCCTGGACCGGCCCCGGAACCGGCTTTGACTGCTACACCAGCTCTGACATGGAAGATTGGGACGGGCCCATCTCCGCGTTCCTCCCGCCCCTGGACTTCTGGGGCACCACACAGTTCTGGGCCCCGGAGGTCTACGAATACAACAGCAGCTTCTTCATGTTCGCCACCTTCGCTGATGACCACGGCCACCGCGGCACCCAGGTACTAAAGGCCGACGAACCAACCGGGCCGTACCTGCCTTGGAGCGACGGGCCTGTCACTCCCGCAGACTGGGCATGCCTGGACGGAACCCTTTACATCGACACAGCGGACCGGCCATGGATGGTTTTCTGCCACGAATGGCTCCAGATCAACGACGGCGCCATCTACGCCCAGCGCCTCTCTCCGGACCTGAAGACAGCAATCGGCCTGCCGTTCTTCCTTTTCAACGCCTCCGAAGCTGCCTGGAGCACTCCCCTCCCTGAGGGATCCCCGGAAACCCCCAACTACGTCACTGACGGGCCCTTTCTTCAGCGAACCAGCAGCGGGGAATTAGTGATGCTGTGGTCCAGCCACGGAAAAGATGGCTACGCCATGGGCCTGGCCCGGTCAAAGAATGGCACCATCGAAGGTCCCTGGGACCACGACCCCGAACCCTTGTGGGCCGAAGACGGTGGGCACGGGATGTTCTTCCATCCCTCCCCCAACCAATCCATCCTCGTCTTCCACCACCCCAACGACCTCCCCAACGAACGAACCAAAATGATCGAAATCGCCGGCTTCGAAACCGGCAGCACGGCTGAACGAAGTGCGGCCCATTTATAG	MTQQLSNIRIRDPFILHLPSRSTYYLFGTTDDQPWTGPGTGFDCYTSSDMEDWDGPISAFLPPLDFWGTTQFWAPEVYEYNSSFFMFATFADDHGHRGTQVLKADEPTGPYLPWSDGPVTPADWACLDGTLYIDTADRPWMVFCHEWLQINDGAIYAQRLSPDLKTAIGLPFFLFNASEAAWSTPLPEGSPETPNYVTDGPFLQRTSSGELVMLWSSHGKDGYAMGLARSKNGTIEGPWDHDPEPLWAEDGGHGMFFHPSPNQSILVFHHPNDLPNERTKMIEIAGFETGSTAERSAAHL	PGPT0019090_990	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINANASE,PGPT0019090-abnA-K06113	NA	NA
D1-29_00131	2475			hypothetical protein	ATGCCGTTGACCAAACGCCGCTTTCGGCGAAGGCCCTCCCGTGTCCACTTGCTGGCCACACTGACCGCTACGGCGATCTGCGCGGCAGCAGGCCTGGCAGGAGCCGCTCCCGCCAGTGCCTTGAACACCAGCTACTACCTTGACTGCTCGGCATCAACAAACGGTTCAGGAACGCAGGCGTCCCCATGGAACGCCCTGAGCTCCGTGAACGCCGTGACCTTCGGGGCGGGCGACAGGATCAACGTCCGGGCCGGTACCTCCTGCACCGGCCAACTCACCGCGAAAGGGTCCGGCGCCAGCGGCAACCCCATCCTCCTGGGCAGCTACGGCACGGGGGCAAAACCCATCCTCGACGCCGCCGGAGCAACCGGTGCCGTGATTCTGCTGCAGAACGTCCAGCAGTGGGAAATCAGCGGCCTTGAACTGCGCAACCAGGCCAGCAGCCCCGACTACCGTTCCGGGATCCTCGCCATCAATTCTTCAGGTACCACGCTCAACCACCTCAAGATCAGCGGCATGACCATCCGCAACATCAGCGGCTGGTCCGGCGGCTGGTACTCCACCAACGCCGGCGTCGGCATCCAAACGAACCACACCAGCACCGTTTCGACCTGGAACGACATCCAGGTCAGCGACAACACCTTCGAGAACGTTGACCGTATCGCCGTCGCCGTCACCCCGGATCATGACGGGGTAGGCACGGGCCTGAGTACTGGGGTGAAAATCCAGCGCAACACCATCCGCTACTCCGGCGGCGACGACATCCTGGTCGTCAAAGGCCAGGGAGCCCTGATCGAAGGCAACGACACAGCCTTTGGTGGCGCGAAGTCCATCAACGCCTGCCCGCCCAGCGGCCAGTACTGCAACGGCGCCTCGGCCGGGATCTGGATGGCCGGGTCCAACGACACCCTTGTCCAGGGCAACAGCGTGGTGTGCAACGTCAACGAAGCCGACGGTCAGGCTTTCGACGTGGACTGGGGCAACCACAACACCACCGTCCAGTACAACTACGGCCGCAACAACCGCGGCGGCTTCATCCTCATCATGCCGCCGATCAGCGTCTCCAACGAGCCCACCTCCCGGGTCCCCTCCGACGGCACCGTGGTCCGCTACAACGTCAGTGAAGACGACGCCAACACCACCGGCTGTCCCCTGCAGCCTGCATGGAACGGGCCACGGGACGTCATCCACTTCGCTGGCTCGATCGCGAACAGATCCGGAAGCAGCACCGCCCAGCCGGACATCTACAACAACACCATCTTCATTCCCTCCAACAGGGGTACCTACGTGGTGGGCAGCCGCAGCGGCGTGAACGCCTCCGGGTCTTTCCTTTTCCGGAACAACCTGGTGGAAAACTTCGGCACCGGCGGTTACGTCCAAACAAGCGGCTCCACCTACGCCAACAACTTCATGTACGGGAACCGGCATTCCACCGAACCGGCGAACTCCGGAACGATCATCCTGGACCCGCAGCTTTCCGGGCCGCTGCCCACCGCAGCCCAGGCCTCCTCGGGGTCCGCCTCGTTCAAGATCCGGCCCTCCTCCCCGGCCATCAACGCCGGAGTGACAATCGCGAACAATGGCGGCAGGGACTTTACCGGAACACCCCTCCCCTCCAAGCCCACCGTCGGCGCCTTCGAAAGCACCGGGACGCTGGTCTCGAACCCCGGCTTTGAAACCGGAACCCTGTCCTCCTGGACAACCTCTGGCAATGGCACCACGTCCCAGGCCACCGGGACATCACCAGCGGCAGGAACCACCTCGGTGCAGACGGGCCCAACCAACAGCGGCATCCAGCAGGCCATCAACGGGCTGAGCCCGAACACCACCTACATGCTCACTGCCTCCCTGAAGGTTGCAACGGCCGGAGACCAGATCGCACTCGGGGTCAAGGACTTTGGTGGAGCCGAAACCTACGTCCGCACCACTTCAACCGCGTGGGCGCAGCAGACGGCGTACTTCACCACAGGTACTTCCAACACCAGCGCAACAATCTACTGCTACAAGAACACCGGCAGCGGAGCAGGACACTGCGACAACTTCGCAGTCCAGGCAATCTCCTCCCCCGCGAACCTGGCCAACAACCCAGGATTCGAAAGCGGGTCCCTGGCCCCCTGGACACTCAGCGGAGGCGGCGCAGCCGCGGCAACCTCAGCGGCCAACACCGGAACCTACGGCCTGCTGACCGGAGCCGCCAACAGCGGTGCCAACCAGAGCATCACCGGCCTGGTCCCGGGCGCCAGCTACGTGCTGTCCGGTTTCCTGCGCGCAGCACCGGGGGAAGAGATTGCCCTCGGCGTCAAGGACATGGGCTCAGCCGAAACGTACCAGCGTGTAGGCGGGTCAGCGTTCGCCCCCGCCAGCGTGCGCTTCACCGCCGGAACGAACGTCACGAGCGCCAGCATCTACTGCTACAAGAACAACGGATCCAGTGCCGGCGCCTGCGATGACCTGCGGCTGACGCGCATCGGCTAA	MPLTKRRFRRRPSRVHLLATLTATAICAAAGLAGAAPASALNTSYYLDCSASTNGSGTQASPWNALSSVNAVTFGAGDRINVRAGTSCTGQLTAKGSGASGNPILLGSYGTGAKPILDAAGATGAVILLQNVQQWEISGLELRNQASSPDYRSGILAINSSGTTLNHLKISGMTIRNISGWSGGWYSTNAGVGIQTNHTSTVSTWNDIQVSDNTFENVDRIAVAVTPDHDGVGTGLSTGVKIQRNTIRYSGGDDILVVKGQGALIEGNDTAFGGAKSINACPPSGQYCNGASAGIWMAGSNDTLVQGNSVVCNVNEADGQAFDVDWGNHNTTVQYNYGRNNRGGFILIMPPISVSNEPTSRVPSDGTVVRYNVSEDDANTTGCPLQPAWNGPRDVIHFAGSIANRSGSSTAQPDIYNNTIFIPSNRGTYVVGSRSGVNASGSFLFRNNLVENFGTGGYVQTSGSTYANNFMYGNRHSTEPANSGTIILDPQLSGPLPTAAQASSGSASFKIRPSSPAINAGVTIANNGGRDFTGTPLPSKPTVGAFESTGTLVSNPGFETGTLSSWTTSGNGTTSQATGTSPAAGTTSVQTGPTNSGIQQAINGLSPNTTYMLTASLKVATAGDQIALGVKDFGGAETYVRTTSTAWAQQTAYFTTGTSNTSATIYCYKNTGSGAGHCDNFAVQAISSPANLANNPGFESGSLAPWTLSGGGAAAATSAANTGTYGLLTGAANSGANQSITGLVPGASYVLSGFLRAAPGEEIALGVKDMGSAETYQRVGGSAFAPASVRFTAGTNVTSASIYCYKNNGSSAGACDDLRLTRIG				NA	NA	NA	NA	NA
D1-29_00132	909	melC_1	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGACCGCCCCCATCACAGAAGTACAGGCCACCCTCAGGGCTGAGCCCCTGCCGCAGCGCCCGGGCCCGCTCCCCAAACGTTCCCGCGCCGGCGGTGCCGGAGCCTACTGGGCAGGGAACATCGCCTTGGTCATAGTTGTGGCAGCCATCATCGTTCCGTTCTTCTTCACCCTGCTAACGTCCCTCAGGACCAGCCAGGACGTAGCCAACGACCCGCTGGGGTTCCCGTCCTCGCTGACGCTGGAGAACTTTGCAGCGGTCTTCCAGAAGATGAACTACGGACCGGGGCTGCTGAACTCCATCGTCATCCTGGTCTTCTCCCTGCTGGCCACCATCCTCCTCGGGGCGTTGGCCGCCTATCCCCTGGCCCGTGTCTCGAGGAACTGGACCTCATGGGTGTACCGGCTTTTCATTGCCGGATCAACCATCCCCGTCTTCGTGCTGATCGCACCCCTGTATCTGCTTCAGCGCGACCTTGGCCTGTTGAACAGCCACGTCGGCGTGATCCTGGCCTACGCCGCCCTGAACCTTCCTGTGGCGATCTTCTTTTACACCAGCTTCTTCCGCCAGATCCCCATCGAGCTTGAGGAAGCAGCAGCCCTCGACGGCGCAAGCCCCGTCCGGATCTTCTTCACAGTTCTTTTCCCCCTGCTGCGCCCGATCACCGCGACTCTGGCGACGTTCCTGACCCTCGCCATCTGGAATGACCTCATCATCCCGCTGGTCTTCCTGCAGAACCCAGCCTTCAAGACCGTGATGGTCAACGCCTACTCGCTGATCGGCACCTACTCCATTGACCCGACAGTGCTGTTCCCCGCAGCCCTGCTGGGCGTCGCCCCGCTGCTGGTCGTCTTCATGTTCCTGCAGCGCCAGGTCGTGGACGGCCTGACCATGGGCGCCGTCAAGTAG	MTAPITEVQATLRAEPLPQRPGPLPKRSRAGGAGAYWAGNIALVIVVAAIIVPFFFTLLTSLRTSQDVANDPLGFPSSLTLENFAAVFQKMNYGPGLLNSIVILVFSLLATILLGALAAYPLARVSRNWTSWVYRLFIAGSTIPVFVLIAPLYLLQRDLGLLNSHVGVILAYAALNLPVAIFFYTSFFRQIPIELEEAAALDGASPVRIFFTVLFPLLRPITATLATFLTLAIWNDLIIPLVFLQNPAFKTVMVNAYSLIGTYSIDPTVLFPAALLGVAPLLVVFMFLQRQVVDGLTMGAVK	PGPT0016340_84	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
D1-29_00133	858	lacF_3		Lactose transport system permease protein LacF	ATGACGGCCTTCCTCTTCCTCGCACCAGGGTTGGCACTTTACGTGCTGATCGTGATCTACCCGCTGCTTCAGGGGTTCTCCCTCAGCACCACCAACAGCAAGGTTGGAAACCCGGGGAAATTCATTGGAGCCGAGAACTACGTCGACGCCTTCGCTGACCCGGTGGTGACCGGGGCCCTCCTCCGCACCGTGCTCTACGCAGTGGTTGTGGTAGTCGTTCAGAACGGCGTGGGTCTGTGGCTGGCCCGGGCACTGTACTACCGGTTCCGGGTACGCCGGCTGACCAGCATCCTTGTTCTGCTGCCCACGCTGATGTCCGCAGTTATGGCTGCGTTCGTGTGGACGTACCTTTACGCCCCAAACGGCGGGATCAACACCATGCTGCGCAGTGTGGGTCTTGATTCCCTGACCCGGGTATGGCTCGGGGATCCCTCCACGGCGATTTGGGCCATCGCGGTGGTGAACATCTGGATGTTCGCTGGTTACTCCTGTGCGATCTTCCTTGCCGGTTATAGCGGCTTGCCCGGGGAGCTCCTGGACGCAGCCCGGGTGGACGGCGCCTCGGGATGGCGGCGGTTCGCCAACGTGGAATGGCCCCTTTTGGCCCCCGCTCTCACTGTCAACGTCACGCTGTCCCTGATCGGTTCACTGAAGGTCTTCGAGCTGCCCCTGGTGATGACCAGCGGCGGCCCGGCCGGATCATCAACCACTCTCAGCCTGCTGATTTACGAGCAGACCTTCGGCGGCCAGGGCACCTTCGCCTACGGCACCGCCATCGCCATCATCCTTCTGGTCGTCGTGGTCGTGCTCGCCGCCGGAACCCAAACGCTCCTGCGGCGCCGAGAGGACCTCATCTAA	MTAFLFLAPGLALYVLIVIYPLLQGFSLSTTNSKVGNPGKFIGAENYVDAFADPVVTGALLRTVLYAVVVVVVQNGVGLWLARALYYRFRVRRLTSILVLLPTLMSAVMAAFVWTYLYAPNGGINTMLRSVGLDSLTRVWLGDPSTAIWAIAVVNIWMFAGYSCAIFLAGYSGLPGELLDAARVDGASGWRRFANVEWPLLAPALTVNVTLSLIGSLKVFELPLVMTSGGPAGSSTTLSLLIYEQTFGGQGTFAYGTAIAIILLVVVVVLAAGTQTLLRRREDLI	PGPT0016335_2143	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
D1-29_00134	1308			hypothetical protein	ATGAATTCGAAGTATCTGGCGCCTGCCACAGTCAACGCGAAGGTCCGCCGTGCCGGTCGTATCGCTGTAGCCCTGATCGCGTTGACTTCGGTGGTTGGCGTAGCGGGCTGTTCCTCACAGTCCGGAGCCGCGACCTCCAGTGATGGCAAGACTGTTCTGAAGGTATATGGGTGGAAGGGCGGCGATGCTGAACCGGCCAACATGGAGAAGGTCAACAGCGCCTTTGAGCAGGCGCATCCGGAAATTGACGTGCAGTTCGAATACGTTCCGGGAAACGATTCCTACACCCAGCGCGTTCAACCTGAACTCCTCGCCGGCAACAGCGCCGATGTCATCATGACGGACTCAAGCAAGGTCCAGGACTGGGGTTCTGCCGGGTACTTGGAGGATCTTGGCGGCAGTGACTGGTCCGATTCGGTGATCCCGGCAGTGAGCCCCTTCATCCAGGAAGAAGGCACCACCTACGCGCTGCCGATGGAACTGATAGGCATCGATCTGTACGCGAACCTGGATCTGCTGAAGAAGGCAGGGGTGAACGAGGTCCCCGCAACCTACCCTGATTTCGTAGCAGCACTGCAGAAGCTCAAGGACGCGGGCATCACCCCGCTCTCGCTGCCGAACAAGGGCGGCTGGACCGGCGCGTCGGTCGTCACCGCGATCGCGGCCACCAAGGTCTATCAGGATGATGCTGACTGGGACAAGAAGTTCCTTGATGGGTCATCCTCCTTCAGTGATTGGAAGAGCTCGGCTGATCAGATGATGGAGCTCCAGAGCAAGGGCTTTGTTGATTTCTCAACCGAACTTGGCGTCGATGAGTGGGGCCAGGGCCTGGCCGACTTCACGTCCGGCAAGAGTGCCTTCTGGTTCCAGGGCGCATGGAACCAGTCCGCCGTCACCAAGGCCGGCATCAACAATGTGTTCATCCCATGGCCCGCCGGCGACAAGGGCCAGGAGTCCTCGGCGAACCTGTTTGTGGGAACCATGTGGAGCATCAACGCCAAGTCCAAGGTCAAGGACGCCGCGAAGGAGTACGTGGAGTTCTGGTCGGACAGCACCAATGCTGCACCGTTTGTGGAGGCTGAAAACGCGGTAACCCCGTTCAAGGACGGCAAGACCCCCAGCACCCTCGCCACCAAGGACTTCGTGGCCGCTGTCGACGCGGGGCGCTTCCACATCCTGCCCTCAGACAGCTGGTTCGCAGCTGCCGGGGAGAAGCAGATGCAGCAGGAAACACAGTCACTCTGGCTCGGCCAGGTGGACGTCAACCAGTACGTGTCGAACCTCGACAAGCTCCGGGACATGAAGTAA	MNSKYLAPATVNAKVRRAGRIAVALIALTSVVGVAGCSSQSGAATSSDGKTVLKVYGWKGGDAEPANMEKVNSAFEQAHPEIDVQFEYVPGNDSYTQRVQPELLAGNSADVIMTDSSKVQDWGSAGYLEDLGGSDWSDSVIPAVSPFIQEEGTTYALPMELIGIDLYANLDLLKKAGVNEVPATYPDFVAALQKLKDAGITPLSLPNKGGWTGASVVTAIAATKVYQDDADWDKKFLDGSSSFSDWKSSADQMMELQSKGFVDFSTELGVDEWGQGLADFTSGKSAFWFQGAWNQSAVTKAGINNVFIPWPAGDKGQESSANLFVGTMWSINAKSKVKDAAKEYVEFWSDSTNAAPFVEAENAVTPFKDGKTPSTLATKDFVAAVDAGRFHILPSDSWFAAAGEKQMQQETQSLWLGQVDVNQYVSNLDKLRDMK	PGPT0016330_2309	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
D1-29_00135	1854			hypothetical protein	GTGCTGACAACAGCTACCGGGTGGGATACACAGGATCTCCTGCAGAAGCTGATGGACATGCGTTTCGGTATGTTCAACCACTTCAACCTCGGCACCTACACCAACCAGGAATGGGCTGCGCCCAATCAGAATCCCGGGATCTTCGCACCGCCGTCGGTGGACACCGATCAGTGGGCCGACGTCGCTCTCGCGGCAGGGATGAGCTACGGGGTGCTTACCACCAAGCATCATGACGGATTCGCGCTGTGGCCCACCAAATACGGCAGCCAGAACGTCATGAACTCCGGCTACAAGCGCGACGTCGTCAGGCAGTACGTGGACTCGTTCCGCTCGCGCGGACTGAAGGTGGGCTTCTACTTCTCCATCTGGGACCGGACCTATCCCGTGCAGGCCACCGGCGGGTACCATGTCAACGACCCCGCCGCGGGTGTGGACTTACCCCAGATCACCTTTGTGCTGAACCAGATCCGAGAACTGCTCACCGGCTACGGCGAGATCGAAGTCCTGATGCTCGATGGCTACGCCTGGCAAATGGGCCACCAACAGGTCCCGATGCAGCGGGTCCGCGACCTGGTCAAAACCCTCCAGCCCAACTGCCTCATCATCGACATCTGCGCCGTCCTCACCCCTTGGCTGGCCGACGCGATCTTCTGGGAAGAACCCTTCGGGATCACCGCGCCGGCCGGAAACACGTGGGCCGGGATGCAGGGCCAGACCATCAGCAACGGCTGGTTCTGGCACCCCTCAACCCCCACGGAAGGACTGATGTCCAAGGACGCCATCATCACTCACCTCACCGAACTCGAATCGAGGTGGACCTCGTTTATTCTCAACTGCCCACCCAACCGGAACGGCAAGCTGGACCCCAATGTGGTGGCCCGCCTCGCTGAAGTCGGCGCGGCCTGGGCCCCCAACGCGGCACGCGGCGCACTCCCGGCGCAGCCTCTCCGTGCCGAACACCTGATCACTCCCGTGGCGGCCTACGCCTCCGCGTTCCGCGATCCCGAACCCCCGTACTTCGCGATCGACGGACGCGCCGACAACAAACTGCAAACCTGCTGGTCCACCTGGCCAGGCACCGGCGAACTCACCGCTCCAGTGTCCATAACGCTTGATCTGGGCGGAATCTACACCGGTGTCAGCACCCTGGAGTACCTTCCCAAGCAGTGGAACCGCGCGAACGGCACCGACGGCGACGTGACCTCCTTCGAGATCTCCACAAGCACCAACGGCGTGACATTCACAACCGTCGCGTCCGGCACCTGGGCCACCGGCCCCACCCCGAAGCTCGCCCAGTGGGCCCCGGTCACAGCGGGGTTCATCCGGCTCACCGCCAAGGCTGGCTCCGGCGGTTACACCAACGTCGCCGGCCTGCGGGTGGGCGGCCGCACCGCAAAGCCTGTCCGGCAGTCGTTCGCCATCGCTCCCAACCGCGCCTACAAACTCATCAATCCCGCCACCGGGAAGGCACTAACCGTACTCAACGGCTCCACTGCCAACAGGGCCGCCGTAGTCCTTGCCCCCGACACCAACGCCGCGAACCAGCGCTGGACGCTGACCGCCGACGTCGACGGCTACTACAAGCTAAGGGACGCCAATAGCGGAAAGGTCCTCGAGATCGGTTTCCGCTCACGGACCATCGGCGAGAAGGCAGCGATCTATTCCAGCGCCGACGTCCTGCAACAACAATGGGCAATAACACCATTAAGCATCGGAAAAGTCGCCCTCACCAACCGTTTCTCCACCTACGCCCTCGGCCTGACCGCAGCAGCCACCACTGACGGAACCACCGCGGAGCAACAGCTCTACCGTGGCGCCGGCCACCAGCAATGGACGCTTATCGACGTCACGTAA	MLTTATGWDTQDLLQKLMDMRFGMFNHFNLGTYTNQEWAAPNQNPGIFAPPSVDTDQWADVALAAGMSYGVLTTKHHDGFALWPTKYGSQNVMNSGYKRDVVRQYVDSFRSRGLKVGFYFSIWDRTYPVQATGGYHVNDPAAGVDLPQITFVLNQIRELLTGYGEIEVLMLDGYAWQMGHQQVPMQRVRDLVKTLQPNCLIIDICAVLTPWLADAIFWEEPFGITAPAGNTWAGMQGQTISNGWFWHPSTPTEGLMSKDAIITHLTELESRWTSFILNCPPNRNGKLDPNVVARLAEVGAAWAPNAARGALPAQPLRAEHLITPVAAYASAFRDPEPPYFAIDGRADNKLQTCWSTWPGTGELTAPVSITLDLGGIYTGVSTLEYLPKQWNRANGTDGDVTSFEISTSTNGVTFTTVASGTWATGPTPKLAQWAPVTAGFIRLTAKAGSGGYTNVAGLRVGGRTAKPVRQSFAIAPNRAYKLINPATGKALTVLNGSTANRAAVVLAPDTNAANQRWTLTADVDGYYKLRDANSGKVLEIGFRSRTIGEKAAIYSSADVLQQQWAITPLSIGKVALTNRFSTYALGLTAAATTDGTTAEQQLYRGAGHQQWTLIDVT	PGPT0018775_274	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018775-fucA-K01206	NA	NA
D1-29_00136	1011	ccpA_1	COG1609	Catabolite control protein A	ATGGTTCGAGGGCGTGTCACCCTTCATGATGTCGCCGCCGAGGCGGGTGTTTCCAAGAGTTCCGTATCAAATGTGATCCGGAACCAGCCTCATGTTCGGGAGTCGGTCCGGAAGCGGGTCTACGATGCCATCGACAAGCTCGGGTACCGGCCGTTGGCTATCGGACAGAACCTGGTCACGGGCAGTACCGGTGTGGTGGCCCTGGCGATACCAAACTTCGCCCAGCCCTATTTCGCCGAGGTCGCCCGGGCTGCCGTAGCCGCTGCCTCGCGGCACGGACTCCGGCTCATTGTTCAGCAGACAGATAATGACCTGCTGCGTGAGCGGGAGGTTGCCGACGCGTGGAACCTTGGGGCCGCTGACGGCTTGATTTTCAGCCCCTCCACCATCACGGATGAGGAGATCGAGGAGCGGCGCGGCGGGATGCCCCTGGTCCTGCTCGGCGAGCGTTCCAAGCTCAAGAGCGTGGACCGGGTGGGAATCGACTCAGTGGCCATCGCCAAGCTGGCCACCCAGCACCTGATTGAGCAGGGCCGCCGGCATGTGGCCATGATCGGACACAAAGACACCGGGGACCCCTTCGTCGTTTCCGAGCGAGAAGAAGGGTTCCATAAGGCATTGGCAGAAGCCGGACTCGCTGAAGCAACACCGATCGGCTACGTGCAGGACTGGACGCGCCAAGATGGCGAGGCGGCTATGGAGGCCCTCCTGGAGCGGGGGGACAAAATCGACGCCGTCTTCTGCGCCAATGACCTGCTGGCCCTGGGGGCCATGAAAACATTGGCGAAGCGCGGCATCGCAGTACCCGCCGAGGTGGCCATTATTGCGGTGGACGACATCGAGGAGGCGTCATTTGCCAACCCTGGACTCTCCAGCGTGTTCATCGACCGGACCTGGATGATGGACAAGGCCTTCGCCTTCCTCACCGCCAGACTCAACGACCCCCTCTCCCCGCCCCAGCAGGTGGACGTTCCGTTCCGGCTGGAAGTAAGGTCATCCACCGGCGCCTGA	MVRGRVTLHDVAAEAGVSKSSVSNVIRNQPHVRESVRKRVYDAIDKLGYRPLAIGQNLVTGSTGVVALAIPNFAQPYFAEVARAAVAAASRHGLRLIVQQTDNDLLREREVADAWNLGAADGLIFSPSTITDEEIEERRGGMPLVLLGERSKLKSVDRVGIDSVAIAKLATQHLIEQGRRHVAMIGHKDTGDPFVVSEREEGFHKALAEAGLAEATPIGYVQDWTRQDGEAAMEALLERGDKIDAVFCANDLLALGAMKTLAKRGIAVPAEVAIIAVDDIEEASFANPGLSSVFIDRTWMMDKAFAFLTARLNDPLSPPQQVDVPFRLEVRSSTGA				NA	NA	NA	NA	NA
D1-29_00137	900			hypothetical protein	ATGCATTTCGTCACCGCTTCGGCTGTCCTGCTGACGCTGCTGGCTTCACTTCAGGGCTGCAGCAGCGATGGCGCGCAGCCAGGGCCCGAAGTAAGCGCCACTCCTGCCCTCACGGCCTCCCTCAACCAGTTCAGGGACAACTACAGCAAGCGGATCATTGAAATCCAGCTCACCAACAACACCGCCGATCCTGTCACAGTGACGGACGCGGAGCTGGACAGCGCCCTGTTCAGCTCTGGCATCAGGTGGCACGCTCCCGCCGAAGGCACCGTGCTGCCGCCCAAGCAGCCCAAGAGCCTGCCCGCCCAGCTGCCGGAGCCCAGCTGCACGGAAACAAGCGGGGGTACCGGGACAGGCAGCAACAGCCCGGACACCCGGCCCACCGTACGTGTCAGCACCCGCCCCGACAGCCACGGGGCCGGGCCGCTTACGGTTGAGGACCCGTTTGGGGTCCTTGCCCGGAACAACAGCGAGATGTGCCTGGACAAGGCAGTTCGTGAGATTGCCGCCTTCCAGCCGTCCCCCGAGCTGGTGGTCGCAGACGACGGGACAACCGCCGTCGTGCGTGTCCTTATCGTCCCCAAGCCGGCTCTTGAAGGGCAGGAGGTGCTGAGCATTGACCGGATCGACGGCACAACGCTGATTGCGGAGGACGCGGCCCGGCCTTGGCCGCGCGGTGTTCAGGTATCCGCTGGCGGTCCACCGGTGGAGCTGTCTCTGGCCATCCGCCCGGCGCGCTGTGATCCGCACGCTGTGGCAGAGGACAAGATAGGAACGCTGCTGCCCTTCCGCGTCACGGCAGGCGGGCGGAACGGAGTCCTCAAGGTCGACACCGGTGACGTGCTCAGGCACCGCATTTATGACTTCGTCACTGCTGCCTGCGCTACCTCGCGATCATGA	MHFVTASAVLLTLLASLQGCSSDGAQPGPEVSATPALTASLNQFRDNYSKRIIEIQLTNNTADPVTVTDAELDSALFSSGIRWHAPAEGTVLPPKQPKSLPAQLPEPSCTETSGGTGTGSNSPDTRPTVRVSTRPDSHGAGPLTVEDPFGVLARNNSEMCLDKAVREIAAFQPSPELVVADDGTTAVVRVLIVPKPALEGQEVLSIDRIDGTTLIAEDAARPWPRGVQVSAGGPPVELSLAIRPARCDPHAVAEDKIGTLLPFRVTAGGRNGVLKVDTGDVLRHRIYDFVTAACATSRS				NA	NA	NA	NA	NA
D1-29_00138	816		COG0589	Universal stress protein	ATGCGAACCAGGGTGGCGGTCGGATATGACGGCTCGGATGCGTCCAAGCTGGCCCTTCGATGGGCTGCGGAATACGCCGCGTCGTCCCAGGCGGTGCTGCGTATCATCCATGCCTGGATCTGGCCCATGTTCACCCACCATGTAGGTCCTGTGAAGGGCGTGGCGGACAGCGGCCTTCGCCGCGCGGCCGAGGATCTTCTGGCCGAGGGCGTGGAGCTTGCGCGCGGGATCTCACCCAGGTTGGAGCTCGAACCGCGAATGGTTGCCGGCCTGCCCGCCGACGTCCTGCGCCAGGAAACCCTTGATGCGGACCTGCTGGTGGTTGGCAGCCGCGGCCTGGGCAAATTCCTCGGCAAACTGGTGGGGTCTGTTTCCGTTGACCTGGCAGGGGCGTGCCCCTGCCCCGTACTGGTGGTCCGGGCCGCACCTGAGGAAGGAAAACCCGTGGTCGCCTGCCTCGACGGCCGGGTGAGGAGCAGCAAAGTCCTGGAGCAGGCTGTCATGGTGGCCCAGACCCTGCAGACGAAGCTGCGGATTGTCCACGTTGAGCCGCAGCTGCCGAAGGGGCGGCATGCTCCCTCGCAGTTCCATGGACGCGACGTCCTCCACAACGCCGCGCTCCGGGCGCAGGAGCTCAACCCGGATCTGGCGGTATCGGAGGAGCTTCTCTCCGGCCAGCACGTGGCGGCTGTGCTGGCTCAGGCCGGAGCGGACGCGGCGCTTCTGGTGTTGGGTGCCCACGGGCGCGAAGGACATAAGGGAACGCTGACCTACGTTCTGACCCACGCGCGATGCAACGTCATGATCGCGAGGTAG	MRTRVAVGYDGSDASKLALRWAAEYAASSQAVLRIIHAWIWPMFTHHVGPVKGVADSGLRRAAEDLLAEGVELARGISPRLELEPRMVAGLPADVLRQETLDADLLVVGSRGLGKFLGKLVGSVSVDLAGACPCPVLVVRAAPEEGKPVVACLDGRVRSSKVLEQAVMVAQTLQTKLRIVHVEPQLPKGRHAPSQFHGRDVLHNAALRAQELNPDLAVSEELLSGQHVAAVLAQAGADAALLVLGAHGREGHKGTLTYVLTHARCNVMIAR				NA	NA	NA	NA	NA
D1-29_00139	999			hypothetical protein	ATGGTCAAGATTGCACGCTGGAATCACGACGGCGGGACGCAGTCCGGTTTCGTAGACGGCGTCAGCTGCTACGCCCTGCCCGCGGGCCAGGGCGTCCAGACCCTGTTGGAGTCAGGACTCACGGAAACCCTGAATCTTGCCGGGCAGACCATTGGTTCCGTCCCTGCTGTTCCGCTGGCTGATGTGCACCTGCTCGCCCCGCTGGTGCCCGCCACCATCAGGGACTTCGTGGCGTTCGAGGAGCATGTTGAAGGGGTGCGGAAGAGCATCGACGGCGTGGCCGGCGTGGTGCCCGAATGGTACGAGGCGCCCACGTTCTACTTCACCAACCCGCACACGGTGACCGACACCGGCGAGGTGATCGGTATTCCGGCCGGCTGTACGGACCTGGACTTTGAAACGGAAGTGGCCGCCGTCGTCGGACGCGTTCCCGGAAGTAGCGGCCGGAACCTGACCGCGGAGGAGGCGCACCGCCATATCTTCGGCTACACCGTCCTCAATGACTGGTCCGCGCGGGACCTGCAGCGCCGCGAAATGAAGGTCAGCCTCGGGCCGTGCAAGGGCAAGGACTTCGCCAACACGCTGGGCCCTTGGATCGTCACTGCCGACGAGTTCGAGGACCGGCACGATGCCGAAGGGTTCCTGCCCATCTCCATGGCTGTCGAGGTCAATGGGCAAGCCATCGGGCAGGACCTGCTGTCCAACATGGGCTGGCCGTTCGCGGAACTGGTGGCGTACGCGTCGCAGGATTCGGTGGTACGGCCAGGCGACGTCCTGGGCTCCGGCACCTGCGGCACGGGCTGCCTCGCCGAGCTCTGGGGCCGGAATGGTTCAAAGACTCCCCCGCCACTAAAGACCGGCGACGTGGTGCGCATGACCGTTGAAGGCATCGGGACCATCGAGAACACGGTGGGTGCCCGGCGGGAGGCGGTGACCCGGGTTCCTGCCCGGCGGCGGCCGCGCAACCGGGTTGCATCTGCGGCTCCTTCCGGGGCCTGA	MVKIARWNHDGGTQSGFVDGVSCYALPAGQGVQTLLESGLTETLNLAGQTIGSVPAVPLADVHLLAPLVPATIRDFVAFEEHVEGVRKSIDGVAGVVPEWYEAPTFYFTNPHTVTDTGEVIGIPAGCTDLDFETEVAAVVGRVPGSSGRNLTAEEAHRHIFGYTVLNDWSARDLQRREMKVSLGPCKGKDFANTLGPWIVTADEFEDRHDAEGFLPISMAVEVNGQAIGQDLLSNMGWPFAELVAYASQDSVVRPGDVLGSGTCGTGCLAELWGRNGSKTPPPLKTGDVVRMTVEGIGTIENTVGARREAVTRVPARRRPRNRVASAAPSGA	PGPT0001615_276	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_STYRENE_OXIDE_DEGRADATION,PGPT0001615-faaH-K16171	NA	NA
D1-29_00140	1086			hypothetical protein	ATGAGCACCCGCCCTCTGGAAGAACTTCGGGAAGAAGCACCCACGGTGGACGTCCACGCCCACATCCTGCTTCCGGCCCTGCAGCAGCTGGTGGCTGAGGCCGATCCCGAAGGCTTCGGCGCGCAGCAGGGCTTGGAGGTACGGCGCAACGGACCGGAATCGATGGCCGCCTCGGGCCGGATGATCCAGGAGCGCTGGCCGCAGCTGACAGACCTGGACCGCCGGCTTGCTGACATGGATGCCCAGGGCGTGGACGTGCAGCTGGTCTCGCCGTCGCCGTCGCACTTCTACTACTTCGCCGGCCAGGAGCTGGCCCTGCAGCTGGCGAAGGCCGCCAATCAGGCGGTCCGCGAGTTCGTTGCCCGGGCGCCGGAGCGGCTCAACGGCCTGGGCCTGGTTCCGCTGCAGCACCCGGCGCTGATGGTGGAAGCCCTGGAGCACGCGGTGCTGGAATGCGGTCTGCTCGGGGTGGAACTCGGCTCGTTCGCGGCAACGCCGGACAACCCGGCACGCAGCACCGTCGAGCTCTCCGACGCCCGGCTCGAACCATTTTGGAGCCGGGCGGAGGAGCTGGGCGCCCTCGTGTTCCTGCACCCCTTCGGCTGCTCACTGGATGAGCGACTGGACCGGTTCTATCTCGCCAACACGGTGTCCCAGCCAGCCGAAAACGCCGTGGCCCTGTCCCACCTGATCTTCAGCGGAGTCCTGGACCGGCACCCGGAACTGAAAGTCCTGGCCGCACACGGCGGCGGCTACCTTCCCACCAGCCTGGGCCGCTCCGACCACGCGTGGAGGGTCCGGCCGGAGGCACACGGCTGCGCCCAGCCGCCGTCGTCCTACCTAAAGAAGCTCTATTTCGACTCACTGGTCCACAGTGCCGCCGAGCTGCGAGCGCTGGTGGCCGCCGCCGGCCCGCAACGGGTGCTGCTCGGCTCGGACTACCCCTTCGACATGGGCTCCGACCATCCCGTACGGGAAGTCCGTGACGCCGGTTTGCCAGCAGCGGATGAAGCCCAGGTCCTGGCGGGAAACTCCGCCGCGCTGGGCATCACGGCCGCTTCAGTCCCCGCCCGCCGCACAGCCTAA	MSTRPLEELREEAPTVDVHAHILLPALQQLVAEADPEGFGAQQGLEVRRNGPESMAASGRMIQERWPQLTDLDRRLADMDAQGVDVQLVSPSPSHFYYFAGQELALQLAKAANQAVREFVARAPERLNGLGLVPLQHPALMVEALEHAVLECGLLGVELGSFAATPDNPARSTVELSDARLEPFWSRAEELGALVFLHPFGCSLDERLDRFYLANTVSQPAENAVALSHLIFSGVLDRHPELKVLAAHGGGYLPTSLGRSDHAWRVRPEAHGCAQPPSSYLKKLYFDSLVHSAAELRALVAAAGPQRVLLGSDYPFDMGSDHPVREVRDAGLPAADEAQVLAGNSAALGITAASVPARRTA				NA	NA	NA	NA	NA
D1-29_00141	1125	auaG_1		Aurachin C monooxygenase/isomerase	ATGGCAGCAGTACAGAATGTCGGAATCGTCGGAGCGGGAGCCGCGGGACTGACCGCTGCCATCCTCCTGGCAGACGCCGGGGTCCGCGTCGAAATCCTGGAAAAGGCCGACGAACCCCAGCGGGTTGGTTCGGGAATCACCCTGCAGGGGAACGCCCTGCGCGTTTTCAAGCAGCTTGGAGTCTGGGAGCAGGTCGAGGCGAAGGGCTATGCCTTCAGCACGCTCGGACTGCGCGCCCCGGATCCCGCCGGGACCGTCATCGCGGTCCTGGAGGACATCCGGACCGGGGGCGAGGACCTGCCCGCCACCCTGGGCATGTACCGCCCGGACCTCACCGCCATCCTCCGCGAGCGCGCACTGCAGGCCGGCGCCGTGATCACGTACGGAAAGACTGTCACGGGGGTAACGGACGACGGCGGCAGCGTCACCGTCAGCACGGCCGACGGTGCCTCCGCCACCTACGACCTCCTCATCGGCGCCGACGGCCTGCACTCCGCTGTCCGCAAGGCCATCGGCATCGACGTGGAGCCCGTTGGCACCGGCATGGGGATCTGGCGGGCGTTCGTGGAACGGCCGGAGGAGGTAGTCCGCACCGACCTCACCTACGGCGGGCCCTGCTTTATTGCCGGGTACACCCCCACCGGCCCGGACACCATCTACGCCTTCCTGGTCGAAAAGGCGCAGGAGCGCCGGCACGAGGACGGCCCCCGCATCATGGCTGAACTCGCCGCAGCCTATGGCGGCCCGTGGAATGAAATCCGCGAAAACCTGGATCACACGGCAAACATCAACTACACGAGGTTCACCAGCCACATCGTGGACGGACCGTGGCACCGGGGCCGGACCGTCATCATCGGGGACGCCGCGCACAGCTGCCCGCCCACGGTGGCGCAGGGCGCCGCCATGGCCCTGGAGGACGCCGCCGTCCTGGCTGAGCTGCTTATCAACGCCGACCACATCACGGAGACGCTCTGGAAGGAGTTCTCCGACCGGCGCCTGGACCGGGCGCGCACCGTGGTGCAGGGCTCGGTCCAGCTGGGCCAGTGGATGCTTGACGGCGTCCGGGACGCCGATGTGCCGGGCCTGATGCACTCCCTCTCCACCATGCTGAAGCAGCCCGCATGA	MAAVQNVGIVGAGAAGLTAAILLADAGVRVEILEKADEPQRVGSGITLQGNALRVFKQLGVWEQVEAKGYAFSTLGLRAPDPAGTVIAVLEDIRTGGEDLPATLGMYRPDLTAILRERALQAGAVITYGKTVTGVTDDGGSVTVSTADGASATYDLLIGADGLHSAVRKAIGIDVEPVGTGMGIWRAFVERPEEVVRTDLTYGGPCFIAGYTPTGPDTIYAFLVEKAQERRHEDGPRIMAELAAAYGGPWNEIRENLDHTANINYTRFTSHIVDGPWHRGRTVIIGDAAHSCPPTVAQGAAMALEDAAVLAELLINADHITETLWKEFSDRRLDRARTVVQGSVQLGQWMLDGVRDADVPGLMHSLSTMLKQPA				NA	NA	NA	NA	NA
D1-29_00142	1038			hypothetical protein	GTGACCACTCAGGACACAGCACCAACCACCGCCACCGGAGAATCGGCCGATACCCCGGTGATCCGCCGTGACGACCCGCTGGGCAGCATCCGCGCCATGGCCAAGGCCCACAACAACTGGGGCCGCTGGGGCGAGGACGACGTCCTGGGAACCCTGAACTTCATCGACGCGGCCAAGCGCATCGAAGCCGCGGCACTGGTGAAGACCGGCGAGGCCTTCTCACTGTCCCAGCCGTTCGACACCAACGGCCCCCAGAAGGGCTGGCGCCGCCGCACCAACCCCGTCCACACCATGACGGACACCGGGGTGGACGCCGAACGCGGCAACCAGGGCTTCCCGCACGGCTTCGGCGGTGCAGACGACGTGATCGCCATGCCGCTGCAGTGCTCCACGCAGTGGGACGGCCTGGGCCACATCTTCGACCAGGGCAAGGCCTGGAACGGCCGCGCCGCCGGCGACGTGGTCACCTCCGAAGGCGACCTGGTGACCGGCATCGAAACCGCCGCAGCCAAGATCGTCACCCGCGGCGTCCTGCTGGACGTTGGCCGTGCGCTCGGGCCGGAACTGGGAAGGAACGACGGCGAGCTGCCGGACGGTTTCGCCATCACCCCGGAGCACCTGGAGCGCACCATCGAACTGCAGGGCGCCACTTCCAGGGTAGGCCGCGGCGACATCGTGGTGATCCGCACCGGGCAGCACACCAGGGTCCGCCGTGACGGCTGGGGCGACTACGCCGGCGGCTCGGCACCCGGGCTGTCCTTCACCACCGCGCCCTGGCTGCACGAAAGCGAAATCGCCGGGATCGCCACCGATACCTGGGGCTTCGAAGTCCGCCCCAACGAGTTCGACGGCGCCTTCCAGCCCCTGCACCAAATCGCCATCCCCAACCTCGGGCTTTTCCTGGGCGAGATGTGGGACCCGGACCTCCTGGCAGAGGCATGTGCAGCGGACGGCAGGTACGACTTCCTGCTGACCGCGGCGCCGCTTCCCATCACCGGCGCCGTGGGCTCACCCGTAAACCCCATCGCCCTCAGGTAG	MTTQDTAPTTATGESADTPVIRRDDPLGSIRAMAKAHNNWGRWGEDDVLGTLNFIDAAKRIEAAALVKTGEAFSLSQPFDTNGPQKGWRRRTNPVHTMTDTGVDAERGNQGFPHGFGGADDVIAMPLQCSTQWDGLGHIFDQGKAWNGRAAGDVVTSEGDLVTGIETAAAKIVTRGVLLDVGRALGPELGRNDGELPDGFAITPEHLERTIELQGATSRVGRGDIVVIRTGQHTRVRRDGWGDYAGGSAPGLSFTTAPWLHESEIAGIATDTWGFEVRPNEFDGAFQPLHQIAIPNLGLFLGEMWDPDLLAEACAADGRYDFLLTAAPLPITGAVGSPVNPIALR				NA	NA	NA	NA	NA
D1-29_00143	945			hypothetical protein	ATGCCTGAAGCAACATATGCCCTGATCCGCTTCCAGGAGGCGGGCGACGGCAAAGCCCGTGCGGGCCTGCTGGTGGGTGACCGGGTACTTCCGCTGGACGGGGACATCAACTCCCTGATCGAGCACTGGGAAACAACCGAAGCTCAACTGGACGCCCTGGCCGCCTCGGCAGGCGGGGATACCGGCCTGGCGCTGGCCGACGTCGAGGTTCTCGCCCCGGTGGAGCCAGTCCAGGTCCTGCAGACCGGCGCGAACTACCGCAAGCACGTGATCGACCTCGCCGCCGCGCACCGCGAACCGGGCCAGGACGAAGAGGAAGTGCGCGCCAAGACGGCGGCAATGATGGACAAGCGCGCAGGCCAGGGAACGCCATACTTCTTTATCGGGCTCCCCACGGCGATCGCTTCCGCCACGGACGACCTCACCCTTCCGTCCTACAGCACGTCGCACGACTGGGAGCTGGAGCTCGCTGCGGTGATCGGCAAAACAGCGTTCCGGGTCACCCCGGAGGAAGCCCTGGACTACGTGTTCGGCTACACCATGGTCAACGACATCACCACCCGGGAATACGTCTTCCGCAAGGACATGCCGGCTATCGGCTCGGACTGGTACCGCGCCAAGAACGCGCCCGGCTTCCTGCCCACCGGACCGCTGCTGGTGCCCGCCAAGTTCTTCGGCGATCCGCAGGACGTCCAGGTGACACTGAAGCTCAACGGCAAGCCAATGCAGGACGAGTCCACGCAGGACATGATCTTCGGCGTGGCCAAGCTGGTCAGCGAAGCCTCGCAGATCATGCCGCTGCGGGCCGGCGACCTGGTCCTCACCGGCAGCCCGGCCGGCAACGGCCAGCACTGGGGCCGGCTGCTCCGGGACGGCGACGTGATGGAAGGCACCATCACTGGCCTGGGCACCCAGCTGATCCATTGCAAGGACGAAGTCCAGTGA	MPEATYALIRFQEAGDGKARAGLLVGDRVLPLDGDINSLIEHWETTEAQLDALAASAGGDTGLALADVEVLAPVEPVQVLQTGANYRKHVIDLAAAHREPGQDEEEVRAKTAAMMDKRAGQGTPYFFIGLPTAIASATDDLTLPSYSTSHDWELELAAVIGKTAFRVTPEEALDYVFGYTMVNDITTREYVFRKDMPAIGSDWYRAKNAPGFLPTGPLLVPAKFFGDPQDVQVTLKLNGKPMQDESTQDMIFGVAKLVSEASQIMPLRAGDLVLTGSPAGNGQHWGRLLRDGDVMEGTITGLGTQLIHCKDEVQ	PGPT0001745_51	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001745-lra6-K18336	NA	NA
D1-29_00144	1020	bphC_1		Manganese-dependent 2,3-dihydroxybiphenyl 1,2-dioxygenase	GTGGAAACTCCCCTCTCCCATCTTGCCCACCTCGAGATCACCACCCCCGACGTCGAAGCCTCCGCCAAGTTCTACGAGGAAAAGTTCGGCATGCGCATCATCGACCGCGTGGGCGGCAACGTCTACCTGCGCTGCTGGGGCGACTACTACCGCTACAGCCTGGTCATCACCGAAGGACCTGAGGCGTCGCTGGGCCGGATGGCGTGGCGCACCAACTCCCAAGCTGCCCTCGAGGCCGCCGCCCAACGCGTCGAAGCATCAGGTGTCCAGGGCAGCTGGACTGCCGGCGGCCACGGCTACGGCAAGGCCTACGAATTCACTGGCCCCTACGGGCACCGCATGCGCCTGTTCTTCGATGTCGAGAAGTTCGTCGCGGAACCCGGTTTCGAGTCCACCTACCCGGACCGGCCGGAGCGCCGCAGCAGCCACGCCGCCGCACCCCGCTTCCTGGACCACGTCACCGTGGCGTCCTCCGATGTCCGCGGCTTCGCCAAGTGGTACAACGAGGCCCTGGGCTTCCGCGTCATGGCATTCGTTGACCTGGACGAGGCACCCATCACCGTATTCTCCGTGCTGACCACCAACGAAAAGTCCCACGACCTCGGCGTGGTCCTGGACACCTCCAGCCGCGCCGGCCGCGTCAACCACATCGCGTTCTGGGTGGACGCCACCGAGGACCTACTCCGCACCGCCGACGTCATGATGGAAAACGGCACCCCGATGGAATACGGCCCCTCCATCCACGGTGTGGGCGAGCAGAACTTCCTGTACTTCCGCGACCCCTCCGGCCTGCGGGTGGAGCTCAACTCCGGTGGCTACCGCAACTACGTCCCGGACTGGGAAGCGAACACCTGGAAGCCGTCGCTGGGCTCCAACAACTTCTACAAAAACGGCGCCATGCCGCACTCCATGACCGAATCCTTCCCGCCGGCCGAAGGCTTCACCGCCACCGAAGAAGGCGCCTCCCCCGAGATGAAGGAAGCCCTGCTCAACCCCTACGCCAAGCAAGGACGGGGCTAG	METPLSHLAHLEITTPDVEASAKFYEEKFGMRIIDRVGGNVYLRCWGDYYRYSLVITEGPEASLGRMAWRTNSQAALEAAAQRVEASGVQGSWTAGGHGYGKAYEFTGPYGHRMRLFFDVEKFVAEPGFESTYPDRPERRSSHAAAPRFLDHVTVASSDVRGFAKWYNEALGFRVMAFVDLDEAPITVFSVLTTNEKSHDLGVVLDTSSRAGRVNHIAFWVDATEDLLRTADVMMENGTPMEYGPSIHGVGEQNFLYFRDPSGLRVELNSGGYRNYVPDWEANTWKPSLGSNNFYKNGAMPHSMTESFPPAEGFTATEEGASPEMKEALLNPYAKQGRG	PGPT0005055_173	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
D1-29_00145	822	kipR_1	COG1414	HTH-type transcriptional regulator KipR	ATGACTGCAGCAGAATCCAGTGAGACCCCAGGCAACGGCGATACCAAAGGCGCCTCCGTCATCGTGAACGCCATCGCCGTCCTCCGCACGTTCACCGCTGAGGAGCCCCTGCTCGGCGTCACCGAGATCGCGAACCGCGTTGGGCTGCACAAAAGCACGGTGTCGCGGATCCTCGCCACGTTCGAGCAGGAACATTTGGTGGAACGGGACGCGGAGACGCGCCGGTTCCGGCTGGGGCTGGGACTGATCGCGGTGGCCGGCCCGCTCCTGGCTGAGCTTGAAGAGCGGCGGGTGGCCTATCCGGTCCTGCGCGAGCTCGCGGAGCAGACCGGCGAAACCAGTGCGCTGATGGTGTGGAACGGTTTGGAGTCCATGTGTGTGGAACAGATTGCCAGCCACCAGCAGATCAAACACACCACCCCGCTGGGTGCCAGGTACCGGGACGCCATGAGCTCTTCGGTGCAGGTTTTCCTGGCCGCGGAACCAGCCGAGCGCGTCCGGTCGCTGCTGCGCGGCGGAGCCATCACGTATCCCGGCCTGGACGACAGCAGCCTGGAGGCATACCTCATCCGGCTCAAGGAAGACCTGAACCGGGGCTGGGCAATCAACTACGGGGAATCTTCCATCGACGAGGTGGGCGTCGCGGCCCCCGTCCATGACCACCGCGGCGACGTGGTGGCCGCCGTCCTGATCCCGGCGCCCAAGTTCCGCGTCTCCCCGGACAGGCTGCAGAGCCTGGGGGAAGCCTGCGCCGCTGCCGCGCAGAAAGTCACCGCCCGCCTGGGTGGGCGCGCTCAGGAACCTTCTGCCCGTCCCAACTAG	MTAAESSETPGNGDTKGASVIVNAIAVLRTFTAEEPLLGVTEIANRVGLHKSTVSRILATFEQEHLVERDAETRRFRLGLGLIAVAGPLLAELEERRVAYPVLRELAEQTGETSALMVWNGLESMCVEQIASHQQIKHTTPLGARYRDAMSSSVQVFLAAEPAERVRSLLRGGAITYPGLDDSSLEAYLIRLKEDLNRGWAINYGESSIDEVGVAAPVHDHRGDVVAAVLIPAPKFRVSPDRLQSLGEACAAAAQKVTARLGGRAQEPSARPN	PGPT0000860_41	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ALLANTOIN_USAGE	N-AQUISITION-ALLANTOIN_METABOLISM,PGPT0000860-allR-K10973	NA	NA
D1-29_00146	1257			Creatinase	ATGACCACCACAGCATCAGATAACGCCACGTCCGTCGCCGAACTGGAGCGCACGAAAGTCCTTAACAACGGCGAGAAGGTCCGGCTGACCTTCTCGGATACGGAGTTTGAACGCCGGCTGGCCGGTCTCCGCCGGATCATGGCAGAGAAGGAACTGGACGCCGTCGTCCTTACCAGCTACCACTCCATCAAGTACTACTCAGACTTCCTGTTCACCTACTTCGGCCGCTCCTACGCCATGGTTGTCACCAAGGACGACACCGTCACGGTCACGGCCAACATCGACGCCGGGATGCCCTGGCGCCGCAGCTACGGCGACAACCTCGTGTACACCGACTGGCGCCGGGACAACTACATCTTTGCCATCCAGGAGGTCCTGCGGACCCGCGGCATCAACCCGCGCCGCCTCGGCGTCGAGGACGATTCCCTGCCGCTGGACAACCGGAACAAGATCCAGGTGGCCTTCGCGTCGGCAACCCTGGTGGACGTGGCCCAGGCGGCCATGCGCCAGCGCATGTTCAAGTCAGCAGAGGAAATCGAGGTCATCAAGCACGGTGCGCGGATCGGCGACCTGGGCGGCGAGGCCATCCGCAATGCAATCCGTGCAGGGATCACCGAGTACGAGGTGGCTTTGATCGGCACCGAAGCCATGGTCCACGAGATCGCGCGGACCTTCCCGGATTCGGAAATCCGCGATACCTGGGTCTGGTTCCAGTCCGGCATCAACACCGACGGTGCCCACAACTGGGCCACCACCCGGAAGATCCAGGAACACGACATCCTGTCCCTGAACTGCTTCCCCATGACCTCCGGGTACTACACCGCACTGGAGCGCACGCTGTTCTTCGGCGAACCCGACGCGCGGTCGCTGGAGCTGTGGAACATCAACGTGGAGGTCCACAAGCGCGGCCTTGAGCTGATCAAGCCAGGCGCTGTCTGCAAGGACATCGCCGCGGAACTGAACGAAATCTATGTGGGCCATGGCCTGCTGGCCAACCGCACGTTCGGCTATGGCCACTCCTTCGGCGTCCTGAGCCACTACTACGGACGCGAGGCCGGGCTGGAACTGCGCGAGGACATCGACACGGTGCTGGAACCGGGAATGGTGGTGTCCATGGAGCCCATGATCACCGTCCTTGATGGCCAGCCCGGCGCGGGCGGCTACCGCGAGCACGACATTCTGGTGGTAGGCGAGGACGGCGCGGAGAACATCACTAAGTTCCCGTTTGGACCCGAGCACAACATCGTGGGCGCTTAG	MTTTASDNATSVAELERTKVLNNGEKVRLTFSDTEFERRLAGLRRIMAEKELDAVVLTSYHSIKYYSDFLFTYFGRSYAMVVTKDDTVTVTANIDAGMPWRRSYGDNLVYTDWRRDNYIFAIQEVLRTRGINPRRLGVEDDSLPLDNRNKIQVAFASATLVDVAQAAMRQRMFKSAEEIEVIKHGARIGDLGGEAIRNAIRAGITEYEVALIGTEAMVHEIARTFPDSEIRDTWVWFQSGINTDGAHNWATTRKIQEHDILSLNCFPMTSGYYTALERTLFFGEPDARSLELWNINVEVHKRGLELIKPGAVCKDIAAELNEIYVGHGLLANRTFGYGHSFGVLSHYYGREAGLELREDIDTVLEPGMVVSMEPMITVLDGQPGAGGYREHDILVVGEDGAENITKFPFGPEHNIVGA	PGPT0013580_32	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013580-CREATINASE-K08688	NA	NA
D1-29_00147	1407	proP_1		Proline/betaine transporter	ATGAGTAACGAAACTCCCTCCCCGTCTCCTCTTGCGGGACGTGCAGGCCAAGAGTCGAATAGCGGGTATGACGGCTCTTTGTCCGGAAGCAGCACGTTGACCGGCCGGAGACTTGACCAGACCAGCAACGGCGTCAGCAAAGACACCCGCCGCAGAGTGGTGGCGGCCAGCTTTATCGGCAACTTTGTTGAATGGTTCGATTACGCCGTTTACGGCTATTTGGCCGTAACCATCGCCACTGTCTTTTTTCCAGACTCAGACCCTCAAACCGGACTGCTGCTGACGTTCGCCCTGTTTGCGATTTCATTCCTGGTGCGCCCACTCGGCGGGTTCGTCTGGGGGCATATCGGTGACAGGGTGGGCCGGCGGACAGCTCTCTCCCTTTCCATCCTGATCATGTCAGGGGCAACATTCTGTATTGCCCTGATCCCCGGCTACGCCACGATCGGCATCTGGGCCCCCGTCCTGCTCCTGCTGATTAGGGTGGTGCAGGGGTTCTCCGCCTCCGGTGAGTACGCCGGGGCGTCAGCCTTCCTGGTGGAGTACGCTCCAGCCAACAGGCGCGGCCTGTATGCGGCCGTGGTTCCGGCCAGCACCGCCGCCGGCCTGCTCCTCGGCTCCCTGATGGCGGGCCTGCTGACAGTCCTGCTGAGCTCCGACGCCATGCAAGGCTGGGGCTGGCGGCTGCCGTTCCTGCTGGCAGCACCCATGGGCCTCATCGGCAGGTACATCCGGACCAGGCTCGAAGACACCCCAGTGTTCCGCGAATTGGCGGCCGAAGGCGAGGCCGTGAAGGCACCGGTGTCCAGCCTGTTCCGGAACCACTGGCGGCAGCTGCTGCAGGCCGTCGGAGCAGTGCTGCTCAACGCCGTCGGGTTCTACGTGATCCTCAGCTACATGCCCACTTATCTGTCCTCGGAACTGGGCCTCGGCGCGACCGAATCGTTCCTCGCCACTACCATCGCGCTGGTTACCTACATCGGCTTTATCTTCCTGACCGGCATGCTCTCGGACCGTTACGGGCGCAAGAAGGTGCTGATCACCGCCTCTGTCACCTTCATCCTGCTGACCGTGCCCGCGTTTGCCCTGCTGGGAACCGGAAACTTCCTGGTCATCGTCCTGGTGCAGATCCTGCTGGGCGCCATGCTCACCCTCAACGACGGGACGCTTCCCAGCTTCCTGGCCGAGATGTTCCCCACCCGGGTCCGCTACAGCGGCTTCGCGGTCAGCTTCAACCTCTCCAATGCGCTCTTCGGCGGCACCGCCCCGTTTATGGCCACGCTGCTGATAGCGGCCACCGCCAGTGACCTGGCTCCGGCGTGGTACCTCGTGGCCGCGGCCGTCATCTCGCTGATCGCCGTCGCCCTCTCCCGCGAAACCTGCAATGAACCGCTGCGCCACGAATAG	MSNETPSPSPLAGRAGQESNSGYDGSLSGSSTLTGRRLDQTSNGVSKDTRRRVVAASFIGNFVEWFDYAVYGYLAVTIATVFFPDSDPQTGLLLTFALFAISFLVRPLGGFVWGHIGDRVGRRTALSLSILIMSGATFCIALIPGYATIGIWAPVLLLLIRVVQGFSASGEYAGASAFLVEYAPANRRGLYAAVVPASTAAGLLLGSLMAGLLTVLLSSDAMQGWGWRLPFLLAAPMGLIGRYIRTRLEDTPVFRELAAEGEAVKAPVSSLFRNHWRQLLQAVGAVLLNAVGFYVILSYMPTYLSSELGLGATESFLATTIALVTYIGFIFLTGMLSDRYGRKKVLITASVTFILLTVPAFALLGTGNFLVIVLVQILLGAMLTLNDGTLPSFLAEMFPTRVRYSGFAVSFNLSNALFGGTAPFMATLLIAATASDLAPAWYLVAAAVISLIAVALSRETCNEPLRHE	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
D1-29_00148	1104			S-(hydroxymethyl)mycothiol dehydrogenase	ATGGTTCACAAAGTCAAGGCAGTCATCGCCAAGGAAAAGAATGCTCCGGTTTCGGTGGAGACCATCCTGGTGCCGGACCCGGGACCGGGCGAGGCCTTGGTGGACATCCTCACCTGCGGCGTCTGCCACACTGACCTGCACTACAAGCAGGGCGGAATCACTGACGATTTCCCCATCCTGCTGGGCCATGAAGCCACCGGCGTGGTCAGTGCAGTAGGCGCCGGCGTCACCGACGTGGCGCCAGGGGACCGGGTGATTCTTAACTGGCGTGCCGTGTGCGGCCACTGCCGGGCCTGCGCCAAGGGGCAGCCGCAGTACTGCTTCAACACCCACAACGCCACACAGAAGATGACCCTCGAGGACGGCACCGAACTTTCGCCGGCCCTCGGTATCGGCGCCTTCGCCGAGAAAACGCTGGTGGCCGCCGGGCAGTGCACCAAAGTGGACGACGACGTGGATCCCGCTGCCGTGGGGCTGCTTGGCTGTGGGGTGATGGCCGGCATTGGCGCCGCGATCAACACCGGCGAGGTCAAGCGCGGCGAGTCCGTGGCCGTGATCGGCTGTGGCGGCGTAGGCATCGCCGCGATCGCCGGGGCGAAACTGGCGGGTGCCACCACCATCATTGCGGTGGACATCGACGCCAACAAAGTGGAGCTGGCCAAGTCCCTGGGCGCCACCCACGGGATTGATTCCTCCACGACTGACCCCGTCGAGGCCATCCGGGCCCTCACCGGAGGCAACGGCGCCGATCTGGTGATTGACGCCGTCGGCCGTCCTGAAACGTACAAGCAGGCGTTTTACGCCCGCGACCTTGCCGGCCGCGTGGTGCTGGTGGGCGTCCCGACGCCGGACATGAAGCTTGAGCTGCCGCTGCTGGATGTTTTTGGCCGGGGCGGCTCGCTGAAGTCCTCCTGGTACGGGGACTGCCTGCCCTCCCGGGACTTCCCGATGCTGGTCCAGCATTACAAGCAGGGCAACCTGGACCTGGACGCCTTTGTGACCGAGCGGATCACCATCGACCAGGTGGAGGAGGCGTTCGCCAAAATGCACGAGGGCAAGGTCCTCCGCTCCGTGGTTGAACTCCCTGCGGCGGTGCAGCTCTGA	MVHKVKAVIAKEKNAPVSVETILVPDPGPGEALVDILTCGVCHTDLHYKQGGITDDFPILLGHEATGVVSAVGAGVTDVAPGDRVILNWRAVCGHCRACAKGQPQYCFNTHNATQKMTLEDGTELSPALGIGAFAEKTLVAAGQCTKVDDDVDPAAVGLLGCGVMAGIGAAINTGEVKRGESVAVIGCGGVGIAAIAGAKLAGATTIIAVDIDANKVELAKSLGATHGIDSSTTDPVEAIRALTGGNGADLVIDAVGRPETYKQAFYARDLAGRVVLVGVPTPDMKLELPLLDVFGRGGSLKSSWYGDCLPSRDFPMLVQHYKQGNLDLDAFVTERITIDQVEEAFAKMHEGKVLRSVVELPAAVQL	PGPT0006355_3496	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
D1-29_00149	621	gloB_1		Hydroxyacylglutathione hydrolase	ATGGCCGCCACCATCGAGAACCTGGTCACCTCGGGCACGTTTTCGCTCGACGGCGGCACCTGGGACGTGGACAACAACGTCTGGATCGTGGGCAATGACGAGGAATGCGTCATTATCGACTCGCCGCACGACGCAGCAGCGATCATCAGCCAGGTCCGCGGCCGGAGGGTACTGGCCATCCTGCTGACCCACGCGCACAACGACCACATCGGCGCCGCGCGGGAAGTTGCCGAGGCAGTGGACGCCCCGATCTGCCTGCATCCTGACGAACTGATGCTGTGGGAACAGGTCTATCCCGGCGGCAAGCCGGACCGGGATCTGGCCGACGGTGACGTGTTCGAAGTCGCAGGCGCCACGCTGCGGGCCATCCATACCCCCGGCCACTCGCCCGGCTCCACGTGTTTCTACCTGGAAAGCGAAGGGACAGTCTTCACCGGAGACACCCTCTTCAACGGCGGCCCCGGCGCCACCGGCAGGTCCTACAGTGATTACCCCACCATCCTGGCGTCAATCCGGGATCGCCTGCTGACCCTCCCGCCCGAAACGGTGGTGCGTACCGGCCACGGCGACAGCACCACCATCGGAGCGGAGCGGGAGACGCTGGCGAAGGTTTCGCAGTAG	MAATIENLVTSGTFSLDGGTWDVDNNVWIVGNDEECVIIDSPHDAAAIISQVRGRRVLAILLTHAHNDHIGAAREVAEAVDAPICLHPDELMLWEQVYPGGKPDRDLADGDVFEVAGATLRAIHTPGHSPGSTCFYLESEGTVFTGDTLFNGGPGATGRSYSDYPTILASIRDRLLTLPPETVVRTGHGDSTTIGAERETLAKVSQ	PGPT0001770_7680	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
D1-29_00150	2301		COG0243	putative oxidoreductase	ATGAAGTTCGGGAAACAGCCCGCCCCCGTCGCGGACATCAACGAGGACGAACTCTCCGTCCACAAGCCCAAGACCGAGGCCGCCGGCGTCAAAGCTGTGTTTGTGGCCCTGGAGCGTGCCGTTGCCCAGGCCGGGGTGCCCCGCACGGCACAGTCGCTGCTGCGGCTCAACCAGCGCGGCGGGTTTGACTGCCCGGGCTGCGCCTGGCCGGAGTCGGACAAGAAACGCAAGGCCGCCGAGTTCTGCGAGAACGGTGCGAAGGCCGTGGCCGAGGAAGCCACCCTGCGGACCGTGGGGGCTGAATTCTGGGCCCGGCATTCCATTGCCGATCTGGCCGGGAAGACAGAGTACTGGCTGGGCAACCAGGGCCGGCTGAGTGAGCCGGTGGTGATCCGCGAGGGGGAAACCCACTATTCGCCGATTTCCTGGGCTGACGCGTTTGAACTGATCGGCGAACATGTCCGGGCCAGCACGCCGGAACGCTGCGTCTTCTACACCTCCGGCCGAACAGCCAACGAGACAGCATTTATGTACCAGCTCTATGCCCGGGCCTTGGGAACCAACAACCTGCCGGACTGCTCCAACATGTGCCATGAGTCCTCCGGCTCGGCCCTGAACCCGACCATCGGGATCGGCAAGGGCACGGTGTCGCTGGATGACATCCACGATTCCGAGCTGATTTTTGTGGTGGGGCAGAATCCCGGCACCAACCACCCCAGGATGCTCTCGGCGCTGAAGGACTGCAAGGACAGGGGCGGCAAGGTGGTGGCGGTGAACCCGTTGCCGGAGGCCGGCCTGTTCAACTTCAAGGATCCGCAGACCGTTTCAGGTGTGGTGGGCGGCGGCACGCCGCTGGCCGACGAGTACCTGCAGATCAAGGTGGGCGGGGACCTGGCGCTGTTCCAGGCGCTGGGCCACCTGCTGTTCCTGGAGGAGGAACGGAACCCGGGTTCCGTCGTCGACCGTTCCTTCATTGACGCCCAGACGGACGGTTTTGAGGCTTACCGTGAGGCCCGCAAGGAACTGGACTGGGCCGAGACGGAGAAGGCCACCGGCCTGTCCCGGGAGCAGATCGAAACTGTGGCCGGGATGCTTATCAGGTCCAAGGCCACCATCTTCTGCTGGGCCCTGGGTGTGACGCAGCAGCCGCATTCGGTGGACACCATCAAGGAAATGGTCAACGTCCTGCTGCTGCAGGGCAATTTCGGCAAGCCGGGCGCTGGTGCCTGCCCGGTCCGCGGGCACTCCAACGTCCAGGGCGACCGGACCATGGGGATCTGGGAGAAGCCAAAGGAGTGGCTCCTGGATGCGCTGGATTCCGAGTTCGGGATCCAGTCCCCGCGGCACCACGGCTATGACGCCGTGGAGGCCATGGAAGCGTTCGAACGGGACGAGGTGGACGTTTTTGTGTCCATGGGCGGAAACTTCTCCCTGGCGTGTTCGGACACCGAAACCCTGGAAGCCGGAATGCAGCGGATCGGCCTGACCGTCCACATTTCCACCAAGCCGAACCGGTCCCACGTGGTCCACGGCCGCACGTCCCTGATCCTGCCCACGCTGGGCAGGACGGACAAGGACGACAAGCACCCCAAGGGCGCCCAGTTCCTGTCCGTGGAGGACTCCATGTCGGTGGTCCACTCTACCCAGGGCAGGCTTCAGCCTGTGTCCGAGCACCTGCTCGCCGAGCCTGTCATCGTGGCCAGGATGGCAGAAGCCACCTTCGGCCCGGGCCACTCCGTGAACTGGAAGGCCATGGCCGAGGACTACGACGTGATCCGGGAGCACATCGCCCGCGTCCTGCCCGGGTTCGAGGATTTCAACGCCAGGGTCCGGACCAAGAACGGGTTTGTGCTGCCCAACCCGCCGCGCGACACCCGCTCCTTCGCCACGGACATCGGGCGCGGGCGCTTCACGGTCAGCCCCCTTGAATACCTCAGCCCGCCCGAGGGACATCTGGTCCTGCAGACCATGCGCAGCCACGACCAGTACAACACCACCTTCTACGGGCTGGATGACCGGTACCGCGGCATCTCCAACGGCCGCCGGGTGATCCTGGTGCACCCCGAGGACCTGGCTGAGCTCGGCTTCCAGGACCGCGACCTGGTGGACGTGGTCAGCACGTTCCGGGGCCAGGACCGGAAGGCCGACAGTTTCCGGCTGGTGGCCTACCCCACGGCCAAGGGCTGCGCCGCCGCATACTTCCCGGAGGCCAACGCCCTGGTCCACAAGGAAAACGTCGCCCGCGAATCCAACACCCCCGGCTTCAAAGCCATGTTCGTCCGCTTCGTGCCGCACGCCTGA	MKFGKQPAPVADINEDELSVHKPKTEAAGVKAVFVALERAVAQAGVPRTAQSLLRLNQRGGFDCPGCAWPESDKKRKAAEFCENGAKAVAEEATLRTVGAEFWARHSIADLAGKTEYWLGNQGRLSEPVVIREGETHYSPISWADAFELIGEHVRASTPERCVFYTSGRTANETAFMYQLYARALGTNNLPDCSNMCHESSGSALNPTIGIGKGTVSLDDIHDSELIFVVGQNPGTNHPRMLSALKDCKDRGGKVVAVNPLPEAGLFNFKDPQTVSGVVGGGTPLADEYLQIKVGGDLALFQALGHLLFLEEERNPGSVVDRSFIDAQTDGFEAYREARKELDWAETEKATGLSREQIETVAGMLIRSKATIFCWALGVTQQPHSVDTIKEMVNVLLLQGNFGKPGAGACPVRGHSNVQGDRTMGIWEKPKEWLLDALDSEFGIQSPRHHGYDAVEAMEAFERDEVDVFVSMGGNFSLACSDTETLEAGMQRIGLTVHISTKPNRSHVVHGRTSLILPTLGRTDKDDKHPKGAQFLSVEDSMSVVHSTQGRLQPVSEHLLAEPVIVARMAEATFGPGHSVNWKAMAEDYDVIREHIARVLPGFEDFNARVRTKNGFVLPNPPRDTRSFATDIGRGRFTVSPLEYLSPPEGHLVLQTMRSHDQYNTTFYGLDDRYRGISNGRRVILVHPEDLAELGFQDRDLVDVVSTFRGQDRKADSFRLVAYPTAKGCAAAYFPEANALVHKENVARESNTPGFKAMFVRFVPHA	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
D1-29_00151	1977			hypothetical protein	ATGACCACCTTGACCAGGCCTCCGGCGGACCCTTCGGCCCCGCGGCCGACGGCAGCGGCAGGGCTAAGGACATGGCTGCTGTCCGGCCTCCAGGACAGTAAAGGTTCGCATCAGGGTCCGGGCAGCGTGGGCCCGGCGCAGGAAGAGAAGCATCCTTGGTGGCAAGTGATGTGCCTGACCGGTGTTGACTACTTTTCCACCCTTGGCTATCAGCCGGCCATCGCAGCCCTGGCTGCCGGTGTCATTTCTCCGCTGGCGACGCTGGTGCTGGTTGCTGTCACGCTCTTGGGCGCCTTGCCTGTGTACCGCAGGGTGGCGCGGGAGAGCCCGCGGGGGGAAGGGTCCATCGCGATGCTTGAGCGGCTGCTGCCACGCTGGGGCGGCAAGCTGTTCGTGCTGATTCTGCTGGGGTTCGCGGCTACGGACTTCATGATCACCATCACCCTCTCGGCGGCGGACGCCAGCGAACACCTGATTGAAAACCCTCTTGTCCCGGGATGGCTGCATGGGCAGAACATCCTGGTCACCCTGGTGCTGCTGGCGCTGCTGGCCGCCGTGTTCCTCCGCGGATTCAGGGAAGCAATCGGCGTGGCCGTGGTTTTGGTCATCGTCTACCTTGGCCTTAATGCCGTTGTGGTGGCTGTGACCATGGCCGGGGTTATCAACCACCCGGCTGCTGTTGACGACTGGTGGACAACCTTGTGGACTTCCCACGGGAATCCTCTGATGGCTGTGGCTGTCGCGCTGATCGTCTTCCCGAAGCTGGCACTGGGACTGTCCGGCTTCGAAACCGGAGTGGCCGTCATGCCCCAGGTCCGGGGCGGTCAGGATGACACCGAAGACAATCCTGCGGGGCGCATCCGGGGGACCCGGCGCATGCTGACCTCGGCAGCGGTGATCATGAGCTCGTTCCTGATCACCACCAGCTTCATCACCGTGGTGCTGATCCCGGCGCACGAGTTCCAGGACGGCGGCCAGGCCAACGGCCGTGCCCTGGCTTACCTCGCCCATGAATACCTGGGCGTCGGCTTCGGCACGCTCTACGACGTCAGCACCATCGCCATCCTTTGGTTCGCCGGCGCCTCGGCCATGGCAGGACTGCTGAACCTGGTCCCGAGATACCTTCCCCGTTACGGCATGGCCCCTGAATGGGCCAAGGCAGTCCGGCCCCTCGTGCTCGTGTTCACCCTCGTCGGGTTCCTGATCACCTGGCTCTTCGAGGCCGACGTCGATGCCCAGGGCGGCGCTTACGCCACCGGCGTGCTGGTCCTGATGACGTCCGCGGCTGTTGCCGTGACGCTCTCTGCCCGCCGCCGGAAGCAGCGCAAACGCACGATTGCTTTCGGTGCCATCGCTATGGTTTTTTCGTACACCACGGTGGCAAACGTCGTCGAACGTCCCGATGGCATCAGGATCGCCGGGCTCTTCATCCTGGGCATCATCGTGATCTCCCTTCTCTCCCGCGTCCGGCGTTCCTTCGAACTGCACGCAACCCACGTGCACCTGGACCGGCAGGCATTGGAGTTTCTGGCGCCCAACCTTGAGGGCCCGATATCGATCATCGCGCACGAACCGCTGCGGATAACCGCCGAGGCTTACCGGGATAAGCTCGCTTCCGCCATTGAGGTCAGCCACCTGCCCCTGGACCAGGAGGCATTGTTCCTTGAAGTCATCGTCGATGATTCCTCCGACTTCGAAACCACACTGGAGGTTCGTGGTGTGACGCGGCACGGATACCGCATCCTGGAGGTCCACGGCCCGGTGGTGCCGAACACCATCGCGTCTGTGCTCTGTCACATCCGGGACGTCACGGGATTGATGCCGCACATCTATTTTCGCTGGACAGAGGGAAACCCGCTCACGAACCTCCTCCGTTTCCTGTTCCTGGGCGAGGGCGAGATCGCACCTGTCACCCGCGAAGTGCTGCGCGAAGCAGAACCGGACGTCACTAAGCGCCCGTGGGTCCACGTGGGCTGA	MTTLTRPPADPSAPRPTAAAGLRTWLLSGLQDSKGSHQGPGSVGPAQEEKHPWWQVMCLTGVDYFSTLGYQPAIAALAAGVISPLATLVLVAVTLLGALPVYRRVARESPRGEGSIAMLERLLPRWGGKLFVLILLGFAATDFMITITLSAADASEHLIENPLVPGWLHGQNILVTLVLLALLAAVFLRGFREAIGVAVVLVIVYLGLNAVVVAVTMAGVINHPAAVDDWWTTLWTSHGNPLMAVAVALIVFPKLALGLSGFETGVAVMPQVRGGQDDTEDNPAGRIRGTRRMLTSAAVIMSSFLITTSFITVVLIPAHEFQDGGQANGRALAYLAHEYLGVGFGTLYDVSTIAILWFAGASAMAGLLNLVPRYLPRYGMAPEWAKAVRPLVLVFTLVGFLITWLFEADVDAQGGAYATGVLVLMTSAAVAVTLSARRRKQRKRTIAFGAIAMVFSYTTVANVVERPDGIRIAGLFILGIIVISLLSRVRRSFELHATHVHLDRQALEFLAPNLEGPISIIAHEPLRITAEAYRDKLASAIEVSHLPLDQEALFLEVIVDDSSDFETTLEVRGVTRHGYRILEVHGPVVPNTIASVLCHIRDVTGLMPHIYFRWTEGNPLTNLLRFLFLGEGEIAPVTREVLREAEPDVTKRPWVHVG				NA	NA	NA	NA	NA
D1-29_00152	1911	kdpD	COG2205	Sensor protein KdpD	ATGGCACAAGGCAATATGAGTAGTTTCCTGGGAGCTGCGCCGGGGGCCGGAACCACGATCGTCGTCGGCGTGAGCGGCCAGACCGGGGACGAGGCACTCGTCCGCCGCGGAGTGAGGATGCTGGCTGCTGCCGAAGGCGGGGAGCTCCATGTGGTGCATGTCCGCACAAGGACCGCCGCGACGGGGCCCTCAAGCAAAGACCTGGAACTGCCGCGCAATCTGGCCACCGAATTCGGAGGGGTGTTCCACGCCGTCGGCGGTGAGGAAGTGGCCGCGACGCTCCTTGAGTTCGCCAGGAGCGTGAACGCGAGCCAGATCATCCTGGGAAAGCCCCGGCGGCGGTCGATGCTCCAGCCCAGGCCCGGGACGGTGGCCTCTGTGGTGGCAAATGCCGGAACCATTGACGTTCACCTCATTGGCCAAGAGCCCGGGCCAGCCGGAGCTGCCCGCCGGAAACGGCCGCGGCTTGGGCGGCACCGGGAGGCGGCTGCGTTTGCCCTGGCTGTGGGTCTGCCCCCGCTGCTGCAGTTCGTCCTGGAGTTCCTCCCTCACGACCAGCTGTCCACGGACATGCTGGTTCATTTGACCGGGGTGGTTGGCGTGGCGTTGCTCGGCGGGGTGTGGCCTGCCGTTGCGGCAGCTGCTCTGGCGGGCCTGATCGTGAATTACTTCAGTGTCAGGCCAGTGGGTTCGCTGTCCGTGATTGACCCGGAGAATGTTCTGGCCCTGCTGGTCTTTGTTCTGGTGGCTGTGGCTGTATCGATGGTGGTCGACCGGTCCGCGAAGCTCAGCAAGGAGGCACACATTGCCCGCGCGGAAGCGTCCATCCTGGGTGAATTGAGCCGCAGGGCGGTAGCCGAGGGAAACAGTATTCCGGCGTTCCTGGATCAGGTCCGGGAGCATTTCCAGGCAGGCGGGGCCGCCTTGTGGACCCGGGAGGAGCCCGGTCCGGTCCGGGACGGCGACTGGGTCCTGAGGGAATTCTCGGGTTCGTCCCGGCCGGCTGCGGTCTCCGATGCAGACTCGGTGGAGCAGATGGACGCTGACAGGATGCTGACTCTGACCGGCAGGGAGCTCAACCAGGATGAACGGCGGCTGCTGGCCGCTTTTGGTGCGCACCTGCTGGCCATGCTGCAACGTGAAGAACTGACTGTGAGCCAGCGTGAAAACCTTCGCCTGGCGGAGGGAAACAAAATGCGGACCTCCATTCTGCGGGCCGTTTCCCATGACCTCCGCACGCCCCTGGCCGGAATCAAGCTGGCCTCCGCCACCCTGCGTGACAGGACCGTAACCCTTCGTGGGGAGGAGCAGGATGAGCTCCTGGCCACGATTGAGTCAGGGGCTGACCGGCTCGACGGGCTGGTGAGCAACCTGCTGGACATGTCCAGGATCACTGCGGATGCTGTTTCCCCGTTAATCCGTCCGGTGCATTGGGCTGAGGTGGTGGGCGTGGCCCTGCGCGGAATAGCGTCAGACCGGGTCCGCGTGCTCTTGCCCGGCAACATGCCTCCGGTGGATGCCGATCCCGGCATGCTGGAGCGGGTCATTGCCAATCTTGTCGAAAACGCCCTGAAGTATGCCCCTGATTCGGACGTCACTATCGCCGGCGCCGTCGGTGGGGCCGGGAGCGCAAGAATTGGCGACGTCCCGGCCAGCGAGCTTACCGTCGTCGATCATGGACTGGGTATCCCGGCAGAGGAGGTGCTGTCCATGTTCAGGCCTTTCCAACGGGCAGATGACACGACGGCAGGAACAGGGATCGGGCTTGGCCTGGCCGTGGCAAAGGGCTTCACCGAGGCTATGGGCGGAGTCCTGCTCGCAGAGCCAACCCCAGGCGGAGGCCTGACCATGGTGGTGCGCCTGCCGCTCTCCACCGGCGCACTCCCCGAGACCGAAACGGCGAAGCCATGA	MAQGNMSSFLGAAPGAGTTIVVGVSGQTGDEALVRRGVRMLAAAEGGELHVVHVRTRTAATGPSSKDLELPRNLATEFGGVFHAVGGEEVAATLLEFARSVNASQIILGKPRRRSMLQPRPGTVASVVANAGTIDVHLIGQEPGPAGAARRKRPRLGRHREAAAFALAVGLPPLLQFVLEFLPHDQLSTDMLVHLTGVVGVALLGGVWPAVAAAALAGLIVNYFSVRPVGSLSVIDPENVLALLVFVLVAVAVSMVVDRSAKLSKEAHIARAEASILGELSRRAVAEGNSIPAFLDQVREHFQAGGAALWTREEPGPVRDGDWVLREFSGSSRPAAVSDADSVEQMDADRMLTLTGRELNQDERRLLAAFGAHLLAMLQREELTVSQRENLRLAEGNKMRTSILRAVSHDLRTPLAGIKLASATLRDRTVTLRGEEQDELLATIESGADRLDGLVSNLLDMSRITADAVSPLIRPVHWAEVVGVALRGIASDRVRVLLPGNMPPVDADPGMLERVIANLVENALKYAPDSDVTIAGAVGGAGSARIGDVPASELTVVDHGLGIPAEEVLSMFRPFQRADDTTAGTGIGLGLAVAKGFTEAMGGVLLAEPTPGGGLTMVVRLPLSTGALPETETAKP	PGPT0002755_1681	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0002755-kdpD-K07646	NA	NA
D1-29_00153	672	kdpE	COG0745	Transcriptional regulatory protein KdpE	ATGACGACGGTGCTGATCGTCGATGACGAAGTCCAGATACTCCGCGCCCTGCAGATCAACCTGAACGCAAGGGGGTTCTCAACCCTTACGGCGCTCACCGGGCAGGCCGCACTGGACCAGGCAGCCGAACACCCCGTGGACGTCATCATCCTGGACCTGGGTCTGCCTGACCTGGACGGGGTGGAGGTGATCCACCGGCTCAGGCGCTGGAACGGCGTGCCAATCGTGGTCCTCTCAGCCAGGCACGGATCCGATGACAAAATCCAGGCCCTGGACGCCGGGGCGGATGACTACGTGACCAAGCCTTTTGGAATGGACGAGCTCCTGGCAAGGCTGCGCGCTGCGCTGCGCCGCGGGACAACGGGGGAGGCTCCCGTTGTGGAAACCGACAGCTTTACTGTGGACCTGCCCGCGCAACGGGTAACCCGGAGAGGCATGCCCGTCCGCCTGACTCCCACCGAATGGAACATCCTGGAACTTCTGATCCGGAACAATGGCGCCCTCGTCACCCATGAGAAACTCCTCACGGATGTATGGGGACCCGCTTACATCGGCGAGACAGCCTACCTCCGGGTCTACCTTGCCCAGCTGCGGAGAAAGCTTGAAACGGACCCTGCCAACCCCAGGCACCTGCTCACCGAAACCGGGCTGGGTTACCGCTTCCAGGAATAA	MTTVLIVDDEVQILRALQINLNARGFSTLTALTGQAALDQAAEHPVDVIILDLGLPDLDGVEVIHRLRRWNGVPIVVLSARHGSDDKIQALDAGADDYVTKPFGMDELLARLRAALRRGTTGEAPVVETDSFTVDLPAQRVTRRGMPVRLTPTEWNILELLIRNNGALVTHEKLLTDVWGPAYIGETAYLRVYLAQLRRKLETDPANPRHLLTETGLGYRFQE	PGPT0002760_2155	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0002760-kdpE-K07667	NA	NA
D1-29_00154	483			hypothetical protein	GTGACGGCAAGGAACTTGCCTCGACGGCGAATCTACGCCGCCAGGGCGTCCGGCCCGCTGGCCGTTACATTGGGCGCCGCAGCGCATTTCCTGAGCGGCGCGGCGGTCCCAGGCCCCTCGGTTCTCCTGGCAATTGCCGCCTTGCTAAGCATGGCAGCATCCATGCTCGCGGGCCTGAACCTCCGGTTCTGGGCGCTGCTCCTGGCCTCGGGCCTGGTTCAGCAGGTGCTGCATTTGGTGTTCGCCGGTTTCGCCGGTGGCTCGGGCAGCACATCGCCCGGGCATGCCCACGGAGTGCTGATCTGGCAGCCACTCCCACCGGCCCAAACGTCCGGCGGCCACCACGCGATGGAACTCATGTTGGACACGCATGTGGCGGCGGCACTGCTGACCGTCCTGGTCCTCACGCAGTCGGGCGCCCTGATATCGCACGTGTCGCGGCTGCGGCGCAGGCGGACCAGCCAGGTGGCAACAGACAGTTAG	MTARNLPRRRIYAARASGPLAVTLGAAAHFLSGAAVPGPSVLLAIAALLSMAASMLAGLNLRFWALLLASGLVQQVLHLVFAGFAGGSGSTSPGHAHGVLIWQPLPPAQTSGGHHAMELMLDTHVAAALLTVLVLTQSGALISHVSRLRRRRTSQVATDS				NA	NA	NA	NA	NA
D1-29_00155	402		COG3631	putative protein	ATGACTGACCAGACTCCGGCGGCCGTGACCGCCTCATACTTTGACGCCCTCGGACGCGGTGACGTACCCGCGGCGATGGCACTGCTAAGCCCCGACGTGGTGTGGCACCAGCCCGGTGCGAATCAGTTCTCCGGCGACCATTCAGGAATCGATGGCGTGGGCTCATTGCTCGGCGGGATGATGGAAGCAAGCCAGGGCACCTTCCAGCTCGCCGTCACCGGACCCGCCATGGTCAATGGCGAGTTCGTGGCAGTCCCGGTCAGGTTCTCCGGCAAGCGAGCGGACGTGGCAATGGATATGTCCGGCGTAGACCTCCTCACGGTACGCAACGGAAAAATCGCCGAAGTGCGCTTATTCTCCGAGGACGGCCAGGCGGAAGACGCCTTCTGGGGACGCGCCTAA	MTDQTPAAVTASYFDALGRGDVPAAMALLSPDVVWHQPGANQFSGDHSGIDGVGSLLGGMMEASQGTFQLAVTGPAMVNGEFVAVPVRFSGKRADVAMDMSGVDLLTVRNGKIAEVRLFSEDGQAEDAFWGRA				NA	NA	NA	NA	NA
D1-29_00156	384			hypothetical protein	GTGACTGTGCCGGCTTGGAACGTCATGGTGGCAACGTGTCCCTCGCGGACTTCCTTGGCGAAGATCGCCAACAAGTGGACGGCCATGATCGTCATTGCTCTCAGCGGGGGCCCGTTGAGGTTCGGTGAACTGCGGCAGGCTGTGGACGGCATCAGCGGCAAGGTCTTGGCCGATACCCTGCGGGACCTGGAACGGGACGGGATCGTGGGCCGGACCGCCTATGACGAAATGCCTCCGCGCGTCGAGTATGAGTTGACCGCTCTCGGCCAAACCCTGCGTGAGCCACTGACGGCGCTGGGCCTCTGGGCTGAGGAATACATCGAAGACGTGATGTCAGCGCGTGAGTCCTACGACAGGCGTGTCACCCCGGCCGCGTTCACTTAG	MTVPAWNVMVATCPSRTSLAKIANKWTAMIVIALSGGPLRFGELRQAVDGISGKVLADTLRDLERDGIVGRTAYDEMPPRVEYELTALGQTLREPLTALGLWAEEYIEDVMSARESYDRRVTPAAFT				NA	NA	NA	NA	NA
D1-29_00157	966	rhaS		HTH-type transcriptional activator RhaS	ATGCGCATCGCGATCTACGCCTTCCACGGAGTAACCATGTTCCACCTTGCTGTGCCACAGATGGTTTTCGACGAGGTGACACGTCAGGGACTTGCGGAATGGAAGACCGTCCTCTTCTCAGACCAGGCCAGCCATGTTCGAACAGCAGAGGGTTACCAACTGGGAGAGGTCCAGGGCCCTGCCGCGGCGGAAGCGGCGGACGTCGTGGTGGTGCCCTCCTGGTTCGATGACGGCCGCGCTCCGAACGAATCGCTGCGGCGCGTGCTTCAGGAAGCACACCAGCGCGGTGTGACAATCCTGGGGCTTTGCCTCGGTGCCATCCCCGTTGCCGATGCAGGTCTGCTTTCTGGGCGCCGGGCAGTCACCCACTGGCAAGCGTTCGGATCCCTCGCTGTCCGCCACCCTGATGTTTTCCTGGATCAAACCGTGCTGTATATCGATCACGGTGACGTGTTGACGTCGGCCGGCACGGCATCAGGACTGGACGCGTGCCTGCATCTTGTCCGGGGCCGGCTCGGGGCGGATGCCGCTAACCAGGTAGCCCGCAGCCTCGTCATCGCCCCGCATCGGGAGGGCGGACAGGCGCAGTACATAGAACACCCCGTTCCGCCGCGCTCCTCAGATGACCCGATCGCACGCCTGCTCGAATGGGTGCTGGGCCGCCTGGGCGAGCCCCTCAGTATCGATCGCCTCGCCGCCCAAGCGCACATGAGCCGGCGGACCTTCGTCCGCGCCTTCCGGGCAACAACAGGGACAACACCCTCTGCGTGGATACGCACCCGGCGGCTCGACGCTGCCCGGCGGATGCTGGAAACCACGGACTTATCCGTTGATCAGGTTGCCGCTGACTGCGGCTTCGGCAGCGCCGTTACCCTGCGGCAAAACTTCGCAACCGCCTTTTCCACCACCCCAACCGAATACAGGCGCCACTTTGACGCCCGGCTCACGCGTCCGACGTCGTACTGA	MRIAIYAFHGVTMFHLAVPQMVFDEVTRQGLAEWKTVLFSDQASHVRTAEGYQLGEVQGPAAAEAADVVVVPSWFDDGRAPNESLRRVLQEAHQRGVTILGLCLGAIPVADAGLLSGRRAVTHWQAFGSLAVRHPDVFLDQTVLYIDHGDVLTSAGTASGLDACLHLVRGRLGADAANQVARSLVIAPHREGGQAQYIEHPVPPRSSDDPIARLLEWVLGRLGEPLSIDRLAAQAHMSRRTFVRAFRATTGTTPSAWIRTRRLDAARRMLETTDLSVDQVAADCGFGSAVTLRQNFATAFSTTPTEYRRHFDARLTRPTSY	PGPT0014658_5	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
D1-29_00158	639			hypothetical protein	ATGAGCACCCCTCGCCGCGCCCTTATCCTCATCGATGTGCAGCAGCAGTACTTCGGCGGACCCTTCGAGATCCAGTACCCGCCGCACCAGGAGTCCCTACCGATGATCGCGCGGGCTGTCGACGCAGCGACCGCCGCGGGCATCCCTATCGTGGCCGTACAACACAGCGCGGGTGAGGGTGCTCCGGTCTTCGCACCTGGCACCCCCGAATTCGAACTTCACCCACAGATCGAAGGCCGCAGAACCGAGGCATGGAAGGGTGTCGTCAAACAGTATGGTTCCGTCTACGCAGACACCGACCTCACTGGGTGGCTGCGGGAGCAGGACGTCGACACCGTCGCACTGGTCGGTTACATGACCAACAACTGCGTCCTCGCTTCGGCCGTTGAAGCTGAATCCCTGGGCTTCACCACCGAGGTCCTTTCGGATGCCACCGGGGCTATCAACCTCGCCAACGATGCGGGCTTCGCGGACGCAAAAACAGTTCACACCACTTTGCTCACCCTGTTGAACTCAAACTGGGCAGCTGTCAGCACCACTGATGAGTGGGCAGATGCCCTTGAAGCGGGGCAGACGCTGAAAAGAAGTGATCTCGGCAGCTCGGCAATGGCCGGGGCCGCGCGCCTGGCCCGCGCCTAA	MSTPRRALILIDVQQQYFGGPFEIQYPPHQESLPMIARAVDAATAAGIPIVAVQHSAGEGAPVFAPGTPEFELHPQIEGRRTEAWKGVVKQYGSVYADTDLTGWLREQDVDTVALVGYMTNNCVLASAVEAESLGFTTEVLSDATGAINLANDAGFADAKTVHTTLLTLLNSNWAAVSTTDEWADALEAGQTLKRSDLGSSAMAGAARLARA				NA	NA	NA	NA	NA
D1-29_00159	579			hypothetical protein	ATGAGCAAGGTATACGGTGCGATCGACGAGCGGCTGACAAAATTCATCGCACGGCAAGTTGTCTTTTTTGTGGCCACTGCGCCGCTCTCGGGGGACGGTCATGTCAATGTCTCGCCGCGCGGGCTGCCCGGCACCTTTGCTGTCCTCGACGAGCGCACCTTCGCCTGGCTCGACGTTACCGGCAGCGGAAGCGAAACCATCGCCCACCTCAGGGAAAACGGCCGCATCACGATTATGTTCTGCGCCTTCGACGGCCCGCCGAACATCGTCCGCCTGCACGGCACGGGGAGGGTGGTCAGCCGGTACGACGACGAGTTCGAGTCGCTCGCTCAGCACTTCGACGACAAGCCTGGCGCGAGGGCCGTCATCGTGGTTGACGTCGTCCGTGTTTCGGATTCATGCGGGTGGGGCGTTCCGCTGATGAGCTTCCAAGGTCATCGCGATCTGCTTGGACCGTACTTCAAACGCAAAGGGACGGACGGCAGCGCCGAATACCGGATCGCCAAGAACCGCATCAGCATCGACGGGCTTGCCGCCTACGACTTCGACACCGCAAGGGCGACGCTGCAGGATCAGTGA	MSKVYGAIDERLTKFIARQVVFFVATAPLSGDGHVNVSPRGLPGTFAVLDERTFAWLDVTGSGSETIAHLRENGRITIMFCAFDGPPNIVRLHGTGRVVSRYDDEFESLAQHFDDKPGARAVIVVDVVRVSDSCGWGVPLMSFQGHRDLLGPYFKRKGTDGSAEYRIAKNRISIDGLAAYDFDTARATLQDQ				NA	NA	NA	NA	NA
D1-29_00160	507			hypothetical protein	GTGGAGTTAACCGATGGGGTTATCCGGTTGTCCCCGCTTTGCCTGGAGGACATCGAGCCCCACCTCGCGGGGGAAGATGCCGAGCTTGTTCGCTGGCTCAGCGGGGGCATTGGCACCCGGCAGTCCGTCGAGGAATACATCAGGCGCTGCCTGGATCAGTGGGAAACCGGCGGGCCAGTGCATGCCTTTGGCATACGGGTTGGCCTGGCAGAACTCGCAGGCACCACCGAGGTGCAGTTTGATCGGCCGTACCTGGGGCCCGGCACTGTGAACATCAGCTATGGACTTTATCCTTCATGGCGCGGCCGGGGTATCGCCACGCGCGCGCTCCTCCTTGCAGGCGCTCACGCCGCCGCGGCAGGGGCAGCCCAAGGAGTTCTCAGAATCGAACCGGGGAACACCTCATCGGTTGCCGTCGCCCTGCGCGCCGGCTACATTCCCTTTCGGCAGAGCGAGGAGAGTGATGGCCGGCAGTTCAATTGGTACACAAAGACCCTGCCAGCGTAA	MELTDGVIRLSPLCLEDIEPHLAGEDAELVRWLSGGIGTRQSVEEYIRRCLDQWETGGPVHAFGIRVGLAELAGTTEVQFDRPYLGPGTVNISYGLYPSWRGRGIATRALLLAGAHAAAAGAAQGVLRIEPGNTSSVAVALRAGYIPFRQSEESDGRQFNWYTKTLPA				NA	NA	NA	NA	NA
D1-29_00161	378			hypothetical protein	GTGAAGCACACCCCCATCGACAGCGGAAAGGCCACGCTGGAGCTTCTTCCAAATGGCGTCGTAAACCTGACCTGGCAGCGCCATGCCAACCTCGAGATAGCAGACGTCACCGCTGCAATGGCCAGCCTGGATGATGTTTGCCACGGAGTACCTCACCCGTTGCTGGTTGACATGGGCGGCACCATGGGTGTCAGCCACGACGCACGTGAAGCATTCTCAGCCCCGTCTGCGGCATCCCGGATTGCGCTGCTCGGCTCGACTCCGGTTGACCGGATCCTTGCTAACTTCCGTCCCGCCGGCTCCTATCCATGCCCCACACGCTTCTTCACGGATCGAACCGAGGCGATGAGCTGGCTGTTGCAGGACCCCACAGACTAG	MKHTPIDSGKATLELLPNGVVNLTWQRHANLEIADVTAAMASLDDVCHGVPHPLLVDMGGTMGVSHDAREAFSAPSAASRIALLGSTPVDRILANFRPAGSYPCPTRFFTDRTEAMSWLLQDPTD				NA	NA	NA	NA	NA
D1-29_00162	339			hypothetical protein	ATGCTCGATAGCAATTCCGTAAGTTACCTGGTTTCACTGATCAAGAATTTCGATTATTCGATGTTGAGCGACGCGGAGTGGAATGCGTTAAAGGACGTCGATGTGTTAGACAACGTGCAGCTGACAGCGGCAATCCGTGATGTTGTGAAACCCGAATACGCTTCCTGGGACGCGTCCTCCAGACAGCTGGTGAACAACGCCCTGGAAGCTGGCCTGGCGCTCCCGGACTACGATTTCGCGCCCGTTCTTCGCAACGTGGAGATGCCCTTGGCTCAAGATCTGAATCCCCGGACATTTTTCCTCCTGATACAACAGGTGCTTGTCGAACAGCAGGGTTGA	MLDSNSVSYLVSLIKNFDYSMLSDAEWNALKDVDVLDNVQLTAAIRDVVKPEYASWDASSRQLVNNALEAGLALPDYDFAPVLRNVEMPLAQDLNPRTFFLLIQQVLVEQQG				NA	NA	NA	NA	NA
D1-29_00163	501			hypothetical protein	GTGGAGTGTGGACACCCGGCTATCCACGTATTCCGTGAGATGTGCGGGAGGAATAGCAAGGACACCAGGCTCTGGGGCCGCCCACCTGGGCAGATGCTGCTCCTGCGCCTGATCGCCCGTTCCACCTGGCGCTGGGCAGTGGGAACCGCGGTGGCTCTGTTGCTCATCCACATCATCGGGGACGTCTTCCCGGACACTTTTTCCGTTCCGCTGATGGCGGTGTTTGGCGGATTCCTGCTGGCCGGCAGCCAATGGTGGGCACTTCGCATGCCGCTGCGGGATGGGCTTCTTTGGGTGGCCGGGTCAGCAGTTGCCTGGGCCGTGGCGGTCCTGCTGGGTGTCCAGCTGACGGCCGGAGCGGGTTGGAGGATTGAACACACCGTTGTCGGGGTGTTGACGGGCTTGCTGGTGGGCGCTGCAACCGCGTCCATTTGGGCATGGCATCTGTTCGGCAGTACGTCCGGGGCGCGCGGCCGGGTGCTGCGAACAGGGGCACCTTGA	MECGHPAIHVFREMCGRNSKDTRLWGRPPGQMLLLRLIARSTWRWAVGTAVALLLIHIIGDVFPDTFSVPLMAVFGGFLLAGSQWWALRMPLRDGLLWVAGSAVAWAVAVLLGVQLTAGAGWRIEHTVVGVLTGLLVGAATASIWAWHLFGSTSGARGRVLRTGAP				NA	NA	NA	NA	NA
D1-29_00164	813	xynR_1	COG1414	HTH-type transcriptional regulator XynR	ATGGCTTCGAAGACTGACCCTGAATCTGAGAATGACGCCGAGGGCGGGCAGCACGGCGGCGTTCAGTCCGTGGACCGGGCACTTGCGGTGCTGGAAATCCTGGCCCGCGACGGCCATGCAGGCGTCAGCGAAATCGCCGAGGAAATGGGCATCCACAAGTCCACCGCCTCTCGGCTTCTCGGCGCGCTGGTCACCAGGGAGATGGTCCACCAGAACAGCGAACGTGGAAAGTACCAGCTGGGCTTCGGCGTCCTGAGGCTGGCGAGCTCCATTCCCGGACGGCTCAGCCTGGTGCGGGAGGCCCGCCCGGTGATTGAAAGCCTGGCCGAGCAATTCAAGGAAACCGTAAATCTGGCCGTGCTGCGGTCCAACTTCGCCGTCAACGTGGACCAGGCCATGGGTCCTTCATCGCTTGCCACCTATGACTGGGTGGGCAGCCTCACGCCCCTTCACGCGACCTCCAGCGGAAAAGTCCTGTTGGCCGCGCTGTCCGTCGAGGAACGGGACCGCGTCCTGAAGGAAACCGGACTGCAGGCCAGGACTCCCCGGACCATCACCAACCGCAACAAACTCGAAGCGCAGCTGCTGGAAGTCGCCCGCCAGGGCTACGGATTGGCGCTGGAGGAATTCGAGATCGGGCTCAACTCCGTGTCCGTGCCCGTCCACAACCACCTGGCCACGGTGATCGGCGCCGTCAGCATCTCCGGGCCTGCCTTCCGCTTTGATCCGGAAAAGGAGCCCGGGCTGCTTGAGGCGCTGAAGCAGGCCGGACTCCAGATCAGCGCCAAGATGGGCTACACCCGGACAAGGTGA	MASKTDPESENDAEGGQHGGVQSVDRALAVLEILARDGHAGVSEIAEEMGIHKSTASRLLGALVTREMVHQNSERGKYQLGFGVLRLASSIPGRLSLVREARPVIESLAEQFKETVNLAVLRSNFAVNVDQAMGPSSLATYDWVGSLTPLHATSSGKVLLAALSVEERDRVLKETGLQARTPRTITNRNKLEAQLLEVARQGYGLALEEFEIGLNSVSVPVHNHLATVIGAVSISGPAFRFDPEKEPGLLEALKQAGLQISAKMGYTRTR	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
D1-29_00165	396			hypothetical protein	ATGGCACAAACCCAACTCCCGGACCTGGGGCTGCCTCTGGGCGACGACAACGTCTTTGCAGAGAACTGCCCGTCCAGGGTTCTGCTCAGCCACGTCACCAATAAGTGGGGAACCCTGGTGCTGATAGCTCTGTCGGCAGGCACCCTAAGGTGGAGCGAACTCTGCCGCACCATCGGCGGCATCAGCGAAAAGATGCTGGCGCAGACCCTTCGCACGCTCGAAGCTGACGGACTGGTACGTCGGGATGCCAGGCCCGTGGTGCCGCCGTACGTGGAGTACAGCCTTACGGACAGCGGGCAGGAGCTGAGCAGCCACCTCATCCCGTTGGTCCAGTGGGTGGCCATCCATGCCCTGAAGAGCTCAGATGTAGAAACCCCGTCACACTTCCCGGTCTAG	MAQTQLPDLGLPLGDDNVFAENCPSRVLLSHVTNKWGTLVLIALSAGTLRWSELCRTIGGISEKMLAQTLRTLEADGLVRRDARPVVPPYVEYSLTDSGQELSSHLIPLVQWVAIHALKSSDVETPSHFPV				NA	NA	NA	NA	NA
D1-29_00166	858	qorB_1	COG0702	Quinone oxidoreductase 2	ATGTCAATTGTCATCACCGCCGCCACCGGCCAGCTCGGCAAGCTCGTCATCGACAGCCTGCTGGAACGGGGAGTTGAAGCGAGCCACATTGTTGCCGCCGGCCGGGACCAGGAGAAGCTGTCCGCCCATTACGGTCTCCGGGGCATCCGCACTGTCCGGATTGACTACAGTGATCCCGAATCGCTGGCGGCAGCCTTCCAGAGCGGCGACAAGGTCCTGCTGATCTCCGGCAGCGAAGTGGGCCAGCGGGTTGCGCAGCACCGGAATGTCATTGATGCCGCGCGGACGGCCGGTGTTGCACAGCTGGCATACACCAGTGTTGTCAGGGCTGACACGAGCACGCTGGTGCTGGCCCCGGAACACAAGGCCACCGAGGAAGCCGTGGTCGCATCCGGCCTTCCCTACACGCTGCTGCGCAACGGCTGGTACACCGAGAACTACGTCCCGGCCCTGGAGCAGGCGCGCCAGACAGGCAAGGTGGTGGCCAGTGTCGGGACCGGCCGGGTGGCCAGTGCATCCCGTGCTGACTACGCCGCGGCAGCGGCTGTCGTGCTCTCCACTGATGGGCACCACAATGCGGTCTACGAGCTGTCCGGCGATGTTGCCTGGGACTTCGAAGAGTTTGCAGCTTCGCTCAGCACGGCCCTGGACCGCTCCGTGGTGTACGAAGCCGTGGAGCCGGGCGAGCATTTCGAGCTCCTCAAGGCAGCCGGGCTGGACGATCAGACTGCAGGTTTCCTGGTTGCCCTTGACGGGAACATCCGCGACGGCGAACTGGCGCCGATCACAGGCGACCTCTCCCGTCTGACCGGACGTCCCACCGCTTCCTTGGGCGAGACGTTGGCGCAGCTGTCCTGA	MSIVITAATGQLGKLVIDSLLERGVEASHIVAAGRDQEKLSAHYGLRGIRTVRIDYSDPESLAAAFQSGDKVLLISGSEVGQRVAQHRNVIDAARTAGVAQLAYTSVVRADTSTLVLAPEHKATEEAVVASGLPYTLLRNGWYTENYVPALEQARQTGKVVASVGTGRVASASRADYAAAAAVVLSTDGHHNAVYELSGDVAWDFEEFAASLSTALDRSVVYEAVEPGEHFELLKAAGLDDQTAGFLVALDGNIRDGELAPITGDLSRLTGRPTASLGETLAQLS	PGPT0009465_1162	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009465-qorB-K19267	NA	NA
D1-29_00167	492			hypothetical protein	GTGACAGAACGTGAACGGCTTGTCACCTGGGAGGACCCTGCCATTGGCGCGGGAGCCATGCCCAGCATGAGTGGCCTGGACTACCTGCATTCGATGATGGGAAAGAAGCTGCCGCCCCCGCCGATGGGCCAATTGCTGAACATGACGTTGGTTGAGGCGGAGCCGGGAACTGCCACGTTCACCTGCCTCCCGGACGAGTCGCATTACAACCCCATTGGGGCAGTCCATGGCGGCCTGGTGTGCACCCTCCTGGACTCGGCCCTGGGCTGCGCCGTGCAGACCACCCTTCCCCAGGGGCAGGGCTACACCTCCATAGAAATCAAAGTGAACTACCTCCGCCCAATACGGGCCGGCAGCGGCCTGTTAACCTGCGTGGGAGTGGTGTCCAAGGCCGGCAGCCGGGTGGCCTTCGCGGATGGAACAGTCACCGATGGCAGCGGCAAACTGGTGGCTACCGCCAGCGGGTCCCTGCTCGTTTTCCCCCTGGGCTGA	MTERERLVTWEDPAIGAGAMPSMSGLDYLHSMMGKKLPPPPMGQLLNMTLVEAEPGTATFTCLPDESHYNPIGAVHGGLVCTLLDSALGCAVQTTLPQGQGYTSIEIKVNYLRPIRAGSGLLTCVGVVSKAGSRVAFADGTVTDGSGKLVATASGSLLVFPLG	PGPT0006080_11	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006080-paaI-K02614	NA	NA
D1-29_00168	1545			hypothetical protein	ATGCCAGTTCGGTTACAAGACGTGTTGCAGCATGCCACCCTGCTGGCAGCCGACCCCGTGGTCCGCGCCGCAGCGGCACTGGTCCCGGAAACGCAGCTCCGCTGGATCCACTCGAGCGAGGTCTTGGACATCGCGCCCCTGCTGGGCGGTGGCGAGCTGTTGCTGACGGGTGGCCAGGCCCTTGCCCTGGCAACGGATGAACGCCGCACAGGCTACATCAGGGAGCTGGCCGAGCGCGGGGTGGCCGCCTTGGCAATCGAGACCGGCAGGGAACTCCCTTCGATCCCCTCCTCGATGGTCGCCGCAGCTGAAAATGCGGGCCTTCCCCTGATTGAGCTTCGCAAGGTGGTGCCCTTTGTCGGCGTGATGGAAGCCATCAACTCCATGCTCGTTAGTGAATCCGCCGCTCAACTGCAGCAGGCGGACCAGGCCAGCCACGCCATGGCGGTGGAACTGGCCCACGGCGGCAGCCTTGACCGGATCCTTGCTGTCTTGGCTGCTGCCACCGCTTCCGAGGTGGTCCTCAGCTCAACGGCGGGAACCACCCTGGCCAGCGCATTGCCGGCCGAGCGGGGTGAAGATCCCGAGCCTGCCCCAAGGGACGCGGCCGCCCGAGACCACGCCAACATCATCCACATTGACGTGCCGGTACGCGGCATACCGTCCGCCCGCCTAACCCTGGACGTTCCCGCCGACGCCGACGTCAACCTGGCGCGGATTGCCGGGACCCGGTCAGTGGACATCCTTGCCCTGGCCCTGTTGCAGCGAATGCCTCCCGGCCTGAAGGAAATGGCGGGCGGGGCGTTGATCCGTGCCATAGCTTCCGGCACGCAAAACTGGAGGCTTCAACAGCTCGCTCCGGCTGCCGGCATCCCCGTGTCGGCGCAGCTGGTGGCAGTGGTGATCCGCTCCCCCGGCTCACAGCAGCTCCGGACGGCCGTGGAGCACCTTCTGAACCGGGTAGGCCGTCAGAGCGCGAGTTATGCGGACAACGCAGAGCTTCTGGCACTGGCCGTCCTTCGCTCCGACAATCCAAAAGACGACAGGCAAAAAATCGTGGCCGGACTGGAGTCGCTGGCGGTACCGGAAGGGACAGTCAGCTCCGTGGGCCCCATAGCTTCCGGCATATCCTTCGCTCCGTGGTCCCTGACCGAAGCCCGGCTCACGCTTGAACTCGCGGCGGGCACGGACTCACCCCGAGCGCCGCGGGGCGCCGCTGTCCTGGATTCCCAGGCGTTCGCCGTCGAGCGGCTTGCCGTCCATTCCCTCGATGAGGCGCAGCGGCGGGACTTTGTGAACCAGCAACTGGCGGCGGTCCTTGACCACGATGCCCAGCGCAACTCCCAGCTGGTTGAAACCCTCAGGGTCTGGCTGGATTCAGGCTGCAATACGGCCCAGGCCGCCCGTGAACTGCACGTGGAGCGGCAGTCGATGCATCAGCGCCTGCAACGGATCTTCTCGCTGTGCGGCGGGGACCCCCGGGGCACCGGCCGGCTGGCTGCCTTGCACGTTGCTACGCGCCTGGCCCAGCTGCAGCCCACCTGA	MPVRLQDVLQHATLLAADPVVRAAAALVPETQLRWIHSSEVLDIAPLLGGGELLLTGGQALALATDERRTGYIRELAERGVAALAIETGRELPSIPSSMVAAAENAGLPLIELRKVVPFVGVMEAINSMLVSESAAQLQQADQASHAMAVELAHGGSLDRILAVLAAATASEVVLSSTAGTTLASALPAERGEDPEPAPRDAAARDHANIIHIDVPVRGIPSARLTLDVPADADVNLARIAGTRSVDILALALLQRMPPGLKEMAGGALIRAIASGTQNWRLQQLAPAAGIPVSAQLVAVVIRSPGSQQLRTAVEHLLNRVGRQSASYADNAELLALAVLRSDNPKDDRQKIVAGLESLAVPEGTVSSVGPIASGISFAPWSLTEARLTLELAAGTDSPRAPRGAAVLDSQAFAVERLAVHSLDEAQRRDFVNQQLAAVLDHDAQRNSQLVETLRVWLDSGCNTAQAARELHVERQSMHQRLQRIFSLCGGDPRGTGRLAALHVATRLAQLQPT				NA	NA	NA	NA	NA
D1-29_00169	1527			hypothetical protein	ATGCAACAACCATCCACTGGCACGGGAGTTGAGCAATCCGCTCATCTCGAAGACGTCGAAGCCTGGCTGCAGCCAATCCCTGAATCCCAGCGCACCCACAAGGTCTCCGGCCAGTTCTGGATCTGGGCCGGAGCCAACCTGGCACCGATCAACTGGGTGCTTGGGGCCCTCGGAATTCATCTCGGCCTCGGCTTTGCGGACACTGTGACGGTCCTGGTCCTCGGCAACCTCATTGGCATGCTGCTGTTCGGCTGCTTTGTCCTGCTCGGCCAAAAGACCGGAGCCACCGGGATGGTCCTGGCCCGGGCGGCATTCGGACGCCGCGGGAACTATCTTCCGGCCGCCATCCAGGCGCTCCTGGTGATCGGCTGGTGCGCGGTCAACACCTGGATCATCCTGGACCTGGTCATGGCACTGTTCGGGACGCTCGGCTGGGTTGATCCGGCAGCCGCCAATTACGGCTGGAAGATCGGTGTGGCCACGGCCATCATGGCCACGCAGGTAGCCATCGCCTGGTTTGGCTACAAAGCGATCGCCGCCTTTGAAAAGTGGACCGTGCCGCCCACCATCATCATCCTGGCCGTTATGTCCGCAGTCGCCTGGTTCGGCATGAAGATCAACTGGTCCTATGCCGGGCCAGCGGGCAACATCCTGGAAGGGTCAGAGCGGATCGCTGCCATGAGCGCTGTGATGACAGCCATCGGCATCGGCTGGGGCATCACCTGGTTCACCTACGCGGCCGACTACTCCAGGTTCGTCAGCACCGAAGTACCCAAGAAGAAGGTCTACCTGGCGTCGGTCCTTGGCCAGTTCATCCCCGTGGTGTGGCTCGGAATCCTCGGCGCAAGCCTGGCCACCAACAGCGGCGAAATTGATCCCGGGAAGCTCATAGTCCAGAACTTCGGTGTCCTGGCATTGCCCGTTCTTTTGATGGTCCTGCATGGCCCCATCGCCACCAACATCCTGAACATCTACACCTTTTCGGTGGCCACGCAGTCACTGGACATCACCATCAGCCGCCGCAAACTGAACCTGTTCGTCGGGGTCTTCTCCCTGGCCGCCGTCGTCTTCTTCATCTTCCAGGAAGATTTCGCCGCTGTCCTTGATGCCTGGCTGATCGGGCTGGTCGCCTGGGTAGCGGCCTGGGGCGGCGTCATGCTGGTGCACTACTTCTGGATCGAAAAGCGCTGGCCCGGCAACCCGGAAAGGCTCTTCGACGCCGTCGGTACCAAGCGGCTCCCCGGCGTCAACTGGGCGGGCGTCACGTCCCTGCTGGTGGGGATCTTCGCCACCTGGCTGTTTATGTACGGGCTCGTCCCCGCGATGCAGGGCCCCATCGCCGTGGCCCTGGGCGGGTGGGACCTGTCATGGCTCGCCGGCGGCCTCGCCAGCGCCGGTACCTACGCCGTCCTTGGCCCGAAGGTCCACCGCAAATATCTCGACGACGCACTGGCAGCCCCGGCACAGCAGCAGCCGTCAGCAGACCTGGCCGTTTCCACGCAGCCCGGTGCCCCGGCCGGGCTGTGA	MQQPSTGTGVEQSAHLEDVEAWLQPIPESQRTHKVSGQFWIWAGANLAPINWVLGALGIHLGLGFADTVTVLVLGNLIGMLLFGCFVLLGQKTGATGMVLARAAFGRRGNYLPAAIQALLVIGWCAVNTWIILDLVMALFGTLGWVDPAAANYGWKIGVATAIMATQVAIAWFGYKAIAAFEKWTVPPTIIILAVMSAVAWFGMKINWSYAGPAGNILEGSERIAAMSAVMTAIGIGWGITWFTYAADYSRFVSTEVPKKKVYLASVLGQFIPVVWLGILGASLATNSGEIDPGKLIVQNFGVLALPVLLMVLHGPIATNILNIYTFSVATQSLDITISRRKLNLFVGVFSLAAVVFFIFQEDFAAVLDAWLIGLVAWVAAWGGVMLVHYFWIEKRWPGNPERLFDAVGTKRLPGVNWAGVTSLLVGIFATWLFMYGLVPAMQGPIAVALGGWDLSWLAGGLASAGTYAVLGPKVHRKYLDDALAAPAQQQPSADLAVSTQPGAPAGL	PGPT0027745_5	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
D1-29_00170	963			hypothetical protein	ATGACCCTTGAAGCATTCCCGGACTTAGCCCATCCGATCACCTGGCCCGAGGGGAAGCGGGCAGCAGCCTCCTTCACGTTCGACGTCGACGCCGAGTCCTGCACCATTGCCCATGACCCCAAAAGCACGCGCAGGATGTCGCTGATGACGCATCAGTCCTACGGGCCGAAGGTGGCCGTTCCGCGGCTGCTGCAGATCCTTGCCCGGCAGGACGTCCGGGCCACGTTCTTCGTTCCCGGGTTTACGGCCGAGTGCTACCCGGACACGGTCCGGCGGATCGTGGACGCCGGTCACGAGGTGGCCCACCACGGCTACCTGCACGAACCCATGCAGGGCATCGACGCCGAAACCGAGGGCCGCTACATTGACCGCGGCCTGGAGGCGCTGGCGAAAGCAGCCGGAGTTGAGCCTGTTGGGTACCGGGCCCCGTGGTGGGAGCTGAACTGGCATTCAGCAGCGCTCCTCGCGGACCGCGGCTTCCTTTATGATTCGAGCCTGCTCGACGGCGACGCTCCGTACCGCTTCAGCGTGGCCCCCGATGACAGCCGGGACATCGTCGAAATCCCTGTGGACTGGGCTCTGGACGACTGGGAACAGTACGCCTTCTATCCCGGAGTCACCGGCAGCGGCGTTATCGAAAGCCCGGCCAAGGTCCTGGAAATGTGGACCCTTGAGGCGGAGGCGCACCATGCCCAGGGGAGCTGCTTTGTGCTGACCAACCATCCGTTCATCTCCGGGCGGCCGTCCAAGGCTGTTGCGCTGGAGCGTCTTATCGAGCGGGTCAAGGCGATGGACGGGATGTGGGTGGCAACCATGGAGGAAATAGCCGGGCACACCCGCAGAACTGTCTCCGAAATCCACAGCCATGCCCGGATCGAGGTGCCTTCCTTCCCGGACACCGGCGCCCGCTTTACCCCCGCTGGGGTTCGTGAGGCTGAGCAGATCGCGGTCCGCCAGAACTAA	MTLEAFPDLAHPITWPEGKRAAASFTFDVDAESCTIAHDPKSTRRMSLMTHQSYGPKVAVPRLLQILARQDVRATFFVPGFTAECYPDTVRRIVDAGHEVAHHGYLHEPMQGIDAETEGRYIDRGLEALAKAAGVEPVGYRAPWWELNWHSAALLADRGFLYDSSLLDGDAPYRFSVAPDDSRDIVEIPVDWALDDWEQYAFYPGVTGSGVIESPAKVLEMWTLEAEAHHAQGSCFVLTNHPFISGRPSKAVALERLIERVKAMDGMWVATMEEIAGHTRRTVSEIHSHARIEVPSFPDTGARFTPAGVREAEQIAVRQN	PGPT0018645_1364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
D1-29_00171	684	liaR_1	COG2197	Transcriptional regulatory protein LiaR	GTGGCTGATGCGGGTGCACTCATCTCCGTTGCCCTGATAGATGACCAGCCCCTTTTCCGGGCAGGCATCCGCATGCTCATTGAAAGCCAGGCTGACTTGGAGTTCTTTGGCGAGGCCGGCGACGGGGAGCAAGCGGTGGTCCTCGCCAGCGAACTCCGCCCGGACGTCATCCTGATGGACCTGCGCATGCCCGTCATGGACGGAGTCGAAGCCACCCGGCGGATTGTGGAGCATGCCGCTGCCACAGGCACCGACAAGCCCAAAATCATCGCCCTGACCACTTTCAACAGGGACCAGGCCGTGGTCCAAGCCGTCCAGGCCGGAGCCAGCGGCTATTTACTCAAGAGCGCCGAGCCGGAATTCCTCCTGGCTGCCATTCGGACCGTTCACTCGGGCTACTCGGTGATCGCACCAGGATCGGTCCACTCCCTCTTCCAGCACGCCGCCCGCAACACTCCCGCTGCGGACCCGGACTTGTCGGTCCTGGAGGTCCTCTCCGTGCGGGAACGGGACGTTTTTCTTCTCGCGGCCAAGGGCCTCAGCAATGGCGAAATCGCGGAAGGCCTGTTCGTCTCTGAGGCAACCGTCAAAACACATCTGCGCAGCGTGCTGGACAAGCTGGAACTCCGCACGCGGCTGCAACTTGTCGCCTTCGCCTACGAACGCCATCTACTAGGCAACTAA	MADAGALISVALIDDQPLFRAGIRMLIESQADLEFFGEAGDGEQAVVLASELRPDVILMDLRMPVMDGVEATRRIVEHAAATGTDKPKIIALTTFNRDQAVVQAVQAGASGYLLKSAEPEFLLAAIRTVHSGYSVIAPGSVHSLFQHAARNTPAADPDLSVLEVLSVRERDVFLLAAKGLSNGEIAEGLFVSEATVKTHLRSVLDKLELRTRLQLVAFAYERHLLGN	PGPT0014870_178	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
D1-29_00172	1392			hypothetical protein	ATGGAATCAGTTCTGAAAATTGCGCGGCCTTGGGGTGCCCCAGCGGCAGCCGTCATCTTTTTCCTCCTGTGGTGCCTCGGTGAGGCCGGCCGAATGGGAGGGTCCTGGGTGACATGGTCAGGAAACTGGCCGCTGGCCCTGATGACACTGGCTATTGCCACGGCCTCCTGGAAACCGCTGGTATCGCTCGGATTCACAGCAGCCCTCCTCGCCGCACAGTTGACTCACGGCTTGCCGCGTGTGGAGTCAAACACCTGGGCCATTTACCTGGGCTCCTTCATTGCCCTTGGCTTTATCCTCTGGACCGCACCCCGGCGGATGCGGTTTATCGCGGCCGGCGCCAATCTGGTTTTCGCAGCCCTGATGACCGTCCTCATGCTCTCCTGGAGATATGGCGCCGGGGTCGGCTGGTTCCAGCCCATGCACCACGGTGACAAAGCGATGTTCACGTCCTATGGATTGCAGCTGTTTACCCTCCTTCTGCTGATCGCCGGAGCCTGCGCCGCCGTCGGACTCCTGCTGGCCCTGTCCCAGGAACGCGGCACCCTCTTCCGTTCCCGCGAGCTGGCCCGGAACACCCTGAAGGAAACCGAGATCGACCTCATCGTGGAGCAGGAACGCACACGCATCGCCCGCGACCTCCACGACGTCCTGGCCCATTCCCTTGCCGTCATCGCCGCGCAGGCCGACGGCACCCGCTACTTGAGCCAGGACCAGCCCCCTGCCGTGCTCAACGCGCTGGACACCATCGCCCGCTCAGCGCGAAGCGCGCTCGTGGACGCCCAACGCGTGATCGAATGCGTCCGCGACGATGGAATGGCAACGCCACAGCCACGGCTGAGCGACATCAAGGGGCTGATCGAGACCATGCAGCGGGGCAGTCTGAAGATCCAGTCCAGCGAGTCCGGCACACCCGTTGAGCTCTCCACTGGTCAGCAGGTAGCCGTGTTCCGGATCGTTCAGGAATGTATGACCAACGCGCTCAAACACGGCGGCCGCGGCACGGAAGTTCGGCTCCACCATGACTGGAGCGGCCCGGGCCTTACCCTGCACGTTGCCTCCGCTGTACCCTCCGGCCAGGACCAGGCCGACGACGCGTCCCCGCGCCGGATCGGCCGCGGTCTTCCCGGAATGCGTGAACGCGCCCACCTGGCGGGCGGCTGGCTGACAGCCGGACCGGATGGGGATCACTTCCGGGTGACGGTTTTCATCCCTTACGGGCCGCTCGACGCCGGTCCACACAGTTCTGCCCGTCCAGACAATCCCGCCGCCGGGGCTGAAGACGGCCGTACTCCCAACGGAATTCCGGCTGCGGTCACCCATCCCGTACTGGAAGCAATAGGCTCGCCTCAGCCTCCCGCGGCCGCATCGGAAGCGGCCCGCCGTGGCTGA	MESVLKIARPWGAPAAAVIFFLLWCLGEAGRMGGSWVTWSGNWPLALMTLAIATASWKPLVSLGFTAALLAAQLTHGLPRVESNTWAIYLGSFIALGFILWTAPRRMRFIAAGANLVFAALMTVLMLSWRYGAGVGWFQPMHHGDKAMFTSYGLQLFTLLLLIAGACAAVGLLLALSQERGTLFRSRELARNTLKETEIDLIVEQERTRIARDLHDVLAHSLAVIAAQADGTRYLSQDQPPAVLNALDTIARSARSALVDAQRVIECVRDDGMATPQPRLSDIKGLIETMQRGSLKIQSSESGTPVELSTGQQVAVFRIVQECMTNALKHGGRGTEVRLHHDWSGPGLTLHVASAVPSGQDQADDASPRRIGRGLPGMRERAHLAGGWLTAGPDGDHFRVTVFIPYGPLDAGPHSSARPDNPAAGAEDGRTPNGIPAAVTHPVLEAIGSPQPPAAASEAARRG				NA	NA	NA	NA	NA
D1-29_00173	564			hypothetical protein	ATGAACACCGTCACCACCACCAAGCCGTTCGCCGACCTCGCTGCTATCGAGGCAACCGTCGAAGCCGTCACCGCCCAGCGTGAACTCGGCCGCGTCACTTTTACCATGAACAGTGAGTCCGCAGGCGGTCTAACAGCGAAGACCGAAACTGGACCACTGGTGCAGGCAGGCGTACCGGACGAGTCACGACGTGGAAAGTACACGCTGCACAGTGACGAGCCCATCTCACTGCTAGGCACAGACACTGCCGTCAGCCCGGCTGAATACATTCTCAAAGGGCTCGCCGGCTGCTACGTCGTTACCCTCGCCTCACTCGCCGCATCCCGCAACATCACGCTCGAGCAGATCCGGCTCACCCTCGGATTCGATATCGATCTGAGCGGATTCCTCGGCATCGACAAATCCGTCCGAAAGGGCGCAGAACACATCACGGTCGACGTGGAACTCGAAAGCCCAGGCACTTCACGAGAAGACCTTCAAGACCTCGTAAAGGCACTGGAGGCGACCTCGCCAATCCGCGACACGCTTGCCAACCCCGTGAAAGTCACCACCACTCTCAACTAG	MNTVTTTKPFADLAAIEATVEAVTAQRELGRVTFTMNSESAGGLTAKTETGPLVQAGVPDESRRGKYTLHSDEPISLLGTDTAVSPAEYILKGLAGCYVVTLASLAASRNITLEQIRLTLGFDIDLSGFLGIDKSVRKGAEHITVDVELESPGTSREDLQDLVKALEATSPIRDTLANPVKVTTTLN				NA	NA	NA	NA	NA
D1-29_00174	747	dauR	COG2964	Transcriptional regulator DauR	ATGACCCAGATTGGTTCGGTCGGATACACAGCTCCGTCCCCGGACGCGCTGCACGGAATGGACGCCGAGTCCATCAACCTGGTCCTGGAGCTCCTGGTGGCCCCCCTTCAGGCCGCGGTGCCTCAGCCCACCGAGGTGGTCCTGCACGACCTGCAGCGAATCCCTAACACTGTCCGTGCTATCGCCGGAGACGTCACCCGGCGCCAGATCGGTGACCCGCCTACCGACAAATTGCTCGAACGCGTGGCAGCCGGTGATTTCTCCCATGAGATCGGCTACCGCTCGCAACTGCCTGACGGGAGAATCCTCCAGAGCACGACGATCATTTACGTCGACAAGGAAGGCCGTGCCGCCGCAGCCCTGTGCCTGAACGCTGACGTGTCAGCCTGGGTCACGCTCCGCTCGGCCTTGGACCGCTTCGTTCTCGGCCACGACGGGAGCTCCGTGCTCGCGGCGCCTGCACTGAACAAGGCGACGTCGGTCGGCCCCCAGGGGAGCGAGTACTTCCCGCACAGCGTGGAGGAACTCAGCTCCAAGCTCGTCGAGGCGGCGATCGCCGCCATTGGGGTCCCCGTCGAACAAATGCGCAAGGAACACAAAGTGCAGGTCGTGGCGGAGCTTGAACGTCGTGGCTTCTTCCTCGTAAAGCAGGCTGCCGAGACTGCCGCCGTCGCGCTCGGAGTCACGCGGTTCACCATTTACAACTACCTCAACGAGCTCGGCGGAGAGGTCGAAGAGACAGCCTAA	MTQIGSVGYTAPSPDALHGMDAESINLVLELLVAPLQAAVPQPTEVVLHDLQRIPNTVRAIAGDVTRRQIGDPPTDKLLERVAAGDFSHEIGYRSQLPDGRILQSTTIIYVDKEGRAAAALCLNADVSAWVTLRSALDRFVLGHDGSSVLAAPALNKATSVGPQGSEYFPHSVEELSSKLVEAAIAAIGVPVEQMRKEHKVQVVAELERRGFFLVKQAAETAAVALGVTRFTIYNYLNELGGEVEETA				NA	NA	NA	NA	NA
D1-29_00175	1197		COG1168	Putative cystathionine beta-lyase	ATGGGGAACCCGCTTGAGGAGCTCTCCCTCGAACAGCTCCGCCAGCGCACGAGCATGAAATGGCGCACTCATCCCTCCGACGTGCTGCCTCTGTGGGTTGCCGAGATGGACGTCCGGCTCGCGCCGCCCGTTTCGGAAGCGCTTCACCAGGCCATCGATGCCGGGGACACCGGATATCCGGCTGGGACGGAGTTCGCGGAGGCCATAAGTGCGTTCGCTTCCCGGCGCTGGGGCTGGGATGGGCTGGCAGTCGAGCGCACGGCCATCGTGCCCGACGTGATGATGGGCGTCGTCGAAATCGTGCGGCTGATTACAGATCCAGGAGACGCCGTTGTGGTCAACTCGCCGGTCTATGCGCCTTTTTACGCTTTCATCACCCATGATTCGCGCAGGATCATTGAAGCGCCGCTAGGACAGGATCTCCGGATCGACCTCGGCACCCTCGAGGAAGCTTTCAAGCACGCGCGGTCGCAGGGACGGAATGCCGCCTACCTGATCTGCAATCCACATAACCCGACCGGGGTGGTCCACAGCCCTGAAGAACTCGCAGCCGTCGCGGCTCTCGCCCATAACTACGGGGTCCGGGTCGTCTCGGACGAGATCCACGCCCCGCTCGTCCTTCCGGGAGCAAAATTCACGCCATATCTCAGCGTGCCCGGGGCCGAGAACGCATTTGCGCTCACGTCGGCGTCAAAGGCCTGGAACCTCGCCGGCCTCAAGGCAGCACTCGCAATCGCCGGACCAGACGCGGCCGATGATCTGGACCGCATACCCGAAGAAGTCAGCCACGGACCGAGCCACCTGGGGATCATCGCCCAGACCGCCGCGTTCCGTGATGGTGAAGAATGGCTGGATGCTCTGCTCCGAGGCCTCGACGCGAACAGGACTCTCCTCGGAAAGCTGCTCGCCGAACATCTTCCCGGTGTCGGGTTCACCCCTCCCGAGGGGACATACCTGGCCTGGCTGGATTGCAGCCACCTCGCCGTGGATTCGCCAGGCGGCCCCGAAGGCCTCGCCACCGTTGCCGACCTTGCCGGGCCGGCCAGGATGTTCCTCGACAAGGCGAGGGTCGCACTGAGCTCCGGCCATGTCTTCGGCACGGGCGGGGCGGGACATGTTCGCCTCAACTTTGCCACTTCCCAGGCCAATCTCACAGAGGCCATCACCCGGATGGGCCGAGCCGCCCACCCCGATTGA	MGNPLEELSLEQLRQRTSMKWRTHPSDVLPLWVAEMDVRLAPPVSEALHQAIDAGDTGYPAGTEFAEAISAFASRRWGWDGLAVERTAIVPDVMMGVVEIVRLITDPGDAVVVNSPVYAPFYAFITHDSRRIIEAPLGQDLRIDLGTLEEAFKHARSQGRNAAYLICNPHNPTGVVHSPEELAAVAALAHNYGVRVVSDEIHAPLVLPGAKFTPYLSVPGAENAFALTSASKAWNLAGLKAALAIAGPDAADDLDRIPEEVSHGPSHLGIIAQTAAFRDGEEWLDALLRGLDANRTLLGKLLAEHLPGVGFTPPEGTYLAWLDCSHLAVDSPGGPEGLATVADLAGPARMFLDKARVALSSGHVFGTGGAGHVRLNFATSQANLTEAITRMGRAAHPD	PGPT0001990_181	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001990-patB|malY-K14155	NA	NA
D1-29_00176	417			hypothetical protein	ATGGCTGAGTCAGCTACGTCCACACCGCTCTATGAACGTGCGGTCCGGGTGGGGGATCTACTCTTTGTCTCCGGCCAACTCCCTATCGGAGATGGTGGGTTGCTCTATCCCGGGCGGGTGGGCCAGGAAGTTACAGTCGAGCAGGCGCGTGAGGCTGCCGTGCTCGCTGCCAGCCGATGCCTGGACGTCGTCCGCGGCGAACTCGGGTCGTTGGATGCGGTCAAGGGTATCGCCAGGATCGGAGGATACGTCTCAGCAGGGGAAGGATTCGTGGATGCATCCGCCGTTGTCGATGGTGCGTCCCAACTCGCCCTCGATGTCCTTGGAGAAAAAGGGCACCATGCGCGGTTGGCAATGGGGGTAGCCTCGCTGCCGCTGGGTGCATGCGTGGAGATTGAAATGACTGTCCTGTGCTAG	MAESATSTPLYERAVRVGDLLFVSGQLPIGDGGLLYPGRVGQEVTVEQAREAAVLAASRCLDVVRGELGSLDAVKGIARIGGYVSAGEGFVDASAVVDGASQLALDVLGEKGHHARLAMGVASLPLGACVEIEMTVLC				NA	NA	NA	NA	NA
D1-29_00177	1497	ansP2_1	COG1113	L-asparagine permease 2	ATGTCGATTCAGCCACCCGTCACAGACTCCGGGCACGCACACGCACCCGACCAAGTCCTGCACGCCGAGGATGCCGGCTATCAGAAAGGACTTAAATCCCGACAAATCCAGATGATCGCCATCGGGGGCGCGATCGGCACCGGCCTATTCCTCGGCGCAGGTGGCCGCCTTGCCGCAGCCGGGCCATCGCTCTTCGTCGCTTACGCCATCTGCGGGGCCTTCGCCTTCCTGATCCTGCGCGCCCTCGGCGAACTCGTACTGCACCGGGCATCGTCGGGCTCGTTCGTCTCCTACGCCCGAGAATTCTTCGGAGAGAAGGCAGCGTTCACCGTGGGATGGTTCTACTGGCTGGTCTGGGCCGCCACGACCATCGCCGACACGACCGCTGCCGCGCTCTACATGAGCTTCTTCGGCAGGTACGTCCCCTGGATCGCCGCGGTCCCGCAATGGGGCTGGGCCCTCATCGCCCTGGTGCTCGTCCTCGCCCTCAACCTTGTCTCCGTCAAGGTCTTCGGCGAGATGGAATTCTGGTTCGCCCTCATCAAGGTCGCCGCACTGGTCATTTTCCTCCTCGTGGGCATCTATTTCGTCCTCTTCGGCACCCCAACCGGTGATCCGGTCGGCTTCCAGCTCATCTCCGACCACGGCGGAATCTTCCCGAACGGCATCATGCCGATGATCCTGCTCATGTCGGGAATCATCTTTGCCTACGGCTCAATTGAGCTCGTCGGCACCGCCGCCGGCGAAACCGAGAACCCGGCCAAGGTCATGCCTAAGGCGATCAACGCCGTCATCGCCCGCATCGCGGTCTTCTACGTTGGATCCGTCGTCTTGCTTTCACTGCTGCTGCCCTACACCGCTTACGAAAAGGGCGTGAGTCCGTTCGTGACGTTCTTCAGCTCGATTGGCATCAATGGCATCGACTCCATCATGAACCTCGTCGTGCTCACAGCCGCCCTGTCTTCGCTCAACGCCGGGCTCTACTCAACCGGAAGAATCCTGCGCTCGATGGCCACCGCAGGCTCAGCGCCGAAATTCGCGCTCCGAATGAACAAGGCGGGCGTCCCCTACGGCGGCATTGCCATCACCGCAGCAGTTTCCTTCCTCGGCATCCCGCTGAACTACATCGTCCCCGGCGACGCGTTCGAGATCGTCCTTAACATCGCGGCCGTTGGCATCATCGTCGCGTGGGGCGCGATCGTCCTGTGCCAAATCCAGTTTCAGCGGTGGAGCAAGAAAGGTTGGACCCAACGTCCTTCGTTCCGCATGCCTGGAGCCCCCTTTACCGGCTATCTAACCATTGCCTTCCTCGCCGTGGTCCTTGTCATGATCCTTATCGAATCCCCGTTGACCATGCTCGTAACTGCAATTGCGGTGGCCCTCATGATCGCCGGCTGGTACGCATGCCGCGGAAGGATCCGCCAGATCGCCGCTGCACGCGACGGCTACACCGGAGCGGCACCCGTCGTCACCCACGCCACAGCCCGACAGCCATAA	MSIQPPVTDSGHAHAPDQVLHAEDAGYQKGLKSRQIQMIAIGGAIGTGLFLGAGGRLAAAGPSLFVAYAICGAFAFLILRALGELVLHRASSGSFVSYAREFFGEKAAFTVGWFYWLVWAATTIADTTAAALYMSFFGRYVPWIAAVPQWGWALIALVLVLALNLVSVKVFGEMEFWFALIKVAALVIFLLVGIYFVLFGTPTGDPVGFQLISDHGGIFPNGIMPMILLMSGIIFAYGSIELVGTAAGETENPAKVMPKAINAVIARIAVFYVGSVVLLSLLLPYTAYEKGVSPFVTFFSSIGINGIDSIMNLVVLTAALSSLNAGLYSTGRILRSMATAGSAPKFALRMNKAGVPYGGIAITAAVSFLGIPLNYIVPGDAFEIVLNIAAVGIIVAWGAIVLCQIQFQRWSKKGWTQRPSFRMPGAPFTGYLTIAFLAVVLVMILIESPLTMLVTAIAVALMIAGWYACRGRIRQIAAARDGYTGAAPVVTHATARQP	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
D1-29_00178	99			hypothetical protein	ATGCGAAAATGGCAACTGCCCATCATTACATTGCTTGTCATCGCGGCATTTGTGATTCTTTATCTCAACGGGCTTTTAGGAAATACGGCGGTCCCATAG	MRKWQLPIITLLVIAAFVILYLNGLLGNTAVP				NA	NA	NA	NA	NA
D1-29_00179	561	yyaP_1	COG0262	putative protein YyaP	GTGGATAGCGTCAGCTTCATGGGCACGGTGTTCGGCGGGATGGCTGCCAGCCTCGATGGTTATATCCGTTCAGAGACCGGGGACTTGTCCTGGCTGAACAATGCGATGGCCAAGGATGAGGACTACGGCTTCGAAGAAACCAGCCAAAGGACCGGCGCGTACGTCATGGGCGCCAACACCTACCGCGAAGTGGCTGGCACCGGCGGCATGGGTTCCGGGGCGCCGAGCTACGTGGTGACCCACGACAGGAGCCTGCCGGCACCGGCGAAAACCACATTGTTTTCAGGAGACCTCAGAGAGCTGGTGGCGGACATCAAGGCCTCCATCCCCGACAACAAGGACATTTGTGTCTTTGGCGGCTCTCAACTGCTCACCCAGTTCATCGAGTTGGAGTTGCTCGACGAACTGGGTATTTCCATCATTCCGGTTGTCCTCGGCGGCGGTGTGCCTTTCCTCGGCAGGACCAGCCAATCGACAAAGCTTGAGCTCCTGGAGTGCCGCTCCTTTCCGTCAGGGATTGTGCTGCTTAGTTACAGGCTGACGTATGTGCCGGCAGACTGA	MDSVSFMGTVFGGMAASLDGYIRSETGDLSWLNNAMAKDEDYGFEETSQRTGAYVMGANTYREVAGTGGMGSGAPSYVVTHDRSLPAPAKTTLFSGDLRELVADIKASIPDNKDICVFGGSQLLTQFIELELLDELGISIIPVVLGGGVPFLGRTSQSTKLELLECRSFPSGIVLLSYRLTYVPAD				NA	NA	NA	NA	NA
D1-29_00180	1089	iolG_1		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	GTGGGCAAGCCGCTGAATGTTGGAATAGTGGGCTGCGGCGCCATCAGCGCCCAGTACCTGGCCAGTTTCCGGAGGCTCAGCTCGGTTCGGCTGGTGGCAGTGGCGGATCTCGATCAGTCCCGCGCTCAGGCAGTCGCCAAAACGAACGACGGCGTCCGTGCGCTCAGCGTCGACGCTCTCCTTGATGACCCCGATGTTGAGCTGGTCCTGAACCTAACGGTTCCGGCAGTCCACGCCGAAGTGGCGCTGAAAGCGATTGCGGCGGGAAAGAGTGTGTACGGCGAAAAGCCGCTCGCTGCCACGACCGAAGAGGCACGCACGGTGCTGGATGCCGCGAAGGCCGCGGGCGCCGTCGTCGGCTGTGCGCCGGATACTGTCCTGGGCACCGGGGTGCAGACCGCCCGCAAGGCGATTGACGACGGCATGATCGGGACCCCGGTGTCCGCCACGGCCACCATGGCCACGCCCGGTCATGAGTTATGGCATCCCAATCCTGATTTCTACTACCAGCCCGGCGGCGGCCCGCTCCTGGACATGGGCCCCTACTACGTCAGCGCCCTGGTGACACTGCTGGGGCCGGTGGTGTCAGTGACCGGGGCGGCGAGCCACACCCGTGCCCAGCGCACCATCGGCTCGGGTCCCCGCGCCGGCCAGGTGATTCCGGTGGAGGTCGACTCGCACGTGACGGGTATCCTGACCCACCAGGACGGAGCCATCTCCACGCTGGTGATGAGCTTCGACGCGGTGCGCACCAAGGCCCCGAACATTGAGGTGCACGGCGAATTTGGCTCCCTGGTGGTCCCGGACCCCAACCGTTTCGACGGCGATGTTGAGCTTTTCGCCCTCGGCTCCCGCGAGTGGGAAACCCTGCCGGTCTCAGCCGGCTATGTGGACGCCGGCCGGGGCTTCGGCATCGCCGACCTCGCCTCGACCCCTGCAGGAACGGAACCCCGCGCTGGCGGGCAGCTGGCCTTCCATGTGCTCGATGTTATGGAATCGGTGCTGGAATCCGCCCGGGCAGGGTCCTCGGTAACCGTCCGCAGCACCGTGGCCCGGCCGGAGCCTGTGCCGCTGACGGCTGTTGCCTGA	MGKPLNVGIVGCGAISAQYLASFRRLSSVRLVAVADLDQSRAQAVAKTNDGVRALSVDALLDDPDVELVLNLTVPAVHAEVALKAIAAGKSVYGEKPLAATTEEARTVLDAAKAAGAVVGCAPDTVLGTGVQTARKAIDDGMIGTPVSATATMATPGHELWHPNPDFYYQPGGGPLLDMGPYYVSALVTLLGPVVSVTGAASHTRAQRTIGSGPRAGQVIPVEVDSHVTGILTHQDGAISTLVMSFDAVRTKAPNIEVHGEFGSLVVPDPNRFDGDVELFALGSREWETLPVSAGYVDAGRGFGIADLASTPAGTEPRAGGQLAFHVLDVMESVLESARAGSSVTVRSTVARPEPVPLTAVA				NA	NA	NA	NA	NA
D1-29_00181	699			hypothetical protein	ATGACCGGCAAGAAGTCCGCCCTGGTGGTCCGTGGCGGGTGGGACGGGCACCAGCCAGTGGAGGCGACGGACCGTTTCATCCCTTTCCTTGAGGGGAACGGATATAGCGTCCGGGTGGAGGACTCCCCCAAGATCTACGGGGACACTGATTACATGGCGGGCGTGGACCTGATCATGCAGTGCATGACCATGTCCACCATCGAGCGGGACGAATTCGATGGGCTGCGCACCGCCGTCGAAAACGGCACCGGACTTGCCGGCTGGCATGGCGGGATCGCCGATTCCTACCGGAACACGTCGGACTACCTGCACCTCATCGGCGGCCAGTTTGCGTGCCATCCGGGCAAGCACCCGGACGAGCGCACCGCCGGCCAGGCGGACAACTACGTGCCGTACACAGTGAACATGCTTCCCGCGGCGGCGGATCACCCGATCACCCGCGGCCTCAGCGACTTTGACCTGGTCACCGAGCAGTACTGGGTGCTGGCGGATGACTACATCGACGTGCTGGCCACCACCACCCAAAAAGTGCGCCCGTGGGACCCCTGGAACCGCGAAGTCACGTCCCCGGCGGTCTGGACCCGGCAATGGGGCCAGGGGCGGATCTTTGTCTGCACCCCCGGCCACAACCTGAAAGTCCTGGAGGACGCCAACGTGAACACCCTGATCGAAAGGGGACTGCTGTGGGCAAGCCGCTGA	MTGKKSALVVRGGWDGHQPVEATDRFIPFLEGNGYSVRVEDSPKIYGDTDYMAGVDLIMQCMTMSTIERDEFDGLRTAVENGTGLAGWHGGIADSYRNTSDYLHLIGGQFACHPGKHPDERTAGQADNYVPYTVNMLPAAADHPITRGLSDFDLVTEQYWVLADDYIDVLATTTQKVRPWDPWNREVTSPAVWTRQWGQGRIFVCTPGHNLKVLEDANVNTLIERGLLWASR				NA	NA	NA	NA	NA
D1-29_00182	1224	iolG_2		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAGCACCCCGCCACCCCTCCGGATTGGCATGATCGGTTACGCCTTTATGGGCGCCGCGCATTCCCATGCCTGGCGTACCGCCCCGCGTTTCTTCGACCTGCCCCTGGAACCACAACTGACCGCAGTGGCCGGCCGCAGCGCCACGGGCGTCCGGGAAGCTGCCGCCAAACTGGGATGGGCCTCCACGGAGACGGATTGGCGGCGGCTGATTGAACGGGATGACATTGACCTGATCGACATCTGCACCCCCGGTGATACCCACGCCGAGATCGCGATCGCCGCCCTTAATGCGGGAAAGCATGTTCTCTGCGAAAAGCCGCTGGCCAACTCCGTGTCCGAGGCAGAGCGGATGGCGGAGGCGGCCACTGCGGCTGCGGACAAGGGGGTGTTCTCCATGTGCGGCTTCACCTACCGCCGCACGCCTGCACTCGCCCTGGCGAAGCGGATGATTGAGCAGGGCCGCCTGGGCAGCATCCGGCACGTCCGGGCGCAGTACCTGCAGGACTGGCTCAGCGACGAAACGGCCCCCATGACCTGGCGGCTGGACAAATCGAAGTCCGGCTCGGGATCGCTCGGCGACATTGGCGCGCACAGCATCGACGCTGCCCAGTGGGTCACCGGCCAGCAGATCAGCGGCGTCTCCGCACTGCTGGAAACCTTTGTCCCCGAACGCCCCCTGGCCGGCGACCTGGTTGGGCTGGGCGGTCACGGCGATGTGGACGCGAACGCACCGCGTGGCCAGGTGACGGTGGACGACGCTGCCATTTTCAGCGCAAGGTTCGACGGCGGCGCCGCTTCCGCCGGCAGTGCTTCCAACGGCGGTCAGCCAGCCGGTGCGATAGGAGTGTTCGAGGCCACCCGCTATGCGCTGGGCCGCAAGAACGCGATGCGGCTGGAGGTGAACGGTACCAAGGGCTCGCTGGCCTTCGACTTTGAAGACATGAACGTGCTCTCCTTTTACGATGCCGCCGCGGGTCCCGACGCCGGCTTCCGCAGGATCATGGTGACCGAGCCCGAGCACCCCTATGTGGGCAACTGGTGGCCCACAGGGCATGGGCTTGGCTACGAACACGGATTCACGCACCAGGCAGTGGACCTTGTGCATTCCATTGCCGAACAGCGCCAGCCCGAGCCCTCCTTCGCCGCCGCGCTCCAGGTCCAGCGTGTGCTTGCTGCCGTCGAGGCGAGCGCGGCCGCCGCCAGCCGCTGGCAAACCGTCTGA	MSTPPPLRIGMIGYAFMGAAHSHAWRTAPRFFDLPLEPQLTAVAGRSATGVREAAAKLGWASTETDWRRLIERDDIDLIDICTPGDTHAEIAIAALNAGKHVLCEKPLANSVSEAERMAEAATAAADKGVFSMCGFTYRRTPALALAKRMIEQGRLGSIRHVRAQYLQDWLSDETAPMTWRLDKSKSGSGSLGDIGAHSIDAAQWVTGQQISGVSALLETFVPERPLAGDLVGLGGHGDVDANAPRGQVTVDDAAIFSARFDGGAASAGSASNGGQPAGAIGVFEATRYALGRKNAMRLEVNGTKGSLAFDFEDMNVLSFYDAAAGPDAGFRRIMVTEPEHPYVGNWWPTGHGLGYEHGFTHQAVDLVHSIAEQRQPEPSFAAALQVQRVLAAVEASAAAASRWQTV				NA	NA	NA	NA	NA
D1-29_00183	1032	ccpA_2	COG1609	Catabolite control protein A	ATGCCGTCTGAGCAGCAGGCCCGCCTGACCCTGGCGTCGGTCGCCAGGGAGGCTGGGGTTTCCGCGCCTACCGTCTCGAAAGTCATCAACGGCCGCCACGATGTCTCCGCCGAAACCCGGGCAAGGGTGTTGGCTGTGTTGGCCCGGACCGGCTACAAATCACCGCTGCAGCAGCGGCGTACGCTGGCGGAAAAGCCCGCGGTGGACGTAGTCCTGGACTCACTGAACTCCGCCTACAGCGTGGAGGTGCTCAACGGCATCCTGGAGTGCGCGGAACTCTCCGGTGTGGAGGTCCTGCTCACGGTCAGGGGAATCGACGGCGCCGCACCACTGAATCCGGAACGGCGCGCCCAGCGGATCATGGACGAGGGCCGTTGCGGGATGATCGTGGTGACGTCGGCCTTCGGCGACGCGCCCCTTGACGCCTTCCACCGCCGCGGCATTCCGGTGGTTGTCATCGATCCCCTCAATCCGCCGTCGGAAGAAGTGGTCAGTATTGGCGCCACCGACTGGGCCGGCGGCAAGGACGCCACGGCACACCTCCTGGCGCTGGGCCACCGAAGAATTGCCTATCTGGGCGGGCCGGACACCGTCGAATGCAACCAGGCCAGGCTGCACGGTTACCTGGCCGCGCTCCGATCAGAAGGAGTCGCTGTGGGGGACGGCTATATCGTTTCGGGCCCCTTCTCCGCGGATCACGGAGCCCAGGGGCTGAACACCCTGCTGCAACTGGAGCCACGGCCCACTGCCATCTTTGCCGGCAATGACGCCATCGCCCTGGGCGTGCTGGCCGAAGCACGCAGGCTGAACATCCGGGTTCCGGCTGACATCAGCGTGGTGGGCTTTGACGGTACCCGCCCGGCCCAGGACTCCGTGCCTGCACTGACGTCTGTGGCGCAACCGCTCCGCGAGATAGGCCGCACAGCCCTGCGGATTGTGCTGCGGCAGGTGCGCGGCGAGGTGCCCGACTCACGTCGGGTGGAACTGGCCACCCACCTGTTGGTCAGGGAATCCACCGCCCCGCCGCCCTAA	MPSEQQARLTLASVAREAGVSAPTVSKVINGRHDVSAETRARVLAVLARTGYKSPLQQRRTLAEKPAVDVVLDSLNSAYSVEVLNGILECAELSGVEVLLTVRGIDGAAPLNPERRAQRIMDEGRCGMIVVTSAFGDAPLDAFHRRGIPVVVIDPLNPPSEEVVSIGATDWAGGKDATAHLLALGHRRIAYLGGPDTVECNQARLHGYLAALRSEGVAVGDGYIVSGPFSADHGAQGLNTLLQLEPRPTAIFAGNDAIALGVLAEARRLNIRVPADISVVGFDGTRPAQDSVPALTSVAQPLREIGRTALRIVLRQVRGEVPDSRRVELATHLLVRESTAPPP	PGPT0017992_922	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
D1-29_00184	1494	dauA_1	COG0659	C4-dicarboxylic acid transporter DauA	ATGCAGCCCCTGCAGCTCCAGTCCGTCCGGGCCACCCTCCGCTCTCCCCGCCGGCTCAAGACCGAGGCCCTTGCCGGACTGGTAGTGGCACTGGCGCTGATCCCGGAGGCCATCGCCTTCTCGGTGATTGCGGGCGTTGACCCGCGGATCGGCCTGTTCGCCTCCTTCACCATGGCAGTCACCATCTCCTTCGTGGGCGGCCGGCCCGCCATGATCTCCGCGGCCACCGGCGCCGTGGCCCTGGTCATTGCCCCGCTGATGCGCAGCCACGGCCTGGACCACCTGATCGCCGCCGTGATCCTGGCAGGGGTCTTCCAGATCCTGCTGGCCGTCCTGGGCGTCACCAGGCTGATGCGCTTCATCCCCCGCTCGGTCATGGTGGGCTTCGTCAATGCCCTGGCCCTTTTGGTGTTCATGGCGCAGATTCCCGAGCTGATCGGCGTGCCGTGGATGGTTTATCCGCTGGTTGCCGTGGGCCTGGCCATCGTGGTCTTCCTGCCCAGAATCACGACGGCGGTTCCGTCACCGCTGGTGGCCATCGTGGTGCTCACCCTGTTTGCCGTACTGGCAGGGGTGGACGTGCCCACGGTCCAGGACAAGGGCCAACTGCCGGAGAGCCTGCCCTCGCTGTTCTTTCCCAGCGTCCCGCTGACCTGGGAGACCTTCCAGGTCCTGGCACCTTTCTCGCTCTCGATGGCTTTGGTGGGGCTGCTGGAATCACTGATGACGGCCAAGCTCGTGGACGACATCACGGACACGCGGTCCAACAAAACCCGTGAATCCTGGGGCCAGGGGGTGGCCAACATCGTGACCGGCTTCTTTGGCGGCATGGGCGGCTGCGCGGTGATCGGCCAGACCATGATCAACGTCAAGGGATCGGGAGCCCGGAGCCGGGTGTCCACGTTCCTGGCCGGCGTCTTCCTGCTGATCCTGGTGGTGGCGCTGGGCGATGTAGTGGGCCTCATTCCCATGGCTGCGCTGGTAGCCGTGATGATCTTCGTTTCCGCCATCACCTTCGACTGGCACTCCGTTGCTCCGCGCACACTGCGCCGGATGCCCAAGTCCGAAACCGCCGTCATGCTCATCACCGTGGCGGTGGTGTCGGTGACGCACAACCTGGCCATCGGGGTGGGAGCGGGGGTGCTGGCGGCCATGGCCATGTTCGCGCGCCGGGTGGCCCACTTTGTGACCGTGGAGCGCACGGTGGTGGAACTGAACGGCGAGAACGTGGCCATTTACACCGTGGACGGCGAGCTGTTCTTTGCCTCCTCCAACGATCTCTACACCCAGTTCGAATACGCGCTGGACGCCGAACCTGGCATTGACCGTGTCATCGTGGACCTGCACGCCTCGCACCTCTGGGATGCCTCCACCATTGCGGTGCTGGACGCCGTCACGGAGAAGTATCGCCGGCACGGACGCGAGGTGGAGCTGATCGGGCTCAACTCGGCCAGCATCCAGATGCGCGAGCGCCTGGCAGGCAAGCTGAACTGA	MQPLQLQSVRATLRSPRRLKTEALAGLVVALALIPEAIAFSVIAGVDPRIGLFASFTMAVTISFVGGRPAMISAATGAVALVIAPLMRSHGLDHLIAAVILAGVFQILLAVLGVTRLMRFIPRSVMVGFVNALALLVFMAQIPELIGVPWMVYPLVAVGLAIVVFLPRITTAVPSPLVAIVVLTLFAVLAGVDVPTVQDKGQLPESLPSLFFPSVPLTWETFQVLAPFSLSMALVGLLESLMTAKLVDDITDTRSNKTRESWGQGVANIVTGFFGGMGGCAVIGQTMINVKGSGARSRVSTFLAGVFLLILVVALGDVVGLIPMAALVAVMIFVSAITFDWHSVAPRTLRRMPKSETAVMLITVAVVSVTHNLAIGVGAGVLAAMAMFARRVAHFVTVERTVVELNGENVAIYTVDGELFFASSNDLYTQFEYALDAEPGIDRVIVDLHASHLWDASTIAVLDAVTEKYRRHGREVELIGLNSASIQMRERLAGKLN	PGPT0003020_4378	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
D1-29_00185	1107			hypothetical protein	ATGCCGAGTAACTGGGACAGCCTGGACGTCAGCCTCCGCGAATCCGTGCAGGAGAACGTGGAGCTTTACGAGCGCGTCCGGCCTGCCCTGAAGCTGGTCACGAAGGACGTTCTGCACATCCTGCGGGACATGCTCAAGGACACCGAGGTCACCCCGCTCTTTGTTACCGGCCGCACCAAGTCGGTGGAGTCGTTCCGGGAGAAAATTTCCCGGATCGAGGAGCCGCTGGAGCCCGGCGGCCCGCCGGTGCTGAAGTTCCCGGATCCGTTCAGGACCCTCAATGACATGGTGGGCGTGCGGGTCATCACCAAGCTGCCTGCCGAGAATGCCCTGGTGGCCAACCTGATTAAGCGCCAGCGCCAGGTCTTTGACTGCCGCGGCGACCGGGAGAAGGACATCGGCTCCATCGAGTCCGGCACGTACGGTTACTCCAGCCGCCACCTCATCCTGCGCAGCATCCAGAACGAGGCCGTCAAGGAGTACCAGCACGCCTTCAACCCGGACATCCAGCCCAACGGCAGCTACTTCTTCGAATGCCAGATCCGCACTGTCTTTGCCCACGCTTGGAGCGAGATTGAGCACGACATCCGCTTCAAGGCCGAGGATCCGCGCGCCTGGACACCCCACTTCGACCGTCAGTTCACCGCCACCGCCGCCATGCTGGAGACGGTGGAAGGCGCCTTCGCCGATCTCCACGAGCGCTATGAGGAGGTCCGCAGCTACTGGGACATGGACGGGGAGGGCGCCGCGCAGCTGACGCCCAACAGGATCCGTGACGTCTGGCGTACGCTGCTGCCACACGTGGACCGTAAAGTGGATGATGACTGGGGCTGGGCCGCCGAACTCATGGCGGCGCACGGCCTCAAGGAGACCGTCCAGCTGGCCGGGCTGCTCAGCGCCAACCGGATCACCGAGGTCCGCAAGGCGCTTGATCACCGCTACTCCCCCGGCCCGGACCGCCTGCTGGATGACCTCCTGCTGTGGCAGTACGGGCCCAAACACATTGACCTCACCGCCGAGGCGCCCGACGCCGTTCCGCACCCGCGGCGCGACAGCCTCCTCCGGCGGCTGAAACAGATCGAGCGTTACCGCCAGACCAAGAAATAG	MPSNWDSLDVSLRESVQENVELYERVRPALKLVTKDVLHILRDMLKDTEVTPLFVTGRTKSVESFREKISRIEEPLEPGGPPVLKFPDPFRTLNDMVGVRVITKLPAENALVANLIKRQRQVFDCRGDREKDIGSIESGTYGYSSRHLILRSIQNEAVKEYQHAFNPDIQPNGSYFFECQIRTVFAHAWSEIEHDIRFKAEDPRAWTPHFDRQFTATAAMLETVEGAFADLHERYEEVRSYWDMDGEGAAQLTPNRIRDVWRTLLPHVDRKVDDDWGWAAELMAAHGLKETVQLAGLLSANRITEVRKALDHRYSPGPDRLLDDLLLWQYGPKHIDLTAEAPDAVPHPRRDSLLRRLKQIERYRQTKK	PGPT0014825_56	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0014825-ywaC|yjbM-K07816	NA	NA
D1-29_00186	1038	cytR_1	COG1609	HTH-type transcriptional repressor CytR	ATGAAATCCGCGGAACAGGTGAAGCAGTCCGGGCGTGCGCCGCGGGTCACGGCGGCCATGGTGGCTGCCCGCGCCGGCGTTTCGACGGCGACCGTCTCGCTGGTTGCCAACGGCAAGACCGCGGGACGCGTCTCCGAAGACAATATTTCCCGGGTCCGGGAGGCAATCTCCGAGCTCGGCTACGTGGTGGACGGCATCGGCAGCTCCCTCGCGAAGGGGGTGAGCTCCATCGTCCTGCTGGTGGCACCGGACATCTCCAACCCGTTCTTCGCCAAGGTGATTGCAGGTGTCCGGGAATCCCTGGGGGCCGATTACCAGCTGCTCTTGTCAGTGACCGACGCCGGTGAGTTTCCGCAGGCGGACGACGTCAGGAAGCTGATGGCACTCCGGCCGGCCGGGCTGCTGGTGGATGCCCCGAACGCTGACTTCCTCGAGGAGCTGTCCGCGGCCGGGCCCCTCGTCCTGCTGGACGCACCGGGCCTGGAGGCCTACGCTCCCTCGGTCAACCTGGACGTAGCCCACGGTGCCCGTGAACTGGCGGCGCACCTGGCCGCCGTCGGGCATTCAGAGGCGGCGTACCTGGACAGCCTGACCGGCACCGCAACCTTCGACGTCCGCCGTGAAGCCTTCCTTGCCGAAGCCGAGGAACGCGGTATTTCGGTGAAGCCAGGCAGCGTCATCAGCACCACCATCGACGTTGGCGCTGCCGCCCAGGCGTTCGCAGCCGCCTGGCCGCAGTGGCAGGAAGCGGGCGTCACCGCCGTCGTCTGCGCTACGGACACCCACGCGTACGGGGTGCTGCAGGAAGCCCGCGTTGCCGGGGTCCGGATCCCGGCTGAGCTGGCCGTGGCCGGGTTCGATGACCTGCCGTACTCAGCCACCAGCAATCCCAGCCTGACCAGCGTCCATCTCCCCGCAACGCCGCTGGGGGCCAAGGCTGGCGAGCAACTCCGGCGCCTGATGGAAGGCCTGCCCTTGGAGCAGCCGCAACTGACACTCGAAAGCTCGCTGGTGGTGCGAAACTCCACCTCTGCCTAA	MKSAEQVKQSGRAPRVTAAMVAARAGVSTATVSLVANGKTAGRVSEDNISRVREAISELGYVVDGIGSSLAKGVSSIVLLVAPDISNPFFAKVIAGVRESLGADYQLLLSVTDAGEFPQADDVRKLMALRPAGLLVDAPNADFLEELSAAGPLVLLDAPGLEAYAPSVNLDVAHGARELAAHLAAVGHSEAAYLDSLTGTATFDVRREAFLAEAEERGISVKPGSVISTTIDVGAAAQAFAAAWPQWQEAGVTAVVCATDTHAYGVLQEARVAGVRIPAELAVAGFDDLPYSATSNPSLTSVHLPATPLGAKAGEQLRRLMEGLPLEQPQLTLESSLVVRNSTSA	PGPT0017992_5290	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
D1-29_00187	1563			hypothetical protein	GTGGAAAAGCCCAACAAAATACACCTGCCGCTCGGGATTTCCCTGGCGGTAGTGGCCAGCCTGGTCCTGACCGCTTCAGTGACTGTACCTGTGCAGATGACACCCCCACCCCAAGCCATCAGTGCACTTCCCGGACCAGCGCCGGAAAAGGTTGTTGTGGACGCGGCTGCGTTCGTGGACATGCGTGTCCGCGGTGCAGGGCCGGTCCCCATCGTGGCCAAGTGGCAGTACATCAACGGCGCAGAGGCTTTTAATACCAGACTGGACACTCGTCTCTTGGGGATCTTGGACGCCCAGGCGGGCGGCCGTCATGAGCCTTCAGTGCAGGACAGCGTTGCCGCGGCACCTATCAGGGATGGACTGTCGGTCACCCATGAGGTGGTGCTGGCTATCGGAAGCATCGCAGGTTCGAGGTTCGTGCAGGAATCCACGAACGGAGGCGTCCGGACCGGCTACACCGTGGAGACTGCATACGAGGACCTGGGTACCGGGGCAGTCACCGGCAGCGCCGCCCTGATCGATCCCGAAGAAATCAGCACGCTCCGCAGCATGCTCCGGGAGGTGCCGGAACTTTCCGCCCGGGCCGGCTCAGAGCAAGAACCGGCGCCAAGGCCAGCTGCCGAACAGGGCAGCACGCCCCCGGCAGACACGACGACGGGCACGGCGCCCATTCCTGATGGCGAGCTGCTCTCCGCCGTGACGTTCACTCCCGCCGGGGAAGTCAGCCTCACTCTAAGCCGGGTTCCTGATATCGGCTCCGCACTGGCCGATCCCGTCACCGTCGTCCTCAGCGCGGCAGCCGCCAGCAAAGTCCTGTCACCTGCCGGCCAGGCACTTCGCCGACAGGTCATCGCCGGAACGCCGTTCGAAACGCCTGCTTCTTCAGGTGTTGAACGCATCAACTGCGACCTGGTTGCCTGCGCTGCACTGACCTACGATGACGGGCCGAACGCCCAGACCGCCCGGCTCCTGGAGATCCTTGAAAAGCACAACGTGAAAGCCACATTCTTCCAGCAGGGCGCGTACGTCAATTCCCACCCGCAGGTTGCCAGGTCGGTAGCGGACGCGGGCCACACGATAGCAAACCACACGATGAGCCACCCCTACCTGACCAAACTCCCACCAGCCGGTATCGCACGGGAGGTCCAAGGTGCACAGGCAGCCATTGAAAAGGCGGCCGGTGTGGTGCCGGCCTACCTGCGGCCACCGTACGGTGCAACGAATGCCAGCGTTGCCTCTTCGGTTGGGCTGCCCCAGATCCTTTGGGATGTTGATGCTTTGGATTGGCAGTCCCGAAACAAGGCCGCCTTCATCCCGCGGATCATGGGCCTGGTCAAACCCGGATCCATCATTCTTCAACATGACGTCCATGCCGCCACTGTGGATGGCCAGGACGAGCTCATTACGCAACTCAAGAACCGGGGCTACCACCTGGTGACCTTGCCACAGCTTTTCGCCGGAATAGAGCTGGCGCCGGGGGGATTGTATAAATGCCGCGGGGCAACACCCGGCTGTGTCAGCGGACGCCATAGCCCGCCACCTGCATCGGCCCAGCACAGGTGA	MEKPNKIHLPLGISLAVVASLVLTASVTVPVQMTPPPQAISALPGPAPEKVVVDAAAFVDMRVRGAGPVPIVAKWQYINGAEAFNTRLDTRLLGILDAQAGGRHEPSVQDSVAAAPIRDGLSVTHEVVLAIGSIAGSRFVQESTNGGVRTGYTVETAYEDLGTGAVTGSAALIDPEEISTLRSMLREVPELSARAGSEQEPAPRPAAEQGSTPPADTTTGTAPIPDGELLSAVTFTPAGEVSLTLSRVPDIGSALADPVTVVLSAAAASKVLSPAGQALRRQVIAGTPFETPASSGVERINCDLVACAALTYDDGPNAQTARLLEILEKHNVKATFFQQGAYVNSHPQVARSVADAGHTIANHTMSHPYLTKLPPAGIAREVQGAQAAIEKAAGVVPAYLRPPYGATNASVASSVGLPQILWDVDALDWQSRNKAAFIPRIMGLVKPGSIILQHDVHAATVDGQDELITQLKNRGYHLVTLPQLFAGIELAPGGLYKCRGATPGCVSGRHSPPPASAQHR	PGPT0018645_731	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
D1-29_00188	915			hypothetical protein	ATGCATCAAAAGGTCAGTAGTCCGCGGCGTCGGGCGTTTCTTCTCACAGCGACAGCTTTGCTGCTCTCCGGATGCAAAGCCGGAGAGTTACCGTCAGCGCCCAAACTGACAGAACCTACGGCTCCTACAGCTTCGGCCGATGCGCCGGCTCCTGATATTTCTCCAGACCCGGAACCTCTCATACGGGATGCCGCGCCGGAGCCGGCAGTCCAGTCGCAGGAGCAGATACATGCCGGATTCTCTGAGCACCGTCCTTCCTATTGGGGCCTCCAGGCGCCAAAGGTCGTCCAATCCCTGCCACAACCCGCCGCAGGGATTGCGCTGACCCTGGATTTTTGCGGCGGACCGGGAGGCAGCGGAATTGCCCAGGCAGTCCTGGACATGCTGAAACGCCACGGGGTCCCGGCGACGCTGTTCCTGAACACACGATGGATCCACCACAACCAGAACCTGGCACAGGAACTAGCCGCCGAACCCCTCTTTGAACTCGCCAACCACGGAACCCGCCACGCCCCGCTAAGTGTGGACGGCAAATCCGCCTACGGGATCCCCGGAACGCAAAACAGGCATGAGGTATACGAGGAGATCATGTCCAACGACAACCTCCTGAGGAAAATCACCGGTAAGCGCCCGCGCTTTTTCCGTCCCGGCACCGCTTACCTGGACGACGTCGCAGCTGAAATCTGTCTCGCCCTGGGCGTGATTCCCACTGGCTTCAGCATCAATGCCGACGCCGGGGCAACATACCCAGCGTCAGTTGTCGCCGCCGAAACGGCCAAAGCCCGGCCTGGTGACATCATCATTTCCCACGGCAACCGCCCCGCATCCGGCACGGCGGCCGGACTCGCGACAGCCATCCCGGCCCTGCTGGAGAAGGGCTATGCCTTCACCACCCTCAGCGCAGCCCTGCCCTGA	MHQKVSSPRRRAFLLTATALLLSGCKAGELPSAPKLTEPTAPTASADAPAPDISPDPEPLIRDAAPEPAVQSQEQIHAGFSEHRPSYWGLQAPKVVQSLPQPAAGIALTLDFCGGPGGSGIAQAVLDMLKRHGVPATLFLNTRWIHHNQNLAQELAAEPLFELANHGTRHAPLSVDGKSAYGIPGTQNRHEVYEEIMSNDNLLRKITGKRPRFFRPGTAYLDDVAAEICLALGVIPTGFSINADAGATYPASVVAAETAKARPGDIIISHGNRPASGTAAGLATAIPALLEKGYAFTTLSAALP	PGPT0012156_526	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
D1-29_00189	762			hypothetical protein	ATGGGCCCTGAGGAGCAAGAACTGGCAGGCGGTAATGCGTCCGAAAGTGTTGTGCGCATCGGAAACACCGTCCGGAAGCCGTGGTTGGAAAACTCGTCCGCTATACAGAGCTATCTTGCTGCGCTCCGCTCCGCCGGGTTGGATGTTCCCTGCCCCCTGGGCCGTGACGAAAAAGGCCGGCAGGTGGTGGAGTACGTGGAGGGCGAATCCGCGATCAATCTGTTGCCACTTGGCCAGGAGGAATTACTGCGCGTTGGCCGGATGATCCGCCGTATCCACGATGCGAGCGAAGCGGTTGTGGTTCCCCATCAGGGCGACTGGAAGATGCTGCTGCCGGCGGAGAATCCTGACCTGATGTGCCATAACGACCTTGCTCCCTGGAACCTCATCATGGGTGACCGCTGGGTGTTTATTGACTGGGACGGCGCCGGCCCCAGCACCCGGCTGTGGGACCTGGCCTACGCGGCGCAGTCATTCGGTGTGCTGTTCGACGGGCAGCCTGTGGAGGAGGCGTCCCTCAGGCTGCGTGCCGTGGTGGACGGATATGACGCCGATGACAGCCTGCGCAGGGCGCTGCCGGCTGCGATGGCGGAACGGACAGCCGCGATGTTCGATCTCCTGAAGTCCGCACACGCTACCGGGTTCCAGCCATGGGCCGGCATGTACCTCAACGGACACGGCGAGCATTGGCGGGCCGCTGCTGGCTACGTCGCACGCCACCAGGCGGCGTGGGAACTGGCGCTCGCGCCCCTGGACTCGTGA	MGPEEQELAGGNASESVVRIGNTVRKPWLENSSAIQSYLAALRSAGLDVPCPLGRDEKGRQVVEYVEGESAINLLPLGQEELLRVGRMIRRIHDASEAVVVPHQGDWKMLLPAENPDLMCHNDLAPWNLIMGDRWVFIDWDGAGPSTRLWDLAYAAQSFGVLFDGQPVEEASLRLRAVVDGYDADDSLRRALPAAMAERTAAMFDLLKSAHATGFQPWAGMYLNGHGEHWRAAAGYVARHQAAWELALAPLDS				NA	NA	NA	NA	NA
D1-29_00190	882			hypothetical protein	ATGGTCGGTGCCCGTACCCGCCTTCTAGCCTGGCTCGTCGTCCTGGCGACCCTCCTCGGAGCCTGCGCGCCCTCGATCGGCCTCGACGAAACCACCACCGCCCCGCCCGTCCCGGCTTCCTCGGCCCCGCCAGATACGGGCGGCGCTGCACCCGCCCCGCAGGCAGCACAGATTCCGACGCCGGTCCCCACCCCGGCGCTGGACCCCACCCCGGCGCTGGACCCGACCCCGCCGCCGGTTCCGGAGCCTGCCCCTGTCCCCGTGCCGGCCCCGGTGCCGCAGGCGTTCGCCCTCAATCTCTACCAGGAAGGGGACTTCGTGCCGCAGTACACCTTCGACTGGTGTGTTGCGGCGAGCATCCAGATGGCGCACAACCTGGTCGATGACACGGGCGGCGGCACGTGGACCGATCCCACCCAGCAGGGCGACCTGTGGGAGATGGCCCGGGCAAGGTCGTCCAACTCGTTCAACGGTGCCAACCCGTTGGGCTGGGCGCAGGTGCTGACTGAGGTGGGAATGGGGCCGTACAAGGTGGTCAGCATTGCCGACTACCAGGAGGCGCTGCGGACCGCGGCCCGCGCCATCGCCGATACGGGCCGCCCCGTGGGGCTGGTGATGTGGCGCGGCCGGCACGCGTGGGTGATGAGCGGGTTCGAATCGCTTGGCGATCCCCACCAGTTCCCGGAGTTCTCGGTCACAGGCGTCCGCGTCCTGGATCCGCTCCACCCGCACGGCAGCGACCAGTGGGGTCCGTCGCCCGCGCCCAACAGCCTGCTCACCCCCGAACAGCTTGCAACGCAGTTTGTGGTCCGCGAGCCGCGGCGCTGGAGCGGCGAGCTGCCCACCGGCTACCTGCTGGTGCTGCCGGTCGCCCAGGGCTGA	MVGARTRLLAWLVVLATLLGACAPSIGLDETTTAPPVPASSAPPDTGGAAPAPQAAQIPTPVPTPALDPTPALDPTPPPVPEPAPVPVPAPVPQAFALNLYQEGDFVPQYTFDWCVAASIQMAHNLVDDTGGGTWTDPTQQGDLWEMARARSSNSFNGANPLGWAQVLTEVGMGPYKVVSIADYQEALRTAARAIADTGRPVGLVMWRGRHAWVMSGFESLGDPHQFPEFSVTGVRVLDPLHPHGSDQWGPSPAPNSLLTPEQLATQFVVREPRRWSGELPTGYLLVLPVAQG				NA	NA	NA	NA	NA
D1-29_00191	411			hypothetical protein	ATGAAGATTGCCCTGACAAGCCTTTTCGTCGATGACCAGCGGGCAGCCCTCGCCTTCTACACCGAGGTGCTCGGCTTCCGGAAGCGGCATGACATCCCCCTCGGGGAGGACTCCTGGCTCACCGTTGTGTCGCCCGAATCGCCCGACGGTCCGGAGCTGCTGCTGGAGCCGGCACGCCACCCTGCCGTGAAGCCGTACCGGGATGCCCTTGCCGAAGACGGCATCCCCCTCGCGCAATTCGCCGTCGGCAACATTGAGGCGGAGCACGGCAGGCTGACCGGCCTGGGCGTGGTGTTCACCCAGCCGCCCACCGACATCGGCACCGCCTTCGTGGCCGTCTTTGATGACACCTGCGGCAACCTCATCCAGCTCATCGAAATGAAGCCGGAGGGAGACAACACTCCCTCGTGA	MKIALTSLFVDDQRAALAFYTEVLGFRKRHDIPLGEDSWLTVVSPESPDGPELLLEPARHPAVKPYRDALAEDGIPLAQFAVGNIEAEHGRLTGLGVVFTQPPTDIGTAFVAVFDDTCGNLIQLIEMKPEGDNTPS				NA	NA	NA	NA	NA
D1-29_00192	285			hypothetical protein	ATGGTCGATGTGTTCCGCGCCCTGGACGATGAAACAAGGCGCCTGGTCCTGGACGAATTGTCGGTGCGCGACGGCCAGACGCTCTTCGAGCTCTGTTCCGTGCTCGCGATGCGCCATGGCCTCAGCCTCACCCGCCAGGCCATCTCCCAGCACCTGGGTGTGCTCGAGTCAGCCGGCCTGGTGACGACGGAGCGGCGCGGACGCTCCAAATTCCACTACTTCAACCCAGAGCCCCTCGCCCAGATCACCGGACGATGGCCCACCAGAAAGAGGACCGAACCATGA	MVDVFRALDDETRRLVLDELSVRDGQTLFELCSVLAMRHGLSLTRQAISQHLGVLESAGLVTTERRGRSKFHYFNPEPLAQITGRWPTRKRTEP				NA	NA	NA	NA	NA
D1-29_00193	1026	rihA_1	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	GTGGACCCCTACCGCCTGACACCTGAACCCCGGAAGATTATTCTCGACTGCGACCCCGGGCACGACGACGCCGTGGCGCTGCTCCTGGCGCACGGCAGCCCTGAGATTGAGCTGCTGGCCGTCACCACGGTGGTGGGCAACCAGACCCTCGACAAGGTCACCAAAAATGCCCTGGCCGTCGGCACCATCGCCGGCATCACCGGCGTCCCGTTTGCCGCCGGATGCGCCCGCCCCCTGGTCCGCAGCATCGAAACCGCCCCGGACATCCACGGCGAGTCCGGCATGGACGGCCCCGCCCTCCCCAAGTCCGCCATCGAGCTGGACCCGCGCCACGCCGTCGACCTCATCATTGACACCGTGATGGCACACGAGCCGGGCACCGTCACCCTGGTGCCCACCGCCGGCCTGACCAACATTGCCCTGGCCGCGCGCAAGGAACCGCGCATTGTGGAACGCGTGAAGGAAGTTGTCCTAATGGGCGGCGGCTACCACGTGGGCAACTGGAGCGCCGTGGCCGAATTCAACATCATCATCGACCCCGAAGCCGCCCACATCGTCTTCAACGAAAAATGGCCAGTGGTCATGGTGGGCCTGGACCTGACCCACCAGGCACTCGCCACCCCGGACGTCGTGGAAAGGATCGCGGCCATCGGCACCAAGCCGGCACGCTTCGTCACGGAACTGATGGACTTCTTCGCCCACACCTACAAGGACGCCCAGGGCTTTGACCACCCGCCGGTGCATGATCCGTGCGCCGTGGCCTACGTGATCGATCCCAGCATTGTCAGCACCCGCAAAGTACCGGTGAACATCGAGCTGCAGGGAACCCTGACCCTGGGCATGACCGTGGCTGACTTCCGCGCCCCGGCACCGTCGGACTGCCACACCAGCGTTGCCGTGGACCTTGACCACAAAAAGTTCTGGGACCTGGTGACCGATGCGCTGGTCCGCATCGGCGAGCCGGGGCAACCAGCGGAGACTGCACGCCCCGAAGGCGCGGCCCTCACCGCCGGAGGGATCAAGTAA	MDPYRLTPEPRKIILDCDPGHDDAVALLLAHGSPEIELLAVTTVVGNQTLDKVTKNALAVGTIAGITGVPFAAGCARPLVRSIETAPDIHGESGMDGPALPKSAIELDPRHAVDLIIDTVMAHEPGTVTLVPTAGLTNIALAARKEPRIVERVKEVVLMGGGYHVGNWSAVAEFNIIIDPEAAHIVFNEKWPVVMVGLDLTHQALATPDVVERIAAIGTKPARFVTELMDFFAHTYKDAQGFDHPPVHDPCAVAYVIDPSIVSTRKVPVNIELQGTLTLGMTVADFRAPAPSDCHTSVAVDLDHKKFWDLVTDALVRIGEPGQPAETARPEGAALTAGGIK	PGPT0013465_159	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
D1-29_00194	1428			hypothetical protein	ATGACTGCCACCCTCACAGCCTCCAAGACAAGCCGCGGCAACGTTACCGCGCTCATGATCGCCCTGCTCGCCGCGTGCGTGGCGTTCCAGCTCAACGCCTCCATGCTGAGCCCCGCCCTGGTCACTATGGGCAAAGAGCTCAACACGGACCAGGCTGTTATTGGCCTGTCCCAGACCTGGTTCTTCACCGCGGCCGCCCTGTTCTCCCTCTTCCTTCCCCGCCTGAGCGACATCATCGGCCGGAAGAAGATCCTGCTCGGAATGATGCTGCTGATGGCCGTTGGCTCCGTCATCGCAGCAATGGCCCCGGACGTCACCTGGCTCTTCGTGGGACGGATCATCCAGGGCGTCAGCGGCCCCACCGTGCCGCTCTGCCTGATCATGCTCCGGTCCGCCGTCACCAGCCCCCGCAAGTACGGAACGCTGATGGGCCTCATCACCGCGGTCAACGGCGGCGTGGCTGGCGTTGACTCCTTTGTGGGCGGCTACTTTGCCGAGCACTACGGCTTCCGCAGCATCTTCTGGCTCATGGTGGTGCTTGCCCTCGTGGCAACAGCCCTGATCGCCCTGCTGGCCGGAGAGAGCAAGCCCGCAGCAGGCACCACCATGGACTGGCTTGGCGTGTTCTTCATCGTTGTTGCCGTGGGCGCGCTGCTCACCGCCCTCAATGAAGGCTCCAAACTGGTGGGCGCCTTTTCGGCCGGCACACTGATGCTGGCCCTCGGACTGGTGGCCGTTGCCGCCGTCGCGTTCTACGCCTTCTGGCGGACCGAGAAGCGCGCCAAAGAACCCATGGTGGAAACCGTGCACCTCCGCCAGCGCTCCACGTGGGCGCCGCTGCTGACCACCACGCTGACCATGACGGGCATCTTCGCCGTGATCAACGGCATCGTCCCGGCCTATGTACAGGCAGCCGGCCCGGGGTTCGGCGTCGGTCCCACGGAAATGTCGCTCATCATCCTCACTCCGTACGCCCTGCTGGGCTGGGTGGTGGGTCCGCTAAGCGGCAAGCTGGCGCCCGTGCTGGGCTACACCAAGGTCCTCCGCATTGGCATGCTGGGCAGCATCGCCGCCCTGGCCGTCATCGCGTTCTTCGGCCTGAGCAGCCTGCCGATGATGATCGCCGGAACGGTCTTGCTGGGCATCATGTACGCCGGTACGGTCAACATCATGCTGAATGGACTCGGAGTTGTCCTCTCGCCCGCCGGAAACCCCGGCTTCCTGCCGGGTATGAACGCCGGAGCCTTCAATCTGGGCGCCGGCCTGAGCTTCCTGGTGCTGCCGGCCGTTCTGGTGGCAACATCGGCACTTGGCGACGCCAAGGCGTCCTACCTCACCGTGGTGGTGGTTGGCCTGGCCATCACCGTGGCGGCCTTCGCGGCGTCGCTGCTGATCCCCAAGCCCATTGAGGCGGAGGTGGCCGAATGA	MTATLTASKTSRGNVTALMIALLAACVAFQLNASMLSPALVTMGKELNTDQAVIGLSQTWFFTAAALFSLFLPRLSDIIGRKKILLGMMLLMAVGSVIAAMAPDVTWLFVGRIIQGVSGPTVPLCLIMLRSAVTSPRKYGTLMGLITAVNGGVAGVDSFVGGYFAEHYGFRSIFWLMVVLALVATALIALLAGESKPAAGTTMDWLGVFFIVVAVGALLTALNEGSKLVGAFSAGTLMLALGLVAVAAVAFYAFWRTEKRAKEPMVETVHLRQRSTWAPLLTTTLTMTGIFAVINGIVPAYVQAAGPGFGVGPTEMSLIILTPYALLGWVVGPLSGKLAPVLGYTKVLRIGMLGSIAALAVIAFFGLSSLPMMIAGTVLLGIMYAGTVNIMLNGLGVVLSPAGNPGFLPGMNAGAFNLGAGLSFLVLPAVLVATSALGDAKASYLTVVVVGLAITVAAFAASLLIPKPIEAEVAE	PGPT0021051_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021051-uriP-NA	NA	NA
D1-29_00195	1011	rbsK_1	COG0524	Ribokinase	ATGAGCGCTGCAGCGGCCGGACCCACCACCGGCAAAAGTGGCCGGATCGTCGTCGTCGGGTCGCTGAATGCTGACCTGACCATCTACTGTGAGCGGCTCCCGCTCCCGGGCGAGACGGTCCACGGCACCGGGTTCGCCGTCAACCCGGGCGGCAAGAGCGCCAACCAGGCTGCCGCCGCCAGTCTCCTGGGCGGGACCGTGAGCCTTATCGGCGCGGTGGGGGACGACGCCAACGGCGAGATGCTCCTCTCCTCCGCGGCGGGCGCCGGAGTGGACATCTCCCATGTTCGCACGTCCACCGCCGCTCCCACCGGCCTCGCGGTCATCTCCGTCGACGCCCGGGGGGAGAACAACATCATCATCTCCGCGGGGGCGAACGGAACGCTGACTCCCGCGGATGTGGCCGCCTCAGCGGACGAGTTCGACGGCGCCTCCGTGGTCAGCCTTTGCCTTGAGGTCAGCCTTGAGACTGTTCTGGCGGCCGCGCAATTGGGGCACGACGCCGGCGCAACAGTTTTGCTCAACCTCTCGCCTTACGGCGACATCCCGCAGGAGCTCGCCGACCTGACGGATATCCTGCTGGTCAATGCCCACGAGGCAGCGCTGTTCCTCGGTTCGTCCGGCAGCGCAGACTCGCCCGGTGCGGGGATGCCGGATTCCACAGGCGACGACGGCGACTGGGATCACATTCGGCAGCGTTTCGTTCAGCGGGGGCTGCAGCGGGTGGTGGTCACCCTGGGTTCCGAAGGTTCCGTCGTGTTGGACTCGCTGGCCGGCCCCGGCCAACAGGTCACCCGAATAAGGCCCACCCAGGTCAAGGCAGTGGATACCACCGGTGCCGGCGATGCCTTCACCGGGGCGGTGGCGGCCTGCCTGGCTGCAGGCGGTTCCCTGGCTGATGCCGCGGGGTTCGCGTCAGTTGCGGCTGCGCTCGCCACCACGCGGAAGGGGACGCAGACGGCCTACCCGGAGGCAACAGATGTGGGGCGGTTGCTGGGTTCCGTGCAGTAG	MSAAAAGPTTGKSGRIVVVGSLNADLTIYCERLPLPGETVHGTGFAVNPGGKSANQAAAASLLGGTVSLIGAVGDDANGEMLLSSAAGAGVDISHVRTSTAAPTGLAVISVDARGENNIIISAGANGTLTPADVAASADEFDGASVVSLCLEVSLETVLAAAQLGHDAGATVLLNLSPYGDIPQELADLTDILLVNAHEAALFLGSSGSADSPGAGMPDSTGDDGDWDHIRQRFVQRGLQRVVVTLGSEGSVVLDSLAGPGQQVTRIRPTQVKAVDTTGAGDAFTGAVAACLAAGGSLADAAGFASVAAALATTRKGTQTAYPEATDVGRLLGSVQ	PGPT0017405_606	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
D1-29_00196	693			hypothetical protein	ATGGCATGGATCCGGGGTGGCATTTTGGCGGTTTTCGTACTGATTCATGGTGGCGGTTCCACCGCATGGGACTGGCATCTTGTCAGACCACTGCTTGAGGCATCGGGCCATGACGTCATCGCTGTCGATTTACCTATCGAAGATGACAAGGCAGGGCTTGAGGACTACGTCCATGCAGTAACTGCAGCGGTGGGCGACGCTCAGCGCACCATCGTGGTCGGCCACTCACTGGGAGGCTTCACGGCGCCCTTGGTCTGCGACGAGCTCCAAGCGGACGGTCTCATGTATCTTGCGGGAATGATCCCAGTACCGGGTGAGACATTTGCCGACTGGTGGACCAACACGGGTCATGACCGGGAGACGATAGATCCGGACCCCCAGGCGGCGTTTTTCCACGATGTCCCCGAAGATTTGGCACACCAGGCCCGCGATAGGGAGCGCGACCAGCAAGGTGCATGGATGGCCCGGCCCTGGCCGGGTCACAGGAATCCGGCCGTCCCCACGAGAGCAATACTGTGCCGCGACGACAGGTTCTTTCCGCCATCTTTCATGAGACGCCAGATACACGAGCGACTTGGAATTGAGCCGCTGGAAATCCCAGGGGGCCACTACGCCACCTTGGGTCATCCGTACGCTGTGGCTGCTGCGCTGGACGGCTTCGCCCAAGAGATCAGTCAGATGCGGCGCAGGTAA	MAWIRGGILAVFVLIHGGGSTAWDWHLVRPLLEASGHDVIAVDLPIEDDKAGLEDYVHAVTAAVGDAQRTIVVGHSLGGFTAPLVCDELQADGLMYLAGMIPVPGETFADWWTNTGHDRETIDPDPQAAFFHDVPEDLAHQARDRERDQQGAWMARPWPGHRNPAVPTRAILCRDDRFFPPSFMRRQIHERLGIEPLEIPGGHYATLGHPYAVAAALDGFAQEISQMRRR				NA	NA	NA	NA	NA
D1-29_00197	1284	tylN		O-mycaminosyltylonolide 6-deoxyallosyltransferase	ATGCTTGTTCTGATCATGTCGTTCGGGACCCGCGGAGACATTCAGCCCTACGCCGCCCTCGCCGGTGCGGTTGCCCGCGCGGGGCACGACGTCACCCTCGCTGTCCCTGAAGGGTTCGAAGATCTGGTGCCACACGCCGGCCCCGGAACCATCACGCACCATCCGGCGGGTTCCACGATGCTGCGTCTTGTTCAGGAGGTCATGCCCGAGCTGAGCGGTCCCCGGGATGCGTTGCGAACACTGGGGATTATGACCTCCGCGATGCGCGAGCTGAACGCGGAGTGCTGGGCTGCGGCAAAGGCGGCGCGCCCGGACGTCGTGGTGTACCACCCCAAGTGCCTTGCCGGGCCGCACATCGCCGAGGCGCTGGGGGTTCCCGGCGTGCTTTCCCTCCCGTTGCCGTTCTTTACCCCGACGCGTGCGCACGCCATGCCGTTCTTTGGTGGCGCCTCCTTCGGGGCGTTGGGAAACCGTGCGTCCTACGGGTTCCGCCGAATGGCTGGGGCCATATACGGCGGCATGATCAACGGCTTCAGACGCGAGGTCGGCCTGGGCCGCATCCACCGTCTCGCCGATCCGCTCAGGAATCCTGACGGCAGTCCGGTCCACGTCCTGTACCCGTACAGCAGGCACGTTGTGCCTATCCCGGACGACTACCCGCCTTCGGCCCACGTCACCGGCTACTGGTTTCTGGATCACAGCGATGACGGCCATGACTGGGATCCGCCCCCGCAACTGGTGGACTTCCTCGCGGCTGGCGAGCCTCCGGTCTACGTCGGGTTCGGCTCCATGGGCTTCGGTAAGGGAGCGAATGAGCGCCGGGACGCCGTTCTGGACGCGTTGCGGGTTCATGGTCTACGCGGAATCATCGCGACCGGGTGGGGCGGCATCGCGCCCGGCGAGGCTGGGACCGACGACGTCCTGGTCCTGGAGGCCGTGCCCCATGAATGGCTTTTCCCGCGTGTCGCGGCGGTTGTGCACCACGGCGGTGCGGGCTCGACGGCGGCTGGCATCCGGGCGGGTCGGCCTACGCTGGTCGTGCCGTTCCTTGGGGACCAGCCATTCTGGGGCATGCGGGTCCATGCGCTCGGCGTCGGACCTGCCCCGCTACCGGCCAGGCATCTCAGGACGGGCCTGACCGACCGTCTCGGCGACCTCGTCCACACCGCCTCTTACGCCTCCCGTGCCGATGAGCTGGGCGTCGCAGTCCGCGCCGAAAACGGTCTCGCCGCCGGTGTGCGCGCCCTGGAGCAGATCACCGGTGCTTACCTGCGCCGCATCTGA	MLVLIMSFGTRGDIQPYAALAGAVARAGHDVTLAVPEGFEDLVPHAGPGTITHHPAGSTMLRLVQEVMPELSGPRDALRTLGIMTSAMRELNAECWAAAKAARPDVVVYHPKCLAGPHIAEALGVPGVLSLPLPFFTPTRAHAMPFFGGASFGALGNRASYGFRRMAGAIYGGMINGFRREVGLGRIHRLADPLRNPDGSPVHVLYPYSRHVVPIPDDYPPSAHVTGYWFLDHSDDGHDWDPPPQLVDFLAAGEPPVYVGFGSMGFGKGANERRDAVLDALRVHGLRGIIATGWGGIAPGEAGTDDVLVLEAVPHEWLFPRVAAVVHHGGAGSTAAGIRAGRPTLVVPFLGDQPFWGMRVHALGVGPAPLPARHLRTGLTDRLGDLVHTASYASRADELGVAVRAENGLAAGVRALEQITGAYLRRI				NA	NA	NA	NA	NA
D1-29_00198	942	kdgK_1		2-dehydro-3-deoxygluconokinase	ATGGACGTCCTGACCTTCGGCGAAACCATGATCGCGCTCAGGGCGGACCGCCCGCTGGCCCTGAACCCGAACATCAGCGCAACCATAGCCGGTGCGGAGTCGAACGTGGCCATAGCGCTGGCGCGGCTAGGGCACAGCGTCCAGTGGGCCGGCAGGGTGGGCAACGACGCCGGCGGCGACCTTATCCGGCGCACGCTCCGGGCCGAGTCGGTGGGACAGGACCATGTCACCACCGATCCCCACCGCCAGACCGGCATCCTGATTTTCGAGCAGCGGCTGCCGGATGTGACCAGGGTTGACTACTACCGCCAGAACTCCGCAGGTTCGGCAATCAGCAGCGATGATGTGATCGCGGCACTCTCTCGGGGCCCGCACATCCTGCACATCACCGGAATCACCCCTGCCTTGAGCACCAGCGCCGCAGAGGCAGTCCTCCGCGCAGCATCCGCGGCACAGCAGGAAGGGGCAACAGTCACGTTCGACGTGAACTACCGATCAAAGCTCTGGACGAGGGAGGAAGCGTCCTCAACTTTCAGGGCACTGGTCCCCCACGTGGACGTTGTCATCGGCTCAGCGGACGAACTGGAACTCCTCATCGCAGATCCGCATCCGGAAGCGGACGCGGCGCCGGCCCTCCTCACCCTCGGCGTGCGGGAAGTCGTGCTCAAACGTGGCGCCGGCGGAGCCACACTTTCCAGCAGGCACGGAACTGTGCACTCCCCCGCCCGTCTTGTCACCGCCGTCGACAGCGTTGGTGCCGGTGACGCCTTCACTGCCGGCTACATTTCCGGGCTGCTCACCGGGCTCACAGCGGAAGGGCGGCTGCGCCTGGCCAACACGCTCGGAGCGTTCGCCGTTTCGAGCAAGGGAGACTGGGAAGGCCTGCCCACCCGGGACGAATTGGCCCTGCTGGATGCCGCGGACGGCACCGTCCTCCGTTGA	MDVLTFGETMIALRADRPLALNPNISATIAGAESNVAIALARLGHSVQWAGRVGNDAGGDLIRRTLRAESVGQDHVTTDPHRQTGILIFEQRLPDVTRVDYYRQNSAGSAISSDDVIAALSRGPHILHITGITPALSTSAAEAVLRAASAAQQEGATVTFDVNYRSKLWTREEASSTFRALVPHVDVVIGSADELELLIADPHPEADAAPALLTLGVREVVLKRGAGGATLSSRHGTVHSPARLVTAVDSVGAGDAFTAGYISGLLTGLTAEGRLRLANTLGAFAVSSKGDWEGLPTRDELALLDAADGTVLR	PGPT0018060_1972	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
D1-29_00199	660	kdgA_1	COG0800	KHG/KDPG aldolase	ATGGAAGACGCTTCCCCTGTACTCCTTGCCGGCCTGAGGAACAACCGGCTGCTCGCCATCATCCGCGGCAACAATCCGGATGCCTGCTTCAACACCGCCATGGCGCTGATCGATGCGGGGATCACCATCGTGGAAGTCTCGCTGACAACGGCGGGGGCCCTGGCCGTGATCAGCCGCATCGCCGAGGCCGCCAGCGGCCGTGCCCTCTTGGGCGCCGGTACAGTCCTGACGTCCGGTCAGGTCCGGGAAGCGCACGACGCCGGTGCGCAGTTTATCGTGACGCCCTGCCTTGCGCCCAGCATCGGGGAGGCCCGCAGCCTGGGGCTTCCCGTGCTGGTGGGGGCCCTCACGCCCGCCGAGGTGTATGCCGCTGCACGCGAAGGCGCCACTGCTGTCAAGCTGTTCCCCGCGAGCGTGGGCGGCCCGGCCTACCTGAAGGCACTGCGGGACCCGTTCCCGGAGATCCCCTTTGTGCCCGTCGGGGGCGTCAGTGCCGATTCGGTGGCCGGTTATCTGCAGGCAGGGGCGCTTGCCGTGGGCGCAGGCAGTCCCCTGACCGGCGACGCACCCCGCGGCGGCAGCCTTGCCGCTCTTCGCGAGCGTGCCCGCGATTTTATTGCGCTCGCGCAGGAAGGCCGTCATCCCCAATGGACGTCCTGA	MEDASPVLLAGLRNNRLLAIIRGNNPDACFNTAMALIDAGITIVEVSLTTAGALAVISRIAEAASGRALLGAGTVLTSGQVREAHDAGAQFIVTPCLAPSIGEARSLGLPVLVGALTPAEVYAAAREGATAVKLFPASVGGPAYLKALRDPFPEIPFVPVGGVSADSVAGYLQAGALAVGAGSPLTGDAPRGGSLAALRERARDFIALAQEGRHPQWTS	PGPT0002060_3309	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
D1-29_00200	825	udh	COG0451	Uronate dehydrogenase	ATGACCTTAGGTGCAGACGAAGGAACCAAGCCTCCCCTCGTTGTTGTCACGGGCGCCGCCGGGCACGTCGGACGCCTCACCTCGGCGGCCCTCGCCGGGCGCTACAGGCTCCGGCTGATCGATCTGGACTGGCCCGCCGCAGGGCCGGGGGAAACGCCGGACGGGATTGAACGCATGGCGCTGGATCTGAGCCACCGCAGTGCCTGGGACGTGGCGATTGAGTCCGCCGACGCCGTCGTGCATCTGGCCGGGCATCCCTCCCCGGAAATCGATGCGCGGACAGCGGTGGAGGGCGGAGCCATGCTGACGGCGCATCTCACGGCGGCGGTTGCGGGCTCGGACGTCAGGAGGATTGTCTTCGCGAGCTCCATCCATACAATGGGCCTCCACCACCGGCATGGGCACTACCCCGTCAGCCAGAAGTGGGCGCCCCGCCCCTGCTGTGAATACGGGGCTGCCAAGGTGTTCTCCGAGAATCTGCTGGAAATCCTGGCCGAACGGACGCCGATCTCAGTGATCTGCCTGCGGCTTGGCCTGACCGGCTTTCCACCCGGAACAACTGCCCACGCCACCCAGTGGCTGGGGCCCAATGACTACGCCCAGTTGCTCCACGCCTCACTGACGGTGCCGCTGCATTACGGGACGTATCTCGGCATGTCGGCGGCAGCGGGTGAAAGGTGGGACCTGACCGACAGCATCAGGGACCTTGGGTTCGATCCCGCTGACCCCACCCCTGTCCCCGAAAATCCGGAGGAGCCCCAAGCATCCCCTTGCCTGATGTTCCCCGCCACCCTGCCGCCCCCAACCGACCCCTCGGAGCCCTAG	MTLGADEGTKPPLVVVTGAAGHVGRLTSAALAGRYRLRLIDLDWPAAGPGETPDGIERMALDLSHRSAWDVAIESADAVVHLAGHPSPEIDARTAVEGGAMLTAHLTAAVAGSDVRRIVFASSIHTMGLHHRHGHYPVSQKWAPRPCCEYGAAKVFSENLLEILAERTPISVICLRLGLTGFPPGTTAHATQWLGPNDYAQLLHASLTVPLHYGTYLGMSAAAGERWDLTDSIRDLGFDPADPTPVPENPEEPQASPCLMFPATLPPPTDPSEP				NA	NA	NA	NA	NA
D1-29_00201	1131		COG4948	D-mannonate dehydratase	GTGAAAATAACGGACCTCGAAGTCCTCACCATTGACGACGGCGGTGCCCTGATGATGGTGGTTGTCCACACCGACGAGGGGATTTTCGGTGTGGGAGAGGTGGGGCTCCGCTCCCGGCAGCTGGCCGTCCGGGGAGCGCTGGAACACTTCAAGCCCCTGCTCATCGGCAATGATCCCTTCCGCACCGAACACCTTTGGCAGGTGATGTCCCGGTCAGGGTTCTACCCCGCGGACCGAGTCCTCGCCTCTGCCATCTCGGCGGTGGACATTGCCCTCTGGGACCTGAAAGGCAAGGCGCTGGACGTCCCGGTTTATGAACTGCTCGGCGGCGCGGTCCGTGACCGGGTGAAGTGCTACCGCCACATCGGCGGCGCCGACCATGCCGAGCTCGTGGACAACGCGCGGCAGGCCTTTGAGCAGGGGTGGACTGTAGGGCGGCTCTCTGTGCCGTCGGAAGGCGACCTGCTGGAACCCCGTGCCGCCGCCCGGCACGCCCTGGCGGAAGTGGCTGCCGTCAGGGATGAGCTCGGCACGGAATTCGAGCTCATCCTCGATGTCCATACCCGGCTGGAACTTCCCGAGGCAACTACCCTTTGCCGTGAGCTGGAGGGGGCTAACATGTACTTCGTCGAGGATCCCCTGCGGTGGGAGAACCCTGACATCTACGGCGCCCTGCGCCAGCGCACCTCGGTGCCGCTGGCAGCGGGCGAGCAGGCCGCGTCCAAGTGGGAAATGCGGCCGCTGATTGAACGGGACCTGATCGACTATGCACGCTTTGACATCTGCATTGTGGGCGGGTTCACCGAGGCCAAGAAGATAGCCGGCTGGTGCGAGTCCCACCACATCCGCACAGCTACGCACAACCCGCTGGGCCCCATCGCGACGGCAGCATCCCTGCACCTGAACATGACACTGCCGACCTTCGGCATCCAGGAGCAGTACCAGTTGCCGGGCACCCAGGTCACTGACGTGTTCCCGGTCCAGGCCACCATGGACGGGGAATGGATGCGCCGCCCCGAAGCCCCCGGCCTTGGCCTTGAAGTTGACCTGGAGGCCGCCCGCGCCCACCAGATGGAACCGCCGCTGATGCCGCAGCTGCGCCGACTCGATGGATCCTTCACCAACTGGTGA	MKITDLEVLTIDDGGALMMVVVHTDEGIFGVGEVGLRSRQLAVRGALEHFKPLLIGNDPFRTEHLWQVMSRSGFYPADRVLASAISAVDIALWDLKGKALDVPVYELLGGAVRDRVKCYRHIGGADHAELVDNARQAFEQGWTVGRLSVPSEGDLLEPRAAARHALAEVAAVRDELGTEFELILDVHTRLELPEATTLCRELEGANMYFVEDPLRWENPDIYGALRQRTSVPLAAGEQAASKWEMRPLIERDLIDYARFDICIVGGFTEAKKIAGWCESHHIRTATHNPLGPIATAASLHLNMTLPTFGIQEQYQLPGTQVTDVFPVQATMDGEWMRRPEAPGLGLEVDLEAARAHQMEPPLMPQLRRLDGSFTNW	PGPT0002220_1679	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0002220-dgoD-K01684	NA	NA
D1-29_00202	891	araQ_2	COG0395	L-arabinose transport system permease protein AraQ	ATGACGCTCACCGGTCACCGCCCCCAAACACAGTCCCAGGCCGCCCCGCCGGAACCACCAATCCGGCAGAGCCGGGAACGCAAGAACCCGGTGGCTTTCGTGATCCTGCTGGTGGTCTGCGCCATTCTGTTCCTTCCCGTCCTCTGGCTCCTCCTGACGGCGCTGAAGTCTCCGCAGCAGCTGGCCTCCGATCCCATCACCTGGATTCCCACCCAGCCGCAGGTGCAGAACTTCATCGATGCCACGATGATCCTGCCCTTCTGGGCCTATGCGGCCAATTCCCTCTTCCTGTCCACCGTGACCGGCGTCCTGACCACCGTCAGCTCCGCGCTTGTGGGCTACGGGTTCGCCCGGCTTAACGGCAAGGGAAAAAACGTCCTCTTCGGGATCCTTATCGCCATGATGATGACACCGCCCATCATCACCCTCATACCCACCTACCTGCTGTTTGCGAAGGTTGGACTGGTGGGAACGTACTGGCCATGGGTCTTGTGGGGAATGGCCGGTGCTCCTTACCTCATTTTCCTCTACCGCCAGTTCTTCGCGCAGCTGCCACGGGAACTTGAGGAGGCCGCCATCCTGGACGGCTGCGGCCGGCTGCGCATCTTTGTGCAGATCTTCCTGCCGCTTTCCAAGCCGGTCATCATCACCGCCTTTGTCCTGTCCTTCAACGGCGTGTGGGGCGACTTCATCGCCCCGCAGCTTCTGCTCAACCAGGACAACACCACCCTCGCTGTGGCCATCACCACCGGCTATGTGAACTCCCAGGGGTTCCCGGTCAACAACCTGCTGGCGGCCGGCGCGGTGCTTTATGTCCTCCCCGTGCTCATCATGTTCTTCTTCGTCCAGCGGTCCTATGTCCGCGGCTTTGCCACCTCAGGCATGAAATAG	MTLTGHRPQTQSQAAPPEPPIRQSRERKNPVAFVILLVVCAILFLPVLWLLLTALKSPQQLASDPITWIPTQPQVQNFIDATMILPFWAYAANSLFLSTVTGVLTTVSSALVGYGFARLNGKGKNVLFGILIAMMMTPPIITLIPTYLLFAKVGLVGTYWPWVLWGMAGAPYLIFLYRQFFAQLPRELEEAAILDGCGRLRIFVQIFLPLSKPVIITAFVLSFNGVWGDFIAPQLLLNQDNTTLAVAITTGYVNSQGFPVNNLLAAGAVLYVLPVLIMFFFVQRSYVRGFATSGMK	PGPT0016540_1694	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
D1-29_00203	972	melD_2	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	GTGAGTACACAGTCACTGGCTAAGAACGTCCGGTCCAGGAACCGGCGGGGAACCACCGGTTTCAGGGGTTCGGGCACCTTTTACGCCTTTATCTCCCCGTGGCTGATTGGGACTGTACTCCTGACGCTGTTTCCGCTGGGCTACGCACTGTGGATCAGCTTCACCAACTGGGATGGAATAGCGCCGAACCAAAACTGGATCGGCCTGAAGAACTACACCGATGCGTTGAGTGATCCCCGAATGTGGGCAAGCCTGCAGCGCACCGGCCTGCTCGCTCTCGCCGTAGTGCCAGTCACCATCTGCGGAGGACTGGCACTGGCGTTGCTGCTGAACGAAAAGGTCCATTGGCGGTCAGGCCTGCGGATGCTCGTCTATCTCCCGGCCATCGTGCCTCCCGTCGCAGCGACACTGACCTGGAAGCTGCTGTTCGACCGCGACAGCGGCGCGATCAACGGTGTTACTGCGATCTTCGGTGCGGATGCCGTGAGCTGGATGAGCGGAAACACTGTGTTCGTGGTCCTGCTGGTGGTCATGCTTTGGGGCATTGGCGCCGGTGTGCTGATCAACCTCGCCGCCCTGCAGGACGTTCCCGCAGAGCTTCACGAGGCCGCGCGGCTGGACGGGGCAAACGCCTTCACGGCCTTCTGGCACGTCACGCTGCCGAGCATCTCGCCGGTGCTTCTTTTCCAAGTGATCACCACCACCATCGGCGTCCTGCAGACGTTCGTCCCGGCGCTCCTGCTCTCACCTGCCAATGGGCCGGCAGCGATCACGGCCGTGCCTGAGGCCAACAGGGTCTTCATGGTGGACGTTTACGCCCAGTACTTCGCGTACTCCAAGTACGGGTACGCGTCAGCGATGCTTTGGCTGTTCTTCCTGGTCATCCTGGTGGTCACCATCATTACGTTCAAGATCGGCGGCCGCACCGTGTTCTACGCCGTCGACCCCTCCAAAGAAGGGAAAGAGGGATGA	MSTQSLAKNVRSRNRRGTTGFRGSGTFYAFISPWLIGTVLLTLFPLGYALWISFTNWDGIAPNQNWIGLKNYTDALSDPRMWASLQRTGLLALAVVPVTICGGLALALLLNEKVHWRSGLRMLVYLPAIVPPVAATLTWKLLFDRDSGAINGVTAIFGADAVSWMSGNTVFVVLLVVMLWGIGAGVLINLAALQDVPAELHEAARLDGANAFTAFWHVTLPSISPVLLFQVITTTIGVLQTFVPALLLSPANGPAAITAVPEANRVFMVDVYAQYFAYSKYGYASAMLWLFFLVILVVTIITFKIGGRTVFYAVDPSKEGKEG	PGPT0016535_1546	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
D1-29_00204	1371			hypothetical protein	ATGAAGGTACGTCCAATGAATGCACTAAATAATGTTTCCCGCCGGAGCCTCCTCAGCGGCGCCGCTCTGTTTGCCGGATTTGCAGCAGCCGGCGGCCTGACCGGATGCTCGGCGAGTGGGGCAGGCGGCGCGGCCAAAAAGTCGGGCGGCCTGACCATTATGGGCAATCCGGGTGAAATCACCCAGGAGGTTATCGACGCCTGGGTCAAGGAGCACCCCGAGGTGCCCATCACCCTGATCAAGGATGATCCCACCCGGCTTAATGCCATGATGGCCGCGGGAACTCCGCCGGACCTGGCCAGGAGCCTTGGGGCCATCAGCACTGCCAACCTGGCGAGCCGCGGCCTGGCGCTGGATCTGGACCCGTATCTGGCGAAGTCCAGCACGCTGAAGGAATCCGACCTGGCCAAGATCAACGACGTCTGGCGCTGGGACGGAAACAAGCAGGGCAGCGGACCACGTTACGGATTCGTCAAGGACTGGTCCCAGGATTCCATGTTCTGGTACAACACCGAAGCCTTTGCTGCGGCCGGCATTCCGCTTCCGACTGCGGACAAGCCGCTCACCTATGACCAGCTGCTCGAATATGCCGAGCCCATGACAAAGCGGGGCGGCGGCAAGGTTGAGCAGTATGGGCTGTTCAGCACCGCTCCTACCATCGAGGCGCTCTCTGCCATGGTGGCCACCACCAGCGGGCGCATCTTTAATGACGACCTGACCAAGGCAGACTTCACCAGCCCGGAGGCCAGGCAGGCACTGCAGTGGCACATCGACGTGGCCAAAAAGCAGGTGGGTTACACCCTGGTGGATCCCAATCCGGATGGCTGGGACTGGCCGCCGTTTGATGCCAAGAGGACTGCCATGGCACTGGCCGGCTACTGGTTCGGCGGCATGGTGTCCACCAATCCCGCAACCGCCGAGTTCGCCCGGATGGCGCCCGCCCCCATGATGGGCTCCAAGCGGGTCAGCCCCACCACGTCGGCCACAGGCTACTGGATCTCCTCCAAAACCCAGATGAAGGACGAGGCCTACGCATTCCTTGAGTGGTACTGCTGCACCGGCCCCAACGCCAAGGTAAGGGCACAGACCGGAGTGGGCATGCCCTCCGTTACAACCCTGACCTCCGAACTCCCGCAGTCCCTGCCGTACCAGTCCGAGGCCATGAAGGTCCAGAAGAATGAAGAGCAGTACCTTCAGGTCCTCCCGTTCAGCCCTTACGCCCAAGCGGTTGCTGTTAGCGCTGCCATCGCAGAACTCTTCCCCCGCGCAGCGACCGGCGAGCTGTCCATCGGCCAGTTCGCGGACCAGGCGACCACTGCCGTCAACGAGCTCCTCAAGCAGGGCATGGAACTTGCCGGCAAGAAGGGCTGA	MKVRPMNALNNVSRRSLLSGAALFAGFAAAGGLTGCSASGAGGAAKKSGGLTIMGNPGEITQEVIDAWVKEHPEVPITLIKDDPTRLNAMMAAGTPPDLARSLGAISTANLASRGLALDLDPYLAKSSTLKESDLAKINDVWRWDGNKQGSGPRYGFVKDWSQDSMFWYNTEAFAAAGIPLPTADKPLTYDQLLEYAEPMTKRGGGKVEQYGLFSTAPTIEALSAMVATTSGRIFNDDLTKADFTSPEARQALQWHIDVAKKQVGYTLVDPNPDGWDWPPFDAKRTAMALAGYWFGGMVSTNPATAEFARMAPAPMMGSKRVSPTTSATGYWISSKTQMKDEAYAFLEWYCCTGPNAKVRAQTGVGMPSVTTLTSELPQSLPYQSEAMKVQKNEEQYLQVLPFSPYAQAVAVSAAIAELFPRAATGELSIGQFADQATTAVNELLKQGMELAGKKG	PGPT0016545_3195	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
D1-29_00205	1293	mlc_1	COG1940	Protein mlc	ATGACCTGCAAATTCATACATAATGGGAAAGTGAACTCCTCCAGAAGCGGTGGATCCCTCCGCAATCTCCGGCAATCCAACTCTTTGCATGTGCTGGATCTGTTGGCCAGCCAAGGCCCCATGCATCGCGCGGAGATGGCCAGGCGGGCCAACATCTCACGCACCACCGTCACCACCATCACCAGGGACCTGATGGAGCGCGGCGTCCTGGTGGAGCTTACCGAGCGGGCCGATGGCGGGGATGAAGTTGACGGCCGCGCCGGCGACCAGCTCGCCTTCAGCCCGGAAGCCGGCTGGATTGCGGGCATGAGCCAGGTCCTGGACAGGATCTGCGTCCGGATCACCGACCTGATGGGGCAGGAAGTGGCGTCAGCCGATGTGCCCATCGGCGCCAAGGATGATTGGCGTATCCGCGCGGAAGCCGCCGTCCACCTCCTGGACAGGGCACTGAAGGACGCCGGAGGAGAGCGTGAGGACCTTCTCGGCGTCGGCATAGGCCTGCCTGGGCAGATCAACCCCGTGGATGGCATCGTGCATGGCGCGCTCGCCGATCAGCCCTGGCACGGCATCAACGCGCGGGAGGAACTGGGGCGCCGCCTGGGTGTTCCGGTCTTCATCGACAACAACGTGCGCCTCGAGACGATAGCCGAGGCGAAATGGGGCGCCGGACAGGGGATCCAGGACCTGATGTACGTCAACATCTCCAGCGGAATCGCCGCCGGGTTCCTCTTCGGAGGGGAGCTCTACCGGGGCTCTGTTGGCGGCGCCGGGGAGTTGGGCCATGTTTCCATAGACGTCAACGGCCCGGCCTGCCGGTGCGGAAACCGCGGCTGCCTTGTCCTGGTGGCCGGCACTCCTGCCATCCTGGGCCGGCTCGCCCCCACGCTGGGCGAAACGGCCACCATGGATGACGTGCTGGCCGCCAATGCTGCCGGAGACAGGTCCGCCCAGAACGTCCTGGCCGAGGCCGGAACCATGGTGGGCCGTCTCCTGGCCAACATGTGCAACCTCCTCAACCCCACTCGCATCGTGGTGGGCGGCCAGACCTCCCTCGCCGGAGCGGTGGTGCTTGACCCGCTGCGTGACGGCATTACGCGCTACGCACTGACCCCTTCGGCAGCCCTGGAAGTGGTTGCCTCGGATCTTGGCGGCGGCCCCGAGGCCGGTGCCGCCGGCGGTGCCGCACTTGCACTGTCAAAGCTGACCACCTCATCTGAAATGCTGAGCCGGCTCCTGGACGGGGCCGCAACCGCTTCAGCGTCCGCCCGCGGCCGGGTGCAGGTAGCGAACTAG	MTCKFIHNGKVNSSRSGGSLRNLRQSNSLHVLDLLASQGPMHRAEMARRANISRTTVTTITRDLMERGVLVELTERADGGDEVDGRAGDQLAFSPEAGWIAGMSQVLDRICVRITDLMGQEVASADVPIGAKDDWRIRAEAAVHLLDRALKDAGGEREDLLGVGIGLPGQINPVDGIVHGALADQPWHGINAREELGRRLGVPVFIDNNVRLETIAEAKWGAGQGIQDLMYVNISSGIAAGFLFGGELYRGSVGGAGELGHVSIDVNGPACRCGNRGCLVLVAGTPAILGRLAPTLGETATMDDVLAANAAGDRSAQNVLAEAGTMVGRLLANMCNLLNPTRIVVGGQTSLAGAVVLDPLRDGITRYALTPSAALEVVASDLGGGPEAGAAGGAALALSKLTTSSEMLSRLLDGAATASASARGRVQVAN				NA	NA	NA	NA	NA
D1-29_00206	801			hypothetical protein	GTGAGGCGGCATAAGTATCAGTACGGCCAGGATCCCAGCCAGTGGGGCGAGCTTTTCCTGCCCGAGGCGCGGCCCGGACACCAGCTGCGGGGTGTGGTGGTGGTGATCCACGGAGGTTACTGGCGCTCGCACTACGGCGCCGAACTGGGCGAGCCGCTGGCCAAGGACCTTGCCGCGCACGGGATGGCCGCCTGGAACCTGGAATACCGCCGCGCCGGCAACGGTGGCGGCTGGCCGCACACCTTTGAAGACGTGCTGGCCGGAATCGACAAACTGCATGACGTCGCCGCCGCCCATTCCCTGGAACTTGGTCCGGTGGTGGCGCTCGGCCATTCAGCCGGCGGCCACCTCGCCGCCTGGGCCGCCGGCCGGAGCAAGCTGGGGCAGCTGGGGATGCCCGACGCCGACCGCCAGGTCAAGCGGAAGGAGAACGGGGACGCTGTCCTGCTGACCGGCGTGGTGAGCCAGTCGGGCCTGCTGAACCTTGCCGAGGCCGAGAAGCTGGACCTGAGCAGCGGTGCGGTCAGCAACCTGCTGGGCGGGTCGTCGTCGAAATACCCGGTGCGGCACAAGTATGCGGACCCCATGAGCACCATCCCGCTGGACCTTCCGGTTTTCGCGGTCCACGCCCTGGCGGACGGGGACGTCCCGCTGAGCCAGTCCGAGGCATATGCCGCCGCCGGCAGGCCGCCGCGATCACCGCAGCTGGTCAAGGTCCCGGGGGACCACTTCTCACTCATCGATCCGAAGTCCGCCGCCTACAAAAAATGCCGCGAGCTGGTGCAGGCGCTGATGGCCTAG	MRRHKYQYGQDPSQWGELFLPEARPGHQLRGVVVVIHGGYWRSHYGAELGEPLAKDLAAHGMAAWNLEYRRAGNGGGWPHTFEDVLAGIDKLHDVAAAHSLELGPVVALGHSAGGHLAAWAAGRSKLGQLGMPDADRQVKRKENGDAVLLTGVVSQSGLLNLAEAEKLDLSSGAVSNLLGGSSSKYPVRHKYADPMSTIPLDLPVFAVHALADGDVPLSQSEAYAAAGRPPRSPQLVKVPGDHFSLIDPKSAAYKKCRELVQALMA				NA	NA	NA	NA	NA
D1-29_00207	939	scrK	COG0524	Fructokinase	ATGCTTACTGTTATCGGCGAGGGGCTGGTGGACGTAGTCCAGCGAGCCTCCGGAATCCAGGCCCATGTGGGCGGCAGCCCCCTCAACGTTGCGGTGGGCCTGGCCAGGCTCGACCATCCGGTGCAGTTCATCGGCCGCTATGGCCGTGACGCCTACGGGGATGCGGTGGCCGCGCACCTGCGCTCCAGTTCCGTCATGCTCCCGTGGGGACCGGATGAGCAGCCCACCAGCGTGGCCACTGCCCTGATCGACGACGACGGCGCCGCCACCTACACGTTCGACCTCACCTGGGAGCTTCCCGGCCTCGCCGACCGGCTTGGCTTTATGCTTCAGGGCACCACCCTCCTGCACACCGGGTCCATTGCCACCATGCTGGCGCCGGGCGCCACCGACGTCCTGGCCGCCGTCGAATATGCCCACCCTTCCGCCACCATCAGCTTTGACCCCAACTGCAGGCCCAGCATCATCACGGACGTTGACTTCGCGCGCCGGCAGGCGGAAAAGTTCGTCACACTCGCGGATGTGGTCAAGGCGTCCAATGAAGACCTTCAATGGCTCTATCCCAGCCGCGACGTGCTGGACTCGGCGCGCCACTGGCTGTCACTGGGAGGTTCGGAAGGGCCCGCCATGGTGGTGGTCACGCGGGGAGCGGCCGGGCCGTGGGGCGTCACGGCCGCCGGCGAGGCGGAATTCCCCGCCCCCCGGGTGGTGGTGGCCGATACCGTCGGCGCAGGTGATTCCTTTATGGCTGCGCTGCTCTCCGGCCTTGTGGACAGGCACCTGGACGGCGCGCAGAACCGGAAGGAGCTCCGCGAACTCCCAGCCGAGGGCCTGGCGGAGATCCTGGCCCACGCGTCCCGGGCCGCGGCCATCACAGTGTCCCGGCCGGGCGCCAACCCGCCCAGCCGCGAGGAACTGAACGCCGTACCCGGAGAATAA	MLTVIGEGLVDVVQRASGIQAHVGGSPLNVAVGLARLDHPVQFIGRYGRDAYGDAVAAHLRSSSVMLPWGPDEQPTSVATALIDDDGAATYTFDLTWELPGLADRLGFMLQGTTLLHTGSIATMLAPGATDVLAAVEYAHPSATISFDPNCRPSIITDVDFARRQAEKFVTLADVVKASNEDLQWLYPSRDVLDSARHWLSLGGSEGPAMVVVTRGAAGPWGVTAAGEAEFPAPRVVVADTVGAGDSFMAALLSGLVDRHLDGAQNRKELRELPAEGLAEILAHASRAAAITVSRPGANPPSREELNAVPGE	PGPT0017625_2133	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
D1-29_00208	1146			hypothetical protein	ATGGAGCAGTTGACGGCAGAGTTCGGTGGATCGGGCCGCGTGGGTATGGGCGTCGGCCCCGTCCTGGAAAAGTTCGACGGCGTCTCCCGCATCGCCGTCCTGCGCGGCGGCGGACTGGGGGACCTGATTTTCGCTGTCCCCGCCATGGCCTCGCTCAAGGCGGCCTATCCCGGAGCGGCGATTACGCTGCTCGGGACCCCGGTTCACGAGGCACTCATCGCCGCGACGGAAAGCCCTGTGGACGAAGTGCTGGTGCTTCCGTTCTCGGAAGGTGTGCGCCCGGGCGACGAGGATGCCGACGAACTTGAGAGGTTCTTTTCGCGCATGCGGGAGCGGCGTTTTGACCTTGCCGTGCAGCTCCACGGCGGCGGGCGTTACTCCAACCCTTTCTTGCTGCGGCTCGGAGCCCGCCACACCGTCGGCACTCGCACTGCTGACGCGGCCAGCCTGGAGCGGACGGTCCCGTATCTCTACTATCAGCACGAGCCGCTGCGGGCCCTGGAAGTGGCGGGATTTGCCGGAGCCTTCCCCGTGGATTTGGAAGCCAGGCTCTCTGCTGCCGCAGGCGCCGACGCTTTGCCGCCCGGCCTGGCTGACGACAACTCCCGGCCCCTGGTGGTGCTGCATCCGGGTGCCACCGATCCCCGCCGGCGGTGGCCGCCGGACCGGTTCGCGGAACTGGCCGCAGCCTGCGCTGCTGACGGCTGCCACGTGGTGGTTGTTGGCGACAGGAGCGAACAGCGGCTCGCGGAGCGAATCGTTCAACTTGCTGCTCCTGCATCCATCCGCTCCGTGGCTGGCGAACTGGACATGGCCGGCCTGGTGGCACTGCTTGCCCGCAGTGCCGTGGTGGTGGGGAACGACAGCGGCCCCAGGCATCTCGCCCAGGCGCTGGGGGTACCCACCGTGGGCATCTTCTGGGCGGGAAATGTGATCAACGCCGGGGCCCTGGGCCGGAGCCTCCACCGCATCCATCCATCCTGGGTGACCACCTGCCCTGTTTGCGGGATAGATATCACGCAGGTCGGCTGGACGGCGCCGCGCTGTCCGCACGATGAGTCGGTCGTGGCCGATATAGGGGTGCGGGAAGTCCACGAGGACGTTCGCAGCCTGGTAGCCACCGAACCTCATGCGCACGGCGGATAG	MEQLTAEFGGSGRVGMGVGPVLEKFDGVSRIAVLRGGGLGDLIFAVPAMASLKAAYPGAAITLLGTPVHEALIAATESPVDEVLVLPFSEGVRPGDEDADELERFFSRMRERRFDLAVQLHGGGRYSNPFLLRLGARHTVGTRTADAASLERTVPYLYYQHEPLRALEVAGFAGAFPVDLEARLSAAAGADALPPGLADDNSRPLVVLHPGATDPRRRWPPDRFAELAAACAADGCHVVVVGDRSEQRLAERIVQLAAPASIRSVAGELDMAGLVALLARSAVVVGNDSGPRHLAQALGVPTVGIFWAGNVINAGALGRSLHRIHPSWVTTCPVCGIDITQVGWTAPRCPHDESVVADIGVREVHEDVRSLVATEPHAHGG				NA	NA	NA	NA	NA
D1-29_00209	936			hypothetical protein	ATGGCGGTGGAGAACGGTAAGCCGGATGTGCTGGTGTTGCGGGCACTCAAACTTGGGGATCTGCTGGTGGCGGTGCCTGCGCTGCACGCACTCCGCCGCGCCTATCCAGGGCACAGGCTCCGGTATGCGGCGCAGGGGTGGCTGGCAGAGGCGCTGAGCCTGGTGGGCGGTTTCGAACTGCTTCCCACGCATGGACTGGACGTGCCGCTGGCGGTAGAGCCGGGCAGCGTGGACGTGGCAGTCAACCTTCATGGCAGCGGGCCGGAGAGCCAGGCGAGAATCGATGCTGTCCGCGCGCGGCGGACCATAGCCCACGGCACGGACCACCGGTCCGGACCGCGCTGGCGGCCGGACCTGCATGAGCGGGAAAGATGGGTCCGGCTTCTGGAGTGGCACGGGATTGAGGCGGACCCGCTGGACTTCCGGGTGGATGTTCCGCCCATTGCCAGTCCGGTTCCGGCGGCCACGGTGCTTCATGTCGGCGCCGCCTATGGGAGCCGCTTGTGGCCGGCGGACCGCTTCGCCGCCGTCGCCTCCAGGCTTGCTGAGGCCGGGCACAACGTCATCTTCACCGGCAGTGCGGGCGAACGGGAACGGGCACTGGACGTGTGCATCCGATCCGGATTGCCGGCCACCGCCGTCCTGGCCGGGAACCTGAGCCTGGGAGAATTTGCGGCCACGATCGCTGCCGCCAGGCTGGTGGTTTCGGCCGACACCGGGGCAGCCCACCTGGCCTCCGCGTACAGCACCCCTTCGGTGGTACTTTTTGGGCCGGCGCCCCCCGAGATCTGGGGGCCGCCGCCCGGGCCGCACGTGGTGCTGACCCGGGCCGACCTGCGCCGCGGTGATACTTTCGCCGCAGATCCCGATCCCGCCCTGCTGGCTGTTTCGGTCCAGGACGTCCTTGCCGCCGTCCGGGACCTCGGAGTGCTCTAA	MAVENGKPDVLVLRALKLGDLLVAVPALHALRRAYPGHRLRYAAQGWLAEALSLVGGFELLPTHGLDVPLAVEPGSVDVAVNLHGSGPESQARIDAVRARRTIAHGTDHRSGPRWRPDLHERERWVRLLEWHGIEADPLDFRVDVPPIASPVPAATVLHVGAAYGSRLWPADRFAAVASRLAEAGHNVIFTGSAGERERALDVCIRSGLPATAVLAGNLSLGEFAATIAAARLVVSADTGAAHLASAYSTPSVVLFGPAPPEIWGPPPGPHVVLTRADLRRGDTFAADPDPALLAVSVQDVLAAVRDLGVL				NA	NA	NA	NA	NA
D1-29_00210	1212			hypothetical protein	GTGTCAACACCACAAGACAAGAACCCCCGCAGCCAGGCCCCGCAGGAACAGCAAGGATCCACCCGCATCGTGGCGGGCCAGTCCACCGCCCCCAAACGCCCCCTCGGCCTCAAGATCGGCGTCCTGGCCGGCATCCTCGCCCTGGTGGGCGGCGGCGTGGCCGTCGCCTCCGCCGTCGCCGGCAACAATGGCGCCCCGGCCGGACAGGCCGCCGTCTCGGGAGATCCCGCCGCGTCCGGAAACCCTGCCGCTGAGCTGCGGCTGGGCTACTTCGGAAATGTCACCCATGCGCCTGCCCTGGTGGGCCTCAGCAAGGGCTTAATCGCGGGGGAACTGGGCGGCACGAAGCTCAGCACCCAGGTATTCAATGCCGGTCCTGCAGCGATCGAAGCCCTGAACGCCGGCGCCATCGACGCCACGTACATCGGGCCCAACCCCGCCATCAATTCCTTCGTCAAAAGCCAGGGACAATCCATCAGCATCGTTGCCGGCGCTGCTGCCGGCGGCGCCCAGCTGGTGGTGCGGCCTGAAATCACCTCGGCGGCGGACCTCAAGGGCAAAACCCTGGCGTCCCCCCAGCTGGGTGGCACCCAGGACGTGGCGCTGCGGGCCTGGCTCGGGACGCAGGGCTATCAGACCAACGTGGACGGCAGCGGCGACGTGGCCATCAACCCCACCGAAAACGCCCAGACCCTGAAGCTGTTCCAGGATGGAAAGCTCGACGGCGCGTGGCTGCCTGAACCGTGGGCGTCCCGTCTGGTGCTCCAGGCAGGAGCCAAGGTCCTGGTGGACGAAAAGGACCTGTGGGACGGCTCCCTCTCCGGCAAGGCCGGCGAATTCCCCACCACCATCCTGATCGTTAACAAAACGTTCGCCGCGGAACACCCGGACACCGTCAAGGCACTGATCAAGGGCCACGCCAGGTCCGTGGAGTGGCTGAACAATGCCCCGGCCGACGAAAAGGCCAGCACCATCAATGCCGCGCTCAAGGACGCAGCAGGCGCCGAGCTCAAGCCTGACGTGATCGAACGGTCCCTGAATAACATTGTGTTCACCGTTGATCCGCTGGCCGGAACCTACAAGAAGCTGCTGCAGGACGGCGTGGACGCCGGCACCACCAAGCAGGCCGACATCAACGGCATCTTCAACCTCACGGCCCTCAACGAGGTGACGGGAGCGGAGGCTTCCGCGGCCGGGTTGGGGACGGAGTAG	MSTPQDKNPRSQAPQEQQGSTRIVAGQSTAPKRPLGLKIGVLAGILALVGGGVAVASAVAGNNGAPAGQAAVSGDPAASGNPAAELRLGYFGNVTHAPALVGLSKGLIAGELGGTKLSTQVFNAGPAAIEALNAGAIDATYIGPNPAINSFVKSQGQSISIVAGAAAGGAQLVVRPEITSAADLKGKTLASPQLGGTQDVALRAWLGTQGYQTNVDGSGDVAINPTENAQTLKLFQDGKLDGAWLPEPWASRLVLQAGAKVLVDEKDLWDGSLSGKAGEFPTTILIVNKTFAAEHPDTVKALIKGHARSVEWLNNAPADEKASTINAALKDAAGAELKPDVIERSLNNIVFTVDPLAGTYKKLLQDGVDAGTTKQADINGIFNLTALNEVTGAEASAAGLGTE	PGPT0001135_557	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
D1-29_00211	819	ybhA	COG0561	Pyridoxal phosphate phosphatase YbhA	ATGCGGCTGGTAGCAAGTGACATTGACGGAACGATCCTTGGGCACGACGGAAAAATCAGTGACCGCACCGTCCGCGCCTTCCACGCCTGCCGAAACGCCGGCGTCGAACTCGTTTTTGTCACCGGCCGCCCGCCGCGCTGGCTGCACCCGCTGGAAGAGCAGCTGGGCCACACGGGCACCGTGATCTGTTCCAACGGTGCCGTGGTCTGGGACCTTGAGGCGGACCAGCTGGTGTCCGCGCGGACGCTGGGCATCGAGTCCGTGATGGAGGTCCGGCGGATCATCAAGGACCTGCGCCCCACTGCGTTGTTCGCCGCCGAAACCCTCACGGGGTTTCACCTTGAGCCAGGCTTCATTCAAAATGCCTCCAGTGAACTCCTCTCCGAATTCACACCTGCGCCGCTGGCCGAAACGCTCGCCCAGGATTCTGAAGTGGTCAAATTCCTGGCGATCGTGCATGAGGGCACGCCGGATGAATTCCTGGCCGAGGTGGCCCCGGCGGTGGCCCATCTTGCGGCGGCCACACACTCCTCGCCCGGGGCCTCGATGCTGGAACTATCGCTTCCCGGCGTCAACAAAGCCGTGACGCTGGCCGAATACGCGGCGTCGCTTGGCATCGACGCCGCGGACGTTGTGGCCTTCGGTGACATGCCCAATGACATTGAAATGCTGCGGTGGGCCGGCCACGGCTATGCCATGGCCAGTGGTCATCCGGAAGCCATCCGCGCCGCCGGCCAGCAGGCGCCCCATTTCGACGACGACGGCGTGGCCCAGGTTCTCGAAGCCAGGCTCGCGGCCCTGGGCGTCAAGCTTTCCTGA	MRLVASDIDGTILGHDGKISDRTVRAFHACRNAGVELVFVTGRPPRWLHPLEEQLGHTGTVICSNGAVVWDLEADQLVSARTLGIESVMEVRRIIKDLRPTALFAAETLTGFHLEPGFIQNASSELLSEFTPAPLAETLAQDSEVVKFLAIVHEGTPDEFLAEVAPAVAHLAAATHSSPGASMLELSLPGVNKAVTLAEYAASLGIDAADVVAFGDMPNDIEMLRWAGHGYAMASGHPEAIRAAGQQAPHFDDDGVAQVLEARLAALGVKLS	PGPT0017727_17	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017727-yidA-NA	NA	NA
D1-29_00212	249			hypothetical protein	ATGGCAAGGAAAGTCAGTCAACATGTGGCCGAGGCAACGCTGCGCCCTGCTGAACCGGCCGCGCACTGGAAGAAACTGAAGCAGGGGGACCGCGTCAGCGTCCGGCTCACGCCTGCTTTTGTCACCCTGGGCCAGGTGGACGCCATCACGTGGGACCACACAGCGCTCTGGGTGGAGCTCGACGGCGGGGGCGGACGCGTCCTGGTCCACTGCAGCGACGGTGTCGAGGTGGCATTGCAGGAGGAATAG	MARKVSQHVAEATLRPAEPAAHWKKLKQGDRVSVRLTPAFVTLGQVDAITWDHTALWVELDGGGGRVLVHCSDGVEVALQEE				NA	NA	NA	NA	NA
D1-29_00213	804			hypothetical protein	GTGACTGAGCCGTTTTTTACTGCCGCCCGCGGTTCCGCGGGCTCCTGGCCGGTGGCCATGGCCCACCGCGGTTTTTCACGCGAGGGGCTGGAAAACTCCATGGCCGCGTTCCGCGCCGCCGTCGAGCTCGGATACCTGTACCTGGAAACCGACGTGCACACCACAGCAGACGGTGTCCTGCTTGTCTTCCATGACGACAGCCTGGACCGGGTAACCGACGGCAGCGGCAGGATCGCCGAACTCACGGCTGCTGAGGTGGCGGCAGCCCGCATCGGCGGACGGGAGGCGGTGCCGCTGTTTGACGAGCTGGTGACGGCCTTCCCTGAGGTCCGGCTCAACGTGGACGTCAAGGACTGGGCATCGGTCAGAAGCCTGGCCGCAGGAATCGAGCGCCACCAGGCCCACCACCGCATCCTGGTTGCCAGCTTTTCGGACCGCCGGCGCCGGGCCGTGCTGAAACTCCTCAGCCGCCCCGTGGCGTCCTCCGCCGGGGTCATCACCAATGCGCTGTTTGTGGCACTTGGACCCCTCATGCCAACCAGTTGGCTGGGGCGGGTGCTCGGCAGTGTCCTGCACGACGTGCACGCGCTGCAGGTTCCGGTCAGGTACGGAGTGGTCAGGGTGGTCACCAAGGCCTACGTCCGGCGGGCGCATGAGCTGGGCCTCATGGTGCATGTGTGGACCGTCAACGAGCCCCAGGAAATGCGGCGGCTTCTCGCCCTCGGAGTGGATGGCATCGTGACCGACCGTGCCGATCTGCTCAAACAGGTCCTGGAGGAGCGCGGCGAGTGGCCCGGCACCTGA	MTEPFFTAARGSAGSWPVAMAHRGFSREGLENSMAAFRAAVELGYLYLETDVHTTADGVLLVFHDDSLDRVTDGSGRIAELTAAEVAAARIGGREAVPLFDELVTAFPEVRLNVDVKDWASVRSLAAGIERHQAHHRILVASFSDRRRRAVLKLLSRPVASSAGVITNALFVALGPLMPTSWLGRVLGSVLHDVHALQVPVRYGVVRVVTKAYVRRAHELGLMVHVWTVNEPQEMRRLLALGVDGIVTDRADLLKQVLEERGEWPGT	PGPT0018470_5080	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
D1-29_00214	477			hypothetical protein	ATGGGTATCGGCGACAGCATCGGCAAGGCAGCGGAAAATGCCATGGAGGACCTGGCGGGAACGTCCACGCCCACAGAAAACGCGAAGGTTCCGGAGCCCACGGACCCCAACAGCGACGTTGAAGTGCATTCGTCCATCAGCGAGGGCTCCAACGCCATGGAGGCGGAGAAGGAGAAGGCCCCGGGGTTGAAGGCAGGCTCTGCCACCGGGCCGGTTTCCAGCAACCCGACCACCCCAGCCGGCACCAACGCCACGGGCGCGGAAACGGGAGCTCCAGGCAGCCCAGCCGGAAGCGACTCCGGCATGAACGGCAATGCACCCGGAGGAACTAGCTCAGATGAGGACAGCGGCGTGACCACTGAGCCTCCCCGCGATGTGCCCGGGCCTGCAGGCCTCCCGGAAGGCGATCCGGATGCCCTGCGCGCGGATCCAAGCGAGGGCGACCAGGACCCGTCCACTGGTTTGGGGCGCGGCTGA	MGIGDSIGKAAENAMEDLAGTSTPTENAKVPEPTDPNSDVEVHSSISEGSNAMEAEKEKAPGLKAGSATGPVSSNPTTPAGTNATGAETGAPGSPAGSDSGMNGNAPGGTSSDEDSGVTTEPPRDVPGPAGLPEGDPDALRADPSEGDQDPSTGLGRG				NA	NA	NA	NA	NA
D1-29_00215	234			hypothetical protein	ATGAGCAGCTACCATCCGGAGAACGATCCAGCCAACCCTGATCCGCCCGGCGCAGCCGGACAACAGGGCGCAGGCCAGCAGGGGCGGGGGCCGGGAAAGGACTCGGCTGATTCCGCCAATCCCGATCCGCTGGAGGGTAACGTCACAGGCCTGGAGCCCGGCGGCGGAGTCCCGCCGGGGGAGACGCCGCCTGCGGAGGACCAGATGAGCGGGGACCAGGGGCACGACGAGTAG	MSSYHPENDPANPDPPGAAGQQGAGQQGRGPGKDSADSANPDPLEGNVTGLEPGGGVPPGETPPAEDQMSGDQGHDE				NA	NA	NA	NA	NA
D1-29_00216	342			hypothetical protein	ATGACCAAGTATCTGATCTCGTTTCCGAGCGCTGCCATGGACTTCCCGGACGAAGACCTGCAGGCCGCTTCGGACGCGTCGCGCGCGGTGGTTCAGGAGGCGAAGGACGCCGGTGTCTGGGTGTTCGGCGGTGGCATCGATGAGAGCATCCCGCCTGTCATGGTGGAGGGCGATGGGACCGTGCGCGAGGGCACCTATCCACAGACAACGCAGCTCGACGGCGGCTACGCAGTGCTGGAACTGCCCTCCTACGATGCGGCCCTGGAGTGGGCCGCGAAGCTGGCGGCCGCCTGCCGTTGCGCCCAGGAGGTGCGCGCTTTCCATTACGACCCCGCCAGCTAG	MTKYLISFPSAAMDFPDEDLQAASDASRAVVQEAKDAGVWVFGGGIDESIPPVMVEGDGTVREGTYPQTTQLDGGYAVLELPSYDAALEWAAKLAAACRCAQEVRAFHYDPAS				NA	NA	NA	NA	NA
D1-29_00217	1062			hypothetical protein	ATGTCGGTTCGGGTACAAGCGTGGGGAATCATTGCTGCGGTGCTGGCGGACTCCGATCCTGCCGGCGCAGCAACACGTCAGCGTCTCAGCAACCTGCTGGACGAAAACCCGGGAGTCCCCGAGAGGGCCCTCCTGGAACATCTTCTTGAATCCAGGCAGCAGGAGGCGCTCAAACAGGGCGGCTCCGACGCCGTCCGCACCCCCTTGCCGCTGGAGGGCATGCCGCCGCGGCTGGTTGAGCAGCTGGACACCCTGATGAGCCTGTCCCGGATCAGTTCATTGCTTGAGAACCAGATGCTGATGACCGCCTTCCAGCCCATCTACGGTTTGGCATCCCAGAGCGTGGTGGGTGTTGAAGCCCTCTCCAGGTTTGTCAGTGACGACGGCGCCAGCGCCGAGCTGTGGTTCGCGGAAGCCGCGGCAGTGGGGCTGGGAGCCAATCTGGAATTCTCGGCTCTGGGCTCGGCCGCCGCGGCAGCAGCCAAACTTCCCCCGCAGCTTTACGTGTCCCTGAACATCTCGCCGTCGTCCTGCATTGATCCCCGGCTGCCTGAATTGTTTGACCACATCGAGTTGCCCGTCAGCCGTATTGTCCTGGAATTGACCGATGGAATTCCGGACGAAGAATACCTGCATTTCATTTCCGCAATTACACCCCTGCGTGAACGCGGGCTGCGGATTGCCATCGACGATTCCCAGTCCGGCGCCGGCATCCTGAGCCGGATGCTGCACCTCCGTCCCGACTTCATCAAGCTGGGCAGGAACATTATTGGCGGAGTGGACAAGGACGCCTCGCACTACGCCTTGGCAGCCTGCATGGTGGACTTCGCAGAGCAGATCGGCTCGGTGCTGGTGGCCGAAGGCGTTGAAACCCCGGAGGAGCTCCGTATTCTGACCGAGCTCGGGATCAGCGCCGGCCAGGGTTACCTGCTGGGGCGCCCCTCCGTCCGGCCGAAGGACTGGGCGGCCTGGAACACGCCACTGGACCCGGACGGGCTGGCACAGCACGCCGCCAAGGCAAGCCACATGGCGGAAGGCTCCGGGGCGAAGGACAAGCGCTAA	MSVRVQAWGIIAAVLADSDPAGAATRQRLSNLLDENPGVPERALLEHLLESRQQEALKQGGSDAVRTPLPLEGMPPRLVEQLDTLMSLSRISSLLENQMLMTAFQPIYGLASQSVVGVEALSRFVSDDGASAELWFAEAAAVGLGANLEFSALGSAAAAAAKLPPQLYVSLNISPSSCIDPRLPELFDHIELPVSRIVLELTDGIPDEEYLHFISAITPLRERGLRIAIDDSQSGAGILSRMLHLRPDFIKLGRNIIGGVDKDASHYALAACMVDFAEQIGSVLVAEGVETPEELRILTELGISAGQGYLLGRPSVRPKDWAAWNTPLDPDGLAQHAAKASHMAEGSGAKDKR				NA	NA	NA	NA	NA
D1-29_00218	1542		COG2200	putative signaling protein	ATGTTCGCTGGCAATGATCCCAGGCTCACCCAACTGCTGGACGGCATTGTCCGCCTTGCCTCCGGGGATCTCCAGTCACGCATCGAGGTCTCCCCCGCCCGGGACGAGCTCGATGCCATCATCATGGGCACCAACCTGCTGGCGGAGGACCTGCAGATCATCTATGAGGAACTTGAGCAGCGGGTCGAAGTCCGCACCCAACTGCTCCACGAAGCCCACCTGGAAATGCAGAAGATGGCCATGCAGGACCCCCTCACGGGCCTGGCCAACCGTTCGGCCCTCCTGGCAGCCCTGAAATCGGCGCAGGGCGAGGAGGCGTCGGAGGCTGAACCTCCGGTCATTCTGCTGCTAGACCTGGATGCCTTCAAGTCCATCAATGACACCCTTGGGCACACGGTGGGCGACCAGGTCCTGATCACCGTGGGAGAACGCATCCGGGATGCCGTACGCGTCACGGATGTCGTGGCCCGGCTGGGCGGAGACGAGTTCGCCATCGTGATGCCGGCAACAGACCCGGATCAGGCAACTCTTGTGGGGCACCGCGTCCTGGCAGCCTTGAACCGGCCCATCGAGTTGCCTGACCGGAGCATCCGCTGCGGGGCAAGCCTGGGGCTGAGCGTCGGCGGCAGGGGGCAGCGGCCGGAGGATATCCTCATGCAGGCCGATGTGGCCATGTACGCCTCCAAGGCCGAGGGACAGAACAGGCTCCACATCTTCGAACCGGGACTTCTGCTGGTCCGCCGGCTCCGCAGCCAACTGCTGGATGACCTCCGGGCCGCCATCAAGGGCGAGGGCCTGGTGCTCTACTACCAGCCGGTGGTGGAGCTTGCCACCGGACAGATCGAGGGAGTCGAAGCCCTGATCCGCTGGAACCATCCCACCCGTGGCCTCATCATGCCGGATGAATTTATCCCGCTCGCGGAAGAGGCGGGGCTGATCTCAGAGCTCGGCGTCTGGGTGCTGAAGGAAGCAGTGGGCCAGCTCGGGCGATGGATCTCCGACTCCGCAGTGGACAGCCGGTTCTCTGTCCGGATCAACATTTCCGCCAGCGATCTCCAAAGCCTTCAGTTCATCGAGGACGTCCGTGCCGTGCTCAAGGAGACTGGCGTCCGTCCCGAGCAGGTTGTCCTGGAGCTGACGGAAATGGCAATCGTGAAGGGAAATGACCTGGACCGCTATTCGCTGGGCGGTTTGCGTGGACTGGGCGTGGGCATCGAGATCGACGATTTCGGAACCGGCTATTCCTCGATCAGCTACCTCCGGAAGCTGCCGGTGGACCGGGTCAAGGTGGACCGCTCACTGATTGTGGGCCTGGGATCTGATCCCAGCCAGCCCGCCTTGGTGGCCGCCGTTCTCCAGCTGATCCGGGCCTGCGGCCTGGAGGCAGTCTGGGAAGGTGTGGAAACAGCCGAGCAGGCTGAGCATCTGCGGCGCCTCGGCTGCCTCAGCGCCCAGGGCTATTTCTTCAGCCGGCCGGTGCCGGCCGAGCAGATTCCGGCGTTGGTGGCCGCCGAATCCTCCGCAGGTAATACCAGGCCGTAA	MFAGNDPRLTQLLDGIVRLASGDLQSRIEVSPARDELDAIIMGTNLLAEDLQIIYEELEQRVEVRTQLLHEAHLEMQKMAMQDPLTGLANRSALLAALKSAQGEEASEAEPPVILLLDLDAFKSINDTLGHTVGDQVLITVGERIRDAVRVTDVVARLGGDEFAIVMPATDPDQATLVGHRVLAALNRPIELPDRSIRCGASLGLSVGGRGQRPEDILMQADVAMYASKAEGQNRLHIFEPGLLLVRRLRSQLLDDLRAAIKGEGLVLYYQPVVELATGQIEGVEALIRWNHPTRGLIMPDEFIPLAEEAGLISELGVWVLKEAVGQLGRWISDSAVDSRFSVRINISASDLQSLQFIEDVRAVLKETGVRPEQVVLELTEMAIVKGNDLDRYSLGGLRGLGVGIEIDDFGTGYSSISYLRKLPVDRVKVDRSLIVGLGSDPSQPALVAAVLQLIRACGLEAVWEGVETAEQAEHLRRLGCLSAQGYFFSRPVPAEQIPALVAAESSAGNTRP	PGPT0026010_3086	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
D1-29_00219	1671	sasA_1		Adaptive-response sensory-kinase SasA	GTGGGGGCTGGCACACCATTTGTCGCGACTGCATCTGTCACGACTGCGCAACGAACTGCCGTCGTGGCAGACCCCGACGCCGGGCGCCGGGACTTCATCGAGGCAACACTTCTGGCCGCAGGCTACACAGTCCGCGCGGCCGGCGATGCCGGCGCAGCCACCGCCGCCCTCGACGCAGGCGGCGCGTCAGTCCTCGTGGTGGACAGCTCCCTGTCCATGGTGGAGGCAGACGTTCCCGTCCTGGTACTGGTGGACCTGGACAACCCTGCGGAGGTCGCCGCCACCGAGCGGCCCGGCATCCGGGACTGCATCGCAAAGCCTCCTGCACCGCGTGAACTCGTCCACCGGACCACGGCGCTGATCAACCTTGTGGCGCGGCGGGCCGATGCACGGGCAGCGGCTGAGGCACTGCGCGAACAGCTGCGGCTGGTTTCGGCCGCCGTCCGCGGCACCAACGATCCGCAGGAGATCGCCGACTACGTGGTGGCGGGATTCGGCGGAACGTTCGCCGCCGACCGCGTCTGGCTGACCACGTTCGAAGACGACAGGGTGCCGCGAATTACCGCCCAGTGGAACAGGCCGGGGTTGAAACCCCTCCCGGCTGGCCTGCTGACGGATGAAGAATCGGCGCTCCGGACGGCGGATCTGCTCTGGTCACGAGCGGAGTCCCTGACTTTTGACGGGTGGGACCACCCTGATGCCGAAGCGCAGAGCCGGCTGCCGGGCTCCCTCCAGAAACTGAACGCCACGGCGTCGGTCCTGGTTCCCATGGGGGAAGGTGACTCGTCCCTGGGCCTCATCTGGATCGCGCTGATGGACAAGCCCCGGAGCTGGTCACGCGCCGAGCTCGGGCTGATTCAGCACGTTGCCGGAAACGCCGCGCACGGGCTGATCCAAAGCCACCTGATCAGCAGCCAGCAGCAAGTGGTCAAACAGCTTCAGCACCTGGACAAGGCCAAAACCGATTTTCTGGCCACGGTCAACCACGAACTGCGCACGCCGCTGACGTCGATCATGGCCTACCTGGACATGATCCAGGAGAGCACCGCCGATCCTGTATCCAGCGAGGTCCACCAAATGCTGGACATCGTGGTCCGGAACACCGAGCGGCTGAGGCTGCTCATCGAAGACATGTTGAGTGTGTCGCGGGACGGGCATACCGAAACTCCGCTTCATCTGACGCCCGTGAGGCTGGGGCGGACCCTGGACATCGTGGCCGGAGCCCTCAGGCCGCTGGCCAAGCTCCAAAACGTCACCATTGCGGTTGAACCTGTCCGGGAGGACCCGGAAATCATGGGGGATGAGGTCCAGCTGCAGCAGGTCTTCACCAACCTGGTCTCGAACGCCATCAAATTCACGCCAAGCGGCGGAAAAATCCAGGTGGGCAGCGTGGCAGACACTGCCCCTGACGGTACGCACTGGGCAACAGTGAGTGTGGCGGACACCGGAATTGGCATTTCCACCGATGAGCTCGCCCATGTTTTCACCAGGTTCTACCGGGCGTCCAACGCCATGGCCGGGGCTGTCCCGGGGACGGGGCTTGGGCTTGCCATCACCCAGGACATCGTGAACCGGCACGGCGGCAGAATTCATGTCGCTTCAGAACTCGGTGCAGGCACAACCGTCACTGTCAGCCTCCCCCTGGACGCCGGCGGGAACCACGCCAACTGA	MGAGTPFVATASVTTAQRTAVVADPDAGRRDFIEATLLAAGYTVRAAGDAGAATAALDAGGASVLVVDSSLSMVEADVPVLVLVDLDNPAEVAATERPGIRDCIAKPPAPRELVHRTTALINLVARRADARAAAEALREQLRLVSAAVRGTNDPQEIADYVVAGFGGTFAADRVWLTTFEDDRVPRITAQWNRPGLKPLPAGLLTDEESALRTADLLWSRAESLTFDGWDHPDAEAQSRLPGSLQKLNATASVLVPMGEGDSSLGLIWIALMDKPRSWSRAELGLIQHVAGNAAHGLIQSHLISSQQQVVKQLQHLDKAKTDFLATVNHELRTPLTSIMAYLDMIQESTADPVSSEVHQMLDIVVRNTERLRLLIEDMLSVSRDGHTETPLHLTPVRLGRTLDIVAGALRPLAKLQNVTIAVEPVREDPEIMGDEVQLQQVFTNLVSNAIKFTPSGGKIQVGSVADTAPDGTHWATVSVADTGIGISTDELAHVFTRFYRASNAMAGAVPGTGLGLAITQDIVNRHGGRIHVASELGAGTTVTVSLPLDAGGNHAN	PGPT0002705_1002	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
D1-29_00220	849			hypothetical protein	ATGCAGGCCAACGGGAGGCGCGGGACTTATATTGGGACGGTGCCTTCCGCCCTGAAACTCGTGCGCTCTGCCCTGCAGAAGTACCTGATGATCCCCACGCTCATCCGGCTGTCCCGCTCCGCGCCCAAGGACAGGCACGTGGCGTGGGACCGGTACTGGGCCGGAATTGCCAGGACGGGGCCGCACGGGGAGGTCCTGTGGGACTCCGGGAGCGATCACGAGCTGCTTGGTTACCGCGACATACTGCAACGGCACCTGGATCCCGGACTGCCAGTGGTTGACATTGGGTGTGGCCACGGCAGCTTCACCCGCGGCCTGGCAGCGTTGTTCCCGCAGGCCATTGGCGTGGATGTCTCCGCCCATGCAGTGGCGCGTGCCACCAGTGAGTTGGCGGAGCTGGACAACGTCAGTTTCCTGGCACGCGACATGACCGCGGCAGGGGCCGGTAAAGGGCTGGCCGGGCCAACCGACGCGAACGTCTTCATCCGCGGCGTCCTCCACGTGCTGGACCCTTCTGATCAGGCAGCGCTGGTGGAAAACCTTCGGGAAATTGTTGGTACCAGGGGCGCCGTGTTCCTGGCTGAAACAAACTTCCAGGGCAATCCGGTGGAGTATGTCTCGCACCTGGGTGCCACCTCCCGTGCCATTCCCGCCCCGCTGGAGCGTGCCATCCGGGAACTGCCGATGCCCGGCCATTTCGGGCCTGAGGAACGCAGCAGGGCCATGCCCTCCCATTTATGGGAGCTGCTGGAAGATGGCCCGGTGACTATAGAAACCAACCCCATGACGGCGGTGACGGGCGCGAGCATGATACCGGGCTATTTCGCCGTGCTGCGGGCCCGCAGCTAG	MQANGRRGTYIGTVPSALKLVRSALQKYLMIPTLIRLSRSAPKDRHVAWDRYWAGIARTGPHGEVLWDSGSDHELLGYRDILQRHLDPGLPVVDIGCGHGSFTRGLAALFPQAIGVDVSAHAVARATSELAELDNVSFLARDMTAAGAGKGLAGPTDANVFIRGVLHVLDPSDQAALVENLREIVGTRGAVFLAETNFQGNPVEYVSHLGATSRAIPAPLERAIRELPMPGHFGPEERSRAMPSHLWELLEDGPVTIETNPMTAVTGASMIPGYFAVLRARS				NA	NA	NA	NA	NA
D1-29_00221	453			hypothetical protein	GTGGCACAGGATAAAGGCAACCGGACCAAGGACCAGCCTGACGTGCAGGAATCCGAAGAAGACCTGGGTGCAGGTCCTGAAGGAGGCAAGATCCGGCAAGGACCCGAGTCGTCCAAGTCCCTGAAGTATTCGCAGGAAGTGACATCAACGGACGATGAACCGGAGCGGGAGGGCAGGAGCCTTGCCACAACCCACCATGAGGTCATCCGGCAGTGGGCCGAGGCCCGCAACGGTGTTCCGGCCACAGTGGAGGGGACCGAACACGGAGACCATCTGGGAGTGCTGCGGATTGACTTCGGCGGCGATGATAAAAATCTCCGCCACATCTCCTGGGACGAATGGTTTGATACTTTCGATGCCCGCGGGTTGAACTTCATTTATCAGGAGCAGCGCAGCGACGGCCAGGACTCCAATTTCTTCCGCCTCGAGAATCCTGGCCGGGAAGACGCCTAG	MAQDKGNRTKDQPDVQESEEDLGAGPEGGKIRQGPESSKSLKYSQEVTSTDDEPEREGRSLATTHHEVIRQWAEARNGVPATVEGTEHGDHLGVLRIDFGGDDKNLRHISWDEWFDTFDARGLNFIYQEQRSDGQDSNFFRLENPGREDA				NA	NA	NA	NA	NA
D1-29_00222	423			hypothetical protein	ATGCGTAACCCAATCCCCATCGGCTCCCTTCGGCAGATGCTGTTGCCCCCCACCTTCGGGTCCCATCTGACGCAAAGCGCCGAGTTCACCGTACTCTCGGTTGAAGTCTGGTCAACCGGCCTGGTGGTCAACATTCATGTGGCCTCCGCGAACGGAAGGCCGGCGCCGGACATTGCTGTTGAGGATCACCAGGGCACGGAATATTCATTGCGGGACTCCGTCACGGTCGGATCCCGCAATCTCCAGATTTTTACACCCTCTGTGCCACCTGGAACCAGGAGCCTGACCATCAGGTCCACCGAGGAGGATGACGCCCGCCTTGTGGTGACGTTCGCCGTCCCGCCGGTTCGCCTGGTGGAAGACGACGAGCCAACAGACATTGACCTCCTGTCACCGCCATACCGACTGCGCCGCCCGGCTTGA	MRNPIPIGSLRQMLLPPTFGSHLTQSAEFTVLSVEVWSTGLVVNIHVASANGRPAPDIAVEDHQGTEYSLRDSVTVGSRNLQIFTPSVPPGTRSLTIRSTEEDDARLVVTFAVPPVRLVEDDEPTDIDLLSPPYRLRRPA				NA	NA	NA	NA	NA
D1-29_00223	810	yohF	COG1028	putative oxidoreductase YohF	ATGGAAGACACCACCGGCTTTTCCCCGATGACCGCAATCGTCACAGGATCTGATTCGGGCATCGGCAGGGCCACCGCCGTAGCCTTGGCCAAGGCCGGACTGGATGTCGGCATAACGTGGCACAGTGACCAGGCCGGCGCTGAAGAAACCGCCGACGAAGTCCGCAGTCTCGGGCAGAAGGCTGCGGTCCGGCAGTTGGACACTACTGACATCCGCGGTTCCGCGGCCGTCATTGATTCCCTGGCTGACGAGCTGGGCGGAGTGGATGTTTTCGTCAACAACGCGGGCACCGGCGACCAGACCAAATTCCTTGACCTCGACGTGGAAACCTGGATGGGCACGCTGGACACGAACCTCAATGGCGCTTTCGTGTGCATGCAGGCCGCCGCGCGCCGGATGGTCAAGGCGGGCCGGGGCGGGCGCATTGTGGCGGTTACCAGCGTCCATGAATTCCAGCCCCGGGTGGGCTCCTCGGCCTATGACGCTTCCAAGCACGGCCTGGGCGGACTGATCAAGACCATGGCGCTGGAGCTTGCGCAGTTTGGCATCACAGCCAACAGTGTTGCGCCTGGGGAGATTGCCACGCCCATGACCGGCCAGACGGACGAGGATCCCACGTCGAAGGACCGGCCGGGGGTTCCCCTGGGCAGGCCGGGTGACGCCCGGGAGGTGGCCGCAGTCATCGCTTTCCTGGCTTCGCCTGAATCGAGCTATGTGACGGGTGCCTCCTGGGTTGTGGACGGGGGCATGCTGCAGATGGGTCCGCAAGGTGGCTCGCACATCACCGCACACGACTGGCGGGAAGGCTGA	MEDTTGFSPMTAIVTGSDSGIGRATAVALAKAGLDVGITWHSDQAGAEETADEVRSLGQKAAVRQLDTTDIRGSAAVIDSLADELGGVDVFVNNAGTGDQTKFLDLDVETWMGTLDTNLNGAFVCMQAAARRMVKAGRGGRIVAVTSVHEFQPRVGSSAYDASKHGLGGLIKTMALELAQFGITANSVAPGEIATPMTGQTDEDPTSKDRPGVPLGRPGDAREVAAVIAFLASPESSYVTGASWVVDGGMLQMGPQGGSHITAHDWREG	PGPT0014705_817	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
D1-29_00224	1137	garK_1	COG1929	Glycerate 2-kinase	ATGATGGAGGGCATGCGCATTCTTATTGCTCCGGACAAGTTCAAGGGCTCGCTCACTGCCGCTGAAGCAGCAGCTGCCATCGCCGAGGGCGCGCTGCGCGTCTATCCGGATGCCGTGGCCAACCAGTTCCCCATCGCAGACGGCGGCGAAGGCACTTTGGAGGCCGCGGTGTCCGCCGGGTACGAGGAACGCCTGAACGCTGTGGTGGGGCCAATCCTGGCACCTGTTGGTGCCGCCTGGGCTTTCCATAAATTGTCCGACGGCGGCGCTACCGCGGTCATTGAGACGGCCCAGGCCTCCGGCCTTGCCGACATGGACCCCACTCCCGTGAACGCGCTCCGTGCCCACAGCTATGGCTGCGGGCAGCTGATCGCTGCCGCCCTGGACGCGGGTGCCACGGAGATTGTTCTGGGCCTCGGCGGTTCAGCAATGACCGACGGCGGCAGCGGCGCCCTTCGTGCGCTGGGCCTCAAGCCACTGGATTCAGCGGGCAACGTTGTTCCGCTGGGCGGGGGATCGCTGGCCGATGTTGTTGCCCTTGATACGTCAGGGCTGGACCCCAGGCTGTCGGCCGTTTCCTTCCGGATTGCCGTGGATGTGCAGAACCCCTTGTATGGCCCGACTGGAGCGGCCCACGTCTTCAGTCCGCAGAAAGGCGCCGATGAGGAGGCAGTTGAACTGCTCGACGCCGGCCTCCGCAACTGGGCCTCCGTCCTCCGGCAGGAGACGGGCCGGGACGTCAACATCCAGGGCGCAGGCGCAGCAGGCGGCTTCCCGGCGTCGTTCCTTGCCTTTACCAGTGCCACGCTGGAAGGTGGCTTCGCTTTGGTGGCGGGCCTGACGGGGCTGGCCGGGCAACTGGCGGACGCGGACCTGGTGATCACCGGCGAAGGTTCCATGGATACGCAGTCCCTCACGGGCAAGGCGCCCATCGCGCTCGCCGACGCGGCCCGCGAACGGGGCATCCCCGTGATTGTGGTGGCCGGGCGGATCCTGGTGACTCCTGAGGATCTGGCGCAGCATGGCGTTGTGGCCGCGGCGCAACTGCTCGATGTGGCCCCCAGCCCCCAGGATGCGATTGCCCATGCGGCAAAGTACCTGACCTGGGCCACCACGCAAGTCCTGGAAGGGGCATAG	MMEGMRILIAPDKFKGSLTAAEAAAAIAEGALRVYPDAVANQFPIADGGEGTLEAAVSAGYEERLNAVVGPILAPVGAAWAFHKLSDGGATAVIETAQASGLADMDPTPVNALRAHSYGCGQLIAAALDAGATEIVLGLGGSAMTDGGSGALRALGLKPLDSAGNVVPLGGGSLADVVALDTSGLDPRLSAVSFRIAVDVQNPLYGPTGAAHVFSPQKGADEEAVELLDAGLRNWASVLRQETGRDVNIQGAGAAGGFPASFLAFTSATLEGGFALVAGLTGLAGQLADADLVITGEGSMDTQSLTGKAPIALADAARERGIPVIVVAGRILVTPEDLAQHGVVAAAQLLDVAPSPQDAIAHAAKYLTWATTQVLEGA	PGPT0018175_2612	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
D1-29_00225	375			hypothetical protein	ATGCGAAAGATCCTGGAATCCGTTTTTGCCGCGCTGGCGCTGTTTGCCCTGTCGCCACTGCTGGCCCTTGCCGCCCAAGCCGCTCCACAGGCCCCGGCAGCCATCAGTGAGCGGGCGGCAGTGCAGGCGGCCGCGGTGCAGACCGAGGGCGTCCACTCTGCCGATGTCCAGGCAGCCGCGGCTGCGGCCACCAATACCCCGCCTCCTCCGACGGATCCGGCGTCGACGGGTCCGGCCAACCCGGGAACGGGTGAAACCGGCGAGGCCGAGGCCACCCGGCTGGACTTCGCGCCGCTGGTGATTGGCGCGGTGGCGGTGATCACCCTGGTGGTGATTCTGATTTGGCGGCGCCGCCGCAACACCACCATTGTCTAA	MRKILESVFAALALFALSPLLALAAQAAPQAPAAISERAAVQAAAVQTEGVHSADVQAAAAAATNTPPPPTDPASTGPANPGTGETGEAEATRLDFAPLVIGAVAVITLVVILIWRRRRNTTIV				NA	NA	NA	NA	NA
D1-29_00226	495			hypothetical protein	ATGTCAGACGTGGAGGACTACACCGGGAGCACCGGACGCAACGAGACCCGGGAAGAACAGCTGGATCGCAACTGGGCCGAGCTCCTGCAGGAACTGAGGGTCCTGCAGACCGGCGTCCAGATCCTCGCCGGCTTCCTCCTGACGCTGCCCTTCCAGGACCGGTTCGACGAACTGGATGATTTCCAGGTTGTCCTGTATCTGGTCAACGTGGTGATCGCCACCCTCACCACGGCCTTTATCCTGCTTCCCGTCAGCGTCCACCGCCGGTTGTTCCGCCAGCGGCTCAAGGCAACCCTGGTATCGAGCGCAGACACGATCACCAAGATCGCCCTGGCGGGAGTGGGCACCCTGAGCGTCGGAACCGCAGCGCTCGTCTTTGACGTGGTAGCAGGCCGCCCTGCCGGACTGACCGCCGGCGGCCTGCTGCTGGCTGTCCTCCTGGTGCTGCTCGCCTACGTTCCGTTGCACCTGAATAAACGCGCCAAGGCTAGGTAA	MSDVEDYTGSTGRNETREEQLDRNWAELLQELRVLQTGVQILAGFLLTLPFQDRFDELDDFQVVLYLVNVVIATLTTAFILLPVSVHRRLFRQRLKATLVSSADTITKIALAGVGTLSVGTAALVFDVVAGRPAGLTAGGLLLAVLLVLLAYVPLHLNKRAKAR				NA	NA	NA	NA	NA
D1-29_00227	900	yghA_1		putative oxidoreductase YghA	ATGAGCGATACGCAGAAACAGACCGACCCGCCCACCGATCCCCGTGCTGGCTACCATTCCGGCCCCTTCCCGGAACAGGAACAAAAACAGCCGGGCCTGACAGCTCCCATGGATCCGAAACCCGATCACGGTGAGCACAGCTACGAAGGGCACGGCGCCCTCCTGGGCAAGGCTGCGCTGATCACCGGCGGGGACTCCGGAATCGGCAAGGCCGCGGCCATCGCCTTCGCCCGCGAGGGGGCCGACGTCGCGATTTCCTACCTTCCTGAAGAAGAGGAAGACGCCCAGGACACCGCTGACTGGATCCGGAAGGCCGGGCGGCGGGCCCTCCTGCTGGCAGGGGATGGCCGTGAAGAGGAATTCAGCACCGGCATTGTCCGGGACACGGTTGCCGAGTTCGGCCGCCTGGACGTTGTGGTGCTCAACGCTGCCTACCAAAAGAACCGCGAAAGCTTTGAATCCCTGCCCACCGAAGAGTTCGACAGGGTGTTCAGGACCAACCTGTACTCCCTGATCTGGACTGCCAGGGCCGCGGTTCCGCACCTTAAGGCTGGCTCTTCTATCATCACCACTGCCTCCATCCAGGCCTTCAACCCCTCACCGGGGCTGATCGATTACGCCATGACCAAGGCGGCGCAGGTGGCCTTCACCAAAGCACTGGCGCAGGAATTGGGCCCGAAGGGCGTCAGGGTCAACGCCGTTGCGCCCGGTCCCATCTGGACCCCGCTGATCCCTGCGACCGAATGGCCGGACAAGCTTCCCAGCTTTGGACAGGACACCCCGCTCCAAAGGGCAGGCCAGCCCGCCGAACTCGCCGCGGCTTACGTGCTGCTGGCGTCCGAGCAGGGGTCGTACATCTCAGGAGCCGTCCTTCCCGTCACCGGGGGCAAGGGGCTTTGA	MSDTQKQTDPPTDPRAGYHSGPFPEQEQKQPGLTAPMDPKPDHGEHSYEGHGALLGKAALITGGDSGIGKAAAIAFAREGADVAISYLPEEEEDAQDTADWIRKAGRRALLLAGDGREEEFSTGIVRDTVAEFGRLDVVVLNAAYQKNRESFESLPTEEFDRVFRTNLYSLIWTARAAVPHLKAGSSIITTASIQAFNPSPGLIDYAMTKAAQVAFTKALAQELGPKGVRVNAVAPGPIWTPLIPATEWPDKLPSFGQDTPLQRAGQPAELAAAYVLLASEQGSYISGAVLPVTGGKGL	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
D1-29_00228	546			hypothetical protein	ATGAGTCAGGACAACCAGCACAGCGCGGCCGAAGAGGAAGTTGGCGGGTACGGGACCCCGACGGCGGAGCAGGAGATGGGCGGGGCCGGAGGCAAACAGTTCGCCCAGCCCCGCGAGGAAGAGGATTTTGACGCCGCCGGCCTGAACCAGGACAGCCCCACGGGGGAAACGTTCGCCACCGACGCACCCAACCTCAGCCACTTTGAGGAGGAGGACAAGGACAGCGCCGGTGAGCCCGGTGCGGGCCGCTTCGGTGGCATTGACGACCAGCTCCATGCAGAGAGCGACTCCAGTGATCCGGGCTTCGAACCGGCCGGGCGGTCTGAGGGCGGTGATGCCGGTGACGTAGGTTTCATGGATGATGACACGGTGGCCCCGTCGGTGGACGCGGAGATCGACGAGTCAAATTCCGATGACCAGGGATCGCCGCAGTTTTCCTCCGAACCTGGACAGGACGCGGCGGGCCTTCCTGACGGGAGCGGCAATAACCTCCCTCAGGAAAAGTCGCCCAACGACGACGATGACGAGAGCTTCAGCGCCGGCTGA	MSQDNQHSAAEEEVGGYGTPTAEQEMGGAGGKQFAQPREEEDFDAAGLNQDSPTGETFATDAPNLSHFEEEDKDSAGEPGAGRFGGIDDQLHAESDSSDPGFEPAGRSEGGDAGDVGFMDDDTVAPSVDAEIDESNSDDQGSPQFSSEPGQDAAGLPDGSGNNLPQEKSPNDDDDESFSAG				NA	NA	NA	NA	NA
D1-29_00229	954			hypothetical protein	ATGGTCCACGGATGCAGTGAAGTCCGGAGGTACATCGTGAGCAGAATATCCTCTGAACAGTGGGGCCGGCGCGTCCAAGCGCCGGACGAGGTCCCGTTGGACGTCCTGATTCCCACCTGTGACCGTCCCGCCGAGCTGGCGGTCACCCTGGCAGGCCTGGCCGGCCAATCAGAACCGGCGTTCGCCGTGGTAGTCAGCGATCAGTCCACCGCCACCCCCGACTGGGAACATCCGGCCGCGGCGGCCATGGTGCGGGTCCTTGGGGCCCAGGGGCGCAGGGTGAGCCTGCTGCGCCACCTGCCCCGGCGTGGGCTTGCTGAACAGCGCCAATTCCTGCTGGAGCAGTCCACTGCGGACAAATGCCTGTTCCTGGATGATGACGTATGGCTGGAGCCAGGCTCCCTGGAGAAGCTCAGCAACGCCTTGGATGAGCTCCAGTGCGGGTTTGTGGGCATGGCGCCGCAAGGTCTGTCCTATCTGCACGACAGGCGTCCCGAGCAAACTGAGGTATTCGAAACCTGGGACGGGCCCGTGACGGCGGAGAGAATCACTCCGGACGGCCCGGAATTTCTTCGCTGGCCACTGCACAACGCGGCAAATCTCAGCCATGTGAGCGCAGATCTCTCCCTTGAGGCCGGCCAATGGGTGCCATACCGTGTGGCGTGGGTCGGTGGCTGCACCATGTTTCGCAGGAACGCCCTGAACCGGGCGGGAGGTTTCACCTTCTGGCCCAGCCTTCCCAGCGACCATGCGGGTGAAGACGTCGTGGCCCAGTGGAAGGTCATGGAAGAGTTTGGCGGCGCAGGGATCCTTCCGTCCGGGGCGGTGCACCTGGAATCTCCCACCACTGTGACCGAACGCAGGGTTGAGGCCTTTGAGGTGGTGCTCAACAGAAATTCGGCATCCGGGAATGATGAGGCCGGCTCCGGCCCACCGGGCCAGCTCCCGAAGTAA	MVHGCSEVRRYIVSRISSEQWGRRVQAPDEVPLDVLIPTCDRPAELAVTLAGLAGQSEPAFAVVVSDQSTATPDWEHPAAAAMVRVLGAQGRRVSLLRHLPRRGLAEQRQFLLEQSTADKCLFLDDDVWLEPGSLEKLSNALDELQCGFVGMAPQGLSYLHDRRPEQTEVFETWDGPVTAERITPDGPEFLRWPLHNAANLSHVSADLSLEAGQWVPYRVAWVGGCTMFRRNALNRAGGFTFWPSLPSDHAGEDVVAQWKVMEEFGGAGILPSGAVHLESPTTVTERRVEAFEVVLNRNSASGNDEAGSGPPGQLPK				NA	NA	NA	NA	NA
D1-29_00230	867			hypothetical protein	ATGGCCGTGGACACCTCAGGGGGCGCAGGCCGGGAGCCGCTGCCCGCCCCCCAGGACGTAGTTTTCGAAAGCAACGACGTCGAAAACTTCCTCAGCGATGTGACCCATGAGTTCATGCAGGACATTCAAGGTGCCCCCCGGGGAATCAGCTGGGCAGCCACGCTGTTCCGGCGGGGGGAAGCGCACACCATAGCCGCGGGAAGCGCCAAGGCCCGGGCTGCGGACCAGGAGCAGTGGTCCTTCGGCGACGGACCGGTCCTGCTGGCCATGCGGACCGGCGAGTTCGTCCATGTCCCCGATGTAGCCCAGGAGCGGCGCTGGCCCGGATATGCCGCCGCCGCAGCAAGCCACGGTGTCCGTTCGCTGCTGTCCATGCCCATCGTGTCCGCGGCCGGGTCCGTTGCTGCCATCAATCTTTACGCGCCGTCGCCGCATGCCTTCACCAGCGAAGACCTTGTGAGAACCCGCAGTTACGCCCGGCAGGTTGCCAGGGCCCTTCGTGTGGTCCTCCGCGTGGCGGAAAGGGCCGAAGCCAGCGCGGAATTGGCGGTCGCGCAGACGTCTTTGGCTCTCATGGACCTTGCGGTGCGGGCCTTGATGGGGGAGTACGGGCTCAGCCACGAAGGTGCCTTCCAGTATCTGAGGACCATGGCAAGGCATAACAACCTGGGGCTGCGCGAGGCAGCCCTGAGCGTCCTGGCGTCCGGTTCACAGTTGGACACAGGAGCAGGAGACCTGGGGGGACGAAATCCGGGGGAACAAAACCTGGAACAACCAGGTCAGGACAACATCGATGTCCGCAGCCTGATCGGGGCGGAATCCCCACGCTCGGGCGAATCCCCGTACGGCAGAGGGAGTCCATCATGA	MAVDTSGGAGREPLPAPQDVVFESNDVENFLSDVTHEFMQDIQGAPRGISWAATLFRRGEAHTIAAGSAKARAADQEQWSFGDGPVLLAMRTGEFVHVPDVAQERRWPGYAAAAASHGVRSLLSMPIVSAAGSVAAINLYAPSPHAFTSEDLVRTRSYARQVARALRVVLRVAERAEASAELAVAQTSLALMDLAVRALMGEYGLSHEGAFQYLRTMARHNNLGLREAALSVLASGSQLDTGAGDLGGRNPGEQNLEQPGQDNIDVRSLIGAESPRSGESPYGRGSPS				NA	NA	NA	NA	NA
D1-29_00231	945			hypothetical protein	ATGAACAGCCAAAATCCGGACCGGACACAATCGACGTCGGCGGCCACCTCTTCAGAGGCCAGCCGGCCAGGTGCCACCGAGCCAGAAGCCACCCGTTCAGAGGGCGTCCAGCCAACGGCCGTCCAGCCAATGTTGGGTTCCCACCCCTGGCATCGCTTCGTGGCGCTCGGTGATTCCTTCACCGAAGGAGTGGGGGATCCCGAACCCGGCAGCGAGGGCGGACTGAGGGGGTGGGCGGACCGCGTTGCCGAGGAACTGAGCGAGGGCCAGGCGGACTTCGCCTACGCCAACCTTGCCATCCGGGGTCTGCGGATGCAGCAGATACTGGACCGGCAAATTGGGCCTGCGCTGGCATTGAAACCCGACCTCATCACACTGTCCGCAGGCGGCAACGACATCGTCTTCCGTCGCAGCGATCCTGACAAGCTGGCCGAAAAGATGGACGCGAATGTGGGCCTGCTGACCGCCACAGGGGCCACGGTGGTCCTGTTTGCCGGCCCGGACTGGGGTGCCACGCCCGTCCTTGCCCAGGTCCGGGGCAAGGTGGCCATCTTCAACGAAAACCTGCATACGGTGGCCGCCCGCCACGACGCCCTGATCGTTGACCTCTGGTCCCTCCGCGAGTTGGCGGACCCCGGAATGTGGGACCCCGACCGGCTGCATTTCTCCCCGCTGGGGCATCACACCATAGCCGCCGCTGTGCTCAATGCGTTGGGTGTGCCCCATAGCCTGAAGCCGCTCGAGCCCAAGCAACTCCCCGCGCGGAGCTGGAAGGAAGCCCGTTCCGAGGACCTCGTTTGGGCCCGGGAGTATCTGGTGCCCTGGGTAATCCGCCGTTTGCAGCTACGTTCGGAGGAGGGACTGGCAGCCAAGCGTCCCCATGCGGGTCCGGTCTTCGGAGTAGGCCGCGCTTCCGGCCAGTTCTCCCGGGGCTCCGCCGCCTGA	MNSQNPDRTQSTSAATSSEASRPGATEPEATRSEGVQPTAVQPMLGSHPWHRFVALGDSFTEGVGDPEPGSEGGLRGWADRVAEELSEGQADFAYANLAIRGLRMQQILDRQIGPALALKPDLITLSAGGNDIVFRRSDPDKLAEKMDANVGLLTATGATVVLFAGPDWGATPVLAQVRGKVAIFNENLHTVAARHDALIVDLWSLRELADPGMWDPDRLHFSPLGHHTIAAAVLNALGVPHSLKPLEPKQLPARSWKEARSEDLVWAREYLVPWVIRRLQLRSEEGLAAKRPHAGPVFGVGRASGQFSRGSAA				NA	NA	NA	NA	NA
D1-29_00232	1353	rutG	COG2233	Putative pyrimidine permease RutG	ATGAGCATGCTCGGAACCAAATGGAAGCTGCACGGCACCGGCAAGTCGATCCGGCCCGGACACGTGGTCGCACCCGATGAAAGGCTGGCCTGGCCGCTGACCATCGGCGTCGGCATGCAGCATGTGGTTGCCATGTTCGGCGCCACCTTCCTGGTCCCCATCATCACCGGAATGCCGCCAGCCACCACCCTCTTCTTCTCGGGCATTGGCACCCTGCTGTTCCTGGTGATCACCCGCGGCCGGGTGCCCAGCTACCTTGGTTCCAGCTTCGCGTTCATCGCACCCATCATGGCGTCCCAACAGCAGTTCGGCGTACCGGGGGCGCTGGGCGGAGTGGTGCTGGCCGGCGTCGCCCTGGCCCTGATCGGGGCCATCGTGCAGAAATTCGGCGCCGGCTGGATCAACCGGCTCATGCCGCCCATCGTCACCGGCGCCATTGTGGCGCTGATCGGACTGAACCTGGCGCCGGCGGCCAAGATGAATTTCGACGCCGCGCCGGTCACCGCCGTGATCACGTTGGCCACCATCATCCTGGTCAGCGTGCTGTTTCGCGGGATCATCGGCCGGCTGAGCATCCTGGTGGGCGTCGTGGCGGGCTACCTCGTGGCCATGATGCGCGGTGAGGTGAACTACGCCAAGATGGATGCGGCAGCGTGGATAGGCCTGCCGCAGTTCCAGACTCCCGAGTTCCACATCGGTGTCCTTGGCCTCTTTGTGCCGGTGGTGCTGGTGCTGGTGGCCGAGAACATCGGGCATGTGAAGTCCGTGGCGGCCATGACGGGCCAGAACCTCGACGGCGTCTCCGGACGGGCGCTGATGGCCGACGGCGCCGCGACTGTCCTGGCGGGCATCGGCGGCGGCTCCGGTACCACCACATATGCGGAAAATATCGGCGTCATGGCAGCCACGAAGGTCTACTCCACGGCGGCATATTGGGTAGCGGGCATTTTCGCGATTGTGCTCAGCTTTTCGCCAAAGTTCGGGGAACTGATTGCCACGGTTCCGCCCGGGGTGCTCGGCGGGGCAGCCACCATGCTTTACGGCATGATCGGCATCCTGGGCGTGAAGATCTGGGTCCAGAACAAGGTGAACTTCTCCAATCCGGTCAACCTGACCACCGCCGCCGTCGCGCTGATTATCGGTATTGCGGACTACACCTGGACCATCGGCGACCTGAAGTTCACCGGCATCGCGCTGGGCTCGGCCGCCGCGCTAGTGATCTACCACGGCATGAAGGCAGTGGCGAAGGCCCGGGGCACCGTGGCCGAGCCTGAGACGGAGCAGGCGGGCCTCCCGCCCGCAGTGAAGGCGGCAGTCAACGCTGCGGCCAAGCGGGCTCCCAAAAAGCGCTAG	MSMLGTKWKLHGTGKSIRPGHVVAPDERLAWPLTIGVGMQHVVAMFGATFLVPIITGMPPATTLFFSGIGTLLFLVITRGRVPSYLGSSFAFIAPIMASQQQFGVPGALGGVVLAGVALALIGAIVQKFGAGWINRLMPPIVTGAIVALIGLNLAPAAKMNFDAAPVTAVITLATIILVSVLFRGIIGRLSILVGVVAGYLVAMMRGEVNYAKMDAAAWIGLPQFQTPEFHIGVLGLFVPVVLVLVAENIGHVKSVAAMTGQNLDGVSGRALMADGAATVLAGIGGGSGTTTYAENIGVMAATKVYSTAAYWVAGIFAIVLSFSPKFGELIATVPPGVLGGAATMLYGMIGILGVKIWVQNKVNFSNPVNLTTAAVALIIGIADYTWTIGDLKFTGIALGSAAALVIYHGMKAVAKARGTVAEPETEQAGLPPAVKAAVNAAAKRAPKKR				NA	NA	NA	NA	NA
D1-29_00233	606	rutE	COG0778	putative malonic semialdehyde reductase RutE	ATGACCATTGCCCACGAAGAAGCGATTATCGATTCGGCCGCCATCGACGCCATTTTCGGTCAGGCCCGCACCGCCAACTCCTTCACCGGAGAGGTGACTGACGAGCAGGCGCAGGCCATCTACGAACTCACCAAGTATGGCCCTACCGCCTTCAACTCGCAGCCGCTGCGCCTGACCTACGTCCGCTCCGCTGAAGCCCGTGCCAAGCTCGTTGACGCCCTCGCCACCGGGAACAAGGCCAAGACCGAGTCCGCCCCGCTCGTTGCCATCCTCAGCTACGACACCGACTGGGCTGAGCAGTGGGACAACTTCCTGCCCGGCTACAACGCCCCCAAGGCCATGTACGACGCAAACCCCGAACTCGCCGCCGCCACGGGCAACAACAACGCCCACCTGCAGGCCGGCTACTTCATCCTGGCCGTCCGCTCGCTCGGCTTCGCAGCCGGACCCATGACCGGCGCCGACTTCGGTGCCATCGACGAGGCCTTCTTCCCCGCCGGCGACCAGAAGAGCTTCCTGGTGGTCAACATCGGCCAGCCCGCCGACGACGCGTGGGGCGAAGCCAAGCCCAAGTTCTCCTACCAGGACGTCGTCCGCACCGTCTAA	MTIAHEEAIIDSAAIDAIFGQARTANSFTGEVTDEQAQAIYELTKYGPTAFNSQPLRLTYVRSAEARAKLVDALATGNKAKTESAPLVAILSYDTDWAEQWDNFLPGYNAPKAMYDANPELAAATGNNNAHLQAGYFILAVRSLGFAAGPMTGADFGAIDEAFFPAGDQKSFLVVNIGQPADDAWGEAKPKFSYQDVVRTV	PGPT0021290_266	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021290-rutE|ycdI-K09019	NA	NA
D1-29_00234	1665	pgm	COG0033	Phosphoglucomutase	ATGGCTAGCCGCGCGGGCACAGTTGCCCAACCCCATGACCTTGTTGACATCACTGCGCTCCTTGACGCGTACTACGACATCACGCCGGATCTCGCTGATCCGGGCCAGCGGGTGGCTTTTGGTACCTCAGGGCACCGCGGTTCCAGCTTGAAGGCATCGTTCAACGAAAAACACATCGTTGCGATCACGCAGGCCATCGTGGAATACCGCTCCGGGCAGGGCATCACCGGCCCGCTGTTCCTGGCCAAGGACACCCACGCACTCAGCGAACCGGCCCAAAACTCCGCCCTTGAGGTGCTCGCTGCCAATGGCGTCCAGGTGCTCATCGATGCCCGCCACGGCTACACGCCAACGCCTGCCCTGAGCCACGCCATCCTTACCTACAACAACAACAATCCCGCCGGGGCCCCGCAGGCAGACGGCATTGTGGTCACGCCCAGCCACAACCCGCCCGCCGACGGCGGCTTCAAGTACAACCCTCCGCACGGCGGCCCCGCAGACTCCGATGCCACCGGCTGGATCGCGAACCGCGCCAACGAACTGCTGGAGAACGGCCTGCGCGGCGTGAAGCGCATTCCGCTTGCAGATGCCCTCAACGCCGATACCACAGGCAAGTTCGATTTCCTCAGCAGTTACGTTGACGACCTCCCCTCAGTCCTGAACCTCAATGCGATCCGCGACGCCGGTGTCCGCATCGGGGCCGATCCCATGGGCGGCGCCGCTGTTGATTACTGGGGCGAGATCGGCGAGCGCCACCACCTGAACCTGACCGTTGTGAACCCCACCGTGGATCCGCAGTGGGCATTCATGACTCTGGACTGGGACGAAAAGATCCGGATGGACTGCTCGTCGCCGGCTGCCATGGCCTCCCTGATCAAGCGGATGTCCGACGCCGCATCGTCCGGCCAGCAGGCCTTCGACGTTGCAACCGGCAACGACGCCGACGCCGACCGGCACGGCATCGTTACACCAGACGGCGGGCTGATGAACCCCAACCACTACCTCGCCGTCGCCATTGATTACCTGTACCGGAACCGCAGCGGCTGGAACCCCGCCTCCGTGGTGGGGAAAACCCTGGTGTCCTCCTCTATCATTGACCGCGTGGCCGAGAACCTGGGCCGCAAACTGGTTGAAGTTCCTGTAGGTTTCAAGTGGTTTGTGCCTGGCCTGCTCTCTGGTGAAGGTGCATTCGGCGGTGAGGAATCAGCCGGCGCCTCCTTCAACAAGCTGGACGGCAGCGTCTGGACCACAGACAAGGACGGCATCCTGCTGGCTCTGCTGGCTTCGGAAATCACTGCCGTCACGGGCAAGTCGCCGTCGCAACTGTACAAGGGCCTGACTGACCAGTTCGGTTCCCCCGTCTATGCGCGGATTGATGCCGCAGCCACCCGGGAGCAGAAAGCGGCGCTGGGCAAGCTGTCGCCGTCGGACGTTACCGCCACCGAACTTGCCGGCGAAACGATCATGGCCAAGCTGACCAGGGCGCCTGGAAACGACGCCCCCATTGGCGGCCTTAAGGTGGTCACGGAGAACGCCTGGTTCGCGGCGCGCCCGTCCGGAACTGAGGACGTGTACAAGATCTACGCTGAGTCCTTCAAGGGCGAGGACCACCTCAAGCAGGTCCAGGCCGAGGCCAAAGCACTGGTGGACGGCGTGATCGCCTAG	MASRAGTVAQPHDLVDITALLDAYYDITPDLADPGQRVAFGTSGHRGSSLKASFNEKHIVAITQAIVEYRSGQGITGPLFLAKDTHALSEPAQNSALEVLAANGVQVLIDARHGYTPTPALSHAILTYNNNNPAGAPQADGIVVTPSHNPPADGGFKYNPPHGGPADSDATGWIANRANELLENGLRGVKRIPLADALNADTTGKFDFLSSYVDDLPSVLNLNAIRDAGVRIGADPMGGAAVDYWGEIGERHHLNLTVVNPTVDPQWAFMTLDWDEKIRMDCSSPAAMASLIKRMSDAASSGQQAFDVATGNDADADRHGIVTPDGGLMNPNHYLAVAIDYLYRNRSGWNPASVVGKTLVSSSIIDRVAENLGRKLVEVPVGFKWFVPGLLSGEGAFGGEESAGASFNKLDGSVWTTDKDGILLALLASEITAVTGKSPSQLYKGLTDQFGSPVYARIDAAATREQKAALGKLSPSDVTATELAGETIMAKLTRAPGNDAPIGGLKVVTENAWFAARPSGTEDVYKIYAESFKGEDHLKQVQAEAKALVDGVIA	PGPT0017710_2611	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835	NA	NA
D1-29_00235	906			hypothetical protein	ATGGGCGCAGGGGACGGGGCAGCCGAACAGTCCAGGCTGGCTGCCGAGCGGGTTGCACGGCTGAAACGCCAGCTGGACCAGGCGGAGCGTGCCACGAAAGCGCGGAATGTGGACGCCGAGGGCGAGAAAGCCGTGGCGGAGAGCCTTGGCGGGCTCGTCTCCAGCGGTTGGCACCTGTTGCATGATGTCCAATGGCCGGGGAGACCCGAGGCCATCCTGGACCATGTTCTGGTGGGGCCAGGCGGTGTAGTGGTGGTGGACACCAAGAACTGGACCGGTGAAGTCCGGGTGTCCTCAGGCGTGCTCTGGCAGGGGCGTTACGCCAGGACGCAGTCGGTAGAAGGTGCGCTGGCACAGTGCGCCGCAGTGGCTTCGGTGATGGCGCCGCAGCACAGGCGGTATGTCCGTCCGCTGATCTGCATGTCCCGGCAGCCGGACGTCTTCGGTATTACCAGCTCAGATGTGGCTGTTGCGGGAACGGACCGGGTTGTTGCGGCAATCCAGGCTCTCCCCGCTGTACTGGACCAGCAGGCCGTTGTGGCGCTGTCTGCCCAGCTGGGTGAGCTGCTGGCACGGCAGCAGCCTCCCCGCGCCGGTGCGGTCATGCGGACAGGGGAGCCTGCTGCTGCTCCAACAGGGTCAGGGCCAGGGGCTGGAGCTGCAGCAGATCCTTTGCGGCGGGGGCGCACGGGAGGACGCCGCGGACCACGACATGCTGTTTCTGGCGTTGCACCAGGTGCGGCCCCTGGGGTGGCACCAGATACGGGCCCGGACGGGCGTACAGGCCTAGGCAGGAAATCGAAGTCGAACGCCCACCACCATGGAACGGGAGGCATGGCCGGGCTCCTGATTCTCGCGGCCTTTGTCACCTTCGCCGTGTACGTTCTGCCCTACTGGGGACGGTAG	MGAGDGAAEQSRLAAERVARLKRQLDQAERATKARNVDAEGEKAVAESLGGLVSSGWHLLHDVQWPGRPEAILDHVLVGPGGVVVVDTKNWTGEVRVSSGVLWQGRYARTQSVEGALAQCAAVASVMAPQHRRYVRPLICMSRQPDVFGITSSDVAVAGTDRVVAAIQALPAVLDQQAVVALSAQLGELLARQQPPRAGAVMRTGEPAAAPTGSGPGAGAAADPLRRGRTGGRRGPRHAVSGVAPGAAPGVAPDTGPDGRTGLGRKSKSNAHHHGTGGMAGLLILAAFVTFAVYVLPYWGR				NA	NA	NA	NA	NA
D1-29_00236	648			hypothetical protein	ATGACTGACCAGCCAACTCACCGGCCGGATTCACAGGGATACGGCGAGCAGGGTTCAGGCGATTCGCCGGCGGGCTACCAGCCGCCGCAGTTTGTGCCGCCGCAGGGTTCGGGGACACCTGCTCCGCCTGCCTATGATCAGGGCCAGTACGGACAGCATGAGTACGGGCAGCAGCAGTACCAGTACCAGTATGGCCAGGCCTCCAACCCGTACGGTCAGCCCTCGGAGCAGTATGGCGCACCCTATGCCCCGGCGGACAGCCCCTATGCCTCGGCGGACAGCCCCTATGGCCAGGCGGCCGGCCCGTATGCCCAGGCAGCCAACCCTTACGGCCAAGCGCCCAGCCCCTACGGCCAACCGCCCAGCCCCTACGGGCAGCCGGCCTATTACGGCATGCCGGTGGAGCCCAAGGGCATGAGCATCACCAGCATGGTGCTCGGCCTGGTCTCCGTGATCTTCGGCTGGTTCCTGCTTCCGCAGCTTGCAGCGATCATCACGGGGCACCTCGCGCTCCGGCGCGAACCCTCAGGGAAGGGTATGTCCATCACCGGCCTGGTCCTGGGGTACCTCTGCTTGCTCGGCTATGGTGGCTTCTGGCTGCTGATCATCGTCCTGGCAGCATCAAGCGGAAGCAGCTACTCCTACTAG	MTDQPTHRPDSQGYGEQGSGDSPAGYQPPQFVPPQGSGTPAPPAYDQGQYGQHEYGQQQYQYQYGQASNPYGQPSEQYGAPYAPADSPYASADSPYGQAAGPYAQAANPYGQAPSPYGQPPSPYGQPAYYGMPVEPKGMSITSMVLGLVSVIFGWFLLPQLAAIITGHLALRREPSGKGMSITGLVLGYLCLLGYGGFWLLIIVLAASSGSSYSY				NA	NA	NA	NA	NA
D1-29_00237	1347			hypothetical protein	ATGGAGCCGCACGCTGAGCTGGAGGCCAAGATTGACCGCTGGCGGGGATACGTCCAGCGGCGCCAGGCGATCTCTGCGGCCGACATCGAAGAGCTGGAGGACCATCTGCGTGAGCAGATTGCGGACCGGCAGGCAACCGGTCTTGACGATGAGGAGGCCTTCCTCGTCGCGATCAAGCGCCTGGGCAATCTCGACGCCGTCTCCCGCGAGTTCGCCCGGGAACACTCGGACCGGCTGTGGAAACAGCTTGCGCTGGTCCCTGAGGACTCAGACGGCGGAACGCCGCCATACCGTGAGCTGGCCGTGGTGCTCACGCTCGCCGTCGGCGCCGGGGTGGCGGTCAAGGCCGGGTTCACCTGGATGGACGACGGCGGCACGCTGGCACGCAATCTCGGCCTCCTCATTTTCCCTTTCCTTGCAGCGTACTTCGCGTGGAAGCGCCGCTTCTCCTGGGCGGTGGCAGTGGCGCTGCTTGTGCCGTTCGCCGCTCTTGCCGTGCTGCTCAACGCCTACCCGTTTACTTCCGGAGGCTCCACCGAGGTGCTTGCCGTCCTCCACGCCCCGGTAATTCTGTGGCTGCTTGCAGGAGTGGCGTACGCCGGCGGGAGGTGGCGGTCCGACAAACGGCGCATGGACTTTGTCCGGTTCACCGGCGAGCTGGCGATCTACTACACGCTCCTGGCCTTAGGCGGTGCTGTCCTGATCGCCCTCACGCTCGCCACACTCCAGGTGGTGGGCGTTGACTTCGAACCCGTACTGGAGGACTGGATCCTTCCGTTCGCGGTGCCCGGCGCACTGGTAGTGGCCACCTGGCTGGTTGAAGCCAAGCAGCAGGTGGTCGAAAATATCGCCCCCGTCCTCACCCGGGTCTTTACACCCCTGACGATCGCCATGCTGCTGGTTCTGCTGGCCGTGCTGCCCACGGCCGGTGGCCTGGTGAACGTGGACCGCAACTTGTTGATCCTCATGGACGCGATCCTGGTGCTGGTCCTGTGCCTGCTGCTCTACTCGATTTCGGCAAGGGACCCGCTGGCCCCCCCGGGACTGGCCGACGCACTGCAGCTCCTCCTGGTTGTCGCCGCCCTTGCAGTGGATGCTGTCATGCTGACGGCGATGCTGACCCGGATTGCCGAATTCGGCTTCAGCCCCAACAAAATCGCGGCGCTGGGCCTGAACCTCCTGCTGCTGGTGCACCTTGCCAGGGCCGCCTGGCTGACGCTGGGGTTCCTGCGCGGGCGGACCAGCTTCAGTGCGCTCGAGCGCTGGCAGACACAGTACTTGCCGGTCTACAGCGCCTGGGCGGCGGTGGTGGTGGTGGTTTTCCCGCTGGTGTTCGGCTTCGCCTGA	MEPHAELEAKIDRWRGYVQRRQAISAADIEELEDHLREQIADRQATGLDDEEAFLVAIKRLGNLDAVSREFAREHSDRLWKQLALVPEDSDGGTPPYRELAVVLTLAVGAGVAVKAGFTWMDDGGTLARNLGLLIFPFLAAYFAWKRRFSWAVAVALLVPFAALAVLLNAYPFTSGGSTEVLAVLHAPVILWLLAGVAYAGGRWRSDKRRMDFVRFTGELAIYYTLLALGGAVLIALTLATLQVVGVDFEPVLEDWILPFAVPGALVVATWLVEAKQQVVENIAPVLTRVFTPLTIAMLLVLLAVLPTAGGLVNVDRNLLILMDAILVLVLCLLLYSISARDPLAPPGLADALQLLLVVAALAVDAVMLTAMLTRIAEFGFSPNKIAALGLNLLLLVHLARAAWLTLGFLRGRTSFSALERWQTQYLPVYSAWAAVVVVVFPLVFGFA				NA	NA	NA	NA	NA
D1-29_00238	363			hypothetical protein	GTGCGCATCGATAAGGACCTCGTCGCAGCCTCAGCCACTCCCCTCGTGCTGGGGATCCTGTCCGACGGCGATCTGTATGGCTACGCCATCCTCAAACGGGTGGGCGAACTGTCCGGAGGCTCCATGCAGTGGACGGACGGCATGCTGTACCCGCTGCTGCACCGGCTGGAACGTCTCGGCTATGTGTCGTCGTCGTGGGGCGTGTCAGAGGCGGGGCGGCGGCGCAAGCACTACGCCATTACGCCGACGGGACGGGATGCCCTTGCTGACAGGCAGGAACAGTGGACTGTTGTTGCCGATGCGCTGCGGCATGTCTGGCGGACGGCGCAACGGCCGCCGGCGCCGGCTGCGGGGTTGGCGTGA	MRIDKDLVAASATPLVLGILSDGDLYGYAILKRVGELSGGSMQWTDGMLYPLLHRLERLGYVSSSWGVSEAGRRRKHYAITPTGRDALADRQEQWTVVADALRHVWRTAQRPPAPAAGLA				NA	NA	NA	NA	NA
D1-29_00239	225			hypothetical protein	ATGAAGGCGCTCGATACCTTGCCGCCGAAGGCCCGGCGGCTGGTGAAATGGGCCGCACTGGGATTCCTCGGTGCGGCGGCGCTGGCCCTCATCCTGATGACTTTCCTTGAGTTCTGGACCTCGTTCTTTATCGCGCTCGGCCTGTACCTGGCGCTGATCGGACCCCTCAACGCAGCCGCCCGGAAGGAACACGTCCAAAGACTGCGCGAACGAAACCGCCACTGA	MKALDTLPPKARRLVKWAALGFLGAAALALILMTFLEFWTSFFIALGLYLALIGPLNAAARKEHVQRLRERNRH				NA	NA	NA	NA	NA
D1-29_00240	525			L-methionine sulfoximine/L-methionine sulfone acetyltransferase	GTGACCACTGCAGCGCCGGCAACCGCAACCGTTCGCTCCCTGCACCGGGAGGATTGGCCGGCCGTTCGGAGCATTTACCAGGAGGGGATCGACACAGGCCACGCCACGTTCGAGTCCGAAGCGCCTGACTGGGACCGGTTTGACGCTTCCCGGCTGCCCGGACATCGGCTTGTCGCCGAAACCGTCGAGGGAAGGATCGTCGGCTGGGCCGCCGTCTCCCCCGTGTCCGCGCGTCCCGTCTACTGCGGCGTGGTGGAACATTCGGTGTACGTCGCGGGAGATACACGCGGCCTTGGTGTTGGCGCAGCACTGCTGCGGGCCCTGTCCGAATCAACCGAAGCCGCCGGGATTTGGACCATCCAGGCCAGCGTCTTTCCGGAGAACGAAGCAAGCCTCAAACTCCATCTCGCTAACGGCTACGTTGTGGTGGGACGCCGGCAGCGCATAGCCCAAATGGCCCATGGACCGCTAAGCGGAACATGGCGCGACACCATCCTGATCGAGCGACGCTCCCCCGCCGTCTAG	MTTAAPATATVRSLHREDWPAVRSIYQEGIDTGHATFESEAPDWDRFDASRLPGHRLVAETVEGRIVGWAAVSPVSARPVYCGVVEHSVYVAGDTRGLGVGAALLRALSESTEAAGIWTIQASVFPENEASLKLHLANGYVVVGRRQRIAQMAHGPLSGTWRDTILIERRSPAV				NA	NA	NA	NA	NA
D1-29_00241	348			hypothetical protein	ATGACCTCACTGCCCCTGCTTGAACCAGCCACGGACAGCGCCTGCTGCCTGCCGGCAGAGCCCGCACTGGGTTCTGCCCAAGCGCACAGCACGGCGGCCGTCTTTAAGGCCTTGGCGGACCCGAACCGGCTGCGGCTGCTGTCCATCGTCAAGGCTGCGGAGGGTGGAGAGTCCTGCGTTTGCGATCTCACCGAACCGCTAAACCTTGGCCAGCCCACCGTGTCCCACCATCTGAAAATCCTCGTCGACGCCGGTCTGCTGCATCGCGAAAAACGCGGAACCTGGGCCTACTACTCGCTGGTCCCCGGCGCCCTGGAGCGCACCGCAGGCCTGCTGGAGAGCCTGTGA	MTSLPLLEPATDSACCLPAEPALGSAQAHSTAAVFKALADPNRLRLLSIVKAAEGGESCVCDLTEPLNLGQPTVSHHLKILVDAGLLHREKRGTWAYYSLVPGALERTAGLLESL	PGPT0004735_1986	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
D1-29_00242	762	aqpZ_1		Aquaporin Z	GTGCGTCAAGCTGGTGGCATGACTTCACCTCAGCCGCCGCTCTGGCGCCGCGCCGTGGCCGAACTGCTGGGCACGGCCTTGCTGGTTGCCGTCGTTGTGGGTTCCGGCATCGCCGCCCAGCAGCTTTCACCTAATGATGTGGGCCTGCAACTGCTCCAGAACAGCACTGCCACTGTCCTGGGCCTGACAGTGCTGATCCTGGTTTTTGGTCCGGTCAGCGGCGCGCATTTCAACCCCGTCGTTTCCCTGGCCGACTGGCTGCTCGGCCGGCGCAGCGGAACCGGCCTGAGCCTGCCGGACCTTGGCGCCTACGTGGCGGCCCAGGTGACCGGCGCGATCGGTGGCAGCGTGCTCGCCAACGCGATGTTCGACGTCGGGACCTCCTTCTCCGTCAAGGACCGGGCAACCGGGGGGCACCTGCTGGGTGAGGTGGTGGCGACCGCCGGGCTCATCCTGCTGATTTTTGCCCTCGCGGCCACCAACCGGGGCGCGCTCGCAGCGCCCGCAGTGGGCGCCTACATCGGGGCAGGGTACTGGTTCACCTCCTCGACCGCGTTCGCCAACCCGGCGGTGACCGTCGGCCGGATTTTCAGCGACACCTTCGCCGGCATCGCACCCGGCTCAGTGCCTCCGTTCATAATTGCCCAGCTGCTGGGCGCCGCCGTCGGCCTGGGCGTGCTGCTCCTGCTGTTCCCGGGGGCGGCACGCGTCGCGGACGATGTGGTGATCCCGCACGGCACGCAGGCAACCAAGCCCTCATAG	MRQAGGMTSPQPPLWRRAVAELLGTALLVAVVVGSGIAAQQLSPNDVGLQLLQNSTATVLGLTVLILVFGPVSGAHFNPVVSLADWLLGRRSGTGLSLPDLGAYVAAQVTGAIGGSVLANAMFDVGTSFSVKDRATGGHLLGEVVATAGLILLIFALAATNRGALAAPAVGAYIGAGYWFTSSTAFANPAVTVGRIFSDTFAGIAPGSVPPFIIAQLLGAAVGLGVLLLLFPGAARVADDVVIPHGTQATKPS	PGPT0004715_21	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004715-arsC-K03741	NA	NA
D1-29_00243	675			hypothetical protein	ATGAGTATTGAGGCAGCTGACGCTTTTCAGACCCGCGTCGCCCGGCACGCGGCCCTGGCCGATCCGGCGCGCCTGCGCATCGTTGACCTCCTGACACTGGGGGACTTTTCTCCGACCGAGCTGCAGGCGGAGCTGGGCATGTCCTCGAATCTGCTTGCGCACCACCTGCGGACACTCGAAGAGGCCGGGCTGGCAACCCGGCACCGCTCCGAGGCGGACAGGCGCCGCAGCTACCTTCGGCTCGCCGCCGGGGCGCTGGATGGGCTGGTCCCCGGGGCAGTCCACGGCGCCGACCGGATTCTGTTCGTCTGCACGCGCAACAGTGCCCGGTCCCAACTGGCCGCGGCCCTCTGGCGCCAGGTCAGCACCGTCCCCTCAGCCTCTGCCGGAACGCATCCGGCCGAGCACATTGCCCCCGGTGCCATCGATGCCGCCCGGCGCCATGGCCTGGAGCTGCCCTCTCTTGCGCCGCGCTCCCTCGGTGAGGTCGCAGGGGATGCTGACTTCGTGGTCACCGTTTGCGACGCCGCACACGAGGAGCTGGCCCGGCTGGGAGGCATCCACTGGTCCATCCCCGATCCCCTGCGTTTGGGCACCAAGGACGCCTTCGATCAGGCTTTTGAGGACATCGCCCGCCGCATCACCGACCTCGCACCACGCATTACAGCTGTCTGA	MSIEAADAFQTRVARHAALADPARLRIVDLLTLGDFSPTELQAELGMSSNLLAHHLRTLEEAGLATRHRSEADRRRSYLRLAAGALDGLVPGAVHGADRILFVCTRNSARSQLAAALWRQVSTVPSASAGTHPAEHIAPGAIDAARRHGLELPSLAPRSLGEVAGDADFVVTVCDAAHEELARLGGIHWSIPDPLRLGTKDAFDQAFEDIARRITDLAPRITAV	PGPT0004765_235	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-ARSENIC_HOMEOSTASIS,PGPT0004765-arsR_arsC-K23988	NA	NA
D1-29_00244	423	arsC1	COG0394	Arsenate-mycothiol transferase ArsC1	GTGACCACCGAAACAACCAAGAAGCCCTCCGTCCTCTTCGTCTGCGTCCACAACGCGGGCCGCTCCCAGATGGCCGCCGCATTCCTCACCACCCTCGGAAAGGGCCAGATCGAGGTCCGCTCCGCGGGGTCCCAGCCTGCAGACAAGATCAACCCGTCAGCCGTTGAAGCCATGGCTGAAGTGGGCATCGACATGTCCGCTGAGGTTCCCAAGGTCCTCACCACCGAGGCCGTCAAGGAGTCCGACGTGGTGATCACCATGGGCTGCGGCGACGAGTGCCCCTACTTCCCGGGCAAGCGCTACGAGGACTGGGTTCTGGAAGACCCTGCCGGCAAGGGCGTAGAATCCGTGCGCCCGATCCGCGATGAAATCAGGACCCGTATCGAGGACCTGATCCAATCACTGACCCCTGCCGCCAAGTAG	MTTETTKKPSVLFVCVHNAGRSQMAAAFLTTLGKGQIEVRSAGSQPADKINPSAVEAMAEVGIDMSAEVPKVLTTEAVKESDVVITMGCGDECPYFPGKRYEDWVLEDPAGKGVESVRPIRDEIRTRIEDLIQSLTPAAK	PGPT0004715_2212	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004715-arsC-K03741	NA	NA
D1-29_00245	978	trxB_1	COG0492	Thioredoxin reductase	ATGAGCAACGAACAGCTGATCATTATCGGATCCGGCCCGGCGGGTTACACCGCGGCGATCTACGCTGCCCGCGCGGGCCTGGAACCGCTGGTACTGGCCGGTTCGGTCACCGCCGGCGGTGCGCTGATGAACACCACCGAGGTGGAAAACTTCCCCGGTTTCCCGGCCGGGATCCAGGGACCGGAGCTGATGGACGGGCTCCAGGAACAGGCCGAGAAATTCGGCGCCAAGGTGGTGTTCGACGACGTCACGTCAGTTGACCTGAAGGGTCACCTGAAGACCGTGGTTACCGGAGCCGGCGAAACCCACCAGGCCCCGGCGGTTATCCTGGCCACCGGCTCGGCCTACAAGGAACTCGGCTTGCCCGAGGAAAAGAAGCTCAGCGGCCACGGCGTCTCCTGGTGTGCCACCTGCGACGGGTTCTTCTTCCGCGAGCAGGACATCATCGTCGTCGGCGGCGGCGATTCGGCGATGGAGGAAGCGACGTTCCTGACCCGGTTCGCGAAGTCCGTCACCGTCGTCGTCCGCAAGGGTGAACTGCGGGCCTCCCGCATCATGGCCCAGCGCGCCAAAGATAACCCGAAGATCAGCTTCGCCTGGAACTCGGCCGTGACGGCAATCCAGGGCGACGGCAAGGTCACCGGCGTGACCCTGAAGGACACGCGTTCCGGCGAAACCCGCCAGCAGGCCGCTACCGGGCTTTTCGTGGCCATCGGCCACCTGCCGCGCACCGAACTCGTGGCCGGTCAGGTGGAACTGGACGCCGAGGGCTACATCAAGGTGGACTCGCCCACCACCGTGACCAACCTGACCGGTGTGTTCGCGTGCGGCGACGCCGTGGACCACCGCTACCGGCAGGCCATTACGGCCGCGGGCACGGGCTGCGCCGCAGCCCTCGACGCCGAACGCTACCTCGCCGCCCTGGACGATGCGGACAGCATCGCCACGGCGCTGGTGGAAGAACCTACCCACGCCTGA	MSNEQLIIIGSGPAGYTAAIYAARAGLEPLVLAGSVTAGGALMNTTEVENFPGFPAGIQGPELMDGLQEQAEKFGAKVVFDDVTSVDLKGHLKTVVTGAGETHQAPAVILATGSAYKELGLPEEKKLSGHGVSWCATCDGFFFREQDIIVVGGGDSAMEEATFLTRFAKSVTVVVRKGELRASRIMAQRAKDNPKISFAWNSAVTAIQGDGKVTGVTLKDTRSGETRQQAATGLFVAIGHLPRTELVAGQVELDAEGYIKVDSPTTVTNLTGVFACGDAVDHRYRQAITAAGTGCAAALDAERYLAALDDADSIATALVEEPTHA	PGPT0013060_3975	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
D1-29_00246	1389			Ferredoxin--NADP reductase	ATGGATTCCGCAAAGAGCCTTCCCGTCGCAGTGATCGGCGCCGGGCCTGTAGGCCTGGCCGCCGCGGCCCACCTGCTTGTGCGGGGCCTGGAGCCGCTGATCTTTGAGGCGGGCCCGACGGCGGGTGCTGCCGTTGGGCAATGGCGTCACATCCGGTTGTTCTCACCCTGGCGGTTCAATACCGACGCCGCTGCCGTGCGCCTCCTTGCAGCCGCCGGCTGGGAAGCACCCAGGCCCACGGCCCTGCCCTATGGCGGGGAGCTGATCGACAACTATCTGGCGCCCCTGGCTGCCCTTCCCCAGATCTCTTCGCGTCTGCAGACCGGTGCCCGCGTCACCGCCGTCACCCGTCAGGGCCTGGACAAGACCCACATCAAAGGACGGGACGCCACACCCTTCGTGGTGCGGGCCGAACACGCCGACGGCGAAACCCGGGACCATACCGTGGCCGCGGTCATTGACGCCTCCGGCACCTGGGCCACCCGCAACCCGCTGGGCACTTCTGGCCTTCCCGCCATTGGCGAAGAGGCAGCAGGGGGCCGGGTCTCCGCACCGCTGCCCGACGTGACCGGCCGCGACCGCGCCACGTTTGCCGGGCGCCGAGTCCTCGTTGTTGGCGCCGGGCACTCCGCCGCCAACACCCTGATCAACCTCGCTGACCTCGCTAAGGCGGAGCCGGACACCCGGATCCTGTGGGCCGTCCGGGGCGCAACAGCGGACAAAGTCTACGGCGGGGGCGACCTCGACGGGCTGCCTGCACGGGGCCAGCTCGGTGGCCGGGTCCGCCGGCTTGTGGAGGCCGGAAAGATCGAACTGCACACCGGCTTCGGCATCGCCTCGATCAAGTCCTTGGACTCCGCTGTCACGGTGGGCTCGGTGGATGGCCGAACCCTCGAAGCCGACGTCATCGTCCCCTGCACCGGCTTCCGTCCCGACCTGGACATCCTCCGCGAGCTCCGCCTCAACCTGGACCCCGCCGTCGAAGCGCCGACGGAACTGGGACCTCTGATCGATCCCGAGTTCCACTCCTGCGGCACCGTCCCGTCGCATGGCGCCAAGCTCCTGGCCCACCCGGACAAGGACTTCTACATCGTTGGCATGAAGTCCTACGGCCGGGCTCCCACTTTCCTGCTGGCCACCGGGTATGAGCAGGTCCGGTCGGTTGCCGCCGCCCTCGCCGGAGACCAGGAATCGGCCGACACCGTGCACCTTGAGCTCCCCGAAACCGGTGTCTGCTCCACCGACGCCGGCACCAGCTGCGACGTCCCCGCGGCATCGGCAGCAGAGGACGCCGCCGCTGCCCAGTCCGGGTGCTGCGCCGCACCCGAACCGGTGCTGGTTGGCTTCCCCACGGGTCTGGCCCACGGCCGATCCGGCACCAACAAGTAA	MDSAKSLPVAVIGAGPVGLAAAAHLLVRGLEPLIFEAGPTAGAAVGQWRHIRLFSPWRFNTDAAAVRLLAAAGWEAPRPTALPYGGELIDNYLAPLAALPQISSRLQTGARVTAVTRQGLDKTHIKGRDATPFVVRAEHADGETRDHTVAAVIDASGTWATRNPLGTSGLPAIGEEAAGGRVSAPLPDVTGRDRATFAGRRVLVVGAGHSAANTLINLADLAKAEPDTRILWAVRGATADKVYGGGDLDGLPARGQLGGRVRRLVEAGKIELHTGFGIASIKSLDSAVTVGSVDGRTLEADVIVPCTGFRPDLDILRELRLNLDPAVEAPTELGPLIDPEFHSCGTVPSHGAKLLAHPDKDFYIVGMKSYGRAPTFLLATGYEQVRSVAAALAGDQESADTVHLELPETGVCSTDAGTSCDVPAASAAEDAAAAQSGCCAAPEPVLVGFPTGLAHGRSGTNK				NA	NA	NA	NA	NA
D1-29_00247	486			hypothetical protein	ATGCACAGTAAGGAATGGGCCGATGGCCCTATCCTGGTCGGCGTCGAGTGGGACTTCCCCGAGCCCCTGATCCGGACCGCCGCAGCACTGGCGGCGGCCCTGGAAGTGCACCTGATCTGCGCATTTGTCGACCCAGCCAGCTACCTGACCGAGTGGGCGCCGGCGAATCAGCGGACAGCCCTGTCCCTGGACCCTGCCATCAATGAAGAAGCCGAGTTCCCCTCTGAGCAGCTGCAGGTGAAGCTGGAAGCCATCCTTGGGAAGCCGGGGGAGGCCTGGTCCTTCCGGGTGCTCAACGGGGATGTTTCCAAGGCACTCAGTCGGCTCGCCGAGAACGCCGGCGCAGCGTTGCTCGTGGTCGGCACCGGCCGGCCAGGGCCTATGGCGCGGCTGGACCGGGTCCTGGAAGGGTCCGTATCCGCTGCCCTGCTCCGCAGGCAGCACCGCCCCGTCCTCGTTGTCCCCGAGGACCGCAGCTGCCCCTGA	MHSKEWADGPILVGVEWDFPEPLIRTAAALAAALEVHLICAFVDPASYLTEWAPANQRTALSLDPAINEEAEFPSEQLQVKLEAILGKPGEAWSFRVLNGDVSKALSRLAENAGAALLVVGTGRPGPMARLDRVLEGSVSAALLRRQHRPVLVVPEDRSCP				NA	NA	NA	NA	NA
D1-29_00248	912	glsA	COG2066	Thermolabile glutaminase	ATGGACATCCAAAACCTCCTCGACGACATCGTCGGATCCATCAAGCCGCAACTGGGACAAGGCCAGGTAGCGAGCTACATACCGCAGCTGGGCGCCGTGGACGCCGCCCAGTTTGGCATTTCCGTGGCCACCGGCGACGGCCAGGTCTATGCCTCCGGCGATGCTGCAGTCCCCTTCTCCATCCAGAGCATCTCCAAAGTGTTCGCGCTGGCCCTTGTCCTGGCGGCCGACGGGGACGGCATCTGGAAACGCGTCTTCCGCGAGCCCTCCGGCAACCCGTTCAACTCGCTGGTGCAGCTGGAACATGAGGACGGGATTCCGCGGAACCCCTTTATCAACGCGGGCGCCCTGGTGGTGACGGACAGGCTCCTGAGCGTTACAGGCGACGCTTCCGGTGCCGTGCTGGACCTCCTCCGGCAGGAAAGCGGAAACAGCGGGATCGGCATTGACGCCGTGGTGGCCGAATCCGAAGCCAGGAACAGCGACCGCAATGCCGCACTGGCCCACTTCCTGGCCAGCTGCGGCAACCTCGAGAACCCTGTGCAGGATGTGCTGGACAACTACATCCTGCAATGCTCGCTCGAGATGAGCTGCACGGACCTGGCCCTGGCCAGCCGGTTCCTGGCCAGCAACGGAGTGCGGGTGGACGGCACAGCCCTGCTCTCCTCGCCGCAAACAAAACGGATCAACGCCGTGATGCTGACGTGCGGAACCTACGACGCGGCCGGGGAGTTCGCCTATCGGGTGGGGCTGCCCGGCAAGAGCGGGGTAGGCGGCGGAATCATTGCCGTGGTGCCGAACAACTGCACCGTGTGTGTCTGGAGCCCCGGGCTGGGCAAGTCAGGAAACTCCATGGCGGGGATCGCGGCGCTTGACGAGTTCACAACCAGGACGGGGCTGTCCATCTTCTGA	MDIQNLLDDIVGSIKPQLGQGQVASYIPQLGAVDAAQFGISVATGDGQVYASGDAAVPFSIQSISKVFALALVLAADGDGIWKRVFREPSGNPFNSLVQLEHEDGIPRNPFINAGALVVTDRLLSVTGDASGAVLDLLRQESGNSGIGIDAVVAESEARNSDRNAALAHFLASCGNLENPVQDVLDNYILQCSLEMSCTDLALASRFLASNGVRVDGTALLSSPQTKRINAVMLTCGTYDAAGEFAYRVGLPGKSGVGGGIIAVVPNNCTVCVWSPGLGKSGNSMAGIAALDEFTTRTGLSIF	PGPT0020215_2549	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425	NA	NA
D1-29_00249	1614			hypothetical protein	GTGAGGCCTGAAGAGCAAGCCGGGGACGCCGTCCGGGTCACGCTGAGCGACATCCTGGAGGACATCGGCGTCGACAATGCCAGGCTGTTGATGGCCCCGGAAGCGGACAACGAACAGGTTCGTGAAACGGTGATTGTCGATCCTGAGGACGGGGCGGCCGTCCAGCCCGGTTGCCTGGTATTCCTGGTGGGTGCCCGCGGCAGGGCTGCCCTGCCCAAAGTGCGCACCCTGCTTGCGGACCGTCCCGTGGCCATTGCCATCAAGGGATCCGAGTCGGATCTGGCTGCCGTCGGTGAGGTCATGAACGGTACCGGGACGGGGCTCATCGCCGTGGGCGCGGAGGCCCGCTGGGACCAGCTCGAAGGCATCGCCGTCGACCGCATCCGTGAATCGCTCCCCTCCGGCGACACATCCACCCTCATGCAGCGGGACCTCTTTGGCATCGCGCAGACCACGGCAACCCTCACCCGCGGGCACGTGGTTATTGAGGACACAGCCAACAGGGTCCTGGCGTATTCCCCGGCCTCCAACGATGTGGACGAACTCCGGCGGCTATCCATTTTGGCGCGCCGGGGGCCGGAGCGATACCAGAAGCTGCTCAAGGAATCCGGCGTGTACAAACGCCTGCAGGCAGGCGAGGTGCCGATCCATATCCCGGCCAATCAGGAGGAAGGGCTGCGCGAGAGGGTGGCTATTGCCATCTTCGCCGGACGCCGGATCCTGGGTTACATCTGGCTGCAGGAAGGAACCGAACAGCTCGCGTCCAACACGGACAGGATCATGGTGGGTTCCGCGCGGCACGCCGCCATCGAGCTGGTGCGGCACCGCAACGAACAGTCGCAGTCCATGCGCCGGGACCGGGTTTCCAGCCTGCTCAGCGGCACTGCCCAGATCCACTCCCAGGCGCAGTCCGCCGGGCTGGACCCGTCACGGCCGGCCGCGCTGGTGCTGGTCTCCTCCGGAAGCCTGCACCAGTCGGCGCCCGGCCTCCAGCTCCAGCGGGGGGAGCTTGCCAACCTGGTCTCCATCCATGCGGCGGCGTACCGGCCCGGAGCGGTGGTGGGCTCGCTGGGACTGGAGACGGCCATCATCCTCCCGGACCTGGACCCTGTGAAGTCCCCGGCCGCCATCAGCAGGCTGGTGAACGTTATTGTGCGCGACGCCGGCGCGCACCTGGATCTGCAGGTGCAGGCAGCCATCGGTCCGGTGGTGGACCGGCTGGACCGGCTGCACACGTCGCTGGAGCATGTCCGGAACGTGCTGACGGTGCTCAGCACGGACCCGTCGCTGAAGGTGGCCTCGTTCAGCGACGTGGAAACCACGGTGCTGGTCAATGAGCTGCTGGACCTGGTGCAATCCCGGCAGGAGCTCCGGCACAAGGGCATCACAGAACTCTGCGGGCGCTACCCGGAATTCGCCACAACGCTGCTCGCCTACCTGGAGTCCTTTGGCGACGTCAACAGCTGCGCCGAAGACCTGGGAATCCACCGCAACACCGTGCACTACCGCCTCCGCCGTTCCTGCGAGGTCTCGGGCATAGACCTCCAGGATCCCGGCCAACGGCTCCTGGCGCACCTGCAGATCCGGCTCTGGACCCGTTCCGGAAAACACTGA	MRPEEQAGDAVRVTLSDILEDIGVDNARLLMAPEADNEQVRETVIVDPEDGAAVQPGCLVFLVGARGRAALPKVRTLLADRPVAIAIKGSESDLAAVGEVMNGTGTGLIAVGAEARWDQLEGIAVDRIRESLPSGDTSTLMQRDLFGIAQTTATLTRGHVVIEDTANRVLAYSPASNDVDELRRLSILARRGPERYQKLLKESGVYKRLQAGEVPIHIPANQEEGLRERVAIAIFAGRRILGYIWLQEGTEQLASNTDRIMVGSARHAAIELVRHRNEQSQSMRRDRVSSLLSGTAQIHSQAQSAGLDPSRPAALVLVSSGSLHQSAPGLQLQRGELANLVSIHAAAYRPGAVVGSLGLETAIILPDLDPVKSPAAISRLVNVIVRDAGAHLDLQVQAAIGPVVDRLDRLHTSLEHVRNVLTVLSTDPSLKVASFSDVETTVLVNELLDLVQSRQELRHKGITELCGRYPEFATTLLAYLESFGDVNSCAEDLGIHRNTVHYRLRRSCEVSGIDLQDPGQRLLAHLQIRLWTRSGKH				NA	NA	NA	NA	NA
D1-29_00250	1578	ansP2_2	COG1113	L-asparagine permease 2	ATGAAAGCCCCGTCCGCAGGGAAACAACATGACACGCAACCGGAACCGGACAGCCAGACAAGCCCTGCGCGTCGGGGTACCGCCCAACTGGATCAGGCCGACGCCCTGGAGAACAGCCGGGAGCTGCTGGGGGACAGGGCAGCGGCAGCGCAGGACTTTTCCAGTGAAGAGGCCGGCTACCACAAGACCCTGACCCCGCGCCAGATCCAGATGATCGCCATCGGCGGCGCCATCGGCACCGGCCTTTTTATGGGCGCCGGCGGCAGGCTGAACGGCTCCGGCCCAGCCCTGGTGCTGGTGTACGCCGTGTGCGGCCTCTTCGCCTTCCTGATCCTGCGCGCGCTTGGCGAGCTGGTGCTGTACCGGCCGTCGTCGGGCTCCTTTGTTTCCTACGCCCGCGAGTTCTACGGCGAACGGATGGCACACACAGCCGGCTGGCTCTATTTCCTGAACTGGGCCATGACCTCCATTGTGGACGTCACCGCCGTCGCCCTGTACGTAAAGTTCTGGGCCCCCTACTGGGAGCCGGTGCGTGACATGCCACAGTGGGCCATCGCGCTGCTGGCCCTGGTGGTGGTCCTCGGCCTGAACCTTGTGTCCGTGAAGGTGTTTGGCGAGATGGAGTTCTGGTTCGCGCTGACAAAGGTGACGGCGCTGGTCCTTTTCCTCATTGTTGGTGTCTGCTTCATCGTCTTCGGCGGCAAGACGGACCTGGGAACGCCGGGGATCGGCATCATCCTGGAGAACGGCGGCGCCTTTCCCACCGGCGCGGTGGCTCCGCTGCTGGCCATCAGCGGCGTGGTCTTCGCCTATGCCGCGATCGAGCTCGTTGGCACGGCGGCAGGTGAAACCGCCCACCCTGAGAAGGTCATGCCCAAGGCGGTGAACACAGTGGTGGCCCGCATCGCCGTGTTCTACATCGGTTCGGTGCTGCTGCTCTCCCTGCTCCTTCCGTTCACTGCCTACAAGGCGGGGGAGTCCCCGTTTGTCACGTTCTTCTCGCACCTGGGCTCGCCGGAATCGGCGGCGGTTTCCGCGTCCGTGATGAACTTCGTGGTGCTCACGGCCGCCCTCTCCAGCCTCAACGCCGGGCTCTACTCCACCGGCCGTATCCTGCGGTCCATGGCCGTCAATGGATCCGCACCGGCTTTCACTGCCCGGATGAGCCGCAGCGGGGTGCCCTACGGCGGGATCCTGCTCACCGCCGTCGTCACCCTGCTGGGGGTTGGCCTCAACGCGCTGGTGCCGTCGCACGTGTTTGAAATCGTCCTGGAAATCTCTGCTGTGGGCATCATCGGCGGCTGGGCCACCATCATGCTCTGCCACATCAAGCTCCAGAAGTGGGTCCGGCAGGGCAAGGCCGTGCGCCCCTCCTTCAGGCTGTTCGGCGCACCCTATACGTCCTACCTGACGCTGGCATTCCTCGCCTTTGTGCTGGTCACCATGGCGTTTTCCGAAACCGGCCGCTGGGTCCTGCTGTCCTCGCTGGCCCTGGTCCCGCTGCTCAGCCTTGGCTGGTATGCGACGCGACGCCGCCGCGCCGAGGCTGCCCTGGCCGCCAGGACCCCGACGAACTAG	MKAPSAGKQHDTQPEPDSQTSPARRGTAQLDQADALENSRELLGDRAAAAQDFSSEEAGYHKTLTPRQIQMIAIGGAIGTGLFMGAGGRLNGSGPALVLVYAVCGLFAFLILRALGELVLYRPSSGSFVSYAREFYGERMAHTAGWLYFLNWAMTSIVDVTAVALYVKFWAPYWEPVRDMPQWAIALLALVVVLGLNLVSVKVFGEMEFWFALTKVTALVLFLIVGVCFIVFGGKTDLGTPGIGIILENGGAFPTGAVAPLLAISGVVFAYAAIELVGTAAGETAHPEKVMPKAVNTVVARIAVFYIGSVLLLSLLLPFTAYKAGESPFVTFFSHLGSPESAAVSASVMNFVVLTAALSSLNAGLYSTGRILRSMAVNGSAPAFTARMSRSGVPYGGILLTAVVTLLGVGLNALVPSHVFEIVLEISAVGIIGGWATIMLCHIKLQKWVRQGKAVRPSFRLFGAPYTSYLTLAFLAFVLVTMAFSETGRWVLLSSLALVPLLSLGWYATRRRRAEAALAARTPTN	PGPT0000815_358	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
D1-29_00251	2793			hypothetical protein	ATGACGTACGACGCCGTGTCCCCGGCCCTGCAGGTCCAGCCGGCACATGCGCCGGCACTTTCGCCCTCACAAGCAATGCCGTCCGCGTCCGCCCAGCGTGGGATCGGAACCCCCAGCCGGGCGTGGCGGATCCGGGCGGACTCATGGGAGTTCCTGGGTTATGCGCTCAGGCAGCTTGCCAACGGTTCCGGCAGCAACGGCCAATCCGGCCTGCTGGGCCAGATCAGGAGGGCCCTGGCGCTCCTGGAGTCGGTGGAGCCCTATTGGGCGTTCCCTGGACGCGCCAGTATGGACCGCCTGAATGGCTTCATCGCTGCCCGGCAGTACCAGGATGCGGTTGACCTGGTGGACGGCATCAGGGCCAGGATGGGACGGGCCAGGCCCACAGCGGAACAGCCCAATACGGGCCAGTCAGATGCTGCCGAACCCATCCATGACACGGACATGACTGCTGAGCGTCCGCGGTTTGAAGTGCTGGTGGTTGACGATATCCCGGCGCAGGACGCAGAGGCGCTCAGGAACGACATGCTGGCCCAGCGCCGTCCGGCCGACGCCTTCAGCTACGACGTCAATGTGGTCTCGTCCTACGAGGACGCGCTGGTGGCCTTGTTGCTCAACCCGGACATCCAGGCGTGTGTCCTGCGGCCGGGATTCGGCATCCGGGCTTCCCGGCCCCTCGGATCGGACCTGAAAAGGGTTGTCTCCCGCCACGTGGAGGATGACCTGGAACGGCTGCGTCCCATCGACAGGATCCTTCGGCTGGCTGAACGGATCGCCGAACTCCGTCCGGAGCTGGACGTCTACCTGGTGGCAGGGGTTGCCATCGAGGGCCTGGCCGGTTCGCTGACCCGGCGGTTCGCGCGGATCTTCAGGCGGGAGGACAGGCTGGACCTGCACCTGTCGCTGCTCGCCGGGGTGGCCGGACGCTATGAAACCCCCTTCTTCACGGCGCTCCAGGAATACAGCCGCCGGCCTGCCAGTGTCTTCCATGCCCTGCCGATATCCCGCGGCGGCTCGGTAGGGAACTCCCCATGGATCAGGGACATGGCTGACTTCTACGGCCAGAACCTGCTCCTGGCGGAAACCTCCGCGACATCCGGCGGCCTTGATTCGCTGCTGGATCCACATGGCTCCATCAAGAAGGCACAAACCTTGGCGGCGCGGGCTTTTGGGGCGGAGAAGACCTTCTTTGTCACCAACGGCACCTCCACGGCCAACAAGGTGGTGCACCAGGCCATCGTGGCGCCGGGGGACATCGTGCTGGTGGACCGGAACTGCCACAAGTCCCACCACTATGCCCTGATGCTCTCCGGTGCCCAGGTGGCCTACCTGGACGCTTACCCCCTGGACCAGTACTCGTTCTACGGGGCCGTGCCGCTGGAAAGCATCAAGAAGATGCTGCTGGACTACCGCCGCGCCGGCCGGCTGGACCGCGTCAAGATGATCACGCTGACCAACTGCACCTTCGACGGCATTGTCTACGATCCCGAACGGGTCATGGAGGAATGCCTCGCCATCAAGCCGGACCTGGTGTTCCTCTGGGATGAGGCCTGGTTCGCCTTCGCCGGGTTCCATCCGGTGTACCGCCGTCGGACGGCCATGGCGGCTGCCGCCAAGCTGGAGGGGCAATTCCGGGACCCCGGATTCAGCGTCCGGCACGCAAAGCAGGCGGCCGAGTTGCAGAACGCAGAAAGCGGCGGGCCGGAAGCGGACGACGCCTGGCTCCGGACCCGGCTCATCCCGGATCCGGCAAAAGCCAGGCTGCGGGTCTATGCCACCCAATCCACGCACAAGACCCTGACCTCGCTGCGCCAGGGGTCCATGATCCATGTGTTCGACCAGGACTTTGAACAGCTCAACGGCGAAGCCTTCCGTGAGGCCTACATGACGCATACGTCCACGTCGCCCAACTACCAGATCCTGGCGTCGCTGGACATCGGAAGGCGGCAGGCGGAGCTGGAAGGTTTTGCCCTGGTCCAGAAGCAGGCGGACCTCGCGGTGAGCATAGCCCAGGCGGTGGCGCGGAACCCGCTGCTGAAGAAGTACTTCCGGATCCTGGGCGCCCGGGATCTGGTGCCGGAGGAGTTCCGGGAGACGGACTGCTCCATGCCGCTGAGCCAGGGACTGTCCGCCTTTGACGACGCCTGGCGGCGGGACGAGTTTGTGGTGGACCCCAGCCGGCTCACGCTGGACATTGGCCTGACCGGAATCGACGGCGACACCTTCAAGCACGAGCACCTCATGGACAAGTACGGCATCCAGGTCAACAAGACCTCACGGAACAGCGTGCTGTTCATGACCAACATCGGCACGTCCCGCAGCGCGGTGGCTTACCTCGTGGAGGTGCTGGTGAAGCTGGCCGAATCCTTCGAAACGGAAAAACGGACGCTGGGGCCGCGGGGGCTCAGGGCATTGGAAGCCCGGATTTCCGCGCTCAGCAGCGCCCCGCCGGCGCTGCCTGATTTCAGCAGGTTCGCCCGCCGGTTCCGCGCTGATGCCACCTCCCCTGACGGCAATCTCCGGGCCGCCTACTTTGAGACGTACAAGGACGGAGCCACGGAGTACGTGGAACCTGCCGAGCTGGCCGCGAGGGTGGAGGCCGGGCAGGAGGTGGTGTCTGCCGGTTTTGTGACCCCCTACCCTCCGGGGTTTCCCATTCTGGTGCCGGGGCAGGTGATCACAGGCAACGCCCTGGCCTTTATGGCCGCACTGGACACCCGCGAGGTCCACGGGTTCGATCCCGCCCTCGGCTACCGGGTCTTCACTGAAGAATGGCTCACCTCGGCCGGCTAG	MTYDAVSPALQVQPAHAPALSPSQAMPSASAQRGIGTPSRAWRIRADSWEFLGYALRQLANGSGSNGQSGLLGQIRRALALLESVEPYWAFPGRASMDRLNGFIAARQYQDAVDLVDGIRARMGRARPTAEQPNTGQSDAAEPIHDTDMTAERPRFEVLVVDDIPAQDAEALRNDMLAQRRPADAFSYDVNVVSSYEDALVALLLNPDIQACVLRPGFGIRASRPLGSDLKRVVSRHVEDDLERLRPIDRILRLAERIAELRPELDVYLVAGVAIEGLAGSLTRRFARIFRREDRLDLHLSLLAGVAGRYETPFFTALQEYSRRPASVFHALPISRGGSVGNSPWIRDMADFYGQNLLLAETSATSGGLDSLLDPHGSIKKAQTLAARAFGAEKTFFVTNGTSTANKVVHQAIVAPGDIVLVDRNCHKSHHYALMLSGAQVAYLDAYPLDQYSFYGAVPLESIKKMLLDYRRAGRLDRVKMITLTNCTFDGIVYDPERVMEECLAIKPDLVFLWDEAWFAFAGFHPVYRRRTAMAAAAKLEGQFRDPGFSVRHAKQAAELQNAESGGPEADDAWLRTRLIPDPAKARLRVYATQSTHKTLTSLRQGSMIHVFDQDFEQLNGEAFREAYMTHTSTSPNYQILASLDIGRRQAELEGFALVQKQADLAVSIAQAVARNPLLKKYFRILGARDLVPEEFRETDCSMPLSQGLSAFDDAWRRDEFVVDPSRLTLDIGLTGIDGDTFKHEHLMDKYGIQVNKTSRNSVLFMTNIGTSRSAVAYLVEVLVKLAESFETEKRTLGPRGLRALEARISALSSAPPALPDFSRFARRFRADATSPDGNLRAAYFETYKDGATEYVEPAELAARVEAGQEVVSAGFVTPYPPGFPILVPGQVITGNALAFMAALDTREVHGFDPALGYRVFTEEWLTSAG	PGPT0012235_141	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0012235-adiA-K01584	NA	NA
D1-29_00252	492			hypothetical protein	ATGCCTGCGGGCGGCGCGGAGCGTCGGCCGCAACCCCGCGAGGAGTATGTGGGGCAGCCGGTGGCGGAGCCCCGGCCCGTGAGTCCGCCCGCGTCCGCCAGTCCTTCCGCATCCCAGGAGGCAGCGGCCGGCGGAGCCGTGCCCGCCGCAGCGGCCACCCCCGCCGCTCCACCGGCTGCCACGGGCACCCCGGCAGCGCCTTCAGCAGGCCCGCAACGGGTGACCCGCGCCGGAATGGTGTGGGCCGCCGTCGTGGCCGCCCTGGTGCTCCTGATCCTGCTGATTATCTTCATCCTGCAGAACCAGGACCAGGTGGCCGTCAGGTATCTGGGGATGGAAGGAGTTGTCCCGTTGGGCATGGCGCTGTTCATTGCCAGCGTCACCGGCGGCGTCCTGGTGGCCATCGCCGGCGCGGCCAGGATCCTGCAGCTCAGGGCCACCGCGCACCGCGCCCGGCTCAAGGAGACCCGGGGCAGCGGCACCCGGCGCTAG	MPAGGAERRPQPREEYVGQPVAEPRPVSPPASASPSASQEAAAGGAVPAAAATPAAPPAATGTPAAPSAGPQRVTRAGMVWAAVVAALVLLILLIIFILQNQDQVAVRYLGMEGVVPLGMALFIASVTGGVLVAIAGAARILQLRATAHRARLKETRGSGTRR				NA	NA	NA	NA	NA
D1-29_00253	414			hypothetical protein	ATGAACGGGGCCCTTCGGCTGTGCCGTGACGGTGGCATGGCGGAGAATGGGGCCATGCGCGGACTCTATGCACAGAATGCCACCCTGCTGATGGATGCCGGCGCCGATCTCCGTGCGCCGGGCGCCGCCATCACGCTTGCGCTCTGCGGGAGTTTTGAGCACCAGCCGCCTTGCCCGCTTGCCGCACACCACACCAGTGCCGAGCGCACCGGCGGGACGGTGCGCCTGAAGATTATCTTCGCCACCGAGCCGGAGCGGCTGGCCGATGTCCGCCGTCGGATGCAAGAAGCCCTCAGCGCTGGATCCATCGCCGGTCCGGACGGCGCGGTGACGGCCTGGGTCCTGCAGGCCAGCGCGGCCGGCGATCTGAATGCGGCAGAGATGGAGCATGCCCGCCGGCTGGCCGACAGCTGA	MNGALRLCRDGGMAENGAMRGLYAQNATLLMDAGADLRAPGAAITLALCGSFEHQPPCPLAAHHTSAERTGGTVRLKIIFATEPERLADVRRRMQEALSAGSIAGPDGAVTAWVLQASAAGDLNAAEMEHARRLADS				NA	NA	NA	NA	NA
D1-29_00254	204			hypothetical protein	ATGTGCTATTCATCGAGTAAGGACTTCGGGTGGGGCATCCGCAAGGAAACCGAACGCGAACCAGAGAAAAAGCAGGACACGCCGCCGGCCCGTTCAGAGCCGGACCTGACGGAGCCTGAATTCAAGTTCTGGGCATTCGTTCCCCGCCGGAAGGCACCAAAGGTCCAGGAGCCTGCTGCTGACCGCAACTTTGAGAAGGTCTGA	MCYSSSKDFGWGIRKETEREPEKKQDTPPARSEPDLTEPEFKFWAFVPRRKAPKVQEPAADRNFEKV				NA	NA	NA	NA	NA
D1-29_00255	531			hypothetical protein	ATGGAGTCCAGCGGTCTCGATCATATTGACGAGGCGATCCTTGCCGAGCTCACCAGGAACGCCAGGATTCCCCATGCTGAGCTCGCCCAGCGCGTGATGCTGTCCCGGAACGCCGTGCGCCAGAGGATCACCCGGATGGAGCGCCGAGGGCATATTGAGGGCTACACCATTATTGCCGGCAGCCCGGGCCAGCGGATGGTGTCCGCCATGCTGCTGGTGTACCGCAAGGACCGGATGCGCGGTTCCGATGTGCTGGCGGCGCTTCGGACCATTCCCGAAGTGGTCCTCTGCGATGTGCTCAGCGGCGACTTCGATCTTCTGGTGCGCCTGGAAGCCCGCTCCCTGGAGCGGATCCAGGCCATCTGGGAACAGATCGCAGGCCTCCCCGGAGTACGTGACACCGTGACGGCGCTGACCCTCTCCACCGTCATCCGGCGCTCGGCCTCCGGCCAAGACGACAGTCAGAACAACAGCCAAGACGACAGTCAGAACAACAGCCAGGACCACGGGGACCGTCCGGCGGAAAGCTAG	MESSGLDHIDEAILAELTRNARIPHAELAQRVMLSRNAVRQRITRMERRGHIEGYTIIAGSPGQRMVSAMLLVYRKDRMRGSDVLAALRTIPEVVLCDVLSGDFDLLVRLEARSLERIQAIWEQIAGLPGVRDTVTALTLSTVIRRSASGQDDSQNNSQDDSQNNSQDHGDRPAES				NA	NA	NA	NA	NA
D1-29_00256	1185	macB		Macrolide export ATP-binding/permease protein MacB	ATGACCGGCATCATTTCCGCCCTCCTGGAAGCCTGGCAGGAACTGAGGATCAACAAGACCCGGATTCTGCTGGCGCTGGTGGGGGTGGCACTTTCCGTGGCCGCCCTGACCTCCGTCGTCGGCTTAGGGAACCTGGCGCGCGAAGGTTTCAAGGCAAGCTCAGAACAGTACGGCGGGCGTGCGGCCACCCTCGGCATCGGCGTCTTCGGGCCAACGCAGCCGGATCAGCAGAAACTCGAGGACGCCTACCAAGGCGTGATCGACCGCTATGGGATCACTTACTACTCACATTCAGAACAGGCACAGCATTCCTTCCAGTCCCCGTACGGCGTGCAGCAGCTGAACCTCCAGCTCGTGGATCCCGGTTACGGCATGATCCACCGCCTGGACGTCCGCCAGGGCGGATGGTTCGCCGCCGACGACGAAAACCGGCTTGCTCCGGCACTGGTTGTCTCAGAGGGCTTCTATAACGCCGCAGGCCGGCCAAACCTGACCACGGATCCAAAAGTCCAGCTGCTCGGAACGCAGGAAACGACGGCGGTGATCATCGGGGTGGTTCCCGACCAGTTCCCGCAGGCACCGCCGTCGGCCTTTATGCTGACCGGGGCAGCGGAGCGTGCGGATATCTCCCCGGGAGGGTTCGGGCAGTTCAAACTCTGGGTGGGCGACGACCAGGCTGAAGCGCTCAAATTTGCTATTGCCTCCGACCTGCAGCGGCAGTTTCCCGGCATGCAGGTGCAGGTTGACCGGACGGACTACGCCAGCAACGGTGATCCGTTCGCGACTGTCCAGCTTGCCGTCGGCGGCATCGCCGGGCTGGTCCTCCTCCTGGGGGCGGTGGGCATGCTGAACATTTCCATGGTGACGGTGCGGTACCGGGTACGGGAAATTGGCATCCGCCGCAGTTTTGGCGCCACATCGCAGCGGATTTTCCTCGGCGTCATGATGGAATCCGTGGTGGCCACTGCTGTAGCGGGAATCGTTGGCGTCATGCTGTCCGTGGCGGTGGTGAAGCACCCATGGATCCAGGCCAACATCGCGCCCGGACTGACGGAGTACCCGGGGTTTCCGGTTGAGGCCGCGATGCTTGGGCTGGGCTCCGCCGTGCTGGTGGGCGCCCTGGCCGGCGCCATTCCCGCCCTGGTGGCCGTGCGGATCAAGGTCATTGACGCCATCCGCTTCTAG	MTGIISALLEAWQELRINKTRILLALVGVALSVAALTSVVGLGNLAREGFKASSEQYGGRAATLGIGVFGPTQPDQQKLEDAYQGVIDRYGITYYSHSEQAQHSFQSPYGVQQLNLQLVDPGYGMIHRLDVRQGGWFAADDENRLAPALVVSEGFYNAAGRPNLTTDPKVQLLGTQETTAVIIGVVPDQFPQAPPSAFMLTGAAERADISPGGFGQFKLWVGDDQAEALKFAIASDLQRQFPGMQVQVDRTDYASNGDPFATVQLAVGGIAGLVLLLGAVGMLNISMVTVRYRVREIGIRRSFGATSQRIFLGVMMESVVATAVAGIVGVMLSVAVVKHPWIQANIAPGLTEYPGFPVEAAMLGLGSAVLVGALAGAIPALVAVRIKVIDAIRF	PGPT0013350_18206	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
D1-29_00257	708	ytrE_1	COG1136	ABC transporter ATP-binding protein YtrE	GTGGAGGAACTTGTAGCCCTCAAAGGCGTCACCCGGACAGTCCTGCTGCCTGATGACCAGGAACTCCATATTCTTCGGGGCGTTGACCTCGCCGTCCACAGCGGCGACCACACAGCAGTGGTGGGACGGTCCGGGTGCGGCAAGTCCACCCTGCTGAACCTGCTCGGTCTTTTGGACCTGCCTACCAGCGGGGAACTGAGCTTCATGGGAACACCCGTGCAGCAACTGAAAGGCGGTGCCAGGGCAAGGCTCCGCGGGGAGGCCGTGGGATTTGTGTTCCAGCAGTTCAACCTGCTGCCCGGCCGCACCGCACTGGACAACGTCATCACACCGCTCCTGTATGCCCGCGGTGCCCAATTTTGGCGGCGCCGGGAGATAGCGATGGACATCCTGGACCGGGTTGGCCTGGCCCACCGGGCGCAGACGCTGCCCAACATGCTCTCCGGCGGCGAACAGCAACGGGTGGCCATTGCGCGCGCGCTGGTCCGCCGCCCCCGCCTGATCCTGGCGGACGAGCCTACGGGCGCCCTCGATGTGGATACCGGACAGGCCGTGATGGCGCTGCTGGACACTGTGGCAACAGAATCCGGCGCCGCACTTGTCACCATCACGCACGACGTCAACGTGGCCTCCCTCGCCCGGGCCTGTTACCGGCTTGAGACAGGTGTCCTGTCCGCTGCGGACGTCCCGGCGGGAGTGAGCGCATGA	MEELVALKGVTRTVLLPDDQELHILRGVDLAVHSGDHTAVVGRSGCGKSTLLNLLGLLDLPTSGELSFMGTPVQQLKGGARARLRGEAVGFVFQQFNLLPGRTALDNVITPLLYARGAQFWRRREIAMDILDRVGLAHRAQTLPNMLSGGEQQRVAIARALVRRPRLILADEPTGALDVDTGQAVMALLDTVATESGAALVTITHDVNVASLARACYRLETGVLSAADVPAGVSA	PGPT0013345_3474	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-29_00259	972		COG3940	Extracellular exo-alpha-(1->5)-L-arabinofuranosidase	ATGCCCCGCCTCGAAACCGCTGCCGGCCCGATCAGCCCGACCAGCCCGATCAGCTCCGACAACACAGAACCGGGGCTTCCGGATCCCTTCATCCTGCAGCGGGCCGACCCCTGGATGATCAGGCATCAGGGCCGCTACTATGTCACGGCCTCGGTCCCGGAGTACGACCGCCTGGTGCTTCGGCAGGCGTCGACCATTGCGGGTCTTGGTTCTGCAGCTGAAACGACCATTTGGCAGCGGCCCGAATCGGGGCCGCTCGGCGGCCATATCTGGGCGCCGGAACTGCACCACTTCGACGGCGGGTGGCACCTGTATTTCGCCGCCGGCGACAGCGACGATCCCTTCAGGATCCGCATGTACGTGATGTCCAATCCGGAGCCGGACCCTTCGGCCCCGGCCTGGAGTCCGCCGGTGCGCATCCACACCCACAAAGAGAGCTTCTCGCTGGACGCCACCACCTTTGAGCACGGCGGCACGAGGTTTCTTGTGTGGGCGCAGATGGACCCTGATTCCAGCTTGTTCATCGCTCCTCTGTCCTCACCTTCAACCCTGGCCGGCCCTCCCGTGCGCATCGCCGATCCCACGCTGGGCTGGGAGACAGTCGGCCACCGGGTGAATGAGGGTCCGGCAGTCATCAAGCGCAACGGGCGGATTTTTTTGACCTTCTCCGCCAGCGCCACCGACGCGAACTACTGTATGGGCCTGCTGACGGCGGACGACGATGCCGACCTGCTGGATCCGTCGTCCTGGACCAAGGATCCGCTTCCGTGGATGGCATCGTCGGACCGCTTGGGGGAGTTCGGGCCCGGGCACAACTCCTTCACGGTGGACGAGGCCGGAAACGATCTGATTGTTTACCATTCCCGTTCCTACCGCGACGTTATGGGAGATCCGCTCCGGGACCCGAACCGCCACACCCGGATCAGGCGCATCCACTGGTCTGCCGGCGGCCGGCCGTCCGTCAGTTGCTGA	MPRLETAAGPISPTSPISSDNTEPGLPDPFILQRADPWMIRHQGRYYVTASVPEYDRLVLRQASTIAGLGSAAETTIWQRPESGPLGGHIWAPELHHFDGGWHLYFAAGDSDDPFRIRMYVMSNPEPDPSAPAWSPPVRIHTHKESFSLDATTFEHGGTRFLVWAQMDPDSSLFIAPLSSPSTLAGPPVRIADPTLGWETVGHRVNEGPAVIKRNGRIFLTFSASATDANYCMGLLTADDDADLLDPSSWTKDPLPWMASSDRLGEFGPGHNSFTVDEAGNDLIVYHSRSYRDVMGDPLRDPNRHTRIRRIHWSAGGRPSVSC	PGPT0019091_701	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
D1-29_00260	1413	safD_1	COG1012	Sulfoacetaldehyde dehydrogenase	ATGCATAAGCTCGCTGATCCGTTGACCGCCGTGGCGGCTCCGGAATACGCTGAGGTTTTCAGTCCGTACGACGGCGGGTGCGTGGGCCGGGTGCCCATCACCGCTGCCGCATCCATCGACGCTGTCCTGGCCACAGCACGGGAAGGCGCCAAGCTGGCCGCTGCCCTGTCCCGCAGCGATCGCGCCGACATCCTCTCGGGCGCCGCCCGGCTCCTGGAACTGCGCAGCGACGAGTTCGCGCGGACCATCACGGCCGAAGCGGGCAAGACCATCCGCCAGGCGCGCAAGGAAGTGGTCCGCGCCATCAACACCCTCTCCCTCTCCGCAGCCGAGGCAAAGAGCAACGCCGGGGAAGTCATCCCGTTTGACGCCTACCGCGGATCGGAGAACCGGACGGGTTGGTTCAGCCGGGAACCGCTGGGCATCGTGGCGGCCATTACGCCGTTCAACGATCCACTCAACCTGGTGGCGCACAAGATCGGCCCCGCCATTGCCGGCGGAAACGCCGTCATCCTGAAGCCCTCGGCCTTGACTCCGCTGTCCGCGCAGCTGCTGGTGGACGCCCTGCGGGAATCAGGGCTGCCACCTGAGGCCATCACGGTGGTGCACGGCGGGCGCGAACTGGCTGCCGCCGTCGTCCGTTCACGGGACGTCAGGATGGTGTCCTTTACCGGCGGCTTTTCCACCGGGGAATCCATCGCGCGGGAAGCCGGCCTCAAGAAGCTGTCCATGGACCTGGGCGGCAACGCCCCCAACCTGGTACTGGCCAACGCCGATATTGCGGCAGCAGTGGAAGCCTGCGTTTCCGGGGCCTTCTGGGCCGCAGGCCAGAACTGCGTGGGCGTCCAGCGGATCCTGGTGGACGAGAGCGTCCTTCCCGAATTCAGGAGCCGTTTCCTGGCCGCCACGGCAGCCCTGGTGGCCGGTGACCCGGCGGCGGAGGGCACCGATGTGGGCCCGATGATCACCGCGGCTGCCGTTGGCGAGGCAACAGCGAAGATCAGTGAAGCGCTCGACGCCGGCGCCACCCTTTTGACGGGGGGTTCCAGTTCCGGGAACGTCCTTGAGCCCACCGTCCTGGAAAACGTTCCGCTCAACGGCAGGCTCTGGCGCGAGGAGGTCTTCGCCCCGGTGGTCATGCTCCAGCCGTTCACGGGCTTCGACGACGCCATTGAGCTGGCCAACTCCATTGAGTTCAGCCTGCACGCCGGCATCTTCACCGCATCCCTGGCCTCTGCCATGGAAGCTGCCAGGCGGCTGGAAGCGGGCGGGGTGATGATCAATGACTCGTCGGACTACCGGTTTGATGCCATGCCCTTCGGCGGATCCAAGTACGGCAGCATGGGCAGGGAGGGTGTGCGCTTCGCCTACGAGGAGATGACCCAGCCAAAAGTCGTCTGCATCAGCAACTGA	MHKLADPLTAVAAPEYAEVFSPYDGGCVGRVPITAAASIDAVLATAREGAKLAAALSRSDRADILSGAARLLELRSDEFARTITAEAGKTIRQARKEVVRAINTLSLSAAEAKSNAGEVIPFDAYRGSENRTGWFSREPLGIVAAITPFNDPLNLVAHKIGPAIAGGNAVILKPSALTPLSAQLLVDALRESGLPPEAITVVHGGRELAAAVVRSRDVRMVSFTGGFSTGESIAREAGLKKLSMDLGGNAPNLVLANADIAAAVEACVSGAFWAAGQNCVGVQRILVDESVLPEFRSRFLAATAALVAGDPAAEGTDVGPMITAAAVGEATAKISEALDAGATLLTGGSSSGNVLEPTVLENVPLNGRLWREEVFAPVVMLQPFTGFDDAIELANSIEFSLHAGIFTASLASAMEAARRLEAGGVMINDSSDYRFDAMPFGGSKYGSMGREGVRFAYEEMTQPKVVCISN	PGPT0018005_767	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018005-gapN-K00131	NA	NA
D1-29_00261	1092			hypothetical protein	ATGACCACCTACAACCTCGCGCTCATCGGTTTCGGCGGCGTGAACCGCACCCTGGCTGAACTGATCGAGTCCCGCGGATCACAGCTGCAGGCCGAACTGGGATTCGGCCTGCGCGTCACGGCCATCACGGATCTCCGTCTCGGCTCACTGGTGGACGCCGGCGGAATTGACCTCGCCGCCGTCCTCGCCCTCGGACCCGGGGCCACCTTTGAACAGTTCGGCGGGTCTGCCGAGACGGACAACGAGGCAGTCATCCGCAACTGCCCGGCGGACATTGTTGTGGAGGCAACCTTCACTAACCCGGACGACGGCGAACCGGCGGTTTCGCACGTCCGCTGGGCCATCGAAGCGGGCAAGAGCGTCTGCACCACCAATAAGGGGCCGGTGGCTCTGCGCGGACGGGAGCTTGCAGCCCTCGCTGCGGAGCACGGCGTCGCTTTCGAGTTCGAAGGTTCCGTTATGAGCGGCACTCCGGTCATCCGGCTGGCGAAGCAGATGTTCGGCGGCCTACGGCTGGGCGGCTTCGAGGGGATCATGAACGGCACCAGCAACTACGTCCTGGGGAGGATGGAATCCGGCCTCAGCCTCCAGGAGGCGGTGCGTGAAGCCCAGGATCTTGGCTACGCGGAGGCAAACCCCAGCGCGGACATCGACGGTTACGACGTCCAGCTCAAAGTGCTGATCCTGGCCAACGAACTGCTGGGTGCCGACCTTGAACTCGCTGATATCAGCCGCGAAGGCATCTCCTCGGTGACGGTGCAGGACGTTAGGCAGGCCTCACTCGAAGGCAAGCGCTGGAAACTGGTGGGATCAGCGCAGCGGAATCCGGACGGTTCGGTAACAGCCGGCGTCGCCCCGCAGGCCCTGCCCCTTGAGCATGGACTGGCCGGAGTTTCCGGCGCCACCAACGCCGTGGCCTTCAGTACCGACCTTCTGGGCCAGGTGACGGTGTCCGGCCCCGGGGCCGGCAGGATGGAAACTGCCTACGCGCTGCTGTCGGACATCATCGCCATCCACGCCAGGAACAGTTCGTCCGCCCAGGCAGAGGCTCCAGCTGTGGCGCCGGCACAGAGCGAGGCCGCACATGCATAA	MTTYNLALIGFGGVNRTLAELIESRGSQLQAELGFGLRVTAITDLRLGSLVDAGGIDLAAVLALGPGATFEQFGGSAETDNEAVIRNCPADIVVEATFTNPDDGEPAVSHVRWAIEAGKSVCTTNKGPVALRGRELAALAAEHGVAFEFEGSVMSGTPVIRLAKQMFGGLRLGGFEGIMNGTSNYVLGRMESGLSLQEAVREAQDLGYAEANPSADIDGYDVQLKVLILANELLGADLELADISREGISSVTVQDVRQASLEGKRWKLVGSAQRNPDGSVTAGVAPQALPLEHGLAGVSGATNAVAFSTDLLGQVTVSGPGAGRMETAYALLSDIIAIHARNSSSAQAEAPAVAPAQSEAAHA	PGPT0020155_3933	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003	NA	NA
D1-29_00262	1428	rocC_1	COG0833	Amino-acid permease RocC	ATGTCACTCTCTTCACCTACCGAACTGGGAACAACCGCCCCGGCCGCGGAACCGGCCACCGGCCTCCGCCGGTCCATGGGCTCACGCCACCTGGTCATGATCGCCATGGGGGGCGTCATTGGCTCGGGCCTGTTCCTCAGCTCCGGATACACCATCTCGCAGGCGGGCCCGCTGGGCGCCGTCCTGGCTTACCTTGTGGGCGCCTTTGTGGTCTATCTGGTGATGGCCTGCCTCGGCGAGCTTGCCATCGCCTACCCGGTATCCGGCGCCTTCCACATCTATGCTGCCCGCTCCATCGGCCCGGCCACGGGCTTTACCACCGCCTGGCTCTACTGGCTGTGCTGGGCCGTGGCCATCGGATCAGAATTCACGGCCTCGGGGCTGCTGATGCAGCGCTGGTTCCCCGGGGTGGATGTGTGGGTCTGGTGCGTCGTTTTCGCGCTGATACTCTTCTCGCTCAATGCCATCTCCTCAAGGGTCTTTGGCGAATCCGAATTCTGGTTCTCCATCATCAAGGTGGGGGCCATCGTTGTCCTGATTGTGTTGGGCGGCGCTGCCCTGTTTGGCTTCCATCCCCTCGCCGGCGGCGACCATCCAGTACTGTTCAGCAACTTCGCCACGTCCGCCGGCCTCTTCCCCAACGGCTTCACCGGCGTCCTGGTCACCGCCCTCGCCGTGTTCTACGCGTTCTCCGGGTCTGAACTCATCGGTGTAGCCGCCGGCGAGACAGCTGATCCGGAAAAGAACATCCCCAAGGCCATGCGGACCACCGTCATCCGGCTGCTGATCTTCTTTGTCGGCGCCATCGCCGTTATCGCGGCCACCATTCCCTACGACGAGGTAGGCCTGGACGAAAGCCCGTTCGTCACGGTCTTTTCCGCCATTGGCATCCCCTTCGCCGCGGACATCATGAACTTTGTGATCATCACGGCGCTGCTGTCCGCGGGCAACAGCGGACTCTTCTCCTGCGCCAGGATGCTCTTCTCCCTCGCCGAAGAGGGACATGCGCCCAAGGCGTTCCGGAAGCTGACCAAGCGGGGCATCCCTCTGCTGGCACTCAGCGTCAGCATGGTGGGTGGGCTTGCCTCGCTGATCTGCAGCGTAGTGGCACCCGAAACCGTCTACCTGGCGCTGGTGTCAGTGGCAGGGTTTGCCGTGGTGGGAGTCTGGATGTCAATTACTGCATCCCACTTCTTCCACCGGCGTGCATTCGTCAAGGCCGGCGGCGATGTGGCCGCCCTGGCCTACAAGGCGCCGTTTTTTCCGCTGGTGCCCGTTCTTGCCTTTACCCTGTGCCTCGTCTCGCTGGTGGGCATCGCGTTTGATCCAAACCAGGTGGCTGCGCTGTACTTCGGGGTTCCCTTTGTGGCCGGATGCTACCTGTTCTTCCACTTCAAGTACGGGCGTTCACGGACGGCCCGGCGCTAA	MSLSSPTELGTTAPAAEPATGLRRSMGSRHLVMIAMGGVIGSGLFLSSGYTISQAGPLGAVLAYLVGAFVVYLVMACLGELAIAYPVSGAFHIYAARSIGPATGFTTAWLYWLCWAVAIGSEFTASGLLMQRWFPGVDVWVWCVVFALILFSLNAISSRVFGESEFWFSIIKVGAIVVLIVLGGAALFGFHPLAGGDHPVLFSNFATSAGLFPNGFTGVLVTALAVFYAFSGSELIGVAAGETADPEKNIPKAMRTTVIRLLIFFVGAIAVIAATIPYDEVGLDESPFVTVFSAIGIPFAADIMNFVIITALLSAGNSGLFSCARMLFSLAEEGHAPKAFRKLTKRGIPLLALSVSMVGGLASLICSVVAPETVYLALVSVAGFAVVGVWMSITASHFFHRRAFVKAGGDVAALAYKAPFFPLVPVLAFTLCLVSLVGIAFDPNQVAALYFGVPFVAGCYLFFHFKYGRSRTARR	PGPT0020525_53	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020525-mmuP-K16235	NA	NA
D1-29_00263	591			hypothetical protein	ATGCTACCTGTTCTTCCACTTCAAGTACGGGCGTTCACGGACGGCCCGGCGCTAAGCCGCCTCCGTGCCTCTACTGCCGGGCGATGTCATCCGCTTCCTGCGGCCCGTGGAACTCACAAGGACCATGGTGCCGCAGGGGGAGGAGGCATGTCCGCCCGGTGGCCAGGTGGACGTTGGCGCACCGCCCTGCCCGTGCCACATCTTCACGGACATTCGTATTGCTCAGATCTGTCCGAAACACCCCTGGGCCTGTATTTGCCCTGCGCGAGGGTTCGCCCTGTGAAGACCAGGGGGATGCGGCGGATGGATGCTCAGCTGTCACTGGGGCTCCTCTTTGAGCGTTTGCTTTCGATGGATGCTTTTCTCATGGCATACAGCTCTTTAATTCTGCTCCCCGCACGTTACGAATGGGTTAAAAACCTTGATCCATTTGCTGGCCGCCGCCGGCCTTTCCGCTGGAACCCTTGTGCAAGAATTGGTGGCGCCGCAAGAATTGGGGCCAAGAAGAATTGGGCCTCGTCCGGCCGTCAGGAGCAGCACCCATGGAATCCTCCGAAGCCTCATCCCTGGCCCAGGGCCTTCGGATCGTGA	MLPVLPLQVRAFTDGPALSRLRASTAGRCHPLPAARGTHKDHGAAGGGGMSARWPGGRWRTALPVPHLHGHSYCSDLSETPLGLYLPCARVRPVKTRGMRRMDAQLSLGLLFERLLSMDAFLMAYSSLILLPARYEWVKNLDPFAGRRRPFRWNPCARIGGAARIGAKKNWASSGRQEQHPWNPPKPHPWPRAFGS				NA	NA	NA	NA	NA
D1-29_00264	789			hypothetical protein	ATGGAATCCTCCGAAGCCTCATCCCTGGCCCAGGGCCTTCGGATCGTGAGGGTGGTGGCGGACAGGGAAAAGTGGGGCCGGCCGCTGTACGGCGTGACCCAGATAGCTGCCGATCTCGGCCTGGACCGGAGCCGCGTTTCCCGGCTCACCCAAGAGCTGTGTGATCTCCGCCTGCTGGAAAGGGTGGAACGCGGGCCCTTCCGGCCAGGGTCCGCCTTTTTCGCGTTGGCGGCTTCCCTCAACACTGGATGGGCCCACGATTCCAGGGCGGAGCTCCAGCGGATCGAGGCATCGTTGGGGCTGCCGGGGAAGCTCTCCGTGCTGGACGGCGCCCGGGTCATCCTGGTCCGTTCCTCCGCCGGGCACGGGGCCCTGGCAGGGTCCATCCACCCGGGCATGGTGACCCCCGTCTGGTGTACCGGTTCCGGCCGGGCGCTGCTGTGGGACCACACTGCCCAGGGCATCGCCGAGGTACTGGATGACGTCGAGTTCATCGGCGTGGGAGGACCCCAGGCGGCGCATTCAGCAGCCGAAGTAGCAGCCCTGATGGAACGCGACCATCCACGCGGTTGCGTCTACGCCGTGGAGGAGTTCGAACACGGTGTCCACGAAATTGCCGTCCCCATCAGGAGCCCGGAAGGGCGGATCGTTGCGTCACTGTGCGTCTACGGCGGCCGCGACGAGTTCGACGGGCGGCTTGAGGAGATCCGGACCGGGCTGGAAGAGTCTGCCCGGACGTTGTCTGCCGCCTCATCTGCCCAAGGGCCGCCGTCGTCCTCTGAGGCCTAG	MESSEASSLAQGLRIVRVVADREKWGRPLYGVTQIAADLGLDRSRVSRLTQELCDLRLLERVERGPFRPGSAFFALAASLNTGWAHDSRAELQRIEASLGLPGKLSVLDGARVILVRSSAGHGALAGSIHPGMVTPVWCTGSGRALLWDHTAQGIAEVLDDVEFIGVGGPQAAHSAAEVAALMERDHPRGCVYAVEEFEHGVHEIAVPIRSPEGRIVASLCVYGGRDEFDGRLEEIRTGLEESARTLSAASSAQGPPSSSEA				NA	NA	NA	NA	NA
D1-29_00265	780			hypothetical protein	ATGAAGGTTGTGTTCGCTGTGGCTGCACGGCAGGAGGCCGGGGAACCCGGCGCAACCGTTGCCGACGTCGCCGCGGACCTCGGCCGGGACCGCAGCCAGGTTTCCCGTGGGCTCAAGGTGGCCCAACAGGAGGACTTCCTCATCCGCGGCGAGCGCCGGGCCTACGCACTGCATTGGGGACTCTACGCGGACGCGCAAGCCATCACCGAGCAGCGGCTGCGGACCGACGGGCTGACGGCCCTGGAAGGCCTTGTTGCGGCGACCAACGAGGGGTGCTTCCTGGGCGTCCTGCAGGGCGATTCCACTGTCACCATCGGCGAGCGCGTCCCGGCGGCCAGCAGGATGATCGGCTCCTGGATCGGCCGGCCATACCCGGCGTACTGCAGTGACGCCGGCCAGGCCCTGCTGTGGGACGCCTCAGAGCAGGAGGTCCGCACGGTCTTCGCCAACACTGAGTTTGTCAGGCATGGGCCCAACACCCCCGCCAGTGTCGACGACTTTATGGGGCGGCTGGAGCAGGCGCGGTCCCGCGGGTATTCCGTGGTTGACGAGGAAGCCGAGCCGGGCCTGTTTTCCATCGCCGTTCCGGTGCGTGACTTCCGTGGCGAAGTGGTGGCCGCGCTGCAGGTGGTGGGGCCGAAAACGCGATTGGAGGGCCGGCGCACCGAGTGCGCGGCAGCCGCCGTGGAGTGGGGGCATTGGCTGGAGGCTGCCCTGCGCGGCGAATCGGACAGCGGCAATTTGGATCAGCCCGTCACGGAAAGCAGGACAGGCAGCTAG	MKVVFAVAARQEAGEPGATVADVAADLGRDRSQVSRGLKVAQQEDFLIRGERRAYALHWGLYADAQAITEQRLRTDGLTALEGLVAATNEGCFLGVLQGDSTVTIGERVPAASRMIGSWIGRPYPAYCSDAGQALLWDASEQEVRTVFANTEFVRHGPNTPASVDDFMGRLEQARSRGYSVVDEEAEPGLFSIAVPVRDFRGEVVAALQVVGPKTRLEGRRTECAAAAVEWGHWLEAALRGESDSGNLDQPVTESRTGS				NA	NA	NA	NA	NA
D1-29_00266	753		COG1878	Isatin hydrolase	ATGAGCCAGCAGCTCGAACTCAGTCTCTGGAGCGGGCTCAGCGGGCTTTTGGCTGACCGCACTTTTGTGGACCTTACGCACGCATTCCATCCCGGCCAGCCGCACTTTCCCGCATTCCCGGACGAGGTCCGGGAACCGCTGTTCGACATGGGACGCGGTGACGGCTTTACGGTCCACCGGTACTCCATAGTGGGCCAGTGGGGCACCCATGTGGACCCGCCGTCGCACTTCGTTGCCGATGGCACCACGCTGGACAACATTCCTGTCGAGGAGATGCTGCTCCCCCTCGTCGTGCTGGATATCAGCGCACGGGTCCGTGAGAACCCGGACGCCACCCCCTCTTTGGACGATGTTGCCGCCTGGGAAAGCAGGAACGGCCGGATCCCCGCCAATGCTTTTGTGGCTCTGCGCACCGGGTGGTCGGACCGGTGGCCCGATGTGGATGCCATGGCCAACCGGGACGCCGACGGCGTGAGCCACGCGCCAGGGTGGTCCAGGGAGGTTCTGGAATTTCTGGTGGAGGACCGGGCAGTCCGAGCCATCGGCCATGAGCAGACGGACACCGATCCCGGCCAGTCCACGTCCCGGCAGGATTTCAGCCTGGAGACCTACATCCTGGCGCAGGGCCGGTGGCAGATCGAATTGATGGCCAGCCTGGCGGGGCTGCCTGAGGCTGGCGCCGTAGTGGTGGCCACCTGGCCCAAGCCCCAGGGCGGCAGCGGCTTTCCTGCCCGGGTCTTCGCCATCTTCTAG	MSQQLELSLWSGLSGLLADRTFVDLTHAFHPGQPHFPAFPDEVREPLFDMGRGDGFTVHRYSIVGQWGTHVDPPSHFVADGTTLDNIPVEEMLLPLVVLDISARVRENPDATPSLDDVAAWESRNGRIPANAFVALRTGWSDRWPDVDAMANRDADGVSHAPGWSREVLEFLVEDRAVRAIGHEQTDTDPGQSTSRQDFSLETYILAQGRWQIELMASLAGLPEAGAVVVATWPKPQGGSGFPARVFAIF				NA	NA	NA	NA	NA
D1-29_00267	450			hypothetical protein	ATGGATATTTTTGGCATGAAGCGCGTGCGGAAGTTGCGGGTGCACTGGCCAGTGAACGGGGCAACCCTCGCCCGCCTCACCGCGGGTGACGTCCGCGTCTTTGAAGAGGATCCCAGCCTGGCCCTGCTGCTGGCCGCACTGGCGGAAAAGCCCGAGCTTGGTGACTTTGGCATCTACCGCCACGTCTTCGAATCGAGCTTCGGCTTCGAGGGCTTCACTGTTGCTCCCGGCGCGAACCCCACGCTGGGTTCCGTCGGCGGCAGCTCCGTATCCCCCACCTTTGTGCTCACGAGCTACTTTGATGCCGGGATGCCGGCGGCCGCCGTGGAAAACCTGATTCAGACCATCATGGACATCCACCCCTGGGAGGTCCCTGTGCTGGAGATTTCCGACCCGGTAAGCATCTCCACCGGGCGCACCGCTGACCGCCAGGAAAAGGTGATGGCATGA	MDIFGMKRVRKLRVHWPVNGATLARLTAGDVRVFEEDPSLALLLAALAEKPELGDFGIYRHVFESSFGFEGFTVAPGANPTLGSVGGSSVSPTFVLTSYFDAGMPAAAVENLIQTIMDIHPWEVPVLEISDPVSISTGRTADRQEKVMA				NA	NA	NA	NA	NA
D1-29_00268	1455	amiB2	COG0154	Putative amidase AmiB2	TTGGCTGAGATCCATGAACTGTCCGCGGTCCGGCTGAGCGCCGCGCTGCGTGGCGGAGACCTTTCCGCCAGGGACGCCGCCGCCCACTACCTGGCACGGATTGAGTCCCAAAACAGGCTGCTGGGCGCCTTTGTCACAGTCACGGCCGACCAGGCCATGGCCGAGGCCGCCGCTGCCGACGCCCGTTTCACCCGGTTCCGAGGCGGGACCGGGAGAGGGACGCAGCCGCTCAGCAGCCGGGACGGTGAAGGCCTTCCACTGCTCCACGGAATGCCCCTGGCCTTCAAGGACCTGACGGATGTGGCGGGTGTGGTGACTACGCACGGCAGTGCCGCCCTGGACCACAAACCCGCCCTCACCGATGGCGCCCTGGTGAGCGTCCTGAGGTCCGCGGGAGTCATCTCGCTCGGTAAGACCCAGGTTCCCGAGTTCGGACTCACTGCCTACAGCGAAAACCGGATCGCGCCGCCGTCGCGCAATCCCCACGCCCCCAGCCGGAGTTCCGGCGGTTCTTCAGGCGGAAGCGCTGCAGCGGTTGCCGCCGGCCTCCTCCCCTTTGCGCCCGGGACCGACGGTGGAGGTTCCGTCCGCATCCCGGCGGCTGCCTGCGGGCTGGTGGGGCTAAAGCCGGGCCGCGGGCTGGTGGGGTCCGGCGAGAGTTCGGGCGATCCGGCGCGGCTGGTGGTGGCGGGTCCCCTGGCCACGAGCGCGGAGGATGCCGCGCTCCTGCTGGACGCGCTGGCACCCCAACAGCACACCAGTTACCTGGACCAGGTAAGCCAGGAACCCGCCCGGCTGCGGATCGGCGTGACCCTGGACAGCCCGTGGTCCACCACCTTTCCGTTCACGGTGGAGGAGGAAGCACTCGATGCACTGCAGGCCGGCACAAAGCTGCTGGAAAAGGCCGGGCACAGCGTTATGGAGGCTTCCGTCCGGTACGACAACCGGTATCCGGACGCCTTCACCACGGCCTGGACGGCCGCCGTCGGGACTGCGAGGATCAGCCCGCACCGGGAGGCGCTGCTGGCGCCCCTCACCAGGGCCTTCAGGCGGCGGGCGCAGCAGCGCAGCGCCGCAAAGCTCAACGAATCACTGGCATTCCTGCGCCAGTTCCAGCGGGACACCGTCGTACAGTACGCGCAATGGGACCTGATGCTGATGCCGGCGCTGGCGCAGACGCCGCGTCCGGTGGGCTGGTTTACGGGTGCGGCCCACGGCGACGAGCGGTGGCCCGCAGCGGAGTGGGCAGGCGACGCCGACGGCGACTACAGGAAGCAGTGCGAATTCGCGCCCTGGTCTTCCATGGTGAACGTGTGCGGGCTGCCCGCGATCACCATCCCGGTGCACTGGACCGACGGCCGCCCCGGGCAGGGCCTGCCGATGGGCATCCAACTGGTGGGGCCCATGGGATCCGAAGGTCTCCTGCTTCAGGTGGCTGCGCAGCTGGGATTCTAA	MAEIHELSAVRLSAALRGGDLSARDAAAHYLARIESQNRLLGAFVTVTADQAMAEAAAADARFTRFRGGTGRGTQPLSSRDGEGLPLLHGMPLAFKDLTDVAGVVTTHGSAALDHKPALTDGALVSVLRSAGVISLGKTQVPEFGLTAYSENRIAPPSRNPHAPSRSSGGSSGGSAAAVAAGLLPFAPGTDGGGSVRIPAAACGLVGLKPGRGLVGSGESSGDPARLVVAGPLATSAEDAALLLDALAPQQHTSYLDQVSQEPARLRIGVTLDSPWSTTFPFTVEEEALDALQAGTKLLEKAGHSVMEASVRYDNRYPDAFTTAWTAAVGTARISPHREALLAPLTRAFRRRAQQRSAAKLNESLAFLRQFQRDTVVQYAQWDLMLMPALAQTPRPVGWFTGAAHGDERWPAAEWAGDADGDYRKQCEFAPWSSMVNVCGLPAITIPVHWTDGRPGQGLPMGIQLVGPMGSEGLLLQVAAQLGF	PGPT0006115_3958	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
D1-29_00269	744			hypothetical protein	ATGACCGCCGATCAACCCACCATTCTGGCCACGTCCGGGGGCTACCAGCCCGGATCCCGCACGCGGCTGGAGTTCAACGCCCTGGTGCATCACGCCGTCGAGCTTTCCGGTGTCAGTGGACGGGCGCCGCGGGTGACCCACCTCGGCACAGCATCAGGGGACCAGCGCTGGCTGAGTGCGGAGCTTGATGAGGCAGCCCGGCTGGCCGGCTTCGATTTCAGCCACCTGAACCTTTTTTCAATGCCGAATCAGGCGGAACCCGAGGCCCATCTCCTCGAGCAGGACGTGGTGTGGGTGAACGGCGGATCGGTAGTGAACCTGCTGGCTGTGTGGCGTGCCCATGAACTGGACCGGATCCTGCACCGGGCGTGGCAGCAGGGAGTGGTGCTGGCAGGAGTCTCTGCCGGATCCATCTGCTGGTTCCAGGGCGGCACCACGGACTCGTTTGGGCCTGAGCTTCGCGCAGTGAACAACGGCCTGGCGTTCCTCCCCTATGCCAACGGCGTCCACTACGATTCCGAGGAACGCCGCCGCCCCTTGGTGCACCAGCTTGTGGCGGACGGCACACTGGGCGAAACCCACTGCACGGACGACGGCGTGGGCTTGGTTTACCACGGCACTGAACTGGTGGAGGCGGTAACGGAAGTCCGGGGCAAGGGTGCCTACATCGTCACGGCACAGGACACAGACGGCCGCGGGCCTGCCGCCTCGGAGCTGCGACTGGAACCGCGCTTCCTTGGCTGA	MTADQPTILATSGGYQPGSRTRLEFNALVHHAVELSGVSGRAPRVTHLGTASGDQRWLSAELDEAARLAGFDFSHLNLFSMPNQAEPEAHLLEQDVVWVNGGSVVNLLAVWRAHELDRILHRAWQQGVVLAGVSAGSICWFQGGTTDSFGPELRAVNNGLAFLPYANGVHYDSEERRRPLVHQLVADGTLGETHCTDDGVGLVYHGTELVEAVTEVRGKGAYIVTAQDTDGRGPAASELRLEPRFLG				NA	NA	NA	NA	NA
D1-29_00270	327		COG0607	Sulfurtransferase	GTGAGCGATTTCGATACTGTGCCAGTCAACGACGTGCCCGCCGACGCCGTGATCCTGGATGTCCGCGAAGACTATGAATGGGTGGCCGGACATGCCGACGGCGCCGTCCACATCCCACTGGAGCAGCTTCCGGTCCGGCTGGAGGAACTGGATCCCGACCAGGACCTGTACGTCATCTGCCGTACGGGCGGGCGCTCCTTCCGGGCCGCGCAATGGCTGACCGGCCAGGGCTACACGGCCATCAACGTGTCCGGCGGGATGGACCAGTGGCTCGAATCGGGGAAACCGCTCGTGTCCGACAACGGCCTGAAGCCCCTGGTCCTCTAA	MSDFDTVPVNDVPADAVILDVREDYEWVAGHADGAVHIPLEQLPVRLEELDPDQDLYVICRTGGRSFRAAQWLTGQGYTAINVSGGMDQWLESGKPLVSDNGLKPLVL	PGPT0001770_1256	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
D1-29_00271	984	pheA_1	COG0077	Prephenate dehydratase	ATGCCGGCCTCCCCTGTGACCTATACCTTCCTTGGGCCGGAAGGCACGTTCACCGAGGCAGCACTCATGCAGGTGCCGGGCGCAGCAGAGGCAACCCGCATTCCTGCATCGAACGTTAATGCAGCTTTGGACAAGGTCCGTGACGGATCTGCGGACGCCGCCATGGTCCCTATCGAGAATTCGGTAGAGGGCGGGGTAACAGCCACCCTTGACGCCATCGCCAGCGGGCAGGAACTCCGCATCATCCGGGAAGTGCTGGTGCCCATCAGCTTTGTGCTGGTTGCCAGGCCCGGCCTTGCCATCTCCGAGCTCCGGCGGATTTCCACCCATGGGCATGCCTGGGCACAGTGCCGGTTATGGGTGGACCAGAACATCCCCGGTGCAGAATACGTTCCCGGCTCGTCCACCGCGGCGTCTGCGATGGGCCTGCTTGAGGACCACCCGCACTACGAGGCCGCGATCTGCGCACCTATCGTGGCCCAGGAACAACCCGGCCTGAACGTCCTGGCCGAGAACATCGGCGACAACCCCGGCGCCGTCACCCGCTTCGTCCTGGTCAGCCGGCCAGGTGTCCTTCCGGAACGCACCGGGGCGGACAAAACAACGGTGGTGGTCCCGCTGCCGGAGGACCGCCCCGGTGCCCTGATGGAAATCCTGGACCAGTTCGCCACCCGCGGCGTAAACCTCAGCCGGATTGAATCCCGTCCCACCGGACAGTACCTTGGCCACTATTTCTTCAGCATCGATGCCGACGGCCACATTGGCGACGCACGCGTGGCTGACGCCCTGGCTGGCCTCCACCGCATCAGTCCGGCTACCCGCTTTCTGGGCTCCTACGGGCGTGCTGATGCCCAGAGCGCCTACGTGGCCCCCCACACCTCCGACGATGCATTCCGGGCAGCACATGAATGGGTGGAAGCAATTCTCCAAGGGGAATCGGTCGCCCCGAAAGCGTTTCCGGAGCTTCGCCCAGAGCGTAGATAA	MPASPVTYTFLGPEGTFTEAALMQVPGAAEATRIPASNVNAALDKVRDGSADAAMVPIENSVEGGVTATLDAIASGQELRIIREVLVPISFVLVARPGLAISELRRISTHGHAWAQCRLWVDQNIPGAEYVPGSSTAASAMGLLEDHPHYEAAICAPIVAQEQPGLNVLAENIGDNPGAVTRFVLVSRPGVLPERTGADKTTVVVPLPEDRPGALMEILDQFATRGVNLSRIESRPTGQYLGHYFFSIDADGHIGDARVADALAGLHRISPATRFLGSYGRADAQSAYVAPHTSDDAFRAAHEWVEAILQGESVAPKAFPELRPERR				NA	NA	NA	NA	NA
D1-29_00272	210			hypothetical protein	ATGACTACCGGCAGCACTGACAACGACGGCCAGGGAATGATTGTTAATCCCAAGCCCACCGCCGACAACCAGGACTGGGACGGCGACGAAGCAGACCGCGCTGACCGCCTGCGCTTCGAAGAGGAGCAGGCTATGATCCGTGAGCAGTCCGAAGCACGGGCCGCCGCCAAAGCCGCGGCTGAAGCCGCCGCGAAGAAGGCCAGCGCCTAA	MTTGSTDNDGQGMIVNPKPTADNQDWDGDEADRADRLRFEEEQAMIREQSEARAAAKAAAEAAAKKASA				NA	NA	NA	NA	NA
D1-29_00273	1062	dagK_1	COG1597	Diacylglycerol kinase	ATGAGCGACCTGCTGCTTTACCTCCTCAGTGCGGTGGCACTGGCGTTCGCCGTGTCCAGCTGGTGGGGCGTGCGCAAGCTCAAGGCCCTGCATGTCAGGAGCGCCGTGGGCGAGGACGCCCACGAATCGGGCCTGGCCCAACAGCGCGTGGCAGTGGTCCTGAATCCCATCAAGGCCCGGTCCTCCGAGGCCAAAGCCGCGATCGAGCGTGCCTGCTTCGCGGCAGGCTGGGAGCCGCCGCTGTTTTTCGAGACCACCATCCAGGATCCCGGATTCTCGCAAGTCCAGTCAGCGCTGGACTGCAAGCCCGACGTCGTCCTGGTGGGCGGCGGGGACGGCACTGTGCGGGTGGTGGCTGAATCCCTCGCGCATACGGATGTGGCCATGGGCCTCATCCCGCTGGGAACGGGAAACCTCCTGGCCAGGAACGTGGACCTGGACGTCAACGACCTCCATGCGAACGTGCAGACGGCCCTGTTCGGCCGGCAGCGCTACATCGATACCGCCAGGATGGGGATCGAGAACTCGCGGACCGGCCACTCGTCCGAGCACGCCTTTCTGGTGATTGCAGGCATCGGGATGGATGCGGAGGTGCTAGCCGACACGAACGACGGCCTTAAGAAGGCGGTGGGCTGGCTCGCCTACACCGAGGCCGGGATGCGGCATTTGCCGGGCCGGCGCAAGAAAGTCTCCATTTCCCTGGATGACAGCGCCGAGCAAGTCAGGAATATCCGCAGTGTCCTGTTTGCCAACTGCGGGCTGGTTCCCGGCGGCATCGATTTCATTCCCCAGGCCATGATCGACGACGGGATGCTGGACGTGGTGGTCATGAGCCCGCGCAGCGCCATTGGCTGGTTGGCCATGTACGGCAAGATCATTTTCAAGCACAAGGGGAACCTGCCGATCATGACCATGTACCGCTCCGGGAAAGTTGTGATCAAATGCCCAGAGCCAATGCCCACCCAGCTCGACGGCGATACTTCCGGGGAAGCCACAAAGCTCACCGTTCGGGTGGAACCCAGATCGCTCCTGGTCCGGGTCAAGGGTCACCAGCTGCCATAG	MSDLLLYLLSAVALAFAVSSWWGVRKLKALHVRSAVGEDAHESGLAQQRVAVVLNPIKARSSEAKAAIERACFAAGWEPPLFFETTIQDPGFSQVQSALDCKPDVVLVGGGDGTVRVVAESLAHTDVAMGLIPLGTGNLLARNVDLDVNDLHANVQTALFGRQRYIDTARMGIENSRTGHSSEHAFLVIAGIGMDAEVLADTNDGLKKAVGWLAYTEAGMRHLPGRRKKVSISLDDSAEQVRNIRSVLFANCGLVPGGIDFIPQAMIDDGMLDVVVMSPRSAIGWLAMYGKIIFKHKGNLPIMTMYRSGKVVIKCPEPMPTQLDGDTSGEATKLTVRVEPRSLLVRVKGHQLP	PGPT0024345_238	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
D1-29_00274	1281	serS	COG0172	Serine--tRNA ligase	GTGATCGACGTAAAAGACCTCAGTGAAAACCCGGACAAGTTCCGTGCCAGCCAGCGCGCCCGCGGTGCGGACGAATCAGTGGTGGACGCGATCATCTCCGCAGACTCAGCGCGGCGTGCAGCCCTCATCCGCTTTGAGAACCTCCGGGCCGAGCAGAACGCCTTTGGCAAGAAAGTGGCCCAGGCCAAGGGAGACGAGAAGAAGGCCCTCCTGGCCGAGGTCAAGGAACTGGCCAACACTGTCAAAGCTGCGTCGGCGGAGGCTGACGCTGCGCAGGTTAAGCAGGACGAACTGTTGCGTGCCATCCCCAACGTCATCGAGGACGGCGTTCCGGAAGGCGGCGAGGATGACTACGTTGTGCTCAAGACCGTCGGAACGCCCCGCGAATTCCCCGACTTCGAACCGAAGGACCACCTACAGATCGGTGAGCTGATCGGCGCCATCGATATGGAGCGCGGTGCCAAGGTCTCGGGCTCACGCTTTTATTTCCTCCGCGGTGTGGGGGCCCGGCTGGAGATGGCACTGCTGCAGATGGCCATGGACCAGGCCATCGAGGCAGGCTTTATCCCGATGATCACGCCCACGCTGGTGCGCCCGGAAACCATGCAGGGCACGGGCTTTGACGTCAAGCACGACGCCGAGATCTACCGGCTCGCCGAGGACGACCTTTACCTCGTGGGAACCTCCGAGGTGGCCCTGGCTGGCTACCACGCAGATGAGATCCTGGACCTGTCGGCCGGCCCCATCCGGTTCGCAGGGCAGAGCTCCTGCTACCGCCGCGAAGCCGGATCCCACGGGAAGGACACCCGCGGCATCATCCGGGTCCACCAGTTCAACAAGGTGGAAATGTTCATCTACACCACCGTTGAAGAAGCCGCTGCGGAGCACCAGCGCCTCCTGGCCTGGGAGGAAGAGATGCTTGCCAAGTGCGAGATTCCCTACCGCGTGATCGACACCGCTGCCGGTGACCTGGGCATGTCCGCAGCCCGTAAATTCGACTGCGAAGCCTGGGTCCCCACACAAGGCGCCTACCGCGAGCTGACCTCCACCTCCAACTGCACCACGTTCCAGGCGCGCCGCCTGAACATCCGGGAGCGTGTGGTGAACGACGAAGGCGTAGCCAAGGGCACCCGGGCCGTCGCCACCCTGAACGGCACCCTGGCCACAACCCGGTGGATCGTTGCCATCCTGGAGCACCACCAGAACGCCGACGGCTCCGTCAACGTCCCCGCAGCCCTGCAGAAGTACCTGGGCGGCCTGGAAGTCCTCCCGGTCCTGTAG	MIDVKDLSENPDKFRASQRARGADESVVDAIISADSARRAALIRFENLRAEQNAFGKKVAQAKGDEKKALLAEVKELANTVKAASAEADAAQVKQDELLRAIPNVIEDGVPEGGEDDYVVLKTVGTPREFPDFEPKDHLQIGELIGAIDMERGAKVSGSRFYFLRGVGARLEMALLQMAMDQAIEAGFIPMITPTLVRPETMQGTGFDVKHDAEIYRLAEDDLYLVGTSEVALAGYHADEILDLSAGPIRFAGQSSCYRREAGSHGKDTRGIIRVHQFNKVEMFIYTTVEEAAAEHQRLLAWEEEMLAKCEIPYRVIDTAAGDLGMSAARKFDCEAWVPTQGAYRELTSTSNCTTFQARRLNIRERVVNDEGVAKGTRAVATLNGTLATTRWIVAILEHHQNADGSVNVPAALQKYLGGLEVLPVL				NA	NA	NA	NA	NA
D1-29_00275	861	ywpJ	COG0561	Phosphatase YwpJ	ATGACGACACTGACTGAAACCTCAGTCGCCGGCAACGATGACCGGCGAGAGAACAAAAACACAAAAACATCCAACGCGCTCATGATCGCCCTGGACGTTGACGGGACACTCGTAGACCACGACGGCCACATGTCCGCAGGCGTCCGTGAGGCCGCACAGGCTGTGGTGGGCGCAGGGCACGAGGTCATGATTGCCACGGGCCGTTCACTGAATGCGGCCCTGCCCATCATTGAGCAGATCGGCATCGACCGCGGCTACGCAGTTTGCTGCAACGGCGGCGTGACTCTCCGCCTCGATCCGGCGCTGCCAGATGGCTACAAGGTCATTCACAAGGCAACCTTCGATCCCGCCCCGGCCCTGCGTGCGCTGCGCGAACAGCTGCCATCCGCCAAGTACGCCCTGGAGGACGAGGACGGCAACTTCCTCTCCACCGAGCGGTTCCAGGACCCAAGTTTCGGCGTAGAGGCCGTCGGCGTGGACTTCCACACGATGCTGGAATCCACGGCCGTCCGCGTGGTGGTGTTCAGCACGGAGAACACGCCCGAAGAATTCAACCAGGCCATCAAGCACGTCGGGCTGGCGGGAGTCACCTACTCGGTGGGATGGACCGCCTGGCTTGATATCGCTGCCGCCGGCGTGACAAAAGCCAGCGCCCTGGAGCGACTTCGAAGCCGCCTGAACATTGAATCCCACCGGACCGTAGCCATCGGCGACGGCCGGAACGATATCGAGATGCTTGCCTGGGCCGGCCGAGGCGTGGCCATGGGCCAGGCGCCCGAGGAAGTCATCGCCGCAGCGGACGAAGTCACGCACTCGGTGTTCGACGACGGCGCCGCCCACGTCCTCCGCAGCCTGATCTAG	MTTLTETSVAGNDDRRENKNTKTSNALMIALDVDGTLVDHDGHMSAGVREAAQAVVGAGHEVMIATGRSLNAALPIIEQIGIDRGYAVCCNGGVTLRLDPALPDGYKVIHKATFDPAPALRALREQLPSAKYALEDEDGNFLSTERFQDPSFGVEAVGVDFHTMLESTAVRVVVFSTENTPEEFNQAIKHVGLAGVTYSVGWTAWLDIAAAGVTKASALERLRSRLNIESHRTVAIGDGRNDIEMLAWAGRGVAMGQAPEEVIAAADEVTHSVFDDGAAHVLRSLI	PGPT0008595_684	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
D1-29_00276	873			hypothetical protein	GTGCTCTACGAGGAGTCCCCGGCGCCGGCCGCGCTTCGGCCCTTCGTCACCGGCTTCTGGCTGATCCGTGCCCGGCCGGTGGCGCGTTACGAGAAAATCCTCCCGGGCCCGTCGGCACACCTGGTCCTGAACCTTTCGGACCCTTACCGGCTGATCGATCCCGACCGGCCGGCAGGCGAGGCAGCCGGAGCCGAAGTCTCCACCGGCTTCTACTCGGGACTGCAGCGCGGATTCCTCATCAGCGAGAATCCACCGCAGCTGTTCAACGTCGGGGCCGTCCTTTCGCCTTTCGGCGTGGCCGCGTTCACGGAGCAGCCACCAGCCACCCTCAACAGCCGGGTGACAGATGCAGACACGATCTTTCCTGGGTTCAGTGCACTGCGCAGCCGGCTCCTCAGCACGGAAGGCCCGACGCCGGACCGCGCCTTCGCGGCGCTCGAATCCTTTCTCACGGCCAGGCTCCGCCCTGGTTACCGGCAGGACCAAAGGTCCGCAGCCGCCGTCGGGCTTCTTGCCGAAGAGGATATTCCGGTGGCGGAACTCTCCAAGCGGCTTGGGATGAGCGACTCCACCCTGGAGCGCATCATCATGCGTGACTGCGGCATCACAGCGAAGGGGTTCTCAGACGTCTGCCGCTTCCACCGCTTTGTCACCGCGGCAGCGGGGTTGCCGCCGGGGGCTGCGGCCGGGAAGGATCTCCTGGCACTCGCCGATTACTACGACCAGCCGCACCTGGTCCGGGCCTTCCGGCGGTTTGCCGGCTTCACGCCGTCGGAATACCTGGCGATTGTCCGGCAGCACGGCGCCGAGTATGCCACCTTCGTGCCGGTGGAGGACGTCCCGGCCGTTCGTTCCGGGACCGTACGCAGCTAA	MLYEESPAPAALRPFVTGFWLIRARPVARYEKILPGPSAHLVLNLSDPYRLIDPDRPAGEAAGAEVSTGFYSGLQRGFLISENPPQLFNVGAVLSPFGVAAFTEQPPATLNSRVTDADTIFPGFSALRSRLLSTEGPTPDRAFAALESFLTARLRPGYRQDQRSAAAVGLLAEEDIPVAELSKRLGMSDSTLERIIMRDCGITAKGFSDVCRFHRFVTAAAGLPPGAAAGKDLLALADYYDQPHLVRAFRRFAGFTPSEYLAIVRQHGAEYATFVPVEDVPAVRSGTVRS				NA	NA	NA	NA	NA
D1-29_00277	393			hypothetical protein	ATGGATCTGGAGATCAACTGGCTGGCGGTGCTGCTCGCTGCTCTGGCCAGTTTTGTGGTGGGCGGGCTGTGGTACTCGCTCTTGTTTGCCAAGCCGTGGCAGCGGGAGGCAGGCGTCACCGATGAGCAGCTAAGGCATGGAACAGCCAGGGTTTTCGCCGGTTCCTTCCTGCTCGCCCTGGTCATGGCCGTTGCGCTCGCAGCGTTCATCGGCAACGGCGGGGCAGGTTTTGGAACCCTGGCGGGACTGGCTGCGGGCGTCGCCTGGGTGGCTGCAGCGCTTGGCGTGAACTACCTGTTCGAGCGGCGCAGCCTTGTCCTCTTTGCGATTAATGCCAGCTACAACGTGGTGGCGTTTACGGCCATGGGAGCCATCATCGGCGCCTTGCAATAG	MDLEINWLAVLLAALASFVVGGLWYSLLFAKPWQREAGVTDEQLRHGTARVFAGSFLLALVMAVALAAFIGNGGAGFGTLAGLAAGVAWVAAALGVNYLFERRSLVLFAINASYNVVAFTAMGAIIGALQ				NA	NA	NA	NA	NA
D1-29_00278	600			hypothetical protein	ATGTTCACGCTGACCATCAATCAAACGGACAGCCGGCGCGATGGTGACCGGGTGCCGCAGTTACTCAGGGAACTGCGGCACATTCCGGCGCGCCTCGACTTTGACCGGTCCGTGGAGGACGAGGTGCAGGGCATCGTGGACTGCCCGCACCAGGCGGTGGAGGCTGCACTGATCGCCCTGCGCTGCGGCACCTGGTACGTGGGAATTGGTGCAGGGCCTGTCAATGAACCGCTGCCCAACCTGATCAGGGACGCCTCGGGGCACAGCCTGATCTACGCGCGCCGTGCCGTGGACCGCCTCCGAAACGGCAAGGACCGTATCCCGGTGGCTGTGGAAGGCCCGCTGTCCGATCTGGCCCGCGAGGCTGAATCCGTGCTCCGGTTATTGGGCCACATTGTCCGCGGCAGGTCCGGCGCTGAATGGCGCGTCCTGGACCTCATGACCCCCGGTGTCCGGGGCCAGCAGAAGGCTGTCGCCCAGGAATTGGGGATCACCACCCAGGCTGTCAGCAAGGCTGTGGCCAGGGCGCAGTGGAACGAGGAACATGCTGCCCGCCCCGCCGCGGCCCGTCTGCTGGCGCTGATCCTCGAGGTGCGCTGA	MFTLTINQTDSRRDGDRVPQLLRELRHIPARLDFDRSVEDEVQGIVDCPHQAVEAALIALRCGTWYVGIGAGPVNEPLPNLIRDASGHSLIYARRAVDRLRNGKDRIPVAVEGPLSDLAREAESVLRLLGHIVRGRSGAEWRVLDLMTPGVRGQQKAVAQELGITTQAVSKAVARAQWNEEHAARPAAARLLALILEVR				NA	NA	NA	NA	NA
D1-29_00279	717			hypothetical protein	GTGGCTGACGCAGGGAGAACCTGGCTGGTCCGCCGGGCCGAGCGGCTCTATGGAGACAGGCTGGGCCGGCTGCGGCACAGCGAACTTTCCTGGCATATCGCCTGGAAGTGGCTGCCCGTCCTTGTGGCGGTCGGATTCATTTACGGCACCATCGCCGAGTTCACCGGCAACTCCTCATCGCAGCGAGCCCCTGGCCTTTTCTCCGATGTCCCGCTTTTTGTGACTTCGAGCGTCCTCACCGGGCTGGTCCTGTGGTCCATGACCTTGTTCTGGAGCTTCCGGCGCGTGCTGGTGTTCGACCGCGGGCTCTTGTACGGGTACGCCCAGAAGCAGACTGCCCACGCCATCTTCTGGCATGACATCGACCCAACATCGCTGCGGACCGTCCAGGCCCCGGCCGGCGTGGAGGCGGATGGCCTGCTCAAAACCCTGGATAAGAAGAGCAAAGTTCGGCTGGGGGTAAGCGGACGGTTTGCGGTGATGTTCCGCGGCATACCCTCGGTTATCGGGACGGCAGGAAGTACCGGCCAGACGGCTGGCCCCGAGGCACCTGGGCAGGGATTCTTCACGTTCAGCATGTCGCGCATCCCGGACAGGCTGGTTGCGGAGATCCAGCACGCCATGGCGGAATCAGGCCTGCTAACGGCCGGGTCTGCGGTGCCCAAGGCATTGCCGCCGGTTCAGATCAACTCGGCCGTCAGGCTTGACCAGGCCTGA	MADAGRTWLVRRAERLYGDRLGRLRHSELSWHIAWKWLPVLVAVGFIYGTIAEFTGNSSSQRAPGLFSDVPLFVTSSVLTGLVLWSMTLFWSFRRVLVFDRGLLYGYAQKQTAHAIFWHDIDPTSLRTVQAPAGVEADGLLKTLDKKSKVRLGVSGRFAVMFRGIPSVIGTAGSTGQTAGPEAPGQGFFTFSMSRIPDRLVAEIQHAMAESGLLTAGSAVPKALPPVQINSAVRLDQA				NA	NA	NA	NA	NA
D1-29_00280	669			hypothetical protein	ATGAAGGCCCAAGGGGTGGCAGAAACGGGAGCCGACGCAGATCCTGCACTCATCCACAGTGCATGCAAACGGACAAAATACTTGAGGAACGGCCGTCCGGTGGTGGAAGCGACCGGTTGGCAGGTGTTCGGCGCCTGGGCCGTGGACTTTGGCCTCATCGCCATCATGGCGGCGGTGGCGTCTGCCACTGCCGCAACGTCCGTGACGGGGACAGCAGGCCGGACGGCGGCCGCAGCCATCATTGTCTGGATGGCGGCGCCCTGGTTGTACGGGTTCTGCTGCGCCCGCGGACTTTCCCTCGGGTCGCTGGCTACAACTACGGTCCTGGTGCGGATGGGCGGCGGTGAACGCCCGGGATTTTGGCGAGCAGGATGGGTCATGTTTTCCAGGATGGTGCTCTTTCCCATTGTCATCCTGCTCATACTCCTTGCAGCCGCCGGAGGCTCGAGCCCCTCCGGGGACAGTCCCAGAGCCCGCCACCTGACGATTGACCGGCGATTTCCCGTACCGCCACCACCCATCCGCCCGGACGTGGCCCGGGCCGCAGCCGAGGAAGCTGCGGCCAGGCACTCCCAGCTTCCGGGCCTTTACGAGCTCAACCAACCCGGCCCTCACGAACAAGGCCTCAACCAGCCTGGCCCCTACCAACAAAGAGGCCCGCGTGGCTGA	MKAQGVAETGADADPALIHSACKRTKYLRNGRPVVEATGWQVFGAWAVDFGLIAIMAAVASATAATSVTGTAGRTAAAAIIVWMAAPWLYGFCCARGLSLGSLATTTVLVRMGGGERPGFWRAGWVMFSRMVLFPIVILLILLAAAGGSSPSGDSPRARHLTIDRRFPVPPPPIRPDVARAAAEEAAARHSQLPGLYELNQPGPHEQGLNQPGPYQQRGPRG				NA	NA	NA	NA	NA
D1-29_00281	2427	xfp		Xylulose-5-phosphate/fructose-6-phosphate phosphoketolase	ATGGCCAGCAGCACCGGACAGGACGAACTGGAGCACGTAGACCGCTGGTGGCGGGCGGCCAACTACCTTTCGGTGGGCCAGATCTACCTGCGCTCCAACCCCTTGCTGCGGGAACGGCTCACGGCAGAGGACACCAAATCTCGCCTGCTGGGCCACTGGGGCACCACTCCGGGCCTGAACTTCGTGTACGCCCACCTGAACCGGGTCATACGCAGGGATTCCCAGGAGATGCTCTTTGTTGCCGGACCCGGGCATGGCGGGCCAGCTGTGGTCGCAAACGCGTGGCTGGAAGGCACTTATTCAGAGATCTACGGCCACGTGGGCAATGACGAGGCCGGGATGGCTGAACTCTTCCGCCAGTTCTCCTACCCGGGAGGCATCCCCAGCCACGCTGCGCCGGAAAGCCCCGGATCCATCAGCGAAGGCGGCGAGCTGGGTTATGCGCTGGCCCATGCGTACGGCTCGGTGTTCGACAACCCCCAGCTGATCACCGCCGTCGTGATTGGCGACGGCGAGGCCGAAACCGGTCCGCTGGCAGCGAGCTGGCATTCGCACAACTTTTTGGACCCGGCGGCGGATGGTGCCGTACTGCCCATCCTGCATCTGAACGGGTACAAGATCGCCAATCCCACCATCCTCGCCCGGATGCCCGAAGAACAGCTGGAACAGCTGCTGCGGGGCTACGGCCACGAGCCCTACTTCGTCACGGTGGACCACCCGGACGCCACGGAGAAGGCGCACCGGGACTTCGCCGCGGCGCTGGACCAGTGCCTGGCGGACATCCGCGCCGTCCAGGACGTGCACCGGGCGCCGGACAATTTGGACGCAGCCAAGCAGTACGCAGCCAAGCAGTACGCGGCCAACCAGGACCCGGGGGAGGACGGCGCGCCGCGGTGGCCCATGATCGTCCTGCGCTCGCCAAAGGGCTGGACGGGGCCGCGCACCGTGGACGGGGTGCAGGTTGAGGGCACGTGGCGCAGCCACCAGGTCCCGCTGTCCGAAATCCGCACCAATCCGGCCCACCTGGACCAGTTGGGGGAGTGGCTGCAGTCCTACCGTCCGGAAGAACTGTTCGACGGCGACGGCCGGCTCCGGCCCGACATCGCGGAAGGCGCGCCCACCGGAGATTTCCGGATGAGTGCCACGCCGCATGCGAACGGCGGGCTCCTCCGCAGGGCCTTGACGCTCCCGCCCTACCGGGACCACGCCGTCGAGGTTGCCCGGCCGGGGACGGAACGGGTCAGCCCCATGATTACGCTGGGTTCGTGGATGCGTGATGTCATCTCGCTGAATATGGAGAACTTCCGGCTCTTCGGCCCTGACGAGACGGCGTCCAACCGGCTGCAGAACGTCTACGAAGTGACGGACAAGGTGTGGCAGTACCGGATTGACGACGTCGACGAGCACCTTGCACGGTCCGGCCGGGTGATGGAGGTGCTCAGCGAGCACCTGTGCCAGGGGTGGCTGGAGGGCTACCTCCTGACCGGCCGGCACGGAGTCTTCAGCTGCTACGAGGCGTTCATCCACATCGTGGACTCTATGTTCAACCAGCACGCCAAGTGGCTGAAGGTGCACCGCAAACTGCCGTGGCGGCAGCCCGTTGCATCCCTGAACTACCTGCTTTCGTCGCATGTCTGGCAGCAGGACCACAACGGGTTCTCGCACCAGGACCCGGGCTTCATTGACCACGCGGTGAACAAAAAGGCCGAGGTCATCCGGGTGTACCTGCCGCCGGACGTGAACACCCTGCTGTCCGTTATGGAGCACTGCCTGGCTTCAACGGACTACGTGAATATTGTGGTCAGCGGCAAGCAGCCCTCTCCCGCTTGGCTGGGGCCTGCGGACGCTGCCAATCACTGCCGCCGCGGGCTGGGGATCTGGACGTTCGCCGGGTCCGAGATCCCAGGCGAGGAGCCCGACGTCGTCCTTGCCTGCGCGGGGGACGTGCCCACCGTGGAGACCGTGGCCGCTGCGGAGCTTCTCAAGGAAGGTGCGCCGGGGCTGAAAGTCCGGGTAGTCAACGTGGTGGACCTGATGCGGCTGCAGGACTCCAGCGAGCACCCGCATGGCCTCCCGGCACGCGACTTCGACGGAATTTTCACCGCAGACAAACCGATCATCTTCGCCTACCACGGCTACCCTGCGCTGATCCACCGGCTGGCCTACCGCCGCACCAACCAGGACGGCCTGCATGTGCGCGGCTATAAGGAGGAGGGCACCACCACCACGCCGTTTGATATGGCCATGCTGAATGGGATAGACCGGTTCCAGCTGGCCATCGACGCGATCGACCGCGTCCCGGGGTTGGCCGAGAAGCACTCACTGCTGCGGCAGGACCTCCAGGACCGGCGGATGCGGGCCTTTGAACATACAAGGACCCACGGCGAGGACCCTGAGGAGATCCGCAACTGGTCGCTAGGCACCTGA	MASSTGQDELEHVDRWWRAANYLSVGQIYLRSNPLLRERLTAEDTKSRLLGHWGTTPGLNFVYAHLNRVIRRDSQEMLFVAGPGHGGPAVVANAWLEGTYSEIYGHVGNDEAGMAELFRQFSYPGGIPSHAAPESPGSISEGGELGYALAHAYGSVFDNPQLITAVVIGDGEAETGPLAASWHSHNFLDPAADGAVLPILHLNGYKIANPTILARMPEEQLEQLLRGYGHEPYFVTVDHPDATEKAHRDFAAALDQCLADIRAVQDVHRAPDNLDAAKQYAAKQYAANQDPGEDGAPRWPMIVLRSPKGWTGPRTVDGVQVEGTWRSHQVPLSEIRTNPAHLDQLGEWLQSYRPEELFDGDGRLRPDIAEGAPTGDFRMSATPHANGGLLRRALTLPPYRDHAVEVARPGTERVSPMITLGSWMRDVISLNMENFRLFGPDETASNRLQNVYEVTDKVWQYRIDDVDEHLARSGRVMEVLSEHLCQGWLEGYLLTGRHGVFSCYEAFIHIVDSMFNQHAKWLKVHRKLPWRQPVASLNYLLSSHVWQQDHNGFSHQDPGFIDHAVNKKAEVIRVYLPPDVNTLLSVMEHCLASTDYVNIVVSGKQPSPAWLGPADAANHCRRGLGIWTFAGSEIPGEEPDVVLACAGDVPTVETVAAAELLKEGAPGLKVRVVNVVDLMRLQDSSEHPHGLPARDFDGIFTADKPIIFAYHGYPALIHRLAYRRTNQDGLHVRGYKEEGTTTTPFDMAMLNGIDRFQLAIDAIDRVPGLAEKHSLLRQDLQDRRMRAFEHTRTHGEDPEEIRNWSLGT	PGPT0017575_755	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
D1-29_00282	789			hypothetical protein	ATGCAACGGCCCGTTGCACCGAAGAGTGCCGGCGGTATGAAGACACTGGGCGTCGATCTTGCGGCGGCGGCTAGGAAGACGGGGGTGGCGGTCCTGGTATGGACCGCCGGTTCTGCCCGCCTGGAGCACCTTGCCCTGGGTGTGGATGACCGGGAGATAGTGGATCTCTTCGGGAGCAGCTCCATGACCGGCATCGACTGCCCGGTTGGCTGGCCGGACGCTTTCCTGCCGTTCCTCGCAGGACACCTGAATTTCGACGCCGGTCCCGTCCTTGACCACGATGGCATCGAGGGACGGCGGCTGCTGGCCTACCGGGACACGGACCGCTTCGTTACGGGACACACCGGGCTGATTCCGCTCAGCGTCTCTGCCGACCGGCTCGCCCATCCGGCCATGAGGTGCGCCGTGATCCAGGCGAGGATCGCCGCTGAGTACGGGCCCCAGGCGCGGGACGGGTCCGGCCGCCTGGCGGAGGTCTATCCTGCTGCATCCCTGAAGGTTTGGGGCCTCTTGGCCCGCGGCTACAAGGGCCGGGGCGCGCCGGAGGCAGAACGGCTTGGCGTGATCCTGGATCAGCTGCAGGCTGCCGCGCCTTGGCTGGACCTGGCAGGACACGAAGGGCGGCTGGCCGCGTCCGACGACCTCTTTGACGCAGTGATCGCCTCTTTGACCGCACGCGCCGTCATCCAGAAGCAGACCCTCGGGCCGCCAGGAACCCATGCCGCGGCAGCACTGACAGAGGGCTGGATCCATCTGCCGTCAGGCCAGCCCGCCGATCTGTGTGACTGA	MQRPVAPKSAGGMKTLGVDLAAAARKTGVAVLVWTAGSARLEHLALGVDDREIVDLFGSSSMTGIDCPVGWPDAFLPFLAGHLNFDAGPVLDHDGIEGRRLLAYRDTDRFVTGHTGLIPLSVSADRLAHPAMRCAVIQARIAAEYGPQARDGSGRLAEVYPAASLKVWGLLARGYKGRGAPEAERLGVILDQLQAAAPWLDLAGHEGRLAASDDLFDAVIASLTARAVIQKQTLGPPGTHAAAALTEGWIHLPSGQPADLCD				NA	NA	NA	NA	NA
D1-29_00283	831			Tropinesterase	ATGCCATGGCTTGATGTGCTCGGCAACGACATCCATTACACCGACGCGAGCCACGGCCAGCCCGTGGTCCTGCTGCATGGCCACGCGTCCGCAGCGGCGTGCTGGGAACCGATCAGTGCGGAACTGGAGCGGGACTTCCGGGTACTGGCCTACGACACCTACGACCACGGCTGGTCCTCGAACTCGCCGCGGCAGGGACCGCTGGTTGACCGGGCGGCTGAGCTTGAGCACTTCATCGGTTCACTCGCCCTGAAGAGCCCGATTATCGTGGGGCAGTCCATGGGTGGCATGACCACCCTGCGCTGGGCGGTCCGCCATCCGGGGGAAGCGGCGGCCCTGGTCATCTGCGGCATGGGCTGGCCGCTGGTGGTGCCGCCGCCCGGGCAACCCGGCCAGGCGGAAAAGTTTGAGGTGTTCAGCTCGCTCGACGCCGACGAGCGGATCTGGCTCGGTGTGGGGAACTCCTTCACGGAGGAGTGGATCGCTGCCAACCCGCTCGACTACGCCCGCTACATCCGGTTCCGGTCCACGGCAGCCGCGATCGAAGCGGCGCGTCATCCGCGCAGCCTGGAGGCAAGCCAGGGAGAGTTCCTCAGCGCCGCTGCCGGGGACGTTGACGCATTCCAGCGCGGACTGGAATCGATCACCAGCCCCCTGCTGGTCATCATTGGCGACGCCGAAAGGCCGCGCATCCGCCGCGGCGCCGAACACGTCGCCGCCACGGTTCCCGGCAGCCGCCTCCTCGTCGTGGAGAACGCTGGCCACAACGCCTACTTCCAGCGGCAGGACCTTCTGGTGGAGGCGATCCGAAACGCGGCCGCCGGCACCTGA	MPWLDVLGNDIHYTDASHGQPVVLLHGHASAAACWEPISAELERDFRVLAYDTYDHGWSSNSPRQGPLVDRAAELEHFIGSLALKSPIIVGQSMGGMTTLRWAVRHPGEAAALVICGMGWPLVVPPPGQPGQAEKFEVFSSLDADERIWLGVGNSFTEEWIAANPLDYARYIRFRSTAAAIEAARHPRSLEASQGEFLSAAAGDVDAFQRGLESITSPLLVIIGDAERPRIRRGAEHVAATVPGSRLLVVENAGHNAYFQRQDLLVEAIRNAAAGT				NA	NA	NA	NA	NA
D1-29_00284	1326	aqdA2		putative N-octanoylanthranilate hydrolase AqdA2	GTGAATTCGGAGCTTTCTTTTGATCCTCCCTGCGGTCCGGTCACCGGCTGGCGGGACGGCGATGTTGTGCGCGCAACGGGAATCCCGTACGCCACGGCGGGCCGCTTCCAGCCCCCGATTCCTGTGCCGGACCGGTCCGGGATATTTGCGGCCACCTCCCCCGCACCCGCCTGCCCGCAGGGCCCTGTGCCTTTCCTCGATGACATCCTGGGCACGCGGTACGGCGAACTCCCGGGCAGCGAAGACTGCCAGAACCTCTCCATCACCATGCCGGCCGACATTGGTGCAGGCGAACGGCTGCCGGTCATGGTCTGGATCCACGGAGGTTCCTACACCACCGGATCAGGGGACCTGGCCATCTTCGACCCCGCCGTGCTGGTCGCCGAGAACCGCGTGATTGTCGTTGCCGTGAGCTACCGGCTGGGGCTGTTTGGCTTTCTGGCTACGCATTCAGGCAGGCCCGCCAACCTGGGACTGCTCGACCAGCTTGAGGCGTTCCGTTGGGTGCAGCGCAATATCGCAGCGTTCGGCGGTGACCCGGGAAGGGTGACGGCGTTCGGTCAGTCTGCCGGCGGGGACGCGATTGCCCACCTGATGGCATCACCGGAAGCGCCTTCCCTTTTCCAGCGCGCCATTATCCAGAGTGCACCCCTGGGCATCTCCCGTGGGCGCGAAAAGATGAATCATGCGATGGGCATCGCGGCCGAAGCCGTTACGGAGGAGACGCCCGCTATGGACGTGGTGGCTGTCGAGGACCGCGTCTCGCAGGTGGCACGGAAGTACGGCCTGATGGCAGCCATGCCGTTCGGAACCCAGTACGGGCACGCCCCGCTGCCGCCGGAAGCCGACATTGAGGCAGCCTGGGATGCCACGGCCCCGCATATCGAGGTGCTGATCGGGCATACGGCGGACGAAGCGCGGCTTTTCCTTCCCCGCAATCCCGTGGTGCGCAGGCTCGGCAATGTCCCCGGCATCGGCGGGGCCGCCGTCGTAGCCATCAATTGGGCAGTGACGGAGGCCGTGTACGGCCGGGCGGCGCGGAAGTTCGCCCGGCGTCACGCGCGCGCCCGCGGCAAGGCCCACAGCTATGTGATCTCCTGGGGCGCTCCGGGGAATTACTTTCGGGCCGCTCATACTGTTGACCTGCCGCTGCTGTTCGGCAATCAGGGGACATGGGCAGCTGCCGGCCTGCTTTCCGGCTCCACCTGGGAGGAGGTCGACGCCGTCGGGCGGGAACTGCGCAGCCTGTGGGCCACTTTTGCCCGTGGGGAAGACCTGGGCGAATCAGGCGGCATCCCCGGCGCACTCCACTACCGGTCGGCATAG	MNSELSFDPPCGPVTGWRDGDVVRATGIPYATAGRFQPPIPVPDRSGIFAATSPAPACPQGPVPFLDDILGTRYGELPGSEDCQNLSITMPADIGAGERLPVMVWIHGGSYTTGSGDLAIFDPAVLVAENRVIVVAVSYRLGLFGFLATHSGRPANLGLLDQLEAFRWVQRNIAAFGGDPGRVTAFGQSAGGDAIAHLMASPEAPSLFQRAIIQSAPLGISRGREKMNHAMGIAAEAVTEETPAMDVVAVEDRVSQVARKYGLMAAMPFGTQYGHAPLPPEADIEAAWDATAPHIEVLIGHTADEARLFLPRNPVVRRLGNVPGIGGAAVVAINWAVTEAVYGRAARKFARRHARARGKAHSYVISWGAPGNYFRAAHTVDLPLLFGNQGTWAAAGLLSGSTWEEVDAVGRELRSLWATFARGEDLGESGGIPGALHYRSA	PGPT0030515_2706	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TANNIN_DEGRADATION	PUTATIVE-TANNIN_DEGRADATION-1,PGPT0030515-pnbA-K03929
D1-29_00285	489	ppa	COG0221	Inorganic pyrophosphatase	ATGAAGCACGACGTCACCATCGAGATCCCCAAGGGATCCCGCGTCAAGTACGAAGTCGACCACGAGACCGGCCGGGTCCGCCTGGACCGCGTCCTCTTCACCTCCATGCAGTACCCCACGCACTACGGTTTCTTTGAGAACACCCTGGGCGAAGACGGCGACCCGCTGGATGCACTGGTGCTCCTGCAGGACTTCGATCTGCTCCCGGGCGTCATCGTTGAATCCCGCCCCATCGGCGTCTTCAACATGACCGACGACGGCGGCGGAGACGCCAAGGTCCTGTGCGTCCCGGTTGACGCCCGCTTTGACCACATCCAGGAAGTCAGCGACGTCAGCGAATTCCTGATCAAGGAAATCGAGCACTTCTTCACACGTTACAAGGACCTGGAGCCGGGCAAGTGGGTCAAGGCCGAGGGCTGGGGCGACCGCGCCGCCGCCGAAGCCGAGCTGGAAGCCTCCATCAAGCGTTACGTTCCGGCCGCTCACTAA	MKHDVTIEIPKGSRVKYEVDHETGRVRLDRVLFTSMQYPTHYGFFENTLGEDGDPLDALVLLQDFDLLPGVIVESRPIGVFNMTDDGGGDAKVLCVPVDARFDHIQEVSDVSEFLIKEIEHFFTRYKDLEPGKWVKAEGWGDRAAAEAELEASIKRYVPAAH	PGPT0002600_4658	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-INORGANIC_PHOSPHATASE,PGPT0002600-ppa-K01507	NA	NA
D1-29_00286	1524		COG2027	Carboxypeptidase	ATGAAGGAAACATTGCGTCCCGCAGGGTTCAGGGCGGCGTTCCAGGGCGGCTTTCAGGCCACACCAAGGCGCATAGCAACGGGTGTGGCCGCCTGTCTCCGCCACACGTGGCCGGTTGGTCTGCTCCTGGCGCTGATGGTGGCGCTGGCCGTGCCCGCTGCCCTGGTGGTTGCCCCCGGCTTTATCGGACCGGAACCCCCCGCGGCGCCCCCGGCTGCTCCCGCCTGGCAGCAGGCTCCTGCAACGCTTTCGGCCCGGCAGGGCCTGTCCCCGCTGAACGAAACCGCGCCGGTGCCAGTGCCGTCGGCCGTCGCCGCGCAGCTGGAGCCACTGTTGAAGGCCGACGGCGGCGGCACCTTTACCGGCCTGGTCCAGGATGCGCTGACCGGCCAGGTCCTTTTCGACCGCGGCGGTTCCGACAACCGGATCCCCGCCTCCAACATGAAGCTGCTCACCGCCGTCGCTGCCCTGCGGGCTATGGGGCCTGAACACCGGTTCAGCACCACCGTCGAGGCAGGTCCTTCGGCAGGCCAGGTGGTGCTCAGGGGCGGCGGCGATGTCCTCCTGGGAGCCGGCCAGTCGGACCCGGACCAGGTGATGGGCCGTGCAGGGCTCGCCTCGCTGGCGGCATCAACAGTGGCTGCGCTTCAGGAGAACGGAACCACGGGGGAGCTGACGGTCCTGGTGGACGATTCCCTCTTCAACGGTCCGGCGCTGAACCCGGCATGGGAAAAGGGTGATGTGGAGGCCGGCGAGCTGGCCCCGCTTTACCCGCTGGCCATGAATTCGGCCCGCTTCAGCGCCGGCGTGACCACAGGTCCGCGCCCCCAGGATTCCGCGCTCACTACGGCTGAGGCGTTCGCCGGGCAGCTTAAAGCGGCAGGTGCCGCTGCGGGGATAACTGTGTTCGACGGCGTCCAACGCGTCACTTCTTCGGCGCCGCCAGGGCAGGCTGAAGTCCTGGCGGAAGAGCAGTCCGCCACAGTAAGCCAGCAGGTGGACCTGATGCTGCAGACCTCGGACAACTACCTCGCGGAAATATTGGGCAGGATGTCCGCCGTGGCAGCCGGGCAGCCAGGCAGTCACGACGCCGCCACTGCTGCGGTCCGCACCCAGCTCGGGGAATTGGGTATCCCCACGGACCCCATGAGGCTGGCCGACGTATGCGGGCTGGCGCTGGGCAACCAGGTCTCCGCCCGCCAGTTCGCCGAGGTGGTGCGGGCCATCACCTCCGGCACGGACACGAGGCTGCGCGCGGCGCTGGCCGGCTTCCCCGTGGCCGGCCTGACAGGAACGCTTGACGCCCGTTACGGAGATGATTCCACTGCGCGCGGAGCCGGGCTGGTGCGGGCCAAAACGGGAACGCTGAACTCGGTGATCGCACTCAGCGGCTACGTAGTGGACGCTGACGGCCGGCTGCTGGTCTTCTCCTTTATTGGCAACGGGCTCACCCCCGGCGCCGCCGGCAATAAGGAAGCGCTGGACCGCGCAGCCACAGCGCTTGCGGCCTGCGGCTGCCGTTAG	MKETLRPAGFRAAFQGGFQATPRRIATGVAACLRHTWPVGLLLALMVALAVPAALVVAPGFIGPEPPAAPPAAPAWQQAPATLSARQGLSPLNETAPVPVPSAVAAQLEPLLKADGGGTFTGLVQDALTGQVLFDRGGSDNRIPASNMKLLTAVAALRAMGPEHRFSTTVEAGPSAGQVVLRGGGDVLLGAGQSDPDQVMGRAGLASLAASTVAALQENGTTGELTVLVDDSLFNGPALNPAWEKGDVEAGELAPLYPLAMNSARFSAGVTTGPRPQDSALTTAEAFAGQLKAAGAAAGITVFDGVQRVTSSAPPGQAEVLAEEQSATVSQQVDLMLQTSDNYLAEILGRMSAVAAGQPGSHDAATAAVRTQLGELGIPTDPMRLADVCGLALGNQVSARQFAEVVRAITSGTDTRLRAALAGFPVAGLTGTLDARYGDDSTARGAGLVRAKTGTLNSVIALSGYVVDADGRLLVFSFIGNGLTPGAAGNKEALDRAATALAACGCR	PGPT0024035_865	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024035-dacB-K07259	NA	NA
D1-29_00287	375			hypothetical protein	GTGGTTGAAGGCGGCAAGGGCACCGTTGCCCTGGGAGCCGATGATGTTATCCACCTTGTCTGGAATCAAAGCACCAAAATCGAAGCTGTGGATGCCCAGGCCGCCATGGCGGCAGTCAATCAGGCCGGTAACGGGTCCGAATATCCCATGCTGGTGGACATGGCCACCACCGAGTCCGTGAGCCGCCAGGCCCGTGGCGTTTTCTCCATCCCGTGTGCGGCCAACCGCATTGCCCTGCTGGGATCAAGCCCTGTTGACCGGGTTCTGGCCAACTTCTTTCTCAGCATGCATGTTCCGCCCTGCCCCACCCGTTTCTTCACGTCCAGGCCCGAAGCCATGGCCTGGCTGCTCGAGGGGTCTCCGTCACGTAGCTGA	MVEGGKGTVALGADDVIHLVWNQSTKIEAVDAQAAMAAVNQAGNGSEYPMLVDMATTESVSRQARGVFSIPCAANRIALLGSSPVDRVLANFFLSMHVPPCPTRFFTSRPEAMAWLLEGSPSRS				NA	NA	NA	NA	NA
D1-29_00288	1131			hypothetical protein	ATGGAGTCCACTGCACGTGATTCGTCACCGGCGTCATCCACCCCGGCCCAGGCCCTGATCAACTGGGATCTCGCAGCGTCCACCGCTGCCCGGCTTGCTTCCGCCGGCCCGGTGCTTAACTCGGCGGAAATTGGTGATGCCGTGGACAGCCTCCGGCACCTCGCGGACGCCTCCGTTCCGCACGTACACGAGATCACGGGCCTGGAAGCTGCCCGGGACCTCCGCGATTCATCGGTCCTGGTGGTGGACCGCGCCAACTGGGCCAAAGCCAACACCCAGAGCTTCGCAGTGATGCTCAAACCGGCCATGGAAAAGATGCTGGAAAGCCGCCGCGGCTCCATCAGCCCGGCGGCGGCCAGCGTCAGCGGCGCCATCACCGGCAGCCAACTGGGAGCAGTCCTGGCTTTCCTTTCCAGCAAGGTCCTGGGCCAGTACGATCCCTTCGCGGCGCTGGCTGAGGGGTCCAACGCTCCCGCCGGCGGCCGGCTGCTGCTGGTTGTCCCCAACATCGTCTCCGTGGAGCGCGAGCTCAATGTCACGCCGGAGGATTTCCGGCTCTGGGTCTGCCTCCATGAACAGACTCACCGGGTGCAGTTCGCGGCCGCGCCCTGGCTCCGGCACCACATGCTGCAGGAAATCGACAACCTCAGCGGCCACCTGCTCGGCAACGTGGACTCCCTGATGGAGCGCGCCTCCGCCGCCGCACGCTCACTGAAGGACCGGACGGCTGCCGGCAACGCCCCGGGCCGCGGCGCCATCCTGGACCTGCTGCAGAATCCGGAGGAAAAGGCATCGCTGTCGCACCTGACGGCAGTGATGAGCCTGCTGGAAGGCCACGCCAATGTGGTGATGGATGCAGTTGATGCCAGCATTGTGCCGTCCGTGAAGACCATCCGGCAGCGCTTTAATGACCGTGGCAAGGACCGCGGTGTCATCGAGAAGTTCATCCGTAACCTGCTGGGCCTGGATGCCAAGATGCGTCAATATTCCGACGGCGCCAAGTTTGTCCGCGCGGTGGTGGAAGTTGCAGGGATGGAGGGCTTCAACAGGGTCTGGGAATCCGCTGACCATCTCCCCACCGAGCCCGAAATCCATGACGCCAAGCTGTGGCTTGACCGGATGGGCCTCTAA	MESTARDSSPASSTPAQALINWDLAASTAARLASAGPVLNSAEIGDAVDSLRHLADASVPHVHEITGLEAARDLRDSSVLVVDRANWAKANTQSFAVMLKPAMEKMLESRRGSISPAAASVSGAITGSQLGAVLAFLSSKVLGQYDPFAALAEGSNAPAGGRLLLVVPNIVSVERELNVTPEDFRLWVCLHEQTHRVQFAAAPWLRHHMLQEIDNLSGHLLGNVDSLMERASAAARSLKDRTAAGNAPGRGAILDLLQNPEEKASLSHLTAVMSLLEGHANVVMDAVDASIVPSVKTIRQRFNDRGKDRGVIEKFIRNLLGLDAKMRQYSDGAKFVRAVVEVAGMEGFNRVWESADHLPTEPEIHDAKLWLDRMGL				NA	NA	NA	NA	NA
D1-29_00289	1080	tilS		tRNA(Ile)-lysidine synthase	GTGGGCAAGGCACGCACCATGGTCCGGGACGCCCTGGAGCAGGCCGGCTACCCGCGCCACGTTCTGGTGGCCTGCAGCGGTGGCCCGGATTCCCTGGCGCTGGCGTCGGTGGCTGCCTACTTTGCCCGCCGCGGCCACGTTGACGGGCACCCCCTGACGGTCGGGGCGGTGGTGGTGGACCACCAGCTGCAGCATGGCTCGGCGCAGGTGGCCGCGGAGGCCGCGGACGTTTTGAAGGAGCTGGGCCTGTCCCCGGTGGAAGTCCGGACCGTCAATGTGGCCAGCGCCGGAATGGGGCCGGAGGCGGCCGCCAGGGCTGCCCGCCATGCCGCGTTGGAGGATGCCGCAGCTGAGCAGGGCGCCGCGGCCATCCTGCTCGGGCATACCCTGGATGACCAGGCCGAGCAGGTCCTGCTGGGCCTGGCCCGCGGCTCCGGCACCAGGTCATTGGCGGGTATGAGGCCTGCCCGCGGGATCCTGCTCCGGCCTTTCCTGGGGCTCCGGCGTGCGGATACCCTCCAGATCTGTGAGGTTGAGGAACTGCAGCCCTGGCACGATCCCAGCAATGCGGATCCGGCTTTTGCCCGTTCCCGGACCCGGGTGGAAGTCCTGCCCCTCCTGGAGGAAAAGCTGGGGCCGGGCGTCGCCGAGTCGCTGGCGCGGACAGCCTCCATCCTCCAGTTGGACGCCGATTATCTTGAAGACGTGGCGGAACGCACTTTTTCGGAACTGGTGGTGCGTTCCGGTACGGAACTGAGCCTTCCGGAGGAGGCGCTGGCGGACCTTGCCCCGGCCATCAGGTTCCGGGTTATCGCCAAGGCGGCCGCCGACGTCGGGGGTCAACAACCCAGCTACCAGCGCCTCCTGGCGGCTGAGGGACTCCTCCGCCGGCAGGGCTCCGCGGGTCCGGTGGAGCTCGCCGGCGGGGTGAATGTCTTCCGGCTGTCGCTGGCCGAGTTGGACGCAGCAGGCCGCAGCGCTGAGGCCGGCAGGCAGCCCGACGGCGGTGCTCCCGTTCCCCGCGAAGGGGCCCGCTGTGGGAAGCTAGTATTCCGGCCTCAAAAACCGCCCCAAAAATAG	MGKARTMVRDALEQAGYPRHVLVACSGGPDSLALASVAAYFARRGHVDGHPLTVGAVVVDHQLQHGSAQVAAEAADVLKELGLSPVEVRTVNVASAGMGPEAAARAARHAALEDAAAEQGAAAILLGHTLDDQAEQVLLGLARGSGTRSLAGMRPARGILLRPFLGLRRADTLQICEVEELQPWHDPSNADPAFARSRTRVEVLPLLEEKLGPGVAESLARTASILQLDADYLEDVAERTFSELVVRSGTELSLPEEALADLAPAIRFRVIAKAAADVGGQQPSYQRLLAAEGLLRRQGSAGPVELAGGVNVFRLSLAELDAAGRSAEAGRQPDGGAPVPREGARCGKLVFRPQKPPQK				NA	NA	NA	NA	NA
D1-29_00290	552	hpt	COG0634	Hypoxanthine-guanine phosphoribosyltransferase	GTGGATTCAAACGACGTCCAGGCAGACCTCAAGCACGTTCTCTACACCAAGGAACAGATCCAGCAGCGGATCACCGAGCTCGCTGCACAGATTGACAAAGACTACGAGGGCCGCGAAATCCTCATCGTGGGGGTCCTCAAGGGGGCGGTGATGGTCATGGCGGACCTCGCCCGCGCACTCCACAGCCACATCTCCATGGACTGGATGGCTGTTTCCTCCTACGGCTCTGGCACCCAGTCCTCAGGGGTTGTCCGCATCCTCAAGGACCTGGACACCGACCTCATGGGCAAGGACGTCCTGATCGTCGAAGACATCATCGACTCCGGCCTCACGCTGTCCTGGCTGAAGACCAACCTGGAGTCCCGCGGCACCGCGTCGGTGGAAATCTGCACCGCCTTCCGCAAGCCCACCGCCGCCAAGGTGGAGATTGACGTCAAGTACGTTGGCTTCGACATCCCCAACGAATTTGTGGTGGGCTACGGCCTGGACTACGCCGAGAAGTACCGCAACCTGGACTTCGTGGGAACCCTGGCGCCGCACGTTTACGAGTAA	MDSNDVQADLKHVLYTKEQIQQRITELAAQIDKDYEGREILIVGVLKGAVMVMADLARALHSHISMDWMAVSSYGSGTQSSGVVRILKDLDTDLMGKDVLIVEDIIDSGLTLSWLKTNLESRGTASVEICTAFRKPTAAKVEIDVKYVGFDIPNEFVVGYGLDYAEKYRNLDFVGTLAPHVYE	PGPT0007295_1919	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760	NA	NA
D1-29_00291	1353			Inulin fructotransferase [DFA-I-forming]	GTGGTCACTGGCAGGAATCTGGAAATGGCTGGTCCGAGCCGCCGCATGCTCGTCGGCGCGGGGGCCGTGAGTACGCTCGCTGCAGCGCTGACTCTTGGGACGTCTCAAACGGCAAAGGCAGCAGACCGTCCGCAGGGGGTGGCCTTCAGTTCGCCGAACATGTATGACGTGACCGCCTGGCAGATCAAGGCGAGTCCTCACGTTACGGCACAGTCCGACATCGGTGCCGTCATCAACGACATCATTACCGACGTTAAAAGGCGGCAGTCCACACCTGACACCCGGCCCGGCGCTGTCATCATCATTCCCCCCGGAGACTACGACCTTCGCACCCAGGTCATCGTGGATGTGGACTACCTGACCATTGCCGGGTTCGGGCATGGGTTCTTCTCCCGGAGCATCCATGTCAATGTCGACACCACGGGCTGGCTCAACATCCAGCCTGGCGGAAGCCACATCAGGGTCCTCACGTCTCCAGAGGCACCCCAGGCTTTCTTGGTCCGCAGAACCGGGAGCCCGCGCCTTTCCGGGGTCGTCTTCCGGGACTTCTGCCTTGATGGGGTCCACTTCACTCCGGACGAGAACAGCTACCACAACGGCAAGACGGGCATTGAGGTCGCATCCGATAATGATTCCTTCCACATCACCGGAATGGGCTTCGTCTATCTTGAGCACGCACTGATCGTGCGGGGTGCAGACGCCCTGCGGGTACACGACAACATGATCGCGGAATGCGGGAACTGTGTGGAACTGACCGGCGCCGGACAGGCGACAACTGTGAGCGACAACCTCATGGGCGCGGGCCCGGACGGAGTGACGCTCCTGGCAGAAAACCACGAGGGCCTCCTCGTGACGGGCAATAACTTCTTTCCCCGGGGCCGGAGCCTCGTCGAGTTCACCGGGTGCACCCGCTGCTCTGTGTCGTCGAACAGGTTTCAGGGCTTCTATCCAGGGATCATGCGCCTACTGAACGGCTGCAAGGAGAACCTGATCACGTCAAATCACTTCCGCCGCGGCACAGAAGGGTTCCCGCCGTTCATCAACCGCTCGAACGGCCTGGATGACCTCTACGGGGTCATCCACACGGTGGGAGACAACAACCTCATTTCGAACAACCTTTTTGCCTATGACGTCCCACCGGAGAAGGTGGTCCCCGTTGGTGCCCGGCCGACGATTATCCTGATCGCAGCAGGAGACAGCAACGTGATCGCCACCAACCATGTAGTGAGCAACGTGGCGTCCCAGCACGTGGTTCTTGACGGATCGACAACCCGTTCAAAGGTGCTGGACAGCGGAGCTGCATCGACCATCACATCGTACAGTCCGGATACTGCGACACGCCCGACTCCCTGA	MVTGRNLEMAGPSRRMLVGAGAVSTLAAALTLGTSQTAKAADRPQGVAFSSPNMYDVTAWQIKASPHVTAQSDIGAVINDIITDVKRRQSTPDTRPGAVIIIPPGDYDLRTQVIVDVDYLTIAGFGHGFFSRSIHVNVDTTGWLNIQPGGSHIRVLTSPEAPQAFLVRRTGSPRLSGVVFRDFCLDGVHFTPDENSYHNGKTGIEVASDNDSFHITGMGFVYLEHALIVRGADALRVHDNMIAECGNCVELTGAGQATTVSDNLMGAGPDGVTLLAENHEGLLVTGNNFFPRGRSLVEFTGCTRCSVSSNRFQGFYPGIMRLLNGCKENLITSNHFRRGTEGFPPFINRSNGLDDLYGVIHTVGDNNLISNNLFAYDVPPEKVVPVGARPTIILIAAGDSNVIATNHVVSNVASQHVVLDGSTTRSKVLDSGAASTITSYSPDTATRPTP				NA	NA	NA	NA	NA
D1-29_00292	1278			hypothetical protein	ATGTCCACTCGAAAAACCATCAACAGGTTCGCCACCATCGGCGGCCTCTGCACCGCCGTCGCATTAGCGGCCACCGCCTGCGGCGCCGGGGGCCCGTCGTCGACGGGTAGCGCCGCCAGCACCATCAACGTCCTGGTGGAGGCCGGCGGCCACGCCGAGCTGACTGGCGTTGCCGCACAGTGCAAGAAGGACGCGGGCATAGACGTCAACTTCGTTGAACTGCCCTACGATGGCATGTTCAACAGGCTTTCCAGTGAATTCTCCTCAGGCAACGTCTCCTTCGACGTCGCCGCCCTGGACTCCGTCTGGCTGCCCAGCTTCAAGGACGCCGTCCAGCCCATCGACGAGCTCTTCACCGATGAGGCCAAGAAGGACATCTTCCCGGCCCTGGTCAAGGAAGCAAACGTAGACGGCCACTTCATCGGCATGCCGGCCTGGACCAACGCCGAAATCATCCTTTACCGCAAGGACCTCTTCGAGGACCCGCAGAACAAGTCCGCATTCAAGGCCAAGTACGGCTACGAGCTGGCTGCACCCACTACCTGGGAGCAGTACCAGGAGGTTGCCGAGTTCTTCACCAAGGACGGAATGTACGGCACCGACGTGAAGGGCGGGGTGGAGACCGAATGGCTGGCCCACGTCCTCCAGGCGGGCTCCCCGATGGTCCTTGATGACAAGAACAACGTGGTCATCGACAACGCCGCCCACAAGGAAGCGCTGGACTTCTACACCAGCCTCGCACCGTCCGCCCCGCCAGGGGCTGCACAGGTTGACTGGGCCGCGGCGCAGAACCTGTTCAACCAGGGCAAGACTGCCATGACCCGGTTCTGGGCCCACGCCTACCGCCAGATCCCCAAGGATTCCCCGGTGGCCGGCAAAGTGGGTGCGGCTCCGATGATCGGCGGCAGCGCCGGGGTGGCCGGTGTTCCGGGCCCCTGGTACCTGTCGGTTCCGAAGGCCACGAAGAACACGGACAACGCCAAGAAGTTCATCAAGTGCGCCTACGACCACAACAGCATGGGCATCGAGTCCAGCCTGGGCCTGGCCTCGCGCATCTCCGCCTTCGAGAAGTACCAGGACCAGCCGGGGTATGAAAGCTTCGGCCCGCTGATCGAAACCCTCAACGGGAAGGCCACCGCCACCCGCCCGGCCACCGAAAAGTGGCAGCAGATCGTGGACACCGTCCTGGTGCCGCTCCTGCAGAAGGCTGTGGCCGGCGGGGACTCCGCAACCCTCCTGGCAGACGCCAAGAAGCAGATCCAGGATCTCCTCAAGTAA	MSTRKTINRFATIGGLCTAVALAATACGAGGPSSTGSAASTINVLVEAGGHAELTGVAAQCKKDAGIDVNFVELPYDGMFNRLSSEFSSGNVSFDVAALDSVWLPSFKDAVQPIDELFTDEAKKDIFPALVKEANVDGHFIGMPAWTNAEIILYRKDLFEDPQNKSAFKAKYGYELAAPTTWEQYQEVAEFFTKDGMYGTDVKGGVETEWLAHVLQAGSPMVLDDKNNVVIDNAAHKEALDFYTSLAPSAPPGAAQVDWAAAQNLFNQGKTAMTRFWAHAYRQIPKDSPVAGKVGAAPMIGGSAGVAGVPGPWYLSVPKATKNTDNAKKFIKCAYDHNSMGIESSLGLASRISAFEKYQDQPGYESFGPLIETLNGKATATRPATEKWQQIVDTVLVPLLQKAVAGGDSATLLADAKKQIQDLLK	PGPT0016545_7980	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
D1-29_00293	888	sugA_1	COG1175	Trehalose transport system permease protein SugA	GTGCGCATCTCCGATCGCCGCTTCGCAATGTTCCTGATGGCCCCGGCGGCCTTGTTCCTCGCCATATTCGTGGCCTACCCGCTGTTCCGTCTTGTCACAGACAGCTTCTTCAAGATCTCGCCCATGGCCGGCGGGCCCCGTGATTTCGTGGGCCTGGACAACTACTTCCGGGCCTTCGCCTCTGAAGCCTTTATGGGGGCGGGCTGGCGTACGCTGGCCTACACCCTGGTGGTGGTCACCCTCGAGTTTGCGCTCGGGCTGGGAATGGCCCTGCTGTTTACCATGCTGGGGAAAAATTCCCAGATCTGGCGGACCGTCTTCCTGTATCCGCTGATGATCGCGCCCATCGTGGCCGGCCTGCTGTGGAAGTTCCTGATGATCGACAACTTCGGCCTGATCGGAACACTTCTCCACCAGGCTGGAATCCTGCAGAACCCCAACCAGATCGGCTGGCTGTCCGACCCCAACATCGTCCTGTTCTCGGTGGCGATTCCGGACATCTGGCTCACCACGTCGTTTATGTGCCTGGTGCTGTTCGCCGGCCTGCAGAACATCCCGGGTGACCTCATCGAGGCAGCCAAGCTGGACGGGGCACGCGCCCCCGCACTGCTGTTCCGCATCATCCTTCCCTTGCTCCGGCCCGTTATCGCCGTGGCACTGGTGGTGCGCGGCATCGACGCCGCCCGGGCCTTCGACACCATCCTGATCCAGACCAACGGCGGCCCGCAGTCCGCATCGGAAACCATGAGCCTGCTGATCTACCGCACCATGATCCGCTTCGGCGATCCTGGGCTGGCAAGCGCCATGGGCACCATCTACCTGCTGGCCATGCTCGGCGTCGCCTTCTTTGCGGTCGCCACTATCTGGCGGCCAGGAAAGGACAACTGA	MRISDRRFAMFLMAPAALFLAIFVAYPLFRLVTDSFFKISPMAGGPRDFVGLDNYFRAFASEAFMGAGWRTLAYTLVVVTLEFALGLGMALLFTMLGKNSQIWRTVFLYPLMIAPIVAGLLWKFLMIDNFGLIGTLLHQAGILQNPNQIGWLSDPNIVLFSVAIPDIWLTTSFMCLVLFAGLQNIPGDLIEAAKLDGARAPALLFRIILPLLRPVIAVALVVRGIDAARAFDTILIQTNGGPQSASETMSLLIYRTMIRFGDPGLASAMGTIYLLAMLGVAFFAVATIWRPGKDN	PGPT0016535_7319	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
D1-29_00294	978	dasC_1	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGAGCCTCGCAGATCCCCGCCTTAGCGGCACGCCTGCAACGGAAACCACCCCTTCGGATCCGACATCGGCTTCCCGGAAGGGCGCAAGGGCCCAGCCAGACCTCGGAGGAGGCCGGAGGCGCCGTCCCCGCCACCACGCGGAGGGTCTTGAGGCAGGCAAGCGCAACACCAGGACGCTGCTCTGGATCCTCCTCGCGGCGGCCATGATCCTCTACGGCTTCCCGTTCCTCTACCTGCTTTTCACCTCCTTCAAGACGCCGATCGACACCATCGCCGTTCCGCCCAGCATCCTGCCCAGGGAATGGACCCTGGAGAACTACATCAACGCGCTGGGCCGCAACGGGGTCCTGGCTTCCTTCATCAACAGCACCCAGACGGCCATCATCAGCACTGTCCTGTCGCTGGTGCTGGCTGTACCGGCGGCCTACGGCATCACCCGGTACAAGACTCCCAGCGGCCGGGTGTTCATCATGGCGGCACTCGTCACACGGATGGTGCCGCCAGTGGCCATCGGCATCCCGCTTGCTTCCATGATGGCGACGGCGGGACTCGCCGATACCCCCATCGCGCTGTCCATCGCCCACACCACCATCTCGCTGCCCCTGTCCATCTGGCTGATGTCCAGCTTCTTCGAAGCCGTGCCCAAGGACCTGGAGGAAGCAGCCACCGTGGATGGCTGCAGCAGGCTTGGCGCCCTGTGGCGGGTAGTCATTCCGGTAGTCTCCGGCGGCATCGCGGTCACCGCGATCTTCGCCTTTCTGGCCTCCTGGAACGAGTTCCTCTTCGCCCTCCTCATGACGGCAATCCGCTCCCAGACCACCCCCGTGGTCATCGCGAATTTCCAGACCCAGTTCGGCCTCGACTGGGGATCCATGACGGCATTGGCCGCCGTCTACTCGATCCCGGTCATCCTCCTTACGCTTCTCTTGCAGCGCAAGATCGTGGCCGGCATGACGCTGGGTGCCGTCAAGGGCTGA	MSLADPRLSGTPATETTPSDPTSASRKGARAQPDLGGGRRRRPRHHAEGLEAGKRNTRTLLWILLAAAMILYGFPFLYLLFTSFKTPIDTIAVPPSILPREWTLENYINALGRNGVLASFINSTQTAIISTVLSLVLAVPAAYGITRYKTPSGRVFIMAALVTRMVPPVAIGIPLASMMATAGLADTPIALSIAHTTISLPLSIWLMSSFFEAVPKDLEEAATVDGCSRLGALWRVVIPVVSGGIAVTAIFAFLASWNEFLFALLMTAIRSQTTPVVIANFQTQFGLDWGSMTALAAVYSIPVILLTLLLQRKIVAGMTLGAVKG	PGPT0016540_1460	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
D1-29_00295	1401			Inulin fructotransferase [DFA-I-forming]	ATGCCAAGCAACAACTCCTACGACGTGACGACGTGGCCCGTCGGCGATCCGTCCGAGGACGTCGGTGAAGTCATCAACAGCATCATCGCCGATATCAAGGAACGGCAGACTGCCACCGATGCGAACAGCGGAGGAAAGCCAGGCGCGGTGATCTACATTCCGCCCGGGGACTATCGCCTTCGTACGCAGGTGGTGATTGACGTCAGCTTCCTTCGAATCGAGGGCTCGGGGCACGGCTTTACGTCCTCGAGCATCCGGTTCAACGTTCCCGAAGACGAATGGCCCGACTTGCACGAGCTGTGGCCCGGAGGGAGCCGCATTCTCGTCGACCTCGCCCTCGATGGAGAAGAAGGCGAAGACGGGCAGGAATCCAAGGGAGCCGCGTTCTACGTTGCGCGAAGCGGGAGCCCGAGGATCAGCTCGGTGGAGTTCTCCAACTTCTGCATCGACGGGTTGCACTTCAGCCCGGATGGCTCAGGGACGCCTCAGGAGAACACCTACGTCAACGGCAAGACAGGCATCTACGTCGCGGACGCCAATGACTCATTCCGCGTGAACGGCATGGGGTTCGTCTACCTTGAGAACGCACTCACCATCTACAAGGCGGATGCTCTTTCCATCCACGACAACTTCATCGCCGAATGCGGAAGCTGCATCGAGCTGCGCGGGTGGGGACAGGCATCAAAGATCACCGACAACCTGGTGGGAGCAGGGCCAAGGGGCCACTCGATCTACGCAGAGAACCATGGCGGGCTCCTGATCACCGCGAACAACGTCTTCCCCCGTGGTGCGAGCAGCGTCCATCTCAAGGGCGTCACGAGGTCAAGCGTCACCAACAACCGTTTGCATGCGTTCTACCCTGGGATGCTGGTTGTCGCGAACAGCTCGGAAATCCTCGTGGCCACCAACCACTTCCTGCGCGACCATGAACCGTGGACGCCCTTCCAGGGAGTGGACAACGGTCTGAACGATCTCTACGGACTGCTGTCGGTCAGCGGCAGCAATAACTCTGTTGTCGCCAACCACTTCTCCCAGATCATCGACTCACAGAGCATTCGTCCGGCAGGTGCTACGCCTGTCATCATCCGGCTGACGGCGGGAGTTGGGAACTTCGTCTCCAACAACCACGTCGTGGCAATGGACGTTCACGCCACCACAAGCGACTCCTGCTTCGAGGCCCAGGTGGACGCCCTGTTGACCACGGCCGCTTCGGACGGCCTCTCCGTTACGGCCGTTATGGTCGATTCCGAATCAACCCGGAACACGATCCTTGATTCCGGAACTGACGCCCAAGTCATCGCAGACAGGGCCGTGAACGCCTTGAGGGCCACACCCACGATCGGTTTCCCAGCATCGAACACGGCAACACCGGCAAGCAGGGAAACGATTACTCGTCTGTAG	MPSNNSYDVTTWPVGDPSEDVGEVINSIIADIKERQTATDANSGGKPGAVIYIPPGDYRLRTQVVIDVSFLRIEGSGHGFTSSSIRFNVPEDEWPDLHELWPGGSRILVDLALDGEEGEDGQESKGAAFYVARSGSPRISSVEFSNFCIDGLHFSPDGSGTPQENTYVNGKTGIYVADANDSFRVNGMGFVYLENALTIYKADALSIHDNFIAECGSCIELRGWGQASKITDNLVGAGPRGHSIYAENHGGLLITANNVFPRGASSVHLKGVTRSSVTNNRLHAFYPGMLVVANSSEILVATNHFLRDHEPWTPFQGVDNGLNDLYGLLSVSGSNNSVVANHFSQIIDSQSIRPAGATPVIIRLTAGVGNFVSNNHVVAMDVHATTSDSCFEAQVDALLTTAASDGLSVTAVMVDSESTRNTILDSGTDAQVIADRAVNALRATPTIGFPASNTATPASRETITRL				NA	NA	NA	NA	NA
D1-29_00296	1050	rbsR_2	COG1609	Ribose operon repressor	TTGAGCAACAAGAACATTGGCATCAAGGATGTAGCAGTCGCCGCCGGCGTGTCTGTAACCACGGTTTCGCACGTCCTGAACGACGTGTCCTACGCCCGGATCAGTCCGGAAACCCGCAACAAGGTCAGGTCCGCTGCGGAGGAACTTGGATACGGGCCCAACCGCCTGGCCCAGGCCCTGCGCACCCAGCGGACGGGCATGCTGGGGCTGGTGAGCGAGGACATTCACACCACCCCCCACGCGGGCCGGATCATCCTCGGCGCGGACGAGGCTGCCCGCGCCCGCGGCTACAACCTGATGATCATCAACACGTCAGGCTCGGCCAGCGCCGAATCCCGGGAGGCCGACGTCGAGGCTCTCCTGGAGCGCCGTGTGGACGGAATCCTCTACGCCACCATGTACCACCGGAAGGTGCAGGTCCCGGCGAATCTGGGGAACGTGCCCGCCGTCCTGGTGGACGCCGTCAGCACCGGCCGAAGCCTGACCGCCGTGGTTCCGGACGAGGAAGGCGGTGCCCGCGCCGCCGTCGAATATCTCGTGGCGGCGGGCCACACCCGCATCGGCTTCCTTAACAACACCGACGACGTCCCGGCCACCCGGGACCGCCTCCGTGGCTTCCGGGCCACCTTGACGGAGGCCGGGCTCGACGGCGATGCGGCACCTGTTGAATCTGAGCTGTCAGAAGTGCCGGGAGGCTACGAGGCAGCACGCCGGATGCTGGACCAGGCGGACCGGCCCACCGCGCTGTTCTGCTACAACGACCGGATGGCCATGGGCGCGTACCGGGCGGCGGCGGAGCTGGGGCTATCCATCCCCGGCGACCTGTCAGTGGTGGGTTTCGATGACCAGCAGCTCATCGCCGCCAACCTGTACCCGGGCCTCACCACCGTTGCCCTGCCGCACTACGAGATGGGCGCGTGGGCCACGGAAAGCCTGATTGACGCCATTGAAGGCAAAACTGACCTGGCCCTCATGGCCCTGCACCCGACCATCCTGGACTGCCCCCTGGTGGTCCGGGAATCAGTGGCGGCACCCCCGCCGCCGCACTGA	MSNKNIGIKDVAVAAGVSVTTVSHVLNDVSYARISPETRNKVRSAAEELGYGPNRLAQALRTQRTGMLGLVSEDIHTTPHAGRIILGADEAARARGYNLMIINTSGSASAESREADVEALLERRVDGILYATMYHRKVQVPANLGNVPAVLVDAVSTGRSLTAVVPDEEGGARAAVEYLVAAGHTRIGFLNNTDDVPATRDRLRGFRATLTEAGLDGDAAPVESELSEVPGGYEAARRMLDQADRPTALFCYNDRMAMGAYRAAAELGLSIPGDLSVVGFDDQQLIAANLYPGLTTVALPHYEMGAWATESLIDAIEGKTDLALMALHPTILDCPLVVRESVAAPPPPH	PGPT0017992_4550	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
D1-29_00297	1638	sacC_1	COG1621	Levanase	ATGTCGAGTCGCCTTGATGACGCACGCCCGCAGCCGCCTATGCTGCCGCCTCTGCCGCCGGCACAGCAGCAGCCGGCACCGCTGCTGCCGGTTGCCCGGTCAGAACAGGCGGAGACGCCGCACTACCGCCCCGCAATCCACTACACAGCCCGGGATACCTGGCTCAACGACCCCAACGGCCTGGTCTACTACCGCGGCCTGTACCACCTGTACTACCAGAACAATCCGCACGGAAATGTATGGGGCAATATGTCCTGGGGGCACGCCACCTCCGAGGACCTGGTGCACTGGACCGAGCAGCCCGTCGCCATCACCTGCGACGCCGAAGAGGACGTCTACTCCGGAAGCATTGTGGTGGACCACGCCAACACCTCCGGATTTGGCACGGCCAACAACCCTCCCCTGGTTGCCGTATACACCAGTGCCTATAAGGACGGGACGCCGCACGCCGGCACGCAGGCCCAGTCCCTCGCGTACAGCATTGACGCCGGCATGACGTGGACCAAGTTCAGCGAAAACCCCGTCCTCACGCGCGGTTCGGCCCACTTCCGCGATCCCAAAGTTTTCAGCTATCCCGGCCCGGACGGCCAGGAATGGGTGATGGCCGCCGTCGAGGCGGGGGAACAAAAGGTGGTCTTCTACCGTTCGGCGAACCTGCGGGACTGGGTGTTTGCCAGCGAATTCGGACCCGCCAACGCCCTCGGCGCAGAGTGGGAATGCCCCGATCTCTTTCCGCTGCCAGTAGACGGCGATCCTGCCCGGACCAAGTGGGTACTGGTGGTGAACCTCAACCCCGGCGCGCTAGCGGGCGGGTCAGGCGGCCAGTATTTCGTGGGAGATTTCGACGGCGCCACTTTCACCCCGGATCCTTCCTGCCTGCTGGATGACCCGGTGGATGGTGCGGCTGCCCGCAGGCCGGACGGCAACGCCATGGACAGGGACAGATTGCGCCAATGCAACTGGCTGGACTGGGGCCGCGACTATTACGCCGCTGTTTCCTTCAGCAACGTCCCCGACGGCCGGTGCCTCATGATCGGCTGGATCAACAACTGGGACTACGCCAACTCCCTCCCCACGTCACCTTGGCGGTCCGGCATGTCGTTGGTGCGGGAAGTCGGCCTGGAAACGGTGGACGGCCGGCCGCGGCTGGTCCAGACGCCTGTCCTGCCCGCTGCAGATATCGTCAACCGGCAGGTCATGGAGCCCTGCGGGCTTCCCGCGGAGGTCAGGCTGCCGGAAGCCGTCCCGGGCACGGCGCAGCTCATCGACGCCGAACTCCTGCCCGGAACGGCCCGGCAGTTCGGCTTTCGGCTGTTTCAGGCTGCCGACGGCGGTGCCGCCGCGGTATTGACCTATGACGCAGCCGCCGGGCTGCTGACACTGGACCGCAGCGAAGGCGGGATAACGGGGTTCCATCCGGATTTTCCGTCAGTCGAGTCGGCCCCTGTCGCCCTGGACAGCGGCGTGCTGGCGCTGCGCATTGTCGTCGACCATTGCTCGGTGGAGGTGTTTGCCCAGGGCGGCAGGGTGGTCCTGACGGACCTGGTGTTCCCGGCTCCAGGAAGCATGGGCACATCGGTCTTCGCTGACGGCGGGACGGCCGTTATCCGACGGCTGGAGGTCTCGGCAATCAGCTAG	MSSRLDDARPQPPMLPPLPPAQQQPAPLLPVARSEQAETPHYRPAIHYTARDTWLNDPNGLVYYRGLYHLYYQNNPHGNVWGNMSWGHATSEDLVHWTEQPVAITCDAEEDVYSGSIVVDHANTSGFGTANNPPLVAVYTSAYKDGTPHAGTQAQSLAYSIDAGMTWTKFSENPVLTRGSAHFRDPKVFSYPGPDGQEWVMAAVEAGEQKVVFYRSANLRDWVFASEFGPANALGAEWECPDLFPLPVDGDPARTKWVLVVNLNPGALAGGSGGQYFVGDFDGATFTPDPSCLLDDPVDGAAARRPDGNAMDRDRLRQCNWLDWGRDYYAAVSFSNVPDGRCLMIGWINNWDYANSLPTSPWRSGMSLVREVGLETVDGRPRLVQTPVLPAADIVNRQVMEPCGLPAEVRLPEAVPGTAQLIDAELLPGTARQFGFRLFQAADGGAAAVLTYDAAAGLLTLDRSEGGITGFHPDFPSVESAPVALDSGVLALRIVVDHCSVEVFAQGGRVVLTDLVFPAPGSMGTSVFADGGTAVIRRLEVSAIS	PGPT0018745_443	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOSIDASE,PGPT0018745-fruA-K03332	NA	NA
D1-29_00298	2067	ftsH_1		ATP-dependent zinc metalloprotease FtsH	ATGAAAGCTAAGAGTTTCTTCAAAGGCCCGGGCATCTGGATCGTTGTTGTGATCGGCATGCTCCTTGTGGCTTTTGCAACGCTGGCTCCCGGCGGCGCGGCCAGGATCGACACGGATAAGGGCCTTGAGCTCCTCGCCGACAGCGGCAAGGTGGAGCAGGCAAAAATCTTCGACGGCGAAAACCGCGTGGACCTTACCCTGAAGGACAACCTCCAGGTCAACGGCCAGGACAAGGGCAAGAGCGTCCAGTTCTTCTTCGTGGACGCGCGCGCGGGCGACGTCGTCAGGGCTGTCACCGACGCCCGGCCGGCCAGCGGCTACACGGACCAGCCCATCGAGAGCAACTGGTTCTCCGGACTGCTTTCCCTCCTGATCCCCGTCATTCTGCTGGGTGCACTCTTCTGGTTCCTGATGACCCGGATGCAGGGCGGCGGCTCCAAGATCATGCAGTTCGGCAAGTCCAAGGCCAAGATGGTCAACAAGGACATGCCGCAGGTCACGTTCGTGGACGTTGCCGGTGCGGACGAAGCGGTTGAGGAACTCCAGGAAATCAAGGAGTTCCTGCAGGAGCCGGCCAAGTTCCAGGCAGTGGGCGCCAAGATCCCCAAGGGTGTGCTGCTGTACGGCCCGCCAGGCACCGGCAAGACCCTCCTGGCGCGCGCCGTCGCAGGCGAGGCCGGCGTCCCGTTCTTCTCCATCTCCGGCTCTGACTTCGTGGAAATGTTCGTGGGCGTGGGTGCTTCCCGTGTCCGCGACCTCTTCGAGCAGGCCAAGGCAAACTCTCCCGCCATCATCTTTGTGGACGAGATCGACGCCGTGGGCCGGCACCGCGGCGCAGGCATTGGCGGCGGCAACGACGAACGCGAGCAGACCCTCAACCAGCTCCTGGTGGAAATGGACGGCTTCGACGTCAAGACCAACGTCATCCTGATCGCGGCCACTAACCGTCCCGACGTCCTGGATCCGGCCCTGCTGCGTCCGGGCCGTTTTGACCGCCAGATCTCGGTGGAAGCGCCGGACCTGATCGGCCGCGACCAGATCCTGCAGGTGCACGCCAAGGGCAAGCCGATGGCGCAGGGCGTTGACCTCAAGGCCGTCGCGAAGAAGACCCCGGGTTACACGGGCGCGGACCTCGCCAATGTGCTGAACGAGGCCGCACTCCTGACCGCGCGCTCCAATGCCAACCTCATTGATGACCGCGCCCTGGATGAGGCAATCGACCGCGTCATGGCCGGCCCGCAGAAGCGCAGCCGCGTCATGAAGGAGCACGAGCGCAAGATCACCGCGTACCACGAGGGCGGGCACGCCCTGGTGGCTGCCGCGCTGCGCAACTCGGCGCCGGTCACCAAGATCACCATCCTTCCGCGCGGCCGTGCCCTCGGATACACCATGGTGGTGCCGGACAACGACAAGTACTCGGTCACCCGGAACGAGCTGCTGGACCAGATGGCCTATGCCATGGGCGGCCGCGTCGCCGAGGAGATTGTGTTCCACGATCCCTCCACCGGAGCCTCCAACGACATCGAAAAGGCCACCGCGACGGCCCGCAAGATGGTCACCGAGTACGGCATGAGTGAACGCGTGGGTGCAGTGCGGCTGGGCCAGGGCGGCGGCGAACCGTTCCTGGGCCGTGACGCCGGGCACGAGCGCAACTACTCGGACCAGATCGCCTATGTGGTGGATGAGGAAGTCCGCCGCCTGATCGACCAGGCCCACGACGAGGCCTACGCCATCCTCATCGAGAACCGCGATGTCCTGGATGATCTCGCCCTGGAGCTCCTTGAACGGGAGACCCTGAACCAGGCCGAGATCGCGCAGATCTTCAGCTCCATCCGCAAGCGTGACTTCCGCGAGGTCTGGCTGTCCAAGGAGACCCGCCCGGTGCAGCAGGCAGGTCCCGTGGAGTCCCGCCAGGAGAAGGCCGAACGGGAGGCCCAGGAGGAAGCCAAGCAGGCCCGCCTGGACGAACCGCTGGATTCGCAGCCCCTGCACCCGCAGGGTGTCCCAGAGGACGCTGCATTCCAGGGCGGCGTCCCCGACTCGGGACCTGACGGCGTCCGCGGCTAA	MKAKSFFKGPGIWIVVVIGMLLVAFATLAPGGAARIDTDKGLELLADSGKVEQAKIFDGENRVDLTLKDNLQVNGQDKGKSVQFFFVDARAGDVVRAVTDARPASGYTDQPIESNWFSGLLSLLIPVILLGALFWFLMTRMQGGGSKIMQFGKSKAKMVNKDMPQVTFVDVAGADEAVEELQEIKEFLQEPAKFQAVGAKIPKGVLLYGPPGTGKTLLARAVAGEAGVPFFSISGSDFVEMFVGVGASRVRDLFEQAKANSPAIIFVDEIDAVGRHRGAGIGGGNDEREQTLNQLLVEMDGFDVKTNVILIAATNRPDVLDPALLRPGRFDRQISVEAPDLIGRDQILQVHAKGKPMAQGVDLKAVAKKTPGYTGADLANVLNEAALLTARSNANLIDDRALDEAIDRVMAGPQKRSRVMKEHERKITAYHEGGHALVAAALRNSAPVTKITILPRGRALGYTMVVPDNDKYSVTRNELLDQMAYAMGGRVAEEIVFHDPSTGASNDIEKATATARKMVTEYGMSERVGAVRLGQGGGEPFLGRDAGHERNYSDQIAYVVDEEVRRLIDQAHDEAYAILIENRDVLDDLALELLERETLNQAEIAQIFSSIRKRDFREVWLSKETRPVQQAGPVESRQEKAEREAQEEAKQARLDEPLDSQPLHPQGVPEDAAFQGGVPDSGPDGVRG				NA	NA	NA	NA	NA
D1-29_00299	645	folE	COG0302	GTP cyclohydrolase 1	GTGAACTATTTCGACGACGACGACGCTCCCACCTCCGCCGGCCTCCTGGCGGAGGATGGCCACCACCGCAAAAAGCACGAAAAGGTGGACCGGCCCCGGATCGAGGCTGCGGTGCGTGAAATCCTGCTCGCCATTGGCGAAGACCCTGACCGCGGCGGCCTGCAGGACACTCCCAAGCGGGTGGCCAAGGCCTATGCAGAGGTGTTCGCCGGGCTGCACCACGACCCGGCGGAGATCCTTTCCACCACCTTTGACCTGGACCACGAGGAACTGGTCCTGGTCAAGGACATCCCGTTCTATTCCACCTGCGAACACCACCTGGTGCCGTTCCACGGCGTTGCTCACGTGGGCTACATCCCGTCCCACGACGGCAGAGTGACCGGGCTCAGCAAGCTGGCACGCCTCGTGGATATTTACGCGCGGCGTCCCCAGGTGCAGGAACGGCTCACCACGCAGATCGTCGAAGCAATGGTCAGCCACCTCAAACCCCGTGGCGCAATCGTTGTTATCGAATGCGAACACATGTGCATGTCCATGCGCGGTGTCCGCAAGCCCGGAGCGAAGACCGTCACCAGTGCGGTACGCGGGCAGCTTCATGACCCGGCCACCCGCGCCGAAGCCATGAGCCTCATCATCGGAAGGTAA	MNYFDDDDAPTSAGLLAEDGHHRKKHEKVDRPRIEAAVREILLAIGEDPDRGGLQDTPKRVAKAYAEVFAGLHHDPAEILSTTFDLDHEELVLVKDIPFYSTCEHHLVPFHGVAHVGYIPSHDGRVTGLSKLARLVDIYARRPQVQERLTTQIVEAMVSHLKPRGAIVVIECEHMCMSMRGVRKPGAKTVTSAVRGQLHDPATRAEAMSLIIGR	PGPT0007875_2006	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495	NA	NA
D1-29_00300	921	folP1	COG0294	Dihydropteroate synthase	ATGGACTCATTAGCTGCAGCCCCGGGAACCGGGCCCGCCACCTCCCCGCTTCCCATCCTGCGAAAACCCCGCCCGGCCGCGAAATTTGAAGACCTTCCCACGGACCGCACCCTGGTCATGGGCATCCTGAACGTCACCCCCGACTCCTTTAGCGACGGCGGCAGGCATGAGACGGCGGACAGCGCCATCGCAGCCGGCCTCCGGATGTTCTACGCCGGAGCGGACATCATCGACGTCGGCGGCGAATCAACGCGCCCCGGCGCGGAGGATGTCAGCCCGGAAGAGGAACAGCGCCGGGTGCTGCCCGTGATCCAGGCGCTGGTGAAAGCCGGCGCCCTGGTCAGCATCGACACCACCCACGCGTCCACGGCAACGGCCGCGCTGGATGCAGGCGCCGCCATCATCAATGACATCTCGGGGCTGAGCATTGAACCCGAGATGGCGGAGCTCGTGGCCACGTCGAAGGTGCCGTACATCCTCACGCACCGCCGCGGGGATGCCCGCACCATGAATTCGCTGGCCGAGTACACCGACGTTGCCGCCGAGGTAGTGGCCGAGCTCGCGGGTGTCCGTGACAAGCTCTACGCCGCCGGCGTCAGCCAGGAGCAGATCATCGTGGACCCCGGCCTGGGGTTCGCCAAGAACGATGCCCACAACTGGGAACTCCTGCGGAACCTGGACCGGCTCGAAAGCCTTGGCCATAAGGTCCTGGTGGGTGCTTCCCGCAAACGCTTCCTGGGCTCGCTGCTCACGGAGGCAGGCAAAGCCGCTGTTCCCGAGGAGCGCGACGCCGCCACCGCTGCGATCTCAGCCATCGTCGCCGCCCGCGGCGTCTGGGCCGTCCGCGTGCACAACGTCCGTCCCAGCCTTGATGCCGTCAAGGTCGCCTCGCGCCTGGCTGCTGCCCACACCACTCACTAG	MDSLAAAPGTGPATSPLPILRKPRPAAKFEDLPTDRTLVMGILNVTPDSFSDGGRHETADSAIAAGLRMFYAGADIIDVGGESTRPGAEDVSPEEEQRRVLPVIQALVKAGALVSIDTTHASTATAALDAGAAIINDISGLSIEPEMAELVATSKVPYILTHRRGDARTMNSLAEYTDVAAEVVAELAGVRDKLYAAGVSQEQIIVDPGLGFAKNDAHNWELLRNLDRLESLGHKVLVGASRKRFLGSLLTEAGKAAVPEERDAATAAISAIVAARGVWAVRVHNVRPSLDAVKVASRLAAAHTTH	PGPT0007915_949	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796	NA	NA
D1-29_00301	375	folB	COG1539	Dihydroneopterin aldolase	ATGGACAGGATCACGCTGAGCGGTGTCACCGCCGTCGGCCATCATGGCGTGTTTGAATTTGAGCGCCGCGAGGGCCAGCCTTTTGTTGTGGACGCCGTCCTGCACCTGGACTTCTCCAAGGCAGCCGAATCCGACGACGTACGGGACACCGCCCACTACGGCGAAGTGGCGGAGCGGATCAAGGCCTGGATCACGGGTGAGCCGTTGAACCTGATCGAGGCGCTGGCCGTGCGGATTGCCGATGACCTTCTCAGCGGATTCCGGATCAACGCCGTGGACATCACCGTGCATAAACCGGAGGCGCCCATCGAGGTGCCTTTCGGCGACGTGGCCGTCACTGTCCACCGCGCCCGGAATGACGGGCAGAACCCATGA	MDRITLSGVTAVGHHGVFEFERREGQPFVVDAVLHLDFSKAAESDDVRDTAHYGEVAERIKAWITGEPLNLIEALAVRIADDLLSGFRINAVDITVHKPEAPIEVPFGDVAVTVHRARNDGQNP	PGPT0007905_2523	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007905-folB-K01633	NA	NA
D1-29_00302	540	folK	COG0801	2-amino-4-hydroxy-6-hydroxymethyldihydropteridine pyrophosphokinase	ATGAGTGCTGTCTATTCAAAGGCCGTGCTGGCCCTGGGCAGCAATCTGGGCGAACGGAACGACACCCTTTCCGAGGCCGTGGCGGACCTTGTTGATCCGCCGGAGGTCCGCCTCCTGGACGTTTCGCCGGTGGTGCAAACCAAGGCGGTGGGCGGCCCGGCCGGCCAGCCGGACTTCCTGAACATGGTCATCACCGTGGAAACCTCGCTGTCGCCGCTGCAGCTGCTGGAGCACTGCCAGGCTGTGGAGAACAAGCACCACCGCGTCCGGGAGGTGAGGTGGGGGCCGCGGACGCTCGACGTCGACATTATTGTCTACGGTGACCTCATCAGCGGGGATCCGGTGCTGACCCTCCCGCATCCCAGGGCCGCCACGCGCGCTTTTGTGCTGTACCCCTGGTCCCTGATAGAGCCCGCGGCCACACTGAACGGCGAACGGATCAGCACCCTGGCCGCCCGGGCCGGAGATTTTGACGATCTTGCGCCCTTTGATGGCTTCGGTGATTTTGACGGTGTGCCCCTGGCCGGGACGGCGGAGTAG	MSAVYSKAVLALGSNLGERNDTLSEAVADLVDPPEVRLLDVSPVVQTKAVGGPAGQPDFLNMVITVETSLSPLQLLEHCQAVENKHHRVREVRWGPRTLDVDIIVYGDLISGDPVLTLPHPRAATRAFVLYPWSLIEPAATLNGERISTLAARAGDFDDLAPFDGFGDFDGVPLAGTAE	PGPT0007910_669	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
D1-29_00303	546			hypothetical protein	GTGAAACCGATTAATCCCCTGCGCCTGCTGCTCATCGGCGTCATCCTTGCCGTCGCCGGATGGTCTGCCACGGTCCTCACCAACCGGTACAGCATGGCCACCCCGGTCCTGCCGGTCACGGCTCTCGCCACCATGGGCGTGATCGTGGTTATCACACTGATCCTTGGCATCCGGATCGTGAGGTGGCGCAACAGGAACCGGGACAAAACCAAAAAGAAGATCGCCCTGGATCCGATTCTCGCCGCACGGACCCTGGTGCTGGCGCAGGCCTGCGCCTACGCCGGGACTGTCCTGCTGGGCTGGCATGCAGGGATCTTCCTGGACCAGCTGCGGGTCTGGAGCCTGCGCAGCGATCAAGGCATTACCTGGGTTGCACTGGCCCAGGCCGGCGGAGGCCTGGCCATGATCGTGGTGGGACTGCTGGTGGAACGCTTTTGCAAGATCCCGCCGGAGGACGGCGACACCCCGCCCGGTGAAGGACAACCCGGCCGCGGGGCACGGGGCGAAGCCGCAGGGGAAGGCGAATATGCATACCGAGGCGATTGA	MKPINPLRLLLIGVILAVAGWSATVLTNRYSMATPVLPVTALATMGVIVVITLILGIRIVRWRNRNRDKTKKKIALDPILAARTLVLAQACAYAGTVLLGWHAGIFLDQLRVWSLRSDQGITWVALAQAGGGLAMIVVGLLVERFCKIPPEDGDTPPGEGQPGRGARGEAAGEGEYAYRGD				NA	NA	NA	NA	NA
D1-29_00304	513			hypothetical protein	ATGCATACCGAGGCGATTGATCCGCCGGGCATCACGTGGCAGCGGGTGTCGCCCAAATACATCACGGTGCGCCTGGTGCAGTGGGCCGTCGGGAACCTGGTCACCCTGGTGGTGCTCAGCCTGCCCCTGGTCTTGGTCCTCAACAGGTGGTGGGCCTGGCCGCCGCTCTGGCTTGCCGTCACCATGCCCGCCGTGATGCTGGTCCTTGCGGTCTGGCGGCTTGTGCTGATCCCGCGGCAGGTCCGCGCCATCGGCTATGCCGAGCGCGACGACGACCTTTTGATCCGCACTGGCATCTTCTTCCAGCGGACCATGGCTGTCCCCTATGGCCGCATGCAGTACGTGGACATTGGAGTGGGGCCTGTGGAACGCGCGCTAGGCCTGTGCACCCTCAAACTGCACACGGCATCACCTGGCACCAACGCCCAGATCCCCGGCCTGCCCGCCGCCGAGGGGGCGCGCCTGCGTGAGCAGCTCACGGCCCGTGGCGAAGCCAGGCTGGCAGGACTGTGA	MHTEAIDPPGITWQRVSPKYITVRLVQWAVGNLVTLVVLSLPLVLVLNRWWAWPPLWLAVTMPAVMLVLAVWRLVLIPRQVRAIGYAERDDDLLIRTGIFFQRTMAVPYGRMQYVDIGVGPVERALGLCTLKLHTASPGTNAQIPGLPAAEGARLREQLTARGEARLAGL				NA	NA	NA	NA	NA
D1-29_00305	1545			hypothetical protein	GTGACGGCTGACGGCCCTCCGCAGCCGGCGCAGCCTCCGGTTCAGCAGCCTGCACCGGCCCCCGACGGCGAATGGCTGCGCGTTCATCCGGCGTCGCCTTTTGTGCGCGGCTGGGTGGCCTTGGCCGCCATCGGCTTTTTCTTCGGGCGCGATATCTTCGAACGGATGCTTCAGGGCAGGCCCGTGCTGGAAGACGACTTCGCCGGCCGGGTCCCCTGGCTGCTCGCCGGGGGAGGGGCCGTGCTGCTGATCGCGGTGCTGGGCTTCATCCTCACCTGGTACTTCACCAAGTACCAGGTGTCTGGAGGCTACGTCAGGGTCAATACCGGCTTCCTCTTCCGGCAGCAGCGCCAGGCGCGGCTGGACCGGGTCCAGGCCATCGACATCGTGCAGCCACTGCTGGCCAGGGTCTTTGGCCTTGCCGAACTCAAATTCGAGGTGGCGGACGCCGGCGAGTCAGCGGTCCGGCTGGCCTACCTCCGGATGGACGATGCCCGGCAACTCCGGGCCACCATCCTGGCCCGGGCCGCCGGCGTGGTGCAGGATTCCGGAGGACCGCAGGAGGCCGCGCCCGAGGCGCCGGAGCAGCCTGTGCTGTCAGTGCCGCCGTCGCGCCTTTTCGGTTCGCTGCTGCTCAGTGAGCAGAGCTTCTTCATAGCGCTGGGCGGTGTGGCGTCCGTTGTCCTGTCCGCGGTGACGGACAACCGGGGGTTCTACTTCTACCTGATTCCGGCGGCCCTTGGGCTGGCAGCCACGTACTGGGCATCCTTCAACAAGGGTTACAACTTCACGGCTGCCATCTCACCGGACGGGATCCGCCTCCGCTACGGGCTGCTGGACACCCAGGCGCAGACGCTGCCGCCCGGCCGGATCCAGGCGCTGAAAGTGACGCAGCCTCCGCTGTGGCGGATCTTTGGCTGGTACCGGATCCAGGTGAACGTGGCCGGTTATGGTTTGGTGGGAGGCGACGGCGAGGGCACGTCCCGCACCACGCTCCTGCCGGTAGGAAAGCTGCCTGACGTGATGAGCATGCTTGCCCTGGTGCTGCCGGATCCGGGAACTCATGAGCCGGGCAAGGTTTTCGTCGCCGGCCTGACCGGACTGGATTCCGACGGCGGTTTTGTCACCACCCCGCGACGGGCCCGGCTGCTGGCACCCCTCGGGTGGCGGCGTAACGGTTTCACCGCCACTGACACAGCACTTCTGATCCGTTCAGGCCGCTGGTGGCGGCAGCTGGTGGTGGTCCCGCATCAGCGGACCCAGTCCATGGCCCTGCACCAGGGACCCTTGGCCAGGCGGTTCCGGGTGGCCGATCTGGTGCTCCACACCACTGCCGGGCCCGTGGTGCCCCGCCTGATCCAGGCCGATGTGGACCAGGCCAGGGCCCTGTTTGACGAACAGTCAGCGCGCGCCCGCCTGGCCCGGAAACGGCAAACCAGCGAACAATGGCTGGCCCAGGTTGCCCCTGGCCTGGCGGAACAACCGCAGCAGGGAACCGCCCCCGCCGCCGCCACCTCACTTCAGGAAGGCCAGCAGCATGGCTAA	MTADGPPQPAQPPVQQPAPAPDGEWLRVHPASPFVRGWVALAAIGFFFGRDIFERMLQGRPVLEDDFAGRVPWLLAGGGAVLLIAVLGFILTWYFTKYQVSGGYVRVNTGFLFRQQRQARLDRVQAIDIVQPLLARVFGLAELKFEVADAGESAVRLAYLRMDDARQLRATILARAAGVVQDSGGPQEAAPEAPEQPVLSVPPSRLFGSLLLSEQSFFIALGGVASVVLSAVTDNRGFYFYLIPAALGLAATYWASFNKGYNFTAAISPDGIRLRYGLLDTQAQTLPPGRIQALKVTQPPLWRIFGWYRIQVNVAGYGLVGGDGEGTSRTTLLPVGKLPDVMSMLALVLPDPGTHEPGKVFVAGLTGLDSDGGFVTTPRRARLLAPLGWRRNGFTATDTALLIRSGRWWRQLVVVPHQRTQSMALHQGPLARRFRVADLVLHTTAGPVVPRLIQADVDQARALFDEQSARARLARKRQTSEQWLAQVAPGLAEQPQQGTAPAAATSLQEGQQHG				NA	NA	NA	NA	NA
D1-29_00306	1056			hypothetical protein	ATGGCTAAACCCGGACGCCTTGGCGTCGGAATCATCGGTGCCGGCAAGGTGGGCGCAGTCCTCGGTGCGGCATTGCGCTCCGCCGAGCACGCCGTCGTCGGGGTTTCCGCCGTATCCGATGCCAGCCTGGAACGAGCTGAAGCCCTGCTTCCGGGGGTTCCGGTGATGGAGGTCCAGGACATCGTGGAGCGGTCCGAACTGGTGCTCCTGGCGGTCCCGGACGATGCCCTGGCCAGCCTGGTTCAGGGCCTGGCCAAACTTGGTGCCTGGCAGCCAGGCCAGCTGGTGGCCCATACGTCGGGCCGGTTTGGCGTGGGCGTCCTGCACCCGGTGCGGGCGGCAGGATCCATCCCGCTGGCCCTGCACCCAGCCATGACCTTCACAGGTATGAGCCTGGACCTGACCCGGCTCCTTGACTGCACGTTCGGTGTTACCGCTGACGCCGCGATGCTGCCCATAGCGCAGGCGCTGGTGGTGGAGATGGGGGCGGAGCCGGTAGCCATCGCCGAGGGAGACCGCACGCTGTACCACGCGGCCCTGGCCCATGGTTCCAACCACCTGGTTACCCTGGTGGCGCAGGCGTCCCAGCTGCTGCGGGACGTAGGCGTGGACGCACCCGAACGGATGCTGGGGCCCCTCTTGCGTGCCACCCTGGAGAACGCCCTCGCGTCCGGCGAATCGGCCTTAACCGGCCCGGTGGCACGTGGCGACGTCGGAACTGTCGCCGCGCACGCGGAAGCCCTGCGCGAGTACGACGCCGGATCGCAGGCTGATGTGCTTGAGGCGTACCTTGCCATGGCCCGGGCAACCGCCCGCCGTGCCGAAGGAAGGGGGCTGCTAAAGGCGGATCAGCTCAAGGCGATCCGCGAAGCCCTCCTGGAAAATGATGGAGGCGGCGGCCCCAACAACGGCGGCTCCAACAACGGTGGCGCCAACAACGGTGGCCCGGCCAGCGGCGACACCGGCGGTCAAGGCAGCGGTGACCCTTTTGACGAAGAAAACTCCGACGGCGATGACTCCGACGGTGGTTGGCCGCGGTCCGCGGGAGGACGATGA	MAKPGRLGVGIIGAGKVGAVLGAALRSAEHAVVGVSAVSDASLERAEALLPGVPVMEVQDIVERSELVLLAVPDDALASLVQGLAKLGAWQPGQLVAHTSGRFGVGVLHPVRAAGSIPLALHPAMTFTGMSLDLTRLLDCTFGVTADAAMLPIAQALVVEMGAEPVAIAEGDRTLYHAALAHGSNHLVTLVAQASQLLRDVGVDAPERMLGPLLRATLENALASGESALTGPVARGDVGTVAAHAEALREYDAGSQADVLEAYLAMARATARRAEGRGLLKADQLKAIREALLENDGGGGPNNGGSNNGGANNGGPASGDTGGQGSGDPFDEENSDGDDSDGGWPRSAGGR				NA	NA	NA	NA	NA
D1-29_00307	930	panC	COG0414	Pantothenate synthetase	ATGACTATCCAGCTGGTGACAACGGTGGCGGACCTGCGCGCGCAGGGCGCGCGGCTGCTGAGGGAAAAGCAAGGTGTGTCCCAGGGCCTGGTGCCCACCATGGGAGCTCTCCATGAGGGACATGCCCGGCTGGCGCGCACCGCCGTCGAACAGAACGATGTGGTGGTGGCGTCCATATTCGTTAACCCCCTGCAGTTCGGCGATGCAGTGGACCTGGACCGCTATCCACGGACCCTGGACGCGGACCTCGCGCTGCTGGAGGAGCAGGGAGTGGACATCGCATTTGCGCCGCCGGTGGAGGAGGTCTATCCCGAAGGGCCGCCGCTGGTGCGGGTCACAGCGGGTCCATTGGGGGAGAAGTGGGAGGGCGCATCCCGGCCGGGCCACTTTGACGGTGCCCTCACCGTGGTGGCCAAACTGCTTCATTACGGCACCCCGGGGACAGGGCTGCCGGCGGCCGGGGCTTTTGTGTCGGGTGATGGCGGGGGGCTTCCTGCCTACCGGGCGTACTTTGGCCAGAAGGACGCGCAGCAGTTGGCCCTGGTGCGGAGGATGGTGGCCGATCTTAACTTCCCGGTGGACATCGTTGCCGTGCCCACCGTCCGTTCGGGCGACGGACTGGCGCTGTCCAGCCGCAACCGCTTCCTGTCCGAGGACCAGCGCGAAGCGGCACTGGTGTTGTCCAGGGCGCTGCGGCTGCTGGAGGAGCGGGCGAACGCCCACGAGCCGCTGGACATCGAGTCGGCCCAGGCCCTGGTGGCGTCCCAGCCGCTGGTTGAGCTCGACTACTTCGACGTGGTGGATCCGCTCACCCTGGAGCCCCTGGCGGAGAATTGCCGGAAGACCCCTTTCCGCGGCGAGGGCCTGGGGATCGTCGCCGCGAGGGTGGGCCCGGTCCGGCTGATCGACAACGTGCCGCTAAGCTCCTGA	MTIQLVTTVADLRAQGARLLREKQGVSQGLVPTMGALHEGHARLARTAVEQNDVVVASIFVNPLQFGDAVDLDRYPRTLDADLALLEEQGVDIAFAPPVEEVYPEGPPLVRVTAGPLGEKWEGASRPGHFDGALTVVAKLLHYGTPGTGLPAAGAFVSGDGGGLPAYRAYFGQKDAQQLALVRRMVADLNFPVDIVAVPTVRSGDGLALSSRNRFLSEDQREAALVLSRALRLLEERANAHEPLDIESAQALVASQPLVELDYFDVVDPLTLEPLAENCRKTPFRGEGLGIVAARVGPVRLIDNVPLSS	PGPT0008750_496	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
D1-29_00308	1818		COG3387	Trehalase	ATGGCGGCACCCATCGAGGATTACGCGCTTTTGTCAGATCTGGCCACCGGGCCACTCATCTCCCGGTCTGGGAGCGTGGACTGGCTTTGCTTCCCCCGTTTTGACTCACCGTCCGTCTTTGCAGCACTCCTTGGCAACGAAGATCACGGCAGGTGGCTGCTAGCGCCGGCGGACCCCGATGCCGTGGTGGTGAGCCGCCAGTACCTGGAGTCCACCTTCGTCCTGGAGACGACATGGCAGACCTCCACCGGGCAGATGCGTGTTACAGACCTAATGCCGCCTGGGCAAGGCAGATCCTCCCTCTTGCGGCGCGTCACATGCGTCCAGGGAACAGTTTCAGTGCGCCAGGAGCTCAGCATCCGGCCCCAATACGGTGCTCTCGTGCCATGGATGAGCCGCATCCGCAAGAACACCGTGCCCGGGAGCGGGGACGCGTTGCTGGCAATGGCCGGGCCTGATGCCTGGGCCCTGCAGGGGCCTCATTTGCCCGAGGCCCACGGCCACGTACGCCTCGGGGATTTTGAGGTCCCGGCAGGCGGGTCAGCCGACTTCGAACTGACGTGGTTCCCCTCCTACAAGGAGGTGCCGCCGCCTCTCGATTTTGACGCAGCGCTCGAGGAGACAACCGGCTATTGGACCCGTTGGGGCGGAAACTGCCGCCAGGACGGGATCTACGGGCCGGCCGTCAAGAGATCCCTGCTTGTCCTGCGGGCGCTGACCCACTACGAAACGGGAGGAATCGTCGCCGCTCCCACCACCTCCCTGCCAGAGGACTTTGGCGGTTCACGCAACTGGGACTACCGCTTTTGCTGGCTCCGCGACGCCGCCCTGACGCTTGAGGCCATGCTGACCCACGGGTACGAGACTGAGGCCCTCAAGTGGCGCAACTGGCTGCTGCGCGCGCTTGCCGGTGATCCTGAGGATGTCCAGATCATGTACGGGGTGGCCGGGGAACGCGACCTCCCGGAGAGGGTGCTGGACCACTTGCCCGGCTATCAGGACGCGCGGCCGGTCCGGATTGGCAACGCCGCGGTGGCCCAGTACCAGGCCGACGTGGTGGGCGAAGTGATGGTGGCCCTGGAACGGCTGCGCCTGGCCGGCGGAAAGGAAGACACCTTCTCCTGGGCGCTGCAGCGGGCCCTGCTGGGATTCGTCGAGAAGCATTTTGATGACAAGGACTTCGGGTTGTGGGAGATGCGGGGCACCGCCCAGTACTTCACACATTCCAGGGTGATGATGTGGGCGGCCTTTGATTGTGGTGTCCGCGCCGTTCGCGACCACGGCCTCCCGGGCCCGGCCGAGCACTGGGAAGAACTGCGGCGGCGGTTACGGTCGGAAATCATGGAGCGGGGTTTCAACGCCGAGCTGAAGTCCTTCACCCAGACGTACGGCGGCACCCAGACTGACGCAGCCCTCCTGGCCCTGCCGCAGGTTGGCTTTCTGGCTTACGACGACGAGCATATGCTCGGTACCGTGGCGCAGCTGGAGCGCGAGCTGCTGACTGACCAGGGGCTGCTGCTGCGCTACCGGACCGAGACGGGCGTTGACGGCCTTGAACCAGGCGAGCATCCCTTCCTTGCCTGTTCTTTTTGGCTGGTGGAGCAGTACGCACGCACGCGCCGCCAGGCCGAAGCCGGGGCACTGATGGACAGACTTGTGGGCTTCTCCAATGAGCTGGGCCTGCTGAGCGAAGAATACGCGCCGGAGGATCAGCGGATGGCAGGCAACTTCCCGCAGGCGTTCTCCCATTTGGCGCTGGTCCGGGCCGCCGACGCGATGCACGGAGTGGACCTGCTCAGCCTTGCAGTGCGGGACTGA	MAAPIEDYALLSDLATGPLISRSGSVDWLCFPRFDSPSVFAALLGNEDHGRWLLAPADPDAVVVSRQYLESTFVLETTWQTSTGQMRVTDLMPPGQGRSSLLRRVTCVQGTVSVRQELSIRPQYGALVPWMSRIRKNTVPGSGDALLAMAGPDAWALQGPHLPEAHGHVRLGDFEVPAGGSADFELTWFPSYKEVPPPLDFDAALEETTGYWTRWGGNCRQDGIYGPAVKRSLLVLRALTHYETGGIVAAPTTSLPEDFGGSRNWDYRFCWLRDAALTLEAMLTHGYETEALKWRNWLLRALAGDPEDVQIMYGVAGERDLPERVLDHLPGYQDARPVRIGNAAVAQYQADVVGEVMVALERLRLAGGKEDTFSWALQRALLGFVEKHFDDKDFGLWEMRGTAQYFTHSRVMMWAAFDCGVRAVRDHGLPGPAEHWEELRRRLRSEIMERGFNAELKSFTQTYGGTQTDAALLALPQVGFLAYDDEHMLGTVAQLERELLTDQGLLLRYRTETGVDGLEPGEHPFLACSFWLVEQYARTRRQAEAGALMDRLVGFSNELGLLSEEYAPEDQRMAGNFPQAFSHLALVRAADAMHGVDLLSLAVRD	PGPT0018651_3	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
D1-29_00309	147			hypothetical protein	ATGACCCGCGAAGAAGCCTACTCCCGCTGCCCGGCGGACTCGTACGTGGAATACTACGGAAGCCAATGGCTGATCGTCCCGTTCGAGCCCGTTGAGCAGCCGCACTTCTTCGATTGCCGTCCCGGATCCCAGCCCGCCTTCGCATAG	MTREEAYSRCPADSYVEYYGSQWLIVPFEPVEQPHFFDCRPGSQPAFA				NA	NA	NA	NA	NA
D1-29_00310	264			hypothetical protein	ATGTCAGCAGAACGAATGTTCCACGACATGCGGGACTGTCCCGATCCGTGGCTGGATGAAGACATCCCTGCCGACGTGCGCCAGTTCGCGATTGAGTCCCTTCGGTGGCAGGCGCAGGAGATCATCGACGAAGTACTGCGCGGATCTGACCCCCGGGAAGAGCTGGCGCGGGCACGGCTCCGCCGCTGTGTAAATCAAAACCCCGGAAAGCCCGAGCTTGCCCTTCTTCAGCAACTCACGTTCAACCGGGACCTGCCTGACTGA	MSAERMFHDMRDCPDPWLDEDIPADVRQFAIESLRWQAQEIIDEVLRGSDPREELARARLRRCVNQNPGKPELALLQQLTFNRDLPD				NA	NA	NA	NA	NA
D1-29_00311	573			hypothetical protein	GTGGCGGCAATCGGTCCTGCCGATTCCGCAGAGCGGATTCTGGCCGTGGCCTACGAGCTCTTTTCACGGCGCGGTGTCCGGGATGTGGGCGTGAATGAACTCATCTCACGCTCGGGAGTAGCCAAGGCTACTTTCTACCGGCATTTTCCGTCCAAGAATGACCTGGTGCTGGCGTTCCTTGAGCAGCGAGACCAGTTGTGGACGGTCGAGGCGATTGTGGGCCAGGCGAAGCTCCGTGCCGGCTCGCCCGCAGAACAGTTGCTGGCCATCTTTGACGTTTTCTCTGACTGGTTCCTGCGCGAAGACTTCGAGGCCTGCTCGTTCATTAACGTGCTGCTTGAGATGGGCCCGGTGCATCCGCTGGGCCGGGCGAGCATCGACTACCTCGCCAAGATCAGGGGGCATGTGCAGGCGCTGGCGGAGGAGGCCGGGCTGCAGCGCACCGAGGAATTTGCCCGGTCCTGGCACATCCTGATGAAGGGGTCCATCGTGTCAGCCGCAGAAGGTGACACCGCAGCTGCGCATCGCGCCCAGCAGATGGCAGGCTGGCTGATCGAACACCACCGCGGCTAA	MAAIGPADSAERILAVAYELFSRRGVRDVGVNELISRSGVAKATFYRHFPSKNDLVLAFLEQRDQLWTVEAIVGQAKLRAGSPAEQLLAIFDVFSDWFLREDFEACSFINVLLEMGPVHPLGRASIDYLAKIRGHVQALAEEAGLQRTEEFARSWHILMKGSIVSAAEGDTAAAHRAQQMAGWLIEHHRG				NA	NA	NA	NA	NA
D1-29_00312	567	yraA	COG0693	Putative cysteine protease YraA	ATGTCAGAACACAGCATCGCAGGCAAGAAGGTGGCATTCCTGCTGACCGACGGCGTTGAGCAGGTGGAGCTCACCAGCCCATGGCAGGCCGTGAAGGAAGCAGGCGGCCAGCCCGTCCTGGTGGCACCATCCAGCGGCCGGCTGCAGGGCTACAACGGCACCGATAAGGGCGATACCTTCAATGTGGACCTCACCGTGGCGGAAGCCAATGCCTCCGAATTTGACGCCCTGGTGCTGCCGGGCGGAGTGGTGAACGCCGACCACCTGCGGGTGGACAAGGATGCCCAAAACTTCACCCGGAGCTTCTTTGAACAGCACAAGCCAGTGGCCGCCATCTGCCACGGTCCGTGGTTGCTCATCGAAGCCGGCGTGATTCGGGGCCGCAACGTTACCTCGTATCACACGCTCCAGACTGACCTGAAAAATGCCGGAGCCAACTGGAGTGACGAGGAAGTGGTGGTGGACCAGGGCCTGGTGACCAGCCGGAGCCCAAAGGACCTCCCCGCCTTCAACAGCAAAGTGGTGGAGGAGATCTCGGAAGGCCAGCACGCGGGGCAGACAGCATAG	MSEHSIAGKKVAFLLTDGVEQVELTSPWQAVKEAGGQPVLVAPSSGRLQGYNGTDKGDTFNVDLTVAEANASEFDALVLPGGVVNADHLRVDKDAQNFTRSFFEQHKPVAAICHGPWLLIEAGVIRGRNVTSYHTLQTDLKNAGANWSDEEVVVDQGLVTSRSPKDLPAFNSKVVEEISEGQHAGQTA	PGPT0015010_1453	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
D1-29_00313	1428	ribZ		Riboflavin transporter RibZ	ATGCAGGCTTCCAATGTGAAGCTGTCCGCGCCGGAGAAGATGTCCCGGGAGTCGGTGACCATCATTGCCACCCTGCTGGTGGCAACTTTTGTAGTGATCCTCAACGAGACCATCATGAACGTTGCCCTGCAGCGGCTGATGGTTGACCTGCGGGTTGATGCGCCCACGGTGCAGTGGCTCTCCACCGGCTTTATGCTGACCATGGCCGTGGTCATCCCCACCACCGGATTCATTCTGCAGAGCCTGTCCACGCGGGCCGTTTTTATGCTGGCGATGGGCCTGTTCGCCGGCGGCACGGCCCTGGCCGCGGTGGCGCCGGGCTTTGAGCTGCTGCTCCTGGCCCGCATCATCCAGGCCGGCGGCACGGCCATCATGCTTCCTCTGCTGATGACCACCATCCTTACGCTGGTTCCCGTGGCCAAGCGCGGTGCGGTGATGGGCAACGTGAGCATCGCCATCTCGGTGGCCCCCGCCATGGGCCCCACCGTTTCAGGGCTCATCCTGGAACACTTCACGTGGCGTTTTATGTTTGTGTTTGTCCTTCCGGTCGCGCTCGCAGCGCTGGCCATCGGGGCGAAGTACCTCACCAACGTGGGCGAAAGTGAGAAGACGAAGCTCGACTTCCTCTCCGTGGTCCTGACCATTCCTGCCTTCGGCGGGGTGGTTTACGGCCTCTCCCAGATCGGCGGCGGCCATGGCGGACAGGCCGGCCCCGGCCCGGCGGCCATTGCGGCGCTTGTCATCGGTGCCGCCAGCCTAGCCGTGTTCGTGCTGCGCCAGCTCCGGCTGCAGAAGGCCGACGCTCCGCTGCTGGACCTCCGCGCGTTCAACTTCCGGATGTTCACGGTGTCGGTGCTGCTGATGGTGGTGGCCATGATGGCCCTCTTCGGCGGTGTCATCCTGCTTCCGCTCTACCTGCAGGAGATCCGCGGCCTGGGCTCGCTGGAAACAGGACTCGCGCTGCTGCCCGGCGGCCTGGCCATGGGTCTCCTGGGCCCGGTCATTGGGCGGCTGTTCGATAAGGTGGGCCCGTTGCCGCTGACCGTGACCGGGTCCGTCCTGATGGTGCTGTCCCTGTGGCAGTTCTCCATGCTGGACGCCGGAACGCCCGTCTGGTGGATCGTTACCCTTCACATCGGGCTGAGTTTCGGCTTGGCGCTGCTGTTCACGCCGGCGTTCACCACCGGTCTGAACCCGTTGCCGCCGCACCTTTACTCGCACGGTTCGGCCATCATGAGCACCACGCAGCAGGTAGCCGGGGCCGGCGGAACGGCGCTGCTGGTGTCCATCTTCGCCGTGGTTTCGGCCACCTCGGGCCTCGTCGCAGGGATGAATGCCGCTTTCCTGACGGCCGCGGTGATAGCCGTCGCCGCCGTCGTACTTTCCGCCATGATGCGCAAAACCGAAGGCGCCCCCCACGGTCACTAG	MQASNVKLSAPEKMSRESVTIIATLLVATFVVILNETIMNVALQRLMVDLRVDAPTVQWLSTGFMLTMAVVIPTTGFILQSLSTRAVFMLAMGLFAGGTALAAVAPGFELLLLARIIQAGGTAIMLPLLMTTILTLVPVAKRGAVMGNVSIAISVAPAMGPTVSGLILEHFTWRFMFVFVLPVALAALAIGAKYLTNVGESEKTKLDFLSVVLTIPAFGGVVYGLSQIGGGHGGQAGPGPAAIAALVIGAASLAVFVLRQLRLQKADAPLLDLRAFNFRMFTVSVLLMVVAMMALFGGVILLPLYLQEIRGLGSLETGLALLPGGLAMGLLGPVIGRLFDKVGPLPLTVTGSVLMVLSLWQFSMLDAGTPVWWIVTLHIGLSFGLALLFTPAFTTGLNPLPPHLYSHGSAIMSTTQQVAGAGGTALLVSIFAVVSATSGLVAGMNAAFLTAAVIAVAAVVLSAMMRKTEGAPHGH	PGPT0028570_287	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
D1-29_00314	834			hypothetical protein	ATGACGCGTGAGAACATCAGGACCCCGGACGGCGGCACGCTGGAGGTATTTTCCACTGGCTCGGAACTGGCCTCGGCCGGTTCAGGCGTGGTGGTTGTTCCGCCCTCCATGGTGACGGCCGCCGACTACACCAAGTTTGCGCAAAAACTCAGCGCCGCTTTGGGCCGGCCGGTCCACACTTTCAACCGCCGGGGCCGCGGCTCTTCCTCTCCACAGCCGGAGGACTACACCCTGGACGTGGATATCCGCGACCTTGACGTGGTCATGAAGCACACGTCCAGCACCGACGTATTCGGCCACAGCTTCGGCGGCGCCGTGGCGCTGCACGCTGCCCGCACCCTTCCCGTGGAGCGGCTGGCCGTCTACGATCCCGCCGTTTCCGTGAACCACAGCGTGAAGGCTGACTGGACTGCCGAGTACGAGCGGGCCACCGCAGCCGGCGACGACGACCGTGCCCTGGCCGTGCTGAGCAAGGGACTGGAGACCGGCGGCACCTTCGCCCGGATGCCGCTGTCCATGCTCACCATCGCGAACAAGCTCACGGCAGGCACACACCTGGGAAAGCAGCAGCGCGAGCTGATGCGCACCGGCGTCCGTGAAATCAAGGCCATCATCGCGGCCGACATGCCTGCGGAGCCGTTCCTGGCACTGCCGCTGGAAACCCTGATTATTGTGGGCGAGAAGAGCCCGGCGTACTTCGGCGTGGCCTGCGGCCAGATCCACGATGTCCTGTCCGGGTCCAGCTACACCATCCTGCCCGGCTTCGGCCACGACGGCGTCATCCGGGCACCGGACAAGCTGATCACCGAGCTCCGGGACTTCTTCGCCAGCTGA	MTRENIRTPDGGTLEVFSTGSELASAGSGVVVVPPSMVTAADYTKFAQKLSAALGRPVHTFNRRGRGSSSPQPEDYTLDVDIRDLDVVMKHTSSTDVFGHSFGGAVALHAARTLPVERLAVYDPAVSVNHSVKADWTAEYERATAAGDDDRALAVLSKGLETGGTFARMPLSMLTIANKLTAGTHLGKQQRELMRTGVREIKAIIAADMPAEPFLALPLETLIIVGEKSPAYFGVACGQIHDVLSGSSYTILPGFGHDGVIRAPDKLITELRDFFAS				NA	NA	NA	NA	NA
D1-29_00315	855			hypothetical protein	GTGAAAGAACAGGCAGTTACCACCCACGACGGCGGCCGGTTGGCTTTGTACAGCTACGGCGACGTGGATGCGCCGGGCGAACGCCGTGTGGTGGTTATCGGCGGAGCTTTCCTCACCGCCCTCATCTATCGCCCGTTCTCGATCGCGCTGGCCAAAGGCCTCGGCGAAGGCTGGGCTGTGGACGTCTATGACCGGCGCGGCCGGGGCAAGTCCAGCGAACAGCCGCCGGGGTATTCCATGGCCACCGAAATCGCCGACGTCCGCACCGTCATGGACGCAACCGGGGTCCGCAATATCCTGGGCCACAGCCTGGGCGGCTCGGTGGCGCTCAATGCCGTGCAGGAGTTTTCGGGAACCGCCTACGAACCCGACAAATTGGCGGTCTACGACGCCGCCGTGAACATCGATGGCAGCCTGGACACCTCGTGGCTGGACGATTTCGAGCAGGCCGTCAACGCCGGCAACGTGGGACATGCACTCGCCCGGCTCAAAAAGGGCATGCAGCCGGGTTCCGCCCTCTCCAAGATCCCGGAGCCTGTCCTGGCGGGGCTGATGGCCCTTGTCTCCCGGACCAAGGTCAACCGGATTTTCCGGGACCTGATGCCCAGCGGGGTGGGTGAACTGCGGGCAGCCTACGACGAAGCCGAGCATGTGCGTGACTTCGCGGTCCTTCCCGCCAACACGCACTTTATGGTGGGCGGCAAGAGCCCCGGCTACTACAAAGTCACGGCCCAGCGCCTGCATGCTGCCGTGCCCGGGAGCACGTACGAACTCTCACCCAAGGGTTTCCATGGCTCCATCCCCGCGGCTGTGGAGGAACTCGTGACGGACATCTCCGAGTACTTCAAGGGGTGA	MKEQAVTTHDGGRLALYSYGDVDAPGERRVVVIGGAFLTALIYRPFSIALAKGLGEGWAVDVYDRRGRGKSSEQPPGYSMATEIADVRTVMDATGVRNILGHSLGGSVALNAVQEFSGTAYEPDKLAVYDAAVNIDGSLDTSWLDDFEQAVNAGNVGHALARLKKGMQPGSALSKIPEPVLAGLMALVSRTKVNRIFRDLMPSGVGELRAAYDEAEHVRDFAVLPANTHFMVGGKSPGYYKVTAQRLHAAVPGSTYELSPKGFHGSIPAAVEELVTDISEYFKG				NA	NA	NA	NA	NA
D1-29_00316	585			hypothetical protein	ATGGGCCTCATGGCAAGACCTGTAGTGCACACCGATTCCCTGAGGCAGGACCTGTTGGCCGTGACCGCTGACTTGGTGGATCGGGACGGTCCGGCGCGCGTGACCCTGCGGGATGTGGCAGCCGCCGCCCGGACGTCCACTACTGCCGTCTATTCCCTCTTTGGCGGGAAATCACAGCTCCTGACGGCGGTTGTGGACGACGGGTTCCGGTCCTTCCGCGACTCACAGCTGGCCGCTTCCTCGGGCGGACTCCGGGGCCTCGGCGTGGCCTACCGGGACTGGGCGCTGCAGCACACGTCGCTGTACCGGCTCATGTTTGGTGGTGCGCTGGCCGGCTACGTCGATTGCCAGCCAAGCCCGGAGGTTGCCGCCGACGCCATGGAACCCCTCTTAGACGCAGTCGCTTCTGCCCAGGCCGCCGGCAACCTGCTGGAGGCACCCACGGAGGTGGTCGCCGTCGCCATCTGGGGCCAGGTCCATGGGCTGGTGAGCCTGGAACTGGCACAGGTGGGGCCGTCGGACGCAGACTGGGCTGCCGCATACGGCGCGGCCCTCGACGCCGTCGCCCGCGGCTGGGCCGCCTGA	MGLMARPVVHTDSLRQDLLAVTADLVDRDGPARVTLRDVAAAARTSTTAVYSLFGGKSQLLTAVVDDGFRSFRDSQLAASSGGLRGLGVAYRDWALQHTSLYRLMFGGALAGYVDCQPSPEVAADAMEPLLDAVASAQAAGNLLEAPTEVVAVAIWGQVHGLVSLELAQVGPSDADWAAAYGAALDAVARGWAA				NA	NA	NA	NA	NA
D1-29_00317	519			hypothetical protein	ATGACACAGAAGGTATTTCCGGGCCGGTACACCGCTGACCCGCAGCGTGAATCCGTGACAGTCTTCCTAATCGGGATGCGGGCAAACCGCTGGTGGAAGGTCGGGACCGTCGGCAAGGTGGCTGCAGGCATGCCCCGGATGCTCCAGCATCTGGCCGCGGACCCGTCGGCCGGAATGCTTGGATACGAGCAGTGGTTCGGCCGCACCACCATGCTGCTGAGCTACTGGGAGAGCCCGGAGCATCTGCGGAAATTTGCCGCGGACCGGGAATCGCCCCATCTGGCACCCTGGCGCCGGTTCATGAAGGAACTCTCCGGAACCGGCGACGTCGGCGTCTGGCACGAGACGTACCAGGTGCCTGCCGGCGGCATCGAGGTTGTCTACAACGGGATGCCTTTGTTTGGTCTCGCCAAGGCCACGGCACATATCCCTGTTGGCGCCGGGACCAACACCGCAAAGCAGCGGATGGGCCGGACCGCGGGCCACGCCGCCGGAGGGGCTGGCCCGGAAGGGCACTGA	MTQKVFPGRYTADPQRESVTVFLIGMRANRWWKVGTVGKVAAGMPRMLQHLAADPSAGMLGYEQWFGRTTMLLSYWESPEHLRKFAADRESPHLAPWRRFMKELSGTGDVGVWHETYQVPAGGIEVVYNGMPLFGLAKATAHIPVGAGTNTAKQRMGRTAGHAAGGAGPEGH				NA	NA	NA	NA	NA
D1-29_00318	984			hypothetical protein	GTGGAGACCTGGACAGTTGAAACGGAAGACGGCGGCCGCCTGGACGTTCACACGTTCCTGACTCCGGCCGGCAGCCTCAGGGCCGGGACCGTCAGCACGGCCCGCACCGCTGCCTTGAAGGTTCCGGGGGCAAGCACCCCCACGGGCGGGGAGCCGACGACGGCGGGCGCTCCCGGCGTCGTACTCATCCACGGCACTCTGGTAACCGATGCCCTCTACCGGCCTTTCGCCCGGAAGCTCAGCGTGCTGCTGGGCAGGCCGGTGCACTGCTATAACCGGCGCGGCAGGGGCGGTTCCGCGCCGCAGCCAGCCGACTATTCGGTGAAGACCGAGATCAGCGATCTGGCAGCGGTGATGCGTGAGACCGGGTCGACGGACGTGGTGGCTCACAGCTACGGCGGGTTTGTGGCGCTGCAGGCCGCCCGGACACTGCCGATGGGCCGGCTGGTGACCTATGACGCCGCCGTGTCCCTGTCCGGGAGCCTGAGCCACCGGTGGCGGCCCGAGCTGGAGGACGCCGTTACTGCAGGCGAGCTCAACCATGCCTGGGCACACCTGGTGCAGGGCCTTGCAACCGCCGGTCCGGTCTCCTACCTGCCGCTTGGCGCCTTACGAATGTTGAGCATACTGTCCGCGCGGACCAATGTGGGTGCGGAAATGCGGCAACTGCTGCCCACCGCCGTGGCGGAGATGCGGGCAGTGCTTGACGCCGACGCCGAACTGGAGGACTTCACCTCGCTCAACACCCCCATCCTGATGCTCAGCGGCGGCTGGAGCCCGGCATACTTCGCGCAGACGGGCCGGGAGCTCGCCGCGGCGGTTCCGTCCATCCAGTTCGCCGTGGTACCCGGCCAGCTCCACGAGGGTCCGATCCGCCCAGGCAAAGGCCTCGCGGTGCGCGTGGCACGCTTCATCAACGGAGGTGACAGCGAAGTCCGCCGACTCGGACGACGGCGGCCCAGGGGCGGCCGGTCGGGCGGGTAG	METWTVETEDGGRLDVHTFLTPAGSLRAGTVSTARTAALKVPGASTPTGGEPTTAGAPGVVLIHGTLVTDALYRPFARKLSVLLGRPVHCYNRRGRGGSAPQPADYSVKTEISDLAAVMRETGSTDVVAHSYGGFVALQAARTLPMGRLVTYDAAVSLSGSLSHRWRPELEDAVTAGELNHAWAHLVQGLATAGPVSYLPLGALRMLSILSARTNVGAEMRQLLPTAVAEMRAVLDADAELEDFTSLNTPILMLSGGWSPAYFAQTGRELAAAVPSIQFAVVPGQLHEGPIRPGKGLAVRVARFINGGDSEVRRLGRRRPRGGRSGG				NA	NA	NA	NA	NA
D1-29_00319	1533	lysS1	COG1190	Lysine--tRNA ligase 1	GTGACTTCCCAAAACGCCCCCGCCCCCAAGAATGCCCCCGAGCCGCTCGACGCCAGCGAACAGATGCGCATCCGCATGGAAAAGCGCGCCAAGCTGATCGAGCGCGGCACCGAGGCATATCCGGTGGGTGTGGAGCGCACGCATTCCCTCACAGAGATCCGTGAGAAGTACGCGCACCTGCAGGCTGATGAAACCACCGGTGACATCGTGGGGGTAACGGGACGCGTGGTGTTTGTCAGGAACACCGGCAAGCTCTGCTTCGCCACACTGCAGGAAGGCGGCGTGGACGGCAAGGGCACCAGGCTGCAGGCCATGCTGAGCCTGGCCGCCGTGGGTGAAGAAGCGCTCGCGGACTGGAAGGCCCTGGTTGACCTGGGCGACCACGTGTTTATCAAGGGCGAGGTGATTTCCTCCCGCCGTGGCGAACTGTCCGTGATGGCAGAGTCCTGGTCCATGGCTTCCAAGGCGCTCCGCCCGCTGCCCGTCCTGCACGCGGAGCTGAACGAGGAAACCCGCGTCCGCCAGCGCTACGTGGACCTGATGGTGCGCGACGAAGCCCGGGAAATGGTCTACACCCGTGCCGCGATCACCCGTTCCATCCGCGAGAGCCTCCACCGCCACAATTATGTGGAGGTGGAAACCCCCATCCTGAACCTGGTTCATGGTGGAGCCCTGGCCCGCCCGTTCGAGACGCACATGAACGCGTTTGACCAGAAGATGACGCTGCGCATCGCCACCGAGCTTTACCTCAAGCGCGCCGTAGTGGGCGGGATCGACCGCGTCTACGACATGGGCCGGGTTTTCCGCAACGAGGGCGTGGACTCCACCCACAGCCCGGAATTCACCACCCTTGAGTGCTACGAGGCTTGGGCGGACCAGTTCGTCATGGCGGACCGCATCAAGGAAATCATCCTGGATGCGGCAGACGCTGTGGGTGCAGGACGCGCCCTGCAGACAGAGGCCGGGGAGATCAATCTCGACGGCGAATGGGCCTGGCTGTCCGTCTACCCCGGGCTTTCCGACGCCGTTGGCCAGGAAGTTACCCCTGAGACCTCCCTTGAGGTGCTGCGCGAAATCGCCGAAAAGCATGAGGTCAAGGCCGATCCCAAGTGGGACGCTGAAAAGCTGGCGGTTGAACTCTTTGGCGAAATCGTGGAGCCCACGCTGCTGAACCCCACATTCGTGTACGACTACCCGCCGTCCGCCCAACCGCTGGCCCGCCCGCACCGGAAAGACGGCCGCCTGATCGAGGCCTGGGACCTCATCATCGGCGGCATGGAACGCGGCACTGCGTTCTCCGAACTGATCGACCCCGTCATCCAGCGTGAGCGTCTCACCGAGCAGTCCCGTCACGCCGCCGCCGGCGATGACGAGGCCATGCAGTTGGACGAGGACTTCCTTCGGGCCCTCGAATACGGCGCCCCTCCCATGGGCGGCATCGGCCTCGGGATCGACAGGCTGGTCATGCTGTTCACCGGGGCCGGCATCCGGGAGACAATACTCTTCCCGCTCCTCAAGCCCGAGGTGAACTAA	MTSQNAPAPKNAPEPLDASEQMRIRMEKRAKLIERGTEAYPVGVERTHSLTEIREKYAHLQADETTGDIVGVTGRVVFVRNTGKLCFATLQEGGVDGKGTRLQAMLSLAAVGEEALADWKALVDLGDHVFIKGEVISSRRGELSVMAESWSMASKALRPLPVLHAELNEETRVRQRYVDLMVRDEAREMVYTRAAITRSIRESLHRHNYVEVETPILNLVHGGALARPFETHMNAFDQKMTLRIATELYLKRAVVGGIDRVYDMGRVFRNEGVDSTHSPEFTTLECYEAWADQFVMADRIKEIILDAADAVGAGRALQTEAGEINLDGEWAWLSVYPGLSDAVGQEVTPETSLEVLREIAEKHEVKADPKWDAEKLAVELFGEIVEPTLLNPTFVYDYPPSAQPLARPHRKDGRLIEAWDLIIGGMERGTAFSELIDPVIQRERLTEQSRHAAAGDDEAMQLDEDFLRALEYGAPPMGGIGLGIDRLVMLFTGAGIRETILFPLLKPEVN	PGPT0012225_2597	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
D1-29_00320	180			hypothetical protein	GTGGAATACGTCGCAGTACTCCTTCCTTCCCTGGTTGTTGGCCTGCTTTTCTGGTTCGCCATGAAATCCATTTTTAATGCCGACAAAGCGGAGCGGCAGGCCGAAGCCCGGGCGCAGGCTGAAGCGGAAGCCCGCAAAACGGACACCCCGAACGGGCCCGAAGCGGATACCAATAAATAA	MEYVAVLLPSLVVGLLFWFAMKSIFNADKAERQAEARAQAEAEARKTDTPNGPEADTNK				NA	NA	NA	NA	NA
D1-29_00321	330	lsr2		Nucleoid-associated protein Lsr2	ATGGCACAGAAAGTAAACATCATCCTCGTAGATGATCTGGATGGGGGAACTGCGGACGAGAATGTCCGTTTTGGCCTCGATGGGGTCAGCTACGAAATTGATCTGTCCGCAGCCAACGCCGCCGAGCTTCGTTCGGCACTGGAGCGGTATGTGGCCGCAGCACGCAAGACATCCGCGGGCCGCGCCACCCGAACAAAAGCCGCATCAGGCGGGCGCGCCAATGATTCTGCGCAAATCCGCCAGTGGGCACGCGAAAACGGCTACACGGTTAACAGCCGGGGCCGAATTCAGGCTGAAATCCAGGAAGCCTACCAAAAGGCCAATTCCTAG	MAQKVNIILVDDLDGGTADENVRFGLDGVSYEIDLSAANAAELRSALERYVAAARKTSAGRATRTKAASGGRANDSAQIRQWARENGYTVNSRGRIQAEIQEAYQKANS				NA	NA	NA	NA	NA
D1-29_00322	2493	clpC1	COG0542	ATP-dependent Clp protease ATP-binding subunit ClpC1	ATGTTTGAGCGATTTACGGACCGTGCCCGTCGCGTAGTTGTGCTTGCCCAAGAAGAGGCACGCATGCTGAACCACAATTACATTGGTACCGAACACATCCTCTTGGGTCTAATCCATGAGGGTGAGGGCGTTGCCGCCAAAGCTCTTGAGTCCTTGAGCATTTCGCTCGACGGCGTTCGCGAGCAGGTGCAGGAGATCATCGGCCAGGGCCAGCAGGCCCCGTCCGGACACATCCCCTTCACCCCCCGCGCCAAGAAGGTGCTGGAACTCTCGCTGCGCGAGGCCCTGCAGCTTGGCCACAACTACATCGGCACGGAGCACATCCTGCTGGGACTCATCCGTGAGGGTGAGGGCGTTGCCGCCCAGGTGCTGGTGAAGCTCGGCGCTGACCTGAACCGTGTCCGCCAGCAGGTCATCCAGCTCCTCTCCGGCTACCAGGGCAAGGAAACCACCGGCGCAGGCGTCGGTACGGGCCAGCCCGAAGGTACTCCGGCCGGTTCAGTTGTGCTGGACCAGTTCGGACGCAACCTGACCCAGGCTGCGCGCGAGAACAAGCTGGATCCGGTGATCGGGCGCGAGTCGGAAATGGAACGCGTTATGCAAGTCCTTTCCCGCCGCACCAAGAACAACCCGGTCCTGATCGGTGAGCCGGGCGTTGGCAAGACGGCCGTCGTCGAGGGCCTGGCCCAGGCGATTGTCCGCGGCGACGTCCCGGAAACCATCAAGGACAAGCAGCTCTACACCCTGGACCTCGGGTCCCTGGTGGCCGGCTCCCGGTACCGCGGTGACTTCGAAGAGCGCCTGAAGAAGGTCCTCAAGGAAATCCGCACCCGCGGCGACATCATCCTCTTCATTGACGAGATCCACACCCTTGTTGGTGCAGGTGCCGCCGAAGGCGCAATCGACGCCGCGTCCATCCTGAAGCCCATGCTGGCCCGCGGTGAACTGCAGACCATCGGTGCCACCACGCTGGACGAATACCGCAAGCACATCGAAAAGGACGCAGCGCTGGAGCGCCGCTTCCAGCCGATCCAGGTCAAGGAACCCTCCGTTGCGCATGCGATCGAGATCCTTAAGGGCCTGCGGGACCGCTACGAGGCACACCACCGCGTCACCATCACCGACGGCGCCCTCGCCTCGGCGGCCAACCTGTCCGAACGCTACATTTCAGACCGGTTCCTGCCGGACAAGGCGATCGACCTCATCGATGAAGCCGGTGCACGGCTGCGTATCCGCCGCATGACTGCTCCGCCGGAGCTGAAGGCCATGGATGAGCGGATCGCCAAGCTGAAGATGGAGAAGGAATCCGCCATCGACGCGCAGGACTTCGAAGGTGCCGCTTCGCTCCGCGACAAGGAGCAGAAGCTCATCACCGAGCGTTCGGAGAAGGAACGCCACTGGAAGTCCGGCGGCATGGACGATATCTCCGAGGTGGATGAGGATCTCATCGCCGAGGTATTGGCCAACTCCACCGGCATCCCGGTGTTCAAGCTGACGGAGGAAGAGTCCTCGCGCCTGCTGAAGATGGAAGACGAGCTGCACAAGCGTGTGGTGGGCCAGAACGAGGCCATCAAGTCGCTGTCCCAGGCCATCCGCCGTACCCGTGCAGGCCTCAAGGACCCCAAGCGGCCCGGTGGATCGTTCATCTTCGCCGGCCCTACCGGCGTCGGCAAGACCGAGCTGGCAAAGGCCCTGGCTGAGTTCCTGTTTGGTGAAGAGGACGCCCTCATCACCCTGGACATGTCCGAGTACTCCGAGAAGCACACCGTCTCGCGGCTCTTCGGTGCCCCTCCGGGCTACGTCGGCTACGAGGAAGGCGGACAGCTGACCGAAAAGGTACGCCGCCGCCCGTTCTCCGTGGTCCTGTTCGATGAAGTTGAAAAGGCCCACGCGGACCTCTTCAACTCACTGCTCCAGATCCTGGAAGACGGCCGCCTGACCGACTCCCAGGGCCGGGTGGTGGACTTCAAGAACACGGTGATCATCATGACCACCAACCTGGGCACCCGCGACATCTCCAAGAGTGTTGCCACCGGCTTCCAGTCCGGTACGGACACGCAGACCGGCTACAACCGGATGCGCGCCCGTGTGACGGAGGAGCTCAAGCAGCACTTCCGCCCGGAGTTCCTGAACCGTGTGGATGACGTTGTGGTGTTCCCGCAGCTGACCCAGGACGAGATCGTCGAGATCGTGGACATGTTCGTGAGCCGGCTGGAGAAGCGCCTCAAGGACAAGGACATGGGCATCGAGCTCACCACCGCGGCCAAGGTACTGCTGGCAACCCGAGGCTACGATCCAGCCATGGGTGCACGGCCGCTGCGCCGCACCATCCAGCGCGAGATCGAGGACCAGCTCTCCGAGAAGATCCTCTTCGGCGAGATTCACGCCGGGGACATCGTGGTGGTGGATGTGGACGGCGAAGGCGACGACGCCAAGTTCACCTTCGCCGGCAACGCCAAGCCGCGCATCCCCGAGATCGCCCCGAGCGTCTAA	MFERFTDRARRVVVLAQEEARMLNHNYIGTEHILLGLIHEGEGVAAKALESLSISLDGVREQVQEIIGQGQQAPSGHIPFTPRAKKVLELSLREALQLGHNYIGTEHILLGLIREGEGVAAQVLVKLGADLNRVRQQVIQLLSGYQGKETTGAGVGTGQPEGTPAGSVVLDQFGRNLTQAARENKLDPVIGRESEMERVMQVLSRRTKNNPVLIGEPGVGKTAVVEGLAQAIVRGDVPETIKDKQLYTLDLGSLVAGSRYRGDFEERLKKVLKEIRTRGDIILFIDEIHTLVGAGAAEGAIDAASILKPMLARGELQTIGATTLDEYRKHIEKDAALERRFQPIQVKEPSVAHAIEILKGLRDRYEAHHRVTITDGALASAANLSERYISDRFLPDKAIDLIDEAGARLRIRRMTAPPELKAMDERIAKLKMEKESAIDAQDFEGAASLRDKEQKLITERSEKERHWKSGGMDDISEVDEDLIAEVLANSTGIPVFKLTEEESSRLLKMEDELHKRVVGQNEAIKSLSQAIRRTRAGLKDPKRPGGSFIFAGPTGVGKTELAKALAEFLFGEEDALITLDMSEYSEKHTVSRLFGAPPGYVGYEEGGQLTEKVRRRPFSVVLFDEVEKAHADLFNSLLQILEDGRLTDSQGRVVDFKNTVIIMTTNLGTRDISKSVATGFQSGTDTQTGYNRMRARVTEELKQHFRPEFLNRVDDVVVFPQLTQDEIVEIVDMFVSRLEKRLKDKDMGIELTTAAKVLLATRGYDPAMGARPLRRTIQREIEDQLSEKILFGEIHAGDIVVVDVDGEGDDAKFTFAGNAKPRIPEIAPSV	PGPT0014585_2009	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014585-clpC-K03696	NA	NA
D1-29_00323	2142	dpp5	COG1506	Dipeptidyl-peptidase 5	ATGGCTAACCTGAACCCGGCGATCCCGGGCGAGCAACCTATGACCCCTTTCCACGACCTGGACCATTACCTGGCTATCCCCCGGGTGAGCGGCCTTGCCCTAAGCCCGGACGGGCGGAGGCTGGTCACCACCGTCTCCACTCTCAATGGCAAAGGCACTGAATTCGCCACAGCACTTTGGGAGCTAGATCCCACGGGCGAGAAGCAGGCCCGGCGGATCACGCGCAGTGCCAAAGGAGAAGCCGGGGCCGTCTTCTCAGCCACCGGCGATGTCTATTTCACCTCGGCCCGGCCGGACCCGGAAAGCCCCGACGGCGATCCCGTCAAGGCCCTGTGGCTGCTCCCGGCTGGCGGCGGGGAGGCCAGGGTAATTCTCTCGAGGCCGGGGGGAGTGGACACGGTCCTGGCTGCCCGGCATGCCGACGCAACGTTCGTTATTGCCGAGATCCTGGCCGGGTCCACGGACGAGGACAATGATGCCGAGCGGCGTAAGGCCCGCAAGGAGAACAAAGTGTCCGCCATCCTGCACAGCGAATACCCGGTGCGCTACTGGGACTCGGACCTGGGCCCCGGCCAGCCGCGTATCTTCGCCGTGGAGGAAGGCCAGGACGAGGAGGCGGGAAAGCCCGCCACGGTGGATGCTGCCGCGCCGCGCGTCCTTCGCAACCTCACTCCCCATGCTGGGCCCCGGCTGCGGGAAGCGGAAACGGTGGCCAGCCCGGACGGCAGGACCATCTACACAAGCTATACGAGGCCATTGGCGAAGGCTGAAAGCCGTTCCGTGCTGGTGGCCGTGGACGTGGCTTCCGGCAGCCAGCAAGTGCTGCTGGACGAGGAAGGCATGAGCTACTTTCCCGGCCCGGTCAGCCCGGACGGCAACACCCTGGTTGTGGTCAGTGAGAGCGATACCACCCCGCACCAGGCGCCGCAGGTCAAGCTGAACCTTCTGGATGTTTCGGGCCGGCCGGATTCACCGGGCCGGACAGCGGGCGGTGCCGCCCGCCTCGCCGCGCTGGTTCACGACTGGGACCGCTGGGCCCGGCCCGCGGCCTGGCTCCCTGACGGTTCAGCGCTGCTGGTCACAGCGGATGACGACGGCGCGTCGCCGGTCTTCCGGATCAGCCTTCCGGCGTCTGCTGCTGAAGTGAGCGTCACGAGGGTGACACAGGATGCCGCGGCGTACACCGACGTCGTGGTGTCACCGGAAGGACGCACCGCGTATGCGCTGCGCAGCTCCTACGCGTTCCCGCCGGAAGCCGTTCGGATCGACCTTGAAACGGGCGAGGCAACGCGCCTGCCGGCGCCGGCCGAACGGCCTGCGGTTCCGGGACGGCTGGAACGGCTGGCGGCGACGGCCGCCGACGGCGCACGGGTTCCTGCATATCTGGCACTGCCCGAGGGAGCATCGGCCGATGCGCCTGCGCCGATGCTGCTGTGGATCCACGGCGGCCCGCTGGGATCCTGGAACGCCTGGACCTGGCGGTGGAACCCCTGGCTGCTGACCGCGAAGGGCTATGCCGTCCTGTTGCCCGACCCCGCGCTGTCCACGGGCTACGGGCAGTCGTACATCCAGCGTGGCTGGGGGGAATGGGGCAAGGCTCCCTTTACCGACCTGATGGCCGCCACAGACGCCGCTGAGAGGCGCCCCGACATCGATCCGACTCGGACCGCGGCTATGGGAGGGTCCTTTGGCGGCTACATGGCCAACTGGGTGGCGGGACATACTGACCGTTTCAGGGCCGTCGTCACCCATGCCAGCCTGTGGGCCCTGGACCAGTTCGGGCCCACCACTGACGATTCGCAGTACTGGTTGAGGGAAATGACCGAGGAAATGGCCATTGAGAACTCGCCGCACCGCCATGTGGAAAAGATCAGCACGCCCATCCTGGTAATCCACGGGGACAAGGACTACCGGGTGCCTATCGGTGAAGGCCTGCGGCTCTGGTACGAACTTTTGTCCAAATCCCAACTGGCCGCGGACCGGGACGGCCAGACCCCGCACCGCTTCCTGTACTACCCCGACGAGAACCACTGGGTCCTGCAGCCTCAGCACGCCAAGGTCTGGTACGGCGTCGTGGAAAGCTTCCTCGCCAAGCACGTGCTGGACGAGGAGCTCCCGATACCTGCCGAGCTGGGTCTCTAA	MANLNPAIPGEQPMTPFHDLDHYLAIPRVSGLALSPDGRRLVTTVSTLNGKGTEFATALWELDPTGEKQARRITRSAKGEAGAVFSATGDVYFTSARPDPESPDGDPVKALWLLPAGGGEARVILSRPGGVDTVLAARHADATFVIAEILAGSTDEDNDAERRKARKENKVSAILHSEYPVRYWDSDLGPGQPRIFAVEEGQDEEAGKPATVDAAAPRVLRNLTPHAGPRLREAETVASPDGRTIYTSYTRPLAKAESRSVLVAVDVASGSQQVLLDEEGMSYFPGPVSPDGNTLVVVSESDTTPHQAPQVKLNLLDVSGRPDSPGRTAGGAARLAALVHDWDRWARPAAWLPDGSALLVTADDDGASPVFRISLPASAAEVSVTRVTQDAAAYTDVVVSPEGRTAYALRSSYAFPPEAVRIDLETGEATRLPAPAERPAVPGRLERLAATAADGARVPAYLALPEGASADAPAPMLLWIHGGPLGSWNAWTWRWNPWLLTAKGYAVLLPDPALSTGYGQSYIQRGWGEWGKAPFTDLMAATDAAERRPDIDPTRTAAMGGSFGGYMANWVAGHTDRFRAVVTHASLWALDQFGPTTDDSQYWLREMTEEMAIENSPHRHVEKISTPILVIHGDKDYRVPIGEGLRLWYELLSKSQLAADRDGQTPHRFLYYPDENHWVLQPQHAKVWYGVVESFLAKHVLDEELPIPAELGL				NA	NA	NA	NA	NA
D1-29_00324	510	argA	COG1246	Amino-acid acetyltransferase	GTGACTGACTCCTTCCATATCCGTCCTGCCCGCACCAGTGATGTGGCCGCCATCAAGAGACTGGTGGCGCCGCTGGCGGAGCAGCGGATCCTGATGGCCAAGGAGACGGTGGCCTACTACGAAAGCCTGCAGGAGTTCCGGATCGCCGAATCGGACGACGGCGACGTCATCGGCTGCGGCGCTTTGCACGTGATGTGGGAAGACCTGGCAGAGGTGCGCACCCTTGCCGCTTCAGATATGTGGCGGGGCAGGGGCGTTGGCCATGTGCTGGTGGAGAGCCTTCTGGAGGAAGCGCGTCAGCTGGGCGTGGGACGGGTCTTCTGCCTCACGTTTGAGGTGGATTTCTTCAAGCGCCACGGCTTTGAGGTGATGGCTGACCAGACGGCGGTGGACCCTGAGGTGTACTCCGAGTTGCTGCGCTCGCACGATGAAGGCGTGGCCGAGTTCCTTGACCTGGCCCGCGTTAAGCCCAACACCCTTGGCAATACCCGAATGATCAAGTTCCTCTGA	MTDSFHIRPARTSDVAAIKRLVAPLAEQRILMAKETVAYYESLQEFRIAESDDGDVIGCGALHVMWEDLAEVRTLAASDMWRGRGVGHVLVESLLEEARQLGVGRVFCLTFEVDFFKRHGFEVMADQTAVDPEVYSELLRSHDEGVAEFLDLARVKPNTLGNTRMIKFL	PGPT0014241_357	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014241-argA-K00619	NA	NA
D1-29_00325	1419	mcrA_1		Mitomycin radical oxidase	ATGCACATCCTCTCCTCCCACACGGAAAAAACCGAGCTTCAGCTTCTGGTCCGCGGGCTCGTCTATGCCCCAGGCGACCCCCACTATGGTGCGGAAGTCGCAGCTTTTAACCTCGCCACCCGCCACACCCCGGACCTGGTTCTGAGCGCCGTCAATGCCGACGACGTGGTGGCCGCGGTCCGGTGGGCAGCCGCTCGCGGTATGTCCATTTCAGTCCAATCCACCGGCCACGGAGCCGCCAACGCCATTACCGATGGCCTGCTTATCAGTACCCGGCTGATGCTGGAACTCTTCATCGATCCTGACGAGCGGACGGCGCGCGTCGGCGCCGGAGTGCGCTGGCGTGACGTCCTCAAGGCTGCTGCGCCCTACGGGCTGATGGGCCTGCACGGCTCCAGTACCGACGTCGGCGTTGTTGGCTACACGCTGGGCGGCGGTTTGCCTCTCCTGGGGCGGAAGTACGGCTTCGCCTCCGACCATGTGCTGGCGTTCGACGTGGTGACGCCGGATGGCGTCCTGCGCCGAGTGGACGCAGCAAGCGACCCGCGGCTGTTTGCCCTGCTCCGCGGCGGCAAGGGGAACTTCGGCATTGTCACGGCCATGGAGTTCTCGCTTTTCCCGGCCGGCGAACTCTTCGCCGGCGGCATCTTTTACGACGGCGGGCACTCCCGGGAGGTGCTGGCAGGGTTCGGTCAGTGGATCCGGCATCTTCCCGCCGAGGCTTCCGCGTCCCTGGCATTCCTGCGCCTGCCGGACATGGAGGAAGTACCGGCGTTCCTCCGCGGCAATTTTGTCATGCACCTCCGGTTCGCCTGGCAGGGCAATGCGGCTGACGGGGCACGTGTATTGGCGCCGATGCGCGAGGTGGCTCCGGTCCTGCTGGACGGGGCAGGGCCGCTGCCGTACTCGCGGGTGGACGAGATCCACGCAGACCCTGAACATCCGGTTCCTGTCCGGGAAGGCGGCATGCTGCTCAAGGATCTGGACGCCGGCCTGGAGGACGCGCTGCTCCGGCTGGCTGGACCGGGCAGCACCGCGCCGCTCCTGTTGACGGAAATCCGGCTGATGGGAGGAGCGCTGGCCAAGCCATTGAAGGCTGTGGTGCCCGACTTCGACTACGTGGGTGGGCGTGATGCCGCGCTGTCCTTCTTTGCAGTGGGCATCATGGCGCCGCAGGTCGCGCACTTGGTTCCGGCAGCCATACAGGAAGCCCGGGAGGTCTTGGAGCCTTTCGGGACGGGCGGTACCGCTGTCAACCTGCATGGGCACCTCACGTCGCCGGAACTGGCCTTCCGCGCCTGGCCGGAAGCTGCCCGGGAGCGGCTCAGCAAGGCCAAAGCTGAGCTGGACCCAAAGAATCTGTTCCGTCATGGCCATGCAATCCAGCCAGCGGCAGGGGAGCTGACCTTCGTCACTTAG	MHILSSHTEKTELQLLVRGLVYAPGDPHYGAEVAAFNLATRHTPDLVLSAVNADDVVAAVRWAAARGMSISVQSTGHGAANAITDGLLISTRLMLELFIDPDERTARVGAGVRWRDVLKAAAPYGLMGLHGSSTDVGVVGYTLGGGLPLLGRKYGFASDHVLAFDVVTPDGVLRRVDAASDPRLFALLRGGKGNFGIVTAMEFSLFPAGELFAGGIFYDGGHSREVLAGFGQWIRHLPAEASASLAFLRLPDMEEVPAFLRGNFVMHLRFAWQGNAADGARVLAPMREVAPVLLDGAGPLPYSRVDEIHADPEHPVPVREGGMLLKDLDAGLEDALLRLAGPGSTAPLLLTEIRLMGGALAKPLKAVVPDFDYVGGRDAALSFFAVGIMAPQVAHLVPAAIQEAREVLEPFGTGGTAVNLHGHLTSPELAFRAWPEAARERLSKAKAELDPKNLFRHGHAIQPAAGELTFVT	PGPT0031395_4	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-FERROVERDIN|BAGREMYCIN_METABOLISM,PGPT0031395-fevA2|bagG-NA	NA	NA
D1-29_00326	1002	dhaK	COG2376	PEP-dependent dihydroxyacetone kinase, dihydroxyacetone-binding subunit DhaK	GTGAAAAAACTCATCAACGATCCGCGCAGCGTCGTGGACGAATCCGTGGAGGGCTTCGGAGTTGCCCACGCGGACCTGGTAAAAATCAGCGTGGACCCCACTTTCGTTGTCCGCGCAGACGCGCCGGTAGCCGGGAAGGTGGGGCTGCTTTCAGGAGGCGGCAGCGGACACGAACCCCTCCACGCAGGCTTCGTGGGGCGGGGAATGCTCGACGCCGCAGTGCCCGGCGCGGTTTTTACCTCGCCCACCCCTGACCAGATCCTTCCGGCGACACTCGCGGTTAACTACGGCGCCGGCGTCGTCCACATCGTAAAGAACTACACGGGTGACGTCCTCAATTTCGAAACAGCGGCGGAACTGGCAGAGGCTGAAGGAATCCAGGTCCGTGCCGTCCTGGTCAACGATGATGTCGGGGTGGAGGACTCGCTCCATACCGCCGGCCGGCGTGGCGTTGGTGGAACTGTGCTGGTGGAGAAAATAGCCGGCGCGGCTGCCGAACGGGGGGACGGCCTGGACGCCGTTGCCGCGATCGGTGAGCGTGTGAACACCAACGTCCGCAGCATGGGCGTGGCACTGTCAGCCTGCACCGTCCCGCACGCAGGATCACCGAGCTTCGACCTGGAGGACAACGAGATCGAAATCGGCATCGGCATCCACGGCGAACCGGGCCGGCACCGGATCCCGATGGAGGGCGCCGATGGAATCACAGACCGGCTGTTGGAACCGGTGCTGGACGATCTGGGCGTGGGCGCGGGGGACAGGCTGCTGCTGTTCGTCAACGGCATGGGCGGGACACCACTCAGCGAGCTTTACATTGTCTACCGCAGGGCTGCACAGGTGATCGCCGCAAGGGGAGCCGCCGTAGAGCGGAACCTGGTGGGGAACTACATCACCGCGCTGGAAATGCAGGGCTGCTCCATTTCCGTGCTGCGGCTGGACGACGAACTCATCGATCTGTGGGATGCCCCCGTTCACACGGCCGCCTTGCGCTGGGGTGTGTAG	MKKLINDPRSVVDESVEGFGVAHADLVKISVDPTFVVRADAPVAGKVGLLSGGGSGHEPLHAGFVGRGMLDAAVPGAVFTSPTPDQILPATLAVNYGAGVVHIVKNYTGDVLNFETAAELAEAEGIQVRAVLVNDDVGVEDSLHTAGRRGVGGTVLVEKIAGAAAERGDGLDAVAAIGERVNTNVRSMGVALSACTVPHAGSPSFDLEDNEIEIGIGIHGEPGRHRIPMEGADGITDRLLEPVLDDLGVGAGDRLLLFVNGMGGTPLSELYIVYRRAAQVIAARGAAVERNLVGNYITALEMQGCSISVLRLDDELIDLWDAPVHTAALRWGV	PGPT0018460_764	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018460-dhaK|dak-K05878	NA	NA
D1-29_00327	633	dhaL	COG2376	PEP-dependent dihydroxyacetone kinase, ADP-binding subunit DhaL	ATGGTGCTTGATGTGAACTGGGCCGTTAAATGGCTGACTCTTTGTGCGCAGGCCATGGCGGCACACCGGCTTGAACTCATCGAGCTGGACCGCGCCATCGGGGACTCGGACCACGGGGAGAACATGGACCGCGGCTTCCAGGCCGTCCTGGAAAAGCTTGCCGAGGCGCCGCCGGAAACCCCCGGAGCGGCATTCAAGCTGACCGCCATGACGCTGATGTCCAAGGTGGGGGGCGCCGCGGGCCCTTTGTACGGGACTGCTTTCCTGCGTGCTGCCACCTTCCTCGGCGACGCCATCGAGGTGGACCCGGCGGCCCTGGCAGGTGCCCTCGCCGCCGCGCGTGACGGCATTGTGGCCAGGGGCAAGGCCGAGACGGGGGACAAAACCATGGTGGATGCATGGACTCCCGCTGTGGAGGCCGCACAGGCGGCAGCCGCCGACGCCGACGGCAATGTCCTGGCCGTGCTGGTCGCTGCGGCCGAGGCGGCCGAGGCAGGTGCAGCGGCGACGGACCCGCTGGTGGCCCGGAAAGGCCGGGCCAGCTACCTGGGCGAACGGAGCGTTGGGCACCGTGACCCCGGCGCCGCCTCCAGCGCGCTGATTTTCCGGGCCGCCGTTGGGGCTGCCGCGTGA	MVLDVNWAVKWLTLCAQAMAAHRLELIELDRAIGDSDHGENMDRGFQAVLEKLAEAPPETPGAAFKLTAMTLMSKVGGAAGPLYGTAFLRAATFLGDAIEVDPAALAGALAAARDGIVARGKAETGDKTMVDAWTPAVEAAQAAAADADGNVLAVLVAAAEAAEAGAAATDPLVARKGRASYLGERSVGHRDPGAASSALIFRAAVGAAA	PGPT0018455_814	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018455-dhaL-K05879	NA	NA
D1-29_00328	705	dhaM	COG1080	PEP-dependent dihydroxyacetone kinase, phosphoryl donor subunit DhaM	GTGACGGTCCGCATCGTGGTGGTGTCCCATAGCGAAAAGATTGCCGACGGTGCAGTGGAACTTGCCGCCCAGATGGCGCCCGACGTCGTGATCGTGGCAGCCGGGGGAACCCCGGAGGGACGCATCGGCACCAGCCTTGAGAAGGTTATGTCAGCGCTGGAGCGGGCTTCCGGCGGGGACGGCGTGGTGGTACTGACCGACCTGGGGTCGGCCGTTATGACAGCAGAATCGGCGCTGGAACTTGCGGAGGATCCGGCCGGCGTGCTGCTGGCCGACGCACCGTTGGTGGAAGGACTGGTGGCCGCCGCTGTCGCAGCCCAGGGAGGCGCCGACGCGGCTGCGGTGAAGCGCGCCGCCGAGTCCGCTTACGGTTCGGCTTTGCCGGCAGCCGCCGGGCCGCTCCCCGCGGACAGCGCCGTGTCGCAGGGATCGGTGACGGGTGCCGGCCCGGATTTTACCGGCGACTTTGAGCTCATCAACCAGGCCGGCATGCACGCCAGGCCGGCCGCCAAGATTGCTGGCGGGCTCTCGTCACTGGATGCCGAGGTCAAGGTCAACGGGGTGGATGGAGCGTCCATGACCGGGCTCATGACCCTGGCCGCGGGCCGGGGGTCGGTGCTGCACGTGGAAGCCTGGGGTGCCGACGCAGAGCGGGCCGTGAACTATGTTGGCGGCCTGGTGCAGGCAGGGTTCGGCGAGCCTTAA	MTVRIVVVSHSEKIADGAVELAAQMAPDVVIVAAGGTPEGRIGTSLEKVMSALERASGGDGVVVLTDLGSAVMTAESALELAEDPAGVLLADAPLVEGLVAAAVAAQGGADAAAVKRAAESAYGSALPAAAGPLPADSAVSQGSVTGAGPDFTGDFELINQAGMHARPAAKIAGGLSSLDAEVKVNGVDGASMTGLMTLAAGRGSVLHVEAWGADAERAVNYVGGLVQAGFGEP	PGPT0018450_255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018450-dhaM-K05881	NA	NA
D1-29_00329	990			hypothetical protein	GTGCACCCCAGCCCTGCCCCCGCGCCTGCCCCGCTGTACCGTGACCCGTTGGAAGACGGGGCAGCGGACCCTGTCCTGATCTACAATCGGCATGAGCAATCGTGGTGGATGATCTACACCAACAGGCCCACTACCGTCCGGCATGCCCAGGGGATCAGCTGGCTGTTCGGTTCACAGCTGGGGGTGGCGTCGTCAACGGATGGGTGCGCCACCTGGCGGTACCGCGGAACCCTCAAGGGTCTCGACTTTGAATGGGGCCACAACACCTTTTGGGCTCCCGAAGTCTTCGAGCACAACGGAATCTTCCACATGTACGTCAGCTACATCCAGGGCATTCCGCTGGGCTGCGCCATCGATGAGACGCTGATTCACCACTACACCAGCGAAGACCTCATCTCCTGGCAGCACCATGGCCCCATCACCCTGAGCTCCAACAACGTCATTGATGCCTGCATCATCGAGCTCCCGCAGGGTGGATTCCGGATGTGGTACAAGGACCAGCACCAGGGTTCCGAGACCTGGGCGGCAGACAGCGAGGACCTCTACACCTGGACGGTCCGGGGCCGGGTGCTGTCCACGCCCGGCGGCCATGAGGGCCCCAACGTCTTCTCCCTTCAGGGGTTTTACTGGCTGATCGTGGACAGCTGGAGCGGCCAGCTGGCTTTCCGCTCCGATGACCTGGACGTTTGGGAGCCGGCGGGGAGGATCCTCGGCGGGTCAATTGGCGACCGGCATGCGCGAACTGACGATGAGGGTCCTGGACTCCATGCAGACGTGGTGGTCGACGGCGACGACGCCTGGATCTTCTACTTCACCCATCCTGAGCGGACCGGCCAGGACCATCCGACGGAAAGCAGCCGGCGGTCCTCGATCCAGGTGGCGCGGCTCGCCGTCGAGAACGGAAACCTGGTGTGCAATCGGGACCAGGTCCCGGCGCCTGCCATCGGCGCCCCCTCCCCCGGAGTTTTTGTCCAGATCGGGCGGGTTTAA	MHPSPAPAPAPLYRDPLEDGAADPVLIYNRHEQSWWMIYTNRPTTVRHAQGISWLFGSQLGVASSTDGCATWRYRGTLKGLDFEWGHNTFWAPEVFEHNGIFHMYVSYIQGIPLGCAIDETLIHHYTSEDLISWQHHGPITLSSNNVIDACIIELPQGGFRMWYKDQHQGSETWAADSEDLYTWTVRGRVLSTPGGHEGPNVFSLQGFYWLIVDSWSGQLAFRSDDLDVWEPAGRILGGSIGDRHARTDDEGPGLHADVVVDGDDAWIFYFTHPERTGQDHPTESSRRSSIQVARLAVENGNLVCNRDQVPAPAIGAPSPGVFVQIGRV	PGPT0018835_91	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407	NA	NA
D1-29_00330	333			hypothetical protein	ATGAAGAAACTCACCACAGCCCTGCTCGCCACCGGGCTTGTTCTCTCGGCTTCGGCCTGCACCGCATCGACCCAGTTGAGCACCCCTGAAACCTGCGACCGGATCAAGTCAGTTGTGGCGAACCCACCAGTTGGCAAGAGCGGGATGACCCGGATGGCCAACCAGTTCCGGCCCATCGAGGTAGTGGCCTCTGATGACCTGAAGTCCGCGCTGCAGTCGATCATCGAGTACACGGACGAGTCCGCGAAAGAGACCCCGGACGAGGAAAAGCTTTCGGGCCTGCAGGCGGACTACGAAGCTGCCGGCGGCACGTTCAGCAAATTCTGCAGCTAA	MKKLTTALLATGLVLSASACTASTQLSTPETCDRIKSVVANPPVGKSGMTRMANQFRPIEVVASDDLKSALQSIIEYTDESAKETPDEEKLSGLQADYEAAGGTFSKFCS				NA	NA	NA	NA	NA
D1-29_00331	486			hypothetical protein	ATGGGCAAGTCCGGAGTACTGCTGACACTGATCACGACGACGGTTCTCACCTCCGCCTGCTATCCCTACGACGTGCCGTGCCCCATGATCGCCCAGGCGTCGGTGGTCTCCGTGACGGTGGCCCGCGAGTATGCCGCCCAGGTGAAAACCCTTCACCTGAAGGCGTGCCAGGACGGTGCCTGCAAGGAAGCGGACCTTGAGCTCTACCCCGGGACAGTGTCCGTTGACCAGGGCTGTACCCCTGACGGCGTCTGCTCCGCCACGGCGTCGCCTGACGGGACCCTGATGGGGAATCTGATGCTGGATTCCCTGACAGAGTCCCCCATGGCGCTGACGGCCAGCGGAACAGCAGCAGACGGATCAGCGCTGCCCGTACGTACGCTCGACTTCCGGCCCCGGGGCGATTATCCCTACGGCGAGCACTGTGGAAGGTTTGTCTCCGCCTCGGTTGAGCTGAACGAAGATGGGCTCCGGGCGAGGTTGTAA	MGKSGVLLTLITTTVLTSACYPYDVPCPMIAQASVVSVTVAREYAAQVKTLHLKACQDGACKEADLELYPGTVSVDQGCTPDGVCSATASPDGTLMGNLMLDSLTESPMALTASGTAADGSALPVRTLDFRPRGDYPYGEHCGRFVSASVELNEDGLRARL				NA	NA	NA	NA	NA
D1-29_00332	432			hypothetical protein	ATGGACTCCATCAAGGCCGTGTTTGTAGTCCTTCCGGGCCTTTTTGCCGCCGCGGGACTGGTGCTGGTGGGACTGTCACTGGCTGCATCGTTCCGCCGGCGCAGCATCGTCCGCGGCTGGGTGGCCACCTACGCCACCGTCACAGGGAACCTTCGCGGCAAAGACGGCCCGGGCAGCAACGGCGGCCACCGGTTCGCCCCCTCCTATGAGTTCAACGACGCCGGGGGCCGGCGCTGGCTGGGCCAGTCGGACATCTATGGCCTGGACCAGGAAATCATCGGCAGTCCCATAGCGGTGCTTTACAACCCTGCCAACCCCGCCGAATCCACGCGCCCGGTCTTCCTGGTGTCAAAGGGCAGGTTCTCATTCGGTCTCATTATGGTCATTTTCGGCGCGGGTGCCATAACGATGTTTGCGTCAGTTCTCTGGTAG	MDSIKAVFVVLPGLFAAAGLVLVGLSLAASFRRRSIVRGWVATYATVTGNLRGKDGPGSNGGHRFAPSYEFNDAGGRRWLGQSDIYGLDQEIIGSPIAVLYNPANPAESTRPVFLVSKGRFSFGLIMVIFGAGAITMFASVLW				NA	NA	NA	NA	NA
D1-29_00333	432			hypothetical protein	ATGAAGATCGTGCTGTACATCATTGGGGCGCTGTGGGTTGTTGGCGCGGGCCTGGCCACGCTCCATCTGCTGCGAAAAGCCAAACGCCGCGAGAAGCAGGCCGAAGGCTGGCCCCGGGTGCAGGCCACCGTAACAGGGAGTGTGGCCGGCTGGAGCAGGAGTGCAGGCAGCTCTCCCAGCAGCAGGCGCTACTTCCCCACTTATCAGTTCACAGATCCCCACGGCACATTGTTTGCGGGGGAATCAGAGGTTTCGCTGGTGAACCGGCCACAGCCGGGGTCGCTCGTGCAGGTGACCTACAACCCGCTCAACCCCAACCAGTCATTCCAGGTTGCCTCCGATTCAAAAAAGATTGTTGGCTGCCTCATCCCGTTCCTGGTGGTGTTTTCCATCCTGCTGTTCAACTTCATCAGCATCTTTCCGGTGGACTAG	MKIVLYIIGALWVVGAGLATLHLLRKAKRREKQAEGWPRVQATVTGSVAGWSRSAGSSPSSRRYFPTYQFTDPHGTLFAGESEVSLVNRPQPGSLVQVTYNPLNPNQSFQVASDSKKIVGCLIPFLVVFSILLFNFISIFPVD				NA	NA	NA	NA	NA
D1-29_00334	960	nth_1		Endonuclease III	GTGCCCGTTGGTCCTTCCCTGAACGGGGACGCGCTGGCCTCCCTGCATGCCAGAATTACGGACTGGTTCGCGGAGACCGCCCGGGACCTGCCCTGGCGGGATGCGGGCTGCTCACCATGGGGCGTCCTGGTCAGTGAAATCATGCTCCAGCAGACCCCTGTGGTGCGTGTGCTGCCCGTCTGGCAGGAATGGCTCAGCCGCTGGCCCAACCCCGCTGCGTTGGCGGGAGAACCTGCGGGGGAAGCCGTCCGTTTATGGGGCAGGCTGGGCTACCCGCGCCGTGCGCTCCGGCTGCACGCAGCGGCCGCAGCGATCGTCCGTGACCACGGCGGCACAGTCCCTGGAAGCTACGCGGAGCTGTTGGCCCTGCCCGGAGTGGGCAGCTACACGGCTGCCGCGGTGGCCGCGTTTGCCTTTGGACGTCGGGAAACGGTGGTGGACACCAACATCCGCCGCGTCCATGCACGCCTCATTTCCGGCGTCGCGCTTCCGTCGCCGTCGCTGACCGCCTCGGAAATGCGCTTGGCGGCAGAACTCCTGCCGGACGACGACGGCGCCTCCGTCCATTGGAACGCTGCGGTCATGGAACTGGGGGCGCTGGTCTGCACGGCCCGCGTGCCCAAGTGCTCAGCCTGCCCGGTCCGGAACTCATGCGCCTGGCTCGCGGCCGGCGAGCCGCCGCCGTCGTACATTCCCAAAGGACAGGCGTGGCACGGCACTGACCGCCAGGTCCGCGGCGCCGTGATGGCGGTCCTGCGGACCGCGGAGAATCCCGTACCACCCGAGATGTTCCACCAGGAGCCCGCGGACCTGGGCTTTGCGCCGGAAGGCGTTGCAGTGCCGCTCTCTGCCCTCCACCGGTTGAACTGCGGCCCGGAGCAGCTGGACCGCGCGCTGGCCGGACTGCTCACCGACGGCCTGGCCGAGCTGCACCAGGGCGGATACCGGCTACCCGCCTGA	MPVGPSLNGDALASLHARITDWFAETARDLPWRDAGCSPWGVLVSEIMLQQTPVVRVLPVWQEWLSRWPNPAALAGEPAGEAVRLWGRLGYPRRALRLHAAAAAIVRDHGGTVPGSYAELLALPGVGSYTAAAVAAFAFGRRETVVDTNIRRVHARLISGVALPSPSLTASEMRLAAELLPDDDGASVHWNAAVMELGALVCTARVPKCSACPVRNSCAWLAAGEPPPSYIPKGQAWHGTDRQVRGAVMAVLRTAENPVPPEMFHQEPADLGFAPEGVAVPLSALHRLNCGPEQLDRALAGLLTDGLAELHQGGYRLPA	PGPT0014770_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014770-disA-K07067	NA	NA
D1-29_00335	609			hypothetical protein	GTGGTGTACCGCCGCCGGCGCTTGTTCGTCGGTGCTGTAGTGCTGATGGTCATTGCCATGGTCCTTGGCGGCTTCGCGGCAGGCGGGGCCTTCAGCGGTAACTCCGAGCAGGTTTCAAGCACCGACAATGGAACCGACGCCGGTGCCTCGCCGGCAGCCTCCACCACAGAGTCGCCGTCGGAAGCGCCCAGCAGTACCCCTGCTCCCACGGCAAGCCCCACCTGCGACCAGAACCTGGTGACTGTTTCTGCTGCAACGGACAAACCTGCCTACGGGCCGGACGAGAACCCTTTGCTCACCCTGAAGGTGACCAACGGCGGGAAAATGCCGTGCGAGGTGAACATCGGTACGTCCCAGATGGAGTTCCTGGTGACCAGCGGCGCAGACCGGATTTTCTCCTCAAGGGACTGCCAGGCGGCGAGTGAGGATCTGGTGAAGACCATTGCCCCCGGCGCCAGCGAAACAGCCAACTTCCCGTGGCCGCGCAACCGCAGCGTGGAAGGCTGCGAGCCCATTGATGCCAAACCGGGAGGCGGCGGGGCGTACTACATCTTTACGGCCAAGCTGGGCTCGAAGGCCAGTCCCAAGGCAGTGTTCCAGCTGGGCTGA	MVYRRRRLFVGAVVLMVIAMVLGGFAAGGAFSGNSEQVSSTDNGTDAGASPAASTTESPSEAPSSTPAPTASPTCDQNLVTVSAATDKPAYGPDENPLLTLKVTNGGKMPCEVNIGTSQMEFLVTSGADRIFSSRDCQAASEDLVKTIAPGASETANFPWPRNRSVEGCEPIDAKPGGGGAYYIFTAKLGSKASPKAVFQLG				NA	NA	NA	NA	NA
D1-29_00336	1077	disA	COG1623	DNA integrity scanning protein DisA	ATGCCCCGGAGCCCCGAAGAATCGCTCAAGGCGACTCTGGGCAGAGTAGCTCCAGGAACGCCCCTCCGCGATGGACTGGAACGCATCCTCCGGGGACGCACTGGCGCACTGATTGTTCTTGGCTCGGACCGGACCATCGATTCCATCTGCTCCGGCGGCTTTGACATCGGCATCGACTTCTCCCCCACGAGGCTCCGTGAACTGGCCAAGATGGACGGCGCCATCATTTGCGACAGGGACGCCGGGAACATCCTCCGCGCCGCCGTCCAGCTGGTGCCGGACTCGAGCATCGAAACCCAGGAATCGGGCACCCGGCACCGGACCGCCGAGCGCGTGGCCATCCAAACCGGCGTGCCCGTCATCTCCGTCAGCCAGTCCATGCAGATCATCGCACTGTATGTCAACGGCCTGCGCCACGTGCTTGAGGGCTCCGAGAAGGTCCTTGCGCGCGCCAACCAGGCCCTGGCCACCCTGGAGAGGTACCGGTCGCGGCTTGACCAGGTGACCAGTTCACTGTCAGCCCTTGAGATCGAGGCCATGGTCACTGTCCGGGACGTGGCCGTCACCTTGCAGCGCCAGGAAATGGTCCGCCGGATCTCGGAGGAAATTTCCCAGTATGTGCTGGAACTGGGCGAGGACGGCCGGCTGCTGTCCCTCCAGCTGGACGAGCTCACCGTGGGCCGGGGCCCCGGCAGCGACATCATCATCCGTGACTACGCGGGCCCGCACGCCTCCCCGGACGACATTGAGAAAGCCGTGAGCGCCCTCGTAAACCTGGGTCCCACCGAGCTGATAGACCTGGGCAAGATTTCCGGCATCATCGGCTTCGCCGGCGGGGTGGACACCCTCGACGCCGTGGTGCAGCCCCGCGGGTACCGGCTGCTCTCCGGGCTTAAGGCAGTCCCCAAGGCTGTCGCCGACCGGCTGGTGGACCACTTCGGCGGCCTTCAGTTCCTGATGGCAGCCACCATCGATGACCTGATGACGGTGGACGGCATCGGTGACCAGCGTGCCCGTACCGTGCGTGAAGGCCTGAGCCGGATGGCCGAGGCCAGCCTGCTGGACAGGTTCCTCTGA	MPRSPEESLKATLGRVAPGTPLRDGLERILRGRTGALIVLGSDRTIDSICSGGFDIGIDFSPTRLRELAKMDGAIICDRDAGNILRAAVQLVPDSSIETQESGTRHRTAERVAIQTGVPVISVSQSMQIIALYVNGLRHVLEGSEKVLARANQALATLERYRSRLDQVTSSLSALEIEAMVTVRDVAVTLQRQEMVRRISEEISQYVLELGEDGRLLSLQLDELTVGRGPGSDIIIRDYAGPHASPDDIEKAVSALVNLGPTELIDLGKISGIIGFAGGVDTLDAVVQPRGYRLLSGLKAVPKAVADRLVDHFGGLQFLMAATIDDLMTVDGIGDQRARTVREGLSRMAEASLLDRFL	PGPT0014770_423	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014770-disA-K07067	NA	NA
D1-29_00337	1755	prfC	COG4108	Peptide chain release factor 3	GTGCCGGGCCGGCGCTGGGATAAACTTGGACCTTGGCGCTCAGCCAGTCCCCAGCCAGCCTTACAACGTCCCGTCAAGCGCCATCCCGACAAGCGCCGTCCCGTCAAGCGCCAGGACCCCCACCGTAGCGAAAGTAGCACCGTGTCCCAAGATGTCCTCAGCCCCGCCCGGATCCACGAGATTCACAAACAGGCGGCCCGGCGTCGGACGTTTGCCGTTATTTCGCATCCTGACGCCGGCAAGTCCACGCTGACCGAAGCACTGGCGTTGCATGCGAAGGTGATCGGCATTGCCGGTGCTTCCAGCGGCAAGGCAAACCGCAAGGAAACGGTCTCGGACTGGATGCAGATGGAAAAGGACCGTGGCATCTCCATCAGCTCCGCAGCGCTCCAGTTCTCCTACCGTGACACCGTCATCAACCTGCTGGATACTCCCGGCCACGCCGACTTCTCGGAAGACACGTACCGTGTCCTCGCCGCCGTCGACTGCGCGGTGATGCTGGTGGATGCCGCCAAGGGCCTGGAAACCCAGACCATGAAGCTCTTTGAGGTCTGCAAGCAGCGCAACCTGCCCATCATCACCGTGATCAACAAGTGGGACCGCCCCGGCCTGGATGCCCTGGCCCTGATGGACGAAATCACCGAGCGCACAGGCCTGCAGCCCATGCCGCTGACCTGGGCCGTTGGCATCTCCGGCGACTTCCGCGGGGTCTGGGATCTCCGCAACGACCGGTTCGCCCAGTTCAAGCGGAACAACTCGGGCGCCAACATTGCGCTGACCGAGTACTTCACCCCGGATGAAGCGGCGGAGAGCCAGGGCAGCAACTGGTCTGACGCCGTGGACGAAGCCGGCCTGGTGATCGAATCCAACCTCGAGTTCGATGTTGAGAGCTTCCATGCCGGCAAGGCCACGCCCATACTCTTCAGCTCAGCCGCCCTGAACTTCGGCGTCAAGGAACTGCTGGACGCCCTGGTGGACTTCGCCCCGCCGGCAGCTCCCAGGCCGGACGTCGAGGGCAGCCCGCGCGCCGTGGCTGCCCCGTTCTCCGGGTTCGTCTTCAAAGTCCAGGCCGGCATGAACAAGGCGCACCGCGACCACGTGGCGTTCATCCGTGTGTGTTCCGGCGTCTTTGAGCGCGGCATGGTGGTCACGCAGACGCGCACGGGCAAGTCCTTCGCCACGAAGTACGCGCAGCAGGTCTTTGGCCGCGAACGTGAGGTCATCGATGAGGCCTATCCCGGCGACGTGGTGGGCCTGGTGAACGCCTCCTCCCTGCGCGTGGGGGACAGCCTCTTCCTCGAGGACCCGGTGGAATTCCCGGCCATCCCGCTGTTCGCGCCGGAACACTTCCAGGTGGCACGCTCCAAGGATCCCAGCCGCTTCAAGCAGTTCCGCCGCGGCATCGAGCAGCTCGAACACGAGGGCGTCATCCAGGTGCTCCGCTCCGACGTCCGCGGTGACCAGGCGCCGGTGCTCGCCGCCGTCGGCCCCATGCAGTTCGAAGTGGTGGAGGACCGGATGGCCCATGACTTCAGCGCCCCCATGCGGCTGGAACGCCTCCCCTATTCCATCGCCAGGATTTCGACGGCGGATGCCATGCCTGCGCTGGCCAACGTGCCTGGCGCCGAGGTGCTGCTGCGGTCCGACGGCGAATTCCTCGCCCTGTTCAACGACGTCTGGGCCCTGCGCCGGATAGAGAAGAACCACCCGGACCTGACGCTGGTCCCGATCGGCACGCACAATCCGGCGAAGTAG	MPGRRWDKLGPWRSASPQPALQRPVKRHPDKRRPVKRQDPHRSESSTVSQDVLSPARIHEIHKQAARRRTFAVISHPDAGKSTLTEALALHAKVIGIAGASSGKANRKETVSDWMQMEKDRGISISSAALQFSYRDTVINLLDTPGHADFSEDTYRVLAAVDCAVMLVDAAKGLETQTMKLFEVCKQRNLPIITVINKWDRPGLDALALMDEITERTGLQPMPLTWAVGISGDFRGVWDLRNDRFAQFKRNNSGANIALTEYFTPDEAAESQGSNWSDAVDEAGLVIESNLEFDVESFHAGKATPILFSSAALNFGVKELLDALVDFAPPAAPRPDVEGSPRAVAAPFSGFVFKVQAGMNKAHRDHVAFIRVCSGVFERGMVVTQTRTGKSFATKYAQQVFGREREVIDEAYPGDVVGLVNASSLRVGDSLFLEDPVEFPAIPLFAPEHFQVARSKDPSRFKQFRRGIEQLEHEGVIQVLRSDVRGDQAPVLAAVGPMQFEVVEDRMAHDFSAPMRLERLPYSIARISTADAMPALANVPGAEVLLRSDGEFLALFNDVWALRRIEKNHPDLTLVPIGTHNPAK				NA	NA	NA	NA	NA
D1-29_00338	1233	kasA	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 1	ATGACGACTGTTCAACCACGGGCTGTGGTCACGGGAACGGGCACGCTCAATCCCCTCGGATCCAACGTTGCAGAAACGTGGTCTGCCCTGCTTGCCGGCCGGTCAGGCATTGCCGGCATAGCTGAGGACTGGGCTGCGCCTTTGCCCGTCCGGATCGCAGGCCGGGTCAACACCGACCTGACAACACTGCTGACGACGCGGGAACTGAAGCGCATGGACCGGTGCGGGCAGCTTGCTGTCGCCGCGGCGAGGGATGCCTGGGCGCAGGCGGGCGCCCCCGAAGTGGATCCTGACCGGTTTGCCGTGGTCATCGGATCGGGCTATGGCGGCCTGGACACTACCCTGGCCCAGACCCGCGCGCTGGACAGCGGCGGTCCACGCCGCGTCTCGCCGCATACCCTGACCCGCCTGATGGTGAACGGGCCATCCGCGTGGGTATCCATCGACCTCGGTGCCCGGGCTGGAGCGCGGACCCCGGTGAGCGCCTGTGCGTCCGGGGCAGAAGCAATAGCCCAGGGCGTGGAAATGATCAAGGCCGGAGCGGCCGACGTCGTGGTTGCCGGTGGTGTTGATGCCTGCATCAACGACCTCGTCCTGAGTGGTTTTTCGCAGATCCGGGCACTGTCTACCCGCAATGACGATCCGCAGGGCGCGTCCAGGCCATTCGACCGTGACCGGGATGGCTTTGTCCTGGCGGAGGGCGCGGGGATCCTGGTCTTGGAAAGCGAGGAGCATGCGCGGGCACGTGGTGCACATGTCCTGGGGGTGGTGGCCGGGGCTGCCGTAACGTCCGATGCGGGCGACATCGTGGCTGCGGACCCTGCCATGCAGCAGCGCGTGATGGAGAAGGCCCTGGCTGTGGCCGGGCTCAGCGGTGCCGATATCAGCTTTGTGCACGCCCACGCCACGTCAACGCCGGTGGGGGACCGCCTGGAGGCCCAGGCGATTGGCGCCGTGCTCGATTCCGCCGTTCCCGTTACGTCAACAAAGTCCCTGACCGGCCACCTCCTCGGCGGTGCCGGGGCGCTGGGTGCCATCGTTGTCCTCGAAGCGCTGCGGAGTGGAGACCTTCCCGGCACGTACAACGTGGGCACCCTGGACCCGGACGTCAACCTCAATGTCATCACCGGGACGGCACGCTGGAGCGGTGGGTCCGAAAGTGGAGGGGCGGGAATGGTCAACGCCTTCGGCTTCGGCGGTCACAGCGCCTCGTTGGTGATCACACGCGGGTAG	MTTVQPRAVVTGTGTLNPLGSNVAETWSALLAGRSGIAGIAEDWAAPLPVRIAGRVNTDLTTLLTTRELKRMDRCGQLAVAAARDAWAQAGAPEVDPDRFAVVIGSGYGGLDTTLAQTRALDSGGPRRVSPHTLTRLMVNGPSAWVSIDLGARAGARTPVSACASGAEAIAQGVEMIKAGAADVVVAGGVDACINDLVLSGFSQIRALSTRNDDPQGASRPFDRDRDGFVLAEGAGILVLESEEHARARGAHVLGVVAGAAVTSDAGDIVAADPAMQQRVMEKALAVAGLSGADISFVHAHATSTPVGDRLEAQAIGAVLDSAVPVTSTKSLTGHLLGGAGALGAIVVLEALRSGDLPGTYNVGTLDPDVNLNVITGTARWSGGSESGGAGMVNAFGFGGHSASLVITRG	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
D1-29_00339	198			hypothetical protein	ATGGTCATCCTGACCGTGCTTATCGCAGCAGCGCTCCTGACCAGCCTCAGCGCCGTCATATACATTCCGCAGCCCGCCGCAGGTGCAAAGCGCCGCTGGAGATTCAAAGATCGCTCCGTGGTGCAGACCTGCGCCGGAATCGTTGCGCTTGGTTCAGTCCTTCTTGCCGTTCATATCCAATGGGGCGTATTCCGGTGA	MVILTVLIAAALLTSLSAVIYIPQPAAGAKRRWRFKDRSVVQTCAGIVALGSVLLAVHIQWGVFR				NA	NA	NA	NA	NA
D1-29_00340	219			hypothetical protein	ATGATGCAAAGCCATGGTAAATCTCTGTGGGCGGGCCTCCAGCGCGGCGACGCCGTCACCCTTAGCCAGCGTGGCGTGGAGTGCTACAGAGGGTTGATAGATGATCGGACCGACGATGGCCGAACCATTTGGGTGACGGACAAAATCGGTGATCGCCGGCTGTTCCATATTGAGGACGACTGCGACCTGCAGCTTTCTGACAGCAGCCATGCCTGCTAG	MMQSHGKSLWAGLQRGDAVTLSQRGVECYRGLIDDRTDDGRTIWVTDKIGDRRLFHIEDDCDLQLSDSSHAC				NA	NA	NA	NA	NA
D1-29_00341	693	gntR_1		putative D-xylose utilization operon transcriptional repressor	ATGGCGGCACCGGAAGGACTATTTACGCTGGAGGGAAGACCCACGGCGCAGCTGATTGCCGATCAGCTGCGGGAACAAATCGTCCAGGGGATTTTCCGTCCGGGAGAGCAGATCAATGAATCTGTTCTGGCAGGTCAGCTGCGCACATCCAGGGGCCCGGTCCGTGAGGCGTTGCAGCGGCTGTCCCAGGAGGGAATCCTGGTCAGCCACCGCAACCGCGGAGTGTTCGTCCTGGAGCTTTCAGACGATGACGTGAGGGAGATCTATGCAGTCCGCCAGGCCATGGAATCAACAGCCGCAGACGCGCTACTGGATGCCGGCCAGGAGCAGACCAAAGACACCTGCCAGGCTTTGAAGGCGGTCATCAGTGACATGGCGAAGCAGGTCGCCGTGTCGGACTGGCAGGCAATTGCACGGCTCGATATGCAATTCCACACCACCTTCGTGGGCGGGGCCGGCAACACACGCCTGATCCGGATCTACGAAACCCTCGCAGCCGAATCCAGGATGTGCATCCTGAACCTGGCTGTCTCCTACCCGCGGATTGATGTCCTCGTCCAGGAACATCAGAACCTGCTGGATCTCCTCGAGGCCGGAGACAGGGAAGGACTCCACAAAGCCATCAGGCAGCACATGCAAACGGCCGTAAACGATCTCACCTCCCCACAGAACGGGAAGGCGGATAACGCCTAG	MAAPEGLFTLEGRPTAQLIADQLREQIVQGIFRPGEQINESVLAGQLRTSRGPVREALQRLSQEGILVSHRNRGVFVLELSDDDVREIYAVRQAMESTAADALLDAGQEQTKDTCQALKAVISDMAKQVAVSDWQAIARLDMQFHTTFVGGAGNTRLIRIYETLAAESRMCILNLAVSYPRIDVLVQEHQNLLDLLEAGDREGLHKAIRQHMQTAVNDLTSPQNGKADNA				NA	NA	NA	NA	NA
D1-29_00342	1134	soxA_1		Monomeric sarcosine oxidase	ATGGACGCAAAACTCGCCGTCATCGGCCTGGGCAGCATCGGCTCCATGGCCCTCTGGCAAGCCAGCCAACTCACCGACTCAGTCACGGGTTTCGAAGCCCACACCCCCGCCCACGGCCGCAGCGCCGTAGGCGGGGACACCCGGCTCTTCCGCATGATCTACCGCGGCAACCCCCACCTCTACCCCATTCTGGAACGCTCACGGGACCTCTGGGCCGAACTCGAAGCCGAAACCGGCCAGAACATCCTCACCCGCACCGGCGGACTGTCCATCGGAACCAAAAACGGCCCCTACCTCACAGCCCTCCTCGAAACCACCAAAGCCACCGGCGCAGACCACGAAATCCTCAACCGCGAACAGATGGCCCAACGCTACCCCCAGCACAACCTCCGCCCCGACGACACCGCCGTCTACGACCCCCACGCCGGCGCCCTCCGCACCGACCGCGCCGTCACAGCCGCCATCACCGCAGCCCAAACCAACGGCGCAACCATCCACACCAACACCCCCATCGACAGCATCACCGAAACCACCCACGGCGTCCTCATCACCTCCGGCGAGAAATCCTGGACCTTCGAAAACGTCATCATCTCCTCCGGCGGCTGGTCCCAACTCCTCATGCCCGACTACCTGAAGAGTGCCACGAAGCCCTATCGGATCTATCTCACGTGGTTTGTGGCGCGTGATCCGGCACAGTTTTCGCCGGAGGAGTTCCCCATCTTCATCCGAATCTCCGGGGACCGGTCCATGTACGGCGCACCCGCCGTCGACGGCGCCACCGTGAAGGCAACCCTGGACGGCCGGGGAGCACCAACACCGCAGGCGGATTCAGTACCCCGGGAACTTACGGCAGAAGAAATGGCGGAAACGACCGAGACTGTCACTGAGTTCTTCCCAGGGTTGTTCCCCAACATCGTCCGCTCGGACGCTTACCCCGACCTCTACACCAGAGACGGCAACCCCCTGCTTGGCCGGTTCAGCGATGGCAGGAGGATCTACTGCGCCACCGGCTTCTCCGGCGGCGGCTTCAAAAATGCCACCGGCTACGGCCAAATCGCCGCATACGAAGCCCTCGGCAAACGCACCTTCGACGGCCTCGATTTCACGCGCCCCCAACGCTTTAAAGGCAACTGA	MDAKLAVIGLGSIGSMALWQASQLTDSVTGFEAHTPAHGRSAVGGDTRLFRMIYRGNPHLYPILERSRDLWAELEAETGQNILTRTGGLSIGTKNGPYLTALLETTKATGADHEILNREQMAQRYPQHNLRPDDTAVYDPHAGALRTDRAVTAAITAAQTNGATIHTNTPIDSITETTHGVLITSGEKSWTFENVIISSGGWSQLLMPDYLKSATKPYRIYLTWFVARDPAQFSPEEFPIFIRISGDRSMYGAPAVDGATVKATLDGRGAPTPQADSVPRELTAEEMAETTETVTEFFPGLFPNIVRSDAYPDLYTRDGNPLLGRFSDGRRIYCATGFSGGGFKNATGYGQIAAYEALGKRTFDGLDFTRPQRFKGN	PGPT0013530_435	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013530-soxA|solA-K00301	NA	NA
D1-29_00343	768	glnQ_1	COG1126	Glutamine transport ATP-binding protein GlnQ	ATGAGCAACGATGGCACCATCCTTGCCCAGAAAATCCGCAAGTCCTTCGGACCCAAAACAGTCCTCAAAGACATCGACCTGGACATCGCCAGCGGTGAGATCTGCTGCATCATCGGACCCAGCGGCTCCGGCAAATCCACCATCCTGCGCTGCATCAACGGCCTGGAAACAGTGGACTCCGGCGTCCTGAAAGTCAACGGCGAAGACTTCGGTTACTACGAAACCGACAACGCCTACCACGCCCTGCCACCCAAAAAACTCGCCGAACAGCGCACCAGGGTGGGCATGGTCTTCCAGTCCTTCAACCTGTTCCCCAACATGACCGCCCAGGAAAACATCATGTCCGGCCCCGTCCTGGTCAAAGGCCAGGACAAAAAACAAGCCGCCAAACGCGCCCACGAACTCCTCGCCAGCGTCGGCCTGGCCGGGTTCGGGGACTACTACCCCGCCCAGCTCTCCGGCGGCCAGCAGCAGCGCGTCGCGATCGCCCGGTCCCTGGCCATGGACCCGGAGATCATGCTCTTCGACGAACCCACCTCAGCCCTGGACCCGGAAAAGGTCGGCGAAGTCCTCACCGTGATGAAACAACTCGCCAAGAAGGGCATGACCATGGTCGTCGTCACCCACGAAATGGGCTTCGCCCGCGAAGTCGCCGACTCCCTGATCTTCATGGACGACGGCTACGTCATCGAACGCGGCGACGCCCGCGAAGTCCTCACCAACCCCAAGGAAGCCCGCACCCAGGCCTTCCTGGAACAGGTCCTCTAA	MSNDGTILAQKIRKSFGPKTVLKDIDLDIASGEICCIIGPSGSGKSTILRCINGLETVDSGVLKVNGEDFGYYETDNAYHALPPKKLAEQRTRVGMVFQSFNLFPNMTAQENIMSGPVLVKGQDKKQAAKRAHELLASVGLAGFGDYYPAQLSGGQQQRVAIARSLAMDPEIMLFDEPTSALDPEKVGEVLTVMKQLAKKGMTMVVVTHEMGFAREVADSLIFMDDGYVIERGDAREVLTNPKEARTQAFLEQVL	PGPT0020790_2472	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
D1-29_00344	933			hypothetical protein	ATGCAGCAAACTAATATCGAAAGAAGTGAACCCTCCATGAGTGGGATAGACCCAGCGCTCAAGCCAAGGCTTCGGCGGCGCAGCACCTTCGAGTATGTTGCCTGGATCCTATGCAGCCTTTTGGCTCTGGGCATTCTCATCTCGGTTTCCACCAACCCCAACTTCAAGTGGGGCGTAGTGGCGAGGTACTTCACGCATGAAACGATCCTGCGTGGTTTGATGCTCACGCTCTTCCTCACGGTGGCCAGCATGGCCCTGGGAACGATCCTCGGGCTGTTCCTGGCGATCATGAGGGCCTCAAAAATCAAGCCGATCGCGGCCACCGCAGGCGTCTACATCACCCTTTTCCGCGGCACCCCTGTGCTGGTGCAGCTGATCTTCTGGTTCAATGTCGCAGCGCTGTACCCGAACCTGTCCATCGGGATCCCGTTCACCGACATCAGCACCGCGATCGACATGAACGCGCTGATGGCCCCCATCACCGCAGCCTTGGTCGGCCTGACGCTGAACGAGGCAGCGTACATGGCCGAGATCATCCGCGGCGGGTTCTCCTCCGTCGGCAAGGGCCAGATCGAAGCCGCAGACTCCCTGGGCATGAGCGGGTCGATGAAAATGCGCAAAGTCATCATCCCCCAGGCAATGCCCTCAATCATCCCGGCCACCGGCAACCAGGTCATCGGCATGTTCAAGGGAACCTCCCTGGTCAGCGTCCTCGGTGTCGCCGAACTCCTCCAAAGCGCGCAGCTGATCTACGCCCGGACCTACGAAACCATCCCGCTGCTGCTCGTCGCCAGCCTCTGGTACCTGATCATGACCCTGCTGCTGAGCTACCCACAGTCCAAGCTCGAACAGAAATACTCCCGCTCAACCTCCAGGCTTCCCCGAAAAGCCAAACCCGTTCTGCTGACTGCCCCGGAAGGCGCGGCCCGATGA	MQQTNIERSEPSMSGIDPALKPRLRRRSTFEYVAWILCSLLALGILISVSTNPNFKWGVVARYFTHETILRGLMLTLFLTVASMALGTILGLFLAIMRASKIKPIAATAGVYITLFRGTPVLVQLIFWFNVAALYPNLSIGIPFTDISTAIDMNALMAPITAALVGLTLNEAAYMAEIIRGGFSSVGKGQIEAADSLGMSGSMKMRKVIIPQAMPSIIPATGNQVIGMFKGTSLVSVLGVAELLQSAQLIYARTYETIPLLLVASLWYLIMTLLLSYPQSKLEQKYSRSTSRLPRKAKPVLLTAPEGAAR	PGPT0020795_1526	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
D1-29_00345	921			hypothetical protein	ATGAGGACCAGGGTTCAGGCTGCCGCTGCAGGGTTAGCGGTTTTACTGGCCTTAACCGCCTGCGGGACCAGTCCCGGTGAAGATTCAGGTAATAACGGATCCAAGACATCGAACACCACTGACATCTCGGAGGGCGTCCAGCCCGATGAAGCTGCGGTGAAGTTGCTGCCGCAGTCCTACAAGGACAAGGGCGAAATCACGGTGGCCATGGATCTGCATTACCCGCCGACGACATTCCTGGCCGATGACAACACCACCCCGATTGGCCTTAATCCCGATATGGCACGGCTCATTGCCAAAAAGCTTGGCCTGAAGCTGAAGTTCGAGAACACGGCGTTCGACACGATCATTCCCGGGATCGACGGCGGACGCTACGACTTCACCGTGACCACCATGTCGCCCACCGAAGAGCGGTTGAAAGTGCTGGACATGGTGACCTACCTCAACAGCGGGGTATCCGTGGCGGTCTCCCATGGCAACCCGCTGAACATCAGCAACGATGACATGTGCGGCAGGAACATTGCTGTCACGAAAGGCTCGAACGCCCAACTGAAGCACCTGCCGAACGTTTCGAAGTGGACCTGTGAGGAAAAAGGCCAGCCGGCCATCAACGGCGTGACGCTGCCCAACGTCCAGGAGGCCCTGACGCAGCTGGCGTCCAAGCGGGTTGACGGCGTCTTCTACGACACTCCAGCACTTGTCTGGGCCAACGAGCAGCAGCCGAACACGTTCACGGTCCTGACTCCCCAGGTGGACACCCGCACCGACCACATCAACGCCATCGGCCTGAAGAAGGGCTCCCCGCTGACGCCGGCACTCCAGGCAGCCACGCAGTCGGTCCTTGACAGCCGGGAATACAAGAAGTCGCTCGACACCTGGGGCATGAGCGGCGCAGCCATCACCACGGCCAACCTCAAGTAA	MRTRVQAAAAGLAVLLALTACGTSPGEDSGNNGSKTSNTTDISEGVQPDEAAVKLLPQSYKDKGEITVAMDLHYPPTTFLADDNTTPIGLNPDMARLIAKKLGLKLKFENTAFDTIIPGIDGGRYDFTVTTMSPTEERLKVLDMVTYLNSGVSVAVSHGNPLNISNDDMCGRNIAVTKGSNAQLKHLPNVSKWTCEEKGQPAINGVTLPNVQEALTQLASKRVDGVFYDTPALVWANEQQPNTFTVLTPQVDTRTDHINAIGLKKGSPLTPALQAATQSVLDSREYKKSLDTWGMSGAAITTANLK	PGPT0020800_2452	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
D1-29_00346	693	gntR_2		putative D-xylose utilization operon transcriptional repressor	ATGGCGGCACCGGAAGGGCTCTTTGCACTGGAGGGAAGGCCTACGGCGCAGTTGATCGCTGATCAGCTGCGTGAACAAATTGTTCAGGGTACGTTCCGTCCGGGAGACCAGATCAACGAATCTGTCCTGGCAAGCCAGCTACACACATCCAGAGGCCCGGTCCGTGAGGCGTTGCAGCGGCTGTGCCAGGAGGGAATCCTGGTCAGCCGCCGCAACAGGGGCGTCTTCGTCCTTGAGCTCGCTACCGATGACATTATTGAGATCTATGCAGTCCGCCAGGCGGTGGAATCAACTGCCGCTGACGCGCTGCTCGATGCCGGCCAGGACCAGGTCAAGGACACCTGCCAGGCCTTGAAAGCCATCATCAGTGAGATGGCCAAGCAGGTCGCCGCGTCGGACTGGCAGGCGCTTGCCCGGCTCGATATGGAATTCCACACCTCCTTCGTGGCCGGGGCAGGCAACACACGCCTGATCCGGATCTACGAAACCCTCGCAGCCGAATCCAGGATGTGCATCCTCAACCTGGCCGTCGCCTACCCACGGATAGACGTCCTGGTGCAGGAACACCAGATCCTGCTGGATCTGCTCGAGGCCGGAGACAAGGAAGCACTCCACAAAGCCATCAAACGCCACCTGGAAACGGCCGTGGACGATCTCACAGCATCAAGTAAAGGGAGCGACGTCGGCGCCTGA	MAAPEGLFALEGRPTAQLIADQLREQIVQGTFRPGDQINESVLASQLHTSRGPVREALQRLCQEGILVSRRNRGVFVLELATDDIIEIYAVRQAVESTAADALLDAGQDQVKDTCQALKAIISEMAKQVAASDWQALARLDMEFHTSFVAGAGNTRLIRIYETLAAESRMCILNLAVAYPRIDVLVQEHQILLDLLEAGDKEALHKAIKRHLETAVDDLTASSKGSDVGA				NA	NA	NA	NA	NA
D1-29_00347	1455	sad_1		Succinate-semialdehyde dehydrogenase	ATGAGTCTTTCCTTTGATCCCACCACTCTTCATACTGACTTGTTCATCGACGGTGCCTGGCGGAAGGCCTCCAACGGCGCCACGTTCGCCGTCGAAAACCCTGCAACCAATGAAATCATCGCCCACGTCGCCGACGGCGGACCCGAGGATGCAGCCCTGGCCATTCAGGCCGCCGGCCGGGCCCAGGCAGCCTGGGGCAAGTCCACTCCCCGGGAACGGGCAGACATCCTGCGCCGGGCCTTCGAACTGGTCATCGCCAACACCGACCGGCTCGCCGCGATCATGACAGCGGAGATGGGCAAACCCCTCCCCGAAGCCAAGGGCGAGATGGCCTACGGCGCCGAGATGCTCCGCTGGTTCTCCGAAGAAGCCGTCCGCATCGGCGGGGACAGCACCACCTCGGTGGACGGCAACACCCGGATCCTGGTCACCAAGGAACCCGTTGGCCCCTCCGTGCTGGTCACCCCGTGGAACTTCCCGCTGGCCATGGGCGCCCGCAAGATCGCCCCCGCCGTCGCCGCCGGCTGCACCATGGTCTTCAAACCCGCAGAACTGACCCCGCTGACCTCCCTGGCCCTGGTGGACATCTTCCAACAGGCCGGCCTGCCGGACGGGGTCCTGAACGTCGTCACCACCGCCAGCGCCGCCCCCGTGGTGGAGAACTGGACCGGCAGCGGCATCGCCCGCAAGATCAGCTTCACCGGCTCCACCGGCGTCGGCAAAATCCTGCTGCGCCAGGCATCCGAGAACGTCATGCGCTCCTCCATGGAACTGGGCGGCAACGCCCCCTTCATCGTCCTCGCCGACGCCGACATCGAAAAAGCCGTCGACGGGGCCATGAAAGCCAAAATGCGCAACATGGGCGAAGCCTGCACCGCCGCCAACCGCTTCTTCGTCCACCGCTCAGTCCTGGCCGAATTCTCCGAAAAGTTCGCCAAGAAAATGTCAGAACTCCAGGTCGGCAACGGCGCCCTCGACGGAACCGACGTCGGCCCCCTGATCGAGCAAAAGGGCCTGGACAAGGTCCAAAGCCTCGTCGCCGACGCCGTCGCCAAGGGCGCACGCGTCCTGACCGGCGGAAGCCGCCCGGAAGGCCCCGGCTACTTCTACACCCCCACCGTCCTGACCGACGTGACCCTGGACGCGGACCTGATGAACACCGAAATCTTCGGACCGGTCGCAGCCATCACCCCCTTCGACAGCGAAGATGACGTCCTGCACGCAGCCAACGACACCGAATGGGGCCTGGTGGGCTACGTCTTCACCGAAAACATGACCAAAGCCCTGCGGTTCTCCCAGGAACTCGAAGTAGGCATGGTGGGCATCAACACCGGCCTCGTCTCCAACCCGATAGCACCCTTCGGCGGCATCAAACAGTCCGGCCTGGGCCGCGAAGGCGGCAAAATCGGCATCGAAGAATTCCTCGAATACAAATACACCGCAATAGCAATCTAA	MSLSFDPTTLHTDLFIDGAWRKASNGATFAVENPATNEIIAHVADGGPEDAALAIQAAGRAQAAWGKSTPRERADILRRAFELVIANTDRLAAIMTAEMGKPLPEAKGEMAYGAEMLRWFSEEAVRIGGDSTTSVDGNTRILVTKEPVGPSVLVTPWNFPLAMGARKIAPAVAAGCTMVFKPAELTPLTSLALVDIFQQAGLPDGVLNVVTTASAAPVVENWTGSGIARKISFTGSTGVGKILLRQASENVMRSSMELGGNAPFIVLADADIEKAVDGAMKAKMRNMGEACTAANRFFVHRSVLAEFSEKFAKKMSELQVGNGALDGTDVGPLIEQKGLDKVQSLVADAVAKGARVLTGGSRPEGPGYFYTPTVLTDVTLDADLMNTEIFGPVAAITPFDSEDDVLHAANDTEWGLVGYVFTENMTKALRFSQELEVGMVGINTGLVSNPIAPFGGIKQSGLGREGGKIGIEEFLEYKYTAIAI	PGPT0001580_2994	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
D1-29_00348	1254	davT	COG0160	5-aminovalerate aminotransferase DavT	ATGGCAACTCTTAGTCCCCTCCTCAAGCAGGCCACTCCGGTCGTCGTCGACCATGCCCTCGGCAGCTGGATCCACGCGACCGACGGCAAAAAGTACCTCGATTTCACCACTGGAATCGGTGTTACCAGCACGGGTCACTGCCACCCCGACGTCGTAGCGGCTGCCCGCGAGCAGGTGGGCAAGATTGTCCATGCCCAGTACACCACCGTGATGCACAAGCCGTTGCTTGCGCTGACGGAAAAACTGGGAGAATTCCTGCCCTCGGGGCTGGACAGCGTTTTCTACGCTACCTCCGGCTCCGAGGCAGTGGAGGCTTCCGTACGCTTGGCCCGCATGGCCACAGGGCGCCCCAACATCATCTCCTTCCACGGCGGCTTCCACGGCCGGACCGTGGGCGCGGCCTCACTCACCACCGCAGGCACCAAGTTCCGTTCAGGCTTCTCCCCACTCATGGGCGGCGTGCACATCGCCCCCTTCCCCCACGCCTACCGCTACGGCTGGGATGAGGAAACCGCAGTCAACTTCGCCCTGAAGGAGCTGGACCACCTCCTCCTGAGCATCAGCAGCCCCGCAGACACAGCCGGCTTCATCATTGAACCTGTACTGGGCGACGGCGGTTACATCCCCACACCGCCCGCTTTCCTTCAGGGGCTGCGTGAGCGCGCAGACCGGCACGGCATTGTGCTCATCCTCGACGAGGTCCAGGCCGGCGTCGGACGCACGGGCAAGTTCTGGGGACACGACTGGGCGGGAATCGCCCCCGACGTCGTAATCACCGCCAAGGGGCTCGCCAGCGGCTTCCCCATCTCGGCAATTGCGGCATCAGCAGAGCTGATGGGCAAGGCCTGGGCGGGTTCGCAGGGCGGCACTTACGGCGGAAACGCCGTAGCGGCCGCGGCCGGCGTCGCAACCCTGGGTGTTATTGAGCGCGAGAACCTGGTCGAGAATGCCCTGCTTCGGGGCGATGAGCTGCGGGCAGGGCTTGACAGGCTCAAGACAGAATTCACGGGCATCGGAAACGTCCGCGGCCGCGGCCTGATGCAGGGCGTCGAATTCACTTCCCCGGACAGCACCCCTGATGCCACTACCGCCGCGGCTGTCCAGCAGGCAGCCATCAAGGAAGAACTCCTTCTCCTCACCTGCGGCCCGCACGGCAACGTCGTACGCATCATCCCGGCGCTCAACGTCACCAGCGACGAGATCCAGGCCGGCTTGGTCAGGTTCACCCAGGCGCTGAAGACGGCCACCTCCTAA	MATLSPLLKQATPVVVDHALGSWIHATDGKKYLDFTTGIGVTSTGHCHPDVVAAAREQVGKIVHAQYTTVMHKPLLALTEKLGEFLPSGLDSVFYATSGSEAVEASVRLARMATGRPNIISFHGGFHGRTVGAASLTTAGTKFRSGFSPLMGGVHIAPFPHAYRYGWDEETAVNFALKELDHLLLSISSPADTAGFIIEPVLGDGGYIPTPPAFLQGLRERADRHGIVLILDEVQAGVGRTGKFWGHDWAGIAPDVVITAKGLASGFPISAIAASAELMGKAWAGSQGGTYGGNAVAAAAGVATLGVIERENLVENALLRGDELRAGLDRLKTEFTGIGNVRGRGLMQGVEFTSPDSTPDATTAAAVQQAAIKEELLLLTCGPHGNVVRIIPALNVTSDEIQAGLVRFTQALKTATS	PGPT0007140_1586	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007140-puuE-K00823	NA	NA
D1-29_00349	1134	soxA_2		Monomeric sarcosine oxidase	ATGGACGGAAAGCTCGCCGTCATCGGCCTGGGCAGCATCGGCTCCATGGCCCTCTGGCAGGCCTCCCGCCTGTCCGATTCAGTCACCGGCTTCGAAGCCCACACTCCCGCCCACGGCCGCAGCGCCGTGGGCGGGGACACCCGCCTGTTCCGCATGCTCTACCGTGGAGTGCCTGACTTCTACCCCATCCTGGAACGCTCACGGGATCTCTGGGCCGAGCTCGAAGCCGAAACCGGGCAGAACATCCTCACCCGCTGCGGCGGACTGTCCATCGGAACCAAAGATGGGCCGTACATCCCCACGCTCCTGGAAACCACCAGGATCAACAGCGCGGACCACGAAATCCTCAGCCGGGAAGAGATGGCCCAACGCTACCCCCAGCACAACCTCCGCCCCGACGACATCGCCGTCTACGACCCCCACGCCGGCGCCCTCCGCACCGACCGGGCGGTCACGGCGGCGGTGGCGGCCGCCCAAGCCAACGGCGCGACAGTCCACAGCAACACCCCGATCGACAGCATCACCGAAACCGCCGACGGCGTCCTCATCACCTCCGGCGACAAAACCTGGACCTTCGAGAACGTCATCGTCTCCTCCGGCGGCTGGTCCCAACGGCTGATGCCCGACTACCTCACGGCAGCAACCGAAACACGCCGGAACTATCTTTCCTGGTTCGTCGCCCGGGACGCAGCAGACTTTTCACCGGAAAAGTTCCCCATCTTCATCCGGATTTCCGGGGACCGGTCCATGTACGGGGCTCCGGCTGTTGACGGCGTCACCGTGAAAGCAACCCTGGATGGCAGGTCGGAACGGGCCTCCGGACCGGATTCCGTCGTCCGGGAACTAACAGCCGCGGAAATCTCGGAAACCATGGAGACGGTAACAGAGTTCTTCCCCGGACTCTTCCCCAACATAGTCCGCTCTGACGCCTTCCCTGATCTCTACACCAGAGACGGCAACCCCCTCCTTGGACGGTTCAGCGAAGGCAGCAGGATCTACTGCGCCACCGGCTTCTCCGGCGGCGGCTTCAAAATGGCCACCGGCTACGGCGAAATCGCAGCACACGAAGCCTTGGGAAAGCGCACCTTCGACGGCCTCGATTTCGCACGCCCCCAACGCTTCAAAACAAAATAA	MDGKLAVIGLGSIGSMALWQASRLSDSVTGFEAHTPAHGRSAVGGDTRLFRMLYRGVPDFYPILERSRDLWAELEAETGQNILTRCGGLSIGTKDGPYIPTLLETTRINSADHEILSREEMAQRYPQHNLRPDDIAVYDPHAGALRTDRAVTAAVAAAQANGATVHSNTPIDSITETADGVLITSGDKTWTFENVIVSSGGWSQRLMPDYLTAATETRRNYLSWFVARDAADFSPEKFPIFIRISGDRSMYGAPAVDGVTVKATLDGRSERASGPDSVVRELTAAEISETMETVTEFFPGLFPNIVRSDAFPDLYTRDGNPLLGRFSEGSRIYCATGFSGGGFKMATGYGEIAAHEALGKRTFDGLDFARPQRFKTK	PGPT0013530_435	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013530-soxA|solA-K00301	NA	NA
D1-29_00350	768	glnQ_2	COG1126	Glutamine transport ATP-binding protein GlnQ	ATGAGCAACGACGGCACCATTCTTGCCCAGAAGATTCGCAAGTCCTTCGGACCCAAAACAGTCCTCAAAGACATCAACCTGGACATCGCCAGCGGAGAAATCTGCTGCATCATCGGCCCCAGCGGCTCCGGCAAATCCACCATCCTGCGCTGCATCAACGGCCTGGAAACAGTGGACTCCGGCGTGCTGAAAGTCAATGGCGAAGACTTCGGTTACTACGAAACCGACAACGCCTACCACGCCCTGCCGCCCAAGAAACTGGCCGAACAGCGCACCAGGGTGGGCATGGTCTTCCAGTCTTTCAACCTGTTCCCGAACATGACCGCCCTGGAGAACATCATGTCCGGGCCCGTCCTGGTCAAAGGCCAGGACAAGAAGCAGTCGGCCAAGCGGGCGCAGGAGCTTCTGGCCAGTGTCGGCCTGGCCGGGTTCGGGGACTACTACCCGGCCCAGCTCTCCGGCGGCCAGCAGCAGCGCGTCGCGATCGCCCGGTCCCTGGCCATGGACCCGGAGATCATGCTCTTCGACGAGCCCACCTCGGCGCTGGACCCGGAAAAGGTCGGCGAAGTCCTGGCCGTCATGAAACAGCTCGCCAAAAAGGGCATGACCATGGTGGTGGTCACGCACGAAATGGGCTTCGCCCGCGAAGTGGCCGACTCGCTGATCTTCATGGACGACGGCTACGTCGTTGAACGCGGCGACGCCCGGGAGGTCCTCACGAACCCGAAGGAAGCCCGCACCCAGGCCTTCCTGGAACAGGTGCTCTAA	MSNDGTILAQKIRKSFGPKTVLKDINLDIASGEICCIIGPSGSGKSTILRCINGLETVDSGVLKVNGEDFGYYETDNAYHALPPKKLAEQRTRVGMVFQSFNLFPNMTALENIMSGPVLVKGQDKKQSAKRAQELLASVGLAGFGDYYPAQLSGGQQQRVAIARSLAMDPEIMLFDEPTSALDPEKVGEVLAVMKQLAKKGMTMVVVTHEMGFAREVADSLIFMDDGYVVERGDAREVLTNPKEARTQAFLEQVL	PGPT0020790_2472	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
D1-29_00351	936			hypothetical protein	ATGGTCACAGCTACAAAAGGAAGCAAAGCAACGATGAGCAGCATCGATGCAGCCCTGAAGCCACGGCTTCGGCTTCGGACCCGCTCTGAGTACGCCGGATGGATCCTCAGCATCCTCCTCGGAATCGGGGTCCTCACCTCCGTCCTGACCAACCCCAACTTCAAGTGGGGCGTGGTTGCCCAGTACTTCACGCATGAATCCATCCTCCGCGGGCTGATGCTCACGATCTTCCTCACCGTTGCGAGCATGACCTTGGGAACGCTCCTGGGGCTGGGCCTGGCGATCATGCGCTCTTCCCACGTGAAGCCGATCGCCATCGCCGCAAATATCTACATCACCATTTTCCGTGGCACCCCGGTGCTGGTGCAGCTGATCTTCTGGTTCAACATCTCCGCGTTGTACCCGGATCTGTCCATCGGGATCCCGTTCACGGACATCGGCACCGCAATCGACATGAACGTCCTGATGGCACCCATCACCGCGGCCCTGGTGGGCCTGACGCTGAACGAGGCCGCCTACATGGCCGAGATCATCCGCGGCGGGTTCTCCTCAGTCGGCAAGGGCCAGATCGAAGCCGCAGACTCCCTGGGCATGAGCTCCGGCACCAGGATGCGCAAGGTCATCATTCCGCAGGCGATGCCCTCGATCATCCCCGCGACCGGTAATCAGGTCATCGGCATGTTCAAAGGAACATCCCTGGTCAGCGTCCTCGGCGTCGCCGAACTGCTCCAAAGCGCGCAGCTGATCTACGCCCGCACCTACGAGACCATCCCGCTGCTGTTGGTTGCCAGCCTCTGGTACCTCGTGATGACCCTGCTGCTGAGCTACCCACAGTCCAAGCTCGAGCAGAAATACTCCCGCACAGCCTCCAGGCTTCCCCGGAAGGCCAAGAAAGCGGTTGTCCTGACCGAACCGGAAGAAGGTAACCTCCGATGA	MVTATKGSKATMSSIDAALKPRLRLRTRSEYAGWILSILLGIGVLTSVLTNPNFKWGVVAQYFTHESILRGLMLTIFLTVASMTLGTLLGLGLAIMRSSHVKPIAIAANIYITIFRGTPVLVQLIFWFNISALYPDLSIGIPFTDIGTAIDMNVLMAPITAALVGLTLNEAAYMAEIIRGGFSSVGKGQIEAADSLGMSSGTRMRKVIIPQAMPSIIPATGNQVIGMFKGTSLVSVLGVAELLQSAQLIYARTYETIPLLLVASLWYLVMTLLLSYPQSKLEQKYSRTASRLPRKAKKAVVLTEPEEGNLR	PGPT0020795_1894	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
D1-29_00352	930			hypothetical protein	ATGAAGACCATCAACAAAGTTCAGACCGCAGCCACAGGGCTGGCCCTCGTATTGGCACTGAGTGCCTGTGGCGGCGCTGCCACAGGCACTTCTGCCTCCGCGGAAGACAAGTCAAAGACCAACCACACCGCCGACATCTCAGAAGGCGTCCAGGCTGATCCGGCTGCCGTAGCCCTGTTGCCGCAGTCCATCAAGGACAAGGGCGAACTGACGGTCGCGATGGACCTGCACTACCCGCCGACGACATTCCTGGCTGAAGACAACACCACCCCGATCGGCCTGAACCCGGATGTGGCACGGCTCATTGCCAAAAAGCTTGACCTGAAGCTGAAGTTCGTGGACACGAAGTTCGACACCATCGTCCCCGGCCTTGACGGCGGCCGCTTCGACTTCACGGCCACCACCATGTCCAAGACCGAAGAGCGGCTCAAGGTCCTGGACATGATCGACTACTTCAAGGCCGGCACCTCTGTGGCCGCAGCCGCCGGAAACCCGCTGAACCTCACCGTCGAGACCCTCTGCGGAAAGAACATCGCCGTCACCCAGGGCTCCACCGGCCAGCTCAAGCGCCTTCCGGCCCTGAGCGAGCAGACCTGCACCTCGAAGGGACAGCCGGAGATCAACGCCGTAACGCTGCCCAACGTCCAGGAAGCCCTGACCCAGCTGCACTCCAAGCGGATTGACGGCGTACTCTACGACACCACCTCCCTCGGCTGGGCCGAGAAGCAGCAGCCGGGCTCCTTCACCATCATCGGCCGCGTAAACGTTGGCAACAGCGACGTGACCGCCGTTGGCCTGAAGAAGGACTCACCGCTGACACCGGCCTTGCAGACAGCGCTCCAGTCCGTCCTGGAGACCCCCGAGTACAAGGAGTCACTGGAGACCTGGGGTCTGGACTCCGGGGCCATCACCGACGCCAAGCTGAACTAG	MKTINKVQTAATGLALVLALSACGGAATGTSASAEDKSKTNHTADISEGVQADPAAVALLPQSIKDKGELTVAMDLHYPPTTFLAEDNTTPIGLNPDVARLIAKKLDLKLKFVDTKFDTIVPGLDGGRFDFTATTMSKTEERLKVLDMIDYFKAGTSVAAAAGNPLNLTVETLCGKNIAVTQGSTGQLKRLPALSEQTCTSKGQPEINAVTLPNVQEALTQLHSKRIDGVLYDTTSLGWAEKQQPGSFTIIGRVNVGNSDVTAVGLKKDSPLTPALQTALQSVLETPEYKESLETWGLDSGAITDAKLN	PGPT0020800_2384	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
D1-29_00353	675			hypothetical protein	ATGGCAGATACGAACCTCCGGCCGAAGTACATCTCTTTTGATATCTACGGCACCCTCATCAACTTCGACATTGATCCCACCACGCGTCGCCTGCTCGATGGCCGCATCTCAGAAGAGCAGTGGCCTGCCTTCAAGAAGCAGTTCCGCGGGTACCGCTTCGACGAGGTCTGCGGCGACTACAAGGACTACGAAGCGATCCTTCAGGATTCCTTTGACCGCGTGTGCAAGCGCTGGGGCATTGGGCCCACCGAAGGTGCCGGCGCAGCGTTCGCTGAGGCTGTGCGCGGCTGGTTTGCCCACGAGGACGTGCCGGCACCGCTGAAGCTCATGGGCGACAACTACAAGCTGGTGGCTCTGTCCAACGCCGACGACAGCTTCTTGGACATCAGCATTCCCAAGCTCGGGGCCGACTTCCACGCGGTGTTCACCGCTGAGCAGGCTCAGGCCTACAAGCCGCGTTACCAGGCCTTCGAGTACATGCTCGACACCCTGAACGCTTCGCCGGAGGACTTCCTGCACATCTCCTCGCACACCCGCTACGACATGCACCCGATGCACGACATGGGCTTCCGGAACCTCTGGATGCTGGACCGTGGCTATGACCCCATTGGCCCGGGCTACGACCTCAACACTGCTAAGTCCTTGGACGAGATCAACAAGCACCTCGGTCTCTAA	MADTNLRPKYISFDIYGTLINFDIDPTTRRLLDGRISEEQWPAFKKQFRGYRFDEVCGDYKDYEAILQDSFDRVCKRWGIGPTEGAGAAFAEAVRGWFAHEDVPAPLKLMGDNYKLVALSNADDSFLDISIPKLGADFHAVFTAEQAQAYKPRYQAFEYMLDTLNASPEDFLHISSHTRYDMHPMHDMGFRNLWMLDRGYDPIGPGYDLNTAKSLDEINKHLGL	PGPT0006885_2040	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
D1-29_00354	1278	puuB_1		Gamma-glutamylputrescine oxidoreductase	GTGAAACTCATTCCTTACTGGCTGGACACAGCCGAAGCATCCGGGGACTACCGGCAGACGCCGGTACCGGAAAATGTCGATGTGGCAATCATCGGCGCCGGATTTACCGGGCTGTCCGCGGCCCTGGAATTCGCCAAGCAGGGCGCCAGCGTTGCCGTTTTTGAACGCCACACCGTGGGCTGGGGCGCATCGGGCCGCAACGGGGGAATGGCGACGACCGGTTTGGCCATCAGCTTCAGCACCGCGGTCAAGCGGTATGGGGAAACCCGCGCGGTGGAGATGTTCCAGGAATACAACGATGCCATCGAGACCATCGAGAAGCTGGTCCATGACAACGGCATCGACTGCGACTACAAGCGCTTCGGGAAGCTCTCGCTGGCGTTCCACAAGTCCCATTACGAGGGCTTCCTGAGGTCGCAGGAGAAGCTGGCCAAGCTGGCCAACCACCATGTCACCGTTATCCCCAAGTCCGAGATCCACAGTGAAATCGGCACGGACTTCTACCAGGGCGCGATGGTTGACCCGCTTGGGGCCGGCCTGCACGTTGGCAAGTTTGTCCACGGCCTGGCCGGAGTGGCTGTTGCCGCCGGAGCGGATATCTGTGAAAACGCTGCGGTGACCGAACTGAAGAAGGTTTCCGGCACTGTGCACGACGTGCACACCACCAGGGGCATCACCAGGGCCAAGCAGGTCCTGGTGGCCACCAGCGGTTACACCGGCAATGTCACGCCGTGGCTGCAGCGCCGGGTGATTCCGGTGGGCAGCTTCATCATTGTCACTGACCCGCTGCCCGAAGACGTGGTCAACCGGATCCTGCCCAACCGCCGCCAGGCCTCGGACAGCAAGATGCTGACCTACTACTTCCGCATCACCCCGGACAACAGGCTGCTGTTCGGCGGCCGGGCCCGTTTCGCGCTGTCCAGCCCGGATTCGGACGTCAAGAGCGCCGAGATCCTCCGGAAGGCAATGCTCGAGCTCTTCCCGTACCTCTCCAACGCCAAGGTGGACTACATCTGGGGCGGCCTGGTGGACCTCTCCATGGACCAGATGGTACATGCGGGGCAGCACGACGGCCTCTTCTACTCCCTCTGCTACAGCGGACACGGAGTGCAGATGGCTGCGCACATGGGCAAGCGGATGGCTCACTACATGGCCGGCGACAAGACCGCCAACGTGTGGGAAGACCTGAAGAACCCGCCCGTGCCAGGCCACTTCGGCCCACCGTGGTTCCTGCCCTTCATCGGCGCGGCGGCAAAAATCATCGACCGAGTCAAGTAG	MKLIPYWLDTAEASGDYRQTPVPENVDVAIIGAGFTGLSAALEFAKQGASVAVFERHTVGWGASGRNGGMATTGLAISFSTAVKRYGETRAVEMFQEYNDAIETIEKLVHDNGIDCDYKRFGKLSLAFHKSHYEGFLRSQEKLAKLANHHVTVIPKSEIHSEIGTDFYQGAMVDPLGAGLHVGKFVHGLAGVAVAAGADICENAAVTELKKVSGTVHDVHTTRGITRAKQVLVATSGYTGNVTPWLQRRVIPVGSFIIVTDPLPEDVVNRILPNRRQASDSKMLTYYFRITPDNRLLFGGRARFALSSPDSDVKSAEILRKAMLELFPYLSNAKVDYIWGGLVDLSMDQMVHAGQHDGLFYSLCYSGHGVQMAAHMGKRMAHYMAGDKTANVWEDLKNPPVPGHFGPPWFLPFIGAAAKIIDRVK				NA	NA	NA	NA	NA
D1-29_00355	1548	safD_2	COG1012	Sulfoacetaldehyde dehydrogenase	ATGTCATCACCAACTGTCGCTGAAGCGCGCCCAAAAACTACAGAGGAATCTGCGTACAGGCGTGCACGATTTGCCAACCTTCCCGGGGGAGCTTTTTTCGAGGGGCAGTGGCAGACCGCCGATCTGACCCTGGAGGTGCGGGATCCTGAGGACGGTGTCCTGCTCGGCCGGGTGTGCACTTCCACTCCAGAGGATGTGGAGCGTGCCATCGCCCACATCCGCCGCCATCTTGAGGCGGGTGAGTGGCCGTTGCGTGCCCGCCGGCAGGCGCTGGAAAAGGCTGTGCTGCTTTTGGGCGAGCAGGCTGAGCGGTTCGCGAACATCATCGCGTCCGAGAGCAGCAAGACCATCACCGAGGCCGAGCGCGAGGTGCGCCGCTGCGCCGAGACGCTGCGGCTGTCCGCGGCGGCTGCCGGGGAGCTGGCAGGGGAGACCCTGGGTTTTGAGGACAGCATGGCAGGTGCCGGCAAGATTGGCTGGTACAGCCGGAAGCCGGTGGGGATCGTCGCGGCGATCACCCCGTTCAATGATCCGCTGAACCTGGTGGCGCACAAGCTGGGCCCGGCCCTGATCGGCGGCAACGGCGTCCTGCTCAAGCCCTCCACGCGCACACCCCTGGTGGGGCTGGCCTTTGTCCAGCTGCTGCTGGAAGCCGGTGTCCCGGCGGGCCGGATCGCGGCGATCGTGACCGGGCCCGGCGTGTCCGAGGCTGTTGTCACGGACCCGGGCGTTGACCTGATTTCCTTCACCGGCGGCCCCGCCACGGCAGAACGGATCGCCGCGGCGGCCGGTGCGAAGAAGATCCTCTCCGAACTCGGCGGGAACAACGCCACGATCATCTGCGCCGACGCCAACGCGCAGGCCGCGGCGAAGGCCGTCGTGGCCGGCGCGTTCGGGGTCGCGGGGCAGAACTGCCTGTCGGTCCAGCGGGTCTACGTCCACACCTCACTGTTTGAGGAAGTCCTGGAACTCGTCACCACGGGCACGAGGGCGCTGCGGACCGGGCCGAAGCTTGACCGGGGAACCGACGTGGGCCCGCTGATCTCCGAGGCCGAGGCCCGCCGGGTGGAGGAATGGGTGGAAGAAGCCACAGCGGCCGGCGCCACCATCCACGCCGGCGGGACCCGCCGGGGCGCCTACTATGAACCCACGGTCCTGACCGACGTGCCCTCGCAGGCCCGGGTGATCCGGGACGAGGTGTTCGGCCCGGTGGTCAGCATCCTGCCGTTCATCGAGGTCCGCGACGCCGTGTTCGCGGCCAACAACACCGAGTTCGGCCTCCAGGCCGGGGTCTTCACCCAGTCCATCGACCTGGCCCTGGCGATAGCGGAGAAACTGCACGTGGGCGCCGTGGTGATCAACGAGACCAGCGACGTCCGGATCGACTCGATGCCCTTTGGCGGGTTCAAGAAATCCGGCGTAGGCCGCGAAGGCGTCAGCCACGCGGTCCGCGAAATGACAGAACCCAAAAACACCATCATCAACCTCGGCGAATCACAGGCCCGCTGGCAGGTCCTGGGCGGCCTAACGGAACGGACCACACCATGA	MSSPTVAEARPKTTEESAYRRARFANLPGGAFFEGQWQTADLTLEVRDPEDGVLLGRVCTSTPEDVERAIAHIRRHLEAGEWPLRARRQALEKAVLLLGEQAERFANIIASESSKTITEAEREVRRCAETLRLSAAAAGELAGETLGFEDSMAGAGKIGWYSRKPVGIVAAITPFNDPLNLVAHKLGPALIGGNGVLLKPSTRTPLVGLAFVQLLLEAGVPAGRIAAIVTGPGVSEAVVTDPGVDLISFTGGPATAERIAAAAGAKKILSELGGNNATIICADANAQAAAKAVVAGAFGVAGQNCLSVQRVYVHTSLFEEVLELVTTGTRALRTGPKLDRGTDVGPLISEAEARRVEEWVEEATAAGATIHAGGTRRGAYYEPTVLTDVPSQARVIRDEVFGPVVSILPFIEVRDAVFAANNTEFGLQAGVFTQSIDLALAIAEKLHVGAVVINETSDVRIDSMPFGGFKKSGVGREGVSHAVREMTEPKNTIINLGESQARWQVLGGLTERTTP	PGPT0018005_345	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018005-gapN-K00131	NA	NA
D1-29_00356	1083	dmlA	COG0473	D-malate dehydrogenase [decarboxylating]	ATGAACGCCAACACAAGCACGCACAATATCGCGGTGATCGCCGGGGACGGCATCGGCCAGGAAGTCGTCCCGGCGGCCATCGAGTGCCTCGAGCGGATCGCCTCGATGCATGGGCTGGACCTGAACTTCACGTTCTTTGAGTGGGGCTCTGACTACTACCTGCGGCATGGCCGGATGATGCCGAAGGACGGCATCGACCAGCTCGCAAAGCATGACGCGGTGTTCCTGGGCGCGGTGGGCTCACCGGAGGTCCCGGACACCGAATCACTGTGGGGGCTGCTGATCCCGATCCGGCGCGAATTCCAGCAGTACATCAACCTCCGCCCGGTCAAAACGCTCGACGGCGTGGCCTCACCGCTCGCCTCGGACAAACCGATCGATATCCTGATCGTCCGGGAAAACAACGAGGGTGAATACTCGGAGGTGGGCGGGCGGATGTACCGTGGCCTGCCGCACGAGAGCGCCGTGCAGGAAACCATCTTCACCCGCCTGGGCATCTCCCGCGCCGCCCGCTACGCCGCTTCCCTGGCCTCGTCCCGCACGGGCAGGCTGACGTCCGCAACCAAGAGCAACGGCATCGTGCACACCATGCCGTTCTGGGACGAAGTCGTCGAAGAAACCGTCAGCAATTACCCGGGCGTGACTGTGACCCACGAACTCGTGGACGCCCTGGCCGCGCACCTGGTCCTGAAGCCCTGGACCCTGGACGTCATCGTCGCCTCCAACCTCTTCGGAGACATCCTCTCGGACCTGGGCAGCTCCGTAACAGGGTCCATCGGGCTGGCCCCCAGCGCGAACCTGAACCCGGAAGGCCACTTCCCGTCCCTGTTCGAACCGGTCCACGGCTCCGCCCCTGACATCGCCGGGAAGAACCTGGCAAACCCGGTAGGGCAGATCTGGTCCGGTGCGATGATGCTGGAGCACCTCGGCCACCCCGAAGCCGCCGCGCACCTGCAGGCCGCGTTCGAATCAGCCCTGCGCGACGGTCACGGCACCCGCGACATCGGCGGAACCTCGTCCACGACCGAATTCACGGCCGCCGTCCTGACCGCCATCAACGCCCTCTCCCCGGTCACAGTATGA	MNANTSTHNIAVIAGDGIGQEVVPAAIECLERIASMHGLDLNFTFFEWGSDYYLRHGRMMPKDGIDQLAKHDAVFLGAVGSPEVPDTESLWGLLIPIRREFQQYINLRPVKTLDGVASPLASDKPIDILIVRENNEGEYSEVGGRMYRGLPHESAVQETIFTRLGISRAARYAASLASSRTGRLTSATKSNGIVHTMPFWDEVVEETVSNYPGVTVTHELVDALAAHLVLKPWTLDVIVASNLFGDILSDLGSSVTGSIGLAPSANLNPEGHFPSLFEPVHGSAPDIAGKNLANPVGQIWSGAMMLEHLGHPEAAAHLQAAFESALRDGHGTRDIGGTSSTTEFTAAVLTAINALSPVTV	PGPT0001905_20	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TARTRATE_UTILIZATION,PGPT0001905-ttuC|dmlA-K07246	NA	NA
D1-29_00357	1005	ghrB_1		Glyoxylate/hydroxypyruvate reductase B	ATGAGCCCCGGTTACAGCATGAGGACCGGAGCCCCAGTGCCCAAGCGTCCCGTCGTCGCCGCCCTCTACCGCGAAGCACTCCCGCCCCGCCTGGCGGAAGTCGAGGAACTCGCAGAGGTCCGGCTGACCAAGGCAGACGGCCTCGCGGATGCGCTGGACGGCGCCGACGTGCTCTACCAGTGGCACTCCTTCTCGCCGGCACTGCGTGAGAACTGGGGCGCCGCCTCCACCCTGCAATGGATCCACGTCACCGCAGCAGGTGTCAGCCAGCTCCTGTTCGATGAACTGGTCCGCAGCAACGTGACCTACACCAACTCCCGCGGCGTGCTCAGCACGGCCATCGCCGAGTTCGCGCTGGGCTTCGTCCTGGATATGGCCAAAGACTCCCAGGGCTCCTACCGGTTGCAGCAGGAACAGCGCTGGCAGCACCGGACTACCCGCAAAATCCAGGGCCAAACCGCCCTCGTGGTCGGCACCGGGTCGATCGGCCGGGAAATAGCCAGGCTCTTCCGCGCCGTGGGCATGGAGGTGGACGGCGCCGGAAGGACAGCCCGGCCAGGAGACACCCACTTTGACCGGATCCACTCCTCCCAGAACCTCGCCGCGGTGGTTCACGGCTATGACTACCTGATCCTGGCAGCCCCGCTGACCGCCGACACCAAAAACCTGGTCGGCGCTGGCGTCCTCAATGCCATGAAACCCTCGGCCCGGCTCATTAACGTCGGCCGCGGGGAACTGGTTGATACCGAAGCACTGATCCACGCGCTCACCACAGGCTCCATCGCCGGCGCAGCCCTGGATGTTGTCCACCCGGAACCACTCCCGGCCGGACACGCCCTCTGGGACATGGAAAACGTCATCATCACCCCACACATGTGCGGCGACACCGAGAACTACCTCGATGACCTCGGCAAGCTCTTCGTAGACAACCTCAAACGCTACTGCAGCGGCGAACCACTGGAAAACATCGTGGACAAAGAACTCGGATTCGTCCCCGCCGGCTAG	MSPGYSMRTGAPVPKRPVVAALYREALPPRLAEVEELAEVRLTKADGLADALDGADVLYQWHSFSPALRENWGAASTLQWIHVTAAGVSQLLFDELVRSNVTYTNSRGVLSTAIAEFALGFVLDMAKDSQGSYRLQQEQRWQHRTTRKIQGQTALVVGTGSIGREIARLFRAVGMEVDGAGRTARPGDTHFDRIHSSQNLAAVVHGYDYLILAAPLTADTKNLVGAGVLNAMKPSARLINVGRGELVDTEALIHALTTGSIAGAALDVVHPEPLPAGHALWDMENVIITPHMCGDTENYLDDLGKLFVDNLKRYCSGEPLENIVDKELGFVPAG				NA	NA	NA	NA	NA
D1-29_00358	102			hypothetical protein	ATGTTAGATGACGTTGCTGATCAGCAGATGTCCGGCGGCTCGGAACCCGATGACCTGTGCGATGAATACTGCCACTACTGCTTAGGGCCGGAAACAGACTGA	MLDDVADQQMSGGSEPDDLCDEYCHYCLGPETD				NA	NA	NA	NA	NA
D1-29_00359	2196			hypothetical protein	ATGGCTGGATGGAATGCTGATACTGCGGCGGGCCCCATTGGGGCCGGGACGGTCACCTTGGTGGAGGGATCGTCCTTCTGCATCTCGCTGCAGAACGGGGACATCCATGCTGAGTTTCCCCATGGAGTCTTTTACCTTGACACCCGCATCCTGTCCGGCTGGTGCTTAACCGTAAACGGCATGGCGCTTGAGCCGTTGGCGGCGGAGACGAAGGAACCCTACAGGGCCCTGCTGGCCGGGCGCGTTCCGCGGGCCGATGGATACGCCGACAGCCCCCTGATTGTGGAGCGGCTGCGGGAAGTTGGCGCGGGCATCCAGGAACAGGTGACCGTCCGCAACTATTCGCCCGTCCCTGCGGAATGCCTGATTTCGCTGACGGTCGGAGCGGATTTCGCGGACCTTTTTGAGGTGAAGGAAGCCCGGGTCCAGCGGCGGTGGGAAGAAACCCGGCACGTGGACGGCGACACCTTGGCCATCCGGTCCACCTGGCAGGACATCCAGAAAGGCATCCTGGTCCAGGCACCCGGGGCAGAGGTGACCCCTGAGGCCCTGACGTACCGGGTGTCCGTCGCCCCGCATGGCCAGTGGAGCACTGTCCTGACAGTGGTTCCCAGCAACGACGCCGCCAGTCCTCCGCCGCCGTCGTTCATCCATACCGAAGCGGATGGATTGTCCCCCCGGGACCTGCGCCGACGCGAGTGGGTGGCCAAGATTCCAGTGCTGCGGCTGGAAAACCATGCCCTCGAACGGACGTTGCGGCGCAGCTACGACGACCTGGGCGCCCTGCGCATCGAGGACCCGAACCATCCGGAACGGGTGGTTGTGGCCGCCGGTGCGCCGTGGTTCATGACATTGTTCGGCCGGGACTCCCTGTGGGCTTCGGAAATGGCGATGCCGGTGGACCCCTCCCTTGCCCTGGGCACGTTGCAGACGCTGGCGGACCGGCAAGGCAGGGTGGTGGACCCGATGAGCGAGGAGGAGCCGGGCAAGATCCTGCACGAGGTCAGGCTGGACGTCTCCAGCGGCCTTTCCTTGGGCGGAAAGTCCGTCTACTACGGAAGCGTGGACGCTACTCCGCTGTTTGTGGTGGTTCTTGGCTCGGTCAGCCGGTGGGGATTCGCCAAGGACACCATTGCGGCCCTGCTCCCCCATGCCGACCGGGCATTGGAATGGATCCGCAAGTACGGGGACAAGGACGGGGACGGTTTTGTCGAATATGAACGGCTCAACCCCCAAGGGCTGATCAACCAGGGCTGGAAGGACTCCTGGGACGGCATCAACTTCGCCGACGGCCGCATGGCTGAGGGTCCGATCGCCCTCTGCGAGGTTCAGGCGTACGTCTACGACGCGTATATGTCCCGCTCGTGGCTTGCCTACGATACCGGTGACATTGCCTTGGCGGAGGAACTGCGGGACCGCGCGAAGCAGCTCAAGGAACAGTTCAACGAGCAGTTCTGGCTTCCTGACCGCGGCTACTACGCCATCGCCCTGGACGGGGACAAGCGTCCTGTCGATGCCTGCGCATCGAACATGGGCCACTGCCTCTGGACGGGCCTGGTGGACGAGGACAAGGCGCCGCAGGTGGTGGAGCGCCTGATGTCCCCGGAGATGTTCAGCGGCTGGGGCATACGTACCCTGGCAAGCGACATGGGTGCCTACAACCCCGCGAGTTATCACAATGGCTCAGTGTGGCCGCACGACAACGCGGTTATCCACGCCGGGCTCGTACGCTATGGATTTGTGGCCGAGGCGCAAAGGATTTCGACGGCGTTGCTGGAGGCTGCGGAGTATTCCGGCGGCCGGCTGCCGGAGCTGTTTTGCGGCTTCAGCCGGGACCAGTTCGCCGAGCCTGTGCCCTATCCGACGGCCTGCTCCCCACAGGCCTGGGCGGCAACGACGCCAATCCTGCTGGTGACGAGTCTGATGCGGTATGACGCCCATGTTTCCCGTGGCGGCATGTGGATGGACCCCGTTCTCCCCGAGTCCTACGGCAACCTGCATATCAGCAATGCCCCCATGGCCGGTGGCCGGATCACCATCGATATTGCCAATTCAGTTCCCACCGTCCAGGGGCTGCCCGAAGGGATGGAGTTCCACCACGGACACCGGCCATGGCTGACAGAGCTCGTGGAGGAAGCCGGCCGGCGCCAAAAGTCCGGCCTTCAGGATCAGTCTGTTTCCGGCCCTAAGCAGTAG	MAGWNADTAAGPIGAGTVTLVEGSSFCISLQNGDIHAEFPHGVFYLDTRILSGWCLTVNGMALEPLAAETKEPYRALLAGRVPRADGYADSPLIVERLREVGAGIQEQVTVRNYSPVPAECLISLTVGADFADLFEVKEARVQRRWEETRHVDGDTLAIRSTWQDIQKGILVQAPGAEVTPEALTYRVSVAPHGQWSTVLTVVPSNDAASPPPPSFIHTEADGLSPRDLRRREWVAKIPVLRLENHALERTLRRSYDDLGALRIEDPNHPERVVVAAGAPWFMTLFGRDSLWASEMAMPVDPSLALGTLQTLADRQGRVVDPMSEEEPGKILHEVRLDVSSGLSLGGKSVYYGSVDATPLFVVVLGSVSRWGFAKDTIAALLPHADRALEWIRKYGDKDGDGFVEYERLNPQGLINQGWKDSWDGINFADGRMAEGPIALCEVQAYVYDAYMSRSWLAYDTGDIALAEELRDRAKQLKEQFNEQFWLPDRGYYAIALDGDKRPVDACASNMGHCLWTGLVDEDKAPQVVERLMSPEMFSGWGIRTLASDMGAYNPASYHNGSVWPHDNAVIHAGLVRYGFVAEAQRISTALLEAAEYSGGRLPELFCGFSRDQFAEPVPYPTACSPQAWAATTPILLVTSLMRYDAHVSRGGMWMDPVLPESYGNLHISNAPMAGGRITIDIANSVPTVQGLPEGMEFHHGHRPWLTELVEEAGRRQKSGLQDQSVSGPKQ				NA	NA	NA	NA	NA
D1-29_00360	114			hypothetical protein	ATGCAAGCTAAATCCTTCGTTCCCGTATCCGGGGGCCATATCAGGCGCAAAGCCGCCATCCGCTACATCCTGGACGCTGCCCCGCAGCGCGGCCTTACCTGGAGTACACGGTGA	MQAKSFVPVSGGHIRRKAAIRYILDAAPQRGLTWSTR				NA	NA	NA	NA	NA
D1-29_00361	204			hypothetical protein	GTGACTGCGATGCTCAGCTCAGGAGACCGGGTTGTCTTTGAAACCGACCGATTCGGGGGAGCTGGCATTGTTGACGATGTCATGCCTGACGGGTCAGTTGTCTGGGTGTGGACCGACGACGGCATGGGGCGCAGGATGATCTGCACCAAAGACGGCGCCTCCATAGCCCGCGAAGACGGAGAGAGCTGGCAGTCAGCGCGCTAG	MTAMLSSGDRVVFETDRFGGAGIVDDVMPDGSVVWVWTDDGMGRRMICTKDGASIAREDGESWQSAR				NA	NA	NA	NA	NA
D1-29_00362	570			hypothetical protein	ATGCCGTACACAGCAAGAAGGCCGCAGAGGTTCTCCCGGGAGGAACTGGAGTCCCGAATTCCCGGCTGGGGAGCTGATCTGGACCCCGCCGACAGGCCGGCAGTGCCCCGGGAACGCACGGACCTGCAAACGGGAGCCCACTGGGAGTTTCCCGAACGCCAGCCGGAGGAGTGGCACCGGGAGCGGTCTGTGGAACACCAGTTCCTGACTCCGGTTTTTGGGACGTCCGCTCCCCCGAAAGGTGTTTCAGGGGCCATCCGAAAATACGCGTACCGGTTCAGCGAGGGACGCGCGGCGCACTGGCTGATTCTGGTCGCCGCGGACAGGGTGGACGCCTGGGGCAGCCATCTGCGGTCATTCGGGACACTGCGCCCGGACAACCCCGTGACGGAAACAGGTGTTCTGAGCGAAAGGGCACGCCACGGTTTCCGGTCACGGTTCGACGGTAAGCGCCCGGACGTTAAACACCAGTGGCTGGACCCTATTATCGTTGCCGGCCCGTGGCTGGGAGTGGCTGCCGCGGGCATTGCCGCCGTGCGGGCCCTGGCCGCCAGGCGGAGCGGACCCTAG	MPYTARRPQRFSREELESRIPGWGADLDPADRPAVPRERTDLQTGAHWEFPERQPEEWHRERSVEHQFLTPVFGTSAPPKGVSGAIRKYAYRFSEGRAAHWLILVAADRVDAWGSHLRSFGTLRPDNPVTETGVLSERARHGFRSRFDGKRPDVKHQWLDPIIVAGPWLGVAAAGIAAVRALAARRSGP				NA	NA	NA	NA	NA
D1-29_00363	1149		COG1063	putative zinc-binding alcohol dehydrogenase	ATGCGCGCAATGGTGTACCGCGGCCCATATAAGGTCCGGGTGGAAGAAAAGGAAATCCCCAGGATTGAGCATCCCAACGACGCGATCGTGCGGGTCTCGCTCGCCGCGATCTGTGGTTCGGACCTGCATCTGTATCACGGCATGATTCCGGACACCCGCGTGGGCACCACCTTTGGACACGAGTTCGTGGGCGTCGTTCACGAGGTGGGGCCATCCGTTGAGAACGTCAAACCCGGAGACCGGGTCATGGTGCCGTTCAATGTCTATTGCGGCTCGTGCTATTTCTGCTCCCGTGGCTTGTATTCGAACTGCCACAATGTCAATCCCAATGCCACCGCCATCGGCGGGATCTACGGCTATTCGCATACCTGCGGCGGTTACGACGGCGGGCAGTCCGAATTCGTTCGGGTCCCTTTTGCCGACGTGGGGCCTGCACCGATCCCCGACTGGATGGATGAGGAAGACGCAGTCCTCCTCACCGACGCCCTGGCCACCGGCTACTTCGGGGCGCAACTCGGGGACATCGCCGAAGGTGACACCGTGGTTGTTTTCGGTGCCGGCCCGGTTGGCCTTTTTGCTGCCAAATCTTCCTGGCTGATGGGGGCAGGCCGGGTCATCGTCATCGACCACCTTGAGTACCGGCTGGAGAAAGCGCGCACCTTTGCACACGCCGAGACGTACAACTATGCCGACTACCAGGACATTGTTGTGCACCTGAAGAAGATCACGGACTATTTTGGTGCAGACGTGGCCATCGACGCGGTGGGCGCCGAGGCTGACGGCAATTTCCTGCAACACGTCACAGGAACAAAACTGAAGCTGCAGGGCGGATCCCCGGTGGCACTGAACTGGGCTATTGACTCGGTCCGCAAGGGCGGCACAGTAGCAGTTATCGGCGCCTATGGCCCGGTGTTCAGCGCCGTGAAGTTCGGTGATGCAGTCAACAAGGGGCTGACACTGCGGATGAACCAGTGCCCGGTGAAGCGCCAATGGCCGCGGCTTTTCGACCACATCCGCAACGGCTACCTCAAGCCCAGTGACATCGTCACCCACCGCATACCGCTTGAGGACATAGCGGAGGGATACCACATCTTCTCGGCAAAGCTCGATAACTGCATCAAACCGCTGATCCTGCCCACGGCCAGCTGA	MRAMVYRGPYKVRVEEKEIPRIEHPNDAIVRVSLAAICGSDLHLYHGMIPDTRVGTTFGHEFVGVVHEVGPSVENVKPGDRVMVPFNVYCGSCYFCSRGLYSNCHNVNPNATAIGGIYGYSHTCGGYDGGQSEFVRVPFADVGPAPIPDWMDEEDAVLLTDALATGYFGAQLGDIAEGDTVVVFGAGPVGLFAAKSSWLMGAGRVIVIDHLEYRLEKARTFAHAETYNYADYQDIVVHLKKITDYFGADVAIDAVGAEADGNFLQHVTGTKLKLQGGSPVALNWAIDSVRKGGTVAVIGAYGPVFSAVKFGDAVNKGLTLRMNQCPVKRQWPRLFDHIRNGYLKPSDIVTHRIPLEDIAEGYHIFSAKLDNCIKPLILPTAS	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
D1-29_00364	1206		COG2170	Putative glutamate--cysteine ligase 2	ATGACCTTGGGCGGCCTGCGAAGCTTCGGGGTGGAGGAAGAGTTCCTGCTCGTTGACGCCCGGACAGGAAGCCATGCCCCCGTAGCTGAATCGATAGTGGACAAATCCGGCGCGGACGCAGCGGCCCGCGCCGGGAAACGCCCAGGTACGGGAGGCGCCAAAGCACGGCCTCTGCATAACAGCCTGACCGGCGAGGTTCAACGCGAGCAGCTGGAGGCAGTGTCCGCGCCGTTCGAGGATCTGGAGCAGCTGGCTGCTGCCCTCCGGGCAGGACGGGAAGAGGCTGACCGCCAGGCGTCCAGGGTTGGCGCAAGGATCGTCCCCCTCGGTACGTCACCCCTTCGTGTACTCCCGCACCGGGCAAGCCAGCCCAGGTACCGGGCTATGGAAGAGCGCTTTGGGCTGATCCTTCGGGAACAGTTGATGTGCGGCTTCCATGTTCACGTTTCGGTGGCCTCGCCTGAGGAAGGGGTAGCCGCACTTGACCGGATCAGGACGTGGCTTCCTGTCCTGATCGCGCTTTCTGCCAATTCTCCCTTCTGGCAGGGGCAGGACACCGGTTACGCCAGCTTCCGCTACCAGGTCTGGCGGCGCTGGCCAACCGCAGGACCTACCGAAGTTTTTGGTTCGGCCTCAGCCTACGAAGAACTCGTTCAGATGCTGCTCTCCTGCGATGTCCTGCTGGATGGCGCCATGATCTACTTCGACGCACGCCTGTCAGCAAGCTATCCGACTGTGGAGGTACGCGTGCCGGACGTCTGCACAGAGCCTGACCACGCCGTCGCCCTGGCCGCGATTACCCGCGCCCTGGTGGAGACGGCGGCAAGGGACTGGTCAAAGGGGGTGCCGCTGCCCCCGGTTCCGGCCGAGATGCTCCGGCTCGCGTCGTGGCGCGCCAGCCGTTTTGGACTCAGCGGGGACCTGATCCATCCCGTCCACAATCGCCCGAGTCCTGCCCGGGAGTGCGTGGAAGCTTTGCTTTCCCATACGAGGGACGCCCTGTCCGACGCCGGTGACCTCACGTTCGTCACCGACACGGTTGCCAGGATCCTCGCCGAAGGCAACGGGGCGGAACGGCAAATGGCGGTTTTCAGCCGCACCGGAAATTTGCGCAACGTCGTTCTGGATGCCATGAACACCCCAACCCTGCGCCCTTCGCCCGCGGAGCGGCGCTATCCCGTCGGACTGAATCGTGAGGGGACCTAA	MTLGGLRSFGVEEEFLLVDARTGSHAPVAESIVDKSGADAAARAGKRPGTGGAKARPLHNSLTGEVQREQLEAVSAPFEDLEQLAAALRAGREEADRQASRVGARIVPLGTSPLRVLPHRASQPRYRAMEERFGLILREQLMCGFHVHVSVASPEEGVAALDRIRTWLPVLIALSANSPFWQGQDTGYASFRYQVWRRWPTAGPTEVFGSASAYEELVQMLLSCDVLLDGAMIYFDARLSASYPTVEVRVPDVCTEPDHAVALAAITRALVETAARDWSKGVPLPPVPAEMLRLASWRASRFGLSGDLIHPVHNRPSPARECVEALLSHTRDALSDAGDLTFVTDTVARILAEGNGAERQMAVFSRTGNLRNVVLDAMNTPTLRPSPAERRYPVGLNREGT	PGPT0026300_409	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
D1-29_00365	294			hypothetical protein	ATGGCGGACCAGAGCACAGAGCGGAAAGAGCCTATCGTGGCCACCTCTCACTTTGACCAATTCCTCATTGAAGCGACAGTTACCGACCCCGGCACAGATCTGTCCCTTGGAGCGGACACCCTCTACGGCCTATACACAAGCTGGTGTTTTCTCAAGGGCCTGGTACCGAAGGAAGACAGTGTCTTCCGGGCAGCCATGCGGCGCGCCGGCATTGACCTGCACGACACCCGGCTGCGCATGACGGGCCCGGCGGCGGCAGACTACATCTTGGCGAGTTACCCAGCGATGGCATGA	MADQSTERKEPIVATSHFDQFLIEATVTDPGTDLSLGADTLYGLYTSWCFLKGLVPKEDSVFRAAMRRAGIDLHDTRLRMTGPAAADYILASYPAMA				NA	NA	NA	NA	NA
D1-29_00366	795	ybeM		Deaminated glutathione amidase	ATGCGGGTTGCTGCTGGGCAGTTCAGTGCGGGGACAGATATATCCCTGAACCTGTCGGCGATCTCCGTGCTGATCGGGAAAGCAGCGGATGTGTCGGCGGAGTTGCTTGTCCTCCCTGAGTCCAGCATGTATGCCAGCCCTGAACCACCCCCTGACGCCGCCGTCCTTGCACAGAATCTTGATGGCCCCTTTATCCGGGACATCGCGGTGCTGGCGAGGGAAGCAGGTCTTGGTGTGGTGGTGGGGATGATGGAGTCCCGACAGGACGGAGCGCCGCCATACAACACCCTTGTGGCGCTTGATGTCCGCGGCGGAATCAGCGCCTTGTATCGCAAAATCCATCTCTACGATGCATTCGGTTACAGCGAAAGCGCCTGGACCAGCGCCGGTCCAATTGCGGAGCCCCAAGTTCTGGATATCGGCGGTTTCCGGGCCGGAATGCTCACCTGCTATGACCTCCGATTTCCTGAAAGCGCACGATTCCTTGTTGACGCGGGTGCGAATGTCCTCCTTTTGCCCGCGATGTGGATAGCGGGCCCCGGCAAGGAGGACCACTGGAACACTTTGGTGCGTGCCCGCGCCATCGAGAACACGAGCTACGTCGTGGCGGCGAACCAGTGCGGCCCGCTGGCCACGGGATATTCAATGATCGTGGATCCGTTTGGAGTGGTGATGGCCAATGCTGGCGAAGGGGCGGGGCTGGTGTTTGCCGACCTGGACCTCACGCGGCTTGCCGACGTACGCCTGCGGATCCCCTCCTTGGGAAACCGGCGGTTTAAAGTCCTGCCCGGCTGA	MRVAAGQFSAGTDISLNLSAISVLIGKAADVSAELLVLPESSMYASPEPPPDAAVLAQNLDGPFIRDIAVLAREAGLGVVVGMMESRQDGAPPYNTLVALDVRGGISALYRKIHLYDAFGYSESAWTSAGPIAEPQVLDIGGFRAGMLTCYDLRFPESARFLVDAGANVLLLPAMWIAGPGKEDHWNTLVRARAIENTSYVVAANQCGPLATGYSMIVDPFGVVMANAGEGAGLVFADLDLTRLADVRLRIPSLGNRRFKVLPG				NA	NA	NA	NA	NA
D1-29_00367	840		COG2071	Putative glutamine amidotransferase	ATGAACCACACCGAAGGTGCCGCGCGGCCGCTGATCGGGCTGACCACTTACCTTGAGGCGGCCGGCACGGACGGCTGTGGCAGGGTGGAAGCGGCGTTTCTGCCGCAAAAGTACATGGAACCGATCATCGCCGCCGGCGGTGTGCCGCTGCTCCTTCCCCCTCAGCCGGTGACGGCTCCTGCCGTGGAACGCCTGATCAGCACGGTCGACGGGCTGCTCATCCCCGGCGGCTGGGACGTGGACCCCTCGCTTTATGGCCAGGAACGCCACGCTGAAACAGACCAGCCCCGCACCGGCCGCGACGCCTGGGAACAGGCCCTCATCCTGGAAGCCATCCGTCAGGACGTGCCGCTGTTTGGCATATGCCGGGGTGAGCAGTTGCTGAACGTCACACTGGGAGGCACGCTGCACCAGCACCTGCCGGATGTGATCGGGAGCGCCCACTACCAAGCGGGCGGACACCGTTTCCACACCATCCCTGTGGAGATTAGGCCTGGTTCCACGCTGGGCGGACTTTTGGGCCCGGCGGCAGACGACGTCCCGGTATCCCACCACCAGGCTGTCGATAAGTTGGGGCGTGGCCTCATGGCAACAGCCTGGAGCCCCGAGCAGGTAGTTGAAGCGATCGAACACCCGGGACTCACATTCTGCGTTGGCGTCCAGTGGCACCCCGAGCAGATAGCTGGTGAAGAGGTTCTGTTCCAAGCCTTTGTTGATGCTGCGGCCGGAAAGATGCTTTCCAGGCTCCTGCCGGCGCTGGACCTGGCCGGGCCTCAGATCCCGACGCCGGGCCCTCAACTTTCCGGCGTCGGGCACCTCAGCGCTTCAAAGGCCAGCTAA	MNHTEGAARPLIGLTTYLEAAGTDGCGRVEAAFLPQKYMEPIIAAGGVPLLLPPQPVTAPAVERLISTVDGLLIPGGWDVDPSLYGQERHAETDQPRTGRDAWEQALILEAIRQDVPLFGICRGEQLLNVTLGGTLHQHLPDVIGSAHYQAGGHRFHTIPVEIRPGSTLGGLLGPAADDVPVSHHQAVDKLGRGLMATAWSPEQVVEAIEHPGLTFCVGVQWHPEQIAGEEVLFQAFVDAAAGKMLSRLLPALDLAGPQIPTPGPQLSGVGHLSASKAS	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
D1-29_00368	1374	radA	COG1066	DNA repair protein RadA	ATGGCAACAAAGACCTCCCGGGCCTCCAAGGCGCCCGCCTACAAGTGCGCCGAATGTGGCTGGACCACCGTCAAGTGGGTGGGCCGCTGCGGGGAATGCCAGGCCTGGGGCACCGTGGAGGAAACCGGTGCCGCGGTGGCCCGGACCACCGCGGCAGCCACTGTTCTTGAGCCGGCCCGCCGGATCGCGGAGGTGGACGCCACCACCGCGGCATTCCTGCCCACGGGCGTTGATGAGCTGGACCGGGTGCTGGGCGGCGGACTGGTACCGGGCGCCGTCATCCTGCTGGCCGGCGAGCCTGGCGTGGGGAAATCCACCTTGCTGCTGGACGTTGCGGCAAAGTTTGCCCGCACCGCCCAGGACGTTCTGTATGTCACCGGTGAGGAGTCAGCAGCTCAGGTGAAGCTGCGCGCGGAACGGATCGACGCCGTCGCCGAGTCTCTGTACCTGTCCGCGGAGACAGATCTTGGCCAAGCGCTGGGCCAGGTCGAGAAGATCGAGCCACGGCTGCTCATTGTGGACTCGGTCCAGACCCTCAGCAGCGCTGACGTGGACGGCAGCGCCGGCGGTGTATCCCAGGTCCGCGAAGTCGCCGCCTCAATCATCGCCGCGGCCAAAAGGCGAAACATGACCACCCTGCTGGTGGGCCACGTGACCAAGGACGGATCCATCGCCGGGCCCCGCCTTCTGGAGCACCTCGTGGACGTCGTGTGCCAGTTCGAAGGCGAGCGGCACTCCCGGCTCCGGCTCCTGCGTGCGGTGAAGAACCGCTACGGGCCTACGGATGACGTCGGCTGCTTTGACCTGAACGAGGACGGCATCGTGGGCCTTGCCGATCCCAGCGGGCTTTTTGTCAGCCGCATCAAGGAACCGGTGTCCGGCACGTGTATTACTGTGACCATGGAAGGCCGCCGTCCGCTGCTGGCGGAAGTGCAGTCCCTGCTGGCCGAAAGCCCGAACTCCCAGCCGCGGCGGGCCACCAGCGGGCTGGACAGTTCCAGGGTTTCCATGCTGCTGGCGGTGCTGCAGCAGCGCGCGGGATGCCTGCTGCACAAGGATGATTCCTATGTGGCCACAGTGGGAGGCGTGAAGCTCAGTGAGCCCGCCACGGACCTTGCGGTGGCCCTGGCTGTGGCCTCGGCAAAGGCGCGGAAGCCGCTGCCCATCCGCCTGATCGCCTTCGGTGAGGTGGGGCTGGCCGGTGAAGTCCGCCCGGTGCCGGGGATCAATCAGCGCATCCAGGAAGCCCACCGGCTGGGGTTCACGCACGCCGTCGTACCGGCAAGCCACAACGGCCCGGGCCCCATCCCGGCTGGCTTCTCCGTCCGGGAAGTGGAGCACCTGACGGAGGCCCTGAGCCTGCTGATCGGATAG	MATKTSRASKAPAYKCAECGWTTVKWVGRCGECQAWGTVEETGAAVARTTAAATVLEPARRIAEVDATTAAFLPTGVDELDRVLGGGLVPGAVILLAGEPGVGKSTLLLDVAAKFARTAQDVLYVTGEESAAQVKLRAERIDAVAESLYLSAETDLGQALGQVEKIEPRLLIVDSVQTLSSADVDGSAGGVSQVREVAASIIAAAKRRNMTTLLVGHVTKDGSIAGPRLLEHLVDVVCQFEGERHSRLRLLRAVKNRYGPTDDVGCFDLNEDGIVGLADPSGLFVSRIKEPVSGTCITVTMEGRRPLLAEVQSLLAESPNSQPRRATSGLDSSRVSMLLAVLQQRAGCLLHKDDSYVATVGGVKLSEPATDLAVALAVASAKARKPLPIRLIAFGEVGLAGEVRPVPGINQRIQEAHRLGFTHAVVPASHNGPGPIPAGFSVREVEHLTEALSLLIG	PGPT0014905_2535	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014905-radA-K04485	NA	NA
D1-29_00369	1317			hypothetical protein	GTGAAATTTTCACGACGAAATACCGCCGCCGCGCTAGCGGGAGCAGCAGCATTGGCCCTTCTCGCCACCGGCTGCGCAGGCAGTTCGGACCAGCCGGCCGGTGCGGGCAACCCCGTTGAACTGACGGTCACTACGTTCGGCACGTTTGGTTACGAGGGCCTCTATGCCGAGTACGAGCAGGCAAACCCCGGGGTAACGATCAAGGCCACCAACATTGACCGGGGATCAAACGCCCGCACGGACGCTTTCACCAAGTTGGCTGCCGGCTCAGGGCTCACCGATGTGGTGGCCATCGAGGAAGGCTGGCTGGGTTCAATCATGGAAGTCTCGGACCAGTTCGTGGACCTCAAGGAACACGGCGCCGCTGACATCCAGGCCAACTGGGTGGATTGGAAGTTCAAGCAGGGCACCGACCCCGCCGGCCGCGTCATCGGCTACGGGACCGACATCGGGCCGCAGGGGCTTTGCTACAACGGCAAGCTGTTCGAAGCGGCAGGCCTCCCCAGCGACCGTGAATCCGTTGCCAAGCTCTTCGGTGGGCAGGACGCCACTTGGGAGAAGTACTTCGAACTCGGCAAGCAGTACAAGGCAGCCACCGGAAAGGCCTGGTATGACCAGTCCGGCTTCGTCTGGAACTCCATGGTGAACCAGATGGAGGAGGGGTACTACACCAAGGACGGGGAGCTCAACGTCGACGGCAACAAGGAAATGAAGGGCAAGTTCGAGATGCTGGCGGCCGGAACGGCTGCGGGCCTGTCCGCCAACCAGACCCAGTGGGACTGGGGCAATGGCAAGGCGTTTGTGGACGGCTCCTTCGCCACCTTCGTCTGCCCCGGCTGGATGCTGGGCACCATCAAGGGACAGCTGGAATCTGCAGGCGGCGGCGCCGGCAGCGGCTGGGACTTCGCCGATGTCTTCCCCGGCGGGGCGTCGAACTGGGGCGGTGCCTTCCTCTCCGTTCCCAAGACGTCCGAGCACCCGGCAGAGGCCGCGAAACTTGCCGCCTGGCTTACGGCCCCCGAACAGCAGGTCAAGCAGTCTGCTGCCGCCAATAATTTCCCCAGCACGCTCAAGGCCCAGGAAAAGCTGGTCCAGGATGCCACGCCCAACGTCCTCTTCAACAACGCACCCACCGGCGCGATCCTGGCCAACCGCGCCAAGGGCGTGGTCGCGCAGTTCAAGGGACCGGACGATTCCGTCATCCAGGAGAACGTGTTCGGCCCGGCGCTGAAGAGCCTCGACGCCGGAACCGCCGACGCCGGCAAGGCCTGGTCCGAAGCCCTGCGCCTCCTCAACGACCTGGTCGTCAACAACTAG	MKFSRRNTAAALAGAAALALLATGCAGSSDQPAGAGNPVELTVTTFGTFGYEGLYAEYEQANPGVTIKATNIDRGSNARTDAFTKLAAGSGLTDVVAIEEGWLGSIMEVSDQFVDLKEHGAADIQANWVDWKFKQGTDPAGRVIGYGTDIGPQGLCYNGKLFEAAGLPSDRESVAKLFGGQDATWEKYFELGKQYKAATGKAWYDQSGFVWNSMVNQMEEGYYTKDGELNVDGNKEMKGKFEMLAAGTAAGLSANQTQWDWGNGKAFVDGSFATFVCPGWMLGTIKGQLESAGGGAGSGWDFADVFPGGASNWGGAFLSVPKTSEHPAEAAKLAAWLTAPEQQVKQSAAANNFPSTLKAQEKLVQDATPNVLFNNAPTGAILANRAKGVVAQFKGPDDSVIQENVFGPALKSLDAGTADAGKAWSEALRLLNDLVVNN	PGPT0016430_286	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016430-cebE-K10240	NA	NA
D1-29_00370	1023	lacF_4		Lactose transport system permease protein LacF	ATGACAACCACGCTGAACCGGTCCGCCACGCCTGGGGCCGCCAAACCCAAACCGACGTTCAAACAACGCCTGAGCATTTTCGACGTCAAAGCATCGCCCTACTTTTACGTCGCTCCCTTCTTCATCCTGTTTGCCCTCGTGGGCCTCTTCCCGCTGGTCTACACATTTTTCGTGAGCCTCTTTGACTGGCACCTGCTCAAAGGGCAGGGGCAGTTTGTGGGCCTGGAGAACTTCGCCGAGATCCTGCAGGACCGCTTCTTTTGGAATTCGATCTTCAACACCGTGAGCATTTTCATCCTCTCCGCCGTTCCGCAACTGGCACTGGCGCTGTTCCTGGCAGCAGTTTTGGACCAGAACCTTCGGGCCAAGACGTTCTGGCGCATGAGCATCCTGCTGCCGTACATCGTGACGCCGGTGGCGGTGGCCATGATCTTCACCAACATGTTCGGCGAGCAGTACGGCCTGATAAATAACATCCTCGGGAACTTCGGCCTGGACCCCGTCATGTGGAAGAACGAGACGTTTCCGAGCCACGTCGCCATCGCTACCATGGTCAACTGGCGCTGGACCGGCTACAACGCCCTGATCCTGCTGGCCGCAATGCAGGCCGTTCCGCGGGACCTGTATGAATCGGCAGCCCTTGACGGTGCCGGAGCAGTCCGGCGGTTCTTCAGCATCACACTGCCCAGCATCCGGCCCACCATGGTCTTTGTGGTCATCACAGCCACCATCGGTGGACTCCAGGTCTTCACGGAGCCCAGGCTTTTTGACCCCGCCACGGCCGGCGGATCGCAGCGCCAGTTCCAGACCACCGTGCTGTACCTCTGGGAGATGGCCTTCCAGCGCCAGAACTTCGGCAAGGCATCAACCATCGCCTGGCTGCTCTTCCTGATCATCGTGCTGTTCGGCTTTATCAACTACCTGATCTCCCGCCGGATCGCCACAGCTGATGCAGGCAGGCCCTCCCGCGCTGCCCGCAGGACAATCGCTGCCCGGAAACGTGCTGAGAGGACCAACAGATGA	MTTTLNRSATPGAAKPKPTFKQRLSIFDVKASPYFYVAPFFILFALVGLFPLVYTFFVSLFDWHLLKGQGQFVGLENFAEILQDRFFWNSIFNTVSIFILSAVPQLALALFLAAVLDQNLRAKTFWRMSILLPYIVTPVAVAMIFTNMFGEQYGLINNILGNFGLDPVMWKNETFPSHVAIATMVNWRWTGYNALILLAAMQAVPRDLYESAALDGAGAVRRFFSITLPSIRPTMVFVVITATIGGLQVFTEPRLFDPATAGGSQRQFQTTVLYLWEMAFQRQNFGKASTIAWLLFLIIVLFGFINYLISRRIATADAGRPSRAARRTIAARKRAERTNR	PGPT0016435_29	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016435-cebF-K10241	NA	NA
D1-29_00371	933			hypothetical protein	ATGAGCATCATCGACCGCGCCAAACCTGAATCTGCCGGGCGGTCAACCGGCAAAACCCCTGCGGCGGAAGCAGTCCCGGCGAAACCTGCCATCTTCCGAAAGCGGTTCTTCGGGACCGGCGAGCGCCCCGGGTTCCTCAGCTACGGACTTCTTCTGGCGTTCCTGCTTTCGTCCGCCTACCCCCTGTGGTGGTCTGTTGTGATCGGAAGCAGGTCCAACGAAGCACTGGGTGAAACGTGGCCGCCGCTGCTGCCCGGCGGGAACTTCTGGAAAAACGTGGGCGAAGTTTTTGACACCGTTCCGTTCTGGCTTGCCCTGGGAAACAGCGTCCTGATCTCGGGAATCATCACTGTCTCGGTAGTGGGATTCTCCACCCTCGCCGGCTACGCCTTCGCCAAGCTGAGGTTCCGCGGCCGGAACGGTCTCATGCTGATGGTTGTTGCCACCATGGCCATCCCCACCCAGCTGGGCATTATCCCGCTCTTTATGGTGATGCGGACGCTCGGCTGGACCGGCGAGATCGGCGCCGTTGTGGTGCCCAGCCTGGTAACGGCTTTTGGAGTGTTCTTCATGCGGCAATACCTGATGGACGTTATTCCGGACGAGCTCATCGAATCGGCCCGCGTGGACGGCGCCAACATGATCTCCACGTTCTGGCACGTGGCCATCCCTGCCGCCCGCCCGGCCATGGCCATCCTGGGCCTGTTCACTTTCATGACGGCGTGGACGGACTTCCTGTGGCCTCTGCTGGTGCTCGACGCCGGCAACCCCACACTGCAGACGGCGCTCAGCCAGTTGCAGTCGGCCCGTTACGTGGACTACTCGGTGGTCCTGGCAGGCGCGGTGCTGGCCACCCTGCCGCTGCTGGTGCTGTTTGTGCTGGCAGGGAAACAACTCATTTCAGGAATCATGCAAGGAGCAGTGAAGGGCTAA	MSIIDRAKPESAGRSTGKTPAAEAVPAKPAIFRKRFFGTGERPGFLSYGLLLAFLLSSAYPLWWSVVIGSRSNEALGETWPPLLPGGNFWKNVGEVFDTVPFWLALGNSVLISGIITVSVVGFSTLAGYAFAKLRFRGRNGLMLMVVATMAIPTQLGIIPLFMVMRTLGWTGEIGAVVVPSLVTAFGVFFMRQYLMDVIPDELIESARVDGANMISTFWHVAIPAARPAMAILGLFTFMTAWTDFLWPLLVLDAGNPTLQTALSQLQSARYVDYSVVLAGAVLATLPLLVLFVLAGKQLISGIMQGAVKG	PGPT0016440_188	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016440-cebG-K10242	NA	NA
D1-29_00372	1443	bglB_1		Beta-glucosidase B	ATGCCACATTCGACGTACTCACGGCAGTGGCCGGAGGGTTTCATTTGGGGATCGGCGACGGCGGCAGCCCAGATTGAGGGGGCCGGCCATGAGGGCGGGAAGGAGGATTCCGTGTGGGACCAGTTCGCCCGGATCCCCGGCGCGGTGGCCAAGGGGGACAACCTGGAACAGGCCGTGGACCATTACCACCGGATGCCTGAAGACGTCCGGCTGATGAAGGAACTGGGGCTGGATTCCTACCGGTTCTCCACCAGCTGGGCCCGGGTGCGCCCGGGGGACAGGGGCACCAATCCGGAGGGCCTGGACTTCTACTCACGCCTGGTGGATGAACTGCTGGAGGCGGGAATCCTGCCGTGGTTGACGCTTTACCACTGGGACCTGCCCCAGGCACTGGAGGACAAGGGTGGCTGGGCGAACAGGGACACGGCCTACCGGTTCGTCGACTACGCAAACGATGTCTACACCGCCCTCGGGGACCGGGTGCAGCACTGGACCACCTTTAACGAACCATTCTGCTCTTCACTGCTGGGCTACGGTTCCGGTGTCCACGCCCCCGGCCGGCAGGAACCAACAGCAGCCGTCGCGGCCGTGCACCACCAGCACCTGGCCCACGGCCTGGCCGTCAACGCACTGCGGGACCGCGGAGCCCAGAACCTGGGAATCACGCTTAACCTCAGCAACTCCATTCCACGGGACCCGCAGGACCCTATCGACCTGGACGCGGCCCGGCGCTTTGATTCCCTGCAGAACCGGATCTTCCTCGATCCCATCCTGCGCGGAAGCTACCCGGAGGACACCCTGCGCGACCTCGCAGCGTTTGGCCTGCCGGAACTCATCCTCCCCGGTGACCTGGAGACCATCAGTGCGCCGCTGGAGTTCCTGGGCGTCAACCACTACCACGACGATCTCATCAGCGGGCATGCCGACGATGCCGGAAGCGACGGGCACTCGGGCGGCGCCGAACGGGTTGCGGCCTCACCGTGGATCGGATCCGAGGACATCGCCTTTCCGAGCCGGGGGCTGCCGCGGACTGCCATGAACTGGGAAGTGAACCCTGACGGATTGCGGAAACTGCTGGTCCGCCTCGGCGATGAATATCCGTCGCTGCCGCCGTTGTACATCACCGAGAACGGTGCGGCTTATGAGGACAGTGTCGGCCCGGACGGCGCCGTGCACGACGCCGATCGCACCGGCTTCATCCTGGACCACATCGCTGCTGTCGGTGAAGCGATCGATCAGGGCGCCGACGTCCGGGGCTACTTCGTCTGGTCGCTGCTGGATAACTTTGAATGGTCCTGGGGATACGGGAAGCGCTTTGGGATTATCCGCGTGGACTACGGCTCGTTCGAGCGCACCATCAAGGACAGCGGCCACGCCTTTGCCCGGCTGATTGCCGTCACAAAGCGGGACGCGTCCCGGCTGCCTGCCACACTGCCTGCCTAA	MPHSTYSRQWPEGFIWGSATAAAQIEGAGHEGGKEDSVWDQFARIPGAVAKGDNLEQAVDHYHRMPEDVRLMKELGLDSYRFSTSWARVRPGDRGTNPEGLDFYSRLVDELLEAGILPWLTLYHWDLPQALEDKGGWANRDTAYRFVDYANDVYTALGDRVQHWTTFNEPFCSSLLGYGSGVHAPGRQEPTAAVAAVHHQHLAHGLAVNALRDRGAQNLGITLNLSNSIPRDPQDPIDLDAARRFDSLQNRIFLDPILRGSYPEDTLRDLAAFGLPELILPGDLETISAPLEFLGVNHYHDDLISGHADDAGSDGHSGGAERVAASPWIGSEDIAFPSRGLPRTAMNWEVNPDGLRKLLVRLGDEYPSLPPLYITENGAAYEDSVGPDGAVHDADRTGFILDHIAAVGEAIDQGADVRGYFVWSLLDNFEWSWGYGKRFGIIRVDYGSFERTIKDSGHAFARLIAVTKRDASRLPATLPA	PGPT0019165_822	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019165-bglB-K05350	NA	NA
D1-29_00373	1020	rbsR_3	COG1609	Ribose operon repressor	GTGAAGCAAGATCAGAGCGGAAGCCGGCCGGCGCCAACCCTTGAAATGGTGGCGGCGCTGGCCGGCGTGTCACGGGCTACTGTCTCGCGCGTGGTGAACGACGTGCCCAGCGTGGACGAGGACATCGCCGCAAAGGTACGCCAGGCCATCCTCGCCGTGAACTACACCCCCAACCGGGCCGCCCGGTCCCTTGCCAGCCGGAAGCCCAACTCGATCAGCCTGATTGTGCCGGAGTCCACGTCCAAGGTCTTTGCCGACCCGTTCTTCGCCTCAGTGGTCCAAGGCGTGGCCCTCCATCTCGCGGATACCGACTACACCCTCAACATGGTCATCGCGTCCGAGGCCAAACCGGAAAAAACCAGGGCGTTCCTGCTCGGCGGCAACGTGGCCGGCGCACTGGTGGTGTCCCACCATGCCGGGGACCGTTCCTGGGCCCACGTCAGCGACTACATCCCGATGGTTTTCGCTGGCAGGCCCCTGGCCGAGGGCGGAAGCTACTACGTGGACGTTAACAACGAAGCCGCCGCCGAAGGAGCAACCCGGCTGCTGATCGAGGGCGGCCGCACGCACATCGCCACCATCGCCGGACCCCAGGACATGCCGCCCGGCGTCGACCGGGTCACCGGCTGGCGGAAGGCCCTCGAAGTCTCCGGGCTGGACGATTCCCTGGTGGAGTATGGCGACTTCACCCTTTCCTCCGGCGCCAAGGCAATGCGGCGGCTCCTTGAGCGTGGCAAACCCATCGACGGGCTCTTCGTGGCCAACGACCAGATGGCTGCCGGGGCCTACACCGTCCTCCAGGAACGCGGGATCAGGATTCCAGACGACGTGGCGGTAGTGGGATTCGATGACGATTCCTTTGCCACTTCCGTGAATCCGCAGCTGACCACCGTGCATCATCCCATCATTGAGATGGGCAAGAAGATGGCTGAGATCCTGGTGGATCTGATCGAGGGCAAGCCCACGGACCGGGTCACCCAGATCCCCACATCGCTGGTGATCCGTGATTCCGCCTCTTAA	MKQDQSGSRPAPTLEMVAALAGVSRATVSRVVNDVPSVDEDIAAKVRQAILAVNYTPNRAARSLASRKPNSISLIVPESTSKVFADPFFASVVQGVALHLADTDYTLNMVIASEAKPEKTRAFLLGGNVAGALVVSHHAGDRSWAHVSDYIPMVFAGRPLAEGGSYYVDVNNEAAAEGATRLLIEGGRTHIATIAGPQDMPPGVDRVTGWRKALEVSGLDDSLVEYGDFTLSSGAKAMRRLLERGKPIDGLFVANDQMAAGAYTVLQERGIRIPDDVAVVGFDDDSFATSVNPQLTTVHHPIIEMGKKMAEILVDLIEGKPTDRVTQIPTSLVIRDSAS	PGPT0017992_8991	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
D1-29_00374	1005	iolU_1	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolU	GTGATTCCGCCTCTTAACTGGGGTGTGGTGGCCACCGGCCGGATTGCCCACCGGGCCACCCGCGATCTCGCCCGGCTGGAAAATGCGGTTCTGCATGCGGTCAGTTCACGCAGCCAGGCCGCCGCGAAGGAGTTCGCCGGACAATACGGCTTCGCAGCCAGCTACTACGACCGGCGGGCCACCACGGGCTACCAGCAGCTCTTTGACGATCCTGTGGTTGACGTGGTCTATGTCGCCACCCCGCATGCGCAGCACTTCGAGGTTGCAAAGGCGGCCCTGGAAGCGGGCAAGCACGTCCTCTGCGAAAAGCCGCTCACGGTCAACGCCAGGGAAACGATAGAGCTTGTGTCACTGGCCGGGGAGCGGAAGCTGTTCCTGATGGAGGCGGTGTGGACCCGGTTCCTGCCCGCGACGCTGCGGGCCCTGGAGCTGGTCCGGGGCGGCCATTTCGGCACCATCCGGTGGGTGCAGGCCGATCTCGGCTTTGCCGCACCCTACGACCCCAGCCACCGGCTCTTTGATCCGGCGGCAGGGGGCGGCGCCCTCCTGGACCTGACCGTCTATCCGCTGACCTGGGCCATCAGCGTACTGGGTTTTCCAGCCACTGTCGCCGCCTCGGGCCAGCTCAACAGCGACCGGATAGACGTCCAGAACACCGTGACCCTGGGGTACGCGGACGGCGCCTCGGCCCAGTTGGTTTCCTCCCTGCAATCTGAGAGCCCAGGCACCGTTACCATCAGCGGCACGAAGGGCTGGCCGCGGACCGGCTGGCCCCTCTACCGCCCGCGCAGGCTGGAATACCAGGGCACTGACGGCATAGTGCGGGTGGAGGAGTTCCCGGAAGAGACCGAAGGCTTCATCCATGAATTGAGGGAAGCAGCACGGTGCATCAGGGCAGGGCTGCTGGAGAGTCCCCTGCTGCCGTGGGAAGAAAGCCTGCGGATCATGCAGATCCTTGACGGCGTCCGGGACCAGCTGGGCGTCCACTACAAGAACGACCGCTAA	MIPPLNWGVVATGRIAHRATRDLARLENAVLHAVSSRSQAAAKEFAGQYGFAASYYDRRATTGYQQLFDDPVVDVVYVATPHAQHFEVAKAALEAGKHVLCEKPLTVNARETIELVSLAGERKLFLMEAVWTRFLPATLRALELVRGGHFGTIRWVQADLGFAAPYDPSHRLFDPAAGGGALLDLTVYPLTWAISVLGFPATVAASGQLNSDRIDVQNTVTLGYADGASAQLVSSLQSESPGTVTISGTKGWPRTGWPLYRPRRLEYQGTDGIVRVEEFPEETEGFIHELREAARCIRAGLLESPLLPWEESLRIMQILDGVRDQLGVHYKNDR				NA	NA	NA	NA	NA
D1-29_00375	1152			hypothetical protein	ATGCCGGTGAATAGACTGGAACGCATGGCCATTTCAGCAGGAATCTCAACAGGCAGGCGTTTCCTGCGTGGCCGCGTCCGCACCGGGCTGATCCGGAGCCGGAACTCCTTGCTCCCCGCCATCCAGATGACCGTTTGCGCGGTGGGGGCCTATGCCTTCGCCGAGTACGTGCTGGGGCACACCGGCCCGCTTTTCGCGGCCACGTCGTCGCTGATTGCGTTGGGTTTCTCCCGGGAGCCGAGGCTGCGCCGGGTGGTTGAGGTGGGCCTGGGCTGCACTATCGGCATTGCGGTGGGCGACCTGCTGCTGCACTGGCTGGGTGATGGAATCTGGGTGGCCGCCGTCGTCCTGATGGTCTCCATCCTGCTGGCCCGTTTCTTGGACAGCGGCACCATCTTCACCACGCAACTGGGGCTCCAGTCACTGCTGGTGGTGCTGCTGCCGGCGCCCCCCGGCGGGCCCTTCACCCGCAGCCTGGATGCCGTGGTGGGTGGGCTTTGCGCCCTGTTGGTGACCATCCTCATCCCGAAGGACCCCCGGCGTGAACCACGCAAGGACGTCCAGAAGCTGCTGCACGAACTCGCCGAGGTGCTGCGCGAATGTGCCACCGCACTGGGCAACAGCGATTCCACCCAGGCGTGGCATGCGCTGATCCGGGGCCGGAACTGCCAGCCGCTGGTGGACGGCATGCGCCAGTCGCTGCGCGCCTCCGGCGAGGTGGCCACCCTGGCTCCGGCCTACCGCCGGCACCGGGACGAGCTGGACCGGCTGGAGCAGTCGCTGGATTTCATCGACCTGGCGCTGCGGAACAGCCGGGTTTTTGCGCGCCGGCTCACCAGCGCGATCAACCATGCCGCCCTGTCGGATGAAGCCACGGAGAACCTCTCCGAGGTCCTGCAGGACACCGCTGCCGCGATCGACGAGCTCTCACTTGGGCTGGCAGAAACGCACGACGGCGTCCGGCGCGCCCATCTGCGCGCGGCCCGGCAGGACCTGAGCGAAATCGCACTGCGGCTGCACCCGAAGCTGTTGGAGGTGCAGCGGCTGGAAGGCGAGACAGTGGTCATGCTTTTCAGGCCGCTGATGGTGGACCTGCTCGAGGCCACGGGGATGGATTCGCGCGAGGCCCGGGACATCCTGCCCGCGCTCTAG	MPVNRLERMAISAGISTGRRFLRGRVRTGLIRSRNSLLPAIQMTVCAVGAYAFAEYVLGHTGPLFAATSSLIALGFSREPRLRRVVEVGLGCTIGIAVGDLLLHWLGDGIWVAAVVLMVSILLARFLDSGTIFTTQLGLQSLLVVLLPAPPGGPFTRSLDAVVGGLCALLVTILIPKDPRREPRKDVQKLLHELAEVLRECATALGNSDSTQAWHALIRGRNCQPLVDGMRQSLRASGEVATLAPAYRRHRDELDRLEQSLDFIDLALRNSRVFARRLTSAINHAALSDEATENLSEVLQDTAAAIDELSLGLAETHDGVRRAHLRAARQDLSEIALRLHPKLLEVQRLEGETVVMLFRPLMVDLLEATGMDSREARDILPAL				NA	NA	NA	NA	NA
D1-29_00376	1122	pstS3	COG0226	Phosphate-binding protein PstS 3	GTGAAGGCTCTCCGCTTCGGCCGCCACGCGGCCATCGCTGTTATCGCGGCAGGCGCACTCGCGCTCTCCGCCTGCGGTTCAGACAACGTCACGGGCGCGGCCCCCGCAGGCACCCAGACTTCGGCAGGACCCAAGGTCACCGGCACACTGACCGGCATCGGCTCCTCCGCGCAGGGCGCGGCCATGGATGCCTGGAAGACCAACTTCGCCTCCGCCAACCAGGGCGCAACCGTGCAGTACTCCCCGGATGGTTCCGGCGCAGGCCGCAAGGCACTCCTGGACGGTTCAGCACAGTTCGGTGGGTCCGACGCCTACCTCAAGGACGAAGAATACGCAGCTTCACAGACCGTCTGCGGCCCTGACGGTGCCCTGAGCATCCCGGTCTACATTTCCCCGATCGCCGTTGCGTTCAACCTCCCGGGCCTGACCGAGCTGAAGCTTGACGCCCCCACCGTGGCGAAGATCTTCCGCGGCGAAATTGCCACCTGGAATGACCCGGCCATCACCGCCTTGAACCCGGGCGTCACCCTTCCGGACACCAAGGTCACACCGGTGAACCGCTCTGACGACTCCGGAACCACCACCAACTTCACCGACTACCTGGCAGCAGCGGCTCCCGAGGTCTGGACTGACAAGTCCTCAGGCATCTGGCCGGCAAACCTGCAGGGCGAAAACGCCAAGGGCACCTCCGGCGTGGTCAAGACCGTCACGGACACTCCCGGCGCCGTCACCTACGCCGACGACTCCGCAGTCAGCGGCAAGCTCGGTGTAGCCCAGATCAAGGTGGGCGAGAGCTTCACCAAGATCTCTGCAGAAGCTGCAGCCAAGGCTGTTGACGCCGGCAAGCCCGTTGAAGGCCGCAGCGCCAACGACCTGTCCATCAAGCTGGACCGCAAGACCAGCATTGAGGGCGCCTACCCGATCGTCCTGGTTTCCTTCCACATCGTCTGCTCCACGTATGACAAGCAGGAGACCGTTGACCTGGTGAAGGCCTTTGAGAACTATGTAGTTTCTGAGGACGGCCAGAAGGCAGCCGCTGACTCCGCGAAGTCCGCACCGCTCTCCGCCGAACTGGCAGAGAAGGCCAAGAAGGCCATTGAAACCATCAAGGTCAAGTCCTAG	MKALRFGRHAAIAVIAAGALALSACGSDNVTGAAPAGTQTSAGPKVTGTLTGIGSSAQGAAMDAWKTNFASANQGATVQYSPDGSGAGRKALLDGSAQFGGSDAYLKDEEYAASQTVCGPDGALSIPVYISPIAVAFNLPGLTELKLDAPTVAKIFRGEIATWNDPAITALNPGVTLPDTKVTPVNRSDDSGTTTNFTDYLAAAAPEVWTDKSSGIWPANLQGENAKGTSGVVKTVTDTPGAVTYADDSAVSGKLGVAQIKVGESFTKISAEAAAKAVDAGKPVEGRSANDLSIKLDRKTSIEGAYPIVLVSFHIVCSTYDKQETVDLVKAFENYVVSEDGQKAAADSAKSAPLSAELAEKAKKAIETIKVKS	PGPT0002625_1342	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
D1-29_00377	933	pstC2	COG0573	Phosphate transport system permease protein PstC 2	ATGACCGCCACCTCCCTGAGAGCTTCCCAGGGCGCAGGCCGCGCCGGGGACAAGATCTTTTCCGGAGCAACCCTGGCAGCAGGGTGCCTGATTCTTGCCGTCCTATTCGGCGTTGCCCTGTTCCTGGTGATCCAGGCCATCCCGGCCCTGACCGCTCCCGCCGAGGAGATCCAAGGCGGTGCAGGCTTCTTTTCCTACATCTGGCCGATCGTCATCGGGACGCTCATCGCCGCGGTCATCGCACTGGTCATCGCCACGCCCGTGGCCATCGGCGTGGCGCTGTTCATCTCGCACTTCGCCCCACGGAAACTGGCCGCCGGGCTGGGTTACGTCATTGACCTGCTGGCTGCCATTCCCTCGGTGGTTTACGGTGCCTGGGGCGCCGCATTCCTAGCCAAGGAGATCTCCCCGGCCTACAACTGGCTGGCCGCGAACATGGGCTGGCTGCCCATTTTCCAGGGTCCCGCGTCAGCCACGGGCAAGACCATCCTCACGGCAGGCATTGTCCTGTCCGTGATGGTCCTGCCCATCATCACGTCCCTGAGCCGGGAAATCTTCCTCCAGACCCCCAAGCTCCATGAGGAGGCAGCCCTCGCCCTGGGTGCCACGCGCTGGGAAATGATCAAAATGTCGGTCCTGCCGTTTGCCCGCCCCGGCATCATCAGTGCTGTCATGCTGGGACTCGGCCGCGCACTCGGTGAAACCATGGCCGTCGCCCTGGTGCTTTCCTCCGGCGCCCTCACCGCCAGCCTGATCCAGTCCGGAAACCAGACCATCGCCGCCGAAATCGCCCTGAACTTCCCGGAAGCCAGCGGCCTCAAGGTCAGCACCCTCATCGCCGCCGGCCTGGTCCTGTTTGTGATCACCCTCGCCGTCAACATGATTGCCCGCTGGATCATCACGCGGCACAAAGAATTCTCGGGAGCCAACTAA	MTATSLRASQGAGRAGDKIFSGATLAAGCLILAVLFGVALFLVIQAIPALTAPAEEIQGGAGFFSYIWPIVIGTLIAAVIALVIATPVAIGVALFISHFAPRKLAAGLGYVIDLLAAIPSVVYGAWGAAFLAKEISPAYNWLAANMGWLPIFQGPASATGKTILTAGIVLSVMVLPIITSLSREIFLQTPKLHEEAALALGATRWEMIKMSVLPFARPGIISAVMLGLGRALGETMAVALVLSSGALTASLIQSGNQTIAAEIALNFPEASGLKVSTLIAAGLVLFVITLAVNMIARWIITRHKEFSGAN	PGPT0002620_3739	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
D1-29_00378	1113	pstA1	COG0581	Phosphate transport system permease protein PstA 1	ATGACCTCCACCCTTACTCCCGTCCGCAGCAAACGTTCCGCCCTGACCAAGGGCCAGCTGCCGAAGTACGCGCCGTACGTGGTGCTCGCGATTGCCCTGATCGCCGGAGCCGCCATCCTCGCCCTGATCGGCTTCAACGCGTTCGGCTGGGGCATCGTCTCCGCCATCCTGTTCGCCGCAGGCCTGGTGGGCTGGAGCGCGGTGGTGGAAGGCTCGCGCAAGGCCAAGGACAAGCTGGCCACCTGCCTGGTCATGGGCTCGTTCCTGATCGCGCTGCTCCCGCTCATCTCCGTGATCTGGACAGTGCTGGTCAACGGCGTCCCCGGCCTAATCACACCGGGCTTCCTCACCACCTCCATGAACGGCGTCACCGGGGTCTATGACAACAAGGCGGTGGAAGAGGGAACCCCCGTACTCGGCGGCATCTACCACGCGCTTTTGGGCACGCTGCAGATCACCTTCCTGGCCACGCTGATCTCCGTCCCGGTGGGCCTCCTGACCGCCATTTACCTGGTGGAGTACGGCCACGACGGCCGCCTGGCGCGTGCCATTACATTCTTTGTGGACGTGATGACGGGCATCCCGTCCATCGTTGCCGGCCTCTTCGCCGCAGCCTTCTTCTTCGCCGTCATGGGGCCAGGCACCAAAACAGGCGCCGTTGCCGCCGTCGCGCTTTCGGTCCTGATGATTCCGGTAGTGGTCCGCTCAAGCGAGGAAATGCTGAAGATTGTGCCCAACGAGCTGCGTGAAGCGGCGTACGCCCTGGGCGTACGGAAATGGCGCACCATCCTGAAGGTTGTCATCCCGACGGCGATCTCCGGAATCGCTTCCGGCGTCACCCTGGCGATCGCCCGCGTGATCGGGGAGACGGCGCCCATCCTTGTCACCGCCGGATTCGCCACGAGCATCAACAGCAACGTCTTTGGCGGCTGGATGGCATCGCTGCCCACGTTCATCTACACCCAGATCCTGAACCCCACCTCCCCTGCGAACCCGGACCCGTCGTCGCAGCGGGCGTGGGGCGCGGCCCTGGTGCTGATCATCCTGGTGATGGTCCTGAACCTTGGATCCCGGCTGATCGCCAGGGTTTTCGCCCCGAAATCCGGCCGATAG	MTSTLTPVRSKRSALTKGQLPKYAPYVVLAIALIAGAAILALIGFNAFGWGIVSAILFAAGLVGWSAVVEGSRKAKDKLATCLVMGSFLIALLPLISVIWTVLVNGVPGLITPGFLTTSMNGVTGVYDNKAVEEGTPVLGGIYHALLGTLQITFLATLISVPVGLLTAIYLVEYGHDGRLARAITFFVDVMTGIPSIVAGLFAAAFFFAVMGPGTKTGAVAAVALSVLMIPVVVRSSEEMLKIVPNELREAAYALGVRKWRTILKVVIPTAISGIASGVTLAIARVIGETAPILVTAGFATSINSNVFGGWMASLPTFIYTQILNPTSPANPDPSSQRAWGAALVLIILVMVLNLGSRLIARVFAPKSGR	PGPT0002610_1586	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038	NA	NA
D1-29_00379	780	pstB1	COG1117	Phosphate import ATP-binding protein PstB 1	ATGTCTAAGCGTATCGACGTCAAGGACCTGAATGTCTACTACGGCGATTTCCTGGCCGTGGAAGACGTCACCATCAACATCGAGGCCAAATCCGTGACGGCCTTCATCGGTCCTTCCGGCTGCGGAAAGTCCACGTTCCTCCGCACCTTGAACCGCATGCACGAGGTGCTGCCCGGTGCCCGGGTGGAAGGCGAAGTCCTCCTGGACGGCGACAACCTGTACGGCCCGGGCGTTGATCCGGTGACCGTGCGCTCGCAGATCGGCATGGTGTTCCAGCGGCCCAACCCGTTCCCCACCATGTCCATCCGGGACAACGTGCTGGCCGGTGTGAAGCTGAACAACCAGAAGATCTCCAAGGGCGAGGCCGACATCCTGGTGGAGCGGTCGCTGCAGGGCGCCAACCTGTGGAACGAGGTCAAGGACAGGCTGGAAAAGCCGGGCTCAGGCCTTTCCGGCGGGCAGCAGCAGCGCCTCTGCATCGCCCGGGCCATCGCCGTGGAGCCGCAGGTCATCCTGATGGATGAGCCGTGTTCCGCGCTGGACCCCATCTCCACCCTGGCCATCGAGGACCTCATCAACGAGCTCAAGGACCAGTACACGGTGGTGATCGTGACCCACAACATGCAGCAGGCCGCGCGCGTCTCGGACAAGACCGCCTTCTTCAACATTGCGGGGACCGGCAAGCCGGGCAGGCTGATCGAATTCGGCAACACGCACACCATCTTCAGCAACCCCACCGTGAAAGCCACCGAGGACTACGTCTCCGGCCGCTTCGGCTAA	MSKRIDVKDLNVYYGDFLAVEDVTINIEAKSVTAFIGPSGCGKSTFLRTLNRMHEVLPGARVEGEVLLDGDNLYGPGVDPVTVRSQIGMVFQRPNPFPTMSIRDNVLAGVKLNNQKISKGEADILVERSLQGANLWNEVKDRLEKPGSGLSGGQQQRLCIARAIAVEPQVILMDEPCSALDPISTLAIEDLINELKDQYTVVIVTHNMQQAARVSDKTAFFNIAGTGKPGRLIEFGNTHTIFSNPTVKATEDYVSGRFG	PGPT0002615_3193	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
D1-29_00380	1014			hypothetical protein	GTGTCTGCGGTAATCTTCGGCGCGGTGGTCCTGCTGACTGCCGCGTTTGCCTTCCTTAATGGGTTCAGGGACGTTTCCACCTCGGTGGCCGTGGCGGTTCGCACGCGGGCACTGACGCCCAGTGTGGCGGTGCTCCTGGCGGCCTTTTTCAACTTCCTGGGGGCCCTGCTCAGCGCCAGTCTGGCAGTGGCGGTCAGCCAGCATTGGATCAGCCTGCCTGCCGGGACGAACGGCCTCAGCATACTGGTTGCAGGCCTCGCGAGCGCCTTCGCCTGGGGCGTCCTGCTGTGGTGGCGCGGCATTCCGGCATCATCCACCCACGCGCTCGTGGGCGGGCTTGCCGGCGCCGGGCTGGCCAGCGTGGCGGTAGGCGGGACAGGCGTGGGCGGCGTGGACGAGTCATTGCTCCTCCAGGTGGTCCTGCCGCTGCTGCTCTCCCCCCTGGTGGCCTACAGCGGCGCGTTCCTGCTGGTTTTCCCGGTGACCTGGGCCGCCCGTTATGCCCAGCCCAACGTCATCAACCAGCGCTTCCGGCGCAGCCAGTCCATCGCCGCAGGCGCGGTGGCGTTCGGGCACGGGCTGCAGGACGGCCAGCGGGTCAGCGCGGTGCTGCTGCTTGCCCTGCTCGCGGCAGGCTATTCCGACGGCGGCACCATCCCTGCGTGGGTGGCCCTGCTCTCCGCCGTGATGATCACGGCAGGAACGCTGTTTGGCGGCTGGCGGATCTCGCACACCATCGGTTACAAAATCACCAGGATTGACCCTCTCCGCGGCTCCGTGGCCCAGATCTTCAGCGCCGTGATGCTGTTTGTGGGGGCCATCGGCCTGCACTGGCCAGTGTCCACAACGCACACGGTGACCTCGGCGGTCCTGGGTGCCGGCGAAAACCAGCACTTCTCTGTGACCAACCGGAAGCTGGTCATCCGGATCGTGGGGCTGTGGATCCTGACTCCTGCGGCGACCGCGGCCGGAGCTTTTGTGCTGGCGCTGGCTCTGTCCCCGCTGGCTGGCTAA	MSAVIFGAVVLLTAAFAFLNGFRDVSTSVAVAVRTRALTPSVAVLLAAFFNFLGALLSASLAVAVSQHWISLPAGTNGLSILVAGLASAFAWGVLLWWRGIPASSTHALVGGLAGAGLASVAVGGTGVGGVDESLLLQVVLPLLLSPLVAYSGAFLLVFPVTWAARYAQPNVINQRFRRSQSIAAGAVAFGHGLQDGQRVSAVLLLALLAAGYSDGGTIPAWVALLSAVMITAGTLFGGWRISHTIGYKITRIDPLRGSVAQIFSAVMLFVGAIGLHWPVSTTHTVTSAVLGAGENQHFSVTNRKLVIRIVGLWILTPAATAAGAFVLALALSPLAG	PGPT0002655_3144	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002655-TC_PIT-K03306	NA	NA
D1-29_00381	618			hypothetical protein	GTGAAGCTGCGCCTTTTCCCCCAGGAGCCCGCCGGGCTGAACCTCCTTTCGCAGATGGCGCACCAGATAGTGCTGGCCAGCGCCACCCTGGCCGAGATCCTGGGCGTTCCCGCCGATGAGCACGGCAAGCTGGTGGAAGACATGCACAACCACGAGGCCAAGTCCGCGGAACTGCACTTCGCACTGCTCACCCACATGCGCACCAGCTTTGTGAACCCGCTGCCCCGCGAGGACATGTACGCGCTGTCCCGCTACCTCAACGAGGCCATGGAGAAGCTGGACGCCGCCGCGGAACTGGTGGCCCTGTACAGGCTGGAACGGCTGCCCAAGCGGGCCGCTGACCAGCTGGAGATCATCAGCCGCCAGGCGGAACTCACCGTGGACGCCATGCGCCGGCTGAACAACCTTGACGACCTCGAGGACTACTGGATCGAAATCCTCCGGCTTGCCAAGCGCGCCGAGCGGACCCACCGCGTCTGGGTCGCTGACATGATCGGCGACATGAAATGGGCGCCATATGCCCGCAACCGGGATATCGCCAATCAGCTGGTGGAAGTCACCAAGGACATGCGCCGAATCGCCACCCAGGTGGGCAGCATCATCGTCAAGGAATCCTGA	MKLRLFPQEPAGLNLLSQMAHQIVLASATLAEILGVPADEHGKLVEDMHNHEAKSAELHFALLTHMRTSFVNPLPREDMYALSRYLNEAMEKLDAAAELVALYRLERLPKRAADQLEIISRQAELTVDAMRRLNNLDDLEDYWIEILRLAKRAERTHRVWVADMIGDMKWAPYARNRDIANQLVEVTKDMRRIATQVGSIIVKES				NA	NA	NA	NA	NA
D1-29_00382	669			hypothetical protein	GTGGGTGCCATGAGCGAGCAAGCAGGACCCAGCCACTACGGCGGAGCCAACAGGCACCACAAGCCCAAGCCCTTCGCCCCCATTGATTTTGAACCGTTCGCGGGCGGCGCCGATCCCGCCCGCGTCTCCGAGGCCGCCCACCTCGCAGCCCAGGCGCTGGTCCGCCATGGCCGTGACAGTGACGACCCCGTCGTCACTGAACGGCTGGTCAGGCTTGCCGACGAGCAGGGCCTGGAGGCCATCGCGGAGCTGTGGGCCGAAAGCCCGGCGCGCTCCCTCCCCGGTGCCCTGTGGCGGCTGTATGCACTGCGGGCCGCCACCGTGCAGGATCCGGAGCGGATTTCGGTGTACTTCCGCGCAGGCAAGGACACGGCCCAGGTCTCCAATGTGGTGGCGGGCGCCGCAGAGCCGCCGGGAGCCGAGGAGATGACTGCCATGGCAGACGCCATCCTGTCCGGAGCGTTCGACGGCGAGTTCGACGTCGCGCTGGAACGCTCCGCAGCTTTCTGCCGCGTAGTGGCACTTGGCCAGGCGACCATCGCTGACGGGGCCGAGCACGCAAACGAGGCCCATGCGAGCAAGCTGACGCGCAACTCCCATCAGCTGGTGAAAACGGCAGAAGACCTTGAGCATGCTGCCAACGCCTGGCGCCTGGGAGAGCTGGACTGA	MGAMSEQAGPSHYGGANRHHKPKPFAPIDFEPFAGGADPARVSEAAHLAAQALVRHGRDSDDPVVTERLVRLADEQGLEAIAELWAESPARSLPGALWRLYALRAATVQDPERISVYFRAGKDTAQVSNVVAGAAEPPGAEEMTAMADAILSGAFDGEFDVALERSAAFCRVVALGQATIADGAEHANEAHASKLTRNSHQLVKTAEDLEHAANAWRLGELD				NA	NA	NA	NA	NA
D1-29_00384	1659			hypothetical protein	ATGTCAGCTCGCCGAGCCGCCCCCCGCGCCCGTCACAGCGCATCGACCAGCCGGTCCCGCTTTCCCTGGGCCCGGATTGCCATAGTTTTGGGGACGCTCGTGGCCCTTGCAGTCGCGGGTGGGGCCGTGGTGTGGATTATGGGAATGCGCACACCGGCAGAGGCCTCCCAGTGCACCGATCCAATTGACGTCAGTGTGGGAGCGGACGCTGCCATGACGCCGGTGCTGGAACAGGCGTCCTCCCGGATTCCGCCGGAGGCGTGCGTAAACTTCACCTTCGCAACTTTGAGCCAGGCGGAATTGGCGGCCAAGGTATCAGCAGGCAAGGATGCACCGGATGTGTGGGTCGCGGATTCTGCGGTCCGGGTCCAAAGAGTGGTCACCACAACCCCGCCTGAGGTCATCGTGCCGTCGTTGGCGTCGACGCCCGGAGTCATCGTCGGACGCACCGGGGAAGTCCCGGCTTTTGCGACGTGGCTCAGTGCCCTGCAGGCTCCCGGAGTACGCTTCGGCGATCCGTTGGTCACCGGGAGCGGCGAAGTTGCGTTGCTGGGAGCGGTCTCGGAAGTCCAAGCAGGCCTGACAGACGCCAAAGCGCTCCAGGCTGCCACCGCGCAACTGGCCCAAAAGGAAAGCCAGCGGGCGGGGGAGAAGCTCTCGGACGTGCAGCAGCTCGAGTCTGTGGCCTCAGCCGGCGGATTCGTCATCGTCACGGAGGAGGCCTGGCTGAAGTTTTCCAAGACCACGTCAGGGGCCCTCCTGGCGGCTTCGGTCCCGGCAAGCGGTGCTGTATCACTGAACTACCCCCTGGTCAGTACTGCCGGAAGCGGGGCCCGGGGCCAGGCCGTGGCGGCCGCGGCGCGGGCCCTTGCTGAGCAGGTCGCCACAGACGAAGGCAGGATGAACCTTGCCGGCCAGGGGCTGCGCCCCGCGGACAGCAGCAACCTCCTGGACCAGAAGGGTGCCGGTCCCGTCGTAGCGCTCGCCCCGGCCTCCGCTCAGGCAGTCAGCCAGGCCCTCAGCGCCTGGTCTGTGCAGGCCATTCCCTTCCGGTCCCTGGTAGTGATGGATGTGTCAGGCTCCATGGAATTTCCGGCCGGCAACCAGACGCGGATGGAGTTGACGCAGCAGGCAGCCACCACCGGCAGCAAACTTTTTCCCAACACTGCGGCCCTGGGATTGTGGGCCTTCTCAATCGGCCTTGGCGGCGGCAGCCAGGACTACCTGGAGCTTGAGCCAATACGGAAGATGGACCAGGTGGTGGACGGGGTGACACAACGTGATCGCCTCGTGGCGGGGATTGCCGGCCTGTCCGAACGCACCGGCGGAGCAACGGGCCTTTATGACTCCACCCTCGCAGCTTTCAGGACAGTGCAGGCCTCCTACGACTCCCGTGCCATCAACAGCGTCATCCTGTTCACCGACGGCGCCAACGAGGACCCCGAGTCCCTCGCCCTGGAGCAGTTGCTGGAGACCCTGCAGCGGGAAAGGGATCCGGCCAAACCGGTAGTGATTGTCACTATTGGCATCACCGAAGACGCGGACGCTGAAACACTGACGAAAATTTCCGCGGCCACCGGGGGCACAAGTTATGTTGCCCGCGCACCCCAGGACATCCCCAGTGTGTTTGCGGACGCACTGCTGGCTCGCGGGAAATAG	MSARRAAPRARHSASTSRSRFPWARIAIVLGTLVALAVAGGAVVWIMGMRTPAEASQCTDPIDVSVGADAAMTPVLEQASSRIPPEACVNFTFATLSQAELAAKVSAGKDAPDVWVADSAVRVQRVVTTTPPEVIVPSLASTPGVIVGRTGEVPAFATWLSALQAPGVRFGDPLVTGSGEVALLGAVSEVQAGLTDAKALQAATAQLAQKESQRAGEKLSDVQQLESVASAGGFVIVTEEAWLKFSKTTSGALLAASVPASGAVSLNYPLVSTAGSGARGQAVAAAARALAEQVATDEGRMNLAGQGLRPADSSNLLDQKGAGPVVALAPASAQAVSQALSAWSVQAIPFRSLVVMDVSGSMEFPAGNQTRMELTQQAATTGSKLFPNTAALGLWAFSIGLGGGSQDYLELEPIRKMDQVVDGVTQRDRLVAGIAGLSERTGGATGLYDSTLAAFRTVQASYDSRAINSVILFTDGANEDPESLALEQLLETLQRERDPAKPVVIVTIGITEDADAETLTKISAATGGTSYVARAPQDIPSVFADALLARGK				NA	NA	NA	NA	NA
D1-29_00385	1011	lacI_2	COG1609	Lactose operon repressor	GTGGCGAACATCAACGGCCGCCGGCTACCGCGCCTCAATGACGTAGCCGCGCTGGCCGGTGTGTCGCACCAGACCGTCTCCCGGGTTGTTAATAACCATCCCAACGTCAGCAAGGCAACGCGGGAGCGGGTGGAGGCGGCCATCTCCGAGCTGGGATACCGGCGCAACACCGCTGCCCGCAGCCTGGTCACCCGGCGGTCCCAAACCATTGGCGTGCTGGGCAGCGAGCTGTCCCAGTACGGCCCGGCCAACACCATCCTGGGGGTGGAGCAGGCTGCGCGGGACGCCGGTTACTTCGTCAGCATTGCAGCGCTCAAGACCGTCAACCGGGACACCATTTCCGATGCCCTCCGCCACTTCCAGGACCAGTCCGTGGATGGAGTGGTGGTGGTGGTTCCGCACTCTGAGACGCTCAGCGCCCTGGACGAGATGGCGCTGGATGTGCCGGTTGTGACGGTGGGCTCCCTGGGTAACGACAAAATCAGCGGCGCCATGGTGGACCAGATGCGCGGTGCCGAACTTGCCGTCAGGCACCTCATCGAACAGGGCCACCGGAGGATCGGCCACATCTCCGGGCCGCTTGACTGGATCGACGGCGCGGCCCGGGCAGAAGGCTGGAGCCAGACCCTCCGCGCCGCCGGGCTGGAGGATGATCTCCTGGCCCACGGCGACTGGAGCGCAGGCAGTGGCTACGCAATCGGCCGCGAGCTGGCCCGGAAACGCTCAGCCACGGCAATTTTCGTCGGCAACGACCAGATGGCCCTTGGGCTGTTTCGGGCCTTCAGCGAGGCCGGGATCAGTGTCCCCGGCGATGTCTCCGTGGTCGGTTTTGATGACACCCCTGAAGCGGCCTACTTCGTCCCGCCGCTGACTACTGTGCGCCAGGACTTTGAGGAACTCGGCAGGCGCTGTGTGGATGCCATGGTGGGGGAGATCGAGCAGGGCGCCGCGGTCAGCGGAATTGTGGTGACGCCGGAGTTGGTGGTCCGCGGCAGCACCGCGGCCATCTAA	MANINGRRLPRLNDVAALAGVSHQTVSRVVNNHPNVSKATRERVEAAISELGYRRNTAARSLVTRRSQTIGVLGSELSQYGPANTILGVEQAARDAGYFVSIAALKTVNRDTISDALRHFQDQSVDGVVVVVPHSETLSALDEMALDVPVVTVGSLGNDKISGAMVDQMRGAELAVRHLIEQGHRRIGHISGPLDWIDGAARAEGWSQTLRAAGLEDDLLAHGDWSAGSGYAIGRELARKRSATAIFVGNDQMALGLFRAFSEAGISVPGDVSVVGFDDTPEAAYFVPPLTTVRQDFEELGRRCVDAMVGEIEQGAAVSGIVVTPELVVRGSTAAI	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
D1-29_00386	1017	yjfF		Inner membrane ABC transporter permease protein YjfF	ATGTCTCCCCTCTCCACAGTGGCCCCGCCCACTCCCCGCAAGGCCTTTACCGTCCGGAACCGGATGCGCACCGGTGCCCGTTACGCTCCCACCCTGGCTACCCTGGCCCTCTTCATCCTGATGTTCATCGTGGGCGCCGGCATGTACCCAAGTTTCCTCTCGGGCCAGGTGCTCCTGAACCTCTTCATCGACAACACCTTCCTGATCGTCCTTGCGGTGGGCATGACCTTCGTCATTCTTACTGGCGGGATCGATCTGTCCGTTGGCGCCGTCGTCGCGCTTTCCATGATGGTGACCGCCAGCATGCTCCAAAACGGCTGGAACCCGGGCATCGTCATAGTGGCCGTCCTGGTCATTGGCGGCGGCCTCGGGTTGCTGATGGGGCTGGTCATCCAGTACTTCGACATCCAGCCATTCATCGTGACCCTGGCCGGGATGTTCCTGGCCCGCGGCCTGTGCTACGTGATCAGCCTCGACTCCATCCCGGTCACGGACCCCTTCTTCACGGGGATGGCGCAGGCGCGGATCCCGCTGTCCGAGGAGCTCTTCATCTCCCCAGGCGTACTGATCGCCCTGGTGGTGGTGGGCCTTGCGTTCTTCGTCCTTCACCACACGAGGTTCGGCCGGACGGTCTACGCGATCGGCGGCAATGAGAACTCAGCCATGCTGATGGGCCTTGCCGTGAAGAGCACCAAGGTCCTGGTCTACTGTGTCAGCGGGCTTTGCTCGGCGGTTGCCGGGATCCTCTTCTCCTTCTATAGTCTGTCCGGCTACAGCCTGGCCGCCCAGGGCATGGAGTTGGATGCCATCGCCGCTGTGGTCATCGGCGGAACCCTGCTGACTGGCGGGGTTGGCTACGTGCTGGGTTCGGTTGTCGGAGTCCTGGTTCTCGGGATCGTCCAGACCTTCATCGCCTACGACGGAACGCTCAGCTCCTGGTGGACCAAGATTGTGATCGGCGGCCTGCTGCTGGTCTTCATCCTGCTGCAGCGGCTGTTCACCAGACGCACCGCATAA	MSPLSTVAPPTPRKAFTVRNRMRTGARYAPTLATLALFILMFIVGAGMYPSFLSGQVLLNLFIDNTFLIVLAVGMTFVILTGGIDLSVGAVVALSMMVTASMLQNGWNPGIVIVAVLVIGGGLGLLMGLVIQYFDIQPFIVTLAGMFLARGLCYVISLDSIPVTDPFFTGMAQARIPLSEELFISPGVLIALVVVGLAFFVLHHTRFGRTVYAIGGNENSAMLMGLAVKSTKVLVYCVSGLCSAVAGILFSFYSLSGYSLAAQGMELDAIAAVVIGGTLLTGGVGYVLGSVVGVLVLGIVQTFIAYDGTLSSWWTKIVIGGLLLVFILLQRLFTRRTA	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
D1-29_00387	1032	ytfT		Inner membrane ABC transporter permease protein YtfT	GTGAAATCCATCCTGAAGAACCGGCTGGCCTGGCCGGTCCTGGCCCTCGTCGCGCTGCTGGCAGTCAACCAGATTTTCCGGGGAGACTTCCTGAGCCTGCGGATGCAGGACGGCCATCTCTACGGCAGCCTCATCGACATCATGCGCAATGGTGCCCCCACCATCCTGATAGCCCTCGGCATGACCCTGGTTATTGCTTCCAGGGGCATCGACCTTTCGGTGGGTGCCGTGGTTGCCATTGCCGGTGCCGCCTCCTGCGCCTACATCGCGGCTTCTCCGGAACCTGCTTCGCCGGCAACCGCCGCCGTGGCGGTGGTCATCGCCGTGGTGGCGGGCCTGGTGCTGGGCGTCTGGAACGGATTCCTGGTTTCCACCATCGGGGTCCAGCCCATCATTGCCACGCTGGTGCTGATGACGGCCGGACGCGGCATCGCCCAGCTCATCACCGACGGCCAGATCGTGTCGGTGACCAACGACAGCTACAAAGCAATAGGCGCCGGCTACCTCTTCACACTTCCGGTCTCCATCCTTATCACCGCCGTGGTGTTCATCCTGGCGGCCGTCCTGACCCGCCGGACAGCGCTCGGAACACTGATTGAGGCAGTTGGCATCAACCCGGTGGCGAGCCGGTTGGCGGGGTTGCGGGCCCGCAACATTATCTGGATCGTCTACATCTTCAGCGCATTCTGTGCGGCGATTGCCGGACTCATGATCAGCTCGAACGTCACGGCGGCGGACGCCAACAACGCCGGCCTGTACATTGAAATGGACGCGATCCTCGCCGTCGTCATCGGTGGCACGTCCCTTGCCGGCGGACGCTACAGCCTGGTGGGCACCGTGGTGGGAGCGTTTATCATCCAGACCCTGACCACCACCGTCTACACGCTGGGCATTCCCCCGGAGGTCACCCTGGTGTTCAAGGCCATCGTGGTTCTCACCGTCTGCCTCCTGCAGGCGCCAAAGGCCAGGAACCTGTTCAGGAACCTCAAACCGGCAAGTCCGCTCCGCACCAAGGAAAAGGTGGCAGTCTGA	MKSILKNRLAWPVLALVALLAVNQIFRGDFLSLRMQDGHLYGSLIDIMRNGAPTILIALGMTLVIASRGIDLSVGAVVAIAGAASCAYIAASPEPASPATAAVAVVIAVVAGLVLGVWNGFLVSTIGVQPIIATLVLMTAGRGIAQLITDGQIVSVTNDSYKAIGAGYLFTLPVSILITAVVFILAAVLTRRTALGTLIEAVGINPVASRLAGLRARNIIWIVYIFSAFCAAIAGLMISSNVTAADANNAGLYIEMDAILAVVIGGTSLAGGRYSLVGTVVGAFIIQTLTTTVYTLGIPPEVTLVFKAIVVLTVCLLQAPKARNLFRNLKPASPLRTKEKVAV	PGPT0016630_341	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016630-ytfT|yjfF-K23509	NA	NA
D1-29_00388	1527	fruK	COG1129	Fructose import ATP-binding protein FruK	ATGAACGAACTCGTTCCGGTCGTCGAGATGACCGACATTGCCATCGGATTCCCCGGAGTCAAAGCCCTTGACGACGTCAGCTTCCGTCTTTTCCAAGGCGAGGTGCATGCCCTGATGGGCGAAAACGGGGCGGGCAAGTCCACCCTTATCAAGGCATTGACCGGCGTCTACAGCATCGACTCCGGCCGGATCACCGTCCTGGGCCAGCAGCAGAACTTCTCCACGCCTGCCGAATCACAGGCGGCCGGTATCAGCACGGTTTACCAGGAAGTCAACCTCTGCACCAACCTCACGGTCGAAGAGAACGTCATGCTGGGCCGGGAGCCACGGCGGCGCGGTTCCATTGACTGGCGCGGCGTACGCGCCCGCACCCGTGAGGTCCTGGCCCAGCTCCACCTGGAACATGTGGAACCCGGGTCCTTGCTTTCCGAACACTCCATCGCGGTCCAGCAATTGATCGCCATTGCCCGCTCCGTCGAAGTCAACGCCAAGGTCCTGATTCTTGACGAGCCGACGTCGAGCCTGGACGCAGATGAAGTCAACCAGCTTTTCCGGGTGATCCGGGACCTCCGTGACCGCGGCGTTGCCATCCTTTTCGTGTCGCACTTCCTCGAGCAGGTCTACGAACTTTCAGACCGCATGACGGTGCTCCGCAACGGCAAGCTCGTGGGCGAATACATGACCCGCGACCTTTCCCGCATGAACCTCATCTCCAAAATGATCGGCAAGGACCTCGAGGTCCTGGAGGAACTTGATCAGGCGTCCACCCGGTCACAGGCCAGGCTCGCGGCGAACGCCCAACCGTTTATGGAAACCGAGGGGCTAGGCCGAAAAGGATCCGTCTCCGGTATCAACCTGTCCATCTATCCCGGCGAGGTGGTGGGACTGGCCGGGCTCCTCGGTGCCGGACGCACCGAGACGGCACGGCTCCTCTTTGGCGCCGACAAGTCGGATGAGGGTTCCCTCACGGTCAAGGGCCAGCCCTTGAAATTGCGTTCCCCACGCACCGCCATCGACCATGGCATCGGTTTCTGTTCCGAAGACCGCAAAGAGGAAGGCCTCATCGGCGACCTCACCGTCCGTGACAACCTGGTGCTCGCCATGCAGGCAACCAAAGGCTGGGCACGGCGGATCCCGCGCCGCGTGCAGGATGAACTCGTTGCCGAGTTCATCAAGACCCTCGACATCCGGCCGGCAAACCCGGATGCCCTCATCCGCAATCTCAGCGGCGGGAACCAGCAAAAAGTATTGTTGGCCCGCTGGATGGTGACGTCCCCGGATCTGCTGATCCTGGACGAACCAACCCGAGGCATTGATATCGGAGCGAAGACGCAGATCCAGAAACTGGTCAACAAGCTTGCCTCAGAGGGAATGTCCATCCTCTTCATCTCCTCGGAGCTGGAAGAAGTGCTCCGGCTCAGCGACCGCATCGCCATCATCAAAGACAGGGCCATGGTGGCCGAAATCAGTAACGACGACGTTTCCGTCGAAGACGTCCTGACAGTCATCGCCGGAGGCGCCCAGTGA	MNELVPVVEMTDIAIGFPGVKALDDVSFRLFQGEVHALMGENGAGKSTLIKALTGVYSIDSGRITVLGQQQNFSTPAESQAAGISTVYQEVNLCTNLTVEENVMLGREPRRRGSIDWRGVRARTREVLAQLHLEHVEPGSLLSEHSIAVQQLIAIARSVEVNAKVLILDEPTSSLDADEVNQLFRVIRDLRDRGVAILFVSHFLEQVYELSDRMTVLRNGKLVGEYMTRDLSRMNLISKMIGKDLEVLEELDQASTRSQARLAANAQPFMETEGLGRKGSVSGINLSIYPGEVVGLAGLLGAGRTETARLLFGADKSDEGSLTVKGQPLKLRSPRTAIDHGIGFCSEDRKEEGLIGDLTVRDNLVLAMQATKGWARRIPRRVQDELVAEFIKTLDIRPANPDALIRNLSGGNQQKVLLARWMVTSPDLLILDEPTRGIDIGAKTQIQKLVNKLASEGMSILFISSELEEVLRLSDRIAIIKDRAMVAEISNDDVSVEDVLTVIAGGAQ	PGPT0016635_270	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016635-ytfR-K10820	NA	NA
D1-29_00389	981	ytfQ		ABC transporter periplasmic-binding protein YtfQ	GTGTTCAAAAAAACTTTAGTCGCGGTCATGGCCGCATCAGCCCTCGCCCTGACCGCATGCGGCGGCGGCACCCAGGCCGCCAGCAGCGGCGGCGACGCTGACAAGAAGATTGTGATGGGCTTTGCCCAGGTCGGCGCAGAAAGCGGCTGGCGCAGCGCGAACACCAAGTCGGTCCAGGAATCGGCCAAGGAAGCCGGGATCGAGCTGAAGTTCTCAGACGCCCAGCAGAAGCAGGAAAACCAGATCAAGGCCATCCGCTCCTACATCCAGCAGAAAGTGGACGTCATCGCTTTCTCTCCGGTGGTTGAATCCGGTTGGGACACCGTGCTGAAGGAAGCCAAGGACGCGAAGATCCCGGTCATCCTCACCGACCGCGCAGTGGACTCGGCCGACAAGTCCCTCTACAAGACCTTCCTCGGCTCCGACTTCGTTCTCGAAGGCAAAAAGGCCGGCGAATGGCTGGTAGCCGAATCCAAGGCGGCCACGGACACCGTCAACATTGTTGAAATCCAGGGCACCACCGGCTCAGCCCCCGCCAACGACCGCAAGGAAGGCTTCGAAGCTGCCATCAAGGCCGACCCGAAACTGAAGATCATCGCTTCCCAGAGCGGCGACTTCACCCGCAGCGGCGGCAAGCAGGTCATGGAAGCCTTCCTGAAGAACAACCCGGACATCGACGTCGTCTTCGCCCACAACGACGACGAAGGCCTCGGCGCGATCGAAGCCATCGAAGCCGCCGGCAAGGTACCGGGCAAGGACATCAAGATCATCACCATCGACGCCGTCAAGGACGGCATGACCGCCCTGAGCGCCGGCAAGATCAACTTCATCGTTGAGTGCAGCCCGCTGCTGGGCACCCAGCTCATGGACCTGGCCAAGAAGGTCCTCGCCGGCGAAACGGTACCCGAGCGCGTGGTCACCGAAGAAACCACCTTCACCCAGGAACAGGCAACCAAGGCCCTGCCTACCCGTCAGTACTGA	MFKKTLVAVMAASALALTACGGGTQAASSGGDADKKIVMGFAQVGAESGWRSANTKSVQESAKEAGIELKFSDAQQKQENQIKAIRSYIQQKVDVIAFSPVVESGWDTVLKEAKDAKIPVILTDRAVDSADKSLYKTFLGSDFVLEGKKAGEWLVAESKAATDTVNIVEIQGTTGSAPANDRKEGFEAAIKADPKLKIIASQSGDFTRSGGKQVMEAFLKNNPDIDVVFAHNDDEGLGAIEAIEAAGKVPGKDIKIITIDAVKDGMTALSAGKINFIVECSPLLGTQLMDLAKKVLAGETVPERVVTEETTFTQEQATKALPTRQY	PGPT0016625_326	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GALACTOFURANOSE_TRANSPORT,PGPT0016625-ytfQ-K23508	NA	NA
D1-29_00390	381	tdcF	COG0251	Putative reactive intermediate deaminase TdcF	ATGCCTAAAACCATCCCCGCCATCGACGGCGTCCAGCCCGGAGGCGACTCCTACTCCCAGGTGGTGGAGGCCAACGGCCTCGTCTTCCTCGCCGGCCAGGTCGGAAGCATCGGCGGCCGCCCGGAAACCTACCCGGCCAACTTCGAAGCAGAAGTCCGCGCCACCTTCGCCAGCGCCGAAAAGCTGCTGACCGGCGTCGGACTCGGACTCCAGGACGCCGTGCGGTGCGTCTGCTACCTCACCGATTGGTCAGACTTCGCTGAGATGGAGAAAGTCTTCCGCGAAGTTTTCCCTACCAATCCACCGGTGCGAGCCACCGTTGGTGTCACAAGCCTGGCCCGCGACTGCAAGTTCGAGGTCGAGGTCACCGCCGCCCGGTAA	MPKTIPAIDGVQPGGDSYSQVVEANGLVFLAGQVGSIGGRPETYPANFEAEVRATFASAEKLLTGVGLGLQDAVRCVCYLTDWSDFAEMEKVFREVFPTNPPVRATVGVTSLARDCKFEVEVTAAR				NA	NA	NA	NA	NA
D1-29_00391	978	tdcB_1		L-threonine dehydratase catabolic TdcB	ATGGCCATCACCTTGCCGACGAGCCTGACCTCCCTCGAGGACCTGTACTTGGCACAATCACACATCGGCACCACCTGCCTGCGCACGCCCGTGTTGCAGATGCCCCCTCATTCAGCCGGCGGCCGGCCCCTCTGGATCAAGGCAGAATCGCTGCAATACACGGGTTCCTTCAAGCTTCGCGGCGCCACCAACGCGGTGGCTGCACTCGATGACCGCGCGAAGGCCGCCGGCGTCATCGGCTACTCCGCCGGTAACCATGGCCGGGGCCTGGCCCGGGCCGCCAGGCTCGCCGGGATCGCGGCCACGGTGGTGATGCCGGAGACCGCGCCGTCAACGAAGATCCTGGGCACGAGGGAGGAAGGGGCCACCGTGATCCTCCGCCCTCCGACCGAGACCATGACTCATGCCAAAGACCTGGCGGCGGCCCATGGCCTGACTGTGGTGCCTCCGGACGATGACGCCATGATCATCGCCGGCCAGGGCACCATTGGCCTCGAACTGCTGGATCAGCTCGATGACCTCGAGATAGTCCTGGTCCCTGTTGGGGGCGGCGGCCTGATCTCCGGCGTAGCTGCGGCCATCAAGAGCCTGCGGCCAAACATCCGCGTGATCGCAGTTGAGCCCGAGCTGGCCGGTGACCTCGCCGAGAGTATTGCTACCGGTGAGCGGAAGCGGTGGTCCAGAGAGCTGACCGGGCGCACGATCGCCGATGGCCTGCGCTCCACCATGGTGGGCGACCTGCCCTGGGAACACATCCAGGCCCTCGTGGATGACGTCGTGACGGTCTCCGAAGATTCCATAGTCGAGGCCATGCGATGGCTGGCCGAGACCAGCAGGCTCATCGTCGAACCCAGCGGCGCCGTCGCAGCCGCCGCCGTCCTCGAGCACTCCACCCGGATCGGCACCGGAACCATAGCCGCAATCGCCACCGGCGGAAACATCGACCTGGAAAAGTTCGCCTCACTCATGGCCCCCTGA	MAITLPTSLTSLEDLYLAQSHIGTTCLRTPVLQMPPHSAGGRPLWIKAESLQYTGSFKLRGATNAVAALDDRAKAAGVIGYSAGNHGRGLARAARLAGIAATVVMPETAPSTKILGTREEGATVILRPPTETMTHAKDLAAAHGLTVVPPDDDAMIIAGQGTIGLELLDQLDDLEIVLVPVGGGGLISGVAAAIKSLRPNIRVIAVEPELAGDLAESIATGERKRWSRELTGRTIADGLRSTMVGDLPWEHIQALVDDVVTVSEDSIVEAMRWLAETSRLIVEPSGAVAAAAVLEHSTRIGTGTIAAIATGGNIDLEKFASLMAP	PGPT0001960_6451	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
D1-29_00392	147			hypothetical protein	GTGAACGCTAACACGGGCAGCGTCAAGGCCACCACTAACTCCCCGGACAACGAGGCCTCCAGCCTCACCGAAACGGCCGGAACACCCATGGTCCTTGGTGAATGGATTTTATTCAATCCATTGGGGAAAGCCCAGCGCGGCCCCTAA	MNANTGSVKATTNSPDNEASSLTETAGTPMVLGEWILFNPLGKAQRGP				NA	NA	NA	NA	NA
D1-29_00393	1788	araB	COG1069	Ribulokinase	ATGCAAAGCAATACACCTGAAATTTCCCCCGAATCCGGTGCGGAGAACTACGTCATCGGCGTGGACTACGGCACCCTGTCCGGCCGGGCCCTGGTGGTTCGAGTACGGGACGGCAAGGAGCTGGGAAGCGGCGTTTACGACTACCCCCACGCCGTGGTCACAGACGCGTTGCCCGAGGATGTGGCTGGCGACGACGGAAAAGGCGTCCGGCTTCCCGGCGAATGGGCACTTCAGGTACCCAACGATTACCGGGACGTGCTTCGGTACGCAGTTCCGGCAGCGATCGCGGATGCAGGCATCGACCCCGCCGGCGTCGTCGGAATCGCCACGGACTTCACGGCCTGCACCATGGTGCCGGTGAAGTCGGACGGCACCCCGCTGAATGAGCTGGAGGGCTTCGCCAACCGGCCGCACGCCTACGTCAAACTGTGGCGCCACCACGCGGCGCAGCCCCAGGCCGACCGGATCAACACGCTGGCAGCGGAGCGCGGGGAGGACTGGCTGCCACGCTACGGCGGGCTCATTTCCTCTGAATGGGAGTTTGCCAAGGGCCTGCAGCTGCTGGAGGAGGACCCCGAAGCCTACGCCGAGATGGACCACTGGGTGGAGGCCGCGGACTGGATCGTGTGGCAGTTGTGCGGCAAGTACGTCCGCAACGCCTGCACCGCCGGCTATAAGGGCATCTACCAGGACGGCCGGTACCCCTCGGAGGATTTCCTGGCAGCACTCAACCCCCAGTTCAAGGACTTTGTCAGCACCAAACTGGAACACACCGTCGGCCGCCTTGGCGACGCCGCAGGCTACCTGACTGCGGAAGCGGCGGCATGGACCGGCCTGCCGGAAGGCATTGCCGTTGCCGTAGGCAACGTGGACGCGCATGTCACCGCCCCTGCCGCCCGCGCCGTTGACGCCGGCCAGCTGGTTGCCATCATGGGAACCTCCACCTGCCACGTCATGAACGGCACCGAACTGCATGAAGTTCCTGGCATGTGCGGGGTTGTTGACGGCGGCATCGTGGACGGGCTTTGGGGCTACGAAGCCGGCCAGTCCGGTGTAGGGGATATTTTTGGCTGGTTCACCAAGTACGGTGTGCCGCCGGAATACCACCAGGCCGCGGAAGCAGCAGGGCTGGGCATCCACGAATACCTCACCGAGCTGGCCTCCCACCAGGCAATTGGCGAACATGGCCTGATCGCACTGGACTGGCACTCGGGCAACCGCTCTGTGCTGGTGGACCACGAACTGTCGGGCATCGTTGTGGGCCAGACCCTGGCCACCCGCCCGGAGGACACCTACCGCGCGCTCCTGGAAGCCACGGCCTTTGGCACCCGCACCATCGTGGACGCGTTCCGGACTTCCGGTGTCCCGGTCAAGGAATTCATCGTGGCCGGCGGCCTGCTGAAGAACAAACTCCTGATGCAGATCTACGCGGACATCACCGGTCTCCAGCTCTCCACCATCGGCTCCACGCAGGGACCCGCCCTCGGTTCCGCCATCCACGCCGCGGTGGCTGCCGGCAAGTACGCCGACATCCGCGAAGCCGCCGAGGCCATGGGTTCAGAACCCGGCGCGGTCTACACTCCCATCCCGGAAAACGTTGCAGCGTATGACCAGCTCTTTACCGAATACCGCACACTGCACGATTACTTCGGGCGCGGCACCAACGACGTCATGCACCGGCTCAAGGCCATCCAGCGCAAGGCCAAGCCGCAAGTCACCGCATCCACATCGGATACGGTGGCAGCAGAGTCCGACGCCGCCGAACGAGTTGCAGGGGTGTCCGCATGA	MQSNTPEISPESGAENYVIGVDYGTLSGRALVVRVRDGKELGSGVYDYPHAVVTDALPEDVAGDDGKGVRLPGEWALQVPNDYRDVLRYAVPAAIADAGIDPAGVVGIATDFTACTMVPVKSDGTPLNELEGFANRPHAYVKLWRHHAAQPQADRINTLAAERGEDWLPRYGGLISSEWEFAKGLQLLEEDPEAYAEMDHWVEAADWIVWQLCGKYVRNACTAGYKGIYQDGRYPSEDFLAALNPQFKDFVSTKLEHTVGRLGDAAGYLTAEAAAWTGLPEGIAVAVGNVDAHVTAPAARAVDAGQLVAIMGTSTCHVMNGTELHEVPGMCGVVDGGIVDGLWGYEAGQSGVGDIFGWFTKYGVPPEYHQAAEAAGLGIHEYLTELASHQAIGEHGLIALDWHSGNRSVLVDHELSGIVVGQTLATRPEDTYRALLEATAFGTRTIVDAFRTSGVPVKEFIVAGGLLKNKLLMQIYADITGLQLSTIGSTQGPALGSAIHAAVAAGKYADIREAAEAMGSEPGAVYTPIPENVAAYDQLFTEYRTLHDYFGRGTNDVMHRLKAIQRKAKPQVTASTSDTVAAESDAAERVAGVSA	PGPT0017410_22	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
D1-29_00394	690	ulaF	COG0235	L-ribulose-5-phosphate 4-epimerase UlaF	ATGAGCACGCTGGAAACCATCGCCCGCATCCGCGGCGAGGTCTGCGCACTGCACGCGGAACTGACCAGGTATGAACTGGTGGTGTGGACGGCAGGCAACGTCTCCGCGCGTGTGCCCGGCCAGGATCTGATGGTGATCAAGCCGTCAGGCGTTTCGTATGACGACCTGACCCCCGAACAGATGGTGGTCACGGACCTTTACGGGGTTCCCGTGGATGGGGACGCAACAGGTGAGTGGGGCAATCCGCCGCTCGCGCCGTCGTCGGACACCGCGGCACATGCATACGTTTACCGGCATATGCCGGAAGTGGGCGGTGTGGTGCACACCCACTCCACCTACGCCACGGCTTGGGCGGCGCGGGGGGAATCCATCCCGTGCGTCCTGACCATGATGAGCGACGAGTTCGGTGGCGCCATTCCGGTGGGACCCTTCGCGCTGATTGGCGATGACTCGATCGGCCAGGGCATCGTGGAAACCCTGAAGGATTCCCACTCACCAGCGGTCCTGATGCAGAACCACGGCCCCTTCACTATCGGCAAGGACGCCAGGTCCGCTGTCAAGGCTGCGGTGATGTGCGAGGAAGTGGCACGCACCGTGCATATTTCACGGCAGCTGGGCGAGCCGATTCCCATTGACCAGGGCCACATCGACTCCCTCTACGCGCGCTATCAGAACGTCTACGGCCAGTAA	MSTLETIARIRGEVCALHAELTRYELVVWTAGNVSARVPGQDLMVIKPSGVSYDDLTPEQMVVTDLYGVPVDGDATGEWGNPPLAPSSDTAAHAYVYRHMPEVGGVVHTHSTYATAWAARGESIPCVLTMMSDEFGGAIPVGPFALIGDDSIGQGIVETLKDSHSPAVLMQNHGPFTIGKDARSAVKAAVMCEEVARTVHISRQLGEPIPIDQGHIDSLYARYQNVYGQ	PGPT0017420_490	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
D1-29_00395	1521	araA		L-arabinose isomerase	ATGAACACCGCAGCAAACACCTCCCTCGACGGCTTTGAGGTCTGGTTCCTCACCGGAAGCCAGCACCTCTACGGCGAAGACGTCCTGAAGCAGGTGGCGGCGCAGTCCCAGGAGATCGCCAACCAGCTCAATGCTTCCTCCAGCGTTCCGGTCAAGATCGTCTGGAAGCCCGTCCTGACCGACTCGGACGCCATCCGCAGGACCGCCCTGGAAGCCAATTCCAACGATTCCGTCATCGGCGTCACCGCCTGGATGCACACTTTCTCGCCGGCCAAAATGTGGATCCAGGGCCTGGACCTGCTGCGTAAGCCCCTCCTGCACCTGCACACGCAGGCCAACGTGGAGCTGCCCTGGGCGGACATCGACTTCGACTTCATGAACCTGAACCAGGCCGCCCATGGTGACCGCGAATTCGGCTACATCCAGTCACGCCTCGGCATTGCCCGCAAGACCGTTGTAGGCCACGTCTCCAATCCGGAGGTGGCACGCCAGGTAGGTGTCTGGCAGCGCGCCGCCGCCGGCTGGACTGCTGTCCGCACGCTGAAGCTGACCCGCTTTGGCGACAACATGCGTAACGTCGCCGTCACCGAAGGCGACAAGACCGAAGCGGAACTCCGGTTCGGAGTGTCCGTCAACACCTGGTCCGTCAACGAACTCGCCGACGCCGTCCACGGCGCCGCTGACTCCGACGTCGATAACCTGGTCGCTGAGTACGAGGAACTTTACGACGTGGTTCCTGAGCTCCGCGCCGGCGCTTCCCGCCACGATTCCCTCCGCTACGGTGCGCGGATCGAGCTCGGCCTGCGCAGCTTCCTGGAAGCCAACGGGTCCGCCGCCTTCACCACCTCCTTTGAGGACCTGGGCGCGCTCCGGCAGCTCCCCGGCCTGGCGGTCCAGCGGCTTATGGCATCCGGCTATGGCTTCGGCGCCGAGGGTGACTGGAAGACCGCCATCCTGGTCCGCGCCGCCAAGGTGATGGGTTCCGGCCTGCCCGGCGGTGCCTCCCTGATGGAGGACTACACGTACCACCTGGAGCCCGGCGCCGAGAAGATCCTGGGTGCACACATGCTTGAGGTCTGCCCCTCCCTCACGGCCGGAAAGCCCCGCCTGGAAATCCACCCGCTGGGCATTGGCGGCAAGGAGGATCCCGTCCGCCTCGTATTCGACGCCGATGCCTCCCCTGGCGTGGTGGTGGCGCTTTCGGACATGCGCGACCGCTTCCGGCTGGTGGCTAACGCCGTGGACGTAGTGCCCCTTGACCAGCCGCTTCCGAACCTCCCGGTGGCCCGCGCGCTCTGGGAGCCGAAGCCTGATTTTGCCACGTCCGCAGCAGCCTGGCTCACGGCGGGTGCAGCACACCACACCGTCCTGTCCACCCAGGTGGGGATGGACGTCTTTGAGGACTTTGCCGAGATCACCCGGACCGAACTGCTCACCATCGACGAGGACACCACCATCCGCCAGTTCAAGAAGGACCTGAACTGGAACGCGGCGTACTACAAACTTGCAGGCGGGCTCTAA	MNTAANTSLDGFEVWFLTGSQHLYGEDVLKQVAAQSQEIANQLNASSSVPVKIVWKPVLTDSDAIRRTALEANSNDSVIGVTAWMHTFSPAKMWIQGLDLLRKPLLHLHTQANVELPWADIDFDFMNLNQAAHGDREFGYIQSRLGIARKTVVGHVSNPEVARQVGVWQRAAAGWTAVRTLKLTRFGDNMRNVAVTEGDKTEAELRFGVSVNTWSVNELADAVHGAADSDVDNLVAEYEELYDVVPELRAGASRHDSLRYGARIELGLRSFLEANGSAAFTTSFEDLGALRQLPGLAVQRLMASGYGFGAEGDWKTAILVRAAKVMGSGLPGGASLMEDYTYHLEPGAEKILGAHMLEVCPSLTAGKPRLEIHPLGIGGKEDPVRLVFDADASPGVVVALSDMRDRFRLVANAVDVVPLDQPLPNLPVARALWEPKPDFATSAAAWLTAGAAHHTVLSTQVGMDVFEDFAEITRTELLTIDEDTTIRQFKKDLNWNAAYYKLAGGL	PGPT0017450_62	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017450-araA-K01804	NA	NA
D1-29_00396	810			hypothetical protein	ATGAATGTCCCTTACTCTTCTGCGGAGGCAGCATTGGGCGGGCCGGAAGTGTCCGTTCGCGCTGCGGATGGGGCGCGCACTGTCTACGCTGCCCTGCGGCCCAACGGCATTGTGCTTGACCTGGTGACGGGCGCGGAGTGTGTCACCGACTCACTGCAAACATTGGTAAACCAGGCAGCAGCGGCCATGGCCCGGACCACCGGGGCTCCCATCCAATGCGCTCTGATCCTGCAGCGCATCAAGCGCACCACGGAGGCGATCGGGACGGATCAGGAAACCGAGTCTTTGGCGCGGCTGGATCAAAAACTGGCTGAAGGTCCCCTGACGCAAGCGATCCGGGCAAACTCTCCCATCGCTGTGAACTGCGGCAACGCCGGGTTCAGCTGGCCGCGGTACGGGGCAGGGTTTAAGGCTGCCGGCTTCAGCAGCGTCCTTAGCGTCCCGCTGAAACTCGGTGAGGGGTCACAGTCCGCCATCGCATTCTTTGCCCGGAATCCTGACGTGTTTCCGGTACAGGTCATGGCTGATGCCCTCGCCTTTGCAGACCTCGCCTCACGCAGCCTGAAACTCGTTTTGGAACTGAAAGCTGCACGGGCCGCGGCCTCCGATTTACGGTCAGCACTGGAAAGCAGGACGTCCATCGACATCGCGTGTGGGGTCATCATGGCTCAGAACAGGTGCTCTTACCACGACGCGATTGGCATCATCTCCAGGGCATCCAGCCACCGGAACATCAAGCTCCGCAAGATTGCCGAGGGCATCCTGGACAGGCTTCCGGGCGGCACCCCGCGCACGCACTTCGACCACTAG	MNVPYSSAEAALGGPEVSVRAADGARTVYAALRPNGIVLDLVTGAECVTDSLQTLVNQAAAAMARTTGAPIQCALILQRIKRTTEAIGTDQETESLARLDQKLAEGPLTQAIRANSPIAVNCGNAGFSWPRYGAGFKAAGFSSVLSVPLKLGEGSQSAIAFFARNPDVFPVQVMADALAFADLASRSLKLVLELKAARAAASDLRSALESRTSIDIACGVIMAQNRCSYHDAIGIISRASSHRNIKLRKIAEGILDRLPGGTPRTHFDH				NA	NA	NA	NA	NA
D1-29_00397	198			hypothetical protein	ATGCGTTCAGGACTCACAATCTGCGAATTCCCGATTCCAAGGAACCGGGTAACTAGCGGGGCCGGCGACGAGGAGGTCTTTGAGACCGAGGCCTCTCCCCCAGCCGTCGCCGGCCCTCTTACTTCCAGCCTTGTTTCCGGCCGCCAGGCTTACTTCGAGCACCGAATGCCGGCCACCCGTCCGGCCCCGCATGCCTGA	MRSGLTICEFPIPRNRVTSGAGDEEVFETEASPPAVAGPLTSSLVSGRQAYFEHRMPATRPAPHA				NA	NA	NA	NA	NA
D1-29_00398	1521	abfA		Intracellular exo-alpha-(1->5)-L-arabinofuranosidase	GTGGCCCTTTCAGCTGCAGCAAAAATCACCATTGACCCTGCCTTCACGGTGGGACCGGTCCGGCGGCGCACCTTTGGTGCCTTCGTGGAACACCTGGGCCGCTGTGTGTACACCGGGATCTTCGAGCCCGAGCACCCGCAAGCTGATGCGGATGGTTTCCGCACTGACGTGCTGGGACTCACCCGGGAGCTGGGCGTCTCAACGGTCCGCTACCCGGGCGGAAACTTCGTCTCCGGCTACCGCTGGGAAGACGGTGTCGGACCCGTGGAGCAGCGGCCCATGCGGCTCGACCTGGCCTGGCACTCCTCGGATCCCAACCTGGTGGGCGTCGACGAGTTCGCCACATGGTGCGCCAAAGCCGGCGTCGAACCCATGATGGCAGTCAACCTGGGAACGCGCGGGACGCAGGAGGCGCTGGACCTCCTGGAATACTGCAACATCGACGGCGGCACGGCCTTCTCCGACCAGCGGAAGGCCAACGGTGCGCAGGAGGGCTACGGCATCAAGATGTGGTGCCTCGGGAACGAGATGGACGGCCCGTGGCAGATCGGCCACAAAAGCGCCCTCGAGTACGGCCGGCTCGCCGCTGACACCGCCCGAGGCATGCGCATGATCGATCCGGACCTCGAACTGGTGGCCTGTGGCAGCTCCTCGCCCGGCATGGACACCTTCGGAGAGTGGGAGCGTGTGGTCCTGTCAGAGACGTACGAACTGGTGGACCTCATTTCCGCCCACCAGTACTTTGAGGATTTCGGCGATCTGCAGGAACACCTGGCAGCTGGCCACAAGATGGAGTCCTTCATCGGGGACATCGTGAGCCACATCGATCACGTGAAGTCGGTGAAGAAGTCCAACAAGCAGGTCAACATCTCGTTCGACGAGTGGAACGTCTGGCACGGGAGCCGCGCGGAATCCAAGTCACCCAGCGGCAAGGACTGGCCGGTGGCCCCCGTCCTGCTGGAGGACCGCTACACGGTGGCGGACGCCGTCGTCGTCGGTGACCTGCTGATCACCCTGCTGCGCAATACTGACCGTGTCCACTCCGCAAGCCTGGCGCAGCTGGTCAACGTCATCGCTCCCATCATGACCGAACCGGGCGGGCGGGCCTGGAAGCAGACCACGTTCCACCCCTTCGCCCTGACCTCCCGGCACGCCGCCGGCACGGTTCTGCAGCTCGCCGTCGAGTCCCCGCTGGTCAGCGGCGGGAAAACCGCTGATTTCGGTGCGCTTTCAGCTGTGGCAACCTTCGACGCCGGGGCGGGCGAGGCTGTGGTGTTTGCCGTAAACCGCTCGGCTACCGACGCCCTTACGCTGGATGCGGCCGTGGCCGGGCTGGGTAACGTCAGGATTATTGAAGCCCTTACCTACACGAACAAGGACCCGTACTGGCAGGCCACCGCAGATGACTCCACCTCGGTCCTGCCGGCCGAGAACGTTACGGCAAAGGCCGACGGCGGCCGGCTCACCACCGAGCTCCCGGCAGTGTCCTGGTCCATGATCCGGCTGGCCGTGGAGTCCTAG	MALSAAAKITIDPAFTVGPVRRRTFGAFVEHLGRCVYTGIFEPEHPQADADGFRTDVLGLTRELGVSTVRYPGGNFVSGYRWEDGVGPVEQRPMRLDLAWHSSDPNLVGVDEFATWCAKAGVEPMMAVNLGTRGTQEALDLLEYCNIDGGTAFSDQRKANGAQEGYGIKMWCLGNEMDGPWQIGHKSALEYGRLAADTARGMRMIDPDLELVACGSSSPGMDTFGEWERVVLSETYELVDLISAHQYFEDFGDLQEHLAAGHKMESFIGDIVSHIDHVKSVKKSNKQVNISFDEWNVWHGSRAESKSPSGKDWPVAPVLLEDRYTVADAVVVGDLLITLLRNTDRVHSASLAQLVNVIAPIMTEPGGRAWKQTTFHPFALTSRHAAGTVLQLAVESPLVSGGKTADFGALSAVATFDAGAGEAVVFAVNRSATDALTLDAAVAGLGNVRIIEALTYTNKDPYWQATADDSTSVLPAENVTAKADGGRLTTELPAVSWSMIRLAVES	PGPT0018655_1069	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209	NA	NA
D1-29_00399	576			hypothetical protein	ATGGAACTGCATATCACCGGGGATCCCGCTGCTGACAAACTTTTGGGCGATGACGCATTTGCGCTGCTGACCGGCATGCTGCTGGACCAGCAGGTGACCATGGAGTCCGCTTTTGCCGGGCCGGAGAAGATCCGTACCCGCATCGGGTCCATCAGCCCGTCCGCCGTTGCCTCCCAGGACCCCCAGGCTTTCATTGAGGTGTTCAAGGAGCGGCCGGCAGTACACCGCTTTCCCGGCTCCATGGCAGGGCGTGTCCAGGCTCTGGCAGAAACCGTTGAGCGTGACTGGGGCGGCGACGCAACCAGCATCTGGACCCAGGGAGACCCCGACGGCTCAGAGGTGCTGCGGCGTTTGAAGGAGCTGCCCGGGTTCGGGGAGCAGAAGGCGAAAATCTTCCTGGCACTGCTGGGCAAGCAGTGCGGGCTCCAGGCGCCCGGATGGCGCGAGGCTGCCGGCCACTACGGCCAGGAGAATGCCTTCCTTTCGGTCGCCGACATCGTTGACTCTGAATCACTGGCCAAAGTGCGGGCGAGCAAGCAGGCGGCGAAAGCTGCCGCGAAGGCCGCCAAAAGCTGA	MELHITGDPAADKLLGDDAFALLTGMLLDQQVTMESAFAGPEKIRTRIGSISPSAVASQDPQAFIEVFKERPAVHRFPGSMAGRVQALAETVERDWGGDATSIWTQGDPDGSEVLRRLKELPGFGEQKAKIFLALLGKQCGLQAPGWREAAGHYGQENAFLSVADIVDSESLAKVRASKQAAKAAAKAAKS				NA	NA	NA	NA	NA
D1-29_00400	1005	ccpA_3	COG1609	Catabolite control protein A	ATGGCAGTCACCATGAACGACGTCGCACGGGCCGCCGGTGTCTCGCTGAAGACAGTATCGAATGTACTGAACGACTACGAGTTCATCCGCCCGGCCACCAAGCAGAAGGTCCACGACGCGATCGCGGCGCTGGGATACGAAGCGAACCTGACAGCGCGCAGCCTGCGCTCGGGCAAGACGCGCATGCTGGGCCTGGTGCTGTCCGATCTCTCCGCGCCGTATTACGCGGAGCTGGCATCAAAACTGATGACGGTGGCCTCCAGCCGGGGCTACCGCGTGCTGGTGGAACAGTCGGGGGGCACAACCGACAATGAGCTCAGTGCGCTGCAGGGACCGTTCCGGCAATTGACGGACGGACTGCTGTTCACGCCTTTGGGGATGGATGCCGACGCCGTCGCCTCCCGCCGCGGCACCAAGCCGGTGGTGCTGCTCGGGGAACACATCCTTGACCCACGGTTCGACCTGGTCACCATGAAAAACGAAGAGGCGGCGAAGGCCGCCACGGCCCACCTCCTGGCGGGAGGCCGCCGTCGGATAGCCGTGGTGGGCGCTTCTCCGGAGGAGACGGTAGGCTCGCCCGGCCTGAGGCTGAACGGTTACCGGAAAGCCTTGGACGAAGGGGGCGTCGCTTTTGATCCCGCCCTGGTGGCATCCGGGGAATGGCGCCGGGATGCAGGTGCGGCCGCCGTCGCCGGCCTGCTGGACAGCGGCGTCCACTTTGACGCCGTGTTCGGCCTGAATGACGCACTGGCCCTGGGTGCCATGCATGAACTGCTGATCCGCGGGATCAAGGTCCCTCAGGACGTCGCCGTGGTGGGCTTTGACGATATTGACGAGGCGCGGTTCGCGTCGCCGTCGCTCACCACTGTTTCGCCCGGAATGGACGAGATCGCCGAACGTTCCATCGGGCTCCTCATCGACAGGATCGACGGGACGGAGTCTGCAGAGGACAGCGTTCACATCGAGGCGGGCTTTGTCCTGAAAATCCGGGAATCGGCACCCTAG	MAVTMNDVARAAGVSLKTVSNVLNDYEFIRPATKQKVHDAIAALGYEANLTARSLRSGKTRMLGLVLSDLSAPYYAELASKLMTVASSRGYRVLVEQSGGTTDNELSALQGPFRQLTDGLLFTPLGMDADAVASRRGTKPVVLLGEHILDPRFDLVTMKNEEAAKAATAHLLAGGRRRIAVVGASPEETVGSPGLRLNGYRKALDEGGVAFDPALVASGEWRRDAGAAAVAGLLDSGVHFDAVFGLNDALALGAMHELLIRGIKVPQDVAVVGFDDIDEARFASPSLTTVSPGMDEIAERSIGLLIDRIDGTESAEDSVHIEAGFVLKIRESAP	PGPT0021075_1369	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
D1-29_00401	438			hypothetical protein	ATGGTAGACGTGCAAACCGAGACCGTCATCAACCGCCCCCGCGCGGAGGTGGCAGGCTTTGCCGGGGACCCAAGCAACGCGCCCCAGTGGTACAGCAACATCAAGTCGGTCCGCTGGGAAACCGCGCCTCCCCTTTCGGTGGGTTCCCGGCTGGCGTTCGTGGCCGAGTTCCTTGGCAGGACGCTGGAGTACACCTACGAGTTCACCGAGCTGGCACCTGGTTCCTCCCTGACTATGCGGACTGCGCAGGGGCCCTTTCCCATGCAGACCACTTACACCTGGCAGGACGCCGGGGACAACGCCACGCGCATGACCCTTCGGAACACCGGCAGCCCGGCCGGATTCTCCCGTCTCGCCGGCCTGGTGATGGCCCCGATGATGCGCAGGGCAATGCGCAAGGACCTGGCACGGCTGAAGGAACTGCTGGAGGCCCGCTGA	MVDVQTETVINRPRAEVAGFAGDPSNAPQWYSNIKSVRWETAPPLSVGSRLAFVAEFLGRTLEYTYEFTELAPGSSLTMRTAQGPFPMQTTYTWQDAGDNATRMTLRNTGSPAGFSRLAGLVMAPMMRRAMRKDLARLKELLEAR				NA	NA	NA	NA	NA
D1-29_00402	555			hypothetical protein	ATGATTGCGTTGCTGGTCATCGATATGCAGAACGCCTACTTTGAGGATCCGGCGCTCGCCGCGAGGCAGGAACGGATCGTGGACGCGTGCAACGAACTGCTGAAAGCCTTTTCCTCCAATGGCCATAAGGCGCTGCTGATTGGCACCGAGCACGAGCGGGACAAGTCCACTTGGTCCCTTAACATGCTCGACGACGGCCAAGGCTTCATTTTCCGGGGCACCGAACAGGCCGAATTTGTTCAGGGCCTGGCCACCGATGGCCTGCCCCAACTGGTCAAGACCCGGGACAGCGCGTTCGTGGGCACCAACCTCCTGGCCAGGCTCCGGAACTGGGACGTTGACGAGGTGGTGCTGGCCGGCGTCTCCACCCACAACTGCATCGCCCAGACAGCTGCCGACGCCTTCGCCCGGAACATCCGGGTCACCTATGCCAAGGACGCGGTGGGATCCGAGAATGACCAGGCGGCTGAGGACATGCTGCGGATCCTGACGGCCGAGTACCGGCAGGCTGTCCAGACCAATAAGGAGATCCTGGGCAGGTTAAACGGCGTGTGA	MIALLVIDMQNAYFEDPALAARQERIVDACNELLKAFSSNGHKALLIGTEHERDKSTWSLNMLDDGQGFIFRGTEQAEFVQGLATDGLPQLVKTRDSAFVGTNLLARLRNWDVDEVVLAGVSTHNCIAQTAADAFARNIRVTYAKDAVGSENDQAAEDMLRILTAEYRQAVQTNKEILGRLNGV	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
D1-29_00403	303	ureA	COG0831	Urease subunit gamma	ATGCATCTGATGCCCCGTGAGCAGGAAAAGCTCATGATCGTAGTGGCCGCCGATCTGGCCAGGCGCCGGCAGGCCAGGGGTTTGAAGCTGAACTTCCCGGAGGCCGTGGCCATCATCAGCTACGAACTGATTGAGGGGGCGCGGGACGGCCGGACGGTGGCGGACCTGATGAGCTACGGCACCACGCTGCTGACCCGCGAGGACGTCATGGAAGGTGTACCCGAAATGGTCCGCGACGTGCAGATCGAGGCAACCTTCCCTGACGGCACCAAGCTCGTCACCGTCCACGATCCCATCCGCTAG	MHLMPREQEKLMIVVAADLARRRQARGLKLNFPEAVAIISYELIEGARDGRTVADLMSYGTTLLTREDVMEGVPEMVRDVQIEATFPDGTKLVTVHDPIR	PGPT0000955_1109	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000955-ureA-K01430	NA	NA
D1-29_00404	357	ureB		Urease subunit beta	ATGATTCCAGGAGAGTACATCCTTCGGTCCGAGCCCGTACCGGTAAACGCCGGGCGAAAGGCGATCGACGTCGTCGTGGTCAATACCGGTGACCGGCCCGTGCAGGTGGGCTCGCATTTCCACTTCGCGGAGGCGAACGGTGCGCTGACCTTCGACCGGGCGGCGGCGTATGGGCGGCGGCTGGACATCCCGGCCGGTACCGCGGCGCGCTTTGAACCTGGCGACAGCAAAACCATCAGGCTCATTGAACTGGCCGGAAGCCGCGAAGTGTACGGCCTCAGCAACGCCATCAACGGACCGCTCGACGGCAGCAATCCTGGCGGCGGTCCCGGTTCCGGCAAGGAGGGGACAGCATGA	MIPGEYILRSEPVPVNAGRKAIDVVVVNTGDRPVQVGSHFHFAEANGALTFDRAAAYGRRLDIPAGTAARFEPGDSKTIRLIELAGSREVYGLSNAINGPLDGSNPGGGPGSGKEGTA	PGPT0000960_431	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000960-ureB-K01429	NA	NA
D1-29_00405	1758	ureC	COG0804	Urease subunit alpha	ATGAGCTTCGACCTTCCGCGCAGGCAATACGCTGACCTGTACGGCCCGACGACGGGTGACAAAATCCGCCTGGCCGACACCGAACTTTTCCTGGAGATCGAAAAGGACCTCACCGTTTACGGCGAGGAAGTGGTGTTCGGTGGCGGAAAGGTGATCCGCGACGGCATGGGCCAGAACGGCCAAGCCACCAGGGACGGGAACGTCCAGGGCGCAGACGTCCCGGACACCGTCATCACCAACGCGGTCATCCTGGACTACACCGGCATCTACAAGGCGGACGTCGCGCTCAAGGACGGCCACATCTTCAGGATCGGCAAGGCCGGCAACCCGCAGATTTCCGACGGCGTGGACATCGTCATCGGGGCCAGCACCGAAATCATCGCCGGGGAGCGCAGGATCCTCACGGCCGGCGGCGTGGACTCCCACATCCACTTCATCTCCCCGGACCAGGTACCCACGGCCCTCAGCAGCGGGATCACCACCATGGTGGGCGGTGGCACAGGTCCCGCCGAGGGCACCAAAGCCACCACTGTCACGCCGGGAAAATGGCACATCCAGCGCATGCTTCAGGCGGCGGAGGGCCTGCCCATCAACATCGGGCTGTTCGGCAAGGGGCACGCATCCGCCGTCGAACCTCTGGCCGAGCAGATCCGCGCCGGCGCCATCGGGCTTAAAGTCCATGAGGACTGGGGCTCCACCACCTCCTCGATCGACACCTCGCTGAAGGTGGCCGACGAATACGACGTCCAGGTGGCCATCCACACGGACACGCTGAACGAGTGCGGCTTTGTGGAGGACACCATCCGCGCCATTGACGGCCGCGTGATCCACACATTCCATACCGAGGGTGCCGGCGGCGGACACGCTCCGGACATCATCAGCATCGCCGGGCTGCCCAATGTCCTGCCCGCCTCCACCAACCCCACCCTTCCCTACACGCGCAACACCATCGAAGAGCACCTGGACATGCTGATGGTCTGCCACCACCTGAACCCGGACATCCCGGAGGACGTGGCCTTCGCTGATTCCCGCATCCGGGCCGAAACCATCGCCGCCGAGGATGTGCTGCAGGACCTGGGCATCTTCGCCATCACGTCCTCGGACTCGCAGGCGATGGGCCGCGTGGGCGAGGTGATCACACGCACCTGGCAGGTGGCAGACAAGATGAAGAAGCAGCGCGGGGTGTTGCAGGACCCCCGCGGGGAGAGTGCCGCCAGCATGCACGGCTCCGAGGACAGCGACAACTTCAGGCTCAAGCGCTACGTGGCCAAGTACACCATCAACCCCGCCATAGCGCAGGGGATGGCGGACTCCATTGGCTCGGTGGAGGAGGGGAAGTTCGCGGACCTCGTCCTCTGGGACCCGGCGTTCTTTGGGGTGAAGCCGGAGCTGGTCCTTAAGGGTGGCCAGATTGCCTACGCCCTGATGGGTGACGCCAACGCCTCCATCCCCACCCCGCAGCCGCGCACCATGCGGCCCATGTTCGCGGCGTTCGGCAAGGCGTTGCAGCAGTCCTCCATCACGTTCCTGTCCCAGGCCGCGATTGATGCCGGCGTCCCGGAGGAGCTGGGGCTGGAGAAAGTCATCCGGCCTGTGTCCGGCATCCGCTCGTTGACCAAGGCCGACCTGAAATACAACGACGCCACCCCTGACATCCAGGTGGACCCGGAGACATACCAGGTGACGGTGGATGGCGAAGACGTTACGTGTGAACCGTCCGACGTGCTGCCCATGGCCCAGCGCTACTTCCTCTTCTGA	MSFDLPRRQYADLYGPTTGDKIRLADTELFLEIEKDLTVYGEEVVFGGGKVIRDGMGQNGQATRDGNVQGADVPDTVITNAVILDYTGIYKADVALKDGHIFRIGKAGNPQISDGVDIVIGASTEIIAGERRILTAGGVDSHIHFISPDQVPTALSSGITTMVGGGTGPAEGTKATTVTPGKWHIQRMLQAAEGLPINIGLFGKGHASAVEPLAEQIRAGAIGLKVHEDWGSTTSSIDTSLKVADEYDVQVAIHTDTLNECGFVEDTIRAIDGRVIHTFHTEGAGGGHAPDIISIAGLPNVLPASTNPTLPYTRNTIEEHLDMLMVCHHLNPDIPEDVAFADSRIRAETIAAEDVLQDLGIFAITSSDSQAMGRVGEVITRTWQVADKMKKQRGVLQDPRGESAASMHGSEDSDNFRLKRYVAKYTINPAIAQGMADSIGSVEEGKFADLVLWDPAFFGVKPELVLKGGQIAYALMGDANASIPTPQPRTMRPMFAAFGKALQQSSITFLSQAAIDAGVPEELGLEKVIRPVSGIRSLTKADLKYNDATPDIQVDPETYQVTVDGEDVTCEPSDVLPMAQRYFLF	PGPT0000965_180	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000965-ureC-K01428	NA	NA
D1-29_00407	486	ureE		Urease accessory protein UreE	ATGATCATCGAAAAAGTCCTTGGCAACCTCCACGAGCTGCCCACCGCAGACCTCGCCGCCTACACGGGCATGCACCGCGAAAAGGTGGTTCTTCCCAGTGCGGAGCTGGTCAAGCGCATCCAGCGTGTCACCACGGACCACGGCCAGGAGCTGGGCATCCGGCTCCCCTCCGGCTCGGACGACCTGCGGGACGGCGACATCCTGCACGTCGCCGGGACCAACATGATCGTGGTGGCTGTGCTCCCCACAGACGTGCTGGTGATCTCGCCCGGGTCCGTCTACGAGATGGGCGTGGTGGCGCACTCCCTGGGCAACCGCCATCTGCAGGCCCAGTTCTTCGACGCGTCCTCGGAGTACGGCGCCGACGTGATGGTCTGCGCCTACGACCACACCGTTGAGGACTACCTCAAACACGTCGGAGTGCCCTACGCCCGCCAGGAACGCGTGATGCCGGTGCCTTTCCGCCATGCCGAACACAGTCACTGA	MIIEKVLGNLHELPTADLAAYTGMHREKVVLPSAELVKRIQRVTTDHGQELGIRLPSGSDDLRDGDILHVAGTNMIVVAVLPTDVLVISPGSVYEMGVVAHSLGNRHLQAQFFDASSEYGADVMVCAYDHTVEDYLKHVGVPYARQERVMPVPFRHAEHSH	PGPT0000975_1015	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000975-ureE-K03187	NA	NA
D1-29_00408	699	ureF	COG0830	Urease accessory protein UreF	ATGCCGAACACAGTCACTGATCCGGCTCCTGCGCCGGCCTACCAGTTGGCGTTGCAACAGCTCACTGACTCGGCGCTCCCCACGGGGGCCTTTGCGCATTCTCTTGGCTTTGAGACGTACATCGACCGGGGGCTCATTCATGATGAGGCTTCTTTTGGGATCTGGCTCAGTGTGTTCACAAGGCAGCAGCTGACCTACTCCGACGGGCTCGCCATCCGGTTTCTTTACGAAGGCACCCCCCTCACAGAGCTGGATGAGCTGTTGTCCGCGCAACTGCTTCCCCGGCAGCTGCGCGAAGCCAGCATCAAGATGGGCACCCGCCTGCTCGAGATCGGCTCGGAAGTCTTCCCTTCGCCTGAGCTGGAACTGTACCGGGACCTGGTGATCACGGGCCGCGCTGCAGGCCACCAGCCGCTGGCGTTCGCCGTCGTCGCCCGTTCACTGGGAGTGCCCCTGAACGGGGCGCTCGCCGCCTACCTTTTCGCCTGCGTCACCTCCCTGACGCAGAACGCCGTGCGCGCCATCCCGCTGGGCCAGAACGCCAGCCAGCGGCTGCTGCGGAAGGCGGCCGACGACGTCGCTGCCGCCGTCCGGCAGATCGCTCACCTGACGCCGGACGACTTCGGGGCTGTCAGCCCCGGACTGGAAATTTCGCAAATGCGGCACGAACACCAACGCGTCCGTATGTTCATGAGCTAG	MPNTVTDPAPAPAYQLALQQLTDSALPTGAFAHSLGFETYIDRGLIHDEASFGIWLSVFTRQQLTYSDGLAIRFLYEGTPLTELDELLSAQLLPRQLREASIKMGTRLLEIGSEVFPSPELELYRDLVITGRAAGHQPLAFAVVARSLGVPLNGALAAYLFACVTSLTQNAVRAIPLGQNASQRLLRKAADDVAAAVRQIAHLTPDDFGAVSPGLEISQMRHEHQRVRMFMS	PGPT0000980_1433	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000980-ureF-K03188	NA	NA
D1-29_00409	618	ureG	COG0378	Urease accessory protein UreG	GTGTCTGAACCCATCAGAATCGGCATCGGCGGCCCGGTGGGTGCCGGCAAAACCCAGTTGGTGGAGCGGCTCACCCGTCACATGAGCGGCGAGATTTCCATGGCCGCCATCACCAACGACATCTACACCATCGAGGATGCGAAGATCCTGGCGGCCAATGGCATCCTGCCCGTGGACCGGATCATCGGTGTGGAAACCGGCGGCTGCCCGCACACCGCCATCCGGGAGGACACGTCGATGAACACGGCGGCCATCGAGGAGCTGAAGAGCCGGCACCCGGACCTGCAGGTCATTTTTGTCGAATCCGGGGGCGATAACCTCTCCGCCACCTTCAGCCCCGAGCTGGTGGACTTCTCCATCTACATCATCGACGTCGCCCAGGGCGAAAAGATCCCCCGCAAAGCCGGCCAGGGCATGATCAAGTCCGATCTGTTCATCATCAACAAAACCGACCTCGCCCCGCACGTCGGCGCCGACCTCTCCGTCATGGAGCGGGATTCGCGAGAGTTCCGCGGTGCGAAACCCTTTTGCTTCACGAACCTCAAAACCGACGATGGACTCGACGCCGTCATCTCCTGGATGAGGCGCGACGTCCTGATGCTCGACCTCGCTCCATGA	MSEPIRIGIGGPVGAGKTQLVERLTRHMSGEISMAAITNDIYTIEDAKILAANGILPVDRIIGVETGGCPHTAIREDTSMNTAAIEELKSRHPDLQVIFVESGGDNLSATFSPELVDFSIYIIDVAQGEKIPRKAGQGMIKSDLFIINKTDLAPHVGADLSVMERDSREFRGAKPFCFTNLKTDDGLDAVISWMRRDVLMLDLAP	PGPT0000985_1501	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000985-ureG-K03189	NA	NA
D1-29_00410	1014	ureD1	COG0829	Urease accessory protein UreD	ATGAGCACGACGGTCGGGTCCAGCCCGGCGCCTTCACCGGATATTGGGGGCCGTGCCCGTCCCCAGGCGCTCCCAATCGTCACAAGCTCGGATCGGGGCCCTCGCGCCAGTGGGCCCCCCACGAGTGCCACCACGCCGCGGCCCCCAATATCCGGCTCCACCGCCTCTGCGCTTGACGCGCCTCGCGGTGTGCTTGAGCTCGTAATCAGTGAACGGGGCGGGAGATCCGTTGCGTCCCGGCAGTTCCATGAGGGCGCTCTTCGTGTTTTGCGGCCGCACTATCTGGATGACTCTGGGCAGGTTTGTTATGTCGTGGTGAATCCTGGCGGGGCTTATCTTGGGGCGGATCTCTTTGTTGTGGATCTTGAGGTGCGGGACGGGGCGGACCTGTTGCTCACTACCCAGTCGGCGACCAAGATTTACCGTACCCCCGGGTCTTTCGCGGAGCAGCGGATGGCGGTGCGGCTGGGGGAGGGAGCCCGGCTGGAGCTGATGCCTGACCAGCTCATTGCGTACCGGGAGGCCAGCTACCGGCAACGGACGCAGATCACGGTGCGGCCGTCGTCGAGCCTTGTGATGGCCGAAGTCATCACCCCGGGGTGGTCACCGGAGGGGACATCCTTTCGGTACGAGGAACTGCGGCTGCGGAACGAGATCCACGTCGACACCGACAGCGGGGTGGAGCTGCTCGCACTGGACAGCGTGCTGATCCGTCCCCCGCTCAACGATGTCACTGGCCTGGGATTCATGGAGGGCTTTAGCCACCTCGGTTCACTGATGGTGGTTGATGCCCGGGTGGACCAGGCGCTCGCCGACGAACTGCTCACGCTCACCAACGAACACAGGGCCTACACGGGCGTCTCCCTGACCAGGACTGTGGCCGGAACCACCGGTGTGGCGCTGCGATCGTTGTCCAACAGCACGGGGGAGCTGAACCGCCTGCTGGCTGCATGCACCGCACTTCTCCGCAAACGCTGGTCCAGGCAGGAACCGCTGAACCTGAGGAAGTACTGA	MSTTVGSSPAPSPDIGGRARPQALPIVTSSDRGPRASGPPTSATTPRPPISGSTASALDAPRGVLELVISERGGRSVASRQFHEGALRVLRPHYLDDSGQVCYVVVNPGGAYLGADLFVVDLEVRDGADLLLTTQSATKIYRTPGSFAEQRMAVRLGEGARLELMPDQLIAYREASYRQRTQITVRPSSSLVMAEVITPGWSPEGTSFRYEELRLRNEIHVDTDSGVELLALDSVLIRPPLNDVTGLGFMEGFSHLGSLMVVDARVDQALADELLTLTNEHRAYTGVSLTRTVAGTTGVALRSLSNSTGELNRLLAACTALLRKRWSRQEPLNLRKY	PGPT0000970_172	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000970-ureD-K03190	NA	NA
D1-29_00411	768	nixA	COG3376	Nickel transporter NixA	GTGGGCTTCGCCTTCAGCCTGGGGCACAGCTCGGTGGTTGTCCTGGCCGGCGTCCTGGTGGTGGCCGGCGCCGGCGCGGTGGGGCAGCTGATGGAGGAAGGCACAGCGGGAAACCTGGCGCTTGGCCTGATCGGCAGCGGGGTCTCGGGACTCTTCCTGCTGGCCATGGGCACGTTCAACGGCTCGGCCTTTGTCCGCGCGGCGCGTCTTTACCGGACTGTTCGGAATGGCGGACGCGTGGCCGTCGAGGACCTTGAAGCAAAGGGATTTGTGGCCCGGCTCCTGGCCAGGCCGCTGTCCCGGGTCCGGCGGCCGCGCAACATCTACGTCATCGGGTTCCTGTTTGGGCTGGGTTTTGACACCGCCACCACCATCGGCCTGCTGGTGATGGCGACGGCGGCCTCGCTGGCCGGTGTTTCACCCCTCGCCCTGGTGGCGCTGCCGCTCGCATTCACGGCGGCGATGACCTTGTGCGATTCAGCCAACGGGGTGGCCATGATGCGGATGTACACGTCCGCACTGGAGGATCCGCGGCGGAAGCTCGGGTTTAATGCCGTGGTCACTGGCATCTCGGCGGCCTCGGCGCTGTTTATCGCCGTAATCACCCTCGCGGGTTTCTTCAACGCCGCCCTCGGGCTGCAGGATCCGCTGACCACGTGGCTGGGCGCCGTGGACCTCGGGGATGCCGGGCTTATTCTCGTGGCCCTGCTGCTGGGGATCTGGGGCGTTGCCTCCCTCAAAGGGCAGTTCCGGGCAGCGGCACCCTGA	MGFAFSLGHSSVVVLAGVLVVAGAGAVGQLMEEGTAGNLALGLIGSGVSGLFLLAMGTFNGSAFVRAARLYRTVRNGGRVAVEDLEAKGFVARLLARPLSRVRRPRNIYVIGFLFGLGFDTATTIGLLVMATAASLAGVSPLALVALPLAFTAAMTLCDSANGVAMMRMYTSALEDPRRKLGFNAVVTGISAASALFIAVITLAGFFNAALGLQDPLTTWLGAVDLGDAGLILVALLLGIWGVASLKGQFRAAAP	PGPT0004545_445	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NICKEL_TRANSPORT,PGPT0004545-hoxN|nixA-K07241	NA	NA
D1-29_00412	603			hypothetical protein	ATGGGGCGCCCGCTCCTCCCGCTGATATCCGTGGAGGCCCTCACGTCTGCCGCCCTGGAGCTGGTTGACGAAAGCGGCGATTTCAGCTTCCCGAAGCTGGCGAAGAAGATCGGCGTCAGCCAGTCGTCCATCTATAACCACGTCAGCGGCAGGGACGAGATCCTGGAACTGCTGCGTCACAGGATCATCACCGAGGAGCCGTATCCGCCGGTAGACCACAAGGAGTGGGAGGCCGCATTGCGGGTCCTGATCCGCGCCTACAGGGACGCCTTTGCCCGACATCCGCGGCTGGCACCGCTGCTGGTGCTGCAGTCCATCACCGATCCGGACGTCATCGGCCTCTACGAGGATCTGGCCTTGGCATTGGAAAGTGCCGGCTTCCGTGGGCGGGATGTGGTGGCCGGCATCTCAACCATCGACAGCTTCGCACTGGGCGCCGCCCTGGACCTGGCGGCTCCGGAGGTTGTCTGGGATCCGCCGGCCGAGGGCTACCCCACCCTCAAGCGGGCGGTGGGCAACGCGGGCCCACCGGAGGAACGCGGCGGGCATGCCTTCGACTTCGGACTGGACGTGATTATCGGCGGGCTGAAGGCGAAGCTCTGA	MGRPLLPLISVEALTSAALELVDESGDFSFPKLAKKIGVSQSSIYNHVSGRDEILELLRHRIITEEPYPPVDHKEWEAALRVLIRAYRDAFARHPRLAPLLVLQSITDPDVIGLYEDLALALESAGFRGRDVVAGISTIDSFALGAALDLAAPEVVWDPPAEGYPTLKRAVGNAGPPEERGGHAFDFGLDVIIGGLKAKL				NA	NA	NA	NA	NA
D1-29_00413	1458			hypothetical protein	GTGCCGGATACGCAAACCAGACCACAGTCGTCGTCCGCGGACGGCGCCCTCAAGCGCAATGCCCTGGGGACCGGCGGCATCGCCTTCCTCGTTATCTCGGCAGCGGCTCCGCTGACCGTTATGGCCGGGGTCGCCCCCATAGCGATCGGCGTCGGAGGCATCGGCGCCCCCGCCGGCTATCTCCTCGCGGGCCTTGTCCTCACCCTCTTCGCCGTCTCCTTTATGGCCATGACGCGCCACGTCAAGGCCTCCGGCGGCTTCTATACCTACATTTCGCTGGCCATGGGCAGGACCATGGGCCTGGCCTCCGCCATCCTGGCGATCGTTTCCTACAACTGCCTCCAGATCGGCGTCTACGGCCTCTTCGCCGTCCAGACCCACGACATGCTCAAGGTCCTCTTCGGGCTGGAGGTGCCGTGGCCGGCCATCGCGCTCGCCGCCGTCGCCGCCGTGTGGTTCCTCGGCTACAGGGGGATCGACGTCGGCGCGAAAGTGCTGGGTGTGCTCCTGGTCGCAGAGACCGGGATCCTGGCCGTGATGGGCGTCGGCATCCTCAGCAGCGGCGGGGCAGACGGCATCGGCATGGCTTCCTTCAGCCCGGATCAGGCATTTAGCCCAGGTGTCCTGGCCATCCTGGGGATCTGCTTCGCGGCTTTTATGGGCTTCGAGTCCACCGTCCTGTACCGTTCGGAGGCTCGGAATCCGGACAGGTCAGTGCCGCGGGCCACGTACATCGCCGTGGGCTTTATGTCCGTTTTCTACGCCTTCATCGTCTGGACGGTCGTGCAGGCCTATGGCGAAGGCCGCGTGGTGGAAGCTGCCGGGGAACTGGCCGGCGGGATGTTCTTCCAGACCATCAACCAGTACGTGGGTCCCTGGGCGGAAGCGGTGATGTACGTCCTGATCGTCACCAGTGTCTACGCCTCCCAGCTGGCCTTCCACAACGCCATAAACCGATACGTCTACATGCTGGCGCGCGACGGCGTGCTGCCGGCCTTCCTTGCCCGCACCCACCCCAGGTTCCAGTCCCCGCATCGGGCAGGCCAGATCCAGACCCTCCTCGCCGCGGTGGTCATCAGCATCTGCGCGCTCCTGAACGCCGACCCGTACCAGCAGTTGCTGATCTGGGTAAACACTCCCGGAATCTTCGGCATCGTTGGGCTCCAGGGCCTGGTTTCGGTGGCAGCCTTCCTCTACCTTCGCCGCAATCCCGCTGCGGCCACCCACAGATTTCTCATTCCCGTCAGCCTGGCGTCCGCCATTCTGCTTTTCGGAGCAGTGCTGCTCATCGGCCTGAACATCGAGCTGCTCACCTTTGCTGACAGCATCACCAACACCATCCTCATCCTGGTCATGCCCGTGGTCTTCCTCGCCGGACTCCTCACGGCCCGCTGGGTACGCCGCCACCGTCCCGAAACCTTCGCGCAGATTGGAAGCTTCGAAACCCATGAATCCTGA	MPDTQTRPQSSSADGALKRNALGTGGIAFLVISAAAPLTVMAGVAPIAIGVGGIGAPAGYLLAGLVLTLFAVSFMAMTRHVKASGGFYTYISLAMGRTMGLASAILAIVSYNCLQIGVYGLFAVQTHDMLKVLFGLEVPWPAIALAAVAAVWFLGYRGIDVGAKVLGVLLVAETGILAVMGVGILSSGGADGIGMASFSPDQAFSPGVLAILGICFAAFMGFESTVLYRSEARNPDRSVPRATYIAVGFMSVFYAFIVWTVVQAYGEGRVVEAAGELAGGMFFQTINQYVGPWAEAVMYVLIVTSVYASQLAFHNAINRYVYMLARDGVLPAFLARTHPRFQSPHRAGQIQTLLAAVVISICALLNADPYQQLLIWVNTPGIFGIVGLQGLVSVAAFLYLRRNPAAATHRFLIPVSLASAILLFGAVLLIGLNIELLTFADSITNTILILVMPVVFLAGLLTARWVRRHRPETFAQIGSFETHES				NA	NA	NA	NA	NA
D1-29_00414	1686	nfdA_1		N-substituted formamide deformylase	ATGAATCCTGACCTGATCATCCTTGCCGGCACCATCCATACGATGGAAACCAGCTCCACGGCCAGCCCGGCCGGGACACCGCCCCAGGCCGTGGCTGTCAAGGACGGCGTGATTGCCGCCGTCGGAACACGGGCGGAAGCTGAAAGCTGGCGGGCCGCAGAGGTCATTGACTTTGGCCAAGCCGTCCTGACGCCCGGCCTGGTGGACTGCCACATGCACCCCGTCCTGGGGCTGGAACTCACCCGCGGCTGTGACTTGTCCGGTGCCTCCAGCCTCGGCGAGGTGCAGGCGATCTTGCGGACTGAAACGTCAGCAACCCCCGCCGGCGACTGGGTCAGGGGCTGGGGCCTGGATCCCAATCTGTTCGGCTCAGCTGCTGCCCACCGCGGGCTGATTGACGACGTCGTCCCAGGGCGGCCGTGCCTTGTCCGGCTTTTCGACGGGCATTCGGCGCTGGCAAACACCCTTGCGCTCGATATCACGGGCATCACTGGCCCCCGTTCGTTTGACCAGGCCTCCGAGGTGGTCTGCGATGCCGGCGGGACACCCACAGGGCTGCTGCTGGAGGCAGCCGCCGTCGAGCTGGTTGCCCGTGTGATGCCCGCCGAATCCTTCGCCGCGCGGAAGGAGCGTCTGGCGGAGCTCTTCACGCAATTTTCCAAGTCAGGGCTGACGGGCGCCCACGTTATGGACTGCGGGGAGGGCTCCCTGGAGCTCTACCGCGCGCTCGAAAACGACGGCGGAAGCACCGACGGCGGCAGCGCCGGAGGAAGGGACGGGTCCGACGGCGGCCTTCCGCTGCGCCTGCGGATCTCGCCGTGGTGCATGCCCGGCAGCAGCCGGACGGAGTGGCTCGGGCTCGCTGAGCGGGTGGGAACCCTGGCGGGGCGGCGCTGGGAGGTGGCCGGCATCAAACTGTTCGTTGATGGCACGGTGGACAACGGAACCGCCTGGCTGTTTGAACCTGACGTGTACGGGGAGTCGGTTCGCCCGTTCTGGCCACGGCCGGAAGAATACGCCCAGGCCGTTCGGTTCTTTGCCGGCCGGGGCATTCCCACAGCCACCCACGCCATCGGCGACGCCGGGGTGGCCGCCGTGCTGGACGCCTTTGAGGCACTGCCGCCGAGTACTCCGCCGGCAGTGCACCGGATTGAGCATCTCGAAACCGTCCCGGACGCGCTGGTGGACAGGTTTTCCCGTTCCGGCCTGGTGGCAAGCATGCAGCCTTCCCACTGCACGCACTACTCCCGGGCTGACCAAACTGACAACTGGTCCACACGGCTTGGTGCTGAGCGGGCCAACAACGCCTGGCGGTGCGGGGACCTTCGCGCTGCCGGAGCCACCCTTGCCCTCGGCTCGGACTGGCCGATCGCCCCGTTCGAACCCCTGCCCATTCTGGCCGATGCGCAATTGCGCCGGCGGGCCGGCCACCCTCATGACGAGCCGATCCTGCCGGGGCAGGCTCTCACAGCCCTGCAGGCTTTAGAAGGCTATACGTCCCATGCAGCCCGCGCGGCAGGGGAGTGGGCGGTCTCCGGTTCCGTCACAGTTGGCAAGCGCGCGGATTTCACGGTGTTTGAAGTCGATCCGCTTCTTGCTGCCCCGGACGAGCTGGCCGCCGCCCGGGCAGTGGCCACCTTTGTGGACGGCGTGCCGCAGCACCTGGCGGTGGGGTCCGCCAGGTAG	MNPDLIILAGTIHTMETSSTASPAGTPPQAVAVKDGVIAAVGTRAEAESWRAAEVIDFGQAVLTPGLVDCHMHPVLGLELTRGCDLSGASSLGEVQAILRTETSATPAGDWVRGWGLDPNLFGSAAAHRGLIDDVVPGRPCLVRLFDGHSALANTLALDITGITGPRSFDQASEVVCDAGGTPTGLLLEAAAVELVARVMPAESFAARKERLAELFTQFSKSGLTGAHVMDCGEGSLELYRALENDGGSTDGGSAGGRDGSDGGLPLRLRISPWCMPGSSRTEWLGLAERVGTLAGRRWEVAGIKLFVDGTVDNGTAWLFEPDVYGESVRPFWPRPEEYAQAVRFFAGRGIPTATHAIGDAGVAAVLDAFEALPPSTPPAVHRIEHLETVPDALVDRFSRSGLVASMQPSHCTHYSRADQTDNWSTRLGAERANNAWRCGDLRAAGATLALGSDWPIAPFEPLPILADAQLRRRAGHPHDEPILPGQALTALQALEGYTSHAARAAGEWAVSGSVTVGKRADFTVFEVDPLLAAPDELAAARAVATFVDGVPQHLAVGSAR				NA	NA	NA	NA	NA
D1-29_00415	453	lpxD_1		UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase	ATGAGCAGGAAGTTCGAATCTGTAGAAGATGATGCCGGCAAGGTCACCCGCTACCTGCGGCACCCCAACGGAGGGGGCTTTGTTGGGCCAGGGGCCGACGTCGCTGAAAGTGCGCGCATCGGTTCAATGACCTACGTGGAACCCGGCGCACAAGTCGGTCCCGGGGCACGCGTAGGGCGTGGAAGCTGGATCGACCGCGAGGCGAAGGTGGGCGACCGCACGGTCATCGGCGACGGCGTGTACGTAGGCCACGGATCTGTCATCGGCAGCCGCGTTCATATCGGAAGCCATTCACGGATCGGAGCCGGCGCCCTGATCGGCCATGGCTCCCACGTGCATGCCGATACCACCGTGCCCGAGCGGGGACGGGTAGTGGCAGAGGCAAGCCGACGGCGCCGCGGCCCGGCCGGGAAGCGTCCGCCCCGCAGGCCGGACCACGGCCTGGCGGCCTAG	MSRKFESVEDDAGKVTRYLRHPNGGGFVGPGADVAESARIGSMTYVEPGAQVGPGARVGRGSWIDREAKVGDRTVIGDGVYVGHGSVIGSRVHIGSHSRIGAGALIGHGSHVHADTTVPERGRVVAEASRRRRGPAGKRPPRRPDHGLAA				NA	NA	NA	NA	NA
D1-29_00416	528			hypothetical protein	ATGCTGCTGCCGCCGGACCTGGTCCTGACCCTCGCCGAATACACTGCCTTGGGCCTGGCCTGGTCAGAACCCACTGCCGCGCCGGAGAGCGCTGATTACGGGGCCCACACGTTCGCCGTCCACGGTCAAACGGCCGTCTTCCGCAGTGCCAGGACCACGCCAACGAAGATTGGCCAGTTCGTCACGCTCTGGCAGCGCTCTGAAGCCGGCGCCAGGCCCATCCGCCCCTTCGATACTTCCGACGGCATTGACATCTTTGTGGTCAGTACCCGCTGTGGCGGGGAATTGGGGCAATTCGTGTTCCCTCAGGCTGCCCTGGTCCTGGGGGGCGTGGTGTCGAAGGATTTCGACGGCGGCAAACGCGCCTTGCGTGTCTACCCGCCGTGGTCCCATCCCACCAGCCGTACCGCCCTGGCTACCCAGGGCTGGCAGCTGGAGCACTATTTTCCCATTCCGGACCCCCTCCAGGGAGTGTCAGGAGTCCTGTCCCCACGTTCTGGCAGAGGTGCTTCTTCCACGGCACCCTGA	MLLPPDLVLTLAEYTALGLAWSEPTAAPESADYGAHTFAVHGQTAVFRSARTTPTKIGQFVTLWQRSEAGARPIRPFDTSDGIDIFVVSTRCGGELGQFVFPQAALVLGGVVSKDFDGGKRALRVYPPWSHPTSRTALATQGWQLEHYFPIPDPLQGVSGVLSPRSGRGASSTAP				NA	NA	NA	NA	NA
D1-29_00417	753			hypothetical protein	ATGGTAGCTGCGAAAGTTTCGGAGAATGAAGTTTTTAAGGATGTTGCCCAGCGCCTTCAGGATCTTGTGTTGGACAGTCCTGAAGTGGGCCAGTTCCTTGAGGAACTGGCTGCATACTCTGCCGACCGGCTCAGCAGTCCGGGGCGTGAAGTGTCCTGCGGGATTACCGTTGTCAGGCATAAGAAGGCCACCACCGTGGCCAGCAGCAGCCCGTGCGCACGGGTGATGGACGAGCTGCAACACGAATATGGTGACGGGCCGTGCCTGACGGCCATGCGTGACATGGTCACGGTCCTGGTACCGGATCTCAGGCAGGAGCGGCGCTGGCCCGGCTATGTCGAGGCGATCACGGGCCTGGGGAACAGGTCCGTCATCGGGATTCCGCTGCCGTTGGAGGGCCAAAGCCGGGCAGTGCTGAACCTCTACAGCCGGTTGCCGCACGCGTTCAGCGGGGAGGACATCGCCAGTGCGGAAGCTTTTGCGGGGCAGGCATCCAAAGGCCTGCGGCTGGCGCTGCGGCTGGGGCAGCTGCAGGACACCCGGGACGACATGAGCGCCGCGATGAAATCCAGGACGGTCATTGACCTGGCCACCGGCGCCATCATGGCCCAGAACCGGTGCGGGCAAAGCGCTGCGTTCAAGGTCCTGGTGGAAGCATCCAACACCCGCAACATGAAGCTCCACCACGTGGCCGCCCGCGTCCTTTCGTCGCTCGCGGGCAGCGCCATCACGTCCACGTATTTCGACGAGTAG	MVAAKVSENEVFKDVAQRLQDLVLDSPEVGQFLEELAAYSADRLSSPGREVSCGITVVRHKKATTVASSSPCARVMDELQHEYGDGPCLTAMRDMVTVLVPDLRQERRWPGYVEAITGLGNRSVIGIPLPLEGQSRAVLNLYSRLPHAFSGEDIASAEAFAGQASKGLRLALRLGQLQDTRDDMSAAMKSRTVIDLATGAIMAQNRCGQSAAFKVLVEASNTRNMKLHHVAARVLSSLAGSAITSTYFDE				NA	NA	NA	NA	NA
D1-29_00418	975	RBKS_1		Ribokinase	GTGCTTACGAATTCCCCTTCCGCCTCCGGCACTCCCCTGCCTGCAGCCGCTCCCGATGTCGTTGTTATCGGGGAGGCACTGGTGGACATTGTCAGCTCCGCCGACGTCAGTGTGGAGCACCCTGGCGGGTCGCCGATGAACGTTGCCTACGGCCTGGGCCGGCTGGGTGTCCCCACTGCGTTGCTCACGTCGCTGGGGAACGATGCCCGGGGCGAGGCGATCGAGGCGCATCTCCGGAGTGCCGGCGTCGACCTCCTGCCCGGCTCCAGGTCTGCGGGGCGGACCAGCTCCGCCGCCGCAACGATCGCAGCCGATGGCTCGGCCAGCTATGAATTCGACATCAGCTGGGAGCTGGCAGCGGTTACTCCCGCTTACCTTCCCAAGGTGCTCCACACGGGATCCATCGCCACTTTCCTCTCCCCGGGTGCCGGCACGGTGAGGACACTGCTTGAGCAGGCGCACCGGGAATGCATCGTGACGTACGACCCCAATATCCGGCCCGCCCTGCTGGGAAGCAAGGCCGAGGCGCGGTCCATTTTTGAGGACCTGGTTCCCCTGACCGATGTGGTGAAGCTCAGCGACGAGGATGCTGGTTGGCTTTACCCCGGCCACAGCCTTGAAGAGGTGGCGGCCAGGATCCTTGGGCTGGGCTCTGGGCTTGCCGTGGTGACGCGGGGCTCCGAAGGCTCTCTTCTGGCCACTGCGGCCACCACACTACACGTTCCAGCCACCAGGGCCGTAGTGGCGGACACCATTGGGGCAGGCGATTCCTACATGGCGGCGCTGATTTACGGGCTGCTTGCACGGAAGACTGAAGGGCTCGCAGCCGACGTCCTGGATAGCCTCGGGCGGACCGCGGCCAAGGCCGCCGCCATCACGGTAGGCAGGCCCGGCGCCAACCCGCCAACGGCAACGGAACTCGCGGCGGAACCCGCGGCGGAGCCAGCGGTGACAGGAACCGCCGCCGTCGCCTAA	MLTNSPSASGTPLPAAAPDVVVIGEALVDIVSSADVSVEHPGGSPMNVAYGLGRLGVPTALLTSLGNDARGEAIEAHLRSAGVDLLPGSRSAGRTSSAAATIAADGSASYEFDISWELAAVTPAYLPKVLHTGSIATFLSPGAGTVRTLLEQAHRECIVTYDPNIRPALLGSKAEARSIFEDLVPLTDVVKLSDEDAGWLYPGHSLEEVAARILGLGSGLAVVTRGSEGSLLATAATTLHVPATRAVVADTIGAGDSYMAALIYGLLARKTEGLAADVLDSLGRTAAKAAAITVGRPGANPPTATELAAEPAAEPAVTGTAAVA	PGPT0017625_622	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
D1-29_00419	795	frcA	COG1129	Fructose import ATP-binding protein FrcA	ATGACCGCCACGCATCAGGAGTCCACGGGGACCGAAGTCCGCCAGCCAATCATGCAGGCCAGGAACCTCGTCAAGACCTACGGCCGGGTGGTGGGCCTGGACGGTGTCAGCCTTGACCTCTACCCGGGCGAAGTCCTGGCGATCATCGGGGACAACGGCGCGGGAAAGTCCACCCTGATCAAATGCCTCACAGGTGCGGAAATCCCGGATTCGGGCGAACTGAAAGTGTCCGGCCAGCCGGTCCACTTCAAGCGTCCGCAGGACGCCCGGGCCTACGGGATCGAAACGGTCTACCAGAACCTTGCCGTCTCACCGGCACTGGACGTTGCCTCCAACCTGTTCCTGGGCCGGGAAGAACGGCTGGCCGGCCCGCTTGGCAAGATCTTCCGGGTCCTGGACATCAAGGGAATGCGCCGCAAGGCAAAGGAAGAGCTGACCCGGCTGGGCATCTCCACACTCCAGGACGTCACCGTTCCGGTGGAGAACCTTTCAGGCGGCCAGCGCCAGGCGGTCGCTGTGGCCCGTGCCGCTGCGTTCGGTTCAAAGGTGGTTGTGCTGGACGAGCCGACGGCGGCGCTGGGCGTCCGGGAATCCAACCAGGTTTTGCAGCTGGTCAGGGACCTCCGCGACCGCGGGCTGCCGGTGATCCTGATCAGCCACAACATGCCCCACGTGTTTGATGTGGCCGACAGGATCCACATCCAGCGCCTCGGCAAATGTGCGGCAACCATCACGCCGGAATCACACACCATGACCGATGCAGTGGCAATCATGACCGGTGCCGCCACAGCCTAA	MTATHQESTGTEVRQPIMQARNLVKTYGRVVGLDGVSLDLYPGEVLAIIGDNGAGKSTLIKCLTGAEIPDSGELKVSGQPVHFKRPQDARAYGIETVYQNLAVSPALDVASNLFLGREERLAGPLGKIFRVLDIKGMRRKAKEELTRLGISTLQDVTVPVENLSGGQRQAVAVARAAAFGSKVVVLDEPTAALGVRESNQVLQLVRDLRDRGLPVILISHNMPHVFDVADRIHIQRLGKCAATITPESHTMTDAVAIMTGAATA	PGPT0016685_154	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FRUCTOSE_TRANSPORT,PGPT0016685-frcA-K10554	NA	NA
D1-29_00420	1047	frcC	COG1172	Fructose import permease protein FrcC	ATGACACAGCAACAGACCGCAGGCCCGCCCGCAGCGGGGCAGGCAGACCTGGCCGAGGAATTCCTCGACCGGCAGACAACCCTTAGCCGCATCCGCAACGTCCTGCACCGTTATCCGGCCCTCAGCCCCGCGATCGTGCTGCTTATCGCGGTGGTGGTGTTCGGGCTCCTCAATGACAGGTTCCTCCGGTTTGAGAACCTTTCCCTGATTACCCAGCAGGTGTCGGTGGTGGGTACCCTGGCGATCGCCCAGACCCTCATCATCCTCACTGCCGGCATCGACCTGTCCGTTGGCGCCGTGATGATCCTGGCCTCCATGGTGGTGGCGCAACTCTCGGTCAGCAACGGACTGCCGGCTCCCCTGGCGCTCTTCGCAGGGCTGGTGGTGGGGCTCGGCGCGGGAGCGCTGAACGGCTTCCTGGTCACGAGGTTCAGGCTTCCACCGTTCATCGTGACGCTCGGAACCCTGAACATCTTTATCGCCCTGACCCTGCTGTATTCGGGCGGCTCCACGGTCCGCGGCTCCAGCATGCCCGACGTGCTGACGTGGATGGGCAGCACCTTCCCGGTGGGCCCGGTCCGCATCTCCACCGGCGTGGTGATGATGCTGCTGCTCTACATCGCCATGGCATTCATCCTGGGCAAGACAGCCTGGGGCAGGCATGTCTACGCAGTGGGCGATGACAAGGAGGCCGCGCGCCTTGCCGGTATCCCGGTCAACCGCGTCCTGATGAGCGTCTACCTCACCGCCGGAGCCGTACTGGCCATCGGCGCCTGGATCCAGATCGGCCGGACCAACGCAGCCAGCCCCAACGGCGGCGTGGACTTGAACCTGGACTCCATTACCGCCGTCGTGATCGGCGGAACAAGCCTCTTCGGCGGGCGCGGTTCCGTCTGGGGTTCGCTCCTGGGCGCACTGATCGTGGGTGTGTTCCGCAACGGACTCTCGCTGGCCGGACTGGATGTGCTCTACCAGACCCTCGCCGTAGGCGTCCTTATCATCCTCGCTGTGTCCATCGACCAGTGGATCCGAAAGGTGAAATCATGA	MTQQQTAGPPAAGQADLAEEFLDRQTTLSRIRNVLHRYPALSPAIVLLIAVVVFGLLNDRFLRFENLSLITQQVSVVGTLAIAQTLIILTAGIDLSVGAVMILASMVVAQLSVSNGLPAPLALFAGLVVGLGAGALNGFLVTRFRLPPFIVTLGTLNIFIALTLLYSGGSTVRGSSMPDVLTWMGSTFPVGPVRISTGVVMMLLLYIAMAFILGKTAWGRHVYAVGDDKEAARLAGIPVNRVLMSVYLTAGAVLAIGAWIQIGRTNAASPNGGVDLNLDSITAVVIGGTSLFGGRGSVWGSLLGALIVGVFRNGLSLAGLDVLYQTLAVGVLIILAVSIDQWIRKVKS	PGPT0016590_4286	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
D1-29_00421	1113	frcB		Fructose import binding protein FrcB	ATGTTGACTTCCAAGACCCCGCGCACCATCGCCCGCCGCCTGGCTGCCGCGGGCGCCGTCCTGACGCTCGCCACCCTCAGCCTCACGGCCTGCGGCGGCAGCTCCCCGGCAACCTCCGGCACCGAATCCGGAGAAAAGGTGGGCGTTTCGCTCATCGTCAAGACCACGTCCAACCCGTTCTTCGTTTCCATGCAGGACGGCGCCAAGAAGGCTGCCGAGGCGGACGGCGTGGATCTCAAGCTCGCAGCCGGCAAGGCCGACGGCGACGAGGACACCCAGATCCAGGCAATCGAAAACGCCATCTCCAATGGAGACAAGGGCATCCTGATCACACCGAACGGTCCTTCCGTGGTGGACGCGCTGAAGAAGGCCAAGGATGCCGGCCTCTTTGTTATCGCCCTGGACACCCCGCCGGACCCGGCCGACGCCGCCGACATCACCTTCGCTACCGACAACTTCGCAGCCGGCGAACTGATTGGCGAATGGACCGCGGCGCAGTTGGGCGGCAAGAAGGCCACCATCGCCCTGCTGGACCTTTTTGACGACAAGGTTGTTTCCGTGGACTACAACCGCGACCAGGGCTTCCTGACCGGTCTGGGCATTGACACCGCGGATGCCAAGAAGAACGGCGACGAAGCGAAGACCGGAAAGTACACCGGCGGCAAGGGCGGCGACTACGAGATCGTTGGCAGCCAGGCTTCCCAGGGTGCCGAGGACGGCGGCCGCACCGGCATGGAGAACCTGCTGTCCAAGAACCCGAACATCAACGTTGTCTACACCATCAACGAGCCGGCCGCGGCAGGCGCCTACGAGGCCCTGAAGTCAGCCGGCAAGGAAAAGGACGTCCTGATCGTGTCGGTGGACGGCGGCTGCGCCGGCGTTGACAACGTCAAGTCCGGCATCATTGGCGCCACGGCCCAGCAGTACCCGGTCAAAATGGCCGAGATGGGCGTCAAGGCCATTGTTGAACTGGCCAAGACCGGAAAGAAGCCTGCCAACTCCGAAGGCCTGGACTTCTTCAACACCGGAGTTGAACTGGTGACCGATACCCCGGCCGATGGCGTCAAGAGCATCACCACGTCAGAAGCCAGCCAAATCTGCTGGGGCAAGTAA	MLTSKTPRTIARRLAAAGAVLTLATLSLTACGGSSPATSGTESGEKVGVSLIVKTTSNPFFVSMQDGAKKAAEADGVDLKLAAGKADGDEDTQIQAIENAISNGDKGILITPNGPSVVDALKKAKDAGLFVIALDTPPDPADAADITFATDNFAAGELIGEWTAAQLGGKKATIALLDLFDDKVVSVDYNRDQGFLTGLGIDTADAKKNGDEAKTGKYTGGKGGDYEIVGSQASQGAEDGGRTGMENLLSKNPNINVVYTINEPAAAGAYEALKSAGKEKDVLIVSVDGGCAGVDNVKSGIIGATAQQYPVKMAEMGVKAIVELAKTGKKPANSEGLDFFNTGVELVTDTPADGVKSITTSEASQICWGK	PGPT0016680_10	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FRUCTOSE_TRANSPORT,PGPT0016680-frcB-K10552	NA	NA
D1-29_00422	999	rbsR_4	COG1609	Ribose operon repressor	ATGCGGCATGTCGCCGCGCTCGCCGGCGTAGGTATCAAGACCGTTTCCCGCGTGATGAATGATGAACCGGGCGTCTCTGAGGCCACCCGGCAGCGTGTCCTCGGCGCATCGCAGCAGCTCAATTACCAGCTGGACCTGGCCGCCGGAAGCCTGCGCCGTGCGGGCCGGCAGACGCTGTCCATCGGGCTCCTGCTGCCCAGTGTGGCCAACCCGTTCAGCAGTGAAATCCACCGCGCGCTCGAGGATGCCCTGGCCACCCGCGGGATTGCCGTTTTCGCCGCCAGCCTGGACGACGACGCCGAACGGGAAAAGTCCCTGGTGGCCGCGTTCCTTGGCCGGCGCGTGGATGGGCTGGTCCTCACCCCCATTGCCAAAAGCCAGTCATACGTCATACCGGAGCATTCCCGAGATCTGCCCATGGTGTTTATTGACCGCGAACCCGTAGGGATTGAAGCAGACGCCGTGGTGACGGACAACGCCGTGGGAGCTGCCCGGGCGGCGGCCCACCTGATGGCGCACGGCCACACCAAACTTGCCTATCTGGGTGACCGCACTGACATCCAAACGGCCCGCGAACGGCGCCGCGGCTTCCTGGAGGAGCTGGGTAGGGCCGGCATCCCGACGTCGTCCGTGCCTGTCCGCGAAGGCCTTCACAACGAGGAATCAGCCCGGCAGGCGGCGCTGGAAGTCATGTCAGGAGAGGACCCGCCCACGGCCATTTTCTCCAGCCAGAACCTGGTCACGTTTGGAGCCATGCGCGCACTGAAGGAGCTCGGAGCCAGCCGGAGCACCGCGCTGGTGGGGTTCGACGACTTCACGCTCGCGGACATGATGGACCCCGGCATCACCGTGATTGCACAGCACCCCGAGAGGATCGGAAAACTGGCAGCGGAGCGGCTGCTTGCCAGGATCGACGGCGATGACCAGCCGGCGCAGACCTACATCGTTCCAACCGAGCTCATCCAGCGGGGTTCCGGGGAGCTCCCGCCCGTCCGTTGA	MRHVAALAGVGIKTVSRVMNDEPGVSEATRQRVLGASQQLNYQLDLAAGSLRRAGRQTLSIGLLLPSVANPFSSEIHRALEDALATRGIAVFAASLDDDAEREKSLVAAFLGRRVDGLVLTPIAKSQSYVIPEHSRDLPMVFIDREPVGIEADAVVTDNAVGAARAAAHLMAHGHTKLAYLGDRTDIQTARERRRGFLEELGRAGIPTSSVPVREGLHNEESARQAALEVMSGEDPPTAIFSSQNLVTFGAMRALKELGASRSTALVGFDDFTLADMMDPGITVIAQHPERIGKLAAERLLARIDGDDQPAQTYIVPTELIQRGSGELPPVR	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
D1-29_00423	294			hypothetical protein	ATGACCAAAACGCTGTACGCCGAATTTACCGTCAAACCCGGCAGCGAGGCCCGGGTGGCCGAGATGATGCAGGAACTGACCGAGCATGTCCGCCGGGAGCCGGGCAACCAGCTGTTCCTGCCCTACACCCGGGAAACAAACCCCCGCGAGTACTTCGTCTTCGAGGTCTACCAGGACGACGCCGCGTTCCAGGAACACATCAGCGCCGACTACGGCGCACGGTTCAACGGTGAGCTCTCAGGCCACATCGAGGAGGACGGCTCCGTGCTGACCTGGCTCCAGCCGGTCGCCTGA	MTKTLYAEFTVKPGSEARVAEMMQELTEHVRREPGNQLFLPYTRETNPREYFVFEVYQDDAAFQEHISADYGARFNGELSGHIEEDGSVLTWLQPVA				NA	NA	NA	NA	NA
D1-29_00424	2712			hypothetical protein	ATGAAGGGCGACCCCAACGATATGCGGAGCAAAAAATCTCCAACAATCCGGGCGTGTTCTGCGCTCACCCTGGCAGGCCTGAGCCTTGCCGCCGCTCTGGCGGGAGCCGGCCCATCCCAGGCACTGGCCGTGCCCAGAACCCCGGTTGACCCCGTCAACGTGGCACTCAACGGAACAGAGACGGCAGGGGGCGAGCAGTACCGGCCGGGCATCCACTTCACACCCCAGAAGAACTGGATGAACGATCCGAACGGGATGGTCTTTCATAAGGGTGTCTATCACCTGTATTACCAGCACAATCCGTCCGGCAATACGTGGGGCAACATGTCCTGGGGCCACGCCACGTCCACGGACCTGACGCACTGGACTGAGCAACCGCTGGCCATCGCCACCGATGACCAGCAGGACATCTTCTCCGGAAGCGTGGTGGTGGACAAGGACAACACCACCGGCTTCGGCACGGCCGAAAACCCTCCACTGGTGGCAATCTTCACCAGCGCCTACAAGGACGCTTCCCCCTACAAGGGCCTGCAGGCACAGTCACTCGCCTACAGCCTGGACGATGGCCAGACCTGGACCAAGTACGGTGCCAACCCCGTCCTCAACCGCAATTCCGCGAACTTCCGGGACCCCAAAGTCTTCTGGTACGAAACTCCCGGCGGTGGCGGCTACTGGGTCATGGCCGTCGTCGAGGCCACAGACCACAAGGTGCTCCTCTACAAGTCCGCCAACCTCAAGGACTGGTCCCTGCTCAGCGAATTCGGGCCAGCCAACGCAACCGGCGGGCTCTGGGAATGCCCGGACCTGTTTCCGCTGGCAGTGGACGGCGATCCCGCGAACGTCAAGTGGGTCATGGTGGTCAACATCAACCCGGGCGGCGTGGCAGGCGGATCGGCAGGCCAGTACTTCGTGGGCAATTTCGACGGGACCACCTTCACCTCGGAAACAACCAAACCCAGTGACACCCTGCCTGCCGGGACTCCCCTGGCCGGGTTCAATGACGGCACCTACAACGGGTGGACGGTCAACAACGAGCCGGGCAACTGGAAGAACGGCCCCTTCGGCGATGCTCCGGCGGCAGGAACGCTCCCGGGGCAGAACACCGTCACCGGCTTTGCCGGAGCCGGGCTGATCAATTCATTCAACGACGGCGACTGGCCGCTCGGCTCCATGAGCTCCCCGGCGTTCACCGTCACCAGCGACTACCTCAACTTCCTGGTGGGCGGCGGCCAGCATCCGCGTGTCTCGGACAAGCTCGACAACACACCACCGGCCGGCGAGCTGCTTTTCAACGGCTTCGAAGGTGCGGACGGTTCCACACTTGCCGACGCCGGCTGGACCGGAACGGACGATTTGGCGCCCGCATTCCAGCCAGCTACCGCCGGAGGCGACTACTACATCGGCGCCAAGCGCATCAATACGTTCGAAACCGGGGGCGCTCCCGGCGACGACAGGCAGGGAACCCTGACATCGCCGTCGTTCACGTTGTCCAAAAACTTCATGAGCATGCTGGTGGGCGGCGGGCACAGGGCTGCGGAAACCGGGCAGACCCTGCAGGCCCAGCTCCTGGTGGATGGCAGCGTGGTGCGCAGCCTGGCCGGGGACGACGCCGGCCAGCTCAACTGGAAGGGGTGGGATGTTTCGGAGTTTGCCGGAAAGACCGCCCAGCTGCGGATCGTGGACCAGGCCACCGGAGGCTGGGGCCACCTGACCCTGGACCACGTGATGCTCACCGACCAGGCCGCCGTCCCGCGCTCGGACGAGACCACCGTGAACCTCGTGGTGGACGGGGATGTGGTCCGCTCGGCAACCGGCGCGAACAGTGAAGTCCTGGACTGGGCCTCGTGGAACGTTGCTGAATTCAAGGGTCGGCAGGCCAGCATCAGGGTGGTGGACAACAACCGCTTCGGCTGGGGGCACATCCTGGCTGACGAATTCATTGCCTCGCCAACCGCGGCGGCACCCCGGTTGCAGAGCTATGACTGGCTGGACTACGGCCGGGATTACTACGCCTCCGTCTCCTTCGCCAACATGCCGCAGGACAAGCGGATCATGCTCGGCTGGATGAACAACTGGGACTACGCCAACACCATCCCCACCTCACCATGGCGCAGCGCCATGTCCCTTCCCCGCGAGGTGGCACTGACCCAGACGGCAGCCGGCCCGCGGCTGACCCAGAAGGCGGTGAAACAGGTTGACTCCCTGGGGACCAGGGTGGGCTACGCCGAAAAGCAGGCACGGGACATTGTGCCGGGCACCACGGCGCTGCCGGCCGCTGCCTCCGGCCAGGTACAACGAATTGATGTGACATTTGCTCCCGGCACCGCCGCGAAAGCCGGAATCACCGTCCTGGGGAGCGGCACCACGTCCACGGTGATCGGCTACGACCAGGCAGCAGGGGAGGTTTACGTAGACCGGCGGAACTCCGGGAACACCGCCTTCCACCCGCTGTTCACCTCGGTGGACTCGGCGCCCGTGACGCCCGACGCCAACGGCAACGTGACGCTGCGGATCTACGTGGACAGGTCCTCCGTTGAGGTCTTCGCCCAGGGCGGCCTCCGGACCATCACCGATCAGGTCTTTCCCGAAGCCGGCGCCCGTCAGGTGGCGCTCTTTGCCGACGGCGGAACAGCCCGGTTGAAATCGATCACTGTTACTCCGCTGGATTCTTCGATGTTCAGCGGACAGACCAAGCCGGTGAAGGACCGCTAG	MKGDPNDMRSKKSPTIRACSALTLAGLSLAAALAGAGPSQALAVPRTPVDPVNVALNGTETAGGEQYRPGIHFTPQKNWMNDPNGMVFHKGVYHLYYQHNPSGNTWGNMSWGHATSTDLTHWTEQPLAIATDDQQDIFSGSVVVDKDNTTGFGTAENPPLVAIFTSAYKDASPYKGLQAQSLAYSLDDGQTWTKYGANPVLNRNSANFRDPKVFWYETPGGGGYWVMAVVEATDHKVLLYKSANLKDWSLLSEFGPANATGGLWECPDLFPLAVDGDPANVKWVMVVNINPGGVAGGSAGQYFVGNFDGTTFTSETTKPSDTLPAGTPLAGFNDGTYNGWTVNNEPGNWKNGPFGDAPAAGTLPGQNTVTGFAGAGLINSFNDGDWPLGSMSSPAFTVTSDYLNFLVGGGQHPRVSDKLDNTPPAGELLFNGFEGADGSTLADAGWTGTDDLAPAFQPATAGGDYYIGAKRINTFETGGAPGDDRQGTLTSPSFTLSKNFMSMLVGGGHRAAETGQTLQAQLLVDGSVVRSLAGDDAGQLNWKGWDVSEFAGKTAQLRIVDQATGGWGHLTLDHVMLTDQAAVPRSDETTVNLVVDGDVVRSATGANSEVLDWASWNVAEFKGRQASIRVVDNNRFGWGHILADEFIASPTAAAPRLQSYDWLDYGRDYYASVSFANMPQDKRIMLGWMNNWDYANTIPTSPWRSAMSLPREVALTQTAAGPRLTQKAVKQVDSLGTRVGYAEKQARDIVPGTTALPAAASGQVQRIDVTFAPGTAAKAGITVLGSGTTSTVIGYDQAAGEVYVDRRNSGNTAFHPLFTSVDSAPVTPDANGNVTLRIYVDRSSVEVFAQGGLRTITDQVFPEAGARQVALFADGGTARLKSITVTPLDSSMFSGQTKPVKDR	PGPT0018745_82	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOSIDASE,PGPT0018745-fruA-K03332	NA	NA
D1-29_00425	2388	malQ	COG1640	4-alpha-glucanotransferase	ATGAAGGCTCCAGACCACCAGTACACGGAATTTCCCGGAATGCCGGGGGACGCTCCTGGCCAAGGTCCGGTGCCAGGTCCAGCGCCAAGTGAAGCCGCAGGTGAGGCGTCCGTGACAGGTCAGGGAGCGCCAGGTCAATCGTCCCTTGCGGGGGATGATTCCCTTGCAGGCCGCGCTTCCGTTCCAGCTCAGAGCCCTGTTGATAGCCACCTGCTCCAGCGGTTGGCAGATGCACATGGCGTCGGCACTTCGTTCCAGGGGTGGGATGGCCTTCCGCACAGCGTGGCCCCGGAGACCCTGATCAAAGTGCTTGCTGCGCTCGGCGTTCCGGCGCATACGAACGAACTCATTGAGGCTGCCCTGGCCGAGGCGGAACTGGCGCCGTGGCGGCGCATGCTGCCACCCGCCGTCGTGGTCCAGCAGGGGGAAATGGCGCTGGTCCCGGTCCATGTACGCGATGGCGCCACGGCAAAGCTCAGCATCCATCTGGAGGACGCAGCGGGCCCCGGGCAAAAGGCAGAGCCTCCAGTAGTGGAGGCCATCCAGCAGGATGTCTGGATTCAGCCCCAGGACGTGGATGGATTACTGACTGGCCGGGCCACCTTCGCGCTGCCGCAGGATCTGCCCCTGGGCTGGCATACCCTCTCAGCTGAGTCTGAGGGGAACACAGCGGAAGGAACGCTGGTGGTGGTGCCCGCCCGCCTGACCACGGCCACACCCCTTGAGCAGCGCCGCGGCTGGGGCCTGGCAACCCAGCTCTATTCCTTGCGCTCCAAGCGATCCTGGGGAATCGGCGACTTCGCGGATCTGGCCGATCTGGCCACACTGAGCGGGGAGCGCGGGGCCGACTACGTCCTGGTGAATCCGCTCCACGCCGCCGAGCCGGTTCCTCCTGTCCAACCCTCGCCTTATTCGCCCTCCACCAGGCGCTTTTTCAATCCCTTGTATATCCGCGTGGAAGACATTCCTGAACTGGCATATCTCAAGCCGCGGAGGCGTGCCGTTGTGGACAGGCTCCTGGAACAGGTCCAAGGGCTGAACAGGGACGGCGAGCGGCTGGACAGGAACACCGTTTATGCGGCAAAGCTGGAGGCCCTGGAACTCCTCTACCACGCCAGGCGGTCACCCACACGGCAGGCAGCGTTTGACGAATTCTGCCGGATGTCCGGCTCAGGACTTGACGATTTCGCCCTGTGGTCCGCCGTAAGGGAGGACATCGGACCGGAGGATCCCTTCTGGACGGATCCGGCGTTGGCCCTGGGGAAGCCCGAGGCTGAGGGCCTGCGGGAGAAGCTGTCGGACCGGATCGGCTTCCACCGCTGGCTGCAATGGATCTGCGACGAACAGCTGGAGAACGCCCAGCAGGCTGCCCTCCGGGCCGGAATGAGACTGGGGGTGGTCCACGATCTTGCGGTTGGAGTGGACCTGAGCAGCGCAGACGCCTGGACCCTCCGTGGAGTACTGGCGCCGGGAATCAGCGTGGGTGCCCCGCCGGACATGTACAACCAGCTGGGCCAGGACTGGAACCAGCCGCCGTGGCACCCTGGCCGGCTCGCCGAAGCCGGCTATGCGCCCTTCCGCAACATGCTTTCCACTGTTCTACGGCACGCCGGCGGCATCAGGGTGGACCATGTGCTTGGCCTTTTCCGTCTCTGGTGGGTGCCCGCCGGAAACTCCCCGCGGGACGGCGCCTATGTCCGCTATGACCATGAAGCCCTGATCGGCATCCTGGCTCTTGAGGCACAGTGCGCTGGTGCAGTGGTGATTGGCGAGGACCTGGGAACCTTTGAACCCTGGGTCCGTGACTACCTGGCCGCCCGAGGCATCCTGGGCACGTCCATCCTGTGGTTCGAGAACGACGGCGATTCGCCGCTCCCGCCGGAACGGTACCGGAAGCAGGCGCTTGCCAGCGTGAACACCCATGATCTGCCGCCCACGGCGGGATACCTGGCGGGCGACCACGTGGAGCTGCGCAGCCGCCTTGGCCTGCTGGAGCGCTCTGAAGAAGCCGAGCGGACCGAGCACCTGGCCACCCTGGAGAAGATGATGGGCCTGCTGCGGGAGCGCGGGCTGCTTCCTGAGGGCAGTGCGGCCTCCTCCCGCGGTCCAGGTGCCGGAGCAGTCTTGCCGGAAAGCGAGGAGCAAACGGTGGTGGCGCTTCACCGCCTGCTTGCCCAGACGCCGTCGGTCCTGCTGGGTGTTGCCCTGGTTGATGCCATGGGGGAGCGCCGTGTCCAGAACCAGCCGGGGACAACAGAAGCGCTGTACCCGAACTGGCAGGTGCCCCTGGGCGGCCCAGACGGCCGCCCGGTCTTGCTTGACGATCTTCCGAGGAACGCGCGGTTCAATACCCTCCTGGCCGCCGTGCAGGAAGCCTTAGGCTCGTGA	MKAPDHQYTEFPGMPGDAPGQGPVPGPAPSEAAGEASVTGQGAPGQSSLAGDDSLAGRASVPAQSPVDSHLLQRLADAHGVGTSFQGWDGLPHSVAPETLIKVLAALGVPAHTNELIEAALAEAELAPWRRMLPPAVVVQQGEMALVPVHVRDGATAKLSIHLEDAAGPGQKAEPPVVEAIQQDVWIQPQDVDGLLTGRATFALPQDLPLGWHTLSAESEGNTAEGTLVVVPARLTTATPLEQRRGWGLATQLYSLRSKRSWGIGDFADLADLATLSGERGADYVLVNPLHAAEPVPPVQPSPYSPSTRRFFNPLYIRVEDIPELAYLKPRRRAVVDRLLEQVQGLNRDGERLDRNTVYAAKLEALELLYHARRSPTRQAAFDEFCRMSGSGLDDFALWSAVREDIGPEDPFWTDPALALGKPEAEGLREKLSDRIGFHRWLQWICDEQLENAQQAALRAGMRLGVVHDLAVGVDLSSADAWTLRGVLAPGISVGAPPDMYNQLGQDWNQPPWHPGRLAEAGYAPFRNMLSTVLRHAGGIRVDHVLGLFRLWWVPAGNSPRDGAYVRYDHEALIGILALEAQCAGAVVIGEDLGTFEPWVRDYLAARGILGTSILWFENDGDSPLPPERYRKQALASVNTHDLPPTAGYLAGDHVELRSRLGLLERSEEAERTEHLATLEKMMGLLRERGLLPEGSAASSRGPGAGAVLPESEEQTVVALHRLLAQTPSVLLGVALVDAMGERRVQNQPGTTEALYPNWQVPLGGPDGRPVLLDDLPRNARFNTLLAAVQEALGS	PGPT0018570_856	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018570-malQ-K00705	NA	NA
D1-29_00426	2982		COG0247	putative protein	ATGGACCCGATGAACCGAGCCGGAGCAGACAGTGTCGTGCGGGATCTGGAGCAGGATGGCGTGGAGGTGGACGCCAGCAGCCGCAGGCTGTCGGAGTACTCTTACGACGCGTCCAACTACAGGGTGCGTCCCCAAGCCGTCGCCTTCCCCCGCACCAGCCAGGACGTTGCCGCTGTCATCCGCGCCTGCCGGCGGCACGGCGTTCCCCTCACCAGCCGCGGCGGCGGAACCAGCATGGCCGGGAACGCAATCGGCACCGGCGTGGTCATCGATTTCTCCCGCTATATGAACCGGCTCCTCGAGCTGGATGCCGGCGCAAAGACAGTCAAGGTTGAGCCAGGCATTATTCTGACAACCCTGCAAAAAGAGATCCTGGCCGCCACCGACGGCGCTCTGACGTTCGCTCCGGATCCCTCCAGCATGGGGCGGGTTACTGTGGCGGGAGCCATCGGCAACGATGCCTGCGGCAATCACTCGGTCAGGTACGGCCGGACTGTTGACCACGTTGTTTCCCTTGAATTGATCACAGCATCAGGCCACCACGTGACCGCCGGGCCGGGAGGGGTAACGGCAGCTGACCCGACGGACGCGGCAGCTGTCGAAGAGGCCGCTCGGATCGATGCCGGCCTGAAGAAGCTGGCCGATTCCAATCTGGGTCTCCTGCGCACAGAGTTCGGGCGCATTGCCCGCCAGGTCTCTGGCTATCAGCTGGCCAACCTGCTGCCGGAGAACGGCTTCAATGCCGCCAAAGCCCTCGCCGGAAGCGAGGGAACCTGCGCCGTCATCGTGTCCGCCACCGTGAAGCTCGTTGACGTTCCTGCTGCAGCACTGCTCGTTTGCCTGGGATACAACGACGTTGTTGCCGCGGCGACGGATGTGCCGGAGATCCTCCGCTTTAACCCTGCCGCCGTCGAAGGGATCGACGACGCCATTGTCCAGACCGTGTTGGATCGGCGTGGACCCGGGGCTGTGGGGGCGTTGCCTGCCGGCACCGCCTATCTCTACGTCGACCTGGACGGCAGCAATCCTGCCGAGGTGCGGGCGAAGGCGGATGACCTCCTGAAAACCCTGAAGCAGCGGGGCAACGTGGTGGACGGCGTGGTGGTGTCTGATCCTGTGGAAAGGGCCAACCTCTGGCGTGTGCGGGAAGACGGGGCAGGGCTTTCCTCCCGCCTGGCCGGCGGTGTCCAGTCGTGGGCAGGCTGGGAAGACGCCGCGGTGGCACCCGAAAACCTGGCCGCCTACCTGGCCGACTTCACCAGCCTGCTGGCTGAGCATCAGCTACGGGGCGTGATGTACGGGCACTTCGGTGCCGGCTGCACCCACGTCAGGATCACTTTCGACCCCCGGACTGAATCCGGGAGGGCTGTGATGGACAACTTCCTGCGCGCGGCCGCCGATCTGGTCACCCGCCACGGCGGATCCCTCTCTGGCGAGCACGGCGACGGCCGGGCACGGTCCGCGCTTCTTCCCATAATGTACAGCCCGGCAGCACTGGCAGCCTTCGCAGCATACAAGGCAGTCTGGGACCGGGACGGAATCCTGAATCCAGGCATCATCACCGATCCTGCCCCTGTTATGTCCAACCTCGCGCTGGCGGCAACGCCTGCCCGTGGTTTCCGGACGTCCTTTGCTCTGGAGCCGGCCGCCGGCACGGGCCGGGAAGGGTTCACGGACGCAGTCCAGACCTGCATCGGCGTGGGACGGTGCCGGACCACTTCCGGCGTCGGCGTGATGTGCCCAAGCTACCGCGCCACTCGGGACGAAAAGAACTCCACCCGAGCCCGGGCACGCGTCCTCCAGGACATGGTCACCGGATCACTCACTGCCGAGGAAGGCTGGAAATCGGAGGATGTGCGGGAGTCACTGGACCTCTGCCTGTCCTGCAAAGCCTGCTCCACTGACTGCCCGGCCGGCGTGGACATGGCCACGTACAAATCCGAGTTCTTCGATCACTACTACGAAGGCCGCCTGCGCCCGATAGCCCACTACACCCTGGGCTGGCTGCCCACCTGGCTGAAGATCACCGGCCGGATCGCACCGCTTGTCAACGCGGCCCTGGCTTCCCCGCTGCGGCCCCTGATTGCCCGCATCTCCGGGATCACCACGCACCGGAGGATGCCGGACTTCGCCTCCCGCAAGCAGCTGCTGAAGGAGATCGGCGGCGAAACGGTCCGCGGCACCGCAAAGGCCAAGGCTTCTAAGTCGGGCCGGGCCGATACGGTCCTGTTCATCGACAGCTTTACGCGCGGTTTCCGCCCCTCGGTGGCCGGCGCAGCAAAGAGGGTCCTGGAGGATGCCCAGCGCACCGTGGAATGCAGCGCGGACCTGTGCTGTGGCCTGACCTGGATTTCAACCGGCCAGCTGGACACAGCGCGAAAGCTGCTCAACCGGACCGCCGAGGCACTTGACGACGGAACGGACAGGCCGATCGTTGTGATCGAACCCAGCTGCGCGGCCGCCCTGCGCAAGGACCTCCCCGAACTGGTTCCCACGGAAGCTGCCCACCGGGTCTCCCGCCGGATCCAAAGCTTCGCCACCGCAGTCATCGAACAGGCTAAGGCGGGCTGGCAACCGGCCAACGTCCCGTCTGCGGTGACCGTCCAGACCCACTGCCATGAGTACGCCGTCTTCGGTTCTGGAACGCAGGCCAATGCACTGGCAGCCCTGGGCATCACTACCGTCAAGGAAGCCACGGGATGCTGCGGCGTGGCCGGAAACTTCGGCTTCGAAGCGCAGCACTACGACGTCAGCATGGCTGTGGCCGAGCAGTCACTCGCCCCTGCCCTCCGCGGTGCAGCCGACGGCACACCCATCCTGACGGACGGCTTCAGCTGCCACATGCAGGTACGGCAAATCCTGGACAGCCACTCCAACGGCGCCTCCAGCCACCTTGCTGAACTCATTGACCCCAAGAACCAGGAACCGGCCCCTCGTGAGCTGGGCACCAGGCGGTCAGAACGCCGCGCGTCACGAGCCTAA	MDPMNRAGADSVVRDLEQDGVEVDASSRRLSEYSYDASNYRVRPQAVAFPRTSQDVAAVIRACRRHGVPLTSRGGGTSMAGNAIGTGVVIDFSRYMNRLLELDAGAKTVKVEPGIILTTLQKEILAATDGALTFAPDPSSMGRVTVAGAIGNDACGNHSVRYGRTVDHVVSLELITASGHHVTAGPGGVTAADPTDAAAVEEAARIDAGLKKLADSNLGLLRTEFGRIARQVSGYQLANLLPENGFNAAKALAGSEGTCAVIVSATVKLVDVPAAALLVCLGYNDVVAAATDVPEILRFNPAAVEGIDDAIVQTVLDRRGPGAVGALPAGTAYLYVDLDGSNPAEVRAKADDLLKTLKQRGNVVDGVVVSDPVERANLWRVREDGAGLSSRLAGGVQSWAGWEDAAVAPENLAAYLADFTSLLAEHQLRGVMYGHFGAGCTHVRITFDPRTESGRAVMDNFLRAAADLVTRHGGSLSGEHGDGRARSALLPIMYSPAALAAFAAYKAVWDRDGILNPGIITDPAPVMSNLALAATPARGFRTSFALEPAAGTGREGFTDAVQTCIGVGRCRTTSGVGVMCPSYRATRDEKNSTRARARVLQDMVTGSLTAEEGWKSEDVRESLDLCLSCKACSTDCPAGVDMATYKSEFFDHYYEGRLRPIAHYTLGWLPTWLKITGRIAPLVNAALASPLRPLIARISGITTHRRMPDFASRKQLLKEIGGETVRGTAKAKASKSGRADTVLFIDSFTRGFRPSVAGAAKRVLEDAQRTVECSADLCCGLTWISTGQLDTARKLLNRTAEALDDGTDRPIVVIEPSCAAALRKDLPELVPTEAAHRVSRRIQSFATAVIEQAKAGWQPANVPSAVTVQTHCHEYAVFGSGTQANALAALGITTVKEATGCCGVAGNFGFEAQHYDVSMAVAEQSLAPALRGAADGTPILTDGFSCHMQVRQILDSHSNGASSHLAELIDPKNQEPAPRELGTRRSERRASRA				NA	NA	NA	NA	NA
D1-29_00427	903	dmlR		HTH-type transcriptional regulator DmlR	GTGGACCTGTCAACTGTGGATGATCTCGAATTCTTCGAAGAGATCTCACGATCAAAAAGCCTGACGGAGGCGGCCAGGAGTTGGGGAAAGTCCCTGCCTTCCGTCAGCAAAAGGCTGACCCAGCTTGAATCGAGGCTCGGCGCCCAGCTTGTCAGACGGAGTACGCGCAAACTCACGCTCACTCCGGAAGGGGAACAATATGCTGCGGGGGCACTGTCCATCCTTCAGCAGAAAATGGACCTTGAGGAAGGCATCTCGCAGAAATACGGTGAGCTTCGGGGGCGGATCGCCGTGCATACAACGGTTGGCCTGGGCCGGATCCATATCGCCCCGCTGCTGGGCGAGTTTGTTCGGGATCATCCTGGCGTCTCGGTTGACCTTCAGCTGTCCGCGCTTCCGCTGAACATTGCGGGCAGCAGCTTTGACCTGGGGATCCGGGTGGGGAGCCTGGAAGACTCCCAGCTCAAGTTCACGCGGCTTGCGGAAAGCCGGCGGGTGGTCTGCGCGTCCCCGCAGTACCTGGAGCGGATGGGTGCGCCCACCACAACAGCCGAGCTTGAACGGCACAACTGCATCATCCTGCGCCAGGACAACAGCGACTATGCCCTGTGGCGGTTTGGGGAGCAGGGCCGGGAACGGAACGTCCGGGTGAACGGCAATATGGTCAGCGATGACGGGGAAGTGGTGGCCGGGTGGTGCCTGCAGGGCCTGGGACTGATGATGCGCTCCACGTGGCATGTGAACCCCATGCTGCGGCAAGGGCTGCTGAGGCAGGTCCTTGAGGATGTTCCAACCCCGGCCGCGGACATTCACGCTGTTTACCCGGATGCGGTGCATACCCCACGGCGCGTGACCGCAGCCATCGATTACCTGCGGCGCGGTCTCGCGGAGCGGCTGGCGTAG	MDLSTVDDLEFFEEISRSKSLTEAARSWGKSLPSVSKRLTQLESRLGAQLVRRSTRKLTLTPEGEQYAAGALSILQQKMDLEEGISQKYGELRGRIAVHTTVGLGRIHIAPLLGEFVRDHPGVSVDLQLSALPLNIAGSSFDLGIRVGSLEDSQLKFTRLAESRRVVCASPQYLERMGAPTTTAELERHNCIILRQDNSDYALWRFGEQGRERNVRVNGNMVSDDGEVVAGWCLQGLGLMMRSTWHVNPMLRQGLLRQVLEDVPTPAADIHAVYPDAVHTPRRVTAAIDYLRRGLAERLA				NA	NA	NA	NA	NA
D1-29_00428	2898			hypothetical protein	GTGACTGACGAGAATTTCTATTTTGTGATGGCAGACCGCTTCAGCAACGGCAACGCTGCCAATGACGACGGCGGCCTGGGCAGCGATCCGATGGTGTCCGGGTTCGATCCCACCGGAAAGGGCTTCTACAACGGCGGAGACCTGGCCGGCCTGCTGGACAAGATCGACTACATCCAGGGCCTGGGCACCACCTCCATCTGGCTGACGCCGAGTTTCAAGAACAAGGCGGTCCAGCCGGAGGACAAGTCAGCGGGTTACCACGGCTACTGGATCACGGACTTCACTCAGATCGATCCCCATCTGGGAACGAATGACGAGCTCAAGGCCCTCATTGACGAGGCCCACGCCCGCGGCATGAAGGTCTACTTTGACATCATTACCAACCACACCGCGGACGTGATCGGCTATGAGGAAGGCGCCCGGAAGACGTACGTTTCCAAGGACTCCGAGCCGTACAGGACCGCAGACGGTAACGAGTTTGATGACCGTGACTTCGCCGGTTCCGCAAGCTTCCCGGCGCTTAGTCCAGCCACCTCCTTTCCCTACGTTCCCGTGCTGGACAAGGGCGAGGAGAACCTGAAGGTCCCCGCCTGGCTGAACGATCCCACGCTTTACCACAACCGCGGCGACACCACTTTTGTGGGCGAGGATGCCTACTACGGCGACTTCTTCGGCCTGGATGACCTCTTCACCGAGCACCCCAAAGTGGTGGACGGGATGAAGGAGATCTACAAGGCATGGATCGCGGACTTCGGTGTGGACGGCTTCCGGATCGACACCATGAAGCACGTCAACGACGAGTTCTGGCAGGAGTTCGGCCCCGAGGTCCTCAGCTTCGCCAAGGAACAGGGCAAGGACGAGTTCTTTATGTTCGGTGAGGTTTTTGACACCACCAAGAGCTTTACGTCCCAGTTCACTACCCGCAACCAGATGCAGGCAGTCCTGGATTTCCCGTTCCAGGACGCAGCCCGAAACTTTGCCTCCAAGAGCCAGGACACCAGTGCCCTTGAATCCTTCTTTGCCGGCGACGACTGGTACACGGACGCCGATTCCAACGTCTACCAACTGCCCACTTTCCTGGGAAACCACGACATGGGCCGGATCGGCAGTTTCATCGCTGCGGATAACCCCGGCTCAACGGATGCCGAGCAGGTGGCACGCGACGAACTTGCCCACGAACTCATGTACCTCTCGCGCGGCAACCCGGTAATCTACTACGGCGACGAGCAGGGCTTCACCGGGCCCGGCGGCGACCAGGACGCCCGCCAGACGCTGTTCGCCAGCCAGGTGCCGGAGTACCTCGACGACGACCTGCTGGGCACTGATGCCACCCACGCCACGGACAACTTCAATCCTGGGCACCCGCTGTACTCCAAGATCAGCGAGCTTGCATCGCTGACCAGGGAACACCCGGCCCTGCGCGACGGCGCCCACCAGCACCGGTACGCTTCCGAAGGTCCGGGCATTTACGCCTTCTCCCGCACGGACTCTGAGGATCAGCGCGAGTATGTGGTGGCCCTGAACAACAGTGAAGAGCCGCAGTCCGCCGAGGTTCCCACCTATATCGACAAACGCACTTACAAAAAGATCTATGGGGACACAGGTGCCGCCCATGAAGTGAAGACGGCCGGCGATGGCAAACTCAGCGTGACGGTTCCGCCGCTTTCGGCTGTGGTGTACCAATCGTCGGGCCGCATCCCCCACTCCCAGGCGGCCCCCGCCGTCGAACTTCAGGAACCTGCCGCGGCGCCCGGTGACAACGGCCGCGTTAAGGTGACGGCCGACGTCGGCGGTACGTCGTTCTACGAGGTCACCTTCGAGGCAAGGACGGCAGGTGGGGGCTGGGTTCCGATCGGCACCGATGACACCGCGCCCTACCAGGTGTTCCATGATGTTGCGGCGATGGATACCGGGACAGGGCTGGAATACAGGGCCACGGTGCTGGACAACGGCGGCCATACCGCCAGCAGCCAGACCCGCAGTGCAACCGTTCCGGCACCGGTCCTGACCATCCAGAAACCCACAGAGGGCAGCAGTGTGAACGGCAACGTGGAGCTCAGCGCCGTCGCCGACCCTGAGAAGGCAAGCCATGTGGTGTCATTTGAGCGGAGCGTTGCCTCCGGCGAATGGACAGCGGTGGGTTCAGACGATTCCTCCCCCGTGTACTCCGTTGTGGATGACCTGTCCGGCCTGGACCTGGCGGACGGAACCGAGGTGCGGTACCGGGCTGCCATGAGCGGTACCGGCTTCAGCGTGGTCAGCGAACCACGGACGGTGACTGTGGGTGAGGCTCCCCAGCCGGATTCGGTCACTGTGGCGGGTTCGCTCAACATTCCCATGGGTTGTGGAGAGTGGAGCCCTGCCTGCGCACAGGCGATGATGAGCCTGGAACCGGTGGACAAGATCTGGCGGCTCACGGTTGACCTGCCGCCTGGCCGATACGAGTACAAGGCGGCGCTGAACGGCGGGTGGGACGAAAACTACGGGGCCGACGGAGTCTTCAACGGCTCCAACATTGTGCTGGATCACCCCGGCGGATCTGTCACCTTCCGCTACGACAACTCCACCCACCTGCTGAGTGCCGTCTACGCCTCCCAGCAGCCGCAGGCTGTGTCGGTGGCCGGAAGCCTGGGATCGGAACTGGGCTGCGTGGACGACTGGCTGCCCGAATGTGACCAGGCGCAGCTGATGCTGGATCCGGCTGACCTGGTGTGGAAGTTGCAGGTGGCAGGCCTTCCAGCCGGCACCTACGAGTTCAAGGCCGCTCTGGACCGTTCCTGGAACGTGAATTATGGAGCAAACGGGGTGCCGAACGGCGCCAATATTGCCTACAAGCACGACGGCGGCCCGGTCACTTTCCGCTATGACCACGCCACGCACGTCATCACCGCCGGCTAA	MTDENFYFVMADRFSNGNAANDDGGLGSDPMVSGFDPTGKGFYNGGDLAGLLDKIDYIQGLGTTSIWLTPSFKNKAVQPEDKSAGYHGYWITDFTQIDPHLGTNDELKALIDEAHARGMKVYFDIITNHTADVIGYEEGARKTYVSKDSEPYRTADGNEFDDRDFAGSASFPALSPATSFPYVPVLDKGEENLKVPAWLNDPTLYHNRGDTTFVGEDAYYGDFFGLDDLFTEHPKVVDGMKEIYKAWIADFGVDGFRIDTMKHVNDEFWQEFGPEVLSFAKEQGKDEFFMFGEVFDTTKSFTSQFTTRNQMQAVLDFPFQDAARNFASKSQDTSALESFFAGDDWYTDADSNVYQLPTFLGNHDMGRIGSFIAADNPGSTDAEQVARDELAHELMYLSRGNPVIYYGDEQGFTGPGGDQDARQTLFASQVPEYLDDDLLGTDATHATDNFNPGHPLYSKISELASLTREHPALRDGAHQHRYASEGPGIYAFSRTDSEDQREYVVALNNSEEPQSAEVPTYIDKRTYKKIYGDTGAAHEVKTAGDGKLSVTVPPLSAVVYQSSGRIPHSQAAPAVELQEPAAAPGDNGRVKVTADVGGTSFYEVTFEARTAGGGWVPIGTDDTAPYQVFHDVAAMDTGTGLEYRATVLDNGGHTASSQTRSATVPAPVLTIQKPTEGSSVNGNVELSAVADPEKASHVVSFERSVASGEWTAVGSDDSSPVYSVVDDLSGLDLADGTEVRYRAAMSGTGFSVVSEPRTVTVGEAPQPDSVTVAGSLNIPMGCGEWSPACAQAMMSLEPVDKIWRLTVDLPPGRYEYKAALNGGWDENYGADGVFNGSNIVLDHPGGSVTFRYDNSTHLLSAVYASQQPQAVSVAGSLGSELGCVDDWLPECDQAQLMLDPADLVWKLQVAGLPAGTYEFKAALDRSWNVNYGANGVPNGANIAYKHDGGPVTFRYDHATHVITAG	PGPT0018575_56	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0018575-amyA|malS-K01176	NA	NA
D1-29_00429	1047	pgl_1	COG2706	6-phosphogluconolactonase	ATGACTTCTCCTGCGCGGCACTCACTGATCTGGACCGGCACTTATACCCAGGACGGCGGCGGCCGGGCAGAGGGGATTGGTGCTATATCCGCCAGCAACGACGGGACGCTCGAATGGCTGGGTACGGCAACCAAGGCCGATTCGCCGTCGTTCCTTGCGGTTCACCCCACCCTTCCCGTGGTCTACGCCGTCGCCGAGCAGGCCGGAACGGTCCAGGCTTACCGCCGGTCCGGGGAGTTCGGCCTGGAACAGTTCGGCGAACCCCAACCGGCCGGGGAGGCCGCGTGCCACGTTGCCGTGGATCCGCTGGCGCGCTTCGTCACCGTCACCTGTTGGGGGGACGGCCAGGTCCTGCTCTATGAACTGGATCGCGACGGCGGGATCACCGGGCGGTCTGCTGCGCCAGCATCGGTTGACCCGCACGGAAGCCAGACGCCGGGCGAGCCCCGGCAAAGCCGGGCCCACGCAAGTCTTATGCTCGCCGACGGGCGCGTCATGACAACGGACCTCGGACACGACACACTCCGCATCTGGCGGTTTGAGCCCGGCACCGGGCTGATTGCGGACCACGAGGTTGCACTCCCTTACGGCAGCGGCCCACGCCACCTGGTGCAGCACACCAGCGGGAGCGTTTTTGTGGTCTCAGAGTATTCCATCGAGGTTTTCGTGCTCAGGGCGGATGCCGGGACCTTTGAGCTGATCAACCGCGGTCCGGCGACCTCCGGCGGTAGCCTTCCCGGCGATTCGGCCGCGGAGATCTGCCTCAGCCAGAGCGGGGACCACGCGTATGTCGGTGTGCGCGGCTCCAACCTGATCAGTGTTCTCCTGGTGGGTGCCGACGGCGCAGAGGTTGCGCCCCTGGCCGACTTCACCAGCGGCGGGGACTGGCCCCGGCATCACCTGGTCAGGGGCCCCTGGCTGCACGTGGCTCATGAGCGTTCAGACGAGGTTGCCACCTTCGCTTTGGACGCGTCAACAGGCTTGCCCGGGCCCGTTGTGCACAGGTTGCAGACCCCCTCGCCCACTGCTTTGGTGCCCGCCAACTAG	MTSPARHSLIWTGTYTQDGGGRAEGIGAISASNDGTLEWLGTATKADSPSFLAVHPTLPVVYAVAEQAGTVQAYRRSGEFGLEQFGEPQPAGEAACHVAVDPLARFVTVTCWGDGQVLLYELDRDGGITGRSAAPASVDPHGSQTPGEPRQSRAHASLMLADGRVMTTDLGHDTLRIWRFEPGTGLIADHEVALPYGSGPRHLVQHTSGSVFVVSEYSIEVFVLRADAGTFELINRGPATSGGSLPGDSAAEICLSQSGDHAYVGVRGSNLISVLLVGADGAEVAPLADFTSGGDWPRHHLVRGPWLHVAHERSDEVATFALDASTGLPGPVVHRLQTPSPTALVPAN	PGPT0014975_1666	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
D1-29_00430	297			hypothetical protein	ATGAACCAGCAGCTCGGTACGGCGGCGGGGAACGAACACTCCTGGATCCACGGCTATTCGGGCCCCACAAAACTGGGCCCAACCAAGAATGTGCTCCACCGGATACCCGGCAATCCGCCGCTCAACAGCATGAGCGAGATCATCAGGGTTCGTAAAAGCGTCGAGAAGAAGTTGCGCCTCCTCCTCGGCGAATACGCAGCCCGCAGCACGAAGCCGTGCGGTATTTTCTGCAGCCAGGGTCCCGGAGAAATGGTGCTGGCGGGAGGGGATCGGAGAGTAGTCCTGTTTAGGTGCTGA	MNQQLGTAAGNEHSWIHGYSGPTKLGPTKNVLHRIPGNPPLNSMSEIIRVRKSVEKKLRLLLGEYAARSTKPCGIFCSQGPGEMVLAGGDRRVVLFRC				NA	NA	NA	NA	NA
D1-29_00431	624	prmC_1		Release factor glutamine methyltransferase	ATGGGAGTCAGCCGGCAAGGATCCAGGCGAGGAAGCCGGGCCGGCCTCGGCCTGCACTTGTCTGCGCATGATGAAGCAGTCGTCCTGGTTGATCTCTGCTGCGGTTCCGGCGCGGTGGGCGCGGCGCTTGCAAGTCGGGTAGGCGGGCTTGAGCTTCATGCCGCGGACATCGATTCGGCAGCAGTGAAGTGCGCCGCCCGTAACGTGGGGCTTCTGGGCGGGCAGGTTCACCATGGCGACCTGTACGAGGCCCTTCCACCGGCGCTCAAGGGAAACGTGACACTTCTGGCGGTGAATGCTCCATATGTTCCAACGGATGCCATCGCCACGATGCCGCCCGAAGCCCGGGAGCACGAGCCGCTCATCTCCCTCGACGGCGGTACTGACGGCCTGGACGTCCATCGCCGGGTGGCGGCTGGTGCCCGGGAATGGCTGGGTTCTGGCGGGCATATCCTCATCGAAACAAGTAGGAGGCAGGCCCTTGAGACTGCCGGCGTCCTTGCAGCGGCAGGACTGGAGACAAGGACTATCCACTCCGATGAGCTGGATGGCACAGTTGTGATCGGCACTGCTGCGATGGGCACGGCAGCATCTGGCGACGGCACTGCAGATACATTCGAATAG	MGVSRQGSRRGSRAGLGLHLSAHDEAVVLVDLCCGSGAVGAALASRVGGLELHAADIDSAAVKCAARNVGLLGGQVHHGDLYEALPPALKGNVTLLAVNAPYVPTDAIATMPPEAREHEPLISLDGGTDGLDVHRRVAAGAREWLGSGGHILIETSRRQALETAGVLAAAGLETRTIHSDELDGTVVIGTAAMGTAASGDGTADTFE				NA	NA	NA	NA	NA
D1-29_00432	468			hypothetical protein	ATGACCACTCAGAGCTACGGCGCAGGCGGCCCTGCTCAGGCCAGACCCCTGGACATCAGGCAGGCACTCGAGGCGTCGAGTCAGGCGATGAACGCCCATGATGTCCACGCTTTTGCCAGCTTCTATGCGGACAACGCCGTCGTGGTAGATCCCCAGTACCCAGAACCGCTACGTGGCCTGGCGGCAATCGAGCAGGACGCGGGGGTGTTCACTAAAGCATTTCCGGATCTCCAGTTCTCGATAACCAGCATTCTGGTAGAGGGTCGTATGGCTGCCGGCGAGGGCACAATCTCCGGCACGAATACCGGACCGCTCCCACTGCCCAGTGGAGAGGAGATCCCGGCTACGGGTCGACGGCTGGAGTTCCCCATGGCCTTCTTCAGCCGCTTCGATGAAGCAGGGAAGATCGTCGAGGAACGCCGCTACTACGACCTCGCGACGCAGCAGGAGCAACTGGGGCTGGCCTAG	MTTQSYGAGGPAQARPLDIRQALEASSQAMNAHDVHAFASFYADNAVVVDPQYPEPLRGLAAIEQDAGVFTKAFPDLQFSITSILVEGRMAAGEGTISGTNTGPLPLPSGEEIPATGRRLEFPMAFFSRFDEAGKIVEERRYYDLATQQEQLGLA				NA	NA	NA	NA	NA
D1-29_00433	597			hypothetical protein	GTGCCCGTGGTCGTTTTTGCTGGATGTTCGAGCCAGCTGTACTCCAACATTCTTTTGGGAACAGGAATATCGAACAGAAGTGACCCTTTGTGCAGAGGGGAAGCCTATGCCCAGCAATTGCAATACGCAGCAGTTGTCGTTCAAAGTCGTCACGTGGCTTACTGCAGGAGGAGCGTCACGCCAGCCAACAGTTCAGCCTTTGCTATGGAAGCAGCGACGAAGGCCCCGGAGGCCTATCCAAGGATCTGCACACATCCTAAAATGGGCTTGCTGCCTTGGATGCAGCCGGCTCACGGAAAGCCCCGAAAGGCTTTGCAACTTTTCTGGCTGCCCCGCACACCATGCCATGGGCTGGACTGGCACAGAACATCGTCCCGCAACCAAAGAAGCACGCGCGTGTTCATCCGCCAATCGGTTCCGATTTTCATTGCCCCCCATCCGCAAGTTTCATCCCGTTCGCCACCACCAACTCCGGCGGCGCGCCCATACTGCGCACTTTCTGATGCCCCCGGACGGGACAGACGCCGGTTGGAGTCGAACCTCCAGCCGTATGCAAGGCCGGAAACATCCACGGTCATTGAAGTTCTTGCCTCTTAG	MPVVVFAGCSSQLYSNILLGTGISNRSDPLCRGEAYAQQLQYAAVVVQSRHVAYCRRSVTPANSSAFAMEAATKAPEAYPRICTHPKMGLLPWMQPAHGKPRKALQLFWLPRTPCHGLDWHRTSSRNQRSTRVFIRQSVPIFIAPHPQVSSRSPPPTPAARPYCALSDAPGRDRRRLESNLQPYARPETSTVIEVLAS				NA	NA	NA	NA	NA
D1-29_00434	1935			hypothetical protein	ATGGAAGCCATCGGGGAACAGCTTGCAGAGCAGGGCGGGGCTGCCCTCCTGACACCCGCAGGCACCCCGGCAGCAGCCCTTTCAAATTCAACTAAAGCGTCCGACGGCGGCGGCTGGGAGCGCGGGCTGTCCCACCTTCGTGCCGTCCCGGCCAACCCAGTCTGGACGGCTGAGACTGACACGTGCGCCAGGGCGGCCGGGCCCGCTGAGGCCGCAGGCGTAACTGAGACCATGGGGCTGGCCGGCCTTGTTTCGCTTCTGAACCGGGCCGCCGCTGCCGCTCCGGAAACTCTGGCGCTGGCAGGCTACGTGGAGGCTTCAAACTTCGCCGGCCTGGTCGAAGAGTTCTCTCGGACCGTGGACTACCTGCAAATCCTCTCCGCCGGCGCCGTGGACCGCACGCGGACCCAGGCCATCATCGAAGCCAACACCAGAACCCGCCGCACCAGCGCCAGCACAGCATCAGCCAGCACCGGCACCACCGGCTGGGTCACCGGCCGGGACAGCGGAACCGAAACCCTCCCCGAGACCGACGCCGCCTGGCCCGCCACCAGCCCCACAAGCACAAAACCGGAAATGTCAGTGCCGCGGTCCCCGGCCGATGACGGATGCCGGAACACCGCCGAGTTCCTGCGCCTCAGACTCAGGATCGGCATCAGCGAGGCCCGCCGCCGGCTCCACCTCGCCCACGACACCCTTCCCGCCACTACCCTCACCGGAGACCCCACACCCCCACCCCGGGAACACCTCGCCACAGCACTGGCACCAGCAACCGGCACCGAAGAAGCCGACACAGAACAAACCGACACCGAGGCGGGACTGGCTGTCACCGGTACCGTGGGCAGCCCGGTGGTGTCCTCCCGGGCCGGGACCATCATCGCCACCACCCTGGACCGGCTCCGGCACCACACCACCCCCGACACCCTCACCCGGATCGAACAGCACCTCACCGGCACCGCAGCCACCGCAGACCCCGACTTCCTCACCCGCGTCGCCCGCCGCTGGTCAGACACCATCGACGCCGACGGCACCGAACCCAGCGAAGAAGCACTCCGCCACACCCAAGGCGCCTTCATCCGCAAACCCCGCCACGGCCTCCACCGCATCGAAATCTTCGCCACCACCGACCAATACGAACACTTCCTCACCGTCATGAACACTGCCACCAACCCCCGCAGCACCACCCCACCCACCAGCACCGAAACCGGTACTGGCACGAGTGACGGCGCGGGCGGACTTCTCCAGGTCTGGCAGGACGCGGACGTGGACCTGGACCGGCGCACCCGCTCCCAAAAACAACTCGACGGCATCATCACCGCCATCAAAGCCGCCCTCACCACCAACACCCTGCCCACCACCGGTGGCAACAGACCCCAAATCCTCGCCACCATCAACTACCAGGACCTCCTCCCCCACCTCCCCCAACCCACCGCACCACAGGCACGGGCCCAGGCACGGGGACCGGCGCAGAGTCAGGGACCGGGAACTTCACCTTCACCGGACCCGTCGCCGCCACCACCCTGCGCAAAATCGCCTGCGACGCCGACATCATCCCCGCCCTCCTGGGCACCAACAGCGAAATCCTGGACCTCGGCCGCAAAACCCGCCTCTTCACCACCGCCCAACGCCTCGCCCTTACCGCCCGCGACCAAGGCTGCACCTTCCCCAACTGCACCATCCCCGCCCCCTGGTGCGAAGCCCACCACATCACCTACTGGTCACACGGCGGCCCCACCACCACCAACAACGGCGCGCTCCTCTGCCCACACCACCACCACCTCATCCACAAAGAACAATGGACCATCCACACCCACCACGGCACCCCCTGGTACACACCCCCACCCCACATCGACCCCCACCAAAAACCCCAACAAAACAACTACTTCAAACCACCCCCACCACCACAGAAATAAACCTGCCCTCGCCCCGCGCTGA	MEAIGEQLAEQGGAALLTPAGTPAAALSNSTKASDGGGWERGLSHLRAVPANPVWTAETDTCARAAGPAEAAGVTETMGLAGLVSLLNRAAAAAPETLALAGYVEASNFAGLVEEFSRTVDYLQILSAGAVDRTRTQAIIEANTRTRRTSASTASASTGTTGWVTGRDSGTETLPETDAAWPATSPTSTKPEMSVPRSPADDGCRNTAEFLRLRLRIGISEARRRLHLAHDTLPATTLTGDPTPPPREHLATALAPATGTEEADTEQTDTEAGLAVTGTVGSPVVSSRAGTIIATTLDRLRHHTTPDTLTRIEQHLTGTAATADPDFLTRVARRWSDTIDADGTEPSEEALRHTQGAFIRKPRHGLHRIEIFATTDQYEHFLTVMNTATNPRSTTPPTSTETGTGTSDGAGGLLQVWQDADVDLDRRTRSQKQLDGIITAIKAALTTNTLPTTGGNRPQILATINYQDLLPHLPQPTAPQARAQARGPAQSQGPGTSPSPDPSPPPPCAKSPATPTSSPPSWAPTAKSWTSAAKPASSPPPNASPLPPATKAAPSPTAPSPPPGAKPTTSPTGHTAAPPPPTTARSSAHTTTTSSTKNNGPSTPTTAPPGTHPHPTSTPTKNPNKTTTSNHPHHHRNKPALAPR				NA	NA	NA	NA	NA
D1-29_00435	666			hypothetical protein	ATGAGCAATTCCAATACCGGCGCGTCAGTTCCTCCCGGCTGGTACCCCGACCCCGCAGGTACCGGACGGCTCAGGTGGTGGGACGGCACAAACTGGACAAGCCAATACAGCACACCGTATGTACCCGCTGCACAAGTACCCGGACCCGGCGGTGCCCCTTACCCGGTTACCCCCTACATTCCCGAACGCCCCCATATCAGCAGCGAAACGCCCGTCTACAATCCCCTGATCTGGATCATTACGCTGCTGCCACTGCTGCCGGTCATACTTTTGCTGCTGTGGAACCCGGAAGTGCGCTTCATCAGCATTGGAAGCCAGGACACGCCCGCTGTCGACCCGCTGTCCGTTTTCACACCCGTCTATTTCCTTCTCGTCTTTTCGGGTTTCCTCACCTACGCCGCTTCTGTGCTGTTGGCGTACTTTGACAGCGAACGGCTCAAGCGGGACGGGGTGGTCAGGCCCTTCCACTGGGCATGGAGTTTCCTCAACAGCGCGGTATATGTCATTGGGCGCTCGGTGATCGTCCATAAGGTTGCGCCCGGACGCGGCCTGCTGCCCGTCTGGGTGACCATTGGCGTTTTCGTTCTCAGCTCCGTGGTGTCCACCATCAAAATGTCGGCGCTCCTGTCCTCGGTCATGTCGTCCGTTATGTCCATTCCGAGCTGA	MSNSNTGASVPPGWYPDPAGTGRLRWWDGTNWTSQYSTPYVPAAQVPGPGGAPYPVTPYIPERPHISSETPVYNPLIWIITLLPLLPVILLLLWNPEVRFISIGSQDTPAVDPLSVFTPVYFLLVFSGFLTYAASVLLAYFDSERLKRDGVVRPFHWAWSFLNSAVYVIGRSVIVHKVAPGRGLLPVWVTIGVFVLSSVVSTIKMSALLSSVMSSVMSIPS				NA	NA	NA	NA	NA
D1-29_00436	546			hypothetical protein	ATGAAAAATAAACTTCTTTTGGGTGTTGGCATCGCAGCAGGCTACGTCCTGGGATCCCGGTCCGGCCGGGCAGCGTACGACAAGCTCAAGGCCAAGGCAGCCGGCATCTGGGACAGCAAGCCTGTCCAGGACAAGGTCACCGCGGCCACCGAAGCCATCAAGGAAAAGGCACCCGAAGTAGCGGACCAATTGGGCGAGGCCGCTCGTCGGGCCGGCACCGTGATCGGGTCCGCCATGCACCATGAATCTGCCTCTGGCGACGGCACCGGCAAGAGCAGCCAGACCAAGGCTTCCGACGACGGCATGACGGTCCCAGCCTCCGCTGGGACCGGAGCGGGCATGGCAACATCCGCCGCGGACCTTGGGCCAGGAGCTGTTGGCGACCACGTTCCGTCGCACAGCACGCACCCGGAGACGGTCAACCTGGGGACGTCGGATGTTGAATCCGACCCCGCACGAAATGCCAGCCAGGGCCAGGACTGGTCGGACGAAGGCGGCGCAACCCCCGCCGGCGCGGCCACGAACGTAGATCCCAAGCGGGACTGA	MKNKLLLGVGIAAGYVLGSRSGRAAYDKLKAKAAGIWDSKPVQDKVTAATEAIKEKAPEVADQLGEAARRAGTVIGSAMHHESASGDGTGKSSQTKASDDGMTVPASAGTGAGMATSAADLGPGAVGDHVPSHSTHPETVNLGTSDVESDPARNASQGQDWSDEGGATPAGAATNVDPKRD	PGPT0015027_142	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015027-ytxH-NA	NA	NA
D1-29_00437	267			hypothetical protein	ATGGGTTTTTTTGCATTTCTGATTCTGGGCCTCATTGCTGGCGCGATCGCTAAGGCGATCCTCCCGGGCAAGCAGGGTGGCGGCATTTTCATCACCTTGCTCCTGGGCGTTGTGGGAGCATTCCTCGGCGGCTGGATCGGCGGACTGATCTTCGGCGAAGGGCTCCAGGAGTTCTTCTCGCTGCAGACCTGGCTGCTCGCGATCGGCGGCGCCATCATCGTGCTGCTCGTTTACGGCATGATCACCAAGCGGAGCGTCCGCAGCTAA	MGFFAFLILGLIAGAIAKAILPGKQGGGIFITLLLGVVGAFLGGWIGGLIFGEGLQEFFSLQTWLLAIGGAIIVLLVYGMITKRSVRS				NA	NA	NA	NA	NA
D1-29_00438	834		COG0656	putative oxidoreductase/MSMEI_2347	ATGACACTTGCACCCCTCATCAAGCTCAATGATGGCCACAGCATCCCGCAGATCGGCCTCGGCACCTGGCCGCTGGACGACGATCAGGTGGCTACCGCCGTCGTACATGCAGTGGAAGCCGGGTACCGGCATATTGATACCGCCGTGAAATACGGTAACGAGGAGGGGGTGGGAAACGGAATCCGCGCCAGCGGCGTGGACCGCAGCGAAATGTTCGTCACCACCAAGCTGGATGGCCAGTTCCAGGGGCAGGACCGTGCCATCGAAGGGCTGGAGGGTTCGCTGCGGCGGATGAAGCTGGACTATGTGGACCTGCTGCTGATTCACTGGCCGCTGCCTCAGCGGAACGAGTTCATCTCCACCTGGAAGACATTCGAGCGGCTCCAGCTGGAGGGAAAAGTACGGTCCATCGGGGTGTCCAACTTCAAGCCGGCCCACCTTGAGCGGCTTATGGCCGAGTGCGAGGTGGTGCCGGCGGTGAACCAGGTCCAGCTCAGCCCTGCGATCACCCGGACGGCCGAGCGGGAATTCCACGCAAAACACGGCATCGTCACCGAGTCCTACAGCCCCCTGGGCGGTTCGGGGGCCAGCCTGCTGGATGCTCCGGTACTTGTCCAGCTGGGCGAAAAGTACGGCAAAACGCCCGGACAGCTTGTGTTGCGCTGGCATATCCAGAACGGACTTGTCACTGTTCCGAAGACCGGTGATCCGGAGCGGATGAAGGAGAACCTGGACGTGTTCGATTTCGCCCTGGATCCGCAGGATCTAGCGGAAATCTCCATCCTGGACGAGGGTCCGGACGCCGGCATTGATTCAGACGTCAGCGGTCACTGA	MTLAPLIKLNDGHSIPQIGLGTWPLDDDQVATAVVHAVEAGYRHIDTAVKYGNEEGVGNGIRASGVDRSEMFVTTKLDGQFQGQDRAIEGLEGSLRRMKLDYVDLLLIHWPLPQRNEFISTWKTFERLQLEGKVRSIGVSNFKPAHLERLMAECEVVPAVNQVQLSPAITRTAEREFHAKHGIVTESYSPLGGSGASLLDAPVLVQLGEKYGKTPGQLVLRWHIQNGLVTVPKTGDPERMKENLDVFDFALDPQDLAEISILDEGPDAGIDSDVSGH	PGPT0001320_1454	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
D1-29_00439	2550			hypothetical protein	ATGAATCCGAGCAGGAAATCCGTGCGCCATCTTTCAGGCGCCGCCGCCGCAATGGCACTCACCGTAGGCTGCCTCGCCAGCCCGGCCGCCGCCGTCGAAACCTCAGCCATCCCAACTACGGCGGGAGTCCAACTGGACCATCTTGACCGGGGGCTGGTGGCAGCCGGAACAACGGAAGGGGTGTTCCTGAGCTGGCGGCTGCTTGGCCATGAGGCGACGGGATCAACCGCCACTGGCCTCACTGGTACGGACTTCGCGGTGTACCGCGATGGGCACAAGCTCGCCACTGTCACGGACAGCACCAACTATCTTGACGCGGGCGGAACCGCCGCCTCCGCGTACGAGGTGCGTGCCGTCGTCGGGGGTGTGGAACTGGACCGCAGCGCCACGGCCACCGCCTGGGCCGGCAACTTCAAGGACATCCCCCTGAAAAAGCCTGCCGACGGCGTCACCCCGGCCGGCCAGGCGTACACCTACGCCGCCAACGACGCCTCGGTGGCAGACGTGGACGGCGATGGCCAGTACGAGTTCATCGTCAAATGGGACCCGAACAACTCCAAGGACGTCTCCCAGGTGGGCTACACCGGCAACACGTATGTGGACACGTACAAGGCGGACGGTACGCTGCTCCACCGGATCGACCTGGGCGTCAACATCCGCTCCGGCGCCCACTACACGCAGCTGCTGGTCAACGACTTCGACGGCGACGGGCGCGCCGAGATGATGATGAAGACCGCGCCCGGCACCAGGACCATCCCGTACAAGGATGGCAACGGGGCCGGTGGCTCCTTCATCTCGCTGCTCCAGCGGGACATCGACGCCGGCTACTCCCACGGTGACGATTACCGGATGAGCGCTGAGGACTACTACCAGCACATGGTGGACACTTTCCTGGGCTGGACCGAGCACCCCGAGGTGAAAGCCGGCAACTGGCCGGCCACGTTGGAGGAGGCGTTCGGCATCGCTCCGAAGTACCAGTACCCGCTCTCGCGGACGGACGCCGAGGCTGTCACGGACTACTTCATGGACGTCTACGCCCCGTCCCGCAGCACACGGAACAACCTGCGGGCTTTCGAAGGATTTATTGTCTCCGGCCCGGAATACCTGACCGTCTTTGAAGGTGCGACGGGCAAGGAACTGAAAACTGTGGAGTACACGCCTGGCCGGCACGACGACGGCCTGATGTGGGGCGACTATGCCATGGCCCGGATCGAACCGGGAAACCGCGTGGACCGCTTCCTGGCCGGCGTGGCCTATTTGGACGGCCAGAAACCCGCAGCGGTGTTCGCCCGCGGCTACTACACGCGGACCACCCTGGCCAGCTACACCTGGGACGGCACCACCCTCTCCCCGGTGTGGAATGTGGACTCCGGCTGGGCACCCATGACCAACCCCTTCAACGACTCCCCGCATGGCCGCGACGGCTCGGATCCGGTGTTCGGCAGGCTCACCACCCAGGGCTTCCACTCCCTTAGCGCCTCTGACGTTGACGGTGACGGCAAGCAGGAAATCGTCTACGGCGCAGCCACGATCGACGACGATGGATCGCTGCTGTACAGCTCCTTCGACACCATGCCTGCCGGCAGCGCCACCCCTGGCTCAGAGGCGCGGTTGGGCCACGGCGATGCGATGCATGTGACGGACATCGACCCGGCGCGTCCGGGCAAGGAGATCTTCACCGTCCATGAGGGCGGAATACACGCGCCGTACGGTTATGCAATGCGCGACGCCAGCAACGGGAAAGTCCTGTTCGGCGCCTATTCCGGGAAGGACACCGGCCGCGGCATGATCGGCGATGTTGATCCCGCCATTCCCGGAATCGAGGTCTGGGCCATGGGGATGCAGACGGCAGACGGCCGCCCCCTGTCCGCCAGCACTCCCGGCACCAACATGAGCATCAAATGGGCCGCGGACATGACCACCCAGATCATCAACGGCTCCGGGGACCAGACACCCACCATTGACGACTGGAAGCGCGGCCGCCTGCTGACCGCCGACGGTACCCGCACCAACAACGGCACCAAAGGCACACCCAGCCTGGTGGCGGACGTGGTGGGTGACTGGCGTGAAGAGATGCTGGTCAGGACCGCCGACAGCTCCGCCCTGCGCCTCTACCTGAGCACCGAGGTAACCAACCACAAGCTGTACACGCTGATGCACGATCCGCAGTACCGTGCCGAAGTCGCCCGGCAGAACACCACCTACAACCAGCCCTCCTACACGGACTTCTACTTCGCATCCGACATGGACTTCGGCAACGTCCCGCTGCGGGCCGCCTGGCTCCCGGGCAGCGTCAAGGCCCTGCAGTATGTCCTGGAAGACCTGACGGACTCCGGCGATGTTTCCGGGCCGGTGGCCAGCCAGCTCAATGCCAGTGTGGAGCAGGCGCAGAAGGCCGTTGCCGACGGCGACAGCGCCAAAGCCGGCCAGGCCATCCAGCGGTTTGTCGACTTCCTTGGCCAGCAGAAGAACCCTGACAACGTTTCCGAAGCCGCCCGCAGCGTCCTGGGCTACAACGCCGGAAATATTCTGCGGGCGTTCAAGGGCTAG	MNPSRKSVRHLSGAAAAMALTVGCLASPAAAVETSAIPTTAGVQLDHLDRGLVAAGTTEGVFLSWRLLGHEATGSTATGLTGTDFAVYRDGHKLATVTDSTNYLDAGGTAASAYEVRAVVGGVELDRSATATAWAGNFKDIPLKKPADGVTPAGQAYTYAANDASVADVDGDGQYEFIVKWDPNNSKDVSQVGYTGNTYVDTYKADGTLLHRIDLGVNIRSGAHYTQLLVNDFDGDGRAEMMMKTAPGTRTIPYKDGNGAGGSFISLLQRDIDAGYSHGDDYRMSAEDYYQHMVDTFLGWTEHPEVKAGNWPATLEEAFGIAPKYQYPLSRTDAEAVTDYFMDVYAPSRSTRNNLRAFEGFIVSGPEYLTVFEGATGKELKTVEYTPGRHDDGLMWGDYAMARIEPGNRVDRFLAGVAYLDGQKPAAVFARGYYTRTTLASYTWDGTTLSPVWNVDSGWAPMTNPFNDSPHGRDGSDPVFGRLTTQGFHSLSASDVDGDGKQEIVYGAATIDDDGSLLYSSFDTMPAGSATPGSEARLGHGDAMHVTDIDPARPGKEIFTVHEGGIHAPYGYAMRDASNGKVLFGAYSGKDTGRGMIGDVDPAIPGIEVWAMGMQTADGRPLSASTPGTNMSIKWAADMTTQIINGSGDQTPTIDDWKRGRLLTADGTRTNNGTKGTPSLVADVVGDWREEMLVRTADSSALRLYLSTEVTNHKLYTLMHDPQYRAEVARQNTTYNQPSYTDFYFASDMDFGNVPLRAAWLPGSVKALQYVLEDLTDSGDVSGPVASQLNASVEQAQKAVADGDSAKAGQAIQRFVDFLGQQKNPDNVSEAARSVLGYNAGNILRAFKG	PGPT0018715_56	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_POLYSACCHARIDE_DEGRADING_FUNCTIONS	PLANT_MEMBRANE_RHAMNOGALACTURONAN_ENDOLYASE,PGPT0018715-yesW-K18197	NA	NA
D1-29_00440	666			hypothetical protein	ATGGGTGGCAGGTCGGAGAAAGAGGCGCTCTTCGATGCATTCGCTTCAGTGGCGACAGCCCTTGGCAGCGGCCGCCGTGTAGAGATTGTGGACGTACTTGCCCAGGCAGAACGTCCTGTCGATGACGTCGCGCGGGAAATTGGGCAAAGCGTGGCGAACACTTCCCATCATCTCCAGCACCTATTGCGGTCCGGGCTCGTCACTTCCCGCCGCGAGGGCACCCGGATCTTTTACCGCCTCAGCAGCCCTGCCGTGGCCAAACTTTGGGCTGCAGTGCGCCTTGTGGCTTCAGATCATGTTGCCCAACTCAACGACCTCGCAGCCGCATACCTCGGAGACCGCTCGGTGTTGAGCACCATAACCAGGGGGGAACTGAAGGACAGGCTGTCGAGAGGCGACATTGTTGTGCTTGACGTTCGGCCCGAGAGTGAATTCCGGTCGGGTCACATTGCCGGCTCGGTGTCCGTCCCGGCCAAAGAGCTGGTGGGCCGGCTGCGGGAGCTGCCTGAAGACAAAACTGTGGTTGCCTACTGCCGCGGCCCGTACTGCGTGTTCGCTGACGACGCCGTCAGGACCCTGCAGGGCCACGGCATTCCAGCCGTGAGACTGGAGGACGGCTATCCCGAGTGGGAGGCAGCCGGCCTGCCTGTAGAAACCAACCTGTAA	MGGRSEKEALFDAFASVATALGSGRRVEIVDVLAQAERPVDDVAREIGQSVANTSHHLQHLLRSGLVTSRREGTRIFYRLSSPAVAKLWAAVRLVASDHVAQLNDLAAAYLGDRSVLSTITRGELKDRLSRGDIVVLDVRPESEFRSGHIAGSVSVPAKELVGRLRELPEDKTVVAYCRGPYCVFADDAVRTLQGHGIPAVRLEDGYPEWEAAGLPVETNL	PGPT0004735_10	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
D1-29_00441	786	arsM		Arsenite methyltransferase	ATGAACATCCCGACCAACACAACATCCGTCGACCGCGACGTGCTGGAGAGCAAAGTTAAGCAGCTTTATCGGGAAGTGGCCCAGAACCCCGCCGGCAGCTACCACTTCCCGACCGGACGCAGCCTTGCGGAACGGCTAGGGTATCCGCGCTCGGTTTTGGAGCGGGCCCCCGACGGTGCTGTCGAATCCTTCGCCGGCGTCGGTTACGCCTTCGACCTGGCGGGCCTCGCGGAGGGTGAAGAGGTCCTGGACCTCGGTTCCGGGTCAGGACTGGACTCCTTCGTCGCAGCCCTCAAAGTGGGCCCTCGCGGGCGCGTTGTCGGTTTGGACATGACGGAGGAACAGATTGCCAAGGCGGAGAGCCTGCGAACATCCGAGGACTATTCCCGGGTCACGTTCGTGAACGGCCATATCGAGGCGCTTCCTTTCGAGGACTCAAGCTTCGATTGCGTCATATCCAACGGCGTCATCAACCTGTCCCCGGACAAGTCGGCCGTATTCCAAGAGGCGGCGCGGGTGCTTCGGCCCGGCGGCCGCCTGGCAATCACGGACATCGTCACCGCCCAGGAACTCTCCACGCAGATCGTGTGCAACGCCGACCTCTGGGCCGCCTGCATTGGCGGAGCCGCACAGTCCGACACGTATCAGCAGCTCATCGCAGACAGTGGATTCGTCCTTGAACAACTTCGGACGAATGCCTACGAGTTCCTCTCCGACAGGTCCCGCAAAGCGGCCGTGAAATATGGGGTCACGAGCGTATCTATCCTCGCCACCCCCATTAAGTAA	MNIPTNTTSVDRDVLESKVKQLYREVAQNPAGSYHFPTGRSLAERLGYPRSVLERAPDGAVESFAGVGYAFDLAGLAEGEEVLDLGSGSGLDSFVAALKVGPRGRVVGLDMTEEQIAKAESLRTSEDYSRVTFVNGHIEALPFEDSSFDCVISNGVINLSPDKSAVFQEAARVLRPGGRLAITDIVTAQELSTQIVCNADLWAACIGGAAQSDTYQQLIADSGFVLEQLRTNAYEFLSDRSRKAAVKYGVTSVSILATPIK				NA	NA	NA	NA	NA
D1-29_00442	1026			hypothetical protein	GTGGTAAGGCCCCTGAGCCTTCAGGCCGACACTGTGGCGCCGAGGAACATCCTGTTTATCGGTGGAACCGGGGTCATCAGCGCGGCGGCGGCTGAACGCGCCGTCGCCCTGGGCCACCGGCTCACCATCCTCAACCGGGGCCGCTCCGCGGAAAGACCCGCCGCCGATGGCGCCGAGATCCTGCACGCCGACGTCCGTGATGCCTCCGCTGTGCGGGAGGTGCTCGGCGGACGGGAGTTCGACGCCGTCGCGGACTTTATTGCCTTCACTCCGGACCAGGCGCGGAACAGCATAGAGCTGTTCCGCGGCCGGACCGGACAGTACGTCTTCATCAGTTCCGCCTCCGCCTACCAAAAGCCGCCCACCCGGCTTCCCATACTGGAATCCACGCCGCTGAAGAACCCGTTCTGGCAGTATTCACGGGACAAGATCGCCTGTGAGGACCTGCTGTTTGAGGCCTACCGCACTGAAGATTTTCCGGTCACGGTGGTCCGCCCGTCGCATACCTACGATCGCACCAAGATCGCCATGGTGGGCGGCTGGACGGATATCCACAGGATGCGGGAAGGACTTCCTGTCCTGGTCCACGGCGACGGCACCTCGCTCTGGACGTTGACCCACAGCCGTGACTTTGCCAAGGCCTTTGTGGGCCTGCTGGGCAGGCCGCAGGCAGTGGGTGAGAGCTACACCATCACCTCGGACGAGTACTTGCCGTGGAACCAGATCTACCAGCTTTTCGCCCGTGCGGCCGGGGTTCCCGAGCCCGAACTGGTCCATGTGGCCTCGGAGACCATCGCCGCGCACAACCAGGAACTCGGCGCCAATCTGCTGGGCGACCGCTCGCACTCGGTGGTGTTCGACAACACCAAAATCAAGTCCCTGGTACCGGATTACGCGGCCACCATCCCCTTCGCCGATGGCGCCAGGGAAATTGTGGACTGGTACGACGCCCATCCCGCGCTCCAGGTGGTGGACCCGCAGTTCATGGAGCTGAGCGAGCGCCTGACCAAATGGGCGCGAAGCTGA	MVRPLSLQADTVAPRNILFIGGTGVISAAAAERAVALGHRLTILNRGRSAERPAADGAEILHADVRDASAVREVLGGREFDAVADFIAFTPDQARNSIELFRGRTGQYVFISSASAYQKPPTRLPILESTPLKNPFWQYSRDKIACEDLLFEAYRTEDFPVTVVRPSHTYDRTKIAMVGGWTDIHRMREGLPVLVHGDGTSLWTLTHSRDFAKAFVGLLGRPQAVGESYTITSDEYLPWNQIYQLFARAAGVPEPELVHVASETIAAHNQELGANLLGDRSHSVVFDNTKIKSLVPDYAATIPFADGAREIVDWYDAHPALQVVDPQFMELSERLTKWARS				NA	NA	NA	NA	NA
D1-29_00443	972	yajO_1	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGCAGTACACCCACCTTGGCCGCTCCGGCCTCAAGGTTTCCCGCCTCTGCCTGGGCACCATGAACTTCGGCCCGAAAACCGAGGAAGCCGATTCGCACCTCATCATGGACTCGGCGGTGGACTCCGGCATCAACTTCTTCGATACCGCCAATGTTTACGGCGGAACAGAACACCGCGGCTGGACCGAAGAGATCATTGGCCGCTGGTTCGCCACGGGCGGCGAGCGCCGCGAACGGACCGTGCTGGCCACCAAGCTCTACGGCACCATGACGGACCGGCCCAACGAGTCCAGGCTGTCCGCGCTGAATATCCGCCGGGCCCTGGATGCCAGCCTCAAACGCCTGCAGACGGACTACATCGACATCTACCAGTTCCACCACATCGACAGGGACACCCCGTGGGACGAGATCTGGCAGGCCATCGAGGTGGCGGTGCAGCAGGGCAAGATTCTGTACTCAGGCAGCAGCAACTTCGCCGGCTGGCACATCGCCCAGGCCCAGGAGGCTGCGCGGGGCCGGAACTACACGGGCCTTGTCAGCGAGCAGTCCATTTACAATCTGTTCCGCCGGGAGGTGGAACTTGAGGTCATCCCGGCCGCCCGGGAGTATGGCCTGGGCCTGATCCCGTGGTCCCCGCTGCAGGGCGGCCTCCTGGGCGGCGTGCTCAAAAAGGAACGGAACGGAGTCCGGCGAACTGAAGGCCGGGCGCTGGAAACCCTGAAGAAGCACGAGGACCAGCTCCGGCAGTACGAGGATTTCGCTGATGAGCTCGGCCACGAACCGGGCGACGTCGCCCTCGCCTGGCTGCTGCACCAGCCTGCGGTCACGGCACCGATCGTGGGACCCCGTACGCAGGAACAGCTCGACGCCGCCATCCGGGCTTTGGAGGTTACCCTCGACGCCGACGCCCTCAAGCGCCTCGACGACATCTTCCCGGGGCACCGCACCGCGCCGGAAGACTACGCGTGGTAA	MQYTHLGRSGLKVSRLCLGTMNFGPKTEEADSHLIMDSAVDSGINFFDTANVYGGTEHRGWTEEIIGRWFATGGERRERTVLATKLYGTMTDRPNESRLSALNIRRALDASLKRLQTDYIDIYQFHHIDRDTPWDEIWQAIEVAVQQGKILYSGSSNFAGWHIAQAQEAARGRNYTGLVSEQSIYNLFRREVELEVIPAAREYGLGLIPWSPLQGGLLGGVLKKERNGVRRTEGRALETLKKHEDQLRQYEDFADELGHEPGDVALAWLLHQPAVTAPIVGPRTQEQLDAAIRALEVTLDADALKRLDDIFPGHRTAPEDYAW	PGPT0010855_19	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-ERYTHROMYCIN_METABOLISM,PGPT0010855-eryBII-K13315	NA	NA
D1-29_00444	822		COG0656	putative oxidoreductase/MSMEI_2347	ATGTCAGAGCTGACCCTGAACAACGGCGTCACCATCCCCCAGCTGGGTTTTGGTGTTTTCCAGGTGCCGCCGGAAGATACCCAACGAATTGTCGAAGATGCTCTGGAGGCGGGCTACCGGCACATCGATACCGCCGCGGCGTATCGGAATGAGGCAGGCGTTGGCGCCGCCCTTGCTGCGTCGGGCATCCCGCGTGAGGAAATCTTCGTCACCACCAAGCTCCGCAACGGCGAACAGGGCCGTACGCAGGAAGCTTTCCAGAACAGCCGCAAGGCTTTGGGCCTGGACGTCATTGACCTGTACCTCATTCACTGGCCGGTCCCTTCACAGGGCCTGTATTCCCAGGCCTGGAAGGAGATGGAGCGGCTCTACAACAACAACCAGGTCCGTGCCATTGGTGTGTCCAACTTCCTCGCCGAGCACTTGGACAGCCTGCTGGAGTCGGCCGAGATCGTGCCGGCCGTGAACCAGATAGAACTCCACCCGAGCTACCAGCAGGCAGGTCTTGCCGCCAAGTGCCGTTCGCTCGGCATCGCAGTTGAGGCCTACAGCCCACTGGGCCAGGGCGGGGACCTCAACGGTCACGCAGTGACCGCCATTGCACAGAACCACAACGCCACCACCGCGCAGGTAGTACTCGCCTGGCATCTTGCGGCCGGCAATATCGTCATTCCAAAATCTGCCAACCCATCGCGGCTCCGCGAGAACTTCGCCGCATCGTCCCTGGTCCTCAGCGACGAAGAACTGGAATCCATCAGCGCCCTGGAATCGGGTGCGCGCATTGGGGCCGATCCCGCCGTCGCCTCCTTCACGCAAATGTAG	MSELTLNNGVTIPQLGFGVFQVPPEDTQRIVEDALEAGYRHIDTAAAYRNEAGVGAALAASGIPREEIFVTTKLRNGEQGRTQEAFQNSRKALGLDVIDLYLIHWPVPSQGLYSQAWKEMERLYNNNQVRAIGVSNFLAEHLDSLLESAEIVPAVNQIELHPSYQQAGLAAKCRSLGIAVEAYSPLGQGGDLNGHAVTAIAQNHNATTAQVVLAWHLAAGNIVIPKSANPSRLRENFAASSLVLSDEELESISALESGARIGADPAVASFTQM	PGPT0001320_2181	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
D1-29_00445	897			hypothetical protein	ATGGGTCAAAGCGCCGAGTTCGGAAAATTCCTGAAAGCCATGCGGTCCCGCCTAAGCCCGGAGGATGCCGGGACTGACGGCACCGCCGGAGTACGAAGAGTACCCGGGCTCCGGCGCGAGGAAGTAGCGCGGCTGGCAGGGGTCAGCACGGACTATTACATCCGCCTGGAGCAGGGCCGGAACATCCATCCCTCGCGAACGGTCCTTGATTCGGTGTCGCGGGCCCTCCGCCTGGACAGCAGCGAGCACGCGCACATGATGGACCTCCTGGAAAACTGCTCGGGCACCAGCCGAACTCCCGGTCCTCCCCAGGGCGTGCGCCCCGCCCTTCGCCAGCTCCTTGATGCGGTGGGGGACATCCCCGCATTGGTGCTGGGCCGCCGGACCGACGTCCTGGCCGGCAACAGGATGGCATTCCTGTTGTTCACCGACTTCGGGGAGCTCCCCGCCCAGGAGCGGAACCTCACCCGCTGGCTGATTCTGGACCCCCTGGCCAGGGAGCTCTTCAGGGATTGGAAGGCCGTGGCTGCGGAAGCCGCAGGTGCCTTGCGGGTGGATGTGGGACGGCACCCCAATGATCCGCAGGCCAACCAGTTGGTGGGTGAGCTCGCGGTCCACAGCGAGCACTTCCGCCATTGGTGGGCAGGGCACAAGGTAGCCACGCGGTCTGCAGGCACGGTCCGGCTCCACCACCCCGCCGTCGGCGATCTGGAACTGAACTTTGAGAACCTGGTTCTCCCCGACGATCCGGACCAGCTGCTGCGGGTGTTTTCCGCCAAGCCCGGGTCGCCGTCGTCGGACGCCCTGACGCTGCTGGGGAGCCTCGGGGCGGACGGTCAGCAGTCCCGCCAGGGAGTGCACACTGAAGCCCTTCCGCCTGCCGCGGTGGAGGGTTGA	MGQSAEFGKFLKAMRSRLSPEDAGTDGTAGVRRVPGLRREEVARLAGVSTDYYIRLEQGRNIHPSRTVLDSVSRALRLDSSEHAHMMDLLENCSGTSRTPGPPQGVRPALRQLLDAVGDIPALVLGRRTDVLAGNRMAFLLFTDFGELPAQERNLTRWLILDPLARELFRDWKAVAAEAAGALRVDVGRHPNDPQANQLVGELAVHSEHFRHWWAGHKVATRSAGTVRLHHPAVGDLELNFENLVLPDDPDQLLRVFSAKPGSPSSDALTLLGSLGADGQQSRQGVHTEALPPAAVEG				NA	NA	NA	NA	NA
D1-29_00446	1926			hypothetical protein	GTGAATCACCAGCTGGTAGTCAGGATCCTGACCGCACTCACCATCGTCCTGGGAGTGAACTACATCCTGTGGCGGTGGATGTTCTCCGTGAACTGGGCCGCGGCCTGGATCAGTGTGCCGCTGGCCATGGTGGAGACCTACAGCCTGATAAACGCCTTCCTTTTCGGGGTCACCATGTGGCGGCTGCGTCAGCGGCCTGCTCCCCCGGCCGCGGAAGAAGGGCTGGATGTGGATGTCTTCATCACCACCTATAACGAACCCGTTGATCTGGTCATGACAACGGCGGTGGCCGCCCGGAACATCACCTATCCGCACAAAACCTGGATCCTGGACGACGGCGCACGGCCGGCCATGCAGCAGGCTGCCCGGGAGGCCGGCGTCGGCTACATCACCCGCTCACGGGACTGGGACGATCTCCCCCGCCATGCCAAGGCGGGCAACCTCAACAACGCCCTGGCCGCCACCGAAGGTGAGTTCCTGCTGATCCTGGACGCGGACCAGATCCCGGAGCCGCACATCCTGCACCGGATGCTTGGCCACTTCAGCAATGACAACGTAGCCCTGGTGCAGACACCGCAGTGGTTTGCCAATGTCCTGGACGACGACATCCTTGGCAGCCAGGCGCCGCTGTTCTACGGCCCCATCCAACAAGGCAAGGACGGCTGGAACGCCGCCTTCTTCTGCGGCTCCAACGCCATCATCCGCCGCGAGGCCCTCATGCAGATCGGCGTCACAGGCTATGTCCAGGGCGTCCGGACCTCCGTTGAGCTGGCCCTGAAAGGTGCGGACAGGGTCATTGCCAGGGCTCGCTCCGAGCACGGCAGCACCGGACCCCACGTGGCCATGGCGCTGGACCAGATCGGATCGGCGGTACGCAGCGCACGTGATGAACTGAAATCGGACCATCCCGTTGCGAATGTCACCTATGATTTCCAGCGCAAGGTGCACCTGGCCGCACGGAACGTGGTCACGATGGACATCGCCTCGATGACAGCGGACCTGAATACTATCGCCGGAATCTCCGGCAGCATCAGCCGGGTCGATATCGGTGAGGACGCAGTGGACCGGCTGGCCAGCCGCGACTGGTCGCCCATCAGTGCCATCGATCCCGTCCAGAAGCTGGTCCGGGCGGTAGACGTTGACCGCTACCTTGAGGCCCTGCCCGTGATGCCGCTGGCCACAAATTCAGTCACCGAAGACATGGCCACCTGCATGCGTCTGCACGCCGCAGGCTGGGAAAGCGTCTATCACCATGAAATCCTCGCCAAAGGCCTGGCCCCCGAGGACCTTCGTACCATGCTGACCCAGCGGCTGCGGTGGGCCCAGGGCACCATGCAGGTTTTCCTGCGCGAAAACCCGCTCTTCCAAAAGGGGCTCAAGGCGGGGCAGCGCCTGATGTACTTCGCCACAATGTGGAGCTATCTCTCCGGTTTCGCCGCGGTGGTCTACATCGCTGCGCCCATCATTTTCCTGTGCTTCGGCGTGATGCCCGTCGCCGCGTTCAGCACCGACTTTTTCGCCAGGCTGATACCTTTCCTGATCCTCAACCAGATCCTGTTCTTCGTGGCGGCCAGGGGCAGGAAAACCTGGCGCGGCCAGCAGTACAGCGTGGCGCTCTTCCCGATCTGGATCAAAGCCTGCACGACGGCGGCAGGCAACGTCCTGTTCGGCCGCAACCTCGGCTTCGCTGTCACCCCCAAAACCCGGCAGGACGGCGGCCCGCCCTGGTCCCTCATCCGGCCCCAGCTCGTGGCCATCGCCGCCCTCCTGCTCGCCGCCGTCGTCGGTTTGATCAGAATGTTGTCCGGGCTGGGCGCGCCCGCCGGGACCCTGGTGAACATTGCCTGGGTTGTTTTCGACCTGCTGATCCTCAGCGTCATCATCCGCGCAGCCCTCTACAAGGGCTTCACCGGAACAAGGGCTTGA	MNHQLVVRILTALTIVLGVNYILWRWMFSVNWAAAWISVPLAMVETYSLINAFLFGVTMWRLRQRPAPPAAEEGLDVDVFITTYNEPVDLVMTTAVAARNITYPHKTWILDDGARPAMQQAAREAGVGYITRSRDWDDLPRHAKAGNLNNALAATEGEFLLILDADQIPEPHILHRMLGHFSNDNVALVQTPQWFANVLDDDILGSQAPLFYGPIQQGKDGWNAAFFCGSNAIIRREALMQIGVTGYVQGVRTSVELALKGADRVIARARSEHGSTGPHVAMALDQIGSAVRSARDELKSDHPVANVTYDFQRKVHLAARNVVTMDIASMTADLNTIAGISGSISRVDIGEDAVDRLASRDWSPISAIDPVQKLVRAVDVDRYLEALPVMPLATNSVTEDMATCMRLHAAGWESVYHHEILAKGLAPEDLRTMLTQRLRWAQGTMQVFLRENPLFQKGLKAGQRLMYFATMWSYLSGFAAVVYIAAPIIFLCFGVMPVAAFSTDFFARLIPFLILNQILFFVAARGRKTWRGQQYSVALFPIWIKACTTAAGNVLFGRNLGFAVTPKTRQDGGPPWSLIRPQLVAIAALLLAAVVGLIRMLSGLGAPAGTLVNIAWVVFDLLILSVIIRAALYKGFTGTRA	PGPT0022275_1288	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022275-bcsA|yhjN|celA-K00694	NA	NA
D1-29_00447	1404			hypothetical protein	ATGGTCGGTACCGGCCGGCAAAGGGAACAGGCGCCCGGCACACTCTTGCCCCGCCGGGGCCTGATTCCGCTCTTGCTGGGAGTATTCATGCGTCATTCTTTCGTTCGATGGGTCGTGCCCGGCGTGATCCTGTCACTGGCAGTTCTGTTCGGCATAGCGGCACCGGCCCAGGCAGCCGGCCGCGCCGAAATCAGCCTGAGCGCCTCGGCGGGCCCGGCTGGATCCTCAGTCACAGTGACAGGGTCCGGCTTCGCCCGGCAGAGCCCCGGTACGCTGACTGCCGGAACCAACACTGTTCCCATCACCACCAGTGCCACGGGATCGTTTTCCGCCTCGGTGACCATCCCGCCCACATCGGCCGCCAACGTTGTGGTCACTGCGAAGACAGGGCCCCGTTCCGCATCGGCACCGTACGCCGTGACGTACAGCCCGGCTTCCACCACGGCTGGCAAGGACAGCGCCCTTGCCGTTGCGGAAGCGCCGGTTACCATGGCAGCCCGAACCAAGACAGGAACCACAACGGCAACCACCACGCCTCCCATCAGTTCCGACTCCCTGCGGTTTGGTGTGTCCACGCCCGGAGGCCCCTGGGCTGCCAGCGAACTCGACGCCGTGGCCACCCTGGTGAACGAAAGCCCGTCCATCGTTATGTCGTACAAGGACTTTGGCCAGGCCGCTCCCATCGCAGAACTGAATGCAGTCAACGCCCGCGGAGCCACGAGCCTGGTCACCTGGGAACCTTGGCTGTGGGGCGGAAACGGCGCCAATCAGCCGGCCTTCGCACTGGACCGGATCACCGCCGGAGACTACGACACCTACATCGCCAAGTGGGGCACGGCGCTGGCATCGTGGGGTAAGCCGGTAATGCTCAGGTTTGCTCACGAGATGAACGGCAACTGGTATCCCTGGGCGGAGTCCGCCAACGGCAACCAGGCCGGGGATTATGTGGCCGCCTGGCGGCACGTCCACGACGTAGTGGCCGCAACCGGAGCCAGCAACGTGCAGTGGGTCTGGAGCCCCAACGTTCCCTACTGGGGTTCAACGCCTCTGGCCGGGCTGTATCCAGGTGCCGGGTATGTCGACGCCGTTTCACTGGACGGCTACAACTGGGGAACCTCCGCATCCTGGAGCACCTGGACGTCGCCGGCATCGCTGTTCGGTGAGGGACTGACCGCCCTTCGCAGCCTGGCCCCGGGCAAGCCGATCATGATCTCCGAGACGGGGTCTGCTGAAGCCGGCGGGTCGAAAGCAAACTGGAACACTGCGCTCGTCTCCTACCTTGTGGCCCAGCCGGACATCACAGCGCTGGTTTGGTTCCATCACAACAAGGAAGTGGACTGGCGGATCAACAGCTCCACGTCCTCGGCGAGCGCCCTCGCGGCTGCCCTGGCTGCCAGGAACTGA	MVGTGRQREQAPGTLLPRRGLIPLLLGVFMRHSFVRWVVPGVILSLAVLFGIAAPAQAAGRAEISLSASAGPAGSSVTVTGSGFARQSPGTLTAGTNTVPITTSATGSFSASVTIPPTSAANVVVTAKTGPRSASAPYAVTYSPASTTAGKDSALAVAEAPVTMAARTKTGTTTATTTPPISSDSLRFGVSTPGGPWAASELDAVATLVNESPSIVMSYKDFGQAAPIAELNAVNARGATSLVTWEPWLWGGNGANQPAFALDRITAGDYDTYIAKWGTALASWGKPVMLRFAHEMNGNWYPWAESANGNQAGDYVAAWRHVHDVVAATGASNVQWVWSPNVPYWGSTPLAGLYPGAGYVDAVSLDGYNWGTSASWSTWTSPASLFGEGLTALRSLAPGKPIMISETGSAEAGGSKANWNTALVSYLVAQPDITALVWFHHNKEVDWRINSSTSSASALAAALAARN				NA	NA	NA	NA	NA
D1-29_00448	219			hypothetical protein	ATGATGAAACGCATCGCCCTGCTCAAGGAACGCCAGGCCCCCGGCGACGGACAGGGTCCGGCGCCCACCGGTTCGCACTGCCCTGCCTCTGGACTTTGGGCACCCGGCTCGGACCCCCAGGCCGTGCAGCTGATCTTCGAGGGCCAGGTCTTCCCGGCTTTCGACGGCGTCCCCACCGTATGGCGCCGGTGCGCGGCCGGAACTGTGTCGGCCGGTTAG	MMKRIALLKERQAPGDGQGPAPTGSHCPASGLWAPGSDPQAVQLIFEGQVFPAFDGVPTVWRRCAAGTVSAG				NA	NA	NA	NA	NA
D1-29_00449	213		COG3360	Dodecin	TTGTCCAATCACACGTACAGCATTTCTGAAATTGTCGGTACCTCAACCCAGGGCGTGGACGACGCCGTCCGGAATGGGATCGCCAAGGCGTCCCAGACCCTCCGCAACCTGGACTGGTTCGAAGTGAAGGAGATCCGCGGCCACCTGGAAAACGGTCAGATCGCCGACTGGCAAGTCACCATCAAGCTCGGTTTCCGGCTGGAAGAACACTAG	MSNHTYSISEIVGTSTQGVDDAVRNGIAKASQTLRNLDWFEVKEIRGHLENGQIADWQVTIKLGFRLEEH				NA	NA	NA	NA	NA
D1-29_00450	897	ngcG_2	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGGCTCTCCTCGAACTACCACTCAAGAACAAGCAAAAGAAGGACGTGCCCGCGGAGGACGCGCTCACCGGGACCACCGGGACACGCTTCTCACGGCACCTGATCCTGTGCCTGGTTGGCCTACTGATGCTGTACCCGCTGCTGTGGCTCATCTCAAGCTCGTTCAAGCCCAGCAACGACATCTTCCGGCAGCTCGGACTATGGCCGGAAAACTGGGACTTCAGCAACTATGAACAGGGCTGGACCGCCCTGAACCAGCCTTTCCACGTCTACCTGGTCAACTCGCTGATTGTTGTGGTGTTCTCCATTGTGGGCAACATCTTCTCGTGCGCCTTGGCCGCCTACGCCTTCGCCCGGATGGAGTTCACCGGCCGGAAGCTGTTCTTCGCCCTCATGCTGGGAACCCTGATGCTGCCGGGCCACGTGCTCCTGGTGCCGCAGTACATTATTTTTTCCCAGCTGGGCTGGCTGGATACCTACCTGCCGCTGATAGTGCCGAACTTCATGGCCACCAACGCGTTCTTCATCTTCCTCATGGTCCAGTTCATGAAGGCACTGCCCAAGGAGCTCGACGACGCCGCGCAGATCGACGGCTGCGGCCCGTTCCGGACGTTCCTCCGGGTCATCCTCCCCCTGTGCGTGCCGGCCATGGCCACCACCGCCATCTTCACCTTCATCTCCACCTGGAACGAGTTCTTCGGGCCACTCCTCTACATCCAGAACCAGGACCTCTACACGGTCCCGCTGGCGCTACGGGCGTTTATGGACTCCGAGGGCCAAAGCATGTGGGGCCCAATGTTTGCCATGTCCGTGGTTTCCATCGCCCCTATCATCGGCTTCTTCATCGCGGGCCAGAAGTACCTCATCAACGGCATCGCCACCACTGGGCTCAAGTAA	MALLELPLKNKQKKDVPAEDALTGTTGTRFSRHLILCLVGLLMLYPLLWLISSSFKPSNDIFRQLGLWPENWDFSNYEQGWTALNQPFHVYLVNSLIVVVFSIVGNIFSCALAAYAFARMEFTGRKLFFALMLGTLMLPGHVLLVPQYIIFSQLGWLDTYLPLIVPNFMATNAFFIFLMVQFMKALPKELDDAAQIDGCGPFRTFLRVILPLCVPAMATTAIFTFISTWNEFFGPLLYIQNQDLYTVPLALRAFMDSEGQSMWGPMFAMSVVSIAPIIGFFIAGQKYLINGIATTGLK	PGPT0016540_2314	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
D1-29_00451	954	lacF_5		Lactose transport system permease protein LacF	ATGTCAGTGCTGACCAAGCAGGTCCCCGGCTCAGCCGCTGCGCTGGCAGAGCAGTCCGGCGGACAGCGCAGGCGGGGTAACTCGCGCCGTACCAACCAGCGTTCGGGCTATTTGTTCCTGCTGCCATGGTTCCTGGGCATGCTGTTCACCATCATTCCGTTCTTCGCCTCGCTGTACCTGGCATTCACGGACTACAACCTGTTCACGGAGCCGAACTTCGTAGGCCTGGCAAACTTCCAGGCGATGTTCGAGGACCCGCGGCTCCTGCAGTCCCTGAAGGTCACGTTTATCTACACGTTCGTTTCTGTGCCCATCTCCCTGGCAGTGGCCCTGCTGATAGCCCTTGTGCTGAACCGCGGCCTCCAGGGCCTGGCGATCTATCGCTCCGTTTACTACCTGCCGTCCCTGCTCGGTGGCAGCGTCGCGATCGTGATGCTGTGGCGCTACATCTTCGGCAACAATGGCATCGTCAACGGCGCCCTGGGTCTCCTCGGAATCCAGGGCCCGGCGTGGGTTACAGATCCCGAATTCGCGTTGAGCACCCTGATCGTCCTGAATGTGTGGACGTTCGGTTCGCCGATGGTAATCTTCCTCGCCGGCCTGCGGCAGGTGCCTTCCATGTACTACGAGGCTGCGTCCATCGATGGCGCCTCCAGCTGGCGCCAGTTCCGCAACATCACCCTGCCGCTGATCAGCCCCATCATCTTCTTCAACCTCATCATGCAGCTGATCGGCTCCTTCCAGACCTTCACCCAGGGCTATGTGATGAGCGGCGGAACCGGCGGGCCGGCAGATTCCACGCTGTTCTACAACCTCTACCTGTACCAGAAGGGCTTTACCGAGTTCGAGATGGGGTATGCCTCGGCCATGGCGTGGCTGCTGCTGATGATCATTGCGATTTTCACTGCCATCAACTTCATCGCATCCAAGTTCTGGGTCTTCTACGACAACTAA	MSVLTKQVPGSAAALAEQSGGQRRRGNSRRTNQRSGYLFLLPWFLGMLFTIIPFFASLYLAFTDYNLFTEPNFVGLANFQAMFEDPRLLQSLKVTFIYTFVSVPISLAVALLIALVLNRGLQGLAIYRSVYYLPSLLGGSVAIVMLWRYIFGNNGIVNGALGLLGIQGPAWVTDPEFALSTLIVLNVWTFGSPMVIFLAGLRQVPSMYYEAASIDGASSWRQFRNITLPLISPIIFFNLIMQLIGSFQTFTQGYVMSGGTGGPADSTLFYNLYLYQKGFTEFEMGYASAMAWLLLMIIAIFTAINFIASKFWVFYDN	PGPT0016535_2433	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
D1-29_00452	1305	yesO_1	COG1653	Putative ABC transporter substrate-binding protein YesO	ATGAAGAAGACAGCAAGCACCCCCATCCCGCGCAGGATCATCCTGGGTGCAGCGGTGACCGCCGCGGGCCTGGCCCTCAGCGGTTGCGGCGGGGCATCCTCGCCCAGTTCCGGCGGCAATGTGGAGCTGAACTTCGTGTACTGGGGCGACTCCAACCGCGCCAAGATGACCGATGCGGCAATCAAGATCTTCGAGGAGAAGAATCCCGGCATCACCGTTAAGAGCGAGTATCAGGACAGCGGACCGTACGCGGACAAGCTGGCCACCCGTTTCGCGGGTGGCAATCCACCGGACGTCCTGAACATGGCAAACCGCAGCTTGCTGGAGTATGCCCAGCGCGGCACGCTCGCAGACCTCAGGTCCATGCAGGAACTCGACCTGGCAGACATCCCGGACACCATCCAAAGTCGGGGTGAAGTGGATGGCAAGCTTTACGGCCTGGCCACAGGCGTGACCACTATCGGCATGGTGGTCAACAAGACCATTACGGACGAGGCCGGCGTCACCATCCCAGACGACAAGATCTGGAGCTGGGAGGACTACGCCAAGTTCGCCACCGAAGTCACGCAGAAGACCGAGGGCAAGGTATACGGGGCCGGTTATGACGTTGCCACCGAAACCGGTCCCATTCTGTTCGCCAGGCAGCGCGGCGAGGACTTCTACACCAAGGACAACAAGCTCGGGGTCAGCGAGGAGACCATAAGGGAGTGGTTCCAGTACAGCGTTGACCTTCGCAGTGCCGGAGGCTATCCGCCGGCAGGCTTCTTTGAGCAGATCGGCGGCTCAGCCGCCCAGTCGTACCTCGCCAAGGGAACCGTCGCCTCGCAGATCATTCCGATCAACAACTACAAGGCCTACAACGAAGCTGCCGGCGGCAACGTGCTCCTGCTCCGTATGCCCGGTGAAACCACCGAGGAACGCCGCGGCTACTCAGCGGATCCCAGCATGCTCTGGTCCATTGCTGCCAAGTCGAAGCATCCCAAGGAAGCTGCAAAACTGCTGAACTTCCTGATCAACGATGCAGACGGAGCTGCGGAAACGCTCACCCAGCGCGGGGTGCCCATTAATCCGGAAGTTGCGGACGCCATCAAGCCAAAACTAAGCAAGGACGACATCGCCTTCGTGGACATGGTGGCCGCCATTCAGGAAGACGACCTGGCCCCTGCATATGTGTACCCCAAGGGCGCAAGCGTGGTGGCCGACACCCTCAAGCAACTGGCCACCGAAGTCGAGTTCGGCCGCGTAACCCCTGCTGACGCCGCGAAGACCTTCCTCGAGAAGAGCAATGCAGCCATCAACAAGTAA	MKKTASTPIPRRIILGAAVTAAGLALSGCGGASSPSSGGNVELNFVYWGDSNRAKMTDAAIKIFEEKNPGITVKSEYQDSGPYADKLATRFAGGNPPDVLNMANRSLLEYAQRGTLADLRSMQELDLADIPDTIQSRGEVDGKLYGLATGVTTIGMVVNKTITDEAGVTIPDDKIWSWEDYAKFATEVTQKTEGKVYGAGYDVATETGPILFARQRGEDFYTKDNKLGVSEETIREWFQYSVDLRSAGGYPPAGFFEQIGGSAAQSYLAKGTVASQIIPINNYKAYNEAAGGNVLLLRMPGETTEERRGYSADPSMLWSIAAKSKHPKEAAKLLNFLINDADGAAETLTQRGVPINPEVADAIKPKLSKDDIAFVDMVAAIQEDDLAPAYVYPKGASVVADTLKQLATEVEFGRVTPADAAKTFLEKSNAAINK	PGPT0016545_5975	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
D1-29_00453	255			hypothetical protein	ATGGACGCTGGACTATCACAAGGCGGAAAGTTTCTGGACAAATCAATCAGAAATGCGGCCCCGATCCTTCTGAGCAAACCTTGGGGCTTCTCGGAGGAAAATATGAGTAAACGATTTCTAGCAAGAAAACCTTGTGACTGTCAACACAATTCTTTAGGGCTCGAGGAGCTGGTGAACGAGAAACTTTCTGTATTGCTTGCCGAAGACTTTCTGGATGGCTATGCTGATCCCCACACCGCTGATTCCCAAACCTGA	MDAGLSQGGKFLDKSIRNAAPILLSKPWGFSEENMSKRFLARKPCDCQHNSLGLEELVNEKLSVLLAEDFLDGYADPHTADSQT				NA	NA	NA	NA	NA
D1-29_00454	933			hypothetical protein	GTGGTCCCCTCCCCGTCGGCTGCCCTGGCCGCGGACCAGCCCCCTGCCGGGCAGTCCCTGGTGACGCACTGCACCGGACGGGCGCTGCCAATCACGAGCGCCCCACGGCCATACCTGCACCCGATAATGTCCCTCGCCGGTACCACCGTCACCGACGCGGAGCCGGCGGACCATCCCCATCACCTGGGGCTGTCACTCGCCTTCTCGGATGTCAACGGAACCAACTTCTGGGGCGGGTCCACTTTTACGCGGGGCGGCGGGCCCGTGCTGCTACCGAATCACGGCACCCAGGTCCCGTGGGGATGGCAGCACACCGCCGGCGGAGCAGCAGGGAATGTCACCTGGCGGTCAGAGAGCGGAAAGGAAGTCGCTCTCGAACGGCGAAGCTTCCACTACCTCAGCCATCCCGACCCCAAAACCTGGAGCCTCTCCGTGGCCTCGGTGATGGTTCCGGGAGCCGGCGTGAAGGAGCTGGTGGTGTCGTCGTCGGCCGTTAAGGGCCGGAACGGTGCCGGCTACGGTGGAATCTTCTGGCGGTTCGGCGCATGCGCCGGTGAGCCGGTGATCCTCTCCGCTGCCGGTCACGGTGAAAGTGCCGCCCACGGTTCGACGTCATCCTGGCTTTCCATCTCCATGAGGATCGATGGCGCACCCGTCGGCGTGGTCCTCTCCCAGGACGTCCTTGAGCCCCGAATCCATGCCCGGGACGGCGAAGGCCTCCTCCCGTGGTTCGTCCGGGCGGACGGCTACCTCGGCGCAGGGCCCGCCGTGGCGTGGGCCGAACCGGCACGTGCCACCAGCTCCCGTCCTTTGAGGCTGGCCCTCAACGCTGTGATCCACGACGGCCCGGTGGAGACCAGCGCCCACGCCCTTGACCTTCTTCAGCAGCACCCCCGAATCAGCCATACCAGGACACCCGACAGGACACCATGA	MVPSPSAALAADQPPAGQSLVTHCTGRALPITSAPRPYLHPIMSLAGTTVTDAEPADHPHHLGLSLAFSDVNGTNFWGGSTFTRGGGPVLLPNHGTQVPWGWQHTAGGAAGNVTWRSESGKEVALERRSFHYLSHPDPKTWSLSVASVMVPGAGVKELVVSSSAVKGRNGAGYGGIFWRFGACAGEPVILSAAGHGESAAHGSTSSWLSISMRIDGAPVGVVLSQDVLEPRIHARDGEGLLPWFVRADGYLGAGPAVAWAEPARATSSRPLRLALNAVIHDGPVETSAHALDLLQQHPRISHTRTPDRTP	PGPT0017992_7	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
D1-29_00455	1581			Beta-xylosidase	ATGACAACCCGGCCCCCCACGCCCCTCTACACCAACCCCGTCCTGAACGGTGACTGGCCGGACCCGGACGCCGTACAGGTCGACGGGACCTACTACCTCATCGCCTCAAGCTTCAACCGCGTGCCCGGTTTGCCTGTCCTGCGGTCCCGGAACCTCGTGGACTGGGAACATGCCGGACACGCGCTCGCCGAACTGCCGCAAGGCAGCCACTACTCCCTGGTCCGGCACGGGAGCGGAGTGTGGGCGCCGGCGCTCAGGTATCACAACGGCCGCTTCTGGATTTTCTACCCGGACCCTGACCACGGCATCTTTGTGCTCAGCGCGGAAAGGGCAGAAGGGCCGTGGAGCGCGCCGCACCTGCTCTACGCCGGGCGCGGCCTCATTGATCCCTGCCCGCTGTGGGACGAGGACGGCGAGGCCTATCTCGTGCACGGTTGGGCCCAAAGCCGGATCGGCGTCAAAAACAGGCTCACCGTCCATCGGATGAGCCCGGACGCCGGCAGGCTCCTTGACAATGGCATCCACGTGATCAATGGTGCCGACCTGCCCGGCTACACCACCCTTGAGGGCCCGAAGTTCTACAAGCGCGACGGCTGGTATTGGATCTTTGCACCGGCAGGTGGCGTGGCAACGGGATGGCAGTCCGTGTTCCGCTCGCGGTCGCCGTTCGGCCCCTATGAGGAGCGCCGGGTGCTGGAGCAGGGGGAAACGGCAGTCAACGGACCCCACCAGGGGGCGTGGGTGACCACGCCTGAGGGCGAGGACTGGTTCCTACATTTCCAGGACCGCGGCCCCTTCGGCCGCGTGGTCCACCTCCAGCCGATGGGCTGGGGCGCCGACGGCTGGCCCTGGATGGGAGAAACCCCTGACGACGGCGGCACTGGAGTTCCGGTGGCCAGCCATACCTACCCGGCCGGTACCGTCCCTGAAGACGTGGCTCCGCCGACGAGTGACAACTTCACTTCCCCGTGGCTGGGGCCACAGTGGCACTGGCAGGCGAATCCGCTGGAATCGTGGTCGTTCCAGGGCGGGGGAGGGCAGCTGGTCCTCCGTCCGCAGGCCAATGATCCCGTGAACCTTCGGGAGCTGCCCAACGTCCTGGGCCAAATCCTTCCCGGCACGCCGTCTACCTTCACCACTGTGCTGGAGCTGGCTGATGTCCCGGAGGGCACCCGCGCCGGAGTGGTGGTTCTGGGTCAGCAGTACGCGTGGCTGGGCATCATCCGGACCACCAACGGCTACGTCCTGGGGAGCGGAAGGGGCGGAGAAGGCCCGCACGAACAACCGCTCGGGCGCCGGGTTCCCCTGGACAGCCCCAGGATTGAGCTCCAGATCCGCACTGACGGGACTCCCCGCTCCACCTTTGCCTGGCGGTCAGGGGCTGGCGAACCCTGGGAAGTGCAGGGCTGGAACTTCGATGTTGTCCAGGGGAAGTGGATCGGCGCGGAGCTCGGGCTGTTCGCCACGTCACCGCTGGGCTCGCAGGAAAAGGGCAGTGTTATCGTTGGACCCGTGCGGGTGGATACTGTGCCGGTGAGCCGGCCGGCTCCCCGGCATTACGCCGCAACCTCCTCCACATGA	MTTRPPTPLYTNPVLNGDWPDPDAVQVDGTYYLIASSFNRVPGLPVLRSRNLVDWEHAGHALAELPQGSHYSLVRHGSGVWAPALRYHNGRFWIFYPDPDHGIFVLSAERAEGPWSAPHLLYAGRGLIDPCPLWDEDGEAYLVHGWAQSRIGVKNRLTVHRMSPDAGRLLDNGIHVINGADLPGYTTLEGPKFYKRDGWYWIFAPAGGVATGWQSVFRSRSPFGPYEERRVLEQGETAVNGPHQGAWVTTPEGEDWFLHFQDRGPFGRVVHLQPMGWGADGWPWMGETPDDGGTGVPVASHTYPAGTVPEDVAPPTSDNFTSPWLGPQWHWQANPLESWSFQGGGGQLVLRPQANDPVNLRELPNVLGQILPGTPSTFTTVLELADVPEGTRAGVVVLGQQYAWLGIIRTTNGYVLGSGRGGEGPHEQPLGRRVPLDSPRIELQIRTDGTPRSTFAWRSGAGEPWEVQGWNFDVVQGKWIGAELGLFATSPLGSQEKGSVIVGPVRVDTVPVSRPAPRHYAATSST	PGPT0019091_311	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
D1-29_00456	1038	cytR_2	COG1609	HTH-type transcriptional repressor CytR	ATGACCGCAAGGACCGCCCCGTTGACCCCCACTCCGCGTCCCAAGATCGCCGACGTGGCCGCAGCGGCAGGCGTCTCAGTTCCCACGGTGTCCAAAGTCCTCAACGGCCGGTCGCACGTTTCCGAGGCCACCCGCGCCCGGGTGCGGAAGGCCTTGGAAGAGCTCGACTACACCAAGCGGAATGTCCCCGCCGCCCAGCCGGGGCTTCTCCAGCTGGTGGTCAACAACTTCGATTCACCCTGGGTGCTGGAGATCATGGAGGGCGCGGAGGCGGCGGCTGCGCGGCTCGGCTACTCCGTTGTCTACACAAGGGCTGAGCACGCGAACGCCGAGAACTGGCGCAAGCTCCGGGAATCCTCAGCCAACCGGCTCGCCGGGGTGGTGCTGCTCGCCCCGCGGACCGGCTCACGGCTGGTTACCACCCTGCGCAGCCTCAACATTCCCGCGGTTGCTGTGGACCCCGAGGGCAGCGAGGGGCTCACCATTCCCAGCGTCAGCCCGGCGTCGTTCTCCGGAGCACTTTCAGCGGTGGGGCACCTTCTGGGACTTGGGCATCGCAGGATTGCCATCATCACCGGCCGCGGCCATGGTTCCGGGCACAGCCGGGCACGGTATGCGGCGTACGCCGCCGCCTTGCATGAGGCCGGGCTGCCGGTCCTGCCGGAACTGGTACGCGACGGCGATTTCAGCATTGAGGCGGGAGTCCGGCATGGCGGGGACCTTTTGGACCTGGCCCAGCCTCCCACCGCCATTTTCGCTGCCAACGATCTCCAGGCGCTCGGTGTGATGAACGCCGCCGCCCAGCGCTCGCTGAAGGTGCCGGCGGACCTCAGCATTGTGGGTTTTGACGACATCGCCCAGGCCGCGCTGATGTCGCCGCCCCTCACCACCGTTCGGCAGCCGCTGGCCCACCTGGCGTCCATGGCCGTGGGTATTCTGGCCGAGCAACAGGAGCAGCAGGGCCCCGCCGTTCCGGCGGCATTGGAACTTGCCACCGAACTGGTGGTCAGGGGAACCACCGCCCGGCCTTCACGTTAG	MTARTAPLTPTPRPKIADVAAAAGVSVPTVSKVLNGRSHVSEATRARVRKALEELDYTKRNVPAAQPGLLQLVVNNFDSPWVLEIMEGAEAAAARLGYSVVYTRAEHANAENWRKLRESSANRLAGVVLLAPRTGSRLVTTLRSLNIPAVAVDPEGSEGLTIPSVSPASFSGALSAVGHLLGLGHRRIAIITGRGHGSGHSRARYAAYAAALHEAGLPVLPELVRDGDFSIEAGVRHGGDLLDLAQPPTAIFAANDLQALGVMNAAAQRSLKVPADLSIVGFDDIAQAALMSPPLTTVRQPLAHLASMAVGILAEQQEQQGPAVPAALELATELVVRGTTARPSR	PGPT0017992_5547	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
D1-29_00457	711	pdhR	COG2186	Pyruvate dehydrogenase complex repressor	ATGGCACGGAAATCACTGGTGGGCGTAGTCGCCGACGAGCTTCTGGACCGGATCATCGCCGGAGAGTTCCCGCCAGGAGCCAGCGTGCCCGGCGAGCTTGAACTCAGTGCCAAACATGAAGTCAGCCGGATGACGGTGCGCGAGGCCATGAAAACCCTTGAGGCGCAGCGCATCCTCAGCGTCGAGCGCGGGCGCGGCACTTTTGTGAACCCGCTCAACCGCTGGGCGTCGCTCGAGGCAGTGCTGCGTGCGGCCTCCGAAGGGAAAAATGAGGCTGACGCCTCCGTGCAGCTCATCGAATTGCGCCGGATGCTGGAGACGGGAGCCTGCGAGCTGGCCGCCGGCCGGATTGGGGACGCAGACGTTGAGGCGCTCTACAAGTGCGTGGCCGCAATGCGCGCGGCCAACGAAGTCAACGACCTCCCCGCGTTTGTGGAAGCCGACCTCGCCTTCCACGACCTGATCCTGCACGCGTCCGAGAATGTTTTTGTGGCGGTACTCTTCGAACCGCTGCACCGCGTGCTCGCCAAGCGCCGGGCCGAAACGTCGGCAGTGCCGGAGATCCAGGTCCACGCCATCGCGCACCACCAGAACATCGCTGAAGCCCTGGAATCCAGGGACCCCTCACGTTCCCGGCAAGCCATGGATGACCACATGCAGCAGACCCTCGACGACCTCAAGAACCTGGTGCTGGGTGCGCCCAAGGTCTAA	MARKSLVGVVADELLDRIIAGEFPPGASVPGELELSAKHEVSRMTVREAMKTLEAQRILSVERGRGTFVNPLNRWASLEAVLRAASEGKNEADASVQLIELRRMLETGACELAAGRIGDADVEALYKCVAAMRAANEVNDLPAFVEADLAFHDLILHASENVFVAVLFEPLHRVLAKRRAETSAVPEIQVHAIAHHQNIAEALESRDPSRSRQAMDDHMQQTLDDLKNLVLGAPKV	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
D1-29_00458	1482			hypothetical protein	GTGAAGCTTGAAGCAGACGTCTTGGCCGCCTTTCCGGCCGAGGTCCGGATCCCAGCCAGGCTGGTTGCCGAAACCCTCGCCGCGTCCAATGCAGAAACTCCCAGCATCCTGGTAGTGCTCGACGACGACCCCACAGGAACGCAGTCCGTTGCGGATCTTCCTGTGCTGACCAGCTGGGATGTGGAGGACTTCACCTGGGCCTTTGCCCAGGCCAAGCCGGCCGTTTACGTCTTGACGAACACCCGGAGCCTGGACCCGGCACAGGCGGCTGCCAGGAACGCCGAGATAGTCCGCAACGCGCTGGCCGCCGCCGCGGATGACGCGCTCCGGCTCCGCTTTGTCAGCCGCAGCGATTCCACCCTCCGCGGCCACTACCCGCTTGAGCCGGACGTCATCGCGGCCACCGTCGCCGAGGTGAGCGGTGAAGACACCGACGGTGTGGTGCTGGTTCCCGCTTTTCCCGACGCCGGCCGCGTCACCATCGGCGGCGTGCACTACATGCGCGGAACAGGGGAGGACGCCGGCCTTCTCACGCCGGTATCGGAGACTGAATTCGCCAGGGACGCAAGCTTCGGCTTCGCCAACTCCGAGATGGCCAAGTATGTGGAGGAGAAGTCAAAGGGCCGCTTCGCAGCCGAATCCGTGATTGTCCTGGATCTCACCACCATCCGTGCCTCGGAAGACCCGCAGGTCACCGCCGCAGCCATCGCCGATGCCATTGCGCCAGCCACCCACTCCACGCCCATCGTCGCGGACATCGTTACCGAGAACGATCTTCGCTCCCTGTCCCTGGGCCTGGAAGAGGCTGAACGGCGCGGCAAGAAGCTGCTGTACCGCGTAGGCCCTCCGTTTGTCCGTGCCCGCATTGGCCAGGAGATCCGCACCGAACTCAGCGGGGCCGAAGCCTACGCCGGAAACACGCCCTCGGTGGCGGGCGGCCTGATCGTCGTCGGTTCGCACGTGGGTGTCACCACACGTCAGCTCAAGGCCCTCACGGACCAGCACAGCGCCGCGCGGATCGTGGAAATCGATGCCGAGAAACTGCTTGCCGCCGAAACCGAAACAGGCAGCGCAGCTTCCTACCTGGACGAAACAGTGGACACGGTAGTGGACGCGCTCCACGACGGCGACGTCATCGTCCATACCAGCCGCCTGCTCATCAAGACCGATGACCCAGCCGAAAGCCTGCGGATCGCACGCACGGTGTCCGCCGCCGTCGTCGCCGTGGTGAACGGGACACTGAAGACCTTTCCGCCGCGTTTTGTCATTGCCAAGGGCGGCATCACCTCCTCGGACGTTGCCGCACACGGGCTCGAAATCAGGCACGCGATCGTCCGGGGGCCCATGCTTCCGGGCATCGTCTCGCTCTGGGAGCCGGTGGACGGTCCCGCGAAGGGCATTCCGTACATCGTGTTCGCGGGCAACGTAGGGGACGACGACTCCCTGGCCCAGGTCACCCGCAAGCTCAGCAACACCTTCTAG	MKLEADVLAAFPAEVRIPARLVAETLAASNAETPSILVVLDDDPTGTQSVADLPVLTSWDVEDFTWAFAQAKPAVYVLTNTRSLDPAQAAARNAEIVRNALAAAADDALRLRFVSRSDSTLRGHYPLEPDVIAATVAEVSGEDTDGVVLVPAFPDAGRVTIGGVHYMRGTGEDAGLLTPVSETEFARDASFGFANSEMAKYVEEKSKGRFAAESVIVLDLTTIRASEDPQVTAAAIADAIAPATHSTPIVADIVTENDLRSLSLGLEEAERRGKKLLYRVGPPFVRARIGQEIRTELSGAEAYAGNTPSVAGGLIVVGSHVGVTTRQLKALTDQHSAARIVEIDAEKLLAAETETGSAASYLDETVDTVVDALHDGDVIVHTSRLLIKTDDPAESLRIARTVSAAVVAVVNGTLKTFPPRFVIAKGGITSSDVAAHGLEIRHAIVRGPMLPGIVSLWEPVDGPAKGIPYIVFAGNVGDDDSLAQVTRKLSNTF				NA	NA	NA	NA	NA
D1-29_00459	900	ltnD	COG2084	L-threonate dehydrogenase	ATGTCTGCAAACTACAAAGTCACAGTTCTAGGCCTTGGTGCCATGGGCCTGCCCATGGCCACGCGCCTGGCAAGCCAGCTCACCGTCCACGGCTTCGACATTGCCGAGCCGCGCCTGGCGCTCGCCGAAGAAGCCGGAATCCACACGTTCGGCTCCGCCCGCGAAGCTTCCAAAGGCGCCAACGCCCTGCTGCTCGCGGTCCGCAACGGCGAACAGCTCAACGATGTCCTCTTCGGCGAAAACGGCGTGGCCTCCGTGCTCGAGCCGGGCGCCGTGGTGATCCTCGGCAGCACAGTAGGCACGGAAGCCATTCCAGCCACCGTAGACCGCCTGGCCGAATACGGCGTCGAGCTTGTTGACGCGCCCCTGTCCGGCGGGCCCAAGCGCGCCGGCGAAGGCGACCTGCTGATCGTCGTGGGCGCCTCGCCCGAAGCCCAGGAAAAGGCCCGGCCCGTGCTGGAACTGCTGGCCTCTACCCTGACCATCGTGGGCGACAAGCCCGGCGACGGCCAGGCGCTCAAGACCGTCAACCAGCTCCTGTGCGGCATCCACATCGCCGCCGCCGCAGAAGCGATGGCCCTTGCCGACGCGCTCGGCCTTGACCAGGCCAAGACCCTCGCCGCCCTGGAAGCCGGCGCGGCCGGGTCCTTTATGCTCTCCAACCGCGGCCCCCGCATCCTGGAGGCTTACACGGAGGACGGCGCCGAAGTCCTCAGCCGCCTGGACATCTTCGTCAAGGACATGGGCATCGTGGGCAAGGCCACCCGCGCCGCCGGACTGGCAGCCCCCGTTGCCGCCGCGGCAGAACAGCTCTACCTCCTCGGCCAGGCCCAGGGCCTCGCCGCAGCCGACGACTCCGCCGTCATCAAGGTTGTAGCGCCCACAAAGCGCACCTCCTAA	MSANYKVTVLGLGAMGLPMATRLASQLTVHGFDIAEPRLALAEEAGIHTFGSAREASKGANALLLAVRNGEQLNDVLFGENGVASVLEPGAVVILGSTVGTEAIPATVDRLAEYGVELVDAPLSGGPKRAGEGDLLIVVGASPEAQEKARPVLELLASTLTIVGDKPGDGQALKTVNQLLCGIHIAAAAEAMALADALGLDQAKTLAALEAGAAGSFMLSNRGPRILEAYTEDGAEVLSRLDIFVKDMGIVGKATRAAGLAAPVAAAAEQLYLLGQAQGLAAADDSAVIKVVAPTKRTS	PGPT0018135_511	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
D1-29_00460	1419	ygbN_1	COG2610	Inner membrane permease YgbN	ATGAGCGCACTAGCTCTTTTGGCCATAGCAGCCGCAGGCGTCGCCCTGCTGCTCGTAGCCGTTATAAAGTTCAAGATCCCAGCCTTCCTCGCACTGCTTGTCGTCAGCGTGTCCGTGGCGCTGGTGGCGGGCATTCCGCTGCCGGACATCATCAAGACAGTCACGGAAGGAATGGGCGGAACCCTTGGATCCGTCGCCATCCTGGTGGGCCTGGGCGCCATGCTGGGAAAGATGATCGAAATTTCCGGCGGCGCCCAGTCGCTCGCCGGAAAGTTCACCCAGCTGCTGGGGCCGCGACGTGTAATAGCAGCCCTCACCGCCGCAGCCTTCCTGCTGGCCATCCCGGTGTTCTTCGACGTCGGATTCATCATCCTGATCCCCATCATCTACGGCTTCTCCAAGGCTGCAGGAGTGAACCCCGTCAAGATCGGCCTTCCCGTAGGTGCCATCATGCTGGCCATTCACGTGGTTGTTCCGCCTCACCCGGGTGTTGTAGGCGGCGCCGGTATCCTCGGCGCCGACATCGGCTGGACTACCATCCTGGGCCTCGCGCTCTGCATCCCTGTCGGCGTCCTGGGCTACTTCGTTGCCCGCAAGCTCAACCGCCGCGAATTCACCATGCTGCCTGCCACTGCCGAGCAGTTCCGCCTCTTTGGTTCCGGAACTTCCCAGGTGGAGCAGGAATCCGGCCAGGGCACCTCCAACATTGCAGTCAAGACCGAGGTCAAGACCGCACCAAGCCCGGCCATGATCATCACGCTGATCGTTCTCCCCATCCTTATGATCATGGTGGGCACCGTTGGCGCAGTTATCCTGCCCAAGGACTCGGTTCCTGCCCAGATCGCCGCCTTCGTGGGAGCTCCGCTGATTGCACTCCTGACGGCCCTTGGCCTGGCGTACTACTTCCTGGGCATCCGCCGCGGCTGGTCCTCCCAGCACACCGGTGAAGTCATGGACTCGGCCCTTGCCCCCACCGCAATCGTCATCCTGGTAACCGGCGCCGGCGGCGTCTTCGGCAAGGTGCTCACCGTATCCGGCATTGGCAAGGCCCTCGCCGAAGGCCTGCAGACAGCCGGCCTTCCCGTCATCTTGATGGCCTTTATCCTTGCTGCGATCCTCCGTGCTTCACAGGGCTCTGCCACAGTGGCCATCATCACCACGTCCGGACTGCTGGCCGCCTCGGTGGCCGACGGCGGCTTCTCACCGTTGCAGACGGCCCTCATCCTGATTGCCATCGGCTTTGGCGCCTTTGGCCTCAGCCATGTGAACGACTCCGGCTTCTGGATCGTGACCCGTTATCTGGGGCTTTCGGTGGCGGACGGCCTCCGGACCTGGACCGTCCTCACAACCCTTCTCGGTCTGGCGGGCTTCGCCCTGACATTCCTGGTCTGGATTCTCGTGGGAGGCCTGGGCATCTAA	MSALALLAIAAAGVALLLVAVIKFKIPAFLALLVVSVSVALVAGIPLPDIIKTVTEGMGGTLGSVAILVGLGAMLGKMIEISGGAQSLAGKFTQLLGPRRVIAALTAAAFLLAIPVFFDVGFIILIPIIYGFSKAAGVNPVKIGLPVGAIMLAIHVVVPPHPGVVGGAGILGADIGWTTILGLALCIPVGVLGYFVARKLNRREFTMLPATAEQFRLFGSGTSQVEQESGQGTSNIAVKTEVKTAPSPAMIITLIVLPILMIMVGTVGAVILPKDSVPAQIAAFVGAPLIALLTALGLAYYFLGIRRGWSSQHTGEVMDSALAPTAIVILVTGAGGVFGKVLTVSGIGKALAEGLQTAGLPVILMAFILAAILRASQGSATVAIITTSGLLAASVADGGFSPLQTALILIAIGFGAFGLSHVNDSGFWIVTRYLGLSVADGLRTWTVLTTLLGLAGFALTFLVWILVGGLGI	PGPT0001340_427	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
D1-29_00461	864	gatY		D-tagatose-1,6-bisphosphate aldolase subunit GatY	ATGCGGACCCGACTTGACCACCTGGTCACCTCCACGCTGCAGCAGGGCTCTGCAGTTCCGGCCTTCACATGCTACGACTTCACCACTGCCATGGCTGTGGTGGGCGCGGCGGAGGAAGCCGGCCAGGGCGTCATCCTGCTGGTGGCACCCAAGACGGCCGCAACCGCCAACGGCCTGCGCCTGATCTCGGCCCTTCGCGGCCTCGCTGACAGCGCCTCGGTGCCGGTGTCCGTGCAGCTTGACCATGCATCGGATCTGGATATGATGATCGACGCCGTCGCCGCGGGGGCGGACTCAGTCCTCGCGGACGGCTCGTCCTTTCCGTACGAGGACAACATCGCCCTGGTCCAGGCGGCGCGGAGGGCGCTGGAAGCGCAAGGCCATGCCGGCGTCGTTCTTGAAGCGGAACTGGGTGGACTGGCCGGTGACGAGGACCGCGCGTTTGGGGCGGACCAGGCCGGCGTCGCCGTGGCTGGCCTGACTGATTCCGCCCAGGTGGATGACTTTGTTGGCCGGACCGGCGCCGACCTGCTGGCAGTAGCCGTAGGCAACGTGCACGGCAAGTACAAGGGGGAGCCGCAGCTGCGCTGGGATGTGCTCCAGGACATCGCCGTACGGACGCACATTCCGCTGGTGCTGCACGGCGCATCCGGCATCCCGGCCGATGAACTGGTCAAAGCTGCGGCCATGAACGTGGGCAAGGTCAATTTCAATACGCAACTGCGCACCGGGGTCCTTTCCACGCTTCAGCAGCACCTTCCCGGACACCGCGCCGATGGCGAAAACCTCCAGGGCCTGCTGGGGCATTGGAACAGCTCGGCGCGGGAGTTCGCCACGGCCGCGCTGGGCATGCTCACGCGCTGA	MRTRLDHLVTSTLQQGSAVPAFTCYDFTTAMAVVGAAEEAGQGVILLVAPKTAATANGLRLISALRGLADSASVPVSVQLDHASDLDMMIDAVAAGADSVLADGSSFPYEDNIALVQAARRALEAQGHAGVVLEAELGGLAGDEDRAFGADQAGVAVAGLTDSAQVDDFVGRTGADLLAVAVGNVHGKYKGEPQLRWDVLQDIAVRTHIPLVLHGASGIPADELVKAAAMNVGKVNFNTQLRTGVLSTLQQHLPGHRADGENLQGLLGHWNSSAREFATAALGMLTR	PGPT0017920_433	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
D1-29_00462	264			hypothetical protein	ATGATCCTGGCCTCCCTTCTTTTTGCCTTCATCGCAGCTGCCCTCCACGTGTACATCTTCACCATGGAGTCTCTGACCTGGACCACGCCCGCTACCTGGAAGCGATTCGGCCTGGCTTCCCAGGCCGACGCTGAGACCACCAAGTCCCTGGCCTATAACCAGGGTTTCTACAACCTGTTCCTCGCCATCGGAGCGTTATCGGTGTCGGCTGCGTGGCGTTGGCGTCCCAGGGCTCAGCCCAGGCGGTGGTGGGCTGGACGCTGA	MILASLLFAFIAAALHVYIFTMESLTWTTPATWKRFGLASQADAETTKSLAYNQGFYNLFLAIGALSVSAAWRWRPRAQPRRWWAGR				NA	NA	NA	NA	NA
D1-29_00463	192			hypothetical protein	GTGGCGTTGGCGTCCCAGGGCTCAGCCCAGGCGGTGGTGGGCTGGACGCTGATCTTCAGCTGCTGCGGTTCCATGCTGCTCGCTGCGCTGGTGCTCGCCTTGAGCGGGAAGAAGAACCTCAGGCCTGCCACCATCCAGGGCACCACACCGCTGCTGGCCGTTGTCCTCGGGATCCTTGCGGTATCCCTCTAA	MALASQGSAQAVVGWTLIFSCCGSMLLAALVLALSGKKNLRPATIQGTTPLLAVVLGILAVSL				NA	NA	NA	NA	NA
D1-29_00464	1434			hypothetical protein	GTGAGTGGAGTGAAGGGGCAGGGGCCAGTTTCCGGGCGCGAGCCGGTCAAAGGCGGCGAGCCGGCCACAGAGGGCGGGCCGGTGGCCGAGCGTGACCTGGTCATTGACCTGGTCCGCTTCTTCTGCCTGGCCCTGGTGGTGGTGGCACACTGCATGATGGTGAGCCCGGTCCTGCACCCGGACGGCACTGTGACCACGGAAAACACCCTCACCGAGCAGAACTGGTTTCAGCCGGTCACCTGGATCTTTATGGTGATGCCGCTGTTCTTCGTCACGGGCGGGACCACAGGCCTCCAGTCCTGGCGGAGGCTGAAATTCCGCGGAGGCACGGGCTTTGACTTTGCCCAGGCGCGGCTCCTGCGGCTGGTCCGCCCGGCGGCGGCACTCCTGGCAGCCATGTTCCTGGGACTGTGGGCCGCATTGCTCCTTGGTGTGGACCCGCAAGTGGTTCAACTCATGGCCACGGGCGCCGGAATGCCGCTCTGGTTCCTGGCCGCCTACCTTGCCGCGCAGCTGAACATTCCGCTGCTGGCCGGGTTCCATGCCCGCGCCCCCTGGCTAACCCTTGGTGTCCTTGCCGCCCTGGTGGTGGCCGTGGACTGCCTCCGTGGAGCCCTTCCGTTGCTCGCCTATGCGAACCTCGTTTTCCTCTGGTGCACGGTGCAGCAGCTGGGCTTCCTCATGGCTGACGGCGTTTTCGCCAGGATATCCCGCTCCGGGCTGGTGGGCCTGATCCTGGCAGCCAACCTCCTGCTCGGACTGCTGGCCGGGCTGGGCCTGTACTCCGGGGACATGCTGGTCAACCTGAACCCGCCCAACCTGTGCCTGCTGCTGCTGGGCGTATCCCAGGCGGCTGCGCTGGAGCTGTTCAGGCCGGGGCTCGATTGGCTTTCCCGGCTGGGGTGGCTGCGAACTGTCGTGGCTGTGGCGGGGCGGCGTTCCATGACCGTTTACCTGTGGCACCTGCCCCTGCTCGTGGCCATGTCCGGAATACTGCTCCTGACAGACTTTCCCAAACCTGCGGCCGGCACTGCGGCATGGTGGTGGGCGCGGCCCTTGGTGCTGCTGGGCGTGGTGGGCCTCCTGCTTCCGGTGCTGGCCGTTTTCGGCCGCCTTGAGGAACGTCCGACGGCGTCTGTCCACAGCCGCAGACGGCCCCCGGCCGCAGTGGTGACTGCCGCCGTCGTGGTCTTCATCCCCGTGGCGGACGCCGCCTTCAATGGCCTGACGCTTGGCCTGCTGGGAGGCGGGGCGGCGTGCTTTATTTTGGCCGCACTACTCCTGGGGCGGGTTCCGGAACGCGTGCCTGGCGGGAGTGCAGCGGCGCCAGCTAAGCAGGACGGTCAGCGCGGTACAGGAGCCGGGGGAGGTACGGCAGCCTCAAACGGTGGGGCATTGCCAGCGGGGCCAAGTAGTGCCAATGTCGAACCATGA	MSGVKGQGPVSGREPVKGGEPATEGGPVAERDLVIDLVRFFCLALVVVAHCMMVSPVLHPDGTVTTENTLTEQNWFQPVTWIFMVMPLFFVTGGTTGLQSWRRLKFRGGTGFDFAQARLLRLVRPAAALLAAMFLGLWAALLLGVDPQVVQLMATGAGMPLWFLAAYLAAQLNIPLLAGFHARAPWLTLGVLAALVVAVDCLRGALPLLAYANLVFLWCTVQQLGFLMADGVFARISRSGLVGLILAANLLLGLLAGLGLYSGDMLVNLNPPNLCLLLLGVSQAAALELFRPGLDWLSRLGWLRTVVAVAGRRSMTVYLWHLPLLVAMSGILLLTDFPKPAAGTAAWWWARPLVLLGVVGLLLPVLAVFGRLEERPTASVHSRRRPPAAVVTAAVVVFIPVADAAFNGLTLGLLGGGAACFILAALLLGRVPERVPGGSAAAPAKQDGQRGTGAGGGTAASNGGALPAGPSSANVEP				NA	NA	NA	NA	NA
D1-29_00465	330			hypothetical protein	ATGACTGAGAACATGATTTCCACGGAGGACGAATTCCGTCCTGACGTCTCTATGGCCAGGAACGATGCGCAGCACTGTTACCAGCTGCAGGCGGGCGGGAAGATCGCCGTTCAGTCCTTCTTCCTGGACAAGCCCGGACACGTGGATTTCACCCACGTGGAAACCGCCGAAGGTTTCCAGGGACAGGGGTTGGACAAAGTGCTGGTCCATTTTGCGCTGGACGATGTGGTCGCAGCAGGAAAGCGGATCATTCCCCGCGACCCCTTTATTGCCGAGTACCTGCGCCGCCATGAAGGCTACGAACAGCATGTGGACTGGCCTGAGGGGTAG	MTENMISTEDEFRPDVSMARNDAQHCYQLQAGGKIAVQSFFLDKPGHVDFTHVETAEGFQGQGLDKVLVHFALDDVVAAGKRIIPRDPFIAEYLRRHEGYEQHVDWPEG				NA	NA	NA	NA	NA
D1-29_00466	753			hypothetical protein	ATGGACAACTCATCGATTGACACCTCAGTTCGTTCCGAGGCCGCTGTCACGGCGCAGCTTCAGAACCTGGTCATCGACAGCCGTGACGTCAACGAGTTCCTCCATGAACTGTGCGACTATGCGGCCCGTGCCGTCTCAAGTTCCCTGGAGCTTCCGGTGGTGTGCGCTGTCACCCTGAGCCGGCGCCGCCGGACCACCACTGCCGCCTGGAGCGACCAGCAGGCCCGTGTTATGGACGAGATCCAGCAGAACTACGGCGCAGGGCCCTGCCTTCATGCGATGAATACCGGAACCACTGTGCTGGTCCCCGATACCCGCAACGACTCTCGCTGGCCGGAATACAGCCAGGCCATTGCGGAGCTTGGCCAGCTGAGCGTTCTTGCCGTTCCCCTTATCTTGGATGAGGATGCCCGCGCCGCCCTCAACATCTTTGCCCCCGCAGTGAACGCGTTCAATTCTTCTGCTTTGGAAAGTGCAGAACTGTTCGCCTCGCAGGCGCAAAGCGCGCTGCGCCTCGCTGTCCGGGTGGCTACCGGCCAGCAGTTGGCGGCAGATCTTAAGGCGGCGATGGAATCGCGGACCGCCATTGACCTGGCCGCCGGAATCATTATGGGGCAAAACCACTGCTCGCAGGAGGAAGCAATGGCCATCCTGGTCAAGACGTCCAGCGGCAGGAACCAAAAGCTGCGGACCGTTGCCGAGAACCTGGTTGCGGCAATTTCCACCCGAGGGCCCGTCACGCACTTTGACTGA	MDNSSIDTSVRSEAAVTAQLQNLVIDSRDVNEFLHELCDYAARAVSSSLELPVVCAVTLSRRRRTTTAAWSDQQARVMDEIQQNYGAGPCLHAMNTGTTVLVPDTRNDSRWPEYSQAIAELGQLSVLAVPLILDEDARAALNIFAPAVNAFNSSALESAELFASQAQSALRLAVRVATGQQLAADLKAAMESRTAIDLAAGIIMGQNHCSQEEAMAILVKTSSGRNQKLRTVAENLVAAISTRGPVTHFD				NA	NA	NA	NA	NA
D1-29_00467	540			hypothetical protein	GTGAGCCACAAACTTTCCCACCACAAGCTGCGCGTAGTTGTCCACGTTGACCTTGATCCGGGACACATCACGGTAGAGGTTGGCGGATGCCTGACACACTCGAACTTTCCGGCCTTGCTGCACCTTCTGCTCCGGGCCCAGCGCCTGTCTTTCAGCCCTAACATCGCGCTGAACCTGCGGCGTGCCATTCACTTGGATGCGGGCGTCCTTGCCCATCTTCGTCACATCGCGTCTCCGGGCTCCCATGGTGCCGGCCAGCATGCGGCAATCCACCACGAAATGGGGATGGCGGCAGCGGCGGCGCTGGAGGAAGCTGACGATTTCCATCTGACCATCATGGAACCCGTGTACCTGCCGGTATGCCCGATCCATTCGGCAAAGGAGTTGGCGGAAGCGCGCCTGGATGTGGCCCAGGCAGCCCTAGTGGAGCACCCGAACCAGCCCACAGACCCGGCCCATCCCGTGCGGCCAAGCCGGTCCGCCAGCGCCAAGCGCATCCAGCGGGAACGGTCACTTAAGGCCCACAAGGTTCACTTTTAG	MSHKLSHHKLRVVVHVDLDPGHITVEVGGCLTHSNFPALLHLLLRAQRLSFSPNIALNLRRAIHLDAGVLAHLRHIASPGSHGAGQHAAIHHEMGMAAAAALEEADDFHLTIMEPVYLPVCPIHSAKELAEARLDVAQAALVEHPNQPTDPAHPVRPSRSASAKRIQRERSLKAHKVHF				NA	NA	NA	NA	NA
D1-29_00468	354			hypothetical protein	GTGGAGCAGACAGAGGCCAACAGCATCCGATTCCGTGAAGTGGACAAGGACGGGCGGCCCGTCGACCCGGAAACTGCCGGCGGCACCGGGGCCGGGGCGTCAGCACCAGGCAGTCAGGCGGGCAACTTCCGCGTCAATCCGTTCATCGTCATTCTCTGGATCCTGGCCTTAGGACTGAACGCCGGGTCGGTCTGGGCCTATGCCAACGCCTTTTCAAACGTGGGTCCCGTCTCCGATACCACAGGGCCCCAACTGGCCTTCTTCCTGATGAGTTTTGCGCCCCTGGCCGGAACGCTGACCGTCATCTGCCTGCTGTTCTGGCATGCGGTCCAATGGCAGCGTCGGAGTCGGTAA	MEQTEANSIRFREVDKDGRPVDPETAGGTGAGASAPGSQAGNFRVNPFIVILWILALGLNAGSVWAYANAFSNVGPVSDTTGPQLAFFLMSFAPLAGTLTVICLLFWHAVQWQRRSR				NA	NA	NA	NA	NA
D1-29_00469	1650	ddc	COG0076	L-2,4-diaminobutyrate decarboxylase	GTGCCGCTGCTGCCCCGTGTTGAAGAGATGTATGTGGATGAAGGCCGTGCCGGCGGAGCCGCGCCGGGGCAGGACTTTGCGTCGCGGGTGGAACTCGCCCTGGCCGCCACCAACCATCTGTTCAACGCCCGCAACTCGCCGCGTTACGTGGCGCAGGTGCTGCAGGGTGTCAACGCGGTGGCCACCAAACTGGACAGGACCACGCAGCCGTTCACCGGCGTCGGGCCCTCGGAAATGAAGGCGCGCATCGGCGCGGTGGATCTTGACCGGCCGTTGCCTGATACCGCTGCCGCCCTGGAGGAGCTCGAGTCCGTCTACCTGCGCGACGCCATCTACTTCCACGATGCCAAGTACGCAGCCCACCTGAACTGCCCCGTGGTGATCCCGGCGCTGGTGGGGGAGGCCATCCTCTCGGCAGTGAACTCCTCGATGGATACCTGGGACCAGAGCGCCGGTGCCACCATGATCGAGCGCCGGCTCATCGACTGGACCGCCGAGCGGCTGCAGCTGGGGACTGCAGCCGACGGCGTGTTCACCTCCGGCGGCAGCCAGTCCAACCTGCAGGCCCTGCTGATCGCCCGCAACCACGCCGTGGCGGGGCTGCGCCAGGAACCCGCCAACACGGGCCTGCGGCTGCCCGCACTGCTGGACAGGCTGCGCATCTTCACTTCGGAAGACAGCCACTTCAGCATCCAGAAATCAGCCTCCATGCTGGGGATGGGGTTCGACGCCGTGATCTCCGTCCGCTGTGCACCTGACCATCGGATGGACCCCGCCGCCCTCGCTGAGGCCATGGCCGAAGCGCACGACGCCGGGCTGGTGCCGATGGCGGTGGTGGCCACCGCCGGGACCACTGACTTTGGGGCCGTGGACCCGCTGCCTGAGCTTTCGGCCCTGGCCCGCGCCTACGGCGCGTGGCTTCACATCGATGCTGCGTACGGCGGTGGGCTGATGGTGTCGGGCCGCTACCGGCACCTGCTGGACGGAACCCGGCTGGCCGATTCCGTCACCGTGGACTTCCATAAGACCTTCTTCCAGCCGGTCAGCTCCAGCGCCCTGCTGGTCCGCGACCGCGCCATGCTGCGTCACATCACCTATTACGCGGACTACCTGAACCCCGAGAGTGCCGCCCTCGCAGAGATTCCCAACCAGGTGGACAAGAGCATCCAGACCACCCGGCGCTTCGACGCGCTCAAACTCTGGCTCACCCTGCGCATCATGGGTGCAGACGCCATCGGTGCGCTCTTTGATGAGGCGATAGACCTGGCCGCCCGCGTAGGGTCACTTCTCGCCGCCGACGACGACTTCGAGCTGGCCGCAGAGCCCCAGCTGAGCACCCTGGTGTTCCGGTACCGGCCACGGATTGATACCGCAAACGGCAGCCAGCTGATCTCGGAGCATGCCTCGGATGTCCTTAATCCGGCCATCCGCGCGGCGGTTTTCGCCTCCGGAAAGGCCGTTGTGGCCGGCACCAAAGTGGCAGGACGGCACTACCTGAAGTTCACGCTGCTCAATGCTGAAGCAACCCTGGAGGATATTAGCCAGATCATCAGCCTCCTGCGCAGCACGGGCACCGGGCTCCTGCAGGACGGGCTCCTGCAGGACGGACTCCTTCAGGACGGGCTGCTCCAGGACGAGGTGTCCGCATGA	MPLLPRVEEMYVDEGRAGGAAPGQDFASRVELALAATNHLFNARNSPRYVAQVLQGVNAVATKLDRTTQPFTGVGPSEMKARIGAVDLDRPLPDTAAALEELESVYLRDAIYFHDAKYAAHLNCPVVIPALVGEAILSAVNSSMDTWDQSAGATMIERRLIDWTAERLQLGTAADGVFTSGGSQSNLQALLIARNHAVAGLRQEPANTGLRLPALLDRLRIFTSEDSHFSIQKSASMLGMGFDAVISVRCAPDHRMDPAALAEAMAEAHDAGLVPMAVVATAGTTDFGAVDPLPELSALARAYGAWLHIDAAYGGGLMVSGRYRHLLDGTRLADSVTVDFHKTFFQPVSSSALLVRDRAMLRHITYYADYLNPESAALAEIPNQVDKSIQTTRRFDALKLWLTLRIMGADAIGALFDEAIDLAARVGSLLAADDDFELAAEPQLSTLVFRYRPRIDTANGSQLISEHASDVLNPAIRAAVFASGKAVVAGTKVAGRHYLKFTLLNAEATLEDISQIISLLRSTGTGLLQDGLLQDGLLQDGLLQDEVSA	PGPT0013725_19	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-1|3-DIAMINOPROPANE_BIOSYNTHESIS,PGPT0013725-ddc|dfoJ|desA-K13745	NA	NA
D1-29_00470	1359	iucD	COG3486	L-lysine N6-monooxygenase	ATGAGCCGCATTTACGACTTCGCCGGCATCGGTGTTGGCCCCTTCAACCTTGGCCTGGCCGCGCTCAGCGAACCTGTGGAGGGCCTGGACGGTGTGTTCCTGGAGCGCCGCGAGTCCTTCGACTGGCACCCGGGCATGATGCTGGAGCCGGCCCACCTGCAGGTCCCGTTTATGGCGGACCTGGTGACGCTCGCCGATCCCACATCGCCCTACTCTTTCCTGAACTTCCTCAAGCAGACCGGGCGGCTCTACCGGTTCTACATCCGCGAGAACTTCTACCCGCTGCGCGCTGAATATAACCAGTACTGCCAGTGGGTAGCCGGTCAGCTGCCGTCCATACGTTTTAACACAGCCGTGCTTGATGTGACCTACAGCGATGGCGTGTACCGCCTGGCGGTGGAGGGACCGGACGGGGCAGAGGTGCTGTTGGCCCGCCGCCTGGTGCTGGGCACCGGTACGGCCCCGTATGTGCCGGCGGCTTGCGACGCAATAGTGGAAGCGGCTGCCGGCGGCGGTGGAGGACTGGTCCTCCACAACGCCGACTACCTGTCGAGGAAGAGCGAACTGGAGGCCAAGCGCAGCATCACCATTGTGGGCAGCGGCCAGAGCGCGGCGGAGATCTACTACGAGCTTCTTCAGGAGATCGATGTCCACGGCTACCAGCTGAACTGGGTCACCCGTTCGGGCAGGTTCTTCCCGCTGGAGTACACCAAGCTGACGCTGGAAATGACGTCCCCCGAGTACGTGGACTATTTCCACCGGCTGCCCCAGGACCAGCGCGATGGCCTGATCAAGAGCCAAAAGAACCTCTACAAGGGGATCAACTCTGAGCTCATCGACGCGATCTACGACCTCCTGTACACCAAGAGCCTTTCCGGCATGGTGGACACCCGCCTGCTGACGCACTCCTCCCTGACCAGCGCCGCCTGGGACCCCGCCGCACGCTCCCACAGCCTGGAGCTGCACCACGAGGAACAGGGCGCGTCCTACGCCCTGGAGAGCGAGGCTGTAGTCCTGGCAACCGGGTACACCTACCGCGAGCCCGGTTTCCTTGCCGGTGTGCAGGACAGAATCGCACGGGACTCCGCCGGCCGGTTCGCCGTGAGCCGCAACTACAGCACCGGCGTCGAACCCGGGGAGATCTTTGTGCAGAACGCTGAGCTGCATACCCACGGCTTTGTCACCCCGGACCTGGGCATGGGCGCCTACCGCAACTCCTGCATCCTCCGCGAAATAACGGGCCGTGAGGTCTACCCGGTGGAGCGCAGCATCGCCTTCCAGGAGTTCGGCGTGCCGGCTACAGGTCCGGTTGAGGGTGTCCGACGTCCGGCTGCCGACGATGCTGTGGTGCCGGCATGA	MSRIYDFAGIGVGPFNLGLAALSEPVEGLDGVFLERRESFDWHPGMMLEPAHLQVPFMADLVTLADPTSPYSFLNFLKQTGRLYRFYIRENFYPLRAEYNQYCQWVAGQLPSIRFNTAVLDVTYSDGVYRLAVEGPDGAEVLLARRLVLGTGTAPYVPAACDAIVEAAAGGGGGLVLHNADYLSRKSELEAKRSITIVGSGQSAAEIYYELLQEIDVHGYQLNWVTRSGRFFPLEYTKLTLEMTSPEYVDYFHRLPQDQRDGLIKSQKNLYKGINSELIDAIYDLLYTKSLSGMVDTRLLTHSSLTSAAWDPAARSHSLELHHEEQGASYALESEAVVLATGYTYREPGFLAGVQDRIARDSAGRFAVSRNYSTGVEPGEIFVQNAELHTHGFVTPDLGMGAYRNSCILREITGREVYPVERSIAFQEFGVPATGPVEGVRRPAADDAVVPA	PGPT0031170_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BISUCABERIN__BIOSYNTHESIS,PGPT0031170-bsbB-NA	NA	NA
D1-29_00471	579	iucB_1		N(6)-hydroxylysine O-acetyltransferase	ATGAGGTTTACGTTCCGCTGCCTGGATCCCCACGCCGATGCACCACTCCTGCACAGCTGGGTGACCCAGCCCTACGCGTCGTTCTGGGGCATGTTGTCCTCCACAGTTGACGGGGTTGTGGAGGAATACTCCAAGATCCAGGCCAGTGGGCACCACCACGCCCTCTTGGGGCTCGACGGCGGTGTCCCCGCCTTCCTGATGGAGGAGTACCTGCCGTCTGCCTCGCCACTGGCCGCGGTCTACGCCGCCCAGCCCGGTGATATGGGCATGCACCTGCTGGTGGCGCCGCCGTCGGGAGGGCCTCAGCCCGGGTACACCGCGGCGGTGATGGACGCCGTCCTGGACCGGCTGTTCAACAAGCCGAGTGTGGAACGCGTGGTGGTGGAGCCCGACGCCAGGAACACCAAGATCCATGCCCTCAATGAACGGCTGGGATTTCAGCCGGCCGGGGTGGTGGACCTGCCGGACAAGCAGGCACTGCTGAGCTTCTGCTCCCATGCCGATTACCTCACCGCACGGGCTGCCCTCCAGCCGTCCGCAGACTCTTCAAACCCGATCCACCAGGGAGCATCACTGTGA	MRFTFRCLDPHADAPLLHSWVTQPYASFWGMLSSTVDGVVEEYSKIQASGHHHALLGLDGGVPAFLMEEYLPSASPLAAVYAAQPGDMGMHLLVAPPSGGPQPGYTAAVMDAVLDRLFNKPSVERVVVEPDARNTKIHALNERLGFQPAGVVDLPDKQALLSFCSHADYLTARAALQPSADSSNPIHQGASL	PGPT0031205_7	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-DESFERRIOXAMINE-BIOSYNTHESIS,PGPT0031205-desC-NA	NA	NA
D1-29_00472	1896	iucC	COG4264	Aerobactin synthase	GTGACCATCATTGCCATCGATCCAGACTTGCTCGCGGGACCCAGGGCCAACACCGCCGTCCCGCATCTCACGCCGGAGCGGTGGGCCAGAGCCAACCGCCACCTGGTGCGCAAGGCGTTGGCGGAATTCCTGCACGAAAGGATCCTCACCGCCGAACGGACGGGCAGCAACGGCCCAGACTCGCCCGAGGGGGCGGAGTCGCTCGAGGGGGTGGCGTCCTACCTGGTCAGCAGCGACGATGCTGCCAGCCAGTACTCTTTCAAAGCTCGGCTGCTTGCCCTGGACCACTGGTCCATCGACGCCGAGTCCATCCGCTGTACCCGGGACGGAAGGGAAGCAGCCCCGGATGCCCTGACCTTCATCACCGAATTCCGGAACACCCTGGGGATCCGGGAGGAGATGCTTCCGGTCTACCTCGAGGAAATCAGCAGCACGCTCGCCAGCCACGCCTACAAGCAGTGGATGGGCCAGCCGCTTGCCGGTGAGCTTGCCGCCGGAGTGACAGGGGGCAGCGATCCCGCCACAGACTTCCAGGTGATTGAGCGCAGCATGACCGAGGGTCATCCCTGCTTCGTGGCCAACAACGGCCGGCTCGGGTTCGGCATCAGCGACTACCGGGCATTTGCGCCCGAGACGGGAGCTCCCGTCCAGCTGGAGTGGATCGCCGTGCGCCGCAGCCAGGCGGTGTTTACCTCCAGCGCAGGGCTTGACTACCGGGCCCACCTGGAGGCGGAATTGGGCGGACCGCTCGTGGCCGCCTTCGACGCCAGGCTCAACGCCCAGGGCCTGGAATCCGCCCATTATTTCCTCATGCCGGTGCACCCGTGGCAGTGGGAGAACAAACTCACTGTCACCTTCGCCGCGGAGATCGCCCGCCAGTTCATAGTCCACCTGGGGTCAGGGACTGACAGCTACCAGGCGCAGCAGTCCATCCGCACGTTCTTCAATACGAGCGACCCCGCCAAGAGCTACGTCAAGACGGCGATGTCCGTGCTCAACATGGGCTTTATGCGTGGCCTTTCGCCGCAGTACATGAAGGCCACCCCGGCCATCAATGACTGGCTGCGGGACCTGATCGGCTCAGACGAGGCACTCCAGCGCCGTGGCCTGGAAATGATCAGCGAAATTGCCGCCATCGGGTACCACAACAGCTACTACGAGGCCGCTTCCGCCAAAGGATCACCGTACCGGAAGATGCTCTCCGCCCTGTGGAGGGAGAGTCCGTTGCCACTGCTCAAGGACGGCCAGCAACTGGCAACCATGGCCTCGCTCCTGCACGTTGATCGGGACGGCAAACCCCTGGTCTCAGCCCTGATGGAACGGTCCGGGCTGGCCCCTGTCGAGTGGCTGCGCCGGTACTTCGAGGTATACCTTGTCCCGCTGGTGCATTGCCTGTTCCGCTATGAGCTCGCTTTTATGCCGCACGGCGAAAACGTGATCCTGGTGCTGGAGAACGGTGTTCCCGTGCGTGCGGTCATGAAGGACATTGCCGAGGAGATTGTGGTGATGGGGGACAGGCTGGACCTTCCCGAGGAAGTGGCCCGGATCCGGGCGGACATTCCCGACGGCGAAAAGGTGCTCGCCATCTTCACGGATGTCTTCGACTGCATCTTCCGATTCCTGGCCGCCCTGCTGGTAGAGGACGGCAAACTCAGCCAGGACCAGTTCTGGGCCACCGCCGCCCAGGCCATCCGGGACTACCAGGCAGAGAACCCGGAGTTGGCCAGCCAGTTCGCACGCCATGACCTCTTCGCCCCGGACTTTGAATTGTCGTGCCTGAACCGCCTGCAGCTGCGGAACAACCAGCAGATGCTGGACCTCGCGGACCCGTCCGGCGGGCTGCAGATGGCCGGCCGGCTGGTGAATCCACTCGCCACGTACGCGCCCCAGTCCTGA	MTIIAIDPDLLAGPRANTAVPHLTPERWARANRHLVRKALAEFLHERILTAERTGSNGPDSPEGAESLEGVASYLVSSDDAASQYSFKARLLALDHWSIDAESIRCTRDGREAAPDALTFITEFRNTLGIREEMLPVYLEEISSTLASHAYKQWMGQPLAGELAAGVTGGSDPATDFQVIERSMTEGHPCFVANNGRLGFGISDYRAFAPETGAPVQLEWIAVRRSQAVFTSSAGLDYRAHLEAELGGPLVAAFDARLNAQGLESAHYFLMPVHPWQWENKLTVTFAAEIARQFIVHLGSGTDSYQAQQSIRTFFNTSDPAKSYVKTAMSVLNMGFMRGLSPQYMKATPAINDWLRDLIGSDEALQRRGLEMISEIAAIGYHNSYYEAASAKGSPYRKMLSALWRESPLPLLKDGQQLATMASLLHVDRDGKPLVSALMERSGLAPVEWLRRYFEVYLVPLVHCLFRYELAFMPHGENVILVLENGVPVRAVMKDIAEEIVVMGDRLDLPEEVARIRADIPDGEKVLAIFTDVFDCIFRFLAALLVEDGKLSQDQFWATAAQAIRDYQAENPELASQFARHDLFAPDFELSCLNRLQLRNNQQMLDLADPSGGLQMAGRLVNPLATYAPQS	PGPT0031210_6	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-DESFERRIOXAMINE-BIOSYNTHESIS,PGPT0031210-desD-NA	NA	NA
D1-29_00473	777	ucpA		Oxidoreductase UcpA	ATGACGACGCCACAGAGCACCGGAACCACCGCCCTGATCACCGGAGCCACAGCGGGGCTTGGCGCCGAGTTCGCACGTCAGCTCGGGGAGCAGGGCCACCACCTGGTGCTCGTGGCGCGGGACAGTAGGCGGCTGGCGGCCAAGGCGCACGAACTGGAAAACAACTACAGCATCGACGTTGAGGTGATTGCCGCAGACTTGACCGACGACGACGGCGTGGCTGCCGTCGTCGAACGCCTTTCCGATGACGCGCGGCCGGTGGAGGTCCTGGTGAACAACGCGGGGTTCGGGCTGCTGCGGTCCTTTGAAGAAAATGACATCGAGGATGAAAAGGCGCATCTGAAACTCCTCGTGGAAACCCCCATGGTGCTGAGCCACGCTGCGCTAAAGGGAATGCTGCGGCGCCGTTCCGGGAAGATCATTAACGTGGCCAGCGTGGCGGCCTTCCTGCCGCGGGGAACCTACTCGGCAGCGAAGGGGTGGCTGGTAGCCTTCAGCCGCTGGGCCAACCTGCAGTATTCCCTTCAGGGCGTCACGGTCACGGCAGTGTGCCCCGGGCTGACGCACACTGAGTTCCATGACCGGATGGAGATGGACAAGTCAGTGGCACCGCAGTGGATGTGGCTCAACCCAGAGCGTGTGGTCCGGGAGGGGCTGGCCGCCAGCCAGCACGGCAAGGCAGTCTGGGTCCCCTCCAAGAGGTACAGGGTCATGATGGCGGCGGCGCAGGTGCTCCCCGCCCGTCTGACAACAGGCCCGCCGCGAAGGGCGAGGTAG	MTTPQSTGTTALITGATAGLGAEFARQLGEQGHHLVLVARDSRRLAAKAHELENNYSIDVEVIAADLTDDDGVAAVVERLSDDARPVEVLVNNAGFGLLRSFEENDIEDEKAHLKLLVETPMVLSHAALKGMLRRRSGKIINVASVAAFLPRGTYSAAKGWLVAFSRWANLQYSLQGVTVTAVCPGLTHTEFHDRMEMDKSVAPQWMWLNPERVVREGLAASQHGKAVWVPSKRYRVMMAAAQVLPARLTTGPPRRAR	PGPT0030485_3480	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
D1-29_00474	1125			hypothetical protein	ATGGGTGGCATCGGCGACATGAAGCCCGTTTGGCAGCAGGTGCGCGCGCTCCACCGGTTGGAACCGGCGGACAACGACGGCCTCGCCGCATTCAGGGTTGCCATCAGCGTTGCCATTCCCTCACTCACACTCCTTTTGCTGGGCCGTCCGGATCTCATCATTTACGCAGTCTTTGGAGCCCTGACCGGGATGTACGGACGGTCCGAACCGCACCAGCTGCGGCTAAAGCACCAGGCACAGGCGGCGCTCGTGCTGCTGACAGGCGTGGCTGTGGGGGTGGTCCTTTCCGTCAACCAACTCCATTCGTGGTGGCTGGTGGGGATCGAAGCAGTGCTGGCCGGCGCAGGGTCAGTGTTCGCAGACAAGGTAAGACTCAAGCCCAACGGCCCGTTCTTCGGAATCCTGGCTTTAGGCGCCTGTGCTTCCGTCCCTCTGGCCGTCCCCTGGTATGTTGCCCTGCTGATCGCCGCCGCGTCTGCCGTTTTCTCCCTGGCCGTCGGGTTCGGAGGGTGGGTCCGTTCGCGGGCCTGGCAGCCGGGTGCGGCCGGGAACATCGCGTCGCTCCGGGCGGTGGGTGCCAGACCTGCCGTGGTCCATGCAGCGAGGTATGTCCTGGCTGTTGGTGCTGCCGGCACGCTGGGTGTCCTCAGCGGAAGTGGCCATCCCCACTGGGCCATGGCGGCCGCGGCAGTGCCGCTGGCAGGTGCGGACCTTCCCAGCAGTGTCCGCCGGGGGATCCACAGGATCGTGGGGACGTTCTTAGGATTGGTGGTCACCGCCGTCGTACTTCTTCCCCATCCCTGGCTGCCGGCTGAAATCCTGGCCGTCCATCACGTGGCGGTGCTGGCCGTCCTGGTCATCGTCTTCCAGTTCACCACGGAGCTGTTCATGGCCAGGCACTACGGACTGGCCATGGTGTCCTTCACTCCGGTGATCCTGCTGATGACGCAACTCGCAGCGCCCATCGATCCCGCGGTACTGATTCTTGAGCGCGGCGTGGAGACCTTGGTGGGCGCCCTGGTGGGGATCCTTGTAGTGCTTGCGGTGCGGCGGGCCCCTACCTCGCCCTTCGCGGCGGGCCTGTTGTCAGACGGGCGGGGAGCACCTGCGCCGCCGCCATCATGA	MGGIGDMKPVWQQVRALHRLEPADNDGLAAFRVAISVAIPSLTLLLLGRPDLIIYAVFGALTGMYGRSEPHQLRLKHQAQAALVLLTGVAVGVVLSVNQLHSWWLVGIEAVLAGAGSVFADKVRLKPNGPFFGILALGACASVPLAVPWYVALLIAAASAVFSLAVGFGGWVRSRAWQPGAAGNIASLRAVGARPAVVHAARYVLAVGAAGTLGVLSGSGHPHWAMAAAAVPLAGADLPSSVRRGIHRIVGTFLGLVVTAVVLLPHPWLPAEILAVHHVAVLAVLVIVFQFTTELFMARHYGLAMVSFTPVILLMTQLAAPIDPAVLILERGVETLVGALVGILVVLAVRRAPTSPFAAGLLSDGRGAPAPPPS				NA	NA	NA	NA	NA
D1-29_00475	1620	proP_2		Ectoine/proline transporter ProP	ATGCCCACGGACCGAAGCACGACCGACTCTTCAGCAGGCGTAGAAAACGCCGGCGGAACCGACACACTGGCAGCACCAGTCACCTCAGCGAGCGGAAGGAAACCGAAGCTCCTCGCGCGGCGACGGCTCAAAGAGTCGGACGTCAACGTGGTGAATCAGCCCATGCTGAAAAAGGCCCTCGGCGGAACCATCGTGGGAAACACCATGGAATGGTTCGACGTCGGCGTGTTCGGCTACCTGATCACCACCATGGGGCCTGTGTTCCTTCCCGAGGCGGACCCGGCAGTCCGGACGCTGTTCCTTTTGGGAACATTCGCGGCCACCTTCATTGCCCGCCCACTGGGCGGCGTGGTGTTCGGCTGGCTCGGCGACAAGATCGGGCGGCAGAAGGTACTCGCCGCAACCCTGATGATCATGGCTGCGAGCACGTTCGCCGTCGGGCTGCTGCCCGGATACGCGCAGATCGGCATCTGGGCCGCTGTTCTCCTGGTGGTCCTGAAACTTGTCCAGGGCTTCTCCACCGGCGGTGAATATGCTGGTGCCACCACGTTCGTCAGCGAATACGCCCCGGACAAGCGCCGGGGATACTTTGCGAGCTTCCTGGATATGGGCAGCTACCTTGGTTTTGCCTTGGGTGCGGCGCTGGTATCTGTCCTGCAGCTGACCCTTGGCCAGGCCGCCATGGAGGAATGGGGCTGGCGCATTCCGTTCCTGATTGCAGGTCCGTTGGGCCTGATCGCCATTTACTTCAGGAACAAGATCGAGGAATCCCCTCAGTTCCAGGCCACCCTGGACGCGCAGGAATCAATCGCGCAGGACGCCGATTCGGCTGACGTTGATGCCTCCAAGGGGCCGGTAGGCATTGTGAAGGCCTACTGGCGCTCACTCATTGTGGCGATGATCCTTGTGGCCGCGGCGAACACCGCCGGCTACGCCCTGACGTCGTACATGCCGACGTACCTCACCGAGTCCAAGGGTTACGACCCCGTCCACGGAACCCTGCTGACCATTCCCGTGCTGGTCATCATGAGCCTCTGCATTCCCCTGACCGGGAAGCTCTCAGACCGCATCGGCCGCCGTCCCGTGTTGTGGATCGGCGCCGTCAGCACCGTGGTGCTCGCAACGCCTGCGTTCATGCTGATCGGCGTCGGTGAAGTCTGGTCCACCCTGGCAGGACTTTCGCTGATCGCTTTTCCGGTGGCCTTCTACGTTGCGAACCTCGCCTCAGCTTTGCCGGCGCAGTTCCCGACCGCCAGCCGGTACGGTGCCATGGGTATCGCCTACAACTTCGCCGTGGCCATCTTCGGAGGAACCACCCCGTTCGTTGTTGCCGCGCTGATCACGGCCACCGGCGACGACATGATGCCCGCCTACTACCTGATGGCCACCTCCCTCATTGGTGCCGTGACCATTTACTTCCTCAAGGAATCGGCCAAGCGTCCGCTGCCCGGCTCCATGCCGAGCGTGGCAACCCAGGAAGAGGCACGCGAACTGGTGGCCACCCAGGATGAGAATCCGCTGATCGACCTCGATGACATGCCGTTCGAAACCCAGGACGTCATCACCGCCAACGCGGCACCTGCCGACGCCGAAGAGGATAAAGTCCCCGCTTCCGTGTAG	MPTDRSTTDSSAGVENAGGTDTLAAPVTSASGRKPKLLARRRLKESDVNVVNQPMLKKALGGTIVGNTMEWFDVGVFGYLITTMGPVFLPEADPAVRTLFLLGTFAATFIARPLGGVVFGWLGDKIGRQKVLAATLMIMAASTFAVGLLPGYAQIGIWAAVLLVVLKLVQGFSTGGEYAGATTFVSEYAPDKRRGYFASFLDMGSYLGFALGAALVSVLQLTLGQAAMEEWGWRIPFLIAGPLGLIAIYFRNKIEESPQFQATLDAQESIAQDADSADVDASKGPVGIVKAYWRSLIVAMILVAAANTAGYALTSYMPTYLTESKGYDPVHGTLLTIPVLVIMSLCIPLTGKLSDRIGRRPVLWIGAVSTVVLATPAFMLIGVGEVWSTLAGLSLIAFPVAFYVANLASALPAQFPTASRYGAMGIAYNFAVAIFGGTTPFVVAALITATGDDMMPAYYLMATSLIGAVTIYFLKESAKRPLPGSMPSVATQEEARELVATQDENPLIDLDDMPFETQDVITANAAPADAEEDKVPASV	PGPT0013645_43	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013645-proP-K03762	NA	NA
D1-29_00476	246			hypothetical protein	ATGACCAAAGACCACCGCCAGCCCGCCACCGGGGACGCAGACGCGCCGTCGGACTCTGAAAAGCCGGCAAACCCTGAAAAAGCTGAGTCGGGCGGCGTCCGGTCCCGGCTGACGGAAGCCCAAAAAGCCATGCTCGACAGCAAATCCCGTGGCGGAGGCGCTGGCCTCCAGAGCGTGGGCAAGAGTCACAAGCCCACCCACGTGAGCGGCAAACAAGGCCCGGCAGAAAAGAAAGTCCGCTGGTAA	MTKDHRQPATGDADAPSDSEKPANPEKAESGGVRSRLTEAQKAMLDSKSRGGGAGLQSVGKSHKPTHVSGKQGPAEKKVRW				NA	NA	NA	NA	NA
D1-29_00477	261			hypothetical protein	ATGGCTGAAATGCACCCAGCAGGAAAGATCGAACCGGAGGTTTTGAGTCACCTCGCAGCAGCAATGGACACGCCGGCCATACCAGGACCGGCCACCGTTCCGGTAAACCCAGCAATGACCGGGGAGCAGCATTGGCCGGACGGGAACGGCAGTAAACGCCACCCCAAAGAACGGGGCGCCGGCCATGGAAGGATGGGCCACGAGGCCGCAGTGACTGCGGTGCACCGGACCAGCCGGCCGCAAATGCCGCACTCGTCGTGA	MAEMHPAGKIEPEVLSHLAAAMDTPAIPGPATVPVNPAMTGEQHWPDGNGSKRHPKERGAGHGRMGHEAAVTAVHRTSRPQMPHSS				NA	NA	NA	NA	NA
D1-29_00478	2595	lig		DNA ligase	ATGGCCGGCACTAAGGAACGGGTCCGGGTGGCGGGGCGAGAACTGAGCCTGACCAACCTGGAGAAAATCATCTACCCGGAGACGGGCACAACCAAGGCCGACGTCCTGGCCTACTACGCCGCCGTCGCGCACGTCCTGATCCCTGCCGCCGCCAGCCGGCCGGCCACCAGAAAGCGATGGGTCAACGGCGTGGGCACCGCAGACAATCCCGGGGAGGTGTTTTTCCAAAAGAATCTTGAAGATTCCGCGCCGGGCTGGCTCCCGCGGGCCGCCATCACGCACAAGGAACGGACCATCTACTATCCGATGGTCAATGACCGCGCCACGTTGACCTGGTTCGGCCAGATCGGTTCATTGGAAATCCACGTGCCCCAATGGCGCGTGGATTCCCACGGCAACCAGCTCAACCCGGACCGCCTCGTTCTGGACCTGGATCCCGGTGAAGGCGCGGGGCTGGAGGAATGCGTGGAGGTGGCCAGGCTGGCCCGCGCCATCCTTGAGGACGTGGGCCTGGCCCCGGTTCCGGTGACCAGCGGCAGCAAGGGCATCCACCTTTACGCAGGACTGGACGGGACCCAGAGCTCCGAACAGATCTCGTCCTTCGCTAAAGAACTGGCCCGCGCGTTGGAGGCGGATCATCCCGATCTTGCCGTCAGCGATATGAAGAAAACGCTCCGCACAGGCAAGGTCCTGGTGGACTGGAGCCAGAACAACGCGGCCAAGACCACCATCGTGCCCTACTCGCTCCGCGGCCGCCCCACTCCCACCGTGGCCGCTCCGCGGACCTGGCGCGAGCTGAGCTCCCCGCATCTGCACCAGCTCGATTACAAGGCTGTCATGCGCCGCGTCCAGGCGGGCAAGGACCCTTTCGCCGCCATCACCACAGCTGCCGGGCACCCCGGCGGCTCTGGTCAGCACGGCAACCCCGGCAACTCAAATAAAAGTGGAAACCACGACGACGGCGCCGCGCATCCGCGCCTGCAGAAGTACCGTTCCATGCGGGATCCGCACGCAACCCCGGAACCCTTCACCGGCGTCGAGGGCCCCGGTAACACCTTTGTGATCCAGGAGCACCACGCCAGCCGGCTCCATTTTGATTTCAGGCTGGAGCACGACGGCGTCCTGGTCTCCTGGGCCCTGCCTAAAGGCGTGCCGGAGTCAGGCGACAAGAACCACCTGGCCGTCCAGACCGAGGACCATCCGTTGGACTATGCCACATTCGAAGGCACCATCCCTCAGGGTCAGTACGGCGCCGGCGAGGTCACCATCTGGGACCACGGAACCTACGAACTCCACAAGTGGATCAACGGCAGGGAAGTCATCGTCACGCTGACCGGCTCCGAGGGTGGCGGGCTCGGCGGAACCAAAAAGTTTGCCCTGATAAACACCGGCCGCGGCGGAGGGAAGGATACCGAGGGGCAGTGGCTGATCCACCTGATGGACAAAGACCACCACCGCCGTCGTCCGCTTTCGTCGAAGGACGGATCAAACGAAGGCGAGGATGAGCCCGCGGACCTGCCGGCGCCCTCGAAGCGGGAATCCCCCGCAGCCGACCCCGCCCGTGCACGTAGACCCGCCGCCGCTGCAGCCCAAGCAGCTGCCGCAGTCGCCGTGCCAGCGGCAGTCACCGCGCCCGCGCCCGAGGACTTCAGGCCCATGATGGCCACGTCGGGAACGGTGGCGGACCTCCAAGGCAGCGGCTGGCACTTTGAACTGAAATGGGATGGCGTCCGGGCCGTTATCGTGGCCGATGAAAAGAAGATCCGCATCTTCAGCCGGAACGGCAACGACGTCACGGCAACGTATCCGGAACTGGCGGTCCGAAACTGCTGGCCCCCACAGGCGTTCGCCGCCGACGGCGAGATCATCGCCGTCGGGCCTTCCGGAAAACCGGATTTCGGGCGGCTGCAGGGACGGATGAAACTGACCCGGCCCCACGACGTCGAGAGGGCCCGCGCCTCCATCCCGGTCCGGCTGATGCTTTTTGACCTGCTGTCCGAGGACGGCGAAGACCTGCGCCGCAGGCCGCTGGAGAAGCGGCGGCAGCGGCTGGAGGAATTTTTCACGCCATCCGATTGCCCGGTTGAGTTGTCTCCGGTGCTGGACGAACGGATCGAGCACATCCTCGAGAGCGCGCGGGAACTTGGCCTGGAAGGGGTGCTGGCGAAGCGGACCGGCAGCCGCTATGCCAGCGGCCAGCGCACCCGGACCTGGATCAAGATCAAGCTCGAAAAGACCCAGGAAGTAGTGGTGGGCGGCTGGCGTCCCGGCAAAGGGGGGCGGAACAGTTCGGTCGGTTCCCTCCTGGTGGGTATCCCGGACGGGAAAAAGCTGCGGTACGCAGGCCGGGTGGGCAGCGGGTTCAGCACCAGGGAACTGACGGAGCTTCGGCTCAAAGTCGATGCGCTGGCGCGGAAGACCTCCCCTTTCGACGAGGTTCCGGCGGAGGACGCCGCGGACGCGAACTGGGTAAGCCCGCAGCTCGTGGGAGAAGTGACCTTCGGTGAATGGACGGGGGGCGGGAAGCTCCGGCACCCTGTCTGGCGCGGCTGGCGCGTGGATAAGGAGCCGGGGGACGTTGTGGCGGAGTCCTGA	MAGTKERVRVAGRELSLTNLEKIIYPETGTTKADVLAYYAAVAHVLIPAAASRPATRKRWVNGVGTADNPGEVFFQKNLEDSAPGWLPRAAITHKERTIYYPMVNDRATLTWFGQIGSLEIHVPQWRVDSHGNQLNPDRLVLDLDPGEGAGLEECVEVARLARAILEDVGLAPVPVTSGSKGIHLYAGLDGTQSSEQISSFAKELARALEADHPDLAVSDMKKTLRTGKVLVDWSQNNAAKTTIVPYSLRGRPTPTVAAPRTWRELSSPHLHQLDYKAVMRRVQAGKDPFAAITTAAGHPGGSGQHGNPGNSNKSGNHDDGAAHPRLQKYRSMRDPHATPEPFTGVEGPGNTFVIQEHHASRLHFDFRLEHDGVLVSWALPKGVPESGDKNHLAVQTEDHPLDYATFEGTIPQGQYGAGEVTIWDHGTYELHKWINGREVIVTLTGSEGGGLGGTKKFALINTGRGGGKDTEGQWLIHLMDKDHHRRRPLSSKDGSNEGEDEPADLPAPSKRESPAADPARARRPAAAAAQAAAAVAVPAAVTAPAPEDFRPMMATSGTVADLQGSGWHFELKWDGVRAVIVADEKKIRIFSRNGNDVTATYPELAVRNCWPPQAFAADGEIIAVGPSGKPDFGRLQGRMKLTRPHDVERARASIPVRLMLFDLLSEDGEDLRRRPLEKRRQRLEEFFTPSDCPVELSPVLDERIEHILESARELGLEGVLAKRTGSRYASGQRTRTWIKIKLEKTQEVVVGGWRPGKGGRNSSVGSLLVGIPDGKKLRYAGRVGSGFSTRELTELRLKVDALARKTSPFDEVPAEDAADANWVSPQLVGEVTFGEWTGGGKLRHPVWRGWRVDKEPGDVVAES	PGPT0014910_605	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
D1-29_00479	1131	ku		Non-homologous end joining protein Ku	ATGAGAGCCATCTGGAAAGGTGCCATCGCGTTCGGCCTGGTCAACGTGCCTGTGAAGGTCTATAGCGCCACCGAGGATCATGACATCAGTCTGCACCAGGTCCACAACGCCGACGGCGGCCGGATCCGCTACCAGCGCCGGTGTGAGGTCTGCAGCGAGATCATCGACTACTCGGATATTGAGAAGGCCTTCGAGGAAGACGGCAGGACGGTGGTCCTGTCCAAGGATGAGCTCAAGGCCATCCCGGCCGAGAACAGCCACGAGATCGAAGTGGTCCAGTTTGTGCCGTCCGAGCAGCTGGAACCCATGATGTTCGAGAAGAGCTATTACCTGGAGCCGGACTCCAAGTCGCCCAAGGCCTACGTCCTGCTGCGCCGTGCGCTTGAGGATACCGACAGGGTGGCCATTGTGCAGTTTGCCCTGCGCGACAAGACCCGGCTGGGCGCGCTCCGTATCAAGGACGACGTGCTGGTGCTGCAGTCCCTCCTGTGGCCGGACGAGGTCCGGGAAGCCAACTTTCCGTCGCTCGATGCTGACGTCCGGATTTCCCCCCAAGAGCGTGAAATGTCGGCCGCCCTGGTGGAGTCCATGGCCGGGGACTTTGAGCCCGAATCGTTCACTGACGAGTATCAGGTGCAGCTCCGGCAGCTGATCGAGGCCAAGCTGGAGCAGGGCGATGCGCTGGACACCGAGGCCACGTTCGGGGTTGAGGCGGGCGAAGGCAAGGGCGAGGTGATCGACCTGATGGAGGCGCTCAAACGCAGCCTGGACCGGAAGCGTGGCGGCGGGCTGCCGGAAGCTGCCGAGGATACTGAGGATGAAGAGGCGGAGGAGGCGCCGGCCAAATCTGCCAGTGGTGGCACCAAAACTGGTGGCGCAAAAACCGCCGGCACCAAGACTGCGGGTACCAAAACAGCAGGGACCAAGACCGCGGCGGCCAAATCGACAACGGCCAAGTCGGCCACAACCAAGTCCACGTCCGGTTCGGCCAAAGCCAGTTCCGCTCAGTCCAGTCCGGCGAAGTCCGAAGCTGCCAAGTCCACCGTCCGGAAGCCCGCCGCCAAGCCGGCGGCGTCCTCCGACAAGCCCGAGGCGAAGGCGTCCACTACGCGGGCGCGCAAGCGTGCCTGA	MRAIWKGAIAFGLVNVPVKVYSATEDHDISLHQVHNADGGRIRYQRRCEVCSEIIDYSDIEKAFEEDGRTVVLSKDELKAIPAENSHEIEVVQFVPSEQLEPMMFEKSYYLEPDSKSPKAYVLLRRALEDTDRVAIVQFALRDKTRLGALRIKDDVLVLQSLLWPDEVREANFPSLDADVRISPQEREMSAALVESMAGDFEPESFTDEYQVQLRQLIEAKLEQGDALDTEATFGVEAGEGKGEVIDLMEALKRSLDRKRGGGLPEAAEDTEDEEAEEAPAKSASGGTKTGGAKTAGTKTAGTKTAGTKTAAAKSTTAKSATTKSTSGSAKASSAQSSPAKSEAAKSTVRKPAAKPAASSDKPEAKASTTRARKRA				NA	NA	NA	NA	NA
D1-29_00480	267			hypothetical protein	ATGCCCGGCAAGAAAAACCCGAGCGTGAAAGATCCTAAGCTGTATGAGGAACTGCGCGAGGATGGCGCCTCCAAGCAGAAAGCCGCCCGGATTTCGAACGCCGCCGCCAAAAAGGGGCGCTCCGAGGTGGGCCGCAAGGGCGGCAAGTCCGGTGATTACGACGATTGGACAGTCCCGCAGCTGAAAGCCAAGGCGAAGGAAATAGGCCTCACCGGTTATTCCTCCAAGAAGAAGAGCGAACTCATCTCCGCCCTCCGGAACTCCTAG	MPGKKNPSVKDPKLYEELREDGASKQKAARISNAAAKKGRSEVGRKGGKSGDYDDWTVPQLKAKAKEIGLTGYSSKKKSELISALRNS				NA	NA	NA	NA	NA
D1-29_00481	879		COG1262	Formylglycine-generating enzyme	ATGCACGCCGACGTGCTGATCCCGGCAGGAACGTATGCCATGGGGGACTCTTTTGACGAGGGGTACCCTGCTGACGGCGAAGGGCCCGTGCACGATGTTCGCTTGGATTCATTCCGGATTGACGCCACGGTGGTGACCAACACCATGTTCGCAGCATTTGTGGACGCCACCGGGTACCGCAGCGATGCGGAGAGCTTTGGCTCATCGGCGGTGTTCCACCTGCTCGTCGGGGCTCCGCGGAAGCACATTATTGGCGAAGCCGCCGGCGCGCCCTGGTGGCTAAACATCCGGGGTGCGGACTGGCGCTACCCGGCCGGAAGAGGCTCCCACTGGACAGAAATCCCTGATCACCCGGCTGTCCATATTTCGCACAACGACGCCCTGGCCTACTGCCGGTGGGCCGGCCGCCGCCTCCCCACCGAGGCGGAGTGGGAGTATGCGGCACGGGGCGGCCTGGAAGGCCGGCGCTACCCGTGGGGCAATGAACTGCTTCCCGACGGCGGGGATCACCATTGCAATATCTGGCAAGGTACGTTTCCCACCACCAACACGTTCGACGACGGTTTCCTTGGCACCGCCCCTGCCGGAAGTTTTCCCCCGAACGGGTACGGCCTTTTCCAGATGGCCGGCAACGTCTGGGAGTGGTGCTCGGACTGGTTCCTGCCGAAGTACTACCGGAATTCCCCTGCCTACAACCCGCCCGGCCCCACCATCGGGGCGGGGCGGGTCATGAGGGGCGGGTCCTACTTGTGCCATGAGTCGTACTGCAACCGGTACCGGGTAGCCGCGCGCAACGCGAACACGCCGGAATCCTCCAGCGGAAACTGCGGATTCAGGACTGCAAGGACGGCGCCAGGCACCAAAAGCAAGCAGCCTTAG	MHADVLIPAGTYAMGDSFDEGYPADGEGPVHDVRLDSFRIDATVVTNTMFAAFVDATGYRSDAESFGSSAVFHLLVGAPRKHIIGEAAGAPWWLNIRGADWRYPAGRGSHWTEIPDHPAVHISHNDALAYCRWAGRRLPTEAEWEYAARGGLEGRRYPWGNELLPDGGDHHCNIWQGTFPTTNTFDDGFLGTAPAGSFPPNGYGLFQMAGNVWEWCSDWFLPKYYRNSPAYNPPGPTIGAGRVMRGGSYLCHESYCNRYRVAARNANTPESSSGNCGFRTARTAPGTKSKQP				NA	NA	NA	NA	NA
D1-29_00482	1503		COG3119	N-acetylgalactosamine-6-O-sulfatase	TTGACCGAACCAACCCAACGGCCGAATGTCGTACTGATCCTCGCGGACGACCTTGGCTGGGGTGACGTGGGATGCAACGGGGCAGAGCGAATCAGCACTCCCCACATTGACTCACTTGCGCAGCAGGGAACCCGGTTCACTGATGTCCACTCAGCCTCGGCGGTGTGCACCCCCAGCCGGTATGCCCTTTTGACGGGTCAGTACAGCTGGCGCACACGGCTCAAAAAGCGTGTCCTGATGGGCCACGCCCCCGCACTCATCGAGAGCGGGACGCCCACTGTTGCATCCGTTCTGCATGGCTGCGGATATCGCACGGCAGCCATCGGAAAGTGGCATCTGGGACTGGGTTGGCGGCACAAGGACGGAACGAAATGGAAGGCTTCCAACCCTGACCACCCGTTGGAGCTGGAATCGGTCGGCACGGACTCGCGCCTGCTCCTGAACAGCGTGGATACCGGGGATACCATCGACTACACGAAAGCGTTCGAGGACGGCCCGCTGGAGGTCGGATTTGACCGGTTCTTCGGTATCGCCGGGTCCTTGGATATGCCGCCGTACTGCTTCCTTGAGCAGGACAGGACAGTGGGCATCCCAGCGGAGCCGAAACGCGAGTACCTCACCGAACAACGCCCGGGCCTGCAGACACCGGACTGGGACGAGCACCAGGTAGATCTCCGTTTCACTTCTGAAGCGGTCCGCTTCATCGAGGAAGCACCCTCCGAGCAGCCGTTCTTCCTCTACTTTGCGCCATCGGCGCCCCACCGCCCCCAGGTTCCGCCTGAATTCCTCAGGGGCACCTCCCAAGCCGGACCCCGCGGGGACTCTGTGGCTTTCGTCGACTGGATGACCGGTCAAATCCTCGAAGCCCTGGATAGAACGGGGCGATCCCAGGACACCGTGGTGATCTTCACCAGCGACAACGGGGCGCCCACTGTTTATGACGACGGCGACACCACCATCCACAGGCCAAATGGGCCCTGGCGTGGGCAGAAAGGGGATTTGTGGGACGGCGGGCACCGCGAACCGTTCATCGTCCGGTGGGCCGGCACCGTTCCCGCCAACGCTGTCAGCGATCAGCTGCTTGGACTGGTAGACATGCTTCCCACCCTTGCCGCGCTGGTTGGTGCGGACCTGCCGGAATTGCCCGTGGACGGTGTTGACGTCTCGCCTGCCCTCCTGGGAGAACCGTGTCCTCCCAGGGTTCTGGTGCACCACAGCATGGAGGGATCATTCTCAGTGCGCGACGGATCGTGGAAGGCATTGTTCTCGACGGGTTCGGGAGGAGGCTTCTCTGAACCGGCGGGCGTTCCCGTGACCGCTGAGGAACCCGGGGGCCAACTCTACGACCTGGCCACGGATCCCGATGAACAGGAAAATCTTTGGGAAAGGCATCCGGAACAGCGCCAGAGGATGCAGGGACTGTTGGAGGACATCATCGGCCCTGACGCAGCAATCGATGCCCATGCAGCGGCGGGATCCGAGGGGCAGAGCATTGACCGATGA	MTEPTQRPNVVLILADDLGWGDVGCNGAERISTPHIDSLAQQGTRFTDVHSASAVCTPSRYALLTGQYSWRTRLKKRVLMGHAPALIESGTPTVASVLHGCGYRTAAIGKWHLGLGWRHKDGTKWKASNPDHPLELESVGTDSRLLLNSVDTGDTIDYTKAFEDGPLEVGFDRFFGIAGSLDMPPYCFLEQDRTVGIPAEPKREYLTEQRPGLQTPDWDEHQVDLRFTSEAVRFIEEAPSEQPFFLYFAPSAPHRPQVPPEFLRGTSQAGPRGDSVAFVDWMTGQILEALDRTGRSQDTVVIFTSDNGAPTVYDDGDTTIHRPNGPWRGQKGDLWDGGHREPFIVRWAGTVPANAVSDQLLGLVDMLPTLAALVGADLPELPVDGVDVSPALLGEPCPPRVLVHHSMEGSFSVRDGSWKALFSTGSGGGFSEPAGVPVTAEEPGGQLYDLATDPDEQENLWERHPEQRQRMQGLLEDIIGPDAAIDAHAAAGSEGQSIDR				NA	NA	NA	NA	NA
D1-29_00483	1245	iolG_3		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACCCTGAAAGTGGGAATCCTTGGCTTTGGGGAGCGCTCATCGATCGCGCACTACGCCCACAAGCCCGATGAAGGCTCGGAAGTCGCCGCCGTTTTTGATCCAAGTGAAGCCGCACGGGACCGTGCGCAAGCGGATTATCCTGACGCCCGCGTGACGGGGAGCCTTCGTGAATTCCTGGCCCTTGGCCTGGACGCCGTGATGATTACCTCGCCGGACCATACGCACGCCGCCCTGGCGTTGGAAACGCTGAGGGCCGGCATTACCACCTTCTGCGAAAAGCCCCTTGCCATCACCCTGGAGGACTGCGACCAGGTACTGGAGGAGGCGTTCCGCACCGGAACGCGCCTTTACATCGGCCACAACATGCGGCATATGCCAGTGATCGTCCAGATGCGGCAGCTGATTGATGAGGGCCGCATCGGGGACGTCAAAGCAATCTGGTGCCGGCACTTCATCGGCAATGGCGGCGACTTCTATTTCAAAGACTGGCACGCGGACCGGAGCAAGTCCGGCGGCATGCTTCTGCAGAAAGGAGCCCACGACATTGATGTGATCCATTGGCTGGCCAAAGGCTACTCGCGGCGGGTCGCGGCAGTCGGCAGCCTCAGCGTCTATGGGGAAATCGCGGACCGGCGGGACCGAAGCGCAGAACGGCGCAGCGACTGGTTCAGCCTTGATAACTGGCCGCCGAAAGCACAAACAGGGCTCAACCCGGTAGTCGACGTCGAGGACATCTCCATGATGAACATGATCCTGGACAACGGAGTGCTGGGCGCCTACATGCAATGCCACTTCACCCCCGATTACTGGCGGAACTACACGGTCATCGGAACCGAGGGCCGCCTGGAGAATATGGGCGATGGCCCGGGCAGTGAAATCCACCTGTGGAACAGAAGGCGGGAAGGCCACGCTCCGCCTGACGAAATCTACGCCGTCGGCGGTGACGACCAAGGCCATGGCGGCGCCGATCCGGTAATGGTGGCCGAGTTCCTGAAATTTGCTGCAGATGGAGTACCTACGGCCACGTCACCCATCGCGGCACGAAACGCCGTCGCCGCCGGACTGCTTGCCACCGAATCCCTCAGGGGAAACGGATGCGCCTTGGACGTTCCCATGGTCGACGAGAGCCTTGCCTACTACTTCGAGTCGGGACAAAAGCAGCAGCAGCCCGCACCCGTCAGGATCCCGCAGCCGGGACCCTCCCCAGTCTCCACCTCCATCCATTACCAGGAGAAAAAATGA	MTLKVGILGFGERSSIAHYAHKPDEGSEVAAVFDPSEAARDRAQADYPDARVTGSLREFLALGLDAVMITSPDHTHAALALETLRAGITTFCEKPLAITLEDCDQVLEEAFRTGTRLYIGHNMRHMPVIVQMRQLIDEGRIGDVKAIWCRHFIGNGGDFYFKDWHADRSKSGGMLLQKGAHDIDVIHWLAKGYSRRVAAVGSLSVYGEIADRRDRSAERRSDWFSLDNWPPKAQTGLNPVVDVEDISMMNMILDNGVLGAYMQCHFTPDYWRNYTVIGTEGRLENMGDGPGSEIHLWNRRREGHAPPDEIYAVGGDDQGHGGADPVMVAEFLKFAADGVPTATSPIAARNAVAAGLLATESLRGNGCALDVPMVDESLAYYFESGQKQQQPAPVRIPQPGPSPVSTSIHYQEKK				NA	NA	NA	NA	NA
D1-29_00484	1275	yesO_2	COG1653	Putative ABC transporter substrate-binding protein YesO	ATGAAAATCCGAGCAGGAATCGTCGCCATGGCGGCGGCAGCAACACTGGCGTTGTCTGCCTGTGGGGGAGGGCAACAGTCCCCAACGCAGGACCAAGGGCCGGCCGACTCAGGGGAGCTGCGTTTCGCGATGTGGAACCAGGCCCAGTCCGAAGTCATGAAGACCATAGTGGCCGACTTCAACAAGACAAACCCCAACATCAAGGTAAACGTCGAGGTCACTCCTTTCGACAATTACTGGACCAAGCTGCAGACCGAGGCGTCCTCGGGTAACCAGCCGGATGTCTTCTGGATGAACGGCCCCAACTTCCAGCTGTATGCCAGCAACGGCCAGCTTGAACCCTTGGATGATGTCATCGACGGCAACAAGATTGACCCCGCGAACTATCCGGAATCCCTTAACAAGCTGTACAGCTACGAAGACAAGCAGTATGGCGTCCCGAAGGACTTCGACACCGTAGGCCTCTGGTACAACAAGAAGATTTTCGACCAGGCAGGCGAGACGTACCCCGCGGACAACTGGACCTGGGAGGACTACAAGTCCACCGCCAAGCGCATCAGCGACAAGCTCAAGGACCAGGGAATCTACGGAACGGCCATCCGTGCAGGCGATGCACAGATGACCTACTACAACAGCATCCCCCAGGCTGGCGGATTTGTGATTTCCGAAGACCAGAAGAAGAGCGGCTACGACGATCCCAACACCATCAAGGGACTCAAACTCTTTGCCGACCTGATGGCTGACGGCTCCGCACCTACGGCCCAGCAGCTCACTGACACCCGCGGTGACAAGTGGTTCGCGTCTGGCAGGGCGGCCATGATCTGGGGCGCCTCATTCGAAGCCCCCGTGTTCTCAGCCATTAAGGACGATATCCAGGTGGTCCCGCTTCCCCGTGACTCCAAGCAGGCAACCGTTATTCACGGGCTCGCCCACGTCATCTCGGCCAACTCCAAATCCAAGGCTGCTGCCAAGACCTTCCTGGCCTACCTGGGATCAAAGGAAGCTTCCGAAACGTGGAGCAAGTCCGGCACCGTCATCCCGTCCTTCAAGGGATCACAGGATGCCTACCTGGCCAGCAATCCGCAGTGGAACCTGCAGGTCTTCCTTGACGCAGCCGAGAACTACGCCGTCCCGTACCCCGTCTCCAAGAACACCGCGGAATGGAACAAGCTCGAAAAGGACATCCTGTCCGGTGTCTGGACAGGACAAAAAACAGCGGAAGAGGCTGGCAAGGAACTGGCCGCCAAGATGAACGAAACCCTGGCGAAGGAATAG	MKIRAGIVAMAAAATLALSACGGGQQSPTQDQGPADSGELRFAMWNQAQSEVMKTIVADFNKTNPNIKVNVEVTPFDNYWTKLQTEASSGNQPDVFWMNGPNFQLYASNGQLEPLDDVIDGNKIDPANYPESLNKLYSYEDKQYGVPKDFDTVGLWYNKKIFDQAGETYPADNWTWEDYKSTAKRISDKLKDQGIYGTAIRAGDAQMTYYNSIPQAGGFVISEDQKKSGYDDPNTIKGLKLFADLMADGSAPTAQQLTDTRGDKWFASGRAAMIWGASFEAPVFSAIKDDIQVVPLPRDSKQATVIHGLAHVISANSKSKAAAKTFLAYLGSKEASETWSKSGTVIPSFKGSQDAYLASNPQWNLQVFLDAAENYAVPYPVSKNTAEWNKLEKDILSGVWTGQKTAEEAGKELAAKMNETLAKE	PGPT0016545_8643	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
D1-29_00485	948	melD_3	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	GTGTCAGTCCTTGCAAAAGGAAGCAGCGTCGGGCGCGCGGCCCAAAAGCCCGCGCGCCGGCCTGGCGGCGCCGCCCGCAAAGAGTCAGGCCTCGTTCCGTGGCTCTTCATCTTCCCCACCTTCCTGGGTGTTGGCATCTTCTTCCTGTGGCCAATGGTGCAATCCGTCTACTTCAGCTTTACGGAGTGGGGCGCTTTCGGAGGCACCACGTGGATTGGTCTGGAGAACTACCAGCGCCTCGTCACGGATCCGGAGACCCTGAAGGCACTGGGTAACACACTGGTTTACGCAGGTATCTCCCTTCTCTCCATCCCCCTTGCGATCTACCTCGCAAGCCTCATCAACCGCCCTGGCCTGAGGTTCAAGGGCCTGTTCCGTACCCTGTATTTCCTGCCCGTCATCACCATGCCTGCGGCAGTGGCGATCGTCTGGCGCATTATGTACAACGGCGATTTCGGGGTGATCAACTACGCCCTGTCGCTTGTGGGCATTACTGGGCCGCACTGGCTCTCTACACCGGGTCTGGCCATTACCGCCGTCGCGCTGGTGGGCGTGTGGCTGACGCTCGGGCTGAACATGATTATTCTGGGCGCCGGGCTCCAGGGCATCTCACCCGAAATCTATGAGGCAGCGGAGCTGGACGGGGCCAGCCCCTGGACCCAGTTCCGGCAGATCACTGTTCCGTTGCTGACGCCAAGCATCTTCTTCGTCACCGTGCTGACCGTCATCAGCAGCTTCAAGGTCTTTGACCTCCTGTTCGTCATGCTTGGGACCACCAACCCGGCCACGCAGGAGTCGGAGACGCTGGTCTACCTCTTCTACGACAAGGCCTTCATCACCAACGACAAGGGATACGCAGCAGCGATCGGCATGGTGCTGCTCCTGATCATTGCCCTTGTGACGTACTTCCAGTTCCGGATGCAGAAGAGGTGGGTTACTTATGTCTGA	MSVLAKGSSVGRAAQKPARRPGGAARKESGLVPWLFIFPTFLGVGIFFLWPMVQSVYFSFTEWGAFGGTTWIGLENYQRLVTDPETLKALGNTLVYAGISLLSIPLAIYLASLINRPGLRFKGLFRTLYFLPVITMPAAVAIVWRIMYNGDFGVINYALSLVGITGPHWLSTPGLAITAVALVGVWLTLGLNMIILGAGLQGISPEIYEAAELDGASPWTQFRQITVPLLTPSIFFVTVLTVISSFKVFDLLFVMLGTTNPATQESETLVYLFYDKAFITNDKGYAAAIGMVLLLIIALVTYFQFRMQKRWVTYV	PGPT0016535_7113	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
D1-29_00486	891	araQ_3	COG0395	L-arabinose transport system permease protein AraQ	ATGTCTGAGCTCGCCCAGCGCGCAGCAGTTGCGCCGCGCCCGAACAACACCCGCACCCGCAACACCGGAAAGCGGCGCTATTCCTCGAATGTTTCCGCGTACGTCGTGCTGTCCCTTGGCGCGGTCATCATGGTTTTCCCGTTCCTCTATCAGTTGTCGGCCTCGCTGATGACCAACGCGGAGGTGCTGTCGGTTCCACCAAAGTGGATCCCCGGAGCCGTGCGGGTGGAGAACTATGCAGCGGTTTTCGACACCATTCCCTTCCTGCAGCAAATGGGGAATACGGCCGTCTTCAGCGTCACCCGGACCGTCTCGCAGGTGGTGTTCTCCGCGTTGGCCGGCTATGCCTTCGCCCGGATGCATTTCCGCGGGAACACACTGCTGTTCGGGATTCTGCTGTCCATCCTGATGGTTCCGCCGGAACTGCTGATCATTTCCCAGTACCAGATCATCGATGCCCTCGGCTGGCTGAACACCATGCCAGGCCTCGTCGCCCCTGGCCTGGTCAGTGCTTTTGGAACCTTCATGATGAGGCAGTTCTTCCGGGGCCTGCCCATCGAACTGGAGGAAGCAGCACGAATTGACGGAGCCGGACCATTCCGGACATTCTTCCAAGTCATGCTGCCGCTGGCACGTCCGGGTCTGAGCGCCCTCGCGATCATCACCCTCATCGATGTCTGGGGTGTCCTGCTGTGGCCTCTGGTGGTGACGTCCAGCCAGGACCGGATGCCTGTGTCAGTAGGCCTGGCCTCCTTCCAGGGAGAGCACGGAGCCGAGTACCCCACCATGATGGCTGCGTCTCTGATGGCCATTCTTCCCATCATCATCCTGTTCATCTTCCTGCAGCGCCGGGTTATTGAAGGCTTCGCACACGCAGGCCTGAAGGGCTAG	MSELAQRAAVAPRPNNTRTRNTGKRRYSSNVSAYVVLSLGAVIMVFPFLYQLSASLMTNAEVLSVPPKWIPGAVRVENYAAVFDTIPFLQQMGNTAVFSVTRTVSQVVFSALAGYAFARMHFRGNTLLFGILLSILMVPPELLIISQYQIIDALGWLNTMPGLVAPGLVSAFGTFMMRQFFRGLPIELEEAARIDGAGPFRTFFQVMLPLARPGLSALAIITLIDVWGVLLWPLVVTSSQDRMPVSVGLASFQGEHGAEYPTMMAASLMAILPIIILFIFLQRRVIEGFAHAGLKG	PGPT0016540_3516	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
D1-29_00487	906	glmS_1	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	GTGCCAGAATCAACCAACCAGACGCCCGGGAAATACATGGAGCAGGAGCTTCACTCCCAGCCCGATACCTGGGAGCAGGCTGCGGAACAGAGCCGGAAGGAGAACCTCCTGCCGCGTGACGGCCAGCGGATAGCAGTCATCGGGTGCGGCACCTCATGGTTTATGGCCCAGTCCTACGCGGTGCTGCGTGAACAGGCAGGAAAAGGAATCACCGATGCGTTCGCCGCCTCTGAGGCTTTCCTGGACCGAGGGTACGACGCCGTAGTGGCCATTACGCGCTCCGGAACCACCACCGAGGTACTGGACGTCCTGGAGGAGTTGCGGGGGCGGGTACCTACGGTAGCAATCGTGGGAGACAATTCGACGCCGGTGGCTGCAGCGGCCGACGCTGTTGTTGCCCTTCCCTACGCGGATGAACGTTCGGTGGTCCAGACACGCTTCGCCACCACCGCCCTGGCGTACCTGAAGGCATCGCTGGGTCATGACCTTGCGCGGGCTGTCCGGGATGCCCGCGATGTCCTTGCCGCTGAGATCGACCCCCGCCTGATCGCGGCGGAGCAGTTCAGCTTCATCGGTCGGGGCTGGACCATCGGACTCGCACACGAAGCGGCCCTGAAGATGCGGGAGGCCGCCCAGACCTGGACCGAGTCCTACCCGGCAATGGAGTACCGCCATGGACCGATTTCCATCGCTGCACCCCGCAGGGTCACGTGGATGTTCGGTGAGGCCCTTCCCGGGCTCGAAGGGGAAGTCGGAAACGCCGGAGCGCTGTATCTCCAGGACAGCGCAGATCCCCTCGCGCAGCTGGTCCATGCCCAGCGGGTCGCGCTTGAGAAGGCGCGCCACGCTGGCCTGGACCCGGACCACCCCCGAAACCTGACCCGCTCCGTCATTCTCAGCGCCTAG	MPESTNQTPGKYMEQELHSQPDTWEQAAEQSRKENLLPRDGQRIAVIGCGTSWFMAQSYAVLREQAGKGITDAFAASEAFLDRGYDAVVAITRSGTTTEVLDVLEELRGRVPTVAIVGDNSTPVAAAADAVVALPYADERSVVQTRFATTALAYLKASLGHDLARAVRDARDVLAAEIDPRLIAAEQFSFIGRGWTIGLAHEAALKMREAAQTWTESYPAMEYRHGPISIAAPRRVTWMFGEALPGLEGEVGNAGALYLQDSADPLAQLVHAQRVALEKARHAGLDPDHPRNLTRSVILSA	PGPT0017630_7467	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
D1-29_00488	978	glkA_1		Glucokinase	ATGGTCCTGAATACATCCAAACACTCAGTCATCGCCATCGACGTCGGAGGGACTGATATCAAGACCGCGGTCCTGGACCGCAATGGAGAGCTGCTGGCCGTTCAGCGCACTCCCACTCCGACGGATCACGGTGCAACAAAACAAAACAGTGCAACCAACGGTGCAAACACGGCAGGGGAGCTTGTCCTGGGGCGGGCGGAAGAACTTGTGCGGGAGCACCAGGAAGCCGGGATCGGGAAAATCGCAGCCGTCGGACTGGTGGTGCCGGGTCTGGTGGACGAGCCAAACGGTATCGGGCTCTACTCGGCAAACCTGGGCTGGCGCGATTTTCCCTTCCGGGAGCGATTGGAGAACAGGATCGGGCTGCCGGTGGCCTTCGGCCACGACGTCGGAGCAGCCGCGGAAGCAGAGTTTCGCTTGGGTGCAGGACGCGGCTTCGCCGACGTTCTGGTGATGGTGTTGGGAACAGGAGGCGCCGGAGCCGTCTTTGCCGACGGCCGGCGCGTCCGAGGCGGAGGCTATGCGGGCGAAATCGGGCACGCCCAGGTTCCCTGGGGAAGCAGCTGCAGATGCGGAGCCGAGAGTTGCCTTGAAACGGTTGCCTCGGCCCGCTCAATTGTCTTGAATTATCGACGGCGGTCCGGGCGTTCCGCCGCCAACGCCCAGGAAGTGGTCAGGCAGGTCGAGCTTGGGGATCGGCACGCCCTGGGTGCCTGGTCCGAGGCGACTGACGCCCTCGCCCACACCATCCGGCAGTGCTGTTCCATCCTGGGGATAGAAGCCGTGATCATCGGGGGCGGGCTGGCAGAGTCCGGGGAAACGCTCCTGGCCCCCGTCCGCCGCAAGGTCCTGGAGGGCCTTTCGTTCCACCGCAGGCCACAAATTTTGAAAGCCGAGCTGGGTCAGGACGCGGGACTAATCGGGTCGGGTTTGCTGGCCCGCGATCTTGCCGACCAAGCATTGGAGGGAGGGAAATAG	MVLNTSKHSVIAIDVGGTDIKTAVLDRNGELLAVQRTPTPTDHGATKQNSATNGANTAGELVLGRAEELVREHQEAGIGKIAAVGLVVPGLVDEPNGIGLYSANLGWRDFPFRERLENRIGLPVAFGHDVGAAAEAEFRLGAGRGFADVLVMVLGTGGAGAVFADGRRVRGGGYAGEIGHAQVPWGSSCRCGAESCLETVASARSIVLNYRRRSGRSAANAQEVVRQVELGDRHALGAWSEATDALAHTIRQCCSILGIEAVIIGGGLAESGETLLAPVRRKVLEGLSFHRRPQILKAELGQDAGLIGSGLLARDLADQALEGGK				NA	NA	NA	NA	NA
D1-29_00489	975	lacC_1	COG1105	Tagatose-6-phosphate kinase	ATGCCACATCCGCGCGTCATCACCCTCACCCCGAATCCCGCAATTGACGAAACTTACATCATCGGCCGCCTGCGCGAGGGTGAGACACATCGAGTCGAGGCCCCGCTGACCCAGGCTGGCGGAAAAGGCGTCAACGCCGCACGTGTCCTGAACCAACAGGGATTTCCGGTTGTTGCGGTAACGCCGGCCGGGGGAAGCAGCGGGGATCGGTTCATTGCGGACCTGGAAGCCAGCACGCTGGCGCACCGTATCGTGGCAGTCCGCGCCGCCACACGGCGGAGCTTTGCCCTGGTGGACCTGTCCAACGGTGAAACAACCATATTCAACGAACGGGGAGAACCCCTCACCGGGCACGAGCTGCAGTCGCTGCTGGACACTGTGCAGGAGGAAATGGAAAGCAGCGGCGAGGAATCGGGGATCGGCTGCCTGATCGGTTCCGGAAGCCTGCCGCCCGGAGCGCCAGCCGATTATTTCGGCCGTCTTGTCCATCTGGCCCATTCCATGGGAGTGCCGGCGATTATAGACACGTCGGGTCCGGCCCTGGTCGAGGCCGCAATGGCCGGTGCCGATCTCCTCAAACCAAACGTTGGGGAGCTGGTGGAGGCCACCGGCATCGAAGACCTGTCCTTGGCAGCCCGGAGCCTGATTGCCAGGGGTGCCCAACGGGTGCTGGTCAGTGATGGCCCCAACGGTATGTACGCCTTCGACGCCGTCCATCCGCAGGAGTTCTGGTCTGCCCGCCTGCCAGAGCCGCTGGAGGGGAATCCAACGGGGGCTGGCGACGCAGCAGTAGCGGCGGCCGCAGCGGTTTTGGTGGACGGAGGGGACCTGCAGGAACTCCTGAAGCGCTCCGCGGCCTGGTCGGCTGCTGCCGTGCTGGAACCGGGTGCAGGAGTCATTTCTGCCCGGCACCACGAACTTGAAGAGCAACTGATTCTTACCACCCATCCTCACCCCCTGGAGACGAAACTGTGA	MPHPRVITLTPNPAIDETYIIGRLREGETHRVEAPLTQAGGKGVNAARVLNQQGFPVVAVTPAGGSSGDRFIADLEASTLAHRIVAVRAATRRSFALVDLSNGETTIFNERGEPLTGHELQSLLDTVQEEMESSGEESGIGCLIGSGSLPPGAPADYFGRLVHLAHSMGVPAIIDTSGPALVEAAMAGADLLKPNVGELVEATGIEDLSLAARSLIARGAQRVLVSDGPNGMYAFDAVHPQEFWSARLPEPLEGNPTGAGDAAVAAAAAVLVDGGDLQELLKRSAAWSAAAVLEPGAGVISARHHELEEQLILTTHPHPLETKL	PGPT0017940_254	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TAGATOSE_DEGRADATION,PGPT0017940-lacC-K00917	NA	NA
D1-29_00490	834	fba_1		Fructose-bisphosphate aldolase	GTGACCCTGATGCAAACCGGCACCCTGATGGAAGAGGCCGTGCGCTTAGGGCGGGGCCTTGGCGCTTTGAACATCATCCACCTCGAAACCCTGGAGGCACTCCTTCAGGGTGCCGAGCAAGCGGATCGCGGCATCGTGGTCCAAATCTCGGAAAACTGCGTGAAATACCACGGCGGCCTGGAGCCTATTGCTGTTGCCAGCCTTTCCGCTGCCCGCTCTGCCAGCGTGCCTGTGGCTCTGCACCTGGACCATGCCCAGGACGAGGAACTCGCCCGGCAGGCGGTAGACCTCGGTTTTGGCTCGGTCATGTTCGACGGCGCGCACCTGGACTTCGAGGACAACGTCAAGGCCACAAAGCGGATCAGCGAGTACGCCCATGACCGCGGTGTCTTTGTTGAAGCCGAGTTGGGGAAGATCGGCGGCAAGGACGGCGCCCATGCCCCGGGCGTGCGGACCGACCCGGCTGAGGCAGTGATGTTTGTTGAGGCCACAGCCGTGGATGCCTTGGCCGTGGCGGTGGGGTCGTCCCACGCCATGACGGACAGGACCGCTGAACTGGACCTGGACCTGATCAAGCAATTGCGTGCTGCCGTCGCGGTTCCACTCGTCCTGCACGGCTCCTCAGGGGTTTCCGATGAGAACCTAGTCGCAGCGATATCTGCGGGAATGACTAAGATCAATGTCTCTACACATTTGAACGGCTTCTTTACCCGCGCAGTGCGCGGGTACCTGGAAACCCACCCGGATGTTGTGGATTCCCGAAAATATATTTCGGCCGGGCGGACCGCGCTCGTGCCGGAAGTTGCACGGCTGCTGACCCTCTTCGCAAGGTGA	MTLMQTGTLMEEAVRLGRGLGALNIIHLETLEALLQGAEQADRGIVVQISENCVKYHGGLEPIAVASLSAARSASVPVALHLDHAQDEELARQAVDLGFGSVMFDGAHLDFEDNVKATKRISEYAHDRGVFVEAELGKIGGKDGAHAPGVRTDPAEAVMFVEATAVDALAVAVGSSHAMTDRTAELDLDLIKQLRAAVAVPLVLHGSSGVSDENLVAAISAGMTKINVSTHLNGFFTRAVRGYLETHPDVVDSRKYISAGRTALVPEVARLLTLFAR	PGPT0017615_4969	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
D1-29_00491	837	glpR_1	COG1349	Glycerol-3-phosphate regulon repressor	ATGAACAGACAAGAACGCCTGGCCGCCATCTTGGACATGCTGGCACAAACCGGACAGATCGACATCGATGATGTCGTTCACCGCTTTGGCGTGTCCCAAGCCACCGCAAGGCGCGACATCGACAGCCTCGCGGCCAGGCGGCTCTTGAGCCGCACCCATGGCGGTGCAGAGAAGGGCTCCGTGGCCTATGACCTGCCTGGCAGATACAACAGGAATGACAACGCCCGCCAAAAAGAAGAAATCGCCCGTACCGCCAGCTCCCTTATCCCCAAGGGCGCTGTCATCGGACTCTGCGGCGGAACCACCAGCACGGCACTGGCCCAGGTCCTGGCCACCCGGGATGACTTGCAGGAGCCATCCGACCGGCCCACCCTGACGGTGGTTACGAACGCCATCAACATCGCCGCCCAGCTGGCCGTGCGGCCGAACATCAAGGTCATGGTGACCGGGGGCGTGCTCAACCCCCGTTCGTATGAACTTGTAGGCCCCCACACTGACATCATCCTGGAGCGGATCGCCCTGGACCTGGCTTTTGTTGGGGTGAACGGCATCGATACGGAAGTCGGCCCCACCATCGCCGACGAAGCCGAAGCCGCGGTCAACACCTCTATGGCCCGTAGGGCAATGCGGGCGTACATCCTGGCGGATTCGTCCAAGATCGGCAATCGGGCCTTCGCAACCATGAGCGGCTTCAACTTCACCCAACTCATCACTGATTCCGGGATCTCGGACCAGGACAGAAAGCGCCTTGTTGCAAGCGGCGTCACTGTGCTCACCGGGGACAAACCTCCAGCCACGGGGACGAAGAGGCTCGAAGAGCAGGAACTGTTCGCTTAA	MNRQERLAAILDMLAQTGQIDIDDVVHRFGVSQATARRDIDSLAARRLLSRTHGGAEKGSVAYDLPGRYNRNDNARQKEEIARTASSLIPKGAVIGLCGGTTSTALAQVLATRDDLQEPSDRPTLTVVTNAINIAAQLAVRPNIKVMVTGGVLNPRSYELVGPHTDIILERIALDLAFVGVNGIDTEVGPTIADEAEAAVNTSMARRAMRAYILADSSKIGNRAFATMSGFNFTQLITDSGISDQDRKRLVASGVTVLTGDKPPATGTKRLEEQELFA	PGPT0017955_308	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TAGATOSE_DEGRADATION,PGPT0017955-agaR-K02081	NA	NA
D1-29_00492	1311	nagA	COG1820	N-acetylglucosamine-6-phosphate deacetylase	ATGGATTATCTGGTTTCAGGGACCGTCATTACCGACGGGGAGATCCGCCAGGATCAGGTGCTGGCCATCATGGACGGAAACATTGTCTTTTCGGGTCCGGCCTCGGCATTCCAATCGAATCTGCTGCCTCACGCTGAAACCATCCGGATTCCCGACGGGGGTGCCGTGCTGCCGGGGTTAGTGGACTTGCATTGCCATGGTGCGGCAGGAGGCGATTTTCCGGCTGGCCATGAGGAGGACAGCCGGAAGGCCGCGTCCTTCCTCCACTCCCAGGGGACAACAACGCTGCTGGCCAGCGTGGTCACGGCGCCGAAGGACGATCTCCTCAAGGCCATCAGGTCGCTCCGGGTCTTGGCGGATGACGGGCTTATTGCCGGTATCCACGCCGAAGGGCCTTTTCTCTCGCATTCGCGATGCGGTGCCCAGGACCCGCGGTGGCTGCTGGAACCTGACCTCAAGCTCCTGAAGGCGTTGGTGACTGAGGCCGGCGGGCACCTGAAGACGATGACATACGCTCCCGAACTGCCGGGTTCCGATGAGCTTGTCTCCACGCTGGTGTCGGCCGGCGTGATCCCGTCCCTCGGCCACACGGATTCCGACGCGCGGACCGCCGCCGTTTCGCTTGAGCATGCGGCAGGCGGGCTCGCCTCGTCCTCAATGCGGGGAGCGCGGCCAACGGTAACCCACCTCTTCAACGGCATGCCCCCGATGCACCACCGCGCACCCGGGCCAGCCGCCGCAAGCCTGCGGCTGGCACGTGCCGGGACTGTCGCCGTCGAACTTATTGCGGATGGCGTCCACCTTGACCCGGAAACGGTCAGGATGGTTTTCGAGCTGGTGGGCGCGAACAACGTTGTCCTGGTCACCGATTCCATGGCGGCAACGGGCCTTCCGGAAGGCGAGTACCAGCTCGGCCCGGCGCAGGTTTCCGTCGTGGGCTCTGTTGCCACCCTCACCAGTACGGGATCCCTGGCAGGCGGCACGGCAACCCTGCTCGACGTCGTTCGTCGGACCATAGCGGCCGGAGTCAGCGCCGCTGATGCCGTTGCGGCTGCAACCGGAACCCCGGCACGGCTGCTCGGGCTGGACGGGCACGTGGGCAGCCTGCGCGCCGGGATGCAGGCTGACCTCCTGATAGTGGACCGTGAATTCAGGCTCCAGACCGTCCTGAGGCAGGGAGTGAGGCTTCCCGCCGTGCAGGCTGGCCCCCTCCAGCCCGCAGCGCAGGAGGAGGGGAGCCAGGCTGTATCAGCTGCCGGCCGCCCGGTTGCGCAGGAAGATCGAAACCACAGCAGCCGTCCCCAGGCATAG	MDYLVSGTVITDGEIRQDQVLAIMDGNIVFSGPASAFQSNLLPHAETIRIPDGGAVLPGLVDLHCHGAAGGDFPAGHEEDSRKAASFLHSQGTTTLLASVVTAPKDDLLKAIRSLRVLADDGLIAGIHAEGPFLSHSRCGAQDPRWLLEPDLKLLKALVTEAGGHLKTMTYAPELPGSDELVSTLVSAGVIPSLGHTDSDARTAAVSLEHAAGGLASSSMRGARPTVTHLFNGMPPMHHRAPGPAAASLRLARAGTVAVELIADGVHLDPETVRMVFELVGANNVVLVTDSMAATGLPEGEYQLGPAQVSVVGSVATLTSTGSLAGGTATLLDVVRRTIAAGVSAADAVAAATGTPARLLGLDGHVGSLRAGMQADLLIVDREFRLQTVLRQGVRLPAVQAGPLQPAAQEEGSQAVSAAGRPVAQEDRNHSSRPQA	PGPT0018860_220	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
D1-29_00493	1446	efpA_1		putative MFS-type transporter EfpA	ATGACAACCCGGCAAACGCCTCCCCTCCAGCACCTGGCCACCCCGACCCAACCGGAGCGGATGACAGGCCGCCAGCGCCTGACCATGATCCTGCTGCTGACCGCCAGCTTCACCCTGGCCGTGGATTTCTCCATCCTCAATGTTGCCCTCCCGACCATAGGAGCCGACGTCGGATTCTCGCTGGAGCACCTGCAGTGGATCGCCACTTCCTTTGCGCTGTGCGCCGCCGGCTTCACGCTGTTCTTCGGGAGAATCGCCGACCTGTTCGGACGTAAACGACTCTTCATCGCGGGCATGGCGCTGCTGGGGGTCGGCTCACTTCTCGGCGGACTGGCGACAGAGCCCGCGCTGCTGCTGGTGGCGCGTGTGGCCCAGGGACTGGCGACCGCCGCCGTGACACCGGCGGCCCTGTCGCTGCTCACCACGTCCTTTCCCGAAGGGCGGCTTCGGGCCAAGGCCCTGGGGCTGAACGGTTCCCTGATGGCAGCCGGCTTCACCACCGGCGCCATTCTCGGCGGGCTTCTGACGGACTTGTTCAGCTGGCGGTGGGCGTTCCTCATCAACGTCCCCGTCGCCTTGTTCGTTCTGGTCCTCGCTCCTGCGCTCCTGTCTGAATCATCAAACCCAAACAGAACCAAGCTGGACGTTCCCGGGGCACTTACCGTGACAGCCGCGCTACTTCTGCTCGTCTTCGGCCTGACCAGCGCCGGGGAGAAGGGGTGGACTGACCAGCTCGCCTGGGGTCCCCTGGCGGCCAGCCTTGTGCTCTTCGCCGTGTTCCTCGTCATCGAAAAGAACACCGCCCACGCCTTGATTCCGGTGGGAATCCTGCGGCGGAACAACATTGCCTGGGGGAACGCTGCCGGAATTCTTGCCTTCGCTACCGAAACCTCCCTGGTCTTTGTCCTGACCGTCTACCTGCAGCAGGTCCTGGGCTACACTCCGCTCGGCGCCGGGCTGTCTTTTGCCGTCCTGGGACTTGGCACGGTGGTGGGTGGGATTGTTGCGCCCAAACTCATTGGCAGGGTTGGCCCAAAAATCACCATTATCAGCGGACTCTCGGTCCAGGCCGCTGCCACCGGCTCGCTGCTCTTCATCACCGCAGATCCTGCCTCGGTGATGTTGGTGCTGGCAGCTACTTTTGTTGGCGGCGTTGCCAACCTGGCGGCCATCGTCGGCTTTATGGTCACCGCAACCACCGGTCTTCCCGACTCCGAGCAGGGCCTCGCCACCGGCTTGGCCACCATGAGCCAGCAGATCGGAATTACCCTGGGCATCCCGGTCATGAGCGCAGTGATGGCCGCGTTCCTCCATCACGGCGCCATTGGTCAGCCGGCCGGCGTACTCGCTGCCGTGGTCCCCGCCATCGGAGTCAATGCGGCGCTATGCCTGGGGACGGCTGCTGTGGTTTCGATCTTCCTGCGCAACCGGGCGGCCGGCAGCTGA	MTTRQTPPLQHLATPTQPERMTGRQRLTMILLLTASFTLAVDFSILNVALPTIGADVGFSLEHLQWIATSFALCAAGFTLFFGRIADLFGRKRLFIAGMALLGVGSLLGGLATEPALLLVARVAQGLATAAVTPAALSLLTTSFPEGRLRAKALGLNGSLMAAGFTTGAILGGLLTDLFSWRWAFLINVPVALFVLVLAPALLSESSNPNRTKLDVPGALTVTAALLLLVFGLTSAGEKGWTDQLAWGPLAASLVLFAVFLVIEKNTAHALIPVGILRRNNIAWGNAAGILAFATETSLVFVLTVYLQQVLGYTPLGAGLSFAVLGLGTVVGGIVAPKLIGRVGPKITIISGLSVQAAATGSLLFITADPASVMLVLAATFVGGVANLAAIVGFMVTATTGLPDSEQGLATGLATMSQQIGITLGIPVMSAVMAAFLHHGAIGQPAGVLAAVVPAIGVNAALCLGTAAVVSIFLRNRAAGS				NA	NA	NA	NA	NA
D1-29_00494	876			hypothetical protein	ATGAACGAACCAGCAGCCATGGGCAGCTTCCTGCGCAAACGACGGGCTGCCCTGAGTCCCGGCGACGTGGGCCTGATGGATTACGGCACCCGGCGCGTCCCCGGTCTTCGGCGCGAGGAAGTAGCCATGATGGCGGGCATGAGCGTGACCTACTATGCGCGGCTGGAACAGGGCCAGCACGTCAACGCTTCCGATTCGGTCATCAATTCGCTGTCGCGGGCCCTGGCCCTGACGGAGGCGGAAGGAAAACATCTCCGGGACCTGTCCGGAATCAGGCGCCGAAAGTCAACGTCCTCCCGGAACCCTCATGACGGCGGCTCCCATCCCTACGGCCGTGATCACGCCAGGCCGGATCACGTCAGGGAGGGCACGAAACGCTTGGTGGAGGCCATGGCGGTGCCCGCAGTGGTAGTGGGCAAGCGCACCGAGGTGATTGCCTGGAATAAAGCCGGCCACAGGCTGGTGGCATCGCATCTGGCCTACGGCTGCGCAGAGGATCCTGTGGCGCGGCCGAACCTGACCCGCATGCTGTTCCTGGACGACGCCACCCGGACGCTCTACCCGCAGTGGCGCTCGGAGGCAGGCCGCGCCGTCGCGTCCCTGCGTTTGCTCTCCGGACGGTTCTCCGACGATACCGAGCTTGCCGGGCTGGTGGGGGAGCTGACCCTTAAAAGCCCTGAGTTCGCCGTGATGTGGGCGGAACATCCCGTGGAGAACTGCATGTCGGGGCAGAAGCTGATGAACCATCCGGAGCACGGCCAGCTGGACCTGGGATTCGAGGTCCTCACCATGCCTGATGATTCAGGGCACCGGATCCTGACCTACACCGCAGCGCCAGGCAGCAGATCCGCAGCCATCCTCGCAGGCCTTGCGTGA	MNEPAAMGSFLRKRRAALSPGDVGLMDYGTRRVPGLRREEVAMMAGMSVTYYARLEQGQHVNASDSVINSLSRALALTEAEGKHLRDLSGIRRRKSTSSRNPHDGGSHPYGRDHARPDHVREGTKRLVEAMAVPAVVVGKRTEVIAWNKAGHRLVASHLAYGCAEDPVARPNLTRMLFLDDATRTLYPQWRSEAGRAVASLRLLSGRFSDDTELAGLVGELTLKSPEFAVMWAEHPVENCMSGQKLMNHPEHGQLDLGFEVLTMPDDSGHRILTYTAAPGSRSAAILAGLA				NA	NA	NA	NA	NA
D1-29_00495	432			hypothetical protein	GTGGCAGGAAACTACGTGGCGACGTCCGCTGTCACCATAGATGCTCCGCCCAGCCGGGTCTGGGAGGTGATCACGGACCCCGCCGCCGTCCAGGAGTTTATGTTTGGGACAGAACTCGTGACCGATTGGACGGTGGGCGGTCCCATCGTGTGGCGCGGAGAGTGGGAGGGCAAACCCTACGAGGACAAGGGGTACATCCTCGAGGTAGAGCCCGGGCAGCGGCTGGTCCACACGCATTTCAGCGCGCTGGGCGGCGAGGAAGACGCTCCGGAGAATTACCACACCCTGACGTGGACGCTCGAGGCCCGCGACGGCGGAACGCTGCTCACGCTTTCCCAGGACAACAACCCCACGGAACAGGCCGCCCACCATTCGCAGGGCATGTGGGACATGCTGGTGGCAGACGTCAAGGAGATCGCCGAGCGCGGCTAA	MAGNYVATSAVTIDAPPSRVWEVITDPAAVQEFMFGTELVTDWTVGGPIVWRGEWEGKPYEDKGYILEVEPGQRLVHTHFSALGGEEDAPENYHTLTWTLEARDGGTLLTLSQDNNPTEQAAHHSQGMWDMLVADVKEIAERG				NA	NA	NA	NA	NA
D1-29_00496	279	ptsH		Phosphocarrier protein HPr	ATGTCAGAACGCACCGCAACCGTCGCCAGCCGCGTAGGTCTCCACGCCCGCCCCGCCGCCATCTTTGCCGAGGCAGCCGGCGAGTTCGACCTAGACATCACCATTGCCCGTGAAGGCGAGCCGGCGGACGAAGCAATGGACGCCGCCAGCATCCTGTCCCTGATGAGCCTGGGTGCTTCCCACGGTGACGTTGTGGTGCTTCGCGCCGAGGGCGACGGTGCCGACGATGCCCTGGACCGCCTGGTCAAAATCCTGGAAACGGATCACGACGCCGAGTAG	MSERTATVASRVGLHARPAAIFAEAAGEFDLDITIAREGEPADEAMDAASILSLMSLGASHGDVVVLRAEGDGADDALDRLVKILETDHDAE	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
D1-29_00497	2070	fruA_1	COG1299	PTS system fructose-specific EIIABC component	GTGACTCAGCTCATCACCACCGAACTGGTCGACCTCGACCAGAACCTGGGCAACTCGCCCGAGGACGTGATCCGGCACCTGGCCAGCAAAGTTGCAGCCACCGGACGTGCCACCGAAGTTGAAGGCCTCTTTGCCGATGCCTTTGCCCGCGAGCAGAAGACCGCCACCGGCATCCCGGGTGGCATTGCCATCCCGCACTGCCGGTCTGAGGCGGTGACCGTTCCCACCCTCGCCATGGCCCGCCTGAACCCCAAGGTGGACTTCGGCGCCAAGGATGGCCCGGCGGATCTGATCTTTTTCATCGCGGCACCCGGCGGCGCGGACCAGGAGCACCTTAAGCTCCTCTCCAAGCTGGCCCGCTCCCTGATCAAAAAGGACTTCACGGCGGCCCTGCGCAATGCATCCTCCCGCGAAGAAATCGTGGAGCTGGTGGACGGCGCCCTGGCTGACAAGCCGGCATCGCACGCTGCCGCCGCGCCGGTTGACGCTGTTGCCGGCAGTGCTGCTGGCGCTTCCGCCGGTGCCTCCGCCGTTGCGGGGGATGGTGTTGGCGACGCGGTTGGTAACGGCCGTGGCCCGAAACGGCTCGTTGCCGTAACCGCTTGCCCCACCGGCATCGCCCACACCTACATGGCTGCCGACTCCCTGGTAGCCGCTGCCAAGGACGTTGGCGTGGACCTCCAGGTGGAGACCCAGGGATCCTCCGGAGCCAAGCCCCTGGACCCGGCAGTGATCGCCGCCGCTGACGCCGTGATCTTCGCCGTGGATGTGGATGTCCGCGGAAAGGAGCGCTTCGCCGGCAAGCCCGTCATCAACGCTCCCGTCAAGCGCGGCATCGACGAACCGGACAAGATGGTCCAGGAAGCCCTCGCCGCGGCTGACAACCCCAACGCACGCCGGGTTCCGCATTTCGGTGCCGAGGAGCAGGCCCAGAACGCGGATATGGAAAAGGGCGAGCACATCGGCCAGAAGCTGAAGAAAGCGCTCCTCACAGGCGTCAGCTACATGATCCCGTTCGTGGCCGGTGGCGGCCTGCTGATTGCCCTTGGCTTCCTGCTGGGCGGCTATGACATCACGGAAGTCGCCGACACGGTGGTCCTGGAGAACAACTTCGGGAACCTTCCCGAAGGCGGCCTCGCGATCTACCTCGGTGCCGTGATGTTCAAGATCGGCGCGCTGTCCATGGGCTTCCTGGTACCGGCGCTGGCAGGTTACATTGCGTACGCCATCGCTGACCGGCCCGGCATTGCCCCGGGCTTCGTTGCCGGTGCGGTCGCCGGATTCATGGGTGCCGGCTTCCTTGGCGGCATCGTCGGCGGCCTGCTCGCCGGTTACATCGCCCATGTGATTGGGACGTGGGCCGTACCTCGCTGGCTGCGTGGCCTGATGCCTGTTGTCATCATCCCGTTGCTGGCTTCCATCGTGGCATCCGGCGCGATGTTCCTCTTCCTCGGTGGCCCGATCGCCGGACTCACGGCCGGCCTCAACGGCTGGCTCTCCGGCATGACCGGCGCCTCCGCTGTGGTCCTGGGCATCATCCTCGGCCTCATGATGTGCTTCGACCTCGGCGGCCCGGTCAACAAGGTTGCCTACGCCTTCGCCGTTGCAGGCCTGAGTGCCGGCAGTGCCACCAACCAGGCTCCGTGGGAGATCATGGCAACCGTCATGGCAGCGGGCATGGTTCCGCCGCTGGCTATGGCATTGGCCACTGTGCTGGACAAGAAGCGCTTCAGCCTCGCCGAGCGGGAAAACGGCAAGGCAGCCTGGCTGCTCGGAGCCTCCTTTATCTCTGAGGGCGCTATTCCGTTCGCAGCTGCAGATCCCCTCCGTGTGATCCCGGCCAGCATGGTGGGCGGCGCAGTCACGGGTGCTCTCACCATGGCTTTCGGGGTTACCTCGCAGGCTCCCCACGGCGGAATCTTCGTCTTCTTCGCCATTGGCAACCTGCTGATGTTCGTCCTCGCCATCGTGGCAGGAACCATTGTCAGCGCGCTGGCGGTCCTGGCACTCAAGCGCTGGGCAGTTCGCGAACCCGCTGCTACCGTGGAGCCCGTTCCCGCAACGGTCTGA	MTQLITTELVDLDQNLGNSPEDVIRHLASKVAATGRATEVEGLFADAFAREQKTATGIPGGIAIPHCRSEAVTVPTLAMARLNPKVDFGAKDGPADLIFFIAAPGGADQEHLKLLSKLARSLIKKDFTAALRNASSREEIVELVDGALADKPASHAAAAPVDAVAGSAAGASAGASAVAGDGVGDAVGNGRGPKRLVAVTACPTGIAHTYMAADSLVAAAKDVGVDLQVETQGSSGAKPLDPAVIAAADAVIFAVDVDVRGKERFAGKPVINAPVKRGIDEPDKMVQEALAAADNPNARRVPHFGAEEQAQNADMEKGEHIGQKLKKALLTGVSYMIPFVAGGGLLIALGFLLGGYDITEVADTVVLENNFGNLPEGGLAIYLGAVMFKIGALSMGFLVPALAGYIAYAIADRPGIAPGFVAGAVAGFMGAGFLGGIVGGLLAGYIAHVIGTWAVPRWLRGLMPVVIIPLLASIVASGAMFLFLGGPIAGLTAGLNGWLSGMTGASAVVLGIILGLMMCFDLGGPVNKVAYAFAVAGLSAGSATNQAPWEIMATVMAAGMVPPLAMALATVLDKKRFSLAERENGKAAWLLGASFISEGAIPFAAADPLRVIPASMVGGAVTGALTMAFGVTSQAPHGGIFVFFAIGNLLMFVLAIVAGTIVSALAVLALKRWAVREPAATVEPVPATV	PGPT0017120_411	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
D1-29_00498	1053	lacC_2		Tagatose-6-phosphate kinase	ATGATCGTCACGCTCACCGCCAACCCCAGCCTGGACCGCACCGTTGCCCTGCCCGGTCCGCTCGAACGCGGCGAGGTGCAGCGCGCCGTTTCCGTCAGCCAGGAGTCCGGCGGCAAGGGAGTTAACGTCTCCCGCGCCCTGGTGGCCTCCGGGCTGGAAACTCTTGCCGTGCTTCCCGGGGCTGACAGCGACCCCGTCCTGGCAGGGCTGCGTGACACCAAAGTTCCTTTCGCTTCCCTTTCCATCGGCGAGCCGCTGCGCACCAACGTGGCTCTCACCGAGCCGGGCGGCGTGACCACCAAAATCAACGAACCCGGGCCGCTCCTGAACGAGGAACAGCAGGAAGCCCTGATCCAACTGCTGCTTGATCGCTCCCGCGGTGCCAGCTGGGTGGTTCTGGCCGGCTCGCTGCCGCCAGGCTTCCCCGCTGACTTCTACGCCACCGTCACCCGGCGGCTGCGCACCCTTGCCGACGGCGGTGCAGACGGCGGTGCCCCGCGCATCGCCGTCGACTCCTCCGGCGGACCCCTCGCTGCCGCCATAGCGGACACCCCGCAGGACGGCACGTCACAGAATGGCACGTCACAGAATGGCACCTCACAGCAAGGCGCCTCCGGGAAACCGGACCTCCTCAAACCCAACGCCGAGGAACTGGCGGAATTGGCTGCAGCAGCCGGTTTCGCCCTGGCGTCCACCGCTGACGAGCTTGAAGCGGATCCGGCGGCTGCCGCGGCAGCTGCTGCCGCCGTCGTGCGTTCCGGTGTGGGTGCTGTGCTGGCAACTCTCGGATCCAAGGGAGCTGTCCTGGTAACGGCCGACGGCGCGTGGCTGGCCACGCATCCGCCGGTCGCCGCGGTCAGTACTGTCGGTGCGGGCGATTCCTCGCTGGCCGGCTACCTGCTCGCCCACGGCCAGGGCGCCGCCCCGGCCGATTGCCTCCGTCAGGCTGTGGCACATGGTGCCGCCGCCGCTTCCCTGCCGGGTTCCACTGTCCCGGCAGTCCACCAAACCACCCCGGAAGCCGTAACCATCACGGCCCTTCGAAAGGATTGA	MIVTLTANPSLDRTVALPGPLERGEVQRAVSVSQESGGKGVNVSRALVASGLETLAVLPGADSDPVLAGLRDTKVPFASLSIGEPLRTNVALTEPGGVTTKINEPGPLLNEEQQEALIQLLLDRSRGASWVVLAGSLPPGFPADFYATVTRRLRTLADGGADGGAPRIAVDSSGGPLAAAIADTPQDGTSQNGTSQNGTSQQGASGKPDLLKPNAEELAELAAAAGFALASTADELEADPAAAAAAAAAVVRSGVGAVLATLGSKGAVLVTADGAWLATHPPVAAVSTVGAGDSSLAGYLLAHGQGAAPADCLRQAVAHGAAAASLPGSTVPAVHQTTPEAVTITALRKD	PGPT0017580_110	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
D1-29_00499	819	srlR_1	COG1349	Glucitol operon repressor	GTGTTCGCCGAGGAGCGCCAGCAGCAGATTGCCGAGCTTGTAGCCGGCAGCGGCAGGGTCAGTGTGAACCTGCTGGCCGAGCGCTTCCGCATCACCACCGAAACCGTCCGGCGGGATCTCGCCACCCTTGAATCAGCCGGCACCATCCGCCGCGTCCATGGTGGCGCCGTGGCTGCAGACCGCTTCACCACCACCGAGGAAAGCATCAAAGAGCGGGCAATCAAGCGTCCGGACCAGAAGATGCGCATCGCCCAGGCTGCCTTGGCCCTTATCCCCCAGACGCCTTCCGGAAGCATCCTGATCGACGCCGGCTCCACCACCGAGGTCCTCGCAGAACTGCTTTCCCGCCGGGCCTCCGGCGACCAGCCTTCCGTACCAGCCAGTTCCGCGGACTCCGGAAGGGAACTCGTGGTGATCACCCACGCCATCCCGATCGCCGGCAAACTGTCCACCACGCCGGGAATCGCCCTCCAGATCCTGGGCGGGCGGGTCCGCGGACTCACCCAGGCGGCCGTAGGCCAGGCCACCGTGGACGCAGCACGCCGGATCCGCCCCGACATTGCCTTCATCGGCACCAACGGCATCCACGCACGCTTTGGCCTCAGCACTCCCGATCCTGAAGAAGCCGCCGTCAAGGCAGCCTTCGTCCATTCGGCGCGCCGCATTGTGGTGCTGGCCGATTCCTCCAAGCTGGACGCGGAAACCCTGGTCCAGTTCGCCTCCCTGAAAGATCTGGACACCTTGATTACAGACAGCGAACCAAGCCCCGAACTTGCAGCCGCCCTGGCAGAGGCCGGCGTCGACGTGGTGATCGCATGA	MFAEERQQQIAELVAGSGRVSVNLLAERFRITTETVRRDLATLESAGTIRRVHGGAVAADRFTTTEESIKERAIKRPDQKMRIAQAALALIPQTPSGSILIDAGSTTEVLAELLSRRASGDQPSVPASSADSGRELVVITHAIPIAGKLSTTPGIALQILGGRVRGLTQAAVGQATVDAARRIRPDIAFIGTNGIHARFGLSTPDPEEAAVKAAFVHSARRIVVLADSSKLDAETLVQFASLKDLDTLITDSEPSPELAAALAEAGVDVVIA	PGPT0017590_111	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
D1-29_00500	258			hypothetical protein	ATGAGAATAGGTTCCTCCATTTTCCTTATCGCCCTCGGCGCCATCCTGGCTTGGGCCATCACCCCGGGTCTGATCCCCAACGTGGATCAGACGCTGATCGGCTACATCCTGATGGCCGTGGGGGTCATCGGCCTGATCGCGTCCCTCATCCTCGCGTCTCCCGGACGCAGCCGGCGCGTTAGTGAAACGCGCTCCGTAACGGATCCCAATACGGGAGAACGGATCACTCGAAACGAAAGCCGTGACGGCCAGCTGTAG	MRIGSSIFLIALGAILAWAITPGLIPNVDQTLIGYILMAVGVIGLIASLILASPGRSRRVSETRSVTDPNTGERITRNESRDGQL				NA	NA	NA	NA	NA
D1-29_00501	618			hypothetical protein	ATGAAAACAGTTGTATGGTCCAAGCCGGAGAGCGAACGGGCCGGCACCCCGCTGCTGGTGATGATGCACGGCTACGGCACGGACGAATCCCGCATGGTGCGGCTGTTTGACTACCTCCCGCCTGAATTCACCTGCGCGGCGGTGCGGGGTCCCATGGTGATCGGCGACGATTACGGCTGGTTCCTGCTGGACTACTTCCTGGCCAACGATTTCGCGGACGTCATCACCGCCACCAATGCCGTCCATACCTGGATCAACTCGGTAAAAGGCCAGCACAGCAGCGTGAGCCTGTTCGGCTACTCCCAAGGGATGGCGATGGCCAGCACCCTGCTGCGGCTTCACCCGAACGACTACACGGCCACAGTGGGTTTGTCCGGCTTTGTCCTGAACAACGAACTGCTGTCGCTGAGCGAGTCCTTTGATGCCCCGCCGCCCTTCTTCTGGGGACGGGACAAGGCCGATCTGGTCATCAACGAGGACGCCATCGAGTACACGGAAGAGTGGCTCAACGCGAACACCCGGCTCACCGCCAGGACGTACCCGGGCATGGGACACGCCATGTGCAAGGCGGAGATGGTGGACGTGAGCGCGTTCCTGCGCCACTACGTTCTCAGCTAG	MKTVVWSKPESERAGTPLLVMMHGYGTDESRMVRLFDYLPPEFTCAAVRGPMVIGDDYGWFLLDYFLANDFADVITATNAVHTWINSVKGQHSSVSLFGYSQGMAMASTLLRLHPNDYTATVGLSGFVLNNELLSLSESFDAPPPFFWGRDKADLVINEDAIEYTEEWLNANTRLTARTYPGMGHAMCKAEMVDVSAFLRHYVLS	PGPT0028515_3153	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
D1-29_00502	735		COG0637	putative protein	ATGACAGACCTGCTGAAAACCATCAGTCCCTCCTGGACCGGTGCCTCTGCCATCCTCTTTGACCTGGATGGCGTTCTGACGCCCACCGCAACTGTCCACGAACGGGCGTGGCAGGAACTCTTTGAGGGATACCTTGCCTCGCAGCCTGGCGTGACCGGCTACCAGGAAAGCGACTACTTCGACCACATCGACGGCAAGCCACGGTTCGACGGCGTCAGGGACTTCCTTGCCTCGCGCGGCATTGTGCTTCCCGAAGGTCCCACGGATGACGACCCCGCCAACGTCACCGTCCAGGGCCTGGGCAACCGGAAAAACCGGATCTTCAACGACATCGTCAGCAGCGGAGTGGAGCCGTTTGAGGGTTCTGTGCTCTTCATCGAAGCCGCGCAGGCGCTGGGACTGAAGATCGCCGTCGTCTCCTCCTCCCGCAATGCACCGGCGGTGCTGGAGGCGGCGGGCCTGAGCCAGCACTTCCGGGTTGTGGTGGACGGCGTTGTGGCAGCGGCGGAAGGCCTCCCCGGCAAACCAAGCCCCGCCACGTACGACTACGCCGCGCAACTGCTGGACCTGCCCAGCGAGGAATGCGTCGTCGTCGAAGATGCCGTCTCCGGTGTCCAGGCAGGACATTCCGGGCAGTTCCACTCGGTGATTGGCGTGGACCGCGGCGCAGGCCGCCAGACGCTGCTGGACGCCGGAGCCACCCTGGTGGTCAACGACCTCAAGGAACTCCTTTAG	MTDLLKTISPSWTGASAILFDLDGVLTPTATVHERAWQELFEGYLASQPGVTGYQESDYFDHIDGKPRFDGVRDFLASRGIVLPEGPTDDDPANVTVQGLGNRKNRIFNDIVSSGVEPFEGSVLFIEAAQALGLKIAVVSSSRNAPAVLEAAGLSQHFRVVVDGVVAAAEGLPGKPSPATYDYAAQLLDLPSEECVVVEDAVSGVQAGHSGQFHSVIGVDRGAGRQTLLDAGATLVVNDLKELL	PGPT0014080_20	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-TREHALOSE_METABOLISM,PGPT0014080-treP-K05342	NA	NA
D1-29_00503	2343	treP		Alpha,alpha-trehalose phosphorylase	ATGGCTCTCATCACCGCGGACCGCGATCGGTTCCCCAATACCCCCTGGCAACTGGTTGAAACGCGCCATGAACCGGACGACGCAGGCACGCTCGAAACCCTGTTCGCGCTGGGCAACGGCCATTTGGGTATTCGCGGGGCACATTGGGCGGCCGCAGACGCTGACCTGCCTGGCAGCTTCATCAATGGCCTGCATGAAATTTGGGACATCAAGCATGCCGAGAACGCCTTTGGGTTTGCGCGGACCGGCCAGCGGATCATCTACATCCCGGATGCGAACAACTTCACGGTTGTCATCGACGGTGAGACCCTTAGCCTGGCGGAATCTGCCGTGGCAGACTACCGGCGGTCCGTGGACTTCTCCACCGGCATCTATGAATGCCGCATCACCTGGCAGTGCCGTTCCGGCGCCACGGTGACCACCACCGAACGGCGGGCCGTTGGATTCGCCTCCCGCGGAACCCTGGGCATCTCACTGGAGGTGTCGGCGGACCGGGACGTCTCCGCCGATGTGACGTCCTCAGTCATCAACCGCCAGGACCAGCCGGTGGAGGACCATTCCGCGCACGACCCGCGCCGTGCCGGCCGCCACGCTGGGCGCGTCCTGCTGCCGTTGCGGCTCGACGGCGGCGACGGCTCACTCCGGCTCTCCTGGGAAGCTGCCGAATCCAGGCAGCGGGTAGGACTCGCCGTGGATCACTGGACCTCGGCGGGCCATCAGCCGTTTGACACGCTGGTTGACCAGGATGACAGCAGCGTCCGGTACGTCCTGGCCGTCGGCGCGGAGCAGCCCTTCCTGCTGGAGAAAAGCATCAGCTACGCCGCAGGCCGCGGTGTGCAGGATTCGGGCCAGGATGCCGCTGAAGCTGCAGAAGCAGGCCTTCGTGCTGTCCGGGACATCTTCGCTGAGAGCGAGGAGCACTACCGCGACTATTGGGCCACATCGGACATCGTGGTGGGCGGCCAGCCAGCGCTGCAGCAGGCCATCCGCTGGAACCTGTTCCAGCTGGCCCAGGCAACCGCGCGTGCCGACGTCACAGGCATCCCCGCCAAGGGCGTCACGGGCTCGGGCTATGAGGGCCACTATTTCTGGGACCAGGAGGTCTACCTCCTGCCCTACCTGACCTACACCAATCCCGCCGGCGCCCGCCAGGTCCTGGAGTTCCGGCACGACATGCTCCCCGCAGCCAAGATCCGGGCCAAGGAGCTGAGCGTAGACGGGGCGCTGTTCCCGTGGCGCACCATCAACGGGCTGGAAGCCAGCGCGTACTACGCCGCCGGTACCGCCCAGTTCCATATTGCCGCTGCCATCGCCTTCGCCACCAACCGGTACCTTTGGGCCAGTGGTGACGAAGTGTTCCGCGACGGCATGGGCTCTGAACTGCTGATCGAAACTGCCCGGATGTGGATCTCGCTGGGGTTCTTCGGCAAGGACGGCCTCTTCCACATCCACGGTGTCACTGGACCGGATGAGTACACAGCGGTGGTCAATGACAACCTCTACACCAACGTGATGGCGCGTTTTAACCTGCGTGCCGCTGCCGCCCTGGACCACATCGAAATCAGCGACGAAGAGCGCCAGCTGTGGGCGGCCGCGGCCGACCGGATGCAGCTTCCGTTCGATGAGCGGATGGAGGTCCATTCCCAGGACAACGACTTCATGACCCTGGAGCCCTGGGACTGGACAACGCCCCGGTCAAAGTACCCTCTGCTGCTGCATTTCCACCCGCTGGTGATCTACCGCCACCAGGTGCTCAAGCAGGCGGACACCGTCCTGGCGATGTTCCTGCAGTGGCAGGACTTTACGGCGGAGGAGAAGCGCCGGGCCTTTGACTTCTACGATCCCATCACCACCGGAGATTCCACGCTCTCCGCTTGTGTGCAGGGGATCATGGCTGCCGAGGTGGGGTACACCAAGGCGGCGCTGGAGCACTTCACCCACGCCCTGTTCATCGACTTGGACGACACTCACGGGAATACCATCGACGGCGTCCACATTGCCTCCACCGGCGGAGTCTGGAGCTCCCTGGTGTGCGGCTTCGCCGGTCTCCGCGACCAGGGGCCTGTGCCGTTCTTCGATCCGCGGCTGCCGTCCGGATGGGAATCCCTGTCCTTCCACCTCAAGATCCAGGGCAGGCTGCTGCTCGTGGAACTTGACGCCGGCTCCATCACCCTCAGCATCCGCGACGGCGAGCCGCTGGGCATAGACGTCCGCGGACAGGTCTTCACGGTGGGCAGCGATCCCGTCCGTGTGGCCCTGGAGCCGGTTCCGGTTCCGGAACCCACTGTGTTCCCGAGCGGACCGCCGACGGCGAGCCTGCCTGTAGTCCGCGCCCGCGCCTAG	MALITADRDRFPNTPWQLVETRHEPDDAGTLETLFALGNGHLGIRGAHWAAADADLPGSFINGLHEIWDIKHAENAFGFARTGQRIIYIPDANNFTVVIDGETLSLAESAVADYRRSVDFSTGIYECRITWQCRSGATVTTTERRAVGFASRGTLGISLEVSADRDVSADVTSSVINRQDQPVEDHSAHDPRRAGRHAGRVLLPLRLDGGDGSLRLSWEAAESRQRVGLAVDHWTSAGHQPFDTLVDQDDSSVRYVLAVGAEQPFLLEKSISYAAGRGVQDSGQDAAEAAEAGLRAVRDIFAESEEHYRDYWATSDIVVGGQPALQQAIRWNLFQLAQATARADVTGIPAKGVTGSGYEGHYFWDQEVYLLPYLTYTNPAGARQVLEFRHDMLPAAKIRAKELSVDGALFPWRTINGLEASAYYAAGTAQFHIAAAIAFATNRYLWASGDEVFRDGMGSELLIETARMWISLGFFGKDGLFHIHGVTGPDEYTAVVNDNLYTNVMARFNLRAAAALDHIEISDEERQLWAAAADRMQLPFDERMEVHSQDNDFMTLEPWDWTTPRSKYPLLLHFHPLVIYRHQVLKQADTVLAMFLQWQDFTAEEKRRAFDFYDPITTGDSTLSACVQGIMAAEVGYTKAALEHFTHALFIDLDDTHGNTIDGVHIASTGGVWSSLVCGFAGLRDQGPVPFFDPRLPSGWESLSFHLKIQGRLLLVELDAGSITLSIRDGEPLGIDVRGQVFTVGSDPVRVALEPVPVPEPTVFPSGPPTASLPVVRARA	PGPT0014080_470	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-TREHALOSE_METABOLISM,PGPT0014080-treP-K05342	NA	NA
D1-29_00504	1398	entS_1		Enterobactin exporter EntS	ATGCCAACCCCCAAGGCCCTGCGGCCGTTTGTCCACCGTGAGTACCGGGTCCTGATAGCAGCGTTGGCCATCTCAATTTTTGGTTCCGGAATGTGGGCCGTAGCAATGGTTTACCAGGTGATCCACCTGGGCGGCGGTCCGCTGGAGCTCTCCCTCGTTGCCACCGCGGGCAGCATCGGACTGGTGGCCTTTGTCCTTGCTGGAGGCATTGCCGCGGACAGGGTCCCACAGCGGCTCCTGATCATTGCCGTGGAAGGAGCAAACCTGGCGGTGATCGCCGCTCTCAGCGGGCTGTCAATGGCCGGGTGGCTTCAGCTGTGGCATGTCGCCGTGGGCGCCTTTGTGCTGGGAGTGGGGGCAGCCTTCTTCTTTCCCGCCTACTCTGCCATCCTGCCCCGGATCCTGCCGGCGGAGGACCTGCTGGCGGCGAACGGAATGGAAGGGTCCATGCGCCCCATCCTCCAGCAGGCAGCAGGACCCGCTGTGGCCGGAATCCTGGTAGCGGCTTTGTCGCCGTCCCACGCCGTGACCGGTGTGGCCGTGTGCCACTTGATGGCCTTCATCATCCTGAACTTCCTCGGCACCCACACTCTCGATGCCCCAGCCAACGGTGCCGAGGACCGCAGGACGGGAGCCGGTCACGGAAGCGCGGATGGAACAGATGGCGGAATCCCGGCAACAGGAACCCCGCCAACTGGAACCCCCTCAACAGCGGCGCCCGCCAAGTCGTCGTTTTTCCACGATCTCCGGGAGGGCATCAGCTACACGCTGCGCACTCCCTGGCTCCTGTGGACGCTGCTGTGGGCCTGCATCTCGGTGCTGTTCCTCATTGGTCCCATTGAGGTGCTGATGCCCTTTGTGGTCCGTGATCAGCTGGGCGGCGATTCAAGCATGTTCGGCTTCCTGCTGGCCACCATGGGCGTCGGCGGGGCACTGGGCTCGCTGGTGACTGCTTCCCTCAACCTGCCGCGCCGCTACCTGACGGTGATGATGGTGTCCTGGGGTGTCGGAAGCCTGCCGCTCGCCGCCGTCGGCATCATGGAAAGCTTCTTGGCGGTGGCTGCCGCCATGTTCGTGTTCGGAGCCACCGGAAGCGTGGGCATGGTTATCTGGGGCACACTGCTCCAGCGCCGCGTTCCGCCGCATCTGTTGGGCCGGGTCTCAAGCCTTGATTTCTTTGTTTCCCTGGCCCTGATGCCTGTCTCCATGGCCTTGGCCGGTCCTGCCGCGGAGGTGCTCCCCATCTGGCTGATCTTCCTGGTGGCCGGCTGCGTCTGCCCCATCGTGGCAGTGGTCGCATCGATCGTCGCGAAAATGCCGCAGGACGAACTCGCCCACCCGCTGGACAGAGACCCAGGGATGGAGCGAATGGAACGCACGACGGCGGCAGGAGACTGA	MPTPKALRPFVHREYRVLIAALAISIFGSGMWAVAMVYQVIHLGGGPLELSLVATAGSIGLVAFVLAGGIAADRVPQRLLIIAVEGANLAVIAALSGLSMAGWLQLWHVAVGAFVLGVGAAFFFPAYSAILPRILPAEDLLAANGMEGSMRPILQQAAGPAVAGILVAALSPSHAVTGVAVCHLMAFIILNFLGTHTLDAPANGAEDRRTGAGHGSADGTDGGIPATGTPPTGTPSTAAPAKSSFFHDLREGISYTLRTPWLLWTLLWACISVLFLIGPIEVLMPFVVRDQLGGDSSMFGFLLATMGVGGALGSLVTASLNLPRRYLTVMMVSWGVGSLPLAAVGIMESFLAVAAAMFVFGATGSVGMVIWGTLLQRRVPPHLLGRVSSLDFFVSLALMPVSMALAGPAAEVLPIWLIFLVAGCVCPIVAVVASIVAKMPQDELAHPLDRDPGMERMERTTAAGD	PGPT0027890_21	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
D1-29_00505	519			hypothetical protein	ATGCAAGACATCAGCGGGGCGATCTCGCGCCTCAGCACACCCGCCGGTTCTTCAGTGCCAACCAGGAACAAAATTGCCATCTACGTCTTCAACCCGGGGCTGGACCGGTACCTCACGTTCGTACAGCCTGGCTACCCGGAAGCGGGCAGACAGGTTCCCGCCGGAACCATCGAAGCGGGAGAGACACCACTTCAGGCAGCCTCCAGGGAGCTTGGAGAAGAGACGGGACGGGCCGCCGGACTCCCGCTTTTCCATTTCGCGGACACCATTTACGACATGCGCGAGTACAAGCCGGAGATCCACCATCGCAGCTGGTTTTTCGGCATCGCAGCCGCCGATGAATTTCCCTCGGGACCATGGAACCACGTTGAACGCCGGGGCGGTCGAATAGAACAGGTAGCGGAATTCTCCTGGACGGACACGTCAGCCGAGGAGGAACTGATTGCAGGCCATGGCCATCTTTTGCCGCTCGCCCTGCACCTGGCCCGATCCTGGGATACTGGCCAACTGCCTGGATGA	MQDISGAISRLSTPAGSSVPTRNKIAIYVFNPGLDRYLTFVQPGYPEAGRQVPAGTIEAGETPLQAASRELGEETGRAAGLPLFHFADTIYDMREYKPEIHHRSWFFGIAAADEFPSGPWNHVERRGGRIEQVAEFSWTDTSAEEELIAGHGHLLPLALHLARSWDTGQLPG				NA	NA	NA	NA	NA
D1-29_00506	990		COG1131	Multidrug efflux system ATP-binding protein	ATGCACACAGACTCATCTCCCGTCATCCACACCGCTCAACTTGTGAAGAACTTTGGGCGGACCGTCGCGCTCGCGGGTCTGGACCTCTCTGTTTTGCCCGGGGAAGTTCACGGTTTCCTCGGGCCCAACGGAGCTGGAAAATCCACCACGCTTCGCATTCTTCTGGGTTTGATACGGCCAACCTCGGGAACGGCACGGGTTTTCGGCATCGACCCGTGGGCTGAGCCGGTGCGGGCCCACCGCGATGTTGCCTACGTCCCCGGGGACGTGACGCTCTGGCCCAACCTGACCGGCGGTGAGGTCATCGACCTGCTCGCCGGGCTGCGCGGCGGTGCGGATGAAAACCTGCGTCGGCAACTCATTGATGAGTTCGATTTCGATCCACGTAAGAAGGCGAGGACCTACTCGAAGGGCAACCGGCAGAAAGCTGCCCTGATTGCGGCCTTTGCCCGCCCCGCCAGGCTCTACCTGCTGGACGAACCCAGCTCGGGCCTGGACCCGGTGATGGACGCCGTCTTCCGCCGCCATGTCCGCCGGGTCACCGCGGACGGTGCCACCGTGCTGCTGTCCAGCCACATCCTGGCAGAGGTGGAACAACTCTGCGACAGGGTGACCATCATCCGGTCTGGTGTGGCCGTGGAATCCGGGACCCTGGCCGAACTCCGGCACCTCACCCGCACCCGCTTCCGGGTCACGTCGGCGGCGACACCAGAGGTGCTGTCCACTTGGCGGGGCATCCACGACCTGCGCGTTGACGGGACATCCATAGAGTTCGACGCCGATGCAGCGGACCTGGGCCACGTCCTGGAGGCGTTGGCTACTGCCGGCATTACGGGCATCACCGCGGCGCCGCCTTCGCTGGAGGAGCTGTTCATGCGCCACTACGGTGTGCAGGATGCCGCGCAGGATGCAGGGCTGGCCAGCCACAAGAGTCTTGCCAGCCACAAGAGTCAGGCAGGCCACAAGAGCCAGAAGAGCCAGGTGCTGTGA	MHTDSSPVIHTAQLVKNFGRTVALAGLDLSVLPGEVHGFLGPNGAGKSTTLRILLGLIRPTSGTARVFGIDPWAEPVRAHRDVAYVPGDVTLWPNLTGGEVIDLLAGLRGGADENLRRQLIDEFDFDPRKKARTYSKGNRQKAALIAAFARPARLYLLDEPSSGLDPVMDAVFRRHVRRVTADGATVLLSSHILAEVEQLCDRVTIIRSGVAVESGTLAELRHLTRTRFRVTSAATPEVLSTWRGIHDLRVDGTSIEFDADAADLGHVLEALATAGITGITAAPPSLEELFMRHYGVQDAAQDAGLASHKSLASHKSQAGHKSQKSQVL	PGPT0006725_12463	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-29_00507	1620		COG3559	Multidrug efflux system permease protein	ATGCGCACCGTTCTCCGGCTGGCCCTGCTCCAGGCACGCAGGGATCGCGGGACCCTCGGAGCCTGGATCCTGGGCGTCGCCGGACTGGGCTACGCGGCAGCCACCGCCGTCACCACACAGTTTGGCGAGGATACCGACCGTGCCGCCCTGATTTCCGTGGCTGCAGCCAGCCCGGCGTTCCTGTTCCTCCGGGGGCTGCCCGACGGCATCAGCTCCGGAGCGGTCACCTTCTTCCAGGGCTATTCGTTCACGGCAGTGCTGGCCGGGCTGATGAGCGCGTTCCTTGTGGTCCGGCACACCCGCGCGGATGAGGATCAGGGCCGGTTTGAGCTGGTCGGTTCCACCCGGGTCACCCGGGTGACGTCCCTGTACGCAACCCTGCTGCTCGGCACCTGCGCCAACGTGGTCCTTGCCCTGGCCGTTGCCGCCGGATTCATCGGTGCCGGCCTCCCGGTCCAAGGATCATTCCTGGCGGGGACAGCTGTTGGCTCCGTGGGTCTGTTCTTCATGGCGGCCGCCGCGCTGGTAGCCCAGGTCATGCCCTCCGCCAGGAGCGCCAACGGGACAGCCGCGGCGCTGGTGGGTGGCGCCTACCTGATCCGCGGTGCCGGCGACGCCCTCGGCACAGCCGACCCCTCCTTGCTGCACGTCACCGCCGCCTGGCCCTCACTGTTCTCACCCATCGGCTGGGGCCAGCGCATCCGGCCCTTCACCGAGACGGATACGCTGCCGTTGCTGGTTATCGGCGCCGTTGCCGTGGTGCTGGCAGGGATTGCCGTGGTGCTCCGCAACGGCAGGGACCTGGGCGCTAGCTACATCGCTGCGGATGAGTCGGGCGCGGAACGGGCGGGCGCCGGCCTGGCATCGATGCTGGGCCTCGCATGGCGGCTGCAGCGTGGAAGCCTGGCCAGCTGGTGCTTCACCACTGCTGCCCTGGGGGCCGTGGCCGGTGGTCTGGGTCCGGTGGTCCGCGACGCACTGGAAGGAAACCCGTCCGTGGCGGAACTGATGAGCCGCATCGTTCCAGGCGACGCGGGCCTGGTGGACCTGTTCACCACTGCCATGCTGGGCATCGCCGGGATCCTCGCCGCTGCCGCGGGCATTGAGGCGGTGCTGCGGCTCAGGGCGGAAGAGGCGGAAGGGCGGGCCGAACTGCTGCTGTCCGTGCCGGCGTCGCGGTTCCGCTGGCTGGGCAGCACCCTCGCCGTTGCGGCAATTACGACGACGGCTGTTGCCGTTGCCGCCGGAGCCGCTGCCGCCGTCGTGCTCGCCCTGGGTCAGGCAGGGGGAAGCAGCCCCGGCACCGTGTTTGCCGCCGCCCTGGCACACATCCCGGCAGCACTTGTTTTCCCGGCAGTGACCGTGCTGGTATTCGCGCTCGCACCCCGCTGGAGCAGTGCCGTCGGCTGGAGTGCCTTGGCCGCCGCGCTGGTCCTGGGGCAGTTTGGGGAGCTGCTCAGCCTGCCCGTGTGGCTTCAGGACCTGAGCCCCTTCCGGCATTCCTCAGCCATGCCGGTGGAGGCCTTCAAGCCGGAAGGCGCGTTGCTGATGCTTGCCATCGCCATAGCCTTTGCTGCGGTGGCCAGCTGGCAGGTGGGTGAAAGAGACGTCACCACCTGA	MRTVLRLALLQARRDRGTLGAWILGVAGLGYAAATAVTTQFGEDTDRAALISVAAASPAFLFLRGLPDGISSGAVTFFQGYSFTAVLAGLMSAFLVVRHTRADEDQGRFELVGSTRVTRVTSLYATLLLGTCANVVLALAVAAGFIGAGLPVQGSFLAGTAVGSVGLFFMAAAALVAQVMPSARSANGTAAALVGGAYLIRGAGDALGTADPSLLHVTAAWPSLFSPIGWGQRIRPFTETDTLPLLVIGAVAVVLAGIAVVLRNGRDLGASYIAADESGAERAGAGLASMLGLAWRLQRGSLASWCFTTAALGAVAGGLGPVVRDALEGNPSVAELMSRIVPGDAGLVDLFTTAMLGIAGILAAAAGIEAVLRLRAEEAEGRAELLLSVPASRFRWLGSTLAVAAITTTAVAVAAGAAAAVVLALGQAGGSSPGTVFAAALAHIPAALVFPAVTVLVFALAPRWSSAVGWSALAAALVLGQFGELLSLPVWLQDLSPFRHSSAMPVEAFKPEGALLMLAIAIAFAAVASWQVGERDVTT				NA	NA	NA	NA	NA
D1-29_00508	651			hypothetical protein	TTGGGCGAGGCTCTGGTACACGAGCTGTCGGCCGGCGGGTGGAGGGTGCTTGCTGTCGTAAAGCAGGCTTCGCACGCTGAAGCGCTTCAGGGCCTGGTCGGCGTCGATTCCGTGGTGTACGACGTTAGGTCCGACGATGTGCGGGCCGTCCTTGATGCCGTGAAGGATCAGCCCGTTGACGTCCTCATCAACAATGCTGCCCGGGGTGCGCCGCATCAGCCGCTGGGATCTGTTCAGGTGGACGCTGTGCTCAACTCTGTAGATGTCAACGTGGCAGGCCCGCTCCGAATGGTTCAGGCCCTGCTGCCGAGTCTCCTCGGGAGCACCGACCCGGTCATCATCAACATCAGCTCGAGACTGGGTTCTGCCTCAGCACAGGCGCGCGGCGACTTCACCCACCTCTCAACCAGCTACGCTTACAGGATTTCAAAAGCTGCACAAAACATGCTGACCATATCCCTGGCTCATGACCTGCGTGGAAAGGTCCGCTGTTGGGCCGTGCATCCCGGCAAACTGGCAACTGACCTGGGACAAGCCGACGCCGTGAAGCATCCACGCGAGGCGGCACAACAGCTCAGGTTGCTCCTGGAAACCGCCGACGGGCGTTCCCCGCGCTTTGTCTCCCTCGGGGAAACAGACCTGGATTGGTAG	MGEALVHELSAGGWRVLAVVKQASHAEALQGLVGVDSVVYDVRSDDVRAVLDAVKDQPVDVLINNAARGAPHQPLGSVQVDAVLNSVDVNVAGPLRMVQALLPSLLGSTDPVIINISSRLGSASAQARGDFTHLSTSYAYRISKAAQNMLTISLAHDLRGKVRCWAVHPGKLATDLGQADAVKHPREAAQQLRLLLETADGRSPRFVSLGETDLDW				NA	NA	NA	NA	NA
D1-29_00509	807			hypothetical protein	ATGGCCCAGCGAAGCAACCCAGCACTACGAATCACCCAGCAAGCCGCCCACAATGCGGTGTTCGACGCCGAAGGCAACCCGAAACCCGGCCTGCACAACATGCTGCTCCGGGCCGTAGAGATCCAGCGGCCGCTGGTCCTCGCGTACATCAATAGGCTGCAGCGGAAGCATCCGCGCGCCTCGGCAGCGCAGCTGGCCAATATCCTGGAACGCGACTACCTCCGTGCCGTCACAGGAGGAGGGGCGATCGTGGGGGCCACGGCTGTGGTGCCCGGTGTTGGGACCATCGCCTCCTTGGGGTTGTCTGCCGCAGCCACCGTGGGCTTCCTTGAGGCGACTGCCCTCTACGCCACGTCGCTCGCAGAGCTTCATGGCATCCGTCTGACCAACCCGGAGAAAGCCAGCACCATGGTGATGGCCATCATGCTGGGCGAGGAAGGAACAGCGCTGCTGGGCACGTTGAGCGGTCAGGCCACGGGCAGGGGAGTGGGTGCCACAAAGGCGTGGGGCAACGTTCTTTCCAAATCCATGCCGTCCCCCAGCTTCGGCTCCATCCGGAACAGAATCCAGAAAGCCTTCCTGAAAAACCTCCTGAGGCGCCAGGGCACGGCCCTCTTCGGCCGCGCCCTTCCGTTTGGCATCGGCGCTGTGGTGGGCGGGGCGGGTAACCTCATGATGGGCCGGGCAGTGGTGGCCAACGCCAAAGAGGCCTTCGGTCCCATGCCCGACACCATCCCGGGAGAGCTTAAAGCAACCGCCACGGCACCGGACAACCTCACGCTGGAAGGCAACAACTTTGGATCTTAA	MAQRSNPALRITQQAAHNAVFDAEGNPKPGLHNMLLRAVEIQRPLVLAYINRLQRKHPRASAAQLANILERDYLRAVTGGGAIVGATAVVPGVGTIASLGLSAAATVGFLEATALYATSLAELHGIRLTNPEKASTMVMAIMLGEEGTALLGTLSGQATGRGVGATKAWGNVLSKSMPSPSFGSIRNRIQKAFLKNLLRRQGTALFGRALPFGIGAVVGGAGNLMMGRAVVANAKEAFGPMPDTIPGELKATATAPDNLTLEGNNFGS				NA	NA	NA	NA	NA
D1-29_00510	750	pxpA_2		5-oxoprolinase subunit A	TTGGATCTTAACGCTGACCTCGGCGAATCATTCGGCTCCTGGACCATGGGGGACGACGCCGCAATGTTTCGCCTGGTCACCAGCGCCAATGTGGCCTGCGGTTTTCACGCGGGCGATCCCGTCACCATGCTGGACAGCTGCCGAGCGGCCTTCGAACTCGACGTGACGGTGGGCGCCCACGTGGGCTACCGCGACCTGGCCGGCTTTGGCCGGCGCTCCCTGGACATGTCCTTCGACGAACTTTTCGGCGATGTGCTCTACCAGCTCGGCGCGCTGGACGGTGTGGCTCATGCGGTGGGGGCATCGGTTGACTATGTGAAACCTCATGGCGCGCTGTACAACCGCCTGGTCCACGACGCGGACCAGGCCTCCGCAGTGGTAGCAGCCATTCAGGCTTACGATCCCGGCCTGCCCATCCTTGGTCTACCGGGATCGGAGCTTCTCATTCACGCTAAGGAAGCCGGCCACCCTGTGTTTATCGAGGCCTTTGTGGACCGTGCTTACCGTGCGGATGGCACTCTGGTGCCGCGCTCACAGGAAGGCGCCGTCCTGCACGACGTCGACTCGATCGTTGAGCGTGCCGTTCGCCTTGCCACAAAGGGCGAAGTGGAGGCCGTGGACGGGACCATAGTTCAGGTGAGGCCCGATTCCCTGTGCATCCACGGGGACACTCCGGGCGCTGTGGAGATGGCCGCGGGCGTCCGGGCAGGCCTTGAGGCAGCAGGGGTCCAGTTGGAGTCCTTCGCCTAG	MDLNADLGESFGSWTMGDDAAMFRLVTSANVACGFHAGDPVTMLDSCRAAFELDVTVGAHVGYRDLAGFGRRSLDMSFDELFGDVLYQLGALDGVAHAVGASVDYVKPHGALYNRLVHDADQASAVVAAIQAYDPGLPILGLPGSELLIHAKEAGHPVFIEAFVDRAYRADGTLVPRSQEGAVLHDVDSIVERAVRLATKGEVEAVDGTIVQVRPDSLCIHGDTPGAVEMAAGVRAGLEAAGVQLESFA				NA	NA	NA	NA	NA
D1-29_00511	1620			hypothetical protein	ATGGACAACGGGGAAGTCTTGGAAGCAGTCGAAGCACCTGATGCTGCCCTCGTCAAAATCGAAGCGGCCTCCTCCGCTGCCGCCACAGGTTCTGATCCTGGTCCTGATTCAGTAGCCGAAATTGATACTGATCCGTTGCGGGATTTGGCGGAGGACTGCCTGGCCGTCATGGCGGAGGCTGCCCGTGACGAAGCCCGCGCAGCAGCGCGGAAGGCCCGGGCTGCTGCCACCTACGCGGACACCTGCCGGCGCCTGCTTCCCCCGTCGGCGTCGCTGCACGACCAATCGACGGCGGAGATGGGCATGGTCGCGGAGGTCGCCTGTGTCCTGACCATCAGCGAAGGCGCCGCCTCGGCGTTCCTGGTCCAGTCCCGCCAGCTGAGCACCGAACTGCCGCGCACCCTGTCCGCCCTGCAGGCCGGGGCCGTGTCATGGCCGCTCGCCCGGATCTTCTGCGATGAAACCACCGGCCTGGGCCCAGACGGCGCGTCCGCCCTGGAAACACACTTCCTGGACCCCGACACCGCCAATGCTGCCCGCGCCTGCCTCGCCGGGGACCTCACGCCCTCCCGGTTCCGCGCCAGGGCCCGGACCTGGCGCGAACGCCACCACCCCGTCTCGATCGAAACCCGCCACGCCAAGTGCGTCCTGGACCGCCGCCTCGAGTACACCCCGGACCGCGACGGGATGGCCTGGCTCTCCGCCTACCTGCCCGCAGACCAGGCCGCCGGCATCTGGGAACACACCACCAGCACAGCCCGGGCACTCCAAGGCCCCACCGAGCCCCGCACCCTCACCCAACTCCGCGCCGACACCTTCGCCACCGCACTCCTCGGCGGAGGAACCACCACCAGCGGCAACATCAGCAGTTCAGCACTCATGGGTGGCGGGAGCGCCAATGGAGGGATAAGCGGCGGCGGCAGCACGAACGGCCAAATCACCAGCTGGCGTACCGGCAGCGGAGGGACCAACGGCGCGGGAAGCGACAACGGCTGGATAAGCGGCGGGGAAAGCGGCAGCGGCGCTCTCCTCGGTGACGGAAGCGACAACGGCGTAAATAGCCTTGCCGATTGGGACGGAGAGCGCGCTGCCGGGCAGGTCCGGCCGCCGCGGGCCCAGGTGCTGGTCACAGTGCCCGTGTTCTCGCTGCTGGGCCTGACCGATGAACCCGCCACCCTGGACGGCCACGGCCCCATCCCGGCCTCCATGGCCAGGAACCTGGTCGCCAACGGAGCCGACTCCTTCCACCGCGTCCTGACCGACCCCCGCGACGGCGCACCACTGGAAATCGGCCGAACCAGCTACCGCCTCACCACAGCCATGCGCCGCTGGCTCAGACTCCGCGACGCCAAATGCCCCTTCCCCGGCTGCAACAACCACTCCCTCGACAACGAAGCAGACCACCTCCTCGCCTGGGCAAACGGCGGCACTACCGGCATCAACAACCTCGGCCAACCCTGCCGCAAACACCACCACCTCAAACACAACACCACCTGGCAACCAACCCAGGCCAGCAAAAACGAACCACCAGGCTGGACCTCACCCACCGGCCGACACTACAAAAGCGAACACCAAGACTGGGAACCACCCCAGTGGCCACAGGGTATGGATTCCTCCTGA	MDNGEVLEAVEAPDAALVKIEAASSAAATGSDPGPDSVAEIDTDPLRDLAEDCLAVMAEAARDEARAAARKARAAATYADTCRRLLPPSASLHDQSTAEMGMVAEVACVLTISEGAASAFLVQSRQLSTELPRTLSALQAGAVSWPLARIFCDETTGLGPDGASALETHFLDPDTANAARACLAGDLTPSRFRARARTWRERHHPVSIETRHAKCVLDRRLEYTPDRDGMAWLSAYLPADQAAGIWEHTTSTARALQGPTEPRTLTQLRADTFATALLGGGTTTSGNISSSALMGGGSANGGISGGGSTNGQITSWRTGSGGTNGAGSDNGWISGGESGSGALLGDGSDNGVNSLADWDGERAAGQVRPPRAQVLVTVPVFSLLGLTDEPATLDGHGPIPASMARNLVANGADSFHRVLTDPRDGAPLEIGRTSYRLTTAMRRWLRLRDAKCPFPGCNNHSLDNEADHLLAWANGGTTGINNLGQPCRKHHHLKHNTTWQPTQASKNEPPGWTSPTGRHYKSEHQDWEPPQWPQGMDSS				NA	NA	NA	NA	NA
D1-29_00512	1377			IS256 family transposase ISAar6	GTGGCTATGACTAGACCCCGTGAGGTGTCCCCGGAGGAGTTGGCCCGCAGGGCTGCGGCGGCCGGCAGCATGGAGGCGTTGAAGGCTTCGGGCGCGTTCGATGAGCTGATGAACCAGATCGATTCCGGACAGCTGGAACTCGACGGCAAGGACGGTTTCATCCAGCAGCTGATCAAGGCCTCGCTGGAACGCGGGCTCCAGGCCGAGCTGTCGGGGCATCTGGGCTATGACAAGGGCGATCCGATCGGGCGTTTCCTGCCTAACGCCCGCAATGGGTCTTATCCGAAGACGCTCGGGACCTCCGCGGGGGACGTGGATCTGGCCGTGCCTCGTGACCGTGCTGGGTCATTCACCCCGCATCTGGTCCCGAAGGGTGCGCGCCGGACAGGTGGCCTGGATGACATGATTATCAGCCTTTACGCCGGCGGGATGACGGTCCGGGACATCGCCCACCATCTGGAATCCACGCTGGGCACGGAGCTGTCCCACGAGACGATTTCCAAGATCACCGATGAGGTCCTGGACGAGGTGATGGAGTGGCAGAAACGCCCACTGGAGCCGCTGTATCCGATCCTGTATCTGGATGCGATCATCATCAAGGTCCGTGACGGGCACCAAGTGCAGAACCGTGCCGCGCACATTGCCGTGGGCGTGGACATGGACGGGATCAAGCACGTTCTGGGGATCTGGGTCGAAGCTACCGAGGGTGCGAAGTTCTGGGCAGGGGTCTGCGCCGAGCTCGCCAACCGCGGCGTGAAGGACGTTCTGATCGTCTGTTGCGACGGGCTCACCGGCTTCCCTGAGGCGATCGCCGCGACCTGGCCGGCCGCGACCGTCCAGACCTGTGTCGTGCACCTGATCCGTGCCTCGATGCGCTTCATCGGCTACCAGGACCGGAAGAAGGTCGCGTCCGCTCTGAGGCCGGTTTACACCGCCCCGACGGCCGACGCCGCGCAGGAGGCACTCGATGCATTCGAGGCCTCCGATCTGGGACGGAAGTATCCCGCAACTGTACGAACCTGGCGCAACGGTTGGGAGAGATTCATCCCCTTCCTGGCGTTCCCACCGCCGGTCAGACGGATTATTTACACCACGAACGCGATCGAGTCGCTGAATTACCAGCTGCGCAAGATCATCAAGAACCGCGGGCATTTCCCCAACGACCAGGCGGCCGTGAAGCTACTCTGGCTGGCGATCTGCAACATCGAGGACAAACGCACCAGTGCCCGGACCAAGCTTGAAGGCAGAGCCCGGGAAAACCGTGCCAAGACGGTGAACAAACTCATCGAGGGAACCTTCACACCTGGATGGAGCGAAGCCCTTGGCGTCCTCCTCCTGAACTATCCCGACAGACTCGGACCTTACCTAAACCGATGA	MAMTRPREVSPEELARRAAAAGSMEALKASGAFDELMNQIDSGQLELDGKDGFIQQLIKASLERGLQAELSGHLGYDKGDPIGRFLPNARNGSYPKTLGTSAGDVDLAVPRDRAGSFTPHLVPKGARRTGGLDDMIISLYAGGMTVRDIAHHLESTLGTELSHETISKITDEVLDEVMEWQKRPLEPLYPILYLDAIIIKVRDGHQVQNRAAHIAVGVDMDGIKHVLGIWVEATEGAKFWAGVCAELANRGVKDVLIVCCDGLTGFPEAIAATWPAATVQTCVVHLIRASMRFIGYQDRKKVASALRPVYTAPTADAAQEALDAFEASDLGRKYPATVRTWRNGWERFIPFLAFPPPVRRIIYTTNAIESLNYQLRKIIKNRGHFPNDQAAVKLLWLAICNIEDKRTSARTKLEGRARENRAKTVNKLIEGTFTPGWSEALGVLLLNYPDRLGPYLNR	PGPT0030665_23	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030665-putative_transposase-K07493	NA	NA
D1-29_00513	1338			hypothetical protein	ATGCAGGTGAACTCTGAACCAATTACCCAGCAGGCCCCTCACGGACCGTCCGGGCCCCTGCAAAGGGGAGCCGCCGCCGTCGGACATCAATTCAGCGCAGGGGACGCCGAAAAGGCGGCAGCGCTGCGGAAGATGAAACTCGTGGCGCTGGGCCTCCTCATTGCCATGGCCATCGTTTTTGTTTTCGCTTTCGCTTTGCAACGGGAATACCCGTGGCTTCAGTATGTCCGGGCAGCGGCGGAGGGCGGCATGGTGGGTGCGCTGGCCGACTGGTTCGCCGTGACCGCGCTTTTCAAATACCCGATGGGCATCAAGATCCCGCATACCGCCATTATTCCCCGTCGCAAGGATCAGATCGGCGCGTCACTGGGCGAGTTTGTGGAAACCAACTTCCTCTCGGAGCAGGTGGTCCAGGACAAACTCGCGAGCATCAACATCGCACGGAAGGCCGGCGAATGGCTCGCTGCCCCTGGCGGCGCCGAGCGCGTGGCCAAGGAAGGTGCCGCCGTCATTCGCGGTGCGTTTAAGGTCCTGAACGACGACGACGTCCAGGCAGTCATTGAAGGCATGGTCCGCAAGCACCTGCTGGCTCCGCCGTGGGGACCGCCGGTGGGCAGGATGGCGGAACGGATTTTCGCCGAAGGGCACCATCACCAACTGGTGGACCTGCTGGTGGACAGGGCGGCGGACTGGGTCAACGACAACCATGAGACTGTCAGCAGGCTCGTTTCGGACCGCTCGCCAACGTGGGTCCCGCCGTTCGTGGACGGCCTGGTGGGCGACAAGGTCTACGTGGAAATCCTCAAATTCACCCGCGCTGTGCAGGCGGATCCCAATCACCAGGTCCGCAAGTCCATCGACAAGTACCTCAACGACTTGGCGCAGGACCTGCAGTACGATCCGGCGATGATTGCCCGTGCTGAGGACATCAAGGCGCAGGTCCTGGGAGACCCGGAGGTACGCGAGCTGGCTTCCCGGACGTGGGGCACTGTGAAGAGTGCGCTGCTCAGCGCCGTGGACGATCCGGACAGCGACCTCACCGTTCGGTTCAAGGCGGCCGTCCGTGACTTCGGCTCTCGCCTGGTGAAGGACGACGAACTTGCTGGCAAGGTCAACGCTTGGATTGGGGACGCCGCGGGTTACCTGGTCCGCACCTACCGCTCCGACATTGCCGGCGTCATCACCGACACCGTGGCGCGCTGGGACGCTGAGGAGACCTCACAGAAGATCGAGCTGCAGGTGGGCAAGGACCTGCAGTTCATCCGCATCAACGGCACAGTGGTGGGTTCGCTGGCAGGGCTGGCAATCTTCACGGTGGCGCACCTGGTGTTCGGCTGA	MQVNSEPITQQAPHGPSGPLQRGAAAVGHQFSAGDAEKAAALRKMKLVALGLLIAMAIVFVFAFALQREYPWLQYVRAAAEGGMVGALADWFAVTALFKYPMGIKIPHTAIIPRRKDQIGASLGEFVETNFLSEQVVQDKLASINIARKAGEWLAAPGGAERVAKEGAAVIRGAFKVLNDDDVQAVIEGMVRKHLLAPPWGPPVGRMAERIFAEGHHHQLVDLLVDRAADWVNDNHETVSRLVSDRSPTWVPPFVDGLVGDKVYVEILKFTRAVQADPNHQVRKSIDKYLNDLAQDLQYDPAMIARAEDIKAQVLGDPEVRELASRTWGTVKSALLSAVDDPDSDLTVRFKAAVRDFGSRLVKDDELAGKVNAWIGDAAGYLVRTYRSDIAGVITDTVARWDAEETSQKIELQVGKDLQFIRINGTVVGSLAGLAIFTVAHLVFG				NA	NA	NA	NA	NA
D1-29_00514	870	glpQ1	COG0584	putative glycerophosphodiester phosphodiesterase 1	ATGCACTTGAGGCCCTTGGTCTTCGCCCACAGGGGGTCCAGCGCCCTGTTCGCCGAACACACGCGGGCGGCCTACCTGCAGGCCCTTGCCGAAGGCGTTGACGGCGTGGAGTGCGATGTCCACCTCACCCGGGACCAGCACGCAGTACTTATCCATGACGCCAATCTGGACCGCACTTCAGACGGCACCGGTCCCGTGGCCGAGCGCTCGCTCCGCGAATTGCGCCTGCTCGATTTTTCCTCTTGGAAAGGTGCCAGGATTCCCGAGAAGTTCGGGGCGCGCTCCGAGCAGTTCCTTACTCTCTCTGAACTCCTGGATCTCCTGCGCGGGGCAGGCCGGCCGATTGCGCTGGCCATCGAGCTGAAACATCCCAGCCCCTTCCAGCTCAAACTCGAGGACCGGGTGCTGGACGTTCTGCGCAGTGAGGGTTGGGACGCGGCAACATCGTCCCTGGACAACGTCACGGTGACATTCATGAGCTTCAGCCCGGATTCGGTGAGGCACCTGCTCCGGCAGGTGCCTGCTGAATTCATCTGCCAGCTGGTGGATGACATCGACGTTCACGAAATTCGGGAGGAACTGGGCCTTGGCCTGCTCACGGGCAGTGCCATCGCCAACGTCATGAAGGCGGCGCAACTCGAAGGCGAACGGATCCTGGACGACTGCGAGGTGCGGCTGGCAGGTCCTGGCATAGACTACGTCCGCCAGCACGCCCGGAACGTCCAGCGCTGGCTGGATTCCGGCCGCCGCTTCCGGGTTTGGACCGTTGACTCGGAACGGGACGTGGCGCTGTGCCAGGGCTTGGGCATCCACGAAATCACCACCAACGTGCCTGCCCGAGTGCTGGCGCAGCTTCAGCTGCCCGTCTAG	MHLRPLVFAHRGSSALFAEHTRAAYLQALAEGVDGVECDVHLTRDQHAVLIHDANLDRTSDGTGPVAERSLRELRLLDFSSWKGARIPEKFGARSEQFLTLSELLDLLRGAGRPIALAIELKHPSPFQLKLEDRVLDVLRSEGWDAATSSLDNVTVTFMSFSPDSVRHLLRQVPAEFICQLVDDIDVHEIREELGLGLLTGSAIANVMKAAQLEGERILDDCEVRLAGPGIDYVRQHARNVQRWLDSGRRFRVWTVDSERDVALCQGLGIHEITTNVPARVLAQLQLPV	PGPT0018470_3660	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
D1-29_00515	747			hypothetical protein	GTGAAAGTCCTGGCATCGCCCGCCGTGCGCGTGGGGATCTCCATCAGCATCGCAACGGGGCTTTACGGTGTGTCGTTCGGGGCCCTCTCTGTCACGTCGGGGCTCGATTTCTGGCAGACCATGGCGCTCAGCCTGCTGCTCTTCAGCGGCGGTTCGCAGTTCGCATTCATTGGCGTTGTCTCAGGCGGCGGCTCGGGCCTTGCTGCCATGACCGCGGCCACTCTGCTGGGCATGCGCAACGGGGTCTACGGCATCCAGCTCAATGCTCTCCTGCACCCCACCGGCTGGCGCAAATACGTGGCCGCACAGCTGACCATCGACGAGTCCACCGCCACCAGTACCGGACAGACGGATCCTGCGGAGCAGCGGCGCGGCTTCTGGACTGCCGGCGTGGGCATCTACGTTCTGTGGAACCTCTTTACTGCTGTGGGGGCACTCGCGGGAAGCGGACTAGGTGATCCGAAGCAGTGGGGCCTGGACGGCGCCGCGGTGGCCGCCTTCCTGGCGCTGCTGTGGCCCAGGCTCAAGGGACGGGAACCGGTGGCGATCGCCGTCGTGTGCGCCCTGGCTACCGTGATGGCAGTGCCGTTCGTGCCTGCAGGGGTGCCCATCCTCGTCGCTGCTGTGGTGGCCGCCGTGATGGGCTGGTTTGGGCATGGCCGCAGCGACGAAGGGTTGGAGCCCGATGTTGATCCCTACGCTGAACACCATCACGGCCACCACACGTCCCGCCAGGAGGGCCAGTGA	MKVLASPAVRVGISISIATGLYGVSFGALSVTSGLDFWQTMALSLLLFSGGSQFAFIGVVSGGGSGLAAMTAATLLGMRNGVYGIQLNALLHPTGWRKYVAAQLTIDESTATSTGQTDPAEQRRGFWTAGVGIYVLWNLFTAVGALAGSGLGDPKQWGLDGAAVAAFLALLWPRLKGREPVAIAVVCALATVMAVPFVPAGVPILVAAVVAAVMGWFGHGRSDEGLEPDVDPYAEHHHGHHTSRQEGQ				NA	NA	NA	NA	NA
D1-29_00516	312			hypothetical protein	GTGAATCTCTGGATTTGGCTGTTGCTGGCTTGTGTCCTGGCCTACGGCTGGAAGCTGGTGGGCTATTTTGTTCCCGCTAAGTTCCTCCAGGATCCGCGTATGTCCCGTGTGGCCGGCACCCTGACCATCGGGCTCCTGGCCTCCCTGACCATCGTGAATGCTGTGGCTACCGGCCAGACCGTCGCTTTTGACGCGAGGCTGGGAGCGCTGGCCGCGGCCGCCGTCGCCCTGGCTTTTCGGGCACCGTTCCTGCTGGTGGTTGTTGCCGGCGCCGGCACGGCAGCCGTCCTCCGGCTGCTCGGATGGAATTGA	MNLWIWLLLACVLAYGWKLVGYFVPAKFLQDPRMSRVAGTLTIGLLASLTIVNAVATGQTVAFDARLGALAAAAVALAFRAPFLLVVVAGAGTAAVLRLLGWN				NA	NA	NA	NA	NA
D1-29_00517	261			hypothetical protein	ATGAAAAATCAACTGCATGCGGCCGGTCATAGATCGAGTCTGACCCGCACCATAGCCACAGCGCGGCTCCGCGCTGGCCTCCCCGTCAAGCGGTTCTTCACCAAATTTAATTCACTGGCTGACGTCCCCGCGGAGGACCTCGAGTTCCTTTCCCAGCGGCTCCTGATCGCCATGGAAATCGGTCAGGGAGCCCAGACTGCGGCCCTTCACCGTGCCGTGCGCAACGAGATCCGCAGCCGGGAAGCGGCGCCCAATGATTGA	MKNQLHAAGHRSSLTRTIATARLRAGLPVKRFFTKFNSLADVPAEDLEFLSQRLLIAMEIGQGAQTAALHRAVRNEIRSREAAPND				NA	NA	NA	NA	NA
D1-29_00518	717			hypothetical protein	ATGAAGATCGCCGTAGTGGGCGATCTCCTCGTTGATTCAGGGCGTTTTGGCACCGCAGCCGGCGGTGCCGCACGCGCGGCATCCCTGCTTGCACGGACAGGCAACAGCGTACAGCTGTTGACTGTCCTTCCAAGTGACAGTTCGCCGTCACAGCTTGCCGCCGCCCTGCCTGGCGTGAGTGTGGCGGCAGCCCGGGACCTCACTGAAGAGATGCTGCGCTGCCTGGACTTTGCAGACGCGATAGTGGTGGCCGACGGCGGACGCGGCGTGACGTGCAATGACCGCCTGCGCTGGCGGCTGGGTGTTTTGGCCCCCAGCGTCCCCATTGTGTGGGACCAGCACCGGGACGGCCCCGCTCCAGTACCTGGGGTCAGCGCGGTGACGCTAAGCGAGTCGTCCGCCTCACAGGCCAGCGGAATCGACGTCCGGGGCCATGAATCTGCGTCCGAAGCCGCCGGTCTGCTGCTGCGCAGCTGGGACGCAAGTTCAGTTTCCGTCCTGACATCCCCCGCCGGAGCCGACTCGGGAAGGGTTCGCGGAACCTTTTCGGCCGCGCTTGCTGCGGGATTGGCCCAGGGGATGGCGGTTTCGGCCGGTGTCCATCTTGCTGCCCAACACGCCGGAATCAACAGGGCCAACCAGCGGAGCATGGGACTGGCGTTTGCGCCAACTCAGGCTCCTGCACCGGGGGAATCTGACGCCCGCCCGGGAAGCTGA	MKIAVVGDLLVDSGRFGTAAGGAARAASLLARTGNSVQLLTVLPSDSSPSQLAAALPGVSVAAARDLTEEMLRCLDFADAIVVADGGRGVTCNDRLRWRLGVLAPSVPIVWDQHRDGPAPVPGVSAVTLSESSASQASGIDVRGHESASEAAGLLLRSWDASSVSVLTSPAGADSGRVRGTFSAALAAGLAQGMAVSAGVHLAAQHAGINRANQRSMGLAFAPTQAPAPGESDARPGS				NA	NA	NA	NA	NA
D1-29_00519	294			hypothetical protein	ATGAACGAACAACAACGTCCAGACGATGACCGGGAAAGTACCGGGCGCCGAGCCGAGGCTCGAGTACCTGGCTTTGAAACCGCAAAGTCCCGTCCAGCCTACGTGGATCCAGGCGGCTCCCAATCCACGAAGGAACTCCGTGAAACCGCCCGCCGCCGTCGTGAGGCCGAAGAGAAGCTGCAGCAGCATCTGATGGAAGCCAAGGAGCACGCTCACCATGAGTCAGACCACCAGGCCGATGCCGCCAAGGATGACGGAGCTGGCAAGGATGACAGGGCAGGCAACCCTCAATAG	MNEQQRPDDDRESTGRRAEARVPGFETAKSRPAYVDPGGSQSTKELRETARRRREAEEKLQQHLMEAKEHAHHESDHQADAAKDDGAGKDDRAGNPQ				NA	NA	NA	NA	NA
D1-29_00520	267			hypothetical protein	ATGAACCACATCCTGCGAAGTAAGCCCAGTCGCGTTACTCTGAACAGCTCCCAGCTTTCGAAGTTCATCAATGATCCCCGCGGTCCGGAGGAAGTCCTTCCCACCCTCCCCGCGGAAGAGCTCGCAAGCCTGCTGGACGCCCTCTACCAGAACCTTGATACGCCTGAACCAGAGTTCGGGGCGCAGGTCTGGTATGAGCTGGGTGTTGAAGAAGCTGCCCGAAGGGCTGTTTCACCGGATACCGCGGCCGCGCACGGCGTAGCCTAG	MNHILRSKPSRVTLNSSQLSKFINDPRGPEEVLPTLPAEELASLLDALYQNLDTPEPEFGAQVWYELGVEEAARRAVSPDTAAAHGVA				NA	NA	NA	NA	NA
D1-29_00521	735			hypothetical protein	ATGAACCTCGCAGTCGCCCGCAAGCCGCTCCGTGCAGATGCAGCGCGGAATGTGGACAAAATTATTACTGCAGCACGTCAATGCTTCCGTGAATATGGCCCGGACGTGCCGTTGCAGACCATTGCGACGACGGCGGGTGTAGGCCCTGCCACCCTTTTCCGTAATTTTGCGGACAAGGAAGAGCTGGTCCTCGCCGCTCTTAACCGCCAGCTTAGGCTGACTGTGGATCCGGTGATGGACGATGCTTTGGCCGACATTGATGCCGCCACGGGTCTGCTGCGTGTCATGGAAGCGATCATGGACGCCGCCAGTGCTGACGCCAACCTGCTGGGCGCTGTTGCCGGGCGGCGTGAGCTGCTCGTTGGCATCACAGGATCGCTGATCGATTCGATTGGCGTCCTGCTGGCCCGCGGACAAGGCCAGGGAACCCTGCGGCCTGACATCTCCATGACCGACATGTTCCGGCTGCTTGCAATGCTTATCGGCGTCGTGGACACCATGGAGCCCGGATCCGACGCCTGGCGCCGGCCGGTGGCGCTGGTCGAGGATGCTATTCGGACGGAACGCCCCTCACGGCCTCTTCCGCCCCACGTTCCCCTGCCTGCCGCCCAGCTCCCCACTCAGTTTCCTGGTTCACAGCAGCTTCCCGGTTCACAACAGCTTCCTGGTTCACAGCAATTTCCTGGTTCTACGCAGTTTCCTGGTTCACAGCTCCCCGGTTCACGCCTCAGCTAG	MNLAVARKPLRADAARNVDKIITAARQCFREYGPDVPLQTIATTAGVGPATLFRNFADKEELVLAALNRQLRLTVDPVMDDALADIDAATGLLRVMEAIMDAASADANLLGAVAGRRELLVGITGSLIDSIGVLLARGQGQGTLRPDISMTDMFRLLAMLIGVVDTMEPGSDAWRRPVALVEDAIRTERPSRPLPPHVPLPAAQLPTQFPGSQQLPGSQQLPGSQQFPGSTQFPGSQLPGSRLS				NA	NA	NA	NA	NA
D1-29_00522	378			hypothetical protein	GTGTTGCATATCAGGGGCCTGGACGGTCAGCGCCTGCGGGCGTGCCAGACTGGCTCCATGTTGCTTGCATTTTCTGTCGCCCCGTCCGGTACCCCCGCGGGTGGTTCCAGCCCGTCCGATGCGTCCGTTCATGACGCCGTCGCCGCCGCCGTGAAAATCGTGCGGGAATCGGGCCTGCCCAACAAGACCGATTCGATGTTTACCACCATTGAGGGTGAATGGGATGAAGTATTTGAGGTGGTAAAAAGGGCCACTGAGGCCGTTGGAGAGTTCGGAAGCCGCGTTTCGCTGGTCATCAAGGCTGACATCCGGCCTGGGTACTCGGGGGAGCTCACGGCAAAAGTGGACCGCCTCGAACAGGCAATCTCCGGCTCCTAG	MLHIRGLDGQRLRACQTGSMLLAFSVAPSGTPAGGSSPSDASVHDAVAAAVKIVRESGLPNKTDSMFTTIEGEWDEVFEVVKRATEAVGEFGSRVSLVIKADIRPGYSGELTAKVDRLEQAISGS				NA	NA	NA	NA	NA
D1-29_00523	237			hypothetical protein	ATGACTGTTGACGAGACCGCGGAGGAGCAGCGGGACCGGACATCTGCTGCTTTCCAGGCGGCCGGGCTAAGCGTGGAAGTGCTGTGGATGCACTATTTCAGCATCGGCGGTGACGCTGGTGAACTGGAGATCGATGCGTACCTGAACCGGTCCTACATGCTGCGCGGCGTTCAGCGGGACCTCCTGGACCATGCCATCCACGAGCTTGACGGCAACGACTCCCATGCCGATGGCTAG	MTVDETAEEQRDRTSAAFQAAGLSVEVLWMHYFSIGGDAGELEIDAYLNRSYMLRGVQRDLLDHAIHELDGNDSHADG				NA	NA	NA	NA	NA
D1-29_00524	753			hypothetical protein	GTGACTCGAAGAGAGCCAGTGACAGGCGAGTTGCAGGCGGTCTTCGCCCGCGTCTCGGGCCTGCTCTTGACGGAGCAGGTGGCTGGCTCGGCCATCGCCAAAATAGCCCGGGCAGCCTTGGAAGGCATTCCAGGGAGCGTCGGCGCCGGGGCCACCCTCATCAATGCGCAGGGTCAACCCATCAGCAGGGCGTCCACGAATGCGCTGGTGGAAGAGGCCGACCAACTGCAGTATGACCTGAGCGAAGGACCATGCCTCTCAGCGTGGGCCGGTGCGGTGACAGTCCGTATGGACGACAGCCGCATCGAAACCCGATGGCCCCAATGGAGCCGGGCCAGCGCGCAGGTTGGCCTGCTCTCGTGCCTCAGTGTCCCGCTCCTGCTGCCCGCAGAACAGAACCTTCCCCGGATGGAGGCCATTGGCGCGCTGAAGGTCTACTCGGACCAGGCCCAGGCATTCGATGCCCGCAGTGAACATCTCCTGGAACTGCTGTCCGCACCGGCAGCCGTGATGCTTGCCAACGTGCAGGCGCATGAGAGCGCCGGTCATCTCAGTGACATCCTCAAGGACTCCCTGCACAGCCGGAGTGTGATCGACATGGCGAAGGGGGTGCTGATGGAACGCCAGAACCTCGACGAGCGCGCAGCCCTGCGGGTGCTCACCACGCGGTCCCGCGAGGAAGGAGTCCCCCTCAGCCACGTCGCCCTCAATGTTCTTGACCGGCATCCCGAACCCGACCACGAACGGCCATGA	MTRREPVTGELQAVFARVSGLLLTEQVAGSAIAKIARAALEGIPGSVGAGATLINAQGQPISRASTNALVEEADQLQYDLSEGPCLSAWAGAVTVRMDDSRIETRWPQWSRASAQVGLLSCLSVPLLLPAEQNLPRMEAIGALKVYSDQAQAFDARSEHLLELLSAPAAVMLANVQAHESAGHLSDILKDSLHSRSVIDMAKGVLMERQNLDERAALRVLTTRSREEGVPLSHVALNVLDRHPEPDHERP				NA	NA	NA	NA	NA
D1-29_00525	729			hypothetical protein	ATGGCCTCCATACCCCTCCCTCCGGTGACCCATGACCATCTTCAGGACCTGTTGCTCGAAAGCAAGGACTTTGACGCTTTCCTGATGGAACTCACGCTCTATTCGGCCTCCCGACTGGGCACCCCGCAACCCATATCGTGCGCCATTTCCGTGCAGCGCGACGGCGGACTGTTTACCGTAGCCAGCAGCAGCGATCAGGCCCTTTCCATGGATGAAAAGCAATACGAGCTCAACGACGGTCCTTGCCTGACTGCCTTGCGTGGGGGGGAGCCAGTGATGGTGGAAGACCTTGCTGCCAACGCCCGCTGGAGCGATTACTACTCAGCCGTTAGGGATTTTGGTGTGCTGTCCGTCCTCGCCGTGCCAATCGACGCCGGACAGGACGCTTCTGCAGCCTTGAACTGCTATGCCTACCGAACCTCCGCCTTTAGTCCCGAAACTGTTGCCTCCATTGAGGAGCACGCACAATCCATCTCCCGCATCCTCCGCATAGCACTTCGGGTGCATCCGGGCAGGGACCCTGAGGCGTACCCGAATAAGCTGCGGGAAGCACTGCGCTCGCGGGCGACGATCGATGCTGCACTCGCCCTCGTGATGGTCCACACCCGCTCCAGCCGTGACGCTGCTATTTCGCTTCTCCACGACGCTGCCCAGGCAAGGAACGTGCGGCTTCGACTGGTGGCCACAGACATAGTCAACGGCGCCGGGATCCCGGAAAGACGCGCCTAA	MASIPLPPVTHDHLQDLLLESKDFDAFLMELTLYSASRLGTPQPISCAISVQRDGGLFTVASSSDQALSMDEKQYELNDGPCLTALRGGEPVMVEDLAANARWSDYYSAVRDFGVLSVLAVPIDAGQDASAALNCYAYRTSAFSPETVASIEEHAQSISRILRIALRVHPGRDPEAYPNKLREALRSRATIDAALALVMVHTRSSRDAAISLLHDAAQARNVRLRLVATDIVNGAGIPERRA				NA	NA	NA	NA	NA
D1-29_00526	678		COG4122	Catechol O-methyltransferase	ATGTTTGAGCACAAGACCCAGCCCGGGTGGGTAAAAGTGGAAGAGTTCATCACCCAATCCGTAGTGCATCCGGACGGAGCGCTCCAGCGTGCGGTGGAGTCCGCCGTCGATGCCGGGATGCCGCCCATCGAAGTAGCCCCAAACGCCGGCAAACTGCTCAAGCTCCTGGTACAGCTTTCCGGTGCGCGTCGTGTCCTCGAGATTGGGACACTGGCCGGGTTCAGCACGATTTGGATGGCTCAGGCGCTTCCCGACGACGGCCGGCTGGTCACGTGCGAATATCTCATCAAACACGCCGATGTCGCGCGCGCAAATGTTGATGCCGCGGGCCTGTGCGGAAAAGTGGAGATCCGGATCGGCCCTGCCCTGGAAACACTTGCTGCCCTGCACGCTGAAGGCCAGGAGCCGTTTGATTTTGTCTTCATTGACGCGGACAAGGAGAACGACGCTGCCTACCTGGAGTGGGCTGTCCGCCTGGGCCGGCCCGGAACGGTTGTGGTGCTGGACAACGCCATTTGGGAGGGTGCGGTGCTGGACCCTTCCATAGACCGCGTCAACGCGCCGGGGATCATTGGCGCACTGGAGCTGCTGGGGAAAGACCCGCGCTTGGACGGCACAGTCATCCAGACCGTGGGTTCCAAGGGATGGGACGGGTTCGCCCTGGCATTGGTCCGTTAA	MFEHKTQPGWVKVEEFITQSVVHPDGALQRAVESAVDAGMPPIEVAPNAGKLLKLLVQLSGARRVLEIGTLAGFSTIWMAQALPDDGRLVTCEYLIKHADVARANVDAAGLCGKVEIRIGPALETLAALHAEGQEPFDFVFIDADKENDAAYLEWAVRLGRPGTVVVLDNAIWEGAVLDPSIDRVNAPGIIGALELLGKDPRLDGTVIQTVGSKGWDGFALALVR	PGPT0011950_26	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	TUMORICIDAL_COMPOUNDS	TUMORICIDAL-ANSAMITOCIN_P-3_METABOLISM,PGPT0011950-asm17-K16028	NA	NA
D1-29_00527	177			hypothetical protein	ATGGGTTTGGACGACAAGATGGAGAACACCGGCGAGAAGCTCGGCGGCAAGGCCAAAGAGGCTACCGGTAAGGCTAGCGACGACGAGGGCCTCGAGGCCGAGGGCAAAATGGACCAGACAAAAGCCGATCTGAAGCAGGCCGGCGAGAAGGTTAAGGACGCCTTCAAGAAGGACTAA	MGLDDKMENTGEKLGGKAKEATGKASDDEGLEAEGKMDQTKADLKQAGEKVKDAFKKD				NA	NA	NA	NA	NA
D1-29_00528	1125			hypothetical protein	ATGGCCACTCAGGACAGTTCCGAGACGAGCACCGCCAAGGCAGGCAGCGCTCCGGCCCCCGACGACTCCCGTAAGCCGGACAGCCCCACGGATGTCACCAAGCCCTCATGGAAGTACATCGCCAAGAAGACCTTCAGGGAGTTCAACCAGGACCACTGTCCGGACTTGGCGGCCGCACTCACGTACTTCGCCGTTCTGTCGCTGTTTCCTGCGATGCTGGCGCTCGTTTCGCTCGTCGGCATCTTCGGTGATCCGGCAACGACGACGGCGGCCCTCCTGGAAATCGTGCGCGGCATCGCACCCGAGGATACTGTCGAAACAGTCAGCGGGCCGGTGGAGGAGCTTGCGGCTGCGCCGGCGGCAGGGTTCACGCTCTTCATCGGCCTTGCCACCGCCCTGTGGTCAGCGTCCGGATACGTGGGGGCGTTCGGCCGCGCCATGAACCGTGTTTATGAAGTCGATGAAGGCCGCCCGTTCCTGAAGCTCCGCGGAACCATGCTGGCAGTCACCCTGCTCGCCGTGGTCATTGTGGCCCTGCTTGCCGGGATGCTCGTGCTCAGCGGCCCGGTTTCGGAAGCCATTGGCGGCGCCATTGGACTGGGCGGGACCATCCTCACGGTCTGGAACATTGCTAAGTGGCCGGTCATCGTGGCGCTGGTTATTGTGATCATCGCCGTCCTCTACTACGTCACGCCGAACGTCAAGCAGCCCAAGTTCCGGTGGATGAGCATTGGCTCGTTCGTTGCGTTATTAGTTTTCCTTCTGGCCTCCCTGGGCTTCGCCTTTTACGTGGCCAATTTTGGCAATTACAACAAGACCTACGGTGCGCTGGGCGGCGTGATCGTGATGCTGCTCTGGCTGTGGATCCTCAACATGTCCCTTTTGTTTGGGGCGGAACTCGATGCTGAGACGGAACGCGGACGGCAACTCCAGGCAGGGATTGAAGCCGAGGAAACCATCCAACTGCCCCCACGGGACACCAAGAAGAGCGACAAGCTGCAGGCCCAGGAGGAGGAAGACATCCGTCGCGGCCGGGAGCTGCGCGAAAGCCGCGGCGGGGAGGTGTCGCAGGGCAAGGGGGACGAAACCGGCGGCGATCTTCACAAGGGAAGCCACCGGGACTAG	MATQDSSETSTAKAGSAPAPDDSRKPDSPTDVTKPSWKYIAKKTFREFNQDHCPDLAAALTYFAVLSLFPAMLALVSLVGIFGDPATTTAALLEIVRGIAPEDTVETVSGPVEELAAAPAAGFTLFIGLATALWSASGYVGAFGRAMNRVYEVDEGRPFLKLRGTMLAVTLLAVVIVALLAGMLVLSGPVSEAIGGAIGLGGTILTVWNIAKWPVIVALVIVIIAVLYYVTPNVKQPKFRWMSIGSFVALLVFLLASLGFAFYVANFGNYNKTYGALGGVIVMLLWLWILNMSLLFGAELDAETERGRQLQAGIEAEETIQLPPRDTKKSDKLQAQEEEDIRRGRELRESRGGEVSQGKGDETGGDLHKGSHRD	PGPT0014525_1751	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
D1-29_00529	609			hypothetical protein	ATGAGTGACAACCCGGACGCGATCCGTTCAGATATTGAAGCAACCCGTGCCCGCCTTGGCACCAATGTGGATGCCGTGGCTGACAAGGTCACTCCCTCCAACATCGTCCACCGCCAGACAGACAAGGTGAAGGACGCCGTCTTCGGAGTGAAGGAGAAAGTCATGGGAGCAGCAGACAGCGCCACTTCCAGGGTGCAGGGTGGGGTCCAGAGCCGCACCGACAGCGCCGGCAACATGCTTAGTGATGCAGGATCGGCGATCGGTGAGGCCCCCCAACAGGTACGGGCTAAGGCGCAAGGAAACCCCTTGGCCGCAGGCCTGATCGCCTTCGGCGCTGGGATGCTGCTGTCCTCTCTGATCCCGGCCAGCGAAAAGGAACGCGAAGCGGCGGACGCCCTCAAGTCGGCCGCGGAACCCGTGACAAGTGAGCTGACGGAAGCCGCCAAGGAAATGGCTGAAGGCATGAAGGAGCCGGCCCGGGAAGCCATGGAAAGCGTCAAGGCAACGGCTACTGAGGGCGCTGAGCATGTCAAGAGTGAAGGCCAGGTTGCGGCCTCCGATGTGAAAGACCGTGCCACTGACGCCAAGGACCACGTTCAGAACCCCTGA	MSDNPDAIRSDIEATRARLGTNVDAVADKVTPSNIVHRQTDKVKDAVFGVKEKVMGAADSATSRVQGGVQSRTDSAGNMLSDAGSAIGEAPQQVRAKAQGNPLAAGLIAFGAGMLLSSLIPASEKEREAADALKSAAEPVTSELTEAAKEMAEGMKEPAREAMESVKATATEGAEHVKSEGQVAASDVKDRATDAKDHVQNP				NA	NA	NA	NA	NA
D1-29_00530	432			hypothetical protein	ATGAGCAGCGAGATGCCGGAGACTCCTCCGAGCGCAGCGCATGCGAAGGCTGACAATACATCCTTGGGCGACCTGCTCGGGGAGGTGACCCGTGACCTTTCCACCCTGATGCGCCAGGAACTTGAGCTCGCCAAAGTAGAACTCAAGCAGACAGCTACCAAGGCGGGCAAGGGCAGCGGAATGCTCGCCGGAGCGGGCGTGGCCGGTCATTTTGTCCTGCTGTTCCTTTCCATCGCCCTCTGGTACGCCTTGGGCGAGCTGATGGGCCTGGGCTGGTCCGCCGTCGTCGTGGCTGTTATCTGGGGCATCATCGCCGCAATATTGGCGGCAATGGGCCGCAAGGAACTCAAGACGGTCAAGGGCATGCCCCAGACCACCGAAACACTCCAGGAAATTCCCCCAACCCTAAAACCCGGTGAGGTAAAACGATGA	MSSEMPETPPSAAHAKADNTSLGDLLGEVTRDLSTLMRQELELAKVELKQTATKAGKGSGMLAGAGVAGHFVLLFLSIALWYALGELMGLGWSAVVVAVIWGIIAAILAAMGRKELKTVKGMPQTTETLQEIPPTLKPGEVKR				NA	NA	NA	NA	NA
D1-29_00531	1008			hypothetical protein	ATGACAGAGAACCAATGGCCCGAGGACCCCACGTACAGGGTTCCCCCGGCCACACCAGGGACTACCGGAGAGCGGAGCGCCAGCACGTTCCCCTCCGCTGCCCAGACTGCGGGGACTCCGCAGACAGGCACGCCACAGACAGGCACGCCACAGACAGGCGGAGCCTATGAGACTTCCTCCCGGAAGGACGCTGTAAAGCAAGAAGCCGGGGACGTTGCCCGCACAGCAGCGGATTCTGCCCAGAGCGTGGCCCAGACAGCAAAGAGTGAAGCGGCAAACGTCGCGAGCGAGGTCAAGACGAATGCCAAGGACCTGCTGTACCAGGCTCGGAACGACCTCACCCAGCAGGCAGGGACGCAGCAGCAGAAAGTTGCTGACGGCCTCCGCTCCGTTTCTGACCAACTGCATTCCATGGCCCAGGCATCCGACCAGCCAGGCGTTGCTTCCGACCTGGTCCGCCAGGCCGCAGACCGCTCCTCCTCCGTGGCGTCCTGGCTTGAAGGGCGGGACCCTGGATCACTCCTGGACGAAGTAAGGAGCTTCGCCCGGCAGCGTCCCGGCACCTTCCTGCTTCTTGCTGCAGGCGCCGGCGTCCTTGCAGGAAGGCTGACCCGCAGCTTGAACGCCGGGGCACCGGAGTCCACCACAGGTTCTGCCGGATACACCGGCCAGTATTCCGGCAACCAGTATGCAGCCGGCCAGTACGAGGCAGACCAGGCTGCAGGCTACGTCCCCGCGGGCGGGGGTGCGGTTCCGCCGCCACCGGTCCAGCTCCCTGGCCCGTCCACCACCACGGCAGGGTACGACGGCGGCGCGCCGGGAAGCAGCTATCCTGCTGCTTCCACGACGGCAAGTCCGCTGGACAGCCCGCAGTTGGTAGAGGAGCCGTGGTCCGGTAACAGGACAGCACAGGATCCCCTGGGCGACAGGGACCTGGCGGATGATCCGATGGCCAACGACCCACTCACCCGGGACCGGTCCGCGGACGGCCAGACTGGCAGGCCGTGA	MTENQWPEDPTYRVPPATPGTTGERSASTFPSAAQTAGTPQTGTPQTGTPQTGGAYETSSRKDAVKQEAGDVARTAADSAQSVAQTAKSEAANVASEVKTNAKDLLYQARNDLTQQAGTQQQKVADGLRSVSDQLHSMAQASDQPGVASDLVRQAADRSSSVASWLEGRDPGSLLDEVRSFARQRPGTFLLLAAGAGVLAGRLTRSLNAGAPESTTGSAGYTGQYSGNQYAAGQYEADQAAGYVPAGGGAVPPPPVQLPGPSTTTAGYDGGAPGSSYPAASTTASPLDSPQLVEEPWSGNRTAQDPLGDRDLADDPMANDPLTRDRSADGQTGRP				NA	NA	NA	NA	NA
D1-29_00532	489			hypothetical protein	TTGGAAACAGCACCGTGGGTTTGGGTGGTTGTTGCAATTGTTGTCATCGCGCTTATTGTGGTGCTCCTGTTGACTGGGAAGCGCCGCAAGGCAATACAGCAGAAGCGTGAAGAATCGCAGCGTGAAAAGGCCGCGGAAATTCGCCGCAACGCCGAGAACGTCGAATTGGATGCCCGCGAAAATGAGGCTCGCGCTACTCGTGCACGTGCCGACGCCGAACAGGCCCAGGTGGAAGCTGCGCGGCTTAAGCAGGAAGCGGACCAGAAGGCGGCCAATGCCGAGTCGCTGCGCGAGGATGTAGCCCGGCAGAGCCGGAAGGCCGACGCCGTTGATCCCGACGTGCGCAATGACGGGAACGTCCGTGGCGAGCGCGAAGCCCGGACCGACACTGCCAGGACGGACGCCGCCAGGACGGACACGGCCAGGACGGACACGGCCAGGACGGACACGGCCCGGACTGACCGCGACAACCCGCGTTCGGGTATCTAG	METAPWVWVVVAIVVIALIVVLLLTGKRRKAIQQKREESQREKAAEIRRNAENVELDARENEARATRARADAEQAQVEAARLKQEADQKAANAESLREDVARQSRKADAVDPDVRNDGNVRGEREARTDTARTDAARTDTARTDTARTDTARTDRDNPRSGI				NA	NA	NA	NA	NA
D1-29_00533	1083	auaH		Aurachin B dehydrogenase	ATGCGAATCGCCATCATCGGAGCCAGCGGAAACGCCGGCACAGCACTCCTTCGGAACCTCCAGGGCCAACTGCTAAAACGGCCTGGAAGCCTGGAACCCGTAGGGGTGAGCAGGCGACTTCCGGATACCGCCCTTGCTCCGTACCAGGGGGTCGAATGGCACACCCTGGACGTGGGCCGGGATGCCGATTTTCCGCTGCTCCGCTCCGCCCTGGCAGGGGCGGACGCCGTGGTCCACTTGGCCTGGCTGCTGCAGCCGAACAGGGACCTTGCCACCCTTCGCCGAACGAACGTCACGGGAACCGCGAATGTCCTTGAGGCTGCCCGGCAAGCAGGCGTGGGGCATATTGTGTGCGCGTCCTCCGTGGGCGCCTACAGTAAAGCACCTAAGAACCAGAGGACCGATGAATCCTGGCCGGCCACGGGGATCCCGTCGTCGCATTACAGCCGGCACAAGGCGGAACAGGAAGCCCTCCTGGACCGGTTCCAGGCGGAACAGCCAGGGGTCAAAGTGGCCAGGCTCCGGCCCGGGCTGATCTTTCAGGCTGATGCCGGCAGCGCAGTGGGACAGTTCTTCCTGGGCCCCGTTCTCTCCCGGCTGGTGCCGGCCAGGCCGTGGCTGCCCATACTTCCTGCCCCTGAGGACCTCATATTTCAGGCGGTCCACGCCGAAGATGTTGCCGAGGCGTACTGGCGGGTCCTGGACCGCGGCGAGTCCGGGGCGTTCAACGTAGCCGCCGAGCCCGTGATTACTCCACAGGAACTCGGCAGGCTCCTTCGCGCGAAGCGCATCCTCCCCATTCCCATGAGCCTCCTGCGGGCCCTGGTGCATGTCACCTGGAAGCTCCGGCTTCAACCTACCGATGCAGGTTGGATTGATATGGCTGCCGGCGCACCCATCATGGACACCAGCCGCGCCCGGAGGGTCCTGGACTGGGAGCCGCGGAGATCATCCATGGACGCCCTGGCCCAGATCCTCCAAGGCATGGGAACGGGGGAAGGAGTACCTCCTTCCCCCGTTCTCAAGCCCAGGCGGAGCCTTGCTGCGGCTTCCCGTTCCAGGCGGTCACACCGGGTGCAGTAA	MRIAIIGASGNAGTALLRNLQGQLLKRPGSLEPVGVSRRLPDTALAPYQGVEWHTLDVGRDADFPLLRSALAGADAVVHLAWLLQPNRDLATLRRTNVTGTANVLEAARQAGVGHIVCASSVGAYSKAPKNQRTDESWPATGIPSSHYSRHKAEQEALLDRFQAEQPGVKVARLRPGLIFQADAGSAVGQFFLGPVLSRLVPARPWLPILPAPEDLIFQAVHAEDVAEAYWRVLDRGESGAFNVAAEPVITPQELGRLLRAKRILPIPMSLLRALVHVTWKLRLQPTDAGWIDMAAGAPIMDTSRARRVLDWEPRRSSMDALAQILQGMGTGEGVPPSPVLKPRRSLAAASRSRRSHRVQ				NA	NA	NA	NA	NA
D1-29_00534	909	fliA		RNA polymerase sigma factor FliA	ATGCCTGATTTTATTGCTGCGCTTGCCGTGGAGAATACCAGAGCTGAGACGCGTCCGGTGGAGGTTCCTCCACCCACCTCTCCTCCTAAGGGCGGGCGCCTCCGGCAAACATTCGAAAACGACCTGGTCCTGAGCTACCTGGACCTGGCTGAAGCGCTGGCCGCGCGCTTTGAGGCCCGTGGCCGGGAGCGGGCCGACCTCAACCAGGTGGCATACCTGGGCCTCGTCAAGGCTGCACGAGGCTTTGACCAGACAAAAGGTGACAGCTTTCCGGCCTACGCGGCACCCACTATTACTGGCGAACTCAAGAGGTACCTCCGCGACAGGAGTTGGGTGGTCAGGCCCCCACGGCACATCCAGGATCTGCGTTCCCGCCTGTTCCGCGTGGAGCCTGAACTCGCCCAGTCGCTGGGCAGGAACCCCACTGTTGACGAGCTTGCCCAGGAACTGGGCGTAGAAAGTGTAGAGGTGCAGGAGGCGATCTCGGCGTCGAGCAGCCTGCATCCGGATTCGCTCGACGCCGTCAATCCGAACAGCGACGCGCCTCCAATCGCGGAGGTGCTCGCCGCTCCTGAAGCGCCACTGGAACGGCTGGAAGAGCTGGCCTGCCTGCGGGAGGCAATGGAGGAGCTCGACCCCGGGGACCGGGAGCTGTTATACCGGCGGTACTTTTGCGAAGAGACCCAGGTGGAACTGGGTAAACGCCTGGGAATGTCCCAGATGCAGGTTTCGCGGCGCCTGGCCCGCGTGCTGGTGGAACTGCAGCGCAGGCTCCTGGAAAGCAGCTACGTTGCCGATTCGGGTACCGGGGCGGCCCAGCACCTGCCCGTTGCACCGCGAAGGACCGGATCCGGCCGGCCGTCCAATGGATCCCAGCGGGAAAGCCGCTCCCGAGTCACCAGCCGGTGA	MPDFIAALAVENTRAETRPVEVPPPTSPPKGGRLRQTFENDLVLSYLDLAEALAARFEARGRERADLNQVAYLGLVKAARGFDQTKGDSFPAYAAPTITGELKRYLRDRSWVVRPPRHIQDLRSRLFRVEPELAQSLGRNPTVDELAQELGVESVEVQEAISASSSLHPDSLDAVNPNSDAPPIAEVLAAPEAPLERLEELACLREAMEELDPGDRELLYRRYFCEETQVELGKRLGMSQMQVSRRLARVLVELQRRLLESSYVADSGTGAAQHLPVAPRRTGSGRPSNGSQRESRSRVTSR	PGPT0015025_178	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	OTHER_MOTILITY_REGULATION,PGPT0015025-sigM|rpoE-K03090	NA	NA
D1-29_00535	540	gmhB	COG0241	D-glycero-beta-D-manno-heptose-1,7-bisphosphate 7-phosphatase	ATGGGAAGCTCCGCAACTCCGCAGCTCAAGGCTGTCCTGTTCGACAGGGACGGAACCTTGGTGGTTGACGTGCCCTACAACGGGGATCCCGGCCTGGTCCAGCCCATGCCGGGCGCCAAGGACGTGCTGGATTCCCTCCGCCGCCAGGGACTGGCAACCGGAGTGATCAGCAACCAGTCCGGGATTGCGCGCGGCATCCTCACTGCTGCGGACGTGGCGGGCGTCAACGCCAGGGTGGAGGAGCTCCTGGGTCCTTTTGATGTGTGGGAGGTGTGCCCGCACGCGGAGGAAGACGGTTGCGCCTGCCGGAAGCCCGCCCCGGGAATGGTGCACAGTGCCTGCCGGAAACTGGGGATCGAACCTTCCGAGGCAGCGCTCATCGGTGACATTGGAAGTGACATCCTTGCCGCCAAGGCGGCCGGCGCCAGGAGCGTACTGGTGCCTACTGCGGTGACGCGCGCCGAGGAAGTCAGCGGATCCCCGCTGGTGGCTGATGATCTTGCCCGGGCCGTGGATCTGCTCTTGGAGCGGACCCAGTAA	MGSSATPQLKAVLFDRDGTLVVDVPYNGDPGLVQPMPGAKDVLDSLRRQGLATGVISNQSGIARGILTAADVAGVNARVEELLGPFDVWEVCPHAEEDGCACRKPAPGMVHSACRKLGIEPSEAALIGDIGSDILAAKAAGARSVLVPTAVTRAEEVSGSPLVADDLARAVDLLLERTQ	PGPT0023035_1681	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
D1-29_00536	1089			hypothetical protein	ATGGGACGCGTCCTGGTGGCAAGGCTGGACAGCATGGGCGACGTCCTGCTGGCCGGACCGGCCGTCCGGGCCGTTGCCAACGGCAGGCGCCCGGACGGGAGCCAGCCAAACCAGGTGGTGATGCTGTGCGGAAGCCAAGGAGAGGATGCGGCGTCCATGCTGCCCGGGGCCGCGGAAGTCTATAGCTGGGACTGCCCGTGGATCATGAACCCTGCGCCGAAGATGACATGGCCGCACGCCGACCGCCTGGTGGACTATGTCAGCAACTCCAGGATCACCGAGGCCGTCATCCTGACGTCCTTCCACCAGTCCCCGCTGCCGCTTGCCCTGCTACTACGCCTTGCCGGCGTGGAAAGGATCAGCGGAGCCTCCACGGATTACGCTGGTTCCCTCCTGGATGTCAGGCTCAAGCCGGGTGAGGACTTTCCGGAAGACCAGCCCGAGGCAGAACGGGCCCTTGGCATCGCGCAGGCGGCCGGCTTCACACTGCCGGCAGGAGACGACGGCAAGCTGCGGGTGGACCGTGTTCCGGACGTCAAGGATTTGGTGGGTGAGGGGCCTTATGTGGTGGTCCATCCAGGGGCGGCAGTGCCGGCGAGGGCCTGGCCGCCGTTTCACCACGCCGCCGCCGTCGAACTGCTTGAAGGAGCCGGTCACCGGGTAGTGGTGACCGGCGGGCCGGGGGACACGTCACTGACGGCTACTGTGGCGGGCCCCTCCGCGTTGGACCTGGGCGGGCGGACCGACCTCCCTACCCTGGCGGGGGTGCTGGCGGGCGCTGAGGCCGTAGTCATCGGCAACACCGGCCCCGCCCATCTGGCTGCCGCCGTGGGTACCCCGGTAGCCTGTCTCTTCTCCCCGGTGGTGCCTGCCGTGCGCTGGGCCCCCTACGGTGTGCCCCTGGAACTTCTGGGCGACCAAAGTGCACCATGCCGGCTCACGCGTGCCCGGGTTTGTCCCGTACCGGGCCATCCCTGCCTGGATTCCGTGCCTCCCGAGGAGGTGGTGCAGGCCGTGGAGCGACTGATCGGCGGGGTCACCTCCTTCAGCACCCACCTCAGCACCCGCAGAAAGGCACGCAAACGATGA	MGRVLVARLDSMGDVLLAGPAVRAVANGRRPDGSQPNQVVMLCGSQGEDAASMLPGAAEVYSWDCPWIMNPAPKMTWPHADRLVDYVSNSRITEAVILTSFHQSPLPLALLLRLAGVERISGASTDYAGSLLDVRLKPGEDFPEDQPEAERALGIAQAAGFTLPAGDDGKLRVDRVPDVKDLVGEGPYVVVHPGAAVPARAWPPFHHAAAVELLEGAGHRVVVTGGPGDTSLTATVAGPSALDLGGRTDLPTLAGVLAGAEAVVIGNTGPAHLAAAVGTPVACLFSPVVPAVRWAPYGVPLELLGDQSAPCRLTRARVCPVPGHPCLDSVPPEEVVQAVERLIGGVTSFSTHLSTRRKARKR	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
D1-29_00537	1029			hypothetical protein	ATGAGAGTCCTGCTATGGCACGTCCACGGTTCGTGGACCGACGCGTTCGTCCGCGGACGCCACGAATACCTGCTTCCCGTCCTGCCGGAGCGCGGGCCCTGGGGCCTGGGGCGGGCAGGCAGGGAGTGGCCAGCCAGTGTGCGGGAGGTGGCGCTGGCGGAGTTGGACGCCGACGCCGTGGACGCCGTCGTTCTTCAGCGTCCCGAAGAGATTGTTGAAGTGTTCAGGGCGCTGGGCCGCCGGCCTGGCCGGGACCTGCCTGCGGTGTACGTGGAGCACAACACTCCGAAGGGGAATTTTCCCTTCACCCGGCATCCGCTGGCGGAGCAGGCAAACATTCCAGTGGTCCACGTGACCCATTTCAACAAGTTGGCCTGGGACAACGGCTCGGCACCCACCCTTGTCATTGAGCACGGGATCCCGGACCCGGGACTCCTTTATACGGGAGAGCTGCCGGAACTGGGAGTGGTGGTCAATGAGCCTGTGCGGCGTGGCCGGGTGACCGGTACGGACCTCCTGCCGGCGTTCGCCTCCGTGGCGCCGCTGCAGGTTTTCGGCATGCAAACCCAAGGACTGGCAGCCGCCGTCGGAATAGGGGAATCGCGCCTGACGTCGCGGGGCGATCTGCAGACGCGCGAACTGCACCGGGAACTGTCGCGATGCCGGATCTACATCCATCCCATGCGCTGGACCTCGCTGGGACTGTCCCTGCTGGAAGCGATGCACCTGGGTATGCCGGTGGTTGCGCTTGCTGCCACGGAAGCGCCGCGGGCGGTGCCGCCCGAAGCCGGCGCCGTCTCTGCCGACATGGATGAACTGCTGCGCAGCGCTGCAAGGCTGGTGGCCAATCCGGAAGAAGCCCGACGGCGGGGCGCCGCCGCCAGGGAAGCGGCACTGGCGCGTTACAGCCTGGGCAGGTTCCTGGGCCGCTGGGACGAGGTGCTGGCGGACCTGTTGCCCCGGCCGAAAGCCAACGAACGTCTGGAAGAGAAGATCCTTATTCCGGCGCGAGAGAGGAAGACCCCATGA	MRVLLWHVHGSWTDAFVRGRHEYLLPVLPERGPWGLGRAGREWPASVREVALAELDADAVDAVVLQRPEEIVEVFRALGRRPGRDLPAVYVEHNTPKGNFPFTRHPLAEQANIPVVHVTHFNKLAWDNGSAPTLVIEHGIPDPGLLYTGELPELGVVVNEPVRRGRVTGTDLLPAFASVAPLQVFGMQTQGLAAAVGIGESRLTSRGDLQTRELHRELSRCRIYIHPMRWTSLGLSLLEAMHLGMPVVALAATEAPRAVPPEAGAVSADMDELLRSAARLVANPEEARRRGAAAREAALARYSLGRFLGRWDEVLADLLPRPKANERLEEKILIPARERKTP				NA	NA	NA	NA	NA
D1-29_00538	1254	mshA_1	COG0438	D-inositol 3-phosphate glycosyltransferase	ATGAAAATCTCCATGATTTCAGAACACGCCAGTCCGCTGGCGGCACTGGGCGGGGTGGATGCCGGCGGGCAGAACGTGCATGTTGCGGCATTGTCCGAGGCCCTGGCCAAGAGGGGGCACACGGTAACTGTCTACACCCGGAGGGATGCAACGGAGCTTCCCGCCAGGGTAAAGGTGGGCCGCCGGCTGGAAGTGGTCCATGTGGATGCCGGACCGGCGTGCCACATTCCCAAGGATGAGCTTCTTCCGCTGATGGGGGAGCTTGCGGACGGCGTCGCCAAGGACTGGGGCCAGCGTCCGCCCGACGTGGTGCATGGCCATTTTTGGATGTCCGGCCTCGCGGCGCTCTACGCTGCCCGGCGGGAAGGATCAGGCTACCAGGTGCCTGTCATCCAGACTTTTCATGCCCTGGGAACCGTCAAACGCAGGCACCAGGGCGCCGAGGACACCAGCCCGCTGGAGCGCCGCTGGCTGGAACCCGGGGTGGGACGCTCCGCAGACAGGATCATCGCCACCTGTTCGGATGAGGTCTTTGAACTGAAATCCATGGGGATCAACACCAGCAAGATTTCCATCGCTCCGTGCGGTGTTGACCTTGCCCTCTTCTCTGCGGAGGGACCCGCCGACCCCCGGCCACGCAGGCACCGGATCCTTTCGGTGGGCAGGCTGGTTCCGCGCAAGGGGGTGGACCTGGTGATCCGGGCGCTTCCGCTCCTGAGCCAGGTTGGATTCGACGACGTCGAACTCCTGATTGTGGGCGGCGGCGGGGACTCGCGGGCCCTTGATGCTGACCCGGAAGTGCGCCGCCTCCTGGGGCTGGCCAAAGAACTGAACCTTTCGGACCGGGTGACATTGCAGGGGCAGGTACCACGGGCAGCCATGCCAGGCATCTTCCGAAGCGCCGACGCCGTGGTCTGCTCCCCCTGGTACGAGCCCTTCGGCATCGTCCCGCTCGAAGCCATGGCTTGTGGCGTGCCGGTGGTGGCCGCGGCCGTGGGAGGGCTCCGCGACACCGTGGTTGACCACGGCACCGGGCTACACGTACCGCCGCGCGATCCGGAAGCCATCGCGTCCGCCCTGGCCCTCCTGCTGGGCGATCCCGCCCTGGCGGCCGAACTTGGCAGGGCCGGGCAGCAGAGGGCCAAGTCGCGGTATTCCTGGGACCGGGTGGCTGCAGAAACCGAAAAGGCCTACAAGCTGGCCATGTCGGAAGCCCCGGCCGGCCGGGTCCCTATGGAAGGAGCAGCGCTGTGA	MKISMISEHASPLAALGGVDAGGQNVHVAALSEALAKRGHTVTVYTRRDATELPARVKVGRRLEVVHVDAGPACHIPKDELLPLMGELADGVAKDWGQRPPDVVHGHFWMSGLAALYAARREGSGYQVPVIQTFHALGTVKRRHQGAEDTSPLERRWLEPGVGRSADRIIATCSDEVFELKSMGINTSKISIAPCGVDLALFSAEGPADPRPRRHRILSVGRLVPRKGVDLVIRALPLLSQVGFDDVELLIVGGGGDSRALDADPEVRRLLGLAKELNLSDRVTLQGQVPRAAMPGIFRSADAVVCSPWYEPFGIVPLEAMACGVPVVAAAVGGLRDTVVDHGTGLHVPPRDPEAIASALALLLGDPALAAELGRAGQQRAKSRYSWDRVAAETEKAYKLAMSEAPAGRVPMEGAAL	PGPT0024580_811	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_GLYCOSYLTRANSFERASE_ACTIVITY,PGPT0024580-mshA-K15521	NA	NA
D1-29_00539	780	gmhA		Phosphoheptose isomerase	GTGACTGCCGAATGGTCCCTTCGTGAGGCCGACGTCCAGGCCCTGGCCCGCCACGCCGCGCTTTCCCCGGCGCATCCATCCACAACGCCGTCCCACGATCCTTCCGGTGCAGCCGTTAGGGACGCAGGGGCAGCCCTCGTGGACGCGGCAGCTGCACATGCTGTCCGCGCGCACCTGGACAACGTCCTGCCTGCGCTGGACTCGCTCCGGAGCCAGTCGGACCGGCTCGCCGCGTGGGGAGTGGAGCTGGCCCAGCGCCTGCTCCGGGGGCAGCGGGTGATGGCCGCGGGCAATGGCGGGTCAGCCGCCGAGGCCCAGCACCTGACCGCCGAACTGGTGGGACGGTTCGACGGCGAGCGGATCCCCTTCTCCGCTATCTCCCTCCATGCGGAGACCTCGGCAGTGACTGCGATTTCCAATGACTACGGCTACGACGAGGTGTTTGCCCGGCAGATCCGGGCCCACGGCCGTTCCGGCGACGTGCTGGTCCTGCTGTCCACCAGCGGCAAGAGCCCCAACCTGCTCAGGGCCGCGGAAGCAGCCGCCCGGCTCAACATCACCACCTGGGCACTGACCGGCCCCGGGCCCAACCCGCTGGCGTTGGCCTGTGACGAGGCCGTGATGATTGAAGCCGTTAACGCCAACGCCCAGGAAGGCCACCTGATCGCGCTGCATGCCATCTGCCGGGCCTTCGACCTGGAGGTCAACCGGCGCGGCTCCGGAAACCACAGCGGGCACAGGTCTGGCAGCCCTGACGGAGAAGCAGGAGGCCGGGCATGA	MTAEWSLREADVQALARHAALSPAHPSTTPSHDPSGAAVRDAGAALVDAAAAHAVRAHLDNVLPALDSLRSQSDRLAAWGVELAQRLLRGQRVMAAGNGGSAAEAQHLTAELVGRFDGERIPFSAISLHAETSAVTAISNDYGYDEVFARQIRAHGRSGDVLVLLSTSGKSPNLLRAAEAAARLNITTWALTGPGPNPLALACDEAVMIEAVNANAQEGHLIALHAICRAFDLEVNRRGSGNHSGHRSGSPDGEAGGRA	PGPT0023030_72	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
D1-29_00540	1383	hldE_1	COG2870	Bifunctional protein HldE	ATGAGGATCGTTGTGGTGGGTGACGCGATTTTGGATGTTGACCTGTCCGGAGAGGCCACCCGGCTGAGCCCCGATGCCCCTGTGCCCGTTGTTGACGTATCAGGCATCAGGCGCCGGGCGGGGGGAGCCGGGCTGGTGGCCCGGATGCTGGCTGAGGACGGCTGGCCCGTCACCCTGGTGACAGTCCTGGCAGATGACGACGCCGGACGGCAGCTTGAGGCTGCGCTCGCGGGGGTGCGGCTTGTGGCCGGGCCCAGCAGCTTCCCGTCGCCGGTCAAGACCCGGGTCCGGGCCGGCTCCCATCCCGTGGTCCGTTTTGACCAGGGCTGCGGGCCGACGCCCGTACCCGACGTGACTCCCGCGATGCTGCGGGCCGTGGAAAAGGCCGGGGCCATCATCGTTGCAGACTACGGCCGGGGCCTGGCCGCCAACCCCCAGCTGAGGGAACTTTTGACAAGGCTCGCTGACGACATTCCCATCGTGTGGGACCCGCACCCCTCCGGCGCCCCTCCGGTTCCGGGGGTCGCCGTGGTGACGCCCAACCTGTCCGAAGCCCGCAAGGCCGCCGGCGGCAGGACCGCGGCGTCCGGGAACAGTGCCTCCTCCAATGGGGCGGGGGACATTGCGGGCGTCCTGCTGGACCAGTGGCGCAGCCGTGCCGTCCTGGTGACCACCGGGGAACATGGTGCCGTACTCCTGACGCGGCGGGACCCGGCGCCGCAGCCTGTTCCCGTGCCCCGGGTGGAGGTGGGCGATCCCTGCGGCGCAGGCGACAGGCTGGCCGCCAGCCTGGCCGTCCACTTGCTGGCAGGCCGTGACCTTCGGGACGCCTCCGTACTCGCCGTCCATGAGGCCGCAGATTTCCTGGCGGCCGGCGGGGTGGCCTCGCTGCCGGATCCGCCCCCGCCCGGGAAAGCCAGGCACCGCACCACCGAGCCGCTCCTGCTGGCCCGCAGCGTGCGGGAGAACGGCGGCATGGTGGTGGCCACGGGGGGCTGCTTCGACCTGTTGCACGCCGGACATGTCAGGTCACTGGCAGCCGCCCGTGAACTGGGGGACTGCCTCATTGTCTGCCTGAACTCGGATGCCTCGGCGCACCGGCTGAAGGGCGACCAGCGCCCCATTATGGGCCAGCAGGACAGGGCAGAGCTGCTGCTGGCGCTGGAGTGCGTGGACGCGGTGATGATTTTTGACGAGGACACTCCGGAGGCCGCGCTGGACCGGCTCCGCCCCGACATCTGGGTCAAGGGCGGCGACTACAAAGGTGCGCGCCTGCCCGAAGCCGAGCTGGTGGAGAGCTGGGGCGGACGCTGCGTGACCGTTCCCTACCATCCGGCCCGCTCCACCACGCTCCTGGCCGACGCCCTGGCGAAGGTGAGCTGA	MRIVVVGDAILDVDLSGEATRLSPDAPVPVVDVSGIRRRAGGAGLVARMLAEDGWPVTLVTVLADDDAGRQLEAALAGVRLVAGPSSFPSPVKTRVRAGSHPVVRFDQGCGPTPVPDVTPAMLRAVEKAGAIIVADYGRGLAANPQLRELLTRLADDIPIVWDPHPSGAPPVPGVAVVTPNLSEARKAAGGRTAASGNSASSNGAGDIAGVLLDQWRSRAVLVTTGEHGAVLLTRRDPAPQPVPVPRVEVGDPCGAGDRLAASLAVHLLAGRDLRDASVLAVHEAADFLAAGGVASLPDPPPPGKARHRTTEPLLLARSVRENGGMVVATGGCFDLLHAGHVRSLAAARELGDCLIVCLNSDASAHRLKGDQRPIMGQQDRAELLLALECVDAVMIFDEDTPEAALDRLRPDIWVKGGDYKGARLPEAELVESWGGRCVTVPYHPARSTTLLADALAKVS	PGPT0023040_1258	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
D1-29_00541	702			putative oxidoreductase	ATGAACATTCAGTCGCCTTGGCCCGGCCGGGTCCTGGTTACCGGAGGGGCCTCCGGACTGGGTGCCGCCGTCGTCGAAGCTGTTCTCAGGGCAGGCGGGACTCCAGTGGTCCTGGACCGCGACATCAGCGCAGTTTCGTCCGTGAAGGCGTTCGAAGTTGACGTCTCGGACCGCCTTGCCGTTGAGCATGCCGTCCAGGAGGCAGCGGACTCGCTGGGAGGACTGGATGCGGTGGTGACAGCGGCGGGAATCGACCGCTGCGGCAAACTGGCCGATGTTGCCGCGGACGAATGGGAGAAGGTCATCGGCGTCAACCTGTTGGGCACAGTCTCCGTTGTCCGCGCAGCGTTGCCCCATCTCAAGGCTTCCCGGGGGCGGGTGGTGACGGTGGCCTCGACGCTGGGAAAGCGGGCGGTTGCGGATGCCACCGCCTACTGCGCCTCCAAGTTTGGCGTGGTGGGCTTCAGCCATGCGCTGGCCGCTGAAACCGGCGGGGAGATTGGGGTGACCACCATGATCCCCGGCGGCATGAAAACCAGGTTCTTTGATGACAGGACTGAGCAGTACAAGCCGCAGGACGACTCCCGGCTCAACAGCCCGGGCAACGTGGCGCAGGCCATCCTGTTCGTCTTGTCCCAGCCCACCGGCTGCGAGGTGCGCGAGATGCTCATCTGCCACGAGGAGGAGGGCTCCTGGCCGTGA	MNIQSPWPGRVLVTGGASGLGAAVVEAVLRAGGTPVVLDRDISAVSSVKAFEVDVSDRLAVEHAVQEAADSLGGLDAVVTAAGIDRCGKLADVAADEWEKVIGVNLLGTVSVVRAALPHLKASRGRVVTVASTLGKRAVADATAYCASKFGVVGFSHALAAETGGEIGVTTMIPGGMKTRFFDDRTEQYKPQDDSRLNSPGNVAQAILFVLSQPTGCEVREMLICHEEEGSWP				NA	NA	NA	NA	NA
D1-29_00542	687	COQ5_1		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	GTGACGGGACACGAACTGGATCGGCCCACGGGGCCGGACCACCTGCAGCACCCGCGTTTTGCCAAAAACTATGCGCGGGTAGTGGAGGTGATGAACGAACGGGGCGCCACGGAGCATCGGCGTGCGGCACTGTCCGGCCTGTCAGGCAAGGTGATAGAAATCGGGGCAGGGGAAGGCTCAGCGTTTGCGCTCTACCCCGGCTCTGTCACCGAGGTTCTGGCGGTGGAGCCGGATGACGAGCTCCGGCGGCTGGCCAGAGACAAGGCAGCGTCCGCCCCGGTTCCGGTCCGCGTGGTGGCCGGAGCCGCGGAGGAGATTCCCGCGCCTGACGCCAGTGCCGACGCCGTGGTCACAAGTCTTGTGCTCTGCAGTGTCGAGGACCAGGCCGCCGTCCTGGCAGAAGTCCGCCGCGTTTTGCGGCCGGGCGGGACGCTGGCCTACTACGAGCATGTCCGCTCGGGCCATAGAGTCCTGGCTGCGCTGCAGGACCTGGTGACTCCTGCCTGGCAGCGCCTCGCCGGCGGCTGTCATCCGAACCGGGACACGCTGCAGGCCATCTCCGCCGCCGGGTTCACTATCCGGGAGAACCGGCGGTTCGGTTTCTCTGCGGGCCCGCTGGTACCCCCGGTGGACCACATCCTCGGCCACGCCACGTCGCCCGGACGCGGGCAAGGCCCCGGAAACTGA	MTGHELDRPTGPDHLQHPRFAKNYARVVEVMNERGATEHRRAALSGLSGKVIEIGAGEGSAFALYPGSVTEVLAVEPDDELRRLARDKAASAPVPVRVVAGAAEEIPAPDASADAVVTSLVLCSVEDQAAVLAEVRRVLRPGGTLAYYEHVRSGHRVLAALQDLVTPAWQRLAGGCHPNRDTLQAISAAGFTIRENRRFGFSAGPLVPPVDHILGHATSPGRGQGPGN				NA	NA	NA	NA	NA
D1-29_00543	1467	gabD_1	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)]	ATGCATACCACTGCCAGGCAAACGGATACCGCATCACCGGCCACGCCGATACCAGCCACGCCAACACCGGCCACGCATGTCACCGAGGACGGTTCCGGGATCACCATCAGGGATCCCCGCAGCGGCGAGACCCTGTGGACAGTTCCGGAGGCTGAACCCCATACAGTAACCGAAGCCGTGGATGTGGCGCGCAAGACCGCCGCTGATTGGGCGTTTACTGCGCCGGCGGAGAGGGGTTCGCGCCTGCGGGCGGCGGCGCGGGCACTTGAGGACGCCGCCCATGAGCTGGCCGGGCTCAACAGCAGTGAGACCGGGCGCCCCCTGGAGGAAGCCCTTGGTGGGATCGCCGCCGGGGTTTCCACCCTGGAGCAGTACGCCGAGCTTGGCCCCCTGCATCGGGGGCACAGCCTCAGGGGCAACAGCCTGGCTTCCGACTATACGGTGGCAGAGCCGCGTGGCGTGGCCGTACTGCTGACGCCCTGGAACGATCCCGTGGCGGTTGCCTGCGGGCTGATCGGTGCCGCCTTGGCCACCGGCAACACGGTAATACACAAACCCAGCGAACGTTGTCCCCGGTTAGGCGAAGCCCTCGGAGAGGTGCTGGCTCCGGCCTTCCCGCCGGGAGTGTTGCTGACCGTCTCGGGAGGTGCCCGGGTGGGTGAACTTCTGACAAGCACGGGAGTGGACGTCATCGCGCACGTGGGCTCCAGCGCTTCCGGCGCCCGGATCGCTGCCGCTGCGGTGGCCACAGGCGCGCACTTCATCCGGGAAAACGGCGGAAATGATCCGCTCCTGGTAGACCGCGACGTGGACCCGGTGTGGGCTGCCGAGCAGGCGGCGATCGGTGCCTTCGCCAACAGCGGCCAGATCTGCACTTCAGTGGAGCGGATCTATGTCCACGAGGCTATTGCCGATGAATTCTGCGCGGCGCTGGAAGCCGAAGCCGCCCTCCGCAACGGCAACGGCACGGTGGCACCACTGGTAGACACACGGCTGCGGGACGCCGTCCACGCCCAGGTTGCCGAAGCCGTGGAGCTTGGTGCACACGCAGTGGAAGGAGGCGCCGTTCCCGACGGGCCGGGCGCGCACTATCCGGCCACGGTCCTGCTTGGCTGCACCGGGAGCATGCAGGTGATGACCGAGGAAACCTTCGGGCCGGTGGCGCCCGTGCAGGTGGTATCCACTTTCGCGGAGGGGCTGAGGGAGGCCTGCAACGGCCGGTTCGGGCTGGCCGCCACGGTACTCACGGGCAGCATCGCGCACGCCCAGCAGGCCATTGCCTCCCTTCCCGTGGGAACCGTCAAGGTCAATGAGGTGTTCGGCGGCGCGCCGGGAGGTTCGGCTCAACCCCGCGGGGACAGCGGCGAAGGCTTCGGCTACGGACCCGAGCTCCTGGATGAGTTCACCCGGGTGAAGGTGGTGCACGTCGCTGCTCCGCCCGTGACGTTGAATCAGGGCACACCATGA	MHTTARQTDTASPATPIPATPTPATHVTEDGSGITIRDPRSGETLWTVPEAEPHTVTEAVDVARKTAADWAFTAPAERGSRLRAAARALEDAAHELAGLNSSETGRPLEEALGGIAAGVSTLEQYAELGPLHRGHSLRGNSLASDYTVAEPRGVAVLLTPWNDPVAVACGLIGAALATGNTVIHKPSERCPRLGEALGEVLAPAFPPGVLLTVSGGARVGELLTSTGVDVIAHVGSSASGARIAAAAVATGAHFIRENGGNDPLLVDRDVDPVWAAEQAAIGAFANSGQICTSVERIYVHEAIADEFCAALEAEAALRNGNGTVAPLVDTRLRDAVHAQVAEAVELGAHAVEGGAVPDGPGAHYPATVLLGCTGSMQVMTEETFGPVAPVQVVSTFAEGLREACNGRFGLAATVLTGSIAHAQQAIASLPVGTVKVNEVFGGAPGGSAQPRGDSGEGFGYGPELLDEFTRVKVVHVAAPPVTLNQGTP	PGPT0007165_2834	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130	NA	NA
D1-29_00544	1710	hldE_2		Bifunctional protein HldE	ATGAGCCCGCTGGACCGCCCCGATGCCGGGGACCTTGCGGGCTCACGGGACCTTGCCGGCGAGCGCGCCCTCTCCGGGTCGCTGCCGAGGCGCCTTGCTGCCGAACACCCAGCCGTGATGGTCATCGGGGACGTGATGCTGGACGGCTGGTGGAGCGGCAGCATTGAGCGGCTGTGCCGGGAGGCACCTGCACCCGTAGTTGACATCACCACCCGGGACTTTGCTCCTGGCGGGGCTGCGAACACGGCCATGAACCTGGCTGCATTGGGTGCCCGGGTGTCTGTAGCAGGCATCATCGGTACCGACGACGCCGGCGTGGTCCTGCGGAAAAAGCTGGTGGAGGCGGGCATCGACGTCCGGCACCTGCACAGCCACCCAGCCATGGTTACCACCACCAAGATCCGGATCAGCAGCGGCGGGCAGGTGCTGCTGCGCATCGATGACTGCGCCAAGGCTGTCCCGGAGGAAGCGCTGGCAGCGCTGGCCGCTTCGGTCAGAGCCGCCGTCGGCCATCAGGACGCCGTGATGGTGTGCGATTACGGAACCGGAGTCCTGGCAGACCCGGTCCGCGGCAGCCTGCTTCAAGCTCTGGGCCGTCCTGGATTGGATGACCCGGAATTGAATGGGCCCGAATTGCACGGGCAGGAACTGCAGGGGCCTGAATTGCACGGGCAAGAGTTGCGCGGGCCGGAAGTGCCCGCGCCCGAATTCCACAGCCCGGAACCGGAGCTGGCGGCAGAGGCAGGAGCAGCGGGCAGGCTCGGCATCCGCCCGCTGACAGTCATCGATGCGCACGACCCGCGGCTGTGGGCGGAGCTGCGTCCTGACCTGGCCACCCCCAACGCGCAGGAAGCCGCGCGGATGCTCGGCTTGCGCCTGCCGGAGGGTACCGAGCGGATCGACGTTGTGACCGCGAACCGGGAGGCGCTGCTGGAGGCCAGCGGAGCCCGCTCCCTGGTGGTCACGCTGGACCGGGACGGGACAGTGCTGTTCTCGGCGGGCGGCGGCACGCACCGGACCTGGGCACGGCCGGCCGCGGAGAAGCAGGCCTCCGGCGCCGGGGACACGTTTGTGGCGGCACTGACGCTGGGCCGGTCGGCGGGACTTCCGCTGACGGCGAGCCTGGACCTGGCCCAGGCCGCCGCGGATGTGGTGGTGCACCAGCCGGGGACTTCCGTCTGCAGCACCGCCCAGCTGAGCCGGCACCTGGAAAGTTTCGCGGATACCGCGCTTAGCGTGGAGGAACTGGACCGCCAGCTGGAGGTGCACCGCTCCCAGGGCCAGCACATCGTGCTGACCAACGGCTGCTTCGACGTGCTGCACAGCGGCCACACCAGGTACCTCAACCAGGCCAAGCAGCTGGGTGATGTGCTGGTGGTGGCGCTGAACAGCGACGAATCCGTGCGTAGGCTCAAGGGCCCTGGACGGCCCATCAACACGGTGGCGGACCGGGCTGCCGTGATCGCCGCCCTCAGCTGTGTGGACTACGTAACCGTCTTTGATACGCCTACGGCCAGCCCGCTGATCTCCCAACTCCGGCCCGAGGTGTATGCCAAGGGCGGGGACTACACACCGGAGATGCTGGCGGAGACGGCGGCTGTGGAGGAGTATGGCGGACGGGTGGCCATCCTGGACTATGTTGCCGAACGCTCCACCACGGCCGTGGTCCAGCGGATCCGGGAGGGCAAAGGGGCAGGGCAGACCAACTAG	MSPLDRPDAGDLAGSRDLAGERALSGSLPRRLAAEHPAVMVIGDVMLDGWWSGSIERLCREAPAPVVDITTRDFAPGGAANTAMNLAALGARVSVAGIIGTDDAGVVLRKKLVEAGIDVRHLHSHPAMVTTTKIRISSGGQVLLRIDDCAKAVPEEALAALAASVRAAVGHQDAVMVCDYGTGVLADPVRGSLLQALGRPGLDDPELNGPELHGQELQGPELHGQELRGPEVPAPEFHSPEPELAAEAGAAGRLGIRPLTVIDAHDPRLWAELRPDLATPNAQEAARMLGLRLPEGTERIDVVTANREALLEASGARSLVVTLDRDGTVLFSAGGGTHRTWARPAAEKQASGAGDTFVAALTLGRSAGLPLTASLDLAQAAADVVVHQPGTSVCSTAQLSRHLESFADTALSVEELDRQLEVHRSQGQHIVLTNGCFDVLHSGHTRYLNQAKQLGDVLVVALNSDESVRRLKGPGRPINTVADRAAVIAALSCVDYVTVFDTPTASPLISQLRPEVYAKGGDYTPEMLAETAAVEEYGGRVAILDYVAERSTTAVVQRIREGKGAGQTN	PGPT0023040_60	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
D1-29_00545	912	speE		Polyamine aminopropyltransferase	ATGGCAAAACGCGGCAGGTCAGGAGGCCGCGCCAGTGGAGGTTCGACGGCGGGTGTTGTGGAAGTGCCCAAGGGCACCCGGCCCGACGGCCCCGTTGAGGGCGTCTATTACATCGATACCGGCGACTGCCAGCTGATTGCTGACCAAGACAACTCCAACGGCTGGCTCCTGAAGATCAACGGCGTGATGAGCTCCCACATAGACCTCGCCGACCCGCTCTTTTTGGACTTCGAATACATGCGCTGGATGGCGGCGCTCATTGAATCACGGTGGCCGCCCAAACCAAAGACAGGCCAGCCCGCGCGGCTGCGCGGCCTGCATCTTGGCGGCGGCGCCTGCTCCCTGGCACGCTACTTTCACGCCGCCTACCCCGATGCCCGCCAGGTGGTGGTGGAACTCGACGGAAAACTCGCCGAGTACGTCCGCGGCTGGTTTGACCTTCCCAAGGCGCCCTTGCTCCGCCTGCGGGTGGGAGAGGCCCGCGAAGTCACCGAAACCCTGACCCCGGACACCCGCGACTTCATCATCAGGGATGTCTTTGCCGGTTCGCTGACGCCGCGGGCACTGACAACGGCAGAGTTCAATGAACACATCAGGCGCGTCCTGGCTCCGGGCGGCATGTATGTGGTCAACTCCGGCGACGCCCCCAACCTGCTGAATGCCCGGGAGGACGCCGCCACCATCGCTGCCTCGTTTGAGCACACGATGATCATCGCCGATCCTGCCATGCTGAAGGGCCGCCGCTACGGGAATATGGTGATGGCCGGCAGCGATGTCCCGTTGGACGGCGACCCTCAGCTGGCCCGCAGGCTTTTGGGCGGGGCGGTTCCGGCGCATATCTGGGACGACGCGCAGGTCCGCGCGTTCGCCGCAGGATCACCGGTCCGCCACGACCCTCCCGCATCCGCCTAG	MAKRGRSGGRASGGSTAGVVEVPKGTRPDGPVEGVYYIDTGDCQLIADQDNSNGWLLKINGVMSSHIDLADPLFLDFEYMRWMAALIESRWPPKPKTGQPARLRGLHLGGGACSLARYFHAAYPDARQVVVELDGKLAEYVRGWFDLPKAPLLRLRVGEAREVTETLTPDTRDFIIRDVFAGSLTPRALTTAEFNEHIRRVLAPGGMYVVNSGDAPNLLNAREDAATIAASFEHTMIIADPAMLKGRRYGNMVMAGSDVPLDGDPQLARRLLGGAVPAHIWDDAQVRAFAAGSPVRHDPPASA				NA	NA	NA	NA	NA
D1-29_00546	915	argP_1		HTH-type transcriptional regulator ArgP	ATGTGCACAATTGCAGATATGAATGCCAACCCGGATGACCTGCTGGTACTGCTGGCGGTTTCCCGCTCAGCCAAATTTACGACGGCGGCCCAGGCGTTGGGCCTGAACCACACCACTGTGTCACGCCGGATAGCGGCCCTGGAAAAGGCACTGGGCGGCCGGGTCCTGGCCCGGGCTGCGGGCGGCTGGGAACTGACGGACCTTGGCACCCAGGCGGTGCGGGTAGCCGAACAGGTGGAGGCTGCGGTGAGTGCGCTGGGACCGGCAGGCAGGACACCGGATCCCATTACCGGCGTCGTCCGCATGACGGCGACAGACGGCTTCAGCGCCTACATCGCCGCTCCCGCCGTAGCCGGGCTCCGCCGCGAACATCCAGGGCTCAGTGTGGAAGTGGTGACCATGACCCGGCGGGCGCTGCAGCAGCGTTCCGGCCTGGACATCGAGGTGGTGGTGGGCGAACCGCAGGTCCACCGGGCCGAGGCCGTCAGGCTGGGCGAATACATGCTGGGCATGTACGCCTCGCGCTCGTACCTGGAGGAGAACGGAACCCCGGCCAGTGTGGCTGACCTGTCCGAGCACCCCTTGGTGTACTTTGTGGATTCCATGCTTCAGGTTGATGACCTGGACGCCCCGCGGCGCCTTGTCCCGGCCATGCGTGACGGGCTCACGTCCACTAACGTCTTTGTGCACGTGGAGGCCACCCGGGCCGGCGCCGGCATTGGGTTCCTGCCCTGTTTCATGGGTGACCTCCACGCGGATCTGGTGCGGCTGCTCCCGGCGGAGTTCGCCGAGCTGCTCCCCTATTGGATGGTGCTGCGGCCCGACTCGATGCGCCGCCCCGCGGTTGCCGCCGTGGTGCAGGCGCTGCGGGACCAGACGGCGGCGCACCGGGAGAAACTGTTGGGCCGCGGCTAG	MCTIADMNANPDDLLVLLAVSRSAKFTTAAQALGLNHTTVSRRIAALEKALGGRVLARAAGGWELTDLGTQAVRVAEQVEAAVSALGPAGRTPDPITGVVRMTATDGFSAYIAAPAVAGLRREHPGLSVEVVTMTRRALQQRSGLDIEVVVGEPQVHRAEAVRLGEYMLGMYASRSYLEENGTPASVADLSEHPLVYFVDSMLQVDDLDAPRRLVPAMRDGLTSTNVFVHVEATRAGAGIGFLPCFMGDLHADLVRLLPAEFAELLPYWMVLRPDSMRRPAVAAVVQALRDQTAAHREKLLGRG				NA	NA	NA	NA	NA
D1-29_00547	1383	abaF_1		Fosfomycin resistance protein AbaF	ATGAGCGTAGAGCAGCGCTCGGCAGACAATGCCGCCGGATCCGCATCCAAGGGATCCGGACTCAAGAAGATTGTGGCCGCCTCCATGGTGGGCACAGTAGTGGAATGGTATGAATTCTTCCTCTACGCCACCGCCGCAACCCTGGTGTTCGGCAAGTACTTCTTCCCCGCCACCGGCAACGAACTCGATGGCATCATCCAGGCCTTCCTCACCTACGCGGTGGGCTTTGTGGCACGTCCGCTGGGCGGAATCGTGTTCGGCCAGATCGGTGACAAGCTGGGCCGCAAGCCCACGCTGCAGCTGACCATCATCATCGTGGGTGTTGCCACGTTCCTGATGGGCTGCCTCCCGGGCTTCGCCGAGATCGGTTACCTGGCGCCGGCACTGCTGGTGGCGCTGCGCTTCATCCAGGGCTTCGCGCTGGGCGGCGAATGGGGCGGTGCCGTGCTGCTGGTTGCCGAGCACAGCCCCAACAAGTCACGCGGCTTCTGGTCCAGCTGGCCGCAGGCCGCGGTGCCGGTGGGCAACCTGCTGGCCACGCTGGTGCTGTTCATCATGTCCTCCGCCCTCAGCCCCGAAGCTTTCCTGGGTTGGGGCTGGCGGGTGGCGTTCTGGCTCTCCGCCGTGATCGTGTTCGTGGGCTACTACATCCGCACCCACGTCACCGAGGCCCCCATCTTCCTGGAAGCCAAGGCCCTGGTGGAGAAGGAGCAGGCAGTCAGCTACGGCGTCTTCGAAGTGGTCCGCAAGTATCCCAAGGGCATCCTCCAGGCCATGGGGCTGCGCTTCGCGGAGAACATCATGTACTACCTTGTGGTCAGCTTCGCCATCGTTTACCTCAAGAGCGTCCACAAGTACGACACTTCCTCCCTCCTGCTGGCCCTGCTGATCGCGCACGTCATCCACTTCCTGGTCATCCCGCAGGTGGGACGGCTGGTGGACTCGCTGGGACGCAAGCCTGTGTACCTGTTTGGCGCCATCGCCGGTGCTGCCTGGCCGTTCTTCGCCTTCCCGATGTTCGATACGCGCAATGCTGTGGTGATTGTCCTGGCCGTGACCATCGGACTGTGCCTGCACGCATTTATGTACGCCGGCCAGCCCGCCATCATGGCCGAGCTCTTTCCCACCAGGATGCGGTACTCGGGTGTGTCGCTGGGTTCGCAGGTGACGTCCATCTTCGCCGGTTCCCTCGCCCCCCTGCTGGCCACCCAGTGGCTCAAGGACACAGGATCCTGGGTCCCCACGGCCATCTACCTGGTGGTGGCCTGTGCCATCACCTCCGTGGCCGTGCTGAGCCTGAAGGAAACCAAGGGAATTGCCCTCGAGGAAGTGGACAAGGCCGACGCCGCCCGCGAAGGACTGCTCACGACGGGCACACGCTGA	MSVEQRSADNAAGSASKGSGLKKIVAASMVGTVVEWYEFFLYATAATLVFGKYFFPATGNELDGIIQAFLTYAVGFVARPLGGIVFGQIGDKLGRKPTLQLTIIIVGVATFLMGCLPGFAEIGYLAPALLVALRFIQGFALGGEWGGAVLLVAEHSPNKSRGFWSSWPQAAVPVGNLLATLVLFIMSSALSPEAFLGWGWRVAFWLSAVIVFVGYYIRTHVTEAPIFLEAKALVEKEQAVSYGVFEVVRKYPKGILQAMGLRFAENIMYYLVVSFAIVYLKSVHKYDTSSLLLALLIAHVIHFLVIPQVGRLVDSLGRKPVYLFGAIAGAAWPFFAFPMFDTRNAVVIVLAVTIGLCLHAFMYAGQPAIMAELFPTRMRYSGVSLGSQVTSIFAGSLAPLLATQWLKDTGSWVPTAIYLVVACAITSVAVLSLKETKGIALEEVDKADAAREGLLTTGTR	PGPT0002956_62	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_SHIKIMATE_TRANSPORT,PGPT0002956-shiA-K08172	NA	NA
D1-29_00548	768	bdhA		D-beta-hydroxybutyrate dehydrogenase	ATGGGAACCGTAACTGCTATGGAAAACACTCTTAACGGCCGCAAGGCCCTGGTGACAGGCGGCGCCAGCGGAATCGGCGCCGCGTGCGTCCGGCAGCTGGCTGCCCGCGGGGCGAAGGTGGTGGTGGCCGACGTCGACAGCGACGGTGCTGCCGCCCTCGCCGATGACGTGGGCGGCACTGCCTGGGCCGTTGACCTGCTGGACGTGGATACGCTCGCCACCCTGAACCTGGACTGCGACATCCTGGTGAACAACGCCGGGATCCAGCGGATCAGCCCCATCGAGGACTTTGATCCGTCGGAGTTCCGCCGCATCATCGCGCTGATGCTGGAGGCGCCCTTCCTGCTGATCCGGGCCGCCCTGCCGCACATGTACGCCAACGGCTTCGGACGCATCATCAACGTCTCCTCCGTGCACGGCATCCGGGCCTCACCGTTCAAAAGCGCTTACGTTTCCGCCAAGCACGGCCTGGAAGGTCTTAGCAAAGTGACAGCGCTCGAAGGCGGGGAACGCGGAGTCACCTCCAACTGCATCAGCCCCGGATATGTCCGCACTCCGCTGGTGGAAAAGCAGATCGCGGACCAGGCCCTGGTGCACGGCATCCCGGAGTCCGAGGTCCTCGCCCAGGTGATGCTCACCGAATCCGCCATAAAGCGGCTGGTGGAACCGGCGGAGGTGGCATCACTGGTGTCCTGGCTGGCCTCGGATCAGGCCGGCATGGTCACCGGCGCCACCTACACCATGGACGGCGGCTGGTCCTCCCGGTAG	MGTVTAMENTLNGRKALVTGGASGIGAACVRQLAARGAKVVVADVDSDGAAALADDVGGTAWAVDLLDVDTLATLNLDCDILVNNAGIQRISPIEDFDPSEFRRIIALMLEAPFLLIRAALPHMYANGFGRIINVSSVHGIRASPFKSAYVSAKHGLEGLSKVTALEGGERGVTSNCISPGYVRTPLVEKQIADQALVHGIPESEVLAQVMLTESAIKRLVEPAEVASLVSWLASDQAGMVTGATYTMDGGWSSR	PGPT0008310_2710	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
D1-29_00549	261			hypothetical protein	ATGGCTAAAGCTGCCCGGAATCCTGTCCGTGAACAATCCAAGGCAAAGCCGGCGGGCCTGGTGGAAAAGGCCTGGAACCGCATGCGAGCGGTTCCAAGCCCTTCCTGTCCGTACAAGATCGGTGAGTCGGTTGTTGGGGATGATCCTTTCAACGGCCGTCATGAAGGAGTGGTGGTTTCGCTGAACGGAACCACGGCAGGTGTGAAAACCGGCCACGGCATCATCTTCTACGACCACCGGCAGCTGAAGCGCCTGGACTAG	MAKAARNPVREQSKAKPAGLVEKAWNRMRAVPSPSCPYKIGESVVGDDPFNGRHEGVVVSLNGTTAGVKTGHGIIFYDHRQLKRLD				NA	NA	NA	NA	NA
D1-29_00550	432			hypothetical protein	ATGGAAAATCGACGTGTCTGTCTTGTCATCGAGGATGACGAGGACATCCGGGGACTGATCACGCTGGTCCTGACCCGGGCAGGGTTCGAGGTGCTGGCGGTGGGCACGGGGGCTGAGGCCATCGCTGCCGCAGCTGATCCATCCCTTTCTCTAATCACGCTGGACCTCGGCCTGCCTGATGCTGACGGCCACGTGGTGGCGCAAGCCCTTCGCGAACTGACCAACGCTCCGCTGTTGTTCCTCACGGCCAGATCCGACTCTGACGATCTGCTGGCAGGAATGGCCTCCGGCGCCGCAGCCTACTTGACCAAGCCCTTCCGGCCGAAGGAGCTGGCAGAAGTCGCAGAGCTGCTGTGCGCCGCCCCTGCCCCAGCCCAGGACAAGCCGAACCGTCCTGCTCCAGCCAATCTCACGTCAGCGTCAGGTCTTTAA	MENRRVCLVIEDDEDIRGLITLVLTRAGFEVLAVGTGAEAIAAAADPSLSLITLDLGLPDADGHVVAQALRELTNAPLLFLTARSDSDDLLAGMASGAAAYLTKPFRPKELAEVAELLCAAPAPAQDKPNRPAPANLTSASGL	PGPT0015055_73	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015055-creB-K07663	NA	NA
D1-29_00551	429			hypothetical protein	ATGTCCTATGAGGAAAAGAGTGCCTGGATCATGGGTGTGGTGGCGGTGGGCTCCTATGGCATTTACCTCGCCATCATCCTGGGCCAGGCCGGAAGCTCGCCCCTCACCGACGTCGCGTATGTCTCGCCTCTGTTGTGGACGGTCGGTGCCTCCATCCTGACGTCCATTGCGCTGCATGCCGTAATGGGCATTTCGGCGCCCAAGGAGGCGGGCAGGAAGGACCAGCGTGACAGGGAAATCTATCGGTTCGGCGAGTACATCGGGCAGTCGTTTGTGGTGATCGGCGGAGTGGCGGCACTGCTGATGGCCATGGCTGAACTGGACCACTTTTGGATTGCCAACGTGATCTACCTGACCTTCGTCCTCTCGGCCATCCTGGGCGCCGTGGCGAAGATTGTCGCCTATCGGAGGGGATTCCAGCCGTGGTGA	MSYEEKSAWIMGVVAVGSYGIYLAIILGQAGSSPLTDVAYVSPLLWTVGASILTSIALHAVMGISAPKEAGRKDQRDREIYRFGEYIGQSFVVIGGVAALLMAMAELDHFWIANVIYLTFVLSAILGAVAKIVAYRRGFQPW				NA	NA	NA	NA	NA
D1-29_00552	234			hypothetical protein	GTGGTGAAGCCTACGCGGGTGACCAACTCCATCCGCCGGCTGCGGTTTGAGCGCGGCGAAATGACGCAGGCCGAGCTTGCCGAGCGGGTGGGCGTGACCCGGCAGACCGTCATCGCCATCGAGCAGGGCCGGTATTCACCGTCCCTGGAGATGGCCTTCCAGATAGCCCATGTCCTGAGCGTTCCGCTCGAGGACGTGTTCCAGTACCCGCACCACGAAGGAGACGCATCATGA	MVKPTRVTNSIRRLRFERGEMTQAELAERVGVTRQTVIAIEQGRYSPSLEMAFQIAHVLSVPLEDVFQYPHHEGDAS	PGPT0008430_6404	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
D1-29_00553	972	pikAII		Narbonolide/10-deoxymethynolide synthase PikA2, modules 3 and 4	ATGAAAGCTATCGTGCAGGACATCTACGGATCCGCGGACGTGCTCACGCTTCGCGATATCGACAAACCAACGGCAGGCGACGGTGAGGTCCTCATCCAGGTCCGTGCCGCCGGCGTCGACCAGGGAGTGTGGCATCTCATGACCGGACTGCCGTACCTGGTCAGGGTGTTTGGCTACGGCCTCAAAAAGCCCAAGGTCCCTGTCCGGGGACGGGATGTGGCAGGTGTGGTGGAGGCCGTGGGAAACGGCGTAACCCGATTCCAGCCAGGTGATGAGGTATTTGGCACCTGCGAGGGATCATTCGCCGAATACGCCTGCGCCAAGGAGGGCAGGCTGGCACTCAAGCCGGCCAATCTCACGTTCGAACAGGCTGCAGCCGTGCCCATTTCCGGGGGCACTGCACTGCAGGCGGTACGCGATGCGGGGCAGGTGACGGCTGGCCAAAGCGTGCTGGTGATCGGCGCAGCAGGCGGGGTGGGCTCGTTCGCGGTCCAGCTGGCCAAGGCCTTCGGTGCCGAGGTCACCGGCGTCTGCAGCGGTGCAAAGGCGGACCTGGTCCGGTCTTTGGGCGCCGACCAGGTGATCGACTACACGCGGGACGATTTCGCGGCCACAGGGCAGCGCTATGACGTCATCCTCGACACCGCCGGTAACAGGCCCCTGTCAGTGCTGCGGCAGGCACTCGCCCCTGAGGGGACCCTGGTGATCGTGGGCGGGGAGGGCGGCGGCCAACTCACCGGAGGGTTTGAGCGGTCCCTTGGCGCTGCGCTGCTCACGCCGTTCGTGGGCCAGAAGCTCAAGGGGCTCGTGGCAGGGGAGAATCACCAGGACCTTGAGTACCTGGCGTCACTGATCGAGACCGGCAGGGTGAAGCCGGCCATCGATACTGTCTACCCTTTGGCTGAAGCAGCGGCCGCCATTGACCATGTCCACGAAGGCAGGGCCAGGGGCAAGGTTGTGGTCAGCGTCTGA	MKAIVQDIYGSADVLTLRDIDKPTAGDGEVLIQVRAAGVDQGVWHLMTGLPYLVRVFGYGLKKPKVPVRGRDVAGVVEAVGNGVTRFQPGDEVFGTCEGSFAEYACAKEGRLALKPANLTFEQAAAVPISGGTALQAVRDAGQVTAGQSVLVIGAAGGVGSFAVQLAKAFGAEVTGVCSGAKADLVRSLGADQVIDYTRDDFAATGQRYDVILDTAGNRPLSVLRQALAPEGTLVIVGGEGGGQLTGGFERSLGAALLTPFVGQKLKGLVAGENHQDLEYLASLIETGRVKPAIDTVYPLAEAAAAIDHVHEGRARGKVVVSV				NA	NA	NA	NA	NA
D1-29_00554	678			hypothetical protein	ATGAGCCTCGGGAACGGCGCCATCAAGCTCCAGTCAAAAGTGACCGCAGACCTCATTGCCGAGTATCTGCGTGAGCGGATCCTGGACGGGACCTTCGCACCCTCAACGAACATCAACGAAGTGCAACTGGCCGCCCATTTGAACATCAGCCGGGGGCCACTGCGCGAAGCCGTCCAACGGCTGGTGCAGGAGGGACTCCTTGTGAGCACCCGCAACTACGGCACCTCCGTTGTTGACCTGGGCCCTGAGGACATTGAGGACATCTATAAGGCGCGGGTCGCGATTGAGCTGGAGGCAGGCCGGCTGGTCCTCCAGCAGGACACTGCCGCCCTGGCCGCCGAGCTGGACGTCATCCTGGAACGCATGCACGATGCCTTGGACGGGGACAGGTGGCAGGACGTGGCCACCGCGGACCTGACATTCCACCAAACCATCGTGCGGGCCACCCTCAGCCCCCGGCTGGACAGGATGTTTTCCACCCTGGCGGCTGAGACCCTGCTGTGCGTTCGCCAGTTCCGCTACATCCACGAACGCAAGGAAATCGTCCTGGAACAGCACCGCCGTCTCCAGGAACTTATCCAGGCGCGGGATGAAACCGGCTATCTCACCGAAATCGAATGGCACCTCAAAAAGTCGGTGCCCATGTTGGAAGCAGCCCGAAAACAATCGAGCTCCTGA	MSLGNGAIKLQSKVTADLIAEYLRERILDGTFAPSTNINEVQLAAHLNISRGPLREAVQRLVQEGLLVSTRNYGTSVVDLGPEDIEDIYKARVAIELEAGRLVLQQDTAALAAELDVILERMHDALDGDRWQDVATADLTFHQTIVRATLSPRLDRMFSTLAAETLLCVRQFRYIHERKEIVLEQHRRLQELIQARDETGYLTEIEWHLKKSVPMLEAARKQSSS				NA	NA	NA	NA	NA
D1-29_00555	1488	gabD_2	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)] GabD	ATGAGCCTCATTTCACCAGTTACTACGCCGTTGATCGCGGCGGACCCGGACAGCCTCCGCCACGCGGATGCAGTCATCAAGTCCATCAACCTTCCCGGCCAGGGAATCGCAGTCCAGGACCCCGCCACGGCTGAGACCATCGCCCACGTACCCGACGCTGACGTTGAGGCTGCACTGGAAGCTGTGGGAAAGGCCGATGAAGCCGGAGCTGCCTGGGCCAAGACCAGCCTTCGTCAGCGCGCGGATGTGCTGCACGCCTGGTACGACAAGCTCGTTGCCCACACCGAGGATCTCGCGCACCTGATTTCGCGCGAAATGGGCAAGCCGCTCGCCGAGGCCCGCGGCGAGGTCAAGTATGGTACCGACTTCGTCCGCTGGTACGCCGAAGAGGCTGTGCGCCCTGCCGGAAACTTCCGGGACACCCCCGACGGCGGGGCGAGCCTTCTGACCCGCCGTTCGCCCGTTGGCCTGGCGGTGCTGATCACGCCCTGGAACTTCCCCCTGGCCATGGCAACGCGAAAGATCGCTCCGGCGCTGGCAGCGGGATGCCCGGTCGTGATCAAGCCTGCCACCCTGACGCCCCTGACAACGTACTTCGCTGTCCAGCTCGCCATCGAGGCAGGGGTGCCTGAAGACCTGATCCAGGTCATCACCACCTCAAAGTCGGGGGCCTTTAGCGAAGCTGTCCTGCTTGACCCCAGGGTCCGGAAGGTTTCCTTCACCGGGTCAACGCCGGTGGGCCGTCAGCTCCTGCAGCTTGCGTCCCGGAATGTACTGCGCAGCTCGATGGAGCTTGGCGGCAACGCCCCGCTCCTGGTCTTCAACGACGCCGATCTGCAGCGGGCCGTGGAGGGAACGTTTGCCGCGAAGCTGCGCAACGGCGGACAGTCCTGCATCGGGGCCAACCGGATTTACGTCCAGGACGGGATCGCCGATGACTTCGTGGCCGCACTCACCGAACGCTTCGCCCAGATTCAGGTGGGAAGCGGCCTCGGAAAGCAGACCGGGCTCGGTGCCCTGATTGATGACCGTGCAGTGGCTCAAATGCAGGCGTACACCGAGAACGCCGTGAGCCTGGGTGCCACCCTGCTGACCGGCGGCCACGGCTACGACTCGGCCGGCAACTTCTTCGCCCCCACCGTCCTGGACCGGGTCACGGAAGATTCCGACGTTGCCCAGTCCGAGATCTTCGGCCCCATCGCCGCAATCCAGCGCTTCAGCACCGAAGCCGAAGCCATCAGCCGGGCCAACGCCACGGAATTCGGCCTCGCCGGCTATGTCTTCACCGAGAACCTGGACCGCGCGCTTAATGTCGCCGATCGTCTGGAGACCGGCATCGTGGGAATCAACCAGGGTGTACCGTCCAACGCCGGCGCCCCCTTCGGAGGCATCAAGCAGTCAGGCCTCGGGCGCGAAGGAAGCGCCGAAGGCCTGGAAGAGTACGAAAACATCCGCTTCTACAACGTCGCCCGCCGCGACACCGCCTAA	MSLISPVTTPLIAADPDSLRHADAVIKSINLPGQGIAVQDPATAETIAHVPDADVEAALEAVGKADEAGAAWAKTSLRQRADVLHAWYDKLVAHTEDLAHLISREMGKPLAEARGEVKYGTDFVRWYAEEAVRPAGNFRDTPDGGASLLTRRSPVGLAVLITPWNFPLAMATRKIAPALAAGCPVVIKPATLTPLTTYFAVQLAIEAGVPEDLIQVITTSKSGAFSEAVLLDPRVRKVSFTGSTPVGRQLLQLASRNVLRSSMELGGNAPLLVFNDADLQRAVEGTFAAKLRNGGQSCIGANRIYVQDGIADDFVAALTERFAQIQVGSGLGKQTGLGALIDDRAVAQMQAYTENAVSLGATLLTGGHGYDSAGNFFAPTVLDRVTEDSDVAQSEIFGPIAAIQRFSTEAEAISRANATEFGLAGYVFTENLDRALNVADRLETGIVGINQGVPSNAGAPFGGIKQSGLGREGSAEGLEEYENIRFYNVARRDTA	PGPT0001580_673	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
D1-29_00556	504			hypothetical protein	ATGAGCATCGTTTCTGCAGACTTGGCCGACGGGGAGACCGGGCGGCGGCTGGGTGGGCTGCTGCACTCCTATCACCGGCAAACGGAGCTGGAGAAGGCGGCCAACGGGGTTGGATCGCTGACCGGGGACGGCCTCCTGCCGGCGAAGTACCAGCAGGAGATCGACTGCCCTGCGGTGGCGTTCGCGTCGTCACGGGTCTTCATGGCGCAGCAGGATGGCCGGCCCGTTGGCATGGTGGTCCTCACTCCTGCGGGCGGTTCGGCCAGCGAGGTGAAGAGGCTTTGGGTGGAACCGTCGCTCCGCGGTGCCGGAGTGGGATCGGCGCTGCTGAACGAGGCCATCCTCGCCGCCCAGGCAGATAACGCTGAAACGGTGCGCCTTACGGTCTGGGAATGGCGCGAACCCGCCGTGCGGTCCTACCTCCGCCTCGGATTTCGGCTGGTTCCGTCCTGGGAGGAGCGTGCGGCCCTGCAATGCATGGAGCTGCGGCTGCCGGCCCGGTGA	MSIVSADLADGETGRRLGGLLHSYHRQTELEKAANGVGSLTGDGLLPAKYQQEIDCPAVAFASSRVFMAQQDGRPVGMVVLTPAGGSASEVKRLWVEPSLRGAGVGSALLNEAILAAQADNAETVRLTVWEWREPAVRSYLRLGFRLVPSWEERAALQCMELRLPAR				NA	NA	NA	NA	NA
D1-29_00557	939			hypothetical protein	ATGCAACCGGAATGGAGCCCCCGCATCAGCTGGACGGATCTGCCTGTCCAGGTGCGGGCAGGAATTGAAGAAATTCTTGGCTCACCGGTGGTGGAGGCATCGGGCCAGCAGGGAGGGTTTTCTCCGGGCACCGCGGACAGGGTGCGCACAGCGGCAGGCGGCAGGGCGTTCGTGAAAGCAGTCGGGCGCCAGCTGAATGAGCAGTCGCCGGGGATCCATCGGAAGGAAGCGGCGGTTGCCGCCGCGCTGCCGGACGGCCTGCCTGCTCCGTCACTGATCGGAACCTTTGACGACGGCGACTGGGTTGCACTTGTCCTGAGCGATGTTGAAGGCCGGCACCCGCAGGTCCCGTGGCGCACCCAGGACGTGCTCCTTGTCCTTGATGCCCTGGCGGACATTGCCCGGGCACCGGTCCCGCCTGAACTGGAACACCTGCCCAGGCTTGAGGAAGGACTGGATGAAGCGTTCCGTGGCTGGAGCCGGCTCAGATCGGACATCCCGGAGCACTTCGATCCCTGGATCCTCGGGAACTTGGACGTCCTGGAGGAGCTGGCGGAGGCCGGGCTGACGGACCTGGCCGGCGGCTCCCTGGTGCACACTGACGTCCGCGCCGACAATGTCCTTATCACCGCGAAGGGCGCTGTCCTGGTGGACTGGCCCTGGGCATCCATCGGCTCGGCCTGGATGGACGCGCTGACGGTCCTGATCAACGTGCGCGTGTTCGATTCCGCTTACGACGCCGATTCTGTGCTCCGGTCCCACGATGTTTTTGCCTCCAGCGACGCTGACAGCATTAACAGGGTCCTCGCCGGCTTGGCTGCATACTTGGTTGACGCCGCCCGGCAACCTCCGCCGCCGGGGCTCCCCACTCTCCGCGCTTTTCAGCAGCGGCAAGGCGAAGCGGTCATCCGGTGGCTCCGGGAGCGGCTGCAGCTGTAG	MQPEWSPRISWTDLPVQVRAGIEEILGSPVVEASGQQGGFSPGTADRVRTAAGGRAFVKAVGRQLNEQSPGIHRKEAAVAAALPDGLPAPSLIGTFDDGDWVALVLSDVEGRHPQVPWRTQDVLLVLDALADIARAPVPPELEHLPRLEEGLDEAFRGWSRLRSDIPEHFDPWILGNLDVLEELAEAGLTDLAGGSLVHTDVRADNVLITAKGAVLVDWPWASIGSAWMDALTVLINVRVFDSAYDADSVLRSHDVFASSDADSINRVLAGLAAYLVDAARQPPPPGLPTLRAFQQRQGEAVIRWLRERLQL				NA	NA	NA	NA	NA
D1-29_00558	825	iclR_1	COG1414	Transcriptional repressor IclR	GTGGCAGGCAGGGAGCCGGTGAACGGCGCAGCGCGGACCGCAACAAAGGTGGCCTCGAAAGTCCCTGCCGCCGAGAATACCTTGCGCATCCTCAAACTGTTGGCCTCCCGCAGGGGCCCCATGGCGGCGTCGAGCATTGCCACCGCCCTGGGACTGCCGCGTTCCAGCGTCTACCACCTCCTGGGTGTGATGGAGGTGAACGGGTTTGTGCTGCATCTGCACGAGGAACAGCGCTACGGATTGGGGATCAGTGCCTTCGAACTGAGCTCCGCCTACTCCCGTCAGGAGCCTTTGTCCCGCCTGGGCCGGCCGTTGTTGGCGTCCCTGGTGGACGTGATCGGCGAGAGCGCGCACTTGGCTGTGCTGCATGGCCGGGACGTGCTCTACATCGTGGAGGAGCGGGCCAAGAACCGCCCCTCCCTTGTTACCGACGTTGGCGTCCGGCTGCCCAGCCACCTGACTGCCAGCGGCCGGGCCATCCTCGCCGCGCTGCCCAAGTCGCAGGTGCGGGCGCTGTACCCGAACGCCGCCGCGTTCACCTCGCGGCATGAGGTGGAGGGCGCCATCATGAAGTACTCGGCGCTGTCCTCGCACCTGGACCAGGTCCGGCAGCGCGGGTATGCAACAGAGCACGGTGAAGTGACGCCCGGTTTTGGCTCCATTGCCGCCGCCGTGACGGACCACGTGGGATGGCCGACGGCGGCAGTCGCGGTGACGTTCCTGGAGGACAAACTGCCCGCTGACCAGTGGCCGGCGCTCGCAGCCAGGGTGCAGAAGGTGGCCGATGAGCTCTCGGTCCGGATTCACGGCCGCCCCGCCAAATAG	MAGREPVNGAARTATKVASKVPAAENTLRILKLLASRRGPMAASSIATALGLPRSSVYHLLGVMEVNGFVLHLHEEQRYGLGISAFELSSAYSRQEPLSRLGRPLLASLVDVIGESAHLAVLHGRDVLYIVEERAKNRPSLVTDVGVRLPSHLTASGRAILAALPKSQVRALYPNAAAFTSRHEVEGAIMKYSALSSHLDQVRQRGYATEHGEVTPGFGSIAAAVTDHVGWPTAAVAVTFLEDKLPADQWPALAARVQKVADELSVRIHGRPAK				NA	NA	NA	NA	NA
D1-29_00559	1698	hutU	COG2987	Urocanate hydratase	ATGGCACCCGCCGATTTCACCACCGGTGCCCGCCCGGTCAAAGCAGCCCGCGGCACCGAGCTCACCGCCAAGAGCTGGCAGACGGAAGCCCCGCTGCGCATGCTGATGAACAACCTGGACCCCGAGGTCGCCGAACGCCCGGACGACCTGGTTGTCTATGGCGGCACCGGCCGGGCTGTGCGTTCCTGGGCCGCGTTTGATGCGATCACCCGAACCCTGGAAACCATGGAAAAGGACGAGACCCTCCTGGTCCAGTCCGGCAAGCCGGTGGGAGTGTTCCGCACCAACGAGTGGGCACCCCGGGTGCTGCTGGCCAACTCCAACCTGGTGGGTGACTGGGCCAACTGGCCCGAGTTCCGCCGCCTGGAGGCCGAGGGCCTGATGATGTACGGCCAGATGACCGCCGGCTCCTGGATCTACATCGGCACCCAGGGCATCCTGCAGGGCACCTTCGAGACCTTCGCCGCGATCGCCCGCAAGCTCACCGGGGACGAGAACGGCACCCTGGCCGGAACCCTGACCCTCACCGGCGGCTGCGGCGGCATGGGCGGCGCCCAGCCCCTCGCCGTGACACTGAACGACGGCGCCTGCCTGATCGTCGACGTCGACGAAACCCGCCTCCGCCGCCGCGCCGGCAAGCGCTACCTCGACGAGGTGGAAACAGACCTCGACGCCGCCATCGCCAAGGTGCAGAAAGCCAAGGAAGAGCGCCGCGGCTGGTCAGTGGGCTACGTGGGCAACGCCGCCGAAGTGTTCCCGGAGATCCTGCGCCGCCATAACGCCGGTGAGCTCACTGTGGACATCGTCACGGATCAGACCTCTGCCCACGATCCGCTGAGCTACCTCCCCGAGGGCATTTCGGTGGAGGACTGGCACCGGGAAGCCGAGGCTGATCCCGAAGGCTTCACCAAAAAGGCCCAGGCATCCATGGCCCGGCACGTCCAGGCCATGGTGGAATTCCAGGACGCCGGCGCCGAGGTCTTCGACTACGGCAACTCCATCCGGGACGAAGCCCGGAAGGGCGGCTACAACCGCGCGTTCGAATTCCCCGGCTTTGTTCCCGCCTACATCCGCCCGCTGTTCTGCGAGGGCCTGGGCCCGTTCCGCTGGGTGGCACTGTCCGGGGACCCCGAAGATATCCGGGTCACCGATGAGGCCATCAAGGAGCTGTTCCCGGAGAACAAGCACCTACACCGCTGGATTGACGCCGCCCAGGAACGGGTGGAGTTCGAAGGACTGCCGGCCCGGATCTGCTGGCTGGGCTACGGCGACCGCGCCAAGGCCGGCCTGCTCTTCAACCAGCTCGTCAAAGAGGGCAAGGTCAAGGCCCCCATCGTGATCGGCCGCGACCACCTGGACTCCGGCTCCGTGGCCTCCCCTTACCGGGAAACCGAAGCCATGGCAGACGGCTCCGATGCCATCGCCGACTGGCCCATGCTCAACGCCCTGCTCAACACCGCCTCCGGAGCCACGTGGGTCTCCCTCCACCATGGCGGCGGCGTCGGCATCGGCCGTTCCATCCACGCCGGCCAGGTCTCAGTGGCCGACGGCACCGACCTCGCCGCCCAAAAACTCGAACGCCTGCTCACCAACGATCCCGGCATGGGCGTCATCCGGCACGCCGACGCCGGCTACGACCGCGCGCTCGATGTCGCCAAGGAACGCGGCGTTCGCATCCCGATGAAGGAACAGAAATAA	MAPADFTTGARPVKAARGTELTAKSWQTEAPLRMLMNNLDPEVAERPDDLVVYGGTGRAVRSWAAFDAITRTLETMEKDETLLVQSGKPVGVFRTNEWAPRVLLANSNLVGDWANWPEFRRLEAEGLMMYGQMTAGSWIYIGTQGILQGTFETFAAIARKLTGDENGTLAGTLTLTGGCGGMGGAQPLAVTLNDGACLIVDVDETRLRRRAGKRYLDEVETDLDAAIAKVQKAKEERRGWSVGYVGNAAEVFPEILRRHNAGELTVDIVTDQTSAHDPLSYLPEGISVEDWHREAEADPEGFTKKAQASMARHVQAMVEFQDAGAEVFDYGNSIRDEARKGGYNRAFEFPGFVPAYIRPLFCEGLGPFRWVALSGDPEDIRVTDEAIKELFPENKHLHRWIDAAQERVEFEGLPARICWLGYGDRAKAGLLFNQLVKEGKVKAPIVIGRDHLDSGSVASPYRETEAMADGSDAIADWPMLNALLNTASGATWVSLHHGGGVGIGRSIHAGQVSVADGTDLAAQKLERLLTNDPGMGVIRHADAGYDRALDVAKERGVRIPMKEQK	PGPT0020250_956	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020250-hutU-K01712	NA	NA
D1-29_00560	1593	hutH	COG2986	Histidine ammonia-lyase	ATGAGCACCATTACCCACGAACCGCTCACCGTCACCCTCGGCTCCAGCGGCGTCACACCCGAGGACGTTGTCGCCGTCGCACGCCACAACGCCAAGGTGGCCATCTCCCAGGAAGCCCTGAACACGGTGGCCAAAGTCCGCGCGCACATCGATGGCCTTGCCTCCAGCGACGTCCCGGCGTATGGCATCTCCACCGGCTTCGGTGCGTTGGCGAACAGGCACATCCCCAATGAGCTCCGCACACAGCTGCAGAAGTCGCTCATCCGCAGCCACGCAGCAGGCATGGGCCCGGCTGTGGAGCGCGAGGTGGTGCGTGGCATCATGTTCCTCCGCGCCAAGACGCTGGGTTCCGGCCGCACGGGAGTCCGTCCCGTGGTCCTGCAGACCATGGTTGACGTCCTCAATGCCGGCATCACGCCCGTGGTACGCGAGTTTGGCTCGCTGGGCTGCTCCGGTGACCTCGCCCCGCTGTCCCACTGCGCCCTGGTGCTGATGGGGGAGGGCGAAGCTGAAGGGCCCGACGGCGTGACCTACGGTGGCCGGGGCGAGGCGCCGGTGGCAGAGCTGCTCGCCGCACACGGCATTGAGCCCGTCACCCTCGCGGAAAAGGAAGGCCTGGCGCTGGTCAACGGCACCGAAGGCATGCTTGGCATGCTCCTGATGGCCATCGCAGACATCCGGCAGTTGCTGACGACGGCGGACATCACGGCCGCCATGAGTGTTGAGGCGCTGCTCGGCACGGATCAGGTATTCCTGCCCGAGCTCCATGCCGCACTCCGTCCGCATCCGGGCCAGGCAGCCAGCGCGGACAACATGCTGCGGGTGCTCTCGAATTCGCCCATTGTGGCCTCGCACCGGGTGGGCGACTCGAAAGTCCAGGACGCCTACTCGCTGCGCTGCGCACCGCAGGTGGCCGGCGCCGTCCGGGATACCGTTGACCATGCCGCGCTGGTGGCCTCCCGGGAACTCGCGGCGGCAATCGACAACCCTGTGGTCCTGCCGGACGGCCGGGTGAGCTCCAACGGCAACTTCCACGGCGCCCCCGTTGGCTACGTACTGGACTTCCTGGCCATTGCGGTGGCGGACCTGAGCTCCATTGCCGAGCGCAGGACGGACCGGATGCTGGACCCGGCACGTTCGCACGGCCTCCCCGCCTTCCTGGCTGCGGATCCCGGCGTGGATTCGGGAATGATGATCGCGCAGTACACCCAGGCAGGCTTGGTTTCGGACAACAAGAGGCTGGCTGTTCCGGCCTCCGTTGACTCCATCCCCAGCTCCGCGATGCAGGAGGACCACGTGTCCATGGGCTGGCACGCTGCCCGGAAGCTGCGCAAGGCCGTGGAGAACCTGCGCCGTGTCCTGGCCATCGAACTGGTCACCTCCGCCCGTGCCATCGACATCCGCACCCAGCTCTCCGGCGGGGAGCTCACCCCCGGACCAGCCGGCGCCGCAGTTATCGCCACGCTCCGTTCCGTGGTGGAAGGCCCCGGAACCGACCGGTACCTGTCCCCGGAACTGGAAACGGCTGACCGCTTGGTGGCGTCGGGGGAGGTGCGGGCGGCTGCCGAATCCGCCGTCGGCGTCCTCTCCTAA	MSTITHEPLTVTLGSSGVTPEDVVAVARHNAKVAISQEALNTVAKVRAHIDGLASSDVPAYGISTGFGALANRHIPNELRTQLQKSLIRSHAAGMGPAVEREVVRGIMFLRAKTLGSGRTGVRPVVLQTMVDVLNAGITPVVREFGSLGCSGDLAPLSHCALVLMGEGEAEGPDGVTYGGRGEAPVAELLAAHGIEPVTLAEKEGLALVNGTEGMLGMLLMAIADIRQLLTTADITAAMSVEALLGTDQVFLPELHAALRPHPGQAASADNMLRVLSNSPIVASHRVGDSKVQDAYSLRCAPQVAGAVRDTVDHAALVASRELAAAIDNPVVLPDGRVSSNGNFHGAPVGYVLDFLAIAVADLSSIAERRTDRMLDPARSHGLPAFLAADPGVDSGMMIAQYTQAGLVSDNKRLAVPASVDSIPSSAMQEDHVSMGWHAARKLRKAVENLRRVLAIELVTSARAIDIRTQLSGGELTPGPAGAAVIATLRSVVEGPGTDRYLSPELETADRLVASGEVRAAAESAVGVLS	PGPT0020230_614	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
D1-29_00561	237			hypothetical protein	ATGAAAGCACGTGGGGCAGTCTTATCGAGGCGAAACGCCCATCCGGCCACCATTTCAGACTGGGGAACCCTCAGCCCTGGAGATCGGGTGGAGATCATCAAGCATGCGCATGTCATCGCAACGGGTGAAGTGGAAGAGGTGTCAAAGAGCGGGAACGTGCTGTGGCTTGTGCCGGCCAGCCCGTCCGAAAAGCAGCTCTTCCTGAAATCCGATGGCGTGCAGGTGCGCAGGAGCTAA	MKARGAVLSRRNAHPATISDWGTLSPGDRVEIIKHAHVIATGEVEEVSKSGNVLWLVPASPSEKQLFLKSDGVQVRRS				NA	NA	NA	NA	NA
D1-29_00562	261			hypothetical protein	ATGAACACCGCCCTATTGGAATGTCCCCCGGCTGCTTCGCCGGCCGCGGAGGCACGGGAACTTCGCTCCATCGACCTGCGCTTTTCCAGCGCGGACGAGATGCACGAAGGCCTGGACAACGCTGTTGCCACACTGATCGAGACAGCCGCCAAGGACGCCGCGTGTGGCATCCTTGTCACCCGGCTGCACCCGGGGCCCTACATTGTGGCACTGGATGACTCAGTGCCTTTCGGCGAGACGTACGAGAACTTCGCCGCCTAA	MNTALLECPPAASPAAEARELRSIDLRFSSADEMHEGLDNAVATLIETAAKDAACGILVTRLHPGPYIVALDDSVPFGETYENFAA				NA	NA	NA	NA	NA
D1-29_00563	975	araQ_4	COG0395	L-arabinose transport system permease protein AraQ	ATGACCCTCACTTCAATCCCCTCCAAGACCGCCGGGCCTGAAGAAGACACCCGAAAGAGGGACCCCAAGGCCAGCCGGCAGCAACGGCGGCTGCAAAGAAAAGCAGAAGAGGCCGGTGACTCCACCCAACTGTCGGGCAAGCGTGGAGGTTCCCGTCTGATTGTCATCATAGGACTGGTGCTTTTTGCCCTGTATTCCATAGGTCCGGCATGGTGGCTGATCGTTTCGTCAACCAAGACCAAAGAAGATCTGTACACCACAGACGCCATGTGGTTTGCGAACTTCAGCCTGTTCGACAATTTGTCCTCCCTCTTCACCTACCAGGACGGCATCTTCGGAGTCTGGATGTGGAACTCCACGCTCTATGCCTTTGCCGGTTCCATTGGCCATACCCTGGTCTCGCTGGCTGCGGGGTATGGGCTGGCCATGTACTCCTTCCGGGGCAAGGGCACCACCATGGGCTTTATTATCGGCTCATTCCTCATTCCCGGCGCCCTGCTCACCATTCCGTCCTATCTGCTATTCGTGCAGATCGGGTTCTACGACACCATCTGGGCCATGATCATCCCCGCGTTCTTCAGCCCCTTCGCGGTGTATTTGGCTAAGATTTACACCGAAGGGGCAGTCCCGAGCGAGCTCCTTGAAGCGGCCCGGATTGACGGGGCTGGCGAATACCGGATCTTCTTCCAGATTGCGTTCCGCCTCCTGACCACAGCCGGCGCCACCATCTTCCTCCTGCACTTCGTGGGCTCCTGGAACGCCTTCTTCGGCCCGATGGTGTTCCTGCGCGGAGCGGACAAATGGCCTGTGATGCTGGGCCTGTATTCCTGGCTGCAGCGTGGCACGGATTCCACGGTAGACCTCACCGGAATGGTCATTACCGGCTCGTTGGTGGCCACGATTCCCATGGTGATCCTGATGGTGGCAATGCAGCGCTACTGGCGCTCCGGCGTCGCCATGGGCAGCCTCAAATAA	MTLTSIPSKTAGPEEDTRKRDPKASRQQRRLQRKAEEAGDSTQLSGKRGGSRLIVIIGLVLFALYSIGPAWWLIVSSTKTKEDLYTTDAMWFANFSLFDNLSSLFTYQDGIFGVWMWNSTLYAFAGSIGHTLVSLAAGYGLAMYSFRGKGTTMGFIIGSFLIPGALLTIPSYLLFVQIGFYDTIWAMIIPAFFSPFAVYLAKIYTEGAVPSELLEAARIDGAGEYRIFFQIAFRLLTTAGATIFLLHFVGSWNAFFGPMVFLRGADKWPVMLGLYSWLQRGTDSTVDLTGMVITGSLVATIPMVILMVAMQRYWRSGVAMGSLK	PGPT0016540_1282	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
D1-29_00564	987	ngcF_1	COG1175	Diacetylchitobiose uptake system permease protein NgcF	ATGTCTTCCACAACTCAAGTTCGTGAAAGCCACGGTGGCCGCAATCAGGGGCCGGCCAGGCAGTCACGGGCGAAAGGGAGCCCAGCGTCTCCCCTCTTGTCCTGGCGGAGTATCCAGCGCATCAAGGGTGCCTCGTTCACCTGGCCGTTCGTGATTGGCTTCGCCATTTTTACCCTTCTTCCCGTGGTGGTCGGACTGGCCCAGAGCCTGTACGCCTCAAAGACCACTGGGCTTGGATTCGGCGCCCCAACCATCAGTTTCGCCGGCTTTGACAACTTTGCCCGTGGACTCGCGGACGTGGTTTTTTGGGAATCGATGCTCCGGGTCAGTATTTATGCAGTGGTGATCGTCCCGGTGACGCAAGTGGTCAGCCTGACGCTTGCCCTGCTCATTGATGCCGTACAACGGCGGGTGGCCAACAGGTTCCGGCTGATCCTGCTGGTGCCCTACATGATTCCGGGGATTGTGGCCACGATGATCTGGATCTACCTCTACAGCCCCATCGTGGGCCCTTTGACGCCCGTGCTGAAATTCTTCGGCCTGGATGTTGACTTCTTCAGCGGCGAGATGATTTGGGTTTCCATTGGCAACCTCTCAGTGTGGGGCGCCATCGGCTTCAACATGCTGATCCTCTACGGGGCACTGCAGGCGGTCCCCCGGGAAATATTTGATGCCGCCAGGGTTGACGGGGCTTCCGAGTTCCGCATTGCCATGTCCATCAAGGTGCCCTATGTTCAGACGTCCCTGGTGTTGACCGGGTTGCTCGCGATCATCGGGACGCTGCAGATCTTCGCTGAGCCAACGCTCTTCAGGTCCATCTCTCCGGAAACCATCACGAAGGACTTCACACCCAGCATGGTGATCTTCAACCAGGCTTTCCAGGTTGGAAACCTCAACTACGCGGCCGCCCAGTCCATCATCCTCGCCGCCGTGGTGGGGGTAGCTTCAGTGCTCATCTACCGTCTGACGAAAAAGGTCGACTCATGA	MSSTTQVRESHGGRNQGPARQSRAKGSPASPLLSWRSIQRIKGASFTWPFVIGFAIFTLLPVVVGLAQSLYASKTTGLGFGAPTISFAGFDNFARGLADVVFWESMLRVSIYAVVIVPVTQVVSLTLALLIDAVQRRVANRFRLILLVPYMIPGIVATMIWIYLYSPIVGPLTPVLKFFGLDVDFFSGEMIWVSIGNLSVWGAIGFNMLILYGALQAVPREIFDAARVDGASEFRIAMSIKVPYVQTSLVLTGLLAIIGTLQIFAEPTLFRSISPETITKDFTPSMVIFNQAFQVGNLNYAAAQSIILAAVVGVASVLIYRLTKKVDS	PGPT0016535_3847	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
D1-29_00565	1344			hypothetical protein	ATGAGCCTGAAAAACACCAAGCGGAAAGCGCTGTCGATCTCGGCCGCGGTTGCAGCAATCGGCCTCCTTGCCGGCTGCGGCAGCGCCTCGACGCCCCCCGCAGCTCCCGCAGCGGACGCCGGCCCGGTCACCATCGACGTTTGGGGGTGGGACGCCGAATCCACGCCGAACGTCGTCGCAGCGTTCAATGCCAGCCAGGACAAGATCACGGTCAACTACGTTCTCCAGGCCAGCCTCAAGGCCACCCAGACGAACTTCAGGAACGTCATGGAGTCGAAGAAGGACATCCCCTGCTACTTGCCGGGCATCGGCCCCATGGCCACCACGCTTGTCAACGGCTGGGCCCAGGACATCACCCAGTATGTAGAGCCGATCAAGGACACTTACAGCAAGGGCGCACAGTCGGCGGCACAGGTTGAGGGTAAGTTCTTCGGCTTCCCGGCGGGACCCTCGGCAACGTTCATGATGGCCAACATGGCCGTTTATGAGAAGTACGGACTGGCCGTTCCGAAAACGTGGGAAGAGTTCGTCACCACCGGCAAGGAGCTCAAGAAGCACGGTGTGACGGTCATGAACCTTGCCGGCGAAGACCCCTCAACCCTTCTGCAAATGTCACAGCAGGCCGGCGCCAGCTGGTTTGAGATCGATGGCGACAAGTGGAAAGTCAACCTCCAGGACGACGCCACCATGAAGGCTGTGGACATCATCCAGCAGATGGTGGACAACGACCTGGTAGCCCACCAGACCTACCAGGACAGGCCCGCCCTGTACTCCTACTTTGACAGTGGCCAGCTTGCCACGGTTCCTCTGGCATGGTGGTCGATGGCCGGATACGAGACCAACTTCAAAGCATCCCTCGGACAGTGGAAGGCAGTTGACGTGCCGCAGTTCAAGGATGCCAAAGAATTTGTCAGCTCCGGCATGGCAGATCCCGGCTTCGTTCCGGTGGGCTGCGAAAACCCCGCCGCTGCCATCGAATACGTCCATTGGGCCGCCAGCTCCAAGGAAGCCATAGAAGCAGGCAGAAACAAGAAAACCGGGTCAATCGGAGTTCCCGCCCACCTTGCTGATGTGTCTGAATACACTGACGCAGTGGTCCCCCAGAAGATATTCGGGGCCCAGCCGGCTGCCGAGATAGGCAAGGTCATTACCAAGGCCCAGGGCGCCGCCGTGGGCAAGTTCGAGCGCGGTCCCAACTACGATGCCTGGTTCCCCGAGATGCAGGACCAGTGGGGCAAGGCCATGGCCAAGCAGATCACCCTGAAGGAGGCCATGTCCAACGTCCAGACCTTCATCACCAAGGACCTTGACAGCAAGGGCATCAAGTACGAGGTCAGCAAGTAG	MSLKNTKRKALSISAAVAAIGLLAGCGSASTPPAAPAADAGPVTIDVWGWDAESTPNVVAAFNASQDKITVNYVLQASLKATQTNFRNVMESKKDIPCYLPGIGPMATTLVNGWAQDITQYVEPIKDTYSKGAQSAAQVEGKFFGFPAGPSATFMMANMAVYEKYGLAVPKTWEEFVTTGKELKKHGVTVMNLAGEDPSTLLQMSQQAGASWFEIDGDKWKVNLQDDATMKAVDIIQQMVDNDLVAHQTYQDRPALYSYFDSGQLATVPLAWWSMAGYETNFKASLGQWKAVDVPQFKDAKEFVSSGMADPGFVPVGCENPAAAIEYVHWAASSKEAIEAGRNKKTGSIGVPAHLADVSEYTDAVVPQKIFGAQPAAEIGKVITKAQGAAVGKFERGPNYDAWFPEMQDQWGKAMAKQITLKEAMSNVQTFITKDLDSKGIKYEVSK	PGPT0016545_4721	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
D1-29_00566	393			Universal stress protein	ATGACGATCGTGGTGGGATACGTCCCCACACCAGAGGGCGAAGCGGCGCTGACCCAGGCCATTCTGGAGGCCCGGAAGAACAGCACTACCCTGCTGGTCATCAATTCGTCCAAGGGCGATGCCCTGGTGGACAACAGATACGCCCAGGAGCCGGAGATCCAGAGCATCGAGGACCGTTTGGCAACTCAGGGAATAGACCACGTGATCAAGCAGCCGGTCCGTGGGCATGACGCGGCAGCGGAGGTCCTCGATGCCGCGGAGGAGCACAATGCCGATCTGATTGTGATCGGCCTGCGCCGCCGCACTCCGGTGGGCAAGCTGATCATGGGCAGCACGTCGCAGCGCATTTTGCTGGAGGCGGACTGCCCGGTATTGGCGGTCAAGGCCAGTTAG	MTIVVGYVPTPEGEAALTQAILEARKNSTTLLVINSSKGDALVDNRYAQEPEIQSIEDRLATQGIDHVIKQPVRGHDAAAEVLDAAEEHNADLIVIGLRRRTPVGKLIMGSTSQRILLEADCPVLAVKAS				NA	NA	NA	NA	NA
D1-29_00567	1620			hypothetical protein	ATGGACGTCTTCTCCTCCCTGATGGACGGCTTTGCCACCGCCCTGACCCCCATGAATTTCCTCTACGCGGTCATCGGTGTGCTGCTGGGCACCGCCGTCGGCGTCCTCCCGGGCCTGGGTCCGGCCATGACGGTGGCCTTGCTGCTCCCGGTCACGTATGCCTTGGAACCCACCAGTGCATTTATTATGTTCGCCGGCATTTACTACGGCGGCATGTACGGCGGCTCCACCACCTCCATCCTGCTCAACACGCCGGGCGAATCGTCGTCAGTGGTGACGGCCATCGAAGGCAACAGGATGGCCAAAGCCGGCAGGGCCGCCCAGGCCCTGGCGACGGCGGCCATCGGCTCATTCGTTGCCGGCACCATCGGCACCGCGCTGCTCGCCGTCTTCGCACCGGTAGTAGTGGAGTTCGCCGTCAGCCTCGGGGCGCCCAGCTACTTTGCCATCATGGTGCTTGCCCTCCTGGCGGTGACCGCCGTCCTTGGCTCGTCCCGCCTGAGGGGCTTCGCCTCCCTGGGCCTGGGCCTTGCGATCGGACTGGTCGGCATGGATTCAGTGACCGGCCAGCGCCGCCTCACCTTTGGCCAGCCGCTGCTGGCTGACGGTCTGGACATCGTGGTGGTGGCAGTGGCCATCTTCGCGGTGGGCGAGGCACTCTGGGTTGCCGCGCACCTGCGCCGCAACCCGCTGCAGATCATCCCGGTGGGGCGTCCATGGATGGGCAAATCCGACTGGAAGCGGTCGTGGAAGCCCTGGCTCCGTGGAACGGCCTACGGCTTCCCCTTCGGTGCACTCCCGGCCGGCGGCGCCGAAATCCCCACGTTCCTGTCCTATGTCACGGAGAAACGACTCAGCAAGCACCCCGAAGAGTTCGGCAAGGGCGCCATCGAGGGCGTGGCCGGGCCTGAGGCAGCCAACAACGCTGCGGCCGCCGGCACCATGACACCGCTGCTGGCCCTGGGCCTGCCCACCAACGCCACGGCTGCCGTGATGCTGGCAGCCTTTACGTCCTACGGTATCCAGCCAGGACCCCTGCTGTTCTCCAACGAGGGACCCCTGGTCTGGGCACTGATCGCGAGCCTCTTCATCGGCAACTTCCTGCTGCTGCTGATCAACCTTCCGCTCGCGCCGCTGTGGGCCAAGCTCCTGCAGCTTCCCCGGCCTTACCTCTACGCGGGCATCCTGTTCTTCGCCACGCTGGGCGCCTATTCGGTGAACTTGCAGGCGTTCGACCTGGTGCTCCTGCTGGCCCTCGGTGCGTTGGGATTCATGATGCGCCGCTTCGGCCTCCCCGTGCTGCCGCTTATCCTCGGCGTGATCCTCGGGCCGCGGATCGAAGGTCAGCTGCGCAAGAGCCTGCAGCTCAGCGCCGGTGACCCCGCCGGCCTGTGGAGCGAGCCGATCGCCGTGGGCACCTACATCCTCATCGCTATCATCCTGGCTTGGCCGCTGCTATTCAAGCTGTACCGCCGCAACCATCCGACCCCCGCCCTCCTGTCCGCAAACGCCACCCGCGGAAACGAGCCGACGGACGTGGCCAGCGGCCGCCGGGCGGACGGACACCATGGCGACGGCGGCGACGGTGGCGATGGCGGTGACGGGGGCGACGGCAGCTAG	MDVFSSLMDGFATALTPMNFLYAVIGVLLGTAVGVLPGLGPAMTVALLLPVTYALEPTSAFIMFAGIYYGGMYGGSTTSILLNTPGESSSVVTAIEGNRMAKAGRAAQALATAAIGSFVAGTIGTALLAVFAPVVVEFAVSLGAPSYFAIMVLALLAVTAVLGSSRLRGFASLGLGLAIGLVGMDSVTGQRRLTFGQPLLADGLDIVVVAVAIFAVGEALWVAAHLRRNPLQIIPVGRPWMGKSDWKRSWKPWLRGTAYGFPFGALPAGGAEIPTFLSYVTEKRLSKHPEEFGKGAIEGVAGPEAANNAAAAGTMTPLLALGLPTNATAAVMLAAFTSYGIQPGPLLFSNEGPLVWALIASLFIGNFLLLLINLPLAPLWAKLLQLPRPYLYAGILFFATLGAYSVNLQAFDLVLLLALGALGFMMRRFGLPVLPLILGVILGPRIEGQLRKSLQLSAGDPAGLWSEPIAVGTYILIAIILAWPLLFKLYRRNHPTPALLSANATRGNEPTDVASGRRADGHHGDGGDGGDGGDGGDGS	PGPT0017350_170	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
D1-29_00568	513			hypothetical protein	GTGAGCTCCTCACCAACTTTGGCCTCCAGGCTCAAAGGCCGCGCCGAGCTGGGGGTAGCCCTCCTGCTCGGCGTGGTGGGCGTCCTGGTCCTTCTGGACGCCATCGCCCTGGTAACTCCTTACTCGCAGTCAGATCCGGTGGGACCCAAGACCCTGCCGTACATCGTGTCCGCCATGCTGATCGTCTGTGCAGTGCTGTTGGCCATCAACGTGCTGCGCGGCGGACAGGGCGAAGCAGAAGGCGGCGAGGATGTTGACCTCACGCACCCGGCCGACTGGAAGACCGTCCTGCCGCTGGTGGGAGCGTTCTTGGCCAACATCCTGCTGATCGACCTGGCAGGCTGGGTGATCTCCGGGACCATCCTGTTCTGGGGCAGCGCCTGGGCACTGGGCAGCCGGCACTATGTGCGTGACGGCATCATTTCCCTGGCCCTCTCCGTGATCACCTTTTACGGCTTCTACCTGGGCCTCGGTATTCCGCTGCCCGCAGGCCTCCTGAAAGGGATTCTCTGA	MSSSPTLASRLKGRAELGVALLLGVVGVLVLLDAIALVTPYSQSDPVGPKTLPYIVSAMLIVCAVLLAINVLRGGQGEAEGGEDVDLTHPADWKTVLPLVGAFLANILLIDLAGWVISGTILFWGSAWALGSRHYVRDGIISLALSVITFYGFYLGLGIPLPAGLLKGIL	PGPT0017355_642	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
D1-29_00569	1008			hypothetical protein	ATGCGCCAGATCCGCGCAATGCGAGTCGCCGCCGTCGCCGCCGGCATCGCCCTGATGGCCACCGGCTGCGGTGCCACCGGGGGCTCCACCAACACCGCCAGCCCCGGCGCTGCTGCCGGCCCGGTAACCAACCTGCAGATCATGGTCCCCAACACCCCGGGCGGCGGCTATGACACCACCGCCCGCGTCGCAGCGAAGGTGCTCGACGACGAGAAGGTGGCCAACAACACCGAGGTCTTCAACCTTGCCGGTGCAGGCGGAACGGTTGGCCTGGCCCGCATCGTCAACGAGAAGGGCAACGGCGACCTCACCATGCTCATGGGCCTGGGCGTGGTGGGTGCGAGCTACACCAACAAGTCCGAGTCCAAGCTGACTGAAACCACCCCGCTGGCCAAGCTCATTGAAGAGCCGGGCGCCATCATGGTCAACAAGGATTCGCAGTACAAAACCATCGATGACCTGGTCAAAGCCTGGAAGGCAGACCCCGGCTCCATCAGCGTCGGCGGCGGCTCCTCCCCCGGCGGCCCGGACCACCTGCTGCCCATGCAGCTCGCCGGAGCCGTGGGGATCGACGCCACAAAGGTGAACTTCGTCTCCTATGACGGCGGTGGAGACCTCCTCCCGGCCATCCTGGGCAATAAGGTTGGCTTTGCAGCCTCCGGCGCCGGGGAGTACCTCCAGCAGATTCAGTCCGGTGAGGTCCGTGTGTTGGCAACCAGCGGCTCCAAGCGGCTGGAGGGCGTGGACGCACCCACGCTGAAGGAATCAGGCATCGACCTGGAATTCACCAACTGGCGTGGCATCGTGGCTCCTCCGGGAATCAGCGACGACGACAAGACCAAGCTGATCGCAGCCCTGGAAAAGATGCACGGCACCGATGGCTGGAAGGAAGCACTCAAGACCCATGGCTGGACTGATGCCTTCATCACCGGCGATGAGTTCAAGACCTTCCTGAGCGACCAGGACAAGCGGGTGGCGGACGTCCTCACGAAGCTTGGCCTGGCGTGA	MRQIRAMRVAAVAAGIALMATGCGATGGSTNTASPGAAAGPVTNLQIMVPNTPGGGYDTTARVAAKVLDDEKVANNTEVFNLAGAGGTVGLARIVNEKGNGDLTMLMGLGVVGASYTNKSESKLTETTPLAKLIEEPGAIMVNKDSQYKTIDDLVKAWKADPGSISVGGGSSPGGPDHLLPMQLAGAVGIDATKVNFVSYDGGGDLLPAILGNKVGFAASGAGEYLQQIQSGEVRVLATSGSKRLEGVDAPTLKESGIDLEFTNWRGIVAPPGISDDDKTKLIAALEKMHGTDGWKEALKTHGWTDAFITGDEFKTFLSDQDKRVADVLTKLGLA	PGPT0017360_607	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
D1-29_00570	1596	dcuS_1	COG3290	Sensor histidine kinase DcuS	GTGACTCGACGAAGAGGAATGTCCCTCGCTGGGCAGTACCTGGTTCTGCAGTTGCTGATAGTCCTGGCCGTGCTGGTGGCCGTTGTTGCCATCTCGCTGGCACAGTCAGCCGCCGCCTTTGAACGGATCGAAGGCCGCCGGGCGCTGTCCGCGGCCGAATCCCTGGGCAGCAACCCCACAGTCCGCGCCTTGCTGCCGTCAGCCGAGCCGCGGGCCGGCGCGGCCCTTCCTGCGGTGGTGGAGACCGTCACCACCGTATCCGGGGCGCCACAGGTGGTGCTGGCCAAAATGGACCGGACGGTGGTTGCTTCCTCTGACCCGGGCCTGCTGGGCCAGCCGCTGGAACTTGGCGGAAGCCGTGTGCTGGAAGGCAGGGCCTGGACGGGTGTGGTGGGCGGATCCGGCACTGCTTTCCTCTCAGCCCACGTCCCTGTCCTTGATGACGCCGGAGAAATGATCGGCATCGCCTCCGTCAGCCGGAACTACCCCTCCATGTTGGATCGGCTGGGCGACGCCGTCCCCAACCTGCTCACGTACCTGGGGGTTGCCAGCGTGCTGGGCGTGGCCGGCTCACTCCTGTTGGCCCGCAGGGTGAAACGGCAGACCCTGGGTATGGAGCCGAGCGAAATCACGGGGCTGGTGGAGAACCGCGAGGCCATGCTCCATGGGCTGAAGGAAGGGGTGGTGGCGCTTGATCCGCATGAACGTATCACCGTGGCCAACGACAGCGCCCGTGAACTGCTGGGCCTGCCGGCAGACTGTGTAGGCAAAAAGGTCGGCGCGCTCGCGGTGGACCCGGCGCTGAAGGAAGTCCTCACACGTGACCAGCCGGGCCCTGACCGGCTGGTCCTGGTGGGTGACCGGATGGTGGTGCTGAACCGCGTCCCCATCCGTTCCCACGGCCGGGACATCGGCTCTGTGACAACGTTGCGCGACCGCACCGAGCTCTCTTCCCTGGAGCGCGAACTTGGTGCCACCCGCACCGCCACTGACACATTGCGCGCCCAGGCCCACGAGTTCGCCAACCAGCTGCACGTGATCTCCGGGCTGATCCAGATCGGTGAGTACGATTCGGTGGTCCAGTTTGTTAACGGCGCCACGGTGGACAGGACCCGGCTGAACGACGAAGTGACCAGCCGCATCGAGGACCCGGCCCTGGCGGCCCTCCTGATTGCGAAATCCAGCCTCGCCACGGAACGCGGCGTGGCCCTCCAGCTGGATCCTGCCTCAGCGCTGGGACGCATTGACGATGATCTCTCCCGGGACCTGGCCACCGTCGTCGGGAACCTGGTGGATAACGCGTTCGACGCCGTCGCAGGGCTCGCCGGGGCATCGGTCCGGGTCCTGGTGGAAGAGGAAGACCACGCCGTCACCGTGACCGTCCGGGACTCCGGCCCCGGCGTGGCCGCCGGGAACGTCCAGGAGATCTTCCGGCAGGGCTTCACCACCAAGGGGGCTGGCCCCGGCGGCGGCCGGGGGTTTGGACTGGCGCTCTCGCGGGTGATTTGCCGCCGAACCGGCGGTGACCTGACGGTGGCCAATGACAACGGAGCAGTCTTCACCGCACGGCTGAATCAAAGGAGCCCACAGCCATGA	MTRRRGMSLAGQYLVLQLLIVLAVLVAVVAISLAQSAAAFERIEGRRALSAAESLGSNPTVRALLPSAEPRAGAALPAVVETVTTVSGAPQVVLAKMDRTVVASSDPGLLGQPLELGGSRVLEGRAWTGVVGGSGTAFLSAHVPVLDDAGEMIGIASVSRNYPSMLDRLGDAVPNLLTYLGVASVLGVAGSLLLARRVKRQTLGMEPSEITGLVENREAMLHGLKEGVVALDPHERITVANDSARELLGLPADCVGKKVGALAVDPALKEVLTRDQPGPDRLVLVGDRMVVLNRVPIRSHGRDIGSVTTLRDRTELSSLERELGATRTATDTLRAQAHEFANQLHVISGLIQIGEYDSVVQFVNGATVDRTRLNDEVTSRIEDPALAALLIAKSSLATERGVALQLDPASALGRIDDDLSRDLATVVGNLVDNAFDAVAGLAGASVRVLVEEEDHAVTVTVRDSGPGVAAGNVQEIFRQGFTTKGAGPGGGRGFGLALSRVICRRTGGDLTVANDNGAVFTARLNQRSPQP				NA	NA	NA	NA	NA
D1-29_00571	675	citT_1	COG4565	Transcriptional regulatory protein CitT	ATGATCAAAGTCCTGATCGTCGATGACGACTTTATGGTGGCGAAGGTCCACGCGGGATTCATCCAGCGAACGCCGGGATTTGAGGTCGTCGGCGCGGCCCACACGGGCGCCCAGGCCGTGGCTGAAACGGCCCGCCTGATGCCGGACCTGGTGCTGCTGGACATTCACCTGCCGGACATTAACGGGCTGGACCTGATGCAGAAACTGCGTGACGTCGCCCCCGAACTCGACGTCCTGGTCATCAGCGCTGCCCGCGAGGTGGAAACCGTCCGGAAAGCGCTGCGGGGCGGGATTGTCCACTACCTCATCAAGCCCTTCTCACAGAAGGATCTCCAGGAACGCCTGGAGCATTACCGCAGCGCCTACCAGAGCCTGGATTCGTCAAAGGACGTGGCGGAGCAGTCTGATGTCAATCGGGTTTTCGGCCTGGACCGGAGCGAGCGGCCGCTGCCCAAGGGCTGCAGTATCGAAACGCTGAAGCTGGTGGAAGCCGCCCTGCAGGAGGCGGACGGGGACCTCTCGGCCGCCGAGGTTGCCGTCCTGCTCGGCACGTCCAGGGTCAGCGCACGCCGGTACCTGGAGTATTTGTACGAGGTAGGCGCGCTGGAGGTCCGGCTCAGATACGGAGCGGGACGGCCCGAACGGCGGTACGTCCTCAAGGGAGCCGAGGCGTAG	MIKVLIVDDDFMVAKVHAGFIQRTPGFEVVGAAHTGAQAVAETARLMPDLVLLDIHLPDINGLDLMQKLRDVAPELDVLVISAAREVETVRKALRGGIVHYLIKPFSQKDLQERLEHYRSAYQSLDSSKDVAEQSDVNRVFGLDRSERPLPKGCSIETLKLVEAALQEADGDLSAAEVAVLLGTSRVSARRYLEYLYEVGALEVRLRYGAGRPERRYVLKGAEA	PGPT0001490_122	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
D1-29_00572	1011			hypothetical protein	ATGACCACCGTGAAGAACGGCCGGGCTGCGAGCTTTGGCCACACCAAGCTGCCGGACGAACAGCGGGAGGCCCTCCGCAAGGCCGTGAAGTTCGAATGGATCACCATCGGCTTCCTGGCCGCCTCCACCGCACTGGTATTTGCTGTGCTGGGCAACTCGCAGGCCATGAAGGCCGCGTGGGTGGAGGATGTCCTGTCCTTCCTGCCGCCGTTGTCATTCCTGCTGGCGGCCCGCGTGATCCGCAAGCGCCCCAGCGAGGAACATCCCTACGGGTACCACCGCGCCGTCGGGATCGCCCATGTGGTGGCTGCTGTGGCGCTCACGGTGATGGGCGCCTACCTCATTGTGGATTCGGCCATCGGACTCCTGGGCAACGAGCACCCCACCATCGGCGGTTTCGACTTCTTTGGCCAGACAATCTGGCTTGGCTGGCTGATGATTGGCGCGATGATCTTGACCGCTGTCCCGCCCATTTATCTGGGCCGGGTCAAGATGAAGCTGGCGGAAAAGCTGCACGACAAGGTCCTGTATGCCGACGCCGACATGAACAAAGCCGACTGGATGACGGCACTTGCCGCCGCGGTGGGGGTGGCCGGCATCGGCCTTGGCCTCTGGTGGGCGGACTACGCGGCAGCCCTGCTGATCTCGGCCAGCATCCTGCAGGACGGGTTCCGGAACACCCGCGCCGCCGTCTCTGCCCTGATGGACAAACGGGCCCGCACGTACGACGACGCCGAGCCGCACCCGATTGGGCGGCGGCTGGACGAGTATCTTCGCGGCCTGGACTGGGCTGAGAGTGCCCAGTCCAGGATCCGGGATGAGGGGCACGTGTTCCATGTGGAATCATTTGTGGTCCCGGCAGCAGGCCGAATGCCCACACTGGATCAGCTCGAAGCCGCCCGTCTTGCCTGCATTGGGATGGACTGGAAGATCCAGGACATGGTCCTGGTCCCGGTCGCTGAACTTCCCTCCGAGTTCCTGCCCGGACCCACCTCAGGGGGCGAGCGCTAG	MTTVKNGRAASFGHTKLPDEQREALRKAVKFEWITIGFLAASTALVFAVLGNSQAMKAAWVEDVLSFLPPLSFLLAARVIRKRPSEEHPYGYHRAVGIAHVVAAVALTVMGAYLIVDSAIGLLGNEHPTIGGFDFFGQTIWLGWLMIGAMILTAVPPIYLGRVKMKLAEKLHDKVLYADADMNKADWMTALAAAVGVAGIGLGLWWADYAAALLISASILQDGFRNTRAAVSALMDKRARTYDDAEPHPIGRRLDEYLRGLDWAESAQSRIRDEGHVFHVESFVVPAAGRMPTLDQLEAARLACIGMDWKIQDMVLVPVAELPSEFLPGPTSGGER	PGPT0004255_2663	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264	NA	NA
D1-29_00573	501			hypothetical protein	ATGAGATATTCGCGCAGTTCAGCAGCCCTGGCGCTGTTCTCCGTGCTGGCCCTTGCCGGCTGCGGCACAGCCTATCCTGCGGATCCGTCGGGAACCCTGGACCGGGTCACGGACGGCACCCTCCGTGTGGGTGCCAGCTCCAACGGGAACTGGGTGGACGTCTCCTCAGGCGGCGGCGACGTCAGCGACGAGGACGTGCAGGGCAGGGAGGCCGAGCTGGTGCGGCGCTTCGCCGCGAAGCTGGGAGCGGAAATCGACTGGGTGTCCGGCACGGAGTACGTCCTGGCCGAAGACCTCAAGCGCGGCAACCTTGACCTGGTGATCGGCGGCCTTGACGACAAGACTCCCTGGTCCACGCACGCCGGCCTGACCATGCCATACACCGAATCCGTTGACGGCCACGGTTCCCGGCACCGGCACGTGATGCTGGTGCCCATGGGTGAGAATGCGTTCCTGCTGGAGCTGGACAGGTTCCTGAAGGAAGCGGCGGCCGCACAATGA	MRYSRSSAALALFSVLALAGCGTAYPADPSGTLDRVTDGTLRVGASSNGNWVDVSSGGGDVSDEDVQGREAELVRRFAAKLGAEIDWVSGTEYVLAEDLKRGNLDLVIGGLDDKTPWSTHAGLTMPYTESVDGHGSRHRHVMLVPMGENAFLLELDRFLKEAAAAQ	PGPT0020800_17467	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
D1-29_00574	987	hutG	COG0010	Formimidoylglutamase	ATGCCACTTCCCGCACTTACCGTTGACGTCCCGCCCCTCCTTTGGACCGGGAGGTTCGACGGCGACGGCGGCGAACACCGGCGCTGGTGGCAGGCCGTATCGCCCATGGCACCCGGTGAACCCTCCGCATCCCCGGCAGCGCCGTCAAGCCCCCAAGCGGGTGGGCCGCAGCGCCCGGCCGCCCTCCTGGGGTTTGCCAGCGATGAAGGCGTCCGCCGGAACAAGGGCCGCCCCGGCGCGGCCACGGCCCCGGCCGCAATCCGCGGCGCCCTGGGCCCTTTGGCCTTCCACCTGGACCGCACCGTGTCCGACGCCGGCGACGTGGTGGTCCGGAACGGCGCCCTGGAGGCCGGCCAGGCCCGTGCCGGGTTGGCGATAGCTGCAATGCTCGACACCGGCCACCTCACCGTGGTGCTGGGCGGCGGACACGAGACGGCCTTCGCCAGCTATCTGGGACTCGCCGGATCCGAGGCCGTCCGCGGCGGCCAGCGGCTGGGCATCCTGAACCTGGACGCCCACTTCGACCTCCGCGATGAACCAGTCCCCAGTTCGGGTACACCGTTCCTCCAAATGGCCGAAGCGGAAGCCGCCGCGGGGCGCGAATTCCGGTACGCCGTCGTCGGAATTTCAGAGCCGAACAATACCCGGGCCCTGTTCGGCACCGCGGCGCGGCTGGGCGTCCAGTACCTGATGGACGAGGAGTGCACCGAAGATCGCGTGCAGGCATTTGTGGCGGAGTTCCTGGAAGCGGTGGATGTGCTGTACCTGACCATCGACCTTGACGTGCTGCCCGCGTCCGTGGCCCCCGGGGTGAGCGCGCCTGCGGCCTACGGCGTGCCGCTGGCCGTCATCAGCGCGGCCTGCCGGCAGGTGGCGGCGAGCGGAAAACTGCTGCACCTGGACGTCGCTGAGCTGAATCCGGAGTTCGACATCGACGCCCGCACGGCGAAGGTTGCCGCCCGCCTGGTGAACACCCTGCTGCGCTAG	MPLPALTVDVPPLLWTGRFDGDGGEHRRWWQAVSPMAPGEPSASPAAPSSPQAGGPQRPAALLGFASDEGVRRNKGRPGAATAPAAIRGALGPLAFHLDRTVSDAGDVVVRNGALEAGQARAGLAIAAMLDTGHLTVVLGGGHETAFASYLGLAGSEAVRGGQRLGILNLDAHFDLRDEPVPSSGTPFLQMAEAEAAAGREFRYAVVGISEPNNTRALFGTAARLGVQYLMDEECTEDRVQAFVAEFLEAVDVLYLTIDLDVLPASVAPGVSAPAAYGVPLAVISAACRQVAASGKLLHLDVAELNPEFDIDARTAKVAARLVNTLLR	PGPT0020240_496	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020240-hutG-K01479	NA	NA
D1-29_00575	1305	nhaP2		K(+)/H(+) antiporter NhaP2	ATGTTTGAAGCCCCCAGTATCCTGTTCGCGGCCGCCGGAGCCGCCGTCTTTGTTGCCGCAATCCTCCCCAAGATCCTGCGCAACGTCCCGTTCTCGATGCCAATGGTCTTCCTGGGCGCAGGGATGGTGGCCTTCTCCCTGATCCCCACGCTGCCCGATCCGGATCCTGTCCTGCACGGCGATTTCACCACGCACCTGGCGGAAATCTGCGTCATCATCTCCCTGATGGGCGCCGGCCTGGCCATCGACCGGCCGTTCGGCCGCACCAACTGGGCCACCACATGGCGGCTCCTGGCGATCGCCATGCCGGTGTGCATTATTGTCCTGACGCTTCTGGGCCTCTGGTTCCTGGGGCTGGGGCTGGGAGCTGCACTGCTGGTCGCCTCAAGCCTGGCACCCACGGACCCCGTACTGGCCTCCGAGGTGCAGGTGGGCGAACCGGCCGACGAACCAGACGACGCGGACAAGGAGGACGAGGTCCGGTTCGGCCTGACATCCGAGGCCGGCCTGAACGACGGCCTCGCCTTCCCGTTTGTGTATCTGGCCATAGCCATCAGCATCGTGGGTGCCTCGCCATCGGAGTGGTTGCCGGCCTGGTTGGGGATCGATGTAGTGTGGCGGCTGACCATTGGACTGGTGCTGGGATGGGGTATCGGGAAACTGCTGGCGCTGTTGTTCTTCTCGGCGCGGAAGGAAAGCATCCGTCTTTCCAACCATTCGCAGGGCTTCGTTGCCCTGGCCGCCACATTCCTGGCTTATGGAGTGACAGAAATGATCGAGGGCTACGGGTTCATTGCCGTTTTTGTGTGCGCGGTAACCATCAGGGCCGCCGAGCACACGCATGGCTACCACCGGGTGCTGCACTCCTATGTCGAACAGTTGGAGCGGCTCATGACGGTGGTGATCCTGATCCTGCTGGGCGGCGCGATCGCCCGGGGCCTGCTCGCCGACGTGGGCTGGCCCGAGGTGTTGGTGGCGTTGGCGTTCCTGCTGCTGGTGCGGCCGCTGGCCGGCTGGGTGGGGCTGCTGGGCGGCAAGACAGGTCCGCGGGAACGCATTGCCCTGTCCTTCTTCGGGATCCGCGGGATCGGTTCCCTCTACTACCTTTCCTATGCGCTGGGAAAAGGACAGTTCGAGGGCCAGGCCGAAGAGCTGTGGGGGATCGTCGGGCTGGTGGTTGCGCTGTCCATCGTGATCCATGGGGCCACCACGTCACCGCTCATGAACCGGCTGGACCGGCTTCGCGAACGGCGTGCACTGGCGGAATCCGGTGACGAGGGAATGGCGCCCAACACTCCAGTCTGA	MFEAPSILFAAAGAAVFVAAILPKILRNVPFSMPMVFLGAGMVAFSLIPTLPDPDPVLHGDFTTHLAEICVIISLMGAGLAIDRPFGRTNWATTWRLLAIAMPVCIIVLTLLGLWFLGLGLGAALLVASSLAPTDPVLASEVQVGEPADEPDDADKEDEVRFGLTSEAGLNDGLAFPFVYLAIAISIVGASPSEWLPAWLGIDVVWRLTIGLVLGWGIGKLLALLFFSARKESIRLSNHSQGFVALAATFLAYGVTEMIEGYGFIAVFVCAVTIRAAEHTHGYHRVLHSYVEQLERLMTVVILILLGGAIARGLLADVGWPEVLVALAFLLLVRPLAGWVGLLGGKTGPRERIALSFFGIRGIGSLYYLSYALGKGQFEGQAEELWGIVGLVVALSIVIHGATTSPLMNRLDRLRERRALAESGDEGMAPNTPV	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
D1-29_00576	1443	pbuG_1	COG2252	Guanine/hypoxanthine permease PbuG	ATGCTTAAGCAAGGCTCTGCCCTGGACCGGTATTTCAAGATCACCGAACGCGGGTCCAACCTCTCCCGCGAGGTCCGCGGCGGCTTCGCCACCTTCTTTGCCATGAGCTACATCGTGGTGCTGAACCCGCTGATCCTCTCCGGCGCAGATTCCAGTGGCAACTCCCTCGGTTTTCCCGCAGTGGCGGCCGTGACCGCTCTTGTGGCCGGCATCCTCACCATCCTGATGGGGGCCTGGGCCAAGCACCCGTTTGCCCTTGCCACCGGACTGGGCGTCAATGCGTTCGTAGCTGTCACGGTGGCCACCAACCCTGGCCTGACGTGGCCGGACATGATGGGACTGGTGGTGATCTCCGGCGTGACCATGCTGATCCTGGTCCTCACCGGTTTCCGGACCGCCGTGTTCAAGGCAGTCCCGGACGGCCTCAAAACCGCCATTGTGGTGGGCATCGGCCTGTTCATCGCCCTGATCGGGCTGGTCAACGCCGGGTTCGTCCGCCGCATCCCGGACGTCGCAGGAACCACCGTCCCCGTAGGCCTTGGCTTCGACGGAAAACTCCTGGGCTGGCCCACTGCCGTGTTTGTGTTCGGCCTGATCCTCACCATCGGCCTGGTGGTCCGGAAGGTGAAGGGCGCCATCCTGATTGGCATCATCACCTCCACGATCATCGCCGTCATCCTGGAAACGACCCTGCACATCGGCCCCAGCGTTGATCCGGGCAAACCGTTCAACCCGCAGGGCTGGTCCCTGGTGGCCCCCACCTTTTCGGAGTGGGCAGCACCTGACCTATCCCTGATCGGAAAGGCCAACCCGTTTGGCGCGTTTGAGCATCTGGGCTTTGTGGCCGCCACGCTGTTGGCGTTTGTCATCCTGCTGAGCATCTTCTTCGACGCCATGGGCACCATGGTGGGGCTAGCCAACGAGGCCGGAACGGTGGACGAGCATGGAAACATCCCGGACGTTGACCGTGTTTTGCAGGTGGACGCCCTGGGCGCAATTGTGGGCGGCGGGGCCTCCGTGTCCTCCAACCAGATCTACGTGGAGGCCGGGGCGGGTATCGGCGAAGGCGCCCGGACCGGCATCGCATCCATCGTCACAGGCCTGTTGTTCCTCGTGGCCATGTTCTTCACACCGCTCATCAACCTGGTCCCGTTCGAGGCTGTGGCGCCTGCCCTGGTGGTGGTGGGCTTCATGATGGTGTCCCAGGTAGGGAAGATCGACTGGCAGGACTGGGGCATCGCCATCCCGGCCTTCCTGACCTTCACACTGATGCCGTTCACTTACTCGATCGCCAACGGCCTGGGCGCCGGCTTCATCGCCTATGTACTGATCCGCACGATCCAGGGCAGGATCCGCGACATCCATCCCCTGATGTGGGCGGTGGCGGCCGCGTTCCTGATCTTCTTCGCGGTGGGTCCGATCGAGGCCGCCCTGGGCATGTAG	MLKQGSALDRYFKITERGSNLSREVRGGFATFFAMSYIVVLNPLILSGADSSGNSLGFPAVAAVTALVAGILTILMGAWAKHPFALATGLGVNAFVAVTVATNPGLTWPDMMGLVVISGVTMLILVLTGFRTAVFKAVPDGLKTAIVVGIGLFIALIGLVNAGFVRRIPDVAGTTVPVGLGFDGKLLGWPTAVFVFGLILTIGLVVRKVKGAILIGIITSTIIAVILETTLHIGPSVDPGKPFNPQGWSLVAPTFSEWAAPDLSLIGKANPFGAFEHLGFVAATLLAFVILLSIFFDAMGTMVGLANEAGTVDEHGNIPDVDRVLQVDALGAIVGGGASVSSNQIYVEAGAGIGEGARTGIASIVTGLLFLVAMFFTPLINLVPFEAVAPALVVVGFMMVSQVGKIDWQDWGIAIPAFLTFTLMPFTYSIANGLGAGFIAYVLIRTIQGRIRDIHPLMWAVAAAFLIFFAVGPIEAALGM	PGPT0007325_1484	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
D1-29_00577	636			hypothetical protein	ATGCGTTCCATCCGCCATTTGCTGAGCCTTGTGCTCGGGATTTTCGTTGCCGTCGCTATCCTGGCGGTGGCCGGTCCGGCCAGCGCGCACGACGCCGCCGAATCCAGCAGCCCAGCCCAGGGCGCAACCGTCGCCGCACCGCCGGAAAAGGTCTCCGTCACGTTCAACAGGAACCCGTTAGCCATCGGCTCACAGTTCTCCGTGAAGGATTCCACGGGGACTGAGTGGGCGGACGGCGCCGTCGAGATCGTGGACAACGTGGTCAGCCAGAAGCTCAAGGGTGGCGCGCCGGCGGGGGAATACACGGTCGCGTGGCGGGTGGTCAGTTCGGATTCACACCCCATCGAGGGGACGTTCAGCTTTACGGCCACCGCTGCGGCTGCGGGAGCTGGGCCCTCCGCTTCGGCAACAACGGGTTCGACGTCGGCTGCAGCCGTTCCCGGCATGGGCACCCCGCAGCCCGGGGTCACGTCGCCTGGCGAGCCTGCGGCTGATGCCTCGGAGCCGTTTCCGTGGAGCTTGGTGGTTTTTGCCGCTGTTGCCATCGGGCTGCTCGTGGCAATCGCGGTCACGGCAAGGCGCAGGCTCACCGCCGGAAGGGAAGAAGAGGAAGTTGAGGAACCAACACTGAGGTAG	MRSIRHLLSLVLGIFVAVAILAVAGPASAHDAAESSSPAQGATVAAPPEKVSVTFNRNPLAIGSQFSVKDSTGTEWADGAVEIVDNVVSQKLKGGAPAGEYTVAWRVVSSDSHPIEGTFSFTATAAAAGAGPSASATTGSTSAAAVPGMGTPQPGVTSPGEPAADASEPFPWSLVVFAAVAIGLLVAIAVTARRRLTAGREEEEVEEPTLR	PGPT0004115_200	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004115-pcoC|copC-K07156	NA	NA
D1-29_00578	648			hypothetical protein	GTGTCAAGCATGCCTTTGATTGGCAGGACCGAACAGACCACCACTGTGATCATTGGCACGGGCCTTTCCGGCCTGGCCGTGGCCGCAGAGCTGCGCCGGCGGGGCGTGGACTCCATCGTTGTGGACGGCCTCGACATCCTGGGCGCCGGGCAACCGGCCAACACAGCTTCGCTGCAGCGGTGCGATGCGGCAGACTCCGATTCCCTCCGGGAGCGGAACGAGATCCTTCGGCACCTGCGCAATTACGCGGCCAGCCACAACATGGACGTCCGCAGCACCATCCGCGCGGTCAAGCTGACCATGGTGCACGGCCCGCAGGACAATCCGGCAACGGACGGCCGTTCCCGGCAATGGGAGGTCCACACTCCCAACGGCATCCTGGTGGCTGAGCACATTGTGCTGACCCGGTGCGCCCACAGCCAGCTGCGGCGGATGCTGAGCGACTTCGGCATCACGGTGGGGCACAATCTGATCGCCGCGATGCGTGCCATCGGCATCTATCTGGTGGGTGTCGGCGAGCTCATTACGCCGTCCCCCAAGGAAGTGCTGCGCCAGGCCAAAACGGTGGGCCAGGCTATCTCGTCCAAGGTCTATCCGGAGAGCGCTCCCACCATCCTGACCGGTAGCTTCGCCGTCGTCCCGGGCTAA	MSSMPLIGRTEQTTTVIIGTGLSGLAVAAELRRRGVDSIVVDGLDILGAGQPANTASLQRCDAADSDSLRERNEILRHLRNYAASHNMDVRSTIRAVKLTMVHGPQDNPATDGRSRQWEVHTPNGILVAEHIVLTRCAHSQLRRMLSDFGITVGHNLIAAMRAIGIYLVGVGELITPSPKEVLRQAKTVGQAISSKVYPESAPTILTGSFAVVPG				NA	NA	NA	NA	NA
D1-29_00579	1035		COG0589	Universal stress protein	ATGGGCGCAGAAGAGTTGCATCCGGACCCGGAGCGGGACGGACGTGCCAGTTCTGCTCCCCGGGGGATCGTTGTGGGCGTGGACGGATCGGACCACGGCCAGTGCGCCCTTGTCTGGGCGGCCCGCGAGGCCGAGCGTCGCCGTCGGCCCCTTCACATCGTGACCGCCTATTCGGTGCCGATCTTCGCAGCGTCCGGCCTGGACGGCGGGTACGCCACAGTGGATGACTCGGTCATCCGTGAAGGCGCCGAAGCCATCGTCAAGCAGGCCCTGGATAAAGTGGCCGGCTATAACATCGACGTAGATGCCTCGGTTGAGAACGGTGACGCGGCCGGGGTGCTGCTGGAACTGTCAGAAACCGCTGAGCTCCTTGTTTTCGGAACCCGCGGCAGGGGTGGCTTTGTGGGGCGGCTTCTCGGTTCCGTCAGCAGCGCTCTTCCGGCCCACGCAAAGTGCCCCACCGTGACCGTCCCGCTGATCTGCGCCGACCGCCTCGGCGAAACCACCGAGGACAGGCGGATCAAGGCCGAGCAGGCCAAAGCCGGGCACCAGCGCGTCGAGAACGTTGTGGTGGTGGGCGTGGACGGTTCGGAGCAGGCCCGCGTGGCAGTCCTGGAGGCTGCGGCCCAGGCCGAAAGGCTGGGAGCAACGCTGCGGGTCATTTGCGCGGTGCCGCAGTACAGCGGTTCGCTCGCCTGGGTCCCGGCGCCGATGGACCGCAAAGCGCTTTTTGAGGACATCCAAGTACAGCTGGATGCCGGCATGGCTTGGCTCAAGAGCCACTATCCCCACCTCCCCATGGAGTCCGTGCTGAAGGATGGTTCCCCGGTGGAGGTGCTGGTGGAGGAAAGCCGGCATGTCGAACTCGTGGTGGTGGGAACACGTGGCCGCGGCGGCTTCGCCGGCATGCTCCTGGGTTCCACGTCGGATGGAGTTCTCCACCACGCCAAGGGCCCCATCCTGGTGGTGCCGGACCGGGAGGACCCGCGGCTGGCGGACAGGGCCAGTTTCGGTCCCATCCTCGGCGCAGCTTAA	MGAEELHPDPERDGRASSAPRGIVVGVDGSDHGQCALVWAAREAERRRRPLHIVTAYSVPIFAASGLDGGYATVDDSVIREGAEAIVKQALDKVAGYNIDVDASVENGDAAGVLLELSETAELLVFGTRGRGGFVGRLLGSVSSALPAHAKCPTVTVPLICADRLGETTEDRRIKAEQAKAGHQRVENVVVVGVDGSEQARVAVLEAAAQAERLGATLRVICAVPQYSGSLAWVPAPMDRKALFEDIQVQLDAGMAWLKSHYPHLPMESVLKDGSPVEVLVEESRHVELVVVGTRGRGGFAGMLLGSTSDGVLHHAKGPILVVPDREDPRLADRASFGPILGAA				NA	NA	NA	NA	NA
D1-29_00580	2874	pigC		Prodigiosin synthesizing transferase PigC	ATGCCGGATGTCACTGGCCCAGCACCTCGGGATTCCCAGGCACCAACCAGGGAAGTGCGGCAGCCGGAGAGCGGAACGCCGGACGGAAAGCTCGTTCTTGACCTCGGGCAGATCCACGCCGGACTGGTGCCCCTGGTGGGCGGCAAGGCAGCCAACCTCGGCGAGCTGATAGCCGGCGGCTTACCTGTCCCGGACGGCTTCTGCCTGACCACCGACGCCTACCGGCTGGCCACCATGCCCTCGCCGGCCAAAGAATCCGGACCAGCCAATGAATCAGGACCAGCCACGGAATCCGTGCCCCGTGGAGTGGAAGGCCTTGACGACGTCCTCGGCGCACTGAAGTCCACGGACCCGGAGAGCCTGGCGGAGTTGGCGGACCTGGCCGGCAGGGCGCGGCAGATCATCGGACGGGTACGCATTCCGGCCGAGGTGGCTGCTGCAGTGACCGAGGCCTACGAGGAGCTGGGCGAGGACGTCCCGGTGGCCGTCAGGTCCTCGGCTACTGCAGAAGACCTTCCGTCCGCCAGCTTTGCGGGCCAGCAGGACACATACCTCAACGTCGTGGGAGCCGACGCCGTCCTGACGGCCGTGCGCAACTGCTGGGCTTCGCTCTGGACCGACAGGGCTGTCAGTTACCGGGCCAGCAGGGGGATCGACCCCGCATCCGTGGCGCTCGCCGTCGTCGTGCAAAAAATGGTGGACGCCGCGGCCGCTGGCGTGATGTTCACGGCAGATCCGCTCACCGGACGGCGGCAGCAGACGGTCATCGATGCCAGCCCGGGGCTGGGGGAAGCGGTGGTCTCCGGTGCCGTTAACCCGGACCACTATGTGGTGGATCCGCTGGAGGGAACGGTATTGGAGCGTCGGGTCGGGGACAAGCGGTTGATGGTCAGGCCGCTGCCCGGTGGCGGAACCGAGAACGTACAGTTGCCGGACTCCGGGGCTCCCTGCCTCACTTACGGGCAGGCGGCCGAGCTGGCTACCCTTGGCCTGCGTGTGGAGAAGCTCTTCGGTTCCCCGCAGGACACCGAATGGGCCATCGAGCAGACAGGCAGGCTGTGGCTGACCCAGTCACGGCCCATCACCACCCTGTACCCCGCGCCGGAGCGGGCCACTGCCGCCGCGGGTGCGCGCGTCTATCTCTGCTTCAGCCTGGCACAGGGCCTCACCCGGCCTATTACCCCCATGGGCCTGGCGGCCTTCAGGCTTATTGCCTCTTCCGTGGCGCGGGCAGCGCAATTCGACGTGCCGGAGCCCCACCGCGGGCCACCACCGTACGCGGAAGCAGGCCAGCGCATCTACTTCGACCTGACAACGGTGGCGCGGAGCACCACGGGCCGGCGGATTGTCCCCCGGGTCTTCGACGTGATGGAAGCCCGTTCCGCGGTGCTGCTGCGCCGGGTCTTCGAGGACCCCAGGTTTTCCGTGACCCGCAGGACACCGTTGGGCCTGCTGCGCCACTTTGTGCCTGCGGCGGCGCATGCCCGCGCTCCCGAAACCCTGTTCCGTGCCCTGTTTCGCCCGCAGGCGGCGCTGCGGCGGCTGAACCGGTTTACCCGTGAGTTCAATGACTCGCTGCAGCTTGGCCGTGATGCCACCCCGGCGGAACGCCTGGACCATGCAGAGCGGCTCCTTGGCACGCGCCTTTTCACGATTGTGCCGGCCGTCCTTCCGCTGCCCGCACTGGGATTCGCCATGCTGGCAGTGGCAGGAAAACTGCTGGGCGGCGGGAACAGCGGATGGGACCAGCTCCAGCAGGTGCTCCGCGGGCTGCCCAACAACGTGACCACGGAGATGGACCTGGAACTGTGGCGGCTCGCCACCGTCATCAGGGATGACGCCGAATCGGCTGCTGCCGTAAGAGGGCTGAAACCGGCGGCCTTGGCCAGCCAGTTCGGCGCGGGGCAGCTTCCGGCAGTCCTGCAGGCGGGGCTGGTACGTTTTCTGGGCCGGTACGGGCACCGCGCCGTGGCCGAGATCGACGTCGGGATGCCCCGCTGGTCCGATGATCCCACGCACATCCTGGGAGTGCTGGCCAACTACCTTCGCCTCAATGACCCAGACATGGCCCCGGATGTGCAGTTCGCCAAGGCGGAAGAAGAAGCAGAGGCCCACGTCGCACGCCTCGTGGCCTTGGCGCGCAAGCGCGGACGCCTCCGCGGTGCCCTGGTGCAGGCCGCCCTGCGGCGGACCCGGCTCTTCGCGGGGCTCCGCGAGCTGCCAAAAAACCAGATCGTGATGGGCCTGGCCGAAGTGCGGAAGCAACTACATCATGTGGGCGCAGCCCTGGCAGCTGCCGGGGCCGTCACAGATCCGGAGGACGTCTTTTTCCTCGATTTTGAGGAGGCGCGGGAAGGGCTAGGACAGCGCGCGGGAAGCACTTCAACAGGAAGCCCTTCACCAGGAAGCGCTGACCTGCGCGAACTCGTCCAGGTGCGGAAGCAAGCATACGAGCGGGAGCTCGAACGGCGCCATGTGCCGCGGTTGCTGCTCTCGGATGGAACCGAACCGGAGGCGCTGCCGGCCCCCGGGGTCCCGCCTGGTGCACAGCAGGCGCCAGGAACCCTTACCGGCAGCCCCGCATCGGCGGGAACGGCAACGGCAGCAGCGCGGGTCATCCTGGATCCGGTCGGCGCGCATCTGGAACCTGGCGAGATCCTGGTGGCGCCTTCAACAGATCCCGGCTGGACCCCGTTGTTCCTCACCGCCGGCGGCCTGGTCATGGAGATGGGCGGCCCCAACTCCCACGGTGCCGTGGTGGCGCGGGAGTACGGCATCCCCGCCGTGGTGGGCGCCGCTGACGCCACCATCCGGATCTCCACCGGACAGAGAATAACGGTCGACGGCGGTGCCGGGACCGTGGTGCCGGAGTAA	MPDVTGPAPRDSQAPTREVRQPESGTPDGKLVLDLGQIHAGLVPLVGGKAANLGELIAGGLPVPDGFCLTTDAYRLATMPSPAKESGPANESGPATESVPRGVEGLDDVLGALKSTDPESLAELADLAGRARQIIGRVRIPAEVAAAVTEAYEELGEDVPVAVRSSATAEDLPSASFAGQQDTYLNVVGADAVLTAVRNCWASLWTDRAVSYRASRGIDPASVALAVVVQKMVDAAAAGVMFTADPLTGRRQQTVIDASPGLGEAVVSGAVNPDHYVVDPLEGTVLERRVGDKRLMVRPLPGGGTENVQLPDSGAPCLTYGQAAELATLGLRVEKLFGSPQDTEWAIEQTGRLWLTQSRPITTLYPAPERATAAAGARVYLCFSLAQGLTRPITPMGLAAFRLIASSVARAAQFDVPEPHRGPPPYAEAGQRIYFDLTTVARSTTGRRIVPRVFDVMEARSAVLLRRVFEDPRFSVTRRTPLGLLRHFVPAAAHARAPETLFRALFRPQAALRRLNRFTREFNDSLQLGRDATPAERLDHAERLLGTRLFTIVPAVLPLPALGFAMLAVAGKLLGGGNSGWDQLQQVLRGLPNNVTTEMDLELWRLATVIRDDAESAAAVRGLKPAALASQFGAGQLPAVLQAGLVRFLGRYGHRAVAEIDVGMPRWSDDPTHILGVLANYLRLNDPDMAPDVQFAKAEEEAEAHVARLVALARKRGRLRGALVQAALRRTRLFAGLRELPKNQIVMGLAEVRKQLHHVGAALAAAGAVTDPEDVFFLDFEEAREGLGQRAGSTSTGSPSPGSADLRELVQVRKQAYERELERRHVPRLLLSDGTEPEALPAPGVPPGAQQAPGTLTGSPASAGTATAAARVILDPVGAHLEPGEILVAPSTDPGWTPLFLTAGGLVMEMGGPNSHGAVVAREYGIPAVVGAADATIRISTGQRITVDGGAGTVVPE				NA	NA	NA	NA	NA
D1-29_00581	1326			hypothetical protein	ATGAGCCGTGCCTGGCTGCGGTGGATGCCTGCCGCAGCAGTACCTGCTGTGATTGCCGCTGGTGTGCTGGCGGGGTCCATTCCGGCGCGGGCCGGTGACCCCCTCCCCGAAAAGACTCCCGCGCAGGTCCTTGCCCTGGTGGCCGGGCACACCACCAAGACGTTCTCCGGAACAGTGGAACAGACCTCTGACCTTGGCCTGCCTGAACTCCCGGCCCCAGGACCCACCTCTGGACCGGCCTCCGCGGGCGGGGCAGCCTCGGCTGTAGAGCTATTGACCGGCGAACACACAGCCCGCATTTTTATGGACGGACCGGCGAAGGTGCGGATCCAGCTGGTGGACCGGTTGGCTGAACGGGACCTGATCCGCCGGGACAGCGACGTCTGGTTCTACTCCTCCAAGGACAACACCGCCGCCCACCTCACGCTGCCCGCGAAGGCCAGCGACCTGCCGCTGCCGCCTCCTGAAGCCCCGGTGCCGCCCACTCCGGACGAGTTGGCCAGCAGGCTCCTGGCCGCTGCTGATGCTTCCACGGAAGTGACGGTTGGACCGGACGTCGAGGTTGCCGGCCGCGCTGCCTACAACCTGGTTCTGGAGCCGCGGACCAATGGAACCTTGGTGGGCCGTGCCGCCATCGCCGTGGATGCCCAGACGGGCATGCCGCTGAGGGTTTCGGTAACAGCGCGGGGCCAGGCAGAGCCGGCCTTCCAGAGCGGTTTTACGAGCTTGTCGTTGGAGCCGCCGGACGATTCGCGGTTCAGCTTCGTTCCGCCGCCGGGCGCCACGGTCAAGGAGCTCCAGCCGCCGGCCCCAGGCATACACTGGCCGTCGACGCCAGCCATCCCCGGATCCCCGGGCACGGCTACCCCTGGTCCGGTCGAACCCGGCCAGGTTGAGCCCGACCAGGTCGAGCCGCAGCCGGCCCCGCCGCTGCCCGGCGACGTCCCGGCCGTCCCGCCGAGCCCGCCAGACAAACTGGCGCCGGACCAGCTTCCTGCTGACCAGCTTCCGCCAGAGCTTCAGGACGGGCAGGTCCCGCCAGACAAGCCCGCCTGGGACAGAAAGGCCATGCCCCGGCCATCCGTGACTGGCAGCGGCTGGGAGACAGTGATTGGTATCCCGGCCGCCACAGGCGGGCAGGGACCGGCCCTGAGCGAATCACTGCTGAATGATCCCCTGCTGGCGCAAGCCACCGTCGTCGTTCCCGGCGGACGGTTGCTGTCCACCGCACTGGTAAATGTCCTGTTCACCGACGACGGACGCGTCTTCGTGGGGATGGTTCCGTCCGAGAGGCTGCAAGCCGCCGCCGGCGCAGTGGCCCCGTGA	MSRAWLRWMPAAAVPAVIAAGVLAGSIPARAGDPLPEKTPAQVLALVAGHTTKTFSGTVEQTSDLGLPELPAPGPTSGPASAGGAASAVELLTGEHTARIFMDGPAKVRIQLVDRLAERDLIRRDSDVWFYSSKDNTAAHLTLPAKASDLPLPPPEAPVPPTPDELASRLLAAADASTEVTVGPDVEVAGRAAYNLVLEPRTNGTLVGRAAIAVDAQTGMPLRVSVTARGQAEPAFQSGFTSLSLEPPDDSRFSFVPPPGATVKELQPPAPGIHWPSTPAIPGSPGTATPGPVEPGQVEPDQVEPQPAPPLPGDVPAVPPSPPDKLAPDQLPADQLPPELQDGQVPPDKPAWDRKAMPRPSVTGSGWETVIGIPAATGGQGPALSESLLNDPLLAQATVVVPGGRLLSTALVNVLFTDDGRVFVGMVPSERLQAAAGAVAP				NA	NA	NA	NA	NA
D1-29_00582	1020	bcrA		Bacitracin transport ATP-binding protein BcrA	GTGACGGGTCCCGGCGGCGCTGCCGCGGCCGGCGTTCAGGAGAACGGGACGTCCGGACTGACCATTGAGACAAAGGGCCTGAGCAAAAGATTCGGCCACCAACTCGCCGTAAATGCGGTGGATCTGGCGGTGCCGCACGGCTCGGTGTTTGGGTTCCTGGGTCCCAACGGGTCAGGGAAGACCACCACCATCCGCATGATGCTGGGCCTTGCGGCGGCCTCGGCCGGTACCGTCAGCGTGCTTGGACTGGAGATGCCGAACCGCCTCCACGACGTCCTTCCGCGAGTAGGCGCACTCGTGGAAGGCCCTGCTTTTTATCCCTTCCTGTCCGGTGCCGCAAACCTTCACAGGCTTGACGCCGCCAGCAGGCATGCTTCGCCCGCCACACGGAAAGCGAGGGTCCAGAATGCCCTGGAACGGGTGGGCCTGGCCCACGCGGCCGGGAAAAGGGTGCACGCCTATTCATTGGGCATGAAGCAGCGGCTGGGGATCGCCAACGCCTTGCTGTCCCCGCGGGAACTTCTGGTCCTGGACGAGCCCACCAACGGGCTGGATCCACAAGGCACACGGGAGGTCAGAAGCCTTGTCCGCTCCCTCGCTGCCGACGGCGCCACCGTGTTCGTGTCCAGCCACCTGCTGGCAGAGGTGGAGCAGATCTGCACCCACGCGGCCATTATGAGCGCAGGGCGGCTGGTGGCCCAGGGGCCGCTGGCGGAGCTGCGCCAATCCGGTGAAACACGGATCCGCCTCCTAACGCCCGACGCCGGAGCAGCCTCTGATGTCCTGCGCCGGCTGGGAATGAATCCGGCTACGGGGACGCCCGCGCCCGACGGCGACGTGGTGACCGCCGTGGCTGCCGCATCCGCAGAAGCCGCCGGGGCAAACGGCACCGCTCCGGAGAATGTTGTGGCGCGTCTGGTGGAGGCAGGTGTCAGGGTCCGCGGATTTTCGGTGGAGCGGGAGAGCCTGGAGGACCGGTTCGTTGCCTTGACGGGGGAGGGGTTCGACGTTGCCCAGTAG	MTGPGGAAAAGVQENGTSGLTIETKGLSKRFGHQLAVNAVDLAVPHGSVFGFLGPNGSGKTTTIRMMLGLAAASAGTVSVLGLEMPNRLHDVLPRVGALVEGPAFYPFLSGAANLHRLDAASRHASPATRKARVQNALERVGLAHAAGKRVHAYSLGMKQRLGIANALLSPRELLVLDEPTNGLDPQGTREVRSLVRSLAADGATVFVSSHLLAEVEQICTHAAIMSAGRLVAQGPLAELRQSGETRIRLLTPDAGAASDVLRRLGMNPATGTPAPDGDVVTAVAAASAEAAGANGTAPENVVARLVEAGVRVRGFSVERESLEDRFVALTGEGFDVAQ	PGPT0006725_3477	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-29_00583	750			hypothetical protein	ATGCTGCTGGCGCTGGCCGCGATACCGGTGCTGATCGCCGTTGCCGTCCGGCTTTCCTCCACGGTGCCGCCGGGACGGGGGCCCGCTTTCCTTGACCGGATCACCCAGAACGGGCTCTTTGTGGCGGTCACGGCGATGCTGGTTTCGGTTCCCCTGTTCCTGCCCCTCACCATCGGGGTGGTTGCCGGTGACACGATAGCCGGCGAAGCGAGCCTTGGCACCCTGCGCTATCTGCTGGTGGCTCCTGCCGGGAGGGTGCGGCTGCTCCTGGTGAAGTACGCCGGCGCGCTGGCCTTCTGCGTCGCGGCCCCCGTTACCGTAGCCCTCGCGGGAACGGCCATCGGGGCCTCGCTGTTTCCTATCGGCCCGGTCACCCTGCTGTCCGGGGACGTGGTCCAACCACCGGAAGCTGCGCTGCGGCTGGTGCTGATCGCGTGTTACCTCTCGGTGTCCCTTGCAGGTCTCTCGGCGATCGGCCTGTTCCTGTCCACCCTTACGGTGGTCCCTGTCGGTGCGATGGCAGCCACGGTGGTGGTGTCGGTGGTGTCACAGGTCCTGGACCAATTGCCGCAGCTCGAGTGGCTGCACCCCTGGCTTTTCAGCCACTACTGGTTTGGCTTCGGAGATCTCCTGCGGGAGCCTGTGCTGTGGGATTCGTTCGCCAGCAACGCCTTGCTGCAGGCCGGTTACGTGGCCGTGTTCGGTGCGCTGGCCTACGGGAGGTTCGTCACCAAGGATGTGCTCTCCTGA	MLLALAAIPVLIAVAVRLSSTVPPGRGPAFLDRITQNGLFVAVTAMLVSVPLFLPLTIGVVAGDTIAGEASLGTLRYLLVAPAGRVRLLLVKYAGALAFCVAAPVTVALAGTAIGASLFPIGPVTLLSGDVVQPPEAALRLVLIACYLSVSLAGLSAIGLFLSTLTVVPVGAMAATVVVSVVSQVLDQLPQLEWLHPWLFSHYWFGFGDLLREPVLWDSFASNALLQAGYVAVFGALAYGRFVTKDVLS	PGPT0006730_15346	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-29_00584	1506			hypothetical protein	ATGAGCAGCGGGGCACCTTTGTGCCGCATCCAGGCCTCGATCCCCAGCCTTACTGTGCTGCGAGGTTTTGACATGGGTTTGACCGCACCGGGCCGGAAGGCCGCCGTATTGTGCGCCGCCGTCGTGCTTCTGGGAACTCTCGCACTGCCAGCCCAAGCCGCTCCCCTGCCACAGGCACCCGCCGTCCAGCTTCCGACCGCGCCGGAGATTCCCAGCCCCGAGGACATCGCGGCTGCCAAAGCCAGTGAAAGCGCGACGGCGGATCAGGTGGCGGCCATCGAGCGCATCCTGTCGGACGCAGCCACAGCCCAGCAGGTCACTTTCGCGTTGTCACTGCAGGCAAATAACTCCTATGGCGACGCCTTGGTTGAGCAGCAGTCCCGGCAGTCGGCTGCTGTTGCTGCCACGGAGAGAGCCCAGGCAGCACAGCGCGAGCAGGACAAAACGCGCAAGGAGGTGGGGCAGCTTGCCGGCGATCTTTACCGCAACGGCGGCATGAACCCGGCTCTGAGCACCTTCATGGCGGGCGGGGACGTCCTGCAGCAGGCTGCCACGCTGGAAGCCCTTTCAGCCAGCCGCAGCCGCGCCTTCCAGTCAGCTGAAACTGCCGCGGCCACCTTTCAGTCACTGACTGCTGCCGCCGACGATGCCAACCGGGCGGCCGAAGATGCAGCAAGGAACGCGGAAATCCGCAAGGAGGAGGCTGAACAGGCAAACGCCGCCCAGGTGAAGGCATTGGTGGAGGCCACGGCACAGCGGGCCGTCCTGGTGGATCAGCTGGCACAGCTGAGGAACACCACGGTTGCCTTGGAATCTGCGCGCGTTCATGCCCTGGACCGGCAGCGGGATGAGGCCAGGCTGGCCGCACTGACTGCAGCAGCGGACCAGGCCGCAGCAGCAGCGGCGGCCGCCGGGCGGGCGGCTGGTCCAGTGGCTGTAGCGCCGGCACCGGCTGCTCCCGCACTGGCCGCTCCAGCACCGGCAGCTCCGGCGCCTGCGGTCCCTGGCCCCGCTGCGCCGGTTCCCGCTGCTCCGCCTCCCGCTGCTCCGGCTCCTGCAGTTCCAGCTCCCGCCGTTCCGGCAGCTCCCGCACCTGTGGTTCCTGCTCCCGTTGCACCTGCGCCGTCGCCCGGAGGCTCCAACGAGACCGCCATCTCCGTGGCCATGACCAAGGTGGGGGCACCCTACTTCTACCAATGGGGCGGGACCGGGCCGTATGGCTTTGACTGCTCCGGCCTGGTGCAGACCGCATTCTCCGCAGCCGGCAAATACCTCCCCCGTACCGCGGCGCAGCAGTATGCCTCAGCCCCGGTGCATGTACCCATCTCGCAGGCCCAGCGAGGTGACCTGTTGGTGTGGGGCTCGGCGCCGAACTTCTATCACGTGGCGATTTACCTGGGAAACGGCCAGGTGGTGCAGGCCCTGAATCCGGACGAAGGAATCGCCATGACCCAGCTCAGCCGGATGGCTGGCATGCAGCTCTATCCCTACGCCGCCCGCTACTAG	MSSGAPLCRIQASIPSLTVLRGFDMGLTAPGRKAAVLCAAVVLLGTLALPAQAAPLPQAPAVQLPTAPEIPSPEDIAAAKASESATADQVAAIERILSDAATAQQVTFALSLQANNSYGDALVEQQSRQSAAVAATERAQAAQREQDKTRKEVGQLAGDLYRNGGMNPALSTFMAGGDVLQQAATLEALSASRSRAFQSAETAAATFQSLTAAADDANRAAEDAARNAEIRKEEAEQANAAQVKALVEATAQRAVLVDQLAQLRNTTVALESARVHALDRQRDEARLAALTAAADQAAAAAAAAGRAAGPVAVAPAPAAPALAAPAPAAPAPAVPGPAAPVPAAPPPAAPAPAVPAPAVPAAPAPVVPAPVAPAPSPGGSNETAISVAMTKVGAPYFYQWGGTGPYGFDCSGLVQTAFSAAGKYLPRTAAQQYASAPVHVPISQAQRGDLLVWGSAPNFYHVAIYLGNGQVVQALNPDEGIAMTQLSRMAGMQLYPYAARY	PGPT0023995_456	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
D1-29_00585	903			hypothetical protein	GTGGAGCCGACGTGGGGCATTGAGGGCGCGGATTTTCTTGGGTGGTATCTCGGCATCGGTCTGTTGCTGGCTGCCACTATTGTTCTGGTCCGGCTGTTCACCGGCGGTCTGATACCCCTTCGGCCAAAGGTTGACCCCCATACCCTCGTGCCGCTTGATCTGGCCTACCTTAGCGGCGGCCCGTTCCACGCCGTGGCAATCAGCCACTGGGTATGGACGGATCACAAGGCAGGGCGCCATGGCGAGGAAGCGGAGTTCCTTCGAGCCAACCGGCTGGACCCTTTGCTGCAGGCGGTTGCCGGACCCGTGCTGAATTCCACTGCCTCCGTCAGGGAGTGCCTGCTGGATCCGGCTGTTTCGTTCCAGCTCAAGTCCCGGCACCAACAGCTTGCCGGGCGGGGACTGCTGCGCAGCCGCGGGGTTATGGGTTTTCTGCGGGTCCTGAAATGGGTTGCCATCGGGTTCCTGGCGCTGGGTGTTGCCCGGATCGTCGCGGGGATGATCAACGGCAGGGACACCGCGTATCTGATGGGTGCCGTCATTGCGGGCGTTGTCCTGCTGTTTATGCTGGCCGTCAAGGTCCCCACCATCACCCATCCAGGAATCAAGGCGCTGCGCGAACTACGGCGCGAGAACCAGGACCTCCGGCCCGGCAGGAAAGCAGGCTACCACGGAGTTCGTCCCGCCCGGGTGGCACTTGGGGCGGTGCTCTTTGGCACAGCCGGGTTATGGATTGCGGCGCCGGCCTATGCCTCGGCCATGGGGATCCCCGCCGCAGGCACAGCCGCCGGGGGTGGAATGTACTACGGCGATTCCGGCTCATCCTCCGCGTCCTCCTCCTCGTCCGGAAGCTCCTCGTGCAGCAGCGGCGGTGGGTGCGGCGGCGGCGGTTGTGGTGGTTGA	MEPTWGIEGADFLGWYLGIGLLLAATIVLVRLFTGGLIPLRPKVDPHTLVPLDLAYLSGGPFHAVAISHWVWTDHKAGRHGEEAEFLRANRLDPLLQAVAGPVLNSTASVRECLLDPAVSFQLKSRHQQLAGRGLLRSRGVMGFLRVLKWVAIGFLALGVARIVAGMINGRDTAYLMGAVIAGVVLLFMLAVKVPTITHPGIKALRELRRENQDLRPGRKAGYHGVRPARVALGAVLFGTAGLWIAAPAYASAMGIPAAGTAAGGGMYYGDSGSSSASSSSSGSSSCSSGGGCGGGGCGG				NA	NA	NA	NA	NA
D1-29_00586	927			hypothetical protein	GTGGGTGCGGCGGCGGCGGTTGTGGTGGTTGAGGCAGGCGTGCTTCAGCCGGGCCTGGGCATCGGTTGGCGTTCCAGCCTGGCGGAGTCCATTGGCCGCCTGAACGGCCTGTCCTTCGTTGAGGTTGTGGCCGAGAACCTGCATGATCACGGTTCCGGCATAGACGTCCCTCCAGACCTCCAGCAGCTGGTCGACGGCGGCAGCATCGCCGTCGCGCATGGAATCTCACTCTCCCTGGGCTCGGCCGCAGAGGTGGACCAGTCCCGCCTGGCGCATTTGCGCCGGGTGGGGGAGGCAATCCGGGCGCCCCTGGTCAGCGAACACATTGCGTTCGTGCGGGCCGGGAGTTCTGCCCCGCCGGGTTCCCCGCATGCGGACATGCTTGAGGCCGGCCATCTGCTTCCGGTGCCACGGAGCCGTGACTCGCTGTTGGTGCTGACGGCCAACACCCGGCAGGCTGTGCACGGGCTGGAGGTTCCGCTGGCTCTGGAACCCATCGCGGCGCTGGCCGAGTGGCCGGACAACACCATGACAGAGGGCCAGTTCCTGACCGAGCTGCTGGAACGGACAGACGCTTTGCTGGTGCTCGACGTCGCCAATGTCTATGCCAATGCAGTGAACCATGGCCGCGACCCGCTTGCGGCGCTGCTTGAGTTCCCGCTTGAGCGCATCGCCTACTGCCACATCGCGGGAGGAACGGTGATGGACGGTCTCTACCACGACACCCATCAGGACCCGGTCCCGCGGGAGGTCCTGGAACTCGCGGGCGAACTCCTTAAATCGACAGGACCCGTGCCGCTGATGCTTGAACGTGACGGCAAGTTCCCTCCGGAACCGGTATTTTTTGCCGAGCTGGACGCCATCGCCGACGCCGCCGGCCTGCCACGTGTCACGCCCGATGCAACGGCAGGGCAACGCCCCGAATGA	MGAAAAVVVVEAGVLQPGLGIGWRSSLAESIGRLNGLSFVEVVAENLHDHGSGIDVPPDLQQLVDGGSIAVAHGISLSLGSAAEVDQSRLAHLRRVGEAIRAPLVSEHIAFVRAGSSAPPGSPHADMLEAGHLLPVPRSRDSLLVLTANTRQAVHGLEVPLALEPIAALAEWPDNTMTEGQFLTELLERTDALLVLDVANVYANAVNHGRDPLAALLEFPLERIAYCHIAGGTVMDGLYHDTHQDPVPREVLELAGELLKSTGPVPLMLERDGKFPPEPVFFAELDAIADAAGLPRVTPDATAGQRPE				NA	NA	NA	NA	NA
D1-29_00587	564			hypothetical protein	ATGAGTGCAGGAACAGGCTGGCCCACGGATCCGGATGGCGGGGACTCCGGAAGCCGGGACAGTGCTGGCGAGCCGGGACTCGCCGCTGCGCGTTGGCGCCTTGCCGCCAGCCAGCGGGAGCTGGTTGAGGCACTGGTGGCGAATGGGCCGGTGCCGGAAGGCTTCGACCCGCTGCAGGTGGCGGCGGTCCGGCGTGGCCTGGAACGCAAGAGGCTAGGCGGTATTGGCTACCACTTTCCAGCCCTGGCGGCTGCGATCCGGGCAAACCCCGGCTTGATGGAGTTGTTTGGCAGCTGGCACTGTGCCAATCATCCGGGCGAAGGTCCCGAACCTGGCTATTACGCCGACGGGGTGAGGCTGATCGGCTTCCTGGAGGGCATCGGCAGGCTGCCCGGCGACGCCACCCGGGAGGTACTCATGCTGCGGATCGGGACAAGTCCGGGGCCTGAGGGTCAGCGGATCCCGGCGCGGTGGGCGGGGCTGCGCCGTGCCCGCGTTGACGGCAAGACGTGGTGGGTGGCCGGAAGCCATCGCCGCTGGGTGTGGCTGCGAGGCCCACGCTGA	MSAGTGWPTDPDGGDSGSRDSAGEPGLAAARWRLAASQRELVEALVANGPVPEGFDPLQVAAVRRGLERKRLGGIGYHFPALAAAIRANPGLMELFGSWHCANHPGEGPEPGYYADGVRLIGFLEGIGRLPGDATREVLMLRIGTSPGPEGQRIPARWAGLRRARVDGKTWWVAGSHRRWVWLRGPR				NA	NA	NA	NA	NA
D1-29_00588	921	czcD	COG1230	Cadmium, cobalt and zinc/H(+)-K(+) antiporter	ATGGGACACGACCACAGCCATACGCATGGGATCACGGCCACGGGCCGGCACCGCAAGCGCCTTGTAGCCGTTTTGGCCATCACACTGGCTGTGGTCCTGGTCCAGGTGGCAGGGGCGGCGCTCTCCGGCTCCCTGGCCCTCCTGGCTGACGCAGGCCACATGCTGTCCGACGCCGCGGGCGTGACCATAGCCCTCCTGGCGTCGTGGATTGCGGGCCGTCCTGCCAGCGACCTGAGAACGTACGGCTATCAGCGGGCCGAGGTCCTGGCGGCGCTGGCCAACGCCCTGATCCTGATCGTGATCTCAGTGATCATCTTTACCGAGGCAATCCGGCGTTTCGGATCTGCTCCCGAAGTACAAACAGACATTATGCTGGGGGCTGCCATCCTGGGAGCGGTGGCAAATCTGGTGTCCCTGCTGATCCTGCGGGGTGCCCACCAGGACAGCCTGAACGTCCGGGGAGCCTACCTCGAAGTCCTGGGCGACCTGCTGGGATCCTTGGCTGTCATCGTGGCCGCAGTGGTGATCCTGACCACGGGTTACCACGCCGCTGACACCATTGCCTCCGTACTCATTGCCCTGATGATCCTGCCGCGGGCCTGGAGCCTGCTCCGCGATGTGGTGGATGTCCTGCTCGAAGCGAGCCCCAAGGGCGTGGAGGTTCAGATGATCCGCGAGCACATCCTGTCCGTTGAGGGAGTGGTGGACGTTCACGACATCCACATCTGGACCATCACCTCAGGGGTACCGGTGTTCTCCGCCCACGTGGTTCTTGAGGATGGGGTGCTCACTGCCCGCGGCGCCGACCAGGTGCTGGACAAACTCATCACCTGCCTTGGCTCCCACTTCGACACCGAGCACTGCACGTTCCAGCTTGAGCCTGCCAGCCACCTTGAACACGAGGCGCACCAGCACGCCTAA	MGHDHSHTHGITATGRHRKRLVAVLAITLAVVLVQVAGAALSGSLALLADAGHMLSDAAGVTIALLASWIAGRPASDLRTYGYQRAEVLAALANALILIVISVIIFTEAIRRFGSAPEVQTDIMLGAAILGAVANLVSLLILRGAHQDSLNVRGAYLEVLGDLLGSLAVIVAAVVILTTGYHAADTIASVLIALMILPRAWSLLRDVVDVLLEASPKGVEVQMIREHILSVEGVVDVHDIHIWTITSGVPVFSAHVVLEDGVLTARGADQVLDKLITCLGSHFDTEHCTFQLEPASHLEHEAHQHA	PGPT0004255_2127	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264	NA	NA
D1-29_00589	360			hypothetical protein	ATGTCCGACGACGAGTTCGAATCCGCCGTCAGCGATGCCCTCAACCGGATTCCCGCCAAGATTGCGAGCGCCATGAACAACGTGGCGGTCTTCATCGAGGACGACTACGTGCCCCGGCCCGGCGAAGATCCGGACACCGTCCTGCTCGGACTCTACGAGGGCGTGCCGCTGACTGAACGTGACTCGTGGTGGGACGCGGGTTCGCTCCCGGACCGCATCACCATCTTCCGCCAACCCATCCTGGAGATCTGCGGATCCCGTGACGAGGTGATCGAAGAGGTGGCCGTGACGGTGGTTCATGAGATCGCGCACCACTTCGGCATTGGTGACGAACGGCTGCACGAGCTGGGCTGGGACTAA	MSDDEFESAVSDALNRIPAKIASAMNNVAVFIEDDYVPRPGEDPDTVLLGLYEGVPLTERDSWWDAGSLPDRITIFRQPILEICGSRDEVIEEVAVTVVHEIAHHFGIGDERLHELGWD				NA	NA	NA	NA	NA
D1-29_00590	963			hypothetical protein	ATGGCTTCCACCCGAACACGCACTCCACGGTCCTCGGCCCCCCTCCCTGCAGGCAACCCGGTCAACGCTCTTGGCGTGGCGGCCGTCGTGGTAACTGTGGTCCTCTGGGCATCAGCTTTTGTGGGTATCCGGGCCATCGGCCCCGACTTTTCCCCTGGCCCCCTGACGCTGGGCAGGCTGGCGGTTGCCGCCATCGTGCTTGGTGTCCTGGTGCTTCCACAGCTGCTGAAGAGCCGGGTCCTGCCGCAGGGCGGGGAATGGTGGCCCATCGTGGCCTATGGCGTGATGTGGTTCGGCGGCTACAACGTTGCGCTGAACGCCGCCGAACACCTCCTGGACGCCGGGACAAGTGCCATGCTGATCAACGTCTCCCCCATCCTCATCGCCGTTCTGGCAGGATTTTTCCTCAAGGAAGGCTTCCCCCGCTGGCTGATTATTGGCAGCCTGGTGGCCTTCGGTGGAGTGGCGCTGATCGCGCTCGGATCAGGCGCAGCTCCCGGGGCGGGGCAAAGTTCGACGTCGTATGTTGCCGGCGTGCTGCTCTGCCTCCTTGCCGCTGTTCTCGCCTCCGTCAGCGTGATCATCCAGAAGCCCGTGCTGCGGAAGTTCCCGGCGGGCCAGGCCACCTGGTTTGGGATCGTGATGGGCGCCCTGTGCTGCCTGCCCTTCACCGGGCAACTGGTGTCCGAGCTCCAGGCGGCCCCGCTGCCGGCAACATTGGGGCTTGTGTATCTGGGTGTTTTCCCCACTGCGATCGCCTTCACCACCTGGGCCTACGCGTTGTCCTTGATCGACGCCGGAAAAATGGCCGCCACCACGTACCTGGTGCCGGGCGCAACCATCCTGATCTCGTGGCTGGTACTCAGCGAGATCCCCACCATCTGGGGCCTGGTGGGAGGCGTGGTCTGCCTGGTGGGCGTTGGCCTCACCCGGCGCAGATCCCGCACACCCTCCGTGTCCTGA	MASTRTRTPRSSAPLPAGNPVNALGVAAVVVTVVLWASAFVGIRAIGPDFSPGPLTLGRLAVAAIVLGVLVLPQLLKSRVLPQGGEWWPIVAYGVMWFGGYNVALNAAEHLLDAGTSAMLINVSPILIAVLAGFFLKEGFPRWLIIGSLVAFGGVALIALGSGAAPGAGQSSTSYVAGVLLCLLAAVLASVSVIIQKPVLRKFPAGQATWFGIVMGALCCLPFTGQLVSELQAAPLPATLGLVYLGVFPTAIAFTTWAYALSLIDAGKMAATTYLVPGATILISWLVLSEIPTIWGLVGGVVCLVGVGLTRRRSRTPSVS				NA	NA	NA	NA	NA
D1-29_00591	1056	ycdX		phosphatase YcdX	ATGGATGCCGTTGCCGCACTGAATGAGATTGCGTTCTGGCTGGAACGTGGACGGGCTGCCACCTTCAAGGTGCAGGCGTTCCGCAAAGCGGCCGCCGCCATTGCCGCCCTGGAGCCGGAGGAGCTCGCGGCCAGGGCACGGGATGGGCGGCTCAAAAGCATGAAGGGCATCGGGGACCGGACGTATCAGGTCATCCGCCAGGCAGTGGACGGGGAGGTCCCTGATTACCTCCAGGACCTCCGGCAGCGCGGAACCGGCGCGCTTGCGGAAGGCGGTGGAGAGCTCCTGCGGACCCTTCGCGGCGATCTGCACACGCACAGTGACTGGTCCGACGGCGGCTCCCCCATTGCCGCCATGGCTGAGGCAGCCCGCATCCTGGGCCGGGAGTACCTGGCGCTCACCGACCACTCGCCCAATCTCAAGATCGCTAACGGCCTCAGCGCGGAGCGCCTCATGGAACAGCTCGACGTCGTCGCCGCCATCAACTCGGACGGCGCCAAAGGCAGTGGGGCCACAGCCAGCGGCGCCGCGGCCGACAACAACTTCCGTCTCCTGACGGGGATCGAGGTGGACATTCTGGAAACCGGCGAACTGGACCAGGCTCCGGAGCTGCTGGACCGGCTGGATGTTGTGGTGGCAAGTGTCCACTCCAAGCTCCGTTCCGACCGCGCCACCATGACCAGGCGAATGCTCAAAGGCATCCAGGACCCGCACACCAACGTCCTGGGCCACTGCACCGGCCGGCTGGTGGAGGGATCGCGCGGACTGCGGCCGCCTTCTGAGTTCGATGCCAGGAAGGTCTTCGCCGCCTGCGCAGAAAACAACGTGGCCGTGGAGATCAACTCCCGCCCGGAGCGGCAGGACCCGCCGGACGAGTTGATCCAGTTGGCCCTCGACGCCGGCTGCCTGTTTTCCATCGACAGCGATGCCCATGCCCCGGGGCAGCTGGATTTCCTCCAGTACGGAGCGGCGCGTGCCGAACTGAACAACGTGCCGGCAGAGCGCATCGTGACCACCTGGCCCCTGGAGCGGCTCCTCGAGTGGTCCCGGGGCTAG	MDAVAALNEIAFWLERGRAATFKVQAFRKAAAAIAALEPEELAARARDGRLKSMKGIGDRTYQVIRQAVDGEVPDYLQDLRQRGTGALAEGGGELLRTLRGDLHTHSDWSDGGSPIAAMAEAARILGREYLALTDHSPNLKIANGLSAERLMEQLDVVAAINSDGAKGSGATASGAAADNNFRLLTGIEVDILETGELDQAPELLDRLDVVVASVHSKLRSDRATMTRRMLKGIQDPHTNVLGHCTGRLVEGSRGLRPPSEFDARKVFAACAENNVAVEINSRPERQDPPDELIQLALDAGCLFSIDSDAHAPGQLDFLQYGAARAELNNVPAERIVTTWPLERLLEWSRG	PGPT0016200_111	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016200-ycdX-K04477	NA	NA
D1-29_00595	843			hypothetical protein	ATGACCACCACCACCACCACCACCCAAAAGGTCGCACTCGTCACCGGGGCATCCTCGGGAATGGGCCACGCATTCGCCATCCAGCTGCACGAAGCCGGATTCCTGGTCTACGGCGTCGCCCGACGCACCGACCGCATGAATGACCTGCGCGCTCACGGCATCAAGACCATCGCCATGGACATCACCGACGACGAATCGATCAGCGACGGTGTCCGCCAGATCCTTACCGAAACTGGCCGGATCGACGTTCTCGTCAACAACGCCGGCTACGGGTCCTACGGCGCCGTAGAAGACGTTCCCCTGGAGGAAGCGCGCCGCCAGTTCGAGGTGAATGTGTTCGGCGCCGCTCGACTGGTCCAGCTCGTGCTCCCGTCGATGCGATCCCACAAGAGCGGCACCATCATCAACATCACCTCCATGGGTGGAAAAATCTACACCCCGTTCGGCGCCTGGTACCACGCCACCAAGTTCGCGCTCGAATCCTTCAGCGACTGCCTCCGCCTGGAAACAAAACCTTTCGGCATCAACGTCGTCATCATCGAACCCGGCTCGATCCGCACCGAATTTAACGGCATCGTCGCCGACAACCTCATCGAAACGTCCGGCAAAGGCGCGTACGCAGACAACGCCGCGAAGGTGGCGAAGACAGCCCGGGCTCAGAACCCCAGGCAGTCGTCGCCCCCGGAGCTCGTGGCCAGAACCCTCGTCAAAGCGGCCACCGCACGCCGCCCCAAGACGCGCTATGCCGTCGGGTTCGGCGCCAACCCCCTCCTCTTCACCCGCAGCATCCTCACCGACCGGGCATATGACGCAATGATCCTTCGCGCCAGCGGAGCCCACTGA	MTTTTTTTQKVALVTGASSGMGHAFAIQLHEAGFLVYGVARRTDRMNDLRAHGIKTIAMDITDDESISDGVRQILTETGRIDVLVNNAGYGSYGAVEDVPLEEARRQFEVNVFGAARLVQLVLPSMRSHKSGTIINITSMGGKIYTPFGAWYHATKFALESFSDCLRLETKPFGINVVIIEPGSIRTEFNGIVADNLIETSGKGAYADNAAKVAKTARAQNPRQSSPPELVARTLVKAATARRPKTRYAVGFGANPLLFTRSILTDRAYDAMILRASGAH				NA	NA	NA	NA	NA
D1-29_00596	588			hypothetical protein	GTGACTCAACCACCAGTAAAGCCGTTGCGCGCTGACGCGCGGCGCAATCGCACGAAAATCCTGGAGGCTGCCCGAGCGCAGATCACCCTCCACGGTCCCGACGTCGGCATGGACGAGATCGCTGCTGCTGCGGGCGTTGCTGTCGGCACTCTTTACAGTCACTTCCCCACCAAGGTGCATCTCGTCGCGTCGGTTGTACGCGAGTTCATAGCGGAGATGGCGGATCGTAGCGAGACCGCAGCGGCGGCCGTGCGCGATGGCAGTCCCGCATACACCGAGCTCACTGCGCTCCTACGGGACATCGTCATCGCAACCGCGACCAATCAAGCCGCGAAAGCCGCCGCAGCCGCTCTCGACGCCGACGAGGGCGATGCATCAGACCTGCAACGAGCCGGCGCCGCCCTGCAGTCGATCATCAATCAAGCCCGCGTAGACCGCACCGTCCGCTCCGACCTGTCAATCGAGGACTTATATCTCCTCGTCAGCAACATCCCCGCCGGCCAACCCACCGACGCCCTCGACCGATGGATCGATCTCCTCCTTCACGGAATCGCGGCCCGAAGAGCCGAGGCGACATCCACGCCCTGA	MTQPPVKPLRADARRNRTKILEAARAQITLHGPDVGMDEIAAAAGVAVGTLYSHFPTKVHLVASVVREFIAEMADRSETAAAAVRDGSPAYTELTALLRDIVIATATNQAAKAAAAALDADEGDASDLQRAGAALQSIINQARVDRTVRSDLSIEDLYLLVSNIPAGQPTDALDRWIDLLLHGIAARRAEATSTP				NA	NA	NA	NA	NA
D1-29_00597	432			hypothetical protein	ATGCCGAGTCAATTAGCTGTCATTGCCATCGATGCGGTCCGTCTGCAGGTGGTGGCGGACTTTTGGTGCGCAGTCCTCGGCTGGCATGTCGTCGATGAGGATAACGGCGTCATCAGCATCGCGCCCGAGGATGGGAGCCGGCCGGCCATTGATGTTGTCGCGGTTCCCGAGGGCAAGACCGTCAAGAACCGGCTGGACTTCGACCTGCGGGCTGACGGCCTGTCCACCGCCGAAGAGCTCGAGCGTCTGATCGCCCTCGGCGCGCGGCGCACAAACGTCGGCCAGGGCCCGGACGTTAGTTGGGTAGTACTCAGTGATCCCGAAGGAAATGAATTCTGCCTGCTGTCCCGCTCCGTCCAGGACGTCGAATCTCAAGAATATCGGCCGGAAGAATGGACGAGCGCAGCCCTTTCGAGTAAATCGGGGCCATAA	MPSQLAVIAIDAVRLQVVADFWCAVLGWHVVDEDNGVISIAPEDGSRPAIDVVAVPEGKTVKNRLDFDLRADGLSTAEELERLIALGARRTNVGQGPDVSWVVLSDPEGNEFCLLSRSVQDVESQEYRPEEWTSAALSSKSGP				NA	NA	NA	NA	NA
D1-29_00598	795			hypothetical protein	ATGGATGACCCGCTGGGGTCGGTCGAGGGCGTGGAAGCCATCGAGTTGGAGCGCCTGCGGCGACGCGCGTACGGACGGGATGGCGACATCACGGGGGATGCGGCGGCTCAAACTCGGCTTTCCGAACTGGAGGCCGCCCAACACCGACAGCTGACTCCCGTCATCGATCCCACCCCGAGCGTCCCCGACCCGGTCCCGAAAAGCGTCCCGGTCGCTGAGCCGGTCGAAGGGCCGCGCTCAACTTCGACGTCGGTCCCGCAGACTGTCGACGGAGCCCCCGCAGCACCGTGGTGGCGCCGCCGCCGCTGGTTGATGATCTTCGGCGGCGCCACCGCCGCCCTCGCCCTGATCACGGTTCACGTCGCGTGGCTGTCGCAGCTGCGTGCTGATGAGCCCACTGTCGTCCCAGAGTCGCAGCACCGTATGGCCGCCGTGCCCGCAGCGGACTTCAGGCTCGAATTGAAGTCGGTCGGCGCGGACATCGATGAGCCGCAAGACAACCTCGGCACTCTCGACGCGTTGGGTCTCAACGCCAATGAGCTGCGGCAATACGAGAACTTCAACGAGTTCCGTGTCTGGAGCGGAGAGTCTCGCTACGGCATGGTCTGTCTGCTCGTGGCCGACTATTCGATTCGCGAGAGGAACGGCACCGAAGGGTGTTCCCCCAAAGGCCTCGAGACCGTCGCGGAGGTGGTGTGGTTCGATGCCCGGGGTCTCACCCGATTCGTGCTCAACGGCGATTACGTCGAGGTCTACGTGTTCCACAGGGCCGCCGACCCGCCGTCGCTCCGGTGA	MDDPLGSVEGVEAIELERLRRRAYGRDGDITGDAAAQTRLSELEAAQHRQLTPVIDPTPSVPDPVPKSVPVAEPVEGPRSTSTSVPQTVDGAPAAPWWRRRRWLMIFGGATAALALITVHVAWLSQLRADEPTVVPESQHRMAAVPAADFRLELKSVGADIDEPQDNLGTLDALGLNANELRQYENFNEFRVWSGESRYGMVCLLVADYSIRERNGTEGCSPKGLETVAEVVWFDARGLTRFVLNGDYVEVYVFHRAADPPSLR				NA	NA	NA	NA	NA
D1-29_00599	441			hypothetical protein	ATGACGACTTTGGCTCCTTTCGTCAGCATCCTCGCCGTGGCGCTGGCGCTGAGTGGTTGCAATGTCTCAATAGAGGATGAGGCGCGGGCAGGCATCCGGAAGGTAGCTGCCGGTGCTCTCGATAGGTTCGAACAGGCCATCGATCGGGCGGGAAGCGCTGAGAAGCTTGAGCAGATCCTCCTCAGGGAGTTGCCCACACTGTATGCCTTCGCGTGGGACGACGACATGGAGCCGGTGGCCGACGTCTACCACATCTATTACGCCAGCCGTGGAAGCGGATTGTTTGCCGAGGATTACCAGGTCAAGGCGTGCGTGAGGTACTCGGTAGAGGCTGGCGAGCGACAGATGAAGTCCGTCGATTTGGCCTACTGGGCGGACGCGCGGGCGCCTCAGTCCTGCGGCTGGTTCCCGGAGTGGGAGCCCACAGGACTGATGAGGTAG	MTTLAPFVSILAVALALSGCNVSIEDEARAGIRKVAAGALDRFEQAIDRAGSAEKLEQILLRELPTLYAFAWDDDMEPVADVYHIYYASRGSGLFAEDYQVKACVRYSVEAGERQMKSVDLAYWADARAPQSCGWFPEWEPTGLMR				NA	NA	NA	NA	NA
D1-29_00600	2388			hypothetical protein	ATGTCCGTGCGACACCGCGTCCTCCTTAACAGGCCCGCAACTCTGTTCATCAACTCTTTCCTCCTGGGCAATGGTTCGACCGGGGCAGCCGTATACGGCACCCCGGCCCGGGAGCGCTTTGAGTTGAACGCCGATACGTTATGGTCCGGTGGTCCACTTCCTGAACCTTCGATCGACGGAGGGGCGGAACGTCTTGCCGCCGTCCGCGAGGCCATTCAGCGCGGCGACCATCTCGGCGCAGACGCGGCTGCCGTGGCGTTGCAGGGAAATTCGTGGACGCAGTCCTATCAGCCCGTCGGCGGACTGCTCTGGACCTACGGGAAAGAAAGGACCGGGGAGTATCGGCGCTTCCTGGACGTGTCCGAGGCAATTGCCACCACGGAATATGAGACTGGCGGCGGGTGGGTCCGTTTGGACTCCTTCGTCTCCGCGCCGGATGGCGTTCTTGTTTCCACGGCGACAGGGCCAGATGCCGGGTCAATTCTTGGTTCGCTCGATTTCGACGGCCCGCATCCACATGCCCGGGTGGAGCGGCGGGTTGAAAATGGCACCGAGTTCCTGTTCGTTTCGGGCAGGGCGCCGGCAAGCGTATTGCCCAACTACGTCCAGGATCCCGCCCCTGTCGTTTACGCGGACGACGAACCGGATGATCAAGGATTGGTTGATGCGGGGATGGGGTTTGCCCTCGTCGCATCCGTGGAAAGGACCGACGACGGCACGTTGCGGCTGATCGCCGCCACTGAGACCGGATTCCGGGGATATGACCAACGTCCAAGCGCCGACGTCGCATCCCTCCTCCGGCGTGCAGAGGGAAGGGTCCGCGGAGCACAGGTGCGAACCACCGAGGATCTCCGGCGGCGGCACACTACGGACTATCAGAGCTACTTCAACCGCATCGACCTTGATCTCACGGCATCCGGCGGCGTGGGAGCCGCCGAGGCATCCAGCGCCGAGCTGTACTTCCATTTCGGCCGATACCTCCTGATTTCAAGCTCACGCCCCGGCACTGCGCCGGCAAACCTTCAGGGGATCTGGAACGCGGATGTCCGCCCAGGCTGGAGTGCAAATTACACAACGAACATCAATGCCCAGATGAACTACTGGGGCGCGGAGGTCACGGCGCTCCAGGATCTTCACCAGCCGCTGCTGGCATTGACCCGCGACCTTGCAAAAAAGGGCGCAGAAACGGCACGCGCCTTTTACGGCGTGAAGGGCAGCGTGGTGCATCACAACACCGACATCTGGAGGTTCACCGCCCCGGTTTCCGGTGAACCGCAGTGGGCCAACTGGCCCTCCGGGCTGATGTGGCTTGCCGCCCACCTCTGGGACCGGACCGACTTTGCCGATGCCAGCCCGGTGGCTGATAAAGCCACCATTGCTGCCCTGGAGCCGATCGTGGTGTTCGCCCTCGAAATGCTTCAGGACAACGGCGCCGGCGGCCTCGCCTTCAGCCCCTCCACGTCACCTGAAAACCTCTTCCATACCGGTGGCGCCACCGCCAGCGTCACCTCCGGAAGTGCCATGGACCAGGAACTTGTCCATGAACTCCTTAGCCACTATCTGTCCCTGGCAGAAACGTGTTCAGCCGCAGACATTGCCATAGTGGACAGGGCACGGCTGGCCCTTCCGCGAATCCTTCCAGTCCGCACAGGCGCTGACGGCGCGATCCTCGAATGGGGCGACGAATCACTAGAGCCGGTTGAACCTGGACACCGTCATTTGTCGCACCTGTACGGTCTCTGTCCCGGAACCCGCATCACGGAAGCAGGAACGCCGGAAGACTTCGCGGCGGTACGCCGGGCGCTGGACACCAGGCTCGCTCACGGCAGTGGCCACACAGGCTGGAGCCAGGCCTGGGTGCTGTGCCTGGCGGCGCGGCTCAGGGACCGGCAGCTTGCGGAAAGGTCCATCTCTACACTGGTGCACCATCTCAGCTCAGAATCCTTGCTGGACCTGCACCCCAGTGCTGATTGGCCGGGCGGGAACATCTTTCAGATCGACGGGAACCTGGGTGCAATCGCCGGACTCGCCGAATTGTTGGTGCAGAGCCACGAAGGTCCCATCAGCCTGCTCAAAACCGTACCGACCGCCTGGACTGCCGGGCGCGTTTCCGGAATCAGGGCCAGAGGTGGTCACACCGTTGACGTCGAATGGGCAGAGGGTGCGCTCCTCCACGCGTCGGTCCGACCGTCCTGGGACAATGAGGTCTGGATCGAAGTGCCTCATGGCCAGGATTTAACGGTGCTCGACGACGATGGCGGCCAGGTCCCAGCCTCCCGACGGCCGGCCATTGCGGGCCGGACAGGTCTCTCCTGGACCGCCGCCGCCGGACGGTCCTACCTCATCAGTCCTGTGGGCTCCCACTCCGGGAACCAGCCGCAGGACTGA	MSVRHRVLLNRPATLFINSFLLGNGSTGAAVYGTPARERFELNADTLWSGGPLPEPSIDGGAERLAAVREAIQRGDHLGADAAAVALQGNSWTQSYQPVGGLLWTYGKERTGEYRRFLDVSEAIATTEYETGGGWVRLDSFVSAPDGVLVSTATGPDAGSILGSLDFDGPHPHARVERRVENGTEFLFVSGRAPASVLPNYVQDPAPVVYADDEPDDQGLVDAGMGFALVASVERTDDGTLRLIAATETGFRGYDQRPSADVASLLRRAEGRVRGAQVRTTEDLRRRHTTDYQSYFNRIDLDLTASGGVGAAEASSAELYFHFGRYLLISSSRPGTAPANLQGIWNADVRPGWSANYTTNINAQMNYWGAEVTALQDLHQPLLALTRDLAKKGAETARAFYGVKGSVVHHNTDIWRFTAPVSGEPQWANWPSGLMWLAAHLWDRTDFADASPVADKATIAALEPIVVFALEMLQDNGAGGLAFSPSTSPENLFHTGGATASVTSGSAMDQELVHELLSHYLSLAETCSAADIAIVDRARLALPRILPVRTGADGAILEWGDESLEPVEPGHRHLSHLYGLCPGTRITEAGTPEDFAAVRRALDTRLAHGSGHTGWSQAWVLCLAARLRDRQLAERSISTLVHHLSSESLLDLHPSADWPGGNIFQIDGNLGAIAGLAELLVQSHEGPISLLKTVPTAWTAGRVSGIRARGGHTVDVEWAEGALLHASVRPSWDNEVWIEVPHGQDLTVLDDDGGQVPASRRPAIAGRTGLSWTAAAGRSYLISPVGSHSGNQPQD	PGPT0018650_931	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018650-afcA-K15923	NA	NA
D1-29_00601	156			hypothetical protein	ATGAAGGGGGTCAGGATCGGCCTGGCCACCCCCGTTCCACCCAACAGCCTCAACAAAAACTACAACGATGCAGATCCGGTGTCCACACCATTCGGGAAAGTTCCTACATCGATCAATACATCCGATGATTACGTCCCCTGCTTCTTTAGTTGCTGA	MKGVRIGLATPVPPNSLNKNYNDADPVSTPFGKVPTSINTSDDYVPCFFSC				NA	NA	NA	NA	NA
D1-29_00602	2052			hypothetical protein	GTGACATTGATGGCCCCGCCGCAGAGCGACCGGCAACACAACATCGAATGGGCCCACCCTGGACTGCACCTGCGGTTTGAGTGCGGCGAAGACCACCCTGTCCGCCTCATTCACTGGGCGACCGGACCGGACACCCCGTCGGTGGCCGCCCCGACGGCGATCGTGGACGTGAGCACCGCAGGGGAGCACCGCGCCCGCCACAATCAGAGCCTCCTGCTGTGGGGGGCAGGGCCGCGGCTCCGCTACACCGGTCACGAAACGCTCGGCGACGAGCTGCGGATCCGCCAGCACCATCCTGAGAGCGGCCTCGAAGTGACCAGCGTCTTCCGGGCGGCGGGGCCCGGAGTCCAGCTCCGGCACACCGTGCGCAACGGGACCGAGGATGAAGTCATGCTCCTCTCGGTCAGCTCCGGGCTCGTGTCCGTCCCGGAGGGGGCACACGACCTGCTGTGGGGCGAAAGCGAATGGCTCGCCGAAGGGCGCTGGCAGCAGCGTCCGGTCTCGGAGCTGCTGCCGAATGTCAACCCCGATTTCCACAACCGGCGCAGTCGCGGAAACTTTGCGGTGACCAGCCACGGGTCCTTCTCGAGTGGCGAGTTCCTGCCGACCGGGGTCCTCGCGATCGACGGCGGGCCTTCCATCGCATGGCAGGTCGAGACCAGCGCGGGCTGGCACTGGGAGGCGACGCAGAACGAAGGCATGGTCACCATCGGCGTGTACGGCTCGACCGACCTGTACCACCAGTTCGCCGAGCGCCTGGCCCCCGGGGAGGAGTTCACCACGGTGCCCGCCGGGTTCTGCATCGCGGACGGCGGACGGGACGCTGTCTTTGCGGCGCTCACCGATTATCGGCGCGCGATCCGCGAACTGCGCCCGGTCGACGCGGGGCTTCCGGTGGTCTACAACGACTTCATGAATACGCTCATGGGCGGTCCCTCGACGGAGAAGGAGCTGCCGCTCATCGCGGCGGCAGCGAAAGCGGGCGCGGAATACTTCTGCATCGACGCCGGGTGGTTCGGCGGCGGCAACTGGTGGACGGACGCGGGCGACTGGCACGAGACTCCCGGGCTGTTCACCGGCGGCCTGATCTCGGTCATCGACACGATCCGCGCCCACGGGATGCGCCCGGGGATCTGGCTCGAACCCGAAGCAGTCGGCGAGAATGCGGCGCTGGCGCAGCAGCTGCCCGAGGAGGCATTCTTCCGCCGGTTCGGCCAGCGGGTCAGCGAGACCGGGCATTTCCAGCTTGACTTCCGGCATCCGGCGGCGCGCGCCCATCTGGATGAGGCAGTGGACCGGCTTGTTGCCGAGTTCGGGATTACGTTCTTCAAGCTCGACTACAACGTGAATTCGGGCGTCGGGACCGACGTGGACTCCGACGGGCCCGGGGCCGGGCTCCTGGGGCATACCCGGGCCTTCCGCGAATGGCTGAGCGACGCCCAGGCGCGGCACCCGGAAGTGCTGTTCGAGAGCTGCTCCTCGGGCGGGATGCGGATGGACTACAACCTGCTGTCCGTGGCGCACCTGCAGTCCACCAGCGACCAGGAGGACTTCCGGCTGTACGCGTCGATCGCCGCCGCCGCACCCGCCAGCGTCCTCCCCGAGCAGGCAGGAAACTGGGCCTATCCGGCGGCGTCGATGAACATGGAGGAGACGGCGTTCGCCATGACAGCGGGCGTCATCGGCCGGCTCTACCTGTCCGGTTTCCTGGGCGGGCTCAGCGACGAACAGTTCGCGCTGGTAGGCGAAGCCGTTGCGCTCCACAAAGACTGGCGCCACCGCATCGCCGGGGCGCATCCGGTGTGGCCGTTGGGGCTCCCCGGCTGGGATGACGACGTCATCGCGCTGCAACTGAACACCGGTTCCGAGTCGTTGCTGGCGCTATGGTCGCGCGGTGAGGCTAGGGAGATCACGCTGCCAGGGCTGCGCGGGCGGACCATGGAGCAGGTCTATCCGGTCGCTTTGCCGGAGTGGACCCTCCGCGCGGCTGAGGGACTACCGGTCATCGAGGTGCCCGCCGGTCCGGCCGCAAGGATCTTCGCGGTACGGTGA	MTLMAPPQSDRQHNIEWAHPGLHLRFECGEDHPVRLIHWATGPDTPSVAAPTAIVDVSTAGEHRARHNQSLLLWGAGPRLRYTGHETLGDELRIRQHHPESGLEVTSVFRAAGPGVQLRHTVRNGTEDEVMLLSVSSGLVSVPEGAHDLLWGESEWLAEGRWQQRPVSELLPNVNPDFHNRRSRGNFAVTSHGSFSSGEFLPTGVLAIDGGPSIAWQVETSAGWHWEATQNEGMVTIGVYGSTDLYHQFAERLAPGEEFTTVPAGFCIADGGRDAVFAALTDYRRAIRELRPVDAGLPVVYNDFMNTLMGGPSTEKELPLIAAAAKAGAEYFCIDAGWFGGGNWWTDAGDWHETPGLFTGGLISVIDTIRAHGMRPGIWLEPEAVGENAALAQQLPEEAFFRRFGQRVSETGHFQLDFRHPAARAHLDEAVDRLVAEFGITFFKLDYNVNSGVGTDVDSDGPGAGLLGHTRAFREWLSDAQARHPEVLFESCSSGGMRMDYNLLSVAHLQSTSDQEDFRLYASIAAAAPASVLPEQAGNWAYPAASMNMEETAFAMTAGVIGRLYLSGFLGGLSDEQFALVGEAVALHKDWRHRIAGAHPVWPLGLPGWDDDVIALQLNTGSESLLALWSRGEAREITLPGLRGRTMEQVYPVALPEWTLRAAEGLPVIEVPAGPAARIFAVR	PGPT0018835_1828	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407	NA	NA
D1-29_00603	996			hypothetical protein	ATGACTTCCAGCCGTGAGTATGCGGGGTACCTCTACGTCCATTTCAAACGCGAAGCAGCGGACGGTGAGCAGGTCTATTTCGCCCTGAGCGAGGGGAACCACCCGCTTCACTTCCACGACCTCAACGGCGGCAAGCCGGTCCTGCACTCGGCTTTGGGTGAATGCGGCGTCCGCGACCCGCACATCGTCCGTTCCCCTGACGGCGAGCGCTTTTACATGGTGGCCACGGACCTGTGCCTCTACGCGAACCTTGACTGGGACCGGCATCAGCGCTGGGGCAGCCGTTTCATCATGATCTGGGAGTCGACGGATCTGGTGGACTGGGGAGAGGGCCGCCTCGTCGAGGTCGCACCGCCCGAAGCAGGTAACACGTGGGCGCCGGAGTCGGTCTGGGATCCCGGGCAGGACGCCTTCCTCGTGCACTGGTCATCGAAGCTCTATGACAACGCTGAACACGAAGGTGAGAGCTATAACCGGATCATGTACGCCACCACGCGCGACTTCCGGGAGTTCTCCAAGCCGCGCGTCTGGATCGATCGGGGTTGGCCTACCATCGACACCACCGTAATCGGCCACGACGGCCTGTACTACCGCTTCCTCAAGGACGAGCGCACCCGCAGCGGGGAGGCGCCCAACGGCAAATCAGTCTTCAGTGAGACCGCCGATTCCCTGACGGCGGCAGGCTGGAAGCCGCTGACTGAAGGTATCGGCCTCGACGGGATCAGCAGGGGCGAGGGACCCTTGGTGTACAAGTCGAACACCGAGGACAAGTGGTTCCTATGGTTGGACGAGTTCACGCCGGAACGCCGTTACGTTCCCTTCGAGACGACTGACCTGGCCGGCGGCCAGTGGACTCCCTGCAAGGACGTCCGGCTGCCGGAGGATCCCTGTCACGGTGTGGTGCTGCCGGTGACGGCCGAAGAGTACGCGCGGCTCAGCGCCGCGTGGGGAGACCGGGTTCGCAGCAGCGTGTCGCAGGGCTCACTGGGGAGGTAG	MTSSREYAGYLYVHFKREAADGEQVYFALSEGNHPLHFHDLNGGKPVLHSALGECGVRDPHIVRSPDGERFYMVATDLCLYANLDWDRHQRWGSRFIMIWESTDLVDWGEGRLVEVAPPEAGNTWAPESVWDPGQDAFLVHWSSKLYDNAEHEGESYNRIMYATTRDFREFSKPRVWIDRGWPTIDTTVIGHDGLYYRFLKDERTRSGEAPNGKSVFSETADSLTAAGWKPLTEGIGLDGISRGEGPLVYKSNTEDKWFLWLDEFTPERRYVPFETTDLAGGQWTPCKDVRLPEDPCHGVVLPVTAEEYARLSAAWGDRVRSSVSQGSLGR	PGPT0019091_45	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
D1-29_00604	519			hypothetical protein	ATGTCTCCTGTACAAGCTCTCCACGGGAAACAGTCCCGCCGCCTCCGCACGGGTGCCGCCCTCATGACGCTGGCCGGGCTCGCCTTCGTGGGCTACGCGGCAGTCTTCCTGGTGCTCAACTTCACGGGCATCTTCCTCGAGTTGGGCATCGGCCCCGATCAAGTGGACAAGGGGAAGGCTGATGTGGAGGAGTTCAGCCCACAGCTGTATCACTACATCAGCCATCTCCACCTTGCCATCAGCGGCTTCATTGCGGCCACCGGACTGGCCATCGTTGGCCTGTCCTGGTACGGCGTGCGACGAGGAGAACGGTGGGCCTTCGCCACGGCGATTATCGTCCCGGTTGTCGGGCTCGCCATTTCCGTCCCCGCACACTACCCATGGGGCCTGGCGACGCTTGAGCACCTGGGCCCGGTCTATCTCGCCGTCCTCATATTCGTTGCCGGTGTCGGTACAGCCTACAGCGGACTGCGGACACCGGAGACGCCCGATCGGGCGGTACCGCTACCTCCCCAGTGA	MSPVQALHGKQSRRLRTGAALMTLAGLAFVGYAAVFLVLNFTGIFLELGIGPDQVDKGKADVEEFSPQLYHYISHLHLAISGFIAATGLAIVGLSWYGVRRGERWAFATAIIVPVVGLAISVPAHYPWGLATLEHLGPVYLAVLIFVAGVGTAYSGLRTPETPDRAVPLPPQ				NA	NA	NA	NA	NA
D1-29_00605	1107	ccpA_4	COG1609	Catabolite control protein A	ATGGCGAACAGCAACGCACGCGCACAGGCTGTGGGTGGGGGCGCGGCCGCACCGTCGGCTTCGGGAACCCCCGCGCAACGCGGCGTCACCATGGCGGATGTTGCCAAGCATGCCGGAGTGTCCCGCACCGCCGTCTCGTTCGTCCTGAGCAACCGCGGGGACACCAGCATTTCGCAGGAAACCAAGCACCGCATTCTCGAAGCCGTCCAGACCCTGGGATACCGGCCCAACGCCGGGGCCCGGGCCCTGGCCTCGCAACGGAGTGACTGGTACGGAATCGTCACGGAGATCGTCACGGCACCGTTCGCCGTCGACATCATCAAGGGCGCACAGGACCAGGCCTGGCTGGACCGCAAGTTCCTGCTCATCGCCCCGTCAGACCAGGCCGACGCCGTAGGACCAAACCAGGGCCTGGAAGATGCCGCCGTGGAAAAGCTGCTGGAACAAAGGGTGGAAGGACTTCTGTACGCGGCCACCTTCCACCGGCCCGTACACGTTCCGAAAAGCACCCACGAGGTGCCCACCGTCCTGATCAACTGCTTCGACGCGGACGGGAAGCTGCCCTCGATCGTCCCGGACGAACGCGGGGGCGGCCGGGTCGCCGTCGAACGCCTGCTCCAGGCCGGACACAAGCGGATCGGTGTCATCAACCTGGATCCGAACATCCCCGCCGCCGTCGGGCGCCTGGAAGGATGCCGCGAGGCACTCGCCGGTGCCGGCCTGGAACTGGACCCTGAACTTGTAGTCTCGGGATACGCGACGGCGGACGGCGGCTACGAGGCAGCGTGCGAAATCCTCGACAGATTTCCGGCCGATGCAGGCAGGCCAACGGCACTGTTCTGCCTCAATGACCGGATGGCCATGGGCGCCTATGACGCCATCAAGGAACGTGGACTGGCCATCCCCCAAGACATCGCCGTGATCGGCTTCGACAACCAGGAACTCATTGCGGCCTACCTCAGGCCCAAACTGACAACGGTTGCGTTGCCCTTCCAGGAGATGGGTGCGCTGGGTGTCCAGACACTCGCAAGCCTTACAGCAGGACAGCCGATCACCGCACACCAGCAAATGGTCGACTGTCCGCTGCTAGAACGCTTTTCAGTCTGA	MANSNARAQAVGGGAAAPSASGTPAQRGVTMADVAKHAGVSRTAVSFVLSNRGDTSISQETKHRILEAVQTLGYRPNAGARALASQRSDWYGIVTEIVTAPFAVDIIKGAQDQAWLDRKFLLIAPSDQADAVGPNQGLEDAAVEKLLEQRVEGLLYAATFHRPVHVPKSTHEVPTVLINCFDADGKLPSIVPDERGGGRVAVERLLQAGHKRIGVINLDPNIPAAVGRLEGCREALAGAGLELDPELVVSGYATADGGYEAACEILDRFPADAGRPTALFCLNDRMAMGAYDAIKERGLAIPQDIAVIGFDNQELIAAYLRPKLTTVALPFQEMGALGVQTLASLTAGQPITAHQQMVDCPLLERFSV	PGPT0017992_1037	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
D1-29_00606	1674	nikA	COG0747	Nickel-binding periplasmic protein	ATGACACAATCGCGATTCCTCAGGTCTGCCCGCATCACCGCGGCCAGCCTGGCAGTAGGTGCCCTACTGCTCACCGGCTGCTCGGCCAACCAGGGCGGCCAGTCCAACGCCGGCGGTTCGGCTGAAAGCGCCCTCCTGACCATTCCGCGGGAGGACATGGGCACCTTCGTCAGGAACTTCAACCCGTTTGCCCCCACCGTGGCCCCCATGACGCAACAGGCCATCTACGAATCCCTGTTGATCTACAACCCCGCCAAGGGTGAAACCACGCCGTGGCTTGCCAGCGAGTGGAAGGCTGCAGAGGACGGAAAGTCCGTCGTCTTCACGCTCCGTGAGGGCGTGAAATGGTCCGACGGCCAGCCCCTCGTTCCCGCTGACGTGGTGACCACCTTCGCGCTGCAGAAGAAGATCAAGGGCGGCTACGAGTACCTGGACACGGTTGCTGCCGAGGGCACGAACCAGGTGAAGTTCACGTTCAAGACTGCCTGGTCGCCGGCCCTGTTCGACCTGGGCCAGCTGAGTATCCTGCCCGACCACGTCTGGTCCAAGATCGCCGATCCTGAGAAGGACGCCAACGAAAAGCCCGTGGGCACCGGCCCCTACACCGAGGTGGACACCTTCCAGGCGCAGTCCTTTGTGCTGAAGAAGAACCCCAACTACTGGCAGCCGGAAAAGCAGAAGATCGCCGGCATCAAGATGCTCGCCTTCGCCGGAAACGACGGCGCCAACCTCGCCGCCGCCAACGGCGACGTGGACTGGGCTCCGCAGTACATGCCCAACATCGAAAAGACGTTCATCTCGAAGGACCCGGACCACCGCAGGTACTGGTTCCCGCCCACGGGTTCGATGATTAACTGGCAGCTGAACACCACCAAGGCCCCGTTTGATGACGCCAACGTCCGCAAGGCCCTCAGCATGGCGGTGGACCGTGAACAGGTCACCAAGATCGGCATGAGCGGCTACACCAAGCCCGCCGACTGCACGGGCCTGTCCGGGAACTATGAAACGTGGAAGAACAAAAAGGTCCAGGAGGATTGCGACTGGACCAAGCTGGACGTTGACGCGGCGAACAAGCTGCTCGACGAGGCCGGCTACGCCAAGGGCGCGGACGGCAAGCGTTCCTTCAAGGACGGAAAGCCCTTCGAATTCAAGATCTCCGTGGGCGCCGCTTCCTCTGACTGGCTCTCCGTGGCCAACGTGATCGCACAGAACCTTGCCGAGGTGGGCGTCACCGTCAAGGTGGATTCCCCGGACTGGGCCGCCGTGGTGGCCGGTTACGAGACGGGCGACTTCGACTCCGGCATCGTGTGGAGCGCCAACGACCCCAGCCCGTACAAGTACTTCGCGGGCCTGATGGGAACGTCCACGGTGAAGCCGGTGGGGGAGAAGGCCTTCGAGAACTACCACCGCTTCGGTGACCCGACGGCGGACGGCCTCCTCACCGAGTTCGCCGCCGCGGCAGACGAGGACACCCAGCACGCGGTCGCGGACAAACTCCAGGAGGAGTACAGCGCCGAGGCCCCGGTCATCCCGCTGTTCGCCGGCCCGGAATGGGGCGCCTACAACGACACCCGGTTCACGGGGTGGCCCACCGAGGACAACCCGTACGCCACGCTGTCAGTCCGGGCGCCCACCACTGTGCTGGTCCTGACGTCGCTGGAACCCCGCAAGTAA	MTQSRFLRSARITAASLAVGALLLTGCSANQGGQSNAGGSAESALLTIPREDMGTFVRNFNPFAPTVAPMTQQAIYESLLIYNPAKGETTPWLASEWKAAEDGKSVVFTLREGVKWSDGQPLVPADVVTTFALQKKIKGGYEYLDTVAAEGTNQVKFTFKTAWSPALFDLGQLSILPDHVWSKIADPEKDANEKPVGTGPYTEVDTFQAQSFVLKKNPNYWQPEKQKIAGIKMLAFAGNDGANLAAANGDVDWAPQYMPNIEKTFISKDPDHRRYWFPPTGSMINWQLNTTKAPFDDANVRKALSMAVDREQVTKIGMSGYTKPADCTGLSGNYETWKNKKVQEDCDWTKLDVDAANKLLDEAGYAKGADGKRSFKDGKPFEFKISVGAASSDWLSVANVIAQNLAEVGVTVKVDSPDWAAVVAGYETGDFDSGIVWSANDPSPYKYFAGLMGTSTVKPVGEKAFENYHRFGDPTADGLLTEFAAAADEDTQHAVADKLQEEYSAEAPVIPLFAGPEWGAYNDTRFTGWPTEDNPYATLSVRAPTTVLVLTSLEPRK	PGPT0004430_4905	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
D1-29_00607	978	dppB_1	COG0601	Dipeptide transport system permease protein DppB	GTGCGCTTTATCCTGCGCCGCCTGGGTTTCTACCTGATTGCCTTCTGGGTGTCCATCACTTTGAATTTCCTGCTCCCGCGCTTTATGCCCGGTGATCCCGTCTCCCGCATGTTCGCCCGCACGCAGGACCGGATGCAGCCCGAACAGATCGAGGCGCTCCGCAAGCTCCTCGGCGTGGACGACCGGCCCCTATGGGAGCAGTACATCGGTTACCTGCACAACATGCTCACCGGGCAGATGGGTGTCTCCATCTCCCGCTTCCCCACACCGGTGACAGAGGTGATTGCCTCCCAGGTGGGCTGGACGCTCCTGCTGGGCGGGACTGCACTGGTGATTGCCGCCGTCGTGGGCAACCTGCTGGGAATCCTGGCGGCGTGGCGGCGTGGAGGCGCCATCGACTCCGCCCTCCCGCCGATCCTGATTTTCATCGGATCCTTCCCCTACTTCTGGCTCGCCATGGGCGCCCTGTACCTGTTTGGCGTCACCCTGGGCTGGTTCCCCATCCGGCACGCCTTCAGCGACACCATCGAGCCCAGCTTCAGCTGGGAGTTTATGTCCGACGTCGGCATGCACCTGGTGCTGCCGGCCCTCACTATCGTGCTGGTCTCGGTGGGCGGCTGGATGCTGGGCATGCGGAACACCATGATCGCCACCAACGCCGAGGATTACATCACGATGGCAGAAGCAAAAGGCCTGCGGCCGGGGCGGATCATGTTCCGCTACGCCGCCCGCAACGCCATGCTGCCGTCGGTCACGAGCTTCGGCATGAGCCTGGGTTTTGTGGTGGGCGGCGCGCTCCTGACAGAGGTGGTGTTTGCCTACCCCGGGGTGGGCTACCAGCTCCTGAACGCCGTGCAGGGCCTGGACTATCCGCTGATGCAGGGCCTCTTCCTGACCATCACGGCCGCCGTGCTGCTGGCCAACTTCCTGGTGGACATCCTGTACGTCCGCCTCGATCCGCGTGTGCGCAGCAACTAG	MRFILRRLGFYLIAFWVSITLNFLLPRFMPGDPVSRMFARTQDRMQPEQIEALRKLLGVDDRPLWEQYIGYLHNMLTGQMGVSISRFPTPVTEVIASQVGWTLLLGGTALVIAAVVGNLLGILAAWRRGGAIDSALPPILIFIGSFPYFWLAMGALYLFGVTLGWFPIRHAFSDTIEPSFSWEFMSDVGMHLVLPALTIVLVSVGGWMLGMRNTMIATNAEDYITMAEAKGLRPGRIMFRYAARNAMLPSVTSFGMSLGFVVGGALLTEVVFAYPGVGYQLLNAVQGLDYPLMQGLFLTITAAVLLANFLVDILYVRLDPRVRSN	PGPT0004445_7019	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
D1-29_00608	1029	dppC	COG1173	Dipeptide transport system permease protein DppC	ATGACAAGCTCCATCGCAACCACAGCCTCCACCATTTCGGCGGAGACCCTCGCCGGCTCCCGTCCCGGCAAATCGTCAGGACAGTCGTCCGACGGCGGCGCCGGACTTCCGCCCCAAGGTTCAGTCCGGCAGCCCAACAGGACACTCCTGCACGGGCTGCTGACCAACAAGAAGGCCATGGCCGGCACCGCCATCCTGCTCACCTTCATCGCCCTGGCGCTGCTCGCCCCCGTGCTGTATCCGGACAACCCCTCCAAGATCACGGGCATGGCATCCCAGGAACCCGACGCTGAATTTTGGCTGGGCACAACCGCCAAGGGCCAGGACGTCCTGGCCCTGACCATCCACGGGGCGCGCAGCTCACTGCTGGTGGGCCTGACCGTGGGTTTTGCCTCCACGTTCATCGGCATCCTGGTGGGGCTGGCCTCGGCGTACTTTGGCAAGTTCATCGACGAAGCCCTGTCCCTGACCACCAACGTGTTCCTGCTCCTGCCGGGACTGCCGCTGCTGGTGATCCTGGCCGCGTTCCTGCCGCCGGGCCTTGGGACAGTGATCCTGGTCCTGGTGGTCACCGGCTGGGCGGGATCGGCCCGGGTGCTGCGCTCGCAGGCCCTGTCCATCCGCTCCAAGGACTTTGTTGCCGCTGCCGTGGTGACCGGTGAACGGCCGCTGCGGATCATGTTCCGGGAAATCCTGCCCAATATGGCCTCCATCGTGATGGGCACGCTCCTTGCGTGCATCATCTACGGAATCGGCGCCCAGGCCGGCCTGGAGTTCCTGGGCCTGGGGGACGTCAGCACGGTCTCCTGGGGCAACAACCTGTACTGGGCAGGCAATGAAGGAGCCCTGCTGACAGGCAGCTGGTGGGTGTTTGTGCCGTCCGGCCTGTGCATTGCCCTGGTCGCCTTCTCGCTGTCGCTGATCAATTACGCAGTGGATGAAGTCACCAACCCGCGCCTGCGGAAGATCCGGAAGACCAAGCCGGCAGCCACTAAATCCGCTACCTCCGGAAAGCGAGCAGCAGCATGA	MTSSIATTASTISAETLAGSRPGKSSGQSSDGGAGLPPQGSVRQPNRTLLHGLLTNKKAMAGTAILLTFIALALLAPVLYPDNPSKITGMASQEPDAEFWLGTTAKGQDVLALTIHGARSSLLVGLTVGFASTFIGILVGLASAYFGKFIDEALSLTTNVFLLLPGLPLLVILAAFLPPGLGTVILVLVVTGWAGSARVLRSQALSIRSKDFVAAAVVTGERPLRIMFREILPNMASIVMGTLLACIIYGIGAQAGLEFLGLGDVSTVSWGNNLYWAGNEGALLTGSWWVFVPSGLCIALVAFSLSLINYAVDEVTNPRLRKIRKTKPAATKSATSGKRAAA	PGPT0004450_2533	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
D1-29_00609	936	oppD_2	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGACCGTCTCCCAAACCTCCTTCGGCTCCCACGAACCGGTGCTGGAGATCAAGGACCTCACCGTGAAGTACCGCGGTGACACCCGGTCCACCACCGCCGTCGACCGCGTTTCCTTCAACATCGGTGTGGGCGAAATCTTCGGCCTGGCCGGCGAGTCAGGCTGCGGCAAATCCACCATCGCAAACGCCATCATGCGGTTGCTGCGGGACCCCGCGGAGATCTCCGGCGGCAGCATCCGATTCGGCGGCAGGGATGTCCTGTCCATGGGCAGCGAGGAGCTGCGGCGTTTCCGCTGGCAGGACGTAGCCATGGTGTTCCAGTCGGCCATGAACTCGCTGAACCCGGTGATGACCATCGGGGACCAGATCGTGGATATCTACACCACGCATGCAGGCTACTCCCGCAAGGAGTCGCTGCGGCGGGCTGCGGAACTGCTTGAGCTGGTCCGGATCGACCCCGCCCGGCTGAAATCGTATCCGCACCAGCTGTCGGGCGGGATGCGCCAGCGTGCGGTCATCGCCATGGCCGTGGCGCTGAAGCCCTCGCTGCTGATCCTGGATGAGCCAACCACCGCCCTGGACGTGGTGGTGCAGCAGGAGATTATGGCCCAGATCAAGGAACTGCAGCACGAACTGGGCTTCTCTGTCCTGTTCATTACCCACGACATGTCCCTCATGGTGGAGCTTTCGCACCGGATGGCTGTGATGTACGGCGGCCGGATTGTGGAAACTGCCCGGGCCAAGCACATCCATACGGCTCCGCTGCACCCGTATACGCAGGCCCTGATGGGGGCCTTCCCGCCGCTGACCGGCCCGCGGGTCCCGCTGACAGGCCTGGCCGACGGCGTGAAGTTCAATGACATCGCGGACCTCCAGGAAGTCTCTCCCGGGCACTTCGTCTCTCCCCTTCCCGTTCTGCAAGGAGCGCAGCCATGA	MTVSQTSFGSHEPVLEIKDLTVKYRGDTRSTTAVDRVSFNIGVGEIFGLAGESGCGKSTIANAIMRLLRDPAEISGGSIRFGGRDVLSMGSEELRRFRWQDVAMVFQSAMNSLNPVMTIGDQIVDIYTTHAGYSRKESLRRAAELLELVRIDPARLKSYPHQLSGGMRQRAVIAMAVALKPSLLILDEPTTALDVVVQQEIMAQIKELQHELGFSVLFITHDMSLMVELSHRMAVMYGGRIVETARAKHIHTAPLHPYTQALMGAFPPLTGPRVPLTGLADGVKFNDIADLQEVSPGHFVSPLPVLQGAQP	PGPT0004435_12489	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
D1-29_00610	1080	oppF_1	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGAGCACCAACACCCCAGCCCCCGAGGTTCCAGCCCTGGAGGTGCGCGGCCTGGTCAAGGACTTCCACAGCGGCGGACTGTTCTCCCGGGCCTCCGTGCGGGCCCTGGGCGGTGTGGACCTGGCCATCGGCAAGGGCGAGATCGTGGCGCTTGTGGGCGAGTCCGGTTCAGGCAAGAGCACCCTGGCCCGCTGTGTGGCCCGGCTTGAAAAGCCCACGGCCGGCCAGATCCTGGTCAACGGCGTGAACGTCCTGAAGCGGGACCGCTTCCAGGCCTCCAGGGAATACCGGTCGCAGCTGCAGATGGTTTTCCAGGACCCGTTTGGTTCGCTGAACCCGGTCCACCGGATCGAGCACTTCCTCACCCGGTCACTGACCCTCCACGGTAAGGCGGGGACCCCGGACCAGCTGCGGACGCGCCTGGATCAGCTCATGGCCACGGTGGGCTTGACGCCGGACATGCTTAACTCCTACCCGCATGAGCTTTCCGGCGGCCAGCGGCAGCGGGTAGCCATCGCCAGGGCGCTCGCCGTTGAGCCGGACGTGATCCTGGCTGACGAACCGACGTCCATGCTCGATGTCTCCGTCCGGATCGGAATCCTCAACCTGATGCGCCAGCTGCGGGAAAGCCAGGGGATCTCCATGCTCTACATCACCCATGACCTGGCGTCTGCCCGCTATCTGGCGGACCGCATCGCCGTGATGTTCGCTGGTGAAATTGTGGAGGAAGGCGAATCGCTTGACCTGCTGGCCAACCCGGCCCACCCCTACACCCGACTCCTGGTCTCCGCCGTGCCGGACCCTTCACGCACCGGCTCCTACGATCCCGCTGAACGGGCAGCACTGCGGGCTGCGGTGATGGAATCGGCGTCGTGCGCTTTCGACGGCGACCCGCAGCAGCGCTGCTCGGCCACCGAACCGGTACGGCACGCCGTGGGTGATGCCGCCAACCGGCACTGGGTCCGCTGCCACCTCTACCGGCCGCCGGCCGCCGCGGCCGGCCACGCACTTTCGTCCGATGCCTCAGCCCCCCTCGCGGCGGCAGACGGCTCCCTCACAGAATCAAAGGCATCCGCATGA	MSTNTPAPEVPALEVRGLVKDFHSGGLFSRASVRALGGVDLAIGKGEIVALVGESGSGKSTLARCVARLEKPTAGQILVNGVNVLKRDRFQASREYRSQLQMVFQDPFGSLNPVHRIEHFLTRSLTLHGKAGTPDQLRTRLDQLMATVGLTPDMLNSYPHELSGGQRQRVAIARALAVEPDVILADEPTSMLDVSVRIGILNLMRQLRESQGISMLYITHDLASARYLADRIAVMFAGEIVEEGESLDLLANPAHPYTRLLVSAVPDPSRTGSYDPAERAALRAAVMESASCAFDGDPQQRCSATEPVRHAVGDAANRHWVRCHLYRPPAAAAGHALSSDASAPLAAADGSLTESKASA	PGPT0004440_6643	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
D1-29_00611	1554	sacA_2		Sucrose-6-phosphate hydrolase	ATGACTGAACTGACCCACCCCCTGGCCACCGTCCCCCGGGACGAGCTGGTGGCCCGGGCCGAGGCGGACCCGCACCGGCCGCGTTTCCACTTCGTCTCTCCCGGCGGGTGGCTGAATGACCCCAACGGTGTGGGCCAGTGGAACGGCACCTTCCACCTCTTCTACCAGTACAACCCGGAGGGAGCATTCCACCACCGCATCCTGTGGGGCCACGCCACCAGCGGGGACCTCGTGCATTGGACGGATCAGCCTGTGGCTTTGGAACCCACTGCGGGGCCGGATGCTGACGGCTGCTGGTCGGGAGTGCTGGTAAACGACGCCGGGACGCCCACGCTGGTCTACTCCGGCCGGCACGGTGAGCGTGAACTTCCCTGCGTGGCAACAGGTTCCCCCGACCTCGTGACCTGGACCAAGTCTGATGCGAACCCCGTCATCGCGGGCCCACCCGCGGGCGTGGAGATCACGGCCTACCGCGACCACTGTGTGTGGCGCGAAGGATCCCGCTGGCGGCAGCTGGTGGGCTCGGGCATCCGGGGGAGGGGCGGCACCGCCTTCCTCTACGAGTCCGAGGACCTGCGGGCCTGGACGTACGTGGGGCCGCTCCTCATTGGCAATGCCTCCGCCGGAGACCCGGCAGGCAGCAGCTGGGAAGGCACCATGTGGGAGTGCGTGGATCTCTTTCGCGCCGGCACCGGGACACTGGGGGACGGGGCCGACGGCGGCGACGCGCAAGTGGACGCCCTGGTCTTCTCCGCCTGGGACGACGGCGCCACCCGCCATCCGTTGTACTGGACCGGCCGCTACAGCGGGGATTCATTCACACCACGCCAATTGCACAGACTGGACTACGGCGGCCGCTACTTCTACGCGCCCCAGTCGTTCGCTGACGAATCCGGCAGGCGGGTGATGTTCGGCTGGCTCCAGGAGGGCCGCACGGACGAGGCCATGGTGGAGGCAGGCTGGTCCGGGGTGATGAGCCTGCCGCGCATTGCCACCCTGGACCCGGCTGGGGAGCTGGTGTTTGCCCCGGTACCTGAAATCGAATCCCTGCGCTACGGCCACGTCCGGCTGGGCCCGGAGGCTCTCAGCGGCTTCGAGGTGCTGGACGGCGTCGACGGAAACCAGCTGGATCTTGAACTGGATCTGGAACTCGAACCTGGAAGTATCTTCAGGCTCGGCGTCCTGGGCACGGCCTCGGGAACCGGGGACATGGCAGAGGAAACCGTCATTGAGGTGGGGTGCCAGGCAGGCGAGGGTTCTGACGGGTCATATATCCGGCTGGACCGCACGCGAAGCAGCCTGGACACGTCGGTGGACGTTGAGGAACTCTCCGGCCCGGTTGCCCTCCCCGACGGGGGACTGCGGCTTCGCGTCATCGTGGACCACTCGGCGCTGGAGGTCTTTGCCAACGGTAAACCCCTGACAGCGCGGGCCTACCCCACCCTCGGCGGCGGGAGCGTGCGGCTGTCCGCTGCCGGGCCGGTGCGGCTGCGGCAACTCGACGCCTGGCGGATGGAAGACGTTTTCGACGGGCCTCGCCCGCTCTTTCCCTGA	MTELTHPLATVPRDELVARAEADPHRPRFHFVSPGGWLNDPNGVGQWNGTFHLFYQYNPEGAFHHRILWGHATSGDLVHWTDQPVALEPTAGPDADGCWSGVLVNDAGTPTLVYSGRHGERELPCVATGSPDLVTWTKSDANPVIAGPPAGVEITAYRDHCVWREGSRWRQLVGSGIRGRGGTAFLYESEDLRAWTYVGPLLIGNASAGDPAGSSWEGTMWECVDLFRAGTGTLGDGADGGDAQVDALVFSAWDDGATRHPLYWTGRYSGDSFTPRQLHRLDYGGRYFYAPQSFADESGRRVMFGWLQEGRTDEAMVEAGWSGVMSLPRIATLDPAGELVFAPVPEIESLRYGHVRLGPEALSGFEVLDGVDGNQLDLELDLELEPGSIFRLGVLGTASGTGDMAEETVIEVGCQAGEGSDGSYIRLDRTRSSLDTSVDVEELSGPVALPDGGLRLRVIVDHSALEVFANGKPLTARAYPTLGGGSVRLSAAGPVRLRQLDAWRMEDVFDGPRPLFP	PGPT0018815_1158	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193	NA	NA
D1-29_00612	3732			hypothetical protein	ATGCCGAAAAGACTTGTCGCAGGAATCGCCGCAGCCGCCCTTGGGCTCGGCACGCTCACCGCGGGGGCCGTGCTGGCTCCGGCAATCCTCGCCGGCCCTGCACAGGCTTCGGGCCAGGCGCCCGTAACAGCCAACAGCACCAGCAGTCCCATTCCCGACGCCGTTGCCCTGCCGGACAGCGGCACCTGGACCCGGACCGCGGACGCCGGGTACACCGCCGTCGTCCCGGCCGGACAGAACGGCACGGCCATCAGTGAACAACGGATCAGCGGCACCGCCCGGTACACCGCCGGGGTGTCCGTCGATCCCGGGACGCCCTACGGTGTGGGGACGCTGCTCTTCAGGGCCGCCGCAGACGGCAGCGGCGGGTATGCGGTGGCCATCGATCCCAACCTGGACAGGGTCAGGCTGTTCGACCTCGCCACCGGGGAAGACGTGGTTCCGTCAGCCGCAGTGCCGCTGGACACCGGCCGCACCTACTCCGTGGACGTTCATGTGGACGGCCCGCGCATCTACGTTGCGGTGGACGGCGTGGAACGCCTGGATGCCCTGGACCAGCGGTATCAAAGCGGGCATCTGGGCCTGCTTGCCTACAACGGCAAGGTCCAGTTCGGGCAGCCCTCAGCCCGCTCTGTGGAGGCGAACGTCACCGGCTGGACCAGCTCCGGCGCCGGCTGGCAGGCGTCCGCCACCGGCTTGCGTGGCTCGGCAGGGGCCGGCGCCAACCTCCGGACCGTTGCCACCGGACAGACCCCGCAGGTCACCGATTTCACCGCGGACATCCAGATCCGTTCCGCGCACGCCGTTGGAGCGTTGCTCTTCCGCAGCAACAGCGCCGGCAGCGCAGGTTACGCCGCCGAGGTGGACCCGAACGCCGGCCGGCTGCGGCTCTACCGGATCGGCGACAACGCGACTCTGGGCACCTACAACACACCCATCACGGTGAACGAGGTTTATCGGCTCCGGGTGACGGCCGACGGCGGCAAGCTTGCCGTCCACTGGCAGACCGGCTTCCTTGACCCGAACGGCTACACCCCGGTCATTACCGCCCAGGACGCCTCCCATGGTTCCGGCCACGTCGGACTTCTGTCCTTCAATGGGGAATCGGTCTTCCAGGGGATGACGCTCAAGGGCCTGGAAAGTTCCCTCCAGGGCTGGCGGACCGCAGCCGGCAGTTGGGAACCTGACACCAGGGGCATGCGCGGCGCGGTGGACGGCTTGCCGGCGGGTGGGGAAGCCGCGCGCTTTATCCCGGCGGTGGCATCCGACGTCGTGGTGTCCCTTGACCTGGACGTTGCGGCCCCGGCCACGGCCGCTGTGGTGGTCCGCGGCAATGCTGACGGCAGCGGCGGCACAGAACTGAGGATCGACCCCAGCGCCGGGACCGTTCTCCTGAACGACCGGGCGAGCGGAACTGTCCTTGCCTCCGGCGCAATGCCACCGCACAGCTTTGCCGCCGGCCAGCTGAACCGGGTCCAGCTAACCGTTCAAGGGACACAGGCCACTGCCCTGGTCAACGGCATTCAAGCGCTTAGCGGGACGGCCGGGACTGCTGCAGGCAAGGGCTTCGGGCTGCGCGTTGGCGGCGGCGGAGCCTACTTCCAGAACGTCCGGGCGGACGATGTGGCGGCGTACATGAACGGCCTGTACCAGCCCGGCTACCACTACAGCCAGAACTCGGGCAACAGCTCAGACCCCAACGGGCTGGTGTACTTCGACGGCGAATATCATCTGTTCCACCAGGACCGGGGCCGCTGGGCCCACGCCGTGAGTACCGACCTGCTGCACTGGAAGCAGCTGCCCATCGCCCTGCCGCACCTGGCAGCCGGCGAATCGTGGTCCGGGTCCGCCGTGGTGGACGCCACGGACGCCACCGGACTCTTCGGCGGCGGGCAGGGCCTGGTGGCTTTCTACACCAGCTTTAATCACGATGCACCCAACGGGAACCAGTCGGTGCGCGCCGCCTACAGCGCCGACCATGGCCGTACCTGGCAGGTGGCCCAGGTCCCACCCGTAGTGCAAAATCCCGGAGGGTCCGACGGCGGCTGGGACTTCCGGGATCCGAAGGTCACCTGGGACAGCGCCACCGGTAAATGGATCATGGTGGTGGCCGCCGGGGACCACCTGCGGTTCTACACCTCCACAAACCTGCTGCACTGGACCTTTGCCAGCACCTTCGGTTACGGCAATTGGCTGCGCGGCGGAGTGCTGGAATGTCCGGACTTTTTTGAACTTCCCGTCGAAGGCCAGCCCGGGGTGAAGCGCTGGGTGCTCTGGTGGAGCACCGGAGCAGTGCGGTCGACGAACGGCTCCGCCGCCCAATATGTCACCGGCACCTGGAACGGTACCGCATTCACATCTGATACCGGTCCTGACCAGGTGCTGCAGGCGGATGCCGGCCGGGACTACTACGCCGCGATGAGCTTCTTCGGCGCTCCGGACGGCCGGCGCATCATGCTCGGATGGATGAGCAACTGGGACTATGCCTTCAGCCCTCCCACGGGCCGCTGGAACGGCCAGCTGAGCGTTCCGCGTGAGATCAGCCTGAAGGACGTTCCGGGCGCCGGGCTCCGGCTGGCCCAGGAACCCGTTCCGGAGCTTGCCGGCCTGCGGAGCTCCTCATGGCAGGCCTCGGATGTCCTGGTGACGCCGACGTCGGCCAATCCCCTGACTGGAGCCTCCGGGCGGTCTTTCGAACTGGAGGCCGAGGTGGCCGTTCCATCATCCGGGGGTGCATCGGCCTTTTCCTTCGGACTTCGGAAGGGGATTGCGGGGGGTGTGGTCCAGGAAACCCTGCTCCGCTATGACACCGGCGCGGGAACGCTCACGCTGGACCGCGGCCGGTCCGGCCGGGAGGATTTCACCAGGTATTTTGCCGCTGATCCGGCGGACAACGCCGGCACACGGTGGAGTTCCTCCACTGTTGCGGCGGCAGGCGGCGGCACGGAACGCCGGGTCAGCGTGCGGGTACTGGTGGATTCCTCATCCGTGGAAGTCTTCGGCGGAGACGGAACGGCGGCCATAACATCGCTCATCTTCCCCGGCCCGGACTCCACCGGACTGTCCCTGAACGCTTACGGCGGGAACGTCAGGCTGGTATCCGCCACCGTTCATCAGCTGGCTGACACCGCCCGGCTGACCAGCGCGCCGCCGTCGGCCGTTCTGCCGCCGGCAACGGGCGCAGCACGGCATAACATGGGCGCCTACACAGTGGTGCCCGGTGGCCGGTGGGAAAGCACTGGAGCGGGGCTGGCGGGAACATTCGACAAGGACTCAACGGCATTGAGCGCGGGAACCTACGCCAATGTCAAGGTGGAGGCCACCGTGCGCTTCGGCGGGGAAGCCTATGCCGGGGCCATGCTCAACAGCGATCTGGCGCCCGAGCGCGGGGACGGCGGTGCCGGATCCGTGCTGCTGCGGGCGTCGGATGACGGGTCTACCGCCTACTACGTCAATCTGGATCCAAACCTGCGGTTGGTGCGGATTTTCAAGCTTGAGAACGGCTCCTTCAATCCCGCTACCAGCATCCTGGCCAGCGTCCCGGTGCTGCTCACCCACGGCGTGAGCTACCGGCTCGAGGCCCAGGCCGACGGCGGCAGGCTTACGGTGAACCTGGACGGCGCCCGGCTGATCGACGTGGTGGATTCCAGCCTGGCATCGGGCAGGGTGGGACTGAATGTCTTCGACGGACGGGCGGCCTACCAGGACGTGAGCATCACGGCCCTGTCCTGA	MPKRLVAGIAAAALGLGTLTAGAVLAPAILAGPAQASGQAPVTANSTSSPIPDAVALPDSGTWTRTADAGYTAVVPAGQNGTAISEQRISGTARYTAGVSVDPGTPYGVGTLLFRAAADGSGGYAVAIDPNLDRVRLFDLATGEDVVPSAAVPLDTGRTYSVDVHVDGPRIYVAVDGVERLDALDQRYQSGHLGLLAYNGKVQFGQPSARSVEANVTGWTSSGAGWQASATGLRGSAGAGANLRTVATGQTPQVTDFTADIQIRSAHAVGALLFRSNSAGSAGYAAEVDPNAGRLRLYRIGDNATLGTYNTPITVNEVYRLRVTADGGKLAVHWQTGFLDPNGYTPVITAQDASHGSGHVGLLSFNGESVFQGMTLKGLESSLQGWRTAAGSWEPDTRGMRGAVDGLPAGGEAARFIPAVASDVVVSLDLDVAAPATAAVVVRGNADGSGGTELRIDPSAGTVLLNDRASGTVLASGAMPPHSFAAGQLNRVQLTVQGTQATALVNGIQALSGTAGTAAGKGFGLRVGGGGAYFQNVRADDVAAYMNGLYQPGYHYSQNSGNSSDPNGLVYFDGEYHLFHQDRGRWAHAVSTDLLHWKQLPIALPHLAAGESWSGSAVVDATDATGLFGGGQGLVAFYTSFNHDAPNGNQSVRAAYSADHGRTWQVAQVPPVVQNPGGSDGGWDFRDPKVTWDSATGKWIMVVAAGDHLRFYTSTNLLHWTFASTFGYGNWLRGGVLECPDFFELPVEGQPGVKRWVLWWSTGAVRSTNGSAAQYVTGTWNGTAFTSDTGPDQVLQADAGRDYYAAMSFFGAPDGRRIMLGWMSNWDYAFSPPTGRWNGQLSVPREISLKDVPGAGLRLAQEPVPELAGLRSSSWQASDVLVTPTSANPLTGASGRSFELEAEVAVPSSGGASAFSFGLRKGIAGGVVQETLLRYDTGAGTLTLDRGRSGREDFTRYFAADPADNAGTRWSSSTVAAAGGGTERRVSVRVLVDSSSVEVFGGDGTAAITSLIFPGPDSTGLSLNAYGGNVRLVSATVHQLADTARLTSAPPSAVLPPATGAARHNMGAYTVVPGGRWESTGAGLAGTFDKDSTALSAGTYANVKVEATVRFGGEAYAGAMLNSDLAPERGDGGAGSVLLRASDDGSTAYYVNLDPNLRLVRIFKLENGSFNPATSILASVPVLLTHGVSYRLEAQADGGRLTVNLDGARLIDVVDSSLASGRVGLNVFDGRAAYQDVSITALS	PGPT0019220_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LEVAN_METABOLISM	CE-EPS-LEVANBIOSE_BIOSYNTHESIS,PGPT0019220-sacC|levB-K01212	NA	NA
D1-29_00613	1254	ybjJ_1		Inner membrane protein YbjJ	ATGGGTCCATCATCTCCCTTCAACGTTGATCGGCGCATGCAACGCCGGCGGCCTCCGCCGTTCTGGACCCTGTTACTCCTTTTCGGAGGTAACGGGTTGCAGGCTGGGTGCTACACCTTGCTGGTAGCGGACCTCGCCCAAGCGCTGCGGCTGTCTCCCGGGCCCCTGGGGCTCGCGCTGGCGGCCTTGTCTGCTGGTGGCATGATCGGCGTGCTGGTCCTCGGCCGTCTCATGGACACCTGGGGCCGGCGCAAGGTCCTGGTGCTGGGATGCGCAGGCGGCGGAATGTTCTTCATTGCCCTGGGCCAGGTGAACACCCTGCCGATGCTGATGGTTCTGATGTCGCTGGGAGGGGCCCTGTTGTCAGGGTTCGACTTGTCGCCCACCACCCTCGGTGGCGACTACGAGCGTGAACATGGAACAGCAGCGATGAACCCATTCTTTGCTGCCCAGGATCTCGGTGGTGCAATAGGAGCCGCGGTCTGCGGCCTGTCCCTTGGCCTGGGAGTCAGCTACTCCGTCCTCTATGCTGCGCTGGGATCACTTCTCGTCATTCTTGGACTGGCGTCGTTCTTCCTGCCACTGCCCAATCCGCCAACGGCGCTTGCCACGGCAGCTTCCCACGCTGTGGCCGCGGCACCCATGGAGCCAGGACGGCGGACCCGTGTGGAGTCCGCCAATGTCTTAGTGAATCGCGGAGTGCTTTCGGCTCTGGCGTTCGTCGCACTTATCTCTGTCATCGACGCCGCCATGGAGGGCTTTTCAAGTCTGTACTTGCGGGACACCCTCGGGGCAGGACCCGCTTTGGCAGGGCTGGCCATCGCGGCCTCCCTGGTTGCCAGCGGTGCCGGACGCCTGGGCGGGCACAAACTACTGCAGCGCCTGAGTGAACGAAAGGTAATGCTGATTGCTGCGGGAGCCACAGCACTGTCAATCGCCGTGATGATCAGCAGCAGTTTCGCCGTTGTGGCTGGAATCGGTCTGCTGCTTCTGCGTTTTAGCCAAGGACCAATTGTGCCAGTCGCTCATTCATTAGCTGCCCGTTCCACACATCACCGGGCCGGTCAGGCCTCCTCGCTTGTGTGGGTGGCGCTCTACGCAGCCTTCCTCAGCGGCCCGCTCCTCGTTGGGGTTATTGCCGAAGCCGGAGGCCTCCGGCTCGCGCTCGGGTGCTTCATCAGCGCGGCCGTCCTTATCGGGATACTGGCAACAACCCTGGCTAAACCCGTCCTGCGCGACGGGCCCACAAAGTAG	MGPSSPFNVDRRMQRRRPPPFWTLLLLFGGNGLQAGCYTLLVADLAQALRLSPGPLGLALAALSAGGMIGVLVLGRLMDTWGRRKVLVLGCAGGGMFFIALGQVNTLPMLMVLMSLGGALLSGFDLSPTTLGGDYEREHGTAAMNPFFAAQDLGGAIGAAVCGLSLGLGVSYSVLYAALGSLLVILGLASFFLPLPNPPTALATAASHAVAAAPMEPGRRTRVESANVLVNRGVLSALAFVALISVIDAAMEGFSSLYLRDTLGAGPALAGLAIAASLVASGAGRLGGHKLLQRLSERKVMLIAAGATALSIAVMISSSFAVVAGIGLLLLRFSQGPIVPVAHSLAARSTHHRAGQASSLVWVALYAAFLSGPLLVGVIAEAGGLRLALGCFISAAVLIGILATTLAKPVLRDGPTK				NA	NA	NA	NA	NA
D1-29_00614	414			hypothetical protein	GTGTTAGGCAGTCACACTGAAGTAACCGCAGTGCCGGCACCATGCGGAGGCGAAAACCATCCGGACTGCGGCATCCGTGACGTCCTGGACCGGATCGGTGACAAATGGTCCGTGCTGGTCATCGTGGAACTGGCGTCCGGCACCAGGCGCTTCCGGGAACTGCAGCGAACGATCCATGGGATCTCACAGCGCATGCTGACGCTCACGGTCAGGCGTCTGGAACGTGATGGCCTGGTCACCCGAACGGTCTACCCAACCGTCCCTGCCCAAGTCACCTACGAGCTCACCGAACGCGGACGCGGCCTCGTTCAGCTGGTCAAACAGCTCGCCGACTGGTCCTTGGACAACAAAGAAGCAATAGGCGCGTCACGCGAGCTGTATGACCTCCAGAACCCAGGGACAGAAATCCGCTAG	MLGSHTEVTAVPAPCGGENHPDCGIRDVLDRIGDKWSVLVIVELASGTRRFRELQRTIHGISQRMLTLTVRRLERDGLVTRTVYPTVPAQVTYELTERGRGLVQLVKQLADWSLDNKEAIGASRELYDLQNPGTEIR				NA	NA	NA	NA	NA
D1-29_00615	801	qorB_2	COG0702	Quinone oxidoreductase 2	ATGATTCTTGTTACCGGGGCTTCCGGCAGCCTCGCCTCTGCCATCCTCCGTCACCTTTCCAAGGCAGGCGTTTCTGCATCCGGGGCCACCCGCAATCCGGCTCAGCGTCCACACCTTAGGGTGGTCGACTTCGACTCACCCGAAAAACTTTCCTTCACTGGCGTGGACACTCTCGTCCTGGTTTCTGCCGGAGCGGAAGAAGACGACGTGGTCATCGGCCGCCACGGGAATGCCATCACAGCGGCAGAGCGTGACGGGGTGAAGCACATCGTGTACACGAGCCTCGCCGCCGCCGGCGACCATCTGGGATTCGCCCTGGCCCACCGCTGGACGGAACGGCGCCTGCAGAACGGAACCGTTCGGTGGACGATTTTGCGGAACGGCTTGTACGCAGAGCTGGTCGGCCAGCTCCTGGCTCCGCGGGAGGGAGTCATCTCGGCTCCGTTTGGCCAAGGCGGCGTCGCCGCGGTGGCCCGTAACGATCTCGCAGAAGCTGCGGCTAAAATTGCCGCTAACCCGGAAAAGCATCACGACAGGATCTACGACCTTGTCGGAAATGAAGTCATCACCGCGCAGAAAGTCGCTGACAGGCTGGGTGCAGCCTACCGGCCGGGCACACTTGGCGAACTGAGGAAGGCCTTGGATTCTTCATCCCTTCTGCCATTCCAGCTTCCGATGCTGCTGTCCATCCATTCAGCTGCATCCCATGGATTCCTTGAAGAGACCGGCACTGACATCTCCGACATCCTTGGACGGGAGCTGGCGAATCCCCTGGATGTTGCCTCAGCCGCGGCCGGCTGA	MILVTGASGSLASAILRHLSKAGVSASGATRNPAQRPHLRVVDFDSPEKLSFTGVDTLVLVSAGAEEDDVVIGRHGNAITAAERDGVKHIVYTSLAAAGDHLGFALAHRWTERRLQNGTVRWTILRNGLYAELVGQLLAPREGVISAPFGQGGVAAVARNDLAEAAAKIAANPEKHHDRIYDLVGNEVITAQKVADRLGAAYRPGTLGELRKALDSSSLLPFQLPMLLSIHSAASHGFLEETGTDISDILGRELANPLDVASAAAG	PGPT0009465_2116	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009465-qorB-K19267	NA	NA
D1-29_00616	516			hypothetical protein	GTGGTGGCGGCAGCCCTCGAACTTTTCTCCGAGCGGGGCGTCAGCGGGACCTCCCTGCAGATGATTGCCGATCGCCTGGGAATTGGGAAAGCCGCCGTCTATTACCAGTTCAGGACCAAGGACGGCATCATCGAAGCGGTCCTCGCGCCCGCCTTCGAACAGATGCGCCGCATCATCGCCGACGCCGAAGCTTCGCAGTCACCTGAGGAGGCGGCCATCGTGGGAATCTCCGGCCTCGTGATCGCTCAACGGGAAGTGGTGGCGGCACTCAGCCATGATCCGGAAGTCCGCCGCTTCCTCGAGACACACAGCGAGGCAGCCGAACTCATTTTGCAGTTAGGCAGGATGCTCTTGGGGCCGGAACCAGACGCCCGCCGCAGGGTGGCTGTTTCCCTGTTTGGCGGAGGAATTGCCAGCGTCGGCATTGATCCCGCCCTGACCGATATAGACGATGAAGCTCTCCGCAGCGAACTCATATCCCTTGGACAGCTTCTTCTGACAACAGAACGCTGCTGA	MVAAALELFSERGVSGTSLQMIADRLGIGKAAVYYQFRTKDGIIEAVLAPAFEQMRRIIADAEASQSPEEAAIVGISGLVIAQREVVAALSHDPEVRRFLETHSEAAELILQLGRMLLGPEPDARRRVAVSLFGGGIASVGIDPALTDIDDEALRSELISLGQLLLTTERC				NA	NA	NA	NA	NA
D1-29_00617	2250	ydfJ_1	COG2409	Membrane protein YdfJ	ATGGCCGCTTTTCTATACCGTTTTGGGCGCCGTATGTTCCGGCGCCGGCGTCTGGTCCTCATCCTGTGGGCCATCGTTCTTGCCGGGCTGGGGGTCGGCGCCACAACGTTGTCCGGCCCTGTATCCAATTCGGTATCGATTCCGGGTACGGAATCGCAGCGGGCGCTGGACTTGCTTACGTCGCGGACGGGGGCCAACGCAGATTCGGCTACAGCGAGGGTGGTATTTGTCGCCGCTGATGGCCAGACCCTGGCAACACCGTCAGCGCAGGAGGCAATCCAGACTGCGGTGAAGAACATCTCAGAGCTTCCACATGTCAGGGCCGTGGGAGATCCTTTCGTTTCACGCGCGGTTTCACCTGATGAGCGCACTGCATTCGCCACGGTCAGCTATGCGGTGAAGGCCTCCGACCTGGGAACGGCAGAGCGTGAAGCGCTGTTCGAAGCAGGTCGCAGCGCCCAGTCAGCGGGCCTGACTGTTGAGTTCGGTGGCGATGCTGTCACGGCATCCCCGGAGCAGAGCGCCACTGAGGGAATTGGCGTGATCGTGGCAGCCCTGGTTCTCCTGATCACCTTTGGAGCGCTCGTTGCGGCCGGACTGCCGCTGCTGACTGCGATTATCAGCGTTGGTGCCGGGATGCTCGGCATCCAGATCGCCAGCGGCTTCTTCGAGCTCGGTTCCAATACCGCGTCCCTGGCCCTCATGCTCGGCCTGGCGGTGGGAATTGATTACGCCCTGTTCATCGTCTCGCGGTACCGGCATGAGCTGATCGAAGGTCATTCCCCGGAAGAGGCGGCGGGCCGGGCGGTTGGTACGGCCGGATCGGCGGTTGTGTTCGCAGGGCTGACCGTCATTATCGCCCTCGCGGCGCTGTCTGTGGTGGGCATCCCGTTCCTGATGCAGATGGGCCTGGCCGCCGCTGTTACTGTCCTGGGCGCAGTTGTTATTGCCGTCACCCTGCTTCCGGCCCTGCTTGGCTTCGCCGGAGAAAGTGTCCTTGGTCGGAAGGGCCGCGCGGCCCGGGCAACCGGAGGAACCGAAATGCCGGAGAGCCTGCGGCTCCGGGCGCCCTTGGGGGAGCGGTGGGCCCGCGGCGTGCTCCGCCACCGCGTCCTTGCGGTGCTGGGTGTCATCATCACGCTCGGCGTCGTGGCAATACCTGCACTGGACATGCGCCTTGGGCTGCCTTCCGACGCGACAGCCTCTGCCCGGACCACAGAGCACAAGGCCTACCAGGCACTGGCTGACGGTTTCGGGGCCGGCTTCAACGGCCCTCTGGTGATCGTTGCCGACCTCGCCAATGCCGGGGCGCCCCAGCAGGCGGCACAGACCATCGGCGCGGACCTGGCCAAGATCGCCGGTGTCGCCGTCGTAACGCCGGCTGAGTTCGGACAGGGCGGCGACATCGCAGTGATCACCGTTATTCCGAAGAGCGGGCCAACCAGCGTCCAGACGGAGGACCTTGTCCATGAGATCCGTGCAAATGCCGACGACTGGAGGTCCCAGACCGGCGCGCAGGTCTACGTGACCGGAACCACCGCTGCAGGCATCGACGTCTCGCAGAAACTCTCCGATGCCCTCGTTCCTTATCTTGTTGTCATTGTCGGGCTCGCATTCATTTTGCTGATGCTCGTCTTCCGCAGCATTCTCATCCCGCTCAAGGCCGTCGGCGGCTTCCTTCTCAGCGTTATGGCAGCTTTCGGCGCCGTGGTGGCGGTATTCCAGAATGGGTTCGCCGCGGATCTCCTCGGCATCGACAACCCCGGACCCATCATCAGCTTCCTACCCATTCTCCTGGTGGGCATCCTGTTCGGCCTCGCAATGGACTATGAAGTATTTCTCGTGACCCGGATGCGCGAGGAGCGCGTCCACGGCGCCACCGCCGACGAATCGATCGCTCTCGGATTCCGACACGGGGCGCGCGTAGTCACGGCCGCCGCCCTGATCATGGTTGGCGTGTTCGCCGGGTTCATCACGGCTACCGAGCCCGTGGTCAAGTCCATCGGCTTCGCCCTTGCCATCGGGGTATTCGCCGACGCGTTCCTGGTACGGATGACCCTCGTTCCTGCCCTGATGTCCCTGCTCGGCAATAGGGCGTACTGGCTGCCCCGGTGGTTTGAGCGTGTCCTGCCCGACCTTGATGTGGAAGGCAGCAACCTCACCAAATCCCTTGACACGGCGCCCGCGACATCAGCACCTGCCAGCCAAAACGACGGGAACGACCGGAAGCCCGCGGCATTGCGGCACTGA	MAAFLYRFGRRMFRRRRLVLILWAIVLAGLGVGATTLSGPVSNSVSIPGTESQRALDLLTSRTGANADSATARVVFVAADGQTLATPSAQEAIQTAVKNISELPHVRAVGDPFVSRAVSPDERTAFATVSYAVKASDLGTAEREALFEAGRSAQSAGLTVEFGGDAVTASPEQSATEGIGVIVAALVLLITFGALVAAGLPLLTAIISVGAGMLGIQIASGFFELGSNTASLALMLGLAVGIDYALFIVSRYRHELIEGHSPEEAAGRAVGTAGSAVVFAGLTVIIALAALSVVGIPFLMQMGLAAAVTVLGAVVIAVTLLPALLGFAGESVLGRKGRAARATGGTEMPESLRLRAPLGERWARGVLRHRVLAVLGVIITLGVVAIPALDMRLGLPSDATASARTTEHKAYQALADGFGAGFNGPLVIVADLANAGAPQQAAQTIGADLAKIAGVAVVTPAEFGQGGDIAVITVIPKSGPTSVQTEDLVHEIRANADDWRSQTGAQVYVTGTTAAGIDVSQKLSDALVPYLVVIVGLAFILLMLVFRSILIPLKAVGGFLLSVMAAFGAVVAVFQNGFAADLLGIDNPGPIISFLPILLVGILFGLAMDYEVFLVTRMREERVHGATADESIALGFRHGARVVTAAALIMVGVFAGFITATEPVVKSIGFALAIGVFADAFLVRMTLVPALMSLLGNRAYWLPRWFERVLPDLDVEGSNLTKSLDTAPATSAPASQNDGNDRKPAALRH	PGPT0028595_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TOXINES_NEUTRALIZATION_YDF_SYSTEM,PGPT0028595-ydfJ-K11625	NA	NA
D1-29_00618	354			hypothetical protein	ATGGTGGGCGCCCCACCCGTCACCTACATCTCGGCAGCAGTTGATAACCGGAAAGGAACCAAGGCCATCAACATGTATTCGCTGAGAATTTACACTCCTGAAGGCAGGGAATTGAAGTATGCAGGAGCCAGCCCCTACGTCGATGATCTGCGCCGCAGGCTCCCCCCGGATACGCCGTCCGAAGTGTTTAACAAGTTCATTGAGCTCTCGGATGCCTACCTCGATGATGCCTCGCCCCTGGAGGTCAAGAACTTTGTCCTGGTTGGTCCCGAGGTACCGGCCCAAATCACCGGAATCACGGTCTATCCGACTGGCGGATTCCCACCGGTAAGCGCTGAACCTGGCCCCCAGTGA	MVGAPPVTYISAAVDNRKGTKAINMYSLRIYTPEGRELKYAGASPYVDDLRRRLPPDTPSEVFNKFIELSDAYLDDASPLEVKNFVLVGPEVPAQITGITVYPTGGFPPVSAEPGPQ				NA	NA	NA	NA	NA
D1-29_00619	1596	lsdA_1		Levansucrase	ATGCACAAGCACCCCAATTCACCCCGGATGCTGCGGTGGCGTTCTGCCGCCGCAGCACTGGCGGCAGCCGTAGCCGCATCGGCTTTCCTGGCCGTTCCGTCGGCGCAGGCCAACGAACCGTCCGATCCGCCGGCCGCACAGCAGATGCCGGCCCCCACCCCCGGCTTCCCGCTCCCTACGACGCACACGCAGCAGGCCCATGACCCGGCGTCGGACTTCACCGCAAAGTGGACCCGCGCCGACGCCAAGCAGATCATGGCCCAAAGCGATTCCACTGTGACTCCCGGCGAGAACTCCATGAGCCCGGACGTCACCATGCCGGAAATCCCCGAGGATTTCCCCACCATGAATGAGGATGTCTGGGTCTGGGACACCTGGTCCCTGACGGACGAGCACGCCAACCAGATCAGCTACAAGGGCTGGGACGTCATCTTCGCGCTCGTGGCGGACCGGCACGCCGGCTACGGCTTTGACCAGCGCCACTGGAACGCCCGGATCGGCTACTTCTTCCGCAAGACCAATGCGGACCCCGCCACTGACAAGTGGAACTACGGCGGCCACATGTTCGCCGACGGTGCCTCCATCGGAAACACCGAATGGTCAGGGTCCACCCGGCTGATGCAGGGTGACCAGGTCAACGTCTTCTACACCGCCACCACCTTCTACGATGTGGCCGAGCGCAACGCAGGCGGCGGCGGAATCGCCCCGGATGCGGCCATCGCCAAGGCGCTGGGCAGCATTCACGCCGACAAGAACGGCGTCACCTTCGACGGCTTCGAGCACACCAAGCTGCTGGAACCCGAGGGCAAGATGTACCAGACAAAGGAACAGAATCCGGGCTTTGCCTTCCGTGATCCCTACACGTTCGCGGACCCGGCGCACCCCGGCAAGACCTTTATGGTCTTCGAAGGAAACACCGGCGGCACCCGCGGCGAGTACCGCTGCGAGCAGGAGGACCTGGGTTACCAGCCGGGCGATCCGAACGCTGAAAGCCTGGAGCAGGTCAACAACACCGGCGCCTGGTTCCAGACTGCCAACGTGGGCCTCGCTGTGGCTGAGAACAAGGACCTGACCAAGTGGTCCTTCCTGCCTCCCATCCTGTCGGCCAACTGCGTCAATGACCAGACCGAGCGGCCCCAGATCTTCATCCAGAACGAAGATGGCAAGAACAAGTACTACCTCTTCACCATCAGCCACCAGTTCACCTATGCTGCCGGAATGCGCGGCCCCGACGGCGTCTACGGCTTTGTGGGCGACGGCATCCGCTCCGACTACCAGCCGATGAACAACAGCGGCCTTGCCCTGGGCTCCCCGACGGACCTGAACCTGCCGTCCGAATCACCGGAAAAGCCGACCGCCAACCAGAACGGCCGCCAGTTCCAGGCCTACTCGCACTACGTGCAGCCCGGCGGCCTGGTGCAGTCCTTCATCGACAACGTGAACGGCGTCCGCGGCGGATCCCTGTCACCCACCGTGAAGATCAACTTCCGCGACGGAATCTCGCAGGTTGACCGCACGTTCGGCCAGAACGGCCTCGGCCCGTTCGGCTACCTGCCCACCAATGTCAACGTAGGCGGTGCCGGCCACTACAAGTGA	MHKHPNSPRMLRWRSAAAALAAAVAASAFLAVPSAQANEPSDPPAAQQMPAPTPGFPLPTTHTQQAHDPASDFTAKWTRADAKQIMAQSDSTVTPGENSMSPDVTMPEIPEDFPTMNEDVWVWDTWSLTDEHANQISYKGWDVIFALVADRHAGYGFDQRHWNARIGYFFRKTNADPATDKWNYGGHMFADGASIGNTEWSGSTRLMQGDQVNVFYTATTFYDVAERNAGGGGIAPDAAIAKALGSIHADKNGVTFDGFEHTKLLEPEGKMYQTKEQNPGFAFRDPYTFADPAHPGKTFMVFEGNTGGTRGEYRCEQEDLGYQPGDPNAESLEQVNNTGAWFQTANVGLAVAENKDLTKWSFLPPILSANCVNDQTERPQIFIQNEDGKNKYYLFTISHQFTYAAGMRGPDGVYGFVGDGIRSDYQPMNNSGLALGSPTDLNLPSESPEKPTANQNGRQFQAYSHYVQPGGLVQSFIDNVNGVRGGSLSPTVKINFRDGISQVDRTFGQNGLGPFGYLPTNVNVGGAGHYK	PGPT0013775_27	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LEVAN_METABOLISM	CE-EPS-LEVAN_BIOSYNTHESIS,PGPT0013775-sacB-K00692	NA	NA
D1-29_00620	489			hypothetical protein	ATGGAATACCAGAACCCACAACCCGATGCGGGTGTCCGTAACCACGTCGCCGCAAGTCCGACGCAGGCGCCGGTTCCGGGCCACGGCCGCACCGTCATCTCTGAAACTGCCGTTGCCAAGGTCGCCGGCATTGCCGCCCGCGCCGTACCCGGCGTCTACTCGTTGGGTTCCGGGTCCTCCCGTGCGCTCGGCGCCATCCGGGACGCCGTTGGCAGCTCGGACCATGCTGCAGGCGTGCACGCAGAGGTGGGCGAGACCCAGGTGGCAGTGGACATCAACCTGGTTGCCACCTATGGCACGCCCCTGCATTCGCTGGCAGATCAAGTCAGGTCTGCCGTTTACCGGGCCGTCGAAGAGCTGGTGGGACTTCAGGTCATTGAGGTAAATGTTGAAATCACGGACGTGTATGTGGCGCCGCCGGTGAAATCCCCGGCTGGGACCGGAACGGCCGGGGCAGTGGGCACCACCGAAAGAGAGGCACTCCTGTGA	MEYQNPQPDAGVRNHVAASPTQAPVPGHGRTVISETAVAKVAGIAARAVPGVYSLGSGSSRALGAIRDAVGSSDHAAGVHAEVGETQVAVDINLVATYGTPLHSLADQVRSAVYRAVEELVGLQVIEVNVEITDVYVAPPVKSPAGTGTAGAVGTTEREALL				NA	NA	NA	NA	NA
D1-29_00621	192			hypothetical protein	GTGAACCTGACCGTCGTGGGAATCGCCATTGGCGCCTTCGTAGCCTTTATGTCTTTTGCTTTCGGACTGTGGGGCTTTCTGGTTTCGCTGCTCTTTATGGCTATTGGTGCCCTGCTGGGCCGCGCCGCCGAAGGGAAACTGGATCTTCGCGGCGTCCTGGATGCCATCACCGGCCGGCGCTCCTCGTCATGA	MNLTVVGIAIGAFVAFMSFAFGLWGFLVSLLFMAIGALLGRAAEGKLDLRGVLDAITGRRSSS				NA	NA	NA	NA	NA
D1-29_00622	381			hypothetical protein	ATGAGCTCGCCGGCACCGGCCTTACCCGGGCAGGTATTGAACGGCCATAACCGCATCAGCACTCAAGCCCTGACCAGCCTTGCCAAGGCAGCGGCCGCCGATGCGCTGGGCGTGGACGCCGAGGATATCCGGGCAGACTGGTCCGACGACGACGGCCTGCTTGCGCTGTCTCTCGTCGCACCTATCAAGATCCCGCCGCTCAAGGCAGTGGCACGGGACCCCGGCCGTGTGGCCGCCTTCGGAGGAACCATCAGGGACCGGGCAGTCACGGCCAAGGCTCAGATCCTGGCGACTGTCGCCGCCCTCAGTGGTGCCAGCCTGAGCAGGGTGGACATTCGGATCAGCGGTGCCCGGATCAGTGAAGGAGGCCGCGTCCAGTGA	MSSPAPALPGQVLNGHNRISTQALTSLAKAAAADALGVDAEDIRADWSDDDGLLALSLVAPIKIPPLKAVARDPGRVAAFGGTIRDRAVTAKAQILATVAALSGASLSRVDIRISGARISEGGRVQ				NA	NA	NA	NA	NA
D1-29_00623	675			hypothetical protein	GTGAGGCAGGGGCAGGATGACCTGGTGTCAGTGAATTTGAGGCCACGTCGGCAGGACCGGGAGAACCCGGGCGCCGACCAACCGGGGCCGGACATGCGACGTATCCTGCACCGCGAGACCCATTCATCCCGTGCGGCAGTTGCCACGCTGGCTGCCGTCTTGGTGATGGTGCTGGCCGCCTACGGCCTTCTCGAAGCTGCGGTGCACGCCATTGGGCAGCCGGCGTGGCTGATCGAACCCCAGTTGGCTGCGGAGCGCATCGTGGCGCTGCCGGCCGGACTGCCGCCCTTGCTGCTCGGCGTCCTGGGAGCTGTCCTGGCGATGGTGGGGCTGTTCTTCTTCCTCAACGCTGTTCTTCCCGGCAGGCGTGCCAGGCATGTGCTGAACGGCACCGGCCCGGATCCGGAAAACGCACCGGCAGTGGTGGTGGATGACGAGGTCATTGCTTCGGCGCTGGCCCGCAGCGCCAGGCTCGCTGCGAACGTTACGCCGGAGCAGGTCATGGTGGTGGTCTCCCGGCGCCAGGTCATCGTGAATGTCCGCCCCACGTCAGGGGTGCCGGTGGATGGAACCGCTGTCCTTGCCGCAGTTCAGGAAGAACTTGGCCAAATGGCCCTGGTTCCGTCGCCTGAGGTGCAGGTCAATGTCGCCACATCGGGGGTGATTGGCGCATGA	MRQGQDDLVSVNLRPRRQDRENPGADQPGPDMRRILHRETHSSRAAVATLAAVLVMVLAAYGLLEAAVHAIGQPAWLIEPQLAAERIVALPAGLPPLLLGVLGAVLAMVGLFFFLNAVLPGRRARHVLNGTGPDPENAPAVVVDDEVIASALARSARLAANVTPEQVMVVVSRRQVIVNVRPTSGVPVDGTAVLAAVQEELGQMALVPSPEVQVNVATSGVIGA				NA	NA	NA	NA	NA
D1-29_00624	612			hypothetical protein	ATGAACAGTACACCCGCGCTGCTCAACCGGATCCTGATAGGCATCCTGGGTGTTAAGTTGCTGGCTGTTGGCCTGCTGCTGATTCTGCTGGCTACGGTGCCGGCCGTCGCAACGTGGTGGCATTCGTGGTCCGGCTCAGCCTGGAACGGAATCAGGCAGGCATTCGATAGCACCCGGTTCCCTGGCAGGCCCGAAAGCTGGTTATGGATCCTGGTCGCGTTTGCCCTGTTGGTGCTGATTGGGCTCATGGTTGCCTGGATTGCCCAGCAGGGAAAGGGCCGGAGCAACCTGCTGGTCTCCGAATACGACCCCGGTACGGTGCCCGGTGACGTGCGGATTGGTGGAGGTGTGGCCGAGCAGGCCCTGAAACAGGCCCTCGCCGGGCGCGCAGACCTCGCCGGTGCCACAGTCACAACCTACGACGTCCAGGGCAGGCCTGCCCTGAAGGTCAGGCTGCAGCCACGTCAAGGAGTAGCGCCCCACCTCCTGGCAGCCGAAGTGGTTGCCCTCGTGGATGCCCTGGACGCCGTGGTGGGCAAACGAACCCCCGTTCTGATCCACATTGGTGCTGGCGCCCGGACCCGCTTCAGCCGGGCTGAGCGGGTCCGCTGA	MNSTPALLNRILIGILGVKLLAVGLLLILLATVPAVATWWHSWSGSAWNGIRQAFDSTRFPGRPESWLWILVAFALLVLIGLMVAWIAQQGKGRSNLLVSEYDPGTVPGDVRIGGGVAEQALKQALAGRADLAGATVTTYDVQGRPALKVRLQPRQGVAPHLLAAEVVALVDALDAVVGKRTPVLIHIGAGARTRFSRAERVR				NA	NA	NA	NA	NA
D1-29_00625	1872	malL_1	COG0366	Oligo-1,6-glucosidase	ATGGTCCACACAGACGTTCCCGCCCCGGATTCCACGTTAGGATCGTGGTGGGCGAGTGCTGTCGTCTACCAGATCTACCCGCGTTCCTTCGCTGACTCCAACGGTGACGGGATGGGCGATCTGCCCGGAGTTACGGCGCATTTGTCCTATCTTCAGCGCCTGGGCGTCAACGCCATCTGGCTATCACCGTTCTATAAATCCCCACAGGCTGATGCCGGTTATGACGTGGCGGACTACCGCGAGGTGGATCCCTTATTCGGGACTCTTGCTGACTTTGACACCATGTTGCAGAAGGCTCACAGCCTGGGACTGAAAGTCATTGTGGACCTGGTTCCGAACCACACCTCGGACGAACACGTGTGGTTCCAGGAGGCCCTCGCCGCCGGCCCTGGGTCGAGGGAGCGGGACCGGTACATCTTCCGCCCGGGGCGGGACAGGGTTCCCGGGTCCGGCGATGGAAACGCCGCACCAAACAACTGGAGGTCCATCTTTGGCGGCCCTGCCTGGAGCCGGGTCACCGAGGCCGACGGCAGCCCGGGAGAGTGGTACCTCCACCTGTTTGACACCAAACAGCCGGACCTGAACTGGAACAATCCCGAGGTCCGGGAGGAGATGCGCTCGGTCATGCGTTTCTGGCTTGACCGCGGCGTGGACGGTTTCCGGGTGGACGTGGCGCACGGAATGGTTAAGGCGGAGGGCCTTCCGGACTGGGATGGGGTGGCGGCCATGGTGGAGGGTACCTCCCCGGCTGTCCCGGAACCCCGCACCACAACAGGTGATGCGCCCGGGGCCCACACCGACGCCGAGGAACCACACCGGGCGAGATCGCCGCTCTACCCGCCGTCGCCGTTCTTTGACCAGGACGGGGTCCACGACATCTACCGTGACTGGAACCGGCTGCTCGCAACCTACAGCGGAGACCGGATGCTCGTGGCCGAAGCCTGGGTGGAGCCGGCGGAACGACTGGCCCGCTACATCCGCAAGGACGAAATGCAGCAGGCGTTCAACTTCGATTTCCTCCTGGCCGGCTGGAATGCCCAGCGCATGGCCAATGCCATCGACGCGTCGCTGAAGGCGGCCGCTTCCGTGGAGGCACCCTCAACCTGGGTCCTGAGCAACCACGACACCGTCCGTCATGCCACCCGCTTCGGCCTGAAGGACCCCACCATTTTCCCTAACGGCATTGCGGCCGGGGACGAGCAGCCGGACGCTGCCCTTGGCCTGGCACGCGCCCGCGCCGCCACTTTGGTGATGTTCGCCCTGCCCGGCTCCGCCTACATCTATCAGGGCGAGGAACTTGGCCTTCCCGAGCACTCCACCCTTCCGGACGAGGCCCGCCAGGATCCCACCTTCTTCCGTACAAGAGGCGTGGAAACCGGCAGGGACGGCTGCCGGGTCCCGCTTCCGTGGAAAGCGAACGAGCCCGGTCACGGCTTCTCCGAGGCGTTCACCGGCGCTGTAAGGCACGACGCCGGCACTCCAGACGACGGCGGCGCCGCCCCCAGCGGCAGCGGTCCGGACCGCCCGGCGGCCCCATGGCTCCCGCAGCCTGACTCTTTCGGTGAGCTGGCCGCCGACAGGCAGGACGGAGTGCCCGGGTCTACCCTGGAGCTCTACCGTTCAGCGCTGGCACTGCGCGCCGACCGTCGCCTGGGGGCCGGAAGTTTCCGCTGGGCGGACATCCACCGGCCAGCGGAGGGCGTGTTGGCGTTCCATAACGGCGACCTCCTCGTGGTTTGCAACCTGGGTGAAGGGCCGGTCCCTGTTCCCGCCGGCTACTCACCCGCACTGTCCAGCGGCCCGGCTTCGCAGGTTGCCGCAGGCCTCACCAAGGTGCAGCCAGACTGCACGGTATACCTGCTGGTGGACTGA	MVHTDVPAPDSTLGSWWASAVVYQIYPRSFADSNGDGMGDLPGVTAHLSYLQRLGVNAIWLSPFYKSPQADAGYDVADYREVDPLFGTLADFDTMLQKAHSLGLKVIVDLVPNHTSDEHVWFQEALAAGPGSRERDRYIFRPGRDRVPGSGDGNAAPNNWRSIFGGPAWSRVTEADGSPGEWYLHLFDTKQPDLNWNNPEVREEMRSVMRFWLDRGVDGFRVDVAHGMVKAEGLPDWDGVAAMVEGTSPAVPEPRTTTGDAPGAHTDAEEPHRARSPLYPPSPFFDQDGVHDIYRDWNRLLATYSGDRMLVAEAWVEPAERLARYIRKDEMQQAFNFDFLLAGWNAQRMANAIDASLKAAASVEAPSTWVLSNHDTVRHATRFGLKDPTIFPNGIAAGDEQPDAALGLARARAATLVMFALPGSAYIYQGEELGLPEHSTLPDEARQDPTFFRTRGVETGRDGCRVPLPWKANEPGHGFSEAFTGAVRHDAGTPDDGGAAPSGSGPDRPAAPWLPQPDSFGELAADRQDGVPGSTLELYRSALALRADRRLGAGSFRWADIHRPAEGVLAFHNGDLLVVCNLGEGPVPVPAGYSPALSSGPASQVAAGLTKVQPDCTVYLLVD	PGPT0018560_2480	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
D1-29_00626	1284			hypothetical protein	ATGAAAACCCGTAAATTCTTACTCCCGGCGGCAACTGCCGGCATTCTGGCCCTCACGCTCTCCGCCTGTGCCGGTGGCGGCGGCGGGGGCACTACAGGCGGCGGCGATGCCGAAGCCAACCTCGAGGGCCGCGGCCCCATCACGTACGTCCAGGGCAAGGACAACAGCAACGTGGTCCGTCCCCTCCTGGAAAAATGGAACGCTGCCCACCCCGATGAGCAGGTCACCTTCAAGGAGCAGACCGACCAGGCTGACCAGCAGCACGATGACCTGGTCCAGAACTTCCAGGCCAAGAACGAAAACTATGACGTCGCCAGTGTTGACGTGATCTGGACTGCCGAATTCGCAGCCCGCGGCTGGCTGCAGCCTCTCGAAGGCGACATGGCAATTGATACCGAAGGCATGCTCGAACCCACTATCAAGGCCGGCACGTATCAGGGAAAGCTCTACACCGCTCCTGTTTCCTCGGACGGAGGCATCCTCTACTACCGTAAGGACCTGGTCCCGACGCCGCCCAAGACGTGGGACGAAATGATGGAAATGTGTTCCGTCGCCAAGGCCAACAACATCGGCTGCTACTCGGGACAGTTCAAGCAGTATGAGGGCTTGACGGTCAACGCCTCCGAAGCAATTAACTCAGCCGGCGGCTCGGTTCTGGATGACCAGGGCAAGCCGAGCCTGACCACCTCTGATGCCGAGCAAGGCCTTCAAAACCTGGTTGACGCCTTTGCCAACGGGAACATTCCTGCAGAAGCCATCACTTACCAGGAAGAGGAAAGCCGCCGTGCCTTCCAATCCGGCAACCTGCTCTTCCTCCGCAACTGGCCGTACGTCTATAACCTGGCAACCACTGAAGGTTCCTCAGTTGTCAAGGACACGCTGGGTATGACAGCCCTGCCAGGCGAGGACGGCCCCGGTGCATCCTCGCTCGGGGGACACAATGCCGCGATCAGTGTCTACTCCAAGAACAAGGCCACGGCACGGGATTTCGTGAAGTTCCTGATCGAAGAAGAACAGCAGAAGTTCTTCGCCACCCAGGGATCGCTGGCCCCGGTCCTCGGCTCACTGTATGAGGACCAGGAACTGGTGTCCAAGCTGCCGTACCTGCCGGTGCTGAAGACCTCCATTGAGAACGCGGTGCCGCGTCCCGTGACACCCTTCTACCCGGCAGTGTCCCAGGCTATCCAGGAGAACTCCTACGCGGCCCTGAAGGGTGAGAAGTCCGCGAAGCAGGCTCTGGAGGATATGCAGAAGTCCATCGAGTCCGCTGGCGCAGGATCGTAA	MKTRKFLLPAATAGILALTLSACAGGGGGGTTGGGDAEANLEGRGPITYVQGKDNSNVVRPLLEKWNAAHPDEQVTFKEQTDQADQQHDDLVQNFQAKNENYDVASVDVIWTAEFAARGWLQPLEGDMAIDTEGMLEPTIKAGTYQGKLYTAPVSSDGGILYYRKDLVPTPPKTWDEMMEMCSVAKANNIGCYSGQFKQYEGLTVNASEAINSAGGSVLDDQGKPSLTTSDAEQGLQNLVDAFANGNIPAEAITYQEEESRRAFQSGNLLFLRNWPYVYNLATTEGSSVVKDTLGMTALPGEDGPGASSLGGHNAAISVYSKNKATARDFVKFLIEEEQQKFFATQGSLAPVLGSLYEDQELVSKLPYLPVLKTSIENAVPRPVTPFYPAVSQAIQENSYAALKGEKSAKQALEDMQKSIESAGAGS	PGPT0014145_598	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MALTOSE|TREHALOSE_TRANSPORT,PGPT0014145-thuE-K10236	NA	NA
D1-29_00627	1038	sugA_2	COG1175	Trehalose transport system permease protein SugA	ATGGCAACCGAATTGGGCCCGACGCCGGTAAAAGGGCCGGCGTCGGGCGGGACTCCGATCCACCACGCACCTAAGGGTGTTGGGGAAGACAATAAGATTCTGAGCCAGGGCAAGTGGGCTTCCTGGCTCCTGGCCCCCACCATCATCGCGCTGGGAATTGTGATCGTTTATCCGATCGTCAGCGCCATCGTCATGTCCCTCCAGAAGGACGCCGGCCTGGATCCCGCCACCGGGTTGTTCACGGCCGGCGGTCCAGCCGGAATCCAGAACTATGTGAACTGGCTTGGCCAGCAATGTGCCGCCCCAGGCGGCGGCACCGTCGCCTGTCCTCCCGGAACTCTGGGCGGCCAGTTTTGGTCGGCAACAGCAACGACGTTCTTCTTCACCATCGTCACCGTTACGTTTGAAACCATCCTTGGTTTCTGGATGGCAATGATCATGGCCCGGACCTTCAAGGGCCGGAGCATGGTCCGTGCAGCTGTGCTGGTGCCGTGGGCCATCCCCACTGCCGTGACGGCCCAGCTGTGGCTGTTCATCTTCGCGTTCGAGGGCATCGCCAACAAGCTGTTCAACGCGTCCATCCTCTGGACCGGGAGTGAGTGGCCGGCCAAGTGGGCTGTGATCATCGCAGACACGTGGAAGACCACCCCCTTTATGGCCCTGCTGATCCTGGCAGGCCTGCAAATGATCCCTGCGGATGTCTATGAGGCTGCCAAAGTTGACGGCGCCTCGGCCTGGCAGCGGTTCCGCCTGATCACCCTGCCGCTCGTCAAGCCGGCCCTGATGGTGGCCATTCTGTTCCGTACCCTCGATGCCCTACGGATGTTCGATCTTCCCTACATCCTGACGCAGGGGGCCAACAACACCACCACACTCTCGATCCTGGTGATCAATCAGATCAGGCAAGGCTTCAACTCGGCCGCTGCCTTGTCCACGATTACGTTCATCATCATCTTTCTGGTCGCTTTCATCTTCGTCCGCTTTCTTGGTGCGAACGTTGTGGAGCAAAGCGGCGCAACCGGTAAGGGGAAGAAATGA	MATELGPTPVKGPASGGTPIHHAPKGVGEDNKILSQGKWASWLLAPTIIALGIVIVYPIVSAIVMSLQKDAGLDPATGLFTAGGPAGIQNYVNWLGQQCAAPGGGTVACPPGTLGGQFWSATATTFFFTIVTVTFETILGFWMAMIMARTFKGRSMVRAAVLVPWAIPTAVTAQLWLFIFAFEGIANKLFNASILWTGSEWPAKWAVIIADTWKTTPFMALLILAGLQMIPADVYEAAKVDGASAWQRFRLITLPLVKPALMVAILFRTLDALRMFDLPYILTQGANNTTTLSILVINQIRQGFNSAAALSTITFIIIFLVAFIFVRFLGANVVEQSGATGKGKK	PGPT0014150_183	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
D1-29_00628	894	sugB_1	COG0395	Trehalose transport system permease protein SugB	ATGACTTCGGCTACAGCCACGGAGTTGCGCGTCCGGCAGGACAAGGGACGCAAGACCGCCCAGAACCGGGAGAAGTGGGCTCAGGCGAGGACGTATATCAGCGCCGGGGTCATCCTGATCTGGTGCCTGGCACCGGCGTACTGGATGGTGGTCACGGCGTTCCGGGAGGTTGGCTTCACGTACGACACGTCAATACTGCCCACGCATGTCACCATGGACAACTTCGCCACAGCCTTCGACACGTCCTTCGGCAACCGCTTTGGACAGGCGCTCCTCAACAGCGTCATCATCGGCACGGTGGTCACGGTCGTTTCCCTGGTGATCGGCGTTTTCGCCGCTTACGCACTGGCCCGCCTGAATTTCAGGTTCAAGTACTTAGTGCTGGGATTCATCCTTGGCGCTTCGATGTTCCCAGGCGTCGCACTCATCACGCCGCTGTTCCAGCTCTTCACCAACATTGGCTGGATGGGTACATACCAGGCCCTGATCATCCCGAACATCTCGTTTGTGCTTCCGCTGACCGTCTACACCCTGACATCCTTCTTCCGCGAAATGCCGTGGGAATTGGAGGAATCAGCCCGGGTGGATGGTTGCACGCAGGGTCAGGCGTTCCGGAAGGTGATCATGCCGCTCGCGGCACCGGCTATCTTTACTACGGCAATCCTGGCCTTCATCTCCTCCTGGAATGAATTCCTGATCGCCAGCCAGCTGTCCAATGATGCGACGCAGCCTGTGACCGTGGCCATCGCCAGCTTCGCAGGTGCCCAGCCCAACCAGATCCCCTACACCGCCATTATGGCCGCGGGAACCATCGTTACCATTCCCTTGGTGATCCTGGTGCTGGTGCTCCAGCGTAAGATCATCGCCGGCCTGACGGCGGGTGCTGTCAAGTGA	MTSATATELRVRQDKGRKTAQNREKWAQARTYISAGVILIWCLAPAYWMVVTAFREVGFTYDTSILPTHVTMDNFATAFDTSFGNRFGQALLNSVIIGTVVTVVSLVIGVFAAYALARLNFRFKYLVLGFILGASMFPGVALITPLFQLFTNIGWMGTYQALIIPNISFVLPLTVYTLTSFFREMPWELEESARVDGCTQGQAFRKVIMPLAAPAIFTTAILAFISSWNEFLIASQLSNDATQPVTVAIASFAGAQPNQIPYTAIMAAGTIVTIPLVILVLVLQRKIIAGLTAGAVK	PGPT0014155_122	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
D1-29_00629	252			hypothetical protein	ATGCAGTCGTCAGGGCAGCGCGGGCAGAACGAAGGTCTCGTCCGCCCTGAACGCCGCAGGGCGCGGTCCGGTGAGGACTTTGACATCATCATCGGATTCCTCGGCTTTTGGGGCGTGGTCCTGCTGGTGGTCACTGTCTGGATGGAAGTGACAGGACAACCGGCGCTCGGCTGGGCATTGGGCCTCCTGGCCACCCTGCTGGCGATCTATGGGATGGTGCGGCTCCGCCGTCGGCTTCCCGCCAGGCGGTAG	MQSSGQRGQNEGLVRPERRRARSGEDFDIIIGFLGFWGVVLLVVTVWMEVTGQPALGWALGLLATLLAIYGMVRLRRRLPARR				NA	NA	NA	NA	NA
D1-29_00630	1053	ccpA_5	COG1609	Catabolite control protein A	GTGGCACGCATTACTGAAAGGTCCCAACGGGGAGGGCACAGCGGCGTCAGCATTGAGGATGTCGCTGCAGCCGCGGGCGTATCCACCGCCACCGTGTCCAGGGCCGTCCGGGGACTGCCCCGGGTATCACCGGCCACCCGGGAGAAGATCCTGGAAGTGGCCGGCGCCTTGGGTTACGTTGCTTCATCGTCGGCTTCCGGGCTTGCCACCGGGCGCACCAAAACCATCGGCGTGCTGGCTCCCTTTGTGAGCCGCTGGTTCTTCTCCAAGGCCATTGAGGGAGCGGACCGAGAACTCCATGCGCGGCACTACAACCTGTCGCTGTTCAACCTCGGCGGACACGGCAGCAACCGCGAACGGCTCTTCAGCAAGACCATGGTCTATAAACAGATTGATGCCCTGCTGGTTCTTTGTATGGCGCTGACGCATGACGAGCTGGACCATCTCCAGAAGATCGACATCCCGCTGGTGGTCGTGGGCGGCCACGTGGAGGAATGCGCCTACATCGGCATTGACGATTACGCCGCGGCTTCAACCGCCGTGATGCACCTGATCGATCTTGGGCACCGGGACATCGCCCTCCTTCATGGCGACGACGAAACAGACCTTAATTTCGACGTTCCCCGTGTGCGCATCCTGGCATTCAAGGACGTGATGACGGCCTCCGGCCTGCCCACCCGTCCCGAATGGGATGAGTGGGGAGATTTCACCGTCCGGAGCGGGCAGGAAGCCTTCCGCCGGCTTTGGGCGCGGAGCGGCCCCAAACCCACCGCCATTTTCTGCGCCTCTGACGAAATGGCCATGGGTGTCATTTTTGAAGCAGCCAGGATGGGAGTCCGCGTGCCGGAGGAGCTCTCCGTGGTGGGCATCGACAACCATGACTTCGCTGACGCCGTGGGCCTGACCACCGTTGGGCAGAGGCCGGACGAACAGGCCGAACTCGCCACCAAGATGCTTCTTGACGAATTGGATGGTGTTGCCGGGGCGGTGCAGTCCGCCGTCGCTCCCCATCAGCTGATTGTCAGGCGAACCACGGCCCCGCCGCCCTGCTAA	MARITERSQRGGHSGVSIEDVAAAAGVSTATVSRAVRGLPRVSPATREKILEVAGALGYVASSSASGLATGRTKTIGVLAPFVSRWFFSKAIEGADRELHARHYNLSLFNLGGHGSNRERLFSKTMVYKQIDALLVLCMALTHDELDHLQKIDIPLVVVGGHVEECAYIGIDDYAAASTAVMHLIDLGHRDIALLHGDDETDLNFDVPRVRILAFKDVMTASGLPTRPEWDEWGDFTVRSGQEAFRRLWARSGPKPTAIFCASDEMAMGVIFEAARMGVRVPEELSVVGIDNHDFADAVGLTTVGQRPDEQAELATKMLLDELDGVAGAVQSAVAPHQLIVRRTTAPPPC	PGPT0021075_269	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
D1-29_00631	939			hypothetical protein	ATGACCGGAAATCTGTACCGGGGCCAGGCTGGGCTGCCGTTCTCCTCCACCCTGCGGGTCTACGAACCCCTGGACGCCTTCCCCGAGGACCAGCGCGCTGCCATCCAGGCCGCCGGCGCACGCACCGCCTCCCGCGCGGCGGTGGAAAACGCCGAACTGCTGGCGTCCCTGGGCCGTATCACCAGATCCGGCGGGGATCCCTTTCCCACCGGGCGAACCGACCTCGTGCGCGTCACCACCGCTCCGGGAGTCCCCCCAGCTGATACGCCCAAAGCAGAAGCGGCCGACGGCGACGCCGCCCCTGGCGCTTCATCCGGCTCGTCATCCGGCTCCGGGGCGGAGCAGGTACTGCTGTACTGCCCCAGCCAACTGGTCCTGCGCGCCGGTCTCGCTGCCAACGCCCTGATGGAAGGCATCCACGGCCCCCTGGCGGAAATGCTGATACCCGAGGAACAGCGGGACAAGCACCAGGAGCGGATCGACCAGGTCAAGGCCCGGGACGGGTCCATCCGGGTGCACACACGCGCCTCCACCTGGGGCATCCCGTTCAGCTGGTTCTCGCTGTTTATGGAATCAGATCCCAAAGACGTCGTCGAATCAGGCGGACGGATCCTGACGGTAAGGGTCTGGGCCCCGATCACCGAGGCGATGGAGCGGGCCCGTTACGCAGTGGCCAACCTGGCCCTGGCGGCGCCTGACCTGGACATGCTTGATGACCTCGCCCAACTCACGGAGTGGCTGGAGCTGTTCCACGTGAATTCCATGGTGGAACTGGACTATGGAGCGGTGGCGGACAAGGTGTACCCCGACGAGTCCCCCATGGACATCAGGCTGGGTATCGAGTGCCTTGCCGAAGGAGACATGACAGGAGCCGCGGCAGCCTACCGCAGGCTGGCATCCCGCTGGATCCCCATCCGCCAACTGGCCCGCGCGTCCTAG	MTGNLYRGQAGLPFSSTLRVYEPLDAFPEDQRAAIQAAGARTASRAAVENAELLASLGRITRSGGDPFPTGRTDLVRVTTAPGVPPADTPKAEAADGDAAPGASSGSSSGSGAEQVLLYCPSQLVLRAGLAANALMEGIHGPLAEMLIPEEQRDKHQERIDQVKARDGSIRVHTRASTWGIPFSWFSLFMESDPKDVVESGGRILTVRVWAPITEAMERARYAVANLALAAPDLDMLDDLAQLTEWLELFHVNSMVELDYGAVADKVYPDESPMDIRLGIECLAEGDMTGAAAAYRRLASRWIPIRQLARAS				NA	NA	NA	NA	NA
D1-29_00632	807	xthA	COG0708	Exodeoxyribonuclease III	GTGAAGATTGCTACCTGGAACGTAAACTCCCTCCGTGCCCGTGCCGACCGCGTGGAGGCCTGGCTTCAGCGCAGTGATTGCGACGTCCTGGCTATCCAGGAGACGAAGTGCTCGGATGAGAACTTTCCCTGGGAACTCTTCGAGCGCATGGGCTACGAGGTGGCCCACTTCGGCGTGAATCAGTGGAACGGCGTGGCCATCGTCTCCCGGGTGGGGCTGGAGGACGTTGAGCGGACGTTCCTGGACCAGCCGGCATTCGGCAAGGCAGGGAAGGATCCCGTCCAGGAAGCCCGCGCAATGGCGGCAACCTGCGGCGGTGTCCGGATTTGGAGCCTGTACATCCCCAACGGACGCTCCCTCGATGATGAGCACATGCCCTACAAGCTGAAGTGGCTGGATTCCCTGAAGAACCACGCCCAGGGCCTGGTCACGTCGGACCCGCACGCCCAGGTGGCCCTGATGGGCGACTGGAACATCGCGCCCCGGGATGAGGATGTGTGGGATATCGACCTGTTCGTCACGAACCGGTATACCCACGTCAGCCCGCCGGAACGCGCGGCCTTCTATGCGTTTGAGGAGGCCGGCTTCAACGACGTGGTCCGTCCCTACACTTCCGGCCCCGGCGTCTACACCTACTGGGACTACACCCAGCTGCGCTTTCCCAAGAAGGAGGGCATGAGGATCGACTTCGTGCTCGCCTCCCCCGCCCTGGCTGCCCGGGTGACCGGCGCCTCGATCGACCGCGAGGAACGCAAGGGCAAGGGCGCCTCCGACCACGCCCCCGTTGTGGTGGATCTGGCAGACTGA	MKIATWNVNSLRARADRVEAWLQRSDCDVLAIQETKCSDENFPWELFERMGYEVAHFGVNQWNGVAIVSRVGLEDVERTFLDQPAFGKAGKDPVQEARAMAATCGGVRIWSLYIPNGRSLDDEHMPYKLKWLDSLKNHAQGLVTSDPHAQVALMGDWNIAPRDEDVWDIDLFVTNRYTHVSPPERAAFYAFEEAGFNDVVRPYTSGPGVYTYWDYTQLRFPKKEGMRIDFVLASPALAARVTGASIDREERKGKGASDHAPVVVDLAD				NA	NA	NA	NA	NA
D1-29_00633	1500	bauC_1	COG1012	Putative 3-oxopropanoate dehydrogenase	ATGGTGCGCGAGCTATCCCATTACGTAGGTGGCCAGCGGGTGAACGGGACATCCGGCCGGTACGGGGACGTTTTCGATCCCTGCACGGGACAGGTCCAGGCGCGGCTGCCCTTGGCTAGCCGCGCGGAAGTCCAAAACGCGGTTGCCGCCGCGGAGAAGGCCCAACCGGAGTGGGCTGCCATGAACCCGCAGCGCCGGGGCCGCATCCTGCTCGCGTTTGTTGGGCTGGTGAACAGGAACCTGGACGAGCTGGCCACCCTCCTGTCCTCCGAACATGGCAAAACACTTGCGGACGCCAAAGGCGACATCCAGCGCGGCATTGAGGTGGTGGAGTTCGCGGCAGGCGCTCCGCACCTGCTCAAGGGCGAGTTTTCCACCGACGCCGGTGCGGGCATCGATGTCCACTCCCTGCGCCAGCCCCTGGGCGTTGTCGCCGGCATCACCCCCTTCAACTTCCCGGCCATGATCCCGCTCTGGAAGTCCGGGCCGGCCCTCGCGGCAGGCAACGCCTTTATCCTCAAACCGTCTGAACGGGATCCGTCCGTGCCGCTGCGCCTTGCCGAGCTCTACTCGGAGGCAGGGGTGCCCGACGGTGTGTTCAACGTGGTCAACGGGGACAAGGAAGCCGTGGACGCGCTGTTGGAGGATTCCCGCGTAAAGGCGATTGGGTTTGTGGGCTCAACACCCATCGCGCAGTACATTTATGCCACCGCCGCCGCCCACGGCAAGCGCGCCCAGTGCTTCGGCGGCGCCAAGAACCACATGGTGATCATGCCCGACGCCGACTTGGAAATGGCCGCCGATGCCCTGATCGGTGCGGGATACGGCTCGGCGGGGGAACGCTGCATGGCCGTCTCCGTGGCGGTGCCGGTGGGCGAGGAAACCGCCAACAGGCTGGTGGCCAAACTCCAGGACCGGGTCAAAGGGCTCAAGGTGGGACCCAGCCTGGACAAGGACTCGGACTTCGGGCCGGTGGTGACAGCGGCCGCCAAAGAACGGATTGAAGGCTACATCCAGGCCGGACTGGATGAAGGCGCCACACTGCTTGCCGACGGACGCGGCCTTGCCGTGGAAGGACACGAAGGCGGCTTCTGGGTTGGTCCCACCCTCTTTGACCACGTCACCCGTGACATGAAGATCTACCGGGAAGAGATCTTCGGACCAGTCCTCAGTGTGCTCCGGGCCGCCGACTACGACGAGGCCCTCAGGCTCTGCAGTGAACACGAATACGGCAACGGGGTGGCCATCTTCACCCGCGACGGCGACGCCGCGAGGGACTTCGCCAGCCGGGTCGAAGTGGGCATGGTGGGCATCAATGTCCCCATCCCGGTCCCCATCGCGTATTACACCTTCGGCGGCTGGAAAGCCTCCGGATTCGGCGACCTCAACCAGCACGGCGCGGACGCCTTCCGCTTCTACACCAAGACCAAGACCGTCACCACGCGCTGGCCTTCCGGAATCCGCCAGGGCGCCAGCTTTGTGATGCCGGAAGGAAGCTGA	MVRELSHYVGGQRVNGTSGRYGDVFDPCTGQVQARLPLASRAEVQNAVAAAEKAQPEWAAMNPQRRGRILLAFVGLVNRNLDELATLLSSEHGKTLADAKGDIQRGIEVVEFAAGAPHLLKGEFSTDAGAGIDVHSLRQPLGVVAGITPFNFPAMIPLWKSGPALAAGNAFILKPSERDPSVPLRLAELYSEAGVPDGVFNVVNGDKEAVDALLEDSRVKAIGFVGSTPIAQYIYATAAAHGKRAQCFGGAKNHMVIMPDADLEMAADALIGAGYGSAGERCMAVSVAVPVGEETANRLVAKLQDRVKGLKVGPSLDKDSDFGPVVTAAAKERIEGYIQAGLDEGATLLADGRGLAVEGHEGGFWVGPTLFDHVTRDMKIYREEIFGPVLSVLRAADYDEALRLCSEHEYGNGVAIFTRDGDAARDFASRVEVGMVGINVPIPVPIAYYTFGGWKASGFGDLNQHGADAFRFYTKTKTVTTRWPSGIRQGASFVMPEGS	PGPT0002295_2631	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
D1-29_00634	1110	fadJ_1		Fatty acid oxidation complex subunit alpha	ATGCCGGACAGCCGCAACGACGTTGCGGGAACAGAACCCGGCGCAGAATCTGTCACATCAACCAGCCCGGAAGTGATCTTCGAGCGGCGCGGCCATCTGGGTGTCATCACCCTCAACCGGCCACAGGCCGTTAACGCCCTGACCGCAGGCATGGTGGAAGCCATCCGGGTGCAGCTGAGCGCCTGGGCAGAGGACGACGGCGTGGCCACCGTTTTGGTGCAGGGCGCCGGTGAGCGGGGGCTGTGCGCCGGGGGCGACATTGTGGCGATTTACCATGACCTGCTGGCTGGCGGAACGCAAACAGCGGACTTCTGGCAGACGGAGTACAGGCTGAACTCGCTGATCTCCCGCTACCCCAAACCCTATGTGGCCCTGATGGACGGGCTGGTCCTGGGCGGAGGCGTTGGCATCTCGGCCCACGGCTCGGTCCGGCTGGTCACGGAGCGGACCCGGATGGGCATGCCGGAGACCACCATTGGCTTTGTGCCCGACGTCGGCGGCACCCTGTTGCTTTCCAGGTCACCGGGGGAGGCAGGCACCCACGCCGCCCTGACGGGTGCGCATTTAAGCGCGGCAGATGCCCTGTTCCTGGGTCTTGCGGACGGCTACGTTCCGTCCGAAAGCCTTGCCGAGCTGGCGGTGGCGCTGGAGCGCGAAACTCCGGAGGACGCCGTCGAGCGCTTCCTTACAGCGCCGCCGGCGTCCGGCCTGGAGGCCCAGCGGGAGTGGATTGACGAGTGCTACGCCTCCTCCGACGCCGAAGAAATCCTCCGCAGGCTGACCGCGGCCGGGGGAGAGGCCGCGGAGGCCGCCCGCACCATCGAGGCCAAGTCGCCCACTGCCGTAAAGGTGGCTTTGGAATCGCTGCGCCGGGTCAAAGGCCTGACGCTGGACGAGGCGCTGGCCCAGGAATACCGGGTGGGGCTCAGGTTCCTGGCCGCTCCCGACTTCCGCGAAGGGATCCGGGCACAGGTGGTGGACAAGGACCGCACACCACACTGGAAGCCGGCCACCCTGCGTGACGTGCGGCCGGAAGACGTGGAACAGTTTTTCGTGCCGCTGGGTGACAGAGAGCTGAACCTTCACACAAAGGAGACGGACCATGCCTGA	MPDSRNDVAGTEPGAESVTSTSPEVIFERRGHLGVITLNRPQAVNALTAGMVEAIRVQLSAWAEDDGVATVLVQGAGERGLCAGGDIVAIYHDLLAGGTQTADFWQTEYRLNSLISRYPKPYVALMDGLVLGGGVGISAHGSVRLVTERTRMGMPETTIGFVPDVGGTLLLSRSPGEAGTHAALTGAHLSAADALFLGLADGYVPSESLAELAVALERETPEDAVERFLTAPPASGLEAQREWIDECYASSDAEEILRRLTAAGGEAAEAARTIEAKSPTAVKVALESLRRVKGLTLDEALAQEYRVGLRFLAAPDFREGIRAQVVDKDRTPHWKPATLRDVRPEDVEQFFVPLGDRELNLHTKETDHA	PGPT0001860_146	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
D1-29_00635	930	mmsB_1	COG2084	putative 3-hydroxyisobutyrate dehydrogenase	ATGCCTGAGAACAGCACCATCGCCTTCCTGGGCCTGGGCCACATGGGCGGGCCCATGGCCGTCAACCTGGTCAGGGCCGGATATCAGGTGGCCGGCTTCGACGTGGTGCCCGCCGCCCTCGAGGCTGCCAAGAACCAGGGCGTACCCGCCGCGGCCAGTGCTGCCGACGCCGTGTCCGGCGCGGGCGTGGTGCTGACCATGTTCCCCAGCGGCCAGCATGTGCTGGACGCCTACCGCGGCGCCGACGGGCAGCCCGGACTGCTGGCCACCGCCGCCCCCGGGACCATGTTCCTGGACTGCTCCACCATCAATGTGGACGAGGCCCGGGAAGCTTCCACTCTCGCCATCGACGCCGGCCACCGTGCGGTGGACGCTCCCGTTTCCGGCGGCGTGGTGGGGGCCGAGGCAGGCACCCTCACCTTCATGGTGGGCGGCGGGCCTGAGGACTTTGAGGCCGTCCGCCCCCTGCTGGAAGTAATGGGCAAACGCGTGGTGCACTGCGGGGGCCATGGCGCCGGCCAGGCAGCCAAGATCTGCAACAACCTGATCCTGGGGGTCTCCATGATCGCCGTGAGCGAGGCGTTCGTCCTCGGCGAGAAACTGGGACTGAGTCACCAGGCACTGTTCGACGTCGCCTCCGCGGCGTCAGGCCAGTGCTGGGCCCTGACCACCAACTGTCCCGTTCCTGGTCCCGTCCCCGCCAGCCCCGCCAACCGTGACTACCAGCCGGGATTTGCCGGCGCGCTGATGGCCAAGGACCTCAGGCTTGCAGTCAATGCACTCCGCAGCACCGGGGTGGCGGCCCGGCTGGGGCCACTGGCGTCCGAAATCTACGATACGTTTGCCGCGGAAGGCGGTGCTGGCCGGGACTTCTCCGGCATCATCACCGATATCCGCGACAAATCACAGGAGGACGGGAGCCAGGCATGA	MPENSTIAFLGLGHMGGPMAVNLVRAGYQVAGFDVVPAALEAAKNQGVPAAASAADAVSGAGVVLTMFPSGQHVLDAYRGADGQPGLLATAAPGTMFLDCSTINVDEAREASTLAIDAGHRAVDAPVSGGVVGAEAGTLTFMVGGGPEDFEAVRPLLEVMGKRVVHCGGHGAGQAAKICNNLILGVSMIAVSEAFVLGEKLGLSHQALFDVASAASGQCWALTTNCPVPGPVPASPANRDYQPGFAGALMAKDLRLAVNALRSTGVAARLGPLASEIYDTFAAEGGAGRDFSGIITDIRDKSQEDGSQA	PGPT0018170_745	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
D1-29_00636	777	echA8_1	COG1024	putative enoyl-CoA hydratase echA8	ATGACGGAATACGCAAACATTCTTGTGGAGCGGCGCGGCAGGGTGGGCCTGGTAACCCTTAACCGGCCCGAGGCATTGAACGCCCTTAACCGGGCCACCATGGAGGAACTGGTGTCCGCTGTCGGGGGCATGGACGCTGATCCAGGGATCGGGGCAGTGGTGATCACCGGTTCCGGCAAGGCCTTCGCTGCCGGGGCGGACATCAAGGAGATGGCCTCCCAGACGTACATGGAGATGTACGCCGCCGACTGGTTCCGCGGCTGGGAGGACTTTACCCGGCTCCGCATTCCCACCATTGCTGCCGTCTCTGGCTTCGCGCTGGGCGGCGGGTGTGAGCTCGCCATGATGTGCGACCTGATTTTCGCCGGGGACAACGCGAAGTTTGGCCAGCCTGAGATCAACCTTGGCGTGCTGCCCGGGATGGGCGGATCGCAGCGGCTCACCCGTGCCGTAGGCAAGGCCAAGGCCATGGATCTGATCCTCACCGGCAGGTTCATCGGTGCCGAGGAAGCTGAGCGCTCCGGCCTGGTCTCGCGGGTGGTGCCCGCCGAGGATGTGGTGGACGAAGCGCTCAAGGCCGCCGAGGTCATAGCTTCCAAGTCAAAGCCAGTGGCCATGGCGGCAAAGGAAGCCGTAAATACCGCCTTTGAAACGGGGCTCGCGCAGGGTGTCCTTTTCGAGCGCCGGATCTTCCACTCCCTCTTCGCCACACAGGACCAAAAGGAAGGCATGGCCGCCTTCACCGAAAAGCGGCAGCCCGAGTTCAGGCACCGCTGA	MTEYANILVERRGRVGLVTLNRPEALNALNRATMEELVSAVGGMDADPGIGAVVITGSGKAFAAGADIKEMASQTYMEMYAADWFRGWEDFTRLRIPTIAAVSGFALGGGCELAMMCDLIFAGDNAKFGQPEINLGVLPGMGGSQRLTRAVGKAKAMDLILTGRFIGAEEAERSGLVSRVVPAEDVVDEALKAAEVIASKSKPVAMAAKEAVNTAFETGLAQGVLFERRIFHSLFATQDQKEGMAAFTEKRQPEFRHR	PGPT0001860_5473	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
D1-29_00637	978	trxB_2	COG0492	Thioredoxin reductase	ATGACGGAAAAAGCTGAAGAACCATACGACGTAATGATCATCGGCGGCGGTGCCGCGGGGCTGAGTGCGGCCCAGATGCTGGGACGCTCCCGGCGGTCGGTGGTGGTGATCGACGCCGGGAGTCCCCGGAACGCCCCTGCCGAAGGGGTCCACGGATTCCTCAGCCGGGACGGCATCAGCCCGGCGGAACTTCTCAGGATAGGCCGCGCGGAGGCGGAGCATTACGGCGCAGACGTCGTCGACGGCGAGGTGTCCCGTGCAGAAGGCAGCCGTGAGTCAGGCTTTACGGCCTCCCTTAAGGACGGGCGCACGGTCCGCGGCCGCCGCCTCCTGGTCACCACCGGCCTGACGGACGAGCTGCCGGACATCACAGGAATCCGCGAGCGCTGGGGGAAGGACGTGCTTCACTGTCCGTTCTGCCACGGCTGGGAAGTGCAGGACCAGGCGATCGGGATCCTGGGGAATGGGCCCTGGTCCACTCACCAGGCCCTGCTGTTCCGGCAGTGGAGCAGCAACATTACCCTGTTCCTGAACAACAGGACCAACCCCACGGACGTGGAGCTGGAGCAGCTGGCCGCGAGGGGCATCAAAGTGGTGGAGGGAACCGTGGAGGCGCTTCGCGTCGAACAGGACTCCCTCCGCGGGGTTGCCCTTGCGGGCGGCCCGGAGGTGGCGGTGGACGCAGTAGTGGTGGGTCCGCAGGTCGGCGCCCGGCTGGACGCCTTTGCCGGGCTTGGCCTCACGCTGTCACCCCATCCGATGGGCGTAGGGGATTACCTGGAGACTGACGCCGACGGAGCGACAGCCGTTTCGGGTGTATGGGCGGCCGGCAACGTAACGGATATCAAAGCACAGGTGCTGGCGTCGGCGGCAGCGGCGGCCTGGACCGCCGTCGCGATTAACAACGATCTGATGGCGGAGGAACTCCGCCGGGATGTCACCGCCTACCAGGAATCCCTCACCCTCAGCGGTGCCTGA	MTEKAEEPYDVMIIGGGAAGLSAAQMLGRSRRSVVVIDAGSPRNAPAEGVHGFLSRDGISPAELLRIGRAEAEHYGADVVDGEVSRAEGSRESGFTASLKDGRTVRGRRLLVTTGLTDELPDITGIRERWGKDVLHCPFCHGWEVQDQAIGILGNGPWSTHQALLFRQWSSNITLFLNNRTNPTDVELEQLAARGIKVVEGTVEALRVEQDSLRGVALAGGPEVAVDAVVVGPQVGARLDAFAGLGLTLSPHPMGVGDYLETDADGATAVSGVWAAGNVTDIKAQVLASAAAAAWTAVAINNDLMAEELRRDVTAYQESLTLSGA	PGPT0013060_7494	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
D1-29_00638	594	sutR_1	COG1396	HTH-type transcriptional regulator SutR	ATGGATGAACAGTTAGACGATGTCCTGGCCGCCGTGGGCCCCCGTCTGCGTGCGCTGCGGATGAGCAGGAACACCACGTTGTCGGCACTTGCCGAAGCCACCGGCATCTCGGTCAGTACCCTGTCGCGGCTGGAATCCGGGCTGCGGCGGCCAAACCTCGAGTTGTTGCTGCCGCTGGCCAAGGCGCACCAGGTTCCGCTGGATGAACTGGTGGGTGCCCCGGACATGGGGGATCCGCGCGTTCATCTGCGCCCCATCGTCCGCAACCGCATGACGATTATTCCGCTGACACGGCGGCCCGGCGGTATCCAGGCGTACAAGCACATCCTGCCGGCGGGCAGGCTGGAGGAACCGAATCCGCAGGTCCATGAAGGCTATGAATGGCTCTATGTTCTCAACGGCAGGCTGCGGATGGTTTTGGGTGCGCAGGACCTTGTCCTGGGCGCGGGCGAAGCCGCAGAATTTGATACCCGGATCCCTCATTGGTTCGGCAGGGCCGACGGGAAGGCTGTGGAGTTCCTCAGTCTTTTTGGACGCCAGGGCGAACGGATGCATGTGCGGGCCAAACCGGGGCAGCCAGCCGCGGACTCCTAG	MDEQLDDVLAAVGPRLRALRMSRNTTLSALAEATGISVSTLSRLESGLRRPNLELLLPLAKAHQVPLDELVGAPDMGDPRVHLRPIVRNRMTIIPLTRRPGGIQAYKHILPAGRLEEPNPQVHEGYEWLYVLNGRLRMVLGAQDLVLGAGEAAEFDTRIPHWFGRADGKAVEFLSLFGRQGERMHVRAKPGQPAADS				NA	NA	NA	NA	NA
D1-29_00639	657			hypothetical protein	ATGTGGGGAGCATCCGTAGCTGCAGCCGGCACGGCGGACAACCTGGACGGACTGGTGGGGGTGGCTGCGCGGGCCATTGATAACCTCGGCGAATGGGGAGTGGGCCTCTTTACCCTTGCCGAGACTGTCCTGCCGCCAATCCCCAGCGAAGTGATTCTTCCCCTGGCGGGCTTCCTCGCCAAACAGGGAGATTTGAACGTTGCCCTCGTGTTCGTCACCAGTACCCTGGGTGCTTATGTTGGGGCTCTCCTGCTCTACTGGGTGGGGTCGAAACTGGGCCTTGAGCGGTCCATCCGTGCTCTGTCGAAGCTTCCGCTGATGGATCGGGAGGACTTCGAAAAGGCCGCGGACTGGTTCCGGCGCCACGGCAGATCTTCGATTTTTTTCGGCAGACTGCTTCCCGGCGTCCGGAGCCTGATCTCCCTGCCGGCCGGTGCCTCCAACATGCACCTGGCCACTTTCAGCCTCTACACGCTCGCCGGAAGCGGGCTCTGGAATGGTGCACTCATCGGCCTGGGCTACCTGCTGGGGTCCCAGTACCGGCTCATCGAACAGTATTCCCGCTTGCTGAACTACGCCGTGTACGGCGCACTGTCGGTCCTGGTGGTTTGGCTGGTTGTGAGAGGTGTCCGCCGCAGCAGGGCCCGCCAGCGCTAG	MWGASVAAAGTADNLDGLVGVAARAIDNLGEWGVGLFTLAETVLPPIPSEVILPLAGFLAKQGDLNVALVFVTSTLGAYVGALLLYWVGSKLGLERSIRALSKLPLMDREDFEKAADWFRRHGRSSIFFGRLLPGVRSLISLPAGASNMHLATFSLYTLAGSGLWNGALIGLGYLLGSQYRLIEQYSRLLNYAVYGALSVLVVWLVVRGVRRSRARQR				NA	NA	NA	NA	NA
D1-29_00640	270			hypothetical protein	ATGAAGGAGGTGGGCACCATCCGGGACATCGAGAGCGGCAGTTACCGTGCTCGCCTCCACACCACTGGAAGGGATGCGGCCTATGACCTGGTGGTGGAATCCTCCGTCGAACGGCACCTCGTCCAGTTCTGGAAGGAAGCCCCATCGCCGGTGTCCGTGCTGTCCTCCAGGTCTGAACACGGGAAAGAGCTCCCGGCCATGATGAGCAGGTGGCAGGGCATGCCGGCCGCCACTTCCCCTGATGTTCCCCGGCTGCTGCCAGGAGATTGA	MKEVGTIRDIESGSYRARLHTTGRDAAYDLVVESSVERHLVQFWKEAPSPVSVLSSRSEHGKELPAMMSRWQGMPAATSPDVPRLLPGD				NA	NA	NA	NA	NA
D1-29_00641	270			hypothetical protein	ATGATCGGATTCATTGTTGCCGGCCTCGTCATTGGTGCCTTGGCCCGCTTGATCAAACCAGGCAAACAGAACCTGGGCATCCTCGCCACGCTGCTCCTCGGGCTGGCCGGCTCTGTCATTGGAGGCGTCATCGCTAACCTCCTGGGCACCGGAAACATCTTCGAACTTAACTTCGTCGGTTTTATTGTGGCTGTCATCGCCTCTGTCCTGCTCATCGGGGTCGCCGAGGGCCTGTCATCCCGGCGCACCGCCGCCCGGCGAAATCCCTGA	MIGFIVAGLVIGALARLIKPGKQNLGILATLLLGLAGSVIGGVIANLLGTGNIFELNFVGFIVAVIASVLLIGVAEGLSSRRTAARRNP				NA	NA	NA	NA	NA
D1-29_00642	1272	ybjJ_2		Inner membrane protein YbjJ	ATGGCCATCGCACCGCTTCTAGCCCGGCAGCCCGCTAGGGAGGCCCGCCGTGCACGATTCGCAGTAAACGTACTGTTCTTCACCAACGGTGCCATTTTCGCCAGCCTGCTGCCGAGATACCCGGAGATCAAAACGGACCTCGGGCTCACCAATGCCGTCTTCGGACTGGCTGTTGCTGCCTTTCCGTTCGGTGCACTGCTGGCGGGCCTGAGCGCAGGCTTCCTGGTGCGCCGGTTCAGGTCCTCAAGAGTGGCCATTGTCGCCACCGTGCTGGCATCGCTGGGGATCCTGCTGGCTGCCGGCGCACCTGCGTGGGCGGCCCTGGCTGCCGGCTTTTTCCTCGCCGGTGCCATGGACTCCATCACCGATGTTGCCCAGAACTCGCATGGTCTTCGGGTGCAGCGTCTCTATGGACGGTCAATCCTCAACTCCTTCCACGCCGTCTGGAGTGTGGGCGCTGTGGCGGGCGGCGTCCTGGGCGCCGCTGCCGCCGAACTGGCCGTGTCCCGCTTCTTCCACCTCGGCATGGCGGCAGTGGTCTTCAGCCTCATGGCTGCCCTTTCGTACAGGCTGCTGCTCTCCGGCCCTGAACCTCTGGACTCCGTTGGCGACGATGATACGGGCAGTGAACGCCTGGAACGCGCCGCCGAAACTGGCAAGCCCGCCAGCAAGAGTGTGACCAAGTATGGAGCACTCCTTGCCTTGGTCATCATTGCCTCCGCCGGGGCACTCGTCGAGGATTCGGGCAGCTCCTGGTCCGCAATCTATCTCTCGGGTTCGCTCGGCGCGTCCGCCTTCATCGCCGGCGCGGGCTTTATTGCCCTGCAGGGAACCCAGTTTGTAGGACGGATCATTGGTGACCGGCTGGTGGACCGCTTCGGTCAACGCTCTGTTGCCCGAGCCGGCGGCTTTATTGTGCTGCTCGGGATGGGCGTGGCCCTCGCTTTTCCGTCTGTCATGGGAAGCATCGCCGGGTTCGGCCTTGCCGGGTTCGGCGTTGCCACCCTGATCCCTGCCGCCATGCACGCGGCGGATGAATTGCCGGGATTCCGCCCAGGCACAGGCCTCACCATCGTCAGTTGGCTGCTGCGTTTGGGTTTCCTCCTCTCCCCTCCGGTGGTCGGCGCCATAGCCGATGCCACATCCCTTCGGCTCGGCCTGCTCATCGTCCCCGCCGCCGGCCTGCTGGTGATGGTTTTCGCTGGCGTGCTGGCGCCGGCCCGGCGGCAGCTTTCCAAGGCGTCTGCGGCTGCAGGCAAGAGCGCCTTATAA	MAIAPLLARQPAREARRARFAVNVLFFTNGAIFASLLPRYPEIKTDLGLTNAVFGLAVAAFPFGALLAGLSAGFLVRRFRSSRVAIVATVLASLGILLAAGAPAWAALAAGFFLAGAMDSITDVAQNSHGLRVQRLYGRSILNSFHAVWSVGAVAGGVLGAAAAELAVSRFFHLGMAAVVFSLMAALSYRLLLSGPEPLDSVGDDDTGSERLERAAETGKPASKSVTKYGALLALVIIASAGALVEDSGSSWSAIYLSGSLGASAFIAGAGFIALQGTQFVGRIIGDRLVDRFGQRSVARAGGFIVLLGMGVALAFPSVMGSIAGFGLAGFGVATLIPAAMHAADELPGFRPGTGLTIVSWLLRLGFLLSPPVVGAIADATSLRLGLLIVPAAGLLVMVFAGVLAPARRQLSKASAAAGKSAL				NA	NA	NA	NA	NA
D1-29_00643	507			hypothetical protein	GTGGGTTCCCCGCTTCCGCGCGACCCCATCTCGGACGCCCAGCACAACTGGGAGGAGCACGGCTGGGCTGACGTTGCCGCCCCCATGGCTGCAATCACCGCAATCATGCGCACCCAGCAAATCCTCACGGCCAGGATCGAGGCCTCCCTCAAGCCCTTCGGCCTGACGTTTGCCAGGTACGAACTGCTGGCTCTGCTCAGCTTCACCCGGAGCGGCGCACTGCCCATGAACAAGGCAAGCTCCCTTCTCCAGGTCCATCCGACGTCGGTGACCAACGCCGTCGACCGCCTCCAAAGCGCGGGGCTGGTGACCCGCTCACCGCACCCCACAGATGGCCGCACCACACTGATTGAACTCACCGCCCAAGGCCGTACTCTCGCGAAAAGCGCGACGGCGGTACTGAACGCCGAGGTCTTCGGCCAGTCCGGATTCACCCCCGAAGACATTGGCCACCTGATCCGGATCCTCGCCGATTTCCGCCGCAAGGCCGGCGACTTCACCGACTGA	MGSPLPRDPISDAQHNWEEHGWADVAAPMAAITAIMRTQQILTARIEASLKPFGLTFARYELLALLSFTRSGALPMNKASSLLQVHPTSVTNAVDRLQSAGLVTRSPHPTDGRTTLIELTAQGRTLAKSATAVLNAEVFGQSGFTPEDIGHLIRILADFRRKAGDFTD				NA	NA	NA	NA	NA
D1-29_00644	1209	mmgC_1	COG1960	Acyl-CoA dehydrogenase	GTGCAGCCACATGGACACGAGAAGGATGCCTTTCCTGGAACTGGCGGCACGCCACCCTTTCCTGATGCGGACCTGCTGTACATCGTGGACCTTTTGCCCGAGTCCGAGCGTCAGCGATACCGTGCCATCCGGACCTTCCTTCAGTCCTCAGTGCGGCACGCATCCATTGACTACTGGAACCGTGAAGAATTCCCGTTCGGGCTGCTTGCAGAGATGGGCAAGCACGGGCTTGGCGGACTGCAGACGGACGGCAGCTCCAAACTTTTCAAGGGCCTGATGTACGTGGAGCTGGCGCGGGCCGACGTATCCCTCTCCGCCCTGGTGGGGATCCATAACGAACTCATCGTGGGCATGATCAATGAACTCGGCTCCGAGGAGCAGCGGCAGCGCTGGCTGCCGGGCCTGACCTCCTTTACCCAGCTGGGAGCGTTCGCCCTGACGGAACCGGACCATGGATCAGACATTGCGGGCGGCCTTGAAACATCTGCCCGGCTTGAGGGCGGCGAATGGGTGATCAACGGCGCCAAGCGCTGGATCGGCGCCGGAACCATTGCCGACTTTGCCCTGGTATGGGCCCGCGACCAGGCCGACGGGCGCATCAAGGGCTTCATCGTGGAGACAGACCGCCCTGGTTACCGGGCCACCAAGATTTCCAACAAGATCGGACTGCGGATCATGCAGAATGCGGACATTGTGCTGGACGAAGTCCGCGTTCCTGAGTCCAACATATTGCCGGGCGCTACTGACTTCTCCAAGGCCAACGACCTGCTGCGGGATTCGCGTGCGTGGGTGGGATGGCAGGCTGCTGGCATCCAGCTCGCGGCCTTCGACGTGGCCCGTTCCTACTCGCTGACGCGCCGGCAGTTTGGCAAGGAGTTGGCCCGCTTTCAGCTGATCCAGCAGCAGTTGGCCGAAATCCTGGGCAATGCGTCCGCCTCACTCGCCCTGATGGCGCAGGTAGCCAGGATCCAGGAGGAAGGCCGGCTGGAAATGGTGCAGGCCGCCATGGCCAAATCCACCGGCACCAGGCTGGCGCGGGCTTCCGTGGCGATGGGGAGATCACTCCTGGGCGGCAATGGGATCAGCACGGACTACGAGATGGCCAAGCTCTTTGGCGACGCCGAGATCCTGTACACCTACGAGGGCAGCTACGAAATCAATTCGTTGATTGTGGGGCGTGCCGTCACGGGGAAGTCGGCCTTCGTCTAG	MQPHGHEKDAFPGTGGTPPFPDADLLYIVDLLPESERQRYRAIRTFLQSSVRHASIDYWNREEFPFGLLAEMGKHGLGGLQTDGSSKLFKGLMYVELARADVSLSALVGIHNELIVGMINELGSEEQRQRWLPGLTSFTQLGAFALTEPDHGSDIAGGLETSARLEGGEWVINGAKRWIGAGTIADFALVWARDQADGRIKGFIVETDRPGYRATKISNKIGLRIMQNADIVLDEVRVPESNILPGATDFSKANDLLRDSRAWVGWQAAGIQLAAFDVARSYSLTRRQFGKELARFQLIQQQLAEILGNASASLALMAQVARIQEEGRLEMVQAAMAKSTGTRLARASVAMGRSLLGGNGISTDYEMAKLFGDAEILYTYEGSYEINSLIVGRAVTGKSAFV	PGPT0021815_1173	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
D1-29_00645	189			hypothetical protein	ATGGCGGGTAAATTCGAAGTCTTTCGGGACAATGACGGACCACTGCCGTTCAGGTTCCTCCTGCGCGGCAGCGACGGTTCGGTGATTGCCGTTTCACCACAACTGGGCAGCATTAGTGCGGTGAAAGCCGGCATTGTGGCAGTCAGGGAAAGCGCTGCCAGCGGCAGCATCGTAGACCTGACTGAGTAG	MAGKFEVFRDNDGPLPFRFLLRGSDGSVIAVSPQLGSISAVKAGIVAVRESAASGSIVDLTE				NA	NA	NA	NA	NA
D1-29_00646	1086			hypothetical protein	ATGCGCTTTGAACGCGGGAAGACCGACGGCGGCGCATCCTCCGGGACGGACGGCCAGCCCTCGTTCAGCAACACAGTTCCCCGCGAACTCGTGCACCGCCGCGCCATCTCCGAAGTTTTTATGACGGACATCCACCGGGTTGGTGAGGGCCGGTACCTGGCCGCCGCACAATGGCCGCGGCTGCATCCCTTCTTCCATTCCGGGGCTGGGGCGTATGACACTGCCCTGATCGCCGAATCACTCCGGCAGGCTACGATCCTGGTTGCCCATGCCATGGAAGGCGTGCCTCTGGGACAGGTTTTCCTGATGCCCGACATGGCCGTTCAGTCCCTCGGCGGCCACGCCGGCGATCCCGGCACTCCTGCCGAGGTCCATGTGCTGCTCGACGCCTCCGTCTCACGACGGAACGCGCACGGACCGGGCGCCATGCGGATAAAGGCCAGGTTCGACGTCGGCGGGCGCGCCATTGCCACCGGAACGGCCGGAGCACGGCTGGTGGATCCGGAAAGTTATGCCAGGATGCGGCGCCGGGCCGGCGCTGATGGCCCATCTCCTCAGACCAAGCCGCTGCCGGCCGAACTGGTGGGGCACCGGTTCTCACACAATGTTGTCCTCGGCCACGAGGGGCCGGCCGGTAGCTGGCCACTGCACGTTGACGGCAGCAACCCCACGTTCTTCGACCATCCCCTGGACCACGTCCCGGGGCTTCTGATGGTGGAAGCGGTCCGGCAGGCCCTTCGTGTGCGGATGGGGGCCCCCTGCCTGGACTTTCAGGCCTTCGAGGCTGTGTTCCGGAAAATGGTGGAACTCACTGACGACGCGTCCGTATCACTGCAGCGTATGACCGTGGGCGGCCAGGATGAGGGGCATGCTTCTGCCGCCATCACGGTGGACGGCACGGTGTGCGTGGAGCTTGATTGCCGGTTTGCAGTCAGTCCGCCGAGTGATCTCCGGCAGGATCCGCCCCACGAATGCTCAGGTGCGCAACGGCCAGGAACTCAGGCAATTTGGCGTCGGGAACCATTCCAGGCAAGAGGATCGACCACATATCCTCGATCCGCCTCAGGACATCAGCACGGTGGGTGA	MRFERGKTDGGASSGTDGQPSFSNTVPRELVHRRAISEVFMTDIHRVGEGRYLAAAQWPRLHPFFHSGAGAYDTALIAESLRQATILVAHAMEGVPLGQVFLMPDMAVQSLGGHAGDPGTPAEVHVLLDASVSRRNAHGPGAMRIKARFDVGGRAIATGTAGARLVDPESYARMRRRAGADGPSPQTKPLPAELVGHRFSHNVVLGHEGPAGSWPLHVDGSNPTFFDHPLDHVPGLLMVEAVRQALRVRMGAPCLDFQAFEAVFRKMVELTDDASVSLQRMTVGGQDEGHASAAITVDGTVCVELDCRFAVSPPSDLRQDPPHECSGAQRPGTQAIWRREPFQARGSTTYPRSASGHQHGG				NA	NA	NA	NA	NA
D1-29_00647	666	arpA		A-factor receptor protein	ATGCCCCTGCAGGAACGCGCCAAGGCTACAAAGGTGTCCATTGTGGAAGGCGCGGCGGCCGTTTTCGAGGAAATCGGCTACGGCAACACGAGCCTGAGCAGCGTTGCCGAACGGGCCGGAGTGACCAAGGGTGCGCTGTACTTCCACTTCAAATCCAAAGAGGATCTGGCGCTGGCAGTGATCGAATCCCAGCATGAAGTGGTCAGCCGCGAAGGCCAGCGCGTCGCGGACCTCGGCCGCGGCGCCCTGTCCACCATGATCATGACCTGTGGCAGTTTTGGCCGGCTGCTGGTTGAGGAACCCATCGTCCGGGCGGGCATTCGCCTGACCCTTGAGGCGTCTGCCTTCGGGCAATCGGTGACGCGGCCCTACCACGACTGGATCCACACCATGGAGCTGCTGACCCGGCAGGGCCAGGCCGAGGGGGACATCCACCAGGCGGTGGATGCCGCCGCGTTTGCACGGTATCTCGTGGCATCCTTTACAGGCGTGCAGATGGTCTCAGGCATCCTCACCCACCGTGCTGATGTCCTGAGGCGGATCGAGGATATGTGGTCGATCCTCTTGCCTGGAATGGTTCCCGACGCCAAATTGCCTGAGTTCCTGGCCGTTGCGCACCTGAGCATTCGTGGGGCGGATCCTGCCGGAGATCACTCGGCGGACTGA	MPLQERAKATKVSIVEGAAAVFEEIGYGNTSLSSVAERAGVTKGALYFHFKSKEDLALAVIESQHEVVSREGQRVADLGRGALSTMIMTCGSFGRLLVEEPIVRAGIRLTLEASAFGQSVTRPYHDWIHTMELLTRQGQAEGDIHQAVDAAAFARYLVASFTGVQMVSGILTHRADVLRRIEDMWSILLPGMVPDAKLPEFLAVAHLSIRGADPAGDHSAD				NA	NA	NA	NA	NA
D1-29_00648	927			hypothetical protein	ATGACGCAGAGCTTGCCCGGGATGACCGTCCTGCTTGTGGGCGGATCCGGTTTTATCGGCCAGAACGCCCTTCAAGCCATCGCTGCCCGGAAGGAAATTAAGCTTCGCGTCCTCACCCGGCGGACCACCGCCCTCATGAAGGCCAGTGAAGCCAGCATATACGTCGGCGACCTCATGGACCGCTCAACCCTTCAAGCGGCACTGTTCGGAGCGGACGCCATCATCAACGCATCCTCCTACACCGGAGCCGACGCTTCCAAAGCCGAAGCTGTCAACCATGAAGGGGTGCGGAACCTGCTTAGCGTTGCCCATGACTGCGGCGTCCCGGGGTTCATCCAGCTCAGCACAACCGCGGTCTACGGCAGCGGGCCGCACCGCGGGGACACGGAGATGGAACTTGCCTGCCGGCCGGAATCGACTGTCAGCCGCACCCGGCGGGCGGCCGAAGAACTCGTACTGGCGGCTGGAGGCACAGTGCTTCGAGCAGGCTTAATCTACGGTCCTGGCGACATTTGGTTTATTCCGTCCCTGATCCGCATGGCCACAATGCTGGGAGGGCCGGTGGGCGACGGCGAGTCCAAACTTTCGGTTATCGGCGTCGAGTATTTGGGCGGCCTGATTGCCGGGCTGCTCCCGCTCGGCAGCCAGATACGCGGGGTCTTCCATGCCGCTGAACCCGTTCCGGTGAGCGTCGGGCAGATCCTGCAGCACATCGAAGACAACGTGACAGGTCCCCGCTGGTCACGCAGTACTGACTTGGCGGCGGCCATCGCACTGCTCCACGGAAACGGCCTGACGGAGCATCAGGTGGCGCTGCTCTCACAGGACCACTGGTATCAGTCCGACAGGCTCTGGACTATGGCGGGCGTGGAACCGCCACGCTTTGGATTCTCCCGGGCAGCGGCTGAGTGGTACCGCCGCTTATGA	MTQSLPGMTVLLVGGSGFIGQNALQAIAARKEIKLRVLTRRTTALMKASEASIYVGDLMDRSTLQAALFGADAIINASSYTGADASKAEAVNHEGVRNLLSVAHDCGVPGFIQLSTTAVYGSGPHRGDTEMELACRPESTVSRTRRAAEELVLAAGGTVLRAGLIYGPGDIWFIPSLIRMATMLGGPVGDGESKLSVIGVEYLGGLIAGLLPLGSQIRGVFHAAEPVPVSVGQILQHIEDNVTGPRWSRSTDLAAAIALLHGNGLTEHQVALLSQDHWYQSDRLWTMAGVEPPRFGFSRAAAEWYRRL				NA	NA	NA	NA	NA
D1-29_00649	204	cspA_1	COG1278	putative cold shock protein A	ATGGCAACAGGCACAGTTAAATGGTTCAACGCTGAAAAGGGCTTTGGCTTCATCGCTCCGGACGACGGATCCGCCGATGTTTTCGCGCACTACTCCGCAATCGCCAGCAGCGGATACCGCTCACTGGACGAGAACCAGAAAGTCGAATTCGATGTGACCCAGGGCCCCAAGGGCCCCCAGGCAGAGAACATTCGCCCGCTGTAA	MATGTVKWFNAEKGFGFIAPDDGSADVFAHYSAIASSGYRSLDENQKVEFDVTQGPKGPQAENIRPL	PGPT0014675_6587	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-29_00650	627	liaR_2	COG2197	Transcriptional regulatory protein LiaR	ATGAACCCCATCACTGTCCTCCTGGTGGATGACCATCTGGTGGTCCGGAGCGGCCTCAAGGCGCTGCTGGGTACCCAGCCTGACTTTGAGGTGGTGGCCGAGGCGAGCTCCGGCGAGGAGGCGCTGGAACTCGTGGAACAGTACTCCCCTGCCGTGGTGGTGATGGATCTGGCCATGGGCCCGGGGATGGATGGGATCGAGGCCATCAGGCAGCTGCGGCAGCGCAACAGCCGGCAGGCCATTCTGGTTTTCACCACCTATGATTCGGACGCCGATATTGTCCGGGCGGTGGACGCCGGCGCCATGGGCTACCTCCTCAAGGACGCCGCCCCGGACGAAATTTTCGCCGCCCTCCGCGGCGCCGTCCAGGGAAAGAGCGTCATGAGTCCGCCCGTGGCCTCGCGGCTCTTCCAGCAGCTGCGCAATCCCGATGACGTCCTGACGCCCCGGGAGGCGGAGCTGCTGAGCCTTCTCACTGAGGGGCTCAGCAACCGGGAGCTGGGGCAGCGGCTGTTCATCTCCGAGGCCACCGTCAAAACCCATCTGGCGCACATTTATGCCAAGCTCGGCGTGGAGACCCGCGCGGCGGCCATCGCCACGGCCATCCGCCGGGAGGGTATGCGCTAG	MNPITVLLVDDHLVVRSGLKALLGTQPDFEVVAEASSGEEALELVEQYSPAVVVMDLAMGPGMDGIEAIRQLRQRNSRQAILVFTTYDSDADIVRAVDAGAMGYLLKDAAPDEIFAALRGAVQGKSVMSPPVASRLFQQLRNPDDVLTPREAELLSLLTEGLSNRELGQRLFISEATVKTHLAHIYAKLGVETRAAAIATAIRREGMR	PGPT0014870_138	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
D1-29_00651	1305			hypothetical protein	ATGCCCTCGCCAGCTACTCCCCCCGAAGTGCCGTCCACGGGCGCCGCCCTGCCCGCCGGATCTGATGCGCCCCCAGGCCGCCTGGGCAGGATCGACGCCGCCGTGCACCTGGGCTTCGCCGTCCTGCTCGTCGCATCAGCAGTCCGTTATGCCATGCGGCACAGCCTGCAGGACAACCTCCTGGTCCTGGGACTGGCGGGAGCGGTCTGCGCCGTTTACGCCGTGATTGCGGTGCTGGCCCGGCAGAGGCGGCCCTGGGCGGTCTGGATGGTGGTGCTGGTGGCCATCTGGGCTGTCCTGGTCATTGCCGCACCAAGCTTTGCCTGGTGTTCCTTCGCGATCTTCTTCCTGTGCCGGACCGCCTTCACGGGCACTGTGGGCTACGTTGCGGCGGGGGCGACGGCGGCTGCCACCGCCGTCGGGCTGTTCCGGCTGAGCGACGGCACCGACCTCGCGATGCTGCTGGGGCCGCTTGCCGTCGGCGTGATGCTGACGCTGATCTACGACCGGATCGAGCACGACGCCGAGCAGCAGCGCCGCCTTCACGCCGAGGTCTCACAGGTGCAAGGCGAGCTGGCAGCCAGCGAGCGCCGGGCCGGAACCATCGCCGAACGCGAACGTGTATCACGGGAGATCCACGACACCGTGACGCAGGGCTTGGCCAGCAGCCTCCTGCTTCTGGAAGCCGCGGACCGTTCGTGGCCCAGCCAGGAGTCACGCCGGGATGTCAGCCAGGCCACTGAACTGCTGCGCAGGAACCTCTCGGAGACCCGCAGCCTGGTCCACGAGCTTGCTTCCCCGGGACTGGACGTTTCACCGCTGGCCGAGGCACTGCACCAGGCCGCCGCCCGGTACGTTCCGCATGCCCGGCTCCTGGTTACGGGCGAACCCGGGAACGTCACCACGGAGGTCCGGCACACGCTGCTGCGGGTGGTCCAGAGCGCGGCGGCGAACATCCAGCAGCACGCGAACGCCACCACCGCAACGGTGACACTGGGTTTCCTTCCCGACTCGGTCACGCTGGACGTTTACGACGACGGAACGGGCTTTGACCCTGCGGCGGCCGCACCGCCGTCGGACGCCGGGGGCTACGGGCTGCGGGCGATGCGCCAGCGGGTGGAGCAGCTGGGCGGCGTATTCTCGGTGGAAAGCTCGCCCGGCGAAGGGACGATAGTGGCCGCCCAGGTTCCGACCCGCCTGCAGACGGGACAGTCAGCGGAGGCAGAGCGGGTAGGGCAGGCGGAGCAGCCACTCCAGCCGGAGCGGGTAGGGCAGGCGGAGCAAACAGACCGGGAGCAGGCATGA	MPSPATPPEVPSTGAALPAGSDAPPGRLGRIDAAVHLGFAVLLVASAVRYAMRHSLQDNLLVLGLAGAVCAVYAVIAVLARQRRPWAVWMVVLVAIWAVLVIAAPSFAWCSFAIFFLCRTAFTGTVGYVAAGATAAATAVGLFRLSDGTDLAMLLGPLAVGVMLTLIYDRIEHDAEQQRRLHAEVSQVQGELAASERRAGTIAERERVSREIHDTVTQGLASSLLLLEAADRSWPSQESRRDVSQATELLRRNLSETRSLVHELASPGLDVSPLAEALHQAAARYVPHARLLVTGEPGNVTTEVRHTLLRVVQSAAANIQQHANATTATVTLGFLPDSVTLDVYDDGTGFDPAAAAPPSDAGGYGLRAMRQRVEQLGGVFSVESSPGEGTIVAAQVPTRLQTGQSAEAERVGQAEQPLQPERVGQAEQTDREQA				NA	NA	NA	NA	NA
D1-29_00652	594			hypothetical protein	GTGAAGAAGTCAAACAAGATTGCCGCCGCCGCCGCTGCCGGAGCCTTGCTGCTGACCGGAGGGCTGACCGCTGCGGCGAATGCCGGGCCCGGCCAAGCGGCTGCCCCCGCTGCACTTCAGGCGGCCGTGTCCGCCGTGGACGTCCCGCAGGCACCGGAAACGGTTGTGGCGCAGCAACGCATCACCGTCGGGGCCTCGTCCGACGCTGTCAGCGCCGCCCTGGCCAAATGCCAGGCGGACAAACTGCCGTTTGTCACGGTGGCGTTGGTGGACAGGTTCGGCACGGTCCAGGCTCTCCTGCGCGGGGACAACGCCGCCGAGCACACCATTGAGGCAGCGAAGCAGAAGGCCTACACCGCTGCTGCCTTTGGTGCACCGACGAGTGAGCTCGCCAAGCGCATCAACGGCACGGGCCCCAGCATCGCGGACCTCCCCGGCACTCTGTTCCTGGCCGGCGGTGTTCCGCTCAAGGTCAATGGAGTCTCCGTGGCCGGGATCGGTGTGGGTGGCGCCCCCGACGGCAACCTGGACGAAGCGTGCGCTGCCGCCGGTGCTGACGCCATCGCCGCTGCGGCTGCCGGCGCAGCCAAGTAG	MKKSNKIAAAAAAGALLLTGGLTAAANAGPGQAAAPAALQAAVSAVDVPQAPETVVAQQRITVGASSDAVSAALAKCQADKLPFVTVALVDRFGTVQALLRGDNAAEHTIEAAKQKAYTAAAFGAPTSELAKRINGTGPSIADLPGTLFLAGGVPLKVNGVSVAGIGVGGAPDGNLDEACAAAGADAIAAAAAGAAK				NA	NA	NA	NA	NA
D1-29_00653	732			hypothetical protein	ATGAGGCGGTTCAGCTACTGGCGCCCGGCACGGAGGGCAACGGTCCTTTTCCTGGCCTGTGGTGTAACGGTCTGTTTGGCGGCGTGCCAGGCGGATCCTGGTGAGCCACAGCAGGAGGGGGCGCCGGCGTCGTCCGTTCCGGCAAACCCGGAGCCTACCCCAGCCGCCTCTTCCACCGATGCCACTTCCCCAGCCGCCACAACAGCTCCTGCCACGCCACCGCCGCTGTCCGCGGAGGACCAGGCCCGGCTCGACCAGGAGCTCATTGCTGCCGCGAAGGCCAACAACGTGGCGCTGGTGACCGAGCTGATCGGACGTGGTGGAAACGTCAATGCCAAGGATGCCATCCAGGACTCGGCGTTCCTCTATGCCGGGGCGGAGGGCTTCAACGAGGTCCTCCGGCTGACCCTGGACGCCGGTGCAGACGTCACCAGCACCAACCGCTACGGCGGGACGGCACTGATCCCGGCCAGCGAGCACGGCCACGTGGAGACCGTCCGCATCCTCCTGGCAGCCGGCGTGCCCGTGAACCACGTGAACAACCTGGGCTGGACCGCCATGCAGGAGGCCATTCTGCTCAACAACGGCGGGCCGAGGCAGCAGGAGGTGGTATGGCTGCTCCTCGAGGCAGGTGCTGACCCCACCGTCCGGGATCCCCAGGGCCGCACAGCCCTGGAGAACGCCGAACGCCTGGGCTTCGTGGAGATCGCCAACCTCATCCGCGCCGGCTAG	MRRFSYWRPARRATVLFLACGVTVCLAACQADPGEPQQEGAPASSVPANPEPTPAASSTDATSPAATTAPATPPPLSAEDQARLDQELIAAAKANNVALVTELIGRGGNVNAKDAIQDSAFLYAGAEGFNEVLRLTLDAGADVTSTNRYGGTALIPASEHGHVETVRILLAAGVPVNHVNNLGWTAMQEAILLNNGGPRQQEVVWLLLEAGADPTVRDPQGRTALENAERLGFVEIANLIRAG				NA	NA	NA	NA	NA
D1-29_00654	1197	fadA		3-ketoacyl-CoA thiolase	ATGAGCCTGAAAGAACAGTTTGGAAAAGACGTCCTACTCACCGGATGGGGCCACAGCCGGTTCGGCAAGCTCACGGAGGAGACGCTCGAGTCGCTGATCGTGCAGGTTGCCACGGAGGCCATCAGCAGCGCCGGCATCGAGCCCGGGCAGATCGACGAGATCTACCTGGGCCAGTTCAACTCGGGCATGATGCCTTTGGCCTTCCCGTCGTCGCTCGCGCTGCAGGTCTCACCGGACCTGGCCAACGTCGCTGCCACCCGGGTGGAGAACGCCTGCGCCTCGGGATCCGCCGCCTTCCAACAGGGCACCAAGTCGCTGCTCGCCGGAACGGCCAGGACGGTCCTGGTCATCGGCGCCGAGAAAATGACGCACGCCGGCGCGGACGTCGTCGGGGCCGCCCTGCTGGGCGCTGACTACGACATGGCCGGCCACCCGTCCACCACCGGATTCACGGGGCTCTTTGCCGACGTCGCTAAGCACTATGAGAAGCGGTACGGGGACGGCAACGGAAAACTGGGCGACGTCCTGGGCACCATCGCGGCGAAGAACCACCGCAACGGTGTGGACAACCCCTACGCCCAGCTTCGCAAGGACCTTGGCGAGGAGTTCTGCCGCACCGTCTCGGACAAGAACCCCCTGGTGGCGGATCCGCTGCGCCGCACCGACTGCTCCCCCGTGTCCGACGGCGCCGCCGCCGTCGTGCTGTCCGTGTCACCCACGGGAGGTGTTACGTCGCCGGTACGGCTGGCCGGTTTCGGTCACGCCAACGACTTCTTCCCCGCCGAGCGGCGGGATCCCACTGCCTTCGCCGCCACCCGCCAGTCATGGCACCGCGCGCTGGCGATGGCCGGCGTCGCGCTGGAAGACCTGGATTTCGCAGAAGTCCACGACTGCTTCACCATCGCCGAACTGGTGATGTATGAGGCCGTGGGACTCACGGAGCCCGGCCAGGGAGCCCGCGCTGTGGAGGAAGGCTGGGTGTTCAAGGACGGCAGACTGCCCATCAACGTCTCCGGCGGGCTCAAGGCCAAGGGACACCCTGTCGGCGCAACTGGAGTATCGCAGCACGTCATCGCGGCCATGCAGCTGACAGGCACCGCGGGCGACATGCAGCTGGCCAAGCCACGCCGGGCAGCGGTGCAGAACATGGGCGGCGTGGGCATCGCCAACTACGTCAGCGTGCTCGAAGCCGTGTAA	MSLKEQFGKDVLLTGWGHSRFGKLTEETLESLIVQVATEAISSAGIEPGQIDEIYLGQFNSGMMPLAFPSSLALQVSPDLANVAATRVENACASGSAAFQQGTKSLLAGTARTVLVIGAEKMTHAGADVVGAALLGADYDMAGHPSTTGFTGLFADVAKHYEKRYGDGNGKLGDVLGTIAAKNHRNGVDNPYAQLRKDLGEEFCRTVSDKNPLVADPLRRTDCSPVSDGAAAVVLSVSPTGGVTSPVRLAGFGHANDFFPAERRDPTAFAATRQSWHRALAMAGVALEDLDFAEVHDCFTIAELVMYEAVGLTEPGQGARAVEEGWVFKDGRLPINVSGGLKAKGHPVGATGVSQHVIAAMQLTGTAGDMQLAKPRRAAVQNMGGVGIANYVSVLEAV	PGPT0008320_5674	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-29_00655	702	scoB_1	COG2057	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit B	ATGGCCTGGACCAGGGATGAAATGGCTGCCATCGCGGCCGAAGAATTGAACGACGGCGACTACGTGAACCTGGGCATCGGCATCCCCACACTGGTGGCCAACAACCTGCCCGACGGCGTCCGCGTGGTCCTGCAGAGCGAAAACGGCCTGCTCGGCATGGGTCCGTTCCCGTATGAGGGCGAGGAAGATGCCGATCTCATCAACGCCGGCAAGCAGACCGTCACAGTCCTTCCGGGCGGCAGCATCTTCGACTCCGCCACCTCCTTCGGGATGATCCGCGGCGGCCACGTCAAGGTGGCCATCCTGGGCGCCATGCAGGTCTCGGGCAACGGCGATCTGGCCAACTGGACCATCCCCGGCAAGATGGTCAAGGGCATGGGCGGCGCCATGGACCTGGTGGCCGGGACACCGCGTGTTGTTGTCCTCACCGAACACGTTGCCAAGGACGGCACCGCAAAAATCGTCACCGAATGCACCCTTCCGCTGACAGGGCTCAGCTGCGTGGACCGGATCATCAGCGACCTCGCGGTCTTTGACCTGGTGAGGAATGAACAAGGAACAGCCGACGGCGGCCGGCAGCTCACCCTGACCCGCCTGGCGCCAGGCGTCAGCGTGGAGGAGATCCGCGGGAAGACCGAGGCGGAGTTCGCCGTCGCACTGGAAAACAACACTGCCCCCGCCTTCGAAGGAGCCCCAGCATGA	MAWTRDEMAAIAAEELNDGDYVNLGIGIPTLVANNLPDGVRVVLQSENGLLGMGPFPYEGEEDADLINAGKQTVTVLPGGSIFDSATSFGMIRGGHVKVAILGAMQVSGNGDLANWTIPGKMVKGMGGAMDLVAGTPRVVVLTEHVAKDGTAKIVTECTLPLTGLSCVDRIISDLAVFDLVRNEQGTADGGRQLTLTRLAPGVSVEEIRGKTEAEFAVALENNTAPAFEGAPA	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
D1-29_00656	720	scoA_1	COG1788	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit A	ATGTCCAAACTCAAACCCAGCGCTGTCGAGGCCCTGCATGACGTGCTCAAGGACGGCATCACGCTGGCCGTCGGCGGCTTTGGCCTCAGCGGTATCGCGGCGGACCTCATCGACGCTGTCCGGAACTCCGGCGTCCGGAACCTGACAGTCGTGTCCAACAACATGGGCGTCGACGGCAAGGGCCTGGGGATACTGATCGAGGCCGGCCAGGTCCGCAAGGTCATCGCCTCCTATGTGGGCGAAAACAAGCTGTTCGCCGAGCAATACCTCGCCGGCCTCCTGGAGGTGGAGTTCACCCCGCAGGGGACCCTCGCCGAACGGCTTCGAGCCGGCGGGGCGGGCATCCCGGCGTTCTACACCAAGACCGGCGTGGGAACCCTGGTTGCCGAAGGAAAGCCACATGAGGTGTTCGACGGCGAAACGTACGTCCAGGAGCGGGCCATCCTGGCCGATGTCGCCCTCGTCCACGCGCACACTGCCGACACAGACGGGAACCTCGTGTACAGATACACGGCCCGGAACTTCAACCCGGTGGTAGCCAGCGCCGGCGCGGTCACCATAGCGGAAGCCGAAGTGATCGTGGAGCGCGGCGAGCTGGATCCGAACCACATTGTCACGCCAGGCGTCTACGTCCAACGGCTTGTCCAGTCGTCCGGGAGGGTGAAGGACATCGAACAGCGGACCGTCCGCCCGCGCGCCTCCGAACCCGTCCCCGCCTGA	MSKLKPSAVEALHDVLKDGITLAVGGFGLSGIAADLIDAVRNSGVRNLTVVSNNMGVDGKGLGILIEAGQVRKVIASYVGENKLFAEQYLAGLLEVEFTPQGTLAERLRAGGAGIPAFYTKTGVGTLVAEGKPHEVFDGETYVQERAILADVALVHAHTADTDGNLVYRYTARNFNPVVASAGAVTIAEAEVIVERGELDPNHIVTPGVYVQRLVQSSGRVKDIEQRTVRPRASEPVPA	PGPT0008325_590	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008325-scoA-K01028	NA	NA
D1-29_00657	786	kipR_2	COG1414	HTH-type transcriptional regulator KipR	ATGAACCAACTTCCCGTCCAGGGTGCCCAGGTAGTCAGCCGAATTGCTGGCCTGTTACGGATTGTGGGGCGAAAGCCCGAGGGGAGCACACTGGTTGAAGTGGTCCGGGAATCGGGCCTCACGCGGCCCACGGTTCACAGGCTCCTGACGTCCCTGGCGTCCGAGGGGCTGCTGGACCACGAGGCCCGCACCGGCAACTGGGTCCTGGGCCCGGAGATCCTGCTGATGGGCTCGGTTGCTTCGGCCCGGTTCCCGCTTGAGGAGATCGCCCGGCCCAGCCTCCGCCGGCTGGCAGAGGAAACGGGGGAGAGTGCCTTCTTCTCCATCCGCCGCGGTTTTGAAACGGTCTGCCTCCTGCGCGAAGAAGGCAGCTTTCCGGTCCGTTCCTTTGTGCTGCACGAAGGCGTCCGGTTCCCGTTGGGTGTTGCCTCGGCAGGAACCGCGATCATGGCCTTCCTGCCGGAAGCGGAGCAGGACCAGCTGCTGGATAACTGGGCGGCCCATGCCGGACAGTTCGCCGCCGGTCATCCCGAAGGCGTGGTCCGGGAAAATTTGCAGAAGACCCGTGAGGCTGGCTTTTCCGTCAACCCGGGCCTGGTGCTGGAGGGAAGCTGGGGGATGGGCGCCGCCGTGTTTGATCCGGCGGGTCGCCCGTCCGGTGCGCTGTCCCTCACCGGCATCGAGCCGCGGTTCCGGCAGGAGCGCCGGGACTTCCTGGGGCGGCTGCTGATGGAGGAGGCGCACCGGATCACCGTTCAGCTGGCCGGCCCCGGCAAGGAACTGTAA	MNQLPVQGAQVVSRIAGLLRIVGRKPEGSTLVEVVRESGLTRPTVHRLLTSLASEGLLDHEARTGNWVLGPEILLMGSVASARFPLEEIARPSLRRLAEETGESAFFSIRRGFETVCLLREEGSFPVRSFVLHEGVRFPLGVASAGTAIMAFLPEAEQDQLLDNWAAHAGQFAAGHPEGVVRENLQKTREAGFSVNPGLVLEGSWGMGAAVFDPAGRPSGALSLTGIEPRFRQERRDFLGRLLMEEAHRITVQLAGPGKEL				NA	NA	NA	NA	NA
D1-29_00658	357			hypothetical protein	ATGACCCACGACGTCGACACGTACCTCGCGGGGAAGCCGCCTGCCGCCGTCGAACTTTTCCGCCGGTTCCGCGCCTTGGTACTTGCCGCGGGCGAGTGCGAGGAGCGGGTTCACCGCACCGAGGTGGCGTGGGCGGACCGGCGCGTCTTTGCCGAGGCATTCATTCTCTCCGGCCGGCTGGAAGTGGCCATTGACCTGTTGCGGCAAGTGGACCACTCTGCGCTGCTGCAGAAATTTCCTACGACCAGGAAGGTCTACACGCACCGGTTTTCGTTCACTCATGCCGGCCAGCTGGACGCAGACATCGAGGCGTGGCTAGTGGAAGCACACGACACCGTGGGCCCCGGCACGCGCTAG	MTHDVDTYLAGKPPAAVELFRRFRALVLAAGECEERVHRTEVAWADRRVFAEAFILSGRLEVAIDLLRQVDHSALLQKFPTTRKVYTHRFSFTHAGQLDADIEAWLVEAHDTVGPGTR				NA	NA	NA	NA	NA
D1-29_00659	855	nadE_1	COG0171	NH(3)-dependent NAD(+) synthetase	ATGCGCGAACTCCAGGCCAGAATCGTTGAAGAAATGGGCGTGCAGCCCCGGATCGACCCCGCCGGGGAGGTGCGCAAACGCGTCGACTTCCTCAAGGACTACCTCAAGGCAACGCAGACGAAGGGCTTTGTCCTGGGCATCTCCGGCGGCCTGGACTCCTCGCTGGCGGGCCGCCTGGCCCAGCTTGCCGTGGAGGAACTGGAGGCCGAAGGTGTCGAGGCCAACTTTGTGGCAGTGCGGCTGCCTTACGGTGTGCAGCACGATGAAGAGGACGCGCAGGCGGCTTTGGACTTCATCCAGGCCAAGACCCAGTGGACGTTCAACATCTCCGCCGCCGTGGACGGCTTCGAGGACGAGTTCGAAAAGACTGTGGGAAACGGTATTTCCGATTTCCACAAGGGCAACACCAAGGCACGCACGCGCATGACCGCCCAGTATGCCCTGGCCGGTGAATACAACTACCTGGTCATCGGCACGGACCACGGCGCCGAGTCGGTTACGGGGTTCTTCACCAAGTACGGCGACGGCGGAGCTGACATCCTGCCCCTGTTCGGCTTGAACAAGCGCCAGAACCGTGAACTGCTCGCTGAACTCGGGGCGCCGGCACGCATCTGGGAAAAGGTGCCCACCGCCGACCTTCTGGACGGCAAGCCCGGCCGCACTGACGAAGACGAACTGGGCCTCAGCTACGACCAGATCGACGACTATCTTGAGGGCCGGGACGTACCGGACGAGGTCGCTGAAAAGATTGAAGGTAAGTACCTTCGCACACGTCACAAGCGCACGGTGCCCGTCAGCATCTTCGACTCCTGGTGGAAGCATGAGGGTCCCGAGGAGCCCCGCGTCGGCCTCTAA	MRELQARIVEEMGVQPRIDPAGEVRKRVDFLKDYLKATQTKGFVLGISGGLDSSLAGRLAQLAVEELEAEGVEANFVAVRLPYGVQHDEEDAQAALDFIQAKTQWTFNISAAVDGFEDEFEKTVGNGISDFHKGNTKARTRMTAQYALAGEYNYLVIGTDHGAESVTGFFTKYGDGGADILPLFGLNKRQNRELLAELGAPARIWEKVPTADLLDGKPGRTDEDELGLSYDQIDDYLEGRDVPDEVAEKIEGKYLRTRHKRTVPVSIFDSWWKHEGPEEPRVGL	PGPT0013445_815	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
D1-29_00660	576	pyrE	COG0461	Orotate phosphoribosyltransferase	ATGACTTCTTCCCCCCTCGATACCGCCTCCGCACGCGCCCGCCTTTTGGAACTGATCAAGGAGCTCGCCGTCGTCCGGGGCAAGGTCATCCTCTCCAGCGGAGCGGAGGCGGACTATTACATTGACCTGCGCCGCATCACCCTGCACCACGAGGCTTCCAAGCTGGTGGGTCAGGTCATGTTGTCCCTGGTGGACGACGCCGGCATTGACTTTGAGTGCGCCGGGGGCCTGACCATGGGGGCAGACCCAGTGGGTACCGCTGTGATGCACGCCGCGGCAGATGCCGGGCGGACAGTTGACGCCTTTGTGGTGCGCAAGGCGCAGAAGTCCTACGGCATGGGCCGCCAGGTTGAGGGCCCGTCAGTTGAGGGACGCAAGGTACTGGTCCTGGAGGACACGTCCACCACAGGCGGCTCTGCCCTGACCGCTGTTGAGGGTGTCCGCAAGGCCGGGGGGAATGTGGTGGCGGTTGCCGTCATCGTGGACCGGGACACCGGAGCGAAGGAAAAGATCGAGGCCGAAACCGGTGTGCCCTATCTTTACGCCTTCGGCAAGGACGAGCTGGGACTCGCCTGA	MTSSPLDTASARARLLELIKELAVVRGKVILSSGAEADYYIDLRRITLHHEASKLVGQVMLSLVDDAGIDFECAGGLTMGADPVGTAVMHAAADAGRTVDAFVVRKAQKSYGMGRQVEGPSVEGRKVLVLEDTSTTGGSALTAVEGVRKAGGNVVAVAVIVDRDTGAKEKIEAETGVPYLYAFGKDELGLA	PGPT0021200_4143	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762	NA	NA
D1-29_00661	759			hypothetical protein	ATGCTCCCGCCAGAACAGCCTTTGAATACCACCGAGCAAATCCAGAACCTCATCCTGGACAGTGCGGATTTTGAGGCGTTCGTCAACGAACTTGCCAGGTTCTCAGCCCACCAGATGGCCGGCGACGGCGACGACGCCTTGTGCGGGATCACCCTGCTCAGGGACCGCAAAGCGGCCACGATCGGCTGGAGCAGTGACTCCGCGCGGGAAGTGGATGAAATCCAGTACTCGCTCTCACAAGGACCTTGCCTCACAGCGGCCGAGGAAGAACGTGAGGTCCACGTGCCGGACCTGTACCAGGAGAACCGCTGGGGCCCTGACTATGCCAATGCCGTGGCATCCCACGGACTGCGGTCAGTCCTCTCCGTGCCGTTCAACCTCCAGGGCGAGGCCAAGGCTGCCCTGAACCTCTATTCAGACGTGCCGAACAAATTCGATGAGCGCGCGTCCGCCCGGGCCAGGGGCTACACACGGGAAATCTCACAGGCGCTGCGGCTGGCTGTCCGCTTTTCACTCCACACGGACAGTGCCGCCAATCTTCGGGCCACCCTGGAATCCAGAACCATCATCGACATCGCCATAGGCATTGTGATGGCACAGAACCGCTGCAGCCAGGATGCGGCCGTCCGGATCCTCACGGACGCGTCCAGCAACAGCAACACCAAGATCCGCGACATCGCGAAGTCGCTGGTTGAATCCGTCGGCGGGACGGGAACCCGCACGCACTATCAGGAGCCGGACCAGGCCCAGGCCGGTTAG	MLPPEQPLNTTEQIQNLILDSADFEAFVNELARFSAHQMAGDGDDALCGITLLRDRKAATIGWSSDSAREVDEIQYSLSQGPCLTAAEEEREVHVPDLYQENRWGPDYANAVASHGLRSVLSVPFNLQGEAKAALNLYSDVPNKFDERASARARGYTREISQALRLAVRFSLHTDSAANLRATLESRTIIDIAIGIVMAQNRCSQDAAVRILTDASSNSNTKIRDIAKSLVESVGGTGTRTHYQEPDQAQAG				NA	NA	NA	NA	NA
D1-29_00662	603			hypothetical protein	ATGGACCGCAGACTTTATGCCCACGTTAAGCTGGATGTCACCGCTGATGTCGTGAGGATCGATGTTCGGGGCAGCCTCAATGAGCAATCCCGCCCATCCCTTGTCCACGTCATCCGCCGCGTCAGGCGCATGGGGATCAGATCGCATATCCGGGTTGACCTCTCCCGTGCAGCCATTATCGAATCATCAGCACTCGCGGGTCTTCGCAATGATCTTAACTCCATTGACGGTGCCACCTTTCCCGGCAGCAACGGAGCAGGCGTCTCCCTTGATCTGACGGCCTGGACAGAGGAGAGCTCCACCGCCCCCCGCCTCGGAGAGCGGCCGCTGGACATTGCCGGTGGACTGACAGATGTATTCGAAGAGCAGGGCGCCGGCGGAGATCCTGCCGGTTTGGGAGAGCTGGGGGCCCGTCCGTTATCGGAGTATTCCGACGACGAACTCCTGGCCGCCAGCGACTCGATCTTTTCGCTGTTGGACAGTCCCGAGGCGTTCGCCGGATCTGATCTCCTGGCCCGCTACAACGACATAGGCGAGGAGATTTCGCGCCGGAATCCCTCCGATGCTGTTTTCAAGCCGGCAGCGGGGGAGGCCGCTAGCTGA	MDRRLYAHVKLDVTADVVRIDVRGSLNEQSRPSLVHVIRRVRRMGIRSHIRVDLSRAAIIESSALAGLRNDLNSIDGATFPGSNGAGVSLDLTAWTEESSTAPRLGERPLDIAGGLTDVFEEQGAGGDPAGLGELGARPLSEYSDDELLAASDSIFSLLDSPEAFAGSDLLARYNDIGEEISRRNPSDAVFKPAAGEAAS				NA	NA	NA	NA	NA
D1-29_00663	897			hypothetical protein	ATGCTGTTGACCCGGCGAGTCCAGACGGAGCGCAGGGTCAACAGGATCCTCACTGTCCCGGACGATTTCGCGGACGCTTACTACCCGGATGCCAGCTGGTTCCTGTTCCCCGGCTACAAGACCAGCTGGGAGGAAGCCCAATGGATCCTGAACTCCCTCCGCGGTGCCCTGAACAAGCGAGGCCAGCTGGCCGCCGTCGGCTATTCCAATCAGGGGCTGGATATTGACGAACTGGTGATCGCCGTCATTGAGCACGTCAGGGCGAGAAAGCTTACCAAGCTGTTCTTCTACGGCCACAGCTTCGGTGGCATGGTGGCCACCCAGGTAGCCGCCCGGCTACGCGAACTTCACGGCGTTGAAGTGGCGTTCATCCTGCTCGATTCCACGCCCTACAGCAAACACGACGTCCTGGACCAGAGCTGGTTCGACGGCGTTGTGTTCCTCTACGAGCGCGGATTCCGGGTCCCGTCGGTGGTCCGCGGCGGCTATGAGCTGGGGGAGCGCGTCATCCACAAGGACGAACGGACCTGGCGCCAGATCCTGGACCAGACCATGGAGCAGCTGTCCCCGATCGCTCCCTCCAGTGTGCTCATCCAGTCCGAGTCCGCCTACATCTACCACTTTGACGGGATGCGGTTCGCGGACAAGCTTGGTGGGACCCGGATGGCGTTCATCGGCAATCCATACGACCGGACAGTCCGGTACCAGACCGCGTTGGAAGCCTGGACGGTGGCCTACCGTGCCAACATGGTGTCCTCCGACCAGCAGACGGACGGTGCCCGGCCGGCGCATGCCAGCCCGGGATGGAATCCAACGATTTACCGGCCCATCCTGGAGCGGCTCCTGAACGAGATCTTCCCCCTCCCCGGCGGAGGGTCCAGGGTGACGGTCTTCTAA	MLLTRRVQTERRVNRILTVPDDFADAYYPDASWFLFPGYKTSWEEAQWILNSLRGALNKRGQLAAVGYSNQGLDIDELVIAVIEHVRARKLTKLFFYGHSFGGMVATQVAARLRELHGVEVAFILLDSTPYSKHDVLDQSWFDGVVFLYERGFRVPSVVRGGYELGERVIHKDERTWRQILDQTMEQLSPIAPSSVLIQSESAYIYHFDGMRFADKLGGTRMAFIGNPYDRTVRYQTALEAWTVAYRANMVSSDQQTDGARPAHASPGWNPTIYRPILERLLNEIFPLPGGGSRVTVF				NA	NA	NA	NA	NA
D1-29_00664	831	hdpA		Dihydroxyacetone phosphatase	ATGGCAAAAGCGGACCAGGTCAGCGAATCGTCAACCATCTACCGAAGCGGCCGGGAAATTGAGTGCTGGCTGACGGACATGGACGGCGTCCTGGTCCACGAAAACCAGGCGGTCCCGGGCGCAGCTGAACTGATCCAGCGTTGGGTGGATACTTCCCGGCGCTTCCTGGTGCTGACGAACAACTCCATCTTCACTCCCCGCGACCTTGCCGCACGGCTCCGCGCTTCCGGTTTGGAGGTTCCCGAGGAGAACATCTGGACCTCCGCCCTGGCCACAGCCCAGTTCCTCAAGAACCAGGTGCTGGGCTCGGGTTCCGGCAACCGCGCCTACACCATTGGTGAAGCCGGGCTGACGACGGCGCTGCATGAGGCAGGCTTCATCCTCACGGACCAGGACCCGGACTTTGTGGTGCTGGGCGAAACCCGCACGTACTCTTTTGAGGCGATCACCATGGCCATCCGCCTCATCCTGGCCGGCGCCCGGTTTATCGCCACCAACCCCGACGCCACGGGCCCGTCGAAGGACGGCCCCATGCCCGCCACGGGCGCCATCGCCGCTCTTATCACCAAGGCAACCGGACGGGAACCCTACATTGTGGGCAAGCCGAATCCCATGATGTTCAGGTCCGCGATGAACCAGATTGATGCACACTCGGAGACCACTGCCATGATCGGTGATCGGATGGACACGGACATCATTGCGGGCATGGAAGCGGGCCTGCATACTGTCCTGGTGCTGACCGGCATCACCCAGCGCGATGACATCGCGTCGTACCCCTTCCGGCCCAACCAGGTGCTCACTTCGGTGGCTGACCTGAAGAACCAGATTTAG	MAKADQVSESSTIYRSGREIECWLTDMDGVLVHENQAVPGAAELIQRWVDTSRRFLVLTNNSIFTPRDLAARLRASGLEVPEENIWTSALATAQFLKNQVLGSGSGNRAYTIGEAGLTTALHEAGFILTDQDPDFVVLGETRTYSFEAITMAIRLILAGARFIATNPDATGPSKDGPMPATGAIAALITKATGREPYIVGKPNPMMFRSAMNQIDAHSETTAMIGDRMDTDIIAGMEAGLHTVLVLTGITQRDDIASYPFRPNQVLTSVADLKNQI	PGPT0021435_79	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021435-nagD-K02566	NA	NA
D1-29_00665	1110			hypothetical protein	ATGACCAACCAGTACAACCCACCGCCGCCTCCACCCCAGGGGCCTGACGGCCACCAAAACGGCTATCCGAACCCGCCGTACCAGCCTGCGCCTGACCAAACGGCGCCCTACCAAACCGCGCCGTACCAAACCGCGCCGTACCAAACCGCGCCGGACCAAAACGTTCCGTATCCGCATGGATTCCCGCAGGCCGGCCAGCCGGGACCGAATCAAGCCGGCCCCTACCAGCCCGGACCGAACCCCTCTGAACCCGGCAGCGGCAACAAAACCATGTTCATCGTTCTGGGCGTCGTCGCAGCAGCTGTCATCGCGGCTCTGGTGGCGGTATTCATTTGGGTCATCCCGGCATTCAGCAACCAGGGAGGGGATACTCCGGATCCTGTGGCGGCCTCAGCCGATCCCACAGATGGTGCAGACGGAAAGAAAACGGCAGAACCTTCCGCCGCTCCCAGCCCCACTGATACGTCGGCGGACATGCCGGCGGGCGCCATTCCGCTGCCCCCGGGTTGGGACACGCTGCAGGGACCCACTGACATCCCGGCCGACGGCGACCCGCTGTTCCGGAAGTTCGTCACCGGCGAATCCTCCTTCCAGTACCTTGCCTCCTGGACCCAGGACGATACGTTCGGAATCACCACGGACCCCATTTCCGGTGTGACCATGCAGCAGAAGGCGCAAGGCACCGAGGAACGGGATGGCGACGGCATCGCCCTGGCGTTCGCGTTTTTCGCGGAAGCGGAGGAGGGCAAGTACGGCAAGGAGCCGGCCAAGATCCAGGCGGGAATCCAGGAAATTGAGGCAAAGTTCAAGGCCATGCCCGCCGCGGAGCTGCCCCAGCACCTTGTGGGACACAAGTGCACCAGCAATTTCAAGACCACGACGCCGGAACTCAGGCAGTTCCGTCGCGCAGTTGCCGTGGTGATTGGCTTCACCTGCACCAATGCCCGGGCGGAAACCATCCAGGCCGTCAACCTTTTCACGGTGACGCCTTGGGGAACCCCGCAGATGATGGGCATCAGCGGGCACGAAAGCTACTGGGCGGCCAACCCCGGGCTGATGGAGAAGCTGGGTAACTCCTACCGCGCCAATAAGTGGAAGCTGGCCGGCTGA	MTNQYNPPPPPPQGPDGHQNGYPNPPYQPAPDQTAPYQTAPYQTAPYQTAPDQNVPYPHGFPQAGQPGPNQAGPYQPGPNPSEPGSGNKTMFIVLGVVAAAVIAALVAVFIWVIPAFSNQGGDTPDPVAASADPTDGADGKKTAEPSAAPSPTDTSADMPAGAIPLPPGWDTLQGPTDIPADGDPLFRKFVTGESSFQYLASWTQDDTFGITTDPISGVTMQQKAQGTEERDGDGIALAFAFFAEAEEGKYGKEPAKIQAGIQEIEAKFKAMPAAELPQHLVGHKCTSNFKTTTPELRQFRRAVAVVIGFTCTNARAETIQAVNLFTVTPWGTPQMMGISGHESYWAANPGLMEKLGNSYRANKWKLAG				NA	NA	NA	NA	NA
D1-29_00666	618	trmH		tRNA (guanosine(18)-2'-O)-methyltransferase	GTGCCCAAGGCGGAGGTCGGCGTCGGGCCCTGGGAAGGGGACCTCCCTTCCGGTGACCATTGGGACCCGGACCTGCTCGCCGACGGTGACCGGCGAAACGTGGTGGACCAGTACCGCTACTGGAAGCACGACGCCATCGTGGCCGACCTCGATTCCAGGCGCCACAACTTCCACATCGCCATCGAGAACTGGCAGCACGATCTCAACATCGGCACGGTGGTCCGCACCGCCAACGCGTTCCTCGCCAAGGAAGTCCACATCATCGGACGACGCCGGTGGAACAGGCGCGGAGCCATGGTCACCGACCGTTACCAGCATGTCCGCCACCACCCCACCGTGGAGGATTTCGTGGCATGGGCGCAGGGGGAGGGGCTGGCGATCATCGGCATCGACATCTTCCCGGACTCGGTGCCGCTGGAAACGTACGAGCTGCCCAAAGACTGCGTGCTCGTGTTTGGGCAGGAAGGCCCCGGTCTGACCCCCGAAGTGCATGAGGCGGCGCTGGCCACCCTCTCCATCGAGCAGTTTGGCAGCACCCGCTCCATCAACGCCGCCTCGGCTGCGGCGATCGCCATGCACGCCTGGGTCCGCCGGCACGTTTTCAACCAGCACGTCTGA	MPKAEVGVGPWEGDLPSGDHWDPDLLADGDRRNVVDQYRYWKHDAIVADLDSRRHNFHIAIENWQHDLNIGTVVRTANAFLAKEVHIIGRRRWNRRGAMVTDRYQHVRHHPTVEDFVAWAQGEGLAIIGIDIFPDSVPLETYELPKDCVLVFGQEGPGLTPEVHEAALATLSIEQFGSTRSINAASAAAIAMHAWVRRHVFNQHV				NA	NA	NA	NA	NA
D1-29_00667	933			hypothetical protein	ATGCACAGGGCGCCCCTCCCCGAACACCTCAGGCAGGGTTCCTTTTCGCTCCGCGCGTCGGATAAGGCCGGCGTCAGCAGGACCCGGACGGCGGCAGGGGACCTCGCCACCGTTTCACGCGGAATCCGGATGTACCTGGGATCAGAGGCTGTGGGTGCCGCAGCGCTTCGTGCCTACACTGAGCTCGACGACGCCTCCGTGCTGTCCCACGGCTCCGCCGCGCGCGTCCTACGCGTCGCCCTGCCACACTGGCTCGAGGATGACTGGCGGATTCATGTGGCCCGCAGACGTGGTTTCAGCACGCCCCGTCGCATCAACGTTGTGGGCCACCTCCTCACGCTGCTCCCGGATGAGGTAGTGGAGTACGACGGCGTCCGCGTCACCTCGCCCGCACGCACTTGGCTGGACCTCGCCTCGATCCTAACCATGGACGAACTTATCGTCGCCGGCGATTCCCTGGTTTGCGGTCACGGCCCTGAGTTTCCCAGGCCACGTGAACCGGTGTGTACACTCGGTGACCTCCTCAACATTATCGGCAGGCATCCGGGGATCCGGGGGATCAGGAGGGCACGAACAGCCCTGGAATCCGTCCGGGTTGGCTCGGGCTCCCAGCCTGAATCGCGGATGCGGCTGGCTATTGTGAGGGCGGGGCTGCCTGAACCCGTCCTGAATTATGTGGTCTTTGGCGCTGACGGACCGCCCGTTTTGTGGCCTGACGCCGCCTACCCGGACCAGCGTATCGCCGTCCAGTACGAGGGCGCCCACCACAATGACTCCGATCAGTACTTGCGGGACATCCGGAGGGCTGACACAACTGCCCAGTACGGCTGGCTTGAGGTCCGCGTGTCCAAGCTTGACCTCGCCGGTGACCGCCCCGCCGTCGTGGGTAAGGTCAGGTCCGCACTGGCCGCTCGGGGCTGGCGCGCGAGATGA	MHRAPLPEHLRQGSFSLRASDKAGVSRTRTAAGDLATVSRGIRMYLGSEAVGAAALRAYTELDDASVLSHGSAARVLRVALPHWLEDDWRIHVARRRGFSTPRRINVVGHLLTLLPDEVVEYDGVRVTSPARTWLDLASILTMDELIVAGDSLVCGHGPEFPRPREPVCTLGDLLNIIGRHPGIRGIRRARTALESVRVGSGSQPESRMRLAIVRAGLPEPVLNYVVFGADGPPVLWPDAAYPDQRIAVQYEGAHHNDSDQYLRDIRRADTTAQYGWLEVRVSKLDLAGDRPAVVGKVRSALAARGWRAR				NA	NA	NA	NA	NA
D1-29_00668	1020	fba_2		Fructose-bisphosphate aldolase	ATGCCCATTGCAACCCCAGAGATCTACTCCGAGATGATCGACCGCGCTAAGACGGGCGGCTTCGCATACCCGGCCGTCAACGTCACCTCCTCGCAGACGCTGAACGCGGCCCTCCGCGGTTTCGCCGATGCTGAGTCCGATGGCATCGTCCAGGTTTCCACCGGCGGTGCCGCCTACTGGTCCGGCGCCTCCACCAAGGACATGGTGGCCGGTTCCCTGGGCTTCGCAGCCTTTGCGCGCGAAGTTGCCAAGAACTACAACGTCAACATCGCCCTCCACACGGACCACTGCCCCAAAGACAAGCTGGACGGCTTTGTGCTGCCGCTGCTGGCCGCTTCCGAGGCCGAGGTCAAGGCAGGCCGCAATCCGCTGTTCAACTCCCACATGTGGGACGGTTCCGCAGAAACCCTGCAGGAGAACCTCCGCATCGCCCGTGAACTGCTGGAGCGCACCGCCGCCGCGAAGATCATCCTTGAAGTTGAGATCGGCACTGTCGGTGGCGAGGAAGACGGCGTCGAGAACGCCATCAACGACAAGCTGTACACCACGGTGGAGGATGCCCTGGCCACCGTCGAGGCCCTGGGTGCCGGCGAGAACGGCCGCTACATCACGGCACTGACCTTCGGCAACGTGCACGGCGTGTACAAGCCGGGCGGCGTGAAGCTGCGCCCGGAGATCCTGAAGGACATCCAAGCCCAGGTGGGCGCCAAGATCGGCAAGGACAACCCGTTCGACCTCGTCTTCCACGGCGGATCAGGCTCCTCTGACCAGGAAATCGCCGACGCCGTGTCCTACGGAACCATCAAGATGAACATCGACACCGACACCCAGTACGCCTACACGCGTCCGGTGGTTGACCACATGTTCAAGAACTACGACGGCGTCCTGAAGGTTGACGGCGAAGTGGGCAACAAGAAGCTTTACGATCCCCGCGTCTGGGGCGCCTCGGCCGAAGCAGGCCTTGCTGCCCGTGTGGTGGAGGCGGCCAAACAGCTCGGCTCCCTCGGCAAGACGTTCTAG	MPIATPEIYSEMIDRAKTGGFAYPAVNVTSSQTLNAALRGFADAESDGIVQVSTGGAAYWSGASTKDMVAGSLGFAAFAREVAKNYNVNIALHTDHCPKDKLDGFVLPLLAASEAEVKAGRNPLFNSHMWDGSAETLQENLRIARELLERTAAAKIILEVEIGTVGGEEDGVENAINDKLYTTVEDALATVEALGAGENGRYITALTFGNVHGVYKPGGVKLRPEILKDIQAQVGAKIGKDNPFDLVFHGGSGSSDQEIADAVSYGTIKMNIDTDTQYAYTRPVVDHMFKNYDGVLKVDGEVGNKKLYDPRVWGASAEAGLAARVVEAAKQLGSLGKTF	PGPT0017615_3009	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
D1-29_00669	396			hypothetical protein	ATGGGCCCCGAGCCCACCCTCTTGCCTGCCGAGACCGAGGTCTACGAGCAGCTGGAGGCGGGCCAGGAGGCACTGGATCTGGTGGAGAAGCACCCCACCTCCTCGCTGCTGTGGGCTGTGCTCGCGGAAGAGGCGTGGGCCGAGGGCCGCACCATCGATTCCTACGCCTATTCCCGTGTGGGCTATCACCGCGGCCTGGATTCGCTGCGGCGTAACGGCTGGCGCGGCGTCGGCCCCATCCCGTGGGAGCATGAGCCCAACCGCGGTTTCCTGCGTGCGCTCTATTCGCTGGGCCGTGCATCGGCGGCCATCGGCGAGGCCGAGGAACCGGAACGGATCGAGAAGTTCCTCAACGACTCCGACCCGGCAGCGAAAGCGGCCATCGAAGGCAAGTAA	MGPEPTLLPAETEVYEQLEAGQEALDLVEKHPTSSLLWAVLAEEAWAEGRTIDSYAYSRVGYHRGLDSLRRNGWRGVGPIPWEHEPNRGFLRALYSLGRASAAIGEAEEPERIEKFLNDSDPAAKAAIEGK				NA	NA	NA	NA	NA
D1-29_00670	633			hypothetical protein	ATGACAGCCCTGGCACCTGAATCTTTTCGCGAGCAGCTCATGAGCCGCCGTTACGAACCCAACGTCGCAGCCGTCAACGAGCTGTGCGATTCCCTGCAGAGCGTCAAGCCGCACACCGAAGTTCCCTACGTTGACCCCATGCACGACGTGGATGAATGCCGCATCATCAGCCTGTACTCGAACATCGGCGAAGCGGACAAGTCCGGGTTCATCACCGCCGGCGACGACGACGCCGCCACCCGCATGCTGGGCGTCCAGTGGAAACTGGGCCTGCGTCCGGAGTTCGTGATGCCGTGGAACGTCCACCCGTGGCACACCCCGGGCGAGCCCAACGGCAAGTTCACGCCGGACCAGATCGCCTCCGGCCTCAAGCCGCTGCTCAAGTTCCTGGCCCTCGTGCCCCGGGCTTCCGTCATCGTGGCCCACGGCACCGAAGCCAACCGCCTGGCCAACCTGCTGCTGAAGACCGAGGTGCCCCTGCTCTGGCGCCGCGGACTGAAAACCTACAAGGTCCGCTCCCTCAGTGGCCGAGCCTTCGCCGGTACTCCGGCCCGGCAGGAACAGTACCTTGAAGAAATGCACGTGGCCTATGCGGATGCCATGGCGCGCACAGGCCTGACGAAGCCCAGCTAG	MTALAPESFREQLMSRRYEPNVAAVNELCDSLQSVKPHTEVPYVDPMHDVDECRIISLYSNIGEADKSGFITAGDDDAATRMLGVQWKLGLRPEFVMPWNVHPWHTPGEPNGKFTPDQIASGLKPLLKFLALVPRASVIVAHGTEANRLANLLLKTEVPLLWRRGLKTYKVRSLSGRAFAGTPARQEQYLEEMHVAYADAMARTGLTKPS				NA	NA	NA	NA	NA
D1-29_00671	1209			hypothetical protein	ATGTCCCCCAATACTGACCACATCCAGGTCACGCATGCAGGTTCACTGCCTCGCACGCCGGAGCTCATCGCGGCAAACGCCACAAAGGAATCCGAGGGCATCACGCCCGAATTCCTGGAGCTGCTGGAAGCATCGGTGGCGGATGTGGTCCAGCGGCAGAAAGACCTCGGCGTCGACATTGCGAACGACGGCGAGTACGGGCACACCATGTCCACTTCCGTTGATTACGGCGCCTGGTGGAACTACTCCTTCGCCAGGCTGGGCGGCCTGGAACCCACTGACGTGGACAGGTGGAAGGACCCCGTGGTGCATCGCTCGTCTCCGGGGCATATTGTGCTGACGTCGTTTCCGGACCGCCGGGACCGGCTGGCTTTCAACGACGCGTACACCGATCCGTCCTCGGGCATCCTGGCGCACCGCAAAAGCGTGACGCAGCCGAAAATCGCGGGACCCCTGACCTACACGGGGCATGACCTGGTGGCCTCCGATGTCACCAATTTGAAAAAGGGCCTGGCCGCGGCGGGCCTGACGGAAGGCTTTCTGGCGTCCCTCTCCCCCGGTTCGTGCGCCAGGGTGGCCAACGAGTACTACAAGTCGGACGAGGAACTGCTGTACGCCTGCGCTGATGCCATGCGGGAGGAATACAAGGCCATCATCGACGCCGGCCTGACGGTGCAGCTCGATGACCCCTCACTCGCGGAAAGCTGGGATCAGATCAACCCCGAGCCGTCGTTGGAGGACTACCTCAAGTTCATCCAGCTGCGCATCGAGGCCACCAACTGGGCCCTGCGCGACCTGCCCCAGGAACAGATCCGCCTCCACGTCTGCTGGGGTTCCTGGCACGGGCCGCACACCACGGACATTCCGTTCGCGGACATCGTTGGATCTGTGCTGCAGGTCAATGCCGGGGCCTACTCCTTCGAGGCCGCCAACGTCAGGCACGAGCACGAGTGGCGGGTGTGGGAAGACACCAGGCTTCCCGAGGGCAAGGCCATCATTCCCGGAGTGGTCTCACACGCAACCAACGTGGTGGAACACCCGGATCTCGTGGCTGACCGGATTGTCCGCTTCGCCGAGCTGGTGGGCCGGGAGAATGTTATTGCGTCCACGGACTGCGGGCTGGGCGGCCGGGTTCACCCGCAGATCGCCTTCGCCAAACTTGAGGCGCTCGGCGAGGGCGCCCGCCGCGCCAGCCAGCGCCTCTGGTAG	MSPNTDHIQVTHAGSLPRTPELIAANATKESEGITPEFLELLEASVADVVQRQKDLGVDIANDGEYGHTMSTSVDYGAWWNYSFARLGGLEPTDVDRWKDPVVHRSSPGHIVLTSFPDRRDRLAFNDAYTDPSSGILAHRKSVTQPKIAGPLTYTGHDLVASDVTNLKKGLAAAGLTEGFLASLSPGSCARVANEYYKSDEELLYACADAMREEYKAIIDAGLTVQLDDPSLAESWDQINPEPSLEDYLKFIQLRIEATNWALRDLPQEQIRLHVCWGSWHGPHTTDIPFADIVGSVLQVNAGAYSFEAANVRHEHEWRVWEDTRLPEGKAIIPGVVSHATNVVEHPDLVADRIVRFAELVGRENVIASTDCGLGGRVHPQIAFAKLEALGEGARRASQRLW				NA	NA	NA	NA	NA
D1-29_00673	1290	purA	COG0104	Adenylosuccinate synthetase	ATGCCAGCTATCGTGATCGTAGGAGCCCAATGGGGCGACGAGGGAAAAGGCAAGGCCACTGATCTCCTCGGCGGCCGCGTCGACTATGTGGTTAAGCCCAACGGCGGCAATAACGCCGGGCATACCGTCGTCGTAGGCGGTGAGAAGTATGAGCTCAAGCTCCTTCCGGCCGGCATTCTCAGCCCCAATGCGGTTCCCATCATCGGCAACGGCTGTGTGGTGAACCTTGAAGCCCTGTTCCAGGAAATTGAGGGGCTCCAGGCCCGCGGCGCAGACACCTCCAAACTGCGCGTCTCCGCCAACGCACACCTGGTGGCGCCTTTTCACCAGGTGCTGGACAAGGTCACCGAACGTTACCTCGGAAGCCGCGCCATCGGCACCACGGGCCGCGGCATCGGGCCCGCCTACATGGACAAGGTGGCCCGGCTGGGCATCCGTGTCCAGGACGTCTTCGACGAATCCATCCTCCGCCAGAAGGTGGAAGGATCGCTCCGCCAGAAGAACGAGCTCCTGGTCAAGGTCTACAACCGCCGCGACATCGATGTTGAGGAGATTGTTGAATACTTCCTGTCCTTTGCCGAGCGTCTCCGCCCGCTGGTCATCGACAGCACACTGGTCCTGAACAAGGCCCTGGATGAGGGCAAGGTAGTGCTCATGGAAGGCGGCCAGGCCACCTTCCTGGACGTGGACCACGGCACCTACCCGTTCGTCACTTCCTCCAACCCCACCGCCGGCGGAGCCTCCGTTGGCTCCGGCATCGGTCCCACCCGGATCTCGCGCTCCATCGGCATCATCAAGGCGTACACCACGCGTGTGGGCGCCGGCCCGTTCCCCACGGAGCTCTTCGACGAGATGGGCGTGTACCTGCAGAAGACGGGCGGCGAGTTCGGCGTCAACACCGGCCGTCCCCGCCGCTGCGGCTGGTACGACGCCGTCCTGGCCCGCCATGCGTCCCGCGTCAACGGCTTCACGGACTACTTCGTCACCAAACTGGATGTACTCACCGGCATCGAGCAGATTCCGGTGTGCGTGGCCTATGACGTCGACGGGGTCAGGCATGACGAAATGCCCATGACCCAGACCGAGTTCCACCATGCCAAGCCCATCTTCGAGTACTTCGAGGGATGGACCGAGGACATTACCGCGGCCCGCACCATGGATGACCTGCCGGAGAATGCACGCAACTACGTCCTGGCCCTGGAAAAGCTCTCCGGCACGCGCTTTTCCGCCATTGGCGTGGGTCCGGACCGTGACCAGACGATTGTGGTTAACGACCTCATCAATGACTAA	MPAIVIVGAQWGDEGKGKATDLLGGRVDYVVKPNGGNNAGHTVVVGGEKYELKLLPAGILSPNAVPIIGNGCVVNLEALFQEIEGLQARGADTSKLRVSANAHLVAPFHQVLDKVTERYLGSRAIGTTGRGIGPAYMDKVARLGIRVQDVFDESILRQKVEGSLRQKNELLVKVYNRRDIDVEEIVEYFLSFAERLRPLVIDSTLVLNKALDEGKVVLMEGGQATFLDVDHGTYPFVTSSNPTAGGASVGSGIGPTRISRSIGIIKAYTTRVGAGPFPTELFDEMGVYLQKTGGEFGVNTGRPRRCGWYDAVLARHASRVNGFTDYFVTKLDVLTGIEQIPVCVAYDVDGVRHDEMPMTQTEFHHAKPIFEYFEGWTEDITAARTMDDLPENARNYVLALEKLSGTRFSAIGVGPDRDQTIVVNDLIND	PGPT0020140_3461	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
D1-29_00674	1296			hypothetical protein	ATGATGCTTCTCGAAAGAGACCTCATCCAGTCCGTCGGCTTCCGCAACGTCACGGAAGGCGGACGTGTGACCGGCTTCCAGTTCAGGGTCCGGATGCCTTCCTACCGGGGCATGGCCGCTTCCCTCATTGACGGCATCGCGGTCCGCGTTGGCGATCTGGTGAACGTTGGCCCCGACGTTCCGCGTTGGACGTTTGGCGGGCGGACCTACACGCTGCAGCAACTCTGGGAAAGTGATGGCGTCCGCTGGCCCTTGGAGGAAGCGGCACTGGTGACCGTTCCCCTCGACGGCGGGCTGCCGCAAGGCGTCCACGAGCTCAGCATCGAGTTGCGGCTGCGAATGTCCTACATTCCCGTCGAGCACCAGCCCACCATCCACCGGGTCAGCCGGAAGGTCACGCTGGCACCGGAAGGCGGCGAAGATACCTTCCGCTACGGCGTTTCCCTGTACAGCTTCATGGGTGACTACGGCACGGTCATGGACCTTGAAACGGCTTTGGCCGCCGTCGCCGACGTAGGCGCCATCGGCGTCGAGATCCTCGGCGAGGGCCACGTCCCCAACTATCCGGAACCTTCTGCGGCGTGGATCGACAACTGGTTCGGCCTGCTCGAGAAGTACTCTTTGGAGCCCACGAACTACGGCTCTTGGATTGACACCCGGCTCCACCCCGGCAGGAGCATGACGGCAACCGAAGGTGCCGAGGCACTGCAACGGGACCTGAGGCTTGCCCACCGGCTGGGATTCGGCTTCGTCCGCCCAAAGATCGGGGTCGTGTCCAGCGACCTGGTTCCGGACCCGATCTGGACGGAGTCAGTGGAACGCTCGCTCGACCTGGCTCACGAGCTGGGGATCATCATCTGCCCCGAGATCCACTCGCCAACGCCCATCAAGCATCCCGTCGTCGAGGACTACATCGGCCTCATCGAACGGACGGGAACCAAGAACTTTGGTCTCCTCATCGACACCGGCATCTTCCAGGACCGGCCCATCCCGCTGCGGGAAGGGGAGACGCGCGAGACCCGCCCCGCCTTCCTGGACGGCATCGGCGTCGATCCGGCCGATTTCGCGGACATCGCCCAGTACGTGGTGTTCATCCAGGCGAAGTTCCACGACATCAACGAGCAGCTGGAAGACCATCAGATTCCCTGGCGGCCCGTGCTGAATGCGCTCAAGGACGCCGGTTACAGCGGCTACCTTTCCAGTGAATACGAAGGCGAACGCACCCCCTGGCGGGCCATCGAGCAGTTGCGGCGCCAGCATGCCCTCATCCGTCGCATTGCGGCCGAACTTCCCTGA	MMLLERDLIQSVGFRNVTEGGRVTGFQFRVRMPSYRGMAASLIDGIAVRVGDLVNVGPDVPRWTFGGRTYTLQQLWESDGVRWPLEEAALVTVPLDGGLPQGVHELSIELRLRMSYIPVEHQPTIHRVSRKVTLAPEGGEDTFRYGVSLYSFMGDYGTVMDLETALAAVADVGAIGVEILGEGHVPNYPEPSAAWIDNWFGLLEKYSLEPTNYGSWIDTRLHPGRSMTATEGAEALQRDLRLAHRLGFGFVRPKIGVVSSDLVPDPIWTESVERSLDLAHELGIIICPEIHSPTPIKHPVVEDYIGLIERTGTKNFGLLIDTGIFQDRPIPLREGETRETRPAFLDGIGVDPADFADIAQYVVFIQAKFHDINEQLEDHQIPWRPVLNALKDAGYSGYLSSEYEGERTPWRAIEQLRRQHALIRRIAAELP				NA	NA	NA	NA	NA
D1-29_00675	1479			hypothetical protein	ATGCCCAATGGATTTATTGACGAATCAAGCCTCCGCCCCCATCCGGAAGGCCTCGCGCTGGTACTGACGCTGCCGTGGTACCGCAGCCTTTGGCTCTCCTCGGTGTCCAGCCTCCGGCTGAGTATCGACGGCCAGGAGATTCCTTCCGGGGACCTGTCACTGGAACTGGGCGGTGTCCGCTACGCGCTTGCCGACTTGCCGGCGCAAAGCGAGACTCTCTGGTACCTCCAGGAACATCCCCTGCTCATCGTCACAAGGGAGAGCCCGGCTTCCCTGGGCGAGCAGCACACCATCCAGCTCATAGGGGAGCTTCGACTGCCGTACATGCAGATCGCACCGGGCCAGGACGGCGGTCCCGGCATGTACGTGCCCAACTTCGTGAACCAGACGCTGGAGCTGACCGTGACCGACAGGGCGGCGACGGCTCCTGAACTGGCGACGGCGGTGACGCCGCCTCCGCCGAAGGCTGAGGATGATCCGTTCTCCCTGGGGCTCACGCTGTACTCGGCCAGCGCCGAATTCCGGGCGGGCTGGTACGACTTTGACGGCCTGCTGAACCGGGTGGCGGAGCTGGGGATAGGCCCCGGCATCGAGATCGTGGCGTCCCAGGTCCTGCCCACCTACCCCAACGTGACTGATAATTTTGCACGTTCCTGGCAGGAGGCCTTCGACAAGCACGGCTTCACCGCCAGCTCCTTTGGCGCGAATCTTGATATGGGCCGGCGCCGTGACCGCGACATGACTCCGGATGAGGAATACGGGTTCACGGAGACGCTCTTCCGCGGTGCCAAGAAGCTCGGCTTCCCGCTGGTCCGCATCCAGAGCGCGAAGCCGGAACTGCTTCGCCGGCTCCTTCCGCTGGCCGAGGACCTCGAACTCAAGCTTGCCTACGAGATCCACGCGCCGCTGGGACCCAACTCGCCGGAGATCAGAAAGGTCCGGGAGGTCTATGCGGAGCTTGATTCACCGCTGCTGGGCTTCGTGGCTGACTTCTCCTCGACCATGCACAGCATGTCACCCACCCTCCTGCGCGCTGTCCGCCGGGCCGGACTCGACGACGAAGCCGTCCTCAGGCTGCAGGCGATCTGGGCCACCGACGCCCCCATGCGCGCCCGACAGGAAGAGTTCATTGGCTATCTCAAGGGACGCGGCTTTGATCCTGCCCGCCTCGGTTCCTTCGCCCACCTCGCCTTCAACATGCATGGCCACGTGAGCCCGGAGGAGTGGTCTGACATCATGCCGCAGATCATGCATGTCCACGCGAAGTTCTATGACATCGATGAGCACGGCAACGAGCCGGCAATCGACTATCCGGAACTGGTCCGGGTGTTCGTTGAGGGCGGCTACCGCGGCTACTGGTCCAGCGAGTGGGAGGGGCACGCCTTCGCTGAGCTCGGCGAAGTGGATCCGCTGCTGCTAGTCCGGAAGCAGCACGACCTCATTCGCAAGAGCATGCGGACGGCGCTCGCATCAGCCTGA	MPNGFIDESSLRPHPEGLALVLTLPWYRSLWLSSVSSLRLSIDGQEIPSGDLSLELGGVRYALADLPAQSETLWYLQEHPLLIVTRESPASLGEQHTIQLIGELRLPYMQIAPGQDGGPGMYVPNFVNQTLELTVTDRAATAPELATAVTPPPPKAEDDPFSLGLTLYSASAEFRAGWYDFDGLLNRVAELGIGPGIEIVASQVLPTYPNVTDNFARSWQEAFDKHGFTASSFGANLDMGRRRDRDMTPDEEYGFTETLFRGAKKLGFPLVRIQSAKPELLRRLLPLAEDLELKLAYEIHAPLGPNSPEIRKVREVYAELDSPLLGFVADFSSTMHSMSPTLLRAVRRAGLDDEAVLRLQAIWATDAPMRARQEEFIGYLKGRGFDPARLGSFAHLAFNMHGHVSPEEWSDIMPQIMHVHAKFYDIDEHGNEPAIDYPELVRVFVEGGYRGYWSSEWEGHAFAELGEVDPLLLVRKQHDLIRKSMRTALASA				NA	NA	NA	NA	NA
D1-29_00676	942	nodD2_2		Nodulation protein D 2	GTGACAAACCATGTCCTGCTTTCCCGGCTAGACCTCAACCTCTTGATATCGCTGGATGCCCTCATCACTGAGCGGAGCGTGACCAGGGCGGCCGAGCGCCTGCACCTGAGCCAGCCGGCGTTGAGCGCCTCGCTTGCGCGCCTCCGGTCCCACTTCGGGGATCCCATCCTTGCCCGCCGGGGCAACGCCTATGAGCTCACGCCCTTCGCCCTGCGGCTGGCGGAACACACCACCACGGCCCTGGAAGCCGCCCGCCGCGTCTTCGAGAGCCAGGCAACGTGGGAACCCGCCGAATCCGAGCGCGAGTTCTCCATCTACGGTTCGGATTATGGGTTCACCACTGTTGGCCGGGTAGTTTCCGAGCTTGCGGCTGAACGCGCGCCGGGTGTCAGGTTCCGGTTTATGCTCCACAACCCGATGGTGGTGGAAGATGCAGCCAACCGCCTTCGTTCGGTAGACGGCATGGTGATCCCCCACGGCTTCCTGTCCGGACTCCCCTGCCTGGACCTGTGGCGGGACGGGTGGGTCGCCGTCGTCTCTTCCTCCAACGAGGCCGTGGGCGAGCAGATCACCATGGAGAACATCGCCGAACTTCCGTGGGTCATGACGTATCAGACCCGCTCAGCATCAACGTCCGCGGAACGGCAAATCATGCAGCTGGGTGTTGAACCGCGGGTGGATGTGGTGGTTGAAAGTTTCCAGTCCTTGCCGCATTTTGTGGTGGGGACCAACCGGATCGCGCTCATCCAGGCAGCGCTGGTCCCGTTTGCGCTGCGGGTGGGCGGAGTGCGGATCCTGCCGCTTCCATTCGATGCCACTCCGCTGGTTAATGCCCTGTGGTGGCATCCAGTACACAACCGCGATTCCGAGCATGAATGGATGCGCGGCCTGTTCAAGGACGCGGCTGACATCGTCGCAGCGGCCGCGGCCAAGCCCCTTTAA	MTNHVLLSRLDLNLLISLDALITERSVTRAAERLHLSQPALSASLARLRSHFGDPILARRGNAYELTPFALRLAEHTTTALEAARRVFESQATWEPAESEREFSIYGSDYGFTTVGRVVSELAAERAPGVRFRFMLHNPMVVEDAANRLRSVDGMVIPHGFLSGLPCLDLWRDGWVAVVSSSNEAVGEQITMENIAELPWVMTYQTRSASTSAERQIMQLGVEPRVDVVVESFQSLPHFVVGTNRIALIQAALVPFALRVGGVRILPLPFDATPLVNALWWHPVHNRDSEHEWMRGLFKDAADIVAAAAAKPL	PGPT0015290_98	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,PGPT0015290-nodD-K14657	NA	NA
D1-29_00677	1290			hypothetical protein	ATGTCACAGCACAGTCGCTATTCGGGCCTGAAGGCCGGCGCCCTCGCCGTCCCCACCATCGCAGCCCTCGTCCTCACCGGCTGCTCGGCCCCCACCGGCAGCACCTCCTCCGGAGGCTCGCAGGAATTTTCCCTGTCATTTGCCACTTCCAACACCATCGAGAGCCCCTTCCAGGTCCTGGGTGAGAAGTACATGGAAGCCAACCCGAACGTGAAGATCACGTTCAACCCCCAGCCCAACGACTCCTACGACCAGACGTTGCGGACCCAGCTCCAGGCCGGGAACGCCTCCGACGTCGTGGTGACCTCGCCCGGTTCGGGCACCGGGCGCAGTATCCTGCCGCTCGTTCAGGCAGGCTTCCTGGAGCCGTTGGACGATGCCGCCAAGGAACTGGTTCCGGAGGGCAGCGAAGCCCTCTTCGGAACTGACGGCAAAGTCTACGGCCAGGCACCCGAGATCACCGTAGTTGGCCTGGTCGCCAACGAGACTGCTGCCAAGGCTGCCGGCATATCCGAGTTCCCGGCAGACTTCTCTGCTCTTGAGGAGCAGTGCAAGAAGCTTGAATCGTCCGGCAAGTCGTTCATTGCGCTGGCCGGGTCCGCTGCTCCGAACACCGGCCTGATGGCGATGTCCCTCGCGGCCTCGCGGGTATATGCCGAGGACCCGAAGTGGAATGAAAAGCGGGCTGCCAAGGAAACCACGTTCGCTGACTCCGACGGCTGGAAGTCATCCCTCGAGGCGGTGGTCACACTGAACGAGGCCGGCTGCTTCCAGAAAGGCGCCGCAGGTGCCGGCTTTGACGCCATCACCAAGGGCCTTGCCAGCGGATCATCGGTTGCCGGCTTTATCCCGGGTCCCAGCTGGAAGCAGTTGAAGTCCGCCGCTGCGGACTCTGAATTCGACGTCCGCGCACTCCCGGCCGAAGGCTCAGGCCAGAGCTTCGTCTACGCCAGTGCCAACTACGCGTTCTCCGTCAACGCCGCGTCCAAGAACAAGGATGCTGCCAAGGCGTTCCTGACCTGGGCCGCTGAGCCTGAGCAGACCAAGGCCTTCGCGGAAATCGATGGCGCCCTGCCGGTCACCGGCCTGGACAGCTACGACTTCGACGCCGGCGCTTATAAGAACGTCGGCGGGCTCATCAAGGACGGAAAGTACGGTCCTCTGCCGAACAGCCAGTGGCCCAACTCCGCTGTCTACGACGCCCTCGCCACCGGCGTCCAGGGACTAATCACCGGCCAGAAGAACCCTGACCAGGTCCTGCAGGCCATGGACGCAGCCTGGGGCCAGTGA	MSQHSRYSGLKAGALAVPTIAALVLTGCSAPTGSTSSGGSQEFSLSFATSNTIESPFQVLGEKYMEANPNVKITFNPQPNDSYDQTLRTQLQAGNASDVVVTSPGSGTGRSILPLVQAGFLEPLDDAAKELVPEGSEALFGTDGKVYGQAPEITVVGLVANETAAKAAGISEFPADFSALEEQCKKLESSGKSFIALAGSAAPNTGLMAMSLAASRVYAEDPKWNEKRAAKETTFADSDGWKSSLEAVVTLNEAGCFQKGAAGAGFDAITKGLASGSSVAGFIPGPSWKQLKSAAADSEFDVRALPAEGSGQSFVYASANYAFSVNAASKNKDAAKAFLTWAAEPEQTKAFAEIDGALPVTGLDSYDFDAGAYKNVGGLIKDGKYGPLPNSQWPNSAVYDALATGVQGLITGQKNPDQVLQAMDAAWGQ	PGPT0016330_2072	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
D1-29_00678	960	melD_4	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGACTGCGACGATGCAACCCAAAAGCGAAGCAGCTGAAGTGCCCCGGCGAGGCAGGCGCACTCCGGGGGCGGGCCCAAAGACCCGCCCCCGGGGGACCGGCCTGCAGTTGGGACACTGGTGGTGGGCGCTGCCCGGGATCACCCTCGTCATAGCCATCCACTACGTGGCAACGGGTATAGGCGGCTTCTTCGCCTTCACCAACTGGACCGGCATCGGCTCGTTCCAAGTCACAGGCTGGCAGAACTTCGAAGCAATCTTCAAGGATCCCACCAAGCTCGGAGCCCTCTCCAACACCCTCTTCCTCGCCTTCGGCTCCGTTTTCCTCGGCAACGTTGCGGGGCTGGTCATTGCCCTTGGCCTGAACCGGGTCCTGAAGACGCGCTACATCCTCCGGACACTCTTCTTTATGCCCGTGGTGCTCAGCCCCCTGGCCACGGCCTACATCTGGAAGTACATCTTCGACTTTGACGGCCCCATCAACGCCTTCCTCATATCGATCGGCGCCGAGGACCTCGCAAAGCCCTGGCTCGCAGACCCGCAGTGGGCCATCTGGACAGTGCTCGTGGTGCTGGTCTGGGGCTCCACCGGCTTCGCCATGGTGATCTTTATGGCCGGGCTTGCCGGCGTCCCGGTGGAAGTCGAGGAGGCCGCCGCGATCGACGGCGCCAACCTGTGGCAGCGCTTCCGGAACGTCACGCTGCCGGCCATCCGCCCTGCCGTCGCCATCGCCACCACCCTTGGGATCGTCCAGGGCCTGCGGGTCTTCGACCCCATTATGGCCCTGACCGGGGGCGGACCCGCCGGGGCAACCGAAACGCTGGCCACCCAGGTCTACAAGCAGGCATTCGCGCTCGGCAACTTTGGCGGCGGCGCCGCCCTGGCCCTGGTGCTCGCCGTCATCATCCTGTTCTTCGCCGTAATCCAGCAGCGGCTGACGCGATCGAACCCTGAGGACTAA	MTATMQPKSEAAEVPRRGRRTPGAGPKTRPRGTGLQLGHWWWALPGITLVIAIHYVATGIGGFFAFTNWTGIGSFQVTGWQNFEAIFKDPTKLGALSNTLFLAFGSVFLGNVAGLVIALGLNRVLKTRYILRTLFFMPVVLSPLATAYIWKYIFDFDGPINAFLISIGAEDLAKPWLADPQWAIWTVLVVLVWGSTGFAMVIFMAGLAGVPVEVEEAAAIDGANLWQRFRNVTLPAIRPAVAIATTLGIVQGLRVFDPIMALTGGGPAGATETLATQVYKQAFALGNFGGGAALALVLAVIILFFAVIQQRLTRSNPED	PGPT0016335_352	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
D1-29_00679	837	melC_2	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGTTCCGTTACACCAAATTCACCCTGCTCCGCGAAATGGGCCTCTGGGCGCTGGCGCTGATCTTCCTCGCCCCGTTCTACTTCCTGGTGACCACCGCCCTGAAGCCGGACAGCGAGATGTACACAACGTCACCCCTAGCCGTGCCGAAGAGCCCGGACTTCAGTAACTTCGTCGATGTCCTGACGGCCACTGGCAACTCCAACGTCGTGATGGGGCTCGTGAACAGCCTCATCATCACCACGGGCAGCATCATCGGCCTGATCGCACTGGGCTCAATCACCGGCTACGTCATCTCACGCAGCACCCGCCGGTGGAGCAAGGGCGTCTACTACCTGTTCCTGATCGCCATCATCCTCCCCGGTCAGCTCGGCGCCGTCCCCCTGTATATGGGTGCGCGCGCCATGGGCCTGACGGGGTCGGCGTGGGGCCTGATCGTCCTGTACACGGGCATGCTCCTGCCGCTGTCGATCTTCCTCTACGCCAACTTCTTCCGGGGGCTTGGGACCGATTATGAGGAAGCAGCCACCATCGACGGTGCCAGCAGGACCCAGATCTTCTCCAAGGTGGTGCTGCCCATGATGGCCCCCGCCACGGGAACGGTCACCATTTTCGCCGGACTCATCGTCTGGAACGACTTCTTCACCTCGCTGATCTTCCTCGGCGGCTCCGCCAACCAAACACTGCCGGTGGCCATGTACTACTACATCGGTTCACTGGTCTCGCAGTGGAACTCGATCTTCGCCATCGTGATCGTGTCCATGATTCCCATCCTGGCGCTGTTCCTGTTTGCGCAGAAGCGCTTCATCCAGGGCTTCTCCGGCGGCCTGAAAGGCTGA	MFRYTKFTLLREMGLWALALIFLAPFYFLVTTALKPDSEMYTTSPLAVPKSPDFSNFVDVLTATGNSNVVMGLVNSLIITTGSIIGLIALGSITGYVISRSTRRWSKGVYYLFLIAIILPGQLGAVPLYMGARAMGLTGSAWGLIVLYTGMLLPLSIFLYANFFRGLGTDYEEAATIDGASRTQIFSKVVLPMMAPATGTVTIFAGLIVWNDFFTSLIFLGGSANQTLPVAMYYYIGSLVSQWNSIFAIVIVSMIPILALFLFAQKRFIQGFSGGLKG	PGPT0016340_1326	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
D1-29_00680	777	hyi_1	COG3622	Hydroxypyruvate isomerase	ATGTACCAACTTGCACCCAACATCGACCTCTTGTTCGCAGAAGCCGGCGACAGCGCCGCTGACCGTGTCCGCGCCGCAGCCGCCGCCGGTTTCGACGCGGTGGAAATGTGGGGCCCGACGGGGAAGGACATTCCCGCGCTCAAGGGTGCGTTAGAGGAGACGGGTGTGCAGCTCACCGCCCAGTTGGCAGAGCCGCGGATGCAGTTCATGATCCCGCCGAAGGACCACGCGCCCTTCTATACAGGACTTGATGCCGGCGTCGAAGTGGCTCAGCAGCTGGGTTGCCCGCGGATCGTGGTGGGCAGCGGCACCGGCTTCGGCGGCCGTAAGCGGCAGGACCAGCTGGATGAACTGATTGAGATCTTCACCAAAGGCGCAGCCCACATTGAAGGTTCCGGCATCACCCTGGTCCTCGAACCGGTGAACACCAGGGTGGACCACCCCGGTGCCCTGCTGGACCGCACCTCCGAAGCCGTCTACATCGCCAGGGGCGTCAACTCGCCCCATTTCGGCGTCCTCTACGACCTCTACCACTCCACCGTCGAAGGCGAGGACGTCGTCGCTGAACTGGCCAATGCCGGTGACCTCATTAAGTACGTACAGATCGCCGACGCCCCAGGACGCGGCGAACCCGGCTCGGGTTCCATCGACTGGCCTGCCCGGCTCGGTGACCTGCGGAACAGCGGCTACACCGGCCCCATCGGGCTTGAGTACTACCCGACCATCGATTCGGCAAAGTCCGTCCGCCGAATCCAGGAACTGGTGGCTGGGCGGTGA	MYQLAPNIDLLFAEAGDSAADRVRAAAAAGFDAVEMWGPTGKDIPALKGALEETGVQLTAQLAEPRMQFMIPPKDHAPFYTGLDAGVEVAQQLGCPRIVVGSGTGFGGRKRQDQLDELIEIFTKGAAHIEGSGITLVLEPVNTRVDHPGALLDRTSEAVYIARGVNSPHFGVLYDLYHSTVEGEDVVAELANAGDLIKYVQIADAPGRGEPGSGSIDWPARLGDLRNSGYTGPIGLEYYPTIDSAKSVRRIQELVAGR				NA	NA	NA	NA	NA
D1-29_00681	1560	betA_2		Oxygen-dependent choline dehydrogenase	GTGAGCGGTCACCGGTACCCGGCGGCAGTCGACGTCGCCATCGTTGGCAGCGGCCCCACGGCATCGGCGTACGCGCGGATCTTGAGCGAGGAAGCTCCCGGTGCCACAATCGCCATGTTCGAAGTCGGCCCCACGGTGAGCAATCCGCCCGGGGCGCATGTCAAGAACATCGAGGATCCTAAATCCCGCAGCGTCGCGCAGCGCGCTTCGGAAGGCCCCGGCGCCGATGCCGAAACGGTGAGCTCACCCGGCGCCGTCAAGAGCGGGGAGCGCCGGGCCAGGGCCGGAACCTATTTGCTGCAGGATGGCTACGCCTTCCCGGGCGAGGACGGCATGCCCGTAGCGGCCATGTCCAGCAATGTGGGCGGCATGGCCGCCCACTGGACCGCCGCCTGCCCCCGCCCGGGTGGAAAGGAGCGCATTCCGTTCCTGCCGGACCTGGAAGATCTCCTTGACGACGCCGACCGCCTCCTGGGCGTGACCACCCATGCCTTCGACGGCGCACCTTTCTCGGACCTCGTCATCAGGCGCCTGGCAGCGGTGGCGGACCAAGGCCGAAAGGCGGCGTACCGGGTCCAGCCGATGCCGCTTGCTGTTCACCGGCGGGAGGACGGCGGCCTCGTGTGGTCAGGCTCCGACGTCGTGATGGGGGACGTCACCCGGGAGAACCCGCAGTTCGAACTCTTTGATGAGTCGCTGGTGACCCGTGTGCTCGTGGAGGACGGCGCTGCTTCCGGCGTCGAAGTCCAGGACCGCCGCAGCGGGGAGACCCATCGGGTGGCTGCCCGTTACGTCGTGGTGGGCGGGGATGCGCTGCGCACGCCGCAGCTCCTCTGGGCTTCCGGGATCCGTCCGGACGCCCTGGGCCGCTACCTCAACGACCAGGCGCAGGTGGTGTTCGCGAGCAGGCTGCGCGATGTCACGGCTCCGCAGGTCCCGGCAGCCGCCAACGGTGCCCTCAGCGAGCAAAGCGGGGTTGCCTGGGTGCCTTACACGGACGAAGCGCCCTTCCACGGCCAGATCATGCAGCTGGACGCGTCCCCTGTCCCCTTGGCCGAAGATGACCCCGTTGTGCCGGGATCGATCGTGGGGCTGGGCCTGTTCTGCGCCAAGGACCTGCAGCGCGAGGACCGGGTGGCGTTCGACGACGACGCCCGCGACTCCTACGGAATGCCCGCCATGCGCATCCACTACCGGCTTACCGGGCGGGACCACGAGGTACTCGACCGTGCGAGGCAGGAGATTGTCAGCCTGGGCAGGGCGGTTGGGGAGCCACTCGACGAGCGTCCGTTTGTCATGCCGCCCGGAGCGTCGTTGCACTACCAGGGCACAACACGCATGGGCGAGACGGACGACGGCGAGAGTGTCTGTTCTCCCGACAGCCAGGTCTGGCAGGTTCCCGGCCTCTTCGTGGCCGGCAACGGCGTCATTCCCACCGCGACGGCATGCAATCCCACACTGACGGCCGTTGCGCTCGCCGTGCGTGGGGCGCGGAAAATCAGGGAAGAACTCAACGGCGCTTTACTTATGTCTGAATCAGACAATAGAATGACTAAATAA	MSGHRYPAAVDVAIVGSGPTASAYARILSEEAPGATIAMFEVGPTVSNPPGAHVKNIEDPKSRSVAQRASEGPGADAETVSSPGAVKSGERRARAGTYLLQDGYAFPGEDGMPVAAMSSNVGGMAAHWTAACPRPGGKERIPFLPDLEDLLDDADRLLGVTTHAFDGAPFSDLVIRRLAAVADQGRKAAYRVQPMPLAVHRREDGGLVWSGSDVVMGDVTRENPQFELFDESLVTRVLVEDGAASGVEVQDRRSGETHRVAARYVVVGGDALRTPQLLWASGIRPDALGRYLNDQAQVVFASRLRDVTAPQVPAAANGALSEQSGVAWVPYTDEAPFHGQIMQLDASPVPLAEDDPVVPGSIVGLGLFCAKDLQREDRVAFDDDARDSYGMPAMRIHYRLTGRDHEVLDRARQEIVSLGRAVGEPLDERPFVMPPGASLHYQGTTRMGETDDGESVCSPDSQVWQVPGLFVAGNGVIPTATACNPTLTAVALAVRGARKIREELNGALLMSESDNRMTK				NA	NA	NA	NA	NA
D1-29_00682	396			hypothetical protein	ATGATCGCCGACCGCATTATCGAGCAAGGAACACTCACCACGCAGGGCGGCCGCACCGCCGTCGAAGTCCGCATCCCCTGGTACCGCGCCCTTCCGGGCTCGTGCATCGCCGGCGCAGCACTGACAGTTGACGGTGTTGCCGCCCCCGAGGACACCCTGCGCTGGACCATGAATAACCGGACGTTCCGGTTTGAAGAACTCGTGGACGAGACCGGTGAGTGGTGGTTCCCGCTGGACTCGGCAGTTCTTTCCGGCGACGTTCCCGTCCAGGACGACCACGCCGAGCACGAGGTCCGGGTGGACCTGAAGCTCTACATCCCGTACATCATCACCGACCACGGCGTGCTGCACATTGAAGAGCACGACACCAAGACCATGAAGGTGGCACAGCGATGA	MIADRIIEQGTLTTQGGRTAVEVRIPWYRALPGSCIAGAALTVDGVAAPEDTLRWTMNNRTFRFEELVDETGEWWFPLDSAVLSGDVPVQDDHAEHEVRVDLKLYIPYIITDHGVLHIEEHDTKTMKVAQR				NA	NA	NA	NA	NA
D1-29_00683	1104			hypothetical protein	ATGACCAGCCTCGGCACGCCGATCCAGGGCGTCACCCTTTACAGCTTCACGCGGGCCTTCCACGCTCGGCAGTATGATCTCGACGGCCTGATCCGCAAGGTGGCGGCCGAGGGCTTCGGCCCGGGGCTCGAGGTTATTGGATTCTCCAGCTTCCGGGGCTTCCCGGACCGCATCGACGACACCTTCGTTGGGCAGTTCCGCGACCTGGTGGCAGAGGTTGACCTGGTCCCCACCTCCCTCGCAGTCAACGTTGACACGGGCATCCGCCGCGACCGGCTCATGAACCACGACGAGCTGGTCGAATACATGCGCAAGCAGATCGAAGTAGCCGCCCGGCTCGGCTTCCCGATCGCGCGAGTGCAGATCTCACTGACGCCGGACGCCATGGAAAGCCTGCTGCCCGTGGCCGAAAAGTACGGCGTCACCCTGGCCCTCGAAGTCCACGCGGACCAGCACGGCGCCCACGAGCGCGTCCTGGCCCTGCGCGACCGCTACGAGAAGCTCGATTCTCCGCTGCTTGGGTTCACCGCCGACTGGGGCGCCACCGTCACAGGGTTTGCACCCTCGCTGCTGGAGGCCTACCGGCGCCGCGGTGCTTCCGAGGAACTCCTCCGCCAAGTGGTTGACCTGTGGAACGGCTTCTATGCGGAAGGACCTCCCAACACGCAGAAGATCCACGGTGAGCGCTTCGGTGCCTTCATCGGCCTGGCAGCACGCAACGGCCGACCGGACCTCGGCATCGATTTCGGCATTAACGGAACGGGGCTGTTCGGGCCTGCACCGCTGGACACCTGGCTGGAAATCATGCCATGGGTCCGCCACGTGCACGGCAAGTTCTTCGGCATCGACGAGAATGGCGAAGAGCCCTCGGTGCCGGTGCGTGACCTGGTCCGGCAGCTCGTGGAGAACGGCTACAACGGCGCCATCTCCAGCGAATACGAAGGCTGGCACTGGAACAACTGGCAGGACCCGTTCGACATCATCCGCGCGGAGCAGGCCGTCCAGCGTTCAGCCGCTGCAAACGCCGGTTCCGCCATGATCACGGATGCTGCGGAAGCCCGCCGCATCCTCAGCAGCCACCTCGCCCAGCCCGTCCGCGGCTGA	MTSLGTPIQGVTLYSFTRAFHARQYDLDGLIRKVAAEGFGPGLEVIGFSSFRGFPDRIDDTFVGQFRDLVAEVDLVPTSLAVNVDTGIRRDRLMNHDELVEYMRKQIEVAARLGFPIARVQISLTPDAMESLLPVAEKYGVTLALEVHADQHGAHERVLALRDRYEKLDSPLLGFTADWGATVTGFAPSLLEAYRRRGASEELLRQVVDLWNGFYAEGPPNTQKIHGERFGAFIGLAARNGRPDLGIDFGINGTGLFGPAPLDTWLEIMPWVRHVHGKFFGIDENGEEPSVPVRDLVRQLVENGYNGAISSEYEGWHWNNWQDPFDIIRAEQAVQRSAAANAGSAMITDAAEARRILSSHLAQPVRG				NA	NA	NA	NA	NA
D1-29_00684	1026			hypothetical protein	ATGCCAGAAGGAATCGCAGGCTCGGGCATCGAGCTTGGCATCACCCTCTATTCACTGACCTCCGAATTCGCCGCCGGGCTCTACACCCCGGAGACCCTGATCAAGGCCGTCGCCGATGAAGGCCTCGGCCCGGGCGTGGAGTTCAACATCGCCCAGATGCTGCGTACCTACCCGGATGTGGACGAGGATTTCGTCCGCCTGTGGCGGGACAGCATGGACCGCTACGGACTGACCCCCAGCGCAGTCGGCACCAACCTGGACATGGGCCGGCGCAAGGACCGCGACATGACGCCGGACGAGGAGTTCGACTTCTTCGCCAGGCAGCTCAAGACCGCCAACACGCTGGGCTTCAACAAGATCGTCATCCGGTCCGCGGGCAAGGAACTGCTCCGCCGGCTGCTTCCGCTGGCCGAGAAGTACGACCAGAAGCTCGGCTACGAGATCCACGCGCCCCAGGGACCGAACGATCCCAAGATTCTGCAGATCCGCGAGATGTATGAGGAGCTCGGCAGCGACCGGCTGGGCTTCACGGCAGACTTCAGTTCCACCATGCACAGCCTGTCGCCCACGCTGTTCCGAACCCTGACCCAGATGGGACTGCCCGAGGAGCACTTCGCCGTAATGCAGGACATCTGGCGCAAGCCCCTGCCCATGCAGGAGCGCAACCAGGAGTTCGAGGACTACCTGCGCGAAAACAACTTCGATCCCGCCCAGCTGGGCCCGTTCACCCGGCTGGCGTTCAACATGCACGGACTGGTCCCGCCGGAGGAATGGCTGGACATCATGCCCCAGATGTTCCACGTCCACGCAAAGTTCTACGACATCGACGAGAACGGCAACGAGCCCGCCATGGACATCCCGCGCATCGTGCGGCAGTTCGTGAAGGGCGGCTACACAGGATTCCTCTCCAGCGAATGGGAAGGCCACGCGTTCGCCGACCTGGGCGAATCGGACCCCATTGACCTGGTCAAGAAGCAGCACTCCCTGATGCGGCGTGCCATAGAAGAATCAGTCGTTCGAGCCTAG	MPEGIAGSGIELGITLYSLTSEFAAGLYTPETLIKAVADEGLGPGVEFNIAQMLRTYPDVDEDFVRLWRDSMDRYGLTPSAVGTNLDMGRRKDRDMTPDEEFDFFARQLKTANTLGFNKIVIRSAGKELLRRLLPLAEKYDQKLGYEIHAPQGPNDPKILQIREMYEELGSDRLGFTADFSSTMHSLSPTLFRTLTQMGLPEEHFAVMQDIWRKPLPMQERNQEFEDYLRENNFDPAQLGPFTRLAFNMHGLVPPEEWLDIMPQMFHVHAKFYDIDENGNEPAMDIPRIVRQFVKGGYTGFLSSEWEGHAFADLGESDPIDLVKKQHSLMRRAIEESVVRA				NA	NA	NA	NA	NA
D1-29_00685	801			hypothetical protein	ATGTCCACAACAGAAGCCTCCGCCGTCGAAAGCTCCACCGCCGAAACTGGCCTTGCCGCCGAGGTGAAGCGCCTGCGCGCAGAACTCGCCGAAGCCCTGTCGCTGGCCCACCGGGCCAACGACAGGGGTGACATCGAAAACCTGTTCAACCGCTACATGTACCTGCACAACGCCTTTGAAGATGAGCAGATCATCCCGCTGTGGGTGAAGCCGGGTACTCCCGGCATCCGGGCCAGGTACACCAATGCAGGCCAGTACACCGATTACGAAAGCGTCATCCGTTACCACCAGGGCCGCCCACGGCCCGAGGGAAAGCTGATCCTGCACTACACCACGACCCCGGTCATCGAGGTGGCCGCGGATGGCAACACGGCCAAGGGTGTCTGGATCATCACCGGCAACGAGTCCGGCCTGACGGACCCTGAGGTGGCCAAGGACAGCCCGGACTACATGTACTCGCCGGGCGAGGTCCAGGGCAAGAAGGTCTGGGCCCACTGGGTGTGGTGCAAGTATGCAGTGGACTTCCTGCGCCAGGACGGGGAATGGAAGATCTGGAAGTTCCGCTGCTACGAACTCCTGCGGGCACCGTTCGAGGAAAACTGGATCAGCTTCGCCGAGAAAAACCAGCACGCCTTCGCCCTGGACCTGATGTACTTCGGCGACGACGGCAAGCCGGTGTTTATGCCACCCGCCGATGAACCCGTGCCCCAGGAATACCACCCGTACAGTCCAACCGCGCGGCAAACGCTGGAACCCAAGCCGCCGGTACCCCACCAGACATTCGTTGAGACCTTTGAGTAA	MSTTEASAVESSTAETGLAAEVKRLRAELAEALSLAHRANDRGDIENLFNRYMYLHNAFEDEQIIPLWVKPGTPGIRARYTNAGQYTDYESVIRYHQGRPRPEGKLILHYTTTPVIEVAADGNTAKGVWIITGNESGLTDPEVAKDSPDYMYSPGEVQGKKVWAHWVWCKYAVDFLRQDGEWKIWKFRCYELLRAPFEENWISFAEKNQHAFALDLMYFGDDGKPVFMPPADEPVPQEYHPYSPTARQTLEPKPPVPHQTFVETFE				NA	NA	NA	NA	NA
D1-29_00686	399			hypothetical protein	ATGGCAACCCATAACTCCCTGTTCCAGGACACCGACGTCCGCAGGCACCCCGAGGGCATTTCGGTTTCCGTGCAACTGCCCTGGTACCGCAGTCTCTGGCTCTCTGCTGTTGACGACGTCGCCGCCACCGTCAACGGCTTGGAGATCCCCAAGGAATCACTCCGCTTCGAACTGCAGGGCAAGTCCTACTCCATTGCTGAACTGCCGGAGCAGTGGGAAACCCTGTGGTTCGTCGCGGACAAGCCCGACGTGATCATCCCGCTGGACCGCATCCCTGACGCCGGCGAGGAAATCGACGTCGAAGTCATCCTCACCCTCCGCCTCCTGTACATGCAGATCGCGCCCATGCGCTATGTGGGCAACCGCGTCGCTGTTGAACGCAAGGTGGTGCTCGCATGA	MATHNSLFQDTDVRRHPEGISVSVQLPWYRSLWLSAVDDVAATVNGLEIPKESLRFELQGKSYSIAELPEQWETLWFVADKPDVIIPLDRIPDAGEEIDVEVILTLRLLYMQIAPMRYVGNRVAVERKVVLA				NA	NA	NA	NA	NA
D1-29_00687	1188	iolG_4		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAAAACCCTCCGCGTGGCCATGATCGGCTACGGCTTCATGGGGGCAGCGCACTCACAGGGCTGGCGCACCGCACCGCGGGTGTTCGACCTGCCGGCCGAGCCGGAAATGGCAGTCGTGGTCGGACGGAACCCCGAAGCGGTGGCCGCCGCCGCCCGCAAGTGGGGCTGGGCGGAGTCAGCCACAGACTGGCGCGAGGTGATCGCGCGGGACGATATCGACGTCGTCGACATTGTCACCCCCGGCGACTCCCACGCAGAGATCGCGATCGCGGCGCTGGAAGCGGGCAAGCACGTCCTGTGTGAAAAGCCGCTGGCCAACACCGTGGCCGAGGCCGAAGCCATGGCCGAAGCGGCCGAGCGGGCCGCAGCACAGGGAATCCGGGCCATGGTGGGTTTCACCTACCGCCGGGTTCCGGCTGTCACCTTCCTGCGCAACCTCATCGCCGAAGGTGCCGTGGGGACGATCAACCAGGTGCGTGCCTCCTACCGGCAGGACTGGCTGGTGGACCCGGAGATGCCGCTGGCCTGGCGGCTGCAGAAGGAGCACGCCGGTTCCGGCGCGCTGGGGGACATCGGCGCCCATGCCATCGACCTCGCCCAGTTCGTGACAGGGCTGAACCTGGAGAAGGTGTCCGGCGTCATCGACACCATCGTGAAGGAGCGACCCCTTCTTGATTCCGGTTCGGGCCTTTCCGGCACTGCCGGTGTTGGCAAAGGCCAGGTGACAGTGGACGACATCGCCATCTTCACCGGCCGCTTCGAATCCGGAGCCCTAGCTTCCTTTGAGGCCTCGCGCTTTGCCACCGGGCGGAAGAACGCGCTTCAGATCGAGGTCTCGGGCGACAAGGGCGCCCTGGCGTTCGATCTCGAGGACCTCAACAGCGTCCAGTTTTACGACCGCACCGTACCCGCGGACCGCCAGGGGTTCCGGAAGATCCTGGTCACCGAAGCGGAACATCCCTACGTTTCGGGATGGTGGCCGGCCGGCCACATGCTTGGCTACGAGCACGGGTTCTCGCACCAGGTCAAGGACCTCGTGGAGGGCATCGTGGGCGGCACCGACCCGCATCCAACGTTCGCTGACGGACTGAGGGTGCAGCGGGTGCTGGAGGCCGTCGAGCGCAGTTCCGACAATGATTCCGCCTGGATGCGCGTTGCCGCAGACGTCCCGGCGCAGGTCTCGTAG	MKTLRVAMIGYGFMGAAHSQGWRTAPRVFDLPAEPEMAVVVGRNPEAVAAAARKWGWAESATDWREVIARDDIDVVDIVTPGDSHAEIAIAALEAGKHVLCEKPLANTVAEAEAMAEAAERAAAQGIRAMVGFTYRRVPAVTFLRNLIAEGAVGTINQVRASYRQDWLVDPEMPLAWRLQKEHAGSGALGDIGAHAIDLAQFVTGLNLEKVSGVIDTIVKERPLLDSGSGLSGTAGVGKGQVTVDDIAIFTGRFESGALASFEASRFATGRKNALQIEVSGDKGALAFDLEDLNSVQFYDRTVPADRQGFRKILVTEAEHPYVSGWWPAGHMLGYEHGFSHQVKDLVEGIVGGTDPHPTFADGLRVQRVLEAVERSSDNDSAWMRVAADVPAQVS				NA	NA	NA	NA	NA
D1-29_00688	1005			hypothetical protein	ATGGCACGACCAATAACGTTGTTCACCGGCCAGTGGGCCGACCTGCCGTTCGAGGAGGTGGCCCGGCTCGCTGGCGAGTGGGGCTACGACGGGCTCGAAATCGCGTGCTGGGGTGACCACCTGGATCCCTGGCGCTGGGACGACGACGCCTACGTCCAGGGCAAGCTGGACATCCTTGAACGCCATGGCCTCAAGGTATGGACCATCGCCAACCACCTCAAGGGCCAGGCCGTCTGTGACGACCCCATCGACGAGCGGCACCGCGGCATCCTGCCGGATGCCGTGTGGGGCGACGGTGATCCTGAGGGTGTCCGACGGCGGGCTGCCGAGGAAATGAAGAACACTGCGCGGCTCGCCGCGAAACTGGGCGTGAAGACAGTGACCGGGTTTACTGGTTCGTCCATCTGGAAGTACGTGGCGATGTTTCCGCCTGCCTCCGAAAAGATGGTCGACGCCGGGTACCAGGATTTTGCGGACCGGTGGAACCCCATCCTTGACGTCTTTGATGAGGTGGGCGTCCGGTTCGCGCACGAGGTGCACCCGTCCGAGATCGCCTACGACTACTGGACAACGCACCGCGCCTTGGAAGCGATCGGGCACCGCGAGGCCTTCGGGCTGAACTGGGATCCGAGCCACATGGTGTGGCAGGACATCGACCCCGTGGGGTTCCTCTGGGACTTCAAGGACCGGATCTACCACGTGCACTGCAAGGATACGAAGAAGCGCCTGTCCAACGGCCGCAACGGCCGGCTCTCCTCCCACCTGGCCTGGGCTGACCCGCGCCGAGGGTGGGACTTCATTTCCACCGGCCATGGAGACGTGCCGTGGGAGGATGCCTTCCGGATGCTGAATTCCATCAACTACCGCGGCCCGCTCTCCGTGGAGTGGGAGGACGCCGGCATGGACCGCCTGGAAGGTGCCCCGGAAGCGCTCGCGTTCGTGCGCAGGCTCTCCGGCTATGAACCTTCCGCCGCGGCTTTCGACGCCGCCTTCAGTACGAAATAG	MARPITLFTGQWADLPFEEVARLAGEWGYDGLEIACWGDHLDPWRWDDDAYVQGKLDILERHGLKVWTIANHLKGQAVCDDPIDERHRGILPDAVWGDGDPEGVRRRAAEEMKNTARLAAKLGVKTVTGFTGSSIWKYVAMFPPASEKMVDAGYQDFADRWNPILDVFDEVGVRFAHEVHPSEIAYDYWTTHRALEAIGHREAFGLNWDPSHMVWQDIDPVGFLWDFKDRIYHVHCKDTKKRLSNGRNGRLSSHLAWADPRRGWDFISTGHGDVPWEDAFRMLNSINYRGPLSVEWEDAGMDRLEGAPEALAFVRRLSGYEPSAAAFDAAFSTK				NA	NA	NA	NA	NA
D1-29_00689	1014			hypothetical protein	ATGGCCCCCGCAATCCCCGACGGCTGGACCTTGTGCGCCAGCTCCTTCAACTGGACCCCCGAGATCGCCGCCGCCCGCCGAACCGCACACGAGATCGTGGCTGGCATCGCGGATTCGGTAGTGCAGACAATTGAGCTCGAACCCGGACTGCTCTGGCGGTCCTTCCCGGCCCCACAGGACGCCGAGGTGGACGAACTGAAGCACTCCCTGGCCGCAAAGGGCGGAAGTGTCAGTATCGTCGGTGCCAGCCTCGACGATTTCACCTCACCAACCGACCGCCGCACGCTGCAGCAGCGCCTGGACTTCCTGGTGCCCCAAATCCAGGCAGCGCACCGGGTGGGAGCCAGCGGGGTTCGGCTGCCCATCGGCCAGGCCGGCACCGAACTGCTCACGCTGGTGCAGCCGCTGCTGCACGAGCTCGACCTCGTGCTGTATGAAGAGATCCAAGGGCAGCAGGCCCCCGGGAATCCTGCCGTCGAACCGGCCCTGGAGGCGATAGCCGGGCTTGCAGATGACCATGTGCGGGTACTCGTGGACATCAGCATGCTGATGCCTGCCCTCCCGGTGACCTATCTAAATGAACTGCGGCGGGGAGGCCTGTCCGCTGAACTTCTCCGCCGCCTGGAGAAGGACTGGCGGGACCCCGCCACCCTGGACGCCGTCACGGCTTTGCTCCAGTCCGGGCAGGTTCCGCCGAATATCCATACGCTCTTTATGAACCTGCTCATCCGCTTTGGCCGGAGCGATGCCGCAGACCTGCAAGGCATCCTCCCGCTGGTCGGCGCCTTCCATCTGAAGTTCTGGGACCTGGACGACGACGGCGGCCGGGTTTCGCAGCCGCTGCGGGACGTCGGCGGCCTTCTGGGCAGGAACGGTTTCACCGGGACGCTCACCAGCGAGTGGGGCGGCCACGAATGGCTGCAGGACGACCCCACGGAGATGACGCGGAGGCACCTGGCCCTGGCGGAGGAGGCCTTTACGCAGGCAGCGCCAGTCACGCGGGCTGCCGTCTGA	MAPAIPDGWTLCASSFNWTPEIAAARRTAHEIVAGIADSVVQTIELEPGLLWRSFPAPQDAEVDELKHSLAAKGGSVSIVGASLDDFTSPTDRRTLQQRLDFLVPQIQAAHRVGASGVRLPIGQAGTELLTLVQPLLHELDLVLYEEIQGQQAPGNPAVEPALEAIAGLADDHVRVLVDISMLMPALPVTYLNELRRGGLSAELLRRLEKDWRDPATLDAVTALLQSGQVPPNIHTLFMNLLIRFGRSDAADLQGILPLVGAFHLKFWDLDDDGGRVSQPLRDVGGLLGRNGFTGTLTSEWGGHEWLQDDPTEMTRRHLALAEEAFTQAAPVTRAAV				NA	NA	NA	NA	NA
D1-29_00690	417			hypothetical protein	ATGTTGCAAACTGCTTTGCGCGAAGATGCGCTGACAGCCACGCCGAAAGGCTTCGAACTTCGAATTGGCCTGCCGTGGATACGGTCCATGCCCCTGTCCAGCGTCCTTGAACTCATGGTGGAGATCGACGGCGTCCCGCTGGAGGCAAGCGAGTTGGCAGTGGTGCTGGATGCCCGGGATGTGCCGGCGGATTCGCTCCAGGGAGTGTCTGGCTGGTGGTTTGTCCAGGACAGGCTTGTGGTGTCCTGCCGCCGGAAACTTCAGGACGGCGTTCATGCCGTCGCCGTCGGCTTCCAACTGCTGGTGCCCTACCTCCAGGCGCGTCCAGGTACCCCGTTGGTCCTGCCGTTCCGGCTGGAGGCTGGGTTGGTACTTGACCACGCGCCGGTGCCCAGTGTCTCCCGGGATGTGGCCTGA	MLQTALREDALTATPKGFELRIGLPWIRSMPLSSVLELMVEIDGVPLEASELAVVLDARDVPADSLQGVSGWWFVQDRLVVSCRRKLQDGVHAVAVGFQLLVPYLQARPGTPLVLPFRLEAGLVLDHAPVPSVSRDVA				NA	NA	NA	NA	NA
D1-29_00691	1263	nagC_1	COG1940	N-acetylglucosamine repressor	ATGACGACAGAGTCCACCCTCCGCTTTGCGGCCCAGACGGATGAAGTGACGAGCCTCCTCAGGATCGTCAACCTCGTGCGAACAGGCGAGGCAACCACCCGCCCCGAAATCGGCAAGGTTACCGGCCTGGGCAGGGGCGTTGTCAGCCAGCGCGTGGACCAGGCCATTCAGATCGGGTTCCTGGGGGACGGTGAGTTCGGCGCGTCGTCCGGCGGACGTGCACCGCGGACCCTCCGTTTTCGCGCCGAGCAGGGGCGTATCATCATCTGTGCCCTCGGGGCCGCCCACGTGCACGTCGGCTTCACCGCGCTCGACGGCGACATCCTGGACCATGCGCACCGCCCCTGGGATATCGCCCAGGGCCCGGAAAAGACCCTCGACATGGTGACGGCCCTCGTCGACGACATGCTCAAGAAGCACCCCGACGTCCCGGTTTGGGGCGTCGTCGTTGGCCTTCCCGGACCTGTCGACTTCGCTTCGGGACAGCCAGTGGCGCCTCCGATCATGCCGGGGTGGAACGGGTTCGATGTCCGCACACCGTTTGAGGAGCGCTTCAACGCGCCGGTCTGGGTGGATAACGACGTCAACCTGCTTGCCCTCGGTGAGCGCGCCCGCCGTCGCGAGTCCCTTGCGGACCTCATCTACTGCAAGATCGGTTCGGGAATTGGAGCCGGCCTGCTGTCCCAGGGCAGGATCCACCGTGGTGCCAACGGCGCGGCCGGCGACATCGGCCACGTCCGTGTATCGGACTCCGACGCCCAGTGCCGCTGCGGCAAGATCGGCTGCCTGGAAGCGGTAGCAGGCGGTTGGGCTCTCGTCAGGGACGCCGAGGAAGCCATCAAGGACGGCGCCAGCAGTTCGTTGACCGCCCGGGCTAGGAAGGGAACGCTGAGCCTGGAGGACATCACCCTCGCCGCGCAGGCCGGCGATCCGCTGGCCATCACGCTGGTCCAGAAATCGGCACGCGTGGCGGGCGAGACCATCTCCGCACTGGTGAACATGTTCAATCCCGGGGTGATCGTTATCGGTGGAGCCATGGGTTCAGCCGGTGAGGTTTTCCTTGCCGAAGTTCGCCAACGCGTTTACGAACTGTCGCTGCCACTCGCCACCCGCGACCTCACCATCACGCTGTCCGTCAACGACACTCGCGAACCACTGCGTGGTGGAGCTGAACTGGCCCGCGAACAGCTGTTTGATATCACCTTCCCCCGCTGGTTTGCGGACGGCAGGCCGTCACCGGAACGGGTCGCCGTCACCGCATAG	MTTESTLRFAAQTDEVTSLLRIVNLVRTGEATTRPEIGKVTGLGRGVVSQRVDQAIQIGFLGDGEFGASSGGRAPRTLRFRAEQGRIIICALGAAHVHVGFTALDGDILDHAHRPWDIAQGPEKTLDMVTALVDDMLKKHPDVPVWGVVVGLPGPVDFASGQPVAPPIMPGWNGFDVRTPFEERFNAPVWVDNDVNLLALGERARRRESLADLIYCKIGSGIGAGLLSQGRIHRGANGAAGDIGHVRVSDSDAQCRCGKIGCLEAVAGGWALVRDAEEAIKDGASSSLTARARKGTLSLEDITLAAQAGDPLAITLVQKSARVAGETISALVNMFNPGVIVIGGAMGSAGEVFLAEVRQRVYELSLPLATRDLTITLSVNDTREPLRGGAELAREQLFDITFPRWFADGRPSPERVAVTA				NA	NA	NA	NA	NA
D1-29_00692	1044	iolG_5		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGATGCCTTGGAACGTAGGAATACTGGGCGCTGGGCCGGGAGTGGCGGCACTGCACCTGCCAGTGCTGGGCAGGATGACGGAGCTGTTTACGGTGGTGCATCTGGCAGACGCCGGAAGCGGGCGGGCCAAGGCCCTGGCGGCGAGGCTTGGTGCCCGGTGGTCAGAAGGGGAGGTGGAACTGCTCCACGACCCCGACGTGGAGGTGGTGGCAGTCTGCAGCCCGCCAGCTGAGCATGCACGCCAGATCCTGGCGGCGGTCGCCGCCGGCAAGCGCGCAGTGTTCTGTGAGAAGCCGCTGGCCACCAGCAGGGAGGAAGCGGAAAACGTGATCTCGGCCTGCCGCGAGGCCGGCACCATCCTGCTCGTGGGAACCAACCACCTGTTTGATGGAGCATGGGGCCGCGCAAAGCATCACCTGGTCGCCCTCGAGGGCCGGGTGCAGGCGATCTCCGTGACACTCGCGCTCCCGCCGAATGACAGGTACCACCGGCTGGTGGCCGAGGGCGGCCCTTTCCAGGCTGTCCGGCGGGGACGCCCTGACCTCGGCAATCCCGCCATTGCCGCCGACGTCCTGAGGCAGCTGCTGAACGGCCTCGCAATCCACGATCTTCCTGCAGTGAGGGACATAGCACCGGGCATCGACGAAGTGGTGTACGCGCGGATCGCTCCGCCGATCGGCTATGTGGTGGGCTACCGGGCAGGCAACGTCCTGGTCCAGTTGGCACTCACCATGCTTCCGCAAGGGCCCGATGCCCTCTGGCAGATGAGCATCGCCACGTCCCACGACCGCATCGAGGTCAGCTTCCCGCCTGCCTTCGTGCATGCCGGAAGCGCTGCCACCCGTGTGCGAAGCGTTGATGGTCAATGGACCGAGTACCGGCGGGATCCCGAGGATGGTTATGTGGCCGAGTGGCGCCTGCTCGCCGCGCTGCTTGAAGACTCGGCGCCAGTGGAGTACGACGAACTGCTCGCCGACTCGCATTTTGCCATCGATCTCGCCGACGCTGCCGCCGCGAAGCTCCTCGAAGAGGTGGCTCAATGA	MMPWNVGILGAGPGVAALHLPVLGRMTELFTVVHLADAGSGRAKALAARLGARWSEGEVELLHDPDVEVVAVCSPPAEHARQILAAVAAGKRAVFCEKPLATSREEAENVISACREAGTILLVGTNHLFDGAWGRAKHHLVALEGRVQAISVTLALPPNDRYHRLVAEGGPFQAVRRGRPDLGNPAIAADVLRQLLNGLAIHDLPAVRDIAPGIDEVVYARIAPPIGYVVGYRAGNVLVQLALTMLPQGPDALWQMSIATSHDRIEVSFPPAFVHAGSAATRVRSVDGQWTEYRRDPEDGYVAEWRLLAALLEDSAPVEYDELLADSHFAIDLADAAAAKLLEEVAQ	PGPT0006545_75	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_PHTHALATE_UTILIZATION,PGPT0006545-pht4-K18067	NA	NA
D1-29_00693	798			hypothetical protein	ATGAGCCCGGTGGGAGGAGGCCGTGGCGTCCTGGCCGCGTTGCCTGCCTACCTGGCCGCTATTGCCGAGCTTCCCCTCAGCGCCGGATTGACGGATGAGGTCAGCGGCGCGGTGGCGGTAGTGCCGGGATCGGGCGATTGGTGGCAGGCGATGCTGGCAGCTCGCGCGGGGGGAGCCGCAGCGGTGGTGCTGGCCGACCCGGCGGTGCTTCCCCGGGATGCCGTAGTGTCCCACTGGTGGCCGGACGACATCCCGGTGATCGTCGAGCGCCCCCGCCTGCGGCCTGACGTCGTTGCCGATGCGGTGGCGGCAAGACGGGGCAGCTCGGCCCGCATCATCACGGTCGAGTGCGCTGCCCCCGCTGCAGGCCTTGATGCGGTTATTCGGGACGGATTTGGCTGGGCGCGGTCGATTGCCCGGGGGCCCCTCAGCCTCAAGACGGGCATCGCCACCTCGCACGGAAGGATGGCGCTCCTTGATTTTGACTCCCTGGGGAGTGGACCAATCCCTGCCACCCTGGTGGTGACGGCGGCCGGTGGCTTTGATGCCGGAGGCCTGCTCAAAATGCTGGTCCTCGGCGAAGTGAGAACGGAACTGACCGTTGACCAGGCCGCCGGCCTGACGCGACTGGAGACCTCAACGGAAGAAGGCGCTTTGAGGACGCCTGAACGGTATGAGTCGTCAGCCCGACTGGCGCTCCGGCGGGCCATTCAGGCCCGGTCAGAGGGTATTCAGGTGCCAGACCTGGGCGAGCTGCTTGAGGATATGGCCCTCACCTGGGCGTTGCTCGACTCATGA	MSPVGGGRGVLAALPAYLAAIAELPLSAGLTDEVSGAVAVVPGSGDWWQAMLAARAGGAAAVVLADPAVLPRDAVVSHWWPDDIPVIVERPRLRPDVVADAVAARRGSSARIITVECAAPAAGLDAVIRDGFGWARSIARGPLSLKTGIATSHGRMALLDFDSLGSGPIPATLVVTAAGGFDAGGLLKMLVLGEVRTELTVDQAAGLTRLETSTEEGALRTPERYESSARLALRRAIQARSEGIQVPDLGELLEDMALTWALLDS				NA	NA	NA	NA	NA
D1-29_00694	1497	mdtD_1		Putative multidrug resistance protein MdtD	ATGCCACTTTCGCCTTTGAGACTCCGTCTCCTTGTAATCTCCCTGCTCACGGTCTCCTTTCTCGGGGCGTTGGACCACACGGTGGTATCCACTTCACTGGCCACCATCGCCGGTGAGCTGGGCGCGCTGAAACTCATGAGCTGGGTTGTGGTGGGGTACACGCTCGCGAGCACAGTGCTGCTGCCGGTGCTTGGGAAGCTGGGTGATGTCCTGGGCGCCCGGCGGATCTTTATTGGTTCGCTGGTGGTGTTCCTTGCCGCGTCCCTGGCGTGCGGTTTCGCGACGGACATGGCGTGGCTCATTGCCGCCCGCGTCCTGCAGGGGATGAGCTCCGCCGGCCTGCAGCTGATGTCCCAGACCATCATTGCCCGCGTCACCACCCAGCGTGAACGTCCGCGCTACATGGCCATCATCGGCGCGGCTTTCCCCATTGCCATCCTGGTGGGCCCGGTTCTCGGCGGCGCCATCACTGATTACTGGGGCTGGCAGTGGGTCTTCTGGATCAATATCCCGGTGGGTGCAGCGGCCTTGGTGCTCGCGCTGATTGCTGTGCCGCACCTGGAGCCAGGGCCTGCGCCCCGCCACTTCGACGTTGCCGGGGCGGCGGTGTTCACTGCCTCGCTGGTGGCCCTCGTCCTCGCGGTCACCTGGGCTGCGGAACGCAGCGCTGGCCCTGCCACGGCTGCTGCGCTCGCGGTCAGTATCCTGGGGTTTGCGGCGTTCTTTTTTATCGAGCGCCGCGCGCCCGAGCCCATGGTGCCGCTCCACTTCTTTGCCAACCGGACCATTGGGGCGGGCACAGCGCTCTCGGCGATTATCGGCGTCGGGCTCTTCTCTATCACTGCGTACCTCCCCACATACTTCCAGATGGCCTACCAGACCACGGCCACCGTGTCCGGTCTCGTTCCGATCGCCACCGTGTTTGGCATGCTGATCAGCAACCTGCTCACCGGATGGCTGGCCAGCCGGACGGGCCGGTACCGGATCTTCCCGATCCTGGGGACTTCGCTGGGAGCCGCCGGGCTGTTCGCGATGGCCCTGCTGCCGGCCGGGCTTCCGCTGTGGGTGCCCATGGTGGTGATGGGCGTGGTGGGCATCGGCACCGGTGCGTTCATGAGCCTGATTGTCGCAGTGGTGCAGGGTGCCGTTCCGGCCAACCAGACCGGGACCATCACGGCCACCGTCAACCTGGTGCGCCAGGTGGGCTCAACAGTGGCGACGGCAATCATCGGCGGAGTCATCGGCTTCGGCGTGGCCGCCCTCCTGCCGGCGGGCCTTGACGCTTCAACCCTGACACCGCAGCTGGTCCACGGTGCTGCGCCGGCAGTCCAGGAAAGCGTGGCGCAGATCTACAGCTCGGTCTTCATCCCCATCTTCATCGCCCTGGCGGCCACCTATGCGGTGGGAATTGTCGCGGCTGTCCTGCTTCCGCAGGGCCGCCTTTCCGACGAACCCGTTCCCGCTGCCCCCTCAACTTCCGAATCGCTTTCGGCCTGA	MPLSPLRLRLLVISLLTVSFLGALDHTVVSTSLATIAGELGALKLMSWVVVGYTLASTVLLPVLGKLGDVLGARRIFIGSLVVFLAASLACGFATDMAWLIAARVLQGMSSAGLQLMSQTIIARVTTQRERPRYMAIIGAAFPIAILVGPVLGGAITDYWGWQWVFWINIPVGAAALVLALIAVPHLEPGPAPRHFDVAGAAVFTASLVALVLAVTWAAERSAGPATAAALAVSILGFAAFFFIERRAPEPMVPLHFFANRTIGAGTALSAIIGVGLFSITAYLPTYFQMAYQTTATVSGLVPIATVFGMLISNLLTGWLASRTGRYRIFPILGTSLGAAGLFAMALLPAGLPLWVPMVVMGVVGIGTGAFMSLIVAVVQGAVPANQTGTITATVNLVRQVGSTVATAIIGGVIGFGVAALLPAGLDASTLTPQLVHGAAPAVQESVAQIYSSVFIPIFIALAATYAVGIVAAVLLPQGRLSDEPVPAAPSTSESLSA				NA	NA	NA	NA	NA
D1-29_00695	1578	betA_3		Oxygen-dependent choline dehydrogenase	ATGTCCAGCCCCACCATCGCCGTCGTCGGCAGCGGGCCCATCGGCTCAACCTACGCCCGGCTGCTCGTGCAGCGGGTCCCGAACGTCCGTGTGGTGATGTTCGAAGCCGGCCCGCAGCTCACCGAAGTTCCCGGTGAAAGCGTTCGGAACATCCCCGACCCGGCCGAAAAGGCCCGTGCCCGGGAAATGTCCCAGGGGCCGCAGGCCGGCGCGTACAGGGAATCGCTGGGCATCCCTGCCGGAACCGTCACCGAAGGCATGTTCACCGCACGCCAAGGCACCCATCTGCTGGACTTCGGCGGCACCGGTTCCGCGCATGCCGCGTCGTTCCCGGCAGCGGCTGCGGCCACCAACGTCGGCGGCCAGGGTGCTCACTGGACTTGCGCGACGCCGTCGCCCGCCTTTAGTGAGAAGATCCCGTTCATCGGGGACGACGAGTGGGACGGGCTGATTGAGGAGGCCAAGCAGCTGCTGCACGTCCACAGCGCCGCCTTCGCCGATTCCAAAGTCGGAGAAGCCATCCGGTCTCTCCTTGATGAGGAGTTCGGGGCGGAACTGCCGGAAGGCTACGGGGTAGGCACCCTTCCGGTTGCCGGGGATCCGCAGCCTGACGGGTCCGTGCGCTGGGCGGGTGCCGACGTCGTCCTGGGCCCGCTCATCGACAAGGAGAACCCGCTCTCCAAGCGGTTCGAACTCCGCGACCTCACCCTGGTGCGCCGGGTGGAACTGGACGGACACCGCGTTACCGGGGTCTCGGTCCAGGACCTCCGCACAGGCCAGGAAGCATTTGTTGCGGCTGACCTGGTGGTGGTTGCCGCCGATGCCTTCCGGTCGCCGCAGCTCCTCTGGGCATCGGGGGTGCGGCCCAAGGCCCTCGGCCACTACCTGACTGAGCACCCGGTGGTCATTTCAACGGTGGCGCTGGACGAAGAGAAGATGGGGCGCTACGCCACCGAGGAGGACCTCAAGGCCGAACTGGCCCGGCGCGCGCTCAATCCGGCGGATCCGGTGGCGGCGGTGAACCGCATCCCGTTCTCTGAGCCGGAGCACCCCTTCTCTGTCCAGGTGATGTATTCCGAGACAACGCCCTTCCCGATGGAGCCGGGAACGCCCCACTCACAAAACCGCTGGGGCTACGTCAACATGGGCTACGGCATGCGCAAGCACCCCCGCTACGAGGATGCGGTCACCTTCAACGACAACGAGCCCGACTACCGGGGATTCCCGAACATGACCATCGACTACGCGCTCACCGAACGGGAGAACGTGGAGATTGCCCAGGCAACCGAGCGGCTGCGCCGTGCCGGAAAGGCCCTTGGCGCCTTCGTCGCCGAACCCCGGCTCATGCCGAACGGCTCAAGCCTGCACTATCAGGGCACCATGCGGATGGGCGAGACCAACGATGGAACGTCGGTGGCTGATCCGTGGTCGCGCGTATGGGGCTACGAAAACCTGGTGGTGGGCGGAAATGCCCTGATTCCGACGGCGACGGCGATGAATCCCACCTTGATGAGCGTGGCGATCGCGGTGCGCGGCGCCCGAAAGGTTGCTGAAGAGCTTGGTTCGGGGAACGCCTGA	MSSPTIAVVGSGPIGSTYARLLVQRVPNVRVVMFEAGPQLTEVPGESVRNIPDPAEKARAREMSQGPQAGAYRESLGIPAGTVTEGMFTARQGTHLLDFGGTGSAHAASFPAAAAATNVGGQGAHWTCATPSPAFSEKIPFIGDDEWDGLIEEAKQLLHVHSAAFADSKVGEAIRSLLDEEFGAELPEGYGVGTLPVAGDPQPDGSVRWAGADVVLGPLIDKENPLSKRFELRDLTLVRRVELDGHRVTGVSVQDLRTGQEAFVAADLVVVAADAFRSPQLLWASGVRPKALGHYLTEHPVVISTVALDEEKMGRYATEEDLKAELARRALNPADPVAAVNRIPFSEPEHPFSVQVMYSETTPFPMEPGTPHSQNRWGYVNMGYGMRKHPRYEDAVTFNDNEPDYRGFPNMTIDYALTERENVEIAQATERLRRAGKALGAFVAEPRLMPNGSSLHYQGTMRMGETNDGTSVADPWSRVWGYENLVVGGNALIPTATAMNPTLMSVAIAVRGARKVAEELGSGNA				NA	NA	NA	NA	NA
D1-29_00696	1062			hypothetical protein	ATGAACTTACGAGCAGCGGATCGAGTACGGCGGGACCTGGACGAACTGGTCGACGCCGGTCTCCACGTCGAAGGGTTCTGCGCCGCAGCCGGCCCGCTTGTTGCCCGGGCGGTGCCCTCGGAGGCCGGTGCAGCCGCAATACCGACATGGTACGCCCTCGACCCCCGATCGCTGCTGATCAGCGGTGTGTACGGTCCCGACTGCGAACTGGACACCGCAGCGCAAATGCGTTGGGAGTACCTCGATGACGACGTCAACAAGTCGGTCGACGTCGCGCAGAACCCCACCGGAGTCCAGACCCTTGCCGAGGTCACGGACGGGAACCCCTGGCTCAGTCCGATCTACCGCGACTATATGCACGGCCACGACCTCGCCCAAGAGATGCTGGTGGCGTTGCGTGGCGCCGACGGGCATGTCTGGGCCACCGTACGCCTCAACCGGTCGCGTGCGATGGCAGCCTTCGACGAGTCAGACCGGCAGTTCATGCGGTCGGTTGCTCCATGCCTGGCCGAAGGCATCCGGCGCGGACTGCTCACGGATGCCACTTCCGGGGCACGGACCCCCGTCTCGCCAGGGCTGGTGGTCCTCGATCGTGTGGGCCGCCCGGTCGCCGTGAGCGCCTCGGTAAGGGAGTGGCTGGCACTGTTCCCCGGCGGTCCCCGGCCCGACGCCGATCTTCCGCTGCCCATCCACGCGGTTGCGTTCGCCGCGTTGGCTGGGGGAAGTCCGCCAGCCATGCTGCGTATTCGGTTGATCAACGGACAATGGGCCGCGTTGCACGGGATCGTGACTGAGCTGGGGACCGGCGCCGTGAGCGTCATTATTGCTCCGGCCAGCCGTGAGCACCTGCTGCCATTGACCGCAGCGATCTATGGGCTGACTCCCCGCGAGCAGCAGGTAGCCGGACTCATCCTGAGGGGCCATGGCACTCACCGGATAGCCCACAGGCTCGGGATTTCGCCCTACACGGCCCAGGAACACCTGCGCCACATCTTCGCTAAGGTCTGCGTCGCCAGCCGCGGCGAGCTCGTGGCGGCCCTCTTCGTCGAACGAAACGGGTAA	MNLRAADRVRRDLDELVDAGLHVEGFCAAAGPLVARAVPSEAGAAAIPTWYALDPRSLLISGVYGPDCELDTAAQMRWEYLDDDVNKSVDVAQNPTGVQTLAEVTDGNPWLSPIYRDYMHGHDLAQEMLVALRGADGHVWATVRLNRSRAMAAFDESDRQFMRSVAPCLAEGIRRGLLTDATSGARTPVSPGLVVLDRVGRPVAVSASVREWLALFPGGPRPDADLPLPIHAVAFAALAGGSPPAMLRIRLINGQWAALHGIVTELGTGAVSVIIAPASREHLLPLTAAIYGLTPREQQVAGLILRGHGTHRIAHRLGISPYTAQEHLRHIFAKVCVASRGELVAALFVERNG				NA	NA	NA	NA	NA
D1-29_00697	444			hypothetical protein	ATGGCTGGTATGGGTGAAACTATTGGTCATGGGGACCGGATTGCACGGGCGTTCGTGGCCGCTGTGGGGAGCGGTGACCCGACCCGCTGGGCGGCGATGTTTACCGACGACGCAACTTACAAAACGCCGGACTTTCCGAACCCGGTTCAGGGTCGGGACGCGCTGCGGGCGATGGCGATCACGTTCTTCACGGCGTTCCCCGACATGGAACTTATGGTGCGGTCAGTGATCGAGCAAGGCAACGTTGTGGTCCTGGAAGGCGCGACCAAGGGCAGTTTTACGGGGCCGTTGACGATGGCCGATGGAGAGGTCCCGCCGACCGGCAAGTCCTTCGAGGCACCTCTCGTCTCGGTGTTGGAGTTGTCCGATTCAGGGCTGATTACGGCATGCCGCGAGTATTACGACACCGCAGCCTTTGCCGCTCAGCTCGGCCTGACCGGCTGA	MAGMGETIGHGDRIARAFVAAVGSGDPTRWAAMFTDDATYKTPDFPNPVQGRDALRAMAITFFTAFPDMELMVRSVIEQGNVVVLEGATKGSFTGPLTMADGEVPPTGKSFEAPLVSVLELSDSGLITACREYYDTAAFAAQLGLTG				NA	NA	NA	NA	NA
D1-29_00698	552			hypothetical protein	GTGAACGATGTGCTGACTGATGATGTTTTGCGGGACAATGCCCGTGATCCTGAGTTCTTCAGCCTTGTGTACCGGACATATGCGTCACAGGTCCAGGGCTACCTCGCAGCCCGCGGAGTCGAAGATCCGGAGGCGGTTATGCAGGAAGTCTTCCTCGCCGTCCTTCCCCGGCTGGCGACGGTTAGCGGCGGCATTTCCGGCTTGCGCACTTTCATCTTTTCAGTAGCCCACGCGCGAATGGTGGACGATCACCGCAGGCAAAGCCGCACCCCGCTAAAGCTTCCCTTCGAGGCGGATTTGGACCAGCGCGAGGAATCTTCCGCTGAGGCGCAGGCCCTGCAGCGGGTCTCCTCCCGGGAGGTCCTGGACCTCCTTCAGGCGCTGCCGGACGAGCAGCGCGAAGTGCTCACCCTCCGCCTCATCGGAGGCCTCACCGTCGACCAGGCGGCCGTGGTCATGGGCAAGAGCGCCGGAGCAGTCAAGCAACTCCAGCGGCGTGCTTTGAGCAATCTCCGCGAGCAGTCGGCAGTAAAGGAGTACGTGGCGCCATGA	MNDVLTDDVLRDNARDPEFFSLVYRTYASQVQGYLAARGVEDPEAVMQEVFLAVLPRLATVSGGISGLRTFIFSVAHARMVDDHRRQSRTPLKLPFEADLDQREESSAEAQALQRVSSREVLDLLQALPDEQREVLTLRLIGGLTVDQAAVVMGKSAGAVKQLQRRALSNLREQSAVKEYVAP	PGPT0014960_9003	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-29_00699	870			hypothetical protein	ATGACACCCAGCACAAGCCGTGTCATCAGGACCGTGGATGAGATGTTGCTCGACGCCGGGCAGGTGCACGCTGACGAGCTTCGCGCCGCACTACTCGCCCTGGGGTCCCTGGGAACGGTACCGGCGCCTGCACCCAATGCCGAACTTTCAGCCTTGCTGGCCGGACGGAATGATCAGCTTGCCCACCGCCGCAGGCTGCGACGGCGCCGGTCCGGAGTTGTGGGCCTGGCGGTTATTGCAGGTATGGGACTGGGCGTCACTGGTGTGGCCGCCGGTGTGCCGGGTGGAAGCCAGCAGGCCAGCATGTCCGTCCAGCACCTGCTGGAGGGCTGGACGCCCTCCTGGACCATCGCGGCAGGCGCACCTGGCGGAAACGGTGGACTGATGCCGGCTCCGGCAGACGCTTCAGGAACCTTCGAGCAGCCACTGCCCATCCGGGCAGAACAACGCGGAAAGCCTGCAGCGCCCGCGCCGGGACGCGCGGCGCCTGAAACGGGCTCACCGGCGGACGAACGGGCGCACACTCCGGCACGCAAGGCAACAGGCGACGGCGGTTCTGAAGCGGGCGGTGCTGCCGCCAACGGGAACGCTCCCGACGGCGGTGCTGCCGACGGCGGTGCTGCCGCTAACGGTGCTGCCGACGGCGGTGCTGCGGCCAGCAGCGACGCTGCGGCAAAAGGCGAAGATTCCACCAAAGGGCACGATGCCAAAGGTTCCGACGCCCAGGAAGCTGTGAATCCGGCCGCCCCGGCGACGGAGAAATCCCTCAACGGGAAAGCCAGCGCCGGGAAAGCCAGCGCCGGGAAACCGAGCGCCGGATCCGGGAAACCGAGCCCCGGGGCTGCCTGGCTGAAAAAGTTCCGGCGTTAG	MTPSTSRVIRTVDEMLLDAGQVHADELRAALLALGSLGTVPAPAPNAELSALLAGRNDQLAHRRRLRRRRSGVVGLAVIAGMGLGVTGVAAGVPGGSQQASMSVQHLLEGWTPSWTIAAGAPGGNGGLMPAPADASGTFEQPLPIRAEQRGKPAAPAPGRAAPETGSPADERAHTPARKATGDGGSEAGGAAANGNAPDGGAADGGAAANGAADGGAAASSDAAAKGEDSTKGHDAKGSDAQEAVNPAAPATEKSLNGKASAGKASAGKPSAGSGKPSPGAAWLKKFRR				NA	NA	NA	NA	NA
D1-29_00700	426	yccU	COG1832	putative protein YccU	ATGGGACACACCAACGATCCTGCAGTCATCGAACGCCTGATGCGCACCAAGGGGCGGTGGGCGATCGTGGGCCTGACCACCAACGAGTGGCGGGCGGCCTATGACACGTCCCTGTTCATCAGGGACCGGCTTGGTATCGAGATCATCCCCGTCAACCTGCCGGGGGACCCGGTACACGGCGAAACGGGCTACCGCAGCCTGGCAGACATTCCCCCGGAGAAGCAGCCCATCGACGTCGTGGACTGCTTTGTTAACTCGCAGAGGGTAGGAGCGGTGGTTGACCAAGCCATCGCCGTGGGCGCCAAAGCGGTGTGGCTGCAACTGGGCGTCATTGACGAGGCCGCCGTGGAGCGTGCCAAGGCCGCCGGACTGGACGTGGTGATGGACGTCTGCCCCGCGCAGCAGGCCTGGAAGTACAAACTCTAA	MGHTNDPAVIERLMRTKGRWAIVGLTTNEWRAAYDTSLFIRDRLGIEIIPVNLPGDPVHGETGYRSLADIPPEKQPIDVVDCFVNSQRVGAVVDQAIAVGAKAVWLQLGVIDEAAVERAKAAGLDVVMDVCPAQQAWKYKL				NA	NA	NA	NA	NA
D1-29_00701	1029	vldW		Validamycin A dioxygenase	ATGTCACATGACCAGGCGACCATACCTGTTCTGGACCTGAGCACCGCACGCCAACCCTACGGTCCCTTCAGTCCGGAATTCATTGACCAGCTGCGGGACGCCACCCATCGGGTGGGCTTCTTCCAGCTCACGGGCTACGGCGCCTCGCCCGGGCAGGCGGAGGACCTGTTGGAACTGATAAAGCGGTTCTTCGATCTGCCCCTCGAGGAGCGCATGAAGCTGGACAATCGGCTTTCCCCGCATTTCCGCGGCTATACACGGATGGGCACTGAAGTCACCCAGGGCAGGGCTGACGCACGCGAGCAGATTGATTACTCCCCGGACCGCGAACCGGTTCTGGATTACCCTCCGGATCAGCCGTACTGGCTGCTTCAGGGCCACAACATGTGGCCGGATGAGTCGTTGCCGGAGCTTGAACCCGCAGCCATGGCCTGGGCCGAACTGATGTCCCGGGTGGGCGCTGAACTCCTCCGCGCCATCGCCGTTTCCCTCCAGCTGCCGGAGGACTATTTCGATGAACCGTTCAGGGATACCCCGGCCTGGATGGGCAAGCTGGTTCATTACGTGGGCGGTGTGGTGGAAGCGGCCGGCGACCAGGGGGTGGGTTCGCACGCCGACTACGGTTTTGTGACCCTCCTGCTGCAGGACGGGGTGGGCGGCCTGGAGGTGCTGCCGCCCGGAGCCAGTGATTGGGCTGCGGTGGAACCCATTCCGGGGGCGCTGGTGGTCAACCTCGGTGAGATGCTGGAGGTGGCCACGGAAGGCTACCTGGCTGCCACCATCCACCGCGTCCAGGCACCGCCGCCGGGGGTGGACCGTTACTCGGTGCCGTTCTTCTGGTCACCCAGGCTGGATGCCGTGATTGAACCCGTGCCGCTGCCGGCGGAGCTCAAGGCGCAGGCCCGCGGCATCTCCGATGACCCCGCCAACCCGATGCTTGCTTCATTTGGGCTCAACATGCTCAAGGGCAGAATGCGCGCACACCCCGACGTTACCGAGCGCCACTACCCCGAACTCATGAAGCGCTGA	MSHDQATIPVLDLSTARQPYGPFSPEFIDQLRDATHRVGFFQLTGYGASPGQAEDLLELIKRFFDLPLEERMKLDNRLSPHFRGYTRMGTEVTQGRADAREQIDYSPDREPVLDYPPDQPYWLLQGHNMWPDESLPELEPAAMAWAELMSRVGAELLRAIAVSLQLPEDYFDEPFRDTPAWMGKLVHYVGGVVEAAGDQGVGSHADYGFVTLLLQDGVGGLEVLPPGASDWAAVEPIPGALVVNLGEMLEVATEGYLAATIHRVQAPPPGVDRYSVPFFWSPRLDAVIEPVPLPAELKAQARGISDDPANPMLASFGLNMLKGRMRAHPDVTERHYPELMKR				NA	NA	NA	NA	NA
D1-29_00702	420	yjbR	COG2315	putative protein YjbR	ATGGATGTAGCCCAGCTCAGGAAAATCTGCCTGTCGTTTCCCGGGGCCTTTGAGGATTTTCCGTTTGGGCCTGAGACCTCCGTGTTCAAGGTCAGGGCCCACGTGGCCGGCGGATCCAGGCATGAGGCCAAGATGTTCGCCGCCTCGGCCATGAACCCGGACGACTGGTCCGTGAGCCTGAAATGCGAGCCTGCCCTGGCAGAGCAGCTTCGTGCGGCCCATCCCGAAATCACCGGCGCCTGGCATATGAACAAGACCCACTGGAACGGTGTCCGCCTCGATGGTGCCCTGCCGGATGACATGATCCGTGACATGGTGGAGGATTCCTACGATTTGGTGGTGGCCACCTTGAGCCGCAAACAGCAGGAGCAGCTCGGCTGGGCCCGGCTGTCCGGATCGCAGGGTGCGTCGCTTGACTGA	MDVAQLRKICLSFPGAFEDFPFGPETSVFKVRAHVAGGSRHEAKMFAASAMNPDDWSVSLKCEPALAEQLRAAHPEITGAWHMNKTHWNGVRLDGALPDDMIRDMVEDSYDLVVATLSRKQQEQLGWARLSGSQGASLD				NA	NA	NA	NA	NA
D1-29_00703	558			hypothetical protein	GTGCGTCGCTTGACTGAAAAGCGTCTGGCGGCGGGCGAACTCGATTACCCGGGCATTGGCTCCACCGAGCACGGGCGGACACCGGAGGGGTACGCCTGTGTGGTGTCACGGACGTACATCGGGAAAGGCACCGCAATCTACCTCAGGGTGGCCAAGGGAATCCTCACCTGGGAGCTGCAGAAGCGGTCGGGGCTGCGCGTCCGGACGGAGTCCGATCAGGTCGTTCCCGGTGCACGGATAGTGAGCGGATTCGGCGTCGGGCCCTTCCGCCTGAATGCCCCGTGCGAAGTGGTGTGGGTTCGCCGGGCGGGGACCGGTGAAGGCCCGCAGTCGGCCGGCTTCGGCTATGGCACCCTTCCCGGTCATCCGGTGAGAGGTGAGGAGGCCTTCGAGGTGGAGATCGACGCGCAGGAAAGCGTGTTTTTGAAGATCACGGCATTCAGCCGGCCCGCCAACTGGATGTACCAGGTGGGCGGGGTGCTGGCCCGTGCGGCGCAAAGCCACATCACTTCCCGCTACATTGAAGGGGCGCGCCAACTCGCCGCCGATGAGATCTGA	MRRLTEKRLAAGELDYPGIGSTEHGRTPEGYACVVSRTYIGKGTAIYLRVAKGILTWELQKRSGLRVRTESDQVVPGARIVSGFGVGPFRLNAPCEVVWVRRAGTGEGPQSAGFGYGTLPGHPVRGEEAFEVEIDAQESVFLKITAFSRPANWMYQVGGVLARAAQSHITSRYIEGARQLAADEI				NA	NA	NA	NA	NA
D1-29_00704	624			hypothetical protein	ATGCTGGACCAAGAGGCCCTGGACCGTTTGTGGGACGTCAATGATCCGGAACTTTCCGAACAACGGCTCCGGACGGCCATGGCTGACCCGGATTATGACGACGACGAAAAGGCCGAACTGGCCACACAGGTAGGCCGGGCCATCGGGCTGCAGGGCCGTTTCGAGGAGGCCGATGCCCTGCTCGACTCCATCGACGGCGACGAACCCACCGTTGGAGTCCGGATCCTGCTGGAGCGGGGCCGGGTCCTGAATTCGAGTGGCCATGCTGCCATGGCGGTGCCCTTGTTCGAGCAGGCGGCTGAAATGGTAGATCACCTAGGTGAGGAGTTCCTGGCCGTGGACGCTCTTCGCCTGCTGGCCCTCGCCGACTCCGCCCACGCGGAACTCTGGCTGCGCAGTGCGCTGGAGTACGCTTCCACCGCGCGTGATCAGCTGACCCGGCGCTGGATGGTGGGACTGCATCATGATCTGGGCCGGGAGTTGCATGGTTCAGGAAGGTTCACGGAAGCGCTGGTGGAATTCCAACTGGCCGAACAGTGGGCCGAACGCGTGGGCACGCCGGCGCAGCAGCGCACCGCGCAGCAAGGAATCCAGGAGTGCGAACTGGCTTTGGCAGCAGGCTGA	MLDQEALDRLWDVNDPELSEQRLRTAMADPDYDDDEKAELATQVGRAIGLQGRFEEADALLDSIDGDEPTVGVRILLERGRVLNSSGHAAMAVPLFEQAAEMVDHLGEEFLAVDALRLLALADSAHAELWLRSALEYASTARDQLTRRWMVGLHHDLGRELHGSGRFTEALVEFQLAEQWAERVGTPAQQRTAQQGIQECELALAAG				NA	NA	NA	NA	NA
D1-29_00705	294			hypothetical protein	ATGTGGATCGGCTGGATCGAATTCGACATCCTTTTAGGCGATGTTCAAAGCCTGAAGGAGAAACGTTCCCTCATCAGGCCCCTCGTCGCGGAGATCAAACGCCGCTTCGACGTTTCGGTGGCTGAGGTGGGGGACCACGAGCAGTACCGGCGCAGCCAGGTGGGCGCGGGACTGGTGGCAGCTGACCGGGCGCACCTCGTGGAGGTGCTCACCGCCGTCGAACGCTTTGTTGCTGCCCGCCCGGAGTTTGAGTTGCTGAGTGCAAGGCAGCGGGAGCTGCACAGCGAAGACTGA	MWIGWIEFDILLGDVQSLKEKRSLIRPLVAEIKRRFDVSVAEVGDHEQYRRSQVGAGLVAADRAHLVEVLTAVERFVAARPEFELLSARQRELHSED	PGPT0014535_271	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014535-ylxP-K09764	NA	NA
D1-29_00706	828			hypothetical protein	ATGGGCAAGGTGGCAAGGTTCCTGAGTTTCGTGGTGTTGCTGGTCCTTGTCCTGGTTTCGGCGGCACCGACGCCAACCAGCCGCTATCCCCGGAGCATGGCTGCCATCGGGGATTCCATTACCCGGGCCTTCAGCGCCTGTTGCGGGTTTGGCGACCACCCGGTCCATTCGTGGTCCAGCGGCGACAGCGGGAATGACGGCGTCGTCAGCCACTATGAACGGCTGCTCCGCCTGCAGCCGGCAATCTCCGGAAGAAATTACAACAACTCCAGGAGCGGGGCTAAGGTGGCGGGCATTCCGGCGCAAGCTGCCATGGCTGCCAGCCAAAGAGCCGCTTACGTCACTGTCCTGGTGGGCGCCAACGATCTCTGCACATCGTCCGCAAATACCATGACCACCGAGGCTGCCTTCAGGGCGGCAGTGGACGAGGCGCTGGCCATACTGGACCGGATGCGCCCCCGGCCGAAGGTCTTTGTGAGCAGCATCCCGGATTTGTACCAGTTATGGACTGTCCTGCACAGCGACCCGGCGGCGCAGGCGGCCTGGTCCGGTGGAAGCATCTGTCAGTCCATGCTCTCGGCTTCGAACAGCGAAGAGACGCGTCAGCTCGTGGTGCAGAGGCAGGCAGCCTTCAATGCCATCCTCTCCAGCTCCTGCGCAGCCTATCCCGGCATGTGCCGCAGCGATGGCGGAGCGGTGTACGGATACAAATTCACCGCCAGCGACGTGAGCGTCCTTGATTACTTCCATCCAAGCCTGGAGGGCCAGAACAAGCTGGCAGGCATCACCTGGGACGCGGTGTGGCAGGAAGGCGACCTGACTTCCTGA	MGKVARFLSFVVLLVLVLVSAAPTPTSRYPRSMAAIGDSITRAFSACCGFGDHPVHSWSSGDSGNDGVVSHYERLLRLQPAISGRNYNNSRSGAKVAGIPAQAAMAASQRAAYVTVLVGANDLCTSSANTMTTEAAFRAAVDEALAILDRMRPRPKVFVSSIPDLYQLWTVLHSDPAAQAAWSGGSICQSMLSASNSEETRQLVVQRQAAFNAILSSSCAAYPGMCRSDGGAVYGYKFTASDVSVLDYFHPSLEGQNKLAGITWDAVWQEGDLTS				NA	NA	NA	NA	NA
D1-29_00707	2319	purL	COG0046	Phosphoribosylformylglycinamidine synthase subunit PurL	GTGAGTACCTCAGCTGAAACCGTCAGCAAGAAGTTCAATATCGACACCGTCGAGAATGCAGCCAAGACACCGGACACCGAACTCCCGTGGGCCGAGCTGGGCCTGAAGCAGAACGAGTTCGACGAAGTGGTCAAGGTCCTGGGCCGCCGCCCCACCGGCGCCGAGCTCGCCATGTACTCGGTGATGTGGAGCGAGCACTGCTCCTACAAGTCCTCGAAGAACCACCTGCGTCAGTTTGGCGAGAAGGTGACCGACGAGATGAAGAAGGACATGCTGGTAGGCATCGGCGAAAACGCCGGTGTGACCAACCTGGGCGACGGCTGGGCCGTGACGTTCAAGATCGAGTCCCACAACTCGCCGTCGTTCGTGGAGCCCTACCAGGGCGCCGCAACCGGCATTGGCGGCATTGTCCGCGACATCATCTCCATGGGCGCACGCCCGGTGGCCGTGATGGATCCGCTGCGTTTCGGCGCCATCGACCACCCGGACACCGCCCGCGTGATGCACGGGGCTGTTGCCGGCATCGGCGGCTACGGAAACTCCCTGGGCCTGCCCAACATCGGCGGCGAGATGGTCTTCGATTCGGTGTACCAGGGCAACCCGCTGGTGAACGCCCTCGCAGTTGGCGTGATGCGGCACGAGGACATCCGGCTGGCCAACGCGTCCGGCAAGGGCAACAAGGTGGTCCTGTTCGGTGCCCGCACCGGCGGAGACGGAATTGGCGGCGCCTCGGTGCTGGCCTCCGAGTCCTTCGACGACACCAAGCCGTCCAAGCGCCCCGCCGTGCAGGTGGGCGACCCCTTCGCCGAGAAGGTCCTGATTGAGTGCTGCCTGGAGCTGTTCAAGGGCTCGCTGGTTGAAGGCATCCAGGATCTGGGCGCCGCGGGCATTTCCTGCGCCACGTCAGAGCTCGCCTCCAACGGCGACGGCGGCATGGAAGTTGAACTGACCTCCGTCCTGCTGCGGGACCCCACGCTGACTCCGGGCGAGATCCTGATGTCCGAGTCGCAGGAACGCATGATGGCTGTAGTGACTCCGGAGAACATCGAAGCCTTCGAAGCCGTGATGGACAAGTGGGCCGTGGAGTACTCCTGGCTGGGTGAGGTGACCGACACCGGCCGCCTCATCATCACGTGGGAGGGCGAAGTGATCGTCGACGTCGATCCCCGCACCGTTGCGCACGACGGTCCGGTGTACGACCGCCCGTACGCACGGCCGGAGTGGCAGGACTCGCTTCAGGCTGACACGTTCACCGGGTCCGTCCAGGACGCAGGCCGCCCCGCCGCCCCTGCAGAGTTGGCTGCCGCCGTAACGGAGCTCATCGCTTCGCCGAACATGTGTGACAAGTCCTGGATCACCAACCAGTACGACCGTTATGTTGGCGGCAACACCTCCATGGCCATGCCAGATGACGCCGGTGTGGTCAGGGTGGATGAGGAAACCGGCCTTGGTGTGGCTTTGGCCACCGACGCCAACGGCCGTTACACCTTCCTCGATCCGTACCACGGTGCACAGCTGGCGCTGGCCGAGGCCTACCGCAACGTGGCCACTTCAGGCGCTGTCCCGATGGCTGTCAGCGACTGCCTGAACTTCGGTTCCCCCGAGGATCCGGACGTCATGTGGCAGCTGGCCGAAGCCATCCGCGGCCTGTCCGACGCCTGCATGGTGCTGGGCATCCCCGTCACCGGTGGCAACGTCTCGCTGTACAACCAGACCGGCACCACGCCCATCCACCCCTCCCCCGTGGTGGCTGTGCTGGGCAAGTTCGACGACGTCGCCCGCCGCACGCCGTCGGGCTGGCGCGAGGACGGTCAGGCCATCTACCTGCTGGGCACCACTGCGGCTGAACTGGACGGATCTGAATGGTCCAACCTGCGCGGCCACCTGGGCGGGCTTCCGCCCAAGGTTGACCTCGCCGCGGAACGCGCGCTCGGTGAAATCCTGATCAACGCCTCCCGGGACGGCATGGTTGACTCCGCGCACGACCTCTCCGAAGGCGGCCTCGCGGCGGCACTCGTGGAGTCCTCGCTGCGTTACGGTGTAGGCGCCCGCATCGCACTGCAGGACGTCCTGGACCGCGACGGCGTGGACCTGTTTACGGCCCTGTTCTCCGAGAGCCAGGGCCGTGCCATCGTCGGCGTCCCGAGGTCCGAAGAGATCCGCTTCACGGACATGTGCACAGCCCGCGGCTTTGCCCACATCAGGATCGGCATCGTGGACGCCGCCAGCGGCCAGCTGGAGATCAACGGCGTGGAGACGCTGTCCCTCGATGCCCTCCGCGAAGCCCACGAGGCCACCTTGCCGAAGTACTTCGGCTAG	MSTSAETVSKKFNIDTVENAAKTPDTELPWAELGLKQNEFDEVVKVLGRRPTGAELAMYSVMWSEHCSYKSSKNHLRQFGEKVTDEMKKDMLVGIGENAGVTNLGDGWAVTFKIESHNSPSFVEPYQGAATGIGGIVRDIISMGARPVAVMDPLRFGAIDHPDTARVMHGAVAGIGGYGNSLGLPNIGGEMVFDSVYQGNPLVNALAVGVMRHEDIRLANASGKGNKVVLFGARTGGDGIGGASVLASESFDDTKPSKRPAVQVGDPFAEKVLIECCLELFKGSLVEGIQDLGAAGISCATSELASNGDGGMEVELTSVLLRDPTLTPGEILMSESQERMMAVVTPENIEAFEAVMDKWAVEYSWLGEVTDTGRLIITWEGEVIVDVDPRTVAHDGPVYDRPYARPEWQDSLQADTFTGSVQDAGRPAAPAELAAAVTELIASPNMCDKSWITNQYDRYVGGNTSMAMPDDAGVVRVDEETGLGVALATDANGRYTFLDPYHGAQLALAEAYRNVATSGAVPMAVSDCLNFGSPEDPDVMWQLAEAIRGLSDACMVLGIPVTGGNVSLYNQTGTTPIHPSPVVAVLGKFDDVARRTPSGWREDGQAIYLLGTTAAELDGSEWSNLRGHLGGLPPKVDLAAERALGEILINASRDGMVDSAHDLSEGGLAAALVESSLRYGVGARIALQDVLDRDGVDLFTALFSESQGRAIVGVPRSEEIRFTDMCTARGFAHIRIGIVDAASGQLEINGVETLSLDALREAHEATLPKYFG	PGPT0021730_315	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021730-purL-K23269	NA	NA
D1-29_00708	774	purQ	COG0047	Phosphoribosylformylglycinamidine synthase subunit PurQ	ATGACTGAGCTTCCCCTGATCGGCGGGGAGGTCGCTGTTGCGGCCGACGCCCGCCTCGCCGGCGCCAAGATTGGCGTTGTGACCTTCCCCGGCACGCTTGATGACCGCGACGCCGCCCGCGCAGTCCGCCTTGCCGGCGCCACCGCCGTCGAGCTCTGGCACGCCGATACCTCCCTGGGCGACGTGGATGCAGTGGTGATTCCTGGCGGTTTCTCCTACGGCGACTACCTCCGCGCCGGAGCGATTGCGCGTTTTGCGCCGCTCATGTCCAAGATCATCGATGCCGCCAACTCGGACGCGAGGCTGCCGGTCCTGGGCATCTGCAACGGGTTCCAGATCCTGACCGAGTCGCACCTGCTTCCCGGCTCCATGATCAAGAACGACCACCTGAAATTCATGTGCCGGGACCAGGTCCTGCGCGTGGAGAACAACACCACGGACTGGACCAGGGACTACGCCGCGGGCCAGGAAATCACCGTGCCGCTGAAGAACCAGGACGGCCAGTACATCGCCGACGAGAAGACCCTGGATGCGCTGGAAGCTGAAGGCCGCGTGGTGTTCCGCTACGTGGGCTTCAACCCGAACGGCTCCCGCCGCGACATCGCCGGCATCTCCAACGCTGCGGGCAACGTGGTAGGCCTGATGCCGCACCCCGAGCACGCTGTTGAGGTGGGCTACGGCCCCGAATCCCTGGATGGCATCGGCGGTTCCGACACGGACGGCCTCGGATTCTTCACCTCCGTCCTGACCAAGATTGTGGGAGGCGCCAAGTGA	MTELPLIGGEVAVAADARLAGAKIGVVTFPGTLDDRDAARAVRLAGATAVELWHADTSLGDVDAVVIPGGFSYGDYLRAGAIARFAPLMSKIIDAANSDARLPVLGICNGFQILTESHLLPGSMIKNDHLKFMCRDQVLRVENNTTDWTRDYAAGQEITVPLKNQDGQYIADEKTLDALEAEGRVVFRYVGFNPNGSRRDIAGISNAAGNVVGLMPHPEHAVEVGYGPESLDGIGGSDTDGLGFFTSVLTKIVGGAK	PGPT0020220_257	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020220-purQ-K23265	NA	NA
D1-29_00709	252	purS		Phosphoribosylformylglycinamidine synthase subunit PurS	ATGCCCCGGATCGTTGTTGACGTCATGCCCAAGCCCGAGATTCTGGACCCGCAGGGGAAGGCCATCGTGGGTGCACTCCCCCGTCTTGGCTTCACCGGCTTTAGCTCTGTCCGCCAGGGCAAGCGCTTTGAACTGACCGTCGACGGCGAGGTGACCGACGCAATCCTGGCCCAGGCCCGTGAGGCAGCAGAGACCCTGCTGTCCAACCCCGTGATCGAAGACGTCGTCAACGTCGAGGTCGTCGAGGCCTGA	MPRIVVDVMPKPEILDPQGKAIVGALPRLGFTGFSSVRQGKRFELTVDGEVTDAILAQAREAAETLLSNPVIEDVVNVEVVEA	PGPT0021725_881	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021725-purS-K23264	NA	NA
D1-29_00710	186			hypothetical protein	ATGGTTGAGAAATCGAAATCCGTGCTGTTGCCCGTGATTGCCGCAGCTGTTTTCGCGGGGCTGGGCAGGATGGTTTTGCAGAAGATCAAGGCGGACCGGGCCGCGAGGGAACACAGGGTGACGGGTCCTGTCGATGAAAAGACCCGGCAATGGATCAGTGAGGTTGTCCGCACCCCGCGCGAGTAG	MVEKSKSVLLPVIAAAVFAGLGRMVLQKIKADRAAREHRVTGPVDEKTRQWISEVVRTPRE				NA	NA	NA	NA	NA
D1-29_00711	3213			hypothetical protein	GTGAAATCAACTGGAAAGAGCCCCAGCAGGGGCCGGGGGTTCCGGAAAGCGGCGGCGCTCGCCGTCGGATTGCCGTTCCTCCTTGTCTCTTTGGCGCTGAGCCCCGCTACCGCGGCTACCGGCCAGCCTGGTAGTCATCCAGGTGCAGCAATAACGGCAAAGAACATCAATCCGGATGACTACCAGGCAGGGCGGTACATCGTTGTGCTTGCCGGGAAACCCGCTGCCACGTATGACGGCGGTACACCTGGCCTGGCCGCCACCAAGCCTGAAAGCGGCCGAAAGCTGGATGCCGGGCGGCCCGAGGTCCAGCAGTACCAGGCACACCTCGAGGCGAAGCAGAACGAGGTAGCCGCGGGCGAAAACGTCCAGATCAAGCGGAAGTACACCGCGGCGATCAACGGATTCTCAGCCGACCTTACTGCCGGGCAGGCCGTGAAGCTCGCAAAGGATCCAGCCGTACTGCTTGTTGCCCCGGACACTGAGAACGCCCCGGACTATTCCACCACCGACTTCCTCAAGCTCAGCGGGCCCAACGGCAGCTGGAACACCGTCTTTGGCGGCCAGGAGAATGCCGGCAAGGGCGTTGTGGTTGGTGTCATCGACTCCGGCTACACACCCTCCAACCCGTTCTTCGCCGGCCAGGACGTACAGCCGCTCACCGGTCAGGCCCAGGTGGGGGTTCCCTACCGGACGGGAGAGGGCAAGATTGCCATGCTGAAGTCCGACGGCGATACTTTCGTGGGCGAATGCCAGAAGGGTGAGGGCACGGGGGCGGCGTTCGACGGGAGTGCCTGCAACTCGAAGGTTTTGAGCGCCCGCTACTTTGCGGATGACTTCAAGAAGTATGTTGCACCGGAACACCGCGCCCCGGAGGAACTCATCTCACCGGTTGATGTGGGCAGCCACGGCACGCACACAGCCAGTACTGCAGTAGGCAACGCCAACGTCAAGACCAACCTTGGCGCGACCGACATGGGCATCACCAGCGGCGTTGCTCCTGCTGCAAAGCTTTCGGTGTACAAAGTCTGCTGGGAGGACGATAACCCTGACACCGGCGGCTGCTACAGCTCCGCATCTGTGGCTGCGATCAACCAGGCCATCCTGGACGGTGTGGATGTCCTCAACTACTCCATCTCCGGCAGCACCTCCACCACCACGGATCCTGTCTCCCTTGCCTTTCTCTCGGCGGCATCAGCCGGCATCTTCGTTGCCGGCTCGGCGGGAAACTCCGGTCCCGCCGCCAGCACGGTCAACCACGGCGCACCATGGCTGACGACGGTGGCCGCAAGTTCGTTTTCCACTGAACTCCAGGGCACGGTTGAATTCGAAGACGGCAGCAAGTTCCGCGGCGCCAGCCTGATGGCCAACCCTGTTCCCGCCAGCAATGCTGTGCTGGCTGTTGACGCTGCGGCCGCCGGGGCAGCCAACCCTGTACTCTGCGGCCCGAACGTGCTGGACCCCGCCAAAGTCGCCGGGAAGATAGTGGTCTGTGACAGGGGTGTCATTGACCGGGTTGCCAAGAGCGCGGAGGTTCAGCGGGCGGGCGGCGTCGGCATGATCCTGGTCAACCTGGCCACCTCCTCGGAGGACCTGGACCGCCATTCCGTCCCTACCGTGCACGTGAATCCTCCTGCGACACAGGAGATCAAGAACAAGATCACCGCGAATCCGGCCATCAAGGTTGCCCTCGTCAACAAGGACACCACCGGGCTTCCGGCGGCACCTCAGCCGCAGGTTGCAGGTTTCTCTTCACGGGGACCCCTCCTTGCCACCGGCTCGGACCTTCTCAAGCCTGATGTTGCAGCGCCCGGTGTGGCCGTCCTGGCCGGCGTGTCTCCCATAGGCTCCGGCGGTGACCAGTTTGGCATGATGTCCGGAACATCCATGGCGGCGCCGCACGTGGCAGGCTTTGGCGCCCTGGTCCTCGCCAAGAACCCCGGCTGGTCCCCGGCCACGGTCAAGTCAGCCATGATGACCACGGCCGGCGATGTCAAAAATGCGGACGGCTCCCGGAACAGCGATGTGTTTGCCACCGGTGCGGGCCAGGTGGACGTGGCAAGGGTGTTGGATCCCGGCCTGGTCTACGACAATACCGGGGACGACTACCTCAGGTTCATCCAGGGAACTGGCCTGGACCTTGGCATTCCGGACTTGGGAACCACCGCACCGCGGGACATGAATATTGCCTCGTTCGCGCTGGGAACCCTCACCGGCAAGACGGAGGTTACCCGCACTGTCACGGCGCTGACGCCCGGGCTCTACCGCGCCCAGGCCAATGTACCGGGGGTTAAGGTGAGCGTGACGCCGTCGGTCCTCAACTTCGAGGCCGCGGGCGAAAAGCGCACTTTCAAGGTCAAGTTCGAAAACACCGGAGCGGCCCTGGGGCAGTTCGCCATGGGAAGCCTGGTCTGGCAAGGCGCCGGGAAGAACATCACATCACCTATTGCGGTCCGGCCGCAGTCCGTGGTGGCTCCTTCCAACCTGGCCTTCACGTCGGAGGGCGGAACCGGTCAGGGCGCGATCCCGGTGGTTTCCGGTACGAACACACCTGTCAACGTCACGCTGGACGGACTGTCGAAGGCCGATTCCTCGGCGATTGAGCTGGTTCCCGGACCGTTGGCACTGGAGACCAACGCATCGAACTTTGCCAAGGAGGTCACCGTGCCCGCCGGAACGCCGCTGGCCAAATTCTCCGTCTTTTCCTCCACCGAGGAGGCGGACTTCGACATGGTGGTCTTCAACCCCGCGGGCCAGGTCCTGCTGGCGCAGACGGCTTCGGCCAGCGAATCCATATCCGTGCCAAACCCCGCCCCGGGTGTCTACACGATCTACGTGAATCTCTACGCCAGTTCCAACGGCCAGCCCACCAAGGCGTCGGTGGATGCCGCAGTGCTGGGGGCGAATGTAGGAAATGCCACCGTGTCCCCGAACCCGCTGCGGCTTGGAAACGGCCAGTCCGGCGTCCTGTCGCTGGCCTGGAAGGACCTGGCCGAAGGTTCGTACATTGGCCGGGTCAGCTTTGCCGGTTCCAGCACGCCCACCTTCGTCTCGGTGGTTGTGACACCGGGCACCGCGGGGGTGGTTCCGGCTGACGAACAGGCTGATGATCCTGCAAAGCCCGACCAAGAAGAAATGAAGGAAAAGGTCAGGAAGGACAAGAAAAAGCAGGAGGTTTCCGAAACTTCCGGGATCAGGGACATGGATATCTAG	MKSTGKSPSRGRGFRKAAALAVGLPFLLVSLALSPATAATGQPGSHPGAAITAKNINPDDYQAGRYIVVLAGKPAATYDGGTPGLAATKPESGRKLDAGRPEVQQYQAHLEAKQNEVAAGENVQIKRKYTAAINGFSADLTAGQAVKLAKDPAVLLVAPDTENAPDYSTTDFLKLSGPNGSWNTVFGGQENAGKGVVVGVIDSGYTPSNPFFAGQDVQPLTGQAQVGVPYRTGEGKIAMLKSDGDTFVGECQKGEGTGAAFDGSACNSKVLSARYFADDFKKYVAPEHRAPEELISPVDVGSHGTHTASTAVGNANVKTNLGATDMGITSGVAPAAKLSVYKVCWEDDNPDTGGCYSSASVAAINQAILDGVDVLNYSISGSTSTTTDPVSLAFLSAASAGIFVAGSAGNSGPAASTVNHGAPWLTTVAASSFSTELQGTVEFEDGSKFRGASLMANPVPASNAVLAVDAAAAGAANPVLCGPNVLDPAKVAGKIVVCDRGVIDRVAKSAEVQRAGGVGMILVNLATSSEDLDRHSVPTVHVNPPATQEIKNKITANPAIKVALVNKDTTGLPAAPQPQVAGFSSRGPLLATGSDLLKPDVAAPGVAVLAGVSPIGSGGDQFGMMSGTSMAAPHVAGFGALVLAKNPGWSPATVKSAMMTTAGDVKNADGSRNSDVFATGAGQVDVARVLDPGLVYDNTGDDYLRFIQGTGLDLGIPDLGTTAPRDMNIASFALGTLTGKTEVTRTVTALTPGLYRAQANVPGVKVSVTPSVLNFEAAGEKRTFKVKFENTGAALGQFAMGSLVWQGAGKNITSPIAVRPQSVVAPSNLAFTSEGGTGQGAIPVVSGTNTPVNVTLDGLSKADSSAIELVPGPLALETNASNFAKEVTVPAGTPLAKFSVFSSTEEADFDMVVFNPAGQVLLAQTASASESISVPNPAPGVYTIYVNLYASSNGQPTKASVDAAVLGANVGNATVSPNPLRLGNGQSGVLSLAWKDLAEGSYIGRVSFAGSSTPTFVSVVVTPGTAGVVPADEQADDPAKPDQEEMKEKVRKDKKKQEVSETSGIRDMDI				NA	NA	NA	NA	NA
D1-29_00712	372			hypothetical protein	ATGATGGCGCCCGGTGACGGAGTGGCAGCTACAAACCTGACCATCAGGCTCACCGAACAGCCAGGTTCCAGCGAGTACGTCTTCCGCCTGGTTGCCGAGGACGGCCACCCTGCAGCGGGGTCGAACCTGCCCGATCCGGAGGCAGCGCTTGCAGCTGTGGAACAGTTCGGCGAGGACATTTTCTTTCCGAAGCCCGGCCCGCCCAGGTTATGCACCCAGCAGTACGGCGGACCCCAGGTGGCCGTGGTGACGGGAACTTTTCGTGGCCGTCCCGTCAGTGCTCAGTTCCGACGCACTGACGGCTGCGAGATCGCCCGGTGGAAGGCGATGGCCCCGCTGTTGGGCGGAAGCCCTGGCTCTTATCAGACGTAG	MMAPGDGVAATNLTIRLTEQPGSSEYVFRLVAEDGHPAAGSNLPDPEAALAAVEQFGEDIFFPKPGPPRLCTQQYGGPQVAVVTGTFRGRPVSAQFRRTDGCEIARWKAMAPLLGGSPGSYQT				NA	NA	NA	NA	NA
D1-29_00713	930			hypothetical protein	GTGCCACTGGTGGAGCAGCTTAGCCTGCTGACGGACGGCGAGTGGCAGGTGCGCCAGGCAGCGTACCAGGAACGGGTCCGCCGCTATGCCGATCCCTACCTTGCCCGCCGTTCAGCGGGGCAGAAGCACCCGGTTGAAGATTTTCTCTTCACCTACTACACCCAGAAGCCTGGCCAGCTGCTGCGCTGGCACCCGGGCGCCGGCGTCGTCCTCACCGGCGCCCAGGCGGCTGCCCGCAGCAGCTGGAAACACTACAGAATGCTCGACGACGGCGAACTCGCCTCCCTGGGGATGCCTTCCGGCAGCACGGCGGTCACCGTTGACACCCCCGCCTTTCTGGAGGACCGGCACCAGGCAGTCACCTTCGCCGGGATCATTCTCCGCGGAACGGCGGCCCGACCTGCCCAGTTCGGCTGCTTCGGCCTGCATGAATGGGCCATGGTCTACCGCCAGGACAAGTTCGACCTGCGGCACGAGTACCTGAACCTGAGGCTGGGCTCCGCCGGCACGGACAAGGTAGTGGAGGACAACCGGATCCGCTGCTCCCATTTTGATGCCTTCCGCTTCTACACCCCCGACGCCAAGCCGCTGAACGAGCTCGAGCCCAGCCGGGAAAAGCAGCGGGATCTGGAACAGCCCGGCTGCCTGCACGCCAACATGGATCTGTACAAGTGGGCCTACAAGCTGGTGCCGGCGCTTCCCAGCGAGCTGGTGATGGACTGTTTTGAACTGTCGTGGCGGATACGTGCCATGGATATGCAGGCCTCCCCCTACGATCTGGCCGAGTGGGGTTACCCTCCCATCCGGATCGAAACAGCCGAGGGTAAAGCCGCCTACATGGAGAACCAGCGGGGCTTTGCTGCTGAAGCCGCCGCCCTCCGCGAGCGGCTCGCAGTGAAACTGGCCCCGCTTTCCGGAGGACCAGCATGA	MPLVEQLSLLTDGEWQVRQAAYQERVRRYADPYLARRSAGQKHPVEDFLFTYYTQKPGQLLRWHPGAGVVLTGAQAAARSSWKHYRMLDDGELASLGMPSGSTAVTVDTPAFLEDRHQAVTFAGIILRGTAARPAQFGCFGLHEWAMVYRQDKFDLRHEYLNLRLGSAGTDKVVEDNRIRCSHFDAFRFYTPDAKPLNELEPSREKQRDLEQPGCLHANMDLYKWAYKLVPALPSELVMDCFELSWRIRAMDMQASPYDLAEWGYPPIRIETAEGKAAYMENQRGFAAEAAALRERLAVKLAPLSGGPA				NA	NA	NA	NA	NA
D1-29_00714	561			hypothetical protein	ATGCGTAAATTGCTGACCCAGGTGGCGGCCCTGCTGCTGGCGGCAGGGCTCATTCCCGCCTGCTCGGCTGCGGACACCGGCGCTCCCGCCTCCACCCCGCCGGCCGCAAGCTCCCCCACCACTTCCGGAGCTGCCACCACGCCCGCCCCGGACACCGAAACCTCCGTCCCGGCTCCGGCGCCGTCTGCCTCACGCACCCCTACAGCAGGACCGGGAGTCGGCAACGCCGAACTGGCCATCACGGTCAGGCCCTCGGAGACGGAACCTGCCGTCAATTACACGCTCGTATGCCAGGACGGGGTCCCGGCAGCTGAAAGCAAGCACCCGTCAGCCGAAGCGGCCTGTGAGGCCATCAAGAACAACGCCGCCGTGCTCAGCCCGTCCGCCCAGGGCAAGGACCAGGCGTGTACTGAGCAATATGGCGGGCCGCAAGAGGCCATTGTCACCGGAATCGTTGACGACACGCCTGTTGATGCCACCTTCGCCCGCAGGAACGGCTGCGAGATCAGCGCCTGGGACGCTGCCCGGGACATACTGGGTGCCACTGGTGGAGCAGCTTAG	MRKLLTQVAALLLAAGLIPACSAADTGAPASTPPAASSPTTSGAATTPAPDTETSVPAPAPSASRTPTAGPGVGNAELAITVRPSETEPAVNYTLVCQDGVPAAESKHPSAEAACEAIKNNAAVLSPSAQGKDQACTEQYGGPQEAIVTGIVDDTPVDATFARRNGCEISAWDAARDILGATGGAA				NA	NA	NA	NA	NA
D1-29_00715	546			hypothetical protein	ATGTCCACCGCACCGTCCCAGCTCAGGAAGCAGAACCGGGAACAACAGCCGGACGATGACCTGCTGCTGCTGGAGCACCAGCTCTGTTTCGCCCTCACTGTTGCCTCCCGCAGCGTGGTGGGCGCCTACAAGCCGGTCCTTGAGAAGCTGGGCCTGACGCATCCGCAGTATCTGGTGATGCTCTGCCTCTGGGAGTCCAGCCCCCGCACCGTGCGTAACATCAGTGATGCCCTGGCGCAGGAGCCGGCAACAATCTCCCCGCTGCTCCGCCGGCTCGAGGCCGCTGGCCTCCTCACACGGCACCGCATGGATGGAAACGAACGCGCCCTGGCCGTGGACCTGACCCCTGCTGGAGCAAGGCTGCGGGACCAGGCCCTCGCCGTGCCCGGCACCATGATGGAGCGGCTGGGGCTTACGCGCGAACAGGTGGGCCAACTGCACGCCTCAATGATGGGCCTGATCGCGGCGACTTCAGGAGCGACCAGCGCAGGGACCAGCGAAGAGACCAGCGCAGGGACCAACGAGCGGCCCGAAATACGGCAGTAG	MSTAPSQLRKQNREQQPDDDLLLLEHQLCFALTVASRSVVGAYKPVLEKLGLTHPQYLVMLCLWESSPRTVRNISDALAQEPATISPLLRRLEAAGLLTRHRMDGNERALAVDLTPAGARLRDQALAVPGTMMERLGLTREQVGQLHASMMGLIAATSGATSAGTSEETSAGTNERPEIRQ	PGPT0013155_1246	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-29_00716	243			hypothetical protein	ATGGGCAAGGGCAAGCCGGCTGACAAAGACAACGCTTCGCAGCGGTTCATGCGGGCAACCGGAAAACTCAGGGCCATCTTCGGCCCGGCCAACCGCAGTTCCCTGTCTCACGACATGACTGAGGAGAACCGCAAACTGCTGCAGCAGCGCGAAGTCGAAAGCCAGCAGTGGGAAACGTTGCGCCGGCCCGATGGCAGCACCTACGTCGTACCCAAAAACCCGGAGGACAAGTCCCTCCGCTGA	MGKGKPADKDNASQRFMRATGKLRAIFGPANRSSLSHDMTEENRKLLQQREVESQQWETLRRPDGSTYVVPKNPEDKSLR				NA	NA	NA	NA	NA
D1-29_00717	207			hypothetical protein	ATGGCACATGTAATCAGTGGTTTTATGAACCTGACTGAACGGCTCCGGTTCATCTTTGGCCCGGCGACGCGCCTCGACATCGACGAACCTGTTGTGCACAAGCATGATGCGTTCGAGCAGGCCTCAGACGAGGAACTCTCCCACTTCGAAGTGGAGACCGATTCCCACGGCCACCATTACGCAGTCCGGCGCGAAGATCTCACCTGA	MAHVISGFMNLTERLRFIFGPATRLDIDEPVVHKHDAFEQASDEELSHFEVETDSHGHHYAVRREDLT				NA	NA	NA	NA	NA
D1-29_00718	1359	ask	COG0527	Aspartokinase	ATGAGTACGCCCACTACCGAAGTGCACACCGCAGTCCAGCCACAAAAGGGGCCCGACGGCGGTGCAGTCACCAAACAGCTGATTGTCCAGAAGTTCGGCGGATCATCCGTGTCCGACGCCGAGGGAATCAAGCGGGTCGCCAGGCGCGTGGTGGATGCCCAGCAGGCCGGCAACGAAGTTGTGGTGGTGGTATCCGCCATGGGTGACACCACTGACGAACTGCTGGATCTGGCCGCCCAGGTGACCGATTCTGCCCCTGCACGCGAAATGGACATGCTCCTCTCGGCCGGGGAACGCATCTCCATGGCACTGCTGGCCATGGCCATTAACAAGTTCGGTGCATCGGCGCAGTCCTTTACGGGATCGCAGGCCGGCATGATCACGGACGGAATCCACGGCAAGGCCAGGATCATCGATGTGGACCCGCACCGCATCCGTACCTCACTGGACAAGGGGCACATAGCAATCGTTGCCGGCTTCCAGGGCATGAGCCGGTCCACCAACGAAATCACCACCCTGGGCCGGGGCGGCTCCGACACCACCGCCGTTGCCTTGGCAGCCGCGCTGGACGCTGACGTCTGCGAAATCTACACCGACGTTGACGGCATCTACACTGCTGACCCGCGTGTGGTCCCCTCTGCCCAGAAGATCGACACGATCTCCAGCGAGGAAATGCTGGAACTGGCCGCCTCCGGTGCCAAGATCCTGCACCTCCGGTGCGTTGAGTACGCGCGCCGTTTCGGTGTGCCGCTCCATGTACGGTCCTCATTCAGCCAGCACGAAGGCACCTGGGTTATCCCCAGCGCCGAAGACAAGATCACCACTCAAGAGGGAGTTGCCTTGGAGCAGCCAATCATCTCCGGCGTTGCACATGACCGTTCCGAAGCCAAGGTCACCGTGGTGGGCGTACCGGACATCCCGGGCAAGGCCGCGGCGATCTTCCAGGTCATCGCTGATGCCCATTCAAACATCGACATGATCGTCCAGAACGTGTCCACCCACGGCACCGGCCGGACGGACATTTCCTTTACGCTGCCCATCGTCGAAGGGGCGGACGCACTGAAGGCGCTGAAGACAGCACAGCCCGACATCGGATTCGAGAACATCGAATACAACGAGCAGATCGGAAAGCTGTCGCTCATCGGCGCCGGCATGCGCTCGCACCCGGGTGTCTCCGCTACGTTCTTCAAGGCTCTGTCCGCAGCGGGAATCAACATCAACATGATCTCCACCTCCGAGATCCGGATCTCCGTGGTGACGCACGCGGACCTTCTGGACGACGCCGTCCGCGCCATCCACAAGGCCTTTGACCTGGACAGCGACGACGAAGCCACCGTTTACGGCGGCACCGGCCGCTAG	MSTPTTEVHTAVQPQKGPDGGAVTKQLIVQKFGGSSVSDAEGIKRVARRVVDAQQAGNEVVVVVSAMGDTTDELLDLAAQVTDSAPAREMDMLLSAGERISMALLAMAINKFGASAQSFTGSQAGMITDGIHGKARIIDVDPHRIRTSLDKGHIAIVAGFQGMSRSTNEITTLGRGGSDTTAVALAAALDADVCEIYTDVDGIYTADPRVVPSAQKIDTISSEEMLELAASGAKILHLRCVEYARRFGVPLHVRSSFSQHEGTWVIPSAEDKITTQEGVALEQPIISGVAHDRSEAKVTVVGVPDIPGKAAAIFQVIADAHSNIDMIVQNVSTHGTGRTDISFTLPIVEGADALKALKTAQPDIGFENIEYNEQIGKLSLIGAGMRSHPGVSATFFKALSAAGININMISTSEIRISVVTHADLLDDAVRAIHKAFDLDSDDEATVYGGTGR	PGPT0014040_1575	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
D1-29_00719	1035	btuD_2		Vitamin B12 import ATP-binding protein BtuD	GTGCAGGCGTACGATCCTATAGTCAGTATGCATTCACAGACTTGGGGGACAGGTGCGCGGAAAATGACAGCAGATCAGCACACGAAGGGCAGGCCGGGCCAGCCGGACAGCGGGCAGCAAGGGGGCATCACAGCCAGCGGGGTAAGCCGAAGCTTTGGCGCTGTACACGCCGTCGAGCACATGGACTTCCATGCCCCCGCGGGAAAAGTGACGGCCCTGATCGGTCCCAACGGGGCTGGAAAAACAACATTGCTCCTGATGCTGGCGTCCCTGCTGGCGCCGGATTCCGGAACCGTCAGCGTGGGCGGGCTTGATCCCCGGCACCATCGGTCGGAGGTACGGAGCAGGATCGGGTGGATGCCGGACACCCTGGGCGTGTGGGAGTCCCTCACGGCCCGCGAAATCCTGACGCAGATGGCCCGCTTCTACCGGCTTCCGGCCGCAGGAATCGCCCAGCGTGTTTCGGCGATGCTGGAGCGGGTCCGGCTCACCGACCTGGCGGACCAGCCGGCGCGTGTCCTGTCCCGCGGCCAGCAGCAGCGGCTCAGCCTGGCGCGTGCCCTGATTCACGAGCCCTCTGTCCTCCTCCTTGATGAGCCGGCATCGGGCCTGGACCCGGGGTCACGGGTGGAACTCCGGGTCATGCTGCGCCAGCTTGCAGCCGAAGGAACCGCCGTGGTGGTCTCCTCCCACGTCCTGAGCGAACTTGATGAAATTGCCGACGGCGCCGTCTTCGTCAACAACGGCCGCACCGTCAGGCAGCAGACCATCGAAGAGGCTGCAGCCTCCGGGCGCCGTTACGCCATTTCCGCGTCGGACGGGGCTGCCCTGGCAGCCAAGCTCACCAGCCTGGGCCTTGCGTTCCGGGTTGAGGACGGACGCCGGCAGGCCGTCAGCCTCATGCTGATGAACGACGACGACGCCGCGCGCCTTCTGCGGGACCTCGTGCTGGCAGGCGTGGGAGTGAGCTCCTTTGCCCCCGCCTCAGGTGCCCTGGAAGAGACGTACATGAGCCTTGAAGGGGAACGCCGATGA	MQAYDPIVSMHSQTWGTGARKMTADQHTKGRPGQPDSGQQGGITASGVSRSFGAVHAVEHMDFHAPAGKVTALIGPNGAGKTTLLLMLASLLAPDSGTVSVGGLDPRHHRSEVRSRIGWMPDTLGVWESLTAREILTQMARFYRLPAAGIAQRVSAMLERVRLTDLADQPARVLSRGQQQRLSLARALIHEPSVLLLDEPASGLDPGSRVELRVMLRQLAAEGTAVVVSSHVLSELDEIADGAVFVNNGRTVRQQTIEEAAASGRRYAISASDGAALAAKLTSLGLAFRVEDGRRQAVSLMLMNDDDAARLLRDLVLAGVGVSSFAPASGALEETYMSLEGERR	PGPT0006725_4552	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-29_00720	1134			hypothetical protein	ATGAGCCAGCTGACCGAAACACAGCACCAGCCATCTGGGCCACATGCCGCCGGAGGCTACCTCGCCGGAATCAGGGACGTGGTGGTCCTTGAACTGAAACAGCGCCTGCGCTCGCGGGGCTGGTACATCATGCTGTCCATCTGGTTTGTCCTCACCGGCCTGGTGACCTGGCTGACCTGGGCCAGCTGGAGTGCCAACCAGGCAGCCCAGCGCGCCTATTCGGACTTCGCTCCCGAGGCCACTGGCCCTGGTTCCATGATCTTCGAAGTGGTTTTGGCCTTTGTCCTCCTGTTCGCGCTGCTGGTGGCGCCGGCGTTGTCAGCCAACGCCGTCAACGGCGACCGCGCCGGCGGAACCCTGGCGATCCTGCAGGTGACACTGCTGCAGCCAGGGCAGATCCTGTGGGGGAAATTTTTCGCCGCCTGGCTTGCGGCGCTGGCGTTCCTGGTATCCAGCGCACCTTTCCTGGTCATCGGCGTGGCACTTGGAGGGATGACGCCTGGCCACGTCTTCGTGGCGCTCTTGATGCTCACGCTGGAAGTGGGCGTTGTCTGCGCCGTGGGCGTGGGAATCTCGGCCCTGGCCGGGCGTCCATTGTTTTCCATTGTGGTGACCTACCTCGCGGTGGCGGGGCTGGTCTTCGGCACCCTGATTTCCTTTGGGCTGGGCACCGGCCTGACCCATGGCACCGTCATGGCAAACGAGGCCCAGTACAGCGGGTTCAGCCAGCCGGCACCGGATCCGGCAGAACCTGAATACACGTGTTCCGGGCCGCTCCGGGAACGTTCCACCATGCACACCGAACGCATCGCCTGGCTGCTGGCCATGAATCCGTACGTGGTGGTGGCCGACGCGATTCCCTATCCGGACCGTAGCGTGAGCCCGTTCGGCTATTCAGCTGTTGGAGCCATTGAATCGATCAGCCAGGGGGCTCGGCACGCCATGGCCGGCCCGGAGTGGACATTTCCCTGCGCCAACGGGGAGCCCAAGCCCCGGTATTTGGCGCAGTCCGCCCCGTTGTGGCCCCTTGGCCTTGGCCTGCAGCTGTTGTTCGCCGGGCTCCTGATGTGGCTGGGGTGGCGTTCACTGCGCACTCCCGCACGCAAGCTGGCGCGGGGCACGCGGATCGCCTAG	MSQLTETQHQPSGPHAAGGYLAGIRDVVVLELKQRLRSRGWYIMLSIWFVLTGLVTWLTWASWSANQAAQRAYSDFAPEATGPGSMIFEVVLAFVLLFALLVAPALSANAVNGDRAGGTLAILQVTLLQPGQILWGKFFAAWLAALAFLVSSAPFLVIGVALGGMTPGHVFVALLMLTLEVGVVCAVGVGISALAGRPLFSIVVTYLAVAGLVFGTLISFGLGTGLTHGTVMANEAQYSGFSQPAPDPAEPEYTCSGPLRERSTMHTERIAWLLAMNPYVVVADAIPYPDRSVSPFGYSAVGAIESISQGARHAMAGPEWTFPCANGEPKPRYLAQSAPLWPLGLGLQLLFAGLLMWLGWRSLRTPARKLARGTRIA	PGPT0006730_5419	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-29_00721	1185			hypothetical protein	ATGCCCGAAGATGACCACCAGGCTGCCATGCGGCCGGCTCCGGAACCGTTCCACGAAGAACCGTTCTACGAACCCATCGGCGGGGGCTGGATCAATGAGCCGCAGGAAGACGGGGACGACGCCGGCCGGCCACCGCGGCAGCTTAGCGCCACCCGGGTGGCGCTAAGGCAGGCCGCGGACGACTGGCTGCGTTCCATCAGGACGGTCCGGTTCTGGGGCTCTACGGTAATTGTTGTGTTTGGTGCCTGGCTCGCGGCCGCGGCTGTTATCGGGGTCAGGACTGTCCAGGAGGATCCATTCCCGGAGGAAAGCCAGCTCTGGACCTACATTCTGGCCTCGGCCTTTATGGCCCCGGCCGCTGCCCTGCTGGCTGTGCATTGGGGGCGCCGGGGTATCTCCTCATTCGATGGCATGGAACGGCCCGGCCACGCCAGCCGGAGCCCCCTGGCGGATTTCTTCGCGACGGCGGCCCGCGGCTTCGTCTTTGCGGTGCTGGCACTGGTTGTCCTGCTCGTTCACGCCGGTGTTGTGGGCGCCCCAGGCGGGCTTGCGGTGGCAGCCGCAGGGTTGGCCCTTCTCGAGTTCGCCGTATTCGGCGCCCTTGCGGCCGGCATCTCGGCGTGGCTCGGGCGTTCCCGTGCTGCGGACACGGCTGCCTGGGCACTGGCCTGGTGGCTGGTGCTCGGGAACCTTGCCGCCGTGTGGGCTTTATTTCCTGCAGTCCGGTCAGAAGAACCGGTGACGGTGGTGCTGAACATAGAACGGGGTCCTGACGGCGTTCCGGTGGCTTACGACTGTGCAGCGGAGATTGTGGGTGTAGCCGAGGTCTTCCACACGGAACGGATTATGTGGCTGGCCGCTCCCAATCCGATGATGATTTTCGTTATGGTGGCTGCGGGCGCAGACGGCGGCTCCGACGCCTACCCCGACTACACTTCCGCTCTCGGTGGCCCCGGTGTCTTGGGCTGGTTTCCCATGGCCCTGCAGGCGACAGCCGACGGAACCCAGGTCCCGTGCGTCAATTCCGAGCCGAAGGCTGCCGGCTCCTTCCAAACCCCTTTGGTGGCGATGGGCCTGGCCATACAGGGTGGGCTCGCCGTTGGGCTCCTGGCTGCCGGCCATCATGCCGCCCGTCGCCGGGTGAATTCGGAGAGAGTGGACCAGGGGGAGGCCTCAGCCGGATGA	MPEDDHQAAMRPAPEPFHEEPFYEPIGGGWINEPQEDGDDAGRPPRQLSATRVALRQAADDWLRSIRTVRFWGSTVIVVFGAWLAAAAVIGVRTVQEDPFPEESQLWTYILASAFMAPAAALLAVHWGRRGISSFDGMERPGHASRSPLADFFATAARGFVFAVLALVVLLVHAGVVGAPGGLAVAAAGLALLEFAVFGALAAGISAWLGRSRAADTAAWALAWWLVLGNLAAVWALFPAVRSEEPVTVVLNIERGPDGVPVAYDCAAEIVGVAEVFHTERIMWLAAPNPMMIFVMVAAGADGGSDAYPDYTSALGGPGVLGWFPMALQATADGTQVPCVNSEPKAAGSFQTPLVAMGLAIQGGLAVGLLAAGHHAARRRVNSERVDQGEASAG				NA	NA	NA	NA	NA
D1-29_00722	600			hypothetical protein	ATGAGCACGGCCGGCACCGCACCAATTGAGACTGAACGCCTCACACTGCGCCTGCTGACCCCTGCTGACGCCGCTGCCGTTCACAGTTTCCGCGGGGATGAAGCCGTGACACGCTTTCTGTCCCACGGGCCCCTGACAGCCGAAGAGAACCGTGTGCGGCTGGAGGAGGTAGTGGAGCGTGCTGCCGTGTCCACGCATGAGTGGTTTCACTACGGCTGGGCCATTACTCTTCGGGAAACCGGCCAGCTCATCGGCGACGGGAGGACCTGGAACAGTGCGGGTTCACCGGCACGCGGAACGTTAACTCCCGGCCGCCTCCCCTCGCATCAGGCGTCGCTGGGTTACGTCCTGCACCCCCATTACCAGGGCCGGGGATACGGCCGCGAGGCTGCAGGTGCACTCGTGCAGTGGCTTTTCCGGGAGCTTGGCGTCAGCACTGTCTTCGCCGGAGTCTATGAACCGAATACTGCATCGATTAGGTTGCTCCGGCATCTGGGTTTTACCCGGGACGGCTACGTCGCCCCGGAGCTGGACAAATTCGGCAAAGGCTTCCCTTCGCTGATGTTCAGGCTGGACAACCCCGGCGCTTCATCCGGCTGA	MSTAGTAPIETERLTLRLLTPADAAAVHSFRGDEAVTRFLSHGPLTAEENRVRLEEVVERAAVSTHEWFHYGWAITLRETGQLIGDGRTWNSAGSPARGTLTPGRLPSHQASLGYVLHPHYQGRGYGREAAGALVQWLFRELGVSTVFAGVYEPNTASIRLLRHLGFTRDGYVAPELDKFGKGFPSLMFRLDNPGASSG				NA	NA	NA	NA	NA
D1-29_00723	600	recR	COG0353	Recombination protein RecR	GTGTACGAAGGTGCGGTCCAGGAGCTGATTGACGAGCTCGGACGCCTTCCCGGTGTTGGCCCCAAGTCTGCGCAGCGTCTTGCATTCCATATCCTTGAAGCCGATCCGCAGGACATGAAGCGGCTGGTGGATGCCATCACCACGGTGAAGGAGCGGGTGAAGTTCTGCTCTGCCTGCGGCAACGTTACGGAGCAGGAGCTGTGCAACATCTGCCGTGACCCCCGGCGCGATCCTTCAGTTATCTGCGTCGTGGAGGAGTCCAAAGACGTCCTTGCGGTGGAACGCACCCGCTCATTCCGTGGCCGGTACCACGTGCTCGGCGGAGCCATCAATCCCATCGCCGGCGTGGGCCCGGAGCAACTGCGGATCCGCGAACTTCTCACGCGGCTCAATGACGGCGCCATCCAGGAAGTCATCATCGCCACCGATCCCAACCTGGAGGGCGAGGCGACGGCCACGTACCTGGCCCGCATGCTGAAGTCGATCGGGATAGTGGTTACCCGCCTGGCTTCCGGGCTGCCCGTCGGCGGGGATCTGGAATACGCAGACGAAGTCACCCTTGGCCGGGCTTTCGAAGGCCGCCGCAACGCACTGACCTAA	MYEGAVQELIDELGRLPGVGPKSAQRLAFHILEADPQDMKRLVDAITTVKERVKFCSACGNVTEQELCNICRDPRRDPSVICVVEESKDVLAVERTRSFRGRYHVLGGAINPIAGVGPEQLRIRELLTRLNDGAIQEVIIATDPNLEGEATATYLARMLKSIGIVVTRLASGLPVGGDLEYADEVTLGRAFEGRRNALT				NA	NA	NA	NA	NA
D1-29_00724	3459			hypothetical protein	TTGTCAGCCCGGATTGGTAGGGTTTTCTCTGTGACTGTTACAACCGCCCTTTACCGCAGATACCGTCCTGACTCCTTTGCAGACGTTATCGGGCAGGAACACGTCACCGAGCCCCTGATGACGGCCCTGCGCAAAAACCGCGTCAACCATGCCTACCTTTTCTCAGGCCCCCGCGGCTGCGGCAAGACCACGTCCGCCCGCATCCTGGCCCGCTGCCTCAACTGCGCCCAGGGCCCCACGGACACTCCGTGCGGCACCTGCGCCAGCTGCATCGAACTGGCCCGCGGCGGTTCCGGTTCCCTTGACGTCATCGAGATCGATGCCGCCAGCCATGGCGGTGTGGACGACGCGCGGGACCTTCGCGAACGTGCCACGTATGCCCCCGTCCGGGACCGCTACAAGATCTTCATCATCGACGAAGCCCACATGGTCACCTCCGCCGGCTTCAACGCCCTGCTCAAGATCGTGGAAGAACCGCCGGAGCACATCAAGTTCATCTTCGCCACCACGGAGCCTGACAAGGTCATCGGCACCATCCGTTCCCGCACCCATCACTACCCCTTCCGCCTGGTGCCGCCGGAACCGCTGATGGCATACCTGGAACTGCTGTGCCGGCAGGAGAACGTGCCAGTTGCCCCCGGAGTCCTGTCCCTGGTGATCCGCGCCGGCGGCGGGTCCGTCCGTGACTCCCTCTCGGTGCTGGATCAGCTCATGGCCGGCGCCGGTCCCACTGGCCTGGATTACGAGCTCGCGGTCGCCCTGCTCGGCTACACCCACGCTTCCCTGCTGGACGACGTTGTGGAGGCCGTCGCAGCTTCCGATGCCGCCACAGTGTTCCGGGCGGTGGACCGGGTCATCCAGACCGGCCATGATCCGCGCCGATTTGTCGAGGACCTGCTGGAACGCTTCCGCGATCTCATCATCGTTCAGGCCATGCCTGAAAGTGCTCAGACCATCCTGCGCGGCATGCCCACGGACCAGATCGCCCGCCTGCAGAACCAGGCCCACAACCTGGGCGCGGCAGAACTTTCGCGCGCCGCGGACGTCACCAACACGGCACTGACCGAAATGACCGGGGCCACGTCACCGCGCCTGCACCTGGAACTTCTCTGCGCCCGTATCCTGCTGCCCAGTTCCGAACAGACTGAACGCGGCATCGCCGCCAGGATCGACCGCGTGGAGCGGCGGCTCAACTATGCAGGAAACGACGCCGGTGCTCCCGCCGCTGCCATCGCGGCACCGAGGCCGGAATCAGCCTCGGCGGCTGTGCCTGTAACGCAGGCTGACCCAGCCGGCCCTCGTCAGCGCCGCCCTGAACGGCCGGAGGCTGTTTCATCCGCCGCCGCACCGCTGCGGCGTGAGCTGCCGACGGAATCCCCCGTTTCCGAGCCGACGCCTGCTGTGCCGGCGGAGCCGCGAGGGCAGGCCGCCGGGGCCGGGCAGGCAGAACCGGGTGCGCAGGCGGAACCGGGCCAGCCGCTGACCCCGCCGCGCGTCACTACTGCCGACTGGCCCAGGGAGGAACGGGCGGATGGACGACAAACCGCTCCGGTCAACAGGCATGCCGCCCAGTCGCCTCAGGAGGCAGCGCAGGCGGCAGGAGCACCAGGACCCGCGCCGGCCCCTCATCCCCTGCCGGCCCATGAACCTGTGCCCGCCACTAGTGGCGCGCCCGTCCCTTCTGCAGGGCCCGTCCATACTGCAGGGCCGGTCCAAAGTGGCGGTCCGGTCCAAAGTGGCGGCCCGGTCCAAAGTGGCGGTCCGGTCCAAAATGCCAGACCTGCCGGGCGGGAACCAGAACCAGCAGCATCCCCACGGCCTCCGGCACCAAGCAGTGCAAGCTCCTCAGGCGACGTGGAAGTGCTCCGCCGTGCCTGGCCCGAGATCCTTCAGGCACTGTCCAAGATCAAGCGCAGCACCTGGGCGCTGGTGGAGCCCAACGCCCAGGTAGGCGCCTTTGATGGCCAGGTCCTCACGCTGGCCTTCACCACCACCGGCCTTGCCGGCGCGTTCGGCCGGGCCGATCATTCCGACAACCTTCGCCAGGCAATCCACAAGACCGTTGGCATCGACTGCCAGATCACCGCAGTCGCCGGCACCGCCAACAGTCCAGTGAGCTCTGAGCCAAACCCAAAAGCACCCGCTAGCCCGGAGGCCCAGGCCACGTCCGCGGACGTTGCCTGGGGACTGGCCCCTGCCCCCAGTCCCGCTGCCGCGCCTGCACAGCAACCAGCCGGCCCGGTTCCCGGACCCACGCCGGGCCAGAACGCAACCCCGTCGCAGTCCGCCGTACAGTCCCCGGGGGAGTCCCAAGCCGAGTCCCCGGCGGAGTCCCCGGAACGGGAGCCAGCGAAGTCACCGCCGCAGGATGCTGTGCCGGGCAACGCACGCCCCGTGCTTCCGGAACCATCCCGGGACGAACCAACCCGGGACGAACCAACCCGGGACGATCCAGCCCCCTCAGCAGGGCACTCTGGGGCTCAGGCCGTGCACACCGGCACAGAAGCCTCCTCGGCTCCGGGTTGGCCGGCTCCCGCCGCCGAACCAGGGCTGAGCACTGAGGGCACGTACTCGTATTCTGACGACGACTGGGGTCCACCGCGGGACGAGGACGCGCCGCCATTGGATGAGGAACCGCCCATGGACTGGGCACCCCCGGCCCCCGTTGACTCCCAGCAGGGGCTTGGCTCCCAGCAGGGGCACGCCCCCGTTCCCGCTGCCGCCTCACAGCCTGCAAAGAATCGGGCGGAGACCACCCCGCGCTCCGGCGGCAGGAAACCGGCTTCGTCGTCAGAAGCATCGAAGCCTGACACGTCGCACGATCCGTGGACCCGTGCTGTCGAGCAGGCACCGGGCATCTGGGTCACGGGTGCAGAGAGCAACGTCGGCAAAAGCCCTGCCCCCGCCGACCCGGCAATTCCAGAGGCCGCCCCGGCGCCGTCCTACGAGCCTGCCGCGGCCCAAGTCCCCGGCCCTGCTGCCGTCCGGGCTAATCCGGAAGCGGAGGCCAGTTGGGGTCTGTCACCAGAACCAGTGGCGTCCCCCACTGCCACCACCATTCCGGCCTCAGCACCGGCTGCGCCAGAGCCGGTGACGGAACCCCGACGGGAACCTGTTGATGCGGCACCTATCTATGCGGAGCCCGTTTATGCCATGGCCTCGTCGGCACCCGCCGCCGCCCCGCAGGCAGCACCTGCAACATCGCCGGCGGCGGCCGCTGCCCGGCAAAGCCTGTACCAGCGGCTTTCCAACAGTCCCGAAGCCGAGGCCGGCCGGGCCAAGGCGCCGGCCCGGGTGGTAGCGGCGAGCGCTACCTATGTCCAGGACATTCCCAGCTCGGACGATGAAACCATCGAAGAATCGGGCGTCTTTGGGCGTGCTGCGGTGGAGCGTATTCTGGGCGGAAAGCTGATCGAAGAGCGCTCCCCTGACGGTAGCCCGCTTCCACCGCGGTTCTGA	MSARIGRVFSVTVTTALYRRYRPDSFADVIGQEHVTEPLMTALRKNRVNHAYLFSGPRGCGKTTSARILARCLNCAQGPTDTPCGTCASCIELARGGSGSLDVIEIDAASHGGVDDARDLRERATYAPVRDRYKIFIIDEAHMVTSAGFNALLKIVEEPPEHIKFIFATTEPDKVIGTIRSRTHHYPFRLVPPEPLMAYLELLCRQENVPVAPGVLSLVIRAGGGSVRDSLSVLDQLMAGAGPTGLDYELAVALLGYTHASLLDDVVEAVAASDAATVFRAVDRVIQTGHDPRRFVEDLLERFRDLIIVQAMPESAQTILRGMPTDQIARLQNQAHNLGAAELSRAADVTNTALTEMTGATSPRLHLELLCARILLPSSEQTERGIAARIDRVERRLNYAGNDAGAPAAAIAAPRPESASAAVPVTQADPAGPRQRRPERPEAVSSAAAPLRRELPTESPVSEPTPAVPAEPRGQAAGAGQAEPGAQAEPGQPLTPPRVTTADWPREERADGRQTAPVNRHAAQSPQEAAQAAGAPGPAPAPHPLPAHEPVPATSGAPVPSAGPVHTAGPVQSGGPVQSGGPVQSGGPVQNARPAGREPEPAASPRPPAPSSASSSGDVEVLRRAWPEILQALSKIKRSTWALVEPNAQVGAFDGQVLTLAFTTTGLAGAFGRADHSDNLRQAIHKTVGIDCQITAVAGTANSPVSSEPNPKAPASPEAQATSADVAWGLAPAPSPAAAPAQQPAGPVPGPTPGQNATPSQSAVQSPGESQAESPAESPEREPAKSPPQDAVPGNARPVLPEPSRDEPTRDEPTRDDPAPSAGHSGAQAVHTGTEASSAPGWPAPAAEPGLSTEGTYSYSDDDWGPPRDEDAPPLDEEPPMDWAPPAPVDSQQGLGSQQGHAPVPAAASQPAKNRAETTPRSGGRKPASSSEASKPDTSHDPWTRAVEQAPGIWVTGAESNVGKSPAPADPAIPEAAPAPSYEPAAAQVPGPAAVRANPEAEASWGLSPEPVASPTATTIPASAPAAPEPVTEPRREPVDAAPIYAEPVYAMASSAPAAAPQAAPATSPAAAAARQSLYQRLSNSPEAEAGRAKAPARVVAASATYVQDIPSSDDETIEESGVFGRAAVERILGGKLIEERSPDGSPLPPRF				NA	NA	NA	NA	NA
D1-29_00726	324		COG0327	GTP cyclohydrolase 1 type 2	ATGACTGCGCTTCACGCCTTGGTGGTTTACGTCCCGGCCTCCCATACGGGCGCTGTTCTGGCTGCCCTGGGTGACGCCGGGGCCGGCAGGATCGGGAACTACTCGCACTGTTCCTTCGTCACTGCCGGGACCGGCCGCTTCATGCCGCTCGAAGGCGCCGCTCCCTTCATTGGGAGGGTGGGCAGCCCCACCACCGTGGCCGAGGACCGGATCGAATGCGTAGTTGAGGCCACAAAGCTCGACGCCGCAGTGCTGGCTTTACGTGATGCCCACCCCTATGAGGAACCAGCGTTTATGAGCTGGCCCGTGGACGGGTGGCGTTAG	MTALHALVVYVPASHTGAVLAALGDAGAGRIGNYSHCSFVTAGTGRFMPLEGAAPFIGRVGSPTTVAEDRIECVVEATKLDAAVLALRDAHPYEEPAFMSWPVDGWR				NA	NA	NA	NA	NA
D1-29_00728	978			hypothetical protein	ATGCGCAACATCCTCAGGGAGTGGCAGGGCGAGCTGAAAAAGGCGTTCACCGGCAGCGCCGACGCCCTGCCCGATTGGGTTCCGCGGCTGGCGGAAGGGGACGACGCCGGATATCACCAGCCGGGTTCTGCCGTGTGGGCTGTGCACGGGTCGATGCCAACCATTGTTGCCGGAATCCGGACGCTGCTGATGCAGGCGCTTCACCCTGGTGCATTGGCGGGGGTCCACGAGCATTCAAATTTCCGGGAGGATCCGCTGGGGCGGCTGGCCCGGACCATCCGATGGATCTTTACTGTCACCTACGGATCCACGGCTGCGGCCCAGGAAGCTTCAGCCAGGCTCCGCCGCCTCCACGAGCCCGTCCAAGGTACCTACCTCGACGGGCAGGGACGCCCGCGGAGCTATTCCGCCAATGATCCTGACCTGGCCCGCTGGGTACACATCGCTTTTATGGACGCTTTTCTCTCTGCCCACAAAATCTGGGGCGGCCCCATCCCCGGCGGGCCGGACGCGTACGTCCGCGAGTGGGCACAGGCAGGACGGCTGATGGGGGTGGAGGATCCGCCGTTGACAGAAGCGGAGATGCGCCGGCAACTGGACCGCTACAACAGGGAGCTTCGTGCGGACGGCAGAGTCAGCGAAACGGTGGCGTTTATCCGCTACCCGCCGCTGCATCCACTCCTGCGGCCCGGCTACCGGATCATGTTCGCAGGGGCCGTTTACAGCCTGGAGCCCGCCTATCGCCGGATGCTGGGGCTCAGGAACCCGCGGCTGGGTCCGCTCCCGCTGCCAGTGAAGCTGGCAACGAAGGTGACGCTCGGCGTCGTACATCTGGCACTGGGACGGAAGGGCCCCAGCGAGCTCGCCGCCCTGCAAAGGCTGCGGCGACTTGGCTACATCACCGAGGATTCTACAAAGACCCACTCGTCAGGGGCGTCAATAATTACTTCATTGAGGAATGCAAAAACCCGGCCCTGA	MRNILREWQGELKKAFTGSADALPDWVPRLAEGDDAGYHQPGSAVWAVHGSMPTIVAGIRTLLMQALHPGALAGVHEHSNFREDPLGRLARTIRWIFTVTYGSTAAAQEASARLRRLHEPVQGTYLDGQGRPRSYSANDPDLARWVHIAFMDAFLSAHKIWGGPIPGGPDAYVREWAQAGRLMGVEDPPLTEAEMRRQLDRYNRELRADGRVSETVAFIRYPPLHPLLRPGYRIMFAGAVYSLEPAYRRMLGLRNPRLGPLPLPVKLATKVTLGVVHLALGRKGPSELAALQRLRRLGYITEDSTKTHSSGASIITSLRNAKTRP				NA	NA	NA	NA	NA
D1-29_00729	180			hypothetical protein	ATGACCCAGAGCGCCATGTCCAAAGTTGTGGACCGCCTTCAAAAAGCCGGCCTGCTCATCCGCAAGGCCTGCGAGGAGGACCGTCGTTCCCTCTACCTTGAACTGACCGAGGCTGGACGCACGCTTGATACCGCTGCCGCGGCCGTTCATCGCACCCTCCTGAAGGAAAACCTGGGTTGA	MTQSAMSKVVDRLQKAGLLIRKACEEDRRSLYLELTEAGRTLDTAAAAVHRTLLKENLG				NA	NA	NA	NA	NA
D1-29_00730	159			hypothetical protein	ATGGAGGATTTCAAGGGGCGCCATAAGGAATCCCTGCGGCGGCCGTGGAAGTCCGGCGGAGGCGACATTGAGCTGGGGCAGGCCGTCTCTTGGAACTGCCCTGACAATGGTCCGGCTAAAGGGAACCAGGGCCCTGGCATCAGCCACGAAGCCGCCTGA	MEDFKGRHKESLRRPWKSGGGDIELGQAVSWNCPDNGPAKGNQGPGISHEAA				NA	NA	NA	NA	NA
D1-29_00731	300			hypothetical protein	ATGCAGGTGGCAGCCGGTGGACCATCCGGTGGTTCCCACCCGGGCGATCACCTGGCCCACCTGCACAGAGTCACCCGCCTGCACGCCAATGGCTTCCAGGTGGTTGTAGGTGGTGATAAGACCGTTGCCATGATCGATCTCTACTCGGTTGCCGCCGCCCCACGGGTGCCAGCCCGCGGCGCGCACCGCGCCCGAATCCGAGGCATAGACCCTGGTGCCGCAGGGGGCTGCATAGTCCTGGCCGAGGTGGAAGTCACCGCCTGCTCCGGTGAGGGGGCTGACACGGTGGCCAAAGGGTGA	MQVAAGGPSGGSHPGDHLAHLHRVTRLHANGFQVVVGGDKTVAMIDLYSVAAAPRVPARGAHRARIRGIDPGAAGGCIVLAEVEVTACSGEGADTVAKG				NA	NA	NA	NA	NA
D1-29_00732	753			hypothetical protein	GTGTTTCCTGTCAGGGCGGTCCTTTTCTTATCAAACTGCTTCTTTTCGGGTCAGGGAGCGGCGCTGACCGTTGCAGTTGCTGTTTCCGGGGCAATCGCCGCTGTTTCGGCCTCCCTCGAGGCCAACTCCGTGGCTGAAGGTTCGGTAGCTGGCGGGGGTGCTGGCGGAAGGGCCGGTGTCGGCAATGGATCAGCCGGGGTACCGGGAGCCACGGCAGCCGTTTCTGGCGGCGGCGCCGGGTCCGCCATGGTGGCCGCAGCTGTGGGCGCAGGCTCGGAGGTCACAGCGAGGGTGGGCGGGCCAGCCGGCGTTGATGTGGCGGACGCAGAGTCCGACGGCACAGGAGCGGTGGGGCTGGCAGTCTCGGTCGGGCTCGCAGTACCCGAAGGCGTGGCAGTCTCCGTCGGGCTCGCAGTACCCGAAGGCGTGGCAGTCTCCGTCGGGCTCGCAGTACCCGAAGGCGTGGCCGTCTCCGTCGGGCTCGCAGTACCCGAAGGCGTGTCCGTAGCTGTTGGTGTAGGCGATCCGCTGGGAGCCGGCGTCGATGCGGCGGGCGGCTGGGCAGGTTCGGCGTCGGCAGTGGGCGCAGGTGGAGCTGTGCTTTGGTCCGGCGTGGGCGCCACGGTCAGTTCGTTCTCGCCGCCCAGGACCGTGTGGCTGTGGTCGGAGGCGGCGGGGATCGCCCAGTTGTTCGTCCGGGCGGAAGCAGGCGTACTATCGGCAAAGCTGATCATGGCAATGGCAGCCAGCTGA	MFPVRAVLFLSNCFFSGQGAALTVAVAVSGAIAAVSASLEANSVAEGSVAGGGAGGRAGVGNGSAGVPGATAAVSGGGAGSAMVAAAVGAGSEVTARVGGPAGVDVADAESDGTGAVGLAVSVGLAVPEGVAVSVGLAVPEGVAVSVGLAVPEGVAVSVGLAVPEGVSVAVGVGDPLGAGVDAAGGWAGSASAVGAGGAVLWSGVGATVSSFSPPRTVWLWSEAAGIAQLFVRAEAGVLSAKLIMAMAAS				NA	NA	NA	NA	NA
D1-29_00733	513	bsaA		Glutathione peroxidase BsaA	GTGACATCCCTGTACTCCATTCCCCTCACCCTCAACGATGGCACCTCAACTGACTTCGGCCGGTTCAAGGGGGACGTGGTGATGGTGGTTAACGTCGCCTCGAAGTGCGGCTTCACGGCCCAGTACGCAGGCCTTGAGACCCTCTACGAAAAGTTCCAGGACCGGGGCTTCGCGATTTTGGGGGTCCCCTGCAACCAGTTCGCAGGCCAGGAACCAGCCAGCGACGCCGAGATTGCAGAGTTCTGCCAGCGGAACTTTGGCGTCACCTTCCCCCTGACGGAAAAGGCGAATGTCCGGGGCAAGGACCAGCACCCGCTCTACGCCGAACTCACCAAGTTCAAGTCCGGCGTTCTGCCCGGGCTGGTGAAATGGAACTTCGAGAAGTTCCTGGTCAACCGCGACGGCGAGGTGGTGGCCCGCTTCGCCCCCGCCGTCGAGCCGGACTCCGCGGAGGTCATCGACACGATCGAGAAGGCCCTCGGGTCTGCGTTGCCGGATAGGCCGTCTGCATAA	MTSLYSIPLTLNDGTSTDFGRFKGDVVMVVNVASKCGFTAQYAGLETLYEKFQDRGFAILGVPCNQFAGQEPASDAEIAEFCQRNFGVTFPLTEKANVRGKDQHPLYAELTKFKSGVLPGLVKWNFEKFLVNRDGEVVARFAPAVEPDSAEVIDTIEKALGSALPDRPSA	PGPT0013115_2890	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
D1-29_00734	927	cpdA	COG1409	3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGGAGCACATCGAGGCCGAACACCCCCGGCCACGCCACTTCCTACTCCACCTGAGCGATCCCCATCTGATGGGAGGTCCGAACCCCCTATACGGCGCCATAGACAGCGAAGCCAAACTCATCCAGCTTTTTGATGAAGTGCGGGCTTCCGGAGCCCAACCTGAGGCTGTGATTTTCACAGGAGACCTGGCGGACAAGGGTGATCCCGAAGCCTACGTGAAACTCAGGGCCATCGTGGATCCCGCCTGCGAGGAACTCGGTGCCAAGGTTATCTGGGCCATGGGAAACCACGACAACCGGGCAAACTTCCGCACCGCGCTGCTGGACCAGCCCGGAAGCGACGCCCCGGTGGACCACAGCTACTTCATCAACGGCCTTCGCGTCATCACTATGGACACCTCGGTGCCAGGGTTCCATCACGGTGAGCTCGACGAAGCGCAGCTGGAGTGGCTGGCCAATGAGCTGGACACCCCTGCCCCTGACGGCACCATCCTGGCGCTGCACCACCCGCCCGTCCCGTCTGTCCTGGACCTGTCCGTGCTGGTGGAGCTGCGGGACCAGGCGAACCTCGAAGCCGTTGTGCGCAATTCGGACGTCCGGACCATCCTGGCCGGGCACCTGCACTACTCCACTACTGCGAGCTTTGCCGGCATCCCCGTCTCGGTAGCTTCCGCCACCTGCTACACCCAGGACCTCAACGTTCCGGTCGGCGGCACCCGTGGGCGCGACGGCGGGCAGGCGTTCAACCTCGTGCACGTATATGAGCACACCATCGTGCACTCGGTGGTCCCGCTGGGCAGCACGCCCACCGTGGGGGAGTACGTTACGCCGGAAGGGACGGCCGAGCGGTTAGCTGCAGCAGGCGTCCGCATCCCGGACAAGGCAAAACCCAGGGGCACCAAGGTGGGGGTCAGGTCAGCCGGTTAG	MEHIEAEHPRPRHFLLHLSDPHLMGGPNPLYGAIDSEAKLIQLFDEVRASGAQPEAVIFTGDLADKGDPEAYVKLRAIVDPACEELGAKVIWAMGNHDNRANFRTALLDQPGSDAPVDHSYFINGLRVITMDTSVPGFHHGELDEAQLEWLANELDTPAPDGTILALHHPPVPSVLDLSVLVELRDQANLEAVVRNSDVRTILAGHLHYSTTASFAGIPVSVASATCYTQDLNVPVGGTRGRDGGQAFNLVHVYEHTIVHSVVPLGSTPTVGEYVTPEGTAERLAAAGVRIPDKAKPRGTKVGVRSAG	PGPT0021595_445	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
D1-29_00735	1521	cpsY		Exopolysaccharide phosphotransferase CpsY	GTGACATCCCCGGCGGCGGAGGCGCGCCTCAAGCACCGCCCCGACGTCGTCCGGCATAAGGGCAGGTATGCCCTGATCAACCACAACCGGACGCCCTACCAGGCGATGGTGGAGGACTTGCTTTTCCTTCGCAACGTCCTCGCAGGCGCCGGCCTGGACTACCTCCTTGTCCGAGGCAACAGCGACCGCCCGGTGATCGCGCTTGATTGGAAGGACCGGAAGACGCTCCGGGATGCGCTGGTAAAGGCCTGCCGCAACGAGCCCGTCTATTCGATGACGGTGGATGCCAAAAAGAAGTCCTTTGTCCTCGTTGCCGACGGCGAGCTCTCGCCCAACCGGCAGGCGCGCATCTTCCGCCTGTACCGCCCGCGCGTGGAGCCCGACGGCGGCTTCGAGTTTGGATCCTCGGCCGGTGTCCAGGTGGAGCTGTGGAGCTTTGAGGGCAACCAGGTGATCCTGCCGATCGAAAATTCCCTGACCCGGCGGACCATGCTCAGCCAGGACGCGGTCCGCGGAACTGTGGAACGTTACGGCCACACGTGGCCCACCATCGAGAACATGTTCGCTGACCACGCCAGCGACATCAGCTTCGACATCGACCTCGTGTTTTCCTGGGTGGATGGCAGCTCGCCCGAATATATCGCTGCCCGTCGCGCGCAGCAGCAGGGCGTGGTGCTCGGCGAAGGCGATGACCACGAGGCACGCTTCCGGCAGATCGACGAACTCAAGTACGCCCTGCGCTCCGTGTACATGTTTGCGCCGTGGATCCGGCGGATCTTTATTGCCACGGACTCACCCGCACCTGCCTGGCTCGCGGAACACCCGGCCGTGACGATTGTGCGCAGCGAGGAATTCTTCTCCGACCCCTCGGTGCTGCCCACGCACAACTCACAGGCCGTGGAATGCCAGCTGCACAACATCGAAGGGCTGTCTGAGCACTTCCTGTACTCCAACGACGACATGTTCTTTGGCCGGCCCGTCAGCCCGGACATGTTTTTCACCCCGGGTGGCATCACCAAGTTCGTCGAGGCCGAAACCCGAATCGGGCTCGGCGACAACGACGCCGAGCGCAGCGGGTTCGAGAACGCGGCCCGGGTCAACCGCAAGTTGCTGTGGAACAGGTTCGGCCGCATCACCACCCGTCACCTGGAACACACTGCCGCACCGCTGAGGCGCAGCGTGGTGTCACAGATGGAACGCGAGTTTCCGGAGGAGTTCAGGAAGACGGCCGCCAGCCGTTTCCGGGCCGCCGACAACATCTCCGTCACCAACTCGCTCTACCACTACTACGCCCTGCTCACCGGACAGGCCGTGACCCAAACAGCGGCGAAGGTGCGCTACGTGGACACCACCATGCGTGCAGGGTTGAACTACCTGCCGAAGCTTTTGGCCAAGCGGAACATGGACTTCTTCTGCCTCAATGACGGAAGCTTCCCCGAAGTCCCTGCGGACGAACGGGCGGAGCTGGTGACGGATTTCCTGGAGAAGTACTTCCCCATCAAGGCACCTTGGGAAATCTGA	MTSPAAEARLKHRPDVVRHKGRYALINHNRTPYQAMVEDLLFLRNVLAGAGLDYLLVRGNSDRPVIALDWKDRKTLRDALVKACRNEPVYSMTVDAKKKSFVLVADGELSPNRQARIFRLYRPRVEPDGGFEFGSSAGVQVELWSFEGNQVILPIENSLTRRTMLSQDAVRGTVERYGHTWPTIENMFADHASDISFDIDLVFSWVDGSSPEYIAARRAQQQGVVLGEGDDHEARFRQIDELKYALRSVYMFAPWIRRIFIATDSPAPAWLAEHPAVTIVRSEEFFSDPSVLPTHNSQAVECQLHNIEGLSEHFLYSNDDMFFGRPVSPDMFFTPGGITKFVEAETRIGLGDNDAERSGFENAARVNRKLLWNRFGRITTRHLEHTAAPLRRSVVSQMEREFPEEFRKTAASRFRAADNISVTNSLYHYYALLTGQAVTQTAAKVRYVDTTMRAGLNYLPKLLAKRNMDFFCLNDGSFPEVPADERAELVTDFLEKYFPIKAPWEI				NA	NA	NA	NA	NA
D1-29_00736	927			hypothetical protein	ATGACTGCAACCGACTTTCCTGCCGGCACACCCGACGTCCGCCTGCCGTCCATGCCGCCCCTGGCACTCCTGCTCGACGTCGATGGTCCCGTGGCCAGCCCGGTGACCCGCGACGTGAAACCGGAAATTATCGCGGACCTGGTGGCGCTGGCCGCTGCCGGCATCCCCGTCATCTTCAACACCGGCCGCTCCGATGAGTTCATCCGGACCCAGGTGATGGAGCCGATGATCGCCGCCGGAATGCCCTCAGAGACAGTCATCCACGCCATCTGCGAGAAGGGTGCTGTGTGGTTCAGTTACACAGTGGCGGGACCCGGCCCCATCCACGTGGACCGGGAACTGGCAGTACCGAAGGCCTACGGGGATGACATACGAAGGCTGGTCGCTGAGGACTACGCCGCGCACATGTTCTTCGACGAAACCAAGCGCGCCATGGTGTCCGTGGAACAGCACGTCGAGGTGGCCAACTCCGATTACTTGGCGGAACAGAAGCTCTTCGATTCCGATGCCATGGACCTGATGGCGCGCCACGGCCTGGGTGTGGTTCGGCTGGAGCATCACGCGCCGAATTCCGAGGACCAAGTGGACTACCGGGTGGACCCCACCATCATCTCCACCGACATCGAATCCGTACGGCTGGGCAAAGACCTCGGCGCGAGCCGGGCAGTGGAACTTCTCGCCGCCCAAGGCATCACCCCGCAGGCCTGGCGCACGGTGGGAGATTCCCGGACGGACTACGCCATGGCAGACTGGCTTCACCACAACGACCACGCGGTGAAGCACGTAGACGTCCGTCCCGCGGACGGCGTCCCGGTGAAACCGTACGCGGTGCTAACGGCCGCTGATCTGGGACTGGCCGCCGACATAATTCACGACGACGCCGGCGGCGCGTTCCTGCGGGACTGGCTCGACGCACTGGTCAGCTGA	MTATDFPAGTPDVRLPSMPPLALLLDVDGPVASPVTRDVKPEIIADLVALAAAGIPVIFNTGRSDEFIRTQVMEPMIAAGMPSETVIHAICEKGAVWFSYTVAGPGPIHVDRELAVPKAYGDDIRRLVAEDYAAHMFFDETKRAMVSVEQHVEVANSDYLAEQKLFDSDAMDLMARHGLGVVRLEHHAPNSEDQVDYRVDPTIISTDIESVRLGKDLGASRAVELLAAQGITPQAWRTVGDSRTDYAMADWLHHNDHAVKHVDVRPADGVPVKPYAVLTAADLGLAADIIHDDAGGAFLRDWLDALVS				NA	NA	NA	NA	NA
D1-29_00737	300			hypothetical protein	GTGATATTTAAAGCTGTGGGCGAGGGCCGCCCTTACCCCGACCATGGATACAGTTCGCCCAAAGAGTGGGCTGCGCTGCCGCCGCGCCCGGTCAGGCTGGACGAGCTGGTGACCACAAAACGGACACTGGACCTTGAAGCGCTCCTTGCCGAGGACTCCACATTCTTCGGCGATCTCTTTCCACACGTGGTGCAGTTTCAGGGAACCCTGTATCTGGAAGACGGGCTGCACCGGGCCGTCCGCACAGCCCTCCACCAGCGCACCGCCATCCACGCCCGCGTGCTGGTCATAGATGGCTAG	MIFKAVGEGRPYPDHGYSSPKEWAALPPRPVRLDELVTTKRTLDLEALLAEDSTFFGDLFPHVVQFQGTLYLEDGLHRAVRTALHQRTAIHARVLVIDG				NA	NA	NA	NA	NA
D1-29_00738	678			hypothetical protein	ATGGCTAGAACGCCCAAGGCCAAGGACCCCGCGGTTCTGCACGGCCATCACGTAGTCACCGGCTCCGAACTTCGCGCCGCATTCGAGGCCGGAGCGGATCCGGACAACCCTGTCCGGCTGCGCCGCCGGGTCCTGCACGGAGTGGTGCTGGTTCTCCTCCTGGGGCTCATTGCCGCCGCAATCATCACCGCGATGGCAATCATCAACGGGCAGTTGAAGATTCCGGCCGCCGAAAGCAGCGAGGAGCCCACCTCGGTCTGTCCCACAGCCACTTTTGACTACACCCCGAACGAGAAGATCAACCTCAACGTCTACAACTCCACCAGCAGGCCCGGGCTGGCGCGGACCGTCGCCGATGAGTTCCTGGCCCGGAAATTCGTGGTGGGGGCCGTGGGCAACACCGACGCCGGCTACAAGGGCGTTGCCGCTGTGGTGTCGGGCGCGGCTGGCCAATCGGCGGCCTTTAGCGTCCAGCGCAACCTGCCTGGTTCGGACTACTACCAGGACGACCGCGCGGACGCGAGCGTGGATGTGATCGTCGCCGGAGACTTCAAGGAACTTGCGGCGGCGGAACTCGTGGACCAGACGCCCGGAACGCTCAGTTGCCCGCGTGAAAGCCGGCGCATCGCCGATGACGACAAGTGGCCCGTCATCCCGACGGCGGGCGCCACGCCCTAA	MARTPKAKDPAVLHGHHVVTGSELRAAFEAGADPDNPVRLRRRVLHGVVLVLLLGLIAAAIITAMAIINGQLKIPAAESSEEPTSVCPTATFDYTPNEKINLNVYNSTSRPGLARTVADEFLARKFVVGAVGNTDAGYKGVAAVVSGAAGQSAAFSVQRNLPGSDYYQDDRADASVDVIVAGDFKELAAAELVDQTPGTLSCPRESRRIADDDKWPVIPTAGATP				NA	NA	NA	NA	NA
D1-29_00739	651			hypothetical protein	ATGCCCAGGATTTCGGCGGCCAGCAACGCCGCCCAACGCGCCGAGACACAGCGCCGCATCCTCACGGCATTCGGCGAGCTGCTCTTCACGCATGGGCTGCCCGGCCTGACCATGACCGACGTCGCCCGGCATGCCGGGGTGGGACGGACGGCGGTCTACAACTACTTCGCGGACATCGAAGAGCTGCTCATTGCGTATGCCCTGGATGAGACCGAACGGTTCCTCGCCGAACTGCGGGAGGCCCTGGACCGCCTGGATAACCCCGTGGAGCGGCTGGCGCTGTACGTGCGCTCACAGGTGGAGGACCTGAGCCGCCGCCACCTCCCGCCGGGGCCGGCCATGGCGGCGGTGATGTCGCCGTCCTCCTTCGCCAAACTGGCGGACCATGTTGGTGAGCTCAGCGTCCTGCTGCAGGGCATCCTGAGGGACGGCATGGAGCAGGGATATCTGCCGCTGGCCGATATCGCCGAGCAGGCGAAGCTGATCCACGGCACGCTGTCCTCCAGCGCCGCCCGTGGCAGCGATGAGCCCGGGGAACTTGAAACCCGGATCGCCCGGACGGTCCGTTTTATCCAGTTGGGTGCCGGAGCAAGGTTCGACGACGGCGGCCGTCCAGTCCGCGTCGGCCAGCTTCCCGCCGTGACCGGCTAG	MPRISAASNAAQRAETQRRILTAFGELLFTHGLPGLTMTDVARHAGVGRTAVYNYFADIEELLIAYALDETERFLAELREALDRLDNPVERLALYVRSQVEDLSRRHLPPGPAMAAVMSPSSFAKLADHVGELSVLLQGILRDGMEQGYLPLADIAEQAKLIHGTLSSSAARGSDEPGELETRIARTVRFIQLGAGARFDDGGRPVRVGQLPAVTG				NA	NA	NA	NA	NA
D1-29_00740	699			hypothetical protein	ATGAAGATTGAGATCTGGTCAGACGTCGCGTGCCCGTGGTGCTACATCGGCAAGCGCCGGTTTGAGGCCGCCCTTGCCGAGTTCCCGCACCGGGACTCGGTGGACGTGCAATGGCGCAGCTACCAGCTGGATCCCACGCTCCCGGAACACTACGACGGCACCGAACTGGATTACCTGAGCACCCGGAAAGGGCTGGCGCCGCAACAGGTCAGGCAGATGTTTGACCATGTGGCCGCCCAGGCCCGCTCGGAAGGCCTGAACTACGACTTCGACAACGTTGTGGTCGCCAACAGCTTCACAGCCCACCGCCTGATTCGCCTGGCGGCAGCCCACGGCGCGCAGGACGCAGCCAAGGAGCGCCTGCTCAGCGACCATTTCGAACATGGCAAGGACATTGGCAGCCAGGAGTACCTGACCGCACTGGGCAAGGACCTGGGCCTGGATGCGGCCGAGGTGGCTGAGCTGTTCTCCACTGACAAGTACGCCGACGACGTCCGGCACGATTTCCAGGAAGCCCGCGCCCTGGGCGTCACGGGAGTCCCCTTCTTTGTGATCGACCGGAAGTTCGGCCTGTCCGGCGCCCAACCGGCTGAGACGTTCACCGCCGCCCTGAACCAGGCCTGGCAGGAAAGCCATCCGCTGGTCCTGGTCAACAACGCCAACGGCGACTCCTGCGGCCCGGACGGCTGCGCCGTCTGA	MKIEIWSDVACPWCYIGKRRFEAALAEFPHRDSVDVQWRSYQLDPTLPEHYDGTELDYLSTRKGLAPQQVRQMFDHVAAQARSEGLNYDFDNVVVANSFTAHRLIRLAAAHGAQDAAKERLLSDHFEHGKDIGSQEYLTALGKDLGLDAAEVAELFSTDKYADDVRHDFQEARALGVTGVPFFVIDRKFGLSGAQPAETFTAALNQAWQESHPLVLVNNANGDSCGPDGCAV				NA	NA	NA	NA	NA
D1-29_00741	1062		COG0438	Glycogen synthase	ATGCGGATAGGGCTGATTGCAGGACCGTGGATTCCTGTACCGCCGGTCACCTATGGCGGCATAGAAAGAGTAGTGGATCACCTTGCACGCGGGCTTGTGGATGCAGGCCATGAGGTCCTGTTGGCCGTCTCCTCCGACAGCGAGTGCCCGGTACCACGCGTTCCCGGCATGGCCCCGTCCGACCCCGAGGAAGTGGGCACAACTGTCTCGGAACTGAGCCACGTCATTAAGGCCTACAAGGGTGTGCAGGGCGTGGACATCATCCATGACCACACCCTGGCCGGGCCGTTCTGCCCCTTCCGTCCGGAAGGGACCCCGGTGGTCACCACCATCCACGGACTGCTCACCCCCGCCGTCGCGGAGATTTACCGCGCCGCCAGCGCCAACACCTCCATCATCGCCATCTCCCACGATCAGACCTCCCGCGCTCCCGATATCCCGGTAGCGAAGGTGATCCATCATGGAATGGACCTCTCCTCTGTCCCGGCAGGCAGCGGGAGTGGCGGCTACCTGTGCTTTGTGGGCCGGATGTGTCCGGACAAGGGAGTCATGGAAGCCATCGACCTGGCGCGGAAAGCGGGGATGCCGCTGAAAATCGCTGCCAAGATGCGCGAAGCCGAGGAACTGCGCTATTTCCGCGACGTCATCAAACCGCTGCTGGGATCCAACGAGGAGTTTGTGGGCGAAATCGGTGACGCCGAAAAATACCATCTGATGGGCGAAGCGATGGCCTTCCTTAATCCCATCCAGTGGTCAGAACCCTTTGGCCTGGTCATGATCGAATCCCTTGCCACTGGCACGCCGGTGGTGGGTACCCCCATCGGTTCGGCCCCCGAGATAGTGGAGCACGGACGGACGGGCTACCTGGCAGCCACCGACAAACTGGCGGAACTGCTTCCGGCGGCCGCGGGCCTGGACAGGACGGCGTGCCGGGCCAGCGTTCAGGAACGCTTCAGTGCCGAACGGATGGTTGCGGACCACCTTGCCCTTTTTGAACAGCTCCTTGAAGGGAAGCCGGCTGCAGGGGTGCCGAATCCTGTTGCCTTGTACCAGAACCAGTAG	MRIGLIAGPWIPVPPVTYGGIERVVDHLARGLVDAGHEVLLAVSSDSECPVPRVPGMAPSDPEEVGTTVSELSHVIKAYKGVQGVDIIHDHTLAGPFCPFRPEGTPVVTTIHGLLTPAVAEIYRAASANTSIIAISHDQTSRAPDIPVAKVIHHGMDLSSVPAGSGSGGYLCFVGRMCPDKGVMEAIDLARKAGMPLKIAAKMREAEELRYFRDVIKPLLGSNEEFVGEIGDAEKYHLMGEAMAFLNPIQWSEPFGLVMIESLATGTPVVGTPIGSAPEIVEHGRTGYLAATDKLAELLPAAAGLDRTACRASVQERFSAERMVADHLALFEQLLEGKPAAGVPNPVALYQNQ				NA	NA	NA	NA	NA
D1-29_00742	1188		COG2826	IS30 family transposase ISAcl1	ATGCCGAAGTTGTTTCCTGCCAATGTCCGTGGTGATTTTCTTGATCTGGTGTGCTCCGGCGCGTCTGTGAGCGAGGCTGCACGGCGTGTCGCGGCCTCCCGCGGGACCGGGAAGAAGTGGTGGGCCGAGTCTGGTCAGATGAAAGTGAAGATGGGGGTCGTTGGCGGTCTGGCGGACCCGGCGCCGGGTGCGGAAGGCCCGGGCGGGCGGACGTTGACGGAAGCCGAGAGGGGGATGATCCAGATGGGCGTGGAGGCCGGGATGGGTTACGCCCAGATTGGCAAAGCGGTCGGCCGGGACAGGTCCGTCATCTGGCGGGAGGTGAAACGTAACTCCGACGCCGGCGGCAGGTATCACGCCAAAGTTGCGCACGCCAAGGCGCATCAGGCACGGCGCCGGCCCAAGCCCTTCAAGCTCATCGAGGACGAGGACCTGTGCCGGCTGATCGCCTTCTGGATGGATGAGGGGTGGAGCCCGAAACTGATCTCGTCGATGTTGGCGTTTTACTTCGCCGGTGACCAGACTATGCAGGTGAGCCACGAGACGATCTACCAGGCGCTGTACGTCCAAACCCGCGGAAGTCTGCGCAAAGACCTGGCCGAAAACCTCAGCCTGAAACGTAAACAGCGCGTCCCGCACATCGCTGACCGGCGCAAGAACAGCCCCTACAAAGAGGCGTTCAAGATCAGTGAACGACCCGCCGAAGTCCAGGACCGGGCCATCCCGGGGCATTGGGAAGGCGATCTGATCATCGGTTCTGACGGGACCGCTATCGGCACCCTCGTGGAACGCTCAACCCGGTTCACGATCCTGCTGCACCTGCCCGGGGACCACAGCGCCGAGACCGTCGCCGCAGCGATGATCCGGGAGATGGCGAACCTCCCGGATCATCTGCGCCGCTCCATCACCTGGGACCGCGGCTCCGAACTGGCAGGCTACGCGAAGATCCAGACAGCCTTGGAAACCACGCTGTATTTCTGCGACCCGCACTCGCCCTGGCAGCGCGGCACCAACGAAAACACCAACCGGCTCCTGAGGTTCTGGTTCGAGAAAGGCTCCGACCTCTCGGCCCACACACCGGAGGACCTCCGCCGCGTCGCCGCGACACTCAACCGCCGGCCCAGGCCGACCCTGAACCTACAAACCCCAGCCAACCGGCTAAACCAGCTGCTGCAAACAGCGGCATAA	MPKLFPANVRGDFLDLVCSGASVSEAARRVAASRGTGKKWWAESGQMKVKMGVVGGLADPAPGAEGPGGRTLTEAERGMIQMGVEAGMGYAQIGKAVGRDRSVIWREVKRNSDAGGRYHAKVAHAKAHQARRRPKPFKLIEDEDLCRLIAFWMDEGWSPKLISSMLAFYFAGDQTMQVSHETIYQALYVQTRGSLRKDLAENLSLKRKQRVPHIADRRKNSPYKEAFKISERPAEVQDRAIPGHWEGDLIIGSDGTAIGTLVERSTRFTILLHLPGDHSAETVAAAMIREMANLPDHLRRSITWDRGSELAGYAKIQTALETTLYFCDPHSPWQRGTNENTNRLLRFWFEKGSDLSAHTPEDLRRVAATLNRRPRPTLNLQTPANRLNQLLQTAA	PGPT0030610_273	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030610-IS30_family-K07482	NA	NA
D1-29_00743	996			hypothetical protein	ATGCCCCGCCCGTACACCCTGTTCACCGGCCAGTGGGCCGACCTCCCGTTCGAGGAAGTCGCCCGCCTTGCCTCCGGCTGGGGCTATGACGGACTCGAAATCGCCGTCTCCGGCGACCACTTGGACGCCTGGCGTTGGGACGAGCCGGGCTACGTGGACTCCAAGCTCGCAGTCCTGGCAAAGTACAACCTCAAGGTCTGGGCCATCTCCAACCACCTGAAGGGCCAGGCGGTGTGTGATGACCCCATCGATTTCCGCCACGAGGGAATCGTCGGTGCCAAGGTGTGGGGCGACGGCGATCCCGAGGGCGTGCGCCAGCGTGCCGCCGAGGAAATGAAGCACACCGCCCGGCTCGCCAAGGCACTTGGCGTGGACACCGTCGTCGGGTTCACCGGCTCCTCCATCTGGCAGTACGTAGCCATGTTCCCGCCGGTCCCGGAGAAGGTCATTGACGCCGGCTATCAGGACTTCGCCGACCGCTGGAACCCCATCCTGGACGTCTTCGACGAATGCGGGGTCCGCTTCGCCCACGAGGTCCACCCCAGCGAGATCGCCTACGACTACTGGACCACCGTCCGCACCCTCGAGGCCATCGGCCACCGCGAGGCGTTCGGCCTGAACTGGGATCCGTCCCACATGATGTGGCAGGGCATCGATCCGGTCTCCTTCATCTGGGACTTCAAGGACCGGATCTACCACGTGGACTGCAAGGACACCAAGCTCCGCCCCACGGGCCGGAACACTGTCATGGGCTCCCACCTGCCGTGGGGTGATCCGCGCAGAGGCTGGGACTTCGTCTCTGCAGGCCGCGGGGATGTCCCTTGGGAATCGTCCTTCCGGGCCCTCGCCGCGATCGGCTATGACGGACCCATTTCGGTTGAATGGGAAGACGCCGGCATGGACCGTCTCCACGGCGCCCCCGAAGCCCTCGCCGCCCTCAAGAAATTCGGCTTCCCGCCGTCGAGCACTTCTTTCGACGCCGCCTTCAAGCAGTAA	MPRPYTLFTGQWADLPFEEVARLASGWGYDGLEIAVSGDHLDAWRWDEPGYVDSKLAVLAKYNLKVWAISNHLKGQAVCDDPIDFRHEGIVGAKVWGDGDPEGVRQRAAEEMKHTARLAKALGVDTVVGFTGSSIWQYVAMFPPVPEKVIDAGYQDFADRWNPILDVFDECGVRFAHEVHPSEIAYDYWTTVRTLEAIGHREAFGLNWDPSHMMWQGIDPVSFIWDFKDRIYHVDCKDTKLRPTGRNTVMGSHLPWGDPRRGWDFVSAGRGDVPWESSFRALAAIGYDGPISVEWEDAGMDRLHGAPEALAALKKFGFPPSSTSFDAAFKQ				NA	NA	NA	NA	NA
D1-29_00744	1275	iolG_6		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACCCCACAGGACCGGACCACCTACCGTCCGCACCCGGAACCCACCATGCCCTTACGCCGGGATGATCAGCCGCTGGGCGTGGCGATGGTTGGCTATGCCTTTATGGGCAAGGCCCATTCGAACGCCTGGCGGAATGTAGGCAGCTACTTTGATGTACCGGCCTTCGAGCAGAAGATACTCGTCGGCCGGGATGCCGCCGGAGTGAAGGAAGCCGCGGCGAAGTACGGCTGGGCCGAAACCGCGACGGACTGGCGCACCGTGATCGAACGGGATGACATCCACATTGTGGATATTTGCGCGCCGGGATGGCTGCACGCCGAGATCGCCACGGCGGCCCTGGAGGCCGGGAAGCACGTACTCCTGGAAAAGCCGCTCGCCAACACGCTGGCCGAGGCCGAAGCCATGACGGCTGCGGCCCAGGCTGCCCGGACACATGGTGTGCAGTCCATGGTGGGTTTCAACTACCGCCGCGTTCCGGCCCTGGCCCTGGCGAAGGAACTGATCGCCGAGGGCCGGCTGGGCGTCATCCGGCACGTACGCGCCGCCTACCTCCAGGACTGGCTCGCGGATGAGACGGCCCCCATGACCTGGCGGCTGAAGAAGGAAAGCGCCGGTTCGGGTGCTCTCGGGGACATCGCTTCGCACGCCATTGACCAGGTCATGTTCCTGCTCGGAGACAACGTCAGGGAGGTTTCGGGCCGGACACACACCTTCACTACCAGCCGTCCCGGGGCGGCTGGCCCGGAGGAAGTAACGGTCGACGACGCCGCCTGGGCCACGCTGTCCCTGGCCTCCGGGGCCATCGCCTCGGTGGAGGTTTCGCGCGTGGCCACCGGGCAGAAGAATTCACTGAAGCTGGAAGTTTACGGCGATAAGGGCTCCATCCTCTTTGATCTGGAGAACCTGAACGAACTCGGGTTCCTGGACGCCACGGCCCCCGTCCGCGAGCAGGGTTTCCGCCGGATCCTGGTCAACGAGCCTGAGCACCCCTACCTTGAGGCGTGGTGGCCGCAGGGCCACATCATCGGCTGGGAGCACACGTTCACCCACGAGATCCGTGACTTCCTGCTGGCCATCGACGGCGGAACCCAGCCCTCGCCGTCGTTCGAGGATGGCCTGGCCGTTCAGCGGGTCCTGGCGGCAATTGAAGAATCGTCCGCCGCGAAAGGTTCCATCATCAACGTTGCGCCGGCCACGGCTGAAACACCCACGACTGGCAAATTGCCCAGCAACATAGGCCCGTCCCAAACCGTCCCGACCGAAGGAGCCTGA	MTPQDRTTYRPHPEPTMPLRRDDQPLGVAMVGYAFMGKAHSNAWRNVGSYFDVPAFEQKILVGRDAAGVKEAAAKYGWAETATDWRTVIERDDIHIVDICAPGWLHAEIATAALEAGKHVLLEKPLANTLAEAEAMTAAAQAARTHGVQSMVGFNYRRVPALALAKELIAEGRLGVIRHVRAAYLQDWLADETAPMTWRLKKESAGSGALGDIASHAIDQVMFLLGDNVREVSGRTHTFTTSRPGAAGPEEVTVDDAAWATLSLASGAIASVEVSRVATGQKNSLKLEVYGDKGSILFDLENLNELGFLDATAPVREQGFRRILVNEPEHPYLEAWWPQGHIIGWEHTFTHEIRDFLLAIDGGTQPSPSFEDGLAVQRVLAAIEESSAAKGSIINVAPATAETPTTGKLPSNIGPSQTVPTEGA				NA	NA	NA	NA	NA
D1-29_00745	1119	iolG_7		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACCGGCGCAGGCACCAGCCGCGGCCCGGTGGGCGTCGCCGTGATCGGCGCCGGGAACATCAGCAAGGCCTACCTGGACAACCTCACCGCGTTCCCGGACCTGAAAGTCCACGTCATCGCAGACCTCTTCGAAGACACGGCCCTCGCAAGGGCGAAGGAATACGGCATCCCCGAATCCGGCGGCGTGGACGCGGCACTGAACCATCCCGACGTCGAAATCATCGTCAACCTCACCATCCCCGCAGCCCACGTGGAAGTCGCCACCGCAGCGGTCAACGCCGGCAAACACGTCTGGACCGAGAAACCCTTCTCCCTGGACCGCGAATCCGGGCTCGGGCTGCTCAAGACCGCCGACGCCGCCGGAATCCGGCTCGGCTGCGCCCCCGACACGTTCCTCGGCGCCGGCCTGCAAACAGCCCTGCGCCTGATCCAGCGCGGCGACATCGGCATCCCGCTGACCGCCATGACCACCTTTCAGACCCCCGGCCCGGAATCCTGGCACCCCAACCCCGCGTTCCTCTTCCAGCACGGCGCCGGGCCGCTGTTCGACATGGGCCCGTACTACCTCACCACCCTGATCCAGGCCTTCGGCTCCATCCGGAAAGTCGCCGCCGTCGGCTCCAAAGCCAAAGAAACCCGCATCATCGGCTCCGGCCCCAAGACCGGCCAGGAGTTCACCGTCGAGGTACCCACCCACGTCTCCGCGATGGCCCAGTTCGAGAACGGCGCCTCCTCCCACAGCGTCTTCTCCTTCGAATCCCCCCGCCAACACATGGGCTTCGTCGAAATCACCGGCACCGAAGCCACCATCTCCCTGCCCGATCCGAACTACTTCGACGGCGACATCAAACTCTGGCGCGCCGGAGACGAAGACTGGACCACCATCCCCGCCACCGGCCCGGCAAACGGCCGCGGCATGGGCGTCCTGGACATGGCCCGCTCCCTCCGTGCCGGCGTCCAGCACCGCGCCACCGGCGACCTCGCCTATCACGTCCTGGACACCATGGTCTCCATCACCGAATCCATCGACTCCGGCACCTTCATCAACGTCGAAAGCACCGCCCCCGCCTCCCCGGCCCTCCCGGAGGACTGGGCACCGGAAACCAAAACACTCTAG	MTGAGTSRGPVGVAVIGAGNISKAYLDNLTAFPDLKVHVIADLFEDTALARAKEYGIPESGGVDAALNHPDVEIIVNLTIPAAHVEVATAAVNAGKHVWTEKPFSLDRESGLGLLKTADAAGIRLGCAPDTFLGAGLQTALRLIQRGDIGIPLTAMTTFQTPGPESWHPNPAFLFQHGAGPLFDMGPYYLTTLIQAFGSIRKVAAVGSKAKETRIIGSGPKTGQEFTVEVPTHVSAMAQFENGASSHSVFSFESPRQHMGFVEITGTEATISLPDPNYFDGDIKLWRAGDEDWTTIPATGPANGRGMGVLDMARSLRAGVQHRATGDLAYHVLDTMVSITESIDSGTFINVESTAPASPALPEDWAPETKTL				NA	NA	NA	NA	NA
D1-29_00746	753	iolE_1		Inosose dehydratase	ATGACCTATTCACTTCAGCTCTACACACTGCGCGATGCCATCCAGGAGGACCTTGCCGGGACCATCAGGAGGGTCGCGGAGATTGGTTTCACGCAGGTGGAACCGTACAACTTTGTGGCCACGGCCAAGGAACTCGGTGCGGCGCTGCGGGAGAACGGCCTGACCGCGCCGTCCGGCCACGCCCCGCTGCTCAGCCAGGACCAGGACCAAATCTTTGCCGCGGCGAAGGAACTGGGCATCAGCACGGTGATTGATCCGTTCATCCCGGCCGGGCGCTGGCAGCAGGCCGAGGACATCCAGGCCACCGCGGCAGCCCTCAACGCCGCCGCAAAGAAGGGTGCCGAATACGGCATCCGGGTGGGCTACCACAACCACCAATGGGAACTGGAGTCCATGGTCGAGGGCCGCACCGCCCTGGAATACTTTGCAGACCTGCTGGATCCTGAGCTGGTCCTGGAGGTGGACACCTACTGGGTGGCCGTCGGCGGACAGGACCCGGTAGAGATCCTCAGCAAACTCGGTGACCGGGTGAAGTTCATCCATATCAAGGACGGCCCGCTGACTGCCGACACGAAAGCCCAGCAGCCCGCTGGCCAGGGCAAGGTCCCGGTCCTGGACGTCATCGCCGCCGCCGCCTCCCTGGAAGTGGGCGTAGTGGAGTTCGACGACTACGCCGGCGACATCTTCGATGGCATCGCCCAAAGCCTGGCCTACCTCCAGACGGCGGCCGTGAACGCAGGAGAGCTGGCATGA	MTYSLQLYTLRDAIQEDLAGTIRRVAEIGFTQVEPYNFVATAKELGAALRENGLTAPSGHAPLLSQDQDQIFAAAKELGISTVIDPFIPAGRWQQAEDIQATAAALNAAAKKGAEYGIRVGYHNHQWELESMVEGRTALEYFADLLDPELVLEVDTYWVAVGGQDPVEILSKLGDRVKFIHIKDGPLTADTKAQQPAGQGKVPVLDVIAAAASLEVGVVEFDDYAGDIFDGIAQSLAYLQTAAVNAGELA				NA	NA	NA	NA	NA
D1-29_00747	1212	nagC_2	COG1940	N-acetylglucosamine repressor	ATGAGCCTTACCTCCCGGACCGTGCCTGCCAACCCTGATATCGGCGGCAATCTGGCGCGCGCCGGTGACCTCTTCCAGCTCCTCCGCGACGGCCAGGCCCGGACCCGGGCCGAACTGGCCGTGACAACCGGCCTCGCCCGTTCCACCGTCGCTGCACGCATCGACGCACTCATCGCCTCCGGCCTTATTGCCGCGGCGGGGGAGGCGAACTCAAGCGGCGGCAGGCCGCCGTCGCGCTTTGCCTTCAACCCGGCGGCACGTGCCGTCCTTGCCGTGGACGTCGGGGCTACCCATGTCATCGTGGCCGTCACCGATCTCAGTGGAGCAGTCCTGGCGGAACAGCGCCTGGTGCAGGACGTTGCCGACGGCCCGGAAACCGTTTTGGATCGGGTGGTGACGGAAGGGCTCTCGCTCCTGGCAAAGGCTGGCCGGAGCATCAATGTCCTTGCCGGCGTCGGGATCGGTTTACCGGGTCCCGTGGAGCATGCCACCGGAAGGCCCGTGAAGCCGCCCATCATGCCGGGATGGGACGGGTTCGACGTGGTCCGCTATGTCCAGCGTTCCCTGCCGGGGCCTGTCCTGGTGGACAACGACGTGAACATCATGGCTCTGGGCGAGCGCAGTGCGCATTGGCCGGAGCACCAGGATTTTGTGTTTATCAAGGTTGCCACGGGGATCGGTTCAGGCATCATCAGCAACGGCGAGCTGCAGCGCGGGGCCAACGGTACCGCCGGCGATCTTGGCCATGTCCGCGTTCCCCGCGGAGACGATGTGCTCTGCCGGTGCGGGAACTACGGCTGCCTGGAAGCGCTCGCGTCCGGCCCGGCGCTTGCCGCGGAACTCACGCGTCAGGGAGTGCCTGCCTCGAAGGGCAGCGACGTGCTGCGCCTTGTGGCGGAGGGCAACCTGCCGGCCATCCAGGCCTTGCGCCAGGCCGGGCGGGATGTGGGGGATGTGCTGGCCACCGTAGTGAACCTGCTGAACCCGTCTGTCATTGTCATTGGCGGAAGCCTGGGCCAGGCGGGAGAGCATTTGATGGCGGGGGTCCGGGAAGTTGTCTACCGGCGCTCGCTTCCGTTGGCTACAACCCACTTGCGGATTGCCCCGTCCAGGGCGGGGGACCAGGCCGCGGTTTTCGGCGCGAGCCAAATGGTCATCCAGCATGTGTTGTCACCGGCGGCTATTGAGTCCACGCTACAGGCGACCGGTTAA	MSLTSRTVPANPDIGGNLARAGDLFQLLRDGQARTRAELAVTTGLARSTVAARIDALIASGLIAAAGEANSSGGRPPSRFAFNPAARAVLAVDVGATHVIVAVTDLSGAVLAEQRLVQDVADGPETVLDRVVTEGLSLLAKAGRSINVLAGVGIGLPGPVEHATGRPVKPPIMPGWDGFDVVRYVQRSLPGPVLVDNDVNIMALGERSAHWPEHQDFVFIKVATGIGSGIISNGELQRGANGTAGDLGHVRVPRGDDVLCRCGNYGCLEALASGPALAAELTRQGVPASKGSDVLRLVAEGNLPAIQALRQAGRDVGDVLATVVNLLNPSVIVIGGSLGQAGEHLMAGVREVVYRRSLPLATTHLRIAPSRAGDQAAVFGASQMVIQHVLSPAAIESTLQATG				NA	NA	NA	NA	NA
D1-29_00748	960	hpr_1	COG1052	Hydroxypyruvate reductase	ATGGAGCACCGGCTTGCCATTCTGGATGACTACCAGGATGTGGCGCACGGCTTCGCCGACTGGACTGCCCTTGAGAAAGAGGGTGTGTCCGTCACCGTCTTCCGGGAGCCCTTCACGTCCCAGGAAGCGCTGGTGGCCGCGCTGGCCGGTTATTCCATTGTCATCGCCATGCGCGAGCGGACTCCGTTTCCCCGCCCGGTCATGGAAAAGCTGCCCGCGCTGAAGCTCCTGGTCACTACCGGGATGGCTAATGCAGCCATCGATGTGGCTGCCGCCGAAGATCATGGCATCACGGTATGCGGGACGCCAGGATCACCTACAGCAGCACCGGAACTCACCTGGGCCCTGCTGCTGGCCATTGCCCGGAACCTCCCTGCCGAAGACAACTCGATGCGTGCCGGGGCATGGCAGAGCACCGTGGGGTTTGAACTGGCCGGCAAGACCCTGGGCATCGTGGGGCTTGGCAAGATCGGCCGCAGAATTGCAGCCTACGGCCAGGCGTTTGGCATGGACGTGCTGGCCTGGAGTGAGAACCTGACCGATGAGGCCGCCGCCGACGCGGGAGTCCGGAGGGTGAGCAAGGACGATCTCTTTCGAAGCGCAGATGTGGCCACCCTTCACCTGCGGCTGTCCCCTCGATCGGAAGGCACGGTTGGTGAGCGGGAGCTGCGGCTACTGGGACCCGAAGGGATCCTGGTGAACACTGCCCGCGGCCCGCTGGTTGACCAGGACGCCCTGATCCGTGCGCTGACGGAGGGCTGGATCCGCGGCGCCGCCCTGGACGTGTTTGACCAGGAACCGCTGCCGGCGGCCCACCCGATCCTCGCCGCCCCCAACACTGTCCTGTCGCCACACCTGGGTTATGTCACACGGGAAAGCTACCGGCAGTTCTATGGCGGCGCCTTCGAGGACGTCAACGCCTGGCTGGCAGGCTCACCCATCCGGGTGATCCCCGCCTGA	MEHRLAILDDYQDVAHGFADWTALEKEGVSVTVFREPFTSQEALVAALAGYSIVIAMRERTPFPRPVMEKLPALKLLVTTGMANAAIDVAAAEDHGITVCGTPGSPTAAPELTWALLLAIARNLPAEDNSMRAGAWQSTVGFELAGKTLGIVGLGKIGRRIAAYGQAFGMDVLAWSENLTDEAAADAGVRRVSKDDLFRSADVATLHLRLSPRSEGTVGERELRLLGPEGILVNTARGPLVDQDALIRALTEGWIRGAALDVFDQEPLPAAHPILAAPNTVLSPHLGYVTRESYRQFYGGAFEDVNAWLAGSPIRVIPA	PGPT0009155_7103	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
D1-29_00749	1653	aceB_1		Malate synthase	ATGAACTCTTTTACTGACAGCTTCACCATCAATGGCATTACCCTGACTGCCCAGCCCATTTGCCGGCAGGACGAGGTTCTTACTCCGGACGCCTTGGAGTTCGTTGCGAGGCTGCACCGGGCCACTGCTGAGCGGCGGCAGGAACTGCTGCAGGCACGGCGGACCCGGCGGGCCGAGATCGCTTCCGGGCAGGATCCACGGTTCCTCCGGGAGACCGAGGATATCCGCAACGATCCTTCATGGCGGGTCGCTCCGCCGGCGCCTGGGTTGGAGGACCGCCGGGTGGAGATCACCGGCCCCGTTGACAAGAAGATGGCCATCAACGCCCTGAATTCCGGGGCGAAGGTCTGGCTGGCGGACATGGAGGACTCCTCCACCCCCACTTGGCGGAACGTGATCAAGGGCCAGCTGAACCTGACCGACGCCCTGGAACGGCGGATCGACTTCACCAGCCCGGAGGGCAAGGAATACCGGCTCCGCCCCGCCGTCGAACTGCCCACTATCGTGGTCCGTCCCCGTGGCTGGCACCTGCCGGAAAAGCACATGCTGATCGACGGCGCTCCCGTGGCCGGCGGCATCGTGGACTTCGGGCTGTACTTCTTCCACAACGCCCGCCGCCTGATCGCCCAGGGCAAGGGCCCCTACTTTTACCTGCCCAAGATCGAAAACCACCTCGAAGCGCGGCTCTGGAACGACATCTTCATTCTCGCCCAGGACCTGCTCGGCATCACGCAGGGCACCATCCGCGCCACCGTGCTGATCGAAACCATCACCGCGGCCTTCGAGATGGAAGAAATCCTCTACGAACTGCGCGACCACGCTGCCGGCCTGAACGCCGGCCGCTGGGACTACATCTTCTCCCTGATCAAGAACTTCCGCACCCGCGGCCCCCGGTTCGTCCTGCCGGACCGCGCACAGGTCACCATGACCCAGCCGTTTATGCGTGCCTACACCGAACAGCTTGTGCGTGCCTGCCATAAGCGCGGCGCCATGGCCATCGGCGGGATGGCTGCGGCAGTTCCCAACCGCAAGGACCCTGAAGCGAACGCCAACGCTCTCGAAAAGGTCCGGGCAGATAAAACCCGCGAGGCCAACGACGGCTTCGACGGCTCCTGGGTTGCCCACCCGGACCTGGTTCCGGTCTGCCGTGAGGTGTTCGATTCCATCCTCGGTGAGCGTCCCAACCAGCTGGACCGCAGCCGGGAAGACGTGACTCCTGATGACCGCGCCCTCATCAACGTGGCCGCCACTGAGGGCACCATCACAGAACAGGGCATCCGGAACAACATCGAAGTCGGGATCCGATACATCGAATCCTGGCTCCGCGGCAACGGCGCCGTCGCCATCCACAACCTCATGGAAGACGCCGCCACCGCCGAGATCTCCCGCTCCCAGCTCTGGCAGTGGATGTACGCCCGGGCCATCACCGACCACGGCGAAATCATCAGCCATCACTGGATCGAAGAACTCCTCGACGAGGAATTCGCCCGGCTGGAACGCTTCGACGGCGACCGCTTCGAAGACGCCCGCGACATCTTCGAAGAAGTGACGATGGCCCGGGACTTCCCGTCCTTCCTCACCCTCCCCGCCTACGCGCGGTACCTGACGGAAGCCCGTGAAAAGGCAAGCCAGGAGGAACTCGCCGCCGCCTAG	MNSFTDSFTINGITLTAQPICRQDEVLTPDALEFVARLHRATAERRQELLQARRTRRAEIASGQDPRFLRETEDIRNDPSWRVAPPAPGLEDRRVEITGPVDKKMAINALNSGAKVWLADMEDSSTPTWRNVIKGQLNLTDALERRIDFTSPEGKEYRLRPAVELPTIVVRPRGWHLPEKHMLIDGAPVAGGIVDFGLYFFHNARRLIAQGKGPYFYLPKIENHLEARLWNDIFILAQDLLGITQGTIRATVLIETITAAFEMEEILYELRDHAAGLNAGRWDYIFSLIKNFRTRGPRFVLPDRAQVTMTQPFMRAYTEQLVRACHKRGAMAIGGMAAAVPNRKDPEANANALEKVRADKTREANDGFDGSWVAHPDLVPVCREVFDSILGERPNQLDRSREDVTPDDRALINVAATEGTITEQGIRNNIEVGIRYIESWLRGNGAVAIHNLMEDAATAEISRSQLWQWMYARAITDHGEIISHHWIEELLDEEFARLERFDGDRFEDARDIFEEVTMARDFPSFLTLPAYARYLTEAREKASQEELAAA	PGPT0001445_1701	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
D1-29_00750	1347	icl	COG2224	Isocitrate lyase	ATGACTGCAGCATTTGAGCCTACCCAGCAGCCGTCCGCCCAGGACACAGCAAACACGCAGGCGGCCGCCCTGGAGCTCGAGTGGGCCGCCAACCCGCGCTGGGAAGGTGTGGCCCGGGACTACAAGGCCTCCGACGTCGTCCGCCTCCGCGGCCGTGTCTCCGAAGAGCACACTCTTGCCCGCCGCGGTTCGGAGAAGCTCTGGAAGCAGCTCACCGAGGAGCACAAGACCGGAGGTTACACCAACGCCCTGGGCGCCCTGACCGGAAACCAGGCCGTGCAGCAGGTCAAGGCCGGACTCCGCGCCATTTATCTCTCAGGCTGGCAGGTTGCCGCCGACGCCAACAACTCCGGCCACACCTACCCGGACCAGTCGCTGTACCCGGCCAACTCGGTCCCCACCGTGGTCCGCCGGATCAACAACGCCCTGCTGCGCGCTGACCAGATCGAATTCGCGGAGGGCATTCAGACCGTTGAGGACTGGATGGTTCCGATCGTCGCCGATGCCGAGGCCGGCTTCGGCGGGCCGCTGAACGCCTACGAGCTCATGAAATCCATGATCCAGGCCGGCGCCTCGGGTGTGCACTGGGAAGACCAGTTGGCCTCGGAGAAGAAGTGCGGCCACCTCGGCGGCAAGGTCCTGATCCCCACCCAGCAGCACGTCCGCACCCTGAATGCCGCCCGCTTGGCAGCCGACGTCGCCGGCACGCCCTCGGTGGTCATCGCCCGCACCGACGCCGAGGCAGCAACCCTGATCACCTCCGACGTCGATGAGCGGGACCAGGAATTTATCCTCCGCGAAGGGGGCCAGCCGGTTCGTACCGCGGAGGGCTTCTACAAGGTCCGCAACGGCATCGAACCCTGCATCGCCCGAGCTAAGGCCTACGCCCCCTACTCCGACCTGATCTGGATGGAAACCGGCACCCCGGACCTGGAACTGGCCCGCAAGTTCGCCGAAGCCGTCAAGGCCGAGTTCCCGGACCAGATGCTCTCCTACAACTGCTCACCGTCGTTCAACTGGCGCAAGCACCTGGACGACGCCACCATCGCCAAGTTCCAGCGTGAACTCGGCGCCATGGGCTTCACGTTCCAGTTCATCACCCTGGCCGGATTCCACGCCCTGAACTACTCGATGTTCGACCTCGCCCACGGCTACGCCCGGGAAGGCATGAGCGCCTACGTCGAGCTCCAGGAAAAGGAATTCGCCTCCGAATCCCGCGGCTACACCGCAACCAAGCACCAGCGCGAAGTCGGAACCGGCTACTTCGACGACATCGCTACTGCGCTCAACCCGAACGCCTCCACCCTCGCATTGGTCGGATCGACCGAAGAGGGCCAGTTCCACTAA	MTAAFEPTQQPSAQDTANTQAAALELEWAANPRWEGVARDYKASDVVRLRGRVSEEHTLARRGSEKLWKQLTEEHKTGGYTNALGALTGNQAVQQVKAGLRAIYLSGWQVAADANNSGHTYPDQSLYPANSVPTVVRRINNALLRADQIEFAEGIQTVEDWMVPIVADAEAGFGGPLNAYELMKSMIQAGASGVHWEDQLASEKKCGHLGGKVLIPTQQHVRTLNAARLAADVAGTPSVVIARTDAEAATLITSDVDERDQEFILREGGQPVRTAEGFYKVRNGIEPCIARAKAYAPYSDLIWMETGTPDLELARKFAEAVKAEFPDQMLSYNCSPSFNWRKHLDDATIAKFQRELGAMGFTFQFITLAGFHALNYSMFDLAHGYAREGMSAYVELQEKEFASESRGYTATKHQREVGTGYFDDIATALNPNASTLALVGSTEEGQFH	PGPT0001550_1059	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLYOXYLIC_ACID_BIOSYNTHESIS,PGPT0001550-aceA-K01637	NA	NA
D1-29_00751	1515			hypothetical protein	ATGCACTTCTTCGCGTATCCTCAAGAAATGTCGCCTTCAAGCTGGAACCGCAAAGCCGCCCCGCCGCCGTCGAGCACTGCCGCCCCGGAACTGGATGTGATCAGCCTTGGCCGGCGGGTCCGTCACCTGCGCAAGGCCGCGGGCCTGACGCTGGATGACTTGAGCGCCGCCGTCGGAACCGCTCCCAGCCAACTCAGCCTGATTGAAAACGGCAAACGGGAGCCCAAACTGGGACTTCTTCAGCAACTCGCCGCCGCCCTGAATGTTGGCATTGACCAGCTCCTCGGCGCGGACCCGCCTAACCGCAGGGCAGCGCTGGAAATCGAGCTGGAACGGTACCAGCGAAGCCCTATTTACGAATCGCTGAACCTGCCGAAAATCCGCATCAGCTCACGGCTTCCGATGGATGTGCTCGAGTCGATGGTGGGCCTGCAGCATGAGCTGGAACGCAAGCTGAACGAGCAGATCGCCACCCCGGAGGAGGCCCGCCGCGCCAACGGTGAGCTGAGGGCCATGATGCGGAAGCGGAACAACTACTTTCCCGAGTATGAGGCGGAGGCCCAGAAGGTGCTGGCGACCGTCGGGCACACCACCGGTCCGCTGTCCCAGCACGTGATCGCGGACATCGCCGCGCACCTCGGATTCAGCCTCCATCATGTGGGCGATTTGCCGCATTCAACGCGTTCGGTGACCGATCTTAAGAATCACAGAATTTATCTCACGCAGAACCAGCGGACTGACCACGACCCCCGTTCGGTGCTGCTGCAGGCCCTGGGTCACTACGTCCTGGGCCACCAAACGCCCAAAAACTATGGTGATTTCCTGATGCAGCGGGTGGCCACCAATTACTTTGCCGCGGCGCTGATGCTCCCGGAGAAGGCCACGGTGGAGTTTCTGCAGAAGGCGAAGCAGGCCAAGGAAATTGCCGTCGAGGACATCCGTGATGCCTTTGCCGTGTCCTACGAGACGGCCGCGCACCGGTTCACCAACCTCGCCACCCAGCACCTGGACATCCGTACGCACTTCCAGAAGACACACCAGAGCGGCATCATCTACAAGGCCTATGAGAACGACGGCGTGACGTTCCCGCAGGACCACACCGGCGCCATTGAGGGCCAGCCGTCCTGCAAGCAGTGGACGTCACGGGTGGTATTCGATGTGCCGGACAAGTTCCGGGCGTACAACCAATACACGGACACTCCGGCGGGGACTTACTGGTGCACCGCCAGGACCGAGCGCTCGGCCAACGGCGAATTCTCGCTGTCGGTGGGGGTGCCTTACGCCCATGTGAAATGGTTCCGCGGCCGGGACACCACGGAGCGGTCCAAGTCAACGTGCCCGGACGAGAGCTGCTGCAAGCGTCCTCCTGCTTCGCTGGCCTCCGAATGGGCAGGCAACGCGTGGCCCTCGGCGCGGGCACACTCGCACCTGCTCGCCGCCATGCCGCCGGGCGCGTTCCCCGGCGTGGACGAGACTGAGGTCTACAGCTTCCTGCAGGCGCACTCAGGGAACTAA	MHFFAYPQEMSPSSWNRKAAPPPSSTAAPELDVISLGRRVRHLRKAAGLTLDDLSAAVGTAPSQLSLIENGKREPKLGLLQQLAAALNVGIDQLLGADPPNRRAALEIELERYQRSPIYESLNLPKIRISSRLPMDVLESMVGLQHELERKLNEQIATPEEARRANGELRAMMRKRNNYFPEYEAEAQKVLATVGHTTGPLSQHVIADIAAHLGFSLHHVGDLPHSTRSVTDLKNHRIYLTQNQRTDHDPRSVLLQALGHYVLGHQTPKNYGDFLMQRVATNYFAAALMLPEKATVEFLQKAKQAKEIAVEDIRDAFAVSYETAAHRFTNLATQHLDIRTHFQKTHQSGIIYKAYENDGVTFPQDHTGAIEGQPSCKQWTSRVVFDVPDKFRAYNQYTDTPAGTYWCTARTERSANGEFSLSVGVPYAHVKWFRGRDTTERSKSTCPDESCCKRPPASLASEWAGNAWPSARAHSHLLAAMPPGAFPGVDETEVYSFLQAHSGN				NA	NA	NA	NA	NA
D1-29_00752	1359			hypothetical protein	ATGAGCAACGATGCCATGGACAGCACCACCCCAAGGAGCAAACTGGTGATGGCAGCAAACCAGCAGGTTCCGTCCGGAGTCAGCCACGCTGACCGTATTGACGACGACGGCGGCCGCCCCGCTAAATGGCGCATCATCGGGCCCGGTCTGGTGGTTGCAGCCACCGGCGTGGGCGCCGCTGACATGGTGGCCACCCTGGTGGCCGGTTCCCGGTACGGCTACGGCCTGTTCTGGGCCGTCATTGTTGGTGTGGTCCTGAAGATCATCCTTGTTGAAGGGGCCGGCCGGTACACATTGGCAACCGGAAAGACGATCTTTGAGGGATGGCGTTCCCTCGGAAAATGGACCACCTGGTACTTCGGGCCCTACATCATGATCTGGGGCTTCGTCTATGGAGCCACGGCCATGTCGTCGGCGGCATTGCCGCTGGCGGCCGTGTTCCCCATCCTGCCCCTCTGGGCATGGGCCATCCTGATGGGCCTGGCCGGTTTCGCGATGGTGTGGTGGGGCAAATACGCCACCTTCGAGAAGATTACCGCCGCGCTGGTGGGACTGATGTTCGTGACTGTGGTGGGCCTGGCCATCATTGCCGCTCCGAACATCCCGGAGATGCTCACGGGGCTGATTCCCATGATCCCGTCAACCGACGGCGCAATCTTCTACACGCTCGCCTTGGCTGGCGGAGTGGGCGGCACAATAACGCTCGCCGCGTACGGGTACTGGCTGCGCGAGAAGGGCTGGTACACGCCGAAGTGGATGAAGGTTATGCGGATCGACAACTCCATGGCCTACGTGATGACCGGTGTCTTCGTGGTTGCCATGCTCATTGTGGGCGCCGAGGTAGTCCGCTCCGCAGGTGTTTCCCTCAGTGCGAGCGACGAAGGCCTGCTGGATCTTTATGGCGTCCTTAAAGCGGAGTATGGCGATGTCGTTGGTACCGGGTTCCTCGTCGGCTTCTGGGCCGCTTCCTTTTCCTCAATCATCGGTGTTTGGAACGGTGTCTCCTTGATGTTCGCCGATTTCTGGGGCAATATGCGGGGCAAGGAATCAGGCCACCCCGATACCCGCGTGGGTGGAAAATACTTCAAGTTCTACATCCTGTGGCTCACGTTCCCGCCCATGATCCTCTTCGCTCTGGGCCAGCCCATCGGCCTTATCCTGGCCTATGGCGCTCTGGGTTCGCTGTTTATGCCGTTCCTGGCACTGACACTGCTGGGCCTGCTCAACGGCAAGCGGATCCCCAGGGTCTGGGCCAACAAGCTGCCCACCAACATCGCGTTGGGATGCTGCGCACTGCTATTCGTCATCCTGGGCATCCGGCAGTTCTGGACTTCCCTCTCGCCGCTTTTCGGCGCCTAG	MSNDAMDSTTPRSKLVMAANQQVPSGVSHADRIDDDGGRPAKWRIIGPGLVVAATGVGAADMVATLVAGSRYGYGLFWAVIVGVVLKIILVEGAGRYTLATGKTIFEGWRSLGKWTTWYFGPYIMIWGFVYGATAMSSAALPLAAVFPILPLWAWAILMGLAGFAMVWWGKYATFEKITAALVGLMFVTVVGLAIIAAPNIPEMLTGLIPMIPSTDGAIFYTLALAGGVGGTITLAAYGYWLREKGWYTPKWMKVMRIDNSMAYVMTGVFVVAMLIVGAEVVRSAGVSLSASDEGLLDLYGVLKAEYGDVVGTGFLVGFWAASFSSIIGVWNGVSLMFADFWGNMRGKESGHPDTRVGGKYFKFYILWLTFPPMILFALGQPIGLILAYGALGSLFMPFLALTLLGLLNGKRIPRVWANKLPTNIALGCCALLFVILGIRQFWTSLSPLFGA				NA	NA	NA	NA	NA
D1-29_00753	1023			hypothetical protein	ATGAGTGAGGCACGCGCCCTCCCCTTTCTCCCCGCGCGGCGAACAGCCCTCAAAGCCGGGCTGGCAGCCGGACTGACCGGCCTGCTGCTGCCGGCACTCACGTCGTGCACATCGGAAAACCGGCCCGGGACAGTCACGGTAGCCGGCGGTGAGCAGGGCGGCTTCTACCTTGAGTTTTCAACCCTGCTCGCGGAAGCCCTCCAGCGCCACGGTGTGGCCCGCAACGCCACGGCACTGACTACCGGCGGCAGTCTGGACAACCTCGAGCATCTGCTGAGCGGCAAAGCCACCTTCGCCGTCGCACTCGCTGACGCCTCGGTCCAGCAGGCAGCGGCGGCAACCGGATCCGGCAACGGAATTGCCGCCGTCGGCAAGGTGTATGAAAACTATGTCCACTGCGTCGTGCGGCGGGACAGAGGCATCCGAACGTTCGTTGAACTGGCCGGCAGGACAGTCGCCGTGGGCCAGCCCGGCTCAGGGACGTCACTGACTACTCCCCGCCTCATCGAAGCCGCGGGGCTGACCCCCACTGCCGTTGGATCCGGCGCCGTGGGTCCGGCCGGCGGCCCGATCACGGTGCTTAACCTGGGGCTGAATGACGGGATTGCCGCACTCAGGGCAGGTTCCGTGGATGCGTTGTTCTGGTCCGGCGGGGTGCCCACGGCCGCCATCGCCGCTGCCCATCACGACGTGGGCTTGGCATTCCTCGATCTCTCCGCGCTGCTCCCGGCGCTGCGTTCCAGATACGGCCCCTATTACGACCGTGTGCTGATTCCTGAGGGCAGCTATGAGGGGACGCCGGCCGTGTGGACTGTGGGTGTGGCCAACCTTCTCCTGTGCCGGGATGACCTGGACGCCGGCACGGTCAGGAGGACCGTGGAACTGCTCGTGGGCCATGGCCAGGAACTCGTTCCGCGGTCCAGCCTGGGGGTTCAGTTCCTCAGCGCCGAATCACTCATTAACACAGCCGGCCTGCCGCTGCACCCCGCAGCCGCGGCCGCCTACAAGGCGCTGCACGGCTGA	MSEARALPFLPARRTALKAGLAAGLTGLLLPALTSCTSENRPGTVTVAGGEQGGFYLEFSTLLAEALQRHGVARNATALTTGGSLDNLEHLLSGKATFAVALADASVQQAAAATGSGNGIAAVGKVYENYVHCVVRRDRGIRTFVELAGRTVAVGQPGSGTSLTTPRLIEAAGLTPTAVGSGAVGPAGGPITVLNLGLNDGIAALRAGSVDALFWSGGVPTAAIAAAHHDVGLAFLDLSALLPALRSRYGPYYDRVLIPEGSYEGTPAVWTVGVANLLLCRDDLDAGTVRRTVELLVGHGQELVPRSSLGVQFLSAESLINTAGLPLHPAAAAAYKALHG				NA	NA	NA	NA	NA
D1-29_00754	1437	sasA_2		Adaptive-response sensory-kinase SasA	ATGAAGCTGCGGGTCCTGGGCGTCCTGAGCCTGCTGTCGGCACTCCTGGTCATCATTGTCTCCACTGTCATCCTGACCTCGGCCAGCCGGGAACTCACGCAGGAACTCCAAATCAACCGGGTCGCAGCCCTGAACAGGTTCGCCCAAGTGGCCTTCGATGCCGCGGGTGACGGCGACTCAAGTCAGCTGCAACGGGAGATGGACAGGTACTCGGAGCTCTACGGCGAGGGAATCCTGGTCCGCCTCCAAAATGCCACGTTGCGTTCCGGTGGCCTGAGCGAAGACAGGGCAGACGTCCGGGACGCCATCGCCAGCGCGAACCTGAACCTCAGCGACACCACCCTGGCCCCGCTTCAACCGTTCGGGACCGGCTCCGAGGTGATCTCCCGGTCCTTCGGAAGCGCCAGCCAGGTCCTGGGTGAGGCCGTTGTCGAAGTCAACCTGGACGCGGCCCGCCAGAAACTGCGGGACCGGTGGCTCGCCGTCGTGCTGGCGGCGTCGGCGCTCGGAGCGCTGCTCCTGTGGGGCGCAGCCCGCGTGACCGGATGGGTGTTGCGGCCTGTTCATCGCCTGAATTCGGCGGTGACTGAACTCGAAGCAACGGGACGGACAGCCCAGCTTCCGGACGACGGGCCTCCTGAGCTGAAGAAGCTGAGCCGCTCCTTCACCGCCATGGCGCGGACTGTCAGCGACAGTATTGCCTCGCAGCGGCAGCTGATTGCCGACACGTCACACCAGTTGCGCAATCCCGTGGGAGCCCTGCGGCTGAGGATCGATCTGCTCCAGCTGGAAGTGGATTCGGACCGTGAAAAGGCGGCCGCAGCGGGAGTTGTTGCAGAGCTGGAACGCGTCGAGGAGATCCTGGACGGCGTGCTCAGGCTGGCGGCCGCGGAACACCGGGCGTCGGAGGATTCTGCCAGGGGCACGCTGGGCCCGGCTTACGGCCGGAACGGGACGCTTATCGACCCCTTCCCGATCGTGGCGGACGAGGTGGAGCGGGCAATGCCTGCGGCGCGGCGGGCGGGTGCGGCGGTGGTGCTGGAAGAGCCGCCCAACTCGCCGGTGCAATTGGCCTGCAACCCCGAGGACCTGGCTCAAATGGTGGGTGAACTCCTGAACAACGCCATCAAATATGCCGACGGCGCCCGCGTCTCTGTTTCCGTCCGCGTCAGCTCTGGCGGCGTAATCATCGGGGTGTCCGACGACGGTCCCGGCCTGTCCGCCGACGAAAGGGCCGCCGCCACCACGCGGTTCTGGCGCTCGCCACGGCACCGGCTGGTCAGCGGCACCGGCCTGGGCATGACCATCGTGGCCAAACTCGCGGCGGCCAACGGCGGCCGGCTGTTCCTAGCCGAACGGTCACCGCATGGCCTGGACGCCCGCCTCGACTTTCCCCACCCCTCAGCGCGGGACGGCCAGGTGGGTCCGGATGAGTGA	MKLRVLGVLSLLSALLVIIVSTVILTSASRELTQELQINRVAALNRFAQVAFDAAGDGDSSQLQREMDRYSELYGEGILVRLQNATLRSGGLSEDRADVRDAIASANLNLSDTTLAPLQPFGTGSEVISRSFGSASQVLGEAVVEVNLDAARQKLRDRWLAVVLAASALGALLLWGAARVTGWVLRPVHRLNSAVTELEATGRTAQLPDDGPPELKKLSRSFTAMARTVSDSIASQRQLIADTSHQLRNPVGALRLRIDLLQLEVDSDREKAAAAGVVAELERVEEILDGVLRLAAAEHRASEDSARGTLGPAYGRNGTLIDPFPIVADEVERAMPAARRAGAAVVLEEPPNSPVQLACNPEDLAQMVGELLNNAIKYADGARVSVSVRVSSGGVIIGVSDDGPGLSADERAAATTRFWRSPRHRLVSGTGLGMTIVAKLAAANGGRLFLAERSPHGLDARLDFPHPSARDGQVGPDE				NA	NA	NA	NA	NA
D1-29_00755	663	regX3_1	COG0745	Sensory transduction protein regX3	GTGCTCATCGTCGAGGACGACGACGCCATGGCGTCGGCACTTGCCGCAGCCGTCGGGTCCGCCGGCCACAAGGCAACCAGGGTGTCCCGGGGAGCTGACGCGCTGCTGGCCCACCGGCGGTTCGAGGTCATCCTCCTGGATCTTGGGCTCCCGGACATCGATGGCCTGGACGTACTCCGCAAGCTCCGCCAGGTCACTCACTGCCCGATTCTGATCCTGACTGCCCGCGACGACGAGCGGAGCGTGGTGCTGGGACTGCGGTCCGGAGCGGACGATTACCTGGTCAAGCCGGTGAAGCTCGTTGAGTTGCTGGCCCGGATCGAAGCTGTCACCAGGCGTGCGTTCCGCCAAGGCGCAGCGCCCCCACAAAGCATTGTGCTGGGAGACCTGGAGGTGGACGTTCACCGGCGCGTGGCCGCCCTCGGTTCACAGGTTCTGCCTCTGACGGCCACCGAGTTCGACCTGCTCGCGCTCCTGGCCCGCCATGCCGGATCAGTGGTCACCCGCGAACAGATCCTGGATGCGCTCTGGGGTGATGCTTTCCTTGCCTCCTCACGGTCCCTTGATGTGCACCTGACCGGGCTGCGGGCAAAGCTCCAGTTGCCCGGCTTTATCATCAACGTCCGTGGCGTGGGTTACCGGATCGAGGCGGATCCTGCATGA	MLIVEDDDAMASALAAAVGSAGHKATRVSRGADALLAHRRFEVILLDLGLPDIDGLDVLRKLRQVTHCPILILTARDDERSVVLGLRSGADDYLVKPVKLVELLARIEAVTRRAFRQGAAPPQSIVLGDLEVDVHRRVAALGSQVLPLTATEFDLLALLARHAGSVVTREQILDALWGDAFLASSRSLDVHLTGLRAKLQLPGFIINVRGVGYRIEADPA	PGPT0002675_571	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776	NA	NA
D1-29_00756	1302			hypothetical protein	ATGGTCATCAGGGCTCAACTGCTTACACGCGTACTGGCATTGGGTGCGGTGGTGGCCCTGACGGCGTGTTCGTCGCCGGCGGTGGGCCTGGTGAAGGCTGACGGCGTTGAGCGTGTTTCGGTGGAACGTGCGGCTTTTGACGGTGAGCTGTCGGCGTTCAGGACCTCCGCCCTCAAACTCGGGAATGCCCTTCTGGCCGACGGCGGCGACGACGCGAACGGGAACGTGATCGCCTCGCCCGGAAGCCTGCTGATCGCCTTGGCCATGCTGCGCGCGGGGGCGTCGGGGGACGCAGCCGCTGAAATGGATGCACTATTGGGTCTTCCGGAAGCCAACCGGGATGAGGCCATGAACGCCCTCCTGGCCGAGCTCGAAAAGTTCGACGGCGACCCCGGGTCAGTGGATGAGGACAATCCACCGGCGGAACCCTTATTGCATGTGGCCAACGGACTATTCGTCCACGGGAGCGTCCCCACCGGGGAGCCGTATCTGCAGACGCTGGCAAAGCATTACGGGAGCGGCGTCTATCCGGTGGACTTCCGCGATAAGGCCGCCACCAGCCCGGCCATCGACGCGTGGGTAGATAAGAACACGGGTGGCCGAATCAAGAAGGCGCCGGCGGATTACGACGTCAACAACACCTTCAGCCTCCTGAATGCTGTCTATTTCGCGTCCGCGTGGGAGACGCCGTTCAGCCCCAATGCCACGTATGAGGCGCCCTTCACCACTGCAAATGCCGGCACGCTGAACGTTCCCATGATGCACAGCCTGCAGGACCTGGCCTATGCGGAAGGCGACGGGTGGCAGGCTGTCGACCTGCCGTACGGGGAAGGCTTCGTGATGCGGTTGGTGCTTCCCGCTGACGGCGGCGCCGCCCAGGGCACAGGCCAGAGTGGGGACCTTTTTGACCCTCTCCAACTCGCCGACATTGCAGGCTCCCTGGAGGCTGCCGCTGACGAAAGTGTTCAGCTCTCGCTGCCAAAGTGGGATCACAAAAGTGCTTTTGACCTGCGGCGGGTCTTTGAGCAATTCGGGCTCAGCTCAATGCTGAACACGACGCGTGACTTCGATGAGATCCAGCGGGGCATGACCATCACGCAGGCGGCGCAGGCGGCCAACATCACCGTGGCGGAGAAGGGGACCATTGCGGCCGCAGTGACTCAAATCAATGCCGAGGCTGTGAGCGGAAAGATGCCAGAGCCTGCGCGCATCCTCGAATTCAACCGGCCGTTCCAGTACCAGATCGTCCACGTTGAAACCGGACTGCCGCTCTTTATGGGCAAGGTAGCCGATCCGCGCTAG	MVIRAQLLTRVLALGAVVALTACSSPAVGLVKADGVERVSVERAAFDGELSAFRTSALKLGNALLADGGDDANGNVIASPGSLLIALAMLRAGASGDAAAEMDALLGLPEANRDEAMNALLAELEKFDGDPGSVDEDNPPAEPLLHVANGLFVHGSVPTGEPYLQTLAKHYGSGVYPVDFRDKAATSPAIDAWVDKNTGGRIKKAPADYDVNNTFSLLNAVYFASAWETPFSPNATYEAPFTTANAGTLNVPMMHSLQDLAYAEGDGWQAVDLPYGEGFVMRLVLPADGGAAQGTGQSGDLFDPLQLADIAGSLEAAADESVQLSLPKWDHKSAFDLRRVFEQFGLSSMLNTTRDFDEIQRGMTITQAAQAANITVAEKGTIAAAVTQINAEAVSGKMPEPARILEFNRPFQYQIVHVETGLPLFMGKVADPR				NA	NA	NA	NA	NA
D1-29_00757	309			hypothetical protein	ATGTTGGAGAACACACTCAGCCCTGTATCAGCCGCCACCGCGGCCCAGTCAAGCACTCTTTCCTCAGGGCCGCCGGCTGCCCCTGGGGCTCCGTCAGTCCACGTCCGGGCCGTCATCACGTGGCTGGCCATCTTCCCGCTGGTGACCTTGGGCATGCTGGCGTCCGCGCCGTTGATGGAGGGGTGGCATCCCGTGCTGCGCGCCCTGGTCCTGACTCTTGCAGTGGTCCCGGTGGCCGTGTACCTGGTAGTACCGAGGTTCTTCGCCGCTTACGGCATCCTCGTGCGGCGCAGGCACTCCCGGCGCTGA	MLENTLSPVSAATAAQSSTLSSGPPAAPGAPSVHVRAVITWLAIFPLVTLGMLASAPLMEGWHPVLRALVLTLAVVPVAVYLVVPRFFAAYGILVRRRHSRR				NA	NA	NA	NA	NA
D1-29_00758	633			hypothetical protein	ATGGCTTGGAACACAGAGCGCACCAAAGCATTGCTGCTGGCGGCTGCCACCGATGAATTCAGCGCCAACGGCTTGGCTGGTGCCCGGGTGGACCGGATCGCAGCTGCCGCAGGCGTGAACAAGGAGCGGATCTATCAGTACTTCGGTAAGAAGGATGAACTCTTTGACGCTGTGCTGGCGGCCGAACTGGTACGCGTGATGACGGATGTGCCCATTGAAGGGCGCGGTGCCGAGGCCTTTGGGGACTACGCAGGCCGGCTCTTCGACCGCCACACCACAGACGGCGCCCTGCCGCGGCTGCTGTTCTGGGAAGGGCTGGAACGCGGGCGCAATACGGTGGACCGGGTGACGCGGGCAGACCATTGCGCCACCAAGGTGGATCAGGTCATGAAGGTCCTGCCCGGCGTCGACCGGACGGATGCCGCCGATCTGGTGATCACGGTGGTGACCCTCTGCGACGGCTGGACCGTCCTTCCCCAGCTCGATGCGCTCCTTGCCGGCGATGCGCCGGACCGGGCGAACCGCCGTCGGGCCTTCATCGTGCGGACCGCAACGCTCATGGCGGAAACCCTGCTGGAGGAGTCGCCGCTGGGCGCTTCGCAACTGGGGGCCGCGTCAGTCGCACAGGCTTAG	MAWNTERTKALLLAAATDEFSANGLAGARVDRIAAAAGVNKERIYQYFGKKDELFDAVLAAELVRVMTDVPIEGRGAEAFGDYAGRLFDRHTTDGALPRLLFWEGLERGRNTVDRVTRADHCATKVDQVMKVLPGVDRTDAADLVITVVTLCDGWTVLPQLDALLAGDAPDRANRRRAFIVRTATLMAETLLEESPLGASQLGAASVAQA				NA	NA	NA	NA	NA
D1-29_00759	780			queuosine precursor transporter	ATGCCCTCCGCATCCGGCCCTTCCACGCCAAGCCCAGACGCCCTGCCCCTTACAGGCCAGTCAGGCAGCGCCGCCAGGTTTGCCTCTATCGGCTCGCCCTACTTCGGCATCCTGCTGGCCTTCATGGCCGTGGTTCTCATCCTGTCGAATATCGGCGCTTCCAAAGGTGTTGCCATCGGGCCGGTCATCACAGACGGCGGCTTTTTCCTCTTTCCGCTGGCGTACATCCTTGGCGATGTGATCAGTGAGGTTTACGGGTTCCGGGTTGCACGCAAAGCTATTCTTTGCACGTTTGCGCTGTCCGTCTTCGCCTCGCTCAGCTACTGGGTGATCATTGCGTTGCCGGGTTTCGACGACGAGTTTGGAACGTCCAAGCAGGCGGCACTGGAAGGTGCGTTGGGACCGGTTCCACAGATCGTGCTGGCCTCGCTGCTGGCGTTCCTGGCAGGCCAGACCATCAACTCGTGGATCCTGGTCAGGATGAAGGCCCGATCGGGGGAGAAGTCCCTGTGGGCGCGGCTCATGGGGTCCTCGGGTGCCGGCGAATTTGTGGACACGCTGATCTTCTGCAGCATCGCCGCGTCTGTCATCGGCATCACCGACTTTGGCACGTTCGTGAACTACGTGGTGGTGGGCTTCGTGTACAAGACCCTGGTGGAGTTCCTCCTGGTGCCGGTGACGTCACTGGTGATCGGCTGGATCAAGAAGCGCGAGCCGAGCTACGGGGCTGTACAGGGCAGCAGCTCAGGAGATCGCGGGAACGTTGCGGGATCGATATAG	MPSASGPSTPSPDALPLTGQSGSAARFASIGSPYFGILLAFMAVVLILSNIGASKGVAIGPVITDGGFFLFPLAYILGDVISEVYGFRVARKAILCTFALSVFASLSYWVIIALPGFDDEFGTSKQAALEGALGPVPQIVLASLLAFLAGQTINSWILVRMKARSGEKSLWARLMGSSGAGEFVDTLIFCSIAASVIGITDFGTFVNYVVVGFVYKTLVEFLLVPVTSLVIGWIKKREPSYGAVQGSSSGDRGNVAGSI				NA	NA	NA	NA	NA
D1-29_00760	309			hypothetical protein	ATGACCGACGGCGGCGGCCGGGTATCCCTTTACGTTGCGGTCCCTTCCACGCCCGCCGAGGACGAACTCGAAGCCGCCGCGGCCCTGGTGGCGGGGGCGGATCTCGCCCTGATTCACCTGAGCGAGCTTGGCCTGCTCTTGCTGGAACGCGAAGAGGTCCGGCATACGCCGCTGTGGGTGGACCTTCACGACTCCGACGGGTCCTCCGCGGAGGGGCGTGACCCGGACCCTGCCGGCAAGGCAAATTCCCCTTATTCAGCCAGGCTCCGCGCGTGCAGCTCAAGGTCGAGGCTGTTTTTCTCGACGTAG	MTDGGGRVSLYVAVPSTPAEDELEAAAALVAGADLALIHLSELGLLLLEREEVRHTPLWVDLHDSDGSSAEGRDPDPAGKANSPYSARLRACSSRSRLFFST				NA	NA	NA	NA	NA
D1-29_00761	1248	nagK		N-acetyl-D-glucosamine kinase	ATGTCTTCCGCGATCTCCGCACCGGAGCCTCAGCTGCTGCGTAGAGTGAGCGCCAGCACTGTCCTTGACTTCATGCGGGCTTCAGGTGCCGTGACGGTTACCGACATCATGGAGGCAACAGGGCTCGCCCGCGCCACTGCCATATCGGTGTGCGAGGAACTCATTGAACGGGGCTGGATCAGGGAGCTGGAGAACCAGCGGGCCTTTGGCCAATACCAGAAAGGCCGCCCGGCCCGCAGATTTGAACTCAATGAAAGTGCCGGTTTCGTTCTGGGCGTGGACGTGGGAATCGCAAAGGTCACTGCGGTGGTGTCAAATCTCCGAGGGGAAACTGTCGGACGATCCAGCCAGCCATTTCCTGGCGTGCAGATCACCGCCGAGGATCGCATTCCCGGCGCCCAGATTACGGCCGAGGAACGCATTGCCATCATCGATCAGGCGGCCATGGCGGCCCTTCAAGATGCAGGTGCTTCTGCCGACATGGTGCTCGCCATGACCGTCGGCATAGCAGCACCCGTTGACCGAAACGGTGAAGTTTTAGCCACCCAACATTTCTGGGAGCTGTTCAACCTGGACATCAAGTCTGCTTTCAACAATCTCCACGGCTGGACGGTGCTGCTGGAAAACGATGCAAACCTGGCAGCTTTGGGCGAACGCTGGCACGGCGCGGCTTCCGGTGTAGACGACGTCGTGGTGATCCTCTCCAGCGAACGCTTCGGTTCGGGAGTCATCGACGGCGGGAGGCTCCTCCATGGCAGTCATGGCGGCGCCGGAGAGCTGGCTTTCCTGAAGCAGATCGAAGGCGTGGGCGACACCTTCGGTATCGCCCTCATGGCCAGGACCTGGGCCGCCGAAGCCCTTGCCGGCAAAGCCAAGACATCCCTCCGAAAGCATCCCCATGAGGAAATCGATGCGGAACATGTATTCGCCGCCGCCGCAGACGGGGACCGCCTGGCGCAAAGGATTTTGGACCGCCTCGCCGACAGAATGGCCAGAGTTATCGGAGCCGTAGCCACCATCTTCAACCCCGAACTTGTCGTCATTGGCGGCGGCGTGGCAAAGTCCGCCGGAGTACTTCTGGAACCCATCGCGGAACGGCTGGACGAATTTACGGCCACGCCGCCCCGGATCGCGGTTTCCCCCCTGGGCGAGTCAATAGTCGCAGTCGGAGCAATAAGAAGCGCTCTGGACTACGTCGAGAAAAACAGCCTCGACCTTGAGCTGCACGCGCGGAGCCTGGCTGAATAA	MSSAISAPEPQLLRRVSASTVLDFMRASGAVTVTDIMEATGLARATAISVCEELIERGWIRELENQRAFGQYQKGRPARRFELNESAGFVLGVDVGIAKVTAVVSNLRGETVGRSSQPFPGVQITAEDRIPGAQITAEERIAIIDQAAMAALQDAGASADMVLAMTVGIAAPVDRNGEVLATQHFWELFNLDIKSAFNNLHGWTVLLENDANLAALGERWHGAASGVDDVVVILSSERFGSGVIDGGRLLHGSHGGAGELAFLKQIEGVGDTFGIALMARTWAAEALAGKAKTSLRKHPHEEIDAEHVFAAAADGDRLAQRILDRLADRMARVIGAVATIFNPELVVIGGGVAKSAGVLLEPIAERLDEFTATPPRIAVSPLGESIVAVGAIRSALDYVEKNSLDLELHARSLAE				NA	NA	NA	NA	NA
D1-29_00762	393			hypothetical protein	ATGCAACAGGTTATTCACGTCTCACCCGAGACCAGCTCGGAAAGAGATTTACGGCTCAATGCAGCAATCGATGTGGCTATGAGCATTGCCATCAAGGATCGCGCCGGGGGGATCCTGATTACCCGGAACGCTCCTGCTATCTTCACCGTTGCCATCACCCCTGAAGTCCCTTACGGGCTAGTAAGAGAAGCGGACGGTACAACTGCACGCGATCAACTCCAATCGTTCGGCCAGGAAGAGGCGGGCGGCGTAAAGAAGGAAGACAGCGCCTCCGAATCAGGGGACGGCCCTTGGGACAGGCTGTGGGAACCGGCTGCCCGCCACTACAGGGACATGGAACACCTTCCGCAAGCCACCAAGGAAGGCCGGTTGCATCCTGCCGCCGATGGATGA	MQQVIHVSPETSSERDLRLNAAIDVAMSIAIKDRAGGILITRNAPAIFTVAITPEVPYGLVREADGTTARDQLQSFGQEEAGGVKKEDSASESGDGPWDRLWEPAARHYRDMEHLPQATKEGRLHPAADG				NA	NA	NA	NA	NA
D1-29_00763	1317			hypothetical protein	ATGTCTAACTCTCTCTTCTCACGTTCTGTTGACCGGCGAGCTGTGCTGCGCGGCGGCCTGTTTGGCGCACTCGGCCTGGCGGCCGCTCCAGCGGTGGCCGCTTGCGGCGGCGGTTCTGGCTCCAGCGCCGGAGGCAGTGTTTCCTGGGCGGCCTGGGCCAACCCGGGGGAGGACGAACGCTATAAGCAGTTCGCCACTGAGCTCGGCAAGAAGATTGACGCCAAGGTCAGCTTCCAGGCCGTCGTCGGCGACTACCAGGCCAAGCTGCTCTCGCAGCTCGCAGGGGGCTCCGCCCCCGATGCTTTCTATGTCGGTGATGCCGATATGGCCAAGATGATTGACGCGAAGCAGATTACGGACCTCAGCGACTACCTCAAGGGTGGTACGTCTCCGGTCACGCTGGAGGACTTCCCGGAGGATCTCTACCAGTGGTGCAAACCGGCAGATGGCAGCGCAGGGATTTTCGGGATTCCGGTTGACTGCAATCCCTCAGTGCTCTGGTTCAACAAGGACGTTCTCTCTGCGGCAGGAGTTTCCAAGGACCCCGCCCAGCTTTTCGAGGCAGGCGCTTGGACGCCGGACGCGCTGGAGGATCTGCTGGGCAAGGTTCGAGCCTCCGGCAAGAAGGGCCTGATCCTGTCCAACTGGTGGTTCAACTGGTGCACCGCCACCACCATGTTCGGCGGTCAATTGACCGACGAATCCGGCAAGCTGGTTCTTGCCGAGGACCCCAAGGCCCAGGAAGGACTGGAATGGCTGCTTGAGCAGTTCAGGTCCGGCAACATCACCTATGCAGGTTCCCTGCCGAAGGGCCAAAGCGGAGACGCCCTTTTCCTGGCCGGGCAGCTTGCTCTGAACAATGTCGGCCGTTGGGCGCTCCCGACGCTAAAAGACGTCAAGTTCGGTTATGACATCACCCCTGTCCCCTCGCCTTCGGGCAAGGACATTCTTCCTGCGCCGGTCGCTACGGCGGCCATAGCGCTCAACGCCAAGGCCAAGAACCCGGAGAAGGCCCGCGAGCTGATTGGCAACTATGTCAGCCGTGACGGGCAGAAGTTCCGGCTCTCCGGAGGTGGTAACGCCGTGCCGTCCATCAAAGGCCTGGACGAGGTCGCCACCGAGGGCGGCGTTCCGGCTCACGGGCAGTGGTTCAACGAGGTCGTGGCCAAGGGCTACGCCATTCCGCGCGCGTTCGTCGGCAATCCCAAAACCGCTACCGAGCTGCCCCTTCTGGTCGACAAACTTTTTAAGGACTCCTCGACGACAGCGGCGTCGTTCAGCTCCGCCGTCACCCAGCTGGTGGAGTCGACCAGGTGA	MSNSLFSRSVDRRAVLRGGLFGALGLAAAPAVAACGGGSGSSAGGSVSWAAWANPGEDERYKQFATELGKKIDAKVSFQAVVGDYQAKLLSQLAGGSAPDAFYVGDADMAKMIDAKQITDLSDYLKGGTSPVTLEDFPEDLYQWCKPADGSAGIFGIPVDCNPSVLWFNKDVLSAAGVSKDPAQLFEAGAWTPDALEDLLGKVRASGKKGLILSNWWFNWCTATTMFGGQLTDESGKLVLAEDPKAQEGLEWLLEQFRSGNITYAGSLPKGQSGDALFLAGQLALNNVGRWALPTLKDVKFGYDITPVPSPSGKDILPAPVATAAIALNAKAKNPEKARELIGNYVSRDGQKFRLSGGGNAVPSIKGLDEVATEGGVPAHGQWFNEVVAKGYAIPRAFVGNPKTATELPLLVDKLFKDSSTTAASFSSAVTQLVESTR	PGPT0016545_2650	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
D1-29_00764	942	lacF_6		Lactose transport system permease protein LacF	GTGAGCACGCTGACCGCAACCGCCACGCCGGCACGGGCCGCCGAGCCCCCTTCCCGGGGCCCATCCCGGCGCCGTCGCAAGGACACTATCGCCGCGCTGGTCTTCCTGTCGCCGCAACTCGTGGGGCTGGCCGCCTTCATGATCGGACCGCTGGTCTTCGCCCTGGTCTTGGCTTTCAGTAATTGGGATGGTTTCGGCGCGGCGACATTTGCCGGATTCGCTAACTTCACAGAGGTACTGTCCAACCCGCGGATCCAGCGCTCGGTCCTGAATACTGTGTGGTTCACGGTCCTGCAGGTGCCTGGCTTGATGATTTCAAGCTTCGTCTTTGCGCTGCTGATGCAGAAGGCGGGCAAGATGACGTCGGTCTACCGGCTTTGCTTCGTGGCACCAGTGGTGACCTCTTCGGTGGCGGTCGCTGCAATCTGGCTGTGGTTGTTCAATCCTGAAATCAGCCCGGTCAGCAGTGCTTTGGGCAGCATCGGTGTCCAAGCCCCGGACTGGCTGCAGGACCCCAACTTCGTGATCCCGGCCTTCACCATCGTGTCGATCTGGCAGGGCTTGGGCTACCAGCTGGTGATGTTCATGGCCGGACTGCAGAGCATCGGCTCTTCCTATTTGGAAGCTGCAGAACTGGACGGCTGTACCGGATGGCAGAAGCTGGTTCACGTCACCGTTCCGCTGCTGTCTCCCACGATCCTGTTTCTCTCGATCACCTCGATCATTGGCTCCTTCCAGATCTTCGACTACATCTACGTCTTCATGGACAGCAATGCTCCTGAAGCAGCCCGCACGATCGTTTACGAAATCGTCCAAATCGCCTTCCGCGAATTCAATTTCGGCCAGGCCTCGGCCCTGGCGTTCCTGCTCCTGCTGTCCCTGCTCGGTGTGACCGCGCTGCAGCTGGCAGCTCAGAAGAGATGGGTCCACTACGCAGAATGA	MSTLTATATPARAAEPPSRGPSRRRRKDTIAALVFLSPQLVGLAAFMIGPLVFALVLAFSNWDGFGAATFAGFANFTEVLSNPRIQRSVLNTVWFTVLQVPGLMISSFVFALLMQKAGKMTSVYRLCFVAPVVTSSVAVAAIWLWLFNPEISPVSSALGSIGVQAPDWLQDPNFVIPAFTIVSIWQGLGYQLVMFMAGLQSIGSSYLEAAELDGCTGWQKLVHVTVPLLSPTILFLSITSIIGSFQIFDYIYVFMDSNAPEAARTIVYEIVQIAFREFNFGQASALAFLLLLSLLGVTALQLAAQKRWVHYAE	PGPT0016535_2554	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
D1-29_00765	897	lacG_2		Lactose transport system permease protein LacG	ATGAGTACTTCCACCGCTACCCGAAACAACCACCGCAGCCTGAGCCAGCCAGGGAAGGCCAGGCGGATCCACCCCCAGCGTCTTGCCGGCCGAACCATCCTGCACGCCGCGCTGGCTGTCTGTGCAGTCCTGATGGCGCTGCCATTCCTCTGGATGCTGCTGTCATCGTTCAAACCGCTGACCGAGATCTTCGCGCACCCCCCGGCCTTGTTCCCGCTCGAATGGACCACAGAGGGTTACGAAAAAGCCTTCACAGGCGCGGACTTCGTCCGCGGATTCTGGAACAGCACCTACATTGCGGTAACCGTCACCGCCATCTCGCTGCTCACCTCATCCATGGCCGCCTACGCCTTCGCCAGGATTGAATTCCGTGGAAGCAAGCCCCTGTTCATGGTGTTCCTGGCAACCATGATGGTTCCTGCCCAGCTGACCATCATCCCGCTTTACATCATCATGGGAGGGCTGGGCTGGGTAGACACCCACGCGGCACTTATCGTCCCGGCCGCGCTCTTCAACGCTTTTGGCGTGTTTCTCATGCGCCAGTACGTCAAAGGCATCCCGAAGGAGCTGGAGGAGGCCGCGGAGCTGGACGGTGCCAGCCGCTTCCGGATCTTCACAACCATGATCCTGCCGCTGCTGCGCACACCCCTCACCGCGCTCGGCATCTTCACCTTCCTCGGACAGTGGAACAACTTCTTCGGACCGCTGATCTTCCTCAACAGCGACGCCAACTTCACACTCCCGCTGCTCGTGAACCAGTTCAAGGGCCAGTACGGCGCCGACTGGACTGCCCTCATGGCCGCCACCACCCTGGCTGCAGCACCACTGCTGATCCTGTTCGGAGTCGCCCAGCGCCAGATCGTCGACGGCATCGCCCTCTCCGGATCAAAATCCTAA	MSTSTATRNNHRSLSQPGKARRIHPQRLAGRTILHAALAVCAVLMALPFLWMLLSSFKPLTEIFAHPPALFPLEWTTEGYEKAFTGADFVRGFWNSTYIAVTVTAISLLTSSMAAYAFARIEFRGSKPLFMVFLATMMVPAQLTIIPLYIIMGGLGWVDTHAALIVPAALFNAFGVFLMRQYVKGIPKELEEAAELDGASRFRIFTTMILPLLRTPLTALGIFTFLGQWNNFFGPLIFLNSDANFTLPLLVNQFKGQYGADWTALMAATTLAAAPLLILFGVAQRQIVDGIALSGSKS	PGPT0016540_2437	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
D1-29_00766	963	glkA_2		Glucokinase	ATGACTTGTTCTCTCGGCGTAGATATAGGCGGCACGAAGATTGCCAGCGCAGTCCTTGACCGTGACGGAACTGTCTTGGATGTCCACACGACTCCAACCGCCCGGGGTGGTGACGTGATCCTTGGGCAGGTCGCGGCAATCGTCAATGGCGTCGCGGCGAAGCATGACCTGTCAGGAATTGGAATCGCCGTCCCTGGGGATGTCAATCCTTCCACCGGCATCATCAGATCCGCCCCGAACATTGGATGGAGCGATCTGGATATTGCCGAGCACGTCCGGTCATTCCCGCCGGCAGGAGCTGCGGTCCGGGTGGACAACGACGCGAATGCCGCCGCGTGGGCCGAATACCGCTTTGGAGGACATCCCCGCACGGATTCGTTCGCGATGATCACCGTCGGTACCGGGCTGGGCGGTGGATTCATTATCAATGGGCGCCTCCTGTGCGGGGCAACCGGCGCAGCGGGCGAAGTGGGCCACTTGGCCCTTGTTCCCGGCGGCGACAGCTGCCCCTGCGGATCCCGCGGCTGTTGGGAACGCTACGCCAGCGGCAGCGCTCTCCATCGGGCAGCGGTGGCCGCCGGTTGGGACGAAGGCTCGGCGGGCCACGACGTCCTAGCGGCCGCTGAAATTCATCCCCCTGCCCGCCGGGTCGTTGAAGGTGTGGCCCGCGACCTCACACGGGGCATCCTTCTTCTCGCCTCCGCCTTGGACCCTTCCTTGGTGATCCTCGGCGGAGGACTTGGCAGTGACCCCCGCTTCCTGGCGATCGCACAAGAAGCAATGGCCGGCGCTGAAGTTACCCCGCCTCGATCCCGTCCCCAACTCAGGACCGCCGTTCTGGGCCCGATCGCCGGGGCGATCGGGGCTGCCGATCTTTCACTGGCACCCCCCGATCAAAACGCGGAACCATCACAGACAAATCCGTCAGTTCAATTCAGATTCCACCATGAAGGAGCAGCGTGA	MTCSLGVDIGGTKIASAVLDRDGTVLDVHTTPTARGGDVILGQVAAIVNGVAAKHDLSGIGIAVPGDVNPSTGIIRSAPNIGWSDLDIAEHVRSFPPAGAAVRVDNDANAAAWAEYRFGGHPRTDSFAMITVGTGLGGGFIINGRLLCGATGAAGEVGHLALVPGGDSCPCGSRGCWERYASGSALHRAAVAAGWDEGSAGHDVLAAAEIHPPARRVVEGVARDLTRGILLLASALDPSLVILGGGLGSDPRFLAIAQEAMAGAEVTPPRSRPQLRTAVLGPIAGAIGAADLSLAPPDQNAEPSQTNPSVQFRFHHEGAA				NA	NA	NA	NA	NA
D1-29_00767	1722	malL_2	COG0366	Oligo-1,6-glucosidase	GTGAGCACCATCGTCGAAACGACAAGAAGCACAGACAACGAACGCATGAAGGACCACAACTGGTGGCGCCAGGCAGCCGTCTACCAGATCTACCCACGCAGCTTCGCCGACTCGAACGGCGACGGCCTGGGCGACATCCGGGGCGTCACTACCAAGGTCCCTTACCTAAAGTCTTTGGGAATCGACGCCGTATGGCTAAGCCCCTTCTACCCCTCTGCGCTGGCTGACGGCGGCTACGACGTGGACGACTACCGCAACGTGGACCCCAAATTGGGCACCTTGGAAGACTTCGACGAGATGGCCGCCGCCCTCCACGATGCCGGCATCAAGCTGATCGTGGACATCGTCCCCAACCACTCCTCGAACCGGCACGAATGGTTCAAGGAAGCACTGGCCGCCCCAAAGGGTTCCCCGGCCCGCGACCGGTACATCTTTCGTGACGGCCACGGTGAAAATGGCGAACTGCCGCCGTCGGACTGGGTTTCAGTGTTCGGCGGCCCCACCTGGGAGCGGATTACCGAGCCGGACGGCACACCGGGACAGTGGTACTTCCACATTTTCGCGAAGGAACAGCCGGACTTCAACTGGGATAACCAAGAAGTCCGCGCGGACTTCCTGAAGACTTTGCGTTTTTGGTCCGACCGTGGCGTGGACGGCTTCCGTATCGACGTCGCCCATGCGCTGACAAAGAACCTCGAGGGCGCGTTGCCCACCAGGGCGGACCTTGAGGTGAAGGGAACGCGTGCAGACGCCTTCAACGATGGCTCCCACCCCTACTGGGACCGCAACGAAGTCCACGACATTTACGCCGAATGGCGCAAGCTCTTTAACGAGTACAACCCTCCGCGCACCGCTGTCGCCGAGGCCTGGGTGCATACTGACCGCCGTGCCCGCTACGCCAGCCCGGAGGGGCTCGGCCAAGCCTTCAACTTCGACCTCCTGCAGGCCGACTTTAACGCGGCCAGATTCCGGACAATCATCACGAAGAACCTCGCCGAGGCTGCAGCGTCAGGTGCCTCATCCACCTGGGTGTTCTCCAACCACGACGTCGTCCGGCACGCCACGCGCTACGGACTCAACGCCACCGCCGCTGCCGCTGAGAGCGGGGTTATGGCCGGCCAGGCTGGAAAACAGTGGCTGCTCGATGGCGGCAGGCAGGAAGACGTCAATGTTGAACTTGGCCTCCGTCGTGCCCGCGCCGCCTCCCTGTTGATGTTCGCCCTGCCCGGATCGGCATACCTGTACCAAGGCGAAGAATTGGGCCTGCAGGAAGTGGGCAGCGAGATACCGGATTCCGAGCGTCAGGACCCGGCCTTTTTCCGCAACAAGGGCGTGGAAATCGGCCGGGACGGCTGCCGTGTTCCGCTGCCATGGACCGCAGAGGGCCCCTCCTTCGGCTTCGGCGACGGTGGCGCCCACCTGCCGCAGCCGGAATGGCTCGCCGCCTACGCCGCCGACAGCCAGGCCGGGATTGATGGATCCACCCTGGAGCTTTACCGTGCCGCACTGAGGCTCCGCCGCGAGCTGCAGGCCGCCGAAGACCTGGAATGGGTCGAGACCGTCAACCCGGAGGTCCTGCACTTCAAACGCCCGGGCGGCTGGCAGTCGATCACCAACTTCGGCGAAACGCCTGCCGACCTTCCGCCAGGAACAGTTCTTGTCAGCAGCGCGCCGCTGGAACAGGGCAAACTGCCGGCCAACACCACAGCATGGCTGCGGTGA	MSTIVETTRSTDNERMKDHNWWRQAAVYQIYPRSFADSNGDGLGDIRGVTTKVPYLKSLGIDAVWLSPFYPSALADGGYDVDDYRNVDPKLGTLEDFDEMAAALHDAGIKLIVDIVPNHSSNRHEWFKEALAAPKGSPARDRYIFRDGHGENGELPPSDWVSVFGGPTWERITEPDGTPGQWYFHIFAKEQPDFNWDNQEVRADFLKTLRFWSDRGVDGFRIDVAHALTKNLEGALPTRADLEVKGTRADAFNDGSHPYWDRNEVHDIYAEWRKLFNEYNPPRTAVAEAWVHTDRRARYASPEGLGQAFNFDLLQADFNAARFRTIITKNLAEAAASGASSTWVFSNHDVVRHATRYGLNATAAAAESGVMAGQAGKQWLLDGGRQEDVNVELGLRRARAASLLMFALPGSAYLYQGEELGLQEVGSEIPDSERQDPAFFRNKGVEIGRDGCRVPLPWTAEGPSFGFGDGGAHLPQPEWLAAYAADSQAGIDGSTLELYRAALRLRRELQAAEDLEWVETVNPEVLHFKRPGGWQSITNFGETPADLPPGTVLVSSAPLEQGKLPANTTAWLR	PGPT0018560_3235	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
D1-29_00768	2718			hypothetical protein	GTGGTCACGGCGTCCACCATGCTGCCAGCCAGCGGCGGTACCTTCATTGCCAACCAGCCTGTCCCTGATCCGGCCGCCCAGCATTCGATCCGCGGCGGCATCAGCGACCAGAATTTCTACTTCGTCATGCCGGACCGTTTCAACAACGGAAGCAAAGCCAACGACGAGGGCGGGCTGGGTCCGGACCCGATGGCGTCCGGATATGATCCAACCCGCAAAGGGTTCTTCAATGGTGGCGACCTGAAGGGCCTGCAGGACCGTCTGGACTACATCCAAGGCTTGGGAACCAACGCCCTGTGGCTCACACCGAGCTTCAAGAACAAGGCAGTCCAGGGCGGCGGGCAGCTGGAGAACAGCTCCGCCGGCTACCACGGTTACTGGGTCACCGACTTCACGCAGATCGACCCGCACATGGGCACCAATGCGGAGCTGAAGGCGCTCATCCAGGCGGCCCATGCCCGCGGGATGAAGGTCTACTTTGACATCATCACCAACCACACCGCGGATGTCATCCAGTATCAGGAAACGTCGTCCGCTCCCTACATTTCAAAGGAGACCGAGCCCTACCGTACTGCCACCGGTGAGGCTTTTGACGACAAGGACTACGCCGGCACGCGGGACTTCCCAGCCCTGGATCCGGCAACATCATTCCCTTACTCCCCGGTGATCCCCGCGGCCGAGCAGGACGTCAAAGTTCCCAGCTGGCTCAACGATTCCACGCTCTACCACAACCGCGGCAACACCAACTTCTCCGGCGAGGACTCGCTCTACGGCGACTTCTTCGGACTGGATGATCTGTTCACGGAAAACCCGAGAGTCGTCAACGGGATGAAGGACATCTACAAGACATGGATCCGGGATTTCGGGATTGACGGCTTCCGCATAGACACCATGAAACACGTCAACGACGAGTTCTGGCAGCAGTTCGGGCCAGAGGTGCTCAGCTACGCCAAAGAGCAGGGCAAGGACGAGTTCTTCATGTTCGGGGAAGTGTTCGACAGCTCCAAAAACGTCCTGTCCAAATTCACCACCAAGAACCGCATCCAGGCAGTTCTTGATTTCGGTTTCCAGGGAGCAGCCCGCGGCTTCGCCTCCCAAGGCGCCAAGGCCACCGGCTTGGCTGACTTCTTCAACGGCGATGACTGGTACACGGACGCCGATTCCAACGTCTACCAGTTGCCCACCTTTCTGGGCAACCACGACATGGGCCGGATCGGCACGTTCATCGCCCAGGACAACGCCGGAGCCCCGGCCGCGGAACTCGTTGAACGTGATGAGCTTGCCCACGAACTGATGTACTTCTCACGCGGAAACCCGGTGGTCTACTACGGCGATGAGCAAGGCTTCACTGGCCCCGGCGGAGACCAGGATTCACGGCAGTCGATGTTCGCCAGCCGGGTCCAGGAGTACCTTGACGACGACCTGCTGGGAACGGGTTCCACGCACGGGACGGACAACTTCGACACCCAACACCCTCTATATCGGAAGATCAGCGAGCTCGCTGCACTCACCGCCAAGCACCCCACACTCCGTGACGGGGCCCAGCAGAACCGCTACGCCGCCGACGGAGCCGGGATATATGCTTTCTCCCGGATCGCTGCCAAGGACCAGCGCGAGTACATCGTGGCCCTGAACAACAGCGAGACCGCCCAAACCGCGGCAATCCCCACCTACGAGGCCAAGCAGCCCTTCGAGCTCGTCTACGGCGACGCTGCCGCTGTGGCCAAAACCGATGGGCAGGCAAACCTCACCGTAACGGTCCCGCCGCTGTCCGCCGTGGTGTATGAAGCGAAAGGGCAGCTCGCGAAGTCCAAGGCGGCGCCCGCCGTCGCACTCAAAAAGCCCGTCATGGCAGCTGGTGACGCGGGTCGCCTTAAGGTGACTGCCGACGTCGACGGTAACTCGTTCTACGAGGTCACCTTCCAGGCGCGGACCCCCGGAGGTGAGTGGCAGGCCATTGGCACTGACGACAACGCTCCGTACCAGGTGTTCCATGACGTGTCTGCGATCGACGCCGGCACTTCGGTAGAGTACCGGGCGGTAGTGCTGGACAACCGCGGGCAAACATCTACTGCTGAGCCGCGCAGTGGTGTTGTGGGCGAGCCCGCCCAGCCGACCACCGTCAGCGTGGCAGGAAACTTCAACACCGAACTTGGCTGTACCGAGGACTGGCAGCCGTCCTGCGAGAAGGCTTTCATGACGTTTGAACCGGTCCACCGGTTGTGGCAGCTGAACGTCCAGAACCTGCCGTCGGGCACGTACGAATTCAAGGCAGCGCTCAATGGGACGCTGGATGAGAACTATGGTGCCGGCGGTGAGCCGGACGGCCCGAACGTCCTGTTCGACCATGCAGGCGGCCCGGTCACGTTCCTGTACGACCACGCCACTAACGTGATAAGCGCTGTCACGGCGGTCCAGCAGCCAGGTGCCGTGTCAGTGGCGGGCAGCCTGAACTCCGAGCTCGGCTGCCCGGGCGACTGGATGCCCGATTGCAGCCAGGCCCAGCTAACGCTGGACCCCTCGGACGGCATCTGGAAACTGCCCATACCGGACCTGCCCGCTGGCAGCTACGAATTCAAGGCCGCCATTGATGGTTCATGGAGCGAGAACTACGGCTTGGGCGGCGCCGCCAACGGCAGCAACATCGCGCTGAACCACGACGGCGGGCCGGTCTCCTTCCAGTATGATCACGCCAGCCACCTCATGACGGTGCGCTAA	MVTASTMLPASGGTFIANQPVPDPAAQHSIRGGISDQNFYFVMPDRFNNGSKANDEGGLGPDPMASGYDPTRKGFFNGGDLKGLQDRLDYIQGLGTNALWLTPSFKNKAVQGGGQLENSSAGYHGYWVTDFTQIDPHMGTNAELKALIQAAHARGMKVYFDIITNHTADVIQYQETSSAPYISKETEPYRTATGEAFDDKDYAGTRDFPALDPATSFPYSPVIPAAEQDVKVPSWLNDSTLYHNRGNTNFSGEDSLYGDFFGLDDLFTENPRVVNGMKDIYKTWIRDFGIDGFRIDTMKHVNDEFWQQFGPEVLSYAKEQGKDEFFMFGEVFDSSKNVLSKFTTKNRIQAVLDFGFQGAARGFASQGAKATGLADFFNGDDWYTDADSNVYQLPTFLGNHDMGRIGTFIAQDNAGAPAAELVERDELAHELMYFSRGNPVVYYGDEQGFTGPGGDQDSRQSMFASRVQEYLDDDLLGTGSTHGTDNFDTQHPLYRKISELAALTAKHPTLRDGAQQNRYAADGAGIYAFSRIAAKDQREYIVALNNSETAQTAAIPTYEAKQPFELVYGDAAAVAKTDGQANLTVTVPPLSAVVYEAKGQLAKSKAAPAVALKKPVMAAGDAGRLKVTADVDGNSFYEVTFQARTPGGEWQAIGTDDNAPYQVFHDVSAIDAGTSVEYRAVVLDNRGQTSTAEPRSGVVGEPAQPTTVSVAGNFNTELGCTEDWQPSCEKAFMTFEPVHRLWQLNVQNLPSGTYEFKAALNGTLDENYGAGGEPDGPNVLFDHAGGPVTFLYDHATNVISAVTAVQQPGAVSVAGSLNSELGCPGDWMPDCSQAQLTLDPSDGIWKLPIPDLPAGSYEFKAAIDGSWSENYGLGGAANGSNIALNHDGGPVSFQYDHASHLMTVR	PGPT0018575_131	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0018575-amyA|malS-K01176	NA	NA
D1-29_00769	1323	tgt		Queuine tRNA-ribosyltransferase	GTGCCAGCCAACTCCGCCCCCGCTTCTGCCGGTCCTTCCGCTTCCTCCCCCGCCGCTGCCTCGTCTGTAACCCGGCCGGGGTTCTCATACCGGGTGGGCACGCGGCTCAGGGAGACCTGCGAGCCGTCAGCTGCCCAGGTCTCTGCCAACGGGGGCGAGTTCCTCGGCCGGACCGGCATCATCAGCACCCCGCACGGTGAGATCCGGACGCCGGCCTTCATCGCCGTCGGAACCAAAGCCACGGTGAAATCCGTCTTGCCGGAGTCCATGGCAGAGCTCGGGGCGCAGGCGCTCCTGGCCAATGCCTACCATCTCTACCTTCAGCCCGGCCCGGAGATCCTGGACGAGGCCGGCGGGCTGGGCGCCTTCATGAACTGGCCGGGCCCGACGTTCACGGATTCAGGCGGTTTCCAGGTGATGAGCCTGGGCTCGGGTTTCAAGAAGGTCATCGATATGAAGTCCGTTGATAATTCGGGTCCGGATGACGCCGTCGCGCCAGGCAAGGAACGCCTGGCCCACGTTGATGATGACGGGGTCTGGTTCAAGTCGCACCTGAACGGGGACCGCCACCGCTTCTCCCCCGAGATTTCCATGCAGGTCCAGCACCAAATCGGCGCGGACATCATGTTTGCCTTTGATGAGCTGACCACGCTGCAAAACTCGCGCGGCTACCAGGAGGAGTCGCTGGAACGGACCCGGCGATGGGCGCTTCGTTGCATCGAGGAGCACGTACGGCTGACGTCGTCCCGGGCGGGAAAGCCCTATCAGGCGCTGTTCGGCGTCATCCAGGGCGCGCAGTACGAGGACCTGCGCCGGAAGGCCTGCCGCGACCTGGGCGCCATGGATTTCGACGGCTACGGCATCGGCGGCGCCCTGGAAAAGGAGAACCTGGGCACCATCGTGCGCTGGTGCAACGAGGAACTCCCGGAGGACCGGCCGCGGCACCTCCTGGGCATCTCCGAGCCCGACGATATCTTCACCGCCATCGAGAACGGGGCCGACACCTTCGACTGCGTTTCCCCCACCCGTGTGGCCCGAAATTCCGCTTTTTACACGCCAACGGGCCGCTACAACTTGTCCGGAGCGAAGTACAAGCGCGACTTTGGCCCACTGCAGGAAGGCTGCGACTGTTACGCCTGCGCCAATTATTCGCGGGCCTACATCCACCACCTGTACAAGGCCAAGGAAATGCTGTCGGCAACGCTGATTTCCATCCACAACGAGCGCTTTGTGGTGAAGATGGTGGACGACGCCCGGCTGGCCATCGAATCCGGCAGCTTCTTCGAGTTCAAGGCCGAGACCCTGGGTCAGTACTACTCCTGA	MPANSAPASAGPSASSPAAASSVTRPGFSYRVGTRLRETCEPSAAQVSANGGEFLGRTGIISTPHGEIRTPAFIAVGTKATVKSVLPESMAELGAQALLANAYHLYLQPGPEILDEAGGLGAFMNWPGPTFTDSGGFQVMSLGSGFKKVIDMKSVDNSGPDDAVAPGKERLAHVDDDGVWFKSHLNGDRHRFSPEISMQVQHQIGADIMFAFDELTTLQNSRGYQEESLERTRRWALRCIEEHVRLTSSRAGKPYQALFGVIQGAQYEDLRRKACRDLGAMDFDGYGIGGALEKENLGTIVRWCNEELPEDRPRHLLGISEPDDIFTAIENGADTFDCVSPTRVARNSAFYTPTGRYNLSGAKYKRDFGPLQEGCDCYACANYSRAYIHHLYKAKEMLSATLISIHNERFVVKMVDDARLAIESGSFFEFKAETLGQYYS				NA	NA	NA	NA	NA
D1-29_00770	726			hypothetical protein	ATGACGAACAATCTGAGCGTGGTGATTAATGCCGACGCGCCGCAGGTGTGGACCATGCTGCGCGAACCGTCCAAGGTAGCCCAGTGGCACGGCTGGGAAGCGGACGACCTGGACGCCGAAATTAAGGAAATCTACTTCTCAAGCGATGTGGTGGAAGCACCGGACCACACGAGCCTGACAACCCATGGCGGCGACGTCTTTGACCTCAAACCCGTACCCGGCGGGACCCAGGTCAGTGTGACGCGTGCGGCTTTGGACCACAATTCCGAATGGGCGGCCTGGGACGAGGACATTACCCAAGGGTGGCTCACCTTCCTGCAGCAGCTGAGATTCGCCCTGGAACGCCATCCGCACGGCAGGCGGCACACGCTGTTCTTCCAGGTTCCCGGCGGACCCGGTTCGGCCATTGAAAAACTTGGCCTCTCGGATGTGCCCAAGCCCGGGGAGAACTATGAGAAGACCCTCCGCACCGGTGAGGAGATTGCGGGCAAGGTCTGGTACCGCAGCAACCACCAGGTGGGCCTGACCGTCCATGACTATGCCGAGCACGGTGACGGTCTGCTGGTCGTTGCCGACCAGCCTGTTAATGACGATGTCAGGCCTGAGGGCGGCTCCATGGTGATCATCTCCACGTATGATCTGGGCGCGTCCAGGCTGGAGTCCATCCGTGCGCTGTGGGAAGGCTGGCTGGCTGAGAACTACCCCACATCCGCTCCGCTGCACTGA	MTNNLSVVINADAPQVWTMLREPSKVAQWHGWEADDLDAEIKEIYFSSDVVEAPDHTSLTTHGGDVFDLKPVPGGTQVSVTRAALDHNSEWAAWDEDITQGWLTFLQQLRFALERHPHGRRHTLFFQVPGGPGSAIEKLGLSDVPKPGENYEKTLRTGEEIAGKVWYRSNHQVGLTVHDYAEHGDGLLVVADQPVNDDVRPEGGSMVIISTYDLGASRLESIRALWEGWLAENYPTSAPLH				NA	NA	NA	NA	NA
D1-29_00771	1086			hypothetical protein	ATGACCGAAACCCCAGCCGCCCGGCACTACAGCGAACAGCAGGCTGGAGCCCTGAAGGCCGGCGATCAGCTCCTCCTTCCAGACGGTGAACGCACCGCCGAGATCCACCAGGTGGACGTTGAACGGGACGATTATGGGGTCCCGGCGCTGGTCCTGGCCAGCCTGACCCGCGGCGGGACATTGCGCATGGCAGCCGGCTCCTCCGTGAGGGTTCTGGACACAGCGCCCGACGCCGTTTCGCGGCTTCCGCTGGGAGCACACCTGCGCGGACAGGACCTTGGTCCGAAGGGCACTGGCGAACCGAACGTGGGTGACCAGAACCCGGTTGACCGGAACGTGGGTGACCAGAATCTCGGTGATCAGGGCGCGGGCGATCACGCCCCGGGTGAGGCACCTGCAATGCCGGCTCCCGCCGTCGTCGTTCCTCCCCCGCCCGCCATTCCGCCGGCGCTGAGCGGCCCCACGGCGGAAGAGCTCGAACTGATCCCCGTCCCGCAGGGGACACCGGAGGCGGTGGTTGCCGCCGTGGCCGACGCCCACCCTGACGCCGTTGGCGTCCTGCTGCTGGCCGACAAACTTGCCAAGGGGATTAACTTCAAATCCGGAAGCTGCCTGAAGGACCTCAGCGACCTGGCCCACGAGCTGTTCATTACGCTGAAGGATCCTGACGGGTCGCTGGCTGTGGCGGATCTGCTCAACGTCCTGCCGTTCGACGGAAACCCGGGCAGGTGGGCGTCAGTGGAAGCGTCGTTGGCGCTGTCGAGCTACATCTGCCGGCAGGACGGGCAGGAGGCCCGGGCTGAAGTCTACGAAAAGCTGCTGCGCGTGCCCGAGACGCAGGAGACTGACCCGTTCAAAGCCCGGATGAATGCCAAGGTCCGCCAGCGTTCCCTGAACGAGCCGAACCTCTATGACAAAGAAATCTTCCGCTCCATCGACAACTCCAACCACGAGGCCGAGCGTGAGTGGCGGCTGCTGCGGCTGGAATCCCTGCTCTTTTTGCGGGCGCACGGCGGCTCCGAGACCATCGGCCTGGGCGAACTCCAGCGCCGGATCAGCAACGAGCTTGAGGCTGTCCGCGCCTGA	MTETPAARHYSEQQAGALKAGDQLLLPDGERTAEIHQVDVERDDYGVPALVLASLTRGGTLRMAAGSSVRVLDTAPDAVSRLPLGAHLRGQDLGPKGTGEPNVGDQNPVDRNVGDQNLGDQGAGDHAPGEAPAMPAPAVVVPPPPAIPPALSGPTAEELELIPVPQGTPEAVVAAVADAHPDAVGVLLLADKLAKGINFKSGSCLKDLSDLAHELFITLKDPDGSLAVADLLNVLPFDGNPGRWASVEASLALSSYICRQDGQEARAEVYEKLLRVPETQETDPFKARMNAKVRQRSLNEPNLYDKEIFRSIDNSNHEAEREWRLLRLESLLFLRAHGGSETIGLGELQRRISNELEAVRA				NA	NA	NA	NA	NA
D1-29_00772	462			hypothetical protein	ATGGTTTACGTGGAAGCGGTGCCGGTCAGGCTGGATCCGCTGGGGTTCGTGAACGAGGTGGGCACACTCCTGCAGGCCGATGAAGACGGGACCATGATCCGTTCGCTGGTGTCGGGCCGGGTCATCTATCGCGAGACCATCCGTGCCGCGCTCCTGCGCCACATGGAAAAGGACCTGGGCCCCCTGGCCTTCCCACAGCTGCCCATCAGCCCGGTGCCGTTTACCGTGGCCGAGTACTTTCCGGCGCCGTCGCAGACCGGGTTCACCGATGATCGCCAACACGCCGTGTCGCTGGCGTATGTCATTCCGGTGACCGGCGAATGCGAGCCCCGCCAGGATGCCCTGGAACTGACGTGGATGACGCCTGAGGAAGTCCTCAGCCCGGACGTCCAGCTCGAATTCAGTGGCGGACGCGGTTCCCTGATCCGGCAAGCACTGGCCTTTGCCGGTGTGGGCTTCTGA	MVYVEAVPVRLDPLGFVNEVGTLLQADEDGTMIRSLVSGRVIYRETIRAALLRHMEKDLGPLAFPQLPISPVPFTVAEYFPAPSQTGFTDDRQHAVSLAYVIPVTGECEPRQDALELTWMTPEEVLSPDVQLEFSGGRGSLIRQALAFAGVGF				NA	NA	NA	NA	NA
D1-29_00773	741			hypothetical protein	ATGCTGCGTGTCCGCCCTGTCCATTTCACGTCCCGGCTGGACCAGTGGGAGCAACTGCTCACTGCCCTGGGCCTGGCGAAAACGGCGGATCATGGCATGTGGCGCGAGTTCGACGCCGGCGTGGGGCGCCTGGCCCTGCACCAGGCCGAGGCAGGCACGGCCGACGACGGAACCACCGTTTTCGGGGTGGAGGTGGGCGACCTTGCCGAGTTCGCCCGGCGGACCAACCTGGCCGCCGAGGACACGGGCACCAGCTCCGCCGAAATCGTCCAGGCTGACCACGGCGAGTCCTGCCGGGTGACAGCGCGGGACGGCTTCAGCTTCCTGGCCGACCCCGCCGCCCGGGGGGAGGACGGCACCTGGGCCACTTCCCGCGGCGCTGACCCGGCCCTCGCCGTCGTCGCCGTCCTGTTCACCGAGGACGCTGCCGCCGCCGCGCAGATGCTTCGGGACATCGGCGGGAGCTTCCGGCCCTCCCCCGATGCCGACGAAACCGCCGACTTCACCGCCAAGAACGGCGGTGTGCTGATGGTGCGTCCCGCTTCCGGACCGTCCCGGGCCGGCCTGGGCTTCGAATACGACGGCGACCTGGACACCTTGGCGGACCGCCTCACGGCAGCTGGGCATGAGGTGCGGATCACCGAGGAGGCGTTCGGCCGCACGCTTCACCTCCCCAACCCCGATGCTGGCGGGTCACCTGCCGCCCATGTGCCGGCCACGCTGTGGATTTCGAAGCGTTGA	MLRVRPVHFTSRLDQWEQLLTALGLAKTADHGMWREFDAGVGRLALHQAEAGTADDGTTVFGVEVGDLAEFARRTNLAAEDTGTSSAEIVQADHGESCRVTARDGFSFLADPAARGEDGTWATSRGADPALAVVAVLFTEDAAAAAQMLRDIGGSFRPSPDADETADFTAKNGGVLMVRPASGPSRAGLGFEYDGDLDTLADRLTAAGHEVRITEEAFGRTLHLPNPDAGGSPAAHVPATLWISKR				NA	NA	NA	NA	NA
D1-29_00774	651			hypothetical protein	ATGCCACGACTTCCAGCAGCGGGCACGGGGCAGAATAGGCCCATGGCCATTGAACTTGAGGAACTGCTGGTGCCTGACGCCGCCGCTTGGCGGTCCTGGCTGGAAGCCAACCATAAAGACAGTCCCGGGGTGTGGCTGGTGCTGCACAAGAAGGGCGGCGACGTCACCGAACTGGACTACGACGCCGCACTGGATGAAGCCCTCTGTTTTGGCTGGATCGACGGACAGGTCAAGAAGCGCGACGCCGGGAGCTACGTCCAGCGGATGACGCGCCGCGGCCCCAAAAGCCGCTGGTCGCTACGGAACGTCGGGCACGTGGCCCGGCTCGAGGCCGCAGGGAAGATGACCGACGCCGGACGGGTCGCCGTCGAAAGCGCGAAAGCCGACGGGCGCTGGGACGCGGCCTATCCGGGACAGGCTGCGGCGGAAGTCCCGGCCGACCTGGCTGCCGCGATCGCTGCGGTCCCGGAGGCGCAGGCGATGTTCGACGTCCTCACGTCCGTGAACCGTTATGCCCTGATCTACCGGACCACCTCGGTGAAGAACCAGGCGCTCCGGGAGCGGAAGATTGCCGCTTTTGTGGAAATGTTGGCCCGTGGCGAGTCGCCCTTCCCGCAGCAAAAGAAGCCTGCCCACTTTGGCGACCCGTGA	MPRLPAAGTGQNRPMAIELEELLVPDAAAWRSWLEANHKDSPGVWLVLHKKGGDVTELDYDAALDEALCFGWIDGQVKKRDAGSYVQRMTRRGPKSRWSLRNVGHVARLEAAGKMTDAGRVAVESAKADGRWDAAYPGQAAAEVPADLAAAIAAVPEAQAMFDVLTSVNRYALIYRTTSVKNQALRERKIAAFVEMLARGESPFPQQKKPAHFGDP				NA	NA	NA	NA	NA
D1-29_00775	1170	fbpC2	COG3842	Fe(3+) ions import ATP-binding protein FbpC 2	GTGACCCATTCCTACACTTCGCGTGGTGCCCCCTCCAGGCTTCCGGAACCACGGATCGCCGCTTCGGTGGAAGCCAGCACCAACAGCCACCTGCAGATTACGGACGCCACCAAGAACTTCGGGTCCCAGGCGGTGCTGAAGGGCGTCAACCTGTCCGTGGCGAAGGGCGGCACAACGGCTATCGTGGGTCCGTCCGGTTCCGGCAAGACAACTCTGCTCCGGCTGATTGCGGGCTTTGAGCACCCAGCCACCGGCAGCATCTCCCTCAACGGCATCAAGGTGGCGGGCGACGGCGTCTGGCTGCCTGCGCACAAACGCCAGGTCGGGTATGTCGCGCAGGACGGCGCGTTGTTCCCGCACCTCTCGGTTGGCCAGAATGTTGCCTTCGGCCTGGACCCAGCCAAGCTTCCGGGTGGCCGCCGCGGTGTTCCCGGCCGGATCACTGAGCTGCTGGAGATGGTGTCCCTTGACCCTGCAATGGCCAAGCGGCGTCCGCACCAGCTTTCAGGCGGCCAGCAGCAGCGGGTCGCCCTGGCCCGGGCGCTGGCCCGGGAACCGGAACTGATGCTGCTGGATGAACCATTCTCAGCCCTGGACGCCGGCCTCCGCGTAGCCACCCGCCGCGCCGTGGCCACGGTCCTGAACAAGGCAGGTGTCACCACCATCCTGGTGACCCACGACCAGTCCGAGGCGCTGTCCTTCGCCGACCAGGTGGCTGTCATGCGCGGCGGCAGACTGGCCCAGATCGGCAACCCGTTTGTGGTGTACACCCGCCCTGCAGACCGAGTTACCGCCGAGTTCCTGGGCGACGCCGTCATCCTGGATGCCTGGATGGAAGGGTCCCTGGCCACCTGCTCCCTGGGCGGCATCCCGGTCCGCCGGCCGCCCGCACAGGGCCGCGTGCAGCTGATGCTGCGCCCCGAGCAGATCCGCATCGCGGAGGACGGCCCCATCCGCGGAGTGGTGGTGGACACGGACTACTTTGGCCCGGAAACCACCGTTCGGCTCAAGCTTGCGGTGCCGCCGGAACTCGCTAAGGCGGACCACCGTTACCCGGGCGGCGGGGAGATCATCACCATCCGGCACTGGAACGCGTCCATCGCGCGGCCCGGGATGGAATTGTGCCTCCGCGTGGTGGGCGAAGCGGTGGCCTTTCCCCTGGACGGCTGA	MTHSYTSRGAPSRLPEPRIAASVEASTNSHLQITDATKNFGSQAVLKGVNLSVAKGGTTAIVGPSGSGKTTLLRLIAGFEHPATGSISLNGIKVAGDGVWLPAHKRQVGYVAQDGALFPHLSVGQNVAFGLDPAKLPGGRRGVPGRITELLEMVSLDPAMAKRRPHQLSGGQQQRVALARALAREPELMLLDEPFSALDAGLRVATRRAVATVLNKAGVTTILVTHDQSEALSFADQVAVMRGGRLAQIGNPFVVYTRPADRVTAEFLGDAVILDAWMEGSLATCSLGGIPVRRPPAQGRVQLMLRPEQIRIAEDGPIRGVVVDTDYFGPETTVRLKLAVPPELAKADHRYPGGGEIITIRHWNASIARPGMELCLRVVGEAVAFPLDG	PGPT0003735_99	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
D1-29_00776	1593			hypothetical protein	GTGACCACTGATCTATCGGCTCCCCCCACCAGGGAGAGCACGACGACGGCGGGCCGGGGCAACAGCCCTCGCCCGCCTTTCGGCGTTTCCGTGGTGTCCATCCTGGCAGTGCTGATCGCACTGTTTTCCCTGGTTCCGCTCGGCTACGTGGTCTACATGACCGTCGCAACCGGGTGGGACACCGCCGTCGAACTGATCTTCCGGCCACGCGTCGGCGAACTGCTGCTCAACACCGTGCTGCTCACGGTGGTCACCGTTCCGCTGTGCCTGATCCTGGGTGTGGGCGGGGCGTGGCTGGTGGAGCGGACCAGGCTGCGGGGCCACAGGATCTGGGCCGTGCTCCTTGCGGCCCCCCTGGCCATTCCCGCTTTTGTGAACAGCTACGCCTGGGTCTCGGCCGTGCCGTCCCTGGAAGGGCTTGGCTCGGGCGTACTGATAGCCACCCTGTCCTATTTTCCGCTCGTCTACATTCCCGCGGCGGCCACCCTCAGCCGGCTGGATCCGGCCATCGAACAGTCTGCCGCTTCCCTGGGGCTTGGCGCGTGGCGGGTCTTCTTCCGTGTGGTGCTCCCCCAGCTCCGGCTTGCCATGACCGGCGGCGCCCTGCTGGTGGGCCTTCACCTGCTGGCCGAATACGGCGCTTTTGCCATGATCCGCTTTGACACGTTCACCACCGCCATCATGGTCCAGTTCCAGTCCACCTTCAACGGCACCGCCGGCAACATGCTGGCCAGTGTGCTCGTCTTTTTCTGCCTGATCCTGCTGGTGCTGGAAGCCCGGGGCCGAGGCTCTGCCCGCTACGCCCGGATCGGCTCCGGCGCTCAGGCCAAGGCGATCCGCCTTCCCCTGCACGCCTACCAGGTTCCGGCCCAGCTCTCGCTGGCTGCGCTGACCGCGCTGGCCTTCGGGCTCCCGCTGTTCCTTGTCCTCCGCTGGACCCTGGCCGGCGGCCCGGCCGTCTGGGTTGCGGACGAATTCATCCCGGCCCTCCTGCAGACCCTCGGATACGGCCTGGCAGGAGCTCTCGTGACCACCATCGTCGCGTTCCCCATGGCCTACCTTGCCGTCCGATACCCCAGCTGGTTCAGCAAGTCCCTTGAGCTCTCCAACTACGTCACCAGCTCCCTGCCCGGCATTGTGGTTGGCCTGGCATTTGTCACGGTCAGCATCCGGCTGGTCCCTGGCCTGTACCAGACTGCCGGGGTGCTGGTGGCGGCGTACGTCCTGCTGTTCCTGCCGCGGGCCCTGGTGAACCTTCGCGCCGGCCTGGCCCAGGCACCCAAGGAACTTGACGAGGCTGCCCAGGCGCTGGGCAAGCCGCCGCTGCTGGCCTTCATCCGTGTGACCCTGCGGCTCACGGCCCCCGCAGCCGCCGGTGGTGCCGCCCTGGTTTTCCTGGCCATCGCCAATGAGCTCACGGCCACGCTGCTGCTGTCCCCCAACGGCACCCGCACGCTGGCCACCGAGTTCTGGAGCAAGAGCAGCGAGATTGACTACTCCGGCGCCGCCCCCTATGCGCTGCTGATGATCCTGCTCTCTGCGCCCATGACCTACCTCCTCTTCCAGCAGTCCAAGAAAGTGGCCGGACAGTGA	MTTDLSAPPTRESTTTAGRGNSPRPPFGVSVVSILAVLIALFSLVPLGYVVYMTVATGWDTAVELIFRPRVGELLLNTVLLTVVTVPLCLILGVGGAWLVERTRLRGHRIWAVLLAAPLAIPAFVNSYAWVSAVPSLEGLGSGVLIATLSYFPLVYIPAAATLSRLDPAIEQSAASLGLGAWRVFFRVVLPQLRLAMTGGALLVGLHLLAEYGAFAMIRFDTFTTAIMVQFQSTFNGTAGNMLASVLVFFCLILLVLEARGRGSARYARIGSGAQAKAIRLPLHAYQVPAQLSLAALTALAFGLPLFLVLRWTLAGGPAVWVADEFIPALLQTLGYGLAGALVTTIVAFPMAYLAVRYPSWFSKSLELSNYVTSSLPGIVVGLAFVTVSIRLVPGLYQTAGVLVAAYVLLFLPRALVNLRAGLAQAPKELDEAAQALGKPPLLAFIRVTLRLTAPAAAGGAALVFLAIANELTATLLLSPNGTRTLATEFWSKSSEIDYSGAAPYALLMILLSAPMTYLLFQQSKKVAGQ	PGPT0003730_4037	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
D1-29_00777	1053	fbpA		Fe(3+)-binding periplasmic protein	ATGAAGATCCGCACCAACGCGCTGGCCGGCATTGCCCTCGCCGCAACTGCAGCCCTCGGACTGACCGCCTGCGGCGGCAGTGCCACTCCGGCAGCCACCGGCACCTCCTCGTCGGACAGTGAAGCCGGCGGGATCACCGTGTACAACGCCCAGCACGAAAGCCTCACCAAGGAATGGATCGAAGCCTTCACGGCCGAGACCGGCATCAAGGTGACCATGCGCCAGGGTTCGGACAGCGAGCTGTCCAACCAGATCATCCAGGAAGGCGCGGCATCGCCGGCCGACGTTTTCCTCACGGAGAACTCCCCCGCGATGACGCAGGTGGAGAACGCCGGGCTGTTCGCTGACGTGGACAAGGCAACCATCGACCAAGTTCCGGCGGAATATCGCCCCTCCACCGGAAAATGGACGGGCATTGCAGCCCGCTCCACGGTCCTGGTCTACGACAAGGCCAAGCTGACCGAGGACAAGCTCCCCAAGTCCATGCTGGACCTGGCCAACCCGGAGTGGAAGGGCAAGTGGGCTGCTTCCCCCACCGGAGCCGACTTCCAGGCCATCATCTCGGCACTGCTTGAGCTCAAGGGCGAGGCTGCCACCGAGGAATGGCTCAAGGGCATGAAGGAAAACTTCAAGGCCTACAAGGGCAACGGCACTGCCATGAAGGCAGTCAACGCCGGCGAAGTTGATGCCGCGCTGATCTACCACTACTACTACTACGGCGACCAGGCCAAGACCGGCGAGAACTCCAAGAACGTCACGCCGTACTACTTCAAGAACCAGGACCCGGGAGCGTTTGTCTCGGTATCCGGAGGCGGGGTCCTGAAGACTTCCAAGAAGGCAGAGGATGCCCAGGCGTTCCTGAAGTTCGTCACGGGAAAGAAGGGCCAGGAAGTGCTGAAGAACGGCACCTCGTTCGAGTACTCCGTCGCGTCTGGCGTTCCGGCCAACGACAAGCTGGTTCCGTTGGTGGAACTGCAGGCCCCCACCGTGGATGCGGCCAAGCTGAACTCCGCAAAGGTCACCGAGCTGATGACCAAGGCAGGACTCCTGTAA	MKIRTNALAGIALAATAALGLTACGGSATPAATGTSSSDSEAGGITVYNAQHESLTKEWIEAFTAETGIKVTMRQGSDSELSNQIIQEGAASPADVFLTENSPAMTQVENAGLFADVDKATIDQVPAEYRPSTGKWTGIAARSTVLVYDKAKLTEDKLPKSMLDLANPEWKGKWAASPTGADFQAIISALLELKGEAATEEWLKGMKENFKAYKGNGTAMKAVNAGEVDAALIYHYYYYGDQAKTGENSKNVTPYYFKNQDPGAFVSVSGGGVLKTSKKAEDAQAFLKFVTGKKGQEVLKNGTSFEYSVASGVPANDKLVPLVELQAPTVDAAKLNSAKVTELMTKAGLL	PGPT0003725_1678	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
D1-29_00778	1269			hypothetical protein	ATGAGCCCGCCGGCCGAACCGCCCCCCACAGACGAATCGCACGCAGACGAATCCAGCACCGACGAATCCCGCACAGACGAATCCCACGCGGACGATTCCCCTGCCGTCACGCCGCCCGTTGATTGGCCTGGCCGTGCCGATGAGGCGGCCCGTGCTGTCACATCGCTCTTCGGCCAGCGGCTCCTGTTCCTGCCGGGCACGCATCTGGGCGCCGTCGTACAGCCCTCCGGCGGACTGAAGAGCCTCTTCCGCCCGTGGCACTACTGGTGGCAGGCGCATTACGTGGACTGCCTGGTCGACGCGGGAAACCGGGAACTCAGCAGGGGGGCCACGCCGGCCGCACGATTCGCGGGCCCCGGCCGCCCCAGCGCCGGACGCCTCGCCTCACACCTGGTCACGGGGATCAGGCTCCGGAATTTCCTCACTTTCGTCAACAGCTACTACGACGACATGGCCTGGCTGGCCCTGGCCACTCTCCGGCTGGAAAGGCTGGCAGAAGAAACCCGCAAACCCGGGCGACGCCGCAACGCCCGGCTCCGCACCATCCTGGCCCGGCAGTTCGATTCAGCGTCCACGGACCACTTGGGCGGCGGCACCTTTTGGAGCAAGAAGCGGGATTTCAAGAACACCCCGGCCACGGCCCCCGTAGCCCTTTTTTACGCCCGCACCGGCGAGCCGGCCAAAGCCCGGGCCCTGCTGGACTGGCTGGGTGCCAGGCTCTTTGATCCCTCACAGGGCCTCTACCTGGACGGCCTGCGCCTGACCGGGACGGGCGAATTCCTCCTGGAAAACGCCATCTACACCTACAACCAGGGCCCTGTCCTCGGGGCTCTCCTGGAGCTCGGCGGCGAGGCCAACCTGGCGCGGGCCGGCACCCTGGTGGAGGCGATCGCGCGCAACCTGACGGTCAAGGCCGCGAACCAAATCCTTCACTGCCACGGAACGGGCGACGGCGGCCTGTTCACCGGGATTCTCTGCCGCTACCTCGCTCTCGCCGCAGCGGATGCCAGGCTTCCGGACAGCGTCCGGGGCACTGCGGCAGGACTCGTCATAGGCACCGCGGACGCGTTCTGGTCAGGCAGGCGGGAGGTTTCACCGGCCGAACCCCTGTCCAGGCACGGCGGGAAGCTGCTCTTTTCATCCCTCCCGCAGGAGCCGGCGACTGCCACCTATCCCGCGGGAGCCGCCGTCGAGCTGTCCACCCAGCTGCAGGCGTGGATGGCGCTGGAGGCGGCGGCAGTGGTGCAGCAGCGCGGGAAAACTAATTAA	MSPPAEPPPTDESHADESSTDESRTDESHADDSPAVTPPVDWPGRADEAARAVTSLFGQRLLFLPGTHLGAVVQPSGGLKSLFRPWHYWWQAHYVDCLVDAGNRELSRGATPAARFAGPGRPSAGRLASHLVTGIRLRNFLTFVNSYYDDMAWLALATLRLERLAEETRKPGRRRNARLRTILARQFDSASTDHLGGGTFWSKKRDFKNTPATAPVALFYARTGEPAKARALLDWLGARLFDPSQGLYLDGLRLTGTGEFLLENAIYTYNQGPVLGALLELGGEANLARAGTLVEAIARNLTVKAANQILHCHGTGDGGLFTGILCRYLALAAADARLPDSVRGTAAGLVIGTADAFWSGRREVSPAEPLSRHGGKLLFSSLPQEPATATYPAGAAVELSTQLQAWMALEAAAVVQQRGKTN				NA	NA	NA	NA	NA
D1-29_00779	813			putative oxidoreductase	ATGGACATCGACGGTACCGTCGCACTGATCACGGGTGGGGCGTCGGGGTTGGGGGCCGCTACAGCAAGGCGCCTGTTCGGCGCCGGAGCCTCAGTGGTACTGATCGATCTGCCATCCTCCGCGGGCGCGGCCTTTGCCGATGAGCTCAATGGACAGGCGCTGAGTGGTGAGCCGTCAGGCTCCCGACGGACGGCCGTTTTTGTCCCCGCGGATGTGACCAGCGAAGCGGAGGTGCAGGCCGCCGTGGACACCGCCGTTGCCTTGGGCCCGCTGCGGATCGTGGTGAACTGCGCAGGCATCGCCACTCCGGGCAAGGTTCTGGGGCGGGACGGCGTACTGCCGCTGGATGCCTTCAGCCGGGTTGTCCAGGTGAATCTCATCGGGACGTTCAATGTGCTGCGCCTCGCGGCGGCGGCCATGGTGGCCACCGAACCTGTTGGCACGGACCTCGGTGGCCAGGAGCGCGGGGTGATCATCAATACGGCCTCCGTGGCCGCGTTTGACGGGCAGATCGGCCAGCCTGCCTATGCCGCCTCCAAGGGGGCCGTGGCGGCAATGACTTTGCCGCTGGCCCGGGAGTTGGCGCGCTCCCTGGTGCGGGTGGTCACCATCGCGCCGGGAATTTTTGAGACACCCATGATGGCCGGGCTCGCGCAGGAAGCCCAGGAATCCCTGGCCAGGCAGGTTCCGCACCCCTCCCGGCTTGGCCGCCCTGCCGAGTATGCCAACCTCCTGGCCCACATCGTGGAGAATGCCATGCTGAACGGGGAGACCATCAGGTTGGACGGCGCCATCCGAATGGGCCCCAAATGA	MDIDGTVALITGGASGLGAATARRLFGAGASVVLIDLPSSAGAAFADELNGQALSGEPSGSRRTAVFVPADVTSEAEVQAAVDTAVALGPLRIVVNCAGIATPGKVLGRDGVLPLDAFSRVVQVNLIGTFNVLRLAAAAMVATEPVGTDLGGQERGVIINTASVAAFDGQIGQPAYAASKGAVAAMTLPLARELARSLVRVVTIAPGIFETPMMAGLAQEAQESLARQVPHPSRLGRPAEYANLLAHIVENAMLNGETIRLDGAIRMGPK	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
D1-29_00780	1236	carC_1	COG1960	Caffeyl-CoA reductase-Etf complex subunit CarC	ATGAATCCGGCGCAGCCGCCCTCCGCAGAGTTGGCCGCGGCGCATGGTGAGGAGCTGCCCACAGCAGACTTTTTCGCCTTCGAATCGCTCCTGAGTGACGGCGAGCGCAACAAGCTGGCCGAACTGCGGGACTTTCTCGCCACGGAGATCGCACCCTACGCCGGGGAATGGTGGAACAAGGCCGAATTTCCGGCGCACATTCTCCCCAAGCTCGCGGCGCTGGAGCTCAGCACACCTGCCCAGCGCGGCTACAGCCACCTGTTCGCCGGCCTGGTCATCGCCGAAATGACCCGCGTGGACACCTCCATTGCTACGTTCTTCCTGGTCCACCATGACCTGTTTGTGGAATCCCTCTACGCGTTCGGTTCCCCGGGCCAGAGGGAACGGCTTCTCGGTGACGCGTCCAACCTGCGCATCACCGGTGCCTTTGCCCTCACCGAACCAGGGCACGGCTCCGACGTTGCCGGCGGCATGGAAACCAGGGCACGGCGGATCTCATCCCGGACAGGAGAGCCCGACGCCGAAGGCGATAGCTGGGTGCTGAACGGCGCCAAGCGCTGGATCGGGAACGGGACGTTCTGCGACTACCTGCTCGTCTGGGCCCGCGACGAGGCGGACGGGGCCGTCCGGGGATTCATCGTGGACGCTTCCCTGCCCGGGGTGAGCCGGAGCCGGATCGAGAACAAGATGGCACTGCGGACCGTCCAGAACGCGGACATTGTCTTTGCGGACGTGCGCGTGGCCGAGGCAGACAGGTTTTCCGGCATCGCGAGTTTTGACGACACCAATCGGCTCCTGCGCGGCTCTCGGATCATGGTGGCCTGGCAGGGGGTGGGCCAGCAGCTGGCCGCGTTCGACGTGGCCCGGCAGTACGCCGTCGAACGCCACCAGTTCGGCCGCCCGCTGGCGAAGTTCCAACTCATCCAGCAGCAACTGGTGACCATGCTGGGCAATACCGTGGCGAGCATGGGGATGATGGTGCGGCTCGCCCAGCTGCAGGAGGACGGCGCGGCCGACATGCCGCAGGTGGCGCTGGCCAAGTCCTACATCAGCGCCCGTATGCGGGAAACCGTGGCGATGGGCCGGTCCATCCTGGGTGGCAACGGCATTGTGACGGAGTATCGGATGGCCAAGATCTTCGCCGATGCCGAGGCCATTTTTACTTATGAGGGCTCGTTTGAGATCAACTCGCTGATCGTGGGGCGGGCGGTGACAGGGGTTTCCGCCATCGTCTGA	MNPAQPPSAELAAAHGEELPTADFFAFESLLSDGERNKLAELRDFLATEIAPYAGEWWNKAEFPAHILPKLAALELSTPAQRGYSHLFAGLVIAEMTRVDTSIATFFLVHHDLFVESLYAFGSPGQRERLLGDASNLRITGAFALTEPGHGSDVAGGMETRARRISSRTGEPDAEGDSWVLNGAKRWIGNGTFCDYLLVWARDEADGAVRGFIVDASLPGVSRSRIENKMALRTVQNADIVFADVRVAEADRFSGIASFDDTNRLLRGSRIMVAWQGVGQQLAAFDVARQYAVERHQFGRPLAKFQLIQQQLVTMLGNTVASMGMMVRLAQLQEDGAADMPQVALAKSYISARMRETVAMGRSILGGNGIVTEYRMAKIFADAEAIFTYEGSFEINSLIVGRAVTGVSAIV	PGPT0021815_480	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
D1-29_00781	852			hypothetical protein	ATGAGCACACCCGCAGCAGCCCAGCTGGAGCGATGGCAACGCTTCCGCAGCAACCGGGACAAGGCACTGGCCACCCCGCACGGCTGGCTCACCCTCACGTCGTTCCAGTGGCTGGACAGCGAGCCATCCGCCGCCGAAGCCGCCCCCGGCCTCTGGTCAACGGACGGCTCGACGGCGGCACTCACCGCCGTGCCGCAGGACGGGCTGACGTTCGTGGAAACCGGCGAACCGGTGGACGGCACGGTCACGGCACGGCTGGCCGACGAGGAGTCCCTGATGTGGGTGCAGTTTGACGGCGCGGACGGACAGCCGGTGGTGGTGGAACTGGCTATGCGGGCCGGCCGGTACGCCATCCGCACCCGGGATTCCGGCTCACCGGTGCTGACGGAGTTCGACGGCGTCCCCACCTTCGACTACAACCCGGACCTGGTGATCGAGGCCAGCTTCCGCCCCTATCCTGAACCCGTGGACGTCCCGATCGGTACCGCAAACCCGCTGGTGGATGGCGTCCACCGGTCTGTGGGCGAACTGGTGTTCCGGCTGCCCGGCAAAGACCACGAATTCCATCTGCAGGCCGAGGAGGAAAAACTCGGCGCCCTGACGGTCACGTTCCACGACGAAACCAACGGATCCGGTCCGCCCGAACAAGCAACGGCCGAATGGCGCAAGGTATCCACGCCCCGGCCCCGCGTCGATCCCTCCGGAAACGCGTATGTGGTTCTGGACTTCAACCGGGCCATCAACTACCCCAGCGCCTTTACGCCCTATGGAACCTGCCCCATGCCGGTGAAGAACAACAGCCTTGACGCCAGGATCGAGGCCGGCGAGAAGATGCCCGGGCCCGCGGACTGA	MSTPAAAQLERWQRFRSNRDKALATPHGWLTLTSFQWLDSEPSAAEAAPGLWSTDGSTAALTAVPQDGLTFVETGEPVDGTVTARLADEESLMWVQFDGADGQPVVVELAMRAGRYAIRTRDSGSPVLTEFDGVPTFDYNPDLVIEASFRPYPEPVDVPIGTANPLVDGVHRSVGELVFRLPGKDHEFHLQAEEEKLGALTVTFHDETNGSGPPEQATAEWRKVSTPRPRVDPSGNAYVVLDFNRAINYPSAFTPYGTCPMPVKNNSLDARIEAGEKMPGPAD				NA	NA	NA	NA	NA
D1-29_00782	354			hypothetical protein	ATGAAGATCGCCATCCTTGGCACGGGAACGGTAGGGCGGACATTGGCCCCTGCATTCTCGGCACTGGGCCACACCGTTGTCCTGGGGACCCGCGACCCGCAGGCGACCTTTGCCCGGACCCGCCCTAACGCCGTCGGTACCCCGCCGTTTAGCGAATGGCACAGCAGGAACCAGCACATCCCGCTGGAGACGTTTGCGGATGCTGCGGCCCAGGCGGAACTGGTGGTTAACGCGACCGACGGCGCGAGGTCACTCAGCGCGCTTGGCTCGGCCCGCTCAGCTAACCTGTCCGGCAAAGTCCTGATGGACGTTTCCAACCCACTGGACTTTCCCAGGGCACGCCGCCGGTCCTGA	MKIAILGTGTVGRTLAPAFSALGHTVVLGTRDPQATFARTRPNAVGTPPFSEWHSRNQHIPLETFADAAAQAELVVNATDGARSLSALGSARSANLSGKVLMDVSNPLDFPRARRRS				NA	NA	NA	NA	NA
D1-29_00783	267			hypothetical protein	GTGGTGAAAACCCTCAACACCATGAACGCGGGGCTCATGGCTGATCCCGGGCGGCTGGCGGGCGGGGACCATTCGGTGTTCGTGTCCGGAGACGACCCCGGGGCCAAACAGACGGTGGCTGAGCTGCTTGCGGCATTGGGGCACCGGGACATCATCGACCTCGGCGATGTCACTAGTGCCCGCGGTGCCGAGATGATGCTGCCCGTCTGGCTGCGGCTGTGGTCAACGCTGGGGACGGCTGATTTCAACTTCAAGATCGTCCGCTGA	MVKTLNTMNAGLMADPGRLAGGDHSVFVSGDDPGAKQTVAELLAALGHRDIIDLGDVTSARGAEMMLPVWLRLWSTLGTADFNFKIVR				NA	NA	NA	NA	NA
D1-29_00784	339			hypothetical protein	GTGAACGACGTCCCTCAGCATGATGAACTTCCCTTGCCCGACTACGATCACCTTCCGACGGGGACGCTGGCCTCGCGGATCACAGGACTGAACGAAGCGGACCTGACGAAAGTGCTGGCCTACGAACGGGCACACGGGAACAGGCTTCCTGTTGTGCAGATTCTGGAGCACCGGCTTGATGCTGTGCAAAACGGTGCTGAGCCCAGCGGTCCAACCGTCCCACCTACCCCTGAGATGACTCAAAGCCAGCACGGGTCACCGGTATCACCTGCAACGTCAGGGCCGCCCGTCAATCCCCCGTCCCAAGGCGACCCAACAAATCCCTCCCAACCACGCTAG	MNDVPQHDELPLPDYDHLPTGTLASRITGLNEADLTKVLAYERAHGNRLPVVQILEHRLDAVQNGAEPSGPTVPPTPEMTQSQHGSPVSPATSGPPVNPPSQGDPTNPSQPR				NA	NA	NA	NA	NA
D1-29_00785	297			hypothetical protein	ATGACTACAGAACCGACGGAGAGCATCGACACCAACGACGGCGACGGCACCGCACCGGTCAAAGACGGTCTCAGTGGGAGGGTGGAGCCACTCGCCCGTGAAGCCGTTGACGCCGTCGGGCCGGAAGCGGGTGCCGAACCCGGCAGCGCGAACGATTCCCGGGCCGAGACGGAAAACAGCAGCGGCAGCCCCGACGACGTCGAAGGCCTCAACAAGGCCGCGGGACCGGCACAGGAATCCAACGACCAGGCGGCGGACAGCCGTTCCCTGACCACTGACACCAGCCCCAGCGACTAG	MTTEPTESIDTNDGDGTAPVKDGLSGRVEPLAREAVDAVGPEAGAEPGSANDSRAETENSSGSPDDVEGLNKAAGPAQESNDQAADSRSLTTDTSPSD				NA	NA	NA	NA	NA
D1-29_00786	2820	ppc	COG2352	Phosphoenolpyruvate carboxylase	ATGGCTGACACTGCAATCAATTCCGGAACTGACCTCGCCTCCGAGTTGAGGGCCGATGTCCGGCGCGTCTCCACGCTGCTTGGCGAATCTCTGGTCCGCCAGCACGGGCCCGAGCTCCTGGACCTGGTGGAGCAGGTTCGCCTCCTCACCAAGGAATCCAAGGAAGCCGCCCGTGGTGGTGCGCACGCCACCGGCCCGTGGAGCGCGCACGACGTCGTTGCCCAGGTTCGCGAGCTCCTGGGGTCCCTGCCCATTGAGCAGGCCACCGACCTGGTCCGCGCCTTCGCCTTCTACTTCCACCTCGCCAACGCCGCCGAGCAGGTCCACCGGGTCCGCGGCCTGAGGACCAGGCAGGAGAAGGACGGCTGGCTGGCCAAGGCTGTCACGGACATCGCCGGGCAGGCCGGGCCCGCTGTGCTGCAGGAAGTGGTAAACGGGCTGGATGTCCGCCCCATTTTCACCGCGCACCCCACGGAGGCTTCCCGGCGTTCGGTGCTGGACAAAATCCGCAAGCTCTCCGACGTGCTGGCACAGCCCACACAGGAAGGCACCACCGCCCGCCGCCGGCAGGACCGCCAGCTCTCGGAAATCATCGACCAGATGTGGCAGACCGACGAACTCCGTCAGGTCCGCCCCACGCCTGTGGACGAGGCCCGCAACGCCATTTACTACCTGGGCAGCATCCTCACCGATGCCATGCCGGAGATGCTGACGGAGCTGTCTGAGCTGCTGGGCGAGCACGGCGTAAGCCTGGCGTCAAAGAACGCGCCCATCCGCTTTGGTTCCTGGATTGGCGGGGACCGGGACGGCAACCCCAACGTCACTGCCGCGGTCACCCGGGAAATCCTGCAGATCCAGAACCAGCACGCGGTACGGATCAGCATCGGCATGATCGATGAACTCATCTCCGTCCTGTCCAACTCCACTGCGCTGGCCGGCGCTGACCAGGAACTGCTGGACTCCATCGACGCCGACCTCAAAAAGCTGCCGGGCCTGGACCGCCGCGTGCTGGAGCTCAATGCGCAGGAGCCCTACCGGCTGAAGCTGACGTGCGTCAAGGCCAAGCTGATCAACACCGGCAAGCGCGTGGCAACAGGTTCCTCCCACGAGCACGGCAGGGACTACAGCGGCACCGACGAACTCCTGGCCGACCTGGAACTGGTGGAACTTTCCCTTCGAAACCACTCGGCGTCGCTGGTTGCGGACGGAGCCCTGGCACGCGTCCGCCGGGCGGTAGCCTCGTTCGGCCTGCACCTGGCCACGCTGGACATCCGCGAGCATGCAGACCACCACCATGACGCCGTCGGCCAGCTGATGGACAGGCTGGGCGGCCCCGGCCTCCGCTATGCGGAACTGAGCCGCGGGGAGCGCCTGGAGGTGCTGGGGTCCGAGCTTGCCTCACGCCGGCCGCTGTCCGGGCACCCGATCAAGCTCGACGGCGTTGCTGACGGCACGTACGACGTCTTCCGTGAGATCCGGCGCGCCCTGCGCACCTACGGCCCGGATGTCATCGAGACCTACATCATTTCCATGACGCGCGGAGCGGACGATGTCCTGGCGGCCGCTGTCCTGGCCCGCGAGGCCGGGCTGGTGAACCTCTTCGGGGAAGCTCCTTACGCCAAGATCGGGTTTGCGCCGCTGCTGGAGACGGTGGAGGAGCTCCGGGCGTCAGCCGAGATCGTGGACCAGCTGCTGTCCGATCCTTCCTACCGGGAGCTGGTGCGTCTGCGCGGTGACATCCAGGAAGTCATGCTGGGCTACTCGGACTCCAACAAGGAATCCGGTGTCATGACCAGCCAGTGGGAAATCCACAAGACCCAGCGGAAGCTGCGTGATGTCGCGGCCAAGCACGGCGTCCGGGTGCGCCTCTTCCACGGCCGCGGCGGTTCCGTGGGCCGCGGCGGCGGACCCACCTACGACGCGATCATGGCCCAGCCCAACGGCGTGCTCGAAGGTGAAATCAAATTCACCGAACAGGGCGAAGTCATCTCGGACAAGTATTCGCTGCCGGAGCTTGCCCGCGAGAACCTGGAGCTTTCCCTCGCGGCCGTCCTCCAGGGCTCGGCCCTGCACCGCAGCCCGCGTACCTCCGAGGACCAGCGCGAACGCTACGGCCACGTGATGGAGACCATTTCGGACGGAGCCTTTGACCGGTACCGGAAGCTGATTGACCATCCGGACCTGCCGGCCTATTTCCTGGCATCCACCCCGGTGGAGCAGCTGGGGTCCCTGAACATCGGTTCCCGGCCGTCCAAGCGCCCGGACTCCGGGGCAGGCCTCGGTGGCCTGCGCGCCATACCCTGGGTGTTCGGCTGGACCCAGTCCCGGCAGATCGTCCCGGGTTGGTTCGGTGTGGGATCAGGGCTGAAGGCTGCCCGCGAGGCCGGGCACTCCGCCCAGCTGGTGGAAATGATGGAGAACTGGCACTTCTTCCGCTCGGTGCTCTCCAACGTGGAGATGACGCTGGCCAAGACAGACCTGGACATCGCCGGCTACTACGTTTCCACCCTGGTCCCCGAGGAGCTGCACCACATCTTCCGGACCATCCGCGCAGAGTATGAACTCACGGTGGCGGAAATCCAGAACCTCACCGGCGAGAACCTGCTCCTGGATGCCCAGCCAACGCTTAAGCGCTCGCTGGAGATCCGTGACCAGTATCTTGACCCCATCAGCTACCTGCAGGTGGAACTGCTCCGCCGCGTGCGGGCCGAGGGTGCAGGGGACAGCAGCATCAGCGGGGCGGAGATCAACGAACGGCTCCAGCGCGCCATGCTCATCACCGTCAACGGAGTGGCAGCAGGCCTGCGGAACACCGGGTAA	MADTAINSGTDLASELRADVRRVSTLLGESLVRQHGPELLDLVEQVRLLTKESKEAARGGAHATGPWSAHDVVAQVRELLGSLPIEQATDLVRAFAFYFHLANAAEQVHRVRGLRTRQEKDGWLAKAVTDIAGQAGPAVLQEVVNGLDVRPIFTAHPTEASRRSVLDKIRKLSDVLAQPTQEGTTARRRQDRQLSEIIDQMWQTDELRQVRPTPVDEARNAIYYLGSILTDAMPEMLTELSELLGEHGVSLASKNAPIRFGSWIGGDRDGNPNVTAAVTREILQIQNQHAVRISIGMIDELISVLSNSTALAGADQELLDSIDADLKKLPGLDRRVLELNAQEPYRLKLTCVKAKLINTGKRVATGSSHEHGRDYSGTDELLADLELVELSLRNHSASLVADGALARVRRAVASFGLHLATLDIREHADHHHDAVGQLMDRLGGPGLRYAELSRGERLEVLGSELASRRPLSGHPIKLDGVADGTYDVFREIRRALRTYGPDVIETYIISMTRGADDVLAAAVLAREAGLVNLFGEAPYAKIGFAPLLETVEELRASAEIVDQLLSDPSYRELVRLRGDIQEVMLGYSDSNKESGVMTSQWEIHKTQRKLRDVAAKHGVRVRLFHGRGGSVGRGGGPTYDAIMAQPNGVLEGEIKFTEQGEVISDKYSLPELARENLELSLAAVLQGSALHRSPRTSEDQRERYGHVMETISDGAFDRYRKLIDHPDLPAYFLASTPVEQLGSLNIGSRPSKRPDSGAGLGGLRAIPWVFGWTQSRQIVPGWFGVGSGLKAAREAGHSAQLVEMMENWHFFRSVLSNVEMTLAKTDLDIAGYYVSTLVPEELHHIFRTIRAEYELTVAEIQNLTGENLLLDAQPTLKRSLEIRDQYLDPISYLQVELLRRVRAEGAGDSSISGAEINERLQRAMLITVNGVAAGLRNTG	PGPT0001165_1015	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-ALTERNATIVE_PAHTWAYS	CO2_FIXATION-PHOSPHOENOLPYRUVATE_CARBOXYLASE_BIOSYNTHESIS,PGPT0001165-ppc-K01595	NA	NA
D1-29_00787	306			hypothetical protein	ATGCCTTCGTTCCAGACCCGCCTGAAGATCACCGGTTTGAAGCCGGGCAACCCGCCGGAAGCGGTGATGGCCGCCGCCGTGGAGGCCCTGGAGACCCGGCACCACGTGGAGGCAAACCAGCTGGAGATCGCCGGCGGCGTTCCCCAGTTGAACCTGCGGTTCCTCGTGGAACCAAGCGAATACAGCGGTGAGAACCGGCAGGCGCAGGAATCGGCAGCGATGGTGCGCGACGCCGTCGAACGCGTTGCGCTGACCGGCTCGCTGACCGTCCTGCGGCGCAGCCGCGGCCGCTGGGCGCCGGTCTAG	MPSFQTRLKITGLKPGNPPEAVMAAAVEALETRHHVEANQLEIAGGVPQLNLRFLVEPSEYSGENRQAQESAAMVRDAVERVALTGSLTVLRRSRGRWAPV				NA	NA	NA	NA	NA
D1-29_00788	663			hypothetical protein	GTGCGGTACCTTGTGGCCATGGACTTTGGCAACGCCCACAGCTGGGGGGCGGCGATCTATTTCTGGATCATCCCCCTTGTTCTCGGCGATGCCATCTTCCCGGCAATCCCCTCTGAAATGGCGGTAATCACGGGCGGGGCGCTGTCCGCCGACGGCCGCGCCAACGTGTTCCTGGTGGGAGCAATATCCGCGTTTGCCTCCTGGCTGGGCGACATGGTGGTGTTCCAGCTGTTCAAGCGCCGGCTCAGCCACGTGCTGGACCGCTGGCGCTGGGGCCGGAAAGTGCACAGCGGGATCCACCAGGCCACCGCCAAGGCCGGACGTTCCTCCACCTACGGGACCATCATCGGCGCAAGGTTCATCCCGGGCGGGAGGCTGGCGACGTCAGCGGCGGCAGGGATCGCGGATGTTTCGGTCCGCGGGTTCAGCCTGTGCGCCGGGCTCGGTGCCGTGCTGTGGGCCAGCTGGCTGGTGGGCCTGGGCTACTTCACGGGGTCCGCCACAAAGCTGCCTTTCTGGGCAAGCTCTCTGATCGGGGTGGCACTGGGGCTGGTGATCGGGATCATCGTCGGCATTATTGTCACCCGCCGGCGCGGCAACCGCTCGCCAGTAGATGAACCCGGCCCCGCTGAACAGGGAAGTCCGGAACCGGGCACAGGTTAG	MRYLVAMDFGNAHSWGAAIYFWIIPLVLGDAIFPAIPSEMAVITGGALSADGRANVFLVGAISAFASWLGDMVVFQLFKRRLSHVLDRWRWGRKVHSGIHQATAKAGRSSTYGTIIGARFIPGGRLATSAAAGIADVSVRGFSLCAGLGAVLWASWLVGLGYFTGSATKLPFWASSLIGVALGLVIGIIVGIIVTRRRGNRSPVDEPGPAEQGSPEPGTG	PGPT0004890_2765	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975	NA	NA
D1-29_00789	531	ymdB	COG2110	O-acetyl-ADP-ribose deacetylase	ATGCGAATCCGCATTCTCCAGGACGACATCACCGTCCGCGCCGTGGATGCGGTGGTGAACGCTGCGAATTCGTCGCTGCTGGGCGGCGGCGGCGTCGACGGTGCCATCCACCGGGCGGCCGGGCCCGAGCTGCTGGAGGCCTGCCGCGAACTGCGCGCTACGAGCTTGCCGAACGGTCTGCCGGTGGGCGCCGCGGTGGCCACTCCCGGCTTCCTGCTCCCGGCGCGGTGGGTGATCCATACCGTCGGGCCCAACCGCCATGCCGGGCAGACGAACCCGGCGCTGCTAATTTCCTGCTTCAGTGAAAGCCTCCGGGTGGCGGATGCCCTGACAGCCGGTTCCATCGCTTTTCCGGCGGTGGGCGGCGGTGTCTACGGATGGCACGGCCGGCAGGTGGCGGAGGCAGCCTTCGACGCCGTCAACGGCTTTACTGCCTCCCATCCGGACAGCACAGTGGAGTTGGTGGAGTTTGTGTTGTTCGGCCCTGAGATGGAGGAGACGTTCAAGGCTGTGTTTGAGCAGCCTCGCTGA	MRIRILQDDITVRAVDAVVNAANSSLLGGGGVDGAIHRAAGPELLEACRELRATSLPNGLPVGAAVATPGFLLPARWVIHTVGPNRHAGQTNPALLISCFSESLRVADALTAGSIAFPAVGGGVYGWHGRQVAEAAFDAVNGFTASHPDSTVELVEFVLFGPEMEETFKAVFEQPR	PGPT0027680_1581	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-darG-darT_TOXIN-ANTITOXIN_SYSTEM,PGPT0027680-antitoxin_darG-K23518	NA	NA
D1-29_00790	969			hypothetical protein	ATGCAATCCCCCCTCCCCGTGCGCGACGGCGTTAATGCCACCCGCCTGCGCCTGCCGGACGAGGGGCCGTGGAGCACCGCCATGGACTACATGATGCACCGCTGGGGCCACATCGATCCGCAGGGCATCGAGGACAGGTTCGACGCCGGCGAGATCGTGGGTGAGGGCGGCGTGCTGCTGGACCGCGCCACCAGGCTGCAGGACCACACCTTCATTTGGTACTACCGAAGCCTGCCGCCGGAACCCCGGATTCCGGTGGAGCTGTCCATTCTCCACCAGGACGAGCACCTCCTGGTGGTGGACAAACCGCATTTCCTGCCCACCACCCCGGGCGGCACCTACATCCAGGAATCGGCCCTGGTGCGGCTGCGGAACCAGCTGGAGCTGCCGGACCTGATCCCCATGCACCGGCTGGACCGGATGACCGCAGGCATCCTGCTCCTGTCCACCAACCCCGAGACGCGCGGAAAGTACCAGGTGCTCTTCGAGAAGCGACAGGTGCAGAAGGAGTACGAGTGCGTCTCCGCCGCGGAGCCCGCTGCTGGTCACGCCGCCGTCGACTTTCCGGTGGTGGTGCGGAACCGGATGACCAAGTCCCGCAGCTACCTGCTCGCCGAGGTCATTGAGGGCGAACCGAACGCGGAAACCCGCATCGATCTGATCAGGACGTTCGACGGCGGCGCTTCCGCGGCTGCCCTGGCGCACCGCGGTGCAGCCCGCCACGCGCTGTACCGGCTGGAGCCGCACTCCGGGAAAACCCATCAGCTTCGGGTTCATATGGCCTCGCTCGGCCTGGGCATTGTGAACGACTCGTTCTACCCAGACCTGCTGGACAAAGCTCCGGACGACTACAGCAAGCCTTTACAGCTCCTGGCCCGCGGCATCCGCTTTGTGGACCCCATCTCGGGCAAGCCGGTGGAGTACCGCAGCCAGCTTGAGCTCAGCGAGGCTGCTCAAACACAGCCTTGA	MQSPLPVRDGVNATRLRLPDEGPWSTAMDYMMHRWGHIDPQGIEDRFDAGEIVGEGGVLLDRATRLQDHTFIWYYRSLPPEPRIPVELSILHQDEHLLVVDKPHFLPTTPGGTYIQESALVRLRNQLELPDLIPMHRLDRMTAGILLLSTNPETRGKYQVLFEKRQVQKEYECVSAAEPAAGHAAVDFPVVVRNRMTKSRSYLLAEVIEGEPNAETRIDLIRTFDGGASAAALAHRGAARHALYRLEPHSGKTHQLRVHMASLGLGIVNDSFYPDLLDKAPDDYSKPLQLLARGIRFVDPISGKPVEYRSQLELSEAAQTQP				NA	NA	NA	NA	NA
D1-29_00791	1521	hisC_1		Histidinol-phosphate aminotransferase	ATGCCCGGCACCCTAAACTCCCCAGCCTTGGCCCGTCTCCTGGGTAAGTGGCACCTCGGCGCCGCTCCCGCCTACCGCGAACTGGCCGACGTCGTACGCCTCCTGATCCTGGACGGAAGAGTTGCACTGGACACCGCCCTCCCCAGCGAACGGTCATTGTCCGACACGCTCGGCGTCAGCCGGACTACTGTTACGGCCGCGTATGCCCATCTCCGCGAACAGGGCTTCCTCAGCAGCGGCCAGGGCAGCCGGGGACGCACCCGGATCCCCCGGCTGACGCCCCTGCGGCCCACCTCGCCGGCGTATGGGGAGCTTCCGGGCCTTGGAAACGCAGGACCCGGTCTGGCAGCGCCTGGTCTCACGGCGCCGGACGGACTGATCGACCTGGCGTATGCGGCGCTTCCCGCTAGCGGCGAGGTGGTTCACCGCGCCTTCGCAGCGGCCCTGACCGAACTGCCGGCCCTGCTGCCGGGATTTGGGTACGACGCCATGGGCCTGCTGCCGCTCAGGGAGGCCATCGCGGAGCGCTACACCGCTGCAGGAGTTGCAACGGATACAACACAAATCATGGTGACATCAGGAGCCCAGCATGCTTTGAACATCGTCATCCGGGCTTTGACGGAACGGCAGGACAAAATCCTGGTGGAGCATCCGAGCTACCCCAACGCGCTGGACGCCATCCGCGCGGCCGGTTGCCGTCCCGTCCCTGTGGCGTTCGTGGGCCAGGCCGCCGGGGGAAGCCAGGTGCCGGCCTGGGATATGCCGGCACTCCAGGCGGCCCTGATGCAGCAGCGGCCCAGGATCGCCTATGTAGTGCCGGATTTCCACAATCCCACCGGCCAGTTCATGCCTGATAGCCAACGGCGTGAACTGGTCCGAGCGGCAACAGCTGCCGGAACGGTGCTGGTGGTGGATGAAACACTCCGGGAGTTGAATCTCGACGGCGCCGCCACCACTCCGGTGGCAGCCTTCAGTCCCGCCGTGGTAACCATCGGCTCGCTCAGCAAATCCCATTGGGGCGGCCTTCGCACAGGCTGGATCCGGGCCTCGGAGTCCCTCATCCATCGCTTTGCAGCTGCCCGGACAACCCTGGACCTTGGCGGTCCCGTCATGGAGCAGCTGGCGGCGGCACACCTGGTCCGCGCCTTGGACGAGCCGCTGCCGGCCAGGCTTGATTCCCTCCGCGACGGCCGCTCGGCATTGCGGGAGCTGCTGGGCAGGCACCTGCCGGAATGGGTAACTGCGCGGCCCGCCGGTGGCCTGTCCGTCTGGTGCAAGTTGCCTGGCCCCATCAGCACGGCATTGACCGTAATTGCTCCCGACTTTGGCATCAGGCTGGCTGCCGGGCCGCGCTTCGGCATCGGAGGGGCCTTCGAACGCTACCTCCGCGTGCCCTTCACGTTGCCTCCTGACCAGCTCGAAACGGCGGTCCTGGCCCTGCGGCAGGCCCAGGACAGGCTCGACGCCGCCCCGCAGCTCCGTCGCACCCTCAAGACTGCCCCTGCCGTGGCTATCGCATGA	MPGTLNSPALARLLGKWHLGAAPAYRELADVVRLLILDGRVALDTALPSERSLSDTLGVSRTTVTAAYAHLREQGFLSSGQGSRGRTRIPRLTPLRPTSPAYGELPGLGNAGPGLAAPGLTAPDGLIDLAYAALPASGEVVHRAFAAALTELPALLPGFGYDAMGLLPLREAIAERYTAAGVATDTTQIMVTSGAQHALNIVIRALTERQDKILVEHPSYPNALDAIRAAGCRPVPVAFVGQAAGGSQVPAWDMPALQAALMQQRPRIAYVVPDFHNPTGQFMPDSQRRELVRAATAAGTVLVVDETLRELNLDGAATTPVAAFSPAVVTIGSLSKSHWGGLRTGWIRASESLIHRFAAARTTLDLGGPVMEQLAAAHLVRALDEPLPARLDSLRDGRSALRELLGRHLPEWVTARPAGGLSVWCKLPGPISTALTVIAPDFGIRLAAGPRFGIGGAFERYLRVPFTLPPDQLETAVLALRQAQDRLDAAPQLRRTLKTAPAVAIA				NA	NA	NA	NA	NA
D1-29_00792	714			hypothetical protein	ATGATCCCTCGCAGACTCGTCCAGCTCTTTATCGGCCTCGCCATGTACGGCATCTCCCTTGCCATTTTCATTCGAGCGGGCCTCGGACTGGATCCCTGGGACGTATTTCATCAGGGCCTGGCGGAAAAGACAGGGCTCAGCATCGGCGTGGTAGTGATCATCGTGAGCTTCCTGGTGCTGCTGCTTTGGATCCCGCTGCGGCAATGGCCCGGGTTTGGCACGCTCTGCAACGCGGTACTGGTCGGGGTGTTCGCCGACATTGCCCTGGCCCTGATCCCGGAGGTGTCCCACCTGGGCGGCCAGATCGGAATGCTGGCCGGTGCCGTGCTGCTCAACGGAATCGCCTCGGCCTGCTACATCGGCGCCCGCTTCGGTCCCGGCGCCCGCGATGGGCTCATGACAGGCCTGGCCCGCCGCACCGGCTGGTCGGTTCGGATATCACGCACGCTGATCGAAGTGGTGGTGCTGGGTGCAGGATGGCTCCTCGGCGGTTCGGTGGGCGTTGGCACAGTCGTATACGCGCTCGCCATTGGTCCCTTGGTGCAGCTGCTGCTGCCGTACTTTATGGTTCCGGCTGCTGCTCCCGTTGACGTACCTGAGGCTGACGCTCTAGGGGACGGATCCTCTGACACCGAGCCCGGCAGCGAGGCCCTCTCCGCCAGCCGTGCCACCTCTTCAGGTTCTCCCCGCGGCGCAGGCGGATCACCCTCATGA	MIPRRLVQLFIGLAMYGISLAIFIRAGLGLDPWDVFHQGLAEKTGLSIGVVVIIVSFLVLLLWIPLRQWPGFGTLCNAVLVGVFADIALALIPEVSHLGGQIGMLAGAVLLNGIASACYIGARFGPGARDGLMTGLARRTGWSVRISRTLIEVVVLGAGWLLGGSVGVGTVVYALAIGPLVQLLLPYFMVPAAAPVDVPEADALGDGSSDTEPGSEALSASRATSSGSPRGAGGSPS	PGPT0026395_859	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-SURFACE_PROTEIN,PGPT0026395-yczE|yyaS-K07149	NA	NA
D1-29_00793	1575	alsT	COG1115	Amino-acid carrier protein AlsT	TTGAGCACAGTGAGAACGATGCAAGCGATACCCATGACTGTCACCGACGACGTCGGCTGGCTGGCCTCAGTCGAAGAATCGATTGATGCAGTCTTCCGCCCCATCGCCGACGTTTTTTCGTCCATTGTCTTTTTCCCGATCACGATCGGTGAGGTGAGCTTTCCGGCAGTGGTCGCCTGGCTGATAGCCGCGGGCGTGATCATCAGCATCTATTTCGGCCTCCCCCAGTTCCGTGGGCTCAAAGTCTCCTATGAGGTAATCCGGGGCCGTTACTCGGCAAAGGACGATCCGGGTGAGGTGCCGCATTTCCAGGCCCTCACCTCCGCCCTCTCCGGAACCGTTGGCCTTGGCAACATCGCCGGCGTGGGCGCGGCCATGGCCCTTGGCGGGCCGGGTGCCACTTTCTGGATGATCCTTGCCGGCTTGCTCGGCATGGCAACCAAGTTCGCCGAATGTACTCTCGGGGTCAAGTACCGCCAGATCCACGAAGACGGCACAGTCACCGGCGGACCGTTCAAGTACCTGCCGATCGCCTTTAAGAAATTGGGCAAATGGCCGGCGAAGATCCTCACGGGCATTTTTGCCGTCTCGATTTTGATCTTTGGTATTGCCGGTGGAAATATGTTCCAGGCCAACCAGACCTTCGCGCAGATGCGGAACGTGACGGGCGGCGACGAAGGCTTCCTCGGAAGCGCGGGAGCCGCACTGATCTTCGGCCTCATCCTCGCGGGCCTGGTCGCCGCGGTCATCCTTGGCGGCATGAAGTCCATCGGTGCCACCACCAGCAAGCTGGTCCCCTCTATGGCATTCATCTACGTCCTGGCGTGCCTCTTCGTCATTTTCGTCAATATTGGCCACGTTCCCGCCGCATTCGGGGCCATCATCGGCGGAGCCTTCAACCCCTCAGGCATGGCAGGCGGCCTGGTGGGCGTGATGATCGTGGGCTTCCAGCGAGCAGCGTTTTCCAATGAAGCGGGCCTGGGCTCAGCGGCCATCGCCCACTCGGCCGTCAAGACCCGCCGCCCCGTGAGCGAAGGCTTCGTCGCGATGTTCGAACCGCTTGTGGACACCGTCATCATCTGCACCATGACCGCCCTGGCCATCATCATCGCTGGAGCACCCAGCCTTCAGGCCGGCATCGACCAGGTTCAGGCCGGTGAAGGCGCTCCCGACGGCGTCATCCTCACCTCAGACGCGTTCGCCACCGTGATGCCCTGGTTCCCACTGGTCCTCGCCGTCGCTGTGGCCCTGTTTGCCTTCTCCACGCTCATCACCTGGTCCTACTACGGCCTCAAGTCCTGGGAATACCTTTTCGGACGCGGTAAGGCATCCGAAATCACCTACAAATGCGTTTTCCTGTTCGCCACGGTAGTCGGAACGGTGTTGACGTTCACCCAGGTGCTGAACTTTGCTGATGCCGCGCTGTTCGTCTGTGCGTTCGTGAACCTGCTGGGTGTTTACCTTCTGCTGCCGGTCATCAAGCGCGAGATGAAGGCCTACCTTGCCGACCGTAAGAGCGGAAAACTCCTGGAACTCGGAATCGAACCGGAGGAAGCACGCATCCCCACCGTCTGA	MSTVRTMQAIPMTVTDDVGWLASVEESIDAVFRPIADVFSSIVFFPITIGEVSFPAVVAWLIAAGVIISIYFGLPQFRGLKVSYEVIRGRYSAKDDPGEVPHFQALTSALSGTVGLGNIAGVGAAMALGGPGATFWMILAGLLGMATKFAECTLGVKYRQIHEDGTVTGGPFKYLPIAFKKLGKWPAKILTGIFAVSILIFGIAGGNMFQANQTFAQMRNVTGGDEGFLGSAGAALIFGLILAGLVAAVILGGMKSIGATTSKLVPSMAFIYVLACLFVIFVNIGHVPAAFGAIIGGAFNPSGMAGGLVGVMIVGFQRAAFSNEAGLGSAAIAHSAVKTRRPVSEGFVAMFEPLVDTVIICTMTALAIIIAGAPSLQAGIDQVQAGEGAPDGVILTSDAFATVMPWFPLVLAVAVALFAFSTLITWSYYGLKSWEYLFGRGKASEITYKCVFLFATVVGTVLTFTQVLNFADAALFVCAFVNLLGVYLLLPVIKREMKAYLADRKSGKLLELGIEPEEARIPTV	PGPT0014405_390	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
D1-29_00794	831	nei1_1	COG0266	Endonuclease 8 1	GTGCCTGAGGGGGATTCAGTCTGGCGCGCCGCCAACCAATTGCACCAGGCCCTGGCGCGGCAGAAGCTGACAGCCTCCGACTTCCGGGTGCCCCGCTTCGCTACCCTCAACCTTGCCGGCTGGACTGTCAGCGAGGTGGTCCCCCGCGGAAAGCACCTGCTCATGAGGGTGCAGGGGCCGGACGGGCAAAAACTGACCATCCACTCGCACCTCAAGATGGAAGGCTCGTGGCAGGTGTACCCGCCGGGCGGACGGTGGCGCAAACCCGGCTTCACCGCACGGTGCGTGCTCCGCACGGCAGCGGCAGACGCCGTCGGATTTTCCCTGGGCGTGCTTGAGGTTGTCCGCACAGACGCCGAAGATTCGGTGGTGGGCCACCTCGGCCCCGATCTGCTGGGACCTGACTGGGACCCGGCCGAGGCTGAACGCCGCATCCGCTCGGCCCCTGATGTCCCCATTGGTGTTGCCCTGCTGGACCAGCGCAATCTGGCGGGCATCGGCAACATTTACCGTTGCGAGGCCTGCTTCCTGTCCGGCGTCCATCCTGCATCCCCCGTTTCAGCCGTTGAGGATCTCCAGACCCTGATGACGGACGCCAAGCAGCTGTTGGAAGTGAACCTGGGGCCCGGCCGCCGGGTGACCATCCTGAATCCGCGCGGGTTGCCGGTGGGAAGGCAGGCGGGCAGGCCCGGCTACTGGGTCTACGGCCGCGAGCATCGGCCCTGCCTGAAATGCGGCACGCCTGTTCACCACGGCGTCCTGGGCAGACCCGACGGCGAGGAAGAACGGAACATCTATTTCTGCCCGCAGTGCCAACCGCTCCTGCCCTAG	MPEGDSVWRAANQLHQALARQKLTASDFRVPRFATLNLAGWTVSEVVPRGKHLLMRVQGPDGQKLTIHSHLKMEGSWQVYPPGGRWRKPGFTARCVLRTAAADAVGFSLGVLEVVRTDAEDSVVGHLGPDLLGPDWDPAEAERRIRSAPDVPIGVALLDQRNLAGIGNIYRCEACFLSGVHPASPVSAVEDLQTLMTDAKQLLEVNLGPGRRVTILNPRGLPVGRQAGRPGYWVYGREHRPCLKCGTPVHHGVLGRPDGEEERNIYFCPQCQPLLP	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
D1-29_00795	5112	deaD_1		ATP-dependent RNA helicase DeaD	ATGGGCCGCTTCAGCCAGCCCACCCGTGAGTGGTTCCTGGGTGCCTTCTCCGAGCCCACCCCTGCCCAGAACGGCGCGTGGGATGCCATCTCTTCCGGTTCGCATGCTTTAGTGGTGGCTCCAACCGGCTCCGGAAAGACGCTCGCGGCATTCCTCTGGGCCCTGGACCGCCTGCTCGTATCAGCCCCCGCCCCTGTGCAGGAACTTCCCGGGCTTGACGCCGTGCAAGTGGACGCCGCGCAAGGGAAGGGCAGGCGTCCGCGGGCGCCGAAGCGCAAGACTCGGGTGCTGTACATCTCGCCCCTGAAGGCACTGGGCGTGGACGTGGAGCGGAACCTCCGCTCGCCCTTGATCGGGATCACCCAGACCGCCAAAAGGCTGGGGCTTCCGGCTCCGCTGATCACCGTCGGAGTCAGGTCCGGTGACACTACAGCTGCGGACCGCCGGTCATTGCTCAGCAACCCGCCGGACATCCTCATCACCACGCCTGAATCACTGTTCCTGATGCTCACGTCCCGGGCCCGGGAGACCCTCTCCGAGGTGGACACCATCATTGTTGACGAGGTCCACGCCGTCGCCGGGACCAAACGCGGCGCGCACCTGGCGGTCTCCCTCGAGCGGCTCGACGCGCTGCTGCCTCAACCTGCGCAGAGGATCGGGCTGTCAGCCACCGTGGAGCCCCGGGAGCTGGTGGCTCAGTTCCTCGCGGGTTCCGCCCCTGTGCAGATCGTGGCGCCGCCTTCCCGTAAGAACTGGGACCTGACAGTCTCCGTTCCTGTGGAGGACATGTCCGATCTCCAGGGCGCTGCCGCCGCCCATGACTCCGGCCCTGCCTCCGGGCTGCAGCCGCAGGCCTCCATCTGGCCCCACGTCGAGGAAAAAATCGTTGACCTGGTGCTGGACAACCAATCCACCATTGTCTTTGCCAATTCAAGGCGTCTGGCGGAGCGGCTGACGGCCAGGCTGAACGAGATTTACGCTGAACGGCAGCTGGTGGCCGTGGGTGGAGGCTGGGACGATCCTGCCCCGGCTGCTCCAGGAGTGCCTGCTTCGACGGCCACCCCGGCTCATATGATGGCCCAGGCCGGCAGCACCGCCGGAGCAGATCCTGTGCTTGCCCGCGCGCATCATGGCTCAGTGTCCAAGGACCAGCGGGCACTGATTGAGGATGATCTTAAGTCCGGCCGGCTGCGCTGTGTGGTGGCAACGTCGTCGCTGGAACTCGGCATCGACATGGGCGCCGTGGACCTGGTGGTACAGGTGGAATCCCCGCCGTCCGTGGCCAGCGGGCTTCAGCGTGTGGGCCGCGCCGGGCACCAGGTGGGAGAAATATCGCAGGGCGTGCTGTTCCCCAAGCACCGGGCGGACCTCGTGCACACCGCCATCACAGTGGAAAGGATGCTCGAAGGCAAGATTGAACGGCTCAGCGTCCCCGCCAATCCGCTGGACATCCTGGCGCAGCAGACAGTGGCCGCTACGGCTCTGGGCAGCATCGACGTCGAGGAATGGTTCTCCACGGTCCGGAGGTCCGCCCCCTTCGCGTCCCTCCCCCGTTCGGCCTATGAAGCAACACTGGACCTGCTGGCTGGCCGCTACCCGTCTGACGAATTCGCCGAGCTGCGGCCCCGGATTATCTGGGACCGCAACGCCGGCACCATTGAAGGCAGGCCGGGAGCCCAAAGGCTGGCCGTGACCTCCGGCGGAACCATCCCGGACCGCGGCCTCTTCGGTGTCTACATCATCGGCACAGAGGTTGAGGGCAGCGCCTCCCCGGCCGATAGGAACGGTTACGGCAAGGACGGGAAGGCCCCCGCCCCGGCGTCCCCCGCGAAAGGCGGCAGGCGGGTTGGCGAACTGGACGAGGAAATGGTCTACGAGTCCAGGGTGGGCGACATCTTCGCCCTCGGCGCCACCAGCTGGAAGATCGAGGACATCACCCATGACCGGGTCCTGGTGTCTCCGGCCTTTGGGCAGCCGGGCAAGCTTCCCTTCTGGAAGGGCGATTCGCTGGGGCGTCCCATAGACCTGGGCCGGGCGCTGGGCGCCTTTGTGCGGGAACTGTCCGCGGCAGACCCGGGCCCCGCCGCGGAGCGGTGCACGGCGAGCGGCCTGGACCAGTTCGCCGCGAACAACCTCATCCAGTACCTGGAGGAACAGAAGCTCGCCACCGAGGTTGTCCCCAGCGACACCACCCTGGTGGTGGAGCGGTTCCATGACGAACTGGGCGACTGGCGCGTTATCCTGCACAGCCCGTTCGGCATGCCCGTGCACGCGCCCTGGGCACTCGCCGTCGGACAACGCCTGCACCAGCGCTACGGCCTGGACGGCTCCGCGATGGCTGCCGACGACGGCATAGTGCTTCGCGTCCCCATGATGGAGGACGAGCCGCCCGGGGCAGAGCTGTTCCTCTTTGATCCGGAAGAGCTGGAGCAGATCGTCACAGCGGAGGTGGGCGGGAGTGCCCTGTTCGCCTCGCGCTTCCGTGAGTGCGCCGCCCGCGCCCTGCTGCTCCCCCGCCAGACGCCGGGCAAGCGCCAGCCCCTCTGGCAACAGCGGCAGCGGTCGGCCCAGCTGCTGGACGTCGCACGGAAGTACCCCACGTTCCCCATCGTCCTGGAAACCGTCCGGGAATGCCTGCAGGACGTTTACGATCTTCCGGCGCTGAAGGACATTGCCGCCTCCGTGGAGCGCCGCGAGCTGCGGATTGTGCAGACCACCACCCAGCAGCCCTCCCCCTTCGCCAAATCCTTGCTGTTTGGGTACGTTGCACAGTTCCTGTATGAGGGCGACTCACCGCTGGCAGAGCGCCGGGCAGCGGCACTTGCCTTGGACTCAACCCTCCTGAACGAACTCCTTGGCCGCGTCGAGCTGCGGGAACTGCTGGACGCCAGAGTCATCGAAGCCACCGAGCGCGAACTCCAGCGCCTTGCCCCCGGCCGGCGGGCCCGTGGCATCGAAGGCGTGGCGGACCTCCTTCGGCTTCTGGGGCCGTTGGCTCCGGAGGAGGTCGCCGCTCGGCTCGAGCATGACCCGAAAACCGGGCCGGCCGACGTCGGGGCAACGGAGGCCGGGGCGGCAGGTGTCAGCGCGGCGGATGCCGGGGCGGCGACGAAACCTGGCCCAGTCCCGGAACTTGCCGGCGCGGCTGGAACTGATGACGGGACCGAGCCGGACAGCCCCCATGCAGGCACCGGCGTAGCCGCCGGGCACCTGGCTGCCTTGCAGCGGACACACCGCGCCATCCGGGTGAATCTGGCAGGCGTGGAGCGCTTCGCCGCCGTGGAGGATGCCGCCCGGCTGCGGGATGCCATTGGCGTACCGCTGCCCATGGGGGTTCCGCTCGCCTTCCTTGAGCCGGTGGAAGATCCGCTCGGCGACCTGGTTTCACGTTTTGCCCGCACTCACGGACCCTTCACCGCGGACGAAGCTGCCGCCAGGCTGGGACTCGGCGTCGCCGTCGTCGCCACCGCCCTGAAACGGCTTGCGGCGGACGGCCGTGTGGTGGAAGGCGAATTCCGCCCGCACGCCGCGCCCGCGGAACCTGCGCCGGTACCTGCGCCGGGAGATGGACCGGAATCTGCCCCGGGCGATGGGCGCGAAGAAACGCGGGATGAAATGCCAGGGGCCATGCCTGCCGTCCGGCTGCCGCAGCCCACCACTAGCGAGTGGTGCGACGCCGAGGTCCTCAGGAAGCTCCGGCGCCGCTCATTGGCCGCGCTCCGGGCTGAAGTGGAGCCGGTGGACGGCGCCGCGTACGGCCGGTTCCTTCCCGCATGGCAACACGTCCAGACGCCCGGTTCCGGACGCGGCCAACCGGCGTTGCGCGGGCTGGACGGCATCGTCACCGCCATAGACCAGCTCTCCGGTGTGCCGGTCCCTGCGTCTGCGTGGGAACCGCTGGTCCTGGCCAGCAGGGTCTCCAATTACCAGCCAGCCATGCTGGATGAGCTGATGGCGGCCGGTGAGGTCTTGTGGTCCGGAGCGGGTTCCCTGCCCGGGAACGACGGCTGGATCAGCCTCCATCTGGCTGAATCCGCCGAGCTGACGCTGAATCCAGCCCTTGAGTATGAACCCGGCGATGCGCAGCAGCGGCTGCTCGAGCACCTTCGGAACAATGGCGGCGGATATTTCTTCCGCCAGTTGACTGACGTTGCAGGCGGTATGGACAGGGTGTTGAGCGATCAGGAGGTGGTGTCCGTGCTGTGGGACCTCGCGTGGGCGGGACGGATTACCGGGGACACTTTCGCACCGGTCCGCGCGCTGATCGCCGGCGGGCACACGGCTCACCGTCAGGTTGCCCGTCCGCCGCGGGCCAGGGCCCCCCGGATGAGCCGTTTGGGCCGCTCCCATGGCACTGGCCTGCTCGGCTCACCCGGGCTGGGGCCTTCGGGCGTTGGGCGGTACGGTTCGGCGTCCGGGGCCGGAGCCACTCCCCCCATGGCGGCGGGCCGTTGGTCGGCCCTGCCATCGCCGGAACTGGACCCCACCATCCACGCGCGGGCCACGGCCGAGCTGCTGCTGGACAGGTACGGAGTGGTGACCCGGGGCTCGGTCATGGCCGAACAGATCCTGGGCGGTTTCGGTTTGATGTACAAGGTGCTGGCCCGGCTGGAAGAGGCAGGCCGGTGCCGCCGCGGCTACTTCATTGAACACCTCGGGGCGGCCCAGTTCGCGGTTCCGGCAACCGTGGACAGGCTCCGCACCTATTCCGAAGACGCACAGCTCGCGAAGAAGGAACCAGTGGCCTTGGCGCTGGCCGCCACCGACCCCGCCAACCCCTACGGCGCGGCGCTTCCGTGGCCGGCCCTCAAAGAGGACGCAGGCACCGGTCACCGTCCAGGCAGGAAAGCCGGGGCCCTTGTTGTGCTGGTGGACGGCGCACTGGTGCTGTATGTGGAGCGGGGCGGTAAAACCCTCCTGGCTTTCAGCGACGACGAATCAGTTCTGGCGGCCTCCGGAGCAGCGCTGGTGGGTGTTGTCACCCGCGGAGCCGTGGACAAACTGGTGATGGAAAAGGTCAACGGCCACGATATTCTGGAGACTGCGGTGGCCCGTGCCTTGGCTGCAGCCGGGGCCTATTCCACACCCAAGGGCCTGAGAATCCGTGCCTGA	MGRFSQPTREWFLGAFSEPTPAQNGAWDAISSGSHALVVAPTGSGKTLAAFLWALDRLLVSAPAPVQELPGLDAVQVDAAQGKGRRPRAPKRKTRVLYISPLKALGVDVERNLRSPLIGITQTAKRLGLPAPLITVGVRSGDTTAADRRSLLSNPPDILITTPESLFLMLTSRARETLSEVDTIIVDEVHAVAGTKRGAHLAVSLERLDALLPQPAQRIGLSATVEPRELVAQFLAGSAPVQIVAPPSRKNWDLTVSVPVEDMSDLQGAAAAHDSGPASGLQPQASIWPHVEEKIVDLVLDNQSTIVFANSRRLAERLTARLNEIYAERQLVAVGGGWDDPAPAAPGVPASTATPAHMMAQAGSTAGADPVLARAHHGSVSKDQRALIEDDLKSGRLRCVVATSSLELGIDMGAVDLVVQVESPPSVASGLQRVGRAGHQVGEISQGVLFPKHRADLVHTAITVERMLEGKIERLSVPANPLDILAQQTVAATALGSIDVEEWFSTVRRSAPFASLPRSAYEATLDLLAGRYPSDEFAELRPRIIWDRNAGTIEGRPGAQRLAVTSGGTIPDRGLFGVYIIGTEVEGSASPADRNGYGKDGKAPAPASPAKGGRRVGELDEEMVYESRVGDIFALGATSWKIEDITHDRVLVSPAFGQPGKLPFWKGDSLGRPIDLGRALGAFVRELSAADPGPAAERCTASGLDQFAANNLIQYLEEQKLATEVVPSDTTLVVERFHDELGDWRVILHSPFGMPVHAPWALAVGQRLHQRYGLDGSAMAADDGIVLRVPMMEDEPPGAELFLFDPEELEQIVTAEVGGSALFASRFRECAARALLLPRQTPGKRQPLWQQRQRSAQLLDVARKYPTFPIVLETVRECLQDVYDLPALKDIAASVERRELRIVQTTTQQPSPFAKSLLFGYVAQFLYEGDSPLAERRAAALALDSTLLNELLGRVELRELLDARVIEATERELQRLAPGRRARGIEGVADLLRLLGPLAPEEVAARLEHDPKTGPADVGATEAGAAGVSAADAGAATKPGPVPELAGAAGTDDGTEPDSPHAGTGVAAGHLAALQRTHRAIRVNLAGVERFAAVEDAARLRDAIGVPLPMGVPLAFLEPVEDPLGDLVSRFARTHGPFTADEAAARLGLGVAVVATALKRLAADGRVVEGEFRPHAAPAEPAPVPAPGDGPESAPGDGREETRDEMPGAMPAVRLPQPTTSEWCDAEVLRKLRRRSLAALRAEVEPVDGAAYGRFLPAWQHVQTPGSGRGQPALRGLDGIVTAIDQLSGVPVPASAWEPLVLASRVSNYQPAMLDELMAAGEVLWSGAGSLPGNDGWISLHLAESAELTLNPALEYEPGDAQQRLLEHLRNNGGGYFFRQLTDVAGGMDRVLSDQEVVSVLWDLAWAGRITGDTFAPVRALIAGGHTAHRQVARPPRARAPRMSRLGRSHGTGLLGSPGLGPSGVGRYGSASGAGATPPMAAGRWSALPSPELDPTIHARATAELLLDRYGVVTRGSVMAEQILGGFGLMYKVLARLEEAGRCRRGYFIEHLGAAQFAVPATVDRLRTYSEDAQLAKKEPVALALAATDPANPYGAALPWPALKEDAGTGHRPGRKAGALVVLVDGALVLYVERGGKTLLAFSDDESVLAASGAALVGVVTRGAVDKLVMEKVNGHDILETAVARALAAAGAYSTPKGLRIRA				NA	NA	NA	NA	NA
D1-29_00796	1626	petC		Cytochrome b6-f complex iron-sulfur subunit	ATGACGTCACTTTGGTTGGACCGCGGGGAATCATTTACTTCTGACACATTTCCAGCCGGAGACAGTTACGACACCGTAGTGGCCGGAGCGGGCCTGACCGGGCTGGTCACGGCACTGCTCCTTGCCCGGTCCGGGCAGAAAGTCCTGGTTCTGGAGGCCCGGTTCCCCGGCGCTGTCACCACGGGAAATACCACGGCGAAGGTGACCCTGCTTCAGGGCACCGTGCTGTCCGGCCTGTCCAAGCACTACTCCAAGAAGCAGCTCAGCGCCTACGTGGAGGCCAACAAGGAGGGACAGGCCTGGCTGCTTCGCTATCTGGACGAAAACAACGTGCCGTACCAGCGGCGGGATGCCTACACCTACGCCATCACGGCCAGCGGCGCGGATTCCGTACGTGCCGAACGGGATGCCGCCACCGCCGGCGGCCTCGAAGTGGAATACGTACGCGACGCCGGGCTGCCGTTCCCGGTGCATGGCGCCGTTCGGCTTGCCGCCCAGGCCCAGATCAACCCGATGCAGGTCCTGGACACCCTGCTGGCCGATATCCGGGCGCGCGGCGGCACCATTGTTTCAGGGGTGCGCGTGCGCGACGTTACCGCCAGCAGCCCGGCAACCGTGCACACTGATCTGGGCACGGTGACCGCCAAAGAGGTGGTCCTGGCAACCGGCACTCCGATTCTTGACCGCGGCCTGTACTTCGCCAAGCTCAAGCCCGGCCGCTCTTACGCCGCTGCCCTGCAGCTGCCCGCGGACCAGGTTCCGCCGCCGGGAATGTATATATCGGTGGAACAGCCCACGCATTCCCTGCGCGACTACGAGGCTGACGGCCGCAGGCTCCTGCTCGTTGGAGGGCACGGGCATCCGGTGGGGCGGGCAAAGTCGGAGCGGGAACACCTGTCCGGGCTGCTGCAGTGGGCCGGGGAGCAGTTCCCTGGCGCCGTTACCACCCATACGTGGTCAGCACAGGATTACCAGCCCACCAGCCTCATGCCGTTCTTTGGCAAACTGCCACGAGGCCGGGGACATGTTTACGTGGGTACGGGCTACAACAAGTGGGGCATGACCAACGCAGTGGCAGCGGCCCTGGGCATCTCCGGCGACATGTTGGGCGGCCAGCTCCCCTGGGCTGACACGATCCGCCACCACGGCCCCACCGCTTCCGGCGCCTGGTCCACCGTGGCACTCAATGCCGGGGTTGCAGCCAAGCTGGCCACCGATTGGGGACACGTGGCAGCCGGCGGCGGTGACGGCCATCAGGAGCGGACGACGGCGGCAGCAGGCACCCAGCCGGACGCCACCTTGACGCCGGACACCGGCATGGTGCCGGGTGCGGGTGTTGAGTCCGCTGGCGTTGAGTCCGGTGACGCCGGCCCGCAGGCGGCTATCCAACCGGCAGAGGGGGAAGGGCTGGTTTACCGCGAGGGTGTCCGGCCGGTGGCAGCGTCCACGGTCAACGGAACAACATGCCGGCTTTCCGCCGTCTGTACCCATTTGGGCGGGATCGTCCACTGGAACGACAACGAAATGACCTGGGACTGCCCTCTCCACGGGTCCCGGTTCAACAGCGACGGGACCCAACTGGAAGGCCCGGCCACCAAGGATCTGCCGCCCATCGAGCACGTTTGA	MTSLWLDRGESFTSDTFPAGDSYDTVVAGAGLTGLVTALLLARSGQKVLVLEARFPGAVTTGNTTAKVTLLQGTVLSGLSKHYSKKQLSAYVEANKEGQAWLLRYLDENNVPYQRRDAYTYAITASGADSVRAERDAATAGGLEVEYVRDAGLPFPVHGAVRLAAQAQINPMQVLDTLLADIRARGGTIVSGVRVRDVTASSPATVHTDLGTVTAKEVVLATGTPILDRGLYFAKLKPGRSYAAALQLPADQVPPPGMYISVEQPTHSLRDYEADGRRLLLVGGHGHPVGRAKSEREHLSGLLQWAGEQFPGAVTTHTWSAQDYQPTSLMPFFGKLPRGRGHVYVGTGYNKWGMTNAVAAALGISGDMLGGQLPWADTIRHHGPTASGAWSTVALNAGVAAKLATDWGHVAAGGGDGHQERTTAAAGTQPDATLTPDTGMVPGAGVESAGVESGDAGPQAAIQPAEGEGLVYREGVRPVAASTVNGTTCRLSAVCTHLGGIVHWNDNEMTWDCPLHGSRFNSDGTQLEGPATKDLPPIEHV				NA	NA	NA	NA	NA
D1-29_00797	471			hypothetical protein	ATGACATCCATGAGTTCCGGTCGGACCGTCGGCCGAACCAACATTCAAAAGGCCTCCCTGGCCGTGGGCGCTGTTTTCCTCTTGGTGGGCATCCTGGGATTCATTCCCGGCATCACCACCAACTACGAGGCCCTTGGCATGGCAGGCCCCGGCTCTGAAGCGCTGTTGATGGGAATTTTCCAGGTCTCCATTCTCCACAACATCGTTCACCTGCTCTTTGGGGCGGCAGGAATCGCCATGGCCCGCACCGCCACGCAGTCAAGGAATTTCCTGTTGGTGGGTGGCGCAATCTACCTGGTTCTGTGGCTCTACGGCCTGCTGATCGGCCACGAGACGCCTGCGAACTTTATTCCCGTCAACACGGCTGACAACTGGCTGCACCTGGTTCTGGGCCTGGCCATGATTGCGCTGGGCGTGGCGCTCTCCCGCGGTCCGTCAAGGGCCGGGCGGACCACCACCACAGCCCACTAG	MTSMSSGRTVGRTNIQKASLAVGAVFLLVGILGFIPGITTNYEALGMAGPGSEALLMGIFQVSILHNIVHLLFGAAGIAMARTATQSRNFLLVGGAIYLVLWLYGLLIGHETPANFIPVNTADNWLHLVLGLAMIALGVALSRGPSRAGRTTTTAH				NA	NA	NA	NA	NA
D1-29_00798	624			hypothetical protein	ATGATGTCTCAGCGAGGGTTACACGGGTTTGTTTTCACTACGGCGATCGCCGCAGCGGCACTGATGCTCACCGCCTGCGGTCCTAACCAGCCGCAGACGCAGGGGACAACGGAGCCCGGCACCGGCGGTGCCAGTCCCGCCACAACGTCCGCATCGCCCGCCGCCCCAGGGACGCCGTCGGCCACCACGTCCGCCGCAACCGGACCGGCGCTCTGCAAGGCCGGCAGCCTCACCGCCGCCACGGATGCCTCCGGCGGCGGAGCGGCGGGAAGCGTCTATATGAACCTCATCCTCACCAACACCGGCAGCGAGCCGTGCTTGCTTAGGGGGTTCCCTGGGGTGTCCCTCGCAGCAGACGCCGAGGGTGGCCCTATCGGAGCCCCCGCGAAACGTGATGAAACGGCACCTGTTGCCGACGTACTGCTGGCGCCGGGCAAGGCTGGTTCTGCGGTGCTCCGCTACACCAATGCCGGCAACTACACGGACTGCACCAGGACGGATGCGGCAGGCTACCGGATCTATCCTCCGGAAGACACTGCCTCACTATTCCTTGCGCAGCCCACCCAGGCCTGCACCAACGCGGCCATTGAACTCCTGACCATCGGCCCCTTCCAGCCGGCATGA	MMSQRGLHGFVFTTAIAAAALMLTACGPNQPQTQGTTEPGTGGASPATTSASPAAPGTPSATTSAATGPALCKAGSLTAATDASGGGAAGSVYMNLILTNTGSEPCLLRGFPGVSLAADAEGGPIGAPAKRDETAPVADVLLAPGKAGSAVLRYTNAGNYTDCTRTDAAGYRIYPPEDTASLFLAQPTQACTNAAIELLTIGPFQPA				NA	NA	NA	NA	NA
D1-29_00799	759			hypothetical protein	ATGACCACCCCCTTCCTTCGCCGTACCCTCACCGCCGCTGCAGCCACAGGCGGCACCGCAGCACTTCTGCTCACCGCAGCGGCCGGCGCCTCCGCGCACGTGGGCGTAACACCCGACAAGACCACTGCCAACTCGTACGCCCTCCTCACCTTCGGCGTCCCTCACGGCTGCGACGAATCGGGAACCACCAAGGTGGCAATCACGCTGCCGGCTGAGCTCAACGACGCCCAACCCACGGTGAACCCCAACTGGACGGTGGAGAAAGTCACCGAGCAGCTTGCCGAACCGCGGAAGCTGGCCGACGGCACCTCCATTACCAAGCGCACAAGCCAGATCGTGTATACGGCCAAGGCTCCCCTTCCCGACGAGCTCAGGGACGCGCTGGTGTTGTCCCTGAAGCTGCCCGACGCTGCCGGGACTACCCTCTACTTCCCTACCCTGCAGACATGTGAAACCGGGCAGACGGACTGGTCCGAGATCGCCAAAGACGGCCAGGACCCGCATTCGCTGAAGGCACCGGCACCGTTCATCACCATCACGGAAGCCGCCGCGGCAGGGCACGGAGGCAGCGCGGCTGATGCGTCCCATACCGAACAGGCCTCTGTGGTGACGGACAGCGGAGTGGAAGCCCGGAGCTGGGCCGGCCTCGCCGCTGGTCTTGGCGGACTGGCACTGGGCGGTGTGGCGGCGGCACGCGGCTTCAGGCGCCCGGCCCGGGACAATGATCCGGCCGCGCCCAGCCAGCCTGCCGCCGAATAG	MTTPFLRRTLTAAAATGGTAALLLTAAAGASAHVGVTPDKTTANSYALLTFGVPHGCDESGTTKVAITLPAELNDAQPTVNPNWTVEKVTEQLAEPRKLADGTSITKRTSQIVYTAKAPLPDELRDALVLSLKLPDAAGTTLYFPTLQTCETGQTDWSEIAKDGQDPHSLKAPAPFITITEAAAAGHGGSAADASHTEQASVVTDSGVEARSWAGLAAGLGGLALGGVAAARGFRRPARDNDPAAPSQPAAE				NA	NA	NA	NA	NA
D1-29_00800	630			hypothetical protein	GTGCGCACCCACCGTGCCCGTGCTCCCTTTCATTTCCTTCGCGCAGCCGCCCTTTCCACTGGAATCCTGACACTGGCGGCCGGTGCCCACGTGGCAGCCGGCGGTCAGCTCCCGGGCCTTGGCATCCTGCTGGCCGTGCTTGCCCTGACCGGGCTGGCCGCAACCAGCGCAACACGGCTCCGCCTGAACCTTCCGGCCATGATCACTGTCCTGGGAATGGGACAGGTCATACTGCATGAAGTTTTCACTGCCTTCAGCGGGCCGGCGGTGGCGGACGGCAGCACAGTGTCCGGCCTGCACGGCAGCCACTCTCCGGGTCTCGCCCCACCTGCCCTCGAGGGTATGAACGGCCATCCCCATCAGCTGGATTCAGCGGCCGGACTGGCGATGCTGCTGGCCCACGCCGTTGCCACCGCCGGCTGCGCTCTGCTGCTCGCCAAGGGCGAAACCGCCCTCTGGGCCCTGGCGGCCTGGCTCGGCCCCCTGATCCAGCTCCCCCAAGCGGTAATTCCCGACGCCGGTCCCCCACCGGCGGTGCCCCGTCCGGGGGCGGTTCCATCCGCACCCCGCTGGCGGAATCTCAGGCAAGACAGCCGGCGCGGCCCGCCTTTCGCCGTCGCCCTCTCCTGA	MRTHRARAPFHFLRAAALSTGILTLAAGAHVAAGGQLPGLGILLAVLALTGLAATSATRLRLNLPAMITVLGMGQVILHEVFTAFSGPAVADGSTVSGLHGSHSPGLAPPALEGMNGHPHQLDSAAGLAMLLAHAVATAGCALLLAKGETALWALAAWLGPLIQLPQAVIPDAGPPPAVPRPGAVPSAPRWRNLRQDSRRGPPFAVALS				NA	NA	NA	NA	NA
D1-29_00801	1077	pnoA		Nitronate monooxygenase	ATGACGCCAGGACAGAACCTCTCCTCCCGCCCCAACCGGGCCACGGAACTGTTCCGAACAGAGGTTCCAGTGGTGCTGGGCCCGTTCGGCGGCGTCTCCTCCGTGCAGCTCACCGCTGCCGTCAGCGAGGGCGGCGGGCTTGGGTCATATGGCCTCTACGGATACGACGCCCAAGCCATCCACAAAACTGCGGCGCAGCTCAAGGAGGCCACGGCCAAGCCGTTCGCTCTGAACCTCTGGGTACCGGACGGCACGGAGGACACACCACTCACCGCCGCTGCCTTTGACCGGTACGTCAGCATCCTCCGCCCCTACTTCGACGAACTTAACCTCCCGCTGCCGGAAATGCCTGACCGGTACCTTCCTGACTACGGCGAGCAGGTGGAGGCCACGCTGGAAGCGGAACCCGCCGTCGTGAGTTTTGTCTTTGGTGTCCCCGCCCCCGAGATCATCGAGGCAGCCCACCGGCGCGGAATCGTTGTGGTGGGCACCGCCACCACTGTGGCCGAAGCGGTGGCCCTGGAATCCGGCGGTGTGGACGCAGTGGTGGCTAGCGGGATGGAATCCGGCGGCCACCGGGTCTCGTTCCTGAAGCCGGCGGAGGACTCCCTGGTGGGGACCTTCGCGCTGGTCCCGCAGGTGGCGGACGCCGTCCGAATCCCCGTCATCGCTGCCGGCGGCATCGCCGACAGGCGCGGATACGCGGCCGCAATGGCCCTTGGCGCGGACGCTGTCCAGGTGGGTTCAGCCTTCCTGGCCACCAGGGAATCGGCCGCCGTTCCCGCATACCGTGAAATCCTGCACAGCCCCGCCGCCCGGGAAACTGTGCTCACGCGCGTCCTCAGCGGCCGGCTGGCCCGCGGCATCCCCAACCGCATCATCACTGACCTTGACCCGGCGCGCATCGCACCATTCCCGGCCCAGAACTGGCTGACCGGCAGGTTCCGCCCGGAGGCAGCCGCCCAGGGCAACACCGAACTCATGTCGCTCTGGGCCGGACAGTCCGCGGCACTGATCCGGCACGACTCGGCCGAGGCCGTACTGGCAGAACTGCTCGCGGGCCGTCCCTCTGCCTGA	MTPGQNLSSRPNRATELFRTEVPVVLGPFGGVSSVQLTAAVSEGGGLGSYGLYGYDAQAIHKTAAQLKEATAKPFALNLWVPDGTEDTPLTAAAFDRYVSILRPYFDELNLPLPEMPDRYLPDYGEQVEATLEAEPAVVSFVFGVPAPEIIEAAHRRGIVVVGTATTVAEAVALESGGVDAVVASGMESGGHRVSFLKPAEDSLVGTFALVPQVADAVRIPVIAAGGIADRRGYAAAMALGADAVQVGSAFLATRESAAVPAYREILHSPAARETVLTRVLSGRLARGIPNRIITDLDPARIAPFPAQNWLTGRFRPEAAAQGNTELMSLWAGQSAALIRHDSAEAVLAELLAGRPSA	PGPT0006800_729	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
D1-29_00802	342			hypothetical protein	ATGAACTACTCAGGGATGGGCAACGAGAAAGCCACGCCGGCCAGCGAGCTCAACAGGACCCATGTAGGGCACACCATCAGTTTTGAGCCCGACGAATTTACGCTGGTATTCGGAAAAATCGCGGCAATAGCCCGTAAGGAGGGCAGCGTCACCATTGCACTGCAGGGCGTGGACGGCAGCGGAGGCCTGCAGTCCAGCTACAGCCTCTCCGGCAGCCAGCTGGTCTACCTCCAGCCCGACATGCTGACCAACACCGAGTCAACCATCAAGGACATCTTCGGCAAAGTCCAGGAGAACCTCCGTGGCGGCCTGAAGGGTGACGACAAGACAGACAAGCTCTGA	MNYSGMGNEKATPASELNRTHVGHTISFEPDEFTLVFGKIAAIARKEGSVTIALQGVDGSGGLQSSYSLSGSQLVYLQPDMLTNTESTIKDIFGKVQENLRGGLKGDDKTDKL				NA	NA	NA	NA	NA
D1-29_00803	114			hypothetical protein	ATGACAATCATTGAATACTTTTCAGGCCTAGGCATCATGCTCGGAAGCCTGGCTGGGATCTTGGGACTGCTGGCGGGAGTGGTCCGCTACCGGTCTGGCCATCAGGGCTCCTGA	MTIIEYFSGLGIMLGSLAGILGLLAGVVRYRSGHQGS				NA	NA	NA	NA	NA
D1-29_00804	216			hypothetical protein	ATGGCTGAAGACGAGTTCAGGACGCGGCTGGATCGAGTGGAAGAGCTGTACCGCCATCTGGTCGCCTTGCGGGAGGACGCCAAGAGCCGCCACGGGGCCGGCAGCGAGGAGCTTGTCCTGGCTGAACTGCGGCTGGATAACGCCTGGCATGAACTGTACGAATTTATGGACCTTCCCCTTTCACGTGATGTTGGAGCCGCACCGAAGCCGGAGTAG	MAEDEFRTRLDRVEELYRHLVALREDAKSRHGAGSEELVLAELRLDNAWHELYEFMDLPLSRDVGAAPKPE				NA	NA	NA	NA	NA
D1-29_00805	1530			hypothetical protein	ATGACAGTATTGCTGATCGGCGGGGCCGTACTTGCCGCCCTGCTCATCGCAGGATTCATCTTTTACACTTCGAGCATCCGGTTCGCCAAGCCGAATGAGGCCATGCTCATCACCGGCAAGAGTGACCCGAACACCACCGATGAAACGTCCGATGACCAGTCCCGCGTCATCATCAACAACCGGGCATTCGTTAACCCGATCACAGAACGCGTCAGCCATATCTCGCTGTCCTCGCGCCAGGTCGAAGTCACCATTGAAGCCATCTCCAACAACGGCATCCAGCTCAAACTGGCCGGCGTTGCACAGGTGAAGGTGGGCGGTGACAAGATCTCCGTCCGCAAGGCAGCCCAGCGATTCCTTGACCAGCAGGACGCGATCGATCACTACACGCAGGAAACCCTCTCGGGTTCACTGCGTTCCATCGTGGGCACCCTGAGCGTAGATGCGATCATCAAGGACCGCGCCCAGTTCGCAGCTTCAGTGAAGGAAGAAGCCGAGCACTCCATGACCAACCAGGGTCTGGTCATCGACACGTTCCAGATCAAGTCTGTTGACGATGCAGGCGGCTACCTGAAGAACCTGGGCCGTCCTGAGGCTGCCCTGGTTGCACGGAACGCAAGCATTGCCGAAGCCAACTCCCAGCGTGAAGCTGCGGAAGCGAAAGCCCTCGCGGATCAGAAAACGGCTGAAGCTGAGCAGAAGCTGGCCCTTCGCCGCGCCGAACTGAAGCAGGAAACGGATGCCCGCCAGGCCGAAGCTGACGCCGCCGGTCCGCTTGCCCATGCCGACCAGCAGCAGGCGATCATCCTCAAGAACCAGCAGGTAGTGGCACGCCAGGCGGAACTTCGTGAAAAGGAACTCGACATCGAGGTCCGCAAACCCGCAGACGCTGCCAAGTACAAGGTCGAAACTGAGGCGGCCGCTGACCTTTCCCGCCGTACCCGCATCTCGGAAGCCACCAAGGTTGAAGCTGCTGCGGAACTGGAAACCCGTAAGCTCAAGGCTGCCGGCAACGAGGTGGAAGCTCAGGCCCTGGCTGCAGCCAACACTGCCAAGGGCAACGCCGAGACGGAGATCAACAAGATCCGCGGCCTTGCCGAGGCTGAGGTCACCAAATCCAAGGGCATAGCGGAAGCTGACGTCATTGGGCTTCGTGGCAGGGCCGAAGCTGAAGCCATCGAGGCTCAGGCCAAGGCCTACAGCGAGTTCAATGAGGCGGCCATCCTGAACAAGCTCCTGGAGGTGCTGCCGTCCATCGCCAAGGAAATCGCCGCCCCGATGAGCGCCATCAGCAACATGACGGTCATCTCCAACGATGGCGCAGGGCAGATGAGCAAGAACGTTGCCTCCGGCGTCCAGCAAACCGCCCAGATGCTCAAGGACACCACCGGATTCGATGTGATCGAGATGCTCAAGGGCTTCGGCGCTTCAACCCCGGCAAACACTCCTGTCCCCGGAAACGGTGCCATCAAGGAACCGGCCCGGACCGGTGTGGTCAATGCTGCGTTGAAGGACGAATCCGCGGAGTAG	MTVLLIGGAVLAALLIAGFIFYTSSIRFAKPNEAMLITGKSDPNTTDETSDDQSRVIINNRAFVNPITERVSHISLSSRQVEVTIEAISNNGIQLKLAGVAQVKVGGDKISVRKAAQRFLDQQDAIDHYTQETLSGSLRSIVGTLSVDAIIKDRAQFAASVKEEAEHSMTNQGLVIDTFQIKSVDDAGGYLKNLGRPEAALVARNASIAEANSQREAAEAKALADQKTAEAEQKLALRRAELKQETDARQAEADAAGPLAHADQQQAIILKNQQVVARQAELREKELDIEVRKPADAAKYKVETEAAADLSRRTRISEATKVEAAAELETRKLKAAGNEVEAQALAAANTAKGNAETEINKIRGLAEAEVTKSKGIAEADVIGLRGRAEAEAIEAQAKAYSEFNEAAILNKLLEVLPSIAKEIAAPMSAISNMTVISNDGAGQMSKNVASGVQQTAQMLKDTTGFDVIEMLKGFGASTPANTPVPGNGAIKEPARTGVVNAALKDESAE				NA	NA	NA	NA	NA
D1-29_00806	4263			hypothetical protein	ATGATGCAAGCCCGCAAACGCAGACGATCACAGTTGCCTGCCTTGACCGCCGTACTGGCGATCGTGGCAGGCATGTTCGTGATGGCGGCCCCAGCGAGGGCCGCCGAGTACGATGCCCTGCTCACCAACCACGTGGTCACGATCAACGAGACGGTCAGCGACGCCGGATTCGTCCACCCAGGCGTGGGACTGTCGGCCGAGGACCTGCGCAACGCGCAGGCGATGGTCCGCTCCGGGCAGGAGCCCTGGGCCTCCTACTTTAAGGCGATGACGGCCACCGGTGCAGCGTCCAAGACCTACCGGGCGTCGAACTCGAAGTCCGCCGCCCAACCCGACGTCGCGCTCGACCCGAACTTTAACCACGGCGGATTGCGCGGCAGGGAGACCAACGACTCCTTCGGCGCACTCACCCAATCCCTTATGTGGGTCATGACCGGCAACGAGGTCCACCGCAAGAACGCGATCCAGGCCCTCCGGACCTGGGCGAGCATGAACCCCGACGGCTTCAAGTACTTCGCCGACTCGCACATCCACACCGGCAAGCCGCTCTCGCAGTTCCTCATGGCCGCGGAGATCATCCGCGCCACCGAACCGGTCGCCGACGACACCCCCGGCACCCAGGACGGCTACAACGTCGTGTGGAGCGCGCAGGATGACGAGCGTCTGCTCGGCAACTTCGCCAACCCGCTCGTGAACACCTTCCTTTACTCGCCCGAGCGATGGATGAACCAGCACAACTTCGGGCTCTACGGCCGCATCGCCACCGCGATCTACGCTGACGACGCCGCCGCCTACGCCAAGGGCGTCGAATGGTTTACCGTGAACTCGGAGTTCACGAACTACACCAGCGGCGGACTCGCTCAGCAGATCCCGCTCATCGACGCGGACGACCCCGCCAACCCCTACGGCGAGGACTTCGTGCAGCTCCGCGAGATGGGCCGCGACCAGGCCCACGCCGAGTGCAACATCGACAACTTCGCCGCTATGGCGCGCTTCCTGCACGTCCAGGGCACCAAAGTTGACCCGGAGGACGGTACCGTCTCCACCGCCGACGACGCCGTCACCGCGTACAAGTTCCTCGACAATCGCCTCCTGGCGGGCGCTGACGCCTTCGACGGCTACATGATGGGCCAGCCCACGAAATACATCGACGACAGGGGCACCGGCGGCACCATCTCCGCGGCTTACCGCGGCCGGATGTTCAACGCCCTCAACGAGTTGTACTACCAGTACAAGTACGTCGAGGGCGTCGACGTGGAGGCCGAGGCCCCGAACGTCGCCCTGCTTAACGAGCGCATGGACGGCCCCCTGTACAACTACGGCACCGGTGTCAACAACTTCTGGAGCGCAGGTGACAAGAGCATCGAGTACTGGGTGGCCTTCCCGCCGGAAATCGCGGGAACCAAGCCGACCCCGGTGGAGGACACCACACTCACCTTCGGCCACTACGGCATCCCGCTCGATGAGGGCACCGAGATCATCACCGAAAGTGACCGCACCTTTGCCCGCGCCACCGCGGACGCGGACGGAACCATGAGCGTTGTCAGCCGCGTGATGTACCCCGGCAACAGCAAGATGGGCGTCCTCGTGCGCACCGACGGCCCCGCCGTCATCGAGGTGCTCGACAAGGAGCGGCGCGACCCCCGCAACGGGATCGAACCCGAGCCGGGCATCATGGCGAGGATCGAACTGCCTGACACCAAAGGCCAATGGCGGTACATCACCTATCCCGCGGGCGGCCCGCACACCCAGTTCTACCGGGTGACCGGCGGCGGCACCAAGGTGGACATGGACACCCTCATGTTCAACGCCCAGGCCCAGCTCACCCCGCCCGCCTTCGAGCAGGCCCGCGACCGGTACTATCTGTGGCCGGATGCGACCTCCACCTTCCAGTTCAGCGCTACCGATGCCGGCGGGGCCCCTGCATACGCTGCCGGCGGCCTTCCGGCAGGGGCAACGCTCGATGCCGCCACCGGGACCGTCACTTGGAAGCCAACCGACCGTGACCCGGGTGTACACAAAGTCCAGATCGTGGCCGACGACGGCGCTGCCGTCACCGCACGGACCTTCGAACTCGTCGTGGCCAAGAACCGGCCCAAGATGATCGACGCCGCCGTCGCCGACGGCACCGACGAGGGCGCGGTCTACACCACGGCTTCAAAGGAGCCGTACCAGGCTGCGTTGGCCGCCACGAGGTACGCGTCCGAGAACGGCTCCGACTCGGAGTTCCGGACCGCGTTCCAGGGGCTGCTCGACGCGATCGAGGCGCTCGAACTGCTCAACTCCCGCCTGTCGGACGGATCGATCGACTATCCCGGCGCGGTCACTCCCGGCGGCATCAGCGCGGACGCGGCACGGGCACTTGCCGATGGGAACAATCACAGCCACTCCGGCGACCTGCGCGTTGGGTTCTTCACCTTCGACTTCGGGACCAAGTACCGTGTCAAAGCCGAGAAGTTCGGCCTCCAGGCCCGCTTCTCCTTCCCGATGCGCTCGCAGGGCACCAACGTTTACGGCTCGAACGACGGCATCACCTGGACCCTCCTCACCGAGCGTCCGACCGGTGACACCAACGACATGGAGACCATCGCCGTCAAAGCCGAGCACCGCGGCAAGGAGTTCCGCTACCTGAAGCTCCAAATCGACGAGCCGGCCCCTCCGATCGACCCGGCGTACCCGGGCATCTGGTCCGTCGGCGAGTTCCACGTCTTCGGCGACCGCTCGGAAGTCCCCGGGGACATCACCGACGTCTCCGTGGCTTCACCGGGTGCCGTGGCAGGCAGGGTGACAGCGGGTGGCGACATCAACGTGACGTTCACCAGCGCGAAGCCGGTCAGCAATGTGGCGGTGAGCGTCGGCGGCCAAAAGCTCACGGCCGCGAGCGCGGACTCGCTGTCGTGGACTGCCACCGGCAAGCTCGGCGACCTGACGGGCGGCGGCCGCCTCGACGTCGTGATAGATAACACGACTCAGAACGGACAAGCAGCCGCAACGATTCACGGTTCGACTGACGGCACCGCCCTGTACGGCTCGGACGAGCGAAACCTGATTGATCTCACCGACGCCCAAGTGGTCAAGGCGGACGGTTCGGCAGATTCGTCCAAGGCCACGCACTCGGCGAACATGCTCGACAGCAAACCCGCTACGTTCAGCGACGTGCCCGCCATCGACGGCCAGTACTACCTCATCTGGGACTTTGGCGCAGGCATGCAGGTCAGCGTGGATCGCTTCGACTACCTTGCACGCCAGGACTCCGAAGGCGTCCGCCGCATGAACGACCAGGTGCTCCAGGGCTCGAACGACCTCAACACCTGGACAACCATCGCCGACGCGTCTTACAAGACGCTCTCGTGGCAGAACCTCGACGCGACCGACGCCGGCAGCTACCGCTACCTGCGGGTCGCGAACAAGGCGCCCATCTACGTCGCGGAGCTCCGGCTCTTCGGTGCGGCCAAGTACGACATCGGTCCGCTCCTTCAGCGCGCCGATGCCGTTGACCTCAGCACCTACACTCGCGGTTCGAAGCTCCTCTTCCCCCGCGAGGTCGCGGCGGTCCGCGAGGCACTCGCCAAGCAGGGCGCCGACGAGCAGGCACTTGCACGCCGTCTCCTGGACGCCTGGGACCTCCTGGACCCTTCGGCAGCCGTGGCTCCCGCGACGTTCGAACAGTCCTGGGTTGCGGCGAGCACCGCGACCGCTGACGGCGCGACGAGCGCGGCAGCGAACGGCTGGCGCATGTTCGACGGGAACACCGGGACGTACACCGACACGACCACGAAGTCCTGCACCAACACCGTGCTCCCGGCCGACGGCTCCGCGTTCAAGGTGGTCGGCGTGAAGTACTTCCCAAGGGACAACGCGGTGTTGCGGGCAACCGGCATGGGCATCCAGGGTTCCAACGACGGCGGCGCCACCTGGACCCAGTTCGCGAGCACGGGGACCCCGGTCCGCGGCTGGAACACCATCACCCTGACCGAGCCCGTTCACTATGGGGCCTTGCGCATCAACGGCGGCAACGGTTTCTGCAACGTAGCCGAGCTTCAGTTCATCGTCGAGACGATCGACAAGTCGGGACTGGCTGTCTACCTGGTTGACGCGAAGGCGCTGACAGAAGGCGGCTGGACGGCCGACTCCTGGGCGGCCTTCGCCGCCGCCCGAGACGCGGCCACCGCCGTCAACGGGAACAAGGGAGCCAGCCAAGAGGAGGTGGACCAGGCGGCAGACAAACTCGCCCAAGCGATCAAAGGCCTGACTGCAGCCTAA	MMQARKRRRSQLPALTAVLAIVAGMFVMAAPARAAEYDALLTNHVVTINETVSDAGFVHPGVGLSAEDLRNAQAMVRSGQEPWASYFKAMTATGAASKTYRASNSKSAAQPDVALDPNFNHGGLRGRETNDSFGALTQSLMWVMTGNEVHRKNAIQALRTWASMNPDGFKYFADSHIHTGKPLSQFLMAAEIIRATEPVADDTPGTQDGYNVVWSAQDDERLLGNFANPLVNTFLYSPERWMNQHNFGLYGRIATAIYADDAAAYAKGVEWFTVNSEFTNYTSGGLAQQIPLIDADDPANPYGEDFVQLREMGRDQAHAECNIDNFAAMARFLHVQGTKVDPEDGTVSTADDAVTAYKFLDNRLLAGADAFDGYMMGQPTKYIDDRGTGGTISAAYRGRMFNALNELYYQYKYVEGVDVEAEAPNVALLNERMDGPLYNYGTGVNNFWSAGDKSIEYWVAFPPEIAGTKPTPVEDTTLTFGHYGIPLDEGTEIITESDRTFARATADADGTMSVVSRVMYPGNSKMGVLVRTDGPAVIEVLDKERRDPRNGIEPEPGIMARIELPDTKGQWRYITYPAGGPHTQFYRVTGGGTKVDMDTLMFNAQAQLTPPAFEQARDRYYLWPDATSTFQFSATDAGGAPAYAAGGLPAGATLDAATGTVTWKPTDRDPGVHKVQIVADDGAAVTARTFELVVAKNRPKMIDAAVADGTDEGAVYTTASKEPYQAALAATRYASENGSDSEFRTAFQGLLDAIEALELLNSRLSDGSIDYPGAVTPGGISADAARALADGNNHSHSGDLRVGFFTFDFGTKYRVKAEKFGLQARFSFPMRSQGTNVYGSNDGITWTLLTERPTGDTNDMETIAVKAEHRGKEFRYLKLQIDEPAPPIDPAYPGIWSVGEFHVFGDRSEVPGDITDVSVASPGAVAGRVTAGGDINVTFTSAKPVSNVAVSVGGQKLTAASADSLSWTATGKLGDLTGGGRLDVVIDNTTQNGQAAATIHGSTDGTALYGSDERNLIDLTDAQVVKADGSADSSKATHSANMLDSKPATFSDVPAIDGQYYLIWDFGAGMQVSVDRFDYLARQDSEGVRRMNDQVLQGSNDLNTWTTIADASYKTLSWQNLDATDAGSYRYLRVANKAPIYVAELRLFGAAKYDIGPLLQRADAVDLSTYTRGSKLLFPREVAAVREALAKQGADEQALARRLLDAWDLLDPSAAVAPATFEQSWVAASTATADGATSAAANGWRMFDGNTGTYTDTTTKSCTNTVLPADGSAFKVVGVKYFPRDNAVLRATGMGIQGSNDGGATWTQFASTGTPVRGWNTITLTEPVHYGALRINGGNGFCNVAELQFIVETIDKSGLAVYLVDAKALTEGGWTADSWAAFAAARDAATAVNGNKGASQEEVDQAADKLAQAIKGLTAA				NA	NA	NA	NA	NA
D1-29_00807	1353			hypothetical protein	ATGAACGCGCAAGAACTACGGCCCGCCTTCCACTTCACCGCCGGCGAAGGATGGATCAACGATCCCCTCGGTGTGACCTGGAAGGACGGCCAGTACCACCTCTTCTACCAGTACGTCCCGGGCAGCACTACGTGGGCCTCTAACTGCCACTGGGGCCATGCGACCTCCCCGGACATGATCGCCTGGACCGAGCAGGGCATCGCGGTCGCCCCCGGCGACGGGGACGACGGCGTCTGGTCCGGTTCCATCGTCACCGCCGCCGACGGTGCCGCCACCATGTACTACACCTCTGTCACCGAGCCTGACATCGGCATCGGCACCGTCAGGGCAGCCACCCCGGACGACGCCTCCTGGAACTCCTGGACAAAAGGTCAAAAACTGATGACCGCACCGGACCTGGGCGTGGTGGCCTACCGGGACCCATTCGTCTTCCGCGATGGCGAACAGTGGCGCATGTTTGTGGGCGCCGGACTGGAGGGCGGCACCGCCGCCGCGGTGTCCTACAGCTCACCCGACCTTTCCGAGTGGACCCTGGACGGCATTGCCGCCCAGCGGAGCGGAATCGAATCAGACCCCGTCTGGACCGGCACCATGTGGGAGTGCCCGCAGTTGTTCGAAATCGACGGCTCCCACGTCCTGGTCACCTCCATCTGGGAAGACGACGTGCTGCACTACGTCGCCTACGGCGTCGGAACCTACGCCGGCGGTAAGTTCACCGCCCGATCCTGGGGCCAGCTCAGCTACGGCAAAAGCTATTACGCCCCCTCCTTCTTCAGAGACAAAGACGGCGCACCATCGCTGATCTTCTGGGTCCGCGGCGTGATCAGCCCTAAGGCACAATGGGCCAGCGCCCTGAGCATCCCCCACACGCTGACCCTCGACGGCGACACCCTGGTGGCGACCCCGCACGCCGACCTCGCGACGTACTCCCGGCCGGGATCCCTGAATCCGGTCAGCGCCGGGGTTTTCGAGACAGTGCTCGACGGCGGTGCCGACCTTCGGTGCACCGTCACCGCCGGGACAGTCATCAGGCTCGCCACCGTGGACGGGCCACTGGCCACCGTCCGGCATGATGGCGACGGCATCGAAGTCACGGTACCCGGCAACGCGGACTTCACGGACGCTTTCCTGCCGGTTGACGAGGGCTGCGAACTGCGGGCCATCATTGATGCCGGGGTGTTGGAAATCTCCGGCCGCCAGGGCATCATGGCCGTGCCCCTGCCCATCATGGACACTCCCGTGACGCTGACAGTGGCCAACACCGCGTCCACGCCCCTGCTCAACACGGTCGAGGGTCAGGCCGTAACGTGGCCTACGGCCTTGGCGGGCTCGGAACGGACACCGGCCTACTGA	MNAQELRPAFHFTAGEGWINDPLGVTWKDGQYHLFYQYVPGSTTWASNCHWGHATSPDMIAWTEQGIAVAPGDGDDGVWSGSIVTAADGAATMYYTSVTEPDIGIGTVRAATPDDASWNSWTKGQKLMTAPDLGVVAYRDPFVFRDGEQWRMFVGAGLEGGTAAAVSYSSPDLSEWTLDGIAAQRSGIESDPVWTGTMWECPQLFEIDGSHVLVTSIWEDDVLHYVAYGVGTYAGGKFTARSWGQLSYGKSYYAPSFFRDKDGAPSLIFWVRGVISPKAQWASALSIPHTLTLDGDTLVATPHADLATYSRPGSLNPVSAGVFETVLDGGADLRCTVTAGTVIRLATVDGPLATVRHDGDGIEVTVPGNADFTDAFLPVDEGCELRAIIDAGVLEISGRQGIMAVPLPIMDTPVTLTVANTASTPLLNTVEGQAVTWPTALAGSERTPAY	PGPT0018815_2936	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193	NA	NA
D1-29_00808	1365			hypothetical protein	ATGTCTTCATCGCCGCGCTCCGGCCTGCTCTCAAGCCTGACCAAGCTCTCCGCCGCCCGCACCGCCCGCGCCTCCAGCTGGGACCAGACCGGCCGCAACCGGGACAACTGGATCATCATGCCGGGCGAGGAACGGGTCCTGGCGGACCTCGAAGGGCCCGGCGCCATCACCCACATCTGGATGACCCAGTCCTGCCGCATCCAGCCGGGCCCGGGGCAGATCTCTCCCGAACTGGTGGGCGTGCCGATGCTCGAGATCCACAACGCGTTGGGCGTCAGCTGGGAGGTCGTGGACCCGGACTACTACCGCAAAATCGTCCTCAAAATGTACTGGGATGATCAGGAAATCCCCAGCGTCATCGCACCACTGGGCGACTTCTTCGGCCTGATGAACTCCCTCTCCGGCTCATACGACTCCCTGCCGCTCTCCGTCTCCGCCAAGGAACCGGAACTGAACACCTTCGGCGGCAGCGCGGCATTCAACAGCTACTTCGAAATGCCTTTCAACTCCCGGGCCCGGATCACGGTCGAAAACCAGAACGACATTCCCTACCTGCAGTACTTCTACATCGACTACGAGCTCTACACCGAGCCCCTCCCGGAAGACACCGCGTACTTCCACGCGCACTGGCGCCGGCAGAAGCCCAATGCCGGCTGGGGCCCTGACCTGCAGACCAACAGCATCGAGGTGGCCATCCCCAACCTCTCGGGCCAGGACAACTACGTGGTGCTCGAGACCGAGGGGCAGGGCCACTACGTGGGCTGCAACCTCGCCGTCCGGCACTTCCAGGGCTCCTGGTGGGGCGAGGGCGATGACATGATCTTCATCGACGACGACACCTGGCCGCCCAGCCTGCACGGCACCGGCATGGAGGACTACTTCGGGCACGCCTGGGGCATGCAGCACAACGCCTTCCTCATGAACGGCACCATGGTCCATGAGGAGAACGTGCCCGGCTTCCACCACAGCTACCGCTTCCACATGACCGATCCCATCCGATTCCAGAAGCGCATCAAGGTCACCTTCGAGCACGGCCACGCCAACCACCTCTCCGACGACTGGTCCTCCACCGCCTACTGGTACCAGACGCTCCCCTCCCCCATCCTGGACATCGACGCCGTGGAAGACCGCCTGCCGCTTCGCCCCCGCGACCAGGTGGAGGAGCGCCCGCTGCCGGAGCTGACGCCTGCCCAACAGGCCGCCCGCGACGCCTCCGCCGAACGGATGCGGCAGTTCACCGAGACGCGGGATGCGGTCCGGAACGAACGCAGGGCCGAGATCGACCAGTGGGAGAAGGCCAACGCCGAGCAGGCCCGGGAGGTCCGTCAGCGGTTCCTGGCCGCCAACAGCGTCCCCGTCAGTTAA	MSSSPRSGLLSSLTKLSAARTARASSWDQTGRNRDNWIIMPGEERVLADLEGPGAITHIWMTQSCRIQPGPGQISPELVGVPMLEIHNALGVSWEVVDPDYYRKIVLKMYWDDQEIPSVIAPLGDFFGLMNSLSGSYDSLPLSVSAKEPELNTFGGSAAFNSYFEMPFNSRARITVENQNDIPYLQYFYIDYELYTEPLPEDTAYFHAHWRRQKPNAGWGPDLQTNSIEVAIPNLSGQDNYVVLETEGQGHYVGCNLAVRHFQGSWWGEGDDMIFIDDDTWPPSLHGTGMEDYFGHAWGMQHNAFLMNGTMVHEENVPGFHHSYRFHMTDPIRFQKRIKVTFEHGHANHLSDDWSSTAYWYQTLPSPILDIDAVEDRLPLRPRDQVEERPLPELTPAQQAARDASAERMRQFTETRDAVRNERRAEIDQWEKANAEQAREVRQRFLAANSVPVS				NA	NA	NA	NA	NA
D1-29_00809	906	araQ_5	COG0395	L-arabinose transport system permease protein AraQ	ATGAGTAACGCCACTATCCTGTCGTCCCGTTCAGGTGCCGGAACCCAAGGTTCCGGGAAAGATGTACGACGGCGGCGGCCCCGCCCCGGCGTCGGCAAGACTGTATCGGTGGCGCTGCTGGTCCTGGGCGCCATCGGGATGATCGCACCGTTCCTGTGGATGTTCACCACCTCGCTCCGGGACGCCAGCCAGGCGTACGACCTTCCGCCGCAGTGGCTGCCCATCGAGTGGGACTGGTCCAATTACGCGGACGCGGTCAGCGGACCGGTCCCCATCCTGAGGAACATGTTCAACAGCGCGGTGATTGCGATCGCCGTCAGCATCGGCATGATCATCACCGCCCCCATGGCCGGGTACGCCTTCGCCAAGTTGAACTTCCCGGGCCGCAACTCGATCTTCGTGGGCCTGCTGTCCTCGCTGATGGTGCCGGCACAGGTGACCATCATCCCGTTGTTCCTCCTGATGCGGACCTTCGGCCTGCTGGACAACCCGCTCAGCCTGATCCTGCCCGGCATCACTGGAGCCCTGGGAGTGTTCCTGCTGCGGCAGTTCTTCCTGGGCCTGCCGCAGGAGATCATCGACGCGGCGAGGATGGACGGGGCCACGGCTTGGCAGACATACCGGCTGATCGCGCTGCCACTGGCCAAAAACGCGGTAAGCACACTCGGCGTCATCACGTTCCTGGGCAGCTGGAACGCCTACTTCGCCCCGTCCATCTTCCTCAACAGCACGGACACCGCCACCCTTCCGCTGGGCCTGGTCCTGATGCTCGGCCCCTACGGCGCAGGCAACGTGGCCCAGGTGATGGCAGCAACCACCATCGCCATCGCACCGGCACTGATCGTCTTCCTTGTGGCACAGCGCTGGATCATCGCCAGCCTCACCCAGTCAGCCGTCAAAGGCTAA	MSNATILSSRSGAGTQGSGKDVRRRRPRPGVGKTVSVALLVLGAIGMIAPFLWMFTTSLRDASQAYDLPPQWLPIEWDWSNYADAVSGPVPILRNMFNSAVIAIAVSIGMIITAPMAGYAFAKLNFPGRNSIFVGLLSSLMVPAQVTIIPLFLLMRTFGLLDNPLSLILPGITGALGVFLLRQFFLGLPQEIIDAARMDGATAWQTYRLIALPLAKNAVSTLGVITFLGSWNAYFAPSIFLNSTDTATLPLGLVLMLGPYGAGNVAQVMAATTIAIAPALIVFLVAQRWIIASLTQSAVKG	PGPT0016540_7004	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
D1-29_00810	957	melD_5	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	GTGACCTTGACTGCCCCCAAAACCGCGTTGCCGCCCGCGCCCCCTTCAGGGCGCGGGGGGCGCCCCGGGCACCAAAGCACCGCCCGGCGTCGGGAAGCTCTCACCGGCTACCTGTTCACGGCCCCCACGGTCATCGGCTTCCTGGTTTTTATCCTCGGCCCGCTGGTCGCAGCCCTCTACCTGAGCCTGACGAAGTACAACATCCTCACCGCGCCAAATTTCATCGGGTTGGACAACTACGCACGGATGTTCCGGGACGAGCGCCTGGCCACGACGTACGGCAACACTGTCCTCTACGTGGGCGCCGCCGTCGTCCTGATCAACGGGTTCGCGCTCCTGTTCGCGGTGCTGATCAACCAGCGGCTCCCCCGGGCCCTGACCTACGTGTTCCGCTCCGCGTACTTCTTCCCGTACCTCGTGGCGCTGGTGTACGTGTCCATCATCTGGCAGGCGCTGTTCCAGAAGGACACGGGCATCCTGAACTACTACCTCACTGCCATGGGCGGGGAACGGATCGACTGGCTCAACAGTTCGGAGTTCTCCAAGGTGTCGGTGGTCATCGTGGACACCTGGCGGAACGTGGGATTCGCCATGCTGATCTTCGTCGCGGCGCTGCAGGAAGTCCCCAAGGACATGGTGGAGGCCGCCCGGATGGACGGCGCGAACGAGTGGCAGGTCTTCCGCCGTATCGTGCTGCCGATGATCAGCCAGGCGACGTTCTTTAACATCACCATCACCATCATCGGCGCGTTCCAGATCTACGAATCGATCATCGTGCTCACCAGGGGCGGCCCGGGCGATGCCAGCCGCAGCGTGGTGATGTACATCGCCGAAGTCGCGTTCAACAAGTTCGACATGGGCTACGCCTCAGCCATCGCGGTCACGCTGTTCGTCATCATCATGCTGGTGACCATGGTGCAGTTCCGCCTTAGGAAGTCGTGGGTGACCAATGAGTAA	MTLTAPKTALPPAPPSGRGGRPGHQSTARRREALTGYLFTAPTVIGFLVFILGPLVAALYLSLTKYNILTAPNFIGLDNYARMFRDERLATTYGNTVLYVGAAVVLINGFALLFAVLINQRLPRALTYVFRSAYFFPYLVALVYVSIIWQALFQKDTGILNYYLTAMGGERIDWLNSSEFSKVSVVIVDTWRNVGFAMLIFVAALQEVPKDMVEAARMDGANEWQVFRRIVLPMISQATFFNITITIIGAFQIYESIIVLTRGGPGDASRSVVMYIAEVAFNKFDMGYASAIAVTLFVIIMLVTMVQFRLRKSWVTNE	PGPT0016535_5034	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
D1-29_00811	1305	yesO_3	COG1653	Putative ABC transporter substrate-binding protein YesO	ATGAGAAAAACAGTCCGCACCTCCATCGCCACGGCGGCAGCCGTCGCGCTGCTGGCCCTCACCGCGTGCGGGAGTGCCACCGAAACGGCAGCACCAGCGGCAGACGGTCCCTACACCGCCCCGGCCAAGGACGTCACGGCCACCATCTCCGTCTCCAACTGGGGTGACCCTGGGGACAAGGCGGTGTATGACGGCGTGGCCGAACGGTTCAAGGAGAAGTATCCGAACGTCACGGTGAACAACAACTTCACCCCCATCACCACTTGGACCGAGTACGTGAACAAGCTCGTCACCCAGGCTGCGGCCGGGCAGGCCCCGGATGTCATAAACATCGCCACCGAGGGTGTGGAACTAGGCCTCGCCAATGAACTCTTCAGCCCCCTGGACGGCTTCCTCAAGAACGACCCCGAAGCCAAGTCCCTGCGCGAGGACATCGATCCGAAGCTGCTGGCAGGATTCAGCAAGGACGGCTCCACCTACCTGATGCCCAACACCTTCAACACCATGGTGATCTTCTATAACACCAAGATGTTCGAGGCTGCCGGCATCGAGCGGCCCGGCGATGACTGGACCTGGGACGAGTTCCTGGAGATCTCCAAGAAGCTGACCACCGGCGAAGGCGCGGACAAGGTGTACGGGTTCGTGATGCCGTACTACTCCTTCGGTATCACCCCGTGGCTGTACTCCAACGGCACGTCGATGATGAGCGAGGACCTTAAAACCGCGCAGCTCAGGGACGGGAAGGTCAAGGAAACAGTGGGCTGGGTCCGGGACCTGGTCACCAAGCACGGGGTTTCGCCGCAACCGAAGGGATCTGACCCGTACCAGCTGTTCCCGGCCGGAAAGGCAGCCATGACCGGCGCCGGGCACTTCGTCACCGGCGGCTTCGAAAAGGCCGGATTCGAAGACTACGACATCCTGCCCTGGCCGAAGGGAACCACCAAGTCCACCGTCTTCGGCGCCGGCGCGTTCGCCGTCTCCAAGGCCTCCAAGAACCAGGAGCTGTCCTGGGAGTTCATCAAGATGCTCACCGACCAGCAGACCCAGAAGAAGTGGGCCGACGCCGGCGCCGCCGTTCCGTCAACCAAGACCGCCGCTTCGTCGCCGGAGTTCCTGGCCTCGCCCGAGCACGCCGAAGAGTTCTACAACTCGCTGTCCTACGCCAAGCCGGTAGCGGCCCCGGGCGTCTACAACGTGCTGGATCCGGCGTTCATGCGGGCCATGGACGAGATCATGTCCGGCCAGGACATCGGCTCCTCCCTGGAGAAGGCCCAGAAGGATGTTGAGGAGGCGTTGCAGCAGTGA	MRKTVRTSIATAAAVALLALTACGSATETAAPAADGPYTAPAKDVTATISVSNWGDPGDKAVYDGVAERFKEKYPNVTVNNNFTPITTWTEYVNKLVTQAAAGQAPDVINIATEGVELGLANELFSPLDGFLKNDPEAKSLREDIDPKLLAGFSKDGSTYLMPNTFNTMVIFYNTKMFEAAGIERPGDDWTWDEFLEISKKLTTGEGADKVYGFVMPYYSFGITPWLYSNGTSMMSEDLKTAQLRDGKVKETVGWVRDLVTKHGVSPQPKGSDPYQLFPAGKAAMTGAGHFVTGGFEKAGFEDYDILPWPKGTTKSTVFGAGAFAVSKASKNQELSWEFIKMLTDQQTQKKWADAGAAVPSTKTAASSPEFLASPEHAEEFYNSLSYAKPVAAPGVYNVLDPAFMRAMDEIMSGQDIGSSLEKAQKDVEEALQQ	PGPT0016545_6669	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
D1-29_00812	1017	purR	COG1609	HTH-type transcriptional repressor PurR	GTGGCAACCATCGTCGATGTCGCATCACTTGCAGGCGTTTCGACGTCCACTGTGTCCCACGTCCTCAACGACACCAGGCATGTTGAACCGGAGACCAAAGAGCGCGTCATGAGCGCTGTGAAGGCCACCGGTTACCGGCGGGACGTCCTGGCCCGCTCCATGCGCCGGGCCAGGACCGATTCCATCGGCCTGGTGGTGTCCGACGCCGGGGAGCCGGCTTTTGCGGACATGGTGCACGGTGTGGAGGAAGCCGCGGCACAGCATTCCCTGTCCCTGCTGCTGGCTAACTCGGCGGAAGATCCCGCCCGGGAACGCGCAGCCGTGGAGGCCCTCCTGGACCGCCGTGTGGATGGCCTGATCATCGCGCGGGCAGCGGGTTCAAGCCCCGTGCTGCTGGAGCGGATCCGCGAGGAGAAGAAGCCCCTGGTCCTCCTGGACCGCCTCGCGGACCTGGACGCCGGAGCAGGGCACATCGACCAGGTGGGCGTCAACAACCAGTCCGCCATGGCAGCCCTGGTGGACCACCTCACGGACCGCGGCCACCAGCGCATCCTGCTGGTTTCCGGCGATCTGCGGGTCTCATCCCTCCGCGAGCGCCATGACGGATTCCACACCGCCATGCTCGAAAAGGGGCTGGAGGTCCCGGCCGGCCTGCTGTGCGAAGGCACAGTCACCGCGGCTGCCACTTTTAACCGCGTCCAGGCGGCCCTCCGCGCTGCGGAACGGGGTGAACGTCCGACGGCGGTCCTCGCCTGCAGCACGCTGCTGGCAGCAGGTGCGCTGCGGGCTGTGCAGCACGAAGGGTTGCGCGTGCCGGGAACCATGGCCTTCGCCACGTTCGACGGCTTCACCTACTCGGACCTGTTCCAACCCCAGATCACCACCGTCCGCCAACCCGCTTTCCAACTGGGTGAGAGCGCCGTGAGCCTGCTCCTGCGGCGCCTCGAAACCCCTGACGCTCCTCCCAAAATCCTCCGGCTTGAGTCCCAGATCGAGTTCCGCCGCTCCACCGAATGA	MATIVDVASLAGVSTSTVSHVLNDTRHVEPETKERVMSAVKATGYRRDVLARSMRRARTDSIGLVVSDAGEPAFADMVHGVEEAAAQHSLSLLLANSAEDPARERAAVEALLDRRVDGLIIARAAGSSPVLLERIREEKKPLVLLDRLADLDAGAGHIDQVGVNNQSAMAALVDHLTDRGHQRILLVSGDLRVSSLRERHDGFHTAMLEKGLEVPAGLLCEGTVTAAATFNRVQAALRAAERGERPTAVLACSTLLAAGALRAVQHEGLRVPGTMAFATFDGFTYSDLFQPQITTVRQPAFQLGESAVSLLLRRLETPDAPPKILRLESQIEFRRSTE	PGPT0017992_8067	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
D1-29_00813	999	rbsR_5	COG1609	Ribose operon repressor	ATGACGACGATGGTAAAAGTGGCCAAGCTTGCGGGCGTGTCCATTTCCACCGTTTCCCACGTCCTCAACGGGACACGCCACGTAAATGATGAGACCCGGCAACGCGTCCTGAAAGCCATCGAGGAAACCTCCTACCGGCAGGACGCCCTGGCCCGTGCAATGCGCCGCTCCCGCACAGACAGCATCGGCCTGATAGTGTCCGACGGCGGGGAGCCGGCCTTCGCGGAGATGATCCGTGGGGTGGAAGAAACAGCGGCCAGCCAGGGCATCACCTTGCTGCTCGCCAATTCGGCAGAGGACCCGCAGCGGGAGGCCCGGGCCGTCCAGGCGCTCCTCGAGCGCAGGGTGGACGGACTCATCCTGGCGCGCGCAGCCGGCTCAGGCCCGGAAGCCCTCAGGGAGTTCGCCAACCAGGACACGCCGCTGGTGCTGATGGACCGGCTGTCCGATGACCCATACGACCAGGTGGGTGTTGAAAACCGTGCTCCCATCAAGGAACTGGTGGAACACCTCGCATCCCAAGGCCACCGGCGGATCCTGCTCATCGCCGGGGACACCAGGGTTGCCACCCTCCACGAACGGCACGAGGCGTTCCGGGAGGCTATGACGACGGCGGGCATAGCGGAGGCGGACCTGCTGACAGTCACCGCGGGCGAACCTGAAGAGACCGACGCCGGGATCGCAGCAGCGCTGTCCGCAGCCAAACCGCCTACCGCCGTCATCGCGTGCAGCACCGTGCTGGCCGCCGCGTCGCTCCGGCATATCCAGCGGCTGGGCCTGAGGATGCCGCAGGACATTGCCTTCGCCACATTTGACGGCTTTGCCTTTTCGGACCTGTTCGAACCGCAGCTCACCACTGTCCGGCAGCCGGCCTTCCAGGTGGGTGCCACCGCGGCTGAGCTGCTGACCAAGAGGATCGCGGACAAGTCGGGCGAACACTCGATTGTCCGCCTGGCGCCCACCATCGAATACCGCTCCTCCACCGGCCCTCGCATTTAA	MTTMVKVAKLAGVSISTVSHVLNGTRHVNDETRQRVLKAIEETSYRQDALARAMRRSRTDSIGLIVSDGGEPAFAEMIRGVEETAASQGITLLLANSAEDPQREARAVQALLERRVDGLILARAAGSGPEALREFANQDTPLVLMDRLSDDPYDQVGVENRAPIKELVEHLASQGHRRILLIAGDTRVATLHERHEAFREAMTTAGIAEADLLTVTAGEPEETDAGIAAALSAAKPPTAVIACSTVLAAASLRHIQRLGLRMPQDIAFATFDGFAFSDLFEPQLTTVRQPAFQVGATAAELLTKRIADKSGEHSIVRLAPTIEYRSSTGPRI	PGPT0017992_8067	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
D1-29_00814	510			hypothetical protein	ATGAACAATGACGAGGGCGAGGTGCAGAAGATGGAGCCCGGCCAAGGACGCGTCCACATTGGCGTGTTGCTGAGAACCGGCTGGCACGGGTTCCTGGACGAGCTGTTTGAACGACTGGCCCACGAGGGCTTCGACGACCTGACGCCGTCGCATTCGCCTGTCTTCCAGCACATCGAGCGCGGCGGCACACGCATCGGCGTATTGGCCGAACGCGCCCACATGACCAACCAGTCCATGGGCTACCTGGTCGACGCGTTGGAGGCCCGGGGGTACTTCGAGCGCAAGCCCGACCCCGACGATCGGCGTGCATCGCTTGTAGTGATCACGGATCGCGGCCGCGAGCAGATCCGTGTCGCTCGCCGGCTGATCGCAGACATAGAACGCGAGTGGGAGGAGCGCATCGGCGACGAGCGGATGGCGCTGCTGCGCGAGGCCCTCGAGGCTTTAGCGAGCTCGCTCGGCAACGACCTCGGCCGGCGCCCCCCGCGGCGGGCCGCTGAGCGTGTTTGA	MNNDEGEVQKMEPGQGRVHIGVLLRTGWHGFLDELFERLAHEGFDDLTPSHSPVFQHIERGGTRIGVLAERAHMTNQSMGYLVDALEARGYFERKPDPDDRRASLVVITDRGREQIRVARRLIADIEREWEERIGDERMALLREALEALASSLGNDLGRRPPRRAAERV	PGPT0016185_226	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-TEMPERATURE_DEPENDENT_REGULATION,PGPT0016185-hosA-K22489	NA	NA
D1-29_00815	711	rutB	COG1335	Peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB	ATGGTCACCATCGACGCCAGGCCTGAACCCACGACCATCGATCCGTCGCGGAGCGCGCTGATCGTCGTCGACATGCAAAACGACTTTGGCTCCGAGGGCGGCATGTTCGACCGTGCCGGCGTCCCCATCGATGGCATTAAAGCTGCCGTGGCGCCGACAGCGCGGGCGATCGCTGCGGCCCGCCGGGCCGGTATCCCGGTCGTCTACCTGAAGATGCAGTTCGAACCGGATCTGTCGGACGCCGGCGGCATCGATGCGCCGAACCTCGTCCTCCACCGTCGCCTCGGGGTAGGCGACACGGTTCCGACGCCGGCCGGCGGCGAGGGCCGTATTTTGGTACGGGACACGTGGGGCACGGACATCGTTGCGGAGCTCGCGCCGCAGGAGGGCGACATCATCGTGCCCAAGCACCGCTTCAGCGGCTTCTTCGAGACCGACCTCGATAAGACGTTGAGGAGCCTCGGGGTAACGTCCTTGGTATTCACGGGGTGCACCACGACGGTCTGCGTCGAGTCGACGCTGCGCGACGCCTTCTTCCGCGACTACCACTGCCTGCTGCTCGAGGACTGCACGGCCGAGCCCATCGGGAGTAACCTGCCGGGCACCAACCGCGACGCGAGCATCCGGGTCATCGAGATCATGTTCGGCTCCGTCTCGGACTCATGGGCGTTTGAGACCGCCCTCCTGCAGCCGGTCTCGGCGTCCGCCTGA	MVTIDARPEPTTIDPSRSALIVVDMQNDFGSEGGMFDRAGVPIDGIKAAVAPTARAIAAARRAGIPVVYLKMQFEPDLSDAGGIDAPNLVLHRRLGVGDTVPTPAGGEGRILVRDTWGTDIVAELAPQEGDIIVPKHRFSGFFETDLDKTLRSLGVTSLVFTGCTTTVCVESTLRDAFFRDYHCLLLEDCTAEPIGSNLPGTNRDASIRVIEIMFGSVSDSWAFETALLQPVSASA	PGPT0021270_181	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021270-rutB-K09020	NA	NA
D1-29_00816	204			hypothetical protein	GTGGCCGAACTGATCGGCTGGTTGCGGGATCACGGCCGCGATGCCTCGTTCCCGCAGGTGGGTCGGATCGCCCGGGATGAGTACGCCTTGTCAGGTGCCGTGCTGGTGGGCCGGTTCACCGTCGAGTCAACCAAGACAGACCAATCCACACCGCCCCTGGAGTCAGCCAAGGTCGGCAGCTCGGCCAGGATCTTTTCTAGCTAA	MAELIGWLRDHGRDASFPQVGRIARDEYALSGAVLVGRFTVESTKTDQSTPPLESAKVGSSARIFSS				NA	NA	NA	NA	NA
D1-29_00817	327			hypothetical protein	GTGAAGCTCAGAACCGGGCTGGTCCTGGCTGTCATCCTGGTTCTTGGGGCCACAGGGTATTTTCTGGTCCGGTCAGCCGAGGACAGGGTCACTGCCGACATGCTCTCGCGGGTGGAGCGTTTCGCGATTCCCTCGGACTGGCAGCTGGACGTCGAGACTGTCTGGCCCGAGCGGTTCCTATGCATCAGTACCAACCCCTGCCCCAGCTTCTACCGGCGATGGAACGCCGGCAAAGAGCTCACCGCCGCAGAGGTAGATCCTGGAGGCCGATGCGCCACAGGCCTCTCTTATCTTGCTCCATTCGGCTGTGAGGATCGTGCGCTTTGA	MKLRTGLVLAVILVLGATGYFLVRSAEDRVTADMLSRVERFAIPSDWQLDVETVWPERFLCISTNPCPSFYRRWNAGKELTAAEVDPGGRCATGLSYLAPFGCEDRAL				NA	NA	NA	NA	NA
D1-29_00818	882			hypothetical protein	ATGAATTATCAACCTAAGGCCCTGCGTGCTCTCTTGGCGGCCGGCCTGACAGCGGTGCTCTGTGCCGGAGCAACCGTCACGGCGCTTCCGGCAGCCGCCGCAGAGACGAAGCTTCGGGTCATCCAGCACAACACCGATCAAATTCAGGAGCGCTGGAACAATGTCCTGAAGCTTGCTGGCGACAATGATGTACTGCTCGCTGAAGAGGTCTGCGAGGCCTGGTACGAAAAAGCCAAGAAGGACAACCCCGGATGGACGTTCTCTTTCCACCGGCAGACACTGACCCCCGCTAATGAAAAAGCGGATACCTGCCCGGAGTCGGAGAAGGGCACGAAGTCGGCGGACGGCACAGAGCAGAAGACCTGGAAGGGCCTTGTCGCTGTTCACACCGGCAAGGGCGACACCAAGGACATTGATTTCTACGGCGCCAAAGTGAACGAGGAAAAGGGCAAGACTTTCGGGATGGCCTGCGTGGACTTCCGGAAGGCCGGCAAGAAGGTAATGGCCTGCGCGACGCACCTGGAGCTTGGTTCAGAGCCAGTGCGCACCGAGCAGACGAAGAAAATCAAGAAGATCACCAAAAAATGGATTAACGATAACTTTGCCGTCGTCGTCGGGGGTGACTTCAATAGTCAACCCGGGACAGATCCGATGTCGAACATGTACCAGTACGGTGTCGACAGTCAGGGAAAGTTTGTGGAGGGGCACCAGCTCAAGACCGGAGAAGCGGCTCGCGATGGGGCCTTCACGGTTGAAAATAGGAAGATCGACTATGTGTTCTTCGACGCTAAGCACACCCCGCTGAAGTCCGGGGGGACCTTTCACGTTGATCGGGTAGCGAACGGACACGCGATCCTTACGGCGACAGCCAACATTAAATAG	MNYQPKALRALLAAGLTAVLCAGATVTALPAAAAETKLRVIQHNTDQIQERWNNVLKLAGDNDVLLAEEVCEAWYEKAKKDNPGWTFSFHRQTLTPANEKADTCPESEKGTKSADGTEQKTWKGLVAVHTGKGDTKDIDFYGAKVNEEKGKTFGMACVDFRKAGKKVMACATHLELGSEPVRTEQTKKIKKITKKWINDNFAVVVGGDFNSQPGTDPMSNMYQYGVDSQGKFVEGHQLKTGEAARDGAFTVENRKIDYVFFDAKHTPLKSGGTFHVDRVANGHAILTATANIK				NA	NA	NA	NA	NA
D1-29_00819	633			hypothetical protein	ATGGCTACTCCGCCGCAGAGCTGCCACAAGCGGTCAGCCTTCGCCTTCGACGCGTATGTCGAAACTCCATACTTCCGTCTCACTCCCCTGCTGTTCCCTCGTGCTGGTCGCAATCGGTACAGCCCAACTCGTTTTGCTGTCACCGACAGTAACTGCTGTGGCTGTTCTCGTCGGTGCTGTCTTCGCGGGCTGGGCTCTGTTCCGCTTCCCGCCACCGCTGCAAATCAGAAACGGACTCCTCCTCGTTATACCTGTCATCTGGTTCGCTTTGGCGTTCATCGGGGGAGCCACCAACCAAATGGCCCTTCCACATGCGTGGGCGTACGGCGTTCTCGCCGGCATCCTGATCGGCGGGCGGTACTGGACTGGTCCCCGGCGGGGCCAGCCCCGTCCACCGTTCAATGGCCTTGGCTCGCGGCGACGCCGGCGGAAACGGCGGCCCAGGCAGAAGCAGTCGAAGCAGTAAACGCAGAAGCTCCGACAACTCGGGGCTCTGGACAATCAGGATTCACCGACGACTGCGTGATAATTCCATTCGTTAGATGTATCTTCAGTCAGAGGTGTCTACCACCTCTCATTGGGGGAATTTCGTCGTCCCCGGACACATTCAACGAAAGGGATCGACAACGATGA	MATPPQSCHKRSAFAFDAYVETPYFRLTPLLFPRAGRNRYSPTRFAVTDSNCCGCSRRCCLRGLGSVPLPATAANQKRTPPRYTCHLVRFGVHRGSHQPNGPSTCVGVRRSRRHPDRRAVLDWSPAGPAPSTVQWPWLAATPAETAAQAEAVEAVNAEAPTTRGSGQSGFTDDCVIIPFVRCIFSQRCLPPLIGGISSSPDTFNERDRQR				NA	NA	NA	NA	NA
D1-29_00820	267			hypothetical protein	ATGACAGCGCAGATCGAAAATCTACTGGCCTCTTTGAACGAGGAATTGCGATTTGCCAAGGAGGAGCGCGCCACAGGCGCGTCTGATGTGTCACTTCAGTCCGTGGCGAGTTTGCTTCAGCGAGCCGACAAGTTTACAGCTTCGGGTCAGTGGGCAAACGACCAAGAACTTTTGAACGCTGCCGCACATCACATATCGGACTCATGGGGCTTTAGGTCAACGCTGGGTGTGGAGATTCTTGAATTTGTACGAGCGAGCAAGCCGTGA	MTAQIENLLASLNEELRFAKEERATGASDVSLQSVASLLQRADKFTASGQWANDQELLNAAAHHISDSWGFRSTLGVEILEFVRASKP				NA	NA	NA	NA	NA
D1-29_00822	1191			hypothetical protein	ATGGCTCGCATCCCCAAAACGGCAGCCTGCCCCGCTGGTGCCTGGCAAGGTTCACAACCGCAAGTACGGGCCACAAGTGTCCGTTCGCGCTGCCTGGCTTTGTCCGTAAAGCCGGGCGGGACTAGATTCATAAGCAAGATGACTAATTCAGGCGAACCAGCGCAGGCAACAGCATATTGGACCACCGGCCCGGAGCATGGCGAACTCCGCACAGAGGAGCTGCCCGCCCCGGGGCCAGGTCAGGCGCTGGTCCGCACCCTCTACTCCGGGATCAGCAAGGGCACCGAGATTGTGGTGCACAAGTGTTCGGTCCCGCCGCGGGTTGCCGAGGAGATGCGCGCCCCGCACCAGGAGGGCTCCTTTCCGTCCCCCGTGAAGTTCGGCTACCTGTCGGTGGGCGTGGTGGAGCAGGGGCCCGGGGACTGGGTGGGCCAGAAGGTGTTCTGCCTGAACCCGCACCAGGACCGGTACGTTATCGCCACCGATGCCCTGACCAGGATCCCCGACGGCGTTCCCGCCCGCCGCGCTGTCCTCACCGGCACTGTGGAAACTGCCGTGAATGCCCTCTGGGAGGCCGGCCCCCGGCTGGGGGACCGGATCGCCGTCGTCGGCGCCGGCCTGGTGGGCGGCATGGTGGCCACCCTCCTTCGCACCTTTCCGCTGTCCCGCCTCCAGCTGGTGGACCTGGATCCTGAGCGGAAACACCTTTCTGACCGGCTCGGGGTGGAGTTCGCCCACCCGGATGACGCCCTGGCCGACTGCGACATCGTGTTCCACTGCTCGGCATCCCAGGAGGGCCTGGAACGCAGCATGCAGCTGGCCGGCGACGAAGGCGACATCATCGAGATGTCCTGGTACGCCAACCGCGAGGTCACCGTGCCCCTCGGCGAGGACTTCCACGCCCGCCGGCTGTCCATCCGCGCCAGCCAGGTGGGGGTAGTGTCCCGCGCCCGGCGCCACCGGCGGACTACCGCCGACCGGCTGGACCTCGCCGTCGGGCTGCTCCAAGACCCGGTGTTCGACGCATTTATTACCGGCACTTCACCTTTCGCGGAACTGCCGGACGTGGTGCAGAGCCTGACCGACGGCAAGCTGGAAGCCCTGTGCCACGTGATCGAATACCCTGGCGCCGGAGACCCCCAGCAGAACACAGACTCCGCACAAGCCACTGACCCCGAAGACAAGAGGTAG	MARIPKTAACPAGAWQGSQPQVRATSVRSRCLALSVKPGGTRFISKMTNSGEPAQATAYWTTGPEHGELRTEELPAPGPGQALVRTLYSGISKGTEIVVHKCSVPPRVAEEMRAPHQEGSFPSPVKFGYLSVGVVEQGPGDWVGQKVFCLNPHQDRYVIATDALTRIPDGVPARRAVLTGTVETAVNALWEAGPRLGDRIAVVGAGLVGGMVATLLRTFPLSRLQLVDLDPERKHLSDRLGVEFAHPDDALADCDIVFHCSASQEGLERSMQLAGDEGDIIEMSWYANREVTVPLGEDFHARRLSIRASQVGVVSRARRHRRTTADRLDLAVGLLQDPVFDAFITGTSPFAELPDVVQSLTDGKLEALCHVIEYPGAGDPQQNTDSAQATDPEDKR				NA	NA	NA	NA	NA
D1-29_00823	396			hypothetical protein	ATGTTCAGCCTGACCGTCCGTCGCCACTTTATGATTGCCCACAGCCTCCCGCGTGAAGCTTTCGGCCCGGCCCAGGCCCTGCACGGGGCAACTTTCGTGGCCGAGGTGGCCTTCCGCCGTCGGGCCCTGAACCAGGACGCGATCGTGCTGGACATCGGGGCGGCCGGCACCATCATCGAGGGGGTGCTGGCAGGGCTGAACTACCGCAACCTGGACGAGCATCCTCATTTCGACGGCAAACTCACCACCACCGAGGCGCTCGCGGAGTACATCGCCCAGTCCGTCGCTGCACAGCTTAAAGGCGACGACGACGGCCGCGAGCTGGCCGGGATTGACGTCACCCTGCGCGAAAACCCGGATGCCTGGGCAACCTACACCCTGGACATGGCCGGCTGA	MFSLTVRRHFMIAHSLPREAFGPAQALHGATFVAEVAFRRRALNQDAIVLDIGAAGTIIEGVLAGLNYRNLDEHPHFDGKLTTTEALAEYIAQSVAAQLKGDDDGRELAGIDVTLRENPDAWATYTLDMAG				NA	NA	NA	NA	NA
D1-29_00824	1137			hypothetical protein	ATGCTCAGCCTCCGTCTCCTGGTGCCCGCCAACATCCGTCACCACTCCGGCGGCAACGCCTACAACGCCCGGCTCGTTCAAGGGCTAAGGACGCTGGGTGCCCGGGTTGAGGTGCTGGCGGTGGAGGGCTCCTGGCCGGCCGCCAGTGCAAAGGAACGACGGCGGCTGGGGAGCCTTTTGGGTACCTGGGAGACTTCCGCGGAAACCACTTCTGGAACGGTCACCATGGTGGACGGACTCATCGCCTTGGGCGCACCGGACGAACTCGAGTATGCAGCCGCGGCCCGAAGGCCGGCATGGGTTCTGCTCCACATGCCGTCCGCAGGCCATCCGGAGAGCGAGGCACGCGGCCTGCGTGCAGCGGCCGGGGTGATCAGCACCAGCAGTTCCACCGCTGCCGCCATCAGGTCTCTGCACGGATTGGCGGAAAGCTACGTTGCATTGCCCGGAACGGAACCGGCGCCCGTTGCTAAAGGCTCGGACCCGCCGCACATCATTGTGGTGGCGGCGCTCTTGGCCAACAAGGACCAGCTGTTGACTGTGGAGGCCCTGGCGAGGCTTCAGGATCTGGCCTGGACGGCGTCGTTTGTGGGTTCCGACAGCGCCGACCCGGAGTACGCGGAGCTGGTCCGCGCCGCCATCGCTGCCCGCGGGCTCCAAGACCGGGTACGGATCACAGGCCAGCTGACGGGAGAGGCGCTGGAGGACGAATGGAACCGGGCTGACCTGAGCCTGCTGGTGTCCCGGGCCGAAGCCTTCGGGATGGTGGTCACAGAATCACTTGCCCGCGGCATACCCGTCATTGTTCGGGAGGGAACAGGCGCCATGGAGGCGCTGACGCTCGCCGCCCGCGCTGTAGGGCACACCAATGGCGCGGGCGCCGCACTGCCCGACGGCGCACTGCCCGGTGCCGCCGTCGGCCCGCCCAGCTCCCCGGACCTCCAGACGCTGGAACCCGGTACGCTGACGGCCACGAATCCGGAGCCTCTGGCCGCGGGCCTCCGGGAGTGGCTGGAGGAACCGGGGCTCCGCGCCGCCTGGCGGGCAGCCGCGCTTGCCTCCCGTGAACGGTTGCCAGGGTGGGAAGCCACGGCCCGGACGGTGCTGGAAATCGTAGCGGCACCCCGGGAGGATTGA	MLSLRLLVPANIRHHSGGNAYNARLVQGLRTLGARVEVLAVEGSWPAASAKERRRLGSLLGTWETSAETTSGTVTMVDGLIALGAPDELEYAAAARRPAWVLLHMPSAGHPESEARGLRAAAGVISTSSSTAAAIRSLHGLAESYVALPGTEPAPVAKGSDPPHIIVVAALLANKDQLLTVEALARLQDLAWTASFVGSDSADPEYAELVRAAIAARGLQDRVRITGQLTGEALEDEWNRADLSLLVSRAEAFGMVVTESLARGIPVIVREGTGAMEALTLAARAVGHTNGAGAALPDGALPGAAVGPPSSPDLQTLEPGTLTATNPEPLAAGLREWLEEPGLRAAWRAAALASRERLPGWEATARTVLEIVAAPRED				NA	NA	NA	NA	NA
D1-29_00825	507	tadA_1	COG0590	tRNA-specific adenosine deaminase	ATGGTCCCCGCACAAAAGAAACACGGCGAGTGGATGGGCCTTGCCCTGGCCGAGGCCAGGCGGGCACTCGCCACCAACGATGTGCCCATTGGTGCGGTGGTGATAGGTCCCGACGGCGCGGTGCTGGGTTCGGGACGGAACCAGCGGGAGGCCCTGGGAGACCCCACCGCACATGCCGAGATCGTCGCTATTCGCCAGGCGGCTGAGCGGCTGCGGGAGCTTGCCCTGCACGACGGCGGTACCGGGGACGGCTGGCGGCTGGCGGACTGCACTCTGGTGGTCACCCTGGAGCCATGCGCCATGTGCGCAGGTGCTGTGGTGTTGGCCCGGATCCCCCGGGTGGTTTTTGGCGCGTGGGATGAGAAGGCGGGCGCGGCAGGCTCGGTGTTTGATGTGCTCCGGGAGCGCCGCCTCAACCATTGGGTGGAGGTTTACGCGGGTGTCCGGGAAGACGAATGCGGCGCGCTGCTCAGGGAATTCTTCGCCAGACACCGCACCCGGCTGTAG	MVPAQKKHGEWMGLALAEARRALATNDVPIGAVVIGPDGAVLGSGRNQREALGDPTAHAEIVAIRQAAERLRELALHDGGTGDGWRLADCTLVVTLEPCAMCAGAVVLARIPRVVFGAWDEKAGAAGSVFDVLRERRLNHWVEVYAGVREDECGALLREFFARHRTRL	PGPT0006855_48	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563	NA	NA
D1-29_00826	843			hypothetical protein	GTGGACACCCTCAAAGACCGCTTTGCACTATGGGTTTTGCCGTACGCTGCCTTGTGGATCACGCTTCTGGTGGGTGGCGCCCTGGTGGTCACTTTGGCCTTGCTGGGTGCCGAGGTATACGCCAACGTGGTGGACGATGAGGGCCTGGCCTCCCTGGACCTGCCCGCCCTGGAACTGTCCCAGCAACTGCGCACTTCGGATCTGAACGCGGGCGTAACGGCCTTCACCAACGTTGGCGGCGGAATCGGGATGCCCATCGTGGCAAGCGTCCTGACGGCCTGGCTGACCTTCCTGAGCCGGACCTGGCGGCCCATCATCCTGGTGGGCGGCGCTGCAGCAGTGTCCACCCTGGCTACGACGGCGGGCAAGCGGCTGGTGGGGCGGACCCGCCCGGACCATTCGGAGGCTGTCCCACCCTACGAAACCTCACCGTCCTTCCCCAGCGGGCACACGCTGAACACCACAGTGGTCATCGGAGTCCTGGTGTACATCATGTGCCTGCAGTTTGAGGTCCTGTGGGTGCGCATCACGGCCATCACTGCCGGTGCACTGTTCATCATTGCCATGGGCCTCAGCCGGGTCTTCCTGGGCCATCACTGGATGACCGATGTCCTGGCCGCCTGGTTCCTCGGGCTTGCCTGGATGGCGCTGGTGATCCTGGCACACCGGCTGTTCCACCTGACACGGAAACGCGAGCATGCCGGCCCCGCACCCACGTTCGAACACCCCGCCCTCCGTGAGGACCACAGCGAGGACCACCGTGAGGATCAGCCCGCCGTGGAAGGGGCGGAGGAGCGCGGCGCAGGCACCGGTTCTCCCGGTAAAGGCTCTTCTGCCGGGTGA	MDTLKDRFALWVLPYAALWITLLVGGALVVTLALLGAEVYANVVDDEGLASLDLPALELSQQLRTSDLNAGVTAFTNVGGGIGMPIVASVLTAWLTFLSRTWRPIILVGGAAAVSTLATTAGKRLVGRTRPDHSEAVPPYETSPSFPSGHTLNTTVVIGVLVYIMCLQFEVLWVRITAITAGALFIIAMGLSRVFLGHHWMTDVLAAWFLGLAWMALVILAHRLFHLTRKREHAGPAPTFEHPALREDHSEDHREDQPAVEGAEERGAGTGSPGKGSSAG	PGPT0024170_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302	NA	NA
D1-29_00827	636	upp		Uracil phosphoribosyltransferase	ATGCGCACTCTCGTTGTGGACCACCCGCTGGTCGCCCATAAGCTCACTGTCCTGCGGGACAAGAACACACCGTCCCCTGTTTTCCGGCAGCTGACGGAAGAGCTGGTGACACTCCTCGCGTACGAGGCCACCCGTGAAGTCCGCACCCAGCCCGTGACCATTGAGACGCCGGTCAGCACCGCGGTGGGCACCGCGTTTACCAAGCCGACGCCGCTGGTGGTCCCCATCCTCCGCGCCGGCCTGGGCATGCTGGAGGGCATGACCAAACTGGTTCCCACGGCTGAAGTGGGATTCCTGGGCATGGCCAGGGACGAGGAAACCCTGGACATCATCACTTACGCCGAGCGGCTCCCGGAGAATCTCACGGACCGGCAGATCTTTGTGCTTGATCCCATGCTGGCCACAGGCGGAACCCTGCGCGAGGCCATCAAGTTCCTGTTCAAGCGCGGCGCCTCGGACGTCACCTGCATCTGCCTCCTCGCCGCCCCGGAAGGCCTGGCGAAGCTGGAAGAGGAACTTTCCGACGCCAACGTGACCATTGTCCTGGCTTCCATAGACGAAAAGCTGAACGAGAAGTCCTACATCGTCCCGGGCCTCGGAGACGCGGGGGACCGGCTGTACGGCATCGCCGGCTAG	MRTLVVDHPLVAHKLTVLRDKNTPSPVFRQLTEELVTLLAYEATREVRTQPVTIETPVSTAVGTAFTKPTPLVVPILRAGLGMLEGMTKLVPTAEVGFLGMARDEETLDIITYAERLPENLTDRQIFVLDPMLATGGTLREAIKFLFKRGASDVTCICLLAAPEGLAKLEEELSDANVTIVLASIDEKLNEKSYIVPGLGDAGDRLYGIAG	PGPT0021240_1974	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021240-upp-K00761	NA	NA
D1-29_00828	681	ppaX		Pyrophosphatase PpaX	ATGAGCCTTCCCACGCCTGCCGATACCCGCACCCTCACCTGCCGCGCCGTGCTGTTTGATATGGACGGGACATTGGTGGATTCGACCGCCATTGTGGAACAGGTGTGGAGTGAGTTCGCCGCCCGCTACGGGCTGGACTTTGCCGAGATCCTGCGAACCTCCCACGGCGTCCAGGCAGGCGACACGGTGCGGCGCTTCGCCCCGGCAGGGGCGGACGTCGTGGCCCTCACCGCCGAACTCGGCGCTGCCGAACGTGTCCGCACCGCAGGCATTGTCGCTTTGCCCGGAGCCGCCGAGCTGCTGCGGACCCTCCCGGGCGACGCCGTTGCGCTGGTGACCTCTGCCGACCGTATCCTGGCGGACATCCGCATGGAGGCTGCCGGCCTGGCCATGCCCGCCACCGCCGTTACGGCCGAGCTGGTAACCAGGGGCAAGCCGCATCCTGAGGGCTACCTGCAGGCAGCGGGACTCCTGAGGGTGGAACCGGCGCACGCGCTGGTGTTCGAGGATGCGCCTGCCGGTATTGCTGCCGGGCTGGCTGCCGGTATCCGCACGGTGGCGGTGGGTCCGAATACCGGTTTGCTGCCGGACGGCGTGCTGCACATTTCCGACTACAGCGACGTTTCGGTTGCGGTGGAAACAGATTCAGCGGGCGCGAGGGTCATTTCTTTCCGGCTTTGA	MSLPTPADTRTLTCRAVLFDMDGTLVDSTAIVEQVWSEFAARYGLDFAEILRTSHGVQAGDTVRRFAPAGADVVALTAELGAAERVRTAGIVALPGAAELLRTLPGDAVALVTSADRILADIRMEAAGLAMPATAVTAELVTRGKPHPEGYLQAAGLLRVEPAHALVFEDAPAGIAAGLAAGIRTVAVGPNTGLLPDGVLHISDYSDVSVAVETDSAGARVISFRL	PGPT0018405_82	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_SORBITOL_DEGRADATION,PGPT0018405-hxpB-K19270	NA	NA
D1-29_00829	444			hypothetical protein	ATGAAATTCACCACCACCATCCTGGGCAGCGGCAACAAGGCGGGCATTGAGGTTCCGGAGGAAGTTGTCTCCGCGCTGGGAGCCGGCAGGAAGCCGCCGGTGGTGGTGACCATCAACGGCCAAAGCTACCGCAGCAGCATCGCCGTCATGGGCGGGCAGAACATGGTTGGGGTGAGCACAGCCAACCGGGAACTCACCGGCGTTTCGGCAGGCGACACCGTTGATGTGGACGTTGAGCTGGATACGCAGCCCCGCGTCATTGAGGTTCCGGACGATCTTGCCGCCGCCCTCGCTGCCGAGCCTGACGCACAGGCGTTCTATGCCACGCTGAACTACAGCACCCAGCGGCGGTACGTTGAGCCGCTGGCCGAAGCGAAGACCGCGGAAACCAGGGCCCGCCGGATCGCCAAGGTGGTGTCCGACCTCAAAGCCGGAAAGAAATGA	MKFTTTILGSGNKAGIEVPEEVVSALGAGRKPPVVVTINGQSYRSSIAVMGGQNMVGVSTANRELTGVSAGDTVDVDVELDTQPRVIEVPDDLAAALAAEPDAQAFYATLNYSTQRRYVEPLAEAKTAETRARRIAKVVSDLKAGKK				NA	NA	NA	NA	NA
D1-29_00830	747			hypothetical protein	ATGTCTGAATTCAAGGTAGAACCACGCCCTAAAACCGGGCAGTCCGAATCCCACGGCCGTCACAAGCTCCGCCTGACGGTGGCAGCCTGGCCCGCCGCCACCATGTCCAGGCTGGCAAAAATACCCTCCCTCGGCAAGCGCACAGCCGTTCTTGTCACCGCCGGTGCATTGCTGGTGGGAGTCGGCGCCGCCGGCCAGGCGTCCGAATCCATCACCCGGGTGTCGGCCGTCGAGTCACAGTCCTCCCCCGCAGCCCCCGCCGACTCCGATTTGAGCGTCGAGAAGACCGAGGTCCAGGCGCCGCCCGCTCCCGCTCCGGCCGAGGTTGCTCCGCCGGCACCCGAGCCGGCACCAGCGCCTGCTCCCGAGCCCGCACCGGCACCCGCCCCGGCACCAGCACCCGCCCCGGCCCCGGAGCCTGCTCCGGTTGTCGCCGTCAATGATCCCGCGGGAGCCCAGGCCTACGCTGCCAGCCAGCTGGGATCCTATGGCTGGGCCCCTGACCAGATGCAGTGCCTCAAGACGCTCTGGACCAAGGAGTCCGACTGGACCACCACGGCGATGAACCCGAGCAGCGGCGCGTACGGCATCGTCCAGTCACTGCCCGCCGAGAAAATGGCCACCGCCGGTGCGGACTACCTCACCAACTACCGCACGCAGATCAACTGGGGCCTGAACTACATCCAGGAGCGCTACCAGTCACCGTGTGGTGCCCTGAACTTCCACCTGTCGAATAACTGGTACTAG	MSEFKVEPRPKTGQSESHGRHKLRLTVAAWPAATMSRLAKIPSLGKRTAVLVTAGALLVGVGAAGQASESITRVSAVESQSSPAAPADSDLSVEKTEVQAPPAPAPAEVAPPAPEPAPAPAPEPAPAPAPAPAPAPAPEPAPVVAVNDPAGAQAYAASQLGSYGWAPDQMQCLKTLWTKESDWTTTAMNPSSGAYGIVQSLPAEKMATAGADYLTNYRTQINWGLNYIQERYQSPCGALNFHLSNNWY				NA	NA	NA	NA	NA
D1-29_00832	1557	tcrY		putative sensor histidine kinase TcrY	GTGGCCTTGTCCTCGTCCTCGCCCTTGTCCCCCTCCTCCCCCTCGTCCCCCTCCTCCTTGCCGGCCGCGGCGCCCAAGGACGAGCGCAACTGGCTGAGGCCCGGCACGTGGCACCTGCGCACGCGGCTGGTTGCGCTGGCCATGGCGCTTCTGATTGCCATCTGTGGCGCCGTGGGGCTGTTCACCTACGCGTCCATGGATTCATTCCTCACACGCCAGCTCGATGACCAGCTCAGCCAGGCGGCGGAACGCTCCAACGCTCCCGGCAGGCCGCCGCTGGGCGGGTTCAATGGCGGGCGTGATCCCCTTGACGCCCGGGGACAGAGCGTTGGCACTCTCAATGCCCGCATCCTCGGCGGGCAGGTCAACAGTGCCGGCTTCCTCGCCTCAGACACCACGCGCGCACCACTCACCACCCGAGACAAAGAGATCCTGCTGGATCTGGCACGCAACGGCAATCCGGTGGACCGGACGTTGTCCAACGGCAACTACAGGCTGTTGGCTGAGGAAACCTCGTACGGGGACGTGCTGGTCACGGGACTCCCCCTTGCCAGTAAGGAAAGCACCATGTCCTCACTGGTGTGGACCTTTGTCTTTGTCTCCCTGGGCGGCCTGGTCCTGATCGGACTGGCGGGAACCGTGCTGATCCGGCGCACGATGCAACCGCTGGAACAGCTGTCCGAGGTTGCCACCCGCGTTTCCCGGCTTCCCCTCGACGCCGGCGAGGTAGCCCTCGCGGTGCGGGTGCCGCCGTCGAACGCCAATCCCCGGACTGAAGTGGGCAGCGTGGGGCACGCCCTCAACCTCATGCTGGACAACGTAGCCCGGGCACTGGAGGCCAGGCAGCAGAGCGAGACCAAAGTGCGGCAGTTCGTCGCCGATGCCTCACATGAACTCCGCACCCCGCTGACTGCCATCCGCGGCTACACCGAACTGATGCGGATGACCGAGGATTTCACTCCGGACGGCCAGAAGTCGCTGGCCCGGGTCCAGAGCCAGTCGGAACGGATGACCACCCTGGTGGAGGACCTGCTCCTGCTCGCCAGGCTGGACGAAGGCCAGCCCCTGAAGCTCGCCGAAGTTGACCTCACGCAGCTGGTCATCGAGACCGTCAGCGACGAGAAGGTCATCGCCCCCACCCACAACTGGCGCCTGGAACTCCCCGACGAGCCGGTGCTGGTCAACGGCGACGCGCCGAAGCTTCGCCAGGTGCTGGTGAACCTGCTTTCCAATGCCCGCAAGCACACGGCCCCCGGCACCACTGTTATCACCGGGGTCACGACGTCGCCGGAGGGCAGCGCGGTGGTAACCGTAACGGACGACGGCGGCGGCATCCCGCCGGAGTTCCTGGACCAGGTTTTCTCCCGCTTCGCCCGCGCAGACGCTTCCCGGGCGGGCAAGGCACCTGGATCAGGTCCCCGGGCCTCGGAAGGAACCAGCGGCCTGGGCCTGGCGATAGTCCAGTCCATCGTGGAGGCGCACGGCGGCACGGTAACGGTAAGGTCACAGCCCGGCTTCACCGAGTTCGCTTTGCGACTGCCCATCATTGCCCGTTAA	MALSSSSPLSPSSPSSPSSLPAAAPKDERNWLRPGTWHLRTRLVALAMALLIAICGAVGLFTYASMDSFLTRQLDDQLSQAAERSNAPGRPPLGGFNGGRDPLDARGQSVGTLNARILGGQVNSAGFLASDTTRAPLTTRDKEILLDLARNGNPVDRTLSNGNYRLLAEETSYGDVLVTGLPLASKESTMSSLVWTFVFVSLGGLVLIGLAGTVLIRRTMQPLEQLSEVATRVSRLPLDAGEVALAVRVPPSNANPRTEVGSVGHALNLMLDNVARALEARQQSETKVRQFVADASHELRTPLTAIRGYTELMRMTEDFTPDGQKSLARVQSQSERMTTLVEDLLLLARLDEGQPLKLAEVDLTQLVIETVSDEKVIAPTHNWRLELPDEPVLVNGDAPKLRQVLVNLLSNARKHTAPGTTVITGVTTSPEGSAVVTVTDDGGGIPPEFLDQVFSRFARADASRAGKAPGSGPRASEGTSGLGLAIVQSIVEAHGGTVTVRSQPGFTEFALRLPIIAR	PGPT0004100_740	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
D1-29_00833	741	tcrX_1	COG0745	putative transcriptional regulatory protein TcrX	ATGGCCACTTCGCACTCCATGACCAACAATCTTCCCCAGCTCACCCACCCGGACGGCTCACCCATCCGCGCCTTGGTGGTGGACGACGAACCCAGCCTCTCCGAGCTCATGAGCATGGGGCTGCGCATGGCGGGCTGGTCTGTGGCCGTCGCCGCGGACGGCCCTGAGGCCATCAAGCTCGCCAAGGAGTTCCGGCCGGACGTGCTGGTGCTGGACGTGATGCTGCCGGGTTTCGACGGCGTCGAGCTGCTCGGCAGGATCCGCGCCTTCGCGCCGGAGGTGCCTGCGCTTTTCCTGACAGCCAAGGATGCTGTCCAGGACCGGATCCTAGGTCTGGCTGCAGGCGGGGATGACTACGTCACCAAACCCTTCAGCATGGAAGAAGTCCTGCTCAGGCTGCACCGGCTGGTGCAGCGCTCCGGGGTTGCGGCGATGGACACTGCCGAACTAGTGGTGGGCGACCTCGTCCTGAACGTGGACACCCGCGAGGTGACCCGGGCCGGGGACGAACTACACCTCACGGCCACACAATTCGAGCTTCTGCGTTACCTCATGGAAAACCCCAAGCGCGTCATCAGCAAGGCCCAGATCCTTGACAGGGTTTGGGACTACGACTTCGGCGGGCAGGCCAACATCGTGGAGCTCTACATCTCCTACCTCCGCAAGAAGGTGGATGCCGTGCACCCGCCCATGATCCACACCGTGCGCGGGGCCGGCTATGTGATCAAGCCGGCGGACTAG	MATSHSMTNNLPQLTHPDGSPIRALVVDDEPSLSELMSMGLRMAGWSVAVAADGPEAIKLAKEFRPDVLVLDVMLPGFDGVELLGRIRAFAPEVPALFLTAKDAVQDRILGLAAGGDDYVTKPFSMEEVLLRLHRLVQRSGVAAMDTAELVVGDLVLNVDTREVTRAGDELHLTATQFELLRYLMENPKRVISKAQILDRVWDYDFGGQANIVELYISYLRKKVDAVHPPMIHTVRGAGYVIKPAD	PGPT0004105_1307	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
D1-29_00834	864			hypothetical protein	ATGTCAGTTGCATCCGGATACGTCCACATCTCCGTCCGTAACGCCAGCAAGGCGGGCCAGCCCGCCGGCCTCCGGCAAGGCTTCGGCGCCCGTCCGGCGCTCGCCCCGGCCACCCCCGGCGCCAGCTTCCCGGCTCCCGGCTACGCACCCCAGGGCTACAACCCCAACTCCTACGGACAGCTCCGCGCAGTACAGCCCGACGCTTCACCCATGACCGCTCCCACGCCCGTGGTGGCAGGGCCCAACACGGTCCGGCCCGTAGCCAACGACAACGTGGCCAGGGGATTTGTCCTGTACATGGGCATCGATGAGGAAACTGCCGCGGCCGCCGGAACGTCCATCGCCAAGCTCGCCCAGGAAATCCGCGCCTACGCCCAGTCCCTGGTATCGGGTGCCGAAAGCTACGCCGCTGTGGCAGTGGCGCCGGCCAGCACACCCGGTTCCGCTCTCGACGTCGTCCGCTCCACCTTCGGTGACCCCACCGTGAACGCACGGCAGCGCACCGAAACGTCCAGGCTCCAGCAGGCCCAGGACCCGCGTCCGTCCGGCGTCCTGATTGACCTCGCCCGCCGCGAAGTCCACCTGGACGGCGAATCCCTGAACCTGACGTTCAAGGAGTTCGAACTCCTGAACTACCTCGTGGAGAACGGCACCCGCACCGTTGGCCGCGACGAGCTGCTCGAAGGCCTGTGGCGCAATGCCGAAGAGGTTCCCAACGAGCGCACCATTGACGTCCACATCCGCCGCCTCCGCTCCAAGCTGGGCCGCCTCGCCAACACGGTGCGCACGGTCCGCGGCCAGGGCTACCGGTTCTACGAGCACCCGGAAGTTGTGGTCTGGGCCGCTCCGGAATACTCGATCTAG	MSVASGYVHISVRNASKAGQPAGLRQGFGARPALAPATPGASFPAPGYAPQGYNPNSYGQLRAVQPDASPMTAPTPVVAGPNTVRPVANDNVARGFVLYMGIDEETAAAAGTSIAKLAQEIRAYAQSLVSGAESYAAVAVAPASTPGSALDVVRSTFGDPTVNARQRTETSRLQQAQDPRPSGVLIDLARREVHLDGESLNLTFKEFELLNYLVENGTRTVGRDELLEGLWRNAEEVPNERTIDVHIRRLRSKLGRLANTVRTVRGQGYRFYEHPEVVVWAAPEYSI				NA	NA	NA	NA	NA
D1-29_00835	528		COG2062	putative protein	ATGAGCGACCACCACATCAGGCGACTGGTGATCATGCGGCATGCCAAGGCGGACTGGCCTGGCGGTGTGGCGGATCACGACCGGCCGCTGGAAGAGCGCGGCCACCGGGAAGCGCCCCTTGCCGGAAAATGGCTCGTCAAGCATGGGATTGTCCCGGATTTCATCCTCTGCTCCAGTGCACTCCGGACCCGCCAGACCTGCACCTGGGTGTGCTCGGAGCTGGGGGACAAGGCCCCGACGCCGAAACTGGAGGGCGGACTTTACGGAGCCTCCGCGCTGCGCATGCTCACGGTGGTCAACCACGTGCCCGATACCGTCACCACCCTGATGCTGATCTCCCATATGCCCGGGGTCCAGGACCTCGCCATGCACCTGGCTTCGCGTGACTCCAACCACGACGCCTACATGGACGCGGCCACCAGGTTTCCCACCAGCGCGCTCACTGTTCTGGAAACTGAAAAATCCTGGGCGGAACTGGACGGGCAGGACGCGCGGCTGACCAGGTTCAAGGTTCCGCGCGCGCACTAG	MSDHHIRRLVIMRHAKADWPGGVADHDRPLEERGHREAPLAGKWLVKHGIVPDFILCSSALRTRQTCTWVCSELGDKAPTPKLEGGLYGASALRMLTVVNHVPDTVTTLMLISHMPGVQDLAMHLASRDSNHDAYMDAATRFPTSALTVLETEKSWAELDGQDARLTRFKVPRAH				NA	NA	NA	NA	NA
D1-29_00836	924			hypothetical protein	ATGTACCTTTACTTCATGATCGATATCGGTACTTTGCGGGCGCTGACAGCTATTGAGCAGCATGGGTCTGTCATTGCCGCCTCAGAAGTCCTGGGCTTTAGCCCTTCAGCTGTCTCCCAGCAGGTTAAGAAGCTGGAGAAACAGACAGGATTCGCGGTCCTCGAGCGCCGCGGGCGGGGTGTGCTGTTGACCGAGCGCGGACTCACCCTCGCCGCCTACGGGCGCAGGATCCTTGCGGAACTGGAAGAACTCCAGTCCACCCTGCTTGCGGATCCGGCGAAACCAACCGGCCACCTGAGGGTGGTGTCCTTTTCCACCGCCTGCCGCGGCCTGGTGGGACCAATGTTGGGGAACCTGGCCGCCTCAGGAAGTGAACTGGACGTCAGCGTGTTGGCGGAGGACCCGCGGGAGGCCGTGGCCCGGGTGGCCAACGGAGAGGCGGACCTGGGCGTGGTGCACAACTGGAACTCCGTCCCCCTGGTCATTCCTGAACACATGAGCCTTGAGTGGCTGTGCGAGGACATTGCGGATCTCCTGGTGCACCAAAGCCATCCACTGGCCGGACGGAAGGCGGTGGAACCGGCGGACCTGGTTGACGAGCGCTGGATCAGCACCCCGCACGGCGCCATCTGCAACGAGGCACTGCTCAGGATCTTCGCGGACCTGGGCCGGGTGCCCGACATCCGGGTCTATGATCCGGACTTTGCGACCCACCTTGCCCTGGTGGAACAGGCGGCCGTGGTGGCGCTGGTCCCCCGGCTTGGCAGGCCGGCACTTCCCGGCGGCGTGGTGTCAGTACCCGTCATCAAGCCCGTCCAGGTCCGCCAGGTGGGGCTGGTCCACCGCAGGACCATGACAGCCAGCCCGGGCATCCGCCACGTGGCAGCACTATTGAAGGAGATCGCGGCCGGCCCAACCAGGTAG	MYLYFMIDIGTLRALTAIEQHGSVIAASEVLGFSPSAVSQQVKKLEKQTGFAVLERRGRGVLLTERGLTLAAYGRRILAELEELQSTLLADPAKPTGHLRVVSFSTACRGLVGPMLGNLAASGSELDVSVLAEDPREAVARVANGEADLGVVHNWNSVPLVIPEHMSLEWLCEDIADLLVHQSHPLAGRKAVEPADLVDERWISTPHGAICNEALLRIFADLGRVPDIRVYDPDFATHLALVEQAAVVALVPRLGRPALPGGVVSVPVIKPVQVRQVGLVHRRTMTASPGIRHVAALLKEIAAGPTR				NA	NA	NA	NA	NA
D1-29_00837	1038			hypothetical protein	GTGAACCTCCGCCATTCCTTGCTTGCCGCCCTGGTCGCAGTCCTGTGGGGCCTGAATTTTGTCGCCATCGACTTCGGCCTGCACGCCAACGGCCGCGAGGTTCCGCCGCTGTTGTTCGTCGCCATGAGATTCGTGCTGGTGGTTTTCCCGTGGATCTTCTTCATCCGGAAGCCGGAGGTCAGCTGGAAGGCGATTGCCGGCGTCGGGCTCTTTATGAGTGCGGGGCAGTTCGGCCTCCTCTACCTGGCCATGGCGCTGGGCATGCCGGCGGGCCTCGCGTCGTTGGTATTGCAGGCGCAGGTGCTGCTGACGGTCCTCCTGGCCGCGGGGTTCCTCGGTGAACGACCCACCGCCCGCCAGATGGCCGGAGTTGTGCTTGGCGTGGCGGGCCTTGCCGTAGTGGCAGTAGGCCGCAGTGCGATGGCACCGGTGCTTCCGCTGATCATTGTGCTCGCCGCTGCGCTTTCCTGGGCTGCCGGCAACATCATCGCCCGGAAGGCACGGGCTGCGTCAGGGTTGGGGCTGGTGGTCTGGTCCGGGGCGGTAGTGCCGCTTCCCCTTGCGGGTCTTTCGCTGATCATCGACGGACCGGCCGCCGTTGCCGGAACCTTGTTGGACCTGCAGCCAGCCACCCTCCTGAGCGCCCTGTACACGGCAGTCTTCGCATCGCTGGTTGGCTACGGGATCTGGAACAGGCTGCTGGCCACCTACACGTCATCGGCCGTGGTGCCCTTCACCCTCCTGGTTCCGGTGGTGGGAATGAGCGCCGCATGGCTGGCCCTGGCTGAGGTTCCCTCTCCTGCCGAACTGGCCGGCGGCCTGCTCCTGCTGGGTGGCGTCGCGACGGCGGTGCTCACGGGAACGGCCGGCAGGACTCAGCGCCGCGGCGCTGCCCTGGTGCCGGGTTTGGGCGCGGGTTTGGGCTTTGATGCGCCCGCGGGGACCGCCTTGCGCACCGATGATGCTGACGACGACGGCCGCTTGGCCGCCGCCGCTGGAACCCGTGGTGTGGGGGTCCGGGAAGCAGACGCCCCCTGA	MNLRHSLLAALVAVLWGLNFVAIDFGLHANGREVPPLLFVAMRFVLVVFPWIFFIRKPEVSWKAIAGVGLFMSAGQFGLLYLAMALGMPAGLASLVLQAQVLLTVLLAAGFLGERPTARQMAGVVLGVAGLAVVAVGRSAMAPVLPLIIVLAAALSWAAGNIIARKARAASGLGLVVWSGAVVPLPLAGLSLIIDGPAAVAGTLLDLQPATLLSALYTAVFASLVGYGIWNRLLATYTSSAVVPFTLLVPVVGMSAAWLALAEVPSPAELAGGLLLLGGVATAVLTGTAGRTQRRGAALVPGLGAGLGFDAPAGTALRTDDADDDGRLAAAAGTRGVGVREADAP				NA	NA	NA	NA	NA
D1-29_00838	696			hypothetical protein	ATGCGTCACATGGGGAACAGTGGAAAGCTCGCCATCATCACGGCCGTGGTGGCCCTTCTCATGCTGGTCCTGACAGCACTCACGCTGGAAGAGCCGGTGATGTTCACCTTCCTCGCGCTGGTGGCCCTGGCGTACGTCGCCGCTCTTTCTGAGGTGCTGTCCCGGCGTCGTTACGCTGTTGCCGTAGCCACTGGCGTAGGAACCAGCCTGACAATAGCGTTTGCCCTGGCCTTCATCAGCACGTGGGAACTGGCCTTCGCCGGCCAACCATCTTTCTTTGGCACCCCCCTTCCCACCGGGGATCCGGACAACTACTTCTTCCTCTCTGCCGCCTCGTCGTTGACCACCCTTTTGGTCCTGTTCGCCGGGGCCGCCTGGCCGTCCCGAAGGCGGCCGGCAGCCAGGACACCTGCGTCGCAGAGGCGTCCCGCCACCGCCGCACGCCGCCCCGCTGCCCGGCCCCGCACCCAGGGCGCACCGGGCCAACGCACAGCAAGCCAACGCACCAGTCAGAGCACAGCACAGCGCACAAGTCAGGGGGCGTCTGCTTCCCGGACCCCCACACCACGGGTTCCAGCGGCGGCGGCCAAGCGGCCGTCGTCGTCAGCATCATCGGTGCGCAAGGCGGTCCCCGCGGGCGCATCAAAGCCCAAACCCGCGCCCAAACCCGGCACCAGGGCAGCGCCGCGGCGCTGA	MRHMGNSGKLAIITAVVALLMLVLTALTLEEPVMFTFLALVALAYVAALSEVLSRRRYAVAVATGVGTSLTIAFALAFISTWELAFAGQPSFFGTPLPTGDPDNYFFLSAASSLTTLLVLFAGAAWPSRRRPAARTPASQRRPATAARRPAARPRTQGAPGQRTASQRTSQSTAQRTSQGASASRTPTPRVPAAAAKRPSSSASSVRKAVPAGASKPKPAPKPGTRAAPRR				NA	NA	NA	NA	NA
D1-29_00839	705	betI_2		HTH-type transcriptional regulator BetI	ATGAGTGCCAGGCCACCGGAACTACAGAAGCCACCGGCGGAACCGCATGCGGAACCGTCAGAACCGGCCGCGAAGAAGCTGCGCCCCGAACGGACCAGCGCCACCAGGCAGCGGCTCTTCGACGCGTCGATGGAACTCATCGGCCAGCGGGGTGCTGCGGAAGTGACAGTGGACGAGATCGCCGCCGCCGCCGGGGTGTCGAAGGGCACGATCTACTACAACTTCGGCAGCAAGTCCCATCTCATCGCCCAGCTGCTGCGGCATGGCGTCGATATTCTGAAGGAACGCCTCCTGCGCGCGGGCAACGCAGACCCGGGCAGCACGCCGGTGAGCGAACCCGTCACCGCAGACGTGGATCCGTTGCTGTCCATGGAGGCGATGATTGGCCAGGCCATGGATTTTATGGACGACTACCCCTCCTTCGCGCGGTTGTGGGTCAGTGAAAACTGGCGCACCCCCAGTGAATGGCAGGACACCTTTGCCGTACTCAGGGGCGAACTGCTGGAGGTCATTGGGGCAGCGGTGGGGAAGGTTGCCGCCGCCCATCCCGTGGATGAGCGGATCTCCCAAGGCAGCCTGGCGACGGCAATCTTTGGGGCCTGTTTTGTGGTGGGGCTGGACCGCCAGACCTACAACCCGGAGCGGACCCGTGACCAAAGTGTTGCAGCAATAATGGCGATCATGCGCGGCTACGTGCTGAAGTAG	MSARPPELQKPPAEPHAEPSEPAAKKLRPERTSATRQRLFDASMELIGQRGAAEVTVDEIAAAAGVSKGTIYYNFGSKSHLIAQLLRHGVDILKERLLRAGNADPGSTPVSEPVTADVDPLLSMEAMIGQAMDFMDDYPSFARLWVSENWRTPSEWQDTFAVLRGELLEVIGAAVGKVAAAHPVDERISQGSLATAIFGACFVVGLDRQTYNPERTRDQSVAAIMAIMRGYVLK				NA	NA	NA	NA	NA
D1-29_00840	2037			hypothetical protein	GTGACTGTGCTGCGGCTGGCCCGCTCCGAACTCAAGCGGATGACCGGCGGGCTGCTGCCCAAGCTGACCATCCTGGCGCTGGTGATGGTGCCGCTGCTCTACGGGGCCGTTTACCTCTACGCCAACTGGGATCCTTACGGCAACCTGGACCGGATTGATGCCGCCCTGGTGGTGGAGGACACGGGCGCTTTAACCAGTGACGGCACCGAACTTCAGGCGGGTGCCAAGGTGGCCGACAGCCTGGTGGAAGGCAACGTCTTCAACTGGAAATCCGTTGCCAGCGCCGACGAGGCCGATCTGGGTGTGAGCAGCGGCAAGTACGCCTTTGCCTTGAAGATCCCGGAGGACTTTTCCACCAACCTGGTGTCTCCCGGCAGCTTCGATTCGGCGAGCCAGGCCATGCTGGATGTCACTACCAACGATGCCAACAACTACCTCCTCAGCACCATCGTGGACAAGCTCACCACTGCGGTGCACAACACGGTGGCCAAAGACGTGGGCGAGGAGACGGCCAACCAGCTGCTCACCGGCTTTGGCACCATCCATGCCCAAATGCTCAAGGCCGCCGACGGCGCCGGGCAGCTCGCCGACGGCGTGGCCACCCTGCGCGACGGGACGGTCACCCTGCATCAAGGCAGCACCGCGCTCAACGGCGGAGCAGGCGAACTGTACGCAGGGCAACTCAAACTGCGCGACGGCGCCAACCAGCTCACCGACGGCGCCGGGCAGCTAAGCAGCGGACTGTCCGTCTTGAAGGACAAGACCGCCACCCTGCCCAGTGACTCACAGACACTGGCCAACGGCGCGGCCCAACTGGCTGCAGGCAACGCCCAGCTGAACACCAAGGTCCAGGACATCGCGGCCCAGCTTGACGCGGCCGATCTGGGCCTCCGCGCCCGTGTGATCGAATCCAACAGCCGCCTGGTCGCCTCTGAGGTCATCACGCAGGCACAGGCTGACAGGATCCTTGCCGACTTTGACGCCACCGCTGCCTCCAGCCCCGTGACTGCCGCCAAAACCAAAATCCAGGCCGACGCCGCGCAGGTCCAGCAACTCGCTGACGGTTCCGAGGCAGTCAGCGTCGGGGCCGCGCAGCTCGCCGCGGCAACGCCCGCGCTCAAAGACGCGGTAGCGCAGGCCTCCAGCGGCGCGGACCAGCTCCATACAGGGTCCGCCACGCTTGCCACCGGACAGCAGGCTGCGGTGGACGGCGCCGCCCAGCTGGCGGACGGGGCAACCAAGCTCGACGCCGGTGCCGGCCAGTTGGAGACCGGCGCCGGAACGGCCGCAAACGGCTCGCGCACCCTGGCGGAGGAAATCGCCAAGGGCGCCGGTCAGGTACCCAACCCGGACGATTCGCAGAAAAGCAGCCTCTCCGAAGTGATCGCCGATCCCGTCGCAGTGAGCAACGTTTCGCAGGCGAAGGCCGACTCCTACGGCGCAGGGCTTGCCCCGTTCTTCCTGACCCTGGCGCTGTGGATCGGAGTCTTTATGCTGATCCAGGCCATGCGGCCCATGACGCAGCGGGCTCTGGCATCAAACGCACGGGCGTGGAAAATCGCCGTCGGAGGCTGGCTGCCCTTCCTTGCCGTATCAGTGGTCCAGGCCAGCCTGCTGACGCTGGTGGTGAACCTGGGTCTGGGACTCAACCCCGCGCATCCCGTCCTGATGTGGCTCTTTATGCTGGCAGCGGCCATGGCGTTCAGTGCCATCATCCAGGGCATAGTTGCCCTGCTGGGATCCCCCGGCAAACTGGTGGTGCTCATCCTGCTGGTCCTGCAGCTGGTCTCCTCCGGCGGCACTTTCCCGTGGCAGACCACCCCTGAGCCGCTGCACGTGGTGCACGAGGTCCTGCCCATGGGCTATGTGGTGACGGGCATGCGGCACCTGATCTACGGGGCCGATCTGTCCATGATCGTGCCCACAGTCCTGGGACTTCTGGGCTACACAATATTGGGCGCCGGACTGTCCACGCTGGCGGTCAGGAAACACAGGTTCTGGACCCTCAAAACGCTTAAACCCGAGATCGCCATATGA	MTVLRLARSELKRMTGGLLPKLTILALVMVPLLYGAVYLYANWDPYGNLDRIDAALVVEDTGALTSDGTELQAGAKVADSLVEGNVFNWKSVASADEADLGVSSGKYAFALKIPEDFSTNLVSPGSFDSASQAMLDVTTNDANNYLLSTIVDKLTTAVHNTVAKDVGEETANQLLTGFGTIHAQMLKAADGAGQLADGVATLRDGTVTLHQGSTALNGGAGELYAGQLKLRDGANQLTDGAGQLSSGLSVLKDKTATLPSDSQTLANGAAQLAAGNAQLNTKVQDIAAQLDAADLGLRARVIESNSRLVASEVITQAQADRILADFDATAASSPVTAAKTKIQADAAQVQQLADGSEAVSVGAAQLAAATPALKDAVAQASSGADQLHTGSATLATGQQAAVDGAAQLADGATKLDAGAGQLETGAGTAANGSRTLAEEIAKGAGQVPNPDDSQKSSLSEVIADPVAVSNVSQAKADSYGAGLAPFFLTLALWIGVFMLIQAMRPMTQRALASNARAWKIAVGGWLPFLAVSVVQASLLTLVVNLGLGLNPAHPVLMWLFMLAAAMAFSAIIQGIVALLGSPGKLVVLILLVLQLVSSGGTFPWQTTPEPLHVVHEVLPMGYVVTGMRHLIYGADLSMIVPTVLGLLGYTILGAGLSTLAVRKHRFWTLKTLKPEIAI				NA	NA	NA	NA	NA
D1-29_00841	669			hypothetical protein	GTGAAAGGACGGCGGAACGATCTGCTTCCGCCCACCTCACTGCAGGCGAAACGGGGTGAATTGCTCCTGGTTGCCGGGGACCGGCAGGACCAGCGGACAGCCTTGGCCCTGACACTCAGTGGTCGCATGAAACCGAGCGGCGGACGCATCGCCTGGGACGGCCACAGGCCCATCAAACAGCTCCGGCTCGCCAGCGCCTTGGTGGACTCACCCGGTGTGAACGAACCCGAGCAGCACCTCAGCGTCAGGGACCTGGTCACGGAGGACCTGGCGCTGATTCCCCGCCGCTACCGCGGGGCACTCCTCAGCAAGCCCTGGCTGAAGGTAAACAGCTTCGAGGATATCGCGGATCTGTGGACCGAGCAGCTGCCGCCCGGCCGCCGGATGGAACTCCTTACCGCCCTGGCCCTGGCCAACCCGCACACCGACCTCCTGGTGGTGGACTCCCCGGACCGGCACAGTGCTGATCCTGCGGACTGGCTCCCGCGCCTTGAGCAGTTGGCTGACGACGACGGCCGCCCACTCGCCGTCGTAGCCACCGTCACTGCCCTGCCGCCGTTGTGGCGGGGACCTGCGGCGGTCATCGGCAATTCAATCCATCGCCCCCAGGGCACACCAGCCCTGGCAAAAGTTAATGAACTCCAACTCGAAACCGAGGACGCAAAGTGA	MKGRRNDLLPPTSLQAKRGELLLVAGDRQDQRTALALTLSGRMKPSGGRIAWDGHRPIKQLRLASALVDSPGVNEPEQHLSVRDLVTEDLALIPRRYRGALLSKPWLKVNSFEDIADLWTEQLPPGRRMELLTALALANPHTDLLVVDSPDRHSADPADWLPRLEQLADDDGRPLAVVATVTALPPLWRGPAAVIGNSIHRPQGTPALAKVNELQLETEDAK				NA	NA	NA	NA	NA
D1-29_00842	1446	lpd	COG1249	Dihydrolipoyl dehydrogenase	ATGACGCCTGAATCCCTGAAGAGGGAATGTGATGTCGTGGTGATCGGCGCGGGGGCAGCCGGCGAAACCGTCGCCCGGCGGGTGGCCCTGGGCGGACTGAGATCTGTCTTGGTGGAGGCACAACTGGCAGGGGGCGAATCCGCCTACTGGGCATGCCTGCCGTCCAAAGCCCTGCTCCGCTCCGGCACCGCGCTGCATGGTGCACAGACGGTTCCCGGGGCGGAGGAGGCAGTGACCCGTACACTCAACGCGGAGGCAGTACTTAGGCGCCGGAACCACCTGACCTCCAACTGGCAGGACCACACCCACGCAAAGTGGATAACCGACGCCGGGATCGAGCTGATCCGCGGCCAGGCAAGGCTAACGGGTCCTCGCACGGTGGAGGCAGCCGGCCTGGACGGTAACTCCTACCAGCTGACGGCACGCCACGCCGTCGTCCTGGCAACGGGCTCGACCCCGAACGTTCCATGGATCGACGGCCTGGACGGGCTCAACGTCTGGGGCACACGCGAAGCCACGTCCACAAAGGAGATTCCAGAGCGGCTGGCTGTACTTGGTGGCGGGATGTCCGGCACGGAACTCTCCCAGGCGTTCGCCAGGCTGGGCTCCACCGTGACCCTCGTGGCCCGGAGCGTGCTGCTGGGAAATTTTCCGGAGGAGGCCGCAAAACTCGTGACGGCGGGCCTGCGCGCAGATGGCGTCGAAATCCACCTCGGCACCACTGCCAAAAACGTCCGGGAAAATAAGGACGGAAGCTACGCCTTGGCTCTCAGCGATGGAGCGAGCATCACCGCGGACCGGGTCCTGCTGGCGATGGGCAGGCGCCCCGCCGTCGAAGGACTCGGCCTGGAAACTCTGGGACTTGGGGCGGCGGAGGGCCTGATGAGCCTCACCACGGACGCCTCCGGTGTGGTTCAGGGAACCAAGGAACCTGACGCGTGGCTATACGCCGTCGGTGATGCCGCCGGCGCCACCATGTACACCCATCAAGGCAAGTACGCGGCACGGGTGACCAGTAATGCCATTCTGGCCAAAGCCAAGGGCGCCGTCCCGGGCACGGGGACCCGGGACCAGGCCCAGACGTTGAACTTCAATGCAGTACCCAGGGTCCTCTTCACCGATCCCGAGGTGGCCACAGTGGGCCAGAGCCTCGAGCAGGCCGCCACCGACGGCCACAACGCCTCCACCGTGGAACTGCCCATCCGGGTGGCCGGATCTTCCCTTCATTCGGAGCACTATGAAGGCTGGGCGCAGCTGGTGGTGGATGAGGACCGGAACGTGCTCGTGGGGGCCACCTTCGCGGGGCCGGACGTCGCCGAGCTGCTGCACGCCGCCACCATCGCCGTGGCGGGCGAGGTACCGCTGGACCGGCTCTGGCACGCCGTGCCGGCCTATCCCACTGTCAGCGAAGTCTGGCTTCAGCTCCTCGAGAAGTACGGCCTCTGA	MTPESLKRECDVVVIGAGAAGETVARRVALGGLRSVLVEAQLAGGESAYWACLPSKALLRSGTALHGAQTVPGAEEAVTRTLNAEAVLRRRNHLTSNWQDHTHAKWITDAGIELIRGQARLTGPRTVEAAGLDGNSYQLTARHAVVLATGSTPNVPWIDGLDGLNVWGTREATSTKEIPERLAVLGGGMSGTELSQAFARLGSTVTLVARSVLLGNFPEEAAKLVTAGLRADGVEIHLGTTAKNVRENKDGSYALALSDGASITADRVLLAMGRRPAVEGLGLETLGLGAAEGLMSLTTDASGVVQGTKEPDAWLYAVGDAAGATMYTHQGKYAARVTSNAILAKAKGAVPGTGTRDQAQTLNFNAVPRVLFTDPEVATVGQSLEQAATDGHNASTVELPIRVAGSSLHSEHYEGWAQLVVDEDRNVLVGATFAGPDVAELLHAATIAVAGEVPLDRLWHAVPAYPTVSEVWLQLLEKYGL				NA	NA	NA	NA	NA
D1-29_00844	1851	pckG	COG1274	Phosphoenolpyruvate carboxykinase [GTP]	ATGACCCCGAGGAAGGGAACCGCAATGGGCGATCTGGCGCAGAAGCCGCTGCTTGAGAAAGCACCCACCACACATGCTGCTTTGCTGGCATGGGTCGAAGAGGTTGCTGAGCTTACGCAGCCGGACCGTATCCACTGGGTTGATGGATCCGAAGAGGAAAATACCCGCCTCACCGATGAGCTCGTTGAAGCGGGAACCCTGACCCGTTTGAACCAGGATCTCTTCCCCAATTCTTTTGCCGCGTTCTCCGATCCCGCAGACGTGGCACGCGTCGAAGAGCAGACCTTCATTTGCTCCGAAAACGAACGCGACGCCGGCTTCACCAACAACTGGATGGCCCCGGCCACCATGAAGGAAAAGCTGCGCTCGCTGTTCGCAGGTTCCATGCGCGGCCGCACCATGTACGTCATTCCTTTTGTCATGGGCCATCTTGATGCCGAGGATCCCAAGTTCGGCGTGGAGATTACGGACAGCGCCTATGTTGTTGCCTCCATGCGGATCATGGCCCGCATCGGCACCGATGTGCTCAACCGCATTACCGAAACGGATGCCTTCTTTGTGCCGGCGCTCCACTCCCTGGGTGCACCGCTCGAAGCCGGGCAGGCTGACGTGCCGTGGCCTTGCAACCCGGACAAGTGGATTGTGCACTTCCCCGAGGAGCGCTCCATCTGGTCCTTCGGCTCAGGCTACGGCGGCAACGCCCTGCTGGGGAAGAAGTGCTACGCCCTGCGGATCGCCTCCGTCATGGCCCGCGATGAGGGCTGGCTGGCTGAGCACATGCTCATCCTGAAGCTCACGTCCCCCGAGCAGAAGACCTACTACGTCTCCGCTGCCTTCCCCTCCGCCTGCGGCAAGACCAACCTGGCCCTGCTGGATCCCACCATCCAGGGCTGGAAGGTGGAGACACTCGGCGACGACATCACCTGGATGCGCTTCGGCAAGGAAGGCGAACTCCGGGCCGTCAACCCCGAAGCCGGCCTCTTCGGCGTGGCACCGGGCACCGGCTGGGGCACCAACCCCAACGCCATGCGCGCCATCGCCAAGGGCAACAGCATCTTCACCAACGTTGCACTGACCGACGACGGCGGCGTCTGGTGGGAGGGCATGACCGAGGAAGTGCCTGCGCACCTCACCGACTGGCAGGGTAACTCCTGGACCGCGGATTCGGACAAGCCGGCCGCACACCCGAACTCCCGCTTCTGCACCCCGATCGACCAGATCGACATGCTGGCCGAGGAATACAACAACCCGGACGGCGTTGAGCTCTCGGCCATCCTGTTCGGCGGCCGCCGGAAGACCACCATCCCGCTGGTTACCGAAGCGCGCAGCTGGTCCAACGGCATTTTCATGGGCTCCACGCTCTCCTCTGAGACCACTGCTGCGGCAGCGGGCGCGGTTGGTGTTGTCCGCCGCGACCCCATGGCGATGCTCCCCTTCATCGGCTACGACGCAGGGGATTACCTGAACCACTGGGTCAACCTGTCCGCCAAGGCCAACCCTGAGCGCCTGCCCAAGATCTTCCTGGTCAACTGGTTCCGCCGGAACTCAGAGGGCGGCTTCGCCTGGCCTGGCTTCGGCGACAACGCACGCGTCCTCAAGTGGGCCATCGAGCGGCTCGAGGGCAAGGCCGACGCCGTGGAGACCCCCATCGGGTTCGTCCCCACCGGCGACTCCATTGACCTCGAGGGCCTGGACATGACTCCCGCGCAGGTTGAGGAAGCTGTCCGCGTTGACCCAACGGAATGGGCAACGGAACTGGCGTCCATCGAGGAATGGTTCGCCAACTTCGGTGACTCGCTTCCCGAAGCGCTGCAGACCGAGCTCGCCGGCCTGAAGTCCCGCTTGGGCTAG	MTPRKGTAMGDLAQKPLLEKAPTTHAALLAWVEEVAELTQPDRIHWVDGSEEENTRLTDELVEAGTLTRLNQDLFPNSFAAFSDPADVARVEEQTFICSENERDAGFTNNWMAPATMKEKLRSLFAGSMRGRTMYVIPFVMGHLDAEDPKFGVEITDSAYVVASMRIMARIGTDVLNRITETDAFFVPALHSLGAPLEAGQADVPWPCNPDKWIVHFPEERSIWSFGSGYGGNALLGKKCYALRIASVMARDEGWLAEHMLILKLTSPEQKTYYVSAAFPSACGKTNLALLDPTIQGWKVETLGDDITWMRFGKEGELRAVNPEAGLFGVAPGTGWGTNPNAMRAIAKGNSIFTNVALTDDGGVWWEGMTEEVPAHLTDWQGNSWTADSDKPAAHPNSRFCTPIDQIDMLAEEYNNPDGVELSAILFGGRRKTTIPLVTEARSWSNGIFMGSTLSSETTAAAAGAVGVVRRDPMAMLPFIGYDAGDYLNHWVNLSAKANPERLPKIFLVNWFRRNSEGGFAWPGFGDNARVLKWAIERLEGKADAVETPIGFVPTGDSIDLEGLDMTPAQVEEAVRVDPTEWATELASIEEWFANFGDSLPEALQTELAGLKSRLG	PGPT0019595_946	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
D1-29_00845	450	nsrR	COG1959	HTH-type transcriptional repressor NsrR	ATGAGAATTAACGCCTTCGCAGATGTGAGCCTCCGGGCGCTGATGGTACTGGCGGCCGCCCCTGAGGGCAGCCTCCTCACAACCCAAAACATCGCCAACGCTGTGGCCACGCCTTACAACCACGTCAGCAAGGCAATGGCCAAGCTCCGCGGCCTGGGACTGATCGAGGTGGAGCGGGGCAGGACAGGCGGCGCCAGGCTCAGCCCTGCAGGACGGCTGGCAACCGTAGGCCAGATCCTGCGGGCCCTCAATACGCGGACAGACGCCGCGGACTGCATAGCTCCATCCGGAGACTGCCCGCTGATCCATGAATGCAACCTGAGGAGGGCCCTGGCCCGGGCCGGCGAGGCGTTTTACCGCGAACTTGATGACGTGGTGGTCTCGACGCTCCCCAATTCCTCTCAGATGGCTCCTGTATTCGAGATGATCGGGCTGCGCCCCGGGCTGTAG	MRINAFADVSLRALMVLAAAPEGSLLTTQNIANAVATPYNHVSKAMAKLRGLGLIEVERGRTGGARLSPAGRLATVGQILRALNTRTDAADCIAPSGDCPLIHECNLRRALARAGEAFYRELDDVVVSTLPNSSQMAPVFEMIGLRPGL	PGPT0013005_842	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITRIC_OXIDE_REDUCTION,PGPT0013005-nsrR|yjeB-K13771	NA	NA
D1-29_00846	489			hypothetical protein	GTGGCCGACCATACCGGCGGCAGCGCCGCCCCACGTTCCTCCTGGCGGGACTCCGTTCCAGAGGCGACTGCCTCCGACCTGGAGAATCTGCTGGGCACCGGGGTAGGTGCCGCCCAGGAGCAGCTCCAGCGCAACGGTGGTTTTCTGCCGTTTGCCCTGGTGGTGGAGAACGACGGCGAGGTCCGTCTGGTGGCCGTCTCGCCGGCCGACGCCGCGGAGGGCTCCGGCGCCGACTTCGATGCTGACTCGATGATCGCCGACATTACGGAGCTGCTCCGCCAAAACCGCGCGGATTTCCGGGCCACGGCAGTGGTCTGCGACATCCTCCTGGTCGAAGAGGAATCGGACGCCATCCACGTGGCCGCGGAACACCGCGACGGGTCCGTCTTTGCGGCCGTCCTCCCATACGCCGCCAACCCAGCAACCCGCGAGTGGGAATTCGGCCAGCTGTCCGCTGACACCAACGAGCCCACCGTCTGGGTGGACTAG	MADHTGGSAAPRSSWRDSVPEATASDLENLLGTGVGAAQEQLQRNGGFLPFALVVENDGEVRLVAVSPADAAEGSGADFDADSMIADITELLRQNRADFRATAVVCDILLVEEESDAIHVAAEHRDGSVFAAVLPYAANPATREWEFGQLSADTNEPTVWVD				NA	NA	NA	NA	NA
D1-29_00847	1530	algC	COG1109	Phosphomannomutase/phosphoglucomutase	ATGTGGAAAGCCGGGCCCCGGTGGAGCAGACCAAAGGCCAGACTCTGGCGCGATCAAGGACACCACTATCCCTCAACAGGCGGCACCGCGCTTCAACGTAAGATAAGACCCGTGACTAGCGAACAGACAAAGACTTTTGACCTCTCGGCTGCCTTTAAGGCGTACGACGTCCGGGGCATCGTGGGCGATTCCATCACGGCAGAAATCGTCGAAGCAGTTGGCGCCGCGTTCGTAGACGTCCTTCAGCTTGAGGGCCAGACCGTCCTGGTGGGCGGGGACATGCGCCCGTCATCCCCTGAGTTCAGCAAGGCATTCGCCGACGGCGCCGCAACCCGCGGCGCAAACGTCCAGCTCCTGGACCTGATCTCCACCGATGAGCTCTACTTTGCCTGCGGGTCCCTCAATGCGGCCGGGGCAACGTTCACCGCAAGTCACAACCCGGCTGAGTACAACGGCATCAAGATGTCCAAACCCGGCGCCCAGCCCATCTCGTCCGAATCCGGGCTCAAGGAGATCCAGGCCCTCGCCGAGCAGTACCTCAACACCGGCTCCATTCCTGCCGCTCCCACCCGGGGACTGATCGGTGTCCACGACGTCCTGAAGGACTACGCAGAATACCTCCGCCAGTTGGTGGACCTCTCCGGCTCCCGCCCCCTGAAGGTGGTGGTTGACGCCGGCAACGGCATGGCCGGCCTCACCACGCCCGCAGTCCTTGGCGACGCCCTGCTGCCCAAGCTGCCGTTCGAGATCGTCCCGCTGTACTTCGAGTTGGACGGGTCCTTCCCCAACCACCCGGCCAACCCGCTGGAACCGGAGAACCTCCGCGACCTGCAGGCCGCTGTCATTGAACACGGCGCTGACATCGGCCTGGCGTTCGACGGCGATGCAGACCGCTGCTTTGTCATCGACGAAAAGGGCGAGCCGGTATCGCCGTCGGCCATTACCGGCATGGTCGCCCGCCGTGAAATCGCCCGCGCCCAGGCGCAGGGCGAGGCGAATCCCACCATCATCCACAATCTCCTCACCTCCCGTGCAGTGCCGGAACTGGTGGAGCACGACGGCGGCCGAGCCGTCCGCACACGGGTTGGCCACTCCTTCATCAAGGCAGTCATGGCGGAGGAAGGGGCAGTCTTCGGCGGCGAGCACTCGGCGCACTTCTACTTCCGGGATTTCTGGAACGCCGACACGGGAATGCTGGCGGCCATGCACGTCCTCGCCGCCCTCGGCGAGCAGGACGGCCCGCTGTCGGAGCTCGGCCGCGAGTATGAGCCCTACGTCTCGTCCGGGGAAATCAACTCGGAAATCGAGGACAAGGCCGCGGCAGTTGAGCGCGTGCGGGCAGATTTTTCCAGCGAAGACATCACCATCGACACCATGGACGGCAGCACCTTCACTGCCAACGACGGCAGCTACTGGTTCAACCTGCGTCCTTCCAACACGGAGCCGTTCCTGCGCCTGAACGCCGAAGCAACTGACCGGGCAACCATGGAACGCGTGCGGGATCGCGTTCTGTCACTTGTCCGGGGCTAG	MWKAGPRWSRPKARLWRDQGHHYPSTGGTALQRKIRPVTSEQTKTFDLSAAFKAYDVRGIVGDSITAEIVEAVGAAFVDVLQLEGQTVLVGGDMRPSSPEFSKAFADGAATRGANVQLLDLISTDELYFACGSLNAAGATFTASHNPAEYNGIKMSKPGAQPISSESGLKEIQALAEQYLNTGSIPAAPTRGLIGVHDVLKDYAEYLRQLVDLSGSRPLKVVVDAGNGMAGLTTPAVLGDALLPKLPFEIVPLYFELDGSFPNHPANPLEPENLRDLQAAVIEHGADIGLAFDGDADRCFVIDEKGEPVSPSAITGMVARREIARAQAQGEANPTIIHNLLTSRAVPELVEHDGGRAVRTRVGHSFIKAVMAEEGAVFGGEHSAHFYFRDFWNADTGMLAAMHVLAALGEQDGPLSELGREYEPYVSSGEINSEIEDKAAAVERVRADFSSEDITIDTMDGSTFTANDGSYWFNLRPSNTEPFLRLNAEATDRATMERVRDRVLSLVRG	PGPT0017865_1483	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
D1-29_00848	2199	rhlE_1		ATP-dependent RNA helicase RhlE	ATGGTCGATAACCAGAACGCCGCCCTTCTTTCCGCCGTACCTGCTCCGCTTGCCCCTGCTTCCTCAGCTTCTCCAACCCGGCTCCAGGCCCTTGAGGTCCTGCGTGAACTCGTGGGCCACCCGTCGGCCGAATTCCATGACGGACAGTTTGAGGCGATTGAAGCACTGGTCGACGGCGGGCGGCGGGCATTGGTGGTCCAGCGCACCGGCTGGGGCAAGTCGGCCGTCTACTTTGTGGCGTCCCTGCTCCTCAGGCGCCGGGGTGCTGGCCCAACGCTGATTGTGTCGCCGCTGCTCGCACTGATGCGGGACCAGGTGGCCGCGGCGGCCCGGGCGGGGGTACGGGCAGTTGCCATCAACTCGGCGAACCAGCTGGAGTGGGACACCGTCCGGGAACAGCTCGCCGCCGATGAAGTGGACGTCCTCCTGGTGTCGCCGGAAAGGCTCACCAACCCCTCGTTCCGCGAGAACCAGTTGCCGGAGCTGATCCGGCGCACAGGCCTGCTGGTCATCGACGAAGCACACTGTATCTCCGACTGGGGCCATGATTTCCGGCCGGACTACCGCCGGATTGCAGACCTGATCACGCAGCTTCCGGAGACAGTCCCGGTGCTGGCAACCACTGCCACGGCGAACTCACGGGTCGTCCACGATATCGAGGACCAGCTGGGTGCGGGCGTCCTGACTATCCGCGGCGCCCTGGGCCGGGATTCGTTGAGGCTGGGCGTCCTCGCGCTTCCCAATTCGCGGGAGCGCCTTGCCTGGCTCCTGACCCACCTCGCTGACCTTCCCGGCAGCGGCATCATCTACACGCTGACGGTTTCGGCGGCGGAAGACACCGCCCGGCTGCTTGCGGAAGCGGGACACAAGGTTCTCTCATACACCGGCAGGACTGATCCTGCAGACCGTGAGCGGGCGGAACAGCTGCTCAAGGACAATCAGGTCAAGGCGCTCGTGGCCACCTCGGCCCTGGGGATGGGCTTTGACAAGCCTGACCTGGGCTTTGTGGTCCATCTGGGTGCGCCGTCTTCCCCGGTGGCCTACTACCAGCAGGTTGGCCGCGCAGGCCGTGGCGCGGCCAACGCGGATGTTCTGCTGCTGCCGGGTTCCGAGGACCGCGATATCTGGCAGTACTTCGCTACTGCTTCGATGCCTTCTGAGGAGAAGGCCACTGCTGTCCTGAACGCCCTCGCCGAGGCCGGGGCGGCGGTTTCCACCGTGGCGCTGGAGGCCCGCGTTGACCTTCGGCGCACGCCGCTGGAACTGCTGCTCAAGGTCCTGGCCGTCGATGGCGCCGTGGAACGCGTGGGCGGGGGATGGCGGTCAACTGGCCGGCCCTGGTTCTACGATGCCGAGCGTTACCGCCGGATCGCCGAGGCCCGGGTGGACGAGCAGGATTCGATGGTGATCTACCAGGACACTGCAGGGTGCCGGATGGAGTTCATCACGTCGGTCCTGGACGATGAGACAGCTCATCCCTGCGGCCGGTGCGACAACTGCGCGGGCCGCTGGTTTCAGGCTGAGATAGCCGCAGATGCGACAGCGGCGGCCGGCCAGACCCTCAGCCGTGCGGGCGGGGTCCTGGAGGCGCGGCTGCAGTGGCCCAGCGGCATGGACCGCCTGGGTGTCCTGGTCAAGGGCAAAATCAAGCCCCATGAAAGCCTGGCGGACGGCCGGATCCTTGCCCGGCTGACTGATCTCGGCTGGGGCGGGGCACTCCGCGAAGTGTTCGCGGCGGGAGCACCGGACCGGCCCATTGATCCCGGCATGCTGCAGGCCTGCGTTCAGGTGCTGCGTGAGTGGGGGAGCGGCGACGGGCGCAATCCGGGATGGAGCGGCGCGGGCAGGCCTGCGGCCATCGTCAGCCTTCCCTCACGCAGCAAGCCTGAGCTGGTCAGGACCCTGGCGCAGGGAATTTCGGAGATCGGCCGGATGCCTTACCTCGGTGAACTGCAGCTGGGCCATGGCGGGCCTACAGGAGCCCGCGGCGGCAACAGCGCGTACCGGCTGGCAGGAGTCTGGGACCGGCTGGTGGTGGGCCCGGAACTGGAGTCCGGCCTGGCTTCGCTTCAGGGCCAGAGCGTGATGCTGATCGACGACCTCGTGGACAGCCGCTGGACGGTTACCGTCGCCGGACGCGCTCTGCGGCAGGCGGGGGCGGGGGCTGTCCTTCCGCTGGTGCTTGGCCAGGCCGGCTGA	MVDNQNAALLSAVPAPLAPASSASPTRLQALEVLRELVGHPSAEFHDGQFEAIEALVDGGRRALVVQRTGWGKSAVYFVASLLLRRRGAGPTLIVSPLLALMRDQVAAAARAGVRAVAINSANQLEWDTVREQLAADEVDVLLVSPERLTNPSFRENQLPELIRRTGLLVIDEAHCISDWGHDFRPDYRRIADLITQLPETVPVLATTATANSRVVHDIEDQLGAGVLTIRGALGRDSLRLGVLALPNSRERLAWLLTHLADLPGSGIIYTLTVSAAEDTARLLAEAGHKVLSYTGRTDPADRERAEQLLKDNQVKALVATSALGMGFDKPDLGFVVHLGAPSSPVAYYQQVGRAGRGAANADVLLLPGSEDRDIWQYFATASMPSEEKATAVLNALAEAGAAVSTVALEARVDLRRTPLELLLKVLAVDGAVERVGGGWRSTGRPWFYDAERYRRIAEARVDEQDSMVIYQDTAGCRMEFITSVLDDETAHPCGRCDNCAGRWFQAEIAADATAAAGQTLSRAGGVLEARLQWPSGMDRLGVLVKGKIKPHESLADGRILARLTDLGWGGALREVFAAGAPDRPIDPGMLQACVQVLREWGSGDGRNPGWSGAGRPAAIVSLPSRSKPELVRTLAQGISEIGRMPYLGELQLGHGGPTGARGGNSAYRLAGVWDRLVVGPELESGLASLQGQSVMLIDDLVDSRWTVTVAGRALRQAGAGAVLPLVLGQAG				NA	NA	NA	NA	NA
D1-29_00849	1464	hsrA		putative transport protein HsrA	ATGGAGACGACTCAAGGCAGCAGCCAGGCGTGGAATCCGCGTTTGGCGCTGCTGGTGGCTGCCACGTTCTTTATGGAGTTCCTCGACGGCACAGTCCTTACCACCGCCATTCCAAGTATCGCCGGGGACTTCTCGGTGCCGGCCGCCGACGTCAACATCACCATGACGGCCTATCTCATGACGGTTGCCATGGGAATTCCCCTGAGTGGCTGGCTCGCGGAACGGCTCGGTGCCCGGCGGGTGTTTTGCCTGGCTATTGCCATCTTCACCGTTGCATCGCTCCTGTGTGCCCTGAGCCAGGACCTGACCATGCTGACGCTCAGCCGTGTCCTGCAGGGGGCAGGCGGGGCGATGATGGTTCCTGTGGGCACACTGGTGGTGCTGCGCGGCACCCCCAAGTCCGAGCTCCTGCGGGCTACAGCCTTCCTGGTCTGGCCTGGTCTCCTTGCGCCGGTGCTGGCCCCCTTGGTGGGCGGAGCCCTGACGACCTACCTCTCGTGGCATTGGATCTTCCTGATCAACCTGCCGCTGGGGCTCGCGGCCTTTATCGCTGCTTTGAGGCTGGTCCCCGCCGGGGCGAGCGACGGCAGGCGGCGGCTTGACTGGCTGGGCCTGCTGCTGACGACTTCCGGAGTAGGTGCCCTGGTGGTTGGCCTGGAGTTGGCTGCAGGCCATCCTGACGGTCCCTGGGCTGCGCTCAGCGCAGCGGCCGGAGTGGCAGCGCTCGCAGGCGCAGCCCTGTGGATGAGGCGCACCAGCAACCCGCTTTTTGACCTCAACGTGTTTCGGACCCGCACGTTCCGGGCCATGGCCACCGGCGGGTTTGTTTACCGTCTGACCATCGGTTCGGTGCCTTTCCTCCTGCCGCTGATGTTCCAGGCAGGCTTCGGCTGGACGCCGTTGCACGCGGGCATCATGGTGGCGGCGGTTTTTGTGGGCAACATCGGAATCAAACCTGCCACCACACCGCTGATCAGGCGCTTCGGTTTCAAGGTGATGCTGGTCTTTGCTTCTTTTGCTTCAGCAGTGACCTTTGCCTTGTGCGCCCTGCTCACCCCGGACACTCCCGAAGCGCTGGTGTTTGCCCTTCTGGTCTGCAGCGGCGCTTTCCGTTCCATAGGTTTCTCGGCGTATGCCTCCGTGCAATATGCGGACATCGTTCCTGCGCAGCTCACCTCGGCCAACGCAGTCTCGGCTACCTTGGTGCAGCTGGCCACAGGCGCAGGCATCGCCGTTGCCGCCTTGCTGATCCGACTTTTCGAAGGTGCCGGGGCGTTCCCGCAGGACGCTGCCGGGCCATTCCGCGGCGCCTTCCTGACCATGGCCGTTCTGATGCTTTTCAGCACGGCAGACAGCCTTATGCTGCAGCGGCACGCCGGCGCCGAGGTCAGCCGGCCTGGCCAAGCACCAGCGGAAGGACAGCCCCCGCCCCCGCCTGCCGCAGAGCGCGTCCGGCGACGGTAA	METTQGSSQAWNPRLALLVAATFFMEFLDGTVLTTAIPSIAGDFSVPAADVNITMTAYLMTVAMGIPLSGWLAERLGARRVFCLAIAIFTVASLLCALSQDLTMLTLSRVLQGAGGAMMVPVGTLVVLRGTPKSELLRATAFLVWPGLLAPVLAPLVGGALTTYLSWHWIFLINLPLGLAAFIAALRLVPAGASDGRRRLDWLGLLLTTSGVGALVVGLELAAGHPDGPWAALSAAAGVAALAGAALWMRRTSNPLFDLNVFRTRTFRAMATGGFVYRLTIGSVPFLLPLMFQAGFGWTPLHAGIMVAAVFVGNIGIKPATTPLIRRFGFKVMLVFASFASAVTFALCALLTPDTPEALVFALLVCSGAFRSIGFSAYASVQYADIVPAQLTSANAVSATLVQLATGAGIAVAALLIRLFEGAGAFPQDAAGPFRGAFLTMAVLMLFSTADSLMLQRHAGAEVSRPGQAPAEGQPPPPPAAERVRRR				NA	NA	NA	NA	NA
D1-29_00851	2259			hypothetical protein	ATGACCACCACCGCAGCTGTTCCACCGCCCGCACCGGGTGCCCCTGTTCCTTCCGCACCTTCCGGCACAGCCCCTGAGCCCACCGACGAGAATGTCTGGCTTGAGGAAATTTACGGTGAGCAGCAGCTGGACTGGGTCCGGGAGCAGAACGCCCGCACGGAGGACCTGCTGGAAGACGCCGACTATGCCGCCCTGGAGGGCAGCATCCTGGAGGTGCTGGACTCCACCGACAGGATAGCCATGGTGGGCAAGCGCGGCGACTGGTACTACAACTTTTGGAAGGACCAGCAGAACCCCAAGGGCCTGTGGCGCCGGACCACTTGGGAAAGCTACCAGACGGACACCCCCGAGTGGGATGTCCTGTTGGATGTGGATGCGCTGGCCGCCGCCGAGGGTGAGGAGTGGGTCTTCCACGGAGGCACTTTCCTGCGCCCGGCCACCGGGGAGCAGCACCGGCTGGCGCTCGTGGCTCTCTCCCCCGACGGCGGCGACGCAAACCGCTACCGCGAGTTCGACGTCGAGACGCGCACCTTTGTTGACCCGGCCGACGGCGGGTTTGACCTGCCGACGGCGAAGGGCAACGTCTCGTGGCTGGATGCCGATACCCTGCTGGTCGCCTCCACAGCCGGGGACCTGCCGCGGACGGCGTCCTCCTACCCCCGGACCGCGGTGACGCTGCGGCGGGGCGAAGCCCTCGGTACCGCAGCGCTGCTCTTTGACGTGGCCGAGAACCACATGATGGCGGCGGTGGCACACGACTCCACCCCGGGCTTCGAGCGCACGTTCGCCGTGGACTACATTGACTTCTTCAACCGCAGCACGTTCTTCCGGCAGGACGGATCCTGGGTTGAAATCGACGCCCCGACCGACGTGAACCTGAGCGCCCACCGGGAGTGGCTGCTGTTCAGGCCCCAAGGTGACTGGTCCGTTGGCGTAACTACCTACCCGGCAGGTTCGCTGCTGGCCGCCAGGTTTGAGGACTACCTCGCCGGAGCCCGGGAGCTGTCCGTGCTCTTCACCCCCGACGCGCACACGTCCCTGCAGTCCTGGAGCTGGACCCGGGACTTCCTGCTGCTGAACCTCCTGCGGGACGTGTCGTCCGAAATCAGGGTGCTTGACCCGTCCCAGCCAGGAACCGCCGGCGAGGGCGCCTGGGCCTCCTCGCTGTTGGACGCCTGCCCTCCGCTGCACGACGTGAACGCCTACGCGGTGGATGCTGAGGACGAAAGCCACGCCGACGGCGGTGCCGGCGACGATTTCTGGCTGGTAGCCACCGGGTTCACCACCCCCAGCACACTGATGCGCGGCACGCTTGAGCGGCGGGCCGTACCCGCAGGCGCTGCCGGTAGCGCATCGGTGGTGAGCAGCCATGCAGTGGTGAAGGCGTCGCCGTCGTTCTTTGACGACGAAAAGTACGAGGTTCAACAGCACTTCGCCGTCTCGGCCGACGGCACCAGGGTGCCGTACTTCCAGGTGGCGTCCCGGGACCTGGTCCTGGACGGCCAGAACCCCACACAGCTTTCCGGCTACGGTGGCTTCGAGATCTCCCGCACCCCCGCCTACAGCGGCTCGGTGGGCAGGGCCTGGCTGGAACGGCGCACAGCGAACGCGCCCGGGCCCGATGGTGCGCAGTCCTACTCCCGTGGCGGCGTCTACGTGGTGGCAAATATCCGCGGCGGCGGCGAATATGGACCAGGCTGGCATCGCGCTGCCTTGAAAGAAAACCGGCACCGCGCCTACGAGGACTTTGCGGCAGTGGCGCGGCACCTCATCTCCCGCGGGGTGACCTCGCGCGAACGGCTTGGCTGCGTGGGCGGGTCCAACGGCGGCTTGCTGGTGGGAAACATGCTCACCAGCTACCCGGAACTGTTCGGCGCCGTGTCCTGCGGCGTCCCCCTGCTCGATATGCGCCGCTACACCAAGCTCTCGGCGGGGCACTCGTGGATCGCCGAATACGGTGACCCGGACGTGCCCGAGCAGTGGGAATTCATCAGGACCTTCTCGCCGTACCATCTGCTCAAGGACGGCGTGGAATATCCGGAAACGTTCATCTGGACGGCAACCTCGGACGACAGGGTGGGCCCGGTCCAGGCCAGGAAAATGGCCGCCCGAATGCAGGCCATGGGTATTCCGAATGTCTGGTACCACGAGGCGCTGGAGGGCGGCCACGCGGGGGCCTCGGACAACCGGCAGGCGGCCGCGCTGCAGGCCCGCAGCCAGCACTTCCTGTGGCGGACGCTTGCCGGCGGTTCGGCATAA	MTTTAAVPPPAPGAPVPSAPSGTAPEPTDENVWLEEIYGEQQLDWVREQNARTEDLLEDADYAALEGSILEVLDSTDRIAMVGKRGDWYYNFWKDQQNPKGLWRRTTWESYQTDTPEWDVLLDVDALAAAEGEEWVFHGGTFLRPATGEQHRLALVALSPDGGDANRYREFDVETRTFVDPADGGFDLPTAKGNVSWLDADTLLVASTAGDLPRTASSYPRTAVTLRRGEALGTAALLFDVAENHMMAAVAHDSTPGFERTFAVDYIDFFNRSTFFRQDGSWVEIDAPTDVNLSAHREWLLFRPQGDWSVGVTTYPAGSLLAARFEDYLAGARELSVLFTPDAHTSLQSWSWTRDFLLLNLLRDVSSEIRVLDPSQPGTAGEGAWASSLLDACPPLHDVNAYAVDAEDESHADGGAGDDFWLVATGFTTPSTLMRGTLERRAVPAGAAGSASVVSSHAVVKASPSFFDDEKYEVQQHFAVSADGTRVPYFQVASRDLVLDGQNPTQLSGYGGFEISRTPAYSGSVGRAWLERRTANAPGPDGAQSYSRGGVYVVANIRGGGEYGPGWHRAALKENRHRAYEDFAAVARHLISRGVTSRERLGCVGGSNGGLLVGNMLTSYPELFGAVSCGVPLLDMRRYTKLSAGHSWIAEYGDPDVPEQWEFIRTFSPYHLLKDGVEYPETFIWTATSDDRVGPVQARKMAARMQAMGIPNVWYHEALEGGHAGASDNRQAAALQARSQHFLWRTLAGGSA	PGPT0020970_218	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
D1-29_00852	1929			hypothetical protein	GTGGGTAAATCGCAGAGCATCCGGACAGCCATCATCGGCGCCGGCCCCCGGGGTACCAGCGTGCTGGAACGCCTGCTCGCCCACCGTGCCGCCCACGGCGGAGCCGCGGCCCTCCACATCGAAATGATCGATCCCTATCCGGCAGGCCCCGGGCACGTCTGGCAGCCCGGCCAGTCACGCCTCTACCTGATGAACACGCAGTCTTTCTATCCCACCGTCATTCCCGAGGACCCCCAGCTGGCCCCCGCCATCAGCGGCACCACCTTTGACCAGTGGCGAAACCGCCAGCAGCACCGTCCGCTGCCCTCCCTCACAGCCGAGGAAAGGGCCGAACTGGCGGCGCTCACATCCCGGGACTTTCCGAGCCGCGCCCTGTATGGGCGCTACCTCCGCAGCACCCTGGAGGAACTGACAGGCCAGTTGCCTGACGGCGTCACCGTCACATTCCACGAAACGTCAGCTTCAACTGTGCGCCGGTCAGGCAAGGAAACGTTCGACGTCGGCCTCGCCAACGGCGCTTCCCTCACCGCGGACTCCGTGGTCCTGGCCCTGGGCCACATCCCCTCCCGGCTTAACGCCGAACAGCGGGAGCTGCTGTCCTCAGCTGGCCAGCTTGGCCTGCGGTACCTGCCGCCCGCCGTACCTGCGGACGTGGACTGGCAGGAGGTCCCGGCAGGCGAGCCCGTCCTGGTCCGCGGGATGGGCCTGAACTTTTTTGACGCCATGGTGCAGCTGACGGAGGCCAGGGGTGGAAAGTTCATCGACTCCGGACCGGTGCTGACCTATGAGCCGTCCGGCCAGGAGCCCCTGATCATCGCCGCGTCCCGCCGGGGCACACCCTACCGGACCAAAGCCGTCCTTCAGGGGTACTATCCGGAGTCCGTCAAGCTCCGGTACCTGACCGATGCGGCCCTGGCACGCTTTGCTGCGGCCGGGATCCGGCCAGGGTTTGATCACGACCTCTGGCCCCTGCTGCACCGGGACACCCTCTGGGCCTACTATTCCACCCTGGTGCGCTCGCAGCCCGGCGCGGTCGCGGATCCAGCCGGTTTCCTGGCCGACCTCGAGGAAGCGCTCCGGCCGCATTCCCACAGCGCGGCCAACTGGGAGGAAGCTGTGGACAGCGTACTGGCCGTCCATATCGGGCCACGGCACCGGCTGGACCTGCTGGGCCTTGCGTCCCCCTTGGCGGGCCAGCGGTTCGCATCCCGGGCCGAGCTTGATGCCGCCGTCGTGGAGTACCTGCTTGATGACGTCCGCCGCTCCGCGCTCGGTGAGCAGGACCCCGTCAAAATGGCGATCGGAGCCCTGCATCACGGCCGCGCCGTCCTAAAGACGGCAGTTGCCGACGGCGGGATCACCGACGAGTCGTGGGTGGGCGGGCTGAGGGGCTGGTTTGAGTCGTTTGTGGAAGGGCTCGCCAGCGGACCTCCCGCGTTGCGGGCCGAACAACTGGCGGCGCTGGCCCGCGCGGGCGTGGTCAGCTTTGTGGGTCCCGACCCCAAGTTCGGCATCGACCGGCGAAACGGGATGTTCACTGCTGCGTCACCTTGGGTGACGGGTCCGCCGGCGGCGGCGAAAACCATGATTGAAGCCCTGGCGCCGGCGAACCGGGTCTCAGCCAGCGCGTCCCCGCTGCTCGAGCAGCTCCTGGCGGACGGGCTGGTCCGGCCACGGCTGATGATGACAGCTGAGGGTGCTCCCGTGGAAGCCACGGGACTGGACGTCAGCCCGCATCCCTACCGCCCGCTGGCGGCAAACGGTTCCGTCACCGCCGGGCTCTACGTCCTGGGGCTGCAGCTCTCGGCTTCCCAGTGGGGCACCGCCATCGCCGCGGAGGCCTTCCAGCCGGGCGGCCCCGCTTACCCGAGCGGTCAGCGTACCCTCCGGGACGCCGACGAAATCGCCCGCGCCATCGTGGGTGCCTGA	MGKSQSIRTAIIGAGPRGTSVLERLLAHRAAHGGAAALHIEMIDPYPAGPGHVWQPGQSRLYLMNTQSFYPTVIPEDPQLAPAISGTTFDQWRNRQQHRPLPSLTAEERAELAALTSRDFPSRALYGRYLRSTLEELTGQLPDGVTVTFHETSASTVRRSGKETFDVGLANGASLTADSVVLALGHIPSRLNAEQRELLSSAGQLGLRYLPPAVPADVDWQEVPAGEPVLVRGMGLNFFDAMVQLTEARGGKFIDSGPVLTYEPSGQEPLIIAASRRGTPYRTKAVLQGYYPESVKLRYLTDAALARFAAAGIRPGFDHDLWPLLHRDTLWAYYSTLVRSQPGAVADPAGFLADLEEALRPHSHSAANWEEAVDSVLAVHIGPRHRLDLLGLASPLAGQRFASRAELDAAVVEYLLDDVRRSALGEQDPVKMAIGALHHGRAVLKTAVADGGITDESWVGGLRGWFESFVEGLASGPPALRAEQLAALARAGVVSFVGPDPKFGIDRRNGMFTAASPWVTGPPAAAKTMIEALAPANRVSASASPLLEQLLADGLVRPRLMMTAEGAPVEATGLDVSPHPYRPLAANGSVTAGLYVLGLQLSASQWGTAIAAEAFQPGGPAYPSGQRTLRDADEIARAIVGA				NA	NA	NA	NA	NA
D1-29_00853	1077			hypothetical protein	ATGACCACAGGCGCAACGACGGCCAGGACGGCTGCCAGGATGGCAGGGGCGGCAGCAGCGATCGCCGTCGCGCTGGTGGTGTCCGGTTGTGGCGGTCCGGCGACAGCCCAGCAAGGCGCGGGTGCTGCCGCGGGAACGGAAGTGAAGACCGTCCGCTATCAGGGTTCGCCCAACACCGTCTCACTGCTGGAGGTGGCCGAGGACCTCGGATACCTGAAGGACGTGAAGCTGGAGTGGGTCAGCAATACCACCAGCGGCCCGCAAAGCATCCAATCGGTGGCAACTGACCAGACTGACATTGGGGGAGCCTTCACCGGCGCCGTGATCAAGCTCATTGAGGCAGGGGCGCCCGTGCAGGCTGTCATCAACTACTACGGGGAGGACAAGGACACCTTCACCGGGTACTACGTGGAAGAGGGAAGTCCCATCAAAACGGCCCGGGACCTGATCGGCAAGAAGGTCGCAGTGAACACCCTGGGCGCCCACCACGAAGCAGTCATCACCACGCAGCTGAAGAACAGCGGCCTGACACCGGAAGAAATCAAGCAGGTCCAGCTGGTGGTGGTCCCGCCGAACGAAACCGAAGTAGCCCTCCGCAAGAAGCAGGTGGACGTTGGGACCCTGGGCGGTGTGCTCCAGGACCGGGCCCTTGCCGAGGGCGGCGTCCGTGCTCTCTTCACTGACGTCGGCGTGATCGGCGGACCTTTCGACGCCGGCCAGTATGTCCTGCGGAAGGACTTCATCGCCAAGAATCCTGAAACCAGCCGCACCCTGGTGACGGGAGTAGCGAAAGCCATCGAGTGGGAGCGGACCACTCCGCGGGAGCAGGTGATCGCCAAGTTCGAGGAAATCATCACCAAGCGGGGCCGCAACGAGAGCACCGAAACACTGAAGTACTGGAAGAGCGTGGGCGTGGCTTCCACCGGCGGCCGCATTCAGGACAGCGACTTCACCCGCTGGAAGGACTACCTCCGTTCCGCCGGGATCGTCAACGGCCCACTGGACACCAACAAGCTCTACACCAACGAGTTCAACGGGCTGGAAACAACGCCGGCCGCGCCAACCTCGAAAGGATAG	MTTGATTARTAARMAGAAAAIAVALVVSGCGGPATAQQGAGAAAGTEVKTVRYQGSPNTVSLLEVAEDLGYLKDVKLEWVSNTTSGPQSIQSVATDQTDIGGAFTGAVIKLIEAGAPVQAVINYYGEDKDTFTGYYVEEGSPIKTARDLIGKKVAVNTLGAHHEAVITTQLKNSGLTPEEIKQVQLVVVPPNETEVALRKKQVDVGTLGGVLQDRALAEGGVRALFTDVGVIGGPFDAGQYVLRKDFIAKNPETSRTLVTGVAKAIEWERTTPREQVIAKFEEIITKRGRNESTETLKYWKSVGVASTGGRIQDSDFTRWKDYLRSAGIVNGPLDTNKLYTNEFNGLETTPAAPTSKG				NA	NA	NA	NA	NA
D1-29_00854	879	btuD_3		Vitamin B12 import ATP-binding protein BtuD	ATGACACCCAAAATAAGCCTGCAGAATGTGACCAAGGAGTTTGCAGTCCGCCAGGGCAAAGGCGAAGGCAGGAGCAGCGGGCAGCGTGTCCTGACAGCGCTGGATGACTTGAGTTTGGACGTGGCCGACGGCGAATTCCTCACCCTCGTTGGCCCCAGCGGTTCGGGAAAAACAACCCTCCTGGACCTGCTGGCCGGCCTGTCCCGCCCTACCTCAGGCAAAGTACTGGTGGACGGAAACGAAGTGTCAGGGCCAGGCCAGGACAGGGCGGTGGTGTTCCAGCAGTACGCGCTGTTCCCTTGGCGCACAGCGTCAGCCAACGTCTCCATTGGCCTGGAGAACAAGGGCCTGTCCAGGAAACAGCGGGCCGGGATCGCCAGCGAATTCCTTGACCTTGTAGGCCTGGCCGGCTTTGAGGACCGGTATCCGCATGAACTCTCCGGCGGTATGAAGCAGCGCGTGGCAATTGCCAGAAGCCTCGCCTATGAGCCGGACGTTCTGCTGATGGATGAGCCGTTTGCAGCCTTGGATGCCCAGACCCGTGAACAACTCCAGGACGAGCTCCTGCGGATCTGGAAAGCAACGGGAAAGACGATCGTGTTCATCACCCACGGCATCGACGAGGCCGTCTACCTCGGCCAGCGCGTGGCGGTGCTCAGCGCCCGGCCCGGCAGGCTGAAGGAAATTGTGGACATCAACATTCCAGACCGCGACGGCGACGCGGACATCCGCTCCCATTCCGCGTTTGTGGAGCACCGGCACCAGGTCTGGTCCCTCCTGCATGACGAGGTCCGGCTGGCCCAGGATTCCGGTCACCGGAAAATCCTGCCGGACGGGACCGCCCCCGATGAACTGCCCCTCGAGAGGAGCGTGGCCTGA	MTPKISLQNVTKEFAVRQGKGEGRSSGQRVLTALDDLSLDVADGEFLTLVGPSGSGKTTLLDLLAGLSRPTSGKVLVDGNEVSGPGQDRAVVFQQYALFPWRTASANVSIGLENKGLSRKQRAGIASEFLDLVGLAGFEDRYPHELSGGMKQRVAIARSLAYEPDVLLMDEPFAALDAQTREQLQDELLRIWKATGKTIVFITHGIDEAVYLGQRVAVLSARPGRLKEIVDINIPDRDGDADIRSHSAFVEHRHQVWSLLHDEVRLAQDSGHRKILPDGTAPDELPLERSVA	PGPT0001140_870	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
D1-29_00855	924	ssuC_1	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGAGTTCCGTCATTACCAAACCAGAAGTGCTGGCAGCAGCTGCTGCAGTGACGGCAGCCGGGGAACGTCCCGCCGTCGGACATTCCACCGCAAGCAGAACGCGTACGGCCGGCCGGGACAGAATCCAGGAGGGGCTTTCCGGACTGGCTGGCCGGGCCGCCCGGGCGGGATGGAAGTCCGTCGCAGTCCTGCTGTTCCTGGCGCTGTGGGAAATCGGGCCCCTGTACCTGGCCGGTCCCTCCACCCGGGTGTTCCTGCCTCCGCTGCACGAGGTGCTCGCGGCAGGAGCCAAACTGGTGCAGTCCGGCCAGTTGCAGAGCCACCTGCAGGCCAGCCTCACCCGCTCTGTGTCGGGATTTAGCATTGCCGTCGTGTCGGCCGTAGTGCTGGGGCTCCTCATCGCCTGGTACGGCTGGTTGAATTCATTCCTGAACCCGCTGCTGGAGCTCTTCCGGAACACCGCCACCCTGGCCCTGCTTCCGGTGTTCACGCTGCTGCTGGGCATCGGCGAGGAATCCAAGATCACCATCGTCGCCTACGCTGCGTTCTTCCCGGTGCTGCTGAACACCATCGCGGGCGTCCGGACCGTTGACCCGCTGCTGATCAGGGCCGCCAAGTCCCTGGGACTGAACAGCTTCCGGCTCTTCCAGAAGGTCATCCTGCCCTCGGCCGTCCCCACCATCTTCACCGGCATCAGGATGGCCGGCACCTCATCCATCCTGGTGCTGATCGCCGCCGAAATGGTAGGCGCCAAGGCCGGGCTGGGTTACCTGATCGTCAATTCGCAAATGAGCTTCCTCATCCCCGACATGTACGCAGGAATCCTCACCGTCTCGGTCCTGGGACTCCTGGTGAACGTGCTGCTGGTGGCACTGGAACGCCACTTCTCCCGCTGGCGCACCGCCGTCGGCTCCACATCCTGA	MSSVITKPEVLAAAAAVTAAGERPAVGHSTASRTRTAGRDRIQEGLSGLAGRAARAGWKSVAVLLFLALWEIGPLYLAGPSTRVFLPPLHEVLAAGAKLVQSGQLQSHLQASLTRSVSGFSIAVVSAVVLGLLIAWYGWLNSFLNPLLELFRNTATLALLPVFTLLLGIGEESKITIVAYAAFFPVLLNTIAGVRTVDPLLIRAAKSLGLNSFRLFQKVILPSAVPTIFTGIRMAGTSSILVLIAAEMVGAKAGLGYLIVNSQMSFLIPDMYAGILTVSVLGLLVNVLLVALERHFSRWRTAVGSTS	PGPT0001145_1530	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
D1-29_00856	948		COG2175	Alpha-ketoglutarate-dependent sulfate ester dioxygenase	ATGACCGTCATCACCGAAACCAAGCTTCAGTTCACCAAACTGGGTTCCCGGATTGGCGCCGAGATCCGCGGGCTGGATCTCAGCGCGGAGCTCAGCGAAGGCACCATCGGACAGATCCGCGAAGCCCTCAATACCCATAAGGCACTGGTCTTTCGCGAGGCAAACATCCACACCGATGAGGAACAGGTGCGGTTCGCCAGCCGCTTCGGCCCGCTCACCAAGGCGCACCCGACGGTGGCGTCCGTGGACGGCAAGCCCGCCGTACTGCCCGTAGACAGCGAAAACGGCAGCGCCAACAACTGGCACACGGACGTCACCTTTGTGGTGAACCCGCCGCAGGCCTCCACGTTGCGGAGCATCACGTTGCCGGCCTATGGCGGGGAAACCCTTATCGCCTCATCCGCCGGCGCCTACCAGGACCTGCCGGAGGAACTCCGGAACTTCGCTGACACGCTCTGGGCTGTCCATACGAACGACTACGACTATTCGGTGCCCAAGAACCTGGAGCACGCCAACGCAGCGGAACGGCGCAAGGAATTCACGCGTATCCATTTCGAATCCGCCCACCCGGTGGTCCGCGTCCACCCACTGACGGGGGAGCGCGCTCTGTTCATCGGCGGTTTTGCCCAGCGTCTGAGGATCGTGGGGCTCTCCAACACCGAGTCCAGGGACATCCTGCGCCTGCTGCAGGCCTACGTCACCCGCCCAGAAAACGTGGTCCGGGTCAACTGGGAGCCGGACCAGGTGGTGCTCTTTGACAACCGCATCACCCAGCATTACGCACCGGCCAACTACGACGGCCAGGCCCGCCAGCTGAACCGTGTCACCATCGCCGGTGACATTCCCAGGGGCGTGGACGGCCGGAGCAGCACCTCCATCCAGGGCGACTCCTCCGCCTACTCGGAGACGGTAATTGTTCCTGAGGTCCGTCATAAAGTTCCCGCATAA	MTVITETKLQFTKLGSRIGAEIRGLDLSAELSEGTIGQIREALNTHKALVFREANIHTDEEQVRFASRFGPLTKAHPTVASVDGKPAVLPVDSENGSANNWHTDVTFVVNPPQASTLRSITLPAYGGETLIASSAGAYQDLPEELRNFADTLWAVHTNDYDYSVPKNLEHANAAERRKEFTRIHFESAHPVVRVHPLTGERALFIGGFAQRLRIVGLSNTESRDILRLLQAYVTRPENVVRVNWEPDQVVLFDNRITQHYAPANYDGQARQLNRVTIAGDIPRGVDGRSSTSIQGDSSAYSETVIVPEVRHKVPA	PGPT0002940_656	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002940-tauD-K03119	NA	NA
D1-29_00857	729		COG3324	Putative glyoxylase CFP32	ATGTCGTTCCTGTCTAGGTGGGAGTTCGAAGCGGGAGACCAGGAAAAGTATGGCGGCTATATCACCGCCCGCAAGAACGGCAAGTCAGTGGCCGGGATCATGCAGAAGGAAGCGGACCAGGGGGAGGTACCGGACGCCTGGTCCACCTATCTGCGTTCCGACGACGCCGCCGCCACAGCGTCTGCAATCACTGCCAACGGTGGTCAGATCTACATGGAGCCCATGGATGTCCCGGAGCAGGGGTTCATGGCCTTTTTCGGTGATGTCACCGGTGCCGCTGTGGGCGTCTGGCAGCCCCGGGAGATGCAGGGCTACGAACTGGTGGCAGAAACGGGGACGGCCGCCTGGCACGAACTGCATGCCAGGGACTACGATGCCGCGGTGAAGTTCTACCAGGACGTCTTCGGCTGGGACACCGCCGTCATGAGTGATGCGCCGGACTTCCGCTACACCACACTGGGGGCCGGTGACTCAGCCAAGGCCGGCATCATGGACGCCTCCGGCTACCTCCCCGCCGATGTTCCGTCCTCCTGGCAGATTTACTTCGCCGTGGACGACGCCGATGCTTCGATCGGGAAGGCAGTGGCCATGGGCGCCACTGTCATTGATGGGCCCGACGATTCGCCTTTCGGGCGCCTCGCCACGCTGGCAGATCCCACAGGTGCTGTGTTCAAGATTATTGCGGACAGTGCCCGGGGAACCGCGGACGCGTCTGGCTCGGGGGCCTGA	MSFLSRWEFEAGDQEKYGGYITARKNGKSVAGIMQKEADQGEVPDAWSTYLRSDDAAATASAITANGGQIYMEPMDVPEQGFMAFFGDVTGAAVGVWQPREMQGYELVAETGTAAWHELHARDYDAAVKFYQDVFGWDTAVMSDAPDFRYTTLGAGDSAKAGIMDASGYLPADVPSSWQIYFAVDDADASIGKAVAMGATVIDGPDDSPFGRLATLADPTGAVFKIIADSARGTADASGSGA				NA	NA	NA	NA	NA
D1-29_00859	984			2-haloacrylate reductase	ATGAAAGCCGTCTACATATCAGAACCTGGCGGTCCGGAAGTGCTGGAGGTCCGCGACGTGGACGCCCCGGTTCCCGGGCACGGCGAGGTCCTCATCGACGTCGTTGCTGCGGGGCTGAACCGGGCGGATGTGCAGCAGCGCAGGGGATTCTATCCGCCGCCGCCGGGCGCCTCGGAAGTGCCGGGGCTGGAAGTCTCCGGTAGGATCGCTGGCTTCGGTCCAGGTGTCACCAAGCCGTTCTCCCTGGGTGACAAGGTGGTGGCGCTGCTTGCCGGCGGCGGGTATGCGCAGCAGGTTGCCGTTCCGGCCGAGCAGGTCCTGAGGATTCCTGACGGTGTTGACGTGGTGACTGCAGCTTCCCTGCCGGAGGTGGCCGCCACCGTATATTCGAACCTGATCATGACGGCCCAGCTGCAGGCGGGCGAGACCGTACTGATCCATGGCGCCACCGGCGGCATCGGCACCATGGCCATCCAGCTTGCCAAGGCGCTTGGGGCAACGGTGGCAACCACTGCCGGGACGGACGAGAAAGTCGGCACCGCCAAGGCTTTCCTGGGTGCCGACATTGCCATCAATTACAGGGAAGAAGACTTTCCGGACAGCCTGCGGCGGCAGAATGGCGGCAAGGGGGCTGACGTGATCCTGGATGTTGTGGGGGCCAAATACCTCCAGCAGAACGTGGACGCCCTGGCTGACTATGGGCGGCTGATCGTCATCGGCCTGCAGGGCGGCGCCAAAGGCGAACTGGACCTCGGGCAGTTGCTGAAGAAGCGGGCGGCGGTGGTGGCAACGGCGCTGCGGCCGCGCCCTGTCGCGGAAAAGGGAGCCATCATGAATGCCGTCCGGGAGTCGGTCTGGCCGCTCATTTCGGACGGGCGGATCCGGCCGCTGGTGGCGAAGACCTTCCCCCTGGAGCAGGTCCGAGCAGCCCACGAGTACTTTGACAGCGGGGACCACGTGGGCAAAATACTGTTGCTTCTGTAG	MKAVYISEPGGPEVLEVRDVDAPVPGHGEVLIDVVAAGLNRADVQQRRGFYPPPPGASEVPGLEVSGRIAGFGPGVTKPFSLGDKVVALLAGGGYAQQVAVPAEQVLRIPDGVDVVTAASLPEVAATVYSNLIMTAQLQAGETVLIHGATGGIGTMAIQLAKALGATVATTAGTDEKVGTAKAFLGADIAINYREEDFPDSLRRQNGGKGADVILDVVGAKYLQQNVDALADYGRLIVIGLQGGAKGELDLGQLLKKRAAVVATALRPRPVAEKGAIMNAVRESVWPLISDGRIRPLVAKTFPLEQVRAAHEYFDSGDHVGKILLLL	PGPT0013255_4957	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
D1-29_00860	609			hypothetical protein	ATGTCCATCCGTCACAGCCTCCTCGCCCTGCTGCAGGACCAGCCGCGTTATGGTTACCAGCTCAGGGTTGAGTTCGAGAACCGCACCGGCGCCACGTGGCCCCTGAACATCGGCCAGGTCTACACCACGCTGGACCGGCTGGAGCGCGACGGCCTGGTAAACAACGACGGCGGCGACGGCGAAGGCCACGTGGTGTACAGCATCACCGACGCGGGCAAGGCCGAGGTGCAGGGCTGGTTTGCCGCCCCCGTGGAGCGCAACAACCCCCCGCGGAACGAACTCGCCATCAAGCTGGCGCTCGCCGTCACGTTACCGGGCGTTGACGTGCAGGCCATTATCCAGGCCCAGAGGGTGGCATCCATCCGGGCGCTGCAGGACTACACCAAGGCCCGCCGGGACACCGCAGCAAACCAGCGTTCCGCCGATACTGCCTGGCTGCTGGTGCTGGACTCGCTGATCTTCCAGACTGAAGCGGAGGTCCGCTGGCTGGACCTGTGTGAGGCACGGATGGTGCAGCAGGCACAGTCCGCGCAGGGAACCTCACGGAAACTGTCCAACGGGGTACCTGCGGACGAGGCCGCCCCGCTCATCGCGACCAACCGCCGGTGA	MSIRHSLLALLQDQPRYGYQLRVEFENRTGATWPLNIGQVYTTLDRLERDGLVNNDGGDGEGHVVYSITDAGKAEVQGWFAAPVERNNPPRNELAIKLALAVTLPGVDVQAIIQAQRVASIRALQDYTKARRDTAANQRSADTAWLLVLDSLIFQTEAEVRWLDLCEARMVQQAQSAQGTSRKLSNGVPADEAAPLIATNRR				NA	NA	NA	NA	NA
D1-29_00861	738	yknY	COG1136	putative ABC transporter ATP-binding protein YknY	GTGAGCGTCCAGGGACCACAACAGGTCCTGGAACTGTCCAAAGTCAGCAGGACCTTCGGTGACGGAGCGACGGCGGTCGCCGCACTCCGCGACGTAGACCTCACCATCAACGCCGGCGAGTTTGTCGCGGTGATGGGGCCATCCGGCTCGGGTAAGTCCTCCCTGCTGGCGCTGGCAGGAGGATTGGACCAGCCGACGTCGGGCGCTGTCTTTGTGGAATCAACGCCACTGGCGCGGCTGGGCCTCAATGAACTCGCGCGGCTGCGCCGCCGCGCCGTCGGCTACGTTTTCCAGGACTTCAACCTGGTCCCCACGCTGACAGCGGCAGAGAACGTGGCGCTGCCCTTGGAGTTGGACGGAACGGCGGCCAGGAAGGCGCACCGGCAGGCGCTGGACGCCCTCCGCCAGGTGGGGATTACGGACCTGGCCGATCGCTTCATGGACGAGATGTCCGGCGGCCAGCAGCAGCGGGTGGCCATTGCGCGCGCCATCGTGGGCGAGCGCCGCCTGATCCTTGCCGACGAACCCACGGGGGCGCTGGACTCCACCACCGGCCAGGGTGTTATGGAGGTCCTGCGTCAAAGGGCGGATGCCGGTGCGGCTGTCATGCTGGTGACCCACGAGGCCAGGCATGCAGCCTGGGCGGACCGCGTGGTCTTCCTGAGGGACGGCCGGATCGTGGACCAGGCGGCCGCCATGCACGATCCCACCATGCTCCTGACCCAGGCCGGGCTCTAA	MSVQGPQQVLELSKVSRTFGDGATAVAALRDVDLTINAGEFVAVMGPSGSGKSSLLALAGGLDQPTSGAVFVESTPLARLGLNELARLRRRAVGYVFQDFNLVPTLTAAENVALPLELDGTAARKAHRQALDALRQVGITDLADRFMDEMSGGQQQRVAIARAIVGERRLILADEPTGALDSTTGQGVMEVLRQRADAGAAVMLVTHEARHAAWADRVVFLRDGRIVDQAAAMHDPTMLLTQAGL	PGPT0013345_5081	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-29_00862	2877			hypothetical protein	GTGGCGCTTGACCTCTCACCGGTGCCTGGCGGGCGCCGGCACTCCTTCCGCGTCGCCCTGCGGATGGCTCGGCGCGATATCAGCCGCCACAAGGGCCGTTCGCTGCTGATTATCCTGCTGATCATGCTGCCCGTGGCGGGCATGACAGGTGCCGCCACGCTGGTCCAGAGCATGCAGGAAACTCCCGCCGAACGGGTCCAGTACCAGCTCGGGAAGACGCAGGCGCGGTTCCAATCGCTGAACTCCGTGAACAGCGCGATGGTCCAGGACCCCCTGATGGACCACATCGTGGCCTCCAGTCCCCGGGACATCGATCCAGACTTCGTCGCCGCGGATCCCCAGGACATCCTGCCCGCTGGATACAACGTCCTGACGGAATCGCAGCTGGACCTCACCACCAGGGTGGGAGACGCTGACGTGTCCCTGATGGGCAGGGCCGTGGATGCCCTGAACCCTGCCTTTGAAGGGAAATTCCAGCTACTGAACGGCAGGGCACCGCAAACCGCCACGGAGGCTCTCGTTTCACCGGGTCTGTTGGAGCGCTTCGGTATGGAGCTGGGGGAGAACCTGACGACGTCGGCGGGTACTTTTACCGCCGTCGGCACCTTGCGTGACTTTGGGATCTCGGACCGCAACGAAATTCTCTTCCTCAAGCCGGGCCAGGGGGAGGAAGCAATCGCGCCTCTGCCTTCCGGGCGCGGTGGCCAGACGAAGTACTACCTCGTGGGCCCGGAGCCTGTGACCTGGGCCCAGGTCAGGGAAGCGAACACCGTTGGAGTGTCAGTACTCTCTCGGTCCGTAGCCTTCAATTTGCCGCCTCTGAATCAGCGGAGTGTGGACGGCACGCCGCCGCAATATGAGCAGGCCACACCTTATTCCGCCTACCTCACGGGCGGCTTCATCGGAGCCCTTGCCCTGCTGGAGGTCGGATTGCTGGCCGGCGCGGCATTCTCCGTCGGAGCCAAACGGCAGATTCGCGAGCTGGCGCTTTTGGCTGCTTCGGGCGCTGAAGCCCCCACCGTCCAGGCGGTGGTCACGGCGGCAGGCGTGTGGCTGGGAACCATTGCCGTCAGTGCCGGGGCGGCGCTGGGCCTCGCGGGTGCTGCGGGTGCCGTGTTCTGGGTACGTTACCTCGGCTCCCAGCGGCTGGCAGGCTTCCACCCGGATATCCTTCTGACCGCCATCGCCATGATCATGGGCCTGGGCGCCTGTATTCTTGCTGCCCTTGCGCCGGCCCGCCAGGTGTCAAGGCAGGCGGTGCTGGGGGCACTGAAGTCCGGGCGGGCGCCGGTACCAACAGGAAAATGGCCGCAGCGTGCCGGTGCGGGGATGCTGCTGCTGTCCGCTGGCCTGCTGTTTTCCGGCAACGCCCTGGCCGATGTCCCGGCTGACCCCGACCTGCTCAACGACAGAATGCCCCTGATTACAGGCCTGGTGATCGCCGGTGCCGTGCTGGCGGTGACCGGGCTGGTGCTTGTCACCGGATTCACGGTGGCGCTGATGACCAGCAGGACCGGCAGGCTGCCGCTTCCGTTGCGGATGGCGGCCCGGGACTCCGCCCGCAACCGCAGCCGTACTGTGCCCGCCGTTGCCGCAGTGCTGGCGGCGGCCACGCTGGCCAGTGCCGCCATGGTTCTCGCAGCCAGCCAGGAGGCCCGGGAGCGGGAAACCCACCAGTGGAATGCTTTGCCAAACCAGGTGCTGTTGCCCTTGAATGAGTCTGGTCCGCCCCTGGCAGATGGCTCCCTCCCGGCACCGGTGGCCGTGGATCCAGCCAAGTTCACCAGCGCTTTGAAGAACGCCGTTAACACGGTGTCCTGGACGCAGGTCCTGGAGTCGCCAAGGGTCACAAACTGTCAAAGGGGCCCTGAGACGGATCTCACCGTTCCGCCCGTTACTCCCACTTCCAACTGCCTCCTCTACTCGCTGAAAGTGCCGGCAGGGAACGAGTGCGCCCTGACCGAGGGCCAAAGGGTCAAGGATCCGCGGGATTGGCGCTGCCAGGGCTCAATGCGCCCCATCGGCTTCACTTCCAGCGGCTCACTGGTAGTAGGCGGGGAGGCCGAGATCCGCGCCATGCTGGGAACGGCGCCTTCCGCAGAGGCACTGGAGGTGCTCAGCAACGGCGGCATGGTGGTGACCAATCCTGTCTTTGTGCAGGACGGACGTGCAGTCGTGGAGGGCGCCGATATGCGCAGTGACAAGGTGTCCACCACCCAGATGCACGCCGGCTATGAGGTGGTCACGTCAACGGAAGTGCCCGCTGTCGTGATGGTTCCCGAGGTTCCTGTTCCATACTTCGGTGTCATCTCACCTGCGGCCGCCAAATCCGCGGGCATCCAGCTCACGGAATCGTCACTGCTGGTCCAGTTCAGTGCCTATCCCAGCCCGGCGGAGCAGGACCTGTTGGCGTCAACCGCTGCCGGTTTCTTCGGAAGTACCCCCATTGGGATTTACGTTGAGCCGGGCGTGGACCGCGATTCTTCCTGGGTCATCTGGTCCATCGTGGGGATCAGTGCGCTGATCACGCTCAGTGCTGCCGGCATTACCACGGGGCTGTCGCTTGCCGACTCGCGCAGTGACCATATGACGCTTGCAGGAGTCGGCGCGGCGCCCCGGCTGCGGAAAGCACTGGCCGGAGCCCAGGCCCTGATGACGGGTGGTCTGGGCTCCTTCCTGGGCTGCCTGGCGGGAGTAGCCCCGGCGGTCATTATTGTCCATGCTTCGGGACGGGCCACAGGACTGGGTGCGGACGCTGTTGTCCCGTGGCTTCAGCTGCTGGCACTGGTGGTCATTGTGCCTCTCACCGGCTCGGCCTTGGCCTGGATTTTCACCCGGGCACGCCTGCCGATGTCGCGCCGCAGCCTGGGAACCTGA	MALDLSPVPGGRRHSFRVALRMARRDISRHKGRSLLIILLIMLPVAGMTGAATLVQSMQETPAERVQYQLGKTQARFQSLNSVNSAMVQDPLMDHIVASSPRDIDPDFVAADPQDILPAGYNVLTESQLDLTTRVGDADVSLMGRAVDALNPAFEGKFQLLNGRAPQTATEALVSPGLLERFGMELGENLTTSAGTFTAVGTLRDFGISDRNEILFLKPGQGEEAIAPLPSGRGGQTKYYLVGPEPVTWAQVREANTVGVSVLSRSVAFNLPPLNQRSVDGTPPQYEQATPYSAYLTGGFIGALALLEVGLLAGAAFSVGAKRQIRELALLAASGAEAPTVQAVVTAAGVWLGTIAVSAGAALGLAGAAGAVFWVRYLGSQRLAGFHPDILLTAIAMIMGLGACILAALAPARQVSRQAVLGALKSGRAPVPTGKWPQRAGAGMLLLSAGLLFSGNALADVPADPDLLNDRMPLITGLVIAGAVLAVTGLVLVTGFTVALMTSRTGRLPLPLRMAARDSARNRSRTVPAVAAVLAAATLASAAMVLAASQEARERETHQWNALPNQVLLPLNESGPPLADGSLPAPVAVDPAKFTSALKNAVNTVSWTQVLESPRVTNCQRGPETDLTVPPVTPTSNCLLYSLKVPAGNECALTEGQRVKDPRDWRCQGSMRPIGFTSSGSLVVGGEAEIRAMLGTAPSAEALEVLSNGGMVVTNPVFVQDGRAVVEGADMRSDKVSTTQMHAGYEVVTSTEVPAVVMVPEVPVPYFGVISPAAAKSAGIQLTESSLLVQFSAYPSPAEQDLLASTAAGFFGSTPIGIYVEPGVDRDSSWVIWSIVGISALITLSAAGITTGLSLADSRSDHMTLAGVGAAPRLRKALAGAQALMTGGLGSFLGCLAGVAPAVIIVHASGRATGLGADAVVPWLQLLALVVIVPLTGSALAWIFTRARLPMSRRSLGT	PGPT0013350_706	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
D1-29_00863	2301	cstA	COG1966	Peptide transporter CstA	ATGGCCGGAATGCCTGGTGAAGCTGTAGATTCAACGCGTCGGGGCGGGTCTTTGACCGCCGATCCGGACCTTCCTTCCACCGCCGTGGACGAGGCCGTCCGCGAGGCGGAAGAGAAGAAGTGGACGCCCGCCAAAATCGCACTCTGGTCCGCAATCGCCCTCCTGGGCGGCGTGGCCTGGTTCATGCTGGCCATCATCCGCGGCGAAACAGTCAACGCCATCTGGTTTGTCTTCGCCTCGGTCTGCACCTACCTCATCGGCTACCGGTTCTACTCCAAGGTCATCGAGAAGTTCCTGCTCAAGCCCGATGACCGGCGCGCCACACCGGCGGAGTACAAGGCCGACGGCAAGGACTACGTCCGCACGGACCGCAACGTCCTGTTTGGCCATCACTTCGCAGCCATCGCCGGCGCCGGGCCCCTGGTGGGCCCGGTCATCGCAGCCCAGATGGGCTTCCTCCCGGGCACCATTTGGATCATCATCGGTGTGGTGTTCGCGGGCGCAGTGCAGGACTACCTGGTGATGTTCTTCTCCATGCGCCGAGGCGGCCGTTCCCTGGGCCAGATGGCCCGCGAGGAACTGGGTGTCATCGGCGGCACCGCAGCCCTGGTAGCCACGTTGCTCATCATGGTGATCATCGTCGCGATCCTTGCCCTCGTCGTGGTCAATGCCCTCGGTGAAAGCCCGTGGGGCGTCTTCTCCGTTGGCATGACCATCCCCATCGCCCTGTTCATGGGGGTCTACCTCAGGTTCCTCCGGCCCGGCAAGGTCATGGAGGTTTCCCTCATCGGCTTTGTGCTGCTGATGGCCGCGATCATCGGCGGCGGCGCCGTTGCCGGCACCGAATGGGGAGCGGCGTTCTTCCACTTGGACAAGGTCACCATCGCGTGGGGCCTGATCGTCTACGGCTTCATCGCGGCGATCCTTCCCGTCTGGCTGCTGCTGGCTCCCCGTGATTACCTCTCCACGTTCATGAAGATCGGCGTCATTGTGATGCTGGCACTGGCCATCGTGGTGGTCCGTCCCGAAATCACCGTCCCCGCCTTCAGCGAGTTCGCCGGCCGCGACAATGGGCCGGTTTTCTCCGGGGCACTGTTCCCGTTCCTGTTCGTGACCATCGCCTGCGGTGCGCTGTCCGGTTTCCATGCCCTCATTTCCTCCGGCACCACGCCCAAGCTCATTGAGAAGGAACGCCAGACCCGCTTCATCGGCTACGGCGGCATGCTGATGGAGTCCTTTGTGGCCATCATGGCGCTGGTGGCCGCCATCTCCATTGACCGCGGCCTGTACTTCGCCATGAACTCGCCTGCCGCCCTCACCGGCGGAACCGTGGAGACGGCTGCAGCCTGGGTCAACAGCCTCGGGCTCTCCGGGGTGAACCTCACACCGGATTTCCTGGCACAGACAGCCGCCAACGTGGGCGAAGAAAGCATTGTCTCCCGGACCGGCGGCGCTCCGACACTGGCTGTGGGACTGGCGCACATCATGCAGCAGTTCATCGGTGGCACCGCCATGATGGCTTTCTGGTACCACTTCGCCATCATGTTCGAGGCGCTGTTCATTCTCACAGCGGTCGACGCCGGCACCCGGGTTGCGCGGTTTATGCTTCAGGATTCCATCGGCAACTTTGTCCCCAAGTTCAAGGAAGCCTCCTGGCGGCCCGGGGCATGGCTCTGCACTGCCGTGATGGTGGGCGCCTGGGGTGCTGTACTGCTGATGGGGGTGACAGATCCGCTTGGCGGCATCAATACCCTGTTCCCGCTGTTCGGCATCGCCAACCAGCTGCTGGCCGCCATCGCCCTTGCGGTCTGCATGGCCATTGCGGCCAAACGCGGTGCGTACAAGTACCTCTGGATCGTTGCACTGCCGCTGGCCTTTGCGGCGGTGGTCACCATCACGGCCAGCTTCCACAAGATCTTCTCTCCGGTTCCGGCAGTGGGCTATTTCGCCAACAACGCCGCCTTCTCCAAGGCCCTTGCCGATGGCAAAACCGAGTTCGGCACAGCCAAGACCGTTGCAGCCATGGAGGCCGTGGTGCGCAACACCATGATCCAGGGCTGGCTTTCCGTCATCTTCGTCACGCTGAGCATCATCGTTATCGCCACGGCAGTTTTGGCCACTGTGAAGGCCTACCGCAAGACCGCCGCGGGGACCGCCAACAGCGACCACGAAGATGAGGCGCGTCCCTCCCGGGTCTTCGCGCCGGCGGGACTCATCGCTTCCCCGTCCGAGCGCGAGCTGATGGCCGAATGGAACAAACTGCCGGCTGAGCAGCGGTTCGACAAAGCGGGGCACCACTGA	MAGMPGEAVDSTRRGGSLTADPDLPSTAVDEAVREAEEKKWTPAKIALWSAIALLGGVAWFMLAIIRGETVNAIWFVFASVCTYLIGYRFYSKVIEKFLLKPDDRRATPAEYKADGKDYVRTDRNVLFGHHFAAIAGAGPLVGPVIAAQMGFLPGTIWIIIGVVFAGAVQDYLVMFFSMRRGGRSLGQMAREELGVIGGTAALVATLLIMVIIVAILALVVVNALGESPWGVFSVGMTIPIALFMGVYLRFLRPGKVMEVSLIGFVLLMAAIIGGGAVAGTEWGAAFFHLDKVTIAWGLIVYGFIAAILPVWLLLAPRDYLSTFMKIGVIVMLALAIVVVRPEITVPAFSEFAGRDNGPVFSGALFPFLFVTIACGALSGFHALISSGTTPKLIEKERQTRFIGYGGMLMESFVAIMALVAAISIDRGLYFAMNSPAALTGGTVETAAAWVNSLGLSGVNLTPDFLAQTAANVGEESIVSRTGGAPTLAVGLAHIMQQFIGGTAMMAFWYHFAIMFEALFILTAVDAGTRVARFMLQDSIGNFVPKFKEASWRPGAWLCTAVMVGAWGAVLLMGVTDPLGGINTLFPLFGIANQLLAAIALAVCMAIAAKRGAYKYLWIVALPLAFAAVVTITASFHKIFSPVPAVGYFANNAAFSKALADGKTEFGTAKTVAAMEAVVRNTMIQGWLSVIFVTLSIIVIATAVLATVKAYRKTAAGTANSDHEDEARPSRVFAPAGLIASPSERELMAEWNKLPAEQRFDKAGHH	PGPT0015060_78	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200	NA	NA
D1-29_00864	204			hypothetical protein	ATGCGTTCGGGGCTGGCTTCGGTCGCTGCGGCATTCCGCGGATGCGCCAGGTACCTCAGCGCTGTCCTGGGTGCGGACGCCTACGCAAAGTACGTCGAGCACCACCGGAGCGCTGGACACGAGGCGGGCCCAATGGGTGAGCGCGAATTCTGGCGCGACAGGACTGACAGGCAGGACAGCAATCCGCAAGGGAGATGCTGCTGA	MRSGLASVAAAFRGCARYLSAVLGADAYAKYVEHHRSAGHEAGPMGEREFWRDRTDRQDSNPQGRCC				NA	NA	NA	NA	NA
D1-29_00865	624			hypothetical protein	ATGAGCGATCCCAAAGACACTCAGCAAGACGACGTCCCGGTGGAGGGCAGGACCCTCGACGGGCAGCAGCCAGCCCCTGTTGGGCCTATTCCGGCGGACGGAAACAGATCCAAAAGCAGTCTGCAGGACCTGGTGGACGAACCTGCCAAGGTTATGCGGATTGGCACCATGATCCGCCAGCTGTTGGAAGAGGTTAAGTCCGCTCCGCTGGACGATGCTGCGCGCGGACGCCTGGCCGAGATCCACGAGCGGTCCATCAAGGAGCTCGAGGACGGGCTGGCGCCGGAACTTGTGGAAGAACTGGACCGTATCAGCCTGCCTTTCCCGGACGATGCCACTCCGTCCGATGCTGAGCTCCGCATCGCGCAGGCGCAGCTGGTCGGTTGGCTGGAGGGACTCTTCCACGGCATTCAGACGGCTCTTGCAGCCCAGCACGCCGCCCGCGAGCATGCCGCCGCTCAGCTGCAGCTCCGCCAGCTCCCGCCGGGCACCATGATTGCTCCGGGTGTGGTCATCGGCGAAAACGGCGAGCCGCAGCGGGCGCCCGCGGGCCAGCCGCGCCCGGCGCCGTCGAAGCCGGGCAGGCCGGAGGATCCGGACCACGGTCCCGGCCAGTACCTGTAG	MSDPKDTQQDDVPVEGRTLDGQQPAPVGPIPADGNRSKSSLQDLVDEPAKVMRIGTMIRQLLEEVKSAPLDDAARGRLAEIHERSIKELEDGLAPELVEELDRISLPFPDDATPSDAELRIAQAQLVGWLEGLFHGIQTALAAQHAAREHAAAQLQLRQLPPGTMIAPGVVIGENGEPQRAPAGQPRPAPSKPGRPEDPDHGPGQYL				NA	NA	NA	NA	NA
D1-29_00866	477			hypothetical protein	TTGGGATTCTTTACCGCCGCCCGCCAGGGGCGCAAGGACGACGCCGAACTCGGCAAGGGTCTGTGGCGCCGCGCCCATGACCGCTTCCACCGTGGCCTGGACCGGTATCACCAGGTACTGGAAGGCGTCGAGGACGACCAGCTGTATGGCGAACTTGTTGAGGTGGCCAATGAACTGGCCGGGCTCCTGGACCGGGTCAGGGTTATCTGCGTGGAAGCACAGCGACGCTCTCCCAGCGATGGCCTGGACATCCCCGGCCCCCTGGCCGGAGTACACCGGTCCCTGTCCAAGGCAGGCAACTCCCTGGCCACCACTGCCGAGGCAGCGGCCATGCTGCGGCTGGCCGTAGGGCCTGTACCGGTAGGGGCCGCCTCCGTGCGGCGTCGCGCAGAATCTGTGTTTGAGCAGGTGGCGGACGCCGAAAGACGGCTGACCGAGGATGCCGCAGGCCAACCTGGCGGCAGTATTCCCGGTTAA	MGFFTAARQGRKDDAELGKGLWRRAHDRFHRGLDRYHQVLEGVEDDQLYGELVEVANELAGLLDRVRVICVEAQRRSPSDGLDIPGPLAGVHRSLSKAGNSLATTAEAAAMLRLAVGPVPVGAASVRRRAESVFEQVADAERRLTEDAAGQPGGSIPG				NA	NA	NA	NA	NA
D1-29_00867	846		COG0656	putative oxidoreductase/MSMEI_2347	ATGACTCTTTCACCCACACTGACTTTCAATGACGGCAACACCATTCCCCAGCTCGGGTACGGCGTGTGGCAGGTCGAGGACGGCGTTGCGGAAAAGGTGGTCCGCCAGGCATTCGAAGCGGGCTTCCGCCACATCGACACCGCCAGGATCTACGGCAACGAGGCAGGCGTTGGCCGTGCCATCGCAGGTTCGGGCCTGACGCCGGACGAAATCTTCATCACCACCAAGCTCTGGAATTCCGATCAGGGCTACGAACCCACGCTGGCGGCCTTCGAGGAATCACTGGACAGGTTGGGCCTGGAAACACTGGACCTGTATCTGATCCACTGGATGCAGCCTCAGCAGGACAAGTACGTTGACACGTGGCGGGCGCTGATAGAGCTCCAAAAGCGTGGACGTGTTAAGTCCATTGGGGTGTCGAACTTCACGGCCGAGGGGATTCAGCGGCTCATCGATGAAAGCGGCGTGGTTCCGGCCATCCACCAGATCGAACTGCACCCGTACTTCAGCCAGCAGGAACTGCGGGACTTCGGCAGGGAGAAAGGCATCCTGACCCAGGCCTGGTCACCCCTCGGCCAGGGTGGAGCTCTTCTGGAGGACCCCGCCGTGGCTGCCGTTGCAGCAAAGCACCAGGCCACACCGGCCCAGGTGGTTATCGCCTGGCACCTGGCCATCGGCAATGTGGTGATCCCCAAGTCAGTCACAGAGTCCAGGATCCAGGAGAACTACGCGGCCCTGGACATCGTGCTGGACGAAGATGACGTCCAGGCGATTAACCGCCTGGACCGCACTGCAGCTGGCGAGGGCCGGATCGGCCCCGATCCCGCCGTTTCGGACTTCGCCTAG	MTLSPTLTFNDGNTIPQLGYGVWQVEDGVAEKVVRQAFEAGFRHIDTARIYGNEAGVGRAIAGSGLTPDEIFITTKLWNSDQGYEPTLAAFEESLDRLGLETLDLYLIHWMQPQQDKYVDTWRALIELQKRGRVKSIGVSNFTAEGIQRLIDESGVVPAIHQIELHPYFSQQELRDFGREKGILTQAWSPLGQGGALLEDPAVAAVAAKHQATPAQVVIAWHLAIGNVVIPKSVTESRIQENYAALDIVLDEDDVQAINRLDRTAAGEGRIGPDPAVSDFA	PGPT0001320_1065	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
D1-29_00868	186			hypothetical protein	ATGGAAACACAACTCGTACAGGAATTTCACGTCACGTACTTCGACGCCGACTGCGGCCGGATCCGGGCGGAAACCTTTGACACCCTCAAACAGGCGGAGCGATTCGCCGGCCGCAACTGCACAGGCGAAGATTCGTGGGCTGTTGTTGACGCCGTCGCCGTCGAGCAGATCCGGCTCGCCGCTTAG	METQLVQEFHVTYFDADCGRIRAETFDTLKQAERFAGRNCTGEDSWAVVDAVAVEQIRLAA				NA	NA	NA	NA	NA
D1-29_00869	978			hypothetical protein	ATGATGGCGTGCATGGATGACGAGGCCTTGGCGGAGATCGCGAACAGGTTGTATGCCTTGCCCGTCGACGAATTCATCGCCGCTCGCACGGCTGCGGCCAAGGATGCCTCGGATTCGGGGAAGGAAGCTCCGGCCGCCGTCCGGGCCCTGCCCAAGCCTTCCGTGGCGGCGTGGGCCGTCAACATGCTGGCCGTGCACCAGCCCGAGGTCCTCGATCAGCTTGCAGAACTTGGCGAGCGGATGCGAGCAGCCCAGTCATCCCTGGATGCGGCTGCCCTCCGGGAGCTGGGAAGGGAGCGACGCAAAATGCTCGCCGCGGCCGTCCAGACCGCCTGCTCGGTGGCTGAACAGCAGGGGCGCAGCATCAGCGCCACCATAGCGTCCGACGTCGAGCGGACCCTGCAGGCCCTGACAGCAGACGAAGGTGCTGCGGCGGCTGTCCGGAGTGGACGGCTGGTGCAGGCACTGTCCGCCGACGGTGTAGACACGGTTGAGCTTGACGGTGTGGTGGCCGTCCCCCGGGCCGTGTCCGTTCAGCGTTCTTCCCGACCACCAGTTGCGCCGGGCAAAGCCCCGGCAACAAAGCCACGAACGACGGCGGAAGCCGCCCCCCGCCGCCAGGCACAGAAGCCAAGGCTGCAGGCGGTCCGGCAGACCCCGCGGCCGGCGTCGCCGTCGGCCCTGGAAAAGGCCAAAGCAGCTCTTGCCGAGGCAAACGCTGCTGCGGATGAGGCTGCGAGGCTGGCACAGGAACGCCAGAACGAGTCCGAGGAGGCCCGGGCGGAGGTTTCCCGGCTGACGGAGGAGACACAGGAGCTCCGCGCGAGACTCAAGGAGTCCGAGGATCAGCTGGAAAAGGCCCGGAAACGGCTGGACACAACCGCCGCCGAAGCGAAGCAGCTGGCCAGGGCGGCAGACAAAGTGCAGCGCTCGGCCGTGCTGGCGCGGGAACGGGTGCTCCGCCTCGCCGGAGACTGA	MMACMDDEALAEIANRLYALPVDEFIAARTAAAKDASDSGKEAPAAVRALPKPSVAAWAVNMLAVHQPEVLDQLAELGERMRAAQSSLDAAALRELGRERRKMLAAAVQTACSVAEQQGRSISATIASDVERTLQALTADEGAAAAVRSGRLVQALSADGVDTVELDGVVAVPRAVSVQRSSRPPVAPGKAPATKPRTTAEAAPRRQAQKPRLQAVRQTPRPASPSALEKAKAALAEANAAADEAARLAQERQNESEEARAEVSRLTEETQELRARLKESEDQLEKARKRLDTTAAEAKQLARAADKVQRSAVLARERVLRLAGD				NA	NA	NA	NA	NA
D1-29_00871	1566	caeA		Carboxylesterase A	ATGACTGCTCGCCCCCTGCCCGCACGTTCCCGATCCCTGGGGAAGCGAGTGCGGACCGCCGGCGCCCTGGTTTTGGCCTTGGTGCTTTCCTCCTGCAGCCTGATCGGCGGGGGCAACCAGGACAAGGGACCGTCAACCGCCAAGGCGGATCCCTCGATCGTTGCCTCGGCTCCGAATGAGCTGGCTGATTTCTATTCGCAGGAAGTGGTGTGGGAGCCGTGCGAGAACGACTTCCAGTGCGCCAAGGTCACCGTGCCGATGGACTATGACAACCCCGACGGCGACACCATCCAGATCGCGGCCCTGAAGGTTGCAAGCACGGGCAAGAAGGCCGGGAGCCTGCTGGTGAATCCCGGCGGACCCGGCGCCTCCGGCTACGACTACGTCAAGGACGCTGCTGCCACCAGCTTTTCGGAATCCGTGCGGGCCAATTACGATCTGGTGGGCTTCGATCCCCGGGGTGTTGAGCGCTCCGCCCCGGTGAAATGCATGACTGATGCCGAGCGGGATGCTGCACGGGCGAAGATCTACGCCCTGGATACCGATGCCGGCCTGGGGGCAGCCCTCGCGGAGAACAAGGCGATCGCGGCCGAGTGTGCGGAACAGACCGGTTCCTCCATGGCGCACATCGACACAGTGAGCTCTGCCAAGGACATGGACATCCTTCGTGCCGTACTGAACGACAGCAAGCTCAACTACCTGGGCTACTCCTACGGAACCTTCCTGGGATCAACCTATGCCTCGCTGTTCCCGGACAACGTGGGCCGCATGGTCCTGGATGGAGCACTTGACCCCTCCATCAGTTATGAGGACGTGACGCTCGGCCAGGCCCGGGCCTTCGAAAAGGCCATTAGGTCCTACGTTGAAGACTGTATGCAGGAAGACGGCTGTCCTTTCAGCGGGAGCCCTGACAGCGGGGTCCAGCAAATCCGCGATCTCATCGGTTCTGTCCAGCAAACACCACGCACGGCCAAGGATGGGCGCCTGGTCACGGCTAATATTTTTGTCAGCGGACTTATCACCCCGCTGTACAACGACCAGAGCTGGCCTGCCCTGACCCAGGCCCTGGAGGCCGCCATGACGGGTGATTTGAGCCTGATGCTCCGCCTGGCTGACGTTGGCGCCGACCGCTCCCCCAACGGGACCTACGCGTCGAACACCGCGTTCGCTTTCAACGCGATCAACTGCCTGGATTACCCCATGGTGACCGATACTGCAGGCATGCGCGCGGACGAGCAGGAGTTGCGCGAGGAGTCGCCCACGTTTGGTTACTTCTTCGCTTATAGCGGGACCTCGTGTGTTGACTGGCCCTACCGGAGCGTCCGGACCCCCGCGCGGGTGGATTACACAGGCGATTCCCCCATTGTTGTTATCGGCACCAGCGGCGATCCCGCAACGCCAGTGGAATGGGCCGCTTCCCTGCGGAAGCAGCTGGAGAATGCGTCGCTGCTGACGTGGGAGGGCGAAGGCCACACGGCTTACGGCAGGTCCAACAGCTGCATTGGGGATGCCGTTGATGGCTACCTCGTCGAGGGCAAGGTACCCGCGGACAACACGGTCTGCTAA	MTARPLPARSRSLGKRVRTAGALVLALVLSSCSLIGGGNQDKGPSTAKADPSIVASAPNELADFYSQEVVWEPCENDFQCAKVTVPMDYDNPDGDTIQIAALKVASTGKKAGSLLVNPGGPGASGYDYVKDAAATSFSESVRANYDLVGFDPRGVERSAPVKCMTDAERDAARAKIYALDTDAGLGAALAENKAIAAECAEQTGSSMAHIDTVSSAKDMDILRAVLNDSKLNYLGYSYGTFLGSTYASLFPDNVGRMVLDGALDPSISYEDVTLGQARAFEKAIRSYVEDCMQEDGCPFSGSPDSGVQQIRDLIGSVQQTPRTAKDGRLVTANIFVSGLITPLYNDQSWPALTQALEAAMTGDLSLMLRLADVGADRSPNGTYASNTAFAFNAINCLDYPMVTDTAGMRADEQELREESPTFGYFFAYSGTSCVDWPYRSVRTPARVDYTGDSPIVVIGTSGDPATPVEWAASLRKQLENASLLTWEGEGHTAYGRSNSCIGDAVDGYLVEGKVPADNTVC				NA	NA	NA	NA	NA
D1-29_00872	1143			hypothetical protein	GTGAGTGTCTGGGACGATCTCCAAGGCCAGCCGGCCGTCGTCGAACAGCTCCGCCAGGCCTCCCTTGGCGAGGGCCTCACCCACGCATGGCTGTTCACCGGCCCCCCGGGTTCGGGACGTTCCAACGCCGCCAAAGCCTTCGCGGCTGCCCTGAACTGCGACCAGGACGATGTCAGCCTCCGCGGCTGCGGTGAGTGCTCCGCCTGCCACACCACCCTTGGTGAGACTCATTCGGACGTCACCTTTGTCCGCACCGAGAAGGTCACCATCACCATTGACGAAGCCCGCGATCTGGTGTCAACAGCCGGAAACAGGCCCTCGTCCGGACGGTGGCGGATCATCGTGGTGGAGGATGCGGATCGGATGGCTGAACGCACCACCAACGTTCTGCTCAAGGCCATCGAGGAGCCCACGCCGCGCACCATCTGGATGCTTTGTGCGCCGTCGCCGGCGGATGTCCTGGTGACCATCAGGTCACGCTGCCGTGCCGTGGCCCTTCGCCTGCCGCCGGCCGCCGACGTCGCCGCCTTGCTGGTCAAACGGGACGGCGTGGACCCAGCCCTTGCCGAACGGGCAGCCCGGGCTGCCCAGAGCCACGTGGGGATCGCCCGACGCCTGGCGCGGGATCCCGAGGCACGGGAGCGCCGGCTCGAAACAGTGCGGTTCCCGCTGGGGCTGCGCGGCGTCACGGCGGCAGTCATGATGGCGGACAAGCTGGTCAAAATCGCCACCGCCGAGGCCAACAGCTCCAACGAAGAGCGCGACGCTGCGGAGAAGGCCGCGCTCCTGGCCACACTGGGTGCACCGGAATCGGGGACACTGCCACCGTCCATGCGGAGCCAGGTCAGGCAACTCGAAGAGGACCAGAAGCGGCGGGCCAAACGCTCCATCACCGATTCCCTGGACAGGACCCTGACAGATCTGCTGTCCTTCTACCGGGATGTGCTGATTATCCAGCTCGGGAATGCTGTGGAGCTGGTAAACGTTGAGCTGAGGGGTGAACTGGAGGAGTTCGCCGGACGCTCCACGCCCGAAACCACCCTCGCCCGCATGGATGCCGTCAACAAGGCCCGCCAACGCATCACCACCACCAACGTCGCACCGCTGTTGACTATTGAGTCCATGGCAGCCAGCCTGATCTAG	MSVWDDLQGQPAVVEQLRQASLGEGLTHAWLFTGPPGSGRSNAAKAFAAALNCDQDDVSLRGCGECSACHTTLGETHSDVTFVRTEKVTITIDEARDLVSTAGNRPSSGRWRIIVVEDADRMAERTTNVLLKAIEEPTPRTIWMLCAPSPADVLVTIRSRCRAVALRLPPAADVAALLVKRDGVDPALAERAARAAQSHVGIARRLARDPEARERRLETVRFPLGLRGVTAAVMMADKLVKIATAEANSSNEERDAAEKAALLATLGAPESGTLPPSMRSQVRQLEEDQKRRAKRSITDSLDRTLTDLLSFYRDVLIIQLGNAVELVNVELRGELEEFAGRSTPETTLARMDAVNKARQRITTTNVAPLLTIESMAASLI				NA	NA	NA	NA	NA
D1-29_00873	657	tmk_1	COG0125	Thymidylate kinase	GTGACTAACCAGACCCCCGGACTTTTCATCGCGTTTGAAGGCGGCGACGGCGCCGGCAAGTCCACGCAGGCAGCCCGGCTGGCCGAGGCGCTGGAATCCCGGGGCCTGAAGGTCTTGCGGACGCGCGAGCCGGGGGGAACACCCGTTGGCGAAAAGCTCCGCTCCCTTGTTTTGGACCATGGAAATGGGCACATCGATGCCCACACAGAGGCCCTCATCTTCGCGGCCTCCCGCGCTGCCCACGCCAGCCAGGTCATCCGGCCTGCCTTGGAGCGCGGTGAAATTGTCCTCACGGACCGTTATATCGACTCTTCGGTGGCCTACCAGGGTGCGGGCCGGGACTTGGGCACCGACGCCGTGCGCTCGATCAACGAATGGGCCACCAGCGGGCTGCAGCCTGACCTGACCGTGCTGCTGGATGTGGATCCTGGTGTTGGACGGCGCCGCAGGACGGCAGGGGACGCCGCGGAAGACCGCCTTGAATCCGAGGCCGACGAATTCCACACGCGCATCCGCAACGCCTTCCTCGAGTTGGCGGCCATCCACCCGGACGCCTACCTTGTCCTGCCCGCACATTTGCCTGTTGCCGACCTCGCAGCACAGATCCTGGCCAGGGTTGATGGGCTGCTGGCGTCGACCGGACGTGGTGCAGCGTGA	MTNQTPGLFIAFEGGDGAGKSTQAARLAEALESRGLKVLRTREPGGTPVGEKLRSLVLDHGNGHIDAHTEALIFAASRAAHASQVIRPALERGEIVLTDRYIDSSVAYQGAGRDLGTDAVRSINEWATSGLQPDLTVLLDVDPGVGRRRRTAGDAAEDRLESEADEFHTRIRNAFLELAAIHPDAYLVLPAHLPVADLAAQILARVDGLLASTGRGAA	PGPT0021395_1711	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
D1-29_00874	1191	metB_1	COG0626	Cystathionine gamma-synthase	ATGAGCCTTTCACAACAGCAAACAGCGTCCCTCTCGGCCGAGACGGTGGTTGTTGCAGCCGGCAGGCCGCCGCGGGAGCGGGATGAGCCGGTTAACCCTCCCATCGTGCTGTCCTCAACCTACTTCGGCAGCGGCCCCCTGTCTGACGGGGACCGCGGTTACGGCAGGTACTCCAACCCCACCTGGGACCCTTTTGAGGAAGCCTTGGGACAGCTGGAGGGTTCCCAACTGCCGGGGCTCCTGTATGCGTCAGGGCTGGCGGCGGTGAGCTCCGCCCTGTCTCTTATTCCAGCCGGGGGTGTCCTGGTCATGCCCTCGCACAGCTACTCCGGGTCCCTGGTGATGGCTACGGAGCTGGCACAGAAGGGCTTCCTGGAGCTCCGGACCGTGGACATCGCGGATACCGATGCTGTGAAGGAACTGCTGGCACCCCCAGGCCCTGAAGCGCGGCCGGCCAGCATGCTGTGGCTCGAAAGCCCCACCAATCCCATGCTGGGCATTGCCGACATCCGCGGACTCACCCAGGCAGCGCATCAGGCCGGGGCCATCGTTGTCACGGACAACACCTTTTCAACCCCGCTGGTGCAGCAGCCCCTGGGACTGGGTTCCGACGTCGTGCTCCACTCGGTGACCAAATACCTGGCGGGCCACTCCGACGTCGTCCTGGGCGCCCTGGTGACCTCGAATCCGGACATTCGCAATGCGTTGCTGCATCACAGGATCATCCACGGCGGCATTGCCGGGCCCTTCGAAGCATGGCTCGCGTTGCGGGGCCTGAGGACCCTGGCGCTCCGCATTGAACGGTCTCAGGCGTCGGCGGCTGTGCTGGCGGAACGGCTCAGCGCGCATCCGTGGATTGAAACCATCCGCTTCCCGGGGCTGTCCACCGACCCCGGCCATGAACGGGCCAAGACCCAAATGACCGGCTTTGGCTCAATAATCTGCGTCCAGATCGCCCCTGTGGGGAGCGTCAGTGGGCCAGATGCCGCAGACAAGCTGGTCCGCGCCCTGCAGCTGTGGCTGCCGGCCACCTCCCTCGGCGGAGTTGAATCCCTTATTGAACGGCGGCGCCGGCACACTGCCGAACCGCTCAGCGTGCCGGAGAACCTGGTAAGGCTCAGCGTCGGAATTGAGAATGTCGACGACCTCTGGGGTGATCTGAAACAGGCGCTGGACTCGCTGGACGGCTAG	MSLSQQQTASLSAETVVVAAGRPPRERDEPVNPPIVLSSTYFGSGPLSDGDRGYGRYSNPTWDPFEEALGQLEGSQLPGLLYASGLAAVSSALSLIPAGGVLVMPSHSYSGSLVMATELAQKGFLELRTVDIADTDAVKELLAPPGPEARPASMLWLESPTNPMLGIADIRGLTQAAHQAGAIVVTDNTFSTPLVQQPLGLGSDVVLHSVTKYLAGHSDVVLGALVTSNPDIRNALLHHRIIHGGIAGPFEAWLALRGLRTLALRIERSQASAAVLAERLSAHPWIETIRFPGLSTDPGHERAKTQMTGFGSIICVQIAPVGSVSGPDAADKLVRALQLWLPATSLGGVESLIERRRRHTAEPLSVPENLVRLSVGIENVDDLWGDLKQALDSLDG	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
D1-29_00875	354			hypothetical protein	ATGGTGGACGGTGAAATGATAATTCGGCCTGTTGAGCAGGCAGTGTTTTTTATCCTTGCCCTGGTGGCACTGGGACTTGAGCTGTGGGCTCTGTTTGACTGTGTCCGGCACAAAGCCGGCGCTTTTGAAGCCACCGGCAAAAGGACCAAGACTTTCTGGCTTGCACTCACCGGCGGAGCCACGGCTGTAGGGGCGCTGTCCCTCCTGGGCAGCGGCGGCATTTTTGGAAGCCTTGGCCTCTTTGGGCTGGCAGCGGTAGTTGCAGCGTGCGTGTACCTCGCCGATGTCAGGCCTGCCGTGAAGGATGCCGGGCGCGGCGGAAGCCGCAACACCGGACCCTACGGGCCCTGGTAA	MVDGEMIIRPVEQAVFFILALVALGLELWALFDCVRHKAGAFEATGKRTKTFWLALTGGATAVGALSLLGSGGIFGSLGLFGLAAVVAACVYLADVRPAVKDAGRGGSRNTGPYGPW				NA	NA	NA	NA	NA
D1-29_00876	846			hypothetical protein	GTGGTTCAAAAAGCTGAACGGGTGGCAGGCCCGCACGTCTCCGGCAGAAGCAGGCCGGGGAAGCCGGTCGGAAATGTCACCCGTGGCACCACCAGCCCCAACCGGATGAGGCGCCTGGACCGTTGGCTTACTGGCCCGCAGGCCTGGCGGCTGAGGACCGCTGACGACCCACTGGTGGTGGACCTGGGCTACGGCGCCACGCCGGCCACCGCCGTCGAACTCTTCCAGCGACTGGCGGCCGTGCGTCCGGACGTCCGCGTCTGCGGGATCGAGATCGAACCCGAACGTGTCAGGGTGGCGAAAACTTTGGAGAGGCCCGGCCTCGCTTTTATGGTGGGCGGCTTCGAACTGCCGGTGCCCGGTAATCCCGTCCTCGTCCGTGCCTTCAACGTGTTGCGGCAGTATGAGGAAGCGGATGTTGGAGCTATCTGGCGCCTGGTCCAGGGCAGGCTCTCCCCCGGCGGGCTGTTCATTGACGGCACCTGTGACGAGATCGGGCGCCGGGTGGCGTGGATTGCCCTTGATGGGCAGGGGCCCCTGTCGCTGAGCATCTCGATGCGGTTCGGCAGCTTTGTGCTGCCGTCCGAGATTGCCGAAAGGCTCCCCAAGGCACTGATCCACCGTAATGTCCCGGGCGAGCGGATCCACGCCCTGATGCAGGCCATGGACCGGGCGTGGCTGGAATCTGCGCCGCTGGCCTCGTTCGGGAACCGCCAGCGGTGGCATGGGATGTGCAAGGCACTGCTCGACGCCGGGTGGCCGGTTCAGGACGGTCCCGCGCGTTGGCGGCTGGGGGAACTGACGGTGGGCTGGGAAGCCGTGGCCCCGCCGGCCCAGGAGGTTTGA	MVQKAERVAGPHVSGRSRPGKPVGNVTRGTTSPNRMRRLDRWLTGPQAWRLRTADDPLVVDLGYGATPATAVELFQRLAAVRPDVRVCGIEIEPERVRVAKTLERPGLAFMVGGFELPVPGNPVLVRAFNVLRQYEEADVGAIWRLVQGRLSPGGLFIDGTCDEIGRRVAWIALDGQGPLSLSISMRFGSFVLPSEIAERLPKALIHRNVPGERIHALMQAMDRAWLESAPLASFGNRQRWHGMCKALLDAGWPVQDGPARWRLGELTVGWEAVAPPAQEV				NA	NA	NA	NA	NA
D1-29_00877	747	gpmA_1	COG0588	2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	ATGACTTACAAGCTGATTCTGCTGCGCCACGGCCACAGCGAATGGAACGCCAAGAACCTGTTCACCGGCTGGGTGGACGTTGACCTCAACGACCAGGGCCGCACCGAGGCCGTCCGCGGCGGTGAGCTTCTGGTGGAGCACGACGTACTCCCGGACATCCTCTACACGTCCCGCCTGAAGCGCGCCATCAACACGGCCAACCTGGCGCTGGACAGGGCTGACCGCGGCTGGATCGATGTAAAGCGCGACTGGCGCCTGAACGAACGCCACTATGGTGCGCTGCAGGGTAAGGACAAGGCCCAGACCCTGGCCGAGTACGGCGAGGATCAGTTTATGGAGTGGCGCCGTTCCTACGACACCCCGCCGCCGCCCCTGGCTGATGACTCCGAGTTTTCCCAGGTGGGCGACCCCCGCTATGCGGACATTGGCGACGCCCTGCCGCGCACCGAATGCCTCAAGGATGTCCTGGTCCGGCTGCTTCCTTACTGGGAGTCGGACATCAAGGAAGACCTCAAGGCCGGTAAGACAGTCCTGGTCACCGCCCACGGCAACTCGCTCCGGGCCCTGGTCAAGCACCTTGACGGCATCAGCGACGACGCCATTGCCAGCCTGAACATCCCCACGGGCATCCCGCTGGTCTACGATCTCGACGAGGACTTCCAGCCGATCAACCGCGGCGGCACCTACCTTGATCCGGAAGCAGCAGCGGACGCCATCCTCGCCGTGGCCAACCAGGGCAAGAGGTAG	MTYKLILLRHGHSEWNAKNLFTGWVDVDLNDQGRTEAVRGGELLVEHDVLPDILYTSRLKRAINTANLALDRADRGWIDVKRDWRLNERHYGALQGKDKAQTLAEYGEDQFMEWRRSYDTPPPPLADDSEFSQVGDPRYADIGDALPRTECLKDVLVRLLPYWESDIKEDLKAGKTVLVTAHGNSLRALVKHLDGISDDAIASLNIPTGIPLVYDLDEDFQPINRGGTYLDPEAAADAILAVANQGKR	PGPT0018030_1966	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
D1-29_00878	663	phoU2	COG0704	Phosphate-specific transport system accessory protein PhoU	GTGCGTAAGGTTTTTCAGGAAGAGCTGACCCAGGTGGGTGAGCAGCTGGTGGAGATTTCGCGGCTGGTCAGCGAAGCGATCGGCAAGGCCTCAACGTCTTTCCAAGTGGCTGACGTGGACCTTGCCCAGGATGTCATTGCCGCGGACGCCCGGATTGATTTCCTGCAGAACAGCCTGGATGAACGCGCCATCGACATCCTCGCCCTGCAGGGACCGGTTGCCAGTGACCTCCGCATGATCGTTGGATCATTGCGCATGAGCGCCTCCCTGGAACGCATGGGTGACCTCGCCCGGCACATCGCCCAGCTGGCGCGCCTCCGCTTTCCGTCCAATGTGATCCCGGAGTCCATGACGGAGACCTTTAAGAGCTTTGCGGAACTGGACCAGCTCATCGCGGACAAACTGACGATTCTCCTGGAGACCCGGGACCTTGAAGTGGCCCGCGACATCCTGAAGGCGAAAAGTGCCATCAACGATCTCCACTTGAGCGTCTTCAAGGCGATCGCCCACAGCGACTGGCAGGAGTCCCCGGCCACCACCGTTGACGTGGCGCTGGCAAGCCGCTATTTCGAGCGCTTCGCCGACCACGGTGTTTCCGTCGCCCAAAAAGTCACATACCTGGTGACGGGTACTTGGCAGCCGAACGGCACCGAATACAGCTAA	MRKVFQEELTQVGEQLVEISRLVSEAIGKASTSFQVADVDLAQDVIAADARIDFLQNSLDERAIDILALQGPVASDLRMIVGSLRMSASLERMGDLARHIAQLARLRFPSNVIPESMTETFKSFAELDQLIADKLTILLETRDLEVARDILKAKSAINDLHLSVFKAIAHSDWQESPATTVDVALASRYFERFADHGVSVAQKVTYLVTGTWQPNGTEYS	PGPT0002630_3313	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002630-phoU|phoY-K02039	NA	NA
D1-29_00879	1296	sasA_3		Adaptive-response sensory-kinase SasA	ATGCTCATTGGTGTCATCGCCGGCCTCATCGGCCTGTCGTTCGGCACTTTCGGCGTGCTTGCGTTCAGGGTCAGCGAAAAACAGCGCCAGCTTGTGGACATCAACGTCGATGAACTCGCGTTGCCGGCGGGTGCTGCCGAGGTGCTCGCGGTTGTCGGCAGGGCTTTCGTTGTGGTGGATGCGGTGGACGGCGTGGTCCGTGCCAGTCCAGCAGCGTACGCCTACGGCCTGGTCCGCGGCCACACTGTGGTCCATGAACAGCTGCTGGAGATGACGGCAGGTGTGCGCCGCGACGGCGTCATCCTGGAAAAGAAACTGGAACTTCCCCGTGGGCCGCTCGGTCAGGGCACCATCATCGTGCAGGTGCGCGCTGCCATGCTCGGTGAGGAATACATCGTATTGCTGGCGGATGACCGCACGGAGATCACCCGGACGGAGGAGATCCGCAATGATTTCGTGGCGAACGTTTCCCATGAACTCAAGACACCCGTAGGCGCCATCTCCCTGCTCGCCGAGGCCCTGGAATCCTCCGCAGACGATGAGGAAGCGGTCCGCCGGTTCGCCAAGCGCATGCACAAGGAATCCGGCCGCTTGGCTGCGCTGGTCCAGGACATCATTGAGCTCTCCCGGCTGCAGGGTGCCAGTGTTTCCCAGCAGGGCAGGCCGGTGGACATCAACGCCGTGATCACCGAAGCCGTGGACCGCTCCCAGCTTCCCGCCGAGAGCAAGAATATTGAGATAGTGGTTGGCGGACGGGCCGAAGGCATGGTTTATGGTGACCAGGATTTGCTGGTTACGGCCCTGCGGAACCTCATAGACAATGCCATCCGGTACTCCCCGGAGAACACCCGGGTGGGCATCGGTGTCCGCGCCAAGGACGGGCTGATTGCCATCTCAGTCACCGATCAGGGACTTGGGCTCACGCAGGAGGACCAGGAGCGGGTGTTCGAACGTTTTTACCGTGTGGACGCCGCCCGGTCGCGGCACACCGGCGGTACGGGGCTGGGCCTGAGCATTGTCAAGCACGTTGCCTCAAACCACGGGGGCGAGGTGACGGTGTGGTCCAAGCCCGGCCAGGGCTCCACCTTCACCCTCCGGCTTCCGGAGATGGAGAGCGAAGAACCGCAGGCGCCCCTGCTGGATGACCGTGGTGCAACGGAGCGCGCCAAGGAATCCGCCGCCACGGAAACCGGTGCATTGGGCCGCGGTGCCCGGGAACAAAACGCCAACGAACGCCACGTCACCGAGCAGAACGCCGACGAACGCAATGTCAACGAACAAGGAGCCAGCGCTTGA	MLIGVIAGLIGLSFGTFGVLAFRVSEKQRQLVDINVDELALPAGAAEVLAVVGRAFVVVDAVDGVVRASPAAYAYGLVRGHTVVHEQLLEMTAGVRRDGVILEKKLELPRGPLGQGTIIVQVRAAMLGEEYIVLLADDRTEITRTEEIRNDFVANVSHELKTPVGAISLLAEALESSADDEEAVRRFAKRMHKESGRLAALVQDIIELSRLQGASVSQQGRPVDINAVITEAVDRSQLPAESKNIEIVVGGRAEGMVYGDQDLLVTALRNLIDNAIRYSPENTRVGIGVRAKDGLIAISVTDQGLGLTQEDQERVFERFYRVDAARSRHTGGTGLGLSIVKHVASNHGGEVTVWSKPGQGSTFTLRLPEMESEEPQAPLLDDRGATERAKESAATETGALGRGAREQNANERHVTEQNADERNVNEQGASA	PGPT0002670_470	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002670-senX3-K07768	NA	NA
D1-29_00880	681	regX3_2	COG0745	Sensory transduction protein regX3	TTGAGCAGGATTTTGATTGTCGAAGACGAGGAGTCCTTCAGCGACCCGTTGTCCTACTTGCTGGGCAAGGAAGGTTTCGAGGTGGAAGTCGTGGACAACGGCTTGGACGCCATCACCGAATTCGACCGCAACGGGGCAGACCTCGTGCTCCTGGACCTGCAGCTTCCGGGCCTGTCAGGCACAGAGGTATGCCGCCAGCTGAGGCAGCGCTCCAGCGTCCCGGTAATAATGCTGACCGCAAAGGACTCGGAGATCGACAAGGTGGTGGGCCTGGAGCTCGGCGCCGATGACTACGTCACCAAGCCGTATTCTTCCCGTGAACTGGTGGCAAGGGTCCGGGCCGTGCTGCGCCGGCAAGGCGAGCCCGAAGAACTGATCTCCTCCACGGTCCAGGCCGGACCAGTCCGGATGGACATCGAGCGGCACGTCGTCAGTGTTGGCGGGGAGCAGGTGCTCCTGCCGCTGAAGGAATTTGAGCTGCTGGAGATGCTTCTTCGCAATTCCGGCCGTGTACTCACGCGGGGCCAGCTGATCGACCGGGTCTGGGGCTCTGATTATGTGGGCGATACCAAGACCTTGGACGTCCATGTCAAAAGGCTGCGAAGCAAGATCGAGCCTGACCCATCCCTGCCCCGGTTCCTGGTGACGGTTCGGGGCCTCGGCTACAAGTTTGAGCCGTAA	MSRILIVEDEESFSDPLSYLLGKEGFEVEVVDNGLDAITEFDRNGADLVLLDLQLPGLSGTEVCRQLRQRSSVPVIMLTAKDSEIDKVVGLELGADDYVTKPYSSRELVARVRAVLRRQGEPEELISSTVQAGPVRMDIERHVVSVGGEQVLLPLKEFELLEMLLRNSGRVLTRGQLIDRVWGSDYVGDTKTLDVHVKRLRSKIEPDPSLPRFLVTVRGLGYKFEP	PGPT0002675_671	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776	NA	NA
D1-29_00881	561			hypothetical protein	GTGCGTTTCACTGCGACGAACCGGGCCCAGCGCGGCAAACTGGCACTGGCGGCAGCTGCCCTTGGCCTCGGCCTGCTGACTGTGACGGGCTGCGGCTACATCACCCCCCAGCAGACCGCTCAGCAGTACGCCGCTTCCGACGGCATCACCGCGGACCTCGGCCCTCTGCAACTGCGCAACATGCTGATTATCTCGGCGGGAGAAGACAAGCCCGGACGTCTTCTCGGGGCCGTTTACAACTCCTCCTCCAAGGACGTGAAACTCACCGTCAAGGGTGCGGAAGGCTCGCAGACACAGGTGTCCGTGAAAGCCAACGACTACACCCTGCTGAACAATTCCACTGACGAAGCCGTCCTGAGCACCACCGGCGGCATTCCCGGCTCCCTCGTGGACGTCCAAATCAGCGAAGACGGAACCAACGTCAATGAAACGGTAAAGGTGCCCGTCCTGGACGCCACGCTTGCGGAGTACAAAGAGTACCTGCCGGCCGGCAGCGAACCTACGGGAACAGCGTCGCCGACACCGTCGCCGTCGGCCTCTTCCGCAGCCGCAGCCCACTAG	MRFTATNRAQRGKLALAAAALGLGLLTVTGCGYITPQQTAQQYAASDGITADLGPLQLRNMLIISAGEDKPGRLLGAVYNSSSKDVKLTVKGAEGSQTQVSVKANDYTLLNNSTDEAVLSTTGGIPGSLVDVQISEDGTNVNETVKVPVLDATLAEYKEYLPAGSEPTGTASPTPSPSASSAAAAH				NA	NA	NA	NA	NA
D1-29_00882	483	carD	COG1329	RNA polymerase-binding transcription factor CarD	ATGGTATTTGAGGTCGGCGAGACAGTAGTTTACCCTCACCACGGTGCAGCAAAAATTGAAGAAATCAAGATGCGCACTGTCAAGGGCGAAGAGAAAATGTATCTCAAGCTCAAGGTGGCTCAGGGTGATCTGACCATTGAAGTTCCAGCAGAGAACGTTGACCTTGTTGGGGTTCGTGACGTAGTGGGCAAGGAAGGCCTGGAGCACGTATTTGACGTGCTGCGGGCTGAGTTCACTGAAGAGCCCACCAACTGGTCACGCAGGTATAAGGCAAATCTGGAGAAACTTGCTTCCGGTGACGTCATCAAGGTAGCAGAGGTCGTTCGTGACCTTTGGCGCCGTGATCACGATCGGGGCCTTTCCGCAGGTGAGAAGCGAATGCTGGCCAAGGCCCGGCAGATTCTGATTTCAGAATTGGCGCTGGCTGAAAAGACCGACGAAGAGAAGGCTGCAAGCGTTCTCGACGAGGTCCTGGCTTCCTAA	MVFEVGETVVYPHHGAAKIEEIKMRTVKGEEKMYLKLKVAQGDLTIEVPAENVDLVGVRDVVGKEGLEHVFDVLRAEFTEEPTNWSRRYKANLEKLASGDVIKVAEVVRDLWRRDHDRGLSAGEKRMLAKARQILISELALAEKTDEEKAASVLDEVLAS	PGPT0014830_1272	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-STRINGENT_STRESS_RESPONSE,PGPT0014830-ydeB|carD-K07736	NA	NA
D1-29_00883	783	ispD	COG1211	2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase	ATGAGTAGCGATCCGCCCCGCCCCCTCACCGCCGTCATCGTCGTGGCCGCCGGTTCCGGCGAAAGGCTGGGTCACGGCATGCCCAAGGCCGCCGTCCCGCTCGGCGACGAACCCATCCTCCTCCACGCCCTGCGCGGTGTGGTGGCCTCTGGGGTGGCAAGCCAGGTGTGCATCGCGCTGCCCGCAGGCCATGACGCGCTGAAGCAGCTCGTGGACGATTTCAGGCTGGAGCTTGTCGACGGCGGCCCAGTCCTGACGGTGGTTGATGGCGGAGCCACCAGGTCAGACTCCGTCCGCTTCGCGCTTGCGGCGGTGGAAACGGGGACAGAGGCGGTACTTGTCCACGATGCAGCCCGGGCACTGACGCCTGAGTATGTATTTCACCGTGTGGTTGACTCATTGGCCGCCGGCGCCCTTGCCGTCATCCCCGCGGTCCCGGTGGTGGACACGGTCAAGACAGTGGCGCCCACCACGGGCGAGAATGGCAGAATCGCGCCGGAGATAGTCACCGGCACGGCTCCGCGGGAGAGTCTGCGGGCGGTCCAGACCCCCCAGGGATTCCACCTCCCCACGCTGGTCAAAGCCCACGAAGCGGCGTTGAATCTTAAGGACCAGCAGGCTGCAGCTGTCACGGATGATGCCATGCTGGTGGAACTTCTTGGCGTTCCCGTCCATGCCGTCCACGGCTCCACCCAGTCGCTCAAGATCACCACACCCCTGGACCTGATCATTGCTGAAGGGCTCCTGGAAGGCCCGCTCGGGGTCCGCTGGGTGGAAGGCTAG	MSSDPPRPLTAVIVVAAGSGERLGHGMPKAAVPLGDEPILLHALRGVVASGVASQVCIALPAGHDALKQLVDDFRLELVDGGPVLTVVDGGATRSDSVRFALAAVETGTEAVLVHDAARALTPEYVFHRVVDSLAAGALAVIPAVPVVDTVKTVAPTTGENGRIAPEIVTGTAPRESLRAVQTPQGFHLPTLVKAHEAALNLKDQQAAAVTDDAMLVELLGVPVHAVHGSTQSLKITTPLDLIIAEGLLEGPLGVRWVEG	PGPT0007590_323	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007590-ispD-K00991	NA	NA
D1-29_00884	498	ispF	COG0245	2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase	GTGGCTGCAGACAGAATGATCCTTCCGCGCACCGGCATCGGCCTGGATGTGCACGCGTACTCTTCCGCTGAGGAGCCGCGCCCGCTCTGGCTGGGTGGTCTCTTCTGGGAGGGCGAGCGCGGACTGGCGGGACACTCCGACGGCGATCCGGTGGCCCACGCTGCCGCGGACGCGCTGTTTTCCGCCGCAGGCATCGGAGACCTGGGAACCCACTTCGGCACAGACCGGCCTGAGTTTGCCGGCGCCTCAGGAGTAACGCTTCTCGCGGAGGCGGCGAGGATTGTCCGCGGCGCGGGCTTTGAGATCGGCAATGTTGCGGTTCAGTTCGTAGCCAACCGGCCAAAGTTCGGACCCCGCAGGCAGGAATCGCAGGGCGTACTCAGTGAGGCAGCAGGTGCGCCCGTCAGCGTTACGGCCACCACCAGCGACGGCCTGGGATTCGCAGGCCGGGGGGAGGGCATTTCCGCCGTCGCCACTGCCTTGGTGTACCCGAAGTAG	MAADRMILPRTGIGLDVHAYSSAEEPRPLWLGGLFWEGERGLAGHSDGDPVAHAAADALFSAAGIGDLGTHFGTDRPEFAGASGVTLLAEAARIVRGAGFEIGNVAVQFVANRPKFGPRRQESQGVLSEAAGAPVSVTATTSDGLGFAGRGEGISAVATALVYPK	PGPT0007595_750	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
D1-29_00885	1467	cysS	COG0215	Cysteine--tRNA ligase	GTGACCCTGCGATTTTACGACACAGCATCCGCCGAAGTCCGTGACTTCGTCCCCCTCGTCCCGGGCAAGGCGAGCCTGTATTACTGCGGAGCCACAGTGCAGGGCATGCCGCACGTGGGGCATATCCGGTCAGCCATTGCCTTTGACCAGCTGACCCGCTGGCTTCAGTTCCGTGGGTACCGTGTCACCGTGGTACGGAACGTCACGGACATTGATGACAAGATCCTTGCCAAGTCGGCTGAGTCCTTCGCCGCTGACTTCCGGCCTGAGCCGGGGGCGGTCCCTGAGGAAGAGTGGTGGGCGCTTGCCTACCGCTACGAGCAGGAATTCCTCAAGGCCTACGACACTCTGGGTGTTTCCCGGCCCACCTACGAGCCCCGCGCCACCGGCCACATCCCCGAGATGCATGCACTCATCCAGCAACTGATCGAAAGAGGCCATGCCTACCCGGCCCTGGATGGCTCGGGAGACGTCTATTTCGACGTGCGGTCCTGGAGCAAATACGGGGCCCTCACCCGGCAGAACATCGACGATATGCAGGGCGCGCCGGATGCTGACCCGCGGGGCAAGAAGGATCCCCGGGACTTCGCGTTATGGAAGGGCCACAAGGAGGGGGAACCGCTCACCGCGAGTTGGGCTTCACCTTGGGGCGCCGGACGCCCCGGCTGGCACCTGGAGTGCTCCGCCATGGTAACCAAGTACCTTGGTACTGAGTTTGATATCCATGGCGGCGGCCTGGACCTGCGCTTCCCGCACCACGAAAATGAGATGGCACAATCCCAGGCAGCGGGCCACGGTTTCGCCAACTTCTGGATGCACAACGGCATGGTCACGTACCAGGGCGAAAAGATGTCCAAGTCGATCGGCAACACCGTCAGCCCTGCTGAAATGCTGGAGCTCGCTCCCTCACGCGTTGTCCGGTACTACCTCGGCCAGGCACACTACCGGTCCGTGCTGGACTACAGGCCAACTTCGCTGCAGGAAGCGGCGGCAGCAGTGGACCGCATCGACGGATTCCTGAACAAGGCCAGGGAACGGTTCGGCCCGGGCTTCGGTTTTGTGGCCGGAGCCTTTGGCGCGTCCAAGGAGACAATGGATGCCTTTACGGCGGCGATGGATGATGACCTGAATGTTCCGCGGGCACTGGGTGCCCTCCATGACACAGTCCGTGCCGGAAACACAGCGCTTGCCGCCGGGGACGATGAGGGCGCACGGAATGCCAGGCACGTGGTCATTCTTATGACCCGGGTCCTGGGGCTGAATGCTGCCACCCAGCCGACCGCAGCGGGCGGAAAGGAACAGGCGGCGCTGCAGGTCCTGGTGGATAGTCAGCTCGCTGCCCGGGCCCAAGCGCGTGCCAACAAGGACTGGGCTGCTTCGGATGCCATCCGCGACGCGCTCAAGGCCGCCGGCGTCGTCGTCGAAGATGGCCCGGACGGTGCCACCTGGAGCCTGCAGCGGGACTGA	MTLRFYDTASAEVRDFVPLVPGKASLYYCGATVQGMPHVGHIRSAIAFDQLTRWLQFRGYRVTVVRNVTDIDDKILAKSAESFAADFRPEPGAVPEEEWWALAYRYEQEFLKAYDTLGVSRPTYEPRATGHIPEMHALIQQLIERGHAYPALDGSGDVYFDVRSWSKYGALTRQNIDDMQGAPDADPRGKKDPRDFALWKGHKEGEPLTASWASPWGAGRPGWHLECSAMVTKYLGTEFDIHGGGLDLRFPHHENEMAQSQAAGHGFANFWMHNGMVTYQGEKMSKSIGNTVSPAEMLELAPSRVVRYYLGQAHYRSVLDYRPTSLQEAAAAVDRIDGFLNKARERFGPGFGFVAGAFGASKETMDAFTAAMDDDLNVPRALGALHDTVRAGNTALAAGDDEGARNARHVVILMTRVLGLNAATQPTAAGGKEQAALQVLVDSQLAARAQARANKDWAASDAIRDALKAAGVVVEDGPDGATWSLQRD	PGPT0002985_1845	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883	NA	NA
D1-29_00886	990		COG0566	putative tRNA/rRNA methyltransferase	ATGGCCAACAACGGTCGCCGGTCGGTCAAAGCAAAGAAGGGGCCTACCATCGGAACCGGTGGCCATGGCCGCAAGTCCCTGGAGGGCAAGGGCCCCACGCCCAAGGCGGAAGATCGCCCGTACCACAAAGCGCACAAGAGCAAGCAGCTGGCTGAGAGGTCAGCAGCCAAGCGCGGAACCGGCGCCCGAAGCGCCGGTGCAGCCCGCTCCGGACCCAAGGGGCGGGCCACCGAGGAAGTTGTCACCGGCCGTAACTCGGTGGTTGAAGCGCTGCGGGCGGGGATCCCGGCGAAGGCTCTGCACATTGCCATCCGGATCGAGATGGATGACCGCGTCAAGGAGTCCCTGAAGATAGCGGCAGAACGCGGCATCCCGCTTCTTGAAACGGGCAAGCCGGAGCTGGACAGGATGACCGACGACGCCGTTCACCAGGGCCTGGTGCTTCAGATTCCGCCGTACGAGTACCAGGATGCCTACGATCTTGCCGTGGAAACCGTGGAACGGTGGAAGAAGGGCCACGTGGCCAACGCCCCGCTGTTCGTTGCCCTGGACGGCATCACCGATCCACGCAACCTGGGTGCCATCATCCGCTCAGTCTCAGCTTTCAGCGGCCACGGCGTTATTGTCCCCGAGCGACGCTCAGTTGGTGTCACGGCTTCTGCCTGGAAGACCAGCGCCGGCGCTGCCGTGCGTGTTCCGGTGGCCCGTGCAGCAAACCTGAACAGCGCCCTGAAGCAGTTCAAGAACATGGGCATCTTTGTCCTGGGACTGGATGGTGACGGCGACGTCTCCCTGCCGGACCTGACCCTCGCCACTGAGCCTGTCTGCATTGTGGTCGGATCCGAGGGCAAGGGCCTGAGCCGTCTGGTCCGCGAAAACTGCGACCAGATCGTTTCGATCCCGATCGATTCGGCCATGGAATCCCTGAACGCATCCATGGCCGTGGGGATCTCGCTCTACGAAGTTTCCAGGCAGCGCGCCACCAAGTAG	MANNGRRSVKAKKGPTIGTGGHGRKSLEGKGPTPKAEDRPYHKAHKSKQLAERSAAKRGTGARSAGAARSGPKGRATEEVVTGRNSVVEALRAGIPAKALHIAIRIEMDDRVKESLKIAAERGIPLLETGKPELDRMTDDAVHQGLVLQIPPYEYQDAYDLAVETVERWKKGHVANAPLFVALDGITDPRNLGAIIRSVSAFSGHGVIVPERRSVGVTASAWKTSAGAAVRVPVARAANLNSALKQFKNMGIFVLGLDGDGDVSLPDLTLATEPVCIVVGSEGKGLSRLVRENCDQIVSIPIDSAMESLNASMAVGISLYEVSRQRATK				NA	NA	NA	NA	NA
D1-29_00887	810		COG0388	Hydrolase	ATGCGGGTTGCACTTGCCCAGATCATCACCGGCCGGGAGCTTGGCAAAAACCTGGCCCTTGTGGAGGAGTACGCCCACAAGGCCAAGGCCGGCGGAGCGGAAATGGTGGTGTTCCCCGAGGCCACCATGCGGGCCTTCGGGAACTCCTTGCTGGATATCGCCGAACCCGTGGACGGGCCCTGGGCGACGCACGTGCGCGGCATCGCCCAATCGCTCGGCCTGGTGATCGTGGCCGGCATGTTCACGCCGGGCTCGGCCTCCGGCGGCGGCCGCGGGAAGGTGCGCAACACCCTCCTGGCCACCGGACCCGGCGTGGACGCCAGCTACGACAAAGTGCACCTCTTTGACGCGTTTGGCTTTCTTGAATCGGACACCGTGGAGCCCGGAACAGGCCCCGTAACCTTCGATGCCGGTGGCCTCACCTTTGGCCTGGCCACCTGTTACGACATCCGCTTTCCGGCATTGTTCACCGCCAACGCCGAGCGGGGTGCCGAAGTCAACATCCTCTGCGCCTCCTGGGGCGCCGGTCCAGGCAAGGTGGAGCAGTGGCGGCTGCTCTCCCGGGCGCGTGCACTGGATTCCACCACCTACGTCCTGGCGTGCGGGCAGGGCGATCCCGCCGCGCAGGGCATCGAGACTAAGGGCACCGCGCCCACCGGGGTAGGACACTCTGCCGTCATCTCCCCGTTTGGAGAGGTCCTGGCCGAAATCGACGGCGCCCCGGACCTGCTCTTCGCGGACCTCGACCCCGCCGTGGTCAAGGACGCCCGGCAAAAGCTCCCCGTCCTGGCCAACCGCAGGGACTTCTGA	MRVALAQIITGRELGKNLALVEEYAHKAKAGGAEMVVFPEATMRAFGNSLLDIAEPVDGPWATHVRGIAQSLGLVIVAGMFTPGSASGGGRGKVRNTLLATGPGVDASYDKVHLFDAFGFLESDTVEPGTGPVTFDAGGLTFGLATCYDIRFPALFTANAERGAEVNILCASWGAGPGKVEQWRLLSRARALDSTTYVLACGQGDPAAQGIETKGTAPTGVGHSAVISPFGEVLAEIDGAPDLLFADLDPAVVKDARQKLPVLANRRDF				NA	NA	NA	NA	NA
D1-29_00888	2109	glgX_1	COG1523	Glycogen operon protein GlgX	ATGCCGCTCTTTGATACTGCTTCCACCATGGACGCCTCCGCCGCGCTTCCTTTAGGTGTGACTGTTCCGCGCCCAGCTTCCTCCGGTGCGGAGCATCATTCGCAGTCCCGGGCGAACGTCGCTGTCTACGCCCCGGGTGTAGAAAACCTGGAGATCGCCTACAAGGCGCCCGGCGGCGAGTGGCAGCTGAAAACGCTTCCGAACGTCACCCACGGCGTGCACCATGGGATCGTTGAGGACTTTCCGTACGGATCCCGTTACGGTTTCCGGGCCACTGCCAAAGAGGCATCCCTGCCACTTTCCGTGCCCACCCTGGACCTGGATGACGACGGCGGCCAGCCGCTGCTGCTGGATCCCTATGGGCGCGCTGTGGACGAGCGCGAGGGATTCCTGACCAACGTCAGGATGGCCAACCACTTTGACTGGGGCAACGACCACCGGCCGCGCGTGCACTGGCGCAACACCATCATTTACGAGGCCCATGTCCGCGGCCAGAGCATGCTGCACCCTGACGTCCCCGAGGAACTGCGCGGAACATACGCCGGCATGGCTCATCCGGCGATCATCGAACACCTCACCAGCCTTGGAATCACGTCCGTCCAGCTGCTCCCCGTGCACTTCCACCTGGATGAGCCGCACCTGCAGAACCTCGGCATGACCAACTACTGGGGCTACAACACCGCCGCTTTTTTTGCACCCCATCCCGGCTACGCCACCCGGGCCGCGCAGGAAGCCGGACCACAGGCCATCCAGGATGAATTCAAGGGCATGGTCAAGCTGCTTCATGCGGCCGGCCTGGAAGTGATCCTTGACGTTGTCTACAACCACACCGCGGAGGGCGGCCCCGATGGGAAGACGCTCAGCTTCCGGGGGCTCGGCGAAGACAAGTATTACCGCACTGACGGCCACGGCAGGTACATCGACACCACCGGCTGCGGCAACAGCCTGAACTTCGGGGAACCGCGGGTCGTGCAGCTTGTCCTGGATTCCCTCAGGTACTGGGTGGATGAGTTCCATATTGACGGCTTCCGTTTCGATCTCGCCGTGACCCTGTGCCGTAACGCAGCCAACGAATTCGATCCGCGGCACCCCTTCCTGGTGGCCATCGCCGCCGACCCCGTCCTGTCCGATGTGAAGCTCATTGCCGAGCCCTGGGACGTTGGTTACGGGGGGTGGCAGACCGGACGCTTCCCCGGTGGCTGGGTGGACTGGAACGATCACTTCCGGGATGCTGTGCGCTCATTCTGGCTCGCGGACCGCGCTGCCATTGAGGCCGGAGGCCAGGGCGGGTCGGTGTCCAGGCTGGCGGACGCGCTATCCGGCTCGGCAGGACTCTTTGAAGGATCGGGCCGGTCGCGACTGGCTTCGGTCAACCTCGTCACAGCGCACGACGGTTTCACCCTCAGTGACCTTGTGTCCTATGACCGTAAGCACAATGAAGCAAACGGCGAGCAGAACCGGGACGGCCACGGCGACAACCGCAGCTACAACCATGGCTTCGAAGGCCGGACCGAGGACGAGGCAATCCTGGCGCAGCGCGCCCAGTCCCGCCGGAACCTGATGGTCTGCCTGATGATTTCCCTGGGCATCCCTATGATCACCGCGGGCGATGAACTGGCCCGTACCCAGCAGGGCAACAACAACGCCTACTGCCAGGACAACCCCATCACGTGGCTGGACTGGACCCGGACTCCGGAATCGCACGAAATGCTGCGCAGCACCAAAAGGTTCATCCGGCTCCGGAAGGACTTTATGGCCAACCAGCCACACGATTTCCCGGTCCGCGACGAGCAGTCCTACCTCTACTGGTTCGACGAGTCGGGCGCACCAATGTCCATGGAGCACTGGAACGATCCGCACCGCCGGGTCATGCAGCTCCTGCTCGGGTCCGACGACGGCACCCTCGCCGGTCTCGCGGTGGTTAACGGCGGAAACACCGACGTCAAGATCACCCTGCCGCAACTCACCAACGACGACGGATCACCGCGGCGCATGTTTGAGCTCAGGCTGACCACTTCACCGCTGCATGAGCTCCGCCAGGGCAGCCGGGTGGCCTCCGGGGAATCCGACCTGGTCCAGGCCAACTCCATCAACATCTACCGCACCTAG	MPLFDTASTMDASAALPLGVTVPRPASSGAEHHSQSRANVAVYAPGVENLEIAYKAPGGEWQLKTLPNVTHGVHHGIVEDFPYGSRYGFRATAKEASLPLSVPTLDLDDDGGQPLLLDPYGRAVDEREGFLTNVRMANHFDWGNDHRPRVHWRNTIIYEAHVRGQSMLHPDVPEELRGTYAGMAHPAIIEHLTSLGITSVQLLPVHFHLDEPHLQNLGMTNYWGYNTAAFFAPHPGYATRAAQEAGPQAIQDEFKGMVKLLHAAGLEVILDVVYNHTAEGGPDGKTLSFRGLGEDKYYRTDGHGRYIDTTGCGNSLNFGEPRVVQLVLDSLRYWVDEFHIDGFRFDLAVTLCRNAANEFDPRHPFLVAIAADPVLSDVKLIAEPWDVGYGGWQTGRFPGGWVDWNDHFRDAVRSFWLADRAAIEAGGQGGSVSRLADALSGSAGLFEGSGRSRLASVNLVTAHDGFTLSDLVSYDRKHNEANGEQNRDGHGDNRSYNHGFEGRTEDEAILAQRAQSRRNLMVCLMISLGIPMITAGDELARTQQGNNNAYCQDNPITWLDWTRTPESHEMLRSTKRFIRLRKDFMANQPHDFPVRDEQSYLYWFDESGAPMSMEHWNDPHRRVMQLLLGSDDGTLAGLAVVNGGNTDVKITLPQLTNDDGSPRRMFELRLTTSPLHELRQGSRVASGESDLVQANSINIYRT	PGPT0018555_97	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018555-glgX-K02438	NA	NA
D1-29_00889	357			hypothetical protein	ATGAAGATCTACTCCGCAGACACCTGGTCCATCGAAGAGCTGCAGGAGATGGTCGCAGACGCCGGGCGCCGCAGCCTCGTTGTCCCGCCGGCGGACCACAAGAAGGCAGTCCTGGAGGTGTTCGGCGAGGTCCTGGACTTCCCCGAACACTACGGCGTGGATCTGGACGCCCTCAACGATTCCCTGCACGACTTCGCCGACAGCATCAGTGAGAACGGACATGCATCGGTTACGGTCCTCTGGCAGGTCGCCGCACCGTTTCGTGGCGACAGGTCCTTCGGCATCATCTGCGAGATTCTCCAGGACGCCGAGAGCTACGCCGGCGGCCAGCTCGCCGTTACCGCTGTCCTGCTGTAG	MKIYSADTWSIEELQEMVADAGRRSLVVPPADHKKAVLEVFGEVLDFPEHYGVDLDALNDSLHDFADSISENGHASVTVLWQVAAPFRGDRSFGIICEILQDAESYAGGQLAVTAVLL				NA	NA	NA	NA	NA
D1-29_00890	2643	glgP	COG0058	Glycogen phosphorylase	ATGTTGTCGGTTAGTGTGGCGCAGGTGAAGGCAATCCGCAGATTTACCGTTCGAACTGTTCTCCCTGAACCGATCAGGCCGCTGGCCCGGTTGGCCACCAACCTCCGCTGGTCCTGGCACCGGCCAACCCGCGAGCTTTTCGCCGGATTGAACGCCCGGGTCTGGGAGGAAAGCGGGCAGGATCCGGTGAGCTTCCTCGGGCTGGTGAGCCGCGAGGAGTTCCAGAGCCTCGCAGCAAACCAGTCTGTGGTAGAGCGGATCCGGGCTGCCGAGGCGGACCTTGACAGGTACCTTGAGGAGCCCCGCTGGTATCAGACGCTGGGTGAGGACGCTCCGTCTTCCATTGCATATTTCTCGCCGGAGTTCGGTATCACCGAGGTGCTTCCGCAGTACTCCGGCGGCCTGGGCATCCTCGCCGGTGACCACCTGAAAGCTGCTTCCGACCTCGGCGTGCCGTTGGTGGGCGTTGGCCTGCTGTACCAGGCCGGTTACTTCAAGCAGTCACTGTCACGGGACGCCTGGCAGCAGGAGACCTACCCCGTGCTGGATCCGGACGGCCTGCCGCTGACGCTGCTCCGCGAACCGTCAGCCGACGGCAACGGCCGCCCTCTCCAGATTTCGCTGCCGCTGCCCAACGGGCGCCGGCTGCTGGCGCATATCTGGCGTGCCGACGTCGGACGTGTTCCGCTGCTGCTTTTGGACTCCAACGTTCCGGGCAACGACGACGCCGCCCGCGGCATCACCGACCGCCTCTACGGTGGCGGCGGGGACCACCGGCTGCAGCAGGAGCTGCTCCTGGGAATGGGCGGGGTGAAGGCGCTCCGCCTCTACCAGCGGCTCACCGGACGCGCTGCGCCGGAGGTGTTCCACACCAACGAGGGCCACGCCGGCTTCCTGGGGATCGAACGTATCCAGGAGCTGATGTCCGGGGAGCAGGCGCTCAGCTTCGATGAGGCGCTTGCCGCGGGCAGGGCCTCCACCGTTTTCACCACCCACACACCTGTGCCGGCGGGCATTGACCGGTTCGAGGTTTCCCAGATCCAGCACTTCTTCCAGGCCGGGCTCGCGCCGGCGGTGCCTGTGGACAGGATCCTGGAGCTGGGCCGGGAGAACTACGCGGACGGAAACCCATCCGTCTTTAACATGGCGGTGATGGGGCTCCGGCTGGCCCAGCGGGCCAACGGCGTTGCCAAGCTTCACGGTGAAGTATCCCGGGGCATGTTCTCGGCCCTCTGGCCGGGCTTTGACCACTCCGAGGTGCCCATCACGTCGGTCACCAACGGCGTGCACGTTCCCACCTGGGTGGACGGACGTATTTCCAAGCTCGCCAGGGAGCAGTTCGGCACTGAAGCTGAAGCCATGGGCCGCTGGGACCTTGCATATAACGTGAGCGACGCCGACGTGTGGGCTTTGCGGCGTGAGATGCGGACAGCCCTCGTTGAGGATGTACGCCGCCGTCTCCGTGCCGCCTGGAAGAAACGCGGCGCCGCAGACGCCGAGCTGGGCTGGACGGACAGCGTGCTGGACCCGGATGTCCTGACCATCGGCTTTGCCCGCCGAGTTCCGACGTACAAGCGCCTCACCCTGATGCTGCGCGAGCCCGCACGGCTCAAGGCACTCCTGCTGCACAAGGAACATCCCATCCAGCTGGTGATTGCCGGCAAGTCCCACCCTGCCGATGATGCGGGCAAGAAAATGATCCAGGACCTGGTCCTCTTCGCCGATGACCCCGAAGTGCGGCACCGGATCGCCTTCCTGCCCAACTACGACATCGCGATGGCCAGGACCCTGTTCCCCGGCTGCGACGTCTGGCTGAACAACCCGCTGCGGCCGCTGGAAGCCTGCGGAACGTCAGGGATGAAGGCCGCCATCAACGGTTCGCTGAACCTGTCCGTCCTGGACGGCTGGTGGGACGAGATGTACGACGGCGAGAACGGCTGGGCGATCCCTACGGCCAACAATGACGCGTCCCCTGAGGAACGGGACGACATCGAGGCAGCAGCCCTCTACGAGCTGCTGGAATCCGAGGTTGCCCCGCGCTTCTACGGCAGCACAGTTTCCGAAGAGGCGGGGGCCGCTGGGCCCTCCACGTCGGAGATGGAAAAGGTTCCCACGCACTGGGTTTCGATGATCAAGCACACCCTCTCGCACCTGGGCCCGGCGGTTTCAGCGGAGCGGATGCTGCACGACTACGTCAACATCCTGTACCGTCCGGCGGCGGAGGCAGGCCGCGCGGCGGTGGCAGATTCGTATGCCCAGTCGCGCACCTTGGCGGCCTGGATCGCGAAGGTACGGTCCGCATGGCCCCTGCTCCACGTGGAGCACGTGGACTCCGTCGGTGTATCCGAGGATCCTCAGATCGGTGACACGCTGCAGGTCAACGCCTACGTGGCACTTCACAGCCTGACGCCGGACGACGTCGCGGTTGAAGTTGCCTACGGCCGCGCTGAGGAAAGCGACACCCTGACTGACATCACCGTGATGGAACTGAAGCCGCAGGAAGACCTCGGAAACGGACGCCACCTTTTCACCGGTTCCCTGGTGATAGACCGTTCGGGTTCCTTCGGCTACACGGTGCGGGTGCTGCCCCGGCACGAGGCCCTCGCCTCGAAGGCCGAGCTCGGGCTGATCGTCAACGCCTAA	MLSVSVAQVKAIRRFTVRTVLPEPIRPLARLATNLRWSWHRPTRELFAGLNARVWEESGQDPVSFLGLVSREEFQSLAANQSVVERIRAAEADLDRYLEEPRWYQTLGEDAPSSIAYFSPEFGITEVLPQYSGGLGILAGDHLKAASDLGVPLVGVGLLYQAGYFKQSLSRDAWQQETYPVLDPDGLPLTLLREPSADGNGRPLQISLPLPNGRRLLAHIWRADVGRVPLLLLDSNVPGNDDAARGITDRLYGGGGDHRLQQELLLGMGGVKALRLYQRLTGRAAPEVFHTNEGHAGFLGIERIQELMSGEQALSFDEALAAGRASTVFTTHTPVPAGIDRFEVSQIQHFFQAGLAPAVPVDRILELGRENYADGNPSVFNMAVMGLRLAQRANGVAKLHGEVSRGMFSALWPGFDHSEVPITSVTNGVHVPTWVDGRISKLAREQFGTEAEAMGRWDLAYNVSDADVWALRREMRTALVEDVRRRLRAAWKKRGAADAELGWTDSVLDPDVLTIGFARRVPTYKRLTLMLREPARLKALLLHKEHPIQLVIAGKSHPADDAGKKMIQDLVLFADDPEVRHRIAFLPNYDIAMARTLFPGCDVWLNNPLRPLEACGTSGMKAAINGSLNLSVLDGWWDEMYDGENGWAIPTANNDASPEERDDIEAAALYELLESEVAPRFYGSTVSEEAGAAGPSTSEMEKVPTHWVSMIKHTLSHLGPAVSAERMLHDYVNILYRPAAEAGRAAVADSYAQSRTLAAWIAKVRSAWPLLHVEHVDSVGVSEDPQIGDTLQVNAYVALHSLTPDDVAVEVAYGRAEESDTLTDITVMELKPQEDLGNGRHLFTGSLVIDRSGSFGYTVRVLPRHEALASKAELGLIVNA	PGPT0018545_513	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
D1-29_00891	2082	glgE1	COG0366	Alpha-1,4-glucan:maltose-1-phosphate maltosyltransferase 1	GTGACGACTAACTTTGGAACCACTGCCGCATCAAAGCAAAAGCCGAAAGGCCGGATCGCTGACGGCCTGCGGTTTGGCCGTTTTCCCATCACGGACGTGCAGCCCGTGGTGGAAGGCGGAAAGTTTCCCGCCAAGGCCTTGCCGGGTGAAGGAATCGTGGTGGGCGCCACCGCTTTCCGCGAGGGACATGACCAGCTCGGCGTGAGCGCCGTCCTTCTAGATCCCCGGGGCAAGGAGCGCCAGCGCGTCCGCCTGGCCCCGCCCAGGGGCGGACGAGGGATGGGGACCGACCGCTGGGAAGGCATCCTCACGCCGTCGGGAACGGGAACCTGGTCATTCATCATCGAGGCCTGGCACGACCGCTACGGGACCTGGCACCACAACGCCGAGGTCAAGGTAGGGGCCGGGATCGACGTCGAGCTGATGCTCGCCGAGGGTTCGGCACTCCTCGCAGAAGCCGCCGACGACGCCTCCCGGAGTGCCGCCGACAGGCGCACCCTGCGGGCGGCAGCCGCCACCCTTGCCAACGGCTCACTGACTGATGAGGAACGGCTCGCTGCAGGATTCGGTCCGGACATCACGGACCTTGTTAACCGTCAGCCCATCAGGGAACTGGTCACCGTGTCGGAGCGCTTCCCACTCTTCGTGGAGCGCGACCTCGCCGGCCGCGGTGCCTGGTACGAATTCTTCCCCCGCTCTGAGGGCGCTGTCCGGGACCCTGCCACAGGCACCTGGACCTCAGGCAACTTCCGCACCGCGGCGAAGCGCCTGGAGGCGGTGGCGGCCATGGGCTTTGACGTGCTCTACATGCCTCCCATCCATCCCATCGGTGTTCAGCACCGCAAGGGACCCAACAACACGCTGATTGCAGGCCCCAACGATCCCGGTTCACCCTGGGCCATTGGCGCCAAGGAGGGCGGCCACGACGCCATCCACCCCGATCTGGGAAGCTTTGACGATTTTGACGCCTTTGTGGCCCACGCCAACGAACTCGGGCTCGAAGTTGCGCTGGACCTCGCGCTCCAGGCGGCCCCGGACCACCCCTGGGTGGAATCGCACCCTGAATGGTTTACCACCCGGGTGGATGGAAGCATTGCCTACGCGGAAAATCCGCCGAAGAAATACCAGGATATTTATCCGCTCAATTTCGACAACGACCCCGAAGGCCTGTCCAAGGAAATCCTGAGGGTGGTCCTGCTGTGGGTCAGCCACGGCGTGAAGATTTTCCGGGTGGATAATCCGCACACCAAGCCCGTGTGGTTCTGGGAATGGCTGATCGGGCAGGTCAACAAGAAGGCGCCCGGCGTAGTGTTCCTTGCCGAGGCCTTCACCCGCCCGGCCATGATGCACGCCCTGGGCAGGGCCGGATTCCAGCAGTCCTACACGTACTTCACCTGGCGGAACACCAAGAAGGAGCTGGAGGCGTACTTCACGGAGGTCAGCCACGAATCCGCGGCCTACTTCAGGCCCAACTTCTTTGTGAACACCCCGGACATCCTCACGGAATACCTGCAGTACGGCGGACCACCCGCGTTCAAGATCCGGGCAGCGCTGGCGGCGACGGCCAGCCCGCTGTGGGGTGTGTATGCAGGCTACGAGCTGTATGAGCACGTGGCCCGCCCGGGTGCCGAAGAGTACATCGACAACGAAAAGTTTGAGTACAAGGCCCGCGACTGGGACGCCGCCGAAGCGTCCGGACGCTCCCTGGCGCCCTACATCACCAGGCTCAACGAGATCCGGCACGCGCATCCGGCGCTGCAGGACCTCCAGAACCTCACGGTGCACCAGAGCACGGATGACGCCACCATCGTCTACTCCAAGCACAAGACCCTCGCGGATGGCACCAAGGACACCCTCATCGTGGTAGTCAATGTTGATCCGCACGGGACAAGGGAGAGCACCGTTTCGCTGGACCTTCCCGCGCTCGAACTGGACCCGGCGGACCTTTCGCACAACGGCGGCTTCTGGGTGGACGACCTGATCTCGGGTGAATCCTGGGAATGGGGCGAATACAACTATGTCCGCCTGGACGCACACGTTGAACCCGCACACATCCTGAGAGTGAGGAGAATTCATCAGTGA	MTTNFGTTAASKQKPKGRIADGLRFGRFPITDVQPVVEGGKFPAKALPGEGIVVGATAFREGHDQLGVSAVLLDPRGKERQRVRLAPPRGGRGMGTDRWEGILTPSGTGTWSFIIEAWHDRYGTWHHNAEVKVGAGIDVELMLAEGSALLAEAADDASRSAADRRTLRAAAATLANGSLTDEERLAAGFGPDITDLVNRQPIRELVTVSERFPLFVERDLAGRGAWYEFFPRSEGAVRDPATGTWTSGNFRTAAKRLEAVAAMGFDVLYMPPIHPIGVQHRKGPNNTLIAGPNDPGSPWAIGAKEGGHDAIHPDLGSFDDFDAFVAHANELGLEVALDLALQAAPDHPWVESHPEWFTTRVDGSIAYAENPPKKYQDIYPLNFDNDPEGLSKEILRVVLLWVSHGVKIFRVDNPHTKPVWFWEWLIGQVNKKAPGVVFLAEAFTRPAMMHALGRAGFQQSYTYFTWRNTKKELEAYFTEVSHESAAYFRPNFFVNTPDILTEYLQYGGPPAFKIRAALAATASPLWGVYAGYELYEHVARPGAEEYIDNEKFEYKARDWDAAEASGRSLAPYITRLNEIRHAHPALQDLQNLTVHQSTDDATIVYSKHKTLADGTKDTLIVVVNVDPHGTRESTVSLDLPALELDPADLSHNGGFWVDDLISGESWEWGEYNYVRLDAHVEPAHILRVRRIHQ	PGPT0018610_507	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018610-glgE-K16147	NA	NA
D1-29_00892	1797	treS_1	COG0366	Trehalose synthase/amylase TreS	GTGAGTTTTAACCCGCAGGGCTCCAGTCAGCATTTCACCCCCAAGAGCACGTTTGAGCTAAACGCGCCCGGCCTCCAACATGACCCCTTGTGGTATCGGAAGGCAGTGTTCTACGAGGTGCTCGTGAGAGCCTTTGCGGACGCCAACGGTGACGGTTCAGGCGACTTCCACGGACTCATCGACAGGCTGGACTACCTGCAATGGCTGGGGGTGGACTGCCTGTGGCTGCCGCCGTTTTTCCAGTCACCTCTGCGCGACGGCGGATATGACATCTCCGACTACAACTCCGTGCTTGATGAGTTCGGCACCATCACGGACTTCAAGCGCCTCGTGGCCGAAGCCCATGCGCGCGGCGTCCGGGTCATCATCGACCTCCCGCTGAACCACACGTCGGACCAGCACCCCTGGTTCCAGGAATCCCGCAAGGATCCCGATGGCCCGTTCGGTGACTTCTACGTGTGGAGCGACACGGACGAGAAGTACCAGGATGCCCGCATCATCTTTGTGGACACGGAGGAATCAAACTGGAGTTTCGATCCCATCCGTCGCCAGTTCTTCTGGCACCGCTTCTTCAGCCACCAGCCTGATTTGAACTTTGAGAACCCCAAGGTCATTGATGCGCTCTTTGACGTTGTCAGGTTCTGGCTGGACCAGGGCATCGACGGCTTCCGCGCTGATGCCATCCCTTACCTCTTCGAGGAGGAAGGGACCAACTGCGAAAACCTTCCCGCCACCCATGACTTCCTGCGCAAGCTGCGGACCATGGTGGACGAGAGCTACCCGGGCCGCGTCATCATCGCCGAGGCCAACCAGCCTCCCAACGAGGTGGTGGAGTACTTCGGTACAGAGGCCGAGCCTGAATGCCACATGGCCTTCCATTTCCCCATCATGCCGCGCCTCTACTACGCGCTGCGTGACCAGAAGGCCGCCCCGATCATCGAGACGATGCATGACACCCCGGAAATTCCGGAGGGGGCGCAGTGGGGGACCTTCCTGCGGAACCATGATGAACTGACCCTGGAAATGGTAACGGCGGATGAACGTGCCGCGATGCTCGGCTGGTACGCACCGGACCCCCGGATGCGGGCCAACATCGGTATCCGCCGCCGGCTGGCGCCCCTGCTGGACAACTCCAGGGCCGAGATCGAGCTGATCCACGCCCTGCTGCTCTCGCTCCCGGGGAGCCCGTTCCTGTACTACGGGGACGAGATCGGCATGGGGGACAACATCTGGCTTGAAGACCGCGACGCCGTGCGTACTCCCATGCAGTGGAATCCGGACCGTAACGCCGGCTTCTCCGACGCGGATCCCGGCAAGCTGTACCTTCCGGTCATCCAGTCGCTTGTGTACAACTACAGCATGGCCAACGTCGAGGCAGAGGCGGCTCATTCGGGTTCCCTGCTCCGCTGGACCAGGCAAATCCTCAGCGTCCGCAAGAACCACCCGGCCTTCGGACTGGGGAGCTTCAAACACGTCGAGGCAGACCACGACGCCGTCCTGGCGTACATCCGCGAGCTGTCCGATGACAACACGGCGGGAGCGGACGGAGAGTCCATCCTGTGCGCGTTCAATCTTTCCCAGCACCCGGTGGCGGCCAGGCTGCGGGTTCCGCAATTTGCCGGCCGCGGGCTCCGTGACGTGTTCGGCGGGCAGCCTTTCCCCGGCATCGACGACGACGGCACGCTGACGCTGACCCTGGGAAGCCATGATTTCTTCTGGCTTCGCGTCCGGTCGGCGGCATCCAACCCGGCCTCGCCCTACACTCAGGCGATGCCTATCCTGTCCATCGAGAACTGA	MSFNPQGSSQHFTPKSTFELNAPGLQHDPLWYRKAVFYEVLVRAFADANGDGSGDFHGLIDRLDYLQWLGVDCLWLPPFFQSPLRDGGYDISDYNSVLDEFGTITDFKRLVAEAHARGVRVIIDLPLNHTSDQHPWFQESRKDPDGPFGDFYVWSDTDEKYQDARIIFVDTEESNWSFDPIRRQFFWHRFFSHQPDLNFENPKVIDALFDVVRFWLDQGIDGFRADAIPYLFEEEGTNCENLPATHDFLRKLRTMVDESYPGRVIIAEANQPPNEVVEYFGTEAEPECHMAFHFPIMPRLYYALRDQKAAPIIETMHDTPEIPEGAQWGTFLRNHDELTLEMVTADERAAMLGWYAPDPRMRANIGIRRRLAPLLDNSRAEIELIHALLLSLPGSPFLYYGDEIGMGDNIWLEDRDAVRTPMQWNPDRNAGFSDADPGKLYLPVIQSLVYNYSMANVEAEAAHSGSLLRWTRQILSVRKNHPAFGLGSFKHVEADHDAVLAYIRELSDDNTAGADGESILCAFNLSQHPVAARLRVPQFAGRGLRDVFGGQPFPGIDDDGTLTLTLGSHDFFWLRVRSAASNPASPYTQAMPILSIEN	PGPT0014120_686	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0014120-treS-K05343	NA	NA
D1-29_00893	3675	glgB		1,4-alpha-glucan branching enzyme GlgB	ATGAATCAGCCAACCCTCACCCCTGAACTGGGGGCAGTCCTTCGGGAATGGTTGCCGCGGCAGCGCTGGTTCCCGGTCAAGTCAGCCGATTTTTCGCTGGAACTGGCGGGTGGCCTGAACCTGGAAGATCCCGCCAGGAAGGTCCACCTGGAGGTTTTCCTGCTGGCGGTGACGTCGCGGACGGCCGACGGCGGGAGCCGCACCGACGTTGTCCAGGTCCCTCTGAGCTACCGGAGTGCGCCGCTGGCCGGGAGCGAGCGGGCACTGGTCGGCCAAGCCGAATCCGGCGACGCCGGGCCGGCATGGATCTATGACGGCGTCCACGATCCGGCCTTCGTTTCCGCCTGGCTGGAGCTGATCCGCACCGAAACCGGCTCCGGCACGGTTAAGGGCCACCGCGTACCTTCGGACCATCGTCTGCCCACCGCCCATGGAATGGTCAAGGTCCTGTCCGGAGAACAATCGAACAGCTCCGTCATCGTTGATGACGGCGAGTCCGCCGCGATTGTGAAATTCTTCCGGGTGCTCTCGGAAGGGACGAACCCGGAAGTGGAAGTGGGGGCTGCCCTCACCGCCGCAGGCACGTCCGAAGTTCCGGCCACGCTTGGTTGGGTCAGCAGCGCATGGCAGGTGGCCAGCCTGACCGCGGGCGCCCGTCTGGCCGAGGGCGAACTGGCAGTCGCCCACGAATTTCTGGCCGGCGGCCGGGACGCGTGGCGCCTCGCCGTTGACGCGGCCCGGACCGGCACCGACTTCACGGCTGAAGCGCACGCCCTCGGGGCGGCCACAGCCACCGTCCATCGCAGGCTCGCCGACGCCCTGGGTACCTCCAAGGAATCCGAGCCGGGGGAGATCATCGCTCCCGCAGTAGCCCAGCGGGTGCGGCAGGCATGGGCGGAAGCCGGTGCCGCCGTCGGGCCCTACGACCAGGAGCTCACCGCACTGCTCACCGAGCTCGACGGCGTGCCGGCCGGTCCATTGCAGCGGATCCACGGCGATCTCCACCTTGGCCAGATCCTGCAGGTGCCCGGGCACGGCGACGATCCTGAACGGTGGGCCATCCTGGACTTTGAAGGTGAACCGCTGCGGCCCATCGCCGAACGCAACCTCCCCGACGTTCCGCTCCGCGACGTCGTGGGCATGCTGCGCTCGTTTGACTACGCGGCCGGGGCAGCAGAACGCGAGTACCAGGGTGCACACATCGTGGAGACGTGGGTGGACGATTGCGCCGACGCCTTCATAGCCGGCTATACAGAGGTCACACCCGGCACCATCGACCGCAGCTCGCCGCTCTTTGTGGCATTGTGGCTGGACAAGGCGCTCTACGAAGTTGTTTATGAGTTGCGGAACAGGCCTGACTGGCTGGCGATTCCAGTGAACTCCTCCAGACGGCTCCTCAGCGGTAAAGGCTCCGGCGATCAGGCCGGGGCGGCATCGGAAGGTAACGAAATGACAGGCTCAGCACGTACTGATCGGCCGCATGCGCCGCTTCACGTGAACCCAGATACCCTCGGCCAGGTGGCAAACGGTGAGCATCACGCGCCGCACTCAGTCCTGGGTGCACACCTGGACGACCACGGCCACGTGACCATCCGGACCGTGAAGCACCTCGCTGCGTCCGTGTCCGTCGTCACTGCCGCCGGTTCCGTGCCCATGACGCACGAGGCACACGGCGTCTGGGCTGCAGTGCTTGAACCACTTCAGCCGGGCCATGTTCCCGATTACCGGCTGGAAGTTGCCTACCCGGGTGCAGAGCCAGTGGTGGTGGACGAGCCCTACCGCTACCTTCCCACTGTGGGTGAAGTGGACCTGCACCTGATCGGAGAGGGCAGGCACGAGAAGCTGTGGGAGGTGCTGGGTGCGCATGTCCAGCACTACAAGTCCTCACTTGGCGACGTCGACGGCGTGTCCTTCGCCGTCTGGGCGCCCAACGCACAGGCCGTTCGTGTCAAGGGCGACTTCAACGCCTGGGACGGCCGCGAGCATTCGCTCCGTTCCCTGGGCTCGTCCGGGGTGTGGGAAGTCTTCCTGCCCGGCGTTTTAGCAGGGGCGTGCTACAAGTTCGAGATCAAAACCAAGGGCGGCTACTGGGTCGAAAAGGCCGATCCGCTTGCTTTTGGTACAGAGGTTCCGCCCCTGACTGCGTCCCGGGTGGTGGAACCGTCCTACGTCTTCAAGGACGACGAATGGATGGAGGCGCGGGCCCAGCGGGATCCGCACAACTCGCCCATGAGTGTTTACGAAGTCCACCTAGGCTCGTGGCGGCTGGGCCTCGGCTACCGTGAGCTGGCCAAAGAGCTGGTGGACTACGTCAAGTGGCTGGGATTCACCCACGTTGAGTTCATGCCCGTGGCCGAGCACCCGTTCGGTGGTTCCTGGGGTTACCAGGTCACCTCCTACTTCGCCCCGACGTCGAGGTTCGGCCACCCGGATGAGTTCCGCTTCCTGGTGGACGCGCTGCACCAGGCCGGAATCGGTGTGCTTCTGGACTGGGTTCCGGCGCACTTCCCGAAGGATGCCTGGGCGCTGGCAGAGTTCGACGGCGAGCCGCTGTACGAGCATGCCGATCCGAACTTGGGTGAGCACCCGGACTGGGGCACGCTGATCTTCGACTTCGGCCGGACCGAAGTCCGGAACTTCCTGGTCGCCAACGCGCTCTATTGGCTTGATGAATTCCACATCGACGGGCTCCGCGTGGACGCCGTGGCCTCTATGCTCTACCTGGACTACTCCCGTGAAGACGGCCAATGGTCACCCAACAGGTTTGGCGGCCGTGAAAACCTGGAAGCCATTTCCTTCCTCCAGGAAGTCAACGCCACGGTCTACAAGACCCACCCTGGCGCGGTCATGATCGCTGAGGAATCCACGGCGTTCCCCGGAGTGACGGCACCAACCAGCCACGGCGGCCTGGGCTTTGGCCTGAAGTGGAACATGGGCTGGATGCATGACTCCCTCAAGTACGCCTCCGAGGATCCGGTCAACCGCAAGTGGCACCACGGCACCATCACGTTTTCCATGGTCTACGCCTTCACCGAAAACTTCCTGCTGCCCATCAGCCATGATGAGGTAGTGCACGGCAAGGGCTCCATGCTCCGAAAGATGCCCGGTGACCGCTGGCAGCAGCTCGCCAACCTGCGGGCCTTCCTGGCGTACCAATGGGCACACCCGGGCAAGCAGCTCATCTTTATGGGCACCGAGTTCGGGCAGGAAGCCGAATGGTCAGAGCAGCATGGCCTGGACTGGTGGCTTGCGGACATCCCCGCACACCGCGGAATGCAGCTGCTCACCAAGGATCTGAACGAGCTATACAGCTCGACGCCGGCGCTCTATTCGCGCGACAACGAGCCCGGAGGCTTTCAGTGGATCAACGGCGGCGATGCTGACCGGAACGTCCTGACCTTCGTTCGCTGGGACACTGAAGGTAATCCGCTGGTCTGCGCCGTGAACTTCTCCGGGGGCCCGCACGTCGGTTACCCCTTGGGCGTGCCGGAGGATGGCGCCTGGACGGAAGTTCTGAACACCGATTCATCCGCGTACGGGGGATCTGGTGTGCTGAACGGGGGAAGCCTCACCGCACTCCCGAAGGGACTCGATGGCCAGCCGGCAACCCTGACTGTGACGTTGCCGCCACTGGGCGCAGCGTACTTCAAGCCGGCCGGCCCCGCGGTCAAGTAG	MNQPTLTPELGAVLREWLPRQRWFPVKSADFSLELAGGLNLEDPARKVHLEVFLLAVTSRTADGGSRTDVVQVPLSYRSAPLAGSERALVGQAESGDAGPAWIYDGVHDPAFVSAWLELIRTETGSGTVKGHRVPSDHRLPTAHGMVKVLSGEQSNSSVIVDDGESAAIVKFFRVLSEGTNPEVEVGAALTAAGTSEVPATLGWVSSAWQVASLTAGARLAEGELAVAHEFLAGGRDAWRLAVDAARTGTDFTAEAHALGAATATVHRRLADALGTSKESEPGEIIAPAVAQRVRQAWAEAGAAVGPYDQELTALLTELDGVPAGPLQRIHGDLHLGQILQVPGHGDDPERWAILDFEGEPLRPIAERNLPDVPLRDVVGMLRSFDYAAGAAEREYQGAHIVETWVDDCADAFIAGYTEVTPGTIDRSSPLFVALWLDKALYEVVYELRNRPDWLAIPVNSSRRLLSGKGSGDQAGAASEGNEMTGSARTDRPHAPLHVNPDTLGQVANGEHHAPHSVLGAHLDDHGHVTIRTVKHLAASVSVVTAAGSVPMTHEAHGVWAAVLEPLQPGHVPDYRLEVAYPGAEPVVVDEPYRYLPTVGEVDLHLIGEGRHEKLWEVLGAHVQHYKSSLGDVDGVSFAVWAPNAQAVRVKGDFNAWDGREHSLRSLGSSGVWEVFLPGVLAGACYKFEIKTKGGYWVEKADPLAFGTEVPPLTASRVVEPSYVFKDDEWMEARAQRDPHNSPMSVYEVHLGSWRLGLGYRELAKELVDYVKWLGFTHVEFMPVAEHPFGGSWGYQVTSYFAPTSRFGHPDEFRFLVDALHQAGIGVLLDWVPAHFPKDAWALAEFDGEPLYEHADPNLGEHPDWGTLIFDFGRTEVRNFLVANALYWLDEFHIDGLRVDAVASMLYLDYSREDGQWSPNRFGGRENLEAISFLQEVNATVYKTHPGAVMIAEESTAFPGVTAPTSHGGLGFGLKWNMGWMHDSLKYASEDPVNRKWHHGTITFSMVYAFTENFLLPISHDEVVHGKGSMLRKMPGDRWQQLANLRAFLAYQWAHPGKQLIFMGTEFGQEAEWSEQHGLDWWLADIPAHRGMQLLTKDLNELYSSTPALYSRDNEPGGFQWINGGDADRNVLTFVRWDTEGNPLVCAVNFSGGPHVGYPLGVPEDGAWTEVLNTDSSAYGGSGVLNGGSLTALPKGLDGQPATLTVTLPPLGAAYFKPAGPAVK				NA	NA	NA	NA	NA
D1-29_00897	519			hypothetical protein	ATGGACAACCTCTTCAGCCACGCGGATGACTCCCTCCCAGGCACTGCTGAATCCCGGGATTCCCTGGACCCGGTCATCTGTACTGTCACGGTTCCAGGTCCGGTTGCCCAGGCCTTTGCCGGCTTCACCGACCACACGCATCTGTGGTGGCCACTCGAGTCGCACGGCGTCTACGGCGCGGGTTCCTACGTCGAGTTCGAGGAAAACCTCATCCTGGAAACTGCCGATGACGGACGAACCACTATCTGGGGCACCATTGATGACTGGCAGCCGCCGCTGTCCTTCCACGCGTCCTGGCATCCGGGAACCACCGCACTGTGGTCCACAGAGTTGCGTGTGGCCTTCAGGGCCGTTTCGGACGGGACAGAGGTCCGCCTGGTGCACGACGGCTGGGAGGGCGCTGAGGATCCTTCTGCGACGCGTGCCTCGTATGAGGCCGATTGGCCAACGGTACTGGAACGCTTTGTGCGTTTTATGGGTGGAACGGGCCCGGACGGGGACGAAGCCGGGCCGGCCTAA	MDNLFSHADDSLPGTAESRDSLDPVICTVTVPGPVAQAFAGFTDHTHLWWPLESHGVYGAGSYVEFEENLILETADDGRTTIWGTIDDWQPPLSFHASWHPGTTALWSTELRVAFRAVSDGTEVRLVHDGWEGAEDPSATRASYEADWPTVLERFVRFMGGTGPDGDEAGPA				NA	NA	NA	NA	NA
D1-29_00898	1086	ccpA_6	COG1609	Catabolite control protein A	GTGGGACTTGCGGGGATCAAGGACGTCGCCGACCGGGCAGGGCTGTCAATTGCAACGGTTTCGCGGGCGCTCAGCGGCAAGGCCAATGTTTCAGCCAAAAGCCGCCAGCTTGCGCAGGCGGCTGCCGAAGAACTTGGCTTTGTTCCGTCCTACCATGCCTCCAGCCTTGCATCAGGGCGCAACCATAATGTCGGCCTGGTGGTTCCCTCGGTCCACCGCTGGTACTTTTCGTCCGTGGTGGAGGGCGTGTCTGCGGCCCTGCTGGACGCAGGGTATGACCTGACGCTCTACAACGTGGGAGACCAGCCGGAGCGGCGCCACAGCGTCCTGAACGACTTCCTGCTCCGTAAAAGGCTGGACGCGGTCATCGCTGTCGCTTTGGTGCTCACCGACGCCGAAATCCAGCAGCTGCTTGCCATCCACCGGCCCATCGTTGGAATTGGCGGGGCGCTGACCGGGGCGTCCACCATCAGGATCAACGATGCCGGCCTTTCCTTGATGGCCATGGAACACCTGCTCCGGCTGGGACACACCCGGATCGCCCACATGACGGGTTATGCCGAGCTCAACCAGGACTTCAAGCTGCCGGGGATCCGGCAGACGGGCTTTGAGACAGCCATGAAGACTGCTGGGCTCCCCGTGCGGCCCGAATGGCAGGTGGATGCGGACTTCACCATCCAAGGCGCCTACGCCAGTGCCCGAAGGCTCCTTGGTACGGCGTCGGAGCGGCCAACCGCGGTGTTCGCGGCATCGGACGAGATGGCCATCGGCACGATTCTTGCGGCACGGGACTTCGGCCTTCGCGTACCCCAGGACCTGTCAGTCATCGGCATGGACGGCCACGAACTCGGCGAAGTGTTTGGGCTGACCACCATCAACCAGGATGCCCGGGGACAGGGAGCCCTGGCGGCCAAAATGCTGTTGGCAAGCCTTGATGCCGGCGCGCAAACCGGGACAAGGCAGCCGGCGTCCCGGCAAGGCCTCAAGCAACGCTCCAAGCGCACGTCGGGAAGTCCAGACACAGTGGACCATGAATACCCCACCGAGTTTGTGATCAGGACGAGCACCGCCGTACCGCCGGTTTAG	MGLAGIKDVADRAGLSIATVSRALSGKANVSAKSRQLAQAAAEELGFVPSYHASSLASGRNHNVGLVVPSVHRWYFSSVVEGVSAALLDAGYDLTLYNVGDQPERRHSVLNDFLLRKRLDAVIAVALVLTDAEIQQLLAIHRPIVGIGGALTGASTIRINDAGLSLMAMEHLLRLGHTRIAHMTGYAELNQDFKLPGIRQTGFETAMKTAGLPVRPEWQVDADFTIQGAYASARRLLGTASERPTAVFAASDEMAIGTILAARDFGLRVPQDLSVIGMDGHELGEVFGLTTINQDARGQGALAAKMLLASLDAGAQTGTRQPASRQGLKQRSKRTSGSPDTVDHEYPTEFVIRTSTAVPPV	PGPT0021075_1159	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
D1-29_00899	1731	malL_3	COG0366	Oligo-1,6-glucosidase	ATGTCCGTAGATACAGTGATCTCCACCACAGCGCACCTGACAGGTCCGCTGACCCTCATCCACGACGCCGATACAGTCCCGGGCTGGTGGCGGTCCGCCGTCATCTACCAGGTCTACCCCAGGTCCTTCCGCGACCTTAACGGCGACGGCATCGGAGACATCCCGGGTATCACGGAGGAGCTTGCTCACCTCGCCGAGCTGAATGTGGACGCCGTCTGGCTGTCACCCTTTTACCGCTCCCCGCAGAGGGACGCCGGTTACGACGTCAGCGACTACTGCGACGTTGATCCGATCTTCGGCACGCTGGGTGATTTCGACGTCATGATGGCCGAGGCAAACCGGCTGGGCCTCCGGGTCATTGTGGACCTTGTACCCAATCACTGCTCTGACCAGCACGTGGCCTTCCAGGCCGCGCTCTCAGCCCCTGCAGGCAGCCCTGAGCGGGACATGTTCATCTTCCGTGACGGCACCGGGCCTGACGGAAACGAACCGCCCAACAACTGGCAGTCCCATTTTGGCGGCCCTGCGTGGACGCGGGTCACCGGGCCCGACGGCCGGCCCGGCCAGTGGTACCTGCACCTCTTTGATTCGTCCCAGCCGGATTTCAACTGGGACAACCCAGCCGTCCACGCGGAATTTGAGCGGGTGCTCCGCTTTTGGCTTGACCGCGGCGTTTCCGGCTTCCGGGTGGACGTGGCCCATGCCCTGGTCAAGGCTCCCGGACTCCCCGGGTGGGGCGGCCGCGCCGACGGCGGGAGCTCGTACGGCTTCCCGGGCCACGAGGCTCCAATGTTCGGCCAACCTGCTTTGCACGACATCTACCGTGCCTGGCGCCTCATCCTTGACCAGTACGGGCCCGACCGCATCCTGTGTGCCGAGGCCAATGTGGATCCGCTGCCGCGCCTGGCGAACTGGGTCAAACCAGACCAAATGCACCAGGCCTTTAACTTCCCGTTCCTGCACGCCGGGCTGGACGTGTACAGGCTCAGGTCCGTCATCACGGATTCACTGACGGCATTGGACGCCGTGGGAGCACCCAGCACCTGGGTGCTGTCCAACCACGACGTCGTACGGCACGCCTCGCGGTTTGGCTACAACGGCTCAGGACCACGGGACGGCGACGGAATCGGGCCGGCGGATCCGCAGCCCGATATGGCGCTGGGCCGCAGGCGGGCAGCAGCAGCCTCGACGTTTATGCTGGGGCTCCCCGGCGCCGCCTACCTCTACCAGGGTGAGGAGCTGGGCCTCCCGGACGGCATAGACATCCCTGAGGGGCTGCGGCAGGACCCCACGTTTGCCCGCACCGGTGGCGAACGGCTGGGCCGTGACGGCTGCCGGGTTCCACTCCCCTGGCGCGCGGCGGAGCGGCACGCCGGCTTCGGTTCCGGGCAGGACCCGTGGCTGCCCTTGCCGGCAAGCTTCACTGAACTGTCAAGGGACGTGCAGGCTGCCTCGCCGTCGTCGCACCTTTCGCTGTACAGGCGGACTTTGGCGCTCCGGCGCGAACGCGACTTGGGCCGCGGATCCTTGGCCTGGGCAGAGGAATGGTGCACGGGCTCATCACTGGCATACGTGAACGGCGCTACGCTGGTGCTTATGAACCTGAACCACGAGTCCCTGGAGATGCCTGCAGGGGACGTCCTGCTGCGCAGCGCCGAGCCTGACCTGGGTCACTACCTGGCTTCCGGCGAAACCGCCTGGCTGCGCATTGACGGGCGCGGCGCCGAGTAG	MSVDTVISTTAHLTGPLTLIHDADTVPGWWRSAVIYQVYPRSFRDLNGDGIGDIPGITEELAHLAELNVDAVWLSPFYRSPQRDAGYDVSDYCDVDPIFGTLGDFDVMMAEANRLGLRVIVDLVPNHCSDQHVAFQAALSAPAGSPERDMFIFRDGTGPDGNEPPNNWQSHFGGPAWTRVTGPDGRPGQWYLHLFDSSQPDFNWDNPAVHAEFERVLRFWLDRGVSGFRVDVAHALVKAPGLPGWGGRADGGSSYGFPGHEAPMFGQPALHDIYRAWRLILDQYGPDRILCAEANVDPLPRLANWVKPDQMHQAFNFPFLHAGLDVYRLRSVITDSLTALDAVGAPSTWVLSNHDVVRHASRFGYNGSGPRDGDGIGPADPQPDMALGRRRAAAASTFMLGLPGAAYLYQGEELGLPDGIDIPEGLRQDPTFARTGGERLGRDGCRVPLPWRAAERHAGFGSGQDPWLPLPASFTELSRDVQAASPSSHLSLYRRTLALRRERDLGRGSLAWAEEWCTGSSLAYVNGATLVLMNLNHESLEMPAGDVLLRSAEPDLGHYLASGETAWLRIDGRGAE	PGPT0018560_3118	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
D1-29_00900	1371		COG0277	putative FAD-linked oxidoreductase	GTGGGCAGCATTGTTGAGGAGCTTGAAGGCACCCTCGGTCAGGAAAAAGTGAGCACCGACGAGGTCACCTTGGCCCGGTACGCCCTGGATCAGGGGCCAGTCCTGGACTACCAGCTGCCGGCTGCGGTGGTCTTCGCGGAGTCAACAGCCGACGTGCAATCGACGGTCCGGAGTTGTGCGGCCATGGGTGTGGCGCTGATAGCCCGTGGAGCGGGAACAGGGGTTTCCGGCGGTGCGCACGCCAGCAGGAACTGCGTGATCCTGTCCCTTGAACGGATGGACCGCATCCTGGACCTGAACCCGGATGACGAGACCGCCGTCGTCGAACCCGGAGTGGTCAACGCAGTCCTGAATGACGCCGCGGCGGCGCACGGGCTGATGTATGCGCCGGATCCGGCCAGCTTCCGCACCTCCACCATCGGGGGAAATGTGGCCACCAACGCCGGCGGCCTCCGCTGCGCCAAGTATGGCGTCACCAGGGATTCCGTCCTGGCACTGGACGTGGTGCTGGCCGACGGGTCCCTCATCCATACCGGCCACCAGACCTTCAAGGGCGTTGCAGGGTATGACCTCACAGGGCTTTTCGTCGGTTCCGAGGGGACGCTGGGAATCGTGGTGGGCGTAACTGTCCGGCTCAAATACCTGCCCCGGGACATCCACACCATCGCCGCCTTCTACCCGGACTTCCGGCTCGCCGCCGCCGGCGTCCTCGCGGTGGGCAGGGCGCGCGTTCAGCCTGCCATCATGGAACTGCTCGACGGCGGCACGCTGGCCCAGCTGGACAGCATCCACGGCTCGGACCTGAGTTCCCGGGGCCGGTCATTGCTCCTGATCCAGACGGACGGGTTCGGCGCCGCCGCGGAGGCGGACGTTGTCCGAAGGGTCCTGGCCGAGGGAGGAGCCGTAGTCACCATGGAGGCCAGCGCGGAGGCCGAGCACCTCGTGGAGCTGCGCCGGCACAGCAGGGGCGTGGAAGTGGATGACGAGTACAGGGTGGGCGAGGATGTGGCCGTGCCCCGCTCGCGCCTGGTTGATTACGTTGCCGCCCTGGAGGGCATGGCGGCCGCCCACGGAGTGAACCTTAAAGTGGTGGCGCACGCAGGCGACGGCAACCTCCATCCAACGTTCTGGGTGGACCGGCTGGACAATGCGGTGGATGAAGCCGCGATGGAGCGCCTGAACCTGGCATTGGACGCTTCCATTGACGCCGCGCTGGAGATGGGCGGCACCATCACCGGTGAGCACGGCATCGGACAGTACAAACTGCGCTGGCTGGGTCTGGAACAGCCTGAACCGGTCAGGGAGTTGCAGCGCAGGATCAAGCAACTGTTTGATCCGGCCGGAATCCTCAATCCCGGCAAGGCCATCTAG	MGSIVEELEGTLGQEKVSTDEVTLARYALDQGPVLDYQLPAAVVFAESTADVQSTVRSCAAMGVALIARGAGTGVSGGAHASRNCVILSLERMDRILDLNPDDETAVVEPGVVNAVLNDAAAAHGLMYAPDPASFRTSTIGGNVATNAGGLRCAKYGVTRDSVLALDVVLADGSLIHTGHQTFKGVAGYDLTGLFVGSEGTLGIVVGVTVRLKYLPRDIHTIAAFYPDFRLAAAGVLAVGRARVQPAIMELLDGGTLAQLDSIHGSDLSSRGRSLLLIQTDGFGAAAEADVVRRVLAEGGAVVTMEASAEAEHLVELRRHSRGVEVDDEYRVGEDVAVPRSRLVDYVAALEGMAAAHGVNLKVVAHAGDGNLHPTFWVDRLDNAVDEAAMERLNLALDASIDAALEMGGTITGEHGIGQYKLRWLGLEQPEPVRELQRRIKQLFDPAGILNPGKAI	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
D1-29_00901	1440			hypothetical protein	ATGTACGGAAGAATTGAACCCATGACCGAGGAATACAGCGCCCAGTGGCACGACGAACCCACCGACTACGCGCAGATCGGCAAACTGCCGCGGTTCGAGGCCGCGAGCGCCAATGATTCCAAGCTCTCGGCGGTTTCCAGTTCACTGAACATCACGGCCGCTGCGGCCGATCCGGAGCTCCTGGACCTGCCCTGGCACATCGCCCTTGAGGACTGGCCTGCAGAAAACCTCGCTGCCCTCCCCCGCGGCATCTCCCGGCACATCGTGCGTTTCGCCCACCTGGGCGGATCCGTCATTGCCATCAAGGAAACCTCGGAGCACGTCGCCCGCCACGAGTACCACATGCTCCGGAAACTGGCACGGCTGGACGTCCCCTGCGTGGAGCCGGTCGCGGTCATCACCGGCCGCACCACCCTGGATGGCAGGCCGCTGAACCCCGTGCTGGTCACCCGCCACCTGAAATTCTCCATGCCGTACCGTGCCCTCTTCTCCCAGATGCTGCGCAAAGACACGCTGACCCGCCTCATCGACGCCCAGGCGCTGCTGATGGTGCGGCTGCACCTCATCGGCTTCTACTGGGGCGACGTTTCGCTGTCCAACACGCTGTTCCGCCGTGACGCCGGCGCTTTCGCTGCCTATCTTGTAGACGCCGAGACGGGTGAGCTGTATCCGGATCTTTCCACCGGACAACGGGAGTACGATCTCGAGATCGCCCGGGTGAATATTGCCGGCGAGCTCATGGATCTGCTCGACGGCGGCCTGATCGAGGAAAAGGTGGACCCTGTGGCCACCAGCGAACTCATCATGGACAGCTACCGGCGGCTCTGGGCAGAACTGACGGAAAAGGAATCCTTCGAACTCGGAGAACGGTGGCGGGTGGGCGCGCGCATCCGCCGGCTCAACGAACTGGGATTCGACGTCGAAGAATACGCGATCAAGACCACCCAGAACGGCACCACCATCCAACTGCAGCCCAAGGTGGTGGATGCAGGGCACCACCAGCGGCGCCTCCTGCGGCTGACCGGGCTGGACGCCCAGGAAAACCAGGCCCGCCGGCTGCTCAACGACATGGACACGTTCCGCGCCGACAACAATCCGGACATGGACGAGGAATACAGCGCCCACCTTTGGGTCAGCCAGGTCTTCGAGCCCATCGTGCGTTCCATTCCGCGCGACCTCTCCGGCAAGCTTGAACCCGCGGAAGCCGTCCACGAGGTGCTGGAGCACCGCTGGTACATGTCAGAAAAGCAGGAGCGGCACATCCCGCTTGCCGAGGCCGTCCAGTCCTACATCGATTCCATCCTGCGACACCGCCGGGACGAGGCCGCGATCATGCTGAACCCGGACACTGAGCTTCTCAAGATCCTCGAAGTTGAAACTGAAGAATCCAGGTACGGTCCGGAGGAATCCATCGACGAGTACCCGGACGTGGACGACTAA	MYGRIEPMTEEYSAQWHDEPTDYAQIGKLPRFEAASANDSKLSAVSSSLNITAAAADPELLDLPWHIALEDWPAENLAALPRGISRHIVRFAHLGGSVIAIKETSEHVARHEYHMLRKLARLDVPCVEPVAVITGRTTLDGRPLNPVLVTRHLKFSMPYRALFSQMLRKDTLTRLIDAQALLMVRLHLIGFYWGDVSLSNTLFRRDAGAFAAYLVDAETGELYPDLSTGQREYDLEIARVNIAGELMDLLDGGLIEEKVDPVATSELIMDSYRRLWAELTEKESFELGERWRVGARIRRLNELGFDVEEYAIKTTQNGTTIQLQPKVVDAGHHQRRLLRLTGLDAQENQARRLLNDMDTFRADNNPDMDEEYSAHLWVSQVFEPIVRSIPRDLSGKLEPAEAVHEVLEHRWYMSEKQERHIPLAEAVQSYIDSILRHRRDEAAIMLNPDTELLKILEVETEESRYGPEESIDEYPDVDD				NA	NA	NA	NA	NA
D1-29_00902	1083	msiK	COG3839	Diacetylchitobiose uptake system ATP-binding protein MsiK	GTGGCTACAGTTACTTTTGATAACGCTACGCGTCTGTACCCGGGCACAGAAAAGCCCGCCGTCGATAAGCTCAACATCGACATCGCCGATGGCGAATTCCTGGTCCTCGTTGGACCCTCCGGTTGCGGTAAGTCCACCTCGCTGCGCATGCTCGCAGGCCTTGAGGACGTCAACGCCGGCCGTATCCTCATTGGCGACCGCGACGTCACCGACGTCCCGCCGAAGGACCGCGACATCGCCATGGTGTTCCAGAACTACGCGCTGTACCCGCACATGACGGTTGCAGACAACATGGGCTTCGCACTGAAGATCGCCGGCGTCAGCAAGGAAGAGCGCGCCGAGCGTGTCCGCGAAGCAGCCAAGCTCCTTGACCTTGAGCCGTACTTGGACCGCAAGCCGAAGGCACTCTCCGGCGGCCAGCGCCAGCGTGTTGCCATGGGCCGTGCCATCGTGCGTAACCCGCAGGTCTTCCTCATGGATGAGCCGCTTTCCAACCTGGATGCAAAGCTCCGAGTCCAGACGCGTACGCAGATCGCATCCCTGACCCGCCGCCTCGGTGTCACCACTGTTTACGTGACGCACGACCAGGTCGAGGCCATGACCATGGGTGACCGCGTGGCTGTGCTGAAGGACGGCCTGCTGATGCAGGTCGACACCCCGCGCAACCTCTACGACAAGCCCAAGAACGTCTTCGTTGCCGGCTTCATCGGCTCCCCCGCCATGAACCTGCTCGAACTCCCCGTCGTCGACGGCGGCGTCCAGTTCGGCGGAACGGTTTACCCCGTGCCGCGCAACGTCCTCGAAGAAGCACACGGCAGCACCGTCACCCTGGGCTCACGCCCCGAGGACCTCGAGACCGCACCGGCTGGCGAAGGCCTCAAGGTTGAAGTTGACGTTGTTGAAGAGCTGGGTGCCGACGCCTACGTATACGGCCACACCACGCTGGACGGCAAGGACCACGACATCGTGGCACGCGTCGACGGCCGCCGTCCCCCGATGAAGGGCGAGGCCATCTACGTCCGTCCGCAGTCGGGCCACGTGCACCTGTTCGACACCAAGACCGGCCTGCGCCTGGGCGACTGA	MATVTFDNATRLYPGTEKPAVDKLNIDIADGEFLVLVGPSGCGKSTSLRMLAGLEDVNAGRILIGDRDVTDVPPKDRDIAMVFQNYALYPHMTVADNMGFALKIAGVSKEERAERVREAAKLLDLEPYLDRKPKALSGGQRQRVAMGRAIVRNPQVFLMDEPLSNLDAKLRVQTRTQIASLTRRLGVTTVYVTHDQVEAMTMGDRVAVLKDGLLMQVDTPRNLYDKPKNVFVAGFIGSPAMNLLELPVVDGGVQFGGTVYPVPRNVLEEAHGSTVTLGSRPEDLETAPAGEGLKVEVDVVEELGADAYVYGHTTLDGKDHDIVARVDGRRPPMKGEAIYVRPQSGHVHLFDTKTGLRLGD	PGPT0016310_4662	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
D1-29_00904	837	otsB	COG0637	Trehalose-phosphate phosphatase	ATGACTCCTGATACCCGCCCCGCCAAGGGCCCGCTGACCCTTTCTCCTGAGCTCCGTGAGGCGATCCGGAGGGTCGCGCAGACTGAACACCTGCTGGTTGCCATGGACTTTGACGGCACCATCTCCCCCATCGTTAACCGCGCCGACGACGCCCGGCCGCTTCCGCGATCGGCGATCGCTTTTGCGGGCCTTGCCGCCCTACCCAGGACGACGACGGCGCTCATCTCAGGGCGTGCCCTCGGCAGCCTCCGTGGCGTCGCGTCACCCCCTGTGGACACGCTGCTGATTGGCAGCCATGGCGCCGAAGCCTGGCTCGGCCCCGGCTCCACGGAGCTGACCCTGGATGAGCACCAGCGGGAGCTGCTTGGCGAGGTCCGCAGCATCCTTGAGGGCATCGTGGCGGAGGCTCCGGGCACTCTCCTGGAAGAGAAGCCCGCCGGAGTGGTCCTGCATACCAGGCTTGCCGCCGACGACGTTGCCGAGGACGCCGTGGCCGCAGCCCTGTCGCTGCTGCAGGAGCGCAAGGGCGTTTTCCTCAAGACCGGCAAGCGCGTCCTGGAGACGTCCGTGGTGAATGCTTCAAAGGGCGAAGCTGTGACGTTCCTGCGCCAGATCACCGGAGCAACATCGGTCCTTTTTGCCGGTGACGACACAACGGATGAGGACGCCCTGGCCAGGCTGGAACCCGGCGACGTGGGCGTCAAGGTGGGGCTCGACTTTACCCAGGCCGAGTTCCGGGTGGAGGCCCCGGTGCACGTCGCGGAACTGCTGGAAACGCTGCTGCATGAGCGAAGCCTGGCGGTGGCGGAGGAAGCGCCTGGACAGCTGGGAAGTTAG	MTPDTRPAKGPLTLSPELREAIRRVAQTEHLLVAMDFDGTISPIVNRADDARPLPRSAIAFAGLAALPRTTTALISGRALGSLRGVASPPVDTLLIGSHGAEAWLGPGSTELTLDEHQRELLGEVRSILEGIVAEAPGTLLEEKPAGVVLHTRLAADDVAEDAVAAALSLLQERKGVFLKTGKRVLETSVVNASKGEAVTFLRQITGATSVLFAGDDTTDEDALARLEPGDVGVKVGLDFTQAEFRVEAPVHVAELLETLLHERSLAVAEEAPGQLGS	PGPT0014140_1209	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014140-otsB-K01087	NA	NA
D1-29_00905	1503	otsA	COG0380	Trehalose-6-phosphate synthase	ATGCAAACACCTGTCCAAGAAAAACCCATAGCTGTACCTGATGCCGGCACCGCCGCGAATGGCCACAGCACCGGGACGAAGTACGACTTCATGGTGGTGTCCAACAGGCTGCCTGTGGACCGCTGCGCCACGGGAGAGGGCGGCGATGACGGCAGCGGGTGGCGCCGCTCGCCCGGCGGCCTGGTGACCGCGCTCGCTCCCATGATGACCAAGACCGACGGCGCGTGGGTGGGGTGGCACGGAGCTCCCGACGAGACGGTTAAGCCTTTCAGCCACGGCGGGATGGACCTCGTCCCGGTTCAGCTCAGCACCGAGGACGTTGAGCTGTATTACGAAGGGTTCTCTAACGCCACGCTGTGGCCGCTGTATCACGACGTCATCGCCCCGCCGGAGTTCCACCGGACCTGGTGGGATGCCTACCGCAGGGTCAACAGAAGGTTCGCCGACGCCGTCGTCCGCCATGCTGACGAAGGCGCCACGGTGTGGATCCAGGATTACCAGCTGCAGCTGGTGCCGAGGATGCTGCGCGAAGCGCGGCCGGACCTACGGATCGGGTTCTTCAACCACATCCCGTTCCCGCCTCCCGAGATCTTCGCCCAACTTCCCTGGCGGCAGGCCATCATTGACGGGCTGCTGGGCGCTGACCTGGTGGGCTTCCAGCGCGCCAGCGACGCCGGCAACTTCATGCGCTCAGCGCGGCGCTTCCTGGGTGCCAGCGTCAAGCAGCAGCAGGTGCACGTCAAGGGCCAGGATGATCAGGTTACGCACATTGCCCGGGCCCAGGCCTTCCCCATTTCCATCGACGTGGGCCATATCAGTGAGCTGGCCAGCAACCCGGACATCATTGAACGGGCCCGCCAGATCCGGCAGGACCTCGGCAATCCCAAGACCATCCTGCTCGGTGTTGACAGGCTGGACTACACCAAGGGCATCAGGCACCGGCTCAAGGCCTACGAGGAACTCCTGAACGAAGGCAAGCTCACGGTGGGCGACGCCACCCTGATCCAGGTGGCCAGCCCCAGCCGTGAGCGGGTGGAGCAGTACCGGCTGCTGCGTGAGGAGGTGGAGGGAACAGTGGGCCACATCAACGGCACGTACGACACCATCGAGAACACCGCCGTCCGCTACCTGCACCACAGCTACCCGGTGGAGGAGATGGTGGCCCTGTACCTTGCCGCCGACGTCATGCTGGTGACCGCCCTCCGTGACGGCATGAACCTTGTGGCCAAGGAGTATGTGACGGCCCGCAGGGACAACAACGGCGCCCTGGTACTCAGCGAGTTCGCCGGCGCGGCGGACCAGCTCAAGCAGGCGCTGCTGATGAACCCGCATGACATTGACGGCCTCAAGGACACCATCATGAGGGCCGTCAACATGTCCCCCAAGGACGCCGCACGGCGCATGCGGGCCATGCGCAAGCAGATCCTTGAACACGACGTGGACCACTGGTCCGCGGACTTCCTGACTGCCCTCAACGAGAAAGTGGTCCGCGATGACTCCTGA	MQTPVQEKPIAVPDAGTAANGHSTGTKYDFMVVSNRLPVDRCATGEGGDDGSGWRRSPGGLVTALAPMMTKTDGAWVGWHGAPDETVKPFSHGGMDLVPVQLSTEDVELYYEGFSNATLWPLYHDVIAPPEFHRTWWDAYRRVNRRFADAVVRHADEGATVWIQDYQLQLVPRMLREARPDLRIGFFNHIPFPPPEIFAQLPWRQAIIDGLLGADLVGFQRASDAGNFMRSARRFLGASVKQQQVHVKGQDDQVTHIARAQAFPISIDVGHISELASNPDIIERARQIRQDLGNPKTILLGVDRLDYTKGIRHRLKAYEELLNEGKLTVGDATLIQVASPSRERVEQYRLLREEVEGTVGHINGTYDTIENTAVRYLHHSYPVEEMVALYLAADVMLVTALRDGMNLVAKEYVTARRDNNGALVLSEFAGAADQLKQALLMNPHDIDGLKDTIMRAVNMSPKDAARRMRAMRKQILEHDVDHWSADFLTALNEKVVRDDS	PGPT0014135_347	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014135-otsA-K00697	NA	NA
D1-29_00906	891			hypothetical protein	ATGAGCCCCGCAAACGAAGTACGTAAGTCCAAGGCTGAGCGAACCGCGGAGGCACGCGAAAAAGCGCGCCTGATCCGCGAGGCCCAGCTGAAAAAGGACAAGCGCAACAAGCTGCTGATCGGCTGGGGCATCGTGGTGGCAGTGGTTGCAATCCTGGCGGTGGTAGCGCTGGTGGTAACCACCAGCATGCGGCAGAACGCAGAGATTGCCGAGCAGGGTCCCACCCCCGCAAACGGCAACATTTATGGCGGCGTCACATTACTCGCCAATACCGAAGTAGCCCCGACCGAGCCAGCCACCGTGAACGTGGCGGACCTGCCGGGTCCGCCGGAAACTGCCCCGGCCGAAGTGGTGGCCCCCGGGGCCGAAGCCGAAGAGGGCAAGCCCGTGAAGGTGGTTCTTTACATCGACTTCATCTGCCCCGCCTGCAAGAGCTTCGAGGCCCAGAACAACGCGCAGCTGACCACCCTTCGGAACGAGGGCAAGATTTCCGTGGAGTACCGCCCGCTGGGCTTCCTGGACACGCGGTCCACCACCAACTACTCCTCCCGCGCAGCCAACGCTGCCGCCTGTGTTGTCAACGAATCCCCGGAAAAGTACGCGGAGTTCGTGGACGAGCTGTTCGCTCAGCAGCCCAAAGAAGGTGGAGCGGGCCTGTCCGACAATGACCTGAAGAAGATGGCCACGGACATTGGCGCCAAGAATATCGATGCCTGCGTGGACAACAAGACCTACCGCCCCTACGTGGCGTACACCACCAAGCAGGCCGCGTCCATCGGCGTGACCGGCACGCCTACTGTGTTTGTGGACGGCAAGCAGTGGGGCAAGGGCGCCAGCGCCCAGACCCCGTTCCCCGAGTTCCTCCAGGCCGCGATCGACGCTAAGGGCTGA	MSPANEVRKSKAERTAEAREKARLIREAQLKKDKRNKLLIGWGIVVAVVAILAVVALVVTTSMRQNAEIAEQGPTPANGNIYGGVTLLANTEVAPTEPATVNVADLPGPPETAPAEVVAPGAEAEEGKPVKVVLYIDFICPACKSFEAQNNAQLTTLRNEGKISVEYRPLGFLDTRSTTNYSSRAANAAACVVNESPEKYAEFVDELFAQQPKEGGAGLSDNDLKKMATDIGAKNIDACVDNKTYRPYVAYTTKQAASIGVTGTPTVFVDGKQWGKGASAQTPFPEFLQAAIDAKG				NA	NA	NA	NA	NA
D1-29_00908	348			hypothetical protein	ATGGCCGTCAAACTTAACCGTAAGGCGTTGGCGTACGCCCGGAAACTTGTTGAGAGCGGAAAGGTTGAACGCGATATCCGTGATGACTGGAGCGAACACGCGCCTTCGACTGAAGTTGAGAACAAATTTATCGACAAGCACGGTTTCGCCGATTTCGCGGAATGGCATCTGGGCCGGGACGACGAAGAATCAGATGGCACCAAAGGCAGCGTGAGCTTTCCTTTCGGAGACTTCAAAAAGGTGCACCGGTGCGCCGTGATTTCATTGGAAAGCCGGGCCGGCCAGTACGGGCACGATGACATCCGGGACGCCGCCAAAAAACTGCTTGAGCTGATCGACAAGGATTGA	MAVKLNRKALAYARKLVESGKVERDIRDDWSEHAPSTEVENKFIDKHGFADFAEWHLGRDDEESDGTKGSVSFPFGDFKKVHRCAVISLESRAGQYGHDDIRDAAKKLLELIDKD				NA	NA	NA	NA	NA
D1-29_00909	306			hypothetical protein	ATGGCTACCGATTACGACGCTCCACGCAACAAGACAGACGAAGAGTCTTCCGCCGAATCGCTGGAGGCCCTGCAGGCCTCCCGCAGCGGTAATGCACAGACCGCGGTGATTGACGTTGACGAGAACGACACCGCCGAAGGCATCGACCTGCCCGGCGCTGACCTCTCCGGTGAAGAACTGACGGTCATCGTTGTTCCGGAGCAGTCCGACGAATTTACCTGTTCCTCCTGCTTCTTGGTCCGCCACAGGTCCCAGGTTGCCCGCGAAAAGAACGGCCTGAAGTACTGCCGGGAATGCGAAGGCTGA	MATDYDAPRNKTDEESSAESLEALQASRSGNAQTAVIDVDENDTAEGIDLPGADLSGEELTVIVVPEQSDEFTCSSCFLVRHRSQVAREKNGLKYCRECEG				NA	NA	NA	NA	NA
D1-29_00910	552			hypothetical protein	ATGAAAAAGATTCATACGTGGCTGGCAGTCATTCTGATGGCTGTCGGATTGGGTTTCGTGGCTCCGGGGCCCGCCTCGGCAACCACATCCTATTGCGGACTTGTTTGGGGGTCGCAGGCTGAATCAAAGTCAGCGATGAGCGCCGCATCAGTAACCAACGTTCGGACGGGGCAGCACTACTGCTTCGACCGGATGGTGGTTGATCTCAACGGCCCTGTGGCCGGCTACCATGTCCGCTACGTCGATGCCGTAAGACAGGACGGTTCCGGGCATACGGTTCCTCTGCGGGGGAGGGCGTTCCTCCAGGTCACTGTGACTGCGCCGTCCTACGACATCCAGACCGGTGGCGCTACGTACAGCCCGGCTAACCAAGCCGAACTGACCAACGTGGCGGGTTACCAGACCTTCCGTCAGGTAGCTTGGGCAGGCAGCTTTGAAGGCTCCACCGACATCGGCGTGGGTGTCCGCGCGCGGCTCCCGTTCCGGGTACTCACCCTGGACGGGCCGGGCTCCGGCTCCCGTTTGGTAGTGGACGTGGCGCACTTCTGGTGA	MKKIHTWLAVILMAVGLGFVAPGPASATTSYCGLVWGSQAESKSAMSAASVTNVRTGQHYCFDRMVVDLNGPVAGYHVRYVDAVRQDGSGHTVPLRGRAFLQVTVTAPSYDIQTGGATYSPANQAELTNVAGYQTFRQVAWAGSFEGSTDIGVGVRARLPFRVLTLDGPGSGSRLVVDVAHFW				NA	NA	NA	NA	NA
D1-29_00911	1569			hypothetical protein	ATGACCCACACCATCCGTAACAGCACCGCAACCGGAGTAGCCGCCGGCCCCGGGGCCGACGCCCCGGGCTCCGCCCACGGCATCAGCGCCAAAGGACTGAAGGGCGGCCAGCTGGGCCTCCTGGCCGTGGTGGTCCTTGGCATCTCCACCATCGCTCCCGCCTACACACTGACCAGCGCGCTGGGCCCCACCATCAATGAGGCCGGGCTCCAGTTGCCGGTCATCTTCCTGATCGGGTTCATCCCCATGATCCTGGTCTCGCTGGCCTACCGGGAACTCAACGCCGATTCCCCGGACAGCGGCACCACCTTCACCTGGGTCACCAAGGCCTTCGGCCCGTGGGTTGGCTGGATGGGCGGCTGGGGGCTCCTTGCCGCCAACATCATTGTGCTGTCCAACCTGGCCGCCGTGGCAGTGGACTTCTTCTACCTTTTCCTCTCCCAGCTCACCGGTTCACCAGAACTGGCCGAGCTCGCCGCCAACAAACCGCTCAACGTGCTGACCTGCTTTGTCTTCGTGGCCCTGGCGGTGTGGATCAGCTACCGCGGCATGCACACCACCAAACTGGTGCAGTACGGCCTGGTGGGATTCCAGCTGCTGGTCCTGGGCCTGTTCGTGGCCATGGCCTTCGCCAACTGGTCCACGTCCGAAACGGCCATCCCGTTCAGCTGGGAGTGGTTTGACGTCACCAAGATCGAGACGTTCGGCCAGATCGCGGCCGGCATCTCGCTCTCCATTTTTGTCTACTGGGGCTGGGATGTGTGCCTCACCGTGAACGAGGAAACCACCAACGGCAAGAAGACGGCTGGACTGGCCGGGACCCTGACCGCGGTCATCGTCCTGGGCATCTACCTGCTGATCAGCATCTCCACCATGATGTTCGCCGGCATCGGCGATACCGGCAACGGGCTCAGCAACCCCGATAACCAGGAAAACATCTTCACCGCACTGGCTTCCCCCATCATGGGACCGTTCGCCATCCTGATGTCGCTGGCGGTGTTGTCCAGCTCTGCCGCTTCGCTGCAGTCCACGTTCATGTCGCCGTCCCGCAGCCTGCTGGCCATGTCCCACTACGGCGCACTTCCCAAGCCGCTCAGCCGCCTGAGCAAACGCTTCGCGACGCCGCGCACCGCCATCATTGCCGCCGGCGTCCTGTCCGCAGGGTTCTACGCTGCCATGCACATCATCAGCGAGAACGTCCTGAATGACACCATCCTGGCGCTGGGCCTGATGATCTGCTTCTACTACGGACTCACCGCCATCGCCTGCGCCTGGTACTTCCGGAACAGCGTGTTCAGCAGCGTCCGCAACTTCACGCTTCGGCTGCTGTGCCCGCTGCTGGGCGGAGTCGGACTCTTTGTGGTGTTCATTCAGACCGCCGTAGACAGCCTGGCCCCGGAGTTCGGCAGCGGTTCCGAGGTGTTCGGTGTTGGCCTGGTCTTTGTCCTGGGCATCGGAATCCTGGCCCTCGGAGCGGTGTTTATGCTCATCATGGCCCGCCTGCGGCCGGGATTCTTCCGTGGCGAAACCATCCGCCGCGATACCCCCGCGCTGGTAGTGCCGGAGTAG	MTHTIRNSTATGVAAGPGADAPGSAHGISAKGLKGGQLGLLAVVVLGISTIAPAYTLTSALGPTINEAGLQLPVIFLIGFIPMILVSLAYRELNADSPDSGTTFTWVTKAFGPWVGWMGGWGLLAANIIVLSNLAAVAVDFFYLFLSQLTGSPELAELAANKPLNVLTCFVFVALAVWISYRGMHTTKLVQYGLVGFQLLVLGLFVAMAFANWSTSETAIPFSWEWFDVTKIETFGQIAAGISLSIFVYWGWDVCLTVNEETTNGKKTAGLAGTLTAVIVLGIYLLISISTMMFAGIGDTGNGLSNPDNQENIFTALASPIMGPFAILMSLAVLSSSAASLQSTFMSPSRSLLAMSHYGALPKPLSRLSKRFATPRTAIIAAGVLSAGFYAAMHIISENVLNDTILALGLMICFYYGLTAIACAWYFRNSVFSSVRNFTLRLLCPLLGGVGLFVVFIQTAVDSLAPEFGSGSEVFGVGLVFVLGIGILALGAVFMLIMARLRPGFFRGETIRRDTPALVVPE				NA	NA	NA	NA	NA
D1-29_00912	1041	aguA	COG2957	Putative agmatine deiminase	ATGAGCACCTGGCGCATGCCCGCTGAGACAGCCCCGCAGGAACGCCTCTGGATGGCCTTCCCAACCGGCGGCTACACGCTGGGCGATTCCGAGGAAGCCGCCCACGCCGCCCGGTCCACATGGGCTGCTGTCGCGAATGCCGCCGTCGAGTTCGAACCCGTCACCATGGTGGTAAACCCCGACGACGTCGACATCGCCGCCCGCTATCTGCATCAGGACATCGAGGTGCTCGTTGCTCCGCTCAACGATGCCTGGATGCGGGACATCGGCCCAACTTTTGTCCTTGACCAGCACGGGTGCCGCGGCGCCGTCGACTGGGTCTTCAACGGTTGGGGTGCACAGGATTGGGCGCGCTGGGACAAGGACGCCCTGATCGCCGCCGAAATTTCCGCCCGCTCTGGGTCCCACCACGTTGTTTCCCCACTGGTGAACGAGGGCGGCGGGTTGCAGGTGGACGGTGCGGGAACGGTGCTGGTCACCGAGACTGTTCAGCTGGACCCCGGACGCAACCCTGGCCTCAGCAAGGCCGATGTGGAAGCCGAACTGGCCCGCACGCTGGGCGCCACCCACGTCATCTGGCTCCCCCGCGGCCTGACCCGGGACTCGGAACGTTTCGGCACCCGCGGCCACGTGGACATCGTGGCAGCCATCCCCTCCCCCGGCACACTGCTGGTCCATTCGCAGCAGAATCCGGCACACCCTGACTTCGACGTCTGCCGGGACATCATCAGCTACCTGCGCACCACGCGCGACGCTGCAGGCCGAGAATGGGACATCGTGGAGGTTCCCGCGCCTGAGGCCCTCACAGACGACGAAGGCTTTGTGGACTACAGCTACATCAATCACGTGGCGGTCAACGGAGGGGTCATCGCCTGCAGCTTCAGCGACCCCAACGACGACAAGGCCCTCCAGATCCTGGCCGAGGCCTATCCCGGCCGCCGGATTGTCAGTATTGACGCACGGGAACTCTTCGCCCGCGGCGGCGGTATCCACTGCATCACCCAACAGCAGCCTGCTGCCCTCAAGAAAGTACGGACATGA	MSTWRMPAETAPQERLWMAFPTGGYTLGDSEEAAHAARSTWAAVANAAVEFEPVTMVVNPDDVDIAARYLHQDIEVLVAPLNDAWMRDIGPTFVLDQHGCRGAVDWVFNGWGAQDWARWDKDALIAAEISARSGSHHVVSPLVNEGGGLQVDGAGTVLVTETVQLDPGRNPGLSKADVEAELARTLGATHVIWLPRGLTRDSERFGTRGHVDIVAAIPSPGTLLVHSQQNPAHPDFDVCRDIISYLRTTRDAAGREWDIVEVPAPEALTDDEGFVDYSYINHVAVNGGVIACSFSDPNDDKALQILAEAYPGRRIVSIDARELFARGGGIHCITQQQPAALKKVRT				NA	NA	NA	NA	NA
D1-29_00913	1035			N-carbamoyl-D-amino acid hydrolase	ATGATTGAAATTTCCTGCCTTGATGCACCAGCCTCCCCTGCACGGACAGCGCCGTCCGATCGCCCCGCCCTCCGGGTGGGAGTGGTACAGCACCGCTGGAACGCAGACGACGCTGTCCTGCGCGCCGAACTCGACGAAGGCATCGGACGGGCCGCCAGGCTCGGAGCCACAGTGGTGTTCCTGCCTGAGCTGACGCTCTCGCGCTACCCGGCAGACACCCTGCCGGTCAATGACACTTCCCGGCCGGGAGTGGTACGGCCCAGGCCCTCAGACGCTGCCGAGGATCTGCTCACGGGACCCACCTTCCAGTTCGCTGCCGCTGCAGCACTCCGTCACGGCGTCTCTGTCCATGCCTCGCTCTATCAGCGCGCAGACAACCCGGACGGCTCGGATGACGGACTGGGCCTCAACACGGCCATCCTGGTCTCGCCTGAGGGCGAACTGCTGGCCCGCACACACAAGCTGCACATTCCCGTGACGGCCGGCTATTACGAGGACAAGTTCTTCCGTAAAGGTCCCGCAGCCGCTGACGCCTATGAGGTCCACTCGCCCGCAGAACTCAATGGCGCACGGCTGGGCATGCCCACCTGCTGGGACGAATGGTTCCCAGAAGTGGCCCGCCTTTACTCCCTCGGCGGGGCCGAAATCCTGGTCTACCCCACTGCCATTGGCTCTGAACCTGACCACCCGGACCTGGACACGCAGCCGCTGTGGCAGCAGGTGATCGTGGGCAACGGCATCGCCAACGGACTGTTTATGGTGGCGCCCAACCGCTGGGGCAATGAAGGAACACTGAGCTTTTACGGTTCCTCCTTCATCTCCGATCCGTACGGCCGGATCCTGGTCCAGGCGCCGCGCGACCAGTCCGCGGTGCTGGTGGCAGACCTTGACCTTGACCAGCGGCGGGATTGGCTGACGCTCTTCCCGTTCCTGGCCACACGGCGTCCGGACACGTATGGACGACTCACCGAACCCGTCCGCCCCGGCCAGCCCCTGGGCGGAGAAGCGCAGGCCTATCTGGAGGCAACAGCATGA	MIEISCLDAPASPARTAPSDRPALRVGVVQHRWNADDAVLRAELDEGIGRAARLGATVVFLPELTLSRYPADTLPVNDTSRPGVVRPRPSDAAEDLLTGPTFQFAAAAALRHGVSVHASLYQRADNPDGSDDGLGLNTAILVSPEGELLARTHKLHIPVTAGYYEDKFFRKGPAAADAYEVHSPAELNGARLGMPTCWDEWFPEVARLYSLGGAEILVYPTAIGSEPDHPDLDTQPLWQQVIVGNGIANGLFMVAPNRWGNEGTLSFYGSSFISDPYGRILVQAPRDQSAVLVADLDLDQRRDWLTLFPFLATRRPDTYGRLTEPVRPGQPLGGEAQAYLEATA				NA	NA	NA	NA	NA
D1-29_00914	480	dps2		DNA protection during starvation protein 2	ATGAAGGCTTCACCGACCCTGACCAATAACCTGCAGGCCGTACTCGCTGACCTGATTGAGCTGCACATCCAGGGCAAACAGGCCCACTGGAACATTGTGGGAACCAACTTCCGGGACCTCCATCTGCAGCTGGACGAAATCGTCGAAGCTGGCCGCCAGTTTGCGGACGACCTGGCCGAGCGCATGCGCGCACTGCACGCCCTCCCGGACGGCCGCAGCTCCACTGTGGCCGCGTCCACCAACCTTCCGGCGTTCCCCGAAGGGCTGATCAACACCAAGGATGCGATCGAGCGGACCGTGGCCGCCCTTGAGGCTGCTGTGGGCACTATGCGAAAGGTTCATGACGAAGTGGATGAGGAAGATCCCACTACTGCCGATCTCCTCCATGAGTTCATTGCCAGGCTTGAGCAGTTCACCTGGATGGTTAACGCGGAAACCATGAAGGCCACGGCCAGCGTCACGGCCCCGGACGCCCCATAG	MKASPTLTNNLQAVLADLIELHIQGKQAHWNIVGTNFRDLHLQLDEIVEAGRQFADDLAERMRALHALPDGRSSTVAASTNLPAFPEGLINTKDAIERTVAALEAAVGTMRKVHDEVDEEDPTTADLLHEFIARLEQFTWMVNAETMKATASVTAPDAP	PGPT0004055_2499	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047	NA	NA
D1-29_00915	1599	lfrA	COG0477	Multidrug efflux pump LfrA	ATGACCTCGTCCGCAACTTCCCTTCGGAACGCCCCCGAATCGTTGGCAAACCAGCTCCCCGCGACCTCCCGTACGCCCCGCCGGCCGGGACCGAAAGCACCATGGCGCGACTGGCTTGCCCTGGGCCTGCTGATGTTCCCCGTGCTGCTGGTCGCGGTGGACAACACGGCCCTTACGTTCGCCCTCCCGGCGATTGCGCGCAGCCTGGAAACCACGGGGGTCCAGCTCCTGTGGATCGTTGACGCCTATCCGCTGGTGCTCGCCGGCCTGCTGGTGGCCATGGGAAGCCTGGGTGACAGGGTCGGACGCCGCCGGCTGCTGCTGGTCGGCAGTATCGGGTTCGCCTTGGTGTCAGCCGCAACAGCCTTCGCCCCCAGCGCCGAGTGGCTTATTGCCGGCCGGGCAGCGCTGGGATTCTTTGGTGCCATGCTGATGCCGTCCACCTTGTCGCTGATCCGCAACATCTTTCCGGATCCCAACCGCCGCCGGCTGGCGATCGCCATCTGGGCAGCAGGATTCTCCGGTGGCGCAGCCCTGGGACCCATCTTTGGCGGCTGGCTGGTGGAACAGTTCTGGTGGGGCGCGGTGCTCCTGGTTGCCGTGCCCATCATGCTTCCGCTGCTGGCGTTCGGCCCCGCCTTCATCCCCGAATCACGGGATCCCCGGCCCGGCCGGGTGGACGTCCCCAGCATGCTGCTGTCCCTGCTGGTCATGGTCCCTGTGGTCTATGGCATCAAGGAGGTGGCCACCGAGGGCTTCGGCATCATGCCACTGGCCGCCGTCACCTTCGGTGTGGCCATGGGATTCGTTTTTGTCCGCCGCCAGCAATGGCTGGCCAACCCGCTGCTGGACATGTCCCTATTCAGCAACAGGGTCTTCAGCACGGCCATCTCCGCGAACGTGCTGGCACTGTTTTCCTTCAACGGCTTTATCCTGTTCCTGGCCCAGCATCTCCAGCTTTTGGAAGGGATGTCACCGTCTGCCGCGGGCATTGCCATGATTCCGGCGCTGCTCGCCACCGTGACGGCCGGGCTGGTGGCAGTACCGCTGGTCCGCCGGATACGGCCGGGCTTCGTGGTTGCGGGCGGCCTCTCCCTGAGTGCCGGCGGCTACCTTGTGGTCACCGTCGGCGATCATAGTGCCGGACCGGCCCTCCTGCTGGGCGCGCTGTTCATCCTGGCATTGGGCGTTGGGACCGCCGAAACCATCTCCAACGACCTCATCCTGGGTTCCGCGCCGGCCGAAAAATCCGGGGCCGCCGCCGCCATCTCCGAAACAGGCTATGAGGTGGGGTCAGTGCTGGGAACAGCAATCCTGGGCTCAATTCTGACGGCGTCCTACCAGCAGAACCTCAGGCTTCCGGCAGGACTGAGCGAAGCCGCATCCCACACAGCCACGGACAGGGCCGGGGAAACCTTGGCCGGTGCCATGGAACTGGCCGGCAGCCTCCCGGGACCGCTTGCCACAGCCGTACGGGAAGCGTCCAGGGCGGCTTTCGATTCCGGCGTCCACATCACGGCAGCCATCGCGCTGGTACTGATGGCAGCAGCGGCGGTCCTTGCCGCCGTCGTGCTCCGAAAAGTTCCGACGGCGCGCTAG	MTSSATSLRNAPESLANQLPATSRTPRRPGPKAPWRDWLALGLLMFPVLLVAVDNTALTFALPAIARSLETTGVQLLWIVDAYPLVLAGLLVAMGSLGDRVGRRRLLLVGSIGFALVSAATAFAPSAEWLIAGRAALGFFGAMLMPSTLSLIRNIFPDPNRRRLAIAIWAAGFSGGAALGPIFGGWLVEQFWWGAVLLVAVPIMLPLLAFGPAFIPESRDPRPGRVDVPSMLLSLLVMVPVVYGIKEVATEGFGIMPLAAVTFGVAMGFVFVRRQQWLANPLLDMSLFSNRVFSTAISANVLALFSFNGFILFLAQHLQLLEGMSPSAAGIAMIPALLATVTAGLVAVPLVRRIRPGFVVAGGLSLSAGGYLVVTVGDHSAGPALLLGALFILALGVGTAETISNDLILGSAPAEKSGAAAAISETGYEVGSVLGTAILGSILTASYQQNLRLPAGLSEAASHTATDRAGETLAGAMELAGSLPGPLATAVREASRAAFDSGVHITAAIALVLMAAAAVLAAVVLRKVPTAR	PGPT0028045_313	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
D1-29_00916	549			hypothetical protein	ATGATTGAAGCCATGGCCAGAAAACCCGTAGCCCGCGAGGCTGTTCTCGATGCTTTTGAATCCCTGCTGATTGAGGTGGGCGAGCGGGCCGCCACCCTTGATGCGGTAGCTAAGCGCGCGGGAGTCTCCAAGGGCGGGTTGCTGTATCACTTTCCGAACAAGGAAGCCCTGATTGAGGTGCTGCTGGACAGGCTGGATGAGCTGGCAGCCGCCGACGCCGACGCCATGGCCACCGCGGAGGAGGGAGCGGCCGCGTACTTCATCAGGTCTTCCGTCTGGGCAGATACACCCCTGGACCGTGCCATTGTTGCTGCCACCAGGCTCGCCGAGGTGGCCCATGAGGAAACTCGTGAGCGCTTCGCGGCAATCCAGCAGCGCTGGCTCCGGGAGATTGCTGCCGACGTTGGCACGGCCATGGCCAAACCGGTGCTGTATATGGGTGACGGCCTGTACTTCAACGCCATGCTTTCCGTGGGGCCGGTTCCTACCCAAGAGACGGCGGCCGACGTCGCCGGCCTGCTGGCAGCGCTGGACCGGCTCCGCAGTTGA	MIEAMARKPVAREAVLDAFESLLIEVGERAATLDAVAKRAGVSKGGLLYHFPNKEALIEVLLDRLDELAAADADAMATAEEGAAAYFIRSSVWADTPLDRAIVAATRLAEVAHEETRERFAAIQQRWLREIAADVGTAMAKPVLYMGDGLYFNAMLSVGPVPTQETAADVAGLLAALDRLRS				NA	NA	NA	NA	NA
D1-29_00918	2916	gcvP_1	COG0403	putative glycine dehydrogenase (decarboxylating)	GTGACTGTTTCTCCGGCCTCCGCCACTCCGGCCCCCACTGCCCAGGCCCCGGCTACCACCGCCCCCGCCCCGACCTTCCCGGCCGCTGCATCCTTTGTTGACCGGCACATCGGCTCACGCCGCCAGGACGACGTCGACGCCATGCTCAAGGCTGTTGGCTATGACTCCGTGGATGCACTCGTGGACACCGCAGTCCCCAAGGACATCCGCCAGGACTCTCCACTGGAGCTCACCCAGGCCCTGAGCGAGGTGGAAGCCCTCGCCGAATTGCGGAGGCTCGCGGCCAAGAACAAGACCGCCGTGCAGATGATCGGCCAGGGGTATTACGACACCGTGACGCCGCCGGTGATCCGCCGCAACATCCTCGAAGGCCCGGCCTGGTACACCGCGTACACGCCATACCAGCCGGAAATTTCCCAGGGCCGGCTCGAGGCGCTGCTGAACTTCCAGACCATGGTGCAGGACCTCGTGGGCCTGCCCATCGCCAACGCGTCCCTGCTGGATGAAGCCACCGCCGTGGCCGAAGCGGTGCTGATGATGCGCCGGGCAAACAAAAATAAGGACGCCCGTGATGGGAAAACCGTCCTGGATGCCGACTGCCTTCCACAGACCATCGCCATTGTGAAAGGCCGGGCCGAGGCGCTGGGATTCGAGGTCCAGGTGGCTGACCTCTCCAAGGGACTTCCCGACGGCGTGATCAACGGCGTGGTGCTCCAGCAGCCCGGCGTCTCCGGCCGGGTTTTCGACCACACCTCCGTCATTGCCGACGCCAAGGAACGCGGCGCGCTGGTAACAGTGGCTGCCGACCTCCTGGCCCTGACACTCATCACCCCTCCCGGTGAGCAGGGGGCCGACATCGCCGTCGGCTCCGCGCAGCGGTTCGGCGTCCCCCTCTTCTACGGCGGACCGCACGCCGCCTACATGGCCGTGCAGAAGGGCCTTGAGCGTTCCATGCCCGGCCGCCTGGTGGGCGTCTCGAAGGACAACGCCGGCGTCCCCGCGTACCGCCTTGCCCTTCAGACCCGCGAGCAGCACATCCGCCGCGAGAAGGCCACCTCCAACATCTGCACAGCCCAGGCGCTGCTGGCCATCGTGGCCTCCATGTACGCCGTTTACCATGGACCGGAAGGGCTCAAGGCGATCGCCCAGGCCGCGCACGCCCACGCCAGGACCCTTGCAGGATCGCTGAACGCAGCCGGGCTTGACGTCCTCCACACAAGCTTCTTCGACACCGTCACGGTTTCCGTGCCCGGCAAGGCAGCTGGAATTGTTGCCGCGGCAGAAGCCAAGGGCATCAACCTTCGCGGCATCGATGCCGACAGAGTGGGCTTCTCCACGGATGAAACCACGACGCCGGAAATCGTCGCCCAGGTGCTGGAGGCTTTCGGTGTTTTGGCCACCGCCGGCGGCAACGCAGCCTTCGCGCTGGACCCCGCCGTCGAACGTTCTTCCGGGTACCTGCAGCACCCGGTGTTCAGCACCCACCGCTCCGAGACGCAGCTGCTTCGCTACATCCGCAAGCTGTCCGACCGGGACCTGGCGCTGGACCGCACCATGATCCCGCTGGGTTCCTGCACCATGAAGCTGAACGCAACGGCCGAGATGGAGGCCATTTCCTGGCCGGAGTTCGCCTCCATCCACCCCTTCGCCCCCGACTCCCAGACCGAGGGCTGGCGCGAACTGATCGCGGACCTGGAAGCCCAGCTGACCGAGATCACCGGCTACGACCAGGTGTCCATCCAGCCGAATGCCGGTTCCCAGGGTGAGCTGGCCGGCCTCCTGGCCATACGCGGCTACCACCTGTCCCGGGGCGATGACCAGCGCAATGTGTGCCTGATTCCCGCGTCGGCGCACGGCACCAACGCAGCCTCAGCCGTTCTGGCGGGTATGAAGGTGGTAGTGGTGGCCACCGCAGCGGACGGCACCATCGACCACACCGATCTTTACGCGAAGATCGACGCCAACAAGGATGCGCTGTCCTGCATCATGATCACCTACCCGTCCACGCACGGTGTGTACGACGCCGACGTCCGCGAGGTGTGCGACGCTGTTCACGCTGCCGGCGGCCAGGTGTACATCGACGGTGCCAACCTGAACGCGCTGGTCGGACTGGCCCAGCCGGGCAAGTTCGGCGGCGACGTTTCGCACCTGAACCTGCACAAGACCTTCTGCATCCCGCATGGCGGCGGCGGACCCGGCGTGGGCCCGGTCGCAGCGAAGGCGCACCTGGCGCCCTTCATGCCGGGCAACGCGGCAACCTGGACCGAAGGCAACGACGTCCCCATTTCGGCGTCCAAGTACGGCTCCGCCGGCGTCCTTCCCATCTCCTGGGCGTACGTCAAGCTGATGGGTGGCCAGGGCCTGACCGAGGCCACGAAGTCGGCGCTCCTTGCTGCCAACTACATCGCTGCCCGCCTCAACGACTTCTTCCCCGTGCTCTACACAGGAGAAGGCGGTCTGGTGGCGCACGAATGCATCCTTGACCTGCGCGACCTGACTGCAAGGACGGGCGTGACAGCGGAGGACGTGGCCAAGCGCCTCATCGACTACGGCTTCCACGCCCCCACCCTGGCATTCCCCGTCGCCGGCACACTCATGGTGGAGCCCACGGAGTCCGAGGACCTCGGCGAGATGGACCGGTTCATCGACGCGATGATCTCGATCCGCGCGGAAATCGACCAGGTGGCCAACGGCGACTTCACCGTCGCGGACAGCCCGCTGCGCAATGCCCCGCACACCGCCGCCGCTGCCATCAGCAGCGACTGGGACCGTGCCTACCCGCGCGAACAGGCAGTCTTCCCGGTCCACACCCTCAAGCAGGACAAGTACTTCCCGCCCGTTGGCCGCATCGACGGCGCCGCCGGGGACCGGAACCTGATCTGCTCCTGCCCGCCGCTTTCCGAGTTTGAAAACTAA	MTVSPASATPAPTAQAPATTAPAPTFPAAASFVDRHIGSRRQDDVDAMLKAVGYDSVDALVDTAVPKDIRQDSPLELTQALSEVEALAELRRLAAKNKTAVQMIGQGYYDTVTPPVIRRNILEGPAWYTAYTPYQPEISQGRLEALLNFQTMVQDLVGLPIANASLLDEATAVAEAVLMMRRANKNKDARDGKTVLDADCLPQTIAIVKGRAEALGFEVQVADLSKGLPDGVINGVVLQQPGVSGRVFDHTSVIADAKERGALVTVAADLLALTLITPPGEQGADIAVGSAQRFGVPLFYGGPHAAYMAVQKGLERSMPGRLVGVSKDNAGVPAYRLALQTREQHIRREKATSNICTAQALLAIVASMYAVYHGPEGLKAIAQAAHAHARTLAGSLNAAGLDVLHTSFFDTVTVSVPGKAAGIVAAAEAKGINLRGIDADRVGFSTDETTTPEIVAQVLEAFGVLATAGGNAAFALDPAVERSSGYLQHPVFSTHRSETQLLRYIRKLSDRDLALDRTMIPLGSCTMKLNATAEMEAISWPEFASIHPFAPDSQTEGWRELIADLEAQLTEITGYDQVSIQPNAGSQGELAGLLAIRGYHLSRGDDQRNVCLIPASAHGTNAASAVLAGMKVVVVATAADGTIDHTDLYAKIDANKDALSCIMITYPSTHGVYDADVREVCDAVHAAGGQVYIDGANLNALVGLAQPGKFGGDVSHLNLHKTFCIPHGGGGPGVGPVAAKAHLAPFMPGNAATWTEGNDVPISASKYGSAGVLPISWAYVKLMGGQGLTEATKSALLAANYIAARLNDFFPVLYTGEGGLVAHECILDLRDLTARTGVTAEDVAKRLIDYGFHAPTLAFPVAGTLMVEPTESEDLGEMDRFIDAMISIRAEIDQVANGDFTVADSPLRNAPHTAAAAISSDWDRAYPREQAVFPVHTLKQDKYFPPVGRIDGAAGDRNLICSCPPLSEFEN	PGPT0020480_1168	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020480-gcvP-K00281	NA	NA
D1-29_00919	1149	gcvT_1	COG0404	Aminomethyltransferase	GTGACTGAGAACTACACAGCGCTCTACGAAGAGCACAAGAAACTCGGCGCCTCCTTCACCGACTTCGGTGGCTGGCAGATGCCGCTCAAGTACAGCTCGGAGCTGGCGGAGCACCACGCGGTCCGCAAGGCAGCAGGGATCTTTGACCTGTCCCACATGGGCGAAGTCTGGGTCACCGGCCCCGACGCCGCCGCGTTCCTGGACTACGCGCTGGTGGGCAAGATCTCCGCAATGGCCGTGGGTAAAGCCAAGTATTCGCTGATCTGCAATGAAGCCGGCGGCATCATCGATGACCTCATCATCTACCGCCGCCCTGTCGCTGAAGACGGCACCGACGTATTCCTGGTTGTTCCCAACGCCGGCAACGCCAAAACGGTGGCGACAGAACTTGCTGACCGCACAGCGAACTTCAATGTTGTGGTGGAGGACGCCTCCGCGGACACCTCCCTGATCGCCGTCCAGGGCCCCAAAGCGGAGGAGCTCCTGCTCCGCCTCGTCCCCGCCGCCCAGCACAGCCTGGTCACCGGGCTCAAGTACTACGCCGCCGTCGAAGTTCCCTTCCTCGTGGCCGGAGCCGGCCAGGACCTCCTGCTGGCCCGCACCGGCTACACCGGTGAGGACGGATTCGAGATCTTCATCAATAACGACGACGCCGCCGCACTCTGGCAGGCCATCGTCGCCATTGCGGACGAAGGGGAACTGGTACCCGCCGGCCTTGCCTCCCGCGATTCCCTCCGCCTCGAAGCGGGCATGCCCCTCTACGGCAATGAACTGTCCCTCGACGGCGACCCCTTCGCCGCCGGGCTGGGACAGGTGGTCGCGCTCTCCAAGGAAGGCGACTTTGTGGGCAAGGCCGCCCTCGCAGCCATGAAGGAAGCCGGCGCCGGCAGCACCACCGGCCGCCGGCTGGTTGGACTCAAGGGCCTGGGACGCCGCGCCGGCCGGGGACACTACCCGGTCCTCAAAGACGGCGCCGTGGTGGGCGAAGTGACCTCCGGCCAGCCGTCACCCAGCCTTGGCTACCCCGTGGCCATGGCCTACGTGGACATCGAGCACAGCGAAATCGGCACCACCTTGGACATCGACCTCCGCGGCAAGGCAGAGCCGTTCGAAGTCGTGGGACTGCCGTTCTACAAGCGCCAAAAGTAG	MTENYTALYEEHKKLGASFTDFGGWQMPLKYSSELAEHHAVRKAAGIFDLSHMGEVWVTGPDAAAFLDYALVGKISAMAVGKAKYSLICNEAGGIIDDLIIYRRPVAEDGTDVFLVVPNAGNAKTVATELADRTANFNVVVEDASADTSLIAVQGPKAEELLLRLVPAAQHSLVTGLKYYAAVEVPFLVAGAGQDLLLARTGYTGEDGFEIFINNDDAAALWQAIVAIADEGELVPAGLASRDSLRLEAGMPLYGNELSLDGDPFAAGLGQVVALSKEGDFVGKAALAAMKEAGAGSTTGRRLVGLKGLGRRAGRGHYPVLKDGAVVGEVTSGQPSPSLGYPVAMAYVDIEHSEIGTTLDIDLRGKAEPFEVVGLPFYKRQK	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
D1-29_00920	384	gcvH_1	COG0509	Glycine cleavage system H protein	ATGGCAAAAGTTGCCGCTGAGCTGCAGTACTCCGACGAGCACGAGTGGGTGGCCCGTGAGGGTGGCAACCTTGTGGCGATCGGGATTTCCGCCGTCGCCACTGATGCCCTCGGTGACATCGTGTACGTGGACCTGCCGGAGGTCGGCTCGGCCGTGACGGCGGGGGAAACATGCGGTGAAGTTGAGTCCACCAAGTCCGTCTCGGACCTGTATGCCCCGGTGACCGGGGAAGTTACGGAAATCAATCCCGCCGTCGTCGATGACCCTGCGCTGATCAACAGCGACCCCTACGGCGCCGGCTGGCTCTTCAAAGTCGCCACAGAGTCTGAGGGCCCGCTCCTTTCCGCCCAGGACTACGCTTCCAAAAACGGCGGCGAACTGTGA	MAKVAAELQYSDEHEWVAREGGNLVAIGISAVATDALGDIVYVDLPEVGSAVTAGETCGEVESTKSVSDLYAPVTGEVTEINPAVVDDPALINSDPYGAGWLFKVATESEGPLLSAQDYASKNGGEL				NA	NA	NA	NA	NA
D1-29_00921	1410	sdaA_1	COG1760	L-serine dehydratase	ATGGCCGTTGGAGTCTTTGACCTTTTTTCCATCGGAATAGGACCCTCAAGTTCCCACACGGTGGGCCCGATGCGCGCCGCTGCGGTTTTCGCCGGCGAGCTCAAATCCTCCGGGGTACTGGACCGCGTGGCCGGCCTCCGCGTGGATCTATATGGTTCGCTGGCCGCCACCGGGCATGGCCACGGCACCATGACAGCCATCCTCCTGGGGCTGGAGGGATTCCATCCCGAGCTGATCCTGCCCGATGAGGTGGAGGAACGGCTGGCGACCATCGCCGAGACCGGGATACTGCAGTTGGCCGGCGCTGATGGACACGGTGTCCCCCTTCCTTATGGGGTGCAGGACATGGTGCTGCGGCCGCTGACCATCCTGCCGAGGCACACCAACGGACTGACATTCACCGTCTCCGAGGCCGGGGGCGACGTCCTGCACACGGCCACGTTCTACTCCGTGGGCGGCGGGTTCATCGTCCGTGAAGGCGAGGAGGACGCTGCACAGCAGGAACTCGAAGAGTCCAAGAAGGAGCTTCCGCTGCCGTTCAGGACAGCCGCTGAGCTGCTGGGGCACTGCCAGTCCAAGGGCCTGTCCATCGGCGAAGTCATGCTCGTCAACGAGCAGGCCTCCCGGTCCGAGGAGGAGATCCGCGAGGGCCTGCTCCATATCTACTCGGTGATGGAAAGCTGCGTCCAGGTCAGCCTTAGGCGCGAGGGCCTGCTGCCGGGCGGGCTAAAGGTCCGCCGCCGCGCGCCGGACTGGCATGAACGCCTTCTGAAGGAAGATAAGGACCGTGATCCCAAATACTGGCAGGAGTGGGTGAACCTGGTCGCCCTTGCGGTCAACGAGGAGAACGCCTCCGGCGGGAGGGTGGTCACCGCGCCAACCAACGGTGCGGCGGGCATCATTCCGGCCGTGCTGTATTACGCCCTGCATTTCGCGCCGGGGATGGAGAACGCCAGCCAGCAGGACCGCGATGACGTTGTGGTGAAGTTCCTGCTCACGGCCGGTGCCATCGGGGTCCTGTACAAGGAGCAGGCGTCCATCTCCGGCGCCGAGGTGGGCTGCCAGGGTGAGGTGGGCTCGGCGTCGTCCATGGCCGCTGCAGGCCTGGCCGAGGTGATGGGCGGGACCCCCGCCCAAGTGGAGAACGCCGCGGAAATCGCCATGGAGCACAACCTGGGCCTGACCTGCGATCCGATCGGTGGGCTGGTCCAGGTGCCCTGCATCGAACGCAACGCCATCGCAGCCGCCAAGGCGATCAACGCCGCCAAGATGGCACTCTGGGGCGACGGTTCGCACCGGGTATCGCTCGACGAGGTCATCATCACCATGCGCGAGACCGGCAAGGACATGAGCTCCAAATACAAGGAAACAGCCATGGGCGGCCTTGCCGTGAATGTTGTGGAGTGCTGA	MAVGVFDLFSIGIGPSSSHTVGPMRAAAVFAGELKSSGVLDRVAGLRVDLYGSLAATGHGHGTMTAILLGLEGFHPELILPDEVEERLATIAETGILQLAGADGHGVPLPYGVQDMVLRPLTILPRHTNGLTFTVSEAGGDVLHTATFYSVGGGFIVREGEEDAAQQELEESKKELPLPFRTAAELLGHCQSKGLSIGEVMLVNEQASRSEEEIREGLLHIYSVMESCVQVSLRREGLLPGGLKVRRRAPDWHERLLKEDKDRDPKYWQEWVNLVALAVNEENASGGRVVTAPTNGAAGIIPAVLYYALHFAPGMENASQQDRDDVVVKFLLTAGAIGVLYKEQASISGAEVGCQGEVGSASSMAAAGLAEVMGGTPAQVENAAEIAMEHNLGLTCDPIGGLVQVPCIERNAIAAAKAINAAKMALWGDGSHRVSLDEVIITMRETGKDMSSKYKETAMGGLAVNVVEC	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
D1-29_00922	561	crtK-2	COG3476	Tryptophan-rich protein TspO	ATGCAGTCCCCTTCCGGTAAATCTCCGGCCCCAAGCCAGCCGCCGGCTGCACAGCAGGAAACGCCTGAACGGGGAACTGCGGCCCAACTCCTGATGCTCCTGCTCTTCCTAGGCACTTCAGCTGCCGTGGCCGGCCTGGGCAGCCTGGCCGTCACGGCGAACGTCGACGGCTGGTTCGCCGCTGCCAATATGCCTCCCTGGACTCCGCCGCGGTGGATGTTCGGTACCGTCTGGACGGTCCTCTATGCCGCCATGGCAGTGGCGGCGTGGCTCGTCTGGCGGAGCGGGAAAAGCCTCACCAGCAGGCCGCTGAAACTGTACTGGCTGCAGCTCGCCTTGAACCTGGCCTGGACACCGATCTTCTTCGGCCTCTACCCCGTGCTGGGGCCGCTGGCTCTGTGGCTTGGGCTGGCGGTCATCGTGGCCTTGATTGTGGCGCTGACCTTTGCGGTTCTGAATTTTGGCCCCATCAGCACCTCCGCCGGCCTCCTGCTGCTGCCTTACCTGTCCTGGGTAATCTTTTCCGGGACCCTTAACGCCTGGGCCGCCGCACATAACTGA	MQSPSGKSPAPSQPPAAQQETPERGTAAQLLMLLLFLGTSAAVAGLGSLAVTANVDGWFAAANMPPWTPPRWMFGTVWTVLYAAMAVAAWLVWRSGKSLTSRPLKLYWLQLALNLAWTPIFFGLYPVLGPLALWLGLAVIVALIVALTFAVLNFGPISTSAGLLLLPYLSWVIFSGTLNAWAAAHN	PGPT0014330_381	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014330-ytaB-K05770	NA	NA
D1-29_00923	1074			hypothetical protein	TTGCGAGAATTTACCGCCCGCTTTGCCACAGCCGAGGAAATTGAGAACTGGGACAAGCACGTCACGGCCAACCCGAACGGCGGCAACATGTTGCAGTCGGCGGCCTACGCGTCGGTGAAGAACGGCCAAGGCTGGAAGGTCCGTTTCCTGGTCCTGGAATCCGGGGGAACTGCCAGCTACAACTTGGTTCTGGAGAAGAAGTTTCCCGTCCTGGGCCGCCTCTGGTACCTCATCAAGGGGCCCGATCTGGCCGCGCTTGAGGACCTCAAGCCGGCACTGGACGCCTGCGCTTCGTTGGCCCGGAACCGGAAATTCAACGTCTTCGCGGTCAAGGTCGAGCCGGACATCACCGCCACTGCCGAAACCCAGGCACACTTTGCCGCCGCGGGCTTCATTAAGGCACCGAACATCCAGTCCAACGACTCCACAGCCCTGCTTGACATCGCTGCGCCGGAGAATGAGGTGCTCCGTGCCATCACCTCACGCGCACGCAACGCCATCCGCCGCGCCGAACGCGAAGGCTGCGAAGTGGTGCAGCGCGACCAGGGCGCCGAAACGTACCGCGCCCTCTACGACCTGATGGCGGACACCGTCAAGGCCAAGGGATCGATGCCCTTGCGCAGCTTCGAGTACTACTCCCGGTTCTGGGACGAATTCTGCAACCGCGGCCAGGGGAACTTCTTCTTTGTCTATGAGGACGGGAAGCCGAGCGTGGGCGCCTTTGTGATCAATTACGGCTCCAAGGCGACGTACAAGGACGGCGGGTCCACGCAGAACCGCAAGCAGTACGGTGATTCGCATCTGGTGCAGTGGGCAGCCATCCGCCGGATGAAGGAACTGGGCTGCACGGAGTACGACTTCTGTGGCACGCCGCCGGCAGCCAGGATCAAGGACAAGTCCCACCCGCTGTACGGCATGGGCATGTTCAAGACCAGCTTCACCAAGACAGTCACCGATTTTGTGGGCTGCTACGACTACATCCTTTCGCCCGTCAGGCACGCCATGTGGGTCAAGGGCGCCGAACGCATTTTCCGGCGGCTGGAAACCATGCGCACCGGCGGCCAGTTCTACTGA	MREFTARFATAEEIENWDKHVTANPNGGNMLQSAAYASVKNGQGWKVRFLVLESGGTASYNLVLEKKFPVLGRLWYLIKGPDLAALEDLKPALDACASLARNRKFNVFAVKVEPDITATAETQAHFAAAGFIKAPNIQSNDSTALLDIAAPENEVLRAITSRARNAIRRAEREGCEVVQRDQGAETYRALYDLMADTVKAKGSMPLRSFEYYSRFWDEFCNRGQGNFFFVYEDGKPSVGAFVINYGSKATYKDGGSTQNRKQYGDSHLVQWAAIRRMKELGCTEYDFCGTPPAARIKDKSHPLYGMGMFKTSFTKTVTDFVGCYDYILSPVRHAMWVKGAERIFRRLETMRTGGQFY	PGPT0023735_177	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-REGULATION_FACTOR,PGPT0023735-murM-K05363	NA	NA
D1-29_00924	1317	femA		Aminoacyltransferase FemA	GTGAATCCAATCAAGGCCGGAACGGACCTCGAATTTGCCGTCCTGAGCGACGCCGAATATGAGTCCTTTTCCGTGCAGCACCCGCAAAACAGCTTCATCCAGTCCGCAGGTTTCGCCCGTTTCCAGCGCGCCCGCGGACAAGTCGTGGAGCTCGTCGGCTTCAGGCGCAACGGGGAACTCGTGGCGGCCGGGAAACTGAATTACACCAGAAACCGCTGGGGTTACACGGTCTGCGAGTGCGCAAAAGGCCCCCTCCTGGACTACACGGACGCTGACCTGGTGAGCTCCGTCGTCGAACTCCTTAAAACACGGGCCGCAGACCGTAAGGCCGCGGAGCTGAGGATCTCGCCGAACCTGGTGTACGTTGCCCGGGACGAGGACGGCGCAGAGCACCCGGAAATCCTCGACAACCGCCCCCTGGTGGCGGAACTGGACAGGCTGGGCTTTGAGCACCAGGGCTCGGACATGAACTTCGCGAACGTCAACTGGATGTTCGTCAAAAAGCTCGAGGGCATCAAGGACGCCGAGGAGCTCATCATGAGCACCAGCTACCGGACGCGCAAAGCCATCCGGAAGGCGGAGAAGAACGGAGTCTTCCTGGAGCAGGCAACCCTGGAAACCCTGGATGAGTTCTACGACGCGTTGAGCACGGCGGGGGATGAAAAGGGCTTCATCTACCGTGAACGCGAATACTACGAGCACCTCCTGCGGACCACTTCGTCAGAGTTCACCAAGCTCATGATGGCCAAAATCGACATCCCCGGCTACCGCAAATCCATCACCGAACGGCTGGAAGCCGAGTCGGCAACCGCGGCCGAGCTGCGCCGCGAGGTTGAGGAAACCGGCAGCAAAAAGAAGGCCAACAGGCTCAAGGTGGTCCAGGACCTCGTGGACAGCTACGAGCGCAGCCTTAAGGACATCGAGCGTTTCCCCGACTCCGTTGGCGTGGTAACCGTGGCGGCCATCCATTTTGTCTGCTTTGGCGACGAGGTGGTCTGTGTCATCGGCGGCACCAAACAGGATTACATCTACTTCAACGGTGCCACGTCCCTGTACTGGGGCATGATGCTGCACGCGCTGGAGAAGGGGTACTCCCGTTACAACTTCTACGGAACCTTCGGTATCGAAGGCCAGGACGAGGAGGGCCACGGTGGCTACGCCTTCAAGAAGGGCTTCGGCGGAGAGGTGGTCCAGCTCCTGGGCGACTTTGTGATGCCGGTCCGGCCAGCCATGTTCCAGGCCAACCGCCTGGTCAGGGCCGCAACCTCCGCCGCCCGCCTGGTTCTCGGCAAGCTTCCCCTCAAACGGACTGCTTAG	MNPIKAGTDLEFAVLSDAEYESFSVQHPQNSFIQSAGFARFQRARGQVVELVGFRRNGELVAAGKLNYTRNRWGYTVCECAKGPLLDYTDADLVSSVVELLKTRAADRKAAELRISPNLVYVARDEDGAEHPEILDNRPLVAELDRLGFEHQGSDMNFANVNWMFVKKLEGIKDAEELIMSTSYRTRKAIRKAEKNGVFLEQATLETLDEFYDALSTAGDEKGFIYREREYYEHLLRTTSSEFTKLMMAKIDIPGYRKSITERLEAESATAAELRREVEETGSKKKANRLKVVQDLVDSYERSLKDIERFPDSVGVVTVAAIHFVCFGDEVVCVIGGTKQDYIYFNGATSLYWGMMLHALEKGYSRYNFYGTFGIEGQDEEGHGGYAFKKGFGGEVVQLLGDFVMPVRPAMFQANRLVRAATSAARLVLGKLPLKRTA	PGPT0023740_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-AMINO_ACID_ADDING,PGPT0023740-murN-K12554	NA	NA
D1-29_00925	1488			hypothetical protein	ATGACCCATCGACCTGAAAAGCCCGGGACCAGGCCACACACCGACGGCCTGCCCAAGACCGAGCCGCTTTCGCCTTCACAGCTCCGCCAGAATGCCGCAGCCAAGAGGATGCTGCGCCGCCTGGTCCAGGGGGAGAACCCGCCGACGGCGCCCCTGAGCATTGTGGACAGGCTCACCGGGAGCCCCTACGCCAACCCAATGATCCAGGTGGGAGGCGTGGATACGTCCGCGCGCAAGACCCTGGATTTCGCCCTCCACCTGGCCGAGACCATGTTCCGCTATGGGGCAGGTGCCTTGGAAGTGGAAACCAGCATCATCGCCGTCACCGCCGCGCTGGGGCTGAAGAACATCGAGGTGGACATCACCAACCAGTCGGTGGCCATCAACTACGCTCCCAAGGACCAGACGCCCATAGCGCTGTTGCGCGTGGTCCGGTCCTGGACCAACAACTACGCCGGGCTGGCCAAGGTGCACCAGCTGGTGACCGATATTGTGGCCGGGGGAGTGGGCCGGGACGAGGCGATCCGGCGGCTGGACGAGGCCATCACCAGCCCCAAACCGTTCCCGCGCTGGATGGTCACCATTGCCTTTGGAGTGTTCGCAGCGGTCTTTGTGGGTGTTCTTGGCGGTGGCCCTGTTTCCTCGCTCATCGCTTTCCTCTCCAACATCGGCGTGAGCCTCCTGGCCCGCAAGCTGGGGCGCCTTCGAATGCCTGATTTCTTTATCACCGCAACATGTTCTTTCGTGGTGACGTTCGTGGCGCTTCTGCTCTGGCGGTTCGGGCTGACCAACTCACCGGCGATCGTGGTGGTTGGCGGCATCCTTTTGCTCCTCCCCACCGGTCGACTGGTCTCTTCCGTCCAGGACGCCATCAACGGCTTCCCTGTGACAGCCGCGGGGCGGTTCCTGTCCACGATCCTGACGTTCGGGGCGCTGGTGGCAGGGATCGCCGTCGCGTTTGTGGTGGGGTCTAAGACCGGGATGAAGGAGATCGATGTCACCGAGACCTTCCCGCCGGCCTACGACCTGTGGGTCCTGGTCGTTTTCATCGCCTTGGCGGTGATGGCCATCGGCATCACCGAGCAGACCACGTGGAAGCTGTTGCTCCCAACAGCAGCCGTCGGCGTTGCAGGCTACCTGGTCCTGCTCGGCGGGGGCGCGCTGGGCCTGGGTGACAGGTTCTCGCCTGCGCTCTCCGCCGTGGTGATCGGTTTCCTGGCGCGGGTGGTGGCCTTGAAGATGGGCGCCCCTCAGCTGGTGGTGGCCGTTCCCGCGGCGCTGATCCTGCTGCCTGGCCTCACCATTTTCCGCTCCATGTACGTGCTGACCATCGAGGAATCCGAGATCCTGCTCGGCGCCGGAGGGATGCTGAACGCCGGAGCCATTGTCCTGGGCGCGGCCGGCGGGATTGTGCTGGGAGACACCCTGGCCAGGCCGCTGACCCGGAGCCTGGCCAGCAATGAACGCAGGCGCGCCCGGAGACGGTAA	MTHRPEKPGTRPHTDGLPKTEPLSPSQLRQNAAAKRMLRRLVQGENPPTAPLSIVDRLTGSPYANPMIQVGGVDTSARKTLDFALHLAETMFRYGAGALEVETSIIAVTAALGLKNIEVDITNQSVAINYAPKDQTPIALLRVVRSWTNNYAGLAKVHQLVTDIVAGGVGRDEAIRRLDEAITSPKPFPRWMVTIAFGVFAAVFVGVLGGGPVSSLIAFLSNIGVSLLARKLGRLRMPDFFITATCSFVVTFVALLLWRFGLTNSPAIVVVGGILLLLPTGRLVSSVQDAINGFPVTAAGRFLSTILTFGALVAGIAVAFVVGSKTGMKEIDVTETFPPAYDLWVLVVFIALAVMAIGITEQTTWKLLLPTAAVGVAGYLVLLGGGALGLGDRFSPALSAVVIGFLARVVALKMGAPQLVVAVPAALILLPGLTIFRSMYVLTIEESEILLGAGGMLNAGAIVLGAAGGIVLGDTLARPLTRSLASNERRRARRR				NA	NA	NA	NA	NA
D1-29_00926	840		COG2375	putative protein	ATGAGCACCGTTCCGGCAGCCACCAGCGCCTCGAAGCAGACCCGCCCGCAGACCGACCTGACCGTAATCCGCCGTGAGGAACTCAGCCCGCACATGGTCAGGATCGTTGCCGGCGGCGAGGGCTTTGCAAGCTACATCAATAACGGCTTTGTGGACCGGTACGTAAAGATTGTCTTCCCGCAGCCCGGCGTGGACTATGCCATGCCACTGGACCTTTGGGCCATCCGCGAAACCATGCCCCGTGAGCAGTGGCCGTTCACGCGCACATATACCGTCCGGTGGGTGGACCTGGAGGCCAGGGAACTCGCCATCGATTTTGTCATCCACGGCGACGAAGGGCTCGCCGGCCCCTGGGCAGCAGCTGCCCAGCCGGGCGATACCCTGACCTTCACCGGCCCGGGCGGCGCCTATAACCCAGCTCGCGACGCCGACTGGTACCTCTTTGCCGGCGATGAGGCCGCCTTGCCTGCCATCGCCGCTTCGCTGGAGGCGTTGCCCCCGGAGGCGCGCGGCCTGGCCTTCCTGGAGGTCGACGGCAACGCCGACATCCAGCCAATCTCCGCCCCGGCCGGAGTGGACATCACTTGGGTTTTCCGCCACGGCGCACCGGCCGGCACCGGCGACTTGCTGGCCTCAGCCGTCGCCAGCGCCGATTGGCCTGCCGGCCGGGTTGATGTCTTCGCCCACGGGGAACGCGGGTACATGAAGGCGCTGCGGGACGTGTTTTTTGCCCAGCGCGGGCTGGAGCGCAAGCAGGTGTCCCTGTCGGGTTACTGGGCCAGCGGCCGGGTGGAGGACGATTTCCAGGCGGAGAAGAAGCTCCCCGTAGGGCAAATCTAA	MSTVPAATSASKQTRPQTDLTVIRREELSPHMVRIVAGGEGFASYINNGFVDRYVKIVFPQPGVDYAMPLDLWAIRETMPREQWPFTRTYTVRWVDLEARELAIDFVIHGDEGLAGPWAAAAQPGDTLTFTGPGGAYNPARDADWYLFAGDEAALPAIAASLEALPPEARGLAFLEVDGNADIQPISAPAGVDITWVFRHGAPAGTGDLLASAVASADWPAGRVDVFAHGERGYMKALRDVFFAQRGLERKQVSLSGYWASGRVEDDFQAEKKLPVGQI				NA	NA	NA	NA	NA
D1-29_00927	771	ung	COG0692	Uracil-DNA glycosylase	GTGTTTGAGCCCGACGCCCTGTTCGAGTGGGACCCGGTCCCCGTGGATACTCTTGACTTCGTCGAGATGGCGCGGCTCCCGCTCGCCGAACTGATGGCTAGTGACTGGGCTGAAGCATTGAGCGGGGTGGAACCGGAACTTCGGGCCGTCCTGGGCTTCCTTGCCGCCGAAGTGGCGGCGGGCTACCAGGTCCTGCCGTCGCCGTCGAACGTTCTGCGTGCATTCCGTCAGCCCCTGGCCGACGTGAAGGTTCTGATTGTTGGCCAGGACCCCTATCCGACTCCCGGGCACGCCGTCGGGCTGTCCTTTTCTGTTGATCCGCGGACGCGGCCCATCCCCCGGAGCCTGGCCAACATTTACCGTGAACTGGAAGCCGATTTGGGGATCCCGCCCCGGGGACACGGCGACCTGTCCGGCTGGGCTGATCAGGGGGTGCTGCTGCTGAACCGGGTGATGAGCGTCAGGGCCGGGGAGGCTGGCTCGCACCGCGGCAAAGGGTGGGAGAAAATTACGACGGCGGCCGTTGCGGCCGTAGCCAACCGGCGGACCCCAGGTGGCGCGGTTGCTCCCCTGGTAGCCATCCTGTGGGGCAAGGACGCAGAGGCGGTCAGGCCGCTTCTCCACGGGGCAATGGTGGTGTCGAGTCCGCACCCCAGTCCGCTTTCGGCATCGCGCGGGTTTTTTGGTTCCCGCCCTTTCAGCCGGGCAAATGAGTTGCTGCGCGAACAAGGCAGCGCCGGCGTAACCTGGGAACTCCCCCAGGTTCCTTAG	MFEPDALFEWDPVPVDTLDFVEMARLPLAELMASDWAEALSGVEPELRAVLGFLAAEVAAGYQVLPSPSNVLRAFRQPLADVKVLIVGQDPYPTPGHAVGLSFSVDPRTRPIPRSLANIYRELEADLGIPPRGHGDLSGWADQGVLLLNRVMSVRAGEAGSHRGKGWEKITTAAVAAVANRRTPGGAVAPLVAILWGKDAEAVRPLLHGAMVVSSPHPSPLSASRGFFGSRPFSRANELLREQGSAGVTWELPQVP	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
D1-29_00928	330			hypothetical protein	GTGGCAGAAGCAGCTCGGGAACACATGCCGGAGCCGGAAGGGCACAGCCCGCTGCTGGCTGATTTCAGTCTTCGTGACTCGCGGTTGAGCGAGCGGGACCAGCAGATGCTTGCCCTGGAGCGGCAGTGGTGGAAGTACGCCGGTGCAAAGGAACAGGCCATCAGGGAGCTCTTTGACCTGTCCGCCACCCACTACTACCAGTTGCTGAATTCGCTCATAGACACCGAGGATGCACTGGCCCACGATCCCATGCTGGTTAAGAGATTGCGTAGACTACGTACGTCACGTCAGCGGGCACGTACTGCACGCCGCCTGGGATCCGACGCGTAA	MAEAAREHMPEPEGHSPLLADFSLRDSRLSERDQQMLALERQWWKYAGAKEQAIRELFDLSATHYYQLLNSLIDTEDALAHDPMLVKRLRRLRTSRQRARTARRLGSDA				NA	NA	NA	NA	NA
D1-29_00929	630			hypothetical protein	ATGACCAAATACGCTCGGGATGAATTCGACAAGATACCGGAGACTGCCTCGCGGCAGGGAGTCCACCGTTCCGCATCTGCTCCTTCCCGGCGCAAGTTGTGGCCCATTCTGGCGGTCGGCATGGTCGCGTTGGCGATCGGGTTGGTCTCCTTCCTGATCCTCCCAAAGCTGGGCATCATGCCCGGGGGTACCCAGGCTTCCAGCAGCCTGGAGTCGGCAGCCCTGCCCCAGTCGGGGGCGGATCCTTCAGCCAGTGCGGACAGCTCCGCCAGCCCGCAGCCTTCCGCCGTGCAGACGTCCGAAAGTGCAAAACCAGAACCAAGCCCGACGCCGAGCGCCACCCCGTCGTCCGCGGTGGACAAGACCCAGGGCGTGGCGGTCTACAACGCTTCCGGAACGGCCGGGCTGGCTGGCCGGGTCAGTTCAACGATCCAGACCGATGGCTGGACGCTGGGACAGGTCGGCAACTGGGGCGGTGCCCCGCAGCAGACGTCCGTAATCTTCTACGCCGGCCCGGCCCAGAAGGCCAACGCAGAGGCCCTTTCCGCGCTTTTGAACATTCCCACCCTGGTGGACAGCGCCGAATTCCAGGTCCCGGTGGTTGTGGTGCTCGGTCCCGGCTTCCCGTAA	MTKYARDEFDKIPETASRQGVHRSASAPSRRKLWPILAVGMVALAIGLVSFLILPKLGIMPGGTQASSSLESAALPQSGADPSASADSSASPQPSAVQTSESAKPEPSPTPSATPSSAVDKTQGVAVYNASGTAGLAGRVSSTIQTDGWTLGQVGNWGGAPQQTSVIFYAGPAQKANAEALSALLNIPTLVDSAEFQVPVVVVLGPGFP				NA	NA	NA	NA	NA
D1-29_00930	207	scoF	COG1278	Cold shock protein ScoF	ATGGCACTGGGAACCGTTAAGTGGTTCAACGCTGAAAAGGGCTACGGCTTCATCACCGTTGACGGCTCAGGCGACGATGTTTTTGTGCACTGGTCGGCCATTGAGGGTGAGGGGTACCGTGCCCTGGACGAGGGGCAACGCGTGGAGCTGGAAATCGGCGAAGGCGAGAAGGGCCCGCAGGCCGAAAGCGTCCGGCCCGCCGAGTGA	MALGTVKWFNAEKGYGFITVDGSGDDVFVHWSAIEGEGYRALDEGQRVELEIGEGEKGPQAESVRPAE	PGPT0014675_5809	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-29_00931	1272	braC	COG0683	Leucine-, isoleucine-, valine-, threonine-, and alanine-binding protein	GTGAGGTCTGAGACGTTCAAGGCGGCCATTTTCCGGGGCGCAGCAGGTGCGGCCGTCCTCCTTGCCCTGGCGGGCTGTTCAACGGCCGCCGGGAATGCACGGCTGGATTCCGTTGAAGCGTCCGGTGACGGAACCCTGCGCATCGGCCTGATCCTGGATAACACCGGGGAACAGGCCTTCCTCAACGATTCACAGCGTGCCGCGGCCAAACTCGCCGTGCAGGAAGTAAACGCCGCCGGCGGTCACAAGGGAAAGCCGGTGGAGCTGCTTCCCGAGTCGGCCGGCGATGATACCGAGACCCAGGCCAGGAACCTGGTGGCAGCCAAGGCTGATGTGGTGATTGGGCCCACCGATTCGAGCCACGCGGCCGCTGCCATCGCCGTGCTGTCCCACGCGAAAGTGCCGCTCATTTCACCGGCCAACTCTGCCGCAGGGCTCAGTTCACACCAGAACGGCGGCTATTACTTCCGCACGGCGGCCGCCGACGTCGCCCAGGCATCCGTGCTGGTCAAGCTTGCCAAGGACAGCGGCGCCAAGAGCCTTGCCGTGGTCCATCAGGACAGCGCTTACGGCGGGGAGGTGTCCTCCGCTGTGGCCGCTGCCGCCAAGGACGCGGGCCTGGAAACAGTGTCCACCTCGGACTTCAAACCCGGAGACGCACGCCAGGCAGCCGCTGCTGCGCAAAAGGCTGCGCCGGATGCCGTGGTGCTGGTTGCCCGTGAGGGCGCCCAAGGCGCCATAGCCGAACTGATCAATGCCGGATTGTCCGGAAGCAGGATCATCCTCAGCGATGGCGCCTTTGCCAGGTACGGTTCGGGGCTGGGTTCCAAAGCGCTGGACGGAGCACGGGCCGTAGTTCCCGGTGTGTTCCCCTCGGCGGACTTCCAAGCCCGCCTGGTGGCGGTGGAGCCCCGGCTGAAGGATCTGTCGTTCGCTGCAGAGACCTTCGACGCCGTGAATCTCGCGGTCCTTGCCGCTGCGGAAGCCGATGACGACGCCGGGCGGACCATAGCTGCCAACCTCATCGCCGTCTCCGGCGGGTCCGTTGAAAATCCTGACCGGGGGCCGGGCGGGAAGAAGTGCACTTCCTTCAAGGATTGCCAGGCTCTGGTGAAGTCCGGTGCCGCCGTTGATTATGACGGTGAGTCAGGTCCTGTCGCCTTTGACGCCAACGGTGACATCACCACGGCCAACTTCATGGTCTTCACCTATGGGCCGGACAATAGCGCCCGCGTGACGGGCCGCGAGACGGCAGGCCGTGCCGCCGGCTGA	MRSETFKAAIFRGAAGAAVLLALAGCSTAAGNARLDSVEASGDGTLRIGLILDNTGEQAFLNDSQRAAAKLAVQEVNAAGGHKGKPVELLPESAGDDTETQARNLVAAKADVVIGPTDSSHAAAAIAVLSHAKVPLISPANSAAGLSSHQNGGYYFRTAAADVAQASVLVKLAKDSGAKSLAVVHQDSAYGGEVSSAVAAAAKDAGLETVSTSDFKPGDARQAAAAAQKAAPDAVVLVAREGAQGAIAELINAGLSGSRIILSDGAFARYGSGLGSKALDGARAVVPGVFPSADFQARLVAVEPRLKDLSFAAETFDAVNLAVLAAAEADDDAGRTIAANLIAVSGGSVENPDRGPGGKKCTSFKDCQALVKSGAAVDYDGESGPVAFDANGDITTANFMVFTYGPDNSARVTGRETAGRAAG	PGPT0020565_113	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
D1-29_00932	1629	groL1_1	COG0459	60 kDa chaperonin 1	ATGGCCAAGATCATTGCATTTGATGAAGAGGCACGCCGCGGCCTTGAGCGGGGATTGAACATCCTCGCCGACGCCGTTAAGGTCACCCTCGGCCCGCGTGGACGCAACGTTGTCCTCGAAAAGAAGTGGGGCGCCCCCACGATCACCAACGATGGTGTTTCCATCGCCAAGGAGATCGAACTGGACGATCCTTACGAGAAGATCGGCGCCGAGCTGGTCAAGGAAGTTGCCAAGAAGACGGACGACGTGGCCGGCGACGGAACCACCACGGCTACCGTACTGGCACAGGCGCTGGTCAAGGAAGGCCTGCGCAACGTTGCTGCCGGCGCTGACCCGCTGTCACTCAAGCGCGGAATCGAGAAGGCTGTAGAAGCCGTCACGGTGGAGCTGCTTGCATCGGCCAAGGAAATCGAAACCAAGGAAGAGATCGCGGCAACCGCGTCCATCTCCGCCGGTGACGATGAGATCGGCGCCCTCATTGCCGAAGCCCTGGACAAGGTGGGCAAGGAAGGTGTTATCACCGTTGAGGAGTCCAACACCTTCGGCCTGGAGCTTGAGCTCACCGAAGGCATGCGCTTCGACAAGGGCTACATCTCCGCGTACTTCGTCACGGACGCTGAGCGTCAGGAAACGGTCCTTGAGGACCCGTACATCCTGATCGTCAACTCCAAGATCTCCAACGTCAAGGAACTGGTTGCTGTCCTGGAAAAGGTCATGCAGTCCAACAAGCCGCTGCTGATCATTGCCGAGGACATCGAGGGCGAGGCCTTGGCCACGCTGATCGTGAACAAGATTCGTGGCACCTTCAAGTCGGTTGCCGTCAAGGCTCCCGGCTTCGGTGACCGCCGCAAGGCCCAGCTGGCTGACATTGCCGTCCTCACCGGCGGCCAGGTCATCGCCGAGGAAGTCGGGCTCAAGCTGGAGACGGCCGGCCTGGAACTCCTGGGCCGCGCCCGCAAGGTGGTTGTCACCAAGGACGAGACCACCATTGTTGAGGGTGCAGGCGACGCCGACCAGATTGCTGGCCGCGTTTCCCAGATCCGCGCCGAGATCGAAAACTCCGATTCCGACTACGACCGCGAGAAGCTGCAGGAACGACTGGCCAAGCTGGCCGGCGGCGTTGCAGTCATCAAGGCCGGTGCCGCTACCGAAGTTGAGCTCAAGGAACGCAAGCACCGCATTGAGGACGCTGTCCGCAACGCAAAGGCTGCTGTTGAAGAAGGCATCGTCGCCGGTGGTGGCGTTGCACTGATCCAGGCCGGCGCCAAGGCGTTCGCCAACCTGCAGCTCCAGGGCGACGAAGCAACGGGCGCCAACATCGTCCGCGTTGCCATCGACGCTCCGCTGAAGCAGATCGCCTTCAACGCCGGCCTCGAGCCGGGCGTTGTGGTGGACAAGGTCCGCGGCCTGCCTGCAGGCCACGGCCTGAACGCAGCAACCGGTGAATATGTTGACCTGCTGGCTGCCGGCATCAACGACCCGGTCAAGGTGACCCGCTCTGCACTGCAGAACGCGGCCTCCATTGCCGGCCTGTTCCTCACCACCGAGGCCGTAGTGGCCGACAAGCCGGAGAAGAACGCTCCGGCCATGGGTGGCGGCGAAGACATGGGCGGTATGGGCGGCTTCTAG	MAKIIAFDEEARRGLERGLNILADAVKVTLGPRGRNVVLEKKWGAPTITNDGVSIAKEIELDDPYEKIGAELVKEVAKKTDDVAGDGTTTATVLAQALVKEGLRNVAAGADPLSLKRGIEKAVEAVTVELLASAKEIETKEEIAATASISAGDDEIGALIAEALDKVGKEGVITVEESNTFGLELELTEGMRFDKGYISAYFVTDAERQETVLEDPYILIVNSKISNVKELVAVLEKVMQSNKPLLIIAEDIEGEALATLIVNKIRGTFKSVAVKAPGFGDRRKAQLADIAVLTGGQVIAEEVGLKLETAGLELLGRARKVVVTKDETTIVEGAGDADQIAGRVSQIRAEIENSDSDYDREKLQERLAKLAGGVAVIKAGAATEVELKERKHRIEDAVRNAKAAVEEGIVAGGGVALIQAGAKAFANLQLQGDEATGANIVRVAIDAPLKQIAFNAGLEPGVVVDKVRGLPAGHGLNAATGEYVDLLAAGINDPVKVTRSALQNAASIAGLFLTTEAVVADKPEKNAPAMGGGEDMGGMGGF	PGPT0014570_4957	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077	NA	NA
D1-29_00933	1005			hypothetical protein	ATGGATCCGGTCAAGAACCAGATATCAGCGGTTGACCCACTGGCTATCGATCCAGAGGCGGAGCCGAATGGGGAAGATGCCCTGCATAAGATCCTGTCAGGGACCACAGTCTTCCGCCACAGCCCCCCGGGTGCGGGTGTGACCTCCCTGGACAACCACAGGCATCGCAAGGCGCAGATCGCCGGTGGGTTTTTGCTCGCCGCTGCTGCTGTGACGGCAGCGGTCCTCGTTGGCGCTAACTTCGGTTCGGTGAGTTCCAAGCCTGCGCCGGCAGCCACTGTTACCTCCGCCCAGGCAACACCCACGCCCTCCGCGACTCCGTCGGCCACCCCATCGGTGTCAGCAACGGTACCGGCTGCAACCCCCACCCCGGCACAAACTGCCCCCGCCGCGGCACCAACAACTGCTCCGCCGCAACCGGCGGCGCAGCCCGCGGCGCTGCAGACGTTCACTTTCCCGGACGGCCATGTCTCCTTTAAGTACCCCACTGGCTGGAGTGTCAGAACGGAGCAAGGGCCCTATCTTTCGGAGGACACGAAGGCCAGTTCCCTGGGAGCCATCATCTCGGATGCTGCTGGCGGAGAAGTAGCCCACGTGTTCAGCGGGTTCTACGGTGATGGCACGGGTGGCTGGGTGAAGCGGACCGTACTGGACAGGGCGGCAGTTCCCGGGGTCACGGACAAGTCGGGAAATCCCGTGGAGTTCGGTTTCGCGGCGGATCAAGGTTTGGCTGATCCCTCTGAAGGGACGGCCTCACCCGCCCAATTGGCGGACAGTCGTCCGTCCTACTTCATGGACGTGCGTCTTTCCTCGGAATTCGACGCCGGGGAGAGGAGTTCGGGGACCAATCAGATCATGATGCCCAATGGAGCCATGTCCGCCCGCGTGCTGTTCGACTTTGAAAAGCAGCCGATCTTTGCCAGCCCCGAGGCGGCAAAGGCCTGGATGAACAGCGTGCAGTACGCCCAGCTGAAGGCTTTGCTGCTGAGCCTGCGCTACCAGTAA	MDPVKNQISAVDPLAIDPEAEPNGEDALHKILSGTTVFRHSPPGAGVTSLDNHRHRKAQIAGGFLLAAAAVTAAVLVGANFGSVSSKPAPAATVTSAQATPTPSATPSATPSVSATVPAATPTPAQTAPAAAPTTAPPQPAAQPAALQTFTFPDGHVSFKYPTGWSVRTEQGPYLSEDTKASSLGAIISDAAGGEVAHVFSGFYGDGTGGWVKRTVLDRAAVPGVTDKSGNPVEFGFAADQGLADPSEGTASPAQLADSRPSYFMDVRLSSEFDAGERSSGTNQIMMPNGAMSARVLFDFEKQPIFASPEAAKAWMNSVQYAQLKALLLSLRYQ				NA	NA	NA	NA	NA
D1-29_00934	510			hypothetical protein	GTGCTTTCAGAGCGCGAATTGGCGTTTATCGCCATTCATAAAGACAACTATCCATCCGTCTATAAGTTCGTCCGCCGACGCGTGGAATCGGCGGACCTGGCGGAGGAGATCGCAGCTGACGTCTTCCGCGTGGTGTGGCAGAAATGGGCCGACAGCTCACAAAAGGACCTCCCCTACCTGTTGACGGTTGCGCGGAACTTGGTGGGAAACGCTTACCGCAGCCGCGACAGGCGGCAGGCGCTGCTGGACAAACTGCGGACTGCGGTGGTTCAACGGTTCGGGGACGCGTCCGAAAACGTCGCGGTACAGGATGCCATGATGCGGTTGCGCGAACAGGACCGCGACGTTTTGCAGCTGGCCTACTGGGACGGCTTGGGCACCGCAGACATTGCGAGGGTGCTGCAATGCAGCGAATCGGCGGCCAGGGTCCGTCTGCACCGGGCCCGCGCAGCCTTCCGGAAACAGGTGCCTGCAGGGGCCGAAGCCACTACACACAAGATGGGGGTCTGA	MLSERELAFIAIHKDNYPSVYKFVRRRVESADLAEEIAADVFRVVWQKWADSSQKDLPYLLTVARNLVGNAYRSRDRRQALLDKLRTAVVQRFGDASENVAVQDAMMRLREQDRDVLQLAYWDGLGTADIARVLQCSESAARVRLHRARAAFRKQVPAGAEATTHKMGV	PGPT0014960_11500	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-29_00935	1131	rnhA		Ribonuclease H	ATGCTCTGCGGACGCCCGCGCGAACGCATTGTCAGGGTGGTCTGGCAGGATGGAGCAGTGACAATTACTGCAGCAGCCGACGGTTCGGCTTTAGGAAATCCCGGCCCTGCCGGATGGGCCTGGTATGTGAACGACGATTGCTGGCGGGCAGGGGGCTGGCCGCACGGGACCAACAACCAGGGTGAGCTGATGGCTGTCCTGGACCTTTTCCGGGCCACAGCGCACGTTCCTGCGGAAGACCTTCGAATCCTGTGTGACAGCCAGTACGTCATTAACTCCATCACCAAATGGATGCCCGGCTGGAAGCGGAAGGGGTGGCGGAAGGCCGACGGCAAACCGGTCCTGAACGTGGAACTGCTGAAAGAACTTGACCGGGAACTCCTGGGCCGCAAGTACACCTTCGAGTGGGTCAAAGGCCACGCCGGCCACCCTCTCAATGAGGCAGCAGACGAACGGGCCAGGGCCGCCGCCACGGCCTACCAGCAGGGAGTAGCTGCCCGCTCGGGTCCGGGCTTTCCCGGTGCCCATACTCCTGCCGGCACCACCGCAGCTCCCGCCGGTATCACCACAGCTCCTGCCACGTTGAACGGCACAGCTCCCGCCGCGAACGGCACAGCGGCCCGCGGCCGCACGGGAACCGCTGCCGCTTCCGCCGCCCCCGCCGCGGCCCTTGCTCCCCGGGCCACGTCCGGTCCCGCCACGCTCGGCCTCCCGGCCTACGATGAGCCCGACCTGTTCAGTGAGCTGGAGAGTGAATCCTTCCCCGCACCAGGGGCCGCAGGTGCCGAACGTGCCCCGGAAGCCATCGTCGAGGCCCTCGAGCGCGAGCTCTTGGGTCCGGACGTCCGCGGCGACATCGGCAGGACCGGGGTCCTCCTGCACCCGGACTTCATGGAGATTGGGAGCTCGGGGCGGATCTGGACCCGTGACGCCATGATGATGGCCCTGGAAGAAGACCCGGGCGAGCGGACGGAACTGGAGGTGCTCGGGGCCGACCGCATCGGAACCGATGCAGTGCTCTTGACATATCGAAGCTATTCGCGCTCAGGTACCACCCTGCGAAGCTCCCTGTGGGTCCTTGATGGCGGTCGATGGAGGCTCAGGTTCCACCAGGGCACTCCGGAAGCCTGA	MLCGRPRERIVRVVWQDGAVTITAAADGSALGNPGPAGWAWYVNDDCWRAGGWPHGTNNQGELMAVLDLFRATAHVPAEDLRILCDSQYVINSITKWMPGWKRKGWRKADGKPVLNVELLKELDRELLGRKYTFEWVKGHAGHPLNEAADERARAAATAYQQGVAARSGPGFPGAHTPAGTTAAPAGITTAPATLNGTAPAANGTAARGRTGTAAASAAPAAALAPRATSGPATLGLPAYDEPDLFSELESESFPAPGAAGAERAPEAIVEALERELLGPDVRGDIGRTGVLLHPDFMEIGSSGRIWTRDAMMMALEEDPGERTELEVLGADRIGTDAVLLTYRSYSRSGTTLRSSLWVLDGGRWRLRFHQGTPEA				NA	NA	NA	NA	NA
D1-29_00936	288			hypothetical protein	ATGAGCATCATTTCCGTCGATACCGAACAGCTCCAGCTCAAATCAGCCAATGTGAAAGCAACCGTGGACCGGATCGGCGCGGACGTTCAGACCATGAAGCGGGGCCTCGACGAACTCCAGGCCACGTGGCGTGGTTCAGCGGCCACCAACTTCCAGGCGCTGGTGGCCGAGTGGACCATCACCCAAGGCAAGGTGGAGGCGTCGCTGGCATCCATCAACCTGGCGCTGGCTTCGGCGGCTGCCAGCTATGCCCAGACCGAGCAGGGCAACACCCAGCGGTTCAGCTGA	MSIISVDTEQLQLKSANVKATVDRIGADVQTMKRGLDELQATWRGSAATNFQALVAEWTITQGKVEASLASINLALASAAASYAQTEQGNTQRFS				NA	NA	NA	NA	NA
D1-29_00937	1680	sasA_4		Adaptive-response sensory-kinase SasA	GTGGCCATGATCATGGCGCTGCTGATCGTCGCCCTGACGGTGACCGGTGCCGGCACGCTGACCCTGCTACACAGCTATCTGCAGGGCCAGGTTGACGACAAACTCAACGCCGCCGTCAAGCTCGCCAGCCAGCAGCGCTCGTTCACCCAACTGCAGACGCCCAACCCGATGGTGCTCACCGACTATTCCCTGACGCTGTTCACTCCGGGCCAGGATCCCATCCCCTTCGGCGGTGATCCGGACGACCGGCCGGACATCAAGTCGATTTCTGTCCAGGAAGCACGGGACCAGGGCGGGCGCCCCTATCAGGTTCGGGGGACCGACGGCGAAAACTGGCGCGTGGTGGCTGTTACAGTCCTGAACAACGGCACCAGTGCCGTGGTTGTCATCGGCCTGCCGCTGACCAGCGTGGACGACGTCCTGGAGCACGCCATCCTGGTGGTGTGCGGCGTGGGTCTGCTGACTCTTCTGCTGGCCTCCCTGATTGCCAGCTGGACGGTTTCCCGGTCCTTCCGGCCGCTTGCCAGGGTTGAGAAGACAGCTGCCGCGATTGCTGCTGGCGACCTCTCCCGTCGAGTGGAAGTGGACAACCCCGGCACCGAACTGGGGCGGCTTGGCAGCTCGCTCAATGCCATGCTCGCGCATATCGAAACAGCCTTTTCCGCCCGCACAGCCTCTGAAGGCAGGATGCGCCGGTTCGCTGCGGACGCATCGCACGAGCTGCGCACCCCGCTTGTAACCATCAGGGGATTCTCCGAGCTCTACCGCCACGGCGCGCTCGCCACTGAGGAGGACGTGGCCACCGCCATGGGGAGGATCGAAAGCGAAGCCAAACGGATGGGATCCATGGTGGAGGACCTCCTGCTGCTGGCCCGCCTTGACGAACAGCGCCCACTGCAGCAGAAACCGGTGGACCTGTATCTCATCGCGCATGACGCCGTGGTAGACACTCAGGCCAGCGACCGCACACGTGCGATCACTCTCACCGGGCTCGACGGCGGCGCTGCGGTACCGGCACCCGTCCTGGGGGACGAAGCGAAATTGCGGCAGGTGGTGGGCAACCTGGTGGGCAACGCGCTGCGCTATACACCGGAAGGAAGTCCGATCGAAGTTGCCGTTGGAGTCCGCACCTCCGACGGCGGCCAGAAGTACTCCGTGATCGAGGTACGCGATCATGGACCTGGCATCTCCCAGGAGGACGCTTCCAAGGTCTTTGAGCGCTTCTACCGCGCGGATACTTCCCGGACCCGTGAAACGGGCGGCAGCGGCCTGGGCCTTGCCATTGTGGCGGCTATCGTCGGGTCGCACGGTGGCTCGGTCAGGGTGGAAGCCACCGACGGCGGCGGGGCCACCTTGGTGGTCAGCCTGCCCATGAGGCAGGACGCTGAAGGTATGGATGCTGATGGCCTGGATGCTGACAGACATGATGTTGAGGCTCTTGATGCTGACGGACCAGGTGCCCAGGGACCAAGTGCTCAGGGACAACTCGCTGACGGACAAGAGGCTGAAGGACAAGTCGCCCCGGGCGCAGGGCAGGTCACTGCCGGCTCCCGTTCCGGGCAGGCCGCCAATCAGGGTGCGGATGGGCCCCAGGGCGGCAGGCCTGGCATGCCTGGCAGGGGCGGCCCTGACAGCGGTGACGGCGGCAACCAAAGCGACGGCCGGGTTATCCACATATAG	MAMIMALLIVALTVTGAGTLTLLHSYLQGQVDDKLNAAVKLASQQRSFTQLQTPNPMVLTDYSLTLFTPGQDPIPFGGDPDDRPDIKSISVQEARDQGGRPYQVRGTDGENWRVVAVTVLNNGTSAVVVIGLPLTSVDDVLEHAILVVCGVGLLTLLLASLIASWTVSRSFRPLARVEKTAAAIAAGDLSRRVEVDNPGTELGRLGSSLNAMLAHIETAFSARTASEGRMRRFAADASHELRTPLVTIRGFSELYRHGALATEEDVATAMGRIESEAKRMGSMVEDLLLLARLDEQRPLQQKPVDLYLIAHDAVVDTQASDRTRAITLTGLDGGAAVPAPVLGDEAKLRQVVGNLVGNALRYTPEGSPIEVAVGVRTSDGGQKYSVIEVRDHGPGISQEDASKVFERFYRADTSRTRETGGSGLGLAIVAAIVGSHGGSVRVEATDGGGATLVVSLPMRQDAEGMDADGLDADRHDVEALDADGPGAQGPSAQGQLADGQEAEGQVAPGAGQVTAGSRSGQAANQGADGPQGGRPGMPGRGGPDSGDGGNQSDGRVIHI	PGPT0004100_1942	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
D1-29_00938	711	tcrX_2	COG0745	putative transcriptional regulatory protein TcrX	ATGAATAAGAACGGGCCCGAAGCCAAGCTCCTCGTTGTCGATGATGAACCCAACATCCGCGAGCTGCTGTCCACCTCCCTGCGCTTTGCGGGGTTCGAGGTAGTCTCCGCCGCAAACGGCAGGGACGCTTTGGCCGCGGCTGAGCTCCATGCCCCGGACCTGGCGGTACTGGACGTGATGCTCCCGGACATGGACGGCTTTACTGTGACCCGCAAGCTCCGCGCTTCCGGCAAGCACTTCCCCGTCCTCTTCCTCACGGCCAAAGACGACACGGAGGACAAGGTCACCGGCCTCACCGTGGGCGGCGACGACTACGTCACCAAACCCTTCAGCCTGGATGAAGTGGTGGCCCGGATCCGTGCGGTCCTCCGCCGAACCCAGCCCATGCTCGATGACGATGCCGTGATCCGGGTGGATGACCTGGAGCTCGACGACGATGCGCACGAGGTGCGCCGCGGCGGCACCGTTATTGAGCTGTCCCCCACCGAGTTCAAGCTGCTCCGGTACCTTATGCTGAACCCGAACCGGGTGCTGTCCAAATCACAGATTCTGGACCACGTGTGGGAGTACAACTTCAACGGGGACGCCTCGATCGTCGAGTCCTACATCTCTTACCTGCGGCGCAAGGTGGACCTGGATCCGGACGCGCCGGCCCTGATCCAGACCAAACGCGGCGTGGGCTATGTTCTCCGAACGGCAGAGAAGCGCTGA	MNKNGPEAKLLVVDDEPNIRELLSTSLRFAGFEVVSAANGRDALAAAELHAPDLAVLDVMLPDMDGFTVTRKLRASGKHFPVLFLTAKDDTEDKVTGLTVGGDDYVTKPFSLDEVVARIRAVLRRTQPMLDDDAVIRVDDLELDDDAHEVRRGGTVIELSPTEFKLLRYLMLNPNRVLSKSQILDHVWEYNFNGDASIVESYISYLRRKVDLDPDAPALIQTKRGVGYVLRTAEKR	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
D1-29_00939	1647			hypothetical protein	GTGAACGACGGCCCGCTGATTGTCCAGAGCGATAAAACAATCCTGCTTGAAGTGGACCACGAACTGGCCACCGAAGCCCGGCATGCCATCGCACCGTTTGCCGAGCTGGAACGCGCACCGGAACACATGCACAGCTACCGGCTCACTCCCCTTGGGCTGTGGAATGCCCGCGCCGCCGGGCTGGACGCGGAGAAGGTCCTGGATACGCTGCTCAAATACTCCCGGTTCCCCGTGCCGCACTCGCTCCTGATCGACGTCGAGGAAACCATGTCCCGGTACGGAAGGCTCCGGCTGGAGAAGGACCCGCAACATGGCCTGGTGATGCGCACAGACGACTACCCGGTGCTCGAAGAAGTCATCCGGTCCAAGAAAATCCAGCCCCTGCTGGGCCCCCGGATTAACGGCGAGACCATCGTGGTGCATTCCTCTCAGCGGGGCCAGCTCAAACAGTTGCTGCTGAAGATCGGCTGGCCCGCCGAGGACCTCGCCGGCTACGTTGACGGCACTCCGCACCTGATCGCCCTGAACGAGGACGGCTGGAAACTGCGGCCCTATCAGCGGCTCGCCACCGAGAACTTCTGGGCCGGCGGGAGCGGCGTGGTGGTCCTGCCCTGCGGCGCGGGCAAGACCCTTGTGGGTGCCGCCGCCATGGCCACCAGCTCAACCACCACGCTCATCCTGGTAACCAACACCGTGGCCGCCCGGCAGTGGAAGGACGAGCTGCTCAAACGGACTTCCCTGACCGAGGACGAAATCGGCGAGTATTCCGGTGCGGTCAAGGAAGTCCGCCCCGTAACCATCGCCACCTACCAGGTCCTGACCACTAAGCGGGGCGGCCTCTACCCGCACCTGGAGCTGGTGGATGGCCACGACTGGGGCCTGATCATTTACGACGAAGTGCACCTCCTGCCTGCCCCGATCTTCCGGATGACTGCCGACCTTCAGGCCCGCCGCCGCCTGGGCCTCACCGCCACCCTGGTCCGCGAGGACGGCCGCGAGGGCGAGGTGTTCAGCCTCATCGGGCCCAAGAGGTATGACGCCCCGTGGAAGGACATCGAATCGCAGGGCTACATCGCACCGGCTGATTGCGTTGAAGTCAGGATTGACCTGCCGCGGGATGAACGGGTGGCATACGCCATGGCTGAGGACGCGGACAAGTACCGGCTGTGCTCCACGTCGGAGTCCAAGACGCTGATTGTGGAGCAGCTCGTGGCCCGGCACCAGGGCGAGCAGCTACTGGTGATCGGTCAGTACATCGACCAGCTGGACGAGATCGGGGAGCGGCTCCAGGCTCCGGTCATCAAGGGCGATACCTCGGTCAAGGAACGCCAAAAGCTGTTTGATGCCTTCCGGGCCGGTGACGTGCACACCCTGGTGGTGTCCAAGGTGGCCAACTTTTCCATCGACCTGCCGGAGGCGTCTGTCGCCATCCAGGTTTCCGGGTCCTTCGGGTCACGGCAAGAAGAAGCTCAGCGGCTGGGCAGGCTGCTTCGGCCCAAAAAAGACGGCCGTGCCGCACTCTTCTATTCCCTGGTAGCACGGGACACCCTGGATCAGGACTTCGCCGCGAAACGCCAGCGGTTCCTGGCCGAGCAGGGGTACGCCTACCGCATCATGGACGCGAAGGACGTCGGCCTGCCCGGCTAA	MNDGPLIVQSDKTILLEVDHELATEARHAIAPFAELERAPEHMHSYRLTPLGLWNARAAGLDAEKVLDTLLKYSRFPVPHSLLIDVEETMSRYGRLRLEKDPQHGLVMRTDDYPVLEEVIRSKKIQPLLGPRINGETIVVHSSQRGQLKQLLLKIGWPAEDLAGYVDGTPHLIALNEDGWKLRPYQRLATENFWAGGSGVVVLPCGAGKTLVGAAAMATSSTTTLILVTNTVAARQWKDELLKRTSLTEDEIGEYSGAVKEVRPVTIATYQVLTTKRGGLYPHLELVDGHDWGLIIYDEVHLLPAPIFRMTADLQARRRLGLTATLVREDGREGEVFSLIGPKRYDAPWKDIESQGYIAPADCVEVRIDLPRDERVAYAMAEDADKYRLCSTSESKTLIVEQLVARHQGEQLLVIGQYIDQLDEIGERLQAPVIKGDTSVKERQKLFDAFRAGDVHTLVVSKVANFSIDLPEASVAIQVSGSFGSRQEEAQRLGRLLRPKKDGRAALFYSLVARDTLDQDFAAKRQRFLAEQGYAYRIMDAKDVGLPG				NA	NA	NA	NA	NA
D1-29_00940	2520			hypothetical protein	ATGTCCCTCATTCGCGCGCTCAGCAAGGAACTGGAGGCACGCAGCGACGAATCGTTGCGTGCCCTGTTCGCCGCGCGGCCGGACCTTATCTCTCCCACCGTTCCCGATTTCTCCGCACTCGCCGCCAGGGCCAGTGCCCGGGTCAGCGTCCAGCGCGCACTGGAGCGCCTCAACAAACCCCAGATGCAGGTCCTGGAAACCCTCCATCTCTGCACCAACACAGACACCGAACACAGCGCCTCGGCAACAGTGGTCAGGAAACTGATCTCAGGATCCACGGTCACCGCCGTAGAACGCATCCTGGCCTCACTCCAGGAGCTGGCCCTGGTCCACCGGGCGGAGCCGCCACACGGAACCCCTTCCACTGCCCGCCGCCAGCGGTTCTACCTTCCCGTGGGGTGCCTCAAGGATGTGGTGGGCATCTATCCGGCGGGGCTGGGCCGCAGCTATACAGAACTGGTCCGGCTGCAGCCCGCCTTCGCCCAGCGTGCCGTCCAGCTGGTTTCCGAACTGCACCGCAGCGGTGTGGCCATCCACCCGGCCACCACACCCATGGAAGCAGCGTTGTCCCTCCAACACTGGACATCATCGCCGGAGGCCCTGCAAAAGGTTCTGGCCGGAGCCCCGGAACGCACGACGGCGCTGCTCGCCCGGTTCCGCAACTGGGCCATGGGTGCCGTTCCCCAGGCGCAACGCAAGGCGTCCGTGGCGAACGAGGGCGCCGACGTCGGGCCCGTTGACTGGCTGCTTGCCCGGGGCTTGCTGGTGCCGCTGGACGCCGCCCATGTGGAACTGCCGCACAGCGTAGGACTCTCCCTGCGTGGCGGTGCTGTCATCAACGACTTCACGCTGTCGCCCCCTGTTCCCGAGCTCGGAAACACCACTGCCCTGCTGCGCAGGAATGCCGCCCTCGGGGCCATCGCCGAGACGCTGCGGCTGGTTGGCGAGCTGCTGTATGTGGTCAGGGAACAACCCCTTGCAACGCTGCGCAGCGGAGGGGTGGGCGTCCGCGAGATGAGGCGCCTTGCCGAGGCCCTGCGCATAGACCAGTCCCGGATGGGCCTGCTGCTGGAGCTTTGCGGACTGTCGGGGCTGCTCCGGCTGGATGTGGATTCTTCGGCCTGGGTTCAGCCGCCTCAGCTGGAATGGCTGGTTCTTCCACGGCAGGAACAGTGGCTGTGGCTGGTCAACGCCTGGCTTGCGAGCGAACGTGTCCCGTCGCTTGTAGGCCAGCCGGTGGGAGGCCCGGCCGGCGGTTCCGGCGCCCACCGCACAGCTGCCGGAAGCATCATCAACGCACTGTCCGCCGAAGCACAGCGGCCCGACGCGCCGGTGGTGAGGAAACGGATCCTGGAAATTCTTAATGAGCTCACCCGTGAGGCAGCAGCCTCGGATGGCAAAGCCCCGGTCCTGGATGCCGCCGCCGTGCTCCAGCGGGCCGAATGGGCCCAGCCCCGGATGGCCCGCCGTTTCAGTTCCCTCATCCGGGGCGTCCTGGCGGAGGCTGAAATGCTTGGCCTGATTGGGTCAGGCGCGCTCAGCCAGCTGGGAAGCGCCATGGCAGAAGACAGCCCGGACGAAGCACTGGGCATCCTGGGCGAGCACCTGCCCGCAGCGCTGAACCATGTGCTTCTGCAGGCAGACCTCACGGCGGTGGCACCCGGTTACCTTTCACCGGAGCTGAGCGAGAAACTGCTGCTCATGGCGGACGCCGAAGGCCAGGGTCCAGCCACCATCTACCGCTTCTCCGCATCTTCCGTCAGGCGGGCACTGGACTCCGGGCACGATGCCTCCAGCCTGCTCGAGTTCCTGCGTGAACATTCCGCCACTTCAGTTCCCCAGCCACTGGAATACCTGGTGGAGGACACCGCGGCCCGGCACGGGCGGCTACACGTCGGCGCCGCTGCGAGCTTCATCCAGAGCGACGACGAAACGACAGTTCTGGAGCTCGCCGCGGAATCGAAGACGGCGGGCCTGAGGCTCACCCGGATCGCGCCTACGGTGCTGATCTCGTCCGCGCCTCCCCGGGAGACCGCGCATGTACTTCGCGGCCTGGGTCTCTCGCCTTCGGTGGAGGAATCCGAGCCGTCGGTGGTCCGGCTGCGCCGCACTACCGGTGCCGCTGGCAGCGTCCGCCCTGTTTATACCGCTCCCCGGACAGCCCCGGCCGAGGCGGACGTGGAGGCCCAGCTGTCCCTGCTTCGCCATAACAAGTTAGTCCGCGCCGGCAGCCCGTCTGCGCCCGGCGGCGCCGGCTCCGCCGGCGCCGGAGCCTCGGCGGAATCCGGTGAGGCGGCCACGCAGCTTGGCCTGGAAACACTGCAGCGGGCCATCCGCCTCAAGCAGCGGGTCAGCATGAACGTGGTGGACAGCCAGGGGAATGCCAACCTGGAAACGGTTGTTCCGCTATCTGTAAGCGGCGGCCGGGTCAGGGTTTTTGATCCGGCGAAGGACACCGAACGCGTGCTCTCCATCCACCGCATCATCGATATAGAGGCTGCAGAGGAACTGCGCCAGTGA	MSLIRALSKELEARSDESLRALFAARPDLISPTVPDFSALAARASARVSVQRALERLNKPQMQVLETLHLCTNTDTEHSASATVVRKLISGSTVTAVERILASLQELALVHRAEPPHGTPSTARRQRFYLPVGCLKDVVGIYPAGLGRSYTELVRLQPAFAQRAVQLVSELHRSGVAIHPATTPMEAALSLQHWTSSPEALQKVLAGAPERTTALLARFRNWAMGAVPQAQRKASVANEGADVGPVDWLLARGLLVPLDAAHVELPHSVGLSLRGGAVINDFTLSPPVPELGNTTALLRRNAALGAIAETLRLVGELLYVVREQPLATLRSGGVGVREMRRLAEALRIDQSRMGLLLELCGLSGLLRLDVDSSAWVQPPQLEWLVLPRQEQWLWLVNAWLASERVPSLVGQPVGGPAGGSGAHRTAAGSIINALSAEAQRPDAPVVRKRILEILNELTREAAASDGKAPVLDAAAVLQRAEWAQPRMARRFSSLIRGVLAEAEMLGLIGSGALSQLGSAMAEDSPDEALGILGEHLPAALNHVLLQADLTAVAPGYLSPELSEKLLLMADAEGQGPATIYRFSASSVRRALDSGHDASSLLEFLREHSATSVPQPLEYLVEDTAARHGRLHVGAAASFIQSDDETTVLELAAESKTAGLRLTRIAPTVLISSAPPRETAHVLRGLGLSPSVEESEPSVVRLRRTTGAAGSVRPVYTAPRTAPAEADVEAQLSLLRHNKLVRAGSPSAPGGAGSAGAGASAESGEAATQLGLETLQRAIRLKQRVSMNVVDSQGNANLETVVPLSVSGGRVRVFDPAKDTERVLSIHRIIDIEAAEELRQ				NA	NA	NA	NA	NA
D1-29_00941	234			hypothetical protein	ATGACTCCCACGCGTTACCGGCGGCCCCTGATGATCTGCGCAGCGTTTGTTGCCATCCTGTCCCTGGTGGCGGTAGGCGCGGTGATGGCATTCGCGTTCGCGGGTTCCGTAGCGCCCGTGTGGGTCACCTCCACAGCCCTGTACGGCCTGCCGCTGGCCTTCCTGCTGATGCTCTTCCTGGTCCTGGACAGTGTGGCCGGCAGGCGCCGGGCAGGAAAGCCCGGCGGGCGGTAA	MTPTRYRRPLMICAAFVAILSLVAVGAVMAFAFAGSVAPVWVTSTALYGLPLAFLLMLFLVLDSVAGRRRAGKPGGR				NA	NA	NA	NA	NA
D1-29_00942	384			hypothetical protein	GTGCCTACCGGCAAGGTCAAGTGGTATGACAAGGAAAAAGGTTTCGGATTCCTCGCGGGCGAGGACGGCCAGGAAGTCTTCCTGCCCAAATCATCGCTCCCGGAAGGCGTCACGGAGCTGAAGGCCGGGACGCGCGTTGAATTCGGTGTGGCAGACGGCCGGAAAGGCGCGCAGGCGTTGGGTCTGCGGGTCCTGGACAAGACACCTTCCATTGCCAAGGCCAAACGGCCGAGCGCCAAGGATCTGGCCCCCCTGGTTCAGGACCTGGTGACAGTGCTGGACAACCTCTCCGGCACCTTGTCCGCAGGTAAGTACCCGGAAGGCAACAAGGGCAAGGCCATCGCCGCTGCCCTGCGTAAGGTTGCCGACGAGCTGGACGTTTAG	MPTGKVKWYDKEKGFGFLAGEDGQEVFLPKSSLPEGVTELKAGTRVEFGVADGRKGAQALGLRVLDKTPSIAKAKRPSAKDLAPLVQDLVTVLDNLSGTLSAGKYPEGNKGKAIAAALRKVADELDV	PGPT0014675_1378	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-29_00943	768			hypothetical protein	ATGAACCTGGAAGGTGAACAGCAGGAGGCAACAACCAGCGGCCAGCCAGGCGAGACGGCCGGGCAGCCCGAACTGGCCCTGCCTCCAACAGACCCCGCCACAACAGACTCCGCCACAACTGACGCCGCCACGACTGACGCGGCCACAACTAACGCGGCCACAGCGGCAAAGCCGGGGGCCCCGCGGCGGGCCGCTGTGCCCGTATGGCGGACCGGCAAGCCCGACGCATTCCTCGCCGCTGCTGTGGACGTGGCGCGTACGGCCATCGAAGGCATCACTGCCGCCTCAGACATTGGTCAGCACGTTGCAGCCCGAAGTGAGGGCGACCGCCTTGTCACCCACCTGTTCGAATCCAAGCTGCCCGGCTACCTGGGTTGGCAGTGGTACGCGGTCCTGACCCGCAACTCCCGCTCCAAAGTAGTCACCATCAATGAGCTTGGCCTCCTGCCCTCCGAGGACTCCATCCTGGCCCCCGAATGGGTGCCGTGGGCAGAGCGTGTCCGCCCGGAGGATGCCCAGGAAGCGGAAACCGCCGGGCAGGCCGTGCCTGCGGCAGAAGCACCCGTGGATGATCTCGACGACGTCGACCAGGACGGCTCTGATCAGAACGACGTTGACCAGGACGGCGCTGAACAGGACTCTTCCAGTCCAAAGGACCTCGGCCAGGGCCAGGGCCTTGTGGATCAGGACGACGCCGACCAGGACGGCCCTGATCAGGACGACGACCACGACGACGCGGATGACGGCTCTGCCGGAGGGGCTCACTAG	MNLEGEQQEATTSGQPGETAGQPELALPPTDPATTDSATTDAATTDAATTNAATAAKPGAPRRAAVPVWRTGKPDAFLAAAVDVARTAIEGITAASDIGQHVAARSEGDRLVTHLFESKLPGYLGWQWYAVLTRNSRSKVVTINELGLLPSEDSILAPEWVPWAERVRPEDAQEAETAGQAVPAAEAPVDDLDDVDQDGSDQNDVDQDGAEQDSSSPKDLGQGQGLVDQDDADQDGPDQDDDHDDADDGSAGGAH				NA	NA	NA	NA	NA
D1-29_00944	1131	serC	COG1932	Phosphoserine aminotransferase	GTGAGCGAAACCAGCATCACTATTCCCGCCGACCTCCTGCCAAAGGACGGACGGTTCGGCGCCGGACCTTCAAAAGTCAGGCCGGAACAAATTGAGGCGCTTTCCGCGGCATCCACAACCATTCTTGGCACCTCACACCGCCAGGCCCCGGTCAAGAACCTGGTGGGCTCGGTCCGTGAAGGCCTGAACCAATTCTTCCGCGCCCCAGAGGGGTATGAGGTAGTCCTGGGCGTGGGCGGCTCCACAGCCTTCTGGGATGTTGCCAGCTTTGGCCTGGTGGAGAACAAGGCCCAGCACCTCTCATTTGGCGAGTTCGGCTCCAAGTTCGCGTCCGCCACCAACAAGGCGCCGTTCCTTGAGGCCTCCACGATCATCACGTCAGAGCCCGGCACGCGCCCGGAGGCTAGGGCCGAGGCCGGCGTGGATGTCTACGCCTGGCCGCAGAACGAGACGTCCACGGGCGTCTCGGCGCCTGTGAAGCGGGTGGCTGGCGTGGATGACGGCGCCCTGGTCCTGGTGGATGCAACATCAGCCGCAGGCGGACTGGACGTGGACGTCGCCCAGGCGGACGTGTACTACTTCGCGCCGCAGAAGAACTTCGCTTCCGACGGCGGCCTGTGGCTGGGGCTCTTCTCCCCCGCAGCGCTGGAACGTGCCGCCCGGATCAAAGCCAGCGGCCGCTGGATCCCGGACTTCCTGGACCTGCAGACAGCTATCGACAATTCGCGCCTCAACCAGACGTACAACACCCCGTCGCTGTCCACCCTGGTGACCCTGGACTCGCAGGTCCGCTGGCTTAACGACAACGGAGGGCTCGACTTCGCCTCCAAGCGGACCGCCGATTCGGCCGGCCGCATCTACACGTGGGCAGAGGCCTCCGGTTTCGCTTCCCCGTATGTGGCCAAGGCTGAGGAGCGCTCGAACGTTATTGCCACCATTGACTTTGACGAGTCCGTGGACGCAACTGCGGTTGCCAAGGTGCTGCGCGCGAACGGTGTCGTGGACACGGAGCCGTACCGGAAACTGGGACGCAACCAGCTCAGGATCGCCACCTTTGTCGCGATCGAGCCCGCCGACGTTTCGGCGCTGCTGGCCTGCATCGACTACGTGGTGGGCGAACTCCGCAAGTAG	MSETSITIPADLLPKDGRFGAGPSKVRPEQIEALSAASTTILGTSHRQAPVKNLVGSVREGLNQFFRAPEGYEVVLGVGGSTAFWDVASFGLVENKAQHLSFGEFGSKFASATNKAPFLEASTIITSEPGTRPEARAEAGVDVYAWPQNETSTGVSAPVKRVAGVDDGALVLVDATSAAGGLDVDVAQADVYYFAPQKNFASDGGLWLGLFSPAALERAARIKASGRWIPDFLDLQTAIDNSRLNQTYNTPSLSTLVTLDSQVRWLNDNGGLDFASKRTADSAGRIYTWAEASGFASPYVAKAEERSNVIATIDFDESVDATAVAKVLRANGVVDTEPYRKLGRNQLRIATFVAIEPADVSALLACIDYVVGELRK	PGPT0009160_1180	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
D1-29_00945	696	ideR	COG1321	Iron-dependent repressor IdeR	ATGACGGATCTGATCGATACTACGGAGATGTATCTTCGGACCATTTTGGAGCTTGAGGAAGAGAATATTGTCGCTCTTCGGGCCCGCATCGCTGAACGGCTGCGCCACTCCGGCCCCACGGTGTCCCAGACCATTGGGCGAATGGAGCGGGACGGCCTGGTAGTGGTCTCCGGAGACCGACACTTGGAACTAACGGCCATCGGCCGCAAACGCGCTATCGAAGTCATGCGCAAGCACCGGCTGGCGGAACGGCTCCTTGCTGACGTGATTGGCCTGGACTGGGCCTATGTCCATGACGAGGCCTGCCGCTGGGAACACGTGATGAGCGAACGGGTAGAGCGGCGCATCTATGAAATGCTGGACCACCCCACCGAATCCCCTTATGGCAACCCCATCCCTGGGCTGGCAGCCCTTGGTGGCGCCGAGCCTACCGGGATCACCGACGGTGTGATTAATCTCCTGGACGCGATGAAGGGCTATGGCCAGGGCTCCCAGGTGACGGTCAGCCGCCTGGCCGAGCCAATCCAGGTGGAGCCGGAGTTGCTGGTTCAACTCGACGAAGGCGGGATTCGCCCAGGTGCATCCGTCTCCCTTGAGCGTGTGGGGGAGTACATTTCAGTCCGTGTTCCTGGGATTGAGGGTGCGTTGGAGTTGCCGCCCGAAGTAGCGGCCCACGTCTTCGTTTCTGTCGACTGA	MTDLIDTTEMYLRTILELEEENIVALRARIAERLRHSGPTVSQTIGRMERDGLVVVSGDRHLELTAIGRKRAIEVMRKHRLAERLLADVIGLDWAYVHDEACRWEHVMSERVERRIYEMLDHPTESPYGNPIPGLAALGGAEPTGITDGVINLLDAMKGYGQGSQVTVSRLAEPIQVEPELLVQLDEGGIRPGASVSLERVGEYISVRVPGIEGALELPPEVAAHVFVSVD	PGPT0003890_590	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003890-troR-K03709	NA	NA
D1-29_00947	822			hypothetical protein	ATGCAAAATTCCAGGGGCCGCCGTCGCGCCGCCGGCCCGCCTTCGGCGCCCCGGGTTGCCGAGGTTCTTGCCGCGAACCGACCACGCGACCCCCAACGCGACGCGCGCCGCCGACGCGGTCCGTTCCAGCAAATCAGCGATTTTGCCGCCGCCAGCGGGGTAGGGCAGAAAGCCGGTATTGCCCTCGCCGCCACCGGCCTGGTCCTCACGGTCACGGTTCCCGCAACGGGTCCCGTCATGGCAACTCCTGCTGTCGGCCAGACTGCAACTTCAGCCGCGTCTGTCTCACCGCAGCCCGAAATTTCTGCAGAAGCCGGCGCGCAGATCGACTTCAGCCGCTCCTCCGTGGTGACGCAGGGCGATCCCGATGGCAAGCTCAAGCAGCTGCTGAGCGCCCAGTCTGCCGGCTCGATCACCCGCGCCGCATCCGCCGGCAGCCTGGGTGCACCGCTGGCTTCGCTGTCGACTGCCTCTCCGTTCGGTTACCGCGTCAGTCCCATCACCGGCGGTTCCGGTGACTTCCACCGCGGCCAGGATTACGTGGCCCAGTGTGGGACGTCCGTCCTGGCCGCCGCGAGCGGCACAGTGACCTTTGCCGGCTGGCATCCCTACGGCGGCGGCAACCGTGTTGTGGTGGACCATGGCAACGGCCTTGAGACCACGTACAACCACCTGTCATCCTTCAACGTCAAGGTTGGCCAAACGGTCAGCAGGGGCGAGGTGGTGGCGCTCAGCGGCACCACTGGGGCTTCCACTGGATGCCACCTTCACTTTGAGGTGCAGGTCAATGGAGAAGTCGTAGATCCCACAGGCTGGCTCTAA	MQNSRGRRRAAGPPSAPRVAEVLAANRPRDPQRDARRRRGPFQQISDFAAASGVGQKAGIALAATGLVLTVTVPATGPVMATPAVGQTATSAASVSPQPEISAEAGAQIDFSRSSVVTQGDPDGKLKQLLSAQSAGSITRAASAGSLGAPLASLSTASPFGYRVSPITGGSGDFHRGQDYVAQCGTSVLAAASGTVTFAGWHPYGGGNRVVVDHGNGLETTYNHLSSFNVKVGQTVSRGEVVALSGTTGASTGCHLHFEVQVNGEVVDPTGWL				NA	NA	NA	NA	NA
D1-29_00949	789			hypothetical protein	GTGACTCCCATCCGAATCCGACAGCTCACCTCGCAGGCATTGGGAGAGGCTACCTTCGTGTCTTCACGCCATAATTCTGCGCGCCACCGTGCGCAAACGGTTCGTACCAACCCATTGGACTCCGTGTCCAAGGCTGTTAGTGCAAATGCCGGGACCGTAGGTCGCCAGGCTGCTGTCATCGCAGCCGCTTCAGGCCTGATCCTGAGCATTGGACTTCCGGCCAACGCCGCGGACACCACCGCCGGCATCTCCGCCTCCACCGAGTCGGGTTCCGCACAAGCTGCACTTGCAGTTACGGCTGCACCCACCGCCACGGTGTCCTTCGAGCGTCCCGTGGTCAAGACCACGGCTGCTCCGAAGGTCGAAACCGTGCGGCCGCAGTCCACCGAGACTGCCACCCGGGCATCCGGAGCCACGGCGACCACCGCCTCAAAGCTGACGGACACCGTCTCCTCTGCTGCGGCGTCGGGTCTGGCGGCCATTGCCTACACCGGAATCGGCAGCCCCTACGTCTGGGGCGGCACAACTCCCAACGGCTGGGACTGCTCCGGCTTCACCCAGTGGGTTTACGCCCAGGCAGGCATCAGCATTCCGCGAGTCAACGCGTGGACCGCAATGAAGCCCACCTCCACACCGTCTCCCGGTGACCTTGTCATGCAGAATGGCGGCGCCCACGTAGGCATCTACGTTGGCAACGGCATGATGATCAGCGCCTTGAACCCCTCACAGGGAACGCTGCTGCACTCTGTCGCCTCCACGGGTGGCGGATCCTTCTACACCCTGAGCTAG	MTPIRIRQLTSQALGEATFVSSRHNSARHRAQTVRTNPLDSVSKAVSANAGTVGRQAAVIAAASGLILSIGLPANAADTTAGISASTESGSAQAALAVTAAPTATVSFERPVVKTTAAPKVETVRPQSTETATRASGATATTASKLTDTVSSAAASGLAAIAYTGIGSPYVWGGTTPNGWDCSGFTQWVYAQAGISIPRVNAWTAMKPTSTPSPGDLVMQNGGAHVGIYVGNGMMISALNPSQGTLLHSVASTGGGSFYTLS	PGPT0023995_3672	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
D1-29_00950	747			hypothetical protein	ATGACTACACGTGCAACTGTTGCACGGCACCGCGCCGAGGTTGTCAAGACCAACTCGCTGGCTGTCATTGCCAAGGCTGTCGGCGACAACGCCGGCGGCGTGGGCCGACAGGCCGCAGTCATCGCTGCTGCCTCCGGCCTTGTCCTGACCAGTGGTATCGCGGCCAACGCTGCTGACACCAACGTTCAGCGTGAATCTGCTTCCACTTCCGCTCTCGGTGTAGAAGCTGCAGCTCCGGCAACTATTTCGGCTGCTTCCACCATCTCCATCTCCTACGAAAAGCCCGCGGTTACCACCACACCGGCTCCCGTCGTCGAGGCACCTGAGCCCGTGGTTGAGGTTCAGGAAGCTCCCGCCGCCAAGCCCGTGGCTTCTGTCAAGGTTGCCGCTGCCGTTCCGGCCGGTCCCGTAGCCGCAAGCAGCAAGGGCCAGGCCATCCTGTCTGCCGCTTATGCGCAGCTGGGCGTCAACCAGGACTGCACCATGCTGGTGACCAACTCGCTTGCAGCGGTAGGCATCAACTTCCACGACTGGCCCGCCGGTTACCTCTCCCTGGGCCGCACCGTCAGTGCTGCCGAGGCCCAGCCCGGCGACCTGATCTACTACGCCGACGGCGGCGCGGGCGTTGCCCACGTGGCTGTTTACGCCGGCAACGGCCAGGCCGTGCACGGTGGCTACAACGGCAACCAGACCGTTGTGTTCAGCGCCAACGTTGGTTCCGGCCCCGTCTTCATCCGCATCCCCTAA	MTTRATVARHRAEVVKTNSLAVIAKAVGDNAGGVGRQAAVIAAASGLVLTSGIAANAADTNVQRESASTSALGVEAAAPATISAASTISISYEKPAVTTTPAPVVEAPEPVVEVQEAPAAKPVASVKVAAAVPAGPVAASSKGQAILSAAYAQLGVNQDCTMLVTNSLAAVGINFHDWPAGYLSLGRTVSAAEAQPGDLIYYADGGAGVAHVAVYAGNGQAVHGGYNGNQTVVFSANVGSGPVFIRIP	PGPT0023995_3643	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
D1-29_00951	501			hypothetical protein	ATGCGCACTCTCGTTCTGAATGCTGGATATGAACCGCTGGCGGTGATCACCTTCCGCCGGGCACTGGTGCTTGTGCTCACGGGTAAGGCAAGCGTGGTAGCGGAAGGCGAGGATCCCGTGGTGGGGCCGCAGGAGATATTGGGCCGCCCGTCCGTGATCCTCCTGAACCGCTACATCCGCCCCCGATACAACCAGAACACCGCGGTCAGCCGCCGCGGTGTCTTGCGCCGTGACGGACACCGCTGCGCCTACTGCGGCAAGGCAGCCCACACCATTGACCATGTTCACCCCAAATCGCGCGGAGGCGCCGATTCTTGGGAAAACCTGGTAGCTGCCTGCCTTCGCTGCAACAACCTCAAAGGGGACCACACCCCGGCGGAAATGGGCTGGAAGCTGAGGTTTACGCCGGAGCCCCCACACGGCACCATCTGGCAGATCAAGGAGCTGGAGAAGCCTACCCCGGCCTGGGACCCTTTCCTGCTGCCGGAACGCGCGGCCTGA	MRTLVLNAGYEPLAVITFRRALVLVLTGKASVVAEGEDPVVGPQEILGRPSVILLNRYIRPRYNQNTAVSRRGVLRRDGHRCAYCGKAAHTIDHVHPKSRGGADSWENLVAACLRCNNLKGDHTPAEMGWKLRFTPEPPHGTIWQIKELEKPTPAWDPFLLPERAA				NA	NA	NA	NA	NA
D1-29_00952	606	mobA_1		Molybdenum cofactor guanylyltransferase	GTGGATCCAGACTTGGAATTTGACGCCGTGATTCTTGCCGGCGGACGCTCCTCCCGGCTGGGCGGCCGGCCTAAACAATGGATGACGTACCACGGCACCACACTCCTTCAGCGGTCCCTTGACGCTGCCCGGGGCGCTGCCGGCGTAGTGGTGGTGGGTCCCCAGGACGGAGCCTTGCCGGGCGGAGTGCTGGCGTGCAGGGAGGACCCGCCGTTCGCGGGGCCCGCCGCTGCTGTGGCAGCCGGGCTGGCCGCGCTGGCCGACGTTCGGCCGCCTAAGCCTTTCACGCTCGTGCTGGCCTGCGACATGCCCAAGGCAGGGACCGCCGTGCAAGCCCTCCGAGGGGCTGTCCATGGCGGGTCCGAGGGAGTGATGGCAGTTGACCAGGATGGCCGCCGGCAGCCGCTGGTGGGGTTTTATAGCACAGCCGCGCTACAACGCTCGGTCCAGGACCTGACCTCCCGCGGTGCCTTAATCAACGCTTCAGTGGGGGCACTACTTGCTAGTCTGGACGTGCAGCTTGTCACCGTCCCGGCCGGGTCCACAGATGATGTGGACACCTGGGACGATGCCGCCGCACTTGGAGTGGCCGGCCAGGAACCGTGA	MDPDLEFDAVILAGGRSSRLGGRPKQWMTYHGTTLLQRSLDAARGAAGVVVVGPQDGALPGGVLACREDPPFAGPAAAVAAGLAALADVRPPKPFTLVLACDMPKAGTAVQALRGAVHGGSEGVMAVDQDGRRQPLVGFYSTAALQRSVQDLTSRGALINASVGALLASLDVQLVTVPAGSTDDVDTWDDAAALGVAGQEP	PGPT0008430_203	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
D1-29_00953	294			hypothetical protein	GTGAAGAGCCAGGATGAAACGCTGGAGGAATGGTGCAGGTCACTGCTCCAGGCCTATGAGCTCGAGGACGTCCAGCTGGACATCAATGCGATCCTTTCGCTCGCCGGCGTGGCTGCCCACTCAGTAGTCCGGCCCGCCGCACCCCTGACAACGTTCATTGCCGGCTTCGCCGCCGGACTCGCCTCCGGCTCAGGGCAGGCCACCGATTCGGCCTCCATGGCGGCAGCGATGGATGTAGCACGTTCCCTGGCCAAGGACTACGACGCTGAAGCCGCCGGGACGCCGGCCGAATGA	MKSQDETLEEWCRSLLQAYELEDVQLDINAILSLAGVAAHSVVRPAAPLTTFIAGFAAGLASGSGQATDSASMAAAMDVARSLAKDYDAEAAGTPAE				NA	NA	NA	NA	NA
D1-29_00954	1509			hypothetical protein	ATGACTGCCGGACCCGGCGAAGAACCAGGGGATCCGGAAAAGCCCCGGGTCCCCGAACCCCAGGAAACGCGGCAGTTCGCCGAAAACCACGAATCCCTGCAGGCCCCTGAAACGCCGCAGGAAGAAGCCGGCCATCTTGCCCACACCTGGCAGGAAGCCCGGACGGCTGCTTTTGAATGTGCCACACCCATTCCTGCCGGACGCGTGCCGCTGGAGCACGCGCTGGGCAGGGTCCTGGCAGGGGATATCACGGCCCTGCACGACATGCCGCACTATGCCTCCTCCGCCATGGATGGCTGGGCGGTTAATGGCAGCGGACCCTGGATAATTGCCGAACCCGGCCAGCGGCTGGCCCCGCACCAGGCTAGTCCGATCGTGACCGGCGGCCTGATCCCGGCTGGCGCCAAGGCGGTGCTGCGCAGCGAAAGTGCCGTCCTGGGGACGGACGACGACGGCCTGCCAATCCTCATGACCGGGGGCACGGCCCGGCCAGGTGAACCGCGGAACGGCCAGCACATCCGTAAGGCAGGCGAGGAAGCAGCGGCTGGGGAAGTACTGGTCCGCGCCGGCGAGGCCCTTAACCCCGCCCATCTGGCCCTTGCCGCACTGGCCGGCCACGATGCGCTGCTGGTCCAGGGAAAACCCGTGGTCAAACTCCTGCTGACAGGCTCCGAAGTGGTCTCGCATGGCGTACCTGAGCCCGGCAAGGTCCGGGACACTTTCGGTCCACAGCTCGCGGCCGTGGTGGGAATGCTCGGCGGGATCTTCGGCGGCCAGGAAAAGATCGGCGATACCTATGCCGAGTGGCTTGAAGGGCTGGAAGACGTCGCCTTGCCACCGGAACCTCCGTCGTCTCCGGAGGGCGGCCAGGACATGCCGGCCCCCGCTGTCCTGCCCGCCGACGTCGTGATCACCACCGGCGGAACGGGCCGCTCCGGGACGGACCATCTGCGCCAGGCGGTGGCCGAACTCGGCGGGCGGCTGATCATTGACGGCATTGCGATGCGCCCGGGTCATCCCGCCGTCCTGGCCGAGCTCCCGGACGGACGCTTTGTGCTGGGCCTGCCGGGCAATCCCTTGGCCGCGATGATGGCGTTATCCACGGTGGGCGAACCGCTGCTGGCGGCGCTTGGCCACGGAACGATGCCGCCGGTCCAGGAGGTCCCCTGCGGGACAACCATCGAGCCGGATTCGGACCGCACCCGGCTGATGCCCTTCCGCCTGCTCTACGGCATGGCGTCTCCGGCCCAGCACACGGGACCCGGCATGATGCGCGGCCTGGCGTCAGCCCACGGCGTGATGGTGGTGCCGCCGCACGGGGTGCAGTTGGGTGAACCTGTACCAGCATTCGCCCTCCCCTGGGGACCTCCGATTCCGGTCCCCGAGCCGGCCGGAGCGAAGTCCAAAGCCAAAACGGGCTCCAGGACAGCGGGACGGACGGCCGGCAAAGCTGCGGCAAAACCTGCTGCGCCGGCCGGACCTGTCGACTGGAGCGCGCTGCTGGGCTGA	MTAGPGEEPGDPEKPRVPEPQETRQFAENHESLQAPETPQEEAGHLAHTWQEARTAAFECATPIPAGRVPLEHALGRVLAGDITALHDMPHYASSAMDGWAVNGSGPWIIAEPGQRLAPHQASPIVTGGLIPAGAKAVLRSESAVLGTDDDGLPILMTGGTARPGEPRNGQHIRKAGEEAAAGEVLVRAGEALNPAHLALAALAGHDALLVQGKPVVKLLLTGSEVVSHGVPEPGKVRDTFGPQLAAVVGMLGGIFGGQEKIGDTYAEWLEGLEDVALPPEPPSSPEGGQDMPAPAVLPADVVITTGGTGRSGTDHLRQAVAELGGRLIIDGIAMRPGHPAVLAELPDGRFVLGLPGNPLAAMMALSTVGEPLLAALGHGTMPPVQEVPCGTTIEPDSDRTRLMPFRLLYGMASPAQHTGPGMMRGLASAHGVMVVPPHGVQLGEPVPAFALPWGPPIPVPEPAGAKSKAKTGSRTAGRTAGKAAAKPAAPAGPVDWSALLG	PGPT0008430_769	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
D1-29_00955	891	fdhD_1	COG1526	Sulfur carrier protein FdhD	ATGGGACGAGTGACCCAGCGCCGGAAGGTGCACAAATATGTCCTGGACGGCTCGCCCAACGCTCTCGAGTTTCCCGTCCGGCACCGCGAGGACGTGCTTGCCGTTGAAGAACCGCTGGAGATCCGAATCGGGACCCTTTCCTTCTCCGTAACCATGCGCACCCCCGGTGACGACTTTGACCTGGTGGCCGGATTCCTGGTGTCCGAAGGCGTTATCTGGGAACCAGAGCAGCTGGTGTCCCTCCGGTTCTGCGCCGGTGAGGACGAAAACGGCGTCCAGACCTTCAATGTGGTGGAGGCCCAGCTCCGGCCTGACGTCCGGATACCGGAAACCGGCCGGAACGTCTACACCTCCAGCTCCTGCGGCATCTGCGGCACGGATTCGATCGACGCTGTCCACAAGTCTTCCCACTACAGCCCTGCCACGGACATGATGACCCTTCCCGCGGAAACCCTGGCCTCCCTGCCCGGCCGGCTTCGGGAAGCCCAGGCAGTTTTCGACGTCACCGGCGGAGTCCATGCCGCCGGCCTGTTTAGCGTCAAGGACGACGGCGACGTGGAGCTTTTGTGCCTCAGGGAGGACGTGGGCCGCCACAACGCCGTGGACAAGGTGGTGGGCTGGGCCCTCCGGGAACGCCTCCTTCCGCTGTCCGGACTGGTTCTGCAGGTATCGGGACGCGCATCGTTCGAACTTGTCCAAAAGGCGGCCCTCGCCGGAATCCCCGTACTGGCGGCCGTCAGCGCGCCCTCCAGCCTTGCCGTGGAGTTGGCGGAAGCCAGCGGCATCACCCTGGCAGGATTCAGCCGCGGCACCAGCCTGAACGTGTATGCCGGACATCAGCGGATCACTCTCCCCGCGCCCGCACGGCTACCTGCTGAGCTGCAAGGATAA	MGRVTQRRKVHKYVLDGSPNALEFPVRHREDVLAVEEPLEIRIGTLSFSVTMRTPGDDFDLVAGFLVSEGVIWEPEQLVSLRFCAGEDENGVQTFNVVEAQLRPDVRIPETGRNVYTSSSCGICGTDSIDAVHKSSHYSPATDMMTLPAETLASLPGRLREAQAVFDVTGGVHAAGLFSVKDDGDVELLCLREDVGRHNAVDKVVGWALRERLLPLSGLVLQVSGRASFELVQKAALAGIPVLAAVSAPSSLAVELAEASGITLAGFSRGTSLNVYAGHQRITLPAPARLPAELQG				NA	NA	NA	NA	NA
D1-29_00956	3006			hypothetical protein	GTGCGCCTGGACCGCTTTGTGCGTGAGCGGGTCATCCCCGCTGTATACACGCGCATGGTTCCGCTGACGCTGACCAGCTGGGATGTACCGGACGAACCAGTGACTGTGATGGAGGCACTGCGGCAGGATTTCGTGCCGCAGGAGCACGGCGCTGCCTGGGGCAAGCCCTGGGGGACCAAATGGCTGAGATTGCAGGGTGATGTCCCTGAGTCCTGGGGTACGGAACCGGACACCACCGTCGAAATGGTGGTCGACCTGGGCTTCACCACAGAAATCCCGGGCTTCCAGTGTGAGGGGATAGCCTGGCGTCCTGACGGCACGATCATCAAGGCGATCTCGCCACGGAACCAGTACATTCCGCTCAAGCTTTTGGGCAGCGGCATGGCCGTGGATTTTTATGTTGAAGCCGCAGCCAATCCGGACGTCGCGCAGGGCTGGACTTTTGCGGCCATGCCCTACGGCGATAAGGCAACGGCCGGAACGGCGCCGCAGTACAGGCTCGGCACCATCGCCATTGCGGAACTGAGCCAGTCGGTGTGGGAGCTCCAGCAGGACATCTGGACGCTGGCGGGGCTGATGCACGAGCTCCCCATGGAGCAGCCTCGCCGCCATGAAATTCTCCGGGCACTGGAACGCATGATGGACCTGATGGACCCGGACGACATTGCCGGAACGGCAGCTGCGGGGCGCGAAGCCCTCGCCGAAGTGCTGTCCAGGCCTGCCTACGCCTCCGCCCACCAGCTCGTTGCCACGGGCCATGCCCACATCGATTCGGCCTGGCTGTGGCCGGTACGGGAAACCATCCGCAAGTGCGCCAGGACCTTCTCCAACGTGGTGTCGCTGATGGACGAAAACCCGGGCTTTGTCTTCTCCTGCTCCTCGGCCCAGCAGTTCGCCTGGATGAAGGAGTTTTATCCGGAACTTTTTGGCCGCATCCGGGAGAAGGTCAAGGCTGGCCAGTTTGTTCCGGTGGGCGGCATGTGGGTCGAGTCGGACACCAATATGCCCGGCAGCGAAGCGATGGCCCGCCAGTTTGTGGAGGGCAAGAGCTTCTTCCTGGAGGAGTTTGGCATCGATTGCCGCGAAGCCTGGCTCCCGGACTCGTTCGGCTACTCCGGCGCCCTGCCGCAGATCGTCAAGTCGGCCGGCAGCCGCTGGTTCCTTACGCAGAAGATCTCCTGGAACCAGCTGAACCGGATGCCCCACCACACTTTCAGCTGGGAAGGCATTGACGGCACCAGGCTGTTCACGCACTTCCCTCCCATTGACACCTATAACTCCGAGTTGAGCGGGCGCGAACTGGCGCACGCCGAGCGCAACTACCGGGACCACGGCCGCGGCAATACGTCGCTTGTCCCGTTCGGATACGGCGACGGCGGCGGCGGCCCCACCCGTGAAATGCTGGCAGCCGCAAGCCGGACGGCTGACCTGGAGGGTTCTCCCAAGGTGCGCATCGGTTCCGCTGAGAGTTTCTTTACCCAGGCAGAGGAGGAATACAAGGCGCTGCCGGTCTGGGTGGGGGAGATGTACCTCGAGCTGCACCGCGGCACCTATACCAGCCAGGCCCGGACCAAACGCGGCAACCGCCGCAGCGAACACCTGCTCAGGGAAGCTGAACTTTGGTGCGCCACCGCCGCTGTCCGGAGCGGGGGATCCTTCCCGTATCCCGCGGCCGAGCTCAAGCGGCTCTGGCGGCTGGTTCTGATGCACCAGTTCCATGACATCCTGCCGGGCAGCTCCATTGCCTGGGTGCACCAGGACGCCGAGCGGAATTACTCGGCCATCGCCTCCGGTTTGGAGGCTCTCATTGCCAGGGCCGCTGCGTCGATGCTCGGTTCCGGATCCCGGGAGTTCCTCCTGAACGCTGCGCCCCACCCCCGCCACGGGGTTCCGGCCCTGGGCGCCGCAGAACCAGTCGCCCCACGCCTGCCCGTGCGGGTGTCCCCGGCGGAGGGTGGCTATGTCCTGGACAACGGGATTGTCAGGGCAGTGCTGGATGCCAACGGACTGATCGTATCCCTGACGGACTACGCCTCGGGACGCGAAGCAATCGCACCCGGCCAGCGTGGCAACCTGTTGGAACTGCACCGCGATACGCCCAATGAATGGGATGCCTGGGACATCGACGAGTTCTACCGCCGCAACGTCACAGCCCTGGCTGACGCCACGGCTGTCAGGCTGGAACAGGACGGCCAGACTCCCGTCGTCGTTGTGGAGCGCCTGGCAGGATCTTCCCCGGTCAGGCAGCGGATCATGCTTGAGGCGGGCAGCGACTCCCTGGCCATCACCACCGCCGTCGATTGGCAGGAGCGTGAGAAGCTCCTCAAGCTGGGCTTTGCCCTGGATGTCCGGGCGGACCGTTCAGCTTCCGAGACGCAGTTTGGCCACGTGTTCCGTCCCACCCATGTCAACACCTCATGGGAGGCCGCGAAGTTCGAAATCTGCGCGCACCGCTGGATTCATGTTGCAGAGCCCGGCTACGGCGTCGCAATTTCGAACTCTTCCAGCTATGGGCACGACGTCACCAGGAGTATCAGGGAGGACGACGGCGGGACCACCACTGCCGTGCGGCTCTCACTGTTGCGTGCGCCCAAGTTCCCGGACCCTGCGGCGGACCGCGGACGGCACGAACTGACGGTAACGATCCGTCCCGGCGCCGGCATCGCGGAGGCAGTTGAGGAGGGATACCGCACCAACCTCACACCACGGGAGATACGTGGCGGCCAGGCAGTGGAACCTCTATTTAGTGTGGGCAATCCCGCCCTGGTCATTGAGGCTGTCAAGCTTGCCGAGGATGGCTCGGGTGATGTGATTGTCCGGCTCTACGAATCCCTGGGGCAGAGGTCTGCGGGGCTGCTCACAGCCAACTTCCCGGTCAGGAGTGTCCACCCCACGGATCTGCTGGAACGGCAGGTGGATGCACCCGGAATTTCGGTGACAGGGCCGGACTCCGTGGATCTGAGCCTGCGCCCCTTCCAGCTGGTGACCTTGAGGTTCGTCCGCTAG	MRLDRFVRERVIPAVYTRMVPLTLTSWDVPDEPVTVMEALRQDFVPQEHGAAWGKPWGTKWLRLQGDVPESWGTEPDTTVEMVVDLGFTTEIPGFQCEGIAWRPDGTIIKAISPRNQYIPLKLLGSGMAVDFYVEAAANPDVAQGWTFAAMPYGDKATAGTAPQYRLGTIAIAELSQSVWELQQDIWTLAGLMHELPMEQPRRHEILRALERMMDLMDPDDIAGTAAAGREALAEVLSRPAYASAHQLVATGHAHIDSAWLWPVRETIRKCARTFSNVVSLMDENPGFVFSCSSAQQFAWMKEFYPELFGRIREKVKAGQFVPVGGMWVESDTNMPGSEAMARQFVEGKSFFLEEFGIDCREAWLPDSFGYSGALPQIVKSAGSRWFLTQKISWNQLNRMPHHTFSWEGIDGTRLFTHFPPIDTYNSELSGRELAHAERNYRDHGRGNTSLVPFGYGDGGGGPTREMLAAASRTADLEGSPKVRIGSAESFFTQAEEEYKALPVWVGEMYLELHRGTYTSQARTKRGNRRSEHLLREAELWCATAAVRSGGSFPYPAAELKRLWRLVLMHQFHDILPGSSIAWVHQDAERNYSAIASGLEALIARAAASMLGSGSREFLLNAAPHPRHGVPALGAAEPVAPRLPVRVSPAEGGYVLDNGIVRAVLDANGLIVSLTDYASGREAIAPGQRGNLLELHRDTPNEWDAWDIDEFYRRNVTALADATAVRLEQDGQTPVVVVERLAGSSPVRQRIMLEAGSDSLAITTAVDWQEREKLLKLGFALDVRADRSASETQFGHVFRPTHVNTSWEAAKFEICAHRWIHVAEPGYGVAISNSSSYGHDVTRSIREDDGGTTTAVRLSLLRAPKFPDPAADRGRHELTVTIRPGAGIAEAVEEGYRTNLTPREIRGGQAVEPLFSVGNPALVIEAVKLAEDGSGDVIVRLYESLGQRSAGLLTANFPVRSVHPTDLLERQVDAPGISVTGPDSVDLSLRPFQLVTLRFVR	PGPT0018760_1267	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0018760-mngB|ypdB|manA-K01191	NA	NA
D1-29_00957	726			hypothetical protein	ATGATCGAAATCCTTCAGTGGTCAACACTGGCCTTGTGCGCCGTCACCGCCGCGGCCCGGATTCCCAGCGCCCTCCGCGGGCAGAACCGGGCTGTTTTCTACATCTTCGCGCTCTTGACAGTAGCCATCCTGCTCAGCATCGAGGCACCGTACGTTGCCATCGATCAGGCTCTGGGCGGCATCAACGTTGCCAACCTCATCCTCCGTTTTGTCATCTTTGCTGCCATCTTTTTCGTGGGCATCCGCGTGACCAGGGGTTTCGGGGCGGTCGAAGGGCACCGCTTCATTACGGGGCGGATCGGAATCAGTGTCCTGGCGCTGATCTCCGTCGCAGTGCTGGTGCTGTTCCTGATGATGGATACCGCCGGCTCCTCGGCAGGCATGGCGGCCGTATCCGGCAAGGATGCCCGCAACGGCCTGTTGGCTGAGCTCTATGGTGCCGCCGGCCGCGCCTACCCCGCCTATGCCTCGCTCGCCTTGCTGCCTGCCATGGTAAGGGCGGTCCGGAGCAGACTGCCGGCAATGGTGCGGTTCGCGGCCTTCCTGCTGGCAGCGGGAGCGCTGACCATCGCCCTGACGCTGTTGTTCCCTCTGGTGCCGCCGCAGTGGGGCACCGCCGAGTTCATCATCAATTACACAGCTGTCCTGTGCTTTGTGGTGGGGCTCGGGCTGATCTGGGCGGCGAGGATCCGGTACGGACGCAATGTGGTGCGCTCAAAGACTTAA	MIEILQWSTLALCAVTAAARIPSALRGQNRAVFYIFALLTVAILLSIEAPYVAIDQALGGINVANLILRFVIFAAIFFVGIRVTRGFGAVEGHRFITGRIGISVLALISVAVLVLFLMMDTAGSSAGMAAVSGKDARNGLLAELYGAAGRAYPAYASLALLPAMVRAVRSRLPAMVRFAAFLLAAGALTIALTLLFPLVPPQWGTAEFIINYTAVLCFVVGLGLIWAARIRYGRNVVRSKT				NA	NA	NA	NA	NA
D1-29_00958	738			hypothetical protein	ATGCCCCTCCCCGCCAAGGCGTTCCAGCGCTGGCTGCAAGGCATCGCGCCGGACACCAGCACGGCTGACGTCTGCCGGATTTCCGGGATCAAACGGACAACCCTGGCCCAGCAGTTGGTCCGCGGCAAGGTCGCGGAAACCACCGTGGTGAGCATCAGCCGGGCCTTCAACATCAATCCAGTGACGGCGTTGGCCAGCTTCGATGTGTTCCGGGAACTCGCCGACCCACAACCTCCTCCCACCAGGTCCGAACTGGTTAGCCAGGTTTCGACTCCCGATCTCCTGCGGGCGGTGCTCGCCCGCGAGTCGGTGGATCCGGCGGCGCAGCCCACCACCGAAAGGCCGGACCTCAGCCCGGCGCCGCATTCCACCTCCGTCAAGAACTGGGTGGAAGCCATCGACGACGGCGAACTGCGGCACCGTGTGTCGGTTGCCACGGGCATCGCGCCGCAGAATTACTCGGCACAGCTGACCGCAAACAGGCTTTCCCCGGAGCTGGCCCTGGCCACGTCCCTGGCTGCCGGCGTTGGCCCTGCCGGCGGCCTCGTGGCCACCGGCCTGATCACCGAGGAGGAGGCAGGGTGGCCGGCGAGGGCCAGGCAGGCAGCCTTGGACGCCCTGACGGACGGGGAGCTGACGACGCTCGCCGGAGAACGCCTGCAGGCATTGGGCAGGACGCTTCGCCGCCAGGAACACGATCAGGAACAAACCAACAAGATCTGGGAGAACCTGGGATGA	MPLPAKAFQRWLQGIAPDTSTADVCRISGIKRTTLAQQLVRGKVAETTVVSISRAFNINPVTALASFDVFRELADPQPPPTRSELVSQVSTPDLLRAVLARESVDPAAQPTTERPDLSPAPHSTSVKNWVEAIDDGELRHRVSVATGIAPQNYSAQLTANRLSPELALATSLAAGVGPAGGLVATGLITEEEAGWPARARQAALDALTDGELTTLAGERLQALGRTLRRQEHDQEQTNKIWENLG				NA	NA	NA	NA	NA
D1-29_00959	1638	ettA_1	COG0488	Energy-dependent translational throttle protein EttA	ATGACTGCAACCCTTGTTGCCAAAGAACTTTCCGGTGGTCACGACCACCGCACGCTCTTCTCAAAGCTTTCCCTGACGGTGGCGCCCGGTGACGTGGTGGGGGTGGTTGGTGCCAACGGCGCCGGCAAGTCCACCCTGCTGCGACTGCTGGCCGGGGTTGACCAACCGCAGGATGGAACCGTCAGCCTTGCCCCAGCCGACGCCTTTGTAGGCTGGCTTCCGCAGGAGCATGAACGGGTAGCCGGCGAAACCGTTGCGGGCTATATTGCACGCCGGACCGGCTGCGCCCAGGCCACCGCCGAGATGGAGTCCACCGCGGAGGCCCTGGGATCTTGTGCTCCGGGTGCTGATGATGCCTATTCGCTGGCTTTTGACCGCTGGATGGCGTCGGGCGCGGCGGACCTGGATGAGCGGCTTCCGGCTGTTCTTGCGGACCTGGGCCTGGAAACCGGGCCGGATGCCCCCATGACCGGGCTCTCCGGCGGCCAGGCCGCCCGGGTGGCCCTGGCGGCCCTGCTGCTGAGCCGCTTCGACATTGTGCTGCTGGATGAACCAACCAATGATCTGGACCTGGCTGGACTGGCCAAACTGGAGGCCTTCGTCCAGGGGCTTCGCGGCGGGGTGGTCCTGGTGTCCCATGACCGGGAATTCCTGGCCCGCTGCGTCACCACCATTGTAGAACTGGACCTGGCCCAGAACTCCGTGGCTGTGTACGACGGCGGCTACGAGGCTTTCCTGGAGGAACGGGCCGTGGCACGCCGCCATGCAAGGGAAAGATTCGAGGAGTTTGCCTCCACCAAGGCGGATCTGGTCTCCCGCGCGCGTACCCAGCGTGAATGGAGCTCCCAGGGAGTTCGAAACGCCATGAAGAAGAGCCCGGACAACGACAAGATCAGGCGCGCGGCCAGTACTGAATCCTCGGAGAAGCAGGCGCAAAAAGTTCGGCAGATGGAATCGCGGATTGCACGGCTGGACGTGGTGGAAGAGCCCCGGAAGGAATGGCAACTGCAGTTCACCATTGGGCAGGCAGCGCGGTCCAGTGCCGTGGTGGCCACGTTGCGGGATGCTGTTGTGCACCAGGGAAGCTTCACCCTGGGCCCGGTCAACCTCCAGCTCAACGCCGGCGAGCGGATCGGTATTACGGGCCCGAACGGCGCAGGCAAGTCCACCCTTCTGCGGCTGCTGCTGGGCGTGCAGGCTCCGGACTCCGGGAACGCTGCCCTGGGTGCTTCGGTGGCCATCGGCGAGATCGATCAGGCGCGCGGCCTCCTGGCGGGGCACCTCAGCCTGGCGGACGCCGTCGAGGCCGTGCTCACGGACCAGACTCCTGCGGAAGTCAGGACGCTGCTGGCGAAGTTCGGGCTGAAAGCTGACCACACGGCACGCTCCGTGGATTCGCTCTCGCCGGGTGAACGGACCCGGGCAGCCCTGGCCCTGCTCCAGGCCCGCGGCGTGAACCTGTTGGTCCTCGATGAGCCCACCAACCACCTCGATCTGCCAGCCATTGAGCAACTGGAAGAGGCGCTGGGAAGTTATGAGGGCGCTTTGCTGTTAGTTACCCATGACCGCAGGCTGCTGGAAAACGTCCAGCTGGACGTGCGGTGGAATGTGGAAAACGGGACGGTAACTGAACTATGA	MTATLVAKELSGGHDHRTLFSKLSLTVAPGDVVGVVGANGAGKSTLLRLLAGVDQPQDGTVSLAPADAFVGWLPQEHERVAGETVAGYIARRTGCAQATAEMESTAEALGSCAPGADDAYSLAFDRWMASGAADLDERLPAVLADLGLETGPDAPMTGLSGGQAARVALAALLLSRFDIVLLDEPTNDLDLAGLAKLEAFVQGLRGGVVLVSHDREFLARCVTTIVELDLAQNSVAVYDGGYEAFLEERAVARRHARERFEEFASTKADLVSRARTQREWSSQGVRNAMKKSPDNDKIRRAASTESSEKQAQKVRQMESRIARLDVVEEPRKEWQLQFTIGQAARSSAVVATLRDAVVHQGSFTLGPVNLQLNAGERIGITGPNGAGKSTLLRLLLGVQAPDSGNAALGASVAIGEIDQARGLLAGHLSLADAVEAVLTDQTPAEVRTLLAKFGLKADHTARSVDSLSPGERTRAALALLQARGVNLLVLDEPTNHLDLPAIEQLEEALGSYEGALLLVTHDRRLLENVQLDVRWNVENGTVTEL				NA	NA	NA	NA	NA
D1-29_00960	1914		COG1132	putative ABC transporter ATP-binding protein	ATGAGCATGGAAGGGGTGGCCTGGAACTCCCTGTACAAGATCACCAGGGCCAAGAGCGGCTCCAAGCCGTTCTCCAAAGCCACCCTGAAGCGGGTCCTCGGCTTCGCCCGCCCGCACCGCGGGAAACTCATTGCCTTCGTGGCACTGTCCATCGTGATGGCGTTCCTCGCAGTGGCCACGCCGGTCCTGGCCGGCCAGGTGGTGGATGCCATTGTCGCCAAAGCAGGGGCTGACGAAGTGGTCCGGCTGGCGGTGCTTATTGCACTCGTGGCGCTTGCCGAGGCCGGCCTGGGACTGGTGAGCCGCTGGCTCTCGTCCACCATCGGCGAAGGCGTGATCGTGGGCCTTCGCACCAGGGTCTTTGACCACGTGCAGAAGATGCCGATCGCCTTTTTCACCCGCACGCGCACGGGCGCCCTGGTCAGCCGTCTGAACAATGACGTCATCGGTGCCCAGTCGGCCTTCGCCGGCACGCTATCCGGCGTGGTCAGCAACGTGGTGGCGCTGATCCTGACATTGATCGTGATGCTCGGTACCTCCTGGCAGGTAACCGTCCTGGCGATGATCCTGCTGCCGGTCTTCCTCATCCCCGCCCGCCGCATGGGTTCCAAGCTGGCAGACCTCCGGCGTGAGGCCGCAGAACACAACGCCGCCATGGGCACCCAAATGACCGAGCGGTTTTCCGCCCCGGGTGCCACGCTGGTCAAGCTCTTCGGCCGGCCGGAGGAGGAATCACGGGAATTCGCGGTGCGCGCCGGCCGGGTCCGGGACATCGGCATCCGCACGGCCATGCTGCAGTTCACCTTCGTCACCGCGCTGACCCTGGTGTCGGCGCTGGCCCTGGCGCTGGTCTATGGGCTGGGCGGCTGGATGGCCATCACCGGGCAACTCGCAGCGGGCGACGTCGTGGTGCTGGCCCTGCTGCTCACCCGCCTATACGCCCCGCTCACCGCGCTCTCCAACGCCCGGGTGGAAATCATGAGCGCCCTGGTCAGCTTTGAGCGCGTCTTTGAAATCCTGGACCTCAAGCCCCTGATCCAGCAAAAGCCGGACGCCGTGGCCGTGCCGCCGGGGCCCGTGTCCGTTGAGTTCGACGACGTCCGTTTCGCCTATCCGTCCGCTGACAAGGTGTCCCTTGCCTCGTTGGAGGAAGTGTCCACGCTGGACACCCGCGGCGGCGATGAAGTGCTGCACGGCATCAGCTTCCGGGTGGAGCCCGGCCAGACTGTTGCGCTGGTTGGCTCCTCCGGCGCGGGCAAGTCCACTATCGCGCAGCTGCTGTCCAGGCTCTACGACGTTGACTCCGGCGCCGTCCGCCTGGGCGGAACCGTGCCGGGGACTGGCCTGGACGTCCGCGACGTGACCTTTGACTCCCTGCGCGACACCCTGGGCATGGTCACCCAGGACGGCCACCTGTTCCACGAAACAATCGCCTCCAACCTGCGCCTGGCGCGGCCGGAAGCCACCGAGGACGACATGTGGGACGTCATCCGGCAGGCCCGGCTGGAAACAATGATCCGTTCCCTGCCCGACGGCCTGGAGACCGTCGTGGGGGAGCGTGGCTACCGGCTCTCCGGAGGCGAACGGCAACGGCTCACCATCGCCCGGCTCCTGATCGCGCAGCCCAGGGTAGTGATCCTGGACGAGGCAACAGCCGCTCTGGATTCCACCAACGAAGCCGCCGTGCAGGCTGCACTGGGCGCAGCGCTCGAGGGGCGCACCGCCGTCGTGATTGCCCACCGGCTGTCCACCATCCGGGCCGCGGACGTCATCCTGGTGGTGGAGGATGGAAGGATCGTGGAACGGGGCACGCACAATGAGCTCCTTGCGGCCGACGGCCGGTATGCCGAGCTGTACCGGACGCAGTTCGCCGAGGCCACGGCCGTGGCGGAGGAAGCCGTTCCGGAGTTCTAG	MSMEGVAWNSLYKITRAKSGSKPFSKATLKRVLGFARPHRGKLIAFVALSIVMAFLAVATPVLAGQVVDAIVAKAGADEVVRLAVLIALVALAEAGLGLVSRWLSSTIGEGVIVGLRTRVFDHVQKMPIAFFTRTRTGALVSRLNNDVIGAQSAFAGTLSGVVSNVVALILTLIVMLGTSWQVTVLAMILLPVFLIPARRMGSKLADLRREAAEHNAAMGTQMTERFSAPGATLVKLFGRPEEESREFAVRAGRVRDIGIRTAMLQFTFVTALTLVSALALALVYGLGGWMAITGQLAAGDVVVLALLLTRLYAPLTALSNARVEIMSALVSFERVFEILDLKPLIQQKPDAVAVPPGPVSVEFDDVRFAYPSADKVSLASLEEVSTLDTRGGDEVLHGISFRVEPGQTVALVGSSGAGKSTIAQLLSRLYDVDSGAVRLGGTVPGTGLDVRDVTFDSLRDTLGMVTQDGHLFHETIASNLRLARPEATEDDMWDVIRQARLETMIRSLPDGLETVVGERGYRLSGGERQRLTIARLLIAQPRVVILDEATAALDSTNEAAVQAALGAALEGRTAVVIAHRLSTIRAADVILVVEDGRIVERGTHNELLAADGRYAELYRTQFAEATAVAEEAVPEF				NA	NA	NA	NA	NA
D1-29_00961	405			hypothetical protein	GTGAAGCCCAGAATCGTTGTCTCCGCCGTGTGTGTTTTCGACGACGCCGGACGCCTGCTGACCGTCCGCAAACGCGGCACCGGCATGTTTATGCACCCCGGTGGAAAGCCCGAACCCGGCGAAACCGCAGTGCAGGCGGCAGCCCGGGAGCTCGCAGAGGAGGTGGGCATTGTCCTGGATCCCCGCGAGCTGGAGCTGATGGGCATCTGGATCGCCGACGCCGCCAATGAGGCCGGCACCGACATCGAAGCCACCGTGTTCAAAGCCCCGGGAACCTGGACGGCACATCCATCGGCCGAGATCGCGGAGATCCGCTGGCTGGACCTGGCCGCTAAACTGCCGCAGGACCTCGCTCCCCTGCTCACGGACCACATCCTCCCGGAGCTCGCCGCCTCCGGACGCTGA	MKPRIVVSAVCVFDDAGRLLTVRKRGTGMFMHPGGKPEPGETAVQAAARELAEEVGIVLDPRELELMGIWIADAANEAGTDIEATVFKAPGTWTAHPSAEIAEIRWLDLAAKLPQDLAPLLTDHILPELAASGR	PGPT0021230_1527	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876	NA	NA
D1-29_00962	513			hypothetical protein	TTGAACGTTTCCGAGAAGGAATTCGACCTTCGCGCCTACCTGCTCGGCGCCACTGAGTCCGCTCCTTTGATGGCCGGCCGCTGGACCATTGAACGGCAGTTGCTGGACCGCGCCACAGGCACCCACGGAACCTTTTCCGGCGTCGTCCGGTTCTCCGTGACGGACGACGGCGGCCTGGCCTACCAGGAGGAAGGCACCATGCGCTGGCCCTCCTTCACCGGACCGGCCACGCGCGAATACCTCCTGAAACCCGCCGGCGGGCCAGACGCGCTGGACGTCCTCTTCGCCGACGGACGTCCCTTCCACCGGATGAGTTTCAGCCCGGAAGCCAACCTGGACCGGCATTGGTGCGATCCGGACACTTACCGCGTGGCCTATGCCATGGAGGGTCCGGACCGGTTCAGCTACACCTGGGACGTCAAAGGCCCCAACAAGGACCTCCTGCTGGCCTCCACCCTGAAACGCCTGGCCGGGACGCCCGGCGCCCAAGCACCGTTAGGCTCGGAAGCGTGA	MNVSEKEFDLRAYLLGATESAPLMAGRWTIERQLLDRATGTHGTFSGVVRFSVTDDGGLAYQEEGTMRWPSFTGPATREYLLKPAGGPDALDVLFADGRPFHRMSFSPEANLDRHWCDPDTYRVAYAMEGPDRFSYTWDVKGPNKDLLLASTLKRLAGTPGAQAPLGSEA				NA	NA	NA	NA	NA
D1-29_00964	759			hypothetical protein	ATGTCCGCTCCAGCCCTGGCCTACATTCCCGACACAGCTTCCACCAGGCAGTACATCGGGGCATGGTCAGTCCTAAGCGTGCTGCAGTATTTTGCCGCGGAAGCTGCGGTGATCGGCGGCTGGGCCGGACCGCAGCCCTACGACCGGCGGACGGGCTACATCAGCGATCTGGGGGCGGTCCACTGCGGCGTCTTCGACGGCCGGGACGTCTGTTCGCCGCTGAACTGGCTCATGAACGCCTCGTTTGTTGTTCAAGGCCTGGGAATGCTGCTCGGGGCGCTGCTCCTCAGTTCAGGGCTGCTCTGCATCGCGGCGAGGGCCGGTGCCCGTGTCCAGCCCGGACCCCGCAGGAAGCCCTGGCTGGCGGCGATCTGGGTTCGGATATTTGTCGGAACCGCCGGCGCGGGCACCGTCATCGTGGGTCTGGTTCCCGAGGATGTGGGTTCGGGCTGGCATTTTGCCGGTGCTGTTATGTACTTCATCGCAGGGGCCTTGGGACTGTTGGTTTTGGGGGTCCTCTGGCTGGACCAGTCGCCGCTGGGATGGTTCATCCTGGTGTGCGGAGTGGTGTCTGCTGCCGCTCTCGCTACTGGCGCACTCACGCGGATGGACGTTCCGGAGCCCGGGACGCTGGAACGCCTGATGGGCTATCCGGTCACGCTGGGAGTGGCAACTGCCGGCCTGGTGATAGCTCAGCGGGTGCACCGGCACCGGAAGGTCCGCAAAGCCACCCGGGCCCAGGCGGTTGCACCGCACTGA	MSAPALAYIPDTASTRQYIGAWSVLSVLQYFAAEAAVIGGWAGPQPYDRRTGYISDLGAVHCGVFDGRDVCSPLNWLMNASFVVQGLGMLLGALLLSSGLLCIAARAGARVQPGPRRKPWLAAIWVRIFVGTAGAGTVIVGLVPEDVGSGWHFAGAVMYFIAGALGLLVLGVLWLDQSPLGWFILVCGVVSAAALATGALTRMDVPEPGTLERLMGYPVTLGVATAGLVIAQRVHRHRKVRKATRAQAVAPH				NA	NA	NA	NA	NA
D1-29_00965	627			hypothetical protein	ATGGCCAAAACCCCTGCACAGCGGATCAAAAAGCACGGCACCAAGGCTGCTGTTCCGCAGCACCACCTTCCGCCGGTGATCAACCCCACCACAGCCCGCTCGCCGCAAAAGGCCCAAAGCAACAGCAACCTCATCGTCGTTGCGGGAGTGGTGGCCAGCCTCTTCCTGTTCTGGTACGTCCACCTGCTGACCCTGAACCAGCTGACGCAGCTCTCGGGCGGCCTGGCCATGCCAGATTCCCTGCTGGGCGGCTTCGACGCCGGCTACATCGAACGGCTGCGCGGTGCCATGGACGACGACGCCCGCGGCCAGCTGAACTACATCCACAAGACGGCCGGAACCCTTTTCCCGCTGATCTTCGGCTTTACCTGGGTGCTGCTGATCGGCACCAACGTTGCACGCAAGGGGCTGCGCTGGGCCCTGTGGGCGGCCCCTCTGCTGTTTGTGGTGGCCAGGCTCTGGGGAAACGTAGCAGTTGATTCCGTGCTGGCTTCTGAAGCGCCCGACGCCGGGCAGGTTGCCCTGGCGTCCGCGCTCACCGTCGCCGGTTGGGTCCTGCTGGTCCTCAGCCTCCTGGCCGGGGCGGCGGCGGTCTTTTTGCGCCGCGCGCGCCGTCAAAACAACTGA	MAKTPAQRIKKHGTKAAVPQHHLPPVINPTTARSPQKAQSNSNLIVVAGVVASLFLFWYVHLLTLNQLTQLSGGLAMPDSLLGGFDAGYIERLRGAMDDDARGQLNYIHKTAGTLFPLIFGFTWVLLIGTNVARKGLRWALWAAPLLFVVARLWGNVAVDSVLASEAPDAGQVALASALTVAGWVLLVLSLLAGAAAVFLRRARRQNN				NA	NA	NA	NA	NA
D1-29_00966	831	suhB_1	COG0483	Fructose-1,6-bisphosphatase/inositol-1-monophosphatase	ATGACCATTGGCCGGCACAGCGCTGTTGAACTTGACCCCTCTCTGGACGACTACCAGTTGGCATCCGCCCTGGTCCGGGAGGCCGGCCAACTGGCGCTCCTCATGCGCATGGCGGGCCTGCAGTCCCAACAGAAAACGTCCATCTCGGACGTGGTGACGGCGGCGGATCACGCCGCGGAGGCCTACGTGCTGGAGCAGCTGCAGCGCTGCCGGCCGGAGGATGGAATCCTGGGTGAGGAGGGTGCCTCTGTCCAGGGCCGCAGTGGCCGAACGTGGGTCATCGACCCCGTGGACGGCACCTACAACTTCCTGCACGGCTCCACCTACTGGTGCTCAGCCATCGCCCTGAAAGACTCCTCCGACGTGCTCCTGGGTGCCATCTTCCAGCCCGAGGAAGACAAACTCTGGCTGGGCGGCAGCGGGCGGCCGGCCACGCTGAATGGCGAGGCACTCACCGTCTTCCATGACAACAGCGGAGCACGCAATGGCACTGCTGTGGCGGAATTTGGTGCGGCCACCTACATCCACCCCAGCTGGCTTATGGACCCACTCTGCGCCATGCCATGGCATGCGGCCGCAACGTCCGCCGCGGCTTTACGAATGCTTGGCTCCGGATCCTGCGACCTTGGCAGGGTGGCGGACGGCCAGCTGGGCTGCTGGTTCCAGCACAGCTGCCCGGAGTGGGACTGGCTGCCAGGCAAGGCAATCGTCCGCGCCGCCGGCGGCGCCACGGACACCGTCCGGGTCAACGGGCTGGAATGGTTTATGGCCGGAGGCACGACGGCGGTGCGCGAGTTGCGTGCGGCCCTGCAGTCCGCCTCGGTGGGCTAA	MTIGRHSAVELDPSLDDYQLASALVREAGQLALLMRMAGLQSQQKTSISDVVTAADHAAEAYVLEQLQRCRPEDGILGEEGASVQGRSGRTWVIDPVDGTYNFLHGSTYWCSAIALKDSSDVLLGAIFQPEEDKLWLGGSGRPATLNGEALTVFHDNSGARNGTAVAEFGAATYIHPSWLMDPLCAMPWHAAATSAAALRMLGSGSCDLGRVADGQLGCWFQHSCPEWDWLPGKAIVRAAGGATDTVRVNGLEWFMAGGTTAVRELRAALQSASVG	PGPT0018535_2244	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
D1-29_00967	2553	uvrD1	COG0210	ATP-dependent DNA helicase UvrD1	ATGGATATGTTGTTTGACCCGTACTCTGACGGACCGTTCAAGGCCGCTTCCAAAGCTGCCACCTTCACCAAGTCGCGCCCGGAAGTCCTTGCGGCGGGGGCGGAAGTCAGCGGCGGCGGTGCCGACTCCCACCCCGCCCGCTGGAAGAAGCCGGCACCCCAGGAGCACGGAGACCAGCCTGAGGGCAGCCGCATGGCGCGCCACCGGCCGGACGCCGCCCAGCTGCTGCAGGGCCTGAACCCGCAGCAGGAGGAGGCCGTCAAACACTCCGGCAGTGCCCTGCTTATTGTCGCCGGTGCCGGGTCAGGCAAAACCAGGGTGCTCAGCAACCGGATCGCCTACCTCATCGCCACCGGGCGTGCCCATCACGGCGAAATCCTGGCCATCACCTTCACCAACAAGGCCGCCGCGGAAATGCGTGAGCGCATTGAAGCATTGGTGGGCGGCCGGGCGAAAATCATGTGGATCTCCACCTTCCACTCGTCCTGCGTACGGATCCTGCGCCAGGAAGCCGCCAACGTCGGCCTAAAATCCAACTTTTCGATCTACGATTCCGCCGACTCCCTGCGGCTCGTGACCCAGGTGTCCAAGAGCCTGGACCTGGACCCCAAGAAGTTCGCGCCCAAAGCCATCCAGCACAAGATCTCGGCGCTGAAGAACGAACTCATTGACGCTGACTCCTTCGCCTCAGCCGCCAATTTCAACGACCCCTTCGAAAGCGCCGTTGCGGACGTCTTCAAGGGCTACACCCAGCGGCTGCGGCAGGCCAACGCTATGGACTTTGATGACCTCATCGCCGAGACCGTCTACATGTTCCGGGCCTTTCCGGCGCTCGCCGACTCTTACCGCCGGCGTTTCCGCCACGTCCTGGTGGACGAGTACCAGGACACCAACCACGCGCAGTACGCGCTGGTTCGGGAAATTGTGGGCGAGGGGCCCGGAGCCTCCGAACTCACCGTGGTGGGCGACTCCGATCAGTCCATCTACGCCTTCCGCGGAGCCGACATCCGCAACATCGTCGAGTTTGAGAATGACTACCCCGAGGCGCGCACCATCAAGCTGGAGCAGAACTACCGCTCCACGCAGAACATCCTGACCGCAGCCAACTCGGTCATTTCCCGCAACCCCAACCGCCCCGAAAAAAGGCTGTGGACGGCTGAGGGCGAAGGCCACAAGATCGTCGGCTACGTGGGCGAAAACGAACACGACGAAGCCCAGTTCATCGCCAAGGAGATTGACCGGCTCCAGGATGAGGACAATCTTCGCCCCGGGGACGTGGCCATTTTCTACCGCACCAACGCCCAGTCCCGCTCCATCGAGGACGTCCTGGTCCGCGTGGGCCTGCCATACAAGGTGGTGGGCGGCACGCGCTTCTACGAGCGCAAGGAGATTAAGGACGCCCTCGCGTATCTGCGGGTCCTGGTCAACCCGGACGACGACGTCAACCTGCGCCGGGTGCTCAACGAACCGAAGCGAGGGATCGGTGACCGCGCCGAGGGCGCCGTGGCTGCCCTGGCGCAGCAGGAGCGGATGTCCTTTATGGCTGCGGCGCGGCGTGCCGAGGAAGCTCCCGGCATGGCCACGCGTTCGGTCAACGCAGTCCTGGGTTTTGTGAAACTCCTGGATGACCTCGCCGAAGTAGCTTCAGGGTCCGGCGCCGCCGCGGCACTGGAGGCCGTACTGGAACAGACCGGGTACCTGGCCGGGCTGCGTTCCAGTACGGATCCACAGGATGAGTCCCGCGTGGAAAACCTGGCAGAACTCGTCGCCGTCGTGCGCGAATACGAACAGGAAAACCCCGAAGGTTCACTGGGCGCTTTCCTGGAGCAGGTATCCCTGGTGGCGGATGCCGACCAAATCCCTGACGCCCCCGGCTCCAACCCCGAAGAGACCGCCGCTGCCGTCGCCGAAGCCAGGCGCCTCGGTGTGGTCACCCTGATGACGCTGCACACGGCCAAGGGGCTGGAATTCCCTGTGGTGTTCCTGACCGGAATGGAGCACGGGCTGTTCCCGCATCAGCGGTCCGCCACCGATCCCAAGGAACTGGCCGAGGAACGCCGGCTTGCCTACGTGGGCCTCACCCGGGCCCGGAAGCGGCTCTACGTGACCCGTTCGGAAGTCCGCAGCATGTGGGGGCAGAGCCAGTACAACCCCGCCAGCCAGTTCCTGGAGGAGATTCCCTCCGAGCTGGTGGAATGGAAACGCGAAGGTTCCAGCAGGCAGACCGGAGGCTGGGGGAGCGGGCCGTCCATCGGCTCCAGCCGCTACGGCGGGTCCTTCTGGGGTGCCGGCACGGCCCGCGGGGCTGCCGCGGATGCCAGCGCCGGCTTCAACTCCGATGTTCCGGCCGCCATCGCCAAGAGCCGTGTGCAGCCGCAGAAGGAAATTGTCGCCGTCACCGTGGGGGACAAAGTCAACCACACCAGCTTCGGCAACGGCACTGTCCTTGCTTTGGAGGGTGCCGGGGACAAGACCGTCGCCAAGGTGAAGTTCGACGTCGGCGAGAAGCGCCTTCTGCTGCGTTACGCTCCGCTGACCAAACTCGACGCCTAA	MDMLFDPYSDGPFKAASKAATFTKSRPEVLAAGAEVSGGGADSHPARWKKPAPQEHGDQPEGSRMARHRPDAAQLLQGLNPQQEEAVKHSGSALLIVAGAGSGKTRVLSNRIAYLIATGRAHHGEILAITFTNKAAAEMRERIEALVGGRAKIMWISTFHSSCVRILRQEAANVGLKSNFSIYDSADSLRLVTQVSKSLDLDPKKFAPKAIQHKISALKNELIDADSFASAANFNDPFESAVADVFKGYTQRLRQANAMDFDDLIAETVYMFRAFPALADSYRRRFRHVLVDEYQDTNHAQYALVREIVGEGPGASELTVVGDSDQSIYAFRGADIRNIVEFENDYPEARTIKLEQNYRSTQNILTAANSVISRNPNRPEKRLWTAEGEGHKIVGYVGENEHDEAQFIAKEIDRLQDEDNLRPGDVAIFYRTNAQSRSIEDVLVRVGLPYKVVGGTRFYERKEIKDALAYLRVLVNPDDDVNLRRVLNEPKRGIGDRAEGAVAALAQQERMSFMAAARRAEEAPGMATRSVNAVLGFVKLLDDLAEVASGSGAAAALEAVLEQTGYLAGLRSSTDPQDESRVENLAELVAVVREYEQENPEGSLGAFLEQVSLVADADQIPDAPGSNPEETAAAVAEARRLGVVTLMTLHTAKGLEFPVVFLTGMEHGLFPHQRSATDPKELAEERRLAYVGLTRARKRLYVTRSEVRSMWGQSQYNPASQFLEEIPSELVEWKREGSSRQTGGWGSGPSIGSSRYGGSFWGAGTARGAAADASAGFNSDVPAAIAKSRVQPQKEIVAVTVGDKVNHTSFGNGTVLALEGAGDKTVAKVKFDVGEKRLLLRYAPLTKLDA				NA	NA	NA	NA	NA
D1-29_00968	1296	rebG_1		4'-demethylrebeccamycin synthase	ATGAATATCCTTTTCGCCAGCCAGGCCGTTGACGGCCACTTCAATCCGATGACAGGCGTGGCCGTCCGCCTCAAGGAGCGGGGCCACAACGTTGCGTGGTACACCGGCCCCGTGTTCGCGGAGAAGCTCGGCCAGCTCGGCATTGCGCATTTCCCCTTCCGCCGCGCCATTGAGCACCGGGCGGACAACCTCAATGAGCTGTACCCGGAACGGGCCAAACTGAAGGGGCCCCGGGCGATCGGCTTCGACGGCGAAAAGATCTTCGCCAGCAACATCACCAATTTCTTCGAGGACATCAAGGAACTGCAGCAGGACTTCCCGTTTGACGTTGTGGTCGCGGACAGCTCCATGTTTATCCAGCGGCTTGCTTCACGTCTGCTGGGAAAGCCGGTGGTGAGCTTCGTGGCGGTTCCAAACATGGAAAGTGATCCGTTGGTGCCGCCGCTCTTTTTCGGGTTCAAACCGCCGCGGAACCCGGGAGAAAAGGTGCTGCAGACCGCAGCCGGGCTGCTCTCCGACAAGGTCATTCTCAGGCCTGCCAGTCTCAGCTACCGCCGCCAGCACGCCGCGTACGGGCAGGAAGTGCCCCGGCATGGCAGGTTGACTGATGAGCCGTACCGCTGCTCGGCGGCCATCATCCAGACTGGACCGGAGTCCCTGGATTTCCCCCGCCGGAACGTGAATGCCAAAGTCCATTACGTCGGAGCGCTGCCGCCCTACCGCGCCCCTGCCACTGACCGTTCCGAAGGCCGTGACAATGGCTGGGCGACTTACCCCAACACTTTCCTGGTTACCCAGGGAACCGTGGACAACCTGGACCACAACAAGCTCATCGTTCCGGCCCTGGAAGCCGTAAAGGACATGGACGCGCTGGTGATTGTTGCCACGGGGGGCCGCGGCACGGAGGCGCTCAAGGCACGGTACCCGCAACCCAACATCATCGTGCGGGACTACGTGGATTTTGCCCAGGTCTTCGAGTTCGCCGATGTCTTCATCAGCAACGGCGGGTTTGGTGGGGTACAGCTAAGCCTGTCAAAGGGCGTTCCACTGGTGGTCGCGGGCATTAACGAGGGCAAAAGCGACGTCAACGCCAGGGTGGAATACGCAGGGGTGGGCATTAGCCTCAGAACAGAGTCGCCAAAACCCGGCGACATTGCCAAGGCAGTCACCCAGGTCCTCACAGAACCAGGCTGGAAAAATAGGGCCCGGCACATGAGCGAACAGTTCAAGGCGCAGGATCCGGCCGAAGCCGCTGCCGACGTCGTGGAGGGCGTTGTGGGTCCCGCCGGGGGCTGA	MNILFASQAVDGHFNPMTGVAVRLKERGHNVAWYTGPVFAEKLGQLGIAHFPFRRAIEHRADNLNELYPERAKLKGPRAIGFDGEKIFASNITNFFEDIKELQQDFPFDVVVADSSMFIQRLASRLLGKPVVSFVAVPNMESDPLVPPLFFGFKPPRNPGEKVLQTAAGLLSDKVILRPASLSYRRQHAAYGQEVPRHGRLTDEPYRCSAAIIQTGPESLDFPRRNVNAKVHYVGALPPYRAPATDRSEGRDNGWATYPNTFLVTQGTVDNLDHNKLIVPALEAVKDMDALVIVATGGRGTEALKARYPQPNIIVRDYVDFAQVFEFADVFISNGGFGGVQLSLSKGVPLVVAGINEGKSDVNARVEYAGVGISLRTESPKPGDIAKAVTQVLTEPGWKNRARHMSEQFKAQDPAEAAADVVEGVVGPAGG				NA	NA	NA	NA	NA
D1-29_00969	708			hypothetical protein	ATGGAGCCCATGCGACCGACTGTATGGGGGATTCTGGCCGCCCTCTTTTTGCTGACCGCCACGGCGTGCACCATCACCACGGAGGACCCCGGGTACGTTCCGCCCCCGCCGCTGCCCGCCCTGGAACAGCTGGAACAGGCACCCCTGGCAGACTCGGGCGATTTTTCCCAGGGACAGGACGTCATCTCCTTTATCACCGAGGACCGGAACGTTGTCTGCTCGCTGACATCGGCGCGCGGGGAGCACATCGACCTCCCGTATGAGCAGAACAGCTTCAGCGACAGCGCCAACAACAAGCTGGCCACCGTGCCAGTTGCCCACTGCGAGCTGGCCGTCTACGTGAAGCCTGCAGCAAAGGACGTGAAGGACGACTGCGCGGGCACCGGACTGGGCTACCTGGGCGGAACGGCGCTGCTGACGCCGGAGACCGCCAGTTATGGGGAATGCCGCTCCGGCGTCACACAAATGGAGGCTGCGTACGGACCGAAGGGGAGCCAGAGCGGACCATTGACTCAGCTTCCGGTGCTGGCAGAGGGGCAGAACATCGAACGGAACGGGCTCCGCTGTTCTGCCTACAACGGCGGCGTGGCATGCGGAAATGTGTCCGCGGGCGTGGCATTTTTTGTTTCCCGGGGAAGCTACGAACTTATTTCGAAGGCCCCGGAAACCGGGGTTGGGGCACCGGCAGGGCCCTCAAAATCCGCGTAA	MEPMRPTVWGILAALFLLTATACTITTEDPGYVPPPPLPALEQLEQAPLADSGDFSQGQDVISFITEDRNVVCSLTSARGEHIDLPYEQNSFSDSANNKLATVPVAHCELAVYVKPAAKDVKDDCAGTGLGYLGGTALLTPETASYGECRSGVTQMEAAYGPKGSQSGPLTQLPVLAEGQNIERNGLRCSAYNGGVACGNVSAGVAFFVSRGSYELISKAPETGVGAPAGPSKSA				NA	NA	NA	NA	NA
D1-29_00970	1170	sucC	COG0045	Succinate--CoA ligase [ADP-forming] subunit beta	GTGGACCTGTTTGAATACCAGGCGCGCGATATGTTCGAGGCGCACGGTGTACCCGTGCTTGCTGGCATCGTGGCGTACACCCCAGAAGAAGCAAAGGCAGCAGCCGAGAAGATCGGCGGCGTAACTGTCGTCAAGGCCCAGGTCAAGGCCGGTGGCCGCGGTAAGGCCGGCGGCGTCAAGGTTGCCAAGACCGCCGATGAGGCACTTGAGCACTCCACCAACATCCTGGGCATGGACATCAAGGGCCACACCGTCAACAAGGTGATGATTGCCCAGGGTGCCGACATCGCCGAGGAGTACTACTTCTCCGTCCTGCTGGACCGAGCCAACCGCAACTACCTGGCCATGTGCTCGGTTGAAGGCGGCATGGACATCGAGCAGCTCGCCGTCGAACGCCCGGAAGCGCTGGCCAAGATTGCCATCGATCCTGCCATTGGCATCGACCAGGCAAAGGCTGACGAAATCGTTGCGGCCGCAGGGTTCGCTGAGGAACTTCGCGGCAAGGTGGCCGCTGTGATCCTCAAGCTCTGGGACGTCTTCAAGAAGGAAGACGCCACCCTGGTTGAGGTCAACCCGCTGGTGAAGACCGGCGAAGGCGAGATCGTGGCACTGGACGGCAAGGTCTCGCTGGACGAGAACGCCGAATTCCGCCACGCCAAGCACGCCCTCCTTGAAGACAAGGAAGACACTGACCCCCTTGAGGCCAAGGCCAAGGCCCAGGACCTCAACTACGTCAAGCTGGACGGCGAAGTGGGCATCATCGGTAACGGTGCAGGCCTGGTCATGTCCACTCTGGACGTTGTTGCCTACGCCGGTGAGAACCACGGCAACGTCAAGCCCGCAAACTTCCTGGACATCGGCGGTGGAGCTTCCGCCGAGGTCATGGCTGCAGGCCTCGACGTGATCCTCGGCGACGAGCAGGTCAAGTCCGTGTTCGTGAACGTCTTCGGTGGCATCACCGCGTGTGACGCCGTCGCCAAGGGCATTGTTGGTGCGCTGGCTGAGCTGGGCCACTCCGCGAACAAGCCGCTGGTAGTCCGCCTCGACGGCAACAACGTCGAGGAAGGCCGCCGCATCCTGGCCGAGGCCAACCACCCGCTGGTTACCCTGGCCGCCACCATGGACGAGGGCGCCGACAAGGCCGCCGAGCTCGCCAACGCAGCTAAGTAA	MDLFEYQARDMFEAHGVPVLAGIVAYTPEEAKAAAEKIGGVTVVKAQVKAGGRGKAGGVKVAKTADEALEHSTNILGMDIKGHTVNKVMIAQGADIAEEYYFSVLLDRANRNYLAMCSVEGGMDIEQLAVERPEALAKIAIDPAIGIDQAKADEIVAAAGFAEELRGKVAAVILKLWDVFKKEDATLVEVNPLVKTGEGEIVALDGKVSLDENAEFRHAKHALLEDKEDTDPLEAKAKAQDLNYVKLDGEVGIIGNGAGLVMSTLDVVAYAGENHGNVKPANFLDIGGGASAEVMAAGLDVILGDEQVKSVFVNVFGGITACDAVAKGIVGALAELGHSANKPLVVRLDGNNVEEGRRILAEANHPLVTLAATMDEGADKAAELANAAK	PGPT0019515_1536	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
D1-29_00971	903	sucD	COG0074	Succinate--CoA ligase [ADP-forming] subunit alpha	ATGTCTATCTATCTGAACAAGGACTCCAAGGTCATCGTCCAGGGCATCACCGGCGGCGAAGGCACCAAGCACACCGCCCTGATGCTGAAGGCCGGCACCAACATTGTTGGCGGCGTCAACGCCCGCAAGGCCGGCACCACCGTGCTGCATGGTGAGAACGAAATCACCGTTTTCGGCACCGTCAAGGAAGCCATGGCCGAGACCGGCGCTGACGTTTCCATCGTCTTCGTGCCGCCGGCGTTCACCAAGAACGCCGTTGTGGAAGCCATCGAGGCCGGCATCGGCCTGGTGGTTGTCATCACCGAAGGCGTTCCGGTCCAGGATTCCGCCGAGTTCTGGGCACTGGCCCAGTCCAAGGTTGACGCCGACGGCAACCAGGTCACCCGCATCATTGGCCCGAACTGCCCCGGCATCATCACCCCGGGTGAGGCCCTGGTGGGCATCACCCCGGCCAACATCACGGGCAAGGGCCCCATCGGCCTGGTTTCCAAGTCCGGAACCCTGACCTACCAGATGATGTACGAACTGCGTGACCTTGGCTTCTCCACCGCCATCGGCATCGGCGGCGACCCCATCATCGGCACCACGCACATCGACGCCCTGGCCGCGTTCGAGGCCGACCCCGAAACCAAGGCGATCGTCATGATCGGCGAAATCGGTGGCGACGCTGAAGAGCGTGCAGCCGACTTCATCAAGGCCAACGTCACCAAGCCGGTTGTTGGCTACGTGGCCGGCTTCACCGCACCCGAAGGCAAGACCATGGGCCACGCCGGCGCCATCGTTTCCGGTTCCGCCGGAACCGCCCAGGCCAAGAAGGAAGCCCTCGAGGCCGCTGGTGTGAAGGTCGGCAAGACGCCGTCCGAGACCGCCACGCTGCTGCGCGAAGTTTACGCAGCCCTCTAA	MSIYLNKDSKVIVQGITGGEGTKHTALMLKAGTNIVGGVNARKAGTTVLHGENEITVFGTVKEAMAETGADVSIVFVPPAFTKNAVVEAIEAGIGLVVVITEGVPVQDSAEFWALAQSKVDADGNQVTRIIGPNCPGIITPGEALVGITPANITGKGPIGLVSKSGTLTYQMMYELRDLGFSTAIGIGGDPIIGTTHIDALAAFEADPETKAIVMIGEIGGDAEERAADFIKANVTKPVVGYVAGFTAPEGKTMGHAGAIVSGSAGTAQAKKEALEAAGVKVGKTPSETATLLREVYAAL	PGPT0001540_788	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
D1-29_00972	156			hypothetical protein	GTGGCTCACCTTACCGGCGAACCGAACCGGCCGTCGTCGTACTCTATCGAAAGGCTCTACAGAAAGCGCGGGCTTACAGAAAAGCGCGGGGATACGGAAAAGCGCGGGCATACGGAAAAGCGCGGGGCCACCTCCGTCCTGACGGACGGCAGGTGA	MAHLTGEPNRPSSYSIERLYRKRGLTEKRGDTEKRGHTEKRGATSVLTDGR				NA	NA	NA	NA	NA
D1-29_00973	483			hypothetical protein	ATGAGCAATTCCCTGAAACTCAACATCCCGGACGGCCTCCCCTTCATCGACTTCGAGCGGGAGTTCGATTACCCGGTGGATGACGTGTTCCGCGCCCACAAAGAGCCCGAGCTCATCGCTCAGTGGCTGGGTCCGCGCGGCTACAAAATGGACGTTGACCACTACGATTTCCGGACCGGCGGCAGCTACCGGTATCTCCACACCGGGCCGGACGGCGTTGGCTACGAATTCAGCGGCGTCTTCCATACCGTCCGGGAGAACGAATTCGCCATACAGACCTTCGAATTCGGCGGCTACCCTGACGTGGTCAGCATCGAATTCCTCACTTTCGAGGATCTGGGTGGAGGGCGCTGCCGGGTCCGGGGCCACTCCGTCTACCCCACTATGGAGGCCCGCGACGGCATGGCGCAGTCCGGCATGGAGGGCGGCATGACCGAAGGCTACGAACGGCTCGACGAACTCCTGAGCAGCGCGAAAGTCTAG	MSNSLKLNIPDGLPFIDFEREFDYPVDDVFRAHKEPELIAQWLGPRGYKMDVDHYDFRTGGSYRYLHTGPDGVGYEFSGVFHTVRENEFAIQTFEFGGYPDVVSIEFLTFEDLGGGRCRVRGHSVYPTMEARDGMAQSGMEGGMTEGYERLDELLSSAKV				NA	NA	NA	NA	NA
D1-29_00974	360			hypothetical protein	ATGAACGCGGACGCTGGATCCCTGGACTCGGCCTTTATGGCCTTGGCCGATCCGGTGCGCCGCAGCATCATCGCCCGGCTCAGCCGGGGTCCGGCCACTGTGAATGAACTGGCGGAACCCTTTGCGATCACCAAACAGGCGGTCTCAAAGCACATCCAGGTCCTCGAGCAGGCGCAGCTAGTGACCCGTACACGGGATGCGCAGCGCCGGCCCGTCCACCTGAATCCCGCACGGTTGGAGGCGCTCACAGCATGGATCGACCAATACAGGTTGGTTCGTGAAGGGCAGTTCCGCAGCCTCGACGCCGTGCTCCAATCAAAGGCCGCAGCGAGCGGCAAGCAGGCAAAGGACTCATCATGA	MNADAGSLDSAFMALADPVRRSIIARLSRGPATVNELAEPFAITKQAVSKHIQVLEQAQLVTRTRDAQRRPVHLNPARLEALTAWIDQYRLVREGQFRSLDAVLQSKAAASGKQAKDSS				NA	NA	NA	NA	NA
D1-29_00975	1002	iolC	COG0524	5-dehydro-2-deoxygluconokinase	GTGAACCACGAACTGCTCACCATCGGGCGAATCAGCGTTGATATCTACCCGAATGACATCGGCGTGGACCTGGAGGATGTCACGTCCTTCGGTAAGTACCTCGGTGGCTCCCCGTCCAATGTTGCGGTGGCGGCTGCCCGCCATGGCCGGCGGACCGGTGTGATCACCCGGACCGGCGACGACGCCTTCGGAAACTACCTTCGCCGGGAACTGCGGAAGTTCAACGTGGATAACACCTTCGTCTCCGCCGTGAAGGAGTGGCCCACGGCTGTGACGTTCTGCGCCATCAAGCCGCCGGAGGATTTTCCGCTGTACTTCTATGGGCGCCTTCCCACCGCGCCGGACCTCCAAATTGCCGCCGAAGAACTGGACCTGGACGCCATCAGGGACGCCGGAATCTTCTGGTCCACGGTGACCGGCCTGTGCCAGGAACCCAGCCGCACCGCCCATCTGAAGGCCCATGAGGCGCGGCCACGCACCGGGCTCAAGGATGGCCAGTTCACCATCCTGGACCTCGACTACCGACCCATGTTCTGGACCTCCCAAGAGGAAGCCCGGGCCGAAGTCGCCAAAATCCTGCCACACGTGACCGTCGCGATCGGTAACGACAGGGAATGCGCGGTGGCCGTGGGTGAGGGGACCCCCGATGAACAGGCTGACAGGCTGCTGGCGGCCGGCGTCGAAATCGCCGTGGTCAAGCTTGGAGCCGAGGGGGTGATGGCTAAAACCCGCAGCCAGCGTGTGGTGTCGGCTCCGGTTCCGGTGGAAACCGTCAACGGACTGGGGGCCGGAGACTCGTTCGGTGGGGCCTTCTGCCACGGGCTGCTGTCCGGCTGGCCACTGGGCCAGGTCCTGGACTACGCCAACGCGGCAGGTGCAATCGTCGCGTCCCGTTTGTCCTGCGCTGACGCCATGCCGACGCCGGCCGAGGTCACCTCGCTGCTGGCGGACCGTGGACGGCTCCCGCGGGGTCACGTTGCCACGGAAAGGGCAGTGCTGTGA	MNHELLTIGRISVDIYPNDIGVDLEDVTSFGKYLGGSPSNVAVAAARHGRRTGVITRTGDDAFGNYLRRELRKFNVDNTFVSAVKEWPTAVTFCAIKPPEDFPLYFYGRLPTAPDLQIAAEELDLDAIRDAGIFWSTVTGLCQEPSRTAHLKAHEARPRTGLKDGQFTILDLDYRPMFWTSQEEARAEVAKILPHVTVAIGNDRECAVAVGEGTPDEQADRLLAAGVEIAVVKLGAEGVMAKTRSQRVVSAPVPVETVNGLGAGDSFGGAFCHGLLSGWPLGQVLDYANAAGAIVASRLSCADAMPTPAEVTSLLADRGRLPRGHVATERAVL	PGPT0018480_848	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
D1-29_00976	984			hypothetical protein	GTGAGTCCGAACCCCGTTCCCTCCGTCGCCGAGATTAGTGACGATCCGCGCCGCTACCAGCACCTCAGCATCATCCGGCTGGAGGATCCCGAAGCTGTTGCCCGCGCAGCCCGCGACCGCCGTCGGCATCCGGGCCCCAAGTTCGGCAAACAGAACTTCATTGTTGCGGCCGATCATCCCGCCCGCGGAGCCCTGGGGGTTGGCGAGGATCCTGTGGCCATGGCTGACCGCCGCCAGCTCCTGGACCGCTTGAGGGTTGCTTTGGCCAACCCTGACGTGGACGGGGTGCTCGCCTCGCCCGACATCCTGGACGACCTGCTGTTGCTTGGCGCCCTTGAAGGCAAGCTGGTCTTCGGTTCGATGAACCGCGGCGGCCTGGCCGGTCTGGTCAACGAGTTTGATGACCGCTTCACCGGGCACACGGCCGAAGCGTTGGAAGCGCTCGGCGCCGACGGCGGCAAGATGCTCACCCGCATCTGCCTGGGCGATCCGGACACGGTATCCATGCTGGAGGCCACCGCCAAGGTCATCGATTCCCTCGCGGAGCGCAAGCTTATCGCGATGGTGGAACCGTTCCTCTCCGTGCGCGAAGAAGGCAAGGCCCGCAACGACCTTTCCCCTGACGCCGTGATCAAGTCGGTGGCCATCGCCCAGGGGCTCGGCTCCACCAGTGCCTACACCTGGCTTAAACTCCCGGTGGTGGCGGAGATGGAACGCGTGATGGCAGCCACCACGCTGCCAACCGTGCTCCTCGGTGGAGACCCGGAGGGAACCCAGGATGAGGTGTTTGCCAGCTGGCAGGCGGCACTGGCGCTGCCGAACGTGCAGGGGCTGACAGTAGGACGGACCCTGTTGTATCCGCAGGACGGCGATGTGGGCGGTGCCGTGGCTACCGCGGCCAGCCTGCTCCGGCACGCGAACCGGGTAGAGCAGCCAGAGCATCAGAACACTGCGGGCAGAGTCCCTGCACAAGTATCGGAGTAG	MSPNPVPSVAEISDDPRRYQHLSIIRLEDPEAVARAARDRRRHPGPKFGKQNFIVAADHPARGALGVGEDPVAMADRRQLLDRLRVALANPDVDGVLASPDILDDLLLLGALEGKLVFGSMNRGGLAGLVNEFDDRFTGHTAEALEALGADGGKMLTRICLGDPDTVSMLEATAKVIDSLAERKLIAMVEPFLSVREEGKARNDLSPDAVIKSVAIAQGLGSTSAYTWLKLPVVAEMERVMAATTLPTVLLGGDPEGTQDEVFASWQAALALPNVQGLTVGRTLLYPQDGDVGGAVATAASLLRHANRVEQPEHQNTAGRVPAQVSE				NA	NA	NA	NA	NA
D1-29_00977	1929	iolD	COG3962	3D-(3,5/4)-trihydroxycyclohexane-1,2-dione hydrolase	ATGACGGTGGCGCAGGCCGTCGTCGAGTATCTCTCCAACCAGTACACCGTTGATTCAGTGGGCGGAGCCGAGTACCGTGAGCGCCTGATTCCGGGGATGTTCGGGATCTTTGGGCACGGCAATGTGGCCGGTGTGGGCCAGGCTTTGAAGCAGTACCAGCAGTTTGATCCTGCTGTGATGCCGTATTACCAGGGCCGGAATGAGCAGGCGCAGGTCCACCAAGCGGTGGGGTACGCCCGGCACACCCGCCGCCGGCAGACGTTCGCGGTCAGCAGCTCGATCGGGCCCGGCTCCTCGAACATGCTCACCGGCGCGGCTTTGGCCACCACCAACAGGCTTCCCGTGCTGCTGCTGCCGTCCGACACGTTCGCCACGCGCGTGGCAGATCCTGTGTTGCAGCAGCTTGAACGTCCGGAGGCCTACGACATCACTGTCAATGACGCGTTCCGGCCGCTGTCGAAATTCTTTGACCGGGTGTCCCGGCCGGAACAGCTGTTCTCAGCCTTCCATCACGGCCTGCGGGTCCTGACAGACCCGGCGGAAACCGGGGCGGTGACCATCTCGCTGCCCCAGGATGTCCAGGCCGAGGCCTTTGATGTGCCGGAGGATTTCCTGGCTGAGCGGGAGTGGCGGATCCGCCGCCCGGACGCCGACGACGACGACATCGCCCGTGCTGCAGCGGTGATCCGGGCGGCGAAGCGCCCGCTGATCATCGCCGGCGGCGGTGTCCTCTACGCCTACGCGAACGAGGAACTGGCGAAGCTTGCCGACCTGACCGGCATTCCGGTGGCCAACACCCAGGCCGGCGTCGGCGTCCTGCCCTGGGATCACCGGTTCTCCCTCGGCGCTGTTGGTTCCACGGGCACGACGGCGGCCAACGCCATCGCTGCCGAGGCGGACCTGATTATCGGAATCGGGACGCGGTATGAGGACTTCACCACCGCGTCCCGGACGGCGTTCCAGAACCCGGACGTTAGGTTCGTCAACATCAACGTCGCTCCGATTGATGCCTACAAGCACGGGACCTCCCTGCCCATCGTTGCCGATGCGCGCAAGGCACTGGTCAAGCTCAACCGGGCGCTGGGCGGCTACCGCGTGGGTGCGGACCTGGAGCAGGCCGTTGCCGCCGGAAAGCAGCGTTGGGATTCCACGGTCGACGAGGCGTCCGATACGCGGTTTACCCCTTTGCCGTCGCAGAACGAGATCATCGGCGCCACCCGCCGCGCCATGGACGATCCAGATGTGGTGGTCTGCGCTGCCGGTTCGCTGCCCGGGGACCTGCACAAGATGTGGCGGGTCCGGGATCCGTTCGGCTACCACGTCGAGTATGCCTACTCCTGCATGGGTTACGAAATCCCCGGCGGGCTGGGCGTCAAGCGCGCGGTGCTGGCTGAGGCCGCAGCCGGCGGAACCCAGCGCGACGTCGTGGTGATGGTCGGGGACGGCTCGTACCTGATGATGCACACCGAACTGGTCACCGCCGTCGCCGAACGGATCAAGCTGATCGTGGTCCTGATCCAGAACCACGGGTACGCCTCCATCGGCTCCCTGTCCGAGTCCCTTGGATCCCAACGGTTCGGCACCAAGTACCGGAAGCTTGACGCGGAACGGCACAGCTTCGACGACGGCGACAGGCTCCCCGTTGATCTGGCCCTCAACGCTCAAAGCCTGGGCGTGAAGGTCACCCGGATCGAGCCGGGCGAGAAGGTCATCGCCGAGCTCGAGCAGGCGATCCGCGATGCGAAGGCCGCGCCCGAGGGCGGAGGGCCAATCCTGATCCACGTTGAATCCGATCCGCTGCTGGACGCCCCGAGCTCCGAGTCCTGGTGGGACGTACCCGTTTCCCAGGCCGCCGAACTTGATTCCACCCGCCAGGCCTTCGAAACCTACACCCAACACAAGGCCCGTCAGCGCAAACTGCTGGGCTGA	MTVAQAVVEYLSNQYTVDSVGGAEYRERLIPGMFGIFGHGNVAGVGQALKQYQQFDPAVMPYYQGRNEQAQVHQAVGYARHTRRRQTFAVSSSIGPGSSNMLTGAALATTNRLPVLLLPSDTFATRVADPVLQQLERPEAYDITVNDAFRPLSKFFDRVSRPEQLFSAFHHGLRVLTDPAETGAVTISLPQDVQAEAFDVPEDFLAEREWRIRRPDADDDDIARAAAVIRAAKRPLIIAGGGVLYAYANEELAKLADLTGIPVANTQAGVGVLPWDHRFSLGAVGSTGTTAANAIAAEADLIIGIGTRYEDFTTASRTAFQNPDVRFVNINVAPIDAYKHGTSLPIVADARKALVKLNRALGGYRVGADLEQAVAAGKQRWDSTVDEASDTRFTPLPSQNEIIGATRRAMDDPDVVVCAAGSLPGDLHKMWRVRDPFGYHVEYAYSCMGYEIPGGLGVKRAVLAEAAAGGTQRDVVVMVGDGSYLMMHTELVTAVAERIKLIVVLIQNHGYASIGSLSESLGSQRFGTKYRKLDAERHSFDDGDRLPVDLALNAQSLGVKVTRIEPGEKVIAELEQAIRDAKAAPEGGGPILIHVESDPLLDAPSSESWWDVPVSQAAELDSTRQAFETYTQHKARQRKLLG	PGPT0018485_467	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
D1-29_00978	1518	bauC_2	COG1012	Putative 3-oxopropanoate dehydrogenase	ATGACTGCCATCACTGATCAGAGCACCACCACCATCAACCACTTCATCAACGGCGCCGAGACCGCCGGCCAGGGCACCCGCACCCAGCCCGTGTTCAACCCGGCGACGGGTGCGGTGTCGGGGGAGCTGCGGCTGGCGAGCCGGGCGGATCTTGATGCCACGGTGGCCGCCGCCCGGGCCGCTGCTGATTCGTGGGGCGATATTTCGCTGGCCAAGCGCACCAATGTGCTGTTCAAGTTCCGTGAACTGGTTGCCTCCCATGTGGATGAGCTCGCGGCGCTGATCACGGCGGAACATGGGAAGGTCCTCTCCGACGCGAAGGGCGAGATCGGCAGGGGCCTGGAGGTGGTGGAGTTCGCCTGCGGCATCCCCACGCTGCTCAAGGGTGACTACTCGGACCAGGTCTCTACCGGCATCGATGTGTTCTCCTTCCGCGAGCCGCTCGGTGTGGTCGCCGGGATCACGCCGTTCAACTTCCCGGTGATGGTGCCGCTGTGGATGGCGCCGATGGCGATCGCCACCGGCAACGCGTTCATCCTCAAGCCCTCCGAACGCGATCCGTCCGCGTCCATGCTGCTGGCGAAGCTGTGGAAGGACGCAGGTCTGCCGGATGGGGTGTTCCAGGTCCTGCACGGCGGCAAGGAAACCGTCGACGGGCTCCTGACCCACCCGGACGTGGACGGGATCTCCTTCGTCGGGTCCACCCCGATCGCCCAGTACGTCCAGGAGACCGCCACCAAGCACGGCAAACGCGTCCAGGCCCTGGGTGGGGCGAAGAACCACGCCATCGTCATGCCCGACGCCGACCTGGACAACGCCGCCGACCACCTCGCCGCAGCGGCGTTCGGCTCGGCCGGGGAACGCTGCATGGCGATCTCGGTCGCCGTCGCTGTCGGGGACGCCGCCGACCTGATTGTGAAGAAGGTCGAAGAGCGTGCCCTGGGCGTGAAGGTGGACAACGGCACCGCGCCCGACGCCGAAATGGGCCCGGTCATCACGCCCGAGTCCCGGGACCGGATCGTGCGGATCGTCACCGAAGCCGAAGCCGCGGGCGCGGCGATGGTGGTGGACGGCCGGGACCTCGTCGTCGAAGGCCACGAGGAAGGCTTCTGGGTCGGACCCACCGTGATCGACCACGTCAAAACCGAAATGACCGCGTACACCGAGGAAATCTTCGGACCCGTGCTGGTTGTTGTCCGCGTTCAGGACCTGGAGGAGGGGATCAGGCTGATCAACGCCAACCCCTACGGCAACGGCACCGCGATCTTCACCTCCTCCGGCGCGCACGCCAGGAAGTTCCAGCGCTCAGTGGACGTCGGAATGATCGGCATCAACGTGCCGCTGCCCGTCCCCGTCGCGCACCACTCGTTCGGCGGCTGGAAAGCCTCGCTCTTTGGTGACAAGCACATCTACGGCCCCGAAGGCGTGTCCTTCTACACCCGCGGCAAAGTGGTCACCTCCCGCTGGCCCGAACCCACCCACGCCTCCGGCGCCTCCTACAACTTCCCCTCCAACTGA	MTAITDQSTTTINHFINGAETAGQGTRTQPVFNPATGAVSGELRLASRADLDATVAAARAAADSWGDISLAKRTNVLFKFRELVASHVDELAALITAEHGKVLSDAKGEIGRGLEVVEFACGIPTLLKGDYSDQVSTGIDVFSFREPLGVVAGITPFNFPVMVPLWMAPMAIATGNAFILKPSERDPSASMLLAKLWKDAGLPDGVFQVLHGGKETVDGLLTHPDVDGISFVGSTPIAQYVQETATKHGKRVQALGGAKNHAIVMPDADLDNAADHLAAAAFGSAGERCMAISVAVAVGDAADLIVKKVEERALGVKVDNGTAPDAEMGPVITPESRDRIVRIVTEAEAAGAAMVVDGRDLVVEGHEEGFWVGPTVIDHVKTEMTAYTEEIFGPVLVVVRVQDLEEGIRLINANPYGNGTAIFTSSGAHARKFQRSVDVGMIGINVPLPVPVAHHSFGGWKASLFGDKHIYGPEGVSFYTRGKVVTSRWPEPTHASGASYNFPSN	PGPT0002295_1602	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
D1-29_00979	912	iolE_2	COG1082	Inosose dehydratase	ATGACTGAGAACAAGCTGATCATCGGCACTGCACCTGACTCGTGGGGCGTGTGGTTCGCTGACGATCCCCGGCAGACCCCGTGGGAACGCTTCCTGGACGAGGTGGCCGAATCCGGGTACAAGTGGATCGAGCTGGGCCCGTACGGCTATCTCCCCACCGACCCCACCCGCCTGGCAGAGGAACTGAAGCAGCGGGACCTGAAAGTCACCGCGGGCACGGTATTCACGGCCTTCCACCGTGGCCTGGACCAGTGGAAAACAGCGTGGGAGCCAGCCCGCAAGGTGGCAGAGCTGACAGCAGCCATGGGAGGCGAGCACATGGTGGTCATCCCGGCGATGTGGCGCGATGACGTCACCGGCGAGGCCGTGGAAAGCGGCAAGCTCACCGAGACGGCCTGGAACGATCTCTTCGAAGGCCACAACCGGCTGGGCAAGACCCTGTTGGAGGACTTCGGCCTGAAACAGCAGTTCCACTCCCATGCCGACTCCCATGTGGGCGCCCAGGAGGATATTGAGACCCTCCTGGCGTCAACCGACAGCAAGTACGTCAACCTGTGCCTGGACACCGGGCACGCGGAATATTGCGGCGCCTCCAGCCTGGAGCTGATCAAGAATTATCCGGACCGTATTGGTTACCTCCACCTGAAACAGATCAACCCGGAGATCCTCAGGAAGGTCAATGAGGAGAATATGACCTGGGCTGCGGCCAACCTGGCTGGTGTGATGACAGAGCCGCCGGGCGGGCTGCCAGACCTGCGCGCTGTGATTGAGGCAGTCGAAGCGCTGGAGAAGCCCATCTTCGGGATCGTGGAGCAGGACATGTACCCGGTGGACTTCGACGTGCCCATGCCCATCGCCAAGCGCACGCGCAATTATCTGCTCTCCTGCGGCTCGCGTACCGCCGTCAGCTAG	MTENKLIIGTAPDSWGVWFADDPRQTPWERFLDEVAESGYKWIELGPYGYLPTDPTRLAEELKQRDLKVTAGTVFTAFHRGLDQWKTAWEPARKVAELTAAMGGEHMVVIPAMWRDDVTGEAVESGKLTETAWNDLFEGHNRLGKTLLEDFGLKQQFHSHADSHVGAQEDIETLLASTDSKYVNLCLDTGHAEYCGASSLELIKNYPDRIGYLHLKQINPEILRKVNEENMTWAAANLAGVMTEPPGGLPDLRAVIEAVEALEKPIFGIVEQDMYPVDFDVPMPIAKRTRNYLLSCGSRTAVS	PGPT0016785_742	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
D1-29_00980	1014	iolG_8	COG0673	Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACCGATACCCTTCGCGTAGCTGTGATCGGCGCTGGCCGCATGGGCGCGGACCATATCCAGCGGCTCGACACCCGCATCAACGGCGCTGAAGTGGCCGCCGTCGTCGACGTTGACCTGGCACGCGCACAGTCCGCCATTGAGGGCATTCCCGGTGCAGTGGCTCTGACGGACGCCGATGAGGCGCTCAATAACGGCGACGTCAACGCTGTCCTGATCGCCACGCCGGGCTTCCTGCACGAGGAGATCCTGCTCAAGGCATTGGCTTTGGGACTGCCCATTCTGTGCGAGAAGCCGATGACTCCGGATGCTGCCTCGGCCTGGCGCGTGGTCCAGGCCGAGCAGGAACTGGGCCGCAAGTGCATCCAGGTGGGCTTTATGCGCCGCTTTGACGCCGAGTACGCAGCCTTGGGCAAGATCATTCGGGACCGGGACCTTGGCGAGCTGCTGATGCTCCACCACCAGCACCGGAATCCCGACACCCCGCCGGGTTTCACCAACGAGATGCTGATCAACGACTCGGTAGTGCATGAGTTTGACGCCATCCGCTTCTTCACCGGTGAGGAAATCACCAGCGTCCAGGTCCGGATGGGTAAGCCGACCCGGAACGCCCCAGCCGGCCAGCACGATCCGCAGCATGTCCTGATCGAGACTGAGTCCGGCGTGCTGGCGGACGTGGAAATTTTCGTCAACGCCCGGTTTGGGTACGAAGTTGCCGCGCAGGCCACATTCGAAGAGGGCATCGTCAACATCGGCGGCGACAGGGGACTCTACACCCGCACCGCCGGCCGCTGGGGCGGACAGGTCACGCCGGGCTTTGTGGAGCGTTTTGTGGAAGCATACGACGTCGAGATCCAGGCCTGGGTGGATGCAACCCGCCGCGGCGAACTCGGCGGTCCTTCCGCCTGGGACGGTTACGCCACAGCGGCCTGCTGCGAGGCAGGCGTGGAAGCCCAGAAGAACGGCGAGAAGGTGGCCGTCAGGCTGCACCCCAAACCGGCGCTCTATAAATAA	MTDTLRVAVIGAGRMGADHIQRLDTRINGAEVAAVVDVDLARAQSAIEGIPGAVALTDADEALNNGDVNAVLIATPGFLHEEILLKALALGLPILCEKPMTPDAASAWRVVQAEQELGRKCIQVGFMRRFDAEYAALGKIIRDRDLGELLMLHHQHRNPDTPPGFTNEMLINDSVVHEFDAIRFFTGEEITSVQVRMGKPTRNAPAGQHDPQHVLIETESGVLADVEIFVNARFGYEVAAQATFEEGIVNIGGDRGLYTRTAGRWGGQVTPGFVERFVEAYDVEIQAWVDATRRGELGGPSAWDGYATAACCEAGVEAQKNGEKVAVRLHPKPALYK				NA	NA	NA	NA	NA
D1-29_00981	456			hypothetical protein	ATGGGTATCAAGGACGACGCCGTAGAGGTCCGGGCGCAGGGATGGCGCACACTCGCGGCACTGCACGGGCTGATTGAAGGCGAGCTGGAAAGGTCGCTTCAGGCAGAGTCAAAGCTGTCAGTGGTGGAATACACCGTGCTGGACGCGCTCAGCCGGCAGGACGGCTGGCATATGAGGATGCAACAGCTGGCCCGCGCCACGGCGCTCAGCCCCAGCGCCACCACCCGGCTGGTTAACCGGCTTGAGGACCGGGGACTGCTGACCCGGATCCTCTGCGCCGACGACCGCCGCGGGATCTATACCGAACTCACCCCCAGCGGCATCACGTTGCTGGAGCAAGCACGGCCGGTCCACGACGCCACCCTGGAAAGGGCCCTGGCCGAAGCGATGGGCATCCCGGAACTGGCGCCCCTGGTCGATGCGCTCCCCCGGCTGCACGCAAACGCGCACCCCTAA	MGIKDDAVEVRAQGWRTLAALHGLIEGELERSLQAESKLSVVEYTVLDALSRQDGWHMRMQQLARATALSPSATTRLVNRLEDRGLLTRILCADDRRGIYTELTPSGITLLEQARPVHDATLERALAEAMGIPELAPLVDALPRLHANAHP				NA	NA	NA	NA	NA
D1-29_00982	1221	ydhP_1	COG2814	Inner membrane transport protein YdhP	ATGCCCGCAGGCCTGATAGCCCTGGCCCTTGGCGGATTCGGCATCGGACTCACTGAGTTCGTCATCATGGGCCTGCTGCCCGAAGTGGCAGCCGATTTCCAGGTCACTGAAGCCTCGGCCGGCTGGCTGATCTCTGGCTACGCACTCGCCGTGGTGGTAGGCGCCCTATTGCTGACCGCTGCCGTGACCCGGTTGGAACGCAAACCTGTGCTTGCCGTGCTGCTGGTGCTCTTCATTGCCGGCAACCTGATCTCCGCCACGGCACCGGACTACTGGATGATGATGGCGGGACGGATCGTCGCCGCCCTTGCCCACGGCGCCTTCTTCGGCATCGGGGCGGTAGTGGCCGCTGACATGGTTGCCCCCACCAAAAAGGCCGGCGCGATCGCCATCATGTTCACAGGCCTCACCGCCGCCAACGTCCTGGGCGTGCCGTTGGGCACCATGCTTGGCCAGGCAGCAGGCTGGCGCTCCACCTTCTGGGCCATCACCGTCATTGGTGTCATAGCCCTGGCGGGCATCCTGGCCCTGGTGCCGAAGACCGGACACGGGGACACCTCTCCCGGAAGCCTGCGCAGTGAACTGGGTGCCTTCCGCTCCGGCCAGGTCTGGCTGTCCATTCTGGTCACCATTCTTGGGTTCGGCGGCATGTTTGGCGCCTTCACGTACATCGCCTTCACCCTGACCGAAGTGTCCGGATTTACCGCCTCCACCGTGCCATGGCTGCTTATCCTCTTCGGTGTGGGGCTTTTCATCGGCAACACCCTGGGCGGCAAGGCGGCCGACCGAAACGTGGACCGCACCCTGACAGTTGTCCTCGCCGTTCTCGTGGTGGTTCTCGTGTCCTTTGCCCTGACGGCCGGCAACCAGATCCTCACCGTGGCCTCAATCGTCCTGATGGGCGTCTTCGGATTCGCCGCCGTCCCCGGCCTGCAGATGCGGGTCATGAAATACGCCAGCAGTGCCCCCACCCTTGCCTCGGGTGCGAACATCGGCGCCTTCAACGTAGGGAACGCCCTCGGGGCCTGGCTCGGCGGGGTGACCATCACGGCCGGCCTCGGCTACACGTCGCCCATCTGGGCCGGGGCCGGCATTACGCTTGCAGGCCTGGCCGTTATGGCGGTGGCTGCCAGGGCGGCCAAGCTGGCCCCTGCCGCCGCCATGGCGGACGCGTCCCCGAAGGCCCCTGCCGCCGTCGAACCTGCTGCCGCATCCCGCTGA	MPAGLIALALGGFGIGLTEFVIMGLLPEVAADFQVTEASAGWLISGYALAVVVGALLLTAAVTRLERKPVLAVLLVLFIAGNLISATAPDYWMMMAGRIVAALAHGAFFGIGAVVAADMVAPTKKAGAIAIMFTGLTAANVLGVPLGTMLGQAAGWRSTFWAITVIGVIALAGILALVPKTGHGDTSPGSLRSELGAFRSGQVWLSILVTILGFGGMFGAFTYIAFTLTEVSGFTASTVPWLLILFGVGLFIGNTLGGKAADRNVDRTLTVVLAVLVVVLVSFALTAGNQILTVASIVLMGVFGFAAVPGLQMRVMKYASSAPTLASGANIGAFNVGNALGAWLGGVTITAGLGYTSPIWAGAGITLAGLAVMAVAARAAKLAPAAAMADASPKAPAAVEPAAASR	PGPT0028991_1131	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
D1-29_00983	897	iolB	COG3718	5-deoxy-glucuronate isomerase	ATGGCTGACTGGGTATATCCGCTGGGCTCCGCTGCTGACGGGAGCTGGGACATCTCGCTGGGGACTTCGGACTCTCCCCTGGCGGTCAAGGGGTGGGCACACACAGGACTAAAGGTGGCCACCTTGGCGGCGGGCGCCGGCGTCGAACTTCCCGCGGCGGGAGAAGAGCGCATCGTGGTGCCGCTCAGCGGATCCTTTATGGTCACGGTGGACGGTGAGAAGTATTTGCTGGCCGGACGCCCCAGTGTGTTCAGCGGCCCCACGGACGTGCTGTATTCCGGAACGGACAGAGCGGTCACCATCACCTCGCCAGAGGGCGGCCGGGTGGCCATCGCCACCGCCCCCGCACAGGTCCGGTACCCCACCAGGCTGATCACCGCCGCGGAAACCCCCGTTGAGCTGCGTGGCGCCGGCAACTGCTCCCGGCAAGTGCACAACTTCGGCACGCCGGCGGCGCTGGAGGCAGACCGTTTTATTGTTTGCGAGGTCCTCACCCCGGCGGGGAACTGGTCCTCCTACCCGCCCCACAAACACGATGAGGAAAAGGACGGCGAGACCCGGCTCGAGGAGATCTACTACTTCGAAACCCGTGTCGCACCGAATCTGGGCGGGCCCCGCAGGAAACAGGATCCCATCGGCTACCAGCGTGTCTACGCCTCGGACGAGCGGCCCATTGACGTCGCCGCAGAGGTACGCACCGGCGACGTTGTGCTCGTTCCCTATGGTTGGCACGGGCCGGCAATGGCGGCACCCGGGTATGACCTCTACTACCTCAACGTTATGGCCGGGCCCGGCCGGGTGCGCGACTGGCTCATCAGCGACGACCCCCACCACGGCTGGATCCGGCAGACCTGGTCGGGCCAGGTCATTGATCCGCGGCTGCCCTTCCGCGCCTAG	MADWVYPLGSAADGSWDISLGTSDSPLAVKGWAHTGLKVATLAAGAGVELPAAGEERIVVPLSGSFMVTVDGEKYLLAGRPSVFSGPTDVLYSGTDRAVTITSPEGGRVAIATAPAQVRYPTRLITAAETPVELRGAGNCSRQVHNFGTPAALEADRFIVCEVLTPAGNWSSYPPHKHDEEKDGETRLEEIYYFETRVAPNLGGPRRKQDPIGYQRVYASDERPIDVAAEVRTGDVVLVPYGWHGPAMAAPGYDLYYLNVMAGPGRVRDWLISDDPHHGWIRQTWSGQVIDPRLPFRA	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
D1-29_00984	741	nagR	COG2188	HTH-type transcriptional repressor NagR	ATGGCGAATCAACTCAATCTCAGCATCGACCGTTCGTCTCCTGTGCCGCTCTATCATCAGGTGGTCCAAGGCATCGAGGCTGCTATCAACACAGGCATTCTGGAGCCAGGGAGCCGGCTGGACAACGAGATCGACCTTGCAGCCAGGCTGAACCTGTCCCGGCCCACCATGCGCAAGGCCATGGACGAACTGGTCCGCTCCGGCCTCCTGGTACGGAAGCGCGGAGTAGGCACGCAGGTGGTGTCCAGCCAGGTCCGACGCCCCCTTGAGCTGTCCAGCCTCTTTGACGATCTCAGCAACAGCGGCAGTAAACCCACCACGGACGTGCTGTCCTTCAGTCACATCGAGGCCGACGACGCCACCCGCGAAGCCCTGCACCTCCCGGCGGGGGCAACAGTCTTTCATTTCACCCGGCTGCGGAAGGTGGGCGGCAAACCACTGGCGCTGATGGAAAACTGGGTCCGCGACGACATTACGGAGATCAGCGAGGAACTCCTGGCCAGCCAGGGCCTCTACGGAATCCTGCGCAATGGCGGCGTAAACTTCCGGCTGGCCACCCAAAGGATGGGTGCCGTGATTGCCAACGAGTACCAGGCCAAGCTTCTGGAAACAGCTCCGGGATCGGCCCTGGTAACCATGGAACGCACCGCTGTAGACGACACCGGCCGCAATGTGGAGACCGGCCATCACGTGTACCGCGCAGATTCCTACAGCTTTGAAATGACGCTGGTCCAGCGTTGA	MANQLNLSIDRSSPVPLYHQVVQGIEAAINTGILEPGSRLDNEIDLAARLNLSRPTMRKAMDELVRSGLLVRKRGVGTQVVSSQVRRPLELSSLFDDLSNSGSKPTTDVLSFSHIEADDATREALHLPAGATVFHFTRLRKVGGKPLALMENWVRDDITEISEELLASQGLYGILRNGGVNFRLATQRMGAVIANEYQAKLLETAPGSALVTMERTAVDDTGRNVETGHHVYRADSYSFEMTLVQR				NA	NA	NA	NA	NA
D1-29_00985	1134			hypothetical protein	GTGAACCTCTCGGGCAACCTGGGTCCCAGCCCCCGGAGCATTGAAGTCGAAAGCCTGGACAGCTTTGACCGCCTGGTTAGCGCGGGGGCCGTGGAAATGCAGGGCTGGCATGCCCAGGCCCTTGACCTCCGTGGCAGGTCGGCAGCACTGGACAGGCTGGATGTGGAGGGCGCCATCTTCCTGGGATGCACGTTTGACCCTGGGGTCGAGGACAAACTGCGCCGGCGCGGTGCACTGATTTTCCCGCGGCTCCACGGCGTCCCCTTCGATCCCTACCGGGCCACACTCTACGCACCGCAGGAGCTGTATGCCGGCTTGGCGGGCGCACCCTATGAGGAGCTCCCCGATGCACTCGTCTACCAGTGGAGCATCCAGCCTGATCAACGCCACCGGCTGGATTCCACTTTGGCGTCGGCGCTGCACGACCATGCGATCGGCGATGCGCTGGAAGAGTTCACCCGCTCGGACGTGTGCGTCGGAAGGACCATGGTGGGCGTCATGGGGGGCCATGCTGCCCAGCGCGGAACCCCGGAATATGCGCAGGCGGCCGCATTGGGCAGGCTGCTGGCGCAGAGCGGCAAGGTGGTGGCCACAGGCGGAGGGCCGGGCGCGATGGAGGCAGCCAACCTGGGAGCGTACCTCAGCGGTGTCACAGAACCTGAGTTCAGGGAGGCTTTGGATTCCCTGGGTTCGGTTCCGGGTTTCCGCCCCTCGGTGTCAGCGTGGGCGCGGGCGGCGGCCGCCGTCGTCGAGCGTTTTCCGGACGGTGCGCCGTCGCTGGGAATCCCCACGTGGTTCTACGGACATGAGCCGCCCAACTACTTCGCCACGCACATTGCCAAGTACTTTGCCAACGCCATCCGGGAGGCCATCCTGCTGGAACTGTGCAACGGCGGCATCGTTTTCCTGCCCGGGGCGGCGGGCACAGTCCAGGAAATTTTCCAGGATGCCTGCGAGAACTACTACAGCCCGCGCGAGGCTGTTACCCCCATGGTGCTGGTGGGGCGGCAGCACTGGCAGCACGAGTACCCGGCGTGGCCCATGCTCCGCAGCCTGGCTGCCGGCCGGCCCATGGCAGAGAGCATCTTCCTGGTGGACAGCGTTGAAGAAGCGCTGGCCGTCCTTGGCGCCTAG	MNLSGNLGPSPRSIEVESLDSFDRLVSAGAVEMQGWHAQALDLRGRSAALDRLDVEGAIFLGCTFDPGVEDKLRRRGALIFPRLHGVPFDPYRATLYAPQELYAGLAGAPYEELPDALVYQWSIQPDQRHRLDSTLASALHDHAIGDALEEFTRSDVCVGRTMVGVMGGHAAQRGTPEYAQAAALGRLLAQSGKVVATGGGPGAMEAANLGAYLSGVTEPEFREALDSLGSVPGFRPSVSAWARAAAAVVERFPDGAPSLGIPTWFYGHEPPNYFATHIAKYFANAIREAILLELCNGGIVFLPGAAGTVQEIFQDACENYYSPREAVTPMVLVGRQHWQHEYPAWPMLRSLAAGRPMAESIFLVDSVEEALAVLGA				NA	NA	NA	NA	NA
D1-29_00986	900			hypothetical protein	GTGGAGGGCCGCCCTCCCCGCCACTCGCACCAGGACTACCGGAAGCGAAGTACCGCGCGGGTCATCCGCAACCTCCTGCTTGTCGTGGCTTTCAGCGCAACGGCTTTCCTGGCGACCGGCCTGTTGTACAGTGATCCCCGCTTCGCCGGCCTGCTCGATGTCCGCATCGGCCCTGGCGCCCGGCCCCCCGGAGCCACCGGCGGCGTCCAGCCACCGGCTGAAGGACGCCCGGACGCACCGCCGCCAGGACTGGAAGAAGGCGGCTCCCCGCTGGGAACCCCGGAACCGCCCCCTGTCGCCAGTGATTCCTATGAGTTCCTGGCCGTTAACGACGACGGCACTCCGGTGGGCTACTCGCCCTGCCGGCCACTGCATTATGTGGTTAACGACCAGCTTGTTCCAGCCGGCGCCCAGCACCTCGTTCCTGATGCCATCGACAAGATTTCCGCGGCCACCGGAATCCGCTTCGTTTACGACGGCGCCACCACGGAGGTGCCGTCAAGCCAGAGGCCGCCCTACCAGCCGGATTCCTACGGGGACCGGTGGGCTCCCCTGCTGATTTCCTGGACCACCCCGGAGGTGGCACCCCAGCTCAAAGGCAAGGTCATCGGAACCGGCGGAAGCACGCATTACAGTTACGACGACGGGCCCAAGAGCTTCGTTACGGGCAGCCTCGAGCTGGACGCGCCCCAAATTGCGGACGAACTTCTGTACCCTGACGGTCAGCTCTACGCCACAGCCGTCATCCTGCACGAACTTGGCCACGTGATGGGCCTGGAACACGTGGACGATCCCCGGCAACTGATGTTTCCGGAGATCGGCACGCCGGAGGGCCTGTCCGACGGGGACCTGAACGGCCTGCATGAACTGGGCAAAGCCATGTGCCGCAAGGACCTGTAA	MEGRPPRHSHQDYRKRSTARVIRNLLLVVAFSATAFLATGLLYSDPRFAGLLDVRIGPGARPPGATGGVQPPAEGRPDAPPPGLEEGGSPLGTPEPPPVASDSYEFLAVNDDGTPVGYSPCRPLHYVVNDQLVPAGAQHLVPDAIDKISAATGIRFVYDGATTEVPSSQRPPYQPDSYGDRWAPLLISWTTPEVAPQLKGKVIGTGGSTHYSYDDGPKSFVTGSLELDAPQIADELLYPDGQLYATAVILHELGHVMGLEHVDDPRQLMFPEIGTPEGLSDGDLNGLHELGKAMCRKDL				NA	NA	NA	NA	NA
D1-29_00987	1221			hypothetical protein	GTGTTTCAGCACGCCAAATCCAATCAAGAGAACCCCGCCGCGGAGCATCAGCCAGAAGTCCCCACACCGGGCCCCGCAGCAGGTGGCAACCAAAACCACAAACCTGGATTCAGCGTCCCCGCGGAAACCATCCCTGCACGCCAGCCCACCCCCTCCGACATCCGACGGTGGCGCCAGTACTTGGCAGATGAACGGGCCGAAGCAGCCGTGTACCGCGACCTGGCGCAGAACAGGCAGGGCGAAGAGCGGGACATCCTCCTGGCCCTGGCGGAGGCCGAGGGACGCCATGAAGCCCACTGGCTGCGGCTGTTGGGGCCGCACGTGGGCAAGTCCCGTCCGGCGTCGCTGCGCAGCCAGCTCCTCGGATTCCTGGCGCGCCATTTTGGCTCAGTCTTTGTCCTGGCCCTCGCCCAGCGCGCCGAAGGCCGCTCCCCCTATGCCAACGACCCCTCTGCCACTCCTGCCATGGCAGCGGACGAGCAGATCCACGAGGAAGTGGTGCGAGGCTTGGCAACGCGTGGCCGCAACCGGCTGGCCGGCACGTTCCGCGCGGCCGTCTTCGGCGCGAATGACGGCCTGGTCAGCAACCTCTCCTTGGTTATGGGCATGGCAGCATCCGGCGTCGCGAGCAGTGTGGTGCTGTTGAGCGGCGTGGCGGGCCTGCTGGCCGGCGCCCTGTCCATGGGAGCCGGCGAGTTCGTCTCCGTCCGGTCCCAGCGCGAACTCCTGGCAGCCACGCGCCCCACCCAGATCACCCTGGCAGCGGCCCCCAAGCTGGACATCGAACACAACGAACTGCTGCTGGTGTACCTGGCCCGGGGAATGTCCCATGAAGCAGCGGAGCACCGGGTCGCGGAGCGCATGGGGCTGCTCGCCTGCGATTGTGATCCCAGCCTGTCCCTCCAGCCTGAACTGCCGGACACCACCGACCGGCACGAAGCCGTGGGCACGGCCTGGGGAGCCGCACTTTCCAGCTTTTGCTTCTTCGCGTCCGGCGCCATCGTTCCCATCCTGCCGTTCCTCGTCGGCCTGACCGGAGTGGCTGCCCTCGTGGTGGCCGCTGTGCTGGTGGGGATGGCGCTGCTGGTGACCGGCGGAATTGTGGGCCTCCTTTCCGGCACCTCACCCCTGACCCGCGGATTGCGTCAGCTGGCCATAGGCCTGGGCGCGGCCGCTGTGACCTACGTGCTGGGCCTGGCCTTCGGCACCGTGGTGGGCTAA	MFQHAKSNQENPAAEHQPEVPTPGPAAGGNQNHKPGFSVPAETIPARQPTPSDIRRWRQYLADERAEAAVYRDLAQNRQGEERDILLALAEAEGRHEAHWLRLLGPHVGKSRPASLRSQLLGFLARHFGSVFVLALAQRAEGRSPYANDPSATPAMAADEQIHEEVVRGLATRGRNRLAGTFRAAVFGANDGLVSNLSLVMGMAASGVASSVVLLSGVAGLLAGALSMGAGEFVSVRSQRELLAATRPTQITLAAAPKLDIEHNELLLVYLARGMSHEAAEHRVAERMGLLACDCDPSLSLQPELPDTTDRHEAVGTAWGAALSSFCFFASGAIVPILPFLVGLTGVAALVVAAVLVGMALLVTGGIVGLLSGTSPLTRGLRQLAIGLGAAAVTYVLGLAFGTVVG				NA	NA	NA	NA	NA
D1-29_00988	243			hypothetical protein	ATGAACACCACCGGACAGCACCCGGACATGCCGCACCTCGATGCTGTGGAATCCGATCCGGCTTATGACTACGCCGAGGATGCGCCGGTTGTTGATGACGACTGGGACGCAGAGGACGAGTTTCTGGATACCGAAGAAGTGGTCATTCCGGCGCCTCCGGCCGTCGTTGACGCCGAAGAGCGGGTCGTCCCGCTGGATCCGGACGAGTACCGCGAGACGGGCGAGATTGACGACCTTGAATAA	MNTTGQHPDMPHLDAVESDPAYDYAEDAPVVDDDWDAEDEFLDTEEVVIPAPPAVVDAEERVVPLDPDEYRETGEIDDLE				NA	NA	NA	NA	NA
D1-29_00989	1524	opuE	COG0591	Osmoregulated proline transporter OpuE	ATGGACGCTAACTTCGTCAACATCGCCATTGTGGTGGTGTACCTCATTGCCATGCTGGCCTTTGGCTGGTGGGGCAAGTCCCGCACCAAAAACAACAGTGATTTCCTGGTGGCCGGCCGCCGCCTGGGTCCATTCCTCTACACAGGCACCATGGCCGCCGTTGTCCTCGGCGGCGCCTCAACCGTTGGCGGTGTGGGACTCGGCTACAAGTTCGGCATCTCGGGCATGTGGCTGGTGGTGGCCATCGGCGCCGGCGTTCTGCTCCTGAGCCTGCTATTTGCCGGAACCATTCAAAAGCTCAAGATCTACACGGTCTCCCAGATGCTGACTCTGCGCTACGGCAGCAAGGCCACCCAGACCTCCGGCATCGTCATGCTGGCCTACACCCTGATGCTCTGCGCTACCTCCACCGGAGCTTACGCCACCATCTTCGTAGTGCTGTTTGGCTGGGACCGCGCCCTTGCCATCGCCATCGGCGGCGCCATCGTCCTGGTGTACTCCACCATCGGCGGTATGTGGTCCATTACGTTGGCGGACCAGGTGCAGTTTGTTATCAAGACCGTAGGCATCTTCCTGCTGATGCTGCCGTTCACCCTCAACGCGGCCGGCGGCCTGGACGGCATCCGCAGCCGGGTTGATGAAAGCTTCTTCCAGATGGACGGCATCGGTGTCCAGACCATCATCACGTACTTCGTGGTGTACACCCTGGGCCTGCTGATCGGCCAGGACATCTGGCAGCGCGTCTTCACGGCCAAAACCCCCAAGGTGGCCCGCTGGGGTGGCGCCACCGCCGGCATCTACTGCATCCTCTACGGTGTGGCAGGTGCCCTCATCGGCCTGGGCGCCAAGGTGGCCCTGCCGGACATTGACGTTGCCGCCGAAGGCAAGGATGTGGTCTACGCCGAAGTGGCGCAGAACCTGCTGCCCATCGGGATCGGCGGACTGGTGCTTGCCGCAGCCGTGGCAGCCATGATGTCCACCGCGTCCGGCGCCCTCATCGCCGCCGCAACGGTGGCACGGGCCGACGTCCTGCCGTTTGTTGCCAGCTGGTTCGGCAAGGACATCAATACCGAAGACACGGAGAACCCGGAGCACGACGTCAAGGCCAACCGCATCTGGGTCCTGGCGCTTGGCATTGTGGCCATCGTTATCGCCATCATCACCAAGGACGTGGTGGCAGCCCTGACCATCGCGTACGACATCCTGGTGGGCGGCCTGCTGGTGGCCATCCTCGGCGGACTGGTGTGGAAGCGCGGCACCGGCCTGGCTGCGGCCGCCTCCATGGCAGTCGGTTCCGTGGTGACCCTGGGAACCATGATCGTCCTGGAAATCAACGCCAAGGCCCCGCTGGACGGCGTCTTCGCCAACGAACCCATCTACTTCGGCCTGATCGCCTCGGCAGTGGTCTACGTTGCAGTGTCCCTGTTCACCAGGCCCACGGATGCGCTGGTAATGCGGAACTGGCGACGACGGGTGGCTGGCCAGGAAAACGAGGAAGTGCCGGTCCCCGTCACGGCGCCCTGA	MDANFVNIAIVVVYLIAMLAFGWWGKSRTKNNSDFLVAGRRLGPFLYTGTMAAVVLGGASTVGGVGLGYKFGISGMWLVVAIGAGVLLLSLLFAGTIQKLKIYTVSQMLTLRYGSKATQTSGIVMLAYTLMLCATSTGAYATIFVVLFGWDRALAIAIGGAIVLVYSTIGGMWSITLADQVQFVIKTVGIFLLMLPFTLNAAGGLDGIRSRVDESFFQMDGIGVQTIITYFVVYTLGLLIGQDIWQRVFTAKTPKVARWGGATAGIYCILYGVAGALIGLGAKVALPDIDVAAEGKDVVYAEVAQNLLPIGIGGLVLAAAVAAMMSTASGALIAAATVARADVLPFVASWFGKDINTEDTENPEHDVKANRIWVLALGIVAIVIAIITKDVVAALTIAYDILVGGLLVAILGGLVWKRGTGLAAAASMAVGSVVTLGTMIVLEINAKAPLDGVFANEPIYFGLIASAVVYVAVSLFTRPTDALVMRNWRRRVAGQENEEVPVPVTAP	PGPT0013955_3152	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013955-TC_SSS|yerK|opuE-K03307	NA	NA
D1-29_00990	576	puuR_1		HTH-type transcriptional regulator PuuR	ATGAAGGCACTGCCAGTTGAGCCAAGCAACGTTCCCGTTGCCATTGGTTCCCGAATCCGTGCCGCGCGGCAGTCCCAGCGGCTGACCATTGAGCAGGTTGCCGACGCCACCGGCCTGACCAAGGGGTTCCTGAGCCGGGTGGAACGGGATCTGACCTCGCCGTCGGTTGCCTCCCTGGTGACCCTGTGCCAGGTGTTGTCCATTTCTATTGGGGACCTTTTTGCCGCCCCCGAAACGCACCTCACCAAGCGGAATGACGGGCCGCGGATCTCCTTGGGCGGCCATGGGATTGTGGAACGGCTCCTGACGGCACGCTCGGAACGCCGGATCCAGATCATCCAGGCCGTGATTGAGCCGCATGGCCGCGGCGAGACGGAGCTGTATGCCGTGGACTGCGATGTTGATGTGCTGCACGTGATTAAGGGCAGCATCCGGCTGATCCTCACCAACGAGGAATATGAGCTCAACACTGGCGACACTGTCACATTCCCCGGACGTGAACCCCACACCTGGGTAAACCCCACCGACAAGCCCGTAGAGGTGCTCTGGGTCCTGGTTCCGGCGGCCAGCCGCTAG	MKALPVEPSNVPVAIGSRIRAARQSQRLTIEQVADATGLTKGFLSRVERDLTSPSVASLVTLCQVLSISIGDLFAAPETHLTKRNDGPRISLGGHGIVERLLTARSERRIQIIQAVIEPHGRGETELYAVDCDVDVLHVIKGSIRLILTNEEYELNTGDTVTFPGREPHTWVNPTDKPVEVLWVLVPAASR				NA	NA	NA	NA	NA
D1-29_00991	186			hypothetical protein	ATGCACTCTGCACATTGTGGGAAAGCTGCCGCCGTGGCCGCCCTCGCGCTTGCTTTCACCGCTGCCACTGCCGCCTGCCCGCCCGCCACGTCAGGGCCGACGGCGGACCGGGGCTCCGGTTCGACGCTCTCCCTGACGTCACTTGCCCAGCGCCGTCGCGTTCTCCCCTTCGGGAGTGTCGTGTAA	MHSAHCGKAAAVAALALAFTAATAACPPATSGPTADRGSGSTLSLTSLAQRRRVLPFGSVV				NA	NA	NA	NA	NA
D1-29_00992	1065	gbh		Guanidinobutyrase	TTGGAAGAGCTGCGCATCGAAGCCAACGGCAATCTTGGCCCCATCGATTCATCCCGTATTCCGCGCTACGCCGGCGCCGCGACGTATGCCCGCCTTCCCCGCCTTGACCAGGTGGCCAAAGCCGACGTCACAGTGGTGGGTGTTCCCTTCGACTCAGGCGTCTCCTACCGCCCGGGCGCACGCTTCGGCTCCAACCACATCCGGGAAGCCAGCCGCCTGCTGCGCCCCTACAACCCGGCCTGGGATGTTAGCCCCTTCGAAAACATCCAGGTGGCGGACGCCGGTGACATGGCGGTCAACCCCTTCAATATCAACGAGGCCATCGAAACTGTTCAGCAGAATGCCCTGGACCTGACCTCAGGCGGGAGCAAGCTGGTGACCCTGGGCGGTGATCACACCATCGCGCTGCCCCTGCTGCGCGCCGCGGCTGAACGTGCCGGCGGCCCCCTCGCCATGCTCCACTTTGACGCGCACCTGGACACCTGGGACACCTACTTCGGCGCAGAATACACCCACGGAACCCCGTTCCGCCGTGCTGTGGAGGAGGGCATCCTGGACACGGAAGCCATCAGCCACATCGGCACCCGCGGCCCGCTGTACGGCAAAAAGGACCTCGACGACGACCACCGGTTCGGGTTCGGCATCGTTACCTCCGCGGACGTCTACTACCAGGGCGTCCTGGAAACTGTGGCCAAGGTCCGGGACCGGATCGGCAGCCGCCCGCTCTACATTTCGGTGGACATCGATGTCCTGGACCCTGCACACGCCCCTGGCACCGGCACCCCCGAAGCCGGCGGCATCACCAGCCGCGAACTGCTGGAAATCATCCGCGGCTTCCGCGGCATGAACCTGGTGGGCGCGGACATCGTCGAGGTTGCCCCTGCGTACGACCACGCCGAGATCACCGGCGTCGCCGCCAGCCATGTGGCGTTCGAGCTGGTGACCCTGATGGCGGACAATGCCGTGGCGGGCGACCGTTTCGGTGCAGCCAACGGCTATGCCGCGCAGGCGCTTGGCCAGGAAGCCCGCCAGCCGGCCGGGTTCGCGGCAGCCGGCAAGGAGTAG	MEELRIEANGNLGPIDSSRIPRYAGAATYARLPRLDQVAKADVTVVGVPFDSGVSYRPGARFGSNHIREASRLLRPYNPAWDVSPFENIQVADAGDMAVNPFNINEAIETVQQNALDLTSGGSKLVTLGGDHTIALPLLRAAAERAGGPLAMLHFDAHLDTWDTYFGAEYTHGTPFRRAVEEGILDTEAISHIGTRGPLYGKKDLDDDHRFGFGIVTSADVYYQGVLETVAKVRDRIGSRPLYISVDIDVLDPAHAPGTGTPEAGGITSRELLEIIRGFRGMNLVGADIVEVAPAYDHAEITGVAASHVAFELVTLMADNAVAGDRFGAANGYAAQALGQEARQPAGFAAAGKE	PGPT0007775_606	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
D1-29_00993	1755	ilvG_1		Acetolactate synthase isozyme 2 large subunit	ATGATCGATGACGGCGCCGGAACGGCCGCGGCCGGGGCAGTGGATAAAACCGGAGCAGGGGACAAAGCCGGAGCAGGAGAAAATAAGGGAACCGATGAGCGCAACGGCGGGGACCTCGTCGTCGAGACCCTTGAAGCATTGGGCGCCAAAACGGTCTTTGGCATTCCCGGCCAACACGCGTTGGGCCTGTTTGATGCAATGGGCCGCGGCAATCTGCACTTCGTCTCCTCCCGGGTGGAAAACAACTCGGCTTTTGCCGCCGACGGCTATTCCCGCGCCACCGGCGAAGTGGGGGTGCTGTTCCTGTCCACCGGGCCGGGTGCGCTGACGTCACTGGCCGGACTGCAGGAGGCCTACGCAACGGGTGTGCCCATGGTTGTTGTGGCAAGCCAGATTCCCCTGGAGGGCCTGGGTGCCCGGCGCAAGGGCATGCTCCACCAGCTCGATGACCAAAAGGCCTCGGCGGCAAACGTCACCAAGAGCCAGCGCCTGATCCAGCACGCCTCCGGCATTCCGTCCGCCATCCAGGACGCCTGGACCGAAGCCATTTCGTCACCGCAGGGCCCGGTCTGGCTGGAAATCCCGCAGAACGTCCTGCTGGATCCCATCATGGTTCCGCCGGTGGAGGACGCCCTCGCCGAAGCGGCGGACAACCCGCCGCGCGTCGAGCTGGTCCGTGAAGCAGTGAAATGGCTCTCGACGGCGGAGCGCCCGGCCATCATTGCCGGCGGCGGCACCCGCCGAGGCCGGGCGGAGAAGTCCCTGCTGTCCATCGCAGAGAAGCTCAGGGCTCCCGTCATCTGTACTCCCGGCGGCAACGGCGCGTTTCCCTGGAACCACGAGCTGTCCCTGCAGTCCTGGATCGAGGACCGCTACATGACCGACGTCCTGGAGGATGGAGACGTCCTGGTTGTGATCGGTTCCTCCCTGGGTGAAGTGACGTCCAACTACTTCACCTTCGAGCCGCGTGGCCGGATCATCCAGATCGACGCCGAGCCGCGTGTGCTGGAGTCCAACCGTCCGGGCCTGGGAATCCGCGCAGACGCCGGTCAGGCGCTCGCAGCCCTGGATGAGGCCCTGGACACGGCCTTGGAGCGGGATCGGAAAGCATCGCCCACGTGGCACGGGGTTACCCCGGAGGATCTGGTCAGGGAGTCGCTGGCAAAGGTCAAGGCCCGGCTCGAGTCCCAGGACCTGGCCAAGGAACTGAAGTTCATGGCGGACATCCGCGAGGCTGTCCCCCCTGACATGCAGACCTTTTGGGACATGACCATTTCGTCCTATTGGGCCTGGAGCTGCTGGGATGCGCGCCAGGGCCAGTTCCATTCAGCCCAGGGCGCGGGCGGCCTGGGCTTTGGCTATCCGGCGGCCATCGGTGGCGCAGTGGGGCTGGAAACGGTGGGAAAACCGGGACGTGTGCTGGCTGTATCCGGTGACGGCTCGGCCATGTACTCCATCTCGGAACTCGCCACGGCCAAACAGCACAACATCCCGGTCACCTGGCTGATTGTGGACGACGGCGGCTACGGCATCCTGCGCGAATACATGGTGGGCGCCTTCGGCAAAGCCACGGCCACCGAGCTCGCACGCCCTGACTTCGTCAAGCTCGCCGAAGCCTTCGGTGTGCCGGCCACCCGGGTGGCCCCCGAAGAAGTCGGGGACGCGCTGAAAGCCGGATTCGCCGCGGACGGACCCAACGTCGTCGTCGTCGAAACCCTGCTCAAGATGTTCGCCCCCACCCACACGGAGGACTGA	MIDDGAGTAAAGAVDKTGAGDKAGAGENKGTDERNGGDLVVETLEALGAKTVFGIPGQHALGLFDAMGRGNLHFVSSRVENNSAFAADGYSRATGEVGVLFLSTGPGALTSLAGLQEAYATGVPMVVVASQIPLEGLGARRKGMLHQLDDQKASAANVTKSQRLIQHASGIPSAIQDAWTEAISSPQGPVWLEIPQNVLLDPIMVPPVEDALAEAADNPPRVELVREAVKWLSTAERPAIIAGGGTRRGRAEKSLLSIAEKLRAPVICTPGGNGAFPWNHELSLQSWIEDRYMTDVLEDGDVLVVIGSSLGEVTSNYFTFEPRGRIIQIDAEPRVLESNRPGLGIRADAGQALAALDEALDTALERDRKASPTWHGVTPEDLVRESLAKVKARLESQDLAKELKFMADIREAVPPDMQTFWDMTISSYWAWSCWDARQGQFHSAQGAGGLGFGYPAAIGGAVGLETVGKPGRVLAVSGDGSAMYSISELATAKQHNIPVTWLIVDDGGYGILREYMVGAFGKATATELARPDFVKLAEAFGVPATRVAPEEVGDALKAGFAADGPNVVVVETLLKMFAPTHTED	PGPT0008185_5420	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
D1-29_00994	477			hypothetical protein	ATGGCAGTTGCGCCGAATACCGCGGCAGAGCTCGTCTACCAGATCTTTGATCTACAGGGGGCGGTACGCTGCGTGGCAGCAGCGAGCCTTCGCGGGCAGGAAACAGGGGTCGCGCTGCAGGGCGTTCTCAGGTTCGTGGGGGAGGGGGAGACCCGCGCCACACGGCTCGCTGAGCGGCTGGGCGTCAGTGCCCCGGTCCTCAGCCGCCATATCGCGGATCTGGAGGAGCAGGGGTACGTCATCCGCCGGCAGGATCCCGACGACGGCCGTGCCCAGCTGGTTGCGCTGACCTCCAAGGGCTCTGAGAAGCTGCGCCACATCGAGGAGCAGCGTACTTCGGCCCTGCAGGACTACCTCCGGGAATGGAGCCAGGAGGATGCCGAGGAAGCAGCAAAGACCCTGCGGAAACTCACCGATTCCCTCAAAACTTCAGCCCGGGCAAAGGCGGCCGGACGTTCGTCAGTTACCACGTCTTAG	MAVAPNTAAELVYQIFDLQGAVRCVAAASLRGQETGVALQGVLRFVGEGETRATRLAERLGVSAPVLSRHIADLEEQGYVIRRQDPDDGRAQLVALTSKGSEKLRHIEEQRTSALQDYLREWSQEDAEEAAKTLRKLTDSLKTSARAKAAGRSSVTTS				NA	NA	NA	NA	NA
D1-29_00995	1665	bmr3_1		Multidrug resistance protein 3	ATGTCGAGCCAAACGGCTGCAGCACCACCCGTGGCGATGACCCACCGCCAGATCATGGAAGCCCTGACCGGGCTCCTCGCCGCCTTCTTCACGGCCATCCTCAGCAGCACCATTGTGGCGAATGCGCTGCCCACCATCATGTCCGAGCTCAAAGGCACCCAGACGGATTTTGCCTGGGTCATCACGGCTGCGCTGCTTGCCAACGCAGCCACCACGCCCATCTGGGGAAAACTGGCCGACCTCTACGACAAGAAGCTGCTGGTCCAGCTCAGCATTGTCGTCTTCGTGGCCGGCTCCGTCATGGCGGGACTGTCCCAAACCATCCCGTTGCTTTTGGCGGCACGGGTGATCCAGGGCGTGGCCATGGGCGGGCTCACCGCCATGGCCCAGGCCATTATCGGCACCATGATCCCGCCCAGGGACCGCGGAAAATACTCCGGCTACATGGGCGCCGTGATGGCAGTGGGCACCGCCGGCGGCCCGCTCCTGGGCGGGTTCATTGTGGACAGCCCGCTGGGCTGGCGCTGGACGTTCTTTGTCTGCGTCCCGCTCGCCATCGTGGCCCTGATCCTGTTGCAGATCACCCTGAAGATCCAGCACGTCCGGCGCCCCGCAAAGATCGACTGGCTGGGTTCCATCCTGCTCACCTCCGGCGTCAGCCTGCTCCTGATCTGGGTCTCCTTCGCCGGCAACCCCGCCTACTACGGCTGGATCTCCTGGCAGTCCGCCCTGATGGTGGGCGGCGGCGTGGTGCTCCTAGGCCTGCTGGTCCTGGTGGAGTCCAGGGTGGAACAGCCCATCATTCCGCTCAAGATTATCTCCGAGCGGACCACCGCCCTGGCCATCCTTGCCTCGGTGGCAGTAGGCGTGGCCATGTTCGGTTCCTCCACCTTCCTGGGCCAGTACTTCCAGGTGGCACGCGGCGCCAGCCCCACCGAAGCGGGGCTGCTGACATTGCCCATGATCGCCGGCAACCTGGTGGGCTCTGTCGCGTCCGGCCTCCTGATCAGCCGTACCGGCAGGTGGAAGGGCTACCTGGTGGCCGGCTCAATCCTGCTCATCGGCGGGCTCGGCCTTGCCGGCACCATGGACCACACCATCGAGCTGTGGCACGCAGGCGTTTTCACGGCGGTCCTGGGATTGGGACTTGGCATGCTGATGCAGAACCTTGTCCTGGCCGTGCAGAACACCGTCCGGGCCGCTGACATCGGTACGGCCAGCGCGTCGGTGGCGTTCTTTCGGTCCGTGGGCGGTGCCATTGGTGTTTCGGTTCTTGGTGCCGTTCTGGCCAGCCGGGTCAGCGAACTTGCCGGCCAGGGACTCAGCGCGGCGGGCATTGCCGTGGAGGGCGGCCCGGCAGGGACCAGCATGGACCTGACCCACATGCCCGAGCCGGTGCGCGAGATCATGCGGGCGGCCTATGGCGATGCCACCGCTGAAGTCTTCCTCGTCTCGGCAGCTGTGGGCCTCGTGGCGCTGATCTCTGTCCTGTTCATCAAGGAACGCCCGTTGCGGCGCACCGTTGACGTGCAGGAGGCGGAAGCCGCACGCAGGGCGGAGCCAGGATCGGGGTCAGGGACAGGACGTCAACCAGCGTCCCGGTCAGGAGCCGCTGAGGCAAAACTGGAAAGCCCGACGGCGGAACTCGCCTCAGTCCACAGCTGA	MSSQTAAAPPVAMTHRQIMEALTGLLAAFFTAILSSTIVANALPTIMSELKGTQTDFAWVITAALLANAATTPIWGKLADLYDKKLLVQLSIVVFVAGSVMAGLSQTIPLLLAARVIQGVAMGGLTAMAQAIIGTMIPPRDRGKYSGYMGAVMAVGTAGGPLLGGFIVDSPLGWRWTFFVCVPLAIVALILLQITLKIQHVRRPAKIDWLGSILLTSGVSLLLIWVSFAGNPAYYGWISWQSALMVGGGVVLLGLLVLVESRVEQPIIPLKIISERTTALAILASVAVGVAMFGSSTFLGQYFQVARGASPTEAGLLTLPMIAGNLVGSVASGLLISRTGRWKGYLVAGSILLIGGLGLAGTMDHTIELWHAGVFTAVLGLGLGMLMQNLVLAVQNTVRAADIGTASASVAFFRSVGGAIGVSVLGAVLASRVSELAGQGLSAAGIAVEGGPAGTSMDLTHMPEPVREIMRAAYGDATAEVFLVSAAVGLVALISVLFIKERPLRRTVDVQEAEAARRAEPGSGSGTGRQPASRSGAAEAKLESPTAELASVHS				NA	NA	NA	NA	NA
D1-29_00996	1734		COG1132	putative ABC transporter ATP-binding protein	ATGCTCCTCACCCTCATACGGCGCTATTCGAAACCGTATATGCCATACATCGTGGCCGTCATTGTCCTGCAACTGGCGTCCACGATTGCCGCGCTCTACCTTCCCAGCCTCAATGCCCAAATTATCGATGAGGGTGTTTCCCGCGGTGACACCGATTTCATCTGGCGTACCGGCGTTCTGATGCTCCTGGTCGCCTTTGTCCAGGTTGGTACCGCCATCGCAGGTGTTTACTACGGATCCAAGGCAGCCATGGCGGTGGGCCGGGACCTGCGCCGCGGTGTGTTCCGCAAGGTCACCAGCTTCTCGGCCAAGGACGTAAACGCTTTTGGCGCGCCCACCCTGATCACCCGCGGCACCAACGACGTCCAGCAGGTCCAGATGCTCGTGCTGATGGGCCTGAACTTCATGGTGGCCACGCCCATCATGTGCATCGGCGGCATCATCATGGCGCTCCGTGAGGACCTCAACCTCTCCTGGCTGGTGTGGGTCTCTGTACCCGTGCTGATTGTGGTGGTGGGCTACCTGGTGGTCCGCCTGATGCCGCTTTTCCGTTCCATGCAGAAAAAGATCGACGGCATCAACGCCGTCCTGCGCGAGCAGATCATCGGCATCAGGGTGGTCCGCGCCTTTGTCCGCGAACCCTATGAAACCGAGCGCTTCGGGGAAGCAAACAGGGAACTGACAGACGTTTCATTGAAGATCGGCGCTCTCTTTGTCCTGATGTTCCCGGCCATCGGCATGATCCTCCATCTCTCAACGGCAGCCGTCCTGTGGTTCGGCGGCCAGCGCGTTGACTCCGGCGACATGCAAGTGGGTGCCCTGACCGCCTTCCTCCAATACCTCCTGCAGATCCTCATCGCAGTCATGATGGGCACATTCATGGCCATGATGATTCCGCGGGCCTCGGTCTGCGCGGACCGCATTGGTGAAGTGCTCGACGTCGAACCCTCGATCCACGATCCTGAGCAGCCGGAGAGTCCGGCCACCCTCGCCGGTGTCGTCGAATACCGGAACGTCACGTTTGCGTACCCCGGTGCCGAGTCACCGGTCCTGAGCAACATCAGTTTCACCGCCAGGCCGGGGGAGACGCTGGCCATCATCGGTTCCACGGGCGCCGGCAAAACCTCCTTGCTGTCGCTTCTGCCACGCCTCTATGACGTGGCCGAGGGTGAGGTCCTCCTTGACGGCGTGTCCGTCAGCAAGCTGGACCGGTGCGAAATTACCAAACGGGTGGCGCTGGTTCCCCAGCGGCCGTATCTGTTCTCCGGGACCATCGAGCACAACCTGCGCTTCGGGAAAACCGAGGCAACGGACCAGGAGCTCTGGGAGGCACTGGAGGTATCGCAGGGCGAGGACTTTGTCCGGGAAAAGAAGAACGGCCTGAACGCGCGCATCGCCCAGGGAGGAACCAACGTCTCAGGCGGCCAGCGGCAGCGGCTTTGCATCGCCCGTGCCCTGGTGACCAAGCCCAAGGTGTACCTCTTTGACGATTCCTTCTCTGCCTTGGATGTTGCCACCGATGCACGGCTCCGCGCTGCACTGAAAGGCACCACTGCTGATGCAACGGTGATTATCGTTGCCCAACGGATCTCCACCATCACCGAGGCCGATCAGATCCTGGTGCTGGACAACGGCCGGATCGTGGACCGCGGCACCCATGAAGAACTGCTGGAAACGTCACCCACCTACCAGGAAATTGTGGAATCCCAGCTGAGCGTGGAGGAAATGGCATGA	MLLTLIRRYSKPYMPYIVAVIVLQLASTIAALYLPSLNAQIIDEGVSRGDTDFIWRTGVLMLLVAFVQVGTAIAGVYYGSKAAMAVGRDLRRGVFRKVTSFSAKDVNAFGAPTLITRGTNDVQQVQMLVLMGLNFMVATPIMCIGGIIMALREDLNLSWLVWVSVPVLIVVVGYLVVRLMPLFRSMQKKIDGINAVLREQIIGIRVVRAFVREPYETERFGEANRELTDVSLKIGALFVLMFPAIGMILHLSTAAVLWFGGQRVDSGDMQVGALTAFLQYLLQILIAVMMGTFMAMMIPRASVCADRIGEVLDVEPSIHDPEQPESPATLAGVVEYRNVTFAYPGAESPVLSNISFTARPGETLAIIGSTGAGKTSLLSLLPRLYDVAEGEVLLDGVSVSKLDRCEITKRVALVPQRPYLFSGTIEHNLRFGKTEATDQELWEALEVSQGEDFVREKKNGLNARIAQGGTNVSGGQRQRLCIARALVTKPKVYLFDDSFSALDVATDARLRAALKGTTADATVIIVAQRISTITEADQILVLDNGRIVDRGTHEELLETSPTYQEIVESQLSVEEMA	PGPT0029025_1622	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
D1-29_00997	2070		COG1132	Fatty acid ABC transporter ATP-binding/permease protein	ATGAGCGGCCGCAAGAAGGATTCAACAAAGGCCGGGGACATGGCAGCAACACCACCGGCTGTACCAGATTCCATCGACGTTCTCGAGGACGACGAGTTCTTCGAGGAGGAATACAAGCCCTCCGAGGCCGACGGCGATATGTTCGGCGGCATGCCGGCGAAAAAGGCGGAACACTTCTGGCCTTCGGCCAAGCGGCTGATGGGCCTGCTCAAGCCGGAGTCGCTGGGCATCTATGCTGTCGTGGCCCTGGTACTGGTGGCGGTGGTCCTGAACGTCATTGCGCCCAAGATCCTGGGCCAGGCCATGGACGTGATTTTCGGCGGCGTGGTGGGAAAACAGCTTCCCGCCGGTGCCAGCAAGGAAGAGTTCGTCGAGGGGCTGCGCCAGCAGGGACAGGACAACTTTGCGGACATGATCTCGAAGATGGAAGTGGTTCCCGGAAGCGGCATCGACTTCCAGAAACTATCCGTCCTGATTGCCATTGTGCTGCTGATGTACTTCGTTGCCAACATTTTCCTCTGGCTCCAGGGCTACGTCCTGAACCGCATTGTCATGAAGGTCATCCGCCGGCTCCGCGACGATACTGAAAAGAAGCTGAACCGCCTGCCGCTGAACTACTTTGACACCCGCCAGCGGGGCGATGTCCTCTCACGGGTGACCAACGACGTCGACAACATCCAGCAGGCACTCCAGCAGGCCTTTGCCCAGCTGATCAACTCGCTGCTGACCGTCATCGGCATTGTCATCATGATGTTCATCGTGTCCTGGCAACTGGCAGTCATTGCGCTGATCGCACTTCCGCTCTCCGGTGTTGCCGCCGGAATCATCGGGTCCCGCAGCCAGAAGCTCTTCGCCGCGCAGTGGAAGAACACCGGGGCACTCAACGGCCAAATCGAGGAATCCTTCTCAGGCCATGACCTGGTGCGGGTTTTCGGCCGCGACGCAGACATGCTGGAACGCTTCGAGGAGCGCAACGAGGCACTGTACAAGGCCAGTTTCGGGGCACAGTTCGTCTCCGGCATCATTTTCCCGGTGATGCAGTTTGTCTCCTACCTCAGCTACGTGGGCATAGCCGTTGTGGGCGGCCTCCGGGTCGCCTCAGGTTCCATGTCCCTGGGGGATGCCACCGCGTTCATCCAGTACTCACGGGAATTCACGCAGCCGCTGGGCCAGATGGCCGGCATGGCCAACATGCTCCAGTCAGGCGTGGCGTCCTCGGAACGAGTATTCGAATTCCTGGACGCCGATGAGCAGGATCCGGAGACTGCCACCGACCACTTGCCCGCCAAGACGGACGGCCACGTGGAGTTCAGGGATGTCACATTCAGCTACACCGAGGACAAGAAGCTGATCGAGAACCTGTCCTTCACCGCGCAGCCGGGGCACACCGTCGCCATTGTCGGCCCCACCGGAGCAGGTAAAACCACTTTGGTGAACCTGGTGATGCGCTTCTACGAGATCAATGCAGGCTCCATTACCCTGGACGGCGTGGACATCACCAGGCTGACCCGTGCCGAACTCCGGTCCAAGGTTGGAATGGTGCTCCAGGACGCCTGGCTGTTCGGCGGCTCCATCTACGACAACATCCGCTACGGCAACCTGGACGCCACGGAAGAGCAGGTGATGGCTGCGGCAAAGGCCACCTTCGTGGACCGTTTTGTGCGCGCCCTGCCGGAAGGCTACAACACCGTGATTGATGAGGAAGGCAATAACGTCAGCGCCGGTGAGAAGCAGCTGATCACCATCGCCCGCGCGTTTGTGGCCAACCCGTCGCTGCTCATCCTGGATGAGGCCACCAGCTCGGTGGACACCCGCACGGAACTGCTGGTGCAAAAAGCCATGGCAGCCCTCAGGACCGACCGCACCAGCTTTGTCATCGCGCACCGTCTTTCCACCATCCGCGATGCCGACACCATCCTGGTGATGGAGAACGGCCAGATCGTCGAACAGGGTAACCACAGGGTCCTTTTAGCGGCTGAGGGGGCGTACTACCGGCTCTACATGTCCCAGTTCGCCGGGTCCGACGCTGAAGAAACACCTGTGGACGACTCGACGGCGGTGCACAGCTGA	MSGRKKDSTKAGDMAATPPAVPDSIDVLEDDEFFEEEYKPSEADGDMFGGMPAKKAEHFWPSAKRLMGLLKPESLGIYAVVALVLVAVVLNVIAPKILGQAMDVIFGGVVGKQLPAGASKEEFVEGLRQQGQDNFADMISKMEVVPGSGIDFQKLSVLIAIVLLMYFVANIFLWLQGYVLNRIVMKVIRRLRDDTEKKLNRLPLNYFDTRQRGDVLSRVTNDVDNIQQALQQAFAQLINSLLTVIGIVIMMFIVSWQLAVIALIALPLSGVAAGIIGSRSQKLFAAQWKNTGALNGQIEESFSGHDLVRVFGRDADMLERFEERNEALYKASFGAQFVSGIIFPVMQFVSYLSYVGIAVVGGLRVASGSMSLGDATAFIQYSREFTQPLGQMAGMANMLQSGVASSERVFEFLDADEQDPETATDHLPAKTDGHVEFRDVTFSYTEDKKLIENLSFTAQPGHTVAIVGPTGAGKTTLVNLVMRFYEINAGSITLDGVDITRLTRAELRSKVGMVLQDAWLFGGSIYDNIRYGNLDATEEQVMAAAKATFVDRFVRALPEGYNTVIDEEGNNVSAGEKQLITIARAFVANPSLLILDEATSSVDTRTELLVQKAMAALRTDRTSFVIAHRLSTIRDADTILVMENGQIVEQGNHRVLLAAEGAYYRLYMSQFAGSDAEETPVDDSTAVHS	PGPT0029030_82	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
D1-29_00998	417			hypothetical protein	ATGCGATGGGGCGACATGGATGCCTATGGGCATATCAACAACGTCCAGATCGTCCGGATGCTCGAGGAGGCGAGAATCGCCGCCTTCGGGCCACCCCGAGGTGCGGGATTGCCGGGGATCGAACCACACGTTTCCCTCTTCAATGATGTTCCGGAAGGCACCATGGCGTTGGTGGTGGACCACAAGATCCGGTACGTCAGGACCTTGGAATACCGGAATATTCCTGCAGTGGTCCAGGTATGGATTGGCGCGGTGAAGGGAGCCAGCTTCGACATCCACTATGTGGTGCAGGATCCGGTCAGCAGGGAAGAGTGCGTCAGAGCCAGCAGTCATTTGGCGTTTGTGGATGAAGCAACAGGCCGGGTGCTGCGTCTGACCCCGGAGCAAAAGGAGCGCCTCCGGCCCTTTGTTATCTAG	MRWGDMDAYGHINNVQIVRMLEEARIAAFGPPRGAGLPGIEPHVSLFNDVPEGTMALVVDHKIRYVRTLEYRNIPAVVQVWIGAVKGASFDIHYVVQDPVSREECVRASSHLAFVDEATGRVLRLTPEQKERLRPFVI	PGPT0001850_6495	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
D1-29_00999	240			hypothetical protein	ATGGCCAAGATGAAAAAGAAGACCTGGAAAGAAATGTCGCCCGCCGCACGGACGGGGACAATTGTTGTGGGAATTGCGCAGGTGGCGCTGATGCTTGCCGCCCAGCGGGACATCTCGCGGCGCCCGGCGGAACTGATTAACGGGCCGAAGGCAGCATGGCGGATGGGGGCCCTGATCAACTTCGTCGGACCCATGGGCTACTTCGTGTTCGGCCGCAAGCGGCCTGGGGCGGCTAAATAG	MAKMKKKTWKEMSPAARTGTIVVGIAQVALMLAAQRDISRRPAELINGPKAAWRMGALINFVGPMGYFVFGRKRPGAAK				NA	NA	NA	NA	NA
D1-29_01000	2232			hypothetical protein	ATGATCCCTGCCCCAAAAACTGCCATCACCCGTGCCCTCGGTATCTCGCAGGAGATAGAGGACGCGGCTTGGTTTGTGCTCGGGCCGGGCCTGCAAGGCAAGCCGTCCGCCTTGGACGGGCGTACTCTCACGTGGACAGCTGAGGCCGCGGCTGAGCTGCTGGAGCGTCTGGAACGCGGTGTTCCGGACGCCAAGGCACCCATGATGACCAACCTGCGCGAGAACCTTCAGGACGCATCCCGCGGCGCCAAGCAGCTGGCGGTGGAGCTGCTCTTCCTGCAGTCGTTGCCACTGGCGCATGAGGTCAAGTCCCTTAAGGTCAAGCGGGCCCGCGTGGCCGAGGCAGCCTCCTGGCTGGAACCTCCGCTGGAGCTGCCCGAAGAGCTCTACAAGGGCATGACAGACCATGGCGTGATCAGGGACCGCACCGCAGAATTCAACTGGACCATTTGGGACCATCTGAAGTGGCTGTGCCGGTTTGTCCAGCACGTGGACCAGCAGGTCCCGGAGGCCATCACCGCAGCGCTCAGGGATCCGCTGAAGTTCCATGCGTTGGCCTCGTCAACGCCGGGTGACCAGCCGGCCATCCGGCGCAGCATCGAGTACCTGGCGTGGCCCAGCTACTTTGAGCCCGTGGTGGCCGACGTGGAGCGCCAGGAGATCCGCGACGCCTTTGCCTCGCTGGTGGGCGGGGCCAAGGGTGACAGCGACGAGGACATCACCGCAGACATACACCGGATCCGGCTCCACCTTGATGAACAGGCCGGGCAGCGCATCGACTGGTACGCGCGCCAGCTGGTGAGCCAGTGGCGCAAGGTGGGCGACCCCGGCAGGCGGGCATGGCTGCTGCGCACGCACAGCGACAATACCGAACTGCTTAGCGCCTGGCAGGGCGAAGAAAAGGTGACGCTCGACGTCGAACACCTCCGGCTGCTCGATCCCGGCGTGACCGCCGGGCTGGTGCAGCACGCCGTCGATGAGGACTACAAGCATCTGGGCTATGTTGAGCGCGAGGACACCAAGACCGCCGTCTTTGCCTTCCTCACGGTGATGAAGCCCGGCGATCTGGTGCTGTACCAGCACTCCGGCTCAGTCCGGCTTGGTGTGGTCCTGGGTGAGCCCGAACATAACGAGGACAACCGCCGGATGCGCCGCAAGGTTCGCTGGTTCGACGAAGGCCATACCACTACCTCCCTGCCGCGGCACGTCCAGCGCCAGCTTGCCACTCCAGGGATCATCGTGGACGTCACCAAGGTGGCGCAGGCGCTCCAGGCGCTCCTCCCGGCCGAGGCCGAACCGGAAGACGACGACGCCGGCGACGCGTCCGCCGTCGTCGAGCCTGCCCAGGAAGGCTTCCGGCCGCTTACTGCCGAATTCGCGGAATCGCTGCACATGGACCTGGAGCCGTTGCAGGAGATCGCGGAACTGCTGGAAGAAAACCGACAGCTGGTTCTCTACGGTCCGCCTGGAACCGGCAAAACCTACCTGGCCAAACACCTCGCCGCCGAACTGGCCGATGACAGCACGGACGAACGCGTCAAACTGGTGCAGTTCCACCCGTCGTATGCCTACGAGGACTTCTTTGAGGGCTACCGGCCGGACAAAACAGACGAAGGCCAGGTGTCCTTCAAACTTGTGGCCGGGCCGCTGCGACGGTTGGCCGAGGAAGCTGCGAAGCCGGGCAACGAAAAGAAGCCCTACTTCCTGATCATCGATGAGATGAACCGGGCCAACCTGGCCAAGGTGTTCGGCGAGCTCTACTTCCTGCTCGAATACCGCGACGACAGGATCTACCTGCAGTACAGCCCGAACGAGCCGTTTACGCTGCCGGACAACCTGTACATCATCGGCACCATGAACACGGCTGACCGCTCCATCGCGATGATGGATGCGGCCATCCGCCGCCGGTTTGCCTTCATTGAGCTGCATCCGCAGACGGAGCCCGTGAAGGGTTCGCTGCTGCGCTTCCTGCAGGCCAGGCAGCTGGACACCACTCCGGCGCTGCTCCTGGATGCGCTGAACACGGCCATCGATGAGTGGGACCGGGACCTGATGATCGGTCCGTCCTACTTCATGAAGCCTGCAGCCCAGACGCCCGCAGGCCTTCGCCGCATCTGGAAGTACGAGCTGATGCCCCTGCTGGAGGAGCACTACCACGGCCAGTTGACCCGGGCGCAGCTTGAGGAGCGCTTCGGACTGGACCAGCTGCTGGGACGCCTTGCTGCCGGGTAG	MIPAPKTAITRALGISQEIEDAAWFVLGPGLQGKPSALDGRTLTWTAEAAAELLERLERGVPDAKAPMMTNLRENLQDASRGAKQLAVELLFLQSLPLAHEVKSLKVKRARVAEAASWLEPPLELPEELYKGMTDHGVIRDRTAEFNWTIWDHLKWLCRFVQHVDQQVPEAITAALRDPLKFHALASSTPGDQPAIRRSIEYLAWPSYFEPVVADVERQEIRDAFASLVGGAKGDSDEDITADIHRIRLHLDEQAGQRIDWYARQLVSQWRKVGDPGRRAWLLRTHSDNTELLSAWQGEEKVTLDVEHLRLLDPGVTAGLVQHAVDEDYKHLGYVEREDTKTAVFAFLTVMKPGDLVLYQHSGSVRLGVVLGEPEHNEDNRRMRRKVRWFDEGHTTTSLPRHVQRQLATPGIIVDVTKVAQALQALLPAEAEPEDDDAGDASAVVEPAQEGFRPLTAEFAESLHMDLEPLQEIAELLEENRQLVLYGPPGTGKTYLAKHLAAELADDSTDERVKLVQFHPSYAYEDFFEGYRPDKTDEGQVSFKLVAGPLRRLAEEAAKPGNEKKPYFLIIDEMNRANLAKVFGELYFLLEYRDDRIYLQYSPNEPFTLPDNLYIIGTMNTADRSIAMMDAAIRRRFAFIELHPQTEPVKGSLLRFLQARQLDTTPALLLDALNTAIDEWDRDLMIGPSYFMKPAAQTPAGLRRIWKYELMPLLEEHYHGQLTRAQLEERFGLDQLLGRLAAG	PGPT0027240_291	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
D1-29_01001	1218			hypothetical protein	GTGCAGACAGTCCGGCACCTGACCTTGGATGAGCTGTCTGCAGGGATCGTGGACCGGCTGGACCCGGCCAGTGCGGCCTTCCTGAACTCCAGCGGCCTGGCCAAGGCGTCGCCGATGGGGATGGGACTGTACCGGATTGAGCCTGTGGGCAAGGTGGGCTCCGTTCGGACCAGCACGGTGCAGCTGGACGTGCGGCCCAAGGACAGGCTGGGGCTCAGCCGGCTGCTGTTCCTTCTCAGCTACGCCGGCAATCAGGGATTCCGTTCCGATTCCGTGGCCGCCGTCGAAGAGCGTGAGCTGTGGAGCGCGCTGGCCGAATCCCTGGCCCAGCTCGCCGAACGTGCGCTGGGCCGTGGCGTCCTGCAGGGCTATCTGACAGTGGATGAGTCCCTCCGGACGGTCAAGGGCAGGATCCGCATCTCCGACCAGATCTCCCGCCGCCCCGGAATGCTGGTTCCGCTGGAAGTGTCCTACGACGAGTTCACTGAGGACATCGCCGAAAACCGCATCCTGCGTGCCGCGCTGGACAGGATGGGCCAGGTCCCGCGCGTCCGCCCGGAAGTCCTGAGCCGCCTCCGCCAGCTGAAGGGAAAGCTCGACGCCGTCACCCGGCTGGCGTCGGGCGCGCCGCTGCCGCCGTGGAAACCCAGCAGGATGAACGTCCGCTACCAGCCGGTCCTGCGCCTGGCCGAGCTGATCCTGCGCAATGCCTCTGCCGAGGCCGGTGACGGCAAGCAGCAGACCGCATCATTCGTGGTGGACATGGCGCAGGTCTTTGAGGACTTTGTGGGGACCGCCCTCCGGGAAGCAATGGCCGCATACCCGGGGGAGCTGCGGCTGCGGTACAACGCCCTCCTGAGCGAGGCGGTCAGGGACTCGGACCGGCTGTCCGTGCAGCCTGATGCGGTGCATCTGCTGGGCGGCCGGCCGGTTGTGGTCTACAACTCCAAGTACAAGGCCGCCTCGGACCTAGGGGCATCCCTCACAGTTGACCACTACCAAATGCTGGCTCACTGCACCGCGCTCAGGGTACCCACCGCCTGGCTGGTTTATGCCGGACCGGGTGAGGTGAAGCTCCGGCGGATCCTCAACACTGACATCGACATTGTGGAGTTTCCCCTGGATCTGTCCCGGCCGCCGTCGGACATCCTTGCCGCCATTAAGGACCTCGCAGAGCAGTCCTGGGGCGAAGTGGTGCGCCAGGCCAGGGTCGGCTAG	MQTVRHLTLDELSAGIVDRLDPASAAFLNSSGLAKASPMGMGLYRIEPVGKVGSVRTSTVQLDVRPKDRLGLSRLLFLLSYAGNQGFRSDSVAAVEERELWSALAESLAQLAERALGRGVLQGYLTVDESLRTVKGRIRISDQISRRPGMLVPLEVSYDEFTEDIAENRILRAALDRMGQVPRVRPEVLSRLRQLKGKLDAVTRLASGAPLPPWKPSRMNVRYQPVLRLAELILRNASAEAGDGKQQTASFVVDMAQVFEDFVGTALREAMAAYPGELRLRYNALLSEAVRDSDRLSVQPDAVHLLGGRPVVVYNSKYKAASDLGASLTVDHYQMLAHCTALRVPTAWLVYAGPGEVKLRRILNTDIDIVEFPLDLSRPPSDILAAIKDLAEQSWGEVVRQARVG	PGPT0027245_567	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
D1-29_01002	1656	sasA_5		Adaptive-response sensory-kinase SasA	ATGACTGAGCCGGTCAAGTGGGCGTCAGGCCGGGTGCGGTTCTTCCGCCAGCCGTTCCACGAGTACTCCCTGCGGGAGCGGGTGGCCTTGAGCCAGATGCCGCTTTTCGTCACAACGGTGCTGACGGCCATCCTGGTCTGGGCCTTTTTCCGGGACACCCTGGGCAACCCCCTTTTTGCTGCGTTCCTCGTGTCCCAGCTGGCCATCATGGTGCTTTGCTACGTAGTGCCCTGGGAGCGGCTGCCTTACACCAGCTTCCTGCTGCTTCCGCTGCTGGATTTCGTCTCGATTGGGCTGGGGCGTGAAGGTGGGCAAGAAAGCCTGATTGGCATCAGCCTGCTGGCTGTATTCCCCGTGATCTGGCTGTGCGCCTCCGGCTACTATCCGCGGACAGCCCTCTGGCTGTCCTTCCTTGCACCCCTGGCCATTATTTGGGTGCCCCTCTTTGTTAATGACAATGTCACCGGCCCCAATCTGGCACGATCCTTGCTCCTGCCCGTCATGACGCTTGGCATTGGCGTCTCCATCAGTGTCCTGACCCTGAGCATGACCCGCCAGCAACAGGACCTGGAGGAAAAGGACGCACAGCTCCAAGACAGCCTGCGGACCAGCAAGCGGCACGAGTCCCTGTTGAATACCATCCTGGACACCGTCCATCTCGGCGTCCTTGCCGTGGATGCGGACGGCAACGACATCCTCATGAACCGCAAGCAGCGCGCCAACCACAAACTGGCCACACCCAAGGACATTGCCGATCCCAACGAATCGCAGCTGTTGGTCTTTGAGCCCGACCGCACCACCCCGGTCCCGGTGGCGGAACGCCCCGTCCGGCGCGCCATCGCCGGCGAGACCTTCACGGACTACCTTGTCTGGCTCGGTTCAGGCAAGGAACAGCGCGCCATCACCACCACTGCCAGGGCGATGAAAGACCAGGATGGCCAGTTTGCCGGTTCGGTGATTGTGTTCAGTGACGTCACGGACCTCGTGAACGCCCTCGCGGCCAAGGACGATTTTGTCTCCAACGTCTCGCACGAGTTCAGGACACCCCTGACCTCAATCCTGGGCTATGTCGAAATCCTGCAGGACGACGATCCGGAAGAGCACCAAAAGAATCCGCTACAGATCATCCGGCGCAACTCGGAGCGGCTGCTCACTTTGGTGTCCGATCTTTTGGCCGTCCGGCATGGCCAGCTGATTGTGACGCCCCAGGCGGTGGACGTCGCGGAACTGGTCCGTGCCAGTGTGTCCGCCGCCCTGCCCAAAGCAGCTGCCTCGCGGGTGGCCCTTCAGGCCGCAACCCCGGAGCGGCTGGATGCGCACGTCGACGCCGCCCGCATCTCCCAGGTCCTCGATAACCTGGTCTCCAATGCCATCAAGTACTCGCCGGATGGGGGCAGCGTGCTGGTCGCGCTGGAACAGCACGAGAGCCTGCTGGCGTGCCGGGTCACCGATACGGGCATGGGTATGAGTTCCGAGGACCAGGCGAACGTCTTTACCAAATTCTTCCGCACCAGCAACGTGCGCCGGACAACCATCCCCGGGGTAGGCCTTGGCCTGCCGATCAGCAAGGCGATTGTGGAAGCCCACGGCGGCACCATCGACGTCGAGAGCAACCTGGGCGAGGGCACCACCTTTACGTTCCGGGTGCCCGTCTAG	MTEPVKWASGRVRFFRQPFHEYSLRERVALSQMPLFVTTVLTAILVWAFFRDTLGNPLFAAFLVSQLAIMVLCYVVPWERLPYTSFLLLPLLDFVSIGLGREGGQESLIGISLLAVFPVIWLCASGYYPRTALWLSFLAPLAIIWVPLFVNDNVTGPNLARSLLLPVMTLGIGVSISVLTLSMTRQQQDLEEKDAQLQDSLRTSKRHESLLNTILDTVHLGVLAVDADGNDILMNRKQRANHKLATPKDIADPNESQLLVFEPDRTTPVPVAERPVRRAIAGETFTDYLVWLGSGKEQRAITTTARAMKDQDGQFAGSVIVFSDVTDLVNALAAKDDFVSNVSHEFRTPLTSILGYVEILQDDDPEEHQKNPLQIIRRNSERLLTLVSDLLAVRHGQLIVTPQAVDVAELVRASVSAALPKAAASRVALQAATPERLDAHVDAARISQVLDNLVSNAIKYSPDGGSVLVALEQHESLLACRVTDTGMGMSSEDQANVFTKFFRTSNVRRTTIPGVGLGLPISKAIVEAHGGTIDVESNLGEGTTFTFRVPV	PGPT0002705_998	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
D1-29_01003	774	phoP_1	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGAGTGATGCACGTGTGGGTCTAGTGATTGAAGATGACCAGGACATCCGGGAATTAGTGCGCACTGTGCTGAGCCAGGCAGGGTTTGAGGTCACGGTTGCCTCCAGCGGCGCCGAGGGTGTCCTCGCGGCCAAAACGCTGAAGCCGGATGTGATCACCCTTGACCTGGGATTGCCGGACATTGACGGTTTTGAGGTTTCGCGGCAGATCCGGGAGTTTTCGGACGCCTACATCGTGATGCTGACCGCCCGGACCGAGGAACTCGACACCCTGATCGGGCTGGAATCCGGCGCGGACGACTACCTCACCAAGCCCTTCCGTCCGCGGGAGCTGCGCGCCCGTGTTGCAGCCATGATGCGGCGTCCGCGTGCTGCCCCGGAGCCCGCAGAAACCACTGCAGAGGCAGCCGGAGCTACGAATGGCGCCCCCGCAGCCAATGGCCGAGGGACGTACAACCACAATGGCCTCAACCTCAATTACGCATCCCGCTCTGTTGCCGTGGACGGTCAGGAACTGAGTTTGACCCGCACCGAATTCGAACTCCTGTACGCCCTCCTGGAAGCCGGCCGGACGGTCCGGACCAAGTCCGATCTGGTACGGCGCCTGCGGGATGAGGATTACGACGTCGGGGGTTACATCAGCGAAGCCGACGAACGGTCCGTGGAAGTCCACATGGGAAATTTGCGTAAGAAACTGGGAGATTCAGCCCAGAGCCCACGGTGGCTCCAGACAGTTCGAGGCGTTGGCTACCGGCTGGCTCCTGAGGAGCGCTGA	MSDARVGLVIEDDQDIRELVRTVLSQAGFEVTVASSGAEGVLAAKTLKPDVITLDLGLPDIDGFEVSRQIREFSDAYIVMLTARTEELDTLIGLESGADDYLTKPFRPRELRARVAAMMRRPRAAPEPAETTAEAAGATNGAPAANGRGTYNHNGLNLNYASRSVAVDGQELSLTRTEFELLYALLEAGRTVRTKSDLVRRLRDEDYDVGGYISEADERSVEVHMGNLRKKLGDSAQSPRWLQTVRGVGYRLAPEER	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
D1-29_01004	411			hypothetical protein	ATGACGCAGTCTGAGGAGCCTGACCGGCCACTGGTTGACCAGTCCGTTTTGGACAGGCTGCGGGCGGAACTGGACGAGGACGAGGGTTACTGCACGGTGTTCGTAGCCAACTTCATGGACTACCTCCCGCACAGGATCGCCAAGCTGCGGCTCGCGCTGACAACAGGGGACCTTGACGGGGCAATGGATGCGATCCTCAGCCTCAAAACGTCCAGCCAAATGGTGGGGGCGGAGCGGCTGGCCGGCCTGGCCATGGATCTTGAGGCGGAAATCCGGAGCGAGGCACGCCAGGCCGACGTGGCCGTTGCCCTACCCCGGCTGGCTGCCGGCTTCCTTAAACCGATCGACCAATGCGCAAAGCAAACCCTGCATCGCCTGCAGGCTCAGCGCTCCTCAGGAGCCAGCCGGTAG	MTQSEEPDRPLVDQSVLDRLRAELDEDEGYCTVFVANFMDYLPHRIAKLRLALTTGDLDGAMDAILSLKTSSQMVGAERLAGLAMDLEAEIRSEARQADVAVALPRLAAGFLKPIDQCAKQTLHRLQAQRSSGASR	PGPT0025855_68	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
D1-29_01005	447	vsr	COG3727	Very short patch repair protein	ATGGCAGACAGGCTGACTCCCGAGCAGCGCAGCTGGAACATGTCACGGATCCGGGGCAAGAACACCAAGCCTGAATTGCTGGTGCGCCGGCTCCTCCATGCGAAGGGATACCGGTACCGCCTGCATGGCCGGGCCGGCAATGACCGCCTGCCCGGCAACCCCGATCTTGTGTTTGCGGGACGCCGGAAGGTCATTTTCGTCAACGGCTGCTTCTGGCATTTCCATGACTGCCGGGTCGGCCTGCACGCTCCCAAGGCAAACGCCGACTTCTGGGAGACCAAACGCACCAGGACCAAAACCCGCGACGCCGATCAGCGCCGCCGGCTCCGCGACTCAGGGTGGGAGGTCCTCACCCTGTGGGAATGCGAGCTGAAGGACGGCTCGGCGCTGGAGACACAACTGGTGGCCTTCCTCGGGGCGCGGACGCCGACTACCGGCAGAAGTTGA	MADRLTPEQRSWNMSRIRGKNTKPELLVRRLLHAKGYRYRLHGRAGNDRLPGNPDLVFAGRRKVIFVNGCFWHFHDCRVGLHAPKANADFWETKRTRTKTRDADQRRRLRDSGWEVLTLWECELKDGSALETQLVAFLGARTPTTGRS	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
D1-29_01006	432			hypothetical protein	ATGTTCAATCACCCAGATGGAAACCCTGTCCTGGAACTCGACGACGAGCAGTGCTGGAAGCTCCTGGCGAACACCGAGCACGGACGGCTGGTAGTCTCCGTCGCCGGCGAACCCGACATTTTTCCCGTGAACTACAAGGCCAATGACCGGAAGATCTATCTCCGGACGGCGCCGGGAAACAAGCTGGCCCAGCTGACAATCAATGAAACAGTACTTTTTGAAACAGACGGCGTGCTGTCCGACGAAGCCTGGTCCGTGGTGCTCAGGGGAACCGCCCGCGTCCTCAACACCTCCGCTGATATTGCGGCCGCCGAGGAACTGGGGCTGAAGTCATGGGTGCCCACCCTCAAGGATTTCTACGTGGCAATTGAGCCCTCCTCTGTCTCCGGCCGCCACTTCCAGTTCGGTGAACAGCCGGAGAGGTACTTCTAG	MFNHPDGNPVLELDDEQCWKLLANTEHGRLVVSVAGEPDIFPVNYKANDRKIYLRTAPGNKLAQLTINETVLFETDGVLSDEAWSVVLRGTARVLNTSADIAAAEELGLKSWVPTLKDFYVAIEPSSVSGRHFQFGEQPERYF	PGPT0028780_2232	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
D1-29_01007	1812			hypothetical protein	ATGAGCAATGACGTTGAGAATACCCGGTTACTGGAGCCGTCGGCGGTAAGTACCCCCGCCGTCGTCAGCTCTTCCGGGACTGCTTTAGAAACGGCAGCGCCGGAAACTGCTGTGCATGAAACCGCAGTACCTGAAACTGCACCGCCGGAAACCGCGACGGCGGGGATCACGACGGCGGGCAGCTCCGCGGCGCTGAGTGCCACCAAGGAGAGCCTGGAGGACTATGCGCTGAGGTTCGCGCCGCGGTCGTACCGGAAATGGAGCGCCGGAGTGGTGGCCACCAGCGCGCTGGGTGGCATTGCGTACCTGGCGGACTTTTCCATTGGTGCGAACATCGGCATCGCGTACGGGACGGTGAATGCCGTTTTCGGAATTCTGGTGGCCGCGGTCATCATCTTTGCCACTGGCTTCCCGCTGGCTTATTACGCTGCGCGGTACAACATCGACCTGGACCTGATTACCCGGGGCTCCGGCTTTGGCTACTACGGATCGGTGGTTACGAACGTCATCTTCGCAACGTTCACTTTCATCTTTTTTGCACTGGAGGGGTCGATCATGGCCCAGGGGCTGGAGGTGGGCCTGGGCATCCCGCAATGGCTCGGGTACGCCGCGTCCACGGTGATCATCATTCCGTTGGTGATTTACGGTATGAACACGCTGGCCAAACTGCAGGTATGGACCACGCCGCTGTGGCTGCTCCTGATGGTGGTGCCCGTGGGATACCTGCTCGTTTCACACCCGGAAAGCATTGACGGCTTTTTCGCCTATACGGGTGAATCAGGTTCCGGCGGGCCAAGCCTGGCCTCGGTGATGCTCGCGGCGGGCGTTTGCCTGTCCCTGATGGCGCAGATTGCAGAGCAGATCGACTACCTGCGGTTTATGCCGCCGAAGACCGCTGAGAACAGGGGCGCCTGGTGGAGGGCCGTGATCCTGGCCGGGCCCGGTTGGGTGATTTTTGGGGCCGTCAAGCAGATTGTTGGCATGTTTATCGCCATCTACCTGATTGCCACGTTGGATCCTGCCGCCTCCGTCCACGCCAACGAGCCCGTTCACCAGTTCCTGGGCGTGTACCAGGAAATGATGCCCGCATGGCTGGCGATGAGCCTAGCCGTGGTGCTCGTGGTCATTTCACAGATCAAGATCAACGTCACCAACGCGTACTCCGGTTCCCTGGCATGGACCAACAGCTTCACCCGCGTCACCAAGACCTACCCCGGCAGGATGGTGTTCGTGGTGGTGAACCTGGTGATTGCGCTGATCCTGATGGAAGCGAACATGTTCGACTTCCTCAACACCATCCTCGGCTTCTACGCCAACTGCGCCATGGCCTGGGTGGTCACCGTCGCGTCCGATATCGCCATCAACAAGTACCTGCTGAAGATCTCGCCCAAGGTTCCCGAGTTCCGCCGCGGGATGCTGTATGCGGTGAATCCGGTGGGTTTTGTATCCATGATGGCTTCGGCGGGGATCTCCATTGCGGTGTTCTTCGGGGCATTCGGAGCTGCCATCCAGCCGTTCTCACCGATCTTCGCGGTGGGGCTGGCGCTGGTCCTGCCGCCCGTCCTGGCGGTTTCCACCCAGGGCCGGTACTACATGCGCCGCACGGACGACGGCATTGACCTGCCAATGTTCGACGCCGACGGAAACCCCAGTGACGCCAAGCTTCTCTGCCACGTGACGGGCATGGAGTTTGAGCGTCCCGATATGATCCGATCGGCCCAGGATGCGCCCGACGGCGGGATCCAGTATGTCTCGTCCCTCGCCCTTTCGACAGATAAGACGGGCGAGTTGGTGTTGCCGGCGCAGAAGTAG	MSNDVENTRLLEPSAVSTPAVVSSSGTALETAAPETAVHETAVPETAPPETATAGITTAGSSAALSATKESLEDYALRFAPRSYRKWSAGVVATSALGGIAYLADFSIGANIGIAYGTVNAVFGILVAAVIIFATGFPLAYYAARYNIDLDLITRGSGFGYYGSVVTNVIFATFTFIFFALEGSIMAQGLEVGLGIPQWLGYAASTVIIIPLVIYGMNTLAKLQVWTTPLWLLLMVVPVGYLLVSHPESIDGFFAYTGESGSGGPSLASVMLAAGVCLSLMAQIAEQIDYLRFMPPKTAENRGAWWRAVILAGPGWVIFGAVKQIVGMFIAIYLIATLDPAASVHANEPVHQFLGVYQEMMPAWLAMSLAVVLVVISQIKINVTNAYSGSLAWTNSFTRVTKTYPGRMVFVVVNLVIALILMEANMFDFLNTILGFYANCAMAWVVTVASDIAINKYLLKISPKVPEFRRGMLYAVNPVGFVSMMASAGISIAVFFGAFGAAIQPFSPIFAVGLALVLPPVLAVSTQGRYYMRRTDDGIDLPMFDADGNPSDAKLLCHVTGMEFERPDMIRSAQDAPDGGIQYVSSLALSTDKTGELVLPAQK				NA	NA	NA	NA	NA
D1-29_01008	660			hypothetical protein	ATGGCATCACTCAAAGTCTTCATGTCCGGTCGCTTGAGGTCCGGCGCAATCATCTTTTGTATTGTTGCTTCAGTTGCCCTGGCCGGATGCACGGGGGGAGCACCTGCAGATCCCGGTACGTCGGCCCCGGCAGCTACGGAGTCAACGTCGCCCAGTGCTTCACCCAGCCCGACCCCGACACCCAGCGCCGCTTACAAACCAGCCGATGCATCCGGCCCCGCCCAAAACGTTCCCGTCCCAGTCATGCCCGATTCGGCGAAGGCGGAGACGAAGGAAGGATTGGAGGCATTCACAAAATATTGGTTTGATCGACTCGACTATGCCTACCAAACGGGTGATGTTGCCGCTTTTCAGGACATGAGTTCGCCAAATTGCGACTACTGCTCGAAACTCGCTGCCTCGCTCACTGCAAATTACGAGGAAGGTCACTGGCTGGCAGGCGGGAAGATTACGATTCCCGCGGCCACAACGTCGTTTGAACCCGCTGCAGACGGAAACTACCAAGTCATTCTCCAAGTGCAGCAAAGTCCGATCAGCTATCACGCATCAAACGGCGAGGAAGTCAGGGCACCGAGCAAGGCCTCGAACACGGGTAACGTGCTATTGGCTGACTTCATAGATTCCGCCTGGCGTGTCAACGGCCTCCATCCAATGCGCTAA	MASLKVFMSGRLRSGAIIFCIVASVALAGCTGGAPADPGTSAPAATESTSPSASPSPTPTPSAAYKPADASGPAQNVPVPVMPDSAKAETKEGLEAFTKYWFDRLDYAYQTGDVAAFQDMSSPNCDYCSKLAASLTANYEEGHWLAGGKITIPAATTSFEPAADGNYQVILQVQQSPISYHASNGEEVRAPSKASNTGNVLLADFIDSAWRVNGLHPMR				NA	NA	NA	NA	NA
D1-29_01009	930			hypothetical protein	ATGAAAAAACGATGGGGGATAAGGGTCTGTTGCGTCTTGGGCTTATTAGTTGCTTTTGTATTGACACCATCGGTTTCAGGATTTGCCGCTGAGGGTCCGGAAGCCAACTTCGGCGAAATAGGTGTTGACGTTGGTGGGTTGATACTGGACCCCGTAACGGGCGAAATGGTTCCTCCGGTTCCTGGCTCTGTGAACATTGACCCCAACGACTACAAATATGAGCTCCAGTGCCACCTCGGCGGGGGAGACTTTGATACTCCATGCCTAGCCGGGCAGGTTGAGTGCAACAACGGCCCGGATGGTGAGGAAGGTATTCCCGTCATTTGGTATTCGAAACCACGGGGTGTCCCGGGAGCCGTCTGGGCGATCCACTCCGGCCCAACGTGTCTCTATGACGCGAAGCCCGAGGACTTGCTGCCGCGGATTGCCGCCGAGATCCAGCGGGAGTTCCAGAGCCTGCCGATCAATGCCGGTGCCGTGGTGGCGCAGCCAAGTCCCCACACACTTCGCGGAGCCGAGACAAACTTCTATGCCGAGGCGGTCGAGCAGCAGTTCGACATCACGATGTTCGGCCAAAAGGTGCACGTCGTCGCCACCCCGGCGCAGTACACGTGGAACTACGGCGACGGTACTGTGTTCGGGCCGCAACCCTCGATGGGCGGACCACTGCCACACGAGCGCTGGGGTGAGAAGACGCGGACCAGTCACGCCTACACTGCCACAGGCGATTTCCAGGTAGTTCTGACCACGTCCTTCCAAGGTACGTATTCGGTAAACAACGGCCCGCCCCTGCCCATCCCCGGTCAAGGGCAGTTCAGTGCGCCGTCGCAGACCATCAGCGTTTGGCGGTCCATCACACGCAATTACGCCGACGACTGCAAGAAGAATCCCCTGGGGCAAGGATGCCCAGGGGTCGCACCCCGTCCGTAG	MKKRWGIRVCCVLGLLVAFVLTPSVSGFAAEGPEANFGEIGVDVGGLILDPVTGEMVPPVPGSVNIDPNDYKYELQCHLGGGDFDTPCLAGQVECNNGPDGEEGIPVIWYSKPRGVPGAVWAIHSGPTCLYDAKPEDLLPRIAAEIQREFQSLPINAGAVVAQPSPHTLRGAETNFYAEAVEQQFDITMFGQKVHVVATPAQYTWNYGDGTVFGPQPSMGGPLPHERWGEKTRTSHAYTATGDFQVVLTTSFQGTYSVNNGPPLPIPGQGQFSAPSQTISVWRSITRNYADDCKKNPLGQGCPGVAPRP				NA	NA	NA	NA	NA
D1-29_01010	1314	spuC	COG0161	Putrescine--pyruvate aminotransferase	ATGGATCTCGACGAACTGGTCTTCCACCCCTGGATTGTCCAAGGACGGCGTGACGTTCCGACGCTGGTCGGCGGCGCCGGGAGCTACGTCGTTGACGTCAGCGGCCGGCGATACCTGGACTTCAGTTCGCAACTGGTGTTCACCAATCTGGGGCATCAGCACCCGCGCATCGTCGCTGCCATCAAGGAGCAAGCAGACCGCCTGTGCACACTGGCACCTGGCTTTGCATCCGACGTTCGGGGCGAAGCGGCACGGCTGATTGTGGATGTCGCGCCAGGGAACCTTGGGCACGTACTCTTCACCACCGGCGGAACGGAGGCCATTGAGCATGCGGTTCGAATGGCGCGCCTTTACACCGGTCGGCCGAAAGTCCTCGCCGCCTACCGCTCCTACCACGGCTCAACAACCACATCCATCCACCTGACCGGCGATCCTCGCCGCTGGGCCTCAGACACTGGTGCCGCCGGCGCCGTCCACTTCTTCGGCCCGTTCCTGTACCGCTCGGCCTTCGGGTCGAGAACCTCTGAGGAAGAGTGTGAGCGGGCGCTTGCTCATCTCGAGCAGGTGGTCCTCCTGGAAGGTCCGACGACGATCGCCGGCCTGGTCCTCGAATCGGTCGTTGGCAGTGCCGGCGTCATTGTGCCGCCGGCGGGCTACTTGCGTGGGGTCCGCGAACTGTGCGACCGCCACGGCATCGTGTACATTGCCGACGAGGTGCTGGTCGGCTTTGGCCGTACGGGAGCCTGGTTCGGAGTGGACCACGATGGTGTGGCACCTGATCTGTTGGTCTTCGCGAAAGGCGTGAACTCGGGATACGTGCCGCTGGGCGGCGTTCTGGTCAACGACGCGATTTACGAGGTGTTCACCAAGCGCCCCTACCCGGCGGGCATGACGTACAGCGGCCACCCGCTCGCCTGCGCAGCAGCCGTGGGCGCCATCAACGCCATGCACGACGAGGACACCATCGCTGCAGCAGCCAGCCTCGGCACCAATGTCCTTGGGCCTGCTCTCAGGGGACTTGCCGACAAACACCAGGCAGTCGGGGATGTTCGGGGCATCGGCGGGCTGTGGACTGTGGAACTGGTCCGCAACCGGCAAACGAAGGAGCCGCTGGTGCCGATAGGAGCCACTGGTGCGGACAACGCGCCCATGGCCTCATTCGCCAAGGCGTGCCTGGAGCGAGGCTTGCTGCCGCTGATCCTGGGCAACCGGATCCACGTCGCTCCCCCGCTCAACGTCAGCCAGCCCGATGCCGCCGCGGGCCTGGCTATCCTCGATGAGGCGCTGAGTGCCGCCGACGAGTTTCTGACCTGA	MDLDELVFHPWIVQGRRDVPTLVGGAGSYVVDVSGRRYLDFSSQLVFTNLGHQHPRIVAAIKEQADRLCTLAPGFASDVRGEAARLIVDVAPGNLGHVLFTTGGTEAIEHAVRMARLYTGRPKVLAAYRSYHGSTTTSIHLTGDPRRWASDTGAAGAVHFFGPFLYRSAFGSRTSEEECERALAHLEQVVLLEGPTTIAGLVLESVVGSAGVIVPPAGYLRGVRELCDRHGIVYIADEVLVGFGRTGAWFGVDHDGVAPDLLVFAKGVNSGYVPLGGVLVNDAIYEVFTKRPYPAGMTYSGHPLACAAAVGAINAMHDEDTIAAAASLGTNVLGPALRGLADKHQAVGDVRGIGGLWTVELVRNRQTKEPLVPIGATGADNAPMASFAKACLERGLLPLILGNRIHVAPPLNVSQPDAAAGLAILDEALSAADEFLT				NA	NA	NA	NA	NA
D1-29_01011	1071	nemA	COG1902	N-ethylmaleimide reductase	ATGCTGTTTTCCCCTCTGACCCTCGGTGAGCTCGAACTGCCCAATCGCCTGGTAATGGCTCCCTTGACCCGGGTCCGCTCGGGCGGCGAGGGCGTGCCCGGTCCGCTGGTAGTGGAGCACTACCGCCAGCGCGCCTCGTTGGGACTGATCGTCAGCGAAGGCGCCTACCCGAGCCCTGCAGGCCGTTCCTATGCCGGCCAGCCGGGACTGGTTACGGAAGCGCAGGTTGCCGGCTGGAAAAAGGTCACCGACGCTGTTCACGCCGAGGGTGGGAGGATGTTCGCGCAGGTCATGCACGGCGGGCGGGTATCGCATGAGGACATCACCGGCGGACACCGGCTTGTGGCTCCCAGCGCCGTCGCGATTGAGGGTGAAGTCCACACGCCAGGCGGCAAGAAGCCCTATCCGGTGCCGCATGCACTCACCACCGATGAGCTTCCTGTTGTGATGCAGGAGATCGTAACGGCTTCGCTCAATGCGATCGCTGCCGGGTTCGACGGAGTGGAGCTGCACTCGGCCAACGGGTACCTGTTGCACGAATTTCTGTCCTCGAATGCCAATATCCGCACGGACAGTTATGGCGGTTCGCCGGAAAACCGCGCCCGCTTCGTGATTGAGACGGTCAACGCCGTAGTGGCGGCAATCGGCGCCAACCGGGTGGGCATCCGCATCTCACCGGCCCACAACATCCAGGGGATCGCCGAAACCGACCCCGCAGACGTCCGTGCCACCTATGAAGTGCTGGTGGACAGCATCGCGCCTTTGAACCTCGCGTACCTGAGCATCCTGCACCATGACCCGGCAGGGGAGCTCATGCAGGATCTTAGGGCCCGCTTCGACGGAACGTTCCTCGTCAACAGCGGCTTTGGAGTGATCACCACGCGTGAAGAGGCAGTGGCACTGATTGCCGACGGCCATGCTGATGCAGTGGTGGTTGGGCGCCCTGCTATCGCCAACCCTGACCTGGCCCGCCGCTGGAAGGAAAGCCTTCCGCTGAACGAGGCCGACCCGGCTACCTTCTACGGTGACGGAGCCAAGGGCTACACGGACTATCCCGCGTACTCGGCCTAA	MLFSPLTLGELELPNRLVMAPLTRVRSGGEGVPGPLVVEHYRQRASLGLIVSEGAYPSPAGRSYAGQPGLVTEAQVAGWKKVTDAVHAEGGRMFAQVMHGGRVSHEDITGGHRLVAPSAVAIEGEVHTPGGKKPYPVPHALTTDELPVVMQEIVTASLNAIAAGFDGVELHSANGYLLHEFLSSNANIRTDSYGGSPENRARFVIETVNAVVAAIGANRVGIRISPAHNIQGIAETDPADVRATYEVLVDSIAPLNLAYLSILHHDPAGELMQDLRARFDGTFLVNSGFGVITTREEAVALIADGHADAVVVGRPAIANPDLARRWKESLPLNEADPATFYGDGAKGYTDYPAYSA	PGPT0005930_2793	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION	XENOBIOTIC_NITROTOLULENE_DEGRADATION,PGPT0005930-nemA-K10680	NA	NA
D1-29_01012	297			hypothetical protein	ATGCGGGACTTGCTCATCGTCTTTCAAGAGGGGTTTGACGAGGCCAACATCACGGTAACGGTCAACGGCAAGCAGGCCCGGCGCGATCTGGGAGTATCCACCAATCCCCTTCTGGGAATGGCCACAGAAGTTTCGGTGGAGCTGCCGGCGAAAGGTGCGCATGTGGGGGTGGAAGTCACTAACCGGGGGCTGAAGGCCATCACCAAAGTCAGCGGCAAACCCAAGAGCCTGCTGGTCTCCATTGAGGACGGCAAGCTGGTGATGCGGGAAGGGACGGGACGCGAGGCGTTCCTCTAG	MRDLLIVFQEGFDEANITVTVNGKQARRDLGVSTNPLLGMATEVSVELPAKGAHVGVEVTNRGLKAITKVSGKPKSLLVSIEDGKLVMREGTGREAFL				NA	NA	NA	NA	NA
D1-29_01013	2568	yhgF	COG2183	Protein YhgF	GTGCCGCTGGAGACCTCAGACGCGGTAGGGCAAAATGTTCTGGTGACCCAACTCCCGCAAGGCCCCTCCACGACGTCCTCAACGTCAGCGCCGGACAGCGCCATCTTCCACCAAATCGCCGCGGAGCTCGGCGTCAAAACCTGGCAGGTGAAGGCCGCTGTGGAACTGCTCGACGGCGGGTCCACCGTGCCGTTCATCGCCCGGTACCGCAAGGAAGCCACCGGAACGCTGGACGATACGCAGCTCCGCGAGCTCGACGAACGCCTGCGCTACCTCCGCGAACTTGAGGACCGCCGTCGTACTGTCCTTGAAGTCATTGCCGCCCAAGGGCAGCTGACTCCAGAGCTGCAGGCTGCCATCGTTGCCGCGGACACCAAATCACGGCTTGAGGACATCTACCTTCCCTTCAAATCCAAGCGGCGCACCAAGGCGCAGATCGCCCGCGAGGCAGGGCTGGAACCGTTGGCCGAGGTGCTGCTGAAACGGCCGGACCTTGATCCTGAGCGGGAGGCTGCGAAGTATCTGAATCCAGAGCATGCCATCGGGGACGCCGCTGCCGCGCTGGCCGGGGCCCGCTCCATCCTGGTGGAACGTGTGGCACAGGACCCCGACCTCGCCGCAACCCTGCGGGAGCGCCTCTGGACACAGGGCCGGATGGTGTCGCGCGTGAAGAAGGGCAAGGAGGCGGACGGCCAGAAGTTCTCGGACTACTTCGATTTTGCACAGGCGCCGGCCGGCATGCCGTCACACCGCGTGCTGGCGTTGCTGCGGGGCGAGAAGGACGGCGTCCTGGAGCTCGACCTCGCCGAAGCGGACCCGAACGACGACGACGCCCTGGCCGCCGCGCGCTCCCGCTACGAATCGGCTGTGGCCAAGTGCCTTGGGGTCGCCGACCGCGGCCGTCCCGCCGATGCCTGGCTGATGCAGACCGCCCAGTTGGCGTGGCGCTCGCGGGTGCTGGCGCGGCTGACGGCGGACCTGCGCGGGCGGATGTTTACCGCCGCGGAGGACGAGGCCGTTCGAGTCTTCGCAGCCAATCTGCGCGATGTCCTGCTAGCAGCACCCGCGGGAAACCGCGCAACCCTTGGCCTGGACCCGGGGCTACGTACCGGGGTGAAGGTGGCAGTGGTGGACGGAACCGGGAAGGTGGTGGCCACCGATACCGTGTACCCACACGCTCCGGCGCGGAAGTGGGACGAGGCACTGGCCACCCTGGTACGGTTGGCGCGGCAGCACGCCGTCGAACTTGTGGCAATCGGGAACGGCACGGCGTCCCGCGAGACCGACAAGCTGGCTGCGGAACTGATCAAGCTGCTGCCGGACGCGGACAGGAAGCCACAAAAGCTTGTGGTGTCAGAGGCTGGCGCATCTGTCTACTCGGCATCCGCCCTGGCCTCCGCCGAATTGCCCGGCATGGATGTGTCCCTGCGCGGAGCTGTGTCGATTGCCCGCCGGCTCCAGGACCCGCTGGCCGAGCTGGTAAAAATCGATCCCAAATCCATCGGAGTGGGGCAGTATCAGCATGATGTGACGGCAGCGAAGCTGGACCGCAGCCTGGACGCTGTGGTGGAGGACTGCGTCAACGCCGTAGGGGTGGATGTGAACACAGCGTCACCTGCGCTGCTGAGCCGCGTTGCCGGCGTCGGGCCCCTGCTGAGTGAGAACATCGTGGCGTACCGGAACGAACACGGGCCGTTCGCCAAACGAAGCGAACTGAAGAAGGTTCCGCGGCTGGGAGCCAAAGCGTTTGAACAATGCGCCGGCTTTCTTCGGATCACCGGGGGAGCGGAACCGCTGGACGCGTCAAGCGTGCATCCGGAGGCTTACTCGGTGGCCCGGAAAATCCTGGTTGCTGCGGGTTCGGCGCCCGCCTCGTCACTTGACCCCCGCAACTTTGTGGACGGAATGTTCGGCCTGCCCACAGTCCAGGACATCCTGGCGGAGCTGGACAAGCCGGGCCGCGACCCCCGGCCGGCCTTCGCCGCGGCCACGTTCTCGGAAGGGATCGAGAAGATCTCCGATTTGAAGCCCGGCATGGTGCTGGAAGGAACGGTCACCAACGTCGCCGCTTTTGGTGCGTTTGTGGACGTTGGTGTCCACCAGGACGGCCTCGTCCACGTCTCTGCCCTTGCCAATCGGTTTGTCTCGGATCCCCGCGAGGTGGTCAAGTCCGGTCAGGTGGTGCGCGTGAAAGTGCTGGAGGCGGATCCGGACCGGAAGCGGATCTCCCTGACATTAAGGCTCGACGACGACCCGGCAGCTTCTGGCGGCCGGGGTTCCGGCGGGCGGGCCTCGGGTGGACATGTCTCGGGAGACCGGGAGCCGGGGGCGCGGGACGCTGGTGCGAGGCCTTCTGGCGGGCGGGCGGCCTCGCTCGACCGGGAGTCCGGGGGCCGGGATGCCGGGGCGAGGCCTTTGGGCGGCGACGGGAAGACTCAGCGTAACCAGAATGCGCAAGCAGGCCGCGGCTCGGGCAAGCCCTCCGGCAACAGGGCCGCTGCGCCCCAAGCGGCGCCCGTGAACACTGCGATGGCGGAGGCGCTGCGCAAGGCCGGCCTCGGCAAGTAG	MPLETSDAVGQNVLVTQLPQGPSTTSSTSAPDSAIFHQIAAELGVKTWQVKAAVELLDGGSTVPFIARYRKEATGTLDDTQLRELDERLRYLRELEDRRRTVLEVIAAQGQLTPELQAAIVAADTKSRLEDIYLPFKSKRRTKAQIAREAGLEPLAEVLLKRPDLDPEREAAKYLNPEHAIGDAAAALAGARSILVERVAQDPDLAATLRERLWTQGRMVSRVKKGKEADGQKFSDYFDFAQAPAGMPSHRVLALLRGEKDGVLELDLAEADPNDDDALAAARSRYESAVAKCLGVADRGRPADAWLMQTAQLAWRSRVLARLTADLRGRMFTAAEDEAVRVFAANLRDVLLAAPAGNRATLGLDPGLRTGVKVAVVDGTGKVVATDTVYPHAPARKWDEALATLVRLARQHAVELVAIGNGTASRETDKLAAELIKLLPDADRKPQKLVVSEAGASVYSASALASAELPGMDVSLRGAVSIARRLQDPLAELVKIDPKSIGVGQYQHDVTAAKLDRSLDAVVEDCVNAVGVDVNTASPALLSRVAGVGPLLSENIVAYRNEHGPFAKRSELKKVPRLGAKAFEQCAGFLRITGGAEPLDASSVHPEAYSVARKILVAAGSAPASSLDPRNFVDGMFGLPTVQDILAELDKPGRDPRPAFAAATFSEGIEKISDLKPGMVLEGTVTNVAAFGAFVDVGVHQDGLVHVSALANRFVSDPREVVKSGQVVRVKVLEADPDRKRISLTLRLDDDPAASGGRGSGGRASGGHVSGDREPGARDAGARPSGGRAASLDRESGGRDAGARPLGGDGKTQRNQNAQAGRGSGKPSGNRAAAPQAAPVNTAMAEALRKAGLGK				NA	NA	NA	NA	NA
D1-29_01014	798			hypothetical protein	ATGATGATGTCGCTGCTGTTCGGCGTCATAGCATCCAGTGCTCTGCTCGTGGGTGCCTTCATTGGTGTTCGATTTGAACTGCCCAAACGGCTCCTCGCCATACTGCTCTCCTTCGCAGCGGGCTCCCTGATCACAGCCCTGGCCTTCGAACTCTTCGAGGATGCCTATGAACAAGGCGGTATCGTCCGGGCCGCGATCGGTCTGATGGTCGGTGCCATCGTATTCACTGTTCTCAGCTCCCTCCTGGACCGTTGGGCCCAGCCGGGGCCGGAGGCCGCTGCCACACCGGCGGACGAATTCCAAGGCAGCGCCAAGCTGGACACGGATGCGGCAGCCACTGAGCTTCCTGCCACCGGAGCATCCACGAGAGGGGCAGCGGGGATGGCGCTTCTGGCCGCTGTCACCCTGGATGGAGTGCCCGAAAACATCGCCCTCGGTGTTGCCCTGGGTGAGGGAACAGGTGGCCTTGCCCTGCTCGCCGCAATTTTCGTATCCAACCTGCCGGAAGCGCTGGTGGGAGCCGCGTCCATGCGCAGCCAGGGCCGCTCGACTGCAAGCATCATTGGGCTATGGGTTGCCTGCGCCGTCCTGCTGGTGGCAGCGGTAGTGATCGGGGCCGGCCCACTTTCCGGCACAGATCCGCAGGCGATCTCACTCCCCCTGGCTTTCGCGGCCGGCGCCGTTATTGCCTCCCTCGCTGACACGCTCATGCCGGAAGCCTACGAACACGGCGGTCCCGCTGTAGCGCTCAGTACCGCCGCAGGCTTCGTCCTGGCGTTTGTGTTGTCCCTCGCCTGA	MMMSLLFGVIASSALLVGAFIGVRFELPKRLLAILLSFAAGSLITALAFELFEDAYEQGGIVRAAIGLMVGAIVFTVLSSLLDRWAQPGPEAAATPADEFQGSAKLDTDAAATELPATGASTRGAAGMALLAAVTLDGVPENIALGVALGEGTGGLALLAAIFVSNLPEALVGAASMRSQGRSTASIIGLWVACAVLLVAAVVIGAGPLSGTDPQAISLPLAFAAGAVIASLADTLMPEAYEHGGPAVALSTAAGFVLAFVLSLA	PGPT0004250_1691	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
D1-29_01015	321			hypothetical protein	ATGACTTACTTCTTGGAGTACACCATCCCGGCCCCTTCTGACGCTGCCGAGTTCGAGTTCCCGCACGACGAGATCAATGCCGGCACAACTATTCCACTCGCCGAGACTAACGCCGAGATTGTGCACACGCCGGAATTGCCCGCACGCACCGGCATAGTTGGCGCAACAGTTCCCGAAGCCAAGCTCGAGGCCGAACAACTCATCACGCACAGCCGCGCCACAGAAGGCAGCCTGTACTTCGACCCCTCAGACTCGCTCCAAGCCGGTGTAGGGACCCTCGTGGCAACTTTCGTGGAAGGCCGAGGCTGGCAGGACGCCTAG	MTYFLEYTIPAPSDAAEFEFPHDEINAGTTIPLAETNAEIVHTPELPARTGIVGATVPEAKLEAEQLITHSRATEGSLYFDPSDSLQAGVGTLVATFVEGRGWQDA				NA	NA	NA	NA	NA
D1-29_01016	780	prpB_1		2-methylisocitrate lyase	ATGACTCAAAACACCGCTGCCAAAGCCACCGAACTCCTCCGTCTGCACCAAGCGGCCGATATTCTCCAGGTCATTAACGTCTGGGATGCCATCACTGCAAAGATCGCCACGGACGTTCCCGGTGCGGCTGCGCTGGCCACCGCGAGCCACTCGATCGCTGCTTCGCAGGGATATCCGGACGGCGAAAAAATCCCGGTGGACCTGATGATCGAGGCCGCGGGGCGTATCGCCGCTTCCACTCCACTGCCTGTCAGCGCAGACCTTGAGGCTGGTTACGGAAATGCTGCTGAAACCGTTCGCAAGGCAATCGGCGTCGGGATCGTTGGCGCAAATATTGAGGACCAGATGCGCCCACTGGACGAGGCAGCGGAGCAGATGGCCGGTGTAGTGAAGGCCGCCCAGACGGAGGGAATCGACTTTGTCCTCAACGCCCGCACCGATGCATTCCTCAGGGGCAAGGAACGCGATCCGCGCGAAGTGCTGGCTGACGCAATCGAACGCGGCCGCGCCTACTTGGATGTGGGTGCAGCCACCGTGTTTGTTCCCGGTCTTTTGGACGAGCCGACGGTCAGCGCCTTGGTTGAAGGCATCGGCTGGAACAAAGTGTCAGTCATTAATGTCCCCGGATCACTCGCCCCTGCCAGGCTCCAGGAACTGGGTATCTGCCGTATCTCCTATGGCCCCTGGACTCAGCGTGTGGCGTTGACTGCCTTTGCAGATGCCGCAGCCAGCCTGCTCGCCGGAGGCGCCTTGCCGGAAGGAACGCGGATCCTGAACTAG	MTQNTAAKATELLRLHQAADILQVINVWDAITAKIATDVPGAAALATASHSIAASQGYPDGEKIPVDLMIEAAGRIAASTPLPVSADLEAGYGNAAETVRKAIGVGIVGANIEDQMRPLDEAAEQMAGVVKAAQTEGIDFVLNARTDAFLRGKERDPREVLADAIERGRAYLDVGAATVFVPGLLDEPTVSALVEGIGWNKVSVINVPGSLAPARLQELGICRISYGPWTQRVALTAFADAAASLLAGGALPEGTRILN				NA	NA	NA	NA	NA
D1-29_01017	1575			hypothetical protein	ATGCCCCGACAGCTCGGCCTGGAGCCCGCGTTCCAGCGAGGCCTTGATCAGCTGCTGGATGAAACCGTCCTTGCCGTCGAGTTCCAGCTGTCCGGAATCGATCTGGTTCATCAGCTCATCGAACGCGCCCGAAGCCTTCAACGCCTCCATGCTGCCGGCCGCCGCAGCCCTGCGGGCCAACTCCTCCGGGGACACCTCACGGGGTCTAGTCATAGCCACAATGATTCTCCAATCACCCAGCGACTACAGCCCTCCTACACAAACAATCTGACACCCCCCTGTGCCCTGACCATCAGCGAAGGCGCCGCATCAGCGTTCCTGGTCCAGTCCCGCCAGCTGAACACCGAACTGCCCCGCACCCTCGCGGCCCTGCAGGCCGGGACCCTGTCCTGGCAGCACGCCCGGATCCTCTGCGATGAAACCACCGGCCTGGGCCACGACGGGGCGGCAGCCCTGGAAACACACTTCCTGGACCCCGACGCCGCCAAGGCTTCCCGCGCCTGCCTGGCCGGGGACCTTACACCCTCCCGGTTCCGCGCCAGGGCCCGGACCTGGCGCGAACGCCACCACCCCGTCTCGATTGAAACCCGCCACACCAAGTGCGTCCTGGACCGCCGGGTCGAATACACGCCGGAGCGCGACGGGATGGCCTGGCTCTCCGCCTACCTCCCCGCAGATCAGGCCGCCGGCATCTGGGAACACACCACCACCACAGCCCGGGCACTCCAAGGCCCCACCGAATCCCGCACCCTCACCCAGCTCCGCGCCGACACCCTCGCCACCGCGCTTCTGGGCGGAGGAACCACCAACCCCGGCAAGACCAGTGGCGGAAGCGCCAGCAGGGGAACCAGCAGTTGGCGTAGCGACGGCGGCGGAAGCGCAAACGGCAGGATCAACGGCGAGGGAAGTGGCAGCGGAGGGACCAACGGCGAGGGAAGCGACAACTGCGGGATAAGCGGCGGGGAAAGCGGCAGCGGCGCTCTCCTCGGTGACGGAAGTACCAGCGGCGCAAATAGCCTTGGCAATTGCGGGGGAGAGCGCGCTGCCGGGCAGGTCCGGCCGCCGCGGGCCCAGGTACTGGTCACAGTGCCCGTGTTCTCGCTCCTGGGCCTGACCGACGAACCAGCCACCCTTGATGGCCACGGCCCCATCCCGGCCTCCATGGCCCGGAACCTGGTCGCCAACGGAGCCCACTCCTTCCACCGCGTCCTCACCGACCCCCGCGACGGCGCACCACTGGAAATCGGCCGAACCAGCTACCGCCTCACCACAGCAATGCGCCGCTGGCTCAGACTCCGCGACGCCAAATGCCCCTTCCCCGGCTGCAACAACCACTCCCTCGACAACGAAGCAGACCACCTCCTCGCCTGGGCAGACGGCGGCACCACCGGCATCAGCAACTTCGGCCAACCCTGCCGCAAACACCACCACCTCAAACACAACACCACCTGGCAACCAACCCCAGCCAGCAAAAACGAACCACCAGGCTGGACCTCACCCACCGGCCGACACTACAAAAGCGAACACCAAGACTGGGAACCACCCCAGTGGCCACAGGGTATGGATTCCTCCTAG	MPRQLGLEPAFQRGLDQLLDETVLAVEFQLSGIDLVHQLIERARSLQRLHAAGRRSPAGQLLRGHLTGSSHSHNDSPITQRLQPSYTNNLTPPCALTISEGAASAFLVQSRQLNTELPRTLAALQAGTLSWQHARILCDETTGLGHDGAAALETHFLDPDAAKASRACLAGDLTPSRFRARARTWRERHHPVSIETRHTKCVLDRRVEYTPERDGMAWLSAYLPADQAAGIWEHTTTTARALQGPTESRTLTQLRADTLATALLGGGTTNPGKTSGGSASRGTSSWRSDGGGSANGRINGEGSGSGGTNGEGSDNCGISGGESGSGALLGDGSTSGANSLGNCGGERAAGQVRPPRAQVLVTVPVFSLLGLTDEPATLDGHGPIPASMARNLVANGAHSFHRVLTDPRDGAPLEIGRTSYRLTTAMRRWLRLRDAKCPFPGCNNHSLDNEADHLLAWADGGTTGISNFGQPCRKHHHLKHNTTWQPTPASKNEPPGWTSPTGRHYKSEHQDWEPPQWPQGMDSS				NA	NA	NA	NA	NA
D1-29_01018	975			IS256 family transposase ISSer2	ATGATTATCAGCCTTTACGCCGGCGGGATGACGGTCCGGGACATCGCCCACCATCTGGAATCCACGCTGGGCACGGAGCTGTCCCACGAGACGATTTCCAAGATCACCGATGAGGTCCTGGACGAGGTGATGGAGTGGCAGAAACGCCCACTGGAGCCGCTGTATCCGATCCTGTATCTGGATGCGATCATCATCAAGGTCCGTGACGGGCACCAAGTGCAGAACCGTGCCGCGCACATTGCCGTGGGCGTGGACATGGACGGGATCAAGCACGTTCTGGGGATCTGGGTCGAAGCTACCGAGGGTGCGAAGTTCTGGGCAGGGGTCTGCGCCGAGCTCGCCAACCGCGGCGTGAAGGACGTTCTGATCGTCTGTTGCGACGGGCTCACCGGCTTCCCTGAGGCGATCGCCGCGACCTGGCCGGCCGCGACCGTCCAGACCTGTGTCGTGCACCTGATCCGTGCCTCGATGCGCTTCATCGGCTACCAGGACCGGAAGAAGGTCGCGTCCGCTCTGAGGCCGGTTTACACCGCCCCGACGGCCGACGCCGCGCAGGAGGCACTCGATGCATTCGAGGCCTCCGATCTGGGACGGAAGTATCCCGCAACTGTACGAACCTGGCGCAACGGTTGGGAGAGATTCATCCCCTTCCTGGCGTTCCCACCGCCGGTCAGACGGATTATTTACACCACGAACGCGATCGAGTCGCTGAATTACCAGCTGCGCAAGATCATCAAGAACCGCGGGCATTTCCCCAACGACCAGGCGGCCGTGAAGCTACTCTGGCTGGCGATCTGCAACATCGAGGACAAACGCACCAGTGCCCGGACCAAGCTTGAAGGCAGAGCCCGGGAAAACCGTGCCAAGACGGTGAACAAACTCATCGAGGGAACCTTCACACCTGGATGGAGCGAAGCCCTTGGCGTCCTCCTCCTGAACTATCCCGACAGACTCGGACCTTACCTAAACCGATGA	MIISLYAGGMTVRDIAHHLESTLGTELSHETISKITDEVLDEVMEWQKRPLEPLYPILYLDAIIIKVRDGHQVQNRAAHIAVGVDMDGIKHVLGIWVEATEGAKFWAGVCAELANRGVKDVLIVCCDGLTGFPEAIAATWPAATVQTCVVHLIRASMRFIGYQDRKKVASALRPVYTAPTADAAQEALDAFEASDLGRKYPATVRTWRNGWERFIPFLAFPPPVRRIIYTTNAIESLNYQLRKIIKNRGHFPNDQAAVKLLWLAICNIEDKRTSARTKLEGRARENRAKTVNKLIEGTFTPGWSEALGVLLLNYPDRLGPYLNR	PGPT0030665_47	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030665-putative_transposase-K07493	NA	NA
D1-29_01019	567			hypothetical protein	ATGGACAGCACGGTAGTTGTTGGCGGTGAAAGCAGGCTTGCTTTGGATGCAGCCACGCTTGATGCTGGCTTTGACGGACCTGATTCGACCACCTGCTCTGCTGTAGCTGGTGCCGGAACTAATGCTGGCTCTGGCGCAGGTTCTGATGGCGCTTCTGGCCCCGTTTCCCGCGCTGGCTCTGGTGCAGGGTTTGATGCTCGTTCTAATGCTTCTGGCACAGGATCTGATGATACTTCTGGCGCCGTTTCCCGCGCAGCCGGGGACTCTGGCGCCGTTTTCCGGGCTGGCTCTGGCACAGGTTTTGATGCTGGTTCTGATCCGTTGCGGGATCTGGCGGAGGAATGCCTGGCCGACATGGCGGAGGCTGCCCGTGACGAAGCCCGGGCCGCTGCCCGGAAGGCCAGGGCGGCCGCCACCTACGCGGACACCTGCCGGCGCCTGCTTCCACCGTCGACGTCGCTGCACGAACAGTCCGTGGCGGAGATAGGCATGGTCGCCGAGGTCGCCTGTGCCCGAGCCTGTCAAGTTATTTGTGTAAGTCGGGTGCAGTCTCATCGGTTTAGGTAA	MDSTVVVGGESRLALDAATLDAGFDGPDSTTCSAVAGAGTNAGSGAGSDGASGPVSRAGSGAGFDARSNASGTGSDDTSGAVSRAAGDSGAVFRAGSGTGFDAGSDPLRDLAEECLADMAEAARDEARAAARKARAAATYADTCRRLLPPSTSLHEQSVAEIGMVAEVACARACQVICVSRVQSHRFR				NA	NA	NA	NA	NA
D1-29_01020	408			hypothetical protein	ATGGACTTTCAGCACATTATTGAGACCGTGGGCAAGTTCATGGATTTTGCCGGCGTTGCCGTGATGGTGATCGGTGCTCTGGTGTCCGTTCCCATGGCCTTCCGGGGTTATCAGCCGCGAAAGCTCCCTGCCGGAGCCGAGAAGCTAACTGTCTACCGCGCCTATCGGCAATTGCTCGGCAGGTCCATTCTGCTGGGACTGGAGCTTCTGGTTGCAGCGGACATCATTCGCACGGTCGCGGTGACGCCCACGTATGAAAGTGTGGGCGTCCTGGCGATCATCGTGCTGATCCGTACGTTCCTGAGCTTCTCCTTGGAACTGGAAATCACTGGCCGCTGGCCTTGGCAGAAAGAGTCATCTGACGGGTCGTCCGAGCCTGCCGGCGCTTCATCCCCAGCCTCTCGCTGA	MDFQHIIETVGKFMDFAGVAVMVIGALVSVPMAFRGYQPRKLPAGAEKLTVYRAYRQLLGRSILLGLELLVAADIIRTVAVTPTYESVGVLAIIVLIRTFLSFSLELEITGRWPWQKESSDGSSEPAGASSPASR				NA	NA	NA	NA	NA
D1-29_01021	1383	dmoA		Dimethyl-sulfide monooxygenase	ATGAGTTCACCGTCTCCCCTGCTTTTTGCCCTCTACGAGCAGGCCAGCGTAGGCTGCGGCGGCGCGCCCAGCCTCTGGACCCACCCGTTGGATGACCGCCTGCAGGTCAATTCCCTGGACCGGTGGCGCAACGTCGCCGTCACTGCTGAAGAAGCAAACCTGGACGCACTCTTTTTTGCCGACGTCCTGGGACTGTATGACGTGTATGGCGGCTCCGCCGATGCTGCCTTGGGCTGGGCGGTGGAGGCCCCGGCCAACGATCCGTTTATGTACGTTCCCGCCTTGGCTGCCCTCACCGAGCGGCTTTCCTTTGTGATCACGGCGTCCACCACCTATGAGCACCCCTTTGCCCTCGCCCGTCGCTTCGGCACTTTGGACCACCTCAGCACAGGGCGGATCGGGTGGAATATCGTCACCTCCTACCTGTCCAGCGCGGCCCGCAACTTCGGCATGGTCGAGATGCTCAAGCACGCAGACCGTTATGCGCGTGCCGATGAGTTCATGGACGTCTTCTACAAGCTGCTGGAAGGCAGCTGGGCGGCCGACGCCGTTGTGGGCAGCAAGGCGGACCGCCTGTACGCCCGCGCCGGTTCCGTCCATCCCATTAATCACGACGGCGAACACTTCCGTGTGGACGGACCGTCGCTGACATCTCCATCACCACAGCGGACGCCCACACTGTTTCAGGCCGGCTGGTCGCCGCGGGGCCGCGAATTCGCGGCTAAGCACGCTGAGGTGATCCTGCTGCCCAAGAAGGATCCGCAGGAGATCGCGGCGGGACTGGCTGACATCAATCAGCGGGCATTAGCTGTTGGACGGCCCGCCGGCGAGGTGCGCTCCATGGCGCTGGCCCGGATCATCACGGCTCCCACTGCCATCGAAGCCCAGGAGAAGTACGACGAGCTGCAGCGCAATTACCACGTGGAGGCGCAGCTGGTCAGCTACGCCGGGGACACCGGAATTGATCTCAGCAAATACGCCGACGACGAGCCGCTCACGACCTCCACCAACGGCCTGACCTCCTACGTGGTCAAGGGAGCTTCGCAGGACAAACCGCTCACTGCCGGCGATGTACGCCGCAAATTCTCCGAGGTCACCCGCGGCACGGACCTTCTGTTCATCGGCACACCGGACGACGTAGCCCGGCAGATCCAGGATCACGCTGCTGTTTCGGGGCTGGACGGCTACATGCTGAATCCGCTGATTAGCCCGGGATCCCTGAACGACTTTGCCGAGCTGGTGGTGCCGCGGCTGGCCGAGCGTGGGCTGTACGACACGGAGCCCAAGTCCGGCACACTACGGTCGCGGCTGCGGTCGGATTCCTCGGACCTGCTGCCGCCGTCAGCATATGGAGCATCGTTCCGGCAGCAGGTGACCGTCTAG	MSSPSPLLFALYEQASVGCGGAPSLWTHPLDDRLQVNSLDRWRNVAVTAEEANLDALFFADVLGLYDVYGGSADAALGWAVEAPANDPFMYVPALAALTERLSFVITASTTYEHPFALARRFGTLDHLSTGRIGWNIVTSYLSSAARNFGMVEMLKHADRYARADEFMDVFYKLLEGSWAADAVVGSKADRLYARAGSVHPINHDGEHFRVDGPSLTSPSPQRTPTLFQAGWSPRGREFAAKHAEVILLPKKDPQEIAAGLADINQRALAVGRPAGEVRSMALARIITAPTAIEAQEKYDELQRNYHVEAQLVSYAGDTGIDLSKYADDEPLTTSTNGLTSYVVKGASQDKPLTAGDVRRKFSEVTRGTDLLFIGTPDDVARQIQDHAAVSGLDGYMLNPLISPGSLNDFAELVVPRLAERGLYDTEPKSGTLRSRLRSDSSDLLPPSAYGASFRQQVTV	PGPT0030630_25	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030630-tnpA-K07485	NA	NA
D1-29_01022	1533	rocC_2	COG0833	Amino-acid permease RocC	ATGCCGCAAAACAGTTACAGCCCCGTGCTGCCTGCCCGCCAAGAGACGCCTGGCGCCCCTGCCCTGGATTCTTTGGACGCCTCCCACCGCGACCTGCGCCGGACTGACCTGCACCGGACTGACCTGCGCCGGACCATGGGGCCCCGCCACCTGATCATGATCGCCATGGGCGGCGTCATCGGTTCCGGCCTTTTCCTGAGTTCCGGATACACCATTGAACAGGCCGGCCCGCTCGGTGCCGTCCTGGCGTACCTGGTTGGCGCCTTCGTTGTTTACCTGGTGATGGCGTGCCTCGGTGAACTCGCCATCGCCTACCCGGTGGCAGGTGCTTTCCACATCTATGCGGCACGATCCATTGGCCCCGCCACCGGCTTTACCACCGCGTGGCTGTACTGGCTTTGCTGGGTGGTGGCCTTGGGCTCGGAGTTCACGGCCTGTGGGCTGCTCATGCAGCGGTGGTTTCCGGGAGTGGACGTCTGGGTCTGGTGCCTGGTCTTCGCCGCTCTGATCTTCAGCCTCAATGCCTTCTCGGCACGGGTCTTCGGAGAGTCTGAATTCTGGCTCTCACTGATCAAGGTGGCAACCATCGTGGCGCTCATCGTGTTCGGCGGCGCCGCCCTGCTGGGTTTCAAGCCCCTGGCAGCTGAGTCCGGCCCTCCCCTGCTCCTGAACAACTTCGTCACGGAGGGTGGGCTCTTTCCCAATGGCTTTGCCGGGGTGCTGATCACCGTGCTGGCTGTCTTCTATGCCTTCTCCGGCTCGGAACTGATCGGCGTAGCAGCCGGCGAAACCAAAAATCCGGAGCACGCCATTCCCAAGGCCCTCCGCGCCACCGTCCTGCGCCTCTTGATCTTCTTTGTTGGTGCCATCACCGTCATCGCCGCCACCGTTCCCTATGGAGAGGTGGGGCTTGATGAAAGCCCGTTCGTCACGGTGTTCAGTTCACTGGGGATCCCGTATGCCGCAGACATCATGAACTTTGTGATCATCACCGCCCTGCTTTCCGCTGGCAACAGTGGCCTGTATTCCTGCGCGCGCATGCTTTTCTCCCTCTCGGATGAAGGCCACGCCCCTAAGGCCTTCCGCCGCCTCACCAAGAAGGGCATCCCGCTCATTGCCCTCAGCATCAGCATGATCGGTGGTGTCGCCTCGCTCCTCTGCAGCGTGGTGGCCGCCGAATCCGTCTACCTGGTGCTGGTCTCCATCGCCGGGTTTGCTGTGGTCGGAGTGTGGATGTCCATCACGGCCTCGCACTTCCTCCATCGCCGGGCTTTCCTCCGAAATGGCGGCGACGTGTCCACACTGGCCTACCGTGCGCCGCTCTATCCCGTAGTTCCCCTGCTGGCCTTTGCGTTGTGCCTGGCGTCCGTGGTTGGGCTCGCCTTTGACCCCAACCAGGTGGCCGCCCTCTACTTCGGTATCCCGTTTGTGGCCGCCTGCTATCTCTACTTCCACTTCCGGCACGGTTCCCGCAAAAGCGGGCGCCGCGCCGCCGTCGAACTTTCCCCTGACGAAAGCGAAATGATCCGATGA	MPQNSYSPVLPARQETPGAPALDSLDASHRDLRRTDLHRTDLRRTMGPRHLIMIAMGGVIGSGLFLSSGYTIEQAGPLGAVLAYLVGAFVVYLVMACLGELAIAYPVAGAFHIYAARSIGPATGFTTAWLYWLCWVVALGSEFTACGLLMQRWFPGVDVWVWCLVFAALIFSLNAFSARVFGESEFWLSLIKVATIVALIVFGGAALLGFKPLAAESGPPLLLNNFVTEGGLFPNGFAGVLITVLAVFYAFSGSELIGVAAGETKNPEHAIPKALRATVLRLLIFFVGAITVIAATVPYGEVGLDESPFVTVFSSLGIPYAADIMNFVIITALLSAGNSGLYSCARMLFSLSDEGHAPKAFRRLTKKGIPLIALSISMIGGVASLLCSVVAAESVYLVLVSIAGFAVVGVWMSITASHFLHRRAFLRNGGDVSTLAYRAPLYPVVPLLAFALCLASVVGLAFDPNQVAALYFGIPFVAACYLYFHFRHGSRKSGRRAAVELSPDESEMIR	PGPT0020525_123	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020525-mmuP-K16235	NA	NA
D1-29_01023	861			hypothetical protein	GTGACGATCCTGCTGGCCGGATGCGGCGACCTGGGCACTGAAGCGGGCCTGCGTTTTGCCGCGGCGGGGCACCGCGTGGTGGGCTGGCGCCGGTCGCCTGAAAAACTGCCGGCGATCATTGAAGGGGTTGCGGCGGACCTGGGCACACCGGGCCTTCCGCCCGTCCCGGCCGATACCACCGCCGTCGTTATTGCCGTCGCTGCGGACTCCCCCACGGAAACTGCCTACCGGGCTGCGTACGTGGACGGCGTCTCGCACGTCCTGGACGCCCTCGAGCGGGATGCCGTGACGCCCCGCCGGGTTCTTTTTGTCTCCTCCACTGCTGTTTATGGGGACGCCAACGGCGGCTGGGTTGATGAAAGCACGACGGCGGAACCCGGCGGATTTTCCGGCCGCATCATGCGGGAGGCAGAGGAACTGCTGCACCACCGCCTACACGGCACCGAAACAGCCGGTGTTGTCGTGCGGCTCGGAGGCATCTACGGCCCTGGCCGTACGCGGCTGATTGACCAGGTCCGGAAAGGCGCTGCGGTGATTCCCGACGCCCCCCGCTATACCAACCGGATCCACAGGGACGATGCCGCTGCAGCACTGGTACATCTTGCCAGTATGGAAGCCATGCCTGTCCAGGTATATCTCGGCGTGGATAACGAGCCCGCAGAACTGGGCGAGGTGCTGCTTTTCCTGGCTTCCGAACTGGGGTTTCCCGAGCCACCCACCGGTCCGGCGGCCGATGCCCGCAACGGGAACAAGCGCTGCAGCAATGCACTTCTGCGAAGCACCGGCTTTGAGCCCGCTTACCCGTCCTTCCGCGAGGGCTATCGGGAAGTATTGACGGGAACAGGGGTTCGGCACCGATAG	MTILLAGCGDLGTEAGLRFAAAGHRVVGWRRSPEKLPAIIEGVAADLGTPGLPPVPADTTAVVIAVAADSPTETAYRAAYVDGVSHVLDALERDAVTPRRVLFVSSTAVYGDANGGWVDESTTAEPGGFSGRIMREAEELLHHRLHGTETAGVVVRLGGIYGPGRTRLIDQVRKGAAVIPDAPRYTNRIHRDDAAAALVHLASMEAMPVQVYLGVDNEPAELGEVLLFLASELGFPEPPTGPAADARNGNKRCSNALLRSTGFEPAYPSFREGYREVLTGTGVRHR				NA	NA	NA	NA	NA
D1-29_01024	921			hypothetical protein	ATGCAAACCTTCCTTCCGCACCCCGATTTTAGGTCGAGCGCGGCCGCGCTCGACCCCGCCAGGCTTGGCAAGCAACGAGTCGAGGCGCTGCAGATCCTCCGGGCGCTGGTGATCCCGGAATACGGCTGGCAGTCCCACCCGGCCGTCCGGATGTGGATGGGGCACGTCCCCGCACTGACCCTGTATGGCCTTGCCATGGTGGACGAGTGGACCGCCCGCGGCCACGCCGACAACACCCGCGCCAACATCACAGAGTTTGCACCCCAGGCAGCGCACCCCGATTACGCAGCCAAGATTCCGATGCCGCATTGGCTAGGCGATCCGGACTTCCACTTGAGCCACCGCTCCAAGCTCCTCCGCAAAGAGCCGAAGTTTTACAAAGACGTCTTTCCTGACGCCGAGGTGGATCTGGACTACATCTGGCCTGAGCCGAAACACGAATTCCTCCCCGAGGACCCCGACGGTGACATCCTGTGGATCCTCCGCGCCCCGCATCGGGAGATTGACCCGGAAACACTGGGAACCGTTGCCCTTCCCCCGGTTCGCCGCGGCGGCACTCCCACTGCCGGTTTGGGCGCCGATCAGGATGACTATTCCCCTGTCTACGTGGACGACGGTTCACGCCGGCCCTCCAAGCAGCCGCGCAAGCTTCCACCCAAGCAGTTGGTGAAGAAGCCAACCCGAAAGCGCAAAGCCCAGGAGGAGGCTTTCGCCACCCTCCCCGGCAAGACAGTGGTAGCGGTGGCCTTCGAGGACGGCAGCAAGTTCGCGGTGGGACAGGTCCTGGGCCGCCCCATCACCCTGGAGGATGGCAGGTTCGGCCGCAACTTCAGCGTCACCGAAGTGATCGACAGGTCCGCATTCGACTACCCGGCCCTTTTGCAGGACCCCCGGGTCTTCTTCCCCGTCCCGGCTCCCTGA	MQTFLPHPDFRSSAAALDPARLGKQRVEALQILRALVIPEYGWQSHPAVRMWMGHVPALTLYGLAMVDEWTARGHADNTRANITEFAPQAAHPDYAAKIPMPHWLGDPDFHLSHRSKLLRKEPKFYKDVFPDAEVDLDYIWPEPKHEFLPEDPDGDILWILRAPHREIDPETLGTVALPPVRRGGTPTAGLGADQDDYSPVYVDDGSRRPSKQPRKLPPKQLVKKPTRKRKAQEEAFATLPGKTVVAVAFEDGSKFAVGQVLGRPITLEDGRFGRNFSVTEVIDRSAFDYPALLQDPRVFFPVPAP				NA	NA	NA	NA	NA
D1-29_01025	591			hypothetical protein	ATGAAAACTACACCTCAAAAGACCCCCGGAAGCACCCAGATTTTCACGCCCAAGTTCGGGCAGATGCTTAGTCCGGAGGCCAATGGCATCCTGGTCCTTGACGAATTTACGCTTGATCCGGCAGCGGCGCGCAAAGAGCAGCACGGCTTCCGCGCAGCGATTGCATCCGTAGCTGTCACGCTCCGCCGAATTGCTGCCCTGCGTGTGGTGATTGCGCTCGTGGCCATCGGAAACCTGCCACTGTTCCTGCTTTCCAGCGGCTGGTGGATCTACGCGGTTTCCCTGACTCTGGTGGTGGCAGTGCACGCTGCGGTCTCCTGGCTCAACCGGCACGAGCCCAAAGTCCGCCAGCGCCAGGACCTGGAATTGCACCTGCATCGCGAACAGAGCGCCAACTACCGCAAAGTCCGTGACGCCGTGAAGTACATGATTGACACACCCAGCCGCATGAACGAACACCTCTACCTGGAGTTGCTGGCGGTCAAGCGGGTGGCCCTCAACCTCGCACACGGCACTGTTGCCCTGCTGGACACCAGCGACGAGACCTCCTGGAAAGTGCGGATCGTCCGCGAAATCCCTGCAGCAGCCTAA	MKTTPQKTPGSTQIFTPKFGQMLSPEANGILVLDEFTLDPAAARKEQHGFRAAIASVAVTLRRIAALRVVIALVAIGNLPLFLLSSGWWIYAVSLTLVVAVHAAVSWLNRHEPKVRQRQDLELHLHREQSANYRKVRDAVKYMIDTPSRMNEHLYLELLAVKRVALNLAHGTVALLDTSDETSWKVRIVREIPAAA				NA	NA	NA	NA	NA
D1-29_01026	636			hypothetical protein	ATGAAAACAACTACTTTCCGTACTGCCGCGCGCCGCGGAATCACCGTTACCGCCGTTTCCCTCGCCGGCCTGGCGCTCTCAGCAACCGCCGCTAACGCCACCACCGGCACGTCCACCTGGGACTCGCTGGCGCAGTGTGAGAGTGGTGGAAACTGGGCAACCAACACCGGAAACGGCTACACGGGCGGCCTGCAGTTCAGCCCCACCACGTGGGCCGCCTACGGCGGCACCGGCTCCGCTGCAGATGCCAGCCGTGAGCAGCAGATCGCCGTCGCCGAACAAGTCCAGGCTGCCCAGGGCTGGGAGGCCTGGCCTTCCTGCTCGGCCCAGCTGGGGCTGAGCGGTGGCGCAACAGCAGTTGCGCCCCAGACTGTTCCAGTCCAGAGCGTGCCCGTGACCCAGGTTCCGGCCGCCCAGGCGCCTGTCACCCAGCCTGTGGCGTCAGCTCCCGTCCATGCTGCGCCGGTAGCGCTCAGCGGCGAGACCTACACGCTGGAGGCGGGCGACACGCTGAGCATCGTGGCGGACAAGCTGGGTATCGCCGGCGGCTGGGCAAGCCTTGCGGACGCCAACCAGGACACCATCTCCAACCCGGACCTCGTGTTCGAGGGACAGGTCCTGCAGCTTCCCGCTTAG	MKTTTFRTAARRGITVTAVSLAGLALSATAANATTGTSTWDSLAQCESGGNWATNTGNGYTGGLQFSPTTWAAYGGTGSAADASREQQIAVAEQVQAAQGWEAWPSCSAQLGLSGGATAVAPQTVPVQSVPVTQVPAAQAPVTQPVASAPVHAAPVALSGETYTLEAGDTLSIVADKLGIAGGWASLADANQDTISNPDLVFEGQVLQLPA				NA	NA	NA	NA	NA
D1-29_01027	1050		COG1816	Adenine deaminase	ATGGACAATTACCAGGACAGCGCCGCTGAGACGCTTCCAGAGACTGATTTGCTGGATACGGAACCGCTTGCCCGCCTGCTTCCGCTGGCCGAACTGCACCTTCACATCGAAGGGACCCTTCAGCCCGAACTGATTTTTGAACTGGCGGAGCGCAACGGCATCACCTTGCCCTACTCGGGGCTGGACGAGCTGCGCGGCCTTTATGAATTCAGTGACCTTCAGTCCTTCCTGGATCTGTACTACGCCAACATGGCTGTCCTGCGGACGGAGCAGGACTTCGCAGACATGACCCGCGCCTACCTTGCCCGTGCCCAGGAAGCGGGAGTGCGGCACGCCGAGATCATGATGGACCCGCAGGCGCACCTTGCCCGCGGGGTCTCCCTGGAAACCTGTGTGAATGGTGTTGCGTCCGCTTTGGCAACCTCAGTTGAGGACTTCGGCATCTCCACACTGCTGATTGCCGCTTTCCTGCGCGACCTGCCGGAGGAGTCGGCGCTGGAAGTCCTGGACGCCCTGCTCGCCATGAACGCCCCCATCGCGGCCATCGGCCTGGACTCGGCAGAGGTGGGCAACCCGCCGGCCAAATTCGAACGGCTTTTTGCCCGGGCGCGGGAAGCAGGCCTGCGATTGACGGCGCATGCAGGGGAGGAGGGCCCGGCGTCGTACATTATTGATTCGCTGGACATCCTGGGCGTGGAGCGGATCGATCACGGCATCCGGTGCATGGACGATCCGGAGCTGGTGGAACGGCTGGTGGATGATCGGATTCCGCTCACGGTCTGTCCCTTGTCCAACGTTCGGCTCCGGACGGTGGACACCCTGGCGGACCACCCGCTGCCGGCAATGCTGGCCGCTGGATTGAACGTGTCCGTCAACTCCGATGACCCGGCCTATTTCGGCGGATACGTTGACGATAACTTTGCGCAGCTGACAGCGGTGTTTGAGTTGTCCGAATTCGACCGCGCCCGCCTCGCGGCCAACTCCATCCATTCGTCGTTCGCCTCCGAGAACCGGAAAGCCGAGCTCCTGGACGAGCTGAACGGCGGCTAG	MDNYQDSAAETLPETDLLDTEPLARLLPLAELHLHIEGTLQPELIFELAERNGITLPYSGLDELRGLYEFSDLQSFLDLYYANMAVLRTEQDFADMTRAYLARAQEAGVRHAEIMMDPQAHLARGVSLETCVNGVASALATSVEDFGISTLLIAAFLRDLPEESALEVLDALLAMNAPIAAIGLDSAEVGNPPAKFERLFARAREAGLRLTAHAGEEGPASYIIDSLDILGVERIDHGIRCMDDPELVERLVDDRIPLTVCPLSNVRLRTVDTLADHPLPAMLAAGLNVSVNSDDPAYFGGYVDDNFAQLTAVFELSEFDRARLAANSIHSSFASENRKAELLDELNGG	PGPT0021520_2407	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021520-add-K01488	NA	NA
D1-29_01028	984			hypothetical protein	ATGGCCAAGTCCATCGCAGAAAACACCTACCTTCGTCTCAAGACCGTGCTGGATGTCCTGACCGAAGGCGTGTGGTCCGGCGATGCGCTGAATGCCGGCGAGGTACTGGCTGAAGCCACAGCCCGCGTCCCGTTCAGCCCGCATGAGGGAGAATTGCTCAGCGGCGGCATCCCCCGCGGTCATAAGACACTGACCTCCGCCACGGCAAAGCTGGTGAAGGCCGGCTGGCTGGTCAAGAGCCGTGCCGGCTGGATCATCACCGAGGACGGCATGCGCGCCACAGTCGCGTTCCCGGATGTGGACTCCTTTACGGCAGCGGTCGACGCCGGCACGCCCGTTCCGGCGGACACCCCGGTTCCGGCTGCCCCCGCCAATTTTGTTTCACCGAAGGCAGCCCGTGCAGAAGCCGCCGCAAAGACGGAAACAGTGAAGAAGGCTCCGGCCAAGAAGGCCCCCGCTACCAAGGCAACGGCCACTAAAGCAACCGCCACCAAGGCAACCGCCACCAAGGCGCCAGCGAAGAAGGCGGCCGAAGCTGTGGGCAAGGCAGCCAAACTGATCGAGGACGCCGTGGAGCCCGTGGTCAAGGCCGTCCGTTCCCGCAAGGCCTCGCCGAAGGCAAAGGCTGAAACCCCCACCGCGGACGCTTCGGCGGGAGCTGTTGCCACCGCAGTCGAGACGTTCCCGCAGCCTGAGGCCGTAGCTGTGGCCGGTGACTTCAACACGTTCCTGGGAGCACCGGAGAACTGGGCACCGCAGTACGACGAAGCCCAGATGGAACTCGACGTCCTGGACCAGCTGTGGAAGATCAGCGCCGAACTGCCGGCCGGTTACTACACATTCAAGATCGCACTGAACCGCTCGTGGCAGGAGAACTATGGCGCGTTCGGTGCATTCGACGGTCCCAACCACGAACTGCACCACGACGGCGGCACTGTCACCATCCGCTACGACCACCGCACACGGGACATCACCGTCAACTGA	MAKSIAENTYLRLKTVLDVLTEGVWSGDALNAGEVLAEATARVPFSPHEGELLSGGIPRGHKTLTSATAKLVKAGWLVKSRAGWIITEDGMRATVAFPDVDSFTAAVDAGTPVPADTPVPAAPANFVSPKAARAEAAAKTETVKKAPAKKAPATKATATKATATKATATKAPAKKAAEAVGKAAKLIEDAVEPVVKAVRSRKASPKAKAETPTADASAGAVATAVETFPQPEAVAVAGDFNTFLGAPENWAPQYDEAQMELDVLDQLWKISAELPAGYYTFKIALNRSWQENYGAFGAFDGPNHELHHDGGTVTIRYDHRTRDITVN				NA	NA	NA	NA	NA
D1-29_01029	546	yceI_1		Protein YceI	ATGACTCTTCCCTCAGGCCTTACCCCGGGCGTTTGGACGCTGGATATGTCTCACAGCGAGATCGGTTTTACGGTCCGGCACGCCGGCATCAGCAAAGTGCGTGGACGTTTCACTGAGGCGAGTGCAGAGGCCCATATCGGCCAATCCTTGGCAGAATCATCGCTCCATGCCACCGTCAAGACGTCCAGCTTCGATTCTGGTGACGCCAACCGGGACGCCCACGTCCGTGGCGCGGACTTCTTCGACGTGGAGAACCACCCCGAGATGACTTTCCGAGCCACATCCGTGGAGGGCGACGGCGAGGACTACACCCTCACGGGCGACCTCACCATCCGGGGAATCACCAAGCCGGTTGAACTGGAGGTGGAATTCACCGGGGTGGCCGTGGACCCCTTCGGTGCCACCCGTGCCGGATTCTCCGCCGAGGCCGAGATCAGCCGCAAGGAGTTTGGCCTCACGTGGAATGCGGCCTTGGAAACCGGAGGATTCCTGGTCAGCGACAAAGTGAAAATCAACGTCGAGGCTGCCTTGGTGAAGCAGTCATGA	MTLPSGLTPGVWTLDMSHSEIGFTVRHAGISKVRGRFTEASAEAHIGQSLAESSLHATVKTSSFDSGDANRDAHVRGADFFDVENHPEMTFRATSVEGDGEDYTLTGDLTIRGITKPVELEVEFTGVAVDPFGATRAGFSAEAEISRKEFGLTWNAALETGGFLVSDKVKINVEAALVKQS				NA	NA	NA	NA	NA
D1-29_01030	315	acyP	COG1254	Acylphosphatase	ATGAACGCTGGTGTTCCAGCAAACCCGGAAGTGCCGGCCACCGACGGCGTCCGGCTCTCCGCGCGCGTTTTCGGGATAGTGCAGGGCGTCGGGTTCCGCTATTGGACCATGGGCAAGGCAGACGAACTGGGCCTGACCGGGTTGGTGCGGAACCTTGCCGACGGATCCGTGGACGTGGTGGCCGAAGGTCCTGAAGAGCGCATCAAGGACTTCCTGGACTGGCTGAAGTCGGACAAAACCCCCGGCCGCGTGGAGCGGGTGGAGGACTCCATCTCTGCGGCCGAAGGAACGTTCCGGGACTTCCGGGCGCGCTGA	MNAGVPANPEVPATDGVRLSARVFGIVQGVGFRYWTMGKADELGLTGLVRNLADGSVDVVAEGPEERIKDFLDWLKSDKTPGRVERVEDSISAAEGTFRDFRAR	PGPT0001372_3473	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001372-acyP|yccX-K01512	NA	NA
D1-29_01031	3822			hypothetical protein	TTGTTCCTGCTCGATCCTGCCAGCGCGGCTTCTGCAAGCCTCGATCCTGCCAGCGCTGATTCTGGCAGCACTGATCCCGGCACGGGCGGACCTGCGGACCTGGTGTTCTCGGCGAGCGACCTCGTTGCCGCCAGCGAGTGCGAGTACCGCACACTCCGTATCCTGGACGAGAAACTGGGACGTTCTCCCAAGGCCGTATTTCCCGACGACGAAATGCAGCGGCGTGCCGGTGCCCTTGGCGATAAACACGAGGCCAAGGTCCTGGCGGGCCTCATCGACCAGTACGGCGAATGGGACGCCAACCGCGGTTCCGGGGTTTATTCCATCCACCGCGGCGAGAATGTGCGCGCGGACCTCCTGGCCAAGCAGGCGGAAACTGAACTTGCTCTCCGGGCTGGGGCGGACGTCGTCTTCCAGGCCACCTTCTTCGATGGCGAGTTCCTGGGTTACGCGGACTTCATCGTCAATGAGGCCGCAGGAACCGGAAACCCGGGGCGCTACGAAGTCTGGGATACCAAGCTGGCCAGGCACGCCAAGGTGGGCGCGCTCCTCCAGCTTGCGGCATATGGCGACCAACTCATCCGGATGGGGCTTGAACCCTCACCCAAGGTCACCCTGGTGCTGGGCGCGGTGGTGGACGGCGATTACGTCCGCAGCGTGCATTCGCTCACCGACCTCCTGCCTGTCTTCCGCGAGCGCCGCGACCGCTTTCGCACCCTCACCGGCTCGCACCGCTCTGGGGATTCGCCGGTCCAGTGGCTGCAGAAGGACATCACCTGCTGCGGGCGCTGCAACTACTGCGCGGAGCAGGTCCAGTCCCACCGCGACCTCCTGATGGTAGGCGGCATGGGCTCCTCCCGGCGCAAGAAACTCATCGCCGACGGCATCACCACCATCGACCAACTGGCCGACCTTCCTTCCGCCCAGGCCACAGGTTCTGTGGTCCGGTTGCGGGACCAGGCCCGGATGCAGCTCGGCCGCGACACTCCAGACGGCTCGCGGACGTTCGTGAAGGACGGCGAGGAACACTCCGTCACGTTCAAGGTACTTCCGGCGAACGCCCTGGCCTCCATCCCTGCGCCCAGCCCCGGTGACATCTTCTTCGACTTCGAGGGCGATCCGCTCTGGCAGGATCCCGCCACCGGAAAATGGGGGCTGGAGTACCTGTTCGGGGTAATCGAGGCGCCCGATTCCGCCGCTGACCCGTCTGGCTCTGCCGGTGAAACCCGCAAGCTGGTGTTCCGTCCGTTCTGGGCGCACTCCCGCTCCGGGGAACGGCACGCCTTCCTGGACTTCCTGGATTACGTGGAAGAGCGCCGGCGCAGGTACCCGGACATGCACGTCTACCACTACGCCGCCTATGAGAAGTCAGCGCTCCGGAACCTGTCGGTCACCCATCTGGCGGGTGAGGACACCGTGGACAACTGGCTCCGGGAAGGTCTCCTGGTGGACCTGTACGCCACGGTCCGGCATTCGCTGCGCATCTCGGAGCGGTCCTATTCCATCAAGAAACTCGAGCCCCTCTACATGGGGGACCATCTGCGGTCCGGTGACGTCAAGGACGCCGGCGCCTCCGTGGTGGCATACGCCGGCTATTGCGCAGCCAGGGAAGATGGCGACTCCGCCAAGGCAGCCGAGATCCTTGCCTCCATCTCCGACTACAACGAATACGACTGCCTTTCCACCCTGAGGCTCCGCGACTGGCTCCTGGGCCTGCGTTCCTCCCAGAACGGTCACTCCACCGCTCCCGCTGCCGGGCCGGGCACTGCCGCTTCAAACGCGGCAACAGGCACTGCCGGGTCACACGCTGCCCCGTCAAGCACTTCAACAGGCACTGCCGGAAAGCCCGACGGCGGCCCAACGGTGGCGCTGCCGCCTGCCCTTTCCGAGGCGGTATCGATCGCCGAAGCGGAACCAACTCCCGAGGAGATCCGCCTCCGGGACTACCTGGCCTTGCTGCCGGACAACAGGCCCTGGACCCCGGATGAGCAGGCCATCGCCATGGTAGCCGCGGCCACCGGGTATCACCGGCGGGAGCGGAAGCAGTTCTGGTGGGAACACTTCGACCGTACGGAGTCAGAGATCGATCACTGGTCCGATCACCGCAACGTGTTTGTGGTGGATACAGCCGAGGTCCTCAGGGACTGGGCGTTGTCCGGGCCGAAGGTTCGGATGCAGACCCGCACCCTGAAACTGACCGGGACCATGAGTGAAGGTTCGGATTTCAGGCCCGGAAGCACGTGGTGCCGGTTGTACGAGGCCCCCCTTCCTGACGGAATGGACGAATCCCAAGGCAGCCCCACGGCCCGGGGATACACTTTCGGCACCCTGGTCACCGACGTGCAGGACCATCCGGACATTCCTGGCCGGACCATCATCACCATCGAGGAGAAGGAGACGGGCAAGGTCCCCGCGTACCCTCATATCCCGGTTGCCCTGACCGAGGATCGGCCAGTCCCTACCGCCAGCATTGAGGCCGCCCTGGCGGAGCTTGCCGAAGCCGTGGGGGCGTTGGGGCCTGCGTTGCCGGACCATCCGGGCCTGGACATCCTGCGGAAGCTCCCGCCCAGGTTCCGTTCGCTCCCAGGGCCCGCCGCCGTCGGACCGGACAGTGCGGGTGCTGCAGATTACGTCGCAGCCATCACCACCTCGCTGAGGGACCTGGACCACTCATATTTGGCCGTGCAGGGCCCACCGGGCACAGGCAAAACGTATGTCGGCTCGCACGTCATTGCCCGGCTGGTGGATGCCGGCTGGAAGATCGGAGTGGTAGGCCAGTCCCACGCCGTGGTGGAGAACATGCTCTGCACCGCGATCGAAACCGCGGGAGTCAACCCAGCCCGCGTGGCCAAGAAGCTGTCCACGCCGCACGACGTCCTGTGGCACCGCACATCCGACGACGACGTTGCCGCGCTGCTGGACTCTCCGGGCGGCTGCCTGGTGGGCGGCACGGCGTGGACCATGACCGGAAAATGTGTCCCTGCCGGCTCCCTGGATCTGCTGGTGATCGATGAGGCCGGTCAGTTCTCGCTTGCCAATACCCTTGCGGTGGCCAGGTCTGCCAAGCGACTCCTCCTCCTGGGGGATCCGCAGCAGCTTCCACAGGTCACCCAGGGTTCTCACCCGGAGCCGGTGGATGAGTCGGCCCTGGGCTGGCTCGCTGCGGGAAACGCCACGCTGCCCGGGGAGCTGGGGTACTTCCTGGCGGACAGCTGGCGGATGCACCCGGAGCTGTGCCGCTCCGTGTCGCTCCTGAGTTACGACGGCAAACTTGAATATGCTCCGGCCGCATCCTCCCGCAGCCTTGCCGAATTGCCTCCCGGAGTGGAGACCGTCTTCGTGGATCACACCGGAAACACCACGTGCTCCCCTGAAGAGGCAGCCGAGGTTGTCCGGCAGGCGCAGCGGCACATTGGGCTGAAATGGCTTCCCGGCGGAGACCAGCCCGCCCGGCCGCTCAGCCCGGAAGACGTCCTGGTGGTGGCTGCCTACAACGCCCAGGTCCAGCTGATCCGGCATACGTTGGAGCAGGCAGGCCTGGGCGGCGTTCGGGTTGGCACCGTGGACAAGTTCCAGGGACAGCAGGCGCCGGTGGTGCTGGTGTCCATGGCATGCTCGGCCGTGGCTGAAGCTCCGCGCGGGGCTGAGTTCCTGCTGAACAGGAACCGCATTAACGTCGCCATATCCAGGGCCCAGTGGCGCGCCGTGATTGTCCGCTCCCCTGAGCTCACCAACTACATGCCGGCGCGGCCCCGGGCCCTGGAGGAGCTGGGCGCCTTCATCGGCCTCAGCCCACGGTCAGCACCCCGGCCACCCAAGTAA	MFLLDPASAASASLDPASADSGSTDPGTGGPADLVFSASDLVAASECEYRTLRILDEKLGRSPKAVFPDDEMQRRAGALGDKHEAKVLAGLIDQYGEWDANRGSGVYSIHRGENVRADLLAKQAETELALRAGADVVFQATFFDGEFLGYADFIVNEAAGTGNPGRYEVWDTKLARHAKVGALLQLAAYGDQLIRMGLEPSPKVTLVLGAVVDGDYVRSVHSLTDLLPVFRERRDRFRTLTGSHRSGDSPVQWLQKDITCCGRCNYCAEQVQSHRDLLMVGGMGSSRRKKLIADGITTIDQLADLPSAQATGSVVRLRDQARMQLGRDTPDGSRTFVKDGEEHSVTFKVLPANALASIPAPSPGDIFFDFEGDPLWQDPATGKWGLEYLFGVIEAPDSAADPSGSAGETRKLVFRPFWAHSRSGERHAFLDFLDYVEERRRRYPDMHVYHYAAYEKSALRNLSVTHLAGEDTVDNWLREGLLVDLYATVRHSLRISERSYSIKKLEPLYMGDHLRSGDVKDAGASVVAYAGYCAAREDGDSAKAAEILASISDYNEYDCLSTLRLRDWLLGLRSSQNGHSTAPAAGPGTAASNAATGTAGSHAAPSSTSTGTAGKPDGGPTVALPPALSEAVSIAEAEPTPEEIRLRDYLALLPDNRPWTPDEQAIAMVAAATGYHRRERKQFWWEHFDRTESEIDHWSDHRNVFVVDTAEVLRDWALSGPKVRMQTRTLKLTGTMSEGSDFRPGSTWCRLYEAPLPDGMDESQGSPTARGYTFGTLVTDVQDHPDIPGRTIITIEEKETGKVPAYPHIPVALTEDRPVPTASIEAALAELAEAVGALGPALPDHPGLDILRKLPPRFRSLPGPAAVGPDSAGAADYVAAITTSLRDLDHSYLAVQGPPGTGKTYVGSHVIARLVDAGWKIGVVGQSHAVVENMLCTAIETAGVNPARVAKKLSTPHDVLWHRTSDDDVAALLDSPGGCLVGGTAWTMTGKCVPAGSLDLLVIDEAGQFSLANTLAVARSAKRLLLLGDPQQLPQVTQGSHPEPVDESALGWLAAGNATLPGELGYFLADSWRMHPELCRSVSLLSYDGKLEYAPAASSRSLAELPPGVETVFVDHTGNTTCSPEEAAEVVRQAQRHIGLKWLPGGDQPARPLSPEDVLVVAAYNAQVQLIRHTLEQAGLGGVRVGTVDKFQGQQAPVVLVSMACSAVAEAPRGAEFLLNRNRINVAISRAQWRAVIVRSPELTNYMPARPRALEELGAFIGLSPRSAPRPPK				NA	NA	NA	NA	NA
D1-29_01032	1197		COG0861	putative membrane protein	ATGGAAGTATCTTCGTTCGTTTGGACCCTGACAGTTGTGGGCATCATCGGGCTGCTCGCCTTCGACTTCTTCTTTCATGTGCGGAAGGCCCACACACCCTCTTTGCAGGAATCGGCCGTCTGGTCCGGCATCTATGTGGGGATCGCACTGCTTTTCGGCCTGGGAGTGCTGTGGCTCGGCGGCCCCACCCTGGGCACGGAGTATTTCGCGGGCTACATCACGGAGAAGGCCCTGTCGGTGGACAACCTCTTTGTCTTCCTGATCATCATGGCCAGCTTCCGGGTGCCGCGGGCTGACCAGCAAAAGGTGCTGCTGTTCGGCATCGTCTTCTCCCTCATTGCCCGCACCGCTTTCATCCTGCTGGGCGCGGCGCTGATCAACAGCTTCGCCTGGGTGTTCTACATTTTCGGCCTGATTCTGCTGATCACCGCCGGCAACCTGCTGAAGCCTGACGGCCACGACGAAGAGTCCGAGGGCCTGGTGGTCCGGCTCGCCAGGCGCTTCCTGCCGGCGTCGGAGCATTACGACGGCGACAAGCTGTTCACCGTGGAAAACGGCAAACGCGTCCTCACGCCCATGCTCCTGGTGATGGTTGCCATTGGCGGGACCGACATCCTGTTCGCGCTGGACTCCATCCCGGCCATCTTTGGCCTGACCCAGAACGTGTATATCGTCTTCACCGCCACGGTGTTTTCTCTGCTGGGCCTGCGCCAACTGTTCTTCCTGATCGACGGCCTCCTGGACCGCCTCATCTTCCTCTCGTACGGCCTCGCCACCATTCTGGGCTTTATTGGGGTGAAGCTCATCCTGCACGCGCTGCACGAGAACAACCTGCCCTTCATCAACGACGGCGAGCATGTCAACGTGGTGGAGGTGAGCACGGAGGCCTCGCTGATGGTGATCCTTGGCGTCCTGGTTGTCACCATCCTGGCGTCCGTCTTCAGCCCCAAGGGCAAGGCCAAGAACGCCGTATCCGGGGCGAAGCGTCACGCCAACGAATACCTGGACCTCAACTACGAAACGAATATGGCCGAGAGGGACAAGATCTTCGCCAGGATGTGCTGGGAAGAGGACCAGATCCGCAAGCTCCCCGAGAAGTACAAGCGGCTCATCCGCAACGAGACCGAGTTCATGAACCTGCTCCGGAGTGCCCATGCGGCGCATGACAAGGCCCAGGTGAGGGCCGGGCAGAGCTAG	MEVSSFVWTLTVVGIIGLLAFDFFFHVRKAHTPSLQESAVWSGIYVGIALLFGLGVLWLGGPTLGTEYFAGYITEKALSVDNLFVFLIIMASFRVPRADQQKVLLFGIVFSLIARTAFILLGAALINSFAWVFYIFGLILLITAGNLLKPDGHDEESEGLVVRLARRFLPASEHYDGDKLFTVENGKRVLTPMLLVMVAIGGTDILFALDSIPAIFGLTQNVYIVFTATVFSLLGLRQLFFLIDGLLDRLIFLSYGLATILGFIGVKLILHALHENNLPFINDGEHVNVVEVSTEASLMVILGVLVVTILASVFSPKGKAKNAVSGAKRHANEYLDLNYETNMAERDKIFARMCWEEDQIRKLPEKYKRLIRNETEFMNLLRSAHAAHDKAQVRAGQS	PGPT0004905_79	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004905-terC-K05794	NA	NA
D1-29_01033	327	cmtR	COG0640	HTH-type transcriptional regulator CmtR	ATGGAAACGCTCACCCAAGCACCCGTGCTGGCCAGGTTCGGCTATGCCGTGTCAGACCCCACCCGCGCCCGGATCCTCCTGGCCCTTTCAGAAGCTCCGTCCTATCCTTCGGATCTGGCTGATTCTCTTGGGGTGTCGCGGCAGAGTATGTCCAACCATCTGACGTGCCTGCGCGGCTGCGGCCTGGTTGTTGCGGTTCCGGATGGGCGGCGGAGTCTGTATGAGCTGGCAGATGCCCGGCTGGGCCACGCCATCAAAGACCTGATCGGCGTCGTCCTTGCAGTGGATCCTGCATGTTGCGCCCCGGACGGGACATGCTTGGCATGA	METLTQAPVLARFGYAVSDPTRARILLALSEAPSYPSDLADSLGVSRQSMSNHLTCLRGCGLVVAVPDGRRSLYELADARLGHAIKDLIGVVLAVDPACCAPDGTCLA	PGPT0004390_627	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-LEAD_HOMEOSTASIS,PGPT0004390-cmtR-K21885	NA	NA
D1-29_01034	846			hypothetical protein	ATGCTTGGCATGACCACGTTGCTTTACACAACAAATCCGGATCGCCGCGCGGTGCTGAGCCGGAGGATCAGGTTATTCGCGGCCGCAACCATCACGTACAACGTCATCGAAGCTGTTGTAGCTCTGTGGGCGGGCGGCGTTGCAGACTCTTCGGCGCTGATCGGCTTCGGCTTGGACTCGATTGTCGAGGTGGCTTCGGCTGTGGCGTTGTCGTGGCAGTTCTCAGCCAAGGACCCGGAACGTCGCGAGCACCTGACCTTGCGTATCATCGCCATTTCCTTCTTTGCGTTGGCTGCATTCGTAACAGTCGACGCCGTCCGGTCACTTATGGGCGCAGGAGCGGCGCAGCATTCAACGCCGGGCATAGTAATCGCGGCTTTGAGCTTGGCGATCATGCCTGTCCTGTCATGGGCGCAGCGCCGCGCCGGGCGGGAGCTTGGGTCCAGCACGGCAGTGGCCGATTCCAAGCAGACACTGCTCTGCACATACCTTTCCGCAGTCCTGTTGATCGGTCTGGTTCTGAACAGCACCTTGGATTGGTGGTGGGCCGACGCCGGCGCGGCACTGGTGATCGCAGGCATCGCCGTCCGGGAAGGGCTCGAAGCATGGAAGGGGCAATCCTGCTGCACTATCCCGCACGCCATGAATGGCCACACAGAAGATGATGACTGCTGTGCGCCCATTGAGAACATCTCATCCGCATCCGCTCTTAAAGGAGCGGAAGGAGCGGAAGAGGCAAAGGAGGCAGGCGAACAGTCTGCGGATTCCTGCTGTGCAGGGTGTGGATCAGAGGCCTTGGCTGAGCCTGTCACCGTTGACCTCGGAACCAGGCCGGCCGATCGATGA	MLGMTTLLYTTNPDRRAVLSRRIRLFAAATITYNVIEAVVALWAGGVADSSALIGFGLDSIVEVASAVALSWQFSAKDPERREHLTLRIIAISFFALAAFVTVDAVRSLMGAGAAQHSTPGIVIAALSLAIMPVLSWAQRRAGRELGSSTAVADSKQTLLCTYLSAVLLIGLVLNSTLDWWWADAGAALVIAGIAVREGLEAWKGQSCCTIPHAMNGHTEDDDCCAPIENISSASALKGAEGAEEAKEAGEQSADSCCAGCGSEALAEPVTVDLGTRPADR				NA	NA	NA	NA	NA
D1-29_01035	672			hypothetical protein	ATGAGCGCGGCCGTTACTGCCCGCAGGGTCCGCATCACGATCTGGATTCTGCTCGTTGCCATCGTTGGCGCCGGGGTGATCTGGTACGGCGTGCGGACCGCTAATGGGCCCGCTCCTGCCGCACCCCTGGCGGCTGACGCCCACGTCATGAGGGAAGACAGCCACCGGGTCACGAGACCGGCCACAGAGAAGGCCCAGCTTGTCGAGTTCCTGGACTTCGAGTGCGAATCGTGCCGCGCTGCCGAGCCCTTGATAGAGGAACTGAAAAAGGAATACGGGGACCGGATTACTTTCGTCCACCGCTACTTCCCCCTCCCTGGCCACCGGAACTCCGGCACCGCAGCCTTGGCCGCGGAGGCTGCCGCCCAGCAGGGCAGCTATGAGGCGATGACTGCCAAGCTGTTCGAGACCCAGCCACAGTGGGGCGAGAAGCAGGACCCCCAGGCAGCACTGTTCAGGACCTTCGCCCAGGAACTCGGGCTGGACATGGCCGCGTATGATGCCGCAGTGGCGGATCAGGCCACCAAGGACCGCATCAGCCAGGACGTTGCGGACGGAAAAGCCCTCGGAGTCACCGGCACTCCCACCTTCTTCCTTGACGGAAAGAAGCTCACCCTTAACACCGAAGCCCAGTTCCGTCAGCTGCTCGACAACGCCGCTGGCCCGAAGTAG	MSAAVTARRVRITIWILLVAIVGAGVIWYGVRTANGPAPAAPLAADAHVMREDSHRVTRPATEKAQLVEFLDFECESCRAAEPLIEELKKEYGDRITFVHRYFPLPGHRNSGTAALAAEAAAQQGSYEAMTAKLFETQPQWGEKQDPQAALFRTFAQELGLDMAAYDAAVADQATKDRISQDVADGKALGVTGTPTFFLDGKKLTLNTEAQFRQLLDNAAGPK				NA	NA	NA	NA	NA
D1-29_01036	1788	deaD_2		ATP-dependent RNA helicase DeaD	ATGTCCGAGAACCCTGCCCTGTCCGCCGCACTGAGTACACTCGCCGCTTCCGCTTTTTCCCTCGGGCACCTCCAACACGGCCAACTGGCCGGGATGGAAGCGCTGGCCCGTGGGCGGGACGTTCTGGCGGTGATGCCCACCGGCTACGGGAAGTCCGCCATCTATCAAGTGGCCGCGGTGCACCTGCACCGGCAGGCGGGACGTCCCGCCGTCGTGGTTTCACCGCTTATTGCCCTGCAGGAGGACCAGCGGGACGGCCTAGAGGAATCCCTGGGCCCGGATGCCGCCGTCGTTATCAACTCCTCCCGCACCGATTCGGAGGTGGAGGAAGCGTGGCAGGCAGTGGAGGCGGGCACGGCCGCGATGGTGTTCCTGGCTCCGGAGCAGCTGGCCAAGCAGGAAACCGTAGAACGGCTCGCATCCCTGGACATAGCGCTTTTTGTGGTGGACGAGGCGCATTGCGTCTCCGCCTGGGGACACGATTTCCGGCCCGACTACCTTGGCCTTGGTAGCGTCCGCGAGCGCCTGGGCAATCCCCCGGTGGCCGCACTCACCGCCACCGCCTCTCCCCCGGTGCGGGAGGAGATCATCCGGCGGCTGGGCATGACGGATCCGCTTGTCCTGGTCCACGGCTTCGACCGGCCCAACATCAGCCTGGCCGTGCTCCGGCACCATGAGGACAAGGACAAGCGCCGCGCGGTAGTGGAACAGGCAAGCGAACTGGTCAGGGAAGAAGGCGGGCAGCACGGGCTCCTGTATGCCGCAACCCGCAAGGACACCGAGAAGTACGCCGCGAAGCTGGCCAAGAACGGGGTGCGGGCGCAGGCCTATCATTCGGGCCGCACCGCGGCAGACCGCGAGGCCATCCACCAACAGTTCATGAACGATGAACTGGACCTGGTGGTGGCCACCACGGCCTTCGGGATGGGGATCGACAAGCCCAATGTCCGCTTTGTCCTCCATGCGGACATCCCGGAGTCGCTGGATGCCTACTACCAGGAGATTGGCCGCTGCGGCCGGGACGGCCAGCCGGCCTCCGCGGTCCTGCACTACCGCGCAGAGGACTTGGGCCTGCGGAAATTCTTTGCCGCCCAGGTGCCGGACGAGGAGTCACTGCTGGCCCTGCTCAAAATCCTGCGCGCTGCTGACGGGCCGGTGCCCAGGACGTCCCTTGCCGAGATCACGGGATTCCCGGCCCGGCGGGTCACAGCACTGCTGAACCAGCTCCAGGAGGCAGGCGCCCTCAAGACCGGCAAGCGCGGTGTCCGGCTCACGTCCAAGGCCAAGCTGCCCGCAGTGGTGCGGGACGCCGTCGAACTGGCCGAAGCACGGCAGCGCGTTGACCAGTCACGGATCAACATGATGCGCGGCTACGCCGAGACCAGTGGCTGCCGGCGGCAGTTCCTGCTGGGCTACTTCGGCGAAGATCTCCCCGGGGCGTGTGGCAACTGCGACAACTGCCAGGCCTCGCCCGCGGACTCGGTCCGGGACCTGGACCAGGGCTGGGAAAGGGGCAGGGAAAGGGGCTGGGACGGGGAGCGGGAAAGGATCGACGACGGCGGGGCGGCTCCTGGCGCGGCTGCCGCGGCCTCTGATTCTGGCGCCTCCGATGCCGGTGCCGATCCTGCGCCGTTTCCGGTGCAGTCGTCTGTGACCCACAAGAAATGGGGGCCGGGGCTGGTGATGCGTTCCGAGGCCGACGTGATTACCGTGCTGTTCGAGCAGGAGGGCTATAAAACGTTGTCACTCAAGGCCGTGGCGAAGAAGAAGCTCCTGCGGCAGAACTGA	MSENPALSAALSTLAASAFSLGHLQHGQLAGMEALARGRDVLAVMPTGYGKSAIYQVAAVHLHRQAGRPAVVVSPLIALQEDQRDGLEESLGPDAAVVINSSRTDSEVEEAWQAVEAGTAAMVFLAPEQLAKQETVERLASLDIALFVVDEAHCVSAWGHDFRPDYLGLGSVRERLGNPPVAALTATASPPVREEIIRRLGMTDPLVLVHGFDRPNISLAVLRHHEDKDKRRAVVEQASELVREEGGQHGLLYAATRKDTEKYAAKLAKNGVRAQAYHSGRTAADREAIHQQFMNDELDLVVATTAFGMGIDKPNVRFVLHADIPESLDAYYQEIGRCGRDGQPASAVLHYRAEDLGLRKFFAAQVPDEESLLALLKILRAADGPVPRTSLAEITGFPARRVTALLNQLQEAGALKTGKRGVRLTSKAKLPAVVRDAVELAEARQRVDQSRINMMRGYAETSGCRRQFLLGYFGEDLPGACGNCDNCQASPADSVRDLDQGWERGRERGWDGERERIDDGGAAPGAAAAASDSGASDAGADPAPFPVQSSVTHKKWGPGLVMRSEADVITVLFEQEGYKTLSLKAVAKKKLLRQN				NA	NA	NA	NA	NA
D1-29_01037	2328		COG0243	putative oxidoreductase	GTGGCGCGCAAGAACCCGCGGGTTGAAGAGGCTGACGAGTCAAAGCTGGAAGTCAAAGGCCACCCGAAGACGTGGGCTGCCGGGATCCCCGGCGTTTATCACTCCATGAAACCCGCCCTGGAACATATGGGGCCGGACCGGACCCGGAAAACCCTCCTGGCGCTGAACCAGAAGGACGGCTTCGACTGCATGAGTTGCGCCTGGCCTGATCCGGGGCACCGCAAGACGTTCGAATTTTGCGAGAACGGCGCCAAGGCAGTCACCTGGGAAGCCACGCCGGTGGTGATCGGCTCTGAATTCTGGGCCGAACATCCTGTCAGCGAGCTGCGGGAGAGGTCGGAGTACTGGCTGGGGATGCAGGGCCGCCTCACGGAACCGGTGTACAAGGCGGCGGGGGAGGACCACTACCGTCCCGTCAGCTGGGACCAGGCGTTCACCATCGTCGCGGATAAGCTGAACGGACTGGCCAGCCCCGATGAGGCCACGTTCTATACAAGCGGCAGGACCTCCAACGAGGCCGCGTTCCTGTACCAGCTGTTCGTCCGGGGATACGGAACCAACAACCTGCCGGACTGTTCCAACATGTGCCACGAATCCTCAGGCTGGGCGATGGGCCAGACCATCGGCATCGGCAAGGCCACCATCTCCTATGACGATTTCGCCATGGCGGACCTGATCATCATCATGGGCCAGAACCCCGGCACCAACCACCCGCGGATGCTGACCGCACTGGAAGAGGCCAAGGAGGCCGGGGCCAGCATTGTGGCGGTGAATCCGCTGCCGGAGGCCGGGCTGATGCGGTACAAGAACCCGCAGAAGGTCAAGGGCATCGTGGGCCGGGGAACCGACCTGGCCGACCAATTTATGCAGGTCCGGATCGGCGGGGACATGGCGCTGCTGCAGGCGGTCTCCAAGCGCGTGCTCGAGGCCGAGGCCAGGAACCCCGGAACCGTGCTGGACCATCAATTCCTGGCCGAACACTGCCAGGGGCTGGCCGAGCTGCAGGCCCACCTTGCGGACCTGGATGAGGCCGCCGTCCTGGAGGCCACCGGGCTGCGGGTGGAAGAGATCGACGAGCTGGCGGACCGCTACCTCAAGGCAGAGAAGGTGATCATCACCTGGGCCATGGGCATCACGCAGCAGAAAAAGGGCGTGGCCACCATCAAGGAGATCATCAACCTGCTGCTGCTCCGCGGAAACATGGGCAAGCCCGGGGCCGGCGCCTCGCCCATTCGCGGGCACAGCAATGTCCAGGGCGACCGCACCATGGGCATCTGGGAGCAGATGCCGCCGGCGTTCCTGGACGCGCTGAGCAGGGAGTTCAGCTTTGACGCGCCCCGCACGCACGGCGCCGATTCTGTGGAAACCATCCGGAAAATGCGCGACGGCGGGATCAAGGTTTTCGTCGGACTGGGCGGCAACCTGGTGGGAGCCATTTCAGACACGCAGGCCGCCTGGGCGGCCATGCAAAACACCGACCTGTCCGTCCAGATCTCCACCAAGCTCAACCGGTCCCATACCGTCACCGGAGCAGAGGCCCTGATCCTGCCCACCCTGGGCCGGACGGAAATCGACCTGCAGGAATCGGGACCGCAGTTTGTGTCCGTCGAGGACACCGTCTGCGCGGTCCACCCCTCGCACGGAACGGTCAAGCCGGTGGCGCCAGGGCTGCTGTCCGAGGTGGCTATCGTCAGCAGGCTGGCCCAGAGGGTGCTGGGTGATTCCATCCAGGCTGACTGGGCCGGCTTCGAAAAGAACTACGACCTCATCCGTGACCACATTTCCCACGTGGTGAACGGCTGCGAGGACTATAACCGGAAGATCCGCCAGGAGGGCGGCTTTGTCCTGCCCAACGGGCCCAGGGACTCCCGCACGTTCAACACCCCCACGGGAAAGGCCATGCTCACGGTCAACCAGCTCGAGCATGTGGAGCGGCCGGCGGGCACCCTGATCCTGCAGAGCATGCGCTCCCATGACCAGTTCAACACCACCATCTACGGTCACAACGACCGGTACCGCGGCATCAAAAAGGGCCGCGAGGTGGTGTTTGTCAGCCCGAAGGACCTCGCTGAACTGGGGCTCCACGACGGCCAGTACGTGGACATCCACGGGGTGCACCACGACAACGTGGAACGGGTGCTGAGGAACTTCCGGGTGGTGTCGTACCCCACAGCCGTAGGCTGCGCGGCCGCCTACTATCCGGAGGCCAACGTACTGGTCCCGCTGGACAGTTTTGCCGAGGGAAGCCAGACGCCGGTGTCCAAGGCGGTGATCGTGCGGCTGGAGCCGGCGAGGGAACATGCTGGGGAGCCGGCGGCGGCAGGCTAA	MARKNPRVEEADESKLEVKGHPKTWAAGIPGVYHSMKPALEHMGPDRTRKTLLALNQKDGFDCMSCAWPDPGHRKTFEFCENGAKAVTWEATPVVIGSEFWAEHPVSELRERSEYWLGMQGRLTEPVYKAAGEDHYRPVSWDQAFTIVADKLNGLASPDEATFYTSGRTSNEAAFLYQLFVRGYGTNNLPDCSNMCHESSGWAMGQTIGIGKATISYDDFAMADLIIIMGQNPGTNHPRMLTALEEAKEAGASIVAVNPLPEAGLMRYKNPQKVKGIVGRGTDLADQFMQVRIGGDMALLQAVSKRVLEAEARNPGTVLDHQFLAEHCQGLAELQAHLADLDEAAVLEATGLRVEEIDELADRYLKAEKVIITWAMGITQQKKGVATIKEIINLLLLRGNMGKPGAGASPIRGHSNVQGDRTMGIWEQMPPAFLDALSREFSFDAPRTHGADSVETIRKMRDGGIKVFVGLGGNLVGAISDTQAAWAAMQNTDLSVQISTKLNRSHTVTGAEALILPTLGRTEIDLQESGPQFVSVEDTVCAVHPSHGTVKPVAPGLLSEVAIVSRLAQRVLGDSIQADWAGFEKNYDLIRDHISHVVNGCEDYNRKIRQEGGFVLPNGPRDSRTFNTPTGKAMLTVNQLEHVERPAGTLILQSMRSHDQFNTTIYGHNDRYRGIKKGREVVFVSPKDLAELGLHDGQYVDIHGVHHDNVERVLRNFRVVSYPTAVGCAAAYYPEANVLVPLDSFAEGSQTPVSKAVIVRLEPAREHAGEPAAAG	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
D1-29_01038	2199			hypothetical protein	ATGGCTGGATGGAATGCTGACACTTCTGCGGGGCCCTTGGGGGGCGGGACGGTTACTTTGGTGGAGGGATCGTCCTTTTGTATCTCCTTGCCAAACGGGGATATCGAATCCGAGCACCCGCATGGTGTTTTTGTGCGGGACAGCCGGATCCTTTCCGGCTGGCGCCTCACCATCAACGGGCACGAGATTGAGCCCCTGGTGGCGGAGGCCAAAGAACCGTTCCGTGCCCTGTTGGTAGGCCGGGCCATCCGTACCGACGGCTATGCGGACAGCCCGCTGATTGTCGAGCGGCTGCGGGAGGTGGGCGCGGGCATCCAGGAACAGCTCACCGTCCGCAACTATTCGCCCGCCCCTGCAGAATGCCTGATCTCGCTGACGGTTGAGGCGGATTTCGCTGATCTCTTTGAGGTGAAGGAGGCGCGGATCCATCGCCAGTGGGAAGAAACCCGGGAGGTGGACGGGGACACGTTGATCCTCCGGTCGGTTTGGCAGGGTGTCCGGAAAGGCATCCGCGTCCAGGCTCCGGGGGCACACTTCACGGAGGAGGCGTTGACCTACCGCGTGACCATCGCCGCCCACGCGCAGTGGAGCACCATCGTCACCGTAGTCCCCACTGATGACACCCCAAGTCCGCCGCCGCCGTCGTTCGTTCATCCGGACGAGGAAGGATTGTCCCCCCGCGACGTGCGCCGGCAGGAATGGGTGGCCAAGATTCCCGTACTGCACATGGGCAACCGGTCCATCGAACGGACGCTGCGGCGCAGTTACGACGATCTGGGTGCGCTCCGGATCGAGGATCCCAATCATCCGGAGCGTGTGGTGGTGGCCGCCGGCGCACCCTGGTTCATGACGCTCTTTGGCCGAGACTCGCTGTTGGCAGCGGAAATGGCATTGCCGGTGGATCCCTCCCTTGCCCTGGGCACGCTGCAGACGCTCGCGGACCGGCAAGGCAGGGTGGTGGATCCGATGAGCGAGGAGGAACCGGGCAAAATCCTGCACGAGGTCAGGCTCGACGTCTCCAGCGGGCTGTCGCTGGGCGGAAAGTCCGTCTACTACGGCAGCGTGGACGCCACCCCGCTGTTTGTGGTGGTGCTCGGCTCTGCCAGCCGCTACGGATTCTTCGCAGAAACCATCGCCGCCCTGATGCCCCATGCCGACCGGGCGCTGGACTGGATCAGCGAGTACGGGGACAAGGACGGGGACGGGTTCGTGGAGTACGAACGGCTCAATCCGGAGGGGCTCATTAACCAGGGCTGGAAGGATTCCTGGGACGGCATCAACTTCGCCGACGGCACCATGGCCGAGGGCCCGATCGCTCTCTGCGAGGTGCAGGGCTACGTTCACGCGGCCTACACCGCGCGCGCCTGGATGGCCTACGACGCCGGCGACACAGCCACGGCCACCCACTACGCCGACAAGGCGGCGCAGCTCAAGAAGCAGTTCAACGAGCAGTTCTGGATGCCGGACCGCGGATACTACGCAATCGCCCTGGACGGCCGGAAGCGCCAGGTGGACGCCTGCGCTTCCAATATGGGCCACTGCCTGGTGTATGGCCTTGTCGACGAGGACAAAGCACCGCAAGTGGTGGAACGCCTGATGTCTCCGGAGATGTTCAGCGGATGGGGGATACGCACGCTGGCAAGCGACATGGGCGCCTACAACCCGGCCAGCTACCACAACGGGTCGGTCTGGCCGCATGACAATGCGCTGATCGCCAGCGGCCTGCTGCGGTACGGGTTCATCGCCGAAGCGCAGCGCATTTCCACTGCCCTGCTGGAGGCCGCCGAGTATTCCGGCGGCCGGCTGCCGGAGCTGTTCTGCGGCTTCAGCCGGGACCAGATCGCCGAACCGGTGCCGTATCCCACCGCCTGCTCGCCCCAGGCCTGGGCAGCCACCACACCCATCAGGCTGGTGACCAGCCTGATGCGGTACGACACCCATGTTTCCCTGGGCGGCGTATGGGTGGATCCTGTCCTGCCGGAGTCCTACGGCGACCTGCACATCAGCAACGCACCCCTGGCGGGTGGCCGGATCACCATCGACATCTCCAACTCAAAGCCGTCCGTCCAGGGCCTTCCCGAAGGGTTGGAACTGCGCCAGGGACGACGCCCATATTTGACGCAGCTGGTGGAGGAAGCGGGGCTTGACCGTGAGGCGAACCGCAGCTGGATGGCATCCGGACGGAGCGGCTCGCCCTAG	MAGWNADTSAGPLGGGTVTLVEGSSFCISLPNGDIESEHPHGVFVRDSRILSGWRLTINGHEIEPLVAEAKEPFRALLVGRAIRTDGYADSPLIVERLREVGAGIQEQLTVRNYSPAPAECLISLTVEADFADLFEVKEARIHRQWEETREVDGDTLILRSVWQGVRKGIRVQAPGAHFTEEALTYRVTIAAHAQWSTIVTVVPTDDTPSPPPPSFVHPDEEGLSPRDVRRQEWVAKIPVLHMGNRSIERTLRRSYDDLGALRIEDPNHPERVVVAAGAPWFMTLFGRDSLLAAEMALPVDPSLALGTLQTLADRQGRVVDPMSEEEPGKILHEVRLDVSSGLSLGGKSVYYGSVDATPLFVVVLGSASRYGFFAETIAALMPHADRALDWISEYGDKDGDGFVEYERLNPEGLINQGWKDSWDGINFADGTMAEGPIALCEVQGYVHAAYTARAWMAYDAGDTATATHYADKAAQLKKQFNEQFWMPDRGYYAIALDGRKRQVDACASNMGHCLVYGLVDEDKAPQVVERLMSPEMFSGWGIRTLASDMGAYNPASYHNGSVWPHDNALIASGLLRYGFIAEAQRISTALLEAAEYSGGRLPELFCGFSRDQIAEPVPYPTACSPQAWAATTPIRLVTSLMRYDTHVSLGGVWVDPVLPESYGDLHISNAPLAGGRITIDISNSKPSVQGLPEGLELRQGRRPYLTQLVEEAGLDREANRSWMASGRSGSP				NA	NA	NA	NA	NA
D1-29_01039	444			hypothetical protein	ATGCCAATTGTTCGAGAGGGACTTCCAGAAGACGTGCCCGGCCTGGCCGGACTGCGGGCAACGTGGGCCGCCGAGCAGGACCCGGGTTCCGCGGAGGATCCGGATTTCGAGGCCGCCTTCCGTGATTGGGCGGACGCCAACCCGCGCAAGGTGTTTGTGGCCGAGCAGGATGGCGAGCTGATCGGCATGCTGAACCTGATGATCTTCCAGCGGATGCCCAAGCCGAGGAAGGAAGCCTCGTGCTGGGTCTACCTGGGCAACGTCTACGTCCTGCCGCAGCACCGGAACGCCGGCATCGGACGCCGCCTGGTGGAAGCGTCCGTCGACTTTGCACAAAGCATCGGAGCGGCACGGATGGTCCTGTCACCTTCCGCCGACTCCCGCAGCTTTTACTCGCGTTTGGGCTTCCAGCCGGCCGAAGAACTGGACATTCGAAAGTTCTGA	MPIVREGLPEDVPGLAGLRATWAAEQDPGSAEDPDFEAAFRDWADANPRKVFVAEQDGELIGMLNLMIFQRMPKPRKEASCWVYLGNVYVLPQHRNAGIGRRLVEASVDFAQSIGAARMVLSPSADSRSFYSRLGFQPAEELDIRKF				NA	NA	NA	NA	NA
D1-29_01040	330			hypothetical protein	ATGGCAGCCGACAACGACGAACTGCGCATCCTGGACGAGTGGAGCCAGAGGCTGGCCCAGGCGCTGCAGATCCTGGACCTTGAAGTGGACCAGGATCTGCTCCTGGAACTCGCCCGGAAATCCGCAGCCTCCGTGATTCACGCGGCCGCTCCGGTGACCACGTTTATGGTTGGCTACGCGGCCGGCCTCGAGGCAGGAACGGGCAGTGCCGGGTCCACAGCCTCTTCCGCTGCTGCAGTCTCCAAGGCAGCCGACGTCGCGTTCCAGCTTTGCGGGGACGGGGCCGACGGCGGTCCGGCCAGCAAGGGCTGGGCGGACACCGCGCAGTAA	MAADNDELRILDEWSQRLAQALQILDLEVDQDLLLELARKSAASVIHAAAPVTTFMVGYAAGLEAGTGSAGSTASSAAAVSKAADVAFQLCGDGADGGPASKGWADTAQ				NA	NA	NA	NA	NA
D1-29_01041	351			hypothetical protein	ATGAGTGATATCACTATCCGCCACAACCCGGACCGGGAGCGCTTTGAAGTGCTGGACTCCGGCAATGTGATTGGCAAGGCCGCGTACAAAGAGTACGACGGCGGCGCCTCACCCCAGCGGATCTTCTATCACACCGTGATCAACGAGGAATACGGTGGCCAGGGCCTGGCAGGCAAGCTCGCCACCGTGGCCCTGGATGAAACCGTCGAGGCAGGCATCGCCATTGTCCCCGTGTGCCCGTTCATCAAGAAGTTCCTCACCAAGCATCCTGAGTACTCCGCCAGCACCGTTGCCACCACGCCGGCGCACCTTGAGTTCCTGAACGATCCTTCTCCGCGCGCGCGGGCATAA	MSDITIRHNPDRERFEVLDSGNVIGKAAYKEYDGGASPQRIFYHTVINEEYGGQGLAGKLATVALDETVEAGIAIVPVCPFIKKFLTKHPEYSASTVATTPAHLEFLNDPSPRARA				NA	NA	NA	NA	NA
D1-29_01042	399			hypothetical protein	ATGAAACGCCGTCCCGATCCGGAGAACGTTCGTCAGATAATTGCGGTCTTGCTCGCAGCAGCCACGTCCGTGGCCCTCTTGCTGGTCCCTATAGTCACGCATGCAAAATTGACGACTGGCGGGGTTGAACACATTAGATACTTGACCCTGCTGGAGAGAGAAGGGCCCTCAGTTTTCGTGCCATTGCTCATTCCGGTGATCCTGACAGCGGTACCTCTCCTGCTAAGGCCGCGCGCACGGTTGTACGTGTCCCTCGCGACCACTGTTGCTCTTACTGTGTTCATATTCATCGGCTCCGCAAGCATCGGTTACTTCTACCTGCCAGCACTGACCGCTGCCATAGCCGCCCTTGTTGCCCATCCCAGCAGCCGCGGAAGGTTCCAGGCTCACCATTCGTAA	MKRRPDPENVRQIIAVLLAAATSVALLLVPIVTHAKLTTGGVEHIRYLTLLEREGPSVFVPLLIPVILTAVPLLLRPRARLYVSLATTVALTVFIFIGSASIGYFYLPALTAAIAALVAHPSSRGRFQAHHS				NA	NA	NA	NA	NA
D1-29_01043	1077			hypothetical protein	ATGGTGTGGTTAGTCGGTACGTCTGGGGTGGGCAAGTCAACCATCGGCTGGCATCTTCAGCAGGCGCTGGAGCATAAGAACGTTCCTGCGGCCTTCGTGGATGCCGACCAACTGAGGAACGCCGCAGGAGTCGAGTCGAGTGAGGACGATTTCATCGCCGATGGGCTTGCGGTGGTTGGGCCGATCTTCCAACGCGCTGGAGCGACCGTCTTAATCGTGGCAGGCATGGTCGACGACGCAGATCACCTCGCGCGCTTGCTGCCAGTCGGCGGGCGTCCGCATGTTCTCGTTGTTCATCTGCGCGCCTCCGACGAGACGATTGTGGACCGCGTCGAGCGGCGTAGGTGGAACGTGGAGCTCGCAGCCGATTCTGTCGACTATGCCCACCGCTTCGACGCGAGCTGGGTGGACGTATCGGTCGACACAACCGATACGTCGCCTTCCGAGGTCATCGAGAGCTTGCTCGAACACGTGGAGCGTCTGGCCCGCCGAGAGCGCCTCGACACGCCGCCGGCTGTCCCATCCGTTATCGATGCCGAGCCCGCGGTGACTCTTATAACGGGCGCTGGAGGTATCGGGCTGTCGACAACGGGTTTCCTCGCCTTCCTGCAGCGCATGTGGTCCGGCGAACGGATCGGGTACATCGACAGCCACCAACTCGGCTTCGTGGGGGCGGACCCCCACGCGCCAGAGGCCGCGCCGCTACGCGCTGCCAACTCGGCTGCCCTCGCGGCTGTGATGGCCCGTCGCGGGATCGGGCACGTAATAATAACCGCGGATCCACAGACGGCGCGTGCGGTCACCGCTATCGCGCAGCCTGCGCACCTATACTGGCTCGATGCATCAGACGAAGTGATCGAATCCCGTCATCGCGTCCGGGCGGAGGGAGGGGGACCCCCTCTCGCCGGCGATCACCGCCTGGGACTCGACGACCTGAGCATCCGAGCGGCGGTGGCTGCGGCAATCATTGAGGCCCGCGATGAAGCACTCCGGCCCAACGGTGCCACAATCATCAATACCGACGGACTCTCGGCGGAAGAAGTCGCTCAGCAGATCAATTCGGCGGAGTTTGTGTAG	MVWLVGTSGVGKSTIGWHLQQALEHKNVPAAFVDADQLRNAAGVESSEDDFIADGLAVVGPIFQRAGATVLIVAGMVDDADHLARLLPVGGRPHVLVVHLRASDETIVDRVERRRWNVELAADSVDYAHRFDASWVDVSVDTTDTSPSEVIESLLEHVERLARRERLDTPPAVPSVIDAEPAVTLITGAGGIGLSTTGFLAFLQRMWSGERIGYIDSHQLGFVGADPHAPEAAPLRAANSAALAAVMARRGIGHVIITADPQTARAVTAIAQPAHLYWLDASDEVIESRHRVRAEGGGPPLAGDHRLGLDDLSIRAAVAAAIIEARDEALRPNGATIINTDGLSAEEVAQQINSAEFV				NA	NA	NA	NA	NA
D1-29_01044	603			hypothetical protein	GTGACCGCAAAGAAGGACTCACATCACGTCCACGATGAACCTCGCGAAGGCGATTGGCGGGCAGCGCGAGCATTGCTGCTCAACGGCTCGTCCGGCGTCGGCAAGTCCAGTGCGCTTCAGGCACTCGGTGCCGCACTGGGAGAGCGAAGTGTCTCCCACGCTCTCGTCGATCTCGACGAGCTCGCGCTCTTCTGGCCGCGCCCGAGAGATGATCCCTGGGGCGGCCGTGCAGCTCGGGCGAACCTCGCCGCGGTCAGCAGCACATACTGGGCGGCGGGTGTTAAGCACATCGCCGTGGCGCACGTGTTCACTGACCGTGAGCACTTGGACGGATGTCGCGCCGCGCTATCGCAAGGTGTGGGTGCCCTGGATGCCGAAGCAGCACCGCTTGTGCGCTTACGTGCGTCCCGCACCACGGTTGAGGAACGGCTCCGTCGACGCCATGCGGTCGCAACGCCTTGGGAGCTCGAGAGGTTTCTTGCCGGCTATGAGAGTCTCACGCAAGCGCTCGATGAAGCGGCACTGGATGACGTCGTTGTCAACGTCGACGACCTGACACCCAGGGACGTCGCCGAGCGCATCGCTGATGTCGCCGGCTGGTGA	MTAKKDSHHVHDEPREGDWRAARALLLNGSSGVGKSSALQALGAALGERSVSHALVDLDELALFWPRPRDDPWGGRAARANLAAVSSTYWAAGVKHIAVAHVFTDREHLDGCRAALSQGVGALDAEAAPLVRLRASRTTVEERLRRRHAVATPWELERFLAGYESLTQALDEAALDDVVVNVDDLTPRDVAERIADVAGW				NA	NA	NA	NA	NA
D1-29_01045	1380	mdtD_2		Putative multidrug resistance protein MdtD	GTGCACCAGACTGTTTCCGTGAGCAACAAACCCCGGACCGGTCTGGCGGTGGCAGGCCTCAGCCTGGGCACAGCGCTGAACCCGCTGAACTCGTCCATGATTGCCGTGGCGCTGGTGGTGCTGCGCGCCGATTTCGGCCTCGACGTCGCCACCGTCACCTGGGTGATCACGTCCTTCTACCTCAGCTCGGCAGCAGGGCAGCCGCTGATGGGCAGGCTGGCGGACAGGTTCGGGCCGCGCCGGATGTTCATGTTTGGCATGGCCCTGGTGGCGGTGACCTGTGCGGTTGCCCCCTTCTCACCCAACTTCGCCCTGTTGTGCGTGGCCCGCGCGGTGATGGCCCTCGGCACAGCCGCGGCCTACCCCAGCGCAATGGCGATGGTCGGTGCCATCGCCCAGCGGGCCAAGGTTGAGTCAGCCCGGCCACTGGGCCGGATCCAGATGGCCAACACGTCCGCGGCCGCCGTGGGCCCGGTGATCGGTGGGCTCCTGGTGGGCTTTGTGGGATGGGAAGCGTTGTTCATCATCAACGTCCCGCTGGCGCTCGCCGGCCTCCTGATCGTCCGGCAGGTGGCACCCGCAGATGGCGAGCGTGAACGCGGAAGCGTTGCCGAACTGGTGCGCGATTCGGACATCCCGGGCATCCTGGGCTTTGTTACGTCGCTGCTGCTGGCGATGATGGCCCTGCTGGATGCGGTGCCCGGCTACCGCTGGTGGATGCTGGGCGCCGGGACGGTGATTGCTGCACTGTTTGTCTGGCGCGAGTTCAGGTTCAGCACGCCCTTCCTGGACCTGCGGCTCCTTGGCCGGAACCGGCCCCTGGTGCTGGTGTACCTTGGCTTCGCAGTGTTCAACGGCGTCTACTACTTCGTGTTCTTCGGCCTTCCCCAGCTCCTGCAGGAAGCAGGCGGGTACGATCCCGGCCTGGTGGGACTGCTGATGCTGCCGCTGGCCACCATGTCCATCCTTTCCACGCCCTGGGCAGTGTGGGCCATGACAAAGTTCAGCGTGCGGCGGGTGCTGATTACCGGCGTCGTTCTTCTGATGGCAGTGGCTGCCCTGATGGGGCTTTTCACCGGCTCACTGGCCATCCCACTGGTGGCGGCGCTGACAGCGCTGATGGGTGTTCCGTACGCCATGGTCAGTATTGCCTTTAACCAGGGCATGTTTGTCTCCACCCGCCCCCAGGAGCGGGGCATTGCCGCAGGGATATTCCAGACCTGCCGCTACGTCGGGGCCATCGCCGCCACGGTGTTGATTGGCGTCTTCGCGGCCGGCGGCGTGGACGCTGCAAGCTGGGGCCAGATGGTGCTTGCCATGCTGGTGCTCTGCGTGCCGGTGTTCGTGGTGACGCTGCTGTGGCGGGAGCGGACCGGCTAG	MHQTVSVSNKPRTGLAVAGLSLGTALNPLNSSMIAVALVVLRADFGLDVATVTWVITSFYLSSAAGQPLMGRLADRFGPRRMFMFGMALVAVTCAVAPFSPNFALLCVARAVMALGTAAAYPSAMAMVGAIAQRAKVESARPLGRIQMANTSAAAVGPVIGGLLVGFVGWEALFIINVPLALAGLLIVRQVAPADGERERGSVAELVRDSDIPGILGFVTSLLLAMMALLDAVPGYRWWMLGAGTVIAALFVWREFRFSTPFLDLRLLGRNRPLVLVYLGFAVFNGVYYFVFFGLPQLLQEAGGYDPGLVGLLMLPLATMSILSTPWAVWAMTKFSVRRVLITGVVLLMAVAALMGLFTGSLAIPLVAALTALMGVPYAMVSIAFNQGMFVSTRPQERGIAAGIFQTCRYVGAIAATVLIGVFAAGGVDAASWGQMVLAMLVLCVPVFVVTLLWRERTG				NA	NA	NA	NA	NA
D1-29_01046	7695			hypothetical protein	ATGACACCGAGCGGTACCTGGCTACGGATGGCGTCAACCATCGCGGCCTTCTGCATCGCCTCCACACTGGTGATCGCGCCCGCGCAACCGGCGCTCGCTGTCACCCCCGAGGACGAAGCGGCCGTGCAGGCAGCCGCCGGCTCCCTCGCGGTCACCAACATCGGCGACGTCCGGGGAAACCTGACCTTGCCCACCTCCGGCCCGCAGGCGACAACCATCGCCTGGGCTTCCGAGGACACTGCGGTGGTGGACCCAAGCGGCATCGTTCACCGCCCCGCCACTGGCCAGCCGACTGACCAGGTCACGCTGACGGCGCTGATCACCAAGAACGACGCCGTGACCACCAAGGCGTTCACCGCCGTCGTCCCAGCCCTCCCGGAGACGCCGAAGTTCGAGGCGTACATGTTCCCCTACTTCACCGGCGACTCCATCGCGGGGGAGAAGATCTATTTCGGTGCCAGCAACGGCAATGACGCACGCAACTGGCTGACCCTCAACGGCGGCCAGCCCGTGAAGGCTTCCACGATGGGCACCAAGGGCCTGCGCGATCCGTTCATCGTCCGCTCGCCGGAGGGTGACAAGTTCTACATGATCGCCACAGACCTCTCGATCGGCAGCGGCACCACCTGGGATGCCTCGCAGCGCCAGGGCAGCCAGTACATGGAAATCTGGGAGTCCACCGACCTGGTCAACTGGTCCGAGCAGCGCCACGTGAAGGTGTCCCCGGACAACGCCGGCAACACCTGGGCTCCCGAGGCCTACTACGACCCCTCGCTGGGCGAATATGTGGTGTTCTGGGCGTCCAAGCTCTACAACACCGCGGACCACAGCGAGGGCCAGCCCAACCAGATGCTGTACGCCACCACGCGTGACTTCGTCACGTTCAGCCCAGCCAAGGTGTGGCAGAACACCGGTAAGTCCAGGATCGACAGCACGGTGATCGCCGAGAACGGCGTTTACCACCGGTTCACGAAGGACGAAGCCCAGTCCACCGGCTGCCTGGACATCATGCAGGAACACTCCACCAGCCTGACCGCCGTCACCACCGTTACGTCGGCCACCTCCGACACCTGGAAGCTTGACGCAACCTGCATCGGCAAGGGCGCCGGAACCGCTGCCGTCGAAGGCCCCACCGTGTTCAAGGCCAACGACGGCGACGTCAATGGCCCCGGCTACTACCTCTTTGTTGACGAGTTCGGCGGCCGCAAGTACATTCCGCTGTTCTCCAAGACCCTGCAGAACGCCAGCTGGTCCGTTCCCACCGGCTACTCGCTGCCGTCCCCGGCCCCGCGCCACGGCACCATCATGCCCATCACCGCGACAGAGCAGCGCGCCCTGATGGGTGCCTACCTGCCCGCCGCTACCAGCGTCGCACCCGTCAAAATCTCCACCGTGGTGGGCGCTCCTGCCGCGCTGCCCCGGACAGCAACGGTGACCTTCGCCGACAACAGCACCAGGGACCTCGCGGTGGCCTGGAACGCTGCGGCCCCCGCGGACTACTACACCCGCGAAGGCACCATCACGGTGACCGGTTCCGTCACCGGAACCGACCTGACGGCCACCGCCACGGTTTCGGTCATCCCGGCCGGCAGCGACACCCTGCTGCACTACGACTTCTCCAAGGTCACCGGCACGGTGGTGCCCGACTCCTCGCCCTGGGGCCGCGACGGCGCCATCAAGGGCACCGGCGCAACGGTCAACGGCAACGTCCTCACCCTGCCGGGCGGCGCAGCCGGCAGCAGCGCCGGCTATGTCCAGCTGCCCATCGGAACCTTCGACGGCCAGAACACGCTGACTGTTTCGGCTTGGCTCAAGAACGAGACTGGCTCAGGGAACTACGCCGCCATGTTCTTCGGCGGACCCAACAACCCGCCCAGCCAGTACTGGCTGCTGAACCCGCGCAACTCCCAGGGCAGGTTCAAATCCGTGATCACCAACGGGAACAGCACCTCCGCGCCGTGGGGAACGGAGGCCGGCATCTCTCCGACCAACTCAGCCCAGGGCATTGCAGGTCCTGTGACTGACAATTCCTGGGGCCTCTACACCACCGTGATCGAGCCGAACCAGATCACCGGCTACTATAACGGCACCAAAATAGGCACCGTCGCCACCACCCGGAAGGTGAGTGACTTTGGCACCAGCCTGGTCTCCTACATCGGCCGGTCCTCCTATCCCGACCCGTTCTACAAGGGCGGCGTCAAGGACGTACTCGTCCACAGCACTGCCAAAACAGCAGACCAGATCAAGGACTATTACTTCAAAACGGTGGACCCCGCCGTCGTCGACGCCGCCCTCCAGGCCGACGCCAACGCCATCAACCTCGGACCCACCCAGGTGACGGGCAACCTCACCCTTCCCACCAGCGGCGCCAAGGGATCCGCCATCAGCTGGGCATCGTCAAACCCGGCAGTGATCTCCACCACGGGCGAGGTCAACCGTCCCAGCGGCGCCGACGTTCCAGTGACCCTCACGGCAACCCTGACCCTAGGCAACAGCACCATCACCCGGCAGTACCAGCTGACAGTGGTTGCCCAGAACGCGCAGGCGGTTGCCCCGGCAGCGCCGGCCGCCCCGTCGCTGACAGCCGACGGCGCCTCGCTGACCGCCTCCTGGGTCACTCCGGGCGACGGCGGCTCTGCCATCACCGGTTACACCGTGACCCTTTACACCTCTGCCGGCGCCGTCCACCGGACCGCCCAGGTGGACGGCTCCGCAACGTCCCACCGCTTCGCGGACCTGCCGGCCGGCAGCTACCAGGCTGCGGTGGTGGCCACCAACGCCGTGGGTGACTCCGCGGCGTCACCGAAGTCGTCAATGGCCGTGGTGGGGACGCAACTGCTGGCGCGGTATGACTTCTCCTCGGTGGTGGGCACCTCGGTGGCTGACGCATCGGGCAACGGCAAAACCGCCACCATCGTTGGCAGCGGGGCTACGATTTCCGGCAAGGAGCTGACGCTGCCTGGCGGTGCTGCCGGCAGCGCGGCTGCGCACGTGAAGCTGCCCACCGGAATGTTTGACGGCCAGAACACGCTGAGCATCTCCGCATGGCTGAAAAACGAGACAGGCTCGGGAAACTACGCCGCCATGTTCTTCGGCTCCGCCGCTTCGCCGCCGGGCCAGTACTGGCTGCTCAACCCCCGCAATCAGCAGGGCCTGTTCAAGTCAGTAATCACTGACGGCAACGAACCCTCAGCGCCGTGGGGGACCGAGGCCGGCATCTCGCCAACCACCGCATCCAAGGGCATCCCCGGCCCGGCCACAGGTTCCGAGTGGGGCCTGTACACCACTGTGATCAAGCCCGGTTCCATCACGGGGTACTTCAACGGCACCAAGATCGGGACAGTACCCACCACCCGGACTGTCACCGACTTCGGCACCAACCTGGTGGCCTATATCGGACGGTCCACCTACCCCGACAACTTCTACAAGGGCGGCGTGCGGGATGTGTCGGTGTTCAGCACTGCACTCTCGGACGCCGACGTGGCGAACGCCTACTACACCGGCGCAGGGGATCCGGCGGTGGCCAAGGCCGCGCTGGACGCGGACGCCGCAGCGCTGAACCTGGGCCCGGCCACCATCAACGCGGACCTCAACCTGCCGGCGGCCGGAGCGAAGGGCTCCAGGATCACGTGGACCAGTTCGGATCCGGCGCACCTGGACGGAACCGGCAAGGTCACTCGTCCGGCCACCGACGACGTGACGGTTACCCTGACCGCCACGCTCGAACTGGCCGGCCAGACAACCACCCGCTCCTTCACCTTCACCGTCCTGGCCAACACCCCGCAGAAGGACCTGTTGCTGGTGGCGGACACCTTCAACCCGGCCTTCCCGGTGGTCACGGAGGACGTGGCCCTGGCTGCCGCCGTCGGAACCGCCACCGTCTCCTGGCAGTCCTCGGACCCTGCCGTGCTCTCCACCACTGGCAAGGTCACCAGGCCCGCCGCCGAAACGTCGCTCACGCTGACGGCGACCTTCGCCGCCGACGGGCTGACGGAGGTCCGCACGTATCCGGTGAAGGTCTTGGCCGCGGACGCGGGGCGGATTGGATCCTACATCCAGTCAGGCAATACCGACCGCACCGATGCCTTGCACCTCGCGTCCTCGCCGGATACGGCCTCGCAAGACGCAGGCTCGCAAAATGCCGGGAACTACGCGGGCCTGAACAACGGCCGCCCCATCCTCTACCCCACCATTGGTGCGGTCAAGTTTGGATCGCCCGTGGTGTTCCGGAAGGCGGACGGCTCCTTCGGTCTGGTGGCCACCGTGGACAGCAACTCGTCCTCGATCTACGTCTACGACTCCGCTGACCTGGTGACCTTCACGGGGGAACGGCTGGTGGCGTTCAACTCCAGGAACCTGTCGGCGGCGTCGGTGACGGTGAGGTACGACAACAGCATCGCTGCCTACCGCCTGACCTTTGTGTCCAAGACGGACGGCAGAACCTACCAGGTCAGTACCAAGGACTTCGCAGCCTTTACTGATCCGGTCGAGGTGCCGGCTGTCCCCCTGGTTGCCCAGGGGACGTTCCCCGCAGGTGCCCTGGAGCCATCATCCGTCGGCGTCACCAAGGCCGAGTACGGCAGGGTCGTTGCCAAGTACAGCCGTCCCTTCAGCACCGGTGTTGCCCCGTTCAGTGATGTCACGCCCGACGCCGACGGGCAGCTCACGCTGCCCACGACGTCGGAAGTGCAGTACAACAATGGGTCCACCACCACAATGGGTGTCCAGTGGAACCCGGCCGATAAGGCCGCCGTCGAATCCGCCGTTGAATCCGGAAAGGCGGGGACCTACACCGTCAACGGAACGGTGCAGCGGCCCACCTACCCGGAGAAGCTGGTTGCCCAGCGGGCCGATCCCGACGTGATCAAGGGCGATGACGGGTACTACTACTTCACCGCTTCCTACCCGATGGTGGGCAGCGGAGACCTGGAGGGCTACGACCGCGTAACCCTGCGGCGTGCGACGACGATCGAAGGCCTGGGTACTGCACCCGAGGTCACCATCTGGGACGAGGACACCTCGGCGCTCAACCGGTATGTCTGGGCGCCCGAGCTGCACAAGGTGGGCGACAGCTGGTACGTGTTCTTTACCGCCAGCGTTGACGGCAGCGTGTGGAGCATCCGCCCGGTGGTGCTGAAGCTGGACGGCACGGACCTGATGGACCGGACCAAATGGCGTGAACTGGGCCGGATGAAGCCCGCCACCGGCGACACGGAGGCCTTCCGCGGCTTCTCGCTGGACATGACGTACTTCGAGAACGCCGGCAAGCACTACGTTGTCTGGGCCGAAAAGCCCGGCGCCTCCACGCTGCGGATGGCGACCATCGACCCCGCCGACCCCTCCCAGCTGACCAGCAAATCCATCCTGCTCTCCACACCCACCATGGCGTGGGAGAAGAACGCCGGACAGTCCGTGGACGAGGGCCCGGCCGTCATCAAGAAGGACGGGAAGGTGTTCATCACGTTCTCGGCGGCCACCGTGGACGCGGCCTACTGCGTCGGGCTGCTGTCCGCCGCCGAGGGCGCCGACCTGATGAACCCGTCAGTTTGGACCAAGAACCCGTACCCGATCCTGCAGACAGCCGACGTTCCCGGCCAGGCAGGCCCGGGCCACAACTCCTTCACCGTGGACGAGTACGGCAACCCGGTGATCGTGTTCCATTCGCGGACCATCGGGGAAGTTTCCGGGCCTGGCGACCAGGGCGACGGCGGACTGTTCGATCCGGGCCGGCATGCGCGGGCGGCAACTGTTCACTTCGCGGCTGACGGCCAGCCGATCCTGAACATGACTCCGGCCGAAGAGCTCGCGGACCAGTTCAAGAATGTGCAGGTAAAGGTGGTTGTGCCGGATTCCGCGGCGCCCGTGCTGACCGCAGGACTGAACCCTGCTGATCCCACCGGCAGCAACGGCTGGTACACCGGGGACGTAACCCTGGTGGCTTCCGCCACCGACGATTCGGCCGTGACCATTGAGTACAGGGTCGACGGCGGTGCCTGGCTGCCGTACTCGGCCGCCGTGGGCTTCGGCGAAGGCACGTCCACTGTCGAGGTCCGGGCCACAGACGCGGCCGGATATCAGTCGGCGGTTACCACCCTGGACGTCCGGCGTGACGGAACGGCGCCGCAGGTTTCGGCGTCGTTCGACGATCAGGGCGGCAGCTCGCTTGGCCCCGTGGTGGTAACGCTGTCCGGCAGCGACGCCGCCGGAGGTTCAGGGCTGGCTGCCATGGAATACTCGCTCGACGGCGGTCCCTGGACCACGTACACAGCGCCATTCCCGGTTTCCGGGGCGGGCAGCCACGCCGTGGCCTACCGGGCCTCTGACAGTGCCGGCAACACCTCGGCGGAGAAGATAGCAACGGTCACCATCGCAGCCCCCGACACCACTGCGCCGGTGCTCACCGTGACCGTCTCTCCTGACGCTCCGGACGGCTCCAACGGGTGGTGGAAGTCAACGGTGGGCGTGACGGCCACTGCAACAGATGACAGCGGCACAGCGCCCCTGATCGAGGCCAGCCGCGACGGTGGCCTCGCGTGGGACGTGTTTGCTCCCGTGCAGCTGAACGATTCAAGCCCGGCACTGAAGATCCGCGCTGTGGATGCGGCCGGCAATACGTCCGCAATCGTGGACCGGGAGATCAGGATCGATACCGTGGTTCCGTCGTCGTCAGCGGTGGTGGACAGCCCGGCCCGCACTGTCAGCATCACCGGTGCAGACGCGGATCCAGGTTCCGGCGTGGCCAGCCTCGAGTACCGGGTCAACAACGCTGAGCTGTGGACGTCGTCGGCCGGTGCAAGCACAACGGTGACGGTGGGTGACGGTGCCGCCACGGTGGAGTACCGCGCGGTGGACACTGCGGGCAATGTGAGCCCTGCCCAGTCCGCACTGGTGCCGGCGAAGGCAGCGCCCAAGGCGGCAGTGACCCTGACCTCCAGTGGCCAGCCTTCCGCCGAGGGGTGGTATGCCAAGGACGTCACCGTGGCAATCACCGCGCCTGCCGGCACGGCAGCCGAGTACCGCCTTGATGGCGGTGCCTGGAATGCGGCGGCCCAGCCATTCACCATTTCAGCGAGCGGACCGCATACCCTTGACCACCGGCTGTTGACGGGCAGCGTGGTGATAGACGGCTCGGCCGGCAGCGTGGCGGTGAAGATTGACAAGATGCTTCCGACGACGGCGGCTGTCACCTCGCCGGAATCAGGCACCGGCACTCCGCGGAACCCGGTGACGGTGATGTTCTCGGCCCAGGATTCGCTGTCAGGGGTCGCCAGGATCGAATACCGGCTCAACCTCGGGGCATGGACCACCATAGCTGCGGGCTCGCCGCTGACCATCGTCACGCGCGGCGACTACGTGGTCAGCTACCGGTCCTTCGACGAGGCCGGCAACGCTGACAGGATCCGTAGCACCAGCGTCAAGATCACGGCGGATGTGGCCCCGTCGCTGAAGGCCAGCGCCGGCACGGTCAAGCCCGGCGGCTCGCTGACGTTCACGGTGGCCGGCTTCGACCGATGGGACCAGGTTGTCCTTTCGGCCGGGGCCGCCACCCTTGGCACAGTGTTTACCGACGTGAAGGGAACCGGAAAAGTCACCCTCCAGATCCCCGCGACCACACCGTTGGGACCGTTGACCATCAAGGCAACCGGCAGCGACGGGGAGCCGGTGGCAACGGTCAGCGTCACCGTTAAGAGGTGA	MTPSGTWLRMASTIAAFCIASTLVIAPAQPALAVTPEDEAAVQAAAGSLAVTNIGDVRGNLTLPTSGPQATTIAWASEDTAVVDPSGIVHRPATGQPTDQVTLTALITKNDAVTTKAFTAVVPALPETPKFEAYMFPYFTGDSIAGEKIYFGASNGNDARNWLTLNGGQPVKASTMGTKGLRDPFIVRSPEGDKFYMIATDLSIGSGTTWDASQRQGSQYMEIWESTDLVNWSEQRHVKVSPDNAGNTWAPEAYYDPSLGEYVVFWASKLYNTADHSEGQPNQMLYATTRDFVTFSPAKVWQNTGKSRIDSTVIAENGVYHRFTKDEAQSTGCLDIMQEHSTSLTAVTTVTSATSDTWKLDATCIGKGAGTAAVEGPTVFKANDGDVNGPGYYLFVDEFGGRKYIPLFSKTLQNASWSVPTGYSLPSPAPRHGTIMPITATEQRALMGAYLPAATSVAPVKISTVVGAPAALPRTATVTFADNSTRDLAVAWNAAAPADYYTREGTITVTGSVTGTDLTATATVSVIPAGSDTLLHYDFSKVTGTVVPDSSPWGRDGAIKGTGATVNGNVLTLPGGAAGSSAGYVQLPIGTFDGQNTLTVSAWLKNETGSGNYAAMFFGGPNNPPSQYWLLNPRNSQGRFKSVITNGNSTSAPWGTEAGISPTNSAQGIAGPVTDNSWGLYTTVIEPNQITGYYNGTKIGTVATTRKVSDFGTSLVSYIGRSSYPDPFYKGGVKDVLVHSTAKTADQIKDYYFKTVDPAVVDAALQADANAINLGPTQVTGNLTLPTSGAKGSAISWASSNPAVISTTGEVNRPSGADVPVTLTATLTLGNSTITRQYQLTVVAQNAQAVAPAAPAAPSLTADGASLTASWVTPGDGGSAITGYTVTLYTSAGAVHRTAQVDGSATSHRFADLPAGSYQAAVVATNAVGDSAASPKSSMAVVGTQLLARYDFSSVVGTSVADASGNGKTATIVGSGATISGKELTLPGGAAGSAAAHVKLPTGMFDGQNTLSISAWLKNETGSGNYAAMFFGSAASPPGQYWLLNPRNQQGLFKSVITDGNEPSAPWGTEAGISPTTASKGIPGPATGSEWGLYTTVIKPGSITGYFNGTKIGTVPTTRTVTDFGTNLVAYIGRSTYPDNFYKGGVRDVSVFSTALSDADVANAYYTGAGDPAVAKAALDADAAALNLGPATINADLNLPAAGAKGSRITWTSSDPAHLDGTGKVTRPATDDVTVTLTATLELAGQTTTRSFTFTVLANTPQKDLLLVADTFNPAFPVVTEDVALAAAVGTATVSWQSSDPAVLSTTGKVTRPAAETSLTLTATFAADGLTEVRTYPVKVLAADAGRIGSYIQSGNTDRTDALHLASSPDTASQDAGSQNAGNYAGLNNGRPILYPTIGAVKFGSPVVFRKADGSFGLVATVDSNSSSIYVYDSADLVTFTGERLVAFNSRNLSAASVTVRYDNSIAAYRLTFVSKTDGRTYQVSTKDFAAFTDPVEVPAVPLVAQGTFPAGALEPSSVGVTKAEYGRVVAKYSRPFSTGVAPFSDVTPDADGQLTLPTTSEVQYNNGSTTTMGVQWNPADKAAVESAVESGKAGTYTVNGTVQRPTYPEKLVAQRADPDVIKGDDGYYYFTASYPMVGSGDLEGYDRVTLRRATTIEGLGTAPEVTIWDEDTSALNRYVWAPELHKVGDSWYVFFTASVDGSVWSIRPVVLKLDGTDLMDRTKWRELGRMKPATGDTEAFRGFSLDMTYFENAGKHYVVWAEKPGASTLRMATIDPADPSQLTSKSILLSTPTMAWEKNAGQSVDEGPAVIKKDGKVFITFSAATVDAAYCVGLLSAAEGADLMNPSVWTKNPYPILQTADVPGQAGPGHNSFTVDEYGNPVIVFHSRTIGEVSGPGDQGDGGLFDPGRHARAATVHFAADGQPILNMTPAEELADQFKNVQVKVVVPDSAAPVLTAGLNPADPTGSNGWYTGDVTLVASATDDSAVTIEYRVDGGAWLPYSAAVGFGEGTSTVEVRATDAAGYQSAVTTLDVRRDGTAPQVSASFDDQGGSSLGPVVVTLSGSDAAGGSGLAAMEYSLDGGPWTTYTAPFPVSGAGSHAVAYRASDSAGNTSAEKIATVTIAAPDTTAPVLTVTVSPDAPDGSNGWWKSTVGVTATATDDSGTAPLIEASRDGGLAWDVFAPVQLNDSSPALKIRAVDAAGNTSAIVDREIRIDTVVPSSSAVVDSPARTVSITGADADPGSGVASLEYRVNNAELWTSSAGASTTVTVGDGAATVEYRAVDTAGNVSPAQSALVPAKAAPKAAVTLTSSGQPSAEGWYAKDVTVAITAPAGTAAEYRLDGGAWNAAAQPFTISASGPHTLDHRLLTGSVVIDGSAGSVAVKIDKMLPTTAAVTSPESGTGTPRNPVTVMFSAQDSLSGVARIEYRLNLGAWTTIAAGSPLTIVTRGDYVVSYRSFDEAGNADRIRSTSVKITADVAPSLKASAGTVKPGGSLTFTVAGFDRWDQVVLSAGAATLGTVFTDVKGTGKVTLQIPATTPLGPLTIKATGSDGEPVATVSVTVKR				NA	NA	NA	NA	NA
D1-29_01047	1155			hypothetical protein	ATGGAGAACAACAGCGAAATCCGGCCCTTCACCATCGACATTCCCCAAGCTGATCTGGACGACCTTCGGGACCGACTCGCGAGAACCCGGTGGGCCTCTGACCTGCCCGACGTCGGCTGGAGCCGCGGGGTTCCGGTGAGCTACCTCAAGGGGCTGGCCGAGTACTGGCGCGATGGCTACGACTGGCGCGTCTACGAGCGGGAGATGAACAAGTACCCACAGTTCACCACCGAGATCGACGGACAGAACATCCACTTCCTGCACGTACGCTCCCCCGAGCAGGAGGCGCTGCCCATGATCCTGACCCACGGCTGGCCGGGTTCAATCGTGGAGTTCCTCAACGTCATCGGGCCGTTGACCGATCCTGCGGCGCACGGCGGGAACCCGGCGGACGCGTTCCATCTGGTGATCCCGTCGATCCCCGGCAGCGGCTTCTCCGGGCCTACGGTCGACGCCGGCTGGGACACCAACCGGGTGACCAGGGCGTTCGCTGAGCTGATGAAACGGCTGGGCTATGACCGCTACGGCGCGCAGGGCGGCGACACCGGCGCGGTCATCTCCCCGGGGCTCGGCCGGCTCAACCCCGACAAGGTGGTCGGTGTGCATGCGAACGGGCTCTCCGGGTTCACGGAGGTTAACCCCGACGAGGTGGGGGAACTGAGCGAGGCCGAGCGGGCACGGCTGGACCACCTCCAGTACCTCAGCACAGAGCAGTCCGGCTATGCAATGATCCAGATCACCCGGCCCCAGACCCTGGCGCATGGGCTGCACGACTCCCCGGTGGGGCAGTTGGCCTGGATCGTGGAGAAGTTCAAGGAGTGGACCGATCCGGCGGCCGAACTGCCCGAGGACGCGGTCGACCGGGATCTTTTGCTCACGAACGTGATGCTGTACTGGCTGACCGGCACAGCCGGGTCCTCGGCCAACAGCTACTATGAGACCGCCCATTCCGGCGCCTGGGGAGCGAGTGAGCGTTCGGCGGTGCCGACCGGGGTTGCGGTGTTCCCCATGGATGTGTCGATCCGGCGCACTGTCGAGCTCGAACACACGGTGGTGCACTGGTCCGAATTCGACCGCGGTGGCCACTTTGCCGCCATGGAGGCGCCCGACCTGTTCGTGGGTGACGTCCGGGAGTTTTTCAGCAAACTGCGCTGA	MENNSEIRPFTIDIPQADLDDLRDRLARTRWASDLPDVGWSRGVPVSYLKGLAEYWRDGYDWRVYEREMNKYPQFTTEIDGQNIHFLHVRSPEQEALPMILTHGWPGSIVEFLNVIGPLTDPAAHGGNPADAFHLVIPSIPGSGFSGPTVDAGWDTNRVTRAFAELMKRLGYDRYGAQGGDTGAVISPGLGRLNPDKVVGVHANGLSGFTEVNPDEVGELSEAERARLDHLQYLSTEQSGYAMIQITRPQTLAHGLHDSPVGQLAWIVEKFKEWTDPAAELPEDAVDRDLLLTNVMLYWLTGTAGSSANSYYETAHSGAWGASERSAVPTGVAVFPMDVSIRRTVELEHTVVHWSEFDRGGHFAAMEAPDLFVGDVREFFSKLR				NA	NA	NA	NA	NA
D1-29_01048	954			hypothetical protein	ATGTGGGAAACCTCTGCGCGGCTGCTGCGACTGCTCTCCCTCCTCCAGGCCCGGCGCGACTGGTCCGGCAACGAACTGGCGGAGCGGCTGGAAGTCACGCCCCGCACCGTACGGCGCGATATCGATCGGCTGCGCAGCCTCGGATACCCGGTGCTGGCCACCGCCGGCACCGCCGGGTACCGGCTTGGTGCAGGCGCGGACCTTCCGCCGCTCCTGCTTGACGACGACGAAGCCGTTGCGGTCGCAGTGGGGCTGCGTACTGCCGCTGGTGGTTCCATCACCGGCATCGAGGAGGTTTCAGTGCGGGCACTGGCCAAGCTCGAACGGGTGCTGCCGTCCCGGCTGCGCCACCGGATCAACACCCTGCAGTCGGTGGTGGTGCCGATGGCCGGCACCGGCCCCACAGTGGACCCGGGCATCCTCACTGCTGTCGCCGCCGCCTGCCGCGATTCGCTGCGCCTGCGCTTCGACTACCGCAGCCACAACGGAACCAGCAGCCTCCGCACCACTGAGCCGCAGCGGCTGGTGCACGCCGGCTGGCGCTGGTACCTCATCGGTTGGGACGTGGACCGCCAGGATTGGCGCACTTATCGTGTTGATCGCCTGGATCCACGCATTCCCACCGGGCCCAGGTTCACCCCCCGCACCCCGCCGGCCCCCGATATCAGCGGCTACACCTCGCGGGCCGTCTCCACGTCGGCCTACCGCTACCAGGGCCGCTTCACCCTGCACGTCAGCGCCGAGACCGCCGGGGAACAGATCGCCCCCACCACGGGTGAGTTGGAGCCAATCGATGAACACCACTGCACCCTGCGGGCCGGGGCCAACTCGCTGGACGAGTTGGCGATTTACGTAACAACCAAAGGGTTCGACTTCCAGGTGCACGAGCCCCCAGAACTTGTCGAGCACGTCAGGACGCTGGCGGCCAGGCTTGCTAAGGCGACCAAACCATAG	MWETSARLLRLLSLLQARRDWSGNELAERLEVTPRTVRRDIDRLRSLGYPVLATAGTAGYRLGAGADLPPLLLDDDEAVAVAVGLRTAAGGSITGIEEVSVRALAKLERVLPSRLRHRINTLQSVVVPMAGTGPTVDPGILTAVAAACRDSLRLRFDYRSHNGTSSLRTTEPQRLVHAGWRWYLIGWDVDRQDWRTYRVDRLDPRIPTGPRFTPRTPPAPDISGYTSRAVSTSAYRYQGRFTLHVSAETAGEQIAPTTGELEPIDEHHCTLRAGANSLDELAIYVTTKGFDFQVHEPPELVEHVRTLAARLAKATKP				NA	NA	NA	NA	NA
D1-29_01049	2106	bgaB_1		Beta-galactosidase bgaB	ATGACCAGCAGCCCAGACGCCAGTGCCGCGGAGGCCCGGCTCCGGAACATGCACCAAGGCCTGGGCGGAATTGCCTACGGCGGGGACTACAACCCTGAGCAGTGGCCCCGCGAAGTCTGGCACGAGGATGCCCGCCTGATGCAGGAGGCCGGCGTCAACCTGGTTACCCTGGCCGTATTCTCCTGGAGCCGCCTGGAAACCGCTGATGGTGTCTATGACTTCGGCTGGCTGGATGACGTGATGGACCTGGTGCACCGGCACGGCATCGGCGTGGACCTGGCAACCCCGGACGCCGTTCCGCCTGCCTGGCTCACGCAGCAGCACCCGGACATCCATCCTGTCCTGGCAGACGGAACCACGTTCGGCTTCGGCTCCCGGCAGCATTTTGACGTTTCCCATCCCGTGTACCGCCGGAAGGCCCTGGCCCTGGCGGAACGGATGGGCGAGCGCTACGCCAAGCACCCCGCGCTGCGGATGTGGCACGTGGGCAACGAATACGGGCCGGTATCCTACGGCCCCTGGGCAGACAAAGCGTTCCGCACATGGCTGCAGCAGAAGTACTCCTCGCTGGAGGACCTGAACCGGGCGTGGAGCACGGACGTTTGGGGCCAGGTCTACTCGGACTGGAGCCAGGTGGGTGTCCCGGCCCAGCCCCGGACCTGGTCCAACCCGTCGCGCCGGCTGGACTTCCACCGGTTCACCTCTGCCAGCATGCTGGAGCATTACACGACTGTTCGGGATATCCTGCGCCGCCACACTCCTGACCTGCCCATCGTCACCAACTTCATGCGCTTTTACAAAACCAACGACTACTGGGCCTGGGCGGCGGAAGAGGACGCGGCCGCCCTGGACATCTACCCGGACCCGCGGGAAGCCGACTCGCATGTGGCGGCTGCACTGAACTTCGACCTCATGCGGTCCCTGCGCAACGGCCAGCCCTGGATGGTCATGGAGCAGGCCACGGGAGCGGTGAGCCAGTGGCCCATCAACGTCTCCAAGCTTCCCGGCAAGATGCGTCTGGGCTCGTACCAGGCCATCGCCCAGGGTTCGGATGGCATCCTGTTCTTCCAGTGGCGGCAGGCAAAGGGCGGAACCGAGCGCTACCACTCCGCCATGGTGGGCCACGCGGGCCCTAATACGCGGATCTTCCAGGAGGTCTGCGAGCTCGGCAACGAGCTGAAGTCCCTGGCCGGCCTCACCGGCACCAGGTCCAGTGCCAAAGTGGCAATCGTCTTTGACTGGGACTGCTGGTGGGCGCTGGAGCTCGGCAATTCGCCCCGGTCCGACCTGGACTACCCCCAGGAGGTCCTCCGGCTCTACCGGCCCCTGTTCGACGCGAACATCACCGTGGACTTTGTGGACACCAAGCGGGACCTCAGCCAGTACAGCCTGGTCCTGATGCCGGCCGCGTACCTCCTCACCGATGAGTCCGCCCGACGGTTTGAGGACTACGTATCCGACGGCGGACGCCTGGTGGTCTCCTACCTTTCCGGCATCGTTGATGAGTCCAATACCATCCGCCTGGGCGGCTATCCCGGCGCACTCCGGAACGTCCTGGGGGCCTGGAGCGAGGAGATGCACCCGCTCGCGGGCGACGGCGAGGAAATCAAGCTAAGACTGTCCGACGGCGGGACAGCCTCCGCGGGCTACTGGACTGAGCACCTGCACACCGAAGGGGCGGATGTCCTTGCCAGCTACGCGTCCGGCCGGCTCGCCGAAGCACCCGCGGTCACGCGGAACGCCTTCGGGCGGGGAAGTGCCGTCTACCTCTCCGCCCGGGTGGACGCCATATTCCTGAACGCGCTGCTGGACGCCGAATGCAAGGCAGCCGGAGTGCAGCCCGAACTGGACGCGCCCCGCGGAGTCCAGGTCCGCCGTCGTGCGGGCAACGGCACAAGGTTCATGTTCATGCTCAACCACAACGACGCCCCGGCAAGCGTCAACGTGGGCGGCGGCGGAAGGGACCTCCTGACCGGACACCCAGTCCAAGGCGTGGTGGAGCTCCCGCCCAGCGGCGTGCTGGTGCTGGAAGAAAACAGTGCCGAAGACGCACGGCTCGAAGACACAGCGACAGCCGACGCCGCCACCGATGACACCACACGATAG	MTSSPDASAAEARLRNMHQGLGGIAYGGDYNPEQWPREVWHEDARLMQEAGVNLVTLAVFSWSRLETADGVYDFGWLDDVMDLVHRHGIGVDLATPDAVPPAWLTQQHPDIHPVLADGTTFGFGSRQHFDVSHPVYRRKALALAERMGERYAKHPALRMWHVGNEYGPVSYGPWADKAFRTWLQQKYSSLEDLNRAWSTDVWGQVYSDWSQVGVPAQPRTWSNPSRRLDFHRFTSASMLEHYTTVRDILRRHTPDLPIVTNFMRFYKTNDYWAWAAEEDAAALDIYPDPREADSHVAAALNFDLMRSLRNGQPWMVMEQATGAVSQWPINVSKLPGKMRLGSYQAIAQGSDGILFFQWRQAKGGTERYHSAMVGHAGPNTRIFQEVCELGNELKSLAGLTGTRSSAKVAIVFDWDCWWALELGNSPRSDLDYPQEVLRLYRPLFDANITVDFVDTKRDLSQYSLVLMPAAYLLTDESARRFEDYVSDGGRLVVSYLSGIVDESNTIRLGGYPGALRNVLGAWSEEMHPLAGDGEEIKLRLSDGGTASAGYWTEHLHTEGADVLASYASGRLAEAPAVTRNAFGRGSAVYLSARVDAIFLNALLDAECKAAGVQPELDAPRGVQVRRRAGNGTRFMFMLNHNDAPASVNVGGGGRDLLTGHPVQGVVELPPSGVLVLEENSAEDARLEDTATADAATDDTTR	PGPT0017815_714	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
D1-29_01050	981	yteP_1	COG4209	putative multiple-sugar transport system permease YteP	ATGGCAATGAGACTGGAGATTCCACCGGAGGCGGTCACCGCTGACCCGCCGCGCACCGCAGAACCGCCGCGGAACAAGCCCGGCGGCTGGAAGCTGGCCATCAAACGGGACTGGCGGCTGTACACCCTGCTGGTGATCCCGCTGTTGTACTTTGCGGTGTTCCGGTACCTGCCCATGGCCGGAAACGTGATCGCCTTCCGGCAGTTCCAGCCCGGTGGCAGCATCTTCGGTGAGAAGTGGGTGGGCCTGAAGTACGTGGTCCTGTTCATCAACGATCCCAGCTTCTGGCAGGCGTTCCAGAACACCATCATGCTGGGCGTGCTGACCCTGCTGTTCTGCTTCCCGATGCCCATCATCTTCGCGCTGATGCTCAATGAGTTGCGCTCGCAGAAGTTCAAGAAGTTCGTCCAGACCGTGGCCTACCTGCCGCACTTTATGTCCGTGGTGATCATCGCCGGCATGATCCTGCAGAACTTCTCCATGACCGGCACAGTGAACCAGATCGCCAACACGCTTTTCGGCACCACGGTGAACTTCACCCAGGACGCATCCTGGTTCCGGCCCATGTACATCAGCTCGGAGGTGTGGCAGACCATGGGCTGGGGAGCCATTCTCTACCTGGCGGCGCTGACCCGGGTGGATGAATCGCTGTATGAGGCAGCCAGGATCGACGGCGCCAACCGGTGGCAGCAGACCTGGCACGTGACCCTGCCCGCCATTAGGCCCACCATCATCACGCTGCTGATCCTGAACATCGGCACGTTCATGGCCGTGGGCTTCGAGAAGATCCTGCTGATCTACAACCCGCTCAACTACGAAACCTCGGATGTCATCTCCACCTACCTGTACCGGGTGGGCTTGGAATCAAGCAACTTCAGCTACGCGGCCGCCATCGGAATGTTTGAATCCGTCATCGGCCTCACGCTGATCCTCTCCGCGAACGCGATCTCAAAGCGGCTCGCAGGAACGAGCCTGTGGTGA	MAMRLEIPPEAVTADPPRTAEPPRNKPGGWKLAIKRDWRLYTLLVIPLLYFAVFRYLPMAGNVIAFRQFQPGGSIFGEKWVGLKYVVLFINDPSFWQAFQNTIMLGVLTLLFCFPMPIIFALMLNELRSQKFKKFVQTVAYLPHFMSVVIIAGMILQNFSMTGTVNQIANTLFGTTVNFTQDASWFRPMYISSEVWQTMGWGAILYLAALTRVDESLYEAARIDGANRWQQTWHVTLPAIRPTIITLLILNIGTFMAVGFEKILLIYNPLNYETSDVISTYLYRVGLESSNFSYAAAIGMFESVIGLTLILSANAISKRLAGTSLW	PGPT0017250_488	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
D1-29_01051	915	araQ_6	COG0395	L-arabinose transport system permease protein AraQ	GTGGTGAACAAAATAACGTCGGACAGCGGAGTGCGGGTTGCTGACCTGAAGGAATCCCGCGGTGTCAAAGCCTTCCGGATCTTCAACCTGGTGTTCCTGCTGGCAGTGGTCTTCCTGACCCTCTACCCGTTCCTGAACATCATCGCCCAGTCCTTCTCCAGCGAAGGCTTCATCAACGCAGGCCAGGTGAACCTGTTTCCCCGCGGCTTCAACGTGGAGACGTACAAACTGATCCTGGCTGACAGCACGTTCTGGAACAACTACGGCAACACGGTCCTGTACACGGTGGTGGCCACCGCCATTTCCATGGTCCTGACCACCTCGTTCGCCTACGCCATTGCCAAGAAGGACCTCAAAGGCCGCAGCCTCTTTATCGGCATCGCGGTATTCACCATGTTCTTCAACGGCGGGCTGATTCCCAATTACGTCCTGATCAGTTCGCTGGGCATGCGGGACTCCATCTGGGCCGTGGTGTTGCCCAACGCCATCAGCGTCTTCAACCTGCTGATCATGAAGTCCTTCTTCGAGAACATGCCGCGGGAACTGGAGGAAGCCGCGGCCATCGACGGCCTCACCCAGTACGGCGTGCTGTTCAGGGTGGTGCTGCCGCTCAGCAAGGCAATCGTGGCCACCATGGTCCTGTTTTACGCCGTGGCCAACTGGAACTCGTGGTTCCAGGCTTTCCTCTACCTGGATAAGCCGGAGCTCTTCCCGGTCACCATTTACCTGCGCAACATGATCGCCGGCGTCACCACGGCAGGATCCGCCGGTGGGACCGTGGAGAACGTGGGCCAGATCGCCGCCAACATCCAGTCGGTCACCATCGTCCTGACCGTCATCCCCATTCTCTGTGTCTACCCGTTCGTCCAGAAGTACTTCTTTTCGGGCGTCATGCTCGGTTCCGTCAAGGAATAA	MVNKITSDSGVRVADLKESRGVKAFRIFNLVFLLAVVFLTLYPFLNIIAQSFSSEGFINAGQVNLFPRGFNVETYKLILADSTFWNNYGNTVLYTVVATAISMVLTTSFAYAIAKKDLKGRSLFIGIAVFTMFFNGGLIPNYVLISSLGMRDSIWAVVLPNAISVFNLLIMKSFFENMPRELEEAAAIDGLTQYGVLFRVVLPLSKAIVATMVLFYAVANWNSWFQAFLYLDKPELFPVTIYLRNMIAGVTTAGSAGGTVENVGQIAANIQSVTIVLTVIPILCVYPFVQKYFFSGVMLGSVKE	PGPT0017255_2697	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
D1-29_01052	1629			hypothetical protein	ATGATCCCCAAACGAGAGCTCCGCAGACGAGACTTCCTCGGCCTGGCCTCCGTTGTCACCATCGGCCTGATGCTGACCAGCTGCGACTCCGATTCGGCGGAGGTGGACACCTCCAAGTCCCGCAACGGAGCGATGGACAGCTTTGGAGTGGGGGACACGTTCAAGGCGACGACGCCGCTGACGTTCAGCTTCCTCTTCAGCGACCAGCCCACCTACCCCTACAAGAAGGACTGGCTGCTGTTCACGCGGATGGCATCCGAGAACAACGTCACGCTGGAAACCACCATTGTGCCCAGCAGCGACTATGAGCAGAAACGCAGCCTCCTGATCAGCTCGGGCAACGCTCCGGAGATCATCGCCAAGACCTACCCCGGCCAGGAGGCCGCGTACGTCTCCTCCGGCGCGGTCCTGCCGGTCAGCGACTACGTGAACCTCATGCCGCACTTCCAGGACAAGGTCAAAAAGTGGAAGCTCGAGCCGGAGATCGCCGGGCTGACCCAGGAGGACGGCAAGTACTACGTCCTGCCGGGCCTGCACGAGGAACTCTGGCCGGACTACTCGCTGGCGTTCCGCATGGACATACTCGAGAAGGAGAATATCGCCGAGCCGAAGAGCTGGGACGAGTTCCGCGAAGTGCTGCGCAAGCTCAAAAAGGCGCATCCCGACGTCGTGCCTTTCTCTGACCGCTTCAACGGCAACAGCGTCCTGAACATCGCCGGCACGGCGTTCGGCACCGTAGCTGGATGGGGGCTGGTGGACGGGCTCAGCTTTGACGAGTCGAAGAAGGAGTTTGCGTTCGGTGCCGGTTCGCAGCAGTTCAAGGAACTGGTGACGTACTTCAACTCGCTCGTGTCCGAGGGCCTGATGGATCCGGAGAGCTTCACGCAGACCGACGATTCGGCCACCCAGAAGTTCGTCTCCGGCAAGTCGTTTGTGATCAGCGCGAACTCGCAGAACATCATCAGCTACCGGACATCCATGGAGCAGTCGCTGGGCAAGGGCAACTTTGCGGTTGCCAAAATCACGGTGCCGGGCGGTCCGGCGGGCGACATCATCGGCGGATCCCGCCTGGAAAACGGCATCATGCTCAACTCCTCCGTCAAGGAGAAGGACAGCTTTGTGGCGCTGATCCAGTACATCGACTGGCTGTTCTACAGCGATGAGGGCCAGGAGTTCACCAAATGGGGCGTTGAAGGAACCACCTTCACGAAGGAGGGCGGCAAGCGGGTCCTGGCCAAGGACATCAACTTCCAGGGCCTGAACCCGGCCGGCACCAAAGACCTCCGCGTGGAGTACGGCTTCTCCGGCGGCAACTTTGCCTACGGCGGCACCACGGAGCTGCTGCACTCCACGTTCAACGAGGAGGAGCTGGCATTCCAGAAGGCCATGAAGTCCAAGAAACCCAAGACTGTGGCCCCGCCGGTGCCGTTCAGCGATGTGGACCGGGAGCAGGCAACCCTGGTGCTGACCCCGCTGAAGGACCACGTCAAGCAGAACACCCTGAAGTTCATCACCGGCCAGCGGGATCTGAGCGAGTTCGATGCCTACGTGAAGGAACTCGATGCTAAGGGCCAGTCCAAGTACGTAGAGTTGGCCAACAAGGCGTACAAGGCCTATGCCAGCAGATAA	MIPKRELRRRDFLGLASVVTIGLMLTSCDSDSAEVDTSKSRNGAMDSFGVGDTFKATTPLTFSFLFSDQPTYPYKKDWLLFTRMASENNVTLETTIVPSSDYEQKRSLLISSGNAPEIIAKTYPGQEAAYVSSGAVLPVSDYVNLMPHFQDKVKKWKLEPEIAGLTQEDGKYYVLPGLHEELWPDYSLAFRMDILEKENIAEPKSWDEFREVLRKLKKAHPDVVPFSDRFNGNSVLNIAGTAFGTVAGWGLVDGLSFDESKKEFAFGAGSQQFKELVTYFNSLVSEGLMDPESFTQTDDSATQKFVSGKSFVISANSQNIISYRTSMEQSLGKGNFAVAKITVPGGPAGDIIGGSRLENGIMLNSSVKEKDSFVALIQYIDWLFYSDEGQEFTKWGVEGTTFTKEGGKRVLAKDINFQGLNPAGTKDLRVEYGFSGGNFAYGGTTELLHSTFNEEELAFQKAMKSKKPKTVAPPVPFSDVDREQATLVLTPLKDHVKQNTLKFITGQRDLSEFDAYVKELDAKGQSKYVELANKAYKAYASR	PGPT0017245_1324	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
D1-29_01053	723			hypothetical protein	GTGGCACAGAAGAAGGCGGAGTATGGCTCCGGTCCGCTGTTCAGGGCGGCCGGGGTGGTGTACGGGGTCATGATGGCGGGCGTGCTGCTGGTGCTGGCCAACGTGCTCCTGGTACTGGCCCCGCTGCTGATCAGCCTGGCCGGTGGCTCCACCGTGCTGGCCGCCGGCGTTGTTGCTGCTGCGTTGGTGCCCGTGGGCCCGTCGCTGGTGGCCGCCGCCTACGCTTTCAACCGTCTGCTCGCGGGGGAGGAGACAGGAGTCTTCCGGGATTTCCTCCGCGGCTACCGCCGCAATGTCCGGCAGGCGCTCGCGGTCTGGCTGCCGTACCTGGCGGTGATGGCCGTCGTCGTCCTTAACCTGCTGCTCCTGCCCGGAACATTCGACGCCGGGAATCCCGGCCTGGCGGCCGCCCGGGCAGGGCTGCTGGTGCTGGGGCTCCTGGTGGCGACAGCCGGCGTGACGGCAATGCTGCTGGTGTCCCGGTTTGCGTTCCGGGTCCGGGACATCCACCGGCTGTCGCTGTACTGCCTGGGCGCGCAGAAGCGGGTGTCGCTGGGCAACGCCGGGATCCTGTTCATCTCGGCCTTCCTGCTTACGGCCAGCACCGCGGGCCTGCTGATCTTCATCGCCGGGCCCGTGATGTTCCTGATCTGCCTGAACTCGCGGCCGCTGCTGGCATTCATCGAAGCGAAGTTCACCCTTCGGGAACCGGCCCTGAACTGA	MAQKKAEYGSGPLFRAAGVVYGVMMAGVLLVLANVLLVLAPLLISLAGGSTVLAAGVVAAALVPVGPSLVAAAYAFNRLLAGEETGVFRDFLRGYRRNVRQALAVWLPYLAVMAVVVLNLLLLPGTFDAGNPGLAAARAGLLVLGLLVATAGVTAMLLVSRFAFRVRDIHRLSLYCLGAQKRVSLGNAGILFISAFLLTASTAGLLIFIAGPVMFLICLNSRPLLAFIEAKFTLREPALN				NA	NA	NA	NA	NA
D1-29_01054	441			hypothetical protein	ATGGTGCTGTTCCTCGGCATCGGACCGGCACTCATCGTGGCCGGCACCCTCGAGGTCCACGCCGACGACGAACTCGCCAGGACCGGAGAACAGGTCAGCGGCACGATCGTCCAGTTTGACGACACCAACAAAGCGTCCGACCGCGACATCCGGGTGAAATACCAGGCAGCCGACGGGGAGTTTCGCTACGTCTCGGCGGACGTAGACCACGACCAGGAGCCCGTGGTGGGCGATGAGGTGACCGTGGTGTATCAGGCCGACCAGCCGGGCCGGGCCACGGTGCTCGGTTTCGAAAGCGGCGGCGTTTTCTTGCGGGGAATAGGGGTTCTCCTGACGCTGATTTTTGGTGGCATGGCCCTGTCTGTCTCCATCGGCGGGATGTTCCGCAGGAGGAGCCGAAAACGCAAGGCCGCCGTCTACAGCCGGATAAACGCGCTCTGA	MVLFLGIGPALIVAGTLEVHADDELARTGEQVSGTIVQFDDTNKASDRDIRVKYQAADGEFRYVSADVDHDQEPVVGDEVTVVYQADQPGRATVLGFESGGVFLRGIGVLLTLIFGGMALSVSIGGMFRRRSRKRKAAVYSRINAL				NA	NA	NA	NA	NA
D1-29_01055	480			hypothetical protein	GTGAACCCCAAGTCGAAAATGTCGTGGGGAATGCGGGCGAACCTCGCGATTTCTGTGCTGGTTCTGTGCCTCGGACCCGTGTCTATAGGCGTGGGCACACAGATGATTCACGCCGACGCCGAGCTGGAGCGCAGCGGGGAACGCGCCACCGGGACAATTACGGCCTTTCACGATGAATGGCAGGCCTCCGATCGCAAGATGAAGGTGGAGTTTCCATCAAGGGATGGGTCGGTCCACTACAAGTGGGTCAGTGTGGACTACCAGCAGCACCCACTGATCGGCGGGGAAGTCATTGTGGCCTACCGAGCCGATGATCCGGGCCAGGCAACAGCCCTGGGTTATGAAAGCGACGGCGTCTGGTGGAGGGGAGTGGGAACCGTGATCACCTGCCTCTTCGGGGGGATTGGCGTTCTCCTGGCATTCTTCTTCTGGCTGGGTCTGCGCAAGGACCGAAAAAGGGAACGGATCCACCATGACTGA	MNPKSKMSWGMRANLAISVLVLCLGPVSIGVGTQMIHADAELERSGERATGTITAFHDEWQASDRKMKVEFPSRDGSVHYKWVSVDYQQHPLIGGEVIVAYRADDPGQATALGYESDGVWWRGVGTVITCLFGGIGVLLAFFFWLGLRKDRKRERIHHD				NA	NA	NA	NA	NA
D1-29_01056	870			hypothetical protein	ATGACTGACTTTGTTGAGGCTGTCCTCCATGACGGTTCGGTCATTCCTGTCACCCTTCAGGGGGATGGGCCGGCGCTGCTGCTGCCCGTCAGGCTGGAGCCGTATGCGCCTGCCGAGGCCGAGACCATGCGGAAATGGGGAGGGGACCCGGAGCTCGGGCCGGTTCTGGTGGCGGGGCTGTCGGCATCGAACCGGGTGATCGCGGCGGACTACGAAGGACACCGGATGGCCCACCCGGCTCCGGACAGCCTGACCCCGGACCATCTTGCCGCTGACCTTCTTGCCATCGCGGATGCCGCCGGCGCCGAATCGTTCGGCTACTACGGCTACTACGGCTACTCCTGGCTGGCGCTTAGCGGCCTGCAGCTGGCGCTTCGCACGGACCGGCTCGGGGCGCTGGTGATGGGCGGGTTTCCTCCCCTGGAGGGACCGTACCAGAGCATGCTGACGGTCACCCGCGCGGCGCACGTGATGTCCACCCAGGCACCTCATCCATCGTCGGTTTCGGTGGCGGAAGCCGAGCCCGGCGACTGGGATTCTGCCGCTGTTCAGACCACGCCGATGCAAACCGGCCAGTTCGTCACGCTCTACGAAGCGCTCCAGGACTTCGACGACTCAGCCGCCCGCTTGCCCCGGGGCCTGCCCAGACTCGCCTTCGCCGGGGCCGAAGACACCATCGATTACAGCCCTCAGTGGGGCGGAGTCCGGGTGAACATAGGTGAGCCGTTGGCCAGGCATGAGAGCGAACTGAGGGAGACCGGCTGGGATGTGCGGGTCCTTCCTGGCCTGGACCACCTGGGTGCGATGCACAGCTCCGTGGTGTTGCCCATTCTGAAGGACTGGCTGCCGAAGGTGGGCTGGGCGAAGTAG	MTDFVEAVLHDGSVIPVTLQGDGPALLLPVRLEPYAPAEAETMRKWGGDPELGPVLVAGLSASNRVIAADYEGHRMAHPAPDSLTPDHLAADLLAIADAAGAESFGYYGYYGYSWLALSGLQLALRTDRLGALVMGGFPPLEGPYQSMLTVTRAAHVMSTQAPHPSSVSVAEAEPGDWDSAAVQTTPMQTGQFVTLYEALQDFDDSAARLPRGLPRLAFAGAEDTIDYSPQWGGVRVNIGEPLARHESELRETGWDVRVLPGLDHLGAMHSSVVLPILKDWLPKVGWAK				NA	NA	NA	NA	NA
D1-29_01057	324			hypothetical protein	ATGGAGACTGAATACGCCGATGTCACCGGTCACGACGTCACCACGATTGTCTGTGTCTGCGGGAACACCGTCAGCGGCGAGGGACTGATCCAGGCCAACCGTCAAGGCATCCCGGTCCACGGGGACAGCAGCACCCCCGTACCCGCCGGGCTGGCCGAGTGGCCGGAGGATGAGGACATCTACACGCTCTGTCCGTCCTGCGGCCGGGTATACCGTGACGCCGTGATTGAGGAGACAGGGACAGCCCCGGTTGCGTTCCGGGTGGACGCCGCCCACGGACCCGTTGCCGAGGCAATCCGCATCCACTGGGAGCAAAACCAATAG	METEYADVTGHDVTTIVCVCGNTVSGEGLIQANRQGIPVHGDSSTPVPAGLAEWPEDEDIYTLCPSCGRVYRDAVIEETGTAPVAFRVDAAHGPVAEAIRIHWEQNQ				NA	NA	NA	NA	NA
D1-29_01058	519			hypothetical protein	ATGGCCTCCCTCCCCGTTACCCTCTCCGAAGATGTCTTGAACCAGCCAATCCGAATCCAGTTGGAGGCGTTCCTTAACGAGCATCGGCTCGCCCTCGGTGACTGCCTGGACGGGCTCACCGAGGAGCAGGTGCGTCGGTCCCTGGTACCCTCCCGGACCACGCTGCTTGGCTTGGTGAAGCACGCCACCTTCGTCGAAAAGGTCTGGTTCGATGAAGCCATCACGTGCCGGTCCCGCACCGAGATCGGCATCGCTGCCATTGTGGACAATTCATTTATCCTCGGCGACGGCGACAGCATCGCCACCGTCCGGGAGGCCTACCGGCAGGCGTGCGGGGCCTCGCGGGCCGCGACGGCGCCGCTGGGGCTCGACGACCTTCTTCACGGAAACCGGCGTGGCCCGCTCCCGCTGCGCTGGGTGTACCTGCACATGCTCCGGGAGCTCGCCCAGCACTGCGGCCACGCTGACATCCTGCGCGAGCAGCTGCTGGCCAATAACGCCACCAGCGCGCAGGCATAA	MASLPVTLSEDVLNQPIRIQLEAFLNEHRLALGDCLDGLTEEQVRRSLVPSRTTLLGLVKHATFVEKVWFDEAITCRSRTEIGIAAIVDNSFILGDGDSIATVREAYRQACGASRAATAPLGLDDLLHGNRRGPLPLRWVYLHMLRELAQHCGHADILREQLLANNATSAQA				NA	NA	NA	NA	NA
D1-29_01059	360			hypothetical protein	ATGGTGCTGGACGCTGTCAGTGCCTATCGTGGAGCCATGTCTGATACTTTCTCCTCCCTCATGGACACGTTCAAAAACATCGGTGTTTCGAAGGCATACGGCCCACCGATCCAGGTGGGCGGGGAAGAAATCATCCCCGTTGCTGTGGTCTCCTTCGGATTTGGTGGCGGCGGGGAAGCAGGGAACGGTGCTTCCGGCGGAGGGGGAGGGGGCATGGTGGTGCCGCTGGGTGTTTACCGGAACGACGGCGGGCGCTCAACGTTCCGGCCCAATACCGTGGTCACGCTGGTCTGCCTGGTTCCCGCCATCCTGGCCGCCGGCGCCGCCATCAGCAGCGTTGTTCGCGCGGCGAGATCATAA	MVLDAVSAYRGAMSDTFSSLMDTFKNIGVSKAYGPPIQVGGEEIIPVAVVSFGFGGGGEAGNGASGGGGGGMVVPLGVYRNDGGRSTFRPNTVVTLVCLVPAILAAGAAISSVVRAARS				NA	NA	NA	NA	NA
D1-29_01060	375			hypothetical protein	ATGTCCGGTGAGCCAGTGTATTTCGAAATCGGCGTTCAGGATGCCGGCCGCGGCAAGGCCTTTTACGGGTCGCTCTTCGGGTGGAAGTTTGCCCCCGGACCCTCAGGAGGGGAAGGGTTTGTGATCGGCACCCCGGGGATCAGCGGCGGGATGCACGGAGGCGACCCCGGCGCGGCGCCGTATCTGTTCTTTCGAGTCGATGACCTCGACTCCGCCCTGGCCCGGGTGCGCGAGCTGGGCGGTTCGATCGACGAGACCGACCTTGGCGATGAAAGCAAGGCCGCAGAGTATGGCCGCTTCAAGCTGTGCCGGGACGACCAAGGCTCCGTCTTTGGGCTCCACGAACCTCCGCCGGGCCCGGACTTCACGCTCTAG	MSGEPVYFEIGVQDAGRGKAFYGSLFGWKFAPGPSGGEGFVIGTPGISGGMHGGDPGAAPYLFFRVDDLDSALARVRELGGSIDETDLGDESKAAEYGRFKLCRDDQGSVFGLHEPPPGPDFTL				NA	NA	NA	NA	NA
D1-29_01061	960	pip_1	COG0596	Proline iminopeptidase	GTGACTGAACAGAGCGGGGAGACGGACAGCGGCTGGGTGGACGTGCCCCACGCAAGGATCTACTGGGAATCGACAGGACATCCTTCAGGGGTGCCGGTGCTCTACCTTCACGGCGGCCCCGGCAGCTCGCTGGGCGGCGGGGGCTACCGTAAACAGCACGATCCCAGCCGGTTCCGGACCATTGGGCTGGACCAGCGCGGCTGCGGCAAAAGCACGCCCCGGGCGCAGGATGACCTGGGCCACCTGCACCTGAATACCACGCAAATGCTTGTGGAGGACATCGAGGCCGTTCGCGAGCACCTCGGCATAGACAAGTGGATTGTCACCGGCGGCTCCTGGGGCTCAACCCTCGCGCTCGCCTACGCGTTGCAGCACCCCGGCCGGGTACTCGGCCTTGCCCTCGTGGCGGTGACAACCACCAGCCGCGCCGAGGTCCAGTGGATCACTGAAGGCGTCGGGACTGTGTTCCCGGAAGCATGGGCCGAGTTCGCAGCCAACGCCGACGCACACCCGGGAGAACGCTTGGTGGAGGCTTACGCCCGCCGCCTGGCGGGAGAAGACCGCGACGACGCCCGGCTGGCGGCAGAGGACTGGGACCGCTGGGAATCGACGCACATTGCCCTGGACCCGCGCTGGCAGCCAGGCCCGATGTTCGACGACGAACGCGAGCGCATGACCTTCGCCCTGCTGGTTACGCACTATTGGTCGCGGGACGGATTTCTAACCAAATGGCACGAGATCATTCCGCGGATCCACGAACTGGAAGGGATCCCCGGCCACCTCATCCACGGCCGCCGCGACATCAGCGGCCCCGTGATAACGCCGTGGAAGCTTCACCAAGGATGGAAAGGCAGCAAGCTCACCGTCATTGAAAGCGAGGGGCACGGCGGCCCGGAATCAGCCAAAGCACTCGCCCAGGCGGTGGAAGAGGTTGCCGCCCACCTGATTGAGGATAGCTAG	MTEQSGETDSGWVDVPHARIYWESTGHPSGVPVLYLHGGPGSSLGGGGYRKQHDPSRFRTIGLDQRGCGKSTPRAQDDLGHLHLNTTQMLVEDIEAVREHLGIDKWIVTGGSWGSTLALAYALQHPGRVLGLALVAVTTTSRAEVQWITEGVGTVFPEAWAEFAANADAHPGERLVEAYARRLAGEDRDDARLAAEDWDRWESTHIALDPRWQPGPMFDDERERMTFALLVTHYWSRDGFLTKWHEIIPRIHELEGIPGHLIHGRRDISGPVITPWKLHQGWKGSKLTVIESEGHGGPESAKALAQAVEEVAAHLIEDS				NA	NA	NA	NA	NA
D1-29_01062	903			hypothetical protein	GTGCCTTTCAGCCCGACGTCGGAAAATTCGGGCTGGATAAATCCGGCTGGATCAATCCCCCGGCCCGCCGCCTATGATGCTGACATGGGGGAACATCCGAGCTGGAGCTCATCCGGGGCTGGTCAGCAGATCTACGTAGAAATTGGCATCCGCACGTCTATGGAGCGGCTGTGGACGCTCAGCCAGGAACCGGACCTGCATCCGCGCTGGGACCTTCGGTTTTCCCGCATCGTCCCTACGGGCCAGGACGATGAAGGCAACGTCAGCTTCCGCTACGAGTTTCGGCTGCCGTTCCACACCATCAGGGGAACCGGAACGTCACTGGGCCACCGGCGTCGTGCCGACGGCCAGGCAACGTCGGTACTCAAATTCACCACAGCAGACGTGCTCTCGCCCATCGGGCCCGGTGCAGGATATTGGCGCTACATCCCCACCGACCACGGCGTGCGCTTCATCACCGGGTACAGCTACCGGCCGGGAATGGGCCTCCTCGGCGGGATCCTTGACGGCCGGGTGATCCGCCCTGCCCTGGGCTGGGCGACGGCCATCTCCTTTGATCGCCTACGCCTGTGGGCGGAATCCGGCCTCCGGCCCGAGGTTTCCCGCAACCGCTGGGCTATGGATGCAGCGGCCAGAAGTGCTGCTCTTCTAACTGCGCTGTTCCTGTTCCGCCGTGCCCTGTCCGGCCGGGACGCGGGAATGGCAGCCACTTTGGGTTCGACGGCGGCGCTGGCCTCCTGGTTCATCCCGCCACACCGGACGGTCCCGCGGGCGGGGCGGTGCCTGAGGAAGGCGCCTGATCCGCGCTCCGGACGCGCCCCCTCGGCTCTCCTGACTCTTCCGTCACCTTCCACCTCCGCCCCCGGCCCTGACAGAAGGAGCAGCAGTGGCATCAATCTTTGA	MPFSPTSENSGWINPAGSIPRPAAYDADMGEHPSWSSSGAGQQIYVEIGIRTSMERLWTLSQEPDLHPRWDLRFSRIVPTGQDDEGNVSFRYEFRLPFHTIRGTGTSLGHRRRADGQATSVLKFTTADVLSPIGPGAGYWRYIPTDHGVRFITGYSYRPGMGLLGGILDGRVIRPALGWATAISFDRLRLWAESGLRPEVSRNRWAMDAAARSAALLTALFLFRRALSGRDAGMAATLGSTAALASWFIPPHRTVPRAGRCLRKAPDPRSGRAPSALLTLPSPSTSAPGPDRRSSSGINL				NA	NA	NA	NA	NA
D1-29_01063	684			hypothetical protein	GTGGCATCAATCTTTGAACTCGCGATGGGCCAGGACTTCCACCGGCTGCATCCCATGTTGCAGAAGCGCTTTGGAGTGGACGCCGAAGCTGGTTACGCATGCGTGGGACGCGGTGTCTTTACGGAAGTGCGCCGCGGGGCGTGGTGGACGCTGCCCTTTCTTCGCCTGGGGGCGTACCGCAACATTCTCTTCCCGGACCGCGGCGAAAACATTCCCTTCACCATCGAGAACTATCCCTATGTTGACGGCTTCGGCCGCCCCACCGTCACTTTCGTCAGGACGCTGGAGCTCCCCGGGTCCAGGACCCGCCGGTTCGACGCCACTATGGTTTTCAGTCCGGACAGCGGCGGGATAGTGGACTACCTCGGCACGCACCAGCACCTGGCCACCGACCTCATCCTGGAGGTGATGCCGGATGGATCGCTCCACCTCCAATCAGGAGCCCAGCGGTTCTACGAAGGCTTGCTGGGATTCACCTTTCCCGCTGCGTTTACGGGTACCGCCGATCTCTATGAGGGCTTTGATGACGCCCGCGGTGTTTTCACCATCCAGATGCAGGTGCGCAATCCTCTCGTGGGCTTCCTTTTCGGGTACCGCGGAGAGTTCGAATGCACCTTTCCTGACATCGACGCTGACGGAGCCCCTCAGCGGCTTAGGCCGGTGAGGGAGGAACGCCGGCTGTAG	MASIFELAMGQDFHRLHPMLQKRFGVDAEAGYACVGRGVFTEVRRGAWWTLPFLRLGAYRNILFPDRGENIPFTIENYPYVDGFGRPTVTFVRTLELPGSRTRRFDATMVFSPDSGGIVDYLGTHQHLATDLILEVMPDGSLHLQSGAQRFYEGLLGFTFPAAFTGTADLYEGFDDARGVFTIQMQVRNPLVGFLFGYRGEFECTFPDIDADGAPQRLRPVREERRL				NA	NA	NA	NA	NA
D1-29_01064	1494	yhdG_1	COG0531	putative amino acid permease YhdG	ATGAGCACAACGTCAGACAGAGTCTTTGATGTAACTCCTGAAAGAGACGAACCCAAGCTCAAACGGGTGCTCGGACCCAAGCTCCTGCTCCTCTTCATCGTTGGTGACATCCTGGGCGCCGGCGTGTACGCGGTGACCGGGACGATGGCCGGCCAGGTCGGCGGCATTGTATGGCTGCCGTTCCTGCTCGCCTTCATCGTCGCCACACTGACCGCCTTCTCCTATCTGGAGCTGGTCACCCAATACCCACAGGCGGCGGGCGCTGCGCTCTACACCCACAAGGCATTCGGGATTCACTTTGTCACCTTCCTTGTGGCGTTCGCCGTTGTCTGCTCCGGAATCACCAGCGCCTCCACCTCCGCGAACGTCCTGGCACAAAACTTCTTCGGCGGGATGGAGATCAACGGCTGGATGGGAGTGCCCGGACGGGAAGTCATCACCCTGGTGGCGATGGGCTTTATGCTCCTGCTGGCGATCATCAACCTGCGCGGCGTGGGCGAGAGCGTGAAGTTCAACGTGGTGCTGACGCTGGTGGAGATGATCGCGCTGTGCATCGTGATCGGCGTCGGCTTTTATGTGATGACGCAGGGCACCGGGAACGCAGGCGAAATATTCGTCTTCAATGACTACCAGGACAAGGGGCTGTTCCTGGCGGTCACGGCGGCAACCTCCATTGCCTTCTTTGCGATGGTGGGGTTCGAAGACTCGGTGAACATGGTGGAGGAGACCAAAGAACCCGAGAAGATCTTCCCGCGCACCATGCTAACGGGCTTGGGCATAGCGGTGCTCCTGTACATGCTGGTGGCCGTTTCCGTGGTCAGTGTGCTTTCGCCTACCGAGCTTGAGGACATCAGGGAGGCCGAGGGTGCCGCGCTCCTCGAGGTGGTGCACAAGGGTTCCCCGGACTTCCCGATCGACAGGATCTTCCCGTTCCTTGCGGTATTCGCTGTGGCCAACACCGCGCTGATCAACATGCTGATGGCCAGCCGCCTCATTTACGGCATGGCCCGCCAGGATGTCCTGCCGCGGGCGCTGGGCAAGGTGCTTCCGGTGCGCCGGACGCCGTGGGCCGGCATCCTGTTCTCCACCGTTCTTGCACTGGGTCTGATCTGGTACGTCAGCAGCGATCCGGAAAGCAACATTGTTGCCAACCTTTCGGGCACGACGGCGTTCCTGCTGCTTTGCGTCTTTACGGTGGTCAACGTGGCCTGCCTGGTGCTCCGGCGCAAGCGGGACCCCAACCGCAAGGTCTGGTTCACCTCACCCGGCCAACTTCCCCTGCTGGCTGCGTTGCTGTGCGCCTTCCTTGCCGGCCCGTGGGTGGGACGGAACCCCATCCAATACCAGGTGGCCGGAGGGCTGATGGCCATCGGCATCGTGCTGTGGCTTATCACCTGGCTGATCACCCGGCGGACGAACCGGGGCCCTGGCGAACCGGTGGGGACGCAGAATATCGGCAAGGACGAAGGCGTCCCTCCGCCGCCCATTCACTGA	MSTTSDRVFDVTPERDEPKLKRVLGPKLLLLFIVGDILGAGVYAVTGTMAGQVGGIVWLPFLLAFIVATLTAFSYLELVTQYPQAAGAALYTHKAFGIHFVTFLVAFAVVCSGITSASTSANVLAQNFFGGMEINGWMGVPGREVITLVAMGFMLLLAIINLRGVGESVKFNVVLTLVEMIALCIVIGVGFYVMTQGTGNAGEIFVFNDYQDKGLFLAVTAATSIAFFAMVGFEDSVNMVEETKEPEKIFPRTMLTGLGIAVLLYMLVAVSVVSVLSPTELEDIREAEGAALLEVVHKGSPDFPIDRIFPFLAVFAVANTALINMLMASRLIYGMARQDVLPRALGKVLPVRRTPWAGILFSTVLALGLIWYVSSDPESNIVANLSGTTAFLLLCVFTVVNVACLVLRRKRDPNRKVWFTSPGQLPLLAALLCAFLAGPWVGRNPIQYQVAGGLMAIGIVLWLITWLITRRTNRGPGEPVGTQNIGKDEGVPPPPIH	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
D1-29_01065	297			hypothetical protein	ATGAACATCCGGCCAGAGCAAGAAACATCCGGAGACATACCGGAAGCTGATGCCCTTGAACAGCAAACACCTGTCCTGCCGGACGGGTCCGAGAACGTCATGGACCCCCTGCCCATGGATGCCCCGGAGGCAGACGTCATAGAGCAGCACGCGGACGTGAGGCCAGGCGGTGCGGCTGCCGGGATTGCGGCCGTTGCAGAAGCGGACGCAGCCGAGGCAGACCTGGTGGAACAGGCGATGGCGCTCTCCATTGACGACGAAGAGGATTACCCCGAAGGCAGCGACGAGGATGGCTAG	MNIRPEQETSGDIPEADALEQQTPVLPDGSENVMDPLPMDAPEADVIEQHADVRPGGAAAGIAAVAEADAAEADLVEQAMALSIDDEEDYPEGSDEDG				NA	NA	NA	NA	NA
D1-29_01066	2352			Beta-xylosidase	GTGAACAGCGGTGCAGCCGAAACGCAAGCAGTTCAGCGCCCCGCCGGGCACACCGGCGTCGAACGCCTGATCCAGGACATGACCATCGAGGAGAAGCTCGCCCAGCTGGTTGGGGTCTGGGTCAATGCCTCGATCGAGGGAGACTCCGTTGCGCCGCTGCAGAGCCAGCTGGCCGGGGACATCCGCTCGTGGGGCGAGGTCATCGCGGACGGGCTGGGGCAGATCACGCGCATGTACGGCACCACTCCCCTGGACCCGGCGGCGGGGGCACGCTCCCTGGCCGCGGCGCAGCGGGACATCATGGCCGCCTCACGGTTTGGCATTCCTGCCCAGGTCCACGAGGAATGCCTCGCCGGCCTGGCCGCCTGGAAAGCCACGGCCTTCCCCGTACCGCTCGCCTGGGGCGCCACATTCAACCCTGCACTGGTGCGCGCAATGGCCGGCCGGATCGGCGAAAGCATGCGCGGACTCGGCGTCCACCAAGGCCTGGCGCCGGTGCTGGACGTGGTCCGCGACCTCCGCTGGGGACGCGTGGAGGAGACCATCGGCGAGGACCCTTACCTGGTGGGCACAGTGGCCACGGCCTATGTGCAGGGCCTGGAGGAAGCCGGCGTCGTGGCCACCCTCAAGCACTTTGTGGGCTACTCCGCCTCCCGTGCAGGCCGCAACCACGCGCCCGTCTCCATGGGTCCGCGCGAACTCGCGGACGTAATGCTTCCACCCTTTGAAATGGCCATCAAACACGGCGGTGCCCGTTCGGTCATGCACGCGTACACGGACGTCGACGGCGTGCCGGGGGCCGCCAACGGCCCCCTCCTCACCACCCTGCTTCGCGACACCTGGGGCTTTGACGGCACCGTGGTGGCCGACTACTTCGGCGTCTCCTTCCTGCAGCTGATGCACGGCGTGGCAGAGGACGGCGGACACGCCGCGGCGCTGGCGCTCGAGGCGGGGGTCGACGTCGAACTTCCCACCGTGAACTGCTTCGGCGGGCCGCTGCTCGCCCGGGTCCGGGAAGGCAAAGTGCCCGAAGAACTGATCGACCGGGCCTTGCGGCGCGTGCTGAACCAGAAGCTCGAGGCAGGCCTGCTGGACGCCGGGTTCGATCCGGAACCGCCGTTCCTGGCTGCTGCAGGCCCCATCGACCTGGACCCGACTGAAAACCGCCGGCTTGCCAGGGACCTGGCCGTGCAGTCGCTGGTGCTCCTGGCCAATCATGACCGGGGCGCCGGTCCGGCGTTGCCCCTGGCCGGCGCTTCACGTCTCGGCGTGGTGGGCCCGTTGTCCTCGGACCCGTTTGCCATGTTGGGCTGCTATTCGTTCGATGCCCATGTGGGGGCCTCGCATCCCGACACTCCCCTGGGCATCAGCATCCCCACAGTTGCCGGCGTGGCAGCCGAGCGGTTTACCAACATGCAGAGCGCCGTGACGGGAACATGCGAGGCCTCCACGGACGAGGAGATCGACCGGGCCTGCGCCATAGCCCGCTCAGTGGAGACCTGTGTGATTGTGGTGGGCGACAACGCGGGCCTGTTCGGCCGCGGAACCTCAGGCGAAGGCAACGACGCCGCGGACCTCAGGCTTCCGGGCGACCAGCACCGGTTGCTGGACCGCGTCATGGCCGCCGCGGCCCAGGCGGGCACCCGCGTCATTGTGGTGGTGCTGAGCGGACGCCCCTATGCACTGGGTGACTTTGTTGACCGCGCCGACGCCATCGTCCAAGGCTTCTTCCCCGGCGAGGAAGGCGCCGAGGCCCTCTGGGACGTCCTGCTGGGAACGTCCAATTTCTCCGGCAAGCTTCCGGTGTCCGTCCCACGGTCCCCGGGCGGCCAGCCGGGCACTTACCTGCAGAGCAGGCTGGCCGGGAAGACCGAGGTGAGCGCCCTGGATCCGTCGCCTTTGTTCAGCTTTGGTCACGGCCTGTCCTACACATCATTCGAATTGTCAGACCATTCCTGCAGTGCTCCCACCATGTCCACATCGGCGAGCGCAGTAGTCTCCTGCACCGTCACCAACACTGGTTCCCGCGGCGGCGCCGAAGTGGTCCAGCTGTACCTGGAGGATCCCGTGGCCGAGGTGGTCCGCCCGGTCCGTGAGCTGATCGGTTACGCCCGGGTGGAACTCGCCGCCGGGGCCTCGGCAAGGGTGGAGTTCACAGTCCACGCGGACCGCACGTCCTTCACCGGACTGGGGCTGGAGCGCATTGTGGCGCCGGGCCTCGCGAAGCTGCACGTGGCGACGTCGAGCATTAACGATGCCCACACGCACGAACTAATCCTGCACGGCGAGCGGCGGGTGGTGGGGTTTGAGCGGGAGATGCTGACCCCGGTGCGGGTCCGGCCGCTGGTGTAG	MNSGAAETQAVQRPAGHTGVERLIQDMTIEEKLAQLVGVWVNASIEGDSVAPLQSQLAGDIRSWGEVIADGLGQITRMYGTTPLDPAAGARSLAAAQRDIMAASRFGIPAQVHEECLAGLAAWKATAFPVPLAWGATFNPALVRAMAGRIGESMRGLGVHQGLAPVLDVVRDLRWGRVEETIGEDPYLVGTVATAYVQGLEEAGVVATLKHFVGYSASRAGRNHAPVSMGPRELADVMLPPFEMAIKHGGARSVMHAYTDVDGVPGAANGPLLTTLLRDTWGFDGTVVADYFGVSFLQLMHGVAEDGGHAAALALEAGVDVELPTVNCFGGPLLARVREGKVPEELIDRALRRVLNQKLEAGLLDAGFDPEPPFLAAAGPIDLDPTENRRLARDLAVQSLVLLANHDRGAGPALPLAGASRLGVVGPLSSDPFAMLGCYSFDAHVGASHPDTPLGISIPTVAGVAAERFTNMQSAVTGTCEASTDEEIDRACAIARSVETCVIVVGDNAGLFGRGTSGEGNDAADLRLPGDQHRLLDRVMAAAAQAGTRVIVVVLSGRPYALGDFVDRADAIVQGFFPGEEGAEALWDVLLGTSNFSGKLPVSVPRSPGGQPGTYLQSRLAGKTEVSALDPSPLFSFGHGLSYTSFELSDHSCSAPTMSTSASAVVSCTVTNTGSRGGAEVVQLYLEDPVAEVVRPVRELIGYARVELAAGASARVEFTVHADRTSFTGLGLERIVAPGLAKLHVATSSINDAHTHELILHGERRVVGFEREMLTPVRVRPLV	PGPT0018670_209	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_CELLULOSE|HEMICELLULOSE_DEGRADATION,PGPT0018670-bxlA-K17641	NA	NA
D1-29_01067	1158	iolG_9		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGTTCCACTGCGAAGACGGAGAGAGCGAATACATGCGGAGCTATAAAGTGGCGATCGTTGGCACGGGCGGAATAGCAGCTGTCCATGCTGACAACGTGGGACGCGCCGGAGGCCGGGCCCAGCTGGTGGCGGCATGCGATGTGGACGCGGCGCGGCTGGAATCCTTCAGCAACCAGCACAACATCCCGGGCCGCTTCCAAAACCTCACTGAGTTGCTGGCTGAGAGCACGCCGGACATCGTGCACCTGTGCACCCCGCCCATGATGCACATCGACCAGGCCATTGAATGCCTTGAGGCCGGCGTCCATGTCCTGTCGGAGAAGCCGCCGGCCCTGAGCCTGGCGGATTTCGACAGGTTGGAGGCAGCCAGGATCAAGGGTGGCGCGCAGTTCTCCTGCGTGTTCCAGCACAGGTTCGGCGATGCGGCGGCGGCAGCCAAGGGCCTGATCGGGGAGGCTGCTTTTGGCCGGCCGCTAGTGGCCAGGTGCGATACCCTCTGGTACCGGCCGGACAGCTACTGGGACCTGCCGTGGCGGGGTTCATGGAATGCCGAGGGCGGCGGACCCACCATGGGCCACGGCATCCACCAGTTCGATCTGCTGCTCCACCTCCTGGGCCCGTGGCAGGAGGTCACCGCTCTCGCTTCGCGTCAGGCCCGCAGGACCTCCACCGAGGACCTGTCCGCAGCCCTTGTCCGTTTTGAGAACGGGGCGGTGGCCACTGTTTTAAACTCCCTGCTGTCCCCGCGGGAAACCTCAGAGATCCGCATTGACACCGAGTTCGCCACCATCGAGCTCTCCCACCTCTACGGCTACTCCACCGGCAACTGGACCATCACCGGTGCGCCCGGACACGAGGAGACAGTCCTCGCAGCCTGGGAGGGCCAGCCGCTGGAGCAGGGGAGCGGCCATTCAGCCCAGTTCCTGGCCATGTATGACGCGCTCGACGCCGGCCAACCGCTTCCGGCGGGCGCGGACTCGGTGCGCCAGACCCTGGAACTCGCTGCCGCGATTTACGCGTCAGCGTTCACCGGCAAGGCAGTGCAGCGTGGGGAGATCGTGCCAGGGCATCCCTTCTACAACGGCATGGACGGCGACGGCCTGGGTACCCGGATCCTGGATTCAACAGCCCTTGCATCCGCCACCGCTTCCTCCTGA	MFHCEDGESEYMRSYKVAIVGTGGIAAVHADNVGRAGGRAQLVAACDVDAARLESFSNQHNIPGRFQNLTELLAESTPDIVHLCTPPMMHIDQAIECLEAGVHVLSEKPPALSLADFDRLEAARIKGGAQFSCVFQHRFGDAAAAAKGLIGEAAFGRPLVARCDTLWYRPDSYWDLPWRGSWNAEGGGPTMGHGIHQFDLLLHLLGPWQEVTALASRQARRTSTEDLSAALVRFENGAVATVLNSLLSPRETSEIRIDTEFATIELSHLYGYSTGNWTITGAPGHEETVLAAWEGQPLEQGSGHSAQFLAMYDALDAGQPLPAGADSVRQTLELAAAIYASAFTGKAVQRGEIVPGHPFYNGMDGDGLGTRILDSTALASATASS				NA	NA	NA	NA	NA
D1-29_01068	975			hypothetical protein	GTGACCACCACCGCAGCACCCACCAGCACCGTAACGAACAAAGAGCTCACCTATTCCGACGATGGCACCACCCTTGCCTTCAGTGCCGGCGGGCAGGAGCTGGCGAGATACACCTACCGCCCCGGGGATGACCAGTACGAAAGCCCGCGCCCGTACTTCCACCCGCTCAGGACCCTCGGCGGGGACGAGGTCACCATTGCCCGGCCCTGGGACCACGTGTGGCACAAAGGCCTGTCGTGGGCGCTGCCGAACGTCGGGAAGGACAACTTCTGGGGCGGCGCCACGTACACCCGGGAAACGGAATACGCCAACCTGGACAACAACGGCGCCATGAACCATGAGGCCTTCACCGGGATCACTGACTCCGACGGCGGCATTACGGCGGCGGAAGCCCTCACCTGGACCTCGCAGGACGGCAAGCCCGTCATCGCCGAAAAACGCCGCTTCAACATCCGGCTCCTGGAGGTTCCGCCGGCGGGCGAAGAAGGCCGCGCTGCCTGGGCCATCCTCTTCGAAACCGAAATGACCAACGTCTCGCCTGACACCATCGAGATCGGAAGCCCCACCACCGAAGGCCGGAACAACGCCGGCTACGGCGGGCTGTTCTGGCGCGGGCCGCGGTCCTTCACCGGGGGAGAGTTCCGGTCACCCGACGGGACCGGCGCGGACGAGTTCATGGGCACCCGCTCCCCGTGGATCGCCTTCACCGGCCAGCACGATGTCACCTGCCGCTTCTCCTCCATCATGTTTGTTGAGGACAGCGCCAACCCCGGTGCGCCCAACCAGTGGTTCGCCCGCTCGTCCATGTTCGCGTGCCTGGGTTCCGCGCCGTTCTTCAGCGAAGTAGTCCCGCTGAAGGAAGGCCAGCCGCTGACCTACCGCTACGCCGTCGTGATTTCAGACGGAAAAGCGGACGGGGACACGGCGGACCGGCTGGCGGAAGCTGCCAAAGCCGCCCTGGAAAGCTGGAAGTGA	MTTTAAPTSTVTNKELTYSDDGTTLAFSAGGQELARYTYRPGDDQYESPRPYFHPLRTLGGDEVTIARPWDHVWHKGLSWALPNVGKDNFWGGATYTRETEYANLDNNGAMNHEAFTGITDSDGGITAAEALTWTSQDGKPVIAEKRRFNIRLLEVPPAGEEGRAAWAILFETEMTNVSPDTIEIGSPTTEGRNNAGYGGLFWRGPRSFTGGEFRSPDGTGADEFMGTRSPWIAFTGQHDVTCRFSSIMFVEDSANPGAPNQWFARSSMFACLGSAPFFSEVVPLKEGQPLTYRYAVVISDGKADGDTADRLAEAAKAALESWK				NA	NA	NA	NA	NA
D1-29_01069	744			hypothetical protein	ATGGCCAGCAGCACGTTCCCGGGCGCCACCGCAGTCTCCGCGGTGAGCATCTACAACTGGCCGGCCAGGGACGGTGCCGCCGGCGGCACGCCGCACATGCACACGGCGTCCACGGAGGCGTACATCGTGCTCGAGGGGACGGGCCGCCTCGAGACCCTGGACTCGAGGGGATTTACGTCCACGGACCTGGCTCCCGGGGTGGTGCTCTGGTTTACGCCGGGTACGGTGCACCGGGCCATCAACACCTCGGGCGATCTCAAGGTGCTGGTCCTGATGCAGAACGCCGGGCTGCCTGAGAACGGGGACGCTGTGATGACGTTCCCGGCGGAGCACCTTGTGGACGTGGAGTCGTACCGGGCCGCCGCTTCCCTCCCGTCCAGGGAGGCCGACGGCGGTGATCCGGCTGCGGAGGAAGCTGTCCGCCGTCGTCGGGATCTGGCGCTCGAGGGATACCTTCAGCTCAAGGAGGCGGTCCTGCGATCCGGAGTTGCCGGATTGGCGGATTTCCATGCGGCTGCGGCGAACCTGGTGAGCGGAAACACCCCAACCTGGACAGGCTTCCTGGAGCAGGGGGCGGCCGCGCAGGCAGCGCTGACAAAGGATCATTTACTCTCTCTGGAATCCAAAGAAAGTTTCTTCCTGCAGGAGTCCGCTACTAGGATGGGAATACGGAAACCCCGCAGAATCTACGGCATGTGTGGACGAATCGAGACCTGGGAACTTTCCGATAACAGTCAGCGCTGA	MASSTFPGATAVSAVSIYNWPARDGAAGGTPHMHTASTEAYIVLEGTGRLETLDSRGFTSTDLAPGVVLWFTPGTVHRAINTSGDLKVLVLMQNAGLPENGDAVMTFPAEHLVDVESYRAAASLPSREADGGDPAAEEAVRRRRDLALEGYLQLKEAVLRSGVAGLADFHAAAANLVSGNTPTWTGFLEQGAAAQAALTKDHLLSLESKESFFLQESATRMGIRKPRRIYGMCGRIETWELSDNSQR				NA	NA	NA	NA	NA
D1-29_01070	1032	cytR_3	COG1609	HTH-type transcriptional repressor CytR	ATGACGAAGCCGGACGTGGGACGAGCCACCATCAGCGAGATTGCCCGGGAAGCCGGCGTCTCCGTTCCCACGGTCTCCAAGGTCCTGAACGGGCATGCCCATGTGGCAGCGGCAACGCGCGCCCGGGTGGAGGAAATCATTGCCCGCCGCGACTACGCCCGGCGTCCGGCGAAGCGAAGCAAAAAGGCCGGACTGATCGACCTGGTGTTCCCCGGGCTGGGCTCGGAGTGGGCGCTGGAAATCATCGAAGGCGTGGAGCGCGTGGCGCAGGATGCCGGGTACGGCACGGTGGTGAGCAGCCTTTCCATGGACGGTTCGCGGATCCGGCCATGGCTGGCGAACCTGGCCGAGCGGAAGTCGGACGGGCTGCTGATGGCGGTCTATGAGCTGGACGCCAAGCAGATCCAGCGCATCAAGTCGCTGGGGATCCCGGTGGTGCTGATCGATCCCGTCGGCCAGCCCGGGCCCGACCTCATGACGGTGGGGGCGGCAAACTGGGAGGGCGCGCACTCGGCCACGGAGTACCTGCTGGGGCTGGGGCACCGGCGGATTGGCATGATCGGCGGCCGCGAGGACCTGCAGTGCAGCAGTGCGCGCGAAGACGGGTACATCTCAGCGCTCCGGCGGGCCGGCGTCGGCATAGACCAGGCACTCATGGTTCCCGGTGACTTCTCCATTGAGGCCGGCGAGGCCGGAACCCGCAAGCTCCTTGAGCTGGCGGACCGGCCCACCGCCATCTTCACCGGCAACGACGACCAGGCGCTGGGCGCCTACCGGGCCGCGCGGACGGCGGGCCTTCGGATTCCGCAGGATCTGTCCATCGTTGGCTTTGATGACATCCCGGCCGCCGAATGGATCGAACCGGGGCTCACCACCATCCGCCAGCCCGTGGTCCAGATGGCCGAGACGGCCATGCGCGCGCTGCTCCGGCACCTGGACGGGGACGAGGAGTTGCCGCAGCGGATCGAGCTCGGGACGGAGCTGGTGGTGCGGGGTTCAACGGCGCCGCCGGCGAAGGCCGCGGGTTCCTGA	MTKPDVGRATISEIAREAGVSVPTVSKVLNGHAHVAAATRARVEEIIARRDYARRPAKRSKKAGLIDLVFPGLGSEWALEIIEGVERVAQDAGYGTVVSSLSMDGSRIRPWLANLAERKSDGLLMAVYELDAKQIQRIKSLGIPVVLIDPVGQPGPDLMTVGAANWEGAHSATEYLLGLGHRRIGMIGGREDLQCSSAREDGYISALRRAGVGIDQALMVPGDFSIEAGEAGTRKLLELADRPTAIFTGNDDQALGAYRAARTAGLRIPQDLSIVGFDDIPAAEWIEPGLTTIRQPVVQMAETAMRALLRHLDGDEELPQRIELGTELVVRGSTAPPAKAAGS	PGPT0017992_8318	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
D1-29_01071	345			hypothetical protein	ATGGGTTCCGTTGACGATTCCTTAGCCGATTTACCGCCGTCGGAGCGTGCCTGTCTTCAGCATGTGATAGACGTTGCGCGGGCCGTAGCGCCCGAGGCCATTGATGGCGTGAGCTACGGGATGCCCGCCCTGAAGCTGGACGGGAAGCCGCTCCTTGGCGTCGTTGCAGCTGCAAAGCACCTGTCCGTTTTTCCGTTTTCCCCGGAGGTTGTTGACGCGGTTGCCTCACGACTCGAGGGCTTCTCCCTGTCAAAAGGCACCATCCGTTTCACCCCCGACCATCCCCTGCCGGACGACGTTGTTGAGGAGCTCGTCCGGCTGCGCCGCGCGGAGATCCAGAAGTAG	MGSVDDSLADLPPSERACLQHVIDVARAVAPEAIDGVSYGMPALKLDGKPLLGVVAAAKHLSVFPFSPEVVDAVASRLEGFSLSKGTIRFTPDHPLPDDVVEELVRLRRAEIQK				NA	NA	NA	NA	NA
D1-29_01072	513			hypothetical protein	ATGAAGTCATCGACACGTCCGGACGTTCGTGCGGAGCAGGGCAGTGCGGCGGCGCGGGATGCGGCCGGAATCTGGGCTCGTGCTACCGCTCTGCGGGATCAACTGCCCGTCATTGCAGCGCTGGATGACAAACTGCCAGGTATTGAATCAGCGCTTGCCAGAGACGGAGCCCTGCTACTGATGATCCGTATCGATGATCGCGCACTGGCTTTCTCGATCGTCGTCCCTCATATGAATGTCTTTGAAGTGCTCTACCTTGCAGTGGACCCGGAAGCTTGGGGCAAGGGTCTTGCGCGCCAACTCCTTGACCATCTCCGACGCCATTCACTGAAGGCACAGACTCCTATGGAGCTTTGGGTCATCGCCGACAACAAGAGGGCAATCGCATCCTACGAAAAAGCCGGTTGGATTCCGACGTCGGAACTTGAGGTCCGCAATGAGACGGGGCGGCCGGAACGCCGCTACATCCTGTCCGGTAAAGGATGCTTTACCAGAGAGTCTTTCGGCCCTTAG	MKSSTRPDVRAEQGSAAARDAAGIWARATALRDQLPVIAALDDKLPGIESALARDGALLLMIRIDDRALAFSIVVPHMNVFEVLYLAVDPEAWGKGLARQLLDHLRRHSLKAQTPMELWVIADNKRAIASYEKAGWIPTSELEVRNETGRPERRYILSGKGCFTRESFGP				NA	NA	NA	NA	NA
D1-29_01073	438			hypothetical protein	ATGGCCATCAAATTTGAGAATGTAGGTATCGCTGTTCGCGATATCGAAGCAGCAATCGCCTTTTTCACCGATCTCGGTCTTACTGTCGCGGGCCGTGACACGGTCAGCGGGGAGTGGGCCGACACCGCCGTCGGACTTGATGGAAACCATGCCAAGATCGCGATGCTTCAGACCCCAGACGGTCTTGGTCGGCTGGAGCTCTTCGAATACATCCATCCTGAGGCGATCGAGTCGGACCCGACGCGTCCCAACGACATTGGCATGCACCGCGTGGCTTTCTCAGTAGACGACATCGATAAGGCCCTCGAGGTAGCTGCCAAGCACGGATGCCATCCGCTGCGCGGTGTGGCAACCTACGGCGACGTCTACAAACTCACGTACCTCCGCGGACCCAGCGGAATCCTCGTGATGCTCGCCCAAGAACTGAAGAAAGACTGA	MAIKFENVGIAVRDIEAAIAFFTDLGLTVAGRDTVSGEWADTAVGLDGNHAKIAMLQTPDGLGRLELFEYIHPEAIESDPTRPNDIGMHRVAFSVDDIDKALEVAAKHGCHPLRGVATYGDVYKLTYLRGPSGILVMLAQELKKD				NA	NA	NA	NA	NA
D1-29_01074	264			hypothetical protein	ATGGCACTCGTCACCCTCCTCCACCGCTTCGCCGACTACGACACCTTCCGCAGCGTCTACGACTCGGCGGAAGGGCTGCGGCAGTCCGGCGGGGTGACCGATCATTCAGTGCACCGCATGGCCGACGATCCCAATAACATCCTGGTGCTCCACTACTTCGATTCAGTCGAGGCAGCCCGCGCATACCTGAGCAATCCCGGATTGAAAGTCGCCATGCTGCAAGCCGGCATGCAAGGCGAGCCGCGGATCGAGTTCTACGAGTAA	MALVTLLHRFADYDTFRSVYDSAEGLRQSGGVTDHSVHRMADDPNNILVLHYFDSVEAARAYLSNPGLKVAMLQAGMQGEPRIEFYE				NA	NA	NA	NA	NA
D1-29_01075	567			hypothetical protein	ATGGGTACTCATAATCGAGTGATTGCCATCAGCAGTGAGAGTTTTCCCGATTGCTACCTCGAGGTCATCGCGATCGATCCCGACGCGCCGGCGCCGGGGAGGCGGCGGTGGTTCGGGCTCGACGACCCCGAGGTGCGCGAGGCTGTCCGCGAATCCCCTCGGCTGGTGCATGCAGTGGCACGCACGCGCAAGATCGAAATGCTGTGCCGGGACCTCACCAACTTCGGCCTCAATCCTGGCGTGCTGCTTGCGGCCCAGCGCGACACGCCTCATGGACTGTTGAAATGGCGGATCACAGTCCGCGACGACGGCGCCACTGAATGCGCCGGCGCGCTGCCCAGCTTGATCGAATGGGAAGGGCAACATCCGTGTGCCCACATGCCCCCAACAGATGTCACCCTGCAGGGCCTGGTGCTGCGCGGTGTTCCGGTGCAGGCGGCCGACGTGCTGAAGCTTCCGGCAGTTCACACGAGTCCCATCGACGATGAACAGAAAACACCGCTTACCGCGACGCTGGAATCGCCGCGCGGGGGCGTTGTGCTCGATGCGTGGCACTCCGAACGCTGA	MGTHNRVIAISSESFPDCYLEVIAIDPDAPAPGRRRWFGLDDPEVREAVRESPRLVHAVARTRKIEMLCRDLTNFGLNPGVLLAAQRDTPHGLLKWRITVRDDGATECAGALPSLIEWEGQHPCAHMPPTDVTLQGLVLRGVPVQAADVLKLPAVHTSPIDDEQKTPLTATLESPRGGVVLDAWHSER				NA	NA	NA	NA	NA
D1-29_01076	189			hypothetical protein	GTGGAGAGCCTGTGGGCGGAGCGCGGTTCGGTGGTGTCACTAACGATGTCATCTGACACCACACTGAAACCTGGGGCGGCGCCCGAGGCCCACCCTCAAACCGACGACGGCGCCTACCACCGCCTCAAAGTCACTGCCCGCCCCACCAAATACGGCAGCTTCCGCGCCTTCCGCGCGGCGGTGCTCTGA	MESLWAERGSVVSLTMSSDTTLKPGAAPEAHPQTDDGAYHRLKVTARPTKYGSFRAFRAAVL				NA	NA	NA	NA	NA
D1-29_01077	972	drrA_1		Daunorubicin/doxorubicin resistance ATP-binding protein DrrA	ATGACCCGCACAGTTATCGCCACGGACCTAGCCTTCGATGTCCGCGGCCTGCGTAAGAGTTTCGGCGAGCACACCGTGCTGGACGGCATCGACCTGCAGATCGAACGCGGCAGGGTGTTTGCCCTCCTCGGCCCCAACGGTGCCGGTAAAACCACCACCGTCCAGATCCTTGCCACGCTGATCAAGGCTGACGGGGGCACCGCCCTGGTGGGCGGCCATTCCGTGACCCACGAACCGGGCCGGGTCCGCCGGGCCATTGGCGTGACCGGACAGTTCTCCGCCGTCGACGAACTCCTCACCGGCGCCGAGAACCTCCGGCTGATGGCGCGGCTGCGCCATGTGCCCAAGGGTGAGCGGGAGGCATTGATCGAGCGTCTGCTGCGCCAGTTCGATCTTACGGAGGCCGCCACGAAGCCCGTGTCCACCTACTCGGGAGGCATGCGGCGGCGCCTTGACCTGGCCATGACGCTGGTGGGGGACCCGAGGATCATTTTCCTCGACGAGCCCACCACTGGCCTGGACCCGCGCAGCCGGCGGGCCATGTGGGACGTGGTGCGCACGCTGGTGGCCGGCGGCGTCACCCTTTTCCTGACCACCCAATACCTCGAAGAGGCGGACCAGCTGGCGGACCGGGTGGCCGTGCTCGACGGCGGCAGGATCGTCGCCGAAGGCACCCCTGCCGAGCTCAAGGCAGCCGTGGGCGAGGAGCAGCTGCGGCTTCGCTTCATCACCGAAGACCAGGCGGGCAGGGCGCGGACGGCGCTGGCCGCCGTCGTCCAGGACGTTTTGCCGGCCTCCGACGCCGGACTGGAGCTCCGCGTGCCAACACCCGCCAACGGCGCGGCCGTGCGCGGCGTGCTGAACATTTTGGCGGCAGCCGGGGTGGAACCGGCCGAAGTCACCACCGCCGCCCCCGACCTTGACGATGTCTTTTTCGCGCTCACCGGGGCACCTACCAAGGAGGAAGCATGA	MTRTVIATDLAFDVRGLRKSFGEHTVLDGIDLQIERGRVFALLGPNGAGKTTTVQILATLIKADGGTALVGGHSVTHEPGRVRRAIGVTGQFSAVDELLTGAENLRLMARLRHVPKGEREALIERLLRQFDLTEAATKPVSTYSGGMRRRLDLAMTLVGDPRIIFLDEPTTGLDPRSRRAMWDVVRTLVAGGVTLFLTTQYLEEADQLADRVAVLDGGRIVAEGTPAELKAAVGEEQLRLRFITEDQAGRARTALAAVVQDVLPASDAGLELRVPTPANGAAVRGVLNILAAAGVEPAEVTTAAPDLDDVFFALTGAPTKEEA	PGPT0006725_4979	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-29_01078	834	drrB_1		Daunorubicin/doxorubicin resistance ABC transporter permease protein DrrB	ATGACAACCATGAAAGCACCGGCAGCGGCATATGAGCCCAGCGCCGTGCAGCACGCCCTCGCGGACACCGTGACCCTGACCGGCCGGGGACTGAAGCGGCTGGTCCGTTACCCGTCAATGATCATCATGATGGTCGGCTTGCCCGTCATCTTCCTGCTGATGTTCGTGTACGTGTTCGGCGGCATGATGGGCGCGGGGCTGGGGGCGGAGTCCGACAGCGGGGTGGCAGCCTACCTCCAGTACGTGGTTCCCGGGATTGTACTGATGGCAGTGGGTACCGGGGGAGCGGGCACAGCGATCTACATTGCAATGGATATGCGGCAGGGTGTGGCGGCCCGGCTGGCAACGACGGACGTCTCCCGCATCGCGATCCTGTCTGCACACGCCGTGGTCAGCGTGGTGCAGGCGCTCCTGGCCACGCTCGCTGTAGGGGCCGCGGCGATGCTGCTGGGCTTCCGGCCCGCCGGCGGGGTGTGGGGAGTCCTGGCCGCGCTGGGCGTCGTTGCCCTGATCGGCTTCGCCATCACCTGGCTGTGCCTGGCGCTGGGAATCGTCGCTGACACCGTTGAAACGGCCAGCAACTCGCCCATGCCGCTGTCCTTCCTGCCGTTCCTGAGCAGCGGGTTCGTCCCCACTGATTCCATGCCCGCATGGTTGGGTGTGGTGGCGGAGTACCAGCCGTTCACTCCGTTCATTGAGACGGTGCGCGGGCTGCTGATGGGTACGGGCGTTGGAAACTACGGGTGGCAGGCCCTGGCGTGGTGCGTGCTGCTGACCGGTCTGGGCATGGCGTGGTCGCTGACCAAGTATGAGGCCAGCCAGACCCGCTCATAA	MTTMKAPAAAYEPSAVQHALADTVTLTGRGLKRLVRYPSMIIMMVGLPVIFLLMFVYVFGGMMGAGLGAESDSGVAAYLQYVVPGIVLMAVGTGGAGTAIYIAMDMRQGVAARLATTDVSRIAILSAHAVVSVVQALLATLAVGAAAMLLGFRPAGGVWGVLAALGVVALIGFAITWLCLALGIVADTVETASNSPMPLSFLPFLSSGFVPTDSMPAWLGVVAEYQPFTPFIETVRGLLMGTGVGNYGWQALAWCVLLTGLGMAWSLTKYEASQTRS	PGPT0006730_15944	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-29_01079	687	yedK_1	COG2135	SOS response-associated protein YedK	ATGTCGAAAGCCACGGGCGATCTCCTGGCTCACTTCGAGGCCAGAGACGTTGAGGGCAGCCCGCCTCCGCCGAGCTGGAATGTTGCGCCCACCCAGGATGTCCCCATCATCACGGAGAAGCTGGACGAGGACTCTGTGGAGCGGCGGCTGCTGATCGCGCGCTGGGGTTTGGTTCCGTCCTGGGCCAAGGACGTCAAGATCGGCTGCAAGCTGATCAACGCCCGCAGCGAATCGATCCTGGACAAGCCGGCCTTCCGGAAGGCGGCCATCACGCGCCGGGCCCTGATCCCGGCGGACGGGTACTACGAGTGGGAGAAGACTGAGGACGGGAAGAAGATCCCGCACTACCTCTACTCCGACAAGGATGAGGTGTTGGCCTTCGCCGGCCTGTACGAGTTCTGGCCGGATCCGGCCCTGCCCAAGGACGATCCTCACCGCTGGCTGCTCAGCTGCACTGTCCTCACGACGACGGCCCACGACTCACTTGGCCACGTCCACGACAGGGCCCCGGTCATCGTCCCCCCTGGCCTGTACGCAGACTGGCTCAACCCGGAAATCAGGGAGAAGGAGGACGTGCAGGAATTGCTGGACGCCATCCCGGAAGCAATCCTGACGCCGAGGGTGGTGACTGATCGCGTGAACAGTGTGGGCAACAACGGCCCTGAGCTGATTGAGCCGGCACAGTAG	MSKATGDLLAHFEARDVEGSPPPPSWNVAPTQDVPIITEKLDEDSVERRLLIARWGLVPSWAKDVKIGCKLINARSESILDKPAFRKAAITRRALIPADGYYEWEKTEDGKKIPHYLYSDKDEVLAFAGLYEFWPDPALPKDDPHRWLLSCTVLTTTAHDSLGHVHDRAPVIVPPGLYADWLNPEIREKEDVQELLDAIPEAILTPRVVTDRVNSVGNNGPELIEPAQ				NA	NA	NA	NA	NA
D1-29_01080	294			hypothetical protein	ATGGCTACCCTGCGGATCGATCTTGAGGTTCGTGACTATGACCTCTGGAGGAATGCTTTCGAAAAGGATGCCGGCGGGCGGCAGCGTTCCGGCGCGCGCAGCTACCGGATCTTCCGTCCGGTGGACAACGAGCACCGCGTCATGCTGGACATCGACTTCGACTCGGTCCAGAACGCCGGCACGTTCCTGGACATACTTCGCACCAAGGTTTGGCCATCCCCGGAGAAGTCGCCCGCCAAGATGGGCGAAGCCACCACCCATATCCTGGAAATGGTTGACGCCCGGGAGTACTGA	MATLRIDLEVRDYDLWRNAFEKDAGGRQRSGARSYRIFRPVDNEHRVMLDIDFDSVQNAGTFLDILRTKVWPSPEKSPAKMGEATTHILEMVDAREY				NA	NA	NA	NA	NA
D1-29_01081	711			hypothetical protein	ATGGAAACAGTGGTCAATAGCAGCCGAAGGTATGATTCGCCGCGCCGCCGGGCCCAGGCGCAGGCCACCCGACAGGTGATCCTGGACGCCGCGCAGCGTCTCTTCGAACGCCAGGGCTATCCCGCGACGTCAATGCCGTCCATCGCGGAGGAGGCCGGGGTTGCCCTGAAGACCATCTATGTCTATTTCGAAACCAAGGCCGCCCTGGTCCGCGCGCTGTGGGACGCGCGCCTGGGCGGGGAGGAAGCAGAGGTCCCCGTCCTGGAGCGCGACTGGTACCGCGCAGTGGTCAACGAACACGACGCCGAGCGGAAGCTCCGCCTCGTGGCGGCGCAGGCACGCCGGGTGAAGACGGGCTCGGGGGCTTTATTGGAGGTTATCCGGACTGCAGCCTCAGCCGACCCGGAGATCGCTGCCCTCTGGACCGGTATCGAGGCAAAACTTCTGGATGTGCAGCGTGCCATCGTGGAGCAGCTCCATGTCAGCGGATCACTTGCGAAGTCCCTCGACGTCGTGCGGGGAACAGACATCCTGTGGACTCTCAATCACCCCACGGTGTGGCAGCTGCTGGTCCCGGGGCGGGGCTGGACCGGCGAGGAATATGAGCGCTGGCTGGGGGACGCCTTCTGCTCCCAGCTGCTTAGTGCACACCAGGCTGAGCCACCCCAAGCTGATCCACCCAAACCGAGGGCATCCAAAGCGAAGGGGTAG	METVVNSSRRYDSPRRRAQAQATRQVILDAAQRLFERQGYPATSMPSIAEEAGVALKTIYVYFETKAALVRALWDARLGGEEAEVPVLERDWYRAVVNEHDAERKLRLVAAQARRVKTGSGALLEVIRTAASADPEIAALWTGIEAKLLDVQRAIVEQLHVSGSLAKSLDVVRGTDILWTLNHPTVWQLLVPGRGWTGEEYERWLGDAFCSQLLSAHQAEPPQADPPKPRASKAKG				NA	NA	NA	NA	NA
D1-29_01082	3570			hypothetical protein	ATGGTTTTCCAGCGCCCAGATGGAGCGATGGGAGGATTCCGCCGCGCGCAGCATGCCGTGGTGGTCATTGTCCTTGCCGTCGCCGCCCTGCTGGCACCTGGCATCGACCCGGCCCTTGCATATTCCACCGGCCCCGTCTCCGGCATCAGCTCCGCCACCCTGGGCAGCCTGCAGCCGCCCACCAACGTCTCAGTCCCGTCGAGCAGCACAGGCACCGTCCGCGTGAGCTGGACGGCCGCCGTCGGAACCCCCGCACCCACCGGCTACTTCGTCACCAGAACGAGGGCCAGTGACGGTTCCACGACGGCGGCCTGCGGCACCAGCGCATCCGCCACCACCACCGGAACCGCCTGTGATGACATTAAAGTCCCCGTTGGGGACTACAGCTATACGGTCACGTCCGTGTACAGGACATGGACCGCTTCCAGCGCATCGAGCGGGAGCGTCGGGGTCACCCCGCCGGGCTCAGCCGCAAAGCTTCTGTTCCTCACCCAGCCAGCCAACTCCTCCAGCGGTGTGGCCCTTCCCACCCAGCCCGTCGTCGTCGTCACGGACCTGAACGGCAGCATCGTCACCACCCAGGCCCCCACCCTTGTTTCCATCACCGCTTCAGGCGGCCTGCTCACGGGCTGTTTTCCGGCCACCACGGTGAACGGCACGGCAACGTTCTCGGGCTGCACCGTCACCGGCCCGGGCACCTACACGCTGACCGCTGCCTCGTTCCCGCTGACCAGCGCGGTCAGCACGGCTTTCACAGTCGCCGGCACGGCGGCCAAACTTGGTTTCACCACGTCGCCCTCCGGAGCCACCGGCGGCGCAGTCTTCGCCGCCCAGCCAGCCGTCTCTGTCCAGGACAGTTCCAGCCGGACCGTCACCACCAGCACGGCCCCCATCACGCTGAGCATCAGCAGTTCACCCGCCGGGGCCAACCTCAGCTGCGACTCCAACCCCAAGAGCGCCGCCGCCGGCGCGGCCTCGTTCTCAGGCTGCAGGATCGACAAAACCGGGACCTACACCCTGACAGCCAGCGGTGCCGGCTTCACCACTGTCAGCGCCAGCTTCACTGTCACCATCGGGGCGGCCAGCAGGCTGGCCTTCACCACCCAGCCCTCCGGCTCCACCGGCTCCGTGTCTTTCGGGACACAGCCCGCCGTCAGCATCCAGGACGACGGCGGCAATACAGTCACGACGTCGGCGGCCACCGTGGACCTGACGCTCACCGGAACAACCGGGGCAACCCTGAATTGCACCGCCACGCAGGTGGCAGCTGCCGCAGGCGTGGCAACTTTCTCAGGCTGCAGCATCAACAGGGCCGGCACATACACACTGACTGCCACTTCCGCCGGGCTCATCTTCGCGCTCAGCGATACTGTTGCCGTCGCTGCCGGTGCGCCGGCAAAACTGGGCTTCACCGTCCAGCCGTCCCAGGCCACGGCCGGCAGCGCTTTCGCCACCCAACCGACAGTGGCCCTGCAGGACGCCGGCGGAAACACCGCCGGCGGCACCGTTGCCATCACACTGAGCATCACGGGCGCACCCGGCGAAACCATCCTCAGCTGCGCGGCAAACACCGTGACCACAAACGGGGGTCTGGCCTCCTTCTCCGGTTGCAGTGTCAACAAGGCAGGCACCTACACCCTGACAGCGACAGGAGCCGGCTTCACCACCACCAGCGTCAACTTCACCGTTGCCCTGGGAACGCCCACGAAACTCGGCTTCACCACCAATCCGACCAACTCCACCGGCGGCGTCCCCTTTCCGGCCCAGCCGGTGGTGGCCATCCAGGACGCAGGCGGCAACACCATGACCGACAGCACCGCCGCGGTGACCCTGACCATCACCACACCTGCCGGTGCCACCCTGGCCTGTGCTGCGAACCCCGTCGCTGCCGTTTCGGGCGTCAGCGCATTTGTTGGCTGCAGCATCAACAGGCCGGGCACCTACACCCTCACCGCCACGTCCGGAAGCCTCACATCGTCAGTCAGCACCAGCATCACCATCACCACCGGTCCGGCGGCCAAACTGGCCTTCATCACGTCCCCTTCCAGCAGCCCGGTCAACACCGTTTTCGCCACCCAGCCAGCTGTGGCAGTCCAGGACGCCGGCGGCAACGCCATCACCGGCAGCACCGGCCCCGTCACGCTGAAGATCTCGTCCCCCAGCGGCGGGGCCAGCCTCACGTGCACCAGCAACCCTAAAAACGCCGTGTCCGGTGTTGCCACTTTCGCAGGCTGCAGGATCAGCAAAACGGGAACCCGCACCCTGACAGCCACCTCCGGCACGCTCACCGCAGGCACCAGCGCCAGCTTCAACATCACCGGCGGCACGGCCACCAAACTCTCCGTGACCACCAGCCCCAGCGGTTCCACCGGCGGGGTTGCCTTCCCCACCCAGCCCGTCATCACCATCCTGGATGCCGACGGCAACCCAACGGCAAGCACGGCAGCCGTCACCCTGGGCATCACCGCACCCGCCGGTGGAGCCGCCCTGAGCTGCACGGCCAATCCTAAAGCCGCCATATCAGGCGTGGCCGCGTTTACCGGCTGCAGCATCAACAAGCCCGGCACCTACACCCTGACCGCGACGTCGGGAACCCTGACCGCAGCTGTCAGCTCCTCCTTCACCGTCACGACGGGCCCGGCGGCCAAGCTGGGCTTCACCAGCACCCCGTCGAACTCCGTCTACAACACGGTCTTCGCCACCCAGCCGGCAGTGGCCGTGCAGGACGCCGGCGGCAACACCATCACCGGCAGCGCCGCACCAGTCATGCTCAGCATCACCACACCGGCAGGCGCGGTCCTGGTCTGCACCCAGAACCCGGTGAACGCAGCCTCAGGCATCGCCGCATTCACGGGCTGCAGCATTGACAAGGCGGGCACCTACACCCTGACGGCGGCCTCCAGCGCGCTCGCCCCGGCCACAAGCGCCACCTTCACCATCGCCGGAGGGGCTCCCACTAAACTCGCCTTCACCACCAACCCGGCAAACTCCACCGGCGGGACCGCCTTCCCCACGCAGCCGGCAGTGAGCATCCAGGACGACGCCGGCAACACCACCACCAGCACAGCTTCCGTCACGCTGAGCATCACCACGCCCGGCGGAGCCGTCCTGGCATGTACGGGCAACCCCAAGGCAGCAGTAGCCGGCGTGGCCGCTTTCACCGGCTGCGCGGTGAATAAGGCCGGGACGTACACCCTCACCGCCACCTCGGGAACGCTCACCACGGCCGTCAGCTCAAGCTTCACCGTCTCGGTGGGCCCCGCCACCCGTCTGGTCTTCACCACACAGCCAGCGGGCGCGTCCGTCAACACCGCCTTCACCACCCAGCCCGTGGTGACAGTCCAGGACGCCGGCGGCAACACCGTCACCTCCAGCACGGCAGCGGTCACGCTGGCCATCACGGAAAAGCAGGGCAACCCTACCCTGACCTGCACGGCAAACCCCCAGAACGCCGTCGCCGGTTTGAGTACTTTCAGCGGCTGCCGAATCAGCAGGACGGGGACCCGCACGCTGACCGCAACCTCCAACGGGCTCACGGCAGCAATCAGTGATCCCTTTATGGTCCAATGA	MVFQRPDGAMGGFRRAQHAVVVIVLAVAALLAPGIDPALAYSTGPVSGISSATLGSLQPPTNVSVPSSSTGTVRVSWTAAVGTPAPTGYFVTRTRASDGSTTAACGTSASATTTGTACDDIKVPVGDYSYTVTSVYRTWTASSASSGSVGVTPPGSAAKLLFLTQPANSSSGVALPTQPVVVVTDLNGSIVTTQAPTLVSITASGGLLTGCFPATTVNGTATFSGCTVTGPGTYTLTAASFPLTSAVSTAFTVAGTAAKLGFTTSPSGATGGAVFAAQPAVSVQDSSSRTVTTSTAPITLSISSSPAGANLSCDSNPKSAAAGAASFSGCRIDKTGTYTLTASGAGFTTVSASFTVTIGAASRLAFTTQPSGSTGSVSFGTQPAVSIQDDGGNTVTTSAATVDLTLTGTTGATLNCTATQVAAAAGVATFSGCSINRAGTYTLTATSAGLIFALSDTVAVAAGAPAKLGFTVQPSQATAGSAFATQPTVALQDAGGNTAGGTVAITLSITGAPGETILSCAANTVTTNGGLASFSGCSVNKAGTYTLTATGAGFTTTSVNFTVALGTPTKLGFTTNPTNSTGGVPFPAQPVVAIQDAGGNTMTDSTAAVTLTITTPAGATLACAANPVAAVSGVSAFVGCSINRPGTYTLTATSGSLTSSVSTSITITTGPAAKLAFITSPSSSPVNTVFATQPAVAVQDAGGNAITGSTGPVTLKISSPSGGASLTCTSNPKNAVSGVATFAGCRISKTGTRTLTATSGTLTAGTSASFNITGGTATKLSVTTSPSGSTGGVAFPTQPVITILDADGNPTASTAAVTLGITAPAGGAALSCTANPKAAISGVAAFTGCSINKPGTYTLTATSGTLTAAVSSSFTVTTGPAAKLGFTSTPSNSVYNTVFATQPAVAVQDAGGNTITGSAAPVMLSITTPAGAVLVCTQNPVNAASGIAAFTGCSIDKAGTYTLTAASSALAPATSATFTIAGGAPTKLAFTTNPANSTGGTAFPTQPAVSIQDDAGNTTTSTASVTLSITTPGGAVLACTGNPKAAVAGVAAFTGCAVNKAGTYTLTATSGTLTTAVSSSFTVSVGPATRLVFTTQPAGASVNTAFTTQPVVTVQDAGGNTVTSSTAAVTLAITEKQGNPTLTCTANPQNAVAGLSTFSGCRISRTGTRTLTATSNGLTAAISDPFMVQ				NA	NA	NA	NA	NA
D1-29_01083	462			hypothetical protein	ATGTCAACGAAAAAGCTCACGTTCAAATTCGGCCGGAAAACTGTCGCCGCCCTCACAGCGGCCTTCCTCATCATCGGTGGCGGCGCCTACGCGTACTGGACCACCACAAGCCAGGGAACAGGGGCCGCTCCCAACGCCGCCTCCAACGGCAGCATCGTCCTCACGGCATCATTCGCCTCGGGCCTCACCCCCGGCGCCAGCACCGCCGTCACCTACACAGCAGACAATCCAGGGACCTCCAGCCTGCAGGTGGGAACCATCAGCCACGTGGTCACCACCAGCAACCCGCTGTGCCTGCCGGCAGACTTCACCATCGCCAACGTGGCATCAAACACCACGGTGCCGGCCGGCAGCGATGACTTTGCCATTGCCGGGGCGGGAACACTCTCCTTCGCCGACACCTCAGTAAACCAGGACGCCTGCAAAAGCGCCATCGTCACGCTGACACTCACCGCCAACTAG	MSTKKLTFKFGRKTVAALTAAFLIIGGGAYAYWTTTSQGTGAAPNAASNGSIVLTASFASGLTPGASTAVTYTADNPGTSSLQVGTISHVVTTSNPLCLPADFTIANVASNTTVPAGSDDFAIAGAGTLSFADTSVNQDACKSAIVTLTLTAN				NA	NA	NA	NA	NA
D1-29_01084	306			hypothetical protein	ATGACAAACATCAGCGTTTTCCAGAGCGTCACTCTTGACGGGGTTATGCAGGGACCCGGAAGGCCTGATGAGGACACCCGCGGGGGATTCAATCACGGCGGGTGGGCCAACGGTTATCAGGATGAAGTGTCCATGCAGTTTGCCGGCGAAGGAATGTCCTCCGGGGGTTCTCTTTTGTTCGGCCGCCGCACCTATGAAGACCTGCTCGGTATTTGGAGCACGACGCCGGATCCCAACCCCTTTACCGACGTTCTCCTCAACTCGCGCAAGTATGTGGTGTCCTGTTCGGCGACGGCCAGCGCCTAA	MTNISVFQSVTLDGVMQGPGRPDEDTRGGFNHGGWANGYQDEVSMQFAGEGMSSGGSLLFGRRTYEDLLGIWSTTPDPNPFTDVLLNSRKYVVSCSATASA				NA	NA	NA	NA	NA
D1-29_01085	189			hypothetical protein	ATGGCTGACAGCAAGAGCAGGGGGCGTGGACGTCGGGAAGCCCGGGAGCAGGCGGACACCGATCCCACTGAATCGGCAGACAGCGTTGAGAAGGACCAGGAGCCTCCGGCTGACAAAGAGCCGGATATCCGCCGGGTGCCTGGGCTTCACGGCTACGACCCGAGCCAATGGCCGGATACAGCTACATAA	MADSKSRGRGRREAREQADTDPTESADSVEKDQEPPADKEPDIRRVPGLHGYDPSQWPDTAT				NA	NA	NA	NA	NA
D1-29_01086	942			hypothetical protein	ATGACGACAAAAACCCCCGCTCTCCCCCCAGCGGTTCGTGCACTTCACCTTCTCGAGCGCGTCGCTCCACCCTTGGCAGCCGAGGCCGCCTACAGGCTTTGGGTCCGTCCCGGTAAGCGCAAGCCCGTGCATGACACGGAAAGGCCGGTGATGGACCAGGCCGCCCGATCCATGATCAGCGTGCGCGGGCAGCGCGTGGCCGTCTACCGCTGGGGAACGGGCCCGCGTGCGGTCCTGCTGGTCCACGGCTGGCAGAGCCGTGCCGCTGTTTTGGCCCCCCTCGTACGCGAACTGCGGGCCGCGGGCCGCACGATCGTTGCCTTCGACGCCCCCGGGCACGGCGAATCCAGTGGACACCAGACCAACGTCCGCGACTACGCCGCCATCATCGAGGAGCTTGCGCGTGAACATGACGGGTTTGAGGCGATCGTGGCACATTCGTTCGGGACGCCGGGGGCCGCTCTCGCCATCCGGAACGGAGTACGGGCTGGACGGCTGGTCACGGTAAACGGCGCCGCTGACTTCGAGTATCTGCTGGCGGGCTTCGCACGCAAGCTCGGGCTGCGCGATTCAACCGTGCTTGCGGTGCGGCGCCTCACAGAGCGCCGCGTCTTCCCTGGAGTCGCAGATATTTGGACAAGCCTTTCGGCCACCGCCCCGCTTCCCGTCGCCGTTCCCTGGCTCGTTATCCACGACGACTCAGACACCATGATCGGGCTGGACCAGGCCCACGCCCTCCTCGATGCCCACCATGCATCCACCATCCTGGTGGTCACGCATGGACTGGGCCACAACCGGCCGCTCCGTGACGACAGCGTGCTGGACCGGATCAGCAGCTTCCTGTCTCCCGCCTCTCAACGCCAGCCCCAAGGGGCGGAACGGCAGCCGGCCCAGGAAAGGCAGCCGAGCCGGGATAAGGTGCCGTCTTCCGTACTCGCCTAG	MTTKTPALPPAVRALHLLERVAPPLAAEAAYRLWVRPGKRKPVHDTERPVMDQAARSMISVRGQRVAVYRWGTGPRAVLLVHGWQSRAAVLAPLVRELRAAGRTIVAFDAPGHGESSGHQTNVRDYAAIIEELAREHDGFEAIVAHSFGTPGAALAIRNGVRAGRLVTVNGAADFEYLLAGFARKLGLRDSTVLAVRRLTERRVFPGVADIWTSLSATAPLPVAVPWLVIHDDSDTMIGLDQAHALLDAHHASTILVVTHGLGHNRPLRDDSVLDRISSFLSPASQRQPQGAERQPAQERQPSRDKVPSSVLA				NA	NA	NA	NA	NA
D1-29_01087	681			hypothetical protein	ATGCAAAACACGGCAACATCCGATGGCCGCCGGCTCCGCGGCGATGAATCGCGGCGCGCCGTTCTGCGGCTCGCCGTCGACCAGGCGTCGTTGACCGGATTGGACGGGCTAACCATCGGCGGGCTGGCAAGTGAGCTGGGCGTCAGCAAGAGCAATGTGGCAACCCTGTTTGGCTCCAAGCTGGACCTGCAACTCGCGACGATCGATGCCGCGCGCACCGTATTCATTGACACGGTCATCACTCCGGCTCTCGCCAGGCCACGCGGCCTCCAGCGACTCATCGCGCTTATTGAGCTGTGGCTCGACTACTCCGAGGGCCGTGTATTTGCCGGTGGATGCTTTTTCCGCGCTGTCGGGGCTGACGCCTCGGCGAAGGACGACGCCGCCCGTGACCTTCTCGCCCAGATCGATGCGGAGTGGCTGGCCTTCGTTACGCGCGCCGTCCGCGAAGCCGAGCCGGAATTGCCTGGGCTTGCCGGCCGAACCGATGCCGCTGAGGTCCTGGCGTTCGAGATCGGTTCCATGCTGGAAGCCGCCAACAGCATGTCACTGCTTCACCGCACCTCGCGCGGATACGCACTGGCACGCAGCGCCGTCCGTGATCGGCTGGTCGCGCTCGGAGCCCCGCCGGACATCACGCTCTCGCCCGGTCCAAGGGCGCCATTGTCAGAAGGCCATTAG	MQNTATSDGRRLRGDESRRAVLRLAVDQASLTGLDGLTIGGLASELGVSKSNVATLFGSKLDLQLATIDAARTVFIDTVITPALARPRGLQRLIALIELWLDYSEGRVFAGGCFFRAVGADASAKDDAARDLLAQIDAEWLAFVTRAVREAEPELPGLAGRTDAAEVLAFEIGSMLEAANSMSLLHRTSRGYALARSAVRDRLVALGAPPDITLSPGPRAPLSEGH				NA	NA	NA	NA	NA
D1-29_01088	1551			putative triacylglyceride transporter	GTGATCCAGAGCCCGCCCCCGGCCAGCGGGCGGGTGTCGGCCAACCGCCGCATCGCGATCAGCGCGGGCAGTCTCGCTGTGACGCTGGGCGCGCTCGACACCTACGTCGTCGTCACGATCATGACCGACATCATGCGCGACGTCGGCATCGGAGTGAATCAGCTCCAACGGGTAACTCCGATCATCACCGGTTACCTGCTCGGTTACATCGCGGCGATGCCGCTACTGGGCCGGGCGTCGGACCGGTTCGGCCGGAAGATGCTCATCCAGGTCAGTTTGACCGGCTTCGCGTTCGGATCGGTGGTCACGGCACTGTCGACCGATCTCACCGTGTTGGTCATCGGCCGCACTCTCCAGGGCGCTGCCAGTGGCGCCTTGCTGCCGGTAACGATGGCCTTGGCCGCCGAACTGTGGGTTGCGCGCAATCGCGCAGCTGTACTCGGCGGTGTTAGTGCGGCACAGGAACTGGGCAGCGTGCTCGGGCCGGTTTACGGCATCGCCCTGGTCGGGCTGTTCCAGCATTGGCAAGCCGTGTTCTGGGTCAACGTGCCGCTTGCGGTGATCGCGATGGTGATGGTCCACTTCAGCCTGCCCGGCCGACAGAGAACCGATGATCCCCAGAAAGTCGACGTGCTCGGCGGTATGCTGCTGGCCATCGCCCTGGGCCTGGCCGTGATCGGGCTTTACAACCCCAAGCCCGACGGCAAGCTGGTGCTGCCCGGCTGGGGAATGCCGGTGCTGATCGCCGCCGCCATGGCAACCGTCGCGTTCTTCGTCTGGGAGAGGTTCGCCCGCACCCGGCTGCTGGAACCGGCGGGAGTGCACCTCAGACCGTTCCTGGCGGCACTTGGGGCGTCGTTGGCCGCCGGCGCAGCGCTCATGGTGACGCTGGTCAACGTCGAGCTGTTCGGTCAGGGTGTCCTGGGTCAGGACCAGAACCAGGCCGCCCTCCTGCTGCTGCGCTTCCTCGCCACGCTGCCGGTTGGGGCGCTACTCGGCGGATGGCTGGCCACCCGGATCGGCGACCGCATCGTCGCGTTCACCGGCCTGCTTGTCGCCGCCGCGGGCTATCTGCTGATCTCGAAATGGCCCGTCGATGCGCTGACAGCACAACACGATCTCGGACTGTTCACCCTGCCGACACTGGACACCGACCTGGCGATCGCTGGCCTCGGTCTCGGCCTGGTGATCGGGCCGCTGACGTCGGCGACGCTTCGGGTGGTCCCCGGCGCCCAGCACGGGATAGCGTCGGCAGCCATCGTGGTCGCCCGCATGATCGGCATGCTGCTCGGCATTGCGGCACTGAGCGCATGGGGCCTCTACCGGTTCAACCAGCATCTGGCCAGTCTGCCCGCCAGTACCGGCGAGACACTCGAGGAACGGATATCGCTCGAGGCCGCCCGGGTCCGCGAGGCGTACGCCCTGCAGTACGGCGAGATCTTCTCGATCACCGCAATTGTGTGTGTGGTGGGCGCAGTGCTGGGTCTGCTGATCAGCGCGCGCGACGAGTACGCCGAGGAGCCGGAGCCAGACGCTGTGGGAGACTCCTAA	MIQSPPPASGRVSANRRIAISAGSLAVTLGALDTYVVVTIMTDIMRDVGIGVNQLQRVTPIITGYLLGYIAAMPLLGRASDRFGRKMLIQVSLTGFAFGSVVTALSTDLTVLVIGRTLQGAASGALLPVTMALAAELWVARNRAAVLGGVSAAQELGSVLGPVYGIALVGLFQHWQAVFWVNVPLAVIAMVMVHFSLPGRQRTDDPQKVDVLGGMLLAIALGLAVIGLYNPKPDGKLVLPGWGMPVLIAAAMATVAFFVWERFARTRLLEPAGVHLRPFLAALGASLAAGAALMVTLVNVELFGQGVLGQDQNQAALLLLRFLATLPVGALLGGWLATRIGDRIVAFTGLLVAAAGYLLISKWPVDALTAQHDLGLFTLPTLDTDLAIAGLGLGLVIGPLTSATLRVVPGAQHGIASAAIVVARMIGMLLGIAALSAWGLYRFNQHLASLPASTGETLEERISLEAARVREAYALQYGEIFSITAIVCVVGAVLGLLISARDEYAEEPEPDAVGDS				NA	NA	NA	NA	NA
D1-29_01089	717	lprG		Lipoarabinomannan carrier protein LprG	ATGTATAATGCACCCCTGCAGACCCGCCTTGTGGCGATCTTCGCGCCCCTCATCGCCGTCGTCGCCCTCGTTGCAGGGTGCACCAGCCCACCGTCGCCATCGTCGGAGGAGACCCTCGACCCCGCCACCCTGTTAAAGCAGTCGAGTGAGACCACCAAAGGGCATACCAGCGCGCATCTCAAGCTAGCGGTTGAGGGCCAGATCGCCGGACTGCCGGTCGAGCTCATCGATGCCGATCTCACACAGACTCCCGCAGTCGCCGCCAAGGGCACACTCGACATGACGTACCTTGGCCAGCAGCTCAAGGGGGTCGAGTTCGTGGTCTCCGACGGCCAGCTCTGGGCCGCGATCATGCCTGGGGGCAGTCCGACGAACTTCGGGCCGGCAGCCAACATCTACGACGTCGCGGCGATCCTGGACCCCGACGCGGGGCTGGCCAACGTGCTCGCCAACTTCTCCGATGCTAAGGAGGACGGCCGTGAGACCGTCGAGGGCGTGGACTCTGTACGCATCACGGGCAACGTCAGCGCGGACGCGGTGAACAAGATCGCGCCGCAGATTCGGGCGACGGGCCCCGTGCCTGGCACCGTCTGGATCTCTGAGGACGACGACCGCGAGCTGACGCAGGCCCGGCTGGAGCCCAGCCCTGGTAACAGCGTCACGATGACCCTGTCCAAGTGGGGCGAACCGGTCACCGTCGAGAAACCGGCGGTGTGA	MYNAPLQTRLVAIFAPLIAVVALVAGCTSPPSPSSEETLDPATLLKQSSETTKGHTSAHLKLAVEGQIAGLPVELIDADLTQTPAVAAKGTLDMTYLGQQLKGVEFVVSDGQLWAAIMPGGSPTNFGPAANIYDVAAILDPDAGLANVLANFSDAKEDGRETVEGVDSVRITGNVSADAVNKIAPQIRATGPVPGTVWISEDDDRELTQARLEPSPGNSVTMTLSKWGEPVTVEKPAV				NA	NA	NA	NA	NA
D1-29_01090	654	nreC_1	COG2197	Oxygen regulatory protein NreC	ATGGCCGAACCCACGCGCATCCTGCTCGCCGATGACCATGCCCTGGTCCGCCGCGGCCTTCGCCTGATCCTCGACACGGAACCCGACCTGACCGTCGTCGCCGAAGCCGCCGACGGCTCAGAGGCAGTCGCAGCCGCGATCACCGGCGGAGTGGACCTGGCCGTTCTCGACATCGCCATGCCCCGGATGACCGGCATCCAGGCGGCGCGGGAGATATCGCGGAGTGCACCCGACGTCCGGATCCTCATCCTGTCCATGTACGACAACGAACAATACTTCTTCGAGGCGCTGCGCGCCGGTGCCTCGGGTTATGTGCTCAAGTCCGTCGCCGACCGCGACCTTATCGAGGCCTGCCGTGCAGCGATGCGCGGAGAGTCCTTCCTCTACCCCGGCGCGGTCACCGCGCTTATCCGCGACTACCTGGAGCGCGACCGCCGGGGCGGCCGGATGCCGGACAGCATCCTCACGCCGCGCGAGGAGCAGGTTACGAAGCTCATCGCAGAAGGAAACTCGGCCAAGGAGATCGCGGAAATCCTCAGAATCAGCGTGAAGACCGTGGACCGGCACCGGGCGAACGTCCTGCAGAAACTAGGGTTGCGCGACCGGCTGGACCTCACACGGTTTGCCATCCGCACCGGGCTCATCGAGCCGTAG	MAEPTRILLADDHALVRRGLRLILDTEPDLTVVAEAADGSEAVAAAITGGVDLAVLDIAMPRMTGIQAAREISRSAPDVRILILSMYDNEQYFFEALRAGASGYVLKSVADRDLIEACRAAMRGESFLYPGAVTALIRDYLERDRRGGRMPDSILTPREEQVTKLIAEGNSAKEIAEILRISVKTVDRHRANVLQKLGLRDRLDLTRFAIRTGLIEP	PGPT0000530_260	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE|NITRITE_SENSING,PGPT0000530-nreC-K07696	NA	NA
D1-29_01091	1128			hypothetical protein	ATGACGCCCATTTGCGAAGAGCTGCCTGCCGAGATTCCCTGCCGCGTGTGGGTGCGAGCCCTCATGGACAAAGGACGCAAGCCGCGTCAGGCTAGTCGGATGCGGACCCCGCCCGAAACCAGGGCCGCCGGCACCACGCGCGGCTTGCCTCCGAAAGGACCGGCACAGTCGCTCTTTTGGCGACTGTTCATCATCAATGGATTGCTCTTCGCGATGGGCACGCTGGTGTTGGCACTCTCCCCGGCGACTGTGTCCTCGCCTGTCTTGCTCACGGAGGTGCCGGTCCTGGTCATCGGGCTGGCTCTCATCCTCGCCGCGAATGCCGCCCTGGTGCGGGCCAGCCTGGCACCGTTGGACGCGTTGACGGGTGTGATGCGGCGCGTGGGCCTGCTGCGGCGCGGTGGAGACCGGGCGACCACCGAGGCCGGCAACGGAGACTTCGAGCACCTCATCCGCACCTTCAACGACATGCTCGACCGGCTGGAGGCGGAGAATACCGCCAGCAGCGCCCTGGCACTGGCCGCACAGGAAGGGGAACGTCAGCGAATATCGCGGGAACTGCACGACCAGATCGGCCAGAGCCTGACCGTCGCCCTGCTCAGCCTCAAGCGGGTTGTCGACCGATCTCCCGACGGTATCCGCGAGGAGACCCTGGTCGCCCAGGAGGCGGTACGGGCGAGCCTGGAGGACGTGCGCCAGGTTGCGCAGCGCCTGCGCCCCGGCGTGCTCGCGGACCTCGGCCTGCGGAGCGCGTTGAATGCACTTGGGTCGGAGTTCTCCCGCTCGAGCGGGATTCCTGTGACCTGGGAGCTCGACGACGAGCTTCCGGAGCTCAGCGGGGACGTCGAGCTGGTGCTTTACCGCATCGCGCAGGAGGCACTCACCAACGTCGCCCGCCACGCGCACGCAACACGGGTCGATCTCTCGCTCACCCCGTCGACGAGGGGGCTGACGCTGCGAATTCTCGACGACGGCAAGGGCGGCGACTTCCGCGAGGGCGCCGGCATCCGAGGAATGCGGGAACGGGCGCTGCTCATCGGTGCCGAGCTGACGGTTGGCACGGGGCCGGGCGGGGGGACCGACGTTTGCCTCGTCGTTCCCGGTCCCGGCGCCGGGGCAGGGAGCTAA	MTPICEELPAEIPCRVWVRALMDKGRKPRQASRMRTPPETRAAGTTRGLPPKGPAQSLFWRLFIINGLLFAMGTLVLALSPATVSSPVLLTEVPVLVIGLALILAANAALVRASLAPLDALTGVMRRVGLLRRGGDRATTEAGNGDFEHLIRTFNDMLDRLEAENTASSALALAAQEGERQRISRELHDQIGQSLTVALLSLKRVVDRSPDGIREETLVAQEAVRASLEDVRQVAQRLRPGVLADLGLRSALNALGSEFSRSSGIPVTWELDDELPELSGDVELVLYRIAQEALTNVARHAHATRVDLSLTPSTRGLTLRILDDGKGGDFREGAGIRGMRERALLIGAELTVGTGPGGGTDVCLVVPGPGAGAGS	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
D1-29_01092	123			hypothetical protein	ATGGAGACCACCCATTCCACCCTGGCCGGCGCCGGCGTGCTGCACGACTGCCTGACCCGCGACGGCCAGCAATTCCGGATTCACGTCTCACGCTCCGGTCTGCGCTGGAACCCCGGTTGGTAG	METTHSTLAGAGVLHDCLTRDGQQFRIHVSRSGLRWNPGW				NA	NA	NA	NA	NA
D1-29_01093	1485			hypothetical protein	ATGGAGCACCTCAGCCGATTCGCCCGCGAATTCCTTAAGGCGTTCAAGAACCTTCTGCCCATCATTGTCGTCGTTGTTCTGTTTCAAGTTCTGGTGTTCCGCTCCATGCCCGATGACCCCCTGGAACTGGTGGCGGGGCTCCTGATCGTGGCTGTGGGCATTGCCCTGTTCCTGCATGGCCTGGATCTGAGCATCTTCCCGGTGGGCAAGAACCTGGCTAACCAGTTCGTCCGGAGCGGGGCCCTGGGGTTGTTGCTGCCTTTTGGGTTTGCCATTGGCTTCGCCGCCTCCATCGCGGAGCCGGCGGTGATCGCTGTCGCGGAGCAGGCCCAATTGGTCAGTGACGGCCGGATCAATGCATTGGTGCTGCGCTTCGTCATCGCTGTGTCGGTGGGGCTGGTCCTGATCCTGGGCATCATGCGTGTCCTGCGGGGCTGGGCGGTCCACAAACTGCTGATAGCGGGCTACGCGATGGCGCTGGGACTCACCTACATCGCCCCCCCGGAGATTATTGCTCTTGCCTATGATTCTGGCGGGGTCACCACCAACATCGTCAGCGTCCCGCTTATCGCGGCGATCGGTCTTGGCCTGGCCAATTCCATCAGGGGACGCAGCCTGCTCGCCGACGGCTTTGGCCTGGTGGCGCTGTGCGTGATGGTGCCCATGATCGGGGTCCAGCTCTACGGCATCTTGGTCTACACGTTCGGTGATGCCGGTCTGGCGCTGCCAGCGACGGAGGCCGGGCAGGACTCCACGGATTGGGTGGTCGGCATGATCCTTGGCCTCGCCTCAATGGTTCGCGAGGTCCTGCCTATTGTGGCCGTTGTCCTCTTCTTCCAGTGGGTCGCCCTGCGGCGAAGGCTGCCACACCCCTTGCGGGTGGTCACAGGCTTCATCATGGTCATGGTGGGACTGTATGCCTTCGTCGTGGGACTAAAACTTGGGCTGTTCCCGCTGGGCACCCTGATGGCGGAGCAGCTGATCGAGCAGGGGGTTCCGGCCCTCATCCTGTTGTTCGCGCTGCTCATCGGCTTTGCGGTCACCATGGCCGAACCTGCCCTGGTGGCCATCGGGGAACAGGCGCAGGACGCATCTCCTGGCAAAATCAGCGCATTCGCCGTCAGGGTCATTGTGGCCGTTGGTGTAGCCCTCGGGATCGGCTTCGGCGTCTACCGCATTCTGGTGGGAGGGCCGTTCCACTACTTCATCATGACCGCGTACGCCGTCGCTATCGTGCTGGTGTTCTTCGCCCCGAAGTACATCATCGCGCTGGCCTTCGATCTCGGCGGAGTGACGACGTCGGAGGTCACCGTGCCGCTGGTAACCGCCCTCGGGATCGGTCTTGCCGCCGCCGTGGAGGGCCGGAACGTGTTGATCGACGGGTTTGGCCTGATCGCCTACGCGTCGATCTTCCCTGTCATCTCCGTCTTGGTGTATGCCATGGTGATGGAGAGATTTCCACGGCGGAGAAGGGAACCCGCATGA	MEHLSRFAREFLKAFKNLLPIIVVVVLFQVLVFRSMPDDPLELVAGLLIVAVGIALFLHGLDLSIFPVGKNLANQFVRSGALGLLLPFGFAIGFAASIAEPAVIAVAEQAQLVSDGRINALVLRFVIAVSVGLVLILGIMRVLRGWAVHKLLIAGYAMALGLTYIAPPEIIALAYDSGGVTTNIVSVPLIAAIGLGLANSIRGRSLLADGFGLVALCVMVPMIGVQLYGILVYTFGDAGLALPATEAGQDSTDWVVGMILGLASMVREVLPIVAVVLFFQWVALRRRLPHPLRVVTGFIMVMVGLYAFVVGLKLGLFPLGTLMAEQLIEQGVPALILLFALLIGFAVTMAEPALVAIGEQAQDASPGKISAFAVRVIVAVGVALGIGFGVYRILVGGPFHYFIMTAYAVAIVLVFFAPKYIIALAFDLGGVTTSEVTVPLVTALGIGLAAAVEGRNVLIDGFGLIAYASIFPVISVLVYAMVMERFPRRRREPA				NA	NA	NA	NA	NA
D1-29_01094	351			hypothetical protein	ATGAAATTCACTGCAGTCATCGTGATCGCCCCGGACGAGCTGGAAGACAGGGTGATTGAACACGCCCAGCGGGCCGGTGCCACGGGTGTGACAATTTTGCCGGGCAAGGGCATCGGGGGCGAGGCCAGAAAGACGTTTTTCGGGCTCACTTTCGAAGGGACGCAGTCGGTGCTCTTGATGGTCGTAGGGACACACCTGACAGCTCCGATCCTGAAGGAACTGCACTCGATACTGGTTCAGGGAACGGAATCCCGCGGCCTGGCCTTCGCGATCCCGATCGAGCACCTGACCGGGATCGATATGCGGCAGGTGGTCAGGTTTGAGGAGCATCTGCGCCGCGAAGGCGCTTGA	MKFTAVIVIAPDELEDRVIEHAQRAGATGVTILPGKGIGGEARKTFFGLTFEGTQSVLLMVVGTHLTAPILKELHSILVQGTESRGLAFAIPIEHLTGIDMRQVVRFEEHLRREGA				NA	NA	NA	NA	NA
D1-29_01095	390			hypothetical protein	ATGCTCACTGTCAAAGATGTCATGGTCCCCGAGGTCGTCACGATCTCCCCGTACAGCACCCTGCGGGAGGCGCTGTCAATGATGAAGGAACGCCAGGTTAAGAGCCTGGTAGTGGAGCAGCAGCACGCCCACGACGCCTACGGGATGCTGAGCTACAGAGAACTCCTGGACACCGTCGTTGCGCAGGAGGGTGACGTGGACCTCCTGAACGTCTATGACGCCGCCACGATCCCTGCGATCACTGTCAACGAGGACCTGTCCGTCCGCCAGGCAGCGGCCCTGATGAGCCGCTACCACCTCAGCCGGTTGGTGGTGGTGGAGGGCAACCAGCTCGTCGGGCTGCTCGCTATGAATGACATTCTCGCCCGGCTCATGGAGGAACTAACGTGA	MLTVKDVMVPEVVTISPYSTLREALSMMKERQVKSLVVEQQHAHDAYGMLSYRELLDTVVAQEGDVDLLNVYDAATIPAITVNEDLSVRQAAALMSRYHLSRLVVVEGNQLVGLLAMNDILARLMEELT				NA	NA	NA	NA	NA
D1-29_01096	780			hypothetical protein	ATGGCCATGCTCGCCATCTCGCTGGCGGGCTGTGAGTATGGCGGCCCGGCCGAGGGGGCCGTCAGCCCGCCGTCCCAGAGCGAGACCAGCGAACAGCGGTCGTTCCAGGAAAACGTTGAGGAAGTGGCGGGTTTGCTCAAGGCTTCGCCAACAGACCCGGGGATGCCGTCGGAAGCAGAGCCTACCGGTGAGCTTTCGATTGAGCTTGCTCCCGGAGACTATATGGTCAAGAGTGCATGTGCCGGTGGCCACGGCGCCAATCTCGCCATCGTCCAAGGCGAGAGCGCGCCCCTGACAATGCTCTATACGTGCGACTCCGTCGCGGAACGGTTCGTCCGGCACGCCGGTGGCCCTATAGCCATCAGTGCCACCGCGCCCAGTGGCAAGCCGGCCGCGGCTGGCGTTACTGTCCAGCCCAACACGGACACACGCGCTTCGGAGCTGGAAGACCTGAAGGAGTGGTCAGCACAGCAGCTGCAACCCGAAATACCCGGCCAACGTGCTGGTTCCACCCTTTCGGACACAGTCATCAGCTATGGAATGACTTCGCTCGACCCTGGCAGGTACGAACTGCACTTTGTCTGCGAGGGACCGCCCCAGGTTCAGTTTTCGATGTCCCGTCCACTAGGCGCCGAAGTCCTGGCTCCGGTGCGGGTTCCTTGCAACGGAGACGTCTTCAAAACTTCCGTGGAGTTGGTCAGCCAGGACGCAGATTTCCGGATCGACTCAGGTGACCGTACAGTAGGCCGCTACGCGTTCAGGCTGGTTCCATCCGCGTAG	MAMLAISLAGCEYGGPAEGAVSPPSQSETSEQRSFQENVEEVAGLLKASPTDPGMPSEAEPTGELSIELAPGDYMVKSACAGGHGANLAIVQGESAPLTMLYTCDSVAERFVRHAGGPIAISATAPSGKPAAAGVTVQPNTDTRASELEDLKEWSAQQLQPEIPGQRAGSTLSDTVISYGMTSLDPGRYELHFVCEGPPQVQFSMSRPLGAEVLAPVRVPCNGDVFKTSVELVSQDADFRIDSGDRTVGRYAFRLVPSA				NA	NA	NA	NA	NA
D1-29_01097	1362			hypothetical protein	ATGTATGAATGGATCATGCTCGGTATCGGCCTGTTCCTGACCGTCGGTACCGGATTCTTTGTCGCTTCCGAGTTCGCGCTGGTCAATCTGGACCGCAACGACCTTGAGACACGCCAAGCCCGTGGCGAAAAGCGGCTGGGGCCCACCATCAAAGCCCTGAAGATCACCTCGACGCATCTGTCCGGAGCCCAGCTGGGCATCACCATCACCACACTGCTCACCGGCTACACCTTCGAACCGGCCATCAGCAAAATGCTCAGCGGCCCCCTGCTGGCAGTAGGGCTGCCCGAGGCCGTGGTACCAGGCCTGGGCGCTGTCGCCGGTATCTTCCTGGCCACTGTTTTCTCCATGGTGATCGGCGAACTGGTGCCAAAGAACTTCGCCCTGGCCCTGCCGCTGGCCACCGCCAAGGTGGTGGTGCCATTCCAGGCCGTGTTCACTGCCGTGTTCAAGCCGGTGATCCTGCTTTTCAACAACACAGCCAACGCCATCATCCGCTCCTTCGGCATCGAGCCGAAGGAAGAACTTTCAGGCGCCCGCAGTGCCGAAGAACTCAGCTCACTGGTCCGCCGCTCCGCGCTGGAAGGCTCGTTGGACCTTGATCACGCAGTCCTGCTGCACCGTACGCTGCGCTTCTCCGAACATTCGGCGGCGGACGTCATGACGCCAAGGGTCAGGATGGCTGCCGTGAACACCACGGACACCGCAGAGGACATCGTCACGCTGGCGACATCGACAGGTTACTCGAGGTTCCCGGTGATAGGCCGGGACAGGGACGACGTCCTGGGCGTCCTGCACGTCAAGCAGGCCTTCGCCGTGGCCTTGGATGAGCGGGACAGGATCACGGCTGCGGATCTGATGATCGAACCCTTGAGGGTGCCTGAGTCCATGGGGGTTGATTCGCTGCTGGTTCTGCTGCGCAGGCAGGGACTGCAGGTGGCGATCGTCTCTGATGAGCACGGTGGAACCGCCGGCATCGTCACCCTCGAGGACCTGGTCGAAGAGATCGTGGGCGAGCTCGAGGACGAACACGACCGTGCCCGGGCGGGCGTGGTCCGGACGGGACGCTCCATCACCTTCGACGCGTCACTGCGGCCGGATGAACTGCTGGACAGGACGGGCATCGCCGTCCCGGATGGTGACGAATACGACACCATCGCCGGTTTCGTCACGGATGAACTGGACCGCATCCCCGAACTGGGAGACGTAGTGGCTCTTGACGGCGGGACGTTGCGGGTTGAGCGGGTAGTGGGGACCCACGTGGAGCGGATTCGCTTCACGCCGGACGAATCGCACGAACCGCCGCAGAGCGCCCACGACCGCATCATCGACAACCTGACGCAGGAGCTGGCCCATGAGTGA	MYEWIMLGIGLFLTVGTGFFVASEFALVNLDRNDLETRQARGEKRLGPTIKALKITSTHLSGAQLGITITTLLTGYTFEPAISKMLSGPLLAVGLPEAVVPGLGAVAGIFLATVFSMVIGELVPKNFALALPLATAKVVVPFQAVFTAVFKPVILLFNNTANAIIRSFGIEPKEELSGARSAEELSSLVRRSALEGSLDLDHAVLLHRTLRFSEHSAADVMTPRVRMAAVNTTDTAEDIVTLATSTGYSRFPVIGRDRDDVLGVLHVKQAFAVALDERDRITAADLMIEPLRVPESMGVDSLLVLLRRQGLQVAIVSDEHGGTAGIVTLEDLVEEIVGELEDEHDRARAGVVRTGRSITFDASLRPDELLDRTGIAVPDGDEYDTIAGFVTDELDRIPELGDVVALDGGTLRVERVVGTHVERIRFTPDESHEPPQSAHDRIIDNLTQELAHE				NA	NA	NA	NA	NA
D1-29_01098	1041		COG1253	putative protein	ATGAGTGAATATCTTCCCGGCATCATTTGGCTGGTGGTGCTTCTGGCGGTGAACGCGTTTTTCGTCGGTGCCGAGTTTGCCGTCATTTCCGCGCGGCGTTCCCAGATCGAACCGAAAGCCGAAGCCGGCAGCAAGGCGGCCAAGACCACGCTGTGGGCCATGGAACACGCCACTCTTATGCTCGCCACCAGCCAGCTGGGCATTACCGTTTGCTCCCTGGTAATCCTGAACGTGTCCGAACCTGCCATCCACCATTTGTTGGAGATTCCGCTCGGACTGACGTCCCTTTCCGGCGAGGCGATTGGCATCATCGCGTTCGTCACCGCATTGCTGCTGGTGACATTCCTGCACGTAGTTCTCGGCGAGATGGTCCCAAAGAACATCTCGTTCTCCGTGCCTACCCGTGCGGCGTTGATCCTGGCCCCGCCGCTGGTCATGGTGGCGCGGTTCTTTAAGCCGGTTATCTGGACGCTGAACGGGATCGCCAACTCCATCCTGCGCCTTTTCCGGGTGGAGCCGAAGGATGAGGCAACCAGCGCGTACACGCTGGATGAAGTGGCCAATATCGTGGAGCAGTCCACGCGGGACGGGATGCTGACAGACACCAGCGGCACGCTGACTGCTGCGTTTGAGTTCACGGCCAAGACCGTGTCGGATGTGGAAGTCCCGATCAGCGAGATGGTTCTCCTCCCCGCGTCGTCCACACCGGCGGACATCCAGCGCGCGGTCGCCGAACACGGCTACTCCCGCTACATCCTCACAGACGACGACGGCGTACCCGCCGGATACCTGCACCTCAAGGACGTCATGGATCTGACAGCCCCCGAGACTTTCGCCCGGCCGATACCGTCCAAGAGGATCCGCCGCCTCGCCTCCGCTTTCAGCGGTAGCGAACTCGAGGATGCGCTGGCCACCATGCGCCGCACGGGGGCTCACGTGGCCCGTGTCTTCGACGCACAGGGCAACACCACCGGCGTGCTGTTCCTGGAGGACATCATCGAAGAACTCGTAGGAGAAGTGCAGGACGCTACCAGCGCCTGA	MSEYLPGIIWLVVLLAVNAFFVGAEFAVISARRSQIEPKAEAGSKAAKTTLWAMEHATLMLATSQLGITVCSLVILNVSEPAIHHLLEIPLGLTSLSGEAIGIIAFVTALLLVTFLHVVLGEMVPKNISFSVPTRAALILAPPLVMVARFFKPVIWTLNGIANSILRLFRVEPKDEATSAYTLDEVANIVEQSTRDGMLTDTSGTLTAAFEFTAKTVSDVEVPISEMVLLPASSTPADIQRAVAEHGYSRYILTDDDGVPAGYLHLKDVMDLTAPETFARPIPSKRIRRLASAFSGSELEDALATMRRTGAHVARVFDAQGNTTGVLFLEDIIEELVGEVQDATSA				NA	NA	NA	NA	NA
D1-29_01099	936	cotI		Spore coat protein I	ATGCTTTGGGAATCGGCCGAGCCGCGCAGCGCCTTGCAGGAAAGATTCGGCCATGACGGCTTTGATGAAGCTGCCGGCTGGCTTACTGAAGTCCTGGCTGAAACCTGGGGTACCGAGGTACACGCGTGCGAGCGGATTATCATCAGTGGCGACAACGCCATCGCCTGGGTTCGCACGAACCGCGGGGCGTTGGTCGCAAAGTGGTCCCGGGCCCGGGACCAGTTCGCCAGGTTTGCCGCGGCCGCGGACCTGATCCAGGAGCTGCACCAGCAGGGCGTGCCCGTGGCTCCCCCACTGGCCTCAGTTGACGGTCAGCACCGGGTAGTCATTGGTTCCGTGTCCGTATCCGTGCAGCCGCGCATCGACGGCGAACTGCTCGACATTACTGCTGACACAGCGATTCGAAACGCCGGCGCGTGCCTGGCGCGGCTGCATGGCGCGTTGGCAATGCAAAGGGACATTCGGCTCACCGAGCTGGGACGCTTTACAGGCGGGTCCTTGGATTTGCGACGGCGGGTAGAGACATGGCTGCAGCGCGAGGACACCGGGAGGGCGCCGGACGCGTCCGCAGGATTACGCCGCCAGATAGAGTCACTGCCGCCGATCGACAGTGAGCCACAGCTGATCCACAACGATTACCGGGCCTCCAACATACTGACCGCCGGTTCGGAGGTCATCGCCGTTCTGGACTTCGACGAGGTGGCTCTGGACTATCCCGTCAGCGATCTCGCGAACGCATGCGTTTTGCTCGGCACCCGGTTCACCTTATGGCAACCGACACCTGACAAGGCCCGGGTCGCGCTTCTTGATGGATACGAGTCCGTGCAGCCACTCAGCCGGCTTGAACGCCAATGGCTGCACGCACTTGTGTTGCTGCGGGGGATCCAGTCCATCCCGCCCGGCGATGATCCGGCCGGATGGGCCCGCGCTGTGTAG	MLWESAEPRSALQERFGHDGFDEAAGWLTEVLAETWGTEVHACERIIISGDNAIAWVRTNRGALVAKWSRARDQFARFAAAADLIQELHQQGVPVAPPLASVDGQHRVVIGSVSVSVQPRIDGELLDITADTAIRNAGACLARLHGALAMQRDIRLTELGRFTGGSLDLRRRVETWLQREDTGRAPDASAGLRRQIESLPPIDSEPQLIHNDYRASNILTAGSEVIAVLDFDEVALDYPVSDLANACVLLGTRFTLWQPTPDKARVALLDGYESVQPLSRLERQWLHALVLLRGIQSIPPGDDPAGWARAV	PGPT0020285_679	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020285-thrB2-K02204	NA	NA
D1-29_01100	255			hypothetical protein	ATGACATCAGCTGCCAACGAGCTCGCAGGCCCCCTGACACCGCCCTTTGGCATCCTGGGATTCATGCTGATCGCATACGCAGTCCTGATCATCGGTGCCCTGATCAGCATCGCCCGGAACAGGACATACACCTCCGGGGGCATGCTGGTCTGGGCTTTGATCGTGCTTGCGCTGCCGGTGCTTGGGCCAGTGCTGTGGTTTCTGACGGGGCGCCGTCCCTCGCCCGGAGGAAGAGCGTCAGCGCTGCGGAAGTAG	MTSAANELAGPLTPPFGILGFMLIAYAVLIIGALISIARNRTYTSGGMLVWALIVLALPVLGPVLWFLTGRRPSPGGRASALRK				NA	NA	NA	NA	NA
D1-29_01101	888			hypothetical protein	ATGGAAGTGCGCGAGTTCCTCGCGTCGAGACGGGCGAAGATCAGTCCCGAAATGGCGGGGCTGACGCTCTATGGCGGACGACGGCGGGTCCCCGGCCTGCGTCGTGAAGAGGTGGCAATGCTCGCGGGCGTGAGCGTCGACTACTACACCAAGCTGGAGCGCGGGAACCTGTCTGGCACGTCCGAAAGCGTCCTGGACGCCATCGCCGGTGCCCTCAGGCTCGATGAGGCCGAGCGGGACCACCTTTACAACCTCGCCAAGGCGGCCGGACCGTCAGGCAGGGCCCGCCGTCGTCCTCTTCAGCGCAAGGCCGTCCGCCCCACGCTGCAGTTCATGCTTGACTCCATCACCGGTTCCCCGGCATTCATCGGCAACCACCACATGGACATCGTGGCGGCCAACCAGCTCGGATACGCCCTCTACTCGGAGATGTACCGCGGCCCCGCGCGGCCAGCCAACCACTCCCGCTTCATCTTCCTGGACCCCAACTCCCGGGACTTTTACCCCAACTGGGATCTGGCGGCCAATACCAACGTCGCCATCCTGCGGACGCAGAGCGGACGGAACCCCTTTGACAAGCGGCTGTCCGACCTGATCGGAGAACTGTCCATGCGCAGCGATGAGTTCCGGACCCGCTGGGCTGCCCACAATGTCCGCCACCACTACGCCGGGACCAAGATTTTCCGCCACCCGGTAGTGGGAGAACTCGAGCTTGCCTACGAAGCCATGGAGCTACCCGAAGACCCCGGCTTTTCCCTCACCATCTACCCCGCGGTGCCCGGCTCCCCCTCGGACGAACGCCTCCGCCTGCTTGCCAGCTGGGCCGCCACCGAACGGATCCAGGAGGTTGCCGCCGCAACCCAGCCACAGGACGTGCCCAGGCCCTGA	MEVREFLASRRAKISPEMAGLTLYGGRRRVPGLRREEVAMLAGVSVDYYTKLERGNLSGTSESVLDAIAGALRLDEAERDHLYNLAKAAGPSGRARRRPLQRKAVRPTLQFMLDSITGSPAFIGNHHMDIVAANQLGYALYSEMYRGPARPANHSRFIFLDPNSRDFYPNWDLAANTNVAILRTQSGRNPFDKRLSDLIGELSMRSDEFRTRWAAHNVRHHYAGTKIFRHPVVGELELAYEAMELPEDPGFSLTIYPAVPGSPSDERLRLLASWAATERIQEVAAATQPQDVPRP				NA	NA	NA	NA	NA
D1-29_01102	267	bcr_1		Bicyclomycin resistance protein	ATGCCCGCAGTTGCCATCGACACCCCGATGCCCGCACGTGAGCAGACCGTCGGCCGCCCCCTGGCGGTTGTGCTCGCCTTGCTGACAGTATTCGGTCCCATTTCCATGGACCTCTACCTGCCTGTCCTTCCGGCCCTCACAACGGAGCTTCAAAGCACGACGTCGGTGGCCCAGCTGACCATCACCGCCTGCCTTTTGGGGCTGGCCGTGGGCCAGTTGATCGCCGGGCCGCTCTCGGACCGGTTGGCCGCAGGACGCCGTTGCTGA	MPAVAIDTPMPAREQTVGRPLAVVLALLTVFGPISMDLYLPVLPALTTELQSTTSVAQLTITACLLGLAVGQLIAGPLSDRLAAGRRC	PGPT0029005_1611	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
D1-29_01103	969	bcr_2		Bicyclomycin resistance protein	TTGCTGATCGGCGTTATCGCGTACACCGTCACGTCGGTCCTCTGTGCGGTGAGCCCCACCGTCGAGACGCTCATCCTGGCCCGGTTCGTGCAGGGCCTCGCCGGCGCCGTGGGAATAGTGATTGCCCAGGCTGCGGGACGGGACGTGTACTCGGGCGGCAAGCTGCTCCGCTACTACGGTCGCCTGACGGTGCTCGGCGGCCTGGCCGCCATCGTCGGCCCGGTCATCGGCGGGCAGCTCGCAACCTTCACGGACTGGCGCGGGGTCTTCCTGTTCCTTGCAGGCATTGGCGTCCTGATCCTGGTGGCGTCCCTGGTGGTCTTCCGGGAGACCCTGCCGGCAGACCTCAGGGTTACCGGCGGGCTCTCCCACACCCTGAACGATTTCCGGCAGCTCCTGGCCGACCGGGTGTTCGTCGGCGCGGTACTGATCACCGGGTTCACGTACTCCGCACTTTTCGCCTACCTCAGCGGCGCAACCTACATCCTCCAGGGCATGTACGGGCTCTCACCCCAGGGCTACGCGCTGGCGTTTGGCCTGAATTCGCTGGGCTTTATGGTCTTCGGCTTCCTCGGCGGCCGGCTGTCAGAGCGCTGGTCCGAGCATGGAACGCTCACCCTGGGCCTGATCATGGCGGGAGCCGGGGCGCTCGGGCTGTTGGCCACCGCGCTCCTGCAGCTGCCCCTGATCGCGATCATCCTGTCCCTGTTCACCATGGTCAGCGGTGTGGCTGTCACCAGCCCGCCGGCAACATCGCTTGCACTCAAGGACTACCCGGCCATCGCCGGGACCGCCTCCTCGCTGCTGGGGCTTGCCCGGTTCGCCTTCGGCGGACTGGCCGCCCCGCTCGTGGGGATCGCCGGCGCCGACAATCCGGTTCCTTTCGGCATCGTGGCGGCAGCTTCTCTCGCCGCCGCCGTACTCTGCCTGGGACTGGTCACGCGGCAGCGCAGCATCCCGGCTGGTTAG	MLIGVIAYTVTSVLCAVSPTVETLILARFVQGLAGAVGIVIAQAAGRDVYSGGKLLRYYGRLTVLGGLAAIVGPVIGGQLATFTDWRGVFLFLAGIGVLILVASLVVFRETLPADLRVTGGLSHTLNDFRQLLADRVFVGAVLITGFTYSALFAYLSGATYILQGMYGLSPQGYALAFGLNSLGFMVFGFLGGRLSERWSEHGTLTLGLIMAGAGALGLLATALLQLPLIAIILSLFTMVSGVAVTSPPATSLALKDYPAIAGTASSLLGLARFAFGGLAAPLVGIAGADNPVPFGIVAAASLAAAVLCLGLVTRQRSIPAG	PGPT0029005_1611	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
D1-29_01104	285			hypothetical protein	ATGTTGTTATCCCCCCAGGAGCGGGACCAGCTCGACGAGCTGGAAAGGCAACTCAGCATCGAAGACCCCGAACTAGCGCGCACGCTGCGCCTCGGAGGGGACGGGCAGCCGCTGACGGCTGACGCTGCCGCCCCCATCCTCATCGTGCTGGCCGGCCTCCTGTTGCTCGTCGTCGGCATCGCAACAAAGTTCATCGCTGTTGGCGTCATCGGTTTCCTGGCCATGGGCGCCGGGGCCTACAGCTTCGTCCAGAAACGGTGGCCCGAACACCAATCCCGGCAATAA	MLLSPQERDQLDELERQLSIEDPELARTLRLGGDGQPLTADAAAPILIVLAGLLLLVVGIATKFIAVGVIGFLAMGAGAYSFVQKRWPEHQSRQ				NA	NA	NA	NA	NA
D1-29_01105	720	bacC_1		Dihydroanticapsin 7-dehydrogenase	ATGGTATTCGACAATAAGGTGGCATTCATCACCGGCGGCGGATCGGGGCTCGGTCTCGCAACAGCGAAGACCTTCATCGCAGAAGGCGCGCAGGTCATGATCTTCGACTACAACCCCAAGTCGCAGGAAGTCGCCGACGAAATCGGTGCGAAGTTCGTCCAGGGCGACGTCTCGAAGGCCGAGAGCGTACAGTCGGCCGTCGCAAAGACCGTTGCGGAATTCGGGAGGCTTGACATTACCGTCGCATCGGCAGGCGTGGGGGGCGAGGGCGACGTCGTCACGTCCACCGTCGAAAACTGGGAACGCACCAACGGCATCGACTACTCGGGCGTGTTCTACACCAATAAGTACGCCATCGAACAGCTCCTCAAACAAGGCACGGGTGGCGTCGTAATCAACCTCGCTTCAATGTTCGGCCTCGTAGCCGTCTCGAACAACATCGCCTACTCGGCCTCGAAGGGCGGCGTCGTCAACATGACCCGCGCCGCCGGGACGATGTACGCCAAGGAGGGCATCCGTGTAAACGCGGTAGCCCCCGGCGTCATCCGTACGCCACTTATCGACGAACCGACCCTTGAGCAGTATGCAAAACTGCACCCGGCCGGCCGCGTCGGCGAGGCCCAGGAAGTTGCAGACCTCATCGCCTTCCTCGCCAGCGACAAGGCAAAGTTCATCACCGGCGCGACCATTCCGATCGACGGTGGCTATACGGCCGTCTAA	MVFDNKVAFITGGGSGLGLATAKTFIAEGAQVMIFDYNPKSQEVADEIGAKFVQGDVSKAESVQSAVAKTVAEFGRLDITVASAGVGGEGDVVTSTVENWERTNGIDYSGVFYTNKYAIEQLLKQGTGGVVINLASMFGLVAVSNNIAYSASKGGVVNMTRAAGTMYAKEGIRVNAVAPGVIRTPLIDEPTLEQYAKLHPAGRVGEAQEVADLIAFLASDKAKFITGATIPIDGGYTAV	PGPT0008190_915	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
D1-29_01106	1008			hypothetical protein	GTGAAGACTAAATGGATCGGGGACGCTGAACTTGTGCGCGCTGTGGACCGCACGTTCCGATCAACAACGGCAGCGGCAGCCGTGGCTGTGGTTACTCCTGAACGTGAAATGACCGCGACGGTAAACGCTGACCCCCATTCCTCCTTCGAGATCGGGTCAATCTCAAAGGCGCTCACCGGCATGTTGTACCGGGACGTGACAGAGCGCGGCCTCGTCTCGCAGACAACAGTCCTTCGCGATTTGCTTCCGCTCGAGGATCACGGAGAGGTTGGCTCCGTGAGCCTGAGTTCCCTGGCCATTCACCACTCCGGTCTTCCAGGCCTACCGCCAGGGATGCATCCGCTTCGCCGAAACCTGAGGTTCTTGATCAGAGGTGAAAACCCTTACGGCGATTCGTTAGCCGACCTCCTAAACCAGACGCGCAAGGTGCGCCTTGGCAATCCGCGGCCTAGGTATTCGAACCTGGGCTTTCAGTTACTCGGACACGCCGTGGCCAAAGCAGCCGGACGTAGCTACGAGCAACTCCTGGGAGACGTCTTGGGCGCCGGGTTCTCGGCTCCCGCACGCGCAGAAGACCTTGGGCCCGCTGATCTCCTGGGAGTCAGTCGATTCGGACGCACACAGAGTGCATGGGTAGGGGAAGCCGTCGCGCCTGCGGGAGGCGTTCGCGCGAACATAAGCACTATGCGGGGCTTCCTTCGTTCGGTTCTCGACGGAACAGCCAAGGGTCTCTCCGCGCTCGAGCCGGTAGCGGAATTCACTCCCCGGGTCGGTATCGGCGCGGGGTGGATCACGCTTGAGCACCGTGGCCGCCAGGTCACATGGCACAACGGCGGCACCGGCGGATTCAGCAGCTGGATTGGATTTGACCTAGGCGCCGGCACGGGAGTTGTTGTGCTCGCGGCAATTCATCGTTCTGTTGATAGACAGGGGTTCCGGCTCCTCACCGAATTAGCCCCAGCCGAAAAGGTGCCACCGTCACCCGCTGTGAACGGCAGGCCAACCTAA	MKTKWIGDAELVRAVDRTFRSTTAAAAVAVVTPEREMTATVNADPHSSFEIGSISKALTGMLYRDVTERGLVSQTTVLRDLLPLEDHGEVGSVSLSSLAIHHSGLPGLPPGMHPLRRNLRFLIRGENPYGDSLADLLNQTRKVRLGNPRPRYSNLGFQLLGHAVAKAAGRSYEQLLGDVLGAGFSAPARAEDLGPADLLGVSRFGRTQSAWVGEAVAPAGGVRANISTMRGFLRSVLDGTAKGLSALEPVAEFTPRVGIGAGWITLEHRGRQVTWHNGGTGGFSSWIGFDLGAGTGVVVLAAIHRSVDRQGFRLLTELAPAEKVPPSPAVNGRPT				NA	NA	NA	NA	NA
D1-29_01107	942			hypothetical protein	ATGACGGCGGCGTTCGATGCACAGGAGATCGACCGCGTCGTCGGCGAAGATGGCAGCATCGGGCACGCCGAGACGCGGATCGGCGATTCAGTAGTCCTTGCCTTCGACGCCCGCCCGCACTGGCCAGCCACGCCGTCGTACCTTCGCCTTTACACCGACGACGCCGATGCCACCTTCCACGCCGCCCTCGCCGCGGGTGCCACCGTAGTTTCGGTCCTGGACAACAGCGCCTGGGGTGACCGCGGTGCCCGCATCCAGGATCCGCTCGGCAATGTCTGGTGGATCATGTCGCATATGGAGGACGTGCCCGACGACGAAGCCGGCCGCCGCTGGCAAATGCCCGAATATGCTGCCGGCATGGAGTACGCCATCGACTCACTCCACAGGCACATGACAGGTCAGCCGCAAAACCCTGTCCCAGAGGCCGTCCGCAAGATGGCCCAGCTGAAGCGCGCGGAAGGAGTGAGCGCCATCCCTGCAGGCTACAGGTCAGTGGAACCGTGGATCATCACGCGCAGCACGCCGGGTTTGCTCGACTTCATTACCGCGGCGTTCCATGCGCAGGAAGCCTTCCGCGTCCCGATGGAGGACGGCTCAATCGGCCACGCTGAAGCGCGGATCGGTGACTCGAACATCCTCGCGTTCGATTCACGCCCGGACTGGCCGCCTGCTCCCGCTTTCCTCCGCGTGTACGTCGACGACGGCGATGCCACGTTCGCCGCTGCCCTAGCAGCCGGTGCCACGGCAGTAACGAACATGACCGAAATGTTCTGGGGTGACCAGGTGGGAAGGGTCCGGGATCCGTTCGGCAACCTCTGGTGGATCCACTGCCGGGTGGCTGAGCTCAGCGAGGAAGAGGCCTACGCGAGGGCGGGCGATCCGAAGTTTGTGAAGGCCATGCTGTACGTGACCAGCACAGACTTTTTCGCGCCCGAGGGTTAG	MTAAFDAQEIDRVVGEDGSIGHAETRIGDSVVLAFDARPHWPATPSYLRLYTDDADATFHAALAAGATVVSVLDNSAWGDRGARIQDPLGNVWWIMSHMEDVPDDEAGRRWQMPEYAAGMEYAIDSLHRHMTGQPQNPVPEAVRKMAQLKRAEGVSAIPAGYRSVEPWIITRSTPGLLDFITAAFHAQEAFRVPMEDGSIGHAEARIGDSNILAFDSRPDWPPAPAFLRVYVDDGDATFAAALAAGATAVTNMTEMFWGDQVGRVRDPFGNLWWIHCRVAELSEEEAYARAGDPKFVKAMLYVTSTDFFAPEG				NA	NA	NA	NA	NA
D1-29_01108	393			hypothetical protein	ATGACCGAGGCCGGCGGCCCCATTCGGCCGCTCGTTGACCGGTCGGTGTTGGATTTGCTGCGCGCGGAGCTGGATGAGGATGAGGGAGTCTGGCGTGCGTTCATAAGGAACTACATCGCGCACCTGCCCAACAGGATTGAAAGGCTGCGCCTTACACTGACCACCGGGGACCTGGACGGTGCACTCGATGCGGTCCTCAGCCTTAAAACCTCCAGCCAGATGGTGGGTGCCGAACGTCTCGCGGGTCTTGCGTTGGACCTGGAGAGGTCCCTCCGCGACGAGGATACCTATGCTGACCCTGACCGTCGCCTGCCGATGCTGGCGGTGGCCCATCTTGCGAGGATCAGCCAATGCGCCAAGCAGACGAGCTCTTTGCTGCGGGATTACGCCTAG	MTEAGGPIRPLVDRSVLDLLRAELDEDEGVWRAFIRNYIAHLPNRIERLRLTLTTGDLDGALDAVLSLKTSSQMVGAERLAGLALDLERSLRDEDTYADPDRRLPMLAVAHLARISQCAKQTSSLLRDYA	PGPT0025855_55	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
D1-29_01109	582			hypothetical protein	ATGCCCCACGCGCTGGCTACGTCGTCGGCAACAGTCGAACGCCACTCCGCATCGACCGATTCCTTAATGCGTCTGATCTCACTTAGGGGCATCATCACCGGTACATGCTTACATACAACCAACTGCTCGAAGGATCTTGCTTGTTGCCTTGGAATTCACGTCCGTGCTTTTTCCCGGATGAAATCGAGATCCTCCCGGGAAAGCATCAATTGGCCGTGGCCGTCCGTTTCGAAGTGCCCAACGGAATGCTGTCTGATGCGGGCGGTGACGGTGCGGGGCAACATCACACATCCGGGATTCTCCAAGAGCCACTGGCGAGTCTCCGCGTCGAGCCGGTCCCACTCGTCTTTGAGTGTCATCTACCTCTTGCCGCCCTTCCCCCATGTCCCCCTGAGACCCCAACCGGGTCCAGCGATTCCGCCCAGAGTACCCTTCACCTCGGGAGAAGGACAGGGGGTCCTGACCCAATCGGCAAACCCTCAGCAGGCTATCTGGAGAGTGCCCGTGAGAATTTTGGCCAAACTGAAAAATAGAGTACCGACTACTCGTGCTTCCCTTCCCCGCGGTGTATATCGTCCATAG	MPHALATSSATVERHSASTDSLMRLISLRGIITGTCLHTTNCSKDLACCLGIHVRAFSRMKSRSSRESINWPWPSVSKCPTECCLMRAVTVRGNITHPGFSKSHWRVSASSRSHSSLSVIYLLPPFPHVPLRPQPGPAIPPRVPFTSGEGQGVLTQSANPQQAIWRVPVRILAKLKNRVPTTRASLPRGVYRP				NA	NA	NA	NA	NA
D1-29_01110	180			hypothetical protein	GTGTGCAAGTGGTCCAGTCAGCAGGCCTTCATGAGAGAAAATGTGAGGCTCAGCGGAATCAATTCGAGGAGCAGCAGCGTGAAACCGCGCCAGCGCCTGACCCCACTGTCGGGCCCGTTCCGGCGTGAGGGACTCTGCGTCGAGGGCAAGGCCCGGGGCTTCCTCAACGAGCATCGCTGA	MCKWSSQQAFMRENVRLSGINSRSSSVKPRQRLTPLSGPFRREGLCVEGKARGFLNEHR				NA	NA	NA	NA	NA
D1-29_01111	426			hypothetical protein	ATGCACGGTGACTTCGAGCTGGACAACCTTCGGTTCACAGACTACGGCGTGGCGATCTTCGATTTCGACGAGTCAGGCTGCGGCCCCGCTGCATGCGATGTCGCTCTTGCGACTCGTGCCCTGCACGGTGAGGAGGGGGCTGAGCCCGAACCCGGGCTCTACGCAGAGTTCCTCATTGGATACCGCAGTAAGAACGAGTTCACCGCAGAAGAGGAAGCAGCGGTAAAAACATACTCACTGCACCACTCCGCTCGGCGCTCCCAGGATCGCTCGATCCTTGACGAGGGTTTTCGTCCCTCAGATCCGCTGTGGCAGCAGGAACTTCACGACGAAATCCAGGCGGCGAACGCCTGGCACCGCAGAAAGGCAATGTCCGCTGTCCGCGAGCTAGGACATGACGTGGACTTGTTTGAGCAGGAACACTGA	MHGDFELDNLRFTDYGVAIFDFDESGCGPAACDVALATRALHGEEGAEPEPGLYAEFLIGYRSKNEFTAEEEAAVKTYSLHHSARRSQDRSILDEGFRPSDPLWQQELHDEIQAANAWHRRKAMSAVRELGHDVDLFEQEH				NA	NA	NA	NA	NA
D1-29_01112	552			hypothetical protein	ATGGCTCAGGCACTGGCCCCCTTGCCCCGCCGTTCCAGCGTGGCCGCCTTTCCAATCGTCATCCTGCTGGCAATCCTGCTCGGCTTCCTGCCGGCGTCTCCACGGAGTGAGGAGCTGCCCGCGGGCACTGCCGCAGCGCTTCAGTCCCTTTTGATGCCGGTCCACGAGTCGGCAGCCGCCGGAGACTATGCCCGGGCCCTGGAAAACCTTAATGGCGTGGCCAGTGAAGTTGCCGCCCATGCTGCGGCCGGCGGGATCTCAGTGGCGAGGCAACAGCGGATCCTGGGGGCTCTGGAGCTGGTCCGCGCCGACCTGGAGGGCCTGATCCGTCAAGCCGATGAGGCTGCAGCAGCGGTCCAGGCCAGCGCTGACAACACTGCCGGCCAGACCCAAGTTGATCCCGCACCTGCAGCGCCCTTGCCAGCTCCTGCTCCGGCACCGGTTCCGGCGCCTCAACCTGCGCCAGATGGGGAGGAGCCGAAGTCCAAGCCCGGCGACAAACCGGGGAAGGGCAACGACAATGGCCCCCGCGGCAACGGAAAGGGCAAGTAG	MAQALAPLPRRSSVAAFPIVILLAILLGFLPASPRSEELPAGTAAALQSLLMPVHESAAAGDYARALENLNGVASEVAAHAAAGGISVARQQRILGALELVRADLEGLIRQADEAAAAVQASADNTAGQTQVDPAPAAPLPAPAPAPVPAPQPAPDGEEPKSKPGDKPGKGNDNGPRGNGKGK				NA	NA	NA	NA	NA
D1-29_01113	420			hypothetical protein	GTGACCCAGCGCCGGGACACGCCGCGCCAGCGGGTTACGGCATGCAAACGTGGGTACGTTGCCCACATGCAGAAAATATCGATTGACGCCCTGGCCCGTCAGCAGATCGACGCCGCCGTGGCGGCGCCCAGCGGCCGGGCTGCCGACACCGCATTCGGCGGGCATGAAAAGACGCTGCGGCAGACCGTGATGGCGTTCCGCGCGGGCACCCAGCTCAGCGAACACCAGAACCCCGGCGAAGCCACTGTTTTTGTGCTGAAGGGAAACGTGTGGCTGAAGTCGGGCGGGAACTCCTGGCAGGGCAAAGCCGGGGACCTGCTGATCGTGCCGGACGGGCGCCACAGCCTCGAGGCTGAGGAGGACTCGGCGGTGCTCTTCACCGTGGTCAAGACGGACCGTTTAGTCCAGCTGCCGGTTTAG	MTQRRDTPRQRVTACKRGYVAHMQKISIDALARQQIDAAVAAPSGRAADTAFGGHEKTLRQTVMAFRAGTQLSEHQNPGEATVFVLKGNVWLKSGGNSWQGKAGDLLIVPDGRHSLEAEEDSAVLFTVVKTDRLVQLPV	PGPT0000300_197	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
D1-29_01114	849			Tropinesterase	ATGCTGGCAGGCCCGGCTACCGGTTCACCGGCGTACCCTGAGGCTATGGAATCCGACGTCCTGGATCTCAGGCTCCGCACCGGCATCACGGTGCCGTGCTCCGTCCAGGGCGACGACGGCGGCGAACCGGTGCTGCTGCTGCATGCCTGGGGCGAATCCCGGCGCTGTTTTGACCGCCTGATCCCCCAACTGCCCGGCTTCCGGGTCTACGCTCCCGACCTCCGCGGGCAGGGCGACGCCGAGAAACCCGATAGCGGCTACTCCCTCGCAGAACAGGCCGAGGACGCCGCCGCGATCCTGGACGCACTCAACCTACCCAGGGCATTTGTCCTTGGCTCGTCCAGCGGCGGCTACGTTGCCCAGCAGTTGGCGGCGGCGTATCCGGAGCGTGTCACCGCCCTGGTGCTGGTCGGTTCCCCCTTGAGCCTCCAGGGACGGCCGTCCTTCGCTGACGAAGTGGACAGCTTGGCCGACCCCCTCGACGAGGGCTGGGTCCGCGATTCGCTGTCCTGGTTCACCCTGCTGCACGATGTCCCGCACTGGTACATCGAGGACCGCGTGCGCGACGGGCTCAGGTTGCCCGCCCACGTGTGGAAAAGTATCCTGACGGGCCTGTCCGAGGCCACGCCGCCGACCGAATCCGGGAACGTCCGCGCGCCCACGCTAATCTTGTGGGGCGCCGGGGATGCCCTGCTGCCGCGCAGCAGCCAGGAAGAACTGGCGGCCCGGATCCCGGGAGCAATGCTGAAGGTATATCCCGACACAGGGCACATCGTCCTATGGGAGTGTCCTGACCAGGTGGCGGCGGATGCGTCTGCGTTCTTCCGCTCCCAACCGGCACCATTCTGA	MLAGPATGSPAYPEAMESDVLDLRLRTGITVPCSVQGDDGGEPVLLLHAWGESRRCFDRLIPQLPGFRVYAPDLRGQGDAEKPDSGYSLAEQAEDAAAILDALNLPRAFVLGSSSGGYVAQQLAAAYPERVTALVLVGSPLSLQGRPSFADEVDSLADPLDEGWVRDSLSWFTLLHDVPHWYIEDRVRDGLRLPAHVWKSILTGLSEATPPTESGNVRAPTLILWGAGDALLPRSSQEELAARIPGAMLKVYPDTGHIVLWECPDQVAADASAFFRSQPAPF				NA	NA	NA	NA	NA
D1-29_01115	1608	yfeW		Putative D-alanyl-D-alanine carboxypeptidase	ATGCGACAGATTTCCTGGTCAGCGCGCTGCTTCCTGTCGTGCATCGTGGCCGCCGGCGCCCTGGGCCTGAGCATTCCGGCCGCCGCCATCCCCGAAAGTGCCCCGATCCAGGGGCCGCATCCGGACCAGGCCTACGACGCGCTGGATCTCTTCCTCCAGGACCAGCTGGACACACTGGACATTCCGGGCGCCGCCGTGGTTGTTGTCCAGCACGGCCTGCAGGTGCACTCTGCGGCGTTCGGGATGGCCGACGATTCAGCGAGGCCCATGACCGCCCAGACGCCGGTGCTGCTGGCTTCCACCAGCAAGTCACTCACAGCCATCGCCGTGATGCAGCAGGTTGAGGCCGGCCGGCTGGCGCTGGACGAGCCGGTGCAGACCTACCTGCCCTGGTTCACCCTGAAGGACAGCCGCGCCTCCGCCATCACGGTCCGGCATTTGCTGCACCAGACCAGCGGCATGTCCTCCGGAGACACGGCATTCGAAGGCTCCAACGCACAGGACCCGGAGGCGCTCGAACAAGGGGTGCGGGCCCTGGCAAACGCTCCCCTGGCCGGCACCCCCGGAGCGGAGTTCGGATATGCCAATGCCAACTACAACATCCTCGGGCTTCTGGTGCAGACGGTCTCCGGCCAGCCGTTCGCGGACTACATGGAGCAGCACATCTTCGGACCCCTGGACATGCCGCACAGCCATCCCACGCGGGCCGCTGCCCGCGCAGACAAGGTGGCCGCCGGCTATTCCCTCTGGTTCGGCTCGTTCTGGCTCCAGACCGACGTGCCCGCACCCGCCACGGGAATGCCGTCCACCACCATGTACTCCTCCGCAGAGGATCTGGGCCATGAGCTGATGGCCCTGATGAACGAGGGGCGGTATGGTGATCACCGCCTCCTCCAGCCTGAAAGCGTGACGGCTATGTTCCAGCCGCGGGTGCAGGTGGACGCCTCCAAGGGGTACGCCATGGGCTGGTTCACCCGCCCGCTGGTGGAGTCGGTTGGCCCGTCGGAGCCCTATGACGACGGCGATCTGCCACTGCTGCTGGAGCACCAGGGCGAATGGGGCAACACACACACCTACCTGGCCATGGTTCCGGACTCCCGGCTGGGGGTGGCCCTTGTGATCAACGGGAACGACGCCTCCGCCCCCTCCCGGCTCAAGTCCATCGACACGAATATCCTCCGGATTCTCCACGGCGAGCCGCCGGTGCCCACTGTTGTTCAGGAGGACTGGCTGCAGCGCTACAGCTGGGCCGTGGCGCTGGCGCTCCTGGTGGCGGAACTGCTGAGCCTGTGGCTGGCGTTGTCAGTCGTGTTCCGGCGACGTGCCGGCGCCGGGAAGCGGTGGCTGCCGGCCGTGGTGGCTGTTGGCGCCCTGGCACTTGATGCGTTCGCGCTGTGGCTGTGCTTCGTCTACGCGCCCGCCCGCTTCGAGACGGACCTGGCGGTGATCATCCGCCAGTTTCCCGACGTCGGCATCTCCCTGGTGCCGGTGCTCGCCCTGGCCATTGTGTTGCCGCTGCCCCGAACGGTCTGGCTGCTCCTCCGGATGCGGGCGGGTCCCCCTGCCGATGCTGGCAGGCCCGGCTACCGGTTCACCGGCGTACCCTGA	MRQISWSARCFLSCIVAAGALGLSIPAAAIPESAPIQGPHPDQAYDALDLFLQDQLDTLDIPGAAVVVVQHGLQVHSAAFGMADDSARPMTAQTPVLLASTSKSLTAIAVMQQVEAGRLALDEPVQTYLPWFTLKDSRASAITVRHLLHQTSGMSSGDTAFEGSNAQDPEALEQGVRALANAPLAGTPGAEFGYANANYNILGLLVQTVSGQPFADYMEQHIFGPLDMPHSHPTRAAARADKVAAGYSLWFGSFWLQTDVPAPATGMPSTTMYSSAEDLGHELMALMNEGRYGDHRLLQPESVTAMFQPRVQVDASKGYAMGWFTRPLVESVGPSEPYDDGDLPLLLEHQGEWGNTHTYLAMVPDSRLGVALVINGNDASAPSRLKSIDTNILRILHGEPPVPTVVQEDWLQRYSWAVALALLVAELLSLWLALSVVFRRRAGAGKRWLPAVVAVGALALDAFALWLCFVYAPARFETDLAVIIRQFPDVGISLVPVLALAIVLPLPRTVWLLLRMRAGPPADAGRPGYRFTGVP				NA	NA	NA	NA	NA
D1-29_01116	276			hypothetical protein	ATGACCAGTCCAGAGCAGGATCCAAGCCAGCAGGAAGGCCCCGCGGACGGTGGCGCGGCCGGCGTCCCCGGCATGCATGATGGGGGTGCCGACGGAGGAGCTGACAGCGGTGCCGATGGGGGAGCTGACAGTGGAGCCGACGGGGGTGCTGACAGCGGTGCGGACGGCGGTGCCGACGGAGGAGCTGACAGCGGCGCCGACGGGGGTGCCGATGGCGGAGCTGACAGCGGTGCCGATGGCGGAGCCGACGGGGGAGCCGCAGGGCGGGGCATCTAG	MTSPEQDPSQQEGPADGGAAGVPGMHDGGADGGADSGADGGADSGADGGADSGADGGADGGADSGADGGADGGADSGADGGADGGAAGRGI				NA	NA	NA	NA	NA
D1-29_01117	1206			hypothetical protein	TTGAGCACAACCCGCACGGACTTTCAGGACCCCGGCGCACTGAAAAGCGGCGGGGTCCTGGAGACACGCCTGATTACCATTGGCCGTGAGAGGTTCGCCGCCGACATCTGGGGACGCACGGCGCTGCTCACGCGTGGGGCCAGCGACTTCTCCGATTTGTTCTCTGCCGGGGCCGTCGACGAACTGGTCTCGCGCCGGGGACTGCGCACACCCTTTCTCCGCGTCGCCAAGGGCGGCTCAACGTTTCCCGACTCGTCATTCACCTCTCCCGCCGGCGTCGGCGCCACCATCTCTGACCAGCTCGACGACACAGCACTTTGGCGCAAATTCGCGGACGGTGCCACCCTGGTGCTGCAGGCTCTGCACCGCACCTGGGAGCCGGTCTCGGACTTCAGCAGCCGGCTGAGCACCGAGCTGGGACATCCGGTGCAGGCCAACGCCTACATCACGCCGCCCCAGAACCGCGGGTTCGACGATCACTACGACGTCCACGACGTCTTCGTCCTGCAGATCGAGGGCACCAAACGCTGGATCATCCATGAGCCGGTCCACCCGGACCCGCTGCGTGATCAACCCTGGACTGACCGCCGCTCCACCGTCGCCGAGGCCGCGAAAGGCGAGGCCTACATCGACACCGTGCTCGAGCCAGGGGACGTCCTCTACCTGCCACGTGGCTGGCTGCATGCCGCCCAGGCGCAGGGCGAGGTCTCCATCCACCTCACGCTCGGAATCCACAGCTGGACCCGCTATGCGTTGGCCGAACAGCTCGCCCATGCCGCGCTCGCAGCGCTGTGCGATGATCCAGAGATGCGCCGTACGTTGCCGTTGGGCGTCGACGGGCCAGGTGCGGAGCTCGACGTCGTCCGTGAGCGCCTCGCCGCTGCTGTCGTTAAGGCTGAAACCACTTCTTTGTTCCACCGCACCCGGCGAGGACAAGGCCGGCCGGCACCGCTGGGACCATTGGCCCAGCTCGCGGCCGTCGACGGCCTAAGCCCCGGGTCTGTGGTCCGGCTCCGCGATGCCCTGGAAGCACGTCTGGAGGGATCGCGCCTAACCACGCGCGTGGGGTGGCTCGACTTCCCAGAGGCCGATCTGCCTTCCGTAACGCGCCTGCTCGACGGGGAGATTCACACCGCGGGTGACCTCGGCGTTGAACTCGTTGAAAGACTGTTGCGCGCGGGGGTCCTCGTTCCCGTTGAACAGTGA	MSTTRTDFQDPGALKSGGVLETRLITIGRERFAADIWGRTALLTRGASDFSDLFSAGAVDELVSRRGLRTPFLRVAKGGSTFPDSSFTSPAGVGATISDQLDDTALWRKFADGATLVLQALHRTWEPVSDFSSRLSTELGHPVQANAYITPPQNRGFDDHYDVHDVFVLQIEGTKRWIIHEPVHPDPLRDQPWTDRRSTVAEAAKGEAYIDTVLEPGDVLYLPRGWLHAAQAQGEVSIHLTLGIHSWTRYALAEQLAHAALAALCDDPEMRRTLPLGVDGPGAELDVVRERLAAAVVKAETTSLFHRTRRGQGRPAPLGPLAQLAAVDGLSPGSVVRLRDALEARLEGSRLTTRVGWLDFPEADLPSVTRLLDGEIHTAGDLGVELVERLLRAGVLVPVEQ				NA	NA	NA	NA	NA
D1-29_01118	897			hypothetical protein	GTGGCGGCCAGGGAGCGCTTCTTCTGCTCTGAAGACGCCCGGTTGCGCGGCGACCCGATTGCGGGCACGGCGTCGCACGGCGTCGTCTGGGTCCTCATCGAGTACCGGGGCGGGTGGCCTCTCAATGGCTTTGAAGGGCTTGATCTAGAGCCTGAGACCAAGGCACTGGTATTATCTGCCGCGAAGGCGGCGCGGGCACGGGTGCTGCTGGTGCGGCGGCCCGGCCTTCGCCGCCGTGAGGGTCAGAGCCATTGGGCCGTGCTGCGCCATGAAGAGTCAGGCGCCTATCGTCAGCAATGGGGAACGTGGAGCAAGGATGAGGATCTGGCGGAGATTGCCACAGCCCTCAGCACCCCGGGCAGGCTCGGCTATCCGCCAGTCATCCTGGTCTGCACTCACGGTCAACGTGACCAGTGCTGTGCCGTGCGCGGACGTCCCGTGGGACGTGCACTAAGTGAGCGCTGGCAGGAGCTGGTGTGGGAATGCACGCACATAGGCGGTGACAGGTTCGCCGCCAACGTCGTGGTTGCGCCCGACGGCGTCTACTACGGAAATCTGGACGCGGAGTCGTCCGTCGCCACGATCAAAGAACACCTCGCCGGCCGTATCCATGCGGAGTATCTGCGCGGATACACGGATCTCTTCCCAGCGCAGCAGGCCGCTGTCGCTGCCATGCTCAGACGTTTCGGCCCGGCCGGCCGGAATGACTATGTGGTTGCGGCGACCTCCCGCGACGGCGATCACTGGCGGATCCGCATCACCGGCCGCCCGCCTCACCCGGAACGTGTTGACGTCGAGCTGGAGGCGCGCCGCGCGCCGCCCTGCCAACTGACCTGCCGCGGGCCGGCGATGAGTTCCGCCCTGGTCTACGAGCTCACGTCGATCTCCGCAGTCTGA	MAARERFFCSEDARLRGDPIAGTASHGVVWVLIEYRGGWPLNGFEGLDLEPETKALVLSAAKAARARVLLVRRPGLRRREGQSHWAVLRHEESGAYRQQWGTWSKDEDLAEIATALSTPGRLGYPPVILVCTHGQRDQCCAVRGRPVGRALSERWQELVWECTHIGGDRFAANVVVAPDGVYYGNLDAESSVATIKEHLAGRIHAEYLRGYTDLFPAQQAAVAAMLRRFGPAGRNDYVVAATSRDGDHWRIRITGRPPHPERVDVELEARRAPPCQLTCRGPAMSSALVYELTSISAV				NA	NA	NA	NA	NA
D1-29_01119	1260	entS_2		Enterobactin exporter EntS	ATGAGTGCTATGTTCCGTGCCCTCGAGAACCGCAACTACCGGATCTGGGCCGGCGGTGCGCTGGTGTCCAACGTGGGCACCTGGATGCAGCGTATCGCCCAGGACTGGCTGGTCCTGACCGTCCTCACCAACTACTCAGGTGCCGCCGTCGGGATCACCACGGCACTGCAGTTCCTGCCCATGTTGCTGCTGGGTCCCTACGGCGGGGTGCTGGCAGACCGCTACCGCAAACGCATCATCCTGCTCTGGACCCAGCTGGCCATGGGCCTGACGGGGCTGGCCATCGGACTCCTGGTGGTCACCGGCACCGCCCAGCTGTGGCACGCCTACCTGGCTGCCCTTTGCCTCGGCATCGCCAGCGCCATAGATGCCCCGGCGCGCCAGGCGTTCGTCTCCGAACTCGTGGGACAGGACAACATTTTCAACGCTGTGGCCCTGAACTCGGCGTCCTTCAACACGGCCAGGCTTACCGGCCCCGCCGTCGCCGGTGTACTCATCGCCTGGGTGGGCACCGGCCCGGTCTTCCTGCTCAACGCGGCCAGCTACGCCGCCGTCATCATCTCCCTGTTCCTCATCCGCACCTCCGAACTGGTGCCGGCCGCCCAATCAGGCGGCGGCAAACACCAGGTAGCCGAGGGCGTGAACTATGTGCGGCGCCGCCCGGATCTGGTGCTGATCATGGTCCTGGTGGGCATCCTGGGCGCCTTCGGCATGAACTTTCCCATCACCAACGCGCTGATGGCCACGACGGAATTCGGCGTCGGGGCCGGCGAGTTCGGGCTCCTCGGCTCCATCATGGCCGTGGGCACGCTCGCCGGGGCACTGCTCGCGGCGCGCCGGGCCGGACCGCGGCTGCGCTTCCTCCTGGGCGGTGCGCTGGGGCTGGGGTTCTTCACGCTGGTTGGCAGCGTGTCGCCGTCGTTCTGGCTGTATGCGGCCGTCCTGATCCCTGTTGGCCTGGCGTCCATCACGTTCCTGAACAGCTGCAACACGAGCATCCAACTGTCGGTGGAGCCGCAGTTCCGTGGGCGCGTACTGGCCCTGTACCTGGCCGTGCTTCAGGGCGGGACGGCCCTGGGCGCACCCCTGATGGGCTGGATCGGCGGCGAATTCGGCGCGCGCTGGTCCGTGGCCGCCGGCGGCATTGTGGTCCTGCTGGCCGGCCTGGCCGCCATGATCGTTGTCAGCCGGAGGAGCCGGCTGACCTTCCGGGGCGCCCTTCGGGTCGCGTTCCGCAGGAATCGGGAGCAGGCCGCTTAG	MSAMFRALENRNYRIWAGGALVSNVGTWMQRIAQDWLVLTVLTNYSGAAVGITTALQFLPMLLLGPYGGVLADRYRKRIILLWTQLAMGLTGLAIGLLVVTGTAQLWHAYLAALCLGIASAIDAPARQAFVSELVGQDNIFNAVALNSASFNTARLTGPAVAGVLIAWVGTGPVFLLNAASYAAVIISLFLIRTSELVPAAQSGGGKHQVAEGVNYVRRRPDLVLIMVLVGILGAFGMNFPITNALMATTEFGVGAGEFGLLGSIMAVGTLAGALLAARRAGPRLRFLLGGALGLGFFTLVGSVSPSFWLYAAVLIPVGLASITFLNSCNTSIQLSVEPQFRGRVLALYLAVLQGGTALGAPLMGWIGGEFGARWSVAAGGIVVLLAGLAAMIVVSRRSRLTFRGALRVAFRRNREQAA				NA	NA	NA	NA	NA
D1-29_01120	462		COG1846	putative HTH-type transcriptional regulator	ATGAGCACCATCGAAGCGGCGGACCAGGAAACTTCAGGCCCCACCAGGCCGGACATCTTGGCCATAGACCTGCGGACGGCAGTAATGCGCACGTCCCGCCGGCTCCGCGTCGAAGCAACCGGCGAAGTCATCACCCCCGGGCAGTACACGGTGCTGGCCCTCCTGAACGGCAATGGCCCCAGCACCCTCCGCGCACTCGCCGAAAGCGAGCATGTGCAGGCCCCGTCCATGACCCGGATTGTCAACGCCCTCGCGGACCAGGGCTTCGTTTCCAGATCCGCCCACCCCGACGACGGCCGGCAGGTCAGGGTGGACATCACCGACGCCGGCAAGGAAGTCCTGGCCGAAGCCCGCAACGAACGGACCGCGTGGCTCGCCCAGCGTTTGGCCGGGCTCAGCGAGGAGGACCGGGTGATCCTCAGCCACGCCGCCCGAATCATGCAGGAGATGAGCGGCCGATGA	MSTIEAADQETSGPTRPDILAIDLRTAVMRTSRRLRVEATGEVITPGQYTVLALLNGNGPSTLRALAESEHVQAPSMTRIVNALADQGFVSRSAHPDDGRQVRVDITDAGKEVLAEARNERTAWLAQRLAGLSEEDRVILSHAARIMQEMSGR				NA	NA	NA	NA	NA
D1-29_01121	615			hypothetical protein	TTGGACAAATCGGTTCCGCTTGAACGCATGGTGTTCTTCAGCGACGCGGTGTTCGCCATCGCCCTGACGCTCCTGGCACTGGACCTGAAGGTTCCGGCAGGAATTCCACCGGAACGGCTGACTGCCGAACTCATCGACGGAATTCCTGAGCTGATCGCCTTTGCGCTGTCCTTCGTGATCATCGCCCGGGTCTGGATGTCCCACCACACGGACTTCTTCCGTATCCGCAAATTCAACCCGCAACTGGCGTGGCTGAACATGCTGCTGCTGTTCTTCATCGTGATGGTGCCCGCCACCACCTCGATACTCAGCGATTACGGCGGAAACGCGAGCCCCTGGCCCAGCGTCCTTTCTGCAGCCGCCATCTCCGGGGTTTACCTCACCCTTGCCGGAATGTGGACCTATGCCTGGCGCAGAGGCCTGACAGATAAGACGGTGGATGCCCAGGAGCACTGGCGGGTGTTCCGGGGCAGGATGACAGCGCCGGCCGTGTTCCTCCTCAGCATCCCGGCCGCATTCATCCTGACCAGCAACACTCCGTACCTCTGGTTCCTGATCCTGCCCGCCGCCTTCATCTCACGCAGGGTGTCCCGGCAACAGGCTGGCGCTCGGTAA	MDKSVPLERMVFFSDAVFAIALTLLALDLKVPAGIPPERLTAELIDGIPELIAFALSFVIIARVWMSHHTDFFRIRKFNPQLAWLNMLLLFFIVMVPATTSILSDYGGNASPWPSVLSAAAISGVYLTLAGMWTYAWRRGLTDKTVDAQEHWRVFRGRMTAPAVFLLSIPAAFILTSNTPYLWFLILPAAFISRRVSRQQAGAR				NA	NA	NA	NA	NA
D1-29_01122	426			hypothetical protein	ATGGACAACGAAGAAAGGCCCGCCGGCGCCACCGATCCCGGGCCGTTCTACCACGGCACCAAGGCTGACCTGAAGCCGGGAGACCTGCTAAACCCTGGCCATAGCTCGAATTTCGGGCAACGGAAGACGGCAAACTATGTCTACCTGACGGCAACCCTCGACGCAGCCACCTGGGGAGCCGAACTTGGAGTGGGCGAAGGGCCGGGCAGGATCTACCGGGTGGAGCCCACCGGCCGGATTGAGGATGACCCCAACCTGACCGACAAGAGGTTTCCCGGCAATCCGACGAGGTCCTACCGCACCACGGATCCGCTGCGGGTGCTTGACGAGGTCCTGGACTGGCAGCCACACTCCCCTGAGGTGCTACAACACATGCGGGACCGCCTTGAAGAACTCAAGCGGCAAGGCATCGAGGCCATCGACTAA	MDNEERPAGATDPGPFYHGTKADLKPGDLLNPGHSSNFGQRKTANYVYLTATLDAATWGAELGVGEGPGRIYRVEPTGRIEDDPNLTDKRFPGNPTRSYRTTDPLRVLDEVLDWQPHSPEVLQHMRDRLEELKRQGIEAID	PGPT0028000_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0028000-vat-K18234	NA	NA
D1-29_01123	267			hypothetical protein	GTGCTGGCGGTTCCTGCCGATGGGGAGATCCTGCACGACCACCTCTACGTCCTTCCCGTGGAAGGCGCCGGGCTCATCCTCGACAGCAAGATCTACTCCCCGGAAGCTGTCTTCCAAATTGCCGCCGTCGTTCTGAACACAGGCGATATCCGGACCGCGCACCAGCACATGAAGCTAAAGAGTCCTGAGGTGGCGGACATCCAGTTTGATAAGTGGTTCAACTTCAAGGACCCCGACGGAAATCTTCTGATGATCTGCCAGAACTAG	MLAVPADGEILHDHLYVLPVEGAGLILDSKIYSPEAVFQIAAVVLNTGDIRTAHQHMKLKSPEVADIQFDKWFNFKDPDGNLLMICQN				NA	NA	NA	NA	NA
D1-29_01124	537			hypothetical protein	GTGACGGGCGCCTGGAAACTCATCATCGCCCTCGCTGCTGTGCTGGGTGTTGGCACCTGCGTAGCCTTGGGTTTCCTCGGGGTGGCGTTGTTCGCCACGCAGCCGGGGACCCTTCAGGTGCTGGACAGGGCGGCGTCCGAGCGGGACGTCCTGACCGGTGACTTTGGATCTATGGACTCTGACGTGCAGATGGAGAACGCCCGCTTCCTGGGAATGTACGAGAACACCAAGTACTTTGCGGCCCCCAGCGCCTACAACGAGGACAGTTTCTGCCTGATTGCTGTTGCCGTTATGGAGGACGGCGGCTGGGAAGCCGGTTGCGGAGAGCTCATCGACGGCAGGGAGGTTCTGACGTATGTGTGGGACGCGGACGGCAGGGAGGCAGTGCTTGTTCCGGATCAGTTCGACAACGGGATGCTGGAAGCTGACGGCTGGGTTTCGATTCATCAGAACCTGATGGTCCAGGTGGATCCCGAAGCCCCCCGCGAGTTCAGCGACGAAAGAGACGACGTCGAGCCCTACCCGCTCAAGGCCTGA	MTGAWKLIIALAAVLGVGTCVALGFLGVALFATQPGTLQVLDRAASERDVLTGDFGSMDSDVQMENARFLGMYENTKYFAAPSAYNEDSFCLIAVAVMEDGGWEAGCGELIDGREVLTYVWDADGREAVLVPDQFDNGMLEADGWVSIHQNLMVQVDPEAPREFSDERDDVEPYPLKA				NA	NA	NA	NA	NA
D1-29_01125	354			hypothetical protein	ATGAACTACAGCGGAAGTCCGTCCGAGAAGCCACTGGCAGCCGGTGACCTTGACCGCAGCCACATCGGCCAGACTGTCAGCTTCCAGCCCAACGATTTCACGGTGGTCTTCGGAACACTCGCCGGGGTTGCCCGGACGGACGCCCAGGTGTATCTGTCCCTCCAGGGAGTGGGCGGCGGCACCCACCTGAAGGACGAGTACGACCTTCCCGTTACCCAGGAGGTCTACCTTCAGCTGGATCCCATCAGCAGCGCCGGGAAGACCCTTTCGGAGGCGGAACGGGTGATCAAGGAGAAGTTCGACGAGATCAAGAAAAACCTGATGGACCGGGAGCAGAAAACCGGTTCCGAGTAG	MNYSGSPSEKPLAAGDLDRSHIGQTVSFQPNDFTVVFGTLAGVARTDAQVYLSLQGVGGGTHLKDEYDLPVTQEVYLQLDPISSAGKTLSEAERVIKEKFDEIKKNLMDREQKTGSE				NA	NA	NA	NA	NA
D1-29_01126	924	tkrA		Glyoxylate/hydroxypyruvate reductase B	GTGTCCACCCGCCTGCGCGTAAGCCTGCCCGACCAAGACCTGATGGATGCCATGGAGCCGCGTGCCGGCGTCGAGTTCCTGCTGTGGGACTTTTCCTGCCCCGCCCCGGCGGCGCAGCTGGACATCGTGGTGCCGCCGTACATGCGCGGGCCCAGGGTCCTGGCCGCGCTTGAGTCCGTGGAGGCACGCCTGGTCCAGAGCCAGTCCATAGGGTACGACGGCGTGGAGGCAGTTCTGCCCACGGGTTGCCTTTTCGCCAACGCGGCAAGCGTCCATGAAACCTCGACGGCGGAACTCGCCCTGGGCATGATCATCGCCAGCCAACGGGGAATCCCGGACTTCGTCCGGAACCAGGTGTCGGGCACCTGGGCGAACAGCCAGCGGCCCAGCCTGGCGGACCGCCGGGTGCTCCTGGTGGGTTATGGCGGCGTGGGGAAGGCCATCGAGGCGCGGCTGCTGCCCTTCGAAACCCAGGTCACACGAATGGCCAGCCGCGGCCGCGAGGATGGGCAAGGCAGGATCTACGGGATCGATGAGCTGTACGAACAGCTGCCGCTGCACGAGATTGTGGTGGTCAGTGTTCCCTTGAGCGAGCAGACCCGCCACCTGGTGGACCGGAAGTTCCTGGCCGCAATGCCTGATGGCGCGCTCCTGGTCAACGTGGCGCGCGGGCCGGTGGCTGACACCGATGCACTGCTCGCCGAGACGTCGTCCGGCCGGCTCCGGGCGGCCCTGGACGTGACGGATCCGGAACCGCTGCCGCAGGACCACCCCCTCTGGGCCGTGCCGGGTGTCCTCATCACTCCGCACGTGGGCGGGGCGAGTTCGGCCATGCTGCCGCGGGTGGCACGGCTGATCGGCAGGCAGGTTGACCTGATGCTCGCCGGGCAGGAGCCGGTGAACGTGGTGCTCGGCGCGCGGTAG	MSTRLRVSLPDQDLMDAMEPRAGVEFLLWDFSCPAPAAQLDIVVPPYMRGPRVLAALESVEARLVQSQSIGYDGVEAVLPTGCLFANAASVHETSTAELALGMIIASQRGIPDFVRNQVSGTWANSQRPSLADRRVLLVGYGGVGKAIEARLLPFETQVTRMASRGREDGQGRIYGIDELYEQLPLHEIVVVSVPLSEQTRHLVDRKFLAAMPDGALLVNVARGPVADTDALLAETSSGRLRAALDVTDPEPLPQDHPLWAVPGVLITPHVGGASSAMLPRVARLIGRQVDLMLAGQEPVNVVLGAR	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
D1-29_01127	1188			hypothetical protein	ATGCACGCAGCAGATTTCCGCTTCCCCGTTGTCCGCCGTGCCGCCGCTGCTGTGCCGGCAGCGGCACTGGTTGCGGCGCTCGCAGGCTGCACCGGCGCGCCGGATCAGCAATCCCCGACGCCGGCGGCCACCTCCGTAACCGCCACGGCAACTGCGTCTGCTGCCCCGGCGTTCGCCGCTGGGCTGGACAAATACAGCCGGGACATGCGCGCCGGAGGAGCCACCGCCGTCGTGATCCAGATGAAGTCCCGGGTGGGGGAATGGGCCTCGGCTGAGGGAGTCCGGAACCTCGAAACCAATGATCCGGTGCAGCTGACCGACCAGACGCATGTCGGCGACATCACCATGACCATGGTGGCGGTTTCCGTGATGAAGCTGGTTGAGGAGGGCGACATCCAACTGGATGATCCCGTTCAGGAGTACCTGCCGGAGTTCGAGAGCATCATCAAGCCGCCCGGGCCTGTCACCATCCGCAGCCTGCTCAGCCACAGGTCCGGGATGCCGCACTACTGGGAAACACCGAACGAAATTGAAAACAGGCGCTTGACCCATCAGGAGCGTCTGTCCTTCGCGGCCGCCGTCCGGTGGGGCCGGGGAGCGGGCAGCCTGTTCAACTACTCCAACACCAACTACTCGGCCCTGGCCCTGCTGGTCGAAAAGCTGCGGGGCCAGGACATCGGGTCCGTCATCCTTGCCGACAACGTGAAGCCGTTGGGGCTGCAGGGCACCATGATGACGGGCTCCGAGCCGGGGCCGCAGAACCTGATCCACGGATACACTCGCACCGAGAGCGGGGAACTGGTGGACAACGCGCTGGCTCCGCTCCACAGCGGATCACCTGATACAGGGCTGATCTCCACCGTCCCCGAACTCAACGCCTATTTCGCCGCACTGCAGAAGGCGACGCTGCTGACCCCTCAAAGTTTGGCGGAGATGCATCACCCCAAGTATGAGCAGTTCGGCCTGGGCCTGGTCCGGCACTACGATTCCTGCTCCAACAACGACTATTACGGTCACGTCGGGGTGGTCCGGGGCTACGCTGCGCTGGCGCTGATCAGCGCAGACGGCTCCCGGCAGGTTGCCATGGCTGTGGCCAGGGCCCCCAAGCCGGACCTGATTGGCTTCGACGATCCGCAGGCGCTGGAGATGTCCCGGGTGGCGGTCGACGCGCTCAATCAGGCCTGTTGA	MHAADFRFPVVRRAAAAVPAAALVAALAGCTGAPDQQSPTPAATSVTATATASAAPAFAAGLDKYSRDMRAGGATAVVIQMKSRVGEWASAEGVRNLETNDPVQLTDQTHVGDITMTMVAVSVMKLVEEGDIQLDDPVQEYLPEFESIIKPPGPVTIRSLLSHRSGMPHYWETPNEIENRRLTHQERLSFAAAVRWGRGAGSLFNYSNTNYSALALLVEKLRGQDIGSVILADNVKPLGLQGTMMTGSEPGPQNLIHGYTRTESGELVDNALAPLHSGSPDTGLISTVPELNAYFAALQKATLLTPQSLAEMHHPKYEQFGLGLVRHYDSCSNNDYYGHVGVVRGYAALALISADGSRQVAMAVARAPKPDLIGFDDPQALEMSRVAVDALNQAC				NA	NA	NA	NA	NA
D1-29_01128	453			hypothetical protein	TTGAGGCATGCACCCCGTTTCGCGAGCACTGTTTCAGGCCTCATCTGGGAGCTTGACCTGGCTTCTACTCCCATCAGCAGTGCCATGACGGCATTGCTCAGTGTCCTGCCCGAGTCCCTTCTGGAGCGAAAAGCCTTCCTGAACGTTATGAGTGCCGCCTCTGGCCCTGTCCTGGGTTCCGGCAAGCTCGGCTTGACGGGGAACGTACCCAATGGCCAGGGCTTCCGTGCAAAACCCCGCCGCATGTGGTTTGTCTCCGATAGTTCTGCGTCCCTTGCAGCTGAGGGCTTTGGCAGCCCGGAGCCGCTGCGCGTCCAGACCCGGCTGGGCGATTTCTGGATCCCGCAGCGCGGCATCTTCCTGATCGGCGCGTCCTCGTACGAGACGTTTGACCCGGCCCGACACCTCGTCGCGACCGCGCGTCCCACGGCCGGACCAGATCAACAGGCCTGA	MRHAPRFASTVSGLIWELDLASTPISSAMTALLSVLPESLLERKAFLNVMSAASGPVLGSGKLGLTGNVPNGQGFRAKPRRMWFVSDSSASLAAEGFGSPEPLRVQTRLGDFWIPQRGIFLIGASSYETFDPARHLVATARPTAGPDQQA				NA	NA	NA	NA	NA
D1-29_01129	1239		COG0861	putative membrane protein	ATGGACGTTCCTTCAATGGCATGGGTGTTGACCAACGCAGGGATCATTGCGCTGCTGGTCTTTGACTTCGTGTTCCACGTCCGCCGCGCGCACGTTCCGACGCTGGCGGAAGCTGCTATCTGGTCATCGTTCTATGTAGGAATTGCGATCCTCTTCGGGCTTGGCATTCTCTCCTTTGGAGGGCCACCGGCCGGTGGGGAGTACTTCGCCGGCTTCATCACCGAGAAGGCACTGTCGGTGGACAACCTGTTCGTCTTCCTGGTCATCATGAGCAGCTTCAAGGTGCCCAGGGAAGACCAGCAAAAGGTGCTGCTGTTCGGCATAGTGTTCGCGCTGATCGCCCGCACGGTCTTCATCTTCCTCGGTGCGGCACTGATCAACACCTTTGCATGGGTTTTCTACCTGTTTGGGCTCATCCTGCTCATCACCGCCGGCAGCATGCTCAAGCCCGAAGACAGGGAGGAAAGGTCTGCCGATAACTTCATGATCCGGATAGCCAGGCGCCTGTTCCATACAACGGACTACTACGACGGTGACAAAATCTTCACCCTGCATGACGGAAAGTGGGCGCTCACTCCGATGCTGCTCGTGATGGTCGCCATCGCCGGCACCGACATTCTCTTTGCGGTGGACTCAATCCCGGCGATCTTCGGCCTGACCCAGGACGTCTTTATCGTGTTCACGGCGAACGCGTTCGCGCTCCTTGGCCTCCGCCAGCTGTATTTCCTTATCGACGGCCTCCTGAACCGCTTGATCTTCCTTTCCTACGGCCTGGCGCTGATCCTGGGATTCATCGGCGTCAAACTCATGCTGCACGCCCTGCACGAAAACAATCTGCCCTTTATCAATGACGGGGAACCCGTCCCCGTCATCGAAATCGGCACAGGCGCGTCCCTGACCGTCATCGTCTCAGTCCTCACCATCACGGTTCTCGCGTCCTTGCTCAATCCCCGCGGAAAAGCCCAAACGGTCATTTCCGCCGCCCGACGCCATGCCGAGAACTTCCTGGAACTTGATGACACCGCGCACATCGGGGAAAGGAACCGTATCTTCGCGCAGTTGCGCGAGGATGAACAGCGCCTCCGCAGCCTTGGACCCAGACACCGCCAACCGGCAAGAGACGAGCAGGAACTGATGGATCTGATCGCAAGGGCACAAAAAAAATATAAGGAACAAAACCTGCGAGGCGACCCCGTCAACGACGGCGGCCTAAACGGTCAGAAGGATGACAATCGTTGA	MDVPSMAWVLTNAGIIALLVFDFVFHVRRAHVPTLAEAAIWSSFYVGIAILFGLGILSFGGPPAGGEYFAGFITEKALSVDNLFVFLVIMSSFKVPREDQQKVLLFGIVFALIARTVFIFLGAALINTFAWVFYLFGLILLITAGSMLKPEDREERSADNFMIRIARRLFHTTDYYDGDKIFTLHDGKWALTPMLLVMVAIAGTDILFAVDSIPAIFGLTQDVFIVFTANAFALLGLRQLYFLIDGLLNRLIFLSYGLALILGFIGVKLMLHALHENNLPFINDGEPVPVIEIGTGASLTVIVSVLTITVLASLLNPRGKAQTVISAARRHAENFLELDDTAHIGERNRIFAQLREDEQRLRSLGPRHRQPARDEQELMDLIARAQKKYKEQNLRGDPVNDGGLNGQKDDNR	PGPT0004905_43	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004905-terC-K05794	NA	NA
D1-29_01130	1239		COG2814	Chloramphenicol efflux pump	ATGTCCTCCGCGATTTCCGCGCCGGCAACCCAGCGATTCCCGCTGGCCGCCATGATGGTTTTGGCCACCATCGCCTTCACCGCCATCACCACTGAACTCCTCCCCTCCGGCCTGCTCCCCCAGATCAGCACCGGCCTGAACGTGTCCGAGCCGGTGGCAGGCTACCTCGCCGCCGCCTACGCCGCCGTCATCGTCGTCACGGTGGTTCCTGCCGCGCGCCTGCTGGGCAAAGTGCCGCGGCGGCCGCTGCTCGTGGCGCTCGTCCTGACGTTCGCGCTCAGCAACGCCCTGGTGGGACTCGCCCCCAACTTCACCGCGGCGATGATCGCCAGGCTGGTGGGCGGCCTGGCCCACGGACTGCTTTGGACCACCATGGCCCCGTACATCGCCCGCGTGGTCCCGGCCGACAAAGTAGGCAAAGCACTGGCGCTGGTCTTCAGCGGCAACAGCCTGGGCCTGGCCATCGGCGCCCCCATCGGCACCGCCCTGGGCGGCTTCCTCGGGTGGCGAGCGTCGTTCCTGTTCCTGGCCGGCTTCGGCCTGCTGCTCGCCGCCCTGGCCTTCTGGCTGCTGCCGTCCGCCCGGCGCGCCGCGGGCGAGGCCCGCCCCTCACTCCGCAAGGCAATCGCCCAGCCCGGCGTGAAGTCCGTGGCCATCGCCTGGCCGCTGATGGTCCTGGCCCACTTCGCGCTGTTCACGTACATCGCCCCGTACACCCGCGGCGCCGGCCTCCCGGACTACGCCGTCAGCCTCTCCCTGACGGTCCTGGGCGTCTCGGGCCTGCTAGGCATCTGGATCGCGGGCCTCACCGTGGATTCGCATCCCCGGCGTTCGCTCCTGATTACGACGGCGGCAATCGCCGTCTCGATGCTCCTGTTGCCGTTCGTGGGCGGCAGCCTCGCCCTTGCCCTGGTGCTGGTCACCGTCTGGGGCGCCGGGCTGGGAGCGATCGGCATCTACAACCAGTCAGCCATCCTCCGGGCCGGCCGCGAAAACAAGGACGCCGCCAACGGCCTCACGGTCCTGACCATCCAGCTGGGCATCACCATCGGCGCGCTCTACGGTTCCGCCGCCCTGGTGGTGGCCGGACCGCTGCTGGTTCCTGCCGCAGCCGCGCTCCCGGTCATCGCGGCGCTGCTGGTCACCATCGCCGGCAAGCAGGCTGCGTACCCGCCGGGCCCGCGGGAATCAGTGTGGAAGAGCCCGCGGCCCATCAAGGAAACTGAAGGGATCCGCTAG	MSSAISAPATQRFPLAAMMVLATIAFTAITTELLPSGLLPQISTGLNVSEPVAGYLAAAYAAVIVVTVVPAARLLGKVPRRPLLVALVLTFALSNALVGLAPNFTAAMIARLVGGLAHGLLWTTMAPYIARVVPADKVGKALALVFSGNSLGLAIGAPIGTALGGFLGWRASFLFLAGFGLLLAALAFWLLPSARRAAGEARPSLRKAIAQPGVKSVAIAWPLMVLAHFALFTYIAPYTRGAGLPDYAVSLSLTVLGVSGLLGIWIAGLTVDSHPRRSLLITTAAIAVSMLLLPFVGGSLALALVLVTVWGAGLGAIGIYNQSAILRAGRENKDAANGLTVLTIQLGITIGALYGSAALVVAGPLLVPAAAALPVIAALLVTIAGKQAAYPPGPRESVWKSPRPIKETEGIR				NA	NA	NA	NA	NA
D1-29_01131	675			hypothetical protein	ATGACAATCTCTAGTGCTTTTGAAGAAATTCCTGACGACGAAGCGCGCATGTACCTGGAACGTTACTACGGGCTCGGGGAGTGGGAAGATAAGGAGTTCACCGGCGCCCATTTCGATACCTTCGGCAGCAATGAGCCCAACGCTATGACCGCAGATGATCTGCTCGCCGTAGCGTGTCTGTCTAAACATGTACCAGCACGGGCTGCATTAGGGATACTTGGCGATCACTCAATCAAGATCGCAACTCTCCTTGCCTATATTCCGCCCAACCTGTCCATTGAAGACATTCCTTTCGACGAACATGACCACTACTTTGGTGACGGAACTCCGCTGCTGCGCCTCTGGCGGCTCCTTCGGAGGGATGAGCGCACTCGCTGGGGCATTGGAGCCACCACGGCCAGCAAGCTCATGGCCCGCAAGCGTCCCGGGCTGATCCCCATTTACGATTCTGTTGTTGCCGGAGTAACAGGTTTCAACAATTCCGACGGGACCTGGAGGGCATGGCATCACGCAATTGCGACCGACGGTGACCTCATCAGGCGGCTGGAGTCCTTGCGTTCGACAACCGGGCTGCACGGGATCTCACTCCTTCGAATCCTGGACGTGGTGCTATGGATGCACGGTAGTCAAGGGACGCTGGGGCCTGAGACCGTCGACCAGGTGGAGGAAGGCTGA	MTISSAFEEIPDDEARMYLERYYGLGEWEDKEFTGAHFDTFGSNEPNAMTADDLLAVACLSKHVPARAALGILGDHSIKIATLLAYIPPNLSIEDIPFDEHDHYFGDGTPLLRLWRLLRRDERTRWGIGATTASKLMARKRPGLIPIYDSVVAGVTGFNNSDGTWRAWHHAIATDGDLIRRLESLRSTTGLHGISLLRILDVVLWMHGSQGTLGPETVDQVEEG				NA	NA	NA	NA	NA
D1-29_01132	324			hypothetical protein	ATGGCCTATCACGATCAGGACTGGGACCCTTGGGACGAGTTCCACAGGCTGAAGCCCGCCCCGCCGGACCTTATCGGTGGATACCCCGGCGGAGAGCCTTTGGGCTTCGGCTTCCGCACCGGTGTGCGCAGCGCAAGGGTGGCCTTCGGGTTCGCCGTCTATGCGCTGGTCCTCGGAACCGCCCTGGTCCTTACCGGCGCGGTGGTCTTCATCAGCCAGGGCCAGTGGCTGCTGCTGGGACTGATGGTGCTGATCGAGGCCGTCTTCGTCATCGGCTTCATCCGGCTGGTGAAGCAGGCCCGCAACCGGCGCTCCGCTGGATAG	MAYHDQDWDPWDEFHRLKPAPPDLIGGYPGGEPLGFGFRTGVRSARVAFGFAVYALVLGTALVLTGAVVFISQGQWLLLGLMVLIEAVFVIGFIRLVKQARNRRSAG				NA	NA	NA	NA	NA
D1-29_01133	750			hypothetical protein	TTGGGCAGTGCCGTGCACCTCTTGTTCAAGCCAAATACCAGGGCCTACCTTTGTTGCATGAGTCGGCGGATCCACGGAGGCACCAGACTGGCGGGGGCTGTCATGGCTGCAGGGTCCGTGTCCTTTCTGACGGGGGCCGTTATGCCTGTCTCCCGCATCTACGTGGAACAGGACCCGCAGCGCAAATTGGAGATTCTGCTGGCGGACCCCGTGCAATGGAAGGCGGAGCAGGTGTTCTTCGCCGCAGGAACAATTGTGCTGCCTGTCGGTGTCGCCATGCTTGCCCGGCAATGGGGCGAGGGCAGAGGGATTCACCAGCGGGAGTTCCTGCACGGGCGGCGGCTTGCCGTGGCCGCCGCAGCTCTCCTGGCCACTGGAGCCGGCGTCTTTCTGACCGACCTGGCAGCCCGATTCAACGATCCAGAGGGCTTCGCCCTGGGGCGCCAGCCTGTGTGGCCATTCCACGGTTATATGTGGTTGAGCCTGGCCGGCATGTCCGCGCTTGGCGGCGCTCTGCTCAAGCAGACACGCACGGAGTCCGGTTCGGGCTTCCCGCGTTGGCCGGGCGGGCTGAATCTTGGTGGTGCGGCAACGTTTGCCGGGGTGTTGGTTGCCACCGGCGATATTCCACCCCTGGTGATGTATGGAGTTGAACTGGCCACCGGGGTTGCGCTGATCCGAAAGGGTCGCCATGAGAGCATGGATCCCTCCAACCCGGACTTCAGGGTAGAAATGGCCGCCCCTGAATAG	MGSAVHLLFKPNTRAYLCCMSRRIHGGTRLAGAVMAAGSVSFLTGAVMPVSRIYVEQDPQRKLEILLADPVQWKAEQVFFAAGTIVLPVGVAMLARQWGEGRGIHQREFLHGRRLAVAAAALLATGAGVFLTDLAARFNDPEGFALGRQPVWPFHGYMWLSLAGMSALGGALLKQTRTESGSGFPRWPGGLNLGGAATFAGVLVATGDIPPLVMYGVELATGVALIRKGRHESMDPSNPDFRVEMAAPE				NA	NA	NA	NA	NA
D1-29_01134	534			hypothetical protein	ATGGAACCTGAAATCCGGGATCTCCGGCTCCCCATAGGCACCACCGGCTCCGTGGCCAGGCGGCTAAAGGAGGTCTACGACAACCTTCCGCTGCCGGCTCCCACGGTGGCCGCGATCGTCCTGGACTTCCTCCTTCACCGGCTCCGCGCCCTGCCGCTTCCCGGCCCCCGTTCCCTCCACCGGACGGCGGGGGCCGGGCTGCTGCTCGCCGGAGTCGGCCTGAATCTTTGGGCCCTGGCTGAACGCCGACGCCGGTCCGCGAGCCCTTTCGCACTGGAGGCGCCGGAGGAACTGGTCACCAGCGGCCCTTACGCCATCAGCCGGCATCCCATGTACGTGGGCTGGTGGCTCATCCAACTGGGCGCGGGAACCATGGTCGGGTCGTCCTGGGTCCTCATGACGCTGCCTGCCGAGCTGCTGGTGGAACACCGCTATATCCTCGATGAAGAGGCCACGCTGGCCGAGCTCTTCGGGCAGTCCTATGCTCAGTACGCGGAAAGGGTTCCGCGCTACCTCGGTAACCCACGGGTGTAG	MEPEIRDLRLPIGTTGSVARRLKEVYDNLPLPAPTVAAIVLDFLLHRLRALPLPGPRSLHRTAGAGLLLAGVGLNLWALAERRRRSASPFALEAPEELVTSGPYAISRHPMYVGWWLIQLGAGTMVGSSWVLMTLPAELLVEHRYILDEEATLAELFGQSYAQYAERVPRYLGNPRV				NA	NA	NA	NA	NA
D1-29_01135	1074			hypothetical protein	ATGCGCCCAGTCCTGACCGCAGCGGCAGCCGCCGCCCTGATCGCCGCCATGGCGAGCCCCGCCGTCGCGAGCCCGGAGAACGGGGCCGGCGCGCCGCCGTCGAACGCTGCCGGCACCGCCCCAACGGCAACAACAGCGGCACTCAAGGCGAACGAGCGCAACGGCTCCTTCGACCTGCAGTCCCACCGCGGCGGGCGCGGCGAATGGACCGAGGAGTCCCTGGCCGCGTTCGCGAACTCCCTGGCGCTGGGCGTGACCACCCTGGAGCTGGACACCCACCTGACCGAGGACGGCAAGGTGATCGTGTGGCACGATGACACCATCCAGGCCACCAAGTGCGCGGACACAGTACCTGCCACCGCCGGCGACCCCGAATTCCCCTACGTCGGCGACCGGGTGGCCGAGCTCTCCCTCGCTCAGATCAAGACGCTCAACTGCGGCTTTGTGCAGCTGCCCGGCTACCCGGAGCAGGATGTCATCGAAGGCAACAGGATCGCCGAGCTCAAGGACGTTTACCGGCTGGTCCGCGACACCAAGGCCGACAAGGTCCGTTTCAACGTGGAGACCAAGGTGGAAAGCAGCCAGATCGGCGGGGGCGGCATGGAGTCCCTCACCGGCGCTGTGGTGGGCGAGATCCAGGCCTCCGGCATGGCGGACCGGACCACACTGCAGTCGTTCGACTGGTCCTCGCTGAACCTCACCAAGCAACTCGCGCCGGAGCTGCCGCTGGTGGCGCTCTCCAGCGGCGACGCCTGGATGGGCGTGGGCCAGCCCGGCGCCAGCCCCAACCTGGGCGGGATCGACATTGACGACTACGACGGTTCCCTTCCCAGGGCGGCAGCCGCGCAGGGGTACGACGTCGTCTCCCCCACGTTCCGTTCAGTCACCCCCGCGATGATCGCCGAAGCCCACACGCTGGGCCTGCCCGTCATCCCGTGGACCGTGAACATCCCCGCCGACATGGAGCGCCTGATGGACCTTGGCGTGGACGGCATCATCACCGACTGCCCCACCCGGCTCCGCACCCTCATGGAGGAACGAGGCCTGAAGCTGCCCAAGCCGTACGGCGTGTAG	MRPVLTAAAAAALIAAMASPAVASPENGAGAPPSNAAGTAPTATTAALKANERNGSFDLQSHRGGRGEWTEESLAAFANSLALGVTTLELDTHLTEDGKVIVWHDDTIQATKCADTVPATAGDPEFPYVGDRVAELSLAQIKTLNCGFVQLPGYPEQDVIEGNRIAELKDVYRLVRDTKADKVRFNVETKVESSQIGGGGMESLTGAVVGEIQASGMADRTTLQSFDWSSLNLTKQLAPELPLVALSSGDAWMGVGQPGASPNLGGIDIDDYDGSLPRAAAAQGYDVVSPTFRSVTPAMIAEAHTLGLPVIPWTVNIPADMERLMDLGVDGIITDCPTRLRTLMEERGLKLPKPYGV	PGPT0018470_2139	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
D1-29_01136	411			hypothetical protein	ATGCTGCCGCGGTGGCAGGCCGTGCTGGAGCAGGAAGACGCGGCAGTGCGGCCGAATGAGCGCACCTGGTCGCCGCTTGAGTACGCCTGCCACGTGCGGGACGTTTTCGGACTCTTTGACGAGCGGCTGGCCCTGATGCTGCTTGAAGATGATGCCCGCTTCGCTGACTGGGACCAGGATCAGGCAGCCATCGACGGGGACTACGCGCATGAGGACCCGGCACAGGTCGTGCGGGAACTGGCCAGCCGAGGGGAGCGGATCGCCGGCGCTTTCGCCGCCGTGGACAAGTCCCAATGGCACCGCACCGGCACTCGGAGTAACGGGGCAGCATTCACCATGGTCACCTTCGCCCAGTACTTCCTGCACGACGGCGTTCACCACCTGCACGACGTCGAAAGTAAGAGGCCTTGA	MLPRWQAVLEQEDAAVRPNERTWSPLEYACHVRDVFGLFDERLALMLLEDDARFADWDQDQAAIDGDYAHEDPAQVVRELASRGERIAGAFAAVDKSQWHRTGTRSNGAAFTMVTFAQYFLHDGVHHLHDVESKRP				NA	NA	NA	NA	NA
D1-29_01137	1299			hypothetical protein	ATGGACAGCGACACACTGGTCAATTTCCTGTTGGTCCTCTTTTTTGTGCTGTTGGGCGGGGTCTTCGCCGGCACGGAAATGGCCCTGGTTTCCCTCCGCGAGAGCCAGGTGCGCCGGATGGAAAAGGCCGGCAAACGCGGCGCCCGGATCGCAGCCTTGGCAGGGAACCCCAACCGGTTCCTCTCCACCGTCCAGATCGGCGTCACGCTGTCCGGCTTCTTCTCCGCCGCCTACGGCGCCTCCACCATCGCCCCCGACGTCGAACCCCTCCTGGAAGGTCTGGGCCTTGGCTCCGCGGCGGAACCCGTCGCCTTTATCGGCATGACGCTGCTGGTGGCCTACCTTTCCCTGGTGCTGGGCGAGCTGGTGCCCAAGCGGCTGACGATGCAGAGCGCCGTCGGCTTCACGAAGGTCCTGGGCCCGCCCCTGAGCGTCCTCTCCGAACTCATGCGGCCCGCTGTCTGGCTGTTGTCCGTGTCCACCGACGCCGTCGTCAGGCTGTTCGGCGGCGACCCCAATGCCCGGCAGGAGGCCGTCAGCTCTGAGGAACTCTGGGACATGGTGTCCCAAAGCGAGGACCTGGAAGAACACAGCCGCAGCATCCTCACCGACGTGTTTGGGGCCGGGGACCGATCATTGCAGGAGGTCATGCGCCCCCGCACCGAGGTGACCTTCATCGATGGCTCCCTGACCATTGAGGCTGCACGCAGCAAGCTCAGGGACGGACCGTTTTCGCGTTATCCGGTGATCGACAGGACCCCGGACGACGTCCTTGGTTTTATCCACATCCGCGACCTGATGCCCCGCGACGACGAGTACGACCAGGGGCTGGTGAAGGACATTGCCCGGGAGATCCTTCCGCTGCCGGGAACCAACAGGGTGCTGCCGTCACTGTCCCGGATGCGCAGGCTGGGCCAGCACATCGCGCTGGTGGTGGACGAATACGGCGGCACGGACGGCATCGTCACCCTCGAAGACCTGGTGGAGGAACTCGTGGGCGAGATCTACGACGAGTACGACAACGGGGCGGACCCCGAGGACCGCATCATCCGGGCGAACGGATCAGTTGACGTCGACGGTGGCCTGATCCTGCAGGAGTTCGAATCAGCGTCCGGCATCGAATTGCCCGAGGGCCACTACGAGACAGTGGCCGGGTTCGTCATCGACCGGTTGGGCCGCCTGCCCCGGACAGGCGACCAGGTGGAGGTCTCAGGCCACGTTCTCACCGTGCTCGCGATGGACCGGCTGCGCATCGCCCGCATCAGGGTGACTCCCGCGAACGGTCAGCCGCAGGACTGA	MDSDTLVNFLLVLFFVLLGGVFAGTEMALVSLRESQVRRMEKAGKRGARIAALAGNPNRFLSTVQIGVTLSGFFSAAYGASTIAPDVEPLLEGLGLGSAAEPVAFIGMTLLVAYLSLVLGELVPKRLTMQSAVGFTKVLGPPLSVLSELMRPAVWLLSVSTDAVVRLFGGDPNARQEAVSSEELWDMVSQSEDLEEHSRSILTDVFGAGDRSLQEVMRPRTEVTFIDGSLTIEAARSKLRDGPFSRYPVIDRTPDDVLGFIHIRDLMPRDDEYDQGLVKDIAREILPLPGTNRVLPSLSRMRRLGQHIALVVDEYGGTDGIVTLEDLVEELVGEIYDEYDNGADPEDRIIRANGSVDVDGGLILQEFESASGIELPEGHYETVAGFVIDRLGRLPRTGDQVEVSGHVLTVLAMDRLRIARIRVTPANGQPQD				NA	NA	NA	NA	NA
D1-29_01138	1170	dap_1		D-aminopeptidase	ATGTTGGTGAGCCGGAGTCATAAGGCCCTTGGACGTAAAACCGCGTTCGGCCTCGCCGTCCTTTTGCTTGCACTCGCTGGTTGCTCCGCCGGTCCTGATCCGGCTCCGGCGCCGTCGCCGCCGTCGTCAATGGAAGAATTGAAAGCCGAGCTGGAACAGTTCAGCACCGAGCGGTTGGGGGCGGGAGCTTCAGCAGTCCTCATACAGGCGGGGCTGGGAGGGGATGTCTGGTCCACTGCCGAAGGTGTCCGGGACCTTGAGACGAAGGTTCCTGCCCAGCCCGGCGATTCGTTCCACGTGGCCAGCCTGACCAAGTCCATGGTGGCCACCTCCGTCCTGAAGCTGGTTGAACAGGGAAAAATCCAGCTGGATGGCGTGGTCAGCGACTACTTGCCGGAGTTCGATTCGGTCCTGCACCCGCCCAAACCAATTACCGTCAGGATGCTGCTGGACCATACGTCGGGGATGCCCACCTTCGAGGAACCGCTCATCAGATCGGGTCCCCTGAAACCGGTCCTGACCACCCCACTTACCGCCGAGCAGAGGCTTGACCTGACAGGCACCGTGCCCTGGGACGCCGGCAATGTTGGCGTCTACGAGTACTCAAGCTCCAATTACGTGGCGCTGGGACTTCTCGTCGAGCGCGTGACGGGCCGCAGCCTGGGGGATGTGCTGCAGACTGACATTGTGGAGCCCCTCGAGTTGGCCGGAACGCTGCTCGCCGGAACCGCAAAGGCCCCCGCCACCATGGTGCACGGCTACGTCATGATCGACGGCGAACGCGTGGACGCTGCCGACGCCGGTGTCCAGAGCGAATCCGCCTCGGGCGGCATGATCTCCACAGTCCAGGACGTGAACGTGTTCTACTCTGCCCTGCTGGCGGGCAGGCTGGTGAGTCCCGCACTGGTGGAGGAGATGCAAAGTGAAAACTCTTCGGAGTACGGGCTTGGCCTGGCCAAATGGTGGGACAGCTGTACGAGCGGTTTCTACTATGGCCATCTGGGCGGAGCGCCGGGCTATGCTTCCATCGCGATGACCAGCGCCGACGGCTCCAGACAGCTGGCCGTGTTCATGGCACACAGTGCAGAACCGCTGAGCGTCGAGGCTCCGCCAGGCGATTACGGGCTGGAGGAGTTTGCCCAGAAGGCTCTCGAGAGCACCTGTGATTAG	MLVSRSHKALGRKTAFGLAVLLLALAGCSAGPDPAPAPSPPSSMEELKAELEQFSTERLGAGASAVLIQAGLGGDVWSTAEGVRDLETKVPAQPGDSFHVASLTKSMVATSVLKLVEQGKIQLDGVVSDYLPEFDSVLHPPKPITVRMLLDHTSGMPTFEEPLIRSGPLKPVLTTPLTAEQRLDLTGTVPWDAGNVGVYEYSSSNYVALGLLVERVTGRSLGDVLQTDIVEPLELAGTLLAGTAKAPATMVHGYVMIDGERVDAADAGVQSESASGGMISTVQDVNVFYSALLAGRLVSPALVEEMQSENSSEYGLGLAKWWDSCTSGFYYGHLGGAPGYASIAMTSADGSRQLAVFMAHSAEPLSVEAPPGDYGLEEFAQKALESTCD				NA	NA	NA	NA	NA
D1-29_01139	1065	panS	COG0385	Pantothenate precursors transporter PanS	ATGCGTCATCAATGCCCGCTGATTCCGGGACCCAACCCTGACTGTGATAATCCGGTAGGCATGTCTTCTTTATCCGAAACTTCCACGACGGCGTCCGGCGCCGAAGAACGCAGCGCCCGCATCGCCGTCACTCTTTTTCCGGTGCTTATCCTGGCCGGAGGAGCCGTGGCGCTTGCCGCTCCAGCAGCCTTCACCGGACTGGCCCCCTGGATCACCCCTCTCCTGGGAATCATCATGTTCGGCATGGGGCTGACACTCACGCCCCCTGACTTCGCCGTCATAGCCAAACGCCCCGTCCCGGTGGTGATCGGAGTGGTGGCGCAGTACGCCGTCATGCCGCTCTTGGGATGGCTGATCGCAGCTGCGCTGGGGCTGCCGCCTGCGCTGGCCGCTGGCGTCATCCTGGTGGGCTGCTGCCCTGGCGGAACGGCCTCCAACGTGGTGTCCTACCTGGCCAGGGGTGACGTTGCCTTATCCGTCGCCATGACAACTGTTTCTACGCTGATTGCTCCCCTGCTGACACCGGTGCTGGCCTTATGGCTGGCCGGTCAGTACATGCCGGTGGACGCCGGTTCGATGGCATGGTCCATCGTCCAGATTGTGCTGCTCCCTGTACTGCTGGGACTTGTCATCCGGCTCTTCCTGCCGCGCCTCGTCACCAGGGCACTGCCTGCGCTCCCGTGGATCTCGGTGCTCGCCATCACCGTTGTGGTGGTAGCGGTTGTCGCCGGAAGCGCCAAGGCAATCTTCGCCGCGGGCCTGCTGGTTCTCGCGGCCGTTGTCCTGCACAACGGCCTGGGATACGCCCTGGGCTACACTGCCGCCCGTCTTTTCCGGCTACCGATTCCTTCCCGGCGCACCACTGCCATTGAGGTCGGCATGCAGAATTCCGGCTTGGCGGCGGGACTGGCGCGGCAATATCTGACTCCCGAAGCGGCCCTGCCCGGAGCAATTTTCTCGGTGTGGCACAACGTTTCCGGTGCGGTTCTGGCGGCCTACTGGCGCCGCCGCACCACTCCTGCCCAGCGCGGCGCCGAGCCGGTTCCGGCGGCTGTCACGGAGTAG	MRHQCPLIPGPNPDCDNPVGMSSLSETSTTASGAEERSARIAVTLFPVLILAGGAVALAAPAAFTGLAPWITPLLGIIMFGMGLTLTPPDFAVIAKRPVPVVIGVVAQYAVMPLLGWLIAAALGLPPALAAGVILVGCCPGGTASNVVSYLARGDVALSVAMTTVSTLIAPLLTPVLALWLAGQYMPVDAGSMAWSIVQIVLLPVLLGLVIRLFLPRLVTRALPALPWISVLAITVVVVAVVAGSAKAIFAAGLLVLAAVVLHNGLGYALGYTAARLFRLPIPSRRTTAIEVGMQNSGLAAGLARQYLTPEAALPGAIFSVWHNVSGAVLAAYWRRRTTPAQRGAEPVPAAVTE	PGPT0013890_745	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453	NA	NA
D1-29_01140	1542	acp		Sodium/proton-dependent alanine carrier protein	ATGAGCGATGTCCTATCAGCCATCAACGGCGTGATCTGGAGCGACTGGCTTGTCTATCTCTGCCTCGCCACCGGCGTCTACTTCTCCATCCGCACACGTTTCCTGCAGGTACGGCACGTCAAAGGAATGGTCCAGCAGCTGCTTCGGGGCGAGAAGTCCGCCTCCGGCGTCTCCTCGTTCCAGGCCCTGGCCATGTCCCTGTCCGGCCGCGTCGGTACCGGCAACATCGCCGGCGTCGCCACCGCCGTCGCCTTCGGCGGACCGGGCGCCCTGTTCTGGATGTGGGTAGTCGCCTTCCTTGGCGCTTCGACGTCGTTCATCGAGTCCACCCTCGGCCAGATCTATAAAGCCCGCGACCCGCTGACCGGCGAGTACCGCGGCGGCCCGGCCTACTACTTCTCCCGCGCGTTCGCCCACACCAAGGGCGCCGGGTTCTTCAAGGTCTACGGCTACGTCTTCGCCGCCGTGACCGTTCTGGCCTGTGGCGTTCTGATGCCGGGTGTCCAGGCCAACTCGATGGCCACCGCCATCGGCGGCGCCTGGACCCTCGAGCCGTGGATGGTTGCCGTCGGCTCCGTCATCCTCCTGGCGTTCGTCATCATCGGCGGCGTGAAGCGCATCGCCAGCGTGGCGGCGTTCGTCGTGCCGTTTATGGCTGTCGGCTACATCATCCTTGCCCTGATCGTCGTCATCATCAATGCCGGTCAGCTGCCGGAAATCATCGCACTGGTGTTCAGCAGCGCCCTTGGCATGGATTCGGCCCTCGGCGCCGTCATCGGACTGGCCGTGATGTGGGGCGTCAAGCGCGGCGTCTACTCCAACGAGGCCGGCCAGGGAACGGGTCCGCACGCAGCGGCCGCCGCAGAGGTTTCGCACCCGGCGAAGCAGGGTCTGGTCCAGGCCTTCGCGGTTTACATCGACACCCTGTTTGTCTGCTCGGCCACCGGCTTCCTGATCCTCTCCACCGGCGCCTACCGCGTCTTCTCCGGAGGCAGCGAAGACGGCGAGGTCCTGGTCGAGGGCGGCCTGCTTTCGGCCACGGCCAGTGTGGGGCCCCAGTTCGTGCAGACCGGATTCGACTCCGTCTTCCCGGGTTTCGGCGCATCGTTCATCGCCATCACGCTGATCTTCTTCTGCCTGACCACGGTCATCGCCTACTACTACATGGCAGAAACTAACCTGCGCTTCCTCGTGGGCAACTCCTCGAACAAGATGATTCCCGGTATCCGGGCAAGCCTTGGCCGGGTGACCACCATGGCCCTGCAGGTGTTGATCCTCATCGCCGTCGCCTACGGCTGCGTGAACACCGCCGCCGATGCGTGGACGATGGGTGACATCGGCGTGGGCCTCATGGCCTGGCTGAACATCATTGGCATCCTGATCCTGCAGGAGCCCGCCTTCAAGGCGCTCAAGGACTTCGAGCGGCAGCAGAAGCTCGGCCTGGACCCGGTCTTCGACCCGAAGCCCCTCGGCATCATCGGAGCCACCTTCTGGGAGTCCTACAAGACGGCCGACCGCGAGAAGGAATCCGCGCGGATCTAG	MSDVLSAINGVIWSDWLVYLCLATGVYFSIRTRFLQVRHVKGMVQQLLRGEKSASGVSSFQALAMSLSGRVGTGNIAGVATAVAFGGPGALFWMWVVAFLGASTSFIESTLGQIYKARDPLTGEYRGGPAYYFSRAFAHTKGAGFFKVYGYVFAAVTVLACGVLMPGVQANSMATAIGGAWTLEPWMVAVGSVILLAFVIIGGVKRIASVAAFVVPFMAVGYIILALIVVIINAGQLPEIIALVFSSALGMDSALGAVIGLAVMWGVKRGVYSNEAGQGTGPHAAAAAEVSHPAKQGLVQAFAVYIDTLFVCSATGFLILSTGAYRVFSGGSEDGEVLVEGGLLSATASVGPQFVQTGFDSVFPGFGASFIAITLIFFCLTTVIAYYYMAETNLRFLVGNSSNKMIPGIRASLGRVTTMALQVLILIAVAYGCVNTAADAWTMGDIGVGLMAWLNIIGILILQEPAFKALKDFERQQKLGLDPVFDPKPLGIIGATFWESYKTADREKESARI	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
D1-29_01141	1377	mcrA_2		Mitomycin radical oxidase	ATGGACAACAACGGATTTCAGGCCCTGCAGGAACAAGTACGAGGCCAGGTCATCACTTCCGACCATCCCCACTATGAAGCCTCGCGAACCGTCTACAACGGCATGATTGACAAACATCCCGCCGCGATACTTCGTGTTTCCCAAGTCGCGGACGTCATCGCAGGAGTGAACTTTGCCCGTGACCAGGGTCTGGATCTCGCGCTTCGCGGCGGGGGCCACAGTGCCCCCGGATTCGGGACCTGCGACGGAGGCCTGGTGCTGGACTTCGCCGGCCGAACGGGCGTCCGGGTAGACCCTGCTACTGCAACGGCCCGGGCCGAGGCAGGCACCACCTGGGCCGACTTCAACCACGCAACCAACGCGTTTGGGCTGGCAACAACTGGCGGCATTATCGGATCCACAGGTGTTGCTGGACTGACGCTGGGCGGGGGCATCGGCTACCTCGCCCGTAAGCACGGCCTGTCCTGCGACAACCTCATCTCCGCGGATGTGGTGACCGCAGACGGCAAGTTCCGCACAGCCAGCGCAACTGAGAATGACGATCTCTTCTGGGCATTACGTGGCGGCACGGGAAACTTCGGCGTGGTCACTTCCCTGGAATTCAACCTGCATCCCGTCGGCGTCGTGTACGGCGGTGTAGTGATCTATCTGGTGGAGCACGCTGAGGCTGTTGGGCAGCTGTTCCGGGACTATATTGCCACGGCACCCGAAGACATGGGAATCTTCCTCGGGTTCCACCAAGGCCCCCCGGTCCCCTTCCTGCCGGAGGAGCACCACGGCAAGCCTGTGGTGGTTGTGGTGGGCGCCTGGACCGGCCCACACGATGAAGGCGAGCGGCAATGGCAGCAGTTCATGGATGTCGCCCCAGTTGCCGGGTCGTTTGTGGGTCCGCTCCCGTACCCGGTGCTCAACACCTTGTTCGACCCGCTACTCCCGAAAGGCCTGCAAGCATATTGGAAGGCGGAGTTCCTTCCGGAGTTGAGTGACGATGTGATCGGGGTTGCCAGGAAGTTCGGAGCCGGCGTGCCGAGTCCCCAGACCGCGAATCACTACTACCCCATCAATGGTGCGGCCCAACGGGTCGGACGGGATGAGACTGCCTTTCCTTACCGGGATGCCAACTTCTCAGTGGCCATCGCCGGAATGTGGGAGTCCCCGCAGGACAACGACGCCAACACCAGGTGGGTCAGGGAGTACCACCAAGCCCTGCATCCTTATGGATCCGGTGCCGGCTATGTCAATTTCCTTGACGCCGACGACCAGTCCAGCATCGAGGACAACTACGGCGGCAACTACGCCCGGTTGGCCAAGATCAAGGCGAAGTACGATCCCGGCAACCTGTTCCATATCAACCAGAACATCAAACCGGTGGCGTGA	MDNNGFQALQEQVRGQVITSDHPHYEASRTVYNGMIDKHPAAILRVSQVADVIAGVNFARDQGLDLALRGGGHSAPGFGTCDGGLVLDFAGRTGVRVDPATATARAEAGTTWADFNHATNAFGLATTGGIIGSTGVAGLTLGGGIGYLARKHGLSCDNLISADVVTADGKFRTASATENDDLFWALRGGTGNFGVVTSLEFNLHPVGVVYGGVVIYLVEHAEAVGQLFRDYIATAPEDMGIFLGFHQGPPVPFLPEEHHGKPVVVVVGAWTGPHDEGERQWQQFMDVAPVAGSFVGPLPYPVLNTLFDPLLPKGLQAYWKAEFLPELSDDVIGVARKFGAGVPSPQTANHYYPINGAAQRVGRDETAFPYRDANFSVAIAGMWESPQDNDANTRWVREYHQALHPYGSGAGYVNFLDADDQSSIEDNYGGNYARLAKIKAKYDPGNLFHINQNIKPVA				NA	NA	NA	NA	NA
D1-29_01142	1026	yedI	COG2354	Inner membrane protein YedI	GTGAGCGGCGGTCTGGTCGCCCTGCTTGACGACGTCGCAGCCCTGGCCCGCATAGCGGCCGCCTCGGTAGACGACATCGCTGCCGGAGCCAGCAGAGCAGGGGTCAAGGCCGCCGGCGTGGTGATCGACGACGCAGCCGTCACCCCGCAGTACGTGTCCGGGGCAGACCCGTCCCGCGAACTGCCGATGATCAAAAAGATCTTCTGGGGATCGCTCCGGAACAAGCTGTTGATCATCCTGCCGGCCCTGCTGCTCGTCAGCGCGTTCGCCCCATGGGCCATCCCGTTCATCCTCATGCTGGGCGGTACCTACCTCTGCTACGAGGGCGCCGAAAAGGTCTGGCACAAGCTCCGCGGCCACCACACCGCGGACGAAAAAGCGCCGGCGGTTGAACGCGGTCCGGAGGCCGAGGCGAAGGTCATCAAGGGCGCCATCACCACCGACTTCATCCTGTCCTGCGAGATCATGGTTATCTCGATGAACGAGGTGGCCGCAGATTCCTTGTTGTCCCGGGCGATTATCCTGGTGGTCGTGGCCTTGGTGATCACGGTGGCCGTTTACGGTGCCGTGGGACTGATCGTGAAGATGGACGACATCGGCCTGCATATGGCCGCCAGGAAGTCCGCGGGTTCCCAGCGCGTCGGCGAGTTGCTGGTCAAGGGGATGCCCGCCGTGCTGGCAGCGATCACCTTCATCGGGACCATCGCCATGCTTTGGGTTGGTGGCCACATCATGCTGCAGGGGGCCTACGACCTCGGCTGGCACGGTCCGTATGACATAGTCCATGTCCTCGAGCACCCCTTCGAGGGGATCGCAGTCGTTGGAGGCTTCCTGGCCTGGCTCGTGAACACCTTGTGCTCAGCCATCATCGGGCTCGCCTGGGGCATCGTGGTCATGGCTATCGTGCATCCGCTGCTCAAAGCACTGCCGTTTGGCAAGAAGAAGGGCGGGCACGAGGAGGGCGACATCCGCGCCGAACTTGCCGGCTACCGGCCGACGAAACACGACGGCGATCCCTCCTCTTAG	MSGGLVALLDDVAALARIAAASVDDIAAGASRAGVKAAGVVIDDAAVTPQYVSGADPSRELPMIKKIFWGSLRNKLLIILPALLLVSAFAPWAIPFILMLGGTYLCYEGAEKVWHKLRGHHTADEKAPAVERGPEAEAKVIKGAITTDFILSCEIMVISMNEVAADSLLSRAIILVVVALVITVAVYGAVGLIVKMDDIGLHMAARKSAGSQRVGELLVKGMPAVLAAITFIGTIAMLWVGGHIMLQGAYDLGWHGPYDIVHVLEHPFEGIAVVGGFLAWLVNTLCSAIIGLAWGIVVMAIVHPLLKALPFGKKKGGHEEGDIRAELAGYRPTKHDGDPSS				NA	NA	NA	NA	NA
D1-29_01143	714			hypothetical protein	ATGGAGGACTACGCACGTTTCCTGCCGCCTGATCGAAGGAAGCCACTTGTTCCCCCGGTCTCGGATTGGTGGCCCTGGACGAACCATCAGGTCCACCTCCTCCGGTTGCGGGACGCCAGCGCCCCGGTTCGGATGCTTGTCGTTCACGGCGCGGGCGCCCACGGAGCGGCGCTCTGGCCTGTTGCGTCCCTCCTCGCAGGCCGCGGGGTTGATGTGAGTGTGGTCGACTTGCCGCTCTACGGCCGAACGGTGACAGTATCCCCCGGAACAGTGACCTACCAGGACTGGGTCGCCCTGTTAGTCGACCTCATCTCGGCTGAAGATGATGGCCGTCCTGTCATCCTCTTCGGAGCCAGCATTGGTGGTTTGCTCGCCGTGGAGGCAGCGGCTCGTTCAGGTAACGTGGCGGCCGTGGTGGCTACCTGCCTACTCGACCCACGAGAGAGAGACGCTCGTTCGGCGATGACGCGGTTCGGCCCTGTCGCCCTGCTTTTCATGCCAATGCTCAGGCTGGTCTGGGGGCCATTGGCCAGAATTCAGTCAGAATCTCCTGGGTCGCGGAGCTCAGGCGCATGGGGCGCGACCGCGGTCTGGGGCGGCTCTGCGCGAAAGATGCGCGCGGAGGCGGCGCGTGGGTTCCGCTGGGGTTCCTCGCCAGCTACATGCAGTATCCACACTCCGAGGCGCGCACCGCACTCCTCCCAGTCCACCTAA	MEDYARFLPPDRRKPLVPPVSDWWPWTNHQVHLLRLRDASAPVRMLVVHGAGAHGAALWPVASLLAGRGVDVSVVDLPLYGRTVTVSPGTVTYQDWVALLVDLISAEDDGRPVILFGASIGGLLAVEAAARSGNVAAVVATCLLDPRERDARSAMTRFGPVALLFMPMLRLVWGPLARIQSESPGSRSSGAWGATAVWGGSARKMRAEAARGFRWGSSPATCSIHTPRRAPHSSQST				NA	NA	NA	NA	NA
D1-29_01144	897			hypothetical protein	ATGCGGATACTCGTCGTCGGAGCCGGAGCCACAGGCGGGGCGTTCGGCACACTCCTGCAGGAAGCCGGACGGGACGTCACGTATCTGGTGCGGCCGCGCAGGCAGGAGGTCCTTCGCCGCGACGGGCTGCGCTTCGTCTCCCCCACCGCCGACCGGACACACCAAGTGCAAACCATCACTGCCCCGGACGGGCCAGAGGCCTTCGACCTGATCCTCGTCACGGTCAAAGCCACCGCGTTCGACGGCGTCCTTGCCGAGATTGGCCCTTTCGTCGGGCCTGGAACCACCATCATTCCCATCCTCAACGGCATGGCCCATGTGGACCGGCTGGAACAGCTGTACCCGGGCCAGGCGCTGGGCGGCCTGGCCCGGATCGTTGCAACTCTCGACGGCGATGTGGTCCGCCAGCAGGTGCCCCTCACCTCCCTCATGGTGGGCGGGCTGAACGGCACCCCTGTCCCGCCGGCCGTTTCCGAAGCTCTGGACGTGCCCGGCGTCGACTTCTCGGTAGCCGACGACATATTGGGGGCACTGTGGGATAAATGGGCCTTCATCGCTGCCGCCGGAATCGTCAATTGCCTGTTTCGGGCCCCGGTGGGACGGATACTCGACGCCGGCGGGGAGTCCAGGATCCTGGAGGCCATCAGCGAAACCGAAGCGGTGGCAGCCGCGGCAGGACATCCCGTTTCCGATGCCGCTCATGCACAAGCACTCGGCATTCTCACCGAGCCGGGATCGGCCTTCACTTCCTCTCTATACCGGGACCTCAGCGCCGGGCTCCCCTCGGAAGCTGAGCACATCCTCGGTGACCTCGCCCGCCGTTCCCGCAGTCTGGAAGTCCCGACGCCGCTGCTGGACCTCACCCTCATCCAGATCAGGGCCGGCCTCCCCCTCTGA	MRILVVGAGATGGAFGTLLQEAGRDVTYLVRPRRQEVLRRDGLRFVSPTADRTHQVQTITAPDGPEAFDLILVTVKATAFDGVLAEIGPFVGPGTTIIPILNGMAHVDRLEQLYPGQALGGLARIVATLDGDVVRQQVPLTSLMVGGLNGTPVPPAVSEALDVPGVDFSVADDILGALWDKWAFIAAAGIVNCLFRAPVGRILDAGGESRILEAISETEAVAAAAGHPVSDAAHAQALGILTEPGSAFTSSLYRDLSAGLPSEAEHILGDLARRSRSLEVPTPLLDLTLIQIRAGLPL	PGPT0008745_4630	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008745-panE|apbA-K00077	NA	NA
D1-29_01145	741			hypothetical protein	ATGGATGCCAGAGCGAATTACGAACCGTCGGATGGCCAAACAGCCGGCACGGTTAGACCGGGTGGTGCGACCGGCAGGCCGGACCTCTGGACAGCAGTTGCGGGCCTGGTGTTCACCGCCCTGGTGGTGGCCAGCTTCTTCACACCCGACACGCCCAGTTCCGACAGCCCGGCGGAGGACATCGCGGCCCAGCTCACCGGGGACCGCACCGCCCACCAGATTTCCCTGCTGCTGGGATTGATCGCCAACATCGCATTCCTGATATTCCTGGCCGGCCTCTGGAGCAGGCTGCGCCGATGGGAGGGTCAGGCCGGGATGTTCGCCGCGCTGGTCCTCACCGCCGGCACTGCCTTGGTGACGCTCATGCTGGTTTCGGCTGGCCTGTACACGGCTCTCCTCCAGTATGCCTCCGCCGACCAGCCCGATCCGGCGGCGCTTTCTGCCCTCACCGTCCTCACCGAGTGGGTAGGTGGTGCCATTGTTCCAGCCGGTGTCGCGATGTTCCTCGGGGCGGCGATGGCCATCCTGACCACCCGCGCGCTACCTCTGTGGCTTGCCTGGCTGGCTATCGCCACGGCCGTGCTGCTGCTCACTACTGTCGCAGGCGTATTCGAGACCGCCGACGACGGAGGCGTGGTGGGCATCGCCGGTTTCGTCGGCTTCCTGCTTTTCATGGTCTGGGTGCTGGCCACGAGCGTCGTGTTGCTGATACGGCCTGGCCGGCAGCCAGCCAGGCCGTAG	MDARANYEPSDGQTAGTVRPGGATGRPDLWTAVAGLVFTALVVASFFTPDTPSSDSPAEDIAAQLTGDRTAHQISLLLGLIANIAFLIFLAGLWSRLRRWEGQAGMFAALVLTAGTALVTLMLVSAGLYTALLQYASADQPDPAALSALTVLTEWVGGAIVPAGVAMFLGAAMAILTTRALPLWLAWLAIATAVLLLTTVAGVFETADDGGVVGIAGFVGFLLFMVWVLATSVVLLIRPGRQPARP				NA	NA	NA	NA	NA
D1-29_01146	594			hypothetical protein	ATGTATCTTCCCCGCACGATCCCTCTGCTGCCATGCGCCGACATCGAGGAGATTGAGCCGTTCTTCGCGGCCCTGGGATTCCGCACCACCTACCGCCAAGTCCGACCGTACTCGTGCATCGGCGTCAACGGTCACGGGTTCGATCTGCAGTACTACGGCTTGAACGGTCACACACCAGAGTCCTCGCACAGCTCCTGCATCGTCATCGTCGAAGACACCGGACCGATCTGGGAAGAGTTCGCATCAGGACTGCGCGAGGCCTACGGCCGACTGCCAGTCAAGGGATTCCCGCGAATCACCCGGCCCCGCTCCCGAAAGAACGCCGGCGGGATGAGCGGCTTTAGTCTCGTAGACCCGGCAGGGAACTGGATCCGCTTCTTCCGCGACAGCAGCACAGAGATCTCGACTGCCGATCTCAGCCGATTAGGCGAGGCCGTCCAGGACGCGGTCGTGCTCGCTGACAGCAAAGGCGACGTAGCACAGGCAGCTAAGATCCTTCGGGGTGCGATCAATCGCGCCCCTGCTGACGATCCGGCGCAAGATGAAGCTCTAAGTTTTCTCACCGAGCTAACTGAGCGTCTGCCGGACGGTTGA	MYLPRTIPLLPCADIEEIEPFFAALGFRTTYRQVRPYSCIGVNGHGFDLQYYGLNGHTPESSHSSCIVIVEDTGPIWEEFASGLREAYGRLPVKGFPRITRPRSRKNAGGMSGFSLVDPAGNWIRFFRDSSTEISTADLSRLGEAVQDAVVLADSKGDVAQAAKILRGAINRAPADDPAQDEALSFLTELTERLPDG				NA	NA	NA	NA	NA
D1-29_01147	579			hypothetical protein	ATGCGCAAAGGGCTCAAAATAACTCTTTCCGGGACGGGAGCCCTAGGTGCGACACCGAAGGCACCGGGCGCGGCGATAAGAAGAACTCCTCATGCCCGTCGTGGAACCCCCGAGTTGTTGATAGCCGTGTGCTTACTAAGCTTCGGTGCGGTTTCTTGTGGCACAACAACCAACGGACCCGACTCAGGGTTTCAAGAGACACCTCTACCCTCCTCGACAACGTCAGCCGGAGCGACCGCCACGAAAGCCGGGCCGTCCTGTCCTGTACGTGAAGAGATTCCGGTGCGGGATCTCCAGTATGACGAGCTTGTGGATTGCGATCTAAGGGACGTCCGCATCCTGTTTGAAGACGGCAGGACGATCCCAACGCCTGTAGCCGGGGAAGTGGCCAGCGGGGGCTCTTCAACCGTAGTTGGGGCCGAAGACCTGGACACAATATCGGTCGCGAACCTTGGTCCAGGCCTCGGTGTGGTCGGCTTTATTGAGAATGACGCTCGGGGGGTCACTTACTGGGGACCGGCGGAGGCCACTTCGATACTGAAGGAGCAGCAGGCCAATGCAGACATGGCAGACGGATAG	MRKGLKITLSGTGALGATPKAPGAAIRRTPHARRGTPELLIAVCLLSFGAVSCGTTTNGPDSGFQETPLPSSTTSAGATATKAGPSCPVREEIPVRDLQYDELVDCDLRDVRILFEDGRTIPTPVAGEVASGGSSTVVGAEDLDTISVANLGPGLGVVGFIENDARGVTYWGPAEATSILKEQQANADMADG				NA	NA	NA	NA	NA
D1-29_01148	843			hypothetical protein	ATGGTCGGGCAGGCCGTCACGTCGTGCTTGACGAGTGCAGGCCATGAAGTGGTCGGTTTTGATTTGGCGGCCGGGCAGGATGTCCTTGACGCGGACTCGTTAACTCAGGCGGTGAGCGGCTGCGACGCTGTGGTGCATTTGGCAGCGTTGGATGAGGCCCAAGATGAAGACTCGCCTTTTGCGGAACTCGGTCCTGCGTCTGCGGCTGGAGATTCGACCATTATCCAAAACAATGTGATTGGAACCTACAACGTACTTCGCTCTTCAGAACGTGCAGGTGTTCAACGTGTCGTGTTCATGAGCAGCGTGGATGTGTATGGGTGCTTTATGGGCCAGGGGTCACCCGAGTACTTCCCCATTGACGAGGTTCATCCGTTGGATCCGAAGGGGGCTTACGCGTGGTCGAAAGTTGCTGGTGAAGAGCTATGCCAAACGTTCACTGTAAACTCCGGGACACCAACCATTTGTCTTCGAGCTCCTGGCGTCTTCGCCCCATCGACATATGAATTCATCCAAACGGCGCGGAGGGATACCCCCAGCGTTGAATGGGAGCCCTATTGGGAATATGGTGCTTTCATCGACGTGCGCGACCTTGCAACTGCCGTTCTGAATGCCCTCATTGCCCCTCTTGAAGGACACCACAGGCTCCTTGTCAATGCCAACGACATCAGCTCGGCTATGGACGGATCATTGGCACTTGCTGACAGGCTCATGCCCGGAGTTCCCGTCCGAAACCGCGACACTTACCACGAATCGCCGTTCAAGGCGCTCATAGATGCCACGAAGACTTACGAGTTGTTGGGGTGGCGGCCGCTCCATGATTGGGACAGTACTCGGAACTGA	MVGQAVTSCLTSAGHEVVGFDLAAGQDVLDADSLTQAVSGCDAVVHLAALDEAQDEDSPFAELGPASAAGDSTIIQNNVIGTYNVLRSSERAGVQRVVFMSSVDVYGCFMGQGSPEYFPIDEVHPLDPKGAYAWSKVAGEELCQTFTVNSGTPTICLRAPGVFAPSTYEFIQTARRDTPSVEWEPYWEYGAFIDVRDLATAVLNALIAPLEGHHRLLVNANDISSAMDGSLALADRLMPGVPVRNRDTYHESPFKALIDATKTYELLGWRPLHDWDSTRN				NA	NA	NA	NA	NA
D1-29_01149	690			hypothetical protein	GTGGAAGGCTTCAGGCACTCTTCGGACGCCGACCGTGAGTTTTATGAGCTCCGCAGGCGGGCATATGGTCCAGATCCTGACATCAGTGTCGACCCTCCGGGCCTAGCGAGGTTGCGCGAACTTGAGGTGGCGGACCGCGCTGAAGTCAATTCTCTGCCGGTTGCCCCCGCGAGCGAGAATGCGGCTGATTCGGAGGCCCCCGCGGACGCTGCCTCGATAGACCATCCGGTGCCAAGGTGGAGTCGCCTGTACTGGGCCGGTGCCGCACTGGTCCTCGCGGGAGGGATCGTTACGACGACCCTGCTGTTATCCGCGCCGCGTCCTGATGCCACTCTTCATCCGAGCGGGGCCGCGGTCGATAACCGGCTCCCTGGACTGCTGATTAGGGGAGCACCCCTGTTGAGGATCGAAGCTTCAACCCTCCGCGGATACGGGTCGTATCTCGGTCTCGAGATCTATTCTGCCGTGAACGCGTTCGATTCGCCGTGTCTGGTGGCATTGCACCGGGCGAGCGGTAATCTCTCAGACGTTCGCTGTGCTCCGGCTCCAGCAGATCTCATGATGGACGTCGCCTCATCCCGGGACGGGTTTGAAGGATTCGAAGGACGCGCCGGGGACGGCATCGTCCGATTCGTACTTCGTTACGACACGGTGGACGCTTACGTTTACCTCATCCCGGAGGAGGGCTGA	MEGFRHSSDADREFYELRRRAYGPDPDISVDPPGLARLRELEVADRAEVNSLPVAPASENAADSEAPADAASIDHPVPRWSRLYWAGAALVLAGGIVTTTLLLSAPRPDATLHPSGAAVDNRLPGLLIRGAPLLRIEASTLRGYGSYLGLEIYSAVNAFDSPCLVALHRASGNLSDVRCAPAPADLMMDVASSRDGFEGFEGRAGDGIVRFVLRYDTVDAYVYLIPEEG				NA	NA	NA	NA	NA
D1-29_01150	804			hypothetical protein	ATGGAGCCATCCTCACCCCGGTCTGATGCTGAGCGCGAGCTGGACGAGCTCCGCAGGAGGGCATACGGTCCGCATCCGGATATCCAGTCCGACCCCGCAGCACAGGTAAGACTGGCGGAACTGGAGGGGGCGCACACCGCGAGTCCCCGCGCCCTCACCGACACCGACGTCAGAACAGCCGCTGCAGCCCAGGATTCCGGTTCAGTCGCTCACCCCACCAGGACCACATTCATTGACGAAGTGCCGGACCCGGCAACCAGCATCGCGCCCGTGGCGGAGTCCAGGATTGGATCGACGTCGTTGACCTGGCGTCGTCTCACGGCGACACGTGCCCGACGTTACTCATTTGTGGCCGGCGCGCTGGCAGTCTTTCTTGCCGGTGTGTTCGCCGTGACATGGATTGCAACACCGCATCCCGATGCCACATTGCATCCGATCGCAGACGAGGCTGACAGCGACGTTCTCACAATGCTGGAATTCCTCTCAACGCTGGAATTCCCTTGGGGGGAAGCTGCCGGCCAATCCAGTTTCCGCGGCTATCAACAGTATCGGGGATTCGAACCCTGGTTCTTCGTGGACGGGCGGGGCTACCGGTGCTTCATGGTCATCGATCGTTCCGGTCCTTTTGTAGACGGCGCCAATTGTGTGCCGCCCGGGGTCGATCTTTTTGCAGACGTCGGCGGGCAAACCCATTCGGGTGATGGTGCCACGATGGGCCTCCCGAAGGGGAGCGTCGTCCGGTTCCAGTACCGCGGCGACTCCGTAGACGTCTTCCTCTACCCCGCATCGTCGGAGGCAGAATGA	MEPSSPRSDAERELDELRRRAYGPHPDIQSDPAAQVRLAELEGAHTASPRALTDTDVRTAAAAQDSGSVAHPTRTTFIDEVPDPATSIAPVAESRIGSTSLTWRRLTATRARRYSFVAGALAVFLAGVFAVTWIATPHPDATLHPIADEADSDVLTMLEFLSTLEFPWGEAAGQSSFRGYQQYRGFEPWFFVDGRGYRCFMVIDRSGPFVDGANCVPPGVDLFADVGGQTHSGDGATMGLPKGSVVRFQYRGDSVDVFLYPASSEAE				NA	NA	NA	NA	NA
D1-29_01151	483			hypothetical protein	ATGCTGCTCATCTCCTCGGCGGTCGGCTCCTTGGCTCGACAGCTCGAGACCACCACGGATATGTGGCTAGCCAAGTGTTTAGGGTGCCATGCCACAATGAGGCCCATGACTCGAATCCTCATGATCGGCATCCACGCGCGAGCCCTCGACTATAGCAAGTTGCCTCCTGGCCTCGACGAGGTCACGATGACCGAACGGATCGAAGCGGGGTTCGGGGCCACTAGGGCCGCAGGCTTCGACGCCGTCAACTGCCTGATCGGCACCTCCCCGGACGATGCCGAAGCAGTGATCCGCTCGGCCTTCGGTCGTGATCGTTTCGGCCTCGTGATGATCGGGGGCGGCATCAGGATCATCCCGGAGTACACCGAGCTCTTCGAACGGATCATCAACCTGTGCAATGCGGAATCGCCCGGAATCACCTTCTGCTTCAACACATCGCCCGAGACGACTCTGGACGCGTTGGAGCGTCACGCCCAGCCGTGA	MLLISSAVGSLARQLETTTDMWLAKCLGCHATMRPMTRILMIGIHARALDYSKLPPGLDEVTMTERIEAGFGATRAAGFDAVNCLIGTSPDDAEAVIRSAFGRDRFGLVMIGGGIRIIPEYTELFERIINLCNAESPGITFCFNTSPETTLDALERHAQP				NA	NA	NA	NA	NA
D1-29_01152	579			hypothetical protein	GTGTGCTTCGAATTCGAAGCAATAATGCCAAGGTACCACTACTTCGAACTCGAATCAACCATCTATGATGAGAGCATGAACGAAACGCCAACGTCCCTGACGCCCGCGCAGCTCGGGGCGTACTTCGCTTTCACCGAGGTGAGTAGCTTGTTGCGCCACGCAGTTGAAAAACAGCTCCGTGATGCCGGTGACCTCAGCTACGTCCAGTTCCAGCTCCTCGCTCGCCTGGGCGATGCTCCGGATGGGCAACTGCGCATGACGGATCTCGCCGACGGCGTGGTCTACAGCCGCAGCGGACTGACGTACCAGGCGCAATTGTTGGAACACCGTGGGCTGGTTGCCCGCTCGCCCTCGCCCAATGACGAACGCAGCAGCGTCCTGGCACTCACCGAGGCTGGCCGCACGGTGCTCGCGACAGTGTTCCCCGGCCATATCAACGCCGTTCACAGCTTGCTGTTCGCGGCTCTTTCCGACGGTGACGTCGACGATCTCGCGCGCATCCTTGGTCAGGCAGCGGCCCATCTCCGCGCCGCTCCGCCTCGCTCAGCTACGCCCCGCCGGCGGAACAAGACATCGTAA	MCFEFEAIMPRYHYFELESTIYDESMNETPTSLTPAQLGAYFAFTEVSSLLRHAVEKQLRDAGDLSYVQFQLLARLGDAPDGQLRMTDLADGVVYSRSGLTYQAQLLEHRGLVARSPSPNDERSSVLALTEAGRTVLATVFPGHINAVHSLLFAALSDGDVDDLARILGQAAAHLRAAPPRSATPRRRNKTS				NA	NA	NA	NA	NA
D1-29_01153	933	tdh_1		L-threonine 3-dehydrogenase	ATGAAGGCAGTGCAGTTTCACGAGGTGGGCGGACCCGAAGTGCTCCAGTATGTGGAGACCGAGCAGCCGGAGCCGGTGGCTGGGCAGGTTCGGCTGCGTGTTGCGGCGTCCGCGTTCAACGCGGCTGACAACGGAATGCGGGCAGGGTTCTTGCCGATCCCGGTGGTGCTGCCGCATGTGCCCGGCTACGACGTCTCCGGCACCATCGACGCGGTCGGCGAGGGAGTCGAGGGCGTTGCGGTCGGTGATAGGGTGATCGGCTTCCTGCCCATGGAGCGGGACGGCGGCGCGGCGGAGTATGTGATCGCCCCTGCGGATGCTGTTGTGGGGGCCCCGACGAACATCTCGCTGGCCGACGCCGCGGCGCTGCCCTCGGTGGCGTTGACCGCCTGGCAGGCGCTTTTCGATGAGGGCCGGCTAGAGGCCGGGCAGCGCCTGCTCATCGTCGGTGCGGGCGGTGTCGTGGGCAAGTACGCCATCCAGCTCGCGAAACGCGCCGGCGTGCACGTCGTGGCGACCGCGAGCCCGCGCAGCATCGACGCTGTCCGCGCGGCAGGTGCGGACGAGATCATCGACCACATTGACGCCGACCTGCTGAGCGCCGTAGATGGGCAGGTCGACGTGCTGCTCAACCTCGCTCCTATCGATCCGGAGCAGTTCGTCGCGCTTGTTGCACTCGTGCGCGATGGCGGCATAGCGGTCAGCACCACTGCATTCATGGCGACTCCGGGTGACGAGAGGCGTGGCGTGCGCGCCGCCACCGTATTTGTCCGCCCAAACCGTGAACGCCTCGCCGAACTGGCGTCCCTCGTCGACGACGGAAAATTAACCGTCGAAGTCACCCGCCGCATCCCTCTCGCCGAGCTGCCTGCCCTCCACGCCGAGGCCAGCGCGGCCCGCGTGCCCGGAAAGGTCATCATCCTTCCCGCCTGA	MKAVQFHEVGGPEVLQYVETEQPEPVAGQVRLRVAASAFNAADNGMRAGFLPIPVVLPHVPGYDVSGTIDAVGEGVEGVAVGDRVIGFLPMERDGGAAEYVIAPADAVVGAPTNISLADAAALPSVALTAWQALFDEGRLEAGQRLLIVGAGGVVGKYAIQLAKRAGVHVVATASPRSIDAVRAAGADEIIDHIDADLLSAVDGQVDVLLNLAPIDPEQFVALVALVRDGGIAVSTTAFMATPGDERRGVRAATVFVRPNRERLAELASLVDDGKLTVEVTRRIPLAELPALHAEASAARVPGKVIILPA	PGPT0019417_461	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
D1-29_01154	564	yyaP_2	COG0262	putative protein YyaP	ATGCGGAAACTGATCTATGGCATGAACCTGACCCTGGACGGCTACATCGCCGCGGCCGGCGACGACATTGGCTGGAGCGGGCCTGGCGACGAACTGTTCCAGTGGTGGCTCGACCAGGAGCGGGCGATCAGCCTGATGCTGTACGGGCGCAAGCTCTGGGAGACAATGAGCTCCTACTGGCCCACTGGCGACCAGCAGCCAGGCGCTACCCCGGCGCAGATAGAGTTCGCGCGGAACTGGCGGGACACGCCGAAGGTGGTGTTCTCCTCGACGGTCGACAAGGTCGATTGGAACACCCGCCTGGTCAAAGGAGACGCGGTCGCGGAGATCACCCGGCTCAAGGCCGAGGACGGCGGCCCCATGAGGGTCGGCGGCGCAACGCTCGCCGGTGCGGCCATGCGGGCCGGGCTGATCGACGAGTATGCGATCGTTACCCATCCGGTCCTGGTGGGCGGCGGCACGCCGTTCTTCACCGCGCTGGACGGCTGGGTGAACCTGAACCTGGTGGAGACGCTGACGTTTTCCGGCGGCGTGGTCCTAACCAGGTACGAGACGAGGCGCTGA	MRKLIYGMNLTLDGYIAAAGDDIGWSGPGDELFQWWLDQERAISLMLYGRKLWETMSSYWPTGDQQPGATPAQIEFARNWRDTPKVVFSSTVDKVDWNTRLVKGDAVAEITRLKAEDGGPMRVGGATLAGAAMRAGLIDEYAIVTHPVLVGGGTPFFTALDGWVNLNLVETLTFSGGVVLTRYETRR				NA	NA	NA	NA	NA
D1-29_01155	153			hypothetical protein	ATGGACGGCGCCTCTGCCCGCAGCCGAGTGCTCAACACTGACACCTTCGCCATCGCTGCCGCTATCGCAGCCGTCCTCGTAGACAACGCCATCCCCACGGCAATGGCACAGGCTGGCGCAAGCCCCGAAAAGCTAGCGCCTACCGCCCGTTGA	MDGASARSRVLNTDTFAIAAAIAAVLVDNAIPTAMAQAGASPEKLAPTAR				NA	NA	NA	NA	NA
D1-29_01156	420			hypothetical protein	ATGCTGATGGAACGATCCCTGATCATCTTTTCCATCATCCTGGTCTCCGCTTCCATCTGCATCGCTGGTCGCTATCGCTTCCCCATTCAAGAGGGATCAAAGGTAGACCTTTTCTACGAACAACTCCAGCTATATGTGAACGTCGTTGCCGTAGGGGTCGAACTGCTCTTTCCGTTCGTCACAGGCTTCGTCGGTGTGCCCGTTCTAGCGTTCACAGCTGCCCTTTTCCAGGCATCGGCAGTGGCAATTTTCCGAATCAAGGTACGGGCGATCAGAATTGTTCGCCCCCAAACCTCCACTTCACACTCAGTGGCTGCGGAGGAACTCCGCCGCACTCGGTGGCCGTACCAGGCATCCTTTGCCCTAGGCTACGTCTCGTTGTTGGCTTATCTGGCGACGATTTTCAGATACTTCTTCTGA	MLMERSLIIFSIILVSASICIAGRYRFPIQEGSKVDLFYEQLQLYVNVVAVGVELLFPFVTGFVGVPVLAFTAALFQASAVAIFRIKVRAIRIVRPQTSTSHSVAAEELRRTRWPYQASFALGYVSLLAYLATIFRYFF				NA	NA	NA	NA	NA
D1-29_01157	213			hypothetical protein	ATGAAGGACATGACCAGTACCATCACACCGATGGTGACTATTAGGCCCAAGATAGATCCAAAAATTTCTCGTTTTGTCATTAGCCCTCCGGAGCAGCACAGCCGGCGGCGTGCATTGTTGTACGGAGCATATTCTCCTGCGTCCCTATTTGAAACGAGTATCGCTTCCCGCCGCAGAGGGTTTCCCAAAAGGGAACAACGAACCGGCCAATAG	MKDMTSTITPMVTIRPKIDPKISRFVISPPEQHSRRRALLYGAYSPASLFETSIASRRRGFPKREQRTGQ				NA	NA	NA	NA	NA
D1-29_01158	597			hypothetical protein	ATGTCGGTAAATGGTTTCATGTTGGAGAATATTGCGCTGCAGGGGAGCCGGGTCTGCCTGGAGCCATACGAGGATGCCTCGGAGCGGGCGGTGGCCCGCGCGCTTGATTGTGACGCCGCAGCCTGGGACCTATTTGCCATGAGCGGGCAGGGGGCGCATTTTGCCAGCTGGTGGAGCACCCTCAATCGCCAGATCGCCTCCGGCCAGTGGATCGCGTACGCGATCCGCAACCGCTCGGACCACCGCATCGTCGGCACCACCAGTTTTCTGAACATCAGGCCCGAGCGCCAGTGCGTGGAGATCGGCGGGACGTTCTTGCATCCAGACGCACGTTCCGGCTATGCCAACGCCGAGTCCAAGCTGCTCATGCTGCAACATGCCTTCCAGTCCGGGGCGCGCAGGGTGGAATTGCTGACTGACCTGCGCAACACCCGCAGCCAAGCTGCGATTGCCAAACTGGGGGCCGTGCGCGAAGGCGTGCTTCGTCGCGATCGCATCACCTGGACTGGCCATGTGCGAGACAGTGTCCTCTATTCCATCACCGACCTGGACTGGCCTGAGGTGCAAAGCAGGCTGAAAACGCGCTTGTCACTTTAG	MSVNGFMLENIALQGSRVCLEPYEDASERAVARALDCDAAAWDLFAMSGQGAHFASWWSTLNRQIASGQWIAYAIRNRSDHRIVGTTSFLNIRPERQCVEIGGTFLHPDARSGYANAESKLLMLQHAFQSGARRVELLTDLRNTRSQAAIAKLGAVREGVLRRDRITWTGHVRDSVLYSITDLDWPEVQSRLKTRLSL	PGPT0028780_12	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
D1-29_01159	552	sutR_2	COG1396	HTH-type transcriptional regulator SutR	ATGGTGGAACAGCTCGGCGCACGAATCGGTGCGGGAATTCGACGGGAGCGCATCGCCGGAGGCCTGTCGGTTTCCGAGCTCGCCCGTCGCGCGGGATTGTCCAAGGCGACAGTTTCCCAACTTGAATCGGGCGGGGGTAACCCCAGCGTTGAGACCTTATGGGCACTGGGAGACGCGCTCGGCGTGCCATTTGCCCGGCTCGTAGACAAGACAGCTGAGCCTGTCACGCTGATTCGCGCCGCCGATGCGCCGCGCATCCGTTCTGCAGACAGCGACTATGTGGCCGCACTCCTCTCCGCCAGTCCCCCCAATGCGCGCCGCGACGTCTACTTGGTACAGGCCGACCCCAGCAGCCCCAAGGTGTCCGCTCCCCATGCCTATGGCACCGTGGAGCACGTGGTGCTGATATCGGGCGCGGCACTCGTCGGTCCGGCGTCGTCGCCCGTCGCCCTGTCGCCCGGCGACTACCTGTGTTATCCGGGCGACGCTCCCCACGTCTTCGACGCCCAGGACAATGGCACCACCGCGGTGCTCATTTCAGAACTCAGGTAG	MVEQLGARIGAGIRRERIAGGLSVSELARRAGLSKATVSQLESGGGNPSVETLWALGDALGVPFARLVDKTAEPVTLIRAADAPRIRSADSDYVAALLSASPPNARRDVYLVQADPSSPKVSAPHAYGTVEHVVLISGAALVGPASSPVALSPGDYLCYPGDAPHVFDAQDNGTTAVLISELR				NA	NA	NA	NA	NA
D1-29_01160	606			hypothetical protein	ATGGTCGGGGTGGCTTATGGCTCAACGGCGCTTGCTGCGGGCTTTCCGCCGTGGCTCGTCGTGCTTGCCGCCGTTCTTGTGCTCAGCGCATCCTCGGAACTGCTGTTCGTTGGCGTCATCGCGGCGGGCGGGCTGCCTTGGGTGGCGGTAGCTGCAGCACTGCTGGTGAATCTTCGGAACGTCGTCTATGGGTTCTCGGCTTCCGCGTTTCTGCCGCAGCCGCGCCTACTCCGGTACTTGTCGACTCACCTGATCAACGACGAAAGTGTCGCCTTCGCCCTAGCCCAACCGCAACCAGCCCGACGCCTCAGCGCATTCAGCGTCGTCGGGGTCGCAATTCTGGTCGCGTGGCCGCTCGGCGCAACGGTTGGCGTGCTTGTCGGGTACGTTGTGCCCGACCCTAGTCGCCTTGGCCTTGATGCGGCTTTCCCTGCCATCTTTGTCGCGATCCTCCTCGGGACCATCACGCGCAGCACCGTTGGTCCTGCGCTTGCCGGCGCGACGATCGCCGCGGCTGCCACGCCCGTCGTGGCCGCTGGAGTCGCCCCTGTCCTGGGTTTAGCCGGCTTGCTCACACTTGTGCGAAAGCGGGGGCACCGTGGCTGA	MVGVAYGSTALAAGFPPWLVVLAAVLVLSASSELLFVGVIAAGGLPWVAVAAALLVNLRNVVYGFSASAFLPQPRLLRYLSTHLINDESVAFALAQPQPARRLSAFSVVGVAILVAWPLGATVGVLVGYVVPDPSRLGLDAAFPAIFVAILLGTITRSTVGPALAGATIAAAATPVVAAGVAPVLGLAGLLTLVRKRGHRG				NA	NA	NA	NA	NA
D1-29_01161	318			hypothetical protein	GTGGCTGACATAAATCTCGTTCTCGCGATTCTCGTTCTCGCCGTCGGTACTTATCTCATCAGACTCGGCGGGGTCAGCTTCGGCGGGTCCCGCTTCGCCCTCCGGCTCCAACAATGGAGTGAGCCCGCGGTGATCGTACTTCTCGCAAGCGTCGCCGCCGCCGCAACTATCTATGACGGACAGGGTTTCGCCGGGTGGGCTCGCATCGCTGGGGTGGCTGCGGCTACCGGCCTAACCGCGATGCACGCACCCCTTGTCATTGTTGTCGTCGCCGCTGCCGGAGTATCCGCCTGTCTGAGGGTTCTTGGGCTTTACTGA	MADINLVLAILVLAVGTYLIRLGGVSFGGSRFALRLQQWSEPAVIVLLASVAAAATIYDGQGFAGWARIAGVAAATGLTAMHAPLVIVVVAAAGVSACLRVLGLY				NA	NA	NA	NA	NA
D1-29_01162	327			hypothetical protein	ATGACCATGCCGAAGTATCTGTTTGAAGCGACGTACGTGGGCCAGGGGATCAAGGGCCTCATGCAGGAAGGTGGCACCAAGCGGCGTGACGCCCTGGTGGAGGCCCTCAAGTCGATAGGCGGATCGCTGGAGAGCTACTACTACGCTTTTGGTTACTACGACGTCCTTGGCGTCTTTGAGGCGCCGGACGATGCAAGTGCTGCAGCACTGTCACTCCTGGTTAATTCGACGGGGAGTGTCAACGTCCGCCTCAAGCCGCTCCTGACAGTGGAAGACATCGACGAAGCCGCCAAGAAGACACCGTCCTACAGGCCCCCGGGACAGTAG	MTMPKYLFEATYVGQGIKGLMQEGGTKRRDALVEALKSIGGSLESYYYAFGYYDVLGVFEAPDDASAAALSLLVNSTGSVNVRLKPLLTVEDIDEAAKKTPSYRPPGQ				NA	NA	NA	NA	NA
D1-29_01163	1104	prmC_2		Release factor glutamine methyltransferase	GTGACCTGGACTGAGGCTGGTGAGAGCATGACCGCACGGTGGCGTTCGGCGAACGGCAGGCCGGCGCCGACGCGCGTCGAAGTGGTCTCCGACTCTCTCACGGCCGATGACGCGAACCGGATGGCGTCACAGGGGATCGCGATGCTCTGGCAGGGTGACTTCCACAACGCACGGCAGATCCTCAACGCCATGGACCGGCGGATAGGCGCCGGAAAGAAAGAGACCGCAGCAACTCCGGCCGAGAAGTTCTATCGGCACCGCCAGTCCCGCTCGCATCGTGCACGCATTCTGGGCCTGCTGCTGATTCCGCTGGATCCGGGCCCAGTGGTGCCGCTGCGCCGCGCACCGGACATCCGGGAAGCCGCCGCTGAAGCGTACGGAGAGATCGGCGAAGCTTCCGTTGTGTCCCTGCATGAGCTTGTCGGGGCGATTGGCGCGCACGAGTGGCGGCGGAAGGGCGTCTACGTCGAGGCCCTGCACGGCCGCATCCACCCGCACTACGGGACGTTCTTCCCCACCCGCAGTGAGTATGTGGATCTCGTGGCCGCCGCTCCGCTGCCCTCTGACACGCTGGCGTTCGACGTCGGAACCGGCACCGGGGTGCTCGCTGCCGTCCTCGCGCGCCGTGGCGTCCAGCGTGTGGTGGCGACGGACAATGAACCGCGTGCAATCGCCTGCGCCGCCGAGAATTTCCGGAACCTCGGCGTCCAGGACCGTGCTGAGGCCGTCCTGACCGACATGTTTCCGCCCGGGCGGGCACCGCTCATCGTGTGCAACCCGCCGTGGATTCCGGCCACGCCGCATTCCACCCTGGACAACGCCGTCTACGACCCCGGGAGCAGGATGCTGTTCCGCTTCCTGAACGGACTCTCCGACCATCTGGAGCCGGCCGGTGAGGCCTGGCTTGTCCTCTCCGACCTGGCTGAACACCTTGGACTGCGGACACGTGACGATCTGCTGGCCGCCATCACGGCGGCCGGGCTGAAGGTGGTGGACCGGCTGGACACCAAGCCAACACATCCGAAGGCATCGGACCGCGACGATCCTCTGTTCGCGGCGCGCGCGGCCGAGGTCACGTCGCTGTGGCGGCTTGTTCGCCGATAG	MTWTEAGESMTARWRSANGRPAPTRVEVVSDSLTADDANRMASQGIAMLWQGDFHNARQILNAMDRRIGAGKKETAATPAEKFYRHRQSRSHRARILGLLLIPLDPGPVVPLRRAPDIREAAAEAYGEIGEASVVSLHELVGAIGAHEWRRKGVYVEALHGRIHPHYGTFFPTRSEYVDLVAAAPLPSDTLAFDVGTGTGVLAAVLARRGVQRVVATDNEPRAIACAAENFRNLGVQDRAEAVLTDMFPPGRAPLIVCNPPWIPATPHSTLDNAVYDPGSRMLFRFLNGLSDHLEPAGEAWLVLSDLAEHLGLRTRDDLLAAITAAGLKVVDRLDTKPTHPKASDRDDPLFAARAAEVTSLWRLVRR				NA	NA	NA	NA	NA
D1-29_01164	1134			hypothetical protein	ATGGACCAGGCAATTGTCCACTGGCGGGGACGACTTGAAGGAACCAGCGGGTTCGCGGTTGAGGGCAGAAGCTTCGTCAAGGCTCTCCGGCAAGCCGGTTACTACGTCGAGGAAATGTCGGTGCCCTCCCGTCCGGACGTAGGTGCAGGAAAAGGAACCTACCCGCTGCGCCGATGCGGCACAGGGCTGTCCATCGTGCACTTGCCGTGGCATGACTACGGTTGGGAGAACTTATCCGGACAAGTGGTGTGGCGGGCCATGTTCGAAACAGCCTCAGTCCCTCCTGAATGGCTTCAACGCCTGGCAGAAGTCGATGAAGTATGGGTGCCGTCCCGCTTCAACGCCAAGACCTTCGCTGATGCCGGCGTAGATCCGCACAAGATTAGAGTCGTACCCGAGTTCGTAGATAAGGATTGGTCCCAGGCGGCTGACCGCTCCTATGGGGGCAATCAGACATTCACATTCCTTTCAGTCTTCCGATGGCAAAAACGCAAAGGATGGGATGTCCTTTTGCAGGCTTACTTAAAAGAGTTCAGGGCCACCGACGACGTAGAACTCGTACTGCGGGTAGACCCCTTTGGTCCCGGGAGCACCGATGTCCGTTCAGATATCACCGCCGTGATCCAGAAAATCAGGCCGCATCACCCTCCTCTGGTGCGGCTGCTGCCTCATCCGCTCTCACAACCTGAAATGCAGAGGCTTTATGCCTCTGCCCACGCCTTCGTGTTGCCCACACGGGGGGAGTCCTGGGGGCGGCCCTTCATGGAAGCCATGGCCTCTGGCCTGATTACCATCGGTACCGCCTGGGGCGGCCATCTTGACTTCATGAACGTCAACAACTCGCTCCTGATCGACTGTGAGCTCGTCCCAGTGCCTGATGCCGCAGCGTTGGAATGGCCGTTCTTCCGTGGCCAAACGTGGGCTGAACCTTCCGTGGACAGCATCGGCAACTGCTTACGGCGGGCGTACGAGGGAGGCCCGGTCATTGAACGGCTCCGTCAGAACGCGGCGGCCGCTATCAGGGCTCATTATGTTCAGGGTCATGCTCATGAAGCTTTGATAAAGGAGGTGGGGAGGCTGGTAACGGACCGCCCTGAGGACGGCCAGGTGGCCGCCATTGACGACGGCGGTTAG	MDQAIVHWRGRLEGTSGFAVEGRSFVKALRQAGYYVEEMSVPSRPDVGAGKGTYPLRRCGTGLSIVHLPWHDYGWENLSGQVVWRAMFETASVPPEWLQRLAEVDEVWVPSRFNAKTFADAGVDPHKIRVVPEFVDKDWSQAADRSYGGNQTFTFLSVFRWQKRKGWDVLLQAYLKEFRATDDVELVLRVDPFGPGSTDVRSDITAVIQKIRPHHPPLVRLLPHPLSQPEMQRLYASAHAFVLPTRGESWGRPFMEAMASGLITIGTAWGGHLDFMNVNNSLLIDCELVPVPDAAALEWPFFRGQTWAEPSVDSIGNCLRRAYEGGPVIERLRQNAAAAIRAHYVQGHAHEALIKEVGRLVTDRPEDGQVAAIDDGG				NA	NA	NA	NA	NA
D1-29_01165	153			hypothetical protein	TTGCCGAAGGGAATCGTCATCAGTAGCCGAGGCAACTCAGCCTCTGTCCTCGTCGACGGCGTCTTCGCCCTCTTCTTGGTCACTGTCGCTGAGGCCGAGGCCTACGTCGCCAGCCTCCGCGCCCTCGACTCCCTCGACGCGCCAGCCCCTTAA	MPKGIVISSRGNSASVLVDGVFALFLVTVAEAEAYVASLRALDSLDAPAP				NA	NA	NA	NA	NA
D1-29_01166	639			hypothetical protein	ATGTTGAGGGTTTCGCTTCGCTTATCAGCTGTGTCGTTTGCGGTAACCGGTGTGTTGGTCATCGCCGTGACGTTCCTGCACCCGAGTATTTTCGATCGGCCGATCGGTGACGTGGTCCTGGAATCCGCAGCGTGGTGGGTTCCCGTGCACCTGGTTGGCTTGGTTGTCTTTGTTCTGACAGTTTTCGGAGCCACCGGCCTTGTTGCCGCCCATGGAGATCAAATGGGCAGGCTGGGACATGCAGGCTTAGCAGTCACTCTGGTGGGTGCAGGCTGTACCGGCGGTCTTGCCGCCGTCGAAGCGGCAGTATTTCCGGTGCTTGCGGAGCGGGCTCCTGACCTGCTTCGGCTTGACGGGCCGCTGCTGGCTTCCTGGCCCATGATCGCCGTCGGCGTTGCAGCCCTCGGATGGTTTGTGGGTCTGGGGATGATTGGTGCCGCGGCGGCCCGCTGCTCCGTTTTCCCCCGCGCAGCCGGGGTGCTGCTGGCAGTCAGCAGTGTTCTGTTCCTTGCCCTTGAGGGTCCGTTCGTTCCGGTGTTTGGCCTGCTCGCGGGCGTGCTTTTCGGCGCCGTCCTGATCTGGTGGGGCTGGCTTTTGGGGAAAGCCGCTGCTGGATCTCGCCAGATGCCACAGCACTGA	MLRVSLRLSAVSFAVTGVLVIAVTFLHPSIFDRPIGDVVLESAAWWVPVHLVGLVVFVLTVFGATGLVAAHGDQMGRLGHAGLAVTLVGAGCTGGLAAVEAAVFPVLAERAPDLLRLDGPLLASWPMIAVGVAALGWFVGLGMIGAAAARCSVFPRAAGVLLAVSSVLFLALEGPFVPVFGLLAGVLFGAVLIWWGWLLGKAAAGSRQMPQH				NA	NA	NA	NA	NA
D1-29_01167	723			hypothetical protein	GTGCCGATTGAACTTCCAGCAATGCCTGTCGAGCAGCAGGAAGCCTGGCAGGCGGTGTTTGAGATCCATTCGGGTATGTCACAAGGCTGGGTCCTAGTCGGGGGACAGGCCGTCTACCTGCACGCAATTGAACGAAGTGCCCCCATTGTCAGGGCAACAACTGACGCCGATTTTGCCCTCGACATCCGGGCGTACCCTAGGATGCTCCACGATTTCACCTCACTATTAAAGAAGCTTGACTTCGAATCGGCGGGCGAGTCGCTGGAAGGCCACCAGCACCGATGGCTTCGGGGAAAAGCCGTTGTGGATGTCCTCATCCCACGTCATCTGGGTGAACGGGCAGCCGGGCGCCTTGGCGTAACAGGCGGGACTACGATCGCGGCTCCTGCCACCCAGCAGGCCCTGGACAGGGCGGAAACGGTTGATGTCATCGCAGGGACAACCACGGGTCAGGTGAACCGCCCATCACTACTCGGCAGCCTGATCGGAAAAGCCGCCGCCCTGAAGATTGTGAATGATGAATTCCGAGAGCGGCACATCACCGATTTCCTAACCCTGGCCGCCGTGGTGGGTGCGGGTGACCTGCGGGGCGTCACCTATCAGACTGCAGAACGCGATCACCTTGCACATATGCTCGGCCACCTGAAAAACACCCCCGAGCATATGGACCTTGTGCCCGAAGGTGCAGACGGCGTGGAGCGCCTCCGGATGTCCCTGGGCTGA	MPIELPAMPVEQQEAWQAVFEIHSGMSQGWVLVGGQAVYLHAIERSAPIVRATTDADFALDIRAYPRMLHDFTSLLKKLDFESAGESLEGHQHRWLRGKAVVDVLIPRHLGERAAGRLGVTGGTTIAAPATQQALDRAETVDVIAGTTTGQVNRPSLLGSLIGKAAALKIVNDEFRERHITDFLTLAAVVGAGDLRGVTYQTAERDHLAHMLGHLKNTPEHMDLVPEGADGVERLRMSLG				NA	NA	NA	NA	NA
D1-29_01168	687			hypothetical protein	ATGCCGCTGAGTATCCCCGAATTGGCGAAGCGCCTAAATGTGAACGAAAGCCGTGCCCGGCACCTTGTCCAATCCGGTCGCATCCGGGGGCAGAGAGTGGGCGGAAGATGGCTGGTTGACGAAGCGGATGCATCCCAATATCGGCCCGGGGCACCCGCTGGCCGGCCCCTTTCGGAGCGTAACGCATGGCTGTTCGCCTTGGCCGCGTGCAATGCCTGGGAAAACGCGGAGCCCGATCTTCTCGTGCGCGTGTCTCCCGTTGAGAGGTACCGCCTCAACCAGCGACTGCAACGGTGGAAGGACGCAGCCTTCTCCGCCCCCCTTCTGCTAGCGTTGCTCGCCAACCGCGCCGACAGACTTGAGTTTTCCGCCGGCCGGGGCGATATCCCGGAGCTGAAGAAGGATCCTCGGCTCCGGCCGTCCGGGGTATCCCACCCAGAATCGGGTCTGCTCGCTAATTCCGAACTCGAGGCCTATGTAAGCCGGGGTGACGTCGATGCCCTGCTAAGGGATTGGTTCCTGGTGGAGACCAAGCCTGGGCAGCGGGCCAACGTTGTTCTGCGTGTAGCCAACGACGTCCCCGACGAGCTTCCGCTACTGGTCGTAGCTGCGGATCTGGCCGAACGCCCAGGCGCCCGGGAACAGGAAGCCGCTCGAGAACTTATCAGGAGCCTCCGTGCCGATTGA	MPLSIPELAKRLNVNESRARHLVQSGRIRGQRVGGRWLVDEADASQYRPGAPAGRPLSERNAWLFALAACNAWENAEPDLLVRVSPVERYRLNQRLQRWKDAAFSAPLLLALLANRADRLEFSAGRGDIPELKKDPRLRPSGVSHPESGLLANSELEAYVSRGDVDALLRDWFLVETKPGQRANVVLRVANDVPDELPLLVVAADLAERPGAREQEAARELIRSLRAD				NA	NA	NA	NA	NA
D1-29_01169	1671	xsc_1		Sulfoacetaldehyde acetyltransferase	ATGACTTCACTTACCGTCTCCGGCCGCGTGGCGCAGGTCCTCAGCAGCTACCTCAGCGATGTTTTCGGCGTCATGGGCAACGGAAACGTCCACTTCCTGGATGCCGCGGAAAAGCTGGGCCTCCGCTTCTCCCCCGTCCGGCATGAAGGCGCCGCCCTCGCCGCGGCCGACGCCTACTACCGGGCCTCGGGACGTCTCGCAGCGGGCACCACCACCTACGGCCCCGGCTACACCAACGCACTCACCGCCCTCGCCGAGGCGGTCCAGGCGCAGATCCCCGTGGTGCTGGTCACCGGGGACGCTCCGAGCAGCGGCGTGCGGCCCTGGGACGTGGACCAGACGGCCATCGCCGCGGGCCTCGGGGCGGCCACCTTCACCGTCAGCCGCGACGCCGCGGGCTCCATCACCCGGCAGGCGGTGGAGTACGCGCTCACCAAGCGGACCGCCGTCGTGATTGCCATTCCCTACGACCTCGCGGCACTTGAGGCTGCGGAAGAAGACCTCCTGAAGCCGTCGGCACCTACCGTGACGGACGACGTCGACGGCGGCCTTGGGCAGGTAGCCCGCCTGCTCGGCGGGGCGAAGCGGCCGCTGATCCTGGCCGGCCGGGGTGCGCATCTCGCCGGAGCCGGCCCCGAGCTCCGGGAGCTCGCCGACCGCCTGGGCGCGCTGACCGCCGGAACAGCACTGGCGCTCAACCTCCTCCAGGGCGACGGGTACCTGGGCGTCGCCGGCGGCTTCGGCACAGATACTGCTGCCGGGCTGATGGCTGAGGCCGATGTGGTCCTGGTGGCCGGGGCCAGCCTGACCCCCTTCACCATGCGCTTCGGGCACCTGCTCGGCCCGGACAGCACGGTCATCCAGATCGACACCGCCCTGCAGCCGACGCACCCCCGGGTGGATACCTTCGTCAGCGCGGACGTGAAGTCCGCTGCGGGCCGCCTCCTCCGGCTGCTGGATGACGGCGCTCCAGCGGATCCCCACTCAGAAGCCTGGCGCGCGGAAGCCCGCAAACGCCTGGCCGAAGGGCCAGGCCACGAGGCAGGCTCAGTGGAGACCCCCGACGGCCGGCTGGACCCGCGGTCCCTTGCCTCGGCACTGGATGCGATGCTGCCGGAGCGCCGCACGGTGGTCCAGGACGGCGGGCACTTCATGGGCTGGGCACCCATGTACTGGCGCATCCCGCGGCCCCAGGACCTGGTTATGGTGGGCACCGCCTACCAGACCATCGGGCTGGGCCTTGCCAGCGCCGTCGGGGCGGCCCGCGCGGTGGAGGACGGCCGCACCCTGGTGCTGGCCTCCGGCGACGGCGGTTTCCTGATGGGCTTGTCCGACCTCGAATCGCTCATCGCGGCGGCAAGCAGCGCCGTCGTCGTGATCTACAACGATGCCGCCTACGGAGCCGAAATCCACCAGTACGGCTCCCAGGGCCTCACCGAAAAGCCCATGCTGATCCCCGAGGTGGACTTCAGCGGCGTCGCCCGCGCGCTCGGTGCCGACTCGGCGGTCATCCGCTCGCTGGCGGACCTTGGCGCGCTTCAGGAGTGGATCCACGCCGGCGCCAAGGGAACCTTCGTGGCCGACTGCCGGATCACCTCCAGCGTCCGGGCCCCGTGGATGAGCGAGTGGATGAAAGCCAAGCAGGAGGCGAAGGCGGCTGTGGCGGGGTAG	MTSLTVSGRVAQVLSSYLSDVFGVMGNGNVHFLDAAEKLGLRFSPVRHEGAALAAADAYYRASGRLAAGTTTYGPGYTNALTALAEAVQAQIPVVLVTGDAPSSGVRPWDVDQTAIAAGLGAATFTVSRDAAGSITRQAVEYALTKRTAVVIAIPYDLAALEAAEEDLLKPSAPTVTDDVDGGLGQVARLLGGAKRPLILAGRGAHLAGAGPELRELADRLGALTAGTALALNLLQGDGYLGVAGGFGTDTAAGLMAEADVVLVAGASLTPFTMRFGHLLGPDSTVIQIDTALQPTHPRVDTFVSADVKSAAGRLLRLLDDGAPADPHSEAWRAEARKRLAEGPGHEAGSVETPDGRLDPRSLASALDAMLPERRTVVQDGGHFMGWAPMYWRIPRPQDLVMVGTAYQTIGLGLASAVGAARAVEDGRTLVLASGDGGFLMGLSDLESLIAAASSAVVVIYNDAAYGAEIHQYGSQGLTEKPMLIPEVDFSGVARALGADSAVIRSLADLGALQEWIHAGAKGTFVADCRITSSVRAPWMSEWMKAKQEAKAAVAG	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
D1-29_01170	504	asnC	COG1522	Regulatory protein AsnC	ATGACCATCCCGAACCCTCGCACCCTGGATTCCCTCGACGGCAGGATCATCCTGGCCCTGGACAAGGACCCCGAAGCCAGCGCCCTGGCACTCTCCCGGACTCTCGGCGTCGCACGCAACACAGTCCATGCCCGCTTGGCACGGCTCGAGCGCAGCGGCGCCCTCCGCTCCTTCAGCCGCAGGCTGGACCCCGCCGCGCTTGGATATGACCTGATGGCCTTCCTCTCGCTGTCCATCAGCCAGACGCGGACAGGTGCAGTGGAAGACGGCCTCGCCGCGATTCCGGAGGTCATCGAGGTGCACGCCACCACCGGCGACGCGGACCTCATGGCCAAGGTGGTGGCACGCGGTACGGCCGATCTCTACCGCATCACCAACCAGATCCTGGAAATCGAGGGAATCCAGCGGACCAGCACGGCCATTTCCGTGCTGGAACTCATGCCGCCCCGCTACGACGGTCTCCTGAGCCGGCTGTCGAAGCAGGAATCGCGCCCTTCGGACTAG	MTIPNPRTLDSLDGRIILALDKDPEASALALSRTLGVARNTVHARLARLERSGALRSFSRRLDPAALGYDLMAFLSLSISQTRTGAVEDGLAAIPEVIEVHATTGDADLMAKVVARGTADLYRITNQILEIEGIQRTSTAISVLELMPPRYDGLLSRLSKQESRPSD				NA	NA	NA	NA	NA
D1-29_01171	1098	pat_1	COG0079	Putative phenylalanine aminotransferase	ATGACCCCTGATCAACTCGTGACCGCACCGGAGACGGCCCTCCCCACCCTTCGCGGCGCGGTGGCCGGCCTCCCTCCCTACGTCCCGGGCCGGCGCAGTGCCGGCACGGACATCGCAGCCCTCGCCAGCAACGAAAGCCACTACGAACCGCTTCCCGCGGCAGCCGCTGCGGTGGCCGCGGCGGCGGGTACGATGAACCGCTACCCGGACAGTGCCGCCGTCGAGCTCCGCGAACGGCTTGCCCGCCAGCTTGGCGTCACGGCCGAAGAGGTGGCGGTGGGACCAGGCAGCGTGGGCGTCCTCCAGCAGATCATCACCGGCCTGTGCGACGCCGGGGATGAAGTGATCTTCGCGTGGCGCTCCTTCGAGGCGTACCCCATCCTGGTTGAGCTTGCCGGCGCCCGGCCGGTCCGCATTCCGCTGGACAGCGCTGAGGGCCATGACGTCGATGCCATGGCTGCGGCCGTTACTGCCCGCACGCAGGTCATCCTGCTCTGCACCCCCAACAATCCCACCGGGGTGCCGATCAGCCATGAACGCATCGAGGCTTTTCTGCAATCCGTCCGCTCCGACATCCTTGTGGTGATCGACGAGGCCTATGTGGAATATGCCGAAGCGGGCAGCGGCCCCGATTCGCTGGCGCTCTACCGCCGGTACCCGAACGTCTGCATCCTGCGCACCTTCTCGAAGGCCTACGGGCTCGCCGGCCTGCGCGTGGGATACGCCGTGGCGGCGCCGACAATCGCCGAGGGGCTGCGCCGGACCGCCCTTCCCTTCTCGGTGAGCTCGCTGGCCCAGAAGGCGGCCATCGCGTCGCTGGACGCGGGGGAGGAGATGGAAGCGCGCGTCGCTGCCGTCAAGCAGGAACGCGCCCGGATGGCAGCGCAGCTGGAAGCCCAGGGCTGGAAACTGCAGGCGAGCCAGGGCAACTTCCTGTGGATCCGCGCCGATGACCGCCTCCAGGCCATGCTGGTGGACGCCTTTGACCGCGCAGGCATCCTGGTCCGCGCGTACCAGGGCGACGGCGTGCGGATCACCGTTGCCGATCCCGCCTCCAACGATCGTGTGCTCCGGCTCCTGGAAACCCACGCGGCCTGA	MTPDQLVTAPETALPTLRGAVAGLPPYVPGRRSAGTDIAALASNESHYEPLPAAAAAVAAAAGTMNRYPDSAAVELRERLARQLGVTAEEVAVGPGSVGVLQQIITGLCDAGDEVIFAWRSFEAYPILVELAGARPVRIPLDSAEGHDVDAMAAAVTARTQVILLCTPNNPTGVPISHERIEAFLQSVRSDILVVIDEAYVEYAEAGSGPDSLALYRRYPNVCILRTFSKAYGLAGLRVGYAVAAPTIAEGLRRTALPFSVSSLAQKAAIASLDAGEEMEARVAAVKQERARMAAQLEAQGWKLQASQGNFLWIRADDRLQAMLVDAFDRAGILVRAYQGDGVRITVADPASNDRVLRLLETHAA	PGPT0020305_3780	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
D1-29_01172	1413	gabP_1	COG1113	GABA permease	ATGGAACAACAGACAAAGACGTCTGGCCGCGCCCTCGGCGCGGCACTCAAACCGCGCCAGCTCACCATGATGGGGCTCGGAAGCGCCATCGGCGCGGGCCTGTTCATCGGTTCCGGCGCCGGCATCCAGGCTGCCGGCCCGGCCGTGCTGATCTCCTACCTCGTGGCCGGCACGCTCATCATCCTAGTGATGTGGGCCCTGGGCGAGATGGCCGCCGCCAATCCGGACAGCGGCGCCTTCTCCGTCTATACCGCCAAGGCCTACGGGCCGGTGGCCGGTGCCACAGTGGGCTGGCTCTGGTGGCTGCAGCTCGTGGTGGTCATCGCGGCCGAAGCGCTCGGTGCGGCTGGCCTGCTGTCCACCATCTTCCCGGACCTGCCGGTGTGGCTGATGGCCTTCCTGTTCATCGTGGTGCTCACCGCTGTGAACCTGACCAGTGTGAAGAACTTCGGCGAGTTCGAGTTCTGGTTTGCGCTGCTGAAGGTGGCGGCGATCGTCGGGTTCCTCCTGGTGGGCGCCGCCCTGTTGTTCGGCTGGCTGCCGGGCGTGCAGTCGCCGGGCCTTGCCAGCTTCACCGGTGACGGTTTCGCGCCCGACGGTTTCGCCGGGATTGCCACGGCACTGTTCGTGGTGGCTTTCGCGTTCGGCGGCACCGAGATTGTGTCCGTGGCGGCAGCCGAGACCGCTGAGCCGGCCCGCAGCGTGAAGAAGGCAGTCCGCACGGTGCTGTGGCGCATCCTGGTGTTCTACATTGGTGCGATCTTCATTATCGCGGCTGTGGTTCCCGTCGGTTCTGAAGGGCTGAAGAGCCCGTTCGCTGCGGTGTTGGAGGCAGCCGGCATGCCCGGCGCGGCCACCGCCATCACCCTGGTTGCCGTCGCCGCACTGCTCTCCGCCCTCAACGCCAACCTCTACGGCGCCTCACGTATGGCGTACTCCCTCGCCGAGCGGGGCGAAGCACCACGCTTGCTTGCTTCCGTGTCCAAGGCCCGGGTTCCGGTTGTTGCCGTCCTGGCCAGCGTTGCCTTCGGCGTTGTCACGGTGGTGCTGGAGCTGGCATTCCCCGAGATGGTCCTTGGCGTCCTGCTGAACATCGTGGGCTCGACGTGCCTGCTGGTGTGGACATCCGCGCTCCTGGCCCAGCTCGCGCTGCGCCTCCGCGCCGACCGCGAGGGGACGGAGCTTCCCCTGCGGATGCCCGGCTTCCCGTGGCTCACGGTGGTTGGTCTGCTCATCCTGGTCGCGATCTTCACGGTAGGCTTCATCGGCGAGGACTCCCGTCCCCAGCTCCTGAGCACGTTCGGGCTCGTGGCGCTTCTGGCGGTGGCTAACTGGGTGAATCACCGGAACCGCAAGGTTGCGCCCGTTATTGAGTCTTCGGATGAAGCCAAGCAGCCGGTTCTTATCGACTAA	MEQQTKTSGRALGAALKPRQLTMMGLGSAIGAGLFIGSGAGIQAAGPAVLISYLVAGTLIILVMWALGEMAAANPDSGAFSVYTAKAYGPVAGATVGWLWWLQLVVVIAAEALGAAGLLSTIFPDLPVWLMAFLFIVVLTAVNLTSVKNFGEFEFWFALLKVAAIVGFLLVGAALLFGWLPGVQSPGLASFTGDGFAPDGFAGIATALFVVAFAFGGTEIVSVAAAETAEPARSVKKAVRTVLWRILVFYIGAIFIIAAVVPVGSEGLKSPFAAVLEAAGMPGAATAITLVAVAALLSALNANLYGASRMAYSLAERGEAPRLLASVSKARVPVVAVLASVAFGVVTVVLELAFPEMVLGVLLNIVGSTCLLVWTSALLAQLALRLRADREGTELPLRMPGFPWLTVVGLLILVAIFTVGFIGEDSRPQLLSTFGLVALLAVANWVNHRNRKVAPVIESSDEAKQPVLID	PGPT0000815_713	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
D1-29_01173	468	bltD	COG0454	Spermine/spermidine acetyltransferase	ATGGAGCCTATGCAGAATCGTGTGCGCCTCACTGATCTACGCCGGGACACTTGGGAGGGCGTGGTCGGGCTAACCGTCACCGAGGATCAGCGTGATTTCGTCGCCCCGAACGTCTTCTCTATTGCCGAGAGCCGCTTCCTGCCCGGCTTCATGACCCGCGCGGTGTTGCACGGCGAAGAGGCTGTGGGCTTTGCGATGTACGGCCCCGACTCTGACGACAACGGGCACCTGTGGCTGTACCGCCTGATGATCCATAAGACCCACCAGGGCAAGGGCCTCGGCAGGGCAGCGCTTCAGGAGATCATCAGGCATGCCCGAGACGAGCTCGATGCACCGCTCCTTCGGTTGGGCGTACGCGCTGACAACATCGCAGCCACCGCCCTCTACAAGTCTGCAGGCTTCATCTCCACCGGCCAGACCTTCGGTTCGGAAGAAATCCTGGAACTCCGCTTTCCTAGCGGCACCTGA	MEPMQNRVRLTDLRRDTWEGVVGLTVTEDQRDFVAPNVFSIAESRFLPGFMTRAVLHGEEAVGFAMYGPDSDDNGHLWLYRLMIHKTHQGKGLGRAALQEIIRHARDELDAPLLRLGVRADNIAATALYKSAGFISTGQTFGSEEILELRFPSGT	PGPT0007790_1330	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
D1-29_01174	204			hypothetical protein	ATGGAGGACGTGGCGGCCATTGGTGCCAGGATCCGGCGCGCCCGCAGGGAAGCCGGTATCACCCAAGGCGTCCTGGCGGGCCTGATTGGTACGTCCTCACGGACTATTCACGCCATCGAAACGGGGACCGGCAATCCTTCACTGGTTACGGTGGTCGCAGCTGCCAACGCGGTGGGACTGCACCTGAGGGCTACCGATGACTGA	MEDVAAIGARIRRARREAGITQGVLAGLIGTSSRTIHAIETGTGNPSLVTVVAAANAVGLHLRATDD				NA	NA	NA	NA	NA
D1-29_01175	1188	hipA	COG3550	Serine/threonine-protein kinase toxin HipA	ATGACTGATGACCTGGGGCGCCTGAAATTTGTCCGTAGCGCGGACGTGTACAAGGCGGGCGTCCTGGCCGGACATCTGAACCGCACCGGCCGCGGCAGTGTCGTTTTTTCCTACAGGCCAGGCTACCTGGCCTCAGGCGGCCGCCCTGTCGCTACCACTCTGCCTATTACGGCGGAGCCGGTGGAAGCCCCGAGCGGTGCACTACCGTCCTTCTTCTCTGGCCTCCTGCCCGAAGGCCACCGTCTCACCGTGCTCCGGGAGGCCGTCAAGACGAGTATGGGCGACGAACTGAGCCTGCTTCTTGCTGTCGGCGCCGACGTTCCCGGTGACGTTCAGGTGGTGCCGGCCGGGGAAGTGCCTGTTGAGCCTCCGCCGTTGGCGGACACGTCGCACCCGGAGGATCTCGACTTTGCCTCTCTGTCGGACGCAGTCGATCCGCACGGGCTGCCGGGCGTCCAATCCAAAGCCAGCGCCTCGATGTTGACCACGCCGCTGGCTCTGGCTAACCGCCGGTACCTGCTCAAACTGGATCCACCCCGGCACCGGCACCTGGTCCTCAACGAAGCAGCCCATCTCAGTGGGGCAAAGGCCCTGAAAATTCCGGTTGCCAAGCACAATGTTGTCCTGGACCGGAACGGCCTGCCCGGCCTGCTTGTTGAGCGGTTCGACCGCACCCAGGGCGACGGGCTGCTGCGTCTGGCCCTGGAGGACGCCGCGCAGGTCCTCAACCTCCCGCCGGCGTCAAAATACGCCGTCAGCTCTGAGGAAGTGGTGCTGGCGCTGGCCGGGCTGTGCAAAGCCAAAGTCATCGCCGTAAGAAACCTCTACCTGCAGTTCGTTTTTGCATGGCTTACCGGCAACGGTGACCTGCACGCCAAGAACGCATCGGTATTGGAAGGCCAATACGGCTGGGCGGTGGCCCCGGTCTACGACATCCCCTGCACGCTCCTGTACGGCGACGACACCATGGCTCTGACCGTCGCCGGCAGGGTGAAGAGCCTCAAGGTCCGGCATTGGCAGGATTTCGCCGCCAGCATCGGGCTGCCGGAAAGAGCTGCTACAGCAGCGAACAAGGTAGCACTGACGGCAGCCGCCGCCATCGATCTGGAAGCCTTGCCTTTTACCGGATCGCCCCTGAACGGGGCGCTGCGAGAACTGCGCTTCCGCCGCGCCGAGCTCACGGGCTGA	MTDDLGRLKFVRSADVYKAGVLAGHLNRTGRGSVVFSYRPGYLASGGRPVATTLPITAEPVEAPSGALPSFFSGLLPEGHRLTVLREAVKTSMGDELSLLLAVGADVPGDVQVVPAGEVPVEPPPLADTSHPEDLDFASLSDAVDPHGLPGVQSKASASMLTTPLALANRRYLLKLDPPRHRHLVLNEAAHLSGAKALKIPVAKHNVVLDRNGLPGLLVERFDRTQGDGLLRLALEDAAQVLNLPPASKYAVSSEEVVLALAGLCKAKVIAVRNLYLQFVFAWLTGNGDLHAKNASVLEGQYGWAVAPVYDIPCTLLYGDDTMALTVAGRVKSLKVRHWQDFAASIGLPERAATAANKVALTAAAAIDLEALPFTGSPLNGALRELRFRRAELTG	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
D1-29_01176	1413	gabP_2	COG1113	GABA permease	ATGGAACAACAGACAAAGACGTCTGGCCGCGCCCTCGGCGCCGCACTCAAACCCCGCCAGCTCACCATGATGGGGCTCGGAAGCGCCATCGGCGCGGGCCTGTTCATCGGCTCCGGCGCCGGCATCCAGGCTGCCGGCCCGGCCGTGCTGATCTCCTACCTCGTGGCCGGCACCCTCATCATCCTAGTGATGTGGGCCCTCGGCGAGATGGCCGCCGCCAACCCGGACAGCGGCGCCTTCTCCGTCTATACCGCCAAGGCCTACGGGCCGGTGGCCGGCGCCACAGTGGGCTGGCTCTGGTGGCTGCAGCTCGTGGTGGTCATCGCCGCCGAAGCACTCGGTGCGGCAGGACTGCTGTCCACCATCTTCCCGGACCTGCCGGTGTGGCTGATGGCCTTCCTGTTCATCGTGGTGCTCACCGCTGTGAACCTCACCAGTGTGAAGAACTTCGGCGAGTTCGAGTTCTGGTTCGCCCTGCTCAAGGTGGCGGCAATCGTCGGGTTCCTCCTGGTGGGCGCCGCCCTGCTCTTCGGCTGGCTGCCGGGCGTGCAGTCGCCGGGCCTGGCCAACTTCACCGGAGACGGTTTCGCGCCTGATGGCTTCGCTGGGATTGCCACGGCACTGTTCGTGGTGGCTTTCGCGTTCGGCGGCACCGAGATCGTGTCCGTGGCGGCAGCCGAGACCGCTGAGCCGGCCCGCAGCGTGAAGAAAGCCGTCCGGACAGTACTGTGGCGGATCCTGGTCTTCTACATCGGTGCGATCTTCATTATCGCGGCCGTGGTTCCCGTGGGTTCGGCGGGGCTGAAGAGCCCGTTCGCCGCCGTGTTGGAGGCCGCCGGCATGCCGGGCGCGGCCACCGCCATCACCCTGGTGGCCGTCGCTGCACTGCTCTCCGCCCTCAACGCCAACCTCTACGGTGCCTCACGGATGGCGTACTCCCTCGCCGAGCGGGGCGAAGCACCACGCTGGCTTGCCTCGGTGTCCAAGGCCCGGGTCCCGGTTGTTGCCGTCCTGGCCAGCGTCGCGTTCGGCGTTGTCACGGTGGTGCTGGAGCTGGCATTCCCCGAGATGGTCCTTGGCGTCCTGCTGAACATCGTGGGTTCCACCTGCCTGCTGGTGTGGACCTCCGCGCTCCTCGCCCAGCTCGCGCTGCGCCTCCGCGCCGACCGCGACGGGACGGAGCTTCCCCTCCGTATGCCCGGCTTCCCGTGGCTCACGGTGCTTGGTCTGGTCATCCTCGCGGCGATCTTCACCGTGGGCTTCATCGGCGAGGATTCCCGTCCCCAACTCCTGAGCACTTTTGGACTCGTGGTGCTGCTGGCGGTGGCGAATTGGCTCCACCACCGGAGTGGGAAGACTCCGGCTGCTGTTGAATCGTCGGACGGAGAAAAGCAGCCGGTGCTCGTCGACTGA	MEQQTKTSGRALGAALKPRQLTMMGLGSAIGAGLFIGSGAGIQAAGPAVLISYLVAGTLIILVMWALGEMAAANPDSGAFSVYTAKAYGPVAGATVGWLWWLQLVVVIAAEALGAAGLLSTIFPDLPVWLMAFLFIVVLTAVNLTSVKNFGEFEFWFALLKVAAIVGFLLVGAALLFGWLPGVQSPGLANFTGDGFAPDGFAGIATALFVVAFAFGGTEIVSVAAAETAEPARSVKKAVRTVLWRILVFYIGAIFIIAAVVPVGSAGLKSPFAAVLEAAGMPGAATAITLVAVAALLSALNANLYGASRMAYSLAERGEAPRWLASVSKARVPVVAVLASVAFGVVTVVLELAFPEMVLGVLLNIVGSTCLLVWTSALLAQLALRLRADRDGTELPLRMPGFPWLTVLGLVILAAIFTVGFIGEDSRPQLLSTFGLVVLLAVANWLHHRSGKTPAAVESSDGEKQPVLVD	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
D1-29_01177	105			hypothetical protein	ATGGTATTCACGGACAAGGGAGTGAACGGCGTGAGATCCGCATGGGAAAGCCCCTTTATGGCAAGTGAGCATCCCACATCGGTCCGAACGTTTGAAGCCGATTAG	MVFTDKGVNGVRSAWESPFMASEHPTSVRTFEAD				NA	NA	NA	NA	NA
D1-29_01178	588			hypothetical protein	ATGGCACGAGGAGACACCGAGTTGACCTTCAAGGCAGCAGCCGCAGCTGATGGCATCGAACTCATTCAGAATTACTCGTTTCAATGGATGACGGAGCAGGGGCACTTCGGTCTCCCACCAGAGGCGGCTGGCGCGGTTAGGTCCCTCCACGATATCTTCCTGGCGCTTGAGGGTGACCCTGCCCCGTATGCCGCCGGGCGTACTAACGTACTTCGAGGCGACCTACTCTACAAGCCGACCGGGACCATCATTGAAGTTGATGAATTTCAGCACTTCTCAAGCTGGAGGCTAATCACCCTAGATGCTTACCCTCCGGACGCAGCCATGGGATTCGACCGCGACGAATACATTAACCTGTGCCGTCTCAATTCCCGCCGAGCCGACAATTATCGAGCCTCCAAGATCGCCAAGGGCTTCCCTAACCCGGGTTCGAGGACGAGGCAGCGCGCCTACTACGACTCTCTGCGTGACTTGGCCGCCACGGCGATGGGCCTGCCGCCGGTCATTCGGGTGCCGGCCGTCGACGACGATGGCGGACACGCATATCGGAGGCATCGAGACAAGATCGCTCGAGCCCTCTCCATCTGA	MARGDTELTFKAAAAADGIELIQNYSFQWMTEQGHFGLPPEAAGAVRSLHDIFLALEGDPAPYAAGRTNVLRGDLLYKPTGTIIEVDEFQHFSSWRLITLDAYPPDAAMGFDRDEYINLCRLNSRRADNYRASKIAKGFPNPGSRTRQRAYYDSLRDLAATAMGLPPVIRVPAVDDDGGHAYRRHRDKIARALSI				NA	NA	NA	NA	NA
D1-29_01179	783			hypothetical protein	ATGGATTCTGCCCTTCTTGCCGCCGTCGTCACGGCCTCTTTCGCTCTAGCCGCTACTGTTGTGGCGTCACTAATTGCCGCGGTAGCGAGTCTGAGGACGCAGCGCGGTCAAGCAGAAAACAACGAACAGCTAATACGCCTGAAAGACCGCCTTGACGCGGAGAAGGCACATCACGAACGGCATCTGAGCTCGAGGGCTGAACTTAATAACCTTCGGGAACCGCTGTTGCTCGCTGCCAAGGATTTGCAGAGCAGAATCGACAATATTCGCAGGAAGAACTTCTTCTTCTACCTCAACAGCGAAGACGACCACCGCCGTGATGTAGCCCTCCTTGGGACTCTGCACAGGTTCGCTACGTACTGGGCGGTTCAGGAATGCCTGTACAACCGCACCAACTTGCTACGTTTCGAGTCCGACGTGAATAGCCGCGAAGTTGTGGAAGATGTCGAAGGCTTGGCACGCACCTTCGCTTCAGACAGCTCTGCTGGACTGAACCTTATCTTCTGGCGAGAGGAACAGCGTGCCGTCGCCGAGCTTATGGTCGACTTAGGCAGCGCCGACCCCGTGCCAACGGTCGCGGGATTCGCCACGTTCAGGAAGAGGTATCGCGAAGACCTTCGTAGAGAGACACCCGAAGACCTCGCCCTCTGGTTGGGCCGCTTCGCTCAGGACCTCCAAGTCCCTACGATCGCTGAAAACCGCCGGTTGAAAGAGCTGGAGGAGAACCTTGACGCCTTGGTGAGAACACTGGAAAAGGGCAAGACGGCCGACCAGGCGTATTGA	MDSALLAAVVTASFALAATVVASLIAAVASLRTQRGQAENNEQLIRLKDRLDAEKAHHERHLSSRAELNNLREPLLLAAKDLQSRIDNIRRKNFFFYLNSEDDHRRDVALLGTLHRFATYWAVQECLYNRTNLLRFESDVNSREVVEDVEGLARTFASDSSAGLNLIFWREEQRAVAELMVDLGSADPVPTVAGFATFRKRYREDLRRETPEDLALWLGRFAQDLQVPTIAENRRLKELEENLDALVRTLEKGKTADQAY				NA	NA	NA	NA	NA
D1-29_01180	771			hypothetical protein	GTGGGCCGTAAAGTAGCGGATATGACCCGTCAGTTGGAGGACACCGCCGAGCCCTCACCCATCGGCGCTGACAGGATGCCCGGGACGGACCGGCGCAGCGCGATAGATGCGGTCCGCCTCCGGATCGGGATGGCAATTTCGTTGGGGCTGTTGAAGCCGGGCGAGCGGCTGCCGGACCAGGAGGACGTGGCCCTGGGCCTGTCGGTCAGCCCGATTACGGCCCGACGCGCGCTGGCGAGCCTGGCGGAGCAGGGCGTGGTGGTCCGGCGCCGCGGCCGTGCCGGCGGGACCTTTGTGGCGGATTCGCCGCCTTCGGATGTTTTGGCGTCACTTTCGGCGTCGCCGGCAGAGTCCCAGGCCGTGAACCGGCTGGTGGACCGGCGGCTGCTGTTCGAATGCGCTGTCACGCACTATGCGGCGGTTAATGCCTCGGCTCAGCAGCTCGACGAGCTGGAGCGGCTGACCCGGGACATGGCCGAGGCAACTGACTGGTCCGTCTACCACCAAGTAGACGAGCGGTTCCATCAACTGGTGGGAACGTCATCAGGGATGGGCACCGCCGTCGATGTTTATCACGAGACGCTCGCCGAGCTCTACGACTACTTCATCCCCTACCCCATCGAGAAGCTGCACAAGTCCAACCACGACCACATCGCGCTCGTGGCCGCCCTCCGCGCCGGTCATGTTGAAGAAGCCGTGGAGGTTTCGCGAAAGCACGTGGACATCCTGCACCGGACGATGTTTATGGGGCTGGCGCAGGGCGGAGCCTAG	MGRKVADMTRQLEDTAEPSPIGADRMPGTDRRSAIDAVRLRIGMAISLGLLKPGERLPDQEDVALGLSVSPITARRALASLAEQGVVVRRRGRAGGTFVADSPPSDVLASLSASPAESQAVNRLVDRRLLFECAVTHYAAVNASAQQLDELERLTRDMAEATDWSVYHQVDERFHQLVGTSSGMGTAVDVYHETLAELYDYFIPYPIEKLHKSNHDHIALVAALRAGHVEEAVEVSRKHVDILHRTMFMGLAQGGA	PGPT0018120_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018120-lldR-K14348	NA	NA
D1-29_01181	879	amiF		Formamidase	ATGCAACGCATCCTTCCCCTCATCGCCGCCCAGGCAAGGCCTCGGCTCATCGGTGAACCCGTTTCGGCCTTCGCGGAGGAGGTCAGGAAAGCCCTCGAATCCCAGCCGCACAGCAAGCTGGTCGTCTTCCCCGAGCTGCACCTCTTCGGGGACGAAACCCCGGACCGGCAGCGCAGCGAAATGCTCCAAGCAAGTGCTGAACCGCTGCGCGGACCACGGGTCAAAGAGCTCAAAGAGCTCGCGAAAGACCTCAACATCTGGCTGGTCCCCGGCAGCGTCTGCGAACGCGGCCCCGAAGGCCAGCTGTTCAACACCCAGCTGGTCCTCTCTCCCGAAGGGGAGCTCGCCGGCTACTACCGGAAAATCTTCCCCTGGCGCCCGTTCGAGCCCTACGACCCCGGCGACAAGTTCACCACCGTGGACCTGCCCGGCACCGGCAGGGTGGGCCTGAACATCTGCTACGACGCCTGGTACCCGGAAGTGTCCCGCCAGCTTGCCTGGATGGGCGCCGACGTAATCCTCAACGTCGTCAAAACCACCACCCCGGACCGCAAACAGGAACTGATCCTCGCCAAGGCCAACGCCATCGTCAACCAGGTCTTTATGGTCAGCGTCAACTGCGCCGGCCCCACCGGCCAAGGCAAGAGCATCATCGTGGACCCGGAAGGCAACACCGTCGCCGAGGCCGCCGACGATCAACCGCAACTGCTCACCGCGGAACTGGACCTCGCCGCCGTCGAGCGCGTCCGCACGCACGGCACGGAGAACCTCAACCGCCCCTGGTCGCAGTTCCGCGAGGGGGAGCCCGCCGTCGAACTTTCCGTTTACCAAGGCCGGATCAACCCGGCCACCTGGACACCGCCGTCCTACAAGCCCTAA	MQRILPLIAAQARPRLIGEPVSAFAEEVRKALESQPHSKLVVFPELHLFGDETPDRQRSEMLQASAEPLRGPRVKELKELAKDLNIWLVPGSVCERGPEGQLFNTQLVLSPEGELAGYYRKIFPWRPFEPYDPGDKFTTVDLPGTGRVGLNICYDAWYPEVSRQLAWMGADVILNVVKTTTPDRKQELILAKANAIVNQVFMVSVNCAGPTGQGKSIIVDPEGNTVAEAADDQPQLLTAELDLAAVERVRTHGTENLNRPWSQFREGEPAVELSVYQGRINPATWTPPSYKP				NA	NA	NA	NA	NA
D1-29_01182	1350	puuP_1	COG0531	Putrescine importer PuuP	GTGACAACAACCCTGACCCGCACGCTGAAGCTGCCTTCGCTGGTCCTGTTCGGGCTGGCGTACCTGACCCCGATCATCGTCCTGGGGATCTTCGGCATCATCGCCGAAACCACCGGCGGCGCCGCGCCCGCCGCGTACCTCGTGGCGCTCGTGGCCATGCTGTTCACGGCGCACAGTTACGGCCGGATGGCCGTCGCCTACCCTGTGGCCGGCTCCGCCTACACCTACGTCCGCCGCTCCATCGATTCCCGGGTGGGGTTCCTGGTGGGCTGGGCCGTGCTGCTCGACTACCTCTTCCTGCCCATGGTTATCTGGCTCATCGGCGGCTCCTACCTGAGCGCCCAGTTCCCCGGCATCCCCATCGGCGTCTGGATCGTGGGCTTCATCGTGATCACCACGCTGCTGAACATCCTGGGCATCAAGGTGGCGGACAAGGCCAACTACATACTGATGGCGTTCCAGCTGCTGGTCCTGGTGTTCTTCGTGGCGCTGGGCATCGGCAGCGTGGTGTCCGCCAACGGCGCCGGGGGACTGGCCAGCGGGCAGCCGTTCTTCAACGACACCGCCAGCTTCGCCACCATCTCCGCCGGCGCGGCCATCGCCGCGTACTCGTTCCTGGGGTTCGACGCCGTCACCACGCTCACCGAGGAAACCATCAACCCGCGCCGGACCGTGCCGCGCGCCATCATGCTCGTGGCCCTGATCGGCGGCGGCATCTTCGTGGCGGTGTCCTACGTGACCCAGCTGGTCCACCCCGGCGGCGTGTTCGAGGACTCGGCCTCCGCGGCCAGCTCCATCGCCCTGCAGATCGGCGGGCAGCTGTTCGGCGCCGTGTTCCTGGCCGGCCTGGTGGTGGCGCAGTTCGCCTCCGGCCTCGCCGCGCAGGCCAGCGCCTCCCGCCTGCTGTACGCGATGGGCCGCGACTCCGTCCTGCCCAAGGCGGTCTTCGGCCGGCTGAGCGAGAGGTTCCACACCCCGGTGGCGAACCTGGTGGTCACGGGCATCGTGGGCCTGATCGCGATCTTCCTGGACGTGGCCACCTCGACGTCGTTCATCAACTTTGGTGCCTTCACCGCCTTCACGCTTGTGAACGCCGCGGTGGTGTTCCACTATGTGCGCCAGCGCCGGGCTGGGCAGCAGCTGAATCCGGTGTCCTACGTGGTGGTCCCGGTGGTCGGCGCGATCATCTGCGCCTACCTGCTCTCCCGGCTGGACAGCAATGCCATTACGCTGGGGGTGTCCTGGCTGGTGCTGGGCGTGCTGGTCCTGGCCCTGATCACCCGCGGGTTCAAGGCCTCGCCGCCGGAGATGACGGCCACGGAGAAGGCGACGGTCGAGGCCACGGTCTGA	MTTTLTRTLKLPSLVLFGLAYLTPIIVLGIFGIIAETTGGAAPAAYLVALVAMLFTAHSYGRMAVAYPVAGSAYTYVRRSIDSRVGFLVGWAVLLDYLFLPMVIWLIGGSYLSAQFPGIPIGVWIVGFIVITTLLNILGIKVADKANYILMAFQLLVLVFFVALGIGSVVSANGAGGLASGQPFFNDTASFATISAGAAIAAYSFLGFDAVTTLTEETINPRRTVPRAIMLVALIGGGIFVAVSYVTQLVHPGGVFEDSASAASSIALQIGGQLFGAVFLAGLVVAQFASGLAAQASASRLLYAMGRDSVLPKAVFGRLSERFHTPVANLVVTGIVGLIAIFLDVATSTSFINFGAFTAFTLVNAAVVFHYVRQRRAGQQLNPVSYVVVPVVGAIICAYLLSRLDSNAITLGVSWLVLGVLVLALITRGFKASPPEMTATEKATVEATV	PGPT0007795_331	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
D1-29_01183	783		COG0388	Hydrolase	GTGAGGATAGCGCTGGGGCAGCTGGAGTCGGGTGCCGACGTCCGGGCCAACCTGGCCGTCATCGACCGGTTCGCCGCCGAGGCAGCGCGCGACGGCGCTGCGCTGGTCGCGTTCCCGGAGTACGCCACTTACGAGAAGAAGAAGGTGGACGCGACCTTCCCCGCGGTCGCCGAGCCGCTGGACGGACCGGTTTGCAAGGAGTTGGCGGGCATTGCCCGCCGTCACCGCATTGCGCTGGTGGCGGGCGTGGTGGAGACCTCGGACGAGCCAGGGGGCAGGGCGTACAACACACTGGTGGCGTTCGGGCCCGACGGCGGCCAACTGGCTTCCTACCGGAAGATCCACCTTTTCGACGCGCAGGGGTTCGGGGAGTCCGAGTTCATCAAGCCGGGCGAGTCCCTCGAACCGGTGGTGTTCGAGCACGGGGGAGTGCGGTTCGGGCTGATGACCTGCTACGACCTGCGGTTCCCGGAGCTGGCCAGGTCGCTGGCCGACGCCGGCGCGCAGGTCCTGCTGGTCTGCTCGTCCTGGGTGCCGGGCGAGCACAAGACGGAGCAGTGGCTGGCCTTGAACGCGGCGCGGGCGATCGAGAACAGCGTGTACGTGGCGGGGGTGTGCCAGGCTCCGCCGGTGTCGGTGGGGCGGAGTGTGCTCGTGAATCCGATGGGGGTTGTTGAAGCGGACCTTGGTCTTGCTGCCGGTGTCCGAGCGGTGGAGGTTTCGCTGGAGACGGTGGACCGGGTGCGGGAGTCGTTCCCGATGTTCCGGCAGCGGCGGCTGTAG	MRIALGQLESGADVRANLAVIDRFAAEAARDGAALVAFPEYATYEKKKVDATFPAVAEPLDGPVCKELAGIARRHRIALVAGVVETSDEPGGRAYNTLVAFGPDGGQLASYRKIHLFDAQGFGESEFIKPGESLEPVVFEHGGVRFGLMTCYDLRFPELARSLADAGAQVLLVCSSWVPGEHKTEQWLALNAARAIENSVYVAGVCQAPPVSVGRSVLVNPMGVVEADLGLAAGVRAVEVSLETVDRVRESFPMFRQRRL				NA	NA	NA	NA	NA
D1-29_01184	1431			hypothetical protein	ATGCCTCTGCTCATTTCGCAACGTTGCCTGAGTAACGCCACTGAAGAACTTGCCGCGCAGACGGGTGCTCTGGTCAAGTCTCATTACTCGCCAGTAGTGGAAACGATCACAATGCCTAAGAGGGTGCATGGGCCAAGACCGATAACTATCCTCCCGCCTGAGGCGAGGGTGCTCTACGAAGCCTTGGTGCAGGAACTTGAACCACACCTCCCTGCTTCGTCACGAGACATTGACATTGATGAACACCGCAAGTTTGGTACAGACGATTCTGTGGATCCGACAGTGTACATCGTTGACTTCGATATAGCCGCATTTTACGAATATGTTGACCACAGGATACTAGCCGAAGAGTTACTGATGCAGACTATGAACGCTTCCGCAGTATCTGCGCTCAACGACCTTTTACATGAAATGTTCCCGCGCAAAATTGGCATTCCTCAAGCAATGCAACCCAGTCATCGCATTTCCGATGCATACATTCAAAAGTTAGAGCGACAGCTCGTGCGCAAGGGATTTTCTGTCCACAGGTACGTCGATGACTTTCGGCTTATTGCCGCAGATCAAAGCGCAGCACATGATGCCATAGAGTTTGCCGTCGATATGGCTAGAGAGATTGGCCTAGTGCTGGCGGATGGGAAGACTAAGCTGTCGCCAAAGCGGCGAGTTAGAGAAGACATAGATGAAATCAATCGTGCATTCGATGAGTTTCGAAGCCAAGCTGAGGACGAACTCTGGGCTGTAGAAACCGAGAGAATGGGTTATGACGACGAGCCATTCTTTGACGATGACGATGACGATGACGACTTGGCGGAGCCGGACGAGGACGAGATCGACTTCGTATCTCTGAGCAGAGTCATTGAAGACTGGAGCCGCGGGGAAGAGTCCATGCGCGGTGTCCATGCTCATTTCGGCCCCGGTACCCTGAAGCGTCTCCAGTCGGCAACAAGCCGGCTAGAAGACGACTGGCTTGTAAAGATCACCGAGCGTGAGCCCATCAGACTCTATGAGGTGATTTCCTACTTACGCCGACGGCCAGAAATGGATCAAAATTGGGCTGCCTTGAGGCGCTTGACCCAACTGCCGCGTCAAAGCTCATGGGCGAAGTTGTGGATGGTCGGGCTGGCGAGCCAATTAACTGCAGGCGCCTCTGAACATGAACAGCAAATCTTAGATTGGGTCAAACAGCTGTTGCAAGACAGGCACGAGACGGTTAGGGCCGAAGCGGCTTGGTACCTGTCAAGACGCAGGTCCATTTCAACGGAGGAGTTGTCGGAGATCTACATGCAAGCGTCTGATGTTACTAGAGTTGGTGTCGCCGCTTGTGTCGGATCCCTGGATGGAAATACTGCGAGCCAGGTCGGAAAGGCCATCCAAGGAGACTCAAAGCTGTGCAAGGCTGCCTATAACTGGGGCTCCAAATATGTTGATTAG	MPLLISQRCLSNATEELAAQTGALVKSHYSPVVETITMPKRVHGPRPITILPPEARVLYEALVQELEPHLPASSRDIDIDEHRKFGTDDSVDPTVYIVDFDIAAFYEYVDHRILAEELLMQTMNASAVSALNDLLHEMFPRKIGIPQAMQPSHRISDAYIQKLERQLVRKGFSVHRYVDDFRLIAADQSAAHDAIEFAVDMAREIGLVLADGKTKLSPKRRVREDIDEINRAFDEFRSQAEDELWAVETERMGYDDEPFFDDDDDDDDLAEPDEDEIDFVSLSRVIEDWSRGEESMRGVHAHFGPGTLKRLQSATSRLEDDWLVKITEREPIRLYEVISYLRRRPEMDQNWAALRRLTQLPRQSSWAKLWMVGLASQLTAGASEHEQQILDWVKQLLQDRHETVRAEAAWYLSRRRSISTEELSEIYMQASDVTRVGVAACVGSLDGNTASQVGKAIQGDSKLCKAAYNWGSKYVD				NA	NA	NA	NA	NA
D1-29_01185	807	pat_2	COG0079	Putative phenylalanine aminotransferase	GTGGGCGTCCTTCAGCAGATCATCACCGGACTGTGCGACGCCGGGGATGTGGTGATCTTCGCGTGGCGCTCCTTCGAGGCATACCCCATCCTGGTTGAGCTGGCAGGCGCCCGGCCGGTCCGCATCCCGCTGGACCATCTTGAGGGCCACGACCTCGATGCCATGGCCGCCGCCGTCACCGAACGCACGAAGGTCATCCTGCTGTGCACCCCCAACAACCCCACCGGCGTACCGATCAGCCACGAACGCATCGAGGCGTTCCTGGGCAGCGTTCGCTCGGATATCCTCGTGGTGATCGACGAGGCCTACGCGGAATACGCCGAAGCGGGCAGCGGACCCGATTCCCTGGCGCTCTACCGCGAATACCCGAACGTCTGCATCCTGCGCACCTTCTCGAAGGCCTATGGACTTGCCGGCCTTCGCGTGGGGTACGCCGTAGCTGCGCCGGACATCGCTGAGGGACTGCGCCGGACCGCCCTTCCCTTCTCCGTGAGCGCGCTGGCCCAGAAAGCGGCCATCGCGTCGCTGGACGCGGGGGAGGAGATGGAAGTTCGCGTTGCCGCAGTGAAGCAGGAGCGTGCACGGATGGCCACTCACCTGGAAGCCCGGGGCTGGAAACTGCAGCCGAGCCAGGGCAATTTCCTGTGGATCCGTGCCGGCGACGAGCTCCGGACGAGGCTGGTGGATGCGTTCGATGGTGCCGGCATCCTGGTCCGGGCGTACCAAGGCGACGGCGTGCTAATCACCGTTGCCGACCCGGCATCCAACGACCGCGTGCTCCGGATCCTGGAAGCCCACGCGGCCTAA	MGVLQQIITGLCDAGDVVIFAWRSFEAYPILVELAGARPVRIPLDHLEGHDLDAMAAAVTERTKVILLCTPNNPTGVPISHERIEAFLGSVRSDILVVIDEAYAEYAEAGSGPDSLALYREYPNVCILRTFSKAYGLAGLRVGYAVAAPDIAEGLRRTALPFSVSALAQKAAIASLDAGEEMEVRVAAVKQERARMATHLEARGWKLQPSQGNFLWIRAGDELRTRLVDAFDGAGILVRAYQGDGVLITVADPASNDRVLRILEAHAA	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
D1-29_01186	150			hypothetical protein	ATGGAACAACAGACAAAGACGTCTGCGCGCCCACTCGGCGCCGCCCTCAAACCCCGCCAGCTGACCATGATGGGCCTCGGAAGCGCCATCGCGCGGGCCTCTTCATCGGCTCCGGCGCCGGCATCCAGGCCGCTGGCCCTGCAGTGCTGA	MEQQTKTSARPLGAALKPRQLTMMGLGSAIARASSSAPAPASRPLALQC				NA	NA	NA	NA	NA
D1-29_01187	1374	gabP_3	COG1113	GABA permease	GTGCTGATCTCCTACCTCGTGGCCGGTACCCTCATCATCCTGGTGATGTGGGCCCTCGGCGAGATGGCCGCCGCCAACCCGGACAGCGGCGCGTTCTCCGTCTACACCGCCAAGGCCTACGGGCCGGTGGCCGGTGCCACCGTGGGCTGGTTGTGGTGGCTGCAGCTCGTGGTGGTCATCGCGGCCGAAGCGCTCGGGGCGGCAGGCCTGCTGGCCTCCATCTTCCCGGCCCTGCCCGTGTGGCTGATGGCCTTCGTGTTCATCGTGGTGCTCACCGCCGTGAACCTGACCAGCGTGAAGAACTTCGGCGAGTTCGAGTTCTGGTTCGCCCTGCTTAAGGTCGCGGCAATCGTCGCATTCCTGGCTGTGGGCGCCGCCCTGCTCTTCGGCTGGCTGCCGGGCGTCCAGTCGCCGGGCCTGTCCAACTTCACGGGCGACGGCTTCGCGCCCAGCGGTTTCGCCGGGATTGCCACGGCACTGTTTGTGGTGGCCTTCGCGTTCGGCGGCACCGAGATCGTGTCCGTGGCTGCAGCCGAGACCGCCGAGCCCGCCCGCAGCGTGAAGAAAGCGGTCCGCACGGTGCTGTGGCGGATCCTGGTGTTCTATATCGGTGCAATCTTCGTGATCGCCGCGGTGGTTCCCGTGGGTTCGGAGGGGCTGAAGAGCCCCTTCGCCGCCGTGCTGGAGGCCGCCGGCATGTCCGGGGCAGCCACCGCCATCACCCTGGTAGCCGTCGCAGCTCTGCTTTCCGCGCTCAACGCCAACCTCTACGGTGCCTCCCGGATGGCGTACTCCCTTGCGGAGCGGGGCGAAGCGCCGCGGCTGCTCGCTTCGGTGTCCAAGGCGCGCGTTCCGGTTGTCGCAGTCCTGGCCAGCGTCGCTTTCGGCGTTGTCACGGTGGTGCTGGAGCTGGCGTTCCCCGAGATGGTCCTTGGCGTTCTGCTGAACATCGTGGGTTCCACCTGCCTGCTGGTGTGGACGTCCGCGCTCCTGGCCCAGCTTGCGCTGCGCCTCCGTGCCGACCGCGAGGGTACGGACCTTCCCCTGCGGATGCCTGGCTTCCCGTGGCTCACGTGCTTCGGCCTGCTCATCCTCGCGGCGATCTTTACGGTGGGCTTCATCGGTGAGGATTCCCGTCCCCAGCTCCTGAGCACTTTCGGACTCGTGGCGCTCCTGGCGGTGGCGAACTGGCTGAACCACCGTTCCCGGCAGGTTACGCCCAGGTCGAAGCTTCGGACGATGCCAAGCAGCCGGTGCTCATCGACTGAAACAGATGCCGTGAACCCTTCATTGGGGTGCGGTTCTTGTGAACCCCAGGGGCGCGCTCGGTCTGAAGGGCGCGCCCCCGATGAACTCCAGGTGCCCAGCCCTTAG	MLISYLVAGTLIILVMWALGEMAAANPDSGAFSVYTAKAYGPVAGATVGWLWWLQLVVVIAAEALGAAGLLASIFPALPVWLMAFVFIVVLTAVNLTSVKNFGEFEFWFALLKVAAIVAFLAVGAALLFGWLPGVQSPGLSNFTGDGFAPSGFAGIATALFVVAFAFGGTEIVSVAAAETAEPARSVKKAVRTVLWRILVFYIGAIFVIAAVVPVGSEGLKSPFAAVLEAAGMSGAATAITLVAVAALLSALNANLYGASRMAYSLAERGEAPRLLASVSKARVPVVAVLASVAFGVVTVVLELAFPEMVLGVLLNIVGSTCLLVWTSALLAQLALRLRADREGTDLPLRMPGFPWLTCFGLLILAAIFTVGFIGEDSRPQLLSTFGLVALLAVANWLNHRSRQVTPRSKLRTMPSSRCSSTETDAVNPSLGCGSCEPQGRARSEGRAPDELQVPSP	PGPT0000815_713	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
D1-29_01188	1443			hypothetical protein	ATGAATCCTGAACCAGATAATGTGGGAAATGATAAACATGCCCAGAATGGCGAGCTGCATGCCCAAATTTCCTCCTCCTCGGCGGCTGCAGCTACCCCGCCGTCAGCTCTGGCTAAATCCAGCGGGAAAGGCACGAATCCGCGGACCGCATGGCCAACCTGCACTGGACCGGGTCGAAATGGGGAGGTGAACTGCGGTAACCCAACGGTGAGCCAGGCTGTCAAGCTGTGTGCTTCCCACGGCCGTCAGCAACGCCTAAAGGGCGAGTTATTACCCCTGCGGACGCGGAAAAGCAAGGCCCCTTGCGTGGGCCCCGGCCCTGACGATGAGGCCTGTGGCCGTCGCGTCTACTACCGTGAGCCAGGACAGGATGATGGTGTCTGCAAATCACACTACGACCAGCTAAAGCGCAGGGGGTGGTTAAGCGCTATAGCGCCAAAGCCTGCCCCGGTCCCTGACTCCGTCTGCAAGGGGCCCGGGCAGGACGGCTCCCCGACTTGTGACCGGAAGGCCGAATACGGCTCCGGCTACTGCGCCCCGCACGACCGGCAGTACCACAAAACCGGGAATCTCAAGCCAATACGCCGTACCAACACTCCAGACGGCCCCTGCATAGGTCCAGGTGACGGAGCGGCCTCATGCGGGAGGCTAATGACACACAAGTCACTGAAACTATGTGGCGGCCATTACGCCCAACAACGTCGGGGGGATGTCCTGACGCCGCTCAAGAAAAGCAGGAAGAGAGGGCTGTCTACTCCCTGCAAATTTCCTGGATGCAGGTACCTTGATGCCCCAGATGGAAATGGATACTGCCGCCACCACTGGCGCCAGCAGTACTTGGGGCAGGAGCTAGTTCCACTAAAGGGGAATTCGAATCGCGGTCGTCTAGTCCTCGTACGCGATGTGTCTGGCAACAAGTTGTGTCCCTCGTGCGGAGAGTGGAAGCCCGAGGACGACTTCAGCAGGAACTCCAACTCCAGTGACGGACTGAATCACCGATGCAGGCGTTGCCACGCGTCCGCTCAAAAGAAGTCGAAATACGGCATCGACATAGACGAGTTTGAATCGATACTAGATGCCCAGGGAGGGAAATGTGCAATTTGTCCAGCAACTGCACGGGTGGACGGTTTTCGTCTATCCATAGATCATGACCACACTTGTTGCCCTGGAACCCTTTCTTGCGGAAGATGCATTCGAGGAATCCTTTGCCCCGACTGCAATCGCGGTCTCGGCCTATTTCGAGACAACATCAGCTCACTTCTGAGGGCTGTGGAGTACCTGCGAGGTGGGGTAATCCCACATCGTGTTCCCACCCTCGACGTCAACACTCACCAGGCTGGCCGCCAACCACACGAGTCCGGCACTCGCAATGGCGAGCCTGGATCATCCAGCACTGACGATGATGACGACGACGGACTCTCCGGTGCAATGGCTGTTGCCTAA	MNPEPDNVGNDKHAQNGELHAQISSSSAAAATPPSALAKSSGKGTNPRTAWPTCTGPGRNGEVNCGNPTVSQAVKLCASHGRQQRLKGELLPLRTRKSKAPCVGPGPDDEACGRRVYYREPGQDDGVCKSHYDQLKRRGWLSAIAPKPAPVPDSVCKGPGQDGSPTCDRKAEYGSGYCAPHDRQYHKTGNLKPIRRTNTPDGPCIGPGDGAASCGRLMTHKSLKLCGGHYAQQRRGDVLTPLKKSRKRGLSTPCKFPGCRYLDAPDGNGYCRHHWRQQYLGQELVPLKGNSNRGRLVLVRDVSGNKLCPSCGEWKPEDDFSRNSNSSDGLNHRCRRCHASAQKKSKYGIDIDEFESILDAQGGKCAICPATARVDGFRLSIDHDHTCCPGTLSCGRCIRGILCPDCNRGLGLFRDNISSLLRAVEYLRGGVIPHRVPTLDVNTHQAGRQPHESGTRNGEPGSSSTDDDDDDGLSGAMAVA				NA	NA	NA	NA	NA
D1-29_01189	627			hypothetical protein	ATGAAGCCCAAGAGCGCACCCGGTGATCGTCTGACACCGCAAGCACTTGCGCTCTTGACTGTGAGACATACACCAGAAAGGGCAGTTTTATATCAACTCACACTTTCTGCCGTTCTCAAAGCAAGGTTGAGTTACACATATACACACGACCATCCGGCACTTCCCACATCAAGGTTGAGTTACATATATACACACAACCAACCCGCACTTCGCACAACAAGGTTGAGTTACATATATACACACAACCAACCCGCACTTCCCACAACAAGGTTGAGTTACATATATACACACAACCAACCCGCACTTCCCACAACAAGGTTGAGTTACATATATACACACAACCAACCCGCACTTCCCACAACAAGGTTGAGTTACATATATACACACAACCAACCCGCACTTCCCACGACAGGGTTGAGTTACATATATACACGCGACTTTCAGAGGGCACTAAAGGATTGTAAGTACTTACGCATAAGGCCGTACCTTCAAACCGCTTCTGCATCGCAGGCCATAACGAAGGTCGGGTTTTCAATTTCCGAAGATACTGCTACGTTGATGCTCATCCAGTCGCGACGGACATTTTTCCGGCTACGAAGAAAGGACGGATTCTCTGATGAATCCTGA	MKPKSAPGDRLTPQALALLTVRHTPERAVLYQLTLSAVLKARLSYTYTHDHPALPTSRLSYIYTHNQPALRTTRLSYIYTHNQPALPTTRLSYIYTHNQPALPTTRLSYIYTHNQPALPTTRLSYIYTHNQPALPTTGLSYIYTRDFQRALKDCKYLRIRPYLQTASASQAITKVGFSISEDTATLMLIQSRRTFFRLRRKDGFSDES				NA	NA	NA	NA	NA
D1-29_01190	1113	naeIR		Type-2 restriction enzyme NaeI	ATGACTGCTAACGTCTTTAATGATCCGTTCGCTCTGTTCAGCGATCCGCAATGGGCCCCAGAAGAACAAGAGAGTGCGAAAGACACTGCTGGATCCCGGAGGCCACGGCGGGCCCGTCCCTCTTCTCCGGACCCGGGCAGACGCCCTGAACAGGCGCTGAAGTCGCGTCCCCGCCGGACTACAGCTGTTCCACCTAATCCAGCCCAGGACCCGGAAATCCACCAGATAAAGGGCTCGATTCAAGCAGCCGACCCAGATGGGGGCCGGTGCGGGCGTGCCATACGAAATGCTCTCGACCAGGCCTACGACGGTCGGCGGACAGGGCGCTGGGATTTGACTCAGCTAACGAAAGCAGAATCAGCCCATATTGGACCACTCATCGAGATCTGGCTTCAACGGGTACTCAATCTCGACGACGGCATCACTACCTCGCTCGAGATCGCCGGATCCGACGTCGCCTGTACATGGAGTGAGAGGCTCGACGGCTGGACACTCGACCGTCCCGTTCCCGAACAACGAGAAGTGCCATACTTAGTGATATGGGCCAACGAGGAGACCTCACGGTTCAGCCTCGGGATCCTTCGCCCCGGCCCTGACTCTCGAGGGGTGGCATCGATGGACCGCGGACGCCCCCGTTTGTCGCAGGTTGGGCTCGACCAGATTCTATGGGTATTCGACGGTTGTGCCCTTCCGGCCAACGTACTTGCTAAACATCCCGAAACGGCCATGGCGGCCGTAAGTCAATCCTCCGGCCAGAAAGCCGTCAACATGTTGTTCCGACACTTACAAGGTGAGCTAGTGCAACATTCCGCCGTCGAGACGGTGGCCCAGCAGATCGACTCCTCGAAGCGGGTCCGTGAGGCTCGAGAACAGCTGAGGAACGAGGGGATCGTCATTCTCGGGCCTTATCATCCTCAACCCGAAATTGCGGCGGCGCTCGGGCTGCCGTCCCCAAGAATGGGAAGCTTCGTGAGTCACCGCTTAGCCGCTATGGAAGCCGGTGAGGTCGGAGCTGGCGCGGAGATCGACGGTGGTAGGTGGCGTCTTGCCGTCCCAGGTGATCCAATTACTGTGGCGCCTGCACTTCCCGTCCTCGGCAAACAAAGAACCTGA	MTANVFNDPFALFSDPQWAPEEQESAKDTAGSRRPRRARPSSPDPGRRPEQALKSRPRRTTAVPPNPAQDPEIHQIKGSIQAADPDGGRCGRAIRNALDQAYDGRRTGRWDLTQLTKAESAHIGPLIEIWLQRVLNLDDGITTSLEIAGSDVACTWSERLDGWTLDRPVPEQREVPYLVIWANEETSRFSLGILRPGPDSRGVASMDRGRPRLSQVGLDQILWVFDGCALPANVLAKHPETAMAAVSQSSGQKAVNMLFRHLQGELVQHSAVETVAQQIDSSKRVREAREQLRNEGIVILGPYHPQPEIAAALGLPSPRMGSFVSHRLAAMEAGEVGAGAEIDGGRWRLAVPGDPITVAPALPVLGKQRT				NA	NA	NA	NA	NA
D1-29_01191	1833			hypothetical protein	ATGAGTCCTAAAGACACGGCAGGGCAGGACAACACACCGCAGATGCGTCAGCTCAGATTGCAGGAGACCATCTACCCGTTCGGGGTCGGCGCCATCGTCGACATCAAGAGCGAATCGTTCATCGGCATGGATACAGCCACATGGAACGAGAAGACTTGCGAGCCCTTGTCCTGCCCGCCGCTGGAACGGGCATTGGGGGTCCTGCAGCTGCGTCGCCCCCCGACCGCCGGAGAGTTCAGCCGCAACCCGAGCTTCGCCCTGCCCTACCGGCGCTTCCCGAAATGGCGTTTCTGCCAGGACTGTACCCTGATGTCCGACCGGGTCCATCACAAGAACGGCGCCAGTACAAACAACTGCTCCCGCTGCTCAGGACCAATGGTCCCGATGCGTTTCATCGCCGTCTGCAAAGCCGGAGGCCACATTCAGGACGTCGATTGGCGGCGGTGGTCCCATTTCCAGTTCTCCAACGACGAGCAACACAACTGCAGGGACTTCGAGCACCTGGAACTGCGGACCACCCCGGGAGCCGGCGAAGGACTGCGCTCGCTGCGAGTCATATGTCGCTCCTGTGACTCGGAGAGGAACCTCGGGTCGCTGGGTCGGGAAACGTCTTTAGCCGAGGAAGGGTACAAGTGCTGGGGCCTGCAGCCGTGGGAGCCGCACGACACCACCAAGGAGTGCACCAGTGAACTACGGGTCGTTCAACGAGGGTCCACAAGCGTCTACCAGGCAGAAACAGCGTCGGCGATCGACATCCCGGAGGTGGAATCGGCTACACAAGCCGTGCGTAACAGCGTTCTCCAGAACGACATGTTCAAAGGCGTTTTCGGGCAGCAGCAGGGCCCGCTGATCGATCTTGCGGTTCCGCTCATCGCAACCCAGACCGGAGCCCCGGAGCACATGGTCCGCCGACTACTGACGACCGACCCCGCGTCAGACACCTCACACCTACAGAGCACCCTCCACTCAGGAGAATGGGCGGCGTTCGACAGGGCCCTCGCCGGGGACGCGGATGTGACGAATCCCGACTTCGACGTGCAACCTTCCGACTACCCCCGAGAACCAGGCGTACTGCCGGCCCTGGCCGGATTGGTCTCGGACGTCGGGCTGGTCCGTCGACTGCGGGAGGTACGAGCCCTGCGAGGTTTCCGCCGCTACGAGCAGGAGGACTTCACCCGTGTGGACCTCGGAAGTATCGACGGCCTCAAGTGGTACCCGGCCATTGAACAGTTCGGAGAGGGAATCTTCCTACGCTTCGACGAAGAGGCCCTGCGCGCCTGGGAGGCCGAGCCCTCTGTTCAGCAGCGGATTCGGCACTGGATCGATCGAGGGGCGAAGCTTGCGAACCGGAGAGTTGTAATCTCCGATCTCCACCCCCGGTACGTGCTCCTGCACACCTTGGCGCACCTGTTGATGCGCCGATTGGAGTTCCAGAGCGGGTACTCCGCGTCGTCCCTGTCCGAACGTATATACGCCTCGAACGACGGCCCGGACCCCCAAGGCGGTCTCTTGATCTACACCAGCAGCGGGGATGCCCAGGGCACACTCGGCGGTCTTGTCCGTCTGGGCGAGGCACGGTACTTCTCCCGGCTGCTCCTGGGCGCGGTCGAAGACGCAGACCGGTGCTCCAATAACCCGGTGTGCGCCGAGAGCCGGGGACAAGGTATGAACAGCCTCAACCTAGCCGCCTGCCACGCATGCAGCCTCACCTCCGAGACCTCCTGCGAGCGCAACAACATATATTTGGATCGTAAGCTCCTTGTGGGCGATGAGTCCGTGCCGGGTTTCTTCCGCACCGTTCTGATGGATGCTCGGGCGAGCATCCCGGGGTGA	MSPKDTAGQDNTPQMRQLRLQETIYPFGVGAIVDIKSESFIGMDTATWNEKTCEPLSCPPLERALGVLQLRRPPTAGEFSRNPSFALPYRRFPKWRFCQDCTLMSDRVHHKNGASTNNCSRCSGPMVPMRFIAVCKAGGHIQDVDWRRWSHFQFSNDEQHNCRDFEHLELRTTPGAGEGLRSLRVICRSCDSERNLGSLGRETSLAEEGYKCWGLQPWEPHDTTKECTSELRVVQRGSTSVYQAETASAIDIPEVESATQAVRNSVLQNDMFKGVFGQQQGPLIDLAVPLIATQTGAPEHMVRRLLTTDPASDTSHLQSTLHSGEWAAFDRALAGDADVTNPDFDVQPSDYPREPGVLPALAGLVSDVGLVRRLREVRALRGFRRYEQEDFTRVDLGSIDGLKWYPAIEQFGEGIFLRFDEEALRAWEAEPSVQQRIRHWIDRGAKLANRRVVISDLHPRYVLLHTLAHLLMRRLEFQSGYSASSLSERIYASNDGPDPQGGLLIYTSSGDAQGTLGGLVRLGEARYFSRLLLGAVEDADRCSNNPVCAESRGQGMNSLNLAACHACSLTSETSCERNNIYLDRKLLVGDESVPGFFRTVLMDARASIPG				NA	NA	NA	NA	NA
D1-29_01192	3159			hypothetical protein	GTGCCCACAATGCATGAAGCCCTCGCACGCCAAAAATGCGTCGTCGAGCACCTCGAACAGCACTACCTCGGCCCGCTCGGCGGATCGGAGGAATTGCTCAGGAACAAACCAAATGCCACCTACCTCGTCGGAGTCCTCTACCCAGCCGGCATCGGCGCCGGACCCGAGGACGAGGAGGAGAGGGTACAACTTGCTGTGGAGGCGACCACGGCCGAGGACGGCACGGACGGCACCGAGGAACTTTCCATCGACATGGCGAACGCCTACCAGCCCTCCTCCAGCGCCCTGTCGTTCATCCACGATGGAGACTCCGTCGACATCGACCTGCGATATGCAACCTACACGGAGGAGAAGACCGACACCCACACCGCCTGGCGGCGCCACGGCCACCACCTCACGGGCATCCACTGGAAGCAAGGAATCGTCTCGGGGGTCCCAGGGGACGGGCGCGTTGCCGTGGACGTACGATGCCGACCCTTCGGCCAGAACAGTTCACTGGTCACTGTGGCCATCAGCAACACCCGCGTAGCCCCGAAGAACGACGAAGGAGTAGGACAGCTCCACACAGAGGACGCCCTTTACCAGGTCGGTATGACCGTGCGCTCCGTCGGGGGCCGTATTCTGCCCTACCGGTCGGTCGAAGACCTCCGACTCGATCCAGAACAAGAAGAACTGGCGGTACGTTACCGACACCGACAGGTCTTTGCAGTCGGCCACGGCACCTCGGTGCGCTGGGACCACGACGACACTGGCGGGTGCGCCTCCGTGTCCTTGGACCCATTACCGCGCTACACCGTCCCGACCGTCGAGGCCAAAAAGAGTACCGCCGACATCTTACGGCTGGGCCGCCTTACCTGGATCCAGGACGACACCGCGAACGTCCTAAGCGAACTTCGGACCTTCGTCGACGACTACCGACACTGGACCCAGGAACAACAGGACCAGGCACAAGGGCTCCCCGACCACCACCGTCCGGCGGCCGGTCGGATCACCGACCGACAGAGCGACGCCGTTGAGCGCATGCACGAAGGCATCACCCTGCTCGAGGAATCCTCAAGCGCCAGGGATGCCTTCCGTCTGGCCATGGCCGCTATGAACGAGCAGATGCTTCAATCGAATCGGTCGAAAGCCACCGGGGCTGAGGAGGACACACCGCGGCGCGAACCGACGTGGCGTCCGTTCCAGTTGGGCTTCATCCTCGTCGCCCTCACCAGCACGGCGGTTGCGGACCACCGGGACCGGGACCTCGTGGACCTGATCTGGTTCCCCACCGGTGGAGGCAAGACCGAGGCCTACCTCGGGTTGGCGGCCTTCGAGATCTTCCGGCGCCGCATCGAGCACGGGATCAGAGGGGGCGGTACAGCCGTCATCACCCGCTACACCCTGCGCCTGCTCACAACTCAACAATTCCAACGCGCCGCGACCCTCGTGTGCGCCATGGAACGCCTCCGGGTAACCGATCCACTTGCCCGTGGCATGGCACCGTTCACCATCGGCCTCTGGGTCGGTAACGCCACCACCCCCGGCACGCAGAAAGAGGCGATCAACCGCTTGGAGGCCACCAGGCGACGGGAAATCCCCGACAACCCCTTCCAGCTGACCGAATGCCCCTGGTGTGGGCACCGCATGATGCCTGCGACCAGATCCGAGAACGCCGAGGCCTACGGGGCTGCCCACTCGGCCGGAGACATCTGGCTCCGCTGCCCGGACCGAACCTGCCGCTTCCATGACCGGCTTCCCGTCGAGGTCGTCGACGAGAGGATCTACAAGTACCCGCCCACCATCTTGTTGGCGACCGTCGACAAGTTCGCGCGACTGCCCTTCAAGCAAGAGGCGGGGGTCCTCCTCGGCGCTGGCGCCAAGGCGAACGAACCGCCGTCGCTTATCCTCCAGGACGAGATGCATCTGCTCTCCGGCCCCCTGGGCACCACGGTCGCGATTTATGACGCTGCCGTCCTGGGCATCATCGGGGAAGTCGGCGGGCGCCCGAAAATCGTCGCCTCCACCGCGACAATCCGTTCCGCCGATGACCAGGTCAAGGGCCTCATGGCGCGGAAGGTCCAGCTGTTCCCGCCCTCAGGGCTCAACGAGGAAGACAGCTACTTCGCCCGCCCCACAGAGGACCCCAACGCCCCGGGCAGGATTTACATCGGGCTCATGCCTCAGGCCTTTACTCAATCTACCTCCGTGGTGCGTGCGATGGCCGCCATGCTCGAAGCACCCGCCCGGGCCGCACAAAGACCCCAAGATGTGAGGGGCGCCGACGCCTACTGGACGGCCGTGGCCTACCACAACAGCCTGCGCGAACTCGGGCGGACCGTCACCCTCATCCGCGACGACGTTAACAGTCTGCTCGCCACCCGACGGGGACCCGAAGGCCGTACACGTCAAATCCGTGGTGACGGGATGGTGGAGCTGACTAGCCGCGTAGATGCCGAGGACCTTCCCAAGGCCCTGCAACGACTCGGACGCAGTCTCGACGACGGTGACGCTGTGGACGTTGTCGCCTGCACGAACATGCTCTCGGTCGGTATCGACGTCCCACGGCTGGCCCTTATGCTCATGAACGGTCAACCCAAGACCACCTCGGAGTACATCCAGGCCACCAGTCGCGTCGGACGCGGCGAAGTCCCGGGTGTCATCGTCACGCTGTACCGTGCGACCCGCCCCCGCGATCGCTCCCACTACGAATCGTTTCTCGGCTACCACCAAGCGCTCTACCGGAGCGTGGAACCGACCAGTGTGACCCCATGGTCCGCCGCGTCCAGGCACCGATCCTTGGCAGCGGTCTTGGTGACCATGGTCAGGCACCTGAGCCCTTGGCGTGAGGACTCCCAGGCAGTGCTCTTCCGAGCCGATTCCAACGTGGTGCGTAACGTCCGGGAGACGATTCTGGAGGTCGTTGAACGTTCGGACCCCGACGAGTACCAGGCCACAGAAGAGCATCTCGACCGGTTAATCGACCAATGGCGCATCCGCACCTCACCGGATCCCGATACCGGAGTATCAATGCTGCGATACCAGCCCTTACGGGCACAACACGACGAGCCAGCTCTGATGCGCGCCTTCGACGAGGACCGAGAAGGATGGGCGGTCATGAACTCGATGCGTAGCGTCGATTTGAACATCAACATGAAGATCATCGGGGAAAAGGCATGA	MPTMHEALARQKCVVEHLEQHYLGPLGGSEELLRNKPNATYLVGVLYPAGIGAGPEDEEERVQLAVEATTAEDGTDGTEELSIDMANAYQPSSSALSFIHDGDSVDIDLRYATYTEEKTDTHTAWRRHGHHLTGIHWKQGIVSGVPGDGRVAVDVRCRPFGQNSSLVTVAISNTRVAPKNDEGVGQLHTEDALYQVGMTVRSVGGRILPYRSVEDLRLDPEQEELAVRYRHRQVFAVGHGTSVRWDHDDTGGCASVSLDPLPRYTVPTVEAKKSTADILRLGRLTWIQDDTANVLSELRTFVDDYRHWTQEQQDQAQGLPDHHRPAAGRITDRQSDAVERMHEGITLLEESSSARDAFRLAMAAMNEQMLQSNRSKATGAEEDTPRREPTWRPFQLGFILVALTSTAVADHRDRDLVDLIWFPTGGGKTEAYLGLAAFEIFRRRIEHGIRGGGTAVITRYTLRLLTTQQFQRAATLVCAMERLRVTDPLARGMAPFTIGLWVGNATTPGTQKEAINRLEATRRREIPDNPFQLTECPWCGHRMMPATRSENAEAYGAAHSAGDIWLRCPDRTCRFHDRLPVEVVDERIYKYPPTILLATVDKFARLPFKQEAGVLLGAGAKANEPPSLILQDEMHLLSGPLGTTVAIYDAAVLGIIGEVGGRPKIVASTATIRSADDQVKGLMARKVQLFPPSGLNEEDSYFARPTEDPNAPGRIYIGLMPQAFTQSTSVVRAMAAMLEAPARAAQRPQDVRGADAYWTAVAYHNSLRELGRTVTLIRDDVNSLLATRRGPEGRTRQIRGDGMVELTSRVDAEDLPKALQRLGRSLDDGDAVDVVACTNMLSVGIDVPRLALMLMNGQPKTTSEYIQATSRVGRGEVPGVIVTLYRATRPRDRSHYESFLGYHQALYRSVEPTSVTPWSAASRHRSLAAVLVTMVRHLSPWREDSQAVLFRADSNVVRNVRETILEVVERSDPDEYQATEEHLDRLIDQWRIRTSPDPDTGVSMLRYQPLRAQHDEPALMRAFDEDREGWAVMNSMRSVDLNINMKIIGEKA				NA	NA	NA	NA	NA
D1-29_01193	1611			hypothetical protein	ATGAGGTTGATCCCACCGACCGAGTACATCGACGCCCAAAGCCGCGCCGAACGCAAGGTCGCCGAACACCTTACGGCTATCCGCTCCGATGACGGCGTGGCCTACCACTCGGTCCACCTCCCAACGCACCGCAAACAGGTGATGGGCGAGGCGGACTTCGTGGTCCTGTGGAAGGGGGCGATCCTCGTCCTGGAGGTCAAAGGAGGGCGAATTGGGCGGACCGAGGATGGCGTCTGGTACTCCATGGACCGCCAAGGCACCCCCCATCCCCTACGACGCAGCCCCTGGGTGCAGGCCAAGGACGCCGCGTTCGCCCTCCTGGACATCCTCACCAAGCACACGGACGAGGGCGGGTGGCCGTTCGCCTACGCCGTGGTGACTCCCGACCAGAACCTGCCCCCGGACACGGAATGGGTCCCGCAACAACACATCGGATTGGACAGGATGACCCCGGCGGGACTGGAACGCAGCCTAGACGCGCTGGCCCGCTTGGCCCGCACACCACCGGATGACCCGGAGCACCCCAGACGGCAGGCTCTGCGACCAATGGGGAATCTCTCAAGGGTCATCACCCACCTGCGCCGAGAGGTCGACGCCATGCGCACCGTCCCGGACACCGAGATGCTCATCGACCAGAACATCGTCACCATGACCGACGAACAGGTCGACGCCATGCGGGCCTTCGAGCGCAACCGACGGGTCCTGGTCCTGGGCGGGGCCGGGACGGGCAAAACCGTCGTCGCGATCGAAGCGGCACGACGGGCAGTGGCAGACGGCAGCTCGGTGGCCTTCATCTGCGGCTCACCCGGCATCATCAAGTTCGCCTCGGAGCTGCTGGACGACAGTCCTGTCCAGGTGGTCGCCTTCGATGCAATCCCCGAGACCCCTATCTTCGACGTCGTCGTCGTCGACGAAGCCCAGGACCTACTGAATCTGGAGGACATGAGCCGGCTCTCCGAATCCCTGCGCGGCGGGTTGCAGGAGGGCCGGTGGTGGATTTTCCTGGACCCCAACAACCAGACCCACCTCAGCGGGGTCTTTGACGAAAGCGTGTACCAGGAGATCCAGGCCGGTGCGATCATCGTCGACCTGACCAGGAACGTCAGGAACGCCCGCACCGTCGTCACCTCGGTACAGTCCCATCTCGGCGTGGACCTGGGAAGCCCACGCATCGGAGAAGGACCGGATGCGTCGATCGTGCAGGCCCGCACCCCTGACGAGGCCCACCTTCTCCTGGACGGGCGCCTGACCACCCTCCGGGACAAAGGTGTCGCCCGGAGGAAGATCAGCATCATCAGCGCCGCCACCGACCCCTCAACGTCGATCCTTACCGTTGAGGGCCGTATGCCGACCACCTACACCGCTGGTAACCAGTCCTACGAGGTGGTCACTGCAGCCGACATCAAAGGCCTCGAACGCGAACACGTCATCGTCGTGGACGTCGAGGACCTAGACACAACCAGGGGTAGGGCCGGTTCCTACGTCGCGATGACCCGCCCCAGGTACTCCCTTTACGTCATCAGCTCCCCCGGCGCCTACCAGATCATGGGGCGGAACGCGCTCCAGTACCTCCAGCAACAAATAGGAAAGGGCGGTGCCCACAATGCATGA	MRLIPPTEYIDAQSRAERKVAEHLTAIRSDDGVAYHSVHLPTHRKQVMGEADFVVLWKGAILVLEVKGGRIGRTEDGVWYSMDRQGTPHPLRRSPWVQAKDAAFALLDILTKHTDEGGWPFAYAVVTPDQNLPPDTEWVPQQHIGLDRMTPAGLERSLDALARLARTPPDDPEHPRRQALRPMGNLSRVITHLRREVDAMRTVPDTEMLIDQNIVTMTDEQVDAMRAFERNRRVLVLGGAGTGKTVVAIEAARRAVADGSSVAFICGSPGIIKFASELLDDSPVQVVAFDAIPETPIFDVVVVDEAQDLLNLEDMSRLSESLRGGLQEGRWWIFLDPNNQTHLSGVFDESVYQEIQAGAIIVDLTRNVRNARTVVTSVQSHLGVDLGSPRIGEGPDASIVQARTPDEAHLLLDGRLTTLRDKGVARRKISIISAATDPSTSILTVEGRMPTTYTAGNQSYEVVTAADIKGLEREHVIVVDVEDLDTTRGRAGSYVAMTRPRYSLYVISSPGAYQIMGRNALQYLQQQIGKGGAHNA				NA	NA	NA	NA	NA
D1-29_01194	4722	rhlE_2		ATP-dependent RNA helicase RhlE	GTGTCGCACGATTTTTTTTGGAACGAACCAGATCAAGTGCTCCTTGAATTCCTGGAGACATGGCGCTCGGTGGTACCCCGGATCTACAGCGAAGATCCCAAGATGCTCGAGGAGCATGTGGGGCAAGAAAACTCTTTCCGCACAAGTGGCTATTCACGTCGCCAAGTCACTGAGCTGGTCCAAAACGCGGCCGACGCGATTCTTAGGTCGGGAAGAACGGGAAAAATCGAGCTTGTCCTAACCGACGGCTACCTCTACTGCGCAAATGACGGTCAGGAGTTCCAGCAGGCTGGCATCGATGCGATCACGCACGCGTACCTCAGCGACAAGAGGGGCGAAGAAATCGGTCGCTACGGCCTTGGCTTCAAGTCGGTCCTCGCCGTGACGGACAACCCGCAGGTCTTCAGTCGTTCGGTCAGCTTTCAATTCGGGGCACCGGAGGCTCGGGCGATCTTGGCTGGGGTTGGCGCGCCCGAGAAGAACCTGCCGATACTTCGCCTGCCCACTGCCCTGAATGCGGTGGAGGCGATCGACGACGACGTCATTTTGCAGGAGCTGACGGAATGGGCGAGCACGGTTGTGCGTCTTCCGATACAGCAGCACGTGGAGCTGGAGGAACAACTCCTCGGTTTCCAGACTCAGTTTCTGATTTTCACACCCCACGTCGAGGAATTGTCTATCAGCATAAGACGTGATGGTGCCGACCAGGATGTCCAGCACTTGTGCCGATCATCAGGGCAATCGGTTTATGAACTGACGGGGCCCCGACTCGGTACCCAGAAATGGGCTATTTTCAAGAGAGAGCACCAACCGTCATTGGCGGCACGACGAGAAGTCGACGATGCAATCGCACGGAAATCGATTCTCGTCACCTGCGCTATGCCCCTGGACGCGCAGGGCAAAGAAGGCGAGTTCTGGGCCAACTTCCCACTCTCCGAACGGACCTCCGCCGTAGGGATCTTCAACGCCCCTTGGGCGCTCAGTGAGGATCGCAGTCACATTCTGACCGAGAAGAAGTACAACGCCGAGATTTTCGAGACGCTGGCTCAACTGTTCGTCGATTCCCTGCCGAACCTCCGGACACAGGAACAACCCGCGGGGCATCTTCGCTACCTCCCCAGTCGACCTCAGGAATCCTACTCCCCAGCGGATAAAGCCCTGATCTCACACATCCACCGCAAGGCTTCGGGAGCGGCTCTTATCCCCGACTCCATGGGCCGGCTACGCCACGGATCCGAAATCATCGCCTTGGACTATGCTGTCGTTCTCCCAGCGAGGGCAATGGCCGAGTGGGCTGCTGCTCCTCATACTCCTGAGAATGTGCCGCACGTGTCGTGTTATCAAGATGAGAGAAGCGGGGCTATCCGTGTACGCCTGCGGGACATTCATCGTAGAGCGTTCGCTGATGCCCGGGCCCTTCTGCAAAGAGATCTTCCCGCGTCCAGCAATGAGCTCGACGCGTCAAAGTGGTTGAGCATGCTCGGCGACGTCGACGATGTGAGGTATTCGGGGACGGCGCTGGAGATCGTTTCGGGTATTGGCTCGGACACCATTCGTGGAATCGTGGCCTCCGCTCGGATCGTGCCCACGGACAGAGGTCGGCGGGTTGCTCTCAAGGAGCATGGACAGGTTCATCTACCTCCTGAAGGCGGCGCCGAGGTGTCGGGGTATGAACTGGTGGTGGATGACATCGTCGCGAGTGCGGTCTGTCGTAGGGTCCTAGGGCAGTTCGGGTTCAAGACGTTGGATGCGGAGCTCGTTTTCGCGTCGACGCTCTCAACTATGGGGCTTGAGTCGACGGATAGTCAGTGGGAGGACTTGTGGGACCTATCGCTGAATCTGGAGCCGCGCCGGTTGGTGCTGCAGTTGGAGCAGTGGCGGCGTGAGGGCAACATCGTCAAGGTCAGGACGAAGGCTTCGACCTGGCGTGATAGTGAGGAAGTCTTCGCGCTTCAAAGCCCTGCCGTAAACCTTCCCTGGCCGGATCGTGTACTGTCGACTAATTTCGCCACCGAGGACGTCATCAAGGTCCTGGGGATTGTGACGGGTTTCTCGCCCCGGTACCCGGTGATCGAGGAACCCGAGTTCGAGCAGTATCGTGCCTGGGCGGTGGACGAGGTTCGGAAGGCGCATGTCGAGGACAGGGATTCAGCGCCGCAGGAGTGGTATTTCGCGGAGGAACGAGGCGCAGGGCCCATAGGTCTGCTTCATAACCTGTCCGACCTTGGCTCCGGCCTGACCGATGACCTCGTGAAGCTCACCGAAGCCCTGCTCCGGGTGAATGCGACCCGAGAGTGGACCCTGCACAGCCCTGATGGGTCAGAGACCTTCTCAGTGACAGCCCCGCACCTGTGGGCTGTGCGGGGGTGGGGAGTGGCGGAAACCTTGCTCGGGGCCGTCGTACCCGCAGCACGCGTGGTGTCACCTGTCCTGCAAACGTTGTTCCCCTGGGTTCCTCTACCCAAGAACTCACACTTCGGGATCCTGCCGTTGCCCGAATCCATTGAGGACGTCGACATCGACATCCTCGTGGACGGTATGAGAGCAGGCCGGGGCATGCAGGCGACTGGTGCACTGACCACTTCTCTTTTGACCTTCCTGTCCGCGGTCCTACCGAGGATCCGCGGAGAACAGCAGTGGACAGGTGAAGTCCCGGCCGTACGGGGCCAAGTGATCGATTTGGTCCCGGCACGGCAGATCTTCATTGCATCCGATCAAGAGCAGGTCAACGTCCTGCGGCGATCGAAGAACCCCTACCTCTTCGTTGAAGACGAGGCCCTCCGCGACGTCCTCTTCGAGCACGCGGACTTTCAGGATGCCGCAAGTGCCATCCGGCTCGAGGTAATCGCGCAGCAGCCGGCCGAGGCGGTGTTGCTCACGGACTGTGTGCCGACGTTGCAGGGTTTGTTGGACCGGAAGGATCGGCGGCTCACGATCACGGAGTGCGCTGGGATCGTGGCGCGTCAAATGACGCCGACCGGTGCGCAGGAGCAGCTCCTGGGGCGGGTGTTTCATGACGGGACGATTTACGTGACAGGTGATCCTTCCGACCGGAGGGGTGTACATGACCTGTTGACCTGGATCAATCAGGAAGTCGGTTTGGGGCTCAGTGCCGCGGATATCGACGGTGTGGTGCAAGCGCTCGCTGCTGCTGATGCGAATGAGGTGCGAGAACGGTGTCGTGCCGCGGTGTCGAACGAGGACCGGTTGAGGGTGTTGGCGTCGCCGCAGCAGCTGGATGCGAAGCTCCCGGATGGTCTGACGGGGACCCTCGTTGCGATGGGGACCGACGTGCGAGCACAGGACATGGCGCGGCTGTTCCTCGATTCGTACGGTACCGACAGTTTGAGCTATATCGCCGATGAGTTGAGGGCCTTGGGGTTGACGCCTCCTGAGAAGTGGGGTGGGTTGGGGCCAGCGCGTCGGTTCGTCACGGACTTGGGGTTCACCCCGGATTTCGCGGGGACGTCCAAACCATCCCGACCAGCGACGGAGACCGTAATGGGTAAGCCGGGCCTAGGTGCGTTGCACGATTATCAGAAAGAAGCTTTGCAGCAGCTTCGGTTCTGTCTGCGATCGAATCCCGGCCACGCCGATAAGGCTTTGTTAGAGTTGCCGACAGGTGCGGGGAAGACCCGGGTGGCTGTGGAGTCGTTGGTCATGGCGTTCTTGAACAACGATTTTGCGGCTGTCGGTCCTGTGTTGTGGATCGCTCAGTCCGAGGAGCTGTGTGAGCAGGCGATCACGACGTGGAGCGAGGTGTGGCGGGAACTCTCCGACGAGAGGTCGTTGAGCATTAACCGGTTCTTCGGGACGCACCGGCCTCAGGCACCCGAGTTGGAGTTGAGCGTGGTCGTGGCGACCGACGCGATGCTTTACGAGCACATCGACGATGATTCTTACGACTGGATCTATGCTCCTGTCGCCGTGATCGTCGACGAGGCACATCGGGCGGCGGACAACAAAACGTACAGGAGGCTCTTCCAACGTCTGGGGGTGGATCTCGGGAACCGCGAGCGCCCTCTGATCGGCCTGTCGGCCACTCCTTACCGAGGAAGGAACGCCGAGGCGACTGCTTTGCTGGCCAGACGGTTCGGCAACAACCTCGTGCAGACGTTGGGCCCCGATCCGATCAAGGAACTCCAGGATCGCGAGGTTTTGGCACGAATCGATCATCAGGTCCTTCCGGGTGCCCGGCTGACCCTTGATGATTCGGAGAGGAATCGCAACAACCTTTCCCAGGACACGTTGGACAAGGTGGGTGCGGACCGGGAGCGGACCAAGGGCATCGTCAAGCACATCCTGGCATTACCCGAGGACTGGCAGGTCCTGGTGTTCATGCCCTCGGTGCTCTCGGCCCAAGTCCTGGCAACGATCTTGAAGAGAGAGGGCGTCCAGGCCGCGTCGGTGAGCGGCCGGAGCTCACGTGGTGAACGCTCGAAGGTAATCTCCGATTTCAAGCGCGGGTCCCTCCAGGTCCTGGTCAACTGTGACCTGTTGACGCAAGGCTTTGACGCACCGCAGATCCGAGCCCTCTACGTCGCCCGACCGACGTTGAGCGAGAGCCAGTACGTGCAGATGGTCGGTCGTGGACTGCGCGGGCCCAAAAACCGTGGATCCGAACGATGCCTGGTGGTGAACCTCGAGGACACCATCGAGAACGTCGACGTGGACTTGGCATACCGAGGATTCACTCAGTACTGGGGAGTTGAGGTCTCATGA	MSHDFFWNEPDQVLLEFLETWRSVVPRIYSEDPKMLEEHVGQENSFRTSGYSRRQVTELVQNAADAILRSGRTGKIELVLTDGYLYCANDGQEFQQAGIDAITHAYLSDKRGEEIGRYGLGFKSVLAVTDNPQVFSRSVSFQFGAPEARAILAGVGAPEKNLPILRLPTALNAVEAIDDDVILQELTEWASTVVRLPIQQHVELEEQLLGFQTQFLIFTPHVEELSISIRRDGADQDVQHLCRSSGQSVYELTGPRLGTQKWAIFKREHQPSLAARREVDDAIARKSILVTCAMPLDAQGKEGEFWANFPLSERTSAVGIFNAPWALSEDRSHILTEKKYNAEIFETLAQLFVDSLPNLRTQEQPAGHLRYLPSRPQESYSPADKALISHIHRKASGAALIPDSMGRLRHGSEIIALDYAVVLPARAMAEWAAAPHTPENVPHVSCYQDERSGAIRVRLRDIHRRAFADARALLQRDLPASSNELDASKWLSMLGDVDDVRYSGTALEIVSGIGSDTIRGIVASARIVPTDRGRRVALKEHGQVHLPPEGGAEVSGYELVVDDIVASAVCRRVLGQFGFKTLDAELVFASTLSTMGLESTDSQWEDLWDLSLNLEPRRLVLQLEQWRREGNIVKVRTKASTWRDSEEVFALQSPAVNLPWPDRVLSTNFATEDVIKVLGIVTGFSPRYPVIEEPEFEQYRAWAVDEVRKAHVEDRDSAPQEWYFAEERGAGPIGLLHNLSDLGSGLTDDLVKLTEALLRVNATREWTLHSPDGSETFSVTAPHLWAVRGWGVAETLLGAVVPAARVVSPVLQTLFPWVPLPKNSHFGILPLPESIEDVDIDILVDGMRAGRGMQATGALTTSLLTFLSAVLPRIRGEQQWTGEVPAVRGQVIDLVPARQIFIASDQEQVNVLRRSKNPYLFVEDEALRDVLFEHADFQDAASAIRLEVIAQQPAEAVLLTDCVPTLQGLLDRKDRRLTITECAGIVARQMTPTGAQEQLLGRVFHDGTIYVTGDPSDRRGVHDLLTWINQEVGLGLSAADIDGVVQALAAADANEVRERCRAAVSNEDRLRVLASPQQLDAKLPDGLTGTLVAMGTDVRAQDMARLFLDSYGTDSLSYIADELRALGLTPPEKWGGLGPARRFVTDLGFTPDFAGTSKPSRPATETVMGKPGLGALHDYQKEALQQLRFCLRSNPGHADKALLELPTGAGKTRVAVESLVMAFLNNDFAAVGPVLWIAQSEELCEQAITTWSEVWRELSDERSLSINRFFGTHRPQAPELELSVVVATDAMLYEHIDDDSYDWIYAPVAVIVDEAHRAADNKTYRRLFQRLGVDLGNRERPLIGLSATPYRGRNAEATALLARRFGNNLVQTLGPDPIKELQDREVLARIDHQVLPGARLTLDDSERNRNNLSQDTLDKVGADRERTKGIVKHILALPEDWQVLVFMPSVLSAQVLATILKREGVQAASVSGRSSRGERSKVISDFKRGSLQVLVNCDLLTQGFDAPQIRALYVARPTLSESQYVQMVGRGLRGPKNRGSERCLVVNLEDTIENVDVDLAYRGFTQYWGVEVS				NA	NA	NA	NA	NA
D1-29_01195	1116			hypothetical protein	ATGACCTTCGTGCAATCGGATCCGACTCCCTCTGACGCTCATATGGTGGATCTCTTCGCCGGTCCGGGTGGACTAGACGTCGCTGCGCGCTGGTTGGGTTTGTCCGTGGCTGGTATCGAGTGGGACGAGAATGCCTGCGCAACCAGGCGGACGGCCGGACTGGGAACGGTGCAAGGTGATGTCAGGGAGCATGGGCCGTCCGAGTTCCCCAATGCGACTATCCTCGCCGGGGGCCCTCCGTGTCAGACGTACACAGTGGCCGGAGCCGGCGCTGGCCGTAAAGCGTTGGATCAGGTCCTGTCTTTCCTTACCCGTATGGCCGACGGGGACGACGTCACGACCGAATTAGGTGCGCTGGACGATGAAAGAACCGGGCTGGTCCTGCAGCCGCTGCGATGGGCACTGCAGGCCCACCAAGCGGGTAACGCCTACGAGGTGATCGTCTTGGAGCAGGTGCCGGCCGTCCTGCCAGTCTGGGAGGCTATGGCCACGGTCTTGGAACCCCTGGGATATCAGACGGTTACCGGCATCCTCCATGCCGAAGAGTACGGGGTTCCGCAGACCCGCCGCCGCGCGATCCTGATCGCGAACCGGTACCGGACGCCCGCTCTTCCTGTCCCAACGCACCAAAAATTTAGAAGAAAAGCGGTAAAGGAATCCACGAACCAATCGCCGTTGCTGCCGTGCCGCAGCATGGGCGAAACGCTGGGCCGACCACAGCCCTTCGAACTGGTCTCCAACTATGGGACTGGGGGCGATCCCAAGGCCCGCGGCCGGAGAACTTCTAAAGAACCCGCGTTTACCGTTACTGGGAAAGTCTCCCGAAATCGCCTGTTTTCCGATGAAGGTGAACTTGATCGCCTTAAGTTGTCAGAGGCTGGCCGGCTTCAAACTTTCCCAGCTGACTACCCGTGGTCCGGTAAAGACATCTCCCAACAGATTGGTAATGCCATTCCACCCCGGTTGGCCGCTCACGTCCTTGCGGCAGCGCTAGGTCGAGAACTCCCTGCAGATTTCCTCGACTCGATGACGAGAACAAAATGGACGGACATTGACGATGAGGCCATAGCTAGATCGCATCTCATTGCGGATGCCTACGATGCAGTGATGGTGTGA	MTFVQSDPTPSDAHMVDLFAGPGGLDVAARWLGLSVAGIEWDENACATRRTAGLGTVQGDVREHGPSEFPNATILAGGPPCQTYTVAGAGAGRKALDQVLSFLTRMADGDDVTTELGALDDERTGLVLQPLRWALQAHQAGNAYEVIVLEQVPAVLPVWEAMATVLEPLGYQTVTGILHAEEYGVPQTRRRAILIANRYRTPALPVPTHQKFRRKAVKESTNQSPLLPCRSMGETLGRPQPFELVSNYGTGGDPKARGRRTSKEPAFTVTGKVSRNRLFSDEGELDRLKLSEAGRLQTFPADYPWSGKDISQQIGNAIPPRLAAHVLAAALGRELPADFLDSMTRTKWTDIDDEAIARSHLIADAYDAVMV	PGPT0020015_4521	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
D1-29_01196	2793			hypothetical protein	ATGCGCGCACCTAAGAACGAAGCCACTGGCACCTCGGGCCAATCATTCGTAAAAGGTGAATTCGAAGAGTTGGGGTGGGGTGCCGTCCCCAACCCAGAGCACGACCTCGGTACAGACCTGTGGCTGATGGCTAGAGACGAGAACCGATTCGACTTGGGTGCACTGGTCGGTGCTCAAGTCAAGACCGGAGACTCCTACTTCAAGAGCGCGAAGACGGACGAAGGATCCGGCGAGGTCGTTGGCTGGTGGTATGCGGAGGAGGACGACAGTCACTTTGACTATTGGAGTGAGCACACCACCCCGCACATCCTGGTGCTGCGTGACAAGAAGTCGAAGACCTCGCACTGGGTCCACGTGACCTCGGATGCGATTCAGTCTACGGGCAAAGGAAACAAGATCCTCGTTCCTGCTTCGCAGACGGTCGATGAAAGCAGTCGGGACGCTCTTACCGCCGTAGCAACAAGTCCCTCCAAGGCGGTCAGCCTAGATGGCAGCGCATGGGGATCCAACTGGAATGTGCCGCAGTCTGACCGACTGAGGTACGCGCTCATGGCGCCCAGATTGGTTGCACCGCATCCCAACAAGGGCCAAGTGCTCCCGGATGCAACAGAAGCCTTGGCGATGCTGATGCAGGGCCGTTTCAACGAATTGCGGGACGTTGCGTCAACTACCGCGCGCGAAGCAGCCGAAAGTGTCTCTGATGCCAAGTCCTGGCTCTGGGACCTGTTCGATGCCATCTGGAGTTGGGCTGTATCGGGCGACCTGTCCAACCTCGAAGCTCTGCCCGAAACAGCGAATGAGCACTACGTCGTGGCGGGAGCAGTCGCGAGAGCAACGGCCCTGATTGAATACGGGCGACCAATAGACGCTCTCGCTGCCGTGCGTGCAGTCGAGTCTCGAGGAGGTCTGGGCACGACCGATATTGCATGGCTCAAGAGCCATGAGGCGCGCTGCCTGGTCGAGCTGGGCCATTTGGAAGAGGCTCGAGACCTCGCTCTTGAAGTCCAAAAACTTCGAGCCATAGCTCCCAGCGATCCCACCGCTGGAGCGCTTGTCGCCGTAACCAGCACGCTCGTATTCGACATGAGTGGGTTTGGCATGCGCGATATCGGCGAACTCATACAGTCCATTGATACCTCAACCCGCTGGTGGCGTTCACAGACCATAGCGAGTGGGCTTGAGAAGCATTTCGATGGACAGTTCAAGACATGGGGTCGTGATTCGAGCGTCACCTGGGCTGCTGCCGATACAGTTTGGACGAGCCTTCGCTCGGCGACGCTCCTGGCCGGTTTCAGTGCGGATCACGGTGGCTGGCGAAACGCCATGTCGTTGCTGGCGCGTCGAGAACTAATGAAGGCGTGCGCGACGGACACCACTATCGTGTTGGAGTCGTTGACGGACTTGTTCAGGGCGGGTGCCAAGAAAGAGTTGGTGCTGGCAGTTCGCAGGCTGAGCGACGACGGTCCTGTTGAGCCGCTCGTCACCCTCATGGGCCGACTCGAACTGGAGTTAGCTCCGAGGTCTTGTCTTGCTTCGGCGCTTGCATTCGTGCGTTACGCAGGAGACTTCGCCGACGTCGCGGACGCCGACCGACACGCAACCTGGCTGCTCTCGTCACTTGCGAATCCTGACGAGCTACGTCAGCGGCTGAAGCCGACCTTCCTGATCGAAACTGACTTGCTTCAGTCTCTTGGTGGGTTGATGCGAAGCATGTCTCCGACGATGAAGCGTCGGGTCATGGACCACCTAATTAGGCTCCCGGTCATCGAAGACCAGAGTCTGGCAAGCGGTTACGGACGCATAGTTGCTCTGGTAGGTGACGATCAATGGTCATCAGAAGATCTCAGGCAACTATTTGCACGAACCAACGACAACTGGGAACTTCAGGACGACATTGATGGCGTCCTCGCAACCAACAGGCCGGACTTCCGGACTGGCCTTCTTACGAAGATCAAGCAGGGTGATCTGACTGCCCTAGGAAACTTCGGCAGGGTCACTGACCTTCCCGAAGACGCCGCTGAGGCGGCGATTTCGCGTCTGGTGACTTCCATCGACAATCAGGTGAAGCAAGCTCAGGGCGGGATGCATAGCTTAGGCGGACCTGATCTCGGACAGGCGCTCGTTGTCCTGAATGCCTGGCACCGCGATGTAGCACGGTGGGACTCCGTCGAGGCGTTGCTGACTGAGCCTAACGCCCACCAGAGCCACATTCTGGGAACCGTAGATTTTCTCGGCAGGGTTGCAAAGCAGGTTCCCGAGGAGGAGAAGCAGCGCCTTAGGCCCATTCTCGAAGCCATCACGCAGAGGCCCGCTTATGAACGCGATATGGCCTTCATTTCGACCAGCTCGAGCCCGCAATCAGCTGCCAAGCTTGCGCTTCTTCGCCTCTTTCCGGAGGACGTTACAGATACCACAATGCAGGGCTTGCTTGCAGGATCATCCAGCGATAGGGAGGTGGCTGCCACCATCGCAGGCGAGAGGTCGGCGACGGGTGATTGCAATCTACTTATCTCCCTGGCAACTGACCCAGACCTTAAGGTCCGCGTCGCGGCGATTGTGAGCCTGACGAAGCGGCTTGGGAGCGACGATGTTCCCTCCAAAACATCAGCGATGATCTGCGAACTTGTTGGCCGCGGAGGACCGCTCACGGCCAAGCAGGTGAGCGGGTACCTGCTCGAAACGCCAGAGAATGAGGCGCGCAGCGTCTTGTTGGGGTCACTCGCCGACCACGCCTCGTCTCTTGTGCGGGCCCGGGTTGCGTCCTCCAGGGCGATCGGTGGGTTGCTCAACTAA	MRAPKNEATGTSGQSFVKGEFEELGWGAVPNPEHDLGTDLWLMARDENRFDLGALVGAQVKTGDSYFKSAKTDEGSGEVVGWWYAEEDDSHFDYWSEHTTPHILVLRDKKSKTSHWVHVTSDAIQSTGKGNKILVPASQTVDESSRDALTAVATSPSKAVSLDGSAWGSNWNVPQSDRLRYALMAPRLVAPHPNKGQVLPDATEALAMLMQGRFNELRDVASTTAREAAESVSDAKSWLWDLFDAIWSWAVSGDLSNLEALPETANEHYVVAGAVARATALIEYGRPIDALAAVRAVESRGGLGTTDIAWLKSHEARCLVELGHLEEARDLALEVQKLRAIAPSDPTAGALVAVTSTLVFDMSGFGMRDIGELIQSIDTSTRWWRSQTIASGLEKHFDGQFKTWGRDSSVTWAAADTVWTSLRSATLLAGFSADHGGWRNAMSLLARRELMKACATDTTIVLESLTDLFRAGAKKELVLAVRRLSDDGPVEPLVTLMGRLELELAPRSCLASALAFVRYAGDFADVADADRHATWLLSSLANPDELRQRLKPTFLIETDLLQSLGGLMRSMSPTMKRRVMDHLIRLPVIEDQSLASGYGRIVALVGDDQWSSEDLRQLFARTNDNWELQDDIDGVLATNRPDFRTGLLTKIKQGDLTALGNFGRVTDLPEDAAEAAISRLVTSIDNQVKQAQGGMHSLGGPDLGQALVVLNAWHRDVARWDSVEALLTEPNAHQSHILGTVDFLGRVAKQVPEEEKQRLRPILEAITQRPAYERDMAFISTSSSPQSAAKLALLRLFPEDVTDTTMQGLLAGSSSDREVAATIAGERSATGDCNLLISLATDPDLKVRVAAIVSLTKRLGSDDVPSKTSAMICELVGRGGPLTAKQVSGYLLETPENEARSVLLGSLADHASSLVRARVASSRAIGGLLN				NA	NA	NA	NA	NA
D1-29_01197	1269			hypothetical protein	ATGAACGCTCCCGCATCTAGCTCAGCACGGAAAGACGGAGTCGTGTACCTGACGCTCGAGGATGAAACAGGTACGCTCGCAATCTCGCCCGAGGACGCAGACCCGGATCAAACCTACTCGCATAACCTCTTCATTGGTACCGAAGGATCGATTGAAAGGATCAAACACGGGCCTCTTGTCATCGCCTATAAGGACCTCGCACGGGTCACGCTTCCAAGCCTCCGTGATGCTCTAAAAGTAAACCGATGCTGCCAGCGTTCTCCCGAAATTGTCTGCGTTGACAAGGGGGACGGCCCGATTAACCACAACCTTCTGAACCTCGACGACGTTCATCTTGAGGTGGACGATTCGCAGGTCGTTGCCATTGTTACGCATAGCCACGAGTCTCAGCCGAAGATGTCAGAGGCCGAGTACGCCGAGTCACTGAGAGTCGTCATGGAACGCTATGGCTGCAGCGTCGCCGGCGTTCGATACCTGACCGCCGACGGAGGTACCTTCGATGGACTTGGATTCGACTACTCAGGACTCGGACTAGACCTGGAAGTAGAAGCCAAAGCAGCCGCCGACAATGCAGAGATTATCCGCAACATGGTGCATGTCGTTGAAGTCAGCCTCATCACCGATGACGATGATGGAGCGACCAAACTCATTGACGCCGGGAGAGCCCTTGCCGCCTACCTCGAAGCGCATAAAGGCGGATCATTAACCGCCGGAACGATTGTTGACTTGCTGCGTGGGGGTCATAACAAGCTACTGCTAGGGCACAAGGAGAGCGCGTTCCTCGACGTCAAATCACAGCAATACAACGTGGGTGTACCAGGCAAGCCTGGTGAACAGCAGAAAATCGAACTGGCTCAGGACGTGGCACGTTTTGCTAACGGCGATCAGGACGCCGTTCTCGTGTTGGGCTACGAAGAGGGCAAGTCCGGACAAGACTCCGTCATCCAGAACATCAAAGAAATCAAGCTCAAAGATTTCGATCCAGCGACTTACGTGAACATCCTCGACGCCCGGATTGTGCCAGCGGTTACAGGCCTTACTGTGGACAGCGTAGAGACTAGTCCCGGCAAGGGAATTATTTACATATTTGTTCCGGCTCAGCCTGCCGAGATGCAGCCCTACCTAGTGCACGGCGTTGTGGCCGAAGGAAAAGTTGAGGGCGCCTTCTTCAGCATTGTGCAAAGGAGAGGCGAGGGATCTATCACCATTACAGCGAGCCAGATCCATGGCTATCTTGTGGCGGGTAAGGCGTTCTTGAGAGGTAAGTAA	MNAPASSSARKDGVVYLTLEDETGTLAISPEDADPDQTYSHNLFIGTEGSIERIKHGPLVIAYKDLARVTLPSLRDALKVNRCCQRSPEIVCVDKGDGPINHNLLNLDDVHLEVDDSQVVAIVTHSHESQPKMSEAEYAESLRVVMERYGCSVAGVRYLTADGGTFDGLGFDYSGLGLDLEVEAKAAADNAEIIRNMVHVVEVSLITDDDDGATKLIDAGRALAAYLEAHKGGSLTAGTIVDLLRGGHNKLLLGHKESAFLDVKSQQYNVGVPGKPGEQQKIELAQDVARFANGDQDAVLVLGYEEGKSGQDSVIQNIKEIKLKDFDPATYVNILDARIVPAVTGLTVDSVETSPGKGIIYIFVPAQPAEMQPYLVHGVVAEGKVEGAFFSIVQRRGEGSITITASQIHGYLVAGKAFLRGK				NA	NA	NA	NA	NA
D1-29_01198	192			hypothetical protein	TTGCGTGGCCATTGCAATGTTTCGCTGTGGCTCCACCGCGGCGGCAGCGGAGAGAAGTTGCTGGCCGATGCCGCGGCGCTGGGCTTCTGGGACGACGGCCACGACCTGCACAAGGAGCGGGGAAGGTTCAGGGCCAAGCGAGGCAAGGACGACGCAGACATGGACTCGTTCGATCTCTGCGATGAGGACTGA	MRGHCNVSLWLHRGGSGEKLLADAAALGFWDDGHDLHKERGRFRAKRGKDDADMDSFDLCDED				NA	NA	NA	NA	NA
D1-29_01199	1029			hypothetical protein	ATGGACCCTCCGATTGATAAAGAGGCGCAGAAGACGGGACGCATTGCCGCCGACCTCGTCTCGGCTTGGCTGCAGAAAAACGACTTAGTAGTACGGCGCGAAGAACAGGGAACTGACTTCGGTGTTGACCTGGAACTGGAGCTGCACGCGGGGAATTCCGTATCGGGGCTTCTTGTAAAGTGTCAGGTGAAAGGCACGAAAGGCCCAGCCTTCGCAAGTCGCGAGACCGAGCTCGTAGGCATCAAAAGTTCAACACAGAATTATTGGGCGACCCTGCCACTAAATGTTATGTGTGTGCTCTGCGATACTTCCAGCGGGGCCATTTATTGGCAACCTGCGTCAGCAACCCTCGTGGATACCGCAAACACGAGTCTGCGGTTCTCGAAATCAATGCGGGCAGATCAGAATCCGACGGCGTTTCTTGATGCGCTTGCTCGGCTGGCGGAGACCCCGACAAGCTCGATGGTTCTCTCTCTGGTCCCAGCGTGCATGAGGTTGTTTGCCGAGCTTTCGCTTGGGGCAGACAGCGTGTATGACCGAGGATTCGAAGCCACGGCTGACATCGACGGGTCCATTCGTGTCTTTTACGAGCACTTGGAGCGACTTTGTATCTTTACAGGTGTGGAGGAGCTCCCGGCCCGATGGCTTCTGTGGGAACGACGTAACTCAGTGATTCAGACAGCGCTTGAATCCAACGACTCTGGACTGCTGGACGGCAATGTAGTCGGCGAGATCATCAGATACGCAACACCCTTCTACGAGGCGGCACTGAGTCGCGTAAAAGGCTGCGTAGACCCGTCGAACATTGAGGAATCCAACCCTGGCCTTGCGGATATGCTGCTGTCGGGCACCCTCGACGCAGAAACAGTCCGTGAAGCGTTCCAAAGACTGGACGCAGGAGGACAGTTCTATCTCGGATCAAACATGCGTTATTCGTTTGGAATGGAGCCAGCACACGAGGACATCGTGTTCGGCAACGAGTTGAGGCGTCGTGGAGTCGCCGCTTACAACGGGTTGTCTGCTTCGTAG	MDPPIDKEAQKTGRIAADLVSAWLQKNDLVVRREEQGTDFGVDLELELHAGNSVSGLLVKCQVKGTKGPAFASRETELVGIKSSTQNYWATLPLNVMCVLCDTSSGAIYWQPASATLVDTANTSLRFSKSMRADQNPTAFLDALARLAETPTSSMVLSLVPACMRLFAELSLGADSVYDRGFEATADIDGSIRVFYEHLERLCIFTGVEELPARWLLWERRNSVIQTALESNDSGLLDGNVVGEIIRYATPFYEAALSRVKGCVDPSNIEESNPGLADMLLSGTLDAETVREAFQRLDAGGQFYLGSNMRYSFGMEPAHEDIVFGNELRRRGVAAYNGLSAS				NA	NA	NA	NA	NA
D1-29_01200	255			hypothetical protein	GTGGTCTGCTTCGCAGATGCCGTCCCTGGCGGTGCCGGCGTCGGTACCCAGGAACACCGGGACGAAGCTCATCCGCTCCAGCGCCGCTTCGGCCAACGGGCCCACGAAACTCTGGGAGAGGCTCCGCAGCCGGCCACCCAGGCACTCCACCTCGATGCCCTCGGAATCGGCCAGCTCCTGCGCCGGACCTCAGAAAAATCCTCCTGCGCAGCCCGCCTGAACACGATGCTCATCGGGCTCCCACAGTCGCAGTAG	MVCFADAVPGGAGVGTQEHRDEAHPLQRRFGQRAHETLGEAPQPATQALHLDALGIGQLLRRTSEKSSCAARLNTMLIGLPQSQ				NA	NA	NA	NA	NA
D1-29_01201	867	rbsK_2	COG0524	Ribokinase	ATGAGCACTCGACCTCCTGCCGTCACCGTCATCGGCAGCATCAACCTGGACCTGATCGCCACCGCTGAACGGCTTCCCACTGCGGGCGAAACCATCGGCGGCGCCGTCCTGTCCGAACAGCCCGGCGGCAAGGGCGCCAACCAGGCTGCGGCTGCAGCGCGGCTGGGCGGCAGTGCCCGGATGGTCGGCGCCGTGGGCAGCGACGCGCAGGGGCAGCGGATGCTTGACGCGCTGGCTGGCGCTGGGGTGGACACCACGGACGTTGCCGTCCTGTCGGAGCCGACTGGGACGGCGCTGATCGTGGTGGACCGCGACGGCGAGAACCAGATCGTTGTGTGCCCGGGCGCCAACTCGCACCTGTCGCTGGAGGGGGTGGAGTTCGGGCCCGAGGAGACGGTGCTATGCCAGCTGGAGGTCGGGCTGCCCGTTGTGCTGGGGGCCGCCCGCCGGCATACCGGGTACTTTGTGCTGAACGCCGCGCCGGCCATGGACCTGCCGGGGGAACTGCTGGAGCGCTGCGACTTGGTGATCGTCAATGAGAGCGAATACGCCTTGATCCCCGCACTCGCGCAGGCGAAGCAGGTGGCCGTGACGTACGGCGGGGATGGCTCGGCAATGTTCGAGTATGGCCGGAAGGTGGCCGCGGCGCCGTCGGCTGCGGTGACGGTGGTGAACACCGTGGGCGCCGGGGACGCGTTCTGCGCCGCGCTGGTCCTGGCGCTCCGGAACGGGATGGACTACGGCCGGGCGCTTGCGGTGGCTAACGCGGTGGGCGGGGACGCTGTGGGCGACCCGTCGTCGCAGCCGGATTTGGCACAGCTGGGCCATTACGTGGAGCGGACTACTGCGACTGTGGGAGCCCGATGA	MSTRPPAVTVIGSINLDLIATAERLPTAGETIGGAVLSEQPGGKGANQAAAAARLGGSARMVGAVGSDAQGQRMLDALAGAGVDTTDVAVLSEPTGTALIVVDRDGENQIVVCPGANSHLSLEGVEFGPEETVLCQLEVGLPVVLGAARRHTGYFVLNAAPAMDLPGELLERCDLVIVNESEYALIPALAQAKQVAVTYGGDGSAMFEYGRKVAAAPSAAVTVVNTVGAGDAFCAALVLALRNGMDYGRALAVANAVGGDAVGDPSSQPDLAQLGHYVERTTATVGAR	PGPT0017405_4777	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
D1-29_01202	1443	stp_1		Multidrug resistance protein Stp	GTGAACACCCCAACCCCGGCGGTAGCGGCGCCATCCGCGGAAGCCGCCTCCGCCGTCGTACTTGCCGATGACCAAGCCAAGTTCGCCGGCCGCCGCGCCGCCCTGCTGATCTCCACCTTGCTGCTGGGCGTGCTGTCCTTCCAGCTCAACGCCAGCATGGTCACCCCTGCGCTGCCGCAGATCGCCGCCGAATTTGGCCAGGGTGCCGACAGCGCCGCCCCCGTCCAGTCCATGTTCTTCCTGGCCGGCGCCATCGCCGGGCCCGTGATCGGCCGGTGGAGTGACTTCATCGGCCGCCGCGCCGCGCTGCTCCTGGTCCTCGGGATCATGGGCGCCGGCACCATCCTCTGCATCGCCGCCCCCACCCTGCCGCTGCTGGTCACCGGCCGGTTCCTGCAGGGGGTCTCCAGCGCCGTCTTCGCCCTCGCCTACATCGTGCTCAGCGAAAACCTGCACGCCAAGGTCTTCGGCACCTCCGTGGGCATCATCGCCGCCATCAACGGGGGAGTGGGCGGCGTGGACGGCTACGTGGGCGGGCTCATGGCCGAGACCCTCGGCTTCCGGTCCATCTTCGTGGTGGTCCTGGTCCTCACCGCCATCGCCGCTGCCTGCATCATCAAAATAGTCCCGGCCGGACGGCCGCAGGGCGTGCGCGGCGCCATGGACTGGTGGGGCGCCGGCTCCCTCTCGCTGTTCCTGGTGTTCACCACCTACTTCGTCTCCGGCGGATCTTCTGCAGGTTGGACCGCGCCCTCCACTTTGGTCCTGCTGGCCGGCACCATCGCGTCCTTTGCCGCGTTCTGGATCATCGAGAAACGCCGCAGCCACCCGCTGATCGCCGTCCACCACCTGCGCTCCCGCCAGGTGTGGCCGGTCATCGCCACCACCGTCCTCACCCTGGCCGGCATCTTCGCCATCATCAACTTCACCGTGGTGCTGCTCAGCCAGGACCCCGACGGCGGCTTCGGGCTCACCGCCTCCATCTCGGCGCTGCTGTTCCTCACCCCCGCCGCTTTGATTGGCGTGTTTGCCGCGCCTTTGGCCGGCTGGCTGGCCGACCGCCGCGGCTGGATCAAGACCCTCCGGCTCGGCACCGGGCTCAGCCTGGCCTGCGCCATCGCCGCCGCCACCTTCTCGGACAACCAGCCGGCGGTGCTGATCGCCGTCGCGGCCCTAGGCATCTTCTACAACGGCTTCTTCCTCACCGCGATCAATGGGCTCTCGGTGCTCCTCTCACCCAAGGAAGCCCCGGCTGCCCTGCCCGGCATCAACGGTGCCTCCTTCGGCATCGGGGCGAGCCTCGGCGTCGTCCTCGTGGCGCCGTTCGCCGCCCAGGCCACCGCCGCCGGGTACGCCACAGCCCTCTGGATCTCGGTGGGCATCACCGCCGCCGCATTCATCGTCAGCCTCTTCGTCGCCGCCCCCAAGGGCGAGACCGTCTAA	MNTPTPAVAAPSAEAASAVVLADDQAKFAGRRAALLISTLLLGVLSFQLNASMVTPALPQIAAEFGQGADSAAPVQSMFFLAGAIAGPVIGRWSDFIGRRAALLLVLGIMGAGTILCIAAPTLPLLVTGRFLQGVSSAVFALAYIVLSENLHAKVFGTSVGIIAAINGGVGGVDGYVGGLMAETLGFRSIFVVVLVLTAIAAACIIKIVPAGRPQGVRGAMDWWGAGSLSLFLVFTTYFVSGGSSAGWTAPSTLVLLAGTIASFAAFWIIEKRRSHPLIAVHHLRSRQVWPVIATTVLTLAGIFAIINFTVVLLSQDPDGGFGLTASISALLFLTPAALIGVFAAPLAGWLADRRGWIKTLRLGTGLSLACAIAAATFSDNQPAVLIAVAALGIFYNGFFLTAINGLSVLLSPKEAPAALPGINGASFGIGASLGVVLVAPFAAQATAAGYATALWISVGITAAAFIVSLFVAAPKGETV				NA	NA	NA	NA	NA
D1-29_01204	1215			hypothetical protein	TTGCTCGTCGCCCGTCTGCCCGACGTCGGCCGTGCGGGCCCCAAGAGCAAGCAGCCGTTCCAGCTCCACGTCCTGGTCCCGGTCCACAGGGTTGACGTCGATGTGCAGGGGGAGGCGCCCGGGCCGCGGGTTGCTGCTCGGGCTCAGGATGATGGTCGGCTGCAGACCCCCAAACCCGGCGTCCGGCGGGCCGATCTCGATGGCACCGTCCTCTCGGTCGAGTTCGACATATCCGAGGACGCCGCGCCAGAACTCTGCCAGGAGTTCCGGATCGGCGCAGTTGAGGACCAGTTCGCTGATACGGGAGACCACGGACCCCAGTGTACGGAGGCCCTACCCGAACGGTCAGCAAAAGCACGCTTGTCCAACAAACGCATCAGACGTTGCACTAGGCTGGAAGCCCCGGACCCCTACCAACAAGCGAGGCATAACGTGCATCAGGACGCCGCCCGGTTCCTGTCCCAGCCGGTGGCCGCCCAGCCCGGCTCACCCCTCCGCGTCGCGGTATACTCCCGGATCGCCGAGGCCATCCGCAACGGCCTCCTCACGCCCGGCTCCATGATCCCCACCGAAACCGAGCTCGGTGCCGACATGAAAGTCAGCCGCACCGTGATCCGCGAAGCACTCATGCTGCTCGAGGAGGACGGCATCATCAGGGCAAGGCGCGGCGTCGGGCGCTTCGTCTCGGACACGCTCCCTCGCATCGGCATCGAACGCATCCGCCCCTTCGAGGAAGTCCTCGGCAGTCCCGGCCAGCAGCTCGAGGTCAAGCGCATCCAGGTGGCGCGCCAGCCCGCGTCCGAATTCGCCGCCCCCGGTGTCGGCGTCGAGCCCGGAACCGACTGCTGGCTCTGGGAATCCGTCCTGATCCGCGACGGCGAGGCCATCGCCCACCTGCAGGAAAACATCTCCGCCCAGCCCGTCAGCATCGGCCAGAGCGCCGCAGCGCCCCTTGACATAAAGGACGACGGCGGCGCCACCTTGCTTGCCACGCTTAACAACCAGCTGGGGCGCCTACCGGGGCCGGGAGAGTGCCAGATCAGTCTCAGCCAGGTGGGGCCCAGCCGCGCGAAGCTGCTGGACCTCCGCCCGTCCGATCCCGTGCTGGTCCTCACCCAGTACGTTCGATTCGGCAACCAGCCCTTCTACCTGGCCAAATGCCTGATCGCGGCCCGGGCCGGGCACCTCTCGGTGATGCAGTCCCTCCAGTCCTAA	MLVARLPDVGRAGPKSKQPFQLHVLVPVHRVDVDVQGEAPGPRVAARAQDDGRLQTPKPGVRRADLDGTVLSVEFDISEDAAPELCQEFRIGAVEDQFADTGDHGPQCTEALPERSAKARLSNKRIRRCTRLEAPDPYQQARHNVHQDAARFLSQPVAAQPGSPLRVAVYSRIAEAIRNGLLTPGSMIPTETELGADMKVSRTVIREALMLLEEDGIIRARRGVGRFVSDTLPRIGIERIRPFEEVLGSPGQQLEVKRIQVARQPASEFAAPGVGVEPGTDCWLWESVLIRDGEAIAHLQENISAQPVSIGQSAAAPLDIKDDGGATLLATLNNQLGRLPGPGECQISLSQVGPSRAKLLDLRPSDPVLVLTQYVRFGNQPFYLAKCLIAARAGHLSVMQSLQS				NA	NA	NA	NA	NA
D1-29_01205	354			hypothetical protein	ATGACTACAGAGATAACTGCCGGCGCGGATCAATCGGGAGGCGCGTGCGCCCGCGTGCGCCGACGGGTCCACTGGATGTTTTGGCTGCCAACCCTTGCAATCTGTTTGCCGCTGATCTTCCTGCTCATCACCTTCTGCTGGGAAATTTCCCTGCTTGCCGCATGGCTGGTGTTGGATGAAGTCGTTCCCGGGCACCCTGACTACACAAACGTCCAGGGCCAGTTGAACGTCAGGGTGATAGGGGCGGGGGGGCTGGTCGTTCTGCTCGGTGGCTACCTGTTTGTCTGGATCGGGTGGTATCGAAAGGCGCTGAGCCGGGCCAGAGTCAGCCGGACGTTGGGTGCACCAAACTAG	MTTEITAGADQSGGACARVRRRVHWMFWLPTLAICLPLIFLLITFCWEISLLAAWLVLDEVVPGHPDYTNVQGQLNVRVIGAGGLVVLLGGYLFVWIGWYRKALSRARVSRTLGAPN				NA	NA	NA	NA	NA
D1-29_01206	726			hypothetical protein	ATGACTGATTTCTTCACGATGCAGCCGGGCGAGACCGCAGCGCCTTTGCCACCGGGACCCGTCCTGTGTCAGGGAACGGCCGGCATGCGGCGCATCCACCGCTTTTTCCTGTGGGCGTACGACGAGGCGCCGGGACTGGTGCGCTCCGCCGCAGCCGGTGACACCGCGCGCGCCGCTTATGTGGGCGACGCGCTGGGGAACTTCGACAAAGTGCTCCATCTGCACCACGAAGGCGAGGACCAGAGCATGTACCCGCAGCTCGAGGAAAGGGCGCCGGCGTGTGCGTTGCACGTAGCGCAGATGATTCAGCAGCACCGGCAGGTGACGGAGCGGCTCGAGAGCATCGAGCCGGTCCGCCTTCGCTGGATGGAAACAGCGGACGCAGAAGTTGGCCGGGAACTCGCTGAGCTCTACGAGGACTTGAAGGCCGTCCTCAACGTTCACCTGCGGCGCGAAGTCACCGAGGTGATGCCCGTCGTGGACAGGGTGCTGACCGAGAAGGAACTGCAGGAGGGCGCGAAGCACGGGATCGATCAGCTCGACAAGAAGTTCCTGGTCGGCTACCTCGGGATGGTGTTGTCCACGAATCCACCCCAAGACCAGAAGGAAATGATCAAGGACATCCCCGCGCCGGTCCGCCTTGGCTACCGCCTCGTGGGGCGCAGGATGTACCGGAAGCAGTACTCGACACTTTTCCCGGGGCGCTCGATTCCCGAGACGCTGTAA	MTDFFTMQPGETAAPLPPGPVLCQGTAGMRRIHRFFLWAYDEAPGLVRSAAAGDTARAAYVGDALGNFDKVLHLHHEGEDQSMYPQLEERAPACALHVAQMIQQHRQVTERLESIEPVRLRWMETADAEVGRELAELYEDLKAVLNVHLRREVTEVMPVVDRVLTEKELQEGAKHGIDQLDKKFLVGYLGMVLSTNPPQDQKEMIKDIPAPVRLGYRLVGRRMYRKQYSTLFPGRSIPETL				NA	NA	NA	NA	NA
D1-29_01207	576			hypothetical protein	ATGGTGGAACTGAAGCGCATCTACTGGGGCCGCCGGATACTGCGTGCGGCTTACTCGGCTGTGCTTTTGTGGTTGGGCGTATCTTTTGCCCTCGCCCTGATGCCGAAGGCAAACGCCGGCACCGGCGAGAGCGCCACGTCGGTCGCGGACGTTTTTCGCGGCATGTTCGACAGCGTTCTCGCCGCTGTCGCAGTGCCTGGCCTTTTCGTCGTCGTCCTGACAATCACGGCCGCCGTCATCCGTGCCCAGGACGTCCGACGCCGGGATCCGGTCCGGCGCTTCTCCCGCCAGCAGCGCCGCGAGGGAATGGCAAGGGCCGGCGGCCAATGTGAGATGGAGGCGGGGTTCCGGCGCCGTTGTTCGCGGCCCGCCGAGCAGGGGGACCATTTTTATCCGTGGTCCAAAGGCGGATCCACCTCCCTCCAGAACTTCGTTGCTGCCTGCGCCAGATGCAATCGTGCCAAAGGGGCCGGAATTCCGTCGCCGGGCAAGCAGGAAAGGCTGGAACGACGACGGCGGGACTACCTTCTGCCCGACGCATCCGTCAGCGTCGGCGAACGGCAGCCGCTCCCCTGA	MVELKRIYWGRRILRAAYSAVLLWLGVSFALALMPKANAGTGESATSVADVFRGMFDSVLAAVAVPGLFVVVLTITAAVIRAQDVRRRDPVRRFSRQQRREGMARAGGQCEMEAGFRRRCSRPAEQGDHFYPWSKGGSTSLQNFVAACARCNRAKGAGIPSPGKQERLERRRRDYLLPDASVSVGERQPLP				NA	NA	NA	NA	NA
D1-29_01208	420			hypothetical protein	ATGGAGCAGTCAGAATCAAAAAAGGTAACGGACGCGCGAGCGGCGGCTGAAAAGCTGGCTGCCGAGAAGGCTGCGGCAGACAAAGCAGCGCAAGACGCCGCAGCAAAGGCGGCAGCGGACCAGGCCGCCGCGGAGGCGGCCCGCCAACAGGCCGCGGCTGAGGAGGCAGCGCGCCAGCAGCAGGCCGCAGCGGCGGCCGCGGCAGCCCCGAAAGTCCAGGCACCCGTACAGCCTGCCATCCCCGCAGCTCCCTCCGGGTGCGATCCAAACTATGCAGGGCCATGCGTGCCTATTGCGTCCGACGTCGACTGCGCCGGCGGAAGCGGCAATGGTCCCGCGTACGTACGTGGACCTGTGACCGTCGTCGGATCTGACATCTACGGTCTCGACAGGGATGGCGACGGCTTCGGATGCGAGTGA	MEQSESKKVTDARAAAEKLAAEKAAADKAAQDAAAKAAADQAAAEAARQQAAAEEAARQQQAAAAAAAAPKVQAPVQPAIPAAPSGCDPNYAGPCVPIASDVDCAGGSGNGPAYVRGPVTVVGSDIYGLDRDGDGFGCE				NA	NA	NA	NA	NA
D1-29_01209	999			hypothetical protein	ATGGGTTTCAGGGTACGCAAATCGTTCAAGATTGCTCCGGGCGTACGTATGACGGTGACGCCGAAAAGTCTCGGCCTCAGTGCTGGAGTGAACGGCGCCCGGATCTCCGCGAACACTTCCGGGCGTGTCACCCGAACTGTCGGTATCCCGGGGTCCGGCGTCTCGCACGTCAAGACACTTTCAAGCGGCTCCCTAGCGAACCGGTCTCCCGCTGCACCCGCGGCGGCCTCGGCCCGACGTTCCTCCCCAGGCATGTTCGCCCCCAAATGGGAAAAGGAACTTTATCGGGCACTCGTGTCGCATCCGAACTTCAACGATCTGCCCCGCATCGGCAAGGAGTTCGAGAAGGCTCGCCCGCTGGCGGCCTTCTTTGAAGCGACCGCAGATGCGATCCCGAATGGCGACCTTGCCCGGGGCACCGAGCTGCTTAACTGGCTATTCAGCACCGGCTATGACCCGACATCGGATGATTTCCTCCAGAAATACCTGCCGGGAGGAGCAGCCAGCGTAAGCATCGCAGAAGGCATCACGGTGGAGATTCCGGCTGACCATAACTTCATCGGTCTTGCCCTTGCAGAATTGCATCAGGCCGCTGGCCGCATACCTTCTGCTGTCGACATCGTGGAACAGCTCACACCGAGCACTGTGACCGCTATATCTTTGGCCGAGCTCTATTCGGTCCAGGGCCGCTGGGAAGAAGTGATCACCCTGACCGACGGTCTCCAGAATGATGACGAAGCTGCTACCTACCTTCTGATCCAGAGGGGCATCGCACTGCGCGAGCAAGGCTTCCCGGATGCGTCCCGCGAGGCCTTCAAGGAGGCCTTGAGGGTGCGGTCCCGGCCAGTCGAACTTCGTCAGCGCGCACTCATCGAACGCGGGGTCACCTACTTGACCGAAGGTAAGCGATCACTGGCACGTAAAGACTTCGAAAGGGTTCTTGCCGAAAACAGCAACTACCCGGGGCTTCGGGAACACCTCGCCAAACTCGAAGCCTGA	MGFRVRKSFKIAPGVRMTVTPKSLGLSAGVNGARISANTSGRVTRTVGIPGSGVSHVKTLSSGSLANRSPAAPAAASARRSSPGMFAPKWEKELYRALVSHPNFNDLPRIGKEFEKARPLAAFFEATADAIPNGDLARGTELLNWLFSTGYDPTSDDFLQKYLPGGAASVSIAEGITVEIPADHNFIGLALAELHQAAGRIPSAVDIVEQLTPSTVTAISLAELYSVQGRWEEVITLTDGLQNDDEAATYLLIQRGIALREQGFPDASREAFKEALRVRSRPVELRQRALIERGVTYLTEGKRSLARKDFERVLAENSNYPGLREHLAKLEA				NA	NA	NA	NA	NA
D1-29_01210	948			hypothetical protein	ATGAGCCAAAACCCTAATCTTGCCCCTTCTCCCCCGGCCTACGGCTATGGGCAGGTGCAGCAGAGCAACAAGTCTTTCCTCGTGACTTGGTTGTTGTCCCTCCTTCTCGGCATTTTCGGCGCGGACCGGTTCTACCTCGGTAAGGTGGGAACCGGAATACTGAAGTTAGTCACCTTCGGTGGCCTTGGCATCTGGGCCCTTGTTGATCTGATTCTCGTGCTTGCGAACATGACCCGCGATAAGCACGGACTTCCGCTAGCGGGTTACGACACGAACAAGAAACTGGCATTGATCGTGTCGGGCGCATTCATTCTTTTGATGATCGCGGCCAGCTCGGCCCGGGGTGGCTCTAACGTATCGTCCACCTCAGCCGTTTCCACTCCAGGGGCCTCCGCCACGGCTACCGCTGCTGCTGCCCCTGCAGCTGCCACAACAGATCCAGCCGCTGCAGCGGCCGAGGCCGACGCCGCGGCTAGAGCAAAAGCCGAAGCCGAGGCCGCCGCAAAGGCCCAGGCCGAGGCCGATGCCGCGGCTAAAGCAAAAGCCGAAGCCGACGCCGCCGCCGCCGCAACAAAAGCCCAGGCCGAGGCCGACGCCGCGGCTAAAGCTCAGGCTGAGGCCGACGCAGCTGCCAAAGCAAAAGCCGAAGCCGACGCGGCGGCAAAAGCTCAGGCTGAGGCCGACGCAGCTGCCAAAGCAAAAGCCGAAGCCGACGCCGCAGCAGCAGCGGCCGCGGCGAAAGCCCAGGCGCCCGTACAACCTGCCATCCCCGCAGCTCCATCCCGATGCGATCCAAACTATGCAGGGCCGTGCGTGCCTATTGCCTCCGACGTCGATTGTGCCGGAGGGAGCGGCAATGGTCCCGCGTACGTACGCGGACCTGTCACCGTCGTCGGATCTGACATCTATGGTCTCGACACGGACAGGGACGGCGTGGGATGCGAGTGA	MSQNPNLAPSPPAYGYGQVQQSNKSFLVTWLLSLLLGIFGADRFYLGKVGTGILKLVTFGGLGIWALVDLILVLANMTRDKHGLPLAGYDTNKKLALIVSGAFILLMIAASSARGGSNVSSTSAVSTPGASATATAAAAPAAATTDPAAAAAEADAAARAKAEAEAAAKAQAEADAAAKAKAEADAAAAATKAQAEADAAAKAQAEADAAAKAKAEADAAAKAQAEADAAAKAKAEADAAAAAAAAKAQAPVQPAIPAAPSRCDPNYAGPCVPIASDVDCAGGSGNGPAYVRGPVTVVGSDIYGLDTDRDGVGCE				NA	NA	NA	NA	NA
D1-29_01211	1350			L-amino acid dehydrogenase	ATGCACGATGTGGATGTCGTCGTCATGGGCGCTGGCCTGGCTGGCCTGAGTGCAGCGCGAAAGCTTGTTCACGCGGGCAGGACAGTTGCCGTGCTGGAGGCGCGCGACCGCGTGGCCGGCCGCACCCTGGGAGGCTTGCTCAGCAACGGGGTGCCGGTGGAGATGGGCGGCCAATGGGTGGGCCCGACGCAGGACGTGGTGCTCGGGCTCATCGAGGAATTGGGCCTGAAGACCTTCCCCACTTACGACCAGGGCGACGCCTTGACCGTTTTCGACGGCAACGTGGTCCGGTACGCCGACGAGACCTTTGGCCTTCCGCCGGAGTCGGCGATGGAGGTGGGCCGGCTCTGGGAGGACCTGGAGATCCTGGCCTCCACGGTGGCGATTGAGGCGCCGTGGGAAACTGACGGCGCTGAGGACCTGGACCGGCAGACGCTGGACGGGTGGCTGGTGGCCAATACCGAAGACAGCATCGCGGTGAGGTTCTTCCGCATGGTGGTGCCCGTCCTGTTCTCCGCCGAGTCTCCGGAGCTTTCACTCCTGCACTTCCTCTTCTACCTCAAGTCCGGCACCAGCCTTGAGGCGCTGATGACGATAACAGGGGGCGCCCAGGAGAGCCGCGTTGTCGGCGGCACGCATCAGATCTGCGAGCGGATGTCCGCCGAACTGGGCGGCGCGGTCCGGCTCAATGCCGTGGTCCGGACCATCCGCCAGGATGAGACGGGCGTCCTTGTCGAATACGAAGGCGGCAGCGTCAAGGCCGGGCGCGTCGTCGTCGCCGTACCTCAGACGCTGGCCGGCCGGCTGCGCTACGTCCCGCCGCTGCCCGCGCTGCGCGACGGGCTCACCCAGCAGATGCCGGCCGGGGCTGTGATCAAGCTCCAAGTCGGTTACGACGCCCCGTTCTGGCGCGACGACGGACTGAGCGGAACGGTCCTCAGCCTCGACGACGCTTTGAGCGTTGTCCTGGACAACAGCCCCGACGACGGCTCCTGCGGGGTGCTGGTCGGCTTCCTCGAGGGCGCCCACGCCCGAGCCGCGAGCTTGATGAGCGCAGCGGAGCGCCGCGAGCTCGTTATCGGAGCGCTGGTGAAGTACTTCGGCCCGACGGCGGCACACCCGTTCGACCTCGTCGAGCAGGACTGGAGCGCTGAGGAGTTCACCCGCGGCTGCTACGGCGGACGGCTGGGCGCGGGCGCCTGGACCCAGTACGGCCCGGCCCTCGCTGCGCCCGTGGGCCGGATCCACTGGGCAGGCGCAGAAACCTCCACGGTCTGGAACGGCTACATGGACGGCGCCATCCGCTCCGGCCGCCGAGCCGCCGACGAGATCCTCACGGAACTCTCGTAG	MHDVDVVVMGAGLAGLSAARKLVHAGRTVAVLEARDRVAGRTLGGLLSNGVPVEMGGQWVGPTQDVVLGLIEELGLKTFPTYDQGDALTVFDGNVVRYADETFGLPPESAMEVGRLWEDLEILASTVAIEAPWETDGAEDLDRQTLDGWLVANTEDSIAVRFFRMVVPVLFSAESPELSLLHFLFYLKSGTSLEALMTITGGAQESRVVGGTHQICERMSAELGGAVRLNAVVRTIRQDETGVLVEYEGGSVKAGRVVVAVPQTLAGRLRYVPPLPALRDGLTQQMPAGAVIKLQVGYDAPFWRDDGLSGTVLSLDDALSVVLDNSPDDGSCGVLVGFLEGAHARAASLMSAAERRELVIGALVKYFGPTAAHPFDLVEQDWSAEEFTRGCYGGRLGAGAWTQYGPALAAPVGRIHWAGAETSTVWNGYMDGAIRSGRRAADEILTELS	PGPT0007641_1435	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007641-aofH-K00274	NA	NA
D1-29_01212	495			hypothetical protein	GTGACCGTCGCGCTCAGGCGCGCGGCGCCGTCGGACTTTCCGGAGGTCCGGCGCATCACGCGCGACGCCTACCTGCGGGCCGGGCACTTCGCCGCGGACCATCCGTACATGAGTGTGCTGGAGGACGTGGAGCACCGTGCCGAGCACGCGCAGGTGTGGGTGGCGGAGGCTGCCGGGCGGGTGGTGGCGGCGGTGACGCTGGCGTTCGCCGGCCAGCCGTACAGTGAGATCGCCGCCGAGGGCGAGCTGGAGTTCCGGATGCTGGCCGTGGACCCGGCGTGCCAGGGCGGCGGCGTGGGCCGGGCGGTGGTGGGCAAGGTGGTGGAGCACGCCCGGCAGTTGCCCGGCATCGGGGCGATCAGCATCACCAGCGCCACGTTCATGGAACGCGCACACGGGCTGTACGAGTCCCTGGGATTTCGGCGGGTGCCGGAGCGGGACTGGTACGTGCCGGGCGAGGACGTGCTGCTGTGGGTGTTCCGGCTGGAGATTTAA	MTVALRRAAPSDFPEVRRITRDAYLRAGHFAADHPYMSVLEDVEHRAEHAQVWVAEAAGRVVAAVTLAFAGQPYSEIAAEGELEFRMLAVDPACQGGGVGRAVVGKVVEHARQLPGIGAISITSATFMERAHGLYESLGFRRVPERDWYVPGEDVLLWVFRLEI	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
D1-29_01213	864	rbsK_3		Ribokinase	ATGAGCCGTTCCCTTCCTGTTGCCGTCGTCGGCAGCATCAACCTGGACCTGATCGCCACCGCCGAAAGACTCCCTACAGCGGGCGAAACCATCGGCGGCGCAGTGCTGTCCGAACAGCCGGGCGGCAAGGGCGCCAACCAAGCCGCGGCAGCCGCGCGGCTGGGCGGCATCGCCCGGATGATCGGCGCCGTGGGCAGCGACGCGCAGGGGCAGCGGATGCTGGACGCGTTGAAGAGTGCCGGCGTCGACACCGCTGACGTGATGGTGCTTCCTGGGGCGACCGGGACGGCGCTGATTGTGGTGGATCGCGACGGCGAGAACCAGATCGTGGTGTGCCCGGGCGCCAACTCCAGCCTGTCCCTGGACGGGGTGGAGTTCGGCCCCGAGGAGACGGTGCTGTGCCAGCTGGAGGTGGGGCTGCCCGTGGTGCTGGAGGCCGCCCGGCGGCACTCCGGTTTCTTCGTGCTGAACGCGGCGCCGGCCATGGACCTGCCGGCGGAGCTGCTGGAGCGCTGCGACCTGGTGATCGTGAACGAGAGCGAGTACGCCCTGATCCCGGCGCTCGCCGCGGCCAAACTCGTGGCCGTGACGTACGGCAGGGACGGCGCCGCGATGTTCGAACGCGGGCGGAAAGTGGCCGGGGCGCCGTCGGCTGCTGTGACAGTGGCGAACACCGTGGGCGCCGGCGACGCGTTCTGCGCCGCCCTGGTCCTGGCCCTGCGGCAGGGGCTGGACTACACGCATGCGCTGGCGGTGGCCAACGCGGTGGGCGGGGATGCCGTGGGCGATCCGTCCTCCCAGCCGGATTTGGCACAGCTGGGCCATTACGTGGAGCGGACTGCCGCAACCGCAGGCGCACGGTGA	MSRSLPVAVVGSINLDLIATAERLPTAGETIGGAVLSEQPGGKGANQAAAAARLGGIARMIGAVGSDAQGQRMLDALKSAGVDTADVMVLPGATGTALIVVDRDGENQIVVCPGANSSLSLDGVEFGPEETVLCQLEVGLPVVLEAARRHSGFFVLNAAPAMDLPAELLERCDLVIVNESEYALIPALAAAKLVAVTYGRDGAAMFERGRKVAGAPSAAVTVANTVGAGDAFCAALVLALRQGLDYTHALAVANAVGGDAVGDPSSQPDLAQLGHYVERTAATAGAR	PGPT0017405_4777	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
D1-29_01214	1446	stp_2		Multidrug resistance protein Stp	GTGAACACCCCAACCCCAGCGGCCGCCGCGGTTTCCCCGGAAGCCGGTCCCGCCGTCGTCCTACCTGCCGCGGAGGAGGCGAAGTTCGCCGGCCGCCGCGCCGCGCTGCTGATCTCCACGCTGCTGCTCGGTGTGCTGTCCTTCCAGCTCAACGCCAGCATGGTGACCCCGGCACTGCCCCAGATCGCCGCCGACTTCGGCCAGGGTGCGGACAGCGCCGCCCCCGTCCAGTCCATGTTCTTCCTCGCCGGCGCCATCGCCGGTCCCGTGATCGGCCGGTGGAGCGACTTCATCGGCCGCCGCGCCGCCCTGCTGCTGGTCCTCGGCATCATGGGCGCGGGCACCATCCTCTGCATCATTGCCCCCACCCTGCCGCTGCTGGTCGCCGGCCGGTTCCTCCAGGGCGTCTCCAGCGCCGTCTTCGCCCTCGCCTACATCGTGCTCAGCGAGAACCTGAACGCCCGGGTTTTCGGCACGTCCGTGGGCATCATCGCCGCCATCAACGGGGGAGTGGGCGGTGTGGACGGCTATGTGGGCGGGCTCATGGCCGAGACCCTCGGCTTCCGGTCCATCTTCGTCGTCGTCCTGGTCCTCACGGCCGTCGCCGCTGCCTGCATCATCAGGATCGTCCCGGCCGGACGCCCCCAGGGCGTGCGCGGCGCCATGGACTGGTGGGGCGCCGGATCCCTCTCGCTGTTCCTCGTATTCATCACCTACTTCGTTTCCGGCGGCTCGGCCGCAGGCTGGCTGGCGCCAAGCACCCTGGCCCTGCTGGCCGGCACCGTTGCGTCCTTCGCCGCGTTCTGGATGATCGAGAAACGGCGCAGCCACCCACTGATCGCCGTCCACCACCTGCGCTCCCGCCAGGTGTGGCCCGTCATCGCCACCACCGTCCTCACCCTGGCCGGCATCTTCGCCATCATCAACTTCACCGTGGTGCTGCTGAGCCAGGACGCCGGTGCCGGCTTCGGGCTGACAGCGTCCGTCTCCGCGCTGCTGTTCCTCACCCCGGCGGCCCTGATCGGCGTCTTCGCCGCCCCGCTGGCCGGCTGGCTGGCCGACCGCCGCGGCTGGACCAAAACCCTCCGGATCGGCACCGGGCTGAGCCTGGCCTGCGCCATCACCGCCGCCACCTTCTCCGACAACCAGGTGGCGGTGCTGATCGCCGTCGCGGCCCTGGGCATCTTCTACAACGGCTTCTTCCTCACCGCCATCAACGGGCTCTCGGTGCTCCTCTCACCCAAGGAAGCCCCGGCTGCCCTGCCCGGCATCAACGGCGCCTCCTTCGGCATCGGGGCGAGCCTCGGCGTCGTGCTGGTGGCGCCGTTCGCCGCCCAGGCCACCGCCGCCGGCTATGCCACCGCCCTCTGGATTTCGGTGGCCATCACGGCCGCCGCGTTCATCGTCAGTCTCTTCGTCGCCGCCCCCAAGGGCGAGACCGTCTAA	MNTPTPAAAAVSPEAGPAVVLPAAEEAKFAGRRAALLISTLLLGVLSFQLNASMVTPALPQIAADFGQGADSAAPVQSMFFLAGAIAGPVIGRWSDFIGRRAALLLVLGIMGAGTILCIIAPTLPLLVAGRFLQGVSSAVFALAYIVLSENLNARVFGTSVGIIAAINGGVGGVDGYVGGLMAETLGFRSIFVVVLVLTAVAAACIIRIVPAGRPQGVRGAMDWWGAGSLSLFLVFITYFVSGGSAAGWLAPSTLALLAGTVASFAAFWMIEKRRSHPLIAVHHLRSRQVWPVIATTVLTLAGIFAIINFTVVLLSQDAGAGFGLTASVSALLFLTPAALIGVFAAPLAGWLADRRGWTKTLRIGTGLSLACAITAATFSDNQVAVLIAVAALGIFYNGFFLTAINGLSVLLSPKEAPAALPGINGASFGIGASLGVVLVAPFAAQATAAGYATALWISVAITAAAFIVSLFVAAPKGETV				NA	NA	NA	NA	NA
D1-29_01215	1062	rihA_2	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	ATGACCGCCACCTTCCCGTTCTACCTGGACTGCGACACCGGCATCGACGACGCCCTCGCCCTCGCCTACCTGCTGGCCGCGCCCACCGCCGAGGTGGTGGGCATCGGCACCGTCAGCGGCAACGTCAGTGCCGCCGTCGGCGCCCGGAACACCCTGGACCTGCTCCAGCTCGCCGGTCACGCGCACATCCCGGTGGCCATCGGAGCCCATGACCCCCAGGCCGGCACGTTCGGCGGCGGGGCGCCGTGGGTCCATGGGCACAACGGCATCGGCGGAGTCTCGCTGACGACGGCGTCTGCCGGCCCGGCGCCCGGAACCGCCGCCCAGATGCTGGTGCGGCTCGCCCATGAACACCCCGGCCGCCTGCGGGTCCTCGCCATCGGCCCGCTCACCAACATCGCCGAAGCCCTCCGGCTGGAACCGGCGCTGCCGTCGCTGGTGGAGGAAATCACCATCATGGGCGGTGCCGCCCTGGCCCCCGGAAACATCACCCCCGTCGCGGAGGCCAACATCTTCAACGACCCCGAGGCCGCCGCGAACGTCCTCGCCGCCGACTGGAACGTGACCCTGGTGCCGCTGGACGTCACCATGTCCAACGTGCTCGAGGAGAGCCACCGGCAAGAACTGCTCGCTTGTTCAGGTCCCGTGCCGCAGTTGCTCGGGGAGATGCTTGGCTACTACTTCCGGTTCTACGAAAGCCAGTTCGGCCGGGCATGCTCGGCGATGCACGATCCCCTCGCCGCGGCTCTTGCGGTCGGCGGGATCAGGGCGGCCGTCGCCCCCGTGGTCCAGGTCGACGTCGACACGACGGATGGTCCCGGCCGTGGCCAAACCGTCTGCGACCTGCGCGGACGGTACATGGGCTACCCCGAGCAGCCCGGCGCCCGCTGCCGGGTGGTGCTGGAGCTCGACGGCGACTTCGCGCCGCATCTGGTCGAGGTGCTGCAGAGGTTCGACGGCGGGGTCCCCTTGGTTAACGCGGCTGGCAGCCCGGGGGTCAGCTCGGGGCTCAGTTCCGCGCTCGATTCGGTGCCCAGCCGGGCGGTGCCGGTCGGCGCTTAA	MTATFPFYLDCDTGIDDALALAYLLAAPTAEVVGIGTVSGNVSAAVGARNTLDLLQLAGHAHIPVAIGAHDPQAGTFGGGAPWVHGHNGIGGVSLTTASAGPAPGTAAQMLVRLAHEHPGRLRVLAIGPLTNIAEALRLEPALPSLVEEITIMGGAALAPGNITPVAEANIFNDPEAAANVLAADWNVTLVPLDVTMSNVLEESHRQELLACSGPVPQLLGEMLGYYFRFYESQFGRACSAMHDPLAAALAVGGIRAAVAPVVQVDVDTTDGPGRGQTVCDLRGRYMGYPEQPGARCRVVLELDGDFAPHLVEVLQRFDGGVPLVNAAGSPGVSSGLSSALDSVPSRAVPVGA	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
D1-29_01216	927	yidZ		HTH-type transcriptional regulator YidZ	ATGAGCATGAAGAATAATAGGACCATGCTACTCAACGTCGACCTGAACCTCCTGCGGACCTTCGTGGTCGTCTACCGCGCGAAAAACCTGACCGCAGCGGCGGAGACGCTGCATATATCACAGCCTGGGGTGAGCCATGCCCTCAAACGTCTCCGGATGCACTTCGACGATCCACTTTTTGTCCGCACGGGTACCGGCCTCCGTCCCACCCGTCTTGCCGCCGACCTCTATGCCGAGATCAGCGGCCCGCTGTCGCATATCGAGACAAGCACCGAAGACCGCACCCGCTTTGATCCAGCGACCTCACGCCGCCGTTTTCGGATTGCACTCACTGACCTCGGTGAGGCGGTGCTGCTCCCCCGCATCCTGCAGGCCACCGGAAGCGCGGGGTCGGGTATCGAGATCGAAGTCGTTCCGCTCGACATTCAGACAGTGGCGCGTGATGTATTTTCCCGGGACCTCGACGCTGCGGTCACGAGCTCGCCGGTGCTCGGAGCAGTGCGCCAGGAAATCCTTTTCCACGACCGCTACGCCTGTCTGGTGCCAGCCGGCCTGAAGGACGACGGCGGGCGGATCCGGGTCGAGGACCTGCAGCGGCTGCCCGAGGCGAGAGTCGGTCCCTCAGCGGGTCATCGGGCGATCACTGAGGCCGTCGCCACGCTGGGAGCGGGCGTCCTCTCCCGCAGCCCCCAGGTGGAGGTGCCGCGGTTCACCTCGCTGCCCTGGATCGTCGCACGGTGCGGGTTCGTCGCCATCGTCCCGGTCGATGCCTTCGCCGCATTGGCGGTCCCTGCAGGAGTGAAGCTGCTCGAGCTTCCTTTTCCGTCGCCTGTGACGTCCGTGCATCTTATCTCGCACCACGATGCCGCCGCGGGGCCCGCGACGGCGTGGTTTCTGGATACAGTGCGTTCGACCCTCGCCGCGTGA	MSMKNNRTMLLNVDLNLLRTFVVVYRAKNLTAAAETLHISQPGVSHALKRLRMHFDDPLFVRTGTGLRPTRLAADLYAEISGPLSHIETSTEDRTRFDPATSRRRFRIALTDLGEAVLLPRILQATGSAGSGIEIEVVPLDIQTVARDVFSRDLDAAVTSSPVLGAVRQEILFHDRYACLVPAGLKDDGGRIRVEDLQRLPEARVGPSAGHRAITEAVATLGAGVLSRSPQVEVPRFTSLPWIVARCGFVAIVPVDAFAALAVPAGVKLLELPFPSPVTSVHLISHHDAAAGPATAWFLDTVRSTLAA				NA	NA	NA	NA	NA
D1-29_01217	1653	xsc_2		Sulfoacetaldehyde acetyltransferase	ATGGCGCAAATAATGAAAGTTGCCGATGCTCTCGGGTCCGTGCTCGTCGAATTGGGCGTGTCTCAGGTGTTTGGAGTGGTCGGCAGCGGCAATTTCCGTGTAACCAATGCGCTCGTGGCCTCCGGCGCACGCTTCGTTGCAGCCCGCCACGAGGGCGGTGCAGCATCCATGGCCGACGCCTATTCCCGGCTCACCGAGGAGGTGAGCGTACTGAGCCTGCACCAGGGCTGTGGCCTCACGAACGCTCTCACGGGTGTGACCGAGGCCGCGAAATGCCATACACCACTGCTGGTCCTCGCTGCGGACACCGCGGTCGGCGACGTAACCTCGAATTTCCACATCGACCAGGACGCGGCTGTACTGGCTCTCGGGGCGACGCCGATGCGCATCCATTCTGCTGAGACCGCCGTTTCCGACGCAGCACGGGCCTTCCGCCTCGCCCAGACTGAGCGCACTACGGTTGTTCTTTCCATGCCCATCGACCTCCAGGAACACGAGGTTCCCTATCCGGGAGCACGTCCCGTGTCGAACATCCGCGTGCCGAGGCCGGTAGTTCCCGCCGCAGAAGCGGCGGAACTCGCCGATCTTCTCGCCAAGGCGGAACGACCGGTCATCATCGGAGGCCGCGGGTCGCGGCACGCAAAAGGGGAGCTTCGCGATGTGGCCGCCGCGGCAGGAGCCCTTCTCATCGCCTCGGGGGGCGGCCGCGGCGTCTTCGAAGGTGACGATTGGGCCCTCGACATTGTGGGCGGTTTTGCCACCGAGAGTGCCGCAGACCTCGTGCGTGAGGCCGACCTCATTGTCGCATTCGGGGTGGCGCTGAATGACTGGACCACTCGCAGTGGCTCGCTCATCGAGGAAGTAACCCTCGTCCACGTCGACGACCGCGTCGAGGCGATCGGGAAGCACCGGCCCGTGGACCTGGGCATAGTCGGTGACGCGGCCGCCGTGGCCCGGGCGGCCTGCGAGGTGCTGACGGCCAGAGGGCCGTCCAGGGTGGGGTATCGCACCCCCGAAGTCGCCGAGCGGGTTCGCCGTGCCCGGTACTGGTCAGAGCAGCCCGTCGAGCCGATCGACGAGCCGGGATTCGTGGACCCTGTGGCTCTCACCAACGCCCTCGATGCGATGGTGCCCGAGGAACGGGTAGTTGTGGTCGACGGCGGGAACGTGAACGCCTACCCGGGTGCCCACCTGCGGGTGCCGGACGACGCTGGTTACGTGCTCCCCCTGTCGTTCCAATGCATCGGTCTTGGCCTGGGCAGTGCGATCGGCGCCGCCGTCGCCCGTCCGGACCGGATGGCAGTACTCGGCACCGGTGACGGATCACTGCTGATGGGGGCAGTGGAACTGGAGACGGCCGTGCGACTCCGGCTCGGAATGCTGATCGTTGTCTACAACGACAGCGCCTACGGTGCAGAGATCCATCTGTTCCCCGAGTCGACGCCCAAAGAGCAGGAGATCGTTCGCTTTCCCGACACGGACATTGCGGCGATTGCGCGCGGCTACGGCTGTGACGCCGTCACCGTGCGGTCGCTCGATGACCTTGGCGGGGTATCCACCTGGCTCCAGTCTGATCGGGACCGCCCCCTGGTGATCGATGCAAAGATCACCGGTCGACCGTCCTGGCTCATGGCCAGGGAAGGTGGTCACTAA	MAQIMKVADALGSVLVELGVSQVFGVVGSGNFRVTNALVASGARFVAARHEGGAASMADAYSRLTEEVSVLSLHQGCGLTNALTGVTEAAKCHTPLLVLAADTAVGDVTSNFHIDQDAAVLALGATPMRIHSAETAVSDAARAFRLAQTERTTVVLSMPIDLQEHEVPYPGARPVSNIRVPRPVVPAAEAAELADLLAKAERPVIIGGRGSRHAKGELRDVAAAAGALLIASGGGRGVFEGDDWALDIVGGFATESAADLVREADLIVAFGVALNDWTTRSGSLIEEVTLVHVDDRVEAIGKHRPVDLGIVGDAAAVARAACEVLTARGPSRVGYRTPEVAERVRRARYWSEQPVEPIDEPGFVDPVALTNALDAMVPEERVVVVDGGNVNAYPGAHLRVPDDAGYVLPLSFQCIGLGLGSAIGAAVARPDRMAVLGTGDGSLLMGAVELETAVRLRLGMLIVVYNDSAYGAEIHLFPESTPKEQEIVRFPDTDIAAIARGYGCDAVTVRSLDDLGGVSTWLQSDRDRPLVIDAKITGRPSWLMAREGGH	PGPT0008185_9067	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
D1-29_01218	1038			hypothetical protein	ATGATGCACGCCACCACAACCCATACCCGTCGGCTTATTGCCGCTGCCGGAGCGGCCGTAGCACTGGTCCTTGCAGGGTGCACCGCTGATCCCGAGGGCGGCGAAGCCGGCGAGGGCGGCACGATACGGGTCGCTTATCTGGCCACAGGGTCGGCCCTGCCGCTCTTTGTCACTGCTGAAAAATACGCCGAGGAGGCGGGTGTCAATGTAGAACTCGTGGAGGTCACTAGCGGTAACGAGTCCATCACCGGCGTTGCAACCGGTCAGTATGACGCGGGGTTCGCCGGAATCGGCTCCGCAGCCTACAACGCGTTCGCCGAGGGATTGCCTGTGCAGTACGTAGCACCGATGCACTTCGGCTACATCGAGGACTATTTCATCATCTCCTCGCAGCTCGCCGGGTCCAACGAGGAGGCGGCCAAGGTGGCAGAGGACATGTCGCAGTTGACGGGACAGGCGTTCGCCGCGAATGCCCCAGGGGTAGTGACCGAGGCACTGCTTGGCTTCGCCCTCGAACGCGGAGGACTGTCAATCGACCAGATCAGGCTCGAGTACATCCCCTTCCCCGATCAGGTACCAGCACTCGCCAACGGCGCGATTGCCGGGGGCATACTGTCAGAACCGTTCCCCACCCAGGCGGAACAGAATGGGTCCGGCTACCGTCCGTGGGAGACGCCGACGGATGACCCCCCGCTGCCGTTCACCGGCGTTATCTACAACACCGACTGGGCCGAGCAGAACCGGCAGGCGGCGGAGGACTTCATGCGCGCATACGCCAAGACCGCCGAAGATCTTGCCGACAACGGCTGGAACACCGAGGAAATGCTTGCGCTGGTGGAGAAGTACACCGGGGCGAATCCGGAGGTCATCGCGGCATCTCGGCAGCACCATATCCCCGCCGACCTGAGCGTCGATTTCGATGTGCTGCGCCGCTACCAGGAGTTCTTCATGGAGCGGGGCTCGCTGAAGTACAACGAGATTATCCCCGACGAAGAGATGTGGAACTTCACATGGCGTGACGCAGCGCTCGGGAACTGA	MMHATTTHTRRLIAAAGAAVALVLAGCTADPEGGEAGEGGTIRVAYLATGSALPLFVTAEKYAEEAGVNVELVEVTSGNESITGVATGQYDAGFAGIGSAAYNAFAEGLPVQYVAPMHFGYIEDYFIISSQLAGSNEEAAKVAEDMSQLTGQAFAANAPGVVTEALLGFALERGGLSIDQIRLEYIPFPDQVPALANGAIAGGILSEPFPTQAEQNGSGYRPWETPTDDPPLPFTGVIYNTDWAEQNRQAAEDFMRAYAKTAEDLADNGWNTEEMLALVEKYTGANPEVIAASRQHHIPADLSVDFDVLRRYQEFFMERGSLKYNEIIPDEEMWNFTWRDAALGN	PGPT0001135_2300	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
D1-29_01219	792	nrtD_1	COG1116	Nitrate import ATP-binding protein NrtD	ATGAGCGCACCTCCCAAGGCAAAGGTCCGGCTGCTGGACGTGGCCAAACAGTTTCCGGGACGGGAGAACGTGACCGCGCTGGAGGATGTTTCCCTGGAGATCGCCGAGGCTGAATTCGTAGCGATCGTGGGACCATCGGGATGCGGGAAGTCGACCCTCCTGCGGCTGGTGGCCGGGCTCTACGAGCCCTCCTCCGGGACAGTCAGCATTGAAAGCTCCAAGCCCGACCGGCCGAAGACGGCGATGGTTTTCCAGGAGCACGCCCTGTTCCCCTGGATGTCGGTGCGTGAGAACGTCATGTTCGGGCCGCGCAACCGCAATGTGTCCAAGAAGGAGGCTGCCGAGATCGCTGACGAGCAGCTGGCGCAGCTCGGTCTGGCACGTTTTGGCGACTTCTTTCCCCACCAGCTCTCGGGCGGGATGAAGCAGCGCGTCGGCATTGCTCGCGCGCTTGCCCAGGATGCCGAGGTCCTGCTCATGGACGAGCCGCTCGGGGCGCTCGACGCCCAGACCCGAACTCTGTTACAGGAGCAGATCCTGGAATTGCGGCAGCAGACAAAGCCGACTGTCTTGTACATTACGCACGCGATCGACGAGGCGGTGTTCCTCTCTGACCGGGTGGTACTTATGACGGCTCGGCCAGGCCGCATCCGCGACATCGTCGAGCTCGACTTCGGCCCCGACCGTACTCCTGAGTTGCGCGGCACGCCAGAATTCGCAGCATTGTCGCAGGACATCTGGAACCACCTTCGGGACGAGGTACAGGCTGCCATAGCGATGGACGACCGGTGA	MSAPPKAKVRLLDVAKQFPGRENVTALEDVSLEIAEAEFVAIVGPSGCGKSTLLRLVAGLYEPSSGTVSIESSKPDRPKTAMVFQEHALFPWMSVRENVMFGPRNRNVSKKEAAEIADEQLAQLGLARFGDFFPHQLSGGMKQRVGIARALAQDAEVLLMDEPLGALDAQTRTLLQEQILELRQQTKPTVLYITHAIDEAVFLSDRVVLMTARPGRIRDIVELDFGPDRTPELRGTPEFAALSQDIWNHLRDEVQAAIAMDDR	PGPT0001140_4964	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
D1-29_01220	780	ssuC_2	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGCTGCGCGCCCTCCGTGAAAAGTGGGCCCTGCTCGTTGGTCCGGCGGGCATCCTCCTGGCATGGGAACTCCTCAGCCGCACCCACGTCATCCGCCCAACGTTCTTTCCGGCCCCAACCGAGATAGTTGCCCGCGGCGTGATCGTATTCGACCCCGGATCAGGGCTGGGCGGGGACATCATTGCAACGGTGCTGCGAGTGCTCGCGACGATCGCCCTCGCGGTGCTCCTCGGGGTCGCAGCCGGGATCGCGATCACCGCGTCCCAGTGGATGGAGCGCGGCACCAATACGCTTCTGGCGTTCCTGTATCCCATTCCCGGCGTACTCTTCTTCCCCTTCCTGACGTTCCTTCTGGGCCGTACGGAAATGGCTCTCATCCTTACCGCGCTGGTGACCCCACTGATCGTGATGGTCCTGTATACGGTGGCCGGAGTGCGTAGCATCGACCGCACCCTCATTGAGGTGGCGGACAACTACGGCTCTCGGGGCACCCGGCGCTTCTTCCGCATCCTTGTCCCCGGCGCCCTTCCGTCGATTGTCACCGGCATCCGCGTCTCGCTCGGCTTCACATTGATCGCGGTGATCGCTATCGAAATGGTCGGGGCCTCGAACGGGTTGGGGCAGTTCCTCTGGTCGAACTGGCAGATCTTGCGGGTCACTGACATGTATGTCGCGCTGTTGATCATCGCGGTGCTCGGCCTGCTCAGCTCGGTCGGATTCGATTCGGTCGCTGACCGGATGCTGCCGTGGCGTCGAGACGTGAAGGGGGCCCAGGCATGA	MLRALREKWALLVGPAGILLAWELLSRTHVIRPTFFPAPTEIVARGVIVFDPGSGLGGDIIATVLRVLATIALAVLLGVAAGIAITASQWMERGTNTLLAFLYPIPGVLFFPFLTFLLGRTEMALILTALVTPLIVMVLYTVAGVRSIDRTLIEVADNYGSRGTRRFFRILVPGALPSIVTGIRVSLGFTLIAVIAIEMVGASNGLGQFLWSNWQILRVTDMYVALLIIAVLGLLSSVGFDSVADRMLPWRRDVKGAQA	PGPT0001145_6674	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
D1-29_01221	789	ssuC_3	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGAGCCCGTCGGTGCGCGGATGGGCGCAGACCTGGACCATACCGGTTGTGGTCCTCATGCTGTGGGAGGTCAGCACCCGTGCGGGCCTGCTGGATCCGCGGTTCTTCCCTCCGCTCAGCAACATAGCCGTCACTGGCGTCGACCAACTCCTGAATGGGCGGCTTGGCCTTGACCTGTTGCTCACGATCCAACGGCTGCTGTTGGCGTTCACGCTCGCGGCGGGCCTTGGGGTTGTGATCGGTGTCGCGTCGGGACGGTGGCGAATCGTTGAGTTGCTGATCCGGCCGGTCACCGACACGCTGTACCCTCTGCCTAAGATCGCGCTTCTTCCCCTGTTCATCATCATCTTCGGCCGCGGCGAGGTCGCCTACATCACCACCGCCTTTGCCACCGGATTCTTTCAGATCATCATTAGCACGCGCGGGAGCGTGCGGGATATATCGACGGACCTGATCGAGGCTGGCCGCAATTTCGGCGCGACGGGGGTGCGGTTCTTCACCCGGCTGCTGTTTCCTGCCATAGCCCCGGGACTGCTTAACGGCCTGCGGCTGGGGATGGCGACCTGCCTGATCACGCTGATCGCCGCCGAGTTTGTGGGAGCCCAGTACGGACTGGGGGCCCTGATACGCCGGGCGGGACAACAGTTCGCTGTGGAAGAAGTGTATGCGGGACTTGCACTCACCGGGCTGCTGGGCCTGCTGATCAACGTCGCTTTCCGGCTCGTCACGCCGCTTGTGCTCCCGTGGGAGCGGCGAGCACATCGCGCGGATAGCGGGCAGAAGGCGTAG	MSPSVRGWAQTWTIPVVVLMLWEVSTRAGLLDPRFFPPLSNIAVTGVDQLLNGRLGLDLLLTIQRLLLAFTLAAGLGVVIGVASGRWRIVELLIRPVTDTLYPLPKIALLPLFIIIFGRGEVAYITTAFATGFFQIIISTRGSVRDISTDLIEAGRNFGATGVRFFTRLLFPAIAPGLLNGLRLGMATCLITLIAAEFVGAQYGLGALIRRAGQQFAVEEVYAGLALTGLLGLLINVAFRLVTPLVLPWERRAHRADSGQKA	PGPT0001145_6306	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
D1-29_01222	789			hypothetical protein	GTGCATCAGGACGCCGTCCGTTTCCTGTCCCAGCCGATGACGGCCCAGCCCGGCTCACCGCTCCGGGTTGCCGTCTACTCCCGGATCGCCGAGGCAATCCGCAACAACCTGCTGCAGCCCGGCTCCATGCTCCCCACCGAAACCGAGCTCGGCACGGACATGAAGGTCAGCCGCACCGTGGTCCGCGAAGCCCTCATGCTCCTCGAAGAGGACGGCCTCATCAGGGCCCGCCGCGGGGTCGGCCGGTTTGTCTCCGACACGCTCCCCCGCATCGGGATCGAGCGGATCCGGCCCTTCGAGGAAGTCCTTGGCGGGCCCGGGCAGCACCTCGAGATCAAACGGGTCCGGATCGAGCGGGAGGCCGCCTCCGAGTTCGTCGCCCCCGGCGTAGCGGTCGATCCCGGCGCGGACTGCTGGATCTGGGAGTCGGTCCTGATCCGCGACGGCGAAGCCATCGCCCACTTGCAGGAAAACATCTCCGCGCTGCCGGTCAGCTTTGGCAGCGGTTCCGGTGAGGCTGCACCATTGGAGCTCGACGACGGCGGTGGCACCACGCTGCTCGCCGCCCTGAACCAGCACGCCGGACGGGTCCTGGGTCCGGGCGAATGCCAGATCAGCCTGAGCCAGGTGGGCCCGAGCCGGGCCAAGCTTCTGGACCTGCGGGCCTCGGACCCCGTCCTTGTGCTGACGCAGTACGTCAAGCATGCGAACCGGCCGTTCTACCTGTCGAAATGCCTGATCGCGGCCCGGGCAGGGCACCTGTCGGTGATGCAGTCCGTCCAGTCCTGA	MHQDAVRFLSQPMTAQPGSPLRVAVYSRIAEAIRNNLLQPGSMLPTETELGTDMKVSRTVVREALMLLEEDGLIRARRGVGRFVSDTLPRIGIERIRPFEEVLGGPGQHLEIKRVRIEREAASEFVAPGVAVDPGADCWIWESVLIRDGEAIAHLQENISALPVSFGSGSGEAAPLELDDGGGTTLLAALNQHAGRVLGPGECQISLSQVGPSRAKLLDLRASDPVLVLTQYVKHANRPFYLSKCLIAARAGHLSVMQSVQS				NA	NA	NA	NA	NA
D1-29_01223	228			hypothetical protein	ATGCGCGAGCGTGGCTTTCGGCAGGTTCAGCTGTGGGTCCCGGACACGCGCACGGAGGAATTCAAGCGCGAAGCCTGGCGGCAGGCCCTGGCAGTGGCCGCCGCGGACCGTGCCGGCGACAACCAGGACTTCATTGAGCAGACTTCGGAAGACTGGCCGGAGTGGACCGAGGCGAACTGTGGACGGTCTCAGACGGAACGTACGCGCAAAAGCCCGGGCCGGCACTGA	MRERGFRQVQLWVPDTRTEEFKREAWRQALAVAAADRAGDNQDFIEQTSEDWPEWTEANCGRSQTERTRKSPGRH				NA	NA	NA	NA	NA
D1-29_01224	1032			hypothetical protein	GTGAACGGTTACCGCATCAGCTCGCCGACGGAACTGACTCACGGGGATTTGGTTCAGTTCGGCCAGGCCAGGCTGCGGTTCATCGACAGGAACGCTGACGGCCGCGGCACACCCTCCGGGACGGGCGGCAAGAAGGGAACGACGCCGGCCCCGCAGCCGCCGGGGGGACGGCTGGGAACGGCACTGATGTACGCCGCCGGCATCAACGTCGTCGGGAGTCTAGGCAACAGCCTCGCCGCCTTCCTGACCGAGCTGACGCCCACCTGGACATGGTTCATCACCCCCTTCATCGGGTTGCTGGTGGCCCTGCTGATAGAGACCCTCGGGTATTACCGGAAGGGACCCGGCACCCCGCAGCGGCCGCCCTCCGGCCACGAACCAAGGCCCCACGAACCCGGGCCGGAGCGCAGGCCTGCCCCGCAGCGGCCGCTGGCCGTCACCGTGCTCCTCACGCTGTTGCTGCTGGGAGGCGGCGGATGGCTGGCCGCCGCCGGGGTTAGCTACGCCGTCGGCTACTTCTCCGGCAACGAAGACGGCGTGCAGCGGCTGGAACGCCAGGTGGTGGCCGAAGCGCAGGGGGTTCGGGTGACGGTCCTGGGCGTCCAAAGCACAGCCCACTTCACCCGGGTGGGGATCCTGGTCAGCAACGGGACCAGCAGCTCGATATCCCTGCCGCTGTTCCAGAACGCGCTGCTCACCGGCCCGGGCGGCACCACCGTCGACGCCAGTGCCTTCCGCAGCAACTGGCAGCCCAAGATACCGGCCGGCGTGCAGCGCAGGGAACCCTCAACTTCGAAAGCCAGCTGCCCGAAGGGCCTACGACGGTGTCGCTCAGCTTCGCCACGGTCTTTGTGCAGGGCTTCGACGGCCCCCCGTCCATCACAGTTCCGAACATTCCCCTCAAGCCGCTGGACACTGAGGTTTCGGCGTCGGCTGCAGGGGTTTCCGGCCCTTGCTTTTCGCCACCGGGCGGTCCTTACTGATGGAAGGAACCTGCCATCCGGGTGGATTCTGGATGACCTGTTTGCGTAA	MNGYRISSPTELTHGDLVQFGQARLRFIDRNADGRGTPSGTGGKKGTTPAPQPPGGRLGTALMYAAGINVVGSLGNSLAAFLTELTPTWTWFITPFIGLLVALLIETLGYYRKGPGTPQRPPSGHEPRPHEPGPERRPAPQRPLAVTVLLTLLLLGGGGWLAAAGVSYAVGYFSGNEDGVQRLERQVVAEAQGVRVTVLGVQSTAHFTRVGILVSNGTSSSISLPLFQNALLTGPGGTTVDASAFRSNWQPKIPAGVQRREPSTSKASCPKGLRRCRSASPRSLCRASTAPRPSQFRTFPSSRWTLRFRRRLQGFPALAFRHRAVLTDGRNLPSGWILDDLFA				NA	NA	NA	NA	NA
D1-29_01225	1269			hypothetical protein	GTGCCGGCTGATTCCCCCTCCGGCTGGACCACGCTGGCAGACCTGCGGGCGCAGTCGCTGAAGGCGTGGACCAGCGGTGCACTGCTGCGCGAACTGCTGGAGCCCAGCGGGCTGTACCCCCGCCGTCGTGCGTTGAAGCGTCCGACGGCGGCATCCCTCTTGAGCGATTATGCGGCGGCACGTGCGTGGGCAGCTGAGCTGCTGGCCGCCGTCGGTCCCTTCACCCTGGAGACGGCAGAGGTGGGCCGCACCACGATCGGCTCCAACAAGCTTCCCGCGGCGGCGGTGTTCGCGTCTGCCAGCGATGAGGTTGCGTTTGTAGGCAGGGTCAAGGACGCGGCCAGGTTTGTTGAGCTTGCCGACCGGCTGGCCGCTCTGGACCCCGCGTTCCGTGCCTGGGCAATTCGGCGGCCACTCAAGCTGCTGGACCTTGGGACTAATGCGCTGACGGCTGGCCGGGTGGCACTGTGGCTCCGCGACAATCCGGAACCAGGTGTTTACGTCCGGCAGCTGAGCCTGCCGGGAGTGCACACCAAGTTCATCGAGACCCATCGGCGGGTGATCGAGGAACTGGTGGAGGCCCTGCGTCCGTCGGCGCTCTCCGAAGGTGAGCCCTCCGATGAGATCAGTCCGGACGTGCCGGCGGAACCCGGTTCCCTACTGGGGCAGCCGGCGGCGCGGACTCCTGCGGCCCGCTTCGCGGCGAGGCACGGGTTTGTGCATCCGCCCGAGCTGGTCAGGTTCCGGCTGCTGGACCCTGGCGTGCCGCTGCTGGGTGAGGTCCGCGATCTGACGGTGACGGCGGAGGCGTTCCGCTCCCTGAGCTTGCCGGTCCGGACGGTGCTTGTCACCGAGAACCTGGTCAACTTCCTGGCGCTGCCCGAACGGCCCGGCGCTGTTGCGATCTACGGCGGCGGGTACGGTTTTTCTTCCCTCCGCGATGCCGACTGGCTGCGGGACTGCGAAGTCCTGTACTGGGGCGACCTGGACACTCACGGCTTCCGGATCCTGGACCAGCTCCGAGCGGTCCACCCGCACGTGGCCAGTGTGCTGATGGATGAGGAGACCCTGCTGGAGCACCGGGATGTTTGGGGAAGGGAACCGTCGCCGTCCCGGGCTGCGCTCAGCAGGCTGACCGCCGAAGAATCAGCGCTCTATGAAGCGCTGGGCCGTGACTCCTATGGCCCGTCCGTCAGGCTGGAGCAGGAGCTGATCCGCTGGGACTGGGCTCTGGCACGGCTTGCGGGGAACTGCAACGCAAATGCGTAA	MPADSPSGWTTLADLRAQSLKAWTSGALLRELLEPSGLYPRRRALKRPTAASLLSDYAAARAWAAELLAAVGPFTLETAEVGRTTIGSNKLPAAAVFASASDEVAFVGRVKDAARFVELADRLAALDPAFRAWAIRRPLKLLDLGTNALTAGRVALWLRDNPEPGVYVRQLSLPGVHTKFIETHRRVIEELVEALRPSALSEGEPSDEISPDVPAEPGSLLGQPAARTPAARFAARHGFVHPPELVRFRLLDPGVPLLGEVRDLTVTAEAFRSLSLPVRTVLVTENLVNFLALPERPGAVAIYGGGYGFSSLRDADWLRDCEVLYWGDLDTHGFRILDQLRAVHPHVASVLMDEETLLEHRDVWGREPSPSRAALSRLTAEESALYEALGRDSYGPSVRLEQELIRWDWALARLAGNCNANA				NA	NA	NA	NA	NA
D1-29_01226	3438	smc_1		Chromosome partition protein Smc	GTGACCGCGGACCTGCAGGACAGCCTTTTCAGCCTGGAGCCTACGGAACAGGACACTACGGACGACGCCGGCACTCCCCCGGGATACCGGCTGCACCGTTTGGAGCTGCTCAACTGGGGCACGTTCCACCAGGGCGTGCGCACGTTCCGCCTGGACGGCGCCAACAGCCTCCTCACCGGAGACATCGGCTCAGGCAAATCCACCGTCGTGGACGCGATCACCACCCTGCTTCTCCCCGCGAACAAGATCGAATACAACAAGGCCGCGGGGGCGCAGAAGAAGGAACGCTCCCTCATGTCCTACGTGCGGGGGTACCACAAGAGCACGCGCAGCACCGGCGGGGAAAACTCCAAACCGGTGTCGCTGCGTGGAACGGGTGCGCTCACCGTGGTGCTGGCTGTGTTCCACAACGCGGCGCTCAACAAGTCCGTCACGCTGGCCATCACGCTGTGGGCTGTCCAGGAGGCCGGCACGCCCAACCGCTTCTACTCGCTCGCGGAAAGGGACCAGTCCATCGCCGCAAACTTCTCCAACTTCGGCCAGGACCCAGCCAAGCTCAAGAAAAGGCTGAAGGCCGACGGCGCCGCTGTCCATGACACGTTCGAGCCCTACGCCGCAGCCTTCAAGCGGCAGTTCGGCATCAGCGGAAACCAGGCCATGGAGCTGTTCCACGGCACGGTGTCCATGAAGCAGGTGGAGAACATCACCCACTTCGTGCGCACCAACATGCTGGACGAGGACGACGTCGAAGCCCGGATCGGCAAACTGATCAGCCACTTCGATGACCTGAAGAAGGCCCACGGCGCCGTGCTTCGCGCCAAGGACCAAATCAGCTTGCTGGCGCCCATTCGCGAGGGAGCCGCCAGGCACGCCACGCTGACGGCAGAGGACGAGCTGGCCCGGGCCCAGCGGGACCAGCTGCACCCCTGGTTCACCAACCAGCGCCTCATCCTGAGCCTGGAGCACGCGGCCGAACTGGAGAGCACCGGAAAACGGCTGCGCGAGGACAACAAGTCCCTCACCGCCCGGATCACGGAACTCCGGCACCAGCTCACCGCCGTGGCCGACGACATCCGCTCCAACGGCGGCGGCCGGCTCGCAGCCATCGACGCCGACATCGCCCGGCTCGGCACCGAGGCCGCATCACAGCGGACCCGCTACCAGACCTACGCCACAGCCGCGGCGGAACTGCACCTCCGCGCGCCGGAAGACCGGGTGCTGTTCGACGCGAACCGGGACCGGCTGGCCGCCGTCGAATCCGGGCTGGCTGATCAGTACAACGGGCTGCAGGAAAGCCGCACCGAACAGACCATGACGCGCACTGTCCTCACCGGACGCGCCGACGATCTCGCAGCGGAACTGACAAGTCTCCAGTCCCGGCGCAACCTGCTGCCGCTGCAGCAACTGGAGATCCGGCGCCGCCTGTGCGAGGGAACAGGCGCGGCGGAGAAGGACCTGCCGTTCGCCGGCGAGCTGCTGCGCGTCCGCGACGGCGAAGCAGGCTGGGAGGGCGCGGCAGAACGCACCCTGCGCGGCTTCGCGCTGTCGCTGCTGGTGCCGACGGAACACTACGCTGCCGTGAGCACTTGGGTGGACGCGAACAACCTGAAGGGCCGGCTGGTGTACCTGAAGGTGGGCGACGGGTACTCCCCCAGGGCCGCGGAACCCGGGACGCTGGCGGCCAAGATCGCCATTAAGCAGGGCACACCGTTCCGCGACTTCCTCCTGGATGAGCTGGCCAGCCGCTTCGATTACGTCTGCTGCGACAACCTGGCGGACTTCCGCCGCCATCCCAAAGCCCTCACCGCGAACGGCCAGCTGAAGGGCGGCCGCGGCCGGCATGAAAAGGACGATCGGAAGGACCTGGCGGACCGGCGCAACTACGTGCTGGGCTGGGACAACCAGGACAAGATCAACCGGTTCCGGTCCGAGCTGGACGAGGTCACCGGTCAGCTCCAGGTGGTGGGAACGCAGCTGGACAAGGTGGACCGGAAACTGGGCGAGATCGGCCGGAAGAACCAGCAGCTCGGTACCGTTCGGTCCGTCGCTGATTTCGGCGAGCTCAGCTGGGAAGTCACTGCCCGCCGGATCGAGGAGCTCAAGGAAGAGCGGCGCGCGCTGGAATCCGCCAGCGACGTCCTGCAGGAGCTGGCGGCCAAGGAAACCGCGCTGAACGCCGAGCTCACGCGGCAGTCGGACCGGGCAGACAAGATCCGGGAGCGGCTCGGCGCCAACAAGAAGGACAGCGAGAACCTCGCGGAGGCCATCGCGGAGTGCCGTGACCTGCTGCAGGAACAGCCACTGACGGACGACGCCGGGGTGCTGGCTTCCGTGGCCGGCCTGGCCGCCGCGGCGCCCGGGGAAAAAGTCCTCACTTACAAGAACACGGTGGCGGTTGAAAGCCTGGTCCGCTCCGGACTCACAGCCGCCATTGATGCGCTGTCCAAGCGGCTGGCCAGGGCGGAAACGGACACGGTGCGGCTGATGGCCGACTTCCGGAACAGGTACCCCACCGAGACCACCGAAATTGATGCATCCCTGGATGCCGCCGTCGACTACGAACGGCTGCTGGACCAGCTGGAGAAAAACGATCTTCCCAAGTACGAGGCTCACTTCAAGGAGTCCCTGAACCAGAACACCATCCACGAGGTGGTGGCGTTCAACGCGTTCCTGGACAGCCGCCGGCAGGACATCGTGAACCGGATCACCGAGATCAACCTGTCGCTGGCCACCATCGAGTACAACCGTGGCCGGCACATCCAGCTGGAGCACCAGAACACCACCGACCTGGACGTGCGCCAGTTCGGAACGGACCTGAGGGCCTGTTCGGAAGGCACCATCGGGGACGAGGACCAGTACTCCGAGCAGAAGTACCTGCAGGTGGAGCGGCTGATTGAGCGGTTCCGCGGGAGGGACGGCTTCACCAACCTGGACGAGCGCTGGACGGCGAAGGTCACGGACGTGCGGAACTGGTTCACGTTCTCCGCCTCGGAGAAGTGGACCGAGACCGGCGAGGAGTTCGAACACTTCACCGATTCCGGCGGCAAGTCCGGCGGGCAAAAGGAGAAGCTGGCCTACACGATTCTGGCCGCGGCCTTGGCGTTCCAGTTCGGCCTGGGAGCGGGACAGGGCGCCGGCCCGGCCGCCGGTGCCGGCGCCGGCTTGGGCAGGGGTGCCGGCAAGGGCCGCAGCTTTCGGTTTGTGGTGATCGACGAGGCGTTCGGGCGCGGCTCGGATGAGTCCGCGCGGTACGGCCTGGAGCTGTTCCAGCGGATGAAGCTGCAGCTGTTGATCGTCACGCCCCTGCAGAAGATCCACGTGATCGAGCCGTTTGTGGCACACGTGGGCTTCGTGGCCAACACCAATGGCAACGATTCCCAGCTGCGGAACATGACCATCCAGGAGTACCGCGACGAGCGAGACCGCCGTGCCGGCTGA	MTADLQDSLFSLEPTEQDTTDDAGTPPGYRLHRLELLNWGTFHQGVRTFRLDGANSLLTGDIGSGKSTVVDAITTLLLPANKIEYNKAAGAQKKERSLMSYVRGYHKSTRSTGGENSKPVSLRGTGALTVVLAVFHNAALNKSVTLAITLWAVQEAGTPNRFYSLAERDQSIAANFSNFGQDPAKLKKRLKADGAAVHDTFEPYAAAFKRQFGISGNQAMELFHGTVSMKQVENITHFVRTNMLDEDDVEARIGKLISHFDDLKKAHGAVLRAKDQISLLAPIREGAARHATLTAEDELARAQRDQLHPWFTNQRLILSLEHAAELESTGKRLREDNKSLTARITELRHQLTAVADDIRSNGGGRLAAIDADIARLGTEAASQRTRYQTYATAAAELHLRAPEDRVLFDANRDRLAAVESGLADQYNGLQESRTEQTMTRTVLTGRADDLAAELTSLQSRRNLLPLQQLEIRRRLCEGTGAAEKDLPFAGELLRVRDGEAGWEGAAERTLRGFALSLLVPTEHYAAVSTWVDANNLKGRLVYLKVGDGYSPRAAEPGTLAAKIAIKQGTPFRDFLLDELASRFDYVCCDNLADFRRHPKALTANGQLKGGRGRHEKDDRKDLADRRNYVLGWDNQDKINRFRSELDEVTGQLQVVGTQLDKVDRKLGEIGRKNQQLGTVRSVADFGELSWEVTARRIEELKEERRALESASDVLQELAAKETALNAELTRQSDRADKIRERLGANKKDSENLAEAIAECRDLLQEQPLTDDAGVLASVAGLAAAAPGEKVLTYKNTVAVESLVRSGLTAAIDALSKRLARAETDTVRLMADFRNRYPTETTEIDASLDAAVDYERLLDQLEKNDLPKYEAHFKESLNQNTIHEVVAFNAFLDSRRQDIVNRITEINLSLATIEYNRGRHIQLEHQNTTDLDVRQFGTDLRACSEGTIGDEDQYSEQKYLQVERLIERFRGRDGFTNLDERWTAKVTDVRNWFTFSASEKWTETGEEFEHFTDSGGKSGGQKEKLAYTILAAALAFQFGLGAGQGAGPAAGAGAGLGRGAGKGRSFRFVVIDEAFGRGSDESARYGLELFQRMKLQLLIVTPLQKIHVIEPFVAHVGFVANTNGNDSQLRNMTIQEYRDERDRRAG				NA	NA	NA	NA	NA
D1-29_01227	645			hypothetical protein	ATGAACACCACTGACACCACCGAAACACAGGCCCGCACCCCCGAGGAACTCCCCGGTGTGGTGACCCGGCTGTTCAGGGGCGTGGTGTACGCGGAGTCGGACGAGAAGGTCTGGCAGTCGCTGATCACCCTGGAGTCGCAGGCCCGCGACTACGTGGCCGTGCTGGGACTGGACCTGATCCTGGACGAGTCGGAGGGCTACGCGTTCCTGCGGTCCAGGGAGGATCCGGAGGGCAACCTTCCCCGGCTTATCCCCCGGCGCCGGCTGACCTTTGACGTCAGTCTCCTGCTGGCCCTGCTGCGCGGCCGGATGCTCGAGTTTGACACCAACAGCAGCGAGCTCAGGCTCATCATGACCGAGCAGGAGATCGCGGATATGGTGGCCGTGTTCCTGCCCGAATCCAGCAACCAGGCCCGCATCATGGACCGGCTCGGCGCCAACATCAAGAAGGTGGTGGAGCTCGGGTTCCTGCGCAAACTCCGCGGCCAGGCAGACACCTACGAGGTGGCCCGGATCCTGAAGGCCTACGTGGACGCCCAGTGGCTGGAGGAGTTCGACGCGCGGCTGGCGGACTACCGCGCCTCGCTCGCCGGAGCGTCGCCAACGGCCAGTACTCCGGACACAAACGAGGGGGAGCTCCCGTGA	MNTTDTTETQARTPEELPGVVTRLFRGVVYAESDEKVWQSLITLESQARDYVAVLGLDLILDESEGYAFLRSREDPEGNLPRLIPRRRLTFDVSLLLALLRGRMLEFDTNSSELRLIMTEQEIADMVAVFLPESSNQARIMDRLGANIKKVVELGFLRKLRGQADTYEVARILKAYVDAQWLEEFDARLADYRASLAGASPTASTPDTNEGELP				NA	NA	NA	NA	NA
D1-29_01228	1443			putative protein/MSMEI_1241	ATGGACTTCTACGACATCAGCGCCCTGCGTGATAACCATGCAGGCTGGTCTCTACTCCGCGCGCAGAACGCCCCGCTGGCCATCTCCTTCTTCATCAAGGCCTTTACCGGGCCCAACCAGCGCGACATCGGCCGCCAGGAGCTCATGGACCACCTCGACGACGTCCTGTTCGGCCTCAGGGACGTCTTCGGCGAGGACAAGTATCCCCGCTCTGCCTCAGAGTATCTGGATGACTGGGCTGCCCCCGAGCGGGCCTGGCTGCGCAAATACTATGTGCCCGGGCAGGACGAGCCGCGCTACGATCTGACGGCCGCGGCCGAGGACGTGGTGCGGTGGGTGGAAAGCCTGAGCGGACGGGATTTCGTGGCAACCCAGTCCCGGCTCACCAGCATCTTCGCCGTGCTCAAGGCCCTGGTCCAACAGTCGGAAACGGACCCCGAGGTCAGGCTCGCCGAGCTCCAGCGGCAGCGGGACGGGATCGACGCCGAGATGCAGCGGATCAGGGACGGCCATGTCAAGGTCATGACCGCCCCGGAGGCCCTGGATCACTTCCAGCAGCTGACCACCCTGGCGAAGGACCTCCTGTCCGATTTCCGTGAAGTCGAACAGAACTTCCGCAAGCTGGACCGCCAGGTCCGGGAACAGATCGCCACCTGGGAAGGCAGCCAAGGCGAGCTCCTGGAGTCGATTTTCGCCAACCAGCAGGGCATCAGCAGCTCACTCCAGGGCCGCACGTTCCAGGGTTTCTGGGACTACCTCATGTCGCCGCAGCTGCGCGGCGAACTGCAGGACCTGCTGCATCGCGCCACCGAAATCGAGGCGCTCTCCGGCGTTGAGGACCTGCACGCCGTGACCACGCTGCACCAGGACTGGCTGCCGGCTGTAGACCAGACGCAAGCAACGGTGCGGCAGCTCTCTGAGCAGATGCGCCGGCTTCTTGACGACAAGGTCTTCCTGGAAAACAAACGCATCATGCGGCTGATCCGCAGCATCGAGTCCGGTGCGCTGGGCACAAGGGAGGCGCCGCCGTCGGGCGTTTTTATGGACATCCCGGCACCGTCAGTGGACGTGGCGCTGCCGTTTGAGCGGCCCCTGTATGAGCCCAGCCGGAAGGTGATGGTGGACGACGCCGTCCTCACCGCCGACGACGCCGACGTGGACGCCGGCGCCCTGTTCAGCCAGTTCCATGTGGACAAGGAGCGCCTGAAAACCAATGTGGACGCGGTCCTGGCGGACGCGGAACAGGCCACCCTCGCCGAGATCACCAACGCCTATCCGCTCCAACAGGGCCTCGCCGAGATTGTGGCGTACTACCAGCTGGCCAGCGAATCCGAGTGGGCCAGCATCCGTGACGACGTTCCCCAGCAGCTGCAGTGGCACCTCCCGGACGGCAGCATCCGCGAAGCAACCATCGACCAGATCATTTTTGTGAGGCCGGCATGA	MDFYDISALRDNHAGWSLLRAQNAPLAISFFIKAFTGPNQRDIGRQELMDHLDDVLFGLRDVFGEDKYPRSASEYLDDWAAPERAWLRKYYVPGQDEPRYDLTAAAEDVVRWVESLSGRDFVATQSRLTSIFAVLKALVQQSETDPEVRLAELQRQRDGIDAEMQRIRDGHVKVMTAPEALDHFQQLTTLAKDLLSDFREVEQNFRKLDRQVREQIATWEGSQGELLESIFANQQGISSSLQGRTFQGFWDYLMSPQLRGELQDLLHRATEIEALSGVEDLHAVTTLHQDWLPAVDQTQATVRQLSEQMRRLLDDKVFLENKRIMRLIRSIESGALGTREAPPSGVFMDIPAPSVDVALPFERPLYEPSRKVMVDDAVLTADDADVDAGALFSQFHVDKERLKTNVDAVLADAEQATLAEITNAYPLQQGLAEIVAYYQLASESEWASIRDDVPQQLQWHLPDGSIREATIDQIIFVRPA				NA	NA	NA	NA	NA
D1-29_01229	876			hypothetical protein	ATGGCTTTTTCCTCTGGCGGGGACACTCGGGGTGTTGTGGCAGTGGTCGGTGCAACTGGCCGGCAGGGATCGGCCGTAGTCCGTCACCTGCTCAAGGACGGATGGCAGGTGCGTGCCCTGACCCGGAATCCCTCCAGCGACGCCGCACAGGCGCTGCTCGCGCTGGGTGCCGACGTCCAGCAGGCCGACACCGAGAATCCCGGCACTCTTCGGACGCCGTTCCAAGGGGCCTACGGGCTCTTCAACGTCCAGAATCCGCAGACAATCGGGGCCGAAGCTGAAGTGCGGCAGGGCCGCAATGTGGCGGAGGCAGCAGCTGAAGCCGGCATACGCCACGTGGTGTACGGGGCGGCGGGAGTCAGCGATCAACCGACAGGCGTGGGCTCCTGGGACTCCAAGCTGGTCATCGCCCAGCACTTCCGCGAAGTGGGACTGCCGCTTACCGTCCTCCGGCCCATGGCGTTCATGGAACTGATGACGGACAAAGGTTACTATCCGCAGTTTTCCACCTGGCACCTGATGCCAAAGCTGATGGGCCAGTCCCGGCCGGTGGGGTGGCTGTGCGTTGACGATCTGGGTGCCATCGCCGCCCGGACGTTCGCCGACCCCGAACGGTGGAGCGGTGCCGTGCTGGGACTGGCGTCCGACGTCCGGTCGATCGAGCAGTGCCGCACCATGTGGCAGGAACGCGCTGGGCGAAGGCCGCGTGGGTTACCGATGCCGGAGAAGCTCTTTGAACGGTTCGTGGGGAAGGACCTCACCACCATGTGGCGGTGGCTGCGGACCGGGCAGTTCGACATGAGCACCCAGACGACGCTCGACATTCTGCCGGAGGCCTTGAATGTACGGCAGTGGCTGTCGCAACTGCCCAAGTAG	MAFSSGGDTRGVVAVVGATGRQGSAVVRHLLKDGWQVRALTRNPSSDAAQALLALGADVQQADTENPGTLRTPFQGAYGLFNVQNPQTIGAEAEVRQGRNVAEAAAEAGIRHVVYGAAGVSDQPTGVGSWDSKLVIAQHFREVGLPLTVLRPMAFMELMTDKGYYPQFSTWHLMPKLMGQSRPVGWLCVDDLGAIAARTFADPERWSGAVLGLASDVRSIEQCRTMWQERAGRRPRGLPMPEKLFERFVGKDLTTMWRWLRTGQFDMSTQTTLDILPEALNVRQWLSQLPK				NA	NA	NA	NA	NA
D1-29_01230	534			hypothetical protein	ATGAGCGTATCGTCTTTCCGCATCGCCAAGCTGGCCCCCGGGTATGATCTGGGGGCTTTTGACTGCGGTGAGCCCTCGTACAACCAATGGCTGACCGATCATGCAATGCAGGCGGTTGACGCCGGAGCCAGCATGGTCTACCTGCTTCTGGAGGCGGCGCCAACTGCCCAGGAGCGCGTTGTCGGATACTTCGCGATTTGCCCAACTCTCGTAGTCCGCGATGACATGCCGAAGCCACTCCAACGAAAAGTGCTACGCAGCGCACCGGGCTGGCTCCTGGCCAAGTTGGCACTCGACCACACTAGGCGTGGCGACACAGCCCATCAGTGGGGCTCGCAGCTGCTGCGTGCGGCCTTGGAAAGAATCATCAGCGCCTCGGAGGTGGGCGGCGGCCAGATCATCGTCGTCGACGCGGACAACGCAGGGTTAGTTGGGTGGTACGAACGGCACGGGTTTGCTTCGACTGGCGGCAGCAACTTGAGGTTGTACATGAAGGTGGCTACGGCCAGGAAGTACCTCGGCCCCGCCGAATAG	MSVSSFRIAKLAPGYDLGAFDCGEPSYNQWLTDHAMQAVDAGASMVYLLLEAAPTAQERVVGYFAICPTLVVRDDMPKPLQRKVLRSAPGWLLAKLALDHTRRGDTAHQWGSQLLRAALERIISASEVGGGQIIVVDADNAGLVGWYERHGFASTGGSNLRLYMKVATARKYLGPAE				NA	NA	NA	NA	NA
D1-29_01231	270			hypothetical protein	ATGCCCAACACCAAATCACGTCGGCTTGAGTTGCGCACTGATGAGAGCACCGACGCCCTCATCACGGAAGCAGCCGAACTGCTTCACGTGACCAAGTCCGCGTTCGTGGCCGACGCTGCACGACAGGCCGCACAAAAGGTCGTCTCTCGCGCCGATATGACTCTCATGGCGCCCGAGGTCTTTGACGTCATGATGGCCTCCCTCGACACTCCCGATGAGTCCGCGGGGCTGGCGGAACTGGCCAGGCTCCCCCGGCTCATCGAACGATGA	MPNTKSRRLELRTDESTDALITEAAELLHVTKSAFVADAARQAAQKVVSRADMTLMAPEVFDVMMASLDTPDESAGLAELARLPRLIER				NA	NA	NA	NA	NA
D1-29_01232	339			hypothetical protein	ATGGGTTGGCTACTATACGTTGCCTTCCTTCTTGGCGTTCTCGTCCTCGCCTGCATCGTCTGGTGCGTGTGCAAACTGGCGCTCTGGCTCATGGACCTCCCCCGGCTCACTGGCCCCACGCCCGCTGTCGGCCCCAGGCCGAAAGTACCCCCGGTACCCCGTAAGCCGAAAGCAGCCCCGCTCCCCCAGCGGGCGAAAGTACCCCAAGTCCCCCGCCGGGCGGCAGCCGAGGTCACCTCCGACATCTGGCCCAAATGGACGGCGGCGCGCAGGCAGTACATGGACCGCGAGCTGTCCCTCTGGCAGGAGCAGTTCGACGCCCTGAGCTCCCGCGAGTAG	MGWLLYVAFLLGVLVLACIVWCVCKLALWLMDLPRLTGPTPAVGPRPKVPPVPRKPKAAPLPQRAKVPQVPRRAAAEVTSDIWPKWTAARRQYMDRELSLWQEQFDALSSRE				NA	NA	NA	NA	NA
D1-29_01233	633			hypothetical protein	ATGCAGGAAAAGGATTCTCTGCAGCCCGGAACAGGTGCCGGTCCGTACCTCACTGGAGCCGCCATGGCGCAATCGCGGTTCGTTGCTGTTGCTGCCGCGCTTGCCGGCTTCGCCTTCGGAGTTCGGGGCGTGCTGAATACTTTGGGCGAAATCAGATACTGGAGTCCGGAGACTCCGCTTGAATACACCGCCGTGGCACTGCTTTCTGTGGCGATGCTGTTCCTTAGCGCCGCCCTGTGGGCTCTTGGGAGCTTTTGGGCAACGCACGATCACCTGCCCGGGCAGGCCGCACAGTGGAGCCGGTTCGCGGTCCGCGTCGCCGCCGTCGCCGCTGTGCTCGTTTCGGTTTCCAACTTCCTGGAGGACTACCTGAGGCTGCGCTGGTTCGGGCTGACGTTCGTCATGGGTTCAATCGCGCTGCTCCTGGGCCTGCTGGCTGCAATCGTCCTGCGGCTGGCGGCACCCGGAGTGGACAAGGTGGAAGGCATCCTGCTCGTGGCGCTCACTGCCGGCGTGGTGCTGATGTCCTTTGCGATGGGCGTGGGCTCCGCGTCGCTTCTGCTGCTGGCCGCCTATCACGCCTGGTTCCGGGACCGGCGGCGCGTCGGGCCACGTGCCGCAGGAGCGACGTAA	MQEKDSLQPGTGAGPYLTGAAMAQSRFVAVAAALAGFAFGVRGVLNTLGEIRYWSPETPLEYTAVALLSVAMLFLSAALWALGSFWATHDHLPGQAAQWSRFAVRVAAVAAVLVSVSNFLEDYLRLRWFGLTFVMGSIALLLGLLAAIVLRLAAPGVDKVEGILLVALTAGVVLMSFAMGVGSASLLLLAAYHAWFRDRRRVGPRAAGAT				NA	NA	NA	NA	NA
D1-29_01234	1254			Thermophilic serine proteinase	ATGAAAAAGACTTTTATGGCTGGTTTCGCAGCGGCGATGATGGCGTTCGGGGCAGTGAATTCGGCAGTTGTGACCAACGCGGCGCCGCCCGAGCCATCCCACACGGCGGGGCAAATCATGGTCAAGTTCCGTGACAAAGCCGCGGCTGCGGGCACCCTGCGCCAGCATGGCCTCAGTGAGGGGCCGGGTATCGGTAGCACCGAAGCACAACTCATTAAGGTCCCGGCCGGCCAAGAACTCCGACTCATCGAGGCACTCAGCCGGAACCCGGCAGTGGAATACGCGGAGCCGGACCACATCGTTACTGCCGCCACAGATGACAAGTATTTCCCCAGTCAGTACGCGCTGCAAAACGACGGCCAGTCCTTCACCAACACCGCTGGCACACTGACGGTGGACAAGGGCACGGCGGATGCTGATGTGGACGCCGTCGAAGCGTGGACCGTCACCACCGGCCTCAGCATCAAAGTTGCCGTTCTGGATTCCGGTGTTGCCAACGACAACCCGGACATCCACCCGAAGGTGGTTGCACTCGCTAACTTCACCAACGGGGAGACTGGCGATGACAACTACGGCCATGGCACCCACGTGGCCGGCATCGTCGCGGCCACCGCCGACAACACTCAAGGCGTGGCTGGTACCTGCCGTGGCTGCAGCATCCTGGACGGCAAGGTGCTGAACGACAGCGGGGTCGGATCGAGCTCAGGCCTTGCGAACGGCATCAACTGGGGTGTCAGCAATGGTGCCAAGGTGATCAACATGAGCCTGGGGGTGCGGTCATCGCGAACGCTCGAATCTGCGGTCAACAACGCGTGGAACAAGGGTGTTGTGCTGGTGGGCGCGGCAGGCAACGGCGGCAATCAGACCAAGATCTACCCGGGGGCATATCCCAACGTGATTGCCGTTGGCGCCACCGACAACACCGATACCAAAGCGTCGTTCTCAACCTACGGAGCCAGCTGGGTGGACGTCGCGGCGCCGGGAGCCAACGTCTACTCAACGTTCCCCAACCACACATTCGTCCTCGGCACCCAGAACAAGCGCTCCTTCGGTTACGACGTCGGCAACGGAACCTCAATGTCTTCAGCTATCGTGGCCGGCGTTGCCGCAATGGTCTGGAGCTCACATCCCGGCGACACTCAGGCATGGATACGTGAATACGTTGAATCGACTGCCGAGATGAAATCCGGCCAGGAGACCTTCTGGGCACATGGCCGCGTCAACGCAGACAGGGCTGTCCGGGCTGTCCGGTAG	MKKTFMAGFAAAMMAFGAVNSAVVTNAAPPEPSHTAGQIMVKFRDKAAAAGTLRQHGLSEGPGIGSTEAQLIKVPAGQELRLIEALSRNPAVEYAEPDHIVTAATDDKYFPSQYALQNDGQSFTNTAGTLTVDKGTADADVDAVEAWTVTTGLSIKVAVLDSGVANDNPDIHPKVVALANFTNGETGDDNYGHGTHVAGIVAATADNTQGVAGTCRGCSILDGKVLNDSGVGSSSGLANGINWGVSNGAKVINMSLGVRSSRTLESAVNNAWNKGVVLVGAAGNGGNQTKIYPGAYPNVIAVGATDNTDTKASFSTYGASWVDVAAPGANVYSTFPNHTFVLGTQNKRSFGYDVGNGTSMSSAIVAGVAAMVWSSHPGDTQAWIREYVESTAEMKSGQETFWAHGRVNADRAVRAVR				NA	NA	NA	NA	NA
D1-29_01235	855			hypothetical protein	ATGGAACCGATTCGGGCCATCCTTCTTCCCGGGAGTGTGCTCCCCGCCCAGCTGGCCTATGGCGATCTTATTGAAGCCCTGGGACCCGGGGTACAGGCCGTCGCCAAGGACCTGGAACTCTACGCCGACGACGAGCCCCCGCCCGGTTGGAGCCTGGACACAGAGGTGGACGGCGTGCTCCGCGAGGCTGATGCCCTCGGTTGGGAGACGTTCCATCTGGTCGGATACTCAGGCGGCGGGGCGGCGGCGCTGGCTTTCGCCGCCAAGCACCCGGACAGGCTGCTCAGCCTGGCGCTGCTCGAGCCCGCCTGGGCGGGCAGCTGGGACTGGAGCCCCGCCCACGCAGAGCTCTGGAAGAAGTACGAGGAGCTGGAAGCCCTGCCGCCTGAGCAGTTCATGCCCGCCTTTATGAGGCTGGGAGTGAAGCCCGACGTCGTCCTTCCGCCGCCGCCGGGTCCCCCTCCGCCGTGGATGGCCAAGCGGCCCGCCGGGATCAAAGCCTTCCTGCGGACCTTCAAGAGCTATGACCTGGAGCGGGAGCGCCTGGCCGCCTTCCCGCGGCCTGTGTTCTTCGCCCTGGGCGGCCTGAGCAATCCGGATGACTACGGCGAAATTGCCGGCCGGCTGGCAAGGGTCTTCTTCCCGGACTTCCATCTGGAGGTGTTTCCCCACCGCCATCACTTCGACCCGCCACATCGGATCGAGCCGGAGCGGCTGGCTGAGCTGCTCCGCCGGCACTGGGAAGCTGCGGAAGGCAGCCCGGCCGCGGTGCCTGCAGACTTTCGCGTCCTGCCGGGCGTCACGTCAGAATCCAGCACTGCGGAGATTCTGGACGACGTCCGTGGGGACCGTTGA	MEPIRAILLPGSVLPAQLAYGDLIEALGPGVQAVAKDLELYADDEPPPGWSLDTEVDGVLREADALGWETFHLVGYSGGGAAALAFAAKHPDRLLSLALLEPAWAGSWDWSPAHAELWKKYEELEALPPEQFMPAFMRLGVKPDVVLPPPPGPPPPWMAKRPAGIKAFLRTFKSYDLERERLAAFPRPVFFALGGLSNPDDYGEIAGRLARVFFPDFHLEVFPHRHHFDPPHRIEPERLAELLRRHWEAAEGSPAAVPADFRVLPGVTSESSTAEILDDVRGDR				NA	NA	NA	NA	NA
D1-29_01236	873	pheA_2		Bifunctional chorismate mutase/prephenate dehydratase	ATGGTTCGAAATATTGCATACCAGGGTGAACCCGGGGCCAACTCACACATCGCCTGCTTGGAAATGTATCCAGACATGGAGGCAGTTCCCTGCGCCAGCTTCGAGGACGTCTTCGCGCTTGTCACGGCCGGCGAGGCGGATTTGGCGATGATTCCGATCGAGAACTCGATCGCCGGACGGGTCGCTGACATCCATGCCCTCCTCCCGGACTCCAACCTGCAGATTGTGGGTGAACATTTCCTCCGGATCCGCTTCGACCTGCTGGGGATACCCGGCAGCACGATCGAACAGGCCAGGGAAGTGCACAGCCATTTGCATGCCCTTGGCCAGTGCCGCAAGCTGATCCGTTCCCACGGGCTCAAGCCGGTGATCGCGGGGGACACCGCCGGTTCGGCACGGGAGGTGCGGGAATGGAATGACCCGTCAAAAGTCTCGCTGGCCCCACCGCTGGCAGCGGGAATGTACGGGCTCGATGTCCTCGCGTCCGACGTGGAGGATGACCCTACCAATACAACCCGCTTCGTGGTCCTTGGAGAGAAGCGTCCACTTCCGGCGCGCGAAGACCTGCCGGAGTCCGTCATCACCAGCCTGGTTTTCCGGGTCCGGAACGTTCCTTCTGCCCTCTACAAGGCGCTGGGAGGATTCGCCACCAACGGAGTCAACATGACCAGGCTCGAAAGCTATATGGTGGGCGCGGAGTTCGCCGCCACCATGTTCCTTGCCGATGTTGAAGGGCACCCGGAGGACACCCCTTTAAGCCTGGCACTGAACGAACTGGAGTTCTTCACATCTGAGGTACGGATCCTCGGCGTTTATGCAGCCCATCCTTACCGGACGGGCGTTGAAACCGCAGCCGGCCCGCCAGTCCGGTAG	MVRNIAYQGEPGANSHIACLEMYPDMEAVPCASFEDVFALVTAGEADLAMIPIENSIAGRVADIHALLPDSNLQIVGEHFLRIRFDLLGIPGSTIEQAREVHSHLHALGQCRKLIRSHGLKPVIAGDTAGSAREVREWNDPSKVSLAPPLAAGMYGLDVLASDVEDDPTNTTRFVVLGEKRPLPAREDLPESVITSLVFRVRNVPSALYKALGGFATNGVNMTRLESYMVGAEFAATMFLADVEGHPEDTPLSLALNELEFFTSEVRILGVYAAHPYRTGVETAAGPPVR				NA	NA	NA	NA	NA
D1-29_01237	783			hypothetical protein	ATGGAACCGATTCGGGCCATCCTGCTTCCCGGGAGCATCCTCCCTGCCCAGCTGGCCTATGGCGACCTGATCGAAGACCTGGCCCCGGGCGTTGATGCCATCGCCAAGGACCTGGAACTTTATGAGCGCGACGAGCCGCCGCCCGGATGGAGCTTGGGCACCGAGGTGGACGGCGTGCTCCGCGAAGCCGATGCGTTCGGCTGGGAGACGTTTCACCTTGTGGGCTATTCCGGGGGCGGCGCAGCGGCACTGGCGGTGGCCGCCGAGCACCCCGAGCGCCTGCTCAGCCTGGCGCTGCTCGAGCCCGCCTGGGCCGGCAGCTGGGACTGGAGCCCCGCCCACGAAGAACTGTGGAAGAAATACCGGGAACTGGAAGAACTTCCGCCGGATGAATTGATCCTGGAGTTCACCAGGCTGGGCGTGAAGCCCGACGTCGTCCTTCCGCCGCCCGTTGAAGGCGCCCCGCCGCCGCCGTGGATGGACAGGCGGCCCGCCGGCGTCAGGGCCTTCCTGGAGACGTTCAGGAGGTACGACCTGGACCGGGAAAAGCTCGCCGCCTTCCGCAAACCCGTGTTCTATGCCCTCGGCGGCCTGAGCAACCCGGACGCGTACGGGGAGATCGCGGACCGGCTGGCCAAGGTCTTCCCGGACTTCCGCGTCGAGGTGTTCGAGGAACGCCACCACTTCGACCCTCCGCACCGGGCCGAACCGCTGCGGCTGGCGGCGCTGCTGCGGGAGCTCTGGGACAGGGCCGAAGGCAGGGAGCATAACGTCGCCCTTTAA	MEPIRAILLPGSILPAQLAYGDLIEDLAPGVDAIAKDLELYERDEPPPGWSLGTEVDGVLREADAFGWETFHLVGYSGGGAAALAVAAEHPERLLSLALLEPAWAGSWDWSPAHEELWKKYRELEELPPDELILEFTRLGVKPDVVLPPPVEGAPPPPWMDRRPAGVRAFLETFRRYDLDREKLAAFRKPVFYALGGLSNPDAYGEIADRLAKVFPDFRVEVFEERHHFDPPHRAEPLRLAALLRELWDRAEGREHNVAL				NA	NA	NA	NA	NA
D1-29_01238	525			hypothetical protein	TTGGCCGGAGCATCCAATCAGGGCGGACCGCACTGGCGCCGGGTGGTGGCGGCGCTCGCAAACCGGGAAGCGCGGACCGCCTACGCGCAGATAGTGCTCGGGGCCAAGCCACCGGATGCGCTTGCCGAAATGCGCGAACAACGGTGCACCCGTGCTATCGAGGTGCTGCTGACAGCCGGCCTGGTGGAACGGACCGGCACCGGTGAACTGCAAGCCTCCGCCACCATCTTCCAGGACCTCCTCACCCAACAACCCAAGCGTGTGCCACAGACCGGGGTGGACCGTTTCATGCGCCTGGGCCGGATCGAGAGGTACCCGGCCAACATGGCACAGCGCCGGGAGCTGCTCGCCTGGATTGCCGGTGACGCCATCCGGCCGGGCGAGGAGCTCACGGAACAGCAGGTCAACGAACGGCTCCTGAGCTACACCGACGACGTTGTGCTGCTCCGCCGCTACCTGATCGACTTCGGCCTGCTGACGCGGACGCCGTCGGGATCCTCCTATTCCCGTCAGGAAGAACAATAG	MAGASNQGGPHWRRVVAALANREARTAYAQIVLGAKPPDALAEMREQRCTRAIEVLLTAGLVERTGTGELQASATIFQDLLTQQPKRVPQTGVDRFMRLGRIERYPANMAQRRELLAWIAGDAIRPGEELTEQQVNERLLSYTDDVVLLRRYLIDFGLLTRTPSGSSYSRQEEQ				NA	NA	NA	NA	NA
D1-29_01239	435			hypothetical protein	ATGTCACGGCCGCACGGCCACGCCTTCGAAAGGGTCAAGCTCATGAAGTTCGTCATCCTTATCCACTCCAAGCCGCAGCCGTGGGGACATCCCACCGGTGACTACGTGGCCGAGAACCTGGCTCTGCCGAAGGAGCAGCGCGAGCAGATGAATACCGAGTTCGACGCGCTGCTCACGCAGCTGCAGGAGAACGGCGAGCTGCTGGGCGGCGAAGCGCTCGCCGATCCGGCGACGTCGAAGCTGTACCGGTGGCAGTCAGGCAAGGCCATCGCCACGGACGGGCCGTACGCAGAGTCCAAAGAGCAGTTCGCCGGGTTCTTCATGATCGACGTTGCCACCCGCGGGCGGGCCGAGGAGATTGCCGCGGCGTTCTCCGGCCCCGGCGAGACGATTGAGCTGCGTCCGGCGATGTGGCCCGGCGCGGACGACCAGTAA	MSRPHGHAFERVKLMKFVILIHSKPQPWGHPTGDYVAENLALPKEQREQMNTEFDALLTQLQENGELLGGEALADPATSKLYRWQSGKAIATDGPYAESKEQFAGFFMIDVATRGRAEEIAAAFSGPGETIELRPAMWPGADDQ				NA	NA	NA	NA	NA
D1-29_01240	669			hypothetical protein	ATGCAGCATGGGTATACGAATACGACCCGGCGGGTGCCCGGCGCCGTTCTCAAGACGTACGCCGGCCCTGATTCCTCGGCGCGCCAGGACAACGAACTGCGGGTCCTGTGTGCCCTCGCCGGCCGGTATCCCGTGCCGGAAGTCCTGGACGTCGTGGACGAGGGGGCCGGTTCGCTGCTGCTTGGATTTGTTCCGGGCGGGCACGGCCAGGACCTTATCGACGCCGGCCGGGCGGAAGAGGTGCTGCATGCCTGTGGCCTGGCGCTGCGCGCCTTGCACAGCATCGACGTCGCCACGGTGTTTCCGCTGGGTTCAAACCGGGGGCACGTCCTGACCCACGGCGACTTCGGGCCAAACAACATACTCCTGGATTCGGCGTGTGCGGTGACGGCCGTCCTGGATTGGGAGTTCAGCGGCCCCGGCGAGGCGGTGCTGGATGTGGCGTGGTGCGAGTGGATCGTGCGCATGCATCACCCCGCTGCGGTGGGGTCGCTCCCGGCATTCCACCGTGCTTACGGGCCGGTTCCCCCGTGGCCCGTGCGGCAGGCCGCCATGATCAGCCGCTGTGTATGGCTGCAGGATTTCAGCCGGCGCATGGACCCCGACGGCGGCGGCCCTGCCCTGTGGCAGGACCGCGCAACCGTCACGGCCCAGTGGAGCGAGCACTAA	MQHGYTNTTRRVPGAVLKTYAGPDSSARQDNELRVLCALAGRYPVPEVLDVVDEGAGSLLLGFVPGGHGQDLIDAGRAEEVLHACGLALRALHSIDVATVFPLGSNRGHVLTHGDFGPNNILLDSACAVTAVLDWEFSGPGEAVLDVAWCEWIVRMHHPAAVGSLPAFHRAYGPVPPWPVRQAAMISRCVWLQDFSRRMDPDGGGPALWQDRATVTAQWSEH				NA	NA	NA	NA	NA
D1-29_01241	390			hypothetical protein	ATGGAAACGCAGGTCAGCGGAAGCACCGAACTCAAGGACGCGCCGCCGTCGTACATCGCTTCGATCATGGTCAGCGCTGTGGATGCCGAGCGGCTGGCTGCCTTCTGGTCCCAGTTCCTGAACCTCGAGGTGGCCTCGCGGATCGATCAGTTCATCTGGCTGGCGGCTGCCGGCCCGGGAGTGCCCCAACTGGGTTTCCAGCAGGTGGCCGACCCCACCGGCGGGCGGCGCCGCCTTCACCTGGACATCCATACCCCGGATGCGGCCAGCCTACGCAGGCACGCCGAGTCGCTGGGGGCCTCGTTTGTGGAGGGTCATGACATCGGCGATTTCCATTGGGACGTGATGCACGACCCCGAAGGCAACGAGTTCTGCATCGCCCAGGACTGA	METQVSGSTELKDAPPSYIASIMVSAVDAERLAAFWSQFLNLEVASRIDQFIWLAAAGPGVPQLGFQQVADPTGGRRRLHLDIHTPDAASLRRHAESLGASFVEGHDIGDFHWDVMHDPEGNEFCIAQD				NA	NA	NA	NA	NA
D1-29_01242	561			hypothetical protein	ATGGCGGTTGCTGTGGACATATTGAGCGGCGTAAGCGTGGACTGGCTCAAAGCTCTCACGTGGCTCTCTGCCATCGCCACCGGACTGCTGCTGGGCTTGTGGCGCCCCCGCCGTCTCCACTTGGCTGCGCTGGGGTCGGTGTTCGTTTTTCTGGTCGCCAACGCCGGGGCGGGCATCTACGTTCTGAACCACGTTGGTGACCCCCGCTGGAGCGGCAAAGATGAGGACCGTGTGGGGGTGCCCCCGCTCACTGATACGCCCGTGGTGGGACGTTTCCTGGAATCCCTCGAGACCCAGCTGCGTGGAATAGCTGACAACGTCAATGACTTCGTTGACTTCAGCGCTGCCCTTCCCCGGGCCATGGAGTTCTTTGTGGCCGCAGGCTGGGCGCTGGTCATTTCCCTGCCGCTGGCGCTCGCCGCCCTGATTGCCGGCTACCTCGAAGCAAGACGCCGGAAAGCCGAATTCCTCACGTACAAGCTTCAGGTGGAAGAGCTCAAACGTGACCTCGAAGACGTCAAGCGCCAACTCGCGTCACCGGAACGGGGGTCGCCGTCATGA	MAVAVDILSGVSVDWLKALTWLSAIATGLLLGLWRPRRLHLAALGSVFVFLVANAGAGIYVLNHVGDPRWSGKDEDRVGVPPLTDTPVVGRFLESLETQLRGIADNVNDFVDFSAALPRAMEFFVAAGWALVISLPLALAALIAGYLEARRRKAEFLTYKLQVEELKRDLEDVKRQLASPERGSPS				NA	NA	NA	NA	NA
D1-29_01243	489			hypothetical protein	ATGAAGCCGGTCATCCTGCTGGACATCGACGGCGTGCTGAACCCTGTGGTGCGTCCCGGCGCCGACCGTCCGGAACTGTCGCTGCCGGCCGGCAAAGTGGCCCTGGTGCGAAGGCTGGCACGGTGCGGCCGGATCGCCTGGGTGTCCACCTGGCCGCCGGATATGACTGCCGGACTGGAATCGCAGCTGGGGCTGGACGTTGCCTCCTTGCGTGTGACGCTTATGTTCCGTTCCGCCGATGATGAGGAGCCGACGCCGAAACTGCGGTCGGTGAGCCGGTGGCTGGCCCGGATGAGGGACTCCGGCGAGGCAGATTGGGACTCGGTGGTGTGGATCGACGACGTGCTCGGACCCGACGCCCGCGAGTGGGCACAGCAGTACGATCAGCCGGTCCTGCTGGAGAAACCGGTGCCTGGCCAGGGCCTGACAGAAGTGCACGTGGTGGCCGTCGAAGTGTTTATCGACAGCGGTGAAGAGACCGGGCGGTAG	MKPVILLDIDGVLNPVVRPGADRPELSLPAGKVALVRRLARCGRIAWVSTWPPDMTAGLESQLGLDVASLRVTLMFRSADDEEPTPKLRSVSRWLARMRDSGEADWDSVVWIDDVLGPDAREWAQQYDQPVLLEKPVPGQGLTEVHVVAVEVFIDSGEETGR				NA	NA	NA	NA	NA
D1-29_01244	762			2-dehydro-3,6-dideoxy-6-sulfogluconate aldolase	ATGAGCGCCGCATCATTCGCCGCCAAAGCCCGGGCCAACCAGATCGTCGTCGGATATTGGGTGGTCCTGGATTCACCGGTATCCACCGAGCGGGTGGCGCGGCTCGGTTACGACTATGTGGCGCTGGACGCGCAGCACGGCCTGATGGGCTATTCCGGCTGGCTCCACGGTTTGATGGCCATCGACGCCGCCGGTGCAGCCGGGATCGTCCGGGTACCGTCCAACAACGCCGCCTTCATCGGGCAGGCGCTCGACGCCGGTGCCGCCGGCGTCATTGTGCCGCTGGTTAACAACGCGGAGGAAGCCGCCGCGGCGGTGCGTGCCGTGCGCTACCCGCCGCACGGCATCCGGTCCTACGGACCCATGCGCTCCGGGCTCCGGATCGGGCCGGTGCCCGCGGAGGCAGACGCCACCGTCCTGTGCCTGGCCATGATCGAGACCCCTGAGGGGCTGGCCAACGTCCGGGAGATCTGCGCCGTTCCCGGGCTCGACGGCGTCTACATCGGACCGTCCGATCTTTGCCTTGCGGTGGGCGGCAGGTTCCCCGATGATCCGGAGGTGGCAGAAGAGTTCGACGCCGCCCTGGTCACCATCCGTGACGCGGCCCGGGACGCGGGCATCATCGCAGCCATCCACACCGGCAGCGGCGAGATCGCCAGGCGGCGGATCGCCGAGGGCTTTACGTTCGTGACAGTGTCCTCGGACCTGACCCACCTCGAAGCCGCGGCGGCGCAACATCTTTCGACTGCCCGGGGCGAGTAG	MSAASFAAKARANQIVVGYWVVLDSPVSTERVARLGYDYVALDAQHGLMGYSGWLHGLMAIDAAGAAGIVRVPSNNAAFIGQALDAGAAGVIVPLVNNAEEAAAAVRAVRYPPHGIRSYGPMRSGLRIGPVPAEADATVLCLAMIETPEGLANVREICAVPGLDGVYIGPSDLCLAVGGRFPDDPEVAEEFDAALVTIRDAARDAGIIAAIHTGSGEIARRRIAEGFTFVTVSSDLTHLEAAAAQHLSTARGE	PGPT0001575_1466	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001575-hpaI|hpcH-K02510	NA	NA
D1-29_01245	204	cspA_2	COG1278	putative cold shock protein A	ATGGCTACTGGTACCGTCAAATGGTTTAACGCTGAAAAGGGCTTCGGTTTCATTTCCCCCGATGACTCCTCACAGGACGTTTTCGCTCACTACTCCGCGATCGCCTCTTCCGGCTTCCGCTCACTCGAAGAGAACCAGAAGGTCTCCTTCGAGACCGAGCAGGGCCCCAAGGGCCCGCAGGCCGTCAACATCCAGGCACTCTAA	MATGTVKWFNAEKGFGFISPDDSSQDVFAHYSAIASSGFRSLEENQKVSFETEQGPKGPQAVNIQAL	PGPT0014675_6813	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-29_01246	477			hypothetical protein	ATGAAATCAGGTTGGGGGATCCTGGGTGTGCTGGCGGCCGCTGCGATCGGGGTTGTGCCGGCCACGGGCTGCACACCTTTGGCGTGCCCCGCCATCGGCTACGTCAGCAGCGTCACTGTGAATATCGAGGGAAATGTCGCGGCCGTCGATCAGGTGAGCCTGTGCGATAAGACCGGATGCTCCCAGCCGGAGCCCACGGCCGGGCCGGCACCGTCAAAGACGGTGGTCACCGAGTTCTCCCCCGCACCCCAGCCGACCGTCAGCATGGCACCGTTTTACAGCCGCCGCGCGGACAAGGACACGTGGGTGTTCACCGCGAATTCTGGCACGCCGTCGGAAGTCACCGTGAAGGCCATCGCGGCGGACGGCTCCGTCATTGCCGAGAAAGATCAGGATCTAGTGTGGACCAGGGTGGGTGGAACCGAACAGTGCGGCGGACCCATCACCACACCGCCCATCCAGTTTTCGGTGCCCTGA	MKSGWGILGVLAAAAIGVVPATGCTPLACPAIGYVSSVTVNIEGNVAAVDQVSLCDKTGCSQPEPTAGPAPSKTVVTEFSPAPQPTVSMAPFYSRRADKDTWVFTANSGTPSEVTVKAIAADGSVIAEKDQDLVWTRVGGTEQCGGPITTPPIQFSVP				NA	NA	NA	NA	NA
D1-29_01247	1281			hypothetical protein	ATGGCCACCATGCAAACAGCCGGTACCGTCCCCGCCTTTGACCTCCGGATCAGCATCGAGGATACCCGGCCCCTGGTGTGGCGCAGGCTGAAGGTGCCGGCCACGCTGACGGTGGAGGAGTTCCACTTGGCCGTGCAGGCCGCCTTCGGCTGGGAAAACCGCCACCTCTACGCTGTCCGCTTCGTGGACCGGACCGGGAAGCTGCGGGTCATTGTCGGTCCCGACGACGAATCGGAAGACCTGGACGCGGAGCCGCCCTCCGGCGTCGTCCTTTCCGATCTTCTGGCTGCCGGCAAGCCGGGAACCACGTTTGAATACGAATATGACTTCGGCGACGGCTGGACACATCACGTTCAGCTGCTGGGTTCCGCCGAGCTGCCGGCCGGGGAGATTGTTTGCGTAGACGGCGCCAACCGGGGACCGGTGGAGGATTCCGGCGGCCCCCACGGCTATGGACGGCTGCTGGAGATCCTGGCCGACCGGGCGCATCCGGAATACGAAGAGGCTTCTTACTGGACCTTCATGATGACTGGGCAGTACCGGCCGTCCTTTGACGCCACCACGTTCAGCCTGGCTACTGCCAACCGCAAGCTGCGGCTGCTGAGTCTCCAATGGTGGCCGCGAATCCGTACGGACGAGGAACGTGACGCCGTGATCCGGCCTGTCCGCTGGCTCCTCGAAATTGCTGCAGGCGATGGAGTGGAACTGACGAAGGACGGTTACCTGAAACCAGCCATGGTCCAGCGCGCACTGGATGAGCTCGGCTGGCGTGATTCCGTGATGGGCAAGGGGAACCGCGAGGCCAACGCGCTGCCCGTCCGGGAGCTCCGGGAGCACCTCCTCGCCTGGAAGCTGCTGCGTAAATTCAAGGGAGGGCTGGTTCTCACCCCTCGTGGAAAACGCGGGCTGGAGCGACCGGGGGATCTGTGGGACTACGTGGTTGATGCGGTGGCACTGCCGGAACACGATGCGGTTCGCCTTGTCACACGGCTGTACACGGAGTGGCATCTCAGCGGCGTTGCTCCGCCGAAGACCCGCCGTACCGAGGTCATCCACGCTGCGATGGAGAGCGTGGGGTTTGTGACCCGGTCCGGGCACCGCATCCCCGAGGACTGGGTCAGCGACATCAACCGGGTAGTCATGTGGAACTTCAAATGCCTGCATCTCATGGCGCCCAAGGAGCGCTACGGTGACAGGTCACTGCTTACCGACGGCGGCGTGAAGTTCCTGCTGAACGTCCGGGAGGTTGACGGGCTGTTTTCGGGTGGCCGGAAACAGTGA	MATMQTAGTVPAFDLRISIEDTRPLVWRRLKVPATLTVEEFHLAVQAAFGWENRHLYAVRFVDRTGKLRVIVGPDDESEDLDAEPPSGVVLSDLLAAGKPGTTFEYEYDFGDGWTHHVQLLGSAELPAGEIVCVDGANRGPVEDSGGPHGYGRLLEILADRAHPEYEEASYWTFMMTGQYRPSFDATTFSLATANRKLRLLSLQWWPRIRTDEERDAVIRPVRWLLEIAAGDGVELTKDGYLKPAMVQRALDELGWRDSVMGKGNREANALPVRELREHLLAWKLLRKFKGGLVLTPRGKRGLERPGDLWDYVVDAVALPEHDAVRLVTRLYTEWHLSGVAPPKTRRTEVIHAAMESVGFVTRSGHRIPEDWVSDINRVVMWNFKCLHLMAPKERYGDRSLLTDGGVKFLLNVREVDGLFSGGRKQ				NA	NA	NA	NA	NA
D1-29_01248	1857	ctaD_1	COG0843	putative cytochrome c oxidase subunit 1	ATGGGTAACCTGAAGGAAATCAGGACCTCGGAATGTCATTCCGGCCTGATGAGGGGGCTCATGCACACGGGCCCGTTGGCACCGTCCGGACGAGGTGAAAAATTGGCCATCACAGGACAATCATCTGAAGGGGTAGCCGCCACGGCATCGCCCGCGGTTGTACCGCGGCGCAAAGGCAGTCTCGTCGTCACGTGGCTTACCTCCACCGACCACAAAGTCATCGGGTACATGTACCTGATCTCGTCCTTTGTGTTCTTTATGATGGCCGGGGTGATGGCCCTGCTCATCAGGGCCGAGCTCTATGAACCCGGCATGCAGATCCTGCAGACCAAGGAGCAGTACAACCAGCTGTTTACGATGCACGGCACCATGATGCTGCTCATGTTCGCCACCCCGCTGTTTGCCGGGTTCACGAACGTCATCATGCCGCTGCAGATCGGCGCCCCGGACGTCGCGTTCCCCAGGTTGAACGCCCTGGCATTCTGGTTCTTCCTCTTCGGCTCAACCATCGCCGTCTCCGGTTTCATCACGCCCCAGGGCGCGGCGTCCTTTGGCTGGTTCGCCTACGCGCCGCTGAACAATACAACGTTCAGCCCCGGCGTCGGCGGCGACCTGTGGGTGTTCGGCCTGGCGCTGTCCGGCTTCGGCACCATCCTGGGTGCTGTCAACTTCATCACCACGATCGTCTGCATGCGCGCTCCTGGCATGACCATGTGGCGGATGCCCATCTTCACCTGGAACGCCCTGGTCACGTCCATCCTGGTGATCATGGCCTTCCCGCCGCTGGCCGCAGCCCTGTTCGGCCTCGGCGCTGACCGGCGGTTCGGCGCCCACATCTACGACCCGAACAACGGCGGTGCCGTCCTCTGGCAGCACCTGTTCTGGTTCTTCGGCCACCCCGAGGTGTACATCATCGCGCTGCCGTTCTTCGGCATCGTGTCCGAGATTTTCCCGGTCTTCAGCCGCAAGCCGGTCTTCGGTTACAAGGGCCTGGTCTACGCCACCATCGCCATCGCCGCCCTGTCCGTCACCGTGTGGGCGCACCACATGTACGTGACCGGCTCCGTGCTGCTGCCGTTCTTCGCCTTCATGACCATGCTGATCGCGGTGCCCACCGGGGTGAAGTTCTTCAACTGGATCGGCACCATGTGGGGCGGCTCGCTGACCTTTGAGACGCCCATGCTTTGGAGCCTGGGCTTCCTGGTGACCTTCCTGTTCGGCGGCCTGACCGGCATCATCCTGGCGTCGCCGCCGCTGGACTTCCACGTGTCCGACTCCTACTTTGTGGTGGCGCACTTCCACTACGTGGTGTTCGGGACCGTGGTGTTCGCGATGTTCGCCGGCTTCTACTTCTGGTGGCCAAAGTTCACCGGCACCATGCTCAACGAGCGCCTGGGCAAGATCCACTTCTGGATGCTGTTCCTGGGCTTCCACGGCACCTTCCTGATCCAGCACTGGCTCGGCGCCGTGGGCATGCCCCGCCGGTACGCGGACTACCTGGTGGAGGACAACTTCATGTGGATGAACCAGTTCTCCACCATCAGTTCCTACCTACTGGGCGCGTCCATGATCCCGTTCCTCTGGAACGTCTACGTCACGTGGCGGGCCGGCGAGAAGGTCACCGTGGACGATCCGTGGGGCTTCGGCGCTTCGCTGGAGTGGGCCACGTCCTGCCCGCCGCCGCGCCACAACTTCACGTCATTGCCGCGCATCCGCTCGGAGCGCCCAGCCCTGGACCTGCACCATCCGGAGATCAGGGTCCGCGAACATGAACCCGTCCACTCTCCGGCCGCCGCTGCCCTGGGCGCCGCCGACATCGGCGAGAAGGACGTCCGCGATCCCAGCCCGGACAAGTAG	MGNLKEIRTSECHSGLMRGLMHTGPLAPSGRGEKLAITGQSSEGVAATASPAVVPRRKGSLVVTWLTSTDHKVIGYMYLISSFVFFMMAGVMALLIRAELYEPGMQILQTKEQYNQLFTMHGTMMLLMFATPLFAGFTNVIMPLQIGAPDVAFPRLNALAFWFFLFGSTIAVSGFITPQGAASFGWFAYAPLNNTTFSPGVGGDLWVFGLALSGFGTILGAVNFITTIVCMRAPGMTMWRMPIFTWNALVTSILVIMAFPPLAAALFGLGADRRFGAHIYDPNNGGAVLWQHLFWFFGHPEVYIIALPFFGIVSEIFPVFSRKPVFGYKGLVYATIAIAALSVTVWAHHMYVTGSVLLPFFAFMTMLIAVPTGVKFFNWIGTMWGGSLTFETPMLWSLGFLVTFLFGGLTGIILASPPLDFHVSDSYFVVAHFHYVVFGTVVFAMFAGFYFWWPKFTGTMLNERLGKIHFWMLFLGFHGTFLIQHWLGAVGMPRRYADYLVEDNFMWMNQFSTISSYLLGASMIPFLWNVYVTWRAGEKVTVDDPWGFGASLEWATSCPPPRHNFTSLPRIRSERPALDLHHPEIRVREHEPVHSPAAAALGAADIGEKDVRDPSPDK	PGPT0004025_1119	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
D1-29_01249	735			hypothetical protein	ATGTCGACGGCGACAGTTGGGCCCGCAGATGAAGCGGACGACGGCGGGGCTTCCCCCGCGATGCAGGGACGCGTTCTTGAGGCGGTGGGCGTTGCCATCGCCTCCGGCATCCTCCCGCCGGGCAGCCGCCTCACCCTGGACACGCTTCAGCAGGAGTACGGGGTCTCGCGGACCGTCGCGCGGGACACGATGAAGGTTTTGGAGTCGATGAACCTCGTCTACTCGCGGCGCCGGGTTGGCATTGTGGTGCAGGAACGGGCGCTGTGGAATGTTTTTGACCCCAAGCTGGTGCGCTGGCGCCTTGCCTCCGACAGCCGCGCGGAACAGTACAGCAGCCTCACCGAGCTGCGGATCGCCGTCGAACCCATCGCCGCGGCCGGGGCCGCCCGCCGTGCCAGCGCAGCCGAGCGTGCCAAGCTGATTGCCCTCGCCGCCGAGCTGAGGCGGCTGGGTGAAGCCGGGGAACTGGAGGCGTTCCTGGCCGCCGATATCGAATTCCACTGCCTGCTGCTGCAGAGCTGCGGCAATGAGATGTTCACTGCCCTGGAAGGGATGGTGGCCGAGGTCCTGACCAGCCGGACCAAGCAGGGCCTGATGCCGTTCAGGCCTAGGGACGAAGCCCTTCAGGCGCACGAGGACGTTGCCGCCGCCGTCGCCCGCGGTGATGCGACCACCGCCGAGACCGCCATGCACCACATCCTGGACGAAGTGCGGAACGCGATGGGGCTGCCCTAA	MSTATVGPADEADDGGASPAMQGRVLEAVGVAIASGILPPGSRLTLDTLQQEYGVSRTVARDTMKVLESMNLVYSRRRVGIVVQERALWNVFDPKLVRWRLASDSRAEQYSSLTELRIAVEPIAAAGAARRASAAERAKLIALAAELRRLGEAGELEAFLAADIEFHCLLLQSCGNEMFTALEGMVAEVLTSRTKQGLMPFRPRDEALQAHEDVAAAVARGDATTAETAMHHILDEVRNAMGLP	PGPT0018085_98	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018085-dgoR-K19776	NA	NA
D1-29_01250	528		COG3265	Gluconokinase	ATGCAGTATCCAGCCACGCACCTGGTGGTGATGGGGGTGGCCGGTTCCGGCAAGTCCACCATCGCGGCGGCCCTTTCCCAGCAACTGGGCTGGGCCTGCGCCGAGGCGGACGAATTCCACCCGCAGGCCAACATCAACAAGATGAGCCAGGGGATTCCCCTGCAGGATGAGGACCGCTGGCCGTGGCTGCAGGAGATCCGTGACTGGATGACAGCCCAGGCTCAAAGCGGCCAGTCCACCGTGCTTACCTGTTCGGCCCTCAGGCAGAGTTACCGGCAACTGCTCTCCGAGGCTGAAGGCCGGGTCCTGTTCCTGCACCTGCACGGTGAAGCCGACCTGATTGGCCAGCGGATGCAGGGCCGGGAAGGGCACTTCATGCCGCCCACGCTCCTGCCCAGCCAGCTGGCCACGCTGGAACCGCTCAGCCCGGAGGAGCTTGCCCAGGGAAGCCTCCGCCTGGACATTTCCAACTCGCCGGAAGAGCTCGTCCGGGCCATCCTCGCCGCGCTCAAGCTCCCGGCCGCCTGA	MQYPATHLVVMGVAGSGKSTIAAALSQQLGWACAEADEFHPQANINKMSQGIPLQDEDRWPWLQEIRDWMTAQAQSGQSTVLTCSALRQSYRQLLSEAEGRVLFLHLHGEADLIGQRMQGREGHFMPPTLLPSQLATLEPLSPEELAQGSLRLDISNSPEELVRAILAALKLPAA	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
D1-29_01251	1404	ygbN_2	COG2610	Inner membrane permease YgbN	ATGACCATCGAAGGTTGGACCCAAACGATGGGCGCAGGCCCCCTGCTGCTCATCGCGGCGGCCGCAATAGGCGTCCTGCTGTTCCTGATCATCAAGCTGCGCATGCATGCCCTGATCGCCCTGATCGTGGTCAGCCTCGCCACCGCTTTCGCCACCGGAATCCCCGCGAACCAGGTGGTGCCGGTGCTGATCAACGGCTTTGGCACCACCCTGGGAACCGTGGCGCTCCTGGTGGGCCTGGGCGCCATGCTGGGCCGCATCGTGGAGACCAGCGGCGGGGCCAAGGTTTTGGCCGATTACCTGATCGGCGTCTTCGGTGAAAAGCGGGCCCCGTTCGCCCTGGGCCTCGCCTCGCTGATCTTCGGCTTCCCCATCTTCTTCGACGCCGGCCTGGTGGTGATGCTGCCCGTGGTCTTCGCCGTGGCCCACCGCCTGGGCGGGGGAGTGCTGCGGTTCGGCCTTCCCGCAGCCGGCGCCTTCTCCGTGATGCACATCTTCCTGCCGCCGCACCCGGGACCCGTCTCCGCGGCCGCCTTCTTCGACGCGAACATCGGCCTGGTCATGATCGCCGGCCTGATCGTCGCCATCCCCACCTGGTATGTGACCGCCTACCTCTACGGCCTGTACACCGGCAAGAAGCTGGTCCTTCCCGTGCCGGAAATCCTGGGCCATGCCAGTGCCGAAGCCGAATCACACCCGCCGCGCTTCCGCACCATCATCGGCCTGCTACTCCTGCCGCTGGTCTTGATCTTCATCAACACGGGCCTGAACACCCTTGCCTCCTCCGGCGTGCTGAGCGAAGGCGTCAGGAACGAGCAGTGGTTCCAGGTCCTGCGCACCATCGGCGAAACCCCGGTGGCGCTGCTGATCGCGGTCCTGGTGGCCATGTACGTCCTCGGTGCGCGGCGCGGAACCGCGAACGGTGCACTGGAGAAGCTGCTTGAATCTTCACTGGGCCCGGTCTGTTCCGTCATCCTCATCACCGGCGCCGGCGGCATGTTCGGCGGCGTCCTCCGGGCCTCCGGCATCGGCGACGCACTGGCCGACGTGCTGGGCAACCTGGGCATCCCGCTGATCCTGGCCGGCTTCCTGATCTCGGCCATCCTGCGCATCGCCCAGGGTTCCGCCACCGTGGCCCTGACCACCACCGCCGGGCTCATCGCCCCGGCGGTGGCGGCGGCGGGACTCACCGGTATGCAGGTTGCAGCCCTTGTGATCGCCGTGGCAGCCGGTTCCGTGGTGGTCTCGCACGTCAACGATTCCGGCTTCTGGCTCGTGGGACGTTTCTTCGGCATGGACGTCAAGACCACGCTGAAGACTTGGACTGTGATGGAAACCCTGATCGGTGTGATGGGCTTCGGTATCGCCGCCGTGATCTTCCTGCTGGCCGGGGTGGCGGGTTAG	MTIEGWTQTMGAGPLLLIAAAAIGVLLFLIIKLRMHALIALIVVSLATAFATGIPANQVVPVLINGFGTTLGTVALLVGLGAMLGRIVETSGGAKVLADYLIGVFGEKRAPFALGLASLIFGFPIFFDAGLVVMLPVVFAVAHRLGGGVLRFGLPAAGAFSVMHIFLPPHPGPVSAAAFFDANIGLVMIAGLIVAIPTWYVTAYLYGLYTGKKLVLPVPEILGHASAEAESHPPRFRTIIGLLLLPLVLIFINTGLNTLASSGVLSEGVRNEQWFQVLRTIGETPVALLIAVLVAMYVLGARRGTANGALEKLLESSLGPVCSVILITGAGGMFGGVLRASGIGDALADVLGNLGIPLILAGFLISAILRIAQGSATVALTTTAGLIAPAVAAAGLTGMQVAALVIAVAAGSVVVSHVNDSGFWLVGRFFGMDVKTTLKTWTVMETLIGVMGFGIAAVIFLLAGVAG	PGPT0001340_525	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
D1-29_01252	1239			IS110 family transposase ISArsp3	ATGGACATTATTCACGAACGCGCCGCGGGGATGGACATCTCAAAACGCGACGCAAAAGTCTGCGTGCGGGTGCCCGGGACTCGGGCCGGGACCTACACGTCAAAGGTCACGACCTGGGGCGCGACCACGCAATCGATCCTTGAGCTGCGCGAGTTCCTGGAACACGAGCACGTCACCGTTGTGGCGATGGAAGCGACCAGTGATTACTGGAAACCCTTCTTTTACCTGCTCGAAGAGACATTGCCAGTGATGCTCGTCAATGCCAAAGCTGCCCGAAACATCCCCGGCCGCAAAACCGACGTCTCAGACGCTGCCTGGCTGGCCCAACTGGCAACCCATGGGCTGCTGCGCGCCTCCTTCGTGCCACCAGAACCGATCCGTGAACTGCGGGACCTCACCCGGGCCCGTGCCCTCGCGACCCGGGACCGCGCCCGGGAAATCCAGCGGCTCGAGAAGTTCCTGGAGAGCTCCGGGATCAAGCTCTCCTCGGTGGTCTCTGACCTGACCGGGGTCTCTTCCCGGGACATGCTCGAAGCCCTCATCAGCGGAGAACGGAACCCGGAGGTCCTGGCCGGCATGGCCCGTGGAACGATGCGCTCGAAAATCCCCGCCCTCGTTGATGCACTCACCGGCAGGTTCAAACCCCACCACGCGTTCATGGCCCGGCTCCACCTGGACCAGATCGATGCCCACAACCGAACCATCCAGGCACTCACGGCACGGATCGAGGAGGCGATGGAGCCCTTTCGTGACGCCAGGGAAGCCCTGGCCACCATCCCCGGAGTCTCCCACCGAGTCGCCGAGGTAATCATCGCCGAAACCGGCGCGGACATGACAGTCTTTGAAACCCCTGGCCGGCTCGCATCCTGGACCGGCGTCTGCCCCAGCGCCCACGAATCCGCCGGTCGGATAAAATCAGCGCACATCCTTCCCGGCAACAAATACCTCAAAGCGGCTTTGGGCACCGCGGCCATGGCAGCGGCACAATCCAAAAACACTTACCTCGCCGCGAAATACCACCGCATCACGGTCCGAAGCGGCCGCAACAAAGCCATCGTCGCCGTCGCGCATTCCATCCTCACCGCAACCTGGCACATGCTCACCAACGGCGAGTGCTACACCGACCCCGGCGCCGACCACTACACCAGACTCAACCCGACCCGAGCCAGGAACAACGCCATCAAACAACTCAACAGCCTCGGCTACGACGTCACGGTCACCCCGGTCACCGCAGCCTGA	MDIIHERAAGMDISKRDAKVCVRVPGTRAGTYTSKVTTWGATTQSILELREFLEHEHVTVVAMEATSDYWKPFFYLLEETLPVMLVNAKAARNIPGRKTDVSDAAWLAQLATHGLLRASFVPPEPIRELRDLTRARALATRDRAREIQRLEKFLESSGIKLSSVVSDLTGVSSRDMLEALISGERNPEVLAGMARGTMRSKIPALVDALTGRFKPHHAFMARLHLDQIDAHNRTIQALTARIEEAMEPFRDAREALATIPGVSHRVAEVIIAETGADMTVFETPGRLASWTGVCPSAHESAGRIKSAHILPGNKYLKAALGTAAMAAAQSKNTYLAAKYHRITVRSGRNKAIVAVAHSILTATWHMLTNGECYTDPGADHYTRLNPTRARNNAIKQLNSLGYDVTVTPVTAA	PGPT0030635_671	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
D1-29_01253	378			hypothetical protein	ATGGAGATGCCCAAACCTTCAGAGGCTGACAAGGAGCGCTTCCGGTCTGTGGTGCCGGACAGGCCGGACGTGGTGGTCAAACCGATGTTCGGCAACCTCGGCGCCTTCGTGAACGGCAACATGTTTGCAGGACTGTTCGGCCCCACCATCGGCGTCAGGCTCTCCAGCGAAGACCGCACGGAGCTTGAAAGCACCGAGCGGACCGTGCCGTTCGGGCCGGTGGAACGTCCCATGGGCGGCTACGTCGGGCTGCCGGAGGTGTGGAACGCCGAAGGCGACGGCGACGACGCCCGGGTACGTGCCTGGATTGAAAAGGCGTTCGAGTACGTGGCGGACCTCCCGCCCGAGGAACCCAAGGCCCACGCGCCCCGCAAGTAA	MEMPKPSEADKERFRSVVPDRPDVVVKPMFGNLGAFVNGNMFAGLFGPTIGVRLSSEDRTELESTERTVPFGPVERPMGGYVGLPEVWNAEGDGDDARVRAWIEKAFEYVADLPPEEPKAHAPRK				NA	NA	NA	NA	NA
D1-29_01254	438			hypothetical protein	GTGGGCCAGCTGTTGGTCCGCCTGCTGGCGGAGTTCCGTCGCGAGCTTCTGGCAGAGGCGGAATCCCATGGCTACGGCGACCTGCGTCCCGCCCATCTGCAGATCACAGGGAACGTTGGGACCAAGGGAATACGCCTGACAGCCTTGGCCGCACGCGCCCAGCTCAGCCTGGCCGCGACGTCCGAACTGGTCAATGAGATGCAGGAGATGGGGTATCTGGAGCGCCGGCCTGATCCGGCCGATGCCAGGGCAAAACTGATCTTCCCCACCTCCCGTGGACTCCAGCTTCTGCGCGAGGCATCAAACAAGGTCAAGGAAATTGAGCAGCTCTGGGGCACGTACGCAGGGGAACAGCGGTTCGAGGAAGCGTTGCTGACACTTCAGGACGTCCTGGCCGCAACCCGAACAGCCGCGAAACGCTCGGACAAGGACGCCTGA	MGQLLVRLLAEFRRELLAEAESHGYGDLRPAHLQITGNVGTKGIRLTALAARAQLSLAATSELVNEMQEMGYLERRPDPADARAKLIFPTSRGLQLLREASNKVKEIEQLWGTYAGEQRFEEALLTLQDVLAATRTAAKRSDKDA				NA	NA	NA	NA	NA
D1-29_01255	840	menH_1		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGCATCTGAACATTTCCCCGACGATGATCCAAACCACGCTTGGTCCCCTCATGGTCCGCCGCAAAGGGGCCGGCCAGCCGGCGCTTTTATGGCACAGCCTGTTTGTTGATTCCAGCACTTTTGCCAACGTCGTGGACCGCTTGGGTCAGGAACGGGAACTCATTCTGGTGGACGGTCCCGGACACGGTGGCAGCCCCGGGCCCCGGCGCCCCTACTCCCTGGTGGAGTGTGCCGTTGCTGCAAACCAAATCCTGGATGCCTTGGGCGTCTCGGGCCCTGTTGACTGGGTGGGTAACGCCTGGGGAGGGCATGTGGGAATCGTCTTCGCTGATACATTCCCCGCCCGCTGCCGGACTCTCACCACAATCGGCTCACCCCCTTATCCGCTCACCCGATCCGAACGCCTGCAGACGCTCCCTCTGGTATCCGCGTACCGGCTCCTTGGCCCGGCTCTGTTCGCAGGTGCCATCGTGGATGCGCTGGCAGGCAAAGGCGCGGCGAAGTCAGAACCGCAGGCCGCAGCCGCAGTTGCAGAGGCCTTCCGGAGAGGAGGCAAGCGCGACAAATATTGGGCCATGCAATCGGTTATGCTGCGGCGGCCGGACCTTCGCCCTGTCCTGGCCCGGCTGCAGGTCCCCACGCTGGTGCTGGTAGGCCGGAACGATCCCATGAACGACGCTGTGGAGGCAGAGCGTGCGGCCCGAAGTGTGCGCGACGGACGTTTCGCAGTGGTCACCGGCTCCGGTCGCGTTGCCCCGCTCCTGATCGCACCGGACGAAGTCACGCAGCACATCCTGTCGTTCTGGTCAGACAGCCGGAATCAGCAGGCGGCAGCCTGA	MHLNISPTMIQTTLGPLMVRRKGAGQPALLWHSLFVDSSTFANVVDRLGQERELILVDGPGHGGSPGPRRPYSLVECAVAANQILDALGVSGPVDWVGNAWGGHVGIVFADTFPARCRTLTTIGSPPYPLTRSERLQTLPLVSAYRLLGPALFAGAIVDALAGKGAAKSEPQAAAAVAEAFRRGGKRDKYWAMQSVMLRRPDLRPVLARLQVPTLVLVGRNDPMNDAVEAERAARSVRDGRFAVVTGSGRVAPLLIAPDEVTQHILSFWSDSRNQQAAA	PGPT0004995_235	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
D1-29_01256	300			hypothetical protein	ATGACTCAGGAAATCCACGCTGAACACACCCTCACGGACCACCAGCACGGCGGAGACGACTGCACCCATGTCACCGTCCAGCACGGCGACCACGTTGACTACATCCACGATGGCCACCGCCACGCGGAACACGAAGGCCATTACGACGAGCACGACGATCCGGCCGAGCACACGCCGGCCCAGCACCAGCATGGCGGCCCGGACTGCAGCCATGAAACGGCCCAGCATGGCGACCACATCGACTACATCCACGACGGTCACCGCCACGCCGAACATGAAGGCCATTACGACGAGCACTGA	MTQEIHAEHTLTDHQHGGDDCTHVTVQHGDHVDYIHDGHRHAEHEGHYDEHDDPAEHTPAQHQHGGPDCSHETAQHGDHIDYIHDGHRHAEHEGHYDEH				NA	NA	NA	NA	NA
D1-29_01257	669			hypothetical protein	ATGAACACTTCGGCTGGTTCACGGTTGCAGCGTCTGCTCGGCCACGGCCACGGACTCCTGTGGGCAATGGTGGCCGGAGGTCTTCTCTGGACGGTTCACGGATACTTCCGCTTTCTGACACCGCAGGGGCCGGACGCCGTCTGGCGGGAGGATCTGGGGTATTCGCAGATCCTGAGCACCACCCTTTTTCTGCTGTACAGCCTGCCGGGCGTACTGGCCCTCCTGCTGACTTCCTGGGCCGCCCTCTCATTCCTGCCAACCCTGGCCACCGGACGCGCAGGGCTGAGGCGCGCGGCCAGGATATTTGCGTTGCTGGCGTTTATTTTCGGACTGGTGGCCGCCGTTGGCCAGGTGATTCTGATCCTTTCCCCGACAATCGCCGGGATCAGTTTTGGGGTTCCTGCGCTGGGGCTGGCCCTGTTCCTTGGGGGGTTTGCTGCCGGCAGGAAGGGCGCGGACGGCAACGGACAACGGAGATTCGTTGGGCTTTGGATGATGCTGTTAGGCGGCGTCGGAATGCTCACCCTGCCAGTGCCACTGCTGGTGTACGCGCTGGCGCTGCTGCCTCTTGCCCTCGGGACCGCCGTGTTTGCTCTGTTCGGCGCGGGCTGGATTGCACTGGCTTTCACCCTCCGCACGGAAACGGCCACGGCCGCCCAAACCCTTTAG	MNTSAGSRLQRLLGHGHGLLWAMVAGGLLWTVHGYFRFLTPQGPDAVWREDLGYSQILSTTLFLLYSLPGVLALLLTSWAALSFLPTLATGRAGLRRAARIFALLAFIFGLVAAVGQVILILSPTIAGISFGVPALGLALFLGGFAAGRKGADGNGQRRFVGLWMMLLGGVGMLTLPVPLLVYALALLPLALGTAVFALFGAGWIALAFTLRTETATAAQTL				NA	NA	NA	NA	NA
D1-29_01258	819	fabG_1		3-oxoacyl-[acyl-carrier-protein] reductase FabG	TTGACTCCTCGCACCATCGTGATCACCGGCGCCAGCGACGGCATCGGCGCAGCAGCCGCACGATCGCTGGCGGAGGCAGGGGAGCGGGTTGTCGTCGTCGGCCGTTCCGCTGAAAAGACGCGTGCCGTCGCCAAGGAGCTCAACGCCGACTACTTCGTCACTGACTTCGCCGACCTGGCGCAGGTACGTACCCTCGCTGCCCAGCTGAGGGAAAACTACCCGCGGATCGACGTCCTGGCCAACAACGCCGGCGGCATCATGGGAAAGCGCACCCTCACCGTGGACGGCCACGAATCCACCTTCCAGATCAACCACCTGGCCCCCTTCCTCCTCACCAACGGGCTGATGGACGTGCTGACCGCCAGCAGCGCCAAGGTCATCAACACCTCCAGTGCCGCCAACGGCTTCGGCAAACTGGATCTCTTTGACCTCACCTCGGAGCACGGCTACTCCACCAACCGCGCCTACGGCACCGGAAAACTGGCCAACATCCTGTTCACCAGCGAACTGCACCGCCGTTTCGGCGAAAAGGGAATCACGACGGCGGCATTCCACCCTGGTGTGGTCCGCACCAACTTTGCCGCGGAGTCCAGCAGCCCCTGGCGGCACGCCTACAAGACGCTCCTGAACAGGTTCATGCTCTCGCCGGAGCAGGGTGCGGACACCCTGCTGTGGCTCATCAACGGCACCCCGGGGACCGACTGGATCTCCGGTGCCTACTACTATAAGCGCGCCCTGGCCAAGGCGAACGCACAGGCCTACGACGCCAATCTGGCCCGTGAATTCTGGGACCGGAGCGCAGAGTTGATTACGGCCTGA	MTPRTIVITGASDGIGAAAARSLAEAGERVVVVGRSAEKTRAVAKELNADYFVTDFADLAQVRTLAAQLRENYPRIDVLANNAGGIMGKRTLTVDGHESTFQINHLAPFLLTNGLMDVLTASSAKVINTSSAANGFGKLDLFDLTSEHGYSTNRAYGTGKLANILFTSELHRRFGEKGITTAAFHPGVVRTNFAAESSSPWRHAYKTLLNRFMLSPEQGADTLLWLINGTPGTDWISGAYYYKRALAKANAQAYDANLAREFWDRSAELITA	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
D1-29_01259	852			hypothetical protein	ATGCATAAGGCCTCAGCGATCGGCCTGGCGGCAGCAAGTGTCCTGGCGTTGGCATCATGTACGGGGGGAGATGCGGGGCAGGAGCCCTCACCCACTGCCACCACCGCCACTTCGGAGGCCAAGGCCTATACCGAAGACGAACTGCGCGACCTGATCTCCGGAATGCAGGATGCCGAGGGCAACGAACTGAAACTCTATTCCAAGGAGCAGGTGGACCAGGGCGGCAATATCGCCCAGAGGCTGATGAGCACGGCGACGGTGGAGCCCGAGGACTGCAAGGCGATCGCCACCGCAGGGCTCCTGGACGAGGTGGAGAACGGCGAGGTGGCCATTGCGATCTCCGAGAGTGCCCAGCCGCGCACCCTGTCCGCGCAATCCAGCAGCAGTGGGCCGGCCGGCGTCGAACTGCTCCGCGACGTGAGGGACAAACTGGGCCAGTGCTCCACGTTCACGATCGAGATTCTGGGGCAACGCTATGAGGTGTCCAGCGAAAGCCTGGAGGCTGAGACCGATGGCGAGGAGACCTTTGCCACCGTGAGCACGCGGGATGGGAACACCGGTCAAATGCTCATGCAGGTTTCCGCGGCGGAGGGGCGCTTGCTGGTGGTTGCCACCAAGGCGGGAGCTGACCTGAGGGATCCTGACCGGGAGGAACTCGAGGGCCTGGTGAACCAAGTGCTGGCCAAGACCGACGGAGACGGGACGGCCACGGCGTCGCCCACGAGGACCCCGACGGGGACGACTAGCCCAACCACAACCGCCACGACTACTGTCACGGTGTCGCCCACGGAGACGGAAGGGGACACCAGCCCTTCGCCAACAGGAACAGCAAGCCCCACGGCTACGCGCTAG	MHKASAIGLAAASVLALASCTGGDAGQEPSPTATTATSEAKAYTEDELRDLISGMQDAEGNELKLYSKEQVDQGGNIAQRLMSTATVEPEDCKAIATAGLLDEVENGEVAIAISESAQPRTLSAQSSSSGPAGVELLRDVRDKLGQCSTFTIEILGQRYEVSSESLEAETDGEETFATVSTRDGNTGQMLMQVSAAEGRLLVVATKAGADLRDPDREELEGLVNQVLAKTDGDGTATASPTRTPTGTTSPTTTATTTVTVSPTETEGDTSPSPTGTASPTATR				NA	NA	NA	NA	NA
D1-29_01260	552			hypothetical protein	ATGCGCAAAGTTACCGCCGGCCTATTCCACTCCGTGGATGGAGTGGTGTCAGACCCCTATCTTTGGCAGTTCGACAGCTTTGACGACGAACTGGGCATGGGGCTGGACCGCATGATCAAGAGTGTGGACACGGTGGTGCTGGGCCGCGTCAGCTATCAGGAGTGGGCAGGCTATTGGCCCACGGCATCAGTGGACGAGGATTTCGCCGGCTTCATCAACCCTGTGGAGAAGTTCGTCGCCTCGCGCAGCCTGAGCGAACCGCTGGAGTGGGAGAACTCGCACCTCATCGAGGGCCCGCTGGAGGAGTTTGTGGCCGGGCTGAAGGAACGCGACGGCGGCGAGATCGCCATCTGCGGCAGCATTTCCGTGGTGCGCCAGCTCCTGTTCGCCGGGCTGCTGGACTCCCTGACCCTGATGACCCACCCCGTGGTGGCCGGCAGGGGCCGCCGTCTGTTCGAGACCGACGACCCCATCACCAGGCTGAGCCTGCAGGACCAGTACCGGACCAGCAAAGGCAATGTCATCAGCACCTACGGGCTGCTGGGCGAATAG	MRKVTAGLFHSVDGVVSDPYLWQFDSFDDELGMGLDRMIKSVDTVVLGRVSYQEWAGYWPTASVDEDFAGFINPVEKFVASRSLSEPLEWENSHLIEGPLEEFVAGLKERDGGEIAICGSISVVRQLLFAGLLDSLTLMTHPVVAGRGRRLFETDDPITRLSLQDQYRTSKGNVISTYGLLGE				NA	NA	NA	NA	NA
D1-29_01261	444			hypothetical protein	ATGGAAACCCTGAAGAAAATCGTGAGCAACCAGTATTTCCCCGCAGCCGCCGTCCTGACGGCTGTGGTGCTTTTCTGGGCTGTGGGCATGGTGGGCGGCTTGTCCATGCTCAACGATAAGAACGCGCCGATGGCCACGCTCACGTGGATGCTGTTCGTCTACATGGCAGCAGTCCTCACCCCGGTCGCCGGCGTCATGGCCGCCATGGACCTGGTTCGCCGCTACAGGCTGAACCGCCAGACGCGCGGGAGTCAGTTCGCCGAGCTGGAGCAGGCCGAGGTACAGCAGGCTGAGCTAGAGCAGCCTGAGGTACAGCAGGCGGAGATCCTGCAGCCCGAGATCCTACAGCCCGAGGTACAGCAGCCTGAGGTTCAACACGCACCGGCCCGAAAGCAAGAAACCCCGTCAGTGAGCAAAAGGCCCGGCTGGAAACAGGCTGCCTGA	METLKKIVSNQYFPAAAVLTAVVLFWAVGMVGGLSMLNDKNAPMATLTWMLFVYMAAVLTPVAGVMAAMDLVRRYRLNRQTRGSQFAELEQAEVQQAELEQPEVQQAEILQPEILQPEVQQPEVQHAPARKQETPSVSKRPGWKQAA				NA	NA	NA	NA	NA
D1-29_01262	909	cheB_1		Protein-glutamate methylesterase/protein-glutamine glutaminase	GTGAAAGTCCTGGTTGCCGACGACGATCCTGGCTCGCTCATGGTGGCAAGGGCCGCCGTCGAGCGTTCCGGCCATGACTGCCTTGCGGCGGCGGACGGCGACGAGGCGTGGAAGCTTTACCTGCGGCACCAGCCAGATGTTGTGGTCACCGACTGGATGATGCCCGGGATGGATGGCCTGGCGCTGTGCCGGGCCATCCGGGCGCGGGAGTCCGATCTCTACACCTACATCGTGATGCTGACCTCCCAGGGATCCCGGGATGACGTGCTGGCCGGGCTTGAGGCGGGTGCTGATGACTACGTCACCAAGCCGTTGGATCCTTTTGTGCTGCACGCCCGCCTGCTGGTGGCGCTGCGGGTCACCACGCTCCATGCCGATCTGGCCCATTACCGGAAGGTCCTCTCGCAGGAAGCGCGCACCGATCCGCTCACCGGCCTGCACAACCGGCTGAAACTGTCCGAGGACCTGGAGCAGCTGCACGCACGCAGCCACCGGTACGCCGAAGAGTATTCCCTGGCCATGTGCGATGTGGACAACTTCAAGAGCTATAACGACATCTACGGCCATCAGGCTGGTGACCTCGCGCTGCGGGCGGTGGCTGCGGCACTGGTCAGCCATGCCCGGAAAAGCGACGGCGTGTACCGGTTCGGCGGCGAAGAGTTCTTAATGGTCCTGCCGAACCAGACGCAGCTGGGTGCCCGGGCAGTAATTGAACGGGCGCTCCACAGCATCCGGGAACTGGCCATCCCGCACGAGGGTGATCCCGCAGGGCTGCTGACGCTCAGCGCGGGGATTGCCGCCTTCAATGCGCAGCACCGGGTGGACGCCCAGCAGTTGCTGGGCGAGGCTGACTTGGCGCTTTATGCTGCCAAGGCTGCCGGACGGAACCGGGTGGAACTGGCGCTGTAA	MKVLVADDDPGSLMVARAAVERSGHDCLAAADGDEAWKLYLRHQPDVVVTDWMMPGMDGLALCRAIRARESDLYTYIVMLTSQGSRDDVLAGLEAGADDYVTKPLDPFVLHARLLVALRVTTLHADLAHYRKVLSQEARTDPLTGLHNRLKLSEDLEQLHARSHRYAEEYSLAMCDVDNFKSYNDIYGHQAGDLALRAVAAALVSHARKSDGVYRFGGEEFLMVLPNQTQLGARAVIERALHSIRELAIPHEGDPAGLLTLSAGIAAFNAQHRVDAQQLLGEADLALYAAKAAGRNRVELAL	PGPT0015900_1612	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488
D1-29_01263	3351	rcsC_1		Sensor histidine kinase RcsC	GTGTCTCAAACTGGTCTCGTGGAGCAGCGGCCCACCATAGTCAGCAGCAAGGCCCCGCTGGGGCGGCTGATCCTGCTGGCTCTTGTGGTGGTTGCCGCGCTTGGCCTGTATTTCGCCGCCAACAGCGGCACAACAACGGCTCTGGTGGCCGGCGATTTCGCCATCCTGCTGGCAGCGTTGCTGGCTGGTGCCAGCTGCGCACGCGCGGCGCTGCGGGGTGGACCCAACGCCCGCGCCTGGGGCTTCATGGCCCTGGCAGCCTTCATTTGGGCAGCAGGCATGGCGGTGTGGACGTATTACGGGCTGGCCTACAACCACGTCTACCCCTTCCCATCCCTTGCTGACGCAGGCTTCCTGGCCTACTCAATCCCGGCCGCCGCCGCACTTTTTGCGTTCAAGCGGCGGAGCGGCAGCAGGGTTGCCCTGTTCAGGACTGTCCTGGATGCCGCCGTCATCGCGGGATCCGTCCTGGTGGTCAGCTGGCACACGGCGCTGGGGCCAGCGTTCAGCACCGAGCATGCAGACCTTCTGACCCGGCTGACAGGCCTGGGATATCCGGTTGTCGACGTGGTCATCACGTCGCTGGTGCTGGTACTTGTCATGCGCCGGCAGCCCGGCGAGCGGCTCCCCTGGCTGTGCTTTGGCGGCGGTCTCCTGGTCCTGACCGTGACAGACAGCATCTATGTCCGGCTCACGTTTGAAGGGGTCAGCGGGGTCACAGGTTCGCCGTTGGCCATCGGATGGATCTCAGCATTCCTCCTGATCGCCCTGGCACCCTTAATTCCTTTTAGTGAGAATCCGGCTCCGGACCGCAAGACGTACGCCCTGGCTTTGGAGCTTCTCCCCTACGCCCCGCTCCTGATCGCGCTGGTGATGTTTGCTGCCCCGCACATTCATGAGGTGGATACATTCCTGCTGGTGGTGGCGAGGATAACCCTGGTAGCCGTGGTGGTACGGCAGGTGCTGATCATCATAGAGAACATCAGGCTGACCACCGGCCTGGAGCAGGAGGTCACCGCACGTACGCATGAGCTGGAGGGACTGGGAGCAATCGTCAACTCCTCCACAGACGCCATCCTGGGAACCACCAGCGAAGGCATCGTTACCAGCTGGAACCCAGGCGCTGAAAAGCAGTACGGCTATATGGCAGAAGAGGTGATCGGCCGCGACGCCATCTTCCTCCTGACGCCCGAAAACAAGGAACGGGACATGGAGGCGTTCGCGCGGCTCTATGACGGCAAGGACGCCATGAGCTACGAAACCGAGCACCTAAGGAAAGACGGAACCGTCATTCCGGTGTCCCTGACCGTCTCCCCGATCCGCGAAAACGGGGAGCTGCACGGCGTTGCCACCATCGCCCGCGATATTACCCAGCGCCGGGCGGCAGAACGGGAGCTTCAGGCTGCACAGGCGGCAGCCCTGGAATCCAGCCGGCTGAAGTCCGAGTTCCTTGCCACCATGAGCCACGAGATCCGCACTCCGATGAACGGCGTGGTGGGGCTGACGGCCCTGCTTCTGGAAACGCCACTGGATGAAACGCAGCGGCAGTATGCCCAGGGCGTCAAGGGCGCGGGTGAGGCACTCCTGGCGCTCATCAACGACATCCTGGACTTCTCCAAGCTGGAAGCCGGCAAGGTGGACCTGGATGTGCGGCCCTTCGATCCGCGGATCCTGGTGGAGGAAGTGGCAGGGCTGTTGGCCGAGACTGCACAGGCGAAGCAGCTGGAACTGATTGCCTACTGCGATCCGGACGTTCCTGCCCTTCTCTCCGGCGATTCCGGCCGGATCCGCCAAATCCTCCTGAACCTGGCCTCCAACGCCGTGAAGTTCACCGCGTCCGGCGAGGTGTCCATCCGCGTACGCGCCGAGATCCAGGAGGACAGCACGGCAATGGTGCGCTTCGACGTCCGGGATACCGGCATCGGCATTGATCCGGCGGACCATGCCCGGCTCTTCGAATCGTTTTCGCAGGCCGATGCCTCCACTACCCGCCGTTACGGTGGCACGGGGCTGGGGCTGGCCATCTGCAGCCGGCTGACGGAGGCAATGGGCGGGGAAATTGGGCTCAAGAGCCAGCTGGAGGAAGGCAGCACGTTCTGGTTCCGCATTCCGCTGCCGGTGGCACCGGGCTCCAGTGCTCCGGCCCCCGCCACGGGCTTCCTCAACGGGCTGAGGGTGCTGGTGGTGGATGACAACGCCACCAACAGGCTGGTGCTGGAATCCCAGCTGCGCGGCTGGCGCCTGGAACCGGAGGCGGTGCCGGATGCGCAGTCCGCCCTGGCCCGGGCGCGGGAGGCGGCCTCCGCCGGGGAGCCATTCGACATCGCCGTGCTTGACCTTTGCATGCCGGACATGGACGGCCTCGAACTTGCACGCGAGATCACGGCCGACCCCCTGTTGGCCAGGCTTGAAATGATTCTGCTGACCTCCACCATGCAGGTGGATGCGGCGGAAGTAGCCGACGCCGGAGTCCGTGAATGGCTGATGAAGCCGGTACGCAGCTCCGAGTTCTACAACCGGCTGGTCCGGCTGATGTCCGCCCGGGAGATGACACCCGCACCCGCCGCCCCTCCTGCCCAACCTCAGGCGGCACCCGCGGGGCCGTCCCGGGGCCGCGTCCTGGTGGTGGAGGATAACGAGGTAAACCAGCTGGTGGCCCGGGCGACGGTCACCCGGTTCGGCTATGACGTGGACGTGGTGGCCGACGGCGCCGAGGCCGTGGCCGCCACTGCCTCCACCAACTACTCGGCTGTCCTGATGGATTGCCATATGCCGGTGATGGACGGCTTCGAGGCCACCCGGATCATCCGCGGCCGCAGCGGGAAGCACAGCCGCCTCCCCATCATCGCCATGACAGCCGGAGCACTCGACGGCGACCGCGAACGGTGCCTGGCGGCGGGCATGGACGATTACCTCTCCAAGCCGGTGGTGGCCGCTGAGCTGGAGGCAACGTTGGCCCGCTGGATCCCGGAGCCTGGGAATGACGTTGAGCGGCCGCCGTCGGTGGATCCCGAACGGCTGGCCATCCTGCGGGAGCTGGGCCCCGCAGACGGGTTTGGTCTGCTGCCCGCGGCAGCGGAGGCGTTCCGCCGGGATGTCCCGGCAAGGCTCGCGGCCTTGCAGCAGGCGGTGGACGACGGCGGCGGGCCCGCTTTGCAGCTGGCCGCCCACACGCTCAAGGGGGCTGCCGCCAACATCGGTGCCACCGCCGTCGCCGATCTCTGCCAGGAGCTGGAAGGAATGGGACGAAGCGGAAACCACGACGGCGGTGCGCAAGTGATCCGGCGGCTGGAACGGGAACTCGTCCTGGTGGGCACCGCCCTCGACGAAGCGCTGGTCGTTACGCAGTGA	MSQTGLVEQRPTIVSSKAPLGRLILLALVVVAALGLYFAANSGTTTALVAGDFAILLAALLAGASCARAALRGGPNARAWGFMALAAFIWAAGMAVWTYYGLAYNHVYPFPSLADAGFLAYSIPAAAALFAFKRRSGSRVALFRTVLDAAVIAGSVLVVSWHTALGPAFSTEHADLLTRLTGLGYPVVDVVITSLVLVLVMRRQPGERLPWLCFGGGLLVLTVTDSIYVRLTFEGVSGVTGSPLAIGWISAFLLIALAPLIPFSENPAPDRKTYALALELLPYAPLLIALVMFAAPHIHEVDTFLLVVARITLVAVVVRQVLIIIENIRLTTGLEQEVTARTHELEGLGAIVNSSTDAILGTTSEGIVTSWNPGAEKQYGYMAEEVIGRDAIFLLTPENKERDMEAFARLYDGKDAMSYETEHLRKDGTVIPVSLTVSPIRENGELHGVATIARDITQRRAAERELQAAQAAALESSRLKSEFLATMSHEIRTPMNGVVGLTALLLETPLDETQRQYAQGVKGAGEALLALINDILDFSKLEAGKVDLDVRPFDPRILVEEVAGLLAETAQAKQLELIAYCDPDVPALLSGDSGRIRQILLNLASNAVKFTASGEVSIRVRAEIQEDSTAMVRFDVRDTGIGIDPADHARLFESFSQADASTTRRYGGTGLGLAICSRLTEAMGGEIGLKSQLEEGSTFWFRIPLPVAPGSSAPAPATGFLNGLRVLVVDDNATNRLVLESQLRGWRLEPEAVPDAQSALARAREAASAGEPFDIAVLDLCMPDMDGLELAREITADPLLARLEMILLTSTMQVDAAEVADAGVREWLMKPVRSSEFYNRLVRLMSAREMTPAPAAPPAQPQAAPAGPSRGRVLVVEDNEVNQLVARATVTRFGYDVDVVADGAEAVAATASTNYSAVLMDCHMPVMDGFEATRIIRGRSGKHSRLPIIAMTAGALDGDRERCLAAGMDDYLSKPVVAAELEATLARWIPEPGNDVERPPSVDPERLAILRELGPADGFGLLPAAAEAFRRDVPARLAALQQAVDDGGGPALQLAAHTLKGAAANIGATAVADLCQELEGMGRSGNHDGGAQVIRRLERELVLVGTALDEALVVTQ				NA	NA	NA	NA	NA
D1-29_01264	2127			hypothetical protein	ATGCCGGAATCAGTGCGTCATAGGGGAAAGCCTGAAAGAGGAACTTTCGGCAGCCTCCTGGACGCCAACCCTGACGGACTCATTGCCTTGGCGCCCGACGGCACCATCAGCCTCGCCAACGAATCGGCCGCACGGCTCTTTGGGTTGAGCCGGGATGAGCTCCTTGGAACTGACCACCGGAAACTGCTCCTGGCGGGGTCCCAGGGCGAACTCGTCAAGCTCTTCCAACAGCTCCAGGAGCAGCCCGGAAAAGATATAGCACCGCGGGAAGTGCACGGCGTACACAGCAGCGGGTACAGCTTCTCCGCCGAGATGGCCGGGGCGATAGTGGAGGCCGATGAGGGGACCCAGCTCCTGGTTTCCGTCCGAAGCACCGCCCACCGGAGGGCGGCCGACGCCGACCTGCGCAAAGCCATGTCCCTGTTGACAGCAACCCTTGAGTCCACGGCAGACGGCATCCTGGTGGTCAGCTCGGAAGGCAAGCTCGCCGGGCTCAACGAGCAGTTCCTCAAAATGTGGGATATCCCCCCGGAGCTGTTGGACGGTGACTCGGCCGAGCCCATCATGCGGCTCATCCTGGCGCAGGTCACCCACCCGGAAGCCTTTATGGCCAGGGTGGCGGAGCTGCAGGAGGACCCTGCCGCTGAAAGCAATGACATGCTGGACTTCCGGGATGGCCGGACCTTTGAGAGGTATTCACGTCCACAGAAAGTGGGAGACCGCATCGTAGGCCGCGTCTGGAGCTTCCGGGATGTGACCCCGCGGAGGCAGGCGCAGGAGCAGGCACAGCGGGCCATGCAGGAAATGGCAGCGCAGGCGGAACAGCTGAAGGCGATGGCTTTCCAGGATCCGTTGACAGGCCTCGCTAACCGGGCGGTGTTCAATAACGCCTTGGAGGCAGCACTCAGCGAGCCACGGCTCAAGTCAGTGGATGTCCTGCTGCTGGACCTTGATGATTTCAAGGAAGTCAACGACATTCTGGGCCATCAGGCGGGCGATGACATGCTGGTGGAGGTGGCGCGCCGCCTCACCGGTTGCGTCCCCAATGCCGATGTTGTGGCCCGGCTCGGCGGCGATGAGTTCGTGGTGCTGCTGACCGCCTGTCAGGATGTCGAAGCCACAGCGGCCTGCATTGTTCGGTGCCTGAACGTGCCAATGCAGATTCACGACACCATGCTGCGTCCCTGCCTGAGCCTGGGTGTCGCGTCCGTCGGAAGGGAAGCAATCGGTCCCTCCGGCCTGCTCCGCGAGGCAGACATCGCCATGTATGCGGCTAAGGCAGCGGGAAAAAACCGGTTCCTGCGGTTCCAGCCGGACATGATGACGGCACTGGTGCAGCGGACGGACATGCAGGCTGCCCTGCAGTCGGCGCTCACAAAAGGCGAGATTTCCGTTGATTTCCAGCCCATCTCGTCTCCCCGCAGGGGCCAGGTGGTCAAGTTCGAGGCGCTGGCCCGGTGGGACCGTGGAGGCGAGCGTATCCCGCCCACCGTCTTTATTCCGATGGCGGAGCGGAGTGGCCTGATCAACCAGATCGGGCTGGAGGTGCTGTCGCAGAGCCTGGTCCGGCTGGCGCCCTGGCTGCGGGAAGATCCGTCACGTTCGCTTGCGGTGAACGTTTCGGGGGTCCAGTTGCAGGAACTGGACTTTGCAGACCGTGTCCTTGATCTCGCCGAGGCCAGCGACGTAGCCGCTTTCCAGCTGGTCATGGAGGTTACCGAAAGCGTATTTTTCGACGCCGACCAGCATGTGATCGGCCAGCTTGGAAGGCTGCGCGACGCCGGCGCCCGGGTGGCGCTGGATGACTTTGGCACCGGTTACTCCTCGCTGGGGCGGCTGCAGGACCTGCCGGTGGATACGGTAAAGATCGACAAGACTTTTGTGTCCATGATCCGGTCCGGGGCCGAGCGCCTGCCTATCCTCAGCTCCATGATCAATATGGCTCACAGCCTGGGCCTGACGGTCACAGCAGAAGGTATTGAGACGCCCCAGCAGGCCGACTACCTGATCGCGCTGGATTGCGACTCCCTGCAGGGTTACCTGTTCTCCCACCCCGAGCCGGGCGAACGGCTGGACATCGCGTTGCGGCACGCGAAAGAAGCGCTCGAAACCCTTAGAAACCGGTAG	MPESVRHRGKPERGTFGSLLDANPDGLIALAPDGTISLANESAARLFGLSRDELLGTDHRKLLLAGSQGELVKLFQQLQEQPGKDIAPREVHGVHSSGYSFSAEMAGAIVEADEGTQLLVSVRSTAHRRAADADLRKAMSLLTATLESTADGILVVSSEGKLAGLNEQFLKMWDIPPELLDGDSAEPIMRLILAQVTHPEAFMARVAELQEDPAAESNDMLDFRDGRTFERYSRPQKVGDRIVGRVWSFRDVTPRRQAQEQAQRAMQEMAAQAEQLKAMAFQDPLTGLANRAVFNNALEAALSEPRLKSVDVLLLDLDDFKEVNDILGHQAGDDMLVEVARRLTGCVPNADVVARLGGDEFVVLLTACQDVEATAACIVRCLNVPMQIHDTMLRPCLSLGVASVGREAIGPSGLLREADIAMYAAKAAGKNRFLRFQPDMMTALVQRTDMQAALQSALTKGEISVDFQPISSPRRGQVVKFEALARWDRGGERIPPTVFIPMAERSGLINQIGLEVLSQSLVRLAPWLREDPSRSLAVNVSGVQLQELDFADRVLDLAEASDVAAFQLVMEVTESVFFDADQHVIGQLGRLRDAGARVALDDFGTGYSSLGRLQDLPVDTVKIDKTFVSMIRSGAERLPILSSMINMAHSLGLTVTAEGIETPQQADYLIALDCDSLQGYLFSHPEPGERLDIALRHAKEALETLRNR	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
D1-29_01265	270			hypothetical protein	ATGGGAATTCTCGGGTTTCTCATTTTGGGCTTGATCGCTGGAGCTATCGCCAAGGCCATCCTGCCCGGAAGGCAAGGAGGAGGCTGGCTGATCACGCTCGTCCTGGGCGTCGTGGGCGCTATTCTTGGCGGCTGGATCGGCTCCCTCATCTTCGGCGGCGGACTTGCCGAATTCTTTGACCTCCGGACCTGGCTGCTGGCAATCCTGGGCTCCATCATTGTCCTGCTGATCTACGGTGCAGTGGCGAACCGAGGCAGAAGCCGCGTGTAA	MGILGFLILGLIAGAIAKAILPGRQGGGWLITLVLGVVGAILGGWIGSLIFGGGLAEFFDLRTWLLAILGSIIVLLIYGAVANRGRSRV				NA	NA	NA	NA	NA
D1-29_01266	1410	ywqF	COG1004	UDP-glucose 6-dehydrogenase YwqF	GTGAAGATCTCAGTCATTGGCTGTGGCTACCTGGGGGCAGTCCACGCTGCCACGCTGGCATCAATGGGGCACACGGTCGCCGGCATTGACGTGGACGCCGCCAAGGTGGAGCACCTCGGCCGCGGCGCGGCCCCGTTTTATGAGCCCGGGCTGGATGAGCTCCTGCAGGACGGGCGCACCACCGGGCGCCTGACCTTCTCCACCGACTTCTCCGCCGCAGCCGGAGCGCAGGTCCATTTCCTCTGTGTGGGAACGCCGCAGTCAAAGACGTCCGACGGCGCCGACCTCACCTATCTGGTCTCCGCCACGGAAGCGCTGCTCCCGCACCTGGCGAGGGGCGCCGCCGTCGTCGGGAAATCCACGGTGCCGGTGGGCACTGTGGACATGCTCCACGGAATCCTGGCCAGGCGCCCTGACGTGCTGGTGGGGTGGAACCCCGAGTTCCTGAGGCAGGGCACAGCCGTCAAGGATTCCCTAGTCCCGGACCGGCTGGTGTACGGCGTGGAAGGCGGCCGGGCCATGGCGTTCAACCCTTCCACAGGAGCGCCCCTCGCAGTCACCGCAGTACTGGATGCAGTCTACGAGCCGCTGCTGAACGCAGGCATCCCACGGGTGGTGTGCAGCTTTGCCACGGCCGAGCTGATCAAGTCTGCCGCCAACGCGTACCTGGCAACGAAAGTCAGCTTCATCAACGCGATCTCGGAACTGTGTGACGCATCGGGTGCGGACGTCGCCGAACTGGGTGAGGCCATGGGCATGGACCCGCGGATCGGCAGCCGCTATCTGCATGCGGGGCTGGGTTTCGGCGGCGGGTGCCTGCCCAAGGACATCCGCAGCTTCCGGGCACAGGCCGCCGGTTTAGGCGTCCGCTCAGTGGATGACTGGATGGGCCTGGTGGATGCCATCAACCTGGGGCAGCGGACCAGGACGGTTGCCCTGGCCAAGGAGCTCTGCGGTGAACTGGCGGGCCGCTCGGTCACTGTGCTTGGCGCGTCCTTCAAGCCGGACACGGACGACATCCGCGATTCCCCAGCCCTTGATGTTGCCTCCCGCCTGGCGGAGGCAGGGGCGCATGTCACGGTCACGGACCCCAAGGCCGTGAACCACGCGTGGATGCGTTATCCGCGGCTTCGCTTTGAGACCTCCACCAAGAAGGCCCTGCAGGGAGCGGAACTGGTGCTGCTCCTGACCGAGTGGGACGAATACCGGCTGCTCGCCCCTGCGGTTGCTGGCGGAATTGTCCGACGGCGGGTAGTTCTGGATGCACGGAACGTGCTGGATGCTGCTGCCTGGCAGGCCGAGGGCTGGACAGTACGGGGGCTGGGGACGAACGGGGTAACCGTCGAGCCCGCGCTGGGACCGCAAAAACCACATATTTCAGTCACAAAAACAACTATTGCCACCTTTTGA	MKISVIGCGYLGAVHAATLASMGHTVAGIDVDAAKVEHLGRGAAPFYEPGLDELLQDGRTTGRLTFSTDFSAAAGAQVHFLCVGTPQSKTSDGADLTYLVSATEALLPHLARGAAVVGKSTVPVGTVDMLHGILARRPDVLVGWNPEFLRQGTAVKDSLVPDRLVYGVEGGRAMAFNPSTGAPLAVTAVLDAVYEPLLNAGIPRVVCSFATAELIKSAANAYLATKVSFINAISELCDASGADVAELGEAMGMDPRIGSRYLHAGLGFGGGCLPKDIRSFRAQAAGLGVRSVDDWMGLVDAINLGQRTRTVALAKELCGELAGRSVTVLGASFKPDTDDIRDSPALDVASRLAEAGAHVTVTDPKAVNHAWMRYPRLRFETSTKKALQGAELVLLLTEWDEYRLLAPAVAGGIVRRRVVLDARNVLDAAAWQAEGWTVRGLGTNGVTVEPALGPQKPHISVTKTTIATF	PGPT0017855_924	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
D1-29_01267	1122	mgtA	COG0438	GDP-mannose-dependent alpha-mannosyltransferase	ATGAACGGGGTAACGCACTCCATCCTGCGGGTGCTGGAGCATCTGCGGGACCGGGGCGATGAAGTCCTGGTGATTGCCCCCTCGACCCAGGAGCCAACGGGGGCTGCAGGACCTGAAGAGGTGTACGGCGCGCAGGTGCACCGGCTGCCTTCCATGCCCCTCGCCGGATACACCAAGGTGCGCGTAGCGATGGGGGGTGTGTATCGGGTCAAGCGAATCCTTGCCGATTTCGCACCCGATATTGTTCACCTGGCCTCGCCGTTTGTCCTGGGCTGGCGCGCAGTCCAGGCCGCACACCAGCTGGGCATCCCCACGATCGCCATCTACCAGACCGAGGTCCCCAGCTACGCGGCACGGTATGGTGTTCCGTTCCTGGAGAACTGGGCGTGGAACCGCGTGGAGAACATCCACCTGCTGGCCACCCGGACCTTGGCCCCCTCCACGTTCGCGCTGAATCAGTTGCGCGGGCGTGGCATTCCGCGGGTGGCCATGTGGCGGCGGGGTGTGGATACCGTCCGGTTTTCACCCGGAAAGCGCGACGACGGCTGGCGGGCTTCCGTGGCACCCGGCGGCGAACGGATCATCGGCTATGTTGGCCGCCTGGCTGTCGAAAAGCAGGTGGAGGACCTCGCCATATTGGCAGATGTCCCCAACACCAGGCTGGTGATTGTGGGTGACGGGCCACAGCGGGCCGCCCTGCGGGAGGCCCTGCCGGAGGCGGTCTTCGCCGGATTCCTGGGCGGGGAGGAACTCGCCCGGGCAGTTGCTTCGTTCGATCTTTTTGTCCACCCCGGCGAATTCGAAACGTTCTGCCAGACCATCCAGGAAGCAATGGCATCCGGTGTTCCAGTGGTGGCTACGGGCAGGGGCGGGCCTTTGGACCTGGTGGAGAATTCCCGCACGGGCTGGCTCTACGAACCCGGTCATCTGGCCGGGTTGCGGGCGCACGTCACGGACCTGATGGGCGACGACGCCAAGCGCCGTGCGTTTGCGGCAGCAGCCCACGCCTCGGTACAGAACCGCACCTGGCCGGCCCTCAGCGCCGAGCTGGTGGCACATTACCAGGCCGCAATCGCCGGCTCGCCGGTGGCGCCGGCCGGCAGGAAGGGGGCAACGCTGTGA	MNGVTHSILRVLEHLRDRGDEVLVIAPSTQEPTGAAGPEEVYGAQVHRLPSMPLAGYTKVRVAMGGVYRVKRILADFAPDIVHLASPFVLGWRAVQAAHQLGIPTIAIYQTEVPSYAARYGVPFLENWAWNRVENIHLLATRTLAPSTFALNQLRGRGIPRVAMWRRGVDTVRFSPGKRDDGWRASVAPGGERIIGYVGRLAVEKQVEDLAILADVPNTRLVIVGDGPQRAALREALPEAVFAGFLGGEELARAVASFDLFVHPGEFETFCQTIQEAMASGVPVVATGRGGPLDLVENSRTGWLYEPGHLAGLRAHVTDLMGDDAKRRAFAAAAHASVQNRTWPALSAELVAHYQAAIAGSPVAPAGRKGATL	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
D1-29_01268	963			hypothetical protein	ATGGGGGCGATACCACGGACTCGTTGGCGCTCGGCCATCCGTTCCGTCCTGCTGGCACTCCTGACAGCGCTGGCCTGGCTCGCGTGGGGAGCCGGGACCGCCACTGCCTCCAGTCTGGTTCCGGACGGCGGCGAACTCGGCAACCTTTCGGAGTCTGTCCTGACCCAGCCGCTTCCGGCACCTCCCGTCGTCGTCAGCGCAGGTGATACCGCAGTAGCCGGGGCGGGTTCCCTGACGGATTCGGCAACAGGTGCCGTCAATACATTGGCCGCCCCGGTTGTGCCTGTGGTCGCAGGCACAACCGCAACAGTCACCGGCTTGGTACCCAGGCTGCCCGACCTCCCCTTGGTGCAGGCGCCCCTCCCGCTTCCCCTCCCCGACATCCTGCCGTTGCCTGACCAGTTGCCGCCGCTGCTGCCGGAACCCCTGCCCGCGCCCTTACCGCTGCCCTTACCGCTGCCGGACCTGCTGCCCGTCCCCGTCCCGCCGCAACTGCCCGGCCTGCCCCCGCTGACGACGCCGGCACCTGGCTCCGGGGCGACACCCGCCGCCAACCTCCCGTCGTCCGACGCCGTTGCACAAGTGGCCGCCGGGGCTGGTTTGACTCCGGCCAGCACTGCTACTGCACCCGCCGAAGAGACGGACGTAACGGCGCAGTCGAACACGCTGCGGTTCGGCTTCACCGCAGCCCAGGACTTCGCCGGGTCAGCCACGCGCCGTGCGGCAACGGCAAACCCCTCCGGCCCAGGGGACGGCACCGGCAATACCGGCAGGCTGGACCCTCCGGCGCTCGCGAATGGCGCAGCTACGGCCGGCTCCGGGTCAGCCGGAGGCTCATCAAGCCCTGCAGACCTGGGCGGATCCTGGCACGTCCTTCGGCCATTGGCTTATGGACCACACCTGTCCGGCACCCAGACGCTGCCGGCCGCCCCTTCCTTCGATCCCGGGTCTTCACCCGACTGA	MGAIPRTRWRSAIRSVLLALLTALAWLAWGAGTATASSLVPDGGELGNLSESVLTQPLPAPPVVVSAGDTAVAGAGSLTDSATGAVNTLAAPVVPVVAGTTATVTGLVPRLPDLPLVQAPLPLPLPDILPLPDQLPPLLPEPLPAPLPLPLPLPDLLPVPVPPQLPGLPPLTTPAPGSGATPAANLPSSDAVAQVAAGAGLTPASTATAPAEETDVTAQSNTLRFGFTAAQDFAGSATRRAATANPSGPGDGTGNTGRLDPPALANGAATAGSGSAGGSSSPADLGGSWHVLRPLAYGPHLSGTQTLPAAPSFDPGSSPD				NA	NA	NA	NA	NA
D1-29_01269	816		COG3861	putative protein	ATGCTCACGAGGGAAAACATTGAAAACCTCCTGAATAGGGGAGGGAACGTAGTGGCATCGGACGGCGACAAGATCGGTTCGATCGGCCAGCTCTACGCTGATGACGACACGGGCGAGCCCACCTGGGTCACCGTGAAGACCGGGCTGTTTGGAACGTCCCAGTCGTTTGTTCCGGTTGAAGGCGCCCGGATCGACGGCGACGACCTGGTGGTTCCGTACACCAAGGACCACGTCAAGGACGCTCCGCGGGTGGACGCGGACGGACACCTGGAGCCAGACGAGGAAGACCGGCTGTACGACCACTACGAACGGGGCGGCCGGACCTACTCCGAAGCCCGCACCGACGCCGGCATGACGGACACGGATTACCGCGGCGACGCCGACCTCAACGCCGGCGATGCCGCCGGAACCGTGGGCCGCGACACCTCCGGCCCCACCACCGATGACGCCATGACCCGCTCGGAGGAACGCCTGAACGTGGGTACCGAAAAGCAGGCCACAGGGCGGGCAAGGCTACGCAAGTACGTCACCACCGAGAACGTCACCCACACCGTTCCCGTGCAGCGCGAGGAAGTCCGCATCGAGCGCGAACCCATCACCGATGAGAACCGCGGAGCAGCGATGTCGGGCCCTGACCTCAGCGATGAAGAGCACGAAGTGACCCTTCACGAAGAGCGCCCCGTGGTGGACAAGGAAACCGTGCCGGTGGAGCGCGTCCGCCTGGACAAAGACACCGTGAAGGACGACGTCACCGTCAACGAAGAGGTCCGCAAGGAACGCATCGAGGCCGACGGCATCGACGATACCCGCCGCTAG	MLTRENIENLLNRGGNVVASDGDKIGSIGQLYADDDTGEPTWVTVKTGLFGTSQSFVPVEGARIDGDDLVVPYTKDHVKDAPRVDADGHLEPDEEDRLYDHYERGGRTYSEARTDAGMTDTDYRGDADLNAGDAAGTVGRDTSGPTTDDAMTRSEERLNVGTEKQATGRARLRKYVTTENVTHTVPVQREEVRIEREPITDENRGAAMSGPDLSDEEHEVTLHEERPVVDKETVPVERVRLDKDTVKDDVTVNEEVRKERIEADGIDDTRR				NA	NA	NA	NA	NA
D1-29_01270	843			hypothetical protein	ATGACCGCCATCATCCTCGGCTGGAACCCGGACCGCTGGAACGACTGGAACTACCCGGCAGTCCTCGAAGAGGTGGCCGCCGCGGGGCTGTACATCCACTCCTGGAACCCTGGAAAGCGCAGAAACCTCCCGGCCGGCACAGACGTGTGGCTGGTTCTGCAGGGAAGACGCGGGCCGGGGCTCATGGGTCACGGCGCGGTTGTCTCGGCGCCAGGCGGCGAAACGCCCATCATGCATGTGCAGGTCGGCTTCGACGCCCTTCTGCCGCTGGGTGACCACATAGCGTCCGACGTCCTCATGCAGGCCACGCCTGCCGTCCCCTGGAGTGTGGCCAACCGTTCGGGCCTCACCGTCCACCCCTCTGAGGAAGCGAACATCCGGGCCCTCTGGGGAGCCTTTGGGCCGGCGCCGGCGCCAGACCCCACGCATCCGGTGCCCGGCACGTATCCGGGAGGCGCCGTCAGCTGGGCGCAGGTGAACCGGTACGAACGCGACCCAGAAGCCCGGCGGGCCTGCATCGCCCATCGCGGCACCAACTGTGCCACCTGCGGGTTCTCGTTTGAAGTGACCTACGGCGAGATTGGCCGGGACTTCATCCAGGTCCACCATGTGGTGCCGGTGTCTGAACTCGGCGATGGCTACCAACTTGATCCCGTCACGGACCTTGTTCCGCTGTGCGCCAATTGCCACGCCATGGCCCACCACGGAGTGAGCACTCCCAGGACCGAAGGGGAGCTAAGGCGGGTGATCGCCGCCGCCGGGTTCCTGCGCGGAACCACCGTGTCCGACACCGAACTCGAAGCCGAGCGTGCCGCCAAGGAGATCCTGGGACCGGAGAAGTAG	MTAIILGWNPDRWNDWNYPAVLEEVAAAGLYIHSWNPGKRRNLPAGTDVWLVLQGRRGPGLMGHGAVVSAPGGETPIMHVQVGFDALLPLGDHIASDVLMQATPAVPWSVANRSGLTVHPSEEANIRALWGAFGPAPAPDPTHPVPGTYPGGAVSWAQVNRYERDPEARRACIAHRGTNCATCGFSFEVTYGEIGRDFIQVHHVVPVSELGDGYQLDPVTDLVPLCANCHAMAHHGVSTPRTEGELRRVIAAAGFLRGTTVSDTELEAERAAKEILGPEK	PGPT0027235_268	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
D1-29_01271	462			hypothetical protein	ATGACTACCGCATCCCCACATGCACACGGTGTCCATTTTGGACGTTCAGACGTCCAGAACGCCGGCATGGGTGTAGGTATTCTCTTGTTGTTGGTGGGTATCCTGGGCTTTATCCCCGGCGTCACCACCCGGTACAGCGAATTGATGTTCCTTGGGCCTGATTCACACGCCATGCTCCTTGGCCTGTTCCAGGTGTCCATGCTGCTCAACATTGTGCAGCTGGCCATCGGCGCAACCGGCTGGGCAATGTCCCGCACCGAACATGGCGCACGAAACTTCCTCTATGGCGCCGGCGCGCTGTACATCGTCCTCGCCATTTTCGGGCTAAGTGTCGGTGTTGATTCGGCGGCCAATTTCCTGTCGCTGAACATGACGGACAACTGGACCCATCTGGTGCTGGGTGTACTGATGATTGCTGCTGGCTGGCTGTTTTCACGGAACATGGCCGGCGAGAGGAGATAA	MTTASPHAHGVHFGRSDVQNAGMGVGILLLLVGILGFIPGVTTRYSELMFLGPDSHAMLLGLFQVSMLLNIVQLAIGATGWAMSRTEHGARNFLYGAGALYIVLAIFGLSVGVDSAANFLSLNMTDNWTHLVLGVLMIAAGWLFSRNMAGERR				NA	NA	NA	NA	NA
D1-29_01272	1314			hypothetical protein	ATGAAACTGCGCGCTGATCAGACCGGAGACCGTGGCATTCCCATGCCTTTATGGCTGCAGGGGGCGCTGGAAACGGCGCAGGCCGCCATCATTTCCGCGCTGGTGGTTGTGGCTCCCGTCGTGGCGGTATGGGCGACGGCGGGGTTCCAGAACTCGGCTTTCCACGTCCTGGCCCGCCTCGCCGGGCAGGCCTGGCTGCTGATCCACGGAGTGCCCCTGGAACTGGTGGCTTTGGATTCCGGCCCTGCTGCCGATGCCCGTTCAGGCACCTTGTCGCTGATTCCCCTGGGGCTCACCCTGATCCCGTTCCTGCTCGCGTGGCGTGCCGGGCGCAGGCTGGCGAGGGCCTCCTACACGGACCAGCTGTGGCAGGCGCTCCTGGGATCGTGGGTGGTCTATGCGGCATTTGGCGGCGCCACCGGCTTCATATGCCGCACCCCGGACGTTGTGATCAATCTCTGGTACGCCATGCTGATCCCGCTCATCCCTTTTGCGTTGGGCATGGTGATCGGGGCCAGGCGCGAAGCAGGCTCGTGGAGCAGGCTCATCGGCGTGGACGCCGTCGCCTGGATCTCGCGGACCAGCCAGCACTCCCGCTGGGCAGGGTCCTACTTTGCCTCGGTAGCCAAGGCGGGCTTTGTGGCTGCCATGGCTGCGCTGGCCCTGTCCTGCGTGCTTCTTGCCGCGGACCTATTCATCCACTGGAACCTGGTCATTGCCGTTTATGAAGCGCTCGACGCCGGTGCCATCGGCGGTGCGGTGCTCACCATTGCGCAGCTTGGCTTCCTCCCCAACCTTGCAGTCTTTGCGCTCGCCTGGGTCTCCGGGTCCGGTTTCGCCATGGGCGTGGGATCACAGGTGGGACCCCTTGCCACCGCTGCCGGGCCGCTGCCATCCATCCCGGTGTTTGCGGCCATCCCGTCGGGGGCCCTGGACTACGGCTTTGTCGCTTTGGTGGTCCCGGTGCTGGCCGGTGTGCTGGCAGGCTGGTGGTTCCTGCGGGAAGGTGAAAACCACTTCGACGAATGGCTCGCCATCAAGGTCCACGCCCGCTGGTTCACGGCAACGGTGTCCACCCTGGTACTCGGCGCACTCATCGGCCTGGCGTCCGGGCTGCTGGCCGCCGGGCTGGCCTGGCTGGCCCGCGGGTCCGGCGGAATCGGCCGCCTCACGGACATCGGACCCGACCCGTTCTTGATGGGAACCTGGCTGGCAGCCGAAGTGGGAATCGGCGTCGTCATCGGATACGCAGCGGGACCGTGGCTGGAACGCCGGCAGGTGGAAGAGGAAGAAGAAGCCGAACTGGTGCGGTAG	MKLRADQTGDRGIPMPLWLQGALETAQAAIISALVVVAPVVAVWATAGFQNSAFHVLARLAGQAWLLIHGVPLELVALDSGPAADARSGTLSLIPLGLTLIPFLLAWRAGRRLARASYTDQLWQALLGSWVVYAAFGGATGFICRTPDVVINLWYAMLIPLIPFALGMVIGARREAGSWSRLIGVDAVAWISRTSQHSRWAGSYFASVAKAGFVAAMAALALSCVLLAADLFIHWNLVIAVYEALDAGAIGGAVLTIAQLGFLPNLAVFALAWVSGSGFAMGVGSQVGPLATAAGPLPSIPVFAAIPSGALDYGFVALVVPVLAGVLAGWWFLREGENHFDEWLAIKVHARWFTATVSTLVLGALIGLASGLLAAGLAWLARGSGGIGRLTDIGPDPFLMGTWLAAEVGIGVVIGYAAGPWLERRQVEEEEEAELVR				NA	NA	NA	NA	NA
D1-29_01273	426			hypothetical protein	ATGAACAACACTCCGGACCCGGCTGGGCAACAGCGGGCAGCGACTCCGCTCAGCGAAGCCGCCAAGACCTCGCTGGCCAAGACCCACACCCTTTTCCGGACCTTCATCTTCACGGTGCTGGGATCGCTCCTGGTCATCCAGCTGGACCTGACCTACTTCTGGCTCGCGGGCATCCTGACGTTGGCGAGCTTGGTCCTGGGAATCGTGCTGCTGATCCGCGCCGGGCAGCTCAAGGAATCCAAGCTGGTACTGTTCGGCACCGTCGCCGGGTTGGTGTTGTCGCTGGTGATGGTACTCATGGTCCTTGGCATCGCAGCCTTCACGAATCAGTTCAGTGACTACCAGGAGTGCGCCCGGCGTGCCCTCACGGACCAGGCACTCTCCGGATGCGTCGTCGAGCTGCGGAACTCCCTGCCCGGAATGTAG	MNNTPDPAGQQRAATPLSEAAKTSLAKTHTLFRTFIFTVLGSLLVIQLDLTYFWLAGILTLASLVLGIVLLIRAGQLKESKLVLFGTVAGLVLSLVMVLMVLGIAAFTNQFSDYQECARRALTDQALSGCVVELRNSLPGM				NA	NA	NA	NA	NA
D1-29_01274	573	purN	COG0299	Phosphoribosylglycinamide formyltransferase	ATGCGCATCGTAGTCCTCGTCTCAGGTACCGGATCCAACCTCCAGGCCGTCATCGACGCCGTCAAGGCAGGGGACCTGGACGTGCAGATTGCCGCAGTGGGTGCGGACCGGGAGGGGACGTACGGCGTCGAGCGTTCCTCTGAAGCCGGGCTGGAGACGTTTGTGATCAACTTCAACTCCTTCCCAACCCGCGCTGAGTGGGATGCCGCATTGACGGCTAGGGTGGCTTCCTATGAACCCGACGTGGTGGTGTCCTCCGGCTTTATGCGGATCGTGAGCCCGGAGTTTATCGACGCCTTCAACGGCAAATACCTGAACACCCACCCCGCCCTGCTGCCCGCGTTCCCGGGCGCCCACGGGGTCCGCGACGCCATGGCCTACGGGGTGAAGGTGACCGGCTGCACCGTGCACTGGGCCGACGCCGGGGTGGACACCGGCCCCATCATCGCGCAGGAAGCCGTTGTCATCGAGGACGCCGACACCGAGGAGACCCTGCACGAACGCATCAAGGTGGTGGAGCGCCGCCTCCTGGTCTCCACGCTGGCCTCCCTCGCCGCCGCCCAACCCAACTAG	MRIVVLVSGTGSNLQAVIDAVKAGDLDVQIAAVGADREGTYGVERSSEAGLETFVINFNSFPTRAEWDAALTARVASYEPDVVVSSGFMRIVSPEFIDAFNGKYLNTHPALLPAFPGAHGVRDAMAYGVKVTGCTVHWADAGVDTGPIIAQEAVVIEDADTEETLHERIKVVERRLLVSTLASLAAAQPN	PGPT0008095_4345	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008095-purN-K11175	NA	NA
D1-29_01275	636			hypothetical protein	ATGGCCATTCCCCGGCGCAAGGGCGTCACGGGTCACGTGGGGCAATTCTTTGACGACGAGATCCTCGATCTGGGTGGTCTGCTGCTTACTTCTCCCACCAGGACCTGGCTGGACTGCGCGCGGAAGATGAGCATCGAAGATCTGACCGTTGTGGCTGATCACTTGTTGCGGATTCCGAGGCCTGACTTCGAGGACAGAACTGAGCCTTATGCCACACCTGAGGATCTTGCGGACATGCTTGACAGGCACAAAGGAACCCCGGGAATCCGCAAAGCACGTCTGGCGTTGGAACAGGCCCGTGTTGGATCGGACTCTGCACAAGAAACCAAACTGCGGCTGGCCCTGGAGTACGGCGGGTTGCCTGAGCCGAAGCTGAACGTGCCCACGGAGCTGGGTACGGGGATCGTGCGTCAACCTGACCTGGCCTATCCGGAGCAGAAGGTCGCTGTGGAGTATGACGGAGAAGGTCATTCCGATGCCGCGCAGATCGTCAGGGACATCGTGCGGGAGGAGGATTTCGCCCGAGGCGGCTGGGCGCTGGTGCGGATCTCTAAACGCCATATGCAGAATGACGCCCGCGCCGCCGTCGCCAAAGTCCGTATGGCAATGCTGAGCCGCGGCTGGAAGCCCAACTGA	MAIPRRKGVTGHVGQFFDDEILDLGGLLLTSPTRTWLDCARKMSIEDLTVVADHLLRIPRPDFEDRTEPYATPEDLADMLDRHKGTPGIRKARLALEQARVGSDSAQETKLRLALEYGGLPEPKLNVPTELGTGIVRQPDLAYPEQKVAVEYDGEGHSDAAQIVRDIVREEDFARGGWALVRISKRHMQNDARAAVAKVRMAMLSRGWKPN				NA	NA	NA	NA	NA
D1-29_01276	1230			IS481 family transposase ISArsp2	GTGGCGACATGGCCCGAAGACGCTCCCCGTGGTGCCGTGACGGCGTTCTGCCGGAAGCACAACGTCTCGAGGGCGTGGTTCTATCGAGTCCGTGCGGCGGCCGGTGCGGTGGGGCCGGTGCAAGCGTTGGTGAAGAAATCCACGGTTCCGGGGACCTCGCCCACTGCCACCGAGCCTGGCATGATCGATCTCCTGCTTGCCACTCGGACTGATCTGGAGAAACAAGGTCTGGATCACGGCCCTTTGTCGGTCCTGTCTACGCTGTCCAGGCAGGGCTATCGTCCCCCGTCGCGGGCGACCGTGGCCAGGATCTTTGCCCGGTCCGGGGTAGTGGTGCCGGAGCCGCGGAAGAAGCCGCGCAGCGCCTACAAGCGATTCGTCTATCCGCAGCCGAACGCGTGCTGGCAGATCGACTCGACCGAGTGGGTCCTCGCCGACCGGACGAAAGTGGCAGTTTTCCAGCTCATAGACGATCATTCCCGGCTTGCTCTGGCATCTCTCGTGGCCCCGGGCGAAACCAGTGCCGCTGCGATCGCGGTCGTGACGCTGGCCATCCAAAGACATGGCGTGCCGCAGAAGTTCCTCTCCGACAATGGCGCAGCGCTGAACCCGACCCGCCGCGGACGCACCGGTGCGCTGGTCGAATTCCTCAAAGCCAAAGGCGTGGAGCCGATCACCGGTAAGCCCTACAAACCCACCACCCAGGGCAAGAACGAACGCTTCCACCAGACCCTGCACAAATACCTCCACCGTCAGCCGCCGGCCGCATCAATGACTCTCCTGCAAGCCCAAGTCGACGCTTTCGATCTGTACTACAACACCCAACGCGAACATCAGGGCCTGGCACCGGGAATGACCCCAAGCGAGGCCTGGCACGCCACTCCAAAAGCCCCGGCACCGGTTCCGCCAGATCAACCAACACCGGAATCAGAGCGACGCAGCCTTCGCCGAACGGTCCGGAAGGACGGCTGCATTACCGTCCTGGGCACCCATTTCATGATGGGCAAGGAACACATCGGACAAACCGTCCACGTCATCTACGACGCCGCCACCATCATGTTCTTCGGACCCCAAGGCACCGAAATCATCAGCCACGTCAGGCCACCCAAAGGCACGCCCTACGTCGGCAACGGCAAGCCCTCCGGCGTCGCCGCAGACCCTGTAGGAGCCCGCAAAAAGCGAACCCATTACCCACGCCGACGTCAGCAGCCAAACGCCACGCAACCATGA	MATWPEDAPRGAVTAFCRKHNVSRAWFYRVRAAAGAVGPVQALVKKSTVPGTSPTATEPGMIDLLLATRTDLEKQGLDHGPLSVLSTLSRQGYRPPSRATVARIFARSGVVVPEPRKKPRSAYKRFVYPQPNACWQIDSTEWVLADRTKVAVFQLIDDHSRLALASLVAPGETSAAAIAVVTLAIQRHGVPQKFLSDNGAALNPTRRGRTGALVEFLKAKGVEPITGKPYKPTTQGKNERFHQTLHKYLHRQPPAASMTLLQAQVDAFDLYYNTQREHQGLAPGMTPSEAWHATPKAPAPVPPDQPTPESERRSLRRTVRKDGCITVLGTHFMMGKEHIGQTVHVIYDAATIMFFGPQGTEIISHVRPPKGTPYVGNGKPSGVAADPVGARKKRTHYPRRRQQPNATQP				NA	NA	NA	NA	NA
D1-29_01277	1353	naiP		Putative niacin/nicotinamide transporter NaiP	ATGAATACATACACCACTGTGCCCAGCGGCGAACAGGTGGTCCAGGAACTGCCGTGGCGATGGAAAGTCCAGGGCAGGATCTTTCTGATTGGCGGCCTTGGCTTTATGTTCGACGCCTGGGACGTGACCCTCAACGGCATCCTGATCCCCCTGCTCTCCAGCCACTGGTCGCTGACCCCGGGCGAGGCCGGCTGGATCGGTACGGCCAACCTGATCGGCATGGCCCTTGGTGCGTTTGTGTGGGGAACCATCGCGGACACCATCGGGCGCAAGAAGGCGTTTACGGCAACGCTGCTCATCTTCTCGCTCTTCACCGTCCTGGGCGCCTTCTCGCCTGACTTCATCTGGTTCTGCGCCTTCCGGTTTATGGCCGGTTTCGGGCTGGGCGGCTGCATTCCCGTGGACTATGCCCTGGTGGGTGAATTCACTCCCCGGAAGCAACGCGGCAGGGTCCTCACCGCGATGGACGGCTGGTGGCCGGTGGGGGCAGCGCTGTGCGGCTTTGTCTCAGCGGCACTGGTGGCTGCGTTCGCCGACTGGCGCCTGACCATGCTGGTGATGGTGCTCCCCGCCCTGTTGGTGTTCTGGGTCCGCCGCAGTGTCCCCGAATCGCCGCTGTTCCTCATCCGCAAGGGCCGGCGCGAAGAGGCAGCCAAGGTTATTGATTCGCTCGTTGCGGCGACCGGAGTGGAGCCGCGCGCTTACAGCCTGCCCGATGCACAGGAGGTTCCGCGGCTGTCGGCAGGCAGCGCTTGGCAGCAGCTGCGGCTTGTGTGGCAGTTCAACTGGAAGATCACCGCGGCCGCCTGGTCCCTGTTTTTCAGTATCCTGCTGGTCTACTACCTGTCGCTGACCTGGATGCCGCGGATTCTCATTGGGGCCGGCTTCGCTGAGTACAAGGCGTTTGTGACCACAGCCTCAATGGCCGCCGTCGGGCTCCTGGGCGTGATTGTGGCGGCCCTGCTAGTGGAACGGGTGGGCCGCAAATGGATCCTGGCCATTACCGGTCCGCTGTCCGCACTGACCCTGGTGATCGTTGCGTTTGTGGTGGACATCCCCACGGCCGCGGTGTTCTGGCTGCTGGTCTTCGGTTTCGTGGTGCAGGTGGCCATTCCCGTGCTCTACGCCTATGTGTCCGAGCTCTATCCCACAGAACTTCGCGGCACCGGCTTCGGCTGGGCGTCAACGTTCTCCCGGCTGGGGGCAGGCTTCGGGCCGCTGGTCTTTGCCACCTTTTTCTGGCCCGAACTGGGGCTGGCCACATCCTTCGCGCTGGCCGGCGGGCTGGTCCTGGTGGCGGTGCTGTGGATGGCGTTCTTCTCCCCGGAGACCAAGCAGCGCCGGCTCGAGTAG	MNTYTTVPSGEQVVQELPWRWKVQGRIFLIGGLGFMFDAWDVTLNGILIPLLSSHWSLTPGEAGWIGTANLIGMALGAFVWGTIADTIGRKKAFTATLLIFSLFTVLGAFSPDFIWFCAFRFMAGFGLGGCIPVDYALVGEFTPRKQRGRVLTAMDGWWPVGAALCGFVSAALVAAFADWRLTMLVMVLPALLVFWVRRSVPESPLFLIRKGRREEAAKVIDSLVAATGVEPRAYSLPDAQEVPRLSAGSAWQQLRLVWQFNWKITAAAWSLFFSILLVYYLSLTWMPRILIGAGFAEYKAFVTTASMAAVGLLGVIVAALLVERVGRKWILAITGPLSALTLVIVAFVVDIPTAAVFWLLVFGFVVQVAIPVLYAYVSELYPTELRGTGFGWASTFSRLGAGFGPLVFATFFWPELGLATSFALAGGLVLVAVLWMAFFSPETKQRRLE	PGPT0014435_1405	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014435-ydjE-K08369	NA	NA
D1-29_01278	1671	purH	COG0138	Bifunctional purine biosynthesis protein PurH	GTGAGCTTCACGCAGCTTGACCGTGTTCCCATCCGCCGGGCCCTGATCTCGGTTTACGACAAGACCGGTCTGGAGGAGCTCGCCAAGGGCCTGCACGCAGCAGGCGTGAAGATCGTATCCACCGGCTCCACGGCCAAGAAGATCGCCGAGGCCGGAATCCCGGTCCAGGAAGTCGAGGAAGTCACCGGCTCCCCGGAAATGCTGGACGGCCGCGTCAAGACGCTGCACCCGCGCGTGCACGGCGGCATCCTCGCCGACCGCCGTGTCCCGGCACACATGGAAACCCTCGCCGGCATGGAGATCGAAACCTTCGACCTGGTGGTGGTGAACCTCTACCCGTTCGTGGAGACCGTCAAGTCAGGTGCCGCCCTGGACGACGTCGTCGAGCAGATCGACATCGGCGGCCCCGCCATGGTCCGTTCGGCCGCAAAGAACCACGCCGCCGTCACCATCGTTGTTGATCCGGGCTTCTACGGCGACGTCATCAATGCGGCCGCTGAAGGCGGCTTTGACCTTAAGACCCGACGCCGGCTGGCCGCCAAGGCGTTCGCCCACACCGCCACCTATGACAACGCCGTGGCCACATGGACTGCCAGCCAGTTCCTGGATGAAGACGGCGACGGCGTCATCGACTGGCCGGCCTACGCCGGCCTGGCACTGGAACGCTCCGAGGTCCTCCGGTACGGCGAAAACCCGCACCAGCAGGCGGCCCTCTACGTGGACAAGGCCGCCCCCGCCGGCATCGCGCAGGCAGACCAGCTCCACGGCAAAGCCATGAGCTACAACAACTTTGTTGACGCAGACGCCGCCCTCCGCGCAGCCTACGACTTCGCCGAGCCGACCGTCGCCGTTATCAAGCATGCCAACCCCTGCGGTGTGGCAGTGGGCTCAACCGGTGCCGAAGACCCGATCGCCGACGCGCACGCCAAAGCCCACGCCTGCGATCCCGTTTCGGCTTTTGGCGGCGTCATCGCAGCCAACCGGACGGTCACCGCCGGCATGGCAAACACCGTCAAAGACATCTTCACCGAAGTTGTCATCGCCCCCGGCTTCGAGCCGGAGGCCGTGGAGATCCTGTCCAAGAAGAAGAACATCCGCCTGCTCGCCCTGCCCGAGGGCTACGGCCGCTACCCGGCCGAAATCCGCCAGGTCTCCGGCGGAGTCCTCGTCCAGGTCACTGACAAGGTTGACGCCGACGGCGACAACCCCGCCAACTGGACCCTTGCTGCCGGCGAACCCGCCGACGAGAAGACCCTCGCCGATCTGGCTTTCGCCTGGACCGCCTGCCGCGCCGCCAAGTCAAACGCGATCCTGCTGGCCTCCGAAGGCGCAGCCGTCGGCATCGGCATGGGCCAGGTTAACCGCCTGGATTCCTGCAGGCTGGCCGTGGAACGGGCGAACACCCTGGGCGTGAACGTGAGCTCGGACGTTGAGGGGGCAGGCGGGGCCTCCAACACCCCGGCGGACGGTGCCCCTGAGCGCGCCCGCGGCGCGGTTGCCGCCTCCGACGCATTCTTCCCGTTCGCTGACGGCCTCCAGATCCTGATCGACGCCGGCGTGCGCGCCGTGGTGCAGCCGGGCGGTTCGGTCCGGGACGAGGAAGTAATAGCTGCGGCGAACGCGGCGGGCGTCACCATGTACTTCACCGGTGCCCGCCACTTCTTCCACTAG	MSFTQLDRVPIRRALISVYDKTGLEELAKGLHAAGVKIVSTGSTAKKIAEAGIPVQEVEEVTGSPEMLDGRVKTLHPRVHGGILADRRVPAHMETLAGMEIETFDLVVVNLYPFVETVKSGAALDDVVEQIDIGGPAMVRSAAKNHAAVTIVVDPGFYGDVINAAAEGGFDLKTRRRLAAKAFAHTATYDNAVATWTASQFLDEDGDGVIDWPAYAGLALERSEVLRYGENPHQQAALYVDKAAPAGIAQADQLHGKAMSYNNFVDADAALRAAYDFAEPTVAVIKHANPCGVAVGSTGAEDPIADAHAKAHACDPVSAFGGVIAANRTVTAGMANTVKDIFTEVVIAPGFEPEAVEILSKKKNIRLLALPEGYGRYPAEIRQVSGGVLVQVTDKVDADGDNPANWTLAAGEPADEKTLADLAFAWTACRAAKSNAILLASEGAAVGIGMGQVNRLDSCRLAVERANTLGVNVSSDVEGAGGASNTPADGAPERARGAVAASDAFFPFADGLQILIDAGVRAVVQPGGSVRDEEVIAAANAAGVTMYFTGARHFFH	PGPT0008110_558	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008110-purH-K00602	NA	NA
D1-29_01279	1020			hypothetical protein	ATGGTGCACGTGGCGGGCGTCACCGGAGCCCTCCCCCACCGTTTGGACAGGACACGAATGACACGCACCAGGTCTCTGGCTACCAGCCTTTTGAGCCTCTCTGCAGCCGCCCTGCTGGCACTTGGTGCCGCCAGTGGAGCCACGGCTGTGCCTGCCGCCGCAGAGGACAAGCAGGCCCCTTCCGTGACAAGCGCAACGGTGGACAGCACGGGAGTGGCTGAGTACTGGACCAGTGACCGCATGCAAAACGCAATCCCCGGTGACGTCCTGGCCGGGAAAGCACTCGAACGCGGCAATTCGTCAAGTGCAGCATCCGTGGAGAAGGGCACCAACACCAAGGTGAAACCGGCCCAAGGCAAAGCCACCATAGCCGTCAGCGAGGCCCCGGTTGACCACATCGGCAAGGTGTTCTTCACCCTTGGCGGAGCCAACTATGTCTGCTCCGGCAACGCCGTGGTTTCCGCGAACAGGAGCACCGTAGCCACTGCAGGCCACTGCCTCAACGAGGGCCCTGGCGCCTTTGCCACCAATTTCATGTTTGCACCGAAATACGAGAACGGCGTGTCACCGTACGGGAAGTGGACCGCGCGCCACCTTTACACGCCAACCCAGTGGAGCTCGAACGGCGACATCCAGTACGACACCGGCTTTGCAGTGATGAACCAGCTCAACGGGCAGTACCTGGCAGACGTTGTCCAGGAATCCGGAGTCGAGTTCAACGCCGCACGGGGTCTTACCTACAAGGCCTACGGCTACCCTGCCGCAAAGCCTTTCAATGGCGCGAGCCTCAAAAGCTGCACGGGCGCGGCCTTCGACGACACCGAAAACCAGTTCAACACCCAGGGAATTTCCTGCGACATGACCGGCGGCTCATCTGGCGGCCCCTGGTTCATCGGATCAGACGCCACAGGCCTTCAGAACTCGATCAACAGCTACGGCTACAGCCGCTCCCCCGTTATGTACGGCCCCTACTGGGGCTCCGTTATCCAGCAGACGTATGCAAGTGCAGAAACAGCCTAG	MVHVAGVTGALPHRLDRTRMTRTRSLATSLLSLSAAALLALGAASGATAVPAAAEDKQAPSVTSATVDSTGVAEYWTSDRMQNAIPGDVLAGKALERGNSSSAASVEKGTNTKVKPAQGKATIAVSEAPVDHIGKVFFTLGGANYVCSGNAVVSANRSTVATAGHCLNEGPGAFATNFMFAPKYENGVSPYGKWTARHLYTPTQWSSNGDIQYDTGFAVMNQLNGQYLADVVQESGVEFNAARGLTYKAYGYPAAKPFNGASLKSCTGAAFDDTENQFNTQGISCDMTGGSSGGPWFIGSDATGLQNSINSYGYSRSPVMYGPYWGSVIQQTYASAETA				NA	NA	NA	NA	NA
D1-29_01280	843	ssuB	COG1116	Aliphatic sulfonates import ATP-binding protein SsuB	ATGCTGGATAACAAAGCACCCGGCACACCCCGCCAAGACGGCAAGCCCATACTGTCGGTCCGGGGTCTGAAGAAGGTCTACAAGACCGACGGCGGCGACGTCGAGGCGGTCCGGAACCTCACCTTCGACCTGCGTCCGGGCGAGCTGGCCTGCCTGGTGGGCCCCTCCGGCTCCGGCAAGACCACGCTGCTCAAATGCATCTCAGGGCTGATGGTCCCCACCGAGGGTGAAGTCCTCCTGAACGGCACGCGGGTCAGCGGCCCGCCGAAGAAGATGGCGGTGGTCTTCCAGGAATACGGCCGCTCCCTCTTCCCCTGGATGCGGGTCCGGCAGAACGTGGAGTTGCCGCTAAAAAACCAGCGTGTTCCCAAGGCCGAGCGCGACCGCATTGTTGACGAGGCCCTGGAAGCAGTGGGGCTGGCTCACGTCCCCCAGTCCTATCCCTGGCAACTCTCCGGCGGCATGCAGCAGCGTGTGGCGATCGCCCGCGCCGTCGCCTACCAGCCCGAAGTACTCCTCATGGACGAACCGTTCGCGGCGGTGGACGCCCAGACCCGCGCTGACCTCGAAGATCTCATCCGCAGCGTCTGGAAGAAACTCGGCGTCACTATCCTGTTCGTCACCCACGACATCGACGAATCCGTCTATCTCGGCGAACGCGTTATTATCCTCTCCAGCTCTCCCACCGTGATCCAGGAGGACATCGTCATCAACCTGCCCCAGGAGCGGGACCAGCTCAACACGCGGGCATTGCCAAGGTTTACGGAATTGCGCCATCACGTCTACGAACAGATCCAGCTTGCCAAGAAGGGACACCGCCCCGCCGCCGCAACTGTCTCCTGA	MLDNKAPGTPRQDGKPILSVRGLKKVYKTDGGDVEAVRNLTFDLRPGELACLVGPSGSGKTTLLKCISGLMVPTEGEVLLNGTRVSGPPKKMAVVFQEYGRSLFPWMRVRQNVELPLKNQRVPKAERDRIVDEALEAVGLAHVPQSYPWQLSGGMQQRVAIARAVAYQPEVLLMDEPFAAVDAQTRADLEDLIRSVWKKLGVTILFVTHDIDESVYLGERVIILSSSPTVIQEDIVINLPQERDQLNTRALPRFTELRHHVYEQIQLAKKGHRPAAATVS	PGPT0001140_1206	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
D1-29_01281	774	ssuC_4	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGAGCTGGTTGAAGGCATTTGGCTACATGGTGGGGCTGCCGCTCCTGCTGATCTTCCTCTGGTGGGCGTTGACACTGGGGAGGCCCAACTTTTTCTTTCCCAGGCCCGGGATCCTGGCTGATACGTTCGTGGAGGTCTGGTTCGGCGAACGGATCCTGTCTGATGTCCTCCCCAGCCTCGGCAGGTTGATCACCGGGGTAACTGCGGCAATCCTGATCGGCGTCGCCGCCGGGCTGGTGATCGGATCCGTCAAATGGCTCCGGTCCTTGCTGGAGCCGACACTGGAATTCTTCCGGGCCGTCCCGCCGCCCGTTCTGGTGCCGGTACTCATGTTGCTGATGGGAATCACGGATTCGATGAAAGTGGTGGTCATCATCTCCGGCTGCATCTGGCCGGTGCTGCTGAACACCATCGAAGGCGTCCGTGCCGTTGATTCGGTGCTTTCCGATTCCAGCCACACGTACGGCATTACGGGCTGGGCCCGCCTGCAGTACCTGGTTCTCCCCTCGGCCAGCCCCCAGATCATGGCCGGGGTCCGTCAGTGCCTGTCCATTGGCCTGATCCTGATGGTCATCTCGGAGATGTTCGCCTCGTCTTCCGGACTGGGCTTCACCATTGTGCAGTTCCAGCGCTCCTTCGCCATCCCCGAGATGTGGTCCGGCATCATCGTCCTGGGCCTGATCGGCGTGGCACTGTCATTCATCTTCCAGTGGAGCGAGCGCCGCGTATTGCGCTGGTACCACGGTCAGAAAGAGGTAGAAAATGCTGGATAA	MSWLKAFGYMVGLPLLLIFLWWALTLGRPNFFFPRPGILADTFVEVWFGERILSDVLPSLGRLITGVTAAILIGVAAGLVIGSVKWLRSLLEPTLEFFRAVPPPVLVPVLMLLMGITDSMKVVVIISGCIWPVLLNTIEGVRAVDSVLSDSSHTYGITGWARLQYLVLPSASPQIMAGVRQCLSIGLILMVISEMFASSSGLGFTIVQFQRSFAIPEMWSGIIVLGLIGVALSFIFQWSERRVLRWYHGQKEVENAG				NA	NA	NA	NA	NA
D1-29_01282	831	cmpB_1		Bicarbonate transport system permease protein CmpB	ATGAACGGCAAGAGCGGCGTGGCCGCTGCGGGCCGGGGATCGCTGATCTCCCGGCCCAAGTGGCCAGTCCAGCAATTCCTGGGTCTGGCGGGAATCCTCGGATTCCTGCTGACCTGGGAGCTGATACCGCGGTTGGGGATCGTTGAACCGCGCTTCCTCCCGCCCGCAAGCGAGGTGATTGCAGCACTCTTGCGGGCCCTCGGGCTGACGGCCTTCTGGGTGAGCGTGGGTGAAACCATGCTTGCCTGGTTCCTAGGCCTGCTGATGGCCGTCATTGCCGCCGTCGTACTTGGTTTTCTCATCGGATCTTCCGCCTTCCTGAGGAAGGCCACGAACTCCACGGTGGAATTCCTGCGGCCCATCCCATCGGTGGCGCTGATCCCGCTGGCAGTGCTGATGTTCGGCGTGAAAATCGAATCTTCACTCATGCTGATCGTCTACGCGGCTTTCTGGCAGGTCTTTATCCAGGTCCTGTACGGGGTGGCTGACATCGACATGGTTGCCAACAACACGGCCAAATCTTACGGGCTGGGACGTTTGGCGCGGATCCGGTATGTGGTGTTCCCCACCGCTTTGCCGTACCTGATGACAGGGGTCAGGCTGGCCGCCGCCGTCGCGCTTATTCTGGCGATCACCGCGGAATTGATCATCGGCTCCCCTGGACTTGGCCGCGAAATCGCCTTGGCTCAATCCGGCGGTGCCATCTCCGGCATGTACGCGTTGGTACTGGCAACGGGCCTGATCGGAGTATTGATAAATCTGATGATGCGGTTCATTGAAAAGAAGACCCTTTCCTGGCACTCGTCAATCCGTTCGGAGGTGATCGTATGA	MNGKSGVAAAGRGSLISRPKWPVQQFLGLAGILGFLLTWELIPRLGIVEPRFLPPASEVIAALLRALGLTAFWVSVGETMLAWFLGLLMAVIAAVVLGFLIGSSAFLRKATNSTVEFLRPIPSVALIPLAVLMFGVKIESSLMLIVYAAFWQVFIQVLYGVADIDMVANNTAKSYGLGRLARIRYVVFPTALPYLMTGVRLAAAVALILAITAELIIGSPGLGREIALAQSGGAISGMYALVLATGLIGVLINLMMRFIEKKTLSWHSSIRSEVIV	PGPT0001145_7316	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
D1-29_01283	993	ssuA	COG0715	Putative aliphatic sulfonates-binding protein	ATGATGAAAAGGCACCTCGCTAAAATCCTCGCCGCCGGCGCCCTCATGGCCGTTGCCCTCACCGGCTGTGGCTCCGGTTCGGTCACCGGCCAGGAGGGCACGTCTCCCGGAGCAACGGCGGGCGGCGACCTCAAGAACATCACCGTCGGCGTGCTCTCGATCGCACCCTCGGTTGCTGTTCAGTACGGCATTGATGAAGGGATCTTTGAAAAGCACGGTCTCAAAGTTGAGCTCCAGACCGGCCAAGGTGGAGCAGCCATGCTTCCAGCGGTATCCACCGGAACAATGAACTTTTCTGTTGGCAATCCACTCTCCGTGATGCTCGCCGTCGACAAGGGGCTGGACATGAAGATTGTCACCGGCTTCAGTAACTCCAAGGCGGAGGGTGAGGACATCAATGGGGTCGTTGCCGCTAAGGCGTCCGGAATCAGTTCCTTCGGCGATCTGGAAGATAAGACCGTCGCGGTCAACACACTTAAAACCCAGGGTGACCTGACCATCATGGAGAGCGCTGCAAAAGCAGGTGCGGATCCGGCCAAAATCAAGTTTGTTGAGATGCCGTTCCCGGACATGCAGGCCCAGCTTGACCGAGGGTCAGTGGACGCCATCTGGCTGCCGGAGCCTTTCCTGACCAGAGCCCTTACAGATAGCAAGAATGTGCTGGTCGGAAGCCCCAACCAGGAAGCAATCCCGGGACTGCCCACCATGGTGAGCTTCACCAGCGGAAACTTCGCCCAGCAGAACGCGGACACGGTCAAGGCGTTCAGGGAAGCCATCGAGGAGACCTTGGAGAAGGCTGAACAGAATCCGGACGATGTCCGTGCCGTGCTCCCGAAGTTTATGAACATGGATCCCGCCGTCGCCAAGAATCTGAAGATGGAATCGTACGACGGCGAAGTTCCCACCGAGGTACTCTCCAAGCTTGGATCCCTCATGGTCAAGTACAACTACGTGACTAAAGAGCCCGACGTCGACGCCATGATCGCCAAGTAA	MMKRHLAKILAAGALMAVALTGCGSGSVTGQEGTSPGATAGGDLKNITVGVLSIAPSVAVQYGIDEGIFEKHGLKVELQTGQGGAAMLPAVSTGTMNFSVGNPLSVMLAVDKGLDMKIVTGFSNSKAEGEDINGVVAAKASGISSFGDLEDKTVAVNTLKTQGDLTIMESAAKAGADPAKIKFVEMPFPDMQAQLDRGSVDAIWLPEPFLTRALTDSKNVLVGSPNQEAIPGLPTMVSFTSGNFAQQNADTVKAFREAIEETLEKAEQNPDDVRAVLPKFMNMDPAVAKNLKMESYDGEVPTEVLSKLGSLMVKYNYVTKEPDVDAMIAK	PGPT0001135_6114	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
D1-29_01284	471			hypothetical protein	ATGACCCAGCCTCGAATCATGGATCTTCTGCCGGCCGACGGCGTCGAACGGCTGTTGAATAGCCCGCTCGTCAGCGAGATTGAATTCCTGACTGCGCGGGCACGGGCGCGCGGAAGCGCGAAAGCGAATGCCCTCCTCGCACCGCTGGAGCTGAAGATCCGCTCGTACGCCGTGTTGTCGCTGGCGTGCAGTGGAGCAGCACCGTCACAGCGGGAACTCGCCGAATTCCTGCTGCTGGATCCGAGCCAAATTGTGGCGCTGGTGGACGGGCTGGAACAGCGGGGGCTGGTCAAGCGCGAAACGGATCCCCGGGACCGGCGCTCGAAAGTCATCAAGGGCACCGCGAAGGGGCAGCGTGTGCTGGACCAGGCGGCCGCGGCCACCCAGCAGGCAGAAGACCAGGCCATGGGGGACCTGACCACCGCTGAACGCGACCAACTGCGGGACCTGTTGCGCCGCATCGCCTTTTAG	MTQPRIMDLLPADGVERLLNSPLVSEIEFLTARARARGSAKANALLAPLELKIRSYAVLSLACSGAAPSQRELAEFLLLDPSQIVALVDGLEQRGLVKRETDPRDRRSKVIKGTAKGQRVLDQAAAATQQAEDQAMGDLTTAERDQLRDLLRRIAF	PGPT0013155_4704	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-29_01285	2220	icd_1	COG2838	Isocitrate dehydrogenase [NADP]	ATGTCCAAGATTATCTATACCCACACCGACGAAGCGCCGATGCTGGCTACCTACTCGTTCCTGCCCATCATCGAGGCGTTTGCTTCGACAGCAGGTGTGGAGGTGGAGACCCGCGACATCTCGCTCGCCGGCCGCATCATCGCCGTGTTCGGAGACTACCTCACCCCGGAGCAGCAGATCAGTGACGCCCTTGCTGAACTGGGCGAGCTGGCAAAGACGCCTGAAGCCAACATCATCAAGCTGCCCAACATCAGTGCTTCCATTCCCCAACTGAAGGCCGCCATTGCAGAGCTGCAGGGCCAGGGCTACGCGCTGCCGGACTACCCGGACAACCCCTCCTCGGACGAGGAAACCGCCGTCCGCTCGCGCTATGACAAGATCAAGGGTTCCGCTGTGAACCCCGTGCTGCGTGAAGGAAACTCGGACCGCCGCGCGCCCCTGTCCGTCAAGAACTATGCCCGCCAGAACCCGCACTCCATGGGCGCCTGGTCCCCGGATTCCAAGACCAACGTGGCCACCATGGGCAAAGACGACTTCCGCTCGAACGAGAAGTCCGTGGTCGTTGGCTCTGAAGACACCATCGCCATCCAGCTGGTCCGCGAAGACGGCTCGGTCAAGGTCCTGAAGAAGGCCTTCCCTGTGCTGGCCGGCGAAGTCATCGACGGCACCGTCATGCGCGCCGCCGCCCTGGACGAGTTCCTGGCCGCCCAGGTTGCCCGGGCCAAGGAGGAAGGCGTGCTGTTCTCGGCCCACCTCAAGGCGACCATGATGAAGGTTTCGGACCCCATCATCTTCGGCCATGTGGTGAAGGCGTACTTCTCCGAGCTGTTCGACACCTACGGCAAGCAGCTCGCAGCCGCCGGCGTTAGCCCGAACAACGGACTCGCTGCCATTCTCAGCGGCCTTGAGGACCTGCCCGAAGATGTCCGCGAAGGCGTTCAGGCCCTGATCAAGAAGGGCCTTGAAGATGGCCCGGCGCTGGCGATGGTGGATTCGGACAAGGGAATCACCAGCCTCAACGTCCCCAGCGACATCATCGTGGATGCCTCCATGCCCGCCATGATCCGCAGCTCCGGACACATGTGGGGACCTGACGGGAAGGAAGCCGATACCCTGGCCGTACTGCCGGACAGCTCCTACGCCGGCATCTACCAGGTGGTCATCGATGACTGCCGCGCCAACGGTGCTTATGACCCCACCACCATGGGCACGGTGCCGAACGTCGGCCTCATGGCACAGGCAGCAGAAGAATACGGCAGCCACGACAAGACCTTCGAGATCCAGGAAGCAGGGACCGTCCAGATCATTGACGGCTCCGGCAACGTCCTGATCGAACACCAGGTCACCGAAGGCGACATCTGGCGCGCCTGCCAGACCAAGGACCTTCCCATCCGTGACTGGGTCAAGCTGGCTGTCACCCGCGCCCGTGCCTCCCAGACGCCTGCCGTGTTCTGGCTGGACGAGGACCGCGCACACGATGCCAACCTCATCGCCAAGGTCAAGGAATACCTCAAGGATCACGACACCGAGGGCCTGCAGCTGGAGATCATGTCTCCGGAGAAGGCAATCGCCTTCACCCTGGACCGGCTCCGCAAGGGCGAGGACACCATCTCAGTCTCCGGCAACGTGCTGCGTGACTACCTCACGGACCTGTTCCCCATCCTGGAGCTGGGCACCAGCGCCAAGATGCTCTCAGTGGTTCCGCTGATGAACGGCGGCGGACTTTTCGAGACCGGTGCCGGCGGATCCGCGCCCAAGCACGTCCAGCAGCTGCTCAAGGAAAACCACTTGCGCTGGGACAGCCTGGGCGAATTCCTCGCCCTCGCAGTGAGCTTCGAGCACCTGGCTACCACCACCGGCAACGCCCGGGCACAGGTTCTTGCGGACACCCTGGACCGGGCCACCGGCACCTTCCTGCTGGAAAACAAGTCCCCGAGCCGCCGCGCCGGCGAGCTCGACAACCGGGGAAGTCACTACTACCTGGCCCGCTACTGGGCCGAGGAACTGGCCAAGCAGACCGAGGATGCCGAACTGGCAGCATCGTTCTCCGCAGTTGCAGAGGCGCTGACGTCCAACGAAGAGACCATCGTTGGTGAACTCGCGGCTGTCCAGGGTTCCCCGGTGGACATCGGAGGCTACTACCACCCGGACGACGCCAAGGCTTCGTCCGTCATGCGCCCCTCCGCCACGCTGAACAAGGTCATTGAAACCCTGAGCTAA	MSKIIYTHTDEAPMLATYSFLPIIEAFASTAGVEVETRDISLAGRIIAVFGDYLTPEQQISDALAELGELAKTPEANIIKLPNISASIPQLKAAIAELQGQGYALPDYPDNPSSDEETAVRSRYDKIKGSAVNPVLREGNSDRRAPLSVKNYARQNPHSMGAWSPDSKTNVATMGKDDFRSNEKSVVVGSEDTIAIQLVREDGSVKVLKKAFPVLAGEVIDGTVMRAAALDEFLAAQVARAKEEGVLFSAHLKATMMKVSDPIIFGHVVKAYFSELFDTYGKQLAAAGVSPNNGLAAILSGLEDLPEDVREGVQALIKKGLEDGPALAMVDSDKGITSLNVPSDIIVDASMPAMIRSSGHMWGPDGKEADTLAVLPDSSYAGIYQVVIDDCRANGAYDPTTMGTVPNVGLMAQAAEEYGSHDKTFEIQEAGTVQIIDGSGNVLIEHQVTEGDIWRACQTKDLPIRDWVKLAVTRARASQTPAVFWLDEDRAHDANLIAKVKEYLKDHDTEGLQLEIMSPEKAIAFTLDRLRKGEDTISVSGNVLRDYLTDLFPILELGTSAKMLSVVPLMNGGGLFETGAGGSAPKHVQQLLKENHLRWDSLGEFLALAVSFEHLATTTGNARAQVLADTLDRATGTFLLENKSPSRRAGELDNRGSHYYLARYWAEELAKQTEDAELAASFSAVAEALTSNEETIVGELAAVQGSPVDIGGYYHPDDAKASSVMRPSATLNKVIETLS	PGPT0001170_1195	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
D1-29_01286	525			hypothetical protein	GTGATCTTTTCTGAAAAGAGCCGGTGGCGCCAGGGGCACCGGCTCGCGGCTCCGATTGCCGCCGCCCTCCTGCTCACCGCTGCCCTGGCCGGATGTGGTCCGGCGGATCCAGATCTCGAGCGCGAGGCAGCCCGGACGCTCCAGGAGAGAGTGCTGAGTCTGACGCAGGCTGCCGCAGCCAGTGACCATACCACTGCCCTGAAGACGCTGGATACGTTGGAGTCTGATCTAGCCGCCGCCGTGACAAGCGGGCAGGTCTCAGAAGACCGCAGACGGACCATTATGACTGCCATTACCGCAGTCCGCGCCGATTTGGCTTCCGCGGCAGCTGCGGCTGAAGCCGCTGCCCAGGAGGCCGCAGCCAAAGCGGCTGAGGAGGCGGCAGCCGCAGAACGGGCTAAGGCTGAAGCAGAAGCCGCTGCCAAAGCTGCCCAGGAAGCTGCGTCCCCGGCACCAGCCCCGGCGGACAACGGCAAGGGCAACGAGGACAAAGGCGAAGAAAAAGGCAAGGGCAAAGACGACTGA	MIFSEKSRWRQGHRLAAPIAAALLLTAALAGCGPADPDLEREAARTLQERVLSLTQAAAASDHTTALKTLDTLESDLAAAVTSGQVSEDRRRTIMTAITAVRADLASAAAAAEAAAQEAAAKAAEEAAAAERAKAEAEAAAKAAQEAASPAPAPADNGKGNEDKGEEKGKGKDD				NA	NA	NA	NA	NA
D1-29_01287	1263	prkC	COG0515	Serine/threonine-protein kinase PrkC	ATGGTGGCGGATTCGCCTAGCTCCATCAGGAATGAAGTGGTCGGCGGACGTTATCGACTGGGCGAAGTAATCGGCCGCGGCGGCATGTCTTCCGTGTACTGTGCGCGGGATGAGAACCTTGGCCGTGACGTGGCCCTGAAGCTCTTTGCACCGCAGGCTCCGGACACCGAAGAACTCAAGCGCCAGGAAGCGGAAATCCAGCTGCTGGCAACGCTCAACCATCCCAGCCTGGTGACACTTTTCGACGCTGGAATCGACACCCGCATCCCAGATGAACCCCGACCGTTCCTGACCATGGAGCTGGTTGAGGGCCAGGACCTCAGAAGCCGCATCAGACACAGCACGGTCCCCCTGGACGAACTGGCCGTCATTGGTGCCGGGATTGCTGACGCCCTGGCCTACGTTCACGGCCTTGGCATCATCCACCGCGACATCAAACCGGCCAACATCCTGCTGGTGCAGATCCGGCCCGGGGAACCCCTGCGTCCGAAACTGACGGACTTCGGCATCGCCAGGATAGAGGACGGGACCCGCCTCACGGCTACCGGCACCATGGTGGGAACGGCGGCCTACCTCAGCCCCGAGCAGGCTATGGGCGCCCCGCTGTCACCTGCCAGCGACATCTACTCATTTGGCCTTGTGCTCCTCGAATGCATCAAAGGCACAGTGGAGTTTCCCGGCAATGCGGTGGAATCGGCTGTGGCCCGGCTGCACCGCGCGCCGGAGATTCCGGAGGACCTCCCACGCGAATGGGCTGACCTGCTGCGGTCCATGACGGCCATTGAACCGATGGAACGCCCCGCGGCCGCCGATATTGAGAGGGTCCTCAGGCAGGCGCTCGTGTCGCCCGCGTCCACACCCGGAGAACTTGAGCCGGAAGCCACCCTGGTACTGCCGGCCATGCCGTTCAGGCCGCCATCCATCACGCCAACTCACAGTTACCCCACCATCTCCCCGGAATCCACGGGTGAACCTTTCGCTGAGGCGGAAGCAGCCGGCCAGCCCAGGTCCGCAGCACCGGCCGAGCAAGCCTCGGGCCGCCGGTCAGCAGGCAAGGACCCGCTGTGGTCGGGGATGCGGCTCAGCGGTAAACGTCTGTGGATTGCGGCCGTCCTGCTCGTATTGGCTGCCGTGGCAGCGGTTGCCGCGGTGACCGCCAGCCTGCTGCCCACGCAGTCAACGCCCGACGTCGTCCCCTACCCCACAGTCAGCGGCACCTTGGGTGACCATCTCAAGGAACTGCAGAAGAGTGTGGAACCGTGA	MVADSPSSIRNEVVGGRYRLGEVIGRGGMSSVYCARDENLGRDVALKLFAPQAPDTEELKRQEAEIQLLATLNHPSLVTLFDAGIDTRIPDEPRPFLTMELVEGQDLRSRIRHSTVPLDELAVIGAGIADALAYVHGLGIIHRDIKPANILLVQIRPGEPLRPKLTDFGIARIEDGTRLTATGTMVGTAAYLSPEQAMGAPLSPASDIYSFGLVLLECIKGTVEFPGNAVESAVARLHRAPEIPEDLPREWADLLRSMTAIEPMERPAAADIERVLRQALVSPASTPGELEPEATLVLPAMPFRPPSITPTHSYPTISPESTGEPFAEAEAAGQPRSAAPAEQASGRRSAGKDPLWSGMRLSGKRLWIAAVLLVLAAVAAVAAVTASLLPTQSTPDVVPYPTVSGTLGDHLKELQKSVEP				NA	NA	NA	NA	NA
D1-29_01288	1656			hypothetical protein	ATGCATTGCATTCTTCGCAGAGGGCTGCTTAGCACCCTCTTCGCCGGCGGGCTGTTAGCCCTCGGCGCCACCGCAGCCAGCGCTGCGGACACAACAAGCGGAGCGGACCTCACCGCATCCGCCCAGGTCTCAGCGGCGACATCCGCTGCTCCGACGTCGTTGGGCCTGCTGGGTGGTCCAACGCCGTCAGAAAGCGCGAATGTCGCCGCTGCAGTAGACGTGACCGTGAACAGCGGTGCCGTCGGAACCGAGGGCAACACCGCCCTCGCTGCGGCCGCCGACGTCGCCATCGGCCTCGGAAACGCCACCACCGGAACCGTCACCGACACCACAGCGGACGTGGCAGCAGCCGCCGACGTCGCCATCGGCCTCGGAAACGCCACCACCGGAACCGTCACCGACACCACAGCGGACGTGGCAGCAGCCGCCGACGTCGCCATCGGACTCGGAAACGCCACCACCGGAACCGTCACCGACACCACCGCCGACGTGGCAGCAGCCGCCGACGTCGCCATCGGCCTCGGAAACGCCACCACCGGAACCGTCACCGACACCACCGCCGACGTGGCAGCAGCCGTTGACCTCGGCCTCGGCCTCGGAAACGCCACCACCGGAACCGTCACCGACACCACCGCCGACGTGGCAGCAGCCGTTGACCTCGGCCTCGGCCTCGGAAACGCCACCACCGGAACCGTCACCGACGCCACCGCCGACGTGGCAGCAGCCGCCGACGTCGCCATCGGCCTCGGAAACGCCACCACCGGAACCGTCACCGACACCACCGCCGACGTGGCAGCAGCCGTTGACCTCGGCCTCGGCCTCGGAAACGCCACCACCGGAACCGTCACCGACGCCACCGCCGACGTGGCAGCAGCCGCCGACGTCGCCATCGGCCTCGGAAACGCCACCACCGGAACCGTCACCGACACCACCGCCGACGTGGCAGCAGCCGTTGACCTCGGCCTCGGCCTCGGAAACACCACCACCGGAACCGTCACCGACGCCACCGCCGACGTGGCAGCAGCCGTTGACCTCGGCCTCGGCCTCGGGAACGTCACCGACGCCACCGCCGACGTGGCAGCAGCCGCCGACGTCGCCATCGGCCTCGGAAACGTCACAGACGGCACAGGCACCACCGCCGACGTGGGCGCAGCCATCGACCTGGGCCTCGGACTGGACACCGTGGGTCTGTTGGATGATGTCACCACCGGTATTGGTGGATCAGTGATCATCGGCGGCGGTACCGACGGTACAGGCACACCGGGTACGGGTACGCCGGGTACAGGCACACCGGGAACGGGTACCCCGGGGACCGGAACTCCCGGCACCGGGACCGGATCCACCGGCGGAACCGATCCCACCGTACCTGGTAGCGGAAACGGACCTGGTAGCGGAAACGGACCAGGTAGTGGAACCGGAACGGGCGGAACCGTCACAACCGGAACGGGCACCGGCAACGGTACCGGCAGCATCACGGTTGTCCCGGCAGGTTCGGTTTCGGCCGGAACCGTTGCAGCTGCAGGAGCAACCACAGCCACTTCTGCTCAGGGTTCCAACACACTGGCCAAGACGGGTATTAATGCATCGCTGGTCCCCTTGGCCCTGCTGCTCCTCGTGGCAGGACTGCTGATGTTCTGGCGGCGCAAGACCTCCTGA	MHCILRRGLLSTLFAGGLLALGATAASAADTTSGADLTASAQVSAATSAAPTSLGLLGGPTPSESANVAAAVDVTVNSGAVGTEGNTALAAAADVAIGLGNATTGTVTDTTADVAAAADVAIGLGNATTGTVTDTTADVAAAADVAIGLGNATTGTVTDTTADVAAAADVAIGLGNATTGTVTDTTADVAAAVDLGLGLGNATTGTVTDTTADVAAAVDLGLGLGNATTGTVTDATADVAAAADVAIGLGNATTGTVTDTTADVAAAVDLGLGLGNATTGTVTDATADVAAAADVAIGLGNATTGTVTDTTADVAAAVDLGLGLGNTTTGTVTDATADVAAAVDLGLGLGNVTDATADVAAAADVAIGLGNVTDGTGTTADVGAAIDLGLGLDTVGLLDDVTTGIGGSVIIGGGTDGTGTPGTGTPGTGTPGTGTPGTGTPGTGTGSTGGTDPTVPGSGNGPGSGNGPGSGTGTGGTVTTGTGTGNGTGSITVVPAGSVSAGTVAAAGATTATSAQGSNTLAKTGINASLVPLALLLLVAGLLMFWRRKTS				NA	NA	NA	NA	NA
D1-29_01289	966			hypothetical protein	ATGGCTAAAGCTCTATCGCCATGGCGCGTTCTCCGGCCGGTTTTGCTGGCCGGCGCCGCTACCCTCACGTGGCTGACCTTTTCGACTTCCGCCGCTACGGCTGACACCGCAACAGATCCAGGTTCCTTGCTGGGCGGCCTGACGTCTTCTGTTTCGTCCCTTTCGGCACCCCTCACTGGAACCGTTAGCCCGGCACCCGCGGCAGCAGTGCCGGCGCCTGCGCACGCCGCGGCTCCTGCTTCCGTCTCCCCGGGTCTTGTGAAGTCTGGGCTAGGAAGCGTTGCGGGTGCAGCCGATCAGTTGGTCGCGGCAGCGCCTGTCGTCAACAGTTTGGCGCCGACAGGCACTGTTTCGACAGTCTCGGCTCCCGTCGCCGCTGTCGCGGATGAAGCCGCGGCCGGGCTGGTGAACGCTGTCGCCCCGCCGCTCAGTGAAGCAGTGCCTGTGCTTGAACCGGTGCTGCAGCCTGTTGCGGATGTTGTGAGCGGCGTGAATCCCCTGCCGGTCTCGCTGCCCGCCCTGGAGGTACCAGCCATCGGTTCCTTGGCTGGGGCGGAAGTACCCGCTGGCGAGCTCGTAGTTGGCGACGCGTCAGCGGCCAACCCGGCATCTATCGCCGTCGAGGGTACCGATGACGTCAACGCCGGAGGCGCTGCTCTGGCCTGGCCAGTATCGTCACAGCCCTTAGCTGGCATGTCTGCCGTATCGGCGTCCCTCGCTGGCGTCCAGTCAAGTCAGGCGGATGTCCCAGGCAGCGGCGATCCATCGCCCCTCTCTGCCCTCGCGCCTGCAGGACCGTCGTCGGGAGTCGGGAGTGGCTCCTCGGCCTCCGGTGCCTCAGGTTCGGCGGCCTGGGTGGATGCCTTTGGTCTTTACCTTCCGCTCGGTGGCGCGTACCCCATCAGCGGATTCTCTGAGCATGCCCCTTCGCCGGTGTCATTCGACCCCGGCTCTTCTCCTGACTAG	MAKALSPWRVLRPVLLAGAATLTWLTFSTSAATADTATDPGSLLGGLTSSVSSLSAPLTGTVSPAPAAAVPAPAHAAAPASVSPGLVKSGLGSVAGAADQLVAAAPVVNSLAPTGTVSTVSAPVAAVADEAAAGLVNAVAPPLSEAVPVLEPVLQPVADVVSGVNPLPVSLPALEVPAIGSLAGAEVPAGELVVGDASAANPASIAVEGTDDVNAGGAALAWPVSSQPLAGMSAVSASLAGVQSSQADVPGSGDPSPLSALAPAGPSSGVGSGSSASGASGSAAWVDAFGLYLPLGGAYPISGFSEHAPSPVSFDPGSSPD				NA	NA	NA	NA	NA
D1-29_01290	1083	iolU_2	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolU	ATGAATGCGCCCATTGCCACACCGTGGCTGTCCAGCCAGCCCGAGCAGGACCCGCGTTCCGCCACCGGAGCCCCTTTGCGGTGGGGAGTCATCGCCACCGGGGCCATCGCCCGGGCCGTTGCCCAGGATCTTTCGCTCCTGGCTGATGCTGAGCTGCACGCCGTGAGCTCCCGGGACCAGGCCACCGCGGACGGTTTTGCGGGAACCTACGGTTTCGCCAGGGCTTACGGTGACGACGACGGCGTGCCCGGCTACCAGCGTCTCCTCGCCGACGACGCTGTGGACGTGGTCTACGTCGCCACGCCGCACGCCCAGCATCACCGGATTGTGCTGGCCGCGCTCCATGCCGGCAAACACGTGCTCTGCGAAAAGGCCTTCACCATCAACGCCCGGGAGGCCAGCGAACTGATCGAGGTCGCCAGGAGGCAGAAACTCTTCCTCATGGAGGCCGTCTGGAGCCGTTTCCTTCCGAGCATGCAGCGCGCCTTCGAGATAGCCGCTTCAGGCGAGCTGGGGGACGTCCACTGGGTCACTGCCGATCTCGGCTTCCCCGCTCCCTACTCGCCCACCGCCAGGCTCTGGTCCCGGCATGACGGTGGCGGCGCGTTGCTGGACATCTCGGTGTACCCGTTGCTCTGGGCCCTGGGAACCTTGGGATTTCCGCAGACGGTCAGTGCCACGGGCTTTATCAACGACGACGGCGTGGACGCACAGAATGCGCTGACCCTTGGGTACCACCACGGCGCCCAGGTGCAGCTCACGTCCTCACTTTTGGCTCACGGCCCCCGCACGGCCACCGTCGCCGGAAGCCTCGGCTACCTTCAGAGCGTTGGTTCCATCAACAATCCGCGTGAACTGCGGATCGGCATCGGACGCGGAGCGCCCAGGAGCGAGGCGTTCGACGTCGTCGGGCTGGGCTATGCCTACGAGCTCCGCGAGGTGACCCGCTGTATCCAGCAGGGCCTGACCGAAAGTCCGGTGATGCCCCTTGATGACTCCCTGAATACGATGCGCCTGTTCGATGGAGTACGTGCCCAACTCGGCGTCAGTTACCCCAATGATGCATTTGAACCCCGCCAATAG	MNAPIATPWLSSQPEQDPRSATGAPLRWGVIATGAIARAVAQDLSLLADAELHAVSSRDQATADGFAGTYGFARAYGDDDGVPGYQRLLADDAVDVVYVATPHAQHHRIVLAALHAGKHVLCEKAFTINAREASELIEVARRQKLFLMEAVWSRFLPSMQRAFEIAASGELGDVHWVTADLGFPAPYSPTARLWSRHDGGGALLDISVYPLLWALGTLGFPQTVSATGFINDDGVDAQNALTLGYHHGAQVQLTSSLLAHGPRTATVAGSLGYLQSVGSINNPRELRIGIGRGAPRSEAFDVVGLGYAYELREVTRCIQQGLTESPVMPLDDSLNTMRLFDGVRAQLGVSYPNDAFEPRQ				NA	NA	NA	NA	NA
D1-29_01291	804	nadE_2		Glutamine-dependent NAD(+) synthetase	GTGGTAAAGGTGCTGCTGGCGCTGATGCAGGCAAACTCTGCCGTACTGGACGTGGAGGCAAACTGTGCCGCCGTGGAAGCAGCGGCGCGGTCAGCGGCCGCGGCGGGGGCAGTGGTCCTGGTGACGCCTGAGCTGTTCCCTGTGGGCTACGCGCCGCGCAAACTCCGGGCCGGGCTGGACCCCGCCCGGCTGCCGGGTATCCGGGCCGGCCTTGCCGGCATTGCACGCCGGTGGGGGATCGGACTGGTCTACAGCCTCCCGGAAGTCACTGCCGGCGGTGCCTGGCACATCACATCCACGCTGCTGGATGCCGCGGGCAATGAGCTAATTCACTACGCCAAGGTGCATCTGTTTGGCGATGAGGAGCGCGCTGCGTTCAGTCCCGCAGGGGAGCGTCCCGCCGTCGTCGACTTCAACGGAATTCCGACCTCCATGGTGATTTGCTATGACGTGGAGTTCCCCGAAATCGTGCGGGCTGCAGCTGTCAGCGGCGCCGAGCTCCTCCTGGTTCCCACGGCCCTGGCCCACGGGTTTGAGGCGGTGCCCCAGGTGCTGCTGCGGGCCCGCGCGCTGGAAAGCCAGCTGACCATCGCCTACGCAAACCACTCCGGCATGGAGGACGGCTGCCTTTTCCTGGGCGGCAGCGTCATTGCCGGTCCGGACGGCGCGTTGCTGGCAGCTGCGGGCGAAGGAAGCCAGCTGCTCTTTGCGGAGGTTGGCCCGGACGCGGCCAGGCAGGCCCGGGCAGTGGTGCCCTACCTCGAGGAACGTCGGCCGGACCTCTACCGGTCCTGGGGGCTCTGA	MVKVLLALMQANSAVLDVEANCAAVEAAARSAAAAGAVVLVTPELFPVGYAPRKLRAGLDPARLPGIRAGLAGIARRWGIGLVYSLPEVTAGGAWHITSTLLDAAGNELIHYAKVHLFGDEERAAFSPAGERPAVVDFNGIPTSMVICYDVEFPEIVRAAAVSGAELLLVPTALAHGFEAVPQVLLRARALESQLTIAYANHSGMEDGCLFLGGSVIAGPDGALLAAAGEGSQLLFAEVGPDAARQARAVVPYLEERRPDLYRSWGL				NA	NA	NA	NA	NA
D1-29_01292	1830			hypothetical protein	ATGAGACGTAATGCACCACAGGCGAAGGCCTCTGAACCGATTCGACCGGGCTCCGCTGGCCGTGCCGATCCTTTGCCGTCCACCCCCACTGAACGGTTGGATGCCGTCACCCTGGGCCAGTTCCTGGCCGCCCTTCCCGCGGACCTCACCGTCATTGTTGACGCCGGAAACAGTTCGGCACCGCTGCGGTGGGTGGAGCCGAGTGAACTGGAAGACCCCACGCCGTACCTGCTGGACGGCGAGTTCGTCCTCACAGCCGGACTCCCCTTTCTCGAAAGCGGCGGCGACGGGCACAGCCGGGAAACCAAGGAAGAGCTGGCAGACGCCTATGTCCGGCGGCTGGTGGATGCCGGTGTTGCCGCCCTTGGATTTGGCCTTGAGCCGTATTTCGACGCCGTTCCGGAGCCGCTCGCCGCAGCGTGCCGGAAGTATGGCCTCACCCTTGTTCAAATCCCCGGCTCCCTGCCTTTCGCTGCCCTTGGCCTGGAGTTCTCCCAGCTGCTTGAGTCCGGAAACGCCAGGGTCTTCCGGCAACTCGCTGACACCAACCGGCAGCTGATGCGGGCGGTGCTTTCGGCTCGGCCCGAACATGAACTCCTGTCCGCGCTGGCCCAGCGCGTTCCGGTCTGGGCGCTCCTGATCGGCGCCGACGGGCGAGTCCGAGCCAGGGCGGCGGCGGCCGGAACGGCCGCAGGCAAGGAATATGCCGCAAGCAAGGAATCTGGCGGCGGCAAAGAAGCGTCAGGCTCAAAGGAAACGGCCCCCGCTACTCCGACCGGCACAGCCGGGGGTGCCGGCGTCGAACTCTCCCTCCTGCAGCCGATGCTCAAGCGATTGCTGGCAGGCAAGGGCCCGCGGGTGGAAACCGAATCCTTCGACATCCCCGGCGCCGCACAGGTCTTCGGCCACCCGCTGCGGAGCACCAGGGACGCCACCCTGGGTGGCCTTGTCCTGGGCACAGACAAGCCGCTGACCGCCGCGCAACACAGTGTTGTGTCGTCCGTGGTGGGGCTCTTGGAACTGCTGGTCCGGCAGCGAACCAGCGGGTCGCTGGCTCCCAGCCAGCTGGCCACGGCCCTGCTGCTTCATCCGGAAAGCCTGGTCTCTGGCAGCACCAGGCAGCTGAACGTGCTGAAGGACCTGCTGGCACAGAGCGTATCCGGAACCAGGTCCGGCCAGCTCCGGGTGGTCCAAGGGGTGCGGGCGGATGCGCAGCTGGAGTCGCCCGCCGACGGCCCCGTCAGGGAGCTGCTTCAATGGCGCCGGCTGTTCGACACCAAGATGGTGGAGCTGACCGATTACGGGTTTGCCGCAGTCACCAGGCTCAGGGTGGACGAACCGCTGCTGCAGGAAGTGGAGCGGCTGGGGTGGCGGCTCGTCGTGGGTGATCCGACGGAGCTGAGCGGACTCCCTGAGGCCTACCAGCGTGCGGCAGCACTGCGTTCCAGGGTCCAGTCCACGGGCAAGAGCGTCCGGGTTGACGAGGTCACCTGGTCTGTCACCGGGCTCCTGGGCCGGGAGGCCGGCAGCATGCTTGCCGCCAGGCTCCTGGAACCGGTCCTCAATCAGGAGCCCGAGCGCCGGCGTTCACAGCTGGCGCTCCTGAAGTCATGGCTGAGTGAAAACGGAAACTGGGATGCCACCGCTAAGGTCCTGGGGCTGCACCGGAACAGTGTGCGCCGCCAGATCACAGCCCTGGCCGAAGTGCTGGACATGGATCTGGGCCGGGCCCAGGTACGGGCCGAACTCTGGATCGCCCTGCAATACGTCGACGGCGCTGAAACGGACCGGTCTCCGGAGGCAGGGCTTCAGAGCCCCCAGGACCGGTAG	MRRNAPQAKASEPIRPGSAGRADPLPSTPTERLDAVTLGQFLAALPADLTVIVDAGNSSAPLRWVEPSELEDPTPYLLDGEFVLTAGLPFLESGGDGHSRETKEELADAYVRRLVDAGVAALGFGLEPYFDAVPEPLAAACRKYGLTLVQIPGSLPFAALGLEFSQLLESGNARVFRQLADTNRQLMRAVLSARPEHELLSALAQRVPVWALLIGADGRVRARAAAAGTAAGKEYAASKESGGGKEASGSKETAPATPTGTAGGAGVELSLLQPMLKRLLAGKGPRVETESFDIPGAAQVFGHPLRSTRDATLGGLVLGTDKPLTAAQHSVVSSVVGLLELLVRQRTSGSLAPSQLATALLLHPESLVSGSTRQLNVLKDLLAQSVSGTRSGQLRVVQGVRADAQLESPADGPVRELLQWRRLFDTKMVELTDYGFAAVTRLRVDEPLLQEVERLGWRLVVGDPTELSGLPEAYQRAAALRSRVQSTGKSVRVDEVTWSVTGLLGREAGSMLAARLLEPVLNQEPERRRSQLALLKSWLSENGNWDATAKVLGLHRNSVRRQITALAEVLDMDLGRAQVRAELWIALQYVDGAETDRSPEAGLQSPQDR				NA	NA	NA	NA	NA
D1-29_01293	1539	yhdG_2	COG0531	putative amino acid permease YhdG	ATGACTGTGCCCACACTCTCCCGGCCGACGCCGGAACGTACAGCCGGCCGTCCCGGCCTGGGTGCGCAACTGCTGCGCCGCAAGCCGATCGGCCAGATGGTCACCGAAGCCGACGAAGGCCACAACGGCACCAAACTGGTGCGCAGCTTCGGTGTCTTCCAGCTGACCATGATCAGTGTCGGTGCCACGCTCGGGACCGGCATCCTGGTCATCCTGGGCGAATCGGTCCCGCTGGCCGGGCCGGCCATCTGGATTTCCTTTGCCATCGCCGGACTGGCCGCGCTGCTTTCCGCCGTGTCCTACGCCGAGATGGCCGGCCTGGTCCCGGTTGCCGGCTCCAGCTACTCCTACAGCTACGCCACCATGGGCGAGGGGATGGCCTGGATCTGTGGCTGGTGCCTGGTGCTGGAGTACGCGGTCTCGGTGGCAGCTGTTGCCGTTGGCGCCGGCCAGTACGTCAACGAGACGCTCGCGGTGTTTGGGCAGATACTTCCCGATGCCATTTCCCAGCCGCCCGGCGACGGCGGTGTGGTCAACATCCCGGCCATGGTCATTGTGGTGCTGGCCATGCTCCTGCTCGTGAAGGGCGCCAAGGAAAGCGCCTGGATCAACACCGCGATCGTGGTCATCAAGGTTGGCATCCTGGTCTTCTTCTGTGCCGTGGCGTTCACCGCCTTCAACGCCGGAAACTTCGAACCGCTCCTGCCCATGGGCGCTGCCGGCGTTTCCGCCGCGGCTTCCAGTGTCTTCTTCTCCTATATCGGCTTTGATGCCGCCTCCACCGCAGGCGAAGAAGCCCGCAACCCGAAAAGGGACCTGCCCCGCGCCATCATGCTCTCCATGGTGATCGTCACCACCATCTACGTCCTGGTGGCGGTAGCTGCCATCGGCGCGCGGCCCTGGGGCTGGTTCGACGGCACCGAAGCCGCGCTGGTTAAGATCCTCGAGGAAACCACGGGGCAGCCCTGGATCGCGCTGGTCTTTGCCGTGGGCGCCGTCCTGGCCATCGCCAGCATTGTGCTGACCGTTCTCTACGGCCAGACCCGCATCCTGCTCTCCATGTCCCGTGACGGCCTGATTCCTAAGATCTTCGGCCGCGTCTCCCGCCGCACCGGCACCCCCGTGGCCGGTACGCTGCTGGTGGGCATCGCCGTCGCGCTCACTGCCGGGCTTGTCCCGTTGGGTGCCCTGGCTGATGCCACCAGCATCGGCACGCTGTTCGCCTTCGCCCTGGTCAACGTGGCCGTGATCTACCTGCGCCGCACCCGCCCCGAACTTGAGCGCACGTTCCGCGTTCCGCTTTTCCCGCTGACCCCCATCCTGGGCGCCGCGATGTGCGGCTACCTCATGCTCAACCTTGGCGCGGACACCTGGCTGGTCTTCGGAGTCTGGATGCTGGTGGGCGTAGCCGCCTACTTCGGCTACGGACGCCGGAACTCCAGGGTGGCGGCAATGAGCCACGAGGAATACCGTGAGCTGAGCGCGCGGGAATCTTCACCACTGTCCACCACCGAACCGACGAAGGCAGAGATTTCATGA	MTVPTLSRPTPERTAGRPGLGAQLLRRKPIGQMVTEADEGHNGTKLVRSFGVFQLTMISVGATLGTGILVILGESVPLAGPAIWISFAIAGLAALLSAVSYAEMAGLVPVAGSSYSYSYATMGEGMAWICGWCLVLEYAVSVAAVAVGAGQYVNETLAVFGQILPDAISQPPGDGGVVNIPAMVIVVLAMLLLVKGAKESAWINTAIVVIKVGILVFFCAVAFTAFNAGNFEPLLPMGAAGVSAAASSVFFSYIGFDAASTAGEEARNPKRDLPRAIMLSMVIVTTIYVLVAVAAIGARPWGWFDGTEAALVKILEETTGQPWIALVFAVGAVLAIASIVLTVLYGQTRILLSMSRDGLIPKIFGRVSRRTGTPVAGTLLVGIAVALTAGLVPLGALADATSIGTLFAFALVNVAVIYLRRTRPELERTFRVPLFPLTPILGAAMCGYLMLNLGADTWLVFGVWMLVGVAAYFGYGRRNSRVAAMSHEEYRELSARESSPLSTTEPTKAEIS	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
D1-29_01294	1746	iaaM		Tryptophan 2-monooxygenase	ATGACCATCGCCACCGAACTGCCGGCCTCCGACCCGTCAAGTACTTCTTCAGGACTGGCCACAGCCCCGGCGCCCGGCCCGGGCGAATATGGTGTCCCGGCAGCGCCCATCACCATGCTGAACCCGGACTTCCCTTTCAGCTACGACCACTACCTGGCGCATCCGGCCGGCCTCGGCACTGTTCCGCCCGGGCTCTACGGCACTGAGGTGGCAGTTGTCGGCGCCGGCCTGTCCGGCCTGGTGACCGCCTATGAGCTGATGAAACTGGGCCTGCGTCCCGTTGTGTATGAGGCAGACCAGATCGGCGGCCGGCTGCGTACCGCCAACTTCCCATCCGCCCCCGGGGTAGTGGCAGACCTCGGCGGGATGAGGTTTCCCGTGTCCGGAAAGGCCTTCTACCACTACGTGGACCTGCTGGGCCTGGACACCCAGGACTTCCCCAACCCGCTGGCGCCGGCAACATCCAGCACGGTGATTGAGCTGGCCGGCCGGAAACACTACGCCGAGACTGCCCGGGACCTGCCACCGTTTTTCCGCGAAGTGGCCGACGCGTGGAAGGCTGCCGTGAACGACGGCGCGAAGTTCAGCGAGATGCAGGAAGCCATCCGCGCACGCGACACTGCCCGGATCAAGGAGATCTGGAACGAACTCCTGCCCCTCATGGATGAACAGACCTTCTATGGATTCATCGCCGGCAGCGAGTCCTTCAAGGAAGCCGGCTTCGCGCACCGCGAGGCCTTTGGCCAGGTGGGCTTCGGTACCGGCGGCTGGGACACCGACTTCCCCAACTCCATCCTCGAAATCCTCCGGGTTGTCTATACCGACGCGGACGACCAGCACCGGCTCATCACCGGGGGAGCGCAAAGGCTTCCCGAGGCACTGTGGCACCACACGCCGTCGGGCATGGCGCACTGGCCGGACGGAACGTCCCTGGCGTCCCTCCATTCAGGCTCGCCCCGCGGCGCCGTCGGAAAAATCAGCCGCGACGCCGGCGGCGACCTTCGGATCCGTGAGCGCTGGGGCCGGGAAGCCACGTACCCGGCCGTGGTGACCACCTGCCAGTCCTGGCTGCTGTCCACGCGCATCCATACCGAGGAGGCGCTGTTCCCGGCGGAGCTCTGGACCGCCATGGAGCGCTCGCACTACATGCAGTCCTCCAAGACCTTTGTGATGGTGGACCGGCCCTTCTGGAAGGACATCGACCCGGAAACCGGGCGCGAGGTCCTGTCCATGACCCTCACCGACCGGCTCAACCGGGCCACGTACCTCCTGGACGACGGCCCTGACAAGCCTGCCGTGATCCTGCTCTCCTACACCTGGAACGATGACGCCCTCAAGTGGCTGGCGCTGGACGCCGACGAACGCGTGGAGCTGATGCTGCACTCGCTGGAGCAGATCTACCCGCGCGTGGACATTGCGAGCCATATCGTGGGCCAGCCCATTACCGTCTCGTGGGAGGCGGACCCCAACTTCATGGGCGCGTTCAAGGCAAACCTGCCCGGGCACTACCGCTACCAGCAGAGGCTGTTCAGCCACTTCAAGCAGGACAGGCTGCCGGAGAGCCAGCGCGGCATCTTCCTCGCCGGCGACGACGTGTCCTTCACGGCAGGCTGGGCGGAAGGCGCTGTCACCACCGGCCTGAATGCCGTGTGGGGAGTGGTGAACCACCTTGGCGGCTCATCCGCGCTGGGCAACCCCGGACCCGGCGAGCTCCTGGAAGCGATCGGCCCGATCAGCCTGGACTGA	MTIATELPASDPSSTSSGLATAPAPGPGEYGVPAAPITMLNPDFPFSYDHYLAHPAGLGTVPPGLYGTEVAVVGAGLSGLVTAYELMKLGLRPVVYEADQIGGRLRTANFPSAPGVVADLGGMRFPVSGKAFYHYVDLLGLDTQDFPNPLAPATSSTVIELAGRKHYAETARDLPPFFREVADAWKAAVNDGAKFSEMQEAIRARDTARIKEIWNELLPLMDEQTFYGFIAGSESFKEAGFAHREAFGQVGFGTGGWDTDFPNSILEILRVVYTDADDQHRLITGGAQRLPEALWHHTPSGMAHWPDGTSLASLHSGSPRGAVGKISRDAGGDLRIRERWGREATYPAVVTTCQSWLLSTRIHTEEALFPAELWTAMERSHYMQSSKTFVMVDRPFWKDIDPETGREVLSMTLTDRLNRATYLLDDGPDKPAVILLSYTWNDDALKWLALDADERVELMLHSLEQIYPRVDIASHIVGQPITVSWEADPNFMGAFKANLPGHYRYQQRLFSHFKQDRLPESQRGIFLAGDDVSFTAGWAEGAVTTGLNAVWGVVNHLGGSSALGNPGPGELLEAIGPISLD	PGPT0020330_304	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0020330-davB-K00468	NA	NA
D1-29_01295	522	yrdA	COG0663	Protein YrdA	ATGGCTCCTCTTTACGATTTTGCCGGGAACACTCCGGCCGTCCACGACTCCGCCTTTGTTGCCCCCACGGCGTCGATCATCGGCAACGCCAGCCTCGCACAGGACTCCAGCGCCTTTTATGGCGTGTCGGTCCGGGCTGACACCGCGGCAATCAGCGTGGGTGCGGGCAGCAACCTGCAGGACAACGTGGTCCTCCATGCGGACCCCGGTTTCCCCTGCAGCGTCGGCGCCCGGGTCAGCGTGGGCCACGCCGCCGTCGTCCATGGCTGCACCGTGGAGGACGACTGCCTGATCGGCATGGGCGCCACCGTCCTGAACGGTGCCGTCATTGGCGCCGGCTCGCTTGTGGCGGCCGGCGCCGTTGTCCTGGAAGGGACAGTGGTTCCGCCCCGCTCACTCGTGGCCGGAGTCCCCGCCAAGGTGCGGCGGGAACTCAGCGACGAGGAGTTCGAGGGCGTTAAGGCCAACGCGGACCGCTACGTGGAGCTGGCCCGCGCCCACCGGGAGCTTCACGCCCCGTAA	MAPLYDFAGNTPAVHDSAFVAPTASIIGNASLAQDSSAFYGVSVRADTAAISVGAGSNLQDNVVLHADPGFPCSVGARVSVGHAAVVHGCTVEDDCLIGMGATVLNGAVIGAGSLVAAGAVVLEGTVVPPRSLVAGVPAKVRRELSDEEFEGVKANADRYVELARAHRELHAP	PGPT0002425_569	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002425-GAMMACA_like-K01726	NA	NA
D1-29_01296	687			hypothetical protein	ATGAACAGCGTTGTGGATCCGTGGACGGAGGAACCCGGCAGCGAGCAGCGCCTGGCCGAGTTCTATAACCGCCTCGCGGCTTCCGGCGCTGACGATCCGCTGGACCCGCGGAGGGCCGAACAGCGCGAGCGGTTTATCACAATGCTCAAGGCCGAGGGCCGGCGCGATGTCCTGGACGTCGGTTGCGGCACGGGCATTGACGGCCTGAAGTTTGTCCAGGCCGGCATCCACTACACGGGCGTTGACCTCGCCGAGGGAAACGTCCGGCTGGCCAGGGCGAAGGGCCTGGACGTCTCCGTCGCGAGCGCGCGGCAGCTGCCCTTCCCGGACAGCACCTTCCCCGCGGTGTGGTGCATGAGCACACTGGTGCATATCCCCGCCAGCGATGTTGACGGCGTCCTGCGGGAACTGGTGCGGGTCTCGGCACCCGGCTCGCCCATCGCCGTCGGCCTCTGGTCCGGAGGTGACGAGGAACTGCTTAACCCAGCCGACGACGCCGAACCCCGCCGGTTCTTCAGCCGGCGAAGTGACGGGACGGTACGGGATGTCTTTGGCCGGCACGGCGTGGTCGAAGAATTTATCACCTGGCCGGAGGGCGAAGGCCCGGAATCAGGTCCCGGCGCAGGGGCGTGGACGCAGCACTACCAGTTCCTCATCCTCCGCACCCCTCCCTCCCCAACTAAGTAG	MNSVVDPWTEEPGSEQRLAEFYNRLAASGADDPLDPRRAEQRERFITMLKAEGRRDVLDVGCGTGIDGLKFVQAGIHYTGVDLAEGNVRLARAKGLDVSVASARQLPFPDSTFPAVWCMSTLVHIPASDVDGVLRELVRVSAPGSPIAVGLWSGGDEELLNPADDAEPRRFFSRRSDGTVRDVFGRHGVVEEFITWPEGEGPESGPGAGAWTQHYQFLILRTPPSPTK				NA	NA	NA	NA	NA
D1-29_01297	978	purU_1	COG0788	Formyltetrahydrofolate deformylase	GTGGTCTTCGTGATTGCCGCTCCCTGGTGGTTAGCCACCCAACGCCAGTTGCGACCCCACCAGACTACCAAAGCCGGCCACGAAACACGCCCGGCCGGCGCGGGTAGGCTGGTACGCGTGAGTGAAGAGCACCTGAACCAAGCGTACGTAGTAACCCTTTCCTGCCCGGACCGCCCCGGAATTGTCCACGCAGTGGCCGGCGCACTGCTGGTGGCGGGGTGCAATATTACGGATTCGCAGCAATACGGAAGCCCCGCAACAGGCAACTTCTTCATGCGCGTGGAAGTCACGACGTCGGCCTCCCGCCCTGAACTTCAGGCCTCGCTTGAGCCGGTGGCCCAGTCCTTCGGGATGCAGTGGAGCCTGAACTCCGTGGGCCAGAAGGTGCGGACCTTGCTGATGGCGAGCACGTCGGCGCACTGCCTTAACGACATCCTGTTCCAGCAGCGCTCAGGCACGCTGCCTATCGAAATCCCGGCGATCGTTTCCAACCACCAGGACCTGGCCGGGCTGGCAGAGTTCTATGGTGTTCCCTTTCACTACATCCCCGTCACGCCGGACACCAAGGCCCAGGCCGAAGACAAGCTGCGTGCCATCATGGCCGAACACGATGTGCAGCTGACGGTCCTTGCCCGCTACATGCAGATCATTTCCGACGAACTCTGCGCGGAACTCACCGGCAAAGCCATCAACATCCACCACTCGTTCCTGCCGTCCTTCAAGGGCGCCAAGCCGTACCACCAGGCCCACGCCCGGGGCGTGAAGCTGATCGGCGCCACCGCGCACTATGTCACCGCCGCCCTGGACGAGGGACCCATCATCGAGCAGGAAGTGATCCGGGTGGATCACGCCCGCACCCCCGAACAGTTCGTGCAGATGGGCCGTGACGTGGAGGGCCGCACCCTGGCCCAGGCCGTCCAATGGCATGCCGAGCACAGGGTCTTGCTGGACGGCAACCGCACAGTGGTCTTCAACTGA	MVFVIAAPWWLATQRQLRPHQTTKAGHETRPAGAGRLVRVSEEHLNQAYVVTLSCPDRPGIVHAVAGALLVAGCNITDSQQYGSPATGNFFMRVEVTTSASRPELQASLEPVAQSFGMQWSLNSVGQKVRTLLMASTSAHCLNDILFQQRSGTLPIEIPAIVSNHQDLAGLAEFYGVPFHYIPVTPDTKAQAEDKLRAIMAEHDVQLTVLARYMQIISDELCAELTGKAINIHHSFLPSFKGAKPYHQAHARGVKLIGATAHYVTAALDEGPIIEQEVIRVDHARTPEQFVQMGRDVEGRTLAQAVQWHAEHRVLLDGNRTVVFN	PGPT0008155_63	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
D1-29_01298	1299	glyA1	COG0112	Serine hydroxymethyltransferase 1	GTGACTACAACAGCCACCACAACAGCCGCAGTCAGCAACCAGTCGCTGGCCGAGCTCGATCCCGAAATCGCCGCAGTCCTCGACCAGGAACTGGGCCGTCAGCGCGGCACCCTGGAAATGATCGCGTCAGAAAACTTCGCCCCGCGGGCCGTGATGGAAGCCCAGGGCTCCGTCCTCACCAACAAGTACGCCGAGGGCTACCCGGGCCGCCGCTACTACGGTGGCTGCGAATATGTTGATGTTGCCGAGCAACTGGCCATTGATCGCGTCAAGGCCCTCTTCGGGGCCGAGTACGCCAACGTCCAGCCGCACTCCGGTGCCCAGGCCAACGCCGCGGCCCTCTCCGCCATGATCACCCCGGGCGACAAGATCCTTGGCCTGTCCCTGGCCCACGGCGGCCACCTGACCCACGGCATGAAGCTGAACTTCTCCGGCAAGCTCTACCAGGTGGCCGCCTATCAGGTTGAAGAAGACAACTTCCGGGTGGACATGGACAAGCTGCGCGAGCAGGCCATCGCCGAGAAGCCGCAGGTCATCATCGCCGGCTGGTCCGCCTACCCCCGCCACCTTGACTTCGCAGCCTTCCGCTCCATCGCCGATGAAGTGGGCGCGTTGCTCTGGACAGACATGGCGCACTTCGCCGGACTGGTGGCAGCAGGCCTGCACCCGAGCCCGGTGCCGCACTCCGACGTCGTCACCTCCACTGTGCACAAGACCCTCGCCGGCCCGCGTTCCGGTGTGATCCTGGCGAAGCAGGAGTGGGCCAAGAAGCTGAACTCCAACGTGTTCCCGGGCCAGCAGGGCGGCCCGCTGATGCACGTCATCGCCGCCAAGGCAGTGGCCTTCAAGATCGCCGGCACCACTGAATTCAAGGAACGCCAGGAGCGCGTCCTGGAAGGTGCCAAGATCATCGCCGACCGCCTCAACCAGGCCGACGTCGCCGAAGCCGGCGTCTCCGTCCTCACCGGCGGCACTGACGTGCACCTGGTCCTCGTTGACCTGCGCAACTCCCAGCTGGACGGCCAGCAGGCCGAGGACCTCCTGCACTCTGTGGGCATCACCGTCAACCGCAATGCCGTGCCGTTCGACCCCCGCCCGCCGATGGTCACCTCCGGCCTCCGCATCGGCACCCCCGCCCTGGCCACCCGCGGCTTCGGCGCCGAGGAGTTCACCGAAGTGGCGGACATTATCGCCACCGCACTGAAGACCGGTGCGGCGACGGACGTGGACGCACTCCAGGCCCGCGTGGACAAGCTCGCCGCAGACTTCCCGCTGTACCCGCAGCACGAGCAGTGGTAA	MTTTATTTAAVSNQSLAELDPEIAAVLDQELGRQRGTLEMIASENFAPRAVMEAQGSVLTNKYAEGYPGRRYYGGCEYVDVAEQLAIDRVKALFGAEYANVQPHSGAQANAAALSAMITPGDKILGLSLAHGGHLTHGMKLNFSGKLYQVAAYQVEEDNFRVDMDKLREQAIAEKPQVIIAGWSAYPRHLDFAAFRSIADEVGALLWTDMAHFAGLVAAGLHPSPVPHSDVVTSTVHKTLAGPRSGVILAKQEWAKKLNSNVFPGQQGGPLMHVIAAKAVAFKIAGTTEFKERQERVLEGAKIIADRLNQADVAEAGVSVLTGGTDVHLVLVDLRNSQLDGQQAEDLLHSVGITVNRNAVPFDPRPPMVTSGLRIGTPALATRGFGAEEFTEVADIIATALKTGAATDVDALQARVDKLAADFPLYPQHEQW	PGPT0008090_2674	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
D1-29_01299	912	folD_1	COG0190	Bifunctional protein FolD protein	ATGGCCCAGACCGCGAAGATCCTTGACGGCAAGGCAGCCGCTGCAGCCATCAAATCCGAGCTGGCTGACCGTGTGGCGGCTCTGAAGACCCGTGGCGTTACCCCTGGCATCGCCACGGTGCTCGTGGGCGCTGACCCTGCCTCGCAGCTGTATGTGTCCATGAAGCACAAGCAGTCTGTGGAAATCGGGATGAACTCGATCCAGCGGGAGCTTCCGGCAGATGCCACCCAGGCGCAGGTCGAGGCCCTCATTGATGATCTCAATGCGGACCCCGCCTGCCACGGTTACATCGTCCAGCTGCCGCTGCCCAAGCACCTGGACACCGACGCGATCCTTGAGCGCATTGACCCCGCCAAGGACGCCGACGGCCTGCATCCGACCAACCTTGGCCGGCTGGTGCTTAACGTCAACGGCGAGATCACCTCACCACTGCCGTGCACACCCCGCGGCGTCATCGAACTCCTGGAGCGCAACGGCTACAGCCTCGCGGGCAAGCATGTGGTGGTGGTGGGCCGTGGCGTCACGATCGGCCGGTCCATCGGTCTGCTGCTCACCCGGCGGGCCGTGAATGCCACCGTCACACTGACGCACACCGGCACCAAGAACCTCTCGGAACTGCTGCGGCAGGCGGACGTCATTGTGGGCGCGGCCGGTGCCAAGCACATCGTCAAGGCAGCGGACGTGAAGCCCGGCGCAGCGTTGCTTGACGTCGGTGTTACCCGCGAAACCGACCCCGAGACGGGCAAGAGCAAGGTCCAGGGCGACATCGATCCGGCTGCTGCTGAGGTGGCCGGGTGGATTTCGCCCAACCCCGGCGGCGTCGGGCCCATGACCGTGGCCCTGCTGATGACCAACGTGGTGGAAGCCGCGGAACGCCAATTGGCACAGGAAAGCGGCTCGGGCATCGCCTAG	MAQTAKILDGKAAAAAIKSELADRVAALKTRGVTPGIATVLVGADPASQLYVSMKHKQSVEIGMNSIQRELPADATQAQVEALIDDLNADPACHGYIVQLPLPKHLDTDAILERIDPAKDADGLHPTNLGRLVLNVNGEITSPLPCTPRGVIELLERNGYSLAGKHVVVVGRGVTIGRSIGLLLTRRAVNATVTLTHTGTKNLSELLRQADVIVGAAGAKHIVKAADVKPGAALLDVGVTRETDPETGKSKVQGDIDPAAAEVAGWISPNPGGVGPMTVALLMTNVVEAAERQLAQESGSGIA	PGPT0008075_390	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491	NA	NA
D1-29_01300	975	lnrL_1	COG1131	Linearmycin resistance ATP-binding protein LnrL	GTGCACAATGAAGCCATCCTCTCCTCCAATACGTCAGCCGGCCCCATGAAGCAGCAAGCGGTGATCGCAGCGGAAAACCTGAGGAAGACGTATGGGGACCTTGCCGCCGTCGACGACATTTCCTTCAGCGTCCAGGCGGGAGAATCCTTCGGGCTGCTGGGCCCCAATGGCGCGGGCAAATCCACCACCATGAAAATGATTGGCGGTGTCACGCAGCGCACCTCGGGGACGCTGAGCATCATGGGCCTGGATCCGGACAGCCACGGGCCGGAGGTGAGGGCACACCTCGGCGTGGTGCCGCAGCAGGACAACCTGGACGAGGAACTCAGGGTCCGGGATAACCTCCTGGTATACGGCCGCTACTTTGGCCTGCCCATGAGCTACCTGAAGCCCAAAGCCGACGAACTGCTGGAGTTTGCCCAGCTGACTGACAAGGCGAAGTCCAAGGTGGATGCGCTCTCCGGCGGTATGAAGCGGCGCCTTACCATCGCCCGCTCGCTGATCAATGAGCCGCGGATCCTGCTACTGGACGAACCCACCACGGGGCTGGATCCGCAGGCACGGCACATCCTGTGGGACCGGCTGTTCCGTCTCAAGGAGCAGGGCGTCACGCTGATCCTGACCACGCATTACATGGATGAGGCCGAGCAGCTCTGCGATCGGCTCATTGTGGTGGACAAGGGACGGATCATGGCTGAAGGCTCGCCTGCCCAGCTGATCCGGGAGCATTCCACCCGGGAGGTCCTGGAGCTGAGGTTCGGCTCCGAGCGCAACACCACCATTGGTCCGGAGCTGCAGGGGATCGGGGAACGCCTCGAGGCGCTGCCGGACAGGGTGCTGATCTACGCGCACGACGGCGAGGCAGCCCTTGAGCACGTGGCATCCCGTGGCCTGCGGCCACTGACATCGCTGGTGCGCAGGTCCTCGCTGGAGGACGTCTTCCTCCGGCTCACCGGGAGGAGCCTTGTTGAGTGA	MHNEAILSSNTSAGPMKQQAVIAAENLRKTYGDLAAVDDISFSVQAGESFGLLGPNGAGKSTTMKMIGGVTQRTSGTLSIMGLDPDSHGPEVRAHLGVVPQQDNLDEELRVRDNLLVYGRYFGLPMSYLKPKADELLEFAQLTDKAKSKVDALSGGMKRRLTIARSLINEPRILLLDEPTTGLDPQARHILWDRLFRLKEQGVTLILTTHYMDEAEQLCDRLIVVDKGRIMAEGSPAQLIREHSTREVLELRFGSERNTTIGPELQGIGERLEALPDRVLIYAHDGEAALEHVASRGLRPLTSLVRRSSLEDVFLRLTGRSLVE	PGPT0015275_30	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
D1-29_01301	867			hypothetical protein	TTGTTGAGTGAGGCGTCCGGCTCCACCGAAACTACCCGCCTGACCGCCCCCGCCCGGGCGCACAGCCCGGAGGTCTCCGCTGCCAAGGCCCGGAGGTGGGGTGCCTTCTACTTTGCCGAGCAGGTTATCCGGGTGTTGTGGGGGTATCGCTTCTCAGTCCTGATGTACAGCGTGGGCCAGCCGGTGGCCTACCTGTTCGCGATGGGCGTGGGCCTGGCAACCCTGGTGGAGGCCGAAAGCGAGGCTTTCGGCGGGGTCAGCTACCTGGCCTTCATTGCCCCGGCACTCCTGGTGTCCGCTGCCGTCGTGACGGCGGCCAACGAGTTCACCTTCCCGGTGATGGCCGGCTTCAAGTGGCGCCGGACCTATTACGGTCCGCACGCCTCGCCGCTGACACCGGAGCAGATCGCAGCCGGACACATCATTGCTGTGACGCTGCGTTTCTTGGTGCAGTCGGCCATCTATTTTGGTGCCGTGGCCCTGTTCGGAGCGTCCCCGAGCGGCTGGGGGTGGGTCAGCGTCGTGGTGGCAACTGTGGCCGGGCTGTCCTTCGGGCTGCCCCTCATGGCCTACTCGGCGTCCCTCAAAGAGGACAAAGGACAGTTCGCGCTGGTCATGCGGTTCATCGTGATGCCTTTGTTCCTGTTCTCGGGCACCTTCTTCCCGCTGGACACCCTGCCGCTGGCCGTCCGCTGGATCGGCTGGATCTCTCCCATCTGGCACGGCACCGAGCTGGGCCGGGTCTTCACGTACGGCTACCAGGAACCACCGCTGCTTACCGCCGTGCACGTGGTGGTACTGCTGGCGCTCGCCGTGCTGGGCTGGATCCTCACCAAGCAGCAGTTCATCAAAAGGATGGGCCAATGA	MLSEASGSTETTRLTAPARAHSPEVSAAKARRWGAFYFAEQVIRVLWGYRFSVLMYSVGQPVAYLFAMGVGLATLVEAESEAFGGVSYLAFIAPALLVSAAVVTAANEFTFPVMAGFKWRRTYYGPHASPLTPEQIAAGHIIAVTLRFLVQSAIYFGAVALFGASPSGWGWVSVVVATVAGLSFGLPLMAYSASLKEDKGQFALVMRFIVMPLFLFSGTFFPLDTLPLAVRWIGWISPIWHGTELGRVFTYGYQEPPLLTAVHVVVLLALAVLGWILTKQQFIKRMGQ	PGPT0015280_14	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-INHIBITION_OF_SALICYLIC_ACID|JASMONIC_ACID	ADAPTION_TO_PIS_REGULATION_BY_Nod_FACTORS,PGPT0015280-nodJ-K09694	NA	NA
D1-29_01302	834			hypothetical protein	ATGAGCGTCCTCACCGGTGGCCACAGCGTCACCGAAGACGCCCGCAACAGAAAGTTCGGGCCGCTGTACTCCCGCAACGCCAAGGCGGTGATCTCACGTGGCCTGATGGCCACCAAAAGCAGCAACTGGCTGGTGATGCTCTCCGGCTTCTTCGAGCCCGTTCTCTTCCTGATCTCCATGGGAGTCGGACTCGGACCCATCGTTGGGGCGGTGCAGGGGCCGGGCGGTGCAGAGATCAGCTACGCGGCTTACATCGCACCGGCACTGCTGGCTGTTTCCGCCATGAACGGAGCGGTCTACGACTCCACGTGGAACGTCTTCTTTAAGATGAACTTCGCCAAGCTGTACCAGGGGATGCTCTACACCTCCCTGGGGCCGCTGGACGTGGCCATGGGTGAGATCTTCCTGGCCCTCCTGCGCGGCGTCCTGTATGCCACGGGTTTCACCGCTGTACTGGGCATGATGGGCCTGATCACCACGCCCTGGGCCATCCTGATGATTCCGGCCTCGTTGCTGATCGCTTTTGGATTCGCCAGCATGGGCATGGGCATTACGAGCTTCCTGAAGACGTTCCAGCAGATGGACTGGATCAACTTCATCATGCTGCCCATGTTCCTGTTCAGCGCCACGTTCTATCCGCTCAGCGTCTACCCCCAGGCCATCCAGTGGCTCATCCAGGCCATGCCCCTCTGGCACGGCGTGGAGTTGCTGCGCCAGATCAGTGTGGGTATCTTCACGCCCGCCACGGCCATCCACATCGGCTACTACCTGGTGATGACGGCGCTGGGCATGCTGCTGACCACGGCCCGGCTGCGGAAACTGTTCCTCAAGTAA	MSVLTGGHSVTEDARNRKFGPLYSRNAKAVISRGLMATKSSNWLVMLSGFFEPVLFLISMGVGLGPIVGAVQGPGGAEISYAAYIAPALLAVSAMNGAVYDSTWNVFFKMNFAKLYQGMLYTSLGPLDVAMGEIFLALLRGVLYATGFTAVLGMMGLITTPWAILMIPASLLIAFGFASMGMGITSFLKTFQQMDWINFIMLPMFLFSATFYPLSVYPQAIQWLIQAMPLWHGVELLRQISVGIFTPATAIHIGYYLVMTALGMLLTTARLRKLFLK	PGPT0015280_174	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
D1-29_01303	1230			IS481 family transposase ISArsp2	GTGGCGACATGGCCCGAAGACGCTCCCCGTGGTGCCGTGACGGCGTTCTGCCGGAAGCACAACGTCTCGAGGGCGTGGTTCTATCGAGTCCGTGCGGCGGCCGGTGCGGTGGGGCCGGTGCAAGCGTTGGTGAAGAAATCCACGGTTCCGGGGACCTCGCCCACTGCCACCGAGCCTGGCATGATCGATCTCCTGCTTGCCACTCGGACTGATCTGGAGAAACAAGGTCTGGATCACGGCCCTTTGTCGGTCCTGTCTACGCTGTCCAGGCAGGGCTATCGTCCCCCGTCGCGGGCGACCGTGGCCAGGATCTTTGCCCGGTCCGGGGTAGTGGTGCCGGAGCCGCGGAAGAAGCCGCGCAGCGCCTACAAGCGATTCGTCTATCCGCAGCCGAACGCGTGCTGGCAGATCGACTCGACCGAGTGGGTCCTCGCCGACCGGACGAAAGTGGCAGTTTTCCAGCTCATAGACGATCATTCCCGGCTTGCTCTGGCATCTCTCGTGGCCCCGGGCGAAACCAGTGCCGCTGCGATCGCGGTCGTGACGCTGGCCATCCAAAGACATGGCGTGCCGCAGAAGTTCCTCTCCGACAATGGCGCAGCGCTGAACCCGACCCGCCGCGGACGCACCGGTGCGCTGGTCGAATTCCTCAAAGCCAAAGGCGTGGAGCCGATCACCGGTAAGCCCTACAAACCCACCACCCAGGGCAAGAACGAACGCTTCCACCAGACCCTGCACAAATACCTCCACCGTCAGCCGCCGGCCGCATCAATGACTCTCCTGCAAGCCCAAGTCGACGCTTTCGATCTGTACTACAACACCCAACGCGAACATCAGGGCCTGGCACCGGGAATGACCCCAAGCGAGGCCTGGCACGCCACTCCAAAAGCCCCGGCACCGGTTCCGCCAGATCAACCAACACCGGAATCAGAGCGACGCAGCCTTCGCCGAACGGTCCGGAAGGACGGCTGCATTACCGTCCTGGGCACCCATTTCATGATGGGCAAGGAACACATCGGACAAACCGTCCACGTCATCTACGACGCCGCCACCATCATGTTCTTCGGACCCCAAGGCACCGAAATCATCAGCCACGTCAGGCCACCCAAAGGCACGCCCTACGTCGGCAACGGCAAGCCCTCCGGCGTCGCCGCAGACCCTGTAGGAGCCCGCAAAAAGCGAACCCATTACCCACGCCGACGTCAGCAGCCAAACGCCACGCAACCATGA	MATWPEDAPRGAVTAFCRKHNVSRAWFYRVRAAAGAVGPVQALVKKSTVPGTSPTATEPGMIDLLLATRTDLEKQGLDHGPLSVLSTLSRQGYRPPSRATVARIFARSGVVVPEPRKKPRSAYKRFVYPQPNACWQIDSTEWVLADRTKVAVFQLIDDHSRLALASLVAPGETSAAAIAVVTLAIQRHGVPQKFLSDNGAALNPTRRGRTGALVEFLKAKGVEPITGKPYKPTTQGKNERFHQTLHKYLHRQPPAASMTLLQAQVDAFDLYYNTQREHQGLAPGMTPSEAWHATPKAPAPVPPDQPTPESERRSLRRTVRKDGCITVLGTHFMMGKEHIGQTVHVIYDAATIMFFGPQGTEIISHVRPPKGTPYVGNGKPSGVAADPVGARKKRTHYPRRRQQPNATQP				NA	NA	NA	NA	NA
D1-29_01304	564			hypothetical protein	ATGCGATCCCTGGGTACCCCTCACTCTGACTCCAACCCCGCCAAGGGCGGGTTCTCCCTGCTCCGAATCAGCGGCCCGGGAATGATGATCTTTGTCATCGCGTTCCTGGTGGCCGTGATCTTCGCGGCCAACCAGAACGACGTCGTGGGCTGGATCGTTGCCATCATCGCGCTGTTCTGGCTGCTTCTGGCCTGCTTTGTGGTCTTCAGCATCCAAAAGGCCGCCAAAAAGGCCGGTGCCAAGCTGGCTGAAGCCCAAAATGCGTTCAACAGCGCAACCGGGCGCGCGCCGTCGCCGTCCTCGGCTGACCATGGCGGCACCCGGGTGGTGGCGGAGCGGTCCGAAGCTGACGAAGTCCGCGACCTGAAGCTGGACCATTCGTTCAAGATCGTGCAGGTGCAGACCAGGGTGATTGAGCAGGAGCGGGCCAAGGGGGAGGCAGCCGACCAGGACACCATCCGCCGTGCCCTTGAAACCATTGAGATCACCGCCACGAACGCCCGCGACATGATCAGGTCCTCCGGCGGCACCGGGGACCCGGTCAGCGGAACCATCATCGACTAG	MRSLGTPHSDSNPAKGGFSLLRISGPGMMIFVIAFLVAVIFAANQNDVVGWIVAIIALFWLLLACFVVFSIQKAAKKAGAKLAEAQNAFNSATGRAPSPSSADHGGTRVVAERSEADEVRDLKLDHSFKIVQVQTRVIEQERAKGEAADQDTIRRALETIEITATNARDMIRSSGGTGDPVSGTIID				NA	NA	NA	NA	NA
D1-29_01305	834	exoA	COG0708	Exodeoxyribonuclease	GTGAGCTCGGCATTGAAGAAGGACCACCTTCGCATCGCATCTGTCAACGTTAACGGCCTTCGGGCTGCCTACAAGAACGGCATGGCGGCATGGCTTGAGCCGCGCGAGGTGGATATTCTGTGCCTCCAGGAAGTCCGGGCGCCGGACGCGATCGTGCGCCAGCTGCTCGGCGACGGCTGGCACATCCTGCACGCCGAAGCCGAAGCCAAGGGCCGCGCCGGTGTGGCCATTGCTTCCCGGGAGGAGCCGCTGGAGACCCGTAACGGCATCGGTGATGACTACTTCGCCACCGCGGGGCGCTGGGTGGAGGCTGATTTCCGGATTCCCGACGCCGGAGGGAACCCCGTGCAGCTGACTGTCGCCAGCGCCTATGTGCACTCGGGCGAAGTGGGAACGCCCAAGCAAGTGGACAAGTACCGCTTCCTGGATGCCATGAGCACGCGGCTGCCCGAACTGACCAAGCACAGCGACCACGCCCTGGTGGTGGGCGACCTCAACGTTGGCCACACCGAGCTGGACATCAGGAACTGGAAGGGCAACGTCAAGAAGGCCGGCTTCCTCCCTGACGAGCGGGCCTATTTTGACCGCTTCTTCGGCGACGAGATCGGCTGGAAGGACGTCCACAGGGGCCTCGCGGGGAGCGTAGACGGCCCGTACACCTGGTGGTCCCAGCGCGGGCAGGCGTTCGACAATGACACCGGTTGGCGCATCGACTACCACCTGGCCACACCCGAACTCGCGGCCGCCGCCTTCTCGGCAGTGGTGGACCGGGCCGCCTCGTGGGACACACGCTTCTCTGACCATGCACCGCTGGTAGTGGACTACCGGCTCTAG	MSSALKKDHLRIASVNVNGLRAAYKNGMAAWLEPREVDILCLQEVRAPDAIVRQLLGDGWHILHAEAEAKGRAGVAIASREEPLETRNGIGDDYFATAGRWVEADFRIPDAGGNPVQLTVASAYVHSGEVGTPKQVDKYRFLDAMSTRLPELTKHSDHALVVGDLNVGHTELDIRNWKGNVKKAGFLPDERAYFDRFFGDEIGWKDVHRGLAGSVDGPYTWWSQRGQAFDNDTGWRIDYHLATPELAAAAFSAVVDRAASWDTRFSDHAPLVVDYRL				NA	NA	NA	NA	NA
D1-29_01306	1146	trpS	COG0180	Tryptophan--tRNA ligase	ATGACGACTTCCTCCACCGTGACCGGTCCTGCCTCGTCAGCGGATCCCGCTGCGGAATCGGGCGATACAGCCGCTGCCGCCTCAGTCCGCACGGATCAGGACTCAGCAGGCCCGCCGGCTGCAGGAGTCCGGCACCGTGTCCTTTCCGGCATGCAGCCTTCCGCTGACTCGCTGCACCTTGGCAACTACCTGGGCGCACTGGTGAACTGGGTGCGCATGCAGGACGAATACGATGCCATCTTCTTCATCCCGGACCTTCACGCCATTACAGTTCCGCAGGATCCGGCGGAACTGGCGCGGCGAACCCGCGTGACAGCCGCGCAGTACATTGCCGGCGGCGTGGATGTGGAGAAGTGCACTCTCTTTGTGCAGTCACAGGTGCCCGAACACGCGCAGCTGGCATGGGTCCTGAACTGCATCACCGGGTTCGGCGAGGCCTCCCGGATGACCCAGTTCAAGGACAAGGCGCAGAAGCAGGGCTCGGATTTCGCCAGCGTGGGGCTCTTCACCTACCCCGTCCTGCAGGCAGCCGACATCCTCCTGTACCAGCCGCAGGGCGTTCCCGTGGGTGAGGACCAGCGGCAGCACGTGGAGCTCAGCCGCGACCTGGCCACCCGATTCAACTCCCGCTTCGGCGAGACCTTCACCGTTCCGCAGCCGTTCATCCAGAAGGAATCGGCCAAGATCTACGACCTTCAGAACCCCACAGCCAAGATGTCCAAGTCAGCGGAGTCACCCGCGGGCCTCATCAATCTGCTGGACGAACCGAAGGTCACGGCCAAGAGAATCAAATCGGCTGTTACCGATGCCGAGACGGAAATCCGCTTTGACCGCGAGGCCAAGCCCGGCGTTTCCAACCTGTTGACCATCTTCTCCGGCGTCACGGGCCAGAGCGTGGAGCAACTTGTGTTGGCTTACCAGGGCAAAATGTACGGTCACCTCAAGACAGACCTGGCGGAAGCGGTAGTGGCGCACCTGTCACCTATCCGTGACCGCGCCAACCAGCTGCTTGCTGACCCCGCCGAGCTGGACCGGCTCCTGGCCCACGGCGCTGACAAGGCCCGGGAGATCGCATCGGCCACCCTGAGTGACGTCTATGCCAAGGTGGGTTTCCTGCCTTACGGCGGCGCACCAGGAGCCCGCTAA	MTTSSTVTGPASSADPAAESGDTAAAASVRTDQDSAGPPAAGVRHRVLSGMQPSADSLHLGNYLGALVNWVRMQDEYDAIFFIPDLHAITVPQDPAELARRTRVTAAQYIAGGVDVEKCTLFVQSQVPEHAQLAWVLNCITGFGEASRMTQFKDKAQKQGSDFASVGLFTYPVLQAADILLYQPQGVPVGEDQRQHVELSRDLATRFNSRFGETFTVPQPFIQKESAKIYDLQNPTAKMSKSAESPAGLINLLDEPKVTAKRIKSAVTDAETEIRFDREAKPGVSNLLTIFSGVTGQSVEQLVLAYQGKMYGHLKTDLAEAVVAHLSPIRDRANQLLADPAELDRLLAHGADKAREIASATLSDVYAKVGFLPYGGAPGAR	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
D1-29_01307	606			hypothetical protein	ATGCAGGCCTCCAGCAGTGTCAGTGAAGGAATGAGCGTAGGCGTCATTCTTGGATTCCCCCCTGCCATCGCCGAAGAACTCCAACGGTGGCGGGCCTCCTTCGGGGATCCCATGGCGGGGGTCATTCCTGCGCACATCACGCTGGTCACCACCACGCCCACCCTGGACTGGGAGGCAACGCATGCCCACGTCCGGGAGGTGGCGCGGCAGCAGGCTCCGTTTATGGTCACCATCGCCGGAACCGGATCCTTTCGGCCGGTGTCGCCCGTGGTCTTCCTCAACGTGGAAGAAGGTTTTGGCGCCTGCGTGGACCTGCACGAGAAACTCCAGACCGGTCCTCTTGAGCGGGACCTGCCCTTTTCATACCACCCGCATGTGACCATCGCCCACGATGTCGCTCCGGAAAGCCTCGATGAAGCCGAAACGGTGCTCAAGGACTACAGGGCAACCTTCCCCGTGGTTAGCATGGGACTTTACGAGCACGATGCCAACGGCATCTGGCAGCTACGGGAAGAGCTGGACTTTGGGACCGAAACCGACGACGACGCCCCCGCCTTCTCAGCCGACGCCATCGCTGACACCGACGGAGCCACCGCCCCCTACTGA	MQASSSVSEGMSVGVILGFPPAIAEELQRWRASFGDPMAGVIPAHITLVTTTPTLDWEATHAHVREVARQQAPFMVTIAGTGSFRPVSPVVFLNVEEGFGACVDLHEKLQTGPLERDLPFSYHPHVTIAHDVAPESLDEAETVLKDYRATFPVVSMGLYEHDANGIWQLREELDFGTETDDDAPAFSADAIADTDGATAPY				NA	NA	NA	NA	NA
D1-29_01308	1050			hypothetical protein	ATGGAATGGGGAAAGGCCAGACGATCCAGCAAGGGTCCTGCCGCGAGCTTGCTGGCCATGATGCAGTGGTTGACGGCAAGGCTCAGCACCCTGCGGCCGGTCAGGGCATGGCAGCACTACAACCTCCAGCGCGGTCCGCTCCTGAGCGCAGGCATCGGTTTCAGGATGTTCTTCTCCATCACCGGCCTCCTGACCACGGGGTTCTCTGTTGCGGGGCTGGTGCTCCGGGGCCAGCCTGCGCTCCTGGACCAGGCCATCAGCACGGTTGCCCAGAGCGCGCCGGGGCTGCTCAAGGTGGGCGGCGGCGAGGGCCTGGTGGACCCGGCGGAGCTGCTGAATCCCGAGGGACTGGGCTGGGCGGCGGTGATCGCCGGTGTTGTCACGTTCGTCATCTCCCTCGGCTGGATCGACGGCATACGGGCAGGGCTCCGCGTGATCATGCAGCTCCCGCCCCCCAGGGCCAACCCCGTGCTGCTTAAGCTGCGCGACGCCGGAACGCTGCTGCTGCTGGGCGTCGCCGTGGTGATCAGCGCCGGAGCCTCCCTTGTGTTCGGCACTGCCGCAGGATGGGTGGCGGACTTCCTGCAGCTCGATCCGGTGCTGGCAGGACCCCTCACCACGTCAGTGAAGATCGGCGTACCGCTGGTCCTGAGCTGGGTCACCGCCTTCATTATGTTCCGCTTGGCTGCCAGCCTGAAGCTGTCCAGGCGGGCACTCCTGGAGGGGACAATCCTTGCCGCGGTGGGCACCACAGTGCTCCAGGTCTTCAGCACCGAACTGCTTGCCGGGGCTGGGCGGAATCCCATCCTGGCGCCGTTCGCCATCATCATTGGGCTGTTGATCTGGTTCAACCTGGTCAGCCAGGTTTACCTGGTTTCCGCAGGCTGGGCGGCGATCCGTGAAGAAGACCTCAGGAGAGTCCCCGCCGTGCATGAAAAGGTCCGCTGGGGGCCGCGTCAGGTCCAGCCTGGCAAGGTGCCCGTAGAGCATGCTGGAGCCGCAGCGGCTACTTCCCGGCGTCGAGGTATTGGTCGGCCCAGGCAGAAATGA	MEWGKARRSSKGPAASLLAMMQWLTARLSTLRPVRAWQHYNLQRGPLLSAGIGFRMFFSITGLLTTGFSVAGLVLRGQPALLDQAISTVAQSAPGLLKVGGGEGLVDPAELLNPEGLGWAAVIAGVVTFVISLGWIDGIRAGLRVIMQLPPPRANPVLLKLRDAGTLLLLGVAVVISAGASLVFGTAAGWVADFLQLDPVLAGPLTTSVKIGVPLVLSWVTAFIMFRLAASLKLSRRALLEGTILAAVGTTVLQVFSTELLAGAGRNPILAPFAIIIGLLIWFNLVSQVYLVSAGWAAIREEDLRRVPAVHEKVRWGPRQVQPGKVPVEHAGAAAATSRRRGIGRPRQK	PGPT0014525_2029	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
D1-29_01309	771			hypothetical protein	ATGTCACGTTCCGAGCGAGTCAGTTTCGAAGGATCGACGGGCGAGCTCCTGTCCGGCATCCTGGACGTGCCAGAGGGCCCGGTGAGGGGCTGGGGGGTCTTCTCGCACGGTTTTACGCTGGGCAAGGACAGCCCCGCGGCCTCGCGGATGTGCAAGGCGCTGGCTGACACCGGCATCGGCATGCTCCGTTTCGACAACCTGGGATTGGGCGATTCCGCCGGCCTCTGGTCCGAGGGCTCCTTTAGCCACAAGGTGGCCGACACGGTCAAAGCCGCCGAATTCATGCGTGACCAGGGCAAGGAGATCTCCCTGCTGGTGGGCCACTCCTTCGGCGGGGCCGCCGTGCTGTCGGCCGCCCGCCTGATCCCCGAACTCGACGCCGTTGCCACAGTCGCGGCACCCTTCTCACCCAAGCATGTGGCGCACGTCTTTGACGCCGCCCTGGACAAGATCCTCAGCGAGGGCAGCGCCGAAGTGGATCTGGGCGGCAAACGGATGGAGATCCGCAAGCACTTTGTGGAGGACCTGGAAAACGCTGACCTCACGGACTGCATCCGTCAGCTCCACAGGCCCCTGATGGTGATGCACTCCCCCACCGACAACACCGTGGGAATCGAAAATGCCAGCACCATCTTCCAGACGGCCCGTCATCCGCGGAACTTCGTTTCGCTCGAGGGCAGCGACCACCTGCTGACGGGCAAGGGCCAGGCAGCCCGCGCCGCCAGGATCATTTCTGCCTGGGCCGACCAATACCTCGACGCCGGGAAGTAG	MSRSERVSFEGSTGELLSGILDVPEGPVRGWGVFSHGFTLGKDSPAASRMCKALADTGIGMLRFDNLGLGDSAGLWSEGSFSHKVADTVKAAEFMRDQGKEISLLVGHSFGGAAVLSAARLIPELDAVATVAAPFSPKHVAHVFDAALDKILSEGSAEVDLGGKRMEIRKHFVEDLENADLTDCIRQLHRPLMVMHSPTDNTVGIENASTIFQTARHPRNFVSLEGSDHLLTGKGQAARAARIISAWADQYLDAGK				NA	NA	NA	NA	NA
D1-29_01310	783	sdhB	COG0479	Succinate dehydrogenase iron-sulfur subunit	ATGTCAGCTGAAATTGCTGAGCCAGCCTCAAAGATTGAGCTGCCTGCCCACGTTGGAGGCGGCGGCGAAATCCCCACTTTCGACGTCACACTGCGGGTCCGCCGCTACAACCCCGAAGTCTCCGAGGACGCCACCTGGGATGACTTCACGCTGACGATGTACGGCACGGACCGGGTCCTGGACGCCCTGCACAAGGTCAAGTGGGAGATCGACGGCAGTGTCTCGTTCCGCCGCTCCTGCGCCCACGGCGTCTGCGGCTCCGATGCCATGCGCATCAACGGCCGCAACCGCCTCGCCTGCAAGACCCTCCTGAAGGACCTGGACACGTCCAAGCCCATCACGGTTGAGCCGATCAAGGGCCTCCCGGTGGAGAAGGACCTGATCGTGGACATGGAGCCCTTCTTCCAGTCCTTCCGCGAAGTGATGCCGTTCCTGATCAACAAGGGCCACGAGCCCACCAAGGAACGCCTCCAGTCGGCCGAGGACCGGGAGCGCTTCGACGACACCACCAAGTGCATCCTCTGCGCCGCGTGCACGTCCTCCTGCCCCGTGTTCTGGACCGACGGCCAGTACTTTGGGCCTGCCGCGATCGTCAACGCCCACCGCTTCATCTTCGATTCCCGTGATGACGCAGGCGACATGCGCCTGGAGATCCTCAACGACAAGGAAGGTGTGTGGCGCTGCCGCACCACCTTCAACTGCTCCGAGGCCTGCCCCCGTGGCATCCAGGTCACGCAGGCAATTGCCGAGGTCAAGCAGGCAATCCTGTCGCGCAAGATCTAA	MSAEIAEPASKIELPAHVGGGGEIPTFDVTLRVRRYNPEVSEDATWDDFTLTMYGTDRVLDALHKVKWEIDGSVSFRRSCAHGVCGSDAMRINGRNRLACKTLLKDLDTSKPITVEPIKGLPVEKDLIVDMEPFFQSFREVMPFLINKGHEPTKERLQSAEDRERFDDTTKCILCAACTSSCPVFWTDGQYFGPAAIVNAHRFIFDSRDDAGDMRLEILNDKEGVWRCRTTFNCSEACPRGIQVTQAIAEVKQAILSRKI	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
D1-29_01311	1809	sdhA	COG1053	Succinate dehydrogenase flavoprotein subunit	ATGCAGGTCCATAAGTACGACGTCGTCATCGTCGGTGCCGGTGGCGCTGGCATGCGCGCCGCGATCGAATCCGGTCAGCGCGCCCGCACAGCAGTACTGACCAAGCTCTACCCCACCCGCTCGCACACAGGTGCGGCGCAGGGTGGCATGTGCGCAGCCCTTGCCAATGTCGAGGAAGACAACTGGGAATGGCACACGTTCGACACCATTAAGGGCGGCGACTACCTGGTTGACCAGGATGCCGCCGAAGTCATGGCGAAGGAAGCCATCGACGCCGTCCTGGACCTTGAGAAGATGGGCCTGCCGTTCAACCGCACGCCTGAGGGACGGATTGACCAGCGCCGTTTCGGCGGCCACACCCGCGACCACGGTAAAGCCCCCGTCCGCCGGGCATGCTACGCCGCCGACCGCACAGGCCACATGATCCTGCAGACGCTCTATCAAAACTGCGTCAAGCACAACGTGGAGTTCTACAACGAGTACTACGTCCTTGACCTCCTGACCGTCGAAGAAGACGCAGTCCGCGAGGACGGAACCCCGTACAAGCAGAAGCGCGTTGCCGGCGTCGTGTCCTACGACCTCGCTTCCGGTGAGCTTCACGTCTTCCAGGCAAAGTCCGTGGTGTTCGCCTCCGGCGGCGCGGGCAAGGTCTTCAAGACCACCTCGAACGCCCACACCCTGACCGGCGACGGCATGGGCATCGCGTTCCGCCGCGGCATCCCGCTGGAGGACATGGAGTTCTTCCAGTTCCACCCGACAGGCCTCGCGGGCCTGGGCATCCTCCTTTCCGAGGCAGCCCGCGGCGAAGGCGCCATCCTGCGCAACTCCGAGGGTGAACGCTTCATGGAGCGCTACGCCCCCACCATCAAGGACCTCGCGCCCCGTGACATCGTGGCCCGTTCCATGGCCAACGAAGTCCGGGAAGGACGCGGCTGTGGCCCCAACAAGGACTACGTCCTTCTTGACCTGACCCACCTGGAGCCGGCGCACATCGACGCCAAACTTCCGGACATCACCGAGTTCGCCCGCACCTACCTCGGTGTTGAGCCCTACACAGAGCCGGTTCCGGTGTTCCCCACCGCGCACTATGCCATGGGCGGCATCCCCACGAACATCACCACCGAAGTGCTCCAGGACAACGACACTGTGGTGCCGGGCCTGTACGCCGCGGGCGAGGTTGCCTGTGTCTCTGTCCACGGTTCAAACCGCCTGGGCACCAACTCGCTCCTGGATATCAACGTGTTCGGCAAACGTGCAGGCATTGCCGCGGCTGAATACGCCAAGACGGCAGACTTCGTGGAGCTTCCCGAAGACCCGGAGGCCTACACGATCGAGCTGCTGAACATCGCCCGCAACGGCAACGGCGACGAGAAGGTGGCGGTGATCCGCAAGGAACTCCAGGACACCATGGACGCCAACATGCAGGTGTTCCGCACGGCAGACACGCTGAACCAGGTCCTGCAGGACATCGCTTCCTTCGAGGAGCGGTACCGGCGCATCACAGTCCAGGACAAGGGCAAGCGCTTTAACCTGGACCTGCTCGAAGCCGTTGAGCTCGGCTTCCTGCTCGAGCTTGCCAAGGTGATGACCGTGGCGGCCCTGCACCGCGAAGAATCCCGCGGCGGCCATTTCCGCGAGGACTTCCCGGACCGCAACGACGAAAAATTCATGAAGCACTCCATGGCGTACAAAGACATCGTTGCCCCGGCCGGGGGCACGGACGGAACCGCAAAAACAACAGCGGGCATCCGGCTCGATACCAAACCGGTTGTCTTTACCCGCTACGAGCCGATGGTGAGGAAGTACTAA	MQVHKYDVVIVGAGGAGMRAAIESGQRARTAVLTKLYPTRSHTGAAQGGMCAALANVEEDNWEWHTFDTIKGGDYLVDQDAAEVMAKEAIDAVLDLEKMGLPFNRTPEGRIDQRRFGGHTRDHGKAPVRRACYAADRTGHMILQTLYQNCVKHNVEFYNEYYVLDLLTVEEDAVREDGTPYKQKRVAGVVSYDLASGELHVFQAKSVVFASGGAGKVFKTTSNAHTLTGDGMGIAFRRGIPLEDMEFFQFHPTGLAGLGILLSEAARGEGAILRNSEGERFMERYAPTIKDLAPRDIVARSMANEVREGRGCGPNKDYVLLDLTHLEPAHIDAKLPDITEFARTYLGVEPYTEPVPVFPTAHYAMGGIPTNITTEVLQDNDTVVPGLYAAGEVACVSVHGSNRLGTNSLLDINVFGKRAGIAAAEYAKTADFVELPEDPEAYTIELLNIARNGNGDEKVAVIRKELQDTMDANMQVFRTADTLNQVLQDIASFEERYRRITVQDKGKRFNLDLLEAVELGFLLELAKVMTVAALHREESRGGHFREDFPDRNDEKFMKHSMAYKDIVAPAGGTDGTAKTTAGIRLDTKPVVFTRYEPMVRKY	PGPT0001605_1938	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
D1-29_01312	480			hypothetical protein	ATGACTGCGACGATTCAAAACCCGCGAAGCGGAAAAGACAGCGGTGGAAAGATTGCCCCCCAGTACCGCCGTACAGGCGCCTCCAGGGGCAACTTTGAGATGCTGGCCTGGCTGTTCATGCGCTTGTCCGGTGTGGTGCTGGTGGTCCTGATTTTCGGCCACCTCTTTGTGAACCTCATGGTGGGTGAAGGCATCCACGCCATCGACTTCGGCTTTGTGGCCGGCAAGTGGGCTGACCCGTTCTGGCAGGTCTGGGACTTGGCCATGCTCTGGCTCGCCATGCTGCACGGCACCAACGGGGTCCGCACCATCATCAACGACTACGCCGAGAAGGACTCCACCCGTCTCTGGCTCAAGATCGTCCTCTACACGGCCACCACCGTCATCATCGTCCTGGGCACGCTGGTGATCTTCACCTTCAACCCGTGCCCCATGGTGGACGGTGTTCCGCTGCCCGGGGGCTTCTGCCCCGCTGCATAA	MTATIQNPRSGKDSGGKIAPQYRRTGASRGNFEMLAWLFMRLSGVVLVVLIFGHLFVNLMVGEGIHAIDFGFVAGKWADPFWQVWDLAMLWLAMLHGTNGVRTIINDYAEKDSTRLWLKIVLYTATTVIIVLGTLVIFTFNPCPMVDGVPLPGGFCPAA	PGPT0001590_144	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
D1-29_01313	381	sdhC	COG2009	Succinate dehydrogenase 2 membrane subunit SdhC	GTGCCGACAAAACCAGCTGGCACCTTGTACCGCGGCCGTGAAGGCATGTGGTCCTGGGTAGGACACCGTATTACCGGTGTTGTGATCTTTTTCTTCTTGTTGGTCCATGTGCTGGACACGTCACTGGTCCGGGTATCCCCTGAGGCCTACACCGCTGTCATCGGTACGTACCAGAATCCCCTGATGGCCCTGGGCGAAACGGGTCTTGTTGCAGCAATCGTGTTCCACGCCTTTAACGGCCTGCGCATCATTGCCGTTGATTTCTGGAAGAACGGCGCCAAATACCAGCGCCAGATGCTCTGGGCCGTTCTCGGGCTTTGGGCCGTCACCATGGTGGCGTTCTCCATCCGCCACCTGTCCCTCGCTTTCGGAGGCCACTAA	MPTKPAGTLYRGREGMWSWVGHRITGVVIFFFLLVHVLDTSLVRVSPEAYTAVIGTYQNPLMALGETGLVAAIVFHAFNGLRIIAVDFWKNGAKYQRQMLWAVLGLWAVTMVAFSIRHLSLAFGGH	PGPT0001595_3183	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
D1-29_01314	1134	rfbM	COG0662	Mannose-1-phosphate guanylyltransferase RfbM	ATGAATACAGACAAAGTGACAAGCCCGGCTTCACCCCTGAACCGTTTTATAGCGGTGATTCCGGCAGGCGGAGTGGGGACCCGCCTCTGGCCCCTGTCACGTGCAGCAGCCCCGAAGTTTCTCCACGACCTCACGGGTTCCGGCAGCACCCTGTTGCGCGCTACCTATGACCGGCTGGAGCCCCTTGCAGGGCGGCGTGTACTGGTTGTCACCGGCACCGCGCACCGGGCAGCGGTATGCCGTCAGCTGCCAGAGGTGCAGGACGCGGACCTTGTGCTCGAAAGCGAACCGAAGGACTCCGGCGCCGCCATCGGCCTGGCCGCGGCCATCCTCCACGAGCGGGATCCGGACACCATCATGGGTTCCTTCGCCGCCGACCATGTGATCAGCCCCGACCACCTCTTCCAAAGCGCGGTCCGCGAGGCGATCCACACAGCTGCCGCCGGCAAGATTGTCACCATCGGCATCAAGCCGACGCACCCGTCCACCGGCTTCGGCTATATCCGTGCCGGGCAGGAACTTCATATCGAAGGTGCCCCCAGCGCGCAGGCCGTGGTTGAGTTCGTGGAAAAACCGGACGAAGACGTTGCCCAGCAGTACGTGGACAGCGGCGAATACGTCTGGAACGCCGGCATGTTCGTGGCCCCCGTTGCCCTGATGCTCAAGCACCTTGAGGCCAACCAGCCGGAGCTCTTCAAGGGCCTCCAGGAGATCGCCCAGGCCTGGGACACCACCGAACGTGACGAAGTCACTGCACGGGTATGGCCTACCCTGCCCAAGATCGCTATCGACTATGCAGTTGCTGAACCTGCCGCCGCCGCTGGTGACGTTGCTGTTGTGCCGGGCACTTTTGGCTGGGACGACGTCGGGGATTTCGCCTCCGTGGGCCGGCTCAACAGTGCACGGGAAGTGGATGATGTTACGGTCATCGGTGAGGGCGCGCGCGTCTTCACCGAAAACGCCAGTGGCGTGGTGGTGTCGGATACCAAGCGCGTCATTGCGCTGATTGGTATTAAGGACGTGGTGATCGTGGATACCGGGGACGCCCTGCTGGTGACCACCAAGCAGCACGCCCAGCGCGTCAAGGGTGCCGTTGACGCGCTCAAGGCCAGCGGCGATACCGACGTTCTCTAG	MNTDKVTSPASPLNRFIAVIPAGGVGTRLWPLSRAAAPKFLHDLTGSGSTLLRATYDRLEPLAGRRVLVVTGTAHRAAVCRQLPEVQDADLVLESEPKDSGAAIGLAAAILHERDPDTIMGSFAADHVISPDHLFQSAVREAIHTAAAGKIVTIGIKPTHPSTGFGYIRAGQELHIEGAPSAQAVVEFVEKPDEDVAQQYVDSGEYVWNAGMFVAPVALMLKHLEANQPELFKGLQEIAQAWDTTERDEVTARVWPTLPKIAIDYAVAEPAAAAGDVAVVPGTFGWDDVGDFASVGRLNSAREVDDVTVIGEGARVFTENASGVVVSDTKRVIALIGIKDVVIVDTGDALLVTTKQHAQRVKGAVDALKASGDTDVL	PGPT0022660_1022	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
D1-29_01315	1200	scmP	COG1473	N-acetylcysteine deacetylase	GTGCGCAATTACACTACTGAAGCTGAACCCACCGCGTTGGTGGAGCCATGGCTGGAGCCGCTCCTCCCGGAACTGATCGATTTTCGCCGGGACCTGCACGCGCACCCCGAACTGTCTTTCAAGGAGTTCCGCACCACTGACAAGCTCGTGGAAAGGCTCGAAGCAGCGGGTCTGTTTCCCCGGCGGCTTGAAGGTACCGGACTCACGGTGGACGTGGGTGTGGGGCCCATCGCCACGGCCCTCCGCGGGGACATTGATGCCCTGCCCATCATCGAAGAGACCGGGCTTCCGTTCGCCTCGAAAAACCATGGTGTGACGCATGCCTGCGGCCACGACATCCACACCGCTGCGATGCTTGGTGTGGCGTTGGTCCTCCACGAGATGCACCAGGTGTCCCCCCTGGGCGGAACTGTGCGCATCATCTTCCAGCCCGCGGAAGAGACCATGCCCGGCGGAGCGCTGTCGTGCATTGAACAGGGCGTCCTGGATGGTGTGCCGCGTATCCTCGCGCTGCACTGTGATCCCAGGATCGACGTCGGACGCATCGGCACGCGCATCGGCGCCATTACATCTGCCTCAGACACCATCAAGATCGAACTTAGCGGCCGCGGCGGCCATACGTCCCGACCGCACCTCACGGAGGACCTGGTGTTCGCCCTCGCCCAGATCGCTGTTAATGTGCCGGCCGTGCTGTCACGCCGGGTTGACGTGCGCAGCGGCGTTTCCGTGGTGTGGGGACAGATCAACGCCGGCTCGGCCCCGAATGCAATCCCGGGTACGGGCTACATGTCCGGCACCATGCGCTGCCTGGACCGGGACGCCTGGCACGACGCCGGCGAGCTGCTGGATGAAGTAGTGCAGCAGGTGGCCGCGCCCTATGGCGTCGACGTCCACCTGGAACACACCAGGGGAGTGCCCCCCGTGGTGAACTCCGAGCATGAAACAGCGCTCATTGAAGCTGCGGCCAGGGCTGAAATCGGTGAGAGTGCAGTGACGCTGACACCGCAGTCCATGGGTGGCGAGGATTTTGCGTGGTTCCTGGCTGAACGTCCCGGCGCGATGATGCGCCTGGGCACCAAGACACCGGGCGGTGAAGAGTACGATCTGCACCGCGGCGATTACATCGTTGACGAACGCGCTTTGAGTTTCGGCATCCAGGTGCTCACCGCTGCGGCCCTCAGGACCATCCGCGACCTCTAA	MRNYTTEAEPTALVEPWLEPLLPELIDFRRDLHAHPELSFKEFRTTDKLVERLEAAGLFPRRLEGTGLTVDVGVGPIATALRGDIDALPIIEETGLPFASKNHGVTHACGHDIHTAAMLGVALVLHEMHQVSPLGGTVRIIFQPAEETMPGGALSCIEQGVLDGVPRILALHCDPRIDVGRIGTRIGAITSASDTIKIELSGRGGHTSRPHLTEDLVFALAQIAVNVPAVLSRRVDVRSGVSVVWGQINAGSAPNAIPGTGYMSGTMRCLDRDAWHDAGELLDEVVQQVAAPYGVDVHLEHTRGVPPVVNSEHETALIEAAARAEIGESAVTLTPQSMGGEDFAWFLAERPGAMMRLGTKTPGGEEYDLHRGDYIVDERALSFGIQVLTAAALRTIRDL	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
D1-29_01316	435	ohrR		Organic hydroperoxide resistance transcriptional regulator	ATGACTGAAGCTCCCCGCCTTGACCGCCAGGTGTGCTTTGCGCTGTACTCGGCGTCCCGCGCGGCCACCGCGGTATATCGGCCGGTGCTGGACGAACTGGGCCTCACCTACCCGCAGTACCTGGTGATGCTCGTTCTGTGGGAAAGCGAGCCGAGGGGCGTTAAGGAACTCGGCGAGGAGCTGGGCCTCGATTCCGGCACCCTCTCACCCCTGCTCAAGCGCCTCGAAGCACTTGGCTTGCTGGAGCGGCGGCGGTCGGGCGAGGACGAGCGCCGGGTTGCCATCCACCTGACTCCCGCCGGCCGGGCCCTCAGCACCAAGGCCACCGGGATTCCCCAGCACCTTGCCGACGCTGCAGGACTGTCCGCCAACGAGCTGGAGCAGCTTCGCGACACCCTGGACAGGCTCATCAAGGCACTCCACAACCCGCGCTGA	MTEAPRLDRQVCFALYSASRAATAVYRPVLDELGLTYPQYLVMLVLWESEPRGVKELGEELGLDSGTLSPLLKRLEALGLLERRRSGEDERRVAIHLTPAGRALSTKATGIPQHLADAAGLSANELEQLRDTLDRLIKALHNPR	PGPT0013155_4529	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-29_01317	471	ohrA	COG1764	Organic hydroperoxide resistance protein OhrA	ATGAACTTTCACATTAATCCCAACAGGACGGACACCACCGTGAAGACCCTTTACACCGCCGAGGCACTTGCATCCGGCGAAGGCCGTGACGGCACTGCACGCACAAAGGATGGAAAGCTCGACGTCACCCTGGCCAGCCCCGTGGAACTCGGAGGAGATGGTGCGGGCACCAATCCTGAGCAGCTCTTCGCCGCGGGCTACGCAGCCTGCTTCCACTCCGCGCTCCGCCTCGTGGGGCGCAAGGAGCGTGCAGACCTCACTGATTCAGCCGTAGCTGCCCGCATCCACTTTGGTGCCCTTGAGGGTGGTGAAGGGTACGGCCTCGCGGCCGAGCTGGAGATCGCGGTCCCCGCGCTGGACCTTGCCACGGCCGAAGCGCTCGTTGCCAAGGCCCACCGCATCTGCCCCTACTCCAACGCGACGCGCGGCAACATGGCAGTGGACATCAAGATCCTGGAGTTCGCAGTATGA	MNFHINPNRTDTTVKTLYTAEALASGEGRDGTARTKDGKLDVTLASPVELGGDGAGTNPEQLFAAGYAACFHSALRLVGRKERADLTDSAVAARIHFGALEGGEGYGLAAELEIAVPALDLATAEALVAKAHRICPYSNATRGNMAVDIKILEFAV	PGPT0013160_984	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
D1-29_01318	1035	yfmJ	COG2130	Putative NADP-dependent oxidoreductase YfmJ	ATGAGCACCACTGAATGGATCGACGCCGTCGTGCCCACCTCAACCCGTGAGATCCATCTGGCGTCGCGGCCTTCCGGGCGGCCCACCCCGGAGAACTTCAGGCTGGCCGAATCAGCGCTGCCGGTGCTCCAGGACGGCCAGATCCTGGTCCGCAACCGCTACATCTCCGTTGACCCCTACATGCGCGGACGCATGAATGACGTTAAGTCCTACTCAGCGCCGTTTGCGCTGGATGCAGCGCTCGACGGCGGCGCGGTAGGCGAGGTGATCGCGTCCAGTTCTGACCTTCGCAAGGTGGGGGACGTCGTCGTCCATCAACTGGGTTGGCGCGAATATGCTGTCCTGGATGCCACCGCCACCACGGCGGCCCGGACGGACCTGGCTCCGGCATCGGCATTCCTGGGGGCGCTGGGCATGACCGGCCTGACGGCCTATGCCGGCCTGCTTAAGGTGGCCGAATTCAAGCCTGGCGATGTTGTGTTTGTGTCGGGCGCCGCCGGTGCCGTGGGCTCACTGGTTGGCCAGATCGCCAAGGCCATGGGCGCTTCCCGTGTCATCGGCAGCGCCGGCACTCCGGAGAAGGTGGCGCGGCTCCTGGACCTGGGCTTCGAAGTTGCCTTCAACTACCGGGACGCTCCGGTCCGGGAGCAGCTCATGGCGGCGGCAGGTGGTAACGGGATTGACGTCTACTTCGACAACGTCGGCGGTGAGCACCTGGAGGCTGCCCTGGCCGAGCTGAACGTTGGCGGACGGGTGGCCATGTGCGGTGCCATCTCGCAATACAACGCCACCGAGGCCACGCCTGCCCCAAGAAACCTCACGCTCGCGATCGGCAAGCAGTTGACCCTGCGGGGTTTCCTGGTGGGGGGCCAGCGTCAGCACGGTGCGGAGTTCGCCGAGAAGATGGCAGCCTGGCTGGCCGATGGTTCGGTCCGCTACGACGAGACAGTGGTGGATGGTTTGGAGAACGCGCCGCAGGCCTTTATTGACCTTCTTGACGGCGCCAATACGGGGAAGATGCTGGTCCGTCTCTAG	MSTTEWIDAVVPTSTREIHLASRPSGRPTPENFRLAESALPVLQDGQILVRNRYISVDPYMRGRMNDVKSYSAPFALDAALDGGAVGEVIASSSDLRKVGDVVVHQLGWREYAVLDATATTAARTDLAPASAFLGALGMTGLTAYAGLLKVAEFKPGDVVFVSGAAGAVGSLVGQIAKAMGASRVIGSAGTPEKVARLLDLGFEVAFNYRDAPVREQLMAAAGGNGIDVYFDNVGGEHLEAALAELNVGGRVAMCGAISQYNATEATPAPRNLTLAIGKQLTLRGFLVGGQRQHGAEFAEKMAAWLADGSVRYDETVVDGLENAPQAFIDLLDGANTGKMLVRL	PGPT0023605_281	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_CURCUMIN_RESISTANCE	ADAPTION_TO_PIS-CURCUMIN_DEGRADATION,PGPT0023605-curA|yncB-K23256	NA	NA
D1-29_01319	129			hypothetical protein	ATGCGCTACGACGGGGATTCAATGAGTGTCTGTTTCAACCCTGAAATTCTGTTTTCACTGACGATCCGCAGCACTGCGCCGAAGCGCTCTGATATCAGTTACTTTAGTGGCCTGCGACACGTCAGATAA	MRYDGDSMSVCFNPEILFSLTIRSTAPKRSDISYFSGLRHVR				NA	NA	NA	NA	NA
D1-29_01320	1107	tmpC	COG1744	Membrane lipoprotein TmpC	TTGAAGACATCACTGCGTGCACACCTCAAGCGCGGTTCAGTGGCAGGCATGGCCACCATGAGTGCTACCGCACTCCTGCTGACCAGTTGCGGTGCGCCTCCCGAAGCCGGCAGCCCGACCGCAACGGCCATCGACTATACGGGCTGCATCGTCTCTGACTCAGGCGGATTCAACGACCAGTCATTCAACCAGTCCTCCTACGAGGGCCTGAAGAAGGCCGAAGCCGAGCTTGGCATCAAGGTCAACCAGGTTGAGTCCAAGACGAACAACGATTTTGAGCCCAACCTTCGTGCCATGGTTGCAGCCGGCTGCGACTTGACGGTGACCGTGGGGTTCCTTCTGGGCGACGCCACGAAGAAGCAGGCCGAGGCCAACCCCGACAGCAAATTCGCCATCATCGACTTTGGCTACGAGACTCCTATCGCCAACGTCAAGCCGATCATCTATGACACTGCCCAGGCGGCCTTCATGGCAGGTTATCTCGCTGCCGGCACCACCAAAACCGGAACCGTTGCCACCTTCGGCGGCATCGAGCTCCCCACGGTCACCATCTTTATGGACGGCTACGCGGACGGTGTGAAGTACTACAACGAAAAGAAGGGCAAGGACGTCAAGGTCCTTGGCTGGGACAAGGCCGCCCAGGATGGCAGCTTCACCGGCGACTTCGTCAGGCAGGACGTCGGAAAGCAGCTGACCCAGAACTTCCTGGACCAGGGTGCGGACATCGTGATGCCCGTCGCGGGCCCGGTGGCTGCGGGTGCCGGCGCAGCCCTCAAGGAAGCGAAGACGGCGGGCAAAGACGTCAAACTCATCTGGGTTGACTCCGACGGGTTCCTGACAGCACCGGAATACAAGGACATCATGTTGACCTCCGTCATGAAGCGGATGGGCGACGCCGTGGAGAACGTGGTGAAGGAAGACACCGACGGCAAGTTTTCCAACACCCCCTACGTCGGCACGCTGGCCAATGAAGGTGTGGGCCTGGCACCTTTCCATGACCTGGAATCGGCTGTCCCGGCTGAGCTGAAATCAGAGCTGGACCAGATCCAAAAGGACATCGTTGACGGCAAGCTGAAGGTCGAGTCGGCGGCAAGCCCCAAGGCCTAG	MKTSLRAHLKRGSVAGMATMSATALLLTSCGAPPEAGSPTATAIDYTGCIVSDSGGFNDQSFNQSSYEGLKKAEAELGIKVNQVESKTNNDFEPNLRAMVAAGCDLTVTVGFLLGDATKKQAEANPDSKFAIIDFGYETPIANVKPIIYDTAQAAFMAGYLAAGTTKTGTVATFGGIELPTVTIFMDGYADGVKYYNEKKGKDVKVLGWDKAAQDGSFTGDFVRQDVGKQLTQNFLDQGADIVMPVAGPVAAGAGAALKEAKTAGKDVKLIWVDSDGFLTAPEYKDIMLTSVMKRMGDAVENVVKEDTDGKFSNTPYVGTLANEGVGLAPFHDLESAVPAELKSELDQIQKDIVDGKLKVESAASPKA	PGPT0021055_1305	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021055-bmpA-K07335	NA	NA
D1-29_01321	1731	xylG_1	COG1129	Xylose import ATP-binding protein XylG	GTGCTGCAGCCACTTATCCCGTCCGGTCTGTCAACGGACGCTTCGAGATTGGTCAGAGTTGTGAAACTTGAACTCAGAGGGATCACCAAACGCTTCGGCTCCCTGCTAGCGAACGATCACATCGATGTGGTGGTTGAACCCGGACAAATTCATTGTCTGCTGGGCGAGAACGGGGCCGGCAAATCCACCCTGATGAACGTGCTGTACGGACTGTACGAGCCCACCGAGGGCGAAATCCTCATTGATGACAAACCGGTGTCCTTCCGTGGCCCGGGTGATGCGATGGCCGCAGGAATCGGCATGGTGCACCAGCACTTTATGCTCGTCCCCGTGTTCACGGTGGCCGAGAACGTGGCCCTGGGAGCAGAATCCACGAAAGCCGGGGGCTTCCTGAACCTGGACGATACCCGGAGGAAGATCAAGGAAATTTCGGACCAGTACGGGTTCGACGTTGATCCAGACGCGCTGGTGGAGGATCTTCCGGTGGGTGTCCAGCAGCGTGTGGAGATCATCAAGGCACTGGTCCGGGATGCCAAAGTGCTGATCCTCGATGAACCCACTGCTGTGCTGACCCCTCAGGACACCGACGAACTTCTGGACATCATGCGGCAGCTCAAGGGCGGCGGCACGTCGATCGTTTTCATCTCCCACAAACTCCGCGAAGTGAAAGCGGTGGCGGACACCATCACGGTCATTCGGCGCGGCAAGGTGGTGGGTACTGCAAGCCCCACGGCGTCGACGGCGGAACTCGCCTCCATGATGGTGGGCCGTGCGGTCAGCCTCACGCTGGATAAGGCTCCTGCCAAAGCCCAGGAGAAGACCTTTCAGGTTAAGGACCTGACGGTTATCGCTCCCAGCGGGCACCATACGGTGGACGGGATCAGCTTTGACATTGCCAGGGGCGAGATCCTTGCCGTCGCCGGCGTTCAGGGCAACGGCCAGACCGAACTGACTGAGGCAATCCTCGGACTTCAGGACAGGGTCCATGGCTCCATCCTGCTCGACGGCGAAGAACTGGTTGGGCGCAGCGTCAAGGACATTTTGAACGCCGGCGTGGGTTTTGTGCCCGAGGACCGGTCTGTTGACGGGTTGATAGGCACCTTTTCAATCGCCGAAAACCTGATTCTGGACCGCTACGACCAGGCGCCGTTCGCGAAAGGCATAGGCATGAGTCCTGCGAAGGTCCTGGAGAACGCCAAAACCAGGATCGAAGAGTTCGATGTCCGGACGCCTTCCGGAACATTGGCCGCCGGCACCCTCTCCGGCGGCAACCAGCAGAAGGTGGTGATGGCACGCGAGCTGTCGCGGCCGCTGCGGCTTTTCATTGCCTCCCAGCCCACGCGCGGTGTCGACGTGGGCTCCATCGAGTTCCTGCACAAGCGGATTGTGGCTGAGCGTGACCACGGCACCCCCGTGATGATCGTCTCCACAGAACTGGACGAGGTCATGGAGCTCGCCGACCGCATCGCCGTCGTTTACAAGGGCAAGCTGGTGGGCATTGTCCCCGCAGGAACGGGGCGTGACGTCCTGGGCCTCATGATGGCGGGAATTTCACCCGAGGATGCGGCCCATGGTGACGCGGCCCATGGAGATGCTGCCCACGGAGACGCCGCCACCGGAGACACGGCCATCGGATATGCCACCCGTCCAGAGGCTGAACCATCCTCCGCCAAGCCGGCCGGGTCCTCCCGGACCACCACCTCCAGCGCCGAAGGAGGCGATCATGCCTGA	MLQPLIPSGLSTDASRLVRVVKLELRGITKRFGSLLANDHIDVVVEPGQIHCLLGENGAGKSTLMNVLYGLYEPTEGEILIDDKPVSFRGPGDAMAAGIGMVHQHFMLVPVFTVAENVALGAESTKAGGFLNLDDTRRKIKEISDQYGFDVDPDALVEDLPVGVQQRVEIIKALVRDAKVLILDEPTAVLTPQDTDELLDIMRQLKGGGTSIVFISHKLREVKAVADTITVIRRGKVVGTASPTASTAELASMMVGRAVSLTLDKAPAKAQEKTFQVKDLTVIAPSGHHTVDGISFDIARGEILAVAGVQGNGQTELTEAILGLQDRVHGSILLDGEELVGRSVKDILNAGVGFVPEDRSVDGLIGTFSIAENLILDRYDQAPFAKGIGMSPAKVLENAKTRIEEFDVRTPSGTLAAGTLSGGNQQKVVMARELSRPLRLFIASQPTRGVDVGSIEFLHKRIVAERDHGTPVMIVSTELDEVMELADRIAVVYKGKLVGIVPAGTGRDVLGLMMAGISPEDAAHGDAAHGDAAHGDAATGDTAIGYATRPEAEPSSAKPAGSSRTTTSSAEGGDHA	PGPT0021040_646	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021040-nupA|yufO-K23537	NA	NA
D1-29_01322	1371			hypothetical protein	ATGCCTGAAAAGCATCCCCACAAACACGTGGCCGACCACCATGGAAAGTCCTCCGAGCCCAATCCGGCGGCGGAGGAAACTGCCGCGGTGGTGTCACTGGACACTGCCGGCGGCGCCATGGAGCCCTCGGCTGTCCCGGCCACTGCGCAAAGCGGCCGGCTGCCGGGCGGCCCGGACACGCTGGTCCGGAAGATCTTTACCGGCAGCGGCATGGTTTCGGTGCTGGCGGTGCTGCTGGCCCTCATCATCGGCGGCCTGCTGATCGCCAGCACGGACAAGCAGGTGGGAGCAACCTCCACGTACCTGTTTGCCCGGCCCACTGACTTCCTGTCGGCGCTGTGGAGCGCGGCCACCCGCTCGTATGTGGCCCTGTTCCAAGGGTCCGTCTTCAATCCGGCTGCTTCCAGCTTCACCCTGCAGTTTGCGCCGCTCATGGAAACCCTGACCATAGCCACGCCTCTGATCACGGCAGGTCTTGGAGTGGCTTTGGCGTTTCGTGCAGGCCTTTTCAACATTGGTGCCCAGGGCCAGATCATCATGTCGGGCATCCTGGCCGCCTGGGTCGGTTTCGCCTTGCACCTCCCGGTGGGACTGCACCTGCTCCTCGTCCTGGTGGCGGGCATTGTCGGCGGTGCCCTCTGGGGCGGGCTGGTGGGCCTCCTCAAGGCCAGGACCGGAGCCCACGAGGTCATCCTCACCATTATGTTCAACTACATCGCGTTGTACTTCCTGGGGTACCTCCTGAACACTCCCGCGTTTCGACGGCCCGGAGAGTCAAACCCGATCTCGCCCATCCTTGACCCCAGCGCCGTGTATCCACAGATCCTGGGCACCCAATACCGCCTGCATCTCGGCTTTGTAGTGGCCATCGCGGCCACGTTCCTGGTCTGGTGGCTGCTGAACCGATCCACCGTCGGCTTCGAGTTCCGCGCCGTGGGCGCCAACCCGAAAGCTGCCATGACCGCGGGGATCAACGTCTCCCGGGCCACCATCCTGGTGATGGCCATGGCAGGTGCCCTTGCGGGCCTGTCCGGTGTTGCCCAGGTGGCGGGCACGGAGAAGGTCCTCACCGATGGCGTGGCCGCAACCTACGGTTTTGACGCCATCACTGTGGCGCTGCTGGGGCGCTCGACGCCGTGGGGAACCTTTGCGGCCGGCCTCCTCTTCGGAGCCTTCCGCGCCGGAGCCGTGCAGATGCAGATCCAGACCGGTACCCCCATCGACATTGTCCTGGTGGTCCAATCGCTCATTGTCCTCTTCATCGCGGCGCCGCCGCTGGTACGGGCGGTCTTCGGGCTGAACCCCCGCAGTAGGAAGCCCGCCGCGGGCCAGAAGGCCCGGCAGGCAGCAACAACCGGAGGTGCAGCATGA	MPEKHPHKHVADHHGKSSEPNPAAEETAAVVSLDTAGGAMEPSAVPATAQSGRLPGGPDTLVRKIFTGSGMVSVLAVLLALIIGGLLIASTDKQVGATSTYLFARPTDFLSALWSAATRSYVALFQGSVFNPAASSFTLQFAPLMETLTIATPLITAGLGVALAFRAGLFNIGAQGQIIMSGILAAWVGFALHLPVGLHLLLVLVAGIVGGALWGGLVGLLKARTGAHEVILTIMFNYIALYFLGYLLNTPAFRRPGESNPISPILDPSAVYPQILGTQYRLHLGFVVAIAATFLVWWLLNRSTVGFEFRAVGANPKAAMTAGINVSRATILVMAMAGALAGLSGVAQVAGTEKVLTDGVAATYGFDAITVALLGRSTPWGTFAAGLLFGAFRAGAVQMQIQTGTPIDIVLVVQSLIVLFIAAPPLVRAVFGLNPRSRKPAAGQKARQAATTGGAA	PGPT0021045_178	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021045-nupB|yufP-K23535	NA	NA
D1-29_01323	1329			hypothetical protein	ATGAGCACAACAGCAACGTCGCCCCTCCCCGGAAAAGGGGAGCCGGGAGCACCGGAGCAGGAGACAGGACGCGTCGCAGCAACATCTGCCAAGCCGGTGACCTGGAGGACTCCCATCCTGCTGGCAGTGCTGGGGCTTGTCGCCCTGGTCTTCTTTGGCATCCTGGGGCCCAACCAGACGGCAAGCTTCGGCATCTCCACCAGCGGCGACTTCTTCCAGCTGCCGGCCCTGGCGGTCCCGGCGTTCCTGGGCGGCATTGTCCTGTCCGTCATCCTGCTGGGGATCGCGGCCTACGCGGTTTACCTCAAGACAAAGGACCAGCCAGCCCCCAGATGGGTGCCCATCGCCTTCATCGTGTTGTTTGTAGCAGCCTTCCTCATTTGGGTGGTAGGCGGTGCCCGCACGCCCAGCATTTCGCTGGCGGGGCTCATCGCAGGCTCAGTGACCCTCGCAGTTCCCCTGGTCTTTGGATCCCTGTCAGGCGTGTTGTGCGAGCGCGTGGGCGTGATCAACATCGCCATTGAGGGCCAACTCCTGGGCGGTGCCTTCACCGCGGCGATGGTTGCCACCATGACGGGCAGCCCGTTGGTCGGCCTGCTGGCGGCAGCGATCGCCGGCGCCCTCGTCTCCATGGTGCTGGCGCTGTTCAGCATCAAGTACCTGGTGAACCAGATCATCGTTGGCGTAGTGCTGAACGTGCTGGTCTCGGGAGTCACCGGCTTCCTCTACAGCACCGTGATGCTGGCAAACAAGGCACAATTCAATTCGCCGGGCCGGCTGCCGATCATTGACATCCCTGTGCTGTCCAGCATCCCCATCATCGGCCCTATTCTTTTCCGGCAGTCAGTGGTGGGCTACCTGATGTACATCGCTGTCATTGTGGTGTGGGTGGGCCTGTTCAAAACCAAGTGGGGACTTCGGGTGCGGGCTGTGGGCGAGCACCCCCAGGCCGCGGACACCATGGGCATCAAAGTAAATGCCTTGCGCTTCTGGAACGTCACGCTGGGCGGGGCCGTCGCCGGAATCGGCGGATCCTTCTTCACCCTGGTGGCCATCGACAGCTTTACCAAGGAAATTTCAGGTGGACGTGGCTTTATCGCCCTGGCCGCCCTGATCTTTGGACGCTGGAACCCCATCGGTGCATTCTTCGCGGCCCTGCTGTTTGGCTTCGCGGATAACCTGCAGAGCATCGTGACCATCATCGGGACGCCGGTACCCAGCCAGTTCATGGCCATGCTGCCGTACCTGGTGACGGTCCTTGCAGTGGCAGGGCTGGTGGGCCGGTCCCGGCCCCCGGCCGCCAGCGGCATCCCGTACGTCAAGGGCTGA	MSTTATSPLPGKGEPGAPEQETGRVAATSAKPVTWRTPILLAVLGLVALVFFGILGPNQTASFGISTSGDFFQLPALAVPAFLGGIVLSVILLGIAAYAVYLKTKDQPAPRWVPIAFIVLFVAAFLIWVVGGARTPSISLAGLIAGSVTLAVPLVFGSLSGVLCERVGVINIAIEGQLLGGAFTAAMVATMTGSPLVGLLAAAIAGALVSMVLALFSIKYLVNQIIVGVVLNVLVSGVTGFLYSTVMLANKAQFNSPGRLPIIDIPVLSSIPIIGPILFRQSVVGYLMYIAVIVVWVGLFKTKWGLRVRAVGEHPQAADTMGIKVNALRFWNVTLGGAVAGIGGSFFTLVAIDSFTKEISGGRGFIALAALIFGRWNPIGAFFAALLFGFADNLQSIVTIIGTPVPSQFMAMLPYLVTVLAVAGLVGRSRPPAASGIPYVKG	PGPT0021050_29	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021050-nupC|yufQ-K23536	NA	NA
D1-29_01324	426	cdd	COG0295	Cytidine deaminase	GTGGAGAACTACGGCCAGGGAGAAAAACTAAGCGCCGAAGACTGGCAGGCGCTGAAGGCAGCCGCCGTCGCCGCCATGCAGAACGCCTACGCGCCGTATTCAAGGTTTTCGGTGGGGGCGGCAGCCCTCACCGCGGACGGGCGGATCGTCAGCGGCTGCAACGTGGAGAACGCCAGCTATGGCCTGGGCCTGTGCGCTGAATGTGCACTGGTGGGCAATCTTCATATGACCGGCGGCGGTACGCTGCGGGCGTTCTACTGCGTCGACGCGGGCGGCAATGTGCTGATGCCGTGCGGCAGGTGCCGCCAGCTCCTCTATGAGTTCCGGGCGCCTGATATGGAGCTCATGACCACAGCCGGCATCAAGACCATGGACCAGGTGCTGCCCGATGCATTTGGCCCCCAACACCTGGAGGAGACCCGGTGA	MENYGQGEKLSAEDWQALKAAAVAAMQNAYAPYSRFSVGAAALTADGRIVSGCNVENASYGLGLCAECALVGNLHMTGGGTLRAFYCVDAGGNVLMPCGRCRQLLYEFRAPDMELMTTAGIKTMDQVLPDAFGPQHLEETR	PGPT0021360_2969	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489	NA	NA
D1-29_01325	1323	deoA	COG0213	Thymidine phosphorylase	GTGAAAGCCGCCCCGAGACAGACTGAAGTTTTCGACGCCGTCGACATCATCCGCACCAAACGGGACAAGGGCGTTCTCAGTCCTGAACAGATCGACTGGACCATCGACGCCTACACCCGCGGTGTTATCGCGGACGAGCAAATGGCTGCGTTGAACATGGCCATCCTGCTCAACGGCATGGACCGGAGCGAGATATCGCGCTGGACCGCCGCCATGATCGCCTCGGGGGAGCGGATGGACTTCTCAAGCCTCCGAAAGCCCGACGGCGGCATCAAGGCAACCAGCGACAAGCACTCCACCGGGGGAGTGGGGGACAAGATCACACTTCCACTCGCTCCGCTCGTGGCCGTCTTCGGCGTCGCTGTTCCGCAGCTTTCCGGACGCGGGCTGGGCCACACCGGCGGCACCCTGGACAAGCTGGAATCCATTCCCGGCTGGCGCGCCGATCTTAGCAACGATGAAATACTGGCGCAGCTCCAGGATGTTGGAGCTGTCATCTGTGCTGCCGGCGCCGGGCTGGCGCCCGCAGACAAAAAGCTCTACGCACTCCGCGATGTCACCGGCACCGTGGAAGCCATCCCTCTCATCGCCTCGTCGATCATGAGTAAGAAAATCGCTGAAGGCACCGGTTCGCTGGTCCTTGATGTCAAGGTGGGCAGCGGCGCGTTCATGAAGGATGAAGCCCAGGCCCGGGAACTGGCTGAGACCATGGTTGCCCTGGGCCAGGACGCCGGTGTCAACACGGTAGCCCTGCTGACCAATATGAATACGCCCTTGGGGCTCACTGCAGGCAACGCCATTGAAGTCGAGGAATCCGTGGAAGTCCTGGCCGGCGGGGGCCCTGAAGACGTGGTGGAGCTGACGGTGCGGCTGGCCGAGGAGATGCTGGCGTGCGCCGGTGTCCATGATGCTGACGCACGGGCGGCCCTGAAGGACGGCCGGGCCATGGATGTGTGGAACCGGATGATCGGGGCACAGGGCGGTGACCCACGGGCCAAGCTGCCGGTGGCCAGGGAATCAGAAGTCATTTATGCGCCCGCTGACGGCGTGCTGGTGGAACTGGACGCGCTGGCGGTAGGCGTCGCGGCCTGGCGCCTCGGTGCCGGCCGTGCCCGCAAGGAAGACGCCGTCCAGGCGGGTGCCGGTGTCCGGATGCATGCAAAGCCAGGGGCGGTGGTCCGCGCGGGTGAACCGCTGATGACGCTGCTTACGGACACCCCGGAGAAGTTTGCACGAGCCAAGGAATCGCTGGAGCATGCTGTGGTGATCGCGCCTCCCGGGTCCCGGCCGGCCCAGCAGCTCATCATCGATCGAATAGCATAG	MKAAPRQTEVFDAVDIIRTKRDKGVLSPEQIDWTIDAYTRGVIADEQMAALNMAILLNGMDRSEISRWTAAMIASGERMDFSSLRKPDGGIKATSDKHSTGGVGDKITLPLAPLVAVFGVAVPQLSGRGLGHTGGTLDKLESIPGWRADLSNDEILAQLQDVGAVICAAGAGLAPADKKLYALRDVTGTVEAIPLIASSIMSKKIAEGTGSLVLDVKVGSGAFMKDEAQARELAETMVALGQDAGVNTVALLTNMNTPLGLTAGNAIEVEESVEVLAGGGPEDVVELTVRLAEEMLACAGVHDADARAALKDGRAMDVWNRMIGAQGGDPRAKLPVARESEVIYAPADGVLVELDALAVGVAAWRLGAGRARKEDAVQAGAGVRMHAKPGAVVRAGEPLMTLLTDTPEKFARAKESLEHAVVIAPPGSRPAQQLIIDRIA	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
D1-29_01326	630			hypothetical protein	ATGCAGGCCATCAATGAATTCATCCTCGCTGCGGCCGGGCAGCCCTGGGTGCTCTTCCTTGTCCTCGCCTGTTGCCTGATTGACGGCTTCTTCCCTCCCATCCCCAGCGAGTCGGTGGTGGTGGGGCTTGCCGCTGTGGCCGCGACAGCTGACGTTCCCAACCCCTGGATGCTGATGCTTGTGGCTGCAGTGGGTGCCTTCTCCGGAGACAACATTGCGTACCTGATTGGGCGCACGGTGGGAACGCGCCGCTGGCGCTGGATGCGCGGTCCGCGGATGCAGAGTGCCTTCCGGTGGGCGGGCGTGGAACTGCGGAAGCGGCCGGCGTCGCTCATCCTGGTGGCCCGGTTCATCCCCATCGGCAGGGTTGCCGTCAATCTCACCGCCGGAGTAACCCACTACCCGCGGCCGCGCTTTATCGGGCTGACGGTCCTCTCCGCCACGTTGTGGGCCGCGTACTCAGTCGGGATAGGCCTGTTCTTTGGACAGTGGTTCGAGGACAACCATCTGCTTGGGGCGGTCATCGCCATCATTTGTGCAGTAGGGCTCGGAATCGTAGTGGACCTGGTCATCAACCGGCTGCGCGGGAAGGTCCCCGTAGTGGAGCGCATGAAAGAACCGGAGCCCTAG	MQAINEFILAAAGQPWVLFLVLACCLIDGFFPPIPSESVVVGLAAVAATADVPNPWMLMLVAAVGAFSGDNIAYLIGRTVGTRRWRWMRGPRMQSAFRWAGVELRKRPASLILVARFIPIGRVAVNLTAGVTHYPRPRFIGLTVLSATLWAAYSVGIGLFFGQWFEDNHLLGAVIAIICAVGLGIVVDLVINRLRGKVPVVERMKEPEP	PGPT0004890_2768	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975	NA	NA
D1-29_01327	723			hypothetical protein	GTGGAGTTTTTGAATCAAATGCTCGAGCATGCGGCCGGGCAGCCCTGGATATATCCTCTGCTCCTGGTCTTCTTCTTCGTTGACGGGTTTGCCACCATATTGCCCAGCGAAACGGCCATTGTTGGCTTGTCGGCGCTGTTCCTTCATAGCGGGCAACCTAACCTATGGATCCTGGGTACCACCGCCCTCGTTGGCGCCATGGCGGGCGACAACATGGCGTATATGCTGGGCCGCAAGATCGGGTTGACGCGCTGGAAATGGATGCGTCGCCCCAAGGTTCAGAAGATGTTCGCCTGGGCCCAGTACGAGCTCGACAAGCGCGGCGCTGTGCTCATTTTTACCGCGCGATACATTCCCTGGGGCCGGGTTGCCGTGAACTATGTTGCAGGGCAGACCGGGTTCCGCCATCGCACGTTCTTCTGGCTGGATGCCTTCGCCTGCCTCACCTGGGTGGGTTATTCCATTGGCATAGGCCTGCTTGCTGGTCAATGGGTCCACCACAACCCCCTCCTTGGCGTGGGGATTGCCGTGGCGTTCGCGGTCCTCCTGGGCATCCTTATCGACCACCTCCTGCGCTGGTGGCACAAGCACCTCGCCCGCAACGATGCCAAGGTAGTGGACGAGTGGCTGGATGGCGGCCCGGCAGGTGCCTCCGCCGGCGTGACCGGAGCCTCCCCAATGCTCGCGGCCAGCGCTCTGGACGCCGAACCCGGGGGGAAGTAG	MEFLNQMLEHAAGQPWIYPLLLVFFFVDGFATILPSETAIVGLSALFLHSGQPNLWILGTTALVGAMAGDNMAYMLGRKIGLTRWKWMRRPKVQKMFAWAQYELDKRGAVLIFTARYIPWGRVAVNYVAGQTGFRHRTFFWLDAFACLTWVGYSIGIGLLAGQWVHHNPLLGVGIAVAFAVLLGILIDHLLRWWHKHLARNDAKVVDEWLDGGPAGASAGVTGASPMLAASALDAEPGGK	PGPT0004890_538	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975	NA	NA
D1-29_01328	1155	add	COG1816	Adenosine deaminase	GTGACTGAGCCTATTGTTGACACTGCCCCTGCCCTTGATTTCGACCTGAAGAGCCTCCCGAAGGTTTCCCTCCATGACCACCTGGACGGGGGACTCCGTCCGGCCACCATCATTGAGCTGGCTGAGTCCGTTGGCCACACCCTTCCCTCCACCGATCCCGTGGCCCTGGGGGAGTGGTTCCGTGAGTCCGCCGACTCCGGTTCACTGGTCCGCTACCTGGAAACATTTGACCACACCGTCGCCGTGATGCAGACGAAGGAAGGCCTGTTCCGGGTAGCGAAGGAATTTGTGGAGGACCTCGCTGATGACGGCGTGGTCTACGGGGAAGTGCGCTGGGCACCCGAGCAGCACCTTCAGAACGGCCTCTCGTTGGATGAAGCGGTGGAGGCCGTCCAGGAAGGCCTGGAAGCCGGCGTGGATGCCGTGGCCGAAAGTGGACGGGAGATTCAGGTTGGCCAGCTGATCACGGCCATGCGGCACGCGGACCGCGGGCAGGAGATCGCTGAACTTGCCGTCCGGCACCGCAACAGGGGTGCTGTCGGCTTCGACATTGCCGGCGCGGAGGACGGCTTCCTGCCGGCCCGTTTCAAGGATGCGTTCACCTTCCTGGCACAGAACAACTTCCCAGCCACCGTCCATGCAGGCGAGGCCGCGGGCCTGGAGAGCATCCAGTCCGCCCTGGTGGACGGACGAGCCCTCCGCCTTGGCCACGGCGTCCGAATCGCCGAAGACATCATGGTGGAATTCGAGCATGACGATGACGCGTCCGGTACCGAGGATGCGGAGGACAGCATCGGTCTGGTCACCCTGGGCGACCTCTCAAGCTGGATCCGGGACCGCGGGATCGCCCTGGAGATCTGCCCCTCCTCAAACCTTCAGACCGGTGCCATCGCCGGCTTCGGTGAAGGCATCGAAAGCCACCCGCTGGACATGCTCTACCAGCTGGGCTTTAACGTCACCATCAACACGGACAACCGGCTGATGAGCGGCGTGACCCTGACCGATGAGTTTGAACTGCTCGTGGAGACCTTCGACTACGATCTCGATGACCTGCTCGAGCTGACGCTCAATGCCGCTGAAGCATCCTTCCTGCCCCTTGAAGAGAAGGAAGCCCTGGTGGAGTACATTAACGACGCCTACGCCAACCTTGGCTAG	MTEPIVDTAPALDFDLKSLPKVSLHDHLDGGLRPATIIELAESVGHTLPSTDPVALGEWFRESADSGSLVRYLETFDHTVAVMQTKEGLFRVAKEFVEDLADDGVVYGEVRWAPEQHLQNGLSLDEAVEAVQEGLEAGVDAVAESGREIQVGQLITAMRHADRGQEIAELAVRHRNRGAVGFDIAGAEDGFLPARFKDAFTFLAQNNFPATVHAGEAAGLESIQSALVDGRALRLGHGVRIAEDIMVEFEHDDDASGTEDAEDSIGLVTLGDLSSWIRDRGIALEICPSSNLQTGAIAGFGEGIESHPLDMLYQLGFNVTINTDNRLMSGVTLTDEFELLVETFDYDLDDLLELTLNAAEASFLPLEEKEALVEYINDAYANLG	PGPT0021520_469	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021520-add-K01488	NA	NA
D1-29_01329	582	mazG	COG1694	Nucleoside triphosphate pyrophosphohydrolase	ATGGGAGCGCTTACCCACGCCTCATTGGTGGAATACCTCCTTGAGGAGGCCTACGAGGTAGCGGAAACCATCGAGACCGGAGCGGATGAAGCGGAACTCCAGGGCGAGCTGGGGGATGTACTCCTCCAGGTGGTGTTGCACTCCCGGCTCGCCGAGGAACGAGGAACCTTCACTTTCGACGACGTCGCCCGCGGTCTGAGCGCCAAGATGGTCAGGCGAAATCCCCACGTGTTCCGTCCGGACGGGTCACTGCAGGACAGCTTCCCCGCCACGGTGGAGGAGATCGTTCAGAAATGGGATGCGGTCAAGATATCAGAGCGCCCGGAACGAAAGCATCCTTTTGAAGGCATCCCGCAGGCGCTGCCCGCGCTGGCCCGGGCGCAAAAGTCCATGGACCGGGCCGAACGTGCCGGATTCGGCCTCCATCTTCCCCAGGCTGCCGCGCCGGACCCCGGCACTGAAGAGGAACTGGGCGACCTGCTGTTTGCGATCGTCCGCTCCGCCCGCGCCCAGGGATTTGATGCCGAGCGCGCCCTGCGCGGTGCCCTCCGCCGTTATCAGGAGGGTTTCCGTGAGCAGTAA	MGALTHASLVEYLLEEAYEVAETIETGADEAELQGELGDVLLQVVLHSRLAEERGTFTFDDVARGLSAKMVRRNPHVFRPDGSLQDSFPATVEEIVQKWDAVKISERPERKHPFEGIPQALPALARAQKSMDRAERAGFGLHLPQAAAPDPGTEEELGDLLFAIVRSARAQGFDAERALRGALRRYQEGFREQ	PGPT0008820_1509	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0008820-mazG-K04765	NA	NA
D1-29_01330	1281	eno	COG0148	Enolase	ATGGCGCTTATCGATGCCATCCACGCCCGCGAGATCCTCGATTCCCGTGGCAACCCGACCGTAGAAGTTGAAGTCCTGCTGTCCGATGGCCAGATCGGCCGCGCGGCAGTCCCCTCGGGCGCCTCCACCGGTGAGCACGAGGCCGTTGAGCTCCGCGACGGAGACAAGGGCCGCTACCTCGGCAAGGGTGTCCAGAAGGCCGTTGACGCGGTCATCGACCAGATCGCTCCGGCCCTGACAGGTTTCGACGCCACAGACCAGCGCAGCATCGACCAGGCAATGATCGACCTGGACGGAACGGCCAACAAGAGCAAGCTCGGAGCCAACGCCATCCTGGGTGTTTCCCTCGCCGTAGCCAACGCAGCCGCCGCTTCCGCTGACCTGCCGCTGTACAAGTACCTGGGCGGCCCGAACGCCCACGTGCTGCCCGTACCGCTGATGAACATCCTCAACGGCGGCTCGCACGCCGATTCCGACGTCGACATCCAGGAATTCATGGTTGTTCCGCTCGGCGCAGAAACCTTCTCCGAGGGACTTCGCTGGGGCGTTGAGGTTTACCACGCACTCAAGGCCGTGCTGCAGGAAAAGGGCCTCTCCACCGGCCTCGGCGACGAAGGCGGCTTCGCGCCGAACCTGCCGTCCAACCGTGCAGCCCTGGACCTGATCCAGGAAGCCATCAAGAACGCAGGCTACACCCCGGGCCAGGACATTGCCCTGGCACTGGACGTTGCCTCCTCGGAGTTCTTCACGGACGGCGCCTACCAGTTCGAAGGCAAGGCCCTCAGCTCCACCGAGATGAGCGCCTACTACGCCGAACTCGTTGCCGACTACCCGCTGGTATCCATCGAGGACCCGCTGGACGAGAACGACTGGGACGGCTGGAAGACCCTCACCGACAGCATCGGCGACAAGGTCCAGCTGGTGGGCGATGACCTGTTCGTCACCAACCCCTCCATCCTTCAGCGCGGCATCGAGACCAAGACCGCCAACTCGCTGCTGGTGAAGGTCAACCAGATCGGTTCCCTGACCGAAACGCTGGACGCCGTGAGCCTGGCCCAGCGCTCCGGTTACACCACCATCACCTCGCACCGTTCAGGTGAAACCGAAGACACCACCATCGCCGACATCTCCGTGGCAACCAACGCGGGGCAGATCAAGACAGGTGCCCCGGCCCGCTCCGAGCGTGTAGCCAAGTACAACCAGCTGCTTCGCATCGAAGAGGAACTCGACGACGCCGCACGCTACGCCGGACGCAGCGCCTTCCCGCGTTTCAAGGGCTAG	MALIDAIHAREILDSRGNPTVEVEVLLSDGQIGRAAVPSGASTGEHEAVELRDGDKGRYLGKGVQKAVDAVIDQIAPALTGFDATDQRSIDQAMIDLDGTANKSKLGANAILGVSLAVANAAAASADLPLYKYLGGPNAHVLPVPLMNILNGGSHADSDVDIQEFMVVPLGAETFSEGLRWGVEVYHALKAVLQEKGLSTGLGDEGGFAPNLPSNRAALDLIQEAIKNAGYTPGQDIALALDVASSEFFTDGAYQFEGKALSSTEMSAYYAELVADYPLVSIEDPLDENDWDGWKTLTDSIGDKVQLVGDDLFVTNPSILQRGIETKTANSLLVKVNQIGSLTETLDAVSLAQRSGYTTITSHRSGETEDTTIADISVATNAGQIKTGAPARSERVAKYNQLLRIEEELDDAARYAGRSAFPRFKG	PGPT0018050_5230	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
D1-29_01331	735			hypothetical protein	ATGGCTACGCGCCGTCCAAAAGTTCCCAAGGCCTCCGGGCCAGCGAAGGAAACAGCCGACACCGCTGACATCATCCGGGCCCAGTTCGGCGGTTCCACGGAGAATGCCGGCAATGCCCGGGCCTCACAGGACAGAACCGCACAGGACCGAGCTGCAAGGGACAGGACCGCAAAGGAGAGAGCGGCAGGTCCGGGGGCACCCTCGCTGAAGGGCGCCACACACGGCCGGCCCGGCAACTCCTCCCCAGGCAGCCAATCGAAGGACCAGGGCAAAGGGCGCGGTGCAGGCGGCGCATCCGCGTCAGGCGGCCATGCCAAGGGCAACCAGCCTGAGGACGAGGCTCAGCCGGTTCCTGCAAAGGCGTTTTCGGGGCGCATGCTTGCACTCGCCGTGGTCATGATCGCCATCACCATCATGCTGGCCCCCACCGTGAAGATTTTCTTTGATAAGCGGGCTGAAATCGCTGCGCTCAACGCCGATATCGCCGCAAGCCAGGCCGAACAGGCAGGCCTGCGCCAGCAGGTATCGCGCTGGCAGGACCCCAACTATGTGAAACAGCAGGCCCGCGACCGCATTAACATGGTAATGCCGGGTGAAACGAGCTACTGGGTGTTCGGCAGCGATCTGCCGGACGGACCAGGCAACAGCCAGACCGGTGCAGCAGCACAAGACCCCGCCGATCTGCCGTGGGTGGATTCCCTGTGGGAGTCCATCAGGCGTGCGGCCACAGACTGA	MATRRPKVPKASGPAKETADTADIIRAQFGGSTENAGNARASQDRTAQDRAARDRTAKERAAGPGAPSLKGATHGRPGNSSPGSQSKDQGKGRGAGGASASGGHAKGNQPEDEAQPVPAKAFSGRMLALAVVMIAITIMLAPTVKIFFDKRAEIAALNADIAASQAEQAGLRQQVSRWQDPNYVKQQARDRINMVMPGETSYWVFGSDLPDGPGNSQTGAAAQDPADLPWVDSLWESIRRAATD				NA	NA	NA	NA	NA
D1-29_01332	693			hypothetical protein	GTGGGAGAACACACAACAGCGCCGGAGGACTCACGTCAGCCATCGGCACATGATCTTGAAGTACTGAGCCGGCAGCTGGGGCGGCCTGTCCGCGATGTGGTGGAAATCCCGGCCCGCTGCGTTTGCGGCAACCCGCTGGTGGCTGCCACGGCGCCCCGCCTCAGCAACGGCACCCCTTTTCCCACCACCTTCTACCTGACGCATCCGGTGATCACGTCGGCAGTTTCGCGCCTCGAGGCCGCCGGTCTCATGAACACCATGAATGAACGCCTCGCTGCCGACGAGCCCCTTGCCGCAGCCTACCGCTCAGCGCACGACGCCTACCTGGCCGCGCGTGCGGCGATTGGCGAGCGTTCGGGCATCGGCGCGGTCCCCGAAATCGACGGAATCTCCGCCGGTGGCATGCCCACCCGGGTCAAGTGCCTTCACGTCCTGGTGGGGCACTCCCTCGCCGCCGGAGCGGGAGTCAATCCCTTGGGGGATGAAGCCATCGCAGGCATCAGCGAATGGTGGACGACTGACCGCTGCTACTGCGACGGCGCCTGGGACACAGCGGGGGAGGCACCCTCGAGGGACCTAAGCCGCCATGGGCCCCAGGGCCTGCCGGAGATAGTTGGCCGGCCGGCTCCCCTCCGCAGGACCGCCGCCGGGGGCGACGTGGACGGCCAGGGGCACGCCGGGGCCGGCGAATGA	MGEHTTAPEDSRQPSAHDLEVLSRQLGRPVRDVVEIPARCVCGNPLVAATAPRLSNGTPFPTTFYLTHPVITSAVSRLEAAGLMNTMNERLAADEPLAAAYRSAHDAYLAARAAIGERSGIGAVPEIDGISAGGMPTRVKCLHVLVGHSLAAGAGVNPLGDEAIAGISEWWTTDRCYCDGAWDTAGEAPSRDLSRHGPQGLPEIVGRPAPLRRTAAGGDVDGQGHAGAGE	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
D1-29_01333	948	ppx2	COG0248	Exopolyphosphatase 2	ATGAGCCGCGTCGCCGCCATTGACTGCGGTACCAATTCCATCCGTCTGCTGATTGCGGACATTGACCGCAGCAATGGGACGGCCAAACTCACCGACGTGGTCCGTGAAATGCGGGTTGTGCGGCTCGGCCAGGGCGTGGATGCCACCGGCGAGCTCGCGCCGGAGGCGCTGGAGCGTACCTTCGCAGCCACGGCCGACTACGCCAAGATGATCCATGAACACGGTGCCGGAAAGGTGCGCTTTGTGGCGACGTCGGCCAGCAGGGACGCACGGAACCGCCAGGTCTTTGTGGACGGGATCCGCGGCCTGATTGGGGTTGAGCCCGAAGTGATCTCCGGTGGGGAGGAAGCGGCGCTGTCCTTCGCCGGGGCAGCCAGCGTCCTGCCGGTCCTTGACGGCCAGCACGTGCTGGTGGTTGACCTTGGCGGCGGGAGCACGGAATTTGTCCTCGGAACGGCGGACGGAGTCACGGCAGCCAAGTCCGTGGATATCGGCTGCGTGCGTTTGACTGAGCGGCACCTCCGCGATGACCCGCCGACGCCGGAACAGATTGCCGCTGCCGAGGCTGATGTGGACGCTGCCATTTCATTGGCGGGACTGGACGTTCCCCTCGAACGCGCCACCGCCGTCGTGGGGGTGGCCGGATCGATCACCACCATCACAGCCCACGCGCTGCGGCTTCCGGAGTATTCCCCTGAAGCGATCCACGGCACTGAACTGCCCCTGCAAATGATCCGGGGCGCAGCAAAAGACCTGCTGGAAATGTCCAGGACCGAACGCGCCCAGCTGCCGTACATGCATCCCGGCAGGGTGGATGTGATTGGGGCCGGCGGGCTGGTGTGGGCGCGTATCCTGGAACGCCTTAACGAGCTCACTGCAGGCCGGATCGTCACGGCCACCGCCAGCGAACACGACATTCTCGACGGCATTGCCCTGAGCATCAGCTAA	MSRVAAIDCGTNSIRLLIADIDRSNGTAKLTDVVREMRVVRLGQGVDATGELAPEALERTFAATADYAKMIHEHGAGKVRFVATSASRDARNRQVFVDGIRGLIGVEPEVISGGEEAALSFAGAASVLPVLDGQHVLVVDLGGGSTEFVLGTADGVTAAKSVDIGCVRLTERHLRDDPPTPEQIAAAEADVDAAISLAGLDVPLERATAVVGVAGSITTITAHALRLPEYSPEAIHGTELPLQMIRGAAKDLLEMSRTERAQLPYMHPGRVDVIGAGGLVWARILERLNELTAGRIVTATASEHDILDGIALSIS	PGPT0002595_4732	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
D1-29_01334	1380			hypothetical protein	ATGACCAGAGCAACAGCCCGGCTCCGCCGGACCGCCACCGCTCTTCTCGCAATGATGCTGGCCGGCGGCAGCGTGGCTGCCGGTCTTGCCGGAGCGCCCGCAGCGCACGCCGACTCATGGCGCGATAAACAGTACTGGCTGGCCGAGTCCGGGATCACGAAGGCCTGGGAGGTCTCCAAAGGCGCCGGCGTCAAGGTCGCTGTTATCGACAGCGGGGTGGACGCCCAGCATCCGGACCTCAAGGGCGCTGTGACGGGCGGCCGCGACGTTTCAGGTGCCGGAAGCCCGGACGGACAGAAGAGCATCGGCGGCAAGCCCGAACACGGCACCCTCGTGGCCACCATGCTGGCCGGCCGCGGACACCAGCCGGCAGCGTCCACAGCCTCACCCAGCCCGGGCACTTCCAGTACGGGCCCGGATGGGATCGTGGGCGTGGCACCGGAGGCGCAGATCCTGTCTGTCTCCACCTGGCTGGGTTCGCCCAACCCGGCAGGAAAAAGCGACCAGGACCAGATTCCTGAGGCTGTCCGCTGGGCAGTGGACAACGGCGCCAAAGTCATCAATATCTCACTGGGCAGCACCACGCCCCAGTGGCCGCAAAGCTGGGATGCAGCCTTCCTGTACGCCGAGCAGAAGGACGTGGTGATCGTTGCCGCCGCCGGAAACCGGGTGGGCGGCAACGTCCAGGTGGGCGCGCCCGCCACCATCCCTGGTGTGCTCACGGTGGCGGGACTGGACCGGAAGGGAGTGGCGAGCATTGACTCGTCGTCCCAGGGGATCAGTATCGGAGTGGCCGCTCCGGCGGAAAACCTGCTCGGAGGGCTGCCGGGCGGCGGGTACGCCGAGTGGGCCGGAACGTCCGGAGCCGCTCCCATCGTTGCCGGCGTTGCGGCCCTCATCCGCTCCAAATGGCCCGAGATGAGCGCCCGGCAGGTCATCAACAGGATCGTCAGTACCGCGAAGGACGCCGGTGCGCCGGGAAAGGATCCGCTCTACGGCTTTGGTGTGCTGAATGCCGAAGCGGCCTTGAAGGACGCGGTGCCCGAGGCTGCGGCCAATCCGCTGGGCTCCATCTCGGACTGGATCCGTGTGCACCGCCGGGGTGGAAACCTTGCCTCGCCCGCGCCGGCACCCACCTCCGGTGTTGCCAGCGCTGTCCCCACCCTTCCCGAACCGACTGTGCCCGCGGTGGAGGCTCCATCCCAGCGTGATTCCGCCCTTGGCGCCGCCGTCGTCATCGGCTTTGCCATCCTCTTCATAGCGATCATCGCGGCGGCAGTGTTCCAGCTGCGCCGCGCTGCCCGAAACCCTCGCCTGGCCCGGGAAGAACCGGATACAGGGGTCCTGGATTCCGTGGATTCCGGCGGAAAAGCTAGTTAG	MTRATARLRRTATALLAMMLAGGSVAAGLAGAPAAHADSWRDKQYWLAESGITKAWEVSKGAGVKVAVIDSGVDAQHPDLKGAVTGGRDVSGAGSPDGQKSIGGKPEHGTLVATMLAGRGHQPAASTASPSPGTSSTGPDGIVGVAPEAQILSVSTWLGSPNPAGKSDQDQIPEAVRWAVDNGAKVINISLGSTTPQWPQSWDAAFLYAEQKDVVIVAAAGNRVGGNVQVGAPATIPGVLTVAGLDRKGVASIDSSSQGISIGVAAPAENLLGGLPGGGYAEWAGTSGAAPIVAGVAALIRSKWPEMSARQVINRIVSTAKDAGAPGKDPLYGFGVLNAEAALKDAVPEAAANPLGSISDWIRVHRRGGNLASPAPAPTSGVASAVPTLPEPTVPAVEAPSQRDSALGAAVVIGFAILFIAIIAAAVFQLRRAARNPRLAREEPDTGVLDSVDSGGKAS				NA	NA	NA	NA	NA
D1-29_01335	1491	ndbB		Demethylphylloquinone reductase NdbB	ATGGCAACCACCCCAGAGCTCCAGGACCGTCCCCGGGTACTCGTCGTCGGCGGCGGATACGTCGGCCTGTACGTAGCACTCAAACTGCAGAAGAAGATCGCGAATGCCGGTGGCATCGTCACCCTCGTGGATCCACTGCCCTACATGACTTACCAGCCGTTCCTGCCCGAGGTTGCCGGTGGCAACATCGAGGCCCGCCATGCAGTGGTCTCCCACCGCCAGCACCTCAAGCAGACCGAACTGATCCAGGGCCGCGTGACGTCGATCGACCACGCCAACCGCACCGCCGTTGTGGCTCCCGCGGACGGCGGAGACAATTTCGAGGTTCCCTACTTCGACGTCGTCCTGGCCGCAGGCGCCATCACCCGCACGTTCCCCATCAAGGGCCTCGCGGACAAGGGCATCGGCCTGAAGACCATCGAGGAAGCCGTTGCGCTGCGCAACAAGGTCCTGGAGCGCATTGAGGTTGCCTCCACCATGACCGATCCCGCGGCCCGCGCCAAGGCACTCACCTTCGTGGTAGTCGGCGGCGGCTTCGCCGGCATTGAATGCATCACCGAGATGGAGGACCTGGCCCGCGCCGCGGTCCGCAACAACCCGCGGATCAAGCAGGAGGAAGTCCGCTTCGTCCTGGTTGAGGCAATGGGGCGGATCATGCCCGAGGTTACGGCCAAGCAGGCCGAATGGGTGGTGGAGCACCTCCGCAGCCGTGGCATCGAGGTCCTGCTGAACACCTCCCTGGACAACGCCGAAGGCTCCATCAAGCTCATCAACCTCCCGGACAAGACGCCGGCGCAGGACTTTGAAGCGGATACCCTGGTGTGGACTGCCGGCGTGCAGGCCAACCCCATGGTCCGCTCCACCGACTTCCCGGTCGAGCCGCGCGGCCGCGTCCGCACCCTTCCTGACATGCGCATTGGAGGGGACGAAGGAATCGTCGACAACGCCTGGGCTGCAGGCGATATCGCTGCCGTGCCGGACCTCACGGGCAGTGGCCTGCCGGACGGTACCTGCGTTCCGAACGCCCAGCACGCCCTTCGGCAGGCCAAGCGCCTCGCGAAGAATCTGTGGGCTTCCCGCTGGGACAAGCCGCTGAAGGACTACAAGCACAAGAACCTGGGTGCCGTGGCCGGCTTCGGCGAGTGGAAGGGTGTCGCGAATATCAACCTCGTCGGCAGCATCGGCCTCAAGGGCCCGCTGGCCTGGCTGGCACACCGCGGCTACCACGGCATGGCGATGCCCACGTTCGAGCGCAAGTTCCGCGTGATCTTTAACTGGATCATCAGCTTCTTCGCAGGTCGCGACACCACCCCGCTCATGGATCTGGACAACCCCCGCGGGGCCTTCATTGCAGCGGCCACCCCGGCTCCCAAGCCGGCGGCGGCACCGCCGGCCGGAAGCCCGGGTGCCGCTCCCGAGGCCGGCAAGCCCGGATCAACGGCCGCGGCGAGCTTTGATCCCAAACAGTCAGTAAGCGCGAACGCCAAGTAG	MATTPELQDRPRVLVVGGGYVGLYVALKLQKKIANAGGIVTLVDPLPYMTYQPFLPEVAGGNIEARHAVVSHRQHLKQTELIQGRVTSIDHANRTAVVAPADGGDNFEVPYFDVVLAAGAITRTFPIKGLADKGIGLKTIEEAVALRNKVLERIEVASTMTDPAARAKALTFVVVGGGFAGIECITEMEDLARAAVRNNPRIKQEEVRFVLVEAMGRIMPEVTAKQAEWVVEHLRSRGIEVLLNTSLDNAEGSIKLINLPDKTPAQDFEADTLVWTAGVQANPMVRSTDFPVEPRGRVRTLPDMRIGGDEGIVDNAWAAGDIAAVPDLTGSGLPDGTCVPNAQHALRQAKRLAKNLWASRWDKPLKDYKHKNLGAVAGFGEWKGVANINLVGSIGLKGPLAWLAHRGYHGMAMPTFERKFRVIFNWIISFFAGRDTTPLMDLDNPRGAFIAAATPAPKPAAAPPAGSPGAAPEAGKPGSTAAASFDPKQSVSANAK	PGPT0004020_427	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
D1-29_01336	945			hypothetical protein	ATGACTGGCGAAAAGAACCTCCAGGCCCTGCTGGCAGCGATCCACCCCGTACTGCGCGAAGGTGAGTATGTCTACGTCCTCTGGCCCCATGGGAGGCCGCTGGCGGCGGGTATCCAGGCGGCAGTTCGTGAGGCTGAGGGCCTGACTGTGGTTCTTCCCCGTTCGGAAGCGGATGGCTTGGGCCTGCCTTACGACTTCGTGGCCGCCTGGATCACGTTGCAGATCCACGCTGAGCTGGAGGCCGTGGGCCTGACGGCGGCGGTGAGCAGGGCCCTGACGGATGCCAAGATCAACTGCAATGTGCTGGCGGGGTTCCACCATGACCATCTGCTGGTGCCTGCCGGGGAGGCTGCCCGTGCACTGGAGGTCTTGGCTGAGCTGTCGGCGGAAAACAGCCACCAGCCCAGACCCGAACTGGTGCTGCGCAATGAAACGGCCGACGACCGGGAAAAGATCCTGGCCCTGACGGCGGAGGCTTTTGCCATATCACCGGCAACAGGCCTGCCGGCCAAGGGAGAGCCGGTTGAAGTGGAGGTGCTCCGCCAGCTGTTCGTGTGCGAGGAGTACCTGCCGGAGTTCAGCATTGTGGCTCTCCTTGACGGCGAGGTGGTGGGCCACGTTATCAGTACCCGCGGCTGGGTGGGCGAGCATGAATTGCTGGGACTTGGGCCGATCGGCGTGACGCCGAGGCTCCAACGCCACGGCGTCGGAAGCGCGCTGATGAATGAAACCATTGCGCGCGCCAACGCCGCGGGGGAGAGCGGCATCGCACTGCTGGGGAGTACCGAGTACTACCCCCGCTTCGGCTTTGTGCCTGCCACGTCCCTTGGCGTGCTGCCTCCCGAAGAGGTTTGGGCCGACAGCTTCCAGCTCCTGCCGCTGGCGTTGTGGCCTGGAGGAGTTCACGGCACCTTCCGGTATGCCGCCCCTTTTGCGGGGTTGTGA	MTGEKNLQALLAAIHPVLREGEYVYVLWPHGRPLAAGIQAAVREAEGLTVVLPRSEADGLGLPYDFVAAWITLQIHAELEAVGLTAAVSRALTDAKINCNVLAGFHHDHLLVPAGEAARALEVLAELSAENSHQPRPELVLRNETADDREKILALTAEAFAISPATGLPAKGEPVEVEVLRQLFVCEEYLPEFSIVALLDGEVVGHVISTRGWVGEHELLGLGPIGVTPRLQRHGVGSALMNETIARANAAGESGIALLGSTEYYPRFGFVPATSLGVLPPEEVWADSFQLLPLALWPGGVHGTFRYAAPFAGL				NA	NA	NA	NA	NA
D1-29_01338	1353			hypothetical protein	ATGATTTCACTCCCCCCTGCGTCGTCCCGTATCGCCAAGCTCACAGCGCTTAGCGTCGGCGTCGCTTTTCTGGCTACCGCTTGTGGTGGCACCACCACCCCAAGCGCGACGGAGACTACTACCGCGCCTTCAGGAGAAATCTCCTGCCCGGCAGGTGCCGGCGCCGGTGCCAGCACCTCAGCTGCGGCAGCTCCCACAGGAGCCGTTCCGCCGTCCAGCACCACCACGGACACGCCGTTGAAGCTCGGATCGCTGCTGCCCACAACTGGCAACCTGGCGTACCTGGGCCCACCCGAAATTGCTGGCGTTAACCTTGGCGTCAAAGAGGTCAACGATGCTGGCGGTGTTCTGGGCAAGCCGGTGGAAGTCACCCACCGCGACTCGGGCGACACGAAGACCGACATCGCCACGCAGTCCACCAGCGCCCTGCTGGGCCAGGGAGTCAGCGCGGTTATTGGCGCAGCTTCCTCTTCCGTTTCCAAGACCGTGATCAACCAGATTACCGGTGCAGGCGTCCTCCACTTCTCCCCGGCCAACACGTCGCCGGACTTCACCACTTGGGATGACAAGGGCCTCTACTGGCGTACTGCCCCCTCCGACGTGCTTCAGGGCAAGGTCTTGGGCAACTACATCGTTGCCTGTGGCGCCCAGACACTCGGCATGATGGTCCTGAATGACGCTTACGGAACAGGCCTGCAGAAGAACGTCAAGGAAGCTTTCGAAGCTGCCGGCGGGAAGGTCGTTGCCGAGCAGCTCTACAACACCGGTGACTCACAGTTCAGCAGCCAGGTTGACGCGATCGTAGCTGCCAAGCCTGATGCCATCGCCCTGATTACCTTTGACGAGGCAAAGAGCATCATTCCGCTCTTCACCGGCAAGGGCATCAAGCCCACCCAGATGTTCATGGTTGACGGCAACCTCTTTGACTACAGCAAGGATCTTTCGCCGGGAACACTGAAGGGAGCGCAGGGCACGAACCCAGGAACGTTCGCCAAGGAAGACTTCAAGCAAAAGCTCCTGGCGCTGGATCCCGCATTGGTGACCTATAACTACGCGGGTGAGTCCTACGACGCCGTGAACCTGATTGCACTCGCCTCGGAAGCAGCAAAGAGCACCAAGGGAACGGACATCGCGGCCAAGCTGAAGGAAGTTTCAGAGGGTGGCGAGAAATGCAACAACTTCGCTTCGTGCGTGACGTTGCTCCGGGACGGCAAGGATATCGACTACGACGGTCAGTCGGGTCCGATCACCTTCTCGGATGCCGGTGACCCCACGGAAGCGTATATCGGTATCTACGAATACGACGATTCGAACAAGCCGCAGCCTGTCAAGGAAGAATTCGGCAAGCTGTAA	MISLPPASSRIAKLTALSVGVAFLATACGGTTTPSATETTTAPSGEISCPAGAGAGASTSAAAAPTGAVPPSSTTTDTPLKLGSLLPTTGNLAYLGPPEIAGVNLGVKEVNDAGGVLGKPVEVTHRDSGDTKTDIATQSTSALLGQGVSAVIGAASSSVSKTVINQITGAGVLHFSPANTSPDFTTWDDKGLYWRTAPSDVLQGKVLGNYIVACGAQTLGMMVLNDAYGTGLQKNVKEAFEAAGGKVVAEQLYNTGDSQFSSQVDAIVAAKPDAIALITFDEAKSIIPLFTGKGIKPTQMFMVDGNLFDYSKDLSPGTLKGAQGTNPGTFAKEDFKQKLLALDPALVTYNYAGESYDAVNLIALASEAAKSTKGTDIAAKLKEVSEGGEKCNNFASCVTLLRDGKDIDYDGQSGPITFSDAGDPTEAYIGIYEYDDSNKPQPVKEEFGKL	PGPT0020765_615	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
D1-29_01339	786	livF_1	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGAGTGCCACCAGCGCAGCCCCCGTAGCCCAGCAAGGATCAGAGGATGGCGTTGTCGTCAAGGTCACCGATCTGGTGGCGGGCTACCTGCCGGGTGTGAATATCCTCAATGGCTGCAGCATCGAAGCCAGGAAAGGCGAGCTGATCGGTATCATCGGCCCCAACGGCGCCGGTAAGTCCACCTTGCTGAAAGCCATGTTCGGCCTGGTAAAAGTACATTCCGGCTCAGTTGTTGTGCGCGGAAAGGACATCACCGGGCTCAAAGCCAACAAGCTGGTGACCCAGGGTGTTGGCTTTGTGCCCCAAAACAACAACGTGTTTGCCACCCTCACCATCGAAGAAAACATGCAGATGGGGATGTTCCAGCGGCCCAAGGACTTTGCCGAGAGGTTTGACTTTGTCACCAGCTTGTTCCCGGAGCTTGGGAAGCGGCGGGCCCAGCGTGCGGGCTCACTGTCCGGCGGTGAACGCCAGATGGTGGCCATGGGGCGGGCTCTGATGATGGAGCCTGCTGTCCTGTTGCTCGATGAGCCATCCGCAGGCCTGTCACCCGTCAAACAGGACGAAACCTTCCTGCGCGTGCATGAGATCAACCGGGCCGGCGTCTCGGTCATCATGGTGGAACAGAACGCGCGCCGCTGCCTTCAGATCTGTGACCGTGGCTACGTCCTGGACCAAGGCAAGGATGCGTACACCGGCACCGGTCGGGAACTCATGAAGGATCCTAAGGTCATCCAACTCTACCTCGGGACTTTGGCCGACACTGTGGAGGAGGGCCCGGGATAG	MSATSAAPVAQQGSEDGVVVKVTDLVAGYLPGVNILNGCSIEARKGELIGIIGPNGAGKSTLLKAMFGLVKVHSGSVVVRGKDITGLKANKLVTQGVGFVPQNNNVFATLTIEENMQMGMFQRPKDFAERFDFVTSLFPELGKRRAQRAGSLSGGERQMVAMGRALMMEPAVLLLDEPSAGLSPVKQDETFLRVHEINRAGVSVIMVEQNARRCLQICDRGYVLDQGKDAYTGTGRELMKDPKVIQLYLGTLADTVEEGPG	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
D1-29_01340	1122	btuD_4		Vitamin B12 import ATP-binding protein BtuD	ATGAACCAAAGCGCGCATTCAATAGACAACACAGGCAAACAAAGCAGCGTCGACTACATGACGGACACCAGTCCGATAGCCGTTGGCGAGGCCGCTCCCGGATGCCAGAAGACGGACCCCATCGTGGTGGCCGAAAACATCACCCGGAGCTTCGGTGGCATCAACGCGGTTGACGTCGAATACCTCGAAATCCCGCGCCATAAGATCACCGCCCTCATCGGCCCGAATGGAGCCGGAAAGACCACACTCTTCAACCTCCTGACCGGCTTCGATACGCCCAACTCGGGAAAATGGAAATTTGAGGGAAATAACATCCAGGGTGTGCCCTCGTACAAGCTTGCCCGGATGGGAATGGTGCGCACTTTCCAACTCACCAAGGTCATGGGCAAGCTCACCGTTATGGAGAATATGCGCCTTGGCGGCTCCGACCAGCCCGGTGAACGCCTCTCCAAGGCCCTTTTCAAAGGGATGTGGGGCAGCCGCGAGAAGGACATCACGGCCCAGGCCGAGGTCCTGCTGGAGAAATTCAAGCTCGACGCCAAAAGGGACGATTACGCGGCTTCCCTGTCTGGCGGCCAGCGCAAGCTCCTGGAAATGGCACGGGCCCTGATGGTCCGGCCGAAGCTCGTGATGCTGGATGAGCCAATGGCCGGTGTCAACCCGGCCCTGACCCAGTCCCTGCTGGACCACATTAAGAACCTCAAGGCAGAAGGCATGACCGTCCTGTTCGTGGAGCACGACATGAACATGGTCAGGCATATTGCCGACTGGGTTGTTGTGATGGCCGAAGGAAAAATCGTGGCAGAGGGTCCCCCGGGTGAGGTGATGAAGAACCCCGCCGTCATTGACGCCTACCTGGGCGCTCACCACGATGTCGACCTTGGCGACACCGAAGGGATCAAGGAACTGGAAGCAGTCCTGGAAGCGGACGAGGAATCGATCGTGGGTACGGAGAACGCGGGCATCATTGCTGTTGACGCAGTGGCGCCGAGCCTCCGGGGCGCGGACTTGGAGCAGCCCGACCTCAGCCCGGAAACCCTCCAGGTGCCGGATGCCGATGAACCCAACTCCCCTGAGTCCGGTTTGGCGGAGCCTGGCTACAAAGACAAGGACAAAGAATGA	MNQSAHSIDNTGKQSSVDYMTDTSPIAVGEAAPGCQKTDPIVVAENITRSFGGINAVDVEYLEIPRHKITALIGPNGAGKTTLFNLLTGFDTPNSGKWKFEGNNIQGVPSYKLARMGMVRTFQLTKVMGKLTVMENMRLGGSDQPGERLSKALFKGMWGSREKDITAQAEVLLEKFKLDAKRDDYAASLSGGQRKLLEMARALMVRPKLVMLDEPMAGVNPALTQSLLDHIKNLKAEGMTVLFVEHDMNMVRHIADWVVVMAEGKIVAEGPPGEVMKNPAVIDAYLGAHHDVDLGDTEGIKELEAVLEADEESIVGTENAGIIAVDAVAPSLRGADLEQPDLSPETLQVPDADEPNSPESGLAEPGYKDKDKE	PGPT0020780_1223	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020780-livG-K01995	NA	NA
D1-29_01341	969			hypothetical protein	TTGGACTTCGGATTCATTCTTTCCAGCGCCCTCAGTGAGCTTTTCACTCCGACGACGGCGGCATACGCTTTGGCCGCTTTGGGTCTCGCCGTTCACTTCGGCTACTCCGGCCTGCTGAACTTCGGTCAGGCCGGGTTCATGGCAGTGGGTGCGTATGGCTTTGCCATCTCCACGCTGACCTTCGGCGTGCCGTTCTTTGTGGGACTGCTAATTGCCGTGCTCTGTTCCTGCCTGTTTGCCCTGCTGCTGGGTATCCCCACCCTTCGCCTCAGGGCCGACTACCTGGCCATCGTCACCATCGCCGCCGCCGAAATTGTGCGGTACGTCGTCACCACCAACCAGCTGGATGCAGTCACGGGGTCAGCGGATGGCCTGGGCGCCTTCGAAGGCGGATTCTATGACATGAACCCTTTCCCTGAGGGCTCATATCTGGGCATGAATAACCGGGACTTCTTCATTCGGATCGTGGCATGGGCCTTGGTGATCCTTTGTTGCGTTGTCATCTGGCTGCTGATGCGCAGCCCCTGGGGGCGGGTGCTTAAGGGCATCCGTGAAGACGAGAATGCTGTCCGCGCCCTGGGGAAGAACGTCTACGCCTACAAAATGCAGGCACTGGTGATCGGCGGTGTGCTCGGTGCCCTGGCCGGCATGGTGTTCACACTTCCCCGCGGCGCCGTGCAGCCGGCCAACTATGGCACCGAACTGACCTTTTTCCTCTGGACGTGCCTCCTCCTCGGTGGCATGGCCACTGTGCTGGGACCCGTAGCCGGTGCGATGATTTTCTGGGTGGTGCTTTCGCTTACGCAGGGCATCCTCTACGGCCTGATCGAGTCCGGCGCAGTGACCTGGCTGACGACAGTCCAGGCAGGCCAGCTGCGCTACATACTGGTAGGGGTGGCGCTGATGCTGCTGATGATCTTCAGGCCGCAAGGCGTCTTCGGCAATAAGAAGGAGCTGGCGTTCGCATGA	MDFGFILSSALSELFTPTTAAYALAALGLAVHFGYSGLLNFGQAGFMAVGAYGFAISTLTFGVPFFVGLLIAVLCSCLFALLLGIPTLRLRADYLAIVTIAAAEIVRYVVTTNQLDAVTGSADGLGAFEGGFYDMNPFPEGSYLGMNNRDFFIRIVAWALVILCCVVIWLLMRSPWGRVLKGIREDENAVRALGKNVYAYKMQALVIGGVLGALAGMVFTLPRGAVQPANYGTELTFFLWTCLLLGGMATVLGPVAGAMIFWVVLSLTQGILYGLIESGAVTWLTTVQAGQLRYILVGVALMLLMIFRPQGVFGNKKELAFA	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
D1-29_01342	1341			hypothetical protein	TTGAGAAGTACATCCAAAGGCCGGCCGCCGAAGCGGCGCGGCGGAATGCTGAAGATGCTGGGGGCTGTCTCAGCCTCAGTGTTGGCAATCCTGCTCGTCGTTGCTCCGGCATCGCTGGCCACTTCCCCGTCACCGACACCATCCCCGTCACCTACGGTGTTCCAAAACAGCATCAGCGGCTTCCTCCGGGATGACGAGCGCAAACCCATCGCAGATGTCACGATTACCGCCAAAAGCGGCGATTTCACTGGAACAGCAAAGTCCGCCGCCAACGGCGCCTGGACTATTGGCGTACCTACTCAGGGAACCTACGAAGTGGAGCTGGACGAGTCCACGCTTCCGGAGGGCATCAAGCTGGCTGAAGGCCAGGAAAATCCCCGCAACGTAACGTTCAGCCAGACCTCCAATCTTTCGGTCATCTTCGCCTTTGGTGAAGGAATCGTGGTCCAGGAGCAAAACTTCGCCCAGAACCTGCTCAACCGTTTGGTTGCCGGCCTGAGCTTCGGGCTCCTGTTGGCCCTGGCCTCGGTAGGACTCTCACTGATTTTTGGCACTACTGGCCTCACTAACTTTGCCCACGGTGAAATGGTGACCCTGGGCGCCGTCGTGATGTTTGGCCTCAGCGCCATGAACCTGCCCTTCTGGCTCGCGGGAATCCTGGCACTGCTGCTCGGCGGGCTGTTCGGCTACGTTCAGGACGCCGGCCTCTGGAGGCCGCTCCGCAGCCGCGGAACAGGCCTTGTCCCCATGATGATCGTGAGCATCGGCCTTGCCTTGGCCGTCCGTTATGTCATCCAGTTCAACTTTGGCGGCGCCACCCAACAGCTGCCCTTTGCCCAGTCCCCCGAGATCCAGCTGGGCGCGGTGTCCATCTCGCCCAATAACCTGTGGTCCCTCATCATCAGCGCCGTTGTCATAATCCTGATAGGCATCGTCCTGCTCAAAACGCGTTTGGGAAAGGCCACCCGTGCGGTGGCGGACAACCCGGCATTGGCGGCCGCTTCAGGCATTGACGTCGATTCCGTCATCCGCATCGTCTGGGTCGCCGGTGGAATGCTGGCTGCGCTGGGCGGTATCCTCTGGGCCTACTACCGTCCCGGCGTCACTTTCGACATGGGCTCGCAGATCCTGCTTCTCATTTTCGCCGGAGTCACCCTGGGCGGTCTGGGAACCGTCTTCGGTGCCTTGGTGGGATCCATCATCGTCGGAATCTTCGTCGAACTAACCACGGTCTTCGGACTGGCTGCCGACCTGAAATACGTGGGCGCCCTCTTCATCATGATCATCGTCCTCTTGTTCCGTCCGCAGGGTATCCTCGGCCGGCGCGAGCGTGTGGGTTAG	MRSTSKGRPPKRRGGMLKMLGAVSASVLAILLVVAPASLATSPSPTPSPSPTVFQNSISGFLRDDERKPIADVTITAKSGDFTGTAKSAANGAWTIGVPTQGTYEVELDESTLPEGIKLAEGQENPRNVTFSQTSNLSVIFAFGEGIVVQEQNFAQNLLNRLVAGLSFGLLLALASVGLSLIFGTTGLTNFAHGEMVTLGAVVMFGLSAMNLPFWLAGILALLLGGLFGYVQDAGLWRPLRSRGTGLVPMMIVSIGLALAVRYVIQFNFGGATQQLPFAQSPEIQLGAVSISPNNLWSLIISAVVIILIGIVLLKTRLGKATRAVADNPALAAASGIDVDSVIRIVWVAGGMLAALGGILWAYYRPGVTFDMGSQILLLIFAGVTLGGLGTVFGALVGSIIVGIFVELTTVFGLAADLKYVGALFIMIIVLLFRPQGILGRRERVG	PGPT0020770_404	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
D1-29_01343	945			hypothetical protein	ATGGCACTTGGCGGAAACCCGATCTTCAACGGAAAGAATTTCCGTGGAGCCACCCAGGCACCGCCTGTCCCGCAGGCGCCTTTCGGCCAGGCTCCTTACGGCCAGCACCCTTATGGCCAGCAGCCCTATGGCCAGTACGGCCAGCAGGCTCCCGGCATGACCGCCGGTCCGCAGGGTGGCTGGGGGTCCCAGCCACAGAACATGACCAATGAGCAGCTGCAGCAGATGTACAACCAGCCGGCCGCCGGTCCGGCTGACATCGGCCGGATGACCTATGACGACGTCATCGTCAAGACGGCAGCGTGCCTGGCCGTTGTGGTGGCCGGTGCCGCCGTCACGCTTTTCGTTGGCTTGAGCCTGGCCTACATGCTGATGATTGTTGGCGCCCTGGGCGGCTTTGTACTTGCCCTGGTCAACACCTTCAAAAAGCAGCCGTCTCCCGCGCTGATCCTGGCGTACGCAGGCCTGGAGGGTCTGTTCCTTGGTGGCCTGACCCGCATCCTGGACGGCATGTTCCCGGGCGTCGGCCTGCAGGCCGTCATTGGCACGCTGTCCGTCTTTGCCGTCACCCTGGTGCTGTTCAAGAGCGGCAAGGTCCGGGCAACACCCAAGGCCATGCGCTTCTTCATGATCGCGCTCATCGGCTACGCCGTGTTCGCGCTGATCAATATGGCGCTGGTGTGGACGGGCACAGTTCAGGAGCCATTCGGCCTGCGGACCAGCTTCGAAATCTTTGGCATCCCGCTGGGAGTCTTCATTGGTGTGCTGGCGATCGGCCTGGCCGCTTTCGCCCTCATCATGGACTTCACCAGCATTGAGGCCGGAGTACGCAGCGGCGCCCCGCAGCGCTTCTCGTGGACTGCGGCATTTGGCCTGACGGTAACCCTGGTCTGGCTCTACGTAGAGATCATCCGCCTGCTGGCCATCCTGCGCGGCGACGAATAA	MALGGNPIFNGKNFRGATQAPPVPQAPFGQAPYGQHPYGQQPYGQYGQQAPGMTAGPQGGWGSQPQNMTNEQLQQMYNQPAAGPADIGRMTYDDVIVKTAACLAVVVAGAAVTLFVGLSLAYMLMIVGALGGFVLALVNTFKKQPSPALILAYAGLEGLFLGGLTRILDGMFPGVGLQAVIGTLSVFAVTLVLFKSGKVRATPKAMRFFMIALIGYAVFALINMALVWTGTVQEPFGLRTSFEIFGIPLGVFIGVLAIGLAAFALIMDFTSIEAGVRSGAPQRFSWTAAFGLTVTLVWLYVEIIRLLAILRGDE				NA	NA	NA	NA	NA
D1-29_01344	1191	galK	COG0153	Galactokinase	GTGAGCACCGCCCCAGACCCGCTGACCACCCCAGCGGCTCCGCCCAGCACGGCCGAACTCACCCGCCGGTTTGAACGTGAATTCGGCAGGCTTCCCGACGGCGTCTGGCAGGCACCGGGGCGGGTGAACCTGATCGGCGAGCACACCGACTACAACGAGGGCTTTGTGCTCCCGTTCGCCATCGACAAGACGGCCCGTGTTGCCGTTGGTATCCGTGCCGATTCCACTGTTCGGCTGCTCTCCACCTACGGTGACCAGGGCATGTTCACCACTGACGTGCAAGCCCTGGACTCCTCGGCGGCCAAGGGCTGGACCAAGTATCCGCTCGGGGTGATGTGGGCGCTGCAACAGCGTGGAATAGCGGTACCCGGCTTGGACCTGCTCCTTGATTCGAATGTTCCGCTGGGCGCCGGATTGTCCTCTTCGCATGCGATCGAGTGCGCCGTCGTGTCCGCCCTGAATGAACTGACAGGATCCGGCCTGGCCGCGGAAGAGATGGTTCTGGCCACCCAGCAGGCGGAAAACGACTTTGTGGGCGCCCCCACCGGCATCATGGACCAGTCAGCCTCGCTGCGCGGATCAAAGGACCACGCAGTTTTCCTCGACTGCCGGGACCAGAGCGTGCGCCTGGTGCCGTTTGAGACGGAGCCCGCAGGACTTGTGATGCTGGTGATCGACACGAAGGTGTCCCATTCCCACGCCGACGGCGGCTACGCATCCCGCCGTGCTTCCTGTGAACTTGGCGCGGAGGTCCTCGGCGTCAAGGCCCTCCGCGATGTACAGGTGGCCGACCTCGAAGAAGCCAGCGGCCTCCTGGACGAGCTGACCTTCCGCCGCGTCCGCCACGTGGTCACCGAAAACGACCGGGTACTCCAGACTGTGGACCTGCTGGCCAGTGAAGGCCCAGCCTCCATCGGTGCGCTGCTGGATGCCAGCCACGTATCCATGCGGGACGACTTCGAGATCTCCTGCCCGGAACTGGACCTCGCCGTTGACACCTCCCGTACGCATGGCGCCATCGGCGCCCGGATGACCGGCGGCGGCTTCGGCGGGGCGGCCATCGCCCTCACGCCGGTGGGCTCTGAGCAGCAGGTGCGCAACGCCGTCGAACGGGCTTTCTCCGATGCCGGTTTCACAGCCCCGGATATCTTCACCGTGACGCCGGCCGCGGGGGCCATGCGCATTTCTTAG	MSTAPDPLTTPAAPPSTAELTRRFEREFGRLPDGVWQAPGRVNLIGEHTDYNEGFVLPFAIDKTARVAVGIRADSTVRLLSTYGDQGMFTTDVQALDSSAAKGWTKYPLGVMWALQQRGIAVPGLDLLLDSNVPLGAGLSSSHAIECAVVSALNELTGSGLAAEEMVLATQQAENDFVGAPTGIMDQSASLRGSKDHAVFLDCRDQSVRLVPFETEPAGLVMLVIDTKVSHSHADGGYASRRASCELGAEVLGVKALRDVQVADLEEASGLLDELTFRRVRHVVTENDRVLQTVDLLASEGPASIGALLDASHVSMRDDFEISCPELDLAVDTSRTHGAIGARMTGGGFGGAAIALTPVGSEQQVRNAVERAFSDAGFTAPDIFTVTPAAGAMRIS	PGPT0017840_1667	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
D1-29_01345	1206			hypothetical protein	ATGACAGGTATTACCAGCACCACGCTTGCCGACGGCCGGGAGCTGATCTATTTCGACGACGCGGCTACCCCCCAATACCGCACGGCTGAAACCACCACCGATCACCGTGACCTGCCCGCACGCGGCGAGCCCGGCGAGGTCCGATTTGATGCGCTGACAGGAGAATGGGTTGCGGTGGCTGCCCACCGGCAGACGCGGACCCACCTGCCTCCGGCAGACCAGTGCCCCATCTGCCCCACCACTCAGAACAACCCCTCGGAGATTCCTGCGCCGGACTACGACGTTGTGGTGTTTGAGAACAGATTCCCATCCCTCGGGCCCGCGCTGGGCCCGGTGCCGGCCGACCCGGCATGGGGAACCACAGGGCCCGCCTATGGGCGGTGTGAGGTTGTGTCCTTCACCCCCGAGCACACAGGATCCTTCAGCGGCCTGACGGAGGCCCGGGCCCGGACGGTAGTGGAGGCCTGGGCCCACCGCACGGAAGCCTTGAGCGCACTGTCCGGCATTAAGCAGGTTTTTCCGTTCGAGAACCGTGGAGCTGACATTGGGGTGACCCTCCACCACCCCCATGGACAGATCTACGCGTACCCCTACGTCACCCCGCGCGCGGGGGTCCTGGGCGCGGCCGCACGTAAATTCTATGATCAGGCGGATGGGCAAAAGACGCTCACCGGCTCTCTGTTGGGCGCCGAACGGGAGGACGGAAGACGGATGGTGATGGAAAGCGAGAACTTCAGCGCCTACGTGCCGTTCGCCGCGCGCTGGCCACTGGAAATCCACCTCGTCCCCCACCGCCAGGTCCCGGACCTCGCCGCCCTCAGCGGCGAGGAAAAGGACGAACTGGCCCACGTCTACCTGGACTTGCTCAAGCGACTCGACGCTCTCTATCCCACACCCACGCCATACATTTCGGCGTGGCACCAGGCCCCTCTTGACGATGTCCTGCGGCCGGCAAGCTATCTGCACCTGCAACTGACCTCGCCGCGCCGGGCTGCGGACAAACTCAAGTTCCTTGCCGGCTCCGAGGCGGCCATGGGCGCCTTCATCAACGACACCACCCCGGAAAGTGTGGCGGAGCGGCTCCGCGCCGTTAAGGTGCCCGCTTCCACACCCTTCCCTGCCGAAGCCACCCCTAGCAACCCCTCCCCTACAATCCCCTCCCCTGCCCCCAGCCTGGCAGCCGCAACCAAAGGAGCCTCCGCGTGA	MTGITSTTLADGRELIYFDDAATPQYRTAETTTDHRDLPARGEPGEVRFDALTGEWVAVAAHRQTRTHLPPADQCPICPTTQNNPSEIPAPDYDVVVFENRFPSLGPALGPVPADPAWGTTGPAYGRCEVVSFTPEHTGSFSGLTEARARTVVEAWAHRTEALSALSGIKQVFPFENRGADIGVTLHHPHGQIYAYPYVTPRAGVLGAAARKFYDQADGQKTLTGSLLGAEREDGRRMVMESENFSAYVPFAARWPLEIHLVPHRQVPDLAALSGEEKDELAHVYLDLLKRLDALYPTPTPYISAWHQAPLDDVLRPASYLHLQLTSPRRAADKLKFLAGSEAAMGAFINDTTPESVAERLRAVKVPASTPFPAEATPSNPSPTIPSPAPSLAAATKGASA	PGPT0017835_857	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0017835-galT-K00965	NA	NA
D1-29_01346	885	srlR_2	COG1349	Glucitol operon repressor	ATGCTGGCAGCACAACGGCAGCACCTCATTCTCCAGGAGCTTGAGGCGGCCGGCACCGTTCGGGTGGGCGCCCTGGCGGAACTCCTGGACGTTTCCGAAATGACCGTCCGCCGGGACATTGATGCCCTGGATGCCGGCGGACTCCTGCTTCGGGTCCATGGAGGTGCCGCACGCACGGATAGTTTCAGTGCCCTGGAACCAGCCTTTGCCAGCAAGTCGACCCGGGAACTGGCCGCCAAGGCAGCCATTGCAGCGGAGGCAGTTCGCCTCATCGAACCCGGTATGACGTTGTTGATTTCTGGCGGCACCACTACTTTCGAACTGGCCAGGATCCTGCCGGGGAACATGGGACTGACTGTCGCCACCAATTCCCTGATGGTGGCCAGCTCGCTGGCTTCAGGCGCGGAAGAGGACGGAAGCGATATCCGGACCCTGATCCTGGGCGGTGAACGCACCCCCTCGGAAGCCCTGGTTGGCCCCCTGGCTGCCCAGGCTGTCCGGACGCTGGAAGCAGACCTGTGTTTTATGGGAGTACACGGCATGGACCCCCAGGCCGGCATTACGTCCCCCAATCTGCTCGAGGCAGAGCTCAACGCAGCCATGATCTCAGCTTCGAGGAAGCTCATCGTGTTGGCCGATGCCACCAAATATGGGCTGGTTGGCCTTGCCGGCGTTTCCCCTTTGTCCGCCATCCACACCCTCATTACCGACGTCCGCATCAGTGAGGCGGCCGGGGACGCCCTCGCCGCCCTCCACCAAGCAGTGGCGGACATCCGGATCGCTGGGCTCGAGCCAGGCCCGGACAGGCAAGGAGACGACGCACTCATTCCACCCCTTGGGGCCGAACACCTTTCCCCAACCGCATCCAAAGGACAAAAGCCATGA	MLAAQRQHLILQELEAAGTVRVGALAELLDVSEMTVRRDIDALDAGGLLLRVHGGAARTDSFSALEPAFASKSTRELAAKAAIAAEAVRLIEPGMTLLISGGTTTFELARILPGNMGLTVATNSLMVASSLASGAEEDGSDIRTLILGGERTPSEALVGPLAAQAVRTLEADLCFMGVHGMDPQAGITSPNLLEAELNAAMISASRKLIVLADATKYGLVGLAGVSPLSAIHTLITDVRISEAAGDALAALHQAVADIRIAGLEPGPDRQGDDALIPPLGAEHLSPTASKGQKP	PGPT0017590_192	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
D1-29_01347	960	yihR_1	COG2017	putative protein YihR	ATGATTCCCAGTTCAATCGAGGACGCCGGTTCTTCTGACGGATACCGGTCCTATGCCACGGGGCGGCAGTACGAGCTCCGGCGGGGAAGCGCCGTTGCCACTGTCACCGAGCTCGCCGCCGGCCTGCGCCTCTATAGCCGCGCAGGGGTGCTGCTCACCGAGACGTACGGAAATGCCGATATCCCGCCAGGGGCTGCGGGTATCACCCTTGCCCCGTGGGCTAACAGGGTGGAGGGCGGGGTTTGGTATCTCGACGGGGAAAAACAGCAGCTGGACATTACCGAGGTAAAGCGGAACAACGCCAGCCACGGGCTGCTGCGCAACGCCTCCTATGCGCTGGTTGATGAGTCGCAGTTCTCGGTGACGCTGGAGGCGACGATTTTCCCCCAGCATGGATATCCCTTCCTGCTGCGCCACCAGGTTCAGTACGCTCTTGCGGAGGACCTGGGCCTGGTGGTCAGGCAAACGCTCATCAACAGCTCCAAAGCGCCCGCTCCCTTTGTCCTTGGGGCGCATCCCTATCTGCGACTGGGAGACACCGACCCCGGTAACCTGCTGTTGACGGTTGGGGCCAGTACCCAGCTGGTAGCGGACGAGCGGCTGATCCCGCGCTCCTCGGAGCCAGTCAGCGGAGACACGGACCTGCGCCAGGGCCGTTCCGTGGGGGCGTTGGATATCGACGTCGCCCTGACGGACCTGGCGTTCGACGGCGGCGTGTCCCGCCACACGCTCAGCTCGCCGGACGGACGCAGCGTCTCGCTGTGGCAGGACGAAGCGTGCACATATGTCCATGTTTTTGTCACGGACCAATATCCGGGCCGGACGCGAGCGGTGGCCATTGAGCCCATGACCGGACCGGCCAACGCCTTCAACTCCGGTGACGGACTCAGGTGGCTGCCGCCGGGGGACAGCTTCACCATCTCCTGGGGCATCGATGCCACGCTGGGCGATGCGGGGTAG	MIPSSIEDAGSSDGYRSYATGRQYELRRGSAVATVTELAAGLRLYSRAGVLLTETYGNADIPPGAAGITLAPWANRVEGGVWYLDGEKQQLDITEVKRNNASHGLLRNASYALVDESQFSVTLEATIFPQHGYPFLLRHQVQYALAEDLGLVVRQTLINSSKAPAPFVLGAHPYLRLGDTDPGNLLLTVGASTQLVADERLIPRSSEPVSGDTDLRQGRSVGALDIDVALTDLAFDGGVSRHTLSSPDGRSVSLWQDEACTYVHVFVTDQYPGRTRAVAIEPMTGPANAFNSGDGLRWLPPGDSFTISWGIDATLGDAG	PGPT0017825_4348	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
D1-29_01348	1359			hypothetical protein	ATGACGCCAGCCGAGGACGCCACTCCAACCAGCACGTCCGCCGTCGCTCCGCAGGGCAGGAGTGCGCTCAGGACAGAACAGGCCCCGCCAGTGCGGGTCCTGGCAGACCGGGAACTTGACCGGGACATCCCCTACGGGGTCCGTATTGCGGCAGCCTGGGCGTGGAGGCTTGGACTGATTCTTTTGGTGGGCGGAGCCCTGATCTGGCTGCTCAGCCGGATCAGTTTCCTGATCATCCCGGTCATGGTGGCTGCGCTGCTGGCGGGGCTGCTGAGCCCGGTGGTGGGGTGGCTGCGGAGGCGCCAACTGCCCAACGGCGCTGCCGTGGCAGTCACGGTCCTGGCGTTCCTTGGCCTTATCGTTGGATCCCTTGGCCTGGTGGGCAGGCAGCTCATCTCGGGATTCGGCGAGCTCTGGTCCGAAGCGCTGGCGGGCGTCAGGCAAATACAGGACTGGCTGGCCGAGGGCCCGCTGCACCTGACGGCGGACCAGATCGACCAATACCTCAGGGAAGCCACTGACGCACTCCAGGACAACAGCAGGAGCATCATCAGCGGCGCGTTGTCCTTTGGAAGCACCGCCGGGCATTTCGCCGCGGGCCTTGTTCTGGCGCTTTTCATCCTGATCTTCTTCCTGCTCGAAGGTGACAGGATCTGGGCCTTCCTGGTCCGGCTGCTCCCGAAGAAAGCGCGAGCCGCGACGTTCGGTGCCGGGCGCCGCGGATGGACTTCCATGGTCAACTACGCGCGGATCCAGATGTTCGTTGCCTTCGTGGACGCTGTGGGCATCGGCGTGGGCGCTGCCATCATCGGGGTGCCCCTTGCGCTGCCCCTGAGTGTGCTGGTGTTTATCGGATCATTCATCCCCGTAGTGGGTGCCCTGGTAACGGGTGCCATCGCCGTGCTGCTGGCCTTGGTGGCCAACGGGCCGGTCAACGCCCTCATCATGCTTGCGATCGTCCTGCTGGTACAGCAACTGGAGAGCCACATCCTTCAGCCCCTGGTGATGGGGAAGGCCGTGGCCCTGCATCCGGTGGCTGTCATCCTGTCCGTGGCAGCAGGGTCCTACCTGGCCGGAATCCCTGGTGCCCTTTTCTCGGTGCCCATTCTTGCTGTCGCAAACTCGGCGATTCGCTACATAGCCGGCAGAACGTGGGAACATGAACAAGTGCTGGCAACACCCGGAGGGGTGATGACAGTTGGCGCGGGGCATGACGACACCTTCAAGGACATCACCCTGCCACGCGTCAGGTCCAGGCGCGGCAAGGACGCCGCTGCCAGCACAGAAACACCCAATCCGCCTGCCCCGGCCGTACCAACAGGCCCTGGCACCGGAGCCGAAGCAGCCAAAGGAGAATAG	MTPAEDATPTSTSAVAPQGRSALRTEQAPPVRVLADRELDRDIPYGVRIAAAWAWRLGLILLVGGALIWLLSRISFLIIPVMVAALLAGLLSPVVGWLRRRQLPNGAAVAVTVLAFLGLIVGSLGLVGRQLISGFGELWSEALAGVRQIQDWLAEGPLHLTADQIDQYLREATDALQDNSRSIISGALSFGSTAGHFAAGLVLALFILIFFLLEGDRIWAFLVRLLPKKARAATFGAGRRGWTSMVNYARIQMFVAFVDAVGIGVGAAIIGVPLALPLSVLVFIGSFIPVVGALVTGAIAVLLALVANGPVNALIMLAIVLLVQQLESHILQPLVMGKAVALHPVAVILSVAAGSYLAGIPGALFSVPILAVANSAIRYIAGRTWEHEQVLATPGGVMTVGAGHDDTFKDITLPRVRSRRGKDAAASTETPNPPAPAVPTGPGTGAEAAKGE				NA	NA	NA	NA	NA
D1-29_01349	1239	tdcB_2	COG1171	L-threonine ammonia-lyase	GTGAACATCCTTGATACCCTTCCCGTCACGCTGGACGATGTCCTGGAGGCGCAGAAGCTGCTCGAGGGGATTATTACGCGGACACCGGTGGAATCGTCCCGGGCCCTGGGCGGCATGGTGGGCGGAGACGTCTATTTCAAATGCGAAAACCTGCAACGGGCGGGCTCGTTCAAGGTCCGTGGAGCCTACGTGCGCATGGCCCGGCTCTCAGCGGAGGAAAAGAAGCGCGGAGTGGTTGCTGCGTCCGCAGGAAACCATGCCCAGGGCGTGGCCGTTGCTGCCAAAAGCCTTGGCATCAAGGCGCGTATCTACATGCCGATGGGTGTGGCGCTCCCCAAGCTGGCGGCCACCCGCAGCCATGGCGCCGAGGTGATCCTGCACGGGCACAACGTTGATGAGGCGCTCGCCGAGGCACAGCGCTACGCCAACGAGTCCGGAACAGTCTTTGTCCACCCCTTCGACAACGTGGACGTGGTATCAGGCCAAGGCACAGTCGGACTGGAGATCCTGGAACAGATCCCGGACGTGGACACCATTCTGATGGGCGTCGGCGGCGGCGGGCTCCTCGCCGGAGTCGCTGTCGCCGTCAAGGCGCGGGCCAAAGAACTGGGCCGGGAAATCCGTATCATCGGTGTCCAGGCAGAGAATGCCGCCGCGTATCCGCCGTCTCTTGCTGCAGATGCCCTGGTTCCGCTGAAGCGGGTGTCAACCATGGCGGACGGTATCGCCGTCGGACGTCCCGGGCAGTTGCCATTCAGCATCATCCGGGAACTGGTGGACGATGTGGTGACAGTCAGCGAGGATTCCCTCGCGCGGGCGCTGATTTTCCTGCTGGAACGGGCCAAACTGGTGGTTGAACCGGCTGGTGCCGTGGGAGTTGCTGCCCTGTTGGACGGCAAAATCGAAAATCCCGGCACAACGGCTGTCATTCTTTCCGGCGGGAACATTGATCCCATGCTGATGCTCAAAGTCATCCAGCGGGGCCTCTCAGCTGCGGGACGTTACATGACAGTGCGGATGATGCTCGATGACCGGCCGGGCTCGCTGGCCACGATCGCACGCATCATCGCGGAGAACGATGCCAACGTTACTGGCCTGGACCACACCCGGGTGGGGGGCTCCATCAGCATGGGAGACGTTTCCATCACCGTGAACCTCGAAACCAAGGGCCACGAGCACTGCGAACAGGTGCTCAGTGCCCTCCGCGCAGAGGGCTTTCAGCCCATAGTGGTGCACTAG	MNILDTLPVTLDDVLEAQKLLEGIITRTPVESSRALGGMVGGDVYFKCENLQRAGSFKVRGAYVRMARLSAEEKKRGVVAASAGNHAQGVAVAAKSLGIKARIYMPMGVALPKLAATRSHGAEVILHGHNVDEALAEAQRYANESGTVFVHPFDNVDVVSGQGTVGLEILEQIPDVDTILMGVGGGGLLAGVAVAVKARAKELGREIRIIGVQAENAAAYPPSLAADALVPLKRVSTMADGIAVGRPGQLPFSIIRELVDDVVTVSEDSLARALIFLLERAKLVVEPAGAVGVAALLDGKIENPGTTAVILSGGNIDPMLMLKVIQRGLSAAGRYMTVRMMLDDRPGSLATIARIIAENDANVTGLDHTRVGGSISMGDVSITVNLETKGHEHCEQVLSALRAEGFQPIVVH	PGPT0001960_3637	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
D1-29_01350	618			hypothetical protein	ATGTTCGGCGCTGCTGGAGACGGAGTTCCCAGGAACCGTGAGACCACTGCCTCCCGGGCCAAAGGCGGTCTGCTGGTGGTGGGCAGCTTCGCCCTGATCCTGATGGTGATTGAAGTGATCAACATGCTCACTTTACATGCGCTGAACAGGACCTTCGGGCTTCGGCCGCGGAGCCTGGACGGCCTGCTGGATATTTTCACTTTTCCATTGCTCCATGCCAGCTTGAACCACCTGCTTTCCAATACGCTGCCGCTGATCATTTTCGGCTTCCTGGTGTTCCTGTCCGGACTGCGTGTGTTCCTGACAGCGCTGGCATTCAGCTGGCTGGGGTCCGGCATAACGGTGTGGCTGATCGGTGACGGTGGCATTACGGTGGGATCCTCCGGCCTTGTGTTCGGGCTGTTCGCCTTTCTTCTGGTGCGCGGTTTCTTCAACCGCAGCTGGGGGCAGATCCTGCTTTCGATCGTGCTGTTTATGGCCTACGGCAGCATCCTGCTGGGCGCGCTTCCCATCGTGGCCGGGTACATTTCCTGGCAGGCACACCTGGGTGGCGCGGCCGGCGGCGTTATCGCCGCCATGCTGCTGCGTCCCCGCGGTTCCGGGACGCTTCAGCGATAG	MFGAAGDGVPRNRETTASRAKGGLLVVGSFALILMVIEVINMLTLHALNRTFGLRPRSLDGLLDIFTFPLLHASLNHLLSNTLPLIIFGFLVFLSGLRVFLTALAFSWLGSGITVWLIGDGGITVGSSGLVFGLFAFLLVRGFFNRSWGQILLSIVLFMAYGSILLGALPIVAGYISWQAHLGGAAGGVIAAMLLRPRGSGTLQR				NA	NA	NA	NA	NA
D1-29_01351	495	greA	COG0782	Transcription elongation factor GreA	GTGTCTACCACCAACAGCGCGCCTGCAGCCTGGCTTACCCAGGAAGCTTTTGACCGCCTGAAGGCAGAGCTGGACCACCTTTCCGGCGCAGGCCGGGCGGAGATTGTCCAGAAGATTGAAGCAGCCCGCCAAGAGGGCGACCTCAAGGAAAACGGCGGATACCACGCTGCCAAGGAGGAGCAGGGCAAGATTGAAGCCCGTATCCGCCAGCTGACAGCACTCCTGCGCGATGCCCATGTGGGGGCAGCCCCCGCCGACGACGGGATCGTGGAACCGGGAATGATTGTTGTGGCAAAAATCGCCGGGGACGAAGAGACGTTCCTGCTCGGATCCCGTGAAATCGCCGGTGATTCAGACCTCGACGTGTTCAGCGAAAAATCGCCACTCGGTGCCGCCATTGTGGGCCACAAAGAGGGCGAGAAACTGAGCTACACGGCACCGAACGGTAAGGACATCACGGTGGAGATCCTCTCTGCCAAGCCCTACGCCGCCTAG	MSTTNSAPAAWLTQEAFDRLKAELDHLSGAGRAEIVQKIEAARQEGDLKENGGYHAAKEEQGKIEARIRQLTALLRDAHVGAAPADDGIVEPGMIVVAKIAGDEETFLLGSREIAGDSDLDVFSEKSPLGAAIVGHKEGEKLSYTAPNGKDITVEILSAKPYAA	PGPT0030495_612	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
D1-29_01352	327			hypothetical protein	ATGGCGTGGGTTTCGACGTCCTCCGCCACGTCGGGAGTGACCTTCAAGGACATTGGCTTCAGCGTTGCCGATGCCACCCAGGCAGAAGTGGATTTCCAGGTGACCCGGGAACCTGGCACAGCCGTCAAATGTGCGGTCAAGGCCCTGGACTCCAAGTTCGCGGTGGTCGGCTGGAAAGTGGTTGACATCCCGCCTGGCCAGCCGGACGGGACAGCGGACAACGGGCGGACTATTTCCCAGCGGGTGGTCCTGAAAACGGAATCCCTTTCTGTCTCCGGCGTGGTGGACAGCTGCTGGGTTCCGGAGTCCGGCAGTCCGGAAATGTGA	MAWVSTSSATSGVTFKDIGFSVADATQAEVDFQVTREPGTAVKCAVKALDSKFAVVGWKVVDIPPGQPDGTADNGRTISQRVVLKTESLSVSGVVDSCWVPESGSPEM				NA	NA	NA	NA	NA
D1-29_01353	906	mca	COG2120	Mycothiol S-conjugate amidase	ATGACAGCGTCCAGCACCACCTCGGCCCCGCTCCGGCTGCTCGCAGTCCATGCCCACCCCGACGACGAGTCAAGCAAGGGCGCGGCCACCATGGCCATGTACGCCGCCGCCGGCGTGGAAGTCATGGTGGCAACCTGTACCGACGGCTCGAGGGGGGATATCCAAAACCCGGCAGTGGACGGGGAGCCGCATCCCAAGCGGGACATGGCAGGCGCCAGGCGGCTTGAGATGGACAAAGCCGCCAAGGTCCTGGGTATTCGGCAGCAATGGCTTGGTTTTGTGGACTCCGGACTTCCCGAGGGCGATCCCCTCCCGCCCCTGCCGGCGGGATCTTTCGCCACCCAGCCCCTTCAACGCGCCGCCGCACCCCTGATACGGCTTGTCAGGCGGTTCAGGCCGCACGTCATGATCAGCTATGACGAAAATGGCGGCTATCCCCACCCTGACCACATCATGGCGCACAAGGTGGCTGTGGAAGCGTTCGAAGCGGCCGGCGACCCCAACCGCTACCAGGGAATCGGCGAGCCGTGGGAACCCAGCAAGCTTTACTACGACCGCGCCTTCAGCCCTGAGCGGTTCCGGGCCCTGCATTTTGCCCTGGAAGAGGCAGGGCTGCAGTCTCCGTATGCGGAGCGGCTGGCGGCCTGGCTGGAAACTGATGCGGAAGGCCACACGCCGCCGCCCGCCCCGCACCCCACCACAACCCAGATTGACTGCGGTGGCTACTTCGAAGCCCGCGACGACGCCCTCCGCGCACACCGCACGCAGGTGGATCCGCTGGGCTTCTTCTTCGCTGTCTCGGCTGAGATGCAGCGCCGCGCCTGGCCATGGGAGGACTACTCCCTGATCCAGTCACGGGTTCCGGCCCATTTGCCGGAAAAGGACCTCTTTGCGGGGCTAAGATAG	MTASSTTSAPLRLLAVHAHPDDESSKGAATMAMYAAAGVEVMVATCTDGSRGDIQNPAVDGEPHPKRDMAGARRLEMDKAAKVLGIRQQWLGFVDSGLPEGDPLPPLPAGSFATQPLQRAAAPLIRLVRRFRPHVMISYDENGGYPHPDHIMAHKVAVEAFEAAGDPNRYQGIGEPWEPSKLYYDRAFSPERFRALHFALEEAGLQSPYAERLAAWLETDAEGHTPPPAPHPTTTQIDCGGYFEARDDALRAHRTQVDPLGFFFAVSAEMQRRAWPWEDYSLIQSRVPAHLPEKDLFAGLR				NA	NA	NA	NA	NA
D1-29_01354	378			hypothetical protein	GTGCAACACTTGCTCGTCGCCCTGGCCACCACTCCGACGCCCCTGCCCACGCCCACACTGCGTGAGGGCATCTCCGAGGACCAGATCACTCCGGGGCTGTGGGGCTTCATCATGACCGCCTTTTTTGTGCTGGCTACGACGTTGCTGATCGTTGATATGGTGCGGCGTATCCGCCGTGTCCGGTACCGGGCACAGGTGGAGGAGGAGCGCCTGGCGGCGGCTGCCGCGGCCGACGTCGAGGCAGAGGACACCGGCTCCTACGGCCGCACGCCTGACACCTACATTCCTGACACTTCCGAACCTGACACTTCCGAACCTGCCCACTCGGAGACAGTCCTTCCGGAGCCGAACGGCGATGCGGGACGCTCACAACGCTGA	MQHLLVALATTPTPLPTPTLREGISEDQITPGLWGFIMTAFFVLATTLLIVDMVRRIRRVRYRAQVEEERLAAAAAADVEAEDTGSYGRTPDTYIPDTSEPDTSEPAHSETVLPEPNGDAGRSQR				NA	NA	NA	NA	NA
D1-29_01355	2334			hypothetical protein	ATGCGGGACGCTCACAACGCTGACGCCGGACGCGGGTCCGGCGAATCCCCAGGCGGTCGCGTCAGGCTGAACCTGCTGGAGCGGGAGCCGTCCGCCTATCTGCGCCAGCATGCTGGGAACCCCGTGCACTGGCGTCCGTTTGGCGATGAGGCCTTCGCCGAGGCTGCTGCCCGTGATGTCCCCGTCTTCCTTTCGATTGGCTACGCAGCGTGCCACTGGTGCCACGTTATGGCCCACGAATCCTTCGAGGACCCGGAGACTGCTGACTACCTGAATGAGCACTTCGTGGCGGTCAAGGTGGACCGGGAAGAGCGTCCGGACGTGGACTCGGTCTACATGGCCGCCACCCAGGCCATCAGTGGGCAAGGCGGCTGGCCCATGTCCGTCTTCCTCACCCCGGATGGCCGGGCCTTCCACGCAGGTACATACTTCCCGCCCCGTCCCATGCCTGGCCACCCCTCCTTCCGCCAGGTCCTGGAAGCTGTTTGGGAGGCATGGCAGGAACGGCGCGACGCCGTCGAGCAGAACGCGCAAATACTGGCTCAAAGCATGGGTGAGGCGCAGCTGACTGCAGCGGTGAGATTGGAAGGCTCCCCGCCGCTTCTTGATTCCCTGCTCCTGCCAGGCGCCGTGGAGTCGCTGGCACGGACTGAAGACCCGCAAGACGGCGGATTCGGCGCAGCGCCCAAATTCCCGCCGTCGGCCGTGCTGGAGTTCCTCATCCGGCATGCGGCCGTCCCACTTGATCCGGCCCCATCCGATACCGCCCACTCCGATCCCGCCCCATCCGATACCGCTGACACCGCCCGGAGCATGGCCGGCAGGACACTGGCCGCCATGGCGCGTTCGGCGCTGTTCGATCAGCTGGACGGAGGGTTTGCCAGGTACTCGGTGACCAGGGACTGGTCCGTCCCGCACTTTGAGAAGATGCTTTACGACAATGCCCAGCTGCTGCGCGTCTACGTGCACTGGATCCGGCTCGGCGGAAACGAGGATTTTCCTGCCGGCGAGGCAGCAGAAGTGGCCGCCCGCACCGCAGAGTGGATGCTGGACTCCCTGGGCCTGCCGGACGCCGGCTCGGCGGAAGGAGCAGGAGCGCCGGAAACGCGTGTCGCGGCGCTGGCGTCTTCGCTTGACGCCGATTCAGTGGTGGACGGCGAACACCATGAGGGGGCAACCTATCTCTGGACCATCACAGCGCTCCAGGACGTGCTCGGACAGGATGCGGGGGCGGCTGTGGCGCGGCTGATGAACGTGGGACCGGAAGGAACTGTCTCGGAGTTCGGCTCGCCCCTCCACCCTGCCCGGGCGTTGCACGCGGATGAGGCGAAGCTGTGGGACCAGGCCCGGCCTGCGCTGCTGGCCGCCCGCCGGCTCCGCCCCCAGCCGGCGCGCGATGAAAAAGTTGTGGCCGGCTGGAACGGGTTGGCTGTTGCCGCCTTGGCGGAAGCAGGAGCGGTGCTTGACCGAACGGACTTTGTGGCCGCGGCCGAATCCATTGCCGCGTACCTGGAGCGTGTCCACTGGCAGCCCAGCCCGCCCGCACCAACAAGCGGCCAGCAAGATCCTGCGCACGTTCCACCGCTGCTGATGCGGGTTTCGCATGCCGGGACAGCCCGCGGGATCGGCGGACTCCTTGAGGACTATGCCTTCTGTGCCGAGGGTATGTTCGCGCTGTACGCCGTCAGCGGCCAGCCCCACTGGTACCGGTTCGCCGAACAATTGGTTCAGGCTGCCTGCAGCCGTTTTGTGGTCTCCGGCCGGCTGGTGGATACCTCCGAGGGGGCGGCGCAAGTCCATTCGGCACAGGGAGGCCAGTCGGGTCTCGAGCCCTATGACGGGGCTACCCCGAGCGGCGCATCAGCCTTCGCCGGAGTCCTGCTCAGCTACGCTGCCCTCTCGGGATCTGCCGAACACCGGGCCATGGCCGGTCACATTCTGTCCCTTCTGCCGCCCCTTGCGGTCCGGGCGCCGGCCGCCGTCGGCTGGCTGCTGGCCACCGCCCAGGCGGCGCTGGCGGGACCGGTGGAGGCCGCCGTCGTCGGGCCTGACAGTCCCGAAAGGACTGCCCTGCACCGGGAACTGCTGAACTCTCCAAGTCCCGGGCTGGTGATCGCGGTGGGGGACGACGGCGGTGGGCCTGCGATGCCGTCCGGTACGCCTTCAGGTGACGTGCCAGTGCCCCTGCTCAGTGGCAGGGCCGGTGGGCCAGATGGCACACCTCTGGTCTACCTGTGCCGGAACATGGTGTGTGAGCTGCCTGTTCGCAGTGTGGCAGAGCTTCGGCGACGCCTGGCGGTGATGACGGTTCCAGGCCCGGGCGGGGCGCTGTAA	MRDAHNADAGRGSGESPGGRVRLNLLEREPSAYLRQHAGNPVHWRPFGDEAFAEAAARDVPVFLSIGYAACHWCHVMAHESFEDPETADYLNEHFVAVKVDREERPDVDSVYMAATQAISGQGGWPMSVFLTPDGRAFHAGTYFPPRPMPGHPSFRQVLEAVWEAWQERRDAVEQNAQILAQSMGEAQLTAAVRLEGSPPLLDSLLLPGAVESLARTEDPQDGGFGAAPKFPPSAVLEFLIRHAAVPLDPAPSDTAHSDPAPSDTADTARSMAGRTLAAMARSALFDQLDGGFARYSVTRDWSVPHFEKMLYDNAQLLRVYVHWIRLGGNEDFPAGEAAEVAARTAEWMLDSLGLPDAGSAEGAGAPETRVAALASSLDADSVVDGEHHEGATYLWTITALQDVLGQDAGAAVARLMNVGPEGTVSEFGSPLHPARALHADEAKLWDQARPALLAARRLRPQPARDEKVVAGWNGLAVAALAEAGAVLDRTDFVAAAESIAAYLERVHWQPSPPAPTSGQQDPAHVPPLLMRVSHAGTARGIGGLLEDYAFCAEGMFALYAVSGQPHWYRFAEQLVQAACSRFVVSGRLVDTSEGAAQVHSAQGGQSGLEPYDGATPSGASAFAGVLLSYAALSGSAEHRAMAGHILSLLPPLAVRAPAAVGWLLATAQAALAGPVEAAVVGPDSPERTALHRELLNSPSPGLVIAVGDDGGGPAMPSGTPSGDVPVPLLSGRAGGPDGTPLVYLCRNMVCELPVRSVAELRRRLAVMTVPGPGGAL				NA	NA	NA	NA	NA
D1-29_01356	663			hypothetical protein	GTGGATGATGCCGCGGTCCACCTTGCCGAACTCCTGATGATCAAGCCCAGATGGCGCGGCTGGATCCACACTGTTACCGCGCCGCTGGCGTTAATCGCAGGAGTTGTCCTGGTGGCGCTGGCCCCTACAGCAGACCGGAAAATCACGTCAGCGATCTACGCTGCCACGGGCGTCCTGCTCTTCGGGATCAGCGCGGTGTATCACCGGGGCAACTGGACTCCCGGTGTGAAGATGGTGCTGAAGCGGCTGGACCACACCAACATCATGCTGGTCATCGCCGGAAGCTACACACCACTGGCCTGGTCCTTGCTGGAACGGCCCAAAGCCATCCTGTTGCTCTGGGTCATTTGGTCAGGAGCCATCCTGGGAGTCCTGTTCCGGCTCCTGTGGACGAACGCGCCCCGGTGGCTGTACGTACCGATCTACATCGCCCTGGGCTGCGGGTCCCTCTTCTACCTTCCGGAGTTCTTTGCTGCCAGTGTCCCGGCTGCCGTCCTGATCTGCGCGGGCGGGGTCCTTTACATCGCCGGCGCCATCTTCTACGCCCTCAAGAAGCCCAACTTCAGCTACCGGCACTTCGGTTTCCACGAACTCTTCCACGCCCTCACGGTCCTTGCCTTCGGAGCGCACTTCACCGCTATCGCCATCGCGGTGCTTAGCTGA	MDDAAVHLAELLMIKPRWRGWIHTVTAPLALIAGVVLVALAPTADRKITSAIYAATGVLLFGISAVYHRGNWTPGVKMVLKRLDHTNIMLVIAGSYTPLAWSLLERPKAILLLWVIWSGAILGVLFRLLWTNAPRWLYVPIYIALGCGSLFYLPEFFAASVPAAVLICAGGVLYIAGAIFYALKKPNFSYRHFGFHELFHALTVLAFGAHFTAIAIAVLS				NA	NA	NA	NA	NA
D1-29_01357	774		COG0020	(2Z,6E)-farnesyl diphosphate synthase	GTGAGTCTCCGGGTGGAATTGCCAGGGTTCCTTTACGGCGTCTACGAGCGCAGGCTGCTCCGGGACCTCTCCGGAGGCCGCATCCCTGAACACATCGGCGTGATGGTGGACGGGAACAGGCGCTGGGCCAGGCAGTTCAATGCACCCACCAGCCAGGGCCACCAGGCGGGAGCGGACAAGATCCATGAGTTCCTGGGCTGGTGCCAGGAGCTGGGCGTCAAGGTGGTGACGCTTTACATGCTGTCCACGGACAACATGAACAGGTCCAGCGAAGAACTTGACCTCCTGATGGGGATCATCGCCAACACCCTGGACCGGCTCGACGAGGACGTGAACATCTCCGTCCATGCCATGGGCGCCCCCGAGTTGCTCCCCGACTACCTGGCCGAGCGGCTCAACAAACTCACAGCCCGCACGCCGGTGCGGGAAAAAATCCACGTCAACGTGGCAGTGGGGTACGGCGGCCGCCGCGAAATCGTCGATGCGGTCCGGGAACTGCTGCATGACGCCGTGGCCAAAGGGACCGACATCACCACCCTGGCGGACAATCTGTGCGTCGATGACATCTCCCGCTTTCTCTACACCAGGGGCCAGCCGGATCCGGACCTCGTCATCAGGACCTCGGGGGAGCAGCGGCTCTCCGGCTTCCTGATGTGGCAAAGCGCGTACAGCGAGTTCTATTTCTGCGAGGCCCTCTGGCCCGCGTTCCGCAAGGTGGATTTCCTTCGCGCGCTCCGCGACTATGCAGGCAGGCAGCGCCGCTTCGGAGCCTGA	MSLRVELPGFLYGVYERRLLRDLSGGRIPEHIGVMVDGNRRWARQFNAPTSQGHQAGADKIHEFLGWCQELGVKVVTLYMLSTDNMNRSSEELDLLMGIIANTLDRLDEDVNISVHAMGAPELLPDYLAERLNKLTARTPVREKIHVNVAVGYGGRREIVDAVRELLHDAVAKGTDITTLADNLCVDDISRFLYTRGQPDPDLVIRTSGEQRLSGFLMWQSAYSEFYFCEALWPAFRKVDFLRALRDYAGRQRRFGA	PGPT0007535_652	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007535-uppS-K12503	NA	NA
D1-29_01358	1425			hypothetical protein	GTGGCTACTTCTGAGCAACTTCCCGAGGTCGTATCCGACCAGGGAGAGAAAGCTACCTCTCGCGCCATGCGAGCTACCTCAAAGACCGGTGCGGCAACTGCTGCGGCCGGTTTTGCTGTCTCCGGAAGGGAAGCCACCATAAACAGCTTCGTCATTGACACCTCTGTCCTGCTCTCGGACCCCCGGGCCCTGCTGCGTTTCGCCGAGCATGACGTTATTGTTCCGATCGTGGTGATCAGCGAGTTGGAGGCGAAACGGCATGATCCCGAGCTCGGGTACTTTGCCCGCAAGGCGCTCCGGCTGCTAGATGACCTCAGGGTCAAACACGGCGGCCTGAACCAGCCCATTCCCATTGGCGACGACGGCGGCACGCTGGTGGTGGAGATGAACCACATTTCCGCCGAGGTGCTTCCGCTGGGCTTCCGCAGCGGGGACAACGACAGCAGGATTCTCGCCGTGGCCAAGAACATGGCCAACGAAGGACGCAACGTCACCGTGGTCTCCAAGGACCTGCCGATGCGGGTCAAGGCTTCCGCCATGGGGCTCACGGCTGACGAGTACCGCAACGAACTGGTGAAGGACTCCGGCTGGACGGGGGTGGCGGAGGTGGAAGCCAGCGAGGAAGAGGTTTCCACCCTGTACGGACACGAGCCCGTGTTCATTCCCGCGGCAGCCGAGCTGCCGGTAAACACGGGCCTGGTACTGCTCTCCAACCGGGGATCGGCTTTGGGCCGCGTTGGTGCTGACAAGCAGGTCCGGTTGGTCAAGGGCGACCGGGACGTCTTCGGGCTCCATGGCCGGTCCGCCGAGCAGCGGCTTGCGATCGACATGCTGATGGACCCCGCGGTGGGCATCGTCTCCGTGGGCGGCCGCGCCGGAACAGGCAAATCAGCCCTGGCCCTCTGTGCCGGTCTTGAAGCCGTACTGGAACGCCGGGAACACCGGAAGGTAATTGTCTTCCGTCCCCTCTACGCCGTAGGCGGCCAGGAGCTTGGCTACCTGCCGGGCTCCGAATCGGAAAAAATGAACCCCTGGGCGCAGGCCGTCTTTGACACGCTGGGCGCGCTGGTCAGCCAGGAAGTCGTGGAGGAGGTCATGGACCGCGGCATGCTGGAAGTCATGCCGCTGACCCACATCCGCGGACGTTCCCTGCACGACGCCTTTGTGATCGTGGACGAGGCCCAGTCACTGGAGAAGAACGTCCTCCTCACCGTGATGAGCCGCATCGGCCAGAACTCAAAGATCGTCCTCACCCACGACGTCGCCCAGCGTGACAACCTGCGGGTCGGACGGCACGACGGCATCGCCGCCGTCGTCGAAACCCTCAAAGGCCACCCGCTCTTTGGCCACATCACCCTGACCCGCTCCGAACGCTCACCCATCGCCGCCCTGGTGACGGAACTCCTCGAAGGCGCCGAAGTCTAG	MATSEQLPEVVSDQGEKATSRAMRATSKTGAATAAAGFAVSGREATINSFVIDTSVLLSDPRALLRFAEHDVIVPIVVISELEAKRHDPELGYFARKALRLLDDLRVKHGGLNQPIPIGDDGGTLVVEMNHISAEVLPLGFRSGDNDSRILAVAKNMANEGRNVTVVSKDLPMRVKASAMGLTADEYRNELVKDSGWTGVAEVEASEEEVSTLYGHEPVFIPAAAELPVNTGLVLLSNRGSALGRVGADKQVRLVKGDRDVFGLHGRSAEQRLAIDMLMDPAVGIVSVGGRAGTGKSALALCAGLEAVLERREHRKVIVFRPLYAVGGQELGYLPGSESEKMNPWAQAVFDTLGALVSQEVVEEVMDRGMLEVMPLTHIRGRSLHDAFVIVDEAQSLEKNVLLTVMSRIGQNSKIVLTHDVAQRDNLRVGRHDGIAAVVETLKGHPLFGHITLTRSERSPIAALVTELLEGAEV				NA	NA	NA	NA	NA
D1-29_01359	192			hypothetical protein	GTGGTTGGGTATTTTCTGCGAGAGCAGACGGTTTCCCGCGGTGTCGATCACTACGCAGTGATGATGGGCTTTGCCGGCGTCGATACCGGCCCATACGTGCGCATCGCCGACCAAAACGGAGCGAAGGTCGCCTGCGACCGTACTAAGGCGGCGGGAGGAAGCGACGTCCAGAGGGACCCCAGGCGAGCTTGA	MVGYFLREQTVSRGVDHYAVMMGFAGVDTGPYVRIADQNGAKVACDRTKAAGGSDVQRDPRRA				NA	NA	NA	NA	NA
D1-29_01360	696	gph_1		Phosphoglycolate phosphatase	ATGGCTTTCGAATTCGAAACCAAGCCGAAGTTCGCTACATTCGACATGAACGGAACGCTGATTAAGTTCGCTATCAACGATGCGATCCGTGAGGTACTGGGCGACCGGCTGCCGGCCGAGATCGCCGATGATTATCTGCGGGCCTGCAAGGCGTACCGCATCGACGAGTGCACGGGCGAGTACAAGCCGTTCCACCAGATTGTCGCCGACTCCATGGGACGCGCCTCGCGTCGGCTCGGTCTGGAGTTCCGTGCTGACGACGCACGGGCGGTTTACGAGATTGTCCCCTCTTTTGGCCCGTACCCGGGTGTCACCGAGGCGCTGAACCGCCTGGCTGAGGAAGTCCCGCTGGTCATCATCACGAACAGCGACACCGCCCATGCTGTGCGCCTCGCAGCGAACCTCCAGGCCCCATTCGAGGTCATCATCAGCGCCGAGCAGATGGGCATGTACAAGCCGCGGCTCGGTGCATTTGAGTACATGTTCGACAAGCTTGGCGTGACACCGGATGAGATCGTGCACGTTTCCGCGAGCCCGATGTACGACCACCGACCCGCGGCCATCATGGACATCAAGAACAAGGTGTATGTCGACCGCGGCTTCGAGCACGACGAGCACTGGCTCGGCTATGAGCGGATCACCGATATCGCCGACCTCCCCGTCCTCTTCGGCCTGCCACGTCCCGCTGCCTCTTAA	MAFEFETKPKFATFDMNGTLIKFAINDAIREVLGDRLPAEIADDYLRACKAYRIDECTGEYKPFHQIVADSMGRASRRLGLEFRADDARAVYEIVPSFGPYPGVTEALNRLAEEVPLVIITNSDTAHAVRLAANLQAPFEVIISAEQMGMYKPRLGAFEYMFDKLGVTPDEIVHVSASPMYDHRPAAIMDIKNKVYVDRGFEHDEHWLGYERITDIADLPVLFGLPRPAAS	PGPT0006885_1447	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
D1-29_01361	126			hypothetical protein	GTGGATTCCAGCATCCATATCTCGGGCCAGCTCCCGTTCAAGGACGGTGAGCTGCTGGGCCAGGGCGTTGTTGGCCGGGACCTGGCCTGGAGACGGCCCGGGAACTCGCTCGCCCTTGCGTGCTGA	MDSSIHISGQLPFKDGELLGQGVVGRDLAWRRPGNSLALAC				NA	NA	NA	NA	NA
D1-29_01362	174			hypothetical protein	GTGATCTCGGTCAACTTCGGAGCCCGTCGTTCCGGAGCCCCTGCCGAGGCCGCAGGCGATGTCGCCCTCGCCGCCCGCAACCGCGGCCTGGTGCCGGCTGGCGTCTTCACCTACCCGGGTCATGGCAGCGCGGGTCCGGACGCCCGCAAGCTAGGGCCCATGCGCTGTGTCTAA	MISVNFGARRSGAPAEAAGDVALAARNRGLVPAGVFTYPGHGSAGPDARKLGPMRCV				NA	NA	NA	NA	NA
D1-29_01363	648		COG1670	Putative succinyl-CoA transferase	ATGACCGAGTTGACTTCCATCTGGCCCCTTTTCAACCTCACCCTGACGACGCCCCGGCTGGTCCTCAGGCCCTTGGCGGATCAGGACTTTCCCGCGGCGGTGGCGGCGGCAAAGAGTGGAATCCACGAGCCAGGGAAAAGCCCGTTCAGCACACCATGGGCGGAGGCCCCTGCCGAGGAGCTGGGACCCAACTTGGCCAGGTGGCACTGGCGCAGCCGCGCCGAGGCAACGCCGGAATCCTGGAGCCTGATCCTGGGCATCTGGCACGACGGCGGTCTGGTCGGCTGTCAGGACGTCGGCGCCAAGGATTTCGGCACCTTGAAAACCGTCTCGACGGGCTCCTGGCTCAAAAGGTCCGTCCAGGGCCGGGGGCTCGGCAAAGAGATGCGCGCCGCCGTCGTTCTTTATGCCTTTGACTGGCTGAAGGCGGAGGTCGCCGAATCAGAAGCTGCGGTTTGGAACGCGGCCTCACTCGGTGTTTCCCGCTCGCTGGGCTATGAGCTCAATGGCGTTACCAGGACCGCCTGGGGTGAGAGGGTGGAGGACGTCCAAAAGATCCGCGTTACCCCTGAAACCTTCAACCGCCCCGACTGGACCCTCAAAGTAGAAGGCCACGATCCCGTCGCAAAATTTCTCGGGGTTCAGTAA	MTELTSIWPLFNLTLTTPRLVLRPLADQDFPAAVAAAKSGIHEPGKSPFSTPWAEAPAEELGPNLARWHWRSRAEATPESWSLILGIWHDGGLVGCQDVGAKDFGTLKTVSTGSWLKRSVQGRGLGKEMRAAVVLYAFDWLKAEVAESEAAVWNAASLGVSRSLGYELNGVTRTAWGERVEDVQKIRVTPETFNRPDWTLKVEGHDPVAKFLGVQ				NA	NA	NA	NA	NA
D1-29_01364	795			hypothetical protein	ATGGCGACGTGGGACACGAGGCATCGGCCCGATCCGGACAACAGCGCAGCGAGCGCAGACCTGATAACGACGTTCCGTAACCTTTGCCGGTCATCCCCCTGGAAGTGGCAGTCCCTGCGTTTTGAGTATTGGGACGAACCGTTCACTGACGCCCCTGAAGCCTCGGCACCGCTCGTCAGGGCGTGGCTGCGCCGGCCGGGCGCGCTCCGCCTCGAAACGGTGGACGGACGTGTCCTTCACAGCACCACCGGAATCAATGATTCCAAGGATGACTTCTATGTCAGTGCCACGCGGAAGTCTTGGCTTCTGCCTCCCCATCTGGTGGCGCCCGTTTACGACGACGCAGGTTTGGTCAGGCGGCGGCCCGAGGCCGCCTACGGCGAACCTGGCTTTGGCAATGGCCGCTTTTCGGCTGCCCTCGATCCTGTGGAGCTGGCCGGTAACGCTCCGGTCCCCCTGGAGTTCCCCGGCAACAACGCCGTGGACGTTGTGGATGTCCGCCGGATTGAGCAGGACGGCAGGCCCGCCCTTGAAGCAATTGTCACACCGACCGCGGCCTACCACCCTGCAGATCCTGCCGCTCCGCTGTGCATGCCGGGAACCAACACCGTGCGGGTAGATCTTGGGACAGGTGTCTGTGTGTCCAGCCGGTCCCTTGAACCGGCCACGCAGGGCTACGGCCACTGGCTGCGGATCATCGCCGTGGACGAGTACATGCTGGATGATCTGTTCCTGGCTGAGTCGATGAACCTCACCGACGTCCGCCGGCACATCAGCTGGGACGTTCCGGCCTGA	MATWDTRHRPDPDNSAASADLITTFRNLCRSSPWKWQSLRFEYWDEPFTDAPEASAPLVRAWLRRPGALRLETVDGRVLHSTTGINDSKDDFYVSATRKSWLLPPHLVAPVYDDAGLVRRRPEAAYGEPGFGNGRFSAALDPVELAGNAPVPLEFPGNNAVDVVDVRRIEQDGRPALEAIVTPTAAYHPADPAAPLCMPGTNTVRVDLGTGVCVSSRSLEPATQGYGHWLRIIAVDEYMLDDLFLAESMNLTDVRRHISWDVPA				NA	NA	NA	NA	NA
D1-29_01365	558			hypothetical protein	GTGATCCGACGACTGGACGAACTGTGGGCTGTGACTCCGCTGGCCTTTTGGCTGGTGCTGGCTGCCTGCGCCTACTTCGCCGTGATGGCAGCCCGGCTCACTGTTATCGATGTGAGGCACCATCTGCTTCCCAATAGGATAGTTTTCCCGTCCTATGCAGTTGCCGGTGTCCTCCTGCTGGCTGCCGCCATAGTGCATGTTGCAGGGGGCCCTGCCGCGTTCCAAGCCATCCCGGAAGGTGCAGCAGGCTTCTTGGGCGTTCCTGCCCTTCGTGTACTGGCCGGCGGAGCGGTCCTCTGGGTTTTCTACTTTCTCCTGCGCCTGGCCTATCCTCCGGGGATGGGCTTCGGCGATGTCAAACTCGCCGGGGTCCTGGGCATGTACCTGGGCTATCTGGGCTGGGCGCACGTCTTTGCCGGAACCTTCGCGGCTTTCCTCCTGGGCGGACTCTGGAGCCTCGCCCTCCTCGTCGCCCGCCGCGGCACGCTGAAGTCTTCCATTCCCTTCGGCCCGTTTATGCTCGCCGGAACCGCGGCTGCCATGCTGTTGCCGGGGTAA	MIRRLDELWAVTPLAFWLVLAACAYFAVMAARLTVIDVRHHLLPNRIVFPSYAVAGVLLLAAAIVHVAGGPAAFQAIPEGAAGFLGVPALRVLAGGAVLWVFYFLLRLAYPPGMGFGDVKLAGVLGMYLGYLGWAHVFAGTFAAFLLGGLWSLALLVARRGTLKSSIPFGPFMLAGTAAAMLLPG	PGPT0015925_2708	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
D1-29_01366	555			hypothetical protein	ATGAGGCTGACGAGACTATTGCCTGGCGTCACAGGGGCCACCCTGATGACCATGGCGTTAGGAAGCTGCGCCGGAGTGTCGGGCGCAGAACAGGGCTCTCCCCTCCCAGCAGCACCGGATTCCAGTTTCGGGAGGGAAACTGCAGGCCCGGATACGCATGCCCCCATTCCCGGTCCAAGCTGCGAAGGCGGTCCCTTCGGATGCCGCACGTTCACGTCCACGGAAGGCAGCGACGCCTCTGGAGAGCTGGAATGGCTCCAGTCCCAACCCCTCGTCGTCTCGTCCGCCTTTGTTAATGAAACCTGGACGGTGCGAGTGAAAACTCCCTGCAATCACATGAGCGTTGAAGTCTTTGTGGAAGGAAACCAACTGATCCCCGGCCAGACGATTTCCACCGCCATGGCTTGCGCGGAACCGGCGAGTGGCTTTGAGTCCTGGACGCGTGAACTTTTCGAACAGACAGTGACATGGGAACTGACGGGAGAATCATTGCTGCTGGAGAACGGGCACGGCACCGTGGTCCTGAAAGACTCCGGGTCAAGTACCAAGCTTTAG	MRLTRLLPGVTGATLMTMALGSCAGVSGAEQGSPLPAAPDSSFGRETAGPDTHAPIPGPSCEGGPFGCRTFTSTEGSDASGELEWLQSQPLVVSSAFVNETWTVRVKTPCNHMSVEVFVEGNQLIPGQTISTAMACAEPASGFESWTRELFEQTVTWELTGESLLLENGHGTVVLKDSGSSTKL				NA	NA	NA	NA	NA
D1-29_01367	684	nudC_1		NADH pyrophosphatase	ATGCCAGCTCCTGACTACATCCTCAGACTTCGCGAGAAAATCGGCAATGACCCTTTGTGGGTTCCCGGCGTCCGGGGAGTGGTGGTGGATGGCCAAGGTCGCATCCTGCTGGCCCAGCGGGTTGATAACGGCCAGTGGGCCCTCATCTCCGGAATGCTGGAACCCGGCGAGCACCCGGCCCGGGGACTGGTGCGGGAGATCTTCGAAGAAACGGCTGTGGTGGTGGAGCCCGAGCGGGTAGTTTCCGTAGGCGCCGTGGGACCCTTCACCTACCCAAACGGGGATGTCTGTGAATTCCTGGACGTGGTGTTCCGCTGCCGCTATGTGTCCGGGACTGCCCGGATCAATGACGACGAGTCTCTGGCCGTGGGGTGGTTCGGAATCGATGAGCTGCCGGAATTGATGCCAGGCCACCTGACCAGCACCACCGCGCCATCGCTCCGGTTGAAGCCGCGCACTTCGAACCCTGATGTAACGCTGAAGGGCTCGGCCCTCAGCGTCCCTTCCGCACTTCGAATTTTTGTCCAGATACGGCGACTTCGAGTGCTCCGAAGTCGCCGTATCTGGACAAAAACTCTCAAGGGTGGGAACGACGACGGCCGCCCGCCTTCACAGGGAAGGTGGGCGGCCGCCGTCGTACGCTGTGTTGTTAGGCCTTGTGCGGCGGGCGTGTCATGGACATAA	MPAPDYILRLREKIGNDPLWVPGVRGVVVDGQGRILLAQRVDNGQWALISGMLEPGEHPARGLVREIFEETAVVVEPERVVSVGAVGPFTYPNGDVCEFLDVVFRCRYVSGTARINDDESLAVGWFGIDELPELMPGHLTSTTAPSLRLKPRTSNPDVTLKGSALSVPSALRIFVQIRRLRVLRSRRIWTKTLKGGNDDGRPPSQGRWAAAVVRCVVRPCAAGVSWT				NA	NA	NA	NA	NA
D1-29_01368	1422	fumC	COG0114	Fumarate hydratase class II	ATGACTTCCACTGAAGAATTCCGCATTGAACACGACACGATGGGCGAAGTCCGCGTCCCCGTGAACGCCCTGTACCGTGCACAGACGCAGCGTGCAGTTGAAAACTTCCCCATCTCCGGCAAAACCCTGGAACGCGCCCACATCGAAGCCCTTGCCCGGGTCAAGAAGGCAGCCGCCCAGGCGAACGCAGAACTTGGAGTGCTCGACGGCGAGCTGGCCAAGGCGATTGCGGAGGCCGCCGATGAGGTAGCCACCGGCAAATACGACGGCGACTTCCCCATCGACGTTTTCCAGACCGGCTCAGGCACCTCCTCGAACATGAACACCAACGAGGTCATCGCCGAACTGGCCACCCGCGCGCTCAAGGCCGCCGGCAGTGACAAAGTTGTCCACCCGAACGATCACGTCAACGCTTCGCAGTCCTCCAACGACGTCTTCCCGACGTCCGTCCACGTGGCAGCAACCTCGGCCCTGATCAACGACCTCATCCCCGCCCTTGGCTACCTGGCCGAGTCGCTGGAACGCAAGGCCGTTGAGTTCAAGGACGTCGTCAAGTCCGGCCGTACGCACCTCATGGACGCCACCCCGGTGACCCTGGGCCAGGAGTTCGGTGGCTACGCAGCCCAGGTCCGCTACGGCATCGAGCGGATCAACGCCTCCCTCCCCCGCGTCGCTGAAGTTCCCCTCGGCGGCACCGCCGTAGGCACCGGCATCAACACCCCCGCCGGCTTCCCCGAGCGGGTCATCGAACTCCTCGCCACGGACACCGGCCTGCCGCTGACCGAGGCCCGCGACCACTTCGAGGCCCAGGCCAACCGCGATGGCCTGATCGAGGCATCCAGCCAGCTGCGCAACATCGCGATCTCCTTTATGAAGATCAACAACGACCTGCGCTGGATGGGCTCGGGCCCCAACACGGGCCTCGGCGAGATCGCCATCCCGGACCTCCAGCCGGGCTCGTCCATCATGCCGGGCAAGGTCAACCCGGTCATTTGCGAGGCCTCCATCATGGTGGCCGCACAGGTGATCGGCAACGACACCGCCATCGCCTGGTCCGGCACCAACGGCGCCTTCGAACTGAACGTCGGCATCCCCGTCATGGCCGCCAACCTGCTTGAGTCCGTGCGCCTGCTGGCCAATACCAGCCGTGTGATGGCCGACAAGATGATCGACGGCATCACCGCCAACGTTGAGCGCGCCCGCTTCCTGGCCGAAGCGTCGCCGTCCATCGTCACCCCGCTGAACAAGTACATCGGCTACGAGAACGCGGCGAAGATCGCCAAGAAGGCTGTGGCCGAGGGCCTCACCATCCGTGAGACCGTCGTCGCAATGGGCTTTTTGGAGCGCGGCGAGGTCACCGAGGAGCAGCTGGACACCGCGCTGGACGTTATGTCCATGACACGCCCGCCGCACAAGGCCTAA	MTSTEEFRIEHDTMGEVRVPVNALYRAQTQRAVENFPISGKTLERAHIEALARVKKAAAQANAELGVLDGELAKAIAEAADEVATGKYDGDFPIDVFQTGSGTSSNMNTNEVIAELATRALKAAGSDKVVHPNDHVNASQSSNDVFPTSVHVAATSALINDLIPALGYLAESLERKAVEFKDVVKSGRTHLMDATPVTLGQEFGGYAAQVRYGIERINASLPRVAEVPLGGTAVGTGINTPAGFPERVIELLATDTGLPLTEARDHFEAQANRDGLIEASSQLRNIAISFMKINNDLRWMGSGPNTGLGEIAIPDLQPGSSIMPGKVNPVICEASIMVAAQVIGNDTAIAWSGTNGAFELNVGIPVMAANLLESVRLLANTSRVMADKMIDGITANVERARFLAEASPSIVTPLNKYIGYENAAKIAKKAVAEGLTIRETVVAMGFLERGEVTEEQLDTALDVMSMTRPPHKA	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
D1-29_01369	615	cynT	COG0288	Carbonic anhydrase	GTGGCAACCTACCTGACTCCAGCCCTGGCCTGGCGGCGACTCCGCGAAGGCAACGAACGCTTCGTCAACGGCGAATCCTCCCACCCCAACCAGGACGCCTCGCGCCGGTCCTCGCTGGTGGAAAACCAGCACCCGTTTGCGGTGATTTTTGGCTGCTCTGATTCCCGGCTTGCGGCTGAAATCATCTTCGATCTTGGTCTCGGAGACGCCTTTGTGGTCCGCACCGCGGGCCAGGTGATCGATGACGCGGTACTTGGCTCCCTCGAATACAGCGTCAGCGTGCTGGGAGTGCCGCTGATCGCCATTCTTGGGCATGACAGCTGCGGCGCCGTCAGCGCAACGAAAACCGCCGTGGACACCGGCCAAATGCCGGCGGGCTTCATCCGTGACCTGGTGGAGCGCATCACACCCTCGGTTCTGACGTCGATGCGCGATGACAAGCACGAGGTCAACGACATGGTGGTTGAGCACGTCAAACAGACTTCGCAGCGGCTGGCGGACAGCTCACGTGTGATTTCCGCCGCAATCGACAGCGGGCGTACCGCCGTCATTGGCCTCTCCTACAGTCTTGCCGAGGGCCGCGCCAACGTTGTTTCCGGGATCGGCGAGCTCTAA	MATYLTPALAWRRLREGNERFVNGESSHPNQDASRRSSLVENQHPFAVIFGCSDSRLAAEIIFDLGLGDAFVVRTAGQVIDDAVLGSLEYSVSVLGVPLIAILGHDSCGAVSATKTAVDTGQMPAGFIRDLVERITPSVLTSMRDDKHEVNDMVVEHVKQTSQRLADSSRVISAAIDSGRTAVIGLSYSLAEGRANVVSGIGEL	PGPT0002415_5750	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
D1-29_01370	681			hypothetical protein	ATGCACGAAAAGACCAGCAGCGGGCCAGATCAGGCCGACGTCGGGCGCCACGAAGAGGCCGCCGGAACCGGCAACGACGCGCCCATCAGGCCCGTTATCCCGGCGGCGGCAGCCAAACGCGCCAATGCTTCGGTGATCGGCATGATCATCGCCCTCGTGGTGAGCATCGCGGCGTTCCTGCCCGTCGTCCTGATGAACCCTTCCCCCAAAAGTGATGGCTATCGGCCGAACGTCGACGTCAGCGAAGTGGCCCGTAATGCCGCGGATGTGGCGGGATTCACACCTGTTGCGCCGGAGACGGGAGGTGCCTTTACGTCGAACTACGCACGCTGGGAGTCGGGAAGCGGCAGCGGCGTCCCCACGTGGGAGGTTGGCTACCTGACGCCAAAGGAGTCTTTCATCGGGCTGGTCCAGACGCGCCAGGCAAATCCCACCTGGCTTCAACAGGAGACCAAAAGCGCACCCGTCACCGGAACACGCAGTGCCGGCGGCCAGGAGTGGGAGCTTCGCGATACGGGCAAGGGCGAGAAGAGCATGGTGTTGGACTACCGCGGCACCACCGTTGTCCTGACGGGAACAGCGCAGCTGGACGAGTTTGCCATCCTGGCTGACGCCGTCGTCAAATCCCTGGAAAGCAATCCGGCCGTCACAGTTTCACCCTCCGCCACTGCCGCCCCGTAA	MHEKTSSGPDQADVGRHEEAAGTGNDAPIRPVIPAAAAKRANASVIGMIIALVVSIAAFLPVVLMNPSPKSDGYRPNVDVSEVARNAADVAGFTPVAPETGGAFTSNYARWESGSGSGVPTWEVGYLTPKESFIGLVQTRQANPTWLQQETKSAPVTGTRSAGGQEWELRDTGKGEKSMVLDYRGTTVVLTGTAQLDEFAILADAVVKSLESNPAVTVSPSATAAP				NA	NA	NA	NA	NA
D1-29_01371	1038	glpX	COG1494	Fructose-1,6-bisphosphatase class 2	GTGTCACCAGCGTCCATGACCCAGAAATACTCCACGCTCTCCCCGTCCCTGGCTGTGGGACTCGATGAGCCGGACCGCAACCTTGCACTGGAACTCGTCCGCGTCACCGAAGCCGCGGCAATCGCCGGCGGCCACTGGGTCGGCTTCGGCGACAAAAACAAGGCCGATGGTGCAGCCGTCGACGCCATGCGCTCCTTCCTTCACACTGTCCACTTCAACGGCGTTGTGGTCATCGGCGAAGGCGAAAAAGACGAAGCCCCCATGCTGTTCAATGGCGAACACGTTGGCGACGGCACCGGTCCTGAGTGTGACGTCGCAGTGGACCCCATCGACGGCACCCGCCTGACAGCCCTGGGCATCAACAACGCCTTGGCCGTCCTGGCAGTTGCCGAGCGCGGCTCCATGTTCGACCCCTCCGCCGTGTTCTACATGGAGAAGCTCGTCACCGGCCCGGAAGCAGCCGACATGGTTGACCTGCGCCTGCCGGTCAAGCAGAACCTGCACCTCATCGCCAAGGCGAAGGGCGTGAAGGTCAACCAGCTCAACGTCATGATCCTTGACCGTGACCGCCACCGCCCGCTGGTGGAAGAAATCCGCGAAGCAGGTGCGCGCACCAAATTCATCATGGACGGCGACGTCGCCGGCGCTATTGCCGCGGTCCGTACCGGTACCGGCGTTGACGCCCTGATGGGTATTGGCGGCACCCCGGAAGGCATCGTGGCTGCGTGCGCCATCAAGTCCCTGGGCGGTGTGATCCAGGGGCGCCTGTGGCCCACCAGCGACGAAGAGAAGCAGAAGGCCATCGACGCCGGCCATGACCTTGACCGCGTGCTGTCCACCAACGACCTCGTCTCCAGTGACAACTGCTACTTCGCTGCCACCGGCATCACCGACGGCGACCTCCTCAAGGGCGTCCGGTACTCCAAGGACAAGGTCCTCACCCAGTCCATCGTGATGCGCTCCAAGTCCGGCACCATCCGCTTTGTGGACGGCGAGCACCAGGCCAGCAAGTGGGAAGGCTACGCCCGCAAGCAGTAA	MSPASMTQKYSTLSPSLAVGLDEPDRNLALELVRVTEAAAIAGGHWVGFGDKNKADGAAVDAMRSFLHTVHFNGVVVIGEGEKDEAPMLFNGEHVGDGTGPECDVAVDPIDGTRLTALGINNALAVLAVAERGSMFDPSAVFYMEKLVTGPEAADMVDLRLPVKQNLHLIAKAKGVKVNQLNVMILDRDRHRPLVEEIREAGARTKFIMDGDVAGAIAAVRTGTGVDALMGIGGTPEGIVAACAIKSLGGVIQGRLWPTSDEEKQKAIDAGHDLDRVLSTNDLVSSDNCYFAATGITDGDLLKGVRYSKDKVLTQSIVMRSKSGTIRFVDGEHQASKWEGYARKQ	PGPT0017655_203	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
D1-29_01372	957			hypothetical protein	ATGGGCCTCTCACCGCTCCCCAAAGAGCTACGCACCGGATCCTTCACATCCGCCGACGCCGCCTCCTCCGGTGTATCCCGTAAACGGCAGCGGCAGCCCGACGTCGTTATTCCCTCACGCGGCATACGCGTCCCGCTGGAGAGCGAAGCCGGCATCTCCGCCAATCTTCGGGCCTATACGGCGCTCGACGGATTGTCAGTGCTAACGCACCACTCGGGAGGACGTGTCTGGGCGCTGGGACTTCCTTCGTGGCTGGAGGAAGACTGGCGTATCCACGTGGCGCGGGACCGGAACGCCAGCAAACCCCGGCGCCGAAATGTGATTGGCCACCGCATGACCTTCAAACCAGGAGAAGTCATCATGCACGACGGCGTCCAGGTCACCTCGCCAGCGCGGACGTGGCTGGATCTGGCAAGCCTGCTGTCCGTGGATGAACTCATCGCGGCTGGAGATTCGCTGGTAAATGCCCATGGACCGGACTTTCCAAGGCCAAAGGCACCCCTCGCCGCGATCGAGGACCTGCAGCGAATGATTGCCGCACACCCTGGGATGCGGGGTATGAAGACCGCCAGGCTGGCCCTTCCCGAAATCCGCGTAGGGTCCGACTCGCCTCAGGAAACGAGAATGCGACTGGCACTGGCGCGCACATACCTCGGCGAACCACTGCTGAACCATGTAATCCGCAACAGTTGGGGCCAGCCCAATGTGTGGCCCGATGCAGCCTATCCCGCGCATCGGCTCGCGCTGCAGTACGACGGGACACATCATTCTGACCCACGCCAGGTCCGGCTGGACAACAAGCGCCGGGCCATCACCGAGCGACTCGGCTGGACCGAGATCAGGGTCTTCAAGGAGGATCTGGAGGGAGACCGGCCCTTCGTCGTCGAACTGGTGCGGGCGGCCCTGCAGGCATGGAACCGGTCCAAAGAGAGCACTCAGGCCGGCTTCCTCGCGTAA	MGLSPLPKELRTGSFTSADAASSGVSRKRQRQPDVVIPSRGIRVPLESEAGISANLRAYTALDGLSVLTHHSGGRVWALGLPSWLEEDWRIHVARDRNASKPRRRNVIGHRMTFKPGEVIMHDGVQVTSPARTWLDLASLLSVDELIAAGDSLVNAHGPDFPRPKAPLAAIEDLQRMIAAHPGMRGMKTARLALPEIRVGSDSPQETRMRLALARTYLGEPLLNHVIRNSWGQPNVWPDAAYPAHRLALQYDGTHHSDPRQVRLDNKRRAITERLGWTEIRVFKEDLEGDRPFVVELVRAALQAWNRSKESTQAGFLA				NA	NA	NA	NA	NA
D1-29_01373	987			hypothetical protein	TTGGACCACTTCCTGCAGAGTCAATCGTGGGCTGATGTCCAGGCGTCCCTGGGCCGCCGCGTCCACCAGCAGTCGGGGCCCGGGTGGCGCTTCCTGGCCGTGGAGGAAAAGAATCCGGCAGGCAAGGTGCTGTACGCACCCTACGGCCCGGTGGCCTCCTCCCCTTCAGCGTTCGACGCCGCCCTGGCCGCCCTGGTGGACGTCGCCCGGTCGTGCGGTGCTGTCTTTGTCCGGATCGAGCCTGTTTCGGCCGGGCTTGAGCCTTCCGCCGCTGAGGCGGAACTCCGCCGCCGTGGCCTGCAGCCGGCACCCGTGAACCAACAGCCCGAACTGAGCCGGGTAATTGACCTGGAGGGCGATTTCAAGGACGTCCTGGCAGGCATGAAGCCCGTCAACCGGAACCTCTACCGGAATATCCACAAAAAAGGCGTCACGTTCCGGAGCTCGCAGGACCCCGACGACATCCGGATCCTGCTGGACTTCCTTCACATGACCGCCAGGCGCAACGGGTTCAAGCCGCAAAGCGACGAGTACCTGACCCAGGTGGCCGCTTCCTTGATGCCTGCCGGCGCTGCCACCCTTTTTGTTGCGGAGCTGGAGGGGAGCCCCATAGCGGCGGCCCTCGTCTACGATTCGGCGGACACGCGCACGTACGCCCACGCAGCCCTGGACGACACACACCGGAAGCTCAGTGCTGGCATCCCGCTCCTGGTGACCCTGATCGCGGACGCAAAGGACCGGGGCCTGAAGTATGTGGACCTCTGGGGTGTTGCCCCGGCGGACCAGCCGGACCACAAATGGGCGGGCTTCACGGCGTTCAAGAAGTCCTTCGGCGGCCGTGAAGTCTCCTATCCGGGCACCTGGGACCTTCCGGTCAAGAAGCTGCGGTACCGCGCCTACCAGGCGGCCCGCCAGCTGCGGAACCTGGCAGTAGCCGGCGTCCGCTCCGCCCGCGCGCGAACTGGCAGAGCGCGAACGAACACTTAA	MDHFLQSQSWADVQASLGRRVHQQSGPGWRFLAVEEKNPAGKVLYAPYGPVASSPSAFDAALAALVDVARSCGAVFVRIEPVSAGLEPSAAEAELRRRGLQPAPVNQQPELSRVIDLEGDFKDVLAGMKPVNRNLYRNIHKKGVTFRSSQDPDDIRILLDFLHMTARRNGFKPQSDEYLTQVAASLMPAGAATLFVAELEGSPIAAALVYDSADTRTYAHAALDDTHRKLSAGIPLLVTLIADAKDRGLKYVDLWGVAPADQPDHKWAGFTAFKKSFGGREVSYPGTWDLPVKKLRYRAYQAARQLRNLAVAGVRSARARTGRARTNT				NA	NA	NA	NA	NA
D1-29_01374	1368	manA	COG1482	Mannose-6-phosphate isomerase	ATGAAGAGGCAATCCGGGAACTCGTGGCCACCAATGGCCAGTGCGCTCCCCTGTAGCCCTGAAGAAACGAAGCCGACAAGTTGCCTTAGCCCGCAGACCAACGAAATGGACACTGCTGTGTACGAAATTGAGAACGTCCTCCGCGATTACGCGTGGGGTTCGACGACGGCGATCGCTGGGCTCCTGGGGCGCCCTGCGTCAGGGCGGCCGGAAGCCGAACTTTGGATCAGTGCCCATCCCGACTCTCCGTCAGTGGCCCACCGCCCCGATGGATCCTCGGTTCCGTTGGATGCCCTGATCGCCGAAGACCCGGAACATTTCCTCGGCGGGCCCTCCGTGAGTGAGTTTGGGCCGCGGCTTCCGTTCCTGACGAAGATCCTGGCTGCGGCGGAACCCCTCTCCCTGCAGGTCCACCCCAGCATTGAGCAGGCAAAAGCAGGGTTCGCGCGGGAAAATGCCCAGGGTCTGTCACCTGACGCGGCCAACCGCAGCTACCGGGATGACAACCATAAGCCGGAGATGATCTTTGCCCTTACCCCCTTCGAGGCGCTCTGCGGATTCCGGCGCCCCGGCGAGACACAGGAGATCCTGCGTCAGCTCATGAAGTCTTTCGACCTGGTGGAAGCCCCGGTCCCGGCACTCCTGGAGTCGCTGCTGGAGGACCTCGCTGACCCCGATGAGGGTGTCGCGCTCAGAAACGCCTTCAAACGGCTGATCTCGGGAGGCGAGGACGTTGCAGAGGCTACGGCCCTGGTGGCGGCTGCCTTGGCGTCGGGAGCTCCCCGCGCACCCTACGAGGCTGAGCTCGCCACCGTGGCCAGCCTCAACGAGAAGTATCCCGGCGATCCCGGAGTCCTCATCTCGCTGCTGCTCAACAGAATTTCATTGGCCGCCGGCGAGGCCGTGTACCTTCCGGCGGGCAACGTTCATGCCTACCTGCATGGCCTGGGCGTTGAGGTCATGGCGTCATCAGACAACGTGCTGCGCGGCGGGCTGACGCCCAAGTTTATCGACGTTCCGGAGCTCCTGCGCACCATCGAATTCAAGCCGGTAGCCGTGCCCATGCTGGCTCCGCAGATCTCCGGCCTTGGCCAGGAGCTCTACCAGCCGCCCTTCCGTGAGTTTCAGCTTCAAAGGATCATGATGGAGCCGGAGAGCGCTCCGGTTCCGCTGGCACAGTCAGGAGCGGCGGTAGTCATCGTCGTGGAAGGGGCCATGTACCTGGACTCGCCCAAGGGTGACCTGCAACTGTCCCGCGGCGGCAGCGCGTTCCTCCCAGCGTCAGAGGCCCCCGTTAACGTCCACACCGTGGCGGGCACCTCGGAAGCAGCCCTCGCCTTTGCCGTCACCACCTCGATGAGGGGCTGA	MKRQSGNSWPPMASALPCSPEETKPTSCLSPQTNEMDTAVYEIENVLRDYAWGSTTAIAGLLGRPASGRPEAELWISAHPDSPSVAHRPDGSSVPLDALIAEDPEHFLGGPSVSEFGPRLPFLTKILAAAEPLSLQVHPSIEQAKAGFARENAQGLSPDAANRSYRDDNHKPEMIFALTPFEALCGFRRPGETQEILRQLMKSFDLVEAPVPALLESLLEDLADPDEGVALRNAFKRLISGGEDVAEATALVAAALASGAPRAPYEAELATVASLNEKYPGDPGVLISLLLNRISLAAGEAVYLPAGNVHAYLHGLGVEVMASSDNVLRGGLTPKFIDVPELLRTIEFKPVAVPMLAPQISGLGQELYQPPFREFQLQRIMMEPESAPVPLAQSGAAVVIVVEGAMYLDSPKGDLQLSRGGSAFLPASEAPVNVHTVAGTSEAALAFAVTTSMRG	PGPT0017860_659	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
D1-29_01375	1656	tagU_1		Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGAGATCAAGCGATCAGCTGCAACCGGCACCTGCCAGGGCCACCGACCCCGTCCGGTTCCCCCTGGGCGCCTCGCCCCACGTCCGGACCAAGCGCGCCTTCCTCCTGGTGCTCATGACCCTCCTTGTGCCGGGCAGTGCCCAGATCGTGGCGGGTGACCGTAAGCTGGGCCGGGCCGCTTTACGGGTCACCCTGGGCGTCTGGGCGCTGCTGGCACTGACAGTGCTGCTGCTGGTCGTTAACCGGACGATGCTGATCAACGTCATTACCAATCCTTTCGCGTCGTTGCTGATTGTTGTCCTCCTGGCGGCCCTCGCCGTCGGCTGGGCCATTCTTTTCATCAATACCCTGCGGATCATCCGTCCTGTACTGCTTGCACCGCCGGTCCGTCCCGCCGTCGTGATTGCGCTGGTCCTGGCGCTGGTCATCGGCAGTGGCTCGCTGGGGTACGCCGCCTACCTGCTCAACGTGGGCCGGAATGCGATCGGCAGTATCTTCAATGCCACCGGTCCCGCCATCGAACCGGTTGATGGCAGGTACAACTTCCTGATGATGGGCGGCGACGCCGGCGCGGACCGCACCGGCCGCCGGCCTGACAGCCTCTCGGTGCTCAGTGTGGATGCCCAGACCGGGCAGACCGCCATCATCTCCGTCCCGCGGAACCTGCAGAACGCCAGGTTCAGCGAGGACTCCCCCATGCGCCAGATCTACCCGGACGGCTACGACTGCGGCGACGAATGCCTGATCAATGCCATCAACACCGAGGTGACCAACGAGCACGCCGACCTCTACCCCGGCGTGGCCGATCCCGGAGCCCAGGCCACCATGGAAGCGGTCTCCGGGACGCTGGGAATGACGATCCAGGCCTACGTCCTGGTGGACATGGAGGGCTTTGCCACGCTCATCGACGCCATGGGCGGCATCAAAATCAAGGCCGGCGGCTGGGTCCCCATGAGCGGCTACTTCGATGATTACAGCCAAACCCACGGCATGCCCCTCGGCTGGATTCCTGCTGGAGAGCAGACGCTCGACGGCAACCAGGCCCTTTGGTATGGCCGGTCACGCGAGTATGTGGACGACTACGCCCGCATCCAGCGCCAGCAGTGCGTCCAGCAGGCCATGCTGAAGCAACTTGACCCGGCCACGCTCCTGGCCAAGTTCGAGGACATTGCCAACGCCGGTACCCAGGTTGTGGAGTCCAACATCTCCTCCTCGCAGCTTGGCAGTTTCCTGGACCTCGCCGTCAAGGCGAAAGGCCAGGACATCAAGCGGCTCACCATCGGCCCTCCGGACTTTGACGCGTCGTTCTCCACAGTCCCTGACTTCGACCAGATCCACGACCGCGTGGACCAGCTGCTGGCCTCTGCGTCCGCATCTGCGTCGCCACAGGCAGGAGAAGCCCCGGCCGACAGTATTATCGAACCGGCCCGTTCACGCGGTCACCTTCAGGCGTCGGGCCTGCTGCCTGCATCCCTTCAGGCAACGGGTGGACGGCCGGCCCAACAGTCTCCGTCGCCGTCGGACTTCACCCCCGTGACCACCACGCCGGATGGTGAACCGATCACCGAGGCCATGCTCAACCAGCTCAAGAGTGAAGGCAATGAAGAGGCAATCCGGGAACTCGTGGCCACCAATGGCCAGTGCGCTCCCCTGTAG	MRSSDQLQPAPARATDPVRFPLGASPHVRTKRAFLLVLMTLLVPGSAQIVAGDRKLGRAALRVTLGVWALLALTVLLLVVNRTMLINVITNPFASLLIVVLLAALAVGWAILFINTLRIIRPVLLAPPVRPAVVIALVLALVIGSGSLGYAAYLLNVGRNAIGSIFNATGPAIEPVDGRYNFLMMGGDAGADRTGRRPDSLSVLSVDAQTGQTAIISVPRNLQNARFSEDSPMRQIYPDGYDCGDECLINAINTEVTNEHADLYPGVADPGAQATMEAVSGTLGMTIQAYVLVDMEGFATLIDAMGGIKIKAGGWVPMSGYFDDYSQTHGMPLGWIPAGEQTLDGNQALWYGRSREYVDDYARIQRQQCVQQAMLKQLDPATLLAKFEDIANAGTQVVESNISSSQLGSFLDLAVKAKGQDIKRLTIGPPDFDASFSTVPDFDQIHDRVDQLLASASASASPQAGEAPADSIIEPARSRGHLQASGLLPASLQATGGRPAQQSPSPSDFTPVTTTPDGEPITEAMLNQLKSEGNEEAIRELVATNGQCAPL	PGPT0023440_90	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
D1-29_01376	585	purE	COG0041	N5-carboxyaminoimidazole ribonucleotide mutase	ATGACCGCCGAAGCAACGCCCGCTGCGGACAGTTCGTCCGCCCCCATCGTGGGCCTGGTCATGGGCTCTGATTCGGATTGGCCGGTGATGGAGGCCGCGGCCGATGCACTGGCGGAATTCGGCATTCCTTTCGAAGCGGACGTGGTTTCCGCCCACAGAATGCCCACGGAAATGATCCGGTACGGCCAGACAGCCCACCAGCGCGGACTCCGGGTCATCATCGCCGGAGCAGGCGGCGCTGCCCACCTGCCGGGCATGCTGGCCAGCGTCACCCCGTTGCCCGTCATCGGGGTGCCTGTGCCCCTGAAGACCCTTGACGGGATGGATTCGCTCCTGTCCATTGTCCAGATGCCCGCCGGCGTACCCGTGGCAACTGTTTCGATCGCCGGAGCACGCAACGCCGGCCTCCTTGCCGTGCGGATCCTCGCCGCCGGAACGGATGAACTGGCGGCCTCCCTCCGCGCCGACCTGCTGGAGTTCGCCCAGGACCTCAACGACGTTGCCACCCGCAAGGGCGCAAATCTTCGGCAGAAGGTCAGCGAAGTCTTCGCTGACGGCAACGGCGTCCTCCGGAACGGCCGCTAG	MTAEATPAADSSSAPIVGLVMGSDSDWPVMEAAADALAEFGIPFEADVVSAHRMPTEMIRYGQTAHQRGLRVIIAGAGGAAHLPGMLASVTPLPVIGVPVPLKTLDGMDSLLSIVQMPAGVPVATVSIAGARNAGLLAVRILAAGTDELAASLRADLLEFAQDLNDVATRKGANLRQKVSEVFADGNGVLRNGR	PGPT0021545_151	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588	NA	NA
D1-29_01377	1284	purK	COG0026	N5-carboxyaminoimidazole ribonucleotide synthase	GTGACGGAGGGCCAAGTTACAGGGAAAATCGGCCGCAAAGGCACCCGGAAGCCGGGAACCTCCAAGCTTTTCTGTAGGCTGGCCCTTGTGACTTTTCCAGTAATCGGCGTGGTTGGCGGCGGCCAGCTCGCGCGAATGATGGCCCCAGCCGCCACCGCTCTCGGCTTTGAACTCCGCGTCCTTGTTGAGGCGGAGGACGTTTCAGCCGTCTCTGCAGTTTCCACCTCTCCGGTAGGGGATTACAAGGATCTCCAGACTCTTCTCGAGTTCTCGGACGGCCTCGATGTGATGACCTTCGATCACGAGCACGTGCCCACCGGGCACCTCCGTGCACTCCAGGAAGCAGGAGTGAACGTCCAGCCCGGACCGGATGCCCTGGTCAACGCGCAGGACAAGCTGGTGATGCGTGCCGCGATCGACAGGCTCGAACTTCCCAACCCGGAGTGGGCCGCCGTCGACGATGTTGCCTCCCTCGTTGCCTTTGGTGAACAGATTGGCTGGCCCGTTGTCCTGAAGATGCCCCGCGGCGGCTACGACGGCAAGGGTGTGCGGATAGTCGCATCCGCCGATGATGCTGCCCTCACGGCAGAATGGTTCGACGCCATGAGTCCGCTCCTGGCCGAGGCCAAGGTCGAGTTCAGCCGGGAGCTGTCAGCGCTGGTGGCCCGCACCCCCGACGGCGAAGCCCGGGCCTGGCCCGTGGCACACAGCATCCAGGTTGACGGGGTCTGTGACGAGGTCATTGCTCCCGCACTGGATATCCCGCTCGAGGTGGCCGCGGCGGCCGAGGACGCAGCCTTGCGGATCGCCAGCGAACTGGGCGTCACGGGAGTTATGGCGGTTGAGCTTTTCGAGACACCGGGCGTAGGCGCCGGTTTCCTCATCAACGAACTCGCCATGCGCCCGCACAACACAGGCCACTGGACCCAGGACGGGTCGGTAACCAGCCAGTTTGAACAGCACCTCCGCGCAGTCCTCAACCTTCCCCTGGGCTCCACGGACGTCCTGGGCCCGGTGGTGGTGATGAAAAATTTCCTTGGCGGCGAGAACCAGGACCTGTTTTCCGCGTATCCCGTGGCCCTGGCAAGTGAACCGGCCGCGAAAGTGCATTGTTATGGGAAGTCGGTGCGCCCCGGCCGGAAGATCGGCCATGTCAACCTGCTGGGTGATTCCACCGCGGACGTGGACTCCCTCCGCCAGCGGGCGTCGAGGGTGGCAGGCATCATCCGGGACGGCCGGGTGCCGTCCGAAGAATCACCACGGATTTCTGAGGAGAACGTATGA	MTEGQVTGKIGRKGTRKPGTSKLFCRLALVTFPVIGVVGGGQLARMMAPAATALGFELRVLVEAEDVSAVSAVSTSPVGDYKDLQTLLEFSDGLDVMTFDHEHVPTGHLRALQEAGVNVQPGPDALVNAQDKLVMRAAIDRLELPNPEWAAVDDVASLVAFGEQIGWPVVLKMPRGGYDGKGVRIVASADDAALTAEWFDAMSPLLAEAKVEFSRELSALVARTPDGEARAWPVAHSIQVDGVCDEVIAPALDIPLEVAAAAEDAALRIASELGVTGVMAVELFETPGVGAGFLINELAMRPHNTGHWTQDGSVTSQFEQHLRAVLNLPLGSTDVLGPVVVMKNFLGGENQDLFSAYPVALASEPAAKVHCYGKSVRPGRKIGHVNLLGDSTADVDSLRQRASRVAGIIRDGRVPSEESPRISEENV	PGPT0021550_142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021550-purK-K01589	NA	NA
D1-29_01378	567			hypothetical protein	ATGTTTAACACACTTGCAGATCGTATCCGGGGGCTCGCCTCGCTATTCTGGCGCGAGGTGGCCAAATTCGGAGCCGTGGGCGGTGTGGCGTTTGTCATTGACAACGGTCTGACGTACTTCCTGATGCACGGTCCCATGACCGACAGCGAAGCGAAGGCCCGTTTTGTCGGCGCCAGCGTGGCGACACTTTTCTCCTGGATCGCGAACCGGCTGTGGACCTTCCGGCATCGCAGGCAGGCGAACGTCCTGCGTGAATTCCTAATGTTCATCCTCATTAATGGCATTGGCATCGGGATTTCCACTGGCTTTACTGCCATCGCCAAGTATTCGCTGAACGTCACGGACAAGAACATGCTGTTTGCTGCCGGCGTGGTGGGAATCCTGGTTGCCACGGTTGTCCGGTTCTTTGCCTATCGGTTCCTTGTCTTCAACGAGGAACTGGATCAGGAACCCGAGTTCTCCCACGACCACGAACTCATTGAGCTCCATCCAAAGGAGCACCATCCCAAGGCAGAAGCGGCTGCAGGAGAGAGCGAGCGGTCACCGGAGGGCAACCGCCGGCCATAG	MFNTLADRIRGLASLFWREVAKFGAVGGVAFVIDNGLTYFLMHGPMTDSEAKARFVGASVATLFSWIANRLWTFRHRRQANVLREFLMFILINGIGIGISTGFTAIAKYSLNVTDKNMLFAAGVVGILVATVVRFFAYRFLVFNEELDQEPEFSHDHELIELHPKEHHPKAEAAAGESERSPEGNRRP				NA	NA	NA	NA	NA
D1-29_01379	699			hypothetical protein	ATGAACATCCCGGCTATCGACCTCATGACAACCCTGCGCTCCGGGCACTCCACCTCCCCACGGCTGACTTGGTACGGGCCAGATTCTGAGCGGGTGGAACTCTCGGGCAGAGTCCTGGACAACTGGGTTGCGAAGACCAGCAACCTGCTGCAGGACGAACTCGACGCCGAGCCGGGAATGCGGGTCCGCCTTGACCTGCCTGCCCACTGGAAGTCACTGATTTGGGCGCTGGCAGCCTGGCAACTCGGCATGGAAACCCTTCTTGACGGCGGCGGGGCGGATTTCCTTGTCACCGACAAGCCCGAAGCGTTCCAGGGTCAGTACGACGCCGTTGTTGCCGTGGCGCTTCCGGCCCTCGCCATGCGGTGGCCCGGGGAGCTGCCTGACGGCGTCATCGACTACGCCTCGGAAGTGCGGTCCCACGGCGATGTCTTCATGGCGCATGTGGATCCCGATGCATCCGGCTGCGCCCTGAGTGGCCGGGACGGGCAGCGGCACCTCCACGGGGACCTGCTGAGCGCCTTTGCCACCCCGCACGAGGAGGGCGTCCGGCTCCTGGTTTCCGCCGCGGACGGGCTGGAGGCAGCTCTGGCGAACTCCCTGGGCGCGTGGACTAAAGGCGGCTCCGTGGTGCTGGCGCATCCCGACGTGGAGTTGACGGAGAAGCTCCTCGCCGCGGAACGGATCCACGGAAGTTAA	MNIPAIDLMTTLRSGHSTSPRLTWYGPDSERVELSGRVLDNWVAKTSNLLQDELDAEPGMRVRLDLPAHWKSLIWALAAWQLGMETLLDGGGADFLVTDKPEAFQGQYDAVVAVALPALAMRWPGELPDGVIDYASEVRSHGDVFMAHVDPDASGCALSGRDGQRHLHGDLLSAFATPHEEGVRLLVSAADGLEAALANSLGAWTKGGSVVLAHPDVELTEKLLAAERIHGS				NA	NA	NA	NA	NA
D1-29_01380	546	whiB		Transcriptional regulator WhiB	TTGGGGCAAGTAGAGCGTATCCATGAAGATGCCGTCGTCGCCGGACAGGCTACGGCAAAATACCGGGCACGGGGCGTGCCAAGTGACTGGTACGTGGATCCTGCAGATCCCGATGCCGCCGAACGGTACAACAAAAACACCAAAGACTCATTGCAGGACCAGGCCACGGCTTTCCTGGCAGCGCATGAAGCTCTGCTGGATGGCGAGCATGACCAGGACGAAGACGACCTGGACCCGCCGATGGAACTGCAGACGCGTATCGCCGGGGCATCGTCCCAGCCGATATGGATCGGACTGCCTTTCGAGCAGGACTTCGCTGACGAAGGCGAGCTGGGGTGGCAGACTGACGCCCTGTGTGCCCAAACTGATCCCGAAGCCTTCTTCCCGGAAAAGGGCGGATCAACGCGTGACGCCAAGAAGGTCTGCGGCGCATGCAACGTACGGTCGCAATGCCTTGAGTACGCCCTCGCGAACGACGAACGGTTTGGCATTTGGGGTGGCCTTTCCGAGCGTGAGCGCCGGCGCCTGAGGAAGCGGGCAATCTAA	MGQVERIHEDAVVAGQATAKYRARGVPSDWYVDPADPDAAERYNKNTKDSLQDQATAFLAAHEALLDGEHDQDEDDLDPPMELQTRIAGASSQPIWIGLPFEQDFADEGELGWQTDALCAQTDPEAFFPEKGGSTRDAKKVCGACNVRSQCLEYALANDERFGIWGGLSERERRRLRKRAI				NA	NA	NA	NA	NA
D1-29_01381	3333			hypothetical protein	GTGGTGTCCCACAATGGCAGTGCCTATCTCCCCAGAACCCTGGCGGCCTTGGCTGATCAGACCCGTCCCGCGGACGCGGTCATCGGCGTTGACGCAGGTTCACGCGACGATTCCGTTGCGTTGCTTGAGGCTGCCCTCGGCGGAGCCAACGTCGTCCAGCGCCCGCACGGCAAGGGCGGCATGGGTGGCGCTGTCAAGGCAGGCCTGGACGCGCTGGCGCCCTGGAGCGGTCAGTCCGAGAGGGCTGCCACGGAATGGATCTGGCTCATCCATGACGACGCCGCGCCGGCTCCTGAAGCATTGGCCGAGCTCCTTGGGGCCGTGGAGCGGGCCCCCTCAGTCACAGTGGCCGGCTGCAAGCAGCTGGACTGGCACGCAGGGCGCCGCCTCATTGACGTGGGCCTCTCCACCAGCGGCTGGGCCGAACGCCTGACCCTCATTGACGCCGACGAACTGGACCAGGGCCAATACAACGGACGCAGCGATACCTTCGCCGTGAATTCCGCCGGCATGCTGGTCCGCCGTGACGTCTGGGAGCACCTTCAGGGCTTTGACCCTGCCCTGCCCGGCAGCGGCGATGATGTTGACTTCTGCTGGCGTAACCGCCTGGCCGGCCACCGTGTGGTGGTGGTTCCCACGGCGCGTATGTTCCACGTAGCCCACAGGCCCCATGCGTTGGGGAACCCGGCTGCTGCCCGGAAGGCCCAGGTCCATCTGCGGCTCAAGCACGCTCCGTTGTGGAAGGTTCCTTTCCATGCGGTAGGCGCGCTGGTGGGGAGCATCTTCAAGCTGGTTCTCAGCATTGCTGTCAAGGATCCGGGGCACGGGTTCTCGCAGCTCGCCGCAACCTTCGCTGCCCTGGCCCGGCCCGCCGCCGTGGCCAGGGGCAGAAGGGTGGCCGCCAGCACCAGGCGGATCCGGCGGTCCGTGATCCGGAAGCTGCAGACACCCCGGCGCGAGGTCTGGAACCACCGCAGATCGCTGATGGAGGCGATTGGGGCTGATGATGCTTCCGGTCAAGGCCTGGGGCCGGATCCCCTGGCCGACCAACCCAGCGGTGACTCGGCCGACGACTTTGCAGCCTTGACCACAACCGAACGGGGCTGGGTAGGCAACGGCGCCCTTGCTGCTGTCCTGATTGCCTCGGTTGCATCCCTCCTGGGGCTGGCCGGCCTGTTCCGCGCCGAGGCTGTTTCCGGCGGCGGCCTCATCCCGCTCTCCTCGTCCATCGGCGAGATCTGGCACCACGCCTCCAGCTGGTGGATCGGCCTGGGTGCAGGACTTCCCGGCAGGGGAGACCCCTTCGGCTACGTGCTGTGGATCCTGGGCCTTCTCGGCGGAGGCGACGCCAACGCCGCCATGGCCTGGCTCCTCCTGCTGGCGGCACCCCTTTCCGCGCTGACAGCATGGTTCGCGTCCGGGGCCCTTACGGCACGGCGCAGGTTCCGCCTGATCGCCGGGCTCTTCTGGGCGGCGGCTCCTGCGCTGCAGGTTGCCCTGAACCAAGGCCGGGTGGGGGCGTTAGTGACGCACGTCATGATTCCCCTGATGGTCCTGGGGCTGCTGCGCGCAACCGGCAGCGCGGTGGGTCATGGCCGCTTCCTGCTGCCGTCCCCCGCCGAGCGGCGTTTCACCGAGAAGCCACCGGTGCGGCCGGGAATCAACGGGATGCCATCCTGGACAGCTGCCGCCGCCGCGGGCCTGGCAATGGCTGTCGTTTGTGCTTCGGCGCCATCACTGCTGATACCCTCGGCCCTCATCATCGTCCTGTGCGGCCTTCTTCTCGGCCGCCGCGGGCGCACGGTGTGGTGGGCATTGCTGCCTGCCGCCGCCCTGTTCATTCCGTTCGGTCTGTCAACGCTTGACAGGCCGCGGGCCATCCTGGCGGACCCCGGCGTTCCCGTCGGGTTTGATGCTGCCCCGTTGTGGCAGCAGTTGCTGGGGCGGCCGCTGCCCTTCAGCCCGGAGGCAGGGCTGACCGGTCTGCCGTACTTCACCGGCCAGGCCGTTCCGTGGGCACTCCTGCTCGCTTTGCTGGTGGGCGTTCCGGTGCTGCTCCTGTCCGCCGCTGCGCTTTTCGTCCCGGGCAGAAGGGCAGGAACAGCACGGGCGCTCTGGGTGTCCGCGCTGATCGTACTCGCCGGGGGCTGGCTGGCAGGCCATGTTGCCACGGGTGCCAACGCCGACACCTTGGTGACGCCCTTCACCGGCCCGGCCGTTTCCGCCGCGGGATTCGCGCTGCTTGGAGCAGCGCTCATCGGAGCGGAACGCTTGCTGGGCTTCGCAGAGATTGCTTCCACTGCCAGCACCCGCCGGAATGTCCTTGTCCGGTCGACGGTGGCCCTGTCCATGGTCCTCCTCCTGGCCGGCCCGTTGGCCGGCATGGCCGCATGGTCGGCCCAGAACCTGCTGCGGTCCACTGCCGCGGCCCCCCAGGCGGAAGAAGCCGCCCCGGAAGCGCTGGGCACCCCCCGGCTCGTGGAATCAGTCAGTCCGCGGACGCTCCCTGCCACTGCGATTGACCGGGGCACCGGGCCCGAGCAGACGCGCACGCTGCTGATCAGTACCAAGGAAAACGGCACGTTTGACGCCACCCTGATGCGCGGCGCCGGAACAACACTGGACAGCCTCTCCACCATCGCCGCGGCGCGGGATATTTTGGGCGCTCCGGGAGCTGAAACTGTCCGGGAGGACGACGGCGTCACGTCGGTCATCCGCAGCGTGGTTGCCACCATCGTGGCAGGGCAGGGCGTGGACCCCAGGCCGGAGCTGGAACAGCTGGGCATCGGATTTGTGGTCTTGCGCTCGGCAGATACCGCTGCGCAACTGACCGCCAGCAGGATGGATGCAGTGCCGGGCCTCATCGCCGTCGGGCAGACTGACGTGGGCTGGCTATGGCGGATCACGCCACTAAACCAGCCGGTGCTGCAGCCCGCGGACGTTGCCCACCGGGTGCGGATCGTGGATGGGAAGGGCGCTGCGGTTACGCTGCTCCCGTCCGGATATGACGACGTCGGCACGGCCGTCCCGGAAGGGGCGGAGGGGCGGCTGGTGGTCTTGGCCGAGCGCGCTGATCCGGGGTGGAGCGCCTGGCTTGACGGGCGGAAACTTACGTCGACTACGTCCGGCTGGGCACAGGCCTTCACCTTGCCGCCGGCGGCCGGCCAACTGACCATCCGCTACGACAACCCATGGGCTCTGTGGTCCGCTATTGGGCAGATCACGGTGATTGGACTTACCGTGATGCTCGCGATCCCCATGCCTGCCCGTCGGCCCAACGCCGGCCTGTCAAGGGACGAAGGCTCCTTGCGTAAGGAACACCAAAATGCATAA	MVSHNGSAYLPRTLAALADQTRPADAVIGVDAGSRDDSVALLEAALGGANVVQRPHGKGGMGGAVKAGLDALAPWSGQSERAATEWIWLIHDDAAPAPEALAELLGAVERAPSVTVAGCKQLDWHAGRRLIDVGLSTSGWAERLTLIDADELDQGQYNGRSDTFAVNSAGMLVRRDVWEHLQGFDPALPGSGDDVDFCWRNRLAGHRVVVVPTARMFHVAHRPHALGNPAAARKAQVHLRLKHAPLWKVPFHAVGALVGSIFKLVLSIAVKDPGHGFSQLAATFAALARPAAVARGRRVAASTRRIRRSVIRKLQTPRREVWNHRRSLMEAIGADDASGQGLGPDPLADQPSGDSADDFAALTTTERGWVGNGALAAVLIASVASLLGLAGLFRAEAVSGGGLIPLSSSIGEIWHHASSWWIGLGAGLPGRGDPFGYVLWILGLLGGGDANAAMAWLLLLAAPLSALTAWFASGALTARRRFRLIAGLFWAAAPALQVALNQGRVGALVTHVMIPLMVLGLLRATGSAVGHGRFLLPSPAERRFTEKPPVRPGINGMPSWTAAAAAGLAMAVVCASAPSLLIPSALIIVLCGLLLGRRGRTVWWALLPAAALFIPFGLSTLDRPRAILADPGVPVGFDAAPLWQQLLGRPLPFSPEAGLTGLPYFTGQAVPWALLLALLVGVPVLLLSAAALFVPGRRAGTARALWVSALIVLAGGWLAGHVATGANADTLVTPFTGPAVSAAGFALLGAALIGAERLLGFAEIASTASTRRNVLVRSTVALSMVLLLAGPLAGMAAWSAQNLLRSTAAAPQAEEAAPEALGTPRLVESVSPRTLPATAIDRGTGPEQTRTLLISTKENGTFDATLMRGAGTTLDSLSTIAAARDILGAPGAETVREDDGVTSVIRSVVATIVAGQGVDPRPELEQLGIGFVVLRSADTAAQLTASRMDAVPGLIAVGQTDVGWLWRITPLNQPVLQPADVAHRVRIVDGKGAAVTLLPSGYDDVGTAVPEGAEGRLVVLAERADPGWSAWLDGRKLTSTTSGWAQAFTLPPAAGQLTIRYDNPWALWSAIGQITVIGLTVMLAIPMPARRPNAGLSRDEGSLRKEHQNA				NA	NA	NA	NA	NA
D1-29_01382	1692			hypothetical protein	ATGCATAAGTCCACACCGGATGAAACGGGGACTGACGCTGTCCAGGCAGCGCCACCGCCGGCCCCCGCCCCCCAGGCAGAAGACCAGCCGCAAGCCGAGCCGCAGCATGGGTCAGCACCCCGCAGCAAGCCCTCCGCCAGTGTCCTGGTCAGGCTCCTGTCCGCTGTGGCAATTCTTGCGGCCGCGGGCGGACTGGTGACCGCGGCCTCCCTGGCCCCGCAGCCGGCGGGTGACCGGACGATCCCTGCGGCCCTGGCGGCTGTTCCTGCCGGCTCAAGCGTTGGCGTATGCCCCGGTCCCGCCAGGCTTCTTGAAGGCACCGAGGCGGGAACGGATCCGCAGTTCAGCCCCGAATCGGCCACGGCCGCCAGCGCCGTCACGGGGGCGGTGCTGAGTGCCGCCGGGGGCGATCTGCCGGACAGCCGGCTTTCGGCGTTGAACGGGACCTCCGCCGTCAAGATCGGGAAAGAGGCTCCGGCGGGAGCAACGGCCGGCCCGCAGGACCTCCTGGCGGCTGTTGTCCCGCGCCATGCCGTGGACGACGTCAGCGTGCTGAGCGCTCAGGCGGTGGACAACCAAAAAGCGTCGGCGGGTGCGCTGATGAAATACACGGCCACCGATGGGGACCTGCAGGGAGCTGCGGCCGCCAATTGCCAGCAGCCCGCCAACGACTTGTGGCTGGCCGGAGCCAGCACCAAGGTGGGCCGCACTTCGCTGCTGGTGCTCAGCAATGCCTCTACAACGCCGGCCACCGTCAGCCTGGAACTTTATGGGGCCAAAGGCCAGATCCATGCACCGGGAAGCCGCGGCCTGCTGGTGGCCCCCGGCACTACCCGGTCGGTGGTCCTGGCCGGACTGGCGCCTGGCGAAGCCCAGCTGAGTGTGCACGTCCGCAGTGTGGGAGGCCCCGTCGCCGCCGTCATCCAACAAAGTGTCCTGCGTGGACTCACCCCCGGCGGGGTGGACTACATTGCGCCAGGGGCTGCCCCCGCCGCACGACAGGTGATGACAGGGCTGGATATCCAGGAGCCCGCCGGAATAGCAGCGATGACAGGGCAAAGAGGCTTCGAGGATGCCGGTCCTGCCTTGCAGCTGACAGTACCCGGGCCGTCGGACGCCGTGGTGGAAGTCAAGATGTTCGGGCGCGACGGCCAGCAGGCTCTTGCGGGTGGTGGCGTGGTCACGGCAAAAGCAGGGGCGGTAACCGAGATTTCCCTCGCGGGAGTCCCGGCGGGACATTACACAGTCTCCGCCAGCTCCGACGTATCGTTTGTGGCTGCTGCACGCGTAACCCGCGGCGTCAACAGTGAGCAGGCGTCCGACGTCGCGTGGTCAGCGTCAGCCAGCAGGCTGGGCAGCCAGCATGTCGTGCCGGTGCCCCCAGGAGGCGGAAGGACCCTGGTCTTCGGGGCCCTGGAGGATCGCGCCACCATTTCCTACTCGGCCATCACCGCCGATGGCACCATCCACGGGGCAGCATCAGCAGACATTGCCGGGGGGACAACAACCTCCATCCAGGTTCCGGAGAAGGTGGAAGAGGCCGTCGTGGTGGGGTACGTGGTGTCAGCGTCCGGCGGTGCTGCATACGGGGCGCTGCTGCTTCAGCAGGACGGTCGCGACGACATCTCCACTTTGTCCCTCACGCCCGCAGCGTCAGGCCAGGAGAAAGTCCCGGTCACGCTCGGTTACTGA	MHKSTPDETGTDAVQAAPPPAPAPQAEDQPQAEPQHGSAPRSKPSASVLVRLLSAVAILAAAGGLVTAASLAPQPAGDRTIPAALAAVPAGSSVGVCPGPARLLEGTEAGTDPQFSPESATAASAVTGAVLSAAGGDLPDSRLSALNGTSAVKIGKEAPAGATAGPQDLLAAVVPRHAVDDVSVLSAQAVDNQKASAGALMKYTATDGDLQGAAAANCQQPANDLWLAGASTKVGRTSLLVLSNASTTPATVSLELYGAKGQIHAPGSRGLLVAPGTTRSVVLAGLAPGEAQLSVHVRSVGGPVAAVIQQSVLRGLTPGGVDYIAPGAAPAARQVMTGLDIQEPAGIAAMTGQRGFEDAGPALQLTVPGPSDAVVEVKMFGRDGQQALAGGGVVTAKAGAVTEISLAGVPAGHYTVSASSDVSFVAAARVTRGVNSEQASDVAWSASASRLGSQHVVPVPPGGGRTLVFGALEDRATISYSAITADGTIHGAASADIAGGTTTSIQVPEKVEEAVVVGYVVSASGGAAYGALLLQQDGRDDISTLSLTPAASGQEKVPVTLGY				NA	NA	NA	NA	NA
D1-29_01383	414			hypothetical protein	ATGCGCCGCCGGAACCGGCACGGCCGCGGCCTGCGCGGGGAACTGATGCTGCCCACCCATCCCGGTTACCGGACGCGGTCGGACCGCTTTGACGACATGGTGCTGGACTCCGCGCAGCGGCTCCACGACATCTGGGGCAAGACCCTCGACGGCGTGCGGTTTGCCGTGGACGAGATACCCCCAGAGCTTGAGCGGCTGGTAGCGGACTCAGCCCCGCCACCGATGGGTTCCTACACCCCGGCAACCTCCGAGGAAGGCCCTGTCATCACGCTGTACCGGAGGGTGGTGGAGCAGGGGTGCGCCAGCCGGGAGGAGCTTCAGGACCTGGTCCACGATGTTGTGGTGGAACACACCGCCGAGATGCTTGGCGTGGCACCGGAGACCCTGGACCCTGTTTACCGGCGACGTTACTGA	MRRRNRHGRGLRGELMLPTHPGYRTRSDRFDDMVLDSAQRLHDIWGKTLDGVRFAVDEIPPELERLVADSAPPPMGSYTPATSEEGPVITLYRRVVEQGCASREELQDLVHDVVVEHTAEMLGVAPETLDPVYRRRY				NA	NA	NA	NA	NA
D1-29_01384	342			hypothetical protein	GTGGCTACTCTGACGTACGTCTATGCAGATTCCACCGCTGTACTGGGTCCGCTGGCCACCTACGCTGAGCCGCATTGTTACGATTTGTGCGAGCAGCATGCGGGCTCACTGACCGTGCCGCGGGGGTGGGAAGTCCTGCGCCTGGCGATGCCCAACACGCCGCAACAGCCCGGACCCGACGACCTGCTGGCTCTTGCCAACGCTGTGCGGGAGGCCGCAGCCCTTCCACCGCAGGCGCAGCCGGCCCAGGCCCACCGCTCAATCCATTCAACCCTGGAAGCCCCAGCCCGGACGGATGGCGCCCGCCGCGGCCATCTCCGTGTGCTGCGTGAACCGTCCTGA	MATLTYVYADSTAVLGPLATYAEPHCYDLCEQHAGSLTVPRGWEVLRLAMPNTPQQPGPDDLLALANAVREAAALPPQAQPAQAHRSIHSTLEAPARTDGARRGHLRVLREPS				NA	NA	NA	NA	NA
D1-29_01385	282			hypothetical protein	ATGCCAAAGATCCGTCCTGAACTGTTGTCCGTCCTGCGGTGTCCTGTTACGGGATCTCCGTTGGTCCAGGACGGCGAAGAACTCGTCTCGACGGCGGCGGGGGAGTCCGGCGTGAAGCTGCGCTACACGATCGAGGACGGGATACCCCTGCTCCTGCCGCCGGAGCTGCTGCAGGCAGCAAAAGCAGCGGGTTCAGATGAGCACGACGCAGTGGAGCACTATCCGGTTGAGTATTACCAGGCCGGGCATGACCCTGCCGCCGGCGCAGCCCCCACTGCCTGA	MPKIRPELLSVLRCPVTGSPLVQDGEELVSTAAGESGVKLRYTIEDGIPLLLPPELLQAAKAAGSDEHDAVEHYPVEYYQAGHDPAAGAAPTA				NA	NA	NA	NA	NA
D1-29_01386	1488	ahcY		Adenosylhomocysteinase	ATGACTTTTGATTACAAGGTTGCCGACATTTCGCTGGCCGAGGCCGGCCGCCATCAGATCCGCCTGGCCGAACATGAGATGCCTGGCCTGATGTCGCTCCGTGAGGAGTTCGGCCCTAGCCAGCCGCTCAAAGGTGCCCGCATCGCCGGTTCGCTGCACATGACGGTGCAGACTGCCGTCCTGATCGAAACACTCACGGCGCTGGGCGCCGAGGTCCGCTGGGCTTCCTGCAACATCTTCTCCACGCAGGACGAGGCTGCCGCTGCGGTTGTGGTGGGCGCCGGAACCGTTGAGGACCCCCATGGTGTGCCTGTTTTCGCCTGGAAAGGCGAGACCCTCGAAGAATACTGGTGGACGGCGGAGCAGATCCTTACCTGGCCGGGCGCGGACACCAACCCTGAACTGGGCCCCAACATGATCCTGGACGACGGCGGAGATGCCACCATGCTGGTCCACAAGGGTGTTGAATTTGAAGCGGCCGGTGCCGTTCCGGCAACGGATGAAGCGGATTCCGAAGAGTATGCGATCTTCCTGGAGGTCCTGCGGGCATCCATCCGGCAGGATCCCCGGAAGTGGACCCGCACGGCGCAGTCCATCAAGGGCGTGAGCGAAGAAACAACAACGGGCGTCCACCGTCTCTACCAGCTGGCGGAGCAGGGCAAACTCCTTTTCCCCGCCATCAACGTCAACGACTCCGTGACCAAGAGCAAGTTCGACAACAAATACGGGATCCGCCATTCCCTGCCTGATGGCCTTAACCGTGCCACTGACGTCCTGATGGGCGGAAAAGTGGCTGTGGTCTGCGGCTACGGGGATGTTGGCAAGGGCGCGGCTGAGGCACTTCGCGGTCAGGGATCCCGCGTTATTGTCACAGAGATCGACCCCATCTGTGCCCTTCAGGCCGCGATGGACGGATACCAGGTGGCCAAGCTGGAGTCCGTACTTGCCCTGGGCGACATCTTCATCACCACCACAGGCAACAAGGACGTCATCATGGCCGAGCACATGGCGGGCATGAAGAACAAGGCCATCGTGGGCAACATCGGCCACTTCGACAACGAGATCGACATGGCCGGCCTGGCCAGGATTCCCGGCATCAAGAAGGTGGAAATCAAGCCCCAGGTCCATGAATGGGTCTTCGAAGGCGACGCCACCGATGGTTCGGCAGCGCGGTCCATCATTGTTCTCTCCGAGGGCCGGCTCTTGAACCTCGGAAACGCAACAGGGCACCCGTCGTTCGTGATGAGCAACTCCTTCGCCAACCAGACCATTGCGCAGATCGAACTGTGGACCAAAAAGGACCAGTCCGATGGCCAGCGCGAGTATGAGAACCAGGTCTACGTCCTGCCGAAGATCCTGGACGAAAAGGTGGCCCGGCTGCACCTTGCTGCGCTGGGTGTCGAACTGACGGAGCTGTCCAAGGAACAGGCCGAATACCTGGACCTGGACGTGGCCGGACCGTACAAGCCCGAGCACTATCGTTACTGA	MTFDYKVADISLAEAGRHQIRLAEHEMPGLMSLREEFGPSQPLKGARIAGSLHMTVQTAVLIETLTALGAEVRWASCNIFSTQDEAAAAVVVGAGTVEDPHGVPVFAWKGETLEEYWWTAEQILTWPGADTNPELGPNMILDDGGDATMLVHKGVEFEAAGAVPATDEADSEEYAIFLEVLRASIRQDPRKWTRTAQSIKGVSEETTTGVHRLYQLAEQGKLLFPAINVNDSVTKSKFDNKYGIRHSLPDGLNRATDVLMGGKVAVVCGYGDVGKGAAEALRGQGSRVIVTEIDPICALQAAMDGYQVAKLESVLALGDIFITTTGNKDVIMAEHMAGMKNKAIVGNIGHFDNEIDMAGLARIPGIKKVEIKPQVHEWVFEGDATDGSAARSIIVLSEGRLLNLGNATGHPSFVMSNSFANQTIAQIELWTKKDQSDGQREYENQVYVLPKILDEKVARLHLAALGVELTELSKEQAEYLDLDVAGPYKPEHYRY				NA	NA	NA	NA	NA
D1-29_01387	1239	ldtB	COG1376	L,D-transpeptidase 2	ATGGAGCCTGAAGTTAAGCCGCGCGCCCGGGGAACGGCCAAGAAGATTCTCCTGGTGGCTGCCGTCTGCGTCCTTGCGGCCACCGGCGGCGTTTTCGCCGCCGTCGCGCCTGGTTTCGCCCCAGGGACCTTGGAGTCGGAGGCGGCTTCAGCCATGCGGTCAGCCCCCGGCCTGGCGTCGCCGGTGGTTCCGCCGCTAAAGCTGGACAGTTCGCCCGCCGATGGTGCGAGGCAAGTTAACCCAGCCACTCCCGTTTCACTCAAGGTCAGCAACGGCAAGATTGAGCGGGTGTCCCTGACCAGCACTGCCGGCGAGGCTATCGAAGGTACGTTCGGCGCGGACGAAACCAGCTGGACGGCACCTGGGCCGCTGAAATTCAACACTGACTACAGCTACACCTATGTGGTTACTGACGGTGCCGGGCGCGAAACCAGCACCACGCACTCTTTCAGTACTGTTGCCAGCACCCACGAAGCGGACGCCGCCATCTATCCGCTCGACGGCATGAAAGTAGGAGTGGGCCAGCCCCTCCAGATCATCTTCAGTGAGCCGGTACTCAACAAGGACGCCGTGGAAAAGGCCATCAAGGTCACCTCCACGGCGGGCCAGACCGGGGCCTTCCATTGGTTCAGCGACACCATGGTCCGCTACCGTCCCGAGGCGTTTTGGACCGCCAATTCCACCATCACCATGGACATGCAACTCTTCGGTGTTGACCTCGGCAACGGTCAAATCGCCAACTTCAATAAAAAGGTCAACGTTGCCATCGGCGATAAGCGGGTGGCCATAGCCGACGCCGCCGCCCACACCTTCACGTTGAGCATTAACGACCAGGTGGTTAAGACGCTGCCTGTCAGCATGGGCGACGAACGCTTCCCGTCGGCCCGGGGCTACGCGGTGCTGATGGAAAAGAACCGCCATGACCACTTCAGGGCGGCCAGCATCGGCCTCAAGCCCGGCGACCCCGCCTACTACGGCGAAGTGGACGTGGAGTACGCCATCCGGCTCACCCTTAGCGGTGCGTACATCCACCAGGCCCTGGAATCGGCCTTCCCCTACATCGGCAACAAAAATGTCTCGCACGGCTGCATCGGATTCGCTCCCGACGGCGCTGCCTGGGTCTTCGGTGCCATGACCACCGGAGACGTGGTGCAGATCGTTAACACCGAGGGTGACTACGCTGCCCACGATGACGGCTACGGCGACTGGAACATCCCGTGGGCGGAGTACGACAACTAA	MEPEVKPRARGTAKKILLVAAVCVLAATGGVFAAVAPGFAPGTLESEAASAMRSAPGLASPVVPPLKLDSSPADGARQVNPATPVSLKVSNGKIERVSLTSTAGEAIEGTFGADETSWTAPGPLKFNTDYSYTYVVTDGAGRETSTTHSFSTVASTHEADAAIYPLDGMKVGVGQPLQIIFSEPVLNKDAVEKAIKVTSTAGQTGAFHWFSDTMVRYRPEAFWTANSTITMDMQLFGVDLGNGQIANFNKKVNVAIGDKRVAIADAAAHTFTLSINDQVVKTLPVSMGDERFPSARGYAVLMEKNRHDHFRAASIGLKPGDPAYYGEVDVEYAIRLTLSGAYIHQALESAFPYIGNKNVSHGCIGFAPDGAAWVFGAMTTGDVVQIVNTEGDYAAHDDGYGDWNIPWAEYDN				NA	NA	NA	NA	NA
D1-29_01388	801			hypothetical protein	TTGAGTTCGATCGTTACGGGCGAGGCCGTTGTCCTGGAGTTGCGCCCCGCATCCTTCGCGGCCCGGGGCCTGGGCCTAATGCTGGATTTCATGTTCAACGTGGTGCTGCTCATTGTGATCCTGATTGGCGTCGCAGCTGCCGGACCCGAACTTGATGAGGCCGCGATGCGCATGCTGATCCTTGTCAGCGTGGTCTTTTGCTTCGTCATTGTCCCGGTTGGTTTGGAAACCCTGAGCCGGGGGCTATCGCTGGGGAAACTGGCCGCGGGGCTGAGAATTGTCCGTGATGACGGCGGAGCCATCCGGTTCCGTCATGCCCTGATTCGGGGCCTGGCCGGCTTCCTGGAAATTTACCTCACGCTCGGCGGACTGGCCATCGCCGTGGCCCTGTTCAACGACAAGTCCAGGCGCCTGGGGGACATCATGGCGGGAACCTACGCCCTGCGAACCCGGGTACCCGTTGAAGGGGCAGTCCGGGTTTTCGTCCCCCCTCATTTGAAGGCATGGGCGGCAGTGGCTGACATCGGACGGATCCCTGATGCCACAGCCCGGCAGGCCACGCAATTCATCCGGCAGGCAGCCCTGATGTCTCCGCTGTCCAGGAACGGCATGGCCGCCACGATCGCGACCGAGCTGGCAGCCCACGTTGCCCCTGCTCCGCCGCCCGGAACCAGTGCCGGCGATTACCTTGCTGCTGTCATCGCCGAGCGCCGTAACCGCGACTTGACGAAACTTCAGCACGCCCGCCGCCGCAACTCGAAAGTTGGCGAACGGCTGGACCGCCTGCCTTTCAGTTCCTAG	MSSIVTGEAVVLELRPASFAARGLGLMLDFMFNVVLLIVILIGVAAAGPELDEAAMRMLILVSVVFCFVIVPVGLETLSRGLSLGKLAAGLRIVRDDGGAIRFRHALIRGLAGFLEIYLTLGGLAIAVALFNDKSRRLGDIMAGTYALRTRVPVEGAVRVFVPPHLKAWAAVADIGRIPDATARQATQFIRQAALMSPLSRNGMAATIATELAAHVAPAPPPGTSAGDYLAAVIAERRNRDLTKLQHARRRNSKVGERLDRLPFSS				NA	NA	NA	NA	NA
D1-29_01389	993			hypothetical protein	GTGGATATGGATGCCTTCTCCGCTGTTAATGGGGACAAATGGTCGAGACTGCATGAACTCGCCTTTAAGCGGCGGCTTACCGGGGAGGAAGCCGACGAACTGCTCCGCCTCTACCAGGCAACGTCCGCGCATCTTTCCCTGATCAGGTCACTGGCTCCCGAAAGCGGCCTGTCGGCGTCCCTGTCTGCCACTCTGGCCCAGGCGAGAACAAGATTCACCGGGGCGCGGTCAAATTTCATGGCTGACCTCGCCCGGTTTTTTGTGATTGCGTTGCCCGCGGCGCTGTACCGCATCACCTGGCTGACCCTGGCCTGCGGTGCCGCGTTCATCCTCATTGGCGGTGCCTACGCGCTGTGGATCGGAAGCTCACCGGAGGCTCTGCGGTCACTGGCCTCCGATTCCGCCCTCAAGCAGTACGTGGAGGAGGACTTCATTGACTACTACTCCGAAAATCCGGCGGCATCCTTCGCCGGTTTGGTGTGGACCAACAACGCGTGGATCAGTGCACAGGCGGTAGCCCTTGGCATCACCGGAATCTGGGTGCCGATGATTCTGTTCAGCAATGCCCAAGGCGTGGGAATCGCTGCCGGAATCTTCGCCGCGGCAGGGAAGTCCGATGTCTTCTACAGCTACATCCTGCCGCACGGACTGATGGAACTGACGGCGGTGTTCATCGCCTGTGCGGCGGGCCTGCGCATCTTCTGGGCCATGGTTTCTCCGGGCCCGCGTACCCGGGGGCGCGCCGTGGCAGAGGAAGGCAGGTCCTTGGTGACAGTAGCCCTTGGGCTGGTCCTGGTCCTCTTCGTTTCCGGCCTGGTGGAAGGGTTCGTCACGCCCAGCCCGCTGCCCGTATGGGCCAAGCTGGGGATCGGCTCAGCCGTGCTTGGAGCATACTGGCTGTACGTTCTGGTGTGGGGCCGTCGGGCGTATCTGTCCGGCGCCCGCGGAGACCTCAGCGCCGACGAGGGCGGATACACCGAAATAGCTGCGTGA	MDMDAFSAVNGDKWSRLHELAFKRRLTGEEADELLRLYQATSAHLSLIRSLAPESGLSASLSATLAQARTRFTGARSNFMADLARFFVIALPAALYRITWLTLACGAAFILIGGAYALWIGSSPEALRSLASDSALKQYVEEDFIDYYSENPAASFAGLVWTNNAWISAQAVALGITGIWVPMILFSNAQGVGIAAGIFAAAGKSDVFYSYILPHGLMELTAVFIACAAGLRIFWAMVSPGPRTRGRAVAEEGRSLVTVALGLVLVLFVSGLVEGFVTPSPLPVWAKLGIGSAVLGAYWLYVLVWGRRAYLSGARGDLSADEGGYTEIAA				NA	NA	NA	NA	NA
D1-29_01390	1215			hypothetical protein	GTGAACGACAAGACCCCTGCCAAACGCACGGAGCCGCAGCCGGATCCCGTCCTGGACACCACCGGGGACTCGGACGAGCCCGCATTTGAGTGGATGAAGGCTCCAGAACCCAGCACGCCGGCTGCCAGCACGCCGGCGGCCGGCAGGTCAGGCAGCACGGCTGCGCAAAGCGCGGCTGCACAAGGTGCGGGAGCGCAGGGTGCGGGACCCCGGGGCGCGGGCGGCGGAACGGGAGCAACGCAGGGCGGCAGTTCCGAAGCCGCCGCAGCACCACAGGCCGAAAGCCGGGCTGACCGCAAAGCAGCGGAAGCCGCCGTCGAACCTTCCGCGGGAGAGGCTGCCGGCGCCCAACCTGCCAAGACAGTCAATCCGGCCGGAAAAGGCCAGGAGCCGCTGTTCAGTGAACCGCTGCCCACGTCCGCTCTCCAAGTGCGGCCTCCGCAGGAGGAAGTAGAGCGGCGGAACGCCGAACGCGAAAGCGCGGCGAACGCCAAGCCGGTGGTGCCGCGCGTCATGCAGGTCCTGCTGGCAGTCTTCTATCCCATCATCCTGTTGGTACTGGCGGTCCGGGCAGTGACCAGCCCGCTGTTTCTTTGGGTGGAGTACAACCGCCCGGGGTTCCCCGGTGACGGCTACGGCTTCAGCACTGACGACAGGATGACCTACGGGTCCTACGCGGTGGACTACTTGAGTAACTGGGCTGCGCCGCGGTACCTGGGCGAGCTGGTCAACAGGAGTGGCGACAGGCTGTTCAAAGAGGGCGAAGTCAGCCACATGGCTGATGTGAAGCTCGTGATCCTTTCCACTTTTGGTGCCGGCGCTCTGCTGGCCATTCTGAGTATCATCGCCATTGCCTACCTTCGCCGCCGCAGCATCGGGGGAGTGCGCAGGGGCCTGTTTGCGGGCTCCATCGTAGCCTTGGTGATCATTCTGGGCCTGGGTGCCCTGGCGGTGCTGGGCTGGCAGCAGTTCTTCACGGAGTTCCACCGGATCTTCTTCGCCAGCGGGTCATGGACGTTTGCCCTGGAAGACACCCTGATCAGGCTGTTCCCGGGCCAGTTCTGGATCGACGCCGGTATTACCATCGCTGCGCTGGTCCTTCTTGTCGCGCTGGTGACACTGATCCTGACGTGGCCCACCCGCCGCCGGCGCGGTCTGGTCAAAGCCGGGCGCAAAGATTCGGAGCCGTCGGTGGTAGCGGCAGATCAGCCGTAA	MNDKTPAKRTEPQPDPVLDTTGDSDEPAFEWMKAPEPSTPAASTPAAGRSGSTAAQSAAAQGAGAQGAGPRGAGGGTGATQGGSSEAAAAPQAESRADRKAAEAAVEPSAGEAAGAQPAKTVNPAGKGQEPLFSEPLPTSALQVRPPQEEVERRNAERESAANAKPVVPRVMQVLLAVFYPIILLVLAVRAVTSPLFLWVEYNRPGFPGDGYGFSTDDRMTYGSYAVDYLSNWAAPRYLGELVNRSGDRLFKEGEVSHMADVKLVILSTFGAGALLAILSIIAIAYLRRRSIGGVRRGLFAGSIVALVIILGLGALAVLGWQQFFTEFHRIFFASGSWTFALEDTLIRLFPGQFWIDAGITIAALVLLVALVTLILTWPTRRRRGLVKAGRKDSEPSVVAADQP				NA	NA	NA	NA	NA
D1-29_01391	1854		COG1022	Long-chain-fatty-acid--CoA ligase FadD15	GTGATGCTGCGGAACGGAGACCCGGTGAGAGAAGCAAGTACGGAACTGCTGGTGGAACTCACCCCGGACAGCAACGTGACAGATCTCCTGCTGGAGCAGCGCACCACCAACCCGATGCACGCGCTTTATGCCCGGCGGGGGCCCAACGGGTGGACCGACATACCGGCGCAGAAGTTCCTCCATGATGTCAGCGCGCTCGCGAAGGGCCTCATCGCAGGTGGCCTGGAGCGGGGTGACACCGTAGCCGTCATGTCAGCAACCCGGTATGAATGGACCCTGGTGGACTTCGCCATCTGGTTCGCAGGAGGCGTCACCGTCCCCGTGTATGAAACGTCGTCGGCCGCCCAGGTGGAGTGGATACTCCACGACTCCGGAGCGCACCGGGTGTTTGCCGAGGACAGCGGAAAGGTGGAGCTGGTCCGGCACATCCTGGATACGTCCGCTTTGCTGAAAGACCGGCTGGTGAACGTCGTCAGGATGGACTACGACGGCGACGCCCCCAATCTCGCCAGCCTGGCTGCCGCCGGCGCCGGAGTCACGGAAGCCGAACTTGAACGGCACCGCTCGGCAGCAGGGCTGGATGATGTTGCGTCCCTGGTGTACACCTCCGGAACCACAGGCAAACCCAAGGGATGCGAAATCACCCACGGCAACTTCGCCCTGGTTGCCGTCAACATCGTCGCCTTCCTTCCTGAGCTGCTGAGGCAGGAGCACGCCAGGACGCTGATGTTCCTTCCGCTGGCGCACGTCTTGGCGCGCGCGGTCCAGGTGGTGTGCCTCAGCGCGGGAGCCACGCTGGGTCACACTGCCAACGCCGCACAGTTGCTTGCGGATATGGGAACGTTCAGGCCCACCTTCCTCCTGGTGGTTCCGCGTGTCTTCGAAAAGTTGCGCGCCGGCTCGGCCCGCCAGGCTGCCGCGGCAGGGAGGGCCGGGGCCTTCAGCGCCGCGTCGTCCGCAGCGGTCCGGTACTCAAGGGAACAGGACCTGGCCGCCCGCGGTGAGGGCGCCGGGCCGGGCATGCTTTCCCGCGTACGGCATGGATTGTTCGACAGACTGGTGTATCCCAAGCTCCGCCAAGCCCTCGGCGGCCAGGTTCGCTACACCGTTTCGGGCGCCAGTCCGCTGCATCAGGACGACGCACATTTCTTCCGCGGTGCCGGCATCCCCGTCCTGGAGGGCTACGGGCTGACGGAGACAACGGCGCCCTGCACTGTGAATACGCCCACCCGCACCAAGGTGGGCAGCGTGGGCATCCCCGTTCCGGGCACCACCATCCGCGTCGCCGAGGACGGCGAAATCCTGGTGAAGGGCATCGGCGTCTTCAGGGGATATCACGCCAACGAAGCCGCCAATGCTGCGGCGTTCGTGAACGGCTTCTTCCGCACCGGTGACCTCGGCAAACTTGACGCCGAAGGCTTCCTGACCATCACGGGGCGCAAGAAGGACCTCCTGGTGACTGCAGGTGGCAAGAACGTGGCACCCGGTCCGCTGGAGGAAAAAATCCGCGAGCATACGCTGGTCAGCCATGCTGTTGTGGTGGGAGACGGAAAACCGTTTGTTGCCGCCCTTGTCACCCTTGATCCGGACGGGCTGGAAAGCTGGTGCAGGGAGCACAAACTGCCCGCCTTGACGCTTGCCGACGCCACCGCCGATCCCCGGGTCCGCGCAGCCATCCAGGACGCCGTCAATAGCGCAAACGCGCTCGTGTCCAAGGCGGAATCAGTGCGCAGCTTCTCGGTGCTGACAGCGCAGTTTACCCTTGAATCCGGCCACCTGACGCCCTCGCTCAAACTGAAGAGGGCCGCCGTCGTCCGCGATTTTGAAGGCGAGATCGCCAGGCTTTACGGCTGA	MMLRNGDPVREASTELLVELTPDSNVTDLLLEQRTTNPMHALYARRGPNGWTDIPAQKFLHDVSALAKGLIAGGLERGDTVAVMSATRYEWTLVDFAIWFAGGVTVPVYETSSAAQVEWILHDSGAHRVFAEDSGKVELVRHILDTSALLKDRLVNVVRMDYDGDAPNLASLAAAGAGVTEAELERHRSAAGLDDVASLVYTSGTTGKPKGCEITHGNFALVAVNIVAFLPELLRQEHARTLMFLPLAHVLARAVQVVCLSAGATLGHTANAAQLLADMGTFRPTFLLVVPRVFEKLRAGSARQAAAAGRAGAFSAASSAAVRYSREQDLAARGEGAGPGMLSRVRHGLFDRLVYPKLRQALGGQVRYTVSGASPLHQDDAHFFRGAGIPVLEGYGLTETTAPCTVNTPTRTKVGSVGIPVPGTTIRVAEDGEILVKGIGVFRGYHANEAANAAAFVNGFFRTGDLGKLDAEGFLTITGRKKDLLVTAGGKNVAPGPLEEKIREHTLVSHAVVVGDGKPFVAALVTLDPDGLESWCREHKLPALTLADATADPRVRAAIQDAVNSANALVSKAESVRSFSVLTAQFTLESGHLTPSLKLKRAAVVRDFEGEIARLYG	PGPT0008380_5296	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-29_01392	1731	pmt	COG1928	putative dolichyl-phosphate-mannose--protein mannosyltransferase	ATGGGGCACGTGACGCAGACCTCCACGCTGCCTGCCGAGGCCGGCCGAGCCGCCCCGGAGGCATCCATACCAGGTTCCCCCGAACGCGCCGCCCAAGGCGGCCGTGTTGCCGGCCGCCCTTGGATAAGGCGCCCGGCCGGGTCTTTCTCTGCGGCGTCCTTGGAGGAACGGCTCGTGGGGAGTGTTCCGGGCTGGCGCGACTACCCGCCCTCGCTGCGGCTGTGGTTCTGGCTGGTCCCGGTGCTCACCTCGGTCATAGGCGGAATCCTTCGCTTTGTCCGGCTGGACAGACCACACAGCCTGGTCTTTGACGAGACGTACTACGTCAAGGACGCCTATTCGTACCTGATCAGCGGCTATGAACGGAACTGGCCGGACAAAGCCAACGACTCCTTTAACGCCGGGAATCCGAACATACTCCTGGAGACTCCGGAATACGTGGTGCATCCTCCGGTGGGGAAATGGATGGTCGCCTTCGGCATGTGGCTTTTCGGTTCGGACAATCCGTTCGGCTGGCGTTTCGCAGCTGCGTTAACCGGCACCGTGTCCATTCTGTTGGTCACGCTCATTGCGCAGAAGTTGTTCCATTCCCTTCCCCTGTCAGCTGCTGCGGGGCTGCTTCTTGCGGTGGATGGCCATCACCTCGTGATGTCACGGACCTCGCTGCTCGATATCTTTTTGATGTTCTGGGTCCTGGCTGCCTTCGGAGCGTTGCTGATGGACCGGGACGACGGCCGGCGCCGCCTTGCCCGGAGATTGGCCAACCTGGCCGGCACGGCCAGGGACGGCCGGCCCTCGGCCAAACAGCTGCTGGCGGGCCCATGGCTCGGTATCCGGTGGTGGCGGGTTGTTGCCGGAGTATGCCTGGGCCTGGCGGTAGGGACAAAATGGTCAGGCCTGTTCTTCCTTGCCGGCTTCGGGCTGCTCTCCGTCGTGTGGGACCTTAGCGCCCGGCGTGTCGCCGGAGTGCGGGGCTGGTTCAGCGGCGGCATCATCAAGGATGGGGTGCCGGCATTCCTCACCATCGTCCCCGTGGCCGCCCTGGTATACGTCGCCGGCTGGACAGGCTGGATCCGTTCCGACGACGCCTACTTTCGCCACTGGGCGGAAGAAAATCCGTCGGCGGAGTGGGGATGGCTGCCCGACTGGGTCCGGTCCCTGGCCCACTATCACCTTGAGGCGTACAACTTCCACCAGGGACTGGGCTCCGAGCACCCCTACGAGGCAAGTGCCTGGAGCTGGCTGGTGATGGGCCGGCCAACCTCATTCTTTTATGAGTCGCCCCAGCAGGGCACCCCCGGGTGCAACGTAGCCAACTGCACGTCGGCGATCCTCTCAGTGGGAAATCCCCTGGTCTGGTGGGCTGCCACCGTCTCCCTGGTGGTGCTCCTGTTCTGGTGGGCCGGACGAAGGGACTGGCGGGCGGGAGCGGTGCTGGCTGCCGTCGGCGCGGGCTACCTGCCGTGGTTCCTGTATCCGGAGCGCACCATGTTCTACTTCTATGCAGTCTCTTTTGAACCTTTCCTGGTGCTGGCCCTTGTCTACTGTCTGGGCCTCGTCCTGGGCCGGGCCGGTGATCCGCCCTGGCGCAGGCGCGCCGGGTTCTACCTGGTGACGCTTTTCCTGGCCTGCGTAATCCTGCTTTCGGCCTTCTTCTATCCGGTGTGGGCCGCCGAAATCATCCCCTACCAGGACTGGCGGTTCAGAATGTGGATGCCGTCCTGGATCTAG	MGHVTQTSTLPAEAGRAAPEASIPGSPERAAQGGRVAGRPWIRRPAGSFSAASLEERLVGSVPGWRDYPPSLRLWFWLVPVLTSVIGGILRFVRLDRPHSLVFDETYYVKDAYSYLISGYERNWPDKANDSFNAGNPNILLETPEYVVHPPVGKWMVAFGMWLFGSDNPFGWRFAAALTGTVSILLVTLIAQKLFHSLPLSAAAGLLLAVDGHHLVMSRTSLLDIFLMFWVLAAFGALLMDRDDGRRRLARRLANLAGTARDGRPSAKQLLAGPWLGIRWWRVVAGVCLGLAVGTKWSGLFFLAGFGLLSVVWDLSARRVAGVRGWFSGGIIKDGVPAFLTIVPVAALVYVAGWTGWIRSDDAYFRHWAEENPSAEWGWLPDWVRSLAHYHLEAYNFHQGLGSEHPYEASAWSWLVMGRPTSFFYESPQQGTPGCNVANCTSAILSVGNPLVWWAATVSLVVLLFWWAGRRDWRAGAVLAAVGAGYLPWFLYPERTMFYFYAVSFEPFLVLALVYCLGLVLGRAGDPPWRRRAGFYLVTLFLACVILLSAFFYPVWAAEIIPYQDWRFRMWMPSWI	PGPT0024545_1279	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_MANNOSYLTRANSFERASE_ACTIVITY,PGPT0024545-pmt-K00728	NA	NA
D1-29_01393	954	rsmI	COG0313	Ribosomal RNA small subunit methyltransferase I	GTGGACCCTAACCCCAGCACAGTTGCCGATACCAGCACCGAATCTCCCGGCCAATCAGAAACCCCCAGCCAGTCAGAACCCGCCCTTTCGGAATCCAGCTCCCCGGGGAGGGTGGCCGCAGGCCCGGGCAGGGTGGTACTGGCAGCTACCCCCATTGGAAACACAGGGGATGCCTCGGCCCGCCTGATTGAGTTGTTGGCGTCGGCCGATATTGTTGCCGCGGAGGACACCCGCCGCCTGCACCGGCTGGTCCAGAGCCTCGGTGTCACCGTGGGCGGCCGCATCATCAGCTACCACGAGCACAACGAGGCAACAAAAACAGCCGAACTCCTGGATCAGGTGAAGGCGGGAAAAACCTTGGTAATGGTCACCGACGCCGGCATGCCGTCCGTTTCGGATCCCGGTTTCCGTTTGGTGGAAGGCGCCGTGGCTGCCGGTCTCACGGTGACCGCCATCCCCGGACCATCAGCCGTCCTGACGGCGCTTGCCCTGTCAGGACTGCCAACAGACAGGTTTTGTTTTGAAGGATTCCTTCCGCGGAAAGCAGGTGAACGGTCCACCCGCCTTGCCGACCTCGCTGCCGAACGCCGGACCATGGTGTTTTTTGAGGCTCCGCACCGCCTCGAAGCAATGCTGCGGGCATTGCGCGAGCGTTTCGGTTCCGACCGGCGGATCGCTGTTTGCCGCGAACTGACGAAGACCTACGAGGAAGTGATCCGTGGGTCCGTTGGCGAACTGCTTTTGTGGGCAGAGGGCAACGAAGTGCGGGGTGAGATTGCCGTTGTGCTCGCCGGGGCACCTGACCAGGCACCGGGCACTCCCGAGGATTACGTGGAGGCCGTCAACGAACTTGTGGCACGGGGCATCCGGCTTAAGGAGGCGGTGGCTGCTGTGGCGGAAGACGTCCGGGTGAGTAAGAGGGAGCTTTACTCGGCGGTCCTAGCGGCACGCTGA	MDPNPSTVADTSTESPGQSETPSQSEPALSESSSPGRVAAGPGRVVLAATPIGNTGDASARLIELLASADIVAAEDTRRLHRLVQSLGVTVGGRIISYHEHNEATKTAELLDQVKAGKTLVMVTDAGMPSVSDPGFRLVEGAVAAGLTVTAIPGPSAVLTALALSGLPTDRFCFEGFLPRKAGERSTRLADLAAERRTMVFFEAPHRLEAMLRALRERFGSDRRIAVCRELTKTYEEVIRGSVGELLLWAEGNEVRGEIAVVLAGAPDQAPGTPEDYVEAVNELVARGIRLKEAVAAVAEDVRVSKRELYSAVLAAR				NA	NA	NA	NA	NA
D1-29_01394	1554	sad_2		Succinate-semialdehyde dehydrogenase	TTGCCGGCCTCCTGCGCGCAGGCTGCAAACAACCTTACTGACGAGGGAGTCATCGTGACTGTCACTGCACCGCCAGCTGTTACCTCAAAGCGCGAGAGCGAGTTGCTGGCCTCTGTTCCCACTGGCCTGCTCATCAATGGTGAATGGCGGCCTGCCGCTTCCGGAAAGACCTTTGACGTTGAGGATCCTGCCACCGGCAAGGTCCTGTTGAGCATTGCCGACGCCGGTCCTGAGGACGGCAGGGCGGCGCTGGATGCTGCCGCCGCCGCGCAGGAATCCTGGGCGAAGGTTCCGCCACGCGAACGCGGCGAGATCCTGCGCCGCGCCTTTGACCTGGTCACCGAACGCGCCGAGGATTTCGCGCTGCTGATGACCATGGAGATGGGCAAGCCGCTGGCCGAGGCCCGCGGCGAGGTCACCTATGGTTCCGAGTTCCTGCGCTGGTTCTCCGAGGAAGCCGTCCGTGCCTTTGGCCGCTACTCGGTCTCCCCGGACGGAAAGTCCCGGCTGCTCGTCACCAAGAAGCCCGTGGGCCCCTGCCTGCTGATCACGCCGTGGAACTTCCCGCTGGCCATGGCCACCCGCAAGATCGCCCCGGCCGTCGCCGCCGGCTGCACCATGGTCCTGAAGTCCGCGAACCTCACCCCGCTGACCTCCCAACTGTTCGCCGCGGTCATGCAGGAGGCTGGGCTGCCCGCCGGCGTCCTGAACGTCATCCCCACCTCCACGGCCGGTGCCACCACCGGTCCGCTGATCAAGGACCAGCGCCTCCGGAAGCTGTCCTTTACCGGCTCCACCGAGGTGGGCCGCCGCCTGCTGGCCGACGCCTCGGAAACCGTGCTGCGTACCTCCATGGAACTGGGTGGCAACGCCCCGTTCGTGGTCTTCGAGGACGCCGACCTGGATGCCGCCGTCGCCGGGGCCATGCTGGCCAAGCTGCGGAACATGGGCGAGGCCTGCACCGCGGCCAACCGGTTCATCGTGCACGAATCCGTGGCTGAGGAATTCGCCGAGAAGTTCGCCGCGAAAATGGCGGAGATGACCACCGCCCGCGGCACCGAAGCCCAGTCCAAGGTGGGCCCGCTGATCGACGCCAAGAGCCGGGACAAGGTCCACGAACTGGTCTCTGACGCCGTGGCGTCGGGCGCCCGGGCGGTCCTGGGCGGCGCACCTGTGGAGGGGCCGGGCTATTTCTACCAGCCCACCATCCTCACCGGTGTCACCGAGGGCACCCGGATCCTGTCGGAGGAGATCTTCGGCCCCGTGGCCCCGATCACCACGTTCGGCTCCGAGGCCGAAGCCGTCCGGCTGGCCAACAACACCGAATACGGCCTGGTGGCCTACGTCTTCACCAGGGACCTGAACCGCGGCATCCGGATGGGCGAGAAGCTTGAAACCGGCATGCTGGGCCTTAACGCCGGAGTGATCTCCAACGCAGCTGCACCCTTTGGCGGCGTCAAGCAGTCCGGCCTGGGCCGCGAAGGCGGGCTCGAAGGCATCGAGGAATACCTTTACACCCAGTACATCGGCATCGCCGACCCTTACGCCGGCTGA	MPASCAQAANNLTDEGVIVTVTAPPAVTSKRESELLASVPTGLLINGEWRPAASGKTFDVEDPATGKVLLSIADAGPEDGRAALDAAAAAQESWAKVPPRERGEILRRAFDLVTERAEDFALLMTMEMGKPLAEARGEVTYGSEFLRWFSEEAVRAFGRYSVSPDGKSRLLVTKKPVGPCLLITPWNFPLAMATRKIAPAVAAGCTMVLKSANLTPLTSQLFAAVMQEAGLPAGVLNVIPTSTAGATTGPLIKDQRLRKLSFTGSTEVGRRLLADASETVLRTSMELGGNAPFVVFEDADLDAAVAGAMLAKLRNMGEACTAANRFIVHESVAEEFAEKFAAKMAEMTTARGTEAQSKVGPLIDAKSRDKVHELVSDAVASGARAVLGGAPVEGPGYFYQPTILTGVTEGTRILSEEIFGPVAPITTFGSEAEAVRLANNTEYGLVAYVFTRDLNRGIRMGEKLETGMLGLNAGVISNAAAPFGGVKQSGLGREGGLEGIEEYLYTQYIGIADPYAG	PGPT0001580_765	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
D1-29_01395	2433			hypothetical protein	ATGGCGGGGGCGGTGGCCTTTTCGGTGGCGGGCGCTGCGCTGTCGCTCAACGGCGTCCTGAGGGGCTGGGCCTGGTTTCCGCCCGTGCTGACCACGGTTTTTGTGGTGTGCATTACCCTGGCTGCCCTGCGTGCCCTCAAAGCCCAGCCACTGGTGGTTACTGCAGGCGGGTTCGCGGCACTGGGCGGCATCCTGACGTTTACGTTCTTCAGGGGTTCCAGCATTGCCGGATTCATCCCGTCGGGGAACACCATAACGGAGCTAAACCGTTTCATCCGCCGTGCCAGCGAGACGGTGCTGGCCGAAAGTGCCCCGGTGGCGCCCAACGCCGGGATTGTGATGGTCACGTGCGCCGTCCTGGGGCTGACGGTCATCCTCATCGACGCCCTTGCGATCCCATTGGGCATGCCGGCCACCACGGGGCTGGGACTCCTGGCCATCCTGGTTGTTCCGGCGATGGTGAAACCGCAGAGCGTGGGCATTTTGGGCTTCCTCGCCACTGTGGCCGGCTACCTGCTGATTCTGGCCTGCAGTCAATGGTTCGCCCCTGATGCCCGGATACCGGCTGACACTGCACGGAACCCAGGGCAGTTCAAAAGGGCCGCGCTGACGGGGACGGCTGCCCTTGTTGCCACCATCCTGATTCCCTTCGCCATACCGGGTTTTGACCAGGGGACTTTTCCGCAGGGCTCCCGGGTGAACCCCTGGGGTACGTCCACGGGCCTGAATCCCATGATTACCCTTGGCAATAGCCTGCGCACTCCCAGCGGCAGCGGGCGGATCACCTACGCGACCAATGCCACGGCACCGCTGTACCTCCGCTCAGTGACTGTGGACAATTTCGACGGCGACTCCTGGGGCCCGGACGACAGGGACGGGTCCCGGCGGCCTGTGGCGGACGAGCTTGAAACCGGGTACGAGATCCTTGCCGACGAACAGCTCCGGCAGGTCACGGCAGTGGATACGGGCAGCTTTACGAGCCCCTACCTTCCGGTGCCCTATGCACCCGAATCGATTCGCGGGCTCAGCGGCCGCTGGACCTGGGATCCTTCCACCCTCAGCATCAAAGGCAACGATACAAATTCCCGGAGCCAGCAGTACATTGTGGTCTCCTCGGCACCAAAGCTGACGGCCCAAGCGCTGGATCAGTCATCAGGTCAGGTCCAGGGAATATCCGATGACTTCACGAGGGTTCCCGGCAACGTTCCTGACATTGTGAGGACAACGGCGGATTCCGTGACAGCTTCCAGCGACACTGCCTACGCCAAGGCGATGGCTATCCAGAAGTACCTCCGCTCGGCTGAGTTCACTTATTCGCTGCAATCCCCCGTCCAAGGCGGCTACGACGGAAACGGGCTCTCGGTCCTGGCGGATTTCCTGTCCCAGAAAAGCGGGTACTGCGTCCACTACGCCTCAGCCATGGCCGTGATGGCCCGGCTGGAAGGCATCCCCAGCCGCATTGCAGTGGGCTACGCCCCGGGCAGGCTGACGGGGGCCACCGTTCCACTTGTCGGTGTCGGCACGTTGCCGGAGTTTGAAGTGGACGCCCGGGACGCCCATGCTTGGCCCGAACTGTATTTCCAGGGCCTCGGCTGGGTCCCGTTCGAACCCACCCCCTCACGCGGTGTGGTCCCGGAATATGCAACGGAAACCTTCACCCCGGGTGCCGGAAGCCTGGACAACAATGACGATCTCCTTGCATCCAACGCCCCCGTTCCGGCTCCCACCCCAACCGCTACCCCGCTGCCTGTGCCGGGCGCAGGCGGCGGCAACGCCGGCGGAACGGACCTCCTGCCCTGGCTGCTGTGGAGTGCCGCGGGCCTTGGCCTCTTGCTCGTTGCAGCATCCCCCCGGCTGATCCGCATGGGCGTGCGGGCGGGACGTTTGAGAAGTACGGGCACCACCGCGGACGACGCCGTTCCTCCGGCCTGGTCTGAGCTCCTTGACCTGGGCACGGATTACGGGTTGTCCCCGTACCCGAGCGAGACGCCCCGGGCATACTCCGCCCGGCTGCGCAGCTCCTCCCTGATGGGCCAGGCCGGCGGAATGGACGAGGCCGGTCACCAGGCCGTTATGACGCTGACCGCCGATTTCGAACGACGGAGGTACGGGCGCCCGCAGCCGGAGGCTTCACCTGAGACGGACAGTGCACCGGCAGCCACCGCGGCCCGCCAGTCCTCCCCGGGCCACGCCGGCAGGACGGAATCGACCGCTCTTCGCATTGCGGCCATTCAGCGCTCCCTGCGCGCAAACGCCCGGCGGTCCCGGCGGCTGCGGGCCGATTGGCTGCCGCCGTCGATCCTCGGACGCCTCGGACGCATGCTGGCTTCCCCCTTCAGGGCAGTGGGCAGCCTGGTCCAATGGACGGCGAAAGCCGCCGCGCACTCGTGGATGAGAGCACGCGACGGCTTGCGGCGTTTGCGCGAGGGCTAG	MAGAVAFSVAGAALSLNGVLRGWAWFPPVLTTVFVVCITLAALRALKAQPLVVTAGGFAALGGILTFTFFRGSSIAGFIPSGNTITELNRFIRRASETVLAESAPVAPNAGIVMVTCAVLGLTVILIDALAIPLGMPATTGLGLLAILVVPAMVKPQSVGILGFLATVAGYLLILACSQWFAPDARIPADTARNPGQFKRAALTGTAALVATILIPFAIPGFDQGTFPQGSRVNPWGTSTGLNPMITLGNSLRTPSGSGRITYATNATAPLYLRSVTVDNFDGDSWGPDDRDGSRRPVADELETGYEILADEQLRQVTAVDTGSFTSPYLPVPYAPESIRGLSGRWTWDPSTLSIKGNDTNSRSQQYIVVSSAPKLTAQALDQSSGQVQGISDDFTRVPGNVPDIVRTTADSVTASSDTAYAKAMAIQKYLRSAEFTYSLQSPVQGGYDGNGLSVLADFLSQKSGYCVHYASAMAVMARLEGIPSRIAVGYAPGRLTGATVPLVGVGTLPEFEVDARDAHAWPELYFQGLGWVPFEPTPSRGVVPEYATETFTPGAGSLDNNDDLLASNAPVPAPTPTATPLPVPGAGGGNAGGTDLLPWLLWSAAGLGLLLVAASPRLIRMGVRAGRLRSTGTTADDAVPPAWSELLDLGTDYGLSPYPSETPRAYSARLRSSSLMGQAGGMDEAGHQAVMTLTADFERRRYGRPQPEASPETDSAPAATAARQSSPGHAGRTESTALRIAAIQRSLRANARRSRRLRADWLPPSILGRLGRMLASPFRAVGSLVQWTAKAAAHSWMRARDGLRRLREG				NA	NA	NA	NA	NA
D1-29_01396	1440			hypothetical protein	ATGGCGATTCTGGACCGGCTGCCCCGGCATCTCTTCAGCCAGCGCGGCTGGGGGCTTTTGGCTGCCGGCGCTGTTTCCCTGGTATCAGCCCAAATCATGGGCCGGCGCGATCTTCTGAGCCTGAGTGTCCTGCTGATTATCCTGCCGCTGGTGTCCCTCGCCGGAATCAGGCTTGTCAAACCTCGTTTCCAGGTTTACCGCGAGTTCAATCCTTCGCCGGTGGAAACCTCCGCCCCCACCACTGTCCGGCTGGCGGTGGGGCGGACCGGGGTGGGCACCGGCCGCGCCATTATGGAGGAGCGGCTTCCCCACAGGTTCGGAGAATCTCCGGCGTTCCACTTCCCGGCACGCTCGGCCACCGGCGGAACCAGCAGGTATGAATACCATCTGCGATCGGCCCACCGGGGCCAGTTCCGGATCGGACCCGTTACCGCGGAGTTCACCGACCCGTTTGGCCTCTCCCTGCACCGGCAGGCCATTGACGACGGCGACGTCCTCACCGTCACGCCGGCCGCCGTCGAACTTCCCGTCACCGGGCTGGCCGGCGCACGGGGCAACGACGGCGTCACAGCCACACGGACCCGCGCAAATCCCAGCGACGATGACGTAATGACAAGGGAATACCGCCACGGCGACCCTATGCGCCGGGTGCACTGGCCGGCTACGGCCAGACACGGCGCCCTCATGGTGCGGCAGGAGGAGTCGGTGACCACTCCGGAGGCCACCATCATCCTGGACCAGCGGCATGTGACCTTCTCCGGCACCGGTGCCGGCTTCGGCGGGAACGCCTCGGCGGAGGGCCGCGACATGGCCAGCAGCGACACGTTCGAGTGGGCCGTGGTGATGGCCATGTCGGTCAGCGCGCATCTGGCTGAACGCAATTACGCCCTTCGTGTGCTTGACGTCAAGGGTGATCCCGGCTTTCTCCGGTCGCCGTCGGCGCCGGAACCGGAAACCGAAGAGTTCAGCGGCATAAGCGGCCTGCAGTCAATTGCCGAAAGCCTCGCTGCCATCCAACTCTCCGGACCCCACCACGTCCGCCGGGACTCCGGCCGCAAGGCGGAGGCTGTTTCAGGGCGCAACAACGGTGGCCCACAGGAATCCGGCCCCGCAGCCTTTGACGACCACCTCATGGACAAGCTGTCGGCCCACCGCATGCGTGGCCCGCTCATCGCGGTCCTGGGCCGGATCTCCCTGGCAGAAGCCAGAGCACTGGCGCCCGCTGCAGGATACGGAGCCAACTCTTTCGCCCTCATTGTTGCCGAGCGGCCTGCAGAATTCGACGATGTCCTGGAGGCGCTGCGGCAGGGCGGCTGGCGTGCCGCCGCGGTGGCTCCTTCGGTATCGGCGGCCACGGCATGGAGTTACTTTGACCTTGGCGGAGCAGAGCTGGACGCTGCTGCTGCAGATGTCCGGCGGGGTGCGGGGGTGGCGCGGTGA	MAILDRLPRHLFSQRGWGLLAAGAVSLVSAQIMGRRDLLSLSVLLIILPLVSLAGIRLVKPRFQVYREFNPSPVETSAPTTVRLAVGRTGVGTGRAIMEERLPHRFGESPAFHFPARSATGGTSRYEYHLRSAHRGQFRIGPVTAEFTDPFGLSLHRQAIDDGDVLTVTPAAVELPVTGLAGARGNDGVTATRTRANPSDDDVMTREYRHGDPMRRVHWPATARHGALMVRQEESVTTPEATIILDQRHVTFSGTGAGFGGNASAEGRDMASSDTFEWAVVMAMSVSAHLAERNYALRVLDVKGDPGFLRSPSAPEPETEEFSGISGLQSIAESLAAIQLSGPHHVRRDSGRKAEAVSGRNNGGPQESGPAAFDDHLMDKLSAHRMRGPLIAVLGRISLAEARALAPAAGYGANSFALIVAERPAEFDDVLEALRQGGWRAAAVAPSVSAATAWSYFDLGGAELDAAAADVRRGAGVAR				NA	NA	NA	NA	NA
D1-29_01397	1119			hypothetical protein	ATGGAATCCCACCGACGCACCGCCGTCAATGAAATTTCCCCTGCCGGCCGGAACTTCGCCGGGGTCACTGAACCTGTCACCCACATGAACGGGCACAAGACGGCACCCATGGACGCAGCATCCTTCCATGTGGCCAGCCAACGGATCCTGAACGCAATCAATACAGTGATTGACGGGAAGTCGGAGGCAGCCAAGCTGGCCCTGACAGTCCTGCTCGCGCAGGGGCACCTGCTCCTGGAAGACGTACCTGGCGTGGGCAAGACGCTCCTGGCAAAAACCCTGGCGCGGACCATCGACTGCACGGTCAGCCGCATCCAGTTCACTCCGGATCTCCTGCCTTCTGATGTGACTGGTGTTTCCATCTACAACCAGTCTTCCCGGCTGTTCGAGTTCCGTCCCGGCGCAGTCTTTGCCAACATCGTCATTGGGGACGAGATTAACCGCGCCTCAGCGAAGACCCAGTCGGCCCTGCTCGAGTGCATGGAGGAACACCAGGTCACGGTGGATGGCCACTCCTACAAGCTGGATGAGCCCTTTATGGTGGTGGCCACCCAGAATCCCATCGAGATGGAAGGCACCTACCCGCTCCCCGAGGCCCAGCGTGACCGTTTTATGGCCCGCATTTCCATGGGCTATCCGGACAAGGATTCGGAAATCGAAATGCTCGAGACCCACCAGGCAACATCGCCGCTGGCCAAGGTCTCAGCCGTGGTCACCGCAGCGGACGTGGCGGCGATGATTGCATCTGTCCAGCAGGTCTACGTTTCCCAGGCCGTCAAGGAATACACGGTGTCCGTAGGCCGAACCACGCGTGAGAGCCCGCTGCTCCGGCTGGGCGCCAGCCCGCGGTCCATGCTGCAGCTCCTTCGGGCTGCGAAGGCCACAGCCGCGCTGGACGGACGGGACTTTGTGCTCCCTGACGACGTCATCAACGTCGCTGAATCCGTGCTGGCCCATCGGATCATCCTGGACCGTAAGGCTGCCAGTGCCGGTGAGACCCCGCACAGCGTCATCCGGGGGATTCTGGCCAGGCTTCCGGTGGGCCAGGACCTGGCCGATGCCCCGGGCCGCACTGCAGCCGGCACTCCTTCGGCTTCCGGGTCACGCAGGAATCATTAG	MESHRRTAVNEISPAGRNFAGVTEPVTHMNGHKTAPMDAASFHVASQRILNAINTVIDGKSEAAKLALTVLLAQGHLLLEDVPGVGKTLLAKTLARTIDCTVSRIQFTPDLLPSDVTGVSIYNQSSRLFEFRPGAVFANIVIGDEINRASAKTQSALLECMEEHQVTVDGHSYKLDEPFMVVATQNPIEMEGTYPLPEAQRDRFMARISMGYPDKDSEIEMLETHQATSPLAKVSAVVTAADVAAMIASVQQVYVSQAVKEYTVSVGRTTRESPLLRLGASPRSMLQLLRAAKATAALDGRDFVLPDDVINVAESVLAHRIILDRKAASAGETPHSVIRGILARLPVGQDLADAPGRTAAGTPSASGSRRNH				NA	NA	NA	NA	NA
D1-29_01398	906	tatD	COG0084	putative metal-dependent hydrolase TatD	ATGTGCAATTCGCTGATTCCCGCCGCCTACCGCGGTTCCGGGAGCAACGGTTCAACGGCGGGGGGAGGTTCCGGGAGGCAGGATTTTCCGCCCGCTCCGGAACCATTGCCGGTGCCGGTGATGGACAACCACACGCATTTGGACTTCCCGGACGGTGAGGCGCCGGTGGGGGTTGCCGCTGCGCTGGACGCGGCGGAGGCAGTGGGGGTGCAGGGCGCCGTGCAGGTGGGTTGTGACCTGGCGTCGTCGCGTTTCACGGTGCAGGCCGTTGACCTGGATCCCAGGCTCCTGGGAGCGGTTGCACTCCATCCCAATGACGCCCCCGGCTATGCCCTTCGTGGCGAGCTGGAAGAGGCACTGGCGGAGATTGAACAGCTCGCCAACCATCCGCGCATCCGGGCGATTGGAGAGACCGGCCTTGATTTCTTCCGGACCAAGGGGGAGGGGCTGGCTCACCAGCGCTATTCCTTCCGCCGCCACATTGACATCGCGAAGCGCCTGGACCTGACGCTCCAAATCCATGACCGGGATGCCCACGACGACGTTGTGCAGGTCCTGCGGGAAGAGGGGGCTCCGGAGCGGGTGGTGTTCCATTGCTTCTCCGGAGACGAGGAACTCGCCAGGATCTGCAATGAGGCCGGATGGAGCATGTCCTTCGCAGGTACGCTCACCTTCAGAAACGCAGTCAACCTTCGCGCTGCGTTGGCAGTGGCCGATCCGGACTTGGTGCTGGTTGAAACGGATGCGCCTTTCCTGACGCCCCATCCGCACCGCGGCCGGCCCAACGCCAGTTACATGGTGCCGTACACCGTCCGGGCGATGGCGGAATTGACAGGAACGGACCTCGCCAACCTGTGCGGCCGAATCAGCGAAAATACCCTGCGGGCATACGGATCCTGGGCGTGA	MCNSLIPAAYRGSGSNGSTAGGGSGRQDFPPAPEPLPVPVMDNHTHLDFPDGEAPVGVAAALDAAEAVGVQGAVQVGCDLASSRFTVQAVDLDPRLLGAVALHPNDAPGYALRGELEEALAEIEQLANHPRIRAIGETGLDFFRTKGEGLAHQRYSFRRHIDIAKRLDLTLQIHDRDAHDDVVQVLREEGAPERVVFHCFSGDEELARICNEAGWSMSFAGTLTFRNAVNLRAALAVADPDLVLVETDAPFLTPHPHRGRPNASYMVPYTVRAMAELTGTDLANLCGRISENTLRAYGSWA				NA	NA	NA	NA	NA
D1-29_01399	1161	rpf2	COG3583	Resuscitation-promoting factor Rpf2	GTGGTCAAGATCTTCACATCCTCGGACGGTAAGCTCAGCTTCCTCAAGGTTGGCACCCAATTGGTGGTGCTTTGCGCTCTGGTTCTCGGCCTCGTTGCCTTCGTTGGCAATAACAAAACCATCACGCTGAACGTCGACGGAAAAGCAACTTCGGTTCAGACCTTCGGCGGCACCGTGGGCCAGGTGGTCAAAAGTGCAAAACTGGATCTGAAGCCCGCCGACCGGGTCTCGCCGTCCCTTGATGCGACCGTGGACAACGGCACCGTCATCAACGTCAATATGGCCAAGGCCGTCAAGGTCAGCCTTGACGGTGCTGAGAAGACAGTCAACACCACGGCGCAGGATGTCGGCGGTCTCGTGACGGAACTCGGCGTGGCCAGCGCTTCATCCGTCTCCGTTCCCAAGGACGCCCAGCTGAGCGTTGACGGCTCATTCGTCTCCATCACGACGCCGAAAACGGTCAGTATCGTCGCGGACGGCAACGTGTCCACGGCAACCACGACTGCCGCTACCGTTGCCCAGGTCCTTGAGGATGCAGGCCTGACACTCGGCGTCAACGATCGCACGTCCCAGCCTGGTAATGCCCATGTGGTCAACAACATGGTGGTCAAGGTATCCCGCGTGGACACCGGCAAGACTGACGCCACCACCGAACCCGTTCCGTTCGAGACCCTGACCAGCGAAAGCGCTGAGCTGTTCAAGGGCGACAAAGAAGTCACCCAGGCGGGCGCGGCAGGAAAAGTCGACAAGACCTTCAAGCTGGTGCTGGTGGATGGACGAGAAGCATCCCGCACCCTTGTCTCTGAAACTGTTTCACTCCAGCCGGTCACCGAAAAAGTTACGGTAGGGACCAAGCCAAAGCCCGTCGCGGCGGCTCCTGCCGCTACAAACACCGGAGCTGCAGCGCCGGCCATGATGAACGAGGCCATGTGGGACAAGATCGCCCAGTGTGAGTCCGGCGGACGCTGGTCTATCAACACGGGCAACGGATACTACGGCGGCCTGCAGTTTTCCATCCCCACTTGGCTTGCCAACGGTGGAGGAACCTATGGCCCCAATGCCAGCGTTGCCACCAAGGCGCAGCAGATAGACATCGCCAACAGGCTTTTCGCAAAGAACGGCCTCCGGGACTGGGGCTGTGCCTGGGCAGCGAGCAGCTAG	MVKIFTSSDGKLSFLKVGTQLVVLCALVLGLVAFVGNNKTITLNVDGKATSVQTFGGTVGQVVKSAKLDLKPADRVSPSLDATVDNGTVINVNMAKAVKVSLDGAEKTVNTTAQDVGGLVTELGVASASSVSVPKDAQLSVDGSFVSITTPKTVSIVADGNVSTATTTAATVAQVLEDAGLTLGVNDRTSQPGNAHVVNNMVVKVSRVDTGKTDATTEPVPFETLTSESAELFKGDKEVTQAGAAGKVDKTFKLVLVDGREASRTLVSETVSLQPVTEKVTVGTKPKPVAAAPAATNTGAAAPAMMNEAMWDKIAQCESGGRWSINTGNGYYGGLQFSIPTWLANGGGTYGPNASVATKAQQIDIANRLFAKNGLRDWGCAWAASS				NA	NA	NA	NA	NA
D1-29_01400	873	ksgA	COG0030	Ribosomal RNA small subunit methyltransferase A	GTGACTGAACCAACCTCCGCCGCGCCCGCACCTCTCTTCGGTGCCTCCGATATACGCCGGCTGGCGGAAGAGATCGGCATCCGGCCCACCAAGACACTGGGCCAGAACTTCGTTATTGATGGCAACACGATCCGCAGGATCGTCAGTGTGGCCAACATCGGCGCGGATGAGACCGTGCTGGAAGTGGGCCCCGGCCTCGGATCACTCACTCTTGGACTGCTGGACGCGGCGAAGGCAGTTGTCGCCGTCGAAATTGACCCTGTCCTGGCGGCCAAGCTGCCGGAAACTGTGAACGAATGGCGGCCGGAGGCCGCGGGGGACTTTTACCTCGTCCAGGCCGACGCCATGAAAGTGACAGCCCTGCCCGTTGAGCCGACGGCGATTGTGGCGAACCTTCCCTATAACGTTGCCGTACCCGTGGTGCTGCACCTGCTCCAGCACTTCCCCAGCCTCCAGCACGGCCTGGTCATGGTCCAGGATGAAGTGGCTGACAGGCTCGCGGCGGGCCCTGGTTCCAAGACCTACGGTGTGCCGTCGGTGAAGGCCGCGTGGTACAGCAGCATGCGCAAAGCCGGAGTCATCGGGATGAATGTCTTCTGGCCGGCACCCAAGATCCACTCCGGACTGGTCGCCTTCACCAGGCGGCAGCCACCTGTCACCACGGCCACCCGTGAACAGGTTTTCGCCGTGATTGACGCGGCGTTCGCACAGCGCCGCAAAACCCTGCGTGCCGCCCTCGCCGGATGGGCCGGGGGTGCCGCTGAAGCCGAACGCTGCCTGCTCGCCGCGGGAGTGGATCCAACCGCCCGCGGGGAAGTCATTGACGTAACAGCCTTCGCCAGGATTGCCGAAGCCCGCGAGGCCGCAGCATGA	MTEPTSAAPAPLFGASDIRRLAEEIGIRPTKTLGQNFVIDGNTIRRIVSVANIGADETVLEVGPGLGSLTLGLLDAAKAVVAVEIDPVLAAKLPETVNEWRPEAAGDFYLVQADAMKVTALPVEPTAIVANLPYNVAVPVVLHLLQHFPSLQHGLVMVQDEVADRLAAGPGSKTYGVPSVKAAWYSSMRKAGVIGMNVFWPAPKIHSGLVAFTRRQPPVTTATREQVFAVIDAAFAQRRKTLRAALAGWAGGAAEAERCLLAAGVDPTARGEVIDVTAFARIAEAREAAA				NA	NA	NA	NA	NA
D1-29_01401	963	ispE	COG1947	4-diphosphocytidyl-2-C-methyl-D-erythritol kinase	ATGAACGCTCCCCTGGGGCGGTTCGCGGCGCGGACGGTCCGGGTAAAGGCGCCCGGCAAGGTCAACGTTTCCCTCGATGTGGGCCCCCTCCGGCCCGACGGCTACCATTCCGTGGCCAGCGTGTACCTGGCTGTCTCGCTCTACGAGGAAGTGGCAGCCACCAGCACGGAGACGCCCGGCATTACGGTCAGCATCAGCCCGGCCAGCACCTTGGATCTTGACGGCATTGACATTCCGCTGGATGAACGAAATCTTGCCTATAAAGCAGCGACCATTATGGCCGATGTCAGCGAGCACTCCACCGGCGTGCATCTTGAGATCACGAAACGGGTTCCCGTGGCCGGCGGCATGGGCGGCGGCTCCGCTGACGCGGCGGCCACCCTCCTTGCCTGTGATGCGCTGTGGAACAGCGGCCTGTCCCGGGATGAGCTGGCGCAGCTCGCCGCCGAACTCGGAGCCGATGTCCCTTTTTCCCTGCTTGGCGGAACCGCCGTTGGGCTGGGTATAGGAGATGAGCTCTCACCCGCACTGGCCAAAGCCCAGACGGACTGGGTGCTCGTTACGGCTGACTATGGGCTGCCAACGCCCAAGGTCTATGACACCCTGGACAGGCTCCGGGACGCGGAGGGCATTGACGCCGAGGAACCCACAGCGGTGGATCCCAAGATCCTCACAGCGCTGCGCAGCGGCGACGCTGATGCCCTGAGCCGTGTCCTGCTGAACGATCTGCAGCGGGCTTCCATTGAACTTGCCCCTGCACTCCGGGATACGCTGGGAATCGGCGAGTCACATGGAGCCATTGCCGGCATCGTCTCCGGATCGGGTCCTACGGTGGCCCTGTTAACGCATAGTCCCGCGGCGGCCGAAAGCCTTGCTGAGGACCTCCAGCATTACGGCCTGAGGGCCATCGCCGTCCATGGGCCGGTACATGGTGCACGGATCATCTCCGATACCCTCCTTTAA	MNAPLGRFAARTVRVKAPGKVNVSLDVGPLRPDGYHSVASVYLAVSLYEEVAATSTETPGITVSISPASTLDLDGIDIPLDERNLAYKAATIMADVSEHSTGVHLEITKRVPVAGGMGGGSADAAATLLACDALWNSGLSRDELAQLAAELGADVPFSLLGGTAVGLGIGDELSPALAKAQTDWVLVTADYGLPTPKVYDTLDRLRDAEGIDAEEPTAVDPKILTALRSGDADALSRVLLNDLQRASIELAPALRDTLGIGESHGAIAGIVSGSGPTVALLTHSPAAAESLAEDLQHYGLRAIAVHGPVHGARIISDTLL	PGPT0007605_431	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007605-ispE-K00919	NA	NA
D1-29_01402	1827	ettA_2	COG0488	Energy-dependent translational throttle protein EttA	TTGGCACACCTTCTTGGCGGCGAAAACCTGACGGTTTCGTACGCAACGCGCACCGTCCTGGACGGCGTCACCCTTGGACTTGAGGAAGGTGACCGCATCGGAATGGTGGGCCGGAACGGTGACGGCAAATCAACCCTCATGCGGCTGCTGTCCCTGCGCGCCACTCCGGATACAGGCCGGGTGACCAAACGCGGTGACGTCAATGTGGGCTACCTCGACCAGAGCGATGTCCTCGACGGCGACCTGACCGTTGGTGCCGCCATCGTCGGTGACCAGGCAGACTATGAATGGGCACGCAACCCGCAGATCCGCGAGGTGATGGGCGGACTCGTTTCCGACGTCGACTGGCACGCCAATGTGCACGCATTGTCCGGCGGCCAGAAGAGGCGTGTGGCACTCGCGAAGCTCCTGATAGAGGACCACGACGTCATCATGCTCGATGAGCCCACCAACCACCTCGACGTCGAAGGCGTGGCCTGGCTGTCACGCCACCTCAAAACCCGCTGGCGGGCAAACCAGGGAGCCTTCCTGGTGGTCACCCACGACCGCTGGTTCCTGGACGAAGTGTGCACCAAGACCTGGGAGGTCCACGACGGGATCGTGGACCCGTTCGACGGCGGATATGCAGCGTACGTCCTGGCCCGCGCCGAGCGCGACCGCTCCGCTTCGGTAATGGAAAGCAAGCGCCAGCAGCTGGTCAAGAAGGAACTCGCATGGCTGCGCCGCGGCGCCCCGGCCCGCACCGCCAAGCCCAAGTTCCGGATCGAGGCGGCCAACGCCCTGATCGCCGACGTCCCGGAGCCCCGCGACTCAACGGCACTGAGCAAAATGGCCACCGCCCGCCTGGGCAAGGACGTCCTGGACCTTGAGAACGTAACGCTGGACTTCCTCGGCGGCGAAGAAGGGCAGAAACTCTTCGACAACATCACCCTGCGTCTTGCGCCGGGCGAACGCCTGGGCCTGGTAGGCGTCAACGGCGCCGGCAAAACCACCCTGCTGAAGCTGCTCAACGGACAGATCGAGCCGACGTCGGGCAAGCTGAAGCGCGGTAAGACAGTGGTCACCGCCGTGCTCACCCAGGAAGTCAAGGAGCTCGACGACGTCTCGGACCTGCGGGTCATTGAAGTGATCGAGCGGGAGAAGCGTTCCTTCAACGTGGGCGGCAAGGAGTTCACCGCCGGCCAGCTGGTGGAACAGCTCGGCTTCACGAACGAGAAGCAGTGGACCCCCGTTAGGGACCTTTCCGGCGGTGAACGCCGCCGCCTCCAGCTCCTGCGGCTGTTGGTAGGGGAGCCGAACGTGCTGATGCTCGATGAGCCCACCAACGACCTCGACACCGACACCCTGGCCGCCGTCGAGGATGTCCTGGACGGATGGCCGGGCACCCTTGTGGTGGTCAGCCACGACCGTTACCTGCTGGAGCGCGTGACAGACCACCAGATGGCGCTGCTGGGCGACGGTAAGATCCGCGCCCTTCCGCGCGGCGTGGACCAGTACCTGGAACTCCGCGAATCCGCGCTGGCCGGCTCCACCATCACCGGCGGCGGCAACCCCGTCACCGGACCGAGCGGCGCCTCGGCTCCCGCTGCATCCGGATCCTCCGAAGCCGAAAAACGCGACGCCCGCAAAGCCAAGAACCGGATCGAGCGCCAGATGGGCAAGCTCGAGCAGCAGGAAAAGAAGCTTCACGACCAGATGGTCAAAAGCACCAACGAGAACGACTTCGACGCCCTGGCCGAACAAAACAAGAAACTCAAGGACCTGGCCGGCGAACGCGAAGCCCTCGAACTCGAATGGCTCGAAGCCCTGGAAGTCCTCGGCGAGTAG	MAHLLGGENLTVSYATRTVLDGVTLGLEEGDRIGMVGRNGDGKSTLMRLLSLRATPDTGRVTKRGDVNVGYLDQSDVLDGDLTVGAAIVGDQADYEWARNPQIREVMGGLVSDVDWHANVHALSGGQKRRVALAKLLIEDHDVIMLDEPTNHLDVEGVAWLSRHLKTRWRANQGAFLVVTHDRWFLDEVCTKTWEVHDGIVDPFDGGYAAYVLARAERDRSASVMESKRQQLVKKELAWLRRGAPARTAKPKFRIEAANALIADVPEPRDSTALSKMATARLGKDVLDLENVTLDFLGGEEGQKLFDNITLRLAPGERLGLVGVNGAGKTTLLKLLNGQIEPTSGKLKRGKTVVTAVLTQEVKELDDVSDLRVIEVIEREKRSFNVGGKEFTAGQLVEQLGFTNEKQWTPVRDLSGGERRRLQLLRLLVGEPNVLMLDEPTNDLDTDTLAAVEDVLDGWPGTLVVVSHDRYLLERVTDHQMALLGDGKIRALPRGVDQYLELRESALAGSTITGGGNPVTGPSGASAPAASGSSEAEKRDARKAKNRIERQMGKLEQQEKKLHDQMVKSTNENDFDALAEQNKKLKDLAGEREALELEWLEALEVLGE				NA	NA	NA	NA	NA
D1-29_01403	600			hypothetical protein	ATGACAGGCCTGCAGCGGCGCAGCCAGCTGATCGAGGTGGGACGTGGCCTCTTCGCGACCCGCGGGCTCGACGGAACCACCATCGAGGAAATCGCGGCCTGTGCGGGCGTCTCCAAGCCGGTGATTTATGAACACTTCGGCTCAAAGGAGGGCCTGTACACCGAGGTGGTGGACTTTGAGTTCCACATCCTCCTGGACTCCATCAACAGCGCCTTAACGGAGGAGGGCAAGCCACGTGTCCTGGTGGAGCGCGCTGCCCTTGCCCTGCTCACCTACATCGAGGACCGCACCGACGGTTTCCGGATCCTCATGCGCGACGCTCCCCCGTCCCAGCCCGAGGGTGCCTTTTCAACACTCTTGTCACATGTCACAACCCGCGTGGAGCACATCCTCTCCGACGAGTTCCATCGGCGCGGCTTCAGCGCCGAAGACGGTGCCATGTACGCCCAGATGCTGGTTGGCATGGTCGCAATGACCGGCCAATGGTGGCAGGACAGCCGCGAGCCGGACAAACACACGGTGGCCGCCCATCTCGTGAACCTGGCCTGGAACGGCCTGACCGGCCTGAAAAAGGACCCAGAGCTCAAGTCCGAAGGCTGA	MTGLQRRSQLIEVGRGLFATRGLDGTTIEEIAACAGVSKPVIYEHFGSKEGLYTEVVDFEFHILLDSINSALTEEGKPRVLVERAALALLTYIEDRTDGFRILMRDAPPSQPEGAFSTLLSHVTTRVEHILSDEFHRRGFSAEDGAMYAQMLVGMVAMTGQWWQDSREPDKHTVAAHLVNLAWNGLTGLKKDPELKSEG				NA	NA	NA	NA	NA
D1-29_01405	1485	glmU	COG1207	Bifunctional protein GlmU	GTGATCCCCGAGACCACCGGCCCAGCTGCCGTCATTGTTCTTGCAGCAGGCGCCGGTACCCGGATGAAATCCCGTACCCCTAAGATCCTCCACGAGATCGGCGGCCGCTCCATGGTGGGGCATGCCTTGCTGGCAGCCCGCAGCATCAATCCGCAGCAACTGGCGCTCGTGGTGCGGCATGAACGCGACCTGGTGGCCAAGCACCTGGGCGAACTGGACGCCGACGCCATCATCGTGGACCAGGATGAGGTGCCCGGTACTGGCCGCGCCGTGGAGGTTGCCCTTCACGCCCTGGACGCCCAAAAGCCCCTCACCGGAACGGTTGTGGTGACCTACGGCGATGTTCCGCTGCTCACGGGAAGCCTGCTGGCCGAACTTGTGGCCACGCATCAACGGGAAGCCAACGCAGTTACAGTCCTCACTGCGCTGCTCGACGACGCCAGCGGCTACGGGCGGATCCTTCGCGGCGACGACGGGACCGTGACCGGCATCCGGGAGCATAAGGACGCATCGGAGGCTGAACACCTCATCCGCGAGGTCAATTCCGGAATCTACGCTTTCGACGCCGGTTTCCTCCGCGACGCGCTGGTTCACGTCACCACCAACAACTCCCAGGGCGAGAAGTACCTCACGGACGTGCTGGGTCTGGCACGGGAGGCAGGCGGGCGGGTAGCCGCCGTCCTCACCGAAGACCGCTGGCAGGTTGAAGGAGCCAATGACCGGGTGCAGCTCTCCGCCCTTGGAGCCGAGCTGAACCGCAGGACCGTTGAGGCCTGGATGCGCGCCGGGGTCACCGTTGTTGACCCCGCCACCACCTGGATTGACTCCACGGTGACGCTGGACCAGGACGTCCGTATTCTGCCCAACACCCAGCTGCACGGCAGCACCAGCGTGTCCCGGGACGCCGTCGTCGGCCCCGATACCACCCTGACCGATGTTCACATCGGTGCCGGAGCCACTGTGACACGCACCCACGGTTCCGGTGCCGTCATCGGAGCGAATGCCGCCGTCGGGCCTTTCACGTACCTGCGCCCCGGCACTGTCCTGGGCGAGACAGGGAAGATCGGCGCCTTCTACGAGACCAAGAACGTCACGATCGGCCGCGGCTCCAAACTGTCGCACCTTGGCTACGCCGGCGACGCCGAAATCGGTGAAGACACGAATATCGGCTGCGGCAACATCACGGCCAATTACGACGGCGAGAACAAACACCGCACGGTGATCGGCTCCGGCGTCCGGACGGGTTCCAATACTGTCTTTGTTGCGCCGGTCACTGTGGGGGACGGCGCCTACAGCGGCGCCGGCGCCGTCATCCGAAAAGACGTCCCGGCCGGAGCCCTGGCCGTCTCCGTCGCCCCGCAGCGCAATGCCGAGGGCTGGGTTATCGCCAACCGCCCGGGCAGCCGCTCCGCTGAACTGGCCCAGGCAGCCTCCCCAGATTCCTCCAGTACCCAGGCACCTACAGAAGAGGGCAAGCAACAATGA	MIPETTGPAAVIVLAAGAGTRMKSRTPKILHEIGGRSMVGHALLAARSINPQQLALVVRHERDLVAKHLGELDADAIIVDQDEVPGTGRAVEVALHALDAQKPLTGTVVVTYGDVPLLTGSLLAELVATHQREANAVTVLTALLDDASGYGRILRGDDGTVTGIREHKDASEAEHLIREVNSGIYAFDAGFLRDALVHVTTNNSQGEKYLTDVLGLAREAGGRVAAVLTEDRWQVEGANDRVQLSALGAELNRRTVEAWMRAGVTVVDPATTWIDSTVTLDQDVRILPNTQLHGSTSVSRDAVVGPDTTLTDVHIGAGATVTRTHGSGAVIGANAAVGPFTYLRPGTVLGETGKIGAFYETKNVTIGRGSKLSHLGYAGDAEIGEDTNIGCGNITANYDGENKHRTVIGSGVRTGSNTVFVAPVTVGDGAYSGAGAVIRKDVPAGALAVSVAPQRNAEGWVIANRPGSRSAELAQAASPDSSSTQAPTEEGKQQ	PGPT0018955_233	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCOSAMINE_MODIFICATION,PGPT0018955-glmU-K04042	NA	NA
D1-29_01406	981	prs	COG0462	Ribose-phosphate pyrophosphokinase	ATGAGCGAAATTACGGCGCGCGGCGAGAAGAAGCTGGTGCTTGCCGCCGGGCGGGCCCACCCCGAGCTTGCGCGGGAGATCGCCAAGGAGCTCGGAACCGAGCTGCTGCCTATTGACGCCTATGACTTTGCTAATGGCGAGATCTACGTCCGTGCCGGCGAAAGCGTCCGCGGCACCGACGCCTTTGTGATCCAGGCCCACCCCGCACCGCTGAACAACCACCTCATGGAACAGCTGATCATGATTGATTCGCTGAAGCGTGCCTCTGCCAAGCGCATCACCGTGGTTTCACCGTTTTACCCTTATGCCCGCCAGGACAAGAAAGGGCGCGGCCGCGAACCGATTTCAGCCCGCCTGGTAGCTGACCTTTACAAGACCGCGGGTGCCGACCGCATCATGAGCGTGGACCTGCACACGTCCCAGATCCAGGGTTTCTTCGACGGCCCGGTGGACCACCTTATGGCCATACCGCTTCTCGCCGATTACATCCGCACGCGCGTGGACGCCGAAAACATCACTGTAGTATCTCCGGATACCGGCCGGGTCCGTGTGGCGGAGCAGTGGGCAGAGCGCCTGGGCGGGGCGCCGCTTGCGTTTGTGCACAAGAGCCGTGACCTGACAGTGCCCAACCAGGCCATTTCGAAGACCGTGGTGGGCCAGATCGAAGGACGCACCTGTGTCCTCATTGATGACATGATCGACACCGGCGGAACCATTTCAGGCGCGGTCCAGGTACTCAAGAACGCCGGCGCCAAGGATGTCATCATCGCCGCCACCCACGCCGTATTCTCAGACCCTGCCGCGCAGCGGCTCGCTGAATCAGGCGCCCGCGAAGTTGTGGTCACCAACACGCTGCCCATCACTTCCTCCCAGCAGTTCCGGCAGCTGACGGTGCTTTCGATCGCACCGTTGATCGCCCGCGCCATCCGCGAAGTGTTCGACGACGGCTCCGTCACCAGCCTGTTTGACGGCAACGCCTAA	MSEITARGEKKLVLAAGRAHPELAREIAKELGTELLPIDAYDFANGEIYVRAGESVRGTDAFVIQAHPAPLNNHLMEQLIMIDSLKRASAKRITVVSPFYPYARQDKKGRGREPISARLVADLYKTAGADRIMSVDLHTSQIQGFFDGPVDHLMAIPLLADYIRTRVDAENITVVSPDTGRVRVAEQWAERLGGAPLAFVHKSRDLTVPNQAISKTVVGQIEGRTCVLIDDMIDTGGTISGAVQVLKNAGAKDVIIAATHAVFSDPAAQRLAESGAREVVVTNTLPITSSQQFRQLTVLSIAPLIARAIREVFDDGSVTSLFDGNA	PGPT0021480_1887	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948	NA	NA
D1-29_01407	594	rplY	COG1825	50S ribosomal protein L25	ATGTCTGAGCAGAAGCTCGCAGCAGAAGTACGCAATGAATTCGGCAAGGGTTTCGCCCGCCGTGCCCGCATGGCCGGCCAGATCCCCGCAGTCATCTACGGCCACGGCGCAGACCCCATCCACATCACCCTTCCGGCGAAGGCCACCACGCTGGCCGTCCGCGTTGCCAACGCCCTGCTGTCCCTGGACATCAACGGCGAAGACCACCTAGCCCTGGTCAAGGACATCCAGCGCGACCCCATCAAGCAGATCATCGAGCACATCGACCTGCTGACCGTCCGCAAGGGCGAAAAGGTCACCGTTGACATCCCCGTCCACGTTGTTGGCGAACTTGCTCCGGGCAACGTCTACAACCAGGAACTCACCGTTATCTCCCTTGAGGCTGAGGCAACCCACCTGCCCACCGCCATCGAGGTTGACATCGAAGGCCGCACAGCTGGCCAGCACATCCACGCATCGGACCTGGTTCTCCCCAAGGGCTCCATCCTGCTGGCTGACGCCGAGGCCCTGGTCGTCAACATCTCCGAGGCCACCGAGGTCACGGATGAAGAGGCAGCCGGTACCGAGGGCTCTTCCGAGGCCGCAGCCGAGTAA	MSEQKLAAEVRNEFGKGFARRARMAGQIPAVIYGHGADPIHITLPAKATTLAVRVANALLSLDINGEDHLALVKDIQRDPIKQIIEHIDLLTVRKGEKVTVDIPVHVVGELAPGNVYNQELTVISLEAEATHLPTAIEVDIEGRTAGQHIHASDLVLPKGSILLADAEALVVNISEATEVTDEEAAGTEGSSEAAAE				NA	NA	NA	NA	NA
D1-29_01408	591	pth	COG0193	Peptidyl-tRNA hydrolase	ATGACTGACACCTGGCTGATCGTGGGCCTCGGAAATCCCGGGGCCGAGTACAAGGGCAACCGGCACAATGTGGGCCAGATGGTTCTTGACGAACTCGCCGGCAGGATGGGCTCCGGTTTTAAGGCCCACAAGGCCCGCGCACAGGTGATCGAAGGCCGCCTGGGGATCGGCGGCCCCCGGGTGGTGCTGGCCAAACCGATGAGCTACATGAACGTCTCGGGTGGCCCAGTGGCTGCCCTCGCCAACTTCTATGGCATCACCCCCGATTATGTCGTGGCCGTGCATGACGAAATCGACATTCCTTTTAACACAGTGAAACTGAAGATCGGCGGGGGAGAAGGCGGCCACAACGGCCTCCGGGACATCTCCAAGGCGCTGGGAACGAAGGATTACCTCCGTGTCCGGGTGGGTGTGGGCAGGCCCCCGGGCAGGATGGACACCGCGGATTACGTCCTGCGCGACTTTGCCACTGCCGAACGGAAGGACCTTCCGTTCCTGCTGGATGAGGCCGCAGATGCAGTAGACATGCTGGTCAGGGATGGGCTGACGGCCGCGCAGCAGAAGTTTCATCCCGCGAAGTCGGAGCTCTAG	MTDTWLIVGLGNPGAEYKGNRHNVGQMVLDELAGRMGSGFKAHKARAQVIEGRLGIGGPRVVLAKPMSYMNVSGGPVAALANFYGITPDYVVAVHDEIDIPFNTVKLKIGGGEGGHNGLRDISKALGTKDYLRVRVGVGRPPGRMDTADYVLRDFATAERKDLPFLLDEAADAVDMLVRDGLTAAQQKFHPAKSEL				NA	NA	NA	NA	NA
D1-29_01409	2739			hypothetical protein	ATGTCAATCGAGCCACTCAGCTGGGGACGTGGGTCAACGCTCAACGCCGTTGAGTCGCGCACCAACGTCGCAGACACGTCAGATCTTCATAGGTGGTCGGTGCCAGCCCGAAGCGCCAACCTCGAAGCTGTCCGCACAGCCCTGACCAGCAAGGACTCGCTGGGAGTGGTCATCACCGGTGCTCGAGGAGTGGGCAAGTCATCCCTCGCCCGCACTGCTGTCTCTGAACTTGGCCCTGATGTCTGGGCATTGCAGCTGCGCAGCGGTCCCACCGCCGCGAAAACCCCGTACGGATGCCTGGCGTTCCTGCTGGCCCGGCTTCCGCAGGCCTACATGGGCTCGCCGACTGCCATCCTTCGCGGCATCACGTCCCTCATCAAGAGCGATGCTGCCGGGCGTCAATGCGTTATTACGCTGGACAACGCGGAAAGCCTGGACGAAATGAGCGCCGGTGTCCTACTGAATGTCCTCCTGACCGGGACGGCCCGGATCGTCGCGGTGGCGCCAAAGAGCAGCGATCTTCCGGCAGACTTCCACTGGCTTCTCACAGACCGGCGGCTGACCGAGGTCAGGCTGGACAACCTCAACGAGCTTCAGACGCGGCAGGTGCTGTTATCCCTCCTGGGGCATCGGGTGTCAGCCTCCCTCGTCAGCACCTACCACAGCATGGTGGGCGGAAACCCCCTGTTGCTGAAGGCACTGGTCACTGAACAGCAGCAATCCGGGAACCTGGTGCTTGCTGATTCTGTCTGGACACTCCGCGACAAGGTTGTGCTCGACGGCGCGGCGAGCCTGGATGACATCGTCAGGTCCCGGTGGGCCAGGAAATCTCCGGAAACCAGGGAAGTTATCGAAATGCTTTCCTGCGCCAGGAGCGTGGAGCTTTCACGGCTTACAGCTCTCTACGGCGCAGCGATCGTGGCTGACATGGAGGACGTCGGACTCCTGGACATCGACGATTCAGACAACCGCTGGGTGTCACTGCGTGAGAAATACCTTGGCGACGTCGTCCGGTCATGGCTGAGCATCAGCAGGCGCCGGGAACTTCGGAACCAGCTCCTGGACGGTGCGGACCCGGACCCGGCATCCATGACCATGGACGAACTGATGTCTTTTGCGGCCTGGACCTACGAGTGCGAGGCCGAACTTAGCCCGGCCATGGCACTGGCCGCAGCCGAGGCTGCCGTCCAGCTCTTTGATCCGCACTTTGCCCTCACATGCACCGAGGTCCTCAAGAGGAATGATCCACAGTGGGTCCATGGTCAAAGGCAGAAGGCCGCCGCGTATCTTTTGCTCGACCTGCCTGTCCAGGCCATGGCAGCCCTGGACGATATCTCCCAGCCGCAGTTGGACAACCTCGGCGAAGCGGAATACGCCAACGTTATCGCCGCCAAATCCCGGGTCATGGTGTGGCTGCCGGAACTTACGGAGAAAGTACCCGCCTTGCTGGAGGCGGCACGGAAAAGGCTTGACGTCCCGGCAGGGATCCCCAAGGGCTGGCCCGACCCCCTGGCCGCCGCCGCCAACCGGATCAGCCTCAGCGAATTCGAGTACAAGGCTTTTGTGGGCGACTACGCCTCGATGATCCCTGCACTTGAAGCGGCATACGATCCTGCCCTCAACCCGGACCTGGGGTTCAGGATGAATTCCGCGGTCATCCTCATGACCGCATTGGCCATGACCGGGCGCGAGATGGACGCGCTGAGCCTCATGAGGCAGGTAGGAGGCAAAATCTCCGACGCCGCCCAGATCGTTGGCCTGCGTGAACAGTTCACCGTCGAGGCGTACTCGGTGCTGCTGACCGCCGGCCAATGGCGCCGGTGCATTGACCTGCTGGACCCGCCCGCCACGCGGGAAGCCCATCGGCTCCCGTACCGGAGCGCCGCTGCCGAGCTGTCCGCCGGAGTCGCCTACGTCTACTCGGGAAGGGGTGCGGCTGCACTGGATTCGCTGTTGTCCGCAGCCGCGCAATTGGAGCTTCGGCCGCAGCAGGGCGCCCTTCGGACGGCTTACGCGGCCACCGCGCTGGCCTATGCTCAGATCGGCAATGCCGGGCAGTCCCGCAAGTATCTCGAGAAGCTCAGGAGGCCGGCGGGTCCCTGCAGCTTTGTCACGCAGAGCATCATCGAATTCTGCATTGATATGGCTGGCCGCTGGTTGGGGGATGCGGACGCCATCGCACGCCTGAAGGAGTCAGCCCGCCAGGACATCAAGGAGCAAAGATACACCCTTGCAGGAATCAGCCTCCTTGGCGCCACCATCAACGGCACGGAGGCCGACTTCCGGCTCCTGGAGGAGGTGGCCGGTCACCGGCAGGGCCCGCTGGCCGAGATTTCCCGTCTGATCGCCATAGGCAGCCGGACCAAGGACGCCAAAACCCTGCTTGCCGGCGGCGAGCTCGCAGCCACGCTAGAGCTGGATACGGTGGAGGCGAGGTGTATGGCACTTGCAGTGGATTACGCCCGCCAGGCCGGGGATTCAGTATCCGCAAGGACGGCCCAGGCCCGGCTGGACATCCTGGCTGCCACCGTTCCAAGTTTGCCCATCGTTCCGAGCACTGGGAGTCCTCTGCTGACCAGCCGGGAGCGGCAGATTGCGCGGCTGGCAGGCAGGGGCGCCTCAAACCGTGACATCGCATTGGAGATGGGCGTCTCAGTCCGCACCGTGGAAGGCCACCTGTACCAGGTCTTTACGAAGCTGGGCGTAACTTCCAGGGGTGATCTGACTGGACTCGTTTAA	MSIEPLSWGRGSTLNAVESRTNVADTSDLHRWSVPARSANLEAVRTALTSKDSLGVVITGARGVGKSSLARTAVSELGPDVWALQLRSGPTAAKTPYGCLAFLLARLPQAYMGSPTAILRGITSLIKSDAAGRQCVITLDNAESLDEMSAGVLLNVLLTGTARIVAVAPKSSDLPADFHWLLTDRRLTEVRLDNLNELQTRQVLLSLLGHRVSASLVSTYHSMVGGNPLLLKALVTEQQQSGNLVLADSVWTLRDKVVLDGAASLDDIVRSRWARKSPETREVIEMLSCARSVELSRLTALYGAAIVADMEDVGLLDIDDSDNRWVSLREKYLGDVVRSWLSISRRRELRNQLLDGADPDPASMTMDELMSFAAWTYECEAELSPAMALAAAEAAVQLFDPHFALTCTEVLKRNDPQWVHGQRQKAAAYLLLDLPVQAMAALDDISQPQLDNLGEAEYANVIAAKSRVMVWLPELTEKVPALLEAARKRLDVPAGIPKGWPDPLAAAANRISLSEFEYKAFVGDYASMIPALEAAYDPALNPDLGFRMNSAVILMTALAMTGREMDALSLMRQVGGKISDAAQIVGLREQFTVEAYSVLLTAGQWRRCIDLLDPPATREAHRLPYRSAAAELSAGVAYVYSGRGAAALDSLLSAAAQLELRPQQGALRTAYAATALAYAQIGNAGQSRKYLEKLRRPAGPCSFVTQSIIEFCIDMAGRWLGDADAIARLKESARQDIKEQRYTLAGISLLGATINGTEADFRLLEEVAGHRQGPLAEISRLIAIGSRTKDAKTLLAGGELAATLELDTVEARCMALAVDYARQAGDSVSARTAQARLDILAATVPSLPIVPSTGSPLLTSRERQIARLAGRGASNRDIALEMGVSVRTVEGHLYQVFTKLGVTSRGDLTGLV				NA	NA	NA	NA	NA
D1-29_01410	2664			hypothetical protein	ATGGCGGGACCGGGCATCGGGAAGTCAGCCCTGAGTGAAGCCATCACGGAGCGCCTTGCCGCCGAAATGATTGTTGTGCAGATCCATGGCAGTTCTTCTCTGGCCGGGGTTCCCTTTGGTGTCCTTGCCCCGTACACGGCGGAACTGACAGCAGAGGACTCTGTTTCACCGGTAGCTGTCCTCAGGTCAGTCTGGACCTACTTCGAAAAACTCAAGGCGGGCAAGGACACCCCGCTTTTGCTGGTGGTGGACGACGCCCACCACCTCGATGATTCAACCGCCAGCATTGTTGCAGACATGATTTCGGCCAGCTGGGCAAGTGTGGTTGCTTCCGGCAGGCCACGGCCCGGACTGCCACAGCCGCTGGCCCAGCTTTGGTATGACGGCCTGGCGGAACGGGTGGATCTTCGCCCGCTGAACAGGGAACAGATCGAGGAAGTCCTCACCCACGTATTCGACGGAACCATCCCCGCCGGCACCGTAGATGCCATCTGGAGCGCCTCGGGGGGAAACCCCCGAATCCTGGACGCGCTGCTCCACGACACTGCGGAGCGGGAAGTGCTGGCAAAGCGCAACGGCATCTGGATGCTCCTGGGACCGCTGCCGGCCGACGGGCCAAGGCTCACAGCGGTGGTGACCAAAGACCTCCTTCGACGAAGCCCCGAGGAACAGGAAGCCCTCAAGCTGATCGCCCTGGCCGAACCCGTGGCGCGGAAAGCCATAGAAGACATCAGCGGCGCCGAAGTGGTCCGTGCGCTGCTGGACCAGCAAATGATCGTGGAGGGTACCGGCCACCCCGCTGAGCTGCGGATGTGGAACACGCTGTTCGGCCAGGCTGTCCGGAAGAATGTCTCCGTCTCCCGGAGCCTGCAGTTGCTGGAAAAGATTCGTGCCCAGCACGATGCGGAGCCGGCCGGCGCGGAAGGCCGGCTCAGGGCGGTGGAATGGGCATTGGAGTGCGGGCAGAAAGTTGCCGACGCGGACCTCCTGGAAGCAGCAGGCACCGCAGTGACCAGGTTCCGCAACGTGAGCGCCGTGATGATGGCGGCAAAAGTGCATCGGTCCGACCTGGTGCCGCACGCCCAGGCCATCCGGGCACGGGCGCTTTTCAACCAGGCAGATTACGCCGCGGCGGCGGATATCCTGGACGAGTGCTGGATCCCGCTGTCGGAGAGCCCCGAAGCCGCCCAGGTACTGATGCTCAGGGCACAGTCACACCAGGCCCTGGGAAAGTCAGCGGAAACTTTCGCGGCAGAATCCCGGGAGCTTCTCAGCCAGGCCGGACTCATCCTGCCGACGGCTGGTTACGTTGACAGCCTCTCTGATGGCAACGGCTCTGATGAAGGCAGCGCTGATGGCAACGGCGCTGATGAAGGCAGTGAACAGGCCAATGGCCGCCCTGCGGACACGGCAGGGGAGAGGACCTGGCAGGAGCACGTCCTTCAGCTGCTGGAACTGGGGGCAGCGGGCAACCATGAGGCGCTCCACGCTGAAATCCAAGGCATCAAAAACCGCACTCCGGCAGGGCCCTACGATGATGCGCTCCGGACCTTCGGGCTGGCCCTGCTGGCTCACACACTGTCGGCCGCGGGACGATCCGCCGAGGGGCTGGACGACGCACTGTTGGCCGCATCTGAACTTCCTGCGCTCCAGGACGGCCTGTTCTGCTTCAATGAATTCGTCCTGGGCCGGCTGGTGATCAACTACCTTGCCATGGGCGAATGGGAATCCGCCGAACGGGAACTTGCCAGCTATGCTGCCAGCCAGGTGCAGGGTGCCGCCACCTTCAGCGGCAGCGTCCAGGTGCTGCGCGGCTATTCGCTCCTGCGCCAGGGCAGGATTGAGCGTGCCTACCAAATGCTCCTGCCGGCGGTGGAAGCATTGAGGCTGAACGATCCACAGCAGCTGTTTCGCTTCGGTTCCGCCCTGGGCTTCTATGTGGCAGCCAGGCTGGGTGACGTCGCCCAGGCCATCCGGCTGGAGCAGGACTACAAGGACGCCACCATCGCCCGGCCGCACGAGCACCTGGCAGCAGCCTATGCCGCCGCGGCGGCTGAGTACCTGGCCCGGGACGGCAAAGGCCTGGCCTCGATCCATACGCTGGCTACCACTCATGATGTCTCTGCCCGGCCCGGGACCATGCTGGAATTCCTGGCCATCTGCTGGGACCTGGGTGACAACTCGGTGATTCCCCTGGTCCATTCGCTTGCCAAGGATGTCGAAGGCAGGTGGGCCGAAGCGATGCTGATGTTATCCCGTAACTGGGAGTCCGCGGATGCCGATGCCCTGATGGATACGGCAACAGCGCTTGAAAATTCAGGGTTCGTCAACCTTGCCCGGGAGGCCTACGCCAGGGCAAGCACACTCCTGGAGCAATCCGGTGAACGGCGCCGGGCCAGGCAGGCCGTTGCCCTGCGCGAGAAATGCGATCACGAACTCGGTGAGCGGTTCAGGGAGGGCCATTTCATCGCCGCAGCGCCGGCAGTGCATCTGACCCGCCGGGAGCAGGACATTGTGGAGCTCGCCCTCCAGGGCCTAACAGACCGGGAGATTGCCCAGCGGCTGATGGTGTCGGTGCGGACCGTGGAGGGCCACCTCTACCGCACTTATGTGAAGCTGGGTGTGCGAAGCCGTGACGAGCTGGCTTCGGCGCTTCCAAAATAG	MAGPGIGKSALSEAITERLAAEMIVVQIHGSSSLAGVPFGVLAPYTAELTAEDSVSPVAVLRSVWTYFEKLKAGKDTPLLLVVDDAHHLDDSTASIVADMISASWASVVASGRPRPGLPQPLAQLWYDGLAERVDLRPLNREQIEEVLTHVFDGTIPAGTVDAIWSASGGNPRILDALLHDTAEREVLAKRNGIWMLLGPLPADGPRLTAVVTKDLLRRSPEEQEALKLIALAEPVARKAIEDISGAEVVRALLDQQMIVEGTGHPAELRMWNTLFGQAVRKNVSVSRSLQLLEKIRAQHDAEPAGAEGRLRAVEWALECGQKVADADLLEAAGTAVTRFRNVSAVMMAAKVHRSDLVPHAQAIRARALFNQADYAAAADILDECWIPLSESPEAAQVLMLRAQSHQALGKSAETFAAESRELLSQAGLILPTAGYVDSLSDGNGSDEGSADGNGADEGSEQANGRPADTAGERTWQEHVLQLLELGAAGNHEALHAEIQGIKNRTPAGPYDDALRTFGLALLAHTLSAAGRSAEGLDDALLAASELPALQDGLFCFNEFVLGRLVINYLAMGEWESAERELASYAASQVQGAATFSGSVQVLRGYSLLRQGRIERAYQMLLPAVEALRLNDPQQLFRFGSALGFYVAARLGDVAQAIRLEQDYKDATIARPHEHLAAAYAAAAAEYLARDGKGLASIHTLATTHDVSARPGTMLEFLAICWDLGDNSVIPLVHSLAKDVEGRWAEAMLMLSRNWESADADALMDTATALENSGFVNLAREAYARASTLLEQSGERRRARQAVALREKCDHELGERFREGHFIAAAPAVHLTRREQDIVELALQGLTDREIAQRLMVSVRTVEGHLYRTYVKLGVRSRDELASALPK				NA	NA	NA	NA	NA
D1-29_01411	1326	csd_1	COG0520	putative cysteine desulfurase	TTGGCCGTAGTATCAACGCCTGCCACGCTGGAACGCGCATTGCCGGCCATGGACAACTCGGAGGTCCTGCGGATCCGCAATGACTTCCCCGTCCTCGGACAGTTGGTGAACGGGCGGCAGCTGGTCTATCTGGATTCGGGTGCGACGTCCCAGAACCCACTCAGTGTGATCGAGGCAGAGCAGGAGTTCTACGAACAGCGAAATGCCGCGGTACACCGCGGCGCACACCACCTCGCTGTGGAAGCAACCGAAGTTTTCGAAGACGCCCGCCAGACCATGGCCGACTACATCGGGGCCGATTACACGGAAACTGTGTGGACCTCCAACGCCACCGAAGGCCTCAACCTCATCAGCTACTCCTTGTCCAACGCCTCGCTGTGGTCTGCGCAGGGACGGGGAGATGAGAGGCTCAGAAGCCTCGCCGTGGGACCGGGGGACCAGATCGTTGTCACAGAAATGGAGCACCACGCCAACCTGATCCCCTGGCAGGAACTAGCCTTCCGCACCGGCGCCACCCTCCGCTACATCCCGGTGGATGACACCGGGGCACTGAGCATGGACCAGGCCGCCGCCATCATAGGGGAGCGGACCAAGGTACTGGCTTTCACGCACGCTTCTAACGTGCTCGGAATCATCAACCCAGTACAGGAACTGGTGGCCCTGGGCAGGAGAGCCGGAGCCCTGGTGGTCCTGGACGCCTGCCAGTCCGCACCGCACCTGCCGCTGAATGTGAAGGACCTTGACGTCGATTTCGCGGTCTTTTCCGGGCACAAGATGCTTGCACCTACCGGGATCGGCGTACTGTACGGCAGGCAGGACATCCTGGACGCCCTGCCGCCGTTCCTGACCGGCGGTTCCATGATCACCACGGTGACCATGGAGAGGGCCGAATACCTGCCGGCCCCGCAGCGTTTCGAAGCCGGAACCCAGCGGATCTCGCAGGCAGTTGCGCTGGCCGCCGCCGCGAACTATCTCACCGAGACAGGCCTGGAGCGGATCCATCACTGGGAGTCGGAGCTTGGCCAGCGCATGGTATCCGGGCTGCAGGACATCCCGGGAGTGCGTGTCCTGGGGCCAGTGGCCGGGCAGGATCGGATCGGGCTAGCGGCATTCGACGTGGACGGCGTTCACGCGCACGACGTCGGCCAGTTCCTCGACTCGCGGGGCATCGCCGTCCGCGTGGGGCACCACTGCGCCCAGCCGCTGCACCGGCGCCTCGGACTCACGGCGACCACCAGGGCCAGCGCCTATTTGTACAACACCACCGACGACGTTGATGTGTTCCTGGACGCCGTTGCCGGCGTCCGAAGCTACTTCCGCGTATAG	MAVVSTPATLERALPAMDNSEVLRIRNDFPVLGQLVNGRQLVYLDSGATSQNPLSVIEAEQEFYEQRNAAVHRGAHHLAVEATEVFEDARQTMADYIGADYTETVWTSNATEGLNLISYSLSNASLWSAQGRGDERLRSLAVGPGDQIVVTEMEHHANLIPWQELAFRTGATLRYIPVDDTGALSMDQAAAIIGERTKVLAFTHASNVLGIINPVQELVALGRRAGALVVLDACQSAPHLPLNVKDLDVDFAVFSGHKMLAPTGIGVLYGRQDILDALPPFLTGGSMITTVTMERAEYLPAPQRFEAGTQRISQAVALAAAANYLTETGLERIHHWESELGQRMVSGLQDIPGVRVLGPVAGQDRIGLAAFDVDGVHAHDVGQFLDSRGIAVRVGHHCAQPLHRRLGLTATTRASAYLYNTTDDVDVFLDAVAGVRSYFRV	PGPT0020195_594	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
D1-29_01412	525	sufU	COG0822	Zinc-dependent sulfurtransferase SufU	ATGTGTTCCTGGACGCCGTTGCCGGCGTCCGAAGCTACTTCCGCGTATAGCACCCGGACCATCGAAAGTAACAACATGAGCCTTGACCAGCTTTATCAGCAGATCATCCTTGACCATGCCAAAGCCCGTCACGGCAGCGGGCTGTCCGAAACAGCAGCCCCGGAAGGCGCCTCGACGGGCCAGTCGCACCAGCTCAATCCCGTATGCGGTGACGAGGTCACTATCCGCGTGGCGGTGGAAGGTGACAAGGTGGCGCAGGTCTCGTGGGACGGGGCGGGCTGCTCGATTTCCATGGCCTCGGCTTCTGTCCTGAGCGAGATGGCCGAGGGGATGTCAGTGACTGAACTGCACTCTGTGATCCAGAACTTCCGGGAGGTCCTGCGGTCCCGCGGGAAGATCCAGGCGGATCCGGAAATTCTGGGCGATGCCGCGGCCTTTGAGGGAGTATCCCGTTACGCTGCCCGGGTTAAGTGCGCCATGATCTCCTGGGTGGCGGCGGAAGATGCACTGAACCAGGCATCCTGA	MCSWTPLPASEATSAYSTRTIESNNMSLDQLYQQIILDHAKARHGSGLSETAAPEGASTGQSHQLNPVCGDEVTIRVAVEGDKVAQVSWDGAGCSISMASASVLSEMAEGMSVTELHSVIQNFREVLRSRGKIQADPEILGDAAAFEGVSRYAARVKCAMISWVAAEDALNQAS	PGPT0000075_1122	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000075-nifU|iscU-K04488	NA	NA
D1-29_01413	1344	nhaA	COG3004	Na(+)/H(+) antiporter NhaA	ATGAGTGAAAATCCGTCTGCTCCTCCGCGTTCCTCCGTCTTGGGACGGGGAAGCTACGGCGAAGTGCTGCGCATCGGCGAGATCCTGCGGAAGGAAACCGTTGGCGGCATCTTGTTGGTCGCAGCAGCGGTCATTGCCCTGATCTGGGCAAACTCCCCGGCTTCCGACAGCTACTTCGCCTTGCGCGACTTCCGGATTGGCTACGAGCCCTGGCACCTGGAACTCAGCCTCGGGGCCTGGGCCGCCGACGGATTGTTGGCGATCTTCTTCTTCCTCGTCGGGCTGGAACTCAAACGTGAATTCGTGGCCGGAGACCTTCGCCAATTCAGTAAATCCGTGGTGCCCATCACAGCGGCTGTCGGAGGCGTGGCAGTCCCTGCAGTCATCTATGCTCTGATCAATCTGACCAGTCCTGGCACCCTGCGGGGCTGGGCTATCCCCACGGCAACGGACATCGCCTTCGCCGTTGCCGTGTTGGCGATCATCGGTTCACACCTGCCCAGTGCGCTACGGATCTTCCTCCTGACTTTGGCCGTGGTCGATGACCTGATCGCCATCAGCATCATCGCGGTGTTCTATTCCAGCAACATCCAGGCCGGGCCGCTGCTGCTGGCCTTAATCCCGCTGGCGGTGTACACCTTCCTGGCCCAGAAGCACCGCCGGTTCTTCGGCACCAGACCTGCTGCGGCGTGGGTGATCCTCCTTCCTTTGGGCGTGATCACCTGGGCCTTGGTGCACGCCTCCGGCATCCACGCCACCGTCGCCGGTGTACTGCTGGGGTTCGCCATCCCTGTCATCCGGTCGCAGGCCAGCGGCGGCCCCGCTGCAGGACCTGGCCTCTCTGAGATCTTCGAACACCGGTTCCGGCCGATTTCCGCCGGCATCGCGGTCCCGGTCTTTGCTTTCTTCTCCGCCGGTGTCGCCGTAGGTGGCCCGGACGGTCTGATCTCGGCTCTGACTGACCCTGTAGCCATCGGCATCATCGTGGCGTTGGTGTTGGGCAAACCGATCGGGATCCTGGGCACCACATGGGTCCTCACAAAGGCCACCAGAGCGTCACTGGACAGGTCCTTGAAGTGGATTGATGTATTCGGGATGTCCCTTTTGGCCGGGATCGGCTTCACAGTTTCGCTCCTCGTGGCCGAGCTGAGCTTCGGACACGGCAGCGCCCACGATGACCACGCCAAGGTGGGTATCCTCGCCGCGTCGCTACTGGCCGCACTTCTGGCGGCGGCAGTGCTGGGAACCAGGAACCGTCAATACCGTGCCGTGGAGGCGGAGGAGGCCGTCGACACTGACCAGGATGGCATCCCCGACGTTTACGAAGAAGACCGCCGCCGGTGA	MSENPSAPPRSSVLGRGSYGEVLRIGEILRKETVGGILLVAAAVIALIWANSPASDSYFALRDFRIGYEPWHLELSLGAWAADGLLAIFFFLVGLELKREFVAGDLRQFSKSVVPITAAVGGVAVPAVIYALINLTSPGTLRGWAIPTATDIAFAVAVLAIIGSHLPSALRIFLLTLAVVDDLIAISIIAVFYSSNIQAGPLLLALIPLAVYTFLAQKHRRFFGTRPAAAWVILLPLGVITWALVHASGIHATVAGVLLGFAIPVIRSQASGGPAAGPGLSEIFEHRFRPISAGIAVPVFAFFSAGVAVGGPDGLISALTDPVAIGIIVALVLGKPIGILGTTWVLTKATRASLDRSLKWIDVFGMSLLAGIGFTVSLLVAELSFGHGSAHDDHAKVGILAASLLAALLAAAVLGTRNRQYRAVEAEEAVDTDQDGIPDVYEEDRRR	PGPT0013935_501	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013935-nhaA-K03313	NA	NA
D1-29_01414	222			hypothetical protein	ATGGAGCTCCCCGCGTTCGCGGCCTGGATCCTGATCATCGCCGGTGTCTGGTCGCTGGTGGTCTGGCCGCAGTTCCTCCGCCGCGTGATGAAAGACCCGCGGGCGCGGGATGCTCAGGGCAAGGCAACGAAGTTCCTGTCGGTCCACCTGGTATTGGTTGGCGTCTCGATGGCGCTCGGTGCCGCCACCGCCGTAATCGGGTTTATGGCGCTGCTCGGTTAG	MELPAFAAWILIIAGVWSLVVWPQFLRRVMKDPRARDAQGKATKFLSVHLVLVGVSMALGAATAVIGFMALLG				NA	NA	NA	NA	NA
D1-29_01415	498			hypothetical protein	ATGGCACTGAGTGCAACCACTACCCTTCCCCACGCCGTCGGCAGCGTGGCAGCTGTCTTCGCAAACGAGGATTTCCAGCGCCACACCAGTGAATACGTTGGTGGAACGCTGGAATCCTTCGCCGTGGCCGGAGACACTGCCGGGGCTTTCAGCACCACGTCCGTCCGGACCCTTCCCACCACCCGCCTTCCGGAGATTGCACGCAAGTTTGTGGGCGAAAAGCTCACCGTGACTCAGGTGGAGAACTGGGATGCCCCTTCTGCCGACGGATCACGCCAGAGCAACATCACCCTCAAGATCGCCGGTGCCCCCCTCGACGTCACGGCCGTCCAACGCCTGGTGGCGGAAGACGGCAGCACCCGCATTGAGCTGGAGGGTAACGTGACCTCGTCGGTGCCGTTCCTGGGCGGCAAGATCGCCGAGGCGGCAGAGCCCATGGTGGCCAAGGCCCTCAACATCCAGTCGCAGCAGGCCCAGGCCTGGCTCGAAAGCCACTGA	MALSATTTLPHAVGSVAAVFANEDFQRHTSEYVGGTLESFAVAGDTAGAFSTTSVRTLPTTRLPEIARKFVGEKLTVTQVENWDAPSADGSRQSNITLKIAGAPLDVTAVQRLVAEDGSTRIELEGNVTSSVPFLGGKIAEAAEPMVAKALNIQSQQAQAWLESH				NA	NA	NA	NA	NA
D1-29_01416	1545			hypothetical protein	ATGACGGAGTCATCCAACGCATCGGAACCCAACCCAGCCGCGAAAACCGTCCTCGTGACCGGAGCCACCGGGTACATCGGGGGCAGGCTGGTTCCCAGGCTGCTGGCGCAAGGCCATACCGTGCGGGTCCTGGTCCGTTCGCCGGACAAGATCGAGGGGGTGCCGTGGCGGGACAGCGTGGACGTGGTCCGTGGGAGCCTGGATGATGCCCAGGCCCTCAAAGACGCGCTGCGGGGTGTTGATCTCCTCTATTACCTGGTCCACTCAATGGCGGCAGGCTCAGGATTTGAGGCCAAGGAAAAGTCCATGGCCGAACTGGCCGCCCAGGCAGCCGCGGAAGCGGGAGTCCGGCGGATCGTCTACCTCGGCGGCCTGCATCCCGGGAACACCGGGCTGTCCATCCACATGCGTTCCCGCGAGGCGGTGGGCCGGACGTTCCTGGCCGGTCCTGTGGACGCAGTGGTCTTCCAAGCGGGAGTGGTGATCGGCTCGGGCTCGGCCTCCTTCGAGATGATCCGGAACCTGTCTGAGACGCTGCCTGTCATGCCGGCGCCCAGCTGGGTCCGGAACAAAATAGAAGCCATTGCGGTCCGTGACGTGCTGCACTACCTTGTGTTTGCTGCCGTCCTTACGGAGCCACTGAACCGCAGCTTCGACATCGGATCCCGGGACGTCCTGACCTACGCGGGAATGATGAATGAGTACGCCGCCGAAGCGGGACTCCCGCACCGGCTTATCCTGGCCCTACCGGTGCCCGCCCCACGGCTGGCCGGGCTCTGGGTGGCATTGGTCACGCCCATCCCGCTCTCCATGGCATTGCCGCTGGTCCAATCCCTGCAGCATGACGCCGTCTCCGCGGAACACGATATCGACCAACACATCCCCCCGCCAGATGGCGGCCTCACCGCTTACCGGACCGCCGTCGCCCTTGCGCTGGGGAAGGAACGCGACGGACAGGTGGAGACAACCTGGGCCAATGCCGGCGCCGACGCCGATCCCCTGCCCAGCGACCCGGACTGGGCCGGGCACAGGGTGTTCGTGGATGAGCGCACCTTCCACGGTGATGTTGGCCCGTCTCACGTGTGGACGGTGATCGAGGGCATTGGCGGCCGTAACGGCTGGTATTCGCTTCCCCTGGCTTGGCAGGTCCGCGGGTGGCTGGACAAGCTCACCGGCGGCGCCGGGCTGCTGCGCGGCCGCCGGCATCCTGGGAACCTGGCGGCGGGCGAAGTGGTGGACTGGTGGCGGGTGGAACGGATCGAGCGCGGGAAGCTCCTGCGGCTGCGGGCAGAGATGCGGGCACCCGGCCGCGCGTGGCTGGAGCTGTCTGTGGAGCCGGACAGCGCGGGCAGCCGCTACAGGCAACGGGCCATCTTTTTCCCCAAGGGCCTTAGCGGCAGGCTCTACTGGATGGGCGTACTTCCCTTCCACAGCCTCATCTTTCCTGCTATGTCCAGGAACATCATCGCCGCCGCCCGGAAGATAGCAGGGCAGCAGGACAGTTCCCAAAAAACGGCCGCCCAATACGACGGCGGTTTCCACTAA	MTESSNASEPNPAAKTVLVTGATGYIGGRLVPRLLAQGHTVRVLVRSPDKIEGVPWRDSVDVVRGSLDDAQALKDALRGVDLLYYLVHSMAAGSGFEAKEKSMAELAAQAAAEAGVRRIVYLGGLHPGNTGLSIHMRSREAVGRTFLAGPVDAVVFQAGVVIGSGSASFEMIRNLSETLPVMPAPSWVRNKIEAIAVRDVLHYLVFAAVLTEPLNRSFDIGSRDVLTYAGMMNEYAAEAGLPHRLILALPVPAPRLAGLWVALVTPIPLSMALPLVQSLQHDAVSAEHDIDQHIPPPDGGLTAYRTAVALALGKERDGQVETTWANAGADADPLPSDPDWAGHRVFVDERTFHGDVGPSHVWTVIEGIGGRNGWYSLPLAWQVRGWLDKLTGGAGLLRGRRHPGNLAAGEVVDWWRVERIERGKLLRLRAEMRAPGRAWLELSVEPDSAGSRYRQRAIFFPKGLSGRLYWMGVLPFHSLIFPAMSRNIIAAARKIAGQQDSSQKTAAQYDGGFH				NA	NA	NA	NA	NA
D1-29_01417	3696	mfd	COG1197	Transcription-repair-coupling factor	ATGAGCCTCACCGGCCCGTCCCATCACGGTCCGTCCCTTGATGGACTGCGCCGCGTCCTTGCCGGGGACCAGACGTTCGCCCGCGTCCAGGCCGAGGCAGCCAGGGGTTTTGCCTTCCGCGGGCAGGACTACCAGATCAGCGCGCCCGCAGGGCTCCGCGCCGTCCTCCTCGCGGAGATGGCCGGGGGCCTGTCGGGAAACTCATCAGGTCCTGCGCACGCGGATGATGGAACGCGCGACGGCGGGAAACCGGCAGTGGTGCTGGCGGTCACTGCCACGGGACGCGAGGCGGAAGATTTGGCCGCAGCCCTCCGGGCCTACCTGCCCGGCGATTCGGTGGCCGAATTCCCCAGTTGGGAAACCCTGCCGCATGAGCGCCTCTCACCGCGCTCGGACACCGTGGGACGCCGGCTATCGGTGCTGCGCAGGCTCGCGCACCCGGAAAGCTCGACGGCGGGCCCGCTGCGGGTGGTGGTGGCTCCCGTCCGCGCCGTGGTCCAGCCCATCGTCGCCGGCCTGGGTGACCTGGTTCCCGTCACCCTTAAGGTGGGCCAGGAGGTTCCGTTTTCGGATGTTGTCAGGAACCTTGCCGACGCAGCCTACGCCCGCGTGGACATGGTGACGCACCGGGGGGAATTCGCTGTCCGTGGCGGCATCCTGGATGTTTTTCCGCCAACAGAGGACCACCCCATCCGCGTGGAGTTCTTCGGCGACGAGGTGGACCAGATGCGCTGGTTCGCCGTTGCCGACCAGCGCTCGCTGTCGGCGCCCGGCGTCCACCACCCCAGTGAGCTGCATGCCCCGCCATGCCGCGAAATCCTCATCACGCCGTCGGTCATGTCACGGGCGGCAACACTGAAGGCACAGCTGCCTGCCGCCGCCGACATGCTGGAGAAGATTGCCGGCGGAATCACCGTGGAAGGCATGGAGTCCCTGGCGCCGGTGCTGGTTGACTCGATGGTGCCGTTTGTGGAGCAGCTTCCGGCCGGCTCCATTGCGGTGGTCATCGAACCCGAGAAGGTCCGCACCCGCGCACACGACCTTGCCGCCACCAACGAGGAGTTCCTGGAAGCTGCGTGGTCTACGGCCTCTGACGGCGGGACGGCACCGCTGGACCTCAGTTCGCAGGCCTCGGCTGCACTGCACTCGGCCAGCTTCCGGTCCCTGGCCGAGACCCGCAGCTCTGCCCTGGACCATGACGTGTCCTGGTGGTCCATCACGTCGCTTGCCACGGACGAGGAACTCCTCCCGGAGATTGACGTCCTGAATCTTCATGCGCGGGAGCCCCGGGGCTACCAGGGCGACGTCGCCGAAATGATGGATTTCATCGGCTCCCACGTCCGGGACCAGTGGCGGATCGTGGTGGCGACCGAAGGCCCCGGGCCGGCACAGCGGCTGGCCGAATTGTTCCACGATGCTGACATCCCCTGCGCCCGGGTGGACACCCTGGAGAAGGAGCCGCAGGCGGGCATCATCGAGGTGACCACTGCCGCCGTCGGACGCGGTTTTGTCCTGGACAGCCTCAAACTCGCGCTGCTGACCGAAGCGGACCTCCTGGGCAGGACCTCTGCAGGGTCCACGAAGGACATGCGCCGCATGCCCTCAAAACGGCGGAATGCCGTGGACCCGCTGCAGCTCATCGCGGGCGACCATGTGGTCCACGAACAGCACGGCATCGGCAGGTTCGTGGAGCTCATCCAGCGCAAGGTTGCCGGCGGTGGAGACGGCGTCCGCGAATACCTGGTCCTGGAGTACGCGCCGTCCAAGCGCGGGGCGCCGGGCGACAGGCTTTTTGTGCCCACCGATCAGCTGGACCAGGTGACACGCTATGTGGGCGGTGACACTCCCGTGCTCAGCAAGATGGGAGGCTCTGACTGGGCCAGCACCAAATCCAAGGCGCGCAAGGCAGTCAAGGAGATCGCGGGCGAATTGATCAGACTGTACTCGGCCCGGATGGCGTCCAGGGGACACGCGTTCGGACCGGACACCCCATGGCAGCGGGAACTCGAAGAGGCCTTCCCCTACGTCGAAACGCCTGACCAGCTCACCACCATCAATGAGGTCAAAGCGGACATGGAGCGCGAGATCCCCATGGACCGGCTGGTCTCCGGCGATGTGGGCTACGGCAAGACCGAGATCGCCGTCCGTGCGGCGTTCAAGGCGGTGCAGGACGGGAAGCAGGTGGCAGTACTGGTTCCCACCACCCTGCTGGCCCAACAGCACTACGAGACGTTCACCGAGCGCTTCTCCGGCTTCCCGCTCAGGGTTAAAGCGCTGTCCCGTTTCCAGGGGAGCAAGGAAACAAAGGAGACCGTGGAGGGCGTGAAGAGCGGCTCCGTGGACGTGGTGATCGGCACGCACCGGCTGCTGTCCAAGGACTTTGCGTTCAAGGACCTTGGCCTGGTGATCGTGGACGAAGAGCAGCGGTTCGGGGTGGAGCACAAGGAAGCGCTCAAGAAGATGCGCACCGACGTGGACGTGCTGGCCATGAGTGCCACGCCCATTCCACGAACCCTGGAAATGTCCCTCACCGGCATTCGGGAAACCTCCACACTGGCGACGCCCCCGGAGGAACGGCACCCTGTACTCACCTACGTGGGGCCGTTCACGGACAAGCAGAGTTCGGCGGCAATCCGCCGTGAACTGATGCGTGAGGGCCAGGTGTTCTTCGTGCACAACAGGGTTTCCACCATCGAACGCACCGCGGCGAAGATCCGCGAGCTGGTGCCGGAGGCCCGCGTGGAAGTGGCCCACGGGCAGATGTCCGAAAGCCGGCTGGAACAGATCATCGTGGACTTCTGGGAAAAGCGCTTTGACGTGCTGGTGTGTACCACCATCATCGAAACCGGCCTGGACATTTCCAATGCCAACACCCTCATTGTGGACGGCGCGGACAAATACGGGCTCTCCCAGCTCCATCAGCTCCGCGGACGCGTGGGCCGCGGCCGCGAGCGGGCTTACGCCTACTTCCTCTACCCCTCAGAGAAGCCGCTGGGCGAGGTGGCCCTGGAGCGGCTCAAGGCAGTGGCCACCCACAACGAACTCGGGGCGGGCATGCAGCTGGCCATGAAGGACCTTGAGATCCGTGGTGCGGGCAACCTGCTGGGCGGGGAGCAGTCCGGCCACATCCAGGGCGTTGGCTTTGATCTGTACATCCGGCTCGTTGGCGAGGCGGTGGCAGACTACCGCGGTGAGGCCGAGGAAAAGGCCGCCGAAATGAAGATCGAGCTGCCCGTGAACGCCCACCTGCCCCACGACTACGTGCCGGGTGAGCGCCTGCGCCTGGAGGCCTACCGCAAGCTGGCTTCCGCTCTCACGCACGAGGCCATCGACGAGGTCCTGGCCGAGCTGGTGGACCGTTACGGCGAGCCTCCGCTGCCCGCCAACAACCTGATCTCGGTGGCCCGCTTCCGGGTGGGCGCACGGGAAGCAGGCCTCTCCGACGTCGCACTGCAGGGCAACTTCATCAAGTTCTCGCCGGCCCAGCTCCCAGAGTCCAAGCTGATGCGGCTGACCCGGATGTATCCCGGCGCCCAGTCCAAGCCCGCCTTGGACGCGGTGCTGATCCCGAAGCCGAAGACCGCCAGGATCGGCGGCCGCGACCTGCAGGACGCCGAAATCCTGGAGTGGGCCAACGGAGTGATCAGCAACATCTTCACCGAGGCACCTGTCTCCGTGTCGCCGACGGCGAACTGA	MSLTGPSHHGPSLDGLRRVLAGDQTFARVQAEAARGFAFRGQDYQISAPAGLRAVLLAEMAGGLSGNSSGPAHADDGTRDGGKPAVVLAVTATGREAEDLAAALRAYLPGDSVAEFPSWETLPHERLSPRSDTVGRRLSVLRRLAHPESSTAGPLRVVVAPVRAVVQPIVAGLGDLVPVTLKVGQEVPFSDVVRNLADAAYARVDMVTHRGEFAVRGGILDVFPPTEDHPIRVEFFGDEVDQMRWFAVADQRSLSAPGVHHPSELHAPPCREILITPSVMSRAATLKAQLPAAADMLEKIAGGITVEGMESLAPVLVDSMVPFVEQLPAGSIAVVIEPEKVRTRAHDLAATNEEFLEAAWSTASDGGTAPLDLSSQASAALHSASFRSLAETRSSALDHDVSWWSITSLATDEELLPEIDVLNLHAREPRGYQGDVAEMMDFIGSHVRDQWRIVVATEGPGPAQRLAELFHDADIPCARVDTLEKEPQAGIIEVTTAAVGRGFVLDSLKLALLTEADLLGRTSAGSTKDMRRMPSKRRNAVDPLQLIAGDHVVHEQHGIGRFVELIQRKVAGGGDGVREYLVLEYAPSKRGAPGDRLFVPTDQLDQVTRYVGGDTPVLSKMGGSDWASTKSKARKAVKEIAGELIRLYSARMASRGHAFGPDTPWQRELEEAFPYVETPDQLTTINEVKADMEREIPMDRLVSGDVGYGKTEIAVRAAFKAVQDGKQVAVLVPTTLLAQQHYETFTERFSGFPLRVKALSRFQGSKETKETVEGVKSGSVDVVIGTHRLLSKDFAFKDLGLVIVDEEQRFGVEHKEALKKMRTDVDVLAMSATPIPRTLEMSLTGIRETSTLATPPEERHPVLTYVGPFTDKQSSAAIRRELMREGQVFFVHNRVSTIERTAAKIRELVPEARVEVAHGQMSESRLEQIIVDFWEKRFDVLVCTTIIETGLDISNANTLIVDGADKYGLSQLHQLRGRVGRGRERAYAYFLYPSEKPLGEVALERLKAVATHNELGAGMQLAMKDLEIRGAGNLLGGEQSGHIQGVGFDLYIRLVGEAVADYRGEAEEKAAEMKIELPVNAHLPHDYVPGERLRLEAYRKLASALTHEAIDEVLAELVDRYGEPPLPANNLISVARFRVGAREAGLSDVALQGNFIKFSPAQLPESKLMRLTRMYPGAQSKPALDAVLIPKPKTARIGGRDLQDAEILEWANGVISNIFTEAPVSVSPTAN				NA	NA	NA	NA	NA
D1-29_01418	804			hypothetical protein	ATGGGAGGACACCACGCCGCGTCGGGAGCCGCGGCGTGGGTAGCTGTTGCGTCCACGGGGCCGTACGCGTTCGGTTGGTATCCGCTGGACGCCACGGGCATCCTGATTGGCGGTATGGCCACAGCCGGGACAGCCCTGGTGTGCGACTGGGACCACCGCTCAAGCACTGTGGCGCACTCCCTGCCGCCGTTGTCCAACGTCATAGCGGTGGGGATCGAAAATGCCAGCGGTGGGCACAGGCAGGGGACGCACTCCATCCTGGGGGCTGCATTTTTTGTGCTGCTGGCCACCATGGCGGGGCAGATCCAGCTGCAGACACAGTGGGGATTACTGTCCGTGGGGGCAGGCCTGCTGTGTATGTTCATGATCAACATCGCGGCCAAGGCGCTGAAGCTTTTTCCCAAGTCGGGCTTCATCAGCAACTGGATCTTCGCCCTGACCATGGCTGGGCTGGTTACCTGGTTTGCGCCCGACCAGTGGACCTGGCTTCCGGTGTCGATGCTGACCGGGGTGGTGGTGCATATCGTCGGAGACATGATCACCACGGGGGGAGTGCCGCTGCTCTGGCCCATCGTGATCAAGCCGCCGCGGTTCCTGCGGAAACTCCCGGTGCTCAATGACGTTTGGAAAGCCAACGGAGCATTCTCCCTGCCGTTGCTGGGCAGGGCCGGCTCCCGGCGCGAATGGCTGGTGCTTATTCCTGTCAGTGCCTACGCCATGGTTGGCATGTGCATCGCCGGCTGGTCGCTCGCCCACAGTCAGTGGTCGCGCGTGGCTGAGGCCTGGGCCCAGATAGGGCTCTAA	MGGHHAASGAAAWVAVASTGPYAFGWYPLDATGILIGGMATAGTALVCDWDHRSSTVAHSLPPLSNVIAVGIENASGGHRQGTHSILGAAFFVLLATMAGQIQLQTQWGLLSVGAGLLCMFMINIAAKALKLFPKSGFISNWIFALTMAGLVTWFAPDQWTWLPVSMLTGVVVHIVGDMITTGGVPLLWPIVIKPPRFLRKLPVLNDVWKANGAFSLPLLGRAGSRREWLVLIPVSAYAMVGMCIAGWSLAHSQWSRVAEAWAQIGL				NA	NA	NA	NA	NA
D1-29_01419	246			hypothetical protein	ATGTCCAGCAAGACCACGGCTTCCAGCCAAGACACGATCCAGACGCCCCAGAACGAGAACAGCCTGGTGACCAGCATCGCCCTGTTTGCGGTCATGATTGCGCTTTTCCTGGGCGCCATCTACTCCCTGTCCTTCCTCACCCTGGACAACCCTTGGCCGATGGCCGTCTGCCTTGGCCTCTTCGCCCTGGCATTCTGGATCCCGCAGACCATCCTGGGCCGCTCCGACTCCGCCGGCGAGCACTAG	MSSKTTASSQDTIQTPQNENSLVTSIALFAVMIALFLGAIYSLSFLTLDNPWPMAVCLGLFALAFWIPQTILGRSDSAGEH				NA	NA	NA	NA	NA
D1-29_01420	726	deoC	COG0274	Deoxyribose-phosphate aldolase	TTGAGCAACGAAGCAACCCCCGCCATGCAGCAGTCCGCCGGCACCACTCCCGCGCCGGACAGCATCGCTTCCTTCATCGACCACACACTCCTCAAGCCAGAAGCCAGCGAGGCTGACATCCTGAAAGTGTGCGCTGAAGCCGCGGAATACCATTTCAAGTCGGTTTGTGTGAACCCCATCTGGGTCAAGACAGTCAAAACGGCCCTCAGGGGATCGGGCGTCCTGACCTGCTCGGTGGTCGGATTCCCCCTGGGCGCAACTCCCAGCGACGTCAAAACCTTCGAGGCCCGGGGCGCCGTACTGGACGGCGCCGACGAAGTGGACATGGTCATCAACATCGCGGCCGCCCGGGCAGGTGACAAGGGAGCCCTGGTGGAGGACATCGCCGCGGTGGCGGAAGCCGTCCATGCGAGTGGCGCCATCCTGAAGGTCATCATTGAAACTGCGCTGCTGGACGATGCCCAGAAAGTCCTGGCCTGTGAGGCGGCGGTGGAAGCCGGGGCGGACTTCGTCAAAACGTCCACCGGGTTCAACGGCGGCGGTGCCACAGCCGAAGACGTTGCCCTGATGCGCCGCACCGTGGGCCCTTCCCTTGGCGTTAAGGCCTCCGGCGGCGTACGGTCGCTGGCCGACGCTCAGGCTATGATTGCTGCTGGTGCAACACGTATTGGTGCCAGCTCCGGAATTGCCATTGTCAAAGGTGAACAAGGTTCATCCGAGTACTGA	MSNEATPAMQQSAGTTPAPDSIASFIDHTLLKPEASEADILKVCAEAAEYHFKSVCVNPIWVKTVKTALRGSGVLTCSVVGFPLGATPSDVKTFEARGAVLDGADEVDMVINIAAARAGDKGALVEDIAAVAEAVHASGAILKVIIETALLDDAQKVLACEAAVEAGADFVKTSTGFNGGGATAEDVALMRRTVGPSLGVKASGGVRSLADAQAMIAAGATRIGASSGIAIVKGEQGSSEY	PGPT0017445_1840	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
D1-29_01421	876	hcaD		3-phenylpropionate/cinnamic acid dioxygenase ferredoxin--NAD(+) reductase component	ATGTCTGCTCCGGCATCGTTTAACTCCGTCTCCAGCGCACCCCATATCGTCATTGCCGGCGCCGGACCGGCAGCCCAGGCCCTTGTCAGCCAGCTGGGGCAGGCCCGTTTCAGCGGCAGCATCACCGTGCTGAGCAACCGGGACGACGCCCCGGAAGAATTGCTGGAACTCGCTGCCCTGCCCCAGGTTTCGGTCCGGTTCGGCCAGCCGGCCAGCTTCATCGACGCTGACAACCGCACCGTCACCACGGCGGACGGCATGGAGTTCAGCTATGACCAGCTGGTCATAGCCACCGGCTCCGCCCCTGTGGCGTCCCCCGTTGAAGGAGCCAGCAGATGCCTCAGCTACTCCACCATCGATGACGCCGCGCGGATCGGCGAAGCGGTCCGGGAAGTCACCCGCGAATTGGGCCGCCGCCCGCTCGGCATCCTGGTGGGCACGGGTGCGGCAGCAGGACAGGCGGAAGCCGTGCTCCGGGCGCGCGGTGTCCGCCCCATCCGGACCACCCTCCGCCCGGCAGCCGTGGTGCCTTACGATTCGGAGTCCACCCTCTCAGCATCAGGGCTCATTGCCACCGGCATCGTTTTTGAGGACGGCAGCAGCATGAATGGCGATCTGGTTGTCATGGCGGAGGAAAGGGTCTCCCGTGACGGGCTGGCCGCTGCCGCCGGCCTCCGGACGGCGCCTAACGGCGGCATCGCCATTAACCAGGACTTCCGGACGTCCGTCCCGGGCATCTGGGCCATCGGCGACGCGGCAGCGTTCGACGGCGTGCGCCTGGGGCTGCTGGTGGCGGCGGCCTCCGCCGCAGGGGCCTGCGCCACCCGGCTCATGACGGCCGCGCCGGCGCAGCCGCGGGCGCAGGTTGCCGCCTGA	MSAPASFNSVSSAPHIVIAGAGPAAQALVSQLGQARFSGSITVLSNRDDAPEELLELAALPQVSVRFGQPASFIDADNRTVTTADGMEFSYDQLVIATGSAPVASPVEGASRCLSYSTIDDAARIGEAVREVTRELGRRPLGILVGTGAAAGQAEAVLRARGVRPIRTTLRPAAVVPYDSESTLSASGLIATGIVFEDGSSMNGDLVVMAEERVSRDGLAAAAGLRTAPNGGIAINQDFRTSVPGIWAIGDAAAFDGVRLGLLVAAASAAGACATRLMTAAPAQPRAQVAA	PGPT0019730_2530	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
D1-29_01422	291			hypothetical protein	ATGTTCACGGCCTGGACGTTCTTGATGAACCCCAGCGTAGGCGGCGGGTTTTTCCGGCGTGTTTCCCGAGGGTTGCCGAAAAGATGGGCCCCGTTCGCCAACGTTTACTGGCCGGTAACAGAAGCCGTGACCTGCATCTCATTCAGCGCCGGAATGACATGCAAGGCCGGAATGACCTGCAAGGCCGGAATGACATGCAAGGCGGGTGGCGCCGTCGAAACAGCGGAGCTAGACGCGGATCCGGTAACCCCGCTTGACCACGGTTTCCACGAGGCGGCCGTCCGGCAGTGA	MFTAWTFLMNPSVGGGFFRRVSRGLPKRWAPFANVYWPVTEAVTCISFSAGMTCKAGMTCKAGMTCKAGGAVETAELDADPVTPLDHGFHEAAVRQ				NA	NA	NA	NA	NA
D1-29_01423	1155			hypothetical protein	ATGAATGCACTTGCACCGGCCGAAGCCCCGCAGCTTGCCGAGGCGCCCGGGCAGGAGCCTACGGACTCCCCGCTGGAAGGGTTCCGCATCGGAGTCACCTCGCACCGCCGATCACGGGACCTCATTGAGGCCCTGGAACGCCGCGGTGCCGAGGTCCTGCATGCCCCGGCGTTGAAGATCGCCCCCGTACAGGAAGACGTCCGCCTCATCGAGGACACCCGTGCCATCATCGCGGCACGCCCCGACCTGTGCATCGCCACCACCGCCTATGGGATGCGCCGCTGGTGCGAGGCCGCTGATTCCTTTGGCATCGGCGAGGAGCTGCTGGAAACCCTGGACGCCTGCCGGATGTTTGTGCGCGGGCCAAAAGCCCGCGGTGCCGTCCGCGCGGCCGGCCTTGCCGACGTCGGAATCAGCAGTGACGAAACCACTGCGACGCTGGTGGATATGCTGCTCGCGGAAGGCGTGCGCGGCAAGACAGTGGCCGTGCAGCTGCACGGCTATACCGATGTCCGGCAGCTGGAGCGCCTCCGGATGTCCGGCGCCACCGTACTGACGGTGACACCCTACCGCTGGGTCAAGCCTGAGGGTGAGGACCGGCTCCCCCGGCTCATCGAAGCGGCATGCAGCGGGAACCTTGACGTCCTGACGTTTACCTCCGCCCCCGCCGTGGACGCCATGTGGAGCACAGCCCATGAGATGGGTGTCTACAAACAGCTGATCGACAGCCTGAAGACAAACGTCACTACGGCCGTGGTGGGCCCGGTCACGGCCCAGCCGCTGCTCGACGCCGGCGTCACCCCGTTGATTCCCGAGCGGTTCAGGATGGGTGCCCTGATCCGTCTGGTGGGTGAGCACCTGGCCCTCAACCATGTCCGGCGCCTGGACACCAGGTCCGGCAACATCGAACTCCGAGGACGCAGCCTGCGGATCGACGGACAGCCGGTGGAGCTTGCGCCTGCCCCGCTGCTGTTGCTGCGCGCCCTTTTGGGAGCCGGCGGCGCCGTGCTCTCCCGCGAGTCACTCTCGGACCTGCTGGAGCTGAGGGGCTCGGTCCATGCGTTGGACATGACAGTCAGCCGCCTGCGGTCCTCACTGCCGGACGGCCGCCTCGTGGAAACCGTGGTCAAGCGGGGTTACCGGATCCGCGTCTAG	MNALAPAEAPQLAEAPGQEPTDSPLEGFRIGVTSHRRSRDLIEALERRGAEVLHAPALKIAPVQEDVRLIEDTRAIIAARPDLCIATTAYGMRRWCEAADSFGIGEELLETLDACRMFVRGPKARGAVRAAGLADVGISSDETTATLVDMLLAEGVRGKTVAVQLHGYTDVRQLERLRMSGATVLTVTPYRWVKPEGEDRLPRLIEAACSGNLDVLTFTSAPAVDAMWSTAHEMGVYKQLIDSLKTNVTTAVVGPVTAQPLLDAGVTPLIPERFRMGALIRLVGEHLALNHVRRLDTRSGNIELRGRSLRIDGQPVELAPAPLLLLRALLGAGGAVLSRESLSDLLELRGSVHALDMTVSRLRSSLPDGRLVETVVKRGYRIRV	PGPT0003665_176	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
D1-29_01424	1035	cysG_1		Siroheme synthase	ATGCAGCTCAGCATTGATCTCACCGGCCGCGAAGTCCTGGTCACAGGCTCGGACCACGCGGCGCGCCAGGCGGTCCGCCGCTATGAAGCCGCCGGCGCCGTCGTGTACCGCCTCAGCACCCCGCACGGTGCTGAGCATGACGGCCCGCTGCCCGAACGGCCGTTCCTGGTGGCAGCAGTCAATGATGGCCAGCCTGGCTGGGAAGCCCTCCTGGAGCGGTGCCGCGAAACCGGCATTCCCGTTTCCACCGAGCCTGCTGCCGGTCAGACCGGCCACGTCACCCTGGTGGGTGGCGGGCCGGGCACCACCGAGTTACTGACCGTCGCCGCCGTCAAGGCGCTGCGGGATGCCGACGTCGTGTTCTACGACCGGCTGGCACCCTACCAGGAGCTGCCCTCCCTGACATCGGCTGAACTGGTGGATGTGGGCAAGAAGCCCGGTCACCACAAGGTCAGCCAGGGCGACATCGAGAAGCTGATGGTGGAGAGCGCACTGGCCGGAAACAACGTGGTCCGGCTCAAGGGCGGGGACCCCTACGTCTTTGGCCGCGGCGGCGAGGAAGTGGCTTCCTGTGTCGCGGCGGGAGTACCCGTCCGGGTGATCTCCGGCGTTACCAGCGCCATCTCCGTTCCGGCAGCGGCAGGGATTCCGGTAACCCACCGCGAAGTCAGCCACATGTTTACCGTGGTCTCCGGCCACGCCCCCCTTTCCGAAAAGGAGCTCACCCACCTGTCAGGCCTGGGCGGCACGATTGTGGTCCTGATGGGCATCGGCACCCTGCACCATCTGGCGGCCGGTCTCCGCCGCGCCGGCATGCGTGCCGACATGCCCATGGCAGTGGTGGAACGTGGCTACCGGCCCGGACAGCGCACCACCATCGCGGACTTGGGCACCATCGTGGGAGCTGCCTCCGGCTGCACCAACCCGGCCGTCCTGGTCATTGGCGAGGTGGTTCGCGTGGCAGAAGCCAACCGTGGGCATGCTGAGGCCGCCGCCGACCTGGACAGGCTGGCGGCCTCGCTGCTGGGTTCGTGA	MQLSIDLTGREVLVTGSDHAARQAVRRYEAAGAVVYRLSTPHGAEHDGPLPERPFLVAAVNDGQPGWEALLERCRETGIPVSTEPAAGQTGHVTLVGGGPGTTELLTVAAVKALRDADVVFYDRLAPYQELPSLTSAELVDVGKKPGHHKVSQGDIEKLMVESALAGNNVVRLKGGDPYVFGRGGEEVASCVAAGVPVRVISGVTSAISVPAAAGIPVTHREVSHMFTVVSGHAPLSEKELTHLSGLGGTIVVLMGIGTLHHLAAGLRRAGMRADMPMAVVERGYRPGQRTTIADLGTIVGAASGCTNPAVLVIGEVVRVAEANRGHAEAAADLDRLAASLLGS	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
D1-29_01425	2643	nasD_1	COG1251	Nitrite reductase [NAD(P)H]	GTGACCGAACAGACTTACAGCACAGAGAACCCGCGCCGCATTGTCGTCGCCGGCGGCGGCCCTGCAGCCCACCGCTTTGCAGACGCGATGCACGCCCGTGGCCTCGATGGCTGGCATGTCACGGTTCTCACTGAGGAAGCACACCTCCCCTATGACCGGGTGGCCCTGAGCAAGGCCTTGACCCAGACCGACTACGACCTCACCCTGGGCGATGCGTCCATGTGGGACCACGAGGCCATGGACCTGCGCACCGGCGAGCGCGTGGTTAAGGTCAACCACGAAGCCAAGACGGTCGAGACCGCCGCGGGCAACACGTACGCCTACGACTCCCTTGTGGTCGCCACGGGTTCAAATGCGGCCCGGCTGCCGATCCCCGGCGCCGAGCACACCCACGTGTACCGCACGCTCGAAGACGTGTGGGCCATCAACAAGGCCATTGCCGAACTCACCGAAAAGCTTGGCCGCCAGGTCAACGCCGTCACCATCGGCGGAGGCCTTCTCGGGCTCGAGTCGGCCGCCGGCACGGAGCAGCTGGGCGCCAACCCGATCGTCATCGACGGTTCACAGTGGCTGATGGCCACACAGCTTGACGAAGGCGCGGGCCAGGCAATGGGCCGGCTCATCAAGGCCAAGGGCTTCGAAGTCCACGGCGGCGTCTTCCCTTCGGAAGTATTGTCCGACGACGAGGGCCAGGTTACCGGTGTCCTCATGGCTGACGGCCGCGTTATCGACGCCGATATGGTGATCGTCGCCATCGGCGTCCGCCCGCGGGACGAGCTCTTCCGCGCGGCCGAAGGCGAAGAGCAGGTGTTCAGCCTGGGCCAGCGCGGCGGCGTGGTCATCAACGACTACTGCGCCACGGAAGTACCTGACATCTTCGCCATCGGCGAGGTGGCGAACTTCGGCGGCATGTGCCTGGGGCTGGTTGCTCCCGCGAACACCATGGCGGAGATCGTCGCCGACCGCCTGCATGGCGGCGAGGCTACCTTCCCCGGCTTTGACACCGCCACCAAGCTCAAGCTGTCAGGTGTGGATGTTGCCAGCTTCGGCGACGGCTTCGCCAAGACTGAACACTCACTCGAGATCGTCTACGCTGACCCCGCCCGCGGCGTCTACCAGAAGATCGTCACCACCGACGATGCCAAGACCCTGCTGGGCGGCATCTTCGTGGGCGACGCGACCCCCTACACAAGCCTTCGCCCGCTCCTCGGCCGGGAACTCACCGCCGAGCCCGGCGCCTACCTCACCGCGGCCGGTGGCGGCGATGCACCCGACACCGAACTGCCGGACGATGCCATCCTGTGTTCCTGCAACAACGTTGCTGCGGGCACCATCCGTGACACCATCAACGGCTGCGGCGCCTGTGAGGGCAACGCCCCTGTCCAGGAACTGGGCGAACTGAAGGGCTGCACGCGCGCCGGAACCAGCTGCGGTTCCTGTGTCCCCATGCTGAAGAAGCTGCTTGAAGGCGAACTGACGAAGTCCGGCGTCGAGGTCTCCAAGGCCCTCTGCGAGCACATCGAGCTGTCCCGCCAGGAACTCTTCGACGCCATCCGCGTCCTGGAGCTCACGTCCTTCGAAGAGATCATGGCCAAGTACGGCACCGGCGCCGGCTGTGACATCTGCAAGCCCACCATTGCCTCCATCCTGGCCAGCCAGCACAACGCCTACGTCCTGGACGCCGGCCGCGGCGCCCTGCAGGACACCAACGACCGCGCCCTGGCGAACATGCAGAAGGACGGCACCTACTCGGTGGTCCCCCGCATCGCCGGCGGCGAGATCACCCCGAAGAAGCTCGGCGTCATCGCCGCCGTGGCGGAAAAGTACAACCTGTATACCAAGATCACCGGCGGCCAGCGCATCGACATGTTCGGCGCCCGGCTGGAGCAGCTTCCGGAAATCTGGAAGGAGCTGGTGGACGCCGGCTTCGAATCCGGCCAGGCCTACGGCAAGAGCCTTCGCACCGTGAAGTCCTGTGTTGGTTCCACCTGGTGCCGCTTCGGTGTGCAGGACTCCGTGGCGATGGCCATCCAGCTGGAACTGCGCTACCGCGGCCTTCGCAGCCCGCACAAGCTCAAGATGGGCGTGTCAGGCTGTGCACGCGAATGTGCCGAGGCCCGCGGCAAGGATGTCGGCGTGATCGCCACCGCCGACGGCTGGAACCTTTATGTCGGCGGTAACGGCGGCGCCACCCCGGCGCACGCCCAGCTGCTCGCCAAGGACCTCGACGACGAAACCTTGCTCAAGTACATCGACCGCTATTTCATGTACTACATCCGCACCGCTGACCGCCTGCAGCGCACCGCACGCTGGCAGGAGGAGCTCGACGGCGGCATCAAGCACGTCGAGGACGTGGTGGTGAAGGACACCCTGGGTATCGCCGAAGAGCTCGAGGCGGCCATGGCCAAGCACGTCGACACCTACGTGGACGAATGGGCTGACACGCTGAAGGATCCCGAGCGCCTGCGCCGGTTCCGTTCCTTCGTCAACGCGCCGGACCAGAAGGACGACTCCATCACCTTCGTCCCCGATGAGCGTGGCCAGATGCGTCCGGCCACTGCGGAAGAGAAAGGGAAGGTACTGATCGGGGCCTCCATCCCCGTGCGTCGCTCCACACCCGACTTGGACGAAAACGAGGTATAG	MTEQTYSTENPRRIVVAGGGPAAHRFADAMHARGLDGWHVTVLTEEAHLPYDRVALSKALTQTDYDLTLGDASMWDHEAMDLRTGERVVKVNHEAKTVETAAGNTYAYDSLVVATGSNAARLPIPGAEHTHVYRTLEDVWAINKAIAELTEKLGRQVNAVTIGGGLLGLESAAGTEQLGANPIVIDGSQWLMATQLDEGAGQAMGRLIKAKGFEVHGGVFPSEVLSDDEGQVTGVLMADGRVIDADMVIVAIGVRPRDELFRAAEGEEQVFSLGQRGGVVINDYCATEVPDIFAIGEVANFGGMCLGLVAPANTMAEIVADRLHGGEATFPGFDTATKLKLSGVDVASFGDGFAKTEHSLEIVYADPARGVYQKIVTTDDAKTLLGGIFVGDATPYTSLRPLLGRELTAEPGAYLTAAGGGDAPDTELPDDAILCSCNNVAAGTIRDTINGCGACEGNAPVQELGELKGCTRAGTSCGSCVPMLKKLLEGELTKSGVEVSKALCEHIELSRQELFDAIRVLELTSFEEIMAKYGTGAGCDICKPTIASILASQHNAYVLDAGRGALQDTNDRALANMQKDGTYSVVPRIAGGEITPKKLGVIAAVAEKYNLYTKITGGQRIDMFGARLEQLPEIWKELVDAGFESGQAYGKSLRTVKSCVGSTWCRFGVQDSVAMAIQLELRYRGLRSPHKLKMGVSGCARECAEARGKDVGVIATADGWNLYVGGNGGATPAHAQLLAKDLDDETLLKYIDRYFMYYIRTADRLQRTARWQEELDGGIKHVEDVVVKDTLGIAEELEAAMAKHVDTYVDEWADTLKDPERLRRFRSFVNAPDQKDDSITFVPDERGQMRPATAEEKGKVLIGASIPVRRSTPDLDENEV	PGPT0000450_279	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
D1-29_01426	375	nirD	COG2146	Nitrite reductase (NADH) small subunit	ATGACGGCAACACTGGAAATTGGGGCGGTCGTAACCGATGCAGCCGGAACCATCACCGGCTGGCACCGCGTCTGCCCGGTGGATGAGCTGGAGCTCGCCTGGGGCGAGGCTGCGCTCATCTCCGGCCGCCAGGTGGCCATCTTCCGCACCGGCCCCGCCGAGGTATTCGCGGTGGCCCACGAGGATCCTGCCACCGGCGCCCACGTGATGGCCCGGGGAATCATCGGATCCCGCGGCGCCCGTCCCACCATTGCCTCCCCGCTGCACAAAGAGGTCTACGACCTCGAAACCGGAGAATGCTTCGGAACGGCGGAACTTCGGCTTGAAACATTCAGCACCCGCATCTCCGACGGCTTCGTCGAGGTTGAGCTCTAG	MTATLEIGAVVTDAAGTITGWHRVCPVDELELAWGEAALISGRQVAIFRTGPAEVFAVAHEDPATGAHVMARGIIGSRGARPTIASPLHKEVYDLETGECFGTAELRLETFSTRISDGFVEVEL	PGPT0000455_622	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363	NA	NA
D1-29_01427	1749		COG1109	putative phosphomannomutase	ATGACCCCCTCCGATGCCGATTCCCGCCTCCTCAGTCAGGCCCGTGAATGGGCAGCACAAGATCCGGATTCCGCAACGTCCGCCGAGCTCACCGAGCTGATCCGTCTCTACGAGGACGGCGTCCCGGTTGCCCGCCAGGAACTGGCCGACAGCTTTAATGGCACCCTGCAGTTCGGCACCGCGGGCCTCCGCGCCGCCCTGGGTCCCGGCCCCAACCGGATGAACAGGGTGGTGGTGCGCCGCGCCGCTGCCGGGCTGGCCGCTTTCCTGCTGGAAGCAGTGGGTGAGGCAGCGCCCGGGACTGCGCCGCGCGCCGTCGTCGGCTATGACGCCCGTTACAACTCGGACATCTTCGCTGAGGAAACCGCAGCGATTTTTACCGCCGCCGGAATCGAAACCTTCCTGATGCCTGCCGCGTTGCCCACTCCCCTGCTGGCTTTTGCCGTCCGGGCACTGGATTGCGACGGCGGTGTCATGGTCACAGCCAGCCATAACCCTCCGCAGGACAATGGCTACAAGGTCTATCTGGGCCGCCATGCAGTGGAGGAAAGCGGCCGCGGGGCCCAGATCGTGGCACCGTATGATGCCCGGATCGCCGCCACCATCGAAGCTGTGGGTCCGTTGGACACCATCGGCCTGGCGGAGCGGGGCTGGACTGTTTTGGATCCGTCCATCGTGGCGGACTACACGCGTGCGACGGCGGCACTCGCCGCTCCCGCCCATTTCCCGGCACGTGACGTCCGGATCGTTCTCACGCCCATGCACGGGGTTGGCGGGGAGACTGCGGTGTCGGTACTGAATGCTGCCGGCTTTGCCGATGTCACCCTGGTGGCTGAACAGGCTGAACCGGATCCCGATTTTCCCACGGTGAGCTTTCCCAACCCGGAGGAGCCGGGCGCGCTTGACCTCGCCCTGAAAACGGCCGCCACGGTGGGGGCTGATATTGTCCTCGCCAACGATCCGGATGCGGACAGGGCGGCAGCAGCGGCCAAGGACCCCGACACCGGCCTGTGGCGGATGCTCCGGGGCGACGAGGTGGGCGCGCTGCTGGGGGCACACATCGTTGCCAGGCTGGCCGCCGCGGACGGCGAAGAGGCCGAACGGGCCCACCGTGTATTCGCGAATTCCATTGTTTCCTCACGGCTGCTCTCGCGCATCGCCGCCGCGGCAGGCTACCGACACGAGGAAACACTCACGGGCTTCAAATGGATTTCCCGCGTGCCCGGACTTCTCTACGGCTATGAAGAAGCCCTTGGCTACTGCGTTGCACCCGATCTGGTCCGGGATAAGGACGGCATCTCCGCCGCCGTCCTGATTGCCGAACTCGCGGCCACGGCCAAGGCGGACGGGAAAACCGTCTTCGACACCCTGGACGAGCTGTATCTGCGGCATGGCCTGCACGCCAGCGACCAATTAAGCATCCGGGTAGCCAATCTGGGGCTGCTGGATGCCATGATGAACCGGCTCCGGGTCAGCCCGCCTGAATCCTTCGGCTCGTCCGTTGTGGAGTCGTTCGTTGATCTGGCCGAGGGCAGCGGGAGCCTGCCGCCCACTGACGGACTGCTTTATCTGACTCGTGACGGCACCCGGGTGATCATTCGGCCCAGCGGCACGGAACCCAAGCTCAAGTGCTACCTGGAAGTGATTCACCCGGTGGAATCGGCCGCGGAACTGCCGCACGTAAGGCAGGCAGCCCGCACCGCCCTGGACCAGGTGCTGGGGGATGTGCGCGAAGCCCTGGGCCTCTAG	MTPSDADSRLLSQAREWAAQDPDSATSAELTELIRLYEDGVPVARQELADSFNGTLQFGTAGLRAALGPGPNRMNRVVVRRAAAGLAAFLLEAVGEAAPGTAPRAVVGYDARYNSDIFAEETAAIFTAAGIETFLMPAALPTPLLAFAVRALDCDGGVMVTASHNPPQDNGYKVYLGRHAVEESGRGAQIVAPYDARIAATIEAVGPLDTIGLAERGWTVLDPSIVADYTRATAALAAPAHFPARDVRIVLTPMHGVGGETAVSVLNAAGFADVTLVAEQAEPDPDFPTVSFPNPEEPGALDLALKTAATVGADIVLANDPDADRAAAAAKDPDTGLWRMLRGDEVGALLGAHIVARLAAADGEEAERAHRVFANSIVSSRLLSRIAAAAGYRHEETLTGFKWISRVPGLLYGYEEALGYCVAPDLVRDKDGISAAVLIAELAATAKADGKTVFDTLDELYLRHGLHASDQLSIRVANLGLLDAMMNRLRVSPPESFGSSVVESFVDLAEGSGSLPPTDGLLYLTRDGTRVIIRPSGTEPKLKCYLEVIHPVESAAELPHVRQAARTALDQVLGDVREALGL	PGPT0017865_120	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
D1-29_01428	504			hypothetical protein	ATGAAAATGGGGCAGGGGGTGGAATGGGCGTTGCACAGCTGTGTGAACATGTCCTGGACCCCCTTGGGCGAGGCCGTCAGCAGCGCCCGCCTTGCCGAGTTCTACAAACTTCCGGCCGCTTACCTTAACAAGCAGCTCCAGGCTTTGGTGCGGGCTGAAATCCTGACATCCGTTTCGGGGCCGCGCGGCGGCTTCCAGCTTGCCCGCCGCCCGGAGCAGATTTCCGTCCTGGACGTGGTCCTGGCGATCGAGGGAAATGACCATGCCTTTCGGTGCGAGGGCATCCTCAAAGATGCGCCCGGCGGCGCCCCCGAGGCCGATTACGCGCGCACCTGCCTTATATCCCAGACCATGCGGCACGCCGAAGTCACCTGGCGGACCGAGCTCTCCAGGCAGTCCATTGCCGGGATCGCAGAGTCCATCGAGCGCCGTTTTCCCGACGCCAGGGAGGATACTGTCCGCCGGCTGATGGGCACCCGGGGCGCGCCCGAACGCACGGCCTGA	MKMGQGVEWALHSCVNMSWTPLGEAVSSARLAEFYKLPAAYLNKQLQALVRAEILTSVSGPRGGFQLARRPEQISVLDVVLAIEGNDHAFRCEGILKDAPGGAPEADYARTCLISQTMRHAEVTWRTELSRQSIAGIAESIERRFPDAREDTVRRLMGTRGAPERTA				NA	NA	NA	NA	NA
D1-29_01429	819	punA		Purine nucleoside phosphorylase	GTGAGTAATACAGACTTCCTGAACACTGACCCTTTTGCCGCCGCCAACGCAGCCGCCGCCTACATCGCCGAGGAAACGGGTGTGGACAGCCACGACGTCGCCCTGGTGCTGGGTTCAGGCTGGGGTGAAGCGGCCGAAGTAATCGGCACTACCACGGCAACGCTCTCGGCGGACGAGGTTCCCGGCTTCCACGCGCCCGCGGTAGAGGGCCATGTGGGCACCATCCGCTCCATCCTGACGAAGGAAGGTAAGCGGGCGCTGGTTCTGGGTGCACGGACCCATTACTACGAGGGGAAGGGCGTACGTTCCGTGGTCCATGGCGTCAGGACCGCAGCTGCAGCAGGCTGCACAACGCTGGTCCTCACCAACGGGTGCGGAGGCCTGAACGAAAGCTGGCCCCCTGGCACTCCCGTACTCATCAAAGATCACATCAACCTCACCGCGGCGTCACCACTGGAAGGCGCCACGTTCGTTGACCTGACAGATCTCTACTCCGCGCGCCTCCGTACACTCGCCCGCGAAGTGGATTCCTCCCTTGACGAGGGCGTGTACGCGCAGTTCACCGGGCCGCACTACGAAACGCCGGCGGAGGTCCAGTACGCCAAGCGCATCGGCGCTGACCTTGTGGGCATGTCCACCGCCCTGGAAGCGATCGCCGGCCGCCACGCAGGCATGGAAGTGTTCGGTATTTCGCTCGTGACCAACCTGGCCGCCGGCATCAGCCCTGCACCACTCAGCCACCAGGAGGTCATCGAGTCCGGACACGCCGCCGGACCGCGCATCTCCAAGCTTCTGGCCGAGATCATCGCCAAGCTCTAA	MSNTDFLNTDPFAAANAAAAYIAEETGVDSHDVALVLGSGWGEAAEVIGTTTATLSADEVPGFHAPAVEGHVGTIRSILTKEGKRALVLGARTHYYEGKGVRSVVHGVRTAAAAGCTTLVLTNGCGGLNESWPPGTPVLIKDHINLTAASPLEGATFVDLTDLYSARLRTLAREVDSSLDEGVYAQFTGPHYETPAEVQYAKRIGADLVGMSTALEAIAGRHAGMEVFGISLVTNLAAGISPAPLSHQEVIESGHAAGPRISKLLAEIIAKL	PGPT0013380_1532	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013380-punA-K03783	NA	NA
D1-29_01430	1341	lpdA	COG1249	NAD(P)H dehydrogenase (quinone)	ATGGTCGCTGCCTCACTTGGAGCGCAGGTCACCATCATCGAACGCGCCGGGCTGGGCGGCTCGGCGGTGCTTACCGACGTCGTTCCTTCCAAGACACTGATTGCCACCGCGGACCTGATGACCCGCGTCGGTGAGGCAGGCGAGCTGGGAGTGAAGTTCGACGTCGACGGCGGAGACTTTGTGCCGGTGATGCGGGCTGACCTCAAGCACATCAATGACAGGCTCCTCAACCTGGCACGCCAGCAGTCGCGGGACATCACGGCCGGCCTGGAACACCAGAACGTCCGCATCCTGATCGGGTCCGGCAGGCTGGTGGACAGCCACACCATCGAGGTCATCACCGCGGACGGCACAGAAACGGTCGAGGCGGACACCATCCTGCTGACCATGGGGGCGCACCCGCGGGAACTGCCCACCGCCCGGCCCGATGGCGAACGCATCCTGAACTGGGCCCAGATCTACAACCTCGATGAGCTTCCGGAGGAACTCATCGTGGTGGGGTCCGGCGTTACCGGTGCCGAATTCGCATCTGCCTACAACGGCCTGGGTTCCAGGGTCACCCTGATCTCCAGCCGTGACAGGGTGCTGCCGGGTTCGGACACCGACGCTGCAGAGGTTTTGGAGGAGGTCTTCGAGCGCCGCGGCGTCAGGGTCCTTTCCCGCTCACGCGCGGAGACGGTGGAGCGCACCGCCGACGGCGTGGTGGTCACCCTCAGCGACGGCGCCAAGGTCACCGGCAGCCACTGCCTGGTCTGCGTCGGATCCATTCCCAACACGGCCGGCATTGGCCTTGAAGAAGCCGGTGTTGGCCTCACCGAGAGCGGCCACATCAAGGTCGACGGCGTGTCCCGCACCACCGCGCCCAACATCTACGCCGCCGGCGACTGCACGGGCGTCCTTCCGTTGGCATCCGTGGCGGCGATGCAGGGCCGGATCGCCATCGCGCACTACCTCGGCGACACCGTGACGCCCATCAAGCTGCACCAGGTAGCGTCCAACATCTTCACCTCGCCGGAGATCGCCTCGGTTGGTGTCTCTGAGGACGAGATCCAGTCCGGCAAGTACCAGGGCGACATCATCAAGCTCTCGCTCAAGAGCAATGCCCGCGCCAAGATGCGCAACGCCAAGGATGGCTTCGTCAAGATCTTCGCCCGGAAGGGTTCGGGCACGGTGATTGGCGGCGTTGTGGTGGGCCCTAACGCCTCGGAACTGATCTTCGCCATTTCCATGGCGGTGAAGCAGAAACTGCACGTTGACGATCTCGCCAGCACCTTCACCGTCTACCCGTCCCTCAGCGGATCCATCTCGGAGGCGGCGCGCCGCCTCCACGTCCGGATGTAA	MVAASLGAQVTIIERAGLGGSAVLTDVVPSKTLIATADLMTRVGEAGELGVKFDVDGGDFVPVMRADLKHINDRLLNLARQQSRDITAGLEHQNVRILIGSGRLVDSHTIEVITADGTETVEADTILLTMGAHPRELPTARPDGERILNWAQIYNLDELPEELIVVGSGVTGAEFASAYNGLGSRVTLISSRDRVLPGSDTDAAEVLEEVFERRGVRVLSRSRAETVERTADGVVVTLSDGAKVTGSHCLVCVGSIPNTAGIGLEEAGVGLTESGHIKVDGVSRTTAPNIYAAGDCTGVLPLASVAAMQGRIAIAHYLGDTVTPIKLHQVASNIFTSPEIASVGVSEDEIQSGKYQGDIIKLSLKSNARAKMRNAKDGFVKIFARKGSGTVIGGVVVGPNASELIFAISMAVKQKLHVDDLASTFTVYPSLSGSISEAARRLHVRM	PGPT0020470_303	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020470-lpdA-K23842	NA	NA
D1-29_01431	186			hypothetical protein	ATGACTACAGCTCTTGTGCGTCCGCGCAGTGGAAAAATCATCGGTGGCGTGTGTGCAGCGCTGGCAGCGCGCTTCGGGCTGCCAAAGTTCCTCGTCAGGCTGGGCTTTGTGATCTTTGGCCTGGTGGGCATAGGTGAGCTGGTGTACATCGCCCTGTGGATCATGATCCCCAAAGCCCCGGCCTAG	MTTALVRPRSGKIIGGVCAALAARFGLPKFLVRLGFVIFGLVGIGELVYIALWIMIPKAPA	PGPT0027520_1895	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
D1-29_01432	1563	nasD_2	COG1251	Nitrite reductase [NAD(P)H]	ATGAGCGAGCAGATTGTCATTGTCGGATTCGGCCCGGTAGCGGCCCGGCTGATCGATGAGCTGCTGCCGGCAGTGCGCACCGGCCACATCCAGCTGACTGTGGTTGGCGAGGAGCCGGAGGCAGCCTACAACCGCGTCCTGGTGGCCGATCTGGGCGTCGGCCGCACCACGGCTGAGGACCTGGCGTTGTCAGATGCTGCTGCGCTCATGGCTGACGGCGTGGACGTCCGCCTCGGAGTGCGGGTGCGCCGGGTGGACCGCGCCCGGCAGCAGGTGGTCCTCACCGACGGATCCTCGGCGCACTACGAGCGCCTCGTTTTCGCCACGGGTTCCCGCCCCGTCATCCCCAACCTCACCGGCATCAACCCCGACCCCACCTCCCCCGTGCTCCCGGCCGGCGTCACCGCGCTCCGGGACCTGCGGGACGCAGGGGTGCTCCGCGCCGCGGTGGACGGCGGCAAGCGCGTCGTGGTGCTCGGCGGCGGCGTACTCGGCCTGGAAACGGCGCTGGCAGCCTCGGAAGAGGGAGCCACCGTGACGGTGGTCCACAACGGCCCGCACCCGCTGGGACGCAACATCGACCGGGGCGGCGGCGCCGTCCTCGCGGCAAGCCTGCGGCAGTGCGGCGTGCGGATGGCGGGAAACGCCCGGTCCACCGGTGTGGAACACAACGCCCCCGACGGCGGTTTTTCGGCGCTGCTTCTCAGTGACGGTTCGGCAATCGACGGCGATCTGCTGGTCATCTCGTGCGGCGTTCGTCCCCGGATCGAACTCGCTGAGGGCTGTGGCCTGTCCACCGCAACCGGCATCCTGGTGGACCACCGGCTCCGCGCGCACCACGAACCGCATATTTTCGCCATCGGCGACTGTGCCGAGGTCCGCTGCCCTGATCCGGCCTGCGCCGAGTGCCGCAGCGCCAAAGGCCCGTCCGGCCTGGTGGGACCGGGCTGGCGTCAAGCGGAATGGCTGGCCGAGTACCTGACGCTGCTGGCCGCCGGAACCCAGGAGGACGCCGACGCCCTGCCCGCGCTCCCGCAGGAGATGGCAGGCGTTGTTGTCCTCAAGGCCCGGGGAATGAACATGGCCGTGGCCGGTGAGAACGCAGCCGAGCCATGGGACGAGGAAGCCCTGACGTCAGGAGCCGTCAACGGACGCCCGCGGCTGCAGGTTGCCCAGTGGTCGGATCCCGAGCATGGCCGCTACGTCAAGATGACCACCCGCGGAGGTGTGCTGGAAGGCCTGGTGGCGGTGGGCATGCCACGCACAGCCGCCGAGCTGGTGGGGCTCTTCGAGCGTGGTGCCGAGCTGCCCGCGGACCGTTCGCTGCTGCTCCGCCTCGATGGCCCGGACCAGCTGGCCACCTCCGGGCCTACGGACCCGCAGGGAACGGTGTGCCGCTGCGCCGGTGTCAGCGGGGCCAAGATCCAGGATGCCGTGGAAGAGGGCTGTTCCACGGTGGCTGAGGTCTCGAAGGCAACGCGGGCCGGCACAGGCTGCGGCGGCTGTCACGAGGACATCAAGGGCATCATCGAAAAACACTTCCAGGCGGCTCCTGCCGCCTGA	MSEQIVIVGFGPVAARLIDELLPAVRTGHIQLTVVGEEPEAAYNRVLVADLGVGRTTAEDLALSDAAALMADGVDVRLGVRVRRVDRARQQVVLTDGSSAHYERLVFATGSRPVIPNLTGINPDPTSPVLPAGVTALRDLRDAGVLRAAVDGGKRVVVLGGGVLGLETALAASEEGATVTVVHNGPHPLGRNIDRGGGAVLAASLRQCGVRMAGNARSTGVEHNAPDGGFSALLLSDGSAIDGDLLVISCGVRPRIELAEGCGLSTATGILVDHRLRAHHEPHIFAIGDCAEVRCPDPACAECRSAKGPSGLVGPGWRQAEWLAEYLTLLAAGTQEDADALPALPQEMAGVVVLKARGMNMAVAGENAAEPWDEEALTSGAVNGRPRLQVAQWSDPEHGRYVKMTTRGGVLEGLVAVGMPRTAAELVGLFERGAELPADRSLLLRLDGPDQLATSGPTDPQGTVCRCAGVSGAKIQDAVEEGCSTVAEVSKATRAGTGCGGCHEDIKGIIEKHFQAAPAA	PGPT0000395_39	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000395-nasB-K00360	NA	NA
D1-29_01433	2247	nasC	COG0243	Assimilatory nitrate reductase catalytic subunit	ATGACCACAAGCGCCGACACGCACTGCCCTTACTGCGCCCTGCAGTGCGCCATGACGCTGAAGTCTCCAGCGGAACTGACCCCGGCTTCCGAGCCGGGGTCAGTCCCCGTGCCCGCGAAAACTGCGAAATCTGCTGTGGATGTGCCTCTCCTGGCGGCGCCTCTCACAGTGACCGGGCGCGAATTTCCCACCAACCGCGGTGGCCTCTGCCGGAAGGGCTGGACCTCGGCCAACCTCCTGAACCATGCCGGCCGCATCACTGAACCCCTGCTGAAGGGCGCTGACGGTATCCACCGTCCCATCGGCTGGGACCAGGCCCTTTCCCTGGTCACCACGGCCGTCCAGGAAACCCGCGAGCGCTACGGCGCAGACGCCGTCGGAGTCCTCGGCGGCGGCGGCCTGACCAACGAAAAGGCGTACATGCTGGGCAAGTTCGCCCGGCTTGCCCTTGGCACTTCCCGCATCGACTACAACGGCCGCTTCTGCATGTCCTCCGCCGCGGCCGCCGGGATGCGCGCCTTCGGCGTGGACCGGGGGCTCCCTTTCCCGCTTGAGGACCTGGACAGTGCCAGCACCATCATGATGCTGGGCTCCAACGTGGCCGAAACCATGCCCCCGTTTGTGCAGCACCTCAAAGGCGCCCGTGACGCCGGCGGACTGATCATCGTCGATCCGCGCCGCTCTGCCACGGCCGCTTTCACCTCCGACGGCGGTGGCCTGCACCTGCAGCCCCTGCCGGGCACGGACCTCACCCTCCTCCTGGGCCTGTCCCACGTGGTGATCCATGAAGGCCTGGCGGACCACAGCTTCATCGAAGACCGCACCTCCGGGTACCAGGCTGTGCTCCGCAGCGTGAACTCCTTCTGGCCCGAACGCGTCCAGTCGCTCACCGGCGTTCCCGCGGATCTCATCCGGGAAGCGGCCAGGAGGCTCGCCGACGGCGCCGCCAAGGGCGGAAGCTACATCCTCACCGGCCGCGGGGTGGAGCAGCACGTGGACGGCACCGACACCGCCACCGCGGCCATCAACCTCAGCCTCCTGCTGGGCCTTCCGGGCTCCCGGCGCAGCGGCTATGGCACCCTCACCGGCCAGGGCAACGGCCAGGGCGGGCGTGAACACGGCCAGAAGGCGGACCAGCTTCCCGGGTACCGCAAAATCACCGACCCCGCTGCCCGCGCCCATGTGGCAGGCGTGTGGGGCGTTCCCGAGGAACTGATCCCCGGGCCGGGCCTTCCCGCCGTTCAGCTCCTGAAGTCCCTTGGGCAGCCCGACGGCGTCCGTTGCCTTTTGGTGCACGCGTCCAATATCGTCGTGGCCTCCCCCGACGCCAACGCCGTCATCAAGGGCCTGCGCAGCCTGGACTTCCTGATGGTCTGCGACTTCTTTATGTCCGAAACCGCAGCCGAGGCGGACCTGATCCTGCCTGTGCTGCAGTGGGCGGAAGAGGAAGGCACGCTGACCAACCTTGAGGGGCGCGTCCTGCGCCGCCGCCGGGCGCTTCAGCCGCCGGCCGGCGCCCGCAGCGAGCTGTGGATCATGGCACGGCTCGCGGAAGCCCTCGGTGCCCCGTCCACCTACAGCGAGGATCCTGAAACGGTCTTTGAGGAATTGCGCCTCGCCTCCGCCGGCGGGCTGGCCGACTACTCCGGGATCGATTACGCCATGCTGGACCGCGGCGAAGCCGCCTACTGGCCGTACCCCGCGGGCAGCGGCGGAACGCCGCGGCTCTTCCTTGATGCCTTTGCCCACGCCGACGGCAAGGCGGTGATGACCGCGGTGACGCCCCGCCGTCGTCGCACTCCAGCCGCCAATCCCGTTGGGGACGGAACAGGCGCAGCCAAAACCATGACCCTCATCACCGGCCGGCTGCTGGAGCACTACCAGTCCGGGGCACAGACCCGGCGGGTGTCTGAGCTGCTGGCCAGCCAGCCTGAGGCGAAAGTGCAGATCCACCCGGCGGCCGCGGCTTCGATGGGCATCACCGACGGCTCCTTTGTCTCTGTCAGCAACGAGCGCGGCGACGTCGTCTGCAGGGCGGAGCTCAGCACGGCGATCCGCCCTGAAACAGTGTTCCTGCCCTTCCACTTCCCCGAACTCGAAAGCGCCAACCGCCTCACGGAAGCCGCCACCGATCCCATCTCCGGGATGCCGGAATTCAAGTTCAACAAGGTCTGGGTCCGGCTCGCCGCACAGCAGCCGCAGCACCAGTCCAACCCCAGTGTTCTTCAGACGACGGAGGCCTCATGA	MTTSADTHCPYCALQCAMTLKSPAELTPASEPGSVPVPAKTAKSAVDVPLLAAPLTVTGREFPTNRGGLCRKGWTSANLLNHAGRITEPLLKGADGIHRPIGWDQALSLVTTAVQETRERYGADAVGVLGGGGLTNEKAYMLGKFARLALGTSRIDYNGRFCMSSAAAAGMRAFGVDRGLPFPLEDLDSASTIMMLGSNVAETMPPFVQHLKGARDAGGLIIVDPRRSATAAFTSDGGGLHLQPLPGTDLTLLLGLSHVVIHEGLADHSFIEDRTSGYQAVLRSVNSFWPERVQSLTGVPADLIREAARRLADGAAKGGSYILTGRGVEQHVDGTDTATAAINLSLLLGLPGSRRSGYGTLTGQGNGQGGREHGQKADQLPGYRKITDPAARAHVAGVWGVPEELIPGPGLPAVQLLKSLGQPDGVRCLLVHASNIVVASPDANAVIKGLRSLDFLMVCDFFMSETAAEADLILPVLQWAEEEGTLTNLEGRVLRRRRALQPPAGARSELWIMARLAEALGAPSTYSEDPETVFEELRLASAGGLADYSGIDYAMLDRGEAAYWPYPAGSGGTPRLFLDAFAHADGKAVMTAVTPRRRRTPAANPVGDGTGAAKTMTLITGRLLEHYQSGAQTRRVSELLASQPEAKVQIHPAAAASMGITDGSFVSVSNERGDVVCRAELSTAIRPETVFLPFHFPELESANRLTEAATDPISGMPEFKFNKVWVRLAAQQPQHQSNPSVLQTTEAS	PGPT0000390_1148	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000390-nasA|nasC|narB-K00372	NA	NA
D1-29_01434	1476	narK	COG2223	Nitrate/nitrite transporter NarK	GTGACTGTTGACCGCACCGCAGACGCCGGCACCGGCAATTCCGTAGATCTTGAGGCCGAACCCCCGCACGGAAGCGTGCCTGCATCCGCCGGCACGCAGCCCGGCTCCACCACTACAACCAGCGCCCCCGCCCTTGAATACCGTCCGGGCCGCTGGATCGCGAACTGGAATGCCGAGAACAAGGAGCAGTGGGAAACCGCAGGGCGGACCATCGCCCGCCGCAACCTGAACTGGTCCATCTTCGCCGAATTCCTCGGTTTTGTCGTCTGGCAGCTTTGGTCCATCGTGGTGGTCCAGCTTCCCGCCGCCGGCTTCACGTTCACGACGTCGGAAATCTTCTGGTTGATCTCGATGCCCAGCCTGGTAGGTGCCACGCTCCGCATCCCTTACACCTTTATGGTTCCCCGCTTCGGCGGGCGGAACTGGACCATCGTGTCCGCACTCCTGCTCCTGATTCCTTCCATCGGACTGGGACTGTGCGTCGCCAACCCCGAAACCCCGTTCGGCGTCATGCTGTTCGTGGCAGCACTGGCCGGTTTCGGTGGCGGAAACTTCGCCAGCTCCATGGCCAACATCACCTTCTTCTACCCTGCCCGTGAAAAGGGCTGGGCACTGGGCCTGAACGCCGCCGGCGGCAACATGGGTGCGGCCGTTGCGCAGCTCGCCGTCCCGATCGCGATCACCCTGCTGGCGATGGGCAGCGTCAACCTGCCGATGGCCGGCTGGATGTGGGTTCCCTTTATCCTGATCGCAGCCTTCGGCGCCTACAAGTACATGGACAACCTGACCAGCGCCAAGGGGGACGTGGCCGGCTCGGTGGCCGCCCTGAAGGAACCGCATCTGTGGATCATGGCGCTGCTCTACATCGGCACCTTCGGCTCCTTCATCGGCTTCGCCGGTGTGTTCCCCAAGCTCATCAAGGACTACTTCCCCGCGTTCTCCTCCATCGGAGTCGGAACGGTTGCCCTCTCGCTCGCCTTCCTCGGCCCGCTGGTGGGCTCACTCGCCCGCCCCTACGGCGGACGCATGGCTGACCGCATGGGCGGCGCCCGGATGACGGTTGCAGCCTTCGCATCCATGGCACTGATCACCCTCACCATGATCTGGACGCTTCCGCTGAAGAACTTCTGGCTCTTCCTGGTCCTGTTCCTGATGCTCTTCACGGCCAGCGGATTCGGAAACGGTGCAACCTACCGGATGATCCCCATCATCTTCGCCACCTCCAGCCGGGCCGCAAAGGCAGGCGCCAGCACGGTGGAGACGCAGCGCCTGGCATCCTCGGCCCTCGGCCTGATCTCGGCCATCGGCGCCTACGGCGGGTTTGTTATCCCGCAGGTACTGAACGCCTCCAACACCGCCAGCGGTTCCTACACACCGGCCTTCTACGGCTTCGTAGCCGCCTACGCCGTGATGCTGGTTGTCTGCTGGGCCTTCTACATCCGCAACGCCAACCGAAATGCGATGGGACACGTCTAA	MTVDRTADAGTGNSVDLEAEPPHGSVPASAGTQPGSTTTTSAPALEYRPGRWIANWNAENKEQWETAGRTIARRNLNWSIFAEFLGFVVWQLWSIVVVQLPAAGFTFTTSEIFWLISMPSLVGATLRIPYTFMVPRFGGRNWTIVSALLLLIPSIGLGLCVANPETPFGVMLFVAALAGFGGGNFASSMANITFFYPAREKGWALGLNAAGGNMGAAVAQLAVPIAITLLAMGSVNLPMAGWMWVPFILIAAFGAYKYMDNLTSAKGDVAGSVAALKEPHLWIMALLYIGTFGSFIGFAGVFPKLIKDYFPAFSSIGVGTVALSLAFLGPLVGSLARPYGGRMADRMGGARMTVAAFASMALITLTMIWTLPLKNFWLFLVLFLMLFTASGFGNGATYRMIPIIFATSSRAAKAGASTVETQRLASSALGLISAIGAYGGFVIPQVLNASNTASGSYTPAFYGFVAAYAVMLVVCWAFYIRNANRNAMGHV	PGPT0000300_1094	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
D1-29_01435	1413	yhjE		Inner membrane metabolite transport protein YhjE	ATGTCATCTCTTGAAACCACCACGGAACCAGGGTCCGCGAAGCCGGTGAACTCCAAGGGCAAAGTCATCTTTGCCAGCCTCATCGGCACCACCATTGAGTTCTATGACTTCTACATCTACGCCACGGCGTCTGTCCTGGTCTTCCCCAAGCTCTTTTTCCCGCAGGCAACAGACATCAACGCACTGCTCAGCTCGTTTGCCATCTTCGGCGTCGCTTTCATCGCCCGCCCGGTAGGTTCGGTCCTGTTCGGCCACTTCGGCGACAAGTTCGGCCGCAAGGGCACACTGGTTGCCTCGTTGCTGACCATGGGCATCGCGACCTTCCTGATCGGCGTGCTCCCCACCGCCTCACTTCCCGGCTGGGCCATCCTGGCGCCCCTGATGCTTGTGGTCCTGCGCTTTGCCCAGGGACTGGCCCTCGGCGGCGAATGGTCAGGTGCCGCCCTGCTGGCAACTGAGAACGCCCCGCAAGGCAAGAGGGCGGTCTACGGAACGTTCCCGCAACTTGGTGCTCCGATCGGTTTCATCCTCGCCAACCTGCTGTTCATCTGGCTCAACGCTGCCCTGTCCGCGGAAGAGTTCCTCGCCTGGGGCTGGCGCGTCCCCTTCCTCCTGAGTGCCCTGTTGGTGATTGTTGGCCTGTACGTCCGGCTGAAGCTTGTTGAAAGCCTCTCCTTCCAGAAGGTCCTGACCGAAGAAAAGGTGGCCAAAGTTCCTTTTGCTGCCACCTTCAAGAACCACTGGCGCCCGGTGGTGGCCGGAACGTTCATCATGCTTGCCACCTACGTCCTGTTCTACGTGATGACCTCCTTCACCCTGACTTATGGCACCAAACCCGCCTCTGTGGAGGCAGCGCAGGCAGCAGCAGAAAAGGCCGGCAAACCGATGTCCGCGGTGGAGATCGCAAACTTCGTCCCGGGGCTCGGCATTTCCCGCGGCGACTTCCTCTGGATGCTGATCCTCGGCGTTGTCTTCTTTGGCATCTTCACCCTGGTCTCCGGCCCGCTGGCCGAAAAATGGGGCCGCCGCAAGTTCCTGCTCTCCGTCACGGCGGGCATCTTCGTCTTCGGGATCCTCTGGTTCACCATGTTCGGCCCTGGCCCGGTTGCCGCTGTCATCGGACTCATCGTGGGCTTCACGCTGATGGGACTGACCTTCGGACCGATGGCCGCCATCCTTCCCGAGCTGTTCCCCGCCAACGTGCGGTACACCGGCTCCGCTGTGGCCTACAACCTGTCCAGCGTCATCGGTGCCGCCCCGGCGTCGTTCATTGCCATTGCCCTGTGGCAGGCTGCCGGCGGCAGCACCTGGCTGGTGGGCGTCTACATGGCAGCCGCGGCCGTGCTGACCTTCATCGCCCTGTGGATCACCCGTGAAACCAAGGACACAGACTACGAGAACAACGTGGCCTGA	MSSLETTTEPGSAKPVNSKGKVIFASLIGTTIEFYDFYIYATASVLVFPKLFFPQATDINALLSSFAIFGVAFIARPVGSVLFGHFGDKFGRKGTLVASLLTMGIATFLIGVLPTASLPGWAILAPLMLVVLRFAQGLALGGEWSGAALLATENAPQGKRAVYGTFPQLGAPIGFILANLLFIWLNAALSAEEFLAWGWRVPFLLSALLVIVGLYVRLKLVESLSFQKVLTEEKVAKVPFAATFKNHWRPVVAGTFIMLATYVLFYVMTSFTLTYGTKPASVEAAQAAAEKAGKPMSAVEIANFVPGLGISRGDFLWMLILGVVFFGIFTLVSGPLAEKWGRRKFLLSVTAGIFVFGILWFTMFGPGPVAAVIGLIVGFTLMGLTFGPMAAILPELFPANVRYTGSAVAYNLSSVIGAAPASFIAIALWQAAGGSTWLVGVYMAAAAVLTFIALWITRETKDTDYENNVA				NA	NA	NA	NA	NA
D1-29_01436	732			hypothetical protein	GTGAAGCCTTTCCTGCTGCTGGCCTCCCGGGCTGAAGACGCCGCTGCCGAGGACGAGTATGCCGCCTATCTGCGGTATGGCGGACTGGAACCGGAACAGCTGCGGCGCATCAGGCTGGAGGCGGGCCCGCTTCCGGATCTGGACCTGGCGGACTATTCGGGCGTGATTGTGGGCGGCAGTCCGTTCACGTCCAGTGATCCGGACGACGGCAAGAGCCCCACCCAGCACCGCGTCGAGCGGGAGCTGGCCGGACTGCTGGACCGGATCGTGCCCGCAGATTTTCCTTTTCTGGGCGCATGCTACGGGGTGGGCACGCTGGGAATGCACCAGGGCGCGCTGATCGACAGGACCTTCGGCGAGCCGCTGGGCGCCGCGGAGATTGAGCTGACGGAGGCCGGGCTGGCCGATCCTGTGCTGCAGGGCATGCCCCGGCGCTTCACCGCCTTTACCGGCCACAAGGAAGCCTGCACGTTGCTGCCGGCCCATGCCGTGCTGCTGGCCACCTCCGCCGCATGCCCGGTGCAGATGTTCCGGATCAGGCAGAACCTGTACGCCACCCAGTTCCATCCGGAACTTGACGTGGACGGGCTGGTCACCAGGATCGACATCTACCGCCATGCCGGCTACTTTCCGCCGGAATCCGCGGAGGAACTCATGGAGAGCGCCCGTCAGTTCACTGTCACCGAACCCACCAATATCCTCAAGAACTTTGTGGCCCGGTACGGCGCCTGA	MKPFLLLASRAEDAAAEDEYAAYLRYGGLEPEQLRRIRLEAGPLPDLDLADYSGVIVGGSPFTSSDPDDGKSPTQHRVERELAGLLDRIVPADFPFLGACYGVGTLGMHQGALIDRTFGEPLGAAEIELTEAGLADPVLQGMPRRFTAFTGHKEACTLLPAHAVLLATSAACPVQMFRIRQNLYATQFHPELDVDGLVTRIDIYRHAGYFPPESAEELMESARQFTVTEPTNILKNFVARYGA	PGPT0021580_6544	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
D1-29_01437	456			hypothetical protein	ATGCTCGCACCCAGTTTTGAAGAAGAAGTAGACCGATACCACCTCGCTGTTCCGGAGATCACCCGGGGCAATCCCGGACCCGTCAAGGAGCTCTATTCCCGGCTTGACGATGTCACCCTGGCCAACCCCTTTGGCGGGATCGCCCGGGGATGGGCGCAGGTGGAGGCCCGCCTTGACCAGGCGTCCCGCAACTACCACGAGGGCGAGATGCTCGGTTTTGACACCATCACGTCGTACACGGCCAGGGACACCGCCTACCTCGTGGAGACTGAGCACTTCCGCGCACGCATGGCCGGTGCTGCCATGGTGGAGGAATTCGCGCTCCGCGTGACCAGCATCTTCCGCCGCGAGGAGGGCTACTGGAAGCTCGTCCACCGGCACGCGGACCCGGCTGCCCAGCCGCAATCGCGCCGGTCCCTGGCCCAGCCGTCATTGGCGGAGGGTTCCGTCTCCTGA	MLAPSFEEEVDRYHLAVPEITRGNPGPVKELYSRLDDVTLANPFGGIARGWAQVEARLDQASRNYHEGEMLGFDTITSYTARDTAYLVETEHFRARMAGAAMVEEFALRVTSIFRREEGYWKLVHRHADPAAQPQSRRSLAQPSLAEGSVS				NA	NA	NA	NA	NA
D1-29_01438	1818	carB_2		Carbamoyl-phosphate synthase large chain	TTGTCAGCAAATTTGGAGCAGTCCGCAAGTCCCGTGCAGTCGAACCTCACAAAGGTGCTGATCGCCAACCGAGGCGAAATCGCAGTGCGGATCATCCGCGCGGCACGTGATGAAGGCATTGCCTCCGTGGCTGTCTACGCCGATCCTGACCGCGACGCACTCCACGTGCGCCTGGCCGACGAGGCTTACTCGCTGGGCGGTAACACCGCTGCGGAGTCCTACCTGGTGATGGATAAGATCATCGACGCCGCCCGCCAGTCCGGCGCGAACGCCATCCACCCCGGTTACGGCTTCCTGGCCGAGAACGCCCAGTTCGCCGCCAGGGTCATCGAAGCGGGCATCACCTGGATTGGCCCCTCCCCCGAAGCAATCTCTGCCCTGGGCGACAAAGTCCAGGCCAGGCACATCGCCGAGAAGGTGGGGGCACCACTGGTGCCCGGAACCGCCGACCCCGTCGAATCGGCAGAAGAAATCCTCGACTTCGTGGACAAGTTCGGCCTGCCGGTGGCTATCAAGGCGGCCTTCGGCGGTGGCGGCCGGGGCATCAAGGTAGCCCGCACCAGGGACGAGATTCCTGAACTGTTCGAATCCGCCGTGCGTGAAGCCACCGCTGCCTTCGGCCGTGGCGAGTGCTTTATCGAACGCTTCCTGGACGCCCCCCGGCATGTGGAAACCCAGTGCCTCGCGGACGCTTACGGAAATGTCGTTGTGGTCTCCACCCGCGACTGCTCGCTGCAGCGCCGCAACCAGAAACTTGTCGAAGAAGCCCCCGCTCCTTTCCTCACCGAAGACCAGAACCGGCGCCTGTACGAATCCTCCAAAGCAATCCTGAAGGAAGCCGGCTACCTCGGCGCAGGCACCTGCGAGTTCCTTGTGGGCCAGGATGGCACCATCTCCTTCCTGGAGGTCAACACCCGGCTCCAGGTGGAGCACTGCGTCTCCGAGGAAGTCACGGGAATCGACCTGGTCCGTGAACAGTTCCGGCTGGCCCGCGGCGAAAAGCTGGGCTACGGAGATCCTGAGGTCCGCGGCCACTCCTTCGAATTCCGCATCACCGGTGAAGACCCGGGCCGCAACTTCATGCCCGCGCCGGGCACCGTTCGCGTCCTGAAGAACCCCACCGGCCCCGGAATCAGGATTGATTCGGGGATCGAGCAGGGCGACGTCATCAGCGGCAACTTCGACTCCATGCTCTCCAAGCTGATTGTCACGGGCGCCAGCCGCCCGCAGGCCCTGCAGCGGGCCCGCCGGGCACTGTCGGAGATGGTGGTGGAAGGCATCCCCACCGTCATCCCCTTCGACCTGGCAGTCGTTTCAGATCCGGCATTCGCGCCCGAAGAGGGTCCATTCAGCGTCCACACCCGCTGGATCGAAACAGAATTCACCAACAACCTTCCCGCCTGGATTCCGGACGGGGCAGCCGATACAGACGACGACGCCGGCGCCCGGCAGCGCGTGGTGGTTGAAGTTGGCGGCAAGCGCCTGGAAGTGGTCATGCCCGCCTCCCTCGGCTCCTTTGGGGCCGGTTCAGCCGCGTCCGGAACCAAGACGGCCAAGTCGAAGAAGCGCGCCCGCTCGGGCGGCTCGGCAGCTGCCGCCACCGGGAACGCCCTCACCTCGCCGATGCAGGGCACCATCGTCAAGGTGGCAATTTCCGACGGCGACGTTGTGGCTGAAGGTGACCTGATTGTGGTGCTCGAGGCCATGAAAATGGAGCAGCCCCTGACCGCCCACCGCGCCGGCACCATCACAGGGCTCAGCGCCAAGGCCGGCGAGACGGTGTCGGCCGGCGCCGTCATCGCCACGATCGAAGACTAG	MSANLEQSASPVQSNLTKVLIANRGEIAVRIIRAARDEGIASVAVYADPDRDALHVRLADEAYSLGGNTAAESYLVMDKIIDAARQSGANAIHPGYGFLAENAQFAARVIEAGITWIGPSPEAISALGDKVQARHIAEKVGAPLVPGTADPVESAEEILDFVDKFGLPVAIKAAFGGGGRGIKVARTRDEIPELFESAVREATAAFGRGECFIERFLDAPRHVETQCLADAYGNVVVVSTRDCSLQRRNQKLVEEAPAPFLTEDQNRRLYESSKAILKEAGYLGAGTCEFLVGQDGTISFLEVNTRLQVEHCVSEEVTGIDLVREQFRLARGEKLGYGDPEVRGHSFEFRITGEDPGRNFMPAPGTVRVLKNPTGPGIRIDSGIEQGDVISGNFDSMLSKLIVTGASRPQALQRARRALSEMVVEGIPTVIPFDLAVVSDPAFAPEEGPFSVHTRWIETEFTNNLPAWIPDGAADTDDDAGARQRVVVEVGGKRLEVVMPASLGSFGAGSAASGTKTAKSKKRARSGGSAAAATGNALTSPMQGTIVKVAISDGDVVAEGDLIVVLEAMKMEQPLTAHRAGTITGLSAKAGETVSAGAVIATIED	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
D1-29_01439	660		COG0424	Nucleoside triphosphate pyrophosphatase	GTGACCCGCCTGATCCTTGCCTCCCAATCCCCTGCCCGCACCAAGCTCCTGGCCGACGCCGGCATCCGCCACTCCGTGCTGGTGTCGGACGTGGATGAGGACGCCGTCCAGGCCCGCTACGGCATCACCGATCCCCACGACACCGCGCTCCTGCTGGCCCGGGCGAAAGCCGAGGCAGTTGCCGCGCTTCCCGACGCGGAGGGCGCGCTGGTGCTGGGCTGCGACTCCGTCTTTGAGTTCGACGGCGAGGCGCACGGAAAGCCGTACACGGCCGCCGTCGCCCGCGAGCGGATGCTCCGGATGAGCGGAAACACCGGAGTGCTGCATACGGGCCACTGGCTGGTGGACTGCCGGGACACAACGTCCGACGACGGCACAACCCCGCCGGGATCCGGCGCCACGCTGGGCACCGTCGCCTCCGCCGAAGTCCACTTCATGGAAATGGAACCAGAGGAAATCGACGCCTACATTGCCACCGGCGAGCCGCTGCACTGCGCGGGATCCTTCACCATCGACGGACTGGGCGGGGCATTCATCCGGAAAGTCAACGGGGACCCGCACGCCGTCGTCGGACTCTCCATTTCCACGCTCCGCACGCTCCTGGCGCAGGCCAATGTGCGCATCAACGAGCTCTGGCCGGCACAAGGACCTGCGTCGTAA	MTRLILASQSPARTKLLADAGIRHSVLVSDVDEDAVQARYGITDPHDTALLLARAKAEAVAALPDAEGALVLGCDSVFEFDGEAHGKPYTAAVARERMLRMSGNTGVLHTGHWLVDCRDTTSDDGTTPPGSGATLGTVASAEVHFMEMEPEEIDAYIATGEPLHCAGSFTIDGLGGAFIRKVNGDPHAVVGLSISTLRTLLAQANVRINELWPAQGPAS				NA	NA	NA	NA	NA
D1-29_01440	561			hypothetical protein	ATGTCACGCACAAAGAGAATCACCCTTGGCCTGACCGCCACGGCACTGGCCCTTAGTGCCGGAATCGGAGTCGCCGGCATGGCCTCCGCCACCACCCCGGCTCCCACCCCCAGCGCCAGCTCCAGCGCCTCGGCTGACGGCAGCGCCAGCACCCCGGCTGACGGCAAGGGCCGGCACGGCGGCCGGGGCGGTGAGCGTGGAATGGCGCAGGCGTCAGCGCTGGCCGCGAAGCTCGGCGTCGAGGAGAGCAAGGTCACGGAGGCGCTGCAGGCTTTCAGGGAGGCGAACAGGCCCACCACCCCGCCGGCTGAGGGCACCAAGCCGGATGCCGCGGCCAGGGACGCTGCCCTGGCCAAGTCCCTGGCGGACACGCTGGGGATTGACGAGGCCAAGGTGGCTACGGCGCTGCAGGAACTCCGCAGCGAGGCCCAGGCCCAGAGGGCGGCTGCGCTCAAGACAAAGCTGGACCAGGCAGTTACCGACGGCAAACTGACGCAGGCTGAAGCGGACGCCGTCACCAAGGCCGTCGAAAGCGGTGTGATCGGGGGCGGAGGCCGCTAA	MSRTKRITLGLTATALALSAGIGVAGMASATTPAPTPSASSSASADGSASTPADGKGRHGGRGGERGMAQASALAAKLGVEESKVTEALQAFREANRPTTPPAEGTKPDAAARDAALAKSLADTLGIDEAKVATALQELRSEAQAQRAAALKTKLDQAVTDGKLTQAEADAVTKAVESGVIGGGGR				NA	NA	NA	NA	NA
D1-29_01441	1449	dctA_1	COG1301	C4-dicarboxylate transport protein	GTGAGCACTCAAACCCGCACCCCCGAATCCGCAGGAAAGACCGGCTTCCAGCTGCCCACGTGGGCAGGCTCGTTCGGCTTCCAAATCATCGCAGCCCTGATCGTTGGCCTGGGCCTGGGCCTCCTGGCCAAGTACACCGGCAGCACCCAGGACAGCCCCAACGGCCTCGGTGCCACGCTGCAGACCATTGGCTCCAGCTACGTGTCGCTGCTGCAAACCGCCGTGGTCCCGCTGATCTTCACGGCAGTGGTCAGCTCCATCTCCAACCTGCGGCAGGTGTCCAACGCCGCCAAGCTGGCCTGGAACACCCTGCTCTGGTTCGCCATCACGTCCCTGATCGCCGTCCTGATCGGCATCGGCCTGGGCGTCCTCCTGCAGCCGGGCAGCAACACCGGCATCACCGGAGAAGGTGAAGCCCCCGGCAAGGTGGGCAGCTGGTGGGCCTTCCTCACCGGACTCTTCCCCAAGAACTTCCTGGGTCTTGGCGCCAGCTCCACCGTGGCGGAATCGGGCGCGGTCACCACCGCCGTCAGCTTCAACGTGCTCCAGATCCTGGTGATCGCCATCGCCGTCGGTGTGGCGGCACTGAAGGTCGGCAAGGCCGCTGAGCCGTTCCTGAACCTCAACGCCTCAGCCCTGGCCGTCATCCAGAAGGTCCTCTGGTGGATCATCCGCATTGCCCCACTGGGCACTGTTGGCCTGATCGGCAACGCCGTTGCCATCTACGGCTGGGACACCATCGGCTCGCTGGGCAAGTTCACTCTTGCCATCTATGTGGGCCTGGCCCTTGTGCTGTTCGTCGTTTACCCGGTGCTGGTCCGCACCCATGGCCTCTCCGTGAAGCAGTACTTCTCCGGTGTGTGGCCCGCCGTCCAGCTGGCGTTCGTTTCCAGGTCCTCAGTGGGGACGCTGCCCCTGACGCAGCGGGTCACCGAACGCAGCCTGGGCGTACCCCGTGCGTACGCATCCTTCGCCGTGCCCCTGGGCGCCACCACCAAGATGGATGGCTGCGCCGCAATCTACCCGGCCATCTCGGCAATCTTCGTGGCCCAGTTCTTTGGCGTCCAGCTGGACTTCACCCAGTACCTGCTGATCGCCCTGGTCTCGGTGCTCGGGTCGGCAGCGACAGCCGGAACCACCGGCGCCGTGGTGATGCTCACCCTGACGCTCTCCACGCTGGGACTCCCGCTGGCCGGCGTCGGACTGCTGCTGGCCATCGATCCGATCCTGGATATGGGACGTACGGCAGTCAACGTCGCCGGGCAGGCGCTGGTCCCCACCATCGTGGCCAAGCGCCAGGGCATCCTGAACGAGGCGCTGTACAACGCGCCACGGAACGGCACCCCCTTTGTGGATGACGACGCCGACTCCGCCACCACTGACCCGTCCAGCACCGGGGCATCCACGGATCCGGCGGGCAGCCGCATACGTGAGGACGCAAAGGTCTAA	MSTQTRTPESAGKTGFQLPTWAGSFGFQIIAALIVGLGLGLLAKYTGSTQDSPNGLGATLQTIGSSYVSLLQTAVVPLIFTAVVSSISNLRQVSNAAKLAWNTLLWFAITSLIAVLIGIGLGVLLQPGSNTGITGEGEAPGKVGSWWAFLTGLFPKNFLGLGASSTVAESGAVTTAVSFNVLQILVIAIAVGVAALKVGKAAEPFLNLNASALAVIQKVLWWIIRIAPLGTVGLIGNAVAIYGWDTIGSLGKFTLAIYVGLALVLFVVYPVLVRTHGLSVKQYFSGVWPAVQLAFVSRSSVGTLPLTQRVTERSLGVPRAYASFAVPLGATTKMDGCAAIYPAISAIFVAQFFGVQLDFTQYLLIALVSVLGSAATAGTTGAVVMLTLTLSTLGLPLAGVGLLLAIDPILDMGRTAVNVAGQALVPTIVAKRQGILNEALYNAPRNGTPFVDDDADSATTDPSSTGASTDPAGSRIREDAKV				NA	NA	NA	NA	NA
D1-29_01442	1632			hypothetical protein	GTGGCCGATGACTACACAGACACCCTCATCCGGCTTAACCCGTCGTTCGCCACTACCCTTGGGCTGCCAGGACACGAGACCGAATATCCGGACTATTCGCCGCAGGGGATCGCGGAGTTCGCCGCGGAAGCCCGCAAGGCCCTTACCGCCCTTGACGGACTCGAGCCCCAGGATGACATTGACGCTGTCACCCTCGACGCCATGCGGGAACGGCTGGGCCTCCAGCTGGAAATCCATGCGTCAGGCTGGGACGAAGCGGAACTGAACAACCTGGCATCACCGGCTCAGGACATCCGCGCCATCTTTGACCTGATGCCCACGGAGACCGGACAGCACTGGGAACACATAGCGGGCCGCGCCCTCAATGTACCGGGCGCCATCCACGGCTACATCAGCTCCTTGCGGCAGTCGCGGGACGCCGGGCGGGTAGCGGCAGCTCGGCAGGTAACCACTGTGATCGAGCAGGCCGGCAAGTACGCGGCCGAGGACGGATTCTTTGCCAAGCTGGCCGCCGGGGCCAAGACGCCCGAGGGCCCGCTGGACCACGCAGTGCAGGAAAAGCTCGACGCCGGCGCAACGGCTGCCCGGAGTGCGTACGCGGAACTCGCGGAATTCCTCCGCCGTGAACTGCTGCCCGCTGCCCCGCAGAAGGACGCCGTCGGCAGGGAACGCTACGCCCTCGCCTCGCGTTCCTTCCTGGGTGCCGCCGTCGACCTCGAAGAAACGTACGCCTGGGGCGTCCAGGAGCTTGACCGCCTGATTGCCGAGCAGGAACAGGTGGCGGCCACCATCAAGGCCGGAGCCACCGTTGCCGAAGCCAAGGAAATCCTCAACAGCGATCCTGCCCGCCAGCTGAAAGGCACCGATGCCCTGAAAGCATGGATGCAGGAGCTCTCGGACAAAGCCGTAGGCGATCTTGCCGGCGTGCACTTCGAGATCCCGGACGTGATGAAAAGGCTGGAATGCCTGATCGCCCCCACCGACGAGGGCGGCATCTACTACACCGGCCCGTCCGACGATTTCAGCCGTCCCGGCCGCATGTGGTGGTCCGTCCCCGCGGGCGAGGACACCTTCACCACCTGGGCCGAAACCACCACGGTGTTCCATGAAGGGGTCCCCGGCCACCACCTCCAGGTGGCCACCGCAACGTACCGCAGGGAACTGCTCAACAACTGGCGGCGCAATGTCTGCTGGACCTCCGGCCACGGCGAAGGCTGGGCCCTGTATGCGGAGAAGCTCATGCAGGAACTCGGGTATCTGTCGGATCCCGGCGACTACATGGGCATGCTGGACGGGCAACGCATGCGTGCGGCCCGCGTGGTGTTCGACATCGGTGTGCACCTGGAACTCGACGTACCCGAACGCTGGGGGTCCGGAACCTGGACGCCGGACAAGGGCTACGAATTCCTGAAGGAGAACCTGCCCATCAGCGAAGGACAGCTCAATTTCGAATTCACCCGCTACCTCGGCTGGCCGGGCCAGGCCCCCTCCTACAAGGTGGGCCAGCGCCTGTGGGAGCAGATCCGCGCCGAACTCGAATCCCGCCCCCGCTTTGACCTCAAAGCCTTCCATACCAAGGCGCTGAACATCGGCTCAGTAGGCCTGGACACGCTGCGCCGGGCGCTGCTGTAA	MADDYTDTLIRLNPSFATTLGLPGHETEYPDYSPQGIAEFAAEARKALTALDGLEPQDDIDAVTLDAMRERLGLQLEIHASGWDEAELNNLASPAQDIRAIFDLMPTETGQHWEHIAGRALNVPGAIHGYISSLRQSRDAGRVAAARQVTTVIEQAGKYAAEDGFFAKLAAGAKTPEGPLDHAVQEKLDAGATAARSAYAELAEFLRRELLPAAPQKDAVGRERYALASRSFLGAAVDLEETYAWGVQELDRLIAEQEQVAATIKAGATVAEAKEILNSDPARQLKGTDALKAWMQELSDKAVGDLAGVHFEIPDVMKRLECLIAPTDEGGIYYTGPSDDFSRPGRMWWSVPAGEDTFTTWAETTTVFHEGVPGHHLQVATATYRRELLNNWRRNVCWTSGHGEGWALYAEKLMQELGYLSDPGDYMGMLDGQRMRAARVVFDIGVHLELDVPERWGSGTWTPDKGYEFLKENLPISEGQLNFEFTRYLGWPGQAPSYKVGQRLWEQIRAELESRPRFDLKAFHTKALNIGSVGLDTLRRALL				NA	NA	NA	NA	NA
D1-29_01443	231			hypothetical protein	GTGAGCGAGCCACTGGACCACGTGAATCCGCCGGCCGCGCCCCTGATCTCTGTGGTCAAAGGACAGCCGACGGCCGAGGAGCTCGCCGCCCTGACCGCCGTCGTACTTTCCCTGGGAGGCGCCGAAACGGCGGACAGCAGGAAGCCCACCGTCCGCCATTGGGTGCGCCGTCAGCAGCTGCGGCTGGCGCCCACCCCGGGGCCCGGTGCCTGGAAGCGGAGCCGCGGCTAA	MSEPLDHVNPPAAPLISVVKGQPTAEELAALTAVVLSLGGAETADSRKPTVRHWVRRQQLRLAPTPGPGAWKRSRG				NA	NA	NA	NA	NA
D1-29_01444	1584	accD5	COG4799	putative propionyl-CoA carboxylase beta chain 5	ATGAGCCACGATCTGACAACGACAGCGGGAAAGATCGCCGATTTCCGCGACCGCCAGGCGCGTGCAGAACAGCCCTCCGGCCCCGAGGCCATCGAAAAGCAGCACGCCCGCGGCAAGAACACCGCCCGCGAGCGCATCGACCTCCTGCTCGACGAAGGCTCCTTTGTGGAGTTCGACGCGCTGGCGGTACACCGTTCCACCGCTTTTGGCATGGAGAAAAAGAAGCCGCTCGGTGATGGCCTGGTCTCCGGCTACGGCACCGTGGACGGCCGCCCGGTAGCCGTCTACAGCCAGGACTTCTCTGTTTACGGCGGTTCCCTCAGCCAGGTTAACGGCGAGAAGATCGTCAAGGTCCAGGAATTCGCCCTGCGCAACGGCTGCCCCGTGGTGGGAATCCTCGACGGCGGGGGCGCCCGCATCCAGGAAGGCGTCGCCTCGCTGGCCATGTTCGCTGACATCTTCCGGAACAATGTCCACGCCTCCGGTGTGGTCCCCCAGATCTCCCTGATCATGGGCCCGTCCGCCGGCGGCGCAGCCTACTCCCCTGCACTCACGGACTACGTGGTCATGGTGGACAAAACGTCCCACATGTTCATCACCGGCCCCGACGTCATCAAGACAGTCACGGGTGAAGACGTGGACATGGAAACCCTGGGCGGCGCGCGCCAGCACAACGCCACCACCGGAACCTCCACCTACCTGGCGTCCGACGAGACCGACGCCATTGAGTTTGTTCGCGAGCTGCTGGACTTCCTGCCTTCCAACAATCTCTCGGAAGCACCCGTGCAGGAGCACCAGCAGGAATTGGATATTGACGACGACGACCTGGCGCTGGACACACTCATTCCGGACTCCGCGAACCAGCCCTACGACATGCGCCGTGTCATTGAGCAGATCGTTGACGACGCCCATTTCCTGGAGATGCAGGCGCTCTATGCCCCCAACGTGATCATCGGCTACGGCAGGGTCGAAGGACACACCGTGGGAATCGTGGCCAACCAGCCCATCCAGTTTGCCGGCACGCTGGACATCGCCGCTTCGGAAAAGGCTGCCCGCTTTGTCCGGAACTGCGATGCGTTCAACATCCCCATCATCACGCTGGTCGACGTGCCCGGGTTCCTGCCCGGAAAGGACCAGGAATTCCAGGGCATCATCCGCCGCGGCGCCAAGCTCCTGTACGCCTATGCCGAGGCGACAGTTCCCAAAGTCACCGTCATCACCCGCAAGGCTTACGGCGGGGCGTACATCGTGATGGGTTCCAAGAAGCTGGGTGCGGACCTGAACTTGGCGTGGCCCACGGCCCAGATCGGTGTCATGGGAGCCCAGGGCGCCGTGAACATCCTCTACCGCCGTGACCTGGCCGCCGTAGCCGAGACGGGCGGCGATGTGGAAGCCCGGCGCGCCGAGGTCATCCGGCAGTATGAGGAAGAGCTGCTGAACCCCTACCAGGCGGCCCAGCTGGGGTATGTTGACGCAGTCATCGCTCCGTCTGAGACCCGTGTGCAGATCATTAAGGGCCTCCGGGCCCTGCGCGACAAACGGGCCAGCCTGCCCACCAAAAAGCACGGGAACATTCCGCTGTGA	MSHDLTTTAGKIADFRDRQARAEQPSGPEAIEKQHARGKNTARERIDLLLDEGSFVEFDALAVHRSTAFGMEKKKPLGDGLVSGYGTVDGRPVAVYSQDFSVYGGSLSQVNGEKIVKVQEFALRNGCPVVGILDGGGARIQEGVASLAMFADIFRNNVHASGVVPQISLIMGPSAGGAAYSPALTDYVVMVDKTSHMFITGPDVIKTVTGEDVDMETLGGARQHNATTGTSTYLASDETDAIEFVRELLDFLPSNNLSEAPVQEHQQELDIDDDDLALDTLIPDSANQPYDMRRVIEQIVDDAHFLEMQALYAPNVIIGYGRVEGHTVGIVANQPIQFAGTLDIAASEKAARFVRNCDAFNIPIITLVDVPGFLPGKDQEFQGIIRRGAKLLYAYAEATVPKVTVITRKAYGGAYIVMGSKKLGADLNLAWPTAQIGVMGAQGAVNILYRRDLAAVAETGGDVEARRAEVIRQYEEELLNPYQAAQLGYVDAVIAPSETRVQIIKGLRALRDKRASLPTKKHGNIPL	PGPT0001712_851	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
D1-29_01445	906	hcaB_1		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGACTTCGAGCAACGATGCTTTGGGTGCCGCCGCAGCGCCGTACCAGGCCGCCGGTTCCCTTCAGGGCCGCACTATCCTGATCTCCGGCGGGAGCCGCGGAATCGGGCTGGCCATAGCCACCCGGGCGGCACAGGACGGGGCCAATATCGTGTTGATGGCCAAGACCGGCCAGGCGCACCCGAAGCTGGCCGGCACTGTCTTTACCGCCGCCGAGCAACTGGAGGCCGTCGGCGGGCAGGCGTTGCCGCTGGTTGGGGATGTCCGCAATGACGACGACGTCGCCGGCACTGTCGCCGCTGCAATGGACCGCTTTGGCGGAATCGACGTGGTTATCAACAATGCTTCGGCCATCGATCTCTCAAAGACCGACGACGTGGACATGAAGCGCTACGACCTGATGCAGGACATCAACGTCCGTGGTACGTTCCTGCTGTCCAAGCTGGCGCTGCCCGCGCTCCGGAAATCGACGCAAGGCCATATCCTCACACTGTCACCGCCGCTGAATCTCGATCCCCACTGGGCAGGCAGGCACCTTGCCTACACCATGGCGAAGTACGGGATGAGCCTGACTACCCTGGGGCTTGCTGAAGAACTCAAGACTGACGGGATCCGCGTCAATTCCCTGTGGCCGTGCACGCTCATCGACACCGCCGCCATCCGGAACATGCCGGGGGGCCAGGCCATGGTGAAGGCCGCTCGCGGGCCACAGATTATGGCGGATGCCGCGCACGCGGTGCTGACCGGCAGTAATCTGACAGCAGAGGGGCAGCAAGGGGCGGAGGCCTCGCCAACCGGAAACTTCTACACCGACGAACAGGTGCTGACTGCAGCGGGGGTCACGGATTTCCGGGCATACAGCCTTGGAGCAGCCGAGGACCAGCTGGTTCCCGACATTTTCCTCTGA	MTSSNDALGAAAAPYQAAGSLQGRTILISGGSRGIGLAIATRAAQDGANIVLMAKTGQAHPKLAGTVFTAAEQLEAVGGQALPLVGDVRNDDDVAGTVAAAMDRFGGIDVVINNASAIDLSKTDDVDMKRYDLMQDINVRGTFLLSKLALPALRKSTQGHILTLSPPLNLDPHWAGRHLAYTMAKYGMSLTTLGLAEELKTDGIRVNSLWPCTLIDTAAIRNMPGGQAMVKAARGPQIMADAAHAVLTGSNLTAEGQQGAEASPTGNFYTDEQVLTAAGVTDFRAYSLGAAEDQLVPDIFL	PGPT0019830_44	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019830-atuH-K13775	NA	NA
D1-29_01446	936	birA	COG0340	Bifunctional ligase/repressor BirA	ATGGATGATGCATACGCCCCAGGGTCGCCTTTAAACCGGACCCCCCTGAATCGCGGAGCCCTGGCGGACCAGGACTTCCTCTCTGCCACCGGCATCTCCAGGCTTGACGTGGTGGACACCACCGGTTCCACCAATGCCGACCTGCTGCGCAATGTCAGCGTTGAGCCCGCGCTGTGGCCGGATCTGTCCGTGCTGACGGCGGAATACCAGACAGCTGCCCGGGGCCGCCTTGACCGGCGGTGGGAGTCGCCTCCCCTCAGCTCGCTTTCAGTCTCCGTAGTCCTGCGTCCCGCCAACGCCGAGGGCCGGCCGCTTCCCACCCAGACCTACTCCTGGCTGTCGCTGCTGGCCGCCCTGGCGCTGCGCGAGACGCTCCTGGAGACGGCCGGGATTCCGGCGGAACTCAAATGGCCGAATGACGTTCTGGTCCGCGGCCGCAAGATCGCCGGCATCCTTGCGCAGCTGGGCCCCATGACCGGGGGTTCGGTGCCTCCGGTGATCCTTGGCACAGGACTGAACGTGAGCCTTAGCGCGAACGAGCTGCCAGTCCCCACCGCCACCTCTGTGACGTTGGAGCAGCCGCGAACCGCGGACCGAACACTGCTGCTGAAGAGTTACCTCGCCCGTTTCGCCGTTCTGTACCGCAGTTTTTGCCATGCCGACGGCGACCCCGCCGCAGGCCTGGCCGGCGGGGCCTCCCTCCACAAGAGAGTGGAGTCGGCCATGGTGACCATAGGCAAACACGTGCGCGCCCAGCTGCCCGGGGACCACGAGATTATCGGCCGCGCCTCCCGGCTTGATGACTATGGTTCCCTCCTTGTGGTGGACCGCGATGCCCGCGAACACGTGGTGACCGCCGGCGACGTCGTCCACCTCCGCCCCTGGACGCCGCCGGGCCAGGCTGCTCCGCCTGGCAGTGAAGGCGGCTATGCGTAA	MDDAYAPGSPLNRTPLNRGALADQDFLSATGISRLDVVDTTGSTNADLLRNVSVEPALWPDLSVLTAEYQTAARGRLDRRWESPPLSSLSVSVVLRPANAEGRPLPTQTYSWLSLLAALALRETLLETAGIPAELKWPNDVLVRGRKIAGILAQLGPMTGGSVPPVILGTGLNVSLSANELPVPTATSVTLEQPRTADRTLLLKSYLARFAVLYRSFCHADGDPAAGLAGGASLHKRVESAMVTIGKHVRAQLPGDHEIIGRASRLDDYGSLLVVDRDAREHVVTAGDVVHLRPWTPPGQAAPPGSEGGYA	PGPT0022055_2261	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
D1-29_01447	600			hypothetical protein	ATGCGTAAAGACCTCGTGCCGGGCGAGCAGGTTATAGTCACCACCCGCCCACAGCCGAGGCAGTTGGCCGGACCAGCGGCAGCCTTCATCGCGGCTCCCGCCGCGGCTGCTTTTGCCAGTGCGTGGATCAGTCGCGGCGAGGCCACCCGCCTGCTGCCGGACATTTCCCCGGAATGGTCGCCGTGGCTCGTCACGGGATGCGTCCTGGCCGCCGCATGGATATGGTTGGGATACTGCCTGCCGCGCTTTCTGCGGTGGCAGGCCACGCGTTATACGCTGACCAGCCGCAGGATAGTTGCCAGATACGGCATGTTGAGACGGAGGGACCAGCAGGTGAATCTGGCGGCCGTGCGCGACCTGACGTTGAGGCAGTCGGTCCTGCAGCGCATATTGCGGTCAGGGAATATATTCTTGGAGACCGGATACCACGGCAGCATGGCCATTCAGGATGTGCCTGAAGCGGCGCGGTTCCGGGACTTTGTGCTGGATGCCATCGACGGGCTGCCCCGGGACGGGGAACCGTGGATGGACGGAACACTTGACGATACGGGCCACGTGCTGCCATGGGAACTGAGAGAAGGTGGACAGGATGAACGATGA	MRKDLVPGEQVIVTTRPQPRQLAGPAAAFIAAPAAAAFASAWISRGEATRLLPDISPEWSPWLVTGCVLAAAWIWLGYCLPRFLRWQATRYTLTSRRIVARYGMLRRRDQQVNLAAVRDLTLRQSVLQRILRSGNIFLETGYHGSMAIQDVPEAARFRDFVLDAIDGLPRDGEPWMDGTLDDTGHVLPWELREGGQDER				NA	NA	NA	NA	NA
D1-29_01448	1170			hypothetical protein	ATGAACGATGAGGATCAGCAGGAACAGCAGGACACCGCTGCTCCCACCGCTCCCGAATCCGCCCGGCCTGACACCGCTCCTCCCGTTCCTGGATTCTCCGTGGCCGCGAACCCTCCCACGGGTACGCTGTCGGCCGAGCGGCTGGCAGCGAAGGCCCTTGAAACCCGGCTGCTGGGCGGTGAACGGAAGCTCCGCCGCCGTGAGGTGGCCGCCGGCGCGGGGCTCTCGCTGCTGTCGGCGCGGAAACTCTGGCGTGCCCTTGGCTTCCCCAATTTTGGCGACGACGATGTAGCCTTCACCGAGCGCGACCAGGCCGCCCTCTCCACAGTGGTGGATCTGGTCAGGTCCGGAATGCTGACGGAAGAGGCGGCGATCTCGGTCACCAGGTCGATCGGCCAGATGACGGACCGGATGGTGGTCTGGCAGATCGAGGCCCTGGTCGAGGACATGGTCCACGAGCAAGGCGTCACCGATGCCGTTGCCCGCAAACAGTTGGTCAACGATCTTCCTGCCCTGGTGGATGCGCTCGAGGAGATGCTGGTGTACTCGTGGCGGCGGCAACTGAACGCAGGCGTCCAGCGGCTTGCGGTCCGGGCCGAAGCCGGCCTGCAGGCCAGCGAGGAGGGCCGCGAAGGCGACGAGGACGACGCGCCCCTGCCGCTGGCTCGTGCCGTGGGCTTTGCCGACCTGGTGTCCTATACCAGCCTGTCCCGCAGGATGAATGAAAAGACGCTGGCACGGCTGGTCCAGCGCTTCGAAAACAAGTGCGCCGAGATCATCTCAGTGGGCGGCGGCCGCTTGGTAAAGACCGTCGGCGACGAAGTGCTCTACATCGCCGAGACCCCGGCCGCCGGAGCCGAGATCTCCCTTGCATTGGCGCAGGCCTTTACAGAGGATGAGATCCTTCCGGAGGCACGTGTGGCCATGGTCTGGGGCCGGATACTGTCCCGGCTCGGAGACATTTACGGCCCTACCGTGAATCTGGCGGCCCGGCTCACCACCTTGGCCGATCCTGGAACTGTCCTGGTGGATTCCATGACGGCCTCGGCATTGGACCGGGATGAACGCTTTGTCCTGGTACCGCAGCCGGCCGAAAATGTCCGCGGCTTCGGAGAAATCCATCCTGTCCTGCTCAGCAGGGGACTCGGCAAGGGCCTGATCCTGGACTGA	MNDEDQQEQQDTAAPTAPESARPDTAPPVPGFSVAANPPTGTLSAERLAAKALETRLLGGERKLRRREVAAGAGLSLLSARKLWRALGFPNFGDDDVAFTERDQAALSTVVDLVRSGMLTEEAAISVTRSIGQMTDRMVVWQIEALVEDMVHEQGVTDAVARKQLVNDLPALVDALEEMLVYSWRRQLNAGVQRLAVRAEAGLQASEEGREGDEDDAPLPLARAVGFADLVSYTSLSRRMNEKTLARLVQRFENKCAEIISVGGGRLVKTVGDEVLYIAETPAAGAEISLALAQAFTEDEILPEARVAMVWGRILSRLGDIYGPTVNLAARLTTLADPGTVLVDSMTASALDRDERFVLVPQPAENVRGFGEIHPVLLSRGLGKGLILD	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
D1-29_01449	6165			hypothetical protein	GTGAATCTTCGCCGAGCCGCGCGCCAAAAGGCAGCAGGGGAATCCGGGCCCCGCTTCCACCTGCCACGCTGGTTTCCTGCCATTGCTTTTTCCGTTGCTGGAGTGGTGTTGGTCACGGGTGCTGTGTTGTATCCGGGGTTTAAGACCACTGAGGTGGAGTTGAACGATGGTGGTGTGTGGGTTGTTTCGAAGTCCAAGAATGCTGTGGGGCGGCTGAATTATCCGTCGCGTGTTCTTGATGGGGCGGTGACGCCGGCGAGTACTACGTTTGATGTTTTGCAGCATGCGGGGGATGTGTTTGTTGATGATGAGACGGGTTCGACGCTGAACCAGGTTTCTCCGGCGAATATGCGCCTGGGCGGGGACAAGCAGCTGCCCGGTGCCGCCGAAGTGAGCTTTGGCGCGCAGGTCATCTCCGTCACGGACGCAGCGAAGGGCAAGGTCTGGGCGCTGTCACCGTCCACAGTGAACGGCTTCGAAGCGGACTCGACGGAACCGGCGCTCACCGCTTCACAGGGCCTGGTGTCCGCCGTGGGGTCTGATGACCGTATTTACAGTGCGGATCCGAAGTCCGGGGTGGTCACTGTTACCGGCGTGGATGCCAATGGTGAGGTGTCGTCGTCGGAGTCCAGTACGTGGGGCGAGCTGAAGGGCTCGGGGGATTTGCAGATCACGGTGGTGGGGGACCGGCCGGTGGTTCTTGATGCCGGGGCCGGGAAGCTGTTTTTGCCGGGCGGGAAGCGTTTGCAGCTGGATAATGCGCGGGATGCGAAGCTGCAGCAGACTGGTCCGGCGAGTGATGTTGTGGCGATTTCGACGCAGAAGGCGTTGTTGAAGCAGCCGTTGGATGGTTCCACCGCGAAGACTGTGACCTTTGATGGTGAGGGGGTGCCGGCGGCCCCTGTGCAGTTGGCGGGGTGTGTGCACGCGGCGTGGTCTGGTGCGAACAAGTATGTGCGGGACTGCGTGAACGATGTTGATGACAAGAACGTGGACGTGCCGAAGGCGAGTGCGTCGCCGTCGTATGTGTTCCGGGTGAACCGGGACGTGGTGGTCCTGAACGATGTGAACTCCGGGAATGTGTGGCTGGTGAACCAGAACATGCAGCTGGTGAACAACTGGGACGACGTCATCCCGCCGCAGCAGACCTCCGACGACGCAGACAAGGACTCCGCGGACGAAGTCCAGCAGACTGTCCTGCCGGACCGGACCAAACCCAACAGCGCACCGGTGGCCAAACCGGACACGTTCGGCATACGCGCGGGAAGGACGGCCATCCTCCCCGTTCTGGACAACGACACCGACCCCGACGGCGATATCCTCACTGTCCGCGCCCCCGATCCCATCGGGTCAGGGCCCGTCGCCCCGATCTACGGCTCCACCGGATTCCAGGTCAGTGTCCCCGCAGACAAGACGGGGTCCGAGACCTTTAAGTACAGCGTGGACGACGGCCGCGGCCTCACGGCATCTTCCGACATCACGCTCAATATCATCCCGCCGGGGGAGAACTCCGCTCCCCGGCAGAAGCCCAACCGGAACACCACGCTGATAGTGCAGGCCGGCAAGATCGTCAGCCAGAACATCCTCAGCGACTGGATCGACCCCGACGGCGATGACCTCTACGTGGTGAATGCCACGGCCAGTGATCCCCGGGACCAGGTCAAGGTCCGGCCCGACGGACTGCTGACGTTCCAGGACGCGGGTACGGAGCCTGGGCGGAAAGTCATCACCCTGACAGTGTCCGACGGCCAGTCAACTGCCGAGGGCAAGGTCACGGTGGACGTGCGCGCGCCGGGAGCGCTGCCGCCCCTCGCCAATGCAGACCACTTGGTTGCCGTGGCCGGCGTGGATACCGTGATCGCGCCGCTGAAAAACGACTCCGACCCGCTGGGCGGTGCCCTCCGCCTCGCCCAGGTCACGCCGGACGGGAACTCCACCGCCACCATGGGTGCGGACCAGCAGACGTTCACGTTCAACTCCACGGCCGAGGGCGCCCACTACGTGGCGTACCTCGTCACCAATGGTCCCGCCAGCGCGCAACAGCTTGTTCGCGTGGACGTGGTGTCCGGGGGCAACGACGGCGCCCCTGTCGCCGTGCGCGACACCGCCTTGCTGCCCAGCGGCGGCAGCGTCCTGGTGGACGTTCTGGGCAACGACTCGGACCCCTCCGGCGGCGTGCTTGTGGTCCAGTCCGTCACTGCTGCCGACGGCCTGCCGGTCAGCGTCTCCGTCCTGGACCACTCCGTTGTGCGGATCACGGACATCCGGGCGCAGGGTCAGCTCAGCGTCAAATACACGATCTCCAACGGCAAGTCTTCCGCCGGCGGTGACATTGCAGTCCTCGTGGTACCCGCGCCCGCGAAGCTGCAGGCACCCCAGGCCAAACCGGACGAAGTGTCGGTCCGGATAGGCGACGTCGTCACCATACCGGTCCTGGCCAACGACACCGACCCCAACGGCGGCCAGCTCTCGCTTGAGCCTGAGCTGCCACAGAAACCGGATGACGCCGACGGCCGGATGTTCCGGGCCGGGAACACGTTGCGCTTTATCGCCGGAGACGTGCCCAAGACCGTCTACGCGATCTATAAGGTCACCAACGACTCGGGCCAGGCGGACTCCCAGCAGGTCACCATCCGGGTCCGGGCCCGCGACGACGAACGCAACACCCGCCCGGAGCCCAAGAACCTGACAGCCCGTGTGGTCTCAGGAATGGTGGTGCGGATCCCGGTGCCCCTGGATGGTATCGACTCCGACGGCGACTCCGTCCAGCTGATCGGCGTGGACAAGGCCCCCGCGATGGGAACGGCTGTGGTCAGGGACGGCTACCTGGAGTTCACGGCGACAGGAACGGCCGCCGGCACGGACACCTTCACTTACCGCGTGCGGGACCGGATCGGCGCCGAGAACACCGGGACCGTGATTGTGGGGATCGCTCCGCCCGAGCCGAACAACCAGAAACCCATCGCCGTTGACGACGCCGTGGATGTACGGCCGGGACGCAACATCGCCGTGGACGCGTTAACTAACGACTCGGATCCGGACGGGGACCCGATCGGGCTGGTGTCCAACGCCTTCGAGGCACGCCCGGAACTGCGCGTCGAGACGGCCGACGGCGGCAGGATACTGCTCACGGCGCCGGATACCGCCGGCAACGAGAGCGTCGGCTACAAAATACAGGACGACAAGAAAGCCCAGGGCGGTGCTGTCATCCGGGTCAGGGTCAGCCCAGACGCAACGCTTAAGGCACCGATCGCCAAGGACGACGTCATCACGCCCGCCGAGACACTGGGCAAATCCGCGGTGGACGTGCCGGTCCTGAAAAATGACTCCGATCCCGACGGGGTGGCTTCCGAACTCAAGCTCACCCTGCCGGACGGCAACCCGAACGCGCGCGTCGGCGGCGATGGCAACGTGGTGGTCAGCCTTGCGCCGGCGGACCAGTTGGTTCCTTACACTGTCACGGACGTCGACGGCCAGAGCGCTACCGCTGTCATCTGGGTTCCCGGGCAGGGCGAAGAGCACCCCACCCTGGCCCGCACCGACGTCGTGGAAGTGATGGCCGGGCAGGAAATCACCCTGGACCTGAACGAGTATGTCCGCGTCAGGGAGGGGCGCGAACCGCAGATCACCCAGGCGGACAAAGTCCGGGTTCAGGGCGCCGATCCGCAGAACATCATCGGCGGGGACGCCAGGACGCTGCGTTACTCCGCGCTGAAAGACTACGTCGGTCCGGGTTCAGTCACCTTTGAAGTGACAGACGGCTCCGGTCCGGAAGATCCCCAGGGCCTGAAATCGACCCTGACCATCGTCACCCGGGTCACCCCTGACCCGAACGCGAACCACCAGCCCACGTTCAGCGGCAGCGACCTTGAGGTGCCGACGGCCGAAACAGCCAGCCTTGACCTGGGCAACCTGGCCAGGGATGTGGACGCCGGGGACCAGGAGAAGCTCACCTTCGAGCTGGACGGGACCACCCCCGAAGGCTTCACCGCAACCATTGACGGGCAGACACTTAACGTCCGCTCCGCAGACGGCATCGCCGCCGGCCGCAAGGGGACCATTCCGCTGAAGGTCACGGACGGCCGCTCGGAACCTGCCAAGGCCCAGGTGACGGCCACCGTCGTTGCGTCCAACCGGCCGCTGGCCACCGCCAACGAGGACGTCCTGGACAAGGCCAACGCGGGGCGGACCGAAACCATTAACGTCCTTGCCAATGACTTCAATCCCTTTGACGGCAGCCCGCTGAAAATCGTTTCGATCGCGGTGGAAACCGGATCCGCCGCCGGGCAACCCGTCATCAGCGGAGAATCTGTCACGGTGACGCCGGCGGAAGGATTCAAGGGCGTGATGGTGCTCAGATACACCGTCGCGGACAAAACCGGGGATGCGTCACGCCAGGTGAGCGGGCGGGTCCGCATCACCGTCCGGGACGAACCGGACGCACCCTCGGCCCCCGCCGCAACCGACGTGCGCAGCCGGACGGCGGTACTCAAGTGGGCCCCGCCGTCGGACAACGGTGCACCGATCACCGGCTACACCGTCAGGTCCACCAACGGCTTCGAACAACGTTGTGCCACCACGACCTGCACCCTCAGCGGGCTGACCAACGACGTGAAGTATGTCTTCACCGTGACCGCCACCAACGAGGTGGGAGACTCTCCGGCGTCCCCGCAGTCGAACGAAATCCGGCCGGACGAAAAGCCTTCTCCACCGGAAGCGCCCACCGTGAAGGCGGGTGACAAGGACATGGTCATCAACTGGCCGCCGGCCAAGACCGAGGGCTCGGCCGTCAAAAGCTACAACCTCGAGATTTCACCGCCTCCCGCCGGTGGCGTTGCAGTCAAAAACGGCGTGACCGGCCTGACCTACACCTGGACCGGCCTGACCAACGGGGTCCGTTACAAGGTGCGCGCCCAGGCCGTCAATGAGCTGGGGGCCTCGGACTGGGGCATCTACTCCTCCGAAGACAACCCTGCCGGAGTGCCCGCCGCGCCGGCGGCACCGACCTCCGCCGTGGCCTCCGCCGTGGGAACCACCAATCAGTTGCGTGTTAACTGGACGGAACCGAACACCAACGGCGACGCGATCAGGAACTATTACGTCACCATGAGCGGAGGCGGCGCCACGCCGCAGACCCAGACGATCGCAGGTACCGTTCGCACCGCCAACTTCAGTGCGAACAATTCCGAAACCGAATACACCTTCACCGTGCAGGCCGAGAACAAGGCAGGAAAAGGTGCAGTCAGTCCGCCGTCGGCACCCCGGCGCGCCACCGGCAAACTGGGCCAGGTCTCAGGCGTCACTGTCGCTGCGGCAGACACCGGGGGAGCCGGACGGAAGGTGGCCATCGATTTCAAGGAACTCACGGCTGCCGAACGGAACGGCTCGTCGGTGAATGAGGTCAGCTACAGCTACAACGCCAGCAGCGGTGAAAGCGGTCCCATTACACGGGGGCAGACGGTTGGTGGTTTCACCAACGGCGTCCAGACCACCATCACGGTGATCGCGCACTCAACGGTTGCGCCGAGCTCCAATTCCAGCGCCGGAGCATCAACTACCCCCTATGGGTCACCCGGGACGCCGACAGCCGCAGGCGAAAACGGCCCCATGAACCAAAAGTACGCGACCATGAGCTGGTCCTCACCATCCACCAGCACCAACGATGTCGCCCAGACCAAGATCAACATCAACAACCGCGGCTGGGAGGTGGTGGCGCCCTCCGGGAGCCGGGTGGTCAACACCGAGGGCTACGGCGAGCTGGTGTCCATACAGGTCCAGACGTTCAACTCACTGGGCACCGGGGGCACGGCCCCCGCTGCGATCGCCGCATCCGGCAAACGGGGCGAGTGGATCACCACCGTTGTGAAGGGAACTGACCTGGTCCGCACATGCACGTTCGAATATGGCAAAGCCAGCTACCGGCCCGCGCCCTACTTTGACTGCCAGGGCATCAACAAGGGGGATACCCCGCCCTGGTACTACGTCAACAGTGGCGAGCACATCGTGGTCCGCTGCTACGTGATGATGAACGACCAGTGGACCAACACACCGGACCAGCCCTTCTACCGGATTGAGCCCGGCTCCAACCGGAACGTTGGCTTCTACATGGTGGCAAGGCATTCGCAGCTTGACCTGCCTTACTCCCACGGTATTCCGCTGTGTTGA	MNLRRAARQKAAGESGPRFHLPRWFPAIAFSVAGVVLVTGAVLYPGFKTTEVELNDGGVWVVSKSKNAVGRLNYPSRVLDGAVTPASTTFDVLQHAGDVFVDDETGSTLNQVSPANMRLGGDKQLPGAAEVSFGAQVISVTDAAKGKVWALSPSTVNGFEADSTEPALTASQGLVSAVGSDDRIYSADPKSGVVTVTGVDANGEVSSSESSTWGELKGSGDLQITVVGDRPVVLDAGAGKLFLPGGKRLQLDNARDAKLQQTGPASDVVAISTQKALLKQPLDGSTAKTVTFDGEGVPAAPVQLAGCVHAAWSGANKYVRDCVNDVDDKNVDVPKASASPSYVFRVNRDVVVLNDVNSGNVWLVNQNMQLVNNWDDVIPPQQTSDDADKDSADEVQQTVLPDRTKPNSAPVAKPDTFGIRAGRTAILPVLDNDTDPDGDILTVRAPDPIGSGPVAPIYGSTGFQVSVPADKTGSETFKYSVDDGRGLTASSDITLNIIPPGENSAPRQKPNRNTTLIVQAGKIVSQNILSDWIDPDGDDLYVVNATASDPRDQVKVRPDGLLTFQDAGTEPGRKVITLTVSDGQSTAEGKVTVDVRAPGALPPLANADHLVAVAGVDTVIAPLKNDSDPLGGALRLAQVTPDGNSTATMGADQQTFTFNSTAEGAHYVAYLVTNGPASAQQLVRVDVVSGGNDGAPVAVRDTALLPSGGSVLVDVLGNDSDPSGGVLVVQSVTAADGLPVSVSVLDHSVVRITDIRAQGQLSVKYTISNGKSSAGGDIAVLVVPAPAKLQAPQAKPDEVSVRIGDVVTIPVLANDTDPNGGQLSLEPELPQKPDDADGRMFRAGNTLRFIAGDVPKTVYAIYKVTNDSGQADSQQVTIRVRARDDERNTRPEPKNLTARVVSGMVVRIPVPLDGIDSDGDSVQLIGVDKAPAMGTAVVRDGYLEFTATGTAAGTDTFTYRVRDRIGAENTGTVIVGIAPPEPNNQKPIAVDDAVDVRPGRNIAVDALTNDSDPDGDPIGLVSNAFEARPELRVETADGGRILLTAPDTAGNESVGYKIQDDKKAQGGAVIRVRVSPDATLKAPIAKDDVITPAETLGKSAVDVPVLKNDSDPDGVASELKLTLPDGNPNARVGGDGNVVVSLAPADQLVPYTVTDVDGQSATAVIWVPGQGEEHPTLARTDVVEVMAGQEITLDLNEYVRVREGREPQITQADKVRVQGADPQNIIGGDARTLRYSALKDYVGPGSVTFEVTDGSGPEDPQGLKSTLTIVTRVTPDPNANHQPTFSGSDLEVPTAETASLDLGNLARDVDAGDQEKLTFELDGTTPEGFTATIDGQTLNVRSADGIAAGRKGTIPLKVTDGRSEPAKAQVTATVVASNRPLATANEDVLDKANAGRTETINVLANDFNPFDGSPLKIVSIAVETGSAAGQPVISGESVTVTPAEGFKGVMVLRYTVADKTGDASRQVSGRVRITVRDEPDAPSAPAATDVRSRTAVLKWAPPSDNGAPITGYTVRSTNGFEQRCATTTCTLSGLTNDVKYVFTVTATNEVGDSPASPQSNEIRPDEKPSPPEAPTVKAGDKDMVINWPPAKTEGSAVKSYNLEISPPPAGGVAVKNGVTGLTYTWTGLTNGVRYKVRAQAVNELGASDWGIYSSEDNPAGVPAAPAAPTSAVASAVGTTNQLRVNWTEPNTNGDAIRNYYVTMSGGGATPQTQTIAGTVRTANFSANNSETEYTFTVQAENKAGKGAVSPPSAPRRATGKLGQVSGVTVAAADTGGAGRKVAIDFKELTAAERNGSSVNEVSYSYNASSGESGPITRGQTVGGFTNGVQTTITVIAHSTVAPSSNSSAGASTTPYGSPGTPTAAGENGPMNQKYATMSWSSPSTSTNDVAQTKININNRGWEVVAPSGSRVVNTEGYGELVSIQVQTFNSLGTGGTAPAAIAASGKRGEWITTVVKGTDLVRTCTFEYGKASYRPAPYFDCQGINKGDTPPWYYVNSGEHIVVRCYVMMNDQWTNTPDQPFYRIEPGSNRNVGFYMVARHSQLDLPYSHGIPLC				NA	NA	NA	NA	NA
D1-29_01450	6147			hypothetical protein	GTGACAACTCTGCTGGGGAAGCTTGGGCTGAAAAAGCGCCGGAACAAACTCGCCAACCGCCACAAGCGGCTGATCGCCGGAACGGCGTTTGGAGCCGCCGTGGTGGTGTTGGTCACGGGTGCTGTGTTGTATCCGGGGTTTAAGACCACTGAGGTGGAGTTGAACGATGGTGGTGTGTGGGTTGTTTCGAAGTCCAAGAATGCTGTGGGGCGGCTGAATTATCCGTCGCGTGTTCTTGATGGGGCGGTGACGCCGGCGAGTACTACGTTTGATGTTTTGCAGCATGCGGGGGATGTGTTTGTTGATGATGAGACGGGTTCGACGCTGAACCAGGTTTCTCCGGCGAACATGCGCCTGGGCGGGGACAAGCAGCTGCCCGGTGCCGCCGAGGTGAGTTTTGGCGCGCAGGTGATCTCGGTGACTGATCCGGCGTCAGGCAAGGTGTGGGCAGTGTCGCCGTCCACGGTCAATGGTTTTGATGAGGAAGCCACGGAACCGGTGATGGTGGGTTCGGAGGGCCTGGTGTCCGCCGTGGGGTCTGATGACCGTATTTACAGTGCGGATCCGAAGTCCGGGGTGGTCACTGTTACCGGCGTGGATGCCAATGGTGAGGTGTCGTCGTCGGAGTCCAGTACGTGGGGCGAGCTGAAGGGCTCGGGGGATTTGCAGATCACGGTGGTGGGGGACCGGCCGGTGGTTCTTGATGCCGGGGCCGGGAAGCTGTTTTTGCCGGGCGGGAAGCGTTTGCAGCTGGATAATGCGCGGGATGCGAAGCTGCAGCAGACTGGTCCGGCGAGTGATGTTGTGGCGATTTCGACGCAGAAGGCGTTGTTGAAGCAGCCGTTGGATGGTTCCACGGCGAAGACTGTGACCTTTGATGGTGAGGGGGTGCCGGCGGCGCCTGTGCAGTTGGCGGGGTGTGTGCATGCGGCGTGGTCTGGTGCGAACAAGTATGTGCGGGACTGCGTGAACGATGTTGATGACAAGAACGTGGATGTGCCGAAGGCGAGTGCGTCGCCGTCGTATGTGTTCCGGGTGAACCGGGATGTGGTGGTCCTGAACGATGTGAACTCCGGGAATGTGTGGCTGGTGAACCAGAACATGCAGCTGGTGAACAACTGGGACGACGTTGTCCCGCCCAAAAACGAGTCCGACGAACAGGACCAGGATTCGGCAGACAACAACACCATCAACGTGCTCCCTGACCGCACCAAACCCAACCGGCCGCCGGAAACAAAACCGGATATTGTCGGCGTGCGCCCCGGCCGTACCACCGTCCTGAGCGTCCTGGACAATGACTCCGATCCCGACGGCGACGTGCTGACCGCCGCCGTCGGAAATGCCGGTCCCAAGGCCGGAAGCCTGGAGAGCATCTATGGCGGCACCGCCTTCCAGATCTCTGTCCCGGCCACGGCAAACCCGGGCACCGAATCCTTCGACTACAACGCGGCGGACGGCCGGGGGCTGTCCGCCGGCGGCCAGGTGACGTTGAGCGTGGTGGGCCCGGACGAAAACCGGCCGCCCCAGTTCAAACGGGGCGGGGACGCCACCACCATGCTCGTCGAACAGGGCAAAACCGTCAGCCAGAACATTCTCACCGACTGGGCAGATCCCGACGGCGACGACCTGGTCCTGATGGATGCCAAGGCTGACAACGACCAGGACCAGGTCAAGGTCCGCCGTGACGGGCTGCTGACGTTCCAGGATTCCGGCGCCACGGCCGGCAAGAAGAACGTCACCGTCACCATCTGGGACGGCCGGGCAACAGTCACCGGAAAAGTAGTGGTCAACGTCCAGCCGCCCGGAGCCCTCGCACCCGTGGTCAATGCCGACCATGTCACAGCAGTGGTGGGCCAGGACCTGGTGATCGCCCCGCTGAAGAACGACGTGGACCCCAACGGTGGTGCCCTGCGGCTGGCCCAGGTGGAGGCCAATGGCCCTGCCGAACTCGGTCCTGTCACAGACGGCGGCACCTTCACGTTCCGCAGCACCACCCCGGGCCCGGTCTACCTTACGTACATTGCCAGCAACGGTCCACAGAGCAGCCAGGGACTCATCCGGGTTGACGTGGAATCGGGCAAGGACGGCGGCGACCCCGTGGCCGTCCACGACGTTGCGCTGATGCCTGTTGGAGGAAGCGTCCTGCTGGATCCGTTGGCCAACGACTCGGACCCCTCCGGCGGCGTCCTGGTCCTGCAGTCCGTCAAGCTTCCGGAGAACACCACCGCGTCCGTCAGCGTGATCGACCACAGCGTCCTGCGGATCACGGACATCCTGGGCACCAAAGACCCGTTCCTCTTTGAGTACACCATGTCCAACGGAAAGAAGTCCGCCACCGGAAGCGTCTCTGTTGTTCCGGTTCCGGCCCCCGCCATCGTGGAAGCGCCCCAGCCTAAACCTGATGAGGTGAACGTCCGCATCAACGACGTCGTCACCATTCCGGTGCTGGATAACGACACCCACCCGCAGGGCGAAAAACTGACGGTTGATCCCGTCCTTCCGCAGGGAGTGGACCAAGCTGACGGCAAGAGCTTCGTTTCGGAGAACACCCTCCGGTTCATCGCCGGACCGCAGCCGAAAACGGTCCGCGCGATTTACAACGCCGTGGATCCGCAGGGGCAGAAGAGCGCCGCGGCCGTCACCATCCATATCCTTCCGCTGGAAGGCGCCGAAAACTCCCGGCCGCAGCCCCGGAACCTGACGGCCCGGGTGGTGGCTGCGGGCACCGTGCGCATCCCCGTTCCGCTGGATGGGATAGATCCCGACGGCGACTCCGTGCAGCTGACGGGCATCGACAGCACCCCGGCCATGGGGACGGCAGCCGTGGGCAGTAATTTCATTGACTTTACGGCTGCCGGCGACGGCGCCGGAACCGACACTTTCCGCTACAAGGTGGTGGACCGGCAGGGCGCCGTCAATACCGGCACCGTAACTGTGGGAATAGCACCGCGGGGGGAAACCAACCAGAATCCCACTCCCGTGGACGACGAGGTCAAGGTCCGGCCCGGGCGGCAGATTGCCGTTGACGCCGCCGGCAACGACACCGATCCCGACGGTGACCTCATCCGGGTCCTCACCGACGGCATCGAGGCCGATCCTGCCCTCCAGGCCACCGTGAGCAAGCAGAGCGGGCGGATTATCCTGTTGGCGCCCAATGCCGCGGGAACGGTCAACGTCCGCTACTCCGTCGCCGATGACAGGGATGCGTCCGCGCAGGCGACCATCCGCATGGTGGTGGACAATGACGTGCCCCTGCAGGCACCCATTGCCCGCGACGACAGGGTGACGTCCGCCCAAACAATGGGAAAGACCGCCGTGGACGTGCCGGTCCTCAAGAACGATGAAGACCCCGACGGCGTGGGGGAGAACCTGAAAATCAGCACGGAGTTGCCGACTGCCCGCCCCGGCGCTGACGGCAACATGATCGTTGACCTGACCGAGCAGCCGCAGCTCATTCCGTACACCGTGGAAGACGTGGACGGCCAGAAGTCGACGGCCATCATCTGGGTACCGGGCATCGGGCAGCAAGTGCCCACGCTCGCGAAGGACGAAGTGATCGAGGTCATCGCCGGTCAGTCGGTCACGGTGGACCTGGACGAATGGGTGAAGGTCCGGGAAGGACGCTCGCCGCGCCTGACCCAGACGGACCGGGTCAAGCTCATTGGCTCCGACGGCAGCGACCCCGGATCCGGAGACGGTACCCAGCTTAAGTACACCGCCGGCGTTGACTATGTGGGCCCCGGCTCGATCAGCTTCGAGGTCACAGACGGAAGCGGCGTGGATGATCCCGCCGGCCTCAAGTCCACCCTGAGCATCCGCACCAAGGTGCTGCCGGACCCCAACCGCAACAACCCGCCGGAACTGCTGGGTGCCAACGTTGACGTTCCCAAGGGGGACGCAGCTACCGTTGACCTGGGCAAGCTGACGGCGGACCCGGACCGCGATGATCTCGAGAAAATGACATACGAGCTGGTGGGAGCCAGCCCCGGCGGATTCGAAGCCGGCATCGACGGCAAATCGCTTAAGGTTTCTGCCGCTGACAACAGCACCTCCGGCACTACTGGCTCAGTCCAGGTCAAGGCCAAGGATTCGCGCGGCCTGGAAGCCACCGCCACCTTCCAGCTGACAGTAACGGCCTCCAACCGGCCAAAGCCGGTGGCCAATGACGATGTGGAGCCCAGCGCCGCGGCGGGGAAGCCGGTAACCGTCAAGGTCCTGGACAACGACGCAAACCCCTTCCCGGAATCACCGCTGAAGATCCTTTCCGCCATCACCGAAACGGGCCAGGGAACTGCCGGGATTTCGGGAGATTCCGTCACGGTCACACCGTCGTCCGGATTCACCGGAACCATGGTTGTGGCCTACACGGTGGCGGACAAGACAGGGGACGATTCCCGCAACGCCACGGCACGTATACGGCTGACGGTGAAGGACGCTCCGATGGCTCCGACGACTCCCCAGGCGCAGAGCGTGGGGGACCAGACTGCACTGCTGACCTGGGGCGCCCCCGCAGACCGCGGCGCCCCGATCACCAAGTACACGGTCTTTGGCGAAAACGGCTTCCAGCAGGAATGCCCGGCGAACACGTGCACCCTGACAGGTCTTACCAACGACACCAAGTACCACTTCCAGGTCACGGCCACGAACGAATTCGGCGACTCCGACAAGTCTCCGGCTTCTGCTGAGGTCCGTCCGGACGTGAAGCCGGATACCCCCCTGGCTCCTGCCCTGAAATTCGGCGATAAGGAGCTCGCCGTCACCTGGGTGGCACCTGCCAGCAAGGGGTCACCGGTCAAGTCCTACGACCTTGAAATCTCTCCGGCTCCCGCCGGACAGAATGCGCAGATCCAGAACCTGACAGCCGTCAGCTATGTCTGGAAGGGGCTACAGAACGGTGTGGCCTACAAGGTGCGCGTGCTGGCCCGCAACGATGCCAAGGACCCGTCCGAGTGGAGCCCGTACTCCGCAGCGGAGGTGCCGGCAGGTCCGCCCGCAACGCCGGCGCCGCCCACCGCATCTGATGCGGGCTCCGTCGGGGCCCAAAGCCAGCTGAAAGTCAGCTGGACCGCACCGAACAACAATGGTGACGGAGTGTCCTCCTACACCCTCACCACGTTGCGTGGCGGAGCTGTGGTCAACAGCCAGCCGGTGACCGTCGGAACCTCGCAGAACGTCACGGTGGATAACTCCGAGGCCAACTACACCTTCACGGTATCTGCCACCAACAAGGCAGGGACCAGCGGGACCAGCAGCCCGTCGGCGGCTATCCGCGCTGCGGGCAAGCCGGGCCAGGTGAGCAGCGGAACGGTGGCGGACACCGGCAACAGCGGCCAGCTGCGTGTGACCTTCGCTCCGCTCACCCAGGCCCAGCGGAACGGATCCACCGAAAGTGAAATCCAGTACACGTACAACGCCGACGGCAGGTCGGGCACTATCCCCGCAGGCGGCGGCCCCATTAATGGACTTACCAACGGCCGCGACATCACGGTCACCATCATCGCCACGTCCACCAAGAACAACGTCTCGGGCGACGCCCAGGCTATAGGTACCGGCAACCCCTATGGACCGCCGAACGCTCCGAGCGTGGACGGCAGGACTTCGGCCACCGGCGACGGCCAGGTTCACTGGACCTGGAACAACCCCAACACGAACGGCCGTCCGCTCAGCCACTACGAGGTGAGTGTGGACGGGGGCGGCTGGCAGAACGTGGGCAAGGCCAACAGCTTTGATGCCCCCGGCGGTGGCTGGAGCAACAGCCGTAACCTGCGTGTCCGGGCCGTGTCCGTGGTGGCCGGTGGCATCGGCGGCCCGGTGAGTTCGACGTCGGGCGCAAATCCCGCTCCGCCGGCAACAACGGTCCGGGTCAAGCCCGCGGACAATAACAGCTGCCCGGGCAAGCCCGGAGTCGCGGACCGCTACAGCAATGTGGGTGGCGACGCCCGCTGCGGTTCGAGTGACGCGAACTGGGTCTCGACGTCCGACGGCTGGATTGTGAGCCAATGCTGGATGAACATCTACGGGTCCAGCGAATCATCCAACCCGCCCAGCTACTACAAGTGGTACCGGATGGAGAACGGCCCGCACCCCGGCTGGTACGTCAAGCTCGCCACCATCGACATCAATGGACCCGACGTTCCCCGGTGCTGA	MTTLLGKLGLKKRRNKLANRHKRLIAGTAFGAAVVVLVTGAVLYPGFKTTEVELNDGGVWVVSKSKNAVGRLNYPSRVLDGAVTPASTTFDVLQHAGDVFVDDETGSTLNQVSPANMRLGGDKQLPGAAEVSFGAQVISVTDPASGKVWAVSPSTVNGFDEEATEPVMVGSEGLVSAVGSDDRIYSADPKSGVVTVTGVDANGEVSSSESSTWGELKGSGDLQITVVGDRPVVLDAGAGKLFLPGGKRLQLDNARDAKLQQTGPASDVVAISTQKALLKQPLDGSTAKTVTFDGEGVPAAPVQLAGCVHAAWSGANKYVRDCVNDVDDKNVDVPKASASPSYVFRVNRDVVVLNDVNSGNVWLVNQNMQLVNNWDDVVPPKNESDEQDQDSADNNTINVLPDRTKPNRPPETKPDIVGVRPGRTTVLSVLDNDSDPDGDVLTAAVGNAGPKAGSLESIYGGTAFQISVPATANPGTESFDYNAADGRGLSAGGQVTLSVVGPDENRPPQFKRGGDATTMLVEQGKTVSQNILTDWADPDGDDLVLMDAKADNDQDQVKVRRDGLLTFQDSGATAGKKNVTVTIWDGRATVTGKVVVNVQPPGALAPVVNADHVTAVVGQDLVIAPLKNDVDPNGGALRLAQVEANGPAELGPVTDGGTFTFRSTTPGPVYLTYIASNGPQSSQGLIRVDVESGKDGGDPVAVHDVALMPVGGSVLLDPLANDSDPSGGVLVLQSVKLPENTTASVSVIDHSVLRITDILGTKDPFLFEYTMSNGKKSATGSVSVVPVPAPAIVEAPQPKPDEVNVRINDVVTIPVLDNDTHPQGEKLTVDPVLPQGVDQADGKSFVSENTLRFIAGPQPKTVRAIYNAVDPQGQKSAAAVTIHILPLEGAENSRPQPRNLTARVVAAGTVRIPVPLDGIDPDGDSVQLTGIDSTPAMGTAAVGSNFIDFTAAGDGAGTDTFRYKVVDRQGAVNTGTVTVGIAPRGETNQNPTPVDDEVKVRPGRQIAVDAAGNDTDPDGDLIRVLTDGIEADPALQATVSKQSGRIILLAPNAAGTVNVRYSVADDRDASAQATIRMVVDNDVPLQAPIARDDRVTSAQTMGKTAVDVPVLKNDEDPDGVGENLKISTELPTARPGADGNMIVDLTEQPQLIPYTVEDVDGQKSTAIIWVPGIGQQVPTLAKDEVIEVIAGQSVTVDLDEWVKVREGRSPRLTQTDRVKLIGSDGSDPGSGDGTQLKYTAGVDYVGPGSISFEVTDGSGVDDPAGLKSTLSIRTKVLPDPNRNNPPELLGANVDVPKGDAATVDLGKLTADPDRDDLEKMTYELVGASPGGFEAGIDGKSLKVSAADNSTSGTTGSVQVKAKDSRGLEATATFQLTVTASNRPKPVANDDVEPSAAAGKPVTVKVLDNDANPFPESPLKILSAITETGQGTAGISGDSVTVTPSSGFTGTMVVAYTVADKTGDDSRNATARIRLTVKDAPMAPTTPQAQSVGDQTALLTWGAPADRGAPITKYTVFGENGFQQECPANTCTLTGLTNDTKYHFQVTATNEFGDSDKSPASAEVRPDVKPDTPLAPALKFGDKELAVTWVAPASKGSPVKSYDLEISPAPAGQNAQIQNLTAVSYVWKGLQNGVAYKVRVLARNDAKDPSEWSPYSAAEVPAGPPATPAPPTASDAGSVGAQSQLKVSWTAPNNNGDGVSSYTLTTLRGGAVVNSQPVTVGTSQNVTVDNSEANYTFTVSATNKAGTSGTSSPSAAIRAAGKPGQVSSGTVADTGNSGQLRVTFAPLTQAQRNGSTESEIQYTYNADGRSGTIPAGGGPINGLTNGRDITVTIIATSTKNNVSGDAQAIGTGNPYGPPNAPSVDGRTSATGDGQVHWTWNNPNTNGRPLSHYEVSVDGGGWQNVGKANSFDAPGGGWSNSRNLRVRAVSVVAGGIGGPVSSTSGANPAPPATTVRVKPADNNSCPGKPGVADRYSNVGGDARCGSSDANWVSTSDGWIVSQCWMNIYGSSESSNPPSYYKWYRMENGPHPGWYVKLATIDINGPDVPRC				NA	NA	NA	NA	NA
D1-29_01451	972			hypothetical protein	ATGACAATGACCACCGAGCAGGCCGAATGGTTTGCAGCCACCTTTGAAAAGCTCGTTGCCAACGTTGGACAGGCGGTCCTAGGCAAGGAACACGTCATCCGGCTGACCTTCACAGCCATGCTTGCAGAAGGCCACGTGTTGTTCGAGGATGCGCCGGGGACAGGCAAGACGTCATTGGCCCGCGCATTGGCCGCCACCGTCCAGGGGTCCAACAACCGCATCCAGTTCACCCCCGACCTGCTGCCCTCTGACGTCACCGGTGTGACCATCTACGACCAGAAGACGCAGAAGTTCGAGTTCCACAAGGGCCCCATCTTCAACAACATCGTGCTTGCCGACGAAATCAACCGTGCGTCGCCGAAGACCCAGTCAGCCCTCCTTGAGGTGATGGAGGAATCGCGCGTCACTGTGGACGGTGTCACGTATGAAGCGGGCAGGCCGTTTATGGTTATGGCAACCCAGAACCCGATTGAACAGGCAGGTACCTACCGGCTCCCGGAAGCCCAGCTGGACCGGTTCCTGATCAAGACATCCATCGGCTACCCGGACCACGCCTCCACGGTGAGGCTCCTGGGCGGAGCAAACTTGAAGGACCGGTCCAAGGAACTGTCGCCGGTCATCACCACCCAGGCCGTGGCCGACATGGCTGATCTCGCCGCAACCGTGCACGTGGATACCGCAGTCCTTGAGTACATCTCGCGGCTCTGCGAAGAAACCCGCAACGCACCGGAGACCCGGTTGGGCGTCTCCGTGCGTGGAGCCCTGGCGATGGTCCGCGCCGCAAAGGTGTGGGCTGCCGGACAGGGCCGGAACTTTGTCCTGCCCGACGATATCAAGGAGCTGGCAGCCGTGGTGTGGACACACCGTTTTGTCATGGACCCTGAGGCCGAGTTCTCCGGCGCCACGGCGGAAGCCGTCCTGGTCCGTGTACTTTCTGAGGTTGCTGCCCCGCAGCAGCGCGCCAGCGCCTGA	MTMTTEQAEWFAATFEKLVANVGQAVLGKEHVIRLTFTAMLAEGHVLFEDAPGTGKTSLARALAATVQGSNNRIQFTPDLLPSDVTGVTIYDQKTQKFEFHKGPIFNNIVLADEINRASPKTQSALLEVMEESRVTVDGVTYEAGRPFMVMATQNPIEQAGTYRLPEAQLDRFLIKTSIGYPDHASTVRLLGGANLKDRSKELSPVITTQAVADMADLAATVHVDTAVLEYISRLCEETRNAPETRLGVSVRGALAMVRAAKVWAAGQGRNFVLPDDIKELAAVVWTHRFVMDPEAEFSGATAEAVLVRVLSEVAAPQQRASA				NA	NA	NA	NA	NA
D1-29_01452	1332			hypothetical protein	ATGTCCAGCGGCCATCCGTTGACCCGGCTCCTTGACCGGCTCCGGCAGCCCTTCCGTAAGGACGGCAGTCCCGGCAGGCTCCACCCCTCGTCCCTGTGGGCAGAAGCAACCGGCACCGCGGGGCTGGCGCTGGCTCCGCTGTGGCAGAGTGTCCGCGGCCACTGGCTGCGGTTCGTGTGGCCAGTCCTGTCGGTGGTGAGCGTCCTCGGCTGGTCGGTGCTTGCCGCCAGCATCGTGCTCTGGATGGCCGGCCAGGCTTTTGGCTGGCAGGAAGCAAAGGCCGCGGCGATAGCGGCCTTTGTCCTGTTTATCATCGCCATCGGCTTTATCCTGGGCCGATCTTCCTACGGAGTTGTCCTGGATCTGTCGCGGACCCGCGTTGCGGTGGGGGACACTGCCGTAGGCAGCATCGCCGTCTCCAACACCTCCGCCCGCCCCCTGCTGCCCGCGGCCCTGGAACTGCCGGTGGGCGCAGCCACAGCTGTCTTCCACCTGCCCAGGATGAAGCCGCAACAGGTCCACGAGGACCTTTTCACCATTCCAACAGCCCGCCGCGCGGTCATTGTGGTGGGACCGGTCCGTTCCGTCCGCGCCGACCCCCTGCACCTGCTGCGGCGCCAGGTGTTGTGGACCGAGCCCGAGGATCTCTATGTCCACCCGCGGACTGTCGCCTTGGCCGGCTCCGCCGCCGGCTTCATCCGCGACCTCGAAGGCATGCCAACAACAGACCTCTCCAGCGCCGATGTGTCCTTCCACGCCCTGCGTGACTACGTACCGGGGGATGACCGCAGGCATATCCACTGGAAGACCACGGCCAGGACCAACAAGCTCATGGTCCGCCAGTTTGAGGAGACCAGGCGGGCCCACCTGGCCATCTCGCTCTCCATCAACACCGATGAGTACGCCTCGGAGCAGGAATTCGAAATGGGCATCTCGGCGGCGGCCTCCATCGGCCGGCAGGCGATCCGCGAGCAGCGCGAGCTGGATGTCCTGACGCAGAAGGGTCCGCTGCGCTGTGAAACGGGCCGGAACATGCTCGATGACATGACAAGGATTGTTGGCGCGCCCATGCGCCGGAACGCCGTCGACCTTGCCCGGACCCTGGCGGACACCGTCCCGAACGCCTCGGTGGTCTTCTTTATCGTGGGCAGCAATGTGACTCCCACCCAGCTCCGCTCCGCCTCGGCATCCGTGCCGCCCGGCGTCCGCAGCCTTGCTGTGCGGCTCCAGACCGGAGCTGCACCGTCGCGGGCCAACATCGCAGACCTGACAGTACTGACCCTGGGCGATCTTTCCGATCTTGCCATCGTCCTGAGAAAGGCGGCCGCATGA	MSSGHPLTRLLDRLRQPFRKDGSPGRLHPSSLWAEATGTAGLALAPLWQSVRGHWLRFVWPVLSVVSVLGWSVLAASIVLWMAGQAFGWQEAKAAAIAAFVLFIIAIGFILGRSSYGVVLDLSRTRVAVGDTAVGSIAVSNTSARPLLPAALELPVGAATAVFHLPRMKPQQVHEDLFTIPTARRAVIVVGPVRSVRADPLHLLRRQVLWTEPEDLYVHPRTVALAGSAAGFIRDLEGMPTTDLSSADVSFHALRDYVPGDDRRHIHWKTTARTNKLMVRQFEETRRAHLAISLSINTDEYASEQEFEMGISAAASIGRQAIREQRELDVLTQKGPLRCETGRNMLDDMTRIVGAPMRRNAVDLARTLADTVPNASVVFFIVGSNVTPTQLRSASASVPPGVRSLAVRLQTGAAPSRANIADLTVLTLGDLSDLAIVLRKAAA				NA	NA	NA	NA	NA
D1-29_01453	2625			hypothetical protein	ATGAGCACGGCGCAGGGCCTCCGCCCACGGACCCAGCGCACCCAGGAAGTGTCGGCCTTTGCCGACGGCCAGCCGGCCTGGCACTTTGTGCTCGACGCCGGTGCCCTCACCGTGCTGCTGGGGCTGGGGGTCCTCGGCTTCAGCCTCAGCTTCGGAGGTGATCCCTACTACCTCGTTTCAGGATTCGGGGGAATCATCCTGGGCCTGGCGATCGCCGCCTGCAATGCCCACCTCAGGCTGGGGCTGCTGATCACCGCAGCACTGACCCTTGCCGCATACCTTTTGTTCGGGACAGCCCTCGCGGTCCCCGGGTCGGCCATCGCCGGATTCATCCCCAGCCTGGACTCGTTGCGGACGCTTCTCCTCGGCGTGGTCTTCGCCTGGAAGGACATGCTCACGGTGGGCGTGCCGGTGGGTACTGCCGGCGGTGTCCTTATCGTCCCGTTCCTCAGTTCCATGGTGGCCGCGGCCGTTGCCGGAATCCTGATCTGGCGGGTCAAAGGCCCCTATTGGCCGCTGCTTCCGGTGCTGGCACTCTTCGTCACCGGCATTGCCTTCAGCACCAACGCCGCCTTCCTGACGGTGGAACGCGGCATCGCGCTCACCGTGGTTGCCATCGCCTGGGCAACTTTCAGGAGGGATGCGTTGCGGCGCAGCGACACGCGGAAGGTTTCGGTCAATCGTCCCGACGGCGACACCGCCACTGCCCGGCGGGCCAAGATCCGCCGGCTTGGCATGGCAGCCGCCGTCATCGCGGTGAGCGTGGCGGTCACCGCCGTGGCTGCGCCCCTGGTCACGGCAGCCGACGACAGGAAAGTCCTCCGCAACGTGGTGGTTCCGCCCTTCGACCCCAAGGACTACATCACCCCGCTTGCCAGTTTCCGGACGTTCGTCAAGGACAAAAAGGACGAAACCCTTTTTGTGGTCAAGGGCCTGCCACGCGACGGCCGCGTGCGGCTTGGTGCGCTGGACGCGTTCAACGGCACCAACTACAACATGGACCCCAACGGCTCCGGCAGCTTCAGCAAGGTGGGGGACACCAAGTCCATCAACACCCTGGCGGACACCTCGAGCGTTGTTCCCACGAACGACTACTCGATGAACATCACCATTGGGGAATACCAGGGGTACTTCGTCCCGGGCGGGCGAAAGACAACCGGCCTCAGTTTTGACGCCGGCGCCTCGGCGGCCGCCTCAGGCCTCTACTTCAACTCGGGCACGGACACCGCAGTGACCACCAAGGGACTGTCCAAGGGTGATTCCTACAGTGTCCAGGTGTCCGATCCCGTCAAGCTCGAGCACGGCCAGTTGACGCAGTACGATTTCGCCAGGGTCACCCTCCCCGATGCGCTGGAGGTCCCGCCCGTGGTGGGATCCCAGGCCAACGACCTCTCGGCAGACGCCCCCACCGCCATTGACCGCGTCCGGCAGATCGAAGCCCACTTCCAGAAAACCGGGGCCTTCAGCAACGGGCTGGTTACCGAGGGCCAGCTGCCCAGCGTGTCCGGGCATGGTTCGGCCCGGATCAGGAGCCTGCTGACCGCCAAGCAGATGCTCGGTGACGACGAACAGTACGCCGTCTCCATGTCGCTGATGCTGCGGCATCTTGGCATCCCCTCCCGGGTGGTGATGGGGTTCTACCCCGATCCCACCAGCCCGGAGAACGGTGCAGGAGAAGTGAAGATTACCGGCAAAGACGTCCACGCCTGGGTGGAGGTGGCGTTCGACCGGGTGGGCTGGGTCAGCTTTGATCCCACCCCGCCCAAGGACAACATCCCCATCCCGCCGGATCCGGAAAACAAGTCCAAGCCCAAGCCCCAGGTGCTTCAGCCGCCGCCGCCGCCGCAGGAACCTGCGGACCTGCCGCCGGACTCCTCCCCGGATGCCCTGGACGCCGACCAGAAGAAAAACAATCCATGGCTCTTTTGGGGAGCCCTGCTTGGCGCCCTGGGAATCGCCCTCATACCTTTGTCGATCCTTGCGCTGCCGCTGCTGCTCATCGCCCTGCTTAAGTCGCGGCGCCGGAAGGCCCGTTTCAGGGCGGGGCACCCGGCCGAGCGCGTCGGTGGAGGCTGGAATGAAGTGGTGAGCCTGGCCACTGACATGGGAGCCGGAATCAACACCCGCTCCACGCGCCGTGAAAGCGCAGTGGTGGTTGCTGAGGCCTTCCCCAAGTCTGCCTCCACCACCACCATGCTGGCCCACCGCGCCGATGCGTCGATCTTCGGGGCGGGGCAGCCGAGCGAGGAAGAAGTCCGGCAGTACTGGACCATCGTTGACGGTTCCCTGAAGGAAATGACCGGAACAGTAGGGTTCTGGCGCAGGCAGCAGGCCCGGTTCTCGCCGCGGTCACTGCTGGCCGATGGCCGCACTGCGCTTAAACTGCGTGGAACCCGGCCGGTCCTGGGCGGCCGAAAACTGCCCGCCGGGGCGGGTTCCGCGCTTGGTTCCGGGCCCGGTTCCGCCGCCAGGGGGCAGGCCGCCGGTAGGGTGGAGAACGGTCCGGAGGCCGCATCATCCAGCGGGTCCCGGGCTGTGGCCGAACAGGACACTGCAGGCTTTGTTGAACCTGATGAGTCCACAGTCCTCAGGAACCCTGGCAGAAAGAACAACACCGAGTCATGA	MSTAQGLRPRTQRTQEVSAFADGQPAWHFVLDAGALTVLLGLGVLGFSLSFGGDPYYLVSGFGGIILGLAIAACNAHLRLGLLITAALTLAAYLLFGTALAVPGSAIAGFIPSLDSLRTLLLGVVFAWKDMLTVGVPVGTAGGVLIVPFLSSMVAAAVAGILIWRVKGPYWPLLPVLALFVTGIAFSTNAAFLTVERGIALTVVAIAWATFRRDALRRSDTRKVSVNRPDGDTATARRAKIRRLGMAAAVIAVSVAVTAVAAPLVTAADDRKVLRNVVVPPFDPKDYITPLASFRTFVKDKKDETLFVVKGLPRDGRVRLGALDAFNGTNYNMDPNGSGSFSKVGDTKSINTLADTSSVVPTNDYSMNITIGEYQGYFVPGGRKTTGLSFDAGASAAASGLYFNSGTDTAVTTKGLSKGDSYSVQVSDPVKLEHGQLTQYDFARVTLPDALEVPPVVGSQANDLSADAPTAIDRVRQIEAHFQKTGAFSNGLVTEGQLPSVSGHGSARIRSLLTAKQMLGDDEQYAVSMSLMLRHLGIPSRVVMGFYPDPTSPENGAGEVKITGKDVHAWVEVAFDRVGWVSFDPTPPKDNIPIPPDPENKSKPKPQVLQPPPPPQEPADLPPDSSPDALDADQKKNNPWLFWGALLGALGIALIPLSILALPLLLIALLKSRRRKARFRAGHPAERVGGGWNEVVSLATDMGAGINTRSTRRESAVVVAEAFPKSASTTTMLAHRADASIFGAGQPSEEEVRQYWTIVDGSLKEMTGTVGFWRRQQARFSPRSLLADGRTALKLRGTRPVLGGRKLPAGAGSALGSGPGSAARGQAAGRVENGPEAASSSGSRAVAEQDTAGFVEPDESTVLRNPGRKNNTES				NA	NA	NA	NA	NA
D1-29_01454	1434			hypothetical protein	ATGGCAGTGAATCTTGAGCTCGTTCCGGCCAGCGCCGGAAAGCGGCTCGGTGCGGCCGTGCTCGACTGGCTTGGTCCGCTCGCCGTCCTTGTGGTGGCATTTGCCATCGGTTTCGCCGGCATCACCCGCACCCAAAGCGGTGGTTTCATCGTCTACGACACGGGCTCGGTGGTGTTGTTCGGTGGCATCGGCCTTGGACTGACCCTGGTCTACCTGTTTGTCCAGCTGGGCATGGAAGGCCGGTCCGGGACGACTATTGGAAACACGGTCATGGGCATCCGGAGCGCCGACAACGACGGTTATGGCCCGGGTGCAGGTGGCATTTTCCTCCGTGGTCTGATCACGGGCGCCGGGATCATCCTGGCCGCCCTCACGGCCATCGCTGTTGTCGTGTTTAAGTGGTTCGATGCCGCCCTCCTGATCCTTGGTCCGCTGCTGCTCATCGGCGCCGCGTGGGCGGTCCTGGTGGTGGTCTCCAACAGGTGGGACCGGAACGGCGGGCTCCGTGGCTGGCATGACAGGGCCGCCAAGACGCTTGTCTTCGACGTCAAGGCAGGACGCAACCCCATCACCTCAGGCGGCATCCAGGGCCCCTACAGTTTCGCGCCCCTGGACCTGCCGCCGGTCCAGCCAGTGGTGTCGCCCGTGGCAGGTGCCATCAAGTCACCCCAAGTCATTAACGCCCAGCTTCCCTTGAATCAGAACCAGAACCAGAACCAGAGCCAGAACCGGCAGCAAAACCCGACGCACAATCCCAACCCGTGGCAGTCGGCATCAGCGGAGCGGCCCGCCCCGTACCAGCCCATGGCCCAGCCTGCTGCACCGCAGCTGCCTGCATCAGTCCAACCGTCCGCGTCACCGCAGCCGTTCCAGCCGGCCCAGGGCGGCGTGGTTCCCCACTCCTCTCCACAGCAGCCCCCGTACCAGGCCACGCCGGCCCTGCCGCAATCTTTCCAGCCGCAGCCGGTCCAGCCGCAGTCCTTCCAGCCGCCCGCCGTCGTCGTTCCTTCGGCTCCAGCTGCCGGCCCCTCCGCCGGAGGGCATCCGGACGATGACCACGACCGCACGCAGATGCGCGGCGGAACCCTGGAGGCCGCCCCTGTGGCCGTCCTGCGGATAAAGCTCGACGACGGCCGCGACTTCCAGCTTGACCGCAACGTCCTGGTGGGACGGAACCCGGTGGGACAGACCGGCGAGCAGCAGGCCCAGCTTCTGGCCATCGACGACCCCAGCCGCTCGATTTCCAAAACGCACCTCCACGTCCTGACCGACGGCGCAGGGATCTGGGTGACTGACAGGAACTCCACAAACGGCAGCGCTGTCACCACCGCGGACGGCCTGCGCACACCACTTCAGCCGGGCGTGCCCGCGTTTGTCAGCCCGGGATCCATTGTTCATTTTGGTGACCGTTCCTTCCACCTAGGACAGGCATGA	MAVNLELVPASAGKRLGAAVLDWLGPLAVLVVAFAIGFAGITRTQSGGFIVYDTGSVVLFGGIGLGLTLVYLFVQLGMEGRSGTTIGNTVMGIRSADNDGYGPGAGGIFLRGLITGAGIILAALTAIAVVVFKWFDAALLILGPLLLIGAAWAVLVVVSNRWDRNGGLRGWHDRAAKTLVFDVKAGRNPITSGGIQGPYSFAPLDLPPVQPVVSPVAGAIKSPQVINAQLPLNQNQNQNQSQNRQQNPTHNPNPWQSASAERPAPYQPMAQPAAPQLPASVQPSASPQPFQPAQGGVVPHSSPQQPPYQATPALPQSFQPQPVQPQSFQPPAVVVPSAPAAGPSAGGHPDDDHDRTQMRGGTLEAAPVAVLRIKLDDGRDFQLDRNVLVGRNPVGQTGEQQAQLLAIDDPSRSISKTHLHVLTDGAGIWVTDRNSTNGSAVTTADGLRTPLQPGVPAFVSPGSIVHFGDRSFHLGQA				NA	NA	NA	NA	NA
D1-29_01455	918			hypothetical protein	ATGAATTCCCAGCCAGCCAGTATTTCCCCCGACGCCGACCAGGGGGCCGGGCTGAGCCTAAGCTATGGCTACGGGACGGACCGTGGCCTGCGGCGCGAACTGAATGAAGACTCCTTCATCGCGTCCGACCCCGTTTTCGCGGTCGCTGACGGAATGGGTGGCCATGAGGCCGGCGAAATTGCCAGCGGCATGTGCGTCCGTGCCTTGGCGGCGATGCCGCAGCTGGCCACCGGAGAGCGCAGCGTTACCGCGGCGGTCCTCCAGCAGTACCTGGTCCAGGCGGATGGCTCCATTCGCGAAGCCACCGGTGCACGCGCCGGAACCACCCTGACCGGGGCAGTTGTTGTTGAACAGATGGGCATGCCGTACTGGCTGGTCATGAACATCGGCGACTCCAGGACATACCGCCTGAGCCAGGGGCAGTTCGCCCAAATAAGCGTGGACCACTCCGAAGTGCAGGAACTTGTTGACGCGGGCGAAATCACGCCCGAGCAGGCAACAGTCCATCCCAGGCGCCACGTGGTCACGCGGGCGCTGGGAACGGGAACCGACACGGAAGCCGATTACTGGCTGTTGCCCGTCGAGGAGGGGGACCGCATGCTGATCTGTTCAGACGGACTCAATGCCGAACTGACCGATGAACACATGTTCCGCATCCTCAGCACCGTGGGGCATCCGCAGGACGCCGTCGACGCCCTCATCCAGGCCGCCCTCCGCAACGGCGGCAGGGACAACGTCACCGTCATAGTGGTCGACGCCAAGAACGTGATGAACGACGCCGGAATCGCCACCACCGCCCCCAGGCCGGTTGTCGATGCCGAAGACGAAATCACGTTGCCCCGTGCCCAGGTTGTTGACACGCAGGGGCCAGAGGGCGAGCAGAATGAAAGCGAGGAGCCAGCCGATGGCCGCAGGTAG	MNSQPASISPDADQGAGLSLSYGYGTDRGLRRELNEDSFIASDPVFAVADGMGGHEAGEIASGMCVRALAAMPQLATGERSVTAAVLQQYLVQADGSIREATGARAGTTLTGAVVVEQMGMPYWLVMNIGDSRTYRLSQGQFAQISVDHSEVQELVDAGEITPEQATVHPRRHVVTRALGTGTDTEADYWLLPVEEGDRMLICSDGLNAELTDEHMFRILSTVGHPQDAVDALIQAALRNGGRDNVTVIVVDAKNVMNDAGIATTAPRPVVDAEDEITLPRAQVVDTQGPEGEQNESEEPADGRR	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
D1-29_01456	1896			hypothetical protein	ATGGCCGCAGGTAGTTACGCGCCGGGAACCTGGCTGGGAATTGTCCGGTCCCGGACGGCCGTCGTTCTGGGCCCCGATACGCAGCCGGCCCTGGTCCAGTCAATGTGGGAGCTGCTGGCGGACGGGCCGGAGGCGCACGAGGTGCTTCATGCCGTCACCAGCAGTTTTGGCGTTTCCCTGTCACAGATCCCTTCGTTCGGAATCGTTGACCTGCGGGACTCGCTCCATGTCTTCCTGCGCGGCGAGCTGGACCTGACCGTCCAGCTTCCAGGCGGCCCCATCGAAGTGAGCGGACGGGACGTGACCACGTGGAATGAGCGACGCTTTGGCGCCCCCGAGTGGTACCGGCTCACCCTTCCCGGCGTTGCTCCTTCAGCCCAGGAATTTCCCCTGGGGGAAGGCGTGGTGCTGCTGAAGTCATTGACGGTGGCCCTGGCCGGCGCTCCTGACGCAGCTGCCCCAAAGCCGGGCGTGGATGCACACACAGGTCTGGCTGGTACTGCGGCAACTGCGCTGGCTTCGCCTGTGCCAGCCTCGCCTGCACCACTCTTGCCTGGACCACTCTTGCCTGAGCCAGCGGCCCCTGAACTTGGCCTGTCTGAAAAGGGAACGGCTGCGGAATCCGATGCCGTTGATGAAGGACAACAGCCTGCTGCTGACGGTGGGGCCTTCGCTGAACCTACGTTGGCTGTGCCCGAAGAAAGTGACACGGTCCTGGAAACAGTCGCCCCGGAACATGGTGCGTCCGCTGAGACCGTCATGGGCGTCCTTGACGAGGATGGGTACTATTCCGCGGAGTTGGCGGATTCGGCCCATCCGGGAGCAGATCGGGTTTCCGCTGCGGAGGAACCGGCGTCCGAGCCAGACCCGGTCCCCGCGAACGAACTGACCGGCACGTACGACCACCTGTGGGAACGCACGGTGGTACGGAGCATTGAAGATGCCGCCGTCCGCGATGACCCTGAAGCGACGGAGGGCGTTGGCCCCGCTTCATCGGCGGGGAAGGTTGGCAGTGCCGCCCTGGAGCTGCCGGCGCAGATGCCGGCGGCACGGGGGCTCCAGGCCGCCGGAAAGCCTGCCCAGCCCGACGGCGCCGCTGCCCCGGAGGCCCGAAGCGCCTTGCCAGGAAATTCCACACCGCCCACCGGCGGCGGGCCGATCAGCAATGACCCGATGACGGGCGGGCTGATCGACTCGGTTCCCTGGCGCACCGGTGGGGCCAATACCAGGAAAGCCGAGGCCCCGCCAGCACTGGATATTCCTTCCGGCGGGCCAGGCCCGGAACTGGCCCCCGGCAGCCGGCAGGACTCCCCGGCGGAGGATCCGGCAGGCCTTCCCGCCGGATTCGACGGAGACCACGACGGCCACACGATCATGAAAAGCGATCTTGCCGGAATGGCTGCCCATCCTGCACCAACGGTTCTTCCGGATGCTGCCGGTCCGCTGGTGCTGGCCCGGGTCTGCAGCCGGGGCCACGCGAACCCACCCACGCATGCGCAGTGTGCCGCCTGCGGGCTGCCCCTGCCCTCCGACGGCGTCCAGGTGTCGCGGCCGCGGCTGGGCCGGATGCGGGTATCCACCGGTGAGGTGGTGGACCTTGACCATTCGTTGGTGATCGGCCGGCAGCCCTCAGTCTCCCGGGTCCAGGGTGGGGTAATGCCCCGGCTCGTCCAGGTGGCGAGCCCCGGCGGCGATATCTCCCGTTCGCACGTGGAAGTCCGGCTGGAAGGCTGGCACGTGATGCTTTGCGACCTCAAGGCCACCAACGGAACGGTCCTGGTCCGGGAAGGCCAGCAGCCGAGGAGGCTGGCCCAGAACGAGATGGCCATCGTGCTCGATGGCGATATTGCCGAACTGGGCGACAACATCTCATTGCGTTTTGAGGAGATTCTTTGA	MAAGSYAPGTWLGIVRSRTAVVLGPDTQPALVQSMWELLADGPEAHEVLHAVTSSFGVSLSQIPSFGIVDLRDSLHVFLRGELDLTVQLPGGPIEVSGRDVTTWNERRFGAPEWYRLTLPGVAPSAQEFPLGEGVVLLKSLTVALAGAPDAAAPKPGVDAHTGLAGTAATALASPVPASPAPLLPGPLLPEPAAPELGLSEKGTAAESDAVDEGQQPAADGGAFAEPTLAVPEESDTVLETVAPEHGASAETVMGVLDEDGYYSAELADSAHPGADRVSAAEEPASEPDPVPANELTGTYDHLWERTVVRSIEDAAVRDDPEATEGVGPASSAGKVGSAALELPAQMPAARGLQAAGKPAQPDGAAAPEARSALPGNSTPPTGGGPISNDPMTGGLIDSVPWRTGGANTRKAEAPPALDIPSGGPGPELAPGSRQDSPAEDPAGLPAGFDGDHDGHTIMKSDLAGMAAHPAPTVLPDAAGPLVLARVCSRGHANPPTHAQCAACGLPLPSDGVQVSRPRLGRMRVSTGEVVDLDHSLVIGRQPSVSRVQGGVMPRLVQVASPGGDISRSHVEVRLEGWHVMLCDLKATNGTVLVREGQQPRRLAQNEMAIVLDGDIAELGDNISLRFEEIL				NA	NA	NA	NA	NA
D1-29_01457	1839	pknD_3		Serine/threonine-protein kinase PknD	TTGAGTTCGAAACGGCCTGTTGCGCCGCCGCCCCACATCCCGGGGTTTAACTACATCAGTCTGCTGGGATCCGGCGGGTTCTCCGACGTCTACCTCTACGAGCAGGACCGGCCGCGGCGGAAAGTGGCTGTCAAGGTCCTGCTGTCCGACCTGAAAACGGACGGCGCGCGGCGGAGGTTCGAGTCTGAGGCCAACCTGATGGCCCAGCTCTCCTCCCACCCCTACATCGTGACCATCTATGAGGCTGAGGTAACCGAGGCAGGACATTCCTACCTGGCCATGGAATATTGCTCCAGGCCCAGCCTCGATGTCCGCTACCGGCGGCAGCGGTTCAGCGTGGACGAAGTCCTGGCCGTGGGCATCCAGGTGGCATCCGCCGTCGAAACCGCCCACCGGGCCGGCATCGCGCACCGGGACATCAAGCCGGCGAACATCCTGGTCACCGATTACAACCGCCCCGCGCTGACGGACTTCGGGATTTCCGGCACGCTGGGCAGCGATGCCGACGACGACGCCGGGATGTCAATCCCGTGGTCCCCACCGGAACAGTTCACCGACGGACCGATTGACGGCGTTTTGGTGGACGTCTGGGCCCTCGGGGCCACGCTGTACACCCTGCTGGCCGGCCGGTCTCCCTTCGTGATGCCCGGGGCCGATAATTCCCAGCGTGAACTGATTTCGCGCATCAGCACCATGGCACTGCCCAGGCTCGGCCGCGCCGACGTCCCGGAATCCCTGGAACTGGCACTCTCCACCGCCATGGCGAAGTCAGCGTCCTCCAGGTACTCCTCGGCCCACGCGTTCGCTCTTGCCCTGCAGCGGATCCAGGCTGAGCTGAACCTGTCAGTCACGCCCTTTGAAGTGCTCGAAGAACCCCACCAGGAGGACGGCCACCCGGACGACGGCTTCGAGGAAACCCGTGTCCGCAGCGTTGCCGCCATCGATCCGGAGCGGACCGGCAGTGCGCCCACCTTCCCGGCACGTACCCGTCCGCAGGGCCCCGGCCCATTCCCGGTGACTGGCCCGCCTGCTGTCAACCCGGCCGCTGCTGGTCCGTCTGCCCCCGTCCAAGCGGGGGACGCGGCCCGGCCCCAGGTCCCGGGCCACCTCTTTGCCGGCCAGCATCCCCAGGGAAACCCGGCGGGCGAGTGGTCGCACGCCACCATGCTCCGTGGCAGCGCCCCCGCCGCCTACGGCACACGCCAGGACGGCACACCGCAGTACGGCACCCCCCAGGACGCGACGGTCCACCGCCCTTCCCTCCTCTCGGCTGACGCAGGACAACATCCAGGACAACAGCACCCGGCAGGGCGGGCGCCGGGCCGGGGAGAACCTGAGCTTGACGCCACCGTGGGCCGGCCGGCCATGCCCCGGGGGGACGCCCCGGGTCCTGCCCCCGCCGACCACGGCAAACGCAACCTGTGGCTCGCGATCACCGGAGGGACCCTGCTGGCGGTCGCCGTCGTCGTGGGAATTGCCTTGTCAGCAACAGTCCCGCCGAAGCCGGTACCCACGGAGCAGGTCAGCAAGCCTCCGGTAGATCCCCTGGATAACGGGACTGTCCCGGACGTCGAGGCACTGGGCGGGTTCCTGGACAGTACAGGAACAGTAAGTTTCAGCTGGAACAATCCCCAGCCGAAACCCGGTGACGTCTTCAAGTGGCGGGTCTTCGCACCAGGGCAGACCGAGGGCGCCTACCAGTCCACTACCTCCTCCTCCGTCCAGGTGAAACCAAATCCCTCGGGAACCACCTGCATCGAGGTGATGTTGGTCCGCAGTGACGGGGCCTCCTCTCCCATGGAAGAAGAAGATTCGGTCCACTGCGTGCCCAACAGCTAG	MSSKRPVAPPPHIPGFNYISLLGSGGFSDVYLYEQDRPRRKVAVKVLLSDLKTDGARRRFESEANLMAQLSSHPYIVTIYEAEVTEAGHSYLAMEYCSRPSLDVRYRRQRFSVDEVLAVGIQVASAVETAHRAGIAHRDIKPANILVTDYNRPALTDFGISGTLGSDADDDAGMSIPWSPPEQFTDGPIDGVLVDVWALGATLYTLLAGRSPFVMPGADNSQRELISRISTMALPRLGRADVPESLELALSTAMAKSASSRYSSAHAFALALQRIQAELNLSVTPFEVLEEPHQEDGHPDDGFEETRVRSVAAIDPERTGSAPTFPARTRPQGPGPFPVTGPPAVNPAAAGPSAPVQAGDAARPQVPGHLFAGQHPQGNPAGEWSHATMLRGSAPAAYGTRQDGTPQYGTPQDATVHRPSLLSADAGQHPGQQHPAGRAPGRGEPELDATVGRPAMPRGDAPGPAPADHGKRNLWLAITGGTLLAVAVVVGIALSATVPPKPVPTEQVSKPPVDPLDNGTVPDVEALGGFLDSTGTVSFSWNNPQPKPGDVFKWRVFAPGQTEGAYQSTTSSSVQVKPNPSGTTCIEVMLVRSDGASSPMEEEDSVHCVPNS				NA	NA	NA	NA	NA
D1-29_01458	705			hypothetical protein	ATGGGGGATCTAGCAATAGATTTCTGTGGTGAGTGGTACGAGCCGTCGGATGAGGATATTTTCAACATCGGGCGTGAAGGCGACCTTGAAGTGGACGACAACCCCTACCTGCATCGACAGTTCCTGCAGGTGGCCCGCTACGACGGAATGTGGTGGCTCAGCAACGTAGGCAGCATGCTCTCGGCCACGGTCGCCGACGCTTCCGGCGGCATGCAGGCCTGGCTGTCGCCCGGGGCCCGCATACCCCTCGTCTTCAGCCACACCAACATCATTTTTACCGCCGGACCCACCACCTATGAGTTCGCCGTTCACCTTAAGACGCCGTCGTTCCGCCAAGAGGCGCGGGACGAAGACAGCAATGGGGACACCACTATCGGCCCCGTGGTGTTCACCGACTCGCAGAAGGCGCTCATCGTGGCGCTCGCCGAACCGATGCTCCGCCGCGAGGGGACTGGATTCAGCGCCATCCCGTCCTCGGCTGCGGCGGCCAAGACGCTCGGCTGGGCCCTGACCCGGTTCAACCGCAAGCTGGACAACGTCTGCGACAAGCTGGACAGGGTTGGGGTGGTGGGACTCCGCGGCGGAGGCGGAAAACTGGCTACAAACCGGCGGGCCAGGCTTGTTGAACATGCTGTTACGTCCCATCTGGTGACCCCTGAAGACTTGTATCTGCTCGAAAAGATGAGGGGCGTGGACGAAGGATGA	MGDLAIDFCGEWYEPSDEDIFNIGREGDLEVDDNPYLHRQFLQVARYDGMWWLSNVGSMLSATVADASGGMQAWLSPGARIPLVFSHTNIIFTAGPTTYEFAVHLKTPSFRQEARDEDSNGDTTIGPVVFTDSQKALIVALAEPMLRREGTGFSAIPSSAAAAKTLGWALTRFNRKLDNVCDKLDRVGVVGLRGGGGKLATNRRARLVEHAVTSHLVTPEDLYLLEKMRGVDEG				NA	NA	NA	NA	NA
D1-29_01459	4446	eccC	COG1674	ESX secretion system protein EccC	ATGAGAATCCGGCTGACACTTCGCCGGGACCCGGCCGAGACCAAGGACCTCGCGGTCACCGTTGACGGCCTGGCCACCGTGGCGGACACCGCCACTCAGCTGTGGTCTGCAGACCCTGACCGCAAGGGGGTTCCGGCGCCGGAAAACCTTTCCCTGCGGATCGACGAGGCCTTTGTGGCCGGCGGGATGCGCGGCAACGTCCTGACCCGCACGGACAACCTGCTCGAATCAGGGCTGCGGCCGGGGTCGGTTGTTTCACTGACCCAGGTCAGCGCACAGTTTGACGCTCCGGGCGCCAACCGGGGGCCCGCCACGGCCACCCTGCGGATCCTGTCCGGCCCCGACGTCGGCCAGGAGTTTTCCCTCCCTTCAGGCACCAGTTACATTGGCCGGGACCGGGACGTTGACATCCGGCTGACCGATCCCATGACCTCAAAACGCCACGCCCGCATCACGGTAGGCGAAAGCGTCGAGATCGTGGACACCAATTCGGCCAACGGCCTCCTGATGGACGGCCTTCCGGTCACCAGGGCCACGCTTAATTCCTCAGACACGGTGACCCTTGGTGATACCACCGTCACGGTGGTTCCGCTGGGGCGGAACCAGGCGGCAGCGCCGACGTCGCCCCTTGTCGATTTCAACCGGTCACCGCGCGTGGTGCCCTGCTTTGAATCGCCCAAGCGGGTCCTGCCGGCGGGACCCAAACGGCCGGACAACCAGCCTTTCCCCTACATCATGCTGATGGCGCCGCTGCTGATGGGGGCCGTGATCTTCGCGACCACCCGGAACCTGATTTCTGTTGTGTTCATGCTGATGATGCCGCTGTTCGTGGTGGGCCACTACGTCGACCAGAAGATGCAGACCAAGCGCCGGCTCAAGGAACAGCTGAAGCACTTCCGGGAGTCCATGGCCGCGTTCCGCCAGGACATCACCGAACTGCAGCACGTTGAACGCTCCGTCCGGCTGCAGGAGGCGCCGTCCGTCAGCGACACCGTGGATTCCATCTACAAACTGGGGCCGCTGCTCTGGACCCACCGCCCTGAGCACAAGGGCTTCCTGGGCCTGAGGTTTGGGCTGGGCACGGCGCCGTCCCGGGTGGTCCTTGAGGAGTCGTCGAACAACGACACCGAAGTTGAATACATGCGCGAGATCCAGGACTGCCTCAAGCAGTTCAAGGACATCGAGGGCGTGCCGGTGGTCTCCCAGCTGCGGACGGCGGGATCCTTTGGCGTCGCGGGAGCACGCGGACTGGTTGATGACGTGGCCCGCGGCATGGTTTTGCAGCTGGCGGGCCTTCACTCGCCCGCCGAGGCCGTCATTACAGCCATCACGTCAGCCCAGTCCCGCGAGCGCTGGAACTGGCTGCAGTGGCTGCCGCACGTAGGTTCGGGCCACAGCCCGATCAGCGGCGACCATCTGGCTGCAGGCTCAGCGGGCGGTTCCTCCCTCCTGGCCCGGCTTGAGGACCTGGTGGACACCCGTGAGGCGTTGGCTCAGCGCTCCGGCGCTGATCTCCGCCCGGAGCTTGACCCTGCCAAGGTGGAGGTTCCCGTGCCGGTCCTGCCGGCTGTCCTGGTCATTGTGGAGGACGATGCCCCTGTTGACCGCGGACGGCTGACGCGGCTTGCCGAGCGCGGGCCTGATTCCGGGGTGCACGTCATGTGGGTGGCCACCGACATCCAGGCTCTCCCTGCAGCCTGCCGGGATTTTATGGTGGTGGACGGCGATCACGGCACCACCACCGGCCAGGTGCGGCTTGGCCAGCACACCTACCCCGTCAGCTGCGAAAGCCTTGACGCGGATCTCGCCGCCCAGCTGGCCAGGATGCTCTCCCCGGTAGTGGACGTGGGCAAGCCTATGAGTGACGACTCGGACCTGCCGCGCGCCGTTTCCTACGCCACCCTGATCGGCAAGGACTTCCTGGACAACCCGCAGGCCGTGGCGGAACGGTGGAAGGAGAACAACTCGGTCCACGCCACCGCCGTCCAGAACCGCAAGGACAACGGAACGCTCCGCGCGCTGGTGGGTTCAAAAGGCGTTGAACCGCTGTACCTTGACCTGAAGAACGAGGGGCCGCACGCCCTGGTGGGCGGAACCACCGGTGCTGGCAAGTCGGAGTTCCTGCAGTCCTGGGTCATGGGCATGGCCGCCGCCTACAGCCCTGACCGGGTGAGCTTTCTGTTTGTGGACTACAAGGGCGGGGCCGCTTTCGCCGATTGCCTGCACCTGCCGCACACCGTGGGCCTGGTCACCGATCTCTCCCAGCACCTGGTCCGCCGGGCCCTGACCTCCCTCCGGGCAGAACTCCACTACCGGGAGCACCTGCTGAACCGGAAAAAGGCGAAGGACCTGCTGGCACTTCAACGCGAAGCCGATCCTGATGCTCCGCCGTACCTGATCATCATCGTGGACGAATTCGCGGCGCTTGCCACCGAGGTGCCCGAGTTCGTGGACGGTGTTGTGGATGTGGCCGCCCGCGGGCGTTCACTGGGACTCCACCTGATCCTGGCCACCCAGCGGCCCGCCGGTGTGATCAAGGACAGCCTGCGGGCCAACACCAACCTCCGTGTGGCCCTGCGCATGGCGGACGAAGAGGACGCGACCGATATCCTCGGCGTCCCGGACGCCGCCTACTTTGACCCGTCCATCCCGGGCCGCGGCGCCGCAAAGACCGGTCCGGGCCGGATCCAGGGCTTCCAGACCGGTTATGCGGGTGGCTGGACCACGGAGAAGCCGCAGCGGCCCCAGATCGACATCGTTGAAATGGCCTTCGGCTCAGGTCCCAGCTGGGATCTGCCTGCCCCTGAACAGCCGGTGAAGGAAGACCCCGCCGGTCCGAACGATATCTCCCGGATGACCACCAACATCGTCCGGGCGGCCGAGCTCCTGGCCATCCGTCCGCCGCGCAAACCCTGGCTGGATGAGCTTGCCAAGACCTACGACTTCTCCAAGCTCCCCAATCCGCGGACGGACGAGCGGCTGCTCCTGGGAGTGGCGGACGATCCTTCCCGGCAGGACCAGCCCACGGTCTTCTACGAACCCGACAAAGACGGCAACATGGCCATCTACGGTACCGGCGGTTCCGGAAAGTCAGCGGCCCTGCGCGGTATTGCGATTGCCGCGGCCGTCACTCCGAGGGGAGGTCCCGTGCACCTCTACGGGATCGACTGCGGGTCCTCGGGACTGAAGATGCTCGAAGAGCTGCCGCACGTGGGGGAGATCATCAGCGGGGACGACGTGGAACGCGTCGGACGCCTGCTTCGCCTGCTGCGCGACATTGCTGATGAACGCTCCGCGCGCTTCGCCGAAGTCAGGGCTTCCACCATTGTTGAGTACCGGAGGCTGGCGAACCGTCCCGGTGAAAAGCGGATCTTTGTGCTGGTGGACGGAATGTCGGCGTTCCGCGAGACCTACGAGTACAGCAAACTTTCCGCACTGTGGGATATCTTCCTGCAACTGGCAACGGACGGACGTCCCCTGGGCATCCACCTGGTAGTGACCGGGGACCGCCCCAACTCGGTCCCGGCGTCGCTGCTGGCGTCCATTCAGCGCCGGCTGGTTCTGCGGCTCTCCTCCGAGGACGACTACCTGACCATGGCGGTTCCCAGGGACGTTCTCAGCAACACCTCGCCTCCGGGCCGGGGCCTGCTGGACGGCCTGGAGGTACAGCTCGCGGTCCTGGGAGGCAACTCCAACCTGGCCCTGCAGGCGAGGGAGGTCCATAAGCTCAGCCAGGCAATGCTCCGCCAGGGGCTCGACAAGGCGCCCAGGATCGAGCGGCTCCCGGAGCAGGTGGACCTCGATGTATTGCCCGCCGGCCGTCCGGACCTGCCCGTGATCGGTGTGGACAACGAAACACTGGAGCCGGCCGAGATCATGGCGAAGGGCCCGCTGCTGGTCTCCGGTCCGCCCGGCGCCGGAAGGACCGTGGCGCTGGTGACTCTCGCCTACGCGCTCAGGCGCTCCAACCCGGAGACGGAGCTCGTCTACATCGGCTCGAGGCGGTCCGCTGTGGCCTCGCTGCCCATCTGGAATCGGTCGATAGTAGGCGCGGATGACCTCGCCGAGGTGGCCGAAGACCTGATCGAGCATTCATCGGGAAATCCCGGCACGGTGGCCATCTTCATTGAGGGTCTGACAGAGTTCACCGACACGGTGGCGGAATCGCGGATAGGGCAACTGGTGACGGCGTCAATCAAAGCCGACCAGTGGGTCATCGGGGAGTCCGAAACGTCCACCTGGTCTTCAGCCTGGTCCCTTTCCCAGCCCTTCAAATCGGGGCGCCGCGGCCTGCTGATCAACCCCGGCGACATCGAAGGCGACAGCCTGCTCAACACCTCCCTGGGCAGGGTCAGCCCCGACTTCATCCCCGGCCGCGGGTACATTGTGGGCCGGGGCAAAGTGCGCAAACTGCAGATTGCGCTGCCGCCTGAAAACAGGGGCTGA	MRIRLTLRRDPAETKDLAVTVDGLATVADTATQLWSADPDRKGVPAPENLSLRIDEAFVAGGMRGNVLTRTDNLLESGLRPGSVVSLTQVSAQFDAPGANRGPATATLRILSGPDVGQEFSLPSGTSYIGRDRDVDIRLTDPMTSKRHARITVGESVEIVDTNSANGLLMDGLPVTRATLNSSDTVTLGDTTVTVVPLGRNQAAAPTSPLVDFNRSPRVVPCFESPKRVLPAGPKRPDNQPFPYIMLMAPLLMGAVIFATTRNLISVVFMLMMPLFVVGHYVDQKMQTKRRLKEQLKHFRESMAAFRQDITELQHVERSVRLQEAPSVSDTVDSIYKLGPLLWTHRPEHKGFLGLRFGLGTAPSRVVLEESSNNDTEVEYMREIQDCLKQFKDIEGVPVVSQLRTAGSFGVAGARGLVDDVARGMVLQLAGLHSPAEAVITAITSAQSRERWNWLQWLPHVGSGHSPISGDHLAAGSAGGSSLLARLEDLVDTREALAQRSGADLRPELDPAKVEVPVPVLPAVLVIVEDDAPVDRGRLTRLAERGPDSGVHVMWVATDIQALPAACRDFMVVDGDHGTTTGQVRLGQHTYPVSCESLDADLAAQLARMLSPVVDVGKPMSDDSDLPRAVSYATLIGKDFLDNPQAVAERWKENNSVHATAVQNRKDNGTLRALVGSKGVEPLYLDLKNEGPHALVGGTTGAGKSEFLQSWVMGMAAAYSPDRVSFLFVDYKGGAAFADCLHLPHTVGLVTDLSQHLVRRALTSLRAELHYREHLLNRKKAKDLLALQREADPDAPPYLIIIVDEFAALATEVPEFVDGVVDVAARGRSLGLHLILATQRPAGVIKDSLRANTNLRVALRMADEEDATDILGVPDAAYFDPSIPGRGAAKTGPGRIQGFQTGYAGGWTTEKPQRPQIDIVEMAFGSGPSWDLPAPEQPVKEDPAGPNDISRMTTNIVRAAELLAIRPPRKPWLDELAKTYDFSKLPNPRTDERLLLGVADDPSRQDQPTVFYEPDKDGNMAIYGTGGSGKSAALRGIAIAAAVTPRGGPVHLYGIDCGSSGLKMLEELPHVGEIISGDDVERVGRLLRLLRDIADERSARFAEVRASTIVEYRRLANRPGEKRIFVLVDGMSAFRETYEYSKLSALWDIFLQLATDGRPLGIHLVVTGDRPNSVPASLLASIQRRLVLRLSSEDDYLTMAVPRDVLSNTSPPGRGLLDGLEVQLAVLGGNSNLALQAREVHKLSQAMLRQGLDKAPRIERLPEQVDLDVLPAGRPDLPVIGVDNETLEPAEIMAKGPLLVSGPPGAGRTVALVTLAYALRRSNPETELVYIGSRRSAVASLPIWNRSIVGADDLAEVAEDLIEHSSGNPGTVAIFIEGLTEFTDTVAESRIGQLVTASIKADQWVIGESETSTWSSAWSLSQPFKSGRRGLLINPGDIEGDSLLNTSLGRVSPDFIPGRGYIVGRGKVRKLQIALPPENRG	PGPT0030468_412	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
D1-29_01460	588			hypothetical protein	ATGCCCCGATCCTCCACTGTGCTCCGCGCTGTTTCTGTGATGGGGGCAGCTGCGGTCCTGGCGTTCTCGACCGGACTCACCGCAGTTCCGCCTGCGGCAGCTGACACTCCTGAGCCTGCACCCACCTGCCGGCTCATCTGCCTCCCGGGCCCATCTGAACCGGAGCCCGAGGATCCGCCCGGTCCCCAACCGACTCCCACTTCCCCAAAACCCACCGCCACGGCAGCGCCGCCGGCCCCGGCCCCGGCACCGCCGGCTCAGCCGCAGCCCGCGGACCCGGCACCCGCCCCGGTTCCCACCCTCGCCCCCGAGCCGGAAGAGACTGCCGTTGAGGAGACACCCTCCGCTGAGGCCGCGGTCATATCCACCAGCGCCCCTCCGCCCAGCGGAGCACCCTCCACAGAACCAAACTGGAACAAGCCCATCACTGGGTCAGCGAAGTCCACGCAGGCTGCCGCTGTGTCGCCGGGGGACGGGCCTGGCTTCGGAGATCCGCGGCTGCTGACCATCATGGCTGGGGTGCTTCTGGTGGGTCTCGCCGGCCTGGCGTTTGCCTGGTGGAGCAGGAACCGGGTCTCGGCCCACTGA	MPRSSTVLRAVSVMGAAAVLAFSTGLTAVPPAAADTPEPAPTCRLICLPGPSEPEPEDPPGPQPTPTSPKPTATAAPPAPAPAPPAQPQPADPAPAPVPTLAPEPEETAVEETPSAEAAVISTSAPPPSGAPSTEPNWNKPITGSAKSTQAAAVSPGDGPGFGDPRLLTIMAGVLLVGLAGLAFAWWSRNRVSAH				NA	NA	NA	NA	NA
D1-29_01461	582			hypothetical protein	ATGACCCCGTCCTGCGCTGCACTCAAAGCCGCCATCGCGGCGGCAGCAGCTGCAGTCCTCGCGCTGTCTGTTGGTCTTTCGGCCGTGGGGGCCGCCCATGCCGACTCACCTGAGCCCACGGCCACGGCCACCTGCGAGGAGTCCTGCGAACCCGCACCAGCGGAAGCTGCCCGGAAACCTGATCCGAAGCCGACGGCGGAAGAGCCCTCCGTCCCGGCGAAACCGCCCCAGGAACCCCCGGCGAAGCCCGCGCCCACTGCGCCACCCGCCGAGCCCACCCTGGAACCCGTGCCCACCCTGGAGCCCGAGCCAACTGAAACCATAGAGCCGGCACCGTCAACGGAACCACCCTCCAGCAGCGCTGCGGCAACCCCGTCTGCGGCAACCCCCAGCACTGAATCCAACTGGAACAAGCCGATCACCAAGTCCGCCAAACCTACCCAGGCCGCCGCCGTCTCCGGCACAGACGGCCCAGGTTTTGGAGATTCCGGCCTGCTGGCCATCCTGGCAGGGGTGCTGCTGGTGGGCATGGCCGGGGTGTCCTTCGCCTGGTGGGCCCGGCAGCGAGTCTCCAGCCACTGA	MTPSCAALKAAIAAAAAAVLALSVGLSAVGAAHADSPEPTATATCEESCEPAPAEAARKPDPKPTAEEPSVPAKPPQEPPAKPAPTAPPAEPTLEPVPTLEPEPTETIEPAPSTEPPSSSAAATPSAATPSTESNWNKPITKSAKPTQAAAVSGTDGPGFGDSGLLAILAGVLLVGMAGVSFAWWARQRVSSH				NA	NA	NA	NA	NA
D1-29_01462	2274	ligA	COG0272	DNA ligase A	TTGACGGAGCCGGAGGCGGTTCCGTCCGAGTCGGTCCGTGAGGAGTACGAGAACCTGGCCGACCTCGTCCGGAAGTACAGATTCGCGTACTACCAGGAGGACGAACCCCTGGTCTCGGACGCGGAGTTTGACGAACTTTTTCGGCGCCTCGAAGAGATCGAAGCGCTGCACCCTGAACTGGTGGCCAATGACTCGCCCACCCAGGAGGTTGGCGGCGAAGTCTCAGCCGCGTTTGCCGCCGTCGAACATTTGCAGCGCATGTACAGCCTGGAGGACGTTTTCTCCCTCGAGGAGCTGGAAGCATGGATCGATAAGGCAGCTGCCAGTATCGCCAAGGTGGGTAACGGCGGAATGCCGCCGGCCTGGCTGACGGAGCTGAAGATTGATGGCCTGGCAGTCAACCTGCTGTACCGGGACGGGAAACTCGTCCGGGCGGCCACCAGGGGTGACGGCCACACCGGCGAAGACATCACCCACAACGTGCTCACCATCAAGGAAATACCGCAGGAACTGAGCGGAACGGGCTACCCCGCCGAAATGGAAGTCCGCGGCGAGGTGTTTATCCCGTCAACGGCTTTTGCTGAATTCAATGAGGCCCTGATCGCGGCGGGCAAAGCACCGCTGGCCAACCCGCGCAACGCGGCAGCGGGCTCCCTGCGACAAAAGGACCCCGCCGAAACGGCCAAACGGCCGCTGAAGATGTTCGTCCACGGGATCGGGGCGCGGGAAGGACTTCAGGCCCAGAGCCAGTCCGGGACGTACCAGCTCATGAAGGAGTGGGGGCTGCCCGTCAGCCCTTATTTTGAAGTCCTGCGAAGCCTCCAGGAGATCCTCGAGTTCATCAAGCGGTACGGCGACAAACGGCACAGCCTGATGCATGAGATCGATGGCATCGTCATCAAAGTGGACGACTTCGCCACCCAGCGCGCACTGGGCTATACGTCACGGGTGCCCCGCTGGGCAGTCGCCTATAAGTATCCGCCGGAGGAAGTCCACACCAAACTGCTGGACATCGCCGTCAATGTTGGACGGACAGGGCGCGTCACGCCCTACGGAGTGATGCAGCCGGTCAAGGTTGCCGGCTCCACTGTCGAGATGGCCACGCTGCACAACCAGGACGTGGTGAAGGCCAAAGGCGTGAAAATCGGCGACATCGTGGTCCTGCGCAAGGCCGGCGATGTCATTCCGGAGATTGTCGGGCCTGTGCTTGCCCTGCGGGAACAGCAGCAGCCGCCGGTCCGGGACTTTGTCATGCCCACCGAATGCCCTTCCTGCGGAACACCGCTGGCGCCGGCGAAGGAAGGGGATGTGGACATCCGCTGCCCCAACGCCAGGTCCTGCCCCGCCCAGCTGCGTGAACGGGTCTTCCACCTGGCCGGCAGGGGAGGCTTCGATATCGAGGCGCTTGGCTGGGAGGCAGCCATTGCGCTGACCCAGCCTGCCGAACCGGCCGTGCCGCCCCTGACGTCGGAGGCGGCGCTGTTTGACCTCACCCCAGAGGACCTTGCGGATGTCCGGATCAGGCGTGAAAAGCGCGCCAAGGGGGTGCCCACGGGCGAGTTTGAGCTGGTGCCGTACTTCTACAGCAAGGGCACGGCGAAGTCCCCGTCCAAGCCCACAGCCAACACGGAAAGGCTGTTCAGGGAACTGGAAAAAGCCAAAACCCAGCCGCTGTGGCGTGTGCTGGTGGCGCTGTCCATCCGGCACGTCGGGCCGCGGGCCTCGCGGGCGCTGGCTAACGCTTTTGGCAGCATGGACGCAATCCGCCGGGCGTCGGAGGAGGAACTGGCCGGGGTGGACGGCGTGGGCCCCACCATCGCCGCGGCGCTCAAGGAATGGTTCGCCGAGGACTGGCACCTGGAGATCATCGACCGCTGGGCTGCCGCAGGAGTCCGGATGGAGGATGAGCGCGACGAATCCATGCCGCGGACCCTGGAGGGCCTGACCATCGTCGTCACGGGTTCGCTGCCGGACTTCAGCAGGGACGAGGCCAAGGAGGCCATCCTGATCCGGGGCGGCAAGGCGGCCGGCTCGGTGTCCAAGAACACCAGCTACGTGGTGGCTGGCGAGAACGCCGGAACCAAACTGGACAAAGCGGAGCAGCTGGGAGTGCCGGTGCTGGATGAGGACGGGTTCCGCGAACTCCTTGCCAACGGGCCCGCCAACCTGACGGCCAAGGCGCCCGCCACTACAGCCGCCAAGGCAGAAGACAACCAACCCGCCACTGAATCTGCCGGGGCGGACAGCGTGATTGAGCCGGAGGCTGCTGAATGA	MTEPEAVPSESVREEYENLADLVRKYRFAYYQEDEPLVSDAEFDELFRRLEEIEALHPELVANDSPTQEVGGEVSAAFAAVEHLQRMYSLEDVFSLEELEAWIDKAAASIAKVGNGGMPPAWLTELKIDGLAVNLLYRDGKLVRAATRGDGHTGEDITHNVLTIKEIPQELSGTGYPAEMEVRGEVFIPSTAFAEFNEALIAAGKAPLANPRNAAAGSLRQKDPAETAKRPLKMFVHGIGAREGLQAQSQSGTYQLMKEWGLPVSPYFEVLRSLQEILEFIKRYGDKRHSLMHEIDGIVIKVDDFATQRALGYTSRVPRWAVAYKYPPEEVHTKLLDIAVNVGRTGRVTPYGVMQPVKVAGSTVEMATLHNQDVVKAKGVKIGDIVVLRKAGDVIPEIVGPVLALREQQQPPVRDFVMPTECPSCGTPLAPAKEGDVDIRCPNARSCPAQLRERVFHLAGRGGFDIEALGWEAAIALTQPAEPAVPPLTSEAALFDLTPEDLADVRIRREKRAKGVPTGEFELVPYFYSKGTAKSPSKPTANTERLFRELEKAKTQPLWRVLVALSIRHVGPRASRALANAFGSMDAIRRASEEELAGVDGVGPTIAAALKEWFAEDWHLEIIDRWAAAGVRMEDERDESMPRTLEGLTIVVTGSLPDFSRDEAKEAILIRGGKAAGSVSKNTSYVVAGENAGTKLDKAEQLGVPVLDEDGFRELLANGPANLTAKAPATTAAKAEDNQPATESAGADSVIEPEAAE				NA	NA	NA	NA	NA
D1-29_01463	834	suhB_2	COG0483	Inositol-1-monophosphatase	ATGAGCAGCGCGGATCTGTTGCCTCCGGATCACCCGGCAGTGCTCCTGGAGGTGGCAAAGCAAGCGGCCGCCGCAGGTGCTTCAGTGCTTGCCTCCCGGAACGGCGATGACCTTGGGACCAGCAACAAGGGAGCGGCGGGCGACTGGGTTACCGCTTTTGACGTCGCTGCGGAGGATGCCGTCCGGGGCGCCATCAACACGGCGCGGCCGCAGGACACCATCACGGGCGAGGAACACGGAACCACGCGCCCCGCCGAGCCCAGCGGCTACCGGTGGTCCATTGATCCGCTCGACGGCACCACCAACTTCATCCGAAACATCGTCTACTACGCCACCTCCGTGGCCGTGGCCGATGCCCGCGGTGTCTGGCTCGCCGGCGTCGTTAACGCCCCGGCACTGGGGCGCGTCTACTATGCCGCCCGCGGCCAGGGGGCCTGGCTGGAGGAGTCCGGCAGGCTCACCCGGCTGCAGGGGCCGGAGCCCGGCAGGAAGGGTCAAATCCTGGCTACCGGTTTCAGCTACGATCCCCGTGTCCGGGCCGAACAGGCCGCGCTCCTGGGCAGCCTGATGGAGGACTTCGCCGACGTCCGGCGCCTGGGCTCGGCAGCGCTGGACCTGTGCATGGTGGCCGACGGAACCCACGACGCCTTCGGTGAACGCGGACTGAACGAGCACGATTTCTCAGCCGGCGCCCTGATCGCCGAGGAGGCGGGCTGCTGGGTCAGGCGTCCCCGCCTGGTCAGCCCGCTCAACGGCGGGCCAACCGATGAGGACAGGCTGGCCGCCTGGACCTGTGCCGCAAGCCTGGAGCTGTCCGGCAAGTTCCCGCTCTGA	MSSADLLPPDHPAVLLEVAKQAAAAGASVLASRNGDDLGTSNKGAAGDWVTAFDVAAEDAVRGAINTARPQDTITGEEHGTTRPAEPSGYRWSIDPLDGTTNFIRNIVYYATSVAVADARGVWLAGVVNAPALGRVYYAARGQGAWLEESGRLTRLQGPEPGRKGQILATGFSYDPRVRAEQAALLGSLMEDFADVRRLGSAALDLCMVADGTHDAFGERGLNEHDFSAGALIAEEAGCWVRRPRLVSPLNGGPTDEDRLAAWTCAASLELSGKFPL	PGPT0018535_2807	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
D1-29_01464	504			hypothetical protein	GTGCATCCGCAGATAACCATCCGTCCCGCCACTGCGGAAGATTTCGACGACGTTGCCCGGATCACGCGGGACTCCTACCTCGCCGCGGGCTACTTCGACAGCCCTGACCACCCCTATATCCTGCAAATCCAGGACGTGGCCCGGCGTGCACAGAGCGCCACGATCTGGGTGGCCGAGCGCCGCGGGCAGGTCGTCGGCTCGGTGACGCTGGCCCGGGCCGGTGAACCGTATGCCGACATCGCCCTGGAGGACGAGCTGGAGTTCCGGATGCTCGTGGTGGACCCGCACGTGCAGCGCAGCGGAGCCGGGAAGGCCACTGTTGAGGCCATCATCCACCACGCCAAATCGCTCGCCGGCATCAGGGCAGTTGCCCTCACTACTGGAAAAACCTGGGAGAGCGCCCACGGTCTCTACCGGAAGTTCGGGTTCCAGCGTGTCCCGGAGCGGGACTGGTTTGTTCCCGGCACCGACATAAAGCTGCTGGTTTACCGGCTCGAGGTCTAG	MHPQITIRPATAEDFDDVARITRDSYLAAGYFDSPDHPYILQIQDVARRAQSATIWVAERRGQVVGSVTLARAGEPYADIALEDELEFRMLVVDPHVQRSGAGKATVEAIIHHAKSLAGIRAVALTTGKTWESAHGLYRKFGFQRVPERDWFVPGTDIKLLVYRLEV	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
D1-29_01465	384	yabJ	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	ATGCGCAAAACCTTCGGCACTGGCTCCGTCTGGGAACAGACCCTCGGCTACTCACGGGCAGTCCAGGTGGACAATACGCTGTACATTTCAGCCACGGCCGCCAGCGGTGAAGACGGCATCGTGGGCAACGACTTTTACACCCAGACCCAGTACATTCTGCAGAAGCTCGGGGCCGTGCTCGAAGATGCGGGTTTCAGCTTCGCTGACGTTGTCCAGTCCAAGCTGTACGTGACCGACATCAGCAAGTGGGAAGAGGCCGGGCGCGCCCACGGCGAAGTCTTCGGCGAGATCCGACCCACCCTTTCCCTGGTCCACGTGCTGCCGTTCCTGGACCCGAAGATGCTCGTGGAAATCGAGCTCGTAGCCCAGAAGAGCGCCAGCTAG	MRKTFGTGSVWEQTLGYSRAVQVDNTLYISATAASGEDGIVGNDFYTQTQYILQKLGAVLEDAGFSFADVVQSKLYVTDISKWEEAGRAHGEVFGEIRPTLSLVHVLPFLDPKMLVEIELVAQKSAS	PGPT0020030_1178	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
D1-29_01466	663	citT_2	COG4565	Transcriptional regulatory protein CitT	ATGCCTGAGGATTTCAGGGTGCTGATTGTGGACGACGACTTCCATGTGGCGAAGCTGCACGCGACCTATGTCGACTCGGTGGCGGGGTTCCTGGCCCTGTCGCCGGTAGGAACGGCGTCGCTCGCTTTGCAGGCCATCCACAGCCTCCGGCCGGACCTGGTGCTCCTGGACGTCTATTTGCCGGACGCGTCCGGGCTGGACCTGTTGCAGCAGCTTGATGTGGACACCATGATCCTGAGTGCGGCGTCGGACGCGGCCTCGCTCCGCAAGGCATTTCGCCGGGGCGCCCTGGGCTACCTGCTTAAGCCGTTCACGGCGGATTCGCTCTCCCAGCAGCTGCGCTCCTACGCCCGGTACCGCCGCATCCTGGGCCAGCCCGGGGTGCTGGACCAGGAATCGGTGGAGCGCGCCAAACGGGCATTGATTCCCGGCGAGGTGGCAGCATCGGCGAAACCGCGGTCAGCCACCGAGGCTGCCGTGCTCGAATCGCTGGTTCCCGGCGAGCAGTACTCGGCCGTGGATGTGGCCACGCGGGTGGGCGTTTCCCGGGCCACAGCGCAGCGGTACCTGTCGTCGCTGGCTGATGATGGCGCCGTCGACATCCAGCTGCGCTACGGAACCACAGGCAGGCCGGAGCACCGCTACGGCCTGCCTTCCTCTTAA	MPEDFRVLIVDDDFHVAKLHATYVDSVAGFLALSPVGTASLALQAIHSLRPDLVLLDVYLPDASGLDLLQQLDVDTMILSAASDAASLRKAFRRGALGYLLKPFTADSLSQQLRSYARYRRILGQPGVLDQESVERAKRALIPGEVAASAKPRSATEAAVLESLVPGEQYSAVDVATRVGVSRATAQRYLSSLADDGAVDIQLRYGTTGRPEHRYGLPSS				NA	NA	NA	NA	NA
D1-29_01467	1779	dcuS_2	COG3290	Sensor histidine kinase DcuS	ATGCAGCGTTCTGTGCCACGGCCGCCGCTGCGGTTCTCCACCCAGACCTTGCTCCTCCAACTGGGGGTTGTGCTGCTGGTGGCCCTCCTCAGCGCAGCCGTCCACGCCTGGCTGACGTACGACAGGGTGGGCCGCGAAGCCGAAAACCAGGCCCTGACGCTGGCACGCACCGTGGCGTCAGATCCTTCGGTGCGGGCGGATGTCCAGGCCATCAGCGAGCAGACAGGCACTCCCCCGCCCGCCGAGCTCAGGAACGGGCCGCTGATGGTGGAGGCGGAAAACGCCCGAATCCGCACCGGTGCCCTCTTTGTGGTCATCACCGACGAGACAGGCCTGCGGCTCGCCCACCCGGACCCTGACCGCCTGGGCGAAAAGGTCAGCACCGACCCCTCCGAAGCGCTCTCCGGCGAGGAAATCACCACCCGGAACACCGGGACCCTGGGTCCCTCGGCCGGCGCCAAAGTGCCTGTATATGCCCCGGGCACCGGCACCGTGGTGGGTGAAGTGAGCGTGGGCTACTCCATGGAGACAGTGGGCCAGAGCGTTGCCAGGGACATCGGGCCGGTAGCACTGACGGCGGCCGGCGCCCTGTTGGCGGGCGTGCTGGCATCGTTCCTGCTGCGGCGCCGGCTGCAGCGGCTCACGCTGGGCCTGGAGCCGGAAGAAATCAGCACCCTTGTCCACGATCAGGTGGCGGTGCTGCAGGGAGTGGACGACGGCGTCATCGGCATTTCGGCCGACGGCCGGATCAGCGTCTTCAATGCCGCAGCCCAACGGCTGCTTGGCCTGCCTGACCTTGCCGGGACGCTCTGGGAGGATGCACCGGTTCCGGCGCAGCTGAAGTCCCTGACCCGTCCGGCACCGGGCGGCGCCCAGGCCGAAACGGCCGAGGCGCTGGAACTTGTGGCGGCAGGACGGGTACTGGTGGCAAGCGCGCGCAAGGCCCTGCACCGGCGCGAAGACCTGGGCTGGGTGGTGATGCTTCGCGACCGCACCGAACTGCAGCACCTGACCCGGCAGCTCGACGCCGTGGGCACCATGTCTACTGCCCTGCGCGCCCAGCGCCACGAGTTCGCGAACCAGCTGCACACCCTCGCCGGTTTTATGGGCATGGGCCAGCACCAGCAAGCGCGGGAATACCTGGCCCGGCTTGCCGCTACGGGGCCGCTGAAGTTCCCTGTCGGCCAGGCCGAGCTGCTGCAGGACCCCTATCTGCAGGCCTTCGTCGGGGCGAAGGGCGTGGAAGCCGATGAACGCGGCGTCACCCTGCGGATCGGGCCGGAAACCCTGGTCCGCGGCCAGGTCATTGAGCCCCAGGATGTAACCACGGTGCTGGGCAACCTGATCGACAACGCGGTCAATGCAGCAGTGGCCGGCTCTTCAAAGGACCGCTGGGTTGAACTGGAGGTCCTGGATGAACCGGACGACGCCGGCGGGACCCTGCACATCGTCGTCGCGGATTCCGGCGACGGGCTGGGGGCCGGGGTAGATCCGGACATGGTGTTTGCGGAGGGCTTCACCACGGCTGCCGGCAGCGCAGGTCCCGTCCTGTCCAGCGGCGGCCACGGCCTGGGACTGGCCCTTGCGCGGCAGCTGGCCCGCCGCCGCGGCGGCGACGTCAAGGTGCTGGAACCCGGTTCCGACGGCGGACCGGGCGCAGTGTTTATGGCCACGCTGCCGCGAACAACCGCCGGCGCAGCCAAAGACTTCGCAGCCAAAGACCTCGCAGCCAAAGACCTCGCGGCCACGGATTTGGCAGGAAAGGACAACGATGCCTGA	MQRSVPRPPLRFSTQTLLLQLGVVLLVALLSAAVHAWLTYDRVGREAENQALTLARTVASDPSVRADVQAISEQTGTPPPAELRNGPLMVEAENARIRTGALFVVITDETGLRLAHPDPDRLGEKVSTDPSEALSGEEITTRNTGTLGPSAGAKVPVYAPGTGTVVGEVSVGYSMETVGQSVARDIGPVALTAAGALLAGVLASFLLRRRLQRLTLGLEPEEISTLVHDQVAVLQGVDDGVIGISADGRISVFNAAAQRLLGLPDLAGTLWEDAPVPAQLKSLTRPAPGGAQAETAEALELVAAGRVLVASARKALHRREDLGWVVMLRDRTELQHLTRQLDAVGTMSTALRAQRHEFANQLHTLAGFMGMGQHQQAREYLARLAATGPLKFPVGQAELLQDPYLQAFVGAKGVEADERGVTLRIGPETLVRGQVIEPQDVTTVLGNLIDNAVNAAVAGSSKDRWVELEVLDEPDDAGGTLHIVVADSGDGLGAGVDPDMVFAEGFTTAAGSAGPVLSSGGHGLGLALARQLARRRGGDVKVLEPGSDGGPGAVFMATLPRTTAGAAKDFAAKDLAAKDLAATDLAGKDNDA				NA	NA	NA	NA	NA
D1-29_01468	1473	citM	COG2851	Mg(2+)/citrate complex secondary transporter	GTGCTGGTATTACTTGGATTCGCCATGATCGCGGTATTCATGGTGCTGATCATGACGAAGAAGTTGACGCCAGTGCTGGCGCTGATCATCGTACCCACTGTTTTTGGACTGTTTGCGGGCGCCGGCCTGGGCATCGGGGACATGGTCCTGGACTCGATGAAGTCCATGACCTCCACCGCGGCCCTGCTGATGTTCGCCATCATCTATTTCGGCCTGATGATCGACGTCGGGCTGTTTGACCCGCTGGTGAAGTTCATCCTCCGCAAGCTGGGCAATGACCCCGCCAAGGTGGTGCTGGGCACTGCCATCCTGGCAGCTGCAGTATCCCTCGACGGGGACGGATCCACCACCTTCATCCTTACCACCGCAGCCATGCTGCCCATCTACCTCCGGCTGAAGATGAGCCCCGTGGTCCTCACCTGCGTGGCCGGCCTGGCTAACGGCACCATGAACATAGTGCCGTGGGGTGGCCCCACCGCCCGTGCCGCCACCGCCCTGAAGATCGACGTCAACGACGTTTTCGTCCCGATGATCCCGTCCCTCCTGGCCGGCGTCGCGGTGGTCCTCGCCTTCGCCTGGCTGCTCGGCCTGCAGGAGCGCAACCGCCTCCGCGCCACCCAGCCGGAGATCTGGGGCGTCCCCGAGACTTCCGAAGCGTTCGACGGCGGCACGCCGGCAGCTGGGAAAAGCACGCCGGGCCAGGGTCCACGGACTCCCGGAACCGGCACTCCCGCCGTCGCCAGCGACTTCCCGGGAGGTTCCTCGGTTGCCGTGCTGGAACGCACCGAAGACCTGGTGGATGACAGTGACACTGCCATGGCTGACACTGCCCTGGACCCCAACCGCAAGACTCTGCGTCCCAAGCTGCAGTGGTTCAACCTGGGCCTTACAATCGCCGTCATGGGCATGCTGATCGCCGACCTCGTGCCCCTGCCCTACGTCTTCATGGTGGGTTCGGCGATTGCCCTGCTGGTGAACTTCCCGCACGTGAAGGACCAGGCTGCGCAGATTGTGGCCCACGCACCCTCCGTTGTCGCGGTCGTCAGTATGGTCATGGCCGCCGCAGTCCTGACCGGCGTCCTCACCGGCACCGGCATGGTGGAAGCCATGTCCGCCTGGCTGGTACAGATCATTCCCACCTCTATGGGCCCGCTCCTGGCTGTCATCACCGGTGTCCTGAGCATCCCCATGACGTTCTTCATGAGCAACGACGCCTTTTACTTCGGAGTGCTTCCCGTCCTAAGCGAGACGGCCGGCCACTACGGCATCAGTGCCGCCGAAATGGCCCGCGCCTCCATCACCGGCCAGCCGTTCCACATGCAGAGCCCGTTGGTGCCGGCCATCCTGCTGCTGGTTTCACTCGCCAAAGTGGACCTGGGCGACCACCACAAGAAGGTCCTGTGGCGCAGCGCCGTGGTGTCCCTGGTCATGCTCGGAGTGGGCATGCTGACCGGAGCCATCGGTATCGGCTAG	MLVLLGFAMIAVFMVLIMTKKLTPVLALIIVPTVFGLFAGAGLGIGDMVLDSMKSMTSTAALLMFAIIYFGLMIDVGLFDPLVKFILRKLGNDPAKVVLGTAILAAAVSLDGDGSTTFILTTAAMLPIYLRLKMSPVVLTCVAGLANGTMNIVPWGGPTARAATALKIDVNDVFVPMIPSLLAGVAVVLAFAWLLGLQERNRLRATQPEIWGVPETSEAFDGGTPAAGKSTPGQGPRTPGTGTPAVASDFPGGSSVAVLERTEDLVDDSDTAMADTALDPNRKTLRPKLQWFNLGLTIAVMGMLIADLVPLPYVFMVGSAIALLVNFPHVKDQAAQIVAHAPSVVAVVSMVMAAAVLTGVLTGTGMVEAMSAWLVQIIPTSMGPLLAVITGVLSIPMTFFMSNDAFYFGVLPVLSETAGHYGISAAEMARASITGQPFHMQSPLVPAILLLVSLAKVDLGDHHKKVLWRSAVVSLVMLGVGMLTGAIGIG	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
D1-29_01469	297	gatC	COG0721	Glutamyl-tRNA(Gln) amidotransferase subunit C	ATGGCTGCGATCAACCGTGACGACGTCGCGCACCTCGCGCGGCTCGCTCACATCGAGATGAATGCTGACGAGCTGGACAGGATGGCCGGCGAGCTCGCCGTCATCGTTGATGCCATCAAATCCGTCAGTGAAGCCGCCGGGGACGATGTCCCGGCGACGTCCCACCCGATTCCGCTGAACAACGTGTTCCGCGACGACGTGGTGGGCCACACCTTCACTGCGGAACAGGCAGTCTCGGGGGCGCCGGATTCCGATGAGAACCGTTTCAAGGTCCCCGCAATCCTGGATGAGGACTAA	MAAINRDDVAHLARLAHIEMNADELDRMAGELAVIVDAIKSVSEAAGDDVPATSHPIPLNNVFRDDVVGHTFTAEQAVSGAPDSDENRFKVPAILDED	PGPT0023460_1638	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
D1-29_01470	1620	gatA	COG0154	Glutamyl-tRNA(Gln) amidotransferase subunit A	ATGACTGAACAAAACTCCGCCGGCTCCAGCAGTTCAAACGGCGCGGACAGCCTGATCCGTTCCTCCGCCGCGCAGCTCGCCGCCAGGTTGGCCGCCCGCGAGGTCTCCGCCGTCGAGGTTACCCAGGCGCACCTGGACCGGATCGCCGCCGTGGACGGCGGCGAACGCGGCGTGCACGCCTTCCTCCACGTCAACACCGAGGAAGCACTCTCCGTGGCAGCCGAGGTTGACGTCATCCGTTCCGCCGGCGGCGCTGCTGCCGACGAGCTCCACGAGCTCGCGGGCGTCCCCATCGCGGTCAAGGACCTCATTGTGACCGTCGGCCAGCCCACCACGGCGGGTTCCAGGATCCTGGAGGGCTGGCACAGCCCCTACGACGCCACAGTGGTCAAGCGCCTGCGCGCAGCCAGGATGCCCATCCTGGGCAAGACCAACCTGGATGAATTCGCCATGGGCTCCTCCACCGAGCACTCCGCCTTTGGACCTACCCGGAACCCCTGGGACCTGGACCGGATCCCGGGCGGTTCCGGCGGCGGTTCCGCTGCTGCAGTGGCCGCGTTCGAGGCACCGCTGGCCCTGGGCACGGACACCGGCGGCTCCATCCGCCAGCCGGGTGCAGTCACCGGCACCGTGGGCGTCAAACCCACGTACGGCGGGGTTTCCCGCTACGGCGCCATCGCCATGGCTTCCTCGCTGGACCAGATCGGGCCGGTTTCGCGCACGGTCCTGGACTCTGCGCTGCTGCACCAGGTCATCGGCGGGCACGATCCGTTCGACTCCACCTCGCTGCCGGACCCCCTTGCCGACCTTGTGGCTGCCGCCAGGATCGGCAACGTCGAAGGCCTGCGGATTGGCATCATCAAGGAACTCCACGGCGAGGGCTACCAGGCCGGCGTCGAAAACCGCTTCCACGACTCGCTGGAGCTCCTCAAGGAGGCCGGAGCGCAGATCGTTGAGGTCTCCTGCCCCAACTTCAAGTACGCCCTGGGGGCCTACTACCTGATCATGCCGTCCGAGGCCTCCTCCAACCTGGCCAAGTTCGACGGCGTCCGGTACGGCCTCCGCGTCCTGCCCGAGGACGCACCCATGACCATCGAACGCGTGATGGGGGCCACCCGCGCCGCGGGCTTCGGCGACGAGGTCAAGCGCCGCATCATCCTGGGCACCTACGCCCTGAGCGCCGGCTACTACGACGCCTATTACGGCTCCGCCCAGAAGGTGCGCACTCTGGTGCAGCGCGACTTTGACGCAGCCTTCACCGTGGCCGACGTCCTGATCTCGCCCACGGCGCCCACCACGGCATTCAGGCTCGGGGAGAAGCTGGATGACCCGCTGGCCATGTACCTCAACGACGTCGCCACCATCCCGGCCAACCTCGCCGGTGTTCCGGGACTGTCCCTGCCCGGCGGTCTGGCCGACGAGGACGGACTGCCCGTGGGCATCCAGCTGCTGGCCCCGGCCCGGGAGGACGCCCGCCTGTACCGCGTCGGCGCGGTCCTGGAGTCACTGCTCGAAGCGAAGTGGGGCGGCCCGCTCCTGGACCGTGCACCCTCACTCACGGCCAACTCACTTACCGTTTCCGCGGCTGGCGCCGTTCCGAGCCATGGAGGTTCACTCTGA	MTEQNSAGSSSSNGADSLIRSSAAQLAARLAAREVSAVEVTQAHLDRIAAVDGGERGVHAFLHVNTEEALSVAAEVDVIRSAGGAAADELHELAGVPIAVKDLIVTVGQPTTAGSRILEGWHSPYDATVVKRLRAARMPILGKTNLDEFAMGSSTEHSAFGPTRNPWDLDRIPGGSGGGSAAAVAAFEAPLALGTDTGGSIRQPGAVTGTVGVKPTYGGVSRYGAIAMASSLDQIGPVSRTVLDSALLHQVIGGHDPFDSTSLPDPLADLVAAARIGNVEGLRIGIIKELHGEGYQAGVENRFHDSLELLKEAGAQIVEVSCPNFKYALGAYYLIMPSEASSNLAKFDGVRYGLRVLPEDAPMTIERVMGATRAAGFGDEVKRRIILGTYALSAGYYDAYYGSAQKVRTLVQRDFDAAFTVADVLISPTAPTTAFRLGEKLDDPLAMYLNDVATIPANLAGVPGLSLPGGLADEDGLPVGIQLLAPAREDARLYRVGAVLESLLEAKWGGPLLDRAPSLTANSLTVSAAGAVPSHGGSL	PGPT0001010_1	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_ATRAZINE|DERIVATE_DEGRADATION	XENOBIOTIC_CYANURIC_ACID_DEGRADATION,PGPT0001010-atzF-K01457	NA	NA
D1-29_01471	1506	gatB	COG0064	Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B	ATGACTGACGCAATCCTGACCTTCGAAGAGGCCATGGAGAAGTACGATCCCGTGCTGGGGTTCGAGGTCCACGTGGAGCTCAACACCAAGAGCAAAATGTTCTCCTCGGCGCCCAACGTCTTTGGCGATGAGCCCAACACCAATGTCAACGAAGTGGACCTTGGCATGCCCGGCGTGCTGCCGGTGCTGAACAGGACCGCGGTGGAGTCCTCCATCAAGATCGGCCTGGCGCTCAACTGCAAGATCGCCGAGAACTGCCGGTTTGCGCGGAAGAACTACTTCTATCCGGACACGCCCAAGAACTTCCAGACCTCCCAGTACGACGAACCCATCGCCTACGACGGGTACCTGGACATCGAACTGTCGGACGGCACCGTTTTCCGGGTGGAGATCGAGCGTGCCCACATGGAGGAGGACGCCGGCAAGCTGACCCACATGGGCGGGGCCACCGGCCGCATCCAGGGCGCCGACTTCTCCCTGGTGGACTACAACCGCGCCGGCGTTCCGCTGGTGGAAATCGTGACCAAGCCGATCGAGGGAGCCGGTTCCAGGGCACCGGAACTGGCGAAGGCCTACGTGGCCGCCGTCCGCGAGATCGTCAAGAACCTCGGAGTTTCCGACGCCCGCATGGAGCGCGGAAATGTCCGTTGCGACGCCAACGTGTCGCTGCGGCCCCACGGCCGTGAACGCTTCGGCATCCGTTCTGAAACCAAGAACGTCAACTCGCTGCGCGCCGTCGAACACGCCGTCCGCTACGAAATCCAGCGGCACGCCGCCGTTCTTGATTCCGGCATCCCCGTGGTCCAGGAGACCCGGCACTGGCACGAGGACACCCGCACCACCACCTCGGGACGGCCGAAGTCCGACGCCGATGACTATCGCTACTTCCCGGAACCTGACCTGGTGCCGGTGGTTGCATCGCGTGAATGGGTCGAGGAACTTCGGGCCACCCTGCCCGAGCCGCCCGCCGCCCGCCGGAAACGGCTTCAGGCCGACTGGGGGTACTCGGACCTCGAGTTCCGCGACGTGGTCAACGCCGGCGTCCTGGTCGAGATCGAGGAAACCATTGCCGCCGGAGCCTCTGCCTCCGTGGCGCGGAAGTGGTGGATGGGCGAGATTGTGGGCCGCGCCAAGAACGCCGACGTCGATCCCGGCCAGCTGGGCGTCCAGCCGGCCACCATCGTGGAGCTGGCCAAGATGGTGGAAAAGGGCAAGATCAACAACAAGATGGCCACCGAGGTGCTGGACGGCGTCCTCGCCGGCGAAGGGACCCCGGCGGAAATCGTGGAGAAGCGCGGCCTTGCCGTGGTTTCGGACGATGGACCATTGCTGGAGGCCATCGATGCCGCCCTGGCCGCGCAGCCTGACATTGCGGACAAGATCCGCAACGGAAAGCTCCAGGCCGTCGGGGCTATCGTGGGCGGCGTGATGAAGGCAACCCGCGGGCAGGCCGACGCCGGACGGGTCAAGGAACTGATACTCGAAAAGCTCGGCGTCAACGCCTGA	MTDAILTFEEAMEKYDPVLGFEVHVELNTKSKMFSSAPNVFGDEPNTNVNEVDLGMPGVLPVLNRTAVESSIKIGLALNCKIAENCRFARKNYFYPDTPKNFQTSQYDEPIAYDGYLDIELSDGTVFRVEIERAHMEEDAGKLTHMGGATGRIQGADFSLVDYNRAGVPLVEIVTKPIEGAGSRAPELAKAYVAAVREIVKNLGVSDARMERGNVRCDANVSLRPHGRERFGIRSETKNVNSLRAVEHAVRYEIQRHAAVLDSGIPVVQETRHWHEDTRTTTSGRPKSDADDYRYFPEPDLVPVVASREWVEELRATLPEPPAARRKRLQADWGYSDLEFRDVVNAGVLVEIEETIAAGASASVARKWWMGEIVGRAKNADVDPGQLGVQPATIVELAKMVEKGKINNKMATEVLDGVLAGEGTPAEIVEKRGLAVVSDDGPLLEAIDAALAAQPDIADKIRNGKLQAVGAIVGGVMKATRGQADAGRVKELILEKLGVNA				NA	NA	NA	NA	NA
D1-29_01472	636			hypothetical protein	ATGTCTTTCCGTAAACCCCTGAGAATCCGCAAGGCGCTGCTGGCCGGGGTGGTGGCTTTGGCTCTGACCGGGACGGGAGCAGCACTCACCTGGGCAGCCTCGGACGAACCGTCCGGCACGCCGTCGGAATCCGCTCAGGGACAAGGCAAGAACAAGGCAGACAAGGCAGACAAGCCGGCCAAGGCCGGGAAAGGCCCCAAGGCTGACAAGGCCAACCGTCCGCAGGAACTGCACAGCGAGAGCGTGGTCAAGAAGGGCGACGGCACGTTCGAGGCGCAGGTGAGCCAGCGGGGCACGGTTGAGGCCGTGACTGAATCCTCGGTCACGGTCAAAAGTGAGGACGGCTTCACCCAAAACTACGCCGTGAACGCGGAGACCCGGATCATCAAGATCCCGGCTCCGGCAGCGGACGGCAGCCCGGCCAAGGGCCGGGATGGCAAGCGGCTGAAGCCCTCAGACGTCCCCATCTCCGAAATTGCTGTTGGTGAAGCCGTCAGGGTTTCCGGAGTCAGGACAGGCAATGACGTTACTGCCCACCAAGTGGTGGAGGGCGCAGGAACGGGACCCGGCAACGGATTGGGGCTGGGCAGGGGACAGGGCAGAGGCCTGGACAAGGGTGCATCCCCAAGTAAGTAG	MSFRKPLRIRKALLAGVVALALTGTGAALTWAASDEPSGTPSESAQGQGKNKADKADKPAKAGKGPKADKANRPQELHSESVVKKGDGTFEAQVSQRGTVEAVTESSVTVKSEDGFTQNYAVNAETRIIKIPAPAADGSPAKGRDGKRLKPSDVPISEIAVGEAVRVSGVRTGNDVTAHQVVEGAGTGPGNGLGLGRGQGRGLDKGASPSK				NA	NA	NA	NA	NA
D1-29_01473	1017			hypothetical protein	ATGTTGCCTGTCTCATTACAGCGAGGAAAAAACATTAGCACAACAGTTATCTTCTCAATCGACGATGTAGTGATTGCTAATGCATACAATGGCCTGATGGAAATTCATCAGCTGGAGATCCTTCGGGAACTCGGAGCACTCGGCAGCGTCAAGGCCGTGGCGGAGACCCTGATGGTCACGCCTTCCGCTGTGTCCCAGCAGCTGGCCCTGCTGCAGCGGAGCGTGGAGGTGCCGCTGACCAGGAAGGAAGGCCGGAACCTGGTGCTGACGGAGGCCGGGCAGGTACTCGCCGACGCCGGGGCCGCCGTGGTCAGCGCCATGGCGGACGCGAGAACCGCCATTGGCGCGTATCACGGTTCCTCAGTGGCCCCCGTGACCATCAGCGGCTTCCACAGCGCCGGGCAGGCACTGTTTGCTCCACTTGCCGGCATGCTTGATGAACCGGGACAGCCGCGGATCCAGCTTTCGGACGAAGACGTGGCGCAGCACGACTTTCCTGCCCTCACCGCGCGTTACGACCTTGTGCTTGCCCACCGGATGGACCACAGTCCCGGCTGGCCGGTGGAAAGGGTGGCCGTGATTCCGCTCGCCCATGAGCCGCTGGATGTGGCACTTCCGGCGGGCCACCATTTGGCCGGACAGGCCAGGGTCACGGCGGACGACGTCGTGGGCGAACCCTGGGTGACCAGCCACGCCGGCTACTCCCCCGCGGACGTGCTGTCCGCCGTCGCTGCCGTCGCCAGCAGGGAACTGAACATTGTCCACCGGATCAACGACTACTCCACCGTGGCCGCCCTGGTGGCGGCGGGCGGGGTGGTGGGCCTGCTGCCGCGGTACACGGCCCGCCCCGTGCTCAACCCGGACATTGTGCTGAGGCCCCTTGAAGGCATCAGCACGCGGCGGCGGATCGACATCCTGGCCCGCCCGGAGAACCTGAAACGCCGGTCCGTGATGATCGTCTGCGAGGCGCTCCAGGCGATCATGACAGGACTGGTGGAGCACCCCCGGCCCAACTGA	MLPVSLQRGKNISTTVIFSIDDVVIANAYNGLMEIHQLEILRELGALGSVKAVAETLMVTPSAVSQQLALLQRSVEVPLTRKEGRNLVLTEAGQVLADAGAAVVSAMADARTAIGAYHGSSVAPVTISGFHSAGQALFAPLAGMLDEPGQPRIQLSDEDVAQHDFPALTARYDLVLAHRMDHSPGWPVERVAVIPLAHEPLDVALPAGHHLAGQARVTADDVVGEPWVTSHAGYSPADVLSAVAAVASRELNIVHRINDYSTVAALVAAGGVVGLLPRYTARPVLNPDIVLRPLEGISTRRRIDILARPENLKRRSVMIVCEALQAIMTGLVEHPRPN				NA	NA	NA	NA	NA
D1-29_01474	1047	tdh_2	COG1063	L-threonine 3-dehydrogenase	ATGAAGGCTCTGTACAAGGCCGGACCCCAGGCCGGGTTCGAACTGGTGGACCGGCCTGAACCGGAAGCCGGCCCGGACGAGGTCAAGATCCGGGTCATCACCACGGGCATCTGCGGCACGGACCTGCACATCCAGGCCTGGGACGCCTGGGCCCAGGGCATCATTGAGGCACCCCTCATCCCCGGCCACGAGTTCTATGGCGAAGTAGTGGAGATCGGCGCCGACGTCCGTGACGTCAAGGTGGGCGACAGGGTGTCCGGCGAAGGCCATGTAGTCTGCGGAATCTGCCGCAATTGCCGGGCCGGCCGGAGGCAGATGTGCATCCACACAGTCAGCGTAGGTGTTCAGCGCGACGGTGCCTTCGCCGAGTTCGTCGTGATTCCGGAAACCAACGCCTGGGTCCACCACGATCCCTCGGTCACGCCGGAACTGGGCGCCATCTTCGACCCCTTCGGCAACGCCGTCCACACCGCCCTGAGCTTCCCCCTGGTGGGGGAGGACGTCCTCATTACCGGTGCAGGCCCGATCGGGCTGATGGCCATTGCAGTGGCCCGGCACGCCGGTGCCCGGAAGATCGCCATCACCGATGTCTCCCAGCCGCGCCTGGACCTTGCCCGCCACATGGGGGTGGACCTGGCCATCGACGTCTCCACCACCAGGATCAGGAACGCCCAGCAGGAACTTGGCATGCGCGAAGGCTTTGACATCGGCATGGAAATGTCCGGCCACCCCACCGCGCTTCCTGAGATGATCGACAACATGAACCATGGCGGCCGCATTGCCATGCTGGGGCTGCCCAGCCAGGGCATCACCATCGACTGGGGCAAGGTAGTGACGCACATGCTCACGCTGAAGGGCATCTACGGCCGCGAGATGTTCGAAACCTGGTACGCCATGAGCGCCATGCTGTCCTCCAACCCGGTGCTCCACGCCGCCATTTCGGCCGTGGTAACGGACAGGCTTCCTGCCCAGGAGTGGGAAAAAGGCTTTGATATTGCCCGCGCCGGCGTCGGCGGCAAAGTTGTCCTCGACTGGACCGAACTCTAA	MKALYKAGPQAGFELVDRPEPEAGPDEVKIRVITTGICGTDLHIQAWDAWAQGIIEAPLIPGHEFYGEVVEIGADVRDVKVGDRVSGEGHVVCGICRNCRAGRRQMCIHTVSVGVQRDGAFAEFVVIPETNAWVHHDPSVTPELGAIFDPFGNAVHTALSFPLVGEDVLITGAGPIGLMAIAVARHAGARKIAITDVSQPRLDLARHMGVDLAIDVSTTRIRNAQQELGMREGFDIGMEMSGHPTALPEMIDNMNHGGRIAMLGLPSQGITIDWGKVVTHMLTLKGIYGREMFETWYAMSAMLSSNPVLHAAISAVVTDRLPAQEWEKGFDIARAGVGGKVVLDWTEL	PGPT0020460_221	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_THREONINE_DEGRADATION,PGPT0020460-tdh-K00060	NA	NA
D1-29_01475	1197	kbl	COG0156	2-amino-3-ketobutyrate coenzyme A ligase	ATGTACACCTCGATCAAGGACCAGCTGCAGACTGAGCTGGAGGAGATCCGCACAGCGGGACTCTTCAAGACCGAACGAAGCATCAACTCACCGCAGTCCAGCCACATCACGGCAGGACAGGTGGGCCAGCCGGGGGCCGGCGTCCTGAACTTCTGCGCCAACAACTACCTTGGCCTGGCCGACCACCCCGACATCATTGCGGCCGCGAAGACCGCCATGGACAGCCGGGGCTTCGGGATGGCCAGTGTCCGCTTCATCTGCGGCACCCAGGACCTGCATCTGGAACTGGAAGCCCGGGTCTCCAGCTTCCTCGGCACCGAGGGCACCATCCTGTTCTCCAGCTGCTTCGACGCCAACGGCGGGGTCTTCGAGTCCCTGTTCGGTGCCGACGACGCCATCATCTCCGATGCCCTGAACCACGCGTCCATCATCGACGGCATCCGCCTGTGCAAGGCGCAGCGGTACCGCTACGCAAACCAGGACATGGCGGATCTGGAGGCCAAGCTCCTGGAAGCCAAGGATGCCAGGCGCAAGATCATCGTGACCGACGGCGTGTTCTCCATGGACGGCTACCTGGCGCCGCTGGAAGCCATCTGCGACCTCGCGGAGAAACACGATGCTCTGGTCATGGTTGACGATTCCCACGCCGTCGGCTTTATGGGCGCCACCGGCGCCGGGACCCCCGAGCACGCCGGCGTATCCCACCGTGTGGACATCTACACCGGAACGTTCGGCAAGGCGCTCGGAGGGGCCTCGGGCGGCTACGTTTCCGGCCGCCGCGAAGTAGTGGCAATGCTTCGCCAGAAAGCGCGCCCCTACCTCTTCTCCAACTCGCTGGCCCCCGCCATCGTGGCGGCCACGATCAAGGCGCTGGACCTCGTGGTGAACTCGGGCGAGCTGCGCACCAGGTTGTTCGAAAACGCCGGACTGTTCCGCCGCCGGATGACGGAGGAGGGCTTCGAACTGCTGGACGGCGAACATGCAATTGTTCCGGTCATGTTCGGGGATGCCGTGCTGGCCGCCAAAGTGGCGGACCAGATGCTGCAGCATGGCGTCTTTGTGACCGCCTTCAGCTTTCCCGTGGTTCCCCGCGGTGCCGCCCGTATCAGGGTCCAGCTTTCGGCGTCCCACTCGACGGACGACGTCGAAGCCTGCGTGCGTGCCTTCGTCGCCAGCCGTGCCGCGGTAGCCGCTTAG	MYTSIKDQLQTELEEIRTAGLFKTERSINSPQSSHITAGQVGQPGAGVLNFCANNYLGLADHPDIIAAAKTAMDSRGFGMASVRFICGTQDLHLELEARVSSFLGTEGTILFSSCFDANGGVFESLFGADDAIISDALNHASIIDGIRLCKAQRYRYANQDMADLEAKLLEAKDARRKIIVTDGVFSMDGYLAPLEAICDLAEKHDALVMVDDSHAVGFMGATGAGTPEHAGVSHRVDIYTGTFGKALGGASGGYVSGRREVVAMLRQKARPYLFSNSLAPAIVAATIKALDLVVNSGELRTRLFENAGLFRRRMTEEGFELLDGEHAIVPVMFGDAVLAAKVADQMLQHGVFVTAFSFPVVPRGAARIRVQLSASHSTDDVEACVRAFVASRAAVAA	PGPT0020495_1384	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020495-kbl-K00639	NA	NA
D1-29_01476	1107	dauA_2		FAD-dependent catabolic D-arginine dehydrogenase DauA	ATGACAGCACAGTACGATGTCCTGATTGTGGGCGGCGGGATCGCCGGCCTGTCCCTTGCCTCGGCGCTCGCCGGCAAATGCAGCGTGGCACTGGTGGAAGCCGAGCAGGAACTGGCCTACCACACGTCCTCCCGCTCCGCCCGGAATCTGATTCCCAGCTACGGCCCTGCCGTGGTCCAGGAACTCACAGTCCGGACCCTGGAGCTGATGGCGGCCCGGGACAGTGAACTGCCTGAGCGCGTCCTGGCGCCCAGCAGTTTTATGCTCATCGGCAGCGAGGACAGCGTCAGGGCAGAGGCCAGCGGCCACATGCAGCCCATCCCGCATGCAAAAGCCCTGGAGCTTTGCCCCGCCCTGGCTCCGGACTCCTTCACGGCCGCCGGCCTGGATACCGGAGCCTTCGCCTGCAATGCGCCCCTGCTGCTGGCCGATCACCGACAGCGTGCCGAGGATGCCGGAGTCGACATCATCACGGGCGCCAGGGTGCACTCGGCCCAGCGACTGGGCTCCGGCTGGGAGATTGGTGCAGGGCAGGAAGCGTTCCAGGCCGGGGTTCTGGTCAATGCTGCAGGCGCCTGGGCGGATGAGCTGGCGGTGATCAGCGGCGTGGAAAAGCTCGGCCTGCAGCCGTACCGGCGCACCGCTGCGATAGTCGACGTCGAACACCCGCTTCCGGAGGCTTGTCCCATGGTGGCGGCAGCGGACAGCTCCTTCTACTTCCGCCGGGACGGCAGCGATGTCCTGGTCTCGCCGTCCGAGAAGGTGCCCAGCGGGCCGGAGGACTCCAAGCCCCGCCCCGGGGATGTGGAGCGGCTGATCGCCAGGCTCAACCAGGTGACCACGCTGGGGATCCGCGGTGTGCGGAGGGCCTGGACCGGGCTGCGGACCGAAGCGGCGGACGGCATCCCGGTGGCGGGATTCGATGCGGAGGCGCGGGGGTTCTACTGGCTGGCCGGGCAGGGCGGCTACGGCTTCCAGACGTCGTCGGCCATGGCGGAGCTTGCGGCGGAGCAGATCCTGGCCGGCCAGGGACCAGACGGGACGAACAGTCCGGCATCCCGGACAGCGCAGGCGCTTGCCGCCACCCGCTGGTCCATCCGGCGCTGA	MTAQYDVLIVGGGIAGLSLASALAGKCSVALVEAEQELAYHTSSRSARNLIPSYGPAVVQELTVRTLELMAARDSELPERVLAPSSFMLIGSEDSVRAEASGHMQPIPHAKALELCPALAPDSFTAAGLDTGAFACNAPLLLADHRQRAEDAGVDIITGARVHSAQRLGSGWEIGAGQEAFQAGVLVNAAGAWADELAVISGVEKLGLQPYRRTAAIVDVEHPLPEACPMVAAADSSFYFRRDGSDVLVSPSEKVPSGPEDSKPRPGDVERLIARLNQVTTLGIRGVRRAWTGLRTEAADGIPVAGFDAEARGFYWLAGQGGYGFQTSSAMAELAAEQILAGQGPDGTNSPASRTAQALAATRWSIRR	PGPT0020092_322	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020092-dauA-K19746	NA	NA
D1-29_01477	1212	hutI_1	COG1228	Imidazolonepropionase	ATGAGCACCCTGATCACCAACATCGCCGAGCTGATGACCCAGGACCTGGAACACCGGGTCCTCAAGGACGCCGCCGTGGTGATCGACGGCGAACGCATCGAATGGATCGGCGCCGCTTCGTCCGCGCCCGCGGCGGATGAGGCCGTTGATGCAGGCGGCCGGGCGCTGCTCCCCGGCTGGGTGGATTCCCACACGCATATGGTGTTCGCGGGCGACCGGACTGCCGAGTTCGAGGCCCGCATGGCGGGGGAGGCGTACTCGGCCGGAGGCATCGCGGTGACCAGGGACGCGACCCGGCGCGCGTCGGATTTTGACCTCACCCGGCTGGCCATGGGGCGCGTGGCTGAGGCCGTCTCCCAGGGCAGCACCTACTTTGAGACCAAAACGGGCTACGGGCTGGACATCGAGCACGAGGCCCGGAGCGCCAGGGTGGCCTCCACCGTGGCCGATGAAGCGACCTACCTTGGAGCCCATCTGGTCCCGGCCGGCATGGAGGCCGACGAGTACACGAAGCTGGTCTGCGGGCCGATGCTGGAAGCGGTCCGCCCGTACGTCCGCTGGGCGGATGTGTTCTGCGAAGAGGGTGCCTTCACCGCCACGCAGTCCCGTGAGGTGCTGCAGGCCTGCCGGGACGCCGGCCTGGGCCTGCGCGTCCATGGAAACCAGTTGGGCGAAGGACCCGGCGTCCAGCTTGCCGTGGAGTTTGAAGCGGCCAGCGTGGACCACGTGAACTATCTGTCGGATGCCGACATCGCGGCGCTGGCCGGAACCTGGTCCGGCTGGGACGCCGGCCAAGGCAGCGGAAACCGGGGCACGGTGGCAACGTGCCTTCCCGCCTGCGATCTGTCCACCCGGCAGCCACTTGCCCCCGGGCGGCAGCTCCTGGATGCGGGAGTCCAGCTGGCGCTGGCCTCCAACTGTAACCCGGGGACCTCGTACACCAGTTCCATGGCGTTTTGTGTGGCCACCGCCGTGCTTCAGATGAAGCTGACAGTTCATGAGGCGGTCAGAGCCGCCACCTACGGCGGGGCGCTTGCGCTGCACCGGGACACCGGGAACGACGCCGACGGCGAGCGGGCGGTGGGCTCCATTGCGGTAGGACACAGGGCTGACCTGCACCTGCTGAACGCGCCTTCCGCCACCCACCTCGCCTACCGTCCGGGCATGCCGCTCACGTACGCTGTATGGCGGGCAGGAATCCGGCAACGTTAA	MSTLITNIAELMTQDLEHRVLKDAAVVIDGERIEWIGAASSAPAADEAVDAGGRALLPGWVDSHTHMVFAGDRTAEFEARMAGEAYSAGGIAVTRDATRRASDFDLTRLAMGRVAEAVSQGSTYFETKTGYGLDIEHEARSARVASTVADEATYLGAHLVPAGMEADEYTKLVCGPMLEAVRPYVRWADVFCEEGAFTATQSREVLQACRDAGLGLRVHGNQLGEGPGVQLAVEFEAASVDHVNYLSDADIAALAGTWSGWDAGQGSGNRGTVATCLPACDLSTRQPLAPGRQLLDAGVQLALASNCNPGTSYTSSMAFCVATAVLQMKLTVHEAVRAATYGGALALHRDTGNDADGERAVGSIAVGHRADLHLLNAPSATHLAYRPGMPLTYAVWRAGIRQR	PGPT0020235_1953	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020235-hutI-K01468	NA	NA
D1-29_01478	795	glpR_2	COG1349	Glycerol-3-phosphate regulon repressor	ATGACCCGCAACGACAGACTGACCGCCATTCTGGACCTCCTTGCCGAGACCGGGCAAGTGGAGGTGGACGAAATTGTTGCCAAGCTTGGGGTTTCGCCCGCCACCGTCAGGCGGGACCTGGACAGCCTGGCCAAGCGGAGGCTCCTGACACGGACCAGGGGCGGAGCCACCACGGGCGCCCTCGCCTACGATCTTCCTGGCAGATATAACCGGGACGACCACGCACAGGCCAAGGAAGAAATCGCCCAGGCGGCCTCGGCCCTGATCAGCCCCGGTGCCGTGATCGGGCTCTGTGGCGGCACCACCAGCACGGCGCTGGCCCAGATCCTGGCAACCCGCGAAGACCTCAACGCTCCGTCGAACCAGCCCACCCTGACGGTGGTCACCAACGCCATCAATATCGCGGCGCAACTGGCCGTCCGGCCCAACATCAAGGTTATGGTGACCGGCGGCATCCTCAACCCGCGTTCCTACGAACTGGTGGGACCTTACACGGACATCATCATGCAGAAGGTGGTCCTGAACATCGCCTTCATCGGCGTCAACGGCATCGACCCCGTGGTGGGACCCACCAACACCGGCGAGGCCGAAGCGTCCGTCAACGCGCTCCTGGCCAGCAGGGCCCGGGTGTCCTACGTGCTGGCCGATTCCTCCAAGGTGGGCGTGCGCGCCTTCGCCACCATGGACGGCTACGAGTTCACCCGGCTTATCACCGATGCCGGTATTTCAGCCGAGGACAAAGCGGCCTTTGAGGCCACCGGCACGGAAGTCATTGTTGCGCCGCAACTCGCCTAG	MTRNDRLTAILDLLAETGQVEVDEIVAKLGVSPATVRRDLDSLAKRRLLTRTRGGATTGALAYDLPGRYNRDDHAQAKEEIAQAASALISPGAVIGLCGGTTSTALAQILATREDLNAPSNQPTLTVVTNAINIAAQLAVRPNIKVMVTGGILNPRSYELVGPYTDIIMQKVVLNIAFIGVNGIDPVVGPTNTGEAEASVNALLASRARVSYVLADSSKVGVRAFATMDGYEFTRLITDAGISAEDKAAFEATGTEVIVAPQLA	PGPT0017955_330	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TAGATOSE_DEGRADATION,PGPT0017955-agaR-K02081	NA	NA
D1-29_01479	657	gpmA_2		2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	ATGATCCGGCACGGCCAGTCTGCAGCCAACGCCGATACCTCGATCTACAACAGGGTCCCGGACTATCGGATTCCCCTGACCACCCTGGGTGTGGAGCAGGCGAGGGCAGCCGGCGAGCAGATCCGGGATGAGCTGGACGGCCGCCAGGTCTGCGTCTACGTCTCGCCCTACCTGAGGGCCCATCAGACCCTCGAGGCCCTCAACCTCGGAAGCCTCACGGAGCGGGTGATCGAGGAGCCGCGGCTGCGCGAGCAGGACTGGGCCAACTTCCAGATCAGCGGCGATATTGAAGACCAGAAGGAACTCCGCAACGCTTACGGCCATTTCTTCTACCGTTTCCGCGAAGGCGAATCCGGCTCGGACGTCTACGACCGGATTTCCTCGTTTATGGAAACGCTTTACCGCCACTGGTCCAAGCCGGACTATGCGCCCAATACCCTGCTGGTGACGCACGGGCTCACCATGCGCCTGTTCTGCATGCGGTGGTTCCACTGGTCAGTGGAGTACTTCGAGTCCCTCAACAACCCGGGCAACGCGGCGGTGCGGACGCTGGTGCGGACCGACCTGGACAAGTACGAACTCGACATCCCGTTCAGCCAGTGGGTGGACCGCAGGGTGGACGAGACGGTGCTGGACGCTCCGCCGGTCATCTTTTAG	MIRHGQSAANADTSIYNRVPDYRIPLTTLGVEQARAAGEQIRDELDGRQVCVYVSPYLRAHQTLEALNLGSLTERVIEEPRLREQDWANFQISGDIEDQKELRNAYGHFFYRFREGESGSDVYDRISSFMETLYRHWSKPDYAPNTLLVTHGLTMRLFCMRWFHWSVEYFESLNNPGNAAVRTLVRTDLDKYELDIPFSQWVDRRVDETVLDAPPVIF				NA	NA	NA	NA	NA
D1-29_01480	780			hypothetical protein	ATGTTGGTTCCCTCCCGCCGTCGGCTGCGCCTTGAAGTCTGGATCGTCTTGGGGCTGTCCCTGGGCCAGTCCGCCGTCTACTCCGTGGTCCAGCTGCTGGATAAGATGACGCGCGCCCCGCTGGCGGAAGGCACCTCAACGCTCAACCGCTCGCAGAGCACCCGCGAATACTTCGATCTCACCTACCAGTTGCTGGACATCGTCTTCGCGCTGGTGCCGGTCCTGCTGGTGATCTACTTCCTGTCCGACCAGCGGCAACCGGGGGCGGGGGACGGCGCACATGCAGGTTCGGCCTTCCGGAAGCTTGGCTTCAACTTCGCCAGACCCGGAAGGGACATGCTGCAGGGTCTAGGACTTGCGGCCCTGATCGGTATCCCGTCACTTGGCCTCTACGCGGCAGGGCGGGCCTTGGGCATCACCACTGCCATCATTCCCAGCGCCCTGGATTCCTACTGGTGGACAGTGCCGGTGCTGATCCTGTCTGCCATGCGGCATGCTGTGGTGGAGGAAGTCATCGTGGTGGGCTACCTGATGGACCGTTTGGGGAAGTTTGGCTGGAGCATGCCATTGGCAATCTTCGCCAGTTCCATGCTGCGCGGCAGCTACCACCTCTACCAAGGCTTTGGGCCCTTCATCGGCAACGCGGTCATGGGTGTGGTGTTCGCCTGGCTCTACACCCGCACAAAGCGGGTGATGCCGCTGGTCATTGCGCACGCACTGTTGGACATTGTGGCGTTCGTTGGCTTCAGCCTCTTTGGGTCTGCCATAGGCCTCGGGTGA	MLVPSRRRLRLEVWIVLGLSLGQSAVYSVVQLLDKMTRAPLAEGTSTLNRSQSTREYFDLTYQLLDIVFALVPVLLVIYFLSDQRQPGAGDGAHAGSAFRKLGFNFARPGRDMLQGLGLAALIGIPSLGLYAAGRALGITTAIIPSALDSYWWTVPVLILSAMRHAVVEEVIVVGYLMDRLGKFGWSMPLAIFASSMLRGSYHLYQGFGPFIGNAVMGVVFAWLYTRTKRVMPLVIAHALLDIVAFVGFSLFGSAIGLG				NA	NA	NA	NA	NA
D1-29_01481	633			hypothetical protein	ATGGATCACGTCTCTTACGCCTGTGAACACGATGGCCTGGCTGCCACAACCGAACGAATTTCGTCCGCCCTCGGCGTCGAAGCCGTGAAGGGTGGAGTGCACCCCCGTTTCGGAACCCGGAACATGATCATTCCACTCGCGGGCCACAAATACCTTGAAGTAGTGGAGGTCCTTGACCACCCGGCGTCGGATAAAGCGCCGTTCGGACAGGCCGTCCGGGCACGCTCTGCTGCCGGCGGCGGCTGGATGGGCTGGTGCGTCGAAGTGGACGACCTCGCCCCCTTCGAACGCCGGCTGGGACGCTCCGCCGTCAACGGCAACCGGAAGTTCCCCGACGGCCGCGAACTTGTATGGAAGCAGATCGGAATCCTGGGCCTCATCGCTGATCCCCAGGTCCCGTACATGCTCAAGTGGGAAGGCGATCCCGCCCTGCACCCGTCCAACGCCTACGAAAGCAATGTCAAGATGTCCTGCCTGACCATTGCAGGCTCGGCGGAGCGGGTGACCGAATGGCTCGGCGAACCTGTCGAAAAGCCGCTTGAGGATGTAGCGGTGGAATGGGTGGCTCCGCATGGAACCCCGGGAATCCTTTCCGTCACCTTCGAAACCGCCTCCGGGGCAGTCACCATCTAA	MDHVSYACEHDGLAATTERISSALGVEAVKGGVHPRFGTRNMIIPLAGHKYLEVVEVLDHPASDKAPFGQAVRARSAAGGGWMGWCVEVDDLAPFERRLGRSAVNGNRKFPDGRELVWKQIGILGLIADPQVPYMLKWEGDPALHPSNAYESNVKMSCLTIAGSAERVTEWLGEPVEKPLEDVAVEWVAPHGTPGILSVTFETASGAVTI				NA	NA	NA	NA	NA
D1-29_01482	99			hypothetical protein	ATGGCCTTGGGGAGGCAGCTGACGCCCCTCCTGCTTTCCATCGGTATTAGCGAAATGGCCGACGTCGTGGATGCAGCCGGGCAGTTGCGGGCACCGTAG	MALGRQLTPLLLSIGISEMADVVDAAGQLRAP				NA	NA	NA	NA	NA
D1-29_01484	1116	metXA	COG2021	Homoserine O-acetyltransferase	ATGACGATTACCGTCTCCCGCACCGCCGTACCTGAAAACGGAGTGGTCCAGTTCGCCACTATCGGCGGACTCGAGCTCGAAGCCGGAGGCTTCCTGCCGGATGTCACCCTGGCGTATGAAACCTGGGGCACACTCAACCATGATGCCTCCAACGCCATCCTGATCGAGCACGCCCTGACAGGCAGCACCCACGTCACGCGGGGCGACACCGATGAACCGGGCTGGTGGGAACAGCTGGCCGGGCCCGGTGCGCCGGTGGATACTGACAGGTTTTTTGTGGTCTCCGTGAATATCGTGGGCGGATGCTATGGCTCCACCGGACCTTCGTCGCCTGCCCCTGACGGAAAGCCGTGGGGCTCCCGCTTCCCCCTGGTCACCCTCCGGGACAGCACCGTTGCCGAAGCCCGGCTGGCTGACCTGCTGGGCATCCAGAGCTGGTTCGCCGTCCTGGGCGGCTCAATGGGCGGCGCGCGTGCCCTCGAATGGGCTCTGACCTACCCTGAGCGGGTAGAACGGTGTGCCGTAGTATCGGTCGGCGCCGCGAGCACGGCGGAGCAGATTGCCTTCGCCCAGGCCCAGACCCTGGCGATCCGCCAGGATGCCAACTTCAACAACGGCGATTACTATGGCGGTCCCTGTCCGGAGGACGGCCTGGCGCTGGCTCGCCGGATAGCCCACATCACCTACCGCTCGGCCCGGGAACTGGACGGCAGGTTCGGACGCCTGGCCCAGGCGCCGGAAACACCGTTCCAGGCACCGGCGCTGGGCGACCGCGGCCGCTATCAGGTGGAAAGCTACCTGGACCACCAGGGCAACAAGCTGGTTCGGCGCTTTGACGCCAACAGCTACATCGCCATCACAGAGGCCCTGATGAGCCACGATGTTTGCCGGGGGCGCGGCTCCCTGGACGAGGCCCTGGCCAAGGCGACAGCCCGGTTCTTTGTGGCGGCCGTGGACAGCGACAGGCTCTACTTCCCGTCCCAGTCACACGAGTTGGCGGCAGCCCTGCCGGGCGACGTTGATGTGCACATCATTGAATGCCCCATCGGCCACGACGGCTTCCTCACCGAAATCGGACAGCTGGGCAACCAGCTCAGGACGACATTCCTGGTTTGA	MTITVSRTAVPENGVVQFATIGGLELEAGGFLPDVTLAYETWGTLNHDASNAILIEHALTGSTHVTRGDTDEPGWWEQLAGPGAPVDTDRFFVVSVNIVGGCYGSTGPSSPAPDGKPWGSRFPLVTLRDSTVAEARLADLLGIQSWFAVLGGSMGGARALEWALTYPERVERCAVVSVGAASTAEQIAFAQAQTLAIRQDANFNNGDYYGGPCPEDGLALARRIAHITYRSARELDGRFGRLAQAPETPFQAPALGDRGRYQVESYLDHQGNKLVRRFDANSYIAITEALMSHDVCRGRGSLDEALAKATARFFVAAVDSDRLYFPSQSHELAAALPGDVDVHIIECPIGHDGFLTEIGQLGNQLRTTFLV				NA	NA	NA	NA	NA
D1-29_01485	507			hypothetical protein	GTGAACAACCTGTTTTTCTGGATCATCGTTTTGTCGTTCCTGATTCCGATGGGGATGCGGATGTACCGGAAATACGTCCACCGCCGGAACCAGGAACAGAGCTTCTCCGGGCGGTACCCGGACTACTTCCCCGGCCCGCGTCCGGGACCGCAGAGCAACCAGCCCCGCGACGGCTACACGCAGCAGGACTACATGAGCGGCGGCTTCCGCCAGATCAGCAGCCCGGAGCCTCTGCCGCCCAGCCAGCCCCTTCCCCCGTTCCAGCCACTGCCGGGCCAGCAGCTTCCGACGCCGGACCAGCAGCGCCCGCCGTACGGCCAGGCAGTGCCTCCCCGGGACCGGGGACAGGAACCGCAGAAGCCGGCGGCCCCCTCGACTCCCCCGCCGCCGTCGGCCCCGCAGGGCTACCGTGCCCGCAAGCTTGCAGAACTTGACCAGCAGTACAGCAACGGCGAAATGGCCATGGATGAGTACATGGCGCGCCGGGCCGAAATCATGAACGGCTGA	MNNLFFWIIVLSFLIPMGMRMYRKYVHRRNQEQSFSGRYPDYFPGPRPGPQSNQPRDGYTQQDYMSGGFRQISSPEPLPPSQPLPPFQPLPGQQLPTPDQQRPPYGQAVPPRDRGQEPQKPAAPSTPPPPSAPQGYRARKLAELDQQYSNGEMAMDEYMARRAEIMNG				NA	NA	NA	NA	NA
D1-29_01486	1290			hypothetical protein	GTGGCCATAGACCCGGACGGCGTGGTGCGGAAGAGGCTGCACGCCCAGATGCTGCGCGGACCGGGCGCCGCTTCGCCCGAGGAAGCACTCCGGAACCTGCTGGCAGTGCAGGCCCAGGAGTTTCCCTATGCCCGCTGGAGTTTGGCGCAGCGTACTGCTTTCCCGCAGACTCAGCAGACTCAGGAAACAGCCCAGCAGGCTCCCCGGCAGTCAGCCAAGGAGACAGCCCAGGAGTCAGCCCGGCAGCCGCCAAGGGCCACAGCGGCCCAGGTGGAAGATGCCGTGGCCGACGGGCGGATCCTGCGGACCCATATCCTCCGGCCAACGTGGCATTTTGTCCATCGCGACGACCTCCGTTGGCTGATGGCCCTGTCCGCACCCAGGCTCCATCAGGGGAACGCCGGAATGTACCGGCAGACAGGCATCGATGCGGCGGCCGCGGCCCGGAGCGCAGACGTCCTGGCCGACGCTGTCCGGGGCGGCAAGCATCTGACCAGGGAGCAGCTAGCCGCCAGGCTGCAGGATGCCGGCTTCACGGCAAAGGGTGTGGAACTTGCCTACCTCATCATGCATGCGGAGATCAGCGCAGTTCTGGTCAGCGGCACACCTGTTCGCAGTCCAAGTGGGGCGCTCAAACAGACGTATGCCCTGTTCGACGAGCGCATTCCGGCCGCTCCCGAAGTGAGCCGGGCAGAAGCCCTTGCCGCGTTGGCCCGGCGCTATTTCAGTAGCCGCGGTCCGGCCACGGTCAGGGACTGCGCCGACTGGTCCGGGCTGACCATGGCTGACGTCCGGCAGGGCGTTCAGCACGTCCTGGAGAACGAACCGGACGCCCTGGAAACGCAGGAAATTGACGGCGTCGTCTTCTACTTCAGAGCCGGGCCGGGACCGGAGCCGGATTCGACGCTGGGAGGCCGCGGACCCGCTCAGGGGGCGGAGCCCCGGATCGATCTGATCCAGTGCTACGACGAATACGTGATGGGGTATTCCGCCACCAGGCATTACCTGGGAGGAAGCGCTCCCGCGATCCCCGCCGACGGCGCCCTGATACACGTGGTGCTGCTCAACGGAAGGATGGCCGGTTCCTGGCGGCACACCATGCTGCCCGGCCGGTGCGAGCTGGACATCCGTCTGTCCACACCGGCAGGGTCACACGCCGCTTTTGCCGGTGCGGGCGAAAACACTGACGTGGAGCAGGCGGTGGAGGCCGCCGTGGCTGGCTATGGAGCCTTTCTTGGCATCCCCACAGTCCGGAAGGCGTCCGGGGCTAAGCTGGAAGGACACATATGA	MAIDPDGVVRKRLHAQMLRGPGAASPEEALRNLLAVQAQEFPYARWSLAQRTAFPQTQQTQETAQQAPRQSAKETAQESARQPPRATAAQVEDAVADGRILRTHILRPTWHFVHRDDLRWLMALSAPRLHQGNAGMYRQTGIDAAAAARSADVLADAVRGGKHLTREQLAARLQDAGFTAKGVELAYLIMHAEISAVLVSGTPVRSPSGALKQTYALFDERIPAAPEVSRAEALAALARRYFSSRGPATVRDCADWSGLTMADVRQGVQHVLENEPDALETQEIDGVVFYFRAGPGPEPDSTLGGRGPAQGAEPRIDLIQCYDEYVMGYSATRHYLGGSAPAIPADGALIHVVLLNGRMAGSWRHTMLPGRCELDIRLSTPAGSHAAFAGAGENTDVEQAVEAAVAGYGAFLGIPTVRKASGAKLEGHI				NA	NA	NA	NA	NA
D1-29_01487	867			hypothetical protein	GTGAGCGAAGCAAGAGCAATGCAGAACCCCGCGGCAACCGTGGAATCCCACCCTTGGAGCCGGTACGTGGCCATGGGGGATTCCTTTACCGAGGGCATCGGCGATCCCGAGCCCTCAAGCCCCGGCGGGTATCGTGGCTGGGCCGACAGGGTGGCCGAGGAACTTGGCCGCGGCCATACCGATTTCGCCTACGCGAACCTTGCCGTCCGCGGCCGGCTCCTGCAGCAGATCGTGGACCAGCAACTGGCACCGTGCCTGGCCCTGAAGCCTGACCTGGTGACACTGTCCGCCGGCGGCAACGATCTCATCCGGCCCGGCGGCGATCCTGACGCACTCGCCGAAAAGCTCGATTCCGTGGTGCAGATCCTGTCACTGAGCGGCGCCACGGTGGTGCTTTTCAACGGGCCCGACACCGGCTCTTCCGTGCTGGGCCGGGTCCGAAGCAAAGTAGCCATCTATAACGAGAACCTGCGGACCGTGGCGGCCCGCCACGACGCCATCATCGCCGACATGTGGTCACTGCGGCAGCTCAGCGATCCACAGATGTGGGACCAGGACCGGCTGCACTTTTCACCGCTGGGCCACCACACGATCGCCGCCATGGTCCTTGACTCCCTGAACGTCAGCCACAGCCTGGAACCGCTGATGCCCAAGCCGCTCCCGCCGCGCACCTGGCGGGAAGCACGCACCGGCGATCTCGTCTGGGCCCGCGAGTATTTTGTCCCGTGGGTGGTCAGGCGGCTCCGTCACCGCTCGTCGGGCGATGGCATCACGGCAAAACGTCCGACGGCGGGTCCCGTGTTCGGTCCTGGCGTCCCGCTGGGTTCCGGGGAGGGTCCGCTGGGAACCACTGAAGCGCGGCGCTGA	MSEARAMQNPAATVESHPWSRYVAMGDSFTEGIGDPEPSSPGGYRGWADRVAEELGRGHTDFAYANLAVRGRLLQQIVDQQLAPCLALKPDLVTLSAGGNDLIRPGGDPDALAEKLDSVVQILSLSGATVVLFNGPDTGSSVLGRVRSKVAIYNENLRTVAARHDAIIADMWSLRQLSDPQMWDQDRLHFSPLGHHTIAAMVLDSLNVSHSLEPLMPKPLPPRTWREARTGDLVWAREYFVPWVVRRLRHRSSGDGITAKRPTAGPVFGPGVPLGSGEGPLGTTEARR	PGPT0017895_7	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
D1-29_01488	660			hypothetical protein	ATGGAAACCATGACTGACGCCCAAGTATTTCCTGCCCCCGTTATTTTGTGGTCCCAGCCGGAGGCCCAGCGCATCGGAAAGCCGCTGCTGGTCCTGCTTCACGGCTATGGCGCCAACGAGCGGGATCTCCTGAGCCTGGCGGACATGCTTCCCGGGGACTTTGCCGTGGCCTCCGTCCGTGCCCCTCTGGCGATGGGTGAGGGATTTACCTGGTTTCCGCTGACCGGGTCCGTTGAATACTCCGTCGACGCCGTCAAGAAGGCATCCGGTTACGTGCTGGAGTGGATCGACAGCATCAAAGAGGACCACCCGTCGGTCACACTGCTGGGCTTTTCCATGGGAATGGCCATGGCCACCACGCTGCTGCGGGAGCGCCCCGCTGACTTCGCCGCCGTCGTCGGGCTTTCCGGTTTTGTTGTGGACGGAGGCGACGATCCCGCGTTCCGGGACGACGAACTGGACGGGACTGTGCCGATGTTCTGGGGCCGGGACCAGCAGGACCCCGTGATCACACCGGACAAGATCGACTACACCATGGCGTGGGTCCGCAAGCACGTCAAGCTCACCAAGGTGCTCTATACCGGAATGTGGCATGGCATCAACCAGCAGGAAATCGGGCACGTGTCCGAGTTCCTCACCCATGAGGTCCTGAACAAGTAG	METMTDAQVFPAPVILWSQPEAQRIGKPLLVLLHGYGANERDLLSLADMLPGDFAVASVRAPLAMGEGFTWFPLTGSVEYSVDAVKKASGYVLEWIDSIKEDHPSVTLLGFSMGMAMATTLLRERPADFAAVVGLSGFVVDGGDDPAFRDDELDGTVPMFWGRDQQDPVITPDKIDYTMAWVRKHVKLTKVLYTGMWHGINQQEIGHVSEFLTHEVLNK	PGPT0028515_2104	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
D1-29_01489	237			hypothetical protein	ATGAGCAACCAGGACATCGAAGAGATCCCCATCCGCGACAGCATGATCCGCCTTGGCCAGCTCCTGAAGCTCGCAAACCTCGTGGAGGACGGCGTGGAAGCCGCGGAGCTCATCAAGAACGGCCTGGTCAAGGTCAACGGCGAGATCGATGACCGGCGTGGCCGCCAACTGCATAACGGTGACACCGTGACAGTGAACAACCAGACCGTGCGGGTGGTGGCGGCGGAAGCTTCCTGA	MSNQDIEEIPIRDSMIRLGQLLKLANLVEDGVEAAELIKNGLVKVNGEIDDRRGRQLHNGDTVTVNNQTVRVVAAEAS				NA	NA	NA	NA	NA
D1-29_01490	993			hypothetical protein	ATGACCCACCCTCCCCGGCTGCCCCTGCTCGCAGGGCTGCCGCTGGCAGTAGGAGCGGGCCTTGCCATCCCCGTCCAGGGCCGGATCAACGGCGCCCTGGGCGCCCGGCTCGACGACGGCTTCGCGGCTGCGCTGGTCAGTTTCGGTACCGGCCTGGTGCTGATGATCCTGATCTCCCTGGTTCTGCCGAAGGGCCGGGCCGGCCTGGTGAGGATCATCCCCGCCGTCCGCAACCGTGCCTTTCCCCGCCTCTACGTCATGGCCGGCGGGATCGGGGCACTGTTTGTGATCGCACAGTCCTCCACCATCGGTGTCCTGGGCGTGGCGCTGTTTACCGTGGCTGTCGTGACGGGCCAGACGCTGAGCGGTCTCCTGGTGGACCGGCTGGGGATCGGGCCTGCCGGCAAGCGGCCTGTGACAGGGATCAGGGTGATCGGCTGCATCCTGACCATTGCAGCTGTGGCCTGGGCCGTTTCGCCGAGGTTTGCCGGCGGCGGGGCTGCCGGCGCTGCCGGTGTGTCCGGCGGGCCGGAAACGCTCATCCTTCCCCTCCTGCTGCCCGTCCTGGCCGGCTTCCTGATGAGTTTCCAGCAGGCCATGAACGGAACCGCCACCGTCACCTACGGCACGCCCATCGCCGCCACCCTGGTGAATTTTGTGGCGGGCTCCTTAGTGCTCACCATCGTCTGGGGGCTCAAGGTTGCCTGGTGGGGGACCGGTAACCCGTTGCCGCCGGACTGGTGGTACTACCTTGGCGGGCCGATGGGCTGCATCTTCATTGGCCTGGGGGCGCTGCTGGTCCGCAGCCTGGGTGTGCTCATCACCGGCCTGGGCATGATCGCCGGGCAGCTCCTGGGTTCCCTTGGCCTTGACCTGCTGTTTCCCGCGCCGGGAACCGTGGTGGCCGCGGCCACCGTCCTGGGTACGCTGCTGACCCTTGCCGCCATCGTGCTGGCCACCCTGCCCTGGCCCCGGGGCGCCTTCCGGAGGTAG	MTHPPRLPLLAGLPLAVGAGLAIPVQGRINGALGARLDDGFAAALVSFGTGLVLMILISLVLPKGRAGLVRIIPAVRNRAFPRLYVMAGGIGALFVIAQSSTIGVLGVALFTVAVVTGQTLSGLLVDRLGIGPAGKRPVTGIRVIGCILTIAAVAWAVSPRFAGGGAAGAAGVSGGPETLILPLLLPVLAGFLMSFQQAMNGTATVTYGTPIAATLVNFVAGSLVLTIVWGLKVAWWGTGNPLPPDWWYYLGGPMGCIFIGLGALLVRSLGVLITGLGMIAGQLLGSLGLDLLFPAPGTVVAAATVLGTLLTLAAIVLATLPWPRGAFRR	PGPT0009795_56	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
D1-29_01491	1386	glyQS	COG0423	Glycine--tRNA ligase	ATGGCAGCAAAATCCGTTCTCGACCAGGTCATTTCCCTTTCCAAGCGGAGGGGCTTTGTATTCCAGGCCGGTGAGATCTACGGAGGTTCCCGTTCTGCCTGGGACTATGGACCCCTCGGTGCCGAGCTGAAGGAAAACATCAAGCGCCAGTGGTGGCAGTCCGTGGTCCGCGGCCGCGAAGACGTGGTGGGCCTGGACTCCTCGGTCATCCTTCCCCGCCAGGTCTGGGAAGCCTCCGGCCACGTGGATGTCTTCTCCGATCCGCTGGTGGAGTGCCTGTCCTGCCACAAGCGCTACCGGGCGGACCACCTCGAGGAAGAGTACGAGGAGAAGAAGGGCCGCCCGGCGGAAAACGGCCTGAAGGACATTGCCTGCGCCAACTGCGGCACCCGCGGCGAGTGGACCGAACCGCAGGAATTCTCCGGCCTCCTGAAGACCTTCCTGGGTCCGGTAGCCAGCGAGGAAGGCCTGCATTACCTGCGCCCCGAGACGGCCCAGGGCATCTTTGTGAACTTCAGCAACGTCCTCACCACCTCCCGGAAGAAGCCGCCGTTCGGCATCGGCCAGATCGGCAAGTCCTTCCGCAACGAGATCACGCCCGGAAACTTCATTTTCCGCACCCGTGAATTCGAGCAGATGGAGATGGAGTTCTTCGTCGAGCCCGGCACGGATGAAGAGTGGCACCAGTACTGGATGAAGGAGCGGATGTCCTGGTACACCGGCCTTGGCATCCGGGAGGAGAACCTGCGCTTCTTCGAGCACCCGCTGGACAAGCTCAGCCACTACTCCAAGGGCACCACGGACATCGAATACCGCTTCGGCTTCCAGGGCTCGGAATGGGGCGAGCTTGAAGGCATCGCCAACCGCACCGACTTCGACCTCTCCACCCATGCCAAGGCCTCCGGTACGGACCTGAGCTACTTCAACCAGGCCACCAACGAGCGCTACACGCCCTACGTGATCGAGCCCGCTGCCGGCCTCACCCGTTCCTTTATGGCCTTCCTGGTGGACGCCTACACGGAGGACGAAGCCCCCAACGCCAAGGGCGGCGTGGACGTCCGCACGGTCCTGAAGCTCGATCCGCGCCTGGCCCCGGTCAAGGCCGCTGTGCTGCCGCTGAGCCGCAACGAGGACCTCTCACCCAAGGCCAAGGACCTGGGAGCCCAGCTGCGCAGGAACTGGAACATCGACTTCGACGACGCCGGTGCGATCGGCCGCCGCTACCGCCGCCAGGACGAGATCGGCACGCCGTTCTGCATCACCGTGGACTTCGACACCCTGGATGACCAGGCCGTGACCATCCGTGAGCGCGACACCATGACCCAGGAACGTGTGTCCCTGGACAAGGTGGAAGGCTACCTGGCCGCACGCCTGATCGGCGCCTAG	MAAKSVLDQVISLSKRRGFVFQAGEIYGGSRSAWDYGPLGAELKENIKRQWWQSVVRGREDVVGLDSSVILPRQVWEASGHVDVFSDPLVECLSCHKRYRADHLEEEYEEKKGRPAENGLKDIACANCGTRGEWTEPQEFSGLLKTFLGPVASEEGLHYLRPETAQGIFVNFSNVLTTSRKKPPFGIGQIGKSFRNEITPGNFIFRTREFEQMEMEFFVEPGTDEEWHQYWMKERMSWYTGLGIREENLRFFEHPLDKLSHYSKGTTDIEYRFGFQGSEWGELEGIANRTDFDLSTHAKASGTDLSYFNQATNERYTPYVIEPAAGLTRSFMAFLVDAYTEDEAPNAKGGVDVRTVLKLDPRLAPVKAAVLPLSRNEDLSPKAKDLGAQLRRNWNIDFDDAGAIGRRYRRQDEIGTPFCITVDFDTLDDQAVTIRERDTMTQERVSLDKVEGYLAARLIGA				NA	NA	NA	NA	NA
D1-29_01492	1032			hypothetical protein	ATGGCCATCGAGTACCGCGAATGGCGCGACGGCGACGACCTGGCGCTGCTGGAAATCTGGGGTGATCCGGAAACGTTCCAGGCAGGCCAGTTCCGCGGCGCGCTTACAGTCTCCTCCGCCGGCACCGACGGCACGCCCTGGCGCCGCTGCATTGTGGCCGAGGACGTTGTGGACGGCGTTGGCATTCCCGTGGCCGCAGGTGTGGTTTACGAGGCGTCGCTGCATCCGGAGCGGTTGTGGACCTACATTGAAGTGGCACGGGACCACCGACGCGCGGGTATTGGGGCCACGCTCCTGACCATGCTGCGCCGGGAAGCGGAACAATCGCCGTCGGGCGTTTCCAGGCTCCGCGCCAAAGTCCAGCCGGACACTCCCGGGGCTGCCTTCGCCGGCGCGTTCGGGCTTTCGCCCATCCAGCGCTCGCGGCTGGTGGTAGTTGAGCCCGGCGCCCTGAAGCTGCCTGTGTTCCCCGGCAAGGACGACGCCGGCAGGCCCGCCAACGATGAAAACGCCGGCTCCGACGTGGTGATGGACCTCGCCACGGGTTCGGTGGAGCTGACCGATGTGGTGGGACGGTACTACTCGGCCATCCACGGCTGGGATTCGCCCGGGGTGCTTTCGGTGGGACAGGTCCAGAAGCTGTTCCTGGACGATCTGACGGGTGCGCACGGGGCCATCGTGCTGCGGGCCGAGCCGGAGTCGGCTTTTGGCGCCGGTGTGGCCCCCACCAGGAAGGGCCGGATCCGCGCCTTTGCCGTCAGCTATGCCGAGGCAGCCCAGGATCCGCTGGCTCCGGAGGGTGCCTCGCCGGGTGCGGCGGCCACGGACGTTTTCCTGGGCCACGAACCGGCCCTGGAACCGGAGGATGCCGCGGCAGCCGTCCGGGACCTGCTCGCACTCATCGCGTACCAGCACCCAGTCATGCTGGAACTGGACGATTCGATGACAGCCCTGCGTGCCGCCGTCGAGCCTTTGCTCGAAAGCGGCAAAGCACGCCTGGCCGGTGCGGAAACCCTCATCGTCTCGGACTGA	MAIEYREWRDGDDLALLEIWGDPETFQAGQFRGALTVSSAGTDGTPWRRCIVAEDVVDGVGIPVAAGVVYEASLHPERLWTYIEVARDHRRAGIGATLLTMLRREAEQSPSGVSRLRAKVQPDTPGAAFAGAFGLSPIQRSRLVVVEPGALKLPVFPGKDDAGRPANDENAGSDVVMDLATGSVELTDVVGRYYSAIHGWDSPGVLSVGQVQKLFLDDLTGAHGAIVLRAEPESAFGAGVAPTRKGRIRAFAVSYAEAAQDPLAPEGASPGAAATDVFLGHEPALEPEDAAAAVRDLLALIAYQHPVMLELDDSMTALRAAVEPLLESGKARLAGAETLIVSD				NA	NA	NA	NA	NA
D1-29_01493	786			hypothetical protein	ATGGACCAAGAGGACCACGGGGAACTCGAAGAAGCCCGTATAACCGACCGCAGGAGCGGGCCAAACGATGGGAGTGCCGCCGCCATCCCGGCGAGGCAGGCTGTCCTCACCGTGCTCCCGGCCTCCGGACCCACGCTGGGCGTGGCGCTGGTGCTGCACGGCGGCAAGTCCCACAGCTATGAGCCCGTGCAGACCCACCACCTGAGCCCGGCCAGGATGGTTCCCTTCGCCAGGCACCTGCACCGGGCCGGTAAGAGCCACGGACTGGCGGTATGGTCGCTGCGGAACAGTGTGCGGGGCTGGAACGGTGAGGCCATGGTGCCCCTGCAGGATGCCCGCTGGGCCCTCAACCGGATCAGGGAGCAGCATCCCGGGGTCCCTGTCTACCTGCTGGGGCACTCGATGGGAGGGCTGACCGCCATCTGCGCCGCCGACGATCCCCAAGTGGCCGCCGTCGTGGCGCTCGCCCCCTGGCTGAACGCGGCGACCCCCGCCTCACGGGTTGCCGGCCGGCGGGTGCTCATCGTGCACGGCACCGGTGACCGCTGGACCAGCCCCTGGGAGTCCCTCCAATTCGCCCGCCGCGCCGCCCACGAGGCCGCCTCGATGCAGTACGTCTCCCTCAAGGGCGCAGGGCACTTCATGTTCCGCCGGGTCAGGTTCTGGCATGCTCTGGCCACCGGATTTGTGATGCAGGAGCTCGGCGCTCACACCGGCGCCGCCGTCCCCGCTTCCCGCGCCTTGGATCAACTGCTCCCGGCAACCGCAGTGGAGGTGACCCTGTAA	MDQEDHGELEEARITDRRSGPNDGSAAAIPARQAVLTVLPASGPTLGVALVLHGGKSHSYEPVQTHHLSPARMVPFARHLHRAGKSHGLAVWSLRNSVRGWNGEAMVPLQDARWALNRIREQHPGVPVYLLGHSMGGLTAICAADDPQVAAVVALAPWLNAATPASRVAGRRVLIVHGTGDRWTSPWESLQFARRAAHEAASMQYVSLKGAGHFMFRRVRFWHALATGFVMQELGAHTGAAVPASRALDQLLPATAVEVTL				NA	NA	NA	NA	NA
D1-29_01494	1506			hypothetical protein	ATGGGTTCCGGTCACTCCCACGCTTCCACAGGTCATTCGGAGCCGACGGCCCAGGCTGTTGCCGCCCGCCGCAAAGCCAACCGCATCCTCGCGGCCGTGCTGATTCCGCTGACACTGCTGACCCTCGCGGGAATGGCCATGCTGTGGCCCTCCGGGACCAAGGAAGGCATTTCCCTGGCCAACCCGTATTCGGCGGCGCCCGGCGTGACCTTCGACACCGGGAAGATCCAGAGCGTGGTGGTCGAAAGCTGCATGCAGGGCGCGCCGTCGTCAGGTTCTTCCGGCGGCGGCCAACCGGAGCCGGGCCAGCCGGGCCAACAGGCGCCGGGCCAGCAGGGCTCCGACTGCACCTTCGCCTTCACCGAGCCCGATCAGGGCGGCAGTCCCGTCAAGGTAGTCATTAACCCGGATGTGGCCAAGTCGCACGGTGTAAAGGCCGGGGACCAGATCAGGTACCTGAACCTTTCCAACGCCCAGGGCGCATCGGCGTCGCAGGGGTCTCCTGCCTACATCTTTGTGGACTTTGTCCGGACCATGCCCATTGTGTTTTTGGCGCTGCTGTACGCCCTTGTGGTGATAGCAGTGGCGCGTTGGCGCGGGCTCCGTGCCCTGATCGGACTGGTGGGCGCGTACTTTGTCCTGGTCAGCTTTATGCTGCCCGGCCTGGTGGAGGGAAAGCCGCCCCTGCTGCTGGCGTTGGTGGGGTCAACAGTGATCATGATCGGGGTCCTGTACTTTGCCCACGGCTTCTCGGCCAGGACGTCCACTGCGCTCCTGGGAACCATGTTCGGCCTGGGCATCACCGCACTGCTCGCGGCCTGGGCCACGGATGCCGCCAACCTTGCCGGGGTGGGCAGCCATGACGCCACCACGCTGGTCAATACGTCCGCCAGCATCTCCATCAGCGGCGTGATTCTTTGCGGGCTCATCATCTCCGGCCTGGGTGTCCTCAACGACGTCACCATCACGCAGTCCTCAGCCGTATGGGAACTCTACGAACTCGCCCCCGGCACCAGCGCCCGCAAACTCTTCACCTCAGCCATGCGGATCGGCCGCGACCACATTGCCTCCACTGTCTACACCATCGCCTTCGCCTACGCCGGTGCAGCCCTTCCCATCCTCATCATTGTGATGCTGTACAACCGTCCGCTGGGGGAAACCCTGACCAGCGCCGAGCTGTCCGAGGAGGTCATCCGGACCCTGGTGGGCTCCATTGGACTGGTCCTGGCCATTCCCGTCACCACCCTGATTGCCGTGCTGGTGGTCAAGGCCACCGGTATCCGGACGGCGGGCCAGCCGGAGGCTGCGCTTCCAGCCAACGGCGCAACGGGGGAGAAGGGCACTCCCAGCCCCGGTGCCATCAGCCCCGGCGCCATCAACCCCGACGATGTCGACGATACGGGCGCGCTTGCGGCGGCGGCAGCCAGCAGCCGCTCCAGGCGGGCACCGTCAGATCCTGCCGAGGCGGCCGGCACCCGCCGCGGCCGGCGGGCAGACCGCGGCTGA	MGSGHSHASTGHSEPTAQAVAARRKANRILAAVLIPLTLLTLAGMAMLWPSGTKEGISLANPYSAAPGVTFDTGKIQSVVVESCMQGAPSSGSSGGGQPEPGQPGQQAPGQQGSDCTFAFTEPDQGGSPVKVVINPDVAKSHGVKAGDQIRYLNLSNAQGASASQGSPAYIFVDFVRTMPIVFLALLYALVVIAVARWRGLRALIGLVGAYFVLVSFMLPGLVEGKPPLLLALVGSTVIMIGVLYFAHGFSARTSTALLGTMFGLGITALLAAWATDAANLAGVGSHDATTLVNTSASISISGVILCGLIISGLGVLNDVTITQSSAVWELYELAPGTSARKLFTSAMRIGRDHIASTVYTIAFAYAGAALPILIIVMLYNRPLGETLTSAELSEEVIRTLVGSIGLVLAIPVTTLIAVLVVKATGIRTAGQPEAALPANGATGEKGTPSPGAISPGAINPDDVDDTGALAAAAASSRSRRAPSDPAEAAGTRRGRRADRG				NA	NA	NA	NA	NA
D1-29_01495	1179	dus	COG0042	putative tRNA-dihydrouridine synthase	GTGACTGTTGTAGCAACGCCTCCCGCCCCCAAGCTGGAACTCCCGCCCCTGAAACTGGGTCCCATCACGGTGGATACCCCCGTGATCCTTGCCCCGATGGCCGGCATCACCAACTCCGCTTTCCGCAGGCTGTGCCGCGAGTACGGCGGCGGCCTGTATGTGGCAGAGATGGTCACCTCGCGCGCCCTGGTGGAGCGCACCCCGGAATCCCTGCGGATCATTTCGCACGACGACGACGAAAAGGTCCGCTCCGTCCAGCTGTACGGGGTGGACCCGGTCACCGTGGGCCAGGCTGTACGGATGCTGGTAGAGGAAGACCGTGCGGACCACATCGACCTGAACTTCGGCTGCCCGGTGCCCAAGGTCACCCGCCGCGGCGGAGGCTCTGCCCTGCCTTGGAAGATCGACCTTTTCACCTCAATCGTCCAGACCGCTGTCAGGGAGGCGTCGAAGGGCGGCGTGCCGTTGACCATCAAGATGCGCAAGGGCATTGACGAGGATCACCTGACGTACCTCGACGCCGGCCGGATCGCCCGTGATTCAGGAGTGGCCGCCGTCGCGCTTCACGGCCGCACGGCGGCGCAGTTCTACTCCGGCCAGGCCGACTGGGATGCCATCGCCCGGCTGCGGGAAGCGCTGCCGGACATCCCCGTCCTGGGCAACGGAGATATCTGGTCGGCCGAGGATGCTGTCCGCATGGTCCGTGAAACCGGCGTCGACGGCGTGGTGGTGGGCCGCGGCTGCCAGGGCCGTCCATGGCTGTTCGGGGATTTGATGGCCGCTTTCGAGGGCAGCGATGAACGCCACAAGCCTGCCCTGCGCCAGGTGGCGGAAGGCGTCTACCGTCATGCCCAGCTGATGATCGAAACCTTCGGCGACGAAGGCAAGGCGCTCCGTGAGATCCGCAAGCACATGGCCTGGTACTTCAAGGGCTACGTGGTGGGCAGCGAACTGCGGACCCGGCTTGCCATGGTGGCCACCCTTGAGGGCCTCAAGGAGACCCTGGACGAGCTGGACCTGGACTCGCCCTATCCCGGCGTTGACGCCGAAGGGCCCCGCGGCCGTGCGGGTTCACCCAAGAAGCCGGCACTGCCCAAGGACTGGCTTGACTCCCGTGCCCTCAACGACGCCCAGTCCCAGGACATCTCCGCCGCGGAACTGGACGTCTCCGGTGGCTGA	MTVVATPPAPKLELPPLKLGPITVDTPVILAPMAGITNSAFRRLCREYGGGLYVAEMVTSRALVERTPESLRIISHDDDEKVRSVQLYGVDPVTVGQAVRMLVEEDRADHIDLNFGCPVPKVTRRGGGSALPWKIDLFTSIVQTAVREASKGGVPLTIKMRKGIDEDHLTYLDAGRIARDSGVAAVALHGRTAAQFYSGQADWDAIARLREALPDIPVLGNGDIWSAEDAVRMVRETGVDGVVVGRGCQGRPWLFGDLMAAFEGSDERHKPALRQVAEGVYRHAQLMIETFGDEGKALREIRKHMAWYFKGYVVGSELRTRLAMVATLEGLKETLDELDLDSPYPGVDAEGPRGRAGSPKKPALPKDWLDSRALNDAQSQDISAAELDVSGG				NA	NA	NA	NA	NA
D1-29_01496	1290	dgt	COG0232	Deoxyguanosinetriphosphate triphosphohydrolase-like protein	GTGGCTGAAACCAGGACTACCGCACCTGTCCTGCCCGGCTATGAAGTCCATGACTTCGCCCGCTGGGTGGAGGAACCGCCCAAAAACACCTACCGATCTGACTTCGAGCGGGACCGCGCCCGGGTGCTGCACTCCTCCGCGCTGCGCCGCCTCGGCGCCAAGACTCAGGTGGTGGCACCGGACACCGATGACTTTGTCCGGACCCGGCTGACCCACAGCCTGGAGGTGGCGCAGGTGGGCCGGGAACTGGGCCGTGCCCTGGGCTGCGACCCGGACGTGGTGGACACTGCCTGCCTCAGCCACGACCTGGGCCATCCTCCCTTCGGGCACAACGGCGAGTCCGCCCTGAACGAGGTGGCCCACGGCATCGGCGGGTTCGAAGGGAACGCCCAGACGCTCCGGCTGCTGACGCGGCTGGAGCCCAAGGTCCTGGCCCTGGACGGCCGCCCCGCCGGACTCAACCTCACCCGCGCCAGCCTCGACGCGGCGGCCAAATACCCCTGGTCCGCTTTGGAGGCGCCCGTCATCCATGGGCAGCGCACCAGCAAGTTTGGCGCCTACGAGGACGACCTGCCCATCTTCAACTGGATCAGGGAGGGCGCCCCGGTACGGCGCTCCTGCCTGGAGGCCCAGGTCATGGACCTCGCCGACGACATCTCCTACTCCGTCCACGACGTCGAGGATGCGATCGTTGCCGGGCACTTCCAGCTGCGCTGGATGGATAACCCGGACCACCGGGCCCGAGTGGTGGGCTACGCCAAACAGTGGTACCTCCCGCACAATGACCCCGCGGCCATCGACGCCGCACTCGGCCGGCTGGAGGCAACCGAGGTCTGGGTACGGGAGGCCGATGGCAGCCGCAAATCCATGGCCGCACTGAAGAACATGACCAGCCAGCTCATTGGCCGGTTCTGCCAGAGCGCCCTGGAGACCACCCGCGCGGTATATGGTCCGGAAGACCTCACGCGGTACAACGCCGAGCTGATGGTCCCGGACGAGACCGTGATGGAAATCGCGGTGATGAAGGGCCTGGCCACCACCTTTGTGATGACCACCGAACACCGCCAGCCCATTTACGAGCGCCAGCGGGAAGTGCTGCATGCGCTTGTCACGGCGCTGAGCGCCACCGGCGACCGGCACCTGGAACCGATGTTCGCGGCGGACTGGCGGGACGCGGCCGACGACGGCGCACGGCTCAGGGTGATTATTGACCAGGTGGCTTCGCTGACCGACGGTTCCGCTCTGGCCATGTACGAACGGCTGGTGGGCAGCCTGCCCTCGCTGTGGTGA	MAETRTTAPVLPGYEVHDFARWVEEPPKNTYRSDFERDRARVLHSSALRRLGAKTQVVAPDTDDFVRTRLTHSLEVAQVGRELGRALGCDPDVVDTACLSHDLGHPPFGHNGESALNEVAHGIGGFEGNAQTLRLLTRLEPKVLALDGRPAGLNLTRASLDAAAKYPWSALEAPVIHGQRTSKFGAYEDDLPIFNWIREGAPVRRSCLEAQVMDLADDISYSVHDVEDAIVAGHFQLRWMDNPDHRARVVGYAKQWYLPHNDPAAIDAALGRLEATEVWVREADGSRKSMAALKNMTSQLIGRFCQSALETTRAVYGPEDLTRYNAELMVPDETVMEIAVMKGLATTFVMTTEHRQPIYERQREVLHALVTALSATGDRHLEPMFAADWRDAADDGARLRVIIDQVASLTDGSALAMYERLVGSLPSLW	PGPT0021495_1941	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021495-dgt-K01129	NA	NA
D1-29_01497	1935	dnaG	COG0358	DNA primase	GTGGCTGGCCTGATCAAACGTGAAGATATCGACGAAGTACGCCAGCGCACGGACATCAAGGAAGTGGTTGACGGCTACGTCACGCTCAAGAGTGCCGGCCTGGGAACGTTCAAAGGACTGTGCCCATTCCATGACGAGCGCTCGCCGTCGTTCACTGTCCGCCCGCAGGTAGGCAGGTACCACTGCTTTGGCTGCGGCGAGGACGGGGACGTCATTGCGTTTGTCCAAAAGCAGGACCACACCTCCTTCCACGAGGCCGTGGAAAAGCTGGCCGCGCGCATCGGCTACGAGCTCCGCTACGAAGACGGCGGCACCGGCCCCAACCGGGAGGAAGTGGGCAAGCGTCAGCGGCTCCTGGACGCGCACAAGATTGCCGACGAGTTCTTCCGCGCCCAGCTGCTCACCCCCGGCGCCGCAGAGGGCCGCAGCTTCCTGCACGGCCGCGGCTTTGACCGCGCCGCCGCCGAACAGTTCGGCGTCGGCTATGCGCCGCAGGGCTGGGACGCCCTGCTCAAGCACCTCCGCGGCCGCGGCTTTACGGACCAGGAACTGAAATTGACGGGGATGTTTTCCGAAGGAAACCGTGGCATCTATGACCGGTTCCGCGGCCGCCTGATCTGGCCCATCAGGGACATCGCGGGCGACACCATCGGCTTCGGCGCCCGCAAGCTCTACGAGGACGACCAGGGCCCCAAATACCTGAACACCCCGGAAACCACGCTCTACAAAAAGTCCCAGGTCCTCTACGGGATCGACCTCGCCAAGCGGAACATCGCCAAGGACCGCCAGTTGGTGGTGGTGGAGGGCTATACCGACGTCATGGCATGCCACTTGGCGGGAATCCCGACGGCGGTGGCCACCTGCGGTACAGCGTTCGGCACCGAACACATCAAGATCGCCCGCCGCCTGCTGTCTGACGACGGCACCGGCGGAGAAGTGGTCTTCACCTTCGATGGCGACGCTGCCGGGCAGAAGGCGGCCCTGCGGGCCTTCGACGAGGACCAGCGCTTTACCGCCCAGACCTACGTGGCCGTGGAGCCCACCGGTGCGGATCCCTGCGAGCTGCGCCAGAGCAAGGGTGACGCCGCGGTCCGGGACCTTATCAGCGCACGCCGTCCGCTGTTCGAGTTTGCCATCCGGGCAACCCTGAAGCGGCACAACCTGGACACCGTTGAGGGCCGCGTGGCGGCACTTCGTGAATCCGCTCCCGTGGTGGCCCAGATCCGGGATGCCGGCATCAGGCCCGCCTACGCGCGGGAACTTGCGGGTTGGCTCGGCATGTCCGTCGAGGATGTCAGCAGGGCGGTCGGCGTGGCTATGAAGCGGGCCACGGAGGCTCCGCCGGCCGCACCGGGAGCTTCGGCCGCCGCGGGAGGTGGCCAGGCCCAGGGGAGGCCGGCGCAACCCGGCGGCCCCGGCGTAGCTGCCGGACCGGCGTCGGGCGCTGTTCCTTCCTATCACCGTCCGGACCCGCGGGATCCCGTTGCCTCCATGGAGCGGCAGGCGCTGGAGGTGGCGCTGCAGGAGCCCGCGCACCTCGGCGGCGGCATCTGGGAGCGTTTCGCGGCCGTGAGGTTCGCCACACCGGCTTTCCAGGCAGTCCACGACGCCATGCGGGCAACGGGCCCTGGCCTCACGGAAGATCCCGTCCGCTGGGTGGAACAGATCATGCATGAAGTGCCTGAGCCGCTTCGAGGGCTGGTATCGGAGCTTGCCGTGGTTCCGCTGCCGGCCAGCACCGCGGAAGCCGTCCAGAAGTACTGCAAGGACATTCTGTCGAGGCTGTTCGAGCTGCAGATCACGCGGGTGAAGGCGGACAAGATGGGCCAGCTGCAGCGGCTCGATCCTGCCTCTGACCCGGAGGCATTCCAGCGCTTGAACCGGGAACTGATGATGCTTGAGATGGAGCGCCGGGCGCTGCGCTCGGATGCCTGA	MAGLIKREDIDEVRQRTDIKEVVDGYVTLKSAGLGTFKGLCPFHDERSPSFTVRPQVGRYHCFGCGEDGDVIAFVQKQDHTSFHEAVEKLAARIGYELRYEDGGTGPNREEVGKRQRLLDAHKIADEFFRAQLLTPGAAEGRSFLHGRGFDRAAAEQFGVGYAPQGWDALLKHLRGRGFTDQELKLTGMFSEGNRGIYDRFRGRLIWPIRDIAGDTIGFGARKLYEDDQGPKYLNTPETTLYKKSQVLYGIDLAKRNIAKDRQLVVVEGYTDVMACHLAGIPTAVATCGTAFGTEHIKIARRLLSDDGTGGEVVFTFDGDAAGQKAALRAFDEDQRFTAQTYVAVEPTGADPCELRQSKGDAAVRDLISARRPLFEFAIRATLKRHNLDTVEGRVAALRESAPVVAQIRDAGIRPAYARELAGWLGMSVEDVSRAVGVAMKRATEAPPAAPGASAAAGGGQAQGRPAQPGGPGVAAGPASGAVPSYHRPDPRDPVASMERQALEVALQEPAHLGGGIWERFAAVRFATPAFQAVHDAMRATGPGLTEDPVRWVEQIMHEVPEPLRGLVSELAVVPLPASTAEAVQKYCKDILSRLFELQITRVKADKMGQLQRLDPASDPEAFQRLNRELMMLEMERRALRSDA				NA	NA	NA	NA	NA
D1-29_01500	408			hypothetical protein	GTGCCCAGCTGGCAGGACCAACCGCCACTCCCGGCCACGTGGCAACGGTGCGACTCCGGCATTTTGCCTCTGTGGTGGGAACGGTTGTGCGCCCAGACCGGCGAACAGTCAGCAGCGCTCTATGCGGCCGGGCTCTTCACCGAAGACCGGAGGCGGCCCATCGCCCAGTGGTACAACCCCGCCTTCAATGCCGCGCTCTTGGTGGCGCCTGAGACCTCGCCGGAGTGGCCTGTGCAGCGGTTCGGCATCTTTTACGCTCCCCCGGATTCCGGTTTTGTCCGGGTCCATTCTGCTCACCACGAATGGCATCCGCGCCAGCCGCGTAAGTCCCCCACCGAGCAGGAGGCTTTCCTGGCGGCAATAGCCGAGGCCGAGCGTTTCCTGCAGGTTGAAATGGACTTCGTCTGA	MPSWQDQPPLPATWQRCDSGILPLWWERLCAQTGEQSAALYAAGLFTEDRRRPIAQWYNPAFNAALLVAPETSPEWPVQRFGIFYAPPDSGFVRVHSAHHEWHPRQPRKSPTEQEAFLAAIAEAERFLQVEMDFV				NA	NA	NA	NA	NA
D1-29_01501	180			hypothetical protein	ATGAAACACACACCGCACCGGAACCGAAGGGGACTCTTCCTCGGAGCGGTGCTGGGCGCCGTCGCAGGCTATTTTGCCGGCCGTGCCCTGGGCAACCCGGCCATCGGGATCATCCTGGGAATGCTGGCCGGCGCTGCCCTGCTGTACCGCGTCAACCCTGGCCCGTGGAACCGGCCCTGA	MKHTPHRNRRGLFLGAVLGAVAGYFAGRALGNPAIGIILGMLAGAALLYRVNPGPWNRP				NA	NA	NA	NA	NA
D1-29_01502	1224	bcr_3		Bicyclomycin resistance protein	GTGACCATTCCCACCAACCCGGGCGATTCGCTGAGCCGCCGGCGGAAACTTCTGTACATCCTTTTGCTCGGTGCACTCACCGCTTTGGGCCCCTTCACCATCGATCTGTATCTTCCGGCCTTTCCCGCGCTCGAGGCCAGCCTGGGGGTATCCGAGGCGGAGGTTCAGCTGACCCTCGCGGGTACTACGGTGGGCTTTGCCCTGGGCCAGCTGGTGGTGGGCCCCTTTAGCGACAAGTTTGGCCGGCGGTTTCCCCTGATCCTGGCCACAGCCGTGCACATCGCCGCCTCACTGGGGGCAGCCATCTCCACAGACATCGCCTCCTTGGGACTCTTCCGCGTCCTGATGGGGGTGGGCGCCGCCGGCGGTGGAGTTGTTGCCATGGCAATGGTCCGCGACCTGTTCTCCGGGTATGCGATGGTGCGGATGTTCTCCCGGATGGCACTTGTCAACGGGCTGGCACCCATCCTGGCTCCGGTCATCGGCTCCCAACTCCTCCTGGTGATGCCCTGGCCGGGGATTTTTGTGTTCCTGGCCGCCTACGGCACGCTGGTGGTCATCGCTGCCCTCTTCCTGGTCCGCGAAACCCTGCCGCCCGAAAAGCGCGGCCAGTCAGGCCTGACGGCCGGCCAACGCTACCGGGTCCTTTTCACGGACCGGATCTTTGTGGGCCTCCTGCTCCTGGGCGGAATGAACTTTGCCGGCCTGTTTACCTACCTCTCCGCCTCACCGTTCCTTTTCCAGGACATCTTCGGCTTCTCTCCCCAGCAGTACGGACTCCTCTTCGGCATCAACTCGCTGGGCATCGTGGCCGGCGTGCAGACAAGTTCCAGGCTGATCAGGCGAATCCCGCCGCAATGGATCCTCGCCTGTTCCACCGCCTGGATGTTCATAATGGCCCTGCTGATCGTGATTTTCGATCAAATGGGACTGGGGCTGTGGGGCGTGATGGTGCCGCTGTGGTTCTACATCCTCGGGACGGGTTTTACTTTTCCCTGTGTGCAGGTGCTGGCGCTGGCAAACCACGGCGACAAGGCCGGCACCGCGGCCTCCCTCCTGGGGGCCGCGACGTTCCTGATGGCCGGGCTGATCTCACCGGTGGTGGGCTGGCTGGGGATTGAAAGTTCCACTCCCATGGGCGCGGTCCAGGCCGCCTGCATCCTGCTCTCCATCGCCGCGCTGTGGCTGGTGGTCAGGCCCCGCACCGTCCCGTCCATCCACTGA	MTIPTNPGDSLSRRRKLLYILLLGALTALGPFTIDLYLPAFPALEASLGVSEAEVQLTLAGTTVGFALGQLVVGPFSDKFGRRFPLILATAVHIAASLGAAISTDIASLGLFRVLMGVGAAGGGVVAMAMVRDLFSGYAMVRMFSRMALVNGLAPILAPVIGSQLLLVMPWPGIFVFLAAYGTLVVIAALFLVRETLPPEKRGQSGLTAGQRYRVLFTDRIFVGLLLLGGMNFAGLFTYLSASPFLFQDIFGFSPQQYGLLFGINSLGIVAGVQTSSRLIRRIPPQWILACSTAWMFIMALLIVIFDQMGLGLWGVMVPLWFYILGTGFTFPCVQVLALANHGDKAGTAASLLGAATFLMAGLISPVVGWLGIESSTPMGAVQAACILLSIAALWLVVRPRTVPSIH	PGPT0029005_1758	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
D1-29_01503	855			hypothetical protein	ATGAGCGGACGTCACAGCGGGCGGACCAGCCAGGGGCTGCGCCTCACCGCGCTGCCCAAAACGCTAAAACTCCTCGTCCGGCTGGCGCCCCGCCAGCTCAATGATGAGATCGCCCTCGCCAAGGTGGAGATCAAGCGCAAGGGCGTGCAGCTCGGAGTTGCCGCGGCGTTTATGGCCGTTGCCGTTATTTTTGTCGCGTTCCTTGTGGTGGGGCTCATTGTTGCCGCCATCATGGGGCTGGCCACCATCATGCCCGCCTGGCTGGCCGCCCTGCTGGTCTGTGCAGCCTTCCTGCTGATTGCTGCGATCGGGGGCCTGATCGGCCTCCGCAAATTCAAGAAGGCCATGCCACTGATGCCCGAGGAAACCCTTCGCGGAATCCGGCATGACATCGGTGTAGCCAAGGAAGGGTCAGACTTCAATGCCGCCATCCTTGATCCCGCCAGCCCGGAGGCAAAGGCCGCCAAGGCGGCCAAGGATGAAGCCGCAGCCAAGGCCAAAGCAGAGAAGAAAGCCAAGGCAGAGGCCCACGACAAGGAATACCCGCACGCTTCCGAACCTGAATTGCACCGCCGCCTGCATCAGCGGCGCAACCACCTGGCCCAAGCCCGCGACGAGCTCGACACGGAGCTCGACGTCAAGACGCAGGCCAGCTTCCTCTTGGCCGCAGCGCAGGACAAGCTGAGGGAGGGCCAGTCGCTGGTTGACCACGGCAAGGACTTCGCCGGCCAGAAGTTGGCCGCACTTTCCGAAAAGACAGGCGGGGCCGCGCCCCGGTGGAAGCCCCTGGCAGCCTTTGCTGCCGCCGCCACTGTTTTTGCTGTGCTGCTCCGCAAGCTGCTGAAGGATTTGTAA	MSGRHSGRTSQGLRLTALPKTLKLLVRLAPRQLNDEIALAKVEIKRKGVQLGVAAAFMAVAVIFVAFLVVGLIVAAIMGLATIMPAWLAALLVCAAFLLIAAIGGLIGLRKFKKAMPLMPEETLRGIRHDIGVAKEGSDFNAAILDPASPEAKAAKAAKDEAAAKAKAEKKAKAEAHDKEYPHASEPELHRRLHQRRNHLAQARDELDTELDVKTQASFLLAAAQDKLREGQSLVDHGKDFAGQKLAALSEKTGGAAPRWKPLAAFAAAATVFAVLLRKLLKDL				NA	NA	NA	NA	NA
D1-29_01504	624	pgsA2_1	COG0558	Putative cardiolipin synthase	ATGAGGATTATTGGCGCTGGCTCCCGTCCGGGCCGCCCGCACGTTGACCACGACCGCGTGTTGACCGTGCCCAACGTGCTCACCGTCCTGCGCTTTATGGGTGTGCCGATCTTCATTTGGCTGGTCCTGGCCCGGCAGGAGTACGGCTTCGCGGTCCTGGTGCTGGCGATCATGGCCGGCACGGACTGGGTGGATGGCTATGTGGCCCGCCGTTTTGACCAGGCTTCCAAGCTGGGCCGCGTGATGGATCCGATCGCTGACAGGCTGGCACTGATTGCAGTTGCCATCACGCTGGTGATCGCCGGCGTTGTCCACTGGCTTTACCTTGCCGCACTCGTGGTCCCGGATGCTGTTCTTCTGGTCCTGACGCTCTCCTACTTCCACGGCCACCCCGACCTGCCAGTGAGCCTGATCGGAAAGATCCGGACCGGCCTCCTGCTCCTGGGCACACCCCTGCTGGTCCTGTCCCGGCTGGACGTCCCGTTTGCAGATGCTCTTTTCGTTGCAGCCTGGGTCGTGCTGGGCCTGGGCCTGACCGGTCACTGGATTGCCGCGTACAACTATTTCTGGGCCATCCTGCGGAAGGGCAGAATGCAATCACATCACGACGGCGGCACCGCCTGA	MRIIGAGSRPGRPHVDHDRVLTVPNVLTVLRFMGVPIFIWLVLARQEYGFAVLVLAIMAGTDWVDGYVARRFDQASKLGRVMDPIADRLALIAVAITLVIAGVVHWLYLAALVVPDAVLLVLTLSYFHGHPDLPVSLIGKIRTGLLLLGTPLLVLSRLDVPFADALFVAAWVVLGLGLTGHWIAAYNYFWAILRKGRMQSHHDGGTA	PGPT0007735_844	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CARDIOLIPIN_SYNTHASE_ACTIVITY,PGPT0007735-pgsA-K08744	NA	NA
D1-29_01505	909			hypothetical protein	ATGGTCTGGGTAGCTGTCCTGCTCGCGGTGCTTGGCGCTTTTTTCCTTGCGTTCGGAGCCCAGAAACAGGGGAGTGCTGTCAAGGCCGATACGGGCGGCCTGGCGCTGAGCTCCAACGGTTTTCTTCGCCTGCTGCGCAATCCGCGGTGGATGCTGGGCCTGCTCCTGCTGTGCACCGGAATGGGCATGAACGCGATTGCCCTGGTGTCCGCACCGCTGACGGTTGTCCAGCCCATCGGCGCCATCGCACTGGTCATCACCACCGTTGTCAACGCCAGGGACCAGGACCTGACCATTAACCGCGCCACGGTGGTAGCCATCGCAGCCTGCGTCACGGGGTCCGCGCTCTTTGTGCTCCTTGCCGTGAATGCGACCCAGGAAAACCATCACGTCGGCCAGGCGGACGAGCTCACCATTGTGCTCCTGCTGGCACTGGCGGTCGGTCTGTTCGGCACGCTTGCGGTGATGTTCAGGCATCGGATGAGTGCCTTCATCTACATTATTGGCGCCGGCGTCCTGTTCGGCTTCGTGGCAGTGCTGACACGGATTATCGGCAAGCACCTCCTGGACCCCAACGGCCTGGCACTGCTTAACGTCCCTTGGTATTCGGTGGTGGCCATCGCCGCGGCCGGCGGGCTTGGTTCCTGGTTTGTGCAGAACGCCTATTCCGGCGGACCGCCGGACCTGGTCATTGCCGGGCTCACTGTCATCGATCCGATTGTGGGCATCGCGATAGGCATCGTTATCCTCGGTGAACTGCGTCCGGACGTCCATGCCGTAACGGCAATTGCGATGGCCGCTGCTGCTTCGCTTGCTATCGTTGGGGTAATCGCCCTCTCCAGGCACCACCCCGAGGTCACCAAGCGCAGGAAAGACGCGCGGAAGGCCGTGGGCAGGGCGTCCCGCTAG	MVWVAVLLAVLGAFFLAFGAQKQGSAVKADTGGLALSSNGFLRLLRNPRWMLGLLLLCTGMGMNAIALVSAPLTVVQPIGAIALVITTVVNARDQDLTINRATVVAIAACVTGSALFVLLAVNATQENHHVGQADELTIVLLLALAVGLFGTLAVMFRHRMSAFIYIIGAGVLFGFVAVLTRIIGKHLLDPNGLALLNVPWYSVVAIAAAGGLGSWFVQNAYSGGPPDLVIAGLTVIDPIVGIAIGIVILGELRPDVHAVTAIAMAAAASLAIVGVIALSRHHPEVTKRRKDARKAVGRASR				NA	NA	NA	NA	NA
D1-29_01506	1197	mgs	COG0438	Alpha-monoglucosyldiacylglycerol synthase	GTGACAACGCCCGCTGACCAGCCACCCCTGACTATCCTGATTGCCGCGGATACGTATCCGCCGCACATCAACGGAGCCGCCACCTTCGGCTATCGCCTGGCCAAGGGTATGACCGGGCGCGGGCACAACGTGCACGTACTGGCCTGCCGCGCTGACGACGGCAAGAGCTTCACGGAGTTCCGGTCTGAAGGCACCGTGCACCGGCTTCGCTCACACGGGGTGTGGACCCATGAGTACTTCCGCATCTGCTTTCCGTGGGAAATCAAGAAGGAAATCAGCCTCCTGTTTGACCGCATCAAGCCGGACGTTGTGCATATCCAAAGCCACTACATGATCGGCGAGCATGTTCTCTACGAGGCCAAAAAGCGTGGCATCAGGATCGTGGCCACCAACCACTTTATGCCGGAGAACCTGAATCCTTTCCTGCCCTTCCCGCAGTGGTTCAAAGACATCATCGGCCGCATCTCGTGGAAGGACATGGGCAAGGTCATGGAGAAGGCAGACGTCATCACCACGCCCACGCCGCTGGCGGCGAAGGCCATGCACCAGCACGCCTTCCTTCGTAAGGTCCTGCCGCTGTCCAACGGGATCGACTCTTCGGCCTATGAACTGAAGCCGGGGGAGGTCATCGAACGCAATCCCTACCCCACCGTGGTGTTTGTTGGACGTCTCGCCGAGGAAAAGCATGTGGATGTGCTGATCAAGGCTGTCTCCAAGACGCCGCCCGAGCTCAACGTCCACCTCGAAATCGTGGGCGGCGGCGAGGTGCGCCCGGCGCTTGAGGCCTTGGTTGACAGGCTGGGCCTGGGGGAGCGGGTGAAGTTCCTGGGGCTTGCCAGCGACGAGGAGCTTCGCGAGACCTACATCAAGGCGGACCTGTTCTGCATGCCCGGCACGGCCGAGCTGCAGTCACTGGTGACCCTGGAGGCGATGTCGGCGTCAACGCCTGTGCTGCTGGCGGATGCCATGGCGCTTCCACACCTGGTACGGGATGGGGAGAACGGCTTCCTGTTCACGCCCAACGACAGTGACGACCTCTCGGCCAAGGTCACCAAGATCCTCCAGCTGCCGCCCGAGCAGCTTGCCGCCATGGGCCGGGCCAGCCGCAGGATGGTGGAACCTCACAGCATGCAGGGCACCCTGCAGACCTTCGAGGATCTCTACCGGGGTGCCGGCTTCGAGGACAAAGTGGTCTAG	MTTPADQPPLTILIAADTYPPHINGAATFGYRLAKGMTGRGHNVHVLACRADDGKSFTEFRSEGTVHRLRSHGVWTHEYFRICFPWEIKKEISLLFDRIKPDVVHIQSHYMIGEHVLYEAKKRGIRIVATNHFMPENLNPFLPFPQWFKDIIGRISWKDMGKVMEKADVITTPTPLAAKAMHQHAFLRKVLPLSNGIDSSAYELKPGEVIERNPYPTVVFVGRLAEEKHVDVLIKAVSKTPPELNVHLEIVGGGEVRPALEALVDRLGLGERVKFLGLASDEELRETYIKADLFCMPGTAELQSLVTLEAMSASTPVLLADAMALPHLVRDGENGFLFTPNDSDDLSAKVTKILQLPPEQLAAMGRASRRMVEPHSMQGTLQTFEDLYRGAGFEDKVV	PGPT0023395_600	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
D1-29_01508	1191	mmgC_2	COG1960	Acyl-CoA dehydrogenase	ATGTCCAAAGCCGCTTTTGACATCAACAGCCTTCCGTACGCCGACGGTGACTTCTTCGCCTTCGAGCAGCTGCTCACCGCAAAGGAGCAGGACCGGCTCGCCGAGATCCGCGGGTTCCTGGAGCGTGAAGTCCGCCCCATTGCCGTGGACTGCTGGAACCTGGGCGAATTTCCGATGGAGCTCATTCCCAAGCTTGCCGAGATTGATCTCGTCAGTCCGGTCAGGCGGCAGGGGAATTCGAACCTCTTCGCCGGCCTGGTCCATGCCGAGGTCACCCGGGCTGATACGTCCATTGCTACCTTTATGGGTGTCCACGACGGCCTGTTCACGGGGTCCATTGAGGCGCTTGCCTCGCAGGAGCAGCAGGAAGCCTGGCTTCCGGACATCTATTCGTTGAAGAAGATCGGTGCATTCGGGCTCACTGAGCCGCTCGGTGGTTCCGACGTCGCCGGCGGTACCCGGACCACCGCGCAGAAGGACGGGGACACCTGGATCCTGAACGGTGCCAAACGCTGGATCGGCAACGCCACTTTCTCCGACTGGGTGGTCATCTATGCGCGGGACCTGGCCGACAATCAGGTCAAGGGCTTTCTGGTGGACACCTCGCTCGAAGGATTCAGCACAACAAAGATCGAGAACAAGATTTCCCTGCGGACCGTCCAGAACGCGGACATCGTCCTGGACAACGTGGTTGTTCCCGAATTCTTCAAGCTTGCCAACGCCAATAGCTTCCGCGACACCAACAAGGTACTCAAGGTCACCCGCCTGGGGGTTGGCTGGCAGGCCGTAGGGCAGCAGTTGGCCGCGTTCGACGTAGCCCGGCGCTATGCCGTGGAGCGCCATCAGTTTGGCCGTCCGCTGGCGTCCTTCCAGCTGGTCCAGAGCCAGCTGGTCCAGATTCTCGGCAACGCCGTGAGCTCCATGGGCATGATGGTGCGGCTTTCCCAGCTTGAGGACGCAGGCCTGGCGAAGGATGAACAGTCCGCGCTGGCCAAGGCCTTCACCACCGCCAGGATGCGCGAAAGCGTCGCGATCGGGCGGAGCCTGCTGGGTGGCAATGGCATTGTCACCGACTTTGAGATGGCCAAGATCTTTGCGGATGCGGAAGCCATCTACTCCTATGAGGGGACCCATGAGGTCAACACCCTGGTGACAGGCCGAGCCATCACCGGCATCTCCGCGATCGTCTAG	MSKAAFDINSLPYADGDFFAFEQLLTAKEQDRLAEIRGFLEREVRPIAVDCWNLGEFPMELIPKLAEIDLVSPVRRQGNSNLFAGLVHAEVTRADTSIATFMGVHDGLFTGSIEALASQEQQEAWLPDIYSLKKIGAFGLTEPLGGSDVAGGTRTTAQKDGDTWILNGAKRWIGNATFSDWVVIYARDLADNQVKGFLVDTSLEGFSTTKIENKISLRTVQNADIVLDNVVVPEFFKLANANSFRDTNKVLKVTRLGVGWQAVGQQLAAFDVARRYAVERHQFGRPLASFQLVQSQLVQILGNAVSSMGMMVRLSQLEDAGLAKDEQSALAKAFTTARMRESVAIGRSLLGGNGIVTDFEMAKIFADAEAIYSYEGTHEVNTLVTGRAITGISAIV	PGPT0021815_1519	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
D1-29_01509	564			hypothetical protein	ATGAAAGCACCAGCACTCCTCGCCGCCCTGCTTCTGCTGCCTGCATCGGTGGCGCCCTCCGGCGAAGTCCTTTCACCGGGCGGAATCACATCCGGAACGCAGTCCCCAGAGCTGCGTCAAGGTACCGGTCCGGGCGCGGCACGTCCCTCCTGGGCCTGGCCGCTCGCTCCGAAGCCGGAGGTGCTGCGGACCTTCGACCCACCGGACAAGCCGTGGATGAGCGGCCACCGGGGAGTGGACCTAGCCACAATCCACGACGGCGCCCAGCTCACCTCCCCGGCGCCCGGAACGGTCAGCTTTGTAGGTGTGGTGGTTGACCGCCCGGTCATCACCATCGATCACGGGAACGGATTGCGCAGCAGTTTTGAACCCGTGCAGAGCGATCTGGCCGCCGGGGCTGTAGTCGCCAAGGGCCAACCTATAGGCACCGTACTCCCGGGGCATTGCAGGTCCGGCCCGTGCGTCCATTGGGGCGTCAGGGAGGGGGATGAGTATGTCAATCCGCTGCAGTTCGTCATGGACCTCCGCCCATCCGTCCTGCTTCCCCGCAGCGGAGCTCCCTAA	MKAPALLAALLLLPASVAPSGEVLSPGGITSGTQSPELRQGTGPGAARPSWAWPLAPKPEVLRTFDPPDKPWMSGHRGVDLATIHDGAQLTSPAPGTVSFVGVVVDRPVITIDHGNGLRSSFEPVQSDLAAGAVVAKGQPIGTVLPGHCRSGPCVHWGVREGDEYVNPLQFVMDLRPSVLLPRSGAP				NA	NA	NA	NA	NA
D1-29_01510	879	rpsB	COG0052	30S ribosomal protein S2	ATGCCCGTCGTAACTATGCGCCAGCTGCTTGACAGCGGCGTCCACTTTGGACACCAGACCCGCCGTTGGAACCCGAAGATGAAGCGATTCATCTTCACGGAGCGCAACGGCATCTACATCATTGACCTTCAGCAGTCGCTGTCCTACATCGACCGCGCCTACGAGTTCGTGAAGGCCACCGTTGCGCACGGTGGCACCGTACTCTTCGTCGGCACCAAGAAGCAGGCTCAGGAATCCATTGCTGAGCAGGCAACCCGTGTTGGCCAGCCCTACGTGAACCAGCGCTGGCTCGGCGGTATGCTGACCAACTTCCAGACCGTTTCCAAGCGCATCCAGCGCATGAAGGAACTGGAAGAGATCGACTTCGACGACGTCGCCGGCTCCGCGTACACCAAGAAGGAACTGCTGCTCCTTCGCCGTGAACTCACCAAGCTGGAGACCAACCTCGGCGGTATCCGCAACCTGACCAAGGCACCCTCCGTGCTGTGGATCGTGGACACCAAGAAGGAACACCTCGCCGTTGACGAGGCAAAGAAGCTGAACATCCCGGTTGTTGCCATCCTGGACACCAACTGCGATCCCGACGAAGTCGATTTCCCGATCCCGGGCAACGACGACGCCATCCGTTCCGTGAACCTGCTGACCCGCGTTGTTGCTGACGCTGTTGCCGAGGGCCTGATCGCCCGCAACCAGCGTGCAACCGGCACCACTGAAGCTCCGGAAGAGCCGCTGGCCGAGTGGGAGCGCGAGCTCCTCGAAGGCAGCAAGGCTGAAGAGGCCGCTCCGGCTGCTGAAGCTGCTCCCGCTGCCGAGGAAGCTCCGGCTGCCGAGGAAGCTCCGGCCGCTGCCGAAGCTCCCGCTGCCGACGCCGACAAGTAA	MPVVTMRQLLDSGVHFGHQTRRWNPKMKRFIFTERNGIYIIDLQQSLSYIDRAYEFVKATVAHGGTVLFVGTKKQAQESIAEQATRVGQPYVNQRWLGGMLTNFQTVSKRIQRMKELEEIDFDDVAGSAYTKKELLLLRRELTKLETNLGGIRNLTKAPSVLWIVDTKKEHLAVDEAKKLNIPVVAILDTNCDPDEVDFPIPGNDDAIRSVNLLTRVVADAVAEGLIARNQRATGTTEAPEEPLAEWERELLEGSKAEEAAPAAEAAPAAEEAPAAEEAPAAAEAPAADADK				NA	NA	NA	NA	NA
D1-29_01511	837	tsf	COG0264	Elongation factor Ts	ATGGCGAACTACACTGCCGCTGATATCAAGGCTCTGCGCGAGCGCACGGGCGCCGGCATGATGGATGTCAAGAAGGCTCTTGACGAGGCCAACGGTGACGCCGAGAAGGCCATCGAAATCATCCGCATCAAGGGCCTGAAGGGCGCTACCAAGCGCGAAGGCCGCTCCACCGCCGAAGGCCTGGTGGCCGCCAAGGTCAACAACGGCGTCGGCGTGATGATCGAAGTCAACTGCGAGACCGACTTCGTTGCCAAGGCTGACAAGTTCATCCAGCTGGCCGACCGCGTTCTGGCCGTTGCCGTTGAGTCCGGCGCTGCCGACCTCGACACCCTTCTGGCCACCGAAGTTGACGGCAAGCCGCTGTCCGAGGTCGTCGTCGAAGAGGGCGCAGTACTGGGCGAAAAGGTTGTTGTCCGCCGGATCTCCCGCATTGAGGGCGGCACGGTAGATGCTTACCTGCACAAGACCTCCAAGGACCTCCCGGCCCAGGTTGGCGTCCTGTTCGCTGTTGACGGCGAAGGCGAAGCTGCCACCACCGCAGCCCACGACGTTGCAGTCCACATCGCAGCCATGGCGCCGAACTACCTGACCCGCGAAGACGTTCCGTCCGAGCTGGTTGAGTCCGAGCGTCGCATCGCTGAAGAGACGGCCAAGGCCGAAGGCAAGCCCGAGGCTGCCCTCACCAAGATCGTGGAAGGCCGCGTGACCGGCTTCTACAAGGGCGAGGTCCTGGTTGACCAGGCATTCGCCAAGGATGCCAAGAAGTCTGTGGCCCAGGTCCTCGAAGAGGCCGGCGTCAAGGCAACTGCGTTCTCGCGTTTCCGCGTCGGCTCCTAG	MANYTAADIKALRERTGAGMMDVKKALDEANGDAEKAIEIIRIKGLKGATKREGRSTAEGLVAAKVNNGVGVMIEVNCETDFVAKADKFIQLADRVLAVAVESGAADLDTLLATEVDGKPLSEVVVEEGAVLGEKVVVRRISRIEGGTVDAYLHKTSKDLPAQVGVLFAVDGEGEAATTAAHDVAVHIAAMAPNYLTREDVPSELVESERRIAEETAKAEGKPEAALTKIVEGRVTGFYKGEVLVDQAFAKDAKKSVAQVLEEAGVKATAFSRFRVGS				NA	NA	NA	NA	NA
D1-29_01512	738	pyrH	COG0528	Uridylate kinase	ATGGAAGCCGTCAATAGTTCAATCCAGCCAGAGAAGAGCAGGCGACGCGTCCTGCTTAAGCTGTCCGGTGAGGTCTTCGGCGGCGGAAAGCTGGGCGTTGATCCCGAAACCGTCCGCGACGTCGCCAAGCAGATCGCTGCAGCCATCCCGGAAGTGGAGGTAGCCATCGTCGTTGGCGGCGGCAACTTTTTCCGCGGTGCCGAACTGTCCCAAAGCGGTATGGACCGGTCGCGGGCAGATTACATGGGCATGCTCGGCACAGTGATGAATTGCCTGGCCCTGCAGGATTTCCTGGAGCAGGCCGGCGTCGAAACCCGTGTGCAGAGCGCCATCACCATGGGCCAGGTCGCCGAGGCCTACATTCCCCGCCGCGCCATCAGGCACATGGAAAAGGACCGGGTAGTCATCTTCGGTGCGGGTGCCGGGCTTCCCTACTTCTCCACTGACACCGTGGCTGCCCAGCGCGCCCTGGAAGTCCACGCGGACGTGGTGCTGATGGCCAAGAGCGGCGTGGACGCCGTGTACACCGCCGATCCCAAAAAGGACCCCACCGCCGAGAAGCTGGACACCCTGAGCTACGACGACGCCCTCAGGCGCGACATCAGGGTCATGGACCAGACCGCCATGACCATGTGCAAGGACAACAATCTCTCCATGGTTGTCTTCGGAATGGAAGGCGAAGGGAACGTCACCCGCGCCATTCTCGGCGAAAAGCTGGGAACGCTGGTCACCCCCTAG	MEAVNSSIQPEKSRRRVLLKLSGEVFGGGKLGVDPETVRDVAKQIAAAIPEVEVAIVVGGGNFFRGAELSQSGMDRSRADYMGMLGTVMNCLALQDFLEQAGVETRVQSAITMGQVAEAYIPRRAIRHMEKDRVVIFGAGAGLPYFSTDTVAAQRALEVHADVVLMAKSGVDAVYTADPKKDPTAEKLDTLSYDDALRRDIRVMDQTAMTMCKDNNLSMVVFGMEGEGNVTRAILGEKLGTLVTP	PGPT0021205_1121	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903	NA	NA
D1-29_01513	558	frr	COG0233	Ribosome-recycling factor	GTGATCGAAGATACCTTGCTCGAAGCCGAAGACAAGATGGACAAGGCTGTTGAGGTAGCCAAGGAAGATTTTGCCTCGATCCGCACCGGACGGGCCAACCCGGGACTCTACAACAAGGTGCTGGTGGACTACTACGGTGCACCCACCCCGCTGCAGCAACTGGCATCCTTCGCCATTCCTGACGCCCGCACCATCCTCATCACCCCGTTCGACAAGACTGCCCTCCGGGACATTGAACGTGCCCTGAGCGACTCCGAGGTGGGCGCTAACCCCTCCAACGACGGCAACGTCATCCGGATCACCATTCCGGACCTGACCCAGGAACGCCGCAAGGAGTACGTCAAGATCGTCAAGACCAAGGGCGAGGACGCGAAGATCTCCATCCGCAACATCCGGCGCAAGGCCAAGGAAACGCTTGACCGGCTGGTCAAGGACGGCGAAGCCGGCGAGGACGAGGGCAGCCGGGCCGAGAAGGAACTGGACGCTTTGACCAAGGCACACGTGGACGGCATCGACGAACTGCTCAAGCGCAAGGAAGCGGAGCTGCTCGAAGTCTAA	MIEDTLLEAEDKMDKAVEVAKEDFASIRTGRANPGLYNKVLVDYYGAPTPLQQLASFAIPDARTILITPFDKTALRDIERALSDSEVGANPSNDGNVIRITIPDLTQERRKEYVKIVKTKGEDAKISIRNIRRKAKETLDRLVKDGEAGEDEGSRAEKELDALTKAHVDGIDELLKRKEAELLEV				NA	NA	NA	NA	NA
D1-29_01514	924	cdsA	COG0575	Phosphatidate cytidylyltransferase	ATGAGCCAGGCAGAGCAGGCTCCCGCTCAACGGGCGCGCATGAAGGGGAGGCAGCCCCGGAGGAACCCGACGCCCAAGGCTGGACGGAACCTCCCTGCGGCCACCGTGGTGGGGCTGGCAATGCTCTTTGGGGTCCTGGGCGGCCTCGTCTTCCTGCCGCTCGGCTTTGTGGCGGTGACCACCGGCTTCGCTGTTTTTGGGGTCTGGGAAATTTACCGCGCCCTGGAGGCAAACGGCACCAGGATGCCCATCGTGCCGGTGATGACGGGCACGCTGGCCATGCCTTTCGCTGCCTACTTCGGCGGGCTGGAGAGCCTTCTCTTCGCCATGCTGCTGAGTTGCGTGGCAGTGCTTCTTTGGCGGTCGGTGGAATCAGCAGCGGGATCGGCCAACAGCATCTTCGCCGGCGTCTTCACCCTGGGCTGGGTTCCGTTCTTCATCAGTTTCGCGGCCCTGCCCCTTCATGCTTCGGGCGGCGCGGCCACCGTGGGCCTGTGGCCGGGTGGAACTGTGCCGCACGGGGCCTGGCAGGTGGCAGTGATGCTCCTCCTGGTTGTCTCCAATGACACGTTTGGCTACCTCGTCGGCGCGTCGCTCGGAAAGCACCCCATGGCGCCAAAAATCAGTCCCAAAAAGTCCTGGGAAGGCTTCGCCGGATCCATTGCCGGCGCCATGCTGATCGGGATCCTGGCAAGCATCTTCCTGCTCGGCAAACCGTGGTGGGTAGGCGTGGTACTGGCGGTGGGCCTTGTTGCCGCCTCCACAGCGGGAGACCTGGCGGAATCCATGGTCAAACGCGAGCTGGGAATCAAGGATATGAGCAGCATCCTCCCCGGTCATGGCGGGGTGATGGACCGGCTGGATTCCATCGTTTTCGCAGCACCAGTGGCGTTTGTGCTCTACGGGCTGGTCGCAGCAGCCTGA	MSQAEQAPAQRARMKGRQPRRNPTPKAGRNLPAATVVGLAMLFGVLGGLVFLPLGFVAVTTGFAVFGVWEIYRALEANGTRMPIVPVMTGTLAMPFAAYFGGLESLLFAMLLSCVAVLLWRSVESAAGSANSIFAGVFTLGWVPFFISFAALPLHASGGAATVGLWPGGTVPHGAWQVAVMLLLVVSNDTFGYLVGASLGKHPMAPKISPKKSWEGFAGSIAGAMLIGILASIFLLGKPWWVGVVLAVGLVAASTAGDLAESMVKRELGIKDMSSILPGHGGVMDRLDSIVFAAPVAFVLYGLVAAA	PGPT0007685_1897	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
D1-29_01515	585			hypothetical protein	GTGGCAGTGGATTTTCAACGGCAGATTCCCGCGTCCTTTGAACGCGTGCAGCGCAACGACTACGGCTATAACGCCAAGCAGGTGGACCAGTTCCTCCAGCGCGCCCGCGTCTCGCTGGAATCGCCGAAGGCGGCCGTCCACGTCATTACGAGTTCCGATGTGCGTTCAGTCTCCTTTGACCCCGTCAAGGGCGGGTACTCTGCCGCCGTCGTGGATGCCGCCCTTGACCGGCTGGAAGACGCTTTCGCGCGCCGTGAACGCGACGAACTGATTGCCTCGAGTGGCGAAGAAGCCTGGCTGCGCCAGATCGGACGGCTCTCCGGGATCCTGCGCGGCAGGCTGCACCGGCCCGACGGCGACCGCTTCCGCCGGCCGTCGAAGAACAAGGCCCGCAGTTACAACATCGCGGACGTGGACAAGCTCTGCCACCAGCTGATCGGCTACCTGGAGGAGGACAAGCCGCTCAGCGTGGACAACGTCCGCCGGGCCGTCTTCCGGCCGGCAACAGGCCAGGACGGGTACGAGGAAAACCAGGTGGACGCGTTCCTGGACCGCGTGGTTGAACTGATGGCGGCCATCGACTGA	MAVDFQRQIPASFERVQRNDYGYNAKQVDQFLQRARVSLESPKAAVHVITSSDVRSVSFDPVKGGYSAAVVDAALDRLEDAFARRERDELIASSGEEAWLRQIGRLSGILRGRLHRPDGDRFRRPSKNKARSYNIADVDKLCHQLIGYLEEDKPLSVDNVRRAVFRPATGQDGYEENQVDAFLDRVVELMAAID	PGPT0014806_11	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014806-gpsB-NA	NA	NA
D1-29_01516	1503	actP	COG4147	Cation/acetate symporter ActP	GTGATTCCGGCCGCTGATCCTGCCGTAAATCCCGCCGTTAATCCTGCCGTTGGCGTGGTGGCCTTGGTGGTCGTTTCGCTGGCCACTGCGGTGATCGGCTTCTACGGCCTCCGGATCTCACGCACCACCGGCGATTTTTACGTCGCCTCCCGGACCGTGCCGCCATGGTGGAATGCCTCAGCGATCGGCGGCGAATACCTCTCCGCGGCCAGCTTCCTGGGCGTTGCCGGGCTGATCCTGCTGTCGGGAACCGATGCGCTGTGGTTCCCCGTGGGCTACACGGCCGGATACCTGATGCTGCTGCTTTTTGTGGCCGCCCCGCTGAGGCGTTCGGGAGCCTACACCATCCCCGACTTCACCGAGGCACGGCTGGATTCGCGGGCGGTCCGCAGGGTCACCAGCCTGGTGGTGGTTGTGGTGGGGTGGCTGTACATCGTTCCCCAGCTCCATGGCGCGGCCCTGACCATCCGGATTGCCACCGGCCTGCCATCCTGGGTGGGTTCGGTCTCCGTGGTGTTTGTTGTGTGCCTGACGGTTGTGGCCGGCGGCATGCGCTCCATCACGTTTGTGCAGGCCTTTCAGTACTGGCTCAAGCTCACGGCTCTGGCGGTGCCCGCCGTTTTCATCATGTTCGTCCTTGCCGGAAACGGGACGCCCGCTGTTGCCCAAGCCGCCGTCAACCCCACCGGGCTGTCACCCGCCGGCCCCTACCAGAACATCTCGCTCCTGGTGGCGCTCCTCTTTGGGACGCTGGGGCTGCCACACGTCCTGGTGCGCTTTTACACCAATCCTGACGGGCAGTCTGCCCGGCGGACCACCCTGATCGTGTTGGGCCTGCTCTCCGTCTTCTACCTGTTTCCCACCGTGTACGGTCTGGCGGGCCGGATGTTCGCCCCGGAGCTTGCCAGATCGGGACAGGCCGACGCCGTGGTGCTCCTCCTGCCGGGCCAGCTGGTGGGCGGAACGGCCGGCGATCTGCTGTCTGCACTCGTGGTGGGCGGCGCTTTTGCCGCCTTCCTCTCAACCACGTCCGGACTGGTGGTTTCGCTGGCCGGTGTCATCAGCCAGGACGTGCTCGGTGGCAATGTCCACGGGTTTCGGTTGGCCGCCGTCATTTCTGCAGTGGTCCCGTTGGGTTTCGCCCTGATGACGGACTCGTTTGCGCTCGCAGGCAGCGTTGGCCTGGTGTTCGCGTTCACCGCCTCCACCGTTTGCCCCGTCCTGCTGTTGGGCATTTGGTGGCGGGGTCTTACCGACGCCGGTGCCATCGCCGGGATGGTGACTGGCGCCCTGCTCTGCGGCGGTGCCATGATTTACGGCGCACTGGCGGGGGCTGCCGGCACTCCGTCCTGGCTGGCCCAGCCGGCGGCATGGACTGTGCCGGCCGCCTTTGCCGTGATGGTACTCGTCTCCCGCGCCACCAAGGGCCGCGTACCCCGGACGATGTCGCGGATCATGACCCGCCTGCACACCCCGGAGAGGCCTTTGGTCACCGAACGCTAG	MIPAADPAVNPAVNPAVGVVALVVVSLATAVIGFYGLRISRTTGDFYVASRTVPPWWNASAIGGEYLSAASFLGVAGLILLSGTDALWFPVGYTAGYLMLLLFVAAPLRRSGAYTIPDFTEARLDSRAVRRVTSLVVVVVGWLYIVPQLHGAALTIRIATGLPSWVGSVSVVFVVCLTVVAGGMRSITFVQAFQYWLKLTALAVPAVFIMFVLAGNGTPAVAQAAVNPTGLSPAGPYQNISLLVALLFGTLGLPHVLVRFYTNPDGQSARRTTLIVLGLLSVFYLFPTVYGLAGRMFAPELARSGQADAVVLLLPGQLVGGTAGDLLSALVVGGAFAAFLSTTSGLVVSLAGVISQDVLGGNVHGFRLAAVISAVVPLGFALMTDSFALAGSVGLVFAFTASTVCPVLLLGIWWRGLTDAGAIAGMVTGALLCGGAMIYGALAGAAGTPSWLAQPAAWTVPAAFAVMVLVSRATKGRVPRTMSRIMTRLHTPERPLVTER	PGPT0001400_3386	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393	NA	NA
D1-29_01517	351			hypothetical protein	ATGACGCGCATCCGGGTCACCGCGCCCCCATCAGCCGCCCGGCCGCCGCGTGAGACGCCCGAGGCCGCGCAGGAGTCAGAAGTGGGCCAGGTGTTTGTCAGGTCGCTCATCCGCTCCCAGCTGCGGCTGGCCCTGGTGGTGGGTTTGGGGTTCCTGCTGATCCTCTCCGCTTTTCCGTTGCTGCTGATTGCTGTTCCGGGCCTTGCAGAAATGCGGGTGGCCGGCATCCCGTTCGACTGGCTGCTGATCGGCGCCGGCATCTATCCGCTGATCGGCCTGAGCGCCTGGCTGTTCATCCGGTCAGCAGCCCGGAATGAAGCCAGGTACCGAGAGTTGGCCGAGGACGCGTGA	MTRIRVTAPPSAARPPRETPEAAQESEVGQVFVRSLIRSQLRLALVVGLGFLLILSAFPLLLIAVPGLAEMRVAGIPFDWLLIGAGIYPLIGLSAWLFIRSAARNEARYRELAEDA				NA	NA	NA	NA	NA
D1-29_01518	720	btsR	COG3279	Transcriptional regulatory protein BtsR	ATGATTAATGTCCTCGTCGCGGACGACGAGCTGCCGGCCATCGAGGAGTTGGCCTACCTCCTGGGCAGGGATGACCGGATTGGGGTCATCCACCGGGCCTCCTCCGGCAGCGAGGCCCTGCGCGCGCTCGCCACCCATGCCGTTGATGCGGTTTTCCTGGACATCCATATGCCTGCCGTTTCGGGCCTCGACATTGCCCGCGCCATCGCCCGCAGCAGCAACCCGCCGGTAGTGGTCTTTGTGACGGCGGATGAGGACTGTGCCCTGGAAGCCTTCGAGCTCGCCGCCGTGGACTACCTGCTCAAGCCGGTGCGCGCCGAACGGCTGGCCCGTTCGGTGGGCAGGATCAGTGAACTGATGCGCGACGGCGGCGAGGCACCTGAGATGATCACCGTGGACCAGGGCGGCACCACCCGGATGATCCGGCGGGACGATGTCACATATGTCCAGGCCCAGGGCGACTACGCCAGGCTGCACACGTCCGAGGCCAGCTTCCTGATCAGGATTCCGTTGGCCGACCTGGAGCAGCAGTGGGCCGAAGCCGGCTTTATCCGCACCCACAGGTCCTACCTGGTTGCACTGAAGCATGTCACCTCCATGAAGCTTGCCGCGGACAAGCCCAGCGTCACCGTGGCGGGCGCCGGGCTGCCCATCAGCCGCCGCCACCTTCCCACGGTCCGGGAAAAGCTGGAAGCTACCCGGCTCCGGCCACAGGCATGA	MINVLVADDELPAIEELAYLLGRDDRIGVIHRASSGSEALRALATHAVDAVFLDIHMPAVSGLDIARAIARSSNPPVVVFVTADEDCALEAFELAAVDYLLKPVRAERLARSVGRISELMRDGGEAPEMITVDQGGTTRMIRRDDVTYVQAQGDYARLHTSEASFLIRIPLADLEQQWAEAGFIRTHRSYLVALKHVTSMKLAADKPSVTVAGAGLPISRRHLPTVREKLEATRLRPQA	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
D1-29_01519	1254	btsS	COG3275	Sensor histidine kinase BtsS	ATGCTGCGGCAAACGGCGCCCGCCGCTACGCTGGGCAGCATGCCGGACTCCCCTCTCCTGACCGCCGCCGCCCTTGCCGTGATAGCGCTGGCGATTGCCGCCGTCGTCGGTGTGGGACTGAAGGTGCTGCGGTCATTCCGTGAGCTGGGTACCGACGCAGAACGCGCAACCTACACCACCCTTCACGCCGCGTCCCGGGCGGGGCAGCATCTGCGTGCCGGCCTCAACCCTGCGGGGGCAGCCAAGGCCGCACGCCAGCTGCGCAACCTGCTGGGCTGCGACGCCCTGGCCATCACCGACACTGCGGGGGTGCTGGCCTGGGACGGTTCCGCCGAGGACCTGAAGCCCCACCTGATGGACCTGGCGGCAGGCGTCCTTGCCGGCGGCAGGACAGCCATGGTCCAGGCGACAGCCATAGTCCAGGCTCGTGATGCGGATCCGGCGGCCGGCGGTCCCCCGGTCCGCCTGGAAGCCGTGATAGCCCCGATCCGGGCCAACGCACGGGTGGTTGGCGTGGTGGCGGCGTTTGCCCCGTCAGTGGGTGCCGGCCTGGTCCGGGCTGTCAGTGAGGTGGCCGACTGGGTTTCGGTACAGGTTGAACTGGCGGAGCTGGACGCATCCCGGACACTCCTGATGGAAGCCGAAGTCCGCGCCCTCCGGGCCCAGATCAGCCCGCACTTCATCTACAACTCGCTCAACGCCATCGCCTCGTTCATCAACACAGATCCGGCCCGGGCCCGGGAGCTGGTGGTCGAGTTTGCCGATTTCACCAGATACTCCTTCCGGCGGCACGGGGACTTCACCACGCTCGCCGAAGAACTCCGCTGCATCGACCGGTACCTGCTGCTGGAGCGTGCGCGCTTCGGGGACCGCGTGCAGGTCAGCCTCCGGATCGCACCGGAAGTCCTGAGCACTGTTATTCCGTTCCTGAGCCTCCAGCCGCTGGTGGAAAACGCCGTCCGCCACGGTCTGGAGGCGAAGGAAGGGCCGGGCCGGATCAGCATTGCGGCGCATGACTCCGGCGCCTACGCGGAAGTCACCATCGAGGACGACGGCGTAGGCATGGATCCGGCGCAGCTCAGGTCAGTGCTGGCGGGGCACAGCGACGGCGAGCATGTGGGACTGCGCAACGTGGACGCCCGCCTCCGGCAGGTTTACGGCGAAGGCCATGGCCTGGTCATCGAAACCGCCCCCGGCGAGGGGACCCTCATCACCATGCGTGTGCCCAAATCCCAGCCGGGCCATGACGCCTGA	MLRQTAPAATLGSMPDSPLLTAAALAVIALAIAAVVGVGLKVLRSFRELGTDAERATYTTLHAASRAGQHLRAGLNPAGAAKAARQLRNLLGCDALAITDTAGVLAWDGSAEDLKPHLMDLAAGVLAGGRTAMVQATAIVQARDADPAAGGPPVRLEAVIAPIRANARVVGVVAAFAPSVGAGLVRAVSEVADWVSVQVELAELDASRTLLMEAEVRALRAQISPHFIYNSLNAIASFINTDPARARELVVEFADFTRYSFRRHGDFTTLAEELRCIDRYLLLERARFGDRVQVSLRIAPEVLSTVIPFLSLQPLVENAVRHGLEAKEGPGRISIAAHDSGAYAEVTIEDDGVGMDPAQLRSVLAGHSDGEHVGLRNVDARLRQVYGEGHGLVIETAPGEGTLITMRVPKSQPGHDA	PGPT0026305_1379	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
D1-29_01520	381			hypothetical protein	ATGGGTCACGATGCCCACACCCCGGACGCTGCGGCGGCCGTGGACTTCGAACAGGTCCAGTCGACTGAGCGGTTCCAGGAACTGCGCAAACGTCACCGGAGCTTTGTTTTTCCCATGGCCATTGCATTTCTGCTGTGGTACTTCGCGTACGTCCTGCTGGCCGACTATGCCGTCGGCTTCATGTCCACCAAGGTGTGGGGCAACATCAACATCGGCCTCATTCTGGGGCTGCTGCAGTTCGTCTCCACGTTCGCGATCACCGGCTGGTACGTCAGCTACTCCAACCGGAGGCTTGACCCCATCGCCGCGGAGATCCGGAACGAAATTGAAGGCCATGAGTTCGACAGGCACGGCAACGTCATCGCAGGAGTGAGCAAATGA	MGHDAHTPDAAAAVDFEQVQSTERFQELRKRHRSFVFPMAIAFLLWYFAYVLLADYAVGFMSTKVWGNINIGLILGLLQFVSTFAITGWYVSYSNRRLDPIAAEIRNEIEGHEFDRHGNVIAGVSK				NA	NA	NA	NA	NA
D1-29_01521	1617	mctC	COG4147	Monocarboxylic acid transporter	ATGATCGGGATACCCGCGGCGGTTGATGTTGCCGCCCTCAAAGACACCACCCTTCTTAACATGGGGATCTTCGGACTGTTCGTCGCGGTGACCATGGTCATTGTGTTCAGGGCCAGCCGGAACAACAAAACCGCCGCCGACTACTACGCCGCGGGCCGCTCCTTCACCGGATCCCAGAACGGTACCGCTATCGCAGGCGATTATCTTTCCGCGGCATCGTTCCTGGGCATTACAGGCGCCATTGCCATCAACGGCTACGACGGCTTTATGTACTCCATCGGCTTCCTGGTGGCGTGGCTGGTGGCGCTGCTGCTGGTGGCTGAACTGCTCCGGAACACGGGCAAGTTCACCATGGCCGATGTGCTTTCCTTCCGGCTGAAGCAGCGGCCCGTCCGCATCACAGCAGCCATCTCCACGCTTGCCGTCTGCTTCTTCTACCTGCTGGCGCAGATGGCCGGAGCGGGCAGCCTGATTTCACTGCTTTTGGGTATCAGCGACTGGGGCGGCCAGGCCCTGGTGATCATGGTCGTCGGCGCCCTGATGATCATGTACGTGCTGATCGGCGGGATGAAGGGCACCACCTGGGTCCAGATCATCAAGGCGATCCTGCTTATTGCCGGCGCCGCAGTGATGACGTTCTGGGTGCTGGCCATCTACGGGTTCAACCTCTCCAGCCTCCTCGGGGCGGCAGTGGACACAGCCAACTACCCCGCTGTGCTGAATCCCGGACTGCAGTACGGCAAATCCGAAACCTCCAAGCTGGACTTTATGTCCCTGGGCCTCGCACTGGTCCTGGGCACTGCAGCCCTTCCGCACGTGCTGATGCGCTTCTACACCGTCCCCACGGCCAAGGAAGCCCGGAAGTCCGTGGTCTGGTCCATCTGGCTGATCGGCCTGTTCTACCTGTTCACACTGGTTCTCGGGTACGGCGCCGCAGCGCTGGTGGGTGCAGACACCATCAAGTCCGCTCCAGGCGGCGTAAATTCCGCCGCGCCGCTGCTGGCCTTCCACCTCGGCGGGCCGCTCCTGCTGGGCTTCATCTCGGCCGTCGCCTTCGCCACCATCCTGGCCGTGGTGGCCGGCCTGACCATCACCGCGGCAGCCTCCTTTGCCCACGACATTTACGCCAGTGTCATCTCCAAGGGCAAGGCCGACGCCGACACGGAAGTTAAGGTGGCCAGGCGCACCGTTGTGGTCATTGGAGTCATGGCTATCCTGGGCGGCATTCTTGCCAACGGGCAGAACGTTGCCTTCCTGGTGGCCCTGGCTTTCGCGGTGGCCGCCTCGGCGAACCTCCCCACCATCATCTACTCGCTCTTCTGGCGCCGGTTCACCACCCAGGGTGCGGTGTGGAGCATGTACGGCGGTTTGGGATCGGCCATTGTCCTGATCATCTTCTCGCCCGTGGTTTCGGGGGCGGCGACCTCCATGATCAAGGACGCCAACTTTGCCCTCTTCCCGTTGAGCAACCCCGGCATCGTTTCCATTCCGCTCGCCTTCCTGCTGGGCTGGCTTGGCACGGTGCTGGATAAGAAGCGCGAGGACAGCGGCAAGCAGGCCGAGATGGAAGTCAGGTCACTCACCGGGGTTGGGGCCGAGAAGGCCTCCAACCACTGA	MIGIPAAVDVAALKDTTLLNMGIFGLFVAVTMVIVFRASRNNKTAADYYAAGRSFTGSQNGTAIAGDYLSAASFLGITGAIAINGYDGFMYSIGFLVAWLVALLLVAELLRNTGKFTMADVLSFRLKQRPVRITAAISTLAVCFFYLLAQMAGAGSLISLLLGISDWGGQALVIMVVGALMIMYVLIGGMKGTTWVQIIKAILLIAGAAVMTFWVLAIYGFNLSSLLGAAVDTANYPAVLNPGLQYGKSETSKLDFMSLGLALVLGTAALPHVLMRFYTVPTAKEARKSVVWSIWLIGLFYLFTLVLGYGAAALVGADTIKSAPGGVNSAAPLLAFHLGGPLLLGFISAVAFATILAVVAGLTITAAASFAHDIYASVISKGKADADTEVKVARRTVVVIGVMAILGGILANGQNVAFLVALAFAVAASANLPTIIYSLFWRRFTTQGAVWSMYGGLGSAIVLIIFSPVVSGAATSMIKDANFALFPLSNPGIVSIPLAFLLGWLGTVLDKKREDSGKQAEMEVRSLTGVGAEKASNH	PGPT0001400_2699	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393	NA	NA
D1-29_01522	714			hypothetical protein	ATGGACACAGCTGCCGTTTCCCAGCCTGCAACGTCCCAGTCTGTGGCCAGGGAACCTGTGGCCTTCGATCCCGCCGCCGGTTCCACGGCCGTGGTCCGGCTCTTCGCGGGCTTTGCAGGTTTCGGGGCGGGTTCGGTAAATCTCGCCGTTTCCTCAAGCCTGCTTGCCGGTCCGGATGGATCCGGCGATTCGGGCCAGGTCCTCTTCGGAGTCCTGGCCGGGCTGTGGGGAACGGCACTGATCGGCGGGACGGTCCTCGCCCTGAGCCGGGGGCGGATCCCGGCGCCGGGCCTGTCGTTGATGATGCTGATGGTTGCCGCCGCAGTCCACGCGGTGGCCACTATCTGGCGAGGGGAGACCGGATCGAGCCTCAGCCTGAGCCATCTGACGGCGCTGCTGCTCACACTCATGATGGTTGGATCCCTCGCCTGGCTGCGCCGGCAGGATCGACGGCTGGGCCGCGGGAGGGTTAACGGCGCGGACGAGGGCGGGGCTCCCGTCGTCGTCCGGCCGGGACGCCTCCTGCTCGGTGCTTTCGCCGGTGCCGTGCTGGTGGCAGGAATCGCGACGCCGGGCCTTGCAGCCTCCACGGCTGGACAGTTTGCGGTCCCCCACGGTCAGCATGGTCAGGACAGCGGGCACGGTCAGCATGGTCAGGACAGCGGGCCTGCAGCCCCTGTCGACCACAATCAGCCAGGCCAGCATCAGCACTAA	MDTAAVSQPATSQSVAREPVAFDPAAGSTAVVRLFAGFAGFGAGSVNLAVSSSLLAGPDGSGDSGQVLFGVLAGLWGTALIGGTVLALSRGRIPAPGLSLMMLMVAAAVHAVATIWRGETGSSLSLSHLTALLLTLMMVGSLAWLRRQDRRLGRGRVNGADEGGAPVVVRPGRLLLGAFAGAVLVAGIATPGLAASTAGQFAVPHGQHGQDSGHGQHGQDSGPAAPVDHNQPGQHQH				NA	NA	NA	NA	NA
D1-29_01523	405			hypothetical protein	ATGCGCACATCACCGAACCGCCTTATCGCCACCGTCTTCGGCGCTGTCTACCTCCTTGTTGGTCTCCTCGGCTTCGCCGTGACCTCCGGGATAGGCTTTTTCGCCACCGAAGGCGCCAACCTCATCATCTTCGAGGTCAACCCTCTGCACAACGTCATCCACCTGGCCATCGGTGCGGCTCTGCTTTATGCCGGGCTGAAGAGCACCACGCTCGCACGCACCGTGAACGCCGGCGTTGGGGCCGTGTACCTCCTGGTGGGCGTTCTTGGTTTGTTCCTGTTGAGTTCGCCATTGAACATCATTGCCCTTAACGGCGCGGACAATGTGCTGCACCTGGCCAGTGCCGTACTGCTCCTTGGCGTGGGCCTCTCGCTGGACAAGTCCCCCGCCACCGCCCGGGCCTAA	MRTSPNRLIATVFGAVYLLVGLLGFAVTSGIGFFATEGANLIIFEVNPLHNVIHLAIGAALLYAGLKSTTLARTVNAGVGAVYLLVGVLGLFLLSSPLNIIALNGADNVLHLASAVLLLGVGLSLDKSPATARA				NA	NA	NA	NA	NA
D1-29_01524	453			hypothetical protein	ATGATCGTTAGACCGGCCCGGCCCGGAGACGTTACGGGGCTGGCCGCATTGAAGGAGGCTTGGGCCCAACTGTCCCGCCCAGTATCCGAATCCGAGCGGCGAGAGTTTGCTGAAGACCTGGCCGCCTGGATGCGTTCACAAGGGCAGGCGCTAATGTGCCATGTGGCCGAGATCGACGGTCAGCTCGTCGGCATGGCGTGGCTGGTGCTCTTCGAACGGGTTCCCGACATTCATGATCGAACCCGCCTCACAGGTGACCTTCAGAGCGTGTACGTGCTTCCACAACACCGGGAACGAGGGATCGGCCGCGCGCTCGTGCGCTCATTGATCGACAGGGCGGATGAGCGAGGCGTTCCGAGAGTGACTGTGAGCGCGAATGCCGCCGCCGCTGGGATGTATTCAGCAGAGGGCTTTGGAACTGCACCCTACCTACTTGAACGTCCTCGTCGGTAA	MIVRPARPGDVTGLAALKEAWAQLSRPVSESERREFAEDLAAWMRSQGQALMCHVAEIDGQLVGMAWLVLFERVPDIHDRTRLTGDLQSVYVLPQHRERGIGRALVRSLIDRADERGVPRVTVSANAAAAGMYSAEGFGTAPYLLERPRR				NA	NA	NA	NA	NA
D1-29_01525	648			hypothetical protein	TTGAGCATTCCTCGGGAACCGTACCAGCCCGACGCCGGATCAGCGGCGGGGCAGGCAGCGCCGGCATCGCCGGCAGCTCCGGTGGCACCGGCATCGCCCCAGACGCAGCCTGCGCCTCCAGAGCATCAGCCTGGCGGCGGGTATCCGGCCACGGCTCAAAGCGGGATCGCGGGCCACGACTCTAACCCCTTCGGACTCCCCGGCCAGCAGCCTCCCGTCAAAAGCCGCAGGAAGCTGTGGATCATCCTGGGAAGCGCCGGCGGGGTCCTGCTGCTGGTCATCATTGGCCTGATCATTCTGGTCAACGTTGTGGGCAGTGCCACGAACCAGGCCCGGGGACTCGCAGACGACTTCACCAAGCTGGTCATTTCCGGCGACACCGACCAGGCGTATGGCTACCTTGATCCTGCCCTGCATGACCAGCTGACGAAGGAGTCCTTTATTGAGGGGATAGCCACCCTGGAACTGAATGACTCCTGCAAGCCTTCGTACAACGACGTCCAGGTTACGTCAGAGAACGGCACCAATTCTGCGGATATCGCCGGCCTCATCACCTGCGACAACGACAAAAAAATTGACCTGGCCTACCGCTTCGAAGGCCAGGACGAGCTCAAGATGATCAACATCAAACTGCGTCCCCAGGAATAG	MSIPREPYQPDAGSAAGQAAPASPAAPVAPASPQTQPAPPEHQPGGGYPATAQSGIAGHDSNPFGLPGQQPPVKSRRKLWIILGSAGGVLLLVIIGLIILVNVVGSATNQARGLADDFTKLVISGDTDQAYGYLDPALHDQLTKESFIEGIATLELNDSCKPSYNDVQVTSENGTNSADIAGLITCDNDKKIDLAYRFEGQDELKMINIKLRPQE				NA	NA	NA	NA	NA
D1-29_01526	474			hypothetical protein	ATGCAAGCTTTGGATGGCACAGACACTCGCCTGCTTTCAGCACTCGCGAACGACCCCCGCCGCACTGTTGTGGCACTCGCGCAGAAGCTGGGACTGTCCCGGAACACCGTGCAGGCGCGGATGGCGCAGTTGGAGAAAAAGCACGTCTTCCTCTCCTTCGAGCGGCGCATCAACCCGGCGTCACTGGGTTACCCCCTGATGGCCTTTATCTCAGTCCATGTCCAGCAGCAGAAGCTGGGTCAGCTGGCCCATGACCTTGCCGGCGTTCCCGAGATCTTGGAAGGGTATGGCCTCACCGGTTCCGCCGATCTTCTCCTCCGCGTTGTGGCCCTGGACGCCGAGGACCTGTTCAGGATCAATGGCAAGATCCTGGCCTGTGATGGCGTAGACCGTACGGACACTGCCCTGGCCATGGGCGAGCTCATTCCTTTCCGCATCCAGCCCCTGCTGGACCGGGGATCGGGCGAGGGGTGA	MQALDGTDTRLLSALANDPRRTVVALAQKLGLSRNTVQARMAQLEKKHVFLSFERRINPASLGYPLMAFISVHVQQQKLGQLAHDLAGVPEILEGYGLTGSADLLLRVVALDAEDLFRINGKILACDGVDRTDTALAMGELIPFRIQPLLDRGSGEG				NA	NA	NA	NA	NA
D1-29_01527	1281	bkdA_1	COG1071	3-methyl-2-oxobutanoate dehydrogenase subunit alpha	ATGGTCACAATTATCCGGGGCAACGGCGCCCGGGGGCCGGCTCCGGCGGGACCACAAGTTCACAAGGAGCGGGTCAAACGACGTGAGAAGGTGCGGGCGATCGTGTCTACAGACGAAGCGGGCCAGGGCGGACCAAGCTCCCGCGGCCAGGGCAGCAGTGCAGAACACCACGGCGGATCCGGCAGGAGTCTGATCCAGCTGATCACCCCGGCGGGGGAGCGGATCAGCCATCCGGAATTCGATCCCTGGGTACAGGACATCACGGACGAGCACTTGTGTTCCCTCTATGAGGACATGACGGTGATCCGCCGGATCGACGTCGAGGCCACCGCCCTCCAGCGGCAGGGTGAACTGGCCCTCTGGCCTCCGCTGCTGGGCCAGGAGGCATCGCAGATCGGTTCGGGCAGGGCCCTGCGCCAGGACGACTTTGTCTTTTCCAGTTACCGGGAGAACGGCGTGGCATATTGCCGGGGCGTTGACCTGACCAGCATCATCCGGGTGTGGCGGGGAAACGCGTCATCCGGGTGGGATCCGTACACCATCAACATGGCAACCCCACAGATCATCATCGGCGCCCAGACCCTTCACGCCACGGGGTATGCCATGGGGATCCAGAATGACGGCGCGGACGCCGTGGCTGTGACCTACTTTGGCGATGGCGCAACCAGCGAGGGCGACCTCAACGAGGCCATGGTTTTCGCTGCCAGCTTCCAGGCGCCGGTGGTCTTCTTCTGCCAGAACAACCACTGGGCCATCTCGGAACCCGTCCGGCTGCAGTCCCACGTACACCTTGCGGACAGGGCCACCGGCTTCGGCATTCCGAGCCTGCGGGTGGACGGAAATGATGTCCTGGCCGTGATGGCAGCGACACGCGTAGGCCTGGACCGGGCCAGGCGCGGGGGCGGGCCCACCTTCATTGAAGCCGTCACTTACCGCATGGGCCCGCACACCACCGCCGATGACCCCACTCGCTACCGGGATGCCAACGAGCTCGAGGACTGGGCCGCCAAAGATCCCATCAGACGGGTCAAATCCCTGCTGGAACGCAAGGGCCTCCTGACTGATGAACTGCAGCGGCAGGTCGAGGAAAAGGCCGACTCTGTGGCCCGCCAGATGCGCCTGGCCTGCACGTCCATGCCAGAACCGGAGCCCCTGGACGTCTTCAAGCACGTCTACAGCTCGCCCAACACGTGGCTCGACCGGCAGCAGGACCACTACTCCCGTTACCTGGCTTCCTTTGGCGACCCCGCAGGAGCCCCGTCAGAAGAAGGTGCACGCTGA	MVTIIRGNGARGPAPAGPQVHKERVKRREKVRAIVSTDEAGQGGPSSRGQGSSAEHHGGSGRSLIQLITPAGERISHPEFDPWVQDITDEHLCSLYEDMTVIRRIDVEATALQRQGELALWPPLLGQEASQIGSGRALRQDDFVFSSYRENGVAYCRGVDLTSIIRVWRGNASSGWDPYTINMATPQIIIGAQTLHATGYAMGIQNDGADAVAVTYFGDGATSEGDLNEAMVFAASFQAPVVFFCQNNHWAISEPVRLQSHVHLADRATGFGIPSLRVDGNDVLAVMAATRVGLDRARRGGGPTFIEAVTYRMGPHTTADDPTRYRDANELEDWAAKDPIRRVKSLLERKGLLTDELQRQVEEKADSVARQMRLACTSMPEPEPLDVFKHVYSSPNTWLDRQQDHYSRYLASFGDPAGAPSEEGAR	PGPT0008861_1389	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
D1-29_01528	1011	bkdB_1	COG0022	3-methyl-2-oxobutanoate dehydrogenase subunit beta	ATGACCCAGATGACCTTTGCCCGCGCCATTAATGCCGGCCTGCGCAAATCCCTCGAGAACGATCCCAAGGTCATCCTGATGGGGGAGGACATCGGTACCCTCGGTGGTGTTTTCAGGGTGACGGACGGGCTCCAAAAAGATTTTGGCAAGCATCGTGTGGTGGATACTCCGCTGGCCGAATCCGCGATCATCGGCACCGCCGTCGGCCTGGCCTACCGGGGCTACCGCCCGGTGGTGGAAATCCAGTTCGACGGTTTCATCTACCCGGCGTTCGACCAGATCGTGAGCCAGGTGGCCAAGCTGCATTACCGGACCCAGGGTGCGGTCAAAATGCCCATCACCATCCGCGTACCTTTTGGCGGCGGCATTGGCTCGCCCGAGCACCACTCGGAATCGCCGGAGGCGTACTTCACGCACACCTCCGGCCTGCGGGTGGTCAGCGTATCCAATCCGCAGGATGCGCACACGGTCATTCAGCAGGCCATTTCCTGCGATGATCCGGTGCTTTATTTCGAACCCAAGCGCCGCTACCACGACAAGGGCGAGGTGGATGAGTCCGTCGATCCGCGGACCGCGCTGCCGATGGACACGGCCCGGGTGCTCACGCAGGGCACGGATGTCACCCTGGTGGCCTACGGCCCCCTGGTCAAGACCGCGCTGGATGCCGCCATCGCCGCCGCGGACGAAGGAGTGTCCATCGAAGTCATCGACCTGCGCTCGCTTGCGCCCGTGGATTACGCCACGCTGGAGGCCTCGGTGCGGAAGACTGGCCACCTGGTCATTACCCATGAAGCAGGCCAATCTGGCGGGGTGGGGGCCGAGGTTGCGGCCAGTATCACCGAACGGTGTTTCTACCACCTGGAGGCAGCGCCGGTCCGGGTTACCGGCTTTGACATTCCCTACCCCTACTCCAAGCTGGAAATGCATCACCTTCCGGGGCTGGACAGGATTCTTGACGGTGTGGACCGCGCCCTGGGCCGCCCCAACTCGCTCAGCGGGCTGGAAGGGTGA	MTQMTFARAINAGLRKSLENDPKVILMGEDIGTLGGVFRVTDGLQKDFGKHRVVDTPLAESAIIGTAVGLAYRGYRPVVEIQFDGFIYPAFDQIVSQVAKLHYRTQGAVKMPITIRVPFGGGIGSPEHHSESPEAYFTHTSGLRVVSVSNPQDAHTVIQQAISCDDPVLYFEPKRRYHDKGEVDESVDPRTALPMDTARVLTQGTDVTLVAYGPLVKTALDAAIAAADEGVSIEVIDLRSLAPVDYATLEASVRKTGHLVITHEAGQSGGVGAEVAASITERCFYHLEAAPVRVTGFDIPYPYSKLEMHHLPGLDRILDGVDRALGRPNSLSGLEG	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
D1-29_01529	1506	pdhC_1	COG0508	Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGATCAAGGAATTCAGGCTTCCGGATCTCGGCGAAGGACTCACCGAATCCGAAATCCTTAGCTGGAAAGTCGGCGTTGGGGACACCGTCAAACTCAACCAGGTCATCGCCGAGGTTGAAACCGCCAAAGCCGTGGTTGAACTGCCTTCCCCGTTCGCCGGCGTCATCACCGCCCTCCACGAGCAACCCGGCACCATCGTGGAGGTGGGCAAGCCTATCGTCTCCTTTGAAGTACCGGACGACGCCGGTGGGTCACCTCCTGCGGGTACGCCCCCTCAGCGGGACACCGGGGGCGTACCTGCGGAATCGGGCGTCAATGGGAATCCCGGACCCAGGGTGACTGAACCTGCGACGGCGGGAACGGCTGAGGCGGGCCCCGCCAAGCGGCAGGCGAACCTGGTTGGCTACGGCGCCGTCGTCGAAAGTTCCAGCCGCCCGGCCCGGCGGCCACGGACCATGATTTCAAAACATCCGGTCGCCCACGTCCCCGCAGTTAACGCCCCTGTGCCCCCACAGCCTGCCGTTGAAACGTCGGCACCTGCGGCCGGTGCCCCCGGTGCAAGTGGCGAACGGCCCAAATCCACTCCTCCCGTCCGCAAGCTGGCCAAGGACCTCGGCGTTGAGCTGGACACTGTGACGGGAACCGGACCCGGCGGACTGATCACCCGGGAGGACGTGCAGAACTTTGTGGACGGCGGCGGTCTGGCGGCAGCCCACCATGCCGTCAGGGTCCCCGAGGGAGAAATCCGCGACGGAGAAGTTCGCCATGGCGAAGTAGCAGCGCGGCAGGCGGGTACACCAGGCGAGCGGGAAGTCCGGATGCCCATCAAGGGCGTCCGCAAGTTCACAGCCGCTGCAATGGTCTCCAGCGCATTCACAGCACCACACGTGACCGAGTTCCTGACGGTGGATGTGACGCCCGGCATGGAGCTGCTCGACAAGCTGAAGGCCAGCCGAACTTTTGCCGGGCACAAGCTCACGCCGCTCACGCTCGTCGCAAAGGCCGTGCTGATTGCGCTGCGGCGGAATCCCTCGCTGAACTCACGGTGGGACGAAGAACGCCAGGAGATCGTGCAGTTCAACTATGTAAACCTGGGAATCGCAGCCGCAACCCCGCGCGGCCTCACAGTTCCCAATATCAAGGATGCTGACAGGCTGTCCCTGCTGGAACTCTCGGAGGCCCTGACCGGATTGACCGAGACGGCGCGGGCGGGCAAGACAACGCCCGCTGAGCTGTCCGGGGGAACTGTCTCCATCACCAACATCGGGGTTTTTGGGATCGACGCCGGAACGCCCATCCTGAACCCGGGCGAGGCAGCCATCCTGGCCATGGGTGCCGTCCGGAAAACGCCGTGGGAGTACCAGGGGGAGGTTGCCCTCCGCCAGGTCATGACGCTGAGCCTGTCCTTTGACCACCGGCTGGTGGATGGGGAGCAGGGCTCCCGCTTCCTGGCCGACGTCGGCGCCATCCTGGCCGAGCCCGGTATGGTCCTCACCATGGTCTAG	MIKEFRLPDLGEGLTESEILSWKVGVGDTVKLNQVIAEVETAKAVVELPSPFAGVITALHEQPGTIVEVGKPIVSFEVPDDAGGSPPAGTPPQRDTGGVPAESGVNGNPGPRVTEPATAGTAEAGPAKRQANLVGYGAVVESSSRPARRPRTMISKHPVAHVPAVNAPVPPQPAVETSAPAAGAPGASGERPKSTPPVRKLAKDLGVELDTVTGTGPGGLITREDVQNFVDGGGLAAAHHAVRVPEGEIRDGEVRHGEVAARQAGTPGEREVRMPIKGVRKFTAAAMVSSAFTAPHVTEFLTVDVTPGMELLDKLKASRTFAGHKLTPLTLVAKAVLIALRRNPSLNSRWDEERQEIVQFNYVNLGIAAATPRGLTVPNIKDADRLSLLELSEALTGLTETARAGKTTPAELSGGTVSITNIGVFGIDAGTPILNPGEAAILAMGAVRKTPWEYQGEVALRQVMTLSLSFDHRLVDGEQGSRFLADVGAILAEPGMVLTMV				NA	NA	NA	NA	NA
D1-29_01530	678	mce3R		Transcriptional repressor Mce3R	GTGCCCACCACACAGGCCGCGCAATCTGTCCAGCTCACCCCGTCAAAGCAGCGCAGCCAGGCCAGCCAGCGCACCCAGGCCACCCAGCGGAGCCAGGCCAAGGAAAACCGGCGGCAGGCCCTGCTTTCCGCTGCCGCGTCCCTTTTTGCGCTGAACGGCTACAACCGAGTCTCCCTGGAGGACCTTGGTGCTGCGGCGGGGGTCAGCGGTCCGGCGGTGTACCGCCACTTCACCGGCAAGCAGGCAGTCCTGGGTGACCTGCTCCTTACTGTCAGCCGTGACCTCCTCGACGGCGGCCGGCATGTGCTGGCCGAGACCACGGATCCGCTGGCCGCCTTGGGCCGCCTGGTGGCCTTCCAGGTGGACTTTGCGCTGGGCAAGCCTGACGTCATCCGAGTCCAGGACCGGGACTTCAGCAGCCTCACCGAGCAGGACCAGGCGGAGGTCCGGGCCCTGCAGCGCAGCTACGTTGAGCTCTGGGTTGAGGTGCTCGCCGCGCTGCACCCCTCCACTGATGCCGCGGAGCTGCGGATGCGGGCCCATGCCACCTTCGGCCTCATCAACTCCACGCCGCACTCTGTTCGCAGCCACGGACGCCGGGTGGCCCCCAAGACCGCCCGCCCGCTCCTGGAGGGCATGGCACTGGCGGCTCTGACCGCGGACGTCCGGACTAACTAG	MPTTQAAQSVQLTPSKQRSQASQRTQATQRSQAKENRRQALLSAAASLFALNGYNRVSLEDLGAAAGVSGPAVYRHFTGKQAVLGDLLLTVSRDLLDGGRHVLAETTDPLAALGRLVAFQVDFALGKPDVIRVQDRDFSSLTEQDQAEVRALQRSYVELWVEVLAALHPSTDAAELRMRAHATFGLINSTPHSVRSHGRRVAPKTARPLLEGMALAALTADVRTN				NA	NA	NA	NA	NA
D1-29_01531	1608	pccB	COG4799	Propionyl-CoA carboxylase beta chain	ATGGAGACCCTCGTCAGCCGGCTAGATGCCAGCAGTGAAACGTTTGCCGCCAACCATGCCGCCCAGGCCGCGCTCGCTGCCGAACTGCGGGACACGCTGGCCCAAACGGCGTTGGGTGGTCCAGAGAAGTCGCGTGAGCGGCATGTGGCCAGGGGCAAGTTGTTGCCGCGTGAACGGATCGACCAGTTGCTGGATGATGGCAGCCCGTTTTTGGAGATTGCCCCGCTTGCGGCCAACGGCATGTATGACAATGAGTCGCCGGGGGCCGGGGTCATTGCCGGGATTGGTTTGGTGCATGGCCGGCAGGTGCTGGTGGTTTCCAATGACGCCACGGTCAAGGGCGGCACCTACTATCCCATGACGGTCAAGAAGCACCTCCGGGCCCAGGAGATCGCCCTCGAAAACCGGCTGCCGTGCATCTATCTGGTGGACTCCGGCGGGGCGTTTTTGCCGAAGCAGGATGAGGTGTTTCCGGATAAGGAGCATTTCGGCCGGATCTTCTACAACCAGGCCAGGCTGTCCGCCGCCAAGATCCCGCAGATCGCGTCGGTGATGGGGTCCTGCACTGCCGGGGGTGCGTATGTGCCGGCGATGAGTGATGAGACGGTGATCGTGCGGAACCAGGGGACTATTTTCCTGGGTGGGCCGCCGCTGGTGAAGGCGGCGATCGGGGAGATCGTGACCGCGGAGGAGCTTGGTGGCGGGGAGGTTCATTCGCGGGTTTCCGGGGTGACGGATCACTTGGCGGAGAACGACGAGCACGCGCTCCAGATTGTCCGTGACATTGTGGCCACACTGCCGAAGCCGGCGGCCCCGGCGTGGGACGTGGAGGCTTCCGTTGAGCCCGCGGCGGATCCGGAAGGACTCTACGGGGTGGTGCCTACGGATGTTAACGCCCCGTATGACGTCCACGAAGTGATTGCCCGGCTGGTGGACGGCAGCAGGTTCCATGAGTTCAAGAAGGAGTACGGCACCACCCTGGTGACGGGCTTTGCGAGACTGCATGGGCATCCGGTGGGGATTGTGGCCAATAACGGGGTGCTTTTCAGTGAGTCGTCGTTGAAGGGCGCGCATTTCATTGAGCTGTGTGACCAGCGCGGGATCCCGCTGGTGTTCTTGCAGAACATCTCCGGTTTTATGGTGGGCCGGGATTCGGAGCAGGGCGGGATCGCGAAGAACGGAGCGAAGATGGTCACGGCGGTGGCCACGGCGCGGGTGCCTAAGCTGACGGTGGTGATCGGCGGGTCCTTCGGTGCCGGGAATTATTCGATGTGCGGGCGGGCGTATTCGCCGCGGTTTTTGTGGATGTGGCCGGCGTCGCGGATCTCGGTGATGGGCGGGAACCAGGCCTCCAGTGTGCTTGCCACGGTGAAGCGGGACCAGTATGAGGCTGCCGGGCAGGACTGGTCCGAGGCGGATGAGGAGGCGTTTAAGGCTCCGATCCGGCAGCAGTACGAGGACCAGGGCAGCCCGTACTACTCCACCGCCCGCCTCTGGGACGATGGCGTGATTGACCCGGCCGATACCCGTACCGTGCTGGGTCTGGCGCTTGACGTCGTCTCCCGCACCCCGCTGCCGGAAACCTCCTTCGGCCTCTTCAGGATGTGA	METLVSRLDASSETFAANHAAQAALAAELRDTLAQTALGGPEKSRERHVARGKLLPRERIDQLLDDGSPFLEIAPLAANGMYDNESPGAGVIAGIGLVHGRQVLVVSNDATVKGGTYYPMTVKKHLRAQEIALENRLPCIYLVDSGGAFLPKQDEVFPDKEHFGRIFYNQARLSAAKIPQIASVMGSCTAGGAYVPAMSDETVIVRNQGTIFLGGPPLVKAAIGEIVTAEELGGGEVHSRVSGVTDHLAENDEHALQIVRDIVATLPKPAAPAWDVEASVEPAADPEGLYGVVPTDVNAPYDVHEVIARLVDGSRFHEFKKEYGTTLVTGFARLHGHPVGIVANNGVLFSESSLKGAHFIELCDQRGIPLVFLQNISGFMVGRDSEQGGIAKNGAKMVTAVATARVPKLTVVIGGSFGAGNYSMCGRAYSPRFLWMWPASRISVMGGNQASSVLATVKRDQYEAAGQDWSEADEEAFKAPIRQQYEDQGSPYYSTARLWDDGVIDPADTRTVLGLALDVVSRTPLPETSFGLFRM	PGPT0008345_178	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
D1-29_01532	2247	accA1	COG4770	Acetyl-/propionyl-coenzyme A carboxylase alpha chain	ATGACTGAAGCACCCCAACTGACTCAACCGGCCGTGAAGCAGGCTCTGTTCGATACCGTCCTGGTGGCGAACCGGGGCGAGATCGCCTGCCGGGTGATCCGGACCCTGCGTGCCCTGGGGATCCGCTCTGTGGCGGTTTACAGCGATGCCGACGCCGGTGCCCGGCACGTGCGCGATGCCGACGTTGCTGTCCGGATCGGTCCGGCCGCAGCGGCCGAGAGCTACCTGAAGATCGAGGCCATCATCCAGGCGTGCCGGGAGACCGGTGCGGAGGCGGTCCACCCCGGGTACGGGTTCCTGAGTGAGAATGTCGACTTCGCGCGTGCCCTTGAAGCCGCGGGCATCACGTTCATCGGGCCTGGGGTGGAGTCCCTGAACGTGATGGGGGACAAGATCCGGTCCAAGAACCACGTGTCCGGCTACGGCGTCCCCGTGGTTCCGGGAATCGCCAAACCGGGCATGACCGACGCCCAACTGGTCGAGGCCGCGGACGCCGTCGGGTTCCCCCTGCTGATCAAGCCGTCCGCGGGCGGCGGCGGGAAAGGCATGCATGTTGTGGAGCGGCAAGAGGAGCTGGCAGCAACGCTGGCTACTGCACGGCGCGTGGCCGCGAGTGCGTTCGGGGACGACACGCTGTTCCTGGAGCGGCTGATCCGGACGCCGCGGCATATCGAGGTCCAGGTCCTGGCGGACAACCACGGCAACGTGATCCATCTGGGGGAGCGTGAGTGCTCGCTGCAGCGCCGGCACCAAAAGGTCATCGAGGAGGCACCGTCGCCGCTGCTGGAATCCCTTCCCGACGGCGCCGCGGTGCGGGAACGGATCGGTTTGGCTGCCTGCCAGGCGGCCCGAAGCGTGAACTACAGCGGCGCCGGCACGGTGGAGTTCCTGGTCTCCGACGAGGCCCCGGACGAGTTCTTCTTTATGGAGATGAACACCCGCCTTCAGGTCGAACACCCCGTCACCGAAATGGTCACCGGCGTGGACCTGGTCGAGTGGCAGGTCCGGATCGCCGCCGGTGAGATGCTCACCGTAGCCCAGGCCGACGTCGAACTCACCGGCCACGCCGTCGAAGCCCGCGTCTACGCCGAAATCCCCGAACGTAACTTCCTGCCCTCCACCGGCACCGTCCTGCTGCTGGACGAACTGCCGGCCCGGCCGCAGCGCTCTGGCGCCCCGGCCCGGACGGAAGTGGCTACCGCCCAGGGCCGCGTCCGGGTGGATTCCTCCCTGCGCGAGGGCCTGGAAATCTCGTCGAACTACGATCCCATGATGTCCAAAGTGGTGGCCTGGGGCGGGGACCGGACGGCCGCCCTGGACACGCTGGATGGAGCACTTGCCGGCTATACGGCGCTCGGGCTGGAGACAAACCTTGAATACCTCCGGCTCCTGATCAACGATGACGACGTCCGCGCCGGGCACCTGGACACCGGCCTGATCGAGCGCAAGCTGCCGGGCTTCACCTTTCGGCGGGTGAACGACGCCGAACTGGTGGCCGCGGCCCTTTACGCCATGGCGAAGGAAGAAGAGGACACGGGCCAATCTCCATCGGATCTTTGGCATACCCGCAACGGCTGGCGCCTGGGCGCGCCGGCGCCCCGGCCGATCAGCCTCGGAACGCCCGACGGCGGTGCCGCAACAGTGCGCGTATCCGGCGGCCGGGTGCTGGATGGGCCAGTCATGGTCACCGTGGACAACGGGCCGGAGCGCGAAGCATCACTGGAGTTCCGCTCCCGCCGGGAAGCGGTGCTGACCCTTGCGGGGGAGACGGCGCTGTACTCGCTCGCGCCGGCCTACCGGGGTCCGGTAACTCCCACGTGGGACACGCCCGCTCCTGCCCGGCCCACCGAACTCTTCCTGGGAAACGGCGGCTGGTCGTGCCGCCTGGAGGTCCTGACCCGGGAGTCGCGGCTCGCCCGGGTGCTCGCGGCCATCCAACGCCAGGAAGGCGCCGCGGATCCGGCCGTGCGCTCCCCGATGCCTGGCACCGTGGTGTCCGTTTCCGTCGGCGAGGGAGAACACGTGGAGACCGGCCAGGTGCTGCTCTCGGTGGAAGCCATGAAGATGGAGCACCAACTGCTGGCGCCGCTGGCGGGCACTGTCCACCTCGGCGTGGGCCCGGGCGACCTGGTGAAGGTGGACCAGGTCCTCGCCACCATCCACCCGGACCCCGAGCAGGAGATTGAGCCACCGCCGGCCCCGGGGCAAACCCATCACGATTCCATGATTACTGGCAAGGGAGCCTAG	MTEAPQLTQPAVKQALFDTVLVANRGEIACRVIRTLRALGIRSVAVYSDADAGARHVRDADVAVRIGPAAAAESYLKIEAIIQACRETGAEAVHPGYGFLSENVDFARALEAAGITFIGPGVESLNVMGDKIRSKNHVSGYGVPVVPGIAKPGMTDAQLVEAADAVGFPLLIKPSAGGGGKGMHVVERQEELAATLATARRVAASAFGDDTLFLERLIRTPRHIEVQVLADNHGNVIHLGERECSLQRRHQKVIEEAPSPLLESLPDGAAVRERIGLAACQAARSVNYSGAGTVEFLVSDEAPDEFFFMEMNTRLQVEHPVTEMVTGVDLVEWQVRIAAGEMLTVAQADVELTGHAVEARVYAEIPERNFLPSTGTVLLLDELPARPQRSGAPARTEVATAQGRVRVDSSLREGLEISSNYDPMMSKVVAWGGDRTAALDTLDGALAGYTALGLETNLEYLRLLINDDDVRAGHLDTGLIERKLPGFTFRRVNDAELVAAALYAMAKEEEDTGQSPSDLWHTRNGWRLGAPAPRPISLGTPDGGAATVRVSGGRVLDGPVMVTVDNGPEREASLEFRSRREAVLTLAGETALYSLAPAYRGPVTPTWDTPAPARPTELFLGNGGWSCRLEVLTRESRLARVLAAIQRQEGAADPAVRSPMPGTVVSVSVGEGEHVETGQVLLSVEAMKMEHQLLAPLAGTVHLGVGPGDLVKVDQVLATIHPDPEQEIEPPPAPGQTHHDSMITGKGA	PGPT0019850_173	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	vCITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019850-atuC|atuF-K13777	NA	NA
D1-29_01533	1164	acdA_1	COG1960	Acyl-CoA dehydrogenase	ATGACAAATTTTGAACTCAGCGAGGAGTACCAGGACCTCAGCGACACCGTCCGGGACTTCGCGGACACGGTAGTGGCCCCGGTATCGGCAAAACACGACGAGGAGCACAGCTTTCCCTATGAAGTGGTGAAGCAGATGGCCGAGATGGGCCTGTTCGGATTGCCTTTCCCGGAGGAGTTCGGCGGGATGGGCGGGGACTACTTTGCCCTCGCCCTGGCGCTGGAGCAGCTGGGCAGGGTGGACCAGTCCGTGGCCATCACCCTGGAAGCCGGTGTCTCCCTGGGAGCCATGCCCGTGTACCGCTTCGGTACTGACGCCCAGAAGGAGGAATGGCTGCCCATCTTGGCATCGGGGCAGGCGCTCGCCGGCTTCGGGCTGACGGAACCGGAAGCCGGGTCCGACGCAGGCGGCACCAAGACCCACGCCCGGCGCGAGGGCGGACAGTGGGTGATCAACGGGAACAAGGAGTTCATCACCAATTCCGGGACGGACATCACCCGCCTGGTGACAGTCACGGCCGTGACCGGCCAGAAGGAACGCAAGGACGGGAGCGTCAAGAAGGAGATCTCCACCATCCTGGTGCCCACGGACACGCCCGGGTTCAAGGCCGAGAAGCCGTACAACAAGGTGGGCTGGAACGCCTCGGACACGCACCCGCTGACGCTGAAGGATGTCCGCGTTCCGGAAGAAAACCTGCTTGGGGCGGAGGGCCGCGGCTACGCGAACTTCCTGTCCATCCTGGACGAGGGCCGGATCGCGATCGCCGCGCTGGCCACCGGGGCGGCGCAGGGCTGCGTTGACCTGTCGGTCAAATATGCCAAGGAACGCAGCGCTTTTGGGCACCACATCGGCAAGTACCAGGCCATCTCGTTCAAGATCGCCCGGATGCAGGCCAGGGCCCACACAGCCCGGCTGGCCTACTACGACGCGGCCGCGAGGATGCTGGCGGGTAAGCCGTTCAAGACGGAGGCGGCCATCGCTAAGATGGTCGCAGGCGAGGCAGCCATGGACAACGCGCGGGATGCCACCCAGGTGTTCGGCGGCTATGGCTTCATCAACGAGTTCACCGTGGCACGCCACTACCGCGACTCCAAGATCCTTGAAGTGGGGGAGGGCACCACGGAAGTCCAGCTGATGCTGATCGCCCGCGAACTGGGACTGTAG	MTNFELSEEYQDLSDTVRDFADTVVAPVSAKHDEEHSFPYEVVKQMAEMGLFGLPFPEEFGGMGGDYFALALALEQLGRVDQSVAITLEAGVSLGAMPVYRFGTDAQKEEWLPILASGQALAGFGLTEPEAGSDAGGTKTHARREGGQWVINGNKEFITNSGTDITRLVTVTAVTGQKERKDGSVKKEISTILVPTDTPGFKAEKPYNKVGWNASDTHPLTLKDVRVPEENLLGAEGRGYANFLSILDEGRIAIAALATGAAQGCVDLSVKYAKERSAFGHHIGKYQAISFKIARMQARAHTARLAYYDAAARMLAGKPFKTEAAIAKMVAGEAAMDNARDATQVFGGYGFINEFTVARHYRDSKILEVGEGTTEVQLMLIARELGL	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
D1-29_01534	885	scoA_2	COG1788	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit A	ATGATTAACAAGGTTGTTGCCAGCGCGGAGGAAGCAGTTGCGGATATCCCCGACGGCGCGTCCCTGGCCGTGGGCGGGTTCGGCCTGTGCGGCATTCCGGTGGCCCTGATCGATGCCCTCCACCGCCGCGGCACCACGGACCTGGAAACGGTAAGCAACAACTGCGGGGTGGACGACTGGGGGCTTGGCATCCTGCTCCGCGACGGCAGGATCCGCCGCACCATCAGCTCCTATGTGGGTGAAAACAAGGAGTTTGCCCGCCAGTTCCTTGCCGGTGAGTTGGAGGTGGTGCTGACGCCGCAGGGAACCCTTGCTGAAAAACTCCGGGCCGGCGGCGCCGGCATCCCGGCCTTCTACACCAAGGCGGGAGTCGGCACCCAGGTGTCCGACGGCGGGCTGCCGCAGAAATACGACGCCGACGGCGGCATCTCCGTTGCGTCCGCTGCCAAGGAAGTGCGCACCTTCGACGACGTCGATTACGTCCTGGAGGAGTCACTCACGCCCGACTTCGGCCTGGTCCACGCCTGGAAGGGGGACCGCCACGGGAACCTGGTCTTCCACGCCACGGCCATGAACTTCAATCCGCTGTGTGCCATGGCGGGCCGGATCACCATTGCCGAGGTGGAGGAACTCGTGGAACCCGGAGAACTGGACCCCGAGCACGTCCACACGCCCGGCATTTTCGTCCAGCGCGTGGTTCTGGTGCCTGGCGTTGAGAAGCGCATTGAAAAGCGGACCGTGGCGCTGACTGCCCCGTCCGGATACGGTCCCGGCGCGTCAGGATCAGGACCAGCCCAGGCAGAACCGGGACAGCAACAGCAGCAACAGGCAGAACCGGGACAGAAGCAGCAGCAGCCACAACAGACACCACTGCAAGGAGCGTAG	MINKVVASAEEAVADIPDGASLAVGGFGLCGIPVALIDALHRRGTTDLETVSNNCGVDDWGLGILLRDGRIRRTISSYVGENKEFARQFLAGELEVVLTPQGTLAEKLRAGGAGIPAFYTKAGVGTQVSDGGLPQKYDADGGISVASAAKEVRTFDDVDYVLEESLTPDFGLVHAWKGDRHGNLVFHATAMNFNPLCAMAGRITIAEVEELVEPGELDPEHVHTPGIFVQRVVLVPGVEKRIEKRTVALTAPSGYGPGASGSGPAQAEPGQQQQQQAEPGQKQQQPQQTPLQGA	PGPT0008325_96	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008325-scoA-K01028	NA	NA
D1-29_01535	762	scoB_2	COG2057	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit B	ATGGATCCGAACAGCCCGCAGGCTCCCCGTCCCGAAGGCGTCCGCCCCGAATACCGGCGGTCCGCTGCCGCGCAGCAGGACGAAACTGCTGCCGATACTAAGGGCTGGACGCGGAACCAGCTCGCGGCCCGCGTCGCACAGGAACTCAGCAACGGCCAGTACGTCAACCTCGGCATCGGCATGCCCACGCTCATTCCCAACTACATTCCGGCCGGTGTGGAAGTGGTGCTGCACTCAGAAAACGGGATCCTCGGCGTCGGTCCATATCCCGCGGAGGACCAGGTTGACCCGGACCTGATCAACGCAGGCAAGGAAACAGTCACGGTTAAGCCGGGTGCAGCTTTCTTTGACTCAGCGTCGTCCTTCGGCATGATCCGCGGCGGCCACGTGGACGTGGCCGTGCTGGGCGCCATGGAGGTGGCCGCCAACGGGGACCTGGCCAACTGGATGATCCCGGGAAAAATGGTCAAGGGCATGGGGGGTGCCATGGATCTGGTGTTCGGTGCCAAGAAAGTGATCGTGATGATGGAGCACGTGGACCGCAGCGGCAGGCCCAAGATCGTGCAGCAGTGCACGCTGCCGCTGACGGGAAAAGCGTGCGTGGACCGGATTATCACCGATCTGGCCGTGATCGACGTCGTGAATGAGGGAGGCGGGCCCCGGCTGGTGCTTCGCGAACTGGCGCCCAATGTTTCCCTTGAGGACGTGGCAGCTGCGACCGGCGCAGAGCTTTTTGAAGAGGACCGGGAACTGACCGTATGA	MDPNSPQAPRPEGVRPEYRRSAAAQQDETAADTKGWTRNQLAARVAQELSNGQYVNLGIGMPTLIPNYIPAGVEVVLHSENGILGVGPYPAEDQVDPDLINAGKETVTVKPGAAFFDSASSFGMIRGGHVDVAVLGAMEVAANGDLANWMIPGKMVKGMGGAMDLVFGAKKVIVMMEHVDRSGRPKIVQQCTLPLTGKACVDRIITDLAVIDVVNEGGGPRLVLRELAPNVSLEDVAAATGAELFEEDRELTV	PGPT0008330_8	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008330-scoB-K01029	NA	NA
D1-29_01536	645			hypothetical protein	ATGAGCGATACTTCAGGGCCGGACCCCTACACGGCCGGCGGCTCTGACGCGCGCGTGATCCAGCAGCGCGGCCTCTACTTCGATGAAATCGAGGAAGGCGTGGTGTACGCCCACCGGCCTGGCCGGACGGTGACGGAAGCAGACAACGTCCTGTTCACCACCCTCACCATGAACACCCAGGCCCTGCACCTTGACGCCGCCTGGAGCGCCGGCCAACCGTTCGGCCAGCGGCTGGTCAACTCCATGTTCACCCTGGCCACGATGGTAGGCCAGTCTGTTTCCCAGCTGACCCAGGGCACCATCATTGCCCAGCTGGGACTGACCGATGTCTCCTTCCCGAACCCGCTCTATCACGGCGATACGCTCTATACGGAGACGGTGATTATCCTCAAGCGGGCTTCGGAATCACGGCCCGGACAAGGCATTGTCACCATGATGCACACAGGCAGGAACCAGGACGGAACGCCGGTGGCCCTGGCTACGCGGAGCTGCCTGATGTGGATGCGGGAAGCCCACGGCGCCAGCCAGCAGGAGCGCCTGCAGGAGCGCCTGCAGGAGCGCCGCGAGGAGCCTCCAAAGGGGGACCAAAAGGCTCCCGAAAAGGGGAGTCAGCAGGGGGACGAAAAGGGGACAATGTCCATATGA	MSDTSGPDPYTAGGSDARVIQQRGLYFDEIEEGVVYAHRPGRTVTEADNVLFTTLTMNTQALHLDAAWSAGQPFGQRLVNSMFTLATMVGQSVSQLTQGTIIAQLGLTDVSFPNPLYHGDTLYTETVIILKRASESRPGQGIVTMMHTGRNQDGTPVALATRSCLMWMREAHGASQQERLQERLQERREEPPKGDQKAPEKGSQQGDEKGTMSI				NA	NA	NA	NA	NA
D1-29_01537	840	citE	COG2301	Citrate lyase subunit beta-like protein	ATGAGCTTTGTGATGGGACCTGCCCTGCTGTTCTGCCCGGCCGACAGGCCCGAGCGCTACCAGAAGGCCGCCGAACGCGCGGATGCCGTCATCCTTGATCTGGAAGATGCGGTGGCCCCGGCTGACAAGCAAAGGGCCCGCGGCGCCATCCTTGCCCAACTGGGAGCGGGCGCCGACGTGCCCGAGCTGAATCCCAGCCGCACCATCATCCGGATCAATCCGGCCGGCACAGAAGAGTTCGAAAAGGACCTCCACTGCCTGGCCCACACGCCCTACCGGACCGTGATGCTGGCCAAGGCGGAGAGCGCCGCGCAGCTGGAAGCACTCCGGGATTACCACGTGGTGGCCCTGTGCGAGACTGCCGTCGGGGTCCTGAACGCCCCGGCCATCGCTGCTGCCCCCAATGTTGTGGCGCTGATGTGGGGGGCGGAGGATCTTTTGGCCTCCCTGGGCGGGACCTCCAGCCGGAAGGACGACGGCGGCTACCGGGCCGTCGCCCTGCACGCCCGCTCCGCGGTACTGCTGGCCGCACGGGCCCTTGGCAAGGAAGCAGTGGACGCCGTGTACGTCAATATTCCGGACCTCGCCGGGTTGGCAGTTGAAGCGGCAGATGCTGTGGCTTCAGGATTCAGCTCCAAGGCCTGCATCCACCCCACCCAGGCGAATGTTGTCAGGGGCGCCTACGCCCCTTCCGAGGCCGACGTTGCGGCGGCCACCAACCTGCTGCAGGCGGCTGCCTCGGCGGGATCAGGGGTCTTCCAATACAACGGCAAAATGATCGATGGCCCCATCCTCAAACATGCGGAAGCCACCATCCGCCGCGCCGGAGCCCACGCCTGA	MSFVMGPALLFCPADRPERYQKAAERADAVILDLEDAVAPADKQRARGAILAQLGAGADVPELNPSRTIIRINPAGTEEFEKDLHCLAHTPYRTVMLAKAESAAQLEALRDYHVVALCETAVGVLNAPAIAAAPNVVALMWGAEDLLASLGGTSSRKDDGGYRAVALHARSAVLLAARALGKEAVDAVYVNIPDLAGLAVEAADAVASGFSSKACIHPTQANVVRGAYAPSEADVAAATNLLQAAASAGSGVFQYNGKMIDGPILKHAEATIRRAGAHA	PGPT0019480_2768	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
D1-29_01538	1470			hypothetical protein	ATGGTGGACTGGGTTTCCTGGTTCGATGCGCCGGACTACGAATTCGCCCGGCAGGTGCTGCAGCGTGGCGTCGCGGCACTGTACTTTGTTGCGTTCCTGTCATCCCTCAACCAATTCCCGGCCCTCCTGGGCGAGCGGGGGCTTGTACCCGTTCCCGACTATTTGGAGAGATTTGGCACACGGGGGCGGCCTACCCTGTTCCGTTGGCGCTACTCAGACCGGTTGCTGCGTACAGTCTGCGCAACCGGCCTGGTGATCTCAGCACTGCTGGTGGCTGGACTTCCACAGCTGGGGCCACCCTGGTTGCCCCTGATTGCGTTCCTCTCGCTCTGGGTGCTGTACATGTCCATCGTGAACGTGGGGCAGACGTTCTACGGCTTCGGCTGGGAGATGCTGCTCCTGGAAGCAGGCTTCACCGTAGCCTTCCTGGGTTCGGACCAGACGGATCCGCCGCGCACCATCCTGATCCTGATTGCCTGGCTGGTGTTCCGGCTGGAGTTCGGCGCGGGAATGATCAAGATCCGTGGCGGCCAGGAGTGGCGGGACCTCACGGCCCTGTACTACCACCACGAGACCCAGCCGATGCCCGGGCCGTTGAGCCGGCAGGCGCACCTCCTGCCAAAGCCCTTCCATCGCCTGGAGGTCCTGGGCAACCACTTCGCCCAGCTGGTGGTGCCTTTCTTCCTTTTCGCCCCGCAGCCTCTCGCCAGCGCTGCCGCCGGGATCATCATCTTCACCCAGCTGTGGCTTGTAGCCAGCGGAAATTTCGCCTGGCTGAACTGGATTGCCATAGTGCTGGCCTTCGCAGCCGTCAGTGATCCGGTGGCCCATGCGGTATTTCCCGTCCTGCCCTTGGACTGGCATCCCGACAACGCGGGCCGGGAGACTCCCCTGTGGTGGCTCATCCTCACCCTGGCGGTAACGCTCCTGCTGGTGGTCCTCAGCTACTGGCCCGTGCGCAACCTGTTCTCCAGGCAGCAGCTGATGAATGCCAGCTTCAACCGCTGGCAACTCGTCAACACGTACGGCGCGTTTGGCACCGTCACGAAGCACCGGATCGAGATTGTGGTGGAAGGCACTTTGGACGAGGACCCGAACGACGGTGCGGAATGGCACGAGTACGGCTTCAAGGGAAAACCCGGGGACGTGCGCCGGCTGCCCCGGCAGTGGGCCCCGTACCACCTGCGCCTGGACTGGCTGATGTGGTTTCTGCCGCTCCGCACGGTCCACGAGGAATGGTTCTACGCCTTCCTCACCAGGCTGCTGGAAGCGGACCGGCAGACGCTGCGGCTGCTGCGGCACGATCCGTTCGACGGCGAACCGCCCCGGTGGGTACGCGCCCGCAGGTACCTCTACCGCTTCTCCACCCGGGCCGAGTTCCGTGAAACCGGCGAGCGCTGGGTACGGACTCCGCTCCCGCAAGCCATCCCCCCGCTCTCCCTCCGGCGCACACCCGGGCAAAAGAGGTAG	MVDWVSWFDAPDYEFARQVLQRGVAALYFVAFLSSLNQFPALLGERGLVPVPDYLERFGTRGRPTLFRWRYSDRLLRTVCATGLVISALLVAGLPQLGPPWLPLIAFLSLWVLYMSIVNVGQTFYGFGWEMLLLEAGFTVAFLGSDQTDPPRTILILIAWLVFRLEFGAGMIKIRGGQEWRDLTALYYHHETQPMPGPLSRQAHLLPKPFHRLEVLGNHFAQLVVPFFLFAPQPLASAAAGIIIFTQLWLVASGNFAWLNWIAIVLAFAAVSDPVAHAVFPVLPLDWHPDNAGRETPLWWLILTLAVTLLLVVLSYWPVRNLFSRQQLMNASFNRWQLVNTYGAFGTVTKHRIEIVVEGTLDEDPNDGAEWHEYGFKGKPGDVRRLPRQWAPYHLRLDWLMWFLPLRTVHEEWFYAFLTRLLEADRQTLRLLRHDPFDGEPPRWVRARRYLYRFSTRAEFRETGERWVRTPLPQAIPPLSLRRTPGQKR				NA	NA	NA	NA	NA
D1-29_01539	744			hypothetical protein	ATGTTTGCTCTGGTGCTCATCGCCGTTGTAGCAGGGGCCCTGGCGCAACGCCTGGCGGGTCTTGGCTTCGGCCTGCTCGTGTCCCCTGTCCTGGTGGTGCTCCTGGGCCCGTTTGACGGCGTGCTGATCATCAACCTCTGCGGGGCTGTCTCCTCCCTGCTGATCCTGTCCCGGGTCTGGCGGTTTGTGGACTGGCAGCGATACTTCCGCCTGGCGCTCGCGGCCGTTGCAGGCGTGCTGCCCGGGGCGTGGCTGGCCAGCAACGTCCCCGAGGCGCCCCTGGAGATCTGCATCGGTGTGCTGCTCTTCATCGCTTTGCTGGCGTCGCAGCGGCTGACCCGCAGTTCGTGGCACGCCCGGGGGCCGGTTCCCTTGGTGTCGCTGGGATTCTCCAGCGGACTCATGAACGCCGCCGCCGGTGTGGGCGGACCGGCCATCACTGCCTATGCCATTGCCACGCGCTGGGACCAGAAGAGCTTCAGCGCCACCCTTCAGCCCTACTTCATGACCACCGGCTTGAGCTCCCTTGTGAGCAAGTACGTCCTGTCCGGCGGGCACGTCCCCGCCCTTGAGGGCTGGCAGTGGTTGGGAATCCTGGCGGCGATGGTGGCCGGCATCGTCGCCGGCGACCTGCTCTCGGGCCGGGTGCGTCCCGGCTCGGTCCGCAGGATTGTGGTGGGCATCGCGTATCTGGGAGCCGCCTCCACCCTGGTCAAGGGTGTTGTGGAACTGGCCGCAGCCTAA	MFALVLIAVVAGALAQRLAGLGFGLLVSPVLVVLLGPFDGVLIINLCGAVSSLLILSRVWRFVDWQRYFRLALAAVAGVLPGAWLASNVPEAPLEICIGVLLFIALLASQRLTRSSWHARGPVPLVSLGFSSGLMNAAAGVGGPAITAYAIATRWDQKSFSATLQPYFMTTGLSSLVSKYVLSGGHVPALEGWQWLGILAAMVAGIVAGDLLSGRVRPGSVRRIVVGIAYLGAASTLVKGVVELAAA				NA	NA	NA	NA	NA
D1-29_01540	1185	dxr	COG0743	1-deoxy-D-xylulose 5-phosphate reductoisomerase	ATGCAGCCACGCAGAATCGTCCTCCTCGGATCCACCGGCTCCATTGGCACCCAGGCGATTGACGTCGTCGACGGCGCCCCGCACCTTTTTGAGGTCGTGGCGCTCAGCGCCGGTGGAGGGAACCTGGAGCTTCTGGCCCGGCAGGCCGTCCACACCGGGGCCCATGCTGTAGGTATTGCTGCCGGGGATCAACGGCGCCTGCGGGAGCTGATCGCCGCGGCGGCACAGGCCGCGGGACGGCCCGGGTACAGCCCGGAAATCATTGCCGGTCCGGATGCTTCCACCCGGATCGCCGAGGTGGAAGCTGACGTGGTGCTCAACGGCATCACCGGCTCCATCGGACTTGCCCCCACCCTGGCTGCACTGAGGTCGGGTGCGACGCTCGCCCTGGCCAACAAGGAATCCCTCATTGTGGGCGGCGCCCTGGTCAAGGCATCTGCACGGGAAGGCCAGATCGTACCGGTGGATTCTGAGCACTCAGCCATCGCCCAGTGCCTGCGCTCGGGCTCGGCTGAAGAAGTCGAAAAACTGATCCTGACAGCATCGGGCGGGCCATTCCGGGGCCGGAGCCGCGAAGAACTCCACCACGTCTCACCCCTGGAAGCGCTCGCGCACCCCACCTGGGACATGGGACTGATGGTGACCACCAACTCGGCAACCCTGGTGAATAAGGGCCTTGAGCTGATTGAAGCGCACCTGCTGTTCGACGTCCCGCTGGACCGGATCGATGTAGTGGTGCACCCGCAGTCCGTTGTCCATTCCATGGTCCAGTTTGTGGACGGCTCCATCATCGCCCAGGCCTCGCCGCCGGACATGCGGCTTCCGATCGCTCTGGGACTTGGCTGGCCGGACAGGGTGCCCAAGGCCGCATCGCCCTGTGACTGGACGCAGGCCACGAGCTGGACGTTCGAGCCCCTGGACACTGGAGCCTTTCCGGCCGTGTCCCTGGCCAAGGACGCCGCCAAGCAGGGGAGTACCTACCCGGCTGTGTTCAACGCCGCCAATGAGGAAGCGGTGACGGCCTTCCATGCCGGCCGGATCCGGTTCACGGAGATCGTGGATACGATCGACTCCGTACTCAGCGAACATTCAGGTTCCTCCGGGCTGACGGTTGAGTCAGTGTTGGATGCTGAGAGGTGGGCACGCGCCCGAGCCCATGAACGTTTAGCAGTCAGTAGCCTCTAG	MQPRRIVLLGSTGSIGTQAIDVVDGAPHLFEVVALSAGGGNLELLARQAVHTGAHAVGIAAGDQRRLRELIAAAAQAAGRPGYSPEIIAGPDASTRIAEVEADVVLNGITGSIGLAPTLAALRSGATLALANKESLIVGGALVKASAREGQIVPVDSEHSAIAQCLRSGSAEEVEKLILTASGGPFRGRSREELHHVSPLEALAHPTWDMGLMVTTNSATLVNKGLELIEAHLLFDVPLDRIDVVVHPQSVVHSMVQFVDGSIIAQASPPDMRLPIALGLGWPDRVPKAASPCDWTQATSWTFEPLDTGAFPAVSLAKDAAKQGSTYPAVFNAANEEAVTAFHAGRIRFTEIVDTIDSVLSEHSGSSGLTVESVLDAERWARARAHERLAVSSL	PGPT0007585_2073	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007585-ispC|dxr-K00099	NA	NA
D1-29_01541	1332	rip1		Zinc metalloprotease Rip1	ATGAACCCCGTTCTCCTCTTTATCCTCGGTGTCGTCTTTGTGGCGATCGGCATAGCCGCGTCCATTGCACTGCACGAATTAGGGCATCTGGTTCCGGCCAAGCTGTTCAAGGTCCGTGTCACCAAGTACATGATCGGCTTCGGTCCCACGCTCTGGTCAAAGCGCAAAGGCGAAACCGAGTACGGGTTCAAAGCCATCCCGCTGGGCGGTTACGTGTCCATGATCGGCATGTACCCGCCCAACAGCCAGGATGGAACGGTCCGCCCCTCAAGCACCGGGATGTTCCAGACCCTTGCCAGTGAGGCACGATCCCTCGCCCATGAGGAGGTGGGGCCCGGAGACGGGAACAGGGTGTTCTACCGGCTGCCGGTGTGGAAAAAGATCATTGTCATGCTGGGCGGCCCGGCCATGAACCTCTTGATCGGACTGGTCCTCACTGCCGTTCTGCTGATGGGTTTTGGCATCGCCACAGCCACCACCACCATCTCCGACGTCTCCAAATGCCAGGTGGCAGCCGGCCAGACAGTGGATCCGGATTCCCCGGACTGCCAGCCAACCCCGGCCGCGGCGGCGGGACTGAAACCCAACGACGTCGTCACGTCCTTTGATGGAAAAGCCGTGACCGGCTGGGAGCAGCTGACCGAATGGATCCGGGCTTCGGCCGGCAGGGAAGTCAGCATCACCGTTGAACGGGATGGCACACCGGTCACCACTACCATCACACCGGTACTCTCGGCCCGGCCCATCGTGGGTGTGGACGGCCGCCAGGCAAAGGACGACGCCGGAAACCTGCTGTACCAGGACGTCGGCTTCCTGGGCATCGGCGCGCAGACTGAACTGGTGCCCCAACCGGCGTCGTCCGTGTTGCCCATGGCCGGAGAAAACATCAGCCAGGTGGCTGGCGTTGTCTTTAACCTTCCGGCCCGGGTGGCTGGGGTGGCCAAAGCAGCCTTCAGCGAGGAGCCCCGTGATCCGAATGGGCCCATTAGTGTGGTGGGGGTGGGACGCGTGGCCGGCGAGGTAGCCGCCATGGAGGAAGTGCCGGTGCAGTCCAGGCTGGCGGCCCTCGTGGGGCTCCTGGCCGGGCTTAACTTTGCGCTGGCAGTGTTCAATCTCATCCCGTTGCTTCCCCTTGATGGTGGCCACGTCGCGGGCGCGCTGTACGAAGGTGCCCGCCGCCGCGTGGCCAAGCTCTTCGGCAAGCCCGATCCAGGCGCGTTTGATATTGCCAAGCTCCTTCCGGTGACCTATGTTGTGGCGGCATTGCTCATGGGCATGGGTGCGCTCCTGATCTATGCAGACATCGTCAAACCGGTGAATCTCTTCGGCTAG	MNPVLLFILGVVFVAIGIAASIALHELGHLVPAKLFKVRVTKYMIGFGPTLWSKRKGETEYGFKAIPLGGYVSMIGMYPPNSQDGTVRPSSTGMFQTLASEARSLAHEEVGPGDGNRVFYRLPVWKKIIVMLGGPAMNLLIGLVLTAVLLMGFGIATATTTISDVSKCQVAAGQTVDPDSPDCQPTPAAAAGLKPNDVVTSFDGKAVTGWEQLTEWIRASAGREVSITVERDGTPVTTTITPVLSARPIVGVDGRQAKDDAGNLLYQDVGFLGIGAQTELVPQPASSVLPMAGENISQVAGVVFNLPARVAGVAKAAFSEEPRDPNGPISVVGVGRVAGEVAAMEEVPVQSRLAALVGLLAGLNFALAVFNLIPLLPLDGGHVAGALYEGARRRVAKLFGKPDPGAFDIAKLLPVTYVVAALLMGMGALLIYADIVKPVNLFG				NA	NA	NA	NA	NA
D1-29_01542	705			hypothetical protein	ATGTACGTCATGACCATCGACCAGCGCGGAAGCAGAACGGACCTTGACCGGGTCCCCGGGCTCATCTCAGAGTTGATCGATTTGAGTTCGGCCCGCTTCGAGCGCTCGGTGGGCGATGAACTCCAGGGCGTGGTGGAACATGCCGCGGAAGTCGTAGACATCGCTTTGCATGCTCTCCGCAGCGGCTACTGGTACGTCGGAATTGGAATAGGCACGGTACACCTTGCCCCCGGCGCCGGGCCCCGGGAAGGAACGGGAACCGGGTTCGTGGCTGCCCGGAATGCGGTAGAGCAGGCCAAGAGTGCCGCTGGCCACGTTCCATTGTCAGTGGTGTCCGGCAGTATTGGGCGTGGAAGGGACATTCCCAGGCATGCAGTGGAAGGAGTCAACACCTGCGCCAACGCCGAGGCAGTCCTCCGCCTCATCGGCCGGCTCATCCAGGAACGCACCGAAGCCCAATGGAGAATTGTGGACCGGCTCCGGAGTATCCAGGGCAGCGGCGAAAGGCACGGCAGCCAAAAGCAGGTGGCCAAAGAACTGGGAATAACAGAACAGTCGGTGAGCCGCGCCGTGCTCAGATCCGCCTGGCAGGAAGAATGGGCTGCCAGACCCGCGGCGGCGATGCTGCTCGACTACGCCCATACCCGGATCCTGGCAGCGCCGGCTGCCGGGAAACAGGGAACACCTAACAAGGGAGACCGGTGA	MYVMTIDQRGSRTDLDRVPGLISELIDLSSARFERSVGDELQGVVEHAAEVVDIALHALRSGYWYVGIGIGTVHLAPGAGPREGTGTGFVAARNAVEQAKSAAGHVPLSVVSGSIGRGRDIPRHAVEGVNTCANAEAVLRLIGRLIQERTEAQWRIVDRLRSIQGSGERHGSQKQVAKELGITEQSVSRAVLRSAWQEEWAARPAAAMLLDYAHTRILAAPAAGKQGTPNKGDR				NA	NA	NA	NA	NA
D1-29_01543	516			hypothetical protein	GTGAACGCACTCTGGATTGCAGCTGCCTTACTGGTGGCAGGATTTGCCGGCTGGCCGGTGACAGCCCTCGTCTTCCGGCTGGCCAGGACCATCGACGACAAAGCCGATGCCGCTACCGCAAGCGACGAGGCAGCGAGGAGGGCGGCGGAGGATCCGTCCGCCGACGTCACGGTGGACACCGTGATTCCGGGCGCCGGTCAGACTGTCGACGGCGAGCTGACGGCGGAACCCGCGCACCCGACGTCGGGCGTTCCCGGTACTGAGCCCGCCCCCAGCCAGCGGATCCTGCGCGGCGGCGCCATCATCGGCGTCCTGGAGCGGCTGGGCGTATGCCTTGCCATCCTGACCGGTCAACCCGTGGCCATCGCCTATATCGTGGCCATCAAGGGCCTGGGCAGGTTCGCGGAGCTGAAGGAAACCCCGGTGGCTGCGGAACGCTTTATCATCGGAACGCTCACCTCGATGCTCTGGGCTGCGGGAATCGCGGCCACCGTCAAGGTGATGTTTCTTGGCTAG	MNALWIAAALLVAGFAGWPVTALVFRLARTIDDKADAATASDEAARRAAEDPSADVTVDTVIPGAGQTVDGELTAEPAHPTSGVPGTEPAPSQRILRGGAIIGVLERLGVCLAILTGQPVAIAYIVAIKGLGRFAELKETPVAAERFIIGTLTSMLWAAGIAATVKVMFLG				NA	NA	NA	NA	NA
D1-29_01544	294			hypothetical protein	ATGACTGTTTTTGCCGTTGAGTACGTTTACGCCCCCGAATCCACCGCAGCCCGCGATGAAAACCGTCCCGCGCACCGCGCGTGGCTCTCAGATCTGGCCGAGGATGGCCGGCTGCTCACCAGCGGACCCTACGGTGACGGTGCAGGCGCACTGCTGATCTTCAAGGTCCAGGACGAATCACGGCTGAACGAACTGCTCAAACAGGATCCCTTTGCCGCCGCAGGCACCATCGCAGGCATCAGGACCACCGAATGGACTCCCGTGATCGGCATCCTGGCCGCCCACACGTCCTGA	MTVFAVEYVYAPESTAARDENRPAHRAWLSDLAEDGRLLTSGPYGDGAGALLIFKVQDESRLNELLKQDPFAAAGTIAGIRTTEWTPVIGILAAHTS				NA	NA	NA	NA	NA
D1-29_01545	1167	ispG	COG0821	4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin)	GTGACCTCGGTCAGCCTGGGAATGCCGTCAGCACCGCCGCCCGTCCTTGCACCCCGCCGCAAGACGCGCCAGATCAAGGTCGGTTCGGTGGGCGTCGGCTCGGACTCGCCCATCAGCGTTCAGTCGATGACCACCACGCCCACCACGGACATCAATGCCACGCTCCAGCAGATCGCGGAACTCACCGCGTCCGGCTGTGACATTGTCCGGGTGGCCTGCCCGTCTGCCGACGATGCCGAGGCACTGCCCATCATCGCCCGCAAGTCCCAGATCCCCGTGATCGCTGACATCCACTTTCAGCCCAAGTATGTGTTCGCGGCCATCGAAGCAGGCTGCGCCGCGGTCCGTGTCAACCCCGGCAATATCCGCAAGTTCGATGACCAGGTCAAGGAAATCGCCAAGGCGGCCAAGGACCACGGCACGTCCATCCGAATTGGTGTCAACGCCGGTTCCCTTGAACCCGGCATCATGAAAAAGTACGGCAAGGCCACGCCCGAAGCCCTGGTGGAATCTGCTGTCTGGGAGGCTTCCCTCTTCGAGGAACACGGCTTCCACGACTTCAAAATCTCTGTAAAGCACAACGACCCCGTCATCATGGTGGCTGCCTACGAAATGCTGGCAGAACAGGGTGACTGGCCGCTGCACCTCGGTGTCACCGAAGCCGGGCCGGCTTTCCAGGGAACCATCAAGTCTGCCGTAGCCTTCGGTGCCCTTCTCTCCAAGGGCATCGGGGATACCATCCGCGTTTCACTTTCGGCTCCTCCGGTAGAGGAAATCAAGGTGGGAAACCAGATCCTCCAATCCCTGAACCTGCGTCCGCGCAAGCTGGAGATTGTCTCCTGCCCCTCCTGCGGCCGCGCCCAGGTGGACGTCTACACCCTGGCCGAGCAGGTGACGGCAGGCCTTGAGGGGATGGAGATCCCGCTGCGCGTGGCGGTGATGGGTTGCGTCGTCAACGGGCCCGGGGAAGCCCGCGAAGCTGACCTCGGCGTAGCTTCAGGGAACGGCAAGGGGCAGATCTTTGTGAAGGGCGAAGTCATTAAGACTGTCCCTGAGAGCGAAATTGTTGAGACACTGATCGAAGAGGCCATGCGTATCGCGGAAGAGATGGGGGAGGCCGATGGCGAAGATGCTGTCAAAGGTAGCCCCGTGGTTAGCGTCTCGTAA	MTSVSLGMPSAPPPVLAPRRKTRQIKVGSVGVGSDSPISVQSMTTTPTTDINATLQQIAELTASGCDIVRVACPSADDAEALPIIARKSQIPVIADIHFQPKYVFAAIEAGCAAVRVNPGNIRKFDDQVKEIAKAAKDHGTSIRIGVNAGSLEPGIMKKYGKATPEALVESAVWEASLFEEHGFHDFKISVKHNDPVIMVAAYEMLAEQGDWPLHLGVTEAGPAFQGTIKSAVAFGALLSKGIGDTIRVSLSAPPVEEIKVGNQILQSLNLRPRKLEIVSCPSCGRAQVDVYTLAEQVTAGLEGMEIPLRVAVMGCVVNGPGEAREADLGVASGNGKGQIFVKGEVIKTVPESEIVETLIEEAMRIAEEMGEADGEDAVKGSPVVSVS	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
D1-29_01546	891			hypothetical protein	ATGCTGTCAAAGGTAGCCCCGTGGTTAGCGTCTCGTAAGGACGAAACCCCAGATGAGGGCATTACCGTCCGCACGTTGGGCGGATCGGACACCAACGCCCTGCGCAGCCTTGCCCTCCAGGACCCGGTAGCCAACGTCTTTATCCTCGCCCACCTGCGGGCAGCAGGGACCGTTGCGCCCACCAGCGGCGGAGCCGCTGTTCTGGGCGTCTTCGACGACGGTGTGCTGGTGGGTGCCTGCTGGACTGGGGCCAACCTGGTCCCGATCCAGCTGGACCCGGCCTTTGCCGGGCAGGTGGCTGCCGCGGCCAACAGGTCCGGGCGCCGTTATGCCTCGGCCTTTGGCCCTTCCGAGCCCGTCCTGGCGCTGTATGCAGAATTGGCGGAGCTGGGACACCTGGCGCACGAGGTCAGGGCGGAACAGCCCCTCATGACCCTGGCAGGTCCTCCCCTGGTGGAACCCAACAGGGACCTCGTGCTGGGCCGGCTGGCAGATTTTGACCGCATCCTCCCTGCCTGCGCCGCCATGTTCGAAGAGGAAGTGGGCTATTCGCCGTTCCTGGGCGGCCGGGAGTTCTACAGCCGGCGTGTGGAGGGCCTGATCAAGCAGGGCCATTCGCTCGTTCACCTCAACCCTGCGGGGGAGGTGGTGTTCAAAGCTGAGCTGGGAGCGGTCACTGCGGACGTCACCCAGATCCAGGGCGTGTGGATGAACCCCCTGTACCGCGGGCAGGGCCTGAGCGCAGGGTACATGGCTGCGGTGGTTGAGCACGCCAGGAAAATTGCGCCGGTCACCAGTCTTTACGTCAATGGCTTCAACTCGCGCGCCAGGGCTTCATATCAGCGGGTCGGATTCCGGGAAGTCGGAACATTCGCTACAGTTCTCTTTTAG	MLSKVAPWLASRKDETPDEGITVRTLGGSDTNALRSLALQDPVANVFILAHLRAAGTVAPTSGGAAVLGVFDDGVLVGACWTGANLVPIQLDPAFAGQVAAAANRSGRRYASAFGPSEPVLALYAELAELGHLAHEVRAEQPLMTLAGPPLVEPNRDLVLGRLADFDRILPACAAMFEEEVGYSPFLGGREFYSRRVEGLIKQGHSLVHLNPAGEVVFKAELGAVTADVTQIQGVWMNPLYRGQGLSAGYMAAVVEHARKIAPVTSLYVNGFNSRARASYQRVGFREVGTFATVLF				NA	NA	NA	NA	NA
D1-29_01547	747			hypothetical protein	TTGAACACGTCAGCGCTGCTCGGATTCTCGGCGTCAATACTTCTAGCGGCAGGGCTGACGGGCTGCGCCGGCGCACCTGGCGAGAGCGGGCCGCAAAGTGCAGTCAACTCCTCCACGCCGTCCCCGAGCGAGACGCCTTCGCCCACCAAAACCCCGGCAAAGTCCTATACGAGTGATGAACTGGCCGCTTTGGTGGGCCAGCTGACGGATGCAAAGGGAGTCAAGCTCGCGGTGATGTCCAGCACTGACCTGACCGGAGCCGCCGAGCAGGTCAAGACCCTTCTCTCCACCATGACTGTGGAGCCGGCAGTGTGCCAGGAAATGGCCATCTCCGGCGCTGCACCTTCGGTTGACGGCGCTACGGCTGCGATGGGGACAAGCCTTGACGCGGCTGAGGGAGCATCCACAGCAGTGGCCATGACTTCGGGGCTGGACCCCGCGTACCTGGCGCAGGCAATGGCCCAGTCGGATGAACTGTCCAAATGCGCGAACATGACCATTGGTATGGCAGGAACAAAGGTGGACGTCGCACTGACGCTGATCGATGGAGTGGGCACGCTTCCCGGAACGCTCGCGTACCGCACGGACAGCACGCTGCCTGATGGACAGAAGCAGTCAATGATCACGGCGCAGGCTGTAGTCCACGGCGTGCTTGTTACCGTGATTTCATCGGGTGGGACCACCGAGGAAGGAGCGTTGTCCCGGACGGGGGCAATGTTGGACCAGGCGGGTGCCCAGATTAAGTAG	MNTSALLGFSASILLAAGLTGCAGAPGESGPQSAVNSSTPSPSETPSPTKTPAKSYTSDELAALVGQLTDAKGVKLAVMSSTDLTGAAEQVKTLLSTMTVEPAVCQEMAISGAAPSVDGATAAMGTSLDAAEGASTAVAMTSGLDPAYLAQAMAQSDELSKCANMTIGMAGTKVDVALTLIDGVGTLPGTLAYRTDSTLPDGQKQSMITAQAVVHGVLVTVISSGGTTEEGALSRTGAMLDQAGAQIK				NA	NA	NA	NA	NA
D1-29_01548	798			hypothetical protein	ATGACCGGGACGCCGCCCCTGACAAATCATCGGGCACATGGCGCAGGCCCACGGCGCAGCCAGGAAAAACCGGCCGACGGCGGCCCGGAGGCCGGTCCGGAACGCGGCCGGAAGGCCGGCCCGCACGCCAGCCAGCAAGCCGGTCCGGAGGCTGAAGGCCGGCGGGCCCACCCCGCGAGGAGGGGCCGGCGCGGTGGCGTGACGGCCTCCAGGGCCCACATCCTGAACACAGCCCGCAGGCTGTTCGCCGAGCACGGTTTCGAGGGCACCAGCCTGCGCCAGGTAGCCCGTGAGGCAGAAGTGGATCCGGCCATGATCCATCACTTCTTCAAGGGCAAGGACGAACTGTTTGCCCTCAGCGTCGCCCTTCCCGCCGACCGTGCAAAGGTGCTGGAAGGCGTGGACCGCCACGAACCCGGGCACCGGGCCGAAGCGATCGTCTGGGCCGTATTGCGGCTCTGGGAAAGCCCCGCCCAGCACAGCCTGGTGGCGTTCCTTCGCGGCACCATCGGTTCAAAGGCAAAGACGCTGCTGCTCAGGGAAATGGTGACCCGCACCATCCTGAGCAGGATTATGGCAGGCGTTCCCGGACCGCCCCAGGACGTCGCCCTGCGGGCAAACCTTGTGGCGACGCAAATGGTGGGTCTCATGCTGGTCCGCTACGTGGTGAGGCTGGAGCCCCTGGCCTCAGCCTCACCAGAGGACGTAGTGGCCCTCATCGCACCCAATATCCAGCACTATCTGACGGGCGAACTCACGGTGACGGAGCAGTCCCCTACTAAATCTGGCCCTACTTAA	MTGTPPLTNHRAHGAGPRRSQEKPADGGPEAGPERGRKAGPHASQQAGPEAEGRRAHPARRGRRGGVTASRAHILNTARRLFAEHGFEGTSLRQVAREAEVDPAMIHHFFKGKDELFALSVALPADRAKVLEGVDRHEPGHRAEAIVWAVLRLWESPAQHSLVAFLRGTIGSKAKTLLLREMVTRTILSRIMAGVPGPPQDVALRANLVATQMVGLMLVRYVVRLEPLASASPEDVVALIAPNIQHYLTGELTVTEQSPTKSGPT				NA	NA	NA	NA	NA
D1-29_01549	756			hypothetical protein	ATGAATGTGCTGATGATGTTAGCTACCACCCGCCGCGTCCTGGAACAGCTGCGCCACGACCACCGCAGCGTTGCCCTCATCCTGGTTGTTCCGGCACTGCTGCTGACGGCCGTCTATTTTCTCTTCGAGAATGAGACGCTGCCGCCGGGCATGCCGCGAACCTTTGACCGGGTAGGCCTGATGATGCTGGCCATCTTCCCGTTTGTGGTCATGTTCCTGGTCACGTCCATCACCATGCTTCGCGAGCGGACGTCCGGCACCCTGGAGCGGCTGCTGACCACACCCGTCCACAAGGCCGATCTGCTTTTCGGCTACGGGCTGGCCTTTTCCATCATGGCCGCCCTTCAGTCACTGGTTGCCACCGCAGTGTCCTACTGGGTCTTCGAGCTGGACATCCAGGGCAGCCCGGCGCTGGTGGTCGTCATCGCCGTGATCAACGCCGTCCTGGGCGTCGCCCTGGGACTGCTCTGTTCCGCCTTTGCCCGGACAGAATTCCAGGCCGTCCAGTTCATGCCAGTTGTGGTGGTGCCGCAAATTTTGCTCTGCGGGCTCTTTGTTGCCCGCGACCGGATGAACGAGGTCCTGGAAGCGATCTCAAACGTTCTTCCGCTGACGTTCTCAGTCGAAGCGCTGCAGGAGATCGCAGCCAACGCGGACGCCACCGACCGGCTGTGGCAGGACGCCGGGATCATGGTTGCCATCGTCCTTGGGGTGTTGATCCTTGCCTCGCTGACCTTGCGCAGGCGAACGGCATGA	MNVLMMLATTRRVLEQLRHDHRSVALILVVPALLLTAVYFLFENETLPPGMPRTFDRVGLMMLAIFPFVVMFLVTSITMLRERTSGTLERLLTTPVHKADLLFGYGLAFSIMAALQSLVATAVSYWVFELDIQGSPALVVVIAVINAVLGVALGLLCSAFARTEFQAVQFMPVVVVPQILLCGLFVARDRMNEVLEAISNVLPLTFSVEALQEIAANADATDRLWQDAGIMVAIVLGVLILASLTLRRRTA	PGPT0006730_22467	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-29_01550	852	ybhF	COG1131	putative multidrug ABC transporter ATP-binding protein YbhF	ATGTCACACTCAGCAGCAGCACCCGCCGTGGCGGAACACGGCCCGGCGGTGGTGGCACGCCACCTGCAGGTGACCAGGGGCAGGGTGCAAATTCTGCGGGGGCTGGATTTCTCCATTCCGCCGGGCCAGATCACGGGACTGCTGGGGCCATCCGGCAGCGGAAAGACAACCCTGATGCGGGCAATTGTCGGAGTCCAGCGGCTGACGTCGGGAACGGTCGAGGTCCTGGGCCTTCCCGCCGGGCATCCGACCCTGCGGCACAGCGTTGGCTATGTCACCCAGTCCCCCAGTGTCTACCCCGACCTGACCGTGGAGGCAAACGTCCGGTACTTCGGGGCCATGTACCGGAAAGGCCGGACCGATGCCGCAGCAGCAATTGCCGCCGTCGGACTGGAGCGGCAGGCCCGGCAGAAAACTGCTGACCTGTCCGGCGGAGAACTCAGCCGGGTGTCCCTCGCCTGCGCACTGGTCTCACATCCCAGGCTGCTGGTGCTGGACGAACCCACCGTCGGCCTTGACCCTGTGCTCCGGGCGGATCTTTGGGCCCGCTTCCGCGCCATGGCGCGGTCCGGAACAACACTGCTGGTCTCCAGCCATGTGATGGAGGAAGCGAGCCACTGTGCTTCGCTCCTGCTGTTGAGGGAGGGAGAGCTGCTTGCCCAGCTGACACCGCAGGAGCTGAGCCGGCGGGGCCGCAGCACGGACCTGGAAAAGGCCTTCCTCCAGGTCATCCGCGATGCAGGCAAAGCGCACGGCGCCGCGTCCGGTTCAGGTCACACGGCAGAAACCGGTCCGGTTCCGGACCTCCCGCCCGAAAGCGAAGCGACTCCCGAAAGCAGGGTTCGGTCATGA	MSHSAAAPAVAEHGPAVVARHLQVTRGRVQILRGLDFSIPPGQITGLLGPSGSGKTTLMRAIVGVQRLTSGTVEVLGLPAGHPTLRHSVGYVTQSPSVYPDLTVEANVRYFGAMYRKGRTDAAAAIAAVGLERQARQKTADLSGGELSRVSLACALVSHPRLLVLDEPTVGLDPVLRADLWARFRAMARSGTTLLVSSHVMEEASHCASLLLLREGELLAQLTPQELSRRGRSTDLEKAFLQVIRDAGKAHGAASGSGHTAETGPVPDLPPESEATPESRVRS	PGPT0006725_21725	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-29_01551	1812	proS	COG0442	Proline--tRNA ligase	TTGGTCCTCAGACTGTCCCAGCTTTTCCTGCGCACTCTTCGCGAAGATCCCGTTGATGCCGAGGTGGCCAGCCACCGCCTCCTGGTGCGGGCAGGCTATATCCGCCGCGCCGCCCCTGGAATCTACACCTGGCTGCCGCTGGGCCTCAGTGTCCTGCGGAAGGTGGAGGCCGTGGTCCGCGAGGAGATGAATGCCATCGGCGCCCAGGAGGTCCACTTCCCGGCGCTGCTGCCGCGTGAACCCTATGAGGCCACCAACCGCTGGACCGAGTACGGCGAAGGGCTCTTCCGCCTGCAGGACCGCAAGGGCGCGGACTACCTGCTGGCTCCGACGCACGAGGAAATGTTCACCCTCCTGGTCAAGGATCTCTACTCGTCCTACAAGGACCTGCCGCTGAGCCTCTACCAGATCCAGAACAAGTACCGTGACGAGGCGCGCCCCCGCGCGGGCCTCCTGCGCGGCCGCGAGTTCATCATGAAGGACTCCTATTCCTTTGATGTGGACGACGCCGGCCTGGACGCCAGCTACATGGCTCACCGCGGCGCCTACCTGAGGATCTTCGAGCGCCTGGGCCTGGAGGTCATTCCGGTAACGGCAACCGCGGGAGCCATGGGCGGATCAAAGAGCGAGGAATTCCTGCACCCCACCGAGATCGGCGAAGATACGTTTGTGCGCTCGGCAGGCGGCTACGCCGCCAACGTCGAGGCCGTCACCACCGTTGTCCCGGCCGGGATCGACTTCACCGATGCCCCGGCAGCGGAAGTCCTGGATACCCCGAACACGCCCACCATCGACACACTGGTGGCCGCCTCCAACGAACTGGCTCCCCGCAGCGAGGCCGACGGCGGCGCCTGGACTGCCGCTGACACCCTCAAGAATGTGGTGCTCGCCGTTACCCTGCCCACCGGTGAACGCCAGCTTGTGGTGATCGGCCTGCCCGGTGACCGGGGCGTTGACCTGAAGCGCGTGGAAGCCAATATCGGTTCCTTCCTGCCCATCGCAGGCGAGATCGGACTCGAAGCAGCCAACGACGAAGACCTCAAGAAGCAGCCCCTCATCGTCAAGGGCTACCTTGGCCCCGGCCTGACGCTGGAGGAGCCCCTGCTGGGCAGCGAAAGCTCAACCAAGCTCCTCTACCTCGTGGATCCCCGCGTTGTCAGCGGCACTGCCTGGGTCACCGGAGCCAACGAGGCGGGCAAGCACGTGTACGGCCTGGTGGCGGGGCGCGACTTCACCTGGGACGGCGTCATCGAATGCACCGACGTCCGCGAAGGTGATCCCGCCCCGGACGGCTCCGGCCCGCTGGAGATCGCGCGTGGAATTGAGATGGGCCACATTTTCCAGCTTGGGCGCAAATATGCCGAAGCCCTCGAGCTGAAGGTCCTGGACCAGAACGGCAAGCAGGTGGTGGTCACCATGGGTTCCTACGGCGTGGGGGTCACCCGGGCGGTGGCTGCCCTGGCCGAATCCAACCACGACGAAAAGGGCCTGGCCTGGCCGCGCGCCGTCGCCCCGGCCGATGTCCATATCGTGGCAGTTGGCCGCGGGGAGGAAATTTTCGCCACGGCCGAGCAGCTGGCCCTGGATCTTGAAGCGGCCGGCCTGGAAGTCATCTACGACGACCGACCCAAGGTGTCCCCGGGAGTGAAATTCGGCGATGCCGAATTGGTGGGTGTCCCCACCATCCTGGCCGTCGGGCGCGGCCTGGTGGACGGCGTGGTGGAGATCAAGGACCGCCGCAGCGGTGACGCCGAAAACGTGGCAGTGGACAAGGCAGTTGACTATGTGGTCAATGCCGTCCGCAACAGCTGA	MVLRLSQLFLRTLREDPVDAEVASHRLLVRAGYIRRAAPGIYTWLPLGLSVLRKVEAVVREEMNAIGAQEVHFPALLPREPYEATNRWTEYGEGLFRLQDRKGADYLLAPTHEEMFTLLVKDLYSSYKDLPLSLYQIQNKYRDEARPRAGLLRGREFIMKDSYSFDVDDAGLDASYMAHRGAYLRIFERLGLEVIPVTATAGAMGGSKSEEFLHPTEIGEDTFVRSAGGYAANVEAVTTVVPAGIDFTDAPAAEVLDTPNTPTIDTLVAASNELAPRSEADGGAWTAADTLKNVVLAVTLPTGERQLVVIGLPGDRGVDLKRVEANIGSFLPIAGEIGLEAANDEDLKKQPLIVKGYLGPGLTLEEPLLGSESSTKLLYLVDPRVVSGTAWVTGANEAGKHVYGLVAGRDFTWDGVIECTDVREGDPAPDGSGPLEIARGIEMGHIFQLGRKYAEALELKVLDQNGKQVVVTMGSYGVGVTRAVAALAESNHDEKGLAWPRAVAPADVHIVAVGRGEEIFATAEQLALDLEAAGLEVIYDDRPKVSPGVKFGDAELVGVPTILAVGRGLVDGVVEIKDRRSGDAENVAVDKAVDYVVNAVRNS				NA	NA	NA	NA	NA
D1-29_01552	795	yfcA	COG0730	putative membrane transporter protein YfcA	GTGATTTCGGGTTTTGAGTCGATCGAGCTCACCACTCTCATCCTGATTGTGGTGGCTGGATTCGCTGCCGGCTGGGTGGACGCCGTGGTGGGCGGCGGCGGCCTGATCCAGCTTCCGGCGCTCCTGCTGGTGCCTGGCATCACGCCTGTCCAGGCCCTCGCCACGAACAAGATGGGGTCGATCTTCGGGACGTCCACCAGCGCCGTCACCTTTTACGGACGGGTGAAGCCGGACCTCTGGACCGCCGTCCCTATGGCTCTGATCGCCCTTGCCGGAAGCTTCGGAGGCGCTATCTTGGCGGCGAACCTGCCTTCAAGTGTCTTCAAGCCCATTATCGTGGTGGCGCTGGTCGCCGTCGCGCTCTTTACCGCCCTCAAGCCCAATGTCGGTGACATCACGCTGCTGCGGCACAACGGGCACAGGCACTACGTGGTGGCCTGCCTGATCGGGGGCGCCATCGGATTTTACGACGGCCTGATCGGGCCCGGCACCGGTTCGTTCCTGGTCATCGCGCTGGTCTCCGCCATGGGCTACGCCTTCCTCGAAGCCAGCGCGAAAGCCAAGATCGTGAACATGGCCACAAACGCCGGTGCGCTGCTGTTTTTCCTGCCGCACGGCTCCATCCTGTGGGGTGTTGGACTGGTGTTGGGTGCCGCTAACATGGCGGGCGGATACCTTGGAGCACGGGCTGCGGTGAAGCAGGGCAGCGGGTTCATCCGTGTTGTCTTCCTGCTGGTGGTGAGCGCCCTGATCCTCAAATTGGGGTACGACGTCTGGCAGGAAAACTTCGCCTGA	MISGFESIELTTLILIVVAGFAAGWVDAVVGGGGLIQLPALLLVPGITPVQALATNKMGSIFGTSTSAVTFYGRVKPDLWTAVPMALIALAGSFGGAILAANLPSSVFKPIIVVALVAVALFTALKPNVGDITLLRHNGHRHYVVACLIGGAIGFYDGLIGPGTGSFLVIALVSAMGYAFLEASAKAKIVNMATNAGALLFFLPHGSILWGVGLVLGAANMAGGYLGARAAVKQGSGFIRVVFLLVVSALILKLGYDVWQENFA	PGPT0027725_1572	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
D1-29_01553	1398		COG0076	Tryptophan decarboxylase	ATGTCCGCAGGCGCTGAAACCTATTCGGAAGCATTGGCAGCAGCGGCGCGCCTCGCCGCGGAGTGGCTTAAGAGCCTTCCCGACAGGCATGTCGGTCCTACGTTGACCGCACATGACCTTGTTGCTGATTTCGGAGGCCCGCTTCTTGCCGAGGGTATGCCGCCCGTTGACGTGGTGGAGTACTTGGCCGCCAAGGCTGATCCAGGCCTGATGGCCATGCCTTCGGGCCGTTTCTTTGGCTGGGTGATTGGCGGGACCCTGCCCGCCGCCCTGGCCGCGGACTGGTTGGTAAGTGCGTGGGACCAGAATTCGGGCCTGCGCTATGCCACGCCGGCGATCGCGGCGATTGAGGAAGCGGCCGGGCATTGGCTGCTCCAGCTCCTGCGGCTGCCGGAAGAGTCCGACGTCGGCTTCACCACCGGCGCAACCATGGCCAACTTCACCGGCATGGCAGCTGCACGGTGGCGGCTGATGGCAGATGCAGGCTGGGATATGGACCGGAACGGGCTGGCCGGCGGCCCGCGGATCAGGTGTTTCGTCGGACAGGAACGCCACGAAACCATCGATCTGGGCCTGCGCTACCTCGGCCTGGGCCAACCCACGGCAGTCCCTGTCGATGCGCAGGGGAGGCTGATTACGGGCGAGCTGGACAGGCTGCTCGCGGAGGGTTCCGGCCCTGCCCTTGTATGCCTCCAGGCAGGGAACCTCCATTCAGGAGCCTTCGATCCCTTCGACGCTGCCATCCAGGTTGCCCACAGGCACGGGGCCTGGGTTCATGTCGACGGTGCTTTCGGACTGTGGGCCGCGGCAGTTCCCGAATTCGCCCACCTTACAGCAGGCATGGACCTGGCCGACTCCTGGGGAACCGATGCCCATAAGACCCTCAATGTGCCGTACGACTGCGGCGTCGCAGTGGTGAAGGACTCCCGGGCACTGCGCAGCGCCATGGGATTGCACACCAGCTATCTGGTCCACGACGCAGAAGGCCCCGGCGATCCCTTCGAGAAAGCGCCCGAGCTTTCCCGGCGTGGCCGCGGAGTCCCCGTGTGGGCAGCCCTCCGTTCCCTGGGCAGCGACGGTGTGTCTGACCAGGTCCGCGGTCTGGCGCAGGCAGCGTTACTGATCGCGGAGCGGCTGATTGAAGTGGATGGCATCGAAGTGCTGAATCCGGTGGACTATACCCAGGTTTCCCTCGCCTTCGGGGACGACGCCACCACCCGTGCGGTGACAGCCAGGGTCATCCAGGACGGAAAAGTCTGGATGTCCGGATCACGCTGGCAGGGCCGGGACGTGTTGCGCGTCTCGGTCAGCAACTGGAGCACAGACATGAACGACGTCGATACTGCGGTGGACGCTGTCAGTTCGGCCTTCGCCGCTGTCAATGCCCAAACCGGCTGA	MSAGAETYSEALAAAARLAAEWLKSLPDRHVGPTLTAHDLVADFGGPLLAEGMPPVDVVEYLAAKADPGLMAMPSGRFFGWVIGGTLPAALAADWLVSAWDQNSGLRYATPAIAAIEEAAGHWLLQLLRLPEESDVGFTTGATMANFTGMAAARWRLMADAGWDMDRNGLAGGPRIRCFVGQERHETIDLGLRYLGLGQPTAVPVDAQGRLITGELDRLLAEGSGPALVCLQAGNLHSGAFDPFDAAIQVAHRHGAWVHVDGAFGLWAAAVPEFAHLTAGMDLADSWGTDAHKTLNVPYDCGVAVVKDSRALRSAMGLHTSYLVHDAEGPGDPFEKAPELSRRGRGVPVWAALRSLGSDGVSDQVRGLAQAALLIAERLIEVDGIEVLNPVDYTQVSLAFGDDATTRAVTARVIQDGKVWMSGSRWQGRDVLRVSVSNWSTDMNDVDTAVDAVSSAFAAVNAQTG				NA	NA	NA	NA	NA
D1-29_01554	1098			hypothetical protein	ATGAGCCAAAAGACCGGAGTGCCGATCCCTCCAGACCTCACCGCGCGGTACAGCCGCAGCAGTGCGGGCCGGGCGTGGCTGGCGTCCCTGCCGGGCCTGATGCACGGGCGCCTGGATCACTGGGAGCTGGAGGCAGAACTTGCCCCCGGCGAGCTTCCGTGGAACGGGCATGGCGGCGTCGTCATTCCGGTCCGGCGGCTGGACGGTACCCCCGCCGCCCTCAAGATTGCCTTCCCGCACGATGAGGCCCGCGTTGAACGCCACGCATTGGCGTTGTGGGCCGGACGCGGCGCGGTGCGGTTGCTGGAGTCCGACGCCGGAACTTGCGCCATGCTGCTGGAACGCCTGGACGCGGGCTGCTCTCTGCAGACAGTTCCGATGGACAATGCCGTCACGGTGTGGGGCGGACTGATGCGCCAACTGAGCCTGATACCGGATGATAGGCCCCAGTGGCAGGAGTTCGATCATATTGCCGGACGGGCCGAGCAGTGGAGCGATGACTTGCCGGCCGACTGGGAGCAGATGGGCCGGCCTTTTCCGCGCTGGCTGCTGGAGGCGGCCCTTGAAGTCTGCCAGACCCGGGGCGCGGTGGGCCGCCGCGCGGGACGGGATGTGCTGGTGCACACCGACTTCCATTTCCTGAACATCCTGGCGAGAACCGGAACGGGCAGAGCAGGCATCGTAGAGTCTATTGCGGAGCCAGGCATCGAGTCCGGTGAACAGGATGCCGCAGCCCTGACGGACGGCCGGGCGTTCGCCGCGATCGACCCCCAGCCCATGATTGGCGAGCCGGAGTTTGCTGTGGCGCCCCTGCTGTGGAACCGGATCGCGGACCTTCCAAGGAGCGGCCCGGAGGCCGGTCTGCGGCAGCGCTGCGTGGACTTCAGCTCCGCCGCCGGCCTGGATGCTGACGTTGCCCGGCAATGGGGTATTGCACGGGAGGTGGAGAATGCCCTCTCATACGCCGCCCGGCCGTACCATCAGGGCGATTTTGCGCGATCACTCTGGGTGGCCAGTACCTTGGCTGGACGGACGCTGGACGGACTTCCCGCCCCGCATTCGCTGCCAGAACCCGGCGAGGAACAGTCGGCCCTCTGA	MSQKTGVPIPPDLTARYSRSSAGRAWLASLPGLMHGRLDHWELEAELAPGELPWNGHGGVVIPVRRLDGTPAALKIAFPHDEARVERHALALWAGRGAVRLLESDAGTCAMLLERLDAGCSLQTVPMDNAVTVWGGLMRQLSLIPDDRPQWQEFDHIAGRAEQWSDDLPADWEQMGRPFPRWLLEAALEVCQTRGAVGRRAGRDVLVHTDFHFLNILARTGTGRAGIVESIAEPGIESGEQDAAALTDGRAFAAIDPQPMIGEPEFAVAPLLWNRIADLPRSGPEAGLRQRCVDFSSAAGLDADVARQWGIAREVENALSYAARPYHQGDFARSLWVASTLAGRTLDGLPAPHSLPEPGEEQSAL	PGPT0028755_20	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
D1-29_01555	774			hypothetical protein	ATGGACGCCCATAAGCCGCCTGACTCCCCCGACGCAGCCCCCAGCGCGGACAACACCGGATTGGAACGCCATCTGGAAACCGAGCCGCACGACAACGACATCGCCCAGCGCCTCAACTGGCTGCGGGCTGGCGTGCTTGGAGCGAATGACGGCATCGTCTCCGTTGCGGCCATCGTGGTGGGGGTCGCCGGGGCGACCGCCGCTACCGGCGCCATCCTCGCCGCCGGAGCAGCCGGACTGGTGGGCGGCGCAGTTTCCATGGCATTGGGCGAATACGTTTCCGTCAGCAGCCAAAGCGACAGCCAAAAGGCCCTGATCGACAAGGAACGGCGGGAACTTGCCGAAGAGCCGGAGGAAGAACTCGCAGAGCTGACCGCAATCTACCGGGACAAAGGCCTCAGCCCCGAAACCGCCCGCGCTGTAGCGGTGGAACTGACAAACCACGACGCCCTGGCGGCCCATCTATCCGCTGAACTCAACATCGACGAAGCCGATATCGTCAGCCCCTGGACCGCCGCCTTCGCATCCGCCGTCGCTTTTACCCTCGGCGCTGTCCTCCCGATGCTGGCCATCCTCCTGCCTCCGCCTGCCATCAGGGTTCCGACGACGTTTGCCGCAGTCCTGCTTGCCCTGGCCCTCACGGGGGCAGTGGGCGCGTGGATCGGGGGCGGGTCGAAGTGGCGGGCTGCGGCCAGGGTTGTGGTTGGCGGCGCCTTGGCCCTTGCGGCGACGTTCTCCATCGGCAATCTGCTCGGGGCCAGCGGCGTCGTGTGA	MDAHKPPDSPDAAPSADNTGLERHLETEPHDNDIAQRLNWLRAGVLGANDGIVSVAAIVVGVAGATAATGAILAAGAAGLVGGAVSMALGEYVSVSSQSDSQKALIDKERRELAEEPEEELAELTAIYRDKGLSPETARAVAVELTNHDALAAHLSAELNIDEADIVSPWTAAFASAVAFTLGAVLPMLAILLPPPAIRVPTTFAAVLLALALTGAVGAWIGGGSKWRAAARVVVGGALALAATFSIGNLLGASGVV				NA	NA	NA	NA	NA
D1-29_01556	1287			hypothetical protein	GTGACACCATGGTCTGTTGTGAACGATGACAGTCAGGAAAAGAGGCCCCGTGGGCGCTATTTCCGCTACGCTGTTTTGTCGCTCACAGCCCTTCTGGTCCTCAGCCTGGGAATTGCCCTGATCCCCCATGAGCCGCCTCCGCCGCCGGAACCGCCGTTCTCCGAGCAGGCCAGGGCCGCGGCGTTCGCTGATGCCGTGTCATTGCGGTCATCAATCATGGAGCTGGCGGGCCCCGCCGCTGATCCCGGCACCCCTGGTTCCGGGACTCCTGACCCTGCATCCGGCCGAGCCTCCGGCCACGTGATCCTGGACCGCGTTGTGACTTTGCTGACGTTTCAGGCCAGGGCGCTGATGCTGCCTCCTGACGGATCCTCTGCAGAGGCAGGAGCAACAGCCGCAGAGGGAGCCGGACCCGGGACAGCGTCAGCAGAACCTTCCCCAACTGCCGCCGCGCCGGTGCCCCCTTCTCCTGCCGAACTTGTGGCCGCGCTCTCGGCCAGCGGGGCCAAGCGCCTCAGCGATGCGGGAATGGCCGACGGCGGAATGGCCCGGCTTCTTGCCGGCACCGGTGCCGCACAGCTCCTCGCCGCCACGGAACTTGCCGCGTTCGCCGGCGTTCCGGCCCCGGCACTTCCGTCCGCTGTTCCACACTCTGTACCTTCTCCCTCTGAGCTTTCTCCCTCAGCACTTCCTCCTTCCGAACTTTCTCCTTCCGCACTTCCGGGGGCCGGCGGAACGGAGGGAGCAGCTGAAGGCGCGCCTGATGAAGAGCCTGATGAAGAAGGGACGCCCGGCCGGGACAGTGCAGCGGGGCTGGCTGCCAATTGCGGAACTGCGGAGCCATCGGCAGGGACAGAGCTAGCGGCTGCCCTCACCTCAGCTGTGGAAGCCGAGCTGGAAGCGGTGTACGGATATCAGGCAGCGCTCACCCGGCTGGATCCGGCATTGGCGGCCGCGGCGTCGGACCTTCTGGAACAGCACCACGACCTGGTCGAACGGGGCGTGTACTACAGCAGGATCCACTGCGCTACGATTCCACCCCCACAGCCTGGCTACGTTCTCAGCCAGGCATTCCTTGACGCACCGGCGGCGGGGCTGGGGCGGATCGAGGCCAGTACTTTGCCGGTCTACGGTGACGTGGTGGCCATGAGCCAGGGTGCCACCCGCCAGTGGGCCATCTCCGCCCTACTGAATGCAGCGCGGAGGACAGTCCAGTGGGGAGCTGACCCGGGTCCCCTTCCGGGCCTTTCCTTGGATGAATCCCAGCTGCCGCAGCTACCGGCGTGA	MTPWSVVNDDSQEKRPRGRYFRYAVLSLTALLVLSLGIALIPHEPPPPPEPPFSEQARAAAFADAVSLRSSIMELAGPAADPGTPGSGTPDPASGRASGHVILDRVVTLLTFQARALMLPPDGSSAEAGATAAEGAGPGTASAEPSPTAAAPVPPSPAELVAALSASGAKRLSDAGMADGGMARLLAGTGAAQLLAATELAAFAGVPAPALPSAVPHSVPSPSELSPSALPPSELSPSALPGAGGTEGAAEGAPDEEPDEEGTPGRDSAAGLAANCGTAEPSAGTELAAALTSAVEAELEAVYGYQAALTRLDPALAAAASDLLEQHHDLVERGVYYSRIHCATIPPPQPGYVLSQAFLDAPAAGLGRIEASTLPVYGDVVAMSQGATRQWAISALLNAARRTVQWGADPGPLPGLSLDESQLPQLPA				NA	NA	NA	NA	NA
D1-29_01557	618	rimP		Ribosome maturation factor RimP	GTGAGTAATGCAGAAGCCACGACTTCATCAGACCGTACCGGAACGGGTAGGGCTGAAGCTGTGCCTGCCTACAATCCGGAAGCTGCCCGGCTTCGGGCATTGCTTGAACCCGCTGTGCAGGCCAACCGCCTGTACCTGGAGGACGTCACTATTAATGTGGCCGGATCCCACCGAGTGGTCCACGTTGTGGTGGACCTGCCGCAAGAGGAAACCGGCGGCGTGAACCTGGACGTCATCTCGGACATCTCCAAGGTCCTCTCGGACGTTATGGACAACGACCCCGGTGACGACGGACGTCCCTACGATCTCGAGGTTTCCTCCCCGGGAGTTGGGCGCCCGCTGACCGAACCGCGGCACTGGCACCGCGCCAGGGGCCGGATGGTCAAGGTCAACGTCATCCAGGGCGAGAACGTCACCGGCAGGGTCCAGTCCGTGGATGACTCCGGTGTGACCATCGTCCCCGAAATCGCCGTCAAGAAGGGCATGAAGCCCAAGCAGGGCGAGCCCGTGAAACTTCCTTTCGACAGGATCCGCAATGGAAAAGTCGAGATCGAATTCAGCCACCTCGAAGAAGCTGGTCTGGAACCTGAGCACAATGGACCTTCTGAGGAGGCCTGA	MSNAEATTSSDRTGTGRAEAVPAYNPEAARLRALLEPAVQANRLYLEDVTINVAGSHRVVHVVVDLPQEETGGVNLDVISDISKVLSDVMDNDPGDDGRPYDLEVSSPGVGRPLTEPRHWHRARGRMVKVNVIQGENVTGRVQSVDDSGVTIVPEIAVKKGMKPKQGEPVKLPFDRIRNGKVEIEFSHLEEAGLEPEHNGPSEEA				NA	NA	NA	NA	NA
D1-29_01558	981	nusA	COG0195	Transcription termination/antitermination protein NusA	ATGGATATTGACATGAGCGCGCTGAGACTCCTGGAGCGTGAGCGCGAAATTCCGCTGGACCTCCTGATCCCTACCATCGAGCAGGCGCTTCTGGTGGCCTACCACAAGTCGCCGGGCGCCTTCGAGAAAGCCCGCGCCGAGTTGGACCGCAAGAGCGGTCACGTCACCATCTGGGCCGTGGAAATCGACGACGACGGTGCCCCCATCGGCGAGTTCGAGGACACCCCTGCCGGCTTTGGCCGCATTGCGGCGAGCACCGCCCGCCAGATCATCCTGCAGCGCCTGCGTGATGTTGAGGACGACAACGTCCTCGGCGAGTTCAAGGGCCGTGAGGGCGAGCTCGTTGCCGGCACCATCCAGCAGGGAAACAACCCCCACATGATCCAGGTCAACCTGGGCACTGTGGAGGCCCTGCTGCCGCCGCCGGAACAGGTGCCGGGGGAGAAGTACATCCACGGCAACCGGCTCCGCGCCTTCGTCATTGATGTTCACCGCGGCACCAAGGGTCCCTCCATCACGCTGTCCCGTTCGCACCCCGGCCTGGTCCGGAAACTGTTCGAACTGGAAGTGCCGGAAATCGCTGACCGCTCGGTGGAGATCGTTGCACTGGCACGCGAAGCCGGTCACCGTACCAAGATTGCGGTCAAGGCGAACACTCCGGGCATCAACGCCAAGGGCGCCTGCATCGGCGAAATGGGGTCCCGCGTCAGGGCGGTCATGACCGAGCTGAATGACGAAAAGATTGACATCGTGGACTACAGCGAGGATCCGGCGACGTTTATCGCCAGTGCCCTGTCTCCGTCCCGTGTGAATTCGGTCACCATCATCGATGAGGCCACCCGGTCTGCACGGGTTGTGGTTCCGGATTACCAGCTCTCGTTGGCCATCGGCAAAGAGGGGCAGAACGCCCGGCTTGCTGCCAAGCTCACCGGCTGGCGGATCGATATCGTCTCCGACGCCGCCGCGCAGCGCGACAGCTAA	MDIDMSALRLLEREREIPLDLLIPTIEQALLVAYHKSPGAFEKARAELDRKSGHVTIWAVEIDDDGAPIGEFEDTPAGFGRIAASTARQIILQRLRDVEDDNVLGEFKGREGELVAGTIQQGNNPHMIQVNLGTVEALLPPPEQVPGEKYIHGNRLRAFVIDVHRGTKGPSITLSRSHPGLVRKLFELEVPEIADRSVEIVALAREAGHRTKIAVKANTPGINAKGACIGEMGSRVRAVMTELNDEKIDIVDYSEDPATFIASALSPSRVNSVTIIDEATRSARVVVPDYQLSLAIGKEGQNARLAAKLTGWRIDIVSDAAAQRDS				NA	NA	NA	NA	NA
D1-29_01559	432			hypothetical protein	GTGCGCGTCCTGCGCCGAAGGCTGAGACTCCTGCCGCTCCCACCCGCTCTGGCGGATCAACACAGGGTGGATCCGGCCAGGGTGGCGCCCCGCGTCCGGGCGGTCCCCGTCCGGGCAACAACCCGTTTGCCACGTCGCAGGGCATGCCCCGCGGCCGCGGCGGCGACGGAGAACGTGCTCCGCGTCCGGGCAATAACCCGTTTGCTCCGTCGCAGGGTATGCCCCGCCCGGGTGGAAGCCGCACCGACGGCGACCGTCCCGGTGGTCCGCGTCCCGCAGCAGGTGCCGGTGGCCCCCGTCCGGGTGGTCCGCGTCCCGCAGCAGGTGCCGGTGGCCCCCGTCCCGGTGGTCCGCGTCCCGCCGCTGGCGCCGGCGCTGGTGGCCCCCGTCCCGCGGGTGGTGCCGGTGGAAACCGTCCTACTCCGGGCATGA	MRVLRRRLRLLPLPPALADQHRVDPARVAPRVRAVPVRATTRLPRRRACPAAAAATENVLRVRAITRLLRRRVCPARVEAAPTATVPVVRVPQQVPVAPVRVVRVPQQVPVAPVPVVRVPPLAPALVAPVPRVVPVETVLLRA				NA	NA	NA	NA	NA
D1-29_01560	1851	infB	COG0532	Translation initiation factor IF-2	ATGAGTGCTCCGTCGCTGGGTGGCGTGAGCGTACCCCGCGGCGACGGCAACACCGTAGTACGTCTTCGCCGTGGCTCGTCCATCACGGACTTCGCCGACAAGATCGAGGCAAACCCCGCCGCACTGGTGACCGTGCTGTTCCACCTTGGTGAAATGGCAACGGCTACCCAGTCGCTGGACGAGGAAACCTTTGCACTGTTGGGCGAAGAGCTCGGCTACAAGCTCCAGGTTGTGTCCCCGGAGGATGAGGAGCGCGAGCTGCTCTCCACCTTTGACATTGACTTCGAAGCAGAGCTCGAGGCCGAAGGCGACGAAGACCTCGAGGCTCGTCCTCCGGTTGTCACCGTTATGGGCCACGTCGACCACGGTAAAACCCGACTGCTCGATGCCATTCGTAAGTCCGACGTTATGGCGGGCGAGCACGGCGGCATCACGCAGCACATCGGTGCCTACCAGGTCACGCACACCCACGAGGGTGAAGACCGCAAGATCACGTTCATCGATACTCCGGGCCACGAGGCGTTCACCGCCATGCGTGCCCGTGGTGCCAAGGTGACTGACATTGCCATCCTGGTGGTCGCAGCGGACGACGGCGTGATGCCGCAGACCGTTGAGGCCCTCAACCACGCACAGGCAGCCAATGTGCCCATCGTGGTGGCCGTGAACAAGATCGACAAGGAAGGCGCCAACCCGGAGAAGGTCCGCGGCCAGCTGACCGAGTACGGACTGGTTCCCGAAGAGTACGGTGGCGACACCATGTTCGTTGAGGTCTCTGCACGCCAGAACCTGAACATCGACGAGCTGCTCGAGGCCGTCCTGCTGACCGCAGACGCTGCCCTGGACATGCGCGCCAACCCGAACAAGGACGCCCGCGGTATCGCTATCGAAGCCAACCTGGACAAGGGCCGCGGTTCCGTGGCCACCGTCCTGGTGCAGTCCGGTTCACTGCGTGTCGGTGACACGATCGTTGCCGGTACGGCCCACGGCCGCGTCCGCGCCATGTTCGACGACGACGGCAGCGCCCTGACCGAGGCCGGCCCGTCCCGCCCCGTGCAGGTACTGGGTCTGTCCAACGTGCCGCGCGCCGGCGACACCTTCTTCGTGACCGCCGACGAGCGCACCGCCCGTCAGATCGCCGAGAAGCGTGAAGCAGCAGACCGCAACGCAGCCCTGGCCAAGCGCCGCAAGCGCATCAGCCTGGAAGACTTCGACCAGGCCGTGGCAGATGGCAAGATCGACACCCTCAACCTCATCCTTAAGGGTGACGTGTCCGGTGCCGTGGAAGCCCTCGAAGACGCACTGCTCAAGATCGACGTCGGCGAAGGCGTGCAGCTGCGCGTCATCCACCGCGGCGTTGGTGCTATCACGCAGAACGACGTCAACCTGGCAACAGTGGACAGCGCCGTTATCATCGGGTTCAACGTCAAGCCGGCCGAGCGGGTTGCCGAACTGGCAGACCGCGAAGGCGTGGACATGCGCTTCTACTCCGTCATCTACGCAGCAATCGATGACATCGAGATGGCCCTCAAGGGCATGCTCAAGCCGGAGTACGAAGAGGTCCAGCTGGGCACCGCCGAGGTCCGTGAAGTGTTCCGTTCCTCCAAGTTCGGCAACATCGCCGGTTCCATCGTTCGCTCGGGTGTTATCCGACGCAACACGAAGGCCCGCATCAGCCGCGACGGCAAGATCATCGGTGACAACCTCACCGTTGAGACGCTCAAGCGCTTCAAGGACGACGCCACCGAGGTCCGCACGGACTTCGAGTGTGGTATCGGTCTTGGCTCGTTCAACGACATCACCGAAGGCGACATCATCGAGACCTTCGAGATGCGCGAGAAGCCTCGCGTCTAG	MSAPSLGGVSVPRGDGNTVVRLRRGSSITDFADKIEANPAALVTVLFHLGEMATATQSLDEETFALLGEELGYKLQVVSPEDEERELLSTFDIDFEAELEAEGDEDLEARPPVVTVMGHVDHGKTRLLDAIRKSDVMAGEHGGITQHIGAYQVTHTHEGEDRKITFIDTPGHEAFTAMRARGAKVTDIAILVVAADDGVMPQTVEALNHAQAANVPIVVAVNKIDKEGANPEKVRGQLTEYGLVPEEYGGDTMFVEVSARQNLNIDELLEAVLLTADAALDMRANPNKDARGIAIEANLDKGRGSVATVLVQSGSLRVGDTIVAGTAHGRVRAMFDDDGSALTEAGPSRPVQVLGLSNVPRAGDTFFVTADERTARQIAEKREAADRNAALAKRRKRISLEDFDQAVADGKIDTLNLILKGDVSGAVEALEDALLKIDVGEGVQLRVIHRGVGAITQNDVNLATVDSAVIIGFNVKPAERVAELADREGVDMRFYSVIYAAIDDIEMALKGMLKPEYEEVQLGTAEVREVFRSSKFGNIAGSIVRSGVIRRNTKARISRDGKIIGDNLTVETLKRFKDDATEVRTDFECGIGLGSFNDITEGDIIETFEMREKPRV				NA	NA	NA	NA	NA
D1-29_01561	510	rbfA		Ribosome-binding factor A	ATGGCTGATCCCGCACGGGCTGCCAAGTTGGCGCAGCGGATCAAGGTTGTTGTTGCTGAGGCTTTGGGCCGGAAGGTTAAGGATCCTCGGCTCGAAGGCATCACTGTTACCGATGCCCGCGTGACCAACGATCTGCAGCATGCCACCATCTACTACACCGTTTTCGGCGATCAGGCTGTCCAGGCTGATGCTGCCAAGGGCCTGGAGAAGGCCAAGGGTGTGCTTCGTCAGGAAGTGGGGCGCAACGTGACTGTCCGGCTGACTCCCAGTCTTGAATTCGTGGCCGACCAGATTCCCGTGGTTGCATCCAACCTTGAGGAGCTGCTTCGCGAAGCCAAGAAGCGCGACGCCGCTGTGGCCGCCCTGGCTGAAAACGCCAAGCACGCCGGAGACCCCGACCCGTACAAGAGCGACATTCCTGCCGACGTCGAGATCGACGAGGACGACTTCGACGAAGAGGACCTTGACCTCAGCGAAGACGGCGAATTTGAAGAAGACAGCAACAAGTAA	MADPARAAKLAQRIKVVVAEALGRKVKDPRLEGITVTDARVTNDLQHATIYYTVFGDQAVQADAAKGLEKAKGVLRQEVGRNVTVRLTPSLEFVADQIPVVASNLEELLREAKKRDAAVAALAENAKHAGDPDPYKSDIPADVEIDEDDFDEEDLDLSEDGEFEEDSNK				NA	NA	NA	NA	NA
D1-29_01562	549	guaD_1	COG0590	Guanine deaminase	ATGCCGGCGGCTGACTATGATCAGATCATGGCGGCGTCAGAGGCAGGGCCTGATCCTGTGGTGAATCCCGGTTTTGCCGGCAATCCCAGTCCCGAGGACTATCTCAACTTGGCTGTTCAGACTGCAGTCAGCAACGTGGCCGACGGCGGCGGTCCGTTCGGCGCCGTGGTTGTCACGCCCGACGGCGGGCTGCACTACGGCGTCAACAGGGTGACCCGCGACAACGATCCCACAGCCCACGCCGAGGTGGTGGCGATCCGCCGGGCCGCGGCTGACTCCGGGAACTTCGATCTCAAAGGCTCCGTGCTCTACACAAGCTGTGAGCCCTGCCCATTGTGCCTGGCCGCGGCACTCTGGGCACGCATTGACCGCGTCTACTATGCGGCGGACCGTCACGGCGCCGCCGCTGCCGGGTTCGACGACGCCCTGTTCTACGAATACTTCGGCGGAGCCCGGCCTGATCTCATGCCTGTCACCAGGGGTGATATTCCGACGTCGAACGCCCCGTTCCAGGCCTGGCGGGACTTCGGAGACCGGGTGGAGTACTGA	MPAADYDQIMAASEAGPDPVVNPGFAGNPSPEDYLNLAVQTAVSNVADGGGPFGAVVVTPDGGLHYGVNRVTRDNDPTAHAEVVAIRRAAADSGNFDLKGSVLYTSCEPCPLCLAAALWARIDRVYYAADRHGAAAAGFDDALFYEYFGGARPDLMPVTRGDIPTSNAPFQAWRDFGDRVEY	PGPT0021515_2238	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021515-guaD-K01487	NA	NA
D1-29_01563	444	trxC	COG0526	Thioredoxin 2	ATGGCCCTGGAACCGACACTGATCACCTGCCCCAACTGCGGAAAGACCAACCGGATCCCCGCAGCGGCGTCCGGCCACCCGCGCTGTGGCAGTTGCCGTCAGGATCTCCCTTGGATTGTCAACGCCGGCGATGACGAGTTCGCGGTTGTCGCCGAGCAGTCGCCCGTTCCCGCCCTGATCGACTTCTGGGCTGCCTGGTGCGGTCCCTGCCGGATGGTCAGTCCCGTGCTGGACAAGTTGGCACGGGAAAAGGCGGGCCGCATCAAGCTGGTGAAGGTTGACGTGGACAGGTCCCCGGGCCTTTCCCGGCGGTTCGATGTGCAGGCGATTCCCACGCTGATGATCATTGTGGACGGCAAGGTGATCGCCCGCCAGGCCGGCGCCGCACCGGCCGGGGTGCTGCGTTCATGGCTGGATGACGCCTTGGCGGCCCATCGCACCTAG	MALEPTLITCPNCGKTNRIPAAASGHPRCGSCRQDLPWIVNAGDDEFAVVAEQSPVPALIDFWAAWCGPCRMVSPVLDKLAREKAGRIKLVKVDVDRSPGLSRRFDVQAIPTLMIIVDGKVIARQAGAAPAGVLRSWLDDALAAHRT	PGPT0013061_434	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013061-trxC-K03672	NA	NA
D1-29_01564	1203	dapX_1	COG0436	putative N-acetyl-LL-diaminopimelate aminotransferase	ATGCCTGAGCTTGCTGCCCATGTGCGGAACGTCCCCGTCAACCAGATCCGCGAAATCACGGAGGCCGCCTGGCGTCATCCTGAAGCGATCGTCCTGAGCATCGGTGAACCCGGTTTCCCGCTGCCCCGCCATGTGCTGGACGCCGGAATGGCATGCCTGGACCGGGACGAGACCAACTACACACCAAACGCCGGTATTCCCGCGCTGCGGGAAGCCTTCGCTGACCGGTTCCGTGCCGGTCTAGGTGCCGGCCACCTGGCCGGTGCGGGCCACCTGACCGGCGCGGGCAACCAAAGCAGCATCGCCGCCGACCGCGTCTATGTGGTGGCCGGCGCCCAGCAGGGCCTGCACCTTGCCATGAGCCTCCTCCTCGCGCCGGGCGATGAAATCCTGATCCCGAATCCCGGTTACCCCACCTTCGCCATGACCAGCCGGCTCCTGAACGCTGTTCCGGTGGGGTACCCGTTGTATCCGGACCAGAATTTCCAGCCCCGGCTCCAGGACGTGGAGGCCCTCATCACGGACCGCACCAGGGTGCTGATGCTGAACTCCCCGTCCAACCCCCTCGGAGCAGTCCTCCGTGAGGACCTGACCCGCGACCTCGTTGACCTGGCCCGCCGGCACGATCTCTGGATCATCTCAGACGAATGCTATGAAGCCTTTACCTACGATGTTCCGCACGTCAGCGCCGCCCGGTTCGACAGCGACGTTCCGGGCGAGGCGAGGGTCTTCACCTCGTTGACCCTCTCCAAGACCTACGGCCTGACAGGGCTCAGGATCGGCGCCCTCGTCTGTCCGCCGGGCCTGGAGCAGAAGATGAACAATGTGATGGAAGCGATCGTTTCCTGTGTCGCCGCACCGTCCCAGTACGCCGCGCTGGCGGCGCTGACGGGTCCCCAGGACTATGTGGAGCAGGCACATAAGCATTACCGGGCCAACAGGGACGCCGCTTCCGCTGTCCTGGACGCCAAGGGGATCCCTTACCTCAGCGCGCAGGGTGCGTTCTATCTTTGGGCGGATGTCAGCCACGTCACCGACGGCGATGTCCGTGCCTGGACCCGCCGGTTCCTCGCCGAGTCCGGGGTGTCGTTTGCGCCGGGAACCGCCTTTGGGTCCATTGGCGAGGGCTGGGTACGCATTGCGCTCTGCGGTAAACAGCCGGAACTCGTGGAGGGTGTTGGCCGCCTGCCCGCGCGGTCCTGA	MPELAAHVRNVPVNQIREITEAAWRHPEAIVLSIGEPGFPLPRHVLDAGMACLDRDETNYTPNAGIPALREAFADRFRAGLGAGHLAGAGHLTGAGNQSSIAADRVYVVAGAQQGLHLAMSLLLAPGDEILIPNPGYPTFAMTSRLLNAVPVGYPLYPDQNFQPRLQDVEALITDRTRVLMLNSPSNPLGAVLREDLTRDLVDLARRHDLWIISDECYEAFTYDVPHVSAARFDSDVPGEARVFTSLTLSKTYGLTGLRIGALVCPPGLEQKMNNVMEAIVSCVAAPSQYAALAALTGPQDYVEQAHKHYRANRDAASAVLDAKGIPYLSAQGAFYLWADVSHVTDGDVRAWTRRFLAESGVSFAPGTAFGSIGEGWVRIALCGKQPELVEGVGRLPARS	PGPT0020110_3819	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
D1-29_01565	921	truB	COG0130	tRNA pseudouridine synthase B	GTGGACAAACCGCAGGGATGGACCAGCCATGATGTGGTTGGCCGGATGCGGCGGCTCGCCGGTACCCGGAAAGTGGGGCATGCGGGAACCCTTGACCCCATGGCCACCGGTGTCCTGGTGGTGGGCATCAACAAGGCGACGCGGCTGCTCACCTACATCGTGGGCACGTCCAAGACGTACACGGCAACCATCCGTCTGGGCCAGTCCACCATTACCGACGACGCCGAAGGCGACGTGATCGCATCCATCAGCGCCGCCGCCGTCACCAATGAGGAAATCCACGACGGCGTGGCCGCCCTTACCGGGCAGATCCAGCAGGTGCCCAGCAGCGTCAGCGCCATCAAGGTCAACGGGGAACGGGCGTATGCACGCGTACGGTCCGGCGAAAACGTGAAACTCGCGGCGCGGCCCGTCACCATCCACCGGTTCGAAGTACACAGCATCCGGCGGGAGCCCGCGGGTGGCGTTGTGGACGTCGATGTCACGGTGGAGTGTTCCTCGGGTACCTACATCCGTGCCCTGGCACGGGACCTCGGCGATGCGCTGGGGGTGGGCGGGCATTTGACCGCGCTCCGGCGTACCCACGTGGGCCCGTATTCCCTGGACCAGGCCCGGACCCTGGAGCAGCTGGCCGAAGAACTTCAGGTACTCGAGATGTCCCAGGCCGCCCGCGCGCTGATGCCCAACAGGGAACTCACAGCGGACGAAACCACCGAGATCTCATTCGGCCGCCGGATCCCGGCCGGCTCACCGGCGGGAGATCCGCTGGCGGCAACAGTGGAGAACCCGGCCGCCGCCTTTGCTCCGGACGGGAGCCTGGTGGCGCTGTTGGCTGATTCCGGCAGCTTTGCCAAGCCAGTGCTGGTGTTCGCGCCAGGCAACGCCGCCGCGCCCGGCAATGCCACAAGCCAGGGGACATAG	MDKPQGWTSHDVVGRMRRLAGTRKVGHAGTLDPMATGVLVVGINKATRLLTYIVGTSKTYTATIRLGQSTITDDAEGDVIASISAAAVTNEEIHDGVAALTGQIQQVPSSVSAIKVNGERAYARVRSGENVKLAARPVTIHRFEVHSIRREPAGGVVDVDVTVECSSGTYIRALARDLGDALGVGGHLTALRRTHVGPYSLDQARTLEQLAEELQVLEMSQAARALMPNRELTADETTEISFGRRIPAGSPAGDPLAATVENPAAAFAPDGSLVALLADSGSFAKPVLVFAPGNAAAPGNATSQGT				NA	NA	NA	NA	NA
D1-29_01566	354			hypothetical protein	GTGGACGCATACTTTTACATCGTTCTTGTGGTCGGTCTTCTCTCGACCGGTATCTGCCTGGTGGCGGGGATCGCCAAAAAAGCCCCCAACGACATCACCATCCTGTCGGTGGCAGCAGTGGAAGCCGCCCTGGTGGTTTACCTCGTCGGATCCATCGTCAGGGTCATTGCGGGTGAGCCGATCGCGGGGGAGGCGTGGGAGTTCTGGGGCTACCTTGCCACCGCAATGCTCCTGCCGCCCGCCGCCGTCTACTGGTCCATCCTGGAACGGACCCGGTGGAGCAATTTTGTCCTGGCCGCCGTCGGCGTCACCGCCCTGGTGATGGCCGCCCGAATGAACCAGATCTGGTACTGA	MDAYFYIVLVVGLLSTGICLVAGIAKKAPNDITILSVAAVEAALVVYLVGSIVRVIAGEPIAGEAWEFWGYLATAMLLPPAAVYWSILERTRWSNFVLAAVGVTALVMAARMNQIWY				NA	NA	NA	NA	NA
D1-29_01567	468			hypothetical protein	GTGAAATCACAGCAGCAATCGACCCCGGGGAAAGTATCCGCAGCCGGCAAGGACACGCGCAACACCGGGCCCGGCCGCCTGCTGATTGCTGTCTACGCGGTGTTCGCCATTTCGGCCACCGCCCGCGCCGGCTACCAGATCCTGACGAAATTCTCTGAGGCTCCGCTGGCTTACCTGCTCTCTGCCTTCGCAGCCTTGGTGTACCTGGTGGCCACTGTGTCCCTGGCCAAGCCGGGCCGCACCTGGTTCAAAGTGTCCGTGGCGGCCGTCCTGGTGGAACTCGTGGGCGTGCTGGTGGTCGGCGCCCTGAGCCTCTTCGATCCCGTCCAGTTCCCGCACGAAACCGTCTGGTCCCTTTTCGGCCGCGGTTACGCCTTCATCCCGCTGCTGCTGCCCATCCTGGGCCTGGTATGGCTCTACCGGCGGCGGCCCGGCAGCCGCCCGTCCACAAGTCCCGTCCACCAGTAA	MKSQQQSTPGKVSAAGKDTRNTGPGRLLIAVYAVFAISATARAGYQILTKFSEAPLAYLLSAFAALVYLVATVSLAKPGRTWFKVSVAAVLVELVGVLVVGALSLFDPVQFPHETVWSLFGRGYAFIPLLLPILGLVWLYRRRPGSRPSTSPVHQ				NA	NA	NA	NA	NA
D1-29_01568	1017	ribF		Bifunctional riboflavin kinase/FMN adenylyltransferase	ATGTCAATGTCAGGCAGTAAAAAGGCGAGGGTGATGGTCAACATCTGGAACGATCCGTCCGAGGTCCCGGCGGACTTCGGTCCCTCCGTTGTCACCTTCGGCAACTTCGATGGCGTCCACCGTGGCCACCAGCAGGTGCTGTCCCAGCTCATCCGCTCAGCCCGCCTGAACAGGACAAAAGCCGTCGCGGTGACGTTTGACCCGCACCCGGCAGTGGTTCACCGGCCTGAGTCTGCGCCGGAAATGATCATGGGCCTGGAGGACAAGCTGGAGGCGCTGGGGGAGCTGGGCCTTGACGCCATCCTGGTGATGAAATATTCGCTGGAACTCGCCAGCCTCACCCCCGAAGAGTTCGTACGCCAGGTGCTGGTGGACAGCCTTCACGCCAGCCACGTGGTCATCGGCCACGATGCCCGGTTCGGCCGTGGGAACTCCGGCGATCTTGACACCATGAAGAAGCTCGGCCAGCAGTTTGGCTTTGACGTCCAGGTCATCAGCGAATTCGGCTCCGAAGGCTTCCCACTGCACGACGACGACGGGACGGACAGGCGCTGCTCCTCCACCTGGGTGCGCGAGGCGCTGCGGGAGGGCGACGTGGCAACGGCCGGCGCCGTCCTGGGCCGACCGCACCGGATGCGCGGCGAAGTGGTGCACGGAGCTGCCCGCGGCCGTGCCCTGGGATTTCCCACAGCCAACCTGGCCCCGAACGCCAGCGGACTGATCCCCGCAGACGGGATTTACGCGGGCTGGCTTGTTGACCAGGCCGGCACCCGCTGGCCGGCTGCGATTTCCGTGGGGTCAAATCCCACGTTCGACGGCGTCAGCCGCCAGGTTGAGGCGCACGTGATCGACCGTCCGCATGAGGCCGTAGAGGACTTCGATCTGTACGGCCAGACAGTAGTTGTGGAGTTCGTGGCCCGGCTCCGTGGCATGGTGGCGTACCGTGGGCCTGAGGCGCTCGTTGACCAGATGCGCCTGGACGTGATCCAGGCGCACGATCTCCTGGTCCGGCGCTGA	MSMSGSKKARVMVNIWNDPSEVPADFGPSVVTFGNFDGVHRGHQQVLSQLIRSARLNRTKAVAVTFDPHPAVVHRPESAPEMIMGLEDKLEALGELGLDAILVMKYSLELASLTPEEFVRQVLVDSLHASHVVIGHDARFGRGNSGDLDTMKKLGQQFGFDVQVISEFGSEGFPLHDDDGTDRRCSSTWVREALREGDVATAGAVLGRPHRMRGEVVHGAARGRALGFPTANLAPNASGLIPADGIYAGWLVDQAGTRWPAAISVGSNPTFDGVSRQVEAHVIDRPHEAVEDFDLYGQTVVVEFVARLRGMVAYRGPEALVDQMRLDVIQAHDLLVRR	PGPT0008625_837	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
D1-29_01569	855	kynA	COG3483	Tryptophan 2,3-dioxygenase	GTGTCCGTAGAGAAGAACACCAGGAAACTGGATAAAGGCATCGTGCGGGATTTCAGTTCCCGGATGAGCTACGCCTCCTATCTACAGCTGCCCACCCTTCTCAGTGCGCAGCAACCTGTCAGCCGTCCTGAACACCATGACGAGCTGCTGTTCATCATCCAGCACCAGACCACCGAGCTCTGGCTGAAACTGGTGCTGCACGAGCTCAGGAGCGCGGCCGCGTGGCTGCGGGAGGACGATCTCGGCGCCGCGCTGAAGGGCATCGCCAGGGTCAAGCACATCCAGAAGACACTAACCGAGCAGTGGTCCGTCCTGGCAACCCTGACCCCCACCGAGTACTCCCAGTTCCGGGGTTTCCTCGGCAACTCATCGGGCTTCCAGTCCAGCCAATACCGTGCGGTGGAGTTTGTCCTGGGGAACAAAAACCGGAAGATGCTTCCCGTCTTTGAGTCTGACCCGGAAGCACATCAGATGCTGGAAGGGCTGCTCCATGCCCCCAGTATCTACGACGAGTTCCTGGCCTACCTCGCACGGCAGGGCCTGGACGTGCCGCCGGCGGTCCTGGAACGCGACGTCACCCGCGCCCACGAATTCACTCCCGAGCTGGTGCCGCTGTTCAAGCACATCTACGAGAACCCCGCGGAGAACTGGGGTGCCTACGAGGCGTGCGAAGAACTCGTTGACCTGGAGGACAACTTCCAGCTCTGGCGGTTCCGCCACCTGCGCACGGTGCAGCGCACCATCGGCATGAAGACGGGCACCGGAGGTTCCACCGGCGCCGCCTTCCTGCAAAAGGCACTGGAACTGACGTTCTTCCCTGAACTCTTCGCCGTCCGGACGGAGATCGGCCAATGA	MSVEKNTRKLDKGIVRDFSSRMSYASYLQLPTLLSAQQPVSRPEHHDELLFIIQHQTTELWLKLVLHELRSAAAWLREDDLGAALKGIARVKHIQKTLTEQWSVLATLTPTEYSQFRGFLGNSSGFQSSQYRAVEFVLGNKNRKMLPVFESDPEAHQMLEGLLHAPSIYDEFLAYLARQGLDVPPAVLERDVTRAHEFTPELVPLFKHIYENPAENWGAYEACEELVDLEDNFQLWRFRHLRTVQRTIGMKTGTGGSTGAAFLQKALELTFFPELFAVRTEIGQ	PGPT0020505_991	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TRYPTOPHANE_DEGRADATION,PGPT0020505-kynA-K00453	NA	NA
D1-29_01570	1260	kynU		Kynureninase	ATGAGCACTGAATCGCAGGCAACGGTGGAAAATTCCGACGCCGGTGCCCTCCTTCGGCGGGCCGGGCAACTGGATGCCCAGGACCCGCTGGCACACTACCGGGACCTGTTCATCGGAACGGACACCGACCTCTCCTACCTGGACGGCAATTCCCTGGGACGCCCGCTCAAGCGGACGCCGGAGGACATCAGCGACTTCATCCATAAAGGCTGGGGCGGCCGGCTGATCCGCGGCTGGGACGAGGAATGGCTGGAGCTGCCGCAGGCCATCGGGGACCAACTGGGCAGGGCAGTGCTGGGCGCCGCTCCCGGGCAGACCATCATCGCCGATTCCACCACCGTGGTCCTGTACAAGCTCATCCGCGCCGCGCTGGCCGCGGTGACCGATCCTGGCCGCAGGGCGATTGTCCTGGACACGGACAACTTTCCCACCGACCGCTATCTCGTGGAGGGCATCGCCCGCGAGGAAGGCCTCTTGCTGCGGTGGATCGAAGCCAATCCGTCGTCCGGCGTGACCCCCGAACAGGTGAGGGAAGCGGCAGGGCCGGATACCGCCGTCGTACTTTTGAGCCATGTGGCGTACAGATCAGGGTTCCTGGCCGATCTTCCGGCAATCACGGAGGCCGCCCACAATGCCGGGGCGCTGGTGGTGTGGGACCTGTGCCACTCCGCCGGTTCGGTGGAGCTGGATCTTGACGGGGCAAACGTAGACTTTGCCGCCGGCTGCACGTACAAGTACCTCAACGGCGGGCCGGGCTCACCGGCATTCGCCTACATCAACAGCCGCCATTTGGCGTCACTCCGGCAGCCAATCTGGGGCTGGATGGGACGCAAGGACGCCTTCGAAATGGGGCCGGGTTATGAACCCGCGGCCGGGGTCCGGGGATTCCTCAGCGGAACCCCGGCAATCTTTGGGATGCTGGCCATGCGCGGCACCCTGGACCTCATTGAAGAAGCCGGAATGGCAGCCGTCCGGGAGAAGTCGCTCAAACTCACCGCCTATGCAGTGGAGCTGTTCGAACAATGGCTTGAACCGCTGGGCGTGCAGCTGGCCTCGCCACGGAATCCGGAGCGTCGGGGCAGCCACATCACGCTGGACCACCCTGAGTTCCGGAATGTCACGGCCACGCTATGGGAGCAGGACGTCATTCCGGATTTCCGGGCTCCGCACGGCATCCGGATCGGACTGTCTCCGCTGAGTACCAGCTATGGCGAAGTCTTCCGTGGCATGGCGGCCATCCGGGAGCAGCTGCGTTCCTAG	MSTESQATVENSDAGALLRRAGQLDAQDPLAHYRDLFIGTDTDLSYLDGNSLGRPLKRTPEDISDFIHKGWGGRLIRGWDEEWLELPQAIGDQLGRAVLGAAPGQTIIADSTTVVLYKLIRAALAAVTDPGRRAIVLDTDNFPTDRYLVEGIAREEGLLLRWIEANPSSGVTPEQVREAAGPDTAVVLLSHVAYRSGFLADLPAITEAAHNAGALVVWDLCHSAGSVELDLDGANVDFAAGCTYKYLNGGPGSPAFAYINSRHLASLRQPIWGWMGRKDAFEMGPGYEPAAGVRGFLSGTPAIFGMLAMRGTLDLIEEAGMAAVREKSLKLTAYAVELFEQWLEPLGVQLASPRNPERRGSHITLDHPEFRNVTATLWEQDVIPDFRAPHGIRIGLSPLSTSYGEVFRGMAAIREQLRS				NA	NA	NA	NA	NA
D1-29_01571	270	rpsO		30S ribosomal protein S15	GTGGCACTTGACGCCGCTGTAAAGCAGTCCATCATCAAGGATTTCGCAACATCCGAGGCCGACACCGGTTCGCCGGAGGTCCAGGTTGCAGTCCTGACCCAGCGGATCAAGGATCTGACTGAGCACATGAAGGAGCACAAGCACGATTACCACACCCAGCGCGGTCTGCTGGCCATGGTTGGTCGCCGCAAGCGCATGCTCACCTACCTCAAGAACACTGACATCGCCCGCTACCGTGCGCTCATCGAGCGCCTCGGCCTGCGCCGCTAG	MALDAAVKQSIIKDFATSEADTGSPEVQVAVLTQRIKDLTEHMKEHKHDYHTQRGLLAMVGRRKRMLTYLKNTDIARYRALIERLGLRR				NA	NA	NA	NA	NA
D1-29_01573	2304	pnp	COG1185	Polyribonucleotide nucleotidyltransferase	ATGCGGCTGGACTTCCGTGAACCAGAAACGGAGGTGACTCTCTTGGAGGGTCCCGAAATCCAGTTCTCAGAAGCAGTCATTGATAATGGCCGCTTCGGCAAGCGTGTAATCCGCTTCGAAACAGGCCGTCTTGCCAAGCAGGCAGCCGGCGCAGCCATGGTGTACATCGATGACGACACCGCGCTGCTTTCCGCCACCACCGCGGGCAAGTACCCGCGTGAGGGCTTCGACTTCTTCCCGCTGACGGTTGACGTTGAAGAGCGTATGTATGCCGCAGGCCGCATCCCGGGCTCGTTCTTCCGCCGTGAAGGACGCCCGTCCACCGAAGCCATCCTGGCTTGCCGCCTGATGGACCGTCCGCTGCGTCCCGCCTTCGTTAAGGGCCTGCGCAACGAGGTCCAGATCGTGGTGACCGTCCTGGCCATCAACCCGGACGAGCTCTACGACGTGGTGGCCATCAACGCCTCCTCCATGTCCACCCAGCTCTCCGGCCTGCCCTTCTCCGGCCCCATCGGCGGCGTCCGCGTTGCCCTCGTTGCCGACGAGAACGGCTCCCAGTGGGTTGCCTTCCCGAAGCACTCCCAGCTGGAGAACTCGGTCTTCAACATGGTGGTGGCCGGCCGCATTGCAGGTGACGACGTCGCCATCATGATGGTTGAAGCCGAAGCCACAGACAACTCCTGGAACCTCATCAAGGAACAGGGCGCCACCGCACCCACCGAAGAGGTTGTCTCCGAGGGCCTCGAGGCTGCCAAGCCGTTCATCAAGGCACTCTGCGACGCACAGTCGGACCTCGCCGCACGCGCCGCGAAGCCCACCGTTGAGTTCCCCGTTTTCCTCGACTACGAGGACGACGTCTACGCAGCGGTTGAGTCCGCTGCCGCTGACAAGCTGGCTGCTGTCTTCCAGATCGCTGACAAGACCGAGCGCAACGACGCTTCCGACGCCCTGAAGGACGAGGTTGTTTCCTCCCTCGCCGGCCAGTTCGAAGGCCGCGAAAAGGAAGTTTCCGCAGCGTTCCGCTCGGTGACCAAGCAGGTTGTGCGCCAGCGCATCCTCAAGGACCAGATCCGCATTGACGGCCGTGGCCTGACGGACATCCGCCAGCTCACCGCCGAGGTTGAGGTTCTGCCCCGCGTGCACGGCTCGGCCATCTTCGAGCGCGGCGAGACCCAGATCATGGGTGTCACCACGCTGAACATGCTGAAGATGGAACAGCAGATCGACTCACTGTCTCCCGTAACGCGCAAGCGCTACATGCACAACTACAACTTCCCGCCGTACTCCACCGGTGAAACCGGCCGCGTGGGTTCGCCCAAGCGCCGCGAAATCGGCCACGGTGCCCTGGCAGAGCGCGCCCTCGTGCCGGTGCTGCCGTCCCGCGAGGAATTCCCCTACGCCATCCGCCAGGTGTCTGAAGCCCTCAGCTCCAACGGTTCGACGTCGATGGGTTCCGTTTGTGCCTCCACCCTCTCGATGCTGAACGCCGGTGTGCCCCTGAAGGCTGCCGTTGCCGGTATCGCCATGGGCCTGGTTTCTGACCAGGTTGACGGCCAGACCCGCTACGCGGCGCTGACCGACATCCTCGGCGCCGAAGATGCCTTTGGCGACATGGACTTCAAGGTTGCCGGTACGTCCGAGTTCGTCACGGCCATCCAGCTGGACACCAAGCTTGACGGCATCCCCGCCTCGGTGCTGGCAGCAGCACTGAAGCAGGCCCGCGAAGCCCGCCTGCACATCCTGGACGTCATCAACTCCGCGATCGACACCCCGGATGAGCTCTCCGAGTTCGCGCCGCGGGTCATCGCGGTCAAGATCCCGGTTGACAAGATCGGCGAGGTCATTGGGCCCAAGGGCAAGATGATCAACCAGATCCAGGAAGACACCGGCGCCGACATCTCCATCGAGGACGACGGCACGGTCTACATTGGCGCCACGAACGGTCCGTCTGCAGACGCAGCACGCTCCGCCATCAACGCCATTGCCAACCCGCAGGTTCCGGAAATCGGCGAGCGTTACCTGGGTACGGTCGTTAAGACCACCACCTTCGGTGCGTTCATTTCCCTGACTCCGGGCAAGGACGGCCTGCTGCACATCTCCGAGCTGCGCAAGCTGGCCAGCGGCAAGCGCGTGGACAACGTTGACGACGTTGTCTCCGTGGGCCAGAAGATCCAGGTGGAAATCACCAAGATCGATGACCGCGGAAAGCTGTCGCTGTCTCCCGTTGTGGCTGAAGAGGAAGGCGCCGGCGAACCCGAGCGCGTTCACGCTTCCGCCGGGGCAGAGGGCGCAGACTCCGAGTAA	MRLDFREPETEVTLLEGPEIQFSEAVIDNGRFGKRVIRFETGRLAKQAAGAAMVYIDDDTALLSATTAGKYPREGFDFFPLTVDVEERMYAAGRIPGSFFRREGRPSTEAILACRLMDRPLRPAFVKGLRNEVQIVVTVLAINPDELYDVVAINASSMSTQLSGLPFSGPIGGVRVALVADENGSQWVAFPKHSQLENSVFNMVVAGRIAGDDVAIMMVEAEATDNSWNLIKEQGATAPTEEVVSEGLEAAKPFIKALCDAQSDLAARAAKPTVEFPVFLDYEDDVYAAVESAAADKLAAVFQIADKTERNDASDALKDEVVSSLAGQFEGREKEVSAAFRSVTKQVVRQRILKDQIRIDGRGLTDIRQLTAEVEVLPRVHGSAIFERGETQIMGVTTLNMLKMEQQIDSLSPVTRKRYMHNYNFPPYSTGETGRVGSPKRREIGHGALAERALVPVLPSREEFPYAIRQVSEALSSNGSTSMGSVCASTLSMLNAGVPLKAAVAGIAMGLVSDQVDGQTRYAALTDILGAEDAFGDMDFKVAGTSEFVTAIQLDTKLDGIPASVLAAALKQAREARLHILDVINSAIDTPDELSEFAPRVIAVKIPVDKIGEVIGPKGKMINQIQEDTGADISIEDDGTVYIGATNGPSADAARSAINAIANPQVPEIGERYLGTVVKTTTFGAFISLTPGKDGLLHISELRKLASGKRVDNVDDVVSVGQKIQVEITKIDDRGKLSLSPVVAEEEGAGEPERVHASAGAEGADSE				NA	NA	NA	NA	NA
D1-29_01574	1344		COG0612	putative zinc protease	ATGACTGTTGTACCCCTGCCGCTTGAGCAGAACCATGCCGGCGACACCCTGGTTCACGGATCCGAGGGCGGCTCCGTCGTCCGGCGGTCGGTGCTGCCCGGCGGCGTGCGTGTGCTCACCGAGGCCATGCCCGGGCAGCGCTCGGCCACCATCGGCTTCTGGGTAGGCGTGGGGTCCCGGGACGAAGCACCGGGCCAGCACGGTTCGACGCACTTCCTGGAGCACCTCCTGTTCAAGGGCACCAAACGGCGTACCGCACTGGAAATCGCTTCGGCATTCGACGAGGTGGGCGGGGAGTCCAACGCGGCCACTGCCAAGGAAAGCACCTGTTACTTCGCCCGGGTACTGGACACTGACCTGCCCATGGCGATCGACGTCATCGCCGACATGATCACCGGTGCCGTCCTGGACCCGACGGAGATGGAGCAGGAGCGCGATGTCATCCTGGAGGAAATCGCCATGGACAGCGATGACCCCACCGACGTCGCCCACGAAAAATTTGTGGCTGCCGTCCTGGGGACACATCCGCTGGGCCGCCCTATCGGCGGTACACCCGCCGCCATCAAGGCCGTGGCCAGGGATTCCGTCTGGGAGCATTACCGCCGCTACTACCGGCCGGATGAGCTTGTCATCACGGCCGCCGGAGGCTTGGAGCACGACGTCGTCTGCAACCTTGTGGTCGACGCTCTTAACGCAGCCGGCTGGTCGCTGGAGCCCGATGCGGCTCCCGTGGATCGCCGCTCGACGGAACGGGCTCAGATCACCGGCACAGCAGGATTGCACGTGGTCAAGCGGGCCGTGGAGCAGGCCAACATCATTATGGGCTGCCCCACGATCGTCGCCACGGATGAGCGGCGCTACGTCATGAGCGTGCTCAACGCTGTGTTGGGTGGGGGCATGTCCTCACGGCTGTTCCAGGAGATCCGTGAGAAGCGTGGACTGGTTTACTCCACGTACTCCTTTGCCTCCTCCTACGCTGACGCCGGCTATTTCGGTATGTATGCAGGCTGCACGCCCTCCAAGGTCCGCCAGGTTCTGGACCTGCTGGGTCTCGAGCTGGACAAGTTGGCCGAGGGCGGGATCTCCGACGACGAACTCCGCAAGGCGGTTGGCCAGCTCTGTGGCGGCATTGTGCTTGCACTTGAGGACACCGGTTCAAGGATGTCCCGTCTGGGCCGGGCCGAGCTGGTGTCCGGTGAATACCAGGACATCGACGAGACGCTGCGCCTGATCAAATCCGTCACGGCCCAGGAGGTCCAGGACCTTGCCAAGGAATTGGCAGCTGCACCGCGGACCGTGACAGTGGTGGGACCCTTTGAGGAATCCGAAACGTTCGGACTCTAA	MTVVPLPLEQNHAGDTLVHGSEGGSVVRRSVLPGGVRVLTEAMPGQRSATIGFWVGVGSRDEAPGQHGSTHFLEHLLFKGTKRRTALEIASAFDEVGGESNAATAKESTCYFARVLDTDLPMAIDVIADMITGAVLDPTEMEQERDVILEEIAMDSDDPTDVAHEKFVAAVLGTHPLGRPIGGTPAAIKAVARDSVWEHYRRYYRPDELVITAAGGLEHDVVCNLVVDALNAAGWSLEPDAAPVDRRSTERAQITGTAGLHVVKRAVEQANIIMGCPTIVATDERRYVMSVLNAVLGGGMSSRLFQEIREKRGLVYSTYSFASSYADAGYFGMYAGCTPSKVRQVLDLLGLELDKLAEGGISDDELRKAVGQLCGGIVLALEDTGSRMSRLGRAELVSGEYQDIDETLRLIKSVTAQEVQDLAKELAAAPRTVTVVGPFEESETFGL				NA	NA	NA	NA	NA
D1-29_01575	465			hypothetical protein	ATGAACAATCCGTTGCCCGGCACCGTTCACACCGTGCTGGATAGCTTCCTGGGTCACTGGCGGGGCACCACACGCCTTGCCGCAGGTGCGTGGGGCCCGGAACACATCGCTGATGCCGAAGTGAGCTATACGAGGGCCGCGGGCGGCTACGCAGTAGTCCAAAGTTATCGGCATCAGGAAGCCGACGGTTCCCACTATGAAGGGCACGGCGTTTTTACTGTCGATCCCGATCATAAGGATGTTCTCTGGTACTACGTGGACAGCATGGCCGGCGCGTCACAAGGACCTCCCGCCCGCTGTACCTGCATTGACGGCGTCCTGCGCGTGGAACGGCACAGCGACCGGGGAACCGCCCGTCACGCTTTCCGCGTCGACGGCGGCATATTGACCCATACCGTCGAACTGCGCCTAGGCGATGCCGGCGGTTTTTCCCCTTTTATGTCCTCGGAGTTCCACCGCGCCTAA	MNNPLPGTVHTVLDSFLGHWRGTTRLAAGAWGPEHIADAEVSYTRAAGGYAVVQSYRHQEADGSHYEGHGVFTVDPDHKDVLWYYVDSMAGASQGPPARCTCIDGVLRVERHSDRGTARHAFRVDGGILTHTVELRLGDAGGFSPFMSSEFHRA				NA	NA	NA	NA	NA
D1-29_01576	282			hypothetical protein	ATGTATACGCTGCAGATCGAGCACGGCATCAGGGACTTCGACATGTGGAAAGCAGCCTTCGACCGGGATCCGGTGAACCGCGCCGCCTCAGGTGTGCTCTCGCACCGGATCTACCGGCCAGTGGACGACTCCCACTACGTGGTGGTTGAACTGGATTTCAATGAACGCGGGCAGGCCGAGAAACTGTTGGCGAATCTCAAGGACAGGGTGTGGAACTCTCCGACGGCTGCCCCTGCCCTGAACGGGTCGCCCCAGACCCGGATTATGGAATCAGCGGGCTGA	MYTLQIEHGIRDFDMWKAAFDRDPVNRAASGVLSHRIYRPVDDSHYVVVELDFNERGQAEKLLANLKDRVWNSPTAAPALNGSPQTRIMESAG				NA	NA	NA	NA	NA
D1-29_01577	1155			hypothetical protein	ATGACTACGGGCTGGGCAGTGCACCGGAGCCTCGAACGGGTTCGGCTTCTCGGCAATTCGTCACTGCATCATGCGCAGCTGCGCAGAGAGGTGCTCCGCGAGCTGGGCCGGATGTTGCCCTTCAGCGCCTGGGTTTGGCCCCTTTCCGATCCTGCAACGGCAACGGGTATTTCACCCATGGCATGGGTCCCGTGCCCGGAGGAATTGCCGCTCCTCATCCGGCTGAAGTATTTGACGCCTGTAGGCAGGTGGACCCAGTTGGCGGGGAGCGCGTCTCCGGTGGCTTCCTTGCTTGAGGTTAGCCAGGGAGACCCATCCAAGAGCGCGGTCTGGGATGGCGTGCTCAAGCGGTACGGTGTCTCCGATGTTCTGTTCACCGTGTTCGCGGACAAGCAAGGCTGCTGGGGTTGGCTTGACCTGTGGCGAAAACCCGACCAAGGTGCCTTCACTGCCAGTGAAGCGGCCTACCTCGAAGCTGTTACCCACAAAGTAACTCCGGCCCTGCGGCGGTCCATCGCCCGGCAGTTCGGGCTGGAAACATCAGCCGAAGCGGCCAGCCGGGCTGTACTACCGGAAATGCCGTCAGAAGAGCCAGTGCCTCGGAGGGTAGTGGAGAGCGGCAGGGCTGCAGTCATACTTCCACAGCAGGCCGTGCTCACGCTGGACGCGGACCTGGCGGTAGTGGGGGAGACGGCTTCTACACGGGACTGGCTTGAATTGTTGCAGCCCGGGCCGCGCCCGTATCAGGGGGTGCCTGCAGAGGTCCTGAACGTCGCTGCCCAGTTGTTGGCACGTGAGGCAGGCGTCGATGATCATCCCGCTGCCGCCCGGGTACATATTGGGTCTGGAAAGTGGGCGATGCTCCCGGCAAGCAGGATGGATTCGGCACCTTCCGGCGTTACCCCGCCGTTGGCCGTAACTATCCAGGAGTGTCCGCCCGAGGCGCGGCTGGACATCTTCGCCAGGAGCTTCGGATTGACGCCCCGCCAGCGGGAGTTGCTTGAGCTGGCCGCGAAGGGTGCGGACACGGCAGCGATGGCCGCGGCCCAGGGTGTGGCAGCCTATACCGTCCAGGATCAGTTCAAGCAGGTTTTCGACAACTGCGGTGTCCACAGTCGTGCGTCATTGCTGGCCATGGCATGGGGAACCGCGTAG	MTTGWAVHRSLERVRLLGNSSLHHAQLRREVLRELGRMLPFSAWVWPLSDPATATGISPMAWVPCPEELPLLIRLKYLTPVGRWTQLAGSASPVASLLEVSQGDPSKSAVWDGVLKRYGVSDVLFTVFADKQGCWGWLDLWRKPDQGAFTASEAAYLEAVTHKVTPALRRSIARQFGLETSAEAASRAVLPEMPSEEPVPRRVVESGRAAVILPQQAVLTLDADLAVVGETASTRDWLELLQPGPRPYQGVPAEVLNVAAQLLAREAGVDDHPAAARVHIGSGKWAMLPASRMDSAPSGVTPPLAVTIQECPPEARLDIFARSFGLTPRQRELLELAAKGADTAAMAAAQGVAAYTVQDQFKQVFDNCGVHSRASLLAMAWGTA				NA	NA	NA	NA	NA
D1-29_01578	435			hypothetical protein	ATGAGCAGCACACCCCATGAAATTGTCGAATCGTTTGTTCGGCTAACGGCCCGATGCCTGGACACTCTCATTACCCGACATGCGGGAACGGAGCGCCCAACCGTCTGGACCGGCCTTTTCTTGGTTCCACGAGACGGAAGCGGTCCCGTTCGGTCCGGCCAGTTGAACGGGTTGGGAACATTCGCTCTCCACGGCCGGGGCTGTCGCTTCGAACTTCACACAGGAGAAGCACTGGACGTTGACTGGGACGACAGTGGCCGCGCTGTGTTCGATTCATGGCGGATCCTCATGTTTGCCAAGTCGATAGGCGACCAAAAGACTAAAATAGAGGACCTTGAAACTGCGGCCGGCCAAACGTCGTCAATTATTCAGATCGCTCCCGACCAGTTCACGTGGCCGCATCGACGTTACGACCTCACATGGACGGACCCCTAA	MSSTPHEIVESFVRLTARCLDTLITRHAGTERPTVWTGLFLVPRDGSGPVRSGQLNGLGTFALHGRGCRFELHTGEALDVDWDDSGRAVFDSWRILMFAKSIGDQKTKIEDLETAAGQTSSIIQIAPDQFTWPHRRYDLTWTDP				NA	NA	NA	NA	NA
D1-29_01579	627			hypothetical protein	TTGGCAGCCCGATGCCAGGCGCTGACAACAGAAATCGAGGCTGCTGATACGGCACTCAAGGAAATCCTCGATAGCTATGCCCCGTTGCTCTGCGATTTACCAGGAGTCGGGACCGAAGTAGCCAGCCAGCTGTTGATCACCTTCGGGGACAACCCAGACCATCTGGGGAACGAAGCCCAATTCGCTTCGCTCGTCGGGGCCGCTCCGGTACCAGCCTCATCCGGCAAGACAACCCGCCACCGGCTCAGCAGAGGCGGGGACCGCAGCGCCAATAATGCCTTGCATCAGGTAGTCCTGGTCCGCATGGCCTCGTGCCAACGGACCAAGGACTACGTGCCTAAACGTACCTCCGAGGGCAAGGGCAAACGCGAAATCATGCGCTGCCTCAAACGCTACGCAGCCCGCGAAATCTACCGCCAAATCACCAACCCGCGGCCAGCACCTAACAACTCCGACCTCCGCCGCATGCGGACCGAACTCGAGCTCACCATCACGACGGTAGCCGGCGAACTTGGCCAATGGGTTTCCATCATTTCGAGACTGGAACGAGGCCACATCCGAAATGACGAGCTCGCTTCAACCTACCGCCATTGGTTGACCGACCAAACAGTCAGAATCTCGATTTGA	MAARCQALTTEIEAADTALKEILDSYAPLLCDLPGVGTEVASQLLITFGDNPDHLGNEAQFASLVGAAPVPASSGKTTRHRLSRGGDRSANNALHQVVLVRMASCQRTKDYVPKRTSEGKGKREIMRCLKRYAAREIYRQITNPRPAPNNSDLRRMRTELELTITTVAGELGQWVSIISRLERGHIRNDELASTYRHWLTDQTVRISI	PGPT0030635_664	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
D1-29_01580	330			IS110 family transposase ISBli6	GTGCTGGAGGTAAACCGCCCAAACCGGGCCGCCCGCCGACTCAAGGAGAAATCCGACCCGCTGGATGCCTACCAGGCGGCCAAGTCGGTACTCAAGGGACGGACGAAGGCGATCCCGAAGGCCAAGGACGGCCCCGTTGAATGCCTGCGGATCCTACGTTCCGGGCGTGCATCAGCAATCAAGGCCCGCACCGCGGCCATCAACCAGATCAAGGCACTCCTCGTTTCGGTCCAGGACAAAATCCGGGCGAAATATCGGACGCTGGGCACTTCCGCGCTGGTTACTGCCCTGCAGCGTACGAGACCCTTCGGGACATCTGGCGGACCCTGA	MLEVNRPNRAARRLKEKSDPLDAYQAAKSVLKGRTKAIPKAKDGPVECLRILRSGRASAIKARTAAINQIKALLVSVQDKIRAKYRTLGTSALVTALQRTRPFGTSGGP	PGPT0030635_664	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
D1-29_01581	1713			hypothetical protein	ATGGAAAAGACGGCAGCGACAGAGGTAATAGAGGCCATCAAGACTTCCGTAACTGCGCTGAACAGGATTGTCCGCGGTAGGGAACTCGAGGGTGGTACCGTCACTGATCCGATGCGGCAAGAGGCTGATGACTGGCTGGATATTCTGGCAGAGGCTGCCCAGCTGCAAGCAAAGACGGCAGCGCTGACGGTCCGGGCCGCAGCCGGATTCACGGACACTACAAGGGCTATGGCGCCTCCGGTGGCATCCCTGCCGGAGCGAATGGCGATAGAGATGTCCATCGTCGCCGAGGTCGCGTGTGTCCTCACCATCAGTGAACGCGCGGCAGGCGCCCTGCTCGCCGAATCCCATGCCCTCACCAGGGCATTACCGCTGACCTTACAGGCATTACAGGCGGGGTCGATTTCTTGGCAGCACGCCCGCTGCATGGTGGACGAGACAGGCGCCCTTGACCCCGCCGGTGCGGCCGCCCTGGAAACCCACTTCCTGGACCCCGACACCGCCAATGCTGCCCGCGCCTGCCTCGCCGGGGACCTCACACCCTCCAGGTTCCGCGCCAGGGCCCGGACCTGGCGCGAACGCCACCACCCCGTCTCGATCGAAACCCGCCACGCCAACTGCGTCCTGGACCGCCGGGTCGAATACACCCCGGACCGCGACGGAATGGCCTGGCTCTCCGCCTACCTGCCCGCAGACCAGGCCGCCGGCATCTGGGAACACACCACCACCACAGCCCGGGCACTCCAAGGCCCCACCGAGCCCCGCACCCTCACCCAACTCCGCGCCGACACCCTCGCCAACGCACTCCTCTGCCGAGAGATCAGCAACCCCGGCAGCGACAGAGCCGGAGGCACCAGCGGCGCACTCCTTGATAGTGGGACTAACAGCGGCACTCTCATAGGCGCCGGAAGCACCAGCGGCCAAACCACCAGCTGGCGTAGCAGCAGCGGAGGGATCAACGGCGGCGGAAGCGCCAGCGAAGGAATCAACGGCGGCGGAATCAAGGGCGCAAATAGCCTCGGCGATGGCGGCGATGGCGGCGAAGGAGGCACTGCCGGGCAGGTCCGGCCGCCGCGGGCCCAGGTGCTGGTCACCGTGCCCGTGTTCTCGCTCCTGGGCCTGACCGACGAACCTGCCACCCTGGACGGCCACGGCCCCATCCCGGCCTCCATGGCAAGGAACCTGGTCACCAACGGAGCCCACTCCTTCCACCGCGTCCTGACCGACCCCCGCGACGGCGCACCACTGGAAATCGGCCGAACCAGCTACCGGCTCACCACAGCAATGCGCCGCTGGCTCAGACTCCGCGACGCCAAATGCCCCTTCCCCGGCTGCAACAACCACTCCCTCGACAACGAAGCAGACCACCTCCTCGCCTGGGCAAACGGCGGCACCACCGGCATCAACAACCTCGGCCAACCCTGCCGCAAACACCACCACCTCAAACACAACACCACCTGGCAACCAACCCCGGCCAGCAAAAACGAACCACCCGGCTGGACCTCACCCACCGGCCGACACTACAAAAGCGAACACCAAGACTGGGAACCACCCACCTGGCCTGACCACGTCCTGAATGAACTCCAGGACACCGCCTTCACACTGGAGCGCGAGCCCGAGGCTGACCACGACTCGCACCCATGGCATCTAGTCCCTTCCGGAGGATCTGAAACCCACGAACTGGGACTCCAACACCAGAAATCCAAGACTTGA	MEKTAATEVIEAIKTSVTALNRIVRGRELEGGTVTDPMRQEADDWLDILAEAAQLQAKTAALTVRAAAGFTDTTRAMAPPVASLPERMAIEMSIVAEVACVLTISERAAGALLAESHALTRALPLTLQALQAGSISWQHARCMVDETGALDPAGAAALETHFLDPDTANAARACLAGDLTPSRFRARARTWRERHHPVSIETRHANCVLDRRVEYTPDRDGMAWLSAYLPADQAAGIWEHTTTTARALQGPTEPRTLTQLRADTLANALLCREISNPGSDRAGGTSGALLDSGTNSGTLIGAGSTSGQTTSWRSSSGGINGGGSASEGINGGGIKGANSLGDGGDGGEGGTAGQVRPPRAQVLVTVPVFSLLGLTDEPATLDGHGPIPASMARNLVTNGAHSFHRVLTDPRDGAPLEIGRTSYRLTTAMRRWLRLRDAKCPFPGCNNHSLDNEADHLLAWANGGTTGINNLGQPCRKHHHLKHNTTWQPTPASKNEPPGWTSPTGRHYKSEHQDWEPPTWPDHVLNELQDTAFTLEREPEADHDSHPWHLVPSGGSETHELGLQHQKSKT				NA	NA	NA	NA	NA
D1-29_01582	291			hypothetical protein	ATGGAAAGCAGAGCAGCCTGGGATGCTGAAAACAGAAAAGCTCTGGCGCAGATTATTGCGTCGCTCGCCGTAATTAAATGGAAATTCGCAGCACCCCTGAATGGTCCGGCGGCTTCAGGATATGGCTCGTACGTCGATGCGGTGGCCCGAAAGGGTGCCTGCTTGGCCGGGCTCGCCGAGATCGTCCGGGTGGAAGCCAAGGTCGCTGCGCTGAAGAAGCGGCTGGTCACAGGATATCCACATAACCCATCTGCTGCCCCATTAATGTCAGACGCTCCTGGGATGCTTTGA	MESRAAWDAENRKALAQIIASLAVIKWKFAAPLNGPAASGYGSYVDAVARKGACLAGLAEIVRVEAKVAALKKRLVTGYPHNPSAAPLMSDAPGML				NA	NA	NA	NA	NA
D1-29_01583	201			hypothetical protein	ATGGCCTATGTGGATATCATCCGACCAACCAGCCTTCGGCCCAATCGTCCGCTCTCCGGAGGGGTGGGAGCCCAAGTGTCCGTTCGCGCCGTGCAGCAGGGCCCTAAGCGTCCGTTCGCGCTCCAACGCCCGCCCCAGTTGGAGGGTGTCTTAGCCCCCGGCAAAAGGCGGCAGCACGTCCACCACATCGCCGGGATTTAA	MAYVDIIRPTSLRPNRPLSGGVGAQVSVRAVQQGPKRPFALQRPPQLEGVLAPGKRRQHVHHIAGI				NA	NA	NA	NA	NA
D1-29_01584	267			hypothetical protein	TTGAACGTACGTTACTTCGCTGCCGCACGCGCCGCCGCGGGTGTGGAAGAGGAGCGCTTCGACCTGCCGGCAGGCTCCACCGTGGAGGATCTGCTGGCCGCGGTCCTGAGGGTGGAACGGTCACTGCCGCCTGCGGGCACTCCTCCCCTGCCGCGCATCCTGTCCCGGAGCAGCTTCCTGCTGAACGAGGTTGCCGTGCGGGACCGCACCACTGTGTTAAATCCCGGCGATGTGGTGGACGTGCTGCCGCCTTTTGCCGGGGGCTAA	MNVRYFAAARAAAGVEEERFDLPAGSTVEDLLAAVLRVERSLPPAGTPPLPRILSRSSFLLNEVAVRDRTTVLNPGDVVDVLPPFAGG	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
D1-29_01585	1128	moaA_1		GTP 3',8-cyclase	ATGAGTGTTCAGCTAGGCATGCCGCAACCGCGGGAGGGGTCAGGTCCCGCCGGACAGCCGGAGCTTGCCATCCGGCCCGCCGGCACACCGCCTGGCCTCCTTGACCGCTACGGCCGCCGGGGCACCGATATGCGGCTGTCCCTCACGGACAAGTGCAACCTCCGGTGTACTTATTGCATGCCTGCCGAAGGGCTGGAGTGGCTGGCCAAGCAGGCAGTGATGTCCGCGGAGGAGATCGTTCGGATCGTACGGATCGGTGTGGACCTCCTCGGTGTTCGGGAACTCCGCCTTACCGGCGGTGAACCCCTTGTCCGGGCAGACCTGATAAGCATCATCGCGGCTATTCGGAGCAACCACCCGGAGCTCCCCATCTCCATGACCACCAACGGTGTTGGCCTGGACAAGAAGGCGGCGGCGCTCAAGGCCGCCGGCCTGACCCGGATCAATGTCTCGCTGGATTCCCTGCATGAGGAGACCTTCGCCAAGCTGACCCGGAGGCCCTTCCTCGACCGTGTCCTGGCCGGGGTTGACGCCGCCTGGGCAGCGGGGCTGGGACCGGTGAAGCTCAATGCTGTGCTAATGCGGGGCATCAATGATGCCGAATCGCCGTCTCTTCTCGCCTGGGCGCTGGACCGAGGCTACGAACTGCGGTTCATTGAGCAGATGCCGCTGGACGCGGACCACGGCTGGACCCGCCGGAATATGATTACTGCAGCCGAGATCCGCGGGCTGCTTTCCGTGGACTACGTCCTCAGCCCGGACCCCCGGGCCCGTGACGGCGCACCCGCGGAACGCTTTGAAGTACGACGCCGGGTGGCCGGGTCCGCGGACCCGCAGGGACCTGTGCTGGGCACCGTGGGGATTATCGCCTCCGTTACGGAGCCGTTCTGTTCGGATTGCCGCCGGACGCGCATCACCGCGGAAGGCAAAATCATGAGCTGCCTGTTCTCGCGGGAGGAGTTCGACCTGCTCGGACTCCTGCGCGAAGGCGTCACCGACCAGGCACTTGCTGAACGGTGGCAGGATGCCATGTGGGTTAAACCCAAAGCACACGGCATGGACCACGTAGGACTTGACGCCCCGGATTTCGTCCAGCCGGACCGCAGCATGAGCGCTATCGGAGGCTGA	MSVQLGMPQPREGSGPAGQPELAIRPAGTPPGLLDRYGRRGTDMRLSLTDKCNLRCTYCMPAEGLEWLAKQAVMSAEEIVRIVRIGVDLLGVRELRLTGGEPLVRADLISIIAAIRSNHPELPISMTTNGVGLDKKAAALKAAGLTRINVSLDSLHEETFAKLTRRPFLDRVLAGVDAAWAAGLGPVKLNAVLMRGINDAESPSLLAWALDRGYELRFIEQMPLDADHGWTRRNMITAAEIRGLLSVDYVLSPDPRARDGAPAERFEVRRRVAGSADPQGPVLGTVGIIASVTEPFCSDCRRTRITAEGKIMSCLFSREEFDLLGLLREGVTDQALAERWQDAMWVKPKAHGMDHVGLDAPDFVQPDRSMSAIGG	PGPT0008410_302	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
D1-29_01586	750	walR_1	COG0745	Transcriptional regulatory protein WalR	GTGAACAGGTCCCTACCGCCGCAGGACACAGCCGACGTCGGCAATCGCCGCATCCTGCTGGTCGAGGATGAGCAGATCATCGCTGGCGTGGTGCGTGATTACCTGCTTCAGGCCGGCTTCCAGGTGGACCTCGCCAAGGATGGATTCACCGCCCTGGACCTGGCCGCCGCCCGGCAACCCGACCTGGTCATCCTCGACCGGATGTTGCCCGGACTGGACGGAGTGGAGGTCTGCCGCAGGCTGCGGAAGAGCACGTCCGTGCCAGTGATCATGCTGACGGCGCTCGGCACCGAGGACGACAGGATCCTGGGGCTTGAGGTGGGCGCCGATGACTACATCACCAAGCCGTTCTCGCCCCGGGAGCTGGTGCTGCGGGTCCGGTCCGTGCTGCGCCGCAGCCTGCAGGAATTCAGCCCGGAACCACCCGTGGAAGTGGCTGGTTTCCTGCTGGACCCCGGTGCCCGCACGGTAACCCACCACGGCGTCCAGCTGTCCCTGACGGCCCGCGAATTCGATCTCCTGGCCTTCCTGCTCCGACATCCAAACCAGGCGTTCAGCCGGGAGGATCTCATTAAGGCGGTGTGGGGGTGGGATTTCGGTGATCTTTCCACTGTCACCGTCCATGTCCGGCGGTTGCGGGAGAAGATCGAGGCCGACCCCAGGCACCCGGACCTCCTCAAAACCGTCTGGGGCGTGGGGTACCGGCTGGACGTGCATGCACTGAGCGAGGCGGCCGATGCAAGTCAATGA	MNRSLPPQDTADVGNRRILLVEDEQIIAGVVRDYLLQAGFQVDLAKDGFTALDLAAARQPDLVILDRMLPGLDGVEVCRRLRKSTSVPVIMLTALGTEDDRILGLEVGADDYITKPFSPRELVLRVRSVLRRSLQEFSPEPPVEVAGFLLDPGARTVTHHGVQLSLTAREFDLLAFLLRHPNQAFSREDLIKAVWGWDFGDLSTVTVHVRRLREKIEADPRHPDLLKTVWGVGYRLDVHALSEAADASQ	PGPT0013765_29	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
D1-29_01587	1209	sasA_6		Adaptive-response sensory-kinase SasA	ATGCAAGTCAATGAGCTCGTTGTCATCGTTGGCCTGGCACTCCTCTGGGCGCTGGTCATCGGAGCGGGCGCCCTGCTGGTCCTCAAGGCCATGCAGCGTGCCACATTCGCTGTGCAGATCTGCGTCGTGGTCCTTGCCACGGTGGCCGTCCTGACCGCGGGGATGGTCAGCGCTTTCAACGCCATGGTCATTTCCGCCAGGGACCTTGAGGTCATGTGGTACATCCTGGCGATTGCCTCGGCAGTGGCGGTTGCCATCGCCTTGATCCTGGGAGCCAGAGTTTCCAGGAATGCCCGGGCGCTGGCCGAAGCCGCGCGCAGTATCGGCCGGGGCGAAACCTTGACGCTGACGGCCCCGCTGATGGGATCGGAACTCGCTGCCCTGGCGGACGAGCTGGAACTCAGCAGCCGCCGCCTGATGGAATCCCGGGAGCGGGAAGCCGCCGTCGAAAAGTCACGCCGCGAGTTGGTGTCCTGGATTTCACATGACCTGCGGACACCGCTGGCCAGCATGCGGGCGATGGCGGAAGCGTTGGAGGACGGCATGGCCGCTGATCCCTCCGCGTACCACCGCACCATCATTGCGCAGACGGAGCAGATGGCCGTGATGGTGAACGACCTGCTGGAACTCTCCAAAATCCAGGCCGGTACGCTGCACCTGAACGCCGAGCCGCTGGACCTTTACGATCTCGCCAGCGATGCCCTTACCGATCTGGCGCCCCTTGCCGCCCAAAGGAACATCAGGCTCGACGGCGGTGGGCACCGTGAGAGCCTGGCCATCGCCGATGGACCGTCTGTGGGCCGGGCGGTCCGAAACATGCTCCTGAACGCCATCCTCTACAGTCGCCCGGGATCGGACGTTATGGTCATGGTCGGCCGTGATGACGGGAGCGCCTCGGTCACCGTCACGGATGGCTGCGGCGGAATCCCGCCAGAGGACCTTCCGCATGTCTTCGAGACTGGCTGGCAGGGAAATCCGGCCCGCCTGCAGGCAGGGGACGGGGAGCACGCCGGAAGCTTCAGCTACAGCGGCGCGGGTGTGGGGTTGAGCATGGTGGCCGGGATAGCTCGCGCCCATGGCGGGGGCGTCAGCGTGGAAAACGTCGACGGCGGGTGCCGGTTTACACTCCGCCTCCCCGCTGAAGTGGCTCACTGGCTTGATTCGGATGGACCCGCACATTCTGCGAAGGGATCAGGGAACGCACCGTGA	MQVNELVVIVGLALLWALVIGAGALLVLKAMQRATFAVQICVVVLATVAVLTAGMVSAFNAMVISARDLEVMWYILAIASAVAVAIALILGARVSRNARALAEAARSIGRGETLTLTAPLMGSELAALADELELSSRRLMESREREAAVEKSRRELVSWISHDLRTPLASMRAMAEALEDGMAADPSAYHRTIIAQTEQMAVMVNDLLELSKIQAGTLHLNAEPLDLYDLASDALTDLAPLAAQRNIRLDGGGHRESLAIADGPSVGRAVRNMLLNAILYSRPGSDVMVMVGRDDGSASVTVTDGCGGIPPEDLPHVFETGWQGNPARLQAGDGEHAGSFSYSGAGVGLSMVAGIARAHGGGVSVENVDGGCRFTLRLPAEVAHWLDSDGPAHSAKGSGNAP				NA	NA	NA	NA	NA
D1-29_01588	1761	msrP_1		Protein-methionine-sulfoxide reductase catalytic subunit MsrP	GTGACGGATAAGACACGCGATGGGCTGACAGAGGCAGCGTCGACGACAGCCGGGTCGACAGAGGCCGGGTCGACTGAGGCAGCGTCCACGAACGCCGGGTCGACAGAGGCAGCGTCCATCCAATCGCCATCGTCCACCCAGTCGCCGTCGAAAGCGCCAAGGAAAACATGGTGGGCTGCGGCCTCGGGGGTTACTGCCGCCGGAACCGGCGTGGTGCTGGGGGAACTGCTGGCAAGTCTTGTCAGCCCGTCAGTATCGCCGATGACAGCGGTGGGCGGGGCCGTGATCGACGCCGTTCCGCCGGCCGTGAAGGACTGGGCCATTGCCCTGTTCGGCACCGCGGACAAGATGGCTCTGCTGACGGGCATGGTGCTGGTCATCGGAGCCCTGGCCGCCCTGGCGGGAATAGTGGAACAGCGCAGGCGGTTTGCCGGCGTGGTGGTGATTGCCGTCTTTGCGCTTGCGGGACTGGCCGCGGTCCTGACCCGCGCACAGGTGACTCCGAACGCGATCGCCGTGCCTTTCGTGGCCGCATTGGTGGGGATGGTGCTGCTGCGCCTGCTGATCCGCCGGCTCCAGGCCTGGAACGCTTCGCCCTCTGACACAGGCGTATCTGACCCAGGCATACTTGACGCTGGCGTACCTGATGCAAACGAATCTGACGCACGTGGGATTCAGGGCGGCCACCCTCCTGCCAGACGGGCCTTCTTGCAGGTCTTTGCGGCCGGTGCCGCCGTTACCACCGTGGGAGGTGTCCTCGCGGCTCTGTGGCGAAGTGCTGCCGCAGGTATCAACGAGGCCCGTGAACGGCTGCGGCTTCCTGCCGCCCAATCGGCAGCGCCAGCCATTCCGGCCGGGGCTGAGGTTGGCCTCGACGGCATGCAGCCGCTCATCACCCCCAACCGCGACTTCTACCGTATCGACACAGCCCTCTCCGTTCCCGCCCTTGATCCGGGCTCCTGGGTTCTGCGGGTAACGGGCATGGTGGACCGGGAAATCGAGCTGGCCTTCGCTGAACTTTTGGCGAAACCCCTGATGGAGCGGCACATAACCATCGCGTGTGTTTCGAATGAGGTGGGCGGTGACCTGATAGGCAACGCCAGGTGGCTCGGCTGGCCGGTGCGGGAGCTGCTGGCGTTGGCAGGACCAAAACCCGGGGCGGACATGGTGCTCTCACGGAGCTCGGACGGCTGGACTGCCAGTACGCCGCTCGACGTCCTCACCGATACCAGGGACGCCTTACTTGCAGTGGGCATGAACGGGGAACCGCTGCCACTGGAACACGGGTTTCCCGTCCGGCTGGTTGTCCCGGGCCTCTACGGCTACGTCTCGGCCACCAAGTGGCTCACGGAGCTCAAGGTGACCACGTTTGCCGACGACACCGCCTACTGGACGCCGCGGGGCTGGTCGGCCCGCGGACCCATCAAGACGTCCTCACGGATCGACGTGCCCCGGAGCGGCCGTCCCGTAACGGCGGGAACTGTGATGTTCGGTGGTGTGGCCTGGGCCCAGCACACCGGGATCGGCACGGTGGAACTTCGGGTCAACCGCGGACCGTGGCAGGCGGCCGAGCTGGCCCCCGGGATCTCGTTGGATACGTGGTACCAGTGGAAGCTGGGCATCGACCTCACCCCCGGGCAGTACGAGGTCCAGGTCCGCGCCACAGATCTCGACGGCGAACCCCAGGACGAGGAACGCCGCCCCGTTGCACCCGACGGGGCTACAGGCTTCCACACGATTAGAGTTGACGTGAAACCCTGA	MTDKTRDGLTEAASTTAGSTEAGSTEAASTNAGSTEAASIQSPSSTQSPSKAPRKTWWAAASGVTAAGTGVVLGELLASLVSPSVSPMTAVGGAVIDAVPPAVKDWAIALFGTADKMALLTGMVLVIGALAALAGIVEQRRRFAGVVVIAVFALAGLAAVLTRAQVTPNAIAVPFVAALVGMVLLRLLIRRLQAWNASPSDTGVSDPGILDAGVPDANESDARGIQGGHPPARRAFLQVFAAGAAVTTVGGVLAALWRSAAAGINEARERLRLPAAQSAAPAIPAGAEVGLDGMQPLITPNRDFYRIDTALSVPALDPGSWVLRVTGMVDREIELAFAELLAKPLMERHITIACVSNEVGGDLIGNARWLGWPVRELLALAGPKPGADMVLSRSSDGWTASTPLDVLTDTRDALLAVGMNGEPLPLEHGFPVRLVVPGLYGYVSATKWLTELKVTTFADDTAYWTPRGWSARGPIKTSSRIDVPRSGRPVTAGTVMFGGVAWAQHTGIGTVELRVNRGPWQAAELAPGISLDTWYQWKLGIDLTPGQYEVQVRATDLDGEPQDEERRPVAPDGATGFHTIRVDVKP				NA	NA	NA	NA	NA
D1-29_01589	1368	moaE2_1	COG0303	Molybdopterin molybdenumtransferase 2	ATGGCAGCAACCGAAGGCAGGACCATGCACAGCCCTCCGCACCAGCACGGCCACGCCCCGACCCACACTTCGGCCAACCCTGACCAGACTGAACAAACCCAGGCTGAAACAGCCCACCCAGCATCAGCCCAAGCCGAACATGCCCACGCAGCACCAGCCCACACGCCCCGTTCCGTAGCCGGGCACCGCGCCGCCGTGGCACGGCTGCTCGCCGGATTGCGCTCCGCTGACCGGACGGAAACCGTGACCCTGCAGGCGGCCCTGGGCCGGGGGCTTGCCTACGACGTCACTGCTCCCATCAGCCTCCCGCCGTTTGCCAACTCCCAGATGGACGGCTTTGCCGTCAACAGCTCAGACATTCCCGACGACGGGGCGGAGCTGCGCGTGGTGGCCCCCGTCCCCGCAGGTGCCACCCCGGCCGCCCTGGAGCCCGGCACAGCTGCCCCCATCATGACCGGCGCCATGATTCCCGACGGAGCGGACGCCGTCGTCCCCATCGAAAGGGCGGTGCCGGACCGCTTCCCCGCCCCCGGGCAGCGGTCCACAGTCAGGCTTCCGGCAACCGGGGCCGGGACGTTTGTCCGGGCCGTGGGAAGCGATCTCCTCGCCGGAGAACGGGCGCTGGCCGCCGGGACGCACCTGGGTCCTGCGCAGCTGGGGCTCCTGGCCGCGCTGGGCATTGACACCGTGACGGTTCACCGGCAGGTAACTGTCCTGCTTGCCGCAACAGGGGACGAAGTGGTGGAACCCGGCCAGGCGCTGCCCGCCGGCAAGATCTACGATGCCAACGGGACGCTGCTTGAAGGCGCCATGCGGCAGGCTGGCCTGAACGTCATCCGCACGGCTATCTCCGCTGACCGGCCCGAAGAGCTGGAGCTCCTGTTGCGTGAACACGCGCCGGCTGTCGATCTGGTCGTCACCACCGGTGGGGTCAGCAAGGGCGCCTACGAAGTGGTGCGCCAAGCCATGGAAGGGCAGCAGGCCCAATTCCTGCATGTGGCCATGCAGCCCGGCGGGCCCCAGGGGATCGGCACGTTCGATGCCGTCCCTTTCCTGGGCTTTCCGGGCAACCCCGTCAGCTGCCTGGTTTCCTTCGAGATGTTCCTCCGCCCCGTGCTGGCCGGGCTGTTCGGCTCACCGGCACCACGCGTCCCGGTCCGGGCCCGGCTTGCCCACGGACTCAGGTCCCCGGAACATAAGCATCAGGTCCGCCGCGGCACTCTCCACCCGGACGGGACCGTTGGACTTGAAGGCGGCGAAAGTTCGCATCTGATGCACGCCCTGGCGGGTTCAAATGTGCTGGTGCATGTCCCGGAAGGGGTCTCGGCGCTCGCCGAGGGCGATGAAGTGGAAGTATGGATGCTGTGA	MAATEGRTMHSPPHQHGHAPTHTSANPDQTEQTQAETAHPASAQAEHAHAAPAHTPRSVAGHRAAVARLLAGLRSADRTETVTLQAALGRGLAYDVTAPISLPPFANSQMDGFAVNSSDIPDDGAELRVVAPVPAGATPAALEPGTAAPIMTGAMIPDGADAVVPIERAVPDRFPAPGQRSTVRLPATGAGTFVRAVGSDLLAGERALAAGTHLGPAQLGLLAALGIDTVTVHRQVTVLLAATGDEVVEPGQALPAGKIYDANGTLLEGAMRQAGLNVIRTAISADRPEELELLLREHAPAVDLVVTTGGVSKGAYEVVRQAMEGQQAQFLHVAMQPGGPQGIGTFDAVPFLGFPGNPVSCLVSFEMFLRPVLAGLFGSPAPRVPVRARLAHGLRSPEHKHQVRRGTLHPDGTVGLEGGESSHLMHALAGSNVLVHVPEGVSALAEGDEVEVWML	PGPT0008430_2859	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
D1-29_01590	495	moaC2	COG0315	Cyclic pyranopterin monophosphate synthase 2	ATGGATGCTGTGAATGCAGAACAGAGCCCGCCTTCCCTCACCCACCTCCGGCAGGATGGCACCGCCCAGATGGTGGATGTTTCGGCAAAGGCCGAAACCACGCGCCAGGCCACCGCAACCGCCACCGTGACAAGCACCCGGGAGGTTCTGGACCTTCTGGGTTCCGGCGGCCTGCCCAAAGGGGATGCCCTGGCCGTGGCACGGGTGGCAGGCATTATGGCGGCTAAGAAGACTCCTGAACTGATCCCGCTGTGCCATCCACTGCCGCTGTCCAAAGTGACAGTGGACTTCGAACTGGCGGCAGATTCCGTAAACATCCTGGCCACGGTTAAGACGCGCGGCGTCACCGGCGTGGAAATGGAAGCCCTCACAGCGGTGTCCGTCGCCGCCCTGAGCGTGTACGACATGATCAAGGCCGTGGACAAGCACGCCGTGCTTACCGATATCAAAGTGCTGGCCAAAAGCGGCGGCAAGAGCGGGGACTGGACACTATGA	MDAVNAEQSPPSLTHLRQDGTAQMVDVSAKAETTRQATATATVTSTREVLDLLGSGGLPKGDALAVARVAGIMAAKKTPELIPLCHPLPLSKVTVDFELAADSVNILATVKTRGVTGVEMEALTAVSVAALSVYDMIKAVDKHAVLTDIKVLAKSGGKSGDWTL	PGPT0008405_1366	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
D1-29_01591	537			hypothetical protein	ATGAGCAGCACCACCGAGAGCACACTGAACATGCCTGAACCGCACCGGCACGGGGAGGTACAGGGGCGGAAGGCCGGCGTGGTTATCGCCTCCACCCGGGCAGCAGCCGGTATTTACGACGACGAGACCGGTCCGGTGATCATCGACTGGCTCAAGGAGCACGGCTTTGAAGCCTTTCCGGCCATGGTGGTGCCGGACGGCGAACCCGTGGGCGCGGCCGTCCGGGCGCTGCTCACCCAGCACCCCGCCGTCGTCATCACCAGCGGCGGTACCGGGCTCAGCCCGGATGACCGCACACCAGAGGTCACGTTGCCCCTCCTTGATCGGGAAATTCCGGGCATCATGGAGGCTATCCGCCGTGCCGGAGCTGCCAAGACCCCGCTGGCAGCATTGAGCCGCGGTTATGCCGGGTCTTCCGGCAAGACTTTTATTGTTAACCTGCCCGGATCACCCAAAGGCGTCATGGACGGGCTGTCCGTCCTTGACCCGGTGATCGGGCACCTGTGCGACCAGTTGGAAGGCGGCCATGGACACTGA	MSSTTESTLNMPEPHRHGEVQGRKAGVVIASTRAAAGIYDDETGPVIIDWLKEHGFEAFPAMVVPDGEPVGAAVRALLTQHPAVVITSGGTGLSPDDRTPEVTLPLLDREIPGIMEAIRRAGAAKTPLAALSRGYAGSSGKTFIVNLPGSPKGVMDGLSVLDPVIGHLCDQLEGGHGH	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
D1-29_01592	465	moaE2_2	COG0314	Molybdopterin synthase catalytic subunit 2	ATGGACACTGAATCAGTTTTTGAGGTGGTACGTGCGGTGTTGAGTGCGGAGCCCATCTCCGTGGACCAGGCCATTGCGGCAGTGGAGTCGGACACCGCCGGGGCTGTGGTCAGCTTCAGCGGAGTGGTCCGGAACCACGACGGCGGCAAGGCAGTTGAGCGGCTCAGTTACAGTGCGCACCCCACGGCGCATCAGGTGATGGCCGACGTCGTCGCGCAACTGGTGGCCGAACAGGAGCCGGGGGACGCCGGCGCCGGTCAGCCCGTGCGCATTTGGGCCGCCCACCGGATTGGCATGCTGGAAATCGGGGATCCGGCGCTTGTTTGCGCTGTATCCGCCGCTCACCGTGGCCAGGCTTTTGCGGTGTGTTCGGAACTGGTGGACCGGATCAAGGAACAGGTGCCGATCTGGAAGGAACAGTTCTTTGCCGACGGCTCTGTTGAATGGGTCGGCGCGGGCGCCTGA	MDTESVFEVVRAVLSAEPISVDQAIAAVESDTAGAVVSFSGVVRNHDGGKAVERLSYSAHPTAHQVMADVVAQLVAEQEPGDAGAGQPVRIWAAHRIGMLEIGDPALVCAVSAAHRGQAFAVCSELVDRIKEQVPIWKEQFFADGSVEWVGAGA	PGPT0008415_186	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
D1-29_01593	771	dapB	COG0289	4-hydroxy-tetrahydrodipicolinate reductase	ATGACCGAACAACACCCCGCCCCACTGCGCGTCGCCGTGCTGGGCGCCAATGGGCGCATGGGCGCCGAAGCCGTCAAGGCCGTCGAAGCCGCCGCCGATCTCAAGCTGGTGGCCGCCCTGGGCCGCGCTGATTCATTGGATCAGCTGGCCTCTTCCGGAGCCGAATATGTTGTGGACCTGACGGTTCCCGAAAGCACCGAAGCCAACGTCCGGTTCGCCGTCGAACACGGCATGCACGCCGTCGTGGGAACCACCGGCTGGGATGCCGAGCGACTCTCACGCCTGGAGGCTCTGCTGGCGGCTCACCCGGGGCAGGGCGTTTTGATTGCCCCCAACTTTGCCCTCGGATCCGTGCTGGCCTCTGCCTTCGCCGCCAAGGCAGCACGGTACTTCGAGTCCGTTGAAATCATTGAGCTGCACCACCCGGACAAAGTGGACGCGCCCTCCGGCACTGCCATCCGCACGGCCCAGCTCATCGCCGCGGAACGAGCCGACGCGGATGTTCCCCGCAGTCCTGACGCCACCACAACCGAGCGGGCCGGTGCCCGTGGGTCCGACGTGGACGGCGTCCGCGTGCACAGCGTCCGGCTCCGTGGCCTGGTGGCCCATCAGGAAGTCCTGCTGGGAGGCCCGGGGGAGCAGCTGACCCTTCGCCATGACTCGTTCGACCGCGCTTCCTTTATGCCCGGCGTACTGCTGGGCGTGCGCAACGTCGCGGCGCATCCCGGGCTCACCGTGGGGTTGGACGGCTACCTGGACCTGGGGTTCTAG	MTEQHPAPLRVAVLGANGRMGAEAVKAVEAAADLKLVAALGRADSLDQLASSGAEYVVDLTVPESTEANVRFAVEHGMHAVVGTTGWDAERLSRLEALLAAHPGQGVLIAPNFALGSVLASAFAAKAARYFESVEIIELHHPDKVDAPSGTAIRTAQLIAAERADADVPRSPDATTTERAGARGSDVDGVRVHSVRLRGLVAHQEVLLGGPGEQLTLRHDSFDRASFMPGVLLGVRNVAAHPGLTVGLDGYLDLGF				NA	NA	NA	NA	NA
D1-29_01594	480			hypothetical protein	ATGGATAATTTCCTGGCCGCGTTCCGGAAGAACCGCACCAAAATCTGGGTGGGCGCCGTAACCCTCCTGCTGGTCTTCTACTTGGTGGTGTCCTTCCAGCGGTCCGTGTTGCTGCTTTTGGACAGCAACCTGACTGCCAAAGCCATCGGCGCGGCCTACCTGGTGCTGCCGGTTATCGGCGCCTGGGCCCTGATCCGCGAGCTGATGTTCGGCGCCCGCACCGAACAGATGGCAAAAGTCCTTGAAGCTGAGGGCGGCCTGCCCGTGGATGACCTGCCGCGCACCCCGGGCGGACGGATCGTTCGCTCTGCCGCGGATCAGGAATTCGAAAAATACCGTATCGAGGCTGAAGACGCCCCGGACGATTGGCGTTCATGGTTCCGGCTGAGCTGCGCCTACGACGCCGCAGGGGACCGCAAACGCGCACGCGCGTCCATGCGTGATGCCATCCGCCTTTTCCGTGGCAAGGTTCCGGCCTAG	MDNFLAAFRKNRTKIWVGAVTLLLVFYLVVSFQRSVLLLLDSNLTAKAIGAAYLVLPVIGAWALIRELMFGARTEQMAKVLEAEGGLPVDDLPRTPGGRIVRSAADQEFEKYRIEAEDAPDDWRSWFRLSCAYDAAGDRKRARASMRDAIRLFRGKVPA				NA	NA	NA	NA	NA
D1-29_01595	1239			hypothetical protein	ATGACCTCCCGTGCCACCGCCAGACCTTCCAGGGCGCCCCGCAGCGCATCGCGGCCGGACCGGCTCAGGGGCATCGATGCGGCACGAGGCCTGGCCCTGTTGGGCATGATGGCCACCCATCTGCTGCCTACATTTGAGGCCAACGCCAACCTCACCCCTACCTGGATTGGCCTCACGTTCTCCGGCCGGTCTGCCGCCCTGTTTGCAGTGCTGGCCGGAGTTGGGCTGGCACTCTCCACGGGAAAGCAGGTGCCGCTGGAAGGCAAGGCTCTCGGTGCAGCCAGCCGCGGCGTGGCGCTGCGGGCGCTGGTGATTGCCGCCGTCGGCCTGACTCTTGGCGGCCTTGAAGTGAACCTGGCAATTATCCTGGTTCACTACGCGGTGCTGTTCCTGTGCGTCCTGCCATTCCTGGGGCTGAAGCTGAAAGCGTTGTGCATGTGGGCAGCCGGCTGGATCGTGGCGTCCCCGGTGCTTGCCTACCTGCTGCGCCCGTGGCTGATGGCATCGAACCCGCCCCTGAAGCTTGGCCACAATCCAAAGTGGGAAGACCTGTTGGTGCCTTCGCGGCTGCTGGGAGACTTATTCTTCACTGGCTACTACCCCGTTTTTCAGTGGGTGGCCTACCTGCTGGTGGGGCTGGCGATTGGCCGGCTGGCGCTTACCAAGGCCTTGGTTCCGGTGGTGCTGCTGGTCGGTGGAACGGTGGTGGCCGTCCTGACCAAGGCCCTTGGCACGGCCGCGATGGAGAACTGGGGTGGCAGGGAAGCCCTGCAGGACGTATTGAACGCCCCGAACTACCCCTTGGACAGTGTCCTGCAGGTCAACCTCACGGGCATCAACCAGGAAGGGTCCTGGTGGTGGCTGGCGTCCGCAGCGCCGCATTCTGCGACGACGCTGGACCTGGCCCATACGTCTGCCGTGGCGGCGGCCGTTGTGGGGGCCTGCCTTTTGCTCGGCAAACTGGCCGACTGGCTGAACCTGGATCTGTTGCTGCCCCTGCGCGGGGCGGGAGCCATGACCCTGACGCTGTACACGGTCCACATCTGGGTGGTGGCCGGCTTCTACCTGAAGCCATTGCCTGCCGGCTGGACAGAGGACGGGATGTATTTTGCCCACGCCGCAACCGCGATCATTGTGGGGATGGTGTTTGTCCTGCTCAAGTGGCGCGGCCCCCTTGAGTGGCTCGGGCACATGGCCAACCAGCTGGGCCGCCATGGAGTCATAACGGCCAAGCCGTAG	MTSRATARPSRAPRSASRPDRLRGIDAARGLALLGMMATHLLPTFEANANLTPTWIGLTFSGRSAALFAVLAGVGLALSTGKQVPLEGKALGAASRGVALRALVIAAVGLTLGGLEVNLAIILVHYAVLFLCVLPFLGLKLKALCMWAAGWIVASPVLAYLLRPWLMASNPPLKLGHNPKWEDLLVPSRLLGDLFFTGYYPVFQWVAYLLVGLAIGRLALTKALVPVVLLVGGTVVAVLTKALGTAAMENWGGREALQDVLNAPNYPLDSVLQVNLTGINQEGSWWWLASAAPHSATTLDLAHTSAVAAAVVGACLLLGKLADWLNLDLLLPLRGAGAMTLTLYTVHIWVVAGFYLKPLPAGWTEDGMYFAHAATAIIVGMVFVLLKWRGPLEWLGHMANQLGRHGVITAKP				NA	NA	NA	NA	NA
D1-29_01596	393			hypothetical protein	ATGAAGGCCATGAGTCCGGGAGTCGTTGACTACCTTTTCAGGCAGCTCGTCGCAGGAGAGCCGCCAGAGGACGTCCAATGGCAGCGGGAGGGCATCACGCTCGCGGCACAGCCCCCGGGAGCGGAGCTGGCACGGCGGCTCAGCGAAACGGACCTCGAGGCCCTCACGCCCACCGAGCTGTTCCACTACGTCAGGGCCGCCCAGCGGTTGGCATCCTGGGCGGAGGGGCTGCGGGAGGCTGCGGTGGCCAGGTACTGCCAGCCCATGGCCGCGCCGGTCGGGCCATATGAAGCAGTGGATAGTGGGAGCGTCCGGCCCGGGGACCAGAATTGTCCCGAGGTGCCGCAGTTTGCGGAGGCAAAACTTCCTGAAATCCGGCGTGAGCTTCCCTAG	MKAMSPGVVDYLFRQLVAGEPPEDVQWQREGITLAAQPPGAELARRLSETDLEALTPTELFHYVRAAQRLASWAEGLREAAVARYCQPMAAPVGPYEAVDSGSVRPGDQNCPEVPQFAEAKLPEIRRELP				NA	NA	NA	NA	NA
D1-29_01597	642			hypothetical protein	GTGAGTGATGCCCTGACTGTTTCCACCGTCCAGTACCAGGCGCTGGACGGCGGCGTCGCCACCAATGCCATGGAGCATGTGCGCCTGATCGAAGATGCCGAGTCCCACGGCTCCAGGCTGGTGGTTTTTCCCGAACTGTCCCTGACGGGGTATGACCTGCCGCTGCTAAAGGACCCCGGGCAGTGGCTCCAACCGGAGGATCCGCGGCTTGGTGATGTCCGCGAGATCTGCCGCCGGACCGGGATCACGGCAGTTGTCGGGGGCGCCTACCGGGAAGCCGATGGCACGCCCAGGCTCGCTGCACTGGCCATTCATCCTGAAGGCGTCACGGACGTCGCCTTCAAGACGCATCTTCATGGCCAGGAGAAGGACATCTTCGCCCCCGGCGGGGGTGCCGTCGTTCTGGAGCTGGATGGCTGGAAGATTGCGCTGGCCATATGCTTCGATGCCGCCGTCCCCTCCCATTCGGTGCTGGCAGCCGGGTCCGGGGCGGACGCCTATGCGCCGTATCCGCCCTCTACACCCGTGAGGAAGAACACCGGCTCGCTCTTCACCTGGGCGCCCGGGCCATGGACAATCGAATGTTCGGCATCCTGGCGAACCTCGGCGGAACCACCACCCTGGGCCCTTCGTGCGGCCTGA	MSDALTVSTVQYQALDGGVATNAMEHVRLIEDAESHGSRLVVFPELSLTGYDLPLLKDPGQWLQPEDPRLGDVREICRRTGITAVVGGAYREADGTPRLAALAIHPEGVTDVAFKTHLHGQEKDIFAPGGGAVVLELDGWKIALAICFDAAVPSHSVLAAGSGADAYAPYPPSTPVRKNTGSLFTWAPGPWTIECSASWRTSAEPPPWALRAA				NA	NA	NA	NA	NA
D1-29_01598	168			hypothetical protein	ATGTTCGGCATCCTGGCGAACCTCGGCGGAACCACCACCCTGGGCCCTTCGTGCGGCCTGAGCGGATTTTGGGGGCCTGACGGCCTGCTGATGAAAAAGGCGGCGGGAACAGGCACGGAGGTGGTCACAGCCATTCTGCAGCGCAGTGCGTTGCGAAAGTTTCGGTGA	MFGILANLGGTTTLGPSCGLSGFWGPDGLLMKKAAGTGTEVVTAILQRSALRKFR				NA	NA	NA	NA	NA
D1-29_01599	909	dapA	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGGCTGATACATCCGCGAACATCCCTGCTCTTGGTACCCTGCTGACCGCAATGGTCACGCCCTTCACCAAGGACGGCGCTGTGGATTACAAGCAGGCCGCGGAGTTGGCGGTCAAGCTGGTTGATGACGGCTGCGACGGCCTCGTAGTCACCGGAACCACTGGCGAAACCTCCACCCTCACGGACGAGGAAAACCTCGGCATGTTCCGCGCCGTTAAGGAAGCTGTGGGAGGCCGGGCCGCCATCATTGCCGGCACCGGCACCAACGACACTGCTCACTCAGTACACCTTTCCCAGCAGGCCGCAGCGGTGGGCGTGGACGGACTCCTGCTGGTCACGCCTTACTACAACAAGCCAAGCCAGGCCGGCGTCCGGGCGCACTTCGAGACCATCGCGTCATCCGTTGACGTGCCCGTGATGCTCTACGACATCCCCGGCCGGTCGTCTATCCCGATCGAGCCCGAAACCATGATCCGGCTGGCGCAGCACCCGAACATCGTCGCCGTCAAGGACGCCAAGGCCGACTTCGTCGCCGCCACCCGCGTCATGGCAGAGACTGATCTGCTCTTCTACTCCGGCGACGACGGCCTGACACTTCCATGGATGGCCCTGGGCGCAGTAGGGCTCGTAGGTGTGACAACGCACGTCGCTACCCGCCGCTTCAGGGAACTGATCGACGCCATCAACGCGAACGACCTCGGAACGGCCCGCAAGATCAACTTCGAGCTCCAGCCTGTCGTGCGGGCAACGATGACCCGCGTGCAGGGGGCCGTTGCGGCCAAACAAATTCTTAAATGGCAGGGAGTCCTGCCCAACTCGATTGTCCGTTTGCCCCTCGTGGAGCCGGACGAAGCCGAGATCGAAACCATCCGCGAGGACTTGGCGGAAGGAGGGCTGGTCTTTTCCTGA	MADTSANIPALGTLLTAMVTPFTKDGAVDYKQAAELAVKLVDDGCDGLVVTGTTGETSTLTDEENLGMFRAVKEAVGGRAAIIAGTGTNDTAHSVHLSQQAAAVGVDGLLLVTPYYNKPSQAGVRAHFETIASSVDVPVMLYDIPGRSSIPIEPETMIRLAQHPNIVAVKDAKADFVAATRVMAETDLLFYSGDDGLTLPWMALGAVGLVGVTTHVATRRFRELIDAINANDLGTARKINFELQPVVRATMTRVQGAVAAKQILKWQGVLPNSIVRLPLVEPDEAEIETIREDLAEGGLVFS	PGPT0002080_2998	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
D1-29_01600	1692	rnj	COG0595	Ribonuclease J	ATGACCCAAATCGCCCTTCCTGGCCTTGTCACGCCTCCACGCCTGCCGCAAGGCACCCTTCGGATCGTTCCGCTGGGTGGCCTGGGGGAGATCGGCCGGAACATGGCTGTGTTCGAAATCGACGGCAAACTGCTCGTCGTTGACTGCGGTGTCCTCTTCCCCGAGGAAACACAGCCCGGCGTTGACCTGATCCTGCCCGATTTCTCCTATATCGAGGACAGGGTCAACGACATTGTTGCCGTCGTCCTGACGCACGGCCATGAGGACCACATCGGCGCCGTTCCTTACCTCCTGCGGCTCCGCAGCGATATCCCGCTGGTGGGTTCACAGCTCACCCTGGCTCTCATCGAGGCCAAGCTGCAGGAACACCGGATCCGTCCGTATACCCTGACGGTGGCCGAGGGCCAGGTGGAGAAGTTCGGTCCCTTCGAATGTGAGTTCGTTGCCGTCAACCACTCCATCCCGGACGCCTTGGCAGTGTTCATCCGGACAGCAGGCGGCACCGTCCTGCACACCGGCGACTTCAAGATGGACCAGCTCCCGCTGGACGGCCGCATCACGGATCTCCGTCACTTCGCCAAGCTGGGCGAAGAGGGCGTGGACCTCTTTATGTCCGATTCCACCAACGCGGACGTGCCTGGCTTCACCACCGCGGAAAAGGAGATCGGCCCCACGCTGGAACGGCTCTTCGGGCAGGCAACAAAACGCATCATCGTCGCGTCGTTCTCTTCGCACGTCCACCGGGTCCAGCAGGTGCTCGACGCCGCAGCCAAGCACAACCGAAAAGTGGCCTTTGTGGGCCGGTCCATGGTCCGGAACATGGCCATCGCCGACAAGCTGGGCTACCTTGATGTTCCCGAGGGTCTCCTGGTGGACATCAAGAACATCGACAACCTGCCGGACAACCGCGTCGTCCTGATGTCCACAGGTTCCCAGGGCGAGCCCATGGCTGCACTGTCCCGCATGGCCAACGGTGACCACCGGGTGGTGGTGGGGGACGGCGATACCGTCATCCTCGCTTCCAGCCTGATTCCCGGCAACGAGAACGCCGTATTCCGCATCATCAACGGCCTGCTCAAGCTCGGTGCGGACGTTATCCACAAGGGCAACGCCAAGGTCCATGTGTCGGGCCACGCTGCCGCCGGTGAGCTGCTGTACTGCTACAACATCCTGGAGCCTCTCAACGCCATGCCTGTGCACGGTGAGACCCGCCACCTGATTGCCAATGGCAAGATCGCCATCGAGTCCGGCGTCCCCACGGCCAGCGTCATTCTGGCGGACAACGGCACGGTGATCGACCTGAAGGACCACCGCGCCGACGTGGTGGGCCAGGTGGAAGTGGGCTTCGTGTACGTGGACGGCTCCAGTGTCGGAGAAATCACCGACGCCGACCTCAAAGACCGTCGCGTCCTCGGAGACGAAGGCTTCATCTCCATCATCACAGTCATCAACAAGGCCACGGGCAAGGTGGTTTCCGGACCCGAAATCCACGCCCGCGGTGTCGCCGAGGACGATTCAGTCTTCGACGACATCATCCCCAAGATCAACGCGGCGCTGGAAGAGGCAGTGCTGAACCATGCAGACCACACCAGCCACCAGCTCCAGCAGGTTGTCCGCCGTGTTGTCGGCACCTGGGTCAACCGCAAGCTGCGCCGCCGGCCCATGATCATTCCCGTGGTGCTCGAAGCGTAG	MTQIALPGLVTPPRLPQGTLRIVPLGGLGEIGRNMAVFEIDGKLLVVDCGVLFPEETQPGVDLILPDFSYIEDRVNDIVAVVLTHGHEDHIGAVPYLLRLRSDIPLVGSQLTLALIEAKLQEHRIRPYTLTVAEGQVEKFGPFECEFVAVNHSIPDALAVFIRTAGGTVLHTGDFKMDQLPLDGRITDLRHFAKLGEEGVDLFMSDSTNADVPGFTTAEKEIGPTLERLFGQATKRIIVASFSSHVHRVQQVLDAAAKHNRKVAFVGRSMVRNMAIADKLGYLDVPEGLLVDIKNIDNLPDNRVVLMSTGSQGEPMAALSRMANGDHRVVVGDGDTVILASSLIPGNENAVFRIINGLLKLGADVIHKGNAKVHVSGHAAAGELLYCYNILEPLNAMPVHGETRHLIANGKIAIESGVPTASVILADNGTVIDLKDHRADVVGQVEVGFVYVDGSSVGEITDADLKDRRVLGDEGFISIITVINKATGKVVSGPEIHARGVAEDDSVFDDIIPKINAALEEAVLNHADHTSHQLQQVVRRVVGTWVNRKLRRRPMIIPVVLEA				NA	NA	NA	NA	NA
D1-29_01601	3027			hypothetical protein	GTGGTGGCAGGGGCGGCAACATGGAGGCCCCTGAAAGCGCGGAAATCCGCGGAAATCAGGCCCGGTTCGGGTACCGTGGCAGGTATGGCCACTCGTACTACGTCCGCGTCCAGAGGCAATTCTGGCGGCACTTCCGGCAGCAAAGCCGGCTCTGCCGCGGGCCGCGGGGCCGGCTCTGCGGCGTCCAAGACCGGCCGGACCACAGGTTCCTCCGGAAGCCCGCGCACCCGCCGGCTTCCCGCCGTCGAACAGCGCGATCCCTGGCTCCTGCGCGTTGTAGGCGGCGCTTGGCTGGGAATCGGCCACCTCGTGGGCGGCGGGGTCCGCAGGATTGGCCACGACGTCAGTGACGTGCCCCCGGAGGAACGCCGCGACGGAGCAGCCCTGTTCAACCTCGCGCTGGGGATCTTCATCGCCACCTTCGCATGGTGGGGGTTGACCGGTTGGTTCCCCGATGCGGTCTACAGCGTGGTCAACGGCACGTTCGGCTGGATGTCCCTGCTCCTCCCGCTCATGCTGTTTGTCTGTGCCTTCCGCCTGTTCCGGCAGCCGGCGGACGGCCGAGGAAACAACCGCGTGGGGATCGGCTTCCTCATCATGACGTTCGCGGGCTGCGGCCTCGCCCATGTCCTGGGCGGACAACCCACCGTTGCCGAGGGCTTCGACGGACTCCGCCAGGCGGGCGGCATGCTTGGTTTCCTGGCTGCATCGCCCTTAGCCGCCATCCATCCGGGGGTGCCACTGGGAATCTACGGCCTGCTGGCATTTGTGTCCCTGCTGATCATCACCGCCACACCATTCACGGCGATTCCGCGGCGTATCCGCGGCGCCTACGAGCACCTCATGGGCATTGACCTGCAGGAACAGGACGAGTCAGGGGACGGCCACGACCGCAGCTACCTCTATGAAACGCCGGCCGCCGCTGCACCCCAGAAGAAGAAGCGCAGGCGATTCTTCGGCAAGGATGAAGAGCCCGACGCCGGTCTGGAGGGGTATGTCGGGGATGAAGCCTTCGAGCATGCCGTCATCGATGACGAGGATGCAGCAGACGCCGCCAAGGGAAGCAAGGCAGCGCGTCCCGCACCCGGGGTACGGCGCCCCACGCAGGCGGAAATCGCCGTCGAAAAGATCAAGGCAGCGCAGGGGCTGGGCAGTGCCGCAGCTTCGGTGGGGGAGAACGCCACCGAGGCCATTCCCCTGGTGACTCCCGGGATGGTGGCAGCCGGCTCGCTCAACCCCGCCCAAACCAGCGTGCCGGCCGCCGTGCCGCACGTACCGGCAAACCCGGTGAGCCCCGCGCCGCCGCCCACGCCCATTCCGCAGCGCACTGAACAGCTTTCCCTCGCCGGCGACGTGACGTACACGTTGCCGTCGTCGGACGTTTTGACCCCCGGCTCCATTCCGAAGGAGCGTACGGAGGCAAACGACGCCATCGTCGCTTCGCTGACGGAAACGCTGAACCAGTTCAACGTGGAGGCCCAGGTTACCGGTTTCAGCCGTGGTCCCACAGTGACCCGGTACGAAATCGAGCTGTCGCCCGGCACCAAGGTGGAGCGGGTCACCGCGCTGTCCAAGAACATCTCCTACGCCGTGGCCAGCTCCGACGTCCGGATCCTCAGCCCCATCCCGGGCAAGTCCGCCATCGGCATCGAGATCCCCAACACAGACCGCGAAACAGTCTCCCTGGGCGACGTGCTGCGCAGCCAGAACGCCCGCCGGACGGACCACCCCATGGTGATGGGAGTAGGCAAGGACGTTGAAGGCGGCTACGTGGTGGCCAACCTGGCCAAGATGCCCCACCTCCTGGTGGCCGGTGCCACCGGTGCCGGTAAGTCCTCGTTCGTGAACTCGATGATCACCTCGATCCTCATGCGGGCGACGCCGGATGAGGTCCGCATGGTGATGGTGGACCCCAAGCGCGTGGAACTGACCGCCTACGAGGGTGTCCCGCACCTGATCACGCCCATCATCACCAACCCCAAGAAGGCCGCAGAGGCGCTGCAGTGGGTGGTCCGCGAGATGGACGCCCGTTATGACGACCTTGCCAATTACGGCTTTAAGCACATCGACGACTTCAACAAGGCGGTGCGGGCCGGCAAGGTCCATCCGCCGGTGGATTCCAAGCGCGTCATCCGGCCCTACCCGTACCTGCTGGTGATCGTGGACGAGCTCGCCGACCTCATGATGGTGGCCCCGCGTGACGTCGAAGACTCCATTGTCCGCATCACCCAGCTAGCCCGGGCCGCCGGCATCCACCTCGTGCTCGCCACCCAGCGCCCGTCCGTGGACGTCGTTACGGGCCTGATCAAGGCCAACGTCCCCTCCCGGATGGCGTTTGCCACGTCCTCCGTAACGGACTCCCGCGTGGTCCTGGACCAGCCCGGCGCCGAGAAGCTCATTGGCCAGGGTGATGCACTCTTCCTGCCCATGGGCGCCTCCAAGGCCATGCGCGTGCAGGGCGCCTGGGTCACGGAGTCCGAAATCCACAAGGTCGTGGAGCACGTCAAGGGCCAGCTTCAGGCCGTCTACCGCGACGACGTCGCCCCCGAGGCACAAAAGAAGCAGATCGACGACGACATTGGAGACGATCTCGAGGTCCTGCTGCAGGCCACTGAGCTGGTGGTCACCACCCAGTTCGGCTCCACGTCGATGCTGCAGCGCAAGCTGCGGGTCGGCTTCGCCAAGGCGGGGCGCCTGATGGACCTGCTGGAATCCCGCGGTGTGGTGGGCCCCTCGGAAGGATCCAAGGCCCGGGATGTGTTGGTGAAGCCTGATGACCTGGCGGCCGTGCTGGCTGCCATGAAGGGCCAGGAGGCGCCGTTGGTCGCTGATTCGCAGACCGCTGCCCTGAGCGAGAATGCCAACGCCAACATTGGGCAGGGCGGCTATGCCGAAGACCTGGTGGCGGCGGATCTTGAAAAGCGTACGCAGAACGTTGAATATTACGACGGCGCCGATTCGCCCCCAGGCTCCTATGGGGACGATGAAGACGGTTCCGAAGACGCCTGGTCGCTCACCGGGCGCTAG	MVAGAATWRPLKARKSAEIRPGSGTVAGMATRTTSASRGNSGGTSGSKAGSAAGRGAGSAASKTGRTTGSSGSPRTRRLPAVEQRDPWLLRVVGGAWLGIGHLVGGGVRRIGHDVSDVPPEERRDGAALFNLALGIFIATFAWWGLTGWFPDAVYSVVNGTFGWMSLLLPLMLFVCAFRLFRQPADGRGNNRVGIGFLIMTFAGCGLAHVLGGQPTVAEGFDGLRQAGGMLGFLAASPLAAIHPGVPLGIYGLLAFVSLLIITATPFTAIPRRIRGAYEHLMGIDLQEQDESGDGHDRSYLYETPAAAAPQKKKRRRFFGKDEEPDAGLEGYVGDEAFEHAVIDDEDAADAAKGSKAARPAPGVRRPTQAEIAVEKIKAAQGLGSAAASVGENATEAIPLVTPGMVAAGSLNPAQTSVPAAVPHVPANPVSPAPPPTPIPQRTEQLSLAGDVTYTLPSSDVLTPGSIPKERTEANDAIVASLTETLNQFNVEAQVTGFSRGPTVTRYEIELSPGTKVERVTALSKNISYAVASSDVRILSPIPGKSAIGIEIPNTDRETVSLGDVLRSQNARRTDHPMVMGVGKDVEGGYVVANLAKMPHLLVAGATGAGKSSFVNSMITSILMRATPDEVRMVMVDPKRVELTAYEGVPHLITPIITNPKKAAEALQWVVREMDARYDDLANYGFKHIDDFNKAVRAGKVHPPVDSKRVIRPYPYLLVIVDELADLMMVAPRDVEDSIVRITQLARAAGIHLVLATQRPSVDVVTGLIKANVPSRMAFATSSVTDSRVVLDQPGAEKLIGQGDALFLPMGASKAMRVQGAWVTESEIHKVVEHVKGQLQAVYRDDVAPEAQKKQIDDDIGDDLEVLLQATELVVTTQFGSTSMLQRKLRVGFAKAGRLMDLLESRGVVGPSEGSKARDVLVKPDDLAAVLAAMKGQEAPLVADSQTAALSENANANIGQGGYAEDLVAADLEKRTQNVEYYDGADSPPGSYGDDEDGSEDAWSLTGR	PGPT0030468_2661	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
D1-29_01602	639	pgsA		CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase	GTGACTAGCACCGAAGCAACCGCCGCCGGCTCCAGCAGTTCCAGGATCTGGAATCTTCCCAACGTCCTGACCATGCTGCGCATCGCGCTGGTGCCTTTCTTCGTCTGGTTCCTTCTTGCGGACGCCCCCGGGCTGCAGAGTGAAGCGGGGCTGTGGCGCTGGGCAGCGGTACTGGCCTTCGCCGTCGCGATTTACACAGACAAGCTCGACGGCGATATCGCCAGGAGCCGTGGCCTTGTCACTGATTTCGGTAAAATCGCCGACCCCATCGCCGACAAACTGCTGATTGGCTCGGCGCTGGTCATGCTGTCCGTCCTGAATGAACTGCCCTGGTGGGTGACAATTCTCATCCTCGTCAGAGAATGGGGCATCACCGGCCTGCGTTTCTTTGTCATCCGCTACGGTGTCATTCCCGCATCGCGTGGCGGCAAGCTCAAGACCGTGGTGCAGACCGCAGCCATCTTCCTGTATCTCCTGCCGCTGGGGGCACTGGCGCCCTGGCTGGTATGGCTGGCCTTCACCGTCATGATGGCGGCGGTGCTGATTACCGTGTGGACCGGGGTGGAGTACGTGGTGGAGGCACTGCGGCTGCGGGCGCAGGGCAAGCGCGCCGGAACGAAAACCATCAACAACCAGTAA	MTSTEATAAGSSSSRIWNLPNVLTMLRIALVPFFVWFLLADAPGLQSEAGLWRWAAVLAFAVAIYTDKLDGDIARSRGLVTDFGKIADPIADKLLIGSALVMLSVLNELPWWVTILILVREWGITGLRFFVIRYGVIPASRGGKLKTVVQTAAIFLYLLPLGALAPWLVWLAFTVMMAAVLITVWTGVEYVVEALRLRAQGKRAGTKTINNQ	PGPT0007705_1661	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
D1-29_01603	495	pncC	COG1546	Nicotinamide-nucleotide amidohydrolase PncC	GTGACAAACCTCCATCACCTCGCCGAACAGGCCGTTAAGACTGCACTGGATGGGGGAGTCACCGTAGCCACTGCCGAATCGTTGACCGCAGGGATGGTTTCCGCTGTTCTGGCCGACACTGCCGGTGCATCGGGAATGCTTCAGGGCGGGGTGGTCGCGTACCAGAACTCGGTAAAAATGGAGGTGCTGGGGGTTTCGCCTGAACTGCTCGAGGCCGCCGGTTCAGTAGACGGCGATGTGGCCGCGGCCATGGCAGCGGGGGCCCGCAGGCTGTGTGGTTCCGACGTCGGTGTGGCCACCACAGGCGTGGCCGGACCGGAGGAACACGACGGAAAAGCCGTAGGTACTGTCTACATTGGCATTGCGACTCCGGAAGGATCCGGTTCCTTCGAGTATGGCTTTACCGGCAGCCGGGCAGACATCCGCGGCCAGGCCTGCGGGGCTGCCTTGGAAAGACTGCTTGCTGCCCTGGCTTCCGGAAGCTACCGGGCGTAA	MTNLHHLAEQAVKTALDGGVTVATAESLTAGMVSAVLADTAGASGMLQGGVVAYQNSVKMEVLGVSPELLEAAGSVDGDVAAAMAAGARRLCGSDVGVATTGVAGPEEHDGKAVGTVYIGIATPEGSGSFEYGFTGSRADIRGQACGAALERLLAALASGSYRA	PGPT0013460_2934	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013460-pncC2-K03743	NA	NA
D1-29_01604	453			hypothetical protein	ATGGTAAAGCAGCCCGTATCCGTAAACGGCGTTGTCCGCTGGAAGGATGTGGGCCTCGCCGATCAGGGCAAGAGTGAACAGAAGGAGCGCAAAATGGTTGTACTTCGTCACGAAATTGGTGATGTCCTGCGCGATGTCCGCCAGCGCCAGGGCCGTACGCTCCGCGAAGTTTCGCACAGCGCCCGTGTTTCCTTGGGATACCTCAGTGAAGTCGAGCGGGGCCAGAAGGAGGCTTCCTCAGAGCTTCTGTCGTCCATCTGCTCTGCTTTGGATGTTCCGTTGTCCAGCATGCTCCGTGAAGTCAGTGACCGTGTTGCTGTCGCCGAGGGCGTTGCCGTTCCGGACACCGTGCCCCAGGAATTCTCCCAGCGTTATGGCCGTGACCTCGACCGCGACCTCAACGCTGAACTCAACAACGAACTCTCGAAGGGCCTGCTCTCCGGCGCACGCTAG	MVKQPVSVNGVVRWKDVGLADQGKSEQKERKMVVLRHEIGDVLRDVRQRQGRTLREVSHSARVSLGYLSEVERGQKEASSELLSSICSALDVPLSSMLREVSDRVAVAEGVAVPDTVPQEFSQRYGRDLDRDLNAELNNELSKGLLSGAR				NA	NA	NA	NA	NA
D1-29_01605	558			hypothetical protein	ATGAGCAACTCCCCTGACGTTCCTGTTGCTGCAGGTCCTGCAGACGACACCGTAGATGCGGCACTGAAGACCGTGGAGCATCAGATCAGCCTGTTCTGGCGTCGCGCGCGGTCTGTATCGCATCAGTTGTCCCGCCAGGTCCATCCAGACATGGAACCGGCCGCCTATGGCCTGCTGACAGTAATCCGCAGGGAGGGACCCATCAGGCTCACTGACCTCGCGCTCAGCATCGGCGTGGGTAAGCCGTCCATTAGCCGGCAGATCGCCTTCCTCGAAAGCGTTGGCCTGGTGTCCAAGGAAGCCGATCCCCTGGACGGGCGGGCCCAATCCATCCGCCTGACAGAAAAGGGCGAGGAAAAGATGCACCTGGTCCAGGACGCGCGGAGGCAGGTTTTCAGGGAGCGGCTGGGTGAATGGCCACTTGAGGAGCTGCAGACGCTCGCCGAATACATGGCAAAACTGAATGCGATCTACGAGCGGGACGGCTTCCCCAAAGACGATGCCGCCCCAACAAATGCCGCTCAGGCTGACGCCGTTCCGGCCAACGGCGGGAAGTAG	MSNSPDVPVAAGPADDTVDAALKTVEHQISLFWRRARSVSHQLSRQVHPDMEPAAYGLLTVIRREGPIRLTDLALSIGVGKPSISRQIAFLESVGLVSKEADPLDGRAQSIRLTEKGEEKMHLVQDARRQVFRERLGEWPLEELQTLAEYMAKLNAIYERDGFPKDDAAPTNAAQADAVPANGGK				NA	NA	NA	NA	NA
D1-29_01606	225			hypothetical protein	GTGCGAATTAGTGACTACTGGCGGCTCATGGACGACGAATTTGGCGCAGGCTATTCCAGGGTTCTGAGCAGCACGCTCGTGCTCGCCGGCGTCGGCGGACGCACCGCCGATCAGGCGTTGGCCGCTGGAATAAGTCCCAGGGCCGTGTGGCTGGCCATCTGCGACGTGCAGGATGTGCCGCCGGAGCGCCGCCTGGGACGCGACATCAAACCTCACCGCGACTAA	MRISDYWRLMDDEFGAGYSRVLSSTLVLAGVGGRTADQALAAGISPRAVWLAICDVQDVPPERRLGRDIKPHRD				NA	NA	NA	NA	NA
D1-29_01607	1059	recA	COG0468	Protein RecA	ATGGCGGCAGCCCCGGATCGTGAAAAAGCGTTGGAAGCAGCGCTGGCCCAGATTGACAAGCAGTTCGGTAAGGGCTCGGTCATGCGGCTGGGCGATGAAGTCCGGGCCCCCATCGAGGTCATTCCCACCGGATCCATCGCCCTGGATGTTGCCTTGGGCATTGGTGGCCTGCCCCGTGGCCGTGTCGTCGAGATTTACGGCCCGGAATCCTCGGGTAAGACAACCGTTGCGCTGCACGCTGTGGCCAATGCCCAGCGCCAGGGTGGCATCGCGGCGTTTATCGACGCCGAGCACGCCCTGGATCCTGAATACGCCGCAAAGCTGGGGGTGGACACCGACGCACTCCTGGTTTCCCAGCCGGACACAGGCGAGCAGGCCCTCGAAATCATGGACATGCTGATCGGCTCGGGCTCCCTTGACGTTATCGTCATTGACTCTGTGGCTGCCTTGGTTCCCCGGGCGGAAATCGAAGGTGACATGGGAGACAGCCACGTTGGTCTCCAGGCCCGCCTGATGAGCCAGGCCCTGCGTAAGATCACCGGCCGCCTGAGCCAGACCAAAACCACCGCAATCTTCATCAACCAGCTCCGTGAAAAGATCGGCGTCTTCTTCGGCTCGCCGGAAACCACCACCGGTGGTAAGGCACTGAAGTTCTACGCCTCCATCCGCATCGACGTCCGCCGCATTCAGACTCTCAAAGAGGGCGCAGACTCCGTGGGTAACCGGACCAAGGCCAAGATCGTCAAGAACAAGATGGCACCGCCCTTCAAAATCGCCGAGTTCGACATCATCTACGGCCAGGGGATCTCCCGCGAGGGCGGCATTATCGACATGGGCGTCGAGCACGGCATCATCAAGAAGTCCGGTTCCTGGTTTACCTACGACGGCGATCAGCTCGGACAGGGTATGGAGAACTCCCGCAGGTTCCTTCGCGACAATCCTGAACTCGCAGCCGAACTTGAACGTTTGATCAAGGAAAAGCTCGGCGTGGGGGTCCCCAAGCCTGCGGCCGATGAATCCAAAGACACTCCGAAGCTGAAGGCCGTTGACGGGTTCTAG	MAAAPDREKALEAALAQIDKQFGKGSVMRLGDEVRAPIEVIPTGSIALDVALGIGGLPRGRVVEIYGPESSGKTTVALHAVANAQRQGGIAAFIDAEHALDPEYAAKLGVDTDALLVSQPDTGEQALEIMDMLIGSGSLDVIVIDSVAALVPRAEIEGDMGDSHVGLQARLMSQALRKITGRLSQTKTTAIFINQLREKIGVFFGSPETTTGGKALKFYASIRIDVRRIQTLKEGADSVGNRTKAKIVKNKMAPPFKIAEFDIIYGQGISREGGIIDMGVEHGIIKKSGSWFTYDGDQLGQGMENSRRFLRDNPELAAELERLIKEKLGVGVPKPAADESKDTPKLKAVDGF	PGPT0007235_2875	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553	NA	NA
D1-29_01608	468	recX	COG2137	Regulatory protein RecX	GTGCTCCGGCAACTGACCAGCTCGGCGAAGAGCCGGCTGCAGCTGGCCCGGAAACTTGCCGAGCGGAACATCCCGGAGGATGTGGCCGAGGCTGTGCTGGACCGCTTCCAGGAAGTCCGTCTCATTGACGACGCCGAGTTCGCGGATATGTGGGTGCGCAGCCGTTCGCATTCACGCAAGCTGGCCAAAGGGGCTCTGCGCCGGGAACTTGAGGACAAGGGCGTCGCTCCGGAGACGGCAGCTGCCGCCTTGGAGCAACTCTCCGATGCCGACGAGGAAACGGCTGCCCGCCAACTCGTGGAGCGGAAACTTCGGCCGGGGACGGACCTCTCAGACCGTGCGGAACGAGACAAGGTCACGCGGCGTCTGGCTTCGATGCTGGCCCGGAAGGGTTACCAGCCGTCCCAGGCTTTCCGGATCGTCAGTGAAGTACTGGACGCCACTGCTGGCGGCCGGCAGGGCGGGTAA	MLRQLTSSAKSRLQLARKLAERNIPEDVAEAVLDRFQEVRLIDDAEFADMWVRSRSHSRKLAKGALRRELEDKGVAPETAAAALEQLSDADEETAARQLVERKLRPGTDLSDRAERDKVTRRLASMLARKGYQPSQAFRIVSEVLDATAGGRQGG	PGPT0007240_1707	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007240-recX-K03565	NA	NA
D1-29_01609	1458	miaB	COG0621	tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase	ATGAACGTCCATGATTCGGAGCGGATGGCCGGCATGCTGGAATCTGCCGGTTACGTGCCGGCCGACGGTGAGCAGGCAGACGTGGTGGTGTTTAACACCTGCGCAGTCCGGGAAAATGCCGACAACAAGCTTTACGGCAACCTGGGGATGCTCGCACCCGTTAAGGCCGCCAACCCTGGGATGCAGATCGCCGTCGGTGGCTGCCTTGCCCAGAAGGACCGGGAGACCATCCTGAAGAAGGCGCCGTGGGTGGACGCCGTGTTTGGTACGCACAACGTCGGCGCACTCCCTGCGCTGCTGGACAGGGCGCGCCACAACAACGAAGCCCAGCTGGAGATCCTCGAATCGCTCGATGTCTTCCCGTCCACGCTGCCTACAAAGAGGGACTCTGTCTACTCGGGCTGGGTGTCGATCTCCGTGGGGTGCAACAACACCTGCACGTTCTGCATCGTGCCTGCCCTGCGGGGCAAGGAAAAGGACCGTCGGCCCGGCGACATCCTCGCCGAAATCCAGGCGCTGGTGGATGACGGTGCCATCGAAGTGACGCTCCTCGGGCAGAATGTCAACTCGTACGGTGTGGAGTTCGGGGACAGGCAGGCATTCTCCAAACTGCTCCGCGCGTGCGGCGAGATAGAAGGCCTGGAACGGGTTCGGTTTACCAGCCCGCATCCAGCGGCCTTCACCGATGATGTTATTGATGCCATGGCCGAAACGCCTAACGTGATGCCCCAGCTGCATATGCCACTGCAGTCAGGTTCAGACAAAGTTCTCAAGGACATGAAACGGTCCTACCGGTCCACCAAATTCCTTGGCATTCTGGACAAGGTCCGGGACAAGATCCCACATGCCGCCATCTCCACGGACATCATTGTCGGCTTCCCCGGCGAAACCGAAGAGGATTTCCAGGCCACGCTGGACGTTGTGGAGAAATCACGGTTCGCCACCGCGTTTACCTTCCAGTACTCGAAGCGGCCAGGCACTCCGGCCGCTGATCTTCCTGACCAGCTGCCCAAGGCCGTGGTGCAGGAGCGCTTCGAACGCCTCACCGCGCTCCAGGACAGGATCGCAGCAGAGGAGAACGCCAAACAGCTCGGCCGCCGCGTGGAAGTAATGGTGACAGCCCAGTCAGGCCGTAAAGCCGAAGAAACCCACCGGCTCTCCGGACGTTCCCAGGACCAGCGGCTGGTGCACTTCTCCGTACCTGTTGGTGCCCCGGCGCCCCGCCCTGGTGATCTCGTCACCGTCACCATTACCGAAGCCGCAGCTTTCCACCTTGTGGCCGATCCCGCTGCCGGTGACTACGTCCTTCGCCGGTCCCGTGCCGGCGACGCCTGGGACAGGTCGCAGGCAGATTCCTGCGGTGCCCCTGCACCAGGATCGATCGGGGGACAAGGCAACGGCGCCGGCCGCACGGGCGTTTCGCTGGGGATGCCGACGCTGCCGGTACGCAGCCGCTGA	MNVHDSERMAGMLESAGYVPADGEQADVVVFNTCAVRENADNKLYGNLGMLAPVKAANPGMQIAVGGCLAQKDRETILKKAPWVDAVFGTHNVGALPALLDRARHNNEAQLEILESLDVFPSTLPTKRDSVYSGWVSISVGCNNTCTFCIVPALRGKEKDRRPGDILAEIQALVDDGAIEVTLLGQNVNSYGVEFGDRQAFSKLLRACGEIEGLERVRFTSPHPAAFTDDVIDAMAETPNVMPQLHMPLQSGSDKVLKDMKRSYRSTKFLGILDKVRDKIPHAAISTDIIVGFPGETEEDFQATLDVVEKSRFATAFTFQYSKRPGTPAADLPDQLPKAVVQERFERLTALQDRIAAEENAKQLGRRVEVMVTAQSGRKAEETHRLSGRSQDQRLVHFSVPVGAPAPRPGDLVTVTITEAAAFHLVADPAAGDYVLRRSRAGDAWDRSQADSCGAPAPGSIGGQGNGAGRTGVSLGMPTLPVRSR	PGPT0007215_359	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168	NA	NA
D1-29_01610	912	miaA	COG0324	tRNA dimethylallyltransferase	GTGGTTCACCCACCCGTTATCGCCGTCGTCGGTCCAACAGGGTCAGGGAAATCTGATCTTGCCGTCAGCCTTGCCCTCGAGCTGGACGGGGAGGTCATCAATGCCGACGCCATGCAGTTCTACCGCGGTATGGACATCGGGACTGCGAAGATCAGCATGGCGGAGCGCCGGGGCGTACCCCATCACCTCCTGGACACGATGGACGTCACTGAGGAAGCCAGCGTCTCTGACTTTCAGCGGCTCGCCCGGCAGCTCATTGAAAGCATCCATTCCCGCGGTAAACGGGCCATCCTGGCCGGCGGTTCCGGGCTCTACATCCGTGCTGCACTGGACATCCTGGAGTTCCCCGGCACCGATCCGCATATCCGGAAACAGCTGGAAGCCGAGCTCGAAGAGGAAGGCAGCGAGGCCCTTCTGGCACGCCTTCGCGAAGTGGATCCCGTGTCTGCCGCCCGCCTGTCCGACGCCCGCAGGATCGTCAGGGCACTTGAGGTCCACCAACTGACGGGCAGGCCCTTCAGCTCGTTTATGCCCCAGCGCGAGTACTTCCAGCCGGCTGTCCAGATCGGACTGGCTGTGGACAGGGAGGTGCTTCGTGACAGGCTTGCCCGGCGGGTCCACGGAATGGTGGAGGGAGGGCTGCTCGACGAGGTGCGCCGGCTCGATGCGGCTGGCCTGCGCCGCGGAAAGACCGCTCCTCGGGCATTGGGATACTCCCAGTTCCTCAAGGTGCTCGACGACGAAGCCACCGTGGAGGAGGCAACGGAGGAAACCATCGTGGCCACCCGGCAGTTCGCCAGGCGCCAACTCACGTGGTTCCGGGCCGATCCCCGGATCAGCTGGCTGGACTGGCAGGATCCTGAGCTTCTGCCCAAGGCCGTCCACATCGTCAAGACACAACCGGGCACCTGA	MVHPPVIAVVGPTGSGKSDLAVSLALELDGEVINADAMQFYRGMDIGTAKISMAERRGVPHHLLDTMDVTEEASVSDFQRLARQLIESIHSRGKRAILAGGSGLYIRAALDILEFPGTDPHIRKQLEAELEEEGSEALLARLREVDPVSAARLSDARRIVRALEVHQLTGRPFSSFMPQREYFQPAVQIGLAVDREVLRDRLARRVHGMVEGGLLDEVRRLDAAGLRRGKTAPRALGYSQFLKVLDDEATVEEATEETIVATRQFARRQLTWFRADPRISWLDWQDPELLPKAVHIVKTQPGT	PGPT0007210_5103	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791	NA	NA
D1-29_01611	945	dapF	COG0253	Diaminopimelate epimerase	ATGGACGCAACCCTTTCCGAGACCACTCAGCCCGCCCTCAGCTCACTGGGCGGACTGCGGTTCTCCAAGGGCCATGGCACCGGCAACGACTTTGTACTGATCGCCGATCCCGAGGGCGTCCAAGCAATCGATCCGGACCAGGTGGCCACCCTGTGCGACAGGCACCGTGGCATCGGGGGCGACGGACTGATCCGGGCCGTGCCCTCACGGTTCCTCCCCGAAGGCAGGGAACTGCTGGCCCAAGCCCCTGACGCCGAGTGGTTCATGGATTACCGCAACGGCGACGGTTCGCTGTCCGAGATGTGCGGCAACGGGGTCCGTGTCTTTGTGCACTTCCTCCTGGCCGAGGGCCTGGTGGACCTGCCCGAAGGCGGCGCACTGACCATCGGAACACGCGGTGGCGTCAAGACCGTGGTCCGGACGGGAAATGGCTACGCCGTTGACATGGGCCCGTGGGAGTTCATTTTTCCGGGGGATGCCACCGCCAAGGCCATGGATTCCCTGGTCAGCGCCGACGGCCTCGATGTACCCCGGCCTGCCCTCTCAGTCAGCATGGGCAACCCGCATACTGTCGTTGCGCTTGCTGAATTCTCGGAGCTTGAGGCAACCCGGCTTTTCACGCCTCCCCGCGTTGATCCGGTGCCTGCAAACGGGACCAACGTTGAGTTCGTCGTCCCCGCCGAACCCCTGGTTCATAACGGCGTGGGCATGGTGACCATGCGCGTCCACGAACGGGGTGTAGGCGAAACACAATCCTGCGGCACTGGCGCCTGCGCCGCCGCGGTGGCCATCAGGCACTGGGCCGGAGCCGAGGCGCCTGACACCTGGAACGTCAAGGTGCCCGGGGGCGTCGTCGGCGTTAAGTTCTTTATCGGACCGGGCGGGCACGAGCACGTAGAACTCAGCGGACCGGCCGTGATCGTAGCTAGCGGGACGCTTTCCTGA	MDATLSETTQPALSSLGGLRFSKGHGTGNDFVLIADPEGVQAIDPDQVATLCDRHRGIGGDGLIRAVPSRFLPEGRELLAQAPDAEWFMDYRNGDGSLSEMCGNGVRVFVHFLLAEGLVDLPEGGALTIGTRGGVKTVVRTGNGYAVDMGPWEFIFPGDATAKAMDSLVSADGLDVPRPALSVSMGNPHTVVALAEFSELEATRLFTPPRVDPVPANGTNVEFVVPAEPLVHNGVGMVTMRVHERGVGETQSCGTGACAAAVAIRHWAGAEAPDTWNVKVPGGVVGVKFFIGPGGHEHVELSGPAVIVASGTLS	PGPT0007230_501	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
D1-29_01612	615	rsmC	COG2813	Ribosomal RNA small subunit methyltransferase C	ATGGAGTCCGCACACTATTTCAGCGCATCGCCCGCCGGGCCTTTCACCCGCAAACCGCTTACTGTGGAACTCGCCGGGGAGACGCGCAGGCTGCAGACTTCCGCGGGGATTTTCAGCCCGGAGGGTATCGATAAGGGAACTGCCGTGCTGCTCGCCGAAGTTCCGGCTCCCTCGCCCACAGGCAATCTCCTGGACATCGGCTGCGGATGGGGCCCGATAGCACTCACAATGGCTCTCCGTGCCCCGCACGCGCACGTTTATGCAGTGGACGTGAATGAACGCTGCATCACCCTGACGAACGAAAACGCCCGGATCCTTGGCCTGGACAATGTCACTGCCACCACGCCGGAAGGCGTGGACGCCGATGTGCGCTTCGATACAATCTGGTCCAATCCGCCCATCCGCATTGGTAAAGACGAACTCCATTCGCTGCTGAAGCTCTGGCTCCCGCGGCTGGCGCCAGGCGGCTCGGCCTGGCTGGTGGTCCAGAAAAACCTGGGCTCGGACTCCCTTCAGCGCTGGCTGTCCACAGAGCTTGATGAATCGTTCACGGTCAGCCGTGAGTCCACGTCCAAGTCCTTCCGGATCCTGCGTGTCAGGAAAGCGTCCCGCTAG	MESAHYFSASPAGPFTRKPLTVELAGETRRLQTSAGIFSPEGIDKGTAVLLAEVPAPSPTGNLLDIGCGWGPIALTMALRAPHAHVYAVDVNERCITLTNENARILGLDNVTATTPEGVDADVRFDTIWSNPPIRIGKDELHSLLKLWLPRLAPGGSAWLVVQKNLGSDSLQRWLSTELDESFTVSRESTSKSFRILRVRKASR				NA	NA	NA	NA	NA
D1-29_01613	1569	hflX		GTPase HflX	ATGACCAGCCAGCCCAACACCGGATCCGATCCAGCAGCCCAGGACATGAGTCCTGAGGAAATACAAGCTGTCATCGACCGGATTCTCTCCAAGGATGTACCGGCCAGGAACGCCGCTCCCGCAGACGGCGACACGAAGGCCGTTTTTGGCAAAGCCCAGGCAATATCGCGTCTGGACGAAGAGCACACCAGCTACGACGGCGACCAGCAGGACCTCGAGGAACGCCGGGCGCTCCGGCGTGTGGCGGGCCTGTCGACAGAACTCGAAGACGTCACCGAGGTCGAGTACCGGCAGCTCCGGCTGGAGCGGGTGGTACTGGCCGGGCTCTGGACGGAAGGGACCCTGGCTGATGCCGAGAATTCCCTCCGTGAACTTGCCGCGTTGGCTGAAACCGCCGGCTCGGAGGTCTTGGATGGCCTGGTGCAGCGCCGTGCCAAACCAGATCCAGGGACTTTCCTGGGCTCCGGAAAGGCGCTTGAGCTCAAGGACGTCGTGATGGCCACCGGCGCGGACACTGTGGTGGTGGACGCCGAGCTGGCCCCGTCACAGCGCCGTGGCCTGGAAGACATCGTCAAGGTTAAGGTCATTGACCGTACGGCGCTGATCCTGGACATCTTCGCCCAACATGCGAAGAGCCGCGAGGGCAAAGCCCAGGTGGAACTCGCCCAGCTCGAATACCTCCTGCCGCGCCTGCGTGGCTGGGGCGAATCGATGTCCCGCCAGGCCGGTGGCCAGGTGGGTGGGGCCGGTGCCGGCATGGGCTCGCGCGGTCCCGGCGAGACGAAGATCGAACTGGACCGCCGCCGAATCAGGACCCGCATGGCCAAACTGCGGCGTGAGATCAGCGCCATGAAGCCTGCGCGGGAAACCAAACGGGCCAACCGGCGTCGGAATTCTGTCCCGTCCGTTGCTATCGCCGGGTACACCAATGCCGGAAAGTCATCCCTGCTGAACAGGCTGACCGATGCCGGCGTCCTCGTGGAAAATGCTCTCTTCGCCACGCTGGATCCCACGGTGCGCAAGGCCGAAACCGCAGACGGGCTGGGCTACACCCTGGCCGATACTGTCGGCTTCGTCCGCTCGCTTCCGACTCAGCTGGTGGAGGCGTTCCGTTCCACGCTGGAGGAGGTGGCGGACGCAGACCTGATCCTGCACGTTGTGGACGTCTCGCACCCGGATCCGGAAGGCCAGATCGCGGCGGTCCGGAAGGTCTTCAGCGAGGTGGATGCCCGCAAGGTACCTGAAATCATCGTGCTCAATAAGGCCGACGCCGCCGATCCCTTTGTGGTGGAGCGCCTTAAACAGCGTGAACCCCGCCATGTGGTTGTCTCTGCGCGGACCGGCGAGGGGATCGCTGAGCTGCTCAAAGCCATCAGTGACGCCATTCCGCGCCCCAGCGTCAAGCTGGAGCTCCTCATCCCGTACAACCGGGGTGACCTGATCAGCAAACTGCACGAGACCGACGCCGAGATCCTGAGCCTGGATCACGGTGAGGACGGCACCCGTGCTGTGGTGATGGTCCGTGAAGGCCTCGCGGCTGAACTGGAATCATTCACCAGCAATGACTGA	MTSQPNTGSDPAAQDMSPEEIQAVIDRILSKDVPARNAAPADGDTKAVFGKAQAISRLDEEHTSYDGDQQDLEERRALRRVAGLSTELEDVTEVEYRQLRLERVVLAGLWTEGTLADAENSLRELAALAETAGSEVLDGLVQRRAKPDPGTFLGSGKALELKDVVMATGADTVVVDAELAPSQRRGLEDIVKVKVIDRTALILDIFAQHAKSREGKAQVELAQLEYLLPRLRGWGESMSRQAGGQVGGAGAGMGSRGPGETKIELDRRRIRTRMAKLRREISAMKPARETKRANRRRNSVPSVAIAGYTNAGKSSLLNRLTDAGVLVENALFATLDPTVRKAETADGLGYTLADTVGFVRSLPTQLVEAFRSTLEEVADADLILHVVDVSHPDPEGQIAAVRKVFSEVDARKVPEIIVLNKADAADPFVVERLKQREPRHVVVSARTGEGIAELLKAISDAIPRPSVKLELLIPYNRGDLISKLHETDAEILSLDHGEDGTRAVVMVREGLAAELESFTSND	PGPT0007245_568	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
D1-29_01614	2064	dinG_1	COG1199	putative ATP-dependent helicase DinG	ATGACTGAGCTGGTGGCGGGGGATATTTCGGAAACGGCCGGCGAGGAGTTCGTGATAGAACTCCTCGACCGCGCCGTTGCCGGCATGGGAGGGCAAAGCCGGACAGGCCAGCATGAGATGGCCCGTCAGGTGGCACGGGCCATCGAAACCGGCGACCATCTCCTGGTCCAGGCCGGAACCGGCACCGGGAAGTCGCTGGCGTACCTCATCCCGCTCATCGCGCATTCCCTGGTGAGTAGCAAGCCCACCCTGGTCTCCACCGCAACCCTGGCACTGCAGACCCAGATCGTGGGCCGTGACCTGCCCCGCCTGCTCAAGACCATCACGCCCGCCCTGGACCGCCCGGTCAAGGTGGCGTTGGTCAAGGGACGTTCCAACTACGTGTGCCGGCACAAGCTCGAAGGTGGGTTCCCTTCGGAAGAGCCCGCCGAAGGCCAGCTCTTCTCCCTCGGCGAGGACACCAGTGTGCCGCACTTCGCCGCAGCCCTGGGCGGTCCGGCATCCCAGCTGGGCAAGGAAGTGGTGCGCCTGCGTGAGTGGGCGGAAAAGACTGCCACGGGTGACCGTGACGAGCTGCTTCCCGGCGTCACCGATCGCGCCTGGCGTCAGGTGTCCGTCACCTCGATGGAGTGCCTGGGGGCGCAGAAATGCCCCCTGGCAGCGGAGTGCTTCAGCGAACTGGCGCGCCAGGACGCTGCCGAGGCCGACGTCGTGGTGACGAATCACGCCATGTTGGCAGTCAGTGCTTTCGAAGGACTGGCCGTCCTGCCCGAATACGACGTGGTGGTGGTGGATGAGGCCCACGAACTCCAGGACCGCGTTACCGGCGCAGTATCGGGGCAGCTTTCCGTTGCCATGGTTCACGCTGCCGCAGCCGGTGCCCGTAAGCACACTGCCATCACTGTCGATGCCCTGAATGCGGCGGCCGCCAATCTTGAAGTTGCCCTGGCCGGCGTCCCCAACGGGCTGCTCCCGAACGGCCTGAACGATGAACAGCTGGACTGCGTTGACCAGCTCCGTGAGGCTTGCCGGGCAGCCCTGTCGGATTCAAAAGGGGACAGCAGTACAACGGCCGACGGCGGGCGGCAGCTTGCCCGGTCCCGGCTCCTGCTGATTCTTGAACTTTGCGAACGGCTCATTGCGGCGAAGGACAACCGTGAAGTGGTGTGGTTTTCGCGCGCCAGCTCGTTTGATCCCCAGCAGGGCTATTCACAGCCTGATGAAAGTGCACCGGTTTTGGTCAACATCGCCCCGCTCAGTGTTGCCGGCAAGCTGCGCGAAGGACTCTTTGCCGGCCATACCGTTGTGCTCACGTCAGCCACGCTCGCCATCGGGTCCGCCTTCGAGCCGACGGCCGGGGGACTGGGGCTGATAGGGGAGGGTGCTCCCAGCTGGACAGGAGTGGACGTAGGGTCCCCCTTTGACTATCCAAAACAGGGGATCCTCTACGTTGCCGGGCACCTGCCCAAACCGGGCCGGGGTGCCGCGCCGGAGGCGCTGGATGAACTCGAAGCGCTGATCCGCGCTTCCGGAGGCGGCGCCCTCTGCCTCTTCTCATCACGCCGCGCGGCCGAAGAGGCCGCAGAAGCGTTGAGGCCACGGCTCGGCCTCAGCATCCTCTGCCAGGGTGATTCCACCATGACAGCCCTGGTTAAGCAGTTCGCCGACGAGCCCGATACCTGCCTCTTCGGAACGATGTCCCTGTGGCAGGGAGTTGATGTCCCGGGCGGATCCTGCCGGCTCGTGGTTATTGACCGGATACCGTTCCCGCGGCCGGACGATCCGCTGATGACGGCACGTTCACGTGCCGTAGCCCAGGCGGGCGGAAACGGATTTATGGCTGTCTCCGCGACACACGCCGCCATCCGCCTGGCCCAGGGGGCCGGCAGGTTGATCCGATCCACGGGAGACAAGGGTGTGGTGGCGGTGCTCGATTCCCGGCTGGCAACCGAGCGTTATGCCGGTTTCCTTCGGGCTGCGCTGCCCCCCTTCTGGCCGACGACAGACCGCAAGATAGCTTTCGCCGCCCTTGAAAGACTGGCCAAGGAAAGCCCACGGACCTGA	MTELVAGDISETAGEEFVIELLDRAVAGMGGQSRTGQHEMARQVARAIETGDHLLVQAGTGTGKSLAYLIPLIAHSLVSSKPTLVSTATLALQTQIVGRDLPRLLKTITPALDRPVKVALVKGRSNYVCRHKLEGGFPSEEPAEGQLFSLGEDTSVPHFAAALGGPASQLGKEVVRLREWAEKTATGDRDELLPGVTDRAWRQVSVTSMECLGAQKCPLAAECFSELARQDAAEADVVVTNHAMLAVSAFEGLAVLPEYDVVVVDEAHELQDRVTGAVSGQLSVAMVHAAAAGARKHTAITVDALNAAAANLEVALAGVPNGLLPNGLNDEQLDCVDQLREACRAALSDSKGDSSTTADGGRQLARSRLLLILELCERLIAAKDNREVVWFSRASSFDPQQGYSQPDESAPVLVNIAPLSVAGKLREGLFAGHTVVLTSATLAIGSAFEPTAGGLGLIGEGAPSWTGVDVGSPFDYPKQGILYVAGHLPKPGRGAAPEALDELEALIRASGGGALCLFSSRRAAEEAAEALRPRLGLSILCQGDSTMTALVKQFADEPDTCLFGTMSLWQGVDVPGGSCRLVVIDRIPFPRPDDPLMTARSRAVAQAGGNGFMAVSATHAAIRLAQGAGRLIRSTGDKGVVAVLDSRLATERYAGFLRAALPPFWPTTDRKIAFAALERLAKESPRT				NA	NA	NA	NA	NA
D1-29_01615	756	lexA	COG1974	LexA repressor	ATGGCAGCACCAGCCGCCGACGGCAGGGCGACCCAGAGGGGTCGGCAGCCCCAGAGGGTCCCGAAGGGGCTTACAGCACGCCAGAAAAAGATCCTGGAAACAATTCAGCGCTCGGTCAATGACAACGGGTATCCGCCATCCATGCGCGAGATCGGCGACACCGTGGGCCTGGCAAGCCTGTCCAGCGTCACGCACCAGTTGTCGCAGCTCGAGAAACTGGGCTACCTGCGGCGCGATCCCAAGCGGCCACGGGCCATGGAGGTCCTGATGCCGCTCACCCTGGACGGCGGCACGGCCAAACCGGCGGGATCAGCATCGGCCAAGCCTCCGGTTTTGCGCAGCGTTGATGGCGGGACGGTTATGGATCTGCCCACTGCCATGGACACCGCCATGGTGCCCCTTGTAGGCCGGATCGCAGCCGGTGGCCCGATTCTTGCCGACCAGCTGGTTGAGGACGTCATGCCGCTGCCGCGTCAGCTGGTGGGCCAGGGCGAACTGTTCATGCTGCGGGTTGCCGGGGACTCAATGGTTGACGCTGCGATCTGCGACGGCGATTGGGTAGTTGTCCGGCGCCAGGCGGACGCCGCCAACGGCGATATTGTCGCAGCCCTGCTGGACGACGAAGCCACGGTGAAGACTTTCCGCCAGCGGGACGGCCACACGTGGCTTCTCCCACAGAACACCCAGTACGAGCCCATTCTCGGAGACCACGCCACCATCATGGGCAAGGTCGTCTCAGTTTTGCGCTCTCTGTAG	MAAPAADGRATQRGRQPQRVPKGLTARQKKILETIQRSVNDNGYPPSMREIGDTVGLASLSSVTHQLSQLEKLGYLRRDPKRPRAMEVLMPLTLDGGTAKPAGSASAKPPVLRSVDGGTVMDLPTAMDTAMVPLVGRIAAGGPILADQLVEDVMPLPRQLVGQGELFMLRVAGDSMVDAAICDGDWVVVRRQADAANGDIVAALLDDEATVKTFRQRDGHTWLLPQNTQYEPILGDHATIMGKVVSVLRSL	PGPT0014895_342	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356	NA	NA
D1-29_01616	417			hypothetical protein	ATGTCAGCTATATCCGCTTCACAGGCTCGCCATCCGCAGCTCGTCTCCGTCCAGCAGCTCACGTCCCTGCTGGATGCGGAATCGCAGCCCCGTAAGGAACCCCTGCCGCCGCTCCGGCTCACGCGCCGGGGGCGGATCGTGCTCATTGGTATTCCCCTCATCCTCCTGGCTGCGCTGCTGCTGTCCCTGGTGGGCTTTCTTAACGCCCCGGCGAAGGCGGCAGACTCCACCGCCGGCCTGGCCCTGACGCCCACGGTGTCAGTTACCGTTCAGGGCGGGGAGTCGTTGTGGGGTATCGCCGCCACAGTTGCGCCGGATCGTGATCCCCGGGATGTCATCGCGGATATCGTTCAACTCAACAACCTCAGCGCGGGGACCGTTGTGCCGGGGCAGCAGCTGTTCGTCCCTACCAAATAG	MSAISASQARHPQLVSVQQLTSLLDAESQPRKEPLPPLRLTRRGRIVLIGIPLILLAALLLSLVGFLNAPAKAADSTAGLALTPTVSVTVQGGESLWGIAATVAPDRDPRDVIADIVQLNNLSAGTVVPGQQLFVPTK				NA	NA	NA	NA	NA
D1-29_01617	1119	hisC_2	COG0079	Histidinol-phosphate aminotransferase	GTGAATGACCAGCTAGAGCGTCTGAACCGTCTTCCCCTCCGGAGCAACCTCCGCGGGCTGACCCCTTACGGTGCCCCGCAACTGGATGTGCCCATCCTGCTGAACGTGAACGAAAACACCCATGGTGTTCCCGCGGACGTGCGCGCCGCCATCACTGAAGCCGTGACGGAAGCCGCTGCCGGTTTGAACCGCTACCCGGACCGCGAATTCAGCGAACTCCGGGAGGCCCTGGCTGAATACCTGGGCCACGGCCTGAACTCCACCAACATCTGGGCGGCGAACGGCTCGAATGAAGTGCTCCAGCAGGTCCTTCAGGCCTTCGGTGGCCCGGGACGCAAGGCCCTCGGGTTCCCGCCCACGTATTCCATGTACCCGCTGCTGGCCAGCGGTACTGACACTGAGTACATTGTGGGCCAGCGCGCTGAAGGCTATGGGCTGAGCGCGGAATCGGCCGCCCTGCAGGTCAAGGAACTCCAGCCAAACATTGTTTTCCTCTGCTCACCCAACAACCCCACCGGCACCGGCCTTGGCCTGGATGTGGTGGAGGCGGTGTACTCCGCGGGTGAGGCCAGCCAGACCATAGTTATCGTTGACGAGGCCTACCACGAGTTTGCCCATGACGGTACTCCCAGTGCCCTGACGCTGCTGCCCGGCCGGGAACGCCTTATTGTCACCAGGACCATGAGCAAGGCCTTTGCACTGGCAGGCGCTCGCCTGGGCTACATGGCCGCGGCGCCCGAAGTGACAGATGCCCTCCGGCTGGTGCGGTTGCCGTACCACCTGTCGGCCGTCACCCAGGCCACCGCCCTCGCAGCCCTCCGCCACCGCGAGGCACTTATGGCAGACGTTGAGGACATCAAGAAACAGCGGGACCGGATCGTCGCCGAGCTGACCAGGATGGGCCTGACGCCGGCCGCCTCTGATTCCAACTACGTCTTTTTCGGGGGACTGGAACGGCCCCATGCTGTCTGGCAGGAACTGCTGGACGCCGGCGTGCTGATCAGGGACGTCGGCATCCCCGGCCATCTGCGTGTCACCGCAGGCACTGAGAGCGAGACCACAGCGTTCCTGACCTCCCTGGAAAGCATCCTGGCCAGCCAGGCCAAACTCCCCGCCTAA	MNDQLERLNRLPLRSNLRGLTPYGAPQLDVPILLNVNENTHGVPADVRAAITEAVTEAAAGLNRYPDREFSELREALAEYLGHGLNSTNIWAANGSNEVLQQVLQAFGGPGRKALGFPPTYSMYPLLASGTDTEYIVGQRAEGYGLSAESAALQVKELQPNIVFLCSPNNPTGTGLGLDVVEAVYSAGEASQTIVIVDEAYHEFAHDGTPSALTLLPGRERLIVTRTMSKAFALAGARLGYMAAAPEVTDALRLVRLPYHLSAVTQATALAALRHREALMADVEDIKKQRDRIVAELTRMGLTPAASDSNYVFFGGLERPHAVWQELLDAGVLIRDVGIPGHLRVTAGTESETTAFLTSLESILASQAKLPA	PGPT0020305_2008	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
D1-29_01618	627	hisB	COG0131	Imidazoleglycerol-phosphate dehydratase	ATGAGTTCCACCGGATCGAACGCTGCCCAGGGCCGGACCGCCAGCATGGAGCGCGCCACCAGTGAATCGTCAGTGCTCGTGGAGATCAACCTTGACGGAACCGGCGTTTCGGACATCGACACATCGGTCCCGTTCTATGACCACATGCTGACGGCGCTGTGCAAGCACTCCCTCATCGACATGACAGTCAAGGCAACCGGTGACATCCACATCGACGTGCACCACACGGTAGAGGACGTGGCCATCACTTTCGGCGAGGTCCTTCGCACGGCACTGGGCAACAAGGCCGGGATCCGCCGCTTTGGTGAAGCCACGGTGCCGCTGGATGAGGCGCTGGCGCACGCGGTGGTGGACGTTTCCGGACGTCCGTACCTGGTGCACGGCGGTGAGCCGGCGGGACAGGAATATCACCTGATCGGCGGCCACTTCACCGGCTCGCTCACACGCCACGTGTTTGAGGCGATCACGCTTCACGCCGGCATTTGCCTCCACATGAACGTCATTGCCGGCCGGGACCCGCACCACATCGTGGAAGCGCAGTTCAAGGCATTCGCCCGGGCGCTGCGCGCAGCTGTCGAGCCTGATCCGCGCGTGGAGGGAATTCCTTCCACCAAGGGTGCGCTGTGA	MSSTGSNAAQGRTASMERATSESSVLVEINLDGTGVSDIDTSVPFYDHMLTALCKHSLIDMTVKATGDIHIDVHHTVEDVAITFGEVLRTALGNKAGIRRFGEATVPLDEALAHAVVDVSGRPYLVHGGEPAGQEYHLIGGHFTGSLTRHVFEAITLHAGICLHMNVIAGRDPHHIVEAQFKAFARALRAAVEPDPRVEGIPSTKGAL	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
D1-29_01619	753	hisH		Imidazole glycerol phosphate synthase subunit HisH	GTGAGCGGGCAGATTCTTCGTGACGGTGCCGTGATCGATCCGGAGTTGTTGATCAAGCCCGCGTCGCCCGAAGGCAAGCCCACCGTTACGGTGCTGGACTACGGCTCCGGGAACATCCGCTCTGCGGTGCGCGCGCTCGAACGCGCAGGAGCAGAGGTCATCCTCAGCGCCAAACCGCAGGACGTGCTCAATGCCGACGGCCTGGTGGTGCCCGGCGTCGGCGCCTTTGAGACCGTCATGCGGGAATTGAAGGCCGTTGATGGCATCCGCCTGATTGGCAGGCGTGTCGCCGGTGGCCGGCCCGTCCTGGGCATTTGCGTGGGCCTGCAGGTCCTGTTCGAAGCCGGCGTTGAGCATGGAACTGAAGCTGAAGGCATGGGGGAGTGGCCGGGGAAAGTGGAGCTCCTCCCCGCCGACGTGGTGCCGCACATGGGCTGGAATACCGTGAAGGTTCCGGAAGGATCGAGGCTCTTCGCCGGTGTGGAGGAGGAGCGCTTCTACTTTGTCCACTCGTACGGCGTCCAGGAATGGAACTTCGACGTGGTGCAGCCGCGGATGGCGGCGCCGCTGGTGACGTGGTCCGAGCACGGTGCCCCCTTCATCGCCGCGGTGGAGAACGGGCCGCTCTGTGCCACCCAGTTCCACCCGGAAAAGTCCGGCGACGCCGGGGCACGTCTCCTGCGCAACTGGGTGGACGGACTCCGCAAGCCTGCGCGGCAAGACGGACCAGCACAACAAGACGGATCAGCCTAA	MSGQILRDGAVIDPELLIKPASPEGKPTVTVLDYGSGNIRSAVRALERAGAEVILSAKPQDVLNADGLVVPGVGAFETVMRELKAVDGIRLIGRRVAGGRPVLGICVGLQVLFEAGVEHGTEAEGMGEWPGKVELLPADVVPHMGWNTVKVPEGSRLFAGVEEERFYFVHSYGVQEWNFDVVQPRMAAPLVTWSEHGAPFIAAVENGPLCATQFHPEKSGDAGARLLRNWVDGLRKPARQDGPAQQDGSA				NA	NA	NA	NA	NA
D1-29_01620	159			hypothetical protein	ATGTGGTCCATCCTCCTGATGGGCCTCGCGGGGCTCCTCGTGGGCGGAGCCCTGTCCTTCAGGCAGCAGCACAAACCCCTCTGGACCCAGATCTGCTTCTACATCCTTGCGGGCATGTCACTTCTGACCGCCTACCTCCTTTCCCTGCCCGCCACCTAG	MWSILLMGLAGLLVGGALSFRQQHKPLWTQICFYILAGMSLLTAYLLSLPAT				NA	NA	NA	NA	NA
D1-29_01621	747	hisA	COG0106	1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase	ATGACCACCGCACATGATCTGCCGGTTCTTGAACTGCTGCCAGCCGTCGACGTCGTAAACGGCCAGGCCGTCCGGTTGGTGCAAGGCGAGGCAGGCAGCGAAACCAGTTACGGCACACCGCTGGAGGCGGCCCTGAACTGGCAGGAGCAAGGCGCCGAATGGGTGCACCTCGTGGACCTCGACGCGGCGTTCGGCCGTGGTTCGAATGCAGAACTGCTCCGCGAGGTGGTGGGCCGGCTGGACATCCATGTGGAGCTCTCAGGCGGACTTCGGGACGACGAGTCACTGGAGGCGGCCCTGGACCTGGGTGTGGCACGGGTGAACCTTGGTACTGCGGCGTTGGAAAACCCTGACTGGACCCGCCGGGCCATTGACCGCTTCGGCGACCGGATCGCCGTCGGCCTTGATGTCCGCGGGACCACCCTGGCAGGCAGGGGCTGGACAAAGGAAGGCGGGGACCTTTGGGAGGTCCTGGGCAGGCTTGAAGAGGCTGGGTGCTCACGCTACGTCGTGACGGATGTTACGAAGGATGGCACGCTGCAGGGGCCCAATGTTGAGCTGTTGCGCCAGATGGTGGAAAAGACGGGTAAGCCTGTGGTGGCATCCGGCGGCATCTCCAGCCTGGACGACCTGAAGGTCCTTCGCTCGCTGGTTCCGCTGGGCGTGGAAGGGGCCATCGTTGGCAAGGCCCTGTACGCGGGGGCCTTCACCCTGCCCGAGGCACTCGACGTCGCCGGCCGCCGCTAG	MTTAHDLPVLELLPAVDVVNGQAVRLVQGEAGSETSYGTPLEAALNWQEQGAEWVHLVDLDAAFGRGSNAELLREVVGRLDIHVELSGGLRDDESLEAALDLGVARVNLGTAALENPDWTRRAIDRFGDRIAVGLDVRGTTLAGRGWTKEGGDLWEVLGRLEEAGCSRYVVTDVTKDGTLQGPNVELLRQMVEKTGKPVVASGGISSLDDLKVLRSLVPLGVEGAIVGKALYAGAFTLPEALDVAGRR				NA	NA	NA	NA	NA
D1-29_01622	897			hypothetical protein	GTGGACTCCAGCAGCAACGGTCAGACCGCTGGCAGCAGTCCGGCACAGCGCCACCTCCCCGGGCACATAGCCGCAGCCCTTGCCGGCGCGGGCGGATCCACCGATTCCGCCGGCCAGCCCTGGGAGGGCCGGAGCCTGGCTGGGGACGATGCCAAGATCCACAGCTTCGAGGACGACGACGGAGCTCCCGACGCCGGCTACGTCGCCGCGGTCCGGGGACTCCTGGACGGCAGCGGCGATGAAGCGTCAGTGGTGGCTTCCCTTGCCACCGCCAGGGTCTTTATCCCCATCATTGCCCAGCTCGCTGAAGAAGCGCAGGCAGTGGATGGTTTGTCGGCAGACAAGCAGGCCGACATGGCGCTGGTAACTCTCAGGGCTGCCGACGGCAGGACGGCCCTGCCGGCTTTTACGTCGGCGCAAGCACTGGCCGCCTGGCACCCGGAGGCGCGGCCCGTGGCCGTATATGCGGCCCGTGCTGCCCTGTCCGCAGTGGCGGAAGGTGCCGAACTCCTGGTCCTTGACCCGGGCTCGGACGTCACCTTTGTGGTGCGCCGGCCGGCGGTGTGGGCACTGGCGCAGCAGCGTGACTGGGTTCCTTCCTACGCTGACGAAGCCCTCGCCGCGGAACTTTCCGAGGCCGCGGCCGCCTTTCCTGCTGTGCGCCGTGTGGGGCTCCTGCCAGGGGCAGGCATCGCCACAACCACACGCGCGGGAGCCGAACTGTCCGGCGGAGGGTCCGGGCCAGAGCTGCAGGTGGTGCTGTACCTCGAGGATGGCCTTGACGCTGCGGCCGTGCGGGAGCTGGTGGCGGACCTCCAGGCGGCGTGGTCCCGGAATGTATTGTTTGGTGAGCGGGTTGACTCCATCGAAATCAAGTTAAGGCGCGCAGCACACTAG	MDSSSNGQTAGSSPAQRHLPGHIAAALAGAGGSTDSAGQPWEGRSLAGDDAKIHSFEDDDGAPDAGYVAAVRGLLDGSGDEASVVASLATARVFIPIIAQLAEEAQAVDGLSADKQADMALVTLRAADGRTALPAFTSAQALAAWHPEARPVAVYAARAALSAVAEGAELLVLDPGSDVTFVVRRPAVWALAQQRDWVPSYADEALAAELSEAAAAFPAVRRVGLLPGAGIATTTRAGAELSGGGSGPELQVVLYLEDGLDAAAVRELVADLQAAWSRNVLFGERVDSIEIKLRRAAH				NA	NA	NA	NA	NA
D1-29_01623	1377			hypothetical protein	GTGAATTTCGCTCTGTACCGGGATCTGTTGGCGGTGCGGCCCATCAGGCGGCTGCTGCTGGTCGGCATGATTGCCCGTATACCCCATTCAGCCGCAGGCGTGCTGCTGACCCTGCACATTGTCCTCACCCTGGATAAAGGCTATGCCGCGGCCGGAGCTGCGGCGGCGGTGATGACCATCGGCATCGCCGTGGGAGCCCCGTGGCGCGGCCGCCGCGTTGACATCGTGGGCCTGCGTAAAGCCCTCATCCCTTCCGTGGTGTCTGAAACTGTGATCTGGTCAGTTGTTCCCCATGTTTCCTATGAGTGGTTGCTGCCGCTGGTTTTCGTCGGAGGACTGCTCACCCTTCCGATCTTCAGTGTGGTGCGTCAGTCACTCGGAATCCTGGCCGACGGCGACCAGCGCCGCACAGCCTTTGCCCTGGATGCGATCACCACTGAAATGGTGTTTATGATCGGCCCGGCCGCCGGAGCCGTGGTGGCAACCAGCGGCTTCACTGTACTGGGGCTCACCGTCGTGGGCATATCAACATCCTTGGCCGGGTTGTTCCTGATGTGGTTCAACCCACCCACGCGAACCCCCGTCGGCACCCGGGAGGCCGATCAGCACCGTGCAGCTGATCAGCAACGCGCGGCCGATCAGCAACGCGCGGCCGAAGCTGCAGTGGTGGCAGCAGCCCCTGCCCACCTTCAGAAAGCAGCTCCAGATCTGGCACCGGCCGAACGGGCCGGAGTCAGTGGCGGATCCAAGGGAACGGCCGGAAAGCAGCCGGCGGCCGGGGGGCAGTCAGGGCTCCGGCACAAGGTGGCGCACAACTTCACCTGGTTTACGGCCACGGTAGCCTCGCTCTTCGCCGTGGCTGCCGGCGCCGGCATGGTCCTGAGCGGCACTGACGTTGGGATCGTGGCAGCCCTTGAAATCGGCGGCCACCAGGCGGAGATCGGGATCGTTTTCCTGTTCTGGTGCGCGGCCTCGGTGGTGGGCGGGGTGATCTATGGTGCCATGCACCGCCCTGTCTCTCCCATCGTGCTGTTGCTTGGGATGGCTGCCCTGACCATTCCGCTGGGATTCGCCCATGACACCTGGACCCTGGCCCTCCTGTCCATCCTGCCGGGCCTCCTCTGCGCCCCGGTCCTGTCCGCGGCCTCCGAAAAGGTGGCAGAGCTGGTGGACGAGCGGCGCCGGGGCGAGGCGATGGGCTGGTACGGCTCCGCCCTGACCGCAGGCGTTGCGCTGGGCGCGCCCCTTGCAGGGGTCTTTATCGACGGCGTGGGTTCATCAGGAGGGTTTGTATCAGTCGGCGTGGCCGGAGTGGCGCTGTGCCTCATCGGAATGCTCCTGCAGGCACGCAGGCGGCGCCGGGTGGCTTCCGCCTGA	MNFALYRDLLAVRPIRRLLLVGMIARIPHSAAGVLLTLHIVLTLDKGYAAAGAAAAVMTIGIAVGAPWRGRRVDIVGLRKALIPSVVSETVIWSVVPHVSYEWLLPLVFVGGLLTLPIFSVVRQSLGILADGDQRRTAFALDAITTEMVFMIGPAAGAVVATSGFTVLGLTVVGISTSLAGLFLMWFNPPTRTPVGTREADQHRAADQQRAADQQRAAEAAVVAAAPAHLQKAAPDLAPAERAGVSGGSKGTAGKQPAAGGQSGLRHKVAHNFTWFTATVASLFAVAAGAGMVLSGTDVGIVAALEIGGHQAEIGIVFLFWCAASVVGGVIYGAMHRPVSPIVLLLGMAALTIPLGFAHDTWTLALLSILPGLLCAPVLSAASEKVAELVDERRRGEAMGWYGSALTAGVALGAPLAGVFIDGVGSSGGFVSVGVAGVALCLIGMLLQARRRRRVASA				NA	NA	NA	NA	NA
D1-29_01624	387			hypothetical protein	ATGAGCACCCCAGACAGTAATTCATACGTTTTCGCCCCCGCCGACGCCGCCGACGACGTGAGCCAGCAAATCCGGGACATCTCCGAAGTGCCCGCCATCGAGGTCATCACCACAGCCGCAGTTCACCTCATGAGTGCTGCTGCCGTGAAGCTGGGGCTGGCTGCGGAGGACAACGCCGAGGAACTCAAGGACCTGGACGAGGCCCGGAAGCTCATCACGGCTCTCGCTGGACTGGTGACGGCGGCAGCACCCGAGATCGGCTCCCAGCATGCCGGTCCCTTGCGCGACGGCCTCCGGTCCCTGCAGCTCGCGTTCCGCGAGGAATCCATCATCCCGGACGCCCCGGGCAAAGGCCCGGGCGAGAAATACACCGGCGCCGTCAACTAA	MSTPDSNSYVFAPADAADDVSQQIRDISEVPAIEVITTAAVHLMSAAAVKLGLAAEDNAEELKDLDEARKLITALAGLVTAAAPEIGSQHAGPLRDGLRSLQLAFREESIIPDAPGKGPGEKYTGAVN				NA	NA	NA	NA	NA
D1-29_01625	1131	infC		Translation initiation factor IF-3	GTGGAATACCACAACAATCACAGGAGCTTTAACATTAGCGAGCCAAGAATCAATGAGCGTATCCGCGTCCCCGAGGTGCGGCTGGTCGGCCCTGCAGGTGAACAGGTAGGAATCGTCCGTATTGATGATGCCCTGCGTTTGGCTGCCGAGTCCGATCTTGATCTCGTTGAAGTAGCACCTCAGGCAAAGCCTCCGGTGTGCAAGCTGATGGACTTCGGCAAGTACAAGTACGAGGCCGCCGTCAAGGCACGTGAAGCCCGGAAGAACCAGACCAACACGGTTCTGAAGGAAATCCGCTTCCGCCTGAAGATCGACACCCATGACTACGAGACCAAGCGCGGGCATGCACTGCGCTTCCTCGGCGCCGGTGACAAGGTCAAGGCCATGATCCAGTTCCGCGGCCGTGAGCAGCAGCGTCCGGAGATGGGCATCCGCCTGCTCCAGCGCTTTGCGGATGACGTCGCCGAGGTTGGCGTTGTTGAATCCAGCCCGCGCATCGATGGCCGCAACATGGTGATGGTTGTGGGGCCGCTCAAGAACAAGGCCGAAGCCAAGGCAGAGGCACGCCGGGCAACCCAGCGTGCCGAAGCGAAGGCGCAGAACGAAGTCAGGGCATCGGGCGGACGAATCGACGTTTCCGGCGACGACCAGGCACCCCTGACGCAGTCGCTGGCAGATCTTCTGCCGGAAGGTTTCGCCATCACGACGGAACCGGAAACCGAAGCGCCGGAGACCGAGGCTGCAGCCGCCGCTGAGGCCGCCCCCGCTGAGGCCCCTGTTGCGGAGGTTCCCGTCAAGGAAGCCGCCACGCAGGACGCGCCCCGGCAGGAAACGTCACGGCAGGAAGCGCCCCAGCAGGCGGCTCCCAAGGCCGCCGCTCCCAGGCGCGAGGCTCCCAAGGCTGCGCCGGCCGCCGCCAAGGCACCGGCCCCTGCGGCCAAGCCTGCGGAAGCAGCAAAGCCCGCTGCGGCCGCTGAGACGCCCGCGTCGGCAGCTCCGGCCCCCGCTGCACCGAAGCCAGCCGCAGTTCCCTCGCCGCCGAAGCCGGTTGCCAGGCCTGCAGCCCCGAAGCCTGCAGCCAGGCCCGCCCCTAAAGCGGGTCCGAAGCCGGCCGGCAAGAAGACCACCTAG	MEYHNNHRSFNISEPRINERIRVPEVRLVGPAGEQVGIVRIDDALRLAAESDLDLVEVAPQAKPPVCKLMDFGKYKYEAAVKAREARKNQTNTVLKEIRFRLKIDTHDYETKRGHALRFLGAGDKVKAMIQFRGREQQRPEMGIRLLQRFADDVAEVGVVESSPRIDGRNMVMVVGPLKNKAEAKAEARRATQRAEAKAQNEVRASGGRIDVSGDDQAPLTQSLADLLPEGFAITTEPETEAPETEAAAAAEAAPAEAPVAEVPVKEAATQDAPRQETSRQEAPQQAAPKAAAPRREAPKAAPAAAKAPAPAAKPAEAAKPAAAAETPASAAPAPAAPKPAAVPSPPKPVARPAAPKPAARPAPKAGPKPAGKKTT				NA	NA	NA	NA	NA
D1-29_01626	195	rpmI	COG0291	50S ribosomal protein L35	ATGCCGAAGATGAAGACCCACAGTGGTGCTAAGAAGCGCTTCAAGCTGACAGGCAGCGGCAAGCTGCGCCGTCAGCAGGCCAACCGCCGCCACTACCTCGAGCACAAGTCCTCCAGGCTGACCCGTCGCCTTGCCGGCGACAAGATCGTCTTCAAGGGCGACGCCAAGGTCATCCGGAAGATGCTCGGCATCTAA	MPKMKTHSGAKKRFKLTGSGKLRRQQANRRHYLEHKSSRLTRRLAGDKIVFKGDAKVIRKMLGI				NA	NA	NA	NA	NA
D1-29_01627	456	rplT	COG0292	50S ribosomal protein L20	GTGGCACGTGTGAAGAGGGCGGTCAACGCCCACAAGAAGCGCAGGGTTATCCTCGAACGCGCAAAGGGCTACCGTGGACAGCGTTCACGCCTGTACCGCAAGGCCAAAGAGCAGCTGCTGCACTCGTTTGTGTACAGCTACGGTGACCGCAAGAAGAAGAAGGGCGACTTCCGCCGCCTGTGGATCCAGCGCATCAACGCTGCATCCCGCGCCAACGGCCTCACCTACAACCGACTGATCCAGGGCCTGAAGGCCGCTGAGGTTGAGGTTGACCGCCGTATGCTCGCCGAGCTGGCCGTTTCCGACGCCAACGCCTTCGCCGCGCTGGTGAAGATCGCCAAGGATTCCCTGCCTGCCGACACGTCCGCTCCGGCTGTCCAGGCTGAAGCCCCCAAGGCCAAGGCTCCCAAGGCAAAGGCCGCAAAGAAGCCTGCTGCTGACGAGGCCACTGTCTAG	MARVKRAVNAHKKRRVILERAKGYRGQRSRLYRKAKEQLLHSFVYSYGDRKKKKGDFRRLWIQRINAASRANGLTYNRLIQGLKAAEVEVDRRMLAELAVSDANAFAALVKIAKDSLPADTSAPAVQAEAPKAKAPKAKAAKKPAADEATV				NA	NA	NA	NA	NA
D1-29_01628	912	rlmB_1		23S rRNA (guanosine-2'-O-)-methyltransferase RlmB	ATGAACGAAACCGGGCGCCCGCAAGATTTTCCACTCTCCAATCCCCGAGCCGATCGGGTCAGGGAAGTGGCAAAACTTGCAGGGCGCCCGGCCCGTTTAAAGCGGGAACAGTTCCTCGTCGAGGGGCCACAGGCGGTACGCGAGGCCCTCAAGCTGCACCAGCAGAGGCTGGCAGCCGGGGCTCCTGGGGTTGTGCACGAGGTGTTCGCAAGCGAAGCATGCCTGGACCGCTACCCGGAATTTGATGATCTGGCTGCGGGGACCAACGCCCGGCTTGCCACCGAGGACGTGTTGGCAGCAATGGCCGATACCGTCAATCCCCAGGGCATCATCGCCGTGTGCGGCTTTGTGGACATCAGCCTGGAGGAAGTGCTCGACGCCGGTCCACGGCTGATCGCGGTCCTCTGCCAGGTCAGGGACCCAGGAAACGCAGGGACGGTACTGCGTGCCGCAGACGCCGCCGGTGCTGACGCCGTTGTTCTAACCGGCTCCAGCGTTGACATCTATAACCCCAAGGCAGTCCGTTCCACCGCCGGATCCCTGTTCCACCTTCCCGTGGTCCTGGGGGCGGACATCGAGGAACTGGCAGCCTCCTGCCGGGCCCGGGGGATCGGCGTCCTGGCAGCGGACGGCTATGGGGACCTCAACCTCGACACTTTGCAGGATGAAAACGCCGCCCGGCGAATGTCCGGGTCCAGCACGGCGTCCGCCTATCAGCTGGAGGGCCCAACTGCCTGGCTCTTCGGAAACGAAGCCCAGGGGCTCTCGGAAGCTGAACTCGCCCTGGCTGACCATCGGGTGGCAGTTCCCGTTTACGGCGCGGCGGAAAGCCTCAACCTTGGTACCGCAGCCACAGTGTGCCTATATGCCAGCGCCCGGTCCCAGCAGGGGAGCTCTCCGGCTTCCGTATAA	MNETGRPQDFPLSNPRADRVREVAKLAGRPARLKREQFLVEGPQAVREALKLHQQRLAAGAPGVVHEVFASEACLDRYPEFDDLAAGTNARLATEDVLAAMADTVNPQGIIAVCGFVDISLEEVLDAGPRLIAVLCQVRDPGNAGTVLRAADAAGADAVVLTGSSVDIYNPKAVRSTAGSLFHLPVVLGADIEELAASCRARGIGVLAADGYGDLNLDTLQDENAARRMSGSSTASAYQLEGPTAWLFGNEAQGLSEAELALADHRVAVPVYGAAESLNLGTAATVCLYASARSQQGSSPASV				NA	NA	NA	NA	NA
D1-29_01629	276			hypothetical protein	ATGGGTTTTCTTGCTTGGATTATTCTGGGCCTCATCGTAGGGGCAATTGTTAAGGCCGTCATGCCCGGCAGAGTAGGCGGCGGCTGGGTCACCAGCCTGGTTCTCGGAGTGGTTGGTGCAATCGTAGGCGGCTGGATCGGAAGCCTTCTCTTCGCCAGAGGCGAGCTTGCTTTCTTCGATCTGGGAACGTGGATCCTGGCGATCATCGGCGGCCTGCTGGTGGCTGGCATCTACGGCGCCATTACGGGACGCAGCAAAACCACACGTGCGCCCTGA	MGFLAWIILGLIVGAIVKAVMPGRVGGGWVTSLVLGVVGAIVGGWIGSLLFARGELAFFDLGTWILAIIGGLLVAGIYGAITGRSKTTRAP				NA	NA	NA	NA	NA
D1-29_01630	759	lgt_1		Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGATCGGGCTTCCCTTCGCGGGAGACGGGCCGGTGCACGCCGGCCTGTTAGGGCTGGGAATCCTCGCAGCCTTACTGTTCTACGCGTATGAGAAGCGCCGGCGTGGCCTGTCCGATCCACGGTTGTGGCCCATTGCCGGTTTCGCTGTCGCCTTCGGGGCCATCGGCTCAAGAGTGCTCACCTGGGATTTTTCCAGGCAGGTCTCCTTGGCGGACTGGTGGAGCGAAGGCGACCGCAGTATCCTCGCCGGCCTTGTGGGAGCGTGGCTGGGCGTCCACTTGGGTAAACGGCTGACAGGTTACCGCGAATCCACCGGCGATCTGCTTGCCCCCGCTGTGGCCCTGGCGCTGGTGATCGGGCGGGTGGGCTGTCTCCTCACGGAACTGCCCGGAACTCCCACCGGGGGAGCATGGGGGATATCGCTCACGCCCGGCGAGGCTGCGTTGTTGGGCGGACCGTCCGGGGTAGGGCTCCATCCGTCCTTCGCCTATGAAATTGTGTTCCATGCCGCCGCACTCGCGCTCTTGTGTCGCTACCGGGACCGACTGCCCCGTCCTGGCGACCTCTTCATCTGCTACGTGACTTCCTACGCCTTGTTCAGGTTCGGCGTCGAATTCGTCCGCGGCAACGAGGTGCTCTGGTTGGGTATGAGCCGTCCCCAATGGTTCCTCCTGATGATTCTCCCCCTGCTGTTCTGGCGGATGCTGCGGGTCTTCGGGAAACCACTCCGCCCGAAGGTGGAAGGAATAGTGGCATGA	MIGLPFAGDGPVHAGLLGLGILAALLFYAYEKRRRGLSDPRLWPIAGFAVAFGAIGSRVLTWDFSRQVSLADWWSEGDRSILAGLVGAWLGVHLGKRLTGYRESTGDLLAPAVALALVIGRVGCLLTELPGTPTGGAWGISLTPGEAALLGGPSGVGLHPSFAYEIVFHAAALALLCRYRDRLPRPGDLFICYVTSYALFRFGVEFVRGNEVLWLGMSRPQWFLLMILPLLFWRMLRVFGKPLRPKVEGIVA				NA	NA	NA	NA	NA
D1-29_01631	357			hypothetical protein	ATGAGCGAGGACAACCCACCGCCCCAAGAAGAAGAGGAGGAGCCGCCTGAACCAGCGCTTGGCCGCATGGGGGTCGGAATCCTGGTAGGGGCGAGTGCCCTCTACGCCCTCTATCTCTTGGGACCCAGTGCTTTCGGTCGTCTGCAGGCCGAGGCTGATCCAGGACCCACTTCCATGAGTTTCCTGACCGGGCCGTCCGCGTTCATTCCAATCGCCGTCTATCTGGCGATAGCCGTTCTGCTGGCGGTCCGGCCAAGCACATCGCGATGGGGTGCCGGGTTGCTGATTGGCCTGGGAATCTTCACCCTGCTCGGCGGCGGGCTCTGCGTCGGATACCTCGCGCAGGTGAGGGCCTGA	MSEDNPPPQEEEEEPPEPALGRMGVGILVGASALYALYLLGPSAFGRLQAEADPGPTSMSFLTGPSAFIPIAVYLAIAVLLAVRPSTSRWGAGLLIGLGIFTLLGGGLCVGYLAQVRA				NA	NA	NA	NA	NA
D1-29_01632	354			hypothetical protein	ATGAGCAAGGACAACCCACCGCCCCAAAAAGAAGGGGAGAACCCTGAACCAGGGCTCCGCCCCATGGGGTTCGGAATCCTGTTGGGAACGGCTGCCCTTTACGCCCTCTATATCTTGGGACCGGGTGCTTTCGGTCTTCTGCAAACACGGGCTGATCCAGGACCCTCTTCCATACGTTTCCTGACCGGGCCGGTTGCCTTCGTTCCAATCGCCGGATATCTAGCGATAGCTATTCTGCTGGCGGTCTGGCCACCCACATCCCGGTGGGGTGCGGGGCTGCTGATTGGCCTGGGGATCTTCACCCTGCTCGGCGGCGGGGTCTGCGTCGGAGCCCTCGCGCAGATGGGAGGTTGA	MSKDNPPPQKEGENPEPGLRPMGFGILLGTAALYALYILGPGAFGLLQTRADPGPSSIRFLTGPVAFVPIAGYLAIAILLAVWPPTSRWGAGLLIGLGIFTLLGGGVCVGALAQMGG				NA	NA	NA	NA	NA
D1-29_01633	942			hypothetical protein	ATGAATCCGTCACCGTTCTCTTCACGGCAGGTGCTGCCCGGTCCCGGCCAGCCGCTGCGCGGGGACCGCATCCACCGCTACGTCACAGCTTTCTGTCCCCATTGCCACGAGACCAACCCACCGCTCGCGCAGGTGCGGCGCCTCTCCGGCGTGCTGCTAATCCGCGATGACCAGGTCTGGCTCGAACGCGGCTGCCCGGATCACGGACTCGTCAGCACCTTGTACGACCAATCTCCGGAAATCCTGCGCTACCTGGAGAAGTGGCAGGCGCCCACCAAGCAACACATCCCGGACCAGGCCGGCAATTACCGCCAGGTACCGGAGGCTTACGCCTACGGATTGCCCGCCATGCAGACGCAGCACACGTGCATCCTCCTGCAGGACATCATCGAGCACTGCAACCTGCGCTGCCCCACCTGCTTTACTGCCTCCGGCCCCCAGTTGCAGGGCGTGGCGCCGCTGAGCGAGGTGCTCGCGAATATCGACACCAGACTTGCCCGGGAGAACGGGCGGCTGGACGTGCTGATGCTCTCCGGCGGCGAACCGACGCTATATCCGTACCTGGCCGAACTTCTGGATGAGCTCGTCGCCCGGCCCATCGTCCGGATCATGGTGAACAGCAACGGCATGCTCATAGCCTCCGACGACGAACTCCTCGGGCTGCTGGCCCGGCACCGGGACCGGGTGGAGGTGTACCTCCAATACGATGGCCCGTCCAAAGAAGCGTCCATCCACCACCGGGGCGGTGACCTGACCCGCTACAAAGACCTGGCCATCTCGCGCCTGTCTGAGGCAGGTGTTTTCACCACCCTGACCATGACAGCGACACTCGGCGTCAACGACGGTGAGGTGGGCGCCGTCGTCATGAGGGCTTTGGAAACCCCGTTTGTGGGTGGGGTTGCGCTTCAGCCGGTGTTCGGTTCAGGGCGCGGCCACGCATAG	MNPSPFSSRQVLPGPGQPLRGDRIHRYVTAFCPHCHETNPPLAQVRRLSGVLLIRDDQVWLERGCPDHGLVSTLYDQSPEILRYLEKWQAPTKQHIPDQAGNYRQVPEAYAYGLPAMQTQHTCILLQDIIEHCNLRCPTCFTASGPQLQGVAPLSEVLANIDTRLARENGRLDVLMLSGGEPTLYPYLAELLDELVARPIVRIMVNSNGMLIASDDELLGLLARHRDRVEVYLQYDGPSKEASIHHRGGDLTRYKDLAISRLSEAGVFTTLTMTATLGVNDGEVGAVVMRALETPFVGGVALQPVFGSGRGHA				NA	NA	NA	NA	NA
D1-29_01634	534			hypothetical protein	ATGCTGAAGGACGACTCAGGGATTTGGCGTTCGCTGACAGCCCTCATCGGGCACGATCAGCTGCTCGCCTGGCTGGAACTCAATCCTGACAGCATCGCCAACCGCATCGCCGACAGCGCGATCCCGCTCGAGCTGCGCAACCTGATGAAGTCCTCGCTGCTGGACCTGCTGAGCGAGCAGTCCTCGCTGTCCCACCCCCGCACAATGGATCTTTGGAAGAACATCTGCACCCAATGCGACCTCGGCATCGGCACACTCACCACATTGGCAGCCGGCAAGCTTCCGGGGCAGCAACAGCGGCTGCGCAGGCTCCTCGGCGAACGGATCACCCGCATCATGGTCAAACCCTTTATGGACATCTCCACCATGATCGAGGAACGGCTCACGCAATGCTGCGTCCACGTGGGCACAAAGAGCGACGCCGGTGATCACCAGTGTGCCCCGTTCTGCGCTGTGCAGGCGTGGCCGGCCCTGGCCAGGCAACGAATGAGCACAGCTACGGGCACACGGCTACTCCCAGTCCGCCAGGTCTGA	MLKDDSGIWRSLTALIGHDQLLAWLELNPDSIANRIADSAIPLELRNLMKSSLLDLLSEQSSLSHPRTMDLWKNICTQCDLGIGTLTTLAAGKLPGQQQRLRRLLGERITRIMVKPFMDISTMIEERLTQCCVHVGTKSDAGDHQCAPFCAVQAWPALARQRMSTATGTRLLPVRQV				NA	NA	NA	NA	NA
D1-29_01635	375			hypothetical protein	ATGAGTTCCGCTTCTGATGCCCGCCGTATCGCAGCCGGGCCATTGCCGTCGCAGCTGGTGCGCTCCAAGCAGGCGGGCCGGCACGGACACAGGCCTGACCCTGAAACGGATCCGCAGTCCCCGCCGCCCTTCGACCCGTTGCGGCTCTGCATCTTCGCGACCGTTGCCCTCCTCGGCTGGGCCGCCGGTCCGGTGGCACTGGCCGTGTTCGCTGCAGTCGGATTCGCAGGCTATTGGAAAGCGCGACGGCGGGGCCTGACAAGGTCGAAGTGTTACCTCCGGGATACGAGGCTGGTCTTGGCCTACCTGGGCATCCTGTTTGCGGCCGGGCTGTGGGGGATATATTCGATGGCCGCTCAACTGTTCGGCTTCTAA	MSSASDARRIAAGPLPSQLVRSKQAGRHGHRPDPETDPQSPPPFDPLRLCIFATVALLGWAAGPVALAVFAAVGFAGYWKARRRGLTRSKCYLRDTRLVLAYLGILFAAGLWGIYSMAAQLFGF				NA	NA	NA	NA	NA
D1-29_01636	714			hypothetical protein	ATGCCCGTGACCGGCCGAGTCGTTTCCGCCGCGGTGCTGCTCGTCATTGGGGCAGGACTGGCGCTGCTGGCGGTGCTGGTCCACTACGGTTTTATGGCAATGTACGGCGGTGTCACCGATACCGCGTTCGAGGCGCTTGTCTGGGGGTTGACGGCCGGTCCCTCCGGATTGGGGCTTGCTCTGGTCGCGGTGTTTGCCGGGCTCGGCTTGATGCTCGCGACACGCAGGTGGATGCGGCTGACGGCCGTGGCCATCCCGGTCCTCATGCTGATCGGGATGTTCGCTGTCACCCCCTTGGCGCTGGGTCAGAAGATGGAGAAACAATTTGTTTCCGCTCCGCAATGCGTGATGGAGGGCACCGACGAGCCGACGGCCACTGCAGACCGTGAGTCCCAGCTGGCGTTCGATTCCATCGAGCACATCGGCCATTTCAAGGGTGGCGGCATGAGTGGTGTGGCCGGCTGTACGCGCTGGTTTGTGCTCCCGGAAGACGTCGATGTGTTGCAGCACTATCGTGGAGCGCTGCCAGCGGCGGGCTGGGAAGTGGTGGAGGATGACGGGCGCCACCTGCGGGCGCACCTTGATGGCCGGGCGTTCGATGTGATGACCTGCCCCGGAGGCGGAGTCATCTGGGCCGGAAGCGACGACGACCGCTCATACGGACAGGGAAGGCCTGAGCTGGCGGGCACTGAAATTTGCCCACACGACCTCTGA	MPVTGRVVSAAVLLVIGAGLALLAVLVHYGFMAMYGGVTDTAFEALVWGLTAGPSGLGLALVAVFAGLGLMLATRRWMRLTAVAIPVLMLIGMFAVTPLALGQKMEKQFVSAPQCVMEGTDEPTATADRESQLAFDSIEHIGHFKGGGMSGVAGCTRWFVLPEDVDVLQHYRGALPAAGWEVVEDDGRHLRAHLDGRAFDVMTCPGGGVIWAGSDDDRSYGQGRPELAGTEICPHDL				NA	NA	NA	NA	NA
D1-29_01637	1206	ydhP_2	COG2814	Inner membrane transport protein YdhP	ATGAGCAGCGTCCTCCAGAAAACCCCACCTAAGGCCCGGACTGCGCACGTCGGGCGGGCCATTGTTGCCCTTGCGATGGGCGGCTTCGGCATCGGCGTGACGGAGTTCACCATGATGGGCCTCCTGAAGGAGGTGGAGCAGGGACTTGGCATCAGCACCCCGGAGGCCGGAAACCTGATCTCGGCCTACGCCCTCGGCGTCGTGGTGGGCGCGCCCTTGCTGGCCGCGGTCGGAGCCAGGCTGCCCCGCAAGTACCTCGCCCTGGGACTGATGCTGTTCTTCAGCCTTGCCAACCTGACCTCGTTCATCGCTCCCGACTACGGCAGCATGCTGGTTTCCCGCTTCGCAGCCGGGCTTCCGCATGGGGCGTTCTTCGGCGTCGCCGCTGTGATTGCTGCCTCCCTGGTGCCACCGACACGGCGCGGACGTGCCATTTCGATGGTGATGGCCGGCCTGACGGTTTCCAACGTTATTGGTGTCCCGCTTGCCACCTGGGTTGGCCAGGCCTACGGCTGGCGCCTGCTGTTCCTCCTGGTGGGTGCCATCGGGCTGCTCACCGTGGGGCTCTTATGGCGGTTTGTCCCTTTCCAGGAAGCCCACCCGGATGCGAGTATCCGGCGTGAGCTTGGCGCCCTCAAACGCCTGCAGGTTTGGCTTGCGATCCTCATAGGCATCGTCGGCTTCGGCGGTTTCTTCGCCACGTATACCTACATTGCCCACACCATGACACTGGTGGCCGGAATACCTTCCCAGCTGCTTCCGATCGTGGTGGCGCTGTATGGCCTGGGCATGGTGGCGGGCAATATCGTGGGCGGCAGGATCGCTGACAAATCCGTAATGGGAACCATCTACCGCATTCTGCCGGGCATCGCAGTTGCCCTGGTGGTTTATGCCGTTGCCGTGCATTGGCCGTGGTCGGCGTTGGTCATGGTGTTTGTGGTGGGCGCGGCCGGTTCCATGCTGGTACCGGCCCTGCAGACCCGCCTGCTGGATGCCTCCCCGGACGCTCCGTCGCTGGCGTCCTCGCTGAACCATGCTGCGCTTAACGTGGCAAATGCACTGGGCGCGTTCCTTGGCGGCGTGGTGATCGCCTGGGGCTGGGGCTATACGGCTCCCGCCCTCGTGGGTGCCGTGCTGGCCGTGCTGGGACTGGCGGTCGCCGTCGTCAGCGGACTATTGGAACGGAAAAAGCCCCTGGCCGCCTGA	MSSVLQKTPPKARTAHVGRAIVALAMGGFGIGVTEFTMMGLLKEVEQGLGISTPEAGNLISAYALGVVVGAPLLAAVGARLPRKYLALGLMLFFSLANLTSFIAPDYGSMLVSRFAAGLPHGAFFGVAAVIAASLVPPTRRGRAISMVMAGLTVSNVIGVPLATWVGQAYGWRLLFLLVGAIGLLTVGLLWRFVPFQEAHPDASIRRELGALKRLQVWLAILIGIVGFGGFFATYTYIAHTMTLVAGIPSQLLPIVVALYGLGMVAGNIVGGRIADKSVMGTIYRILPGIAVALVVYAVAVHWPWSALVMVFVVGAAGSMLVPALQTRLLDASPDAPSLASSLNHAALNVANALGAFLGGVVIAWGWGYTAPALVGAVLAVLGLAVAVVSGLLERKKPLAA	PGPT0028991_1348	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
D1-29_01638	453	mutT2	COG0494	Putative 8-oxo-dGTP diphosphatase 2	GTGACTGGACACATACTCGTAGTCGGCGGAGCCGTCCTTGACTCCCTTGAAGAGCCCACGAAGCTGCTGGTGGCGCGCCGGACAGCACCGGAACAGTTCGCCGGGCTTTGGGAATTTCCGGGGGGAAAGGTAGACGCGGGCGAGGCTCCCGAGGCCGCATTGCACCGGGAACTCAGGGAGGAACTGGGGATTGGCGTCCGGCTGGGGACCGAACTTGAGGCTCTCACAGCCGGCGGCTGGCCCCTGAATGAGCGGGCATCCATGCGGGTCTGGACGGCAGAAATTACAGAAGGGCACCCGCGCCCGCTTGAAGATCATGACGAATTGAAGTGGATCAGCGTGGCGGACAGTGATGAAGCTCTCAGCCTTCCCTGGATTCCTGCAGACTTCCCAATCGTCCGCGCGCTCCTGCAATCCCTCGCCGCCCACGCGGGCTCGCTCAGCGGCAACTGA	MTGHILVVGGAVLDSLEEPTKLLVARRTAPEQFAGLWEFPGGKVDAGEAPEAALHRELREELGIGVRLGTELEALTAGGWPLNERASMRVWTAEITEGHPRPLEDHDELKWISVADSDEALSLPWIPADFPIVRALLQSLAAHAGSLSGN	PGPT0021430_66	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021430-nudG-K08320	NA	NA
D1-29_01639	1128			hypothetical protein	ATGAGATGGGATGCACAAGCACTGTTGGAGCGCCCCACAGAAGCAGCCGCGAGTGGTTCGACTCCTGCACTCCTGCCGCTCACCGGCCTGGTCAGGTCCGTGACCACCCCCGAGTTCGCCGGCATCACGTTCCACGAAGTCACCGCAAAGACTGTGCTGAACAAGGTGCCCGGCGGTTCACGCATGCCATTCGAATGGACCATCAACCCGTACAGGGGCTGCAGCCATGCCTGCGTCTACTGCTTTGCGCGGAAGAGCCACACCTACCTGGAGTTTGACGCCGGGAGGGATTTCGACAACCAGATCGTGGTCAAGGTCAATGTGGCGGAAGTATTGCGGAAAGAACTTGCCAAACCGTCCTGGGCCCACCATCAGGTGGCACTGGGCACCAACACCGATCCCTATCAGCGCGCCGAAGGCCGTTACAAGCTGATGCCGGGAATCATCTCGGCGCTGGCAGAATCCGGCACTCCCCTGTCCATCCTCACGAAGGGAACCCTGCTGGCACGGGACATCCCCCTGCTGAAGGAAGCGGCGCGGCAGGTGCCCGTTGGGGTGGGAATATCCCTCGCGATGACGGATGAGGCCCTTTCAGAAGCCGTGGAACCGGGGACTCCCGGGCCAAGGGCCAGGCTGAAACTCATTTCCCGGCTCCGCGAAGCAGGCCTGCCGTGCGGAGTCATGGCCATGCCGATCATGCCGTGGCTCACCGACAGCGACGAAGCACTGGACGCCCTGTTCGGTTCACTGGCCTCAGCCGGAGCCACGGGCGTCACCGCCGGTGCCCTGTACCTGAAGCCCGGCACCCGTGAGTGGTTTATGCAGTGGCTCACGGCTAACCATCCCGATCTGACAGGCCGCTATCAGGGGCTGTACGGCACTGGTTCGTACGCTCCCAAGGAGTACCGGACCTGGCTGGCGGGAAGGGTGCGCTATTTCAAGGAACGGCATGGCTTCTCCGGTTCCCACGGCTTCAGCCACCGCGATCTTGAAGATGATCCCCGGAGCGAAGAAGCACAGTACCCGGCCGGCATCATCCCTGTAGGCAAAGCCGGCAGTCCGGGACGGCGGGACGGAAACACCGGCCCCGGTCCCAGCGGACAGCCAGAGCAGCCCACCCTGTTCTAA	MRWDAQALLERPTEAAASGSTPALLPLTGLVRSVTTPEFAGITFHEVTAKTVLNKVPGGSRMPFEWTINPYRGCSHACVYCFARKSHTYLEFDAGRDFDNQIVVKVNVAEVLRKELAKPSWAHHQVALGTNTDPYQRAEGRYKLMPGIISALAESGTPLSILTKGTLLARDIPLLKEAARQVPVGVGISLAMTDEALSEAVEPGTPGPRARLKLISRLREAGLPCGVMAMPIMPWLTDSDEALDALFGSLASAGATGVTAGALYLKPGTREWFMQWLTANHPDLTGRYQGLYGTGSYAPKEYRTWLAGRVRYFKERHGFSGSHGFSHRDLEDDPRSEEAQYPAGIIPVGKAGSPGRRDGNTGPGPSGQPEQPTLF				NA	NA	NA	NA	NA
D1-29_01640	636		COG2968	26 kDa periplasmic immunogenic protein	ATGACATCACGAAGAATCACCGTCACTGGGACAGGGGTAGCCGAGGCCGCCCCGGACCTGTTGACCCTGTCCGTAGGCGTGGAGTGCCGGAGCGGCAACGTGGGCGCAGCTTACGCAGAAGCGGGGACAACATCGTCCGCTGTCTCTGCTGCGCTCCGCCAACACGGCGTGACAAACGCGGACATCCGGACATCAGGACTGAACGTCCGGGCAGACCTTGTCTGGCGCGAGGGTGAGGGCCAGAAGGTGGCAGGGTATGTCGCCACCAGCAGCCTCACTGTCCGTCTTAGGGATGTGGCTGCTGCCTCCTCGGCCATCTCCGCCGCCGTCGAAGCAGGCGGCAACAACGTCAGGCTCAACGGCCTTGACCTCGGATTTTCAGATGAGGCCGCGGTGCGGGCACGTGCCCGTGAAGCTGCCTGGCAGGATGCGCTCCGATCGGCGGAACAGTTTGCTGCCCTGGCTTCTGCCCGGCTGGGCCGGGTGGTCTCGCTGGAGGAAGAGTCCAACCCTGGCATGCCGGTTCCGCTGCCCAGGATCGAACGGGCCGTTTCCTCTGACGCGTTCAGCGTGGAGCCGGGCCAAACAAGCATTGCCGGCAGGATCATTGTGGTGTGGGAGCTTGCCCGGCCTTGA	MTSRRITVTGTGVAEAAPDLLTLSVGVECRSGNVGAAYAEAGTTSSAVSAALRQHGVTNADIRTSGLNVRADLVWREGEGQKVAGYVATSSLTVRLRDVAAASSAISAAVEAGGNNVRLNGLDLGFSDEAAVRARAREAAWQDALRSAEQFAALASARLGRVVSLEEESNPGMPVPLPRIERAVSSDAFSVEPGQTSIAGRIIVVWELARP	PGPT0012980_2313	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012980-yggE-K09807	NA	NA
D1-29_01641	522			hypothetical protein	ATGACACAACGGCCGGGCCTGCCGAAGGCAGAAGGAAAAGCCGGGAAGGCACTGACGGCGGGCGTATTGACGGCGGGACAGCGGTTGCGGCAGCTGGCAAACCTGGCTAATGGCAGCACGGTCCTGGGCCTGGCCGTGGCTGTGTCGGCGGGCACCGCCCTCAGCCGCGGCCCGCGGGGGTTGATCATTGCAGCCAACTACCGGTGGCGGCTCCCCTTCGCCGGAGCGTTCGTCCTGGGCAACGTGGTGGTTTGCCGCAGCGATGCGAATGCCCTGATATCCACTCCCGCACTGCTGGGCCATGAAGAAAGACACGCCAGCCAGTATGCCTGGTGCTTGGGGCTGCCGTTCCTCCCGCTCTATTTCCTGGCCGCCGGCTGGTCGCAACTGCGTACCGGCGACCCCGCATCGGGGAACTTTTTTGAACGCCGGGCGGGTCTGGAAGCAGGCGGATATAGAGTACGCAGTCAGCGAAAGCCCGCCGCCCCCAGCGGCGGCGGCGGAACGGAGGCCAAGGCATGA	MTQRPGLPKAEGKAGKALTAGVLTAGQRLRQLANLANGSTVLGLAVAVSAGTALSRGPRGLIIAANYRWRLPFAGAFVLGNVVVCRSDANALISTPALLGHEERHASQYAWCLGLPFLPLYFLAAGWSQLRTGDPASGNFFERRAGLEAGGYRVRSQRKPAAPSGGGGTEAKA				NA	NA	NA	NA	NA
D1-29_01642	1062	pheS	COG0016	Phenylalanine--tRNA ligase alpha subunit	ATGACTGAAACTTTGCCGGGCGCCGCCATCCCTAACCCTACGGATGAAGCCGCCATTAATGCCGCTGTAGACCAGGCCATCACCGCCATTGCCGGTGCTGCCACCCTTGACGAGCTAAAGGCGGTGAGGCTCGCGCACACGGGGGAGAAGTCCCCGCTGAGCCTGGCCAACCGTGAGATCGGCAAGCTGCCGAAAGACCAGAAGGCGCTCGCCGGAAAACTGATGGGCGCATCGCGCGGCCGGGTCAACCAGGCGCTCGCCGCCCGCACGGCAGAGCTTGAAGCGGAGAACGACGCACGGATCCTGATTGAGGAGACGGTGGACGTCACGGCCGCACCGCGCCGCCGTCGTGCCGGTGCCCGGCACCCGCTCTCCACCCTGCAGGACCGCGTCGCGGACATCTTCGTGGGCATGGGCTGGGAAATCGCCGAAGGCCCCGAGGTTGAATCCGAATGGTTCAACTTTGATGCCCTGAACTTCAAGCCGGACCACCCGGCCCGCGAAATGCAGGACACATTCTTCGTGGAGCCGCCCGAGGCCCATCTGCTGATGCGCACGCACACGTCCCCGGTCCAGGTCCGTTCCATGCTGGAACGCGAACTGCCTATCTACGTCCTGTGCCCGGGCAAGGTATTCCGCACTGACGAGCTGGACGCCACCCATACCCCGGTGTTCCACCAGTTTGAAGGCCTCGCCATCGACAAGCACCTGAGCATGGCGGACCTGCGGGGCACGCTGGAGCACTTCGCCCGGCAAATGTTCGGCGACGAAGCCCAGATCCGGCTGCGGCCCAACTATTTCCCCTTCACCGAACCGTCGGCGGAGCTGGATATCTGGCACCCTGGCGCCAAGGGCGGCCCGCGCTGGATCGAATGGGGCGGCTGCGGAATGGTCAACCCCAATGTCCTCCGGGCCGCCGGCATTGATCCGGATGTCTATTCAGGTTTTGCCTTCGGCATGGGCATCGAACGCACCCTTATGTTCCGCAACGAGGTGGGCGACATGCGCGACATGATCGAAGGCGATGTACGTTTCAGCGAGCACTTCGGGATGGAGATCTAA	MTETLPGAAIPNPTDEAAINAAVDQAITAIAGAATLDELKAVRLAHTGEKSPLSLANREIGKLPKDQKALAGKLMGASRGRVNQALAARTAELEAENDARILIEETVDVTAAPRRRRAGARHPLSTLQDRVADIFVGMGWEIAEGPEVESEWFNFDALNFKPDHPAREMQDTFFVEPPEAHLLMRTHTSPVQVRSMLERELPIYVLCPGKVFRTDELDATHTPVFHQFEGLAIDKHLSMADLRGTLEHFARQMFGDEAQIRLRPNYFPFTEPSAELDIWHPGAKGGPRWIEWGGCGMVNPNVLRAAGIDPDVYSGFAFGMGIERTLMFRNEVGDMRDMIEGDVRFSEHFGMEI				NA	NA	NA	NA	NA
D1-29_01643	2544	pheT	COG0072	Phenylalanine--tRNA ligase beta subunit	GTGCGTATCCCACTTTCCTGGCTGCGGGAATTCGCAGCAGTACCGGCCGGTGCCACGGCCGAAGACGTTATGGCCGAACTGGTTAAGGTCGGTTTTGAAGAAGAGGACGTCCACCGTCCCACTGACACCCTCAAGGGTCCGATTGTGGTGGGCCAGGTCCTGAGCCTGGTCAAGGAACCCCAGTCCAACGGCAAGACCATCAACTGGTGCCAGGTCCGTGTTGTCCCGGAAGGGCAGCCGCAGACCCTCACCGGTGACGGCATCGATCCCTCAGGTGTGCAGGGCATTATCTGCGGGGCCCACAACTTTGTTGAGGGTGACAAAGTGGTGGTCACCCTTCCCGGGGCAGTCCTGCCGGGCGACTTCCGCATCTCTGCACGCAAGACCTACGGCCACCTGTCTGCCGGCATGATCGCCTCGGTCCGTGAACTTGGCATCGGCGAGGACCACGACGGCATCCTGGTTCTGTCCCGGATCGGCCTGGATCCGGAAATCGGCACCGACGCCATGGACCTGCTGGGTCTCTACGACGAGGCCGCCGAGATCAATGTGACCCCGGACCGCGGCTACGCCTTCTCCATCCGCGGTGTCGCCCGCGAATACGCCCACGCCACCGGAACCTCCTTCACCGACCCGGCCTCCAAGGTCCAGGCTCCGGCTGAGCTTTCCGGCGGCTACGGCGTCAAACTCAACGACGACGCGCCCATCTACGGCAAGCCGGGCTGCGACCGCTTTGTGGCGCGCACCGTGCGCGGCGTGGACGCCACCCGGCCCACCCCGCCGTGGATGGTTTCCCGGCTGCGGCTGGCCGGCGTCCGTTCCATCTCGCTGCCGGTGGATATCTCCAACTACGTCATGTTCGAGCTGGGCCAGCCCACGCACTGCTATGACCTGGACAAGCTGTCCGGTGACATTGTGGTGCGCCGTGCCGTTCCCGCGGAGACAATCACCACACTGGACGGCAAGGAGCGCGCGCTCGACGTCGAAGACCTCCTGATCACCGACGGCTCAGGTGCGATCGGCATCGCCGGCGTCATGGGCGGCGCTGCCACCGAGGTGAGCGATTCGACGTCGAACGTCCTGGTGGAGGCGGCACACTTCGACGAGGTGTCCATTTCCCGGTCCCGCCGGCGCCACAAGCTGCCGTCGGAGGCGTCCAAGCGCTTCGAGCGCGGCGTGGACTGGCAGGTGGCGGGCGTCGCCGCGCAGCGTGTCGTGGACCTTCTGGTGGAACTGGCAGGAGGCGTCGCTGACGAGGCGGGGACCGACGTCGGGACCGCCCCTGACGCCGTCTCCATCCAGCTCCCGGCAGCGTTTGCCGCACAGCGGATAGGGATCGACTTCACTGACGAGCAGATCATCACCTCCCTGGAGGATCTGGGCGCCGTGGTGGAGCAGAATGACGGCGGCTGGACAGTGACCGCTCCGAGCTGGCGGCATGACCTGGAAACAAAAGAGGACCTTTCCGAGGAAATCGCCCGGCTGGTGGGGTATGACAACATCCCCGCCACCCTCCCGGTGGCCCCTCCCGGACGGGGACTGACGCGCACGCAGCAGCAGCGCCGTCGGCTCATCCAGGCACTGGCTGATGCCGGCCTGACCGAAGTCCTGGCCTACCCCTTTGTCTCCAAGGCTTCCAATGACACCTTCGGCGTGGCGGAGCAGGGGGCTCCGAGGCTTGCGGTCAAGCTGGCCAACCCCATCAGTGAGGAACACGGCTTCCTGCGCACCTCGATCCTTCCGGGGCTCATCGAGGTGGCGAAGCGCAACCATTCCCGCGGCTTCAGGGACCTGGCGCTTTTCGAGTCAGGGCTCGTTTTCCTGCCCAATGACACCTTGGGAACTGCCTCCATTCCGCCGCTGGGCGTCAAGCCCTCCGATGAGGTGCTGGATGCGCTGTACGACGGCGTCCCGGACCAGCCCCTGCATGTCGCCGCCATCCTGACGGGCCATGATTCACCGGCCGCCGCCGGACACACTCCGCGTTTCTGGGACTGGTCCGATGCGCTGGACATCGCCCGCCTGGCCGGTGACGTCCTGGGCGTGGAAGTGGTTGTCAGCCAAGGCGCCCACCAGGCGTTCCACCCGGGGCGTGCAGCACAGCTTTCGCTGCGTACCGGCGAAATCGTGGGCTATGCGGGCGAGCTCCACCCGAAGCTCCTGGCTGCGCAGGACATGCCGGCCCGGTCGGTCGCACTGGAGTTCAACGCGGACGCCCTGTTCGACGCCGCCGCCGACGTCATTGTTGCCAGGCACATCTCCACGTTCCCGGTGGCAACCCAGGACGTGGCGTTGGTGGTACCCGCGGAGATCCCGGCGGACGCCGTCCTCACCGCACTCCGCGAAGGCGCAGGCGAGCTCCTGGAGGACGTGGCACTCTTCGACGTGTACGCCGGCAAGGGCATCGAGGAGGGCAAGAAGTCCCTGGCGTTCGGGCTTCGGTTCCGGGCCAACGACCGCACTCTGACCGCGGATGAGGCAACGGCTGCCCGCGAAAGTGCCGTCGCGCTGGCAGCTGAACGGTTTGGTGCCGTCCAGCGCTAG	MRIPLSWLREFAAVPAGATAEDVMAELVKVGFEEEDVHRPTDTLKGPIVVGQVLSLVKEPQSNGKTINWCQVRVVPEGQPQTLTGDGIDPSGVQGIICGAHNFVEGDKVVVTLPGAVLPGDFRISARKTYGHLSAGMIASVRELGIGEDHDGILVLSRIGLDPEIGTDAMDLLGLYDEAAEINVTPDRGYAFSIRGVAREYAHATGTSFTDPASKVQAPAELSGGYGVKLNDDAPIYGKPGCDRFVARTVRGVDATRPTPPWMVSRLRLAGVRSISLPVDISNYVMFELGQPTHCYDLDKLSGDIVVRRAVPAETITTLDGKERALDVEDLLITDGSGAIGIAGVMGGAATEVSDSTSNVLVEAAHFDEVSISRSRRRHKLPSEASKRFERGVDWQVAGVAAQRVVDLLVELAGGVADEAGTDVGTAPDAVSIQLPAAFAAQRIGIDFTDEQIITSLEDLGAVVEQNDGGWTVTAPSWRHDLETKEDLSEEIARLVGYDNIPATLPVAPPGRGLTRTQQQRRRLIQALADAGLTEVLAYPFVSKASNDTFGVAEQGAPRLAVKLANPISEEHGFLRTSILPGLIEVAKRNHSRGFRDLALFESGLVFLPNDTLGTASIPPLGVKPSDEVLDALYDGVPDQPLHVAAILTGHDSPAAAGHTPRFWDWSDALDIARLAGDVLGVEVVVSQGAHQAFHPGRAAQLSLRTGEIVGYAGELHPKLLAAQDMPARSVALEFNADALFDAAADVIVARHISTFPVATQDVALVVPAEIPADAVLTALREGAGELLEDVALFDVYAGKGIEEGKKSLAFGLRFRANDRTLTADEATAARESAVALAAERFGAVQR				NA	NA	NA	NA	NA
D1-29_01644	963			2-haloacrylate reductase	ATGGATGCAATCGTCGCCGGCCAGCCCGGCGGACCCGAAGTCCTGGAGCTTGCGGATGCCGAGCGTCCCGCACCGGGGCCGGGCCAGCTGCTCATCAAGGTGGCAGCGGCCGGGGTCAATTTCATCGACACTTACCAGCGCAGCGGCACGTACAAAGTCGAATTTCCCTTCACACCCGGCTCGGAAGCATCAGGAACGGTCGAGGAAGTCGGCGAGGGCGTGGAGGATTTCGCGGCAGGCAGCAGGGTGGCCACCGCAGAGGGTAAGAAATGCTATGCGGGCTACATCGTGCTTGATGCTGCCAAAGCCCTCCCGGTGCCGGACGGCGTTGACGATCTGACGGCTGCCGCCCTTCCCCTGCAGGGCATGACGGCCCACTACCTGATCAACTCCTCGTTCAGGGTGGAACCGGGCCACACCGTGCTGACGCATGCAGGAGCCGGCGGCGTGGGACTGCTGCTGATCCAGCTTCTGAAGGAGCGCGGCGCCCGCGTCATCACCACGGTCTCCTCCGATGAAAAGGAAGAACTCGCCACGGAAGCTGGAGCGGACCATGTCCTCCGGTACGCCGGCTTTCCCCATCATGTCCGTGACCTGACCGGCGGCAAAGGCGTGGACGTGGTCTACGACGGCGTCGGCCGCAACACCTTCGACGGCTCGCTGTCCTGCCTGCGCACCAGGGGTGCGCTTGTCCTTTTCGGCGCAGCGTCGGGCCCCGTTCCACCCTTCGACCCGCAGCGGCTCAACGCGGGCGGCTCGCTTACGCTGACGCGGCCGTCCCTGGCGCATTTCCTCGGCAACCCGCAGGAACGCCGCTGGCGCTCTACCGAAGTATTTGACGCCGCAGCGAAGGGAAGCCTCAAGGTTCGGATCGGCGGCAACTACCCCTTGGCCAAGGCGCGCCAGGCCCATGAAGACCTGGAGGGCCGCCGCACCACTGGCAAGGTCCTGCTGGTCCCCTAA	MDAIVAGQPGGPEVLELADAERPAPGPGQLLIKVAAAGVNFIDTYQRSGTYKVEFPFTPGSEASGTVEEVGEGVEDFAAGSRVATAEGKKCYAGYIVLDAAKALPVPDGVDDLTAAALPLQGMTAHYLINSSFRVEPGHTVLTHAGAGGVGLLLIQLLKERGARVITTVSSDEKEELATEAGADHVLRYAGFPHHVRDLTGGKGVDVVYDGVGRNTFDGSLSCLRTRGALVLFGAASGPVPPFDPQRLNAGGSLTLTRPSLAHFLGNPQERRWRSTEVFDAAAKGSLKVRIGGNYPLAKARQAHEDLEGRRTTGKVLLVP	PGPT0013255_8796	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
D1-29_01645	1095			hypothetical protein	ATGACCGCCACCCTCCTTACGCCTGAGCGCCCTAAATCGCGAGTCCGCCAGCCCAACACAGTGGTCCTGAGCTATTCGGAACTGCTCAAAACCGTCAAGGCCGCGGGTTTGCTGGAACGCCGGGTCGGTTTCTACGTCACTGTCTTTGCCAGCCTGGTGCTCCTGATGGCGGCCACATGGTTCGGTTTCGCCCTGATCGGTGACAGCTGGTTCCAGCTGCTGATCGCTGCGGCCCTGGGAGTCCTTTGCACCCAGCTGAGCTTCCTGGCCCATGAGGCCGGTCACCGCCAGATTTTCGCTTCCCGACGCGCCAACGACTGGTCGGCACGGCTGCTGGCAACGTCAGTGGCCGGGATGAGTTTCTCGTGGTGGGAGCAGAAGCACGGAGCCCACCACAACCACCCGAACGTGATCTCCAAGGACCCGGACATCATGGACAGCCCCATCGCCTTCCACACCGAAACCGCGGCCGCCCGTCAAGGATGGCTCTCGTCCCTCCTGACGCGAAAGCAGGGCTGGTTCTTCTTCCCGCTCCTCCTGGGCGTAGGCCTGGGCCTTCAGATCGATTCCGTGAAGTTCGTCTTCCGCCGCGCCAAGGTCACGCATCGCTGGGTTGAGCTGCCCATCCTCGTCGTCCGGCTCAGCATCTTGCCCATCCTCGCCTTTTCATTCCTGCCGCTCGGCATGGCCTTCGCCTTCATCGCCGTGCAGCTCGCCGTTTTTGGTTTCTACATGGGTGCCTCGTTTGCCCCGAACCACAAGGGCATGCCTGTCATTCCCGCCGACAGCCGGGTGGATTTCTTCAGCCGTCAGGTGCTGACGTCCCGGAACATCTCGGGCGGCTTTTTTATGGACATCCTCCTGGGCGGCCTGAACCGCCAGGCCGAGCACCACCTCTTCCCGGACATGGCCCGGCCGCAGCTGGACAAGGCTGCAAAGATCGTCCGTGAGTACTGCCACAAGCATCAGGTGCCCTACACGGAGACCACCCTGCTGCAGTCCTACGGCATCATCGTCCGCTACCTCAACGACGTGGGGCTGGCCGCAGGGCGCCACTTCGAGTGCCCGATGGCAACTGTCACGCGGCGCTACTAA	MTATLLTPERPKSRVRQPNTVVLSYSELLKTVKAAGLLERRVGFYVTVFASLVLLMAATWFGFALIGDSWFQLLIAAALGVLCTQLSFLAHEAGHRQIFASRRANDWSARLLATSVAGMSFSWWEQKHGAHHNHPNVISKDPDIMDSPIAFHTETAAARQGWLSSLLTRKQGWFFFPLLLGVGLGLQIDSVKFVFRRAKVTHRWVELPILVVRLSILPILAFSFLPLGMAFAFIAVQLAVFGFYMGASFAPNHKGMPVIPADSRVDFFSRQVLTSRNISGGFFMDILLGGLNRQAEHHLFPDMARPQLDKAAKIVREYCHKHQVPYTETTLLQSYGIIVRYLNDVGLAAGRHFECPMATVTRRY				NA	NA	NA	NA	NA
D1-29_01646	1032	argC	COG0002	N-acetyl-gamma-glutamyl-phosphate reductase	ATGACTATTTCTGTTGCAGTCTCCGGGGCCAGCGGCTACGCCGGGGGAGAAGTGCTTCGCCTTCTCGCAAGCCACCCTGACGTGACCATTGGCGCCATCACAGCGCACAGCAATGCCGGATCCAGGCTCGGTGAACTGCAGCCCCACCTGCATGGGTTGGCCAGCAGGATCCTGGAAGAAACCACTGTGGAGAACCTCGCGGGCCACGACGTCGTGTTCCTGGCCCTCCCGCATGGCGCTTCCGCGGAGATCGCCGCACAGCTTCCCGAAGGCACCGTGGTGATCGACGCCGGTGCCGATCACCGGTTGGAGGACGCTGCGGCCTGGGAAAAGTTCTACGGCTCCGCCCACGCCGGAACCTGGCCCTACGGCCTGCCGGAACTTCCCGGGCAGCGCGAGGCCCTGAAGGGCGCCACGCGCATCGCCGTTCCCGGCTGCTACCCGACGTCGGCCCTGCTGGCTTTGACGCCTGGCTTCACCGCCCAGCTGCTTCAGTCCGAAGATGTGGTGATTGTGTCCGCCTCCGGTACGTCCGGGGCGGGCAAAGCCGCGAAGGTCAACCTGATTGGATCCGAAGTGATGGGTTCCATGAGCCCCTACGGGGTGGGGGGCGGACACCGCCACACCCCGGAAATCGAGCAGGGCCTGTCCAATGCCGCGGGCGAACGCGTGACTGTTTCCTTTACGCCCACGCTGGCACCCATGAGCCGCGGCATCCTGACCACGGCAACAGCCAGGGTGAAAGCCGGAACCACAGTAGCCGAGGTCCGCCAGACGTGGGCCGACGCGTACGACGACGAACCGTTTGTCCACCTCCTGCCCGAAGGGCAATGGCCCACCACCAAGTCCGTTGTTGGATCCAACCACGCCGCCATGCAGGTGGCATTGGACGAACACACTGGCCGTGTCATTGTCACGTGTGTCCTGGATAACCTCACCAAGGGCACAGCCGGCGGAGCCGTCCAATCCATGAATATTGCGCTCGGGCTGGCAGAAACCGCCGGCCTCAACCTGCAGGGAGTTGCCCCGTGA	MTISVAVSGASGYAGGEVLRLLASHPDVTIGAITAHSNAGSRLGELQPHLHGLASRILEETTVENLAGHDVVFLALPHGASAEIAAQLPEGTVVIDAGADHRLEDAAAWEKFYGSAHAGTWPYGLPELPGQREALKGATRIAVPGCYPTSALLALTPGFTAQLLQSEDVVIVSASGTSGAGKAAKVNLIGSEVMGSMSPYGVGGGHRHTPEIEQGLSNAAGERVTVSFTPTLAPMSRGILTTATARVKAGTTVAEVRQTWADAYDDEPFVHLLPEGQWPTTKSVVGSNHAAMQVALDEHTGRVIVTCVLDNLTKGTAGGAVQSMNIALGLAETAGLNLQGVAP	PGPT0014251_1968	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014251-argC-K00145	NA	NA
D1-29_01647	1167	argJ	COG1364	Arginine biosynthesis bifunctional protein ArgJ	GTGACCGTTACCGCCCCGCTGGGATTCCGAGCCTCCGGCATCACCGCAGGCCTGAAGGCTTCAGGCAACCCCGACCTCGCCCTGGTGGTCAACGACGGACCGTCCAAGTCCGCCGCCGCCGTCTTCACAAGCAACCGGGTGGCGGCCGCTCCCGTCCACTGGTCACGCCAGGTTGTCTCCGACGGCCGGGTGGACGCCGTTGTGCTCAATTCCGGTGGCGCCAACGCCTGCACCGGGCCCGAAGGATTCCAGAACACGCACAACACCGCCGAGAAAGTGGCCAAGGTGCTGGGGATTTCGGCGACCGACGTTTTTGTCTGCTCAACCGGCCTTATCGGCGAGCAGTTGCCGATGGACAAGATCCTGCCAGGCATCGAGGCAGCCTCAACGGCGCTCAGCACGGATGGCGGCCCCGAGGCGGCCCTTGCCATCATGACCACTGACTCCGTACCCAAGGCGGCCCTCTTCATCGGCACGGATACCGACGGCCAGGAGTTCAGCATCGGCGGCATCGCAAAGGGTGCAGGCATGCTGGCCCCCGGCCTGGCCACCATGCTGGTTGTGCTCACCACAGACGCCGAGGTGGCTCCTGAACTGCTCGACCTCGCCCTCCGGGACGCCGCTCGGGTCACCTTTGACCGTGCTGACTCTGACGGCTGCATGTCAACCAACGACACCGTTGTGCTGCTGGCTTCCGGTGCGTCCGGCTCTGTGCCCTCTGCCGAGGCTTTCGGTGCCGGCCTTACCCAGGTTTGTGCCGAACTGGCGCGCAAACTGATCGGCGACGCCGAAGGTGCCAGCCACGACATTGCCATCCGTACGTTCAACGCGGCAAGCGAGCGGGACGCCGAAATAGTCAGCCGTTCCGTGGCGCGGTCCAACCTCTTCAAGGCGGCAATCTTCGGCAAGGACCCCAACTGGGGCCGGGTTCTGTCGGCGGTAGGAACAACTGACGCCGCCTTTGACCCGGACAAACTTAACGTGGCCATGAACGGTGTCCAGATCTGCCGCAACGGCAGCATCGGCGATGACCGCAACCTGGTGGACCTGGAACCGCGGGAAGTGCATGTGGAGATAGACCTTCAGGCCGGCGACGCTGAGGCCACCATCTGGACCAACGATTTGACCCACGATTACGTGCACGAAAACAGCGCCTACTCCAGTTAG	MTVTAPLGFRASGITAGLKASGNPDLALVVNDGPSKSAAAVFTSNRVAAAPVHWSRQVVSDGRVDAVVLNSGGANACTGPEGFQNTHNTAEKVAKVLGISATDVFVCSTGLIGEQLPMDKILPGIEAASTALSTDGGPEAALAIMTTDSVPKAALFIGTDTDGQEFSIGGIAKGAGMLAPGLATMLVVLTTDAEVAPELLDLALRDAARVTFDRADSDGCMSTNDTVVLLASGASGSVPSAEAFGAGLTQVCAELARKLIGDAEGASHDIAIRTFNAASERDAEIVSRSVARSNLFKAAIFGKDPNWGRVLSAVGTTDAAFDPDKLNVAMNGVQICRNGSIGDDRNLVDLEPREVHVEIDLQAGDAEATIWTNDLTHDYVHENSAYSS	PGPT0014244_3177	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014244-argJ-K00620	NA	NA
D1-29_01648	978	argB	COG0548	Acetylglutamate kinase	ATGAATGCCCAGACGCGTGAAAACACGTCCATGCTCGACGCCCAAAGCAAGGCCGGAACCCTGATCGAGGCGCTGCCCTGGATCCAGCGCTTCGCGGGCACCACCATGGTGATCAAGTACGGCGGCAATGCCATGGTCAACGACGAACTGCGCCGCGCGTTCGCCGAGGACGTGGTGTTCCTGCACCATGTAGGCATCCATCCTGTGGTGGTCCACGGCGGCGGCCCCCAGATCAATTCGATGCTGGCCAGGCTTGGCATCGAGTCCGAATTCAAAGGCGGCCTGCGGGTCACCACTCCGGAAGCCATGGACGTGGTCCGTATGGTCCTCACCGGCCAGGTAGGCCGCGAGCTCGTGGGGCTGATCAATTCCCACGGACCCTATGCGGTGGGCATGTCCGGCGAAGACGGTGGGCTGCTGCGCGCCGTCCGGACGGGCACCGTGATCGACGGCGAGGAAGTTGACCTCGGCCTGGTGGGCGAAGTGGTGGGAGTGAACCCGGAAGGCATCCTGGACATCCTGGCGGCCGGGCGCATTCCCGTGATCTCCACCGTGGCGCCGGAGATCGAGGATGACGGCAGCGGCACAACCGGCCAGCGCGTACAGACAACCGGGCAGGTCCTGAATGTCAACGCGGACACCGCCGCCGCCGCACTGGCCGAGGCCCTCAGTGCCTCCAAGCTGGTCATCCTCACCGACGTGGAAGGCCTGTATGCCAACTGGCCGGACAGGTCCTCACTGATCTCGTCCATCACGGCGTCCGATCTTCGCCACCTGCTGCCATCGCTTGAATCCGGCATGATTCCCAAAATGGAAGCGTGCCTCAAGGCCGTTGACGGCGGAGTGGAACGCGCACACATTGTGGACGGCAGGCTGCCGCACTCCATGCTCCTGGAAACATTCACGACGGCGGGAATCGGCACCCAGGTGGTGCCCGACGAGGACCTGGATATTGACGTAAAGGAAGTAACCGCATGA	MNAQTRENTSMLDAQSKAGTLIEALPWIQRFAGTTMVIKYGGNAMVNDELRRAFAEDVVFLHHVGIHPVVVHGGGPQINSMLARLGIESEFKGGLRVTTPEAMDVVRMVLTGQVGRELVGLINSHGPYAVGMSGEDGGLLRAVRTGTVIDGEEVDLGLVGEVVGVNPEGILDILAAGRIPVISTVAPEIEDDGSGTTGQRVQTTGQVLNVNADTAAAALAEALSASKLVILTDVEGLYANWPDRSSLISSITASDLRHLLPSLESGMIPKMEACLKAVDGGVERAHIVDGRLPHSMLLETFTTAGIGTQVVPDEDLDIDVKEVTA	PGPT0014249_259	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014249-argB-K00930	NA	NA
D1-29_01649	1305	argD	COG4992	Acetylornithine aminotransferase	ATGAACCAGGTAGACACCGGGAACCAGGGTGGCCCCGCCTACAATTCGGCCCCCAGCACTGCGGCCGTTGAGAAGGCATCCGTTGGCGAACTCGTCGACGGGAAGGGCCACACCACGGGAGCTGACTGGCTTGCCCGCTATTCCAGTTCGCTGATGGGCGTCTTCGGAACGCCGCAGCGGGTGCTGGTCCGTGGCGCAGGATGCCTGGTCTGGGATGCCGACGGCAAGGAGTACCTTGACCTGCTCGGCGGGATCGCGGTCAACGCCCTGGGCCATGCCAACCCGTTTGTCACTTCGGTCATTTCCAGCCAGCTGGCCACCCTGGGGCACGTCTCAAACTTCTTCACCAGCCCCACACAAATAGCGCTCGCGGAAAAACTGCTCACCCTGGCAGGCGCGCCCGCCGCCTCCAAGGTGTTCTTTACCAACTCCGGCACGGAAGCGAATGAGGCAGCGTTTAAGCTCGCCCGGCGCAACTCCAGCGGTGCCCGGACCAAAATCATTGCCCTCGAGGGTGCCTTCCACGGCCGCACCATGGGAGCCCTTGCCCTCACGGCGAAGGAAGCGTACCGTGCTCCGTTCGAGCCGCTGCCCGGCGGTGTTGTGCACGTCCCCTTCGGCGACGTCGATGCCCTGGAAGCCGCCATTGACGAAACGGTGGCCGCGGTGTTCCTCGAGCCGATCCAAGGCGAAGCAGGCGTCCGGCCGCTGCCGCCGGGTTACCTGAGGGCCGCCCGCGAGGCGACCATCAGGGCCGGGGCCCTGCTCATCCTGGACGAGGTCCAGACCGGGATCGGCCGGACGGGGAAGTGGCTCGCCAGCGAGGACTCGGGAATTGCTCCGGACGCCGTCACCCTGGCCAAGGGACTCGGCGGCGGATTCCCCATTGGTGCGCTGATCACCTTCGGCGCCCAGACGTCGTCGCTGCTGAGTGCTGGCCAGCACGGCACCACTTTCGGCGGAAACCCGGTGGCCACGGCCGCCGCCCTGGCCACGCTGCACGCCATCGAGACCCAGCGTGTCCTGGAGAACGTGGCAGGCGTGGGAGAGCACCTGCGCGCCGGGCTGGCCGCCATCGAGGGTGTCACCGAGGTCCGTGGTGAAGGCCTCCTGATCGGCTTTGACCTCGATGCCGACGTCGCGCCTGCTGTTGTTACTGCGGGCCTTGATGCCGGTTTCATCGTCAACAGCCCCGGGCCCCGCACCATTCGGCTTGCCCCGCCGCTGGTACTCACTACCAGCCAGGCCGATACTTTCCTCGCCGCCTTCCCGGCAATCCTCTCCACAGCTAAGGACGCCCAGTGA	MNQVDTGNQGGPAYNSAPSTAAVEKASVGELVDGKGHTTGADWLARYSSSLMGVFGTPQRVLVRGAGCLVWDADGKEYLDLLGGIAVNALGHANPFVTSVISSQLATLGHVSNFFTSPTQIALAEKLLTLAGAPAASKVFFTNSGTEANEAAFKLARRNSSGARTKIIALEGAFHGRTMGALALTAKEAYRAPFEPLPGGVVHVPFGDVDALEAAIDETVAAVFLEPIQGEAGVRPLPPGYLRAAREATIRAGALLILDEVQTGIGRTGKWLASEDSGIAPDAVTLAKGLGGGFPIGALITFGAQTSSLLSAGQHGTTFGGNPVATAAALATLHAIETQRVLENVAGVGEHLRAGLAAIEGVTEVRGEGLLIGFDLDADVAPAVVTAGLDAGFIVNSPGPRTIRLAPPLVLTTSQADTFLAAFPAILSTAKDAQ	PGPT0014253_101	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
D1-29_01650	1026	argF	COG0078	Ornithine carbamoyltransferase	GTGACTCCCGCAAGCAACTCAGCTTCAGCCGGCACCACCCGTCACTTCCTCAAGGACACTGACCTCAGCCCTGTTGAGCAGGCAGAGGTCCTGGAGCTGGCGCTCCGCCTCAAGGCGGAACCGTACAGCGTCCAGCCGTTCGCGGCGGAGGGGAGTGGCCGCAAGACGGTGGCAGTCATCTTCGACAAGACATCAACGCGCACCCGGGTGTCCTTTGCCACCGGCGTGGCTGACATGGGCGGCAACGCCCTGATCATCAACCCGGGTGAAGCGCAGATCGGCCACAAGGAATCGGTCGAGGACACCGCAAAGGTCCTCGAACGCATGGTCTCCACCATTGTTTGGCGGACCGGGGCACATGCAGGGCTGGTGGCCATGGCCGAAAACTCCAGGGTTCCGGTGATCAACGCCCTCTGCGACGACTACCACCCGTGCCAGCTGCTGGCAGACCTGCTGGCGGTCAAGGAGCACAAGGGCGAGCTCAAGGGACTCACCATGAGCTACCTGGGCGACGCTGCCAACAACATGGCCAACTCCTACCTGCTGGCCGGGGTGACAGCAGGCATGCACGTCCGCATCGCGGGGCCCGAAGGCTACCTGCCCGCGGAGGAAATCGTTGCCGCCGCCGAGGAACGTGCGGCCGAAACAGGCGGCTCGGTGCTGGTCACCACCGATGCGGCCGAGGCCCTCAAAGGTGCCGACGTCGTGGCCACTGACACGTGGGTGTCCATGGGACAGGAAGCCGAAAAGGAAGCCCGGATGCAACTGTTCCGGGACTATTCCGTCGATGAGGCGGCCATGGCACACGCGGCGGATGACGCCGTCGTCCTCCACTGCCTGCCCGCCTACCGTGGCTATGAGATCTCGGCAGGCGTCATCGACGGCCCGCAGTCGATCGTGTGGGACGAGGCCGAAAACAGGTTGCATGCCCAGAAAGCCCTGATGGCCTGGCTGATGCACCGCTCCGGGCTGGCATTCGTCGACGGTCTTGCTCCCGTCGAAGGCACCGGGGAGAGCACGTTCTAG	MTPASNSASAGTTRHFLKDTDLSPVEQAEVLELALRLKAEPYSVQPFAAEGSGRKTVAVIFDKTSTRTRVSFATGVADMGGNALIINPGEAQIGHKESVEDTAKVLERMVSTIVWRTGAHAGLVAMAENSRVPVINALCDDYHPCQLLADLLAVKEHKGELKGLTMSYLGDAANNMANSYLLAGVTAGMHVRIAGPEGYLPAEEIVAAAEERAAETGGSVLVTTDAAEALKGADVVATDTWVSMGQEAEKEARMQLFRDYSVDEAAMAHAADDAVVLHCLPAYRGYEISAGVIDGPQSIVWDEAENRLHAQKALMAWLMHRSGLAFVDGLAPVEGTGESTF	PGPT0020080_1030	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
D1-29_01651	534	argR	COG1438	Arginine repressor	GTGTCCAACAACGCGTCGGTGCCGGGCTCCAGCCCGGCCACCAAAACCGCCCGGCAGGCGCGTATCATCGCGATCCTGACGGGGGAGTCGGTGCGCTCCCAGGCGGAGCTCGCCGCGCTGCTGGCTGACGACGGCGTCCAGGTCACCCAGGCCACGCTGTCCAGGGACCTGGTGGAACTCGGCGCCGTCCGGGTTCGGGGCAAGGAAGGCGTCCTGGTCTACGCCGTTCCCGGCGAGGGCGGGGAACGGGCGGCCAAAAGCGGTGTCAGCCAGGAAATCCTGGACGCGAGGCTTGCCCGGCTGTGCAGCGAACTCCTGGTGACAGCGGAGGCGTCAGCCAACATCGCAGTCCTCAGAACACCCCCCGGCGCCGCGAACTTCCTGGCGCTGGCCATCGACCACTCGGTGATGCCCTCCATCCTGGGCACCATCGCCGGGGACGACACCGTACTCCTGGTCTCCCGGGACCCCCAGGGCGGCCAGGACCTCGCCGCCCGGTTCCTGCAGCTGGCAGAGGAAGCCGGCGGGCAGTAA	MSNNASVPGSSPATKTARQARIIAILTGESVRSQAELAALLADDGVQVTQATLSRDLVELGAVRVRGKEGVLVYAVPGEGGERAAKSGVSQEILDARLARLCSELLVTAEASANIAVLRTPPGAANFLALAIDHSVMPSILGTIAGDDTVLLVSRDPQGGQDLAARFLQLAEEAGGQ	PGPT0020105_240	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020105-ahrC-K03402	NA	NA
D1-29_01652	1206	argG	COG0137	Argininosuccinate synthase	GTGACTGAGCGCATTGTTCTGGCCTACTCCGGTGGCCTTGATACTTCCGTAGCCATCGGCTGGATCGGCGAAGCAACCGGGGCCGAGGTCATCGCCGTGGCCGTTGACGTCGGGCAGGGCGGCGAGTCGCTGGAGACCATCCGCCAGCGTGCACTGGGCTGCGGCGCAGTGGAGGCATACGTGGCAGACGCCAGCGACGAATTCGCCAACGAGTACTGCGTCCCCACGCTGAAGGCCAATGCCCTGTACCAGGGTCACTACCCGCTGGTGTCCGCCATCTCCCGGCCCGTCATCGTCAAGCACCTGGTCAAGGCCGCCCGCGAGTTCGGCGCCACCACCGTGGCCCACGGCTGCACCGGCAAGGGCAACGACCAGGTCCGCTTCGAAGTGGGCATCCAGACCCTCGGCCCGGACCTGAAGTGCATCGCCCCGGTCCGCGACCTCGCCCTGACCCGCGACAAGGCCATCGCCTTCGCCGAGGAAAAGGGACTGCCGATCGAAACCACCAAGAAGAACCCGTACTCCATCGACCAGAACGTCTGGGGCCGGGCCGTCGAAACCGGCTACCTCGAGGACATCTGGAACGCCCCCACCAAGGACATTTACGACTACACCGCCACCCCGGAGTTCCCCCCGGCCCCGGATGAGGTCACCATCTCCTTCGAAGCGGGAGTCCCGGTAGCCATCGACGGCATCAAGGTCACGCCGCTCCAGGCCATCAAGGAACTGAACCGCCGCGCCGGCGCCCAGGGCGTGGGCCGCATTGACGTCGTCGAGGACCGGCTCGTGGGCATCAAGTCCCGCGAAATCTACGAGGCCCCCGGCGCCATGGCGCTGATCACCGCCCACAAGCACCTCGAGGACATCACCATCGAGCGCGAGCAGGCCCGCTTCAAGGCAACGGTTGGCCAGCGCTGGGCCGAGCTGGTCTACGACGGCCAGTGGTTCTCCCCGCTCAAGCGCTCCCTGGACGCCTTTATCGAGGACACCCAGCGCTACGTCTCCGGCGACATCCGGATGGTCCTGCACGGCGGCCAGGCGATTGTTAACGGCCGCCGCTCCGACACCTCGCTGTACGACTTCGACCTCGCCACCTACGACACCGGGGACACCTTCGACCAGTCCATGGCGCGCGGCTTTATCGAGCTGTGGGGCATGTCCGCCAAGGTTGCCTCCGGCCGCGATATCCGCGTCGCAGGAAAGTAG	MTERIVLAYSGGLDTSVAIGWIGEATGAEVIAVAVDVGQGGESLETIRQRALGCGAVEAYVADASDEFANEYCVPTLKANALYQGHYPLVSAISRPVIVKHLVKAAREFGATTVAHGCTGKGNDQVRFEVGIQTLGPDLKCIAPVRDLALTRDKAIAFAEEKGLPIETTKKNPYSIDQNVWGRAVETGYLEDIWNAPTKDIYDYTATPEFPPAPDEVTISFEAGVPVAIDGIKVTPLQAIKELNRRAGAQGVGRIDVVEDRLVGIKSREIYEAPGAMALITAHKHLEDITIEREQARFKATVGQRWAELVYDGQWFSPLKRSLDAFIEDTQRYVSGDIRMVLHGGQAIVNGRRSDTSLYDFDLATYDTGDTFDQSMARGFIELWGMSAKVASGRDIRVAGK	PGPT0020130_3829	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940	NA	NA
D1-29_01653	1428	argH	COG0165	Argininosuccinate lyase	GTGGCTGAGCCTAAGTCTGAAGCGACAAATACTGGAGCACTGTGGGGCGGCCGCTTTGCCGGCGGCCCCGCAGATGCCCTCGCCGCACTCAGCAAGTCCACCCACTTCGACTGGCGGCTGGCCCGCTACGACATTGCAGGCTCCGTGGCCCACGCCCGCGTCCTGCACAAAGCGGGGCTGCTGGATGACGCCGAGCTCAAAGGCATGCTGGCCGCCCTCGGCCAGCTGGATGACGATGTAGCCTCCGGCGCCTACCTGCCTGCTGAATCCGACGAGGACGTGCACGGCTCGCTGGAACGCGGCCTGATCGAACGCGCCGGCACCCAGCTCGGCGGCAAGCTCAGGGCGGGACGTTCGCGCAACGACCAGGTGGCTACGCTGGGCCGGATGTTCCTCCGGGACCATGCCCGCATCATCGCGCGCGGCGTTCTCGCCACGATCGAATCGCTGGTGGAGCAGGCCAAGGCCCATCAGGGGGTGGCCATGCCCGGCCGCACCCACCTGCAGCACGCCCAGCCGGTGCTGCTGAGCCATCATCTGCTGGCCCACGCCTGGGCGCTGCTCCGTGACGTGCAGCGGCTCCAGGACTGGGACAAGCGCGCCGGTGTATCGCCGTATGGCTCGGGTGCTTTGGCCGGATCCTCGCTTGGCCTGGATCCGGAAGCGGTGGCAGCGGAGCTTGGCTTCTTCTCCGCCACCCACAACTCCATCGACGGTACGGCTTCCCGCGACGTCTTCGCCGAGTTCGCCTGGGTGTGTTCCATGATCGGAGTGGACCTGTCCCGCGTCTCCGAGGAGGTCATCCTGTGGGCCACCAAGGAGTTCTCCTTTGTGACCCTGCACGATTCCTACTCCACGGGTTCGTCCATCATGCCGCAGAAGAAGAACCCCGACGTGGCCGAACTGGCGCGCGGCAAGGCGGGCCGTCTGATCGGGAACCTGACCGGCCTGCTGGCGACGCTCAAGGGCCTGCCGCTTGCCTACAACCGCGATCTGCAGGAGGACAAGGAACCGGTCTTTGATGCCGCCGACACCCTGGAGCTGCTGCTTCCGGCTGTCTCCGGCATGATCGCCACCCTGAAGTTCAACACGGAGCGGATGGAGTCCCTGGCGCCCCAGGGCTTCGCGCTGGCCACTGACATTGCCGAGTGGCTGGTACGCCAGGGTGTTCCGTTCCGGGAGGCCCACGAGCTGTCCGGTGCCGCCGTCAAGCAGGCCGAATCACGCGGCGTCGAGCTGTGGGACCTGACGGACGGGGAATATGCCGCCATCTCCGAGCACCTGACACCGGAAGTCCGCACGGTCCTGAGCACGGAGGGATCGCTCAACAGCCGCAACTCCCAGGGCGGCACCGCACCGGCCGCCGTCGAACGCCAGCTGGTGGCCCTCGAAAGCGAGCTCGCCGGAGTACGGGAGTACGCGGGGTAG	MAEPKSEATNTGALWGGRFAGGPADALAALSKSTHFDWRLARYDIAGSVAHARVLHKAGLLDDAELKGMLAALGQLDDDVASGAYLPAESDEDVHGSLERGLIERAGTQLGGKLRAGRSRNDQVATLGRMFLRDHARIIARGVLATIESLVEQAKAHQGVAMPGRTHLQHAQPVLLSHHLLAHAWALLRDVQRLQDWDKRAGVSPYGSGALAGSSLGLDPEAVAAELGFFSATHNSIDGTASRDVFAEFAWVCSMIGVDLSRVSEEVILWATKEFSFVTLHDSYSTGSSIMPQKKNPDVAELARGKAGRLIGNLTGLLATLKGLPLAYNRDLQEDKEPVFDAADTLELLLPAVSGMIATLKFNTERMESLAPQGFALATDIAEWLVRQGVPFREAHELSGAAVKQAESRGVELWDLTDGEYAAISEHLTPEVRTVLSTEGSLNSRNSQGGTAPAAVERQLVALESELAGVREYAG	PGPT0014242_81	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014242-argHA-K14681	NA	NA
D1-29_01654	804			hypothetical protein	ATGACAGCTCCCGCACCGGATACCCTTCTCACCGAACTTCATAAAGCCGCCGACGCCGCCGCCTCGGCCGCCGGGAAGCTCACGGATGAGGACGTGCTGGCCCCGTCCACCCTTCCCGGCTGGACGCGCGGCCATGTGCTGGCGCACATTACCGGGATCTCCCATGCCATGGCCAGGCAACTGGAATACGCTGCCCGCGGCGAGACCGTTGAACTGTACGACGGCGGCCAGGATGGCCGGAACAACGCGATCAACACGGCAGCCGGCCATGATGCTGCCACCCACCGGAAAGACCTGCAGGCAGCCCTTGACCGGGTGCTGAAGGCCTTTGACTCCGTGGCTGGCCCGGAAGCCCCCGGAGCAGCAGGCCCCGGCAGTGACACGCCGGCATCCGGAACGGGAGAATCAGGCGTCACCTGGCAGACACCCATCGCCTACCGAGGGGGAGTGGTCCTGGACGGCGGCCTGGCCCTGTGGCGCGAACTGGTCATCCACACCTCGGACCTGGGAACAGGGCCCGGTCCGGAAGCCTGGAGCCGGCTCTTTTGCGAGCACCTGTTCGGCTTCCTGGCAGCCCGGGTTCCGCCTGGCGACAAGCTGGTGCTGCAGCCCCTGGGGTTGCCGCCGGTAACCATTGGCAGCGGCGGCCGCTCCATTGTCATCAGTGGAATGATCACCGACATTGCAGCCTGGCTTGCCGGCCGCGAACCATCCCTGGGCAGCCTGCGGGCCTCCGCGGCCGCCGACGGCGTGGACCTGCCGACTCTGCTGCCCTGGCCCTCCGGGGTGCCTGCGGCCAAGTAG	MTAPAPDTLLTELHKAADAAASAAGKLTDEDVLAPSTLPGWTRGHVLAHITGISHAMARQLEYAARGETVELYDGGQDGRNNAINTAAGHDAATHRKDLQAALDRVLKAFDSVAGPEAPGAAGPGSDTPASGTGESGVTWQTPIAYRGGVVLDGGLALWRELVIHTSDLGTGPGPEAWSRLFCEHLFGFLAARVPPGDKLVLQPLGLPPVTIGSGGRSIVISGMITDIAAWLAGREPSLGSLRASAAADGVDLPTLLPWPSGVPAAK				NA	NA	NA	NA	NA
D1-29_01655	495	ogt		Methylated-DNA--protein-cysteine methyltransferase	ATGAAAGCCCAGCTGTTAACGATGTCCACCCCGGATGGACCCTTCACCATCCTTGCCCGGGATGGAGCAGTGCTGGCCTCAGGCTGGACCGCGGAGCCCGGCGAGCTCACCGGCCAGATCCACCCAGCGCTTCGACCTGCCGGGGTGGAGACAGTAACGGAGCTGGGTCCTATCTCTCTGGCCGTGGAGGCGTTCTACCTTGGAGATCCCGGCCCTGCGATGAGCGTGGCCGTGCAGCAAAGGTCAGGCCCGTTCCGCAGCCATGCCTGGGATATGCTCCGGACAGTCCGGCCGGGCTTCCCGGTAACGTACACGGAGTACGCCGAGTTGTCCGGCAATCCGAAGGCCGTCAGGGCGGCCGCAAGTGCCTGCGCCTTCAACGCCGCGGCCCTTTTTGTGCCGTGCCACCGCGTGATCCGGACGGACGGCACCCTGGGCGGCTTCCGCTGGGGCCTGGCCATCAAGAGGAGTCTGCTGGACCGCGAGGCAGGCTGA	MKAQLLTMSTPDGPFTILARDGAVLASGWTAEPGELTGQIHPALRPAGVETVTELGPISLAVEAFYLGDPGPAMSVAVQQRSGPFRSHAWDMLRTVRPGFPVTYTEYAELSGNPKAVRAAASACAFNAAALFVPCHRVIRTDGTLGGFRWGLAIKRSLLDREAG				NA	NA	NA	NA	NA
D1-29_01656	1497	alkA	COG0122	putative bifunctional transcriptional activator/DNA repair enzyme AlkA	ATGGACTTCTGGCAGCGCTACCGTGCGATCGACGCGCGGGACCCCCGGTTCGACGGACAGTTTTACACCGCTGTCCGCACCACGGGCATCTACTGCCGCCCCTCCTGCCCGGCCAGGACCCCCAAAGCCGGCAACGTGACGTTCTACGAGACCTCCGCCGCCGCCCATGAAGCCGGTTACCGCGCCTGCAAGCGCTGCCTCCCCGAAGCCGTACCCGGCACACCCGCCTGGAACATACGGCAGGACCTTGCGGGCCGGGCCATGCGCCTGATCAATGACGGCGTCATTAACCGGGACGGTGTGGGAGGCCTGGCGGCGCGGCTGGGCTACTCCTCCCGGCAGCTCAACCGGATCCTCAGCCAGGAGCTGGGCGCCGGGCCGCTCTCCCTGGCCCGCGCCAGCCGCGCCCAGACGGCCCGGACGCTGCTGGTATCCACCTCCATGAAGCTTGCCGACATCGCCTTCGCGTCAGGCTTCAGCAGTGTCCGACAGTTCAACGACACCATGGTGGAAGTCTTCGCGATGACACCTACGGCCCTGCGCGCTACGGCGAGGCACCATGGGCCAGCCACCGCCACTACCGCCCTGACGTTGAGCCTGCCCTACCGCGAGCCGTTCGATCCGGGCGTCTTTTCGTTCCTGGCAGTCAGGGCCATTCCCGGCATCGAAGCCGGGACTGCCACGTCCTACTCCCGCACCTTGCGGCTCCCCCACGGTGATGCCCGCTTCAGCGTCGAGTACGACGCCGGCACCCCCGGACGGCCCCTGACCCTCACCATCGGCGCGGTGGACCTCCGTGATTTGGCAGCGCTACTGAGCCGCGTTCGCCGCCTGTTTGACCTCGACGCCGATCCCGTAGCGATCGACAACGCCCTTGCCGCGGATGCAAGGTTGGCCTCCGCCGTGACCGGCGCCCCCGGCATAAGGATGCCCGGCGCCCTTGATCCGCAGGAACTGCTCATCAGGGCCATGATGGGCCAGCAGATCACCGTGGCTGCGGCCCGCACGGCTTTGACCCAGCTGTCGGCTGCCGGGAGCCCCACGCTGCTGCCCGGCAACGGGCTGGACCGGCTGTTTCCCACCGCTGCCGAGATCGCCGACCACGGATACACGCTGCTGCGCGGCCCACAGCGCCGAATCGACTCCCTCCGCACGGCGGCAGCAGCCCTCGCCGCCGGAGAACTGGACTTTGGCTACGGCGACGACCTTCCCGGCCTGGCCGCGAAACTGCTGCCACTTGCCGGCGTCGGTCCCTGGACGGTGGGTTACGTGGCCATGCGCGTGCTTGGAGCGCCCGATGTTTTCCTGGCGAACGACGCAGCTGTACGCAATGGGATCCGGGCGCTTGCCCTGGAGTGCCCGACGGGCGCGGCCAGTCCCGATTTCCGCGAAGTCAGTCCCTGGCGGTCCTACGCCACCATGCACTTGTGGCGCGCGGCCACCACGCAAGGTTCCCACCGTTCTGAGAAATCAGCTCCAGAGAAAGCGATGCGATGA	MDFWQRYRAIDARDPRFDGQFYTAVRTTGIYCRPSCPARTPKAGNVTFYETSAAAHEAGYRACKRCLPEAVPGTPAWNIRQDLAGRAMRLINDGVINRDGVGGLAARLGYSSRQLNRILSQELGAGPLSLARASRAQTARTLLVSTSMKLADIAFASGFSSVRQFNDTMVEVFAMTPTALRATARHHGPATATTALTLSLPYREPFDPGVFSFLAVRAIPGIEAGTATSYSRTLRLPHGDARFSVEYDAGTPGRPLTLTIGAVDLRDLAALLSRVRRLFDLDADPVAIDNALAADARLASAVTGAPGIRMPGALDPQELLIRAMMGQQITVAAARTALTQLSAAGSPTLLPGNGLDRLFPTAAEIADHGYTLLRGPQRRIDSLRTAAAALAAGELDFGYGDDLPGLAAKLLPLAGVGPWTVGYVAMRVLGAPDVFLANDAAVRNGIRALALECPTGAASPDFREVSPWRSYATMHLWRAATTQGSHRSEKSAPEKAMR				NA	NA	NA	NA	NA
D1-29_01657	645		COG2094	Putative 3-methyladenine DNA glycosylase	ATGAGCACCAACCCACGGGCGGAGGAAGACAAGCTCCGGGAGCTCCTGTCGGGCGACGCACGTGATGTTGCGCCCCTGCTCCTGGGTGCAGTCCTGACCCATGATTCCCGGGACGGCGCGGTGTCGGTCCGGCTGACGGAAATAGAGGCTTATCTGGGCCCGGAGGATTCGCTGCACCCGGACCCGGGTTCACACACGTACCGCGGCCCCACCGCCAGAAATGCGCCGATGTTCGGCCCGGCAGGTCACCTCTACGTCTATTTCACCTACGGGATGCATCACTGCGCCAATATCGTGTGCGGCCCAGCGGGAGTCGCGTCCGCGGTCCTGCTGCGGGCCGGAGAAGTAACGGCTGGGCACCAGCTTGCCCAGCGGCGCCGGCCTACGTCCCAGTCCACAGCCGATCTGGCCAGCGGGCCGGCGAGGCTGGCCAAAGCGCTGGGGCTGACCACCGCAGACAGTGGCCGTGACGCCCTGGCCGTTCCGTTTCGCCTGGAGCTGCCCGTAGAGCCTGTAGCCGCGATCAGTTCCGGCCCACGGGTGGGCGTGTCCGGCGCCGGCGGGTCAGACAGGTATGCGTGGCGGTTCTGGATCACGGGCGATCCCACGGTGTCGCGGTACAAGGCAGCAAAAGCGAGAAGGTGA	MSTNPRAEEDKLRELLSGDARDVAPLLLGAVLTHDSRDGAVSVRLTEIEAYLGPEDSLHPDPGSHTYRGPTARNAPMFGPAGHLYVYFTYGMHHCANIVCGPAGVASAVLLRAGEVTAGHQLAQRRRPTSQSTADLASGPARLAKALGLTTADSGRDALAVPFRLELPVEPVAAISSGPRVGVSGAGGSDRYAWRFWITGDPTVSRYKAAKARR	PGPT0014885_493	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014885-yxlJ|aag-K03652	NA	NA
D1-29_01658	2229			hypothetical protein	ATGCTCGACGCCGATTTGGCCCACGAACGGGACTATGTTGCCGGCCTGTATGCGCGGCTTGAAGAGCTCCGCGAGGAAAAGCGCAAGCAACTGGCGCAGGTCCGGCGTGCCGGTGCCGTGGGCACCATGCAGAATGTTTCCGAACGTGACGCATTCGCTGCCCTCTATGAGGACCGCCTGGCCCAGCTGGATGCCGTGGACGACCGCCTCGTCTTTGGCCGCCTTGACCTGGACTCCGGCGAAGCCCAGTACATCGGGCGTATCGGCCTGACCACCGAGGATCTGCAGCGCCTGATGGTGGACTGGCGCGCGCCCGAAGCAGGCCATTTCTACCAGGCAACGGCATTCGACCGGCAGGGGGTCCGCCGCCGCCGCCACCTGATCCTGCAGGGCCGGGAAGTCAAGGCCATCGAGGATGATGTGCTGGACGCCGGCATGTTGGCGGACAATGCGTCCCTGCAGGGCGAAGGCGCCCTGCTGGCCGCGCTGGACTCCAAGCGGACCGGCCGGATGTCCGACATTGTCGGAACCATCCAGTCCGAGCAGGACCGCATCATCCGGTCCTCCATCTCCGGCGCCGTTGTGGTGCAGGGCGGCCCAGGCACCGGCAAGACCGCGGTTGCGCTGCATCGCGCCGCCTATCTGCTCTATACCCACCGGGACCGGCTTAAGACCGCCGGCGTACTGTTGGTGGGCCCGTCGTCGTCGTTCATGAAGTACATCGAACGGGTGTTGCCTTCCTTGGGCGAAACCGGTGTGGTGATGGCAAGCGTGGGGCGGCTGATGCCCGGTATCAACGCTGTTGCGGAGCCTGAAGCGGACGTCGCCGCCATCAAGGGCAGGCTGGACATGGCAGACGTCGTGGCCAACGCAGTGGCCAACCGGCAGCGGATTCCGGCAGAGAACCGCGTCCTGGAAGTTGACGGCCGCAAGCTGCTGCTGACGCCGCGGCAGGTCCGCCGCGCCCGCGAGCGTGCCCGTTCCACTGGTAAGCCACACAACGAGGCACGCCTCACCTTTGTGAAGATCCTGCTCCGGGAACTGACCGAACAGATGACGGAACTCGTGGAGGCCGGAAGCATCGGCAACAACGCCGACCGCTCCTATCTGGCTGAAGACGTCCGCACCGCCCGGGATGTGCGGATCGCACTGAACCTTTGCTGGATGCCCATGACTCCGGAGAAGCTGATCAACGAGCTCCTGAGCAAGCCCGCCGTGCTGGAGGCCTGCACCCCGCACCTCAGCCCGGCCGAGCGGGCCCTGCTGCTTCGTCCCGCGGGTGCCCCGTGGACGGAGGCCGATGTCCCTCTGCTTGACGAGGCTGCAGAGCTGCTCGGCGAGCTTGATCCGGCCGCGGGCAGGGGGCTGGCCCAGCAGGAGCACGACCGCGCCCGCGACCTCGCCAACGCCAAGCAGACCCTGGTCAACATGGAAACCGCAGGCGTGGACGTCCTGGTGTCCGCCGAGGAACTGGTGGACCAGAACCAGGAACGCGAAGGCAGGCTGACGGCTGCCGAGCGTGCCACCAGTGACAGGACCTGGGCGTTCGGGCACATTGTGGTGGACGAGGCCCAGGAGCTTTCCCCCATGCAATGGCGCCTGTTGGTCCGCCGGTGCCCGGTGAAGTCCTTCACCATTGTTGGCGACATCGCCCAGACCAGTTCCGTGGCGGGCGCCAACTCGTGGCAGGCCGCACTTGGTCCCATGTTCGGGGACCGCTGGCAACTCGAAGAGCTGACGGTCAACTACCGCACGCCCTCGCAGATCGCAGAAGCCGCAGCGCGGATGGCCAATGCCGCCGGGCTTGTGGTCTCGGCACCCAAGGCAGTCCGGGAGGGGCGCTGGTCGCCAATCATTGACCGCGTGGAGACAGGCAAAGTCGTCAGCCGGCTCGTTGAGGTCCTGCCAGAGGAACTGGAAGCGCTCGACGGCGGCCTGCTGGCCGTTATCGCCGACGGCCACTTGCTGCCGGAAGCCACAGCAGCCCTGCGCGCCATCTACGGCAGGCGCATTGGCAACGGTGCCGGAAGCTACGAACAGGACATTGTTGTCATCAGCCCCCGCGAGGCCAAGGGGCTGGAGTTCGATGGAGTAGTGGTGCTGGAACCGGCCATGATGCTTAACCACGAGCATGGCCGGGTCGGGGACCTCTACGTCGCCATGACGCGTCCCACGCAGCGGCTCAGACTGATCGCGGCAGGGACCGTTCCGGCGGGCATCGAACGCTGA	MLDADLAHERDYVAGLYARLEELREEKRKQLAQVRRAGAVGTMQNVSERDAFAALYEDRLAQLDAVDDRLVFGRLDLDSGEAQYIGRIGLTTEDLQRLMVDWRAPEAGHFYQATAFDRQGVRRRRHLILQGREVKAIEDDVLDAGMLADNASLQGEGALLAALDSKRTGRMSDIVGTIQSEQDRIIRSSISGAVVVQGGPGTGKTAVALHRAAYLLYTHRDRLKTAGVLLVGPSSSFMKYIERVLPSLGETGVVMASVGRLMPGINAVAEPEADVAAIKGRLDMADVVANAVANRQRIPAENRVLEVDGRKLLLTPRQVRRARERARSTGKPHNEARLTFVKILLRELTEQMTELVEAGSIGNNADRSYLAEDVRTARDVRIALNLCWMPMTPEKLINELLSKPAVLEACTPHLSPAERALLLRPAGAPWTEADVPLLDEAAELLGELDPAAGRGLAQQEHDRARDLANAKQTLVNMETAGVDVLVSAEELVDQNQEREGRLTAAERATSDRTWAFGHIVVDEAQELSPMQWRLLVRRCPVKSFTIVGDIAQTSSVAGANSWQAALGPMFGDRWQLEELTVNYRTPSQIAEAAARMANAAGLVVSAPKAVREGRWSPIIDRVETGKVVSRLVEVLPEELEALDGGLLAVIADGHLLPEATAALRAIYGRRIGNGAGSYEQDIVVISPREAKGLEFDGVVVLEPAMMLNHEHGRVGDLYVAMTRPTQRLRLIAAGTVPAGIER				NA	NA	NA	NA	NA
D1-29_01659	1371	tyrS	COG0162	Tyrosine--tRNA ligase	GTGAACGGTGCTGTGGATTCGGCGCCGGCGGCCTGCAATCCTGCTAACTTAGAAGGCGTGTCAGAACTCAACGATCTCGAATCCCAGCAGAACGACCCCTCCTTCGCCAATGTTTGGCAGGAGCTCAAATGGCGCGGCCTGGTCCATGTCTCCACTGATGAAGCGGAACTGGAAAAGCTCCTCGCCGGCGAGCCGGTCACCTATTACTGCGGCTTCGACCCCACTGCACCAAGCCTGCACCTGGGGAACCTTGTTCAGCTGCTGCTGATGCGGCGGCTGCAGCTTGCCGGCCACAAGCCGCTTGGCCTGGTGGGCGGTTCCACCGGCCTGATTGGTGATCCGCGGCCCACGGCCGAGCGCACGCTCAACACCAAGGACACCGTGACCGAGTGGGTGGGCTACCTGCAGGCACAGGTCCGCCGCTTCCTGAGCTTTGAAGGGGCCAATTCTGCCCGAATGGTCAACAACCTTGACTGGACAGCGCCGCTGAGTGCCATTGATTTCCTGCGCGAGATCGGCAAGCACTACCGGGTGGGGACCATGCTCCGCAAGGATGCCGTCGCCTCCAGGCTCAACTCCGAGGAAGGCATCAGCTACACGGAGTTCAGCTACCAGATCCTGCAGGGTATGGATTACCTCCAGCTTTTCCGTGACTACGGCTGCGTCCTGCAGACGGGTGGCTCGGACCAGTGGGGCAACCTCACCAGCGGCACGGAGCTGATCCGCAAGGTGGAGGGCAAGACCGTCCATGCCCTGGGCACGCCGCTGATCACCAATTCCGATGGCACCAAGTTCGGCAAGAGCGAAGGCAACGCGATCTGGCTCGACGCCGGCATGTGCAGCCCTTACGCCTTCTACCAGTTCTGGCTGAATACTGCCGACGCCGACGTTGTGGACAGGCTTAAAGTCTTCACGTTCCTGAGCAGGGCCGAGATCGAAGCCCTCGGTGCGGCAGTTGCGGAGCGCCCGTTCGCTCGCGAAGGCCAGCGGAAACTGGCGTTTGAGGTGACTTCGCTGGTCCACGGCGTGGAGGCGACCGAGAAGGTTATTGCCGCTTCCGCCGCTCTCTTCGGAAACGGGGACCTTACTGCGCTGGACAGGCAGACCCTCGAAGCGGCCACCTCTGAGCTTCCTTCCGCCAGGATCCAGGTGGACGGCATGGGCATCGTGGATCTGCTGGTTGCCTCAGGCCTTTCCGAGAGCAAGTCCGCAGCCCGCCGCACAGTGGGGGAAGGCGGAGCATATGTGAACAACGAGAAAGTCTCCGATCCGGAAGCTGTGATTTCCGAATCGGAACTGCTTCATGGCCAGTACCTGTTGCTGCGCCGGGGGAAGAAGAACCTGGCAACCGTGGAAGTCCTGGTTCCCTAG	MNGAVDSAPAACNPANLEGVSELNDLESQQNDPSFANVWQELKWRGLVHVSTDEAELEKLLAGEPVTYYCGFDPTAPSLHLGNLVQLLLMRRLQLAGHKPLGLVGGSTGLIGDPRPTAERTLNTKDTVTEWVGYLQAQVRRFLSFEGANSARMVNNLDWTAPLSAIDFLREIGKHYRVGTMLRKDAVASRLNSEEGISYTEFSYQILQGMDYLQLFRDYGCVLQTGGSDQWGNLTSGTELIRKVEGKTVHALGTPLITNSDGTKFGKSEGNAIWLDAGMCSPYAFYQFWLNTADADVVDRLKVFTFLSRAEIEALGAAVAERPFAREGQRKLAFEVTSLVHGVEATEKVIAASAALFGNGDLTALDRQTLEAATSELPSARIQVDGMGIVDLLVASGLSESKSAARRTVGEGGAYVNNEKVSDPEAVISESELLHGQYLLLRRGKKNLATVEVLVP				NA	NA	NA	NA	NA
D1-29_01663	2109			hypothetical protein	ATGGCTGAGCACAATGGCGGCAACCGCGGCGGAAATGACCGCGGTCCCTTCCGCGGCACGAACAACTCCGGCGGAGAACCGCGGGGATTCCGTTCCAGGGAAAACCGCGAAAGCACAGATGGTCCACGGCGCGGTGCCGGTTCCGGAGAGCGTAAGCCGTTCAGCGGTGGCGGCGACCGGAAGCCGTACGGTGACCGTGACAACAAGCCTTATGGTGACCGTCCGCGACGTGAGGGCGATGGTGAACGCAGCAGCTTCGGTGGCGGAGAGCGTAAGCCCTTCAGTGGTGGCGGCGAGCGGAAGCCGTACGGTGACCGTGACAACAAGCCTTATGGTGACCGTCCGCGCCGTGAAGGTGATGGTGAACGCCGCAGCTTCGGCGCCGGCGAGCGTAAGCCTTACGGCGGTGGCGCCGGTGGCGAACGCAAGCCTTACGGCGAGCGGAAGCCGTACGGTGACCGTGACAACAAGCCTTATGGTGACCGTCCGCGCCGCGAGGGCGATGGCGAACGCCGCAGCTTCGGTGGCGGCGAGCGTAAGCCCTTCAGCGGTGGCGGCGAGCGTAAGCCCTACGGTGACCGTGACAACAAGCCTTATGGTGACCGTCCGCGCCGCGAGGGCGATGGCGAACGCCGCAGCTTCGGCGCCGGCGACCGTAAGCCCTACGGCGGAGGCGCCGGCGGCGAACGCAAGCCCTACGGCGAGCGGAAGCCCTACGGTGACCGTGACAACAAGCCGTACGGTGACCGTCCGCGCCGCGAAGGTGATGGCGAACGCCGCAGCTATTCGGGGGGCGAAAACCGGAAGCCCTTTGGTGACCGCCAGGACAGGGCACCGCGCACTTTCGACCGCAGCGATTCAGGCCCGCGCCAGTTTGGACGCGACCGTCCGGAAGACCGTCCGGCACGTGTGCCCAACGCGCGCGACCTCCGCAGCGCCAACCGGCCGGACCGCGAACGCTCTCCGGAGATCGACGAGGACGTCACGGGCAAGGAGCTTGACCGCGCCACCCAGCATCAGATTAAGACCCTCGAAGACAAGAGCGCGGAGTGGGTGGCCCGTCACCTGGTGATGGCCGGCCGGCTGATCGACGACGAGCCGGAGCTTGCTTTCCAGCACGCCCTGGCCGCGAGCCGTCGTGGCGGCAGGCTTGCCGCCGTCCGCGAGGCTGTTGGCCTCACGGCCTATGCCGCAGGACACTACGGTGAAGCGTTGAGGGAATTCAGGACCTACCGCCGCATCAGCGGCTCAAACGTCCACTTGCCGGTGATGGCAGACTGTGAACGCGGCCTGGGCCGCCCGGACCGTGCCCTCGACGTGGTCCGATCCGAGGAAGCCAAGGACCTGGACGCTCCGGGTAAGGCTGAGCTGGCCATCGTGGCTGCCGGAGCACGCACCGATCTTGGCCAGCTGGATGCCGCCGTTGCTGAGCTGGAGATCCCGCAGCTTGATATCAACCGCGCTTTCTCGTACAGCCCCCGCCTGTTCCGTGCCTACGCCAATGCTCTGTCCGCAGTAGGCCGCGAGGCCGAGGCGGCCAAATGGGAGAAGCAGGCCGTTGTGGCCGAAAACGCCTTGGGCCTGGGCGCAGAGGAAGAGCCGGACATCCTGGACCTGGGCTGGGACGAGGAAGAAGAAGCCCGCGAGGATGCGGACCGCCGTCGCCTGATGGAACGCACTTCAAGCGAATCCAGCAGATCAACCGAATCCAGCAGATCAACCGAATCCAGCAGATCAACCGAATCCAGCACATCAACCGCAGCCGCCACGTCAACCGCAGCCGCCACCCTGTCCGAGGCAGTGGGGCCCGCTTCCGCTCCCGAAACAACCGGCGTGGACTCATCGGTTGATGACGCCGAATCAGACTTCTTCGAGTCGGATGACGCGGAATCGGATGAGGATTCCCTTGAACCAGACGAATTCGAGTCCGATGAACTCGAGTCCGATGAACTCGAGTCCGATGAACTCGAATCAGACGAACTCGAATCAGGTGAACCCAAGTCGGATGAACCTGCATTCGAGGGATCGGGATCTGACGAAGCTGAATCCATTGACGCCGGACAGGCCGACGACGAGGCTGCAGGTGACACCGAGAGCCGGGAACACTAG	MAEHNGGNRGGNDRGPFRGTNNSGGEPRGFRSRENRESTDGPRRGAGSGERKPFSGGGDRKPYGDRDNKPYGDRPRREGDGERSSFGGGERKPFSGGGERKPYGDRDNKPYGDRPRREGDGERRSFGAGERKPYGGGAGGERKPYGERKPYGDRDNKPYGDRPRREGDGERRSFGGGERKPFSGGGERKPYGDRDNKPYGDRPRREGDGERRSFGAGDRKPYGGGAGGERKPYGERKPYGDRDNKPYGDRPRREGDGERRSYSGGENRKPFGDRQDRAPRTFDRSDSGPRQFGRDRPEDRPARVPNARDLRSANRPDRERSPEIDEDVTGKELDRATQHQIKTLEDKSAEWVARHLVMAGRLIDDEPELAFQHALAASRRGGRLAAVREAVGLTAYAAGHYGEALREFRTYRRISGSNVHLPVMADCERGLGRPDRALDVVRSEEAKDLDAPGKAELAIVAAGARTDLGQLDAAVAELEIPQLDINRAFSYSPRLFRAYANALSAVGREAEAAKWEKQAVVAENALGLGAEEEPDILDLGWDEEEEAREDADRRRLMERTSSESSRSTESSRSTESSRSTESSTSTAAATSTAAATLSEAVGPASAPETTGVDSSVDDAESDFFESDDAESDEDSLEPDEFESDELESDELESDELESDELESGEPKSDEPAFEGSGSDEAESIDAGQADDEAAGDTESREH				NA	NA	NA	NA	NA
D1-29_01664	990		COG0647	D,L-glycerol 3-phosphate phosphatase	ATGGCTGCCGCTTCTCTGATTTCCCGGTTCGACGCCTTGCTGGCCGACCTGGACGGGGTAGTCTACGCCGGTCCGCACGCGGTTCCGGGAGCTGTTGATTCGCTTCAGCAGCTGGCCGGACTGGGCGTGGGCCTGGGCTATGTCACCAACAACGCCTCGCGTACGCCTGCCCAGGTTGCCGCCCATCTCAGGGAGCTGGGCGCGCCTGCCGAAGACGAGCAGGTGGTCAGTTCCTCGCAGGCCGCCGCGGAATTGCTTGCCTCGGTGCTTGCCCCCGCTTCCCGCGTCCTGATCACGGGAAGCCCGGCGCTTGCCCAGGAAATTGAACTCGTGGGCCTGACCCCTGTCTGGAGCCAGGATGAGGACCCGGTGGCGGTGGTCCAGGGCTTCAACCCCGCGATCGGCTGGAAGGACCTCGCCGAGGCCGCCTACGTGGTTGCCGCCGGCGCCCTCTGGGTGGCGACCAACACTGACATGTCCATCCCGCAGGCACGCGGCATAGCTCCCGGAAACGGCACGCTGGTAGCCGCGGTAGCCGCTGCAACCGGACAGAAGCCAAGAGTCGCCGGAAAACCGGAGGCTCCGCTGTTCCACACCGCCGCGAAGCGGCTTGCCTCTGACCGCCCGCTGGTGGTGGGCGACCGGCTGGACACCGACATCCTGGGCGGGAACAACGCCGGCTTTGCCACGGTGGCCGTCCTGACCGGCGTCGATACCAGGGAGACCATCCTGGCCGCCAGGACTGCCGAACGCCCCAACTACCTGATCAACTCGCTTTCGGACCTGCACCAGCCTTATCCGGCGATCGAAAACGCCGATGGGGTCTACCGCTGCGGCGCCTCCAGCGCGGTGGCCCTCGACGGCACCGTGAGGGTTGAGGGTAACGAGGATGACCTGGACTCCTGGCGGGCCGCCTGCGCCGCCTGGTGGGCCGCCGTGCCGGAGACAGCAGAGGCATACGCGCCCAGGCTTGAGTGGCTGGGTCACTAG	MAAASLISRFDALLADLDGVVYAGPHAVPGAVDSLQQLAGLGVGLGYVTNNASRTPAQVAAHLRELGAPAEDEQVVSSSQAAAELLASVLAPASRVLITGSPALAQEIELVGLTPVWSQDEDPVAVVQGFNPAIGWKDLAEAAYVVAAGALWVATNTDMSIPQARGIAPGNGTLVAAVAAATGQKPRVAGKPEAPLFHTAAKRLASDRPLVVGDRLDTDILGGNNAGFATVAVLTGVDTRETILAARTAERPNYLINSLSDLHQPYPAIENADGVYRCGASSAVALDGTVRVEGNEDDLDSWRAACAAWWAAVPETAEAYAPRLEWLGH	PGPT0024450_586	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHATASE_ACTIVITY,PGPT0024450-yutF|nagD-K06117	NA	NA
D1-29_01665	225			hypothetical protein	ATGACTGAGCTGAACGAAGAGCACCAGGCAGCCCAGCCCACTCCGGAATGGCCCGAAACCACGCCGGGGGACATTGGGGATCCTTCCGTCGAAGCCATCGTGGCTCCGCTGGACAGCCTCAGGGACCAGCCGGTGGCCGATCATGACGCTGTCTACGCTGAACTCCATGATGCCCTGCTGGAATCCCTGAACGAGGATGCCCCGTCAGCGAATGGTGGACAGTGA	MTELNEEHQAAQPTPEWPETTPGDIGDPSVEAIVAPLDSLRDQPVADHDAVYAELHDALLESLNEDAPSANGGQ				NA	NA	NA	NA	NA
D1-29_01666	813	tlyA	COG1189	16S/23S rRNA (cytidine-2'-O)-methyltransferase TlyA	ATGGCACGGCTCGACCAGGCACTGGTGGCCCGGGGCCTGGCAAGGTCACGCACGCACGCCGCCGCTTTGATCGCTGAAGGAAAAGTCAGTTCCGCCGGGCAGGTGTTGTCCAAGGCATCAGTGCAGGTCTCCGAGGACAAGGACCTGGCGGTGGAGCACAGCGAAGAGGACACCTATGTGAGCAGGGCCGGGCACAAACTTGCCGGGGCACTGGATGCGTTCCCCGCGATCACTGTTGCAGGCAAGAGGTGCCTTGACGCCGGCGCCTCCACCGGCGGTTTCACGGAGGTCCTGCTTAGGCGCGGTGCAGCCCATGTAGTGGCCGTCGACGTCGGGCACGGGCAGTTGGTGCCGCAGCTCAGAAGCGACCCCCGGGTAGCAGTCCACGAGGGACTCAACGTCCGCTACATGTCTCCGGCGGATATCGGTGGGCCCGCCGCACTGACCGTCGCTGACCTCTCCTTCATTTCGTTGACCCTGGTGGTTCTCCCGCTGGCCCTGTGCACCGAGCCGGGCGGAGACCTGGTACTGATGGTCAAGCCCCAGTTCGAGATCGGCAAGGACCGCCTGGCCCGCACCGGGGTAGTGAATTCTGAACGTGAACGCCGGATGGCGGTGGAGAAAGTCGCCATCGCCGCGCTCGACGCCGGACTCGATTTATGCGGCTTGGCGGCCAGTCCCTTGCCGGGTCAGGACGGAAACGTCGAGTACTTCCTGTGGATAAGACGCAGGATCGGCCAAGACTTGCCTAAGATCGAAGAGCGCGACGCAGCCATTGCTGCTTTGCTTGGACGTCTTTGGCCGAACCACTAG	MARLDQALVARGLARSRTHAAALIAEGKVSSAGQVLSKASVQVSEDKDLAVEHSEEDTYVSRAGHKLAGALDAFPAITVAGKRCLDAGASTGGFTEVLLRRGAAHVVAVDVGHGQLVPQLRSDPRVAVHEGLNVRYMSPADIGGPAALTVADLSFISLTLVVLPLALCTEPGGDLVLMVKPQFEIGKDRLARTGVVNSERERRMAVEKVAIAALDAGLDLCGLAASPLPGQDGNVEYFLWIRRRIGQDLPKIEERDAAIAALLGRLWPNH				NA	NA	NA	NA	NA
D1-29_01667	1026	ppnK	COG0061	NAD kinase	ATGAGCAGGCGAGTACTTGTCCTTGCCCACACTGGCCGCGAGGAATCACTGAAGGCCGCCTGGGAAGCCTGCGCCCAGCTGCACGCCTCGGGAATTGTGCCAGTGATGCAGGAGTCCGAGCACGGCGACATGGAACGCTTTTTCGGGCACCTGAGCCAACCGGTGGAAATCCTGCACGACCATGTGCAACTGCCTGATGTCGAGCTGGTCATGGTCCTCGGTGGTGACGGCACCATCCTGCGTGCCGCCGAACTGGTGCGGGAAGTGGATGTGCCCCTCCTGGGCGTTAACCTGGGCCACGTCGGATTCCTGGCCGAAAGCGAGCGTGCGGACCTCGCACAGACCGTTGAATGGATCGCGCGCCGGGATTACACGGTGGAAGAACGCATGACCATCGATGTGCAGGTCTGGGTCAGGGGTCAAAAGATTTGGCACACGTGGGCCCTGAACGAAGCCGCGATCGAAAAGGGAAACCGCGAACGCATGCTGGAGGTGGTCACGGAGGTGGACGAGCGCCCGCTGACTTCCTTTGGCTGTGACGGCGTGGTCATGGCCACCCCCACCGGCTCCACGGCCTATGCGTTCTCAGCCGGCGGCCCGGTGGTCTGGCCGGAGGTCGAAGCCTTGGTCATCGTTCCCATCAGTGCGCACGCCCTGTTCGCCAAACCGCTGGTGGTGTCGCCGCGGTCCAGGCTGGCGGTCGAGGTCCTCAACCGCACCGACGCGCAGGGGGTTCTGTGGTGCGACGGCCGCCGTTCCGTGGACCTGCCTCCCGGAGCACGCGTGGAAGTGACAAAATCGGCCACCCCGGTCCGTTTGGCCCGGACCCACCGCACGCCCTTCTCCGCAAGGCTGGTCCGGAAGTTCGAGCTTCCCATCCACGGCTGGCGGGGTCCCGTTCCACGGGCTGAAGCCATCCACACCGGGCCCATTCCCATCATCAGGACGCCCCGCCCCATGGCACCGCTCCAGGTTTCCCATGGGGAGCGCCCTGATGAAGAAACCGATCCGTCAACCGCAAAGTGA	MSRRVLVLAHTGREESLKAAWEACAQLHASGIVPVMQESEHGDMERFFGHLSQPVEILHDHVQLPDVELVMVLGGDGTILRAAELVREVDVPLLGVNLGHVGFLAESERADLAQTVEWIARRDYTVEERMTIDVQVWVRGQKIWHTWALNEAAIEKGNRERMLEVVTEVDERPLTSFGCDGVVMATPTGSTAYAFSAGGPVVWPEVEALVIVPISAHALFAKPLVVSPRSRLAVEVLNRTDAQGVLWCDGRRSVDLPPGARVEVTKSATPVRLARTHRTPFSARLVRKFELPIHGWRGPVPRAEAIHTGPIPIIRTPRPMAPLQVSHGERPDEETDPSTAK	PGPT0013490_1200	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
D1-29_01668	1740	recN	COG0497	DNA repair protein RecN	ATGCTTGAAGAACTGAGAATCCGCGATCTGGGCGTCATCACCGACGCCACGCTGCCGCTGGGCCCCGGTCTGAGCGTAGTGACCGGCGAGACAGGTGCCGGAAAAACAATGGTGGTCACCGCCGTCGGACTCCTGCTGGGGGCACGGTCCGACGCCGGTGCGGTCCGGAGCGGGGCGAAAAGTGCCACCGCCGAAGCAGTCATCAGGCTGGAATCCGGCCATCCGGCCGTTGCGCGTGCGGTCGACGCCGGCGCCGACGTCGAGGAGTTCGACGGCGGTGCTGAACTTCTCCTCGCCCGGCGCCTGGGCTCGGACGGCCGGAGCCGGGCATTCCTTGGCGGACGCGCCGCCCCGGTGGGCGTCCTGGCGGAGATAGGCGAAACCCTTGTGGTGGTCCATGGCCAGTCGGACCAGATCCGGCTGAAGGGCGCAGCCGCCCAACGGGGCGCCCTGGACAAGTTTGCCGGCCCGGGCCTCGCCGCGGAGCTGGGCACCTACCAAAGCCTGTACAGCCACTGGAAGTCCATCCAGGCGGAGCTGGACACGTTGCGCAGCGCCGCCCGCGACAGGCTCCGTGAAGCCGAATCCCTGGAGATCGCGCTGGTCGAAATTGACGAGGTGGACCCGCAGCCGGGGGAGGACGAGTCACTCAAGGCAGAGGCCGTGAAGCTGGCGAACGTGGAAGAGCTGAGGATCGCTGCAAGCACGGCCCACCAGGCCCTGATCGCCGAGGACTTTGGCGATGCCGGCGACGCCACCACCATGGTGGACGCCGCGAAACGCACCCTGGAGCACGTGGCTGAGCACGACGGTGAACTGGGCGCGGCCGCTGCCCGGCTGGCGGAAGTCGGCTTCCTGCTCAACGACATCGCCACGGAGCTGGCCAGCTATCAGGCCGGCCTGGATTCGGAGGGGCCCGAGCGGCTCGCCGAGATCGAGGACCGCCGGGCGGCCTTGGCCAAGCTGGTCCGCAAATACGCGCCCAGCATCGACGAAGTGCTGGTCTGGGCGGAAAACGCGCGGGTCCGGTTTGATGAGCTGCAGGACGACTCCACGCGGATCGAATCTCTCGACGCCGACGTTGTCCGGACTGAGGCGGACCTGCGGAAGCAGGCTGCAGCCATCAGCAAAATCCGGGCCAGGGCGGCAAAGGAACTCTCCGCCCGCGTCAGTTCAGAGCTGAAAGCGCTGGCCATGGCCGATGCCACCCTGGTGATCACCTTGGAAGCCACCGGTCAGCTGGGGCCGCACGGCGTTGATGAGATTTCGTTCCTGCTCCAGCCACACGCCGGAGCCCCCGCAAGGCCGCTCGGCAAGGGTGCCTCCGGCGGTGAACTTTCCCGCGTGATGCTTGCCATTGAAGTGGTCCTGGCGGCCGTGGACCCCGTCCCCACCTTCGTGTTCGACGAGGTGGACGCCGGTGTCGGCGGACGGGCCGCCGTCGAAATCGGCCGCCGGCTGGCCATGCTGGCACAGCACGTGCAGGTCCTGGTGGTCACCCACCTGCCGCAGGTGGCAGCCTTCGCCGACCAGCACATCACCGTCACCAAAACGTCCGTCCGGGGAGCCGACGGCGGCACGGCCTCCGGTTTCACCTCCAGTGACGTCAAACTCCTGGACGGCCCGGAACGGGTCCGCGAGCTCGCCCGGATGCTGGCTGGCCAGGAGGACTCCGAATCGGCCCAGGCGCACGCGCAGGAACTTCTCGACGACGCAAAACTGCTTCCACAGCGCGCCTAG	MLEELRIRDLGVITDATLPLGPGLSVVTGETGAGKTMVVTAVGLLLGARSDAGAVRSGAKSATAEAVIRLESGHPAVARAVDAGADVEEFDGGAELLLARRLGSDGRSRAFLGGRAAPVGVLAEIGETLVVVHGQSDQIRLKGAAAQRGALDKFAGPGLAAELGTYQSLYSHWKSIQAELDTLRSAARDRLREAESLEIALVEIDEVDPQPGEDESLKAEAVKLANVEELRIAASTAHQALIAEDFGDAGDATTMVDAAKRTLEHVAEHDGELGAAAARLAEVGFLLNDIATELASYQAGLDSEGPERLAEIEDRRAALAKLVRKYAPSIDEVLVWAENARVRFDELQDDSTRIESLDADVVRTEADLRKQAAAISKIRARAAKELSARVSSELKALAMADATLVITLEATGQLGPHGVDEISFLLQPHAGAPARPLGKGASGGELSRVMLAIEVVLAAVDPVPTFVFDEVDAGVGGRAAVEIGRRLAMLAQHVQVLVVTHLPQVAAFADQHITVTKTSVRGADGGTASGFTSSDVKLLDGPERVRELARMLAGQEDSESAQAHAQELLDDAKLLPQRA				NA	NA	NA	NA	NA
D1-29_01669	531			hypothetical protein	GTGACCAACCTCCCTGACCCGAAAAACGCGCCGGCGCCTGAGCCAGGCCGCAACGGCGTCGAAATGAATCCGGTCTTCCGCTCGATGGCGTTCAGCTCCATCCCTGCACCGGACTACGCGGATGTGATTGTTCTCCCAGTCCCTGTTGGACAACGGGAATGCCCGTCCGATCCCCGAACGTGGGCGGAAACACTGTTCTCGTTGAAATCCATGCCCGCATGGGTGACAGCCCTCCTGGGCGTGCGGCAGGCCGTCGTCGGGCTGGTGGGTATCAACAGGGCCCCCGCCGGCGTCTTTGCCGTCTCGAAGGTTCAAGGCGAGGAGGCCCTGATCAGCGCGGATGACACGCACCTGGACTTCCGCTGCGGGGTGGCCTACGACGCCGGCGCGCGCCTTCTGCGGGTGACAACGGCCGTGCACCTGAAAGGCTGGCGGGGCCGCCTGTACTTTCTGCCGGTGCGGCTGCTCCATCCGCTGGTGGTGCACGCGATGATGGCGCGGGCCATCCGCCGCCTTACATCTGGTCCCTGA	MTNLPDPKNAPAPEPGRNGVEMNPVFRSMAFSSIPAPDYADVIVLPVPVGQRECPSDPRTWAETLFSLKSMPAWVTALLGVRQAVVGLVGINRAPAGVFAVSKVQGEEALISADDTHLDFRCGVAYDAGARLLRVTTAVHLKGWRGRLYFLPVRLLHPLVVHAMMARAIRRLTSGP				NA	NA	NA	NA	NA
D1-29_01670	1785	pyrG	COG0504	CTP synthase	ATGATAGGCTCGAATTCCGTGGTGCAGCGATCAAATTCCCGTGTAAATTCCCGGTTCCCGGGCTCGTCCAAGACGACCAAACACATCTTCGTAACCGGTGGTGTGGCGTCCTCGCTCGGTAAGGGACTGACGGCCTCGAGCCTCGGTCACCTCCTGCGGGCACGCGGTTTGTCTGTAACTATGCAGAAGCTGGATCCCTACCTGAACGTGGATCCGGGCACGATGAACCCCTTCCAGCACGGCGAAGTCTTCGTCACGGACGACGGCGCCGAGACAGACCTGGACATCGGACACTACGAACGTTTCCTTGACGAAAACCTCGAGGGCTCGGCCAACGTAACTACCGGTCAAATCTATTCCACCGTCATCGCCAAGGAACGCCGCGGCGAATACCTGGGCGACACCGTTCAGGTCATCCCGCACATCACCGATGAAATCAAGCGCCGGATGCGGCTGCCCGCGGAGGGCAAGAATGCCCCGGACGTCATCATCACCGAGATCGGCGGCACGGTGGGAGACATCGAGTCCCAGCCGTTCCTCGAATCAGCCCGCCAGGTCCGCCAGGACGTGGGCCGCGGCAACGTCTTTTTCCTCCATGTCTCTCTGGTTCCCTACATCGGACCCTCCCAGGAGCTCAAGACCAAGCCCACGCAGCACTCCGTGGCGGCCCTGCGTTCCATCGGCATCCAGCCTGAAGCAATCGTGATCCGTTCGGACCGTGAAGTGCCCGACGCCATGCGCGAAAAGATCGGCCGCATGTGCGATGTTGACATCGACGCCGTGGTGAACGCTGCGGACGCGCCCAGCATCTACGACATCCCCAAGACCCTGCACTCCCAGGGCCTGGATTCCTACATCGTCCGGGCCCTGGACCTGCCGTTCAAGGACGTCGACTGGACCAGCTGGGACAAGCTGCTCGAGGCCGTGCACAATCCGAAACACCACGTGGAAATAGCGCTGGTGGGCAAGTACATCGACCTCCCGGACGCCTACCTCTCGGTGACGGAAGCCCTCCGTGCCGGCGGTTTTGCCAACGACACCAAAGTCAAGATCCGTTGGGTCCCGTCGGACGAGTGCGAAACGCACGAAGGTGCCATCGCCTCCCTGGGCGGTGTGGACGCCATCTGCGTGCCCGGCGGCTTCGGCATCCGTGGACTTGAAGGCAAACTCGGTGCCCTGAAATTCGCACGCGAAACCAAGCTGCCGGTCCTGGGCCTCTGCCTCGGCCTGCAGTGCATGGTGATCGAATATGCCCGGAACGTGGTGGGCCTGGACGGCGCATCCTCCAGCGAATTCGAACCCGACTCCAAGTACCCCGTGATTGCCACCATGGAGGAGCAGCTGGACATCGTCGAGGGCAAGGGTGACCTGGGCGGCACCATGCGCCTGGGGCTGTACGAGGCCAAACTCGACGCCGGTTCCGTGATCGCGGAGACCTACGGAAAGACCACCGTCAGCGAGCGGCACCGCCACCGCTACGAGGTCAACAACAAGTACCGCGACCAGATCGCCGCGGAGGGTCTGGTCTTCTCGGGGACGTCTCCCGATGGCAAGCTCGTTGAATACGTAGAGCTGCCCCGCGAGGTACACCCGTACTATGTGGCAACCCAGGCCCATCCTGAGCTGAGCTCGCGCCCCACCAGGCCGCATCCGCTCTTCTCCGGCCTGGTCAAGGCGGCGCTTGCCCACCAGGAGGGCCCGGACCTCACGGCCGCCACGCAGGCCACCGGGGCAGGCATTGACGCGCCTCCGGCCAAACCGTCACGTACGGTTGCTGCACAGTAG	MIGSNSVVQRSNSRVNSRFPGSSKTTKHIFVTGGVASSLGKGLTASSLGHLLRARGLSVTMQKLDPYLNVDPGTMNPFQHGEVFVTDDGAETDLDIGHYERFLDENLEGSANVTTGQIYSTVIAKERRGEYLGDTVQVIPHITDEIKRRMRLPAEGKNAPDVIITEIGGTVGDIESQPFLESARQVRQDVGRGNVFFLHVSLVPYIGPSQELKTKPTQHSVAALRSIGIQPEAIVIRSDREVPDAMREKIGRMCDVDIDAVVNAADAPSIYDIPKTLHSQGLDSYIVRALDLPFKDVDWTSWDKLLEAVHNPKHHVEIALVGKYIDLPDAYLSVTEALRAGGFANDTKVKIRWVPSDECETHEGAIASLGGVDAICVPGGFGIRGLEGKLGALKFARETKLPVLGLCLGLQCMVIEYARNVVGLDGASSSEFEPDSKYPVIATMEEQLDIVEGKGDLGGTMRLGLYEAKLDAGSVIAETYGKTTVSERHRHRYEVNNKYRDQIAAEGLVFSGTSPDGKLVEYVELPREVHPYYVATQAHPELSSRPTRPHPLFSGLVKAALAHQEGPDLTAATQATGAGIDAPPAKPSRTVAAQ	PGPT0021215_765	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937	NA	NA
D1-29_01671	663			hypothetical protein	ATGCCCGGTAAGTCTGAAACCACCCATGCTGCACGGCAGGTTTCGGATGCACCGAGCCCGCGCCGTCTTCTGTCTACCGAGAAGGTCTACGAAGGCCGGATCTGGGACGTGGTCAGCGACAGCTTCCAGCTGAGCGAGAGCGGTGAGGCTCTGACCCGGGACTACATCGAGCATCCCGGCGCCGTGGCGGTACTGCCGATGAACGAAGCGGGCGAGATCCTGCTGCTGAAGCAGTACCGGCATCCTGTCGGGATGGATCTCTGGGAAATTCCGGCCGGCCTGCTGGACGTCGAGGGGGAGGACTTCGTGGTGGGGGCCGCCCGGGAGCTTGCGGAAGAAGCGGACCTCGCGGCCGGAACCTGGAACGTCCTTGCTGATTTCTTCAATTCGCCCGGTTCCTCCAGTGAAGCCATCAGGATCTACCTTGCCCGCGACCTTATCGAGGTGCCTCACCATGAGCGCCACGAGCGGATGGACGAGGAAGCGGAAATTGAGTTCCACTGGATCGCCCTCGACGACGCCGTGGCCGCAGTCCTGGCAGGGCAGCTCCATAACCCGTCCGCCGTCGTGGGCATCCTTGCAGCAGCGGCAGCGCGTGCTGCCGGCTTTGCCCGGCTCCGCCCCGCTGATTCACCCTGGCCTGCCCACCCCAGCCAGCGTTGA	MPGKSETTHAARQVSDAPSPRRLLSTEKVYEGRIWDVVSDSFQLSESGEALTRDYIEHPGAVAVLPMNEAGEILLLKQYRHPVGMDLWEIPAGLLDVEGEDFVVGAARELAEEADLAAGTWNVLADFFNSPGSSSEAIRIYLARDLIEVPHHERHERMDEEAEIEFHWIALDDAVAAVLAGQLHNPSAVVGILAAAAARAAGFARLRPADSPWPAHPSQR				NA	NA	NA	NA	NA
D1-29_01672	1014	xerD	COG4974	Tyrosine recombinase XerD	ATGCCGCAAAGCATCGCGGCGGACGCCGCCGCACCAGTCTCCCCGGTAGCTGATAAGGCGCCTGCACCGTCCAATCCGCAGACCGCCATCGACCGTGCCATCACGGAGTACCTGCAGCATATGAGCGTCGAACGGGGACTGGCGTCCAACACCCTTTCCGCCTACCGCCGGGACCTCACCCGGTACTCCCGCTACCTGGCGGGGGCGGGCTGCCAGAGCCCGGACCAGGTCACCCGGCATCATGTCACGGGGTATGTCCAGGCCCTCTCTGACGGTTCCGACGGCGGGACTGCCCTGGGCGTCAGGTCCGCCGCCAGGACAGTAGTGGCGGTTCGCGGCCTGCATAAGTTCTGGGCCCTGGAAGGACTGACCACCACGGACCCCGCGAGTGATGTCCATCCGCCCATGCCCGGCAAGAGGCTGCCCAAGGCGATCAGCGTGGATGAGGTCACCCGGATCCTTGAAGCAGCCGGCACGGACACCGCCACCGGCCTCCGGGACCGTGCCCTGCTGGAATTCCTGTACTCCACCGGGGCAAGGATCAGCGAGGCAGTTGGCCTTGATGTGGACGACATCTCACTCCAGGAGGCAGAGGCCGGCCCCGCGATCGTCCGGCTCTTTGGCAAGGGCTCGAAGGAACGGCTGGTGCCGCTGGGATCCTACGGCGCGCGAGCCCTGGACGCCTACCTGGTACGAGGCCGTCCGCTGCTGGCAGCAAAAGGCAAAGGCACACCGGCGCTGTTCCTGAACGCCCGGGGTGGAAGGATCAGCCGCCAGAGCGCCTGGACCATCCTCAAGGCAGCCGCGGACAAAGCCAACATCACCAAGGCTGTCTCGCCGCACACTCTCCGCCACTCGTTTGCCACCCACCTCCTGGAAGGCGGCGCGGATGTCAGGGTTGTCCAGGAACTGCTGGGCCACGCTTCAGTGACCACCACGCAGGTCTACACCCTGGTCACCGCCGATACGCTCCGCGAAATCTATGCGGCAGCGCACCCCCGCGCTTTGGGGTGA	MPQSIAADAAAPVSPVADKAPAPSNPQTAIDRAITEYLQHMSVERGLASNTLSAYRRDLTRYSRYLAGAGCQSPDQVTRHHVTGYVQALSDGSDGGTALGVRSAARTVVAVRGLHKFWALEGLTTTDPASDVHPPMPGKRLPKAISVDEVTRILEAAGTDTATGLRDRALLEFLYSTGARISEAVGLDVDDISLQEAEAGPAIVRLFGKGSKERLVPLGSYGARALDAYLVRGRPLLAAKGKGTPALFLNARGGRISRQSAWTILKAAADKANITKAVSPHTLRHSFATHLLEGGADVRVVQELLGHASVTTTQVYTLVTADTLREIYAAAHPRALG	PGPT0022000_1919	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
D1-29_01673	273			hypothetical protein	ATGTTGGCAGCCAGTGAACATGACTTCATGGATCTGCACACTCAGCATTTCACGCGCGTCTACCGCTACATTGCCTACCGCATCAATGACCTGCCGCGCGCCGAGGAACTGGCGGCAGACGTCTTCAGGATCGCCTGGGAGAAGCAGCCGGTGGAACCGCCCGGCATCGGCTGGCTGCTCGCCACCGCCCGGAGAGTCCTCAGCAACGAGTACAAGGGCCGCCGTCGCCGCCTTGAACTCATCGATCGGCTGAAGGACCAGGCCCGCATCTAG	MLAASEHDFMDLHTQHFTRVYRYIAYRINDLPRAEELAADVFRIAWEKQPVEPPGIGWLLATARRVLSNEYKGRRRRLELIDRLKDQARI				NA	NA	NA	NA	NA
D1-29_01674	198			hypothetical protein	GTGGCCGAGGTCCTGTTACAGCTCAAGGACCGGGACCGGGAGGTCCTGATGCTCAGCTACTGGGACGATCTGAGCACCGCCGAACTGGCCCAGACGCTGGGCTGTTCCCCCTCGGCGGCTGCCGTCCGCCTTCACCGGGCCCGCCGGGCATTCGCCAGCGCAGCCCCAGCGCAACTCATGACAGAACGGAAGGGCTAG	MAEVLLQLKDRDREVLMLSYWDDLSTAELAQTLGCSPSAAAVRLHRARRAFASAAPAQLMTERKG	PGPT0014960_11500	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-29_01675	789			hypothetical protein	ATGGACCGGATCGAACAGCTCATGAAGGATGCCAAGCCACTGGTGGGGGAGCCACGAACCGCTGCGGCAGCTGCAGCCGCCCGCTCCGCCGTCTTCACTGATGACCCCAATGTGGTTCCGCTGTCAGGGCACAGGGCCGCCCGCCGGGCAGGTATCCGCGCGGCAGTTGTCGCAGTCGCGGCCGCGTCGGTGGTCGGAGCCGTTGTCCTTGCCGGCGGAATGGGGGCGCCGCAGCCGGGCCCCGCGCCCGCAGCCACCACCAACGCCATAACTGCTCCAAGCACCGCCACCCCGCCCCCGTCGAGTCCCACCGCCACGGCCACAGCACCTCCTCCTGCCACAGCACTTCCGGGCGTTACAGCCCAGCCAGCGCTGACCACCGGCGGCGTCCCGTGCGTCGTTGCCAACATTGACCAGCCCGCGAATACGCCGGCCAGGACCATCGGGCCGATCGCCGAAACGGAGCAGGGCTATTACACCGTGCTGGGCTGCGCCGAAGGTTGGCTGGCCTACTCGGTTTCAGACGACGGCACCAGGGCACTTCAGCTCGACGGCGGAAACGCCTGGTACCGCATCGCCAAGCTGCAAAATGGCAGGTTTGTCTTTGACGTTCAGGCGCCCTGGTCCACGGTTTTCAGCTGGGAATTCCACGCCCTCAACAATGATGTCTCGCAAAACGGTCAACGGGTGACTGCGCAGGAAGCGATGGACCAGGAATTCGCTCAGAAAGGCATCCCCGTTGAGCTCCGCCCGCAACTTGTGGGACAAGGCCCGGCCGACGCCTCCTGA	MDRIEQLMKDAKPLVGEPRTAAAAAAARSAVFTDDPNVVPLSGHRAARRAGIRAAVVAVAAASVVGAVVLAGGMGAPQPGPAPAATTNAITAPSTATPPPSSPTATATAPPPATALPGVTAQPALTTGGVPCVVANIDQPANTPARTIGPIAETEQGYYTVLGCAEGWLAYSVSDDGTRALQLDGGNAWYRIAKLQNGRFVFDVQAPWSTVFSWEFHALNNDVSQNGQRVTAQEAMDQEFAQKGIPVELRPQLVGQGPADAS				NA	NA	NA	NA	NA
D1-29_01676	486			hypothetical protein	ATGACAGCAGTAGCCGTAACGCTGTGCTTCCTGACCCGGGATGTTGCCGGCGTGCCCCAGGTCCTGCTGGGTACCAAGAAGACCGGCTTTGGGCGGGGAAAGATCGTGGGCCTGGGCGGCCACGTTGAACCTGGCGAGACCGACGCCGAAGCCGCATGCCGGGAAGTGCACGAGGAATCCGGCGTTGTGGTCCTGCAGGAGGATCTGCGCGACGCCGGCGTGGTGGTGTTCGACTTCCCTGCGCGCCCGGAGTGGAACATGACCACCAGGCTGTTCGTTGCAGCCCGGTGGGCGGGGGAGCCGGCCGAAAGCGCCGAAATCCTGCCCGAATGGTTCGACGTCGGGTCCCTTCCCGTGGACAGGATGTGGCAGGATGCATCCCATTGGCTCCCATTGGCCCTTAACGGCTCGGTGCTGCACCTCGTGGTGGTGCTGAACGAGGACAACGAGACTGTGCGTGAAGTGCTCGATTACACAACCCGCTGA	MTAVAVTLCFLTRDVAGVPQVLLGTKKTGFGRGKIVGLGGHVEPGETDAEAACREVHEESGVVVLQEDLRDAGVVVFDFPARPEWNMTTRLFVAARWAGEPAESAEILPEWFDVGSLPVDRMWQDASHWLPLALNGSVLHLVVVLNEDNETVREVLDYTTR				NA	NA	NA	NA	NA
D1-29_01677	510	sigW	COG1595	ECF RNA polymerase sigma factor SigW	GTGCTTTCAGAGCGCGAGTTGGCGTTTATCGCCTTGTACAAGGACAGCTATCCACGGATCCACACGTTCGTACAACGGCGCGTGAATGATCCCGAACTGGCCCAGGAACTGGCGGCAGACGTCTTCCGGATCGCCTGGCAAAAGTGGGACGGCACTTCCGGGATCGAGATTGCGTGGCTGTTCACCGTTGCCCGCAACCTGATCGGCAACGCCTACCGGGGCCGGGACCGCCAGCGTGCGCTGCAGGAACGCCTGGTGGCGTCCGCAGCTGATGGGCCTGGATCGGTCAGCGACAACATGTCAGTGGAGCAAGCGCTGATGGCGCTGCGGGAAAAGGACCGGGACGTTCTCCAGCTGGCCTACTGGGACGGGCTGTCGGTGGTTGAGATCGCCCAGGTACTGCAGTGCACGCAGACTTCGGCCAAGGTGCGCCTGCACCGCGCCAGGGAAGCTTTCCGCAAGCTCCTGCCGGCTCTTTGTGAACCAATCGACCAGAAAGTGGGGGCCTAA	MLSERELAFIALYKDSYPRIHTFVQRRVNDPELAQELAADVFRIAWQKWDGTSGIEIAWLFTVARNLIGNAYRGRDRQRALQERLVASAADGPGSVSDNMSVEQALMALREKDRDVLQLAYWDGLSVVEIAQVLQCTQTSAKVRLHRAREAFRKLLPALCEPIDQKVGA	PGPT0014960_11500	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-29_01678	999			hypothetical protein	ATGGATATCATCAGGAATCTCGTTTCAGACGCTGACCCCGTTGCCAGCAAACCCGTTGCTTCGGACGGCGAAGAGGCCCTTCGCGCAATGTTTTCCCGGCCGGAGGTCTTCGCCGACAGGGTGTCCCCGAACGTTCCCACCCTGGCAGAGCGGAGGCAGCGCCGTCACAGGATCGCAGGACTGCTGAGCGTTGCCGCGGCCGCGGTTACGGCAGGGGTCCTGGTGTCGCTCAACCTTGGACCTCTTACCTCCGCACCGGCGCCGGCGGGCACCTCCACCGCCACTGCCTCACCCACCGTGAGCAGCAGCATCTCACCAACGCCAACGCCAACGCCAACGCCAACGCCTACTCCCAGCCCGGTCCCCTCTACCGGGGCTTCCGCTGCTGCGCCGGCGGCGCCTCCCGTGACCGCTTCCGCGCCGCCTGCGCAAGCGTGGAAGACGTACCTCAGTGCCGACGGCAGGATCTCCTTTGAGTATCCCGCCGACTGGAGCGTGCAGCAGCCCCACACGATCAACCCGGACTATCCTGCCGTGGACGCCGTGGTCAGGGACCAGGCCGGGAAGGAGATGGCCGCCCTTCACTACGGGGCCTCCGGTGGCATCGGTGGCGTTTGCTCAACGCCGCCCGTGCCCTATTCCGTCCTTGATTCGGTAGAACTCGCCCTGCCGTACAACCCGGCGGCGTCCAACGTCATCACACCCCGGTTTACCTTCCGCGCCCTGGTCGAGGGGGACAAAGTCACTGCCTCCTACGGGATCACCAGCAGCGCTGCCGGTGTGGATGGAAAGAGCTGCATGTTCTACAACGTGGTCAACGGCCCTGCGGAAGCCCCAATGTACTCCTTCGCCGACAACGTCCAGGTGAACGCCGGCGCGGCAGGCACCGCGAACAGCAAGACGTTCCGTTCGCTGGAGGAGGCACGCGCCTACATGCAGACTCCGGAGTACCTCAACGTCAAACGAATGATCACGTCGCTGGCAATCAAGGCGGACTAG	MDIIRNLVSDADPVASKPVASDGEEALRAMFSRPEVFADRVSPNVPTLAERRQRRHRIAGLLSVAAAAVTAGVLVSLNLGPLTSAPAPAGTSTATASPTVSSSISPTPTPTPTPTPTPSPVPSTGASAAAPAAPPVTASAPPAQAWKTYLSADGRISFEYPADWSVQQPHTINPDYPAVDAVVRDQAGKEMAALHYGASGGIGGVCSTPPVPYSVLDSVELALPYNPAASNVITPRFTFRALVEGDKVTASYGITSSAAGVDGKSCMFYNVVNGPAEAPMYSFADNVQVNAGAAGTANSKTFRSLEEARAYMQTPEYLNVKRMITSLAIKAD				NA	NA	NA	NA	NA
D1-29_01679	1140	gltA_1		2-methylcitrate synthase	GTGGCTGAACAGGACATCAAAAAGGGCCTCGCCGGCGTCGTGGTGGATTACACCTCCGTCTCGAAGGTCAACCCGGATACCAATTCGCTGCTGTACCGGGGCTATCCGGTGCAGGAGCTGGCTGCCAGGTGCAGTTTTGAGGAAGTGGCCTACCTGCTGTGGAACGGTGAGCTCCCCAACGCGGAGCAGCTGGCCGAATTCACCGCGCGGGAGCGCGCCGGCCGTGCCCTGGATCCGGTGGTCAAACAGGTCATCGATGCGCTGCCCGTGACCTCGCACCCGATGGACGTCTGCCGGACGGCGGCTTCCGTTATGGGTGCACGGCACCCACTTACCGAAGACTCCTCCCGGGAGGCCAACATGGCCAAGGCGGTGGATCTCTTCGCCGCCATGCCTGCCGTGGTGGCCTACGACCAACGACGCCGTCACGGTCAGGGAGCAGTTGAACCCCGCGATGACCTGGGCTATTCGGCCAACTTCCTGTGGATGGCCTTCGGCGAGGAGCAGGTCCCGGAGGTGGTGGAGGCCTTCAACGTCTCAATGATCCTGTACGCCGAGCACTCCTTCAATGCCTCGACGTTCACGGCACGGGTCATCACCTCAACGCTTTCAGACCTGCACTCCGCTGTCACCGGAGCCATCGGGGCGCTCAAGGGAGCACTGCATGGCGGAGCCAACGAGGCCGTGATGCACACCTTCGACGAAATCGGCATCCGGCCTGAAGAGTCAATGGAGGAGGCAGCCGCGAGGGCCAGGACCTGGATGGAGGACGCCCTGGCCAAGAAAAAGAAGGTCATGGGATTCGGCCACCGCGTCTACAAGCACGGCGATTCCCGCGTGCCCACCATGAAGGCCGCCCTGGATAAGATGATCGCGCACTACGGGCGGCCCGAGCTCCTGGGCCTGTACAACGGCCTGGAATCCGCCATGGAGGAGGCAAAGGCCATCAAGCCCAACCTCGACTATCCGGCCGGGCCCACGTACCACCTGATGGGGTTCGACACCCCCACCTTCACTCCCCTGTTCGTCGCCAGCCGGATCACCGGCTGGACGGCCCACATCATGGAGCAGCTGGACTCGAACTCCCTGATCCGTCCGCTGAGCGAATACAACGGCGCCGAAGAGCGGCACGTCCCGTAG	MAEQDIKKGLAGVVVDYTSVSKVNPDTNSLLYRGYPVQELAARCSFEEVAYLLWNGELPNAEQLAEFTARERAGRALDPVVKQVIDALPVTSHPMDVCRTAASVMGARHPLTEDSSREANMAKAVDLFAAMPAVVAYDQRRRHGQGAVEPRDDLGYSANFLWMAFGEEQVPEVVEAFNVSMILYAEHSFNASTFTARVITSTLSDLHSAVTGAIGALKGALHGGANEAVMHTFDEIGIRPEESMEEAAARARTWMEDALAKKKKVMGFGHRVYKHGDSRVPTMKAALDKMIAHYGRPELLGLYNGLESAMEEAKAIKPNLDYPAGPTYHLMGFDTPTFTPLFVASRITGWTAHIMEQLDSNSLIRPLSEYNGAEERHVP	PGPT0001480_753	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-CITRIC_ACID_BIOSYNTHESIS,PGPT0001480-prpC-K01659	NA	NA
D1-29_01680	903	prpB_2	COG2513	2-methylisocitrate lyase	ATGCTGTACTCGGCCGTCACCCCCGAGCAGAAGCGGATCACCCTGCGCGAACTCCTCGCCTCCGGAACCATCCAGCAGTTCCCCGGGGCGTTCAATCCGCTCTCCGCCCGGCTCATCGGGGAGAAGGGCTTCGCCGGTGTCTACATCTCCGGCGCAGTGCTCGCCAACGACCTGGGGCTGCCGGACATCGGCCTGACCACCCTGACCGAGGTAGCCACCCGCGCCGGGCAGATCGCCCGCATGACCGACCTGCCCTGCCTGGTGGACGCCGACACGGGCTTCGGTGAACCGATGAATGTGGCCCGCACAGTCCAGGAACTCGAAAATGCCGGCCTGGCGGGCCTGCACATCGAGGACCAGTTCAATCCCAAACGCTGCGGCCACCTGGACGGGAAGAACGTGGTGGACCTTGACACCGCCACCAAGCGGATCCGGGCTGCCGTGGACTCGCGCCGCGACCCGAACTTCCTCATCATGGCCAGGACCGACATCCGGGCAACCGACGGGCTGGAAGCCGCGCAGGACAGGGCCAAGGCCCTGGTGGACGCCGGAGCGGACGCGATCTTCCCCGAAGCCATGAAGGACCTTGCCGAATTCCAGGCGATCAGGGATGCGGTGGACGTTCCCATACTGGCCAACATGACGGAGTTTGGCCAAAGCGCGCTCTTCACGGTGGACCAGCTCGCTGCTGCCGGCGTCAACATGATCATTTATCCGGTGACGCTCCTCCGTAGTGCCATGGGCGCCGCGGAGCGTACGCTGGAATCGATCAAGGCTGACGGAACCCAGGAGGCGCAGGTCGGAACCATGCTGACGCGTGCGCGCTTGTATGACCTCGTTGACTACGAGGCCTACAACCGCTTCGATACCGGAATCTTTAACTTCCAGATACCCGGTAAGTGA	MLYSAVTPEQKRITLRELLASGTIQQFPGAFNPLSARLIGEKGFAGVYISGAVLANDLGLPDIGLTTLTEVATRAGQIARMTDLPCLVDADTGFGEPMNVARTVQELENAGLAGLHIEDQFNPKRCGHLDGKNVVDLDTATKRIRAAVDSRRDPNFLIMARTDIRATDGLEAAQDRAKALVDAGADAIFPEAMKDLAEFQAIRDAVDVPILANMTEFGQSALFTVDQLAAAGVNMIIYPVTLLRSAMGAAERTLESIKADGTQEAQVGTMLTRARLYDLVDYEAYNRFDTGIFNFQIPGK	PGPT0001555_525	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001555-prpB-K03417	NA	NA
D1-29_01681	1521	prpD2_1	COG2079	2-methylcitrate dehydratase 2	ATGGTCAAGGAACACCACGTCCGTGTCTATAAAAGCGAGGAAAACCTGGCCCGGGAGGACCAGTTGGCGCACAAGATCGCCGTTGTCGCGGCGGATCCCGTCGAGGTGGGCGATGACGTCACCGAGATGGTGATTAACCGGATCATCGACAACGCTTCGGTAGCTGTCGCTTCCCTCAACCGTGCCCCCATCATCGCCGCCCGGGCGCAGGCGCTTAGCCATGGCCCCAGCACCGGCGGCAAAGGCGCCAAGGTCTTTGGCATCAGCGAGCGCGTCTCCCCCGAGTGGGCAGCCTGGGCAAACTGTGTGGCCGTCCGGGAGCTGGACTACCACGACACGTTCCTGGCAGCGGACTACTCCCACCCCGGGGACAATATCCCGCCCATCCTGGCGGCAGCGCAGCACAAGGGCTCCAGCGGCAGGGATCTGGTGCGCGCCATTGCCACCGGGTATGAAATCCAGGTCAACCTGGTGAAGGCCATCTGCCTGCACAAGCACAAAATCGACCACGTCGCCCACCTGGGACCATCTGCCGCCGCCGGCATCGGCACGCTCCTGGGGCTCGACGTCGAAACGATCTTCCAGTCTGTAGGCCAGGCACTGCACACGACAACCGCCACCCGTCAGTCGCGCAAGGGTGAAATCTCGACGTGGAAGGCCCACGCCCCCGCGTTCGCAGGAAAAATGGCCGTGGAAGCTGCCGACCGCGCCATGCGTGGCCAGACCTCCCCGGTGCCGATCTATGAAGGCGAAGACGGCGTGATCGCGTGGATGCTTGACGGCCCTGACGCCTCCTACACCGTTCCGCTGCCCACCCCCGGCGAGGCCAAGCGCGCCATCCTGGACACCTACACCAAGGAGCACTCCGCGGAGTACCAGGCTCAGGCATGGATCGACCTGGCCCGGAAACTGCATAAGGACCATCCTGAGGCCACCGACCCGGCGAACGTACAGTCCGTGTTGATCAAGACCAGCCACCACACCCACTACGTCATCGGATCCGGAGCCAACGACCCCCAGAAGTACAGCCCGACAGCCAGCCGCGAGACCCTTGATCACTCGATCCCGTACATTTTTGCTGTCGCCCTGCAGGACGGCGCCTGGCACCATGTGGACTCGTACTCACCGGAACGGGCAGCGCGGCCGGACACCGTGGAACTGTGGCATAAGGTCACCACCGAGGAAGACGCCGAGTGGACCCGCCGGTACCACTCCCTTGACATCAACGAAAAGGCGTTTGGCGGCTCGGTGGAAATCACCCTCGCCGACGGCACCGTCGTCACCGACGAAATCGCCGTCGCCGATGCCCACCCGCTGGGCGCCCGCCCGTTCGCCCGCGAGCAGTACATTCACAAGTTCCGTACCCTCGCCGCCGGCCTCGTGGAGGAGGCCGAAATCGAACGGTTCCTCGCCGCCGTCGAACGCCTCCCCGAACTGGCCGCCGGGGAACTGGACCAGTTGAACGTCACGGCCGCGGCCGGAGTCATTGATTTCGGTGCCGCCCCCAAGGGGCTGTTCTAA	MVKEHHVRVYKSEENLAREDQLAHKIAVVAADPVEVGDDVTEMVINRIIDNASVAVASLNRAPIIAARAQALSHGPSTGGKGAKVFGISERVSPEWAAWANCVAVRELDYHDTFLAADYSHPGDNIPPILAAAQHKGSSGRDLVRAIATGYEIQVNLVKAICLHKHKIDHVAHLGPSAAAGIGTLLGLDVETIFQSVGQALHTTTATRQSRKGEISTWKAHAPAFAGKMAVEAADRAMRGQTSPVPIYEGEDGVIAWMLDGPDASYTVPLPTPGEAKRAILDTYTKEHSAEYQAQAWIDLARKLHKDHPEATDPANVQSVLIKTSHHTHYVIGSGANDPQKYSPTASRETLDHSIPYIFAVALQDGAWHHVDSYSPERAARPDTVELWHKVTTEEDAEWTRRYHSLDINEKAFGGSVEITLADGTVVTDEIAVADAHPLGARPFAREQYIHKFRTLAAGLVEEAEIERFLAAVERLPELAAGELDQLNVTAAAGVIDFGAAPKGLF				NA	NA	NA	NA	NA
D1-29_01682	642	rspR_1	COG1802	HTH-type transcriptional repressor RspR	ATGCGTGCCAGCGACAGGGCCTACGCCGCCCTCCGTGAGGACATTGTGGAGTGGCGCCTTCGTCCCGGCACGCTTCTTGCGGAAGTGGAGCAGTCCGAGCGCCTGGGCGTCTCGCGCACTCCGCTGCGGGAGGCGCTGGGCCGGCTCACCGCAGAAGGACTTACGACGGCGGCGGGCGGCCGCGGCGTCGTCGTCACCGACATTTCCCTGGCGGACATCGACGAACTGTTCGAGCTCCGTGAAACCCTTGAAGGCAGGGCTGCGGCGCTGGCTGCGGAACGGGGCGATCCTGAAGAGTTCAGGCAACTGCACCGGGAACTGCTGGCGGGCAAGGACCTGATCCGCAGCGACGATCCTGCAAAGCATGAATACTACGGGCTCGTGGCGCGCCTTGACGCGGCCATCGATGCTGCAATTTCGAACTCCTACCTGGCCCAGGCCATGGGCAGCCTCAGGGTCCACCTGGTCCGGGTCCGCCGGCTGGCAGCCAACGACGCTCCACGCCTTGCCGCGGCAGCGTCCGAACACGCCGCCATTGCCGAGGCGATTGCCGAACGCAATCCCCGCCTGGCCGAGGCCGCCACCACCGTGCACCTGCACCGCAGTCTTTCCCACCTCAAAGCAACGCATACACCTCAATAG	MRASDRAYAALREDIVEWRLRPGTLLAEVEQSERLGVSRTPLREALGRLTAEGLTTAAGGRGVVVTDISLADIDELFELRETLEGRAAALAAERGDPEEFRQLHRELLAGKDLIRSDDPAKHEYYGLVARLDAAIDAAISNSYLAQAMGSLRVHLVRVRRLAANDAPRLAAAASEHAAIAEAIAERNPRLAEAATTVHLHRSLSHLKATHTPQ				NA	NA	NA	NA	NA
D1-29_01683	720	dcuR	COG4565	Transcriptional regulatory protein DcuR	GTGAGCGAAATCCGCGTCCTCGTAGTGGAGGACGAGCCGGTTGCCTCAGCCGCGCATGCTGCATATGTGGGCAGGCTCGAGGGATTCACCCTGGCCGGCACCGCTCCGGACGGACAGTCCGCGCTCCGCCTGCTCTCCGACTTTGCAGCCTCCGGTGACCCTGTGGAACTCGTCCTGCTGGACATGAACCTTCCCGATCTTCATGGCCTGGACATCGCCCGGCGGATGCGCGCGGCCGGAATACTCGCCGACATCATTGCCATCACGGCTGTCAGGGAACTGGCCATCGTCCGGAGCGCCGTGGCCATCGGCGTTGTCCAGTACCTCATCAAGCCCTTCACCTACGCCACCTTCGCCGACAAACTGGCCAGCTACCGCCTCTTCCGGCAACAGCTCGCCTCCCCCGAACCCGGCTCTGGTTCGCGAAGGACCGGTGCCTCACAGAGCGAAGTGGACCAGGCCTTCGCAAGCCTCCGGGCGCCATCTGAGATGCCTTTGCCCAAAGGACTCTCCGTCTCAACACTGGAGTCCGTGCAGGACTACATGAAGCAACATTCCGAGGCAGTCTCAGCCGCGGAGGTCATGGATGCGCTGGGCATGTCCCGCGTCACCGCGCGGCGCTACCTGGAGTATTTGGCCGATGCCGGAACAGTCTCCCGAACGGCCCGGTACGGGACACCGGGGCGGCCGGAGAATGAATACAAGTGGAGTGGGCGCTAA	MSEIRVLVVEDEPVASAAHAAYVGRLEGFTLAGTAPDGQSALRLLSDFAASGDPVELVLLDMNLPDLHGLDIARRMRAAGILADIIAITAVRELAIVRSAVAIGVVQYLIKPFTYATFADKLASYRLFRQQLASPEPGSGSRRTGASQSEVDQAFASLRAPSEMPLPKGLSVSTLESVQDYMKQHSEAVSAAEVMDALGMSRVTARRYLEYLADAGTVSRTARYGTPGRPENEYKWSGR				NA	NA	NA	NA	NA
D1-29_01684	1641	dcuS_3	COG3290	Sensor histidine kinase DcuS	ATGATCCACCGCTGGAGTATCGCCCGCCGGCTGTTTGTGGCCAACCTGCTGATTGTGCTGGCCTTCCTCGCGATCGTGGGCACCGCAACGTTCACCGACGCCAGGGACCGCGCCTACGAGGAAGCCGGGCGCCGCATGACGGGGGTGGCTGCCGCCATCGCCGCGAATCCCCTGGTGCTCCAGGCAGCGGATGCGCCTGATCCGACGGCGGTACTGCAGCCATATGCGCTCGATGTGATGGCGGGAGCGGGCGTGGACTTTGTCACGATCATGGCCCCGGACCGCACCCGCTGGACCCATCCACGGGACGAGGAGATCGGCAGGCCGTACATTGGTTCCATCGATGCCGCACTCCAGGGCGGCGTCCTGACAGAGGTCACGGCAGGCACCTTGGGACCGTCGGTGCGGACCATCGTGCCCGTCAAGGACGCGGGCGGCAACGTGAAGGCGCTGGTGGCGGCAGGCGTCACGGTCCGGACCGTCGATGTGGCCCTGTCCAGCAGGCTGCCGGCGCTGCTGGGCATCGGGCTGGCCTTGCTCGTGGGCGGATCGGTTGCTTCGTGGCTGTTGGGCCGTTACCTCCGCAGGGTCACCCGGGGCTGGGGACCGGAACAGCTCGCTCAGCTCTTTGCCTACTACGAATCCGTCCTGCACTCCGTCCGGGAAGGGCTCATCCTGATCGACACCAAAGGCAGGGTGGTCATGTATAACGACCAGGCTGCTGAACTGCTGGGACTCGAGCCGCGGGGATCCGGCGATGATCCGTCCCAGCCGCCGTCACTGGCCGACCTCCCCCTTGCCGACAGCCTGAAGGAACTTTTTGAATCGGGGCGCACCGCCCTCGATGAAATCCATCTGACAGGACCGCGCATTGTGGTGGTGAACCAGGGCCCCGCCCTTGGTCCCGAGGCACCGGGCGGGCGCCGCCCTGCCGTGTTCGGCACGGTGGCCACCATCCGCGACCGGACGGAAATTGAATCCCTGGGCAGCGAGCTCCAGACCATGAAGACGCTCTCTGACGCCCTTCGGGCCCAAACACACGAACATGCGAACCGGCTGCACACCATGGTGTCCCTCCTTGAACTGGGCAGGACCCGCGAGGCCCTGGAGTTCGCCACAAAGGATCTGGAGCTCAGCCAGCAGCTCACCGACGAAATGATCAGCTCCGTGGATGAACCCGTCCTCAGTGCCCTCATCATGGGCAAGGCGTCCGAAGCCAACGAACGGGGTGTGAAGCTGTCGCTGAGGACCCTGGGCTCCGCCTCCCTCACGGGATTGGCAGTCCAGGACCTCGTCACCATCCTGGGCAACCTCCTGGACAATGCCATTGACGCGGCTGCCGACGGCGAGGCGCCCCGGGAGGTGGAACTAACAGTGGAGTCCGACGCCGAGGGCCTGGACATCACCGTGCGGGATTCCGGCTCCGGGGTTGATCCCGAAGCGGTGGACCATATCTTCAAGCACGGCTTCAGCACCAAAAAGGCAGGCCCCTTCGGACGCGGCGTGGGCCTGGCCCTGGTCCGGCAGGCCGTGCAGCGCCTGGACGGTACGATGACCATCACAGGGACGGACGGAGCGCAGTTCCATGTCTTCCTGCCGGCCATGGCGCCCGGCGCCGACAAAGAGGAGCAGTACCAGTGA	MIHRWSIARRLFVANLLIVLAFLAIVGTATFTDARDRAYEEAGRRMTGVAAAIAANPLVLQAADAPDPTAVLQPYALDVMAGAGVDFVTIMAPDRTRWTHPRDEEIGRPYIGSIDAALQGGVLTEVTAGTLGPSVRTIVPVKDAGGNVKALVAAGVTVRTVDVALSSRLPALLGIGLALLVGGSVASWLLGRYLRRVTRGWGPEQLAQLFAYYESVLHSVREGLILIDTKGRVVMYNDQAAELLGLEPRGSGDDPSQPPSLADLPLADSLKELFESGRTALDEIHLTGPRIVVVNQGPALGPEAPGGRRPAVFGTVATIRDRTEIESLGSELQTMKTLSDALRAQTHEHANRLHTMVSLLELGRTREALEFATKDLELSQQLTDEMISSVDEPVLSALIMGKASEANERGVKLSLRTLGSASLTGLAVQDLVTILGNLLDNAIDAAADGEAPREVELTVESDAEGLDITVRDSGSGVDPEAVDHIFKHGFSTKKAGPFGRGVGLALVRQAVQRLDGTMTITGTDGAQFHVFLPAMAPGADKEEQYQ				NA	NA	NA	NA	NA
D1-29_01685	1347	dctA2	COG1301	C4-dicarboxylate transport protein 2	ATGGCTTCTCAACGAGGAGAGTCAGCAGCGCCTGCAAAGGCCGCCCGCAAGGGGCTGGACAAATCCCACTACCTCTACATTGCCGTCATCGCCGCCGTGATCCTGGGCGCCCTTGTCGGTCTGATATTCCCCGAGGTCGGCAAATCGCTGAAACCGCTCGGCGACGGCTTCATCAAGCTCATCAAGATGATGATTGCACCGATCATCTTCTGCACCATCGTCCTGGGCATTGGCTCCATCGCCAAGGCAGCAACCGTTGGCAAGGTGGGCGGCCTGGCCCTGGGCTACTTCGTGCTCATGTCCACCTTCGCCCTGGGCATCGGCCTTGTGGTTGGTAACCTGATCCACCCGGGTGAAGGTTTGAAGCTGGCAGCATACGATCCCAACAAGAAGGCAGAAGTAGACAGCACCGTTGCCTTCCTCCTGGGCATCATTCCGGGCGACATTCCGGTTCTGCCCACACTCTTCGCCGCCATCCTCGTAGGCTTTGCCCTCCAGAAGATGGGCCCGCAGGGTGCTCCTGTCCTGAAGGCCATCAGCCACGGCCAGGTGCTGGTATTCCGGATCCTCATCATGATCATGTGGCTTGCTCCGGTGGGCGCCTTCGGTGCCATCGCCGCCGTCGTCGGTGCGACTGGTGTCGCTGCAATCGTCAGCATGTTCACCCTGATGGCCGCCTTCTACATCACCTGCGCCCTGTTCATCGTGGTGATCCTCGGTGGCCTGCTCCAGGTAGTGACCGGCGTGAACATCTTCAAGCTGATGAAGTACCTGGCCCGCGAATACCTCCTGATCTTCTCCACCTCTTCCTCCGAGGCAGCACTGCCCCGCCTCATCGCCAAGATGGAGCACCTGGGTGTGTCCAAGCCGGTTGTTGGCGTCACCGTACCCACCGGTTACTCCTTCAACCTGGACGGCACCGCCATCTACCTGACCATGGCGTCACTCTTCGTGGCCAACGCCATGGGAACCCCGCTGGATCTCGGCGCCCAGGTATCCCTGCTGATCTTCATGATCATCGCCTCCAAGGGTGCAGCCGGTGTCACCGGTGCAGGCCTGGCCACACTGGCCGCCGGCCTGCAGGCACACAAGCCGGAACTGCTCGGCGGCGTGGGCATGATCGTCGGAATCGACCGGTTCATGTCTGAAGCCCGCGCTCTGACCAACTTCACCGGCAACGCCGTAGCCACCCTCCTGATCGGTACCTGGGTCAAGGAAATCGACGGAGCGCAGGTCACCCGTGTCCTGTCCGGCGAGGAGCCCTTCGACGAGACGACCATGATCGCCGGCCACCATGAGGTCCAGGAAAGCCCGGCCCCCGGCAAGGCTGTTCCCGCCACCGTCTAG	MASQRGESAAPAKAARKGLDKSHYLYIAVIAAVILGALVGLIFPEVGKSLKPLGDGFIKLIKMMIAPIIFCTIVLGIGSIAKAATVGKVGGLALGYFVLMSTFALGIGLVVGNLIHPGEGLKLAAYDPNKKAEVDSTVAFLLGIIPGDIPVLPTLFAAILVGFALQKMGPQGAPVLKAISHGQVLVFRILIMIMWLAPVGAFGAIAAVVGATGVAAIVSMFTLMAAFYITCALFIVVILGGLLQVVTGVNIFKLMKYLAREYLLIFSTSSSEAALPRLIAKMEHLGVSKPVVGVTVPTGYSFNLDGTAIYLTMASLFVANAMGTPLDLGAQVSLLIFMIIASKGAAGVTGAGLATLAAGLQAHKPELLGGVGMIVGIDRFMSEARALTNFTGNAVATLLIGTWVKEIDGAQVTRVLSGEEPFDETTMIAGHHEVQESPAPGKAVPATV	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
D1-29_01686	960		COG1192	putative protein	ATGGGCGCTGGAGAGTCAGCGGCAGAAAAAATCACCGTCATCGAAAGTGTGGATAGATACGTGAGCAGCGAACAGGGTTCAGCAACTCTGGAAGGCACGGAACTGGATCTGGAAGACGCCGTAATGGGTCCCACCGGGCGCCCGTACCGCGAATTCCCGGAACCTGCCCCTCTGTCGTCCCATGGTCCGGCCCGTGTCATCGCCATGGTCAACCAAAAAGGCGGCGTCGGCAAAACCACGTCCACCATCAACCTGGCCGCGGCCTTGGCAGAATACGGCCGCAGGGTCCTGCTGGTGGACTTCGACCCCCAGGGCGCTTTGTCCGCAGGCCTGGGCATCAATCCCCACGAACTCGACCTCACGATCTACAACGTCCTGATGGACCGCAAAGTGGACATCCGCGATGCCATTCACCAAACGGGCGTGGAGAATGTGGACCTGCTTCCGGCGAATATCGATCTGTCCGCTGCCGAAGTGCAGCTGGTCAACGAGGTAGCCAGGGAACAGGTCCTGGACCGTGCGCTGAAGAAGGTGGAGGACGACTACGACGTCGTGCTCATCGACTGCCAGCCTTCGCTGGGACTCCTGACAGTCAATGCCCTGACCGCCGCCCACGGCGTCATCATTCCCCTGATCTGCGAGTTCTTTGCGCTCCGCGCCGTCGCCCTGCTGGTGGAGACCATCGACAAAGTCCAGGACAGGCTGAACCCCCGCCTGCAGGTGGACGGCGTGCTTGCCACCATGTACGACGCCCGTACCCTGCACAGCCGTGAGGTCATCACCCGCCTGGTGGAGGCTTTCGGAGACAAGGTCTTCGAGACCGTCATCAAGCGCTCCATCAAGTTTGCCGACGCCACCGTCGCCGCGGAACCCATCACCAGCTATGCCGGCAACCACATCGGTGCCGATGCCTACCGCCGCCTGGCCAAAGAGCTGATCTCCCGCGGTGGCGCACCCTAG	MGAGESAAEKITVIESVDRYVSSEQGSATLEGTELDLEDAVMGPTGRPYREFPEPAPLSSHGPARVIAMVNQKGGVGKTTSTINLAAALAEYGRRVLLVDFDPQGALSAGLGINPHELDLTIYNVLMDRKVDIRDAIHQTGVENVDLLPANIDLSAAEVQLVNEVAREQVLDRALKKVEDDYDVVLIDCQPSLGLLTVNALTAAHGVIIPLICEFFALRAVALLVETIDKVQDRLNPRLQVDGVLATMYDARTLHSREVITRLVEAFGDKVFETVIKRSIKFADATVAAEPITSYAGNHIGADAYRRLAKELISRGGAP				NA	NA	NA	NA	NA
D1-29_01687	834	scpA	COG1354	Segregation and condensation protein A	GTGGCGCACCCTAGCCAGGCCGTGCCTGAAACGAAACCCGGCTTTGAGGTCCGGCTGGCCAACTTCACCGGGCCTTTTGACCTCCTGCTTGGCCTGATCGCGAAGCACCAGCTGGACATCACCGAGGTGGCCATCGCAACGGTCACCGATGAATTCATTAAGTACATCAGGAAGCTCCAGAAGCTCGGCGAGGAATGGGCCCTGGATGAAGCCAGCGAGTTCCTGGTCATCGCCGCCACCCTTCTTGACCTGAAGGCCGCCCGGCTGCTTCCCGCCGGCGAAGTGGAGGACGATGAAGACATCGCACTGCTTGAGGCCCGCGATCTCCTTTTCGCCCGCCTGCTCCAATACAAGGCGTTCAAGCAGGTGGCGGGCCTGATCGGCGCCACGCTCGAGCAGGAGGCGCAGAGGTTCCCCCGCCAGGTGGCCCTCGAGGAGCACTTCGCCGCCATGCTTCCCGAACTGGTCTGGAAGCACACGCCGGACCAATTTGCCAGGCTGGCCGAGGCCGCCCTGAAGCCCAAGACGCCCAGGCCAACCGAGGTGGGCCTGGCGCATCTGCACGGCAGCACGGTCAGCGTCAGGGAACAGGCCGAAATCCTTGGCCTCCGGCTGCAGCTGGGGAAGCCGCTGTCCTTCCGGGCCCTGATTGCAGATGCAGACTCAACCCTGGTGGTGGTGGCCAGGTTCCTCGCCCTGCTGGAGATGTTCCGGGACAAGGTGGTGTCCTTCGACCAGCTTTCCCCGCTGGGGGACCTCACTGTGCATTGGACCGCTGACGGCCAGGACTGGTCCACGGAAAACCTGAGCGAAGAATATGAGGAGCAGCAGTGA	MAHPSQAVPETKPGFEVRLANFTGPFDLLLGLIAKHQLDITEVAIATVTDEFIKYIRKLQKLGEEWALDEASEFLVIAATLLDLKAARLLPAGEVEDDEDIALLEARDLLFARLLQYKAFKQVAGLIGATLEQEAQRFPRQVALEEHFAAMLPELVWKHTPDQFARLAEAALKPKTPRPTEVGLAHLHGSTVSVREQAEILGLRLQLGKPLSFRALIADADSTLVVVARFLALLEMFRDKVVSFDQLSPLGDLTVHWTADGQDWSTENLSEEYEEQQ				NA	NA	NA	NA	NA
D1-29_01688	735	scpB		Segregation and condensation protein B	GTGAACGAGGACTTTCCGGATGCCGATTCACCTGTCAGTACCGATTCACCTGTCAGTACCGATTCAGCTGTCGGTACCGATCCGGCTGCCGGGTCCGGCGCGGAGCCAGGTACGGACGTTCGAAACCTGCCCGGCGGGGCCAAGGCCGCCATCGAAGCGGTACTGATGGTTCTTGATCAGCCGGCCACCGCCACCGAACTGGCAACGGGCCTGAACCTGACCGTCGCCGTCGTCGAACAGTTCCTGGCGGAACTGCAGCAGGAGTATAGCGGCTATACTGTTAAAGCCCCGGACACGGACGTTGCCAGCGACGCTGGCTTCAGCTCCAGCCCCCGGGGTTTTGAATTGCGGAATATCGCCGGTGGCTGGCGGATCTACTCACGCACGGAATTTGCCGACGTCGTTGGCAGGTTCGTGCTGGAAGGTCAGACAGCCAGGCTCACGCAGGCGGCGCTGGAAACACTTGCCGTCATCGCGTACCGGCAGCCCGTTTCCAGGGCAAGGGTGTCTGCAATTCGAGGAGTCAATGTTGATTCTGTCGTACGGACACTGACACAGCGCGGGCTGATCGAAGACTCGGGAACAGACCCCGAGTCGGGCGCCATCCTCTACCGGACCACGTCGTATTTCCTGGAACGGATGGGGATCGGCTCTGTGGCAGACCTGCCTCAGCTTTCCCCCCATCTTCCGGGGCTGGAAGGCATCGAGGAGTTCTACGACGCCGAAAGAATGTAG	MNEDFPDADSPVSTDSPVSTDSAVGTDPAAGSGAEPGTDVRNLPGGAKAAIEAVLMVLDQPATATELATGLNLTVAVVEQFLAELQQEYSGYTVKAPDTDVASDAGFSSSPRGFELRNIAGGWRIYSRTEFADVVGRFVLEGQTARLTQAALETLAVIAYRQPVSRARVSAIRGVNVDSVVRTLTQRGLIEDSGTDPESGAILYRTTSYFLERMGIGSVADLPQLSPHLPGLEGIEEFYDAERM				NA	NA	NA	NA	NA
D1-29_01689	1257			hypothetical protein	ATGACACAGGCGGGACGCCAGGGTTCACCACGTAACAGTTCGGGACGCAACAGTTCAGAACGCAACTCACCAGAGGGCGGCGCGAGCCGCAACACCGCCCAGGGCGGCGGGAGCCGCGGAGGTGCACAAGGCGGCGGGTTCCGCGGTGGTGCCGGCAAGCGCGGCGGCGGCTTCGGCGGTGCCGGCTTCAGCGGCGGCGACCGGCCCTTCAAGGCACCCAGGCCGCGCGAGGAGCGCTTCATTGATCCGGATGAAGCCCCGGCAGCCCAGGACGGGCGAGCTTCCTCGGATTGGAAGCCCAGCGCCAAGCCATCCTCGCGCAAACCGGCTGCCCGGAAGCCGGGCGCCAAAAAGGCCCCCGGAACGCCCGGGGCCCTCAAGCCGAAGCCGCGTACCGGTGCCCCTGGCGCTGCAGCATCCCGGGCCTTCGGCAGCGAACGTTTTGGCCAGAACCTGGGCCCCGTCCGCAAGCCGGCGCGCAAGCGCGGCCCCCGCGGCGCTGTTCCACAGTCCGAACTGCACGATGCCGACGGCGTCCGCCTGCAGAAGGTCATGGCCCAGGCCGGTGTGGCTTCCCGCCGCGTCTGTGAAGAAATGATCGCTGAAGGCCGGGTGGAAGTTGACGGCCAGGTGGTCACCGAACTCGGTGTGCGCGTGGACCCCAAAACTGCTGTTATCCACGTCGACGGCCTCCGTATCCAGCTCGATGACAACCTGGTCTACATGGTCTTCAACAAGCCCAAGGGCGTGGTGTCCACCATGGAGGACCCCGACGGACGTCCCTGCATCAGCGACTTCGTGCGGAAGACCCACCAGGGCGAACGCCTGTTCCATGTGGGCCGGCTGGACGTCGCCACCGAGGGCCTGCTGCTGCTGACGAACGACGGCGAACTGGCCAACCGGCTGACGCACCCTTCCTACGAGGTGCCCAAGACGTACCTCGTCCAGGTCCGAGGCCCCTTCCCCCAGGGTGTCGGCGCCCAGCTGAAGGCAGGTGTGGAGCTGGAGGACGGCATCGCATCCGTTGACTCCTTTAAACTGGTGGACTCCACCCCTGGCCACGTGCTGATCGAAGTGGTCCTGCACTCCGGCAAGAACCGCATTGTCCGGCGCCTCTTTGACGAGGTGGGCTTCCCGGTCCTGCGCCTGGTGCGCGTCAAGGTTGGACCCATCGGCCTGGGCGACCAGCGCCAGGGCAGCATCCGGAACCTCGGCAAGCAGGAAGTCGGTCACCTGCTGGCATCCGTAGGACTCTGA	MTQAGRQGSPRNSSGRNSSERNSPEGGASRNTAQGGGSRGGAQGGGFRGGAGKRGGGFGGAGFSGGDRPFKAPRPREERFIDPDEAPAAQDGRASSDWKPSAKPSSRKPAARKPGAKKAPGTPGALKPKPRTGAPGAAASRAFGSERFGQNLGPVRKPARKRGPRGAVPQSELHDADGVRLQKVMAQAGVASRRVCEEMIAEGRVEVDGQVVTELGVRVDPKTAVIHVDGLRIQLDDNLVYMVFNKPKGVVSTMEDPDGRPCISDFVRKTHQGERLFHVGRLDVATEGLLLLTNDGELANRLTHPSYEVPKTYLVQVRGPFPQGVGAQLKAGVELEDGIASVDSFKLVDSTPGHVLIEVVLHSGKNRIVRRLFDEVGFPVLRLVRVKVGPIGLGDQRQGSIRNLGKQEVGHLLASVGL				NA	NA	NA	NA	NA
D1-29_01690	1110			hypothetical protein	ATGTCCGCATTTCGCACGCACGGCCGCGGACACCTTAACGGGCCGGTAGTGGTGATTGGCACCGGGCTGCTCGGTGCCAGCATCGGGCTTGGCCTGCGTGGCCGCGGTGTGCCGGTGTTCCTGTCGGACACCTCTCCCACCAATCAGGCCGTCGCCGTTGATATCGGCGCCGGCCTGCCCCTGGGGGAGCTCGACGACGGGAAGCCGGAGCTTGTGGTGGTGGCTGCCCCGCCCGACGTGACTGCCGATGTGGTGGCAAAGGCGCTGGCTGACTACCCCGATTCCGTGGTGGTTGATATCGCCAGCGTTAAGGGTGCCATCCTGGACGAACTGCGCAGCCGCGGGGTGGACCTTGCCCGCTACGTGGGTACCCATCCCATGGCGGGCCGAGAGAAATCGGGGCCCGTCGCTGCCCGCGGCGAGCTCTTTACGTCCATGCCCTGGGTGCTCTGCCCGTCCGAGGAAACGTCAGCCGCCGCCGTGCAGACGGCGCATGCGCTGGCGACGGATCTTGGTGCGGTGGTATCCCAGTTCACCCCGGACGAGCACGACGAAGCGGTGGCACTGGTCTCGCACCTGCCCCAGGTGATGTCCTCTTTGCTGGCCAGCCGCCTGCAGGGCACGCCGCTCCACGCCCTCTCACTGGCCGGCAACGGCCTGCGCGACGTCACCAGGATCGCGGCCAGTGATCCCACCCTGTGGGTCCAGATCCTGGGCGGAAACGCACCGAAGGTTGTGGAGATCCTGTACAGCGTCCGCGAAGACCTCAACCGTCTCATCGGCACGCTGGAAGCACCCGCGGCGCCCGGTGCCAGGCTTGACCTTGCCCAGCTGATCAGTGAAGGCAACGCCGGCCAGGCCCGGATACCAGGCAAGCACGGCGGCCCTCCGCAGGCTTACTCCTGGCTCACAGTCCTGGTGGATGACAAGCCGGGGCAGATCGCGCTGCTCCTTACCGAAATCGGCGAGATCGGCGTGAACGTGGAGGACCTTCGGCTCGATCATTCTTCCGGCCAGAATGTTGGCATGGTGGAGCTTTCAGTACTGCCGAACAAGCATGACCACCTGATCGAAGCACTCAACGACCGCGGATGGCGGGTACTCCAGTAA	MSAFRTHGRGHLNGPVVVIGTGLLGASIGLGLRGRGVPVFLSDTSPTNQAVAVDIGAGLPLGELDDGKPELVVVAAPPDVTADVVAKALADYPDSVVVDIASVKGAILDELRSRGVDLARYVGTHPMAGREKSGPVAARGELFTSMPWVLCPSEETSAAAVQTAHALATDLGAVVSQFTPDEHDEAVALVSHLPQVMSSLLASRLQGTPLHALSLAGNGLRDVTRIAASDPTLWVQILGGNAPKVVEILYSVREDLNRLIGTLEAPAAPGARLDLAQLISEGNAGQARIPGKHGGPPQAYSWLTVLVDDKPGQIALLLTEIGEIGVNVEDLRLDHSSGQNVGMVELSVLPNKHDHLIEALNDRGWRVLQ				NA	NA	NA	NA	NA
D1-29_01691	714	cmk	COG0283	Cytidylate kinase	ATGACACAGGAACTTCTTGATACCTTGCCTGCGCTGCGCGTCGGCAGGCCGCTCGTCGTTGCGATTGACGGTCCCTCCGGCTCCGGCAAGTCCAGCGTCAGCAAGGAAGTTGCCCGGCGGCTGCGGCTGGCGTACCTCGATACCGGTGCCATGTACCGTGCACTGACCTGGTTTTGCCTCAACGGCGGGATCGACCTTAATGAGGCAGCTGCCGTGGAGCAGGCCGCCAGGGACCTTGTCCTGGACGTGAGCACCAGCCCGCTGGAGGAATTCGTGCGGGTGGATGGCGTCGACGTCACCGAGGCCATCCGCGAACCGGAGATTTCCTCGGCGGTAAGCATTGTCGCCACGACGCTTGGCGCCAGGACCGAGCTGATCCGTCGCCAACGCGAACTGATCGAAAAGCATCACCGCCGGATGGTGGTGGAAGGACGGGACATTACCACCGTCGTCGCCCCCGGTGCGGAAGTCAGGATGCTGCTGACGGCGAGCGAAGAGGCCCGGCTCCGCCGCCGGGGCATCCAGCTGGGCGGGACCCAGAACGCGGACCAGTTGGCGGCCCAGGTGACCGGGCGCGACGCCAAGGATTCCACGGTGGTGAACTTCACCCAGGCTGCCGACGGCGTGGTCACTCTCGATTCCTCGGAGCTGGATTTCGCTGAAACGGTGGATGCCGCCCTTGTCATCGTCACAAAGGTCCTGAACCGTGACTGA	MTQELLDTLPALRVGRPLVVAIDGPSGSGKSSVSKEVARRLRLAYLDTGAMYRALTWFCLNGGIDLNEAAAVEQAARDLVLDVSTSPLEEFVRVDGVDVTEAIREPEISSAVSIVATTLGARTELIRRQRELIEKHHRRMVVEGRDITTVVAPGAEVRMLLTASEEARLRRRGIQLGGTQNADQLAAQVTGRDAKDSTVVNFTQAADGVVTLDSSELDFAETVDAALVIVTKVLNRD	PGPT0021220_343	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945	NA	NA
D1-29_01692	663			hypothetical protein	GTGGGCTGGATTCTGGATCACCTGGTGTACAGGACGTCCGTCACGGGCAGGGACAACGTACCCACCGGTGGGCCCGTTATCTTCGCCGCGAACCACATCAGCTTCCTGGACGGCCCGGTGATGTTCGGCGCTTCACCGCGGCCCATGCACATCCTGGTTAAAAAGGAGATGTTCAACGGTTTCCTCGGACGGGTGCTTCATGCCTCCGGGCAGCTCCCGGTGGACCGCTCCGGGGACCGGGCGGCGCTGCTGCTGAGCAAGGACGTGCTCGACGCCGGCCGTTGCGTGGGCATCCTCCCTGAGGGAACGCGGGGGAGCGGGCAGGCAACGGACATCAGCAACGGTGTCGCGTGGCTGGCGCTGAACTCGGGAGCTCCCGTGGTGCCGGTCGCCATCCTGGGCACCCGGATAGAAGACGAACACCTCGACTCGGTCCCCAAACCCGGGCGGCGGTTCCACGTCAGTTTCGGCAATGCCCTGACGCTGAGCCGCAATACCGGCGAAACAGGCCGTGCTTCAATGGACAGGGCGGGAATGGAAATCCGCGCTGCGCTGGCAGGGCATGTCCTGGACACCATTCAATTCAGTGGGCAGCCTTTGCCCCACGCGGATATTCCGCAAGAACTTCACGCAGTAGCCGGGACGCCGGCAGATGACCACTAA	MGWILDHLVYRTSVTGRDNVPTGGPVIFAANHISFLDGPVMFGASPRPMHILVKKEMFNGFLGRVLHASGQLPVDRSGDRAALLLSKDVLDAGRCVGILPEGTRGSGQATDISNGVAWLALNSGAPVVPVAILGTRIEDEHLDSVPKPGRRFHVSFGNALTLSRNTGETGRASMDRAGMEIRAALAGHVLDTIQFSGQPLPHADIPQELHAVAGTPADDH	PGPT0024380_5693	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
D1-29_01693	1551	der	COG1160	GTPase Der	ATGAGCGATACGACTCAAACCTCCGGCCACTCCGGCACCGGCGAAGACGAATACACGCCCACCGGCACCGACCAGGTGGCCGAACGGCTTGCTGCCCTGGACGACGACGAAGCGGAGATGCGCGCGGCGTCACTCCGTGCCGGCCTGGACGACTATGACCTTGATGCCGAGGATGCTGCCCTGCTCAGCGGGGAGTACGGCGACGAGGACTTCGACGGTCCCGTCAAGCTCGACCCGGTGCTTGCCATTATCGGCCGTCCCAATGTTGGCAAATCCACCCTGGTAAACAGGATCCTCGGCCGCCGTGAAGCCGTGGTGGAGGATACCCCCGGCGTTACCCGCGACCGCGTGATGTATTCGGCACACTGGAACGGGCGCAACTTCACCCTGGTGGACACCGGCGGCTGGGAGCACGATGCCCGCGGAATTCACGCGCGCGTTGCCGAACAGGCCGAAATGGCCGTGGAAATGGCTGACGCTGTGCTTTTTGTTGTTGACTCGGCCGTTGGCGCTACCGCCACGGATGAGGGCGTCATGAAGATGCTCCGCAAGAGCAAAAAGCCGGTCATCATGGTGGCCAACAAGGTGGACGACTTCGCCCAGGAAGCCGACTCAGCCACGCTCTGGGGCCTTGGCTTCGGTGAGCCCTACCCCGTCTCGGCGCTGCATGGCCGCGGCGTGGCGGATCTCCTGGACCACGTGATGGATACCCTCCCCGAGTTCTCCACCATCGAGGGCCTGGAGCGATCCGGTGGGCCGCGGCGCATCGCGCTGATCGGACGTCCGAACGTGGGCAAGTCCTCACTGCTGAACAAGCTGGCCGGCTCCGAGCGGGTTGTCGTTGACAACACCGCCGGCACCACCCGCGATCCCGTGGACGAATTCATCGAACTCGGTGGCCGGACCTGGCGCTTTGTTGACACCGCCGGTATCCGGCGCCGCCAGCACATGGCGCAGGGCGCAGACTACTACGCCTCCCTCCGTACCCAGGCCGCGCTGGAAAAGGCCGAGGTTGCCGTAGTGCTCCTGGCCGTTGACGAGGTACTGAGCGAGCAGGACGTCCGGATTCTTCAGCTGGCCATCGAATCCGGCCGGGCCCTGGTCCTGGCCTTCAACAAGTGGGACCTGCTGGACGACGAACGCCGCACCTACCTGGAGCGCGAAATCGAGCAGGACCTGGCCCACGTGGCCTGGGCCCCGCGGGTCAACATTTCGGCGCTGACGGGTTGGCACAAGGACCGCCTGGTTCCTGCCTTGGACCTGGCCCTGGAGAACTGGGACAAGCGTATTCCCACCGGCAGGCTCAACGCCTTCCTCGGCGAGCTCGTGGCTGCGCACCCGCACCCGGTCCGCGGCGGAAAGCAGCCGCGCATCCTCTTCGGCACCCAGGCATCAAGCCGGCCGCCTAAGTTTGTGCTCTTCACCACGGGTTTCCTGGACCCCGGCTACCGCCGGTTCATTACGCGCCGGCTTCGCGAGACCTTCGGTTTCGAGGGCACGCCCATCGAGGTCAACATGCGCGTACGTGAAAAGCGCGGCAAGAAGCGTTAA	MSDTTQTSGHSGTGEDEYTPTGTDQVAERLAALDDDEAEMRAASLRAGLDDYDLDAEDAALLSGEYGDEDFDGPVKLDPVLAIIGRPNVGKSTLVNRILGRREAVVEDTPGVTRDRVMYSAHWNGRNFTLVDTGGWEHDARGIHARVAEQAEMAVEMADAVLFVVDSAVGATATDEGVMKMLRKSKKPVIMVANKVDDFAQEADSATLWGLGFGEPYPVSALHGRGVADLLDHVMDTLPEFSTIEGLERSGGPRRIALIGRPNVGKSSLLNKLAGSERVVVDNTAGTTRDPVDEFIELGGRTWRFVDTAGIRRRQHMAQGADYYASLRTQAALEKAEVAVVLLAVDEVLSEQDVRILQLAIESGRALVLAFNKWDLLDDERRTYLEREIEQDLAHVAWAPRVNISALTGWHKDRLVPALDLALENWDKRIPTGRLNAFLGELVAAHPHPVRGGKQPRILFGTQASSRPPKFVLFTTGFLDPGYRRFITRRLRETFGFEGTPIEVNMRVREKRGKKR				NA	NA	NA	NA	NA
D1-29_01695	1620	sdcS		Sodium-dependent dicarboxylate transporter SdcS	ATGAGCGAGCAGTCCAGGAGAATTGTGCCGGAACAGGGTGAGTTCGACCAGGAACCCGAGGACCGCCGGCCTTCCCGCCCACTACGCCGCACCTGGCTGGTCCGGGGCCTGGGAGTAGCGCTGGCCATAGTCGTCTACTTCCTTCTCGGCATGTCGGATCTTAACAATGACGCGCGTGTGGTGGGTGGCGTCGGCACCCTCATGGCGGTCTGGTGGATGACGGAGGCCGTGCCCTTGTCAGTGACTTCGCTGCTGCCGATCGCGCTGATGCCTGTGCTGACGGAACGTACAATCGCAGAGACCACTGCTCCGTACGCGAATCCGATAGTTTTCCTGTTCCTGGGTGGCTTCCTGATCGCGATTGCCATGCAGAAATGGAACCTGCACCGGAGGATCGCGCTGTTGACCTTGCGACGTGTCGGTACTCACCCACGCCGAATCATCCTTGGGCTGATGATCTCTACCGCCTTCCTTTCAATGTGGGTGTCCAACACAGCGACGACGCTGATGATGCTGCCGATCGCGCTGAGCGTGTTGGCCCTCGTGGCGGAAAACAGTGTCAAATCCGCTGGCGGCGCCGACTCAAAGGACCTGGGTGAGGGACTTCGGTCCGGCAGGGCAATCAGCGACCTGGTGGAGAACCGCGAGGTGCGCGTTTTCGGCGTTGCCCTGGTCCTGGCCATCGCTTGGTCCGCCACCATTGGCGGACTGGGAACCTTGCTGGGCAGCCCGCCGAATGCCATCGTAGCCGGCTACATCAGCGATGAACTCGGAGAAACTGTCGGGTTCGCCCAGTGGATGATGCTCGGCGTCCCTATCGTTATCGTCTTCCTCGCGCTCGCATGGCTGATCCTCACCAGGCTTATCTTCCGTGTCAACCTGGATGAGGTCCCCGGTGGTGAGCAGTTGATCAACGACGAAATCGCTGCCCTCGGCCCAATGAGCCATGGGGAAAAGATAGTGCGCGCTGTCTTCGCGGGCGCCGCATTCTTCTGGATCGTGCCTGGCCTGCTGTCCAATATCGGCGATCTCGGTCAGCAGCTGCCCTGGCTAGACCTTTTTGATGACACCGTGATCGCGATCGCAGCCGGTGCGGTGCTCTTTATTATCCCGGGTGACAAGCAGGGGCATATGACCCTCAACTGGAAGGACGCCGAGGAGGGATTGCCCTGGGGTGTCCTGCTGCTGTTCGGTGGTGGGCTCTCGCTGGCGTCAGCAGTGGCGGGCACGGGTCTGGACGCATGGTTCGGCGAGCGGGTCAGCGGCCTCGGAGCGCTGCCGATCATATTGCTGCTGGCCACGGTTGTCCTCATCGTCCTGTTCCTCACCGAGATCACCAGCAATACCGCGACGGCGGCGACCTTCATCCCCATTCTGGGCGGGGTTGCCATCGGCATAGGGATCGACCCCATGACCCTGCTTATTCCCGCGGCATTGGCAGCCACGTGTGCTTTTATGCTGCCCGTGGGAACACCTCCCAACGCCATCGTCTTCGCCACCGGCAACGTGAAGATCACCGAAATGGTTCGCGGCGGCATGGTGCTCAATGTCGTCGGCGTCCTTCTGATTACGATTTTCACGGTACTGATCGGCCCCTTCGCGTTGGGCCTGGTGATTTGA	MSEQSRRIVPEQGEFDQEPEDRRPSRPLRRTWLVRGLGVALAIVVYFLLGMSDLNNDARVVGGVGTLMAVWWMTEAVPLSVTSLLPIALMPVLTERTIAETTAPYANPIVFLFLGGFLIAIAMQKWNLHRRIALLTLRRVGTHPRRIILGLMISTAFLSMWVSNTATTLMMLPIALSVLALVAENSVKSAGGADSKDLGEGLRSGRAISDLVENREVRVFGVALVLAIAWSATIGGLGTLLGSPPNAIVAGYISDELGETVGFAQWMMLGVPIVIVFLALAWLILTRLIFRVNLDEVPGGEQLINDEIAALGPMSHGEKIVRAVFAGAAFFWIVPGLLSNIGDLGQQLPWLDLFDDTVIAIAAGAVLFIIPGDKQGHMTLNWKDAEEGLPWGVLLLFGGGLSLASAVAGTGLDAWFGERVSGLGALPIILLLATVVLIVLFLTEITSNTATAATFIPILGGVAIGIGIDPMTLLIPAALAATCAFMLPVGTPPNAIVFATGNVKITEMVRGGMVLNVVGVLLITIFTVLIGPFALGLVI				NA	NA	NA	NA	NA
D1-29_01696	870	mutM		Formamidopyrimidine-DNA glycosylase	ATGCCGGAGCTTCCTGAAGTCGCAGGCCTGGCCGGTTTCCTTGATGAGCAACTGCGCGGAGCGACTGTGCGTAAAGTCCAGATCGTTTCGTTTGCCGTGCTGAAGACAGCGGATCCGCCGTACACCGCACTGCAGGACAGGGCTGTGACCGGCGTGCGGCGCTTTGGAAAATTCGTGAGCCTTGATACGGAGGGCCCGTCCTTTGTGTTCCATCTGGCCAGGGCTGGATGGGTCCGTTTCACGGACTCCCCCACTGATACCCAACTGCGGATGGGCAAGGGCCACATCGCCGCGCGGCTTGCCTTCGCCGGTACAGACGGTCCCCTGGGGATGGATCTGACTGAGGCAGGAACGAAAAAGAGCCTGGCTGTATACGTGGTCCGAGACCCCCTGGACGTACCGGGGATTGCAGCCCTGGGTCCTGATCCGTTCAGTCCGGCGTTCGACGTCGGCATGCTGGCAGAGATCATCGGATCCAGCTCACAGCAGATCAAGGGCCTCCTGCGCAGCCAGAGCGTGATCGCCGGAATAGGGAATGCGTACAGCGACGAGATCCTTCACGCGGCCAAGATCTCCCCCTTTGCGATCGCCAAGTCCTTGGACCGGGATGCCGTACAGGTCCTTTACGACGCCATACACAGCATCCTGGGCACCGCCATGGCGGAAGCAGAAGGCAAGCCGCCGAACGAACTCAAGGATGTGAAACGGAGTCACATGAGGGTCCACGCCCGGACCGGGCAGGCGTGCCCGGTGTGCGGCGACACTGTCCGTGAAGTCTCCTTCGCTGATACTGCCCTTCAGTACTGCCCCACCTGCCAGACCAAGGGCAAGATTCTGGCCGACCGCAGAACCTCGAAGTTTCTGAAGTAA	MPELPEVAGLAGFLDEQLRGATVRKVQIVSFAVLKTADPPYTALQDRAVTGVRRFGKFVSLDTEGPSFVFHLARAGWVRFTDSPTDTQLRMGKGHIAARLAFAGTDGPLGMDLTEAGTKKSLAVYVVRDPLDVPGIAALGPDPFSPAFDVGMLAEIIGSSSQQIKGLLRSQSVIAGIGNAYSDEILHAAKISPFAIAKSLDRDAVQVLYDAIHSILGTAMAEAEGKPPNELKDVKRSHMRVHARTGQACPVCGDTVREVSFADTALQYCPTCQTKGKILADRRTSKFLK				NA	NA	NA	NA	NA
D1-29_01697	660			hypothetical protein	ATGATGGGACCCATGACAGAACAAGCGCAGGCAACACTCCGGAAAAAGGGCAACTGGGCTGCCAGGATCATCCTCGCCGGGGTGGCTGTGCTGGTCCTGGTTATCGCCTACTTCGCTCTGGCCGCCATTCTGCCGGTCTGGTGGGCAAACGTGATCAGGGACCAGGTCCGCGGCAATCTGGGAGCCGGGATCCTGCTGGGAATGTTCTATGGATTCACCTTCACGCTTATCCCGGTGATTGTCGCCTGGCAGGCGACCCGCAAGGCGGTCCGCTGGCCCTGGAAGCTCGCGTTGCTCCTTGTTGCCGTGGCGCTTGCCACCCCGAACCTCCTGACCGCCGCCATCATGATCAGCAACTCACCCGCAGCCCACAACGGCCAGCGCATCCTGGGCACCGACGCCACATGGTTTCCGCTGTGGACGCAGCTCTCGGCTGTGGCCGCCGTCGTAGTCTTTACCGCCGGCGGCCTGCTGTGGAGCAACTGGCGTCAGCGCGGCAGGAAAGTGAAGGCCTTCAAAAAGGCCGACTCCGAACGGTCACGTGCCGCGGCCTCCGCCGCTGTGGACTCCACGGCGGAGGCTGCGGCCGGCAAGCCTGCCGGGACCAGGACCGATGCGGGTACATCGGCCGCCCCAGCCGACCGGGCCAACCGCAGGTAA	MMGPMTEQAQATLRKKGNWAARIILAGVAVLVLVIAYFALAAILPVWWANVIRDQVRGNLGAGILLGMFYGFTFTLIPVIVAWQATRKAVRWPWKLALLLVAVALATPNLLTAAIMISNSPAAHNGQRILGTDATWFPLWTQLSAVAAVVVFTAGGLLWSNWRQRGRKVKAFKKADSERSRAAASAAVDSTAEAAAGKPAGTRTDAGTSAAPADRANRR				NA	NA	NA	NA	NA
D1-29_01698	387	gcvH_2	COG0509	Glycine cleavage system H protein	ATGAGCAACATTCCCGAAGACCTGTCCTACACGGCCGAACACGAGTGGGTCACCACCCCCAACTCCGATGGCGTGGTTCGGGTGGGCATCACCGATTTTGCCCAGGACGCCCTGGGGGACGTTGTCTATGCACAGATGCCCGAGGTGGGCACAAAGATCACGGCAAACGAAGTGGTAGGCGAGGTCGAATCCACCAAAAGCGTGAGTGACATCTACGCACCGGTTAGCGGGGAAGTGGTGGCCCGGAACGATTCGCTGGACACCGATTCCGCCCTGATCAACAGTGATCCCTATGGCGACGGATGGCTCATTGAGGTCAAACTGGCAGAAGCTGACGCGGTGGAGTCATTGCTCAGTGCATCCGAGTACGAACAGCAGGTAGGCTAA	MSNIPEDLSYTAEHEWVTTPNSDGVVRVGITDFAQDALGDVVYAQMPEVGTKITANEVVGEVESTKSVSDIYAPVSGEVVARNDSLDTDSALINSDPYGDGWLIEVKLAEADAVESLLSASEYEQQVG				NA	NA	NA	NA	NA
D1-29_01699	522			hypothetical protein	ATGGTGATTGCAGGCGTAGCAGCTGCAGCGGAAGAGGAGGAATCCATGGTTGGCCACAAAAAGAAACCTGCCGACAGGGATTACGGCGCTGGTGAGGCCAAGTCATCGGAGACCACCTCGATCCACCTCACACCCGTCACCGACGAACCCACCATTACGCCCAGGCTGTCGCCGGAAGAACGCTCCTCAGTGGAAGCTCTTCCCGCCGGATCAGCGCTCCTGATTGCCCACACCGGCCCGAACGCCGGCGCCCGCTTCCTGCTGGACTCGGACGTCACCACCGCCGGCCGGCACCCCGACGCCGATATCTTCCTGGACGATGTCACCGTTTCCCGCCGCCACGTGGAGTTCCGGCGCACCGAACGTGGCTTTGAAGTGGTGGACACCGGCAGCCTCAACGGCACCTACGTCAACCATGACCGCGTTGACAGCGTCGAGTTGAGGTCCGGCAGCGAAGTCCAGATCGGAAAATTCCGACTCACCTTCTACCTGAGCCCTGCCCGCGCTGCAGGCCGCGGCTGA	MVIAGVAAAAEEEESMVGHKKKPADRDYGAGEAKSSETTSIHLTPVTDEPTITPRLSPEERSSVEALPAGSALLIAHTGPNAGARFLLDSDVTTAGRHPDADIFLDDVTVSRRHVEFRRTERGFEVVDTGSLNGTYVNHDRVDSVELRSGSEVQIGKFRLTFYLSPARAAGRG				NA	NA	NA	NA	NA
D1-29_01700	723		COG0789	putative HTH-type transcriptional regulator	GTGGCAATGGCACAACCGGAACGCCGCGGACCGCAGGTCCTGAACATCGGGGAAGTCCTCGCGCAGCTGAGCAGCGACTTTCCCGGAATGACTGCGTCCAAAATCAGGTTCCTCGAAGAAAAGGGACTGATTAACCCGCGCCGCACCCCGGCAGGCTACCGGCAGTACTCCGACGGGGATGTTGAACGCCTCCGTTTTGTGCTCGCCCTCCAGCGGGACCAATACCTGCCACTGAAAGTCATCAAGGACTACCTGGACGCCATCGACAGGGGCGAGCGCCCGGAGAACCTGCCTCCCGGCGTCGTGGTTTCCCCGCGCATTGTTTCCGATGAACTCGCGGCCGAACTCCAGAACCGCGGGCGGAAGCTGAGCGAAGAACAGCTGCGCACTGAATCAGGGGCAAGCGTGCCGCTGCTCCAGTCGCTGCTGAGCTTCGGGCTGATCAGCCACAGCAACGGCGCGTTTGACGAGCACGCCCTGCAGGTGGCCCGTGCCTGCGTCCAGCTGGAAAGCCACGGCCTGGAGCCCCGGCACTTCCGTCCGTTCCAGGCAGCGGCGGAACGCGAGTTCGGGCTGGTGGAGCGGGCGGTGGCACCCCTGGCTTCACGGAAGGATTCCGCGTCCCAGGCCCGGGCCGCCGAGGCCGCCCGGGAAATCAGCGACCTCTGCCTTACGCTGCACCGGGCCCTGGTGCAGGACCACATCTCACGCATGGACATCTGA	MAMAQPERRGPQVLNIGEVLAQLSSDFPGMTASKIRFLEEKGLINPRRTPAGYRQYSDGDVERLRFVLALQRDQYLPLKVIKDYLDAIDRGERPENLPPGVVVSPRIVSDELAAELQNRGRKLSEEQLRTESGASVPLLQSLLSFGLISHSNGAFDEHALQVARACVQLESHGLEPRHFRPFQAAAEREFGLVERAVAPLASRKDSASQARAAEAAREISDLCLTLHRALVQDHISRMDI				NA	NA	NA	NA	NA
D1-29_01701	504		COG1259	putative protein	ATGATCGAAGTAGAGATCGTAGGCGTTCGGATCGAACTGCCTTCCAACCAGCCCCTGGTTCTTCTCCGCGAGATCCGCGGCGAACGCCACGTGCCAATCTGGATCGGAACCCCGGAGGCCAGCGCCATTGCCCTGGCCCAGCAGGGGGTGGTGCCGCCCAGGCCCATGACCCATGATCTCCTCGTGGACGTCGTCGAATCGCTGGGCCACTCGGTGGTCAGCGTCAATATCGTGGCGGTGGAAGACAACATCTTCTACGGCCAGCTCCAGTTCGAGAACGGCACCACTGTCAGCTCACGGGCGTCTGACGCCCTGGCCATCGCCCTGCGGGCCAAGTGCCGGATCTGGTGTGCCGACTCCGTGATGGATGAGGCTGGTGTGCGCATCACCGAGCACGACGAAGGCGAGGACACCGAGCCCGGGCCTACCGTGGACGAAGAGCGTGAACTGCGCCGCTTCCGGGAATTCCTCGACGACGTGGAGCCGGAAGACTTCGACGGCTGA	MIEVEIVGVRIELPSNQPLVLLREIRGERHVPIWIGTPEASAIALAQQGVVPPRPMTHDLLVDVVESLGHSVVSVNIVAVEDNIFYGQLQFENGTTVSSRASDALAIALRAKCRIWCADSVMDEAGVRITEHDEGEDTEPGPTVDEERELRRFREFLDDVEPEDFDG				NA	NA	NA	NA	NA
D1-29_01702	597		COG0789	putative HTH-type transcriptional regulator	GTGAGTCCCAAAGGCGAAGCAGGCGAGCTGAAACAGCCCACAACGGCTGGTGCTGCTGTCCCCGCCAGCGGTGCCCAGGGCCTCCTGTTCACCGAAGACCTTCCCGTCCTGGACGAGGACGCCGGCTACCGCGGCCCCACTGCCTGCAAGGCCGCCGGAATTACCTACCGCCAGTTGGATTACTGGGCAAGGACCGGTCTGGTTGAACCGGCCGTCCGTGGTGCAGCCGGTTCAGGTTCCCAGCGGCTCTACGGGTTCCGGGACATCCTGGTCCTCAAGGTCGTCAAGAGGCTCCTGGATACCGGCGTTTCGCTGCAGCAGATCCGTTCGGCAGTTGAGCACCTCCGCGAACGCGGAGTGGAGGACCTGGCACAGATCACCCTCATGAGCGACGGCGCCAGTGTGTACGAATGCACCTCCGCTGACGAGGTCATCGACCTCGTCCAGGGCGGCCAGGGTGTGTTTGGCATTGCGGTGGGACGTGTCTGGCGCGAAGTTGAAGGCAGCCTCGCCTCCCTTCCCAGTGAGCACGCGGCGGTGCAGTCCTTTCCCGACGACGAGTTGAGCAAACGGCGGGCGGCCCGCAAGACCGGCTGA	MSPKGEAGELKQPTTAGAAVPASGAQGLLFTEDLPVLDEDAGYRGPTACKAAGITYRQLDYWARTGLVEPAVRGAAGSGSQRLYGFRDILVLKVVKRLLDTGVSLQQIRSAVEHLRERGVEDLAQITLMSDGASVYECTSADEVIDLVQGGQGVFGIAVGRVWREVEGSLASLPSEHAAVQSFPDDELSKRRAARKTG				NA	NA	NA	NA	NA
D1-29_01703	822	parA		Chromosome partitioning protein ParA	GTGCAAGTAGTCAGCATCAGCAGCCTCAAGGGCGGGGTCGGCAAGACTTCCGTCACCACAGGATTGGCGTCTGCGGCGCTGGCCGCAGGCATCCCCACACTGGTGGTGGACCTGGATCCCCACGCGGACGCGACCACAGCCATGGGCGTGCAGCCAGGTGATCAGCTGGACATCGGCCGGATGCTGAAGAGCCCGCGACGGGCGAAGCTCGCCGAGAACGTCGTCGGCAGCAGCTGGACCGCCCATGCCCATTCGAACGGCTCCGGGCCCGCGGTCCTGGACGTCGCCGTCGGCTCCGCCTATACCGGAATCTACGACCGCCCTGATCTTGGCCGGCGCGATCTCCGCCGGTTGTCAGCTGTCCTGGCCGGCGCCGATAAATACCAGCTGGTCCTGATCGACTGCCCTCCCTCCCTTAACGGGCTGACAAGGATGGCCTGGTCCGCCAGCGACAAAGTTGCCCTCGTCGCAGAGCCAGGGCTCTTCTCCGTGGCAGGAACCGAACGGACCATGCGCGCCATCCAGCTTTTCCGGCAGGAATTCGCACCCAACCTTTCCCCGGCAGGCATTGTGGCCAACCGCGTCCGCAGCGGCTCGTCCGAGCACACGTACCGGCTGGCCGAAATGGAGTCGATGTTTGGTGAACTCCTCTTGAGCCCCAGGATCCCGGAGCAGGCAAACTGGCAGCAGATCCAGGGCGCCGCCCACCCCGTCCACCATTGGCCCGGGGATTCCGCCAAATCAGCCGCGGCCCTGTTCGACACCCTCCTGGCCAACCTTCTCGCCGTCGGCATCGGTTTACGGAGCCGCAGCCAGCGATAG	MQVVSISSLKGGVGKTSVTTGLASAALAAGIPTLVVDLDPHADATTAMGVQPGDQLDIGRMLKSPRRAKLAENVVGSSWTAHAHSNGSGPAVLDVAVGSAYTGIYDRPDLGRRDLRRLSAVLAGADKYQLVLIDCPPSLNGLTRMAWSASDKVALVAEPGLFSVAGTERTMRAIQLFRQEFAPNLSPAGIVANRVRSGSSEHTYRLAEMESMFGELLLSPRIPEQANWQQIQGAAHPVHHWPGDSAKSAAALFDTLLANLLAVGIGLRSRSQR				NA	NA	NA	NA	NA
D1-29_01704	3399	pycA		Pyruvate carboxylase	ATGTTTTCCAAGATTCTGGTGGCCAACCGCGGCGAAATCGCGATCAGGGCATTCCGCGCCAGCTACGAGCTGGGCGCCAAGACCGTTGCTGTTTTTCCGAACGAGGACCGTAACTCGATACACCGCCAGAAGGCCGATGAGGCTTATCTGATTGGTGAGGAAGGCCATCCGGTCAGGGCTTACCTTGACGTGGCCGAGGTGGTCCGGGTGGCCAAGGAGTCCGGTGCAGACGCCATCTACCCTGGCTACGGATTCCTCTCGGAGAACCCGGACCTGGCCCGTGCTGCGAAAGAAGCGGGCATCACGTTCGTTGGTCCGCCGGCTGAGGTCCTGGAGCTGGCGGGCAACAAGGTTGCCGCTTTGGAAGCTGCCCGAAAGGCCGGCGTCCCTGTCCTGAAGTCCAGCCAGCCGTCTAAGGACCTCGATGAGCTCATCGCTGCGGCTGACGAAATCGGGTTCCCAATCTTTGCCAAGGCGGTCGCCGGCGGCGGCGGGCGCGGCATGCGACGGGTGGACACCCGCGATGCCCTTCCGGAAGCCCTGCAGTCTGCCATGCGCGAAGCGGATGCGGCGTTCGGTGATCCCACCATGTTCCTGGAGCAGGCCGTGCTCCGCCCGCGGCACATCGAGGTCCAGATCCTCGCAGATGCCGAAGGCAACGTCATGCACCTCTTTGAGCGTGACTGTTCCATTCAGCGCCGCCACCAGAAGGTTATTGAGATCGCCCCCGCGCCCAACCTTGATGAGGGAATCCGCCAGTCGCTGTACCGGGATGCGGTCAAGTTCGCGAAGGCACTGAACTACGTCAACGCCGGTACGGTTGAGTTCCTGGTCGATACAGTCGGCGAACGGGCCGGCCAGCACGTGTTCATCGAAATGAATCCGCGCATCCAGGTGGAACACACTGTTACCGAAGAAGTCACGGACGTGGACCTGGTGCAGGCCCAGCTGCGGATCGCCGCCGGCGAAACGCTAGCGGACCTGGGGCTCTCCCAGGAGTCGGTCCAGCTCAAGGGCGCAGCCCTGCAGTGCCGCATCACCACCGAGGACCCTGCAAACGGGTTCCGCCCCGACGTCGGGAAGATCACCGGTTACCGTTCCGCTGGCGGCGCCGGTGTTAGGCTCGACGGCGGCACCGTGTACTCAGGTGCCGAAATCAGCCCCCACTTCGACTCCATGCTGGTGAAGCTCAGCTGCCGTGGCCGCGATTACCCTGCCGCCGTGGCCCGCGCCCGCCGTGCCCTCGCCGAGTTCCGAATCCGTGGCGTCTCCACCAACATTTCGTTCCTGCAGGCCGTCCTGGACGATCCCGATTTCATTGCCGGCAACGTGGCGACCAACTTCATCGACGAGCGTCCCCAGCTCCTGAAAGCCCGGGTTTCCGCTGACCGCGGCACCAAGCTGCTGACCTGGCTGGCCGAGGTCACGGTGAACAAGCCCAACGGCGAGCTCACCGTCCATTCCAACCCCGCAGCCAAGCTGCCTTCGGTTGCGGGCACGCAACCGAAGCCGGGATCCCGCCAACGGCTCCTGGAACTGGGCCCGGAGGGCTTCGCCAAGGCTCTTCGCGAGCAGACAGCCGTGGCTGTCACGGACACCACCTTCCGCGACGCCCACCAGTCCCTGCTCGCTACCCGGGTCCGGACCCGCGACCTGGTAGCTGCGGGCCCGGCCGTCACGGCCCTGCTCCCGGAACTGCTCTCCGTTGAGGCCTGGGGCGGCGCCACCTACGACGTCGCCCTGCGCTTCCTCGGCGAGGACCCGTGGGACCGCCTTGCCGCGCTCCGGAAGGCGCTGCCGAACGTGTGCATCCAGATGCTGCTCCGCGGCCGGAACACCGTGGGGTACACGCCGTACCCCGAGGAAGTCACGGAGGCCTTCGTCAACGAAGCAGCCGCCACGGGCATCGACATTTTCCGGATCTTCGATGCGCTCAACGACGTCAACCAGATGGCGCCTGCCATCCGTGCAGTCCGGGCCACCGGCACCGCTGTGGCCGAGGTGGCCCTCTGCTACACGGGCGACCTTCTGAACCCCGACGAGAAGCTGTACACGCTCGACTACTACCTTGAGCTGGCACAGAGGATTGTGGATGCCGGCGCGCACATCCTTGCCATCAAGGACATGGCGGGCCTGCTTCGTCCCGCTGCCGCCGCCAAGCTGGTTGCCGCGCTCCGTGAGCGCTTCGACCTTCCGGTCCACCTGCACACCCATGACACCGCAGGCGGCCAGCTGGCCACCCTGTTGGCTGCTGTGGACGCAGGCGTGGACGCGGTAGACGCAGCGTCTGCATCGCTGGCCGGAACCACCAGCCAGCCCTCGGCGTCGGCCCTCGTCGCGGCGTTGGCGCACACTCCGCGTGACACCGGGCTTAGCCTGGCTGCCGTGAGCTCCCTGGAGCCCTACTGGGAGGCCGTGCGGCGGGTCTACGCGCCGTTCGAGTCCGGCCTGCCGGGACCAACAGGCCGGGTTTACCAGCACGAAATCCCGGGCGGCCAGCTCTCCAACCTCCGTCAGCAGGCCATGGCGCTGGGCCTGGGAGAGCGCTTCGAAGCCATTGAGGACATGTACACCGCGGCAGACCGCATCCTGGGCCGGCTGGTGAAGGTCACCCCCTCCTCCAAGGTGGTAGGCGACCTCGCGCTCCACCTCGTGGGACTCAACGCGGACCCCGCGGACTTCAACGAAAACCCGCAGAACTACGACATCCCCGACTCCGTCATCGGCTTCCTCTCCGGTGAACTAGGCGACCCGCCCGGAGGCTGGCCGGAACCGTTCCGGACCAAGGCTCTCCAGGGCCGCAGCGTCAAGGTCCGCGACGTTGAGCTCAGCCCAGAGGACAGCGCCGCACTGCAGGGCGATTCCAAGACCCGCCAGCACACGCTGAACAGGCTGCTCTTCGACGGTCCCACCAAGGACTACCTCAAGAGCGTCGAAACCTACGGGAACATTTCTGTGCTTGACACCCGCGACTACCTTTACGGTCTTCAGCGGGGAGAAGAGCACGAGATCCAGCTGGAGAAGGGCGTCAGGCTGATCGCTTCCCTCGAGGCTGTCTCGGAGCCGGACGAAAAGGGAATGCGTACGGTGATGTGTACGCTGAACGGCCAATCCCGGCCTGTGGTGGTGCGGGACCGGTCGGTGGTCAGCAACGTCAAGGCCGCTGAGAAGGCTGATCCTGCCCAGCCGGGGCACGTGGCTGCGCCGTTCGCCGGTGCCGTCTCGGTCACCGTCGCCGTGGGTGACACCGTCAACGCGGGCGATACCGTAGCCACCATTGAGGCGATGAAGATGGAAGCGTCCATTACGACGCCGGTGGGCGGCAAAGTATCGCGGCTTGCCATCTCCTCGGTGGAACAGGTCCAGGGCGGGGACCTGCTCCTGGTCGTGGAGCAATAG	MFSKILVANRGEIAIRAFRASYELGAKTVAVFPNEDRNSIHRQKADEAYLIGEEGHPVRAYLDVAEVVRVAKESGADAIYPGYGFLSENPDLARAAKEAGITFVGPPAEVLELAGNKVAALEAARKAGVPVLKSSQPSKDLDELIAAADEIGFPIFAKAVAGGGGRGMRRVDTRDALPEALQSAMREADAAFGDPTMFLEQAVLRPRHIEVQILADAEGNVMHLFERDCSIQRRHQKVIEIAPAPNLDEGIRQSLYRDAVKFAKALNYVNAGTVEFLVDTVGERAGQHVFIEMNPRIQVEHTVTEEVTDVDLVQAQLRIAAGETLADLGLSQESVQLKGAALQCRITTEDPANGFRPDVGKITGYRSAGGAGVRLDGGTVYSGAEISPHFDSMLVKLSCRGRDYPAAVARARRALAEFRIRGVSTNISFLQAVLDDPDFIAGNVATNFIDERPQLLKARVSADRGTKLLTWLAEVTVNKPNGELTVHSNPAAKLPSVAGTQPKPGSRQRLLELGPEGFAKALREQTAVAVTDTTFRDAHQSLLATRVRTRDLVAAGPAVTALLPELLSVEAWGGATYDVALRFLGEDPWDRLAALRKALPNVCIQMLLRGRNTVGYTPYPEEVTEAFVNEAAATGIDIFRIFDALNDVNQMAPAIRAVRATGTAVAEVALCYTGDLLNPDEKLYTLDYYLELAQRIVDAGAHILAIKDMAGLLRPAAAAKLVAALRERFDLPVHLHTHDTAGGQLATLLAAVDAGVDAVDAASASLAGTTSQPSASALVAALAHTPRDTGLSLAAVSSLEPYWEAVRRVYAPFESGLPGPTGRVYQHEIPGGQLSNLRQQAMALGLGERFEAIEDMYTAADRILGRLVKVTPSSKVVGDLALHLVGLNADPADFNENPQNYDIPDSVIGFLSGELGDPPGGWPEPFRTKALQGRSVKVRDVELSPEDSAALQGDSKTRQHTLNRLLFDGPTKDYLKSVETYGNISVLDTRDYLYGLQRGEEHEIQLEKGVRLIASLEAVSEPDEKGMRTVMCTLNGQSRPVVVRDRSVVSNVKAAEKADPAQPGHVAAPFAGAVSVTVAVGDTVNAGDTVATIEAMKMEASITTPVGGKVSRLAISSVEQVQGGDLLLVVEQ	PGPT0001420_1706	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
D1-29_01705	1812		COG1022	Long-chain-fatty-acid--CoA ligase FadD15	GTGCGCGAATTCAGTGTTCCGCCGCTGGTTGTTGTCCCACCTGAAACCAACATCACCGATCTGGTGCTGCGCCAGGCAGCGAAGCCCAGCAATCCGTCCCTGTTCTCGCGGCTGGATTCCTCAGGCACGTGGCAGAACGTGTCCGCCACCGACTTCCTGGCAGACGTCACGGCCCTGGCAAAGGGGCTGATGGCCAGCGGCGTAGGCGCCGGCGACCGGGTGGGAATCATGTCCCGCACCCGCTACGAGTGGGCCCTGGTGGACTTCGCCATCTGGTTCGCCGGCGGCATCTCCGTCCCCATCTACGAAACCTCATCGCCGTCACAGGTAGCCTGGAACCTGGGGGACTCCGGTGCCGTTGCAGCCTTTGGCGAAGCAGCCCATCATGAGGATGTCATCCGCCAGGCCGCCACTGCCGAGGGCCTGACCGCGCTCCAGCACGTCTGGCAGCTGGAGGGCGCAGGACTGGACACCCTTCGCGAAGCCGGCCGCGCCGTCAGCGACGACGAACTGGAGTCCCGCCGTACGTCGGCAAAGCTCACGGACCTCGCCACGATCATCTACACCTCCGGAACCACGGGCCGCCCCAAGGGCTGCGAACTGACCCACGGCAACTTCGTCGAACTGTCGGACAACGCACTTGCCATCATCGGCGAGATCGTTCACGAGAACGCCAAGACCATCATGTTCCTGCCCTTGGCGCACGTCTTTGCGCGGTTCATCTCCGTCCTGGCCATGGCGGCCGGAACAACGGTGGCGCACACTCCTGACATCAAGAACCTGCTCTCGGACCTGCAGAGCTACGAGCCCACCTTTATCCTTGCCGTGCCTCGTGTCTTCGAGAAGGTCTACAACTCGGCCCTGACCAAGGCAGAGGACGGCGGCAAGGGCGCCATCTTCCACAAGGCCGCCGATACCGCCATCGCCTTCTCCAAGGCACGCCAGGAGGGACGCGTGGGGCTGGGATTGAAACTCCGGCATGCCCTGTTCGACCGGCTGGTGTACGGCAAGCTGCGTGCCGCCATGGGCGGCCATGTTGCGCATGCAGTATCCGGCGGCGGTCCCCTGGGCGAACGGCTGGGCCACTTCTTCCAGGGCATCGGGCTGCAGGTGCTGGAAGGCTATGGGCTGACCGAAACCACGGCTCCCATATCCGTCAATACGCCGTCCCTGATCAAGATTGGTTCAGTCGGCAAGCCGCTGCCCGGCAATGCAGTCAAAATTGCCGACGACGGCGAGATCCTCGCCAAGGGAGCCTGCGTCATGCGCGGCTACTACAAGCGGGAGGACCTGACGGCGGAGACGTTCTCCGACGACGGCTGGTTCCGTACGGGTGACATCGGCCGGCTGGACGAGGACGGCTTCCTGTGGATCACCGGCCGGAAGAAGGAAATCATCGTTACTGCCGGCGGAAAGAACGTGATTCCCGCCCTGCTCGAAGACCAGATCCGGGCCGATGCCCTCGTGTCACAGGTCCTGGTGGTGGGCGACAACCGGCCGTTCATCGGCGCCCTGGTCACGCTGGACCAGGAGGCCCTGCCGGGCTGGCTCCAGCGCCATGGCCTCCCGTCCAGCACCTCCCTGGCCGACGCCGCCGCCAACCCGGTGGTCAAGGCAGCGGTCCAGGATCTGATCACCGCCGCCAATGGGTCTGTTTCCCAGGCGGAAGCCATCAAGTCGTTCCGGATCGTGCCGGCTGACTTCACCGAAACTTCCGGACACCTGACCCCCTCCATGAAGGTGAAGCGGGCCCAAGTGATGAAGGACTTCGAAACTGTCATCGAAGAGATGTACGCGGCGCCCAGGTCCTGA	MREFSVPPLVVVPPETNITDLVLRQAAKPSNPSLFSRLDSSGTWQNVSATDFLADVTALAKGLMASGVGAGDRVGIMSRTRYEWALVDFAIWFAGGISVPIYETSSPSQVAWNLGDSGAVAAFGEAAHHEDVIRQAATAEGLTALQHVWQLEGAGLDTLREAGRAVSDDELESRRTSAKLTDLATIIYTSGTTGRPKGCELTHGNFVELSDNALAIIGEIVHENAKTIMFLPLAHVFARFISVLAMAAGTTVAHTPDIKNLLSDLQSYEPTFILAVPRVFEKVYNSALTKAEDGGKGAIFHKAADTAIAFSKARQEGRVGLGLKLRHALFDRLVYGKLRAAMGGHVAHAVSGGGPLGERLGHFFQGIGLQVLEGYGLTETTAPISVNTPSLIKIGSVGKPLPGNAVKIADDGEILAKGACVMRGYYKREDLTAETFSDDGWFRTGDIGRLDEDGFLWITGRKKEIIVTAGGKNVIPALLEDQIRADALVSQVLVVGDNRPFIGALVTLDQEALPGWLQRHGLPSSTSLADAAANPVVKAAVQDLITAANGSVSQAEAIKSFRIVPADFTETSGHLTPSMKVKRAQVMKDFETVIEEMYAAPRS	PGPT0008380_5886	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-29_01706	1182	nanK_1		N-acetylmannosamine kinase	ATGAGTAACTTAGCAGTCAACGAGTCAGCGCGCTGCCTCCGCCGAGTGCCTGCCGGAGCGCGCCGCCGGCCGCGCCTAGAATGGGAAATTATGTACGCACCGCCCCCCGGCGAACAGGCCGGTCCGCTCAGACGCCCTGCACCGTGGAGGCGGCGGCCACCCACCCTGCGGGCACGGTCCCGGCACGGGGAGGGCTTCCGGGAACACCTCCGGCTCGGCCGGAAAGGGCTGGCCATCGGCATAGACATCGGCGGAACGAAGGTCGCCGCCGGCGTGGTGGACGCGGACGGCAGGATTCTCAATGAAGCGCGGCGTTCCACGCCCGGGAACGATCCACGCGCCGTCGAACGCGTCATTGTCGAACTGGTCCAAGAGCTGGGCGCCGGTCACCGGGTGTGGTCAGTGGGCATCGGCGCTGCCGGGTGGATGGACCTGGAGGGCGGCACCGTGCTGTTCAGCCCGCACCTGGCCTGGCGCAACGAACCGCTGCGGGCCAACCTGCAACGGTTGCTGCGGCGGCCGGTACTCCTCACGAACGACGCCGATGCGGCGGCCTGGGCGGAATGGCGCTTCGGTGCGGGGCACGGTCAGGACAGGCTTGTCTGTATCACCCTGGGGACGGGCATAGGCGGTGCCATGGTGATGGATGGCCGCGTTGAACGCGGACGCTATGGCGTCGCCGGCGAATTCGGTCATCAGATCATCATGCCGGGCGGACACCGCTGCGAGTGCGGGAACAGGGGATGCTGGGAGCAGTACGCCTCCGGAAACGCGTTGGGACGGGAAGCGCGGATCCTGGCGCAGGCCAACTCGCCGGTTGCCCAGGATCTCCTGGCGGCCGTGGAAGGACAAACCGAAGCCATTACTGGAGCCATTGTGACCGAACTTGCCCTCGCAGGCGATCCGGCATCCCGGGAACTCCTGGTTGAGGTGGGCGAATGGCTGGGCCTGGGACTCGCCAACCTTGCCGCTGCCCTGGACCCCGGAATGTTTGTCATTGGCGGTGGGCTGTGCTCCGCCGGCGACCTGCTGGTGGAACCTGCGCGGAATGCGTTCGCCCGGAACCTGACAGGGCGTGGCTTCCGCCCGGCCGCAGGCATCGAGCTCGCCGCTTTGGGGCCAAGCGCCGGACTGATCGGGGCTGCGGACCTTTCCCGGGTCAGCAGCCGAATGCGCAGCTGA	MSNLAVNESARCLRRVPAGARRRPRLEWEIMYAPPPGEQAGPLRRPAPWRRRPPTLRARSRHGEGFREHLRLGRKGLAIGIDIGGTKVAAGVVDADGRILNEARRSTPGNDPRAVERVIVELVQELGAGHRVWSVGIGAAGWMDLEGGTVLFSPHLAWRNEPLRANLQRLLRRPVLLTNDADAAAWAEWRFGAGHGQDRLVCITLGTGIGGAMVMDGRVERGRYGVAGEFGHQIIMPGGHRCECGNRGCWEQYASGNALGREARILAQANSPVAQDLLAAVEGQTEAITGAIVTELALAGDPASRELLVEVGEWLGLGLANLAAALDPGMFVIGGGLCSAGDLLVEPARNAFARNLTGRGFRPAAGIELAALGPSAGLIGAADLSRVSSRMRS				NA	NA	NA	NA	NA
D1-29_01707	624			hypothetical protein	ATGCCTAGGCCAGACTCGGGCTCAGCGGACCAAAGCGCAAACCAGGATGATGCCGTCTGGCTGGACCTGGTGGCACGTCTGGAAGGATCCACCTCCGACAATCAGAGCGGTCAGGAGACGGGGACTACAGACACAGCGGATATTTCCGGAACCACCCCCACCCCAAGCACAGATCCACGGGCGTCCACGGATTCCTCCGATAACCCCGCTGGCACAGGCAGGCACGTAGGATTCCGTGACTTTGATCCCCTTGGCCTGGCCGCACCTACAGAAATGTCTGCGTCGGAGCGCCAGGCCGCCGCTTCGCCGGCTCCGCCAAAGCATGCTGCCCCAACAGATGGCGACGCAGCAGGCGGCCCCCGGGACTATGGGGTGGAGGACGACGACGACGGTTTCGTTCCGGACGAGCCGCCGAGCCTGGCGGGAACAGACCCGCTCACCATGCTCGCGTGGCTTGGCGCAGTTGGCGGGCCCGTGGCCCTCCTGCTGTCGGCAATGTTCTGGCGGTCCGCTCCCCTGTTGGCCATACTGGGAATCCTTGCGGTATTTATCCTTGCCGTGGTGTACCTCATTATGAAGCTCCCGCAGGAAAAGGATGAGAACGACGACGGCGCCCGCGTCTGA	MPRPDSGSADQSANQDDAVWLDLVARLEGSTSDNQSGQETGTTDTADISGTTPTPSTDPRASTDSSDNPAGTGRHVGFRDFDPLGLAAPTEMSASERQAAASPAPPKHAAPTDGDAAGGPRDYGVEDDDDGFVPDEPPSLAGTDPLTMLAWLGAVGGPVALLLSAMFWRSAPLLAILGILAVFILAVVYLIMKLPQEKDENDDGARV				NA	NA	NA	NA	NA
D1-29_01708	837			Thermostable monoacylglycerol lipase	ATGACCACCCTCCCGGACCACAGCCCGTTCAGCAGCACCTTCCACGGCGGCGATGGCCCCAGGATCGGGGTGGTCCTCTCGCACGGCTTCACCGGCAGCCCGCACGGGCTCCGGGCCTGGGCCCAGTCCCTCGCCGACGCGGGCTTCGCGGTCCGGATGCCGTTACTCCCTGGCCATGGCACCAGCTGGCAGGAACTCGCCCGCACCCGGTGGACGCAATGGCACACCGAGCTGGACAACGCATACCTGGAACTTGACGGATCCTGCGACTACGTTTTTGCCGCGGGGCTCAGCATGGGAGGCGCGCTGGCCCTCAGGATCGCCGCCACCAGGCCCGTTGCCGGTGTCATCCTGGTGAATCCGGGCCTGGTCATCGACGATCCCCGCGCTCCGCTGGCCGGAATCCTCAAGCTGGTGCTCAAAAGCACGCCGGCGATTGCAAATGACATTCTTAAGCCGGGAATGGACGAAGCCGCCTACGCACGTACCCCTGTGGCGGCCGCCCACGAATTGAACAAAATGTTCAAGGACACCATCCGGCTGCTCCCCCGGGTGACGGCACCGGTGCGGGTCTTCCGCTCGACTGTGGACCACGTTGTGTCGGACTCGAGCATAGTGGCCCTGCGCCGCGGCCTGACCCATGCGCCCCTCCACCTGACAAGCCTGAGCAACAGCTACCATGTGGCCACGCTGGACAACGATGCAGAGGAAATTTTCCAGGGCTCATCCGAATTCATCCGCTCTGTGGTTTCGGCGTTAGCTCCGCCCCCAAGCGGACAGACTCCCGCAGAGCGTCCAGCAGTCCTGGCAGACAGGGAGGGAACAGCCAATGCCTAG	MTTLPDHSPFSSTFHGGDGPRIGVVLSHGFTGSPHGLRAWAQSLADAGFAVRMPLLPGHGTSWQELARTRWTQWHTELDNAYLELDGSCDYVFAAGLSMGGALALRIAATRPVAGVILVNPGLVIDDPRAPLAGILKLVLKSTPAIANDILKPGMDEAAYARTPVAAAHELNKMFKDTIRLLPRVTAPVRVFRSTVDHVVSDSSIVALRRGLTHAPLHLTSLSNSYHVATLDNDAEEIFQGSSEFIRSVVSALAPPPSGQTPAERPAVLADREGTANA				NA	NA	NA	NA	NA
D1-29_01709	804			Thermostable monoacylglycerol lipase	ATGACAGAAAGCAGCATCCCCTCCCGGCCTGCTGCTTTCAGCTACCCCGGCCACGGACCCAATGCAAGGACCGGAATAGCCATTAGCCACGGTTTTACCGGCAGTCCGCTCAGCGTCCTGCCGTGGGCTGAGCACCTTGCCGCCCAGGGATTTGCCGTATCGGTGCCGCTGCTTCCCGGGCACGGCACGCACTGGAAGGAACTCGCACGCACGAACTGGCGCGACTGGCACGGGACCTTTGAGGCCGCATACCTGGACCTCGCGGCGCGCACAGACCAATGCTTTGTGGCTGGCCTGTCCATGGGCGGGGCCATCGCCTTGCTCACGGCATCCAGGCATCCTGTGGCCGGCGTGTCGGTGGTCAACCCGGGCCTGAGCTTCTATGACCGGCGCGTGAGGGTGGTCGGAGTCCTCAAATATTTCCAGCACACAACCCTGCCCATCCAGGAGGACGAACCCACCGCGGAGGCCACCGAGGACGGTGACTATTCAAGGACTCCGCTCGCCTCGGTGCACGAGCTCAAGAAGCTGTTCGGTGCGGCTGCCCGGGGCCTCCCCCGGGTGGCGGCTCCCGTGCAGGTCTTCAAGTCCAGGGCAGATGCCGTGGTGCCTCCCACGTCCCTGGCCGTACTGAGACGGCGCTTGGGCCCGCGCCTCGTGGAAGTCGTGGATCTCCACAACAGCGGCCACGTGGCTACTCTTGACGTTGACGCTCCTGAGATTTTTGCCCGATCCACCATGTTCTTCCTTCAGCATGCTGCCCCCAACAACCCGTCCCACAACATCACGTCGGAGACATCATGA	MTESSIPSRPAAFSYPGHGPNARTGIAISHGFTGSPLSVLPWAEHLAAQGFAVSVPLLPGHGTHWKELARTNWRDWHGTFEAAYLDLAARTDQCFVAGLSMGGAIALLTASRHPVAGVSVVNPGLSFYDRRVRVVGVLKYFQHTTLPIQEDEPTAEATEDGDYSRTPLASVHELKKLFGAAARGLPRVAAPVQVFKSRADAVVPPTSLAVLRRRLGPRLVEVVDLHNSGHVATLDVDAPEIFARSTMFFLQHAAPNNPSHNITSETS				NA	NA	NA	NA	NA
D1-29_01710	810			hypothetical protein	GTGTTCTATTGGGTCATGAAAAGGATCTTCCTGGGTCCGGTTTTGCGGCTGCTTTTCCGTCCCTGGGTCAAGGGTTTGGACAACGTTCCGTCGGAGGGCGCGGCGATCATCGCCTCCAACCACCTTTCCTTCTCGGATTCGATTTTTATGCCACTGATGGTGTCCAGGCCGGTTGTCTTCCTTGCCAAGTCTGAGTACTTCACCGGCACGGGACTCAAAGGCAGGCTCACCGCACTCTTCTTCAGGCTTACCAACCAGCTCCCCATGGACAGGTCCGGCGGTGCGGCTTCGGCTGTCTCACTAAGCGCCGGCATGGACGTGCTGACCTCCGGCGGCCTGTTGGGAATCTATCCGGAAGGCACACGGAGCCCCGATGGAAAGCTCTACCGGGGCAAGGTGGGGGTGGCACGGCTGGCCCTTCAGGCCGGGGTGCCTGTGATTCCCGTTGCAATGATCGGCACGGACAAAGTACAACCCATCGGCAAACGGATGCCCAATATCCGTCGGATCGGGATGATATTCGGTGAACCGCTCGACTTCAGCAAATATCAGGACCAGGCCGAGGACCGGTTGGTCCAGCGGAAGGTGACTGACGAGATTATGTTCGAGCTGATGCGGCTCTCCGGCCAGGAGTACGTGGACGAGTATGCGGCCGTGGTGAAGCTCCGGCTCGATGGAAAGCAAACGGAGCCGGCGCCCGAAGCGGATAGCGCCATGGCAAAGGAACCCCGGCAGGAACCCCGGCAGGACCTCGACCAGCAACGTACCGCGGAGCCGGAAGGCAATGGCGAGGCTTCCGCAACCGGATAA	MFYWVMKRIFLGPVLRLLFRPWVKGLDNVPSEGAAIIASNHLSFSDSIFMPLMVSRPVVFLAKSEYFTGTGLKGRLTALFFRLTNQLPMDRSGGAASAVSLSAGMDVLTSGGLLGIYPEGTRSPDGKLYRGKVGVARLALQAGVPVIPVAMIGTDKVQPIGKRMPNIRRIGMIFGEPLDFSKYQDQAEDRLVQRKVTDEIMFELMRLSGQEYVDEYAAVVKLRLDGKQTEPAPEADSAMAKEPRQEPRQDLDQQRTAEPEGNGEASATG	PGPT0024380_1354	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
D1-29_01711	1392	aroH	COG3200	Phospho-2-dehydro-3-deoxyheptonate aldolase	GTGATTGAGCTATCCGCAAAACCTGCCTTCTCGCTTTCCAGCACCGCCCAGAGCGGAGCAGCCAACTATCCGGGCCTTGATGATTGGCGCGATCTTCCCGTATCACAGCAGCCCAGCTGGCAGGACAGTGATGTCTTCGACGCCTCAGTGAAGGAACTCTCCGTCCTTCCGCCGCTTGTTTTCGCTGGTGAGGTGGACATCCTGCGTGAGCGGCTTGCTGCCGCAGCGCAGGGCAAGGCGTTCCTGCTGCAGGGCGGTGACTGTGCCGAGACGTTCGAAGCCGCTACTGCGGACCGAATCAGCGCCCGCGTCAGGACCATCCTCCAGATGGCAGTGGTGCTCACCTATGGTGCAGCGATGCCGGTCATCAAAATGGGCCGGATGGCCGGCCAGTTCGCCAAGCCGCGTTCTTCCAATGACGAAACCCGCGACGGCGTGACCCTCCCCGCATACCGCGGCGACATCGTTAACGGCTACGACTTCACGCCCGAATCACGCGGGCACGATGCCTCCAGGATGCTCAAGGCGTACCACACCTCGGCTTCCACACTGAACCTGATCAGGGCGTTCACCCAGGGCGGCTTTGCCGATCTCCGCCTGGTGCACCACTGGAACAAGGGGTTCACCGAAAATCCCGCCCATGCCCGCTACGAGTCCCTCGCCCGGGACATTGACCGCGCAATCCAGTTCATGGCGTCCTGCGGTGCGGACTTCGAAGCCCTCAAGCGCGTGGAGTTCTTCGCCAGCCACGAGGCGCTGCTGCTGGACTACGAGCGTGCGCTGACCCGCATCGACTCACGGACGGGCTTTCCCTATGACACGTCGGCGCACTTCCTCTGGATCGGGGAGCGCACCCGCGAGCTTGACCACGCGCATGTCGATTTCCTCTCAAGGGTGCGGAATCCCATTGGCGTAAAGCTCGGCCCGTCCACCACAGGGGACGACGCCCTCCGCCTCATCGACAAGCTGGACCCCGAGCGGGAACCCGGCCGCCTGACCTTCATCACCCGCATGGGGGCCGGAAACATCCGTGAGAAACTGCCTGCCGTTGTGGAGAAGGTCACCGCCTCCGGCGCCCAGGTCCTCTGGGTCACCGACCCGATGCACGGCAACACGGTCACCTCGCCCAATGGCTACAAAACCCGCAATTTCGACGACGTCATTGACGAGGTGCGCGGATTCTTCGAGGTGCACCACGGCCTGGGAACAGTTCCGGGCGGACTGCACGTCGAGATGACCGGCGACGACGTCGCTGAGTGCCTCGGTGGTGCCGATCCGGTGGACCAGGAAGCCTTCCTGGACAGGTACGAGTCGGTCTGCGACCCGCGCCTGAACCACATGCAGTCCCTGGAAATGGCCTTCCTGGTGGCCGGCGCCCTCGCCAAGAACTGA	MIELSAKPAFSLSSTAQSGAANYPGLDDWRDLPVSQQPSWQDSDVFDASVKELSVLPPLVFAGEVDILRERLAAAAQGKAFLLQGGDCAETFEAATADRISARVRTILQMAVVLTYGAAMPVIKMGRMAGQFAKPRSSNDETRDGVTLPAYRGDIVNGYDFTPESRGHDASRMLKAYHTSASTLNLIRAFTQGGFADLRLVHHWNKGFTENPAHARYESLARDIDRAIQFMASCGADFEALKRVEFFASHEALLLDYERALTRIDSRTGFPYDTSAHFLWIGERTRELDHAHVDFLSRVRNPIGVKLGPSTTGDDALRLIDKLDPEREPGRLTFITRMGAGNIREKLPAVVEKVTASGAQVLWVTDPMHGNTVTSPNGYKTRNFDDVIDEVRGFFEVHHGLGTVPGGLHVEMTGDDVAECLGGADPVDQEAFLDRYESVCDPRLNHMQSLEMAFLVAGALAKN	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
D1-29_01712	2067	spk1		Serine/threonine-protein kinase PK-1	GTGCAGGAATACGTGTCTGACCGACTTGTTGGAACGCTGGTGGATAACCGCTACGCCGTCCAGTCCAAGCTGGCGCGCGGCGGTATGTCCACCGTTTACCTGGCCACGGACCAGCGGCTGGAACGGGATGTGGCGCTCAAGGTACTGCACCCGCACCTGGCCGATGATGATACCTTCCTGGGCAGGCTGGGACGTGAAGCGAAGTCTGCGGCGAGGCTCTCGCATGCCCACGTTGTGAGCGTGCTCGACCAGGGAAACGACGGTCACACCGCCTACCTGGTTATGGAGTACATCAAGGGACACACACTCCGGGACGTCATCAACGCCAAGGGTGCGCTCCCTCCCCGTCTTGCCCTTGCGCTCATCGACCCAGTGGTGGAGGGGCTTGGAGCCGCGCATGCCGCCGGGATGATCCACCGGGACGTCAAGCCTGAAAACGTCCTCATTGCCGACGACGGGCGGATCAAGATCGGCGACTTCGGCCTGGCGCGCGCAGTTACCACGTCCACCAGCACCGGCGCTCTCATCGGCACCGTCGCCTACCTCTCCCCCGAGCTGGTGCTCGGGAAGCAGGCTGACGCCCGCAGCGACATCTATTCCGTGGGGATCATGCTTTACGAGATGCTCACAGGCCAGCAGCCGTTCAACGGCGACGTGCCCATCCAGGTTGCCTACCAGCACGTGAACGGCACGGTGAGACCGCCCTCCGCCGTGGTGCCAGGCCTTGCAGCCGAGGTGGACGAACTGGTGCAGTGGTGCACGGCCAATGATCCGGAGAACCGCCCAGTGGACGGCAATGCGCTGCTCCAGGAGCTCCGCCATATCCGGACCAACCTCACAGACTTCGAGCTGGACCTCCAGCCGCCTGCGGCCATTGGCCCCGGCCAGCAAAACCCTACCGAAATCATTACCCGCAGCAGCAACCCCACGACGGTGATGTCGCCGTTCGGCCGGCCCCAGCCACAGCACCCCGCCGACTCCCACCCCTCGGACTCTCCAGCCACCTCGGTCTATCCCACAATGCCTCCGCCACAGAGGCCTCCTGCGGAGTACGGACCCTTGACTCCCCAGACGCCGGCACGGCTGAGCAAGCGAGCCCAGCGCAAAGCCGACAGGGAGGACGAGAAAGCCAGGTCCCGTGCCGCCGCCACGCCGCTGAAGACATTGAGGGAAGGCAATCCCCGCCGCCGGGGTGTCCTCTGGGCAGTCATCGTCATCATCGCCGCCCTTCTGGCAACCGGGGCCGGCTGGTTCTTCGGCATGGGACCCGGCTCCCCCGGAACCGTTCCACAGGTGGCCAACAAAACGGTGGCGCAGGCCCAGCAGCTGCTCAGCGAGGCAGGCTTCCAGTCACGCACCAGTGACGTGTTCCATGATGATGTCCCGTCCGGGCTGGTGGTGGGTTCCGAGCCCGGGGCCGGAACCGAAATCAGGAAGTTCCAGCCTGTCGCGTTATTCGTCTCCAAGGGACCCCAGCTGTTTGATTTGCCGAACCTCACGGCAAAGACATTGGAGCAGGCCAAGGAAGAACTCAACCAGGCTGAAATGGCGCTGGGCACCGTCGTCGAGCAGTTTGATGAGGCGGTGGCCGCGGGAGTGGTCCTGGCACAGGACCCTGCCCCCGGGACACCAAGCCGGCACGGCACGCCGGTGAGCCTGACTGTATCCAAAGGCCCCCAGCCCATCCCGGTACCGGTAGTCGTCGGCGAGGACGCCGAGGACGCGGTGGCCGCGATTGAAGCGGCAGGACTCAAGGCCGTCATTGCACCGGAAGAGGTAAACGACAGGAACGTGCCCAAGGGGGCAGTGTCCAGCCAGTCGCCGGCGTCCGGAACGCTCACCAGGGGCGGCACCGTGACGCTGACCGTGTCCAAGGGCCCCAAGCTTGTCAAAGTACCCAGCTACATCGGCAAGCAGGCAGATGACGCACAGGACGCACTGGAAGAGCTCGGGTTTGAGGTCAGGGTCAACGAAATCCTGGGCGGCTTCTTCGGAACGGTCCGCAGCCAGGACCCGGTCAACACGGAAGTACCTGAAGGCTCGGTCATCACCCTGACGGTGGTGTAG	MQEYVSDRLVGTLVDNRYAVQSKLARGGMSTVYLATDQRLERDVALKVLHPHLADDDTFLGRLGREAKSAARLSHAHVVSVLDQGNDGHTAYLVMEYIKGHTLRDVINAKGALPPRLALALIDPVVEGLGAAHAAGMIHRDVKPENVLIADDGRIKIGDFGLARAVTTSTSTGALIGTVAYLSPELVLGKQADARSDIYSVGIMLYEMLTGQQPFNGDVPIQVAYQHVNGTVRPPSAVVPGLAAEVDELVQWCTANDPENRPVDGNALLQELRHIRTNLTDFELDLQPPAAIGPGQQNPTEIITRSSNPTTVMSPFGRPQPQHPADSHPSDSPATSVYPTMPPPQRPPAEYGPLTPQTPARLSKRAQRKADREDEKARSRAAATPLKTLREGNPRRRGVLWAVIVIIAALLATGAGWFFGMGPGSPGTVPQVANKTVAQAQQLLSEAGFQSRTSDVFHDDVPSGLVVGSEPGAGTEIRKFQPVALFVSKGPQLFDLPNLTAKTLEQAKEELNQAEMALGTVVEQFDEAVAAGVVLAQDPAPGTPSRHGTPVSLTVSKGPQPIPVPVVVGEDAEDAVAAIEAAGLKAVIAPEEVNDRNVPKGAVSSQSPASGTLTRGGTVTLTVSKGPKLVKVPSYIGKQADDAQDALEELGFEVRVNEILGGFFGTVRSQDPVNTEVPEGSVITLTVV				NA	NA	NA	NA	NA
D1-29_01713	1413			hypothetical protein	ATGACGACGTCCCGCTCGCCGAAGCAGCACACCAGGCCAAGCCTGCCCATGATTGCCGCCACCACGGCAGCGTTGCCTGCGGTCGTTCTGTCCTCTCTTGCCCTCGCCCAGCCTGCTGCCGCGGAGCCGCGTCCCCGCGCCATCCCGGCCACCCTGTCCGCCGCCATGAAGGCACAGGTCGCTGCAGCGACGGCAGCTGTCATTCCGGCGGCATCAGTATCCACTACAGTTCCGGCAGCCTTCCGGCCGGCCCAGCCCTCAGCCCCTGCTGAATACACCATTGCCCGCGGGGATACGATCAGCGGAATCGCAGGGAAGTATGGACTCGACACGTACGAGATCCTGAAGCTGAATAACCTCCAGCCGAATACCATCATTTACCCGGGCCAAAAGATCAAACTCTCAGGCTCCGGATCCGCACCGGCGGCGCCCGCCGCGGCCCCTGCTCCAGCCGCCCCGGCGGCTCCTGCGAATGGTGGAGGCAGCTATACGGTCAAGCCCGGCGACACTCTCGGCGCCATAGCGTTCCGGCATGGCGTGGGCCTGTCCGAGGTGCTCAGCTGGAATGGCTTGAACATGCGCTCCATCATCTACCCGGGCCAGAAGATCAAGGTGACGGCCGGCGGTGGTGCGCCGGCGCCCGCAAGCGCCCCGCAGCCGGCCGCAGCTCCGGCGGCCCCGGCCCCTGCCCCGGCTCCTGCTTCAGCTCCTGTTTCCGCCCCGGCAGGCAGCTACACCGTCAAGGCCGGCGACACCTTGTCCGCCATCGCCTCACGGCACGGTGTCAAACTGTCCGACGTCCTCTCAGCAAACCAGCTCAGCATGACCAGCGTCATCTACCCCGGCAACAAGCTCGTTATCCCGGGCGCCGGTGCCGGATCCTCGCTGCAGCCGGCTTCGAGCCAGCCCGCCGCCAGCGTGACTCCGCTGGTGCCCAGCACCTTTCTTGGCTTCACCTATCCTGCGGCAGTTGTCAGCTCCGCCAATGAGAACAAGGCGCTGTTGAACGCGTCCCCCGTGCCGTCCCGCGAACAGATGCGGACCATCGTGGCAGACACCGCCCGTCAAATGGGGGTGGAACCGTCGCTGGCCCTCGCCTTCGCCCACCAGGAATCGGGGTTTGACCAGCGTGCGGTGTCCCCGGCGAATGCCATCGGGACCATGCAGGTCATTCCCGCCTCCGGGCAGTGGGCCTCAGACCTCGTGGGACGCAAACTCAACTTGCTGGATCCCTATGACAACGCGACCGCCGGCGTGGCAATCATCAGCCGTCTGATCGCCACAAGCAAGGACATGGACACCGCGATCGCCGGCTACTACCAGGGCCAGTACTCTGTGAGCAAGTACGGAATGTACGATGACACCAAAGCCTACGTGGCAGCTATCAAAGCCCACCAGAAGAACTTCGGCTGA	MTTSRSPKQHTRPSLPMIAATTAALPAVVLSSLALAQPAAAEPRPRAIPATLSAAMKAQVAAATAAVIPAASVSTTVPAAFRPAQPSAPAEYTIARGDTISGIAGKYGLDTYEILKLNNLQPNTIIYPGQKIKLSGSGSAPAAPAAAPAPAAPAAPANGGGSYTVKPGDTLGAIAFRHGVGLSEVLSWNGLNMRSIIYPGQKIKVTAGGGAPAPASAPQPAAAPAAPAPAPAPASAPVSAPAGSYTVKAGDTLSAIASRHGVKLSDVLSANQLSMTSVIYPGNKLVIPGAGAGSSLQPASSQPAASVTPLVPSTFLGFTYPAAVVSSANENKALLNASPVPSREQMRTIVADTARQMGVEPSLALAFAHQESGFDQRAVSPANAIGTMQVIPASGQWASDLVGRKLNLLDPYDNATAGVAIISRLIATSKDMDTAIAGYYQGQYSVSKYGMYDDTKAYVAAIKAHQKNFG	PGPT0019120_14	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019120-sle1|yocH-K22409	NA	NA
D1-29_01714	354			DNA-binding protein	GTGAGTAATGTAGAAAGCCTTGTGGGCGAATGGTTGCCCTTGCCCGATGTAGCAAAGTTGTTGGACGTTTCCATCACGAGAGTTCACAGCCTGATTGATGACCGCGCCTTGGCCGCGCTGCGCGTGGGAGAACGCCGGATACGGTCAGTTCCGGCCGAGTTCATCCAGGACGGACATGTAGTCGAAAGCCTTAAGGGCACCATCGTGGTCCTGGCGGACGCGGGCTATTCGGACGAGGACCTGATTGTCTGGCTGTTCACGGCAGACGAGTCGTTGCGGGGACGTCCCATAGATGCGCTGCGCGAAGGCCGGAAAACCGAAATTCGGCGCCGGGCTCAGACCCTGGCCTGGTAA	MSNVESLVGEWLPLPDVAKLLDVSITRVHSLIDDRALAALRVGERRIRSVPAEFIQDGHVVESLKGTIVVLADAGYSDEDLIVWLFTADESLRGRPIDALREGRKTEIRRRAQTLAW				NA	NA	NA	NA	NA
D1-29_01715	1095			Farnesyl diphosphate synthase	GTGACGGTCGCCGAGCAGCTGCGGCTGGAACAGACAGCGTTCGTGGCTGCCGTTGCCGGTGAGCTGACCGATTTCCTCTCCACCCGGCAGGCAGTCATGGCCGGCATTTCTCCCGATATCGACCCGATCATGGGCTCCATCTCAAACCTGGTGACGGGAGGCAAAAGGCTGCGTGCCCTGATGTGTTACTGGGGCTGGCGGGGCGCGGGCGGGGACCCCGAGGCCCACAACATCGTGACGGCCGGATCAGCACTTGAGCTGTTCCAGGCTGCGGCACTGATCCACGACGACATCATCGACCGCTCCGACACCAGGCGGGGCGGCCCGAGCGTCCACCGGCGCTTCAGCCAGCTGCATCATGCCCAGGGATGGGCACTGGACAGCGAGAGGTTCGGGCATGCGGCCGCCATCCTGACGGGTGATCTCTGCCTGTCATTCAGCGAAGAAGCCTTCACCGACATCGGTGAACAGGCGGCGTCCGGGAGCCGCGCCCGGCTGATCTTCAACCTCATGCGCGCCGAAGTCATGGCCGGCCAATACCTGGACATCCTCGAGGAAGTGGCGGGACCGGTCAGGGACAGGGCCGGGGCGGTTAGCCGGGCCCAGTCAATCATCAGGTTCAAGTCGGCCAAGTACTCAACAGAACACCCCCTGGCCCTGGGCGGAGCGCTGGCCGGAGCCTCGGACGACCTGCTCAGGGGATATTCCGCCTTTGCGCTGCCACTGGGCGAAGCATTCCAGCTGCGCGACGACATCCTGGGGGTATTCGGCGATCCCGTCACCACAGGCAAGCCCGCCGGAGATGATCTCCGGGAAGGTAAAAGGACGGTGCTGGTGGCATTGGCCCTGGATCAGGCCTCTCCCGACGAGTCGGCTTTTATTGACGCCAAACTCGGCAGCCCGGATCTTGACGATGAGGACGTAGCTGAAATTCGCCGCATTATCGAGGAATCCGGAGCCCTTCAGGCAACCGAGGTGCTCATCGGGGAATTCGGCGCGGCTGCCTTTCATGCCCTGGACATGCTCCCGCTGGAAGAATTGCCTAAAACAGCTCTTCGCAGGCTTGCTGAAGCAACAGTCAGCCGCGCTTCCTGA	MTVAEQLRLEQTAFVAAVAGELTDFLSTRQAVMAGISPDIDPIMGSISNLVTGGKRLRALMCYWGWRGAGGDPEAHNIVTAGSALELFQAAALIHDDIIDRSDTRRGGPSVHRRFSQLHHAQGWALDSERFGHAAAILTGDLCLSFSEEAFTDIGEQAASGSRARLIFNLMRAEVMAGQYLDILEEVAGPVRDRAGAVSRAQSIIRFKSAKYSTEHPLALGGALAGASDDLLRGYSAFALPLGEAFQLRDDILGVFGDPVTTGKPAGDDLREGKRTVLVALALDQASPDESAFIDAKLGSPDLDDEDVAEIRRIIEESGALQATEVLIGEFGAAAFHALDMLPLEELPKTALRRLAEATVSRAS	PGPT0007550_646	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007550-idsA-K13787	NA	NA
D1-29_01716	528			hypothetical protein	GTGACGGTCATTGGAAATCTTAAGCCGGCAGCGTTGGCCGCCTTGGTGGCAGGCGCTGCGCTGGGACTCGCCGCCTGCAGTCCTGCGGGCCCGGGAGTGACCACGGCATCCTCCGGCACCACGTCGCAGACAACCAGCCAGCCCACTGCCACCGCCTCCCCAAGCCCCTCGGCTTCGCCGGGGACCTCGGCCACAGTGGGGGCACTCGTCGAAGGTTTTCCCGGGAAGCTCCTGCCCCTGATGCCCGGGGCAACGGTGGTTTCCAGCAGCTTTGACAAGTCAGCAACACCGGCCACCGTCGCACTGGTGGCAACCGTCGCGTCCCCTACTCCCGCCGTCGTCGATTTTTACACGAAGGAGCTGGAGGCCCAGGGCTTCAAGGCAGTGCCGGGCGAGGCCGTGGGCACCGTCGCGTCCAAGGATTTCGTCAGGGGCGACAACGAGACAGTCAATCTCGCAGTAGTGGAGGCCGCCGGGGTTTCCACCTTTACCATCGGCGCAAATGTGGCAGCCGAGTCGGCCCAGTGA	MTVIGNLKPAALAALVAGAALGLAACSPAGPGVTTASSGTTSQTTSQPTATASPSPSASPGTSATVGALVEGFPGKLLPLMPGATVVSSSFDKSATPATVALVATVASPTPAVVDFYTKELEAQGFKAVPGEAVGTVASKDFVRGDNETVNLAVVEAAGVSTFTIGANVAAESAQ				NA	NA	NA	NA	NA
D1-29_01717	1227	dinB	COG0389	DNA polymerase IV	GTGGGCCCGGAGCGGAACAACGATGAAAGCGAAGTGAGCCTTCGGGAGCTTCGACGCAGCTCTATTCTGCATGTGGACATGGACGCATTCTTTGTCTCCGTCGAGCTGCGGACCCGCCCGGAGCTCCGGGGCAGGCCCGTCATTGTCGGCTACCCGGCAGACCGGTCCGTGGTCCTCTCGGCGTCGTACGAAGCCAGGGCCTTCGGCGTAAAATCTGCCATGCCCATGGTGATGGCGGCCAGGATCTGTCCCAAGGCAGTCATCATAGAACCGCGGCACAGGCTGTACTACGAGGTCTCCGCGCAGATCATGGCTATTTTTGAATCCATCACCGAACTGGTGGAGCCCCTCAGCGTAGACGAGGCGTTCCTTGATGTTGGCGGTGCCATCCGCCGGCTGGGGGCTCCCCGGGAGATCGGGGAGCTGGTCCGCCGCCGGGTCTCGAATGAACTGGGGATCACGGCCTCTGTGGGTATCGCTGCCAGCAAGTTCGTAGCCAAGATCGCCTCAACACGCTGCAAGCCGGACGGGTTGCTGCTGATCACTCCGGAAGAGACTGTCCCGTATCTTCACAGCCTGCCTGTCGGTGCGTTGTGGGGGGTCGGAGCCAAAACGGCGGACGTGTTGGCCCGAATGGGCATCAGGACGGTCGCGGATGTTGCTGCCACTCCGGTGTCCTCCCTCAAGAAAGTCCTGGGCGCCACCGGTCAACATGTTTACCAGCTCTCGTGGGGGATTGATCCGCGTCCCGTTACGCCCGTCAGGCTTGAAAAGAGCATCGGGGCAGAAGAAACCTTCGCAGTGGATACCGGGGACGACGCCATTCTTCACCGCGAACTGCTGCGCCTCGCCCACCGGACAGCGGAGCGCCTTCGCAGTTCCGGGATGGTGGCCAGGACGGTCGCTTTGAAACTCCGCTACGCAGACTTTTCCACCATCACCCGGAGCCGTACAGTCCACACTCCGGTTGACAGCGCCCAGTTGATCTACGCGGTGGCCCTGCAGCTTCTGGAGTCGATCGGAAACCGGACAATGACGGTGCGCCTGGTGGGGATCCGCGCGGAGCAACTGGAGGATGCCGGGCAAACGTCCCTGCAGCTGAGCCTTGATCGCAGGGACGATAACTGGCGTGCAGCCGAGCAGGCACTGGACAGGGTGAGCCGGAAATTCGGGAGTAAATCCGTCCTTCCGGCCCGGTTGCTGGATTCCGGAAACGGGTCCGGGTAA	MGPERNNDESEVSLRELRRSSILHVDMDAFFVSVELRTRPELRGRPVIVGYPADRSVVLSASYEARAFGVKSAMPMVMAARICPKAVIIEPRHRLYYEVSAQIMAIFESITELVEPLSVDEAFLDVGGAIRRLGAPREIGELVRRRVSNELGITASVGIAASKFVAKIASTRCKPDGLLLITPEETVPYLHSLPVGALWGVGAKTADVLARMGIRTVADVAATPVSSLKKVLGATGQHVYQLSWGIDPRPVTPVRLEKSIGAEETFAVDTGDDAILHRELLRLAHRTAERLRSSGMVARTVALKLRYADFSTITRSRTVHTPVDSAQLIYAVALQLLESIGNRTMTVRLVGIRAEQLEDAGQTSLQLSLDRRDDNWRAAEQALDRVSRKFGSKSVLPARLLDSGNGSG	PGPT0014881_1872	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
D1-29_01718	372			hypothetical protein	ATGCCCCTCTCGGAGCACGAACAGAAGCTGCTTGAGCAGTTGGAGAAGCAACTGCACGAGGACGATCCAAAGTTCGCTAATTCCATGGGTTCGGACCCGGGCCGTTCATGGTCCACCCGGCACGTGGTGATTGGAGTCCTGGGCGCGTTGGCGGGCATCTTCCTTCTGCTGGTCGGCGTCACGATGCAGAGCATACTTGTTGGCGTGCTTGGCTTCATCGTCATGGGCGGCGGGGTTTACTTCGCCACGATGCGCAGCTCCGGAGGCGGTAAGCAGCGCTCCGGCAGCCCCGCGAAGCCTGGCAAGTCAAGAAGTTCGTTCATGAGCAGCCTGGAAGAGCGCTGGGATGAAAGGCGCCGCGGAGAGTCCTGA	MPLSEHEQKLLEQLEKQLHEDDPKFANSMGSDPGRSWSTRHVVIGVLGALAGIFLLLVGVTMQSILVGVLGFIVMGGGVYFATMRSSGGGKQRSGSPAKPGKSRSSFMSSLEERWDERRRGES				NA	NA	NA	NA	NA
D1-29_01719	429	mraZ		Transcriptional regulator MraZ	GTGTTTTTGGGCACCCACTCACCACGTTTGGATGAAAAGGGCCGGATTATCCTCCCCGCCAAGTTTCGTGAGGAACTTGCCGGCGGGCTGGTGCTCACAAGGGGCCAAGAGCGTTGCATCTACGTCTTCAGTGAGCAGGAATTTGCGCGGGTCCACGAGCAAATGCGGGAGGCACCTATTTCCTCCAAGCAGGCGCGCGACTACATCCGTGTCTTTCTCTCTGGAGCCTCCGACGAGGTACCTGACAAGCAGGGGCGCGTGACGATTCCGCCGGCGCTCCGGGAGTATGCAGGCCTCGGCAGGGAACTGGCCGTTATCGGTGCAGGAACCCGTGCCGAGATCTGGGACGCCCAAGCCTGGAACGAGTACCTGGCAGAGAAGGAGACCGCCTTCTCTGAAACCGACGACGCCATTCCGGGGATCCTTTGA	MFLGTHSPRLDEKGRIILPAKFREELAGGLVLTRGQERCIYVFSEQEFARVHEQMREAPISSKQARDYIRVFLSGASDEVPDKQGRVTIPPALREYAGLGRELAVIGAGTRAEIWDAQAWNEYLAEKETAFSETDDAIPGIL				NA	NA	NA	NA	NA
D1-29_01720	993	rsmH	COG0275	Ribosomal RNA small subunit methyltransferase H	ATGAACGACCATCCCAAGCCGACGTCCGAACGCCATGTGCCGGTCCTGAGGGACCGGTGCATCAATTTGCTGGCCCCTGGTTTTGAAGCCGCACGCCTGCGGGGCGAAACCCCCGTGGCGATCGACGCCACACTCGGCATGGGAGGCCACTCGGAGGCCATGCTGCAGCGCTTTCCCGATCTGCACCTGATCGGCATCGACCGCGATGAAGAGGCCCTGGCCCTCTCCGGCGAACGGCTCGCTCCCTTCGCTGCCCGTACCGACCTGGTGCATGCCGTTTATGACGAAATCGGCGATGTCCTCGAGGACCTCGGCGTCAGTGAGGTCCACGGCATCCTGATGGACCTGGGGGTGTCATCGCTGCAGCTGGACGAGCGTGAGCGCGGCTTCGCCTACTCCTTTGATGCCCCGCTGGACATGCGGATGGACACCAGCCGCGGCCAGACCGCTGCTGACGTGGTGAACAACTACAGCGAAGAGGAACTCGTCAGGATCATCCGGAAATGGGGCGAAGAAAAGTTCGCCGGCCGAATCGCTAACAGGATCGTGGCAGCCAGGGCCGTCAAGCCGTTCACCACCACAGGGGAGCTTGTCGAACAGATCCGCTCGGTGGTTCCGGCCGGAGCTGCCAAGACTGGCGGGCATCCAGCCAAGCGGACATTCCAGGCCCTGCGGATCGAAGTCAACGAGGAACTGGACGTGCTGGAGCGAGCTGTACCCGGCGCCGTGGACGCTATAGCCCTGGGCGGACGCATAGTGGTGATGTCCTACCACTCCCTTGAGGACAAGATCGTCAAGAGCGTGTTCCAGGCCCGCTCCAAATCGTCCGCACCCCTCGGCTTCCCCGTGGAACTTGAAGAACACAAGGCCGAACTGAAAACCCTGACTAAAGGCACCGAGGTGCCCACCGCCGTCGAGATCGCTGAAAATCCGCGGGCAGCTTCCGCCAGGCTGCGTGCCGTGGAACGAATCAGAGCCAGGAGAGCAGCATGA	MNDHPKPTSERHVPVLRDRCINLLAPGFEAARLRGETPVAIDATLGMGGHSEAMLQRFPDLHLIGIDRDEEALALSGERLAPFAARTDLVHAVYDEIGDVLEDLGVSEVHGILMDLGVSSLQLDERERGFAYSFDAPLDMRMDTSRGQTAADVVNNYSEEELVRIIRKWGEEKFAGRIANRIVAARAVKPFTTTGELVEQIRSVVPAGAAKTGGHPAKRTFQALRIEVNEELDVLERAVPGAVDAIALGGRIVVMSYHSLEDKIVKSVFQARSKSSAPLGFPVELEEHKAELKTLTKGTEVPTAVEIAENPRAASARLRAVERIRARRAA				NA	NA	NA	NA	NA
D1-29_01721	702	ftsL		Cell division protein FtsL	ATGAGCACCGCCGCCGTCAAGAACTTTCCGCTCGTCGCAGGCAGCTCTGCTCCGGCCCTTGGCACCAATCCGGCAGGGGCTCCCGGCGATGGCCGGAAGGTCCGCACTCCTCTGTCCGTGGTGCGCTCCGCGCCCAGGAAGCGCCGCGCGCCTTTTGTGGTGATGTGCTTTGCCTTGCTCGCCGTAGCCCTGGTGGCGGTGCTGGTGCTGAACATCTCGGTTTCCACAGCGCAATACCAGCTCGTGGAACTCAGGAGCAAGCAGAGTACCCTCACCAAGCAGAACCAGGATCTGGCCCAGCAAGTCCAGAACTTCCAGGCTCCACAGAACCTGGCTGCGAAGGCGTCGGACCTGGGCATGGTGGCTTCCACTGTCAAGGGGCAGATCGATCTCTCCACTCTTGCCGTTTCCGGGAAGGCAACTCCTGCCGTGAAGGGCGATGCGGCGGCAGGTGCCGTCATCCCTGCGCCTGCAGTTGCAGGCGTGATGACTGTTGTTCCGCCGGCAAGCACGGGCGAACCGCTCGCCAGCCGAAAGCCGGCTGAGGACTCGGCGGCGCCTCCTGCCGCACGGGCGGAAGCGCAGGCTCCCGCAGCAGCGGCAGCAGCCCCCGCCCCGGCGGCTCAGGCAGCTGCTCCGGCCGTGGAACTTCACGGTGGTTCCGTGCCGGCTCCCCAGCAGAAGGCGCCGGGCCGTAACTGA	MSTAAVKNFPLVAGSSAPALGTNPAGAPGDGRKVRTPLSVVRSAPRKRRAPFVVMCFALLAVALVAVLVLNISVSTAQYQLVELRSKQSTLTKQNQDLAQQVQNFQAPQNLAAKASDLGMVASTVKGQIDLSTLAVSGKATPAVKGDAAAGAVIPAPAVAGVMTVVPPASTGEPLASRKPAEDSAAPPAARAEAQAPAAAAAAPAPAAQAAAPAVELHGGSVPAPQQKAPGRN				NA	NA	NA	NA	NA
D1-29_01722	1797	pbpB	COG0768	Penicillin-binding protein PbpB	GTGGCGCAAAGGACCGGCAAGGCGAAGATCGGCAAGGTGCCCAACGCCAGGCGGCGATTGCGGCTGGGCCTGGGGATCATGCTGACGCTCCTCCTGGTGGTGGGCGGAAAACTTTTCCTGGTCCAGGGCCTGGACGTCGGGGGAATGGCTGAGGCCGCACTGGACAAGCGAATGCGCGCAACAGTCCTCCCCGCTGAACGTGGCAGCATCCTCGACTCCGGCGGAACAGTCCTCGCCAACAGTGTCATCCGCTACAACGTGGTGGTGGACCAGACCGTGAACACCAAGACGGAGAAGTTCAAGCGCCTCGTAGAGGGCCAGGACAAACTGGAGGACGTCACCCGCGACCAGGCCATCAAAGAATTGGCCGCCGTCCTGGGGATGGAGACCGACGAACTCCGGAAAGCTGTTACAGGCGAATCGAAGTACCACATCATCGCCAAAGACCTCAAGCCCGACATGGAAGACGTGGTTTCAAGGCTTCAGGTACCGGGAATCGTCACTCAAGGCGTCAGCAAACGGGTCTACCCGAATGGCTCCGTTGCAGGCGGGATCATCGGCTTCCTTCACGACGGCACCACGGGCCAGGCCGGAATTGAGCAGACCCAGGATGAAATCCTCAGGGGGACGGACGGCAGGCGGCTCTTCGAAATCGGTGCCGACGGTCTCCGAATCCCCGTGGGTGTGGATGAACTGACGCCGCCGCAGGACGGCAAGGACGTCAAGCTCACCCTTAATTCCGACCTTCAGTATTTTGCCCAGCAGGCCATCCAAAGCCAGTCGGACAAGCTGGGAGCCGAGTGGGGCGTCATCATCGTGATGGACGCCAAGACGGGCGACCTGATCGCCATGGCCGACACAAATTCCCCGGACCCAAACGATCCTGGCAGGGTCGCTGCGAAGGACCGGGGCGTGCGGTCAGTCACGGCAGCCTACGAACCGGGGTCGGTGGAGAAGATGATTACCGCCGCGGCGCTGATCGAGGAAGGAAAGTCCAGCCCCCTGGACACCTTTACCCTCCCGCCGTCCTACACTGTGAATGGCCAGACCTTCAGTGATTCGTTTGCGCACGGGACCGAAGAGCGGACCCTCGCCGGTATCCTCGGCTGGTCAATGAACACCGGAACGGTGATGGCCGGGCAGCGCCTGACCAAGGATCAGCGCTACGACTGGCTGCAGAAGTTCGGCATTGGCGAGGCGCCGGATATCGGCCTGCCTGCCACAGCTTCGGGCATTCTGACTCCTCCGGAGCAATGGGACGGGCGGCAGGAGTACACGGTCCTGTTCGGACAGGGTGTGTCACAATCCACCCTGCAGACTGTGCGGGCGTTCCAGGCGGTGGCCAACAACGGCGTTATGCTCCAGCCCCGCCTTATTGACGCTTACGTCGCCCCGGACGGAACCGAGGAAAAGGTGGAGCCGAAGCCGTCCCGGCAGGTGGTGTCGGACAACACTGCACAGCAGGTCCAGGACATCCTCGAAAGTGCGGTAACGGAAGGCCAGATCAAGGACGCCGCCATTGACGGTTACCGCGTCGGCGCCAAGACCGGAACGTCCGAATCACCGTGCGACGACGGCAAATCGGGCTTCTGCGGCTACACCGCCTCCATCGTCGGCATGGCACCCATGGATGATCCGCGGTTTATTGTGGAGGTGGTACTGCAGCGGCCCAAGGGCAGCATCTATGGCATTACGCAGGGTCCTGTCTTCCGCTCGGTCATGAGCCAGGCCCTGCGGAGCTACAACGTTCAGCCGTCCACCGGTGAACCCGCCAGGTTGCCGCAGTACGCAAAATAG	MAQRTGKAKIGKVPNARRRLRLGLGIMLTLLLVVGGKLFLVQGLDVGGMAEAALDKRMRATVLPAERGSILDSGGTVLANSVIRYNVVVDQTVNTKTEKFKRLVEGQDKLEDVTRDQAIKELAAVLGMETDELRKAVTGESKYHIIAKDLKPDMEDVVSRLQVPGIVTQGVSKRVYPNGSVAGGIIGFLHDGTTGQAGIEQTQDEILRGTDGRRLFEIGADGLRIPVGVDELTPPQDGKDVKLTLNSDLQYFAQQAIQSQSDKLGAEWGVIIVMDAKTGDLIAMADTNSPDPNDPGRVAAKDRGVRSVTAAYEPGSVEKMITAAALIEEGKSSPLDTFTLPPSYTVNGQTFSDSFAHGTEERTLAGILGWSMNTGTVMAGQRLTKDQRYDWLQKFGIGEAPDIGLPATASGILTPPEQWDGRQEYTVLFGQGVSQSTLQTVRAFQAVANNGVMLQPRLIDAYVAPDGTEEKVEPKPSRQVVSDNTAQQVQDILESAVTEGQIKDAAIDGYRVGAKTGTSESPCDDGKSGFCGYTASIVGMAPMDDPRFIVEVVLQRPKGSIYGITQGPVFRSVMSQALRSYNVQPSTGEPARLPQYAK	PGPT0023865_1882	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023865-ftsI-K03587	NA	NA
D1-29_01723	1641	murE	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	TTGTCAGAGCACCATGTACCCGGCCCGCACTCTGCCCAGGCCGGGGGATCGGCCAACGGCCGCTTCCGCCCGGAAACGGTAGCCGCGGTCCGCCTGGACGCCATTGGTGAAGCAGTAGGGGTACCCGTTCCCGGCCATTCCGCCGCCGTCGATGTCACCGGAATTTCGCTGAACTCGCGGACGGTGGAACCGGGCGATCTGTACGTCGCCCTGCCGGGCGCTGCCCGTCATGGCGTGGATTTCGCGGAACAGGCCATTGCCGCCGGGGCAGTGGCGGTCCTGACTGACGACGCCGGGGCGCGCACCCTGGCACTGTCGGCAGAAACTGCCGTACCCGTGCTGGTGGTCGACCGGCCCCGGAACGTTGTGGGGCCCCTTTCTGCCCTGATCTTCCAAAGCCAGTCTTCAGCCGAGGGAAGTTTCCGGCTGTTCGGCGTCACCGGCACAAACGGCAAGACCACCACCACGTACTTCATCAACGCGCTGCTGCGTTCGCTGGGCATGAAGACCGGCCTGATCGGGACCATCGAGATTCTGGCAGGCGGCGAAGCGATTCCCAGCCTGCTGACCACCCCCGAGTCACCAGACGTCCACGGGCTGCTGGCCCTCATGCGGGAGCGGGGGCTGGATGCGGCCTCGATGGAGGTCTCCTCGCACGCCATTTCCTTCCAGCGCGTGGATGGCGTCGTTTTCGACGTTGCCGGCTTCTCCAACCTGACCCAGGACCATCTGGACCTGCACGGGACCATGGATGAATACTTCGACACCAAGGCCGCGCTTTTCACTCCGGCCCGTGCCCGGGCAGCAGTGGTGACTGTCGATGATTCATGGGGACGCCGGCTTGCCGGCACTGCTGACGTGCCCGTCACGACGCTCGCCACAGCTCCTTCCGCTGCACAGGCCGACTGGATGGTCACCTACACCACTGCCCGCGGCCTGGGAACCGACTTCACACTGCAGGGCCCCGATGGTGTGTCCCTGAATGTGCACACGGGCCTGCCCGGCAGCTTCAACGTTGCCAATGCAGCCCTTGCTGTTGTGATGGTGCTGACCAGCGGGGTGGCAGCAGACGTTGTTCAGTCGGCCCTGGACACTCATGATCCCTTCACCGTGCCGGTTCCCGGGCGGATGCAGCTTGTGTCGGAAGAGCCGGCAGCTGTGGTGGACTTTGCCCACAACACTGACGCGCTGGCGCGCGCCCTGGAGGCAGTACGGCCGCCGGTCCCGGGAGCGAAGCTGATTGTGGTGTTTGGCGCCACCGGGCAGCGGGATGAGGGTAAGCGCCCGGCCATGGGAGCCGTCGCAGCACGGCTCGCCGACACAGTGATCGTCACAGATGACGACCCCCACGACGAGGATGCAGCAGCCATCCGGGCAGACGTTCTTGCCGGCGCCAGGGCAGCCCAGGAACAGGACTCGCTGGAGTGCAGCATTGTGGAGGTGTTCCCGCGTGACGCCGCCATCCGGCATGCCGTGGAACTCGCCGGTACCCGGGACACCATCCTGGTGGCAGGCCGTGGCCATGAGGTCTGGCAGGAAGTCAAAGGCGTGAACCTGGCACTTGATGACCGGGTGGAGCTGAGGAATGCCTTGACAGCCAGGGGATTCACCGTTCTCCAAGACGACCGGATAGAGTCCTAA	MSEHHVPGPHSAQAGGSANGRFRPETVAAVRLDAIGEAVGVPVPGHSAAVDVTGISLNSRTVEPGDLYVALPGAARHGVDFAEQAIAAGAVAVLTDDAGARTLALSAETAVPVLVVDRPRNVVGPLSALIFQSQSSAEGSFRLFGVTGTNGKTTTTYFINALLRSLGMKTGLIGTIEILAGGEAIPSLLTTPESPDVHGLLALMRERGLDAASMEVSSHAISFQRVDGVVFDVAGFSNLTQDHLDLHGTMDEYFDTKAALFTPARARAAVVTVDDSWGRRLAGTADVPVTTLATAPSAAQADWMVTYTTARGLGTDFTLQGPDGVSLNVHTGLPGSFNVANAALAVVMVLTSGVAADVVQSALDTHDPFTVPVPGRMQLVSEEPAAVVDFAHNTDALARALEAVRPPVPGAKLIVVFGATGQRDEGKRPAMGAVAARLADTVIVTDDDPHDEDAAAIRADVLAGARAAQEQDSLECSIVEVFPRDAAIRHAVELAGTRDTILVAGRGHEVWQEVKGVNLALDDRVELRNALTARGFTVLQDDRIES	PGPT0024130_171	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
D1-29_01724	1467	murF	COG0770	UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase	ATGATTGCATTTACTGCGGCGGAAATCGCCGAAATCACACACGGCCGCCTGGACGCCGATCCCGGCATTACACCCCTTTCGGTGGTCACGGATTCGCGCGAAGCAACAACCGGGTCGCTCTACGTTGCGAAGCCGGGTGAGCACGCCGACGGCCACGACTTCGTTGGGGCTGCCTTCGACAGGGGCGCATCACTGGTACTTGCTGAGCGCCCTGTCGCGAACCCGAATGGAGCCGGGTACCCGGCCGTGGTGGTCAAGGACGCAGTCCTGGCCATGGGGGCACTGGCCGCGGAGGCGGTTCGCCGGATCCGTGCCGCCAGGCACGCCGAAGGCGAAGAGCTGACGGTCATCGGGATCACCGGCTCCGCCGGCAAAACCACCACCAAAGACCTGCTCGCCGGAATCCTGGAACAGCAGGGAACCACCATTGCGCCGCAAGGCTCGTACAACGGTGAAGTAGGTGTGCCCCTGACCGTATTCCGCGCCGATTCCACCACGCGCTTCCTGGTGATCGAAATGGGAGCCACCGGAATCGGACACATCCGTTACCTGGCCGACATGGTGAAACCCGACATTGGTGTGGTCCTTGGGGTCGGAACCGCCCATGCCGGTGAGTTCGGCGGGGTGGACAACATCGCCCGGGCCAAGGGGGAACTGCTGGAGGCGCTTCCCGCAACCGGCACCGCGATCGTTAATCTCGACGACCACCGGGTGGCGGCCATGCGTTCGCGGACCAGCGCCCCTGTCCTGGGCTTCACGGCCACCGGCCACAGCGACGCTGCCGTACTTGCTGCTTCTGCGGACACCAATGGCGCAGGCAATCCGGAATTCGACCTCATTCTCCCCAGCGGCGAACCCGGCCTGCATGTCAGCAGCCGGCTCATCGGTGCCCACCATCTCGGCAACCTGCTGGCCGCCGCGGCCGCAGCCTTTGCCGCGGGAGTGCCAGGCCGCGATATCGCAGCCTCACTGAGCACGCAGTCGGCGGCGAGCCGCTGGCGGATGGAACGCACTGAACGCCCCGACGGCGTCACTGTGATCAACGATGCCTACAACGCCAACCCGGAATCCATGCGCGCGGCGCTCCGCACCCTGGCGGACCTGGGCCGCGGCCGCCGTACCTGGGCAGTCCTGGGCGCCATGCTGGAACTTGGGCCCGATTCCATCCGGGAGCACACAGCCGTGGGCACCCAGGTGGTACGCCTGAACATCTCCAGGCTGCTGGTTGTGGGCCGAGAGGCCCGTGCCTTGTATGTTTCCGCCGTCCAGGAAGGCTCCTGGGGCGATGAATGCCTGTTCGCTGAAACCGCCGACGAAGCTTATGAACTGCTGAATGCCGAACTTGCACCGGGCGACCTGGTGCTCTTCAAGTCCTCCAACAGCGTTGGACTGCGCCATTTGGGCGATCGGATAGCATTACCCCCACACCCCCCGGTACCCGCCCATGAAAGGAGCGAGCAGCTGTGA	MIAFTAAEIAEITHGRLDADPGITPLSVVTDSREATTGSLYVAKPGEHADGHDFVGAAFDRGASLVLAERPVANPNGAGYPAVVVKDAVLAMGALAAEAVRRIRAARHAEGEELTVIGITGSAGKTTTKDLLAGILEQQGTTIAPQGSYNGEVGVPLTVFRADSTTRFLVIEMGATGIGHIRYLADMVKPDIGVVLGVGTAHAGEFGGVDNIARAKGELLEALPATGTAIVNLDDHRVAAMRSRTSAPVLGFTATGHSDAAVLAASADTNGAGNPEFDLILPSGEPGLHVSSRLIGAHHLGNLLAAAAAAFAAGVPGRDIAASLSTQSAASRWRMERTERPDGVTVINDAYNANPESMRAALRTLADLGRGRRTWAVLGAMLELGPDSIREHTAVGTQVVRLNISRLLVVGREARALYVSAVQEGSWGDECLFAETADEAYELLNAELAPGDLVLFKSSNSVGLRHLGDRIALPPHPPVPAHERSEQL	PGPT0024145_658	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024145-murF-K01929	NA	NA
D1-29_01725	1110	mraY	COG0472	Phospho-N-acetylmuramoyl-pentapeptide-transferase	GTGATTGCACTTCTTATCGGCGCCGGACTGGCCCTGCTGTGCGCCCTGGTGGGAACCCCGTTGTTTATCCGCCTGCTCGTCCGCAGGAGTTACGGACAGTTCATCCGGGATGACGGACCAACCTCACACCACACCAAGCGCGGGACCCCCACCATGGGCGGAACCGTAGTGGTGGCTGCCGTACTGCTGAGCTACGGACTGACCCACCTGATCATGTGGATGATGAACCCGGAGTCCGCCGGTCCGTCGGCATCTGCCCTGATCCTGCTGTTCCTCATGGTGGGGATGGGCCTGGTGGGATTCCTGGACGACTACATCAAGATCTCCCGGCAGCGAAGCCTGGGCCTGAATGTCAAGGCCAAGCTTTTCGGTCAGGGCGCCGTGGGCGTGATCTTTGCCATCCTGGCCCTGAATTTTCCTGACGAAGACGGCCTCACACCAGCCTCCACCAAAGTCTCCCTGGTCCGCGACCTGCCCTGGCTGGACCTGGCGTTTGCCGGGACCGTGGTGGGCGCCATCCTCTTTGTCCTGTGGTCGAACCTGATCGTGACAGCTGCTACCAACGGCGTGAACCTCACTGACGGCCTTGACGGGCTGGCGGCCGGGGCTTCCATCATGGTGTTCGGGGCGTACACGCTGATGGGTATCTGGCAAAACAACCAGGCCTGCGGATCACCTCGGGAGGCCGGAAGCGGCTGCTACATGGTCCGCGATCCCCTCGACCTGGCACTGCTGGCTGCCATCATGAGCGCTGCCCTGGTGGGATTCCTTTGGTGGAACACATCGCCGGCCAAAATCTTTATGGGCGATACCGGCTCCCTCGCCATCGGCGGTGCCATTGCCGGTTTCGCAATCCTGTCCCGGACCGAGCTGCTCCTGGGCGCCATCGGCGGCCTTTTTGTGCTGATCACGTTGTCCGTGCTGATCCAGGTTGGCTACTTCAAAGCCACCGGTGGCAAACGCTTCTTCAAAATGGCACCGCTCCAGCATCACTTCGAGCTCAAGGGCTGGGCTGAAGTGACAGTCGTTGTCCGGTTCTGGATCCTGGGCGGGCTCTGCGTGGCCATGGGCCTGGGAGTTTTCTACGCTGAATGGGTTGTGCTGCTGTGA	MIALLIGAGLALLCALVGTPLFIRLLVRRSYGQFIRDDGPTSHHTKRGTPTMGGTVVVAAVLLSYGLTHLIMWMMNPESAGPSASALILLFLMVGMGLVGFLDDYIKISRQRSLGLNVKAKLFGQGAVGVIFAILALNFPDEDGLTPASTKVSLVRDLPWLDLAFAGTVVGAILFVLWSNLIVTAATNGVNLTDGLDGLAAGASIMVFGAYTLMGIWQNNQACGSPREAGSGCYMVRDPLDLALLAAIMSAALVGFLWWNTSPAKIFMGDTGSLAIGGAIAGFAILSRTELLLGAIGGLFVLITLSVLIQVGYFKATGGKRFFKMAPLQHHFELKGWAEVTVVVRFWILGGLCVAMGLGVFYAEWVVLL	PGPT0024105_963	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024105-mraY-K01000	NA	NA
D1-29_01726	1578	murD	COG0771	UDP-N-acetylmuramoylalanine--D-glutamate ligase	ATGGGTTGTGCTGCTGTGACTGTTTCCCCCCGCCTCGCGGGCCTCGTCAGCTGGGACTCGGACTGGGCGGGTTTACGCGTTGTTGTCACCGGCATCGGTGTTTCCGGCTTCGCCGCGGCGGACACACTGATAGAACTTGGCGCGCGGGTGGTGGTGGTTGACGCTGCCACCAGCGACAAAGCAAAAGCCCAGGCGGACACGCTGAAGATTGTCGGGGCCGTGGACGTCCTCCTGGGAGAAGCCGCCGTGCGGAATATCCCCAGGTTCGACGGCGCCCTGCCGGAACTCATCGTCACCTCGCCCGGCTGGCGGCCCGACCAGGCGTTGTTGGCAGCCGCAGCCCGCGCCCACATTCCGGTCTGGGGCGACGTCGAACTGGCGTGGCGCCTCCGGCAGCGCGCGGGACGGAAGACCGCCGACTGGCTGACGATCACGGGCACCAACGGCAAGACCACCACCGTGGGCCTCACCGAGGCCATGCTCCAGGCCGCCGGCCTGAAAGCCATTGCCGTGGGGAACGTAGGCACGCCCATCCTGGATGCCCTCCGTGACCCCGTCGACTACGACGTCTTCGCTGTTGAGCTTTCCAGCTTCCAGCTCCACTGGTCTGAGTCGATCTCACCTGTGGCCAGCGTCTGCCTGAACGTGGCCGAAGACCACGTGGACTGGCACGGCTCGTACAATTCCTACCTCGCGGACAAGGCAAAGGTTTACGCGGGAACCCAGAAGGCGTGCATCTACAACGCAGAGCAGATTGAAACCGAGCGGATGGTGGAAAACGCCGACGTGGTGGAAGGCTGCCGCGCAGTGGGCTTTACCACCCTTACGCCGGCCATCAGCATGCTCGGCGTGGTGGAAGGGCTGCTGGTGGACCGCGCGTTCATCGAAGAGCGGAAGGACAGCGCGGCCGAACTGGCGTCCATGGCAGACTTGGGGCCCTTCGCCCCACGCCACATGGTGGCCAACGCCCTGGCCGCAGCCGCCCTGGTACGCGCCTACGGCGTGGAAGCCAAAGCCGTACGCCGTGGAATCCAGGACTACGTGCCGGGAAACCACCGCATCCAGCCCGTTGCCCGGCAGGACGGCGTGCTCTGGGTGAACGATTCCAAGGCCACCAACCCGCATGCGGCAGCGGCGTCGCTGGCCACGTTCGAGAACGTGATCTGGATTGCCGGGGGCCTGTCCAAGGGTGTCAGCTACGACGACCTCGTCCGTGACCATGCCGCCAGGCTCAAGGCCGTGGTGCTGATTGGCAGTGACACCGCACCCCTGGCCGAGGCGCTCCGGCGACACGCACCGGATGTCCCGGTGATCCCGGCGGGGGAGGGCGACACTGAGAATATGCAGACTGCCGCAACGGGCGGAACCATTGCAGGAAGCCCTTCTGATTCCGGCGAGGCAGTAATGTTCCGGGCCGTAGCGTCGGCGGCACAGGTGGCCGCACCAGGCGACACTGTGCTGATGGCTCCGGCAGCTGCATCCATGGATCAGTTCTCCTCCTACGCTCACCGTGGCGACGCCTTCATCGAAGCTGTCCGCGAGCTGGTGGAAGGACAGGCCAAGACCGGCGAGGAGTAA	MGCAAVTVSPRLAGLVSWDSDWAGLRVVVTGIGVSGFAAADTLIELGARVVVVDAATSDKAKAQADTLKIVGAVDVLLGEAAVRNIPRFDGALPELIVTSPGWRPDQALLAAAARAHIPVWGDVELAWRLRQRAGRKTADWLTITGTNGKTTTVGLTEAMLQAAGLKAIAVGNVGTPILDALRDPVDYDVFAVELSSFQLHWSESISPVASVCLNVAEDHVDWHGSYNSYLADKAKVYAGTQKACIYNAEQIETERMVENADVVEGCRAVGFTTLTPAISMLGVVEGLLVDRAFIEERKDSAAELASMADLGPFAPRHMVANALAAAALVRAYGVEAKAVRRGIQDYVPGNHRIQPVARQDGVLWVNDSKATNPHAAAASLATFENVIWIAGGLSKGVSYDDLVRDHAARLKAVVLIGSDTAPLAEALRRHAPDVPVIPAGEGDTENMQTAATGGTIAGSPSDSGEAVMFRAVASAAQVAAPGDTVLMAPAAASMDQFSSYAHRGDAFIEAVRELVEGQAKTGEE	PGPT0024125_135	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024125-murD-K01925	NA	NA
D1-29_01727	1389	ftsW	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGGCCAGCACGCCCACCCGGTCCCCGGCTTCCGGGCCGAGCCGCGGGAATCCGGCCGCTTCGAATTCCGCCTCGTCGAAGCGGGATTCGTCGAATTCCCCCTCGTCGAATCCGGCCTCATCCTCAACGCCAAAACCTCCGCTGCCTGCCAGGGTCCGCGGCTGGTACCGCGGCTTCTGGTCAGCACTGGAAGGCACGGGAACCTCCCGAAACGGTTCCACGTACTACCTCATCCTGGGCTCTACCCTGGCACTGACGGCCATTGGCATCATGATGGTGCTCTCCGCTTCCAGCGTGGAGTCGATCGCGGCAGGGAAGTCACCGTACGGGGATGCCCTGAAGCAGGGGATGTTCGCGGCGATCGGAATCTTCACCATGTTTGTGCTCTCCCGCATCAACGTGGTCTGGCTCAAACGCCTGGCCTGGCCGGGGCTGGGTGTGGCACTGGTTCTGCTGGTCCTGGTCCAGGTTATTGGTGACGAGGTCAACGGCAACAAGAACTGGATCGACCTGGGCGGCATCACCTTCCAGCCGTCGGAGGCCTCCAAGCTTGCACTGGCGCTCTGGATGGCCACAGTCCTGTCAGTCAAGGGGAAACTGCTTCGCCGCTGGCAGCACGCCCTGATCCCTGCGGTCCCCTTGGCGGGGGCGGTGATCGGGCTTGTTTTGCTTGGCAATGACCTCGGGACTGCCATGATCATCATGATGATCACGGCCGCCGCACTCTTCTTTGCAGGCGTACCTCTGTACCTTTTCGGATTTGCCGCCATTGTGGCCGCGGCCGGAACCGCCGTCATGGCCATCTCCAGTTCAAACCGGGTCTGCCGCATCACGTCCTGGTGGACGGGCCAATCCTGCGCCGACGGCGTTGATGCCAACTACCAGGCCACCCACGGACTCTACGGGCTGGCCTCCGGTGGCTGGTTTGGCGTTGGCCTTGGCCAAAGCCGGCAGAAGTACAGCTGGATTCCGGAAGCCCACAACGACTTCATTTTTGCCATCATCGGTGAGGAACTCGGCCTGGTGGGCACCGTCGTCGTCCTGATACTCTTCGCCATCCTCGGCGCTGCCATCTACCGCGTAGTGGTGGCGCAGGAGGCCATGTTCCACCGGGTCCTGGCCGGCACCATCATGGTGTGGCTGCTGGGGCAGGCCACCGTCAACATGGCCGTCGTCACGGGGCTGATGCCCGTGATCGGCGTCCCGTTGCCCTTTATCTCCTACGGCGGTTCCGCACTGCTGATGTCATTGTGTGCCGTTGGCGTGGTGTTATCCCTCGCCCGGGAGCAGATGGCCCCTGCCATGCGCCCCAAACGGATGCTGAAGTTTGGCTCCCGAAAACGCCGCAAATCAACCGGCGCCAAGAAAACCGCAAGAAAGCGTACCTAG	MASTPTRSPASGPSRGNPAASNSASSKRDSSNSPSSNPASSSTPKPPLPARVRGWYRGFWSALEGTGTSRNGSTYYLILGSTLALTAIGIMMVLSASSVESIAAGKSPYGDALKQGMFAAIGIFTMFVLSRINVVWLKRLAWPGLGVALVLLVLVQVIGDEVNGNKNWIDLGGITFQPSEASKLALALWMATVLSVKGKLLRRWQHALIPAVPLAGAVIGLVLLGNDLGTAMIIMMITAAALFFAGVPLYLFGFAAIVAAAGTAVMAISSSNRVCRITSWWTGQSCADGVDANYQATHGLYGLASGGWFGVGLGQSRQKYSWIPEAHNDFIFAIIGEELGLVGTVVVLILFAILGAAIYRVVVAQEAMFHRVLAGTIMVWLLGQATVNMAVVTGLMPVIGVPLPFISYGGSALLMSLCAVGVVLSLAREQMAPAMRPKRMLKFGSRKRRKSTGAKKTARKRT	PGPT0014810_368	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
D1-29_01728	1101	murG	COG0707	UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGACTTCCAAGAACCTTTCCATTGTCCTTGCGGGCGGCGGAACCGCAGGACACATCAGCCCCCTCCTGGCAATTGCGGCGGCGCTTCGCGCGGCTGCCCCGGAGGCGAGGCTCCTGGCCGTGGGCACGCCGTCGGGCATGGAGACCGCGCTGGTCCCCGCCGCCGGCGTGGAGCTGGCCACTATCGACCGCGTCCCGTTTCCCCGACGGCCCTCCCTGGACCTGGTGCGGCTGCCTGTCCGGCTGGCCGGCGCCGTGAGCCAGGCCGGCCGGATCCTGGACGAAGCCTCCGCAGATGTCCTGGTGGGAGTCGGAGGTTACGTCTGCACTCCCATGTACCTGGCAGCGCGGCGCCGGCGGATCCCCATCGTGATCCATGAAGCCAATGCCAGGCCAGGCCTGGCCAACCGGCTGGGGGCCCTGCTGACCCGGCACGTCGCAGTTGCTTTTGAGTCCACACGGCTGCGGCATGCCCGCCACGTGGGAATGCCCATGCGCGTGCAGATCTCCGCCTTGGACAGGGCAGCCGCACGCGCTGCTGCCCGCGAGGCCCTGGGCCTTGATGCCGCCAAGCCCACATTGGTGGTTACGGGCGGTTCCTCCGGTGCCCAGAGCATCAACCGCACCATTGCCGCCACTGTCCAGGACCTGGCGTCCGCCGGGATCCAGACGCTGCACATCACCGGCCGCGGGAAGTCGGTACCAGGCACGGACGGAGAACCGCTCGCCGCCGCCGGATACCGGCAGCTTGAGTATGTGGACGGCATGGAACTGGTCTACGCTGCGGCGGACGTGCTGCTGGCGAGGTCGGGGGCGGCCACGGTCTGTGAGGTGGCTGCTGTGGGGGTTCCCGCCGTTTTCGTCCCCCTGCCGATTGGCAACGGGGAACAGGCGCTCAATGCCGCCGGTGTTGTCAACGCGGGCGGCGCCGTCCTGGTCAGGGATGGCAGCTTTACCCCTGACTGGGTCCGGGCAGAGCTCATTCCCCTGGTGACCGACAGCGCCCGATTGGAAACGATGGCGGCCAACTCCCGTCGCCTTGGCATCAGAAACGCCGATCAGCGCATGGCTGGTCTTGTCCTGGAAGCGGTAACCGCATGA	MTSKNLSIVLAGGGTAGHISPLLAIAAALRAAAPEARLLAVGTPSGMETALVPAAGVELATIDRVPFPRRPSLDLVRLPVRLAGAVSQAGRILDEASADVLVGVGGYVCTPMYLAARRRRIPIVIHEANARPGLANRLGALLTRHVAVAFESTRLRHARHVGMPMRVQISALDRAAARAAAREALGLDAAKPTLVVTGGSSGAQSINRTIAATVQDLASAGIQTLHITGRGKSVPGTDGEPLAAAGYRQLEYVDGMELVYAAADVLLARSGAATVCEVAAVGVPAVFVPLPIGNGEQALNAAGVVNAGGAVLVRDGSFTPDWVRAELIPLVTDSARLETMAANSRRLGIRNADQRMAGLVLEAVTA	PGPT0024150_2000	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563	NA	NA
D1-29_01729	1377	murC	COG0773	UDP-N-acetylmuramate--L-alanine ligase	ATGACCTCCGTCAACAGCCCAAGCCAGGACTCCCTGGGCCGAGTCCATTTCATCGGCATCGGCGGGGTGGGAATGTCCGCCGTCGCCCGCATCATGGTTGCCCGCGGAGTTCCCGTCAGTGGCTCGGACGTCAAAGACCTTCCGGTGATGGCCGATCTCGCCGCGGCCGGCGCCGCCATTTCAGTGGGATACTCCGCTGAAAACCTCGCCGATGCCCAGACCGTAGTGGCCGGATCCGCGATCCGGGAGGACAACCCGGAACTGGTTGCGGCGCGCGCGGCAGGGCTGCCGGTGCTGCACCGTTCGCAGGCGCTTGCGGCCACCATGGGGGGGGACCTGGTGGTCACCGTGGCCGGTACCCACGGCAAGTCCACCACGACGTCGATGATCACCGTCCTGCTGCAGGGCGCCGGGCTGGATCCCTCCTTCGCCATCGGCGCCAACGTTCCTGCCCTGGGCGTCAACGCCGCCCATGGAACCTCAGGGGTATTTGTTGCCGAAGCTGACGAGTCTGACGGCTCCTTCCTGAACTACCGGCCGCGGATTGCCGTGGTCACCAACGTCGAACCTGACCATCTGGACCATTACGGCACCGCCGAAGCCGTCTATGAATCCTTCGACCGGTTCACTGCGCTGCTTCCGTCCGACGGTGTGCTGATTGCCTGTGCCGACGACGCCGGTGCCCTGGCCCTCGCCGACCGTACACGGGCGCGTGGAAACACCCGGGTGGTTCTGTACGGCACCTCTGACCGTTCAGACCTGGTGCTCCACGACGGCGGCCCCGGGGACGTTGCCATTTCCTCGCCGGCGGGGCGTTTCGGCCTTGCGCTCCAGGTTCCGGGCCGGCACAACGCCCTGAACGCGGCCGCTGCTTTTGCTGTTGCCCTGGAACTGGGGGTTGATCCTGACGCTGCTGCCCGGGCATTGGCCAACTTCTCGGGCGCCTCGAGGCGTTTTGAACTCAAGGGCGAAGCCCGCGGGGTCAGGGTCTTTGATGACTACGCCCACCATCCGACAGAGGTCCGGGCCGCCCTGGCTGCGGCCCGGTCCGTTGCGGGCGACCACAAGGTCCATGTCCTTTTCCAGCCTCACCTTTTTTCCCGCACCCGGGAATTCGCCGCAGAATTCGCGGACGCCCTGAACCAGGCCGACACCGCCCTGGTGCTGGACATCTACCCCGCCCGCGAGGACCCCATCCCGGGAGTCAGCAGCGATCTGATTGCACGCCACCTGAATCCCGGCGGCAGGCTCGTAGCCAGCGGCGAGGCCGTGGCGGCCATCACGGCCGCCGCGTCCGACGGCGACATTGTGCTGACAGCCGGAGCCGGTGACGTCACTGCCTTCGGACCACGGATCGTGGAGGCTCTGGGTGGCTAG	MTSVNSPSQDSLGRVHFIGIGGVGMSAVARIMVARGVPVSGSDVKDLPVMADLAAAGAAISVGYSAENLADAQTVVAGSAIREDNPELVAARAAGLPVLHRSQALAATMGGDLVVTVAGTHGKSTTTSMITVLLQGAGLDPSFAIGANVPALGVNAAHGTSGVFVAEADESDGSFLNYRPRIAVVTNVEPDHLDHYGTAEAVYESFDRFTALLPSDGVLIACADDAGALALADRTRARGNTRVVLYGTSDRSDLVLHDGGPGDVAISSPAGRFGLALQVPGRHNALNAAAAFAVALELGVDPDAAARALANFSGASRRFELKGEARGVRVFDDYAHHPTEVRAALAAARSVAGDHKVHVLFQPHLFSRTREFAAEFADALNQADTALVLDIYPAREDPIPGVSSDLIARHLNPGGRLVASGEAVAAITAAASDGDIVLTAGAGDVTAFGPRIVEALGG	PGPT0024120_3596	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024120-murC-K01924	NA	NA
D1-29_01730	885	ftsQ	COG1589	Cell division protein FtsQ	GTGGCTAGCACCCGGCGTCCCACCTACACCGGGACGGGGCGCCGGCCGGCCACGGCCGACAAAGAGCCCGTTGTCATCACTGCCTCCAAGAGCGTGCCGGATCCAGAACCTGCCGAGCCCGGCGGCCGGAAGAAGCGGAAGGACCGGGAGTCCGCACCAGGCGGCAATGTGCTGGCCTTTCCCGAGCCCCGGGGACGGCGGCTCAAAAGAAACATTGTCATCGCAGCATGCATTACCGCCGCCATGGTGGCCGGGCTGCTGGCGGCCGCCATTTTCTCGCCGGTACTTGCTGTTGGCACCATCACTGTTTCGGGAACAAAAATCCTGACCGACGATCAGGTCAAGAGCGCCCTGGAGCCGCTGCGGGGCAAGCCGCTTCCGCAAATCAGTGACGAAGAGGTGGGGCGGCTCCTGGAACCACTGGTCCAGGTCAAGTCGGTCTCCAGTGAGGCGCGGCCGCCGTCGGAACTGGTGGTGAAGGTGCTGGAACGGGCACCGGTTGCCCTGGTAAAGCAGGGGGAACAGTATCAACTGGTGGACGTTGAGGGCGTGCAACTGGCTGCCACGGACGATCCTTCATCCGTTTCACTGCCGGTGATCGACGGCGGGGCCGGAGCCATCGGCAAGGATCTGTTCCAGGCCACCGCGGCCGTCCTGGGCGCCCTTCCTCCGGATGTCCTGGCAAAGCTGTCGAACGCCTCCGCGCAGTCCGTGGACGCCGTGGAACTGAAGCTGGTTGATGGCCAGACCATCGTCTGGGGCAACGCGGGGGAGCGGGAACTGAAGGCAAAGGTCCTTGAAGCGCTCCTGAAGGCTCCGGCAGATCCCAAGAACCCCGTGCGGGTGTACGACGTCAGCGTGCCGCGGCACCCCGTAACACGCTGA	MASTRRPTYTGTGRRPATADKEPVVITASKSVPDPEPAEPGGRKKRKDRESAPGGNVLAFPEPRGRRLKRNIVIAACITAAMVAGLLAAAIFSPVLAVGTITVSGTKILTDDQVKSALEPLRGKPLPQISDEEVGRLLEPLVQVKSVSSEARPPSELVVKVLERAPVALVKQGEQYQLVDVEGVQLAATDDPSSVSLPVIDGGAGAIGKDLFQATAAVLGALPPDVLAKLSNASAQSVDAVELKLVDGQTIVWGNAGERELKAKVLEALLKAPADPKNPVRVYDVSVPRHPVTR				NA	NA	NA	NA	NA
D1-29_01731	1242	ftsZ		Cell division protein FtsZ	GTGGCAGCTCCGCAGAATTACTTGGCCGTCATCAAGGTCGTCGGCATCGGCGGCGGTGGCGTGAACGCAGTCAACCGCATGATCGAGGTGGGCCTTCGGGGCGTTGAATTCATCGCCATCAACACCGACGCCCAGGCCCTGCTGATGAGTGATGCGGACGTCAAGCTTGACGTCGGGCGTGAGCTGACCCGCGGGCTGGGTGCCGGTGCCAACCCTGAAGTTGGCAAGCAGGCTGCCGAGGATCACGCTGACGAGATCGAAGAGGTCATCCGTGGCGCGGACATGGTGTTCGTGACTGCCGGTGAAGGTGGCGGAACCGGCACCGGCGGCGCCCCGGTGGTGGCGCGCATCGCCCGGTCCCTGGGTGCGCTGACCATCGGCGTGGTCACCAGGCCTTTCACTTTCGAAGGCCGCCGCCGCGCCGGCTCCGCCGAGGCGGGCATCGACGCCCTCCGCGACGAAGTGGACACCCTGATTGTCATTCCCAACGACCGGCTGCTGTCCATCAGCGACCGCAACGTCTCCGTTCTCGACGCCTTCCGCTCCGCGGACCAGGTCCTGCTGTCCGGTGTCCAGGGCATCACCGACCTCATCACCACGCCCGGCCTGATCAACCTTGACTTTGCGGACGTCAAGTCAGTCATGCAGGGCGCGGGCTCGGCCCTGATGGGCATCGGTTCGGCGCGGGGCGAGGACCGTGCCGTGAAGGCCGCGGAGCTGGCCATTGCCTCACCCCTTCTGGAAGCCTCCATCGACGGCGCCCACGGCGTGCTGCTTTCCATTCAGGGCGGATCGGATCTTGGCCTCTTCGAGATCAACGAAGCGGCCCGCCTTGTTCAGGAAGTCGCCCACCCGGAGGCAAACATCATCTTCGGCGCCGTTATCGACGATGCCCTCGGCGACGAGGCCCGCGTGACGGTCATCGCGGCGGGTTTCGACGACGTCAAGGCCACCTCGCCCTCCATGGACCAGTCCCAGCCGCAGGTTGCCCCGCAGCGTCCTGCCGCGCCGTCGGCTGCTCCTGCCCCCACCCAGGCGCCCTCGGCAGGCGGCAGCCACCAGATGAACGTACAGCCCGTCCACGCCGGGGTTGGCGCTTCGGGACTGAGCAACTGGGGCCAGCAGCGCCAGTCCACAGTCCCGGCGGATTCAGGCTTCGACGTCGACCTGCCCTCAGTGGTGGAACCCGATCTTTCCGGTCAGCACTCAGATGACCTGGATGTCCCCGATTTCCTGAAGTAG	MAAPQNYLAVIKVVGIGGGGVNAVNRMIEVGLRGVEFIAINTDAQALLMSDADVKLDVGRELTRGLGAGANPEVGKQAAEDHADEIEEVIRGADMVFVTAGEGGGTGTGGAPVVARIARSLGALTIGVVTRPFTFEGRRRAGSAEAGIDALRDEVDTLIVIPNDRLLSISDRNVSVLDAFRSADQVLLSGVQGITDLITTPGLINLDFADVKSVMQGAGSALMGIGSARGEDRAVKAAELAIASPLLEASIDGAHGVLLSIQGGSDLGLFEINEAARLVQEVAHPEANIIFGAVIDDALGDEARVTVIAAGFDDVKATSPSMDQSQPQVAPQRPAAPSAAPAPTQAPSAGGSHQMNVQPVHAGVGASGLSNWGQQRQSTVPADSGFDVDLPSVVEPDLSGQHSDDLDVPDFLK	PGPT0027695_2294	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
D1-29_01732	690		COG1496	Polyphenol oxidase	TTGTTCCATTGGCGTGCCGAGGTCCTTCCGGGGGTGTCGGTGGCATTCACCGACACCCATGCCGGAAACCTGGCGCTGCATGTGGGGGACAAACCCTCACAGGTGCTGCTGCGGCGTGAAGCCCTGGAGCGGGCAGCCGGCATAACGCCTGGTTCACTGCGGTTCATGGACCAGGTTCACGGCACGGCCGTGACCGTTATGGAACCGGGCAGCCCCGCGCCACAGTCCGATGCCATGGTCTCCACCGGCCTTCCGCTGGCGGTCATGGTTGCAGACTGCGTGCCGGCGATGCTGGTGGGCGAAGCTGCCGGCGGGCCCGTCCTGGCTGCGGTACACGCCGGACGCCCGGGAATAGCGGCGGGAATCATCCCGGCCGCGGTGGACAGGATGCGCTCCCTGGGCGCCTCCGGCATCCGGGCCTGGCTGGGACCGTCAATCTGTGGCGCCTGCTACGAAGTTCCGGCATCGCTGCGGGCAGAAGTGGCCGCCGACGTGCCGGCAACCTGGGCTACAACATCATGGGGGACGCCCGCGCTTGATCTTCCGGCCGGCGCCCGAAGCCAGCTGGAAGCCGCTGGGGTCGGCGTCGACTACGCCGGACCGTGCACCCTTGAAAATGCTGCCCTCTTTTCCCACCGCCGAAACAACCGCAGCGGCAGGTTTGCCGGATTGGTATGGCAGCATGGATGA	MFHWRAEVLPGVSVAFTDTHAGNLALHVGDKPSQVLLRREALERAAGITPGSLRFMDQVHGTAVTVMEPGSPAPQSDAMVSTGLPLAVMVADCVPAMLVGEAAGGPVLAAVHAGRPGIAAGIIPAAVDRMRSLGASGIRAWLGPSICGACYEVPASLRAEVAADVPATWATTSWGTPALDLPAGARSQLEAAGVGVDYAGPCTLENAALFSHRRNNRSGRFAGLVWQHG	PGPT0019965_4035	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
D1-29_01733	723		COG0325	Pyridoxal phosphate homeostasis protein	ATGGACGAGTCAGAACGCATGGCAGAGCTGACCGGGCGCCTCGCTGCTGTGCGCAAGCGCATAGCGTCCGCCGCAGAGGCGTCGGGCCGGACTGGGCAGCTGCCCACCCTGATTGTGGTCACCAAGTTCCATCCCGCCGAGGACATCAGGCGCCTTTCAGTGCTGGGCGTCAGGGATGTGGGGGAGAACCGGGACCAGGAGGCAGCGGCAAAATCCGCGGAACTGGAAGGGCTGGGCCTCAGATGGCACTTTGTCGGCCAGCTTCAAGGCAAAAAGGCCAAATCGGTGGTCCGCTACGCCCACTCTGTCCATTCGGTGGACCGTCTGCAGCTCGCGGACGGCCTGGCAAAGGCGATTGCCACCGAGCAGGACAGGACAGGACGCGGCCCCCTGGAGTGCTTCATCCAGGTCAGCCTGGACGACGACGCCGCCGCCCACCGCGGGGGCGCGGCGCCTGAGGAAATCCCGGCCTTGGCAGAACGCCTTGCTGCAACTGAGGGGCTGGTACTCGCAGGGGTGATGGCAGTGGCACCGCTGGGCACGGTGCCCGGGGAAGCCTTTGAAAAACTGGCATTAATTTCTGCCCGTCTCGTCCAGGATCACCCGTCCGCGACAGCCATTTCTGCCGGCATGAGCCAGGACCTGGAGGCGGCCATCCAGTTTGGTGCGACACACCTGCGAATCGGCTCGGATATTCTCGGATCGCGTCCAGCCGTGGGGTAG	MDESERMAELTGRLAAVRKRIASAAEASGRTGQLPTLIVVTKFHPAEDIRRLSVLGVRDVGENRDQEAAAKSAELEGLGLRWHFVGQLQGKKAKSVVRYAHSVHSVDRLQLADGLAKAIATEQDRTGRGPLECFIQVSLDDDAAAHRGGAAPEEIPALAERLAATEGLVLAGVMAVAPLGTVPGEAFEKLALISARLVQDHPSATAISAGMSQDLEAAIQFGATHLRIGSDILGSRPAVG				NA	NA	NA	NA	NA
D1-29_01734	531	sepF		Cell division protein SepF	ATGGCCGGCGCTCTGCGCAAGACAATGATCTATCTTGGGCTCGCCGATGGCGATGAACATTATGAGTCCGAGCACCACATCACACGTAAGGACGAGGACCATTCCATGGAATTTGACCGCGAGGAACGCCGTGCACCCGCACCCGTCCGCGAGGTTGGCCGCGACTCGTCCTACGCCCCTGAAGAGGAATATCGCGCACCAGTGACCCCCATCAAGCGTGCGGCCTCAAGCCGCGAAGAATCCACAGGGCTTCGGCAGATCACCACGATCCACCCACGCTCCTACAATGACGCGAAACTCATCGGCGAGAGCTTCCGGGACGGCATCCCCGTGATCATGAACGTCACTGACATGGGTGAGGCCGATGCCAAGCGCCTGGTCGATTTCTCCGCCGGCCTCGTTTTTGGGCTTCGGGGGAGCATTGAGCGGGTCACCAACAAGGTTTTCCTCCTGTCGCCGTCGTACGTTGAGGTCATCGGTGATGACAAAAAGGTCAGCGAGACGCAGGCCAGCTTCTTCAACCAAAGCTAG	MAGALRKTMIYLGLADGDEHYESEHHITRKDEDHSMEFDREERRAPAPVREVGRDSSYAPEEEYRAPVTPIKRAASSREESTGLRQITTIHPRSYNDAKLIGESFRDGIPVIMNVTDMGEADAKRLVDFSAGLVFGLRGSIERVTNKVFLLSPSYVEVIGDDKKVSETQASFFNQS				NA	NA	NA	NA	NA
D1-29_01735	288			hypothetical protein	ATGGGAATTGTTTTCGGACTTGTCTATATCGCCCTTTTACTGTTCCTGGTGGCCCTGATTGTCCGGCTGGTCTTTGACTGGGTCCAGATGTTTGCCAGGGAGTGGCGGCCCCGCGGGGCTGCCCTCGTGACCGCGCATGCTGTGTACTCCATCAGCGATCCGCCACTCAGGGTACTGCGCAGGCTGGTCCCGCCCCTCAGGCTGGGCGGCATCACACTGGACCTGGGCTTCCTGATCTTGTTCATCGCCGTCAGCGTGGCGATGATGATCACCAGGGGCTTCGCATAA	MGIVFGLVYIALLLFLVALIVRLVFDWVQMFAREWRPRGAALVTAHAVYSISDPPLRVLRRLVPPLRLGGITLDLGFLILFIAVSVAMMITRGFA	PGPT0013730_2586	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
D1-29_01736	696		COG3599	Cell wall synthesis protein Wag31	ATGGCTTTGACGCCAGAAGACGTTGTCAACAAGCGCTTTCAGCCGACCAAGTTCCGCGAAGGCTACGACCAGGATGAAGTTGATGACTTCCTGGACGAAATCGTCGTCGAGCTCCGGCGCCTGAACCAGGAGAACGACGAGCTCCGCAAGAAGCTTGCAGAAGCCGGTTCCGGCGTTCCTGCAAGCTCCGCGGCAGCGGCCCCTGTGGTCGAGAAGGTCCCCGCGCCCGTCAAGGCGGACAAGGACGAGGCCCGCGCCAAGGCTGAGGCCGAGGCAAAAGCCGCCGAGGCAAGCAAGAAGAAGGAAGCGGAGCAGGCTGCGCCGGTCGCGACCGTTCCTGCTGCTGCTCCGGCTCCGGCCGCCAGCACCACCTCTGCTGAATCCGCTGCCGGCCTGCTCGCCATGGCCCAGCAGATGCACGACCGCCACGTAGCCGAGGGCCAGGCGCAGAAGGACAAGATCATCGCCGAGGCCCAGATCGAAGCCAGCAGCCTGGTCAACGATGCCCAGGAGAAGTCGCGCAAGATCCTGGGCGCACTGGAGCAGCAGCGTTCGGTCCTGGAGCGCAAGGTGGAGCAGCTCCGCGGCTTCGAGCGCGACTACCGCTCACGTCTGAAGGCCTACATCGAAGGCCAGCTGCGCGACCTTGACGCCCGTGGTTCTGTTGCCGCTCCGGAAGTCGAAGCCAACAGCTAG	MALTPEDVVNKRFQPTKFREGYDQDEVDDFLDEIVVELRRLNQENDELRKKLAEAGSGVPASSAAAAPVVEKVPAPVKADKDEARAKAEAEAKAAEASKKKEAEQAAPVATVPAAAPAPAASTTSAESAAGLLAMAQQMHDRHVAEGQAQKDKIIAEAQIEASSLVNDAQEKSRKILGALEQQRSVLERKVEQLRGFERDYRSRLKAYIEGQLRDLDARGSVAAPEVEANS	PGPT0014806_5	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014806-gpsB-NA	NA	NA
D1-29_01737	573	lspA	COG0597	Lipoprotein signal peptidase	ATGACTGACGAACTCGCCCCTGACGCCGCACGCCCGGTCCCGTCTGCACCACGGACCCGCCGCGCCGTCCTGCTGTCCCTCTTCGCAGGTTTTGCGGTCTTTGCCTATGTGTTCGACCAGCTGACTAAACTCTGGGTCACGTCCACCATGGTGGAAGGCGAACGGATCCCGGTTCTGCCGCCTCTGCTGCACTGGTACTTCATCCGTAACTCCGGCGCCGCGTTCTCCATCGGGGAAAATGTCACGTGGGTGTTCTCCATCATCATGGCCGGGGTGGCCATTGCCATTCTGTTCCAGGTACGGAAACTGGGCTCCGCCTGGTGGTCCCTGGCGCTTGGCCTGCTGCTGGGCGGGGCGCTGGGGAACCTGACGGACAGGCTGTTCCGTGAGCCCTCGTTCGGAATGGGCCATGTGGTGGATTTTATCCAGCTGCCAAATTTCGCGATCTTCAATATCGCCGATTCCGCGGTGGTGTCCGCCGTGGCAATCATCTGCATCCTGACACTGCGCGGTATTTCCCTCGACGGATCCCGGCATGTCGGAGCCCACCGTGAGAAGACCAGGGATGCCTGA	MTDELAPDAARPVPSAPRTRRAVLLSLFAGFAVFAYVFDQLTKLWVTSTMVEGERIPVLPPLLHWYFIRNSGAAFSIGENVTWVFSIIMAGVAIAILFQVRKLGSAWWSLALGLLLGGALGNLTDRLFREPSFGMGHVVDFIQLPNFAIFNIADSAVVSAVAIICILTLRGISLDGSRHVGAHREKTRDA	PGPT0004770_1146	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004770-pbrB|pbrC-K03101	NA	NA
D1-29_01738	927		COG0564	putative RNA pseudouridine synthase	ATGCCTGAGCGCCTTGTAGTGGCCGATGAACTCGGCGGGGTACGGGCCGACGCCGGACTGGCCAGGCTGATGGGGATCTCCCGGTCGCTTGCTGCCACCCTGATCGCCGAAGGCAATGTCGTGAGCCGGGGCAAGGCAGTGGGCAAGTCCGCGCGGCTGGTGGCCGGCGACGTCCTGGACGTCACGGTGCCTGAACGCCGGGACCCCCTTGAAGTGGTGGAGGAAGTTGTGGAAGGCCTGAAAATCCTGCTCGACGACGACGATTTTGTGGTCGTCGATAAGCCGGTGGGCGTCGCTGCGCATCCGTCGCCGGGCTGGGTGGGCCCCACCGTGGTGGGCGGCCTTGCCGGCGCCGGATACCGGATCTCGACGTCAGGCTCACCCGAACGGGCCGGCATCGTGCACAGGCTGGACGTCGGCACCTCCGGGGTGATGGTGGTGGCTAAAACCGAGCGTGCCTACACGGCCCTGAAGCGCGCCTTCAAGGAGCGCAGCGTGGACAAGGTCTACCACGCGGTGGTCCAGGGCCTCCCTGACCCGCTGGAAGGCACCATCGACGCCCCCATCGGCCGTCACCCCGGACACGATTGGCGCTTTGCCGTGATCGAGGACGGACGGCCGTCCATAACGCACTACGAGGTCCTTGAAGCATTCGGCAAGGCGACGCTCGTTGAGGTCCACCTCGAAACGGGGCGGACACACCAAATCCGCGTGCATTTCTCGGCGCTGCGGCACCCGTGCGCCGGCGACCTTACCTATGGGGCGGACCCCCGGCTGGCGGCAACACTGGGCCTCACCCGGCAATGGCTGCATGCGCGCGAGCTCGGTTTCGATCACCCGGTGACCGGCGAGCGTGTCACTGTCACCAGTGACTACCCGCAGGACCTGGCTTACGCCCTGGAAGTCCTCGAATCCGGACAGGCCTGA	MPERLVVADELGGVRADAGLARLMGISRSLAATLIAEGNVVSRGKAVGKSARLVAGDVLDVTVPERRDPLEVVEEVVEGLKILLDDDDFVVVDKPVGVAAHPSPGWVGPTVVGGLAGAGYRISTSGSPERAGIVHRLDVGTSGVMVVAKTERAYTALKRAFKERSVDKVYHAVVQGLPDPLEGTIDAPIGRHPGHDWRFAVIEDGRPSITHYEVLEAFGKATLVEVHLETGRTHQIRVHFSALRHPCAGDLTYGADPRLAATLGLTRQWLHARELGFDHPVTGERVTVTSDYPQDLAYALEVLESGQA				NA	NA	NA	NA	NA
D1-29_01739	3558	dnaE1	COG0587	DNA polymerase III subunit alpha	GTGACTTCCAGCAATGCCTCGTTCGTCCACCTGCACAACCACACCGAATACTCCATGTTGGACGGCGCCGCCCGTCTGGGGGAGCTTTTCGACGAGACCGAACGCCTGGGCATGCCGGCACTCGCCACCACTGACCACGGGTACCTGTTCGGCGCCTTCGACTTTTGGAAACGCGCCACGGACCAGGGCATTAAGCCCATCATCGGCGTCGAAGCCTATGTCACGCCCGGTACGGCACGGACGGACAAAGGCCGTGTCCGCTGGGGCGAGGAACACCAGCGCAAGGACGACATCTCCGGCGGTGGTTCCTACACGCACATGACGCTGCTGAGCTACAACAACGCCGGCATGCGCAACCTCTTTCGGGCCTCGTCCATCGCGTCCCTGGACGCTGTCTTCGGCAAGTGGCCGCGGCTGGACCGCGAGCTGCTGAACACGTACTCGGAAGGGCTGATCGCCACCACCGGGTGCCCGTCAGGGGAAGTCCAGACCCGGCTGCGGCTGGGCCAGTACCGTGAGGCGCTGGAAGCGGCCTCAGAGTTCCGCGACATTTTCGGTGCCGAAAACTACTTCTGCGAACTGATGGACCACGGCCTGGACATCGAACGCCGGGTCACCGGGGACCTGCTGCGGCTCGCCAAGGAACTGAAGCTGCCGCTGGTGGCCACCAACGACCTCCACTACACGCACGAGCACGACGCCAAGGCGCACGAGGCCCTGTTGGCCATCCAGTCAGGTTCCACCCTGCTGGAGCCAACCTACGACAACGGCGGTTCCCGCTTCGCGTTCTCCGGCAGCGGCTACTACCTCAAGTCGCCGCAGGAGATGCGCGAGCTCTTCCGGGACCACCCCGACGCGTGCGATAACACACTGCTGATCGCGGAGCGCTGTGAAGTTTCCTTCAATACAGGGGCCAACTACATGCCGCGCTTTCCCTGCCCGCCGGGGGAGGACGAAACGTCCTGGCTGGTGAAGGAAGTTGCTGCCGGCCTCGAATACCGATACCCGGGCGGTGTTCCGGACAAAGTCCGCACCCAGGCTGACTACGAGCTGGAAGTCATCACCTCCATGGGGTTCCCCGGGTACTTCCTGGTGGTGGCCGACTTCATCAACTGGGCGAAGAACAACGGCATCCGGGTCGGACCCGGCCGTGGCTCGGGCGCCGGTTCCATGGTGGCCTACGCCATGCGCATCACCGACCTTGATCCGCTGCACCACGGCCTGATCTTCGAGCGCTTCCTCAACCCGGACCGCGTCTCCATGCCTGACTTCGACGTCGACTTCGATGACCGGCGCCGCTCCGAGGTGATCGACTATGTGACCCGCAAATACGGCGACGAGCGCGTCGCCATGATCGTCACCTACGGCACCATCAAGACCAAGCAGGCGCTCAAGGACTCGTCACGCGTGCTGGGCTATCCGTTCAGCATGGGCGAACAACTGACCAAGGCCCTGCCACCGGCGGTCATGGCCAAGGACATTCCGCTGGCGGACATCCAGAACAAGGACTCCAAGCGCTACAGCGAAGCCGGCGACTTCCGCCAGCTGATCGCCACGGACCCCGAAGCCGCCAAGGTCTTCGAGACGGCGCTGGGCATCGAAGGGCTGAAGCGCCAGTGGGGTGTACATGCCGCCGGCGTCATCATGTCATCGGACCCGATCATCGATGTCATCCCCATCATGCGGCGCATCCAGGACGGGCAGGTAATCACGCAGTTCGATTACCCCACCTGCGAGGGCCTGGGCCTGATCAAGATGGACTTCCTGGGGCTGCGGAACCTGACGATCATCTCTGACGCCCTGGAGAACATCAAGCTCAACCGTGGCCATGACCTGGACCTGGACAGCCTGGCCCTGGACGACGCCGCCTCCTACGAACTGCTGGCCCGGGGTGACACCCTGGGCGTCTTCCAGCTCGACGGCGGGCCCATGCGCTCCCTGCTCAAGCTGATGAAGCCTGACAACTTCGAAGACATCTCCGCCGTCCTGGCCCTCTACCGCCCGGGTCCGATGGGCGCCAACGCCCACACCGACTACGCCCTGCGCAAGAACGGGATCCAGGAAGTCATCCCGATCCACCCGGAGCTGAAGGAACCGCTCGCCGAAATCCTCGGCGGCACGTACGGCCTGATCGTGTACCAGGAACAGGTGATGGCCGTCGCGCAGAAGCTCGCCGGGTACTCCCTCGGGCAGGCGGACATCCTCCGCCGTGCCATGGGCAAAAAGAAGAAGTCAGAGCTGGACAAGCAGTTCGCCGGCTTCTCGCAGGGCATGCAGGACAACGGCTACTCCATGGAGGCCGTCAAGACCCTCTGGGACATCCTGCTGCCGTTCTCTGACTACGCGTTCAACAAGGCACACTCGGCCGCCTACGGCGTGATTTCGTATTGGACCGCTTACCTTAAGGCCCACTACGCACCGGAGTACATGGCGGCGCTGCTGACCTCCGTAGGCGACGACAAGGACAAGTCAGCGATTTACCTGAACGAGTGCCGCCGCATGGGCATCACGGTGCTCCCGCCGGACGTCAACGAATCCTCGCTGAACTTCACGCCGGTGGGGACGGACATCCGCTTCGGCATGGGCGCCATCCGGAACGTTGGTTCCAACGTGGTCCAGGCGATGGTGGCTGCCCGGGAGAGCGAGGGGGCCTACACGTCGTTCAAGGACTTCCTCATGAAGGTCCCGGCGGTTGTCTGCAACAAGCGGACCATCGAATCCCTGATCAAGGCCGGGGCCTTCGACTCGCTTAACCACCACCGCCGCGCCCTGGTCATGGTCCACGAGGAGGCCATCGACTCGGTCATTACCCTCAAGCGGAACGAGGCAATTGGCCAGTTCGACCTCTTCGCCGGATTTGAGGAGGCCGAGTCCGAGGCCTCCCTGAGCATCGAGATCCCCGAGCTTCCCGAGTGGGAGAAGAAGGACAAGCTGTCCTTCGAACGGGACATGCTGGGACTCTATGTCTCGGACCATCCCCTGCAGGGCCTGGAGGGGATACTCAGCCAGCACGCGGACCAGTCCATCACCTCCATCATTGCCGAAGACGGCCCGCACGACGGCGCCATCATCACCATCTCCGGAATGATCACCTCCTTGAGCCGCCGCATCGCCAAAGCCAGCGGCAACGCCTACGCCCGCGCCGAAATCGAAGACCTTGGCGGCTCCATGGAGGTCATGTTCTTTGGACAGGTGTACGGCCCCATCGCGTCGGTCCTGGCCGAGGACCTGATCGTGGTTGTCAAAGGCAGGCTGCAGCGGCGCGATGACGGCGCCGTGACATTGAACTGCATGGAGCTGTCCGTTCCAGACCTCAGTGAGGGAACCAACGGGCCGGTGCTCATTTCGATGCCCACGCACAAGGCCACCGAGGCCGTGGTCACCGAACTGGGGGACGTGCTGCGGAACCACCGGGGAAACTCGGAGGTCCGCTTGCACCTGCAGGGCGACACCAGGACCGAGGTCATGGGGCTGCCTGTCCACCTCAGGGTGAACCCCAGCCCGTCACTCTTCGGCGACCTCAAAGTGCTCCTCGGGCCTACCTGCCTGGACAACTGA	MTSSNASFVHLHNHTEYSMLDGAARLGELFDETERLGMPALATTDHGYLFGAFDFWKRATDQGIKPIIGVEAYVTPGTARTDKGRVRWGEEHQRKDDISGGGSYTHMTLLSYNNAGMRNLFRASSIASLDAVFGKWPRLDRELLNTYSEGLIATTGCPSGEVQTRLRLGQYREALEAASEFRDIFGAENYFCELMDHGLDIERRVTGDLLRLAKELKLPLVATNDLHYTHEHDAKAHEALLAIQSGSTLLEPTYDNGGSRFAFSGSGYYLKSPQEMRELFRDHPDACDNTLLIAERCEVSFNTGANYMPRFPCPPGEDETSWLVKEVAAGLEYRYPGGVPDKVRTQADYELEVITSMGFPGYFLVVADFINWAKNNGIRVGPGRGSGAGSMVAYAMRITDLDPLHHGLIFERFLNPDRVSMPDFDVDFDDRRRSEVIDYVTRKYGDERVAMIVTYGTIKTKQALKDSSRVLGYPFSMGEQLTKALPPAVMAKDIPLADIQNKDSKRYSEAGDFRQLIATDPEAAKVFETALGIEGLKRQWGVHAAGVIMSSDPIIDVIPIMRRIQDGQVITQFDYPTCEGLGLIKMDFLGLRNLTIISDALENIKLNRGHDLDLDSLALDDAASYELLARGDTLGVFQLDGGPMRSLLKLMKPDNFEDISAVLALYRPGPMGANAHTDYALRKNGIQEVIPIHPELKEPLAEILGGTYGLIVYQEQVMAVAQKLAGYSLGQADILRRAMGKKKKSELDKQFAGFSQGMQDNGYSMEAVKTLWDILLPFSDYAFNKAHSAAYGVISYWTAYLKAHYAPEYMAALLTSVGDDKDKSAIYLNECRRMGITVLPPDVNESSLNFTPVGTDIRFGMGAIRNVGSNVVQAMVAARESEGAYTSFKDFLMKVPAVVCNKRTIESLIKAGAFDSLNHHRRALVMVHEEAIDSVITLKRNEAIGQFDLFAGFEEAESEASLSIEIPELPEWEKKDKLSFERDMLGLYVSDHPLQGLEGILSQHADQSITSIIAEDGPHDGAIITISGMITSLSRRIAKASGNAYARAEIEDLGGSMEVMFFGQVYGPIASVLAEDLIVVVKGRLQRRDDGAVTLNCMELSVPDLSEGTNGPVLISMPTHKATEAVVTELGDVLRNHRGNSEVRLHLQGDTRTEVMGLPVHLRVNPSPSLFGDLKVLLGPTCLDN				NA	NA	NA	NA	NA
D1-29_01740	501			putative flavin reductase	GTGACCGCAGACCATGCACCGTTCGAGCGTACGTTCAGGGAAATGTTCCGGCGCCATGCCGCAGGCGTGGCCATTATCACCGTGAACTACCAGGGCGAGCCCTACGGTTTCACCGCCACCTCGGTGGCGTCGCTGTCGGCCCAGCCGCCACGGTTTACCTTCAACATGGCCCGCAGTTCCAGTTCATGGCCCGCCATAGCCAACACCACCCATATCGGCCTCCACATGCTGGGCCTCGAGAACCAGGCCCTGGCCGAACGCTTCGCCCGTACCAAGGACCGGTTCGGCGGTGACCACTGGGAACTGGGTCCGCACGAAGTTCCCGTGCTTAAGGATGTTGCCGGCTGGCTGATAGGCAAGATCCAGATGCGCTTGTCGTTCGAGAATAATGCGGTGGTGGTTGTTGAAGTGGTGGACGGTCTGGTGGGTGAAGACGGCTCGCCGCTCCTCTATCACGCCGGCGGCTACAGCCAGCCAGTTCCGCTGGACTACGAGATTTAG	MTADHAPFERTFREMFRRHAAGVAIITVNYQGEPYGFTATSVASLSAQPPRFTFNMARSSSSWPAIANTTHIGLHMLGLENQALAERFARTKDRFGGDHWELGPHEVPVLKDVAGWLIGKIQMRLSFENNAVVVVEVVDGLVGEDGSPLLYHAGGYSQPVPLDYEI				NA	NA	NA	NA	NA
D1-29_01741	564			hypothetical protein	ATGACACGACGCACCCATGGGCGCTCCTCCCGCCCGGCCTGGACCTGGTTTGCCGTGGCGTCCGCGGCTGGAATCCCCGTGGGCATGCTGTGGTGGATCCTGGCTCCCGGCGGCCTGAATCTGATGACCCGAAACCCTTCACTAGCGGAAGGGACAAATCCCGAGGTCTGGCTGCTGCGCGATCTGACCCTTGCCGGCCTCTTCGTTTTTGCCGGCTGCCTGGTGGGTGTTTTCCTGGCGGATAAAACCCGCAGGAATGGACAAAAGGACCTGCTTTTTGCCCTTGCCGGTGGCCTTATCGGAGCATTGATGGCGTGGCAGGCCGGTATCTTCGCTGGCAAGGTATGGGGTACCCCCGCAGACCCCTCGCTCCACGCGAATGTTGCCTTCTCACTCCGGTCCATGTCGGTGCTTCTGCTGTGGCCGGCGGCCACAGCGGTGGCTGTCTTTGCCATCAGCCTGCTGAACCTGCTGAAGCAGAAACCCTACCTTGAGGACGATGGCTACGAGGACAGGGACAGATACAGCGGACCTTTCGCGGGAAGCAAAGCCGCCGACGCGTAA	MTRRTHGRSSRPAWTWFAVASAAGIPVGMLWWILAPGGLNLMTRNPSLAEGTNPEVWLLRDLTLAGLFVFAGCLVGVFLADKTRRNGQKDLLFALAGGLIGALMAWQAGIFAGKVWGTPADPSLHANVAFSLRSMSVLLLWPAATAVAVFAISLLNLLKQKPYLEDDGYEDRDRYSGPFAGSKAADA				NA	NA	NA	NA	NA
D1-29_01742	1383	hisD	COG0141	Histidinol dehydrogenase	GTGACCATTTCTCCTGACCTCCCTGCCGCCACACGTGCCCCAGCCGTAGACTTCCGAACGGTTGATCTCCGGGGCCGCCGCCTGACACTCGCCGGCTTGCGTGCCGCCGTCCCCAGGGCGCAGCACCACACGGTGGCGGATGCTGAGCAAAAGGTCCTGGACATCATCGCCGACGTCCGGTCACGGGGATTCCGTGCGCTCGGCGACCTTGCGTTGCGGCTGGACGGCGTGCAGCAGGAACACCCCCGGGTGCCTCCCGAGGCGCTCGCCCAGGCCCTGGAGGGTCTTGACCCGGCAGTACGCAGCGCCCTTGAAGAGTCCATCAGCCGTGCCCGGCGTTTCGCCGACGGGCAGCGCCCGCGGAATATCGACGTCGAACTTGGCGACGGCGCTCTGGTGAGCCAGAACTGGGTACCCGTCGCACGGGTGGGGCTGTATGTCCCGGGCGGACTGGCCGTCTATCCTTCCTCGGTGATCATGAACGTTGTGCCTGCACTGGCGGCAGGAGTGGAATCAATTGCCCTCGCCTCGCCGCCACAAAAGGATTTCGGTGGACTGCCGCACCCCACCATCCTCGCGGCGGCCGCACTCCTGGGCATAGAAGAGGTGTACGCCGTTGGCGGCGCCCAGGCGATTGCTGCCTTTGCCTATGGAATCGATGCAACAGACGCCGGACCTGCACTGGAACCCGTGGACGTGGTCACGGGCCCGGGAAACATCTTCGTGGCCACAGCCAAGCGGCTCGTCAAGGGTGTGGTGGGAATCGACTCGGAAGCGGGCACCACTGAGATAGCCATCCTGGCTGACGGCTCCGCCCAGCCCGCCCTGGTAGCCGCGGACCTGATCAGCCAGGCTGAGCACGATCCCAACGCTGCTTCGGTCCTCATCACCGACTCCGAGGAACTCGCCGCCGCGGTACGCATTGAACTCGACCGGCAGGCGGCGGCCACCAAACACTCCCAGCGGGTCCGCGAGGCGCTTTCCGGTCCCCAGTCGGGCGTAGTCCTGGTGGAGGACCTTGAACAGGGCATCGCCGCCTGTGACGCGTACGCCGCCGAACACCTGGAGATCATGACGGCGGACGCGGCCACCGTGGCGTCGCGGATACGCAACGCCGGAGCCATCTTTGTCGGAGACTACAGCCCGGTCAGCCTGGGGGATTACTGCGCAGGTTCAAACCACGTGCTGCCCACCAGCGGGACGGCGGCATTTTCCTCCGGCCTGAATGTCACTACCTTCCTTCGGGCCATCCAGGTGGTGAACTACAGCAGGGCCGCACTGCAGGAGGTCAGCGGACACATCGTCAGCCTGGCCGGGGCAGAGGACCTGCCGGCCCACGGCCAGGCGGTAACGGCACGCTTCGCGAACCCCGGAGCCCACTGA	MTISPDLPAATRAPAVDFRTVDLRGRRLTLAGLRAAVPRAQHHTVADAEQKVLDIIADVRSRGFRALGDLALRLDGVQQEHPRVPPEALAQALEGLDPAVRSALEESISRARRFADGQRPRNIDVELGDGALVSQNWVPVARVGLYVPGGLAVYPSSVIMNVVPALAAGVESIALASPPQKDFGGLPHPTILAAAALLGIEEVYAVGGAQAIAAFAYGIDATDAGPALEPVDVVTGPGNIFVATAKRLVKGVVGIDSEAGTTEIAILADGSAQPALVAADLISQAEHDPNAASVLITDSEELAAAVRIELDRQAAATKHSQRVREALSGPQSGVVLVEDLEQGIAACDAYAAEHLEIMTADAATVASRIRNAGAIFVGDYSPVSLGDYCAGSNHVLPTSGTAAFSSGLNVTTFLRAIQVVNYSRAALQEVSGHIVSLAGAEDLPAHGQAVTARFANPGAH				NA	NA	NA	NA	NA
D1-29_01743	516	nrdR	COG1327	Transcriptional repressor NrdR	ATGTACTGTCCGTTCTGCCGCAATCCGGATTCCCGCGTTGTTGACAGCCGGATGGCTGACGACGGTTCCGCCATCAGGCGCCGCAGGCAATGCCCTGAATGCGGCCGCAGGTTCACCACCGTGGAAACCACCAGCCTCTCCGTTATCAAGCGTTCCGGTGTGGGGGAGCCCTTCAGCCGGAGCAAGGTCATCAACGGTGTGCGCAAAGCCTGCCAGGGCCGCCCGGTCAGCGAGGACGACCTTGCGCTCCTCGCCCAGGAAGTCGAGGAACAGATCCGGGCTTCGGGAGCAGCCGAAATCGACGCCCACGAGGTTGGCCTGGCCATCCTGGGGCCCCTTCAGAAGCTGGACAAGGTTGCCTATCTTCGCTTCGCGAGCGTCTACCAGGCCTTCGAGTCGCTGGAAGACTTCGAGACGGCCATTTCGCTGCTCCGCCATGAGTCCGAAGAGGAAGCCAAGAACCTCGTGGAAAAGGGCGCCAAGGGCGCCAAAAGCTCCGAAAAGAGCCCACTGTAA	MYCPFCRNPDSRVVDSRMADDGSAIRRRRQCPECGRRFTTVETTSLSVIKRSGVGEPFSRSKVINGVRKACQGRPVSEDDLALLAQEVEEQIRASGAAEIDAHEVGLAILGPLQKLDKVAYLRFASVYQAFESLEDFETAISLLRHESEEEAKNLVEKGAKGAKSSEKSPL				NA	NA	NA	NA	NA
D1-29_01744	753	ygfF		putative oxidoreductase YgfF	GTGGGCACCCCCGGCGTGATGGTCGTGACGGGTGCCAGCCGCGGGATCGGTGCGGCCATAGCCCGGCGGGCCGCCGTAGCTGGATACAGCGTGGTTCTGAACTATTCAGTGGATGCAGAGGGTGCGCGCTCGGTGGCGCAGGACATCATGAACGACGGCGGCACCGCCGTCGCCATTGAAGCGGATGTCAGCGATGCTGCCGCAGTGACAGCCCTGTTCGATGCCGCGACGCGTCTGGGCCGGCTCTCTGCGGTGGTGAACAATGCCGGCATTACGGGCAACCTGATCGGCAAACTTGCCGACGTTCCGGCCGAGACAGTCCGCCGCGTGATGGACGTCAACGTGTCTGGCCTGATCTTTGTCTGCCAGGAGGCCGTCCGCAGGCTGTGCACGGACGGCGGCGGCACCGGCGGTTCCATCATCAACATCTCCTCCACGGCCACCAAAGCCGGTTCCCCGGGAACCTGGGCCCACTATGCCGCGTCCAAGGGCGCGGTGGACGTCCTCACTGTGGGGCTGGCTGCAGAGGTGGCAGACCAGGGAATACGCGTCAACTGCGTCGCTCCGGGCAGCACGAATACAGGCCTGCATGCAGCCGCGGGCATGCCGGACCGAGTCGAGCGGCTGAATGCCACCATTCCGATGGGACGCGGGGCTGAACCGGATGAAGTGGCCGCGGCTGTTCTGTGGCTGATGTCGGCCGAGGCCGGCTACATCACCGGCGCCATTCTCCCTGTCTCGGGCGGGCGTTAG	MGTPGVMVVTGASRGIGAAIARRAAVAGYSVVLNYSVDAEGARSVAQDIMNDGGTAVAIEADVSDAAAVTALFDAATRLGRLSAVVNNAGITGNLIGKLADVPAETVRRVMDVNVSGLIFVCQEAVRRLCTDGGGTGGSIINISSTATKAGSPGTWAHYAASKGAVDVLTVGLAAEVADQGIRVNCVAPGSTNTGLHAAAGMPDRVERLNATIPMGRGAEPDEVAAAVLWLMSAEAGYITGAILPVSGGR	PGPT0003180_5138	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
D1-29_01745	804	ppgK_1	COG1940	Polyphosphate glucokinase	TTGGCCAAGAAGGACGAGAAGTCGCACAAGAACGCCCCGCTGATCGGCATCGACATCGGCGGCACGGGAATCAAGGGCGGCATTGTCGACCTGAAAAAGGGCAAGCTCCTGGGCGAACGGTTCCGTGTGCCCACGCCGCAGCCGGCCACTCCGGCGGCCGTCGCCGAAGTGGTGGCGCAGGTTGTGGCAGAGCTGTCCGCCAGGCCGGAGGCCCCGGAGCCGGACTCGCCCGTTGGTGTCACGTTCCCCGGCATCATCCAGCACGGCGTGGTCCTTTCCGCGGCCAACGTTGACAAGAGCTGGCTGAACACTGACCTGGATGCGCTGCTCACGCATCGGCTGGGCCGGCCGGTTGAGGTCATTAACGACGCCGACGCCGCGGGGCTGGCTGAGGCACGCTACGGTGCCGGTGAGGGCGTGAACGGCACGGTCCTGGTCATCACGCTGGGCACCGGAATTGGCTCAGCTTTTATCTTCGACGGCAGGCTGGTGCCCAACGCCGAACTCGGCCACCTGGAAATCGACGGCTTCGATGCCGAGACCAAAGCCTCGGCAGTTGCCCGTGAGCGTGACGGACTCAGCTGGGAGGAGTACAGCGTGCTGCTGCAGCGCTACTTCTCCCATGTGGAGTTCCTCTTCTCCCCTGAGCTGTTCATCGTGGGCGGCGGCATCTCCAAGCGCGCTGACGAATACCTGCCCAACCTCAAGCTCCGGACGCCAATCGTCCCGGCGGAGTTGAAGAATGAGGCGGGGATTGTCGGCGCCGCCCTCGAGATCGCCGTGAAGCACAAGCTCGTCAAGTAA	MAKKDEKSHKNAPLIGIDIGGTGIKGGIVDLKKGKLLGERFRVPTPQPATPAAVAEVVAQVVAELSARPEAPEPDSPVGVTFPGIIQHGVVLSAANVDKSWLNTDLDALLTHRLGRPVEVINDADAAGLAEARYGAGEGVNGTVLVITLGTGIGSAFIFDGRLVPNAELGHLEIDGFDAETKASAVARERDGLSWEEYSVLLQRYFSHVEFLFSPELFIVGGGISKRADEYLPNLKLRTPIVPAELKNEAGIVGAALEIAVKHKLVK	PGPT0017750_229	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
D1-29_01746	879	map_1	COG0024	Methionine aminopeptidase 2	ATGCCTTCCCTAGCCTCGACTGCACCCACCGGCACCCTAACCCGGGGAACCGTCAGCCCGCAGCTCCCCGTTCCCGCTTCTATCCCGCGGCCGGAGTACGTGGGTAAGCCGGGTCCGGCTAAATTTACGGGCTCCGAGGTCAAGACTGCGGAAACCATCGAGAAGATCCGGGTGGCCAGCAGGATTGCGGCGCAGGCAATTGTTGAGGTGGGCAAGCACATAGCTCCGGGCGTTACCACGGACCAGCTGGACAAGGTGGGCCACGAGTTCCTGCTGGACCACCATGCCTATCCGTCCACCCTTGGCTACCGCGGATTCCCGAAGTCCCTGTGCTCTTCCCTGAACGAGGTCATCTGCCACGGCATTCCGGACAGCACGGTGGTCCAGGACGGCGACATCATCAATATCGACATCACCGCGTTCATCAATGGGGTGCACGGTGACACCAACTACACCTTCCTCGTCGGCGGCGTCGACGAGGAATCGCGCCTGCTGGTTGAACGCACCCGGGAATCCCTCAACAGGGCCATCAAAGCCGTGGCGCCCGGCAGGGAGATCAATGTGATCGGGCGCGCCATCGAGTCCTACGCCAAGCGTTTCGGCTACGGTGTGGTGCGGGACTTCACCGGCCACGGCGTGGGTGAAGCATTCCACACCGGCCTCATCATCCCCCATTACGACGCCGCTCCGGCCTACAACACCGTCATTGAGGCAGGCATGGTTTTCACCATCGAGCCGATGCTGACCCTCGGGACCGTGGAATGGGATATGTGGCCGGATGACTGGACGGTTGTCACCAGGGACCGCAAGCGGACAGCACAGTTCGAGCACACCCTGCTCGTGACCGAGTCCGGCGCCGAAGTCCTGACCCTGCCCTGA	MPSLASTAPTGTLTRGTVSPQLPVPASIPRPEYVGKPGPAKFTGSEVKTAETIEKIRVASRIAAQAIVEVGKHIAPGVTTDQLDKVGHEFLLDHHAYPSTLGYRGFPKSLCSSLNEVICHGIPDSTVVQDGDIINIDITAFINGVHGDTNYTFLVGGVDEESRLLVERTRESLNRAIKAVAPGREINVIGRAIESYAKRFGYGVVRDFTGHGVGEAFHTGLIIPHYDAAPAYNTVIEAGMVFTIEPMLTLGTVEWDMWPDDWTVVTRDRKRTAQFEHTLLVTESGAEVLTLP	PGPT0020010_2273	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
D1-29_01747	168			hypothetical protein	ATGACTGAGTACTGGTACAACGTAAACACCCACGAGGTGGAAGAGGACAAACTCTCCGACTGGAGCCAGCTGATCGGCCCGTACAAAACACGGGAAGAGGCCGAGCACGCCCTGGAGAAGGTGCGGGCGCGCAACGAGGCCTGGGAAAAGGGCGAGGAAGACGACTAG	MTEYWYNVNTHEVEEDKLSDWSQLIGPYKTREEAEHALEKVRARNEAWEKGEEDD				NA	NA	NA	NA	NA
D1-29_01748	927	panB_1	COG0413	3-methyl-2-oxobutanoate hydroxymethyltransferase	GTGCCGCACTACGCTCTTGCCATGGCCTCAAGCAATAGTTCCGACTCCCGCGCGTCCGCTGAAGTACCCGCACCCTATGGAAACGGCCCTGCCTCCGTTCCCTCGGCGTCGTCGGAATCGGCTGCCAAGCCGGCAGCGAAAGTCCGCATCCACCATCTGCAGCAGGCCAAGCGGGACGGCACCCGCTTTGCCATGCTGACGGCCTATGAGCAGTACACCGCTGAGATCTTCGACCAGGCCGGCATCGAGGTGCTCCTGGTGGGCGATTCGGCGTCGAACAATGTCTTTGGCAATGAAACCAGCCTTCCCGTCACGGTGGACGAGCTCCTCCCGCTCTGCCGGGCCGTGGCGCGCGCCGCGAAGCGTGCCCTTGTAGTCGCGGACCTGCCCTTCGGCAGTTATGAGGTGTCGCCGGAGCAGGGTGTCGCCACCGGCGTCCGCTTCCTCAAGGAAGGACTGGCGCACGCCGTCAAGATCGAGGGCGGCAAGTACTACGCCGAAACTGTGCGCGCCATGGTGCAGGCCGGGATTCCGGTTATCGCGCACATCGGCTTCACCCCTCAGAGCGAGCACTCGCTGGGCGGCTATCGGGTACAGGGCCGCGGAGATGATGCCCAGCGGCTGATCGAAGACGCAGTGGCCCTGGCAGACGCCGGCGCGTTCTGCGTACTCATGGAGATGGTCCCGGCGGAGACCGCCGCCGCCGTTGACGCCGCGGTAAGCGTGCCCACCGTCGGAATAGGCGCGGGCAATTCCACCACGGGGCAGGTGCTGGTCTGGCAGGACATGGCGGGACTGCGCGGCGGGCGAATGGCGAAATTCGTCAAGCAATACGCGGACCTTCGCACCAGCCTCGGCGATGCAGCAAAAGCCTACGGCGACGACGTCCGTTCAGGCACCTTCCCCGGCCCGGAGCACTCCTTCTAA	MPHYALAMASSNSSDSRASAEVPAPYGNGPASVPSASSESAAKPAAKVRIHHLQQAKRDGTRFAMLTAYEQYTAEIFDQAGIEVLLVGDSASNNVFGNETSLPVTVDELLPLCRAVARAAKRALVVADLPFGSYEVSPEQGVATGVRFLKEGLAHAVKIEGGKYYAETVRAMVQAGIPVIAHIGFTPQSEHSLGGYRVQGRGDDAQRLIEDAVALADAGAFCVLMEMVPAETAAAVDAAVSVPTVGIGAGNSTTGQVLVWQDMAGLRGGRMAKFVKQYADLRTSLGDAAKAYGDDVRSGTFPGPEHSF	PGPT0008740_352	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
D1-29_01749	1341	glnA_1	COG0174	Glutamine synthetase	ATGGACCGCCAGCAAGAGTTTGTCCTGCGCACAATCGAAGAGCGCGACGTACGGTTCGTACGCCTGTGGTTCACCGACGTCGTGGGTTCGCTCAAATCGGTGGCTCTGGCACCGGCAGAGGTGGAGGGGGCCTTCGAGGAAGGCCTCGGCTTTGACGGCTCCGCCATTGAGGGTCTTGCGCGGGTCTTTGAGTCGGACATGCTGGCCCAGCCCGACCCCTCCACGTTCCAGATTTTGCCCTGGCGCGGTGAGACGGAGCAGACGTCCCGGATGTTCTGCGACATCCTGACGCCCGACGGCGAGCCCTCCGCGGCCGACCCCCGAAACGTCCTCAAGCGCACCCTGGCCAAGGCCGCGGACATGGGCTTTACCTGCTACACACACCCCGAAATCGAGTTTTACCTCCTCAAATCCCAGGAACCCGGCCCCGACGGCTCGCCGGTCCCGGTTGACGAGGGCGGCTACTTCGACCATGTGCCCGGCGGCGTAGCCCAGGATTTCCGCCGCACGGCAGTGACCATGCTGGAATCAGTCGGTATTTCGGTGGAGTTCAGCCACCATGAAGCCGGTCCGGGGCAAAACGAGATCGACCTTCGGTATGCGGATGCCCTCCAGACAGCGGACAACATCATGACGTTCCGCACGGTCATCAAGGAAGTTGCTTTGCAGCAGGGCACCTACGCAACGTTTATGCCCAAGCCCTTCACGGCGCACCCGGGCTCAGGGATGCACACGCATTTTTCGTTGTTCGAGGGGGACACCAACGCGTTCTACGAGGCCGGCGCCGAATTCCAATTGTCCAAAACCGCCCGCCAGTTCATCGCCGGTATCCTCAAGCACGCCCCGGAGTTCACGGCCGTGACGAACCAGTTCGTCAACTCCTACAAGCGACTCTGGGGCGGCGGTGAAGCGCCCAGTTACCTGAGCTGGGGACACAACAACCGCTCGGCGCTGGTCCGTGTGCCGCTGTACAAGCCAGGCAAGGGGCAGTCCGCGCGCATCGAATACCGCGGCATTGATTCCGCCGCCAACCCGTACCTCGCCTACGCCGTCCTGCTCGGCGCCGGCCTGAAGGGGATCGAGGAAGGGTATGAGCTGCCCGCCGCCGCCGAAGACGACGTCTGGTCATTGAGCTCAGCCGAACGCCGGGCCATGGGGCATGACCCGCTGCCAGCGAGCCTCCACGATGCCATCCGGTCCATGGAAGAGTCCGAGCTGCTGCCCCAGATTCTGGGGGAACAGGTCTTTGAGCACTTCCTGCGCAACAAACGGGCCGAATGGCAGGACTACCGGCTCCAGGTGACGCCGTACGAACTGCAGCGCAACCTGGGAATCCTTTAG	MDRQQEFVLRTIEERDVRFVRLWFTDVVGSLKSVALAPAEVEGAFEEGLGFDGSAIEGLARVFESDMLAQPDPSTFQILPWRGETEQTSRMFCDILTPDGEPSAADPRNVLKRTLAKAADMGFTCYTHPEIEFYLLKSQEPGPDGSPVPVDEGGYFDHVPGGVAQDFRRTAVTMLESVGISVEFSHHEAGPGQNEIDLRYADALQTADNIMTFRTVIKEVALQQGTYATFMPKPFTAHPGSGMHTHFSLFEGDTNAFYEAGAEFQLSKTARQFIAGILKHAPEFTAVTNQFVNSYKRLWGGGEAPSYLSWGHNNRSALVRVPLYKPGKGQSARIEYRGIDSAANPYLAYAVLLGAGLKGIEEGYELPAAAEDDVWSLSSAERRAMGHDPLPASLHDAIRSMEESELLPQILGEQVFEHFLRNKRAEWQDYRLQVTPYELQRNLGIL	PGPT0000645_7873	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
D1-29_01750	3012	glnE	COG1391	Bifunctional glutamine synthetase adenylyltransferase/adenylyl-removing enzyme	GTGAGCCTTGCCCGCCGTCTCATTTCGGCCGGCTTCAGTGACCTGGAGAAGGGCGAGCGGTTTCTGGCTGCCCGCGAACTGGATGGCCTGGACCAGGACAAGCTGTTCGCGGGCCTGCAGATGGCGGCGAATCCGGACACAGCCCTCCAGTCGTTGGTGCGGCTGATCGAAAAACATCCGGCCCTGCGGGACCTGGCCGGGGCAGATCCTGAAACAAGCGAGCCGCTTTACCGTGTCCTGGGGGCTTCGGAGGCGCTTGGCGAGTTCCTCATCCGGCATCCGGAGCATCTTGACGCGTTCGACGTGACCGCCAGCCCCGAGCCGCTCGGCGCGGACGCGGAACAGCTCCGCGCTGCCCTCCTGAGGTCCGTGCGGGCCGATCCCCGGGCAGCAAGGCCGGTGGCCGGACTGACCGGTACGGATGCCTACGTTGCGCTTCGGACGGCGTACCGCCGGGGAGTGGTGGATCTCGCCGTCAAGGATCTGTGCGCCGCGGACCCCCTGGACTTCATGCCGGCCGTCGGCGCCGAACTGGCTGATCTGGCCGGTGCCGCCATCGAAGCGGCCCTGGCAGTTTCGCGGGCGGAGGCGGCAGCGCAGTTCAGCGCAAGCGAGGTGGCTGACGTTGGCCTGGCAGTGATCGGCATGGGCAAATGCGGAGCGCGCGAGCTTAACTACATTTCCGACGTCGATGTCATCTACGTCATGGATGGCGGTGAACTGGACGATGCGCGCGGCAACACCATTGGAACGGCGCTGGCCACCGGAATCTCGCGGGCCATTTCCTCCATCGCCAGGGAACCCGGGCTCTGGGAGGTGGACGCGAACCTCCGGCCGGAAGGCAAGTCCGGCCCACTGGTGCGGACCCTGGCCTCACACGAGAGCTACTACGCGCGCTGGGCCGAAAGCTGGGAGTTCCAGGCGCTTCTGAAGGCCCGCACCATCGCGGGAGATACCGGACTGGGTGAACGCTACGAAAAGGCGGTGGCCCCGCTGATCTGGAGTTCGGCAGGTCGGGACGGCTTCGTTGAGTCGGTCCAGGCGATGCGGCGCAGGGTGACCGAACACATCCCCGCCACCGAGGAGCAGCGGCAGATCAAACTCGGCCGCGGCGGCCTCCGTGACGTTGAATTCACGGTTCAGCTGCTGCAATTGGTGCACGGAAAATCGGACGAGTCGCTTCGTTGCCGGGATACCACCTCAGCCATCGCGGCGCTGTCCGCAGGAGGCTACATTGGCCGCTCAGACGCCGCAGGGTTTGACCAGGCTTACCGGTACCTGAGGCTGCTGGAGCATCGGATCCAGCTGTTCCAGCTGCGGCGCACCCACCTGATGCCCGTCAGCGAGGCGGCCCTGCGCTCCCTGGCCAAGGCAGTCCTGGGTCCGTTCTCCAACGAGCGGCCCCATCCTGAATCCCTGCTGGCAGCATGGCAGAAGACGAAACGCTCCGTCCGTGAGCTGCACGAGCGGATCTTCTACCGTCCGCTGCTGAATACCGCGGCCAGGCTCAGCACCGAGGATGCACGGCTGACGCCGGAAGCCGCCCAGGGGCGCCTCGCCGCGCTGGGCTACCGTGATCCGCAGGGCGCCATGCGACACATTGAAGCGCTCACGGCAGGCGTCAGCAGGCGGGCGGCACTGCAGCGGCAGCTGCTGCCCATCCTCCTGGACTGGCTTGCCGAGGGCGTTGATCCCGACGCCGGGCTGCTGGCTTTCCGGCGCGTCAGTGAAACCCTTGGAACCACGCACTGGTACCTTGGCATGCTCCGCGATTCGACGGCGGCGGCGGAGCGGCTGTGCCATGTGCTCTCCAACTCGAGGCTGATAGCGGACCTGCTGGAAGTGTCGCCTGAATCTGTCAAATGGCTGGGCGACGACAAGGAGCTTGCGCCGCTGAGCTTTGAGGCGCAGTGGCAGGAAATAACGTCCAAGATGTCCCGGCACGCCAATCCGGAGAGCGCCATGCGGCTAATCCGGCTGATTCGGCGCCGGGAGATCCTCCGGATTGCCATCGCCGATTCGGCCGGGTTGCTGGGCCAGGAGCAGGTGGGTGCCGCCCTTGCCGACACTGACCGGGCCGCGGTGCTGGGCGCACTCCGGGTGGCTGAGGGAATCGTCTCCGCCAAGGAACCGCTGAAGACAGCCGTGCTGGTGGTGGCCATGGGGCGCCAGGGCGGACGGGAGATCGGGTACGGCTCCGACGCGGACGTGATGTACGTCCACCGTGCAGTGCCCGGTTACACCGAGGAGGAAGCCCAGCAACAGGCAGCCCGGATTGTGGCCAAAGTGTCCAGCCTGCTCACCCAGCCGCTCAAGCCTGCCATCATGGCCGAGCGGGTGCTGCAGGTGGATGCCGATCTGCGGCCGGAAGGAAAGAGCGGCGCCATGGTCCGCTCGCTGGATTCCTTCGCGGAGTATTACCGGCGATGGTCCCTCATTTGGGAGGCACAGGCCCTGCTGAGGGCACGGCCCATGGCCGGGGATGACCGGCTGGCCCAGGACTTCATTGACCTCATCGACCCGATCCGGTATCCGGAGTCGATTTCCGAGCAGGATGTCCGGGAGATCCGCAGGGTCAAGGCGCGGGTGGAAGCCGAACGGCTGCCGCGCGGAGCCGATCCGGCGCGGCACCTGAAACTGGGACGCGGAGGACTGAGCGACGTCGAATGGCTGGTGCAGCTCCTCCAGCTTCAGCACGCAGGAAAACACCCGGCCCTGCGGACAACGTCGACGGTGGAGGCACTTGAGGCGGCGGCTTCCCTGGACCTGCTTGCCAAGGCCGATGCCCGGCTGCTGGCGGACGCCTGGCGGCTGGCCAGCAGGATCAGGTCCGCCAACGTCATCTGGAGTGGCAGGGCTTCTGACCTGCTGCCGTCGTCCCGGCGGGATCTCGAAGCCGTAGCACGCTGGTGTGGCTACGAACCTGGCCAGGCGGCCGCCCTCGAGGAAGACTATCTTCGCCTTAGCCGGCGGGCCCGGGCCGTTTTCGAGAAGGTTTTCTACGGCCATTAG	MSLARRLISAGFSDLEKGERFLAARELDGLDQDKLFAGLQMAANPDTALQSLVRLIEKHPALRDLAGADPETSEPLYRVLGASEALGEFLIRHPEHLDAFDVTASPEPLGADAEQLRAALLRSVRADPRAARPVAGLTGTDAYVALRTAYRRGVVDLAVKDLCAADPLDFMPAVGAELADLAGAAIEAALAVSRAEAAAQFSASEVADVGLAVIGMGKCGARELNYISDVDVIYVMDGGELDDARGNTIGTALATGISRAISSIAREPGLWEVDANLRPEGKSGPLVRTLASHESYYARWAESWEFQALLKARTIAGDTGLGERYEKAVAPLIWSSAGRDGFVESVQAMRRRVTEHIPATEEQRQIKLGRGGLRDVEFTVQLLQLVHGKSDESLRCRDTTSAIAALSAGGYIGRSDAAGFDQAYRYLRLLEHRIQLFQLRRTHLMPVSEAALRSLAKAVLGPFSNERPHPESLLAAWQKTKRSVRELHERIFYRPLLNTAARLSTEDARLTPEAAQGRLAALGYRDPQGAMRHIEALTAGVSRRAALQRQLLPILLDWLAEGVDPDAGLLAFRRVSETLGTTHWYLGMLRDSTAAAERLCHVLSNSRLIADLLEVSPESVKWLGDDKELAPLSFEAQWQEITSKMSRHANPESAMRLIRLIRRREILRIAIADSAGLLGQEQVGAALADTDRAAVLGALRVAEGIVSAKEPLKTAVLVVAMGRQGGREIGYGSDADVMYVHRAVPGYTEEEAQQQAARIVAKVSSLLTQPLKPAIMAERVLQVDADLRPEGKSGAMVRSLDSFAEYYRRWSLIWEAQALLRARPMAGDDRLAQDFIDLIDPIRYPESISEQDVREIRRVKARVEAERLPRGADPARHLKLGRGGLSDVEWLVQLLQLQHAGKHPALRTTSTVEALEAAASLDLLAKADARLLADAWRLASRIRSANVIWSGRASDLLPSSRRDLEAVARWCGYEPGQAAALEEDYLRLSRRARAVFEKVFYGH	PGPT0000655_518	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000655-glnE-K00982	NA	NA
D1-29_01751	444			hypothetical protein	ATGGCTACTCAAATCTACTTCAACCTGCCCGTGAAGGACCTTAAGAGGTCGGTGGATTTCTTCACCACCCTCGGCTTTTCCTTCAACCCGGACTACACGGACGAGAACGCAACGTGCATGATCGTCAACGACAATGCGTTCGTGATGCTTCTGGTGGAAGGATTCTTCAAGACCTTCACGTCCAAGGAGATCGCAGACGCCGCCACCTCCACCGAGGCGATCATGGCCTTCTCCGTTGACAGCAAGGAAGCTGTAGACGAGACAGTCCGGAAGGCGCTGGCCGCCGGGGGCACACCGTCCCAGGAAGTCCAGGACTATGGCTTTATGTACAACCACAGCTTCCAGGACCCGGACGGGCACCTCTGGGAGGTCATGTGGATGGACCCCGCCGGTCCGCCTCCCGAAAGCGCGCCTGCGGAAGACACCGCCGGCCCGCAGTCCTGA	MATQIYFNLPVKDLKRSVDFFTTLGFSFNPDYTDENATCMIVNDNAFVMLLVEGFFKTFTSKEIADAATSTEAIMAFSVDSKEAVDETVRKALAAGGTPSQEVQDYGFMYNHSFQDPDGHLWEVMWMDPAGPPPESAPAEDTAGPQS	PGPT0028555_168	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
D1-29_01752	537			hypothetical protein	GTGCAGCAGCCTGTCTGGCTGATTTCACTCCAGGACCTTGACGCTGACGCCCGCGCCATCCAGCTGGGTGCCGTCGCGGGCCTGGAACTCGCCGCAGGGCAGAACGATTTTGTTGGTGATCCCCTCCGCATGATGCTGGCTGGCCTGGCCGAGGATTCCCGGCGGCCCTATGTCATTGAGGCAGGAGGGGAAGCCGTCGGTGTTCTGACCCTGCAGTCCGGCGCGGCCCGGCTGGCCGGGTGGCCGGACGACGCGTCCGCCTGGCTGCTGCGGGGGTTCCTCATCGACAGAAGGTGGCAGGGACAGGGGCTGGGGCCTCTGGCTGCCGCCAAGGCCGTGGAAACCGCAGCAAAACTGACGGCGCGGCTGGAAGGCGGCGAGGCCGGCGTCGTACTCTCCGTCAACGTCCGCAATGCGGCAGGGCTTGCGGCCTACCGCCGGGCCGGGTTCGTGGACCACGGCGAGTATCTTGGCGGCGGGTCCGGGCCACAGCGGACCATGTACCGGAGTTTCGATTACCCGGGCAGCGCTGGATAA	MQQPVWLISLQDLDADARAIQLGAVAGLELAAGQNDFVGDPLRMMLAGLAEDSRRPYVIEAGGEAVGVLTLQSGAARLAGWPDDASAWLLRGFLIDRRWQGQGLGPLAAAKAVETAAKLTARLEGGEAGVVLSVNVRNAAGLAAYRRAGFVDHGEYLGGGSGPQRTMYRSFDYPGSAG				NA	NA	NA	NA	NA
D1-29_01753	1425	glnA_2	COG0174	Glutamine synthetase	ATGTTCAAGACTGCGGACGAAGTCCTCAAGTTCATCCAGGACGAAGATATTAAATTCGTCGATATCCGCTTCACGGACCTTCCGGGCGTCCAGCAGCACTTCAACGTGCCGGCCAAGAGCGTTGACGCAGACTTCTTCGTCAACGGACAGCTCTTCGACGGATCCTCCATCCGTGGTTTCCAGGGCATCGCCGAATCCGACATGCAGCTCATCCCGGACGTCACCACCGCATTCCTGGACACCTTCCGTATGGAAAAGACCCTTGCGCTGAACTTCTCCATCGTGAACCCCCGCACCGGGGACCCCTACCACCGCGACCCCCGCGGTGTGGCCGAGAAGGCTGAAGCCTACCTCGCGTCCACAGGCATCGCGGACACAGCGTTCTTCGCTCCCGAGGCCGAATTCTTCGTCTTCGACAACGTCCAGTACCAGTCCACCCCGCAGGGCAGCTTCTACAAGATCGACTCTGAAGAAGCACACTGGAACACCGGCCGCGAAGAAGAAGGCGGAAACCTCGGCTACAAGACCCCCGTCAAGGGCGGTTACTTCCCGGTTTCCCCCACCGACAAGCAGGCGGACCTCCGCGACGCGATGTGTGTCGCCCTGGACGAGGCCGGCCTTGAGGTCGAGCGCAGCCACCACGAGGTGGGCTCCGCCGGCCAGGCTGAAATCAACTACAAGTTCACCACGCTGACCCACGCGGCCGATGACCTGCAGAAGTTCAAGTACGTCGTCAAGAACACGGCCGACGCCTGGGGCAAGTCCGTAACCTTCATGCCGAAGCCGGTCTTCGCTGACAACGGTTCCGGCATGCACTGCCACCAGTCGCTGTGGAACGGTGGCGAGCCGCTGTTCTACGACGAGAAGGGCTACGCCGGCCTCTCTGACATGGCCCGCTGGTACATCGGTGGCCTGCTCAAGCACTCCTCCGCCGTACTCGCCTTCACCAACCCGACGGTGAACTCCTACCGCCGCCTGGTCAAGGGCTTCGAAGCTCCGGTCAACATGGTCTACTCGCAGGGCAACCGCTCCGCCGGTATCCGTATCCCCATCACGGGCACCAACCCCAAGGCCAAGCGCATCGAGTTCCGCGCTCCGGACCCGTCCTCCAACCCGTACCTGGCGTTCGCTGCCCAGCTGATGGCCGGCATCGACGGTATCCGCAACCGCATCGAACCCCCGGCTCCGATCGACAAGGACCTCTACGAGCTCCCGGCCGAAGAAGCCAAGGACATTCCGAAGGCTCCGGGCACGCTTGAGGAAGCGCTGACTGCACTGGCAGAGGACAACGAGTTCCTCCAGGCCGGCGGCGTCTTCACCCAGGACCTGATCGACACCTGGATCGAGTACAAGTACGAGAACGAGATCCGTCCGCTCTCCCTGCGCCCGAACCCGTACGAGTTCGAGCTGTACTACGGCGTCTAG	MFKTADEVLKFIQDEDIKFVDIRFTDLPGVQQHFNVPAKSVDADFFVNGQLFDGSSIRGFQGIAESDMQLIPDVTTAFLDTFRMEKTLALNFSIVNPRTGDPYHRDPRGVAEKAEAYLASTGIADTAFFAPEAEFFVFDNVQYQSTPQGSFYKIDSEEAHWNTGREEEGGNLGYKTPVKGGYFPVSPTDKQADLRDAMCVALDEAGLEVERSHHEVGSAGQAEINYKFTTLTHAADDLQKFKYVVKNTADAWGKSVTFMPKPVFADNGSGMHCHQSLWNGGEPLFYDEKGYAGLSDMARWYIGGLLKHSSAVLAFTNPTVNSYRRLVKGFEAPVNMVYSQGNRSAGIRIPITGTNPKAKRIEFRAPDPSSNPYLAFAAQLMAGIDGIRNRIEPPAPIDKDLYELPAEEAKDIPKAPGTLEEALTALAEDNEFLQAGGVFTQDLIDTWIEYKYENEIRPLSLRPNPYEFELYYGV	PGPT0000645_2515	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
D1-29_01754	438			hypothetical protein	GTGGTAGATCGTAAAGACATTGGCTCCTGGCTCACCGGACCGGACACTTCAGGCATCTCCAAATACCCGGGGGAGCGGTTGGGCCTTCCCGAATCGGGACCGGGATCGATTGCCAGGGCAGGACGGCGCATCGTTGCCATCTTTATTGACTGGGGTGTGGCGCTGCTGATCAGCAACTTCGTCTTTGGCGGGGACTCGTGGGCAACCCTTGCCGTCTTTGCCGCGGAACAGATGCTGCTGGTGGGAACCCTCGGCTACACCATCGGACACCGCGTGGCCGGCATCCATGTGGTGCGTCTCGGCGGCGGAACGCCGGGGCCGCTGGCTGGCGTGGTCCGCGCTTTGCTGCTGTGTCTTGTGATCCCGGCCGTCATCTTCGATCCCGATCAGCGCGGCCTGCATGACAAGGCGATGAACACCGTCCTCATCCGGATGTAG	MVDRKDIGSWLTGPDTSGISKYPGERLGLPESGPGSIARAGRRIVAIFIDWGVALLISNFVFGGDSWATLAVFAAEQMLLVGTLGYTIGHRVAGIHVVRLGGGTPGPLAGVVRALLLCLVIPAVIFDPDQRGLHDKAMNTVLIRM				NA	NA	NA	NA	NA
D1-29_01755	357			hypothetical protein	ATGAAGATGCCCCTGAAGACTGCAGTAATCCGCGCGTTCCGCATTCTGGCCATCGCAGAGGCAGTCAGTTGGGCGGCCCTGCTGGTGGGCATGTGGTTCAAATGGATCGCCAAGACCAGCGAGCTTGGGGTAGAGATTGCCGGCCCTGTCCACGGTGCACTGTTCGTGGGCTATGGCATCGCCGCTCTCGCCCTCTGGCGGCTCCAGCGCTGGTCCTTCCCCGTGGCCCTGTTCGCCGGGCTCTCGGCTGTTTTCCCGTTCGCCACAGTGGTTTTTGAGCGCTGGGCCGGAAAACGCGGACACCTCAGCGAAAACGAGACAGTTGCGGAAGACTCGCTGGAAACGGCCGGCGTCTAG	MKMPLKTAVIRAFRILAIAEAVSWAALLVGMWFKWIAKTSELGVEIAGPVHGALFVGYGIAALALWRLQRWSFPVALFAGLSAVFPFATVVFERWAGKRGHLSENETVAEDSLETAGV				NA	NA	NA	NA	NA
D1-29_01756	753			putative protein	ATGGCGAAATCCCCTGATTCCAGCAGCAGCACTCCCGCGGCAAGTGACGCCCCGAAGCGTGGCCTTTTCTCGCGCAAGCCAAAAGAAGCAAAAGTCAAGAAGCCAAGCCGGCTAAAGCAGATCGGCGAAGTCTTCAACATGACCCGCCGCCACGATCCCATGGTCCCGTGGCTGATGCTGCTGGTGTTCCTCGGCGTTGTGGCCGTCAGCTTCCTGGTGGGTTTCTGGCTGGAGAACTGGATCACCGGCCTCATCATCGGCATCCCGCTGGGCCTGCTCGGCGCCACGCTGATCCTGTCCAGGCGGGCCGAACGTGCCGCGTTTGCCCAAATCGAGAACCAGCCCGGCGCCTCCGGTGCCGCCCTCGGCACGCTGAAGCGCGGCTGGATCACTGAGGATCAGCCCGTATCGGTGAACCCGCGCACCCAGGATGCCGTGTTCCGCGCCATCGGCCGCCCGGGAGTTGTCCTGGTCAGCGAAGGGCCCAGCCACCGGGTCAAGCCGCTCATTGAGGCGGAACGCAAGCGCCTCGCGCGGATCCTCCCCAACGTCACCATCCATGTGATCGAAAGCGGCCGTGGCGAGGGACAGGTCCCCATCAGCCAGGTAGCCAAGAAAATGGGCAAGCTGAACAAGGAACTCACCAAGCTCGAGGTCAACGCCGTCTCCAAGCGCATTTCCTCGCTGGGCAGCCGCCTCCCCATCCCCAAGGGCATCGACCCCTACAAAGCGCGTCCCAACCGCGGACGCTAG	MAKSPDSSSSTPAASDAPKRGLFSRKPKEAKVKKPSRLKQIGEVFNMTRRHDPMVPWLMLLVFLGVVAVSFLVGFWLENWITGLIIGIPLGLLGATLILSRRAERAAFAQIENQPGASGAALGTLKRGWITEDQPVSVNPRTQDAVFRAIGRPGVVLVSEGPSHRVKPLIEAERKRLARILPNVTIHVIESGRGEGQVPISQVAKKMGKLNKELTKLEVNAVSKRISSLGSRLPIPKGIDPYKARPNRGR				NA	NA	NA	NA	NA
D1-29_01757	1008	lipA_1	COG0320	Lipoyl synthase	GTGACACTGGCACCAGAAGGCCGGAAGATGCTGCGCATCGAACAGCGCAACGCGGCCACCCCGGTGGAACGGAAGCCGGACTGGATCAAGGCCAAGGTCCAGATGGGTCCCGAGTTCGTCCAGCTGAAGAACCTGGTCAAGAAGGAAGGCCTGCACACCGTGTGTGAGGAGGCCGGCTGCCCGAACATTTTTGAGTGCTGGGAAGACAAGGAAGCCACGTTCCTGATCGGCGGGTCCGAGTGCACCAGGCGCTGTGACTTCTGCCAGATCGACACCGGCAAGCCCTCGCCGGTGGACATGTTCGAACCCACCAAGGTGGCCCGGTCCGTGCAGGCCATGCAACTGCGCTACGCCACCGTCACCGGCGTGGCCCGGGATGACCTCGCCGACGAAGGCGTCTGGCTGTACGCCGAGACGGTCCGCAAGATCCACGAACTGAACCCGGGCACCGGCGTCGAGCTTTTGATCCCGGACTTCTCCGGCAAGCCCGAGCACATCGAGGCGATCTGCGATTCAAAGCCTGAGGTGTTCGCGCACAACGTCGAAACCGTGCCGCGGATCTTCAAGCGCATCCGCCCGGCCTTCCGCTATGACCGGTCCCTGGATGTCATCACGCAGGGCCGGAACCTGGGCATGGTCACCAAGTCCAACCTGATCCTTGGCATGGGTGAAACCCGTGAGGAAATCTCCGAAGCCCTCCTTGACCTGCACGAGGCAGGCTGTGACCTGATCACCATCACCCAGTACCTGCGCCCGAGTGAACGGCACCTTCCGGTGGACCGCTGGGTCAAGCCGCAGGAATTCGTGGACCTCCAGGACGAAGCGATCGAGATGGGCTTCCTGGGTGTGATGTCCGGGCCGCTGGTCCGCTCCTCCTACCGTGCCGGCCGGCTCTGGGCCACAGCGATGCGCAAGAAAGGCTGGGAAGTCCCGGCCGAACTGGCGCACATCGAATCCTCGGGCAGCACCCGCCAGGAAGCCAGCTCACTGCTCGCAGCGCACTCCTGA	MTLAPEGRKMLRIEQRNAATPVERKPDWIKAKVQMGPEFVQLKNLVKKEGLHTVCEEAGCPNIFECWEDKEATFLIGGSECTRRCDFCQIDTGKPSPVDMFEPTKVARSVQAMQLRYATVTGVARDDLADEGVWLYAETVRKIHELNPGTGVELLIPDFSGKPEHIEAICDSKPEVFAHNVETVPRIFKRIRPAFRYDRSLDVITQGRNLGMVTKSNLILGMGETREEISEALLDLHEAGCDLITITQYLRPSERHLPVDRWVKPQEFVDLQDEAIEMGFLGVMSGPLVRSSYRAGRLWATAMRKKGWEVPAELAHIESSGSTRQEASSLLAAHS	PGPT0003935_1247	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
D1-29_01758	669	lipB	COG0321	Octanoyltransferase	ATGACTCTTGAGTTTTCCACGCTGGGTCTTGCACCGGATTTCGTTGATTACATGAAGGGCTGGGACATCCAGCGCGAACTCCATGACAAAGTCGTCGCAGCCGGGGCGCCCAGCACAGTCCTCATCCTTGAACATGCCGCCGTCTATACAGCCGGGAAGCTGACAGAAGAGCACGAACGTCCATTTGACGGGACGCCCGTGGTGGCCGTTGACCGTGGCGGCAAACTCACCTGGCACGGGCCTGGCCAGCTGGTGGCCTATCCAATCCTCAAGCTGAAAAACCGGTCCGGCATCCGTGACTACGTTGAGCGGCTGGAAGCCATGATGATCGCCGTCATGGCTGATTACGGCATCAACGCAGAGCGCATCAAGGGGCGCGCAGGCGTGTGGATTAAGGCTGACAGCAAGGGCCCGGACCGGAAGATCGCCGCCATTGGCATCCGCGTCCTGGACGGGGTCACAATGCACGGAATTGCCATCAACTGCAACAATGATCTGGCACCTTATGCCCAGATCATCGCCTGTGGCATCACCGACGCCGGCGTCACCACGATGTCCATCGAAGCCGGCAGGAACATCTCCCCGGGCGATATCGCGGACCGGCTCGTCGAAGAATTCCGCAAGCATGAAGAAGCACTCGTTTCAAGCCCCGAAGGAGCTCTACTGTGA	MTLEFSTLGLAPDFVDYMKGWDIQRELHDKVVAAGAPSTVLILEHAAVYTAGKLTEEHERPFDGTPVVAVDRGGKLTWHGPGQLVAYPILKLKNRSGIRDYVERLEAMMIAVMADYGINAERIKGRAGVWIKADSKGPDRKIAAIGIRVLDGVTMHGIAINCNNDLAPYAQIIACGITDAGVTTMSIEAGRNISPGDIADRLVEEFRKHEEALVSSPEGALL	PGPT0003925_2327	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
D1-29_01759	1956			hypothetical protein	ATGGATGATTTCAGTGTCCCCGATGTACCCGGCTTTACCGTGGGGCGGGAACTGGGCCGGGGCGCGAGTTCCAGTGTTTGGCTGGTTACCGAAGCACGCTCCGGCCGGGATTTTGCGCTGAAATGCCTGCTGGCAGAATCGCCCCCCGATGGCCTCTCCGAGGTTGCCACCCAGGAGGAGGCAGTCCGTCGTGAAATCCGCATCCTCTCCGTGCTCGATCACCAGCACCTCATCAAGGCCCACGACGTTGTGAGCCTTTCGCTGGAGCGCCCGCGCCCTGCTGCTCCGGCCACCCCTGGGGCTCCCGGCACTCCCGCTGCTCCTGACACTCCTGCTGGTCCCGGTGCAGGCGGCCCCGGCCCGGGCCTGGGACTGCTAATGGAATATGCCCCGGGGGGCTCCCTGGGCCAACTGGTGAGCAGCCGCGGAAAGCTCACAGTAGGCGAAACGGTGACGGTATTGACGCCCATTGCCCAGGCTCTTGGATATCTTCACGGCAGGGGTTTTACGCACTCCGATGTCTCACCCGGAAACGTGCTTTTCACAGGCCACGGCAAACCCATGCTCGCCGACTTGGGGGTTGCCCGGCTGGTGGGGGATGCCGCGGCCGTTGCCTGGGACGGAACGGACGGGTTTATGGATCCGGCCCCCATCGATACCATGCGGGCAGGTCTCCAGCCGGAGCGTGACGTGTATTCGGTGGCTGCGCTGGGGTGGTTTTGCCTCACCGGCGAGCCGCCCAGGAGAACTGCGGACCGGCCGCCACTGCCCCTCCTGCGCCCCGACGTCCCGGCAGAGCTTGCCGCGGCGTTGGAGTCCGGCCTCAGCGACGACCGGCGGCTGCGGCCCACGGCCTTTGAACTGGCCACGTCCATTTACCGCAGTGCCGCACCGCTGCCGGTTGACCTCGCCGGGTCGGTCCATGCGACCGTCATTCCTGAGCTGTTGACCAGGCGCCGCATCCCTGACCGTCCTGGCAGCGCGGCAGGCAAAACTCTCCGCTCCTGGCATCGAAGGCTCTCAACGTCGCGATGGTCCGGCCTGCTTGGTGCCCGGCAGGTCCTGCCCTTTCCCGTGGGAACCGAGCCTGCAGCCGCTCCTCCCATGGGAAAGGAACGGGTCGCTACTCGTCCAACAGACGAGCCGGCCGCCACTCCTCCAGCACGGGACGAGCCGGCCGGCACTCCTCGAACACGGGACGAGCCGGCCACCACTCCGCCGCAGCATGACCGAACTGCTCCGGCTGTGCGGGGAAGGCATTCCACGCGGGGAACCCAGAGCCGCCAGGAGTTTCAGGTGAGGACGGCTTTGCAGAACCGGTCGGTGATGCCCCGGGAAGGCCGCCCCCGGGGGATCCTGCAGCCGGCGGGGGCAGCCGTGGCGGTATTGGCGGGCGCCATTTGGGCCGCTGGTGCCTTTGGACCCGCCGGCGCAGGGCCATCGCTTACCGCCGGCAACAGTGCGCCCTCTGCGCGCCCGCAGCCAGCCGCGGATGGGTCCGATCCCACGGGGAGGACCGGAACCTCTGGGGACCTGGATATACCGGAAGACGTCGCCGCCCAGCTTCATTCGGCCAACCCGGCCGAAGCTGTGCATGCGCTTGCGTGGATCAGGGCCCGGGCCTTCAGTTCCGGGCGCCTGGAGCTTCTCGACCAGGTTAATGCCCCCGGTTCGGCCGCCTTTGCCGCAGATGAGCGGGTCAGGGTGCGGCTGAGGGATTCGGGCCATGTCCTGGCCGGTTTCACCAGCACGATCTCCCGTTCAGATGTCCAGCCGGGGCACTCGTCCAGCCGTGCCGTGGTTACTGTCACCTCCGCAACGTCCTCCTATCAGGAAACGGACGGAACGGGGGCGATCGTGGCCGCGGCGCCGGCGGGGGCGGCCCAGGAGCTACGGTTGGTGCTTGTATCCGCCAATGGGCGCTGGCGTCTTGCGGAAATTCTGCCCGGGCCCTGA	MDDFSVPDVPGFTVGRELGRGASSSVWLVTEARSGRDFALKCLLAESPPDGLSEVATQEEAVRREIRILSVLDHQHLIKAHDVVSLSLERPRPAAPATPGAPGTPAAPDTPAGPGAGGPGPGLGLLMEYAPGGSLGQLVSSRGKLTVGETVTVLTPIAQALGYLHGRGFTHSDVSPGNVLFTGHGKPMLADLGVARLVGDAAAVAWDGTDGFMDPAPIDTMRAGLQPERDVYSVAALGWFCLTGEPPRRTADRPPLPLLRPDVPAELAAALESGLSDDRRLRPTAFELATSIYRSAAPLPVDLAGSVHATVIPELLTRRRIPDRPGSAAGKTLRSWHRRLSTSRWSGLLGARQVLPFPVGTEPAAAPPMGKERVATRPTDEPAATPPARDEPAGTPRTRDEPATTPPQHDRTAPAVRGRHSTRGTQSRQEFQVRTALQNRSVMPREGRPRGILQPAGAAVAVLAGAIWAAGAFGPAGAGPSLTAGNSAPSARPQPAADGSDPTGRTGTSGDLDIPEDVAAQLHSANPAEAVHALAWIRARAFSSGRLELLDQVNAPGSAAFAADERVRVRLRDSGHVLAGFTSTISRSDVQPGHSSSRAVVTVTSATSSYQETDGTGAIVAAAPAGAAQELRLVLVSANGRWRLAEILPGP				NA	NA	NA	NA	NA
D1-29_01760	921		COG1090	Epimerase family protein	GTGGCGCCCCGCATGGTGAGATGGTTTATGCGAATCGTGATTGCCGGCGCCTCCGGGCTGATCGGGACCCAGTTGTCCGTCTCCCTGCGTGAGGCCGGCCACGACGTCGTGCCGCTTGTCCGGCGGGCGCCGTCCTCGGCATCGGAGGTCCGCTGGGATCCCGACGCCGGCCGGCTGGATCCCAGCGTATTGGCCGCTTCCGATGCGGTGATCAACCTCGCGGGTGCCGGCATCGGCGACCGACCGTGGACGCGCCGCCGGGTAGAGGACCTGTTCAGTTCACGGCTGCAGGCTACCCGGACCCTGACCGGGGCGATGAAAAGTCTGGATGATCCGCCGCGGGTTTTCGTGAGCCAATCGGCATCCGGCTACTACGGTGACGCGGGTACGGCACTTCTTGGCGAAGGGTCATCCCCCGGTGCAGGCATCCTGGCCCGGTTGTGCCTCGAGTGGGAGGCAACTGCACACTCGGCACCGACAGGAGTGCGCGTCCTGACTCCCCGCACCGGTGTGGTTCTCAGCCCGTCAGGCGGAGCTCTGGGCAGGCTTCTGCCGCTGCTCCGGCTGGGGCTGGGCGGCCCGCTGGGACCCGGCAGGCAGTTCTGGCCCTGGATTACCCTCCCGGATGTCGCGGCCGCCTTCCTGTTCCTGATCCGCTCCACGCTGCACGGCCCGGTCAACGTCTGTGCACCGGAAACGGCTGATGTAAATTCTCTGGTGGCTTCACTTGCACAGGCCCTGCACCGGCCCGCCGCTCTCCGGGTGCCGGCACCCGCGCTGCGCCTTGTCATGGGAAAGCTCGCGGACGAACTGCTGCTGCCGAGCCAGCGGATGGAACCCCGGGTCCTGTCGGACGCCGGCTTCAAGTGGCAGCATCCGACGCTCCAGCAAGCCGCTGCCTGGGTGGCGGCCAAGGACTGA	MAPRMVRWFMRIVIAGASGLIGTQLSVSLREAGHDVVPLVRRAPSSASEVRWDPDAGRLDPSVLAASDAVINLAGAGIGDRPWTRRRVEDLFSSRLQATRTLTGAMKSLDDPPRVFVSQSASGYYGDAGTALLGEGSSPGAGILARLCLEWEATAHSAPTGVRVLTPRTGVVLSPSGGALGRLLPLLRLGLGGPLGPGRQFWPWITLPDVAAAFLFLIRSTLHGPVNVCAPETADVNSLVASLAQALHRPAALRVPAPALRLVMGKLADELLLPSQRMEPRVLSDAGFKWQHPTLQQAAAWVAAKD	PGPT0014730_2964	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
D1-29_01761	3498	tri1	COG0793	Tricorn protease	ATGACCTCTTCGAGTTACCTCCGCTTTCCGCATGTCCACGGCGATCTGGTTACTTTCGTGGCCGAGGACGACGTCTGGATTGCGCCCCTGGGCGGCGGCCGTGCCTGGCGGGTTTCCTCGCTCCAGCTCCCCGCCCGCAACCCCCGTTTCACACCTGACGGCAAGCGGCTCGTCTGGACCGTGGTCCAGGGCACGGCGCCTGAAGTGGTCACGGCGGAGGTCGACGGCGGCGGTTACCGGCAGCTGACCTATTTCGGGCACAGCAGCACCCGGGTCAAGGGCTTCACCGCCAACGGCTCCGTTATCGTGACCAGCGCCTTCCGCCAGGCTGAAAGCCGGCATACCTATGCCTACAGCCTCCCGGTGGATGGCGGATGGGCTGAGGAGCTTCCTTTTGGCCCCGTTGAATCCGTCGCCTTTGGACCGGAAGTCGGCGACGAGCGCCCCGTAGTCCTGGGCAGCGTTCTCTCCCGCGAACCTGCCTGGTGGAAGCGCTACCGCGGCGGCACAGCCGGCAAGCTGTGGATCGACACCGACGGCAACGGGGAGTTTGAGCGCCTCGTTCCGGAACTGGACGGAAACCTCACGGACCCCATGTGGGTGGACGGCCGGATCGCGTTCCTCTCCGACCATGAAGGGTACGGAAACCTGTACTCCGTCAAGCCAGGCGGAGGGGACCTGCGCCGGCACACTGACCATGAGGACTTCTACGTCCGGCATGCCTCCACCGACGGCCAGCGGGTCATTTTCGAATCGGCCGGCGAGCTGTGGCTCCTCAACGACCTTGAGTCAGAAGCCGTACGGCTGGACATCTCACTGGGTTCGGCCTCCCAGTCCCGGCGGCCGGGCCTCCTGAAGGCCTCGCAGCATCTCGGTGCGGTGGTTCCGGATGCCACCGGGTCCGCCAGTGCCGTAGAGGCCCACGGGACGATCCACTGGATCAGGCACAAGGACGGCCCGTCCCGCATCGTGGAGGCCACCCCCGGTGTCCGGGCCAGGCTTCCCCGGCCGCTCGACGGCGGCCGGCTCGCCTATATAGCCGACCACGACGGCGTGGAGGCCCTCTACATCAGGGAGATCGCCGCCCGGCTCCCCGGCGTCGCAGCCCCTGCCGGGGCGCAGGCTCCCGCGCCGGTTACACCAGCAGCTCCGCCGCAGAGTACGGACGCTGCGCTTCCCCGTCCGGTCCCTGCGGCCGGCGGCACGGGCCAGGTCCACGCCAGCGCAGTTGCTCCCGTCCCTGACGATTCAAGGGCCGATGTCGCCCCCGACCCGGCAGAATCACCGGCGGATGCGCAGGAGGCGCCCGCGGCCGCCCGCATCGACTTTCCGAAGCCCTCACGAGCCAGCGCCATGGAATCCAGCCCGGATGGCCGTTGGCTTGCCGTGGGCACGTCCTTTGGCGACGTGTATGTTGCCGATACCGCTTCCGGAAAGCTGTCCCTGGTAGCCAGCATCGGCGAAGGCACCATTGCGGAACTGGGCTGGTCGCCGGACTCCTGCTGGCTGGCCTGGTCCGAGCCGGTAACGTCCTTCGGCTCCAGGAGCAGGCTGCGCCTTGTCAACGTCTCCGACGCCGACGGCGGCGTAGTTGACGTTACCGACGGCCGCTTCTGCGACACATCCCCGGCCTTCACCCCGGACGGAAAGTTCCTGGCCTTCCTGTCCAACAGAAGCTTCGATCCGGTTTACGACGGACATTCATTCGACCTGTCCTTCCCCAGTCCCATCAAGCCCTATCTGGTGGCCCTGGCAACAGACACTCCATCCCCGTTCGGTCCGGCCGTAGACCTGGACGAGTCTGAGAACGGTCCTGGCAACAGCGGGAGTGCTGACAGCAGTGAAGCGGAAACGGAAGCCGGGGAGGCCGCCGCAGTGCGGGTCGATCCTGAAGGCCTGGCCCACCGCGTGATCGGCGTCCCGGTGCCGCAGGGCAACTACACGGCGCTGAAGACCACTGAGGGTGCACTGCTCTGGCTGGACTGGGCGCTGGCCGGGGTGACGGGTGACGGCAAGGCAAGCCAGGACGACAAGGACGCCCGCCCCAGCCTGGTCCGGTTCGACCTCGCCCGGCGCAAGTCATCCACCTTGGTGGAGGCGTTGGCCAGCTACCGGCTGTCAGGGGACCGCAGGAAGGTGGTGCTGGTCCACGACAAGCAGGTGATTGTGGTGCCTGCCGACGCGAAAGCCGATGAAGACTCAGGTCAGGTGGTCAAGGTGGACCTTGGCCGGATCAGGGTGATGATGGAGCCGCTCAGTGTCTGGGGCCAGGCATTTGACGAGGCCTGGCGCCTGCAGCGGGACTTCTTCTGGGCTGAGGACATGGCCGGCCAGGACTGGGAGTCAGTACACAAGCGCTACAGGCCCCTGGTGGACCGCCTCGGATCCCACGACGACCTCATCGACCTTCTGTGGGAACTCCACGGCGAGCTGGGGACTTCACACGCCTACGTCAAGCCTGCGCCGGTCACTGAAAATGGCAGCAACGGCCAGGGCAGGCTCGGTGCTGACCTCGCCTTGACGCCGGCAGGCTGGGAAATCACCCGCATCCTGGCCGGTGAATCCTCCGATCCGCTGGCAACCTCACCCTTGACCCGCCCGGGGGCGGGGGCCAAAGCCGGTGACGTGGTGCTGGCCATCGACGGAGTGCCCCTCTCGGATTCCGTCACCCCGGCGATGTTGCTCGTGGGCGCGGCCGGCCGTGCCGTGGAGCTCACCCTCAGCAACGGAGCCGGGCATGGAACAGAGGCAGGCAGGCAACGGCGCATCGCTGTTGTCCCCATCAAGGATGAAGAACGCCTGCGCTACCAGGAGTGGGTTGCCGGCAACCGCCGCACGGTCCGGGAAGCATCACACGGAACGTTTGGATACCTGCACATCCCTGACATGATGGCCAACGGCTGGGCGCAGCTCCACCGGGACCTGGACACGGAGACGGCCCTGGATGGACTGATTGTCGATGTCCGGCGGAACCGTGGCGGACACACCTCGCAGCTGGTGGCCGAACTGATTGGCCGGAAAGTGACGGGCTGGAGCATGCCCCGCGGAGAACGGCCCAGGACGTATCCGCATCACGCTCCCCGTGGCCCCGTAGTCATCCTCGCCGATGAGTTTGCCGGGTCCGACGGCGACATCATCACCCAGGTATCCAAGCTGCGGGGAATCGGACCCGTCATTGGTACCCGCACCTGGGGCGGTGTGGTGGGCATCGACAACCGGTTCTCGCTCGCTGACGGTACAGGGGTCACCCAGCCGAGGTACGCGAACTGGTTCACCGGCGGCGTTGGATGGAGCGTGGAGAACTATGGCGTGGACCCGGACATCGAGGTGACGTACCCGCCCCATGCGTACGCCGCCGGCCGTGACCCGCAGCTCGAATACGGGATCGGCGCACTCAAGGAAATGATCCAGGAACTGCCCACCGACAGGCCACCGGTCCGTGAGGGTTACCGCAGCCTCCGGCCCGCCCCGCTCCCGGCCCGCAAGCCAGTGGTCTAA	MTSSSYLRFPHVHGDLVTFVAEDDVWIAPLGGGRAWRVSSLQLPARNPRFTPDGKRLVWTVVQGTAPEVVTAEVDGGGYRQLTYFGHSSTRVKGFTANGSVIVTSAFRQAESRHTYAYSLPVDGGWAEELPFGPVESVAFGPEVGDERPVVLGSVLSREPAWWKRYRGGTAGKLWIDTDGNGEFERLVPELDGNLTDPMWVDGRIAFLSDHEGYGNLYSVKPGGGDLRRHTDHEDFYVRHASTDGQRVIFESAGELWLLNDLESEAVRLDISLGSASQSRRPGLLKASQHLGAVVPDATGSASAVEAHGTIHWIRHKDGPSRIVEATPGVRARLPRPLDGGRLAYIADHDGVEALYIREIAARLPGVAAPAGAQAPAPVTPAAPPQSTDAALPRPVPAAGGTGQVHASAVAPVPDDSRADVAPDPAESPADAQEAPAAARIDFPKPSRASAMESSPDGRWLAVGTSFGDVYVADTASGKLSLVASIGEGTIAELGWSPDSCWLAWSEPVTSFGSRSRLRLVNVSDADGGVVDVTDGRFCDTSPAFTPDGKFLAFLSNRSFDPVYDGHSFDLSFPSPIKPYLVALATDTPSPFGPAVDLDESENGPGNSGSADSSEAETEAGEAAAVRVDPEGLAHRVIGVPVPQGNYTALKTTEGALLWLDWALAGVTGDGKASQDDKDARPSLVRFDLARRKSSTLVEALASYRLSGDRRKVVLVHDKQVIVVPADAKADEDSGQVVKVDLGRIRVMMEPLSVWGQAFDEAWRLQRDFFWAEDMAGQDWESVHKRYRPLVDRLGSHDDLIDLLWELHGELGTSHAYVKPAPVTENGSNGQGRLGADLALTPAGWEITRILAGESSDPLATSPLTRPGAGAKAGDVVLAIDGVPLSDSVTPAMLLVGAAGRAVELTLSNGAGHGTEAGRQRRIAVVPIKDEERLRYQEWVAGNRRTVREASHGTFGYLHIPDMMANGWAQLHRDLDTETALDGLIVDVRRNRGGHTSQLVAELIGRKVTGWSMPRGERPRTYPHHAPRGPVVILADEFAGSDGDIITQVSKLRGIGPVIGTRTWGGVVGIDNRFSLADGTGVTQPRYANWFTGGVGWSVENYGVDPDIEVTYPPHAYAAGRDPQLEYGIGALKEMIQELPTDRPPVREGYRSLRPAPLPARKPVV				NA	NA	NA	NA	NA
D1-29_01762	429	osmC	COG1764	Peroxiredoxin OsmC	ATGGCAGCAACACGCACCGCACACACAGTATGGAACGGCGACCTGATGAAGGGTTCCGGCCAGACCACGCTGGACAGCTCAGGCCTCGGCACCTTTGACGTCACCTGGAAGGCACGCACCGAAGCCGCCGAAGGAAAGACCAGCCCGGAGGAACTGATCGCCGCTGCGCATGCCAGCTGCTACTCCATGGCGTTCAGCAACATGCTGGCCCAGGCCGGCCACGCACCGGAAGAGGTCAACACCAAGGCTGACGTCACGTTCGTTCCCGGAACCGGTATTACGGGCAGCCACCTGACCGTGTCCGCGCGGATCCCCGGCATCGGCGAAGACGAATTCCAGAAGATCGCCGGTGAGGCGAAGACCGGCTGCCCTGTTTCGGGAGCACTCGCGAGCATCGACATCACCCTGGACGCAACACTGCAGTCCTGA	MAATRTAHTVWNGDLMKGSGQTTLDSSGLGTFDVTWKARTEAAEGKTSPEELIAAAHASCYSMAFSNMLAQAGHAPEEVNTKADVTFVPGTGITGSHLTVSARIPGIGEDEFQKIAGEAKTGCPVSGALASIDITLDATLQS	PGPT0013160_1414	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
D1-29_01763	351			hypothetical protein	ATGGACATCCTGTATAACGTCATGGTCTTCCTCCACATTGTCGGCGCTGCCATGGTTGTGGGGATCTGGATCGGCAACATGAAGAAGCCCACAGTCCACCCACGCCAGTTCGACGGCGCGGCAACCCAAGTCATCACGGGCGGCGCGATGATGGGACTGATCCCGGCCCTGGCCATGGACGCCAATTACACGAAGCTGGGGATCAAGTTGGCCATTGGCCTTGCCGTTGCGGTATTGGCCTTTATCGGCAGCCGCAAGTACAAGAAGGGTGAACCCATCAGCAAGGGCCTCGCCCACAGTGTAGGCGGCCTTGCCCTCCTCAACGTGGCCATTGCCACGCTCTGGAACTAA	MDILYNVMVFLHIVGAAMVVGIWIGNMKKPTVHPRQFDGAATQVITGGAMMGLIPALAMDANYTKLGIKLAIGLAVAVLAFIGSRKYKKGEPISKGLAHSVGGLALLNVAIATLWN				NA	NA	NA	NA	NA
D1-29_01764	1794	aceF	COG0508	Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGTCTGAATCCGTTAACTTGCCCGCCCTCGGTGAGAGCGTCACCGAAGGAACCGTCACCCGCTGGCTCAAGCAGGTAGGTGACCGGGTAGAAGTGGACGAGCCGCTGCTCGAGGTTTCCACCGACAAAGTAGACACCGAAATCCCCTCTCCGATAGCCGGCGTCATCGAGGAAATCCTCGTTGCCGAAGACGAGACCGCCGAAGTGGGCGCTCCCCTGGTCCGCATCGGCGACGGTTCCGGATCCAACGGCACCAGCCCTGCTGCTGCAGCAGCCCCTGCTGCTCCGGCGGAAGAAGAAGCTCCAGCTGCTCCTGCAGAGGAGGCAGCCCCGACTGCTCCGGCTGAAGCAGCTGCCCCCGCCGCGCCTGCCGAAGAAGCAGCGCAGGCACCCGCAGCCGGTGGCGACAGCCACGAGGTCACCTTGCCCGCTCTCGGTGAGAGCGTCACGGAAGGCACCGTGACCCGCTGGCTCAAGGCCGTTGGCGACTCCGTTGAGGTTGATGAGCCGCTGCTTGAGGTATCAACTGACAAAGTAGACACCGAGATCCCGTCCCCCGTGGCCGGAACGCTCCAGGAAATCCGAGTCAACGAGGACGAAACCGCCGAGGTGGGCGCCGTTCTCGCCGTTATCGGCTCCGGTGCCTCAGCCCCCGCCGCCGCACCCGCCCCCGCTCCGGAAGCGCAGCAGGAGGCGCCCGCGGCTCCCGCAGCCCCGGCTGCAGCAACTGAGGCCGAAGCACCCCAGCAGGAGGCACCGAAGCAGGAAGCCGCACCGGCTGCTGCTCCCGCTCCGGCAGCCGCTCCGGCACCTGCTGCTGCTCCGGCACCTGCCGGCGCACCTGCTGCCAATGGCTCCGACTCCGGTTACGTCACTCCCCTGGTCCGCAAGCTGGCCAACCAGCAGGGTGTGGATATCTCCTCCCTGACCGGCACCGGTGTGGGTGGACGCATCCGCAAGCAGGACGTCCTCGCAGCCGCAGAAGCAAAGGCTGCGCCCGCTGCAGCCGCTGCCCCTGCTGCTCCGTCGGCACCCGCTGCTCCTGCCGCCGCCGCTCCCGCCGCTTCATCCCTGCGCGGCACCGTGCAGAAGGCCCCGCGCATCCGCCAGGTCATCGCCCGACGGATGCGCGAATCCCTTGAAATCTCGACGCAGCTGACGCAGGTGCACGAGGTGGACATGACCAAGATCGCCAAGCTGCGCCTCAAGGCCAAGAACTCGTTCCAGGCCCAGAACGGCGTCAAGCTCACCTTCCTGCCGTTTATTGCCAAGGCCGTTGCCGAGGCATTGAAGCAGCACCCGAAGCTTAACGCCGCCTACGACGAGGACAAGCAGGAGATCACGTACCACAACGCCGAGCACCTGGCGATCGCTGTGGACACGGACAAGGGACTCCTGGTGCCCGTGATCGCGGATGCCGGAAGCCTGAACCTGGCCGGCCTGGCCGGGAAGATCGCGGACGTTGCCGGCCGCACCCGCGGCGGGAAGATCGGACCGGACGAACTGTCCGGCGGAACGTTCAGCATCACCAACATCGGCTCAGTCGGGGCACTGTTCGACACCCCGATCATCAACCAGCCACAGGTGGGGATCCTGGGCACCGGCGCCATCGTCAAGCGAGCCGTCGTTGTTTCCGACGAAAACGGTGACGATTCCCTCGCCATCCGGTCCATGATGTACCTCTCCCTGACCTACGACCACCGCCTGGTGGACGGGGCCGATGCAGGCCGCTTCCTCCAGACGCTGAAGGCCCGCCTTGAAGAAGGTGCCTTCGAAAGCGACCTGGGCCTCTAG	MSESVNLPALGESVTEGTVTRWLKQVGDRVEVDEPLLEVSTDKVDTEIPSPIAGVIEEILVAEDETAEVGAPLVRIGDGSGSNGTSPAAAAAPAAPAEEEAPAAPAEEAAPTAPAEAAAPAAPAEEAAQAPAAGGDSHEVTLPALGESVTEGTVTRWLKAVGDSVEVDEPLLEVSTDKVDTEIPSPVAGTLQEIRVNEDETAEVGAVLAVIGSGASAPAAAPAPAPEAQQEAPAAPAAPAAATEAEAPQQEAPKQEAAPAAAPAPAAAPAPAAAPAPAGAPAANGSDSGYVTPLVRKLANQQGVDISSLTGTGVGGRIRKQDVLAAAEAKAAPAAAAAPAAPSAPAAPAAAAPAASSLRGTVQKAPRIRQVIARRMRESLEISTQLTQVHEVDMTKIAKLRLKAKNSFQAQNGVKLTFLPFIAKAVAEALKQHPKLNAAYDEDKQEITYHNAEHLAIAVDTDKGLLVPVIADAGSLNLAGLAGKIADVAGRTRGGKIGPDELSGGTFSITNIGSVGALFDTPIINQPQVGILGTGAIVKRAVVVSDENGDDSLAIRSMMYLSLTYDHRLVDGADAGRFLQTLKARLEEGAFESDLGL	PGPT0001390_1478	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
D1-29_01765	1383	pdhD		Dihydrolipoyl dehydrogenase	GTGGCCGATCAGGCAACTGCGCAAGAATTCGACATCCTGGTACTCGGTGGCGGCAGCGGCGGATACGCCACCGCCCTGCGGGCCGTACAGCTTGGCTTCACCGTGGGCCTCGTGGAGAAGGGCAAACTCGGTGGCACCTGCCTCCACAACGGCTGTATCCCCACCAAGGCCCTGCTTCACTCGGCCGAACTGGCCGACCACGCCCGTGACTCCGCCAAGTATGGCGTGAACGTCACCCTCGACGGCATCGACATCAACGCCGTCAACGCGTACAAAGACGGCATCGTCGCCGGCAAGTTCAAGGGCTTGCAGGGACTCATCAAGTCCAAGGGCATCACCGTCATCGAAGGTGAAGGCAAGCTTCAGGGCACCGACACCGTTGTAGTGAACGGCACCGCCTACAAGGGCAAGAACATCGTCCTCGCCACCGGCTCCTACTCCCGGTCCCTCCCCGGCCTGGAAATCGGCGGACGCGTCATCACCTCCGACGAAGCCCTCGTCATGGACTACATCCCCAAGAGCGCAATCGTGCTCGGCGGCGGCGTCATCGGCGTCGAATTCGCCTCAGTATGGAAGTCCTTCGGCGTAGACGTCACCATCGTCGAGGGCCTGCCCTCACTGGTTCCCAACGAGGACACCGCCATCGTGAAGAACCTGGAGCGCGCCTTCAAGAAGCGCGGCATCAAGTTCTCCACCGGTATCTTCTTCCAGGGCGTCGAGCAGAACGACTCCGGAGTCAAGGTCACCCTGGTGGACGGGCAGACGTTCGACGCCGAACTCCTCTTGGTAGCTGTTGGCCGCGGCCCCGTCACGGCCAACCTCGGTTACGAAGAGGCCGGCGTCACCATTGACCGCGGCTTCGTCATCACCAACGAGCGCCTGCACACCGGCGTGGGGAACATCTACGCCGTGGGTGACATCGTCCCCGGCGTCCAGCTCGCGCACCGCGGCTACCAGCAGGGCATCTTTGTTGCCGAGGAGATCGCGGGCCTTAAGCCCGTCATCGTTGAAGACGTCAACATCCCCAAGGTCACCTACTGCGAACCTGAAATCGCGACGGTGGGCTATACGGAGAAGGCCGCAAAGGAAAAGTTCGGCGACGACCAGATCCAGATCCAGGAATACAACCTGGCCGGCAACGGCAAGAGCTCCATCCTGGGCACCGGCGGCCTGGTCAAGCTGGTCCGCCAGAAGGACGGCCCCGTGGTGGGTGTGCACATGATCGGTTCCCGCATGGGCGAGCAGATCGGTGAAGCCCAGCTCATCGTGAACTGGGAAGCCTACCCGGAGGACGTGGCCCAGCTGGTCCACGCGCACCCCACGCAGAACGAGGCCCTGGGCGAAGCCCACCTGGCACTCGCGGGCAAAGCCCTCCACGGCTAA	MADQATAQEFDILVLGGGSGGYATALRAVQLGFTVGLVEKGKLGGTCLHNGCIPTKALLHSAELADHARDSAKYGVNVTLDGIDINAVNAYKDGIVAGKFKGLQGLIKSKGITVIEGEGKLQGTDTVVVNGTAYKGKNIVLATGSYSRSLPGLEIGGRVITSDEALVMDYIPKSAIVLGGGVIGVEFASVWKSFGVDVTIVEGLPSLVPNEDTAIVKNLERAFKKRGIKFSTGIFFQGVEQNDSGVKVTLVDGQTFDAELLLVAVGRGPVTANLGYEEAGVTIDRGFVITNERLHTGVGNIYAVGDIVPGVQLAHRGYQQGIFVAEEIAGLKPVIVEDVNIPKVTYCEPEIATVGYTEKAAKEKFGDDQIQIQEYNLAGNGKSSILGTGGLVKLVRQKDGPVVGVHMIGSRMGEQIGEAQLIVNWEAYPEDVAQLVHAHPTQNEALGEAHLALAGKALHG	PGPT0001380_8056	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
D1-29_01766	1527	pepA	COG0260	putative cytosol aminopeptidase	GTGGTCAAGAATACCGAAATTAACCTTAGTACCCTCTCACGGGACCTCAGGAAGGCGTCGTCCGACGCCGTTGTCATCGGCGTCGGACAGGGACCCGATGGACCCGTCCTCCTCGACAATCCCCTGGCAGCCAAGTCTGCCGAAGCGCTTGCTGATTCGCTGAAGGCACTCGGTGTCACGGGCGCAGCGGACCAGATCGTCAGGCTTCCCGGCCTGCCGGAGACCGGCGCCGGCGTCCTGGTTCTGGCCGGCGTGGGCAAAGTGGGCACGGACGGCACGCTGGAAGAGGAAGCACTCCGCCGGGCCGCAGGTTCCGCAGTGCGCCAGCTGGCCGGCCTGGCCACGGTTGTCATTGCGCTTCCGACGGCGGGAGTCGCCGACGTCGCGGCGCTCGCCGAAGGTGCCGCGCTGGGCGCCTATTCGTTTACGGAATACCGGACGTCCAAGAACGGCATGAAGGACCCCGTACGGAACGCGGTGATCTTTACCGAGGTTGCCGGGGACAAGGAACTCAATGCCGCCCTGACCCGCGCGGGACTGATCGGCAAGGCCGTCAATGCCACCCGGTCCCTGGTCAACCAGCCGCCGAGCCATCTCTACCCGGAGTCATTTGCCGAGGCCGCCAAGGAACTGGCCAAAGGCCTCCCCGTGAAGGTCACCGTGTGGGATGAACGGCGCCTCGAGAAGGAAGGCTTCGGCGGGATCATGGGCGTGGGCAAGGGTTCCACCCGCCAGCCCCGCCTGGTCAAGGTGGAATACGCCCCGGCCAAGGCAACGGCAAAGATCGCTTTGGTCGGAAAGGGCATCACCTTCGACACCGGAGGCATCTCCATCAAGCCGGCCCTGAACATGGGTGACATGAAGAGCGATATGGCGGGCGCCGCCGTCGTCCTCAACACTGTGCTGGCGCTCGCGGGCCTGGGACTGCCGGTCAAGGCCACCGCCTGGCTGTGCATCGCCGAAAACATGCCCTCAGGTGCCGCCTCCCGGCCGGCCGATGTGCTGACCATGTTCGGCGGCAAGACCGTCGAGGTCCTGAACACCGACGCCGAGGGACGCCTGGTGATGGCCGACGGCCTGGTGGCAGCGAGCAGGGAATACCCGGACGCGATCATCGACGTCGCCACCCTGACCGGAGCGCAGCTTATTGCCCTGGGTAACCGGACGGCCGGAGTGATGGGGTCTGACAGCGTCACGGGTCCGCTCAAGGCCGCGGCAGACCGGGCCGGTGAGCTGGTGTGGCCCATGCCCCTGCCGGAGGAACTGCGTCCCAGCCTTGACTCCCAGGTGGCCGACCTCGCCAACATCGGGGAACGCCACGGCGGCATGATGACCGCAGCCGTTTTCCTGCGCGAGTTTGTGGGCAAGGGCAAGGACGGGGAGCAGATCCCCTGGGCACACATAGACATTGCCGGCCCGTCCTTCAACAACGGCAGCCCCTACGGCTACACCCACAAGCAGGGAACGGGCAGCACAGTCCGCACCCTGGTGGCCTACGTGGAAGACCTCCTGGGCGCTGCCGCCTGA	MVKNTEINLSTLSRDLRKASSDAVVIGVGQGPDGPVLLDNPLAAKSAEALADSLKALGVTGAADQIVRLPGLPETGAGVLVLAGVGKVGTDGTLEEEALRRAAGSAVRQLAGLATVVIALPTAGVADVAALAEGAALGAYSFTEYRTSKNGMKDPVRNAVIFTEVAGDKELNAALTRAGLIGKAVNATRSLVNQPPSHLYPESFAEAAKELAKGLPVKVTVWDERRLEKEGFGGIMGVGKGSTRQPRLVKVEYAPAKATAKIALVGKGITFDTGGISIKPALNMGDMKSDMAGAAVVLNTVLALAGLGLPVKATAWLCIAENMPSGAASRPADVLTMFGGKTVEVLNTDAEGRLVMADGLVAASREYPDAIIDVATLTGAQLIALGNRTAGVMGSDSVTGPLKAAADRAGELVWPMPLPEELRPSLDSQVADLANIGERHGGMMTAAVFLREFVGKGKDGEQIPWAHIDIAGPSFNNGSPYGYTHKQGTGSTVRTLVAYVEDLLGAAA				NA	NA	NA	NA	NA
D1-29_01767	1137			hypothetical protein	ATGGAAACCCGGCTGCCGTCGGCTTCGGACGCCGCCGGGATGTCTGCGAAGCCCGTTGCCGGGCCAGTTTCGATCGTAGCCGGTATGCGTGGCGGCGGGGGAATCTTTGGAGACCTGCGCCACACCACCACACGGAATGCCCGGGCGCCCGGCAACGTTGTAAAAGGTATCCACCCGAATCCACGAAAGGAACATCCCGTGCTTGAACGGATTTCCGGCTCCCTGCTGGACCCCGATGCGCTCTACGCGAGCAACATCGAGTTGTTCCACAGCCCGGCGCTCCGCGGGCTGAACCTGGTGATGGGCTTCACCGGGTTTGCCGATGCCGGCCATGTGGTCAAGCAGATCAATGCCGAGCTGCTGGACACCCTCGACGCCGAGCCGGTGGCGGTGTTCGATGCCGACCAGCTGATTGACTACCGGTCCAGGCGGCCCCACGTCTCCTTTGTGGAGGACCACCTGCAGGACTACCAGGCGCCCCGGCTGGCGCTGTATCGGCTGATCGACGGCCTCGGAAATCCGTTCCTTCTGCTGGCCGGGTTCGAACCGGACCTTCAATGGGAGCGGTTTGCCCGCGCTGTTGTGGGGATTGTGGAAAAGCTCGACGTGAACCTCGTGACCTGGATCCACTCCATTCCCATGCCTGTTCCGCATACCCGCCCGGTAGGCGTCACCGTCCACGGCAACAGGCCGGAACTGATCGAAGGCATCTCGGTGTGGAAGCCCACGGTGGAGGTCCCGGCGGCTGTCGGCCACATCCTGGAACTCCGGCTGGTTGAGGCCGGACGCAACGTCGCGGGCTACGTGATCCACGTTCCGCACTACCTGGCCGAGGCGGAATACCCCACGGCCGCAGTGGCGGGCCTGGAATACCTTGGTGCCGCAACGTCCCTGATGCTGCCGACTGACAGGCTCCGGGAAGCGGGCCGGGAAGTGGGACGCCAAATCGCTGAACAGATTGACGCCTCCGAAGACGTGCAGCAGGTGGTATCACGGCTCGAGTCCCGCTACGACGAGAAGGCTGAGGGCACGGTCCGGAGGTCGCTCCTTGCTGATGAAAACGACCAGCTGCCCAATGGGGACGTGCTGGGGGCTGCGGTTGAGGCATACCTCGCCAGGGAAAATCCTGCCCAGTAG	METRLPSASDAAGMSAKPVAGPVSIVAGMRGGGGIFGDLRHTTTRNARAPGNVVKGIHPNPRKEHPVLERISGSLLDPDALYASNIELFHSPALRGLNLVMGFTGFADAGHVVKQINAELLDTLDAEPVAVFDADQLIDYRSRRPHVSFVEDHLQDYQAPRLALYRLIDGLGNPFLLLAGFEPDLQWERFARAVVGIVEKLDVNLVTWIHSIPMPVPHTRPVGVTVHGNRPELIEGISVWKPTVEVPAAVGHILELRLVEAGRNVAGYVIHVPHYLAEAEYPTAAVAGLEYLGAATSLMLPTDRLREAGREVGRQIAEQIDASEDVQQVVSRLESRYDEKAEGTVRRSLLADENDQLPNGDVLGAAVEAYLARENPAQ				NA	NA	NA	NA	NA
D1-29_01768	1350			hypothetical protein	GTGACTGCACCCCGGGCCTGGCTGATTTGGACCATCGGCATCTTCGCGTATCTGGTGGCCGTCACGCAGCGGACCTCGTTCGGTGTTGTAGGTCTTGAAGCCACCGAGCGGTTCCATGCCGGTGCGTCAGCGATCTCCTTCTTCACTGTTCTGCAGCTCCTGGTGTACGCCGGGCTGCAAATCCCGGTTGGCCTCCTGGTGGACAGGTTCGGCTCCCGGGCGATGATCGCCGGCGGCGCACTCCTCATGGGACTCGGCCAGCTCCAGCTTGCCTTTGCGGACAGTATCCCGGGCGGCGTTGCGGGGCGCGTACTGGTGGGTGCCGGGGACGCCATGACCTTTATTTCCGTGATCCGGCTGATTCCGCTGTGGTTTGCCCCGTCCCGCGTGCCTCTCGTGACGCAACTAACGGGTATGTCCGGCCAGCTCGGACAGCTGTTCAGCGTGGTTCCTTTTGCCCTGGTCCTTCATTTCTCCGGCTGGACTCCGGCTTTCCTGATGCTTGCCGGCATGTCCGGAGTCGCCGTCGTGCTGGTCCTGGTCCTGCTGCAGGACGTCCCGCCCGGAACACCGCGGCCCCAGGCGCAGCAGGGCCTGCGCGCCACCGGTGTGTCGCTTGCGCGGGCCTGGCGGCAGCCGGGCACCAGGCTGGGACTGTGGAGCCACTTCACCATCCAGTTCAGCGGCACCGTGTTTGCCATGACGTGGGGATATCCCTTCCTGATCTCCGCCCAGGGCCTGGATACCGGGACTGTCGCGGGACTCATGGGGCTTTACGTGGCGGGCGCCCTGGCCGTGGGCCCCTTCATCGGCCGGTTTGTCTCCAGGCACCCGCTGCGCCGGTCCACCCTGGTCCTGCTGATCGCGGCCGCCACTGCCGCTGCCTGGGCCGCGGTGCTGCTCACCCCTGGCCGTTCCCCGCTCTGGCTTCTTGCCGGGCTTGTGGTGGTGCTCGCCATCGGCGGGCCCGGCTCCATGATCGGCTTCGATTTCGCCCGGACCTTCAATCCCGCCCACCGGATCGGCACAGCCACCGGCATTGTGAACGTGGGCGGGTTCATCGCTGCCCTGATATCAATTTTCCTGATCGGGCTCGTACTGGACATTCTCCATGCCAGCGGGTTCTCCAACGGCGTTCTGTACGGCCTGGAACCGTTCCGGCTCGCGCTCAGCGTCCAGTTCCTGGTTCTGGGATTCGGTGCGGCCGCAACGCTGCTCTGCCGCCGGAAGGTGCGCCGGCAGATGGCGGCGCAGGGGGTTGTTGTCCCTCCGCTGCTCCGCAGCCTGGCCGAACAGCGGCGGGCAAGCCTGGCGCAGCGGCGCCAGGGCTCACGGCCTTCTGAGGACTGA	MTAPRAWLIWTIGIFAYLVAVTQRTSFGVVGLEATERFHAGASAISFFTVLQLLVYAGLQIPVGLLVDRFGSRAMIAGGALLMGLGQLQLAFADSIPGGVAGRVLVGAGDAMTFISVIRLIPLWFAPSRVPLVTQLTGMSGQLGQLFSVVPFALVLHFSGWTPAFLMLAGMSGVAVVLVLVLLQDVPPGTPRPQAQQGLRATGVSLARAWRQPGTRLGLWSHFTIQFSGTVFAMTWGYPFLISAQGLDTGTVAGLMGLYVAGALAVGPFIGRFVSRHPLRRSTLVLLIAAATAAAWAAVLLTPGRSPLWLLAGLVVVLAIGGPGSMIGFDFARTFNPAHRIGTATGIVNVGGFIAALISIFLIGLVLDILHASGFSNGVLYGLEPFRLALSVQFLVLGFGAAATLLCRRKVRRQMAAQGVVVPPLLRSLAEQRRASLAQRRQGSRPSED				NA	NA	NA	NA	NA
D1-29_01769	1257			hypothetical protein	ATGACACCTCCGGAACACCTGACAGTCCAAGGCCCTGAAGACGTCCTGGGGTTTATCCCGCATTCCCTGGGGTATTGGCCGGCCGAAAGCCTGGTGGCCATGACGCTCCACGGCAAACGGCTGGGGGCAACCCTTCGGCTGGACCTGCCCGGACCTGGAACCCTCGCGGACCCGCGGGAGTTCGCGCGCACCGTACGGGATTATCTCCGGGCCGACCAGCACGCCGACGCCGCCTTGCTGGTGTTCTTCACCGACGACGGCTGGATGGAACTCCCTCATACCTGCACGTACACGGGCCTCCTGGCGGCGCTGCAGGCCGTTCTGGGCACATCCGGGATGCCCGTCCGGGATGCCTGGTACGTAGGGGACAGGTACTGGCGCGATGCCTACTGCCTGGACCAGTCGTGTTGCCCCTTGCCCGGCCGGCCCATCGAGGAGATCCGGGACAGCAGGCTCAACGCCGAAATGGTGTACCGCGGCAGCAGCGTGGGGCCCGCCCCCGATCAGCACGCCCAACAGCCTGGTTCCGTTTCTGCTGAAGCTGCCGCCTCACTCCTGGCGGCCGAAGAGGAGTGGTCCAGCCAACTGAACCCGCGGCGGGGGAGCCGCGCGCAGTTTGAGGCGCTCCTGGGCTTCTGGGCGGGATTACTCGACTCCCCGCCGGGTGATGCCCTTCCGGAAGGCCACCTGGCTTTCCTTCGCGCGTCACTCCGGGTGCCGGCCTGGCGGGACGCGGTGCTGGTGATGGCGGCTGCAGGCGCAGCCACCGCGCAGGAGGGGGCCGGACAGTTCGGAATTTTCGACGGCGGCTGCCTCCTTGCGCCGGTTGGCCCCTGTCCTGCCGGACCGTCCTCCCCACCAGGAAACGCCCGGCGGCCTGCCGGGACGCCAGCTGACGCTTCCACTCAAGGCTCTTCCGCTGCAGTTACTGATCTGCCCGGCTACGGCGAAGTCCTGCCCGGATTGAAGCCTGTCCTGCCGGACTGGGGCAGGCTCAACAGCCTGGACCGCATCCTGGCGAGCCTCTCGGTATATGGAGGGCAGGCAGCGGCTGCCGCACTGACGGGACGCGGGTGGATCGCCTGGTGCCGGGGCCGTGGATCGTATGCGGCCGCCTATCTTGGACAGGCGCTCCAGATGGAGGCGGAGTACAGGCTGGCGGAACTGATGCTGGAACTGGTGCGGCGGGGCACGCTCTGCGGCTGGGCGGCCCGGAAGGAGGCGGCCTGGCAACGGTTCGAACCGGACGCGGCCTAG	MTPPEHLTVQGPEDVLGFIPHSLGYWPAESLVAMTLHGKRLGATLRLDLPGPGTLADPREFARTVRDYLRADQHADAALLVFFTDDGWMELPHTCTYTGLLAALQAVLGTSGMPVRDAWYVGDRYWRDAYCLDQSCCPLPGRPIEEIRDSRLNAEMVYRGSSVGPAPDQHAQQPGSVSAEAAASLLAAEEEWSSQLNPRRGSRAQFEALLGFWAGLLDSPPGDALPEGHLAFLRASLRVPAWRDAVLVMAAAGAATAQEGAGQFGIFDGGCLLAPVGPCPAGPSSPPGNARRPAGTPADASTQGSSAAVTDLPGYGEVLPGLKPVLPDWGRLNSLDRILASLSVYGGQAAAAALTGRGWIAWCRGRGSYAAAYLGQALQMEAEYRLAELMLELVRRGTLCGWAARKEAAWQRFEPDAA				NA	NA	NA	NA	NA
D1-29_01770	1329	rpoD		RNA polymerase sigma factor RpoD	GTGACCCCGTCTTCCGCGAAGAAGGAACCCGCCGCCCAGGACGATTTGTCCTCTGAGGAGAAGCAGGCTGCAACGAACGCCAAGCGAGCAGCCACGCGGGCAGCCAACAATGCTGTCAAGGATGCCGCCTCCGGTGATGCCGGTATCGATGGCAGGCCTGAACCCAAGAAGCGCGGGCCCAAGCCCGGCGCCAAAGCCGCTGCCGCGGCCGCCGGAAAGTCTGCCCGCGGTGCCGACTCCGACGACGAGGATGAGGTTGAGGAAGACCTTGACGACATCATCCTTGAAGGCGCCGACGCCGGCGACGACGGCGAAATCGACGCCGCCAAGGCCGCTTCGGCAGCCACCGGTAAGGGATTTGTCTACTCGGACGCGGACGACGACGACGCCCCCGTCCAGCAGGTCATGTCAGCCGGTGCAACGGCTGACCCCGTCAAGGATTACCTGAAGCAGATCGGTAAGGTTGCGCTGCTCAACGCCGAGCAGGAAGTTGACCTGGCGCTGCGGATCGAAGCGGGCCTTTTTGCCGAAGAGAAGATCAATGCCGATGACGGCTCCATGGATCCGAAGTTCAAGCGCGAGCTGGAATTCGTCATCCACGACGGCAAGCGGGCCAAGAACCACCTGCTGGAAGCCAACCTCCGCCTCGTCGTCTCGCTGGCCAAGCGTTACACCGGCCGCGGCATGCTCTTCCTTGACCTCATCCAGGAAGGCAACCTGGGCCTGATCCGCGCCGTGGAGAAGTTTGACTACACCAAGGGCTTCAAGTTCTCCACCTACGCCACGTGGTGGATCCGCCAGGCCATCACCCGCGCCATGGCCGACCAGGCACGCACCATCCGAATCCCGGTGCACATGGTCGAAGTCATCAACAAGCTGGCCCGCGTCCAGCGGCAGATGCTCCAGGACCTTGGCCGCGAGCCCACGCCCGAAGAGCTTGCCCTGGAACTGGACATGACCCCGGAGAAGGTGGTGGAGGTCCAGAAGTACGGCCGCGAACCGATTTCCCTCCACACGCCGCTTGGCGAAGACGGCGACTCCGAGTTCGGTGACCTCATCGAGGACTCCGAGGCTGTTGTCCCTGCCGATGCCGTGAGCTTCACGCTTCTGCAGGAGCAGCTGCACTCCGTGCTGGACACCCTCTCCGAGCGTGAAGCCGGCGTGGTGGCCATGCGCTTCGGCCTCACCGACGGACAGCCGAAGACTTTAGACGAAATCGGCAAGGTCTACGGAGTCACGCGCGAGCGGATCCGCCAGATCGAATCCAAGACCATGTCCAAGCTCCGCCACCCGTCGCGGTCGCAGGTGCTGCGGGACTACCTGGACTAG	MTPSSAKKEPAAQDDLSSEEKQAATNAKRAATRAANNAVKDAASGDAGIDGRPEPKKRGPKPGAKAAAAAAGKSARGADSDDEDEVEEDLDDIILEGADAGDDGEIDAAKAASAATGKGFVYSDADDDDAPVQQVMSAGATADPVKDYLKQIGKVALLNAEQEVDLALRIEAGLFAEEKINADDGSMDPKFKRELEFVIHDGKRAKNHLLEANLRLVVSLAKRYTGRGMLFLDLIQEGNLGLIRAVEKFDYTKGFKFSTYATWWIRQAITRAMADQARTIRIPVHMVEVINKLARVQRQMLQDLGREPTPEELALELDMTPEKVVEVQKYGREPISLHTPLGEDGDSEFGDLIEDSEAVVPADAVSFTLLQEQLHSVLDTLSEREAGVVAMRFGLTDGQPKTLDEIGKVYGVTRERIRQIESKTMSKLRHPSRSQVLRDYLD				NA	NA	NA	NA	NA
D1-29_01771	222			hypothetical protein	ATGACCACAGCAGTGGCAGCCCGCACACTCAACGCACTGGACCGGTGCGATCGTTGCGGAGCTCAGGCATATGTCCGGGTTGTACTCGAGTCCTCCGGCGGTGAGCTGCTCTTCTGCGGCCACCACTCGCGTGCGGTCGAGGCGACACTCAAGCCCTTGAGCTCCGACTGGCACGACGAGACGGGCCGGCTTCACGAGAAGGCACCCGTCGAAATCGACTGA	MTTAVAARTLNALDRCDRCGAQAYVRVVLESSGGELLFCGHHSRAVEATLKPLSSDWHDETGRLHEKAPVEID				NA	NA	NA	NA	NA
D1-29_01772	2109	gyrB_1	COG0187	DNA gyrase subunit B	GTGGCACCAAGTTCTGATTACACCGCCCGGCACCTCTCGGTTCTGGAGGGCCTCGAGGCCGTCCGCAAGCGGCCGGGCATGTACATCGGATCCACAGATTCCCGCGGCCTGATGCACTGCCTCTGGGAGATCATCGACAACTCCGTGGACGAAGCCCTGGCCGGTTTCGGCCACGACATTAAGATCATCCTGCACGCGGACAACTCAGTGGAGATCCACGACGACGGCCGCGGCATCCCGGTGGACATGGAACCCAAGACTGGACTCACCGGGGTCGAGGTGGTGTTCACCAAGCTCCATGCGGGCGGCAAATTTGGTGGCGGTTCCTACACGGCCTCCGGCGGTCTCCACGGTGTTGGCGCCTCCGTGGTGAACGCCCTGTCCGCCCGCCTCGACGTTGAGGTGGACCGCGGCGGCAAAACGTACAAGATGTCCTTCCGGCGGGGAGAGCCAGGCCGGTTCAACGACCTGGGCAGCAGGCTGGACCCCTCGGCCACGTTTGCCCCTTTTGTGGACGGTTCCGTCCTTGACGTGGTGGGCAAAGCGAAGCGGGGGATCACCGGCACCCGGATCAGGTACTGGGCTGACCGCCAGATCTTCACCCAGGACGCCAAATTCTCCTATGACGAGCTGGCAGCCCGCGCCCGTCAGACGTCCTTCCTGGTGCCGGGACTGAAGCTCACCGTCCGTGATGAGCGCAGGCTCCCCGGCACGCCGGGTGAAGCAGCCCCGCACGAGGAAGTCTTCCACCACGACGGCGGCATCTCGGAGTTCGTTGATTTCCTGGCCGCCGATCCGGCCGTCACCGATATCTGGCGGCTTCACGGATCCGGCAAGTTCAAGGAAACCGTGCCGGTGCTGGATGAGCGGGGCCACAGCCAGCTGGCGGAGGTTGAGCGCGACTGCGAAGTGGACGTTGCCCTCCGTTGGGGCATCGGCTACGACAGCACTGTCCGCAGCTTTGTCAACATCATCTCCACGCCCAAGGGCGGAACACACCAGTCGGGCTTTGAACAGGCGCTGGTGAAGACTTTCCGCAAGGCCGTGGAAAGCAACGCCCGCAAGCTCAAGGCCGGCAACGACAAAATCGAGAAGGACGACATTTTCGCCGGCCTGACAGCGGTCCTGACAGTCCGCCTCGCCGAGCCACAGTTCGAGGGCCAGACAAAGGAAATCCTGGGTACATCTGCGGTCCGGGCCATCGTGGCCAAGGTGGTGGAGCACGAGATCAATGCCAAGCTCAATTCCGCCAACCGGAACGACAAGGCCCAGTCGGCCCTGCTGCTGGAAAAAATCGTCAGCGAAATGAAGTCGCGCATTTCCGCCCGGGTCCACAAGGAAACCCAGCGACGCAAAAATGCGCTGGAAACCTCATCGATGCCCACCAAGCTGGCAGACTGCCGGACTGACGACGTCGAACGGTCCGAACTGTTTATTGTGGAAGGCGACTCGGCGCTGGGTACCGCCAAACTGGCACGGTCCTCAGACTTCCAGGCGCTGCTGCCGATCCGCGGCAAAATCCTGAACGTGCAGAAGGCTTCGGTGGGGGACATGCTCTCCAACACCGAGTGCGCGGCCCTGATCCAGGTGGTTGGCGCCGGTTCGGGACGCAGCTTCGATCTTGCCGCGGCGCGGTACGGGAAGGTCATCCTGATGACCGACGCGGACGTGGATGGTGCCCACATCCGGACGCTGCTGCTGACCTTGTTCTTCCGGTACATGCGGCCGATGATCCTGGACGGCCGCGTGTTTGCTGCTGTCCCGCCTCTGCACCGGGTGGAGGTCATCAACGCCGGGCAGAAAGCCAACGAGATGATCTACACCTACTCCGAGGCTGAGCTTCATGTCCTGCTGGCGCGGCTGGCCAAGGAGGGCAAGCGCTACAAGGAGCCCATCCAGCGCTACAAGGGCCTGGGTGAAATGGACGCCGAACAGTTGGCCGAGACCACCATGGACCCGCGGCACCGCACGCTCCGGAAGGTGGGCATCGAGAACGCCCAACAGGCGGAGGACACCTTTGACCTGCTGATGGGCTCGGATGTGGCGCCGCGCAAGGACTTCATCATCGCTGGAGCGTCGAGCCTGGACAGGGAGCGGATCGACGCCTGA	MAPSSDYTARHLSVLEGLEAVRKRPGMYIGSTDSRGLMHCLWEIIDNSVDEALAGFGHDIKIILHADNSVEIHDDGRGIPVDMEPKTGLTGVEVVFTKLHAGGKFGGGSYTASGGLHGVGASVVNALSARLDVEVDRGGKTYKMSFRRGEPGRFNDLGSRLDPSATFAPFVDGSVLDVVGKAKRGITGTRIRYWADRQIFTQDAKFSYDELAARARQTSFLVPGLKLTVRDERRLPGTPGEAAPHEEVFHHDGGISEFVDFLAADPAVTDIWRLHGSGKFKETVPVLDERGHSQLAEVERDCEVDVALRWGIGYDSTVRSFVNIISTPKGGTHQSGFEQALVKTFRKAVESNARKLKAGNDKIEKDDIFAGLTAVLTVRLAEPQFEGQTKEILGTSAVRAIVAKVVEHEINAKLNSANRNDKAQSALLLEKIVSEMKSRISARVHKETQRRKNALETSSMPTKLADCRTDDVERSELFIVEGDSALGTAKLARSSDFQALLPIRGKILNVQKASVGDMLSNTECAALIQVVGAGSGRSFDLAAARYGKVILMTDADVDGAHIRTLLLTLFFRYMRPMILDGRVFAAVPPLHRVEVINAGQKANEMIYTYSEAELHVLLARLAKEGKRYKEPIQRYKGLGEMDAEQLAETTMDPRHRTLRKVGIENAQQAEDTFDLLMGSDVAPRKDFIIAGASSLDRERIDA	PGPT0027710_1183	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
D1-29_01773	1002			hypothetical protein	ATGTTCTGGACCTCATACCTGCTGGCGGTCCTTGCGATAGTCCTGGCTTGGCCGGTGCCTATCCTCCTTTCGCGTGCCCAATGGCCTGCGCGCTCCCCTTTTACGGCGATGCTTCTCTGGCAGGCCATCGCACTGGCCGGTGGCCTGTCCATGATTGGCGCCATGCTGGTGTATGGGCTGGAACCCATTGGCGACAACCTGATCGCGGGCCTGCGCGCGCTCGCCGGGATGGTGCTGTTCAATGCCCCCACCACGGCCCTGGGCTTCTGGCATATCTTTGCCCTGTCCGCGGCTGCGCTGTTGACGGCCCACCTGGTCTTTACCCTGCTGCTCACCTACTACAGGATCGAGCGGCAGCGCCGCCGGCACCGCGAGCTCCTGGCCCTGCTGGCCTCCCCCTCCGCTGAAGGTGCCGGGACGGTGGTCATCAGCCATGACTCGCCCGTGGCCTACTGCCTGCCCGGCGGGGCCCGTTCGGTCACCGTGCTTTCGGACGGCCTCATGGCGGCCCTGGAACCCGACGAGCTGCGGGCCGTCCTGATCCACGAGAACGCCCACCTGAGCCAGCGCCATCACCTCCTGCTGTGGGCCTTCGCCGCTTGGCGCCAGGCACTGCCCTGGCTTCCCACCACCCGGCTGGCCCAGGAGTCAGTGAACTCGCTCATCGAAATGCTGGCCGACGACGTTGCCCTGAAAACAGAAAGCAAGGCAACACTGATCAAGGCCATCGCGATCGTCGCGAGTGGCAGTGCCGGCAGCAGTGGCGACGCCGCTGCGTCTGCAGGCATACGTCCAGGGGACGCCAATCCGGGCCTGGCCGGGCTGGAGACGCCCGGAATTGCGGGCTCCGACTCTGCCCGCACCACGGCCTCGCGCGTCAGCCGCCTGCTGTCACCGCAGCCGGAGCTGCCCGCCGCCGCCCAGGGGGCCGTTCTGGCCGGCTGCGTGCTGCTCCTCGCCCTGCCTACAGCCCTTCTGATCGTTCCGGGCCTCCTGGGCTGA	MFWTSYLLAVLAIVLAWPVPILLSRAQWPARSPFTAMLLWQAIALAGGLSMIGAMLVYGLEPIGDNLIAGLRALAGMVLFNAPTTALGFWHIFALSAAALLTAHLVFTLLLTYYRIERQRRRHRELLALLASPSAEGAGTVVISHDSPVAYCLPGGARSVTVLSDGLMAALEPDELRAVLIHENAHLSQRHHLLLWAFAAWRQALPWLPTTRLAQESVNSLIEMLADDVALKTESKATLIKAIAIVASGSAGSSGDAAASAGIRPGDANPGLAGLETPGIAGSDSARTTASRVSRLLSPQPELPAAAQGAVLAGCVLLLALPTALLIVPGLLG				NA	NA	NA	NA	NA
D1-29_01774	387	blaI	COG3682	Transcriptional regulator BlaI	ATGGCCAGTCTTGGTGAACTTGAACGGGCAGTGATGGACCTGCTCTGGGCGGGCCAGGGAGCAGCCACCGCCAACACTTTGCGTGACAGGCTCGCGCACAGCACCGAGGCCCAGGGTGGCTCAGCAGGCCACGAAGGCAAGGAACTGGCCGTCACCACGGTGCTGACCGTGCTGTCGCGGCTGGAGAAAAAAGGCCTCGTCGAGCGCGAACGCGGCACCCGGCCGCACCGCTACCAGGCAATCTCCAGCCGGGAGGACCACACGGCCGAACTCATGCACGAGGTGCTGGGATCCGCACCCGACCGTGAAGCCGTGCTGGCACGCTTTATTGGGTCCGTGACTGAAAATGAAGCCGAAACACTGCGCAAACTGCTTGGCCACATCTAG	MASLGELERAVMDLLWAGQGAATANTLRDRLAHSTEAQGGSAGHEGKELAVTTVLTVLSRLEKKGLVERERGTRPHRYQAISSREDHTAELMHEVLGSAPDREAVLARFIGSVTENEAETLRKLLGHI				NA	NA	NA	NA	NA
D1-29_01775	1824	cydA	COG1271	Cytochrome bd ubiquinol oxidase subunit 1	ATGACTGCAAACGAGCACTACAACTACAGAAACAAATTTACCCCGTTTCCGGCGCAGTTTCTACGTCAGGTAGAACACACGGCGGGCCCGGAGCCTTGTAGGGGCCCGCTGAGGGTGGAAAAGTTGGTTTACAGCGCCGGTCGCAGTGTTCTACACTCGGTAGAAGTCAAAGTTCTACGGATCGTAGAAAAGTTCGCCCCGCCAACAGTAGGGACTGCCTTGGACGCCTTGGAAATCGCACGCTGGCAATTCGGCATCACCACCGTTTACCACTTCATGATGGTGCCGCTCACCATCGGGCTTGGCCTGGTGGTGGCAGTCATCCAAACGGCCTGGCACCGCACGGGTAAGCCCGAATACCTGCGGATGACCAAGTTCTGGGGAAAGCTGTTCCTCATCAACTTCATCATGGGTGTGGCCACCGGGATCGTCCAGGAATTCCAGTTCGGCATGGCGTGGAGTGAGTACAGCCGGTTTGTTGGCGACGTGTTTGGGGCGCCGCTGGCACTGGAGGCACTGCTGGCGTTCTTCGTGGAGTCCACGTTCCTGGGGCTGTGGATCTTCGGCTGGAAGCAGCTGAAGCCCGGCATCCACCTGGCCTGCCTGTGGATCGCCGTGGTGGGTTCGGCCTTCTCCGCCTACTTCATCATTGTGGCGAACAGCTGGATGCAGCACCCCGTTGGCGTGGAGATGGTCAACGGCCGGCCGGTCATGACCGACGCGTGGGCGGTCTTCACCAACAACACCGCCCTCGTTGCCGTACCGCACACACTGTTTGGTGCCCTGGCCGTGGCCGGCGGCTTCCTGCTGGGCATCGCCTGGTACCACCTGTGGCGAAGGCGGCGCGACGGCGTTGACATCATCGGTGCCGACGGCAAGGTCATCCCCGGTGAAGCAGCGGACATCCCCGGCCGTGACCGCGCCGACCACAACGTCTGGATCCGCTCGCTGCGCATCGGCGCCGTCGTCGCCATGATCTCCTTTGCCGGGACCGCCATCACCGGCGACCTGCAGGGAAAACTGATGTTTGAACAGCAGCCCATGAAGATGGCTGCCGCGGAGGCCGCCTGCCACGACGGCACCGGCTTCTCCGTCCTCAGCGTGGGCAACGTCGGATCGAAGAACTGCGATGACATCGTGGCCGTGATCGAGGTTCCCGGAATCCTGTCCTTCCTGGCCAAGGGCGACTTCACCACGGAGGTCAAGGGCGTCAACAGCCTCCTGGACCAGTACAAGGCGGATTACGGAACCAACCTGCCGGACAACCCGATCTACGGCGACCGCGCGGGCCAGGAAATCGAATACGTTCCGGTCATGGAGGTCACCTACTGGGGCTTCCGGATGATGATCGGATTCGGCGGAATCGCGGCCCTGGCTGCGCTGATTGCGCTGTGGGTGACGCGCAGAGGCACGGTTCCGGAATCGCGCTGGCTCATGCGGCTGGCCGTGTTCGGCATCCTGGCGCCGTTCGGCGCCAACGCGGCCGGCTGGATCTTTACCGAAATGGGCCGGCAACCGTTTGTGGTGGCACCCAACCCGGACCTGAACGGCATCGACCAGGTGTTTATGTTCACTGCCGCCGCCGTGTCACCAGGCGTGTCGGCCGGGGAACTCCTCACCTCCCTGGTGGTGCTCACAGCCATCTACGCCGCCCTGCTGGTGGTGGAAGTGAAGCTGCTGGTCAGGTACGTCAGGGGCGGGGTGGTCTCGGCGATGCCGGAACTCGCCCATGCGCCGGTGGACGAAAACGAGGACGCCACCCCCGGGCCGGACGGTCCCGGCAACGGAAAGAACACCGACGACGTCCTGGCGTTCGCCTACTAA	MTANEHYNYRNKFTPFPAQFLRQVEHTAGPEPCRGPLRVEKLVYSAGRSVLHSVEVKVLRIVEKFAPPTVGTALDALEIARWQFGITTVYHFMMVPLTIGLGLVVAVIQTAWHRTGKPEYLRMTKFWGKLFLINFIMGVATGIVQEFQFGMAWSEYSRFVGDVFGAPLALEALLAFFVESTFLGLWIFGWKQLKPGIHLACLWIAVVGSAFSAYFIIVANSWMQHPVGVEMVNGRPVMTDAWAVFTNNTALVAVPHTLFGALAVAGGFLLGIAWYHLWRRRRDGVDIIGADGKVIPGEAADIPGRDRADHNVWIRSLRIGAVVAMISFAGTAITGDLQGKLMFEQQPMKMAAAEAACHDGTGFSVLSVGNVGSKNCDDIVAVIEVPGILSFLAKGDFTTEVKGVNSLLDQYKADYGTNLPDNPIYGDRAGQEIEYVPVMEVTYWGFRMMIGFGGIAALAALIALWVTRRGTVPESRWLMRLAVFGILAPFGANAAGWIFTEMGRQPFVVAPNPDLNGIDQVFMFTAAAVSPGVSAGELLTSLVVLTAIYAALLVVEVKLLVRYVRGGVVSAMPELAHAPVDENEDATPGPDGPGNGKNTDDVLAFAY	PGPT0026700_240	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
D1-29_01776	1050	cydB	COG1294	Cytochrome bd-I ubiquinol oxidase subunit 2	ATGGAACTGCTGCCCACTCTCTGGTTCATCATCATTGCGGTGCTGTGGACCGGATACCTTTTCCTTGAAGGCTTTGACCTTGGCGTGGGAATGCTGATAAAGCTGTTCGCCCGCAACAACACCGAGCGCCGGGTGCTGCTGAACACCATCGGGCCTGTCTGGGACGGCAACGAAGTCTGGCTGATCACGGCAGGCGCCGCAACCTTTGCCGCCTTCCCGCTCTGGTATGCCTCGCTCTTCTCCGCCCTGTACCTTCCGCTGCTGGTGGTGCTGGTGGCACTCATCTTCCGTGCTGTGGCCTTCGAGTACCGGGGGAAGGTGGACAACGACAGCTGGCGCGCCCGCTGGGACTGGGCCATCGCCCTGGGTTCATTCCTGGCAGCCTTCGGCGTCGGCGCCGCGCTGGCGCTCACCACCACCGGACTTCCGCTCAACGCCAACGGTGACCGCGAGGGCGGCCCGTTCGCCTGGTTCAGCTGGTACGCCGTGCTCGGCGGCCTGGCCGTGGTGTGCTTCTCCCTGCTGCACGCCCTCGCGTTCCTGGCACTGAAGACCGACGGCGACGTGCGGCACCGCGCGCGCCGCTGGTTCATCCGGATGCTTCCGCTGCTGCTGCTCCCGCTGGCGGGCTGGGCCGTCAGCATCCAGGTCCTGGACGGGAAGCCGTGGACCTGGGCCGCGGTCCTCCTTGCGGTAGCGGCAGCCGCCGCTGCCTGGATGATGGCCCGCAAGGGGAGTGAAGGCAGGGCTTTTGCAGCGCTTGGAGCCTTCCTGGTGCTGGGCAGCGCGTCCATCTTCGCCGCGGTTTTCCCGGTGGTCCTGCCGTCCACCCTCAACCCTGCGTTTGACCTGACCATCTCCAACGCGTCGTCCTCGGACTACACGCTCGGGCTGATGAGCGTTGTGGCCGCCGTCGGCCTGCCCTTGGTCATTGCGTACCAGGCCTGGACCTACTGGGTCTTCCGGCGGCGCGTCAGTGCCCAGCACATCCCGGAGGCGCACAGCTTCGTGCCGGCCATTGCGGCCAAGGCCTTCACCACGAAGGGCTGA	MELLPTLWFIIIAVLWTGYLFLEGFDLGVGMLIKLFARNNTERRVLLNTIGPVWDGNEVWLITAGAATFAAFPLWYASLFSALYLPLLVVLVALIFRAVAFEYRGKVDNDSWRARWDWAIALGSFLAAFGVGAALALTTTGLPLNANGDREGGPFAWFSWYAVLGGLAVVCFSLLHALAFLALKTDGDVRHRARRWFIRMLPLLLLPLAGWAVSIQVLDGKPWTWAAVLLAVAAAAAAWMMARKGSEGRAFAALGAFLVLGSASIFAAVFPVVLPSTLNPAFDLTISNASSSDYTLGLMSVVAAVGLPLVIAYQAWTYWVFRRRVSAQHIPEAHSFVPAIAAKAFTTKG	PGPT0026705_1764	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
D1-29_01777	3531	btuD_5		Vitamin B12 import ATP-binding protein BtuD	ATGCGCCCGGACTTCCCGGCCGGACCGGCCACCCGCTCCGCCCTCTACTGGCTGGGCCTGCTTGCCGCCCTGAAGGCGCTGTCCCTGGTCCTGATGGGCCAGGCGGTGGCCGCCATGCTGGCAGGGCTGGCAACCGCAGATGCTGACTGGCAGGACCAGCTCCCCTGGGGGCTGGCCGGGGTTGTCCTGAGGTCCGGCACGGTATGGGCGCAGGGCATCGCTGCCCGCCGCGCCGCCCTGGGCATCAAGGAGGAACTGCGCTCGGCGCTGCTGCAGCGTGCCCTCCGCAACGGTGCGCGGAGCACAGGCCCGGCCGACGGCGGACTCGCCGTCCTGGCGACCCGCGGGCTGGACGCCCTGGACAGCTACTACACCCAGTTCCTGCCTGCGCTGGTGAACTGCGCTGCCATTCCGCTGCTTCTCGGCGCCCGGATCCTGTTCGCGGATTGGGTCAGTGCCGTGGTCATTGTCCTCACGGTTCCCCTGGTCCCCGTCTTCATGGTGCTGATCGGCCGGTACACCGAGGACAACGTCAGGGAGGCCCAGGCCGCCCTTGCCCGGCTGTCCGCGCACATGCTCGAGCTCGCCAAGGGACTGCCGGTTCTCGTGGGCCTCGGCCGGGCCACCGCCCAGCGCAAGGCCCTGGAGGAGATCTCGGAGGAATACCGTGCCAGGACCATGGGAACGCTGCGGACAGCCTTCCTGTCGGCACTGGCACTGGAACTGATAGCCACCATCTCCGTTGCAGTGGTGGCCGTTTTCATCGGCGTGCGCCTGGTCCACGGGGACATGGCCCTCGAGGCCGGGCTCCTGGCCCTGATCCTGGCCCCGGACTGCTACCTACCGCTGCGCGAACTGGGCATGGCCCACCACGCCAGCGACGACGGCCGTGCGGCGCTCGCGGAGACGAGGGCGGTCACCGGGGCGCCGGAGCCGCAGCCGCTGCCCGCTGGTGCGCCTGATGGCGGCTCTGACTCCGATCTCACCGTCACCAATCTCACCGTCACCTATGAGGGACGGTCCGTTCCCGCCGTCGGGCCCGTGAGCTTCACTGTCCCCCAAGGCCGGATTACTGCCCTGGACGGTCCCAGCGGGACGGGCAAGAGCACCATCCTCGGTGTACTGGCAGGGACGGTCGGCGACGGTGCCGGCACCCGGGTCACCGGCAGCATCACCAACCTCGACCGGGACAGCATTGCCTGGGTTCCGCAGCATCCGGTAATGGTGGCGGAGACCGTCCGGGATGAGGTTCTGCTGTACCTCACCCTGGGTGAGGCGGACCATGCCGGCGCCACGGCGGAGGCTGCGGCGTTGGAATGCCTGGCCGCGGCGGCGGCAGGCCATCTCGCCGGAAAACATCCCGCCGAACTGAGTCCCGGCGAGCTGCGGCGGGTGGCACTGGCGCGCGGCCTGGCCCGCCTCCGCGCCGGCGCATCCGTTCTCCTGCTCGACGAACCCACGGCCCACCTGGACAGGGTGTCGGCAGCGCGTGTACAGGAGGCGATCCTCAGCCTTCGCGGACGCGTCACTGTCATCTTGGTGGCCCACGACCGGCAGACGCGGGAGCTGGCCGACCACCTGGTTCCGGTCTCCGCCAATGGCGCAACGGAATCCGCACCGCCGGCCTTCGCAAACACTGTTGCACAGGGCGGCGACGCGGGAGCTCCACTGGCGCCTTCTCCGGCCGGTCCCGCGGCCAGTCCTCCGATTAGTCCTCCAGCAGGCCTGCCGGCTCTGCCAGAAAGGACAGATCCGTTGCCCCGGCAGCGGCAGTCCTCCTCAACCCGGCTTCTGATGGGGCTGCTGCAGCCTGTGGCCGGACTGTTTTCCGGCGCTGCAGCGGTGGGGACACTCGCCGCGATCTTCGCTGTGGCGCTCTCCGGACTGTCCGGGTGGCTCATCATCAGGGCAAGTGAGCAGCCGCCCATCCTGTATCTCCTGACAGCCATCGTCGGCGTGCGGTTCTTCGGGATCGGGCGCGCTGTCCTCCGCTACTGCGAACGGCTCCTGCTCCACGAAGCCGTGTTCGCCGCCCTGACCAGGCTCCGCGGCCGGCTGTGGGAATCCCTGAGCCGGAAGGCGCTCTCGCTCCGACGCCTGCTGCAGGGCGGCAACGTCCTCAGCACAGTGATTGACGACGTCGATAATGTCCGCGACCTCCTCCCGCGCGTGGTGCTTCCTCCGCTGACGGCGCTCGCTGTGGGTGTGGGCAGCCTGGTGGCCGCCGGACTCCTGGTCCCGGCAGCCTTTTGGGCCGCGGCAGCCGCGACGGGCGCAAGCATCCTGGTGGCCCCGGCCGCCGCGCTGTGGGGGGACCGGAAATCCGCCAGCGCCGAACAGAGCCTGCGCCGCGGTGTGCTCCGCCGTACTGCGGCAGCCCTGGATGCCAGGGCAGAGCTTCAGGTGAATGGAGCAGCTGCGGCGGTGCTTGCCGAACTTGCTGCCCAGGACCGTGCGGCCACACGGGCGTCCCAGCGGTCGGCCTGGGCGGAAGGAATTGGCCAGGCCATAACCGTGGCGGCCTGTGGCATTGCCGCCCTTGCCAGCGCTGTCCTGGCAGCACCGCAGGTACTGGCGGGGACCCTGCCTCCCGCCACCGCTGCTGTCCTGGTCCTGCTGCAGCTCGCGCTGGTGGAGCCCTACGCAGCTGTCACGACGGCGGTGCGCCAGTTCCCTGCCCTCAGGACGGTCCTGCGCCGGATAGGCCAGTCAGGGTCGCTGGAGAGCGCGCCGGAGGACAGCGGCAGCGGTGTCCCGAAAGACAGGGCCCTGAGAGAAGGTGTCCTGAAAGACGGTGTCCTGAAAAACGCTGAAGATGACGGCCGGGCGACTGTCCTGGAGCGCGCCGGCGGGGACGCAGGGATTGAGCTTGAGGACGTTGAGGCGGCCTGGCCGGGAGGGAGCCCCGTGTTCTCCGGGGTGTCAGTCACCGCCGCACCTGGCCGCTGGTTGACCCTGACAGGCCCGTCAGGTGCCGGCAAGTCGACCCTGCTGTCGGTCCTGCTGGGTTTCCTTCCGGCCGCCCGCGGACGTGTCCGGGTTACGGGGAGGGCCGCCTGGTGTCCACAGGAAGCACACTTGTTTGACTCCACGCTGCGGGGGAACCTGCTGCTGGGACGGCCAGCCACCGGTAAGCCTGCGGAGGGCGCCGCGGACAGCGGCGCGGACGACGCCGCAATGGCGGCGGCCCTTTCAGCGGTTGGACTCAGCGGCCTGGTGTCCCGGCTACCCGCCGGGCTGGACACCCGGATTGGTCCCGGAGGTTCCTTCTTCAGCGGTGGTGAACGCCAGCGGCTGGCCGTCGCCCGGACGCTCATGACGGGGGCGGAGGTGATCCTGCTGGATGAACCCACGGCCCACCTGGACGCCGAGGCAGGGCGCGCCATGCTGGCGGACCTGAGGGCCGGGTTGAAAGACCGCACAGTTGTCCTGGTCACCCACAACCCGGCGGACATCCATCCGGAGGACGCCTTGCTGGACCTGGCCCCTGCATCCTTCCGGGCCGGCGCCATTCTGGCAGCCGCCCCCTAG	MRPDFPAGPATRSALYWLGLLAALKALSLVLMGQAVAAMLAGLATADADWQDQLPWGLAGVVLRSGTVWAQGIAARRAALGIKEELRSALLQRALRNGARSTGPADGGLAVLATRGLDALDSYYTQFLPALVNCAAIPLLLGARILFADWVSAVVIVLTVPLVPVFMVLIGRYTEDNVREAQAALARLSAHMLELAKGLPVLVGLGRATAQRKALEEISEEYRARTMGTLRTAFLSALALELIATISVAVVAVFIGVRLVHGDMALEAGLLALILAPDCYLPLRELGMAHHASDDGRAALAETRAVTGAPEPQPLPAGAPDGGSDSDLTVTNLTVTYEGRSVPAVGPVSFTVPQGRITALDGPSGTGKSTILGVLAGTVGDGAGTRVTGSITNLDRDSIAWVPQHPVMVAETVRDEVLLYLTLGEADHAGATAEAAALECLAAAAAGHLAGKHPAELSPGELRRVALARGLARLRAGASVLLLDEPTAHLDRVSAARVQEAILSLRGRVTVILVAHDRQTRELADHLVPVSANGATESAPPAFANTVAQGGDAGAPLAPSPAGPAASPPISPPAGLPALPERTDPLPRQRQSSSTRLLMGLLQPVAGLFSGAAAVGTLAAIFAVALSGLSGWLIIRASEQPPILYLLTAIVGVRFFGIGRAVLRYCERLLLHEAVFAALTRLRGRLWESLSRKALSLRRLLQGGNVLSTVIDDVDNVRDLLPRVVLPPLTALAVGVGSLVAAGLLVPAAFWAAAAATGASILVAPAAALWGDRKSASAEQSLRRGVLRRTAAALDARAELQVNGAAAAVLAELAAQDRAATRASQRSAWAEGIGQAITVAACGIAALASAVLAAPQVLAGTLPPATAAVLVLLQLALVEPYAAVTTAVRQFPALRTVLRRIGQSGSLESAPEDSGSGVPKDRALREGVLKDGVLKNAEDDGRATVLERAGGDAGIELEDVEAAWPGGSPVFSGVSVTAAPGRWLTLTGPSGAGKSTLLSVLLGFLPAARGRVRVTGRAAWCPQEAHLFDSTLRGNLLLGRPATGKPAEGAADSGADDAAMAAALSAVGLSGLVSRLPAGLDTRIGPGGSFFSGGERQRLAVARTLMTGAEVILLDEPTAHLDAEAGRAMLADLRAGLKDRTVVLVTHNPADIHPEDALLDLAPASFRAGAILAAAP				NA	NA	NA	NA	NA
D1-29_01778	519			hypothetical protein	ATGCCTATCATTCCTGATGAAAAAGACTGGACCTGGGTCCTTTCACGGCCCTGCCCCGAGTGCTCCTTTGATGCCTCCACGGTCACCCCGTCAACGGTTCCGGGCACTGTGCGCAACATGCTGCCCCGCTGGCGGTCGGTCCTTCGCCGGCCGGACGTGGGCGAGCGGCCGGATGAAAGTACCTGGTCCGCCCTGGAATACGCCTGCCATGTCCGCGATGTGTTCAGCCTTTTTGATCAGCGCCTTAACCTGATGCTCGACGGCGACGACGCCCGGTTCGAGAACTGGGACCAGGACAGGACCGCCGTGGACAAGGACTACGCCAGCGCCGATCCCGCAGTGGTCAGTGCGGAGCTGACGGCAGAAGGTGAGCAGGTCGCTGAATCCTTTGCCGGGGTCCGCCAGTCGGAGTGGGGCCGGAAGGGACTGCGGAGCAACGGTTCGGAGTTCACCGTCCTGACCTTGGCGCAGTACTTCCTGCACGACGTCGTCCACCACCTCCACGACGTGGATGGGTAA	MPIIPDEKDWTWVLSRPCPECSFDASTVTPSTVPGTVRNMLPRWRSVLRRPDVGERPDESTWSALEYACHVRDVFSLFDQRLNLMLDGDDARFENWDQDRTAVDKDYASADPAVVSAELTAEGEQVAESFAGVRQSEWGRKGLRSNGSEFTVLTLAQYFLHDVVHHLHDVDG				NA	NA	NA	NA	NA
D1-29_01779	2514	gyrA_2	COG0188	DNA gyrase subunit A	ATGGCCCGCCGCCAAAGTTCAGCCCCAGCAGTGGATTCCAACCAGGATTACACCGAGAACATCGTGGACATAGATGTCACGTCCGAGATGGAAGGCTCCTTCCTGGAGTACGCCTATTCGGTGATCTACTCCAGGGCCCTGCCCGACGCCCGCGACGGCCTCAAGCCGGTCCAGCGCCGGATTCTCTACATGATGAGCGAGATGGGCCTGCGCCCGGACCGCGGCCACGTCAAGAGCGCGCGTGTGGTGGGCGAGGTCATGGGCAAGCTTCACCCCCATGGCGACACGGCCATCTACGACGCCCTGGTGCGCATGGCCCAGGACTTTTCGCTGCGGCTGCCGCTCATCGACGGGCACGGCAACTTCGGATCGCTCGACGACGGACCGGCGGCTCCGCGGTACACCGAAGCCCGCCTCGCGGCAGCTGCGCTGACGCTGACGGACCACCTTGACGAAGACGTGGTGGACTTTGTCCCCAACTACGACAACCAGCTGACCCAGCCTGATGTGCTGCCGGCGGCCTTCCCCAACCTGCTGGTCAACGGAGCCACAGGAATCGCCGTGGGCATGGCCACCAACATGGCCCCGCACAACCTGGTGGAGGTCATCTCGGCCGCACGGCACCTCATCGCGCACCCGGACGCCACCCTCGATGACCTCATGAGATTTGTGCCCGGGCCTGATCTTCCTACCGGCGGACGGATTGTGGGCCTGGACGGCATCCGCGATGCCTACGCCACCGGACGCGGTTCCTTCAAGACCCGCGCCAAGGTGGAAATCGAGCAGCTCTCGGCCCGCCGCACCGGCCTGGTGGTCACCGAGCTTCCGTACATGGTGGGGCCGGAGAAGGTGATCGAGAAGATCAAGGACGCCGTCAACGGCAAGAAGCTGACGGGGATCAGTGACATCGTTGACCTGACGGACCGCAAGCACGGCCTTCGGCTGGTCATTGAGCTGAAGAACGGCTTCAACCCGAACGCGGTGCTGCAGCAGCTGTACCGCTACTCGCCCATGGAAGACTCCTTCGGCATCAACAACGTCACGCTTGTGGACGGCCAGCCGCAGACCCTGGGACTCGTGGAGCTGCTTTCCGTTTACGTCGGCCACCGGATCAACGTGGTGCGGCGCCGCACCGCGTTCCGGCTGGGAAAGAAGCAGGACCGCCTGCACCTGGTGGAGGGCCTCCTCATCGCCATCGTGGACATCGACGAGGTCATCCAGATCATCCGTTCCTCGGATGAGGCCGCGGCAGCCCGGGTCCGGCTGATGTCCATTTACGACCTGTCCGAGATCCAGGCCAACTACATCCTTGAGCTGCGGCTCCGCCAGCTGACCAAGTATTCCCGGCTGGAGCTGGAGAAGGAACAGGACGAGCTGCGACGGGAGATCGCGGAACTCGAGGCCATCCTGGCGTCCGAGGAACGGCTCCGCGACCTGGTGTCCGGGGAGCTGGGCGAGATCGCCGAAAAGTACGGGACACCCCGGCGGACGGTCCTGCTGGAATCGGAGGCGGTCTCCCCCACGGTCGCCGCTGCCCTGGCCGCAACCAATGGCAAGGGAAAGCCTGCGCCCCTTGCCTTGGAGATCGCCGATGACCCCTGCTGGGCCATCCTCACCGCCTCCGGCCAGATCGCCCGCACCTCCAACCAGGACCCCCTCGCCGAATCGGGTCCGCGGTCCAAGCATGACGTGTTCCGCTCTGTGCTCAAGACGTCCGCCCGGGGCGAGATTGCCGCGGTCACGTCCCAGGGCCGGATGCTTCGCCTGCAGGTGATGGACATGCCGATGCTGCCTCCGATGTCAGGGCTGCCCAACCTTGCCGGCGGTGTGCAGGCCAAGGACTTCATTACGCTCCTGAAAGGCGAATCGCTGGTGGCGTTCGCGCCGCTGGACGAGGTCCTGGCCATCGGCACAGCCCAAGGCGTGGTCAAACGCGTGCAGCCTGACTATCCGCTGAACCGCGAGGACTGGGAGGTCATCGCGCTCAAGGACAAGGACTCGGTGGTGGGAGTGGCCGCGGCAGGATCGGAGGACACCGAGCTGGTGTTCCTGACCCGTCAGGCGCAGCTGCTCAGGTTCGGGGCCGGAAACGTCCGGCCCCAGGGCCGGACCGCCGGCGGGATGGCCGGGATCAAACTGGCCGCCGATGACGAGGTGGTGTTCTTCAATGCTGTGGCGCCGGACGACGGCGACGCTGTGGTGGTCACCATCGCGGGCACGAACGGCGCCCTCCCGGGGACCGCCCCGGGCACGGCGAAAGTCACCGCCTTCGCGGAATACCCGGCAAAGGGCCGTGCCACGGCCGGCGTCCGGGCCCACAGGTTCCTCAAGGGCGAGGACACGCTGCTGCTCGCCTGGGCAGGGCACGGGCCGGCCAAGGCCTCCTCCCTCGCAGGCGTAGCCAGGTCACTGCCGCAGGAGCACGGCCGTCGAGACGGGTCCGGCATTCCGCTGTCCCAGCCTGTTGATGTGATCGGCCCTGCCATGGCGTGGCCCGATCCTGATCCGGCCTAG	MARRQSSAPAVDSNQDYTENIVDIDVTSEMEGSFLEYAYSVIYSRALPDARDGLKPVQRRILYMMSEMGLRPDRGHVKSARVVGEVMGKLHPHGDTAIYDALVRMAQDFSLRLPLIDGHGNFGSLDDGPAAPRYTEARLAAAALTLTDHLDEDVVDFVPNYDNQLTQPDVLPAAFPNLLVNGATGIAVGMATNMAPHNLVEVISAARHLIAHPDATLDDLMRFVPGPDLPTGGRIVGLDGIRDAYATGRGSFKTRAKVEIEQLSARRTGLVVTELPYMVGPEKVIEKIKDAVNGKKLTGISDIVDLTDRKHGLRLVIELKNGFNPNAVLQQLYRYSPMEDSFGINNVTLVDGQPQTLGLVELLSVYVGHRINVVRRRTAFRLGKKQDRLHLVEGLLIAIVDIDEVIQIIRSSDEAAAARVRLMSIYDLSEIQANYILELRLRQLTKYSRLELEKEQDELRREIAELEAILASEERLRDLVSGELGEIAEKYGTPRRTVLLESEAVSPTVAAALAATNGKGKPAPLALEIADDPCWAILTASGQIARTSNQDPLAESGPRSKHDVFRSVLKTSARGEIAAVTSQGRMLRLQVMDMPMLPPMSGLPNLAGGVQAKDFITLLKGESLVAFAPLDEVLAIGTAQGVVKRVQPDYPLNREDWEVIALKDKDSVVGVAAAGSEDTELVFLTRQAQLLRFGAGNVRPQGRTAGGMAGIKLAADDEVVFFNAVAPDDGDAVVVTIAGTNGALPGTAPGTAKVTAFAEYPAKGRATAGVRAHRFLKGEDTLLLAWAGHGPAKASSLAGVARSLPQEHGRRDGSGIPLSQPVDVIGPAMAWPDPDPA				NA	NA	NA	NA	NA
D1-29_01780	2724			hypothetical protein	ATGGTGGATCAGCCCGGGGACGGCATATATCCGGAACATTGGGAAGCCGATGTCGTCCTGCGGGACGGCGGAACCGCCCACTTGAGACCCATCCATCCTACCGATTCCGAGGCCGTCCAGACCTTTCACACCGGACAGTCCCAGAACTCGATCTATATGCGGTTCTTTGCGTTCAAGGCACGGCTGTCCAGCAAGGAACTCAGGCGATTCACCGAAGTGGACTACAAGGACCGGGTTGCCTTTGTGATTACCATCGGCGGCGAAATCATTGGCATCGGCCGTTACGACAGGCTCGATGATCCTGCCGAAGCCGAGGTCGCCTTCAACATCGCCGACGCACACCAGGGCCGCGGCATAGGATCGATCCTCCTGGAGCACCTCGCCGCCGCCGCCCACGAAAACGGCATCCGCCGGTTCAGCGCCGAGGTGCTGCCGGAAAACCGCAAGATGCTGATGGTGTTCTCCGACGCCGGATATGACGTCCGGCGCCATTTCGACGACGGCGTGGTGAGCCTGGAGTTCAACATCGACCCCACGGAGAAATCCCGTGCCGTGATGGAGTCCCGCGAGCACCGTGCGGAGGCGCGCAGCGTGCGGGACCTGCTGGCGCCGTCGTCGGTGGCCGTGATCGGCGCCAGCCGGAAATGGGGCACGGTGGGATACCAGCTGCTGGAGCACATTATTGAAGGCGGCTTTCCCGGGCCGGTCTACGCCATCAATCCGGAGGCCCTGGAGCTCGCCGGAATGCTGTCCTTTGCCAGCCTCGCCGACGTTCCGGACCCCGTCCAGCTGGCCATCATCGCCGTCCCCTACGAAGAAGTGGACTCCGTGGCGGACGACTGCGCCGCCGCGGGAGTCAAGGGGATGGTGGTTGCCTCCGCGGGGTTTGCCGACGACGGCGAACGCGGCCTCGCCCGCCAGCGGGAGCTGGTACGGAAGGCCCGCGCCAATGGCATGCGGGTCATCGGCCCGGCCTCGCTGGGAATCGTCAACACCCACCCGGACGTATCCCTGAACGCGTCGATGGCCCCCGCCCTCCCGCGGCGTGGCGGGCTGGGACTGTTCAGCCAGTCCGCGGCCATTGGTGTCTCGCTCTACGCAGCATCAAGCCGGCGCAGGATGGGCATCTCCACCTTCCTTTCGGCCGGCAACAGGGCCGACGTCTCCGGTAACGACATGATGCAGTTCTGGGAGGACGACGCCGGCACCGCCGCTGTGGGGCTCTACCTGGAGTCGATCGGCAACCCGCGCAAATTTTCCCGCCTCGCCCGGCGGCTGGCACGCATCAAGCCGGTGATTGTGGCCAAGTCCGAAACCATGGGCCTGAGGCTGCCGCCCGGCCACGCCGTCCGCACCACCCAGGCGCCGGCGGGCGCGCTTGACGCGATGATGCGGCAGGCGGGGGTGATCCGGGTGGAGACGATCGAACAGCTTATGGACGTGGCCCAGATCGTGTCAGGCCAGCCGTTGCCCGCTGGGCCGGAAGTTGCTGTCTTCAGCAATTCCCTGGCCCTGGGCAAGGTAGTGGCGGACAGCGCCTCCTCGCAGGGCCTCACGGTGGAGCGCATCATCACGGACGTGGATCTCGACGCCGGCATGTCCCTTGCGTTGCCGGCTCTCCGCCGGAGCCTGCAGGAAGCACTGGCATCCGAACAGGTCCACGCGGTGGTGGCCGCACTGCTTCCCGCCAGAGGACTCACCGTGGAAAATATCGCCGAGGTCCTGGCAGAGTGTTCGGCAGGGGCGGGGAAGCCGGTGGTGGCCGCCTTCACCGGCATACTGGACCCCTCTGTCTATGTCGAGGGCATGGTAGGAGGCGGACCCGGGGACGGCGCCGGCCCTGGGGACGCCACGGCGCCCGTTCAGGCTGTGCCCTGCTTCTCAAATGCCGGCGCGGCCGTGGCTGCGCTCGCCGCCGTGGTGAGGTACTCCGAATGGGTGGCGCGGGACCAGGGCCACTTTGTGGAACCTGACGGCTGCGACCCCGAAGCCGCACGGCTTCAGCTTGAGGTCCTGCTGCGGGACGTCCAGGGTGAGCAGCTCAAGAAGCTGGATCCGGACGAGGTGGCCACACTGCTGGGGCATTACGGCATTGAGGTTCTCCCGTCCGCAGGCTTTGACACGCCGGAGCAGGCCGTCGAAGCCGCCAACACGCTGGGCTGGCCGGTGGCACTGAAGACCACCGAACCGGCACTGCGCCACCGCCTGGACCTTGGCGGCGTCCGCCTGGACATTCAGGACCAGGAGTCCCTGCGGCTCAATATCCAGCAGATGCGCCGTGCACTCTCCGCATACGGTTCACCCGGGCTGGAGGTGCAGTCGATGGCACCGGTAGGCCAGGCCTGCACCTTCCGCGCCATCGAGGACCCGCTGCTCGGGCCGGTGATCTCCTTCGGGCTGGCCGGTGATGCCGTCAACCTGCTTGACGACTGGGCGCACCGTGTCCCGCCGCTGTCCGCAGCCGACGTGAAGGACTTCATTCGCGGCCCACGGGCGGCCCGCAAGCTTTTTGGCTACCAGGGTTTGCCCGCAGTGGATGTTGCGGCCCTGGAGGAGCTGGCCGGACGGCTGGCGTGGCTGAAGGACAACCATCCGGAGATTGCGCTGGTGGAGTTCAATCCGGTGCTGTGCGGGCCGCAGGGCGCGTCAATCCTTGCTGCGGACATTCGAATCGGGAACGCGGCGCACCGTACGGACAGCGCCCGCCGGGCCATGCTGGGGTAA	MVDQPGDGIYPEHWEADVVLRDGGTAHLRPIHPTDSEAVQTFHTGQSQNSIYMRFFAFKARLSSKELRRFTEVDYKDRVAFVITIGGEIIGIGRYDRLDDPAEAEVAFNIADAHQGRGIGSILLEHLAAAAHENGIRRFSAEVLPENRKMLMVFSDAGYDVRRHFDDGVVSLEFNIDPTEKSRAVMESREHRAEARSVRDLLAPSSVAVIGASRKWGTVGYQLLEHIIEGGFPGPVYAINPEALELAGMLSFASLADVPDPVQLAIIAVPYEEVDSVADDCAAAGVKGMVVASAGFADDGERGLARQRELVRKARANGMRVIGPASLGIVNTHPDVSLNASMAPALPRRGGLGLFSQSAAIGVSLYAASSRRRMGISTFLSAGNRADVSGNDMMQFWEDDAGTAAVGLYLESIGNPRKFSRLARRLARIKPVIVAKSETMGLRLPPGHAVRTTQAPAGALDAMMRQAGVIRVETIEQLMDVAQIVSGQPLPAGPEVAVFSNSLALGKVVADSASSQGLTVERIITDVDLDAGMSLALPALRRSLQEALASEQVHAVVAALLPARGLTVENIAEVLAECSAGAGKPVVAAFTGILDPSVYVEGMVGGGPGDGAGPGDATAPVQAVPCFSNAGAAVAALAAVVRYSEWVARDQGHFVEPDGCDPEAARLQLEVLLRDVQGEQLKKLDPDEVATLLGHYGIEVLPSAGFDTPEQAVEAANTLGWPVALKTTEPALRHRLDLGGVRLDIQDQESLRLNIQQMRRALSAYGSPGLEVQSMAPVGQACTFRAIEDPLLGPVISFGLAGDAVNLLDDWAHRVPPLSAADVKDFIRGPRAARKLFGYQGLPAVDVAALEELAGRLAWLKDNHPEIALVEFNPVLCGPQGASILAADIRIGNAAHRTDSARRAMLG				NA	NA	NA	NA	NA
D1-29_01781	747			hypothetical protein	ATGAGCTCACAGCCTCCCACGTCGGCGCCTCAAACGCCCGGCAATGATAACCAGGCAGCCCACCACTCCAGCTCACACAGCCACAGCGCCCAGGGCCAAAGCCTGGAAGGGGCGCTCCAGAAGGCAGGTTTCTACCCGCGCCTGGTGTCCGACGTTGTGGATGACGCCCTCGACGGCCGCGACTGCGTTGCCCACCTGGTCCACCTGGAGACCCACTTTGACCGGGCAGAGGTCCGCCGCCACATCACCGTCCTGGTGCTCACCGCGGACATGCTGGTTATCACGCATGTGGACGACCAGCAGCTGGATGAGGCCGGCGAGCAAATCGTGGCCCAGATTTCCACCGAGTCCGTCCCGGTTGCCCAGATCCGCTCCGTGGTGCTTAGTTACATGTATTCCCAGCCGCAGGACTACAAGCCTTCCGATCCGGTGCGCGAGCTGACCTTGGCCATCGCCTGGTCCGGCGGCCAGCGGCTCGACATGGGCCCGGCCAGCTGCGGCGATCCGCAATGCGAGGCGGACCACGGCTACAGCGGCACCATAGCCCAGGAAGACATTGTCCTGCGGATCAGCGCCGAAGCCGATGGGCTGCAGGCAGTCCAGGACGCCAAGCTCTTCGCGAGGGCCCTGCGCGCTGTGAATACCGGTTCCACCGCTCCTGTCCAGCATGCACCGCAGACACTCCAGCCCCGGCCGCGGGCCGGCGTGTTTGGAAACCGCCTCAGCCGCGGACACCAGCAGCGCTGA	MSSQPPTSAPQTPGNDNQAAHHSSSHSHSAQGQSLEGALQKAGFYPRLVSDVVDDALDGRDCVAHLVHLETHFDRAEVRRHITVLVLTADMLVITHVDDQQLDEAGEQIVAQISTESVPVAQIRSVVLSYMYSQPQDYKPSDPVRELTLAIAWSGGQRLDMGPASCGDPQCEADHGYSGTIAQEDIVLRISAEADGLQAVQDAKLFARALRAVNTGSTAPVQHAPQTLQPRPRAGVFGNRLSRGHQQR				NA	NA	NA	NA	NA
D1-29_01782	1236			hypothetical protein	ATGCCGGACCACGGGAAAATTGCCGTCCCCCCAGCACCTTCTGAACGGAACCGTCCGGCCTTGAACACACCGCCGGCGCCCGCTTTCGGGCAGCGCTCCATCGCCGATGTGCTGACGAGTGCTGCAGCCAGCCTGGGCGTAGAAGGCTTCAGCAACACCCTCGGCCTTCCGCCGGCGTCGCGGGTCTGCGTGGTCCTGGCCGACGGCCTGGGCCGCAACCTCCTGAAGCAGAAGTCGGCCCACACCCCGTTCCTGCGCTCGGTCATGCAGGCCGGGCAGGGCGAGGTCCCGGTGTGGCTGGACTCCACGTTCCCCTCCACCACGGCAGCGGCACTGGCGAGCTTTGGGACCGGTCTGGTACCCGGCCAGCATGGCCTGGTGGGGTTCGATGTGCTGGACCCGGACCAGGACAAAGTGGTGAACATGCTCGGCAACTGGGACGCGGGCGTGGATCCGCTGGCATGGCAGCCGTTTCCCACCGTGTTTGAGCGTGCGGCCGCCTGGGTGGATGTGACAACGGTCAGCCTTCCGCAGTTCAGCACGTCGCCCATGACCCAGGCGGCGCTCCGGGGTGGCCGCTTCATCTCCGCCAACACGTCCCACGCCCGCACCGCAGCTGCCGCCGATGCGATGGCCGCTGCCGGGCCCGCGCTCATGTACTTCTATGTCAACGAGCTGGATAAGGCCGGGCACCGGCATGGGTGCCAGTCCGAACAGTGGGAACACCAGCTGGAGGAACTGGACGCCACGGTCAAGAGGCTCAACAGCTCGCTTCCTGCCGGCACCACCGTGCTGGTGACCGCGGACCACGGCATGCTGGACGTTCCCGAGGGCCAACGGATCGACTACGCCGCGGATCCTGCCCTGATCGAAGGGGTCCGGCACACAGCGGGGGAGCCCCGCATGGTCCACCTCTACCTTGAAGACTGGATGGATGCTTCCGGCCGGGACAGGCTGCTGGACGCCTGGCGTGGCCGCTTTGGCGAGAGGATCTGGGCCTTCACGAGGGAGGAAGCGCTGGCCGCCGGGCTGTTCGGGCCGCTTCGCCCCGCGGTCGGGCCCCGGATCGGGGACATCATGATCGCCGCACGGGATGCCCTTGCCCTCTATGACACCCGCCGCTCGAGGCCCACAGCCATGGAGGTCATCGGCCAGCACGGCTCGTTGACGAAGGCGGAACGGGAAGTGCCGCTGCTGTGCTTCGCTGCGGAGGGCAAGAAGGCCCGCCGTGGCTGA	MPDHGKIAVPPAPSERNRPALNTPPAPAFGQRSIADVLTSAAASLGVEGFSNTLGLPPASRVCVVLADGLGRNLLKQKSAHTPFLRSVMQAGQGEVPVWLDSTFPSTTAAALASFGTGLVPGQHGLVGFDVLDPDQDKVVNMLGNWDAGVDPLAWQPFPTVFERAAAWVDVTTVSLPQFSTSPMTQAALRGGRFISANTSHARTAAAADAMAAAGPALMYFYVNELDKAGHRHGCQSEQWEHQLEELDATVKRLNSSLPAGTTVLVTADHGMLDVPEGQRIDYAADPALIEGVRHTAGEPRMVHLYLEDWMDASGRDRLLDAWRGRFGERIWAFTREEALAAGLFGPLRPAVGPRIGDIMIAARDALALYDTRRSRPTAMEVIGQHGSLTKAEREVPLLCFAAEGKKARRG				NA	NA	NA	NA	NA
D1-29_01783	717	tdk		Thymidine kinase	GTGGCTGAGCTGGTGTTTTTCTCCGGAACCATGGACTGCGGGAAGTCGACGCTGGCCCTGCAGATGGACTATAACCACCGGGCGCGCGGGCGGGGCGGCGTTCGCTTCAGCCGCAATGACCGGGCCGGAGGGTTCCGGATTTCCAGCAGGCTTGGCCTTGAAACGGACGCGGTAGAGGTCCTGGACAGCACCGACTTCTGGGATGAAGTGGTCAGCCGCCGCACCAGGGGAGAGAAGGTGGATTTCCTGATTTGCGACGAAGCACAGTTCTATTCGCCGGACCAAGTGGAGCAGCTGGCCAGGGTGGTGGACGAGATCGACGTCGACGTTTTTGCTTTCGGAATCAGCGCGGACTTCCGCACCCGGCTCTTTCCCGGATCCCAGCGGCTCATTGAACTCGCCGACCGCGTCCAGGTTCTCCAGGTGGAAGCCCTGTGCTGGTGCGGACGGCGCGCCACCCAGAACGCCCGGACGGTGGACGGTGTGATGGTGGTGGAGGGCGCCCAGGTGGTCGTGGGAGATGTGGATATGGCGGTCGATCCCACGGCGTCCAAGGCTGAGGACCACGTCCCGCCGGTGGGCTATGAAACCCTGTGCCGGCGGCACTACATGCGGCGGGTTACGGCGCACGGCGCCAGCATTATGGCCCAGCGGGACCAACTGCTCCCGTTTGAGACGGATGCCTGCCTGTGGCGCGGGTCCGGCGGGGAAGGCTAA	MAELVFFSGTMDCGKSTLALQMDYNHRARGRGGVRFSRNDRAGGFRISSRLGLETDAVEVLDSTDFWDEVVSRRTRGEKVDFLICDEAQFYSPDQVEQLARVVDEIDVDVFAFGISADFRTRLFPGSQRLIELADRVQVLQVEALCWCGRRATQNARTVDGVMVVEGAQVVVGDVDMAVDPTASKAEDHVPPVGYETLCRRHYMRRVTAHGASIMAQRDQLLPFETDACLWRGSGGEG	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
D1-29_01784	1440			hypothetical protein	ATGCAGGATCTACGGCTTGTAGGCGTACACGACGACGGGGAGCATCTCCTGTTGAGCGGTGCCGGCGGCGAGATGTTCCAGCTGCCGATCGACGAAGCTCTCCGGGCGGCCAGCCGGTCATCGGCGAAGGCATCGGCCGCCACAGCTCCCATCGCCATGTCGCCGCGGGATATCCAGGCAAGGATCCGCAGCGGCGCCACCGCGGCGGACGTGGCGGAGCTCTCCGGGCTGCCCCTCGCCAAAGTTGAGCGCTACGAGGGACCTGTCCTGGCTGAACGCGAGTACGTGGCCCAGCAGGCGCGCAAGATTGAGGTGGCCTCACCCTCCCCGGGCCATGACGCGTACCGTTCAGTTTTCGGCGACAACCCTGCCTCACTGGGTGACATGGTGGCCCACCGGCTTTCGGCGCACGGCATTGACCCCTCCTCGGTGGAGTGGGACTCCTGGCGGCGGCCCGACGGCAGCTGGACAGTGGTTGCGCGTTTCGCGCTGAAAAATGACGGCACGCCCGGCATCGGCGAAGAACCCCCCGCTCTGTGGACGTTCAGCCCGGCCCGCAAGGCGCTGCAAAACGCCAACCGCTGGGCCCAACAGCTCAGCGAACTGGAGCCGCTGGACGGCCCCGTTCCGGCCCGCCGTCTGACGGCCGTTTCGGACCGGCCCTTCGACTTTGAAACCGATGCCGGCGCGGCAGCAGCCCGGAACGCGGCTGCCACGCACAGCGGTCCGCAGCCGGTCAAGGAATCCGACGGACTGTTGGACATGCTGCGCTCGCGCCGCGGCCAGCGCCTGGGGGTGGATGAGGACGCCGACGACGCCCTGGCCCTGCTCCTGACCCATGGGGTCCCGGCTGCGCATCCACGTCCTTCCGAATTGAGCCAGCAGCAAAAGGAACACCAGCCACAAAAGGACAAGGATCAGGAACTCAGGGATTCTGAACCTGCCGGAACACTTGGATCCTCCGGATCCGAGCATGAGGCACCGGCGGTGCAGGCCGATCCGCTCACGCGGAAGCGCGAGGGAAGGCCTTCCATGCTGTCCAGGTTGAGTCTGATCCCCCCGCACCGGGACAACGTGGAGGACTTACTGAGACTGCACGACGGCGTCAGTACGGACACGCGGGAAATCACCATTGTGGCGTCCCCGCTCCGCCCCGCCGGGCAGGCGTACACACCACCGGCCTCCACCAAGAATCCTGCATCCACGTCCGAAGATCCACCGCCGCCGGACACCGGGAACACCACACCAAGCGTGGGCCTTGACGAACTGCTGGGCGGCGGGAGCCCGCGGCGCATGCATCGCTCCACTACGCCCGACGACCCGCCGGCCAGGGCGCACCACGAGCAGGATGCAGAGATGCCGGAACGGCAGCCCGCCAAACCGAAACGCTCAAGCATTCCTTCCTGGGACGAGATCGTCTTCGGGACCAGGGGCGACTGA	MQDLRLVGVHDDGEHLLLSGAGGEMFQLPIDEALRAASRSSAKASAATAPIAMSPRDIQARIRSGATAADVAELSGLPLAKVERYEGPVLAEREYVAQQARKIEVASPSPGHDAYRSVFGDNPASLGDMVAHRLSAHGIDPSSVEWDSWRRPDGSWTVVARFALKNDGTPGIGEEPPALWTFSPARKALQNANRWAQQLSELEPLDGPVPARRLTAVSDRPFDFETDAGAAAARNAAATHSGPQPVKESDGLLDMLRSRRGQRLGVDEDADDALALLLTHGVPAAHPRPSELSQQQKEHQPQKDKDQELRDSEPAGTLGSSGSEHEAPAVQADPLTRKREGRPSMLSRLSLIPPHRDNVEDLLRLHDGVSTDTREITIVASPLRPAGQAYTPPASTKNPASTSEDPPPPDTGNTTPSVGLDELLGGGSPRRMHRSTTPDDPPARAHHEQDAEMPERQPAKPKRSSIPSWDEIVFGTRGD				NA	NA	NA	NA	NA
D1-29_01785	300			hypothetical protein	ATGGCCACCGACTATGACGCGCCGCGGAAGTCCGAAGAAGACCTCAATGAGGATTCACTGGAGGAATTGAAGACCCGAAGGTCGGACAAGCCCGCTGCAGTGGTGGAAGAGGATGAAAGTGAACTTGCCGCCGGCTACGAGCTCCCGGGAGCAGACCTCTCCGGCGAGGAACTCCTTGTCCAGATAGTCCCGCCCCAGGCGGACGAATTCACCTGCTCGTCATGCTTCCTGGTCAGGCACCGTTCCCAAATAGCCCTGGAAAAAGACGGCCGCCTTTATTGCAAGGAGTGCGAAGGCTGA	MATDYDAPRKSEEDLNEDSLEELKTRRSDKPAAVVEEDESELAAGYELPGADLSGEELLVQIVPPQADEFTCSSCFLVRHRSQIALEKDGRLYCKECEG				NA	NA	NA	NA	NA
D1-29_01786	489			hypothetical protein	ATGCCCGAATCAAGCTCCACCCCCCCTGTTCCCAACACGCCTTCCGCCGGTACTGCGGTAATTTTCAAGGAGCGGCTGTGGCCCACCATCTGGGTCTGGGTCATTGCAGCGGGTATTGCCGGCGCCGGGATCCTGGTTTTTGCGCCCATCAGCATGGGTGCCGGCTACACGGCGGCGGCGGTGCTTTTTGGCATCATGGCCGTCCTGCTGGTGTTGTGGACTCCCGCCATTATTGTCACCGGGACGTCCCTCACGGTGGGCCGCGCCACGATCGAGCGCAGGTTTGTCGGCGAGGTACAGCCGTACCGCGGCAAGGAGGCCACCGCGGAACGCGGGACCCGGCTGAACGGGCTTGCCTACCTGTGCATCCGCGGCTGGATCGACCCCGTGGTCAGGATTGAGATAACCGACGCATCGGACCGGACGCCGTACTGGCTGACCTCCACGCGGCGGCCCGAAGAACTGACAGCGGCCCTGCAGAACACCTGA	MPESSSTPPVPNTPSAGTAVIFKERLWPTIWVWVIAAGIAGAGILVFAPISMGAGYTAAAVLFGIMAVLLVLWTPAIIVTGTSLTVGRATIERRFVGEVQPYRGKEATAERGTRLNGLAYLCIRGWIDPVVRIEITDASDRTPYWLTSTRRPEELTAALQNT				NA	NA	NA	NA	NA
D1-29_01787	591	dut		Deoxyuridine 5'-triphosphate nucleotidohydrolase	GTGACTGATGAACTTGCCACTGTAGATTCCGCCCGTGACGAGACGCTGCCCGGCGCTGCACCAGATGGCGCAGCAGAAGCTGCGCCTGGCGCGGCCATTGGCGCCGCCACTGGTGCAGCCGCACCGTACGGTGCGCCAACGCTGCAGGTACAGCTGAAAATGCTGGATGCCTGGCTGGAGGCCCCGTCCTACGCCCACCCTGGTGACGCCGGGGCAGACCTGCGTGCCCGCGAAGACGTTGTACTGCAGCCGGGGGACCGGAAACTGGTCCCCACCGGAGTGGCCATTGCCCTGCCGGAAGGCTACGTGGCACTGATCCACCCCCGGTCGGGCCTTGCCACCAAACACGGGCTGACCATCGTTAACGCGCCCGGGACGGTGGACGCCGGGTACCGCGGTGAAATCTCGGTGACATTACTGAATACCGACAGGCACCAGGCCATTGAGCTGCGGCGCGGCGATAGAATTGCACAGATGGTGATCCAGCGGGTTGAGTATGCGCAATTCATCCCAGTCAACGAATTGAGCGGCTCGGTACGCGGTGCGGGCGGATTCGGTTCCACCGGCGGATTCACACAGCCCACCACCTGA	MTDELATVDSARDETLPGAAPDGAAEAAPGAAIGAATGAAAPYGAPTLQVQLKMLDAWLEAPSYAHPGDAGADLRAREDVVLQPGDRKLVPTGVAIALPEGYVALIHPRSGLATKHGLTIVNAPGTVDAGYRGEISVTLLNTDRHQAIELRRGDRIAQMVIQRVEYAQFIPVNELSGSVRGAGGFGSTGGFTQPTT	PGPT0021355_533	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021355-dut-K01520	NA	NA
D1-29_01788	726			hypothetical protein	ATGGTTTTTGGGCTCGGCAGGAAAGCCAAGAAGGATCAGGAAGCCGAACTGGACGATTCCCTGGCCACCACGGACGCGGCAGATTCGGAAGGTGCGGCCAACACCAAGGCACCGCGGGCCGCCGGGCCGTTTGACGTCTCCGAGATCTCCAGCCGTGACGGTTACGTGGACCTCGGTGCCCTGCTCATCACCCCCAGCGAAGGCCTGCAGTTGAGGCTGGAAGTTGAGGAAGCCACGCAGCGGGTAGTGGCGGTCACCATGGACCTGAACGGTTCAAGCCTGCAGCTCCAGGCCTTCGCGGCACCCAAGTCCGAGGGACTGTGGGACGAGATCCGGGAGCAGATTGGCCAGTCGGTGGGCAGCCAGGGCGGCCAGGTTGAAGAGGTCCCGGGCGAGTTCGGCCCTGAGCTGATTGCCAAGCTCCCCGCCGGTGCCGCAGACGGAAGCCAGGGATACCGCGTGGCGCGTTTTGTGGGGGTGGATGGCCCGCGGTGGTTCCTGCGCGGGGTACTGGGTGGCGCGGCAGCGTTGGACCGCGAAGCCGCGGCGCCGCTTGAGGCCCTGTTCCGCAAGATCGTGGTGATCCGCGGCGACAGCCCCATGCCGCCGCGCGACCTGCTGCAGCTTCGCCTGCCGAAGGACGCCGCACCGGCACCAACACCGGCACCGGCTGCGCCAGAGCTCCAGGAGCCCGAGCGCGGTCCGGAGATAACGCAGATTGGCTGA	MVFGLGRKAKKDQEAELDDSLATTDAADSEGAANTKAPRAAGPFDVSEISSRDGYVDLGALLITPSEGLQLRLEVEEATQRVVAVTMDLNGSSLQLQAFAAPKSEGLWDEIREQIGQSVGSQGGQVEEVPGEFGPELIAKLPAGAADGSQGYRVARFVGVDGPRWFLRGVLGGAAALDREAAAPLEALFRKIVVIRGDSPMPPRDLLQLRLPKDAAPAPTPAPAAPELQEPERGPEITQIG				NA	NA	NA	NA	NA
D1-29_01789	279			hypothetical protein	GTGTGCCACGGCCAGGTTGAATCCGTCACCTTTATGCCGGCGGACCAGACGGCAGCCTATACGGCGATAGTTTCAGACGTTGAACGTGAGCGGTCCGGTTTACGGACGGCGTCCGGGCAACGCGGCCGCCTCCGCGTGGTGTGGCTGGGACGGCGGCGCGTGCCAGGCATCGACGCCGGCACCGAAGTCCGGCTTGAAGGCATGGTCACACAGAGCCAGGGCCTGCCCACCATGTTCAATCCACGCTACGAGATACTGTCCAGCCAGGAGAATGAATGA	MCHGQVESVTFMPADQTAAYTAIVSDVERERSGLRTASGQRGRLRVVWLGRRRVPGIDAGTEVRLEGMVTQSQGLPTMFNPRYEILSSQENE				NA	NA	NA	NA	NA
D1-29_01790	756			hypothetical protein	ATGAGCTCGTCCCAGCAGCCGGAGCCGTCCCCGGGATCACCCCGCCCCGAGCCTGATCCTTCCACCATGGCCGGACTTGCCGAAGGCTACGCGGCCAAAGCCGGACTCCACCGGACCCATGACGGCCGTATCGATGTCCTGCGCAGCGCCGGCGGCGTCCAGGGAATCGCGGAAAGCATCCTTCCGGGCCTGGTTTTCCTCATTGCGTTCACCGTCACCCGGGACCTGACACCGTCACTGGTGGCCGCCCTGGCCTCGGCGGCCGTGTTTACGGTGGTGCGCCTGGTGCAGCGGCGTCCGCTGACCCAGGCGCTGGCCGGGGTTGTGGGCGTCGGAATCTCGGCGTGGCTGGCAAACACCACCGGAAAAGCCGAGGATTTCTACCTTCCCGGCTTCATCACCAACGCCTCCTACATCCTCGCCATGGTCATTTCGATCCTCATCAAATGGCCCGTGGCCGGGCTGCTGTTTGGCTTCATCCGCAATGAAGGCATCGAGTGGCGGAAGGACCCCGCCCGGCTGAAGGCGTACCGCCTTGGCACCTGGATCATCATCACGGTGCTGGTGCTCCGGCTGGTGGTCCAGGTTCCGCTGTATCTGATGGGCGAGGACGGGCTGGCAGGGCTGGCCACCACACGCCTCATCATGGGTGCCCCGCTGTACATCCTTGGCGTCTGGATCGCGTGGCTGATCACCCGGCCGGTTCCCGCGGCGGAACCAACTCAGCCGTCGAAGCCGTCGCCCTCCGCCACCTGA	MSSSQQPEPSPGSPRPEPDPSTMAGLAEGYAAKAGLHRTHDGRIDVLRSAGGVQGIAESILPGLVFLIAFTVTRDLTPSLVAALASAAVFTVVRLVQRRPLTQALAGVVGVGISAWLANTTGKAEDFYLPGFITNASYILAMVISILIKWPVAGLLFGFIRNEGIEWRKDPARLKAYRLGTWIIITVLVLRLVVQVPLYLMGEDGLAGLATTRLIMGAPLYILGVWIAWLITRPVPAAEPTQPSKPSPSAT				NA	NA	NA	NA	NA
D1-29_01791	774	trkA_1	COG0569	Trk system potassium uptake protein TrkA	GTGAAAGTAGTCATCGTAGGCGCCGGCAGTGTCGGTTCGTCGATTGCCAGGGAGTTGCTGGCCCACAAACATGAAATCCTGCTGATAGACCTCAAGCCGGAGGTCATTGGCCGCAGCGGACTCCGCGGCGCGCACTGGCTGGTAGGCGACGCCTGCGAACTGAGCACGCTGCAGGGCGCGAAGGTGGAAGACGCCGACGTCGTGGTTTCGGCCACCGGCGACGACAAGGTGAACCTGGTGGTCTCCCTCCTGGCCAAGACGGAATTCGGCGTGGGCCGTACTGTGGGCCGGGTCAACAACCCCAAGAACGACTGGATGTTCAACGATTCGTGGGGCGTTGACGTGGCCGTCAATACGCCGCAGTTGATGACCGCCCTGGTGGAAGAAGCCGTGGAGATCGGCGACCTGGTCAGGCTGCTCACGCTCCAGACAGGTGTCTCTTCCCTGGTTGAGTTCACGGTCCCCCATGATTCGCATGCCATTGGCCTGACCGTGGGAGAAATCCGCTGGCCCGAAGACTCGACGCTGGTGGCGATCCTGCGGGACCACGCCCCCATCACGCCCAGCCGGGATGACGTGATCGACGGCGGCGACGAACTCTTTTTTGTCACCACGATTGCTGCCGAGGATGAGCTCCGTGCCCTGCTCTCGCCGGAGTCGGTGGAGCCGGTGGAGCCTGCGGAGTCGTTAGCCGGGGCGGGGCAGCCTGGCGCTAACCCGGCCGCCCAGCCGGTAGAGGCTCAGGTGGCGGAGGGCGACGGCTTCGACGGCTGA	MKVVIVGAGSVGSSIARELLAHKHEILLIDLKPEVIGRSGLRGAHWLVGDACELSTLQGAKVEDADVVVSATGDDKVNLVVSLLAKTEFGVGRTVGRVNNPKNDWMFNDSWGVDVAVNTPQLMTALVEEAVEIGDLVRLLTLQTGVSSLVEFTVPHDSHAIGLTVGEIRWPEDSTLVAILRDHAPITPSRDDVIDGGDELFFVTTIAAEDELRALLSPESVEPVEPAESLAGAGQPGANPAAQPVEAQVAEGDGFDG	PGPT0002710_1981	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
D1-29_01792	675	trkA_2	COG0569	Trk system potassium uptake protein TrkA	GTGGCGCATTTCGTGATCATGGGATGTGGCCGTGTGGGGGCGACGCTAGCGCATACGCTCGAGGATGCCGGCCACTCCGTGGCGATCATCGATCAGGACGACCGCGCTTTCCGCAGGCTGCGCCAGGGCTTCACGGGGCGCAAGGTCACCGGCGTCGGCTTTGACCGGGACACCCTCAAGCAGGCCGGAGTGGCCGACGCCTATGCTTTCGCCGCGGTGTCCAGCGGCGACAACTCCAACATCCTGGCTACCCGCGTTGCCCGGGAGACATTCCACGTCCCGCACGTTGTGGCCAGGATCTACGATCCCGGCCGGGCCGAGATCTACCAGCGCCTGGGCATCCCCACCGTGGCCGCGGTCCGCTGGAGCGCGGACCAGGTCCTGCGGCGCATCCTTCCGGAGCAGCATCTCGCCGGCGATTTCCGCGAGCCCTCCGGCCGCCTGGTGCTGGCCGAACTTGATCTCGACCCCGGCTGGGTGGGACACCGGGTCACCGCAATCGAGAAAGCCGCGGATGTCCGCGTGGCCTACCTCACGCGTTTCGGCGAGGGCCTGCTCCCCGACTCCGGCACTGCCTACCAGGACGGCGACACCCTGCACGCCATGCTGCAGGTGGACCGCAGTGCCCAGGTTGCGCATATCCTGGCCAAAGCCCCCGCGAAGGAACCGAAGTGA	MAHFVIMGCGRVGATLAHTLEDAGHSVAIIDQDDRAFRRLRQGFTGRKVTGVGFDRDTLKQAGVADAYAFAAVSSGDNSNILATRVARETFHVPHVVARIYDPGRAEIYQRLGIPTVAAVRWSADQVLRRILPEQHLAGDFREPSGRLVLAELDLDPGWVGHRVTAIEKAADVRVAYLTRFGEGLLPDSGTAYQDGDTLHAMLQVDRSAQVAHILAKAPAKEPK	PGPT0002710_3196	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
D1-29_01793	1956	kimA	COG0531	Potassium transporter KimA	ATGAAACGGGTTCTGGTGGGCAGGCCCTTCAGGAATGACAGGCTGGCCCATACCCTGCTTCCCAAGCGGATCGCGCTTCCGGTTTTCGCCTCCGACGCGCTGTCCTCCGTAGCCTACGCACCGGATGAAATCCTGCTGACCCTGGCACTGGCCGGCGTGAGTGCGGTGGCCTTTTCACCGTGGGTTGGCCTCGCGGTCATGGTGGTGCTGCTGACGGTGGTGGCGTCCTACCGGCAGAACGTGCACGCCTACCCGTCCGGCGGAGGCGACTACGAGATCGCCAACGTGAACCTCGGAAAGCATGCCGGCCTGACGGTGGCGTCGGCGCTCCTGGTGGACTACGTCCTGACGGTGGCGGTTTCCATGTCGTCCGCAGCGACCTACCTGACCACCGCCATCCCTGACCTGCACGGGCAGCAGGCGCTCATCGCCACTATCGGCGTGGCCATCCTCGCCCTGGTCAACCTCCGCGGCGTTAAGGAAGCCGGCACAGTTTTTGCCGTCCCCACCTACATTTTTATGGCCTCGATCCTGGGGATGACCGCTGTGGGAATCTTCCAGGCCTCCACCGGCCAGCTGGGCGAGGCGCCGTCAGCCGCTTTCAGCATCGTGCCGGCTCCGGGATTCGACGAAGGGCTGGTGGGCCTGGCCGGCGCCTTCCTCCTGCTGAGGGCGTTCTCCTCCGGGGCCGCTGCCCTCACCGGGGTTGAAGCCATCAGTAACGGTGTGCCCAACTTCAAGGAGCCCAAAAGCAAGAATGCTGCCACCACACTGCTGCTGCTGGGCGTCATCGGGGCGTCGATGCTGGCCGGGATCATGTACCTGGCCAGCGCCACCAAGGTCCACATCGTGCTGGATCCGGCCCGGGAGTTCCTGCTCAACGGCATTCCGTTGCCCCCCGATTACATCCAGACCCCCGCCATCAGCCAGATCGCGCAGACCATCTTCGGCCCCGGTTCCATTCCCTTTTACATTGTGGTGGCAGCCACCGGCGTGATCCTGGTGTTTGCGGCCAATACCGCCTTCAACGGCTTTCCCGTCCTGGGCTCCATCCTGGCCCAGGACGGTTACCTTCCCCGGCAGCTGCGGACCAGGGGAGACCGGCTGGCCTTCAGCAACGGTGTATTGGCGCTGGCGGCCGGAGCCCTGGTGCTGATCCTTGCCTTCAACGCAGATGTCACCAGGCTCATCCAGCTGTACATTGTGGGCGTCTTTATTTCCTTCACCGCAAGCCAGCTGGGCATGATCAGGCACTGGGGACGGCAGCTCAAGCTCGCCAAGGACACAACAGTCCGGCTGCGGATGGTGAAGTCGCGCACCATCAACACCATCGGTTTCGGCATGACGGCGCTGGTCCTGGTCATCGTCCTGGTCACCAAATTCGAGCAGGGCGCCTGGATCGCCCTGCTGGCGATGTTCGTGCTCTACCTGATCATGTGGAGCATCCGGGCCCACTATGACAATGTGGCCAAGGAACTGGCCGTGGACGAGGATTCCTCGCCGCGGGCCCTTCCGTCCCGGGTGCATGCCGTGATTCTGGTGTCCCACGTGCGCAAGCCCGTGCTCCGGGCGCTGGCCTACGCCCGCGCCTCCCGGCCCTCGCGGCTGGATGCCGTTACCGTGGACATCAACGCCGAAGAGACGGCACGCACTGTTGCTGATTGGGAAAAGCTCGAGATTCCTGTGCCGCTGACCGTGCTGGCGAGCCCGTACCGGGAGACCGTCACCCCCATCATGGAGTACGTCAAGAACATGCGGCGCGATTCCCCGCGTGACCTGATCGTGGTGTACATCCCCGAGTACGTGGTGGGCAAATGGTGGGAGCAGCTGGTCCACAACCAGACTGCGCTGCGCATCAAGACCCGCCTGCATTTTGAACCTGGCGTGATGGTGGCCAGCGTTCCGTGGCAGTTGAAATCGTCCGAAGAAGCCAAGAACCTGCAGGATATCCAATGA	MKRVLVGRPFRNDRLAHTLLPKRIALPVFASDALSSVAYAPDEILLTLALAGVSAVAFSPWVGLAVMVVLLTVVASYRQNVHAYPSGGGDYEIANVNLGKHAGLTVASALLVDYVLTVAVSMSSAATYLTTAIPDLHGQQALIATIGVAILALVNLRGVKEAGTVFAVPTYIFMASILGMTAVGIFQASTGQLGEAPSAAFSIVPAPGFDEGLVGLAGAFLLLRAFSSGAAALTGVEAISNGVPNFKEPKSKNAATTLLLLGVIGASMLAGIMYLASATKVHIVLDPAREFLLNGIPLPPDYIQTPAISQIAQTIFGPGSIPFYIVVAATGVILVFAANTAFNGFPVLGSILAQDGYLPRQLRTRGDRLAFSNGVLALAAGALVLILAFNADVTRLIQLYIVGVFISFTASQLGMIRHWGRQLKLAKDTTVRLRMVKSRTINTIGFGMTALVLVIVLVTKFEQGAWIALLAMFVLYLIMWSIRAHYDNVAKELAVDEDSSPRALPSRVHAVILVSHVRKPVLRALAYARASRPSRLDAVTVDINAEETARTVADWEKLEIPVPLTVLASPYRETVTPIMEYVKNMRRDSPRDLIVVYIPEYVVGKWWEQLVHNQTALRIKTRLHFEPGVMVASVPWQLKSSEEAKNLQDIQ				NA	NA	NA	NA	NA
D1-29_01794	1452		COG2265	putative RNA methyltransferase	ATGAACACCAAGACCCAGACCGCTTCGCATTCAGCCAATTCCCATCCAGCCGCCTCCCATCCAGCCCCTGACGCGCTGACGGAGCTGGTGCTCGACGTCGGCCCCGTGGCCCACGGCGGGCACTGCGTGGCACGCCACGAAGGCAGGGTGATTTTTGTCCGCCACGGCATCCCCGGCGAGAAGGTCCGGGCCCGGGTGACGGAAGCGGGGGAGACGGCCAAGTTCTGGCGTGCCGACGTGGTGGAGGTCCTGGACGCCTCACCGGACCGGGTGGAGCACTTTTGGCACCTCGCTGACGCCCGGCGCGCGTGGGCAGCCGGGCACCCGCCCGTCGGCGGAGCTGAATTCGGCCACATCACGCTGTCCCGCCAGCGGGCCCTCAAGTCCGCAGTGCTGGCCGAACAGCTCAAGCGGCTCGCCGGCGTCGAACTTCCTCCGGCGGATGTCCCCGGCCACGAGAATGCCGAGAACAGCGGCACGCCGGTGGAGGCCGTGGGCAGCCGGTCAGGCGAAAACTCAACGCCCGACGCCGGCGCCGGCCTTGAGTGGCGGACCCGGGCCAGTTTTTCCGTCACCCCCGGCGGGAAACTGGGCATGCACGCCCACCGCTCCGACCAGATCATCCCCGTGCGGGGAATGCCGCTCGCCGTCGACGGCATTAACCGGCTGCGCCTGTGGGACATCGACCTGCAGGGCATCGACCGGGTGGAGGTGGCAGCACCGGCTAACGGATCACGGCCCCTGGTGCTGCTCTCCCCGGCGCCGGGCACCAAACCCAAGCGGCTCAGCGCCATCGTCGCCCAGCTCCCCGACGACGTTTCCGTGGCCAGCTTCGACCCTCTGAAGGACGAGGTCAGGCAACTGCGGGGCCGGACATGGGTGCAGGAGACCGCCGCAGGGCACGACTACCGCATCACGGGGGCCGGCTTCTGGCAGATTCACCGCGACGCGCCCGAAGCACTTGTGGGGGCCGTCACAGAATTCCTCCACGGCGGGGGCTTCCTGGAGCCAGGCTCAGTGGTGGCGGATCTGTACGCCGGGGCCGGCCTGTTCACCGCACCCCTGGCGGACGCGGTGGGGGAGACGGGCTCCGTTCTCTCAATCGAAGGCGCAGCGGGAACCAGCCGGGACGCGCGCAAAAACCTGCACAACGCGCCGCAGGTGGAGATTGTTCAGGGGAGGGTTGAGCGCGTCCTCCGCCAGAAACCGCGGGAATTTGACGCCGTGCTGCTGGATCCGCCCCGGGCAGGTGCCGGAAAAGCAGTGGTCAGCCAGCTGATCGCCGCCGGACCGCGTGCCATCGCCTATGTGTCCTGCGACCCCGCATCCTTTGCGCGTGATCTGGGTTACTTCCAGCAGGGGGGATGGTCCCTTGCCGGGCTGCGGGCGTTCGATCTGTACCCGCACACCCACCACCTGGAGACTGTGGCATTGCTGACACCAGCCCGCTGA	MNTKTQTASHSANSHPAASHPAPDALTELVLDVGPVAHGGHCVARHEGRVIFVRHGIPGEKVRARVTEAGETAKFWRADVVEVLDASPDRVEHFWHLADARRAWAAGHPPVGGAEFGHITLSRQRALKSAVLAEQLKRLAGVELPPADVPGHENAENSGTPVEAVGSRSGENSTPDAGAGLEWRTRASFSVTPGGKLGMHAHRSDQIIPVRGMPLAVDGINRLRLWDIDLQGIDRVEVAAPANGSRPLVLLSPAPGTKPKRLSAIVAQLPDDVSVASFDPLKDEVRQLRGRTWVQETAAGHDYRITGAGFWQIHRDAPEALVGAVTEFLHGGGFLEPGSVVADLYAGAGLFTAPLADAVGETGSVLSIEGAAGTSRDARKNLHNAPQVEIVQGRVERVLRQKPREFDAVLLDPPRAGAGKAVVSQLIAAGPRAIAYVSCDPASFARDLGYFQQGGWSLAGLRAFDLYPHTHHLETVALLTPAR				NA	NA	NA	NA	NA
D1-29_01795	2811	acnA	COG1048	Aconitate hydratase A	ATGAGCACTGTGGACAGCTTCGGTTCAAAAGGCAAACTTAATGTAGCCGGAACCGAATACGAAATTTTCCGGTTGAACTCCGTTGAAGGTGCAGAAAACCTTCCGTTCAGCCTCAAGGTATTGCTTGAAAACCTGTTGAGGACCGAGGACGGCGCGAACATCACTGCCGATCACGTCCGCGCCTTGGCGGGATGGGACCCCAACGCCCAGCCCGATACAGAAATCCAGTTCACGCCGGCGCGGGTGATCATGCAGGACTTCACCGGTGTTCCCTGCGTGGTTGACCTGGCGACGATGCGTGAAGCAGTCAAGGAACTCGGCGGTGACCCCAAGCGGGTCAACCCGCTGGCTCCGGCGGAAATGGTCATTGACCACTCCGTGCAGATTGACGCCTTCGGCAACTCCGGCGCGCTGGAGCGCAACATGGAGATCGAATACCAGCGCAACGGCGAGCGTTACCAGTTCCTGCGCTGGGGCCAGACCGCGTTCGACGACTTCAAGGTAGTTCCGCCGGGAACCGGCATCGTGCACCAGGTGAACATTGAATACCTGGCACGCACAGTGATGACCCGTGAAGTTGATGGCGCTCTCCGTGCTTACCCGGACACCTGCGTTGGCACCGACTCGCACACCACCATGGTCAACGGCCTGGGTGTCCTGGGCTGGGGCGTTGGCGGCATCGAAGCCGAGGCAGCCATGCTGGGACAGCCCGTCTCCATGCTGATCCCGCGCGTCGTGGGCTTCAAGCTGACCGGGTCCATCCCGGCCGGCGCCACCGCCACCGACGTTGTGCTGACCATCACCGAGCAGCTGCGCAAGCACGGTGTGGTGGGCAAATTCGTGGAATTCTACGGCGAAGGTGTTGCCGCGGTGCCGCTGGCCAACCGCGCCACCATCGGAAACATGAGCCCGGAGTTCGGCTCCACCGCCGCAATGTTCCCGATTGACGACGTCACATTGGACTACCTGCGCCTCACCGGCCGCTCGGACGAAAACGTGGCACTCGTGGAGTCCTACGCCAAGGAACAGGGCCTCTGGCACGATCCTTCCCGCGAGATCAAGTTCTCCGAGTACCTCGAGCTGGACCTGTCCACGGTTGTTCCCTCCATCTCCGGCCCCAAGCGTCCCCAGGACCGCATTGAGCTGACGGATGCCAAGGAGCAGTTCCGCAAGGACATCCACAACTACGTCGCCATCGAAGACGGCAGCGTGGACGAGTCCCTGGACGAATCGTTTCCCGCCTCCGACGCCCCGTCCTTCACCCACCCTGACTCGCACACCACCGAGACCAGCCGCGTTGTCTCGGCTGCCAACGGTGCCCAGGGGCGTCCGTCCAGCCCGGTCCACGTCGTGACCGAAGACGGCCGCGAGTTCGAGCTGGACCACGGTGCGGTGTCGATCGCCTCGATCACCTCCTGCACCAACACGTCCAACCCCTCCGTGATGCTTGCCGCCGCACTTCTGGCGCGCAACGCCGTCGACAAGGGCCTGACGTCCAAGCCGTGGGTCAAGACCTCCGTCGCCCCGGGTTCCAAGGTTGTCACCGACTACTACGAGAAGTCCGGCCTGACGCCGTACCTGGAGAAGCTCGGCTTCTACATCGTGGGCTACGGCTGCGCCACCTGCATCGGCAACTCCGGCCCGCTGGACGCCGAGATCTCCGAGGCCATCCAGGCCAACGACCTCTCCGTCACCGCAGTGCTTTCCGGTAACCGCAACTTCGAAGGCCGGATCAACCCGGACGTCAAGATGAACTACCTGGCCTCCCCGCCGCTGGTCATCGCGTACGCCCTGGCCGGTTCCATGGACTTCGACTTCGACACCGACTCCCTAGGCAAGGATGAAGCCGGCAACGACGTCTTCCTGAAGGACATCTGGCCCAACCCCGTGGAGGTCCAGCAGGTCATCGATTCCTCGATCGACAAGGACATGTTCGCCCGCGGCTACGAGGGCGTCTTCGATGGCGACGACCGCTGGAAGGCGCTCGACACGCCCGCCGGTGACACGTTCGCCTGGGATCCGAACTCCACTTACGTCCGGAAGCCCCCGTACTTCGAGGGCATGAAGGCGCAGCCGGAACCCGTACAGGACATCTCCGGTGCACGCGTACTGCTCAAGCTGGGCGATTCGGTCACCACCGACCACATCTCCCCGGCCGGTTCCTTCAAGTCGGACACCCCTGCCGGCCAGTACCTCCTGGCCAACGGTGTGGAGCGCAAGGACTTCAACTCCTACGGCTCGCGCCGTGGCAACCACGAGGTCATGATCCGCGGCACGTTCGCCAACATCCGCATCAAGAACCAGATCCTGGACGGCGTCGAAGGTGGCTTCACCCGCGACTTCAGCCAGGAAGGCGGACCGCAGGCCTACGTCTACGACGCCGCGCAGAACTACCAGGCAGCCGGCACTCCGCTGGTGGTCCTGGCAGGCAAGGAGTACGGCTCCGGTTCCTCCCGTGACTGGGCAGCCAAGGGCACGGCGCTGCTGGGCGTCAAGGCAGTCATCGCCGAAAGCTACGAGCGCATCCACCGCTCCAACCTGATCGGCATGGGCGTCCTGCCCCTGCAGTACCCGGCCGGAGAAAGCGCAGCAACCCTGGGCCTGACTGGCACCGAGGTCTTTGCGGTGGAAGGCGTCACCGGGCTGAACGAGGGCTTCACGCCCAAGACCCTCAAGGTCACGGCCACCGCTGAAGACGGCTCCGTCAAGTCGTTCGACGCTGTGCTGCGCATCGACACCCCGGGCGAGGCGGACTACTACCGCAACGGCGGGATCCTGCAGTACGTCCTGCGCCAGATTTCCGCCAACTAG	MSTVDSFGSKGKLNVAGTEYEIFRLNSVEGAENLPFSLKVLLENLLRTEDGANITADHVRALAGWDPNAQPDTEIQFTPARVIMQDFTGVPCVVDLATMREAVKELGGDPKRVNPLAPAEMVIDHSVQIDAFGNSGALERNMEIEYQRNGERYQFLRWGQTAFDDFKVVPPGTGIVHQVNIEYLARTVMTREVDGALRAYPDTCVGTDSHTTMVNGLGVLGWGVGGIEAEAAMLGQPVSMLIPRVVGFKLTGSIPAGATATDVVLTITEQLRKHGVVGKFVEFYGEGVAAVPLANRATIGNMSPEFGSTAAMFPIDDVTLDYLRLTGRSDENVALVESYAKEQGLWHDPSREIKFSEYLELDLSTVVPSISGPKRPQDRIELTDAKEQFRKDIHNYVAIEDGSVDESLDESFPASDAPSFTHPDSHTTETSRVVSAANGAQGRPSSPVHVVTEDGREFELDHGAVSIASITSCTNTSNPSVMLAAALLARNAVDKGLTSKPWVKTSVAPGSKVVTDYYEKSGLTPYLEKLGFYIVGYGCATCIGNSGPLDAEISEAIQANDLSVTAVLSGNRNFEGRINPDVKMNYLASPPLVIAYALAGSMDFDFDTDSLGKDEAGNDVFLKDIWPNPVEVQQVIDSSIDKDMFARGYEGVFDGDDRWKALDTPAGDTFAWDPNSTYVRKPPYFEGMKAQPEPVQDISGARVLLKLGDSVTTDHISPAGSFKSDTPAGQYLLANGVERKDFNSYGSRRGNHEVMIRGTFANIRIKNQILDGVEGGFTRDFSQEGGPQAYVYDAAQNYQAAGTPLVVLAGKEYGSGSSRDWAAKGTALLGVKAVIAESYERIHRSNLIGMGVLPLQYPAGESAATLGLTGTEVFAVEGVTGLNEGFTPKTLKVTATAEDGSVKSFDAVLRIDTPGEADYYRNGGILQYVLRQISAN	PGPT0001465_669	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
D1-29_01796	1974	dxs	COG1154	1-deoxy-D-xylulose-5-phosphate synthase	TTGGGAATCTTGGACACCATCCGGAATCCGCAGGACCTGAACGAGTTGTCCCCCCAGCAGCTGGAGGAACTGGCCGCTGAGATCAGGACTTTCCTGATCACCAACGTCTCCCAGACAGGCGGACACCTCGGCCCCAACCTCGGCGTTGTGGAGCTTACCCTCGCCGTGCACCGCATCTTTGACTCGCCGCACGACAGCCTGGTGTTCGACACCGGCCACCAGTCCTATGTGCACAAGCTCCTCACCGGCCGCCAGGATTTCAGCACCCTGCGCCAACAGGGCGGCATGTCCGGGTACCCGTCCCGCGCCGAGTCCGAACATGACATCCTGGAAAGTTCGCACGCCTCCTCGTCGCTGTCCTGGGCCGACGGCATCTCCCGGGCCCGCCAGCTCACCGGCGAGGGTGACCGCTTTGTTGTTGCCGTCGTCGGGGACGGTGCGCTGACCGGCGGGATGGCATGGGAAGCCATCAACAACATCGCTGCCGACAAGCGCCGCCGGGTGGTCATTGTGGTCAACGACAACGGACGCTCGTACGCGCCAACGGTGGGCGGATTCGCTGACTACCTCGCGTCCCTCCGTCCCACCATCGACTCCTTCCGCGCCGCGCCGGCCTACGAAGGCGTCATGGACTGGTGGAAGCGGAAGCTTCAAAGCGGCGGGCCCGTCGGCCAGTTCACGTACAAGAGCCTGCATGCCATGAAAAAGGGCATCAAGGACTGGTGGGCGCCGCAGGGAATGTTCGAAGACCTCGGCATGAAGTACATCGGCCCGGTGGACGGCCACAACCTCCAGGCCATGGAGCACGCGCTGGCCACCGCCAAGCACTATGCCGGCCCAGTGATTGTGCACGCCATGACCGAAAAGGGGCACGGCTACGCACCGGCCCGCGCCCACGAAGCGGACCAGTTCCACGCGGTGGGAATCATCGACCCGGAAACAGGGGAAGCCACCGGTGTCGCCGGTGCACAATCCTGGACCTCGGTGTTCGCCGACGAGATCGCCGCGATTGCCGATGAACGCCAGGACATTGTTGGCATCACGGGCGCCATGCTGATCCCGGTGGGGCTCCACAAGTTCGCGGCGAAGCACCCGGAGCGGGTGTTCGACGTCGGCATTGCCGAACAGCACGCTCTCACCTCCGCTGCGGGCATGGCCTTTGGCGGGCTCCACCCGGTGGTGGCCGTGTACGCCACCTTCCTGAACCGCGCCTTTGACCAGCTCCTGATGGATGTGGCTCTGCACAAGGCGGGCGTCACTATTGTTTTGGACCGGGCCGGTGTGACAGGGCCTGACGGCGCCAGCCACCACGGCATGTGGGACATGTCCATGGTCCAGATCGTCCCCGGACTGCACCTCGCCGCCCCCCGCGATGCGTCCCGCCTGCGGGAGGAACTCCGCGAGGCAGTCGCCATCAGCGGCGCGCCCAGCGTGGTGCGCTACTCCAAGGGGACAGTGGGAGCCGAAGTGGAAGCCATTGAACGGCTCAACGACGGCGTGGATGTCCTCGCCCGCAGGCCGTCGGGCTCCACCGAGAACGACGTCCTGATTGTCAGCGTTGGCGCCATGTCTGAACTCGCGCTGGACGTTTCCAACAGGCTTGGTGCCCAGGGAATCAGCACCACAGTGGTGGATCCGCGCTGGGTGCTGCCCGTGCGGCGTTCCATCATTGCGTTGGCCTCCCGCCACCGGCTGGTGATCTGCATCGAGGACGGCGTCCGTGCCGGGGGTGTGGGCTCGCGCATCCGCCAGGAAATGCGGGCAGCAGGAGTGGACACCGCCCTGAACGAAGTTGGGCTGCCCGCCGAGTTCCTTGACCACGGCACCCGCAGCCAGGTGCTGGAGCGCGCGGGCCTGACGGCCCAGCAGATCACGCACGACGTCGTGGCCCAGGTCCTGGGGACCAAGGTTCCCTTCGCGCGTCCCCTGCCCGGCCAGGAACACCCCACTACCGGCAGCCTGCCGATCCTGTGA	MGILDTIRNPQDLNELSPQQLEELAAEIRTFLITNVSQTGGHLGPNLGVVELTLAVHRIFDSPHDSLVFDTGHQSYVHKLLTGRQDFSTLRQQGGMSGYPSRAESEHDILESSHASSSLSWADGISRARQLTGEGDRFVVAVVGDGALTGGMAWEAINNIAADKRRRVVIVVNDNGRSYAPTVGGFADYLASLRPTIDSFRAAPAYEGVMDWWKRKLQSGGPVGQFTYKSLHAMKKGIKDWWAPQGMFEDLGMKYIGPVDGHNLQAMEHALATAKHYAGPVIVHAMTEKGHGYAPARAHEADQFHAVGIIDPETGEATGVAGAQSWTSVFADEIAAIADERQDIVGITGAMLIPVGLHKFAAKHPERVFDVGIAEQHALTSAAGMAFGGLHPVVAVYATFLNRAFDQLLMDVALHKAGVTIVLDRAGVTGPDGASHHGMWDMSMVQIVPGLHLAAPRDASRLREELREAVAISGAPSVVRYSKGTVGAEVEAIERLNDGVDVLARRPSGSTENDVLIVSVGAMSELALDVSNRLGAQGISTTVVDPRWVLPVRRSIIALASRHRLVICIEDGVRAGGVGSRIRQEMRAAGVDTALNEVGLPAEFLDHGTRSQVLERAGLTAQQITHDVVAQVLGTKVPFARPLPGQEHPTTGSLPIL	PGPT0008960_681	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
D1-29_01797	618			hypothetical protein	GTGAGGGAAGAGGACAGGCTTAAATATCCGGCCGCTTCCGGGGGCCGGGAGACTGAGCAGCATCACCGCACCACCCGTGTGCCTTCAGGTCTTGAACCCGGGCAGTTGGTGGTGGCGCGGAACAGGAAATGGAATGGCAAAGCCCACTGGGTGGTGCCGGGACGCTACCTGGGCGAGGACAGTTTCGGTTGGTGGATCTTCCAGGGGACCAACGAATTCTGCTCGCGGCCGGGGGCTGCCTTCTACGCGGAGTCCGATGCCGTCCTGCTCATTCCGCGCTCAGGCGACTGGGTGGCCACCTTCTACGATGACGCCCACCCGAACGGTGTCCGCGTGTACGTTGACCTGGCCGTTGCCCATGAGTGGGACACCATCCGCCCCGGGGTGACCGAGTTTCATGTGATCGACATGGACCTGGACGTGGTCCGCACGGCTGACCGCGGGGTCTACATCGACGACGAAGACGAATTTGCCGAGCACCGCCTCGCAATGAATTACCCGGCCCATCTGGTGGAATCCCTCCAGGCGGCCACCGACGAGCTCTATCAGGCCGTCAAGGCACAGCAGGCACCCTTCGACGGCACCGACGTCGAGTGGTTCACGAAGGGACGCGCATGA	MREEDRLKYPAASGGRETEQHHRTTRVPSGLEPGQLVVARNRKWNGKAHWVVPGRYLGEDSFGWWIFQGTNEFCSRPGAAFYAESDAVLLIPRSGDWVATFYDDAHPNGVRVYVDLAVAHEWDTIRPGVTEFHVIDMDLDVVRTADRGVYIDDEDEFAEHRLAMNYPAHLVESLQAATDELYQAVKAQQAPFDGTDVEWFTKGRA				NA	NA	NA	NA	NA
D1-29_01798	561			hypothetical protein	ATGAGCGGAATTATCAGGGTCTACAAACGCGACGACGAGGGAGTCCTGCACTTCCGGGAGGGCTGGTTCGACGAGGACTACAGCCAGTTCGTCATGAACTACGGCGTGGTGGGCCACCAGAGCAAGACCGAGGAGACGGACGTTGCCGACGCCGAAGCGGCGGAGGGCCTGATGGCTGCGTTCGCCGCACAGTGCGCCGAGGACGGCTACGCCGAGATTCCCGACGACGAGCAGTCCTGGGTGGTGGCCCAGTTCGCGCTGAAAACCAAGGACGGCACCGACCGGGACCGGTACCTTGAGGAAAAAGCGAAGGATGCCCTCATTAGCCATCTGGCCTGGCGCGGCCTGGGGACCGTGGAGCGCTCCGAATTCAGCGACTACAAGCTGAACATCTTCTGCCTCTGCCCGGACGTGAACAAGGCAGTCAACGCCATCAAAGTCTGTAGCCGCGGCGAGGACCTGGACTTCACCAAGCTCAGCATCGGTGCCGCGCCCTACAACGAGCCGGACAACTTCAAGCTCAAGCATTCGGCGAAGCCCGCCAACAGCTTCAGCCTCTAG	MSGIIRVYKRDDEGVLHFREGWFDEDYSQFVMNYGVVGHQSKTEETDVADAEAAEGLMAAFAAQCAEDGYAEIPDDEQSWVVAQFALKTKDGTDRDRYLEEKAKDALISHLAWRGLGTVERSEFSDYKLNIFCLCPDVNKAVNAIKVCSRGEDLDFTKLSIGAAPYNEPDNFKLKHSAKPANSFSL				NA	NA	NA	NA	NA
D1-29_01799	978	yajO_2	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	GTGACTGAATACCGGCGACTTGGAAATTCCGGACTGACCGTCTCCGTAGTGGGGCTGGGCTGCAACAATCTGGGCCGTTCCCATACGGCAACGGAATCGCAGGAGGGGACGGACGCCGTCGTGCATGCGGCGCTCGACGCCGGCGTGACACTTTTCGACGTCGCGGACACGTACGGCCGCGAGCCCGGGCTCAGCGAAACCATGCTCGGCAAGGCCCTCGCCGGCAGGCGGAATGAGGCGGTGGTGGCCACCAAATTCGGGATGGACATGCGCGGGGCCAACGGCCCGGACTTCGGCGCCAGGGGCTCGCGCCGCTACATCATCCAGGCAGCGGAAGCATCACTGCGCCGGCTGGGGACGGAATGGATCGACCTTTACCAGTTCCACACCCCTGACCCACTGACCCCGATTGACGAAACGCTGTCCGCGCTGGACCACCTGGTGACCAGCGGCAAGGTCCGCTATATCGGGCACTCGAACCGCGCCGGCTGGCAAATCGCCGAGGCCGAGTTTGTGGCACGGGCCGGCGGCGGGACGCGCTTTATCTCCACCCAGAACCACTACAACCTGCTGGACCGGCGCGCGGAGCTGGAAGTCACCCCGGCCGCGGAGGCGTACGGCCTGGGCGTCCTGCCCTACTTCCCGCTGGCCAACGGGCTCCTGACCGGAAAGTACTCCCCGGATACTGCCCCCGCCGGATCACGGCTCAGCCATACCAGGACCCATCTGGTGCACAACGCGGATTGGGACCAACTGGGGCGCTTCACGGCGTTTGCTGCCGAGCGTGGCCTGACCGAAGTCCAGGTTGCCTTTTCGTGGCTCGCGGCCCAGCCGTCTGTTTCCAGCGTCATAGCCGGCGCCACCAGGCCTGAGCAGGTCCGGCAGAACGCCGGGGCCGTGGCTTGGATGCCGGGGCCGGAGGACCTGACGGAACTGGATGACATTTTCCCGGCTGTCCCCAAAGTGGCACTCTTCTAG	MTEYRRLGNSGLTVSVVGLGCNNLGRSHTATESQEGTDAVVHAALDAGVTLFDVADTYGREPGLSETMLGKALAGRRNEAVVATKFGMDMRGANGPDFGARGSRRYIIQAAEASLRRLGTEWIDLYQFHTPDPLTPIDETLSALDHLVTSGKVRYIGHSNRAGWQIAEAEFVARAGGGTRFISTQNHYNLLDRRAELEVTPAAEAYGLGVLPYFPLANGLLTGKYSPDTAPAGSRLSHTRTHLVHNADWDQLGRFTAFAAERGLTEVQVAFSWLAAQPSVSSVIAGATRPEQVRQNAGAVAWMPGPEDLTELDDIFPAVPKVALF	PGPT0017540_864	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
D1-29_01800	1056	rihA_3	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	GTGATCAGCCTCCTCCTGGACGTGGACACCGGAATCGATGACGCTGTGGCGCTGGCCTATCTGGCATCACTTCCCGATGTTGAGTTCGTGGCCGTCACGGCGTCGGCGGGCAATGCCGGTGTCCATCAGGTGGCCCGCAATACCCTGGCACTGCTGGAACTGTGCGGACGCCGTGGAGTGGAAGTGGCCGTTGGGGCGGAAGCGCCCCTTGAGATCCCGCTGGTGACCACGCCGGAGACCCATGGTCCACAAGGGCTGGGGCACGCGGTCCTGCCCCCGCCGTCGGGATCCGTTTCCGAACGGGACGCCGCGGACCTGTGGGTCCAGGCGGCCCGTGCGCGCCCAGGGGAGCTGACTGCCCTCATCACTGCACCGTTAACGAACTTCGCCCTGGCGATCCGGCGTGAGCCGCGCCTGCCGGAGCTCCTGCGCAAGACAGTCATCATGGGCGGCAGCTTCTACCACCAGGGAAACACCACGCCCCTGGCTGAGTGGAACACGCACGTGGACCCGCACGCCGCCAAGGAGGTGTACGCAGCCTACCGCGGCCTTCCGGCGGAGCAGCTGCCGATCGTCTGTTCCCTGGACACCACCGAGCGGATCGAGCTCCGGCCGGAGCATGTGCGCCGGCTGGCGGAGGCGGCAGGCTGCGCGGTGGAGGAATTGGTGCTGCCGGACCAGCCCGAGGGCCTTCGGAGCACCTCGGACAATGAACTGGTCCGCCACCTGTCCGACGCGCTGCGCTTCTACTTTGAATTCCACCGCCGGTACGATCAGGGCTACGTGGCACACATCCACGACTTTTTCGCCGCCGGCGTCGCGGCAGGGACCCTTGAATACTCCACCCGGCCGGCCACTGTGGACGTCGAGACGGAATCCCCACTCCTGATCGGGACCACGGTGGCGGACTTCCGCAACCTGTGGGGCCATCCGGCCAACGCCAGGATCGTGTCCGACAACAATCCGGCGGCAGCCTTCGATGAACTGGTGGCCTCTGTGGGCGGGCTGGCGCGCAGGCTGGCTGGCGGGCATGGCGCCCAGCGGGCCAGGCGCTAA	MISLLLDVDTGIDDAVALAYLASLPDVEFVAVTASAGNAGVHQVARNTLALLELCGRRGVEVAVGAEAPLEIPLVTTPETHGPQGLGHAVLPPPSGSVSERDAADLWVQAARARPGELTALITAPLTNFALAIRREPRLPELLRKTVIMGGSFYHQGNTTPLAEWNTHVDPHAAKEVYAAYRGLPAEQLPIVCSLDTTERIELRPEHVRRLAEAAGCAVEELVLPDQPEGLRSTSDNELVRHLSDALRFYFEFHRRYDQGYVAHIHDFFAAGVAAGTLEYSTRPATVDVETESPLLIGTTVADFRNLWGHPANARIVSDNNPAAAFDELVASVGGLARRLAGGHGAQRARR	PGPT0013465_450	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
D1-29_01801	810			hypothetical protein	ATGTCATCCTCGTCCCTGACGCTGCCCGAAACCACTGAGGCAGCCTCGCGAAAGCGCCGCGTCCTGGAGATCCTCGGCGCAGCCGCCATCGCGGGAACCTACATCTACCTGGTGATGAACCAGCCGGCGGACATCGCCTCGGGGCCCGGCAGTGCGTCGGCCCTGATTGCCCTGTCAGGTTTCCTGGTGGGCGCCATCCTGCTGGTGGTGGCCGTACTGCCTACCCTTCCCACCACCACCGTGGTGCTGATTCCTGTGGCGCTGGTGCTGAACATCGTGATGGGCCAGTTTGTGGGAAGCACCCTGGTGCCGTTCTACCTCGACGCGATCGGAACGGTGCTGATCGCCGTCCTGGCTGGGCCGGCGGCAGGAGCTGCCACCGGTGCATTGAGCAGCATCGTCTGGTCCTTCTTCAATCCCACGGTCCTGCCTTTTGCCGCGGGCGCCGCCCTGATCGGATTCCTTGCCGGCCTGGCCGCACGCCACGGCTTCTTCCGCCGGTTCTACCTTGCCCCGGTGGCCGGTTTTATCACCGGCGTCCTCGCGGGCGTGGTGTCGGCCCCCGTGGCGGCGTTCGTCTTTGGCGGCACGTCAGGGGTGGCCACCGGCGCCATCGTCAGCGCGTTCCGTGCCATGGGCGACACGCTCTTCGCCGCCGTCACCAAGCAGGCCCTGATCTCGGACCCCATGGACAAGGCCATCGTCTTCACGATCGTTGCCCTGCTGGTCTATGCGCTGCCGCGCAGGGTGACGTTCCAGTTCCCGTTTGTGCGGCAATTCCGGGTCCTGGCCGGACGCAAGGATTCCTAG	MSSSSLTLPETTEAASRKRRVLEILGAAAIAGTYIYLVMNQPADIASGPGSASALIALSGFLVGAILLVVAVLPTLPTTTVVLIPVALVLNIVMGQFVGSTLVPFYLDAIGTVLIAVLAGPAAGAATGALSSIVWSFFNPTVLPFAAGAALIGFLAGLAARHGFFRRFYLAPVAGFITGVLAGVVSAPVAAFVFGGTSGVATGAIVSAFRAMGDTLFAAVTKQALISDPMDKAIVFTIVALLVYALPRRVTFQFPFVRQFRVLAGRKDS				NA	NA	NA	NA	NA
D1-29_01802	804	ykoC_1		Putative HMP/thiamine permease protein YkoC	TTGTGCGGCAATTCCGGGTCCTGGCCGGACGCAAGGATTCCTAGGCTGGGCCGGATCAGCCCGCTGACCCAGCTCACCGCCGTCGTCACCGTTGTGGTGGTGACGACGGCGGTGGGCCAGTGGGTTGTTTCGCTTTCCGTGCTGCTTGCAGCGGCGGCGATCACGGCCTTCGCCGGGACGGCACGTGCCGTCTGGGCCGCGGCCGGCCTTGTCCTGCTGCCGCTCGCGGCGTCCCTGCTGCTGACCCATGGACTGTTCTTCCCTGAGGGCAGCACAGTCCTCTGGACATTCGGCCCTGCCAGGCTCACCGCGGAAGGGCTGGGCGTTGCCGGATCCCTGGTGTTGAGGGCAGCGGTGCTGGTGGTCCTCCTGCTGACGCTCTCCTTCAGCATCCAGCCCGCGGACATCATGGCACTGTGCGCGAAACACGGTGTCCCCGCGCAGTTGGGCTTTGTGCTCTGTTCCACCCTTACCATCGCGCCGCAGATCAGGCGGCGGGTCCAGCGGATCCGGGAGGCACAGCAGCTCCGGGGCCTGTACTCCGGGAGATCGCTTCCGGCCCGGCTGGCCTCCTTCCGTGTGCTGGCCCTTCCGCTGCTGCTCTCCCTGCTCCACGATGCCGGCCAGCGCGCCGCTGCCCTGGAGACCCGGGGCTTCGGGGGCACCGCCTCCCGGACCAGCCTGCGGGAGGTTCCTGATTCCAGGTTCCAGTCCGTTCTCCGCTGGTCCCTGCTGGCCGGGCTGGCGGTCTTCCTGGTCCTGTGGTTCGGACCGGCGGGAGGCAGCGGTGCGCCTCAGCCTTAG	MCGNSGSWPDARIPRLGRISPLTQLTAVVTVVVVTTAVGQWVVSLSVLLAAAAITAFAGTARAVWAAAGLVLLPLAASLLLTHGLFFPEGSTVLWTFGPARLTAEGLGVAGSLVLRAAVLVVLLLTLSFSIQPADIMALCAKHGVPAQLGFVLCSTLTIAPQIRRRVQRIREAQQLRGLYSGRSLPARLASFRVLALPLLLSLLHDAGQRAAALETRGFGGTASRTSLREVPDSRFQSVLRWSLLAGLAVFLVLWFGPAGGSGAPQP	PGPT0004015_2347	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
D1-29_01803	1671	ykoD_1	COG1122	Putative HMP/thiamine import ATP-binding protein YkoD	GTGCGCCTCAGCCTTAGATCGTTCAGCTACCCGGACAGTGCCCGGCCCGTCCTGGCGGACGTTGACCTGGCGGTGGGGCCGGGCGCGTACGTGCTGGTGGCGGGCGGCTCGGGCAGTGGGAAGACCACGCTGGGGCTCATCCTTGCCGGGGTGCTTCCCGGGCAACACCGCGGCACCCTGCACGGAAGCATCACGCTGGGCGCTCATTCCCTGGAGTTTCCGGCTGCCCAGGCGGCGCGGATCGACCATCAGTACTGGGGCACCCTGGTGGGCTACGCCGGCCAGGACGCCGCCGCGCAGCTTTCCACTGTCGCCCCGACGGTGGCCGAGGAGATAGCCTTTCCACTGGAAAACGCCGGCATGGCCCGGGAGGACATGCAGGCGCGCGTCCGTGAAGTGGCGGCGGACCTGGGCCTGACCCCGCTGTTGGAGCGGGACCCGGGCCTGCTGTCCGGCGGCCAGCAAAAGCTTGTGGCTCTCGCTGCCGCGATCGCACCGCGGCCACGCTTCCTGGTTCTCGACGAGCCACTTGCCAGCCTTGACCTCCAGGCGCGGACGCGTGTTAGTGCGGCAATAGCGGCCCTTTTGGGCGGCGGTATGGGTGTTGTTGTGCTCTCCCAGGACCTCGCCGCGGCAGGAAACGCCGGCGGCAACGGAGCCGGAAGCGGAACCGGAGCCGCGTGGGTCCCGGACCAGGTGGTGTTGCTGGCGGGCGGCCGGGCGGTCTTCACGGGCGCGGCTGCTGAAGCAGCGGGCGCCGCCACGGACCTCGGGCTGCCGGTGCTTGGTTTTGGCGCGCAGCCGGCGCCACAGGAACCTGCGCGGGCACCCGAACTCCCAGGACCTGGCGGACCCTTGCCGGCGGAACCTGCCGGATCCCTTCCTGAGGCTTTGCCTGTGGAAGCTCCTGTCGTGGCAGCTGAGGGGCTGCGCTTCGCATATAGTTGGCGGAAACCCCGTCCCTGGCGGCGCAGCCCCCAGGCGTCGCGGGTGCTTGAGAATGTGGGCCTCACCGTGGCCGCGGGGGAGTGTGTTGCGGTGGCCGGGGCCAACGGCTCCGGAAAATCCACTTTGCTGCGGCTGCTGACGGGACTGTCCACACCGCAGTCCGGAACAGTGCTGCTCAGGCCCCTCTCCGGCCCCGCGGCCGCCTCCACGGGCTCCGGCCCAGCGGTGGGCGCCCTGCTCCAGCATCCCCTCGAGCAGCTTTTTGAGCGGACCGTCCGGCGCGAAGTGGGCGCGGGCCTGCCCCGCAGCCTCGGCGACGCGGTTCGTGGGGAGCGTGTAGACACGGCACTGCGCCGTTCCAGGCTGCTGGAAGCCGGAGGCGTGCACCCTTACGAGTTGCCGGCGTCCGGCCAGCGACTGGCAGCCCTTGCGGCCCTGCTTGCCCAGGCGCCGCGGTTTATCGCCCTGGACGAGCCCACCGTCTCCCTGGACCGCCAGGGCTTGGACGTGCTGGCCGAAGCCATTGCCGCCGAGGCCGGCCGAGGGGCCGCCGTGGTGATGGTCACCCACGACCTTGATTTCGCCTACCGCACGTGCAGCAGGCTCCTGGTGCTGAATGAAGGACGGCTGGCAGCCGACGGCCCTTTCGGCGAGGTGCTGGAGTCACATTTCAGCTCGGGCGTCGCCTTCGGCGTCGCGGCACCGGGCGCCTGGCTGGCTTAA	MRLSLRSFSYPDSARPVLADVDLAVGPGAYVLVAGGSGSGKTTLGLILAGVLPGQHRGTLHGSITLGAHSLEFPAAQAARIDHQYWGTLVGYAGQDAAAQLSTVAPTVAEEIAFPLENAGMAREDMQARVREVAADLGLTPLLERDPGLLSGGQQKLVALAAAIAPRPRFLVLDEPLASLDLQARTRVSAAIAALLGGGMGVVVLSQDLAAAGNAGGNGAGSGTGAAWVPDQVVLLAGGRAVFTGAAAEAAGAATDLGLPVLGFGAQPAPQEPARAPELPGPGGPLPAEPAGSLPEALPVEAPVVAAEGLRFAYSWRKPRPWRRSPQASRVLENVGLTVAAGECVAVAGANGSGKSTLLRLLTGLSTPQSGTVLLRPLSGPAAASTGSGPAVGALLQHPLEQLFERTVRREVGAGLPRSLGDAVRGERVDTALRRSRLLEAGGVHPYELPASGQRLAALAALLAQAPRFIALDEPTVSLDRQGLDVLAEAIAAEAGRGAAVVMVTHDLDFAYRTCSRLLVLNEGRLAADGPFGEVLESHFSSGVAFGVAAPGAWLA				NA	NA	NA	NA	NA
D1-29_01804	2187	fadJ_2	COG1024	Fatty acid oxidation complex subunit alpha	ATGAGCGCCGCAGATTTCACCAAGCTCACCCAACTCTTCCCCGACGAGACAGTGACCCATTCGTACGTCCAGGACATCCAGCTTCCGTCGGCGCACGGGAATCCCAGTCCCGGCACCTTCGCCCTGATCACGCTGGACAACGGCCTGGACCATACCAAGCCCACCACCCTGGGACCGAACACCCTGGTGGAGCTCGGAACGGTACTGGAAGGGCTCCGCGACCGTGCAGCCCGTGGTGAAATCGTGGGCGTCGGCGTCACCGGGAAGCCGTACTTCCTCGTGGCCGGCGCTGACCTTTCTGCCGTCAAGTCCCTCGAGAAGCGAGACCAGGGGCTGTGGATGGCCCAGCTCGGCCACGACGTCTACGCCACGCTGGCCAACCTGGGCGTGCCCAGCTTTGCCTTCATCAATGGCGTGGCACTGGGCGGCGGCCTGGAGATCGCTTTGCAGGCCACGTACCGGACCGTCTCATCAGGGGCCGGTGCCCTGGGGCTGCCCGAGGCATTTATCGGCCTGGTGCCGGGCTGGGGCGGAGTCTATATCCTGCCCCGGCTGATCGGGCCCGAAAATGCCGTCCAGGTGATGATCGAAAATCCGCTCAGCAACAACCGCACCCTCAGCGGGCCACAGGCGTTCAAACTCGGCGTTGCGGACGCCCTGTTCGAGCCCGCAGATTTTCTTGAGCAGTCCCTCGCCTGGGCTGCCTGGGTTATCTCCGGTGAGGTTGTCCCGGAGCGGCCCAACGCCGTCGACCCTTCCGACCCTGCAGTGGTGCAGCGCTGGGGTTCCGCCGTGGCCGCCGGCCGTGCGTTCATCGAAGCCAAGACGTCCAACGCATCGCCGGCTCCGGCCAAGGTCCTGGACATCATGGAGGCGAACCGCACCCTGACCCAGGCGGAGTCCGCTGAGCTTGAGTGCGAAACTCTCGCCGGGCTGATGCAGACCGACGAGTTCCGTGCCACCGTCTACGCCTTCCTGGACCTGGTCCAGAAGCGTTCCAAGCGGCCGGCCGGAGCCCCTGACCGGAAACTGGCGCGACCCGTGACCAAGGTCGGTGTTGTGGGTGCCGGCCTGATGGCAAGCCAGCTGGCCCTGCTGTTCGCCCGCCAGCTCAAGGTCCCCGTGGTGATGACGGACATCGACCAGGCCCGCGTCGACAAGGGTGTGGGCTATGTCCACGCCGAGGTGGACAAGCTGCTGGGCAAGAAAAAGATGAGCCAGGACGCGGCCAACCGGACCAAGGCCCTGGTCAGCGGGTCGGTTTCCAAGGAGGTGTTCGCGGATGCCGACTTTGTGATTGAGGCCGTTTTTGAGGAGCTCAACGTCAAGAAGCAGGTGTTTGCCGAGGTGGAGGCCATTGTGTCGCCCGAGTGCATTCTGGCCACCAACACGTCATCCCTTTCCGTGACGGCGATGGCCCAGGACCTCCAGCATCCGGAACGTCTCGTCGGATTCCACTTCTTCAACCCGGTGGCGGTGATGCCGCTGGTGGAGATCGTCCGTGCGCCCCGGACGGACGACGCCGTCCTGGCCACCGCCTTTGAGCTTGCCAAGGGCCTGAAGAAGACCGGTGTGCTGGTCAAGGACGCCGCCGCGTTTGTGGTCAACCGGATCCTCCTGCGGCTGATGGGTGAGGTCACGGCAGCCTTCGACGAGGGGACTCCCGCGGAGGTCGCGGACAACGCGCTGCGGCCCATGGGGCTGCCCATGACCCCCTTCACCCTGGGCGCCATGGTGGGCCTTCCGGTGGCACAGCATGTCCAGGAGTCATTGCACGCCGCGTTCGGGGACCGGTTCGCTGTCTCCGCCAACCTGCAGAAACTGATCGACAACGGCGTGAAATCGCTCTGGGTGCCCACCCCCGACGGTTCGCAGGAGATCCCGGAGTCAACACTGGCGCTGATGTCCTTTGGCTCGTCCCCGTCCACCGGCGAGGAAGTGCTGCGCCGTACGCACGATGCCCTGGCCGAGGAGATCGGGCTGATGCTGGCCGAAGGAGTGGTTGCCGGGCCTGAGGACATCGATCTCTGCATGATCCTGGGCGCGGGCTGGCCCATGTTCCTGGGCGGCATCACTCCCTACCTGGACCGGGTGGGGGCATCCGAGCGGGTCAACGGCAAAAGGTTCCTGCCGGCAGGCGTCGCATCCCGTGCGTCACAGGAGAGCGTGGAAAGCGCCGTTTCCTAA	MSAADFTKLTQLFPDETVTHSYVQDIQLPSAHGNPSPGTFALITLDNGLDHTKPTTLGPNTLVELGTVLEGLRDRAARGEIVGVGVTGKPYFLVAGADLSAVKSLEKRDQGLWMAQLGHDVYATLANLGVPSFAFINGVALGGGLEIALQATYRTVSSGAGALGLPEAFIGLVPGWGGVYILPRLIGPENAVQVMIENPLSNNRTLSGPQAFKLGVADALFEPADFLEQSLAWAAWVISGEVVPERPNAVDPSDPAVVQRWGSAVAAGRAFIEAKTSNASPAPAKVLDIMEANRTLTQAESAELECETLAGLMQTDEFRATVYAFLDLVQKRSKRPAGAPDRKLARPVTKVGVVGAGLMASQLALLFARQLKVPVVMTDIDQARVDKGVGYVHAEVDKLLGKKKMSQDAANRTKALVSGSVSKEVFADADFVIEAVFEELNVKKQVFAEVEAIVSPECILATNTSSLSVTAMAQDLQHPERLVGFHFFNPVAVMPLVEIVRAPRTDDAVLATAFELAKGLKKTGVLVKDAAAFVVNRILLRLMGEVTAAFDEGTPAEVADNALRPMGLPMTPFTLGAMVGLPVAQHVQESLHAAFGDRFAVSANLQKLIDNGVKSLWVPTPDGSQEIPESTLALMSFGSSPSTGEEVLRRTHDALAEEIGLMLAEGVVAGPEDIDLCMILGAGWPMFLGGITPYLDRVGASERVNGKRFLPAGVASRASQESVESAVS				NA	NA	NA	NA	NA
D1-29_01805	1311	paaJ_1	COG0183	3-oxoadipyl-CoA/3-oxo-5,6-dehydrosuberyl-CoA thiolase	GTGAGCAACCACGGAAGCAGCGGATCTTCGCGCACTGTCCGCGACGTCGTTTTTGTCGACGGCATCCGCACCCCCTTTGGCCGCGCAGGTGAAAAGGGAATTTATGCAGGAACCCGTGCCGATGACCTGATGGTCAAATGCATCCGGGAGCTTCTGCGCCGCAACCCTTCCCTGCCGGCTGAGCGGATCGATGAAGTAGCGGTTGCTGCCACCACCCAGACGGGGGACCAGGGCCTTACCCTGGGACGTACCGCCGCCCTTCTGGCCGGACTCCCCCGCACTGTTCCTGGCTTCGCGATCGACAGGATGTGCGCGGGTGCCATGACTGCCGTGACCACAACGGCCAGCGGCATTGGTTTTGGCGCCTATGACGTTGTCATCGCCGGCGGAGTGGAGCACATGGGCAACCACCCCATGGGCTCCGGCGCGGACCCCAACCCACGGTTCATGTCCGAGCGCCTGGTGGATCCCGCGGCGCTGAACATGGGCAACACCGCCGAGAACCTGCACGACCGCTTCCCCGCCATCACCAAGGACCGGACCGATGCGTACGCCGTCGCCTCCCAGGACAAGCTGGCCGCGGCCTATGAGAAGGGCCAGATCCAGCCCGACCTGGTGCCGGTTGCCACCCTCAAACCGGGCCAGGGTTGGTCGCTCCAAACCGTTGACGAGCCGCCCCGTCCAGGCACCACACTGGAAGACCTTGCCGCCCTGCGCACCCCTTTCCGCGCGCACGGCCGCGTCACCGCGGGCAACGCCGCCGGATTGAACGACGGCGCCACCGCCGCCGTCCTGGCCTCCTCCGATGCCGCCGCAGAGCTGGGATTGCCGGTCAAGATGCGCCTGGTCAGTTACGCGTACGCAGGCGTTGAGCCTGAAGTCATGGGAATTGGCCCCGTGCCTGCCACCGAGAAGGCGCTGAAGAACGCGGGCCTGGATATCAGCGACATCGGGCTGTTCGAAATCAACGAGGCCTTTGCCGTGCAGGTGCTCAGTTTCCTGGACCACTTCGGAATCTCCGACGACGACCCCCGGGTTAACCGCTACGGAGGCGCCATCGCCGTGGGCCATCCGCTCGCGTCCTCAGGCGTGCGGCTCATGAACCAGCTGGCCCGGCAGTTCGAGGAGGACCCCTCCGTACGGTACGGAATGACCACCATGTGCATCGGACTCGGCATGGGAGCCACGGTGATCTGGGAAAACCCGCACCACGCCGATTACAGCGGCGCCGCGGCAACACCTGCCGCCGGCACCACAGCATCCCCCACCGCATCCGCCCCGACGGCAGACACTGAAGGAGCAGCAGCATGA	MSNHGSSGSSRTVRDVVFVDGIRTPFGRAGEKGIYAGTRADDLMVKCIRELLRRNPSLPAERIDEVAVAATTQTGDQGLTLGRTAALLAGLPRTVPGFAIDRMCAGAMTAVTTTASGIGFGAYDVVIAGGVEHMGNHPMGSGADPNPRFMSERLVDPAALNMGNTAENLHDRFPAITKDRTDAYAVASQDKLAAAYEKGQIQPDLVPVATLKPGQGWSLQTVDEPPRPGTTLEDLAALRTPFRAHGRVTAGNAAGLNDGATAAVLASSDAAAELGLPVKMRLVSYAYAGVEPEVMGIGPVPATEKALKNAGLDISDIGLFEINEAFAVQVLSFLDHFGISDDDPRVNRYGGAIAVGHPLASSGVRLMNQLARQFEEDPSVRYGMTTMCIGLGMGATVIWENPHHADYSGAAATPAAGTTASPTASAPTADTEGAAA	PGPT0001565_554	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
D1-29_01806	1341	rnd		Ribonuclease D	ATGACCCCTCACATTCCGGATAACACCACAGCCGGCGCTCCGGCTGCTGACTCCACTCCCCACATCACAGTGGACGGCTTCGACAGCCCCATCCCCGTGGTCATTGATCTCGACACACCCCGTGAGGGTGTGCCACTGGTGATCGAAACCCAGTCCGGGCTGGAACGGTGCGCCGCCGCCATCGCCGCCGGCACCGGCCCGGCGGGGGTTGATGCCGAACGGGCGTCGGGCTTCCGGTACGGCCAGCGTGCCTTCCTGGTCCAGATCCGCCGCGAAGGCTCGGGGACCTGGCTCATCGACCCCGAGCCCTTCAACGACCTGGCCATCATTAACGACGCACTCAAAGGGGTTGAGTGGATCCTGCACGCGGCCAGCCAGGACCTGCCATGCCTGCTGGAACTGGGCATGTGGCCCGACAAACTGTTCGATACTGAGCTCGCGGCACGGCTCGCCGGACTCCCGCGGGTGGGCCTGGCGGCCGTCATTGAGCAGCTGCTCGGCTTCGGCCTGGCGAAGGAACATTCCGCCGCTGACTGGTCCACCCGGCCGCTGCCCGAGCCCTGGTTGCGGTATGCGGCCCTGGATGTGGAAGTTCTGACGGAACTGCGTGAGGAGCTCATCGAACTCCTGCAGGCGGACGGCAAACTCGAGTTCGCGGAGCAGGAATTTGCGGCCATCCTTGCCGCGGGCGTTGCGCCGCCGCGGATCGATCCGTGGCGCAAGACCTCGGGCCTGCATCAGATCCGGGACCGCCGCCAGCTGGCCGCAGTCCGTGAGATGTGGCTGGAGCGGGATTCCCTGGCGCAGAAACGGGACGTAGCCCCCGGCCGGCTCATTCCGGATTCCGCCCTGGTGGCCGCGGCCAAGGCCATGCCCTCCACCGTGCCCCAGTTGCTGGGAACCAAGGGCTTCCACGGGCGTGCGGCACAACGTGAGGCGCCGCGCTGGCTCCGCTGCATCGCCACGGCCAGGGATCTCGCAGATCTTCCTCCCCTGCACCTGCCCACCAATGCTCCGCCGCCACCGCGGGTCTGGGCTGACCGTGATCCTGAGGCGGCAGCACGCCTGTCCACCGCGCGCCCGCTCCTGCAGGAAAAAGCCGAGGCGCTGAACCTGCCTGTCGAGAACCTGCTGACTCCCGACTATCTGCGCCGCGTCGCGTGGCGCCCTCCCGCAGAGATCACCGAAGCGTCTGTCGCAGAGGAACTCCGTGTCCTCGGTGCCCGCGAGTGGCAGGTCGGCGTTGTCGCACCGCTCCTTGCCGAGGCATTCCTCAATCCCCAGCCGTTGCCTCCCAAAGAGCCGCGGGAGCCCAAAGCTGCGGCTGCTGCCACCGACTAG	MTPHIPDNTTAGAPAADSTPHITVDGFDSPIPVVIDLDTPREGVPLVIETQSGLERCAAAIAAGTGPAGVDAERASGFRYGQRAFLVQIRREGSGTWLIDPEPFNDLAIINDALKGVEWILHAASQDLPCLLELGMWPDKLFDTELAARLAGLPRVGLAAVIEQLLGFGLAKEHSAADWSTRPLPEPWLRYAALDVEVLTELREELIELLQADGKLEFAEQEFAAILAAGVAPPRIDPWRKTSGLHQIRDRRQLAAVREMWLERDSLAQKRDVAPGRLIPDSALVAAAKAMPSTVPQLLGTKGFHGRAAQREAPRWLRCIATARDLADLPPLHLPTNAPPPPRVWADRDPEAAARLSTARPLLQEKAEALNLPVENLLTPDYLRRVAWRPPAEITEASVAEELRVLGAREWQVGVVAPLLAEAFLNPQPLPPKEPREPKAAAAATD				NA	NA	NA	NA	NA
D1-29_01807	651			hypothetical protein	GTGAACGCACTCGCCCAGGTTCCCCCGGAGTTCCTCCACGCCTTGGGGACCCTCAGGAAAGCCCATTGCCGCAGTGAACTGCGGCTCGCAGAGATTCCTGCCCCGGCACGCCTGGCGCCCTACGCCGTGGCCCTGGGAGCCGAAGTCATGGCGTCCGGTCCGGGCAGCGGGACGGTGCCCGTCCACGGGCCTGCCGCCATGGCCCTGGCGGCAGCATCCGGGACGGAGGAGGATGACGACGCCGAACTCGCCACAGGCCGTTTTATCCTCCTGCACGACCCCGACGGGTCGGCCGTCTGGGACGGCGAATTCCGCATCGTCACGTACATCCGCGCCCAGCTTGAGCCGGAAATGGGCAATGACGAGATGCTGGGCACGGTGGCCTGGACCTGGCTCGTTGAGGCCCTCGAGAACCATAAGGCCCCGTACCGTGCCGCGGGAGGTACCGCCACCCGCGTACTTTCGGAAAGCTTTGGGACCCTATCCGACAGGCCCGGCTCGATCGACATCGAACTCCGCGCCTCCTGGACGCCGGCCTCCTCAGATGTCACGGCGCATCTGGAGGCGTGGTCCGACATGGTGTGCACCTTTGCCGGGCTTCCCCCTCTTCCTGACGGGGTTTCCGCCCTGCCGCGACGCCGTCGGAACTAG	MNALAQVPPEFLHALGTLRKAHCRSELRLAEIPAPARLAPYAVALGAEVMASGPGSGTVPVHGPAAMALAAASGTEEDDDAELATGRFILLHDPDGSAVWDGEFRIVTYIRAQLEPEMGNDEMLGTVAWTWLVEALENHKAPYRAAGGTATRVLSESFGTLSDRPGSIDIELRASWTPASSDVTAHLEAWSDMVCTFAGLPPLPDGVSALPRRRRN				NA	NA	NA	NA	NA
D1-29_01808	1110	ltaE_2		Low specificity L-threonine aldolase	ATGACAAGCACCACTGCGGAAACTGTCCCGCGAACCGGGATCCGCCTGCATGATCCATCCGTCCGGGGCTTCGCGTCGGACAACTATTCGGGGGTCCATCCCGAAGTCCTGACCGCGCTGGCAGCGGCAAACGACGGCCACCAGGTCTCCTACGGCGAGGATGAGTACACCGCGCGGCTGCAGGAACTCATGGAGCAGCACTTTGGGCCCGGCATTGAATGTTTTCCCGTGTTCAACGGAACCGGAGCCAACGTCCTCTCCCTCCAGTCGCTGCTCCCGCGGTGGGGCGCGGTGGTCTGTGCCGCCACCGCCCACATCAACATGGACGAAAACGGTGCGCCTGAGCGGATCGGCGGCATCAAGCTCCTTTCCGTCCCCACGCCGGACGGGAAACTGACCCCGGAGCTGATCGACCGGGAGGCGTGGGGCTGGGGCGATGAGCACCGGGCCCAGCCCCTGGCCGTCTCCATCACCCAGACCACGGAACTGGGCACGTGCTACACACCGGAGGAGGTCAGGGCCATTGCGGAGCACGTCCACTCCAGGGGCATGAAACTCCACATGGACGGCGCACGGCTGGCCAATGCTGCCGCCCACCTGCAGGTGCCACTGAGGGCTTTCACGCGCGACGCCGGTGTGGACATCCTGTCCTTCGGCGGCACCAAGAACGGGCTGCTCTTCGGTGAGGTGGTGGTGGCCCTGAATCCCGAGGCCGCGCACGGCCTGGTTTACCTGCGCAAAATGAACATGCAGCTGGCGTCCAAGATGCGGTTTTTGTCGGCCCAGTTCATCGCGCTGCTGGAAGGTGACCTGTGGCTGCGCTCTGCCTCCCACGCCAACGCAATGGCGGCCCGGCTTCGCGCAGCCGTGGACACCATCGACGGCGTCGAGCCGACGCAGAAAACCGAATCCAACGGCGTTTTTGCGATCCTGCCCAAGGGTGTGGCAGACAGGCTGCGGAAATCCTTCCGCTTCTACGACTGGAACGAGGCGGCACACGAGGTCCGCTGGATGTGTTCCTTTGATACAAACGAGGATGATATTGATGCCTTTGTTGACGCGATCCGCCGGGAGCTTGCCCACCATCAGTCGGGCCAGGCCGCCACGTAG	MTSTTAETVPRTGIRLHDPSVRGFASDNYSGVHPEVLTALAAANDGHQVSYGEDEYTARLQELMEQHFGPGIECFPVFNGTGANVLSLQSLLPRWGAVVCAATAHINMDENGAPERIGGIKLLSVPTPDGKLTPELIDREAWGWGDEHRAQPLAVSITQTTELGTCYTPEEVRAIAEHVHSRGMKLHMDGARLANAAAHLQVPLRAFTRDAGVDILSFGGTKNGLLFGEVVVALNPEAAHGLVYLRKMNMQLASKMRFLSAQFIALLEGDLWLRSASHANAMAARLRAAVDTIDGVEPTQKTESNGVFAILPKGVADRLRKSFRFYDWNEAAHEVRWMCSFDTNEDDIDAFVDAIRRELAHHQSGQAAT	PGPT0020465_421	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020465-ltaE-K01620	NA	NA
D1-29_01809	756			hypothetical protein	GTGAATGAGGGCACAGCCCCTAACGTCCTGGTCACCGGGGGCAGCGGGGCGTCAGGGGTTGCCGTGGCCGGGGCGCTCCTGCAGGCCGGCTATCGGGTCTTCACCGTAGGTTCAGACAGGGCCCGCATCGAGGAAGCGGCGGCGAAGGCGGGCGACGGCGTTACCCCGCTGGTGTGCGATCTCGCCGGCCTGGCCGAAGTGCAGGAGCTGCAGGACTATCTTGCCAGCGCCGGCGTCAGCATTGATGCGGTCATCCACCTCGTGGGCGGCTGGCGCGGCGCAAAAGGCATCGCGGACCAAAGCGATGCCGACTGGGAATTCCTGGAGCGCGCAGCCATCACCACGCTCCGGAATGTCTCCCGCGTTTTCTATGACGACCTGGCCGCCTCGAGCTGTGGCAGGTTCGCGATGGTTTCCTCTACCTCGGTGGGAAAACCCACTGCTGCCGCCGCCAGCTATGTGGCGGCAAAAGCAGCCGCGGAAACGTGGACCATGGCCATGGCGGAGGGCTTCGCCCGCACCATCCGCGCTGGATCGGCAACAGAATCTGAAACTGAATCTGCGGGCGGTCCGCTCCGTTGTGCCGCCGTCGTCCTGGTGGTCAAGGCGCTGGTGGACGCTGACATGCGGAAGCAGCACCCGGAACGGAATTTTCCCGGAGCCACCGACGTCGAGGACCTGGCACGCGCCGTCGTCGAACTTTTCACAAAGCCTGCCGATGAGCTGAACGGCCAGCGCCTGCTGCTGGCCCCCTGA	MNEGTAPNVLVTGGSGASGVAVAGALLQAGYRVFTVGSDRARIEEAAAKAGDGVTPLVCDLAGLAEVQELQDYLASAGVSIDAVIHLVGGWRGAKGIADQSDADWEFLERAAITTLRNVSRVFYDDLAASSCGRFAMVSSTSVGKPTAAAASYVAAKAAAETWTMAMAEGFARTIRAGSATESETESAGGPLRCAAVVLVVKALVDADMRKQHPERNFPGATDVEDLARAVVELFTKPADELNGQRLLLAP	PGPT0003180_22272	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
D1-29_01810	1404			hypothetical protein	GTGACCGAGACTGTGATCAGTGCCCCCACCAGGATTTCTGCGGAGCACCCCGGCTGGCTTCGCCTCAAGGCCGCTGCCATTGCCCTGCAGGAGCTCCAGGTGCAGGAGGGATCCGTCCCTGCACCCGAGGATCACCCTGCTGCCGCTGCCCGGGTTGCGGCCATCGTTGAGGCGCTGGCCGGGCTTGCCCCGCTTTTCCCGCATGACGAGGCCTACCTGGCCGCCGCCGCCCGGGATTTCGAGGCGTGGGCCGGCGCCGGCTTCGGTGTGCCGGATTTCCTCTCCTCGCTCCTGGCGTTCCAGCCCCAGCAGCAGCGCCATGACGGCCTGCAGCATGTTGTGGTGTTCCCCATGTACACCCAAAACGGGAGCAGCAGCAGGCTCGTGGAAGCCGTGCTGATCGAGGTGGTCTGGCCGGATTTCATCGCCGGGCTGGAGGCCGGCGACTACTCCAACCAGCTGTTTGTGCCCATCCGCTTCCTGGATTTCACCCCCGGCTACAACACCAACTCTGCCGTCCTGTTCCCTGAAACAGTGGCGGTGCGCGAGACCCCCGCTTTCACGTGGGGCGCCATATTTGCGGACCGTGAAGCGGCCCGGTTCCGGCGCGTCCTGCGGGCGGCTGCGGAGATCACGTCGCTGGAACTGCCGCCCGGTGCTGCCGAGCTGCTGGAGGACCAGGAACTGACGGAAGCCACGTTTGTGATGTGGGACCTCATCCACGACCGCACCCACATGCGCGGGGACCTGCCATTTGACCCGTTCATGATCAAGCAGCGCATGCCGTTCTTCCTGTATTCACTGGAGGAACTCCGCTGCGATCTCACAGCCTTCCGGGAGTCTGTCCGGCTTGAAAAGGACGACGACGCCCAGCCTGAAGCCCGCCGGCACGCCAAATTGGTGCAGTACGCCATCATCTTCGACCGGATTTTCCGTTTTGCCATCACCGGCAGCCGGGTGCGTAACTATGACGGCCTGGGCGGCCAGCTGCTGTTCGCCTGGCTGCACCAACACCATGTCCTGCACTGGACGGACAGCAGGCTCAGGATCGACTGGGACCAGGTGGCGGACGCCGTCATCGCGCTGGGAGCTAAGATCGATGACCTGTACTGGCGCTCCATCGACCGGCCAAAAATGGCACACTGGCTTGCCGCCTATGAGCTGATTTCGGCCACCGTTACGCCCCACCCTGCTTCCGTATGGGCCAGGGGCACCGACGCACTGCCCCTCACCGGCCCTCCCCGTGGCCTCACGGACCAGGTGCTGGATGACGAATTCCCGCTGTCCATGTTCTATGAAGCATTGGAGAAGAAGATGCGTCCTGTCATCGAGTCAACAGCCGGCATTACCGGCAAGTCCAGCATCACCGGCAGTTCCAGCATCACCGGCAGTTCAGCGCAGTGA	MTETVISAPTRISAEHPGWLRLKAAAIALQELQVQEGSVPAPEDHPAAAARVAAIVEALAGLAPLFPHDEAYLAAAARDFEAWAGAGFGVPDFLSSLLAFQPQQQRHDGLQHVVVFPMYTQNGSSSRLVEAVLIEVVWPDFIAGLEAGDYSNQLFVPIRFLDFTPGYNTNSAVLFPETVAVRETPAFTWGAIFADREAARFRRVLRAAAEITSLELPPGAAELLEDQELTEATFVMWDLIHDRTHMRGDLPFDPFMIKQRMPFFLYSLEELRCDLTAFRESVRLEKDDDAQPEARRHAKLVQYAIIFDRIFRFAITGSRVRNYDGLGGQLLFAWLHQHHVLHWTDSRLRIDWDQVADAVIALGAKIDDLYWRSIDRPKMAHWLAAYELISATVTPHPASVWARGTDALPLTGPPRGLTDQVLDDEFPLSMFYEALEKKMRPVIESTAGITGKSSITGSSSITGSSAQ				NA	NA	NA	NA	NA
D1-29_01811	603	msrB		Peptide methionine sulfoxide reductase MsrB	ATGAGCATCTTCGGAAAAGACATTTTCGGCAACAGGGCCACCGGGTCCATTCCGGGCACCCTTGACGGGACGGAAAAAGGCAACGGCACGGAAAAAGGCGACAGCACGGAAAACACTCCTGAAAGCGCAGGCGGCGCTGTGAACGCCGACGGCCTTGCGAGCGGCCAGCAGAAGTCCGATGCCCAGTGGCGGCAGGAACTGACCCCGGAGGAGTACCACGTACTGCGGGAGGCAGGAACAGAACGCCCGTACACCGGCGAGTACTGGGACACCCACACGGCCGGCGTCTATCAGTGCCGTGCCTGTGGGGCCGAACTGTTCACGAGCAACGAAAAGTTCGACTCGCATTGCGGCTGGCCGTCCTTCTGGGCACCGCTGGCGGAGGGCACGGTCCGTTACATCCATGACCGCACCCTCGGGATGGAACGCGTGGAGGTCCGCTGCGCCAACTGCGATTCACACCTGGGCCATGTGTTCGACGGCGAGGGCTACGGAACCCCCACTGACCAGCGCTACTGCATCAATTCCGTCTCCCTGAAGCTGGTGCCCAGAGAAGAAGCCGGCACGGAACCGCGGACGGAAAGCTCCGGCACGGAAAGCTGA	MSIFGKDIFGNRATGSIPGTLDGTEKGNGTEKGDSTENTPESAGGAVNADGLASGQQKSDAQWRQELTPEEYHVLREAGTERPYTGEYWDTHTAGVYQCRACGAELFTSNEKFDSHCGWPSFWAPLAEGTVRYIHDRTLGMERVEVRCANCDSHLGHVFDGEGYGTPTDQRYCINSVSLKLVPREEAGTEPRTESSGTES	PGPT0013070_822	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013070-msrB-K07305	NA	NA
D1-29_01812	492			hypothetical protein	ATGAGCGAGCCAATCGTCATCCTGACCGAAGAACCCCTGGGCGCGGACGACCGCCTGAATATTGAACGGCTGGTGGACGGCGCAGACACGCATCTTGTGTTGCTGGTCCCGGCGAATACCGAGCGCCATCTGCTGGTGGATTTCCTGGAGAATCTGTCCATGCTGGAGGTCGCGAAGGCGTTCCGCGAGCTGACTTCCCATGCCCCTGATCCCGCTGTTGAACGGGCGGAGGCGGCAGAGACACTGACAGTGTCGCTTGGAGCCCTCCAGGGTCTGGGCGGCGGGGTCACCGGCGAGGTGGTGGAAGGTGGCGCCGTCGACAGCCTGGTGGCGAAGGTCAAAGAGCTCGGTGCTGCCCAGGCCGTGGTGATCACCCGCCCGCATGCGGTGGCCGATACTTTCCATACGGATTGGGCCAACAAGGCGCAGGAACAGCTTGGCCTGCCCGTCCTGCACCTGTACGCCGGTTCGGGATTTATCGGTGACTCCTAG	MSEPIVILTEEPLGADDRLNIERLVDGADTHLVLLVPANTERHLLVDFLENLSMLEVAKAFRELTSHAPDPAVERAEAAETLTVSLGALQGLGGGVTGEVVEGGAVDSLVAKVKELGAAQAVVITRPHAVADTFHTDWANKAQEQLGLPVLHLYAGSGFIGDS				NA	NA	NA	NA	NA
D1-29_01813	1287			hypothetical protein	ATGGCACCTTCTTCACGCACTCCCACTTTGCCGGCCAAACTGACGCCCCAGCCCGACGCCGGGATGTCCCTGCGGGCCAAGTGGACGCTTGGTGGCGTCATCGGCGGTGGTGCATTGGCCGGCCTGCTGGCTACGGGCTCCTCCGCGCTGGCTTTGTATTTCGCCCGGCGCGTCATCACCCCCGCCCGGCAGCGGGTGGCAAACCAGGAAGTGCTGGCCGTGATCCGTGAAGGCCAGGGCCAGCAGATCATTCTGGCGGCCAACGAGGACACCACCGTGGAAGGCGTTTACGGCCTGTTTTTCGACGGCGGCAAGGGGCATGCGCGGATCGGCCGGATCGTCTCCTATTCGCCGGCGGAACGGACGGTGCTTCGGGAGGTGGAGGCCGTCTACTCCGGTGACATCAACACAGCCCACCGGGGATGGTGGAGCGGCGCCGTGTACCCCGATCCTGCCGCCGTCGGACTGCCTGCAGAGGACGTCCTGATCGAGGTGGAGGGCGGCCAGGCTCCTGCCTGGCTGGTAAGGGCAGCGGGGAAAAGCCGCACCTGGGCGATCATGGTGCACGGCCGGGGTGCCACCCGGCAGGAGGCCCTGAGGGCTGTTGGCCCCGCAATGGAACTAGGGCTGACCAGCCTGGTGGTCTCTTACCGCAATGACGGCCTGGCGCCGTCCGCGGACGACGGCCGGTACGGCCTGGGGTCTACGGAATGGCGGGACGTGGAAGCGGGCATCGAGTACGCCCTGGCCAACGGCGCGGAAGAAATTGTCCTCTTCGGCTGGTCCATGGGCGGTGCGATCTGCCTGCAGACGGCAGACCGGTCCCGCTTCCGGCACCTGATCCGCGCCCTGGTGCTGGACGCGCCTGTGATCGACTGGGTCAACGTGCTGGCCCACCATGCCGCGATGAACAGAATCCCCTCCCTGGTGGGGCGGTACGGACAGCTGATGCTGGGCCACCCGCTGGGCCGAAGGCTGACAGGACTGGCCGCACCGGTGGACCTGAAGGCCATGGACTGGGTCTCGCGTGCAGTGGAACTCCGGACACCCACCCTGATCCTGCACAGCGTCGACGACGAGTACGTGCCTTACGGTCCGTCTGCCATGCTCGCGGAGCGGAACCCGGAAATGGTGACCTTTGAAACTTTTAACCATGCCAGGCACACCAAGGAGTGGAACGTCGATCCCGAGCGCTGGGAACGCCTGGTCAAGGCGTGGCTGCGGCAGCAACTCGCGCCCCGGGCCAACCATCCGGGCCAGCCTGCTCAGGAGGCCCCCGAAGCGTGA	MAPSSRTPTLPAKLTPQPDAGMSLRAKWTLGGVIGGGALAGLLATGSSALALYFARRVITPARQRVANQEVLAVIREGQGQQIILAANEDTTVEGVYGLFFDGGKGHARIGRIVSYSPAERTVLREVEAVYSGDINTAHRGWWSGAVYPDPAAVGLPAEDVLIEVEGGQAPAWLVRAAGKSRTWAIMVHGRGATRQEALRAVGPAMELGLTSLVVSYRNDGLAPSADDGRYGLGSTEWRDVEAGIEYALANGAEEIVLFGWSMGGAICLQTADRSRFRHLIRALVLDAPVIDWVNVLAHHAAMNRIPSLVGRYGQLMLGHPLGRRLTGLAAPVDLKAMDWVSRAVELRTPTLILHSVDDEYVPYGPSAMLAERNPEMVTFETFNHARHTKEWNVDPERWERLVKAWLRQQLAPRANHPGQPAQEAPEA				NA	NA	NA	NA	NA
D1-29_01814	429	ybaK	COG2606	Cys-tRNA(Pro)/Cys-tRNA(Cys) deacylase YbaK	GTGCTGCATCCTTACAGCCACGATCCCTCGACGGCCAGCTACGGGACGGAGGCCGCCGTCGCCCTGGGCATTGAACCGGAGAGGGTCTTCAAGACCCTGATGGTGGAGGTGGAGGGGCGGCTGGCCGTGGGCGTGGTTCCGGTCAGCGGAAACCTTGACCTGAAAGCCTTCGCCGCGGCTATGGGCGCCAAAAAAGCCACCATGGCTGATCCTGCAGCAGCCGAAAGGCGCACCGGCTACGTTCTGGGCGGCATTTCACCCCTGGGCCAGCGACAGTCCTCCCCCACGGTCATTGACGGCAGCGCCCTGGCACAAGAGACCATGCTCGTCTCAGGGGGAAAGCGCGGACTCGACATCGAACTGGCGCCCGCGGATCTGATCCGGCTGACCGCCGCCGTCACAGCCGCCATCGGCACGACAAAAAGCTAG	MLHPYSHDPSTASYGTEAAVALGIEPERVFKTLMVEVEGRLAVGVVPVSGNLDLKAFAAAMGAKKATMADPAAAERRTGYVLGGISPLGQRQSSPTVIDGSALAQETMLVSGGKRGLDIELAPADLIRLTAAVTAAIGTTKS				NA	NA	NA	NA	NA
D1-29_01815	465		COG2166	putative SufE-like protein	ATGATGAACACACATGCCCTGCCCGCCGCACTGGCGGAAATCGTTGATGACTTCCAGGCCCTGTCCGAACCGGACCGGCTGCAGTTGCTGCTCGAGTTCTCGCGCGGGCTGCCTGAGCTTCCGGACAGGTTGAAGAACCATCCTGAACTCCTGGAGCAGGTGGTGGAATGCCAGTCGCCGCTGTTCCTCACCATCGAGACGCAGAAGAACGACGACGGCTCCGCGGACGCTGTCCGGCTGTACTTCAAAGCACCGCCGGAAGCGCCCACGACGCGTGGGTTCGCAGGTGTACTGCATGAAGGACTTGACGGTCTCACTGCGGCCGAGATCCTGGCGGTCCCCGACGACATGCCGGAACTGCTGGGCCTCACCCGCGCCATCACGCCGCTGCGGATGCGTGGCATGACGGCCATGCTGGGCCGCATCAAGCGCAAGGTTGCCGCCACCACGCGGCTTCACGCCTAA	MMNTHALPAALAEIVDDFQALSEPDRLQLLLEFSRGLPELPDRLKNHPELLEQVVECQSPLFLTIETQKNDDGSADAVRLYFKAPPEAPTTRGFAGVLHEGLDGLTAAEILAVPDDMPELLGLTRAITPLRMRGMTAMLGRIKRKVAATTRLHA				NA	NA	NA	NA	NA
D1-29_01816	918	sseA_1	COG2897	Putative thiosulfate sulfurtransferase SseA	ATGTCCTACCCCGTTGAACAGAACGAGAAGTTCGCCGCCTATGCCCGCCCCGAGCGGCTGGTTTCCACCGAATGGCTCGCCGCCGCCCTTGAAACCGGCGCCGTTGCCGACGGAAAGCTTGTGGTGGTGGAGTCCGATGAAGACGTCCTCCTTTATGAGACGGGCCATATACCCGGCGCCGTCAAGATCGACTGGCACACAGACCTGAACGACGAAGTGACCCGGGACTACGTGGACGGCAAGGCGTTCGCAGCCCTCGTGGCTGCCAAGGGCATCTCCCGCGACAGCACCGTGGTGGTCTACGGCGACAAGTCCAACTGGTGGGCTGCCTATGCCCTGTGGGTTTTCACGCTCTTTGGCCACGAGGACGTCCGGCTGCTGGACGGCGGCAGGGACAAGTGGATTGCCGAAGGCCGGGAACTGACCACTGACACCTCCACGCCGGCCCCCGGCGAATACCCGGTGGTGGAGCGCAACGACGCCCCCATCCGCGCCTTCAAGGAAGACGTCCTGGCCCACTTCGGGAACCCCCTCATCGACGTACGCTCCCCCGAGGAATACACCGGGCAGCGGACCCACATGCCTGCCTACCCCGAGGAAGGCGCCCTCCGCGGCGGCCACATCCCGACGGCGGCATCCATTCCGTGGGCCCGCGCAGCCGCTGCGGACGGAACCTACCGCAGCCGCGAAGAACTTGAAGCCCTGTACCTCGGCGAGGCAGGCCTCAGCGAGGGCGACGACGTGGTGGCCTACTGCCGCATCGGTGAGCGGTCCAGCCACACCTGGTTTGCCCTCAAGTACCTGCTGGGCTTCGACACTGTCCGCAACTATGACGGTTCCTGGACCGAGTGGGGCAACGCCGTCCGTGTCCCCATCGTCAAGGGCGCCGAGCGCGGCACCGTGCCCGCGGCCAACTGA	MSYPVEQNEKFAAYARPERLVSTEWLAAALETGAVADGKLVVVESDEDVLLYETGHIPGAVKIDWHTDLNDEVTRDYVDGKAFAALVAAKGISRDSTVVVYGDKSNWWAAYALWVFTLFGHEDVRLLDGGRDKWIAEGRELTTDTSTPAPGEYPVVERNDAPIRAFKEDVLAHFGNPLIDVRSPEEYTGQRTHMPAYPEEGALRGGHIPTAASIPWARAAAADGTYRSREELEALYLGEAGLSEGDDVVAYCRIGERSSHTWFALKYLLGFDTVRNYDGSWTEWGNAVRVPIVKGAERGTVPAAN	PGPT0002045_884	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
D1-29_01817	1038	zapE_1	COG1485	Cell division protein ZapE	TTGGTACAGATCGAACAGCTTGCCGCCCGGACTCCCAAAGTTTCGGTGGATGAGCTCCTCAAGGGTTTCTTTCCCTCGCCGAGGTTTGGCCAGGTCTCTTTTGCCAGCTACCGTCCGGACCCCCAGCAGCCCAGCCAGGCTTCCGCGGTCAGGGCACTGGAAGGATTTGCGGGCAGTGTGGGTGCCGGCGAGGGCGCCGGCCTCTTCAAGAGGCTCTTTGCCAAGAAGGACGTATCCCGGGCGGGCATCTATCTGGACGGTGGATTCGGCGTCGGGAAAACCCACCTGCTGGCCTCGACGTGGCACGCTGTCCCCGGCCCGAAAGCCTTCGGCACCTTTGTGGAGTACACCAACCTGGTGGGCGCACTGTCCTTCCGCAAGACCGTGGAGGCCCTGAGCCACTACAAGCTGGTGTGCATCGATGAATTCGAGCTGGACGATCCCGGCGATACTGTCCTGATGTCCAGGCTGATGCGGGAACTCGCTGACGCCGGTGTCAAGCTCGCCGCGACGTCCAACACCCTTCCCGGCTCGCTGGGAGATGGCCGGTTTGCCGCCGTTGACTTCCAGCGTGAAATCCAGGTGCTGGCAGACCAGTTCGACGTCGTCCGGATCGACGGCGAGGACTACCGCCACCGCGGCCTGCCCGCCGCTCCCGCTCCGCTGAAGAACAGCCAGCTGACCGCGCACATGAAGGCCGAATTCGACGGCAAGACAGTGGCGCAGGACGAATTCAGCACCTTGATCAGCCACCTGGCCGGTGTGCACCCCAGCCGCTACCGGAAGCTCATTGACGGCATCGACGGCGTGGTGTGGCGCAACGTTGAGACCATTACCGAACAGGCTGTGGCGCTGCGTTTTGTGGTCCTCGCGGACCGGCTGTACGACAAGGACGTTCCCATCCTGGCCAGCGGCGTTCCCTTTGACCAGCTGTTCACCGACGAGATGATGCACGGCGGGTACAGCAAGAAGTACTTCCGCGCGGTTTCGCGGCTGACTGCCCTTGCCCGGGAGGGCCAGAACCACGAGCCGTCCTAA	MVQIEQLAARTPKVSVDELLKGFFPSPRFGQVSFASYRPDPQQPSQASAVRALEGFAGSVGAGEGAGLFKRLFAKKDVSRAGIYLDGGFGVGKTHLLASTWHAVPGPKAFGTFVEYTNLVGALSFRKTVEALSHYKLVCIDEFELDDPGDTVLMSRLMRELADAGVKLAATSNTLPGSLGDGRFAAVDFQREIQVLADQFDVVRIDGEDYRHRGLPAAPAPLKNSQLTAHMKAEFDGKTVAQDEFSTLISHLAGVHPSRYRKLIDGIDGVVWRNVETITEQAVALRFVVLADRLYDKDVPILASGVPFDQLFTDEMMHGGYSKKYFRAVSRLTALAREGQNHEPS				NA	NA	NA	NA	NA
D1-29_01818	1215	ydcO	COG3135	Inner membrane protein YdcO	ATGCCTGAGTCCCCCGCAGCCACCCCGGTATCAGCTTCCCGCAGTCTTCACCGCCTCTCCCAGCCCATCGTCGCCGGCATTGTCACCGCCCTGGTGGGCTTTACCTCATCCTTTGCCGTAGTGCTCGCCGGACTTCAGGCAGTTGGCGCCGATCCCCGGCAGGCGGCTTCAGGCCTGCTGGCCCTGACCCTGGTCTTCGGACTCGGGGTCCTGTGGCTTTCCTGGCGCTCCAAAGTCCCGGTGACCCTGGCGTGGTCCACCCCCGGAGCGGCACTCCTTGCCGGTTCCGGAGGAGTCGACGGCGGCTGGCCGGCCGCCGTCGGCGCTTTCCTCATCACGGGCGTCCTGATTGCCCTGACGGGCCTCATCCCGGCACTGGGCCGGCTGTTTACCCGTATTCCTGAGCCCCTGGCGCAGGCGATGCTGGCCGGCGTACTGCTGTCCCTGTGCCTGGCACCCTTCAAAGCACTGGGCAGCACCCCGGTACTGGTGGCCCCGGTAATCATCTGCTGGCTGCTCATGATGAAGTTCGCGCCCCGCTGGTCGGTACCGTCGTCGCTGCTGGTGGCACTGGCCGTCATCGGAATCCAGGTGGCCATTGACGGTCCAGCCCCCACCCAGGCGGGCCTGCTTCCGGAACTTATCTGGACCACACCGGCGTTCAGTCTGCAGGCAATTGCCGGAATTGCGTTGCCGCTTTTCATCGTGACCATGGCATCGCAGAACATCCCGGGGGTGGCCGTGCTCAAGTCCTTTGGCTACACCACGCCGTGGGCCCCGTCCATGCTGCTTACCGGAGCCGGCACCATGCTCAGTGCTCCGTTCGGCGGCCATGCCATCAACCTTGCCGCCCTCAGCGCAGCCCTTGCTGCCGGCCCCGAAGCGGGCCAGGACAGGAAGAAACGGTGGATTGCGGCTTTTACCTCCGGCCTTGCCTATACGGTGCTGGCGCTCTTCTCTGCCGCCCTCGTGGCGGTGGTGACGTCCGCTCCCCCGGGAATGCTGGAGGCAGTGGCAGGCCTGGCCCTGATCGGCACGCTGGCAGCTTCTGTTTCCTCCGCCCTGGCCGTACCCGAGGACCGGACCGCCGCGTCAATAACTTTCCTCATCGCGGCCTCCGGACTCAGCTTTGCCGGGATCGGGGCAGCATTCTGGGCACTGGCGGCCGGCCTGGCGGTGCGTTGGATTTTCAAGGACCGCAAGCCACAAGGCTGA	MPESPAATPVSASRSLHRLSQPIVAGIVTALVGFTSSFAVVLAGLQAVGADPRQAASGLLALTLVFGLGVLWLSWRSKVPVTLAWSTPGAALLAGSGGVDGGWPAAVGAFLITGVLIALTGLIPALGRLFTRIPEPLAQAMLAGVLLSLCLAPFKALGSTPVLVAPVIICWLLMMKFAPRWSVPSSLLVALAVIGIQVAIDGPAPTQAGLLPELIWTTPAFSLQAIAGIALPLFIVTMASQNIPGVAVLKSFGYTTPWAPSMLLTGAGTMLSAPFGGHAINLAALSAALAAGPEAGQDRKKRWIAAFTSGLAYTVLALFSAALVAVVTSAPPGMLEAVAGLALIGTLAASVSSALAVPEDRTAASITFLIAASGLSFAGIGAAFWALAAGLAVRWIFKDRKPQG	PGPT0005385_413	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0005385-benE-K05782	NA	NA
D1-29_01819	249			hypothetical protein	GTGGGACTGATTGACGATCTTAAGGGCAAGGCTCAAGGTCTCATCCATGGCAACGAGCAGGCCATCAAGGACGGCATCACCAAGGCCGGCGATTTTGTCGACACGAAAACCGGCGGCAAGTACGCAGGTCACGTGGACAAAATCCAGGATGGCGCTTCCAGATTCGTTGACAAAAACGACGGAACACCTGACCAGCCACCTGCCAGCGGGCAGGTACCGCCGGCTCCTCCGGCAGACAGGGCTCCGTAA	MGLIDDLKGKAQGLIHGNEQAIKDGITKAGDFVDTKTGGKYAGHVDKIQDGASRFVDKNDGTPDQPPASGQVPPAPPADRAP				NA	NA	NA	NA	NA
D1-29_01826	819			hypothetical protein	ATGTATGCGCGGTCCACCACTGAGCAGTTCTCCGTTCCGTCCATCACCACTGTCATCGGCCAGCAGCCGCACGGCCTTGACGGCTGGTTCGGATACATGGGGGCCAGCAGCCTGGCGAAGGATCCGCTGCTGGCTGACTGCCTGGGCAGCCCCGCCAAGATCAGGCAGGCCGTCAACCGGGCCTCCAAGGCGGCCGAGACCTACCGTGATGAAGCAGCCCGGCGTGGTGACCGTGTCCACAGCTACTGCGAGCAGGTTGCCCTCCGCGCCCTGGGCCGGCCCCACACCATGAAGGAAACGCGGGAAGCACTCGCGGCTAACGGGGAGGAAGCCTTCGCCGTCCGCTTTGACGAATGGTGGGAGCTGTTTGGTGTGGAGCCCATAGCCCCGGAAATCACTGTCTGGAACAAGTCCGTTGGCTACGCCGGAACCCTGGACCTGGTGGCCCGGATCAATGGCCGCATCTGCCTCATCGACTACAAAACAAAAGGCACCACCCGTGAGGGCACCGTCAAACCGCTCGATGACAAGGTGGTCATGCAGCTGGTGGCCGGCATGAAGGCTGAAGAAAGCCTGGTGGATGCCGTCGCGGGGGAATGGGAGGCCTGGAAATACGGGGAGAACCCCGTCCTCCTGGCTGTGGCGATTGGTGAGACGGAAGTCCGCCCGGTCCGGGCCAACCCGGAAGTCCTCAAACACCACTGGTGGAAGTTCTGCGCGCTGAGGCGGGTTTGGGAGCTGTCGGCGGACACCATCAGCGCAGGCTCCGCCCTGCTTCCGGTTGCTCCACCACCCTTGGCGCAGGTCCGGATGGCCTAG	MYARSTTEQFSVPSITTVIGQQPHGLDGWFGYMGASSLAKDPLLADCLGSPAKIRQAVNRASKAAETYRDEAARRGDRVHSYCEQVALRALGRPHTMKETREALAANGEEAFAVRFDEWWELFGVEPIAPEITVWNKSVGYAGTLDLVARINGRICLIDYKTKGTTREGTVKPLDDKVVMQLVAGMKAEESLVDAVAGEWEAWKYGENPVLLAVAIGETEVRPVRANPEVLKHHWWKFCALRRVWELSADTISAGSALLPVAPPPLAQVRMA				NA	NA	NA	NA	NA
D1-29_01827	618	def_1		Peptide deformylase	ATGGCCATTCTGAATATCCGCATCATCGGTGATCCTGTGCTGCGCACAGTCGCCGATCCCGTGACGGAATTCGGGCCGGAGCTGGCCAAGCTCGTAGCAGACATGACCGAAACCATGGAGGACGTGGACGGTGCGGGGCTCGCTGCCCCGCAAATAGGCGTAAGCCAGCGGGTCTTCACCTACCGCATCGACGGCGTCGAGGGCCACATCATCAACCCCGTCCTGGAAAACAGCGACGACTACCAGCCGGACCAGGTGGAAGGCTGCCTCTCCATCCCCGGGCTTGGTTTCCCGGTCCGCCGTTTCCGGGCCACCCGGGTCACGGGCGCTGACCTCCACGGCAATCCCGTCACCGTGGAGGGCGAAGGCATGCTGGCACGGTGCTTCCAGCATGAGACGGACCACCTGGACGGCATTCTCTACACTGACAGGCTGGAGGGCGAGGATCGGAAGGCAGCCCTGCGCTCCATCCGCAACGCCAACTATGACGCCGTCACGGAACGCACGACGGCGGAGCGCGCCAAATCTGTCGGGTCCAGTTTCGGCGGCGCAAGCTTTGGTGCCGCGGCAAGTTTTGGTGCCGCTGCCGGGACGAATCCGGCCGGCCGCAGCAAATGA	MAILNIRIIGDPVLRTVADPVTEFGPELAKLVADMTETMEDVDGAGLAAPQIGVSQRVFTYRIDGVEGHIINPVLENSDDYQPDQVEGCLSIPGLGFPVRRFRATRVTGADLHGNPVTVEGEGMLARCFQHETDHLDGILYTDRLEGEDRKAALRSIRNANYDAVTERTTAERAKSVGSSFGGASFGAAASFGAAAGTNPAGRSK				NA	NA	NA	NA	NA
D1-29_01828	921	fmt	COG0223	Methionyl-tRNA formyltransferase	ATGAGGGTACTTTTCGCCGGGACCCCTGCCGTGGCGGTCCCATCGCTGGACGCCCTCGTCCAGGCAGGTTTCGACGTCGTGGCGGTCCTGACCCGGCCGGACGCGCCGATCGGCCGTAAACGCGTGATGACGCCGTCGCCCGTTGCGGCGCGGGCCATGGAGCTGGGCATCGAGGTCATCCATGCCGCCCGCGTGGATGAGTCCGTCACGGCGAAGATCGCCGGGGTGAAACCGGACGTGGCCGCCATCGTGGCCTACGGCGGGCTGATTCCCCGCGCGGCCCTTGATATTCCCCGGCACGGTTGGATCAACCTGCACTTTTCGCTTCTTCCCGCCTGGCGCGGCGCAGCTCCCGTGCAGCGGGCCGTGATGGCCGGCGATGACATCACAGGGGCCGTCACCTTCCTTCTGGAGGAAGGGCTGGACACTGGTCCCGTCTTCGGGACACTCACGGAGCAGGTTGGCCCTGACGACACCGCAGGAGAGCTGCTCGAGCGGCTGTCCCACAGCGGTGCGGTCCTCCTGAGCCAGACGCTGTCAGCAGTGGAGGCAGGCAGGGCCGTTCCCGAGCCCCAGCAGGGCGATGTTTCGCTGGCTCCCAAGCTGACCCTCGACGACGGCCGGATCCATTGGAACCAGCCGGCACTGGCCATCGGCAGAAGGGCCCGCGGGGTTACCCCGGAGCCTGGCGCCTGGACCACCCTGGACGCCCAGCGCGTCAAACTCGAGCCGGTGCGGCTCCGGCCGGAAATCCAGGACCTGGCCCCCGGTGCTGTGGCGGTTGACGGGAAGAGCGTCCTGGTGGGGACGGGATCCCACGCCGTGGAGCTGACCCGGATCCAGCCCGCCGGCAAAAAGATGATGGCCGCCGCTGATTGGGCGCGCGGCATGGCTTCCCTTGAAAGCGTGGTGTTCGAATGA	MRVLFAGTPAVAVPSLDALVQAGFDVVAVLTRPDAPIGRKRVMTPSPVAARAMELGIEVIHAARVDESVTAKIAGVKPDVAAIVAYGGLIPRAALDIPRHGWINLHFSLLPAWRGAAPVQRAVMAGDDITGAVTFLLEEGLDTGPVFGTLTEQVGPDDTAGELLERLSHSGAVLLSQTLSAVEAGRAVPEPQQGDVSLAPKLTLDDGRIHWNQPALAIGRRARGVTPEPGAWTTLDAQRVKLEPVRLRPEIQDLAPGAVAVDGKSVLVGTGSHAVELTRIQPAGKKMMAAADWARGMASLESVVFE	PGPT0008125_5278	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
D1-29_01829	1617		COG0144	Putative methyltransferase	ATGAGCGGGTCCGGCGGAAATCCAGGCGGCCGCGGCCAAAGTGGCCGCGGCCAAAGCGGCCGCAGCCAGGGCGGCAGTGGCGGACAAGGCAGTGGCGGACAACGCGGCGGCGGGGGGCCGCGGGACGGCAGCCAGCGCAACGCGCAGGGCCGGGAACGGAACCGCGGCCCGCAGCGCAGCTTCACGGAGAATGCCCCGGCACAGCGCACCCGGAGGGCAGATCCGGCTCGGCTGGTGGCCTTCGAAGTCCTGCGGGCTGTAGCGGCCGAGGACGCCTACGCCAACCTGGTGCTGCCTGCTCGGATCCGGCACCACGGGCTGGACAAACGCGACGCCGGCTTCGCCACCGAACTCAGCTACGGGGCACTCCGTGGCCAGGGGACGTATGACGCCATCCTGGCCCGGTGCGTCGACAGGCCGCTGGATCAGCTGGATCCCGCCATCCTGGACGCCCTTCGGATCGGCACCCACCAGCTGCTGGCCATGCGTGTCCCTGCCCATGCCGCGCTGGACCAGACTGTTGGCCTGGCCCGCGCTGTTATTGGAGCGGGCCCGTCCGCCCTCATCAACGCGGTGCTGCGCAAGGTGACAGCGCACACGCTCGAGGAATGGCTGGAGCTGCTGGTCGCCGGGGAAACCGATGAAACCAAGGTATCCTCCATTCGCTATGCCCACCCGGAATGGATTGTGCGCGCCATGCGCCAATCGCTGGTGGCGCATGGCCGCCCGGCCACCGAAATCAATGAACTGCTCGACGCCGATAACGCCGCTCCCGTAGTCAACCTGGTTGCGTTGCCGGGGCTGGGGAGCCTGGATGAGGCGCTCGAGAACGGTGCAACACCTGGCGGGCTTGTGGAAGGTTCCGCACTGTCCAGCGGCGGCGACCTTGGCCGCCTCGCATCAGTACGGGCCGGGAGCACCCGTGTCCAGGACGTGGGCTCCCAGCTGGTAGCCCGGGCCATGGCGGCTGCAGACGTTCTGCCGCGTGCCGCGGCTGGTACGGACGGCGGGGCCACGGACGAGTCATGGCTGGACCTGTGTGCAGGGCCCGGCGGCAAGGCTGCGCTTCTGGCCGCCCTCGCCAAACAGCAGGGCGCCACACTCCTGGCCAACGAACCTGCCCCGCACCGGGCCAAGCTGGTCAGCCAGGCCCTGGCCGCCGTGCCGAAGGACGTCTGGCAGGTGCGCACCGGCGACGGCCGCGAACTGGGCACCGAACAGCCGGAATCCTTCGACCGCGTCCTGGTGGATGTGCCCTGCAGCGGGCTCGGTGCGCTCCGCCGCCGCCCGGAATCCCGATGGCGCCGTACCCCCAAAGACCTTGCCGACCTGGGGCCGCTGCAGCGTGACCTCCTCAAGTCCGCCCTTGCCGCCGTCCGCCCGGGGGGAGTGGTGGCCTATGTGACCTGCTCACCGCATCCTGCCGAAACCACAGCCGTGGTCACCGATGCCCTCCGGAAGCGGGATGACTTTGAGCTGCTGGATGCCGGTGCCGCGCTGGATAAAGTGAGCCTCACCGGCAACCTCGGCGCGGGCAACGGGTCCACCGCCCAGCTGTGGCCGCACGTCCACAGCACTGACGCCATGTTCCTTGCCCTCATCCGCAAAAAAGCCTGA	MSGSGGNPGGRGQSGRGQSGRSQGGSGGQGSGGQRGGGGPRDGSQRNAQGRERNRGPQRSFTENAPAQRTRRADPARLVAFEVLRAVAAEDAYANLVLPARIRHHGLDKRDAGFATELSYGALRGQGTYDAILARCVDRPLDQLDPAILDALRIGTHQLLAMRVPAHAALDQTVGLARAVIGAGPSALINAVLRKVTAHTLEEWLELLVAGETDETKVSSIRYAHPEWIVRAMRQSLVAHGRPATEINELLDADNAAPVVNLVALPGLGSLDEALENGATPGGLVEGSALSSGGDLGRLASVRAGSTRVQDVGSQLVARAMAAADVLPRAAAGTDGGATDESWLDLCAGPGGKAALLAALAKQQGATLLANEPAPHRAKLVSQALAAVPKDVWQVRTGDGRELGTEQPESFDRVLVDVPCSGLGALRRRPESRWRRTPKDLADLGPLQRDLLKSALAAVRPGGVVAYVTCSPHPAETTAVVTDALRKRDDFELLDAGAALDKVSLTGNLGAGNGSTAQLWPHVHSTDAMFLALIRKKA				NA	NA	NA	NA	NA
D1-29_01830	681	rpe	COG0036	Ribulose-phosphate 3-epimerase	ATGACCCAATGCTGCATCAACCCGAGCATCCTCTCCGCAGACTTCGTCAACCTCGAAGCCGAACTGCAGCGCATCGGCAATGCCGACGCCGTGCACGTTGACGTGATGGACAACCATTTTGTTCCCAACCTCACTATTGGCCTGCCCGTGGTCCAGCGGATCCAGGCTGTCAGCCCGGTGCCCCTGGACGCCCACCTGATGATTTCCGACGCCGACCGCTGGGCCCCCGGATTTGCCGAGGCCGGGCTTGCTTCGGTGACCTTCCATGCCGAGGCATCCATCGCACCGGTCAAGCTTGCCCGTGAGCTGCGTGCGCGCGGATCCAAGGCGGGGATGGCACTGCGGCCGGGAACGCCGGTGGAACCGTATCTTGACATGCTCTCCGAGCTGGACATGCTGCTGATCATGACGGTGGAGCCCGGCTTCGGCGGGCAGTCCTTCCTGGACCTGACGCTCCCCAAGATCCGCCGTGCCCGGGCGGCCATAGACGGATCGGGGATCGGGGTGGCCATCCAGGTGGACGGGGGCATCACGGAGGAAACCATCGTCCGGGCAGCCGAAGCCGGTGCCAACGTCTTTGTCGCGGGTTCCGCGGTTTACGGCGCAGAGGACCCCGCAGCTGCCATCGAGCGGCTGCGCGCTGCTGGCAGCCAAACATTAAGTGCTGTGTCGGCGGAATAG	MTQCCINPSILSADFVNLEAELQRIGNADAVHVDVMDNHFVPNLTIGLPVVQRIQAVSPVPLDAHLMISDADRWAPGFAEAGLASVTFHAEASIAPVKLARELRARGSKAGMALRPGTPVEPYLDMLSELDMLLIMTVEPGFGGQSFLDLTLPKIRRARAAIDGSGIGVAIQVDGGITEETIVRAAEAGANVFVAGSAVYGAEDPAAAIERLRAAGSQTLSAVSAE	PGPT0017425_2230	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
D1-29_01832	1215	ribD	COG0117	Riboflavin biosynthesis protein RibD	GTGACGGCGGCACCCGAGCAGCGGATCGAAGCCCGGCCCGCCACACAGCCGGCTACCCAACAGCCAGCCACCCAACGCACAGTCACCCATCAGGCAGCGCCGCCCGACGGCGTCGTGACCGCTTTCACCGCTGCGGAAACGGCTGCCATGGATGCCGCCCTTGAAGAAGCCCTGCGGGGGCCGCGTGGTGCGAATCCGCTGGTGGGCGCCGTCGTCGTGGATGCCGAGGGCAAACAACTTGTCACCGGATACCACCGCGGCGCAGGTACCGCGCACGCGGAAGCTGACGCGATTGCACAGGCAGCGGCCGCCGGAGTTGACCTCCGCGGTTCAACCATGGTGGTCACGCTGGAACCCTGCAACCACTCCGGGCGCACGGGCCCCTGCGCCCAGGCGATCATCAGTGCTGGCATCACGGATGTTATTTACGCCGTCGATGACCCCCATGACCCCGCTGCCGGGGGCGCGGCCACGCTGCGGGAGGCAGGTGTTAGTGTCCGCAGCGGCCTTGCAGCCAGCGAGGCGCTGGAACTGAACCGACAGTGGTTCCAGGCAGTTGCCGCGAAACGTCCCTTCGTGACGCTTCACATCGCCCAGACCCTGGACAGCCGGATCGCGGCCGAGGATGGCACCAGCCAATGGATTTCGAGCCCCGAATCCCTGGCCGACAATCATGCCCTGAGGGCCCGGATCGATGCCATCCTGGTGGGAACCCAGACTGTCCTGGTGGACAACCCGCGGCTGACCGCCCGTGACGCGGGCGGGGCCCCCGCTGGAAAGCAGCCATTGCGGGCAGTCATGGGGCTGCGGGACATTCCTGCCGATGCCGCCGTCCGCGGCGACGACGGCCGCGTTCTTCATCTGCCCACGCGTGATCCACGGGAAGCGCTGTCGCTGCTTTATGCCGCGGGCGTCCGCCACCTGATGGTGGAGGGAGGATCGCGGATCCTCAGTGCGTTCCTCACCGCAGAACTCGTGGACGAACTCATCGTCTACCTCGCCCCCACGCTGCTCGGGTCCGGGACGCCTGCCCTGAACGGGCTGGGGGTCAGCACCCTCGCGGATGCCCAGCAGTGGGAATGGGACGCGTCCGACGGCGGCGCGGTGCGCACGCTTGGCCGCGACCTGAGACTTCACCTGCATCCGCAACGAATCGAAGCTTTGGCACCACAACCATCCCGCGCCGGCGCGGAACAAGCCTTGGGAGGCTACTGA	MTAAPEQRIEARPATQPATQQPATQRTVTHQAAPPDGVVTAFTAAETAAMDAALEEALRGPRGANPLVGAVVVDAEGKQLVTGYHRGAGTAHAEADAIAQAAAAGVDLRGSTMVVTLEPCNHSGRTGPCAQAIISAGITDVIYAVDDPHDPAAGGAATLREAGVSVRSGLAASEALELNRQWFQAVAAKRPFVTLHIAQTLDSRIAAEDGTSQWISSPESLADNHALRARIDAILVGTQTVLVDNPRLTARDAGGAPAGKQPLRAVMGLRDIPADAAVRGDDGRVLHLPTRDPREALSLLYAAGVRHLMVEGGSRILSAFLTAELVDELIVYLAPTLLGSGTPALNGLGVSTLADAQQWEWDASDGGAVRTLGRDLRLHLHPQRIEALAPQPSRAGAEQALGGY	PGPT0008555_1466	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
D1-29_01833	723	ribE	COG0307	Riboflavin synthase	ATGTTTACCGGAATTATTGCCGAACAGGGCCACGTGCTGTCCGTTGACAGGGACGGCGATGCCAGCGCCACCGTCAGGCTGCACGCCCCGGGCACCACGGAAGGGCTTGGCTTGGGCGGTTCCATCGCCGTGAACGGCGTCTGCCTGACTGCGACCGAGATCAACGGCAAGGAATTCAGCGTCGACGTGATGGGCGAAACCCTGGTCCGCACCACCATCGGCGAACTGGCCTCCGGCGACTCGGTCAACCTTGAGCGCTGCGTGCAGGCCGGGGGAAGGCTGGACGGGCACGTCGTCCAGGGGCATGTGGACGGCGTTGGACGGCTGCTGGAACGCGAAGCCCTGGGGAACTGGGAACGGCTCCGCTTCGGCGTGCCCGCCAACCTTGCCCGCTACATTGCAGAGAAGGGCTCCATCGCAATCGACGGCGTCTCCCTCACCGTGACGGCCGTCAGCCCCGCCCCCGAAGCTGAACCGTGGTTTGAAGTGGGGCTGATCCCCACCACTCTGGCCGAGACCGGACTGGGTGAAAAAACGGTAGGCAGCCGGGTCAACCTTGAAGTTGACGTCCTCGCCAAGTACACCGAGCGGCTCCTTGCTTTCAGTGCAGGCGCTTCCAGCAGCTTCGGCAGCGGCACCAGTGCCGCCACCAGCGCCAGCACTGTCAGCAGCGCCAGCGCATCCAGCAGCACGGTCACCAGCGGCGCAGGCGGTGCACGATGA	MFTGIIAEQGHVLSVDRDGDASATVRLHAPGTTEGLGLGGSIAVNGVCLTATEINGKEFSVDVMGETLVRTTIGELASGDSVNLERCVQAGGRLDGHVVQGHVDGVGRLLEREALGNWERLRFGVPANLARYIAEKGSIAIDGVSLTVTAVSPAPEAEPWFEVGLIPTTLAETGLGEKTVGSRVNLEVDVLAKYTERLLAFSAGASSSFGSGTSAATSASTVSSASASSSTVTSGAGGAR	PGPT0008610_2287	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
D1-29_01834	732	ribBA_1	COG0108	Riboflavin biosynthesis protein RibBA	ATGAACGGGACGGCCCGGCTGGAGCCGATATCCGCGCCAGCCTTGAAAGTTGCTCCAGCCCTGGGACTTGATCCGGTCGAGGACGCAATCCGTGCCATTGCCAACGGCAGGCCCGTGCTGGTGGTGGACAACGAGGACCGCGAAAACGAAGGTGACATCATCTTCGCGGCCCAGCACGCCACACCGGCCCTGATGGGCTGGACGATCCGGTACAGCTCAGGGGTCATCTGCGTCCCGCTGTCAGGTGAACGCGCCGACGCCTTGGCGCTGCCGCCCATGGTGCTGGTCAACGAGGACGCCAAGGGTACGGCGTACACGGTTTCCTGCGATGCCGCAGTGGGCGTGAGCACCGGCATTTCTGCGACGGACCGCGCCCTGACGGCCAGGGTCCTGGCGGATCCGGCCGCCGGGCCTGCCTCCGTGACCAGGCCTGGGCATATTTTCCCCTTGCGGGCCGTTAATGGGGGAGTGCGTGAGCGTCCCGGCCACACCGAGGCCGCTGTTGACCTCTGCCGGCTCGCCGGACTGGAGCCGGTGGGCGTGATCGCGGAAGTTGTCTATGACGACGGAGAAATGATGCGCTTGGACGGACTGCGGAGCTTCGCTGCTGAACACGGCTGCCCCCTGATCTCGATCGAGGATCTGGTGGCTTACCTTGGAGCAGGGCCCGCGGCCACCGCGGAGAGAGGTACCCGGGCCACGAACCCGGGAGGAGAAGAGGAGATACGATGA	MNGTARLEPISAPALKVAPALGLDPVEDAIRAIANGRPVLVVDNEDRENEGDIIFAAQHATPALMGWTIRYSSGVICVPLSGERADALALPPMVLVNEDAKGTAYTVSCDAAVGVSTGISATDRALTARVLADPAAGPASVTRPGHIFPLRAVNGGVRERPGHTEAAVDLCRLAGLEPVGVIAEVVYDDGEMMRLDGLRSFAAEHGCPLISIEDLVAYLGAGPAATAERGTRATNPGGEEEIR	PGPT0008600_149	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008600-ribB|RIB3-K02858	NA	NA
D1-29_01835	792	ribBA_2		Riboflavin biosynthesis protein RibBA	ATGACGGCTTCCGGAGCTACTGACGACAGTCACCAGAACGGCCACCATGGGAACAGCCACCACAGTAATGGCCAGCACAGCAACGGCCACCACAGTAACGGCCACCACAAGGGACAAACCGGCAACACCAAAGTCCTCCACCCCGTTAGCGGCGGTCCCATCGTTCAGCTTCCCACGGCGTTCGGTGACTTTGTGGCGCAGGCGTGGACCGACCTGGTCACCGGTGCCGAGCACCTTGCCGTCAGTTCACCCAATCCGCCCAAAGACGGCAAGGCGCCGCTGGTCCGGCTGCACTCGGAATGCCTCACCGGGGATATCTTCGGGTCCTACCGGTGTGACTGCGGTGAGCAGCTGGCTTACGCCCTGGAGATGATCCAGGAGTTCGGCGGAACCCTGCTGTACCTGCGCGGCCAGGAGGGCCGGGGCATCGGATTGGCCAACAAGATCAAGGCCTACGCCCTCCAGGAAGCCGGTTTCGACACGGTGGAGGCCAATGAGCAGCTGGGGCTGCCGGTGGATGCCCGGTGCTACAACGCCGCGGCGCAGGTGTTGGCGGAGATGGGCCTCCACGAGGTCCGGCTGCTGAGCAACAACCCGGACAAGCAGAACAGGCTGGCCAAGGCCGGCGTGAAGGTGGTGGAGATGGTTCCCACGGAGGTGCCTTCCCGCGACCAGAACATCCGGTACCTGCAGACGAAAAAAGACCGGATGGAACACCGGCTCACGCTGGACACCCACATCGCCACAGTGCCTGCCATCGCGGCAGACACTTTCGACCACGAACAAGACTGA	MTASGATDDSHQNGHHGNSHHSNGQHSNGHHSNGHHKGQTGNTKVLHPVSGGPIVQLPTAFGDFVAQAWTDLVTGAEHLAVSSPNPPKDGKAPLVRLHSECLTGDIFGSYRCDCGEQLAYALEMIQEFGGTLLYLRGQEGRGIGLANKIKAYALQEAGFDTVEANEQLGLPVDARCYNAAAQVLAEMGLHEVRLLSNNPDKQNRLAKAGVKVVEMVPTEVPSRDQNIRYLQTKKDRMEHRLTLDTHIATVPAIAADTFDHEQD	PGPT0007985_661	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
D1-29_01836	486	ribH		6,7-dimethyl-8-ribityllumazine synthase	ATGAGCGGACACGGCGCACCAGATATTGACCTCACCACCCTCAACCCGGCCGAGACGGCCCAGCTCCGGCTGGCCATTGTGGCCGCCAGCTGGCACACCCAGATTATGGACGGGCTCCTGGACGGTGCCCTCCGCGCCGCCAAGGACGCCGGCATCAGCGAACCCACAGTGGTGAGGGTTCCGGGCAGCTTCGAACTTCCGGTCGCTGCCGCGCGGCTGGCACCGCACTTCGACGCGGTGGTTGCCCTCGGCGTCGTCATCCGGGGCGGTACACCGCACTTTGAGTACGTCTGCCAGGCCGCGACGTCGGGACTGACCGATGTCAGCGTCTCCACAGGAGTGCCGGTGGGCTTCGGCGTCCTGACCTGCGACACAGAGCAGCAGGGCCTGGACCGGGCCGGGCTGCCGGGATCCAAGGAAGACAAGGGCCATGAGGCAGTTACCGCGGCGCTGGCCACCGCCGTCGTACTCAAGCAGTACCGCTAG	MSGHGAPDIDLTTLNPAETAQLRLAIVAASWHTQIMDGLLDGALRAAKDAGISEPTVVRVPGSFELPVAAARLAPHFDAVVALGVVIRGGTPHFEYVCQAATSGLTDVSVSTGVPVGFGVLTCDTEQQGLDRAGLPGSKEDKGHEAVTAALATAVVLKQYR	PGPT0008605_1644	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
D1-29_01837	264	hisE	COG0140	Phosphoribosyl-ATP pyrophosphatase	GTGAAGAATTTCGAGACGCTGTTCGCTGAACTGAGTGAGAAGGCAGCCACCCGTCCGGCAGGCTCCCGCACCGTCGCTGAATTGGAGTCCGGAGTCCACGGCATTGGCAAGAAAGTCGTGGAGGAAGCGGCCGAAGTATGGATGGCCGCAGAGTATGAATCCGACGAGGCCGCGGCCGAGGAGATCTCCCAGTTGCTCTACCACCTGCAGGTCCTGATGCTCGCCAAAGGACTGACCCTGGAAGACGTCTACAAGCATCTGTAG	MKNFETLFAELSEKAATRPAGSRTVAELESGVHGIGKKVVEEAAEVWMAAEYESDEAAAEEISQLLYHLQVLMLAKGLTLEDVYKHL				NA	NA	NA	NA	NA
D1-29_01838	861	hisG	COG0040	ATP phosphoribosyltransferase	ATGCTGCGAGTAGCCGTACCCAACAAGGGCTCCCTGTCCGAAGCCGCCTCCGAAATGCTGTCCGAAGCCGGTTACCGCCAGCGCCGCGACACCCGCGAGCTGGTCATGGTGGACCCTGACAATGACATCGAATTCTTCTTCCTCCGCCCGCGCGACATCGCCGTCTATGTCGGCCAGGGAACGCTCGACGTCGGCATCACCGGCCGCGACCTGCTGCTGGACGCCGAAGTGGAAGCGGAGGAACTGCTCCCGCTCGGCTTTGCCGCCTCAACCTTCCGCTTCGCCGGCCCCGTGGGCGACTTCGCCAAGGTGGAGGAACTTGAAGGCAAACGGCTGGCCACCAGCTATGACGGCCTCCTGCGCGGCTACCTCGCCGGGCTGGGGATCAACGCCAGGGTTGTCCGCCTCGACGGGGCCGTGGAATCATCCGTACGCCTCGGCGTGGCTGACGCCATCGCCGACGTCGTGGAGACCGGCAGCACCCTCAAGGCGGCCGGAATGGAAATCTTCGGTGATCCCATCCTCAAATCCGAAGCCGTCCTGATCCGCCGCACCGGAGAGGGTGGAGCCGCCAACGGCACTGCCAAGGAGATCGAGGTCCTGATCCGCCGGCTCCAGGGTGTCCTGGTGGCGCGCCAGTATGTCCTGATGGACTACGACATCCGCAAGGAACTGGTGGAACGCGCCGCGGCCCTGACCCCCGGCCTTGAGTCACCCACCGTGTCGCCGCTGCGGGACTCCGACTGGGTGGCTGTCCGCTCAATGGTGCCCAAGAGGGAAACCAACCGGATCATGGACGAGCTCTACGACCTCGGCGCACGCGCCATCCTGGTCAGCAGCATCCACGCCTGCCGTATCTGA	MLRVAVPNKGSLSEAASEMLSEAGYRQRRDTRELVMVDPDNDIEFFFLRPRDIAVYVGQGTLDVGITGRDLLLDAEVEAEELLPLGFAASTFRFAGPVGDFAKVEELEGKRLATSYDGLLRGYLAGLGINARVVRLDGAVESSVRLGVADAIADVVETGSTLKAAGMEIFGDPILKSEAVLIRRTGEGGAANGTAKEIEVLIRRLQGVLVARQYVLMDYDIRKELVERAAALTPGLESPTVSPLRDSDWVAVRSMVPKRETNRIMDELYDLGARAILVSSIHACRI	PGPT0017400_1522	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
D1-29_01839	777	hisF	COG0107	Imidazole glycerol phosphate synthase subunit HisF	ATGGCTGTAGCCGTACGCGTCATTCCATGCCTCGACGTCGACGCCGGCCGCGTCGTTAAGGGCGTCAACTTCGAGGGCCTGCGGGACGCCGGAGACCCGGTGGAACTGGCGCACCGGTACGACAATGCCGGCGCGGATGAGCTGACCTTCCTGGACGTCACAGCATCCTCGGGCAACCGGGAAACCACCTTCGACGTGGTCCGCCGCACTGCCGAGGAAGTCTTCATTCCGCTGTGTGTCGGCGGCGGAGTGCGGGGCGTGGCCGAGGTGGACAAGCTGCTGCGGTTCGGGGCGGACAAGGCGTCCATCAACACCGCCGCCGTGGCACGCCCGGAGGTCATTGACGAGATCACGCGCCACTTTGGCTCGCAGGTGCTTGTCCTTTCCCTGGACGCACGCCGCACCCGCCCGGGGTCTGTCCCCACGCCGTCGGGCTTTGAGGTCACCACCCACGGCGGCCGTACCGGGACCGGCATCGACGCCATTGCCTGGGCGAAGGAAGCGGCGGAGCGCGGTGTTGGCGAGATCCTGCTGAACTCCATTGACGCCGACGGCACCAAGGATGGATTCGACCTCGAGCTCATCCGGCTGGTGCGTGCGGCGGTGAAGGTTCCCATCATCGCCTCAGGCGGAGCAGGGGAACCCGCGCACTTCCCGCCCGCGGTAGCTGCGGGCGCCGACGCCGTGCTGGCCGCGTCGATCTTCCACTGGGGGCCTGACGACATGATGTCCCAGGTCAAGGACGCCATCCGGAATGCAGGCTTCGAGGTCCGCTAG	MAVAVRVIPCLDVDAGRVVKGVNFEGLRDAGDPVELAHRYDNAGADELTFLDVTASSGNRETTFDVVRRTAEEVFIPLCVGGGVRGVAEVDKLLRFGADKASINTAAVARPEVIDEITRHFGSQVLVLSLDARRTRPGSVPTPSGFEVTTHGGRTGTGIDAIAWAKEAAERGVGEILLNSIDADGTKDGFDLELIRLVRAAVKVPIIASGGAGEPAHFPPAVAAGADAVLAASIFHWGPDDMMSQVKDAIRNAGFEVR	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
D1-29_01840	717			hypothetical protein	GTGAACAAGAGCACGGCCCTGGTGGCGGTTCTGCTGCCCATCTCCCCGGGTGTCGTGCTAGTTTCACAAGTGATGCATTTCGTCGACCCGTCCCGAGAAGTCCTGGCCGAGACCCTGCTTGCGGCCGGTCCTGATGCCCCCACGCTCTGCAAAGGCTGGCGCACCAGGGACCTTGCCGCGCACCTTTACCTGCGCGAACGCAAGGCGGCCGTGGGATTGGGCCTCATCATCAAGAGGCTGTCCAAAGCCTCGGACAAGGCAACGGCGAAACTCGCCGCGAAGCTGAAAACGGCTGAGGACTACGCGGGGCTGGTCAACACGTTCCGCGCCGGTCCGCCTGCACTGTCACCCATGAACATCAAGGCCCTGGACGAGAGCTCCAACCTGATCGAATACTTCGTCCACACCGAGGACGTCCGCCGCGCTGTGGACCGCTGGGCACCCCGCGCGCTCGACGAGGCCTATTCGGAAGCGCTCTGGGATGAACTCATCAAGCGCGCCGCCATCCTTTATCGCGGGGTTGATCTTGGTATTGTGCTGGTCCGGCCCTCAGGTCCGCGCCACGTGGCCAAGCGCGCCCCGGTATCCGTGGCCATTGTGGGTGAGCCGGGCGAGCTGCTGATGCACGCCCACGGCCGGACCCGCCATGCGCTGGTCACCTTCGAAGGCCAGCCGGACGCCGTCGCGCTTCTCCAGTCAGCAGAAGTAGGCCTCTAA	MNKSTALVAVLLPISPGVVLVSQVMHFVDPSREVLAETLLAAGPDAPTLCKGWRTRDLAAHLYLRERKAAVGLGLIIKRLSKASDKATAKLAAKLKTAEDYAGLVNTFRAGPPALSPMNIKALDESSNLIEYFVHTEDVRRAVDRWAPRALDEAYSEALWDELIKRAAILYRGVDLGIVLVRPSGPRHVAKRAPVSVAIVGEPGELLMHAHGRTRHALVTFEGQPDAVALLQSAEVGL				NA	NA	NA	NA	NA
D1-29_01841	393	hisI	COG0139	Phosphoribosyl-AMP cyclohydrolase	ATGGGAAGCCTGCCCGCCGGCCCGCTTCCGGAAGACGTTGCCGCTGCGCTGAAGCGGGACGGTGCCGGACTGGTGGCGGCCATAGTGCAGCAGTTCGACACCGATGAGGTGCTGATGCTCGGGTGGATGGATGACGAGGCATTGCACCGGACCATGACCAGCGGACGGGTAACGTTCTATTCCCGCTCCCGCCAGGAGTATTGGCGCAAGGGGGACACGTCCGGGCATGTCCAGTGGGTCAAGTCAGTGGCCCTCGACTGCGACGGCGACGCCCTGCTGGTTCGCGTGGACCAGGTGGGCGCCGCCTGCCACACCGGTACCCGCACCTGTTTCGACGGCAGGGAACTGCAGGTCAGTACAGTAAGCACCGACGGCGCAGGCCAGGCGGGCTGA	MGSLPAGPLPEDVAAALKRDGAGLVAAIVQQFDTDEVLMLGWMDDEALHRTMTSGRVTFYSRSRQEYWRKGDTSGHVQWVKSVALDCDGDALLVRVDQVGAACHTGTRTCFDGRELQVSTVSTDGAGQAG	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
D1-29_01842	1641	trpE	COG0147	Anthranilate synthase component 1	ATGCGGGCGCCCTACAAGAACAGGCGGAGAGCCATAGCCATGCAGGACCTTGGAATCATCAGCCCGGGCCTCGAGGAGTTCCGCGAACTCGCCGGCACCAGCCGTGTCATCCCCGTCCGGCTCAAGGTCCTGGCGGACGCCGAGACGCCCATCGGCCTGTACCGGAAGCTCGCCCAGGGGCAGCCCGGGACCTTCCTGATGGAGTCCGCGGCCGTGGGCGGGACCTGGTCCCGCTACTCCTTCATCGGCGCGAATTCCCGGGCAACGCTCACCACCAAGGACGGCGAGGCGCACTGGTTGGGCCAGCCGCCCGTGGGGGTGCCGGTGAACGGGAACCCGGTTGATGCCATCAGGGACACCATCGACGCGCTCCGCACCGACAGGTTCGAGGGGCTGCCGCCGTTTACCTCAGGCCTGGTGGGATTCCTGGGCTGGGAAACCGTCCGGCACTGGGAGCGGCTGACCAGCCCGCCGGAGGACGATCTCCAGCTGCCGGAAATGGCGCTGAACCTGGTGTCCGACATGGCCGTCCATGACAACGTGGACGGCACGGTGCTCCTGATCGCCAACGCGATCAATTTCGACGACAGCTCCGAACGGGTGGACGAGGCCTGGCACGACGCCGTAGCCCGGGTCAAGGCACTCCTCACCCAGATCAGCACGCCTGTGGCGCAGCCCGTGTCCGTCCTGGAGCCAGCTGCTTTGGATTTCGCTTCCAGCGTCCAGGAGCGCTGGGACGAGCCTGCCTACCTGGCGGCGCTGGACCGCGGCAAGGAAGCGATTGTCGACGGCGAGGTGTTCCAGGTGGTAATTTCGCGCCGCTTCGAGATGGAATGCGGAGCCTCTCCGCTTGACGTCTACCGCGTCCTGCGGAACACCAACCCCAGCCCCTACATGTACATCTTCAGCCTTGAGGACGCCGACGGCCGCGAGTACTCGATCGTTGGTTCCTCGCCCGAGGCCCTGGTGACAGTCACGGGCAAGGAAGTCATCACGCATCCCATCGCCGGTTCGCGGCCCAGGGGCAAGACGGTGGAGGGTGACAAAGCCCTGGCCGAGGAACTCCTGGCAGACCAAAAGGAACGCGCCGAGCACCTGATGCTGGTGGACCTGTCCCGCAACGATCTCTCCAAGGTCTGCGTGGCGGGAACCGTAGACGTGACGCAGTTTATGGAAGTGGAGCGCTTCAGCCACATCATGCACCTGGTGTCCACGGTGGTGGGCCAACTGGCGCCGGGGGCCAAGGCCTACGACGTCCTGAAGGCAACTTTCCCTGCCGGGACACTGTCCGGGGCCCCCAAGCCCCGCGCACTGCGCCTGTTGGACGAACTCGAACCCCACCGCCGCGGCATCTACGGCGGCGTGGTGGGCTACCTGGACTTCGCGGGGGACATGGACATGGCCATCGCCATCCGGTCCGCGCTGCTCCGCGAGGGACGCGCCTACGTGCAGGCGGGAGGCGGCATTGTTGCTGATTCTGTCAATCCTACGGAGGCGCTGGAAACCGTGAATAAGGCGGCCGCTCCGCTGCGGGCCGTCCACACCGCGGGATCGCTGCACAACATTTCGGCGGACACCATTTCCGCGGACACCGTTCCCGATGCCGGAAGCGCCGGCCATACCAGCCGGACGAACCACTGA	MRAPYKNRRRAIAMQDLGIISPGLEEFRELAGTSRVIPVRLKVLADAETPIGLYRKLAQGQPGTFLMESAAVGGTWSRYSFIGANSRATLTTKDGEAHWLGQPPVGVPVNGNPVDAIRDTIDALRTDRFEGLPPFTSGLVGFLGWETVRHWERLTSPPEDDLQLPEMALNLVSDMAVHDNVDGTVLLIANAINFDDSSERVDEAWHDAVARVKALLTQISTPVAQPVSVLEPAALDFASSVQERWDEPAYLAALDRGKEAIVDGEVFQVVISRRFEMECGASPLDVYRVLRNTNPSPYMYIFSLEDADGREYSIVGSSPEALVTVTGKEVITHPIAGSRPRGKTVEGDKALAEELLADQKERAEHLMLVDLSRNDLSKVCVAGTVDVTQFMEVERFSHIMHLVSTVVGQLAPGAKAYDVLKATFPAGTLSGAPKPRALRLLDELEPHRRGIYGGVVGYLDFAGDMDMAIAIRSALLREGRAYVQAGGGIVADSVNPTEALETVNKAAAPLRAVHTAGSLHNISADTISADTVPDAGSAGHTSRTNH	PGPT0007095_571	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
D1-29_01843	666			hypothetical protein	ATGCCCGTTCCCGAGACAGCGGCCGGCCGGACCGACAAAGCAGCAGGAGCCCCCGGCTGGGCACGGAAGTCCACGGTGGTCCTGCTGATCGCCGCGCTGGCCCTGGCTGTTTTCGGCACCACTACCCAGACGTGGATGACGGTCAGCCTGGATCCGGACCAGGTGGGCCAGGCCGGCAGTGCCCAAAGCACACTTCAGGTCCAGGGCAGCAAAGCCGCCACGGCGGTGACAGCACTGGCCCTTGTCGCGCTGGCAGGGGGACTGGCCGCATCCATCGCCGGCAGGATCGCCCGCTGGGTCGCCGCCGCCATCATCGTCCTGGCTGCAGCCGGCATTGTTGCTGCCGCAGCCACGGTGCTTGCGGACCCGCTGGCTGCGGCGCAGGGTTCCATCGCGGCCGCCACCGGCGTCACCGGCAGTGACGCGAAAGTGTCACTCACCGCCTTCCCGGCCATCGCCGTCGTGATCGGCATCCTGCTGGCGCTGGGAGCCATGCTGATCATTCCGGCAGGACGCTACTGGAAGTCACGGACAAAATATGACGCCGCCACCTATGACGCAGCCAAAGATGACGCCGCAGTCCCCGGCGGTGCAGCCACGCCGGCAGGCCCCGTAGACGATATTGACAGCTGGGACAGGCTCTCCCGCGGCGACGATCCCACCTGA	MPVPETAAGRTDKAAGAPGWARKSTVVLLIAALALAVFGTTTQTWMTVSLDPDQVGQAGSAQSTLQVQGSKAATAVTALALVALAGGLAASIAGRIARWVAAAIIVLAAAGIVAAAATVLADPLAAAQGSIAAATGVTGSDAKVSLTAFPAIAVVIGILLALGAMLIIPAGRYWKSRTKYDAATYDAAKDDAAVPGGAATPAGPVDDIDSWDRLSRGDDPT	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
D1-29_01844	288			hypothetical protein	ATGAGCAAAGCACCTGCGTCCGTTTCCAAGTCAGGCACCCGGACGGTTGCCCCCGGCGCCGTCGACCACAGCCAGGAACTTGGCCACGGCAACAGCCCGGCAGCCTGGACCTGCGTGATCGTTATGCTGGTAGGCGCCCTCGTTTCGTCCATCGCGTTTGTGATCAACAGCACCCCCATCTTCATCGCCGGCGCAGCCGTGATGGTCCTCGGCCTGATCCTCGGTTACATCATGCGCAAGGCAGGCTACGGCGTCGAAGGCAGCAAGCTGAAGAACTCCGGCCACTGA	MSKAPASVSKSGTRTVAPGAVDHSQELGHGNSPAAWTCVIVMLVGALVSSIAFVINSTPIFIAGAAVMVLGLILGYIMRKAGYGVEGSKLKNSGH				NA	NA	NA	NA	NA
D1-29_01845	822	trpC	COG0134	Indole-3-glycerol phosphate synthase	ATGGCGACTGTTCTCGATGACATCAATGCCGGTGTCAGGGAGGATATGGAGGCCAGGAAGCGCCTCGTTTCGATCACCGAACTGAAGGACCGGGCGGCGGCTGCGGCTCCGGCCCGGGATGCCTGGGCTGCGCTTGGCGGCCCCTCCGAACGGCGGGACCAGCTTAAAGTCATCGCGGAAATCAAGCGCCGCAGTCCCTCCAAGGGTGACCTCGCCGCGATCGTGGACCCGGCATCCCTGGCGGAACAGTATGCCGACGGCGGTGCGGCAGTCATCAGCGTCCTGACCGAACAGCGGCGCTTCAACGGCTCGCTCGCGGACCTGGACGCCGTCCGGGCCCGCGTTGATGTCCCGCTGCTGCGCAAGGACTTCACGCTGGACGAGTACCAGATCTGGGAAGCCCGCGCCCACGGCGCGGACCTGATCCTGCTGATCGTTGCCGCGCTTTCGGATTCCCAGCTCCAGGATTTCAGTGCACTCAGCCGGGAACTCGGCATGAACGTGCTGGTGGAGACGCACACGGAAGAGGAAATCGAACGCGCCGTGGCTGCGGAAGCGCGGATCATTGGCGTGAACGTGCGGAACCTGAAGACGCTCGACGTCGACCGTTCCGTTTTTGCCTCCCTCGCCGGGATGATTCCCGCCGGGGCGCTGGTCATCGCCGAATCCGGCGTGCGCGGCGTGGATGATGTTACCCATTACGCCGCCAGCGGCGCGAACGCCATCCTGGTGGGCGAGGCCCTGGTCAGCGATTCCACTCCCCGAGAGCGGATCGCAGAGTTTACGGCGGCGGGGGCTGCCGCGATCGCTGCACGGGCTTGA	MATVLDDINAGVREDMEARKRLVSITELKDRAAAAAPARDAWAALGGPSERRDQLKVIAEIKRRSPSKGDLAAIVDPASLAEQYADGGAAVISVLTEQRRFNGSLADLDAVRARVDVPLLRKDFTLDEYQIWEARAHGADLILLIVAALSDSQLQDFSALSRELGMNVLVETHTEEEIERAVAAEARIIGVNVRNLKTLDVDRSVFASLAGMIPAGALVIAESGVRGVDDVTHYAASGANAILVGEALVSDSTPRERIAEFTAAGAAAIAARA	PGPT0007080_840	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
D1-29_01846	1416	trpB	COG0133	Tryptophan synthase beta chain	ATGGTTGACGCACCTTCAGGGAACGCTGACAACAACGCCGCGGATGCATTCCTGCAGGGCGGCTCCCTCAAGCACGCCCCTGGGCCCTACTTCGGCGGGTACGGCGGACGCTGGATGCCCGAGTCCCTCATCGCCGCCCTGGATGAACTGGAAGACACCTTCGAAAAGGCCAAGGCGGATCCTGACTTCCTCGCCCAGATCGCGGACCTGAACAAAAACTACTCGGGCCGGCCCTCCCTCCTGACCGAAGCCAAGCGCTTCTCCGAGCACGCCGGCGGCGCCAGGGTTTTCCTCAAGCGTGAGGACCTGAACCACACCGGATCGCACAAGATCAACAACGTGCTGGGGCAGGCCCTCCTGGCCAAGCGGATGGGCAAGACCCGTGTCATCGCCGAGACCGGGGCAGGACAGCACGGCGTGGCCAGCGCCACGGCCGCCGCCCTGCTGGGCCTTGAATGCGTTGTGTACATGGGTGCTGAAGACTGCCGCCGGCAGGCACTGAACGTGGCGCGGATGCAGCTGCTGGGTGCCACCGTGGTTCCTGTGGTCAACGGTTCCCAGACCCTCAAGGACGCCATCAACGACGCCCTCCGGGACTGGGTCAGCAACGTGGACACCACCCACTACCTCCTGGGCACCGCCGCCGGGGCGCATCCGTTCCCGGCCATGGTCCGGTTCTTCCACGAAGTGATCGGCGAGGAAGCCCGGGCGCAGATCCTGGACCAGGCCGGAAAGCTTCCGGACGCCGTCTGCGCCTGCATCGGCGGCGGCTCCAACGCCATCGGCATCTTCCACGGTTTCCTGGACGATCCCGAGGTCAAAATCTACGGCTTCGAGGCCGGCGGTGACGGGGTGGACACCGGACGCCACGCTGCCACCATTACGCTCGGCAAGCCGGGCGTCCTGCACGGCGCACGGTCCTACCTCATGCAGGACGACGACGGCCAGACCATCGAGTCCCACTCCATTTCGGCAGGCCTGGACTACCCGGGTGTGGGGCCGGAGCATGCCTACCTCGCCGACATCGGCCGGGTCAGCTATGAACCCATTACGGACAGCGAAGCGATGGACGCCTTCAAGCTGCTGTGCCAGACCGAGGGCATCATTCCGGCCATCGAGTCCTCGCACGCCCTGGCCGGCGCCATCAAGGTGGGCAAGCGGCTGACCGAAGGCAAGGCCAACCCTTCCGAGACAGTGGTCATCGTCAACCTCTCGGGCCGTGGCGACAAGGACGTGGAGACAGCCGCGGAATGGTTCGACATGCTGGATGAGGAGGGCAAGGTGAAGGGCACCAACCTCTCCACCCGCAAGCCCAAGGGCCCCTCGGACAGGGCAGCCACCGAAGCCGTTCCTGCCGCCAGCAATGCAGGGATCAAAGCGGGGATCAACGCGGACAATAGCGAGGACCAGAAGTGA	MVDAPSGNADNNAADAFLQGGSLKHAPGPYFGGYGGRWMPESLIAALDELEDTFEKAKADPDFLAQIADLNKNYSGRPSLLTEAKRFSEHAGGARVFLKREDLNHTGSHKINNVLGQALLAKRMGKTRVIAETGAGQHGVASATAAALLGLECVVYMGAEDCRRQALNVARMQLLGATVVPVVNGSQTLKDAINDALRDWVSNVDTTHYLLGTAAGAHPFPAMVRFFHEVIGEEARAQILDQAGKLPDAVCACIGGGSNAIGIFHGFLDDPEVKIYGFEAGGDGVDTGRHAATITLGKPGVLHGARSYLMQDDDGQTIESHSISAGLDYPGVGPEHAYLADIGRVSYEPITDSEAMDAFKLLCQTEGIIPAIESSHALAGAIKVGKRLTEGKANPSETVVIVNLSGRGDKDVETAAEWFDMLDEEGKVKGTNLSTRKPKGPSDRAATEAVPAASNAGIKAGINADNSEDQK	PGPT0007075_232	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
D1-29_01847	807	trpA	COG0159	Tryptophan synthase alpha chain	ATGACTGAACAGACGGCCAGCAAGTCGGCAGCTGCCATCGACCGTGCCCGTGACGCCGGACGCTCAGCCCTGGTGTGCTACCTGCCCGCCGGTTACCCGGATGTCCAGTCCACCATCGACGCCGGCATCGCCATGGCGAAGAACGGCGCGGACCTGATCGAAATCGGCATTCCGTACTCAGACCCGGTGATGGACGGTCCTGTTATCCAGGCAGCCACCACAGAGGCCATCGCCAACGGCTTCCGGGTTGAAAGCGTGTTCGACGTCGTTGCGGGGATCACCGCGGCAACCGACGTCGCCGTGCTGGTGATGACCTACTGGAACCCTGTGGTCAGGATGGGCGTGGACGAGTTCTCCCGCCGGCTGGCCGAGGCCGGGGGAGCGGGACTTATTACGCCGGACCTCATCCCGGATGAAGCGTCTGAATGGTTCGCGGCCTCCGACAAGTACGGACTGGACCGGGTTTTCCTCGTGGCACCTTCCTCCTCTCCCGAGCGCCTGGCCATGACGGTCAAGGCCAGCCGCGGCTTCGTCTACGCAGTCTCCATCATGGGAGTCACCGGGACCCGGCAGGATGTCAGCAGCAGCGCCGAACAGCTCGTCGCGGACACGCATGCCGCAGGTGCCGAGCGTGTGTGCGTGGGGCTTGGCGTGTCCAACGCCGGCCACGTCCGCGAGATCGCCGCCTACGCGGACGGCGTGATTGTGGGCACCGCACTGGTGGCTGCCATCCGCGACGGCGGAGTCCCCGCAGTTGCCGATCTCACCAGGGAACTCAGCGCGGGACTCGTCAGGGAAGAAGCCTAA	MTEQTASKSAAAIDRARDAGRSALVCYLPAGYPDVQSTIDAGIAMAKNGADLIEIGIPYSDPVMDGPVIQAATTEAIANGFRVESVFDVVAGITAATDVAVLVMTYWNPVVRMGVDEFSRRLAEAGGAGLITPDLIPDEASEWFAASDKYGLDRVFLVAPSSSPERLAMTVKASRGFVYAVSIMGVTGTRQDVSSSAEQLVADTHAAGAERVCVGLGVSNAGHVREIAAYADGVIVGTALVAAIRDGGVPAVADLTRELSAGLVREEA	PGPT0007070_2488	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
D1-29_01848	1155	lgt_2		Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGCAGACCCTCATTTACGCAGCAGGCATGGTGCCCGCCGCGATCCCCAGCCCGGACTGGTCCGGCTTCGACATCCCGCTGCCGTGGGGTTCGCTGCGCATCCACGCCTATGCCCTCTGCATCCTTGCCGGCATCATCGTTGGCCTTTGGCTCACGTCCATCCGGTGGGCCCGGCGGGGTGCGCCCGAAGGCAGCGTGTGGGACATCGTCATCTGGGCGATTCCGTTCGGCATCATCGGCGGCCGGCTTTACCACGTGGTGTCATCCCCGGACGCCTACTTCGGCCCGGGCTTCGACGGCACCGGTGACCTCTCGCTCATCCCGCAGATCCAGCGTGGCGGGCTGGGGATCTGGGGAGCGGTGGTGCTGGGAGTCCTCGGAGCCTGGATCGGCTGCCGGCGTTCCGGCGTCAAGCTCAGCGCGTTCCTGGACGCTGCCGCGCCCGGCCTGCTCCTGGCGCAGGCCGTGGGCCGCTGGGGAAACTACTTCAACCAGGAACTCTTCGGCGGGCCCACCACCCTCCCTTGGGGCCTGCAGATTGACGCTGACAACGCCAATTTCCCGGCCGGCATGCCAACAGACACCCTGTTCCACCCCACCTTCCTGTACGAGTCGCTGTGGAACATCGCCGGAGTGCTGATCCTGCTGGCTCTCGACCGGAGGTTCCACTTCCGGCGCGGACGGCTCTTCTGGCTCTACGCCGTGTACTACACGCTGGGCCGGGTCTGGATCGAAGCCATGCGCATCGATGAAGCCGAGCAGATCAGCCTCCTCGGGATCACGGCCAGGCTGAATGTCTGGACCAGCATTGTGGTCCTGCTGGTGGCGTTGGCCGCTTTCATCCTGCTCGGAATGAAGGGCCGTCCGGAGCCGGACAGCCCCTATCTGGCCGGTCAGGAACCCGCCGGGAACAAGGACGAGGACAACGAGGAGGAGGAAGGCAAACCGGTCCGGGATGCGGACTCTGTTGTCTCAGATAGTGAATCGCGTGATAATCTCCCTGATAACCAAAGCGGTTCCGGCCATTCATCCACCCCCAAGGAAGATGTGCCGGCATCTCCGGCGGGCACCACGTCCATACCGGAGTCGCCGGTGGCCGGAAGTTCCGGCCACAAAGCCACAGGATCCGCGCCGGAGGCTGGCACCAGCAAGTAG	MQTLIYAAGMVPAAIPSPDWSGFDIPLPWGSLRIHAYALCILAGIIVGLWLTSIRWARRGAPEGSVWDIVIWAIPFGIIGGRLYHVVSSPDAYFGPGFDGTGDLSLIPQIQRGGLGIWGAVVLGVLGAWIGCRRSGVKLSAFLDAAAPGLLLAQAVGRWGNYFNQELFGGPTTLPWGLQIDADNANFPAGMPTDTLFHPTFLYESLWNIAGVLILLALDRRFHFRRGRLFWLYAVYYTLGRVWIEAMRIDEAEQISLLGITARLNVWTSIVVLLVALAAFILLGMKGRPEPDSPYLAGQEPAGNKDEDNEEEEGKPVRDADSVVSDSESRDNLPDNQSGSGHSSTPKEDVPASPAGTTSIPESPVAGSSGHKATGSAPEAGTSK				NA	NA	NA	NA	NA
D1-29_01849	4617	gltB	COG0067	Glutamate synthase [NADPH] large chain	ATGACCCAAACTCTTCACACTCCCAGTTGGTCCGAACCGGACCAGCCTGTGTCCGCCATGTCGCCATTCAAGCGCTTCGCGGCCCTTCCGGAGGCACGTGGGCTCTACAACCCGGAGCAGGAGAAGGACGCCTGCGGTCTTGCAATTATCGCCACCCTCCGCGGTGAGCCCGGCTACGACATTGTTGATGCCGCCCTGACTGCCCTGCGCAACCTCGAGCACCGCGGTGCCGTGGGCGCGGACGAAGGAACCGGCGACGGCGCCGGACTCCTGATGCAGATCCCGGACGAGTTCTTCCGGGCAGTCACCGAATTTGAACTCCCGGCCCCCGGCCAGTACGTTGCGGGCACAGCTTTCCTCCCTTCCGAGCAGCGCGAAGCCGAGGCCGCAAAGGCCGGAATCGAAGGCCTGGCCGCGGACGAGGGCCTGGTGGTCCTTGGCTGGCGCGAAGTGCCTATCGTCGCAGACCTGGTCGGTGCCATGGCCCGTGCCTGCATGCCGTACTTCTCGCAGCCGTTCCTTACCTCGGCCACCGGCGAGGAACTGGACCGCAACGAGCTGGACTCCCGGGCCTGGCGCCTCCGCAAGCGCGCGCAGAACAAGTTCGGGGTGTACTTCCCGTCGCTGTCCTCCCGGACCATCGTCTACAAGGGCATGCTCACCACCGCCCAGCTGGAGCCGTTCTACCCGGACCTCTCGGACAAGCGGTTCAAGACCAAGCTGGCCATCGTCCACTCCCGGTTCTCCACCAACACGTTCCCGTCCTGGCCGCTGGCCCAGCCGTTCCGCACCATCGCGCACAACGGCGAAATCAACACGGTCAAGGGCAACCGGAACTGGATGCGTGCCCGCCAGTCGCAGCTTGCCAACCCGCTCCTGGGGGACTCCCCGGAGGAGCTGTACCCCATCTGCACGCCCGGCGCGTCAGACTCCGCGTCATTTGACGAGGTGGCGGAGTTGCTTTGGCTGTCCGGCCGGCCCATCACGCACTCGATCATGATGATGATCCCCGAGGCCTGGGAAAACCACGCCACCATGGATCCGGCACGGCGCGCGTTTTATGAATACCACTCCCTGCTGATGGAACCGTGGGACGGCCCTGCCGCCGTATCCTTCACCGACGGCAACCTGGTGGGTGCCACCCTTGACCGCAACGGACTGCGCCCCGGACGCTACTGGATCACCGAGGACGGCCTGATCGTCTTCGCCTCCGAAGTCGGCGTGATCGACGTCGAAGCTTCCAAGGTGGTCAAGAAGGGTCGCGTTTCGCCGGGCAAGATGTTCCTGGTGGACACCGACAGCGGCCGCATCATCGACGACGAAGAGGTCAAGGCCGAGGTCGCCGCGGCGAACCCGTGGGCCGAGTGGGTCAAGGACAACCTGATCGACCTCAACGAACTCCCCGAGCGCGAGCACGTGGTCCACACCGCCGCCTCGGTGAACATCCGCCAGCGCACCTTCGGCTACACCACCGAAGAGCTCAAGATCCTGCTCGGCCCGATGGCCCGCACCGGCGCAGAGCCGCTGGGTGCCATGGGTTCCGATACCCCCGTTGCCGTGCTGTCCAAGCGTCCGCGGCTGCTCTTTGACTACTTTGTACAGTCCTTCGCGCAGGTCACCAACCCGCCGCTGGACGCCATTCGCGAAGAGCTTGTCACGTCCCTGACCTGTGCCATCGGCCCCAACGGGAACCTGCTGGATACCAAGCAGGTCCGCCAGCCCCAGGTTTCGCTGCCGTTCCCGGTGATCAACAACGACCAGCTGGCCAAGATCGCCAACATCGAAAACGCCGACGGCGACAAGGTGGCCATGAAGGTCCGCGGCCTCTACCGCCCGGAAGGCGGCGAGAACGCGCTCCGCGCCCGGCTCACCGAGATCTGCGAGCAGGTCTCCGGTGCCATCAACCGCGGTGTGCAGTACGTGGTGCTGTCCGACCGTGACTCCAACGCGCAGTGGGCACCCATCCCATCGCTGCTGCTGGTCAGCGCCGTGCACCACCACCTGCTCCGCAGCGCCAACCGCACCAAGACCGCCCTGGTGGTTGAGGCCGGCGACGTCCGGGAAACGCACCACGTGGCCGTGCTGGTGGGCTACGGTGCTTCGGCCGTGAACCCGTACCTGGCCATGGAATCGGTGGAACAGCTCATCGCCTCCGGCGACGTTGTGGGCGTGACCCCGCAGGACGGCGTCTACAACCTCATCAAGGGCCTGGGCAAGGGTGTCCTGAAGATCATGTCCAAGATGGGCATCTCCACGGTCGCCTCCTACACCGGCGCGCAGACGTTCGAGGCCCTGGGCCTGGGGCAGGAACTGGTGGACGAATTCTTCGCCGGAACGCACTCCCAGCTTGGCGGTGTGGGCCTTGACGTCATCGCCGCTGAAGTTTCGGCGCGACACCAGATGGCCTACCCGGAAGGTGGCATCGAGCTGCCGCACCGGCCCCTGCTGGGCGGCGGCGAGTACCAGTGGCGCCGCGACGGCGAGCCGCACCTGTTCAACCCCGAGACGGTTTTCCGCCTGCAGCACGCCACGCGTGAGCGCCGGTACGACATCTTCAAGTCCTACACCAAGGGCGTGGACGACCAGTCCGAGAACCTGATGACCCTCCGCGGCCTGCTCAAGTTCAAGACCGGCGAGCGTCCCGCAGTTCCGCTGGAGGAAGTGGAGCCCGTCTCCAGCATCGTCAAGCGGTTCTCCACGGGTGCCATGAGCTACGGCTCCATCTCCCAGGAGGCGCACGAAACCCTGGCGATCGCCATGAACCAGTTGGGCGGCAAGTCCAACACCGGTGAAGGCGGCGAGGACGTGGACCGCCTGCTGGACCCGAAGCGCCGCTCCGCTGTGAAGCAGATCGCCTCCGGCCGGTTTGGTGTGACCAGCCTCTACCTGAGCAACGCCGACGACATCCAGATCAAGATGGCGCAGGGTGCCAAGCCCGGCGAAGGCGGTCAGCTGATGGCGCAGAAGGTCTACCCCTGGGTGGCCCGGACGCGGCACTCAACCCCCGGCGTCGGACTGATCTCCCCGCCTCCGCACCACGACATCTACTCGATCGAGGACCTCGCTCAGCTCATCTACGATGCGAAGCGCGCCAACCCCTCGGCCCGTGTACACGTCAAGCTGGTGTCGGAAGTCGGGATCGGCACTGTGGCGTCCGGCGTGACCAAGGCGAAGGCCGACGTCGTACTGGTTTCCGGCCATGACGGCGGGACCGGCGCGTCCCCGTTGAACTCGCTCAAGCATGCCGGTGTGCCGTGGGAGCTGGGGCTCGCAGAGACCCAGCAGACCCTGATGCTGAACGGTCTCCGTGACCGTGTGGTGGTGCAGGTGGACGGCCAGCTGAAGACCGGCCGCGACGTCGTGATCGCGGCGCTGCTGGGCGGCGAGGAGTTCGGTTTCGCCACCGCTCCGCTGGTGGTGTCAGGCTGCATCATGATGCGCGTCTGCCACCTGGACACCTGCCCCGTGGGCGTCGCGACGCAGAACCCTGAGCTGCGTTCACGCTTCAACGGCAAGCCCGAGTTCGTGGTCAACTTCTTCGAATTCCTTGCCGAGGAAGTCCGTGAAATCCTTGCCGAACTTGGCTTCCGCAGCCTGGAGGAGGCGATCGGCCACGCCGAAATGCTGGATGCCCGCGAGGCGATCAACCACTGGAAGGCCGATGGCCTGGACCTTGATCCGATCCTGCATGGCCTCGAGTTTGATGATGATGCGCCGCTGCGCAACCTCACGTCGCAGAACCACGAGCTGGACAAGCACTTTGACCAGCGCCTGATCACCATGGCCACCGAGGCGCTGACTGACCGCAGCCCGGTCAAGATCGCCGTCGATGTCATCAACACGGACCGCTCTGTGGGAACCATGCTGGGCCACGTTGTGACCAAGACGTTCAGCACTGACGTGCTGGCGACGGACACCATCGACATCACGCTGACCGGAACGGCCGGCCAGTCGCTGGGAGCCTTCCTGCCGGCCGGCATCACGCTGCGCCTGTTCGGTGACTCCAACGACTACGTGGGCAAGGGCCTTTCCGGCGGACGGATCATCGTCCGGCCGGACCGCACCAACGTGTTCAAGGCGGAAAGCAACGTCATTGCCGGAAACGTGATCGGCTACGGCGCCACCAGCGGCGAGATGTACCTCCGCGGCCAGGTGGGCGAACGCTTCCTGGTCCGCAACTCCGGCGCCACAGCCGTTGTTGAAGGCATCGGCGACCACGGCTGCGAGTACATGACGGGCGGCCAGACGCTGATTATTGGCCGCACCGGACGCAACTTCGGTGCCGGCATGTCCGGCGGCACGGCGTATGTCCTGGATCTGCAGACCACGCGCGTGAACAAGGACGCCCTGCAGAGCGGCGAACTCCAGCTCCTCGAACTCGACGCGGAGGACCGTGACATTGTCCACGGGCTCCTGGTCAAGCACCACGAAGAGACGGAATCCCTGCTGGCCGCGCGGCTGTTGGAGAACTTCGACGACACCGCTGCCCGTATTACCAAAGTGCTCCCGCGCGACTACGCGGCAGTCCTGCAAACCCGTCTTGACGCCATCGAAGAGGGCCTTGACCCCGACGGCGAAGAAGTATGGTCTCGAATCCTGGAGGTGACCGGTGGCTGA	MTQTLHTPSWSEPDQPVSAMSPFKRFAALPEARGLYNPEQEKDACGLAIIATLRGEPGYDIVDAALTALRNLEHRGAVGADEGTGDGAGLLMQIPDEFFRAVTEFELPAPGQYVAGTAFLPSEQREAEAAKAGIEGLAADEGLVVLGWREVPIVADLVGAMARACMPYFSQPFLTSATGEELDRNELDSRAWRLRKRAQNKFGVYFPSLSSRTIVYKGMLTTAQLEPFYPDLSDKRFKTKLAIVHSRFSTNTFPSWPLAQPFRTIAHNGEINTVKGNRNWMRARQSQLANPLLGDSPEELYPICTPGASDSASFDEVAELLWLSGRPITHSIMMMIPEAWENHATMDPARRAFYEYHSLLMEPWDGPAAVSFTDGNLVGATLDRNGLRPGRYWITEDGLIVFASEVGVIDVEASKVVKKGRVSPGKMFLVDTDSGRIIDDEEVKAEVAAANPWAEWVKDNLIDLNELPEREHVVHTAASVNIRQRTFGYTTEELKILLGPMARTGAEPLGAMGSDTPVAVLSKRPRLLFDYFVQSFAQVTNPPLDAIREELVTSLTCAIGPNGNLLDTKQVRQPQVSLPFPVINNDQLAKIANIENADGDKVAMKVRGLYRPEGGENALRARLTEICEQVSGAINRGVQYVVLSDRDSNAQWAPIPSLLLVSAVHHHLLRSANRTKTALVVEAGDVRETHHVAVLVGYGASAVNPYLAMESVEQLIASGDVVGVTPQDGVYNLIKGLGKGVLKIMSKMGISTVASYTGAQTFEALGLGQELVDEFFAGTHSQLGGVGLDVIAAEVSARHQMAYPEGGIELPHRPLLGGGEYQWRRDGEPHLFNPETVFRLQHATRERRYDIFKSYTKGVDDQSENLMTLRGLLKFKTGERPAVPLEEVEPVSSIVKRFSTGAMSYGSISQEAHETLAIAMNQLGGKSNTGEGGEDVDRLLDPKRRSAVKQIASGRFGVTSLYLSNADDIQIKMAQGAKPGEGGQLMAQKVYPWVARTRHSTPGVGLISPPPHHDIYSIEDLAQLIYDAKRANPSARVHVKLVSEVGIGTVASGVTKAKADVVLVSGHDGGTGASPLNSLKHAGVPWELGLAETQQTLMLNGLRDRVVVQVDGQLKTGRDVVIAALLGGEEFGFATAPLVVSGCIMMRVCHLDTCPVGVATQNPELRSRFNGKPEFVVNFFEFLAEEVREILAELGFRSLEEAIGHAEMLDAREAINHWKADGLDLDPILHGLEFDDDAPLRNLTSQNHELDKHFDQRLITMATEALTDRSPVKIAVDVINTDRSVGTMLGHVVTKTFSTDVLATDTIDITLTGTAGQSLGAFLPAGITLRLFGDSNDYVGKGLSGGRIIVRPDRTNVFKAESNVIAGNVIGYGATSGEMYLRGQVGERFLVRNSGATAVVEGIGDHGCEYMTGGQTLIIGRTGRNFGAGMSGGTAYVLDLQTTRVNKDALQSGELQLLELDAEDRDIVHGLLVKHHEETESLLAARLLENFDDTAARITKVLPRDYAAVLQTRLDAIEEGLDPDGEEVWSRILEVTGG	PGPT0000635_895	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000635-gltB-K00265	NA	NA
D1-29_01850	1458	gltD	COG0493	Glutamate synthase [NADPH] small chain	GTGGCTGATCCACGCGGATTTCTGAAAGTACGACAGCGTGAAACCCAGCCACGGCGCCCCGTTCCGGTCCGCATCATGGACTGGAAGGAAGTCTACGAGGCCCAGGAAAAAGGTGTCCTGAAGGCCCAGGCTGGCCGCTGCATGGACTGCGGCGTGCCGTTTTGCCACCAGGGCTGCCCGCTGGGGAACCTGATTCCGGAATGGAACGACCTCACGTGGCGGGACAAGGGGGAGGAAGCGATTGAGCGGCTGCACGCCACCAACAACTTCCCCGAGTTCACCGGCCGGCTTTGCCCGGCGCCGTGCGAGGCCTCCTGTGTGCTGGGCATCAACCAGCCTGCAGTAACCATCAAGCAGGTTGAAGTCTCCATCATCGACGAAGCCTGGGACAACGGCTGGGTCAACGCGCTGCCTCCCGCGCGCCTTACCGGAAAGACCGTTGCCGTCGTCGGCTCCGGCCCCGCCGGCCTGGCGGTGGCGCAGCAGCTGACCCGAGTGGGCCACACCGTGGCCGTGTACGAACGCGACGACAAGATCGGCGGGCTCCTGCGCTACGGCATCCCCGATTTCAAGATGGAAAAAGAGCAGGTGGACCGCCGCATCGAGCAGATGAAGTCGGAGGGCACCCGCTTCCGCACCGGTGTCTCCGTGGGCACTGATGTGACCTGGGAGCAGCTCCGCCGCCGGTACGACGCCGTGGTGGTCTGCACCGGTGCCACCGTTCCGCGCGACCTGCCCATCCCGGGCCGGGAGCTGGACGGCGTCCACTTCGCGATGGACTACCTTGTCCCGGCCAACCGCGTAGTTGCGGGGGAGTCCGTGGAGAACCAGATCCACGCCCGGGGCAAGCACGTTGTCATCCTGGGTGGCGGCGATACCGGCGCGGACTGCCTCGGCACTGCGCACCGCCATGGGGCAGCCTCTGTCACCACCCTGGCCATCGGCAAGCAGCCTCCCATCGAGCGGGCCGGCCACCAGCCGTGGCCCACGTTCCCCACGCTGTTCGAGATGGCCAGCGCGCATGAGGAAGGCGGCGAACGCACGTACCTCGCCTCCACCGTGGAGTTTGTCGGCGAAAACGGCAAGCTGACAGGCGTCAAGGTTGCCGAAACGGAGTTCGTGGACGGCAAGCGGCTCCCGAAGGCCGGCACCGAGCGGGTCATCCCGGCCGACCTCGTGTTCCTGTCGCTGGGCTTCACCGGCGCTGAACCCGCGGGCATCACCGAGCAGGTCAGTGCCGAGTTTGACGGACGCGGCAACGTGTCCCGTGACGGTTACTACATGACCAACACCGAGGGAATCTTCGTGGCCGGGGACGCCGGCCGCGGGCAGTCGCTTATTGTCTGGGCCATCGCTGAAGGCAGGGCATGCGCTGCAGCCGTGGACAAGTTCCTGATGGGAAGCACCATCCTTCCTGCACCCGTGGCCCCGACCGACAGGGCAATCGCGGTTCTGTGA	MADPRGFLKVRQRETQPRRPVPVRIMDWKEVYEAQEKGVLKAQAGRCMDCGVPFCHQGCPLGNLIPEWNDLTWRDKGEEAIERLHATNNFPEFTGRLCPAPCEASCVLGINQPAVTIKQVEVSIIDEAWDNGWVNALPPARLTGKTVAVVGSGPAGLAVAQQLTRVGHTVAVYERDDKIGGLLRYGIPDFKMEKEQVDRRIEQMKSEGTRFRTGVSVGTDVTWEQLRRRYDAVVVCTGATVPRDLPIPGRELDGVHFAMDYLVPANRVVAGESVENQIHARGKHVVILGGGDTGADCLGTAHRHGAASVTTLAIGKQPPIERAGHQPWPTFPTLFEMASAHEEGGERTYLASTVEFVGENGKLTGVKVAETEFVDGKRLPKAGTERVIPADLVFLSLGFTGAEPAGITEQVSAEFDGRGNVSRDGYYMTNTEGIFVAGDAGRGQSLIVWAIAEGRACAAAVDKFLMGSTILPAPVAPTDRAIAVL	PGPT0000640_1953	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000640-gltD-K00266	NA	NA
D1-29_01851	1488	pyk	COG0469	Pyruvate kinase	ATGAGACGCGCTAAAATTGTGGCCACTTTCGGACCGGCAATTGCCAGCTTTGAAAACACCCTCGCGGTGTTGGAAGCCGGCGTTGATGTTGCCCGGATGAACATGAGCCACGGCGACTATTCCGTGCACGACAACACCTACGAGAACGTCCGCAAGGCTTCGGCCAAGCTGAGCAAGCCCGTTGCGATCATGGCAGACCTCCAGGGTCCCAAGATCCGCCTGGGCCGGTTTGTTGACGGCCCGCACGCGCTGGCCGTTGGCGACATCTTCACCATCACCACCGAAGACGTTCCCGGCACCAAGGAAATCTGCTCCACCACGCTCAAGAGCCTCACCGAGGACGTCAACCCGGGCGATGCCCTGCTGATCGACGACGGCAAGGTGGCACTGCGTGCCATCGAGGTTGACGACGTCAAGGTAGTGGCCGAAGTGACCGTGGGCGGCATGGTGTCCAACAATAAGGGCATCAACCTTCCCGGCGTGGCAGTCAACGTTCCCGCATTGAGCGAAAAAGACGAGGACGACCTCCGCTGGGCCATGCGCCGCGGCGTTGACCTCGTAGCTCTTTCGTTCGTCCGCGACGCCTCCGACATTGTCCGCGTTCACGAGATCATGGATGAGGAAGGCCGCCGTGTGCCGGTCATCGCCAAGATCGAAAAGCCGCAGGCAGTGGAGCAGCTCCACGAGATCATCGACGCGTTCGACGCCATCATGGTGGCCCGTGGCGACCTCGGCGTGGAACTTCCCCTGGAGGAAGTGCCCATCGTCCAGAAGCGCGCCATTGAACTGGCCCGCCGCTGGGCCAAGCCGGTCATCGTGGCAACCCAGGTGCTGGAATCCATGATCGACAACCCGCGGCCCACCCGTGCAGAGGCTTCTGACTGCGCCAACGCCGTGCTCGATGGTGCTGACGCTGTCATGCTCTCCGGCGAGACCAGCGTGGGCAAGTACCCCATCGAAACCGTCAAGGTCATGGCCCGGATCATCGAATCCACCGAGGTCCATGGCCTGGAGCGCGTCCCCCCGCTGGGGACCAAGCCCAAGACCCGTGGCGGCGCCATCACCCGTGCCGCCGTCGAAATCGCCGACCAGCTGGAAGCAAAGTACATCTGTACCTTCACCCAGTCCGGTGACTCTGCACGCCGCCTGTCCCGCCTGCGTCCCATCAAACCGGTCTTCGCGTTCACTCCGGTGGAGCACGTGTGGAACCAGCTGGCTCTCACGTGGGGAATCCAGCCGGTGCTGGTCCCCATGGTGGGCCACACCGACGAGATGACCGCCCAGGTTGACCGCAGTCTGCTGGAAATGGAACTGGTGGAAGACGGCGACCTGGTGGTCATCGCTGCCGGTTCCCCTCCCGGAAAGGCCGGTTCCACGAACTCGCTGAAGGTCCACAAGGTGGGCGACCTCGCCGATACCACCGGTCCTGGCGATACAGCCGGGAACAAGGAAAAGCTTGGCCCGTGGCCGGAAAAGAAGAAGAAGTAA	MRRAKIVATFGPAIASFENTLAVLEAGVDVARMNMSHGDYSVHDNTYENVRKASAKLSKPVAIMADLQGPKIRLGRFVDGPHALAVGDIFTITTEDVPGTKEICSTTLKSLTEDVNPGDALLIDDGKVALRAIEVDDVKVVAEVTVGGMVSNNKGINLPGVAVNVPALSEKDEDDLRWAMRRGVDLVALSFVRDASDIVRVHEIMDEEGRRVPVIAKIEKPQAVEQLHEIIDAFDAIMVARGDLGVELPLEEVPIVQKRAIELARRWAKPVIVATQVLESMIDNPRPTRAEASDCANAVLDGADAVMLSGETSVGKYPIETVKVMARIIESTEVHGLERVPPLGTKPKTRGGAITRAAVEIADQLEAKYICTFTQSGDSARRLSRLRPIKPVFAFTPVEHVWNQLALTWGIQPVLVPMVGHTDEMTAQVDRSLLEMELVEDGDLVVIAAGSPPGKAGSTNSLKVHKVGDLADTTGPGDTAGNKEKLGPWPEKKKK	PGPT0002020_3153	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
D1-29_01852	606	pdtaR	COG3707	putative transcriptional regulatory protein pdtaR	GTGACTGAACCGACGGAGTCAAAATCCACGTCCCAGCCGGCGCGCCGCGTCATTGTGGCCGAGGATGAAACCCTCATCCGCCTCGACATCATCGAGATCCTGCGCGGCGAGGGCTACGACGTGGTGGGCGAGGCTGACAACGGCGAGAAGGCCGTGCAGCTCGCGGAGGAACTTAAGCCTGACCTCGTCCTGATGGACGTCAAGATGCCGGTTATGGACGGAATCTCCGCCGCCGAGAAGATCGTCAAGGCCCGCATCGCGCCCGTGGTCCTGCTGACGGCCTTCAGCCAGAAGGAGCTTGTGGAGCGGGCACGCGACGCCGGCGCCATGGCCTACGTGGTCAAGCCGTTTACGCCCGCCGACCTCATTCCGGCCCTGGAGATCGCCCTCTCCCGCCACGAGGAGATCAAGGCCCTCGAGAGCGAGGTGTCGGACCTGCAGGAGCAGTTCGCCACCCGCAAGCTTGTGGAGCGCGCCAAGAGCCTCCTGACCACCAAGATGGGCCTCACCGAGCCTGAGGCGTTCCGCTGGATCCAGAAGACCTCCATGGACCGCCGCCTGAGCATGCGTGAGGTGGCCGAAACCATCATCAACCAGGTCAACTGA	MTEPTESKSTSQPARRVIVAEDETLIRLDIIEILRGEGYDVVGEADNGEKAVQLAEELKPDLVLMDVKMPVMDGISAAEKIVKARIAPVVLLTAFSQKELVERARDAGAMAYVVKPFTPADLIPALEIALSRHEEIKALESEVSDLQEQFATRKLVERAKSLLTTKMGLTEPEAFRWIQKTSMDRRLSMREVAETIINQVN				NA	NA	NA	NA	NA
D1-29_01854	1083	xerC_1		Tyrosine recombinase XerC	ATGGTTCTCTGGCGGGATCCAAAGAGCCGCGAGCAGCAGGGCCTGACTGTCGCCACCGAAGCCGAAGCTGAAACCCTTAAACGACTTCTGGACGCCAACGGTCAGTCATTCGAAATCGCCCAGCACGCCATACTCTCCAACCAAGCTCGGGTTCCCACCGTAGCCGAGGTCGTCCAGGAACATATCGACCTGCTGATTCGTCCATCCAGCGGAACTGTCAGAACTTATCAAGTGATGCTCGATCGTCATATCCGAGACTCAATCGGCCACATTCCTGCGGACAAGCTCGACTATCGGCACCTGAATCATTGGGTGAAATCGATGATGGCCAAGGGTAAGGCCCCGAAGACGATCCACAATGTTCACGGCCTCATCTCGGCAGCGATGAATACTGCAGAAATGCTCCAGTACATCCCCAAGAATCCTTGCCGTGGCGTGCAATTGCCTAGCATCGACAAGGCTGAGGATGAAGCGATGTTCCTCACCCATACCGAGTTCAACATGATCCTGGAGGTGATGGGGGAGCGGTACAAAACCTTCACGAGCTTTCTGGTTATGACGGGAACCAGATTTGGGGAGGCTACCGCGCTGAAGGTGGCGGATGTCGATTTGCTCGCCAAGCCGCCCACGGTGCGGGTCAACAAGGCCTGGAAACGGGATGGCCAGTCCCAGTTCTACATTGGCGCCACAAAGACGGGTGCGGGAAAGCGGACGATCGGCCTCAACCCGGCGCTCGTGGATCTCCTCGTACCCCTGGTGGCGAGCCGCACCGGCGATGAGCTCCTCTTTACGACTCCCAAGGGGGAGCGTATTGTCCATAGGCTGTATTGGCACTATTACTGGGTTCCAGCCGTGCAGGCGGCGCAATCGCATGGACTTAAAAAGTCCCCGCGCATCCACGATCTGCGGCACACGCACGCATCATGGCTGATCCAAGATGGCGTAAACCTGTTCACCATCTCGCGGAGGCTCGGCCACACATCAACCAGAACCACCGAGCAGGTCTACGGACACCTGATGCCGGAAGCCCTGCAGGCGGGTGCGGATGCGACGGAGCGTTCGATTTCCGGGTTTGTTCGCTGA	MVLWRDPKSREQQGLTVATEAEAETLKRLLDANGQSFEIAQHAILSNQARVPTVAEVVQEHIDLLIRPSSGTVRTYQVMLDRHIRDSIGHIPADKLDYRHLNHWVKSMMAKGKAPKTIHNVHGLISAAMNTAEMLQYIPKNPCRGVQLPSIDKAEDEAMFLTHTEFNMILEVMGERYKTFTSFLVMTGTRFGEATALKVADVDLLAKPPTVRVNKAWKRDGQSQFYIGATKTGAGKRTIGLNPALVDLLVPLVASRTGDELLFTTPKGERIVHRLYWHYYWVPAVQAAQSHGLKKSPRIHDLRHTHASWLIQDGVNLFTISRRLGHTSTRTTEQVYGHLMPEALQAGADATERSISGFVR				NA	NA	NA	NA	NA
D1-29_01855	279			hypothetical protein	ATGGATCTTGAATTCTTCGAGCCGGCCGAGGCAGCTGCCCTGATGCGGTGCACTGAGGCCTGGCTCCGGGATGGCGCCGCCAGCGGGCGGTTTCCCCATGCGTGCTGGGGAAAGGGGAAGATTATCTTCACCTCAGAGCACATCATGGAGATTGCCCGGCTGAGTGAGGTTCAACCCGGCAGCATGTCAAACCGTGCCCCTGCCGATGCAAAGACGGCGTCGAAGGAGCGGCTCATCGGAACCCGGGCGAGAGTACGACGACTCGCATCTGCCAAGTGA	MDLEFFEPAEAAALMRCTEAWLRDGAASGRFPHACWGKGKIIFTSEHIMEIARLSEVQPGSMSNRAPADAKTASKERLIGTRARVRRLASAK				NA	NA	NA	NA	NA
D1-29_01856	495			hypothetical protein	ATGCTCATGGAAGTTCGTTCACACTTGGAAGCAGTTCCGGCAGTACGCGCAGAAGATGCCTTCAAAGTGCTTCTGCTGCCTGCACATCTAACGCTTGAGCGCCTTGTCGAAGTTGTCGAGGGGATCCGCAACCGGCGCATTGAGATTGAGGTTTCCGGAGCACTCACTGGAGGGTCTGTCTGCGGCCTATGGCTGTCGACGGACACGGCGGAGATCATCTTGCACGCCGCGACCCCATCAGCGCTTCACAGGCAGCAATTCATACTTCACGAGCTAGGCCACATGGTTCTCCGCCATGACGAGTTGGTTCTCCCCTCCGATTACGCCGACATCCTCTTTCCTGATCTGCCGCGTGAGCTGGTTTCGAGAGTGTTTGCTCGAAGCAGCTTCTTGGACGACTTCGAGGCCGCAGCCGAAACTCTGGCAGACCTCTTCGCGGCTGCAATCCGGGACAGTACCGTCGAACCACGATCGTTCGAGAGGATTTTCGGATGA	MLMEVRSHLEAVPAVRAEDAFKVLLLPAHLTLERLVEVVEGIRNRRIEIEVSGALTGGSVCGLWLSTDTAEIILHAATPSALHRQQFILHELGHMVLRHDELVLPSDYADILFPDLPRELVSRVFARSSFLDDFEAAAETLADLFAAAIRDSTVEPRSFERIFG				NA	NA	NA	NA	NA
D1-29_01857	1032			hypothetical protein	ATGATCCAGATCATCGTGGCCTCCCTGATCTGGGGGCTCGTCCTATGTTTGCTGCCCGGAATCCGATGGCGCGCTGACCAAAGTATCCTGGTGGCGGGTGTGACCATCGCGACGGCGCTCACGCTAAACATCGATCCGGTCTACATAGCCGGAGATGCGCTACTGGGCCGTCGTAATGTCCTGGATCTGCTCGCAAACATCCTGATGGTCGTCGGCATATATTTCCTATCCAGGGCAATCCTTCGTGCGGCCGATCCCGGCGAGCTCCCGGCACGGCAGGACCACGTCGGTCTCGCTGCATTGGGCCTTGTGATTGTTGGGCTTACTGCATGCTTCGCCAATGTGGCTGCCCCCTATTCCTCGACGAGTTTCATGAAAGACTTCGGCGACCAATGGTCAGCCGCCGCCTATTCCGCCGTCCAATTTGGCTACATTGGAGTCGTCGTATCCATTACCGGCTACACGTGTTTCAGATTCCTTGGCCATATGTCCAAGCCATACTTCCGTGTCGCCTTCGCCCTCATCGGTGTTGGCTGTTCGTTGGCGGTAGTACTAGTTCTGGCTGTTCTGGGAATGGACATCCTCCACCTGCAGGGTGACTTGGAAGGGATGACCGCCCTTTCGCTTGTTTACGATATTGCCTTGGTCGGAGCCATGGCCTTTCTGTGTGCAGGACTTGCATTGCCGCCCATGGCTCGCATGCTTTCCCGCAAGAGGGAATCCAAGATGGAGGCCACCTTCATTCCTCGCCTCGCTAAGGTTTGGGAAAAAACTACGGATCCGAGACCAGAGGTCCGCCTTCTGTCCTCAGCCCAAATTGCGGATCGCCGTGAGTCAGTGAGGTGGCGCCTCCACAGGATGCTGGTCGAAATCCAGGATGCCCTTCTGATCGATCCTGAGCTCTCGAGGTTGCTGGATGATCGGGACCGGCAGATCCTAAACCTGGTGGAGCGATATCTGGCCGCACCTCCTTCAGGGAAGGAAGACCGAAGGGGTCCCCACGCTGTCGGCCGGGGGGAGCACGCCCTATGA	MIQIIVASLIWGLVLCLLPGIRWRADQSILVAGVTIATALTLNIDPVYIAGDALLGRRNVLDLLANILMVVGIYFLSRAILRAADPGELPARQDHVGLAALGLVIVGLTACFANVAAPYSSTSFMKDFGDQWSAAAYSAVQFGYIGVVVSITGYTCFRFLGHMSKPYFRVAFALIGVGCSLAVVLVLAVLGMDILHLQGDLEGMTALSLVYDIALVGAMAFLCAGLALPPMARMLSRKRESKMEATFIPRLAKVWEKTTDPRPEVRLLSSAQIADRRESVRWRLHRMLVEIQDALLIDPELSRLLDDRDRQILNLVERYLAAPPSGKEDRRGPHAVGRGEHAL				NA	NA	NA	NA	NA
D1-29_01858	462			hypothetical protein	ATGACGGAATCAGAGGCCAACTCTTCGGAAACGCCACAAGCAAGACTCGCTCGAAAGCTGAACCTCCTGCTTGACCTCTTCGAGTCGAAAGGGGAAGATCCCGTCACCTATCGACAGATCAGCCATCACATGGCGCAGCGCGGAACACCGTTGTCACGCTCGCGCTGGGCGTACATGCGGAGCGGGGACAGCTCGCTGGCCACCGATGAGGCGCTCTTGCGGAATCTCGCTGTATTTTTCGGTGTCGACTCGGATTACCTGCTGGATGACTCAGGTGACGTTCCTCAACTCGTTGACGCCCAGCTTGAGTTGCTGCGCATTTTGCGTGAAGCTCGTGTGCGGAACTTTGCCGCACGGCAGCTACAGGGAATTTCCCCTGAAACCCTCATGCGGCTTCGTAAAGCAATCGATGAACGGCTGGGAGGTGGCCACCAGGGTGGCAAAGAAGACAGCACTTCGTAG	MTESEANSSETPQARLARKLNLLLDLFESKGEDPVTYRQISHHMAQRGTPLSRSRWAYMRSGDSSLATDEALLRNLAVFFGVDSDYLLDDSGDVPQLVDAQLELLRILREARVRNFAARQLQGISPETLMRLRKAIDERLGGGHQGGKEDSTS				NA	NA	NA	NA	NA
D1-29_01859	1260			hypothetical protein	ATGAACGGCTGGGAGGTGGCCACCAGGGTGGCAAAGAAGACAGCACTTCGTAGCCTTATTGGGCTGGCGACGGCGGCCACGGCCGGGAGCGCGGGAGCTTTTCTTGGCGCGGCGTATTTTGCCCGCCAGGTTGTCGTTCCAAAGACCACCCGCAGCGAGGACCTTCCCATCCGAAGGGTCTCTCGAGACGCCGAAGGCTCGCTGCAAATCGAGCTGCCTGCATCACCACAGACAAGGGCACCCGGGCGTTACAGCCTTTGGTTCGCCAACGGTTCCGGCCATGCCTGTCTTGGCAGGGTTACGAAGACGGACACTGAAGCAGGCACAGTTACACGTGTGGTGGAGCGGGTCGACTCCGGTGACTTGCCGTCCGCCAGGGCAGGAATCTGGAGCGGATATGTTTTCTCCAAACCGGACCAGCTAGACCTGCCTTATTCAGTAGTTCAGATCCCGACTGAGCACGGCACTGCGCCCGCATGGAAGTTCGTGCCGGCCACTGCTTCCCTCGTTCCTAACGTATGGGCGATACATATCCATGGGATGGGCGGAACCAGAGCAGGTGCTCTCCGTGGGGTCCCAGTTGCAAATCGGCTGGGCCACACATCGCTGGTCGTCTCATTTCGGAATGACCGCGAGGCGACAGAATCGACTGACGCTCGCTACATGTTGGGGCAAACTGAATGGCTCGACGTCGAAGCTGCGATCAGATTCGCCATTAGCGAGGGCGCCCAGAAGATACTGCTATTCGGCTGGTCCTTGGGCGGATCCATCGCCTTACAATTGGCAAATTTGTCGGCCTACTCCCGACATATCTCTGGGCTCATACTCGATGCCCCCGTTATGGACTGGAGTAGGACCTTGACTTCAAACGCGCAGGCAAGCGGGCTCCCGGTTCCCGTGGCAGCTTTAGGACTGCGCCTCATGCAGTCCAGGACGTTCCGGTGGGTCACGGGGCTAGAAGAGCCACTCAATTTTCAATCGTTGGACTGGGTGGAGCGCGCGTCTGAGCTCAAGAAACCGGTATTGCTTTTGCATGGAAAAGGGGACCTTTCAACGCCCTTCGAAGTGTCGGAGCTCGCTGCCAACCTTCGTCCTGACCTGATTCAATTGGTCCCTTTCGACGTCGAGGGTCATTCGCAGGAATGGAATGTTGATATTGAAAAGTGGGAAGGAGCAGTGGCTGACTGGATCGTGAGCCTGAACGGAGAAGTAAAGGAAGAGGACGAAGCCGGAGAGTTGGCGGACGCCTCGGCCGAGTAG	MNGWEVATRVAKKTALRSLIGLATAATAGSAGAFLGAAYFARQVVVPKTTRSEDLPIRRVSRDAEGSLQIELPASPQTRAPGRYSLWFANGSGHACLGRVTKTDTEAGTVTRVVERVDSGDLPSARAGIWSGYVFSKPDQLDLPYSVVQIPTEHGTAPAWKFVPATASLVPNVWAIHIHGMGGTRAGALRGVPVANRLGHTSLVVSFRNDREATESTDARYMLGQTEWLDVEAAIRFAISEGAQKILLFGWSLGGSIALQLANLSAYSRHISGLILDAPVMDWSRTLTSNAQASGLPVPVAALGLRLMQSRTFRWVTGLEEPLNFQSLDWVERASELKKPVLLLHGKGDLSTPFEVSELAANLRPDLIQLVPFDVEGHSQEWNVDIEKWEGAVADWIVSLNGEVKEEDEAGELADASAE				NA	NA	NA	NA	NA
D1-29_01860	507			hypothetical protein	ATGATTGCTGACGAGGCAAGCCTTGATGGGGGACTATCCCCACAAGCCAGGCTTGCCCGCCGTCTGAATCTGATGCTCGACGTCGTGGTCGCCGAGCGTGGAAAGCCAATTACTTTCCGCGAGGTTCAGGGAGAGCTGGCGGCCAGAGGCATCAAGCTCTCGCGCGCCCGCTGGTTCTACATGAAGGACGGCAGAGGTCGGCTGGTGAGTGATCCGGCGCTTCTCAAAGCTCTTTGCGACATCTTCAAAGTTGACGCCTCCTATCTCCAGATAGGCAATGATGCCGATCTGCCCGAGCGCATCGATTCCCAGCTCGAGTTCGTCAAATCCCTGCGGGCGGCTCGAGTGAAGTCCTTCGCCGTTCGAACTCTTGGCGACGTCTCCCCGGAAACGCTGCGCGCCATCTCCGAATACCTCAATGAGGACATCCGCCGCCACCCTGGTGGCGAACAGGCAGCAGCTAGCCCTCCAGCAGATACTGAAGATGAGCGTCAAGCAGCTCCTTGA	MIADEASLDGGLSPQARLARRLNLMLDVVVAERGKPITFREVQGELAARGIKLSRARWFYMKDGRGRLVSDPALLKALCDIFKVDASYLQIGNDADLPERIDSQLEFVKSLRAARVKSFAVRTLGDVSPETLRAISEYLNEDIRRHPGGEQAAASPPADTEDERQAAP				NA	NA	NA	NA	NA
D1-29_01861	324			hypothetical protein	ATGCCACGTATCACCCAGCCGCACGACGACGCATGGTCGTCCGATGTTGAGGCTGCCGTGGCAACTTTTGGCAATCGGGCACGGAACGAGATCCTTCGGTACCTTTCAGCCCATGGACCAGCGACGCGTGGGGATATTGTTGCTTCCGTCAGCGCTGGGGAGCCCAGCGTGGCCAAGCATCTGTTGGCCCTGGAAGAAGCAGGCGCCATCATCGTGGACGTGGAAGCCGGCCGCCGGCACGGCCGCTCTCCCCGCTATTCAGCGAACACTCCCCGTATCAAGGAGCTGCTTGACGCTCATCTTCAGTATCTGCTGGAGGGCTAG	MPRITQPHDDAWSSDVEAAVATFGNRARNEILRYLSAHGPATRGDIVASVSAGEPSVAKHLLALEEAGAIIVDVEAGRRHGRSPRYSANTPRIKELLDAHLQYLLEG	PGPT0004735_4044	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
D1-29_01862	999			hypothetical protein	GTGGTTGAAAGCAACGCTGAGGCCACGTTCGAGGTGCCGAGCGTTTGTTGGCGCCGGAGGTATTGGAAACTGTCAGTCGAAGCGGTGAAGACCATGCGAGTCGAAACCAAGGCGAATCAAGCCGAACCAAACCAATCCAAGTCGACGAGCGTCGACGTCTCCCTGCTAAATCCCCTTGCATCTGAAGAAATCTCAGTCGGTGTTGACCAGATGATGGTTGCAGTCGAAGGGGTACGGCGCTATGTCGTATCGCACTTGTCGCGGATTGGGCGGCTGTGCGACGTCGACGATGTCATGCAGGACATTCGGGTGGCCGTCTGGGACGGAGTCTCCCGAGGTCGGTACCGACCATTCCCTGGTGTTCGGTTCGCCGCCTGGGTGCAGGGTGTAGCAATCAATATCTGTTCTGCACATATACGTCGCGAGCTAGCACATCAGACACTCCCACTGCTCCTTGACCCCGGGACTGCGGAGGACTCAACGACGTTCGATGCATTGACTGTTATCGCCAGGCACCGCCACGAGGACAGGAGCGCCGAAAGGGTTGTCGACCAAGAGTGGGCTCAGACGCTGCTTGGCCTAACACGCGCCGCTGTGTCCCCGGAAATCTGGGGCCTCGCGATGGACAGTCTTACAGAACCGCGCAAGTACGGCCCACCCTCGCCCCAAGATCGGCGCCGCTGGAATGCTGTGACCGTGGTGCGCCAGACAGCAAAGACGATCAACCAAGCGCTGGACGTTGATCCGGGAACCGTCCGGAATATGCAGGACCTGAGCCGGTGTGCCGTTGAATGCCTGCCCAGCCCGCTCCTGCGTGGAGTAGCCGACTCAATTGTGCGTCCTGATGTACGCGGACCAGAGCGTGGCAAGGCCATAGCCGCGTTGGCAGTCGAACTCGGCGTCACAGAACGCTATGTGGCCGTCCAGATTGGCTGCGCCAGGCGGCTGTATCAAACTGCGTGGCGGACCCTTCGTGGAGCAACGATTTCGACCCGCTAA	MVESNAEATFEVPSVCWRRRYWKLSVEAVKTMRVETKANQAEPNQSKSTSVDVSLLNPLASEEISVGVDQMMVAVEGVRRYVVSHLSRIGRLCDVDDVMQDIRVAVWDGVSRGRYRPFPGVRFAAWVQGVAINICSAHIRRELAHQTLPLLLDPGTAEDSTTFDALTVIARHRHEDRSAERVVDQEWAQTLLGLTRAAVSPEIWGLAMDSLTEPRKYGPPSPQDRRRWNAVTVVRQTAKTINQALDVDPGTVRNMQDLSRCAVECLPSPLLRGVADSIVRPDVRGPERGKAIAALAVELGVTERYVAVQIGCARRLYQTAWRTLRGATISTR				NA	NA	NA	NA	NA
D1-29_01863	729			hypothetical protein	ATGTCTATGTCACGAGAAACGGTGAGAGGTCTACGTCGCCGCCGGCGCCTATGGATCTTTGCTGCGATCGTGGTGGCCGGTGTTGCTGCCACGTTCGTCTTGTTTGGGTCTCCGCGTCCGCCGTCAACGAGGACGACGACGGTTCCAATCCCACCGCCGCTAGCCTCCGCCACCGGTCGTCCGTCGCCATCCGCTCCGTCTGTTTCAACGGGCTCGACGACGACGCCAGCCACCGAGAAAACGAGCGCGATTGAGGTTCCACGCACCACGAACTATCGAGCGCTGGCAACAGCCGCTGCCGAGGCCATTTACAGCTGGGACACGCGAACGTCGTCGTACTCGGAGGTCTACACCCGCCTCCGTGGCTGGTGGGACGTCCTGCCGGACGGATCGAACCCACTGGCTGTCTTTGCTCAGGAATTTGAAGCCACGGGTATCAACGCCGGAACTTTTGCTTCTTTGGCCGGGCAGGGGGCCTTCCGTACGGCCACGGCCGAATCCATGACCTGTGACGAGGAGTTGGCGGAGGTGCGGCAGCGTCCGGCTCCGTGGTTGGGTATGCACGTCTGCACCGTCTCCCTGCGAGTGGTGGATCAGACGGCCAGTAGCCGTAACGCCTACACGGCACCAGTCAGCATCATGGTCAATTGTCCGCCGGCTGCAACTGCCCCGCCTGACCGATGCATGATGGTGGGCTTCTACGCGACCTCAAGCAGGATCGTGTACTGA	MSMSRETVRGLRRRRRLWIFAAIVVAGVAATFVLFGSPRPPSTRTTTVPIPPPLASATGRPSPSAPSVSTGSTTTPATEKTSAIEVPRTTNYRALATAAAEAIYSWDTRTSSYSEVYTRLRGWWDVLPDGSNPLAVFAQEFEATGINAGTFASLAGQGAFRTATAESMTCDEELAEVRQRPAPWLGMHVCTVSLRVVDQTASSRNAYTAPVSIMVNCPPAATAPPDRCMMVGFYATSSRIVY				NA	NA	NA	NA	NA
D1-29_01864	1131			hypothetical protein	ATGCCATTCCCTGCGATTTTGATGGCAGTGGCAAAGCGCCGTGCACTGCTCCACGCCGCGATAGCCATGGCAACGGTCGTGGCACTGATGTTAGGCGTAGTGTTCTGCGCATTCGTTACCGTGCTGGTCGCTAGTCGGTCGGGCGAGGCCTCCGTTTGCACGTCCATGGGTCCTGTGGGCGAGGGGCCTTCGAGCAGACGTGGTGGTGGGCTGGAAATCCACGTTGGCGGCCGGGAACCAGTCTGGCTCACTCCACGCCAGGTCACGGTAGCGAGCGGCTACATTTCGGTCGGGAAGCAACTTGGAATCCCTAGGGACGCCTGGATTATCGCAATCATGATGGCTCTTCAGGAATCGACTCTTAGGGTCCTCGCAAACTCGAATGTCCCGGCCTCGTTCCAGTTTCCGCACGATGGTGTCGGAAGCGATCATGACTCGATTGGGAGTGCTCAGCAGCGACCGGCTGCAGGCTGGGGGAGCGTTGAGCAGCTGATGGACCTTGGTTATAACGCACGTGCATTCTATGGCGGGCCGTCGGGGCCTAATCGTGGCAGCCCGCGGGGCTTGCTCGACGTTCCTGGTTGGCAATCGCTGGACAAAGGACAAGCTGCTCAGGCCGTCCAAGTTTCGGCTTTTCCCGAGCTGTACTCGCGGTGGGAGTCTCAGGCAACCGCTATAGTCAGCTCGCTCGAGGGTGCCACTGCGCCGGCAAAATGCGCGGATGCGGTGAAGGTTTCCGCGCCTTCCGTTGCACACGAGAACCTTACCCAGATCCGCAAGGATGTCTTGCGGTTTACGCAAGCCGGTGTGGGTGGAACGTACATCTGGGGTGGTGAACAGTTCAAAGCGTGGGACTGCTCTGGATACGTCCAGTGGATCTATAGTCAGGTCGGAATCAACCTTCCACGCGTGGAACAGTGGAGGGTGGGGGAGCGGACCGAGAGCCCGCAGCCCGGCGACTTGGTTGTCCAGAATCCCCAAGGGCCGGGCAACTGGGGCCATGTCGGCATCTATGCAGGTGACGGCATGATGTACAGTGCGCTGAATCCATCGGCAGGGACTTTGCTTCATCCCGTGGATTGGAACCCCGGCAGCGCGTATTTTGACTTGTTGGGTGGCCGATTGGCGTAG	MPFPAILMAVAKRRALLHAAIAMATVVALMLGVVFCAFVTVLVASRSGEASVCTSMGPVGEGPSSRRGGGLEIHVGGREPVWLTPRQVTVASGYISVGKQLGIPRDAWIIAIMMALQESTLRVLANSNVPASFQFPHDGVGSDHDSIGSAQQRPAAGWGSVEQLMDLGYNARAFYGGPSGPNRGSPRGLLDVPGWQSLDKGQAAQAVQVSAFPELYSRWESQATAIVSSLEGATAPAKCADAVKVSAPSVAHENLTQIRKDVLRFTQAGVGGTYIWGGEQFKAWDCSGYVQWIYSQVGINLPRVEQWRVGERTESPQPGDLVVQNPQGPGNWGHVGIYAGDGMMYSALNPSAGTLLHPVDWNPGSAYFDLLGGRLA	PGPT0023995_1560	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
D1-29_01865	648			hypothetical protein	ATGTCCAGCATCACGTCACCTCTTCCTAAGCTATGGACTGACTGGTGTGATGTCACCGGGACCCCACTTGAAGACCGCGACGAGACCGTTCTCTCTCGTTTCGCTCGGCAGGCTGGGCCATCGCAGCGATTGCTGGCTTCGCTCCGAACGGAAGAGACCAAAACCGAACCCCGGGTGACAGCTTGGCCTGCAGCACACCGCGCAGACTCCGGTGCGCTCGAATCGCTATTGCGACAGGGCGCTGCGCGAATCAACAACCCCGCGACGTTCTGGATAGATCGACTGCGTCTTCGTCGACTGATGTTCGCCGGCGTGCTGCTCGCACCGATCCATCAAGGCGGACTCGGCCTCACAAGGGATCAGGCGCTTGGGCTGACCCCTGCTTCGTTCAAAGAACTGCGCACCGGGATTGGAACCTCGGAAGAAGAGGCGGCCTGCCCAGCATGCGCTGTATGGTCGTGGCTCGAGGTGCTCGGCACGAACACTGGCTGGGCCTCGGCCACGGTCAGGTCGCTCGCGCACCGCCGTGATGAACCAGCAGGGGTACATCGCCATAGTCTCAAGGACCCGAGCCCTGAATGGTCTGACTGGCCAGACTGCCCAAACCTCTTGCCGGCGATCGATCGTTGGGGCTACTTGGACTTATAG	MSSITSPLPKLWTDWCDVTGTPLEDRDETVLSRFARQAGPSQRLLASLRTEETKTEPRVTAWPAAHRADSGALESLLRQGAARINNPATFWIDRLRLRRLMFAGVLLAPIHQGGLGLTRDQALGLTPASFKELRTGIGTSEEEAACPACAVWSWLEVLGTNTGWASATVRSLAHRRDEPAGVHRHSLKDPSPEWSDWPDCPNLLPAIDRWGYLDL				NA	NA	NA	NA	NA
D1-29_01866	192			hypothetical protein	GTGCAGTTTGAGGAAGCGAACAGACTTGAGGAGCGGTGGGCCAACAAGGGCAACCCGCCGTGCGACCATCCGCAGTTATCAAAGGAGTACCACGGAGGAATGGACAGTGGCGACTACCGCTGTACGACCTGCGGCGCGACATTCACCGGCAACGAGTTTCGTCAGTGGCGTGCAGGGAAGACAGATGTCTGA	MQFEEANRLEERWANKGNPPCDHPQLSKEYHGGMDSGDYRCTTCGATFTGNEFRQWRAGKTDV				NA	NA	NA	NA	NA
D1-29_01867	1821			hypothetical protein	ATGTGGGTTTCCAGACTCCGGATCAACGGAGGCTTTCTCAATGGGCTGAACGTTTCGTTCGTTCGGGGGCTGAACGTCGTCATCGGCTCCCGGGGCGTTGGTAAGACGACGTTTCTGGAATTGCTGCGGCACGCACTTGGAGCCGAGCACGCCGACAAGCATCGGCGACAGCAGCGTGAGCAGTTCCTATCCGCGGTATTGGGCGTAGGCGAGGTGATCGTCGATCTGGAAGACGAGACCGGCGCGACACAGGTCATTGTCGACGCGAAGGGGCGTGGGCGAGACCGCGATTTGTCTCACTCTTTGCTCGTCCTCGGACAGAGCGAGCTAGAAGAGATTGCTTCTGACGCGGCCAACCGGCTCAAGCTCCTGGACCTCCGTGCGGGAGAAGAAGCCACCGCAATGCCGCGAGACGAACTCGGCCAACTTTCTCGCGAGATGTTCGATCTTCGCGGCCAGTTGCAGAAGTGCGAAGAAGAGTCTCTCAAACGCGCGGGCCTTGAAGCTGACCTGCAGATCTATCGGTCACAAGAAGAATCATTGGTTGGCGATGCGCAGGGCCCGCTCGCTGCTCAGCGCGACACTCTCCGCGAGATCGAAGCGCGTTCGAGCGCGATAGTCCGGAAGAGTTCGAACCTTCGGAACGCGAAAGAACTCTTGGGTCGGATGAGTGCTGCTGTCGACACCGTGCACCAGATTCTCGCCAAACTCGACACGCTTGACAGCGAGTTCATCGCAGACGAAGTACCCCTCGCTGCGGCTCTTCACACGGTTCGCACAGACGCCGACAGTCTTCGAAACTCGGTCGGCGTCCTCGATGGAGATGTGTCCGGACACATCGCGAGGGCCACAGGCGAGGATTCAAAGCTTCGTGAAACCGCGGCACCCCTGCGGGAGAACCTCGAGCAGGCAGAGGCGGGGCTGGGACAGATCACCGCCCAGATTCGCAACGTTGATGCCCAGCTGCAAGAACTTGATGACAACGACAAGAAGATTGTAGTGCTGTCAGCAGAACTGCAGTCGCTTAAGGACCGGCGAGATGCCGCTTTCGCCCGCGTCGAAGCGAAAGAGGAACGTCTGTTTCGTGCACGGCAAGCCGTTGCTGAATCCACGTCACGCCAGATCGACCATCACATCGTGGTCGTAGTCGAGCATCTTGCGGACGCGTCCGAACTTCGTGAGGTCCTCACCGACAGCCTCAAAGGCACTCACACCAGAGCAACCCTCATCGACTCGCTTGCGGCGCGCGTACTTCCCAAGATGCTCCTGGAGATGGTCGAGGCGCACGATGTCGACGGACTCGCGTCGGCAGGGGATCTCTCTCAAGAGCAGGCCGCGCGCGTGATTGGTGGGCTCGACTCCGCCGACGGAGTCGAACGTCTCGCAAAGGTTTGTCTCAGGGACAGCGTCGACTTCCTTCTCCGCGACGGTGCCGTGGACAAGAGCGTCGACAATTTGTCCGCTGGGCAGAAGTGCGCCGTGACGCTGCCGATCGTGCTGTCCGAACGAGAACGGACATTGATCCTCGATCAGCCCGAAGATCATCTCGATAACGCGTACCTAGTAGATCACGTCGTGACGGCGATGAACCACCGCACGGGCGACCAGGTCCAGACGATCGTCGCAACGCACAACGCAAACATCCCTGTGCTCGGAGCGGCGGGGCGGGTGTTCGTCTTGGCGAGCGACGGGCAACACGGCGAAGTGCTCGACTCGGGGGCATTCGACTCGCCACCGGTTATCTCCGCAATCACAACCATCATGGAGGGCGGTCGCGAAGCCTTCGAGCGACGAGCCCGGTTCTACAGCAGCAATGACTAG	MWVSRLRINGGFLNGLNVSFVRGLNVVIGSRGVGKTTFLELLRHALGAEHADKHRRQQREQFLSAVLGVGEVIVDLEDETGATQVIVDAKGRGRDRDLSHSLLVLGQSELEEIASDAANRLKLLDLRAGEEATAMPRDELGQLSREMFDLRGQLQKCEEESLKRAGLEADLQIYRSQEESLVGDAQGPLAAQRDTLREIEARSSAIVRKSSNLRNAKELLGRMSAAVDTVHQILAKLDTLDSEFIADEVPLAAALHTVRTDADSLRNSVGVLDGDVSGHIARATGEDSKLRETAAPLRENLEQAEAGLGQITAQIRNVDAQLQELDDNDKKIVVLSAELQSLKDRRDAAFARVEAKEERLFRARQAVAESTSRQIDHHIVVVVEHLADASELREVLTDSLKGTHTRATLIDSLAARVLPKMLLEMVEAHDVDGLASAGDLSQEQAARVIGGLDSADGVERLAKVCLRDSVDFLLRDGAVDKSVDNLSAGQKCAVTLPIVLSERERTLILDQPEDHLDNAYLVDHVVTAMNHRTGDQVQTIVATHNANIPVLGAAGRVFVLASDGQHGEVLDSGAFDSPPVISAITTIMEGGREAFERRARFYSSND				NA	NA	NA	NA	NA
D1-29_01868	879			hypothetical protein	ATGACTAGCCACGGTGAGCCCGGGCTCGATTGGCTCGATGATTCTCTGAACTCGGAGTCGCCTTCCGCGAGGTTGCGCGCCGCCGCGTGGATCAAGGCAAACCCGGAAGCAGTTCCGGTGCGCGTACTCATGCGTGCGATGCAGCGAGAGTCTGTGCCGCAGATTCGTCAAATGTTCAATGACGTGCTCGCGACCCGAGAATCTCTGACGAATGCAGTGGGGCCAGATTCATCGGGCGAGGGAGTGCAGTCATCACATGGGAGTATCCCGGAACTAGCGCGACTGATCCGGCATGAGCTCTCGCCGCCGCTCGGTTGGATCCGCAAGGCAGCAAGCCACGAAGTCGCAGAATTTCAGCGAAGTGCGACGAGTGACGCGGTCAATCGATTGGAGCGCCGCATTGACGCCCTAGTCGCGCTTATACGTGAGGGGTCCGACTTGGAGCTTGTGGAGTGCGACCTAGAGCGGACACTGCGCGAATGCTGGCCCGACATGACTACCGAGCCGAGTTTCGTGCCAGCTCCGGACCTCGGCGATCGCCCAGCGCTCATCGTCACAGACATCGGTCTCTTCGAAATACTCTTGGCGAATGTCTATCAGAACGCAATAGACGCATCGCTGGAAACGGACGAAGAACGCCCCATCGAGGTGAGCTGGAGCGTGGTGGGCGAACGGTTCTGGGTACGCGTGTCCAACCCATTCGCAGGCACCCAGTTCGACATCCAAGACGTCGAGACAACGGGAATATCCACGAAAAGCGGGCACCAAGGGATCGGTATGGCCCTCATCAAGACGGCGACAGGGAAGCTCGGATACGGCTTCAGGATTGCAGGCCGAAGCGGAGCCGCAACTTTCACGCTCACTGGAGGACGAGGCTGA	MTSHGEPGLDWLDDSLNSESPSARLRAAAWIKANPEAVPVRVLMRAMQRESVPQIRQMFNDVLATRESLTNAVGPDSSGEGVQSSHGSIPELARLIRHELSPPLGWIRKAASHEVAEFQRSATSDAVNRLERRIDALVALIREGSDLELVECDLERTLRECWPDMTTEPSFVPAPDLGDRPALIVTDIGLFEILLANVYQNAIDASLETDEERPIEVSWSVVGERFWVRVSNPFAGTQFDIQDVETTGISTKSGHQGIGMALIKTATGKLGYGFRIAGRSGAATFTLTGGRG				NA	NA	NA	NA	NA
D1-29_01869	1404			hypothetical protein	ATGGCCAACCCGTGTGCCATATTGGTTGATGATGATCGGCAGCAGCTCGCGGAGGCATCTTCGACAATTGCTGACGCAGGCTACGAACTGATCACTTTCGAATCAGTCGAGAAAGCGCTTGCCTTCGTGGAAGAGACCGACCAGCTAATCGACCTCTTCGTACTGGATCGAAAGTTGCCCATGCGCGCAGGCGAGAACGCCGTGGATGAGCTTGGTGATGAGCTTTTTCGGATCGTCACGTCCACCCACCCCGACTCACGAGTCATCGTCTTCAGCGGATACACCGATTTCGACCATGCGCAGGAGACGATGGAAGGCGCGGGCTTCGTCTTCCAGAAAGGAGACGTGCGCATAGACCGAGTGTCTGTGCTTCGTAAGTCTCAGTTCGACAAGTTTGAACGCCTGATCAAGGATCTGCGGGAAGTCATCGCTGGCTTCGACCTCGTTGAAGTCACGGTGAATGGCGCGATCGACGCGCGTCAGAGGCGAGTACTCCGACGAATTGCACATCACTATGGCGCATCATCCATTTCCGCGAAACCGCTCGCTGGCGGTCTGACAGGCGCACCCGTCTGGCGCTGTGAACTGGTATCTCCAAGCGGTCCCATCGCGGACGTGGTGGCAAAGGTTGGCGGGGCGATCCCGGCTGCCGGGGGACTACAAGATCTGCTCGCGAAGGACGCAATAGCGCGTCGTGTCGATGTCATAGGCGGCCTCATGGGCGGCTCAATAGTCGCTATCTTGCAGCTTGCTGGCACGTCCCCAATTTCACTAATGCGCCTTATCGGTTCCCACGACATGGAAGCGGCGAGGATCACCGAAGTGCTTCGCGCGAGTCTCGATGCGCTTGAGCAATCGCCCGCGCGAACAGTGCCACTTCGAGACATCATCGGACAGATCATCGCCTGGGAGAACTTTGTCCGCGAGCTTTCCGTGCTCGGCCTAAGCCCTCCCACTCCTCAGCTGTGGGTCACCACGTCTTCGGTGATGAGCCACACCGATCTGCATGCAGCGAATATTCTAGTGTGCGGCGATCTACCTGTCATTATCGACTCGGACGAAAACGAATTCTCTAGCTCGCTCCGGGACCCCGTGGTTCTTATGATGTCTAGCTGGGTTCATCCTGACTCGCCGTTCCTTGGGGAGGACTGGCCCTCGGTAGACGACATTTCCGAGCGGTTTGGCGAGGCATCGTTCGCGCGTGGTTCTTTGTCTCCCGCCTGGTACGCCACGATCCTGAGCTGGATGGACTCTCGAAGCGCTTCGGCTCGCGAATATTGGTCGGTGGTGCTTGCCTATGGTGTTCGTCAACTGCGGTTCGAGAACGTTCGCACCAACCCAGACCTGAAGGCAAGGGTTGAGGCTGTGGTATCTCTGGCTCATAGGCGGCTCGAAGAGACTTAA	MANPCAILVDDDRQQLAEASSTIADAGYELITFESVEKALAFVEETDQLIDLFVLDRKLPMRAGENAVDELGDELFRIVTSTHPDSRVIVFSGYTDFDHAQETMEGAGFVFQKGDVRIDRVSVLRKSQFDKFERLIKDLREVIAGFDLVEVTVNGAIDARQRRVLRRIAHHYGASSISAKPLAGGLTGAPVWRCELVSPSGPIADVVAKVGGAIPAAGGLQDLLAKDAIARRVDVIGGLMGGSIVAILQLAGTSPISLMRLIGSHDMEAARITEVLRASLDALEQSPARTVPLRDIIGQIIAWENFVRELSVLGLSPPTPQLWVTTSSVMSHTDLHAANILVCGDLPVIIDSDENEFSSSLRDPVVLMMSSWVHPDSPFLGEDWPSVDDISERFGEASFARGSLSPAWYATILSWMDSRSASAREYWSVVLAYGVRQLRFENVRTNPDLKARVEAVVSLAHRRLEET				NA	NA	NA	NA	NA
D1-29_01870	135			hypothetical protein	ATGCCAGGTCTGGCCGCAACAGCAGCGGCCTTCCTTGTGCTCCTGGATGACAAGGACCCGTTCCTCTCCGAGCCGGATGATGTCTTCGTAACTGAGCGTGGGTCCAGTGCAGCATCGGCGGCCGGCTGCCGGTAG	MPGLAATAAAFLVLLDDKDPFLSEPDDVFVTERGSSAASAAGCR				NA	NA	NA	NA	NA
D1-29_01871	1320			hypothetical protein	ATGACCGAACTCTGGATCGCGTTGGCAGTCGCAGTCGTCGTATCCGCTGGCGGGCTCCTTACTCTCACTCTTCGCAGGCACAGAAGTGCTCGCGGAGACAACGTGGCAAGAACCCCACTGGTGACTGAGCCTTCGCCCAGGGAGACCTTGGCACCCGTTCAGGTTCTCCCCGTTTCGGGGATCCTGGTTCCAGAGGCTGTCTTGTCTGCAACCGGCGCATCCACTTCGGTCGAGGAGGCACTTGAGGTCGCTTCAATTCCTATGGCGCTCGAGTACCACCCGATCACCGACATTGAGCTAACAAAGTACAAGTCGGTTCCAGTGAATGCTGCCATTCAGCAGGCACTCACCAACGTCGTCCGTGCAGTGGATCCGAAGAGTGCCACACTTTTCAAAGTAGTGCTGCCGAAGGGTGCCGAGCTTGTTCGCGCGGTTGGCACCAGCGGGTTCCGCGGATTCGCGCGCGGACCCGCCAGTATCTCAGCTCAGGCTGTTCTGTATCCGGTGGGGGTCGGAGGTGCCGCGGTTGCTGGTTGGCCGATCTTGGCAGTGGGTGCCTCGGTGATGGCTCTGGACATGCTCGCCCAGCGGGAACAGAGGGTTCATCAGCGGCGGGTCGAGACAATCCTTGGACGTCAGGAGAAGCGATATGTAGACATGCGTATTGCGGCCCAACGAACGACGGACAAACGACTGTCCAAAGCAATCAGTTCCATGCTCGACGGCGGGCTTCCTGATCTGGACGTTGTTCAGCAAAGTGCCGGCGAGGAGTTCCACAACGCGGACATATTCTTGGAGCAAACCTGGTCTGCCATCCAGTCACTCCCGGAGTCTGGTGTGGGCAGCGGTGCTGTTGACTATCGCAAACTGGAAAAAGCCCTCGGCGGCAAGACGAAAGATCTCGACCATTTCTTTCGCGAACTTCACTTCGCTCGTGCCGCTGTCGCCCTCGGACGAAAAGCGCTTCTCGCCGACGCCGCGAAAGCAGCGCTTGCCGATCCTGGCAACCCATACCTTGCCTTTCGAAAGTCTCTTGAGCGAGACGCAGCGGATGTGAGAAGGGCTGAGAGCCGCGAGGCTCAGGTCACCGAGGCACTCGCCACGCTGGAGCTCACTGGTCGTTGGCATAAGACCAAGAAGTCGATCGCTGGCCGGCAGACAGCTTTTCGTGAACGGGTGGCACCTCCACGCGTCGATCCGCCCGATACTGTGCAGTACCTCGCGCTTCCTTCGGGTGAGATCCATCAGCTCGTGCCAGTTGATGCCCAGTTCGACGAGGAGGCGGTGGAGGCTCAACACTCGAATGCCGTGTCATCATGA	MTELWIALAVAVVVSAGGLLTLTLRRHRSARGDNVARTPLVTEPSPRETLAPVQVLPVSGILVPEAVLSATGASTSVEEALEVASIPMALEYHPITDIELTKYKSVPVNAAIQQALTNVVRAVDPKSATLFKVVLPKGAELVRAVGTSGFRGFARGPASISAQAVLYPVGVGGAAVAGWPILAVGASVMALDMLAQREQRVHQRRVETILGRQEKRYVDMRIAAQRTTDKRLSKAISSMLDGGLPDLDVVQQSAGEEFHNADIFLEQTWSAIQSLPESGVGSGAVDYRKLEKALGGKTKDLDHFFRELHFARAAVALGRKALLADAAKAALADPGNPYLAFRKSLERDAADVRRAESREAQVTEALATLELTGRWHKTKKSIAGRQTAFRERVAPPRVDPPDTVQYLALPSGEIHQLVPVDAQFDEEAVEAQHSNAVSS				NA	NA	NA	NA	NA
D1-29_01872	201			hypothetical protein	GTGGCCGAACCATGGCTGTCCGCCGATGGCATTGCCGCGCACCTGGGGATCACGAAGGACACGGTCTACACATGGATCAGTGACAAACGCATGCCGGCCCACAAGGTCGGCAGGCTCTGGAAGTTCCAGGCAAGCGAGGTAGACGAGTGGGTCCGCAGCGGAGGCTCTGCAGCATCGAGCGACGACGAGACGCCGAGCTGA	MAEPWLSADGIAAHLGITKDTVYTWISDKRMPAHKVGRLWKFQASEVDEWVRSGGSAASSDDETPS				NA	NA	NA	NA	NA
D1-29_01873	633			hypothetical protein	GTGATCGAGCAGCATGCCGAGGCGCAGCGCTATGCACTCTCATTTACCAGTGGTGCCCTCCTCATGCGTGAGGCGGCGATCATTGCGCCCATTTACTTGCGTGAACGCGACTGGGCAAGAGTTCGAACGGTGGTCGCGGGGGAGAACCTGCTTCAGGCTCGTACAGTTGCCTCTGGGCTCAGGCTTGCGCGTGAGGTTATCCAACGGCTCACCGTGCTGACCGACGACGAAATCAAGCTACTCATCGAGGGGACCTCTACCGAGCGCGGACACTTGATGTGGGCGGCGGCCTGCCGTCGATATGACCTGATTGGTGAGTTCGCTGAGGAGATCGTACGCGAGCGGTTCCTCTTGCTTACGCCGTCGCTCGATCTCAACGATTTCGACAGCTTCACGCGAAGCAAGTCTTTGTGGCACACGGAGCTGTCTGAACTCAAGGACTCCACGCGGCGCAAGCTGCGTTCAAACTTGTTCCGGATGCTTAATGAGGCAGGGTTGCTTTCCAACAGCGGGCACATACAGCCGGCGATGATGTCTCAAAGGGTGGCCACCGCCTTGGCCGCGCGTGGTCCGAATGACCTGCGATTCTTCCCAACCAACGATGCTGTTACTTCTGGGAGGGCCCAACCGTGA	MIEQHAEAQRYALSFTSGALLMREAAIIAPIYLRERDWARVRTVVAGENLLQARTVASGLRLAREVIQRLTVLTDDEIKLLIEGTSTERGHLMWAAACRRYDLIGEFAEEIVRERFLLLTPSLDLNDFDSFTRSKSLWHTELSELKDSTRRKLRSNLFRMLNEAGLLSNSGHIQPAMMSQRVATALAARGPNDLRFFPTNDAVTSGRAQP				NA	NA	NA	NA	NA
D1-29_01874	600			hypothetical protein	GTGACACGGACCGACCTATCCAAACAGGAAGAGCACCTGTTCGCAGTTCTCAGTGGCAGACGATTTCTCCAGATGGAGGGCCTGAGCAACGAGGTACCGTTCTTCATTTACCCCTACGACCCTGAGGATGCACTCGCGGTTGCGGGGTCGAAGAAGCGCATCAAGAATCGCCTGGCGAACAAGGGCATCGTCGTGCGCGAGGTCAACCTCTACGATCTGTCCGTGGAGATTCTTAAGGAACGCGGAGTCTGGGATCGGCTGATCGCGCTTGAACCCGAGCAGGACAAGGCGGATTTCCGTGAGTTGCTCCAAGGGATGCTCGATCCGCAGCTACACATCGCGGCCGCCATCCGGGCCAAGCTCGGCGAGGCTGACTTCGACATCCTCTTCCTCACAGGCATTGGTGAGGTCTTCCCATACATCCGCTCCCACAACGTGCTGCACAACTTGCAGAGCGTCGTGACTGACAAGCCGATGCTTACGTTTTTCCCAGGCCGCTATGAGCAGTCCGACACGCTGGGGTCGTCCCTGGTGCTGTTCGGTCGACTCAAAGACGACCAGTTTTACCGAGCCAAGAACATCTTGGAACAGGAGGCTTGA	MTRTDLSKQEEHLFAVLSGRRFLQMEGLSNEVPFFIYPYDPEDALAVAGSKKRIKNRLANKGIVVREVNLYDLSVEILKERGVWDRLIALEPEQDKADFRELLQGMLDPQLHIAAAIRAKLGEADFDILFLTGIGEVFPYIRSHNVLHNLQSVVTDKPMLTFFPGRYEQSDTLGSSLVLFGRLKDDQFYRAKNILEQEA				NA	NA	NA	NA	NA
D1-29_01875	3486			hypothetical protein	ATGAATCTGAACCAGATCTTCGCCAAGGACGTCCAGCGCCCGATAGAGGGAGTCATCAAGGCTGACGATGCCGCGCACCTGGGCACCGAAGTTGATGAGTACGTCTTGACCAACGAGGCGGCCAAGGGCATGGAGCTGTTGCTTGAGGCATACACGGACTACACCAACGCCAACGGCGTGTGGATCTCGGGCTTCTTTGGTTCCGGTAAGTCGCACTTGTTGAAGTTGCTTGCGCACCTCCTCGGCGACGTGGAAGGCCAGGACTTCCCTCGGGCACGTGTCTCCGAGAGTTTCCGGTCCAAGGCGCAGGATGCGTTTCTTCCGGCGCTTTTGACCAAGGCTGAGCGGATCCCGGCGAAGAGCCTCCTGTTCAACATCGACCAGAAGGCCACCCTTATTACTAAGGACCAGACCGATGCCTTGCTGAAGGTGTTCGTCAAGGTCTTCGATGAGAGCCGCGGCTACTTCGGTAACCAGGGGCACGTTGCCAGGTTCGAGAGGGACCTGGACAACCGAGGCCAGTACAAGGCGTTCAAAGCCGCATATGCCCGTATCTCCGGGCGCGACTGGACGCAGGGACGTGAAGAGGGCGTGCTCGAAGAGGTCAACGTGGCCAAGGCCTACGCCGAGATAAGCGGCCAAGCCGAGGGCACGCCGGCTAACATCCTCACCAAGTACCGCAACGAGTATTCGGTCTCCATCGAGGACTTCGCCGATGAGGTGAAAGCGTGGCTCGACAAGCAAGAAGACGGCTACCGGCTGAACTTCTACGTCGATGAGGTCGGCCAGTTCATCGGATCGAACACGCACCTGATGCTAAACCTCCAGACCATCGCCGAGTCGCTGAACACCAAGTGCCAGGGCCGGGCGTGGGTGTTCGTGACCTCCCAGGAAGACATGGACAAGGTCGTCGGTGACCGTACCAGGCAGCAGGGCAACGACTTCTCCAAGATCCAGGCCCGGTTCGCCACCCGTCTGAAGCTCACGAGCGCCGATGTGGAAGAGGTCATCCGCAAGCGACTGCTGGAGAAGAACGCGGCGGGCGAGGCCACGCTGAATTCGATCTATGCAGAGCAGCACGCCAACTTCAAGACCCTGTTCGACTTCGTAGACGGCGCGAAGACGTATCGCAATTACACCGACGAGGCGCACTTCGTCGGCACCTACCCGTTTGTGAGTTACCAGTTCCCGCTGTTCCAAGCGGCGATCGAGGGCATCTCCGACCACAATGTGTTCGAGGGGCGCAACAGCTCAGTTGGTGAGCGGTCGATGCTCGGCGTCGTGCAGCAGGTCGCTAAGGGCATCGGCGATGTCGAAGTGGGCAGACTGGCGACGTTCGATCACATGTTCGCGGGCATCCGCGCTTCGTTGAAGTCAGCCGCGCAGCGTTCGATCGACGTTGCCGAGCGCAACCTGGATAACGAACTGGCTGTGCGGCTGCTCAAGGCTCTGTTCCTGGTGAAGTACGTCGAGGGCTTCCACGCCACCCCACGCAACCTGACCGTGCTGGTTTACGACCGTTTCGGACTTGACCTGCCCGCCCTGGCCAAGCAGGTGCAGGAGGCACTGACACTGCTGGAGACGCAGACGTACGTGCAGCGCAACGGCAACCTATACGAGTACCTGACCAACGAAGAGCAGGTCATCGAGGAGGAGATCAAGAACGTCGATATCGATGCCTCGGATGTCAGCGGCCGGCTCTTCAAGATCATCTCCGGCGACGTGGTTCGCACGAGCAAGTTGCGCTACGCCAAGAACGGACAGGATTTCGGCTTCGGGTACAAGCTTGACGATCAGGTGTACGGGCAGCAGCGCGAACTGACCATGCACTTCATTACGCCGGAGTACCCATTCGGCCCCGAAGAGACCCGGATGCACAGTGCGGGCAAGGACGAGCTGCGCGTCATCCTGGAGCCCGATGAGCGCGCACTTTCGGACCTGCGCCTGCTGATCAAGACGGAGAAGTACACCAAGCGCAAGCAGACGACCTCGCTGTCCGCAATCGAGGACCAAATCCTGCGCTCGAAGGCGACGCAGAACGTCGAGCGGGAGAAGGAACTCATCGAGCGCATCCGCCGCGCAGTTGGCAAGGCGGACCTCGTGATCAACGCCGCTGGCGTAACCTCCTCCTCACAGGACGCCATCGCGCGCGTTACCGATGGCTTCCAGGACCTCATCAGCCGCACTTACACCCAGCTCAGCCTGCTTGGCGGTGTTGCGTACAGTGAGCAGCAGGTTGCTGCGTTCGCCAACCCCAACCAGTCAGGCATGATCGACGATTCGTCGCTGTCGATGCTTGCTGTACCAGGTGACGAGGTGCTTTCGTTCCTGCTGCAACGCGACCGGCTTGGCGAGCAGGTAACGGTCAAGACGATCGTGGATGCATTCCAGGCCAAGCCCTACGGATGGGATCTCGCCTCGATAGAGGTCGTCATCGCCTGGCTCGTTGGAAACTCGAAGATCACGGTTACCGTCGATGGAAACGTGCTGAAGCGGACCGAGGTAGCTGCCGTTCTGCGCAATACGCAGAAGCACTCGCATTCCGTGCTTGCCCCTCAAAAGCTCTTTGACGAGCGCAAGGTCGCGACGTTCCGCAAATTCTGCACCGACTTCTTCGACGAGGCCACCCCACCGAAAGACCCGCTGGAGCTGGCTCGGCACGGCAGCGAAAAGCTCGGGGCAAAGCTCGACGAGTTGAGAGCGCTGGTGAGCGGATCGAAATACCCATTCGTGGAGCAACTGGCTGCCCCCATCGCCCTGCTCGAACAGGCTGTGGGCAAATCTGACGAGTGGTACCTGACTGAATTCATTCTTGGCGACGAATTGCTCGACGCCAAGGAAAACGTAATCGACCCTATTCAGTCGTTCCTGGGCGGCGGCCAGAAAGTCATCTACGACGAGGCCGTAGTACTGCTCACCTCGAACACGAACAACCTCGGATACCTGCCCCCAGGAAGCGAGGCCGACGTGAGGCGACTCCTGGACGATCCCAACGCCTTCCGGGGCAATCGCATGACCCAACTCAAGCAGGCCGCAGACGCCCTTGGGGCGAAAGTCGAGGACACGCTCGCCACCCATCGCAGGACGGTCATCCAGGACATCGAGGGACGCAAGTCCGAGGTACTCGCCAGCGCCTACTACGGCAATGCCACAGAAGAAGCGCAGCAGCGGGTCACCCGTACAATCGACCAGATCATCACCCACTTAGGCAGTGAGCGGCAGATCGCGCTCATCCGCGAGCAGGGTAATGGCTTTGAGGAGCGGACCTATCCCGAGCTGCTCGACCAGCTCGCATCCTCTGCCCGGTCGACGGGCGGCACGGACAGTCCGGAGCCCACACCAAGGCAGACCGTCTCGGTCAAGACGATCACAGTGCCCGGTGCCCACGGTGTGCTCGAGAACCTGGACGACGTCGACCGCTACCTCGATGCGCTCCGCGGTGCGCTGCTGAACACGCTCAACGACGGAAAGAGAATCGCGCTCTGA	MNLNQIFAKDVQRPIEGVIKADDAAHLGTEVDEYVLTNEAAKGMELLLEAYTDYTNANGVWISGFFGSGKSHLLKLLAHLLGDVEGQDFPRARVSESFRSKAQDAFLPALLTKAERIPAKSLLFNIDQKATLITKDQTDALLKVFVKVFDESRGYFGNQGHVARFERDLDNRGQYKAFKAAYARISGRDWTQGREEGVLEEVNVAKAYAEISGQAEGTPANILTKYRNEYSVSIEDFADEVKAWLDKQEDGYRLNFYVDEVGQFIGSNTHLMLNLQTIAESLNTKCQGRAWVFVTSQEDMDKVVGDRTRQQGNDFSKIQARFATRLKLTSADVEEVIRKRLLEKNAAGEATLNSIYAEQHANFKTLFDFVDGAKTYRNYTDEAHFVGTYPFVSYQFPLFQAAIEGISDHNVFEGRNSSVGERSMLGVVQQVAKGIGDVEVGRLATFDHMFAGIRASLKSAAQRSIDVAERNLDNELAVRLLKALFLVKYVEGFHATPRNLTVLVYDRFGLDLPALAKQVQEALTLLETQTYVQRNGNLYEYLTNEEQVIEEEIKNVDIDASDVSGRLFKIISGDVVRTSKLRYAKNGQDFGFGYKLDDQVYGQQRELTMHFITPEYPFGPEETRMHSAGKDELRVILEPDERALSDLRLLIKTEKYTKRKQTTSLSAIEDQILRSKATQNVEREKELIERIRRAVGKADLVINAAGVTSSSQDAIARVTDGFQDLISRTYTQLSLLGGVAYSEQQVAAFANPNQSGMIDDSSLSMLAVPGDEVLSFLLQRDRLGEQVTVKTIVDAFQAKPYGWDLASIEVVIAWLVGNSKITVTVDGNVLKRTEVAAVLRNTQKHSHSVLAPQKLFDERKVATFRKFCTDFFDEATPPKDPLELARHGSEKLGAKLDELRALVSGSKYPFVEQLAAPIALLEQAVGKSDEWYLTEFILGDELLDAKENVIDPIQSFLGGGQKVIYDEAVVLLTSNTNNLGYLPPGSEADVRRLLDDPNAFRGNRMTQLKQAADALGAKVEDTLATHRRTVIQDIEGRKSEVLASAYYGNATEEAQQRVTRTIDQIITHLGSERQIALIREQGNGFEERTYPELLDQLASSARSTGGTDSPEPTPRQTVSVKTITVPGAHGVLENLDDVDRYLDALRGALLNTLNDGKRIAL				NA	NA	NA	NA	NA
D1-29_01876	3450			hypothetical protein	ATGGAAACCGCACCGCTGAAATCGTTCGCCACATGGGCTCGCACTGCACTCATCCGAGAGGTGTCGGCCCGCATCTCGGTCGTCCTGGCTTCGCAAGAGCTGCGCCTGGAGCAGCCTAACGCCGTCGCTGCGCTGGAGAAGGCCGTCAACGCTGCTGGCGGTGGTGACAAGGGCCGTGACGTAGTAGCAGACAAGGTTGCCTACACATGGTTCAACCGCATCATAGCGCTGCGGTTCATGGACGCCAATGGCTACACAGGCATCGGTGTCGTCTCGCCCGAACGGGGCCGCGAAGGAGGGCAGCCCGAGGTTCTTGCCGAAGCCAAGCGCGGGAACATCGACAGCGCGGTGGTTACGAACAAGCGCACGGCGGAGACCGTCACTAGTTTGCTCAACGGCATGCGCCGCAGTGACGACCCGCAGGGCGAGGCGTATGCGCTGTTGCTCGCGGAGTACTGCCGCCATTGGAACCGCTCAATGCCGTTCATGTTCGAGCGGGAGGGTGATTACACCGAACTGCTCATCCCCGCGAACCTGCTTGCCGACGATTCGGTCATGGCACGCGCCGTCCACGTGCTCACCGAGGATGTCTGCCAGGATGTCGAAGTCATCGGCTGGCTATACCAGTTCTACATCTTGGAACGTAAAGAAGAGGTATTTGCCGGTTTCAAGAAGAGCACGAAGGCCGGCGCGGCTGAGATCCCTGCTGCCACCCAGCTCTTCACGCCGCACTGGATAGTCCGCTACCTCGTCGAGAACTCACTCGGAAACCTCTGGCTGCTCAACCGGCCCACCTCAGGCCTGGCCGACCAAATGGATTACTACATCGCCCCGGTCGAGGAGACGGATTACCTGAAGATCTCCAGCCCCGAAGAGCTGAAGATTATCGACCCCGCATGCGGCTCTGGCCATATGCTCACTTATGCGTTCGACCTGCTCTACGCCATTTACGAGGAGGAAGGCTACGCGCCATCCGACATTCCTGGTCTGATCCTTGCCAACAACCTCTACGGCACCGAGATCGATCCCCGCGCGGGAGCATTGGCCGCTTTTGCACTCACCATGAAGGCCCGCGCCTGCCAGCGGACGTTCTTTAGCAAGCAGGTCCAGCCGAATATCTGCGTGCTTCAAGCCCTCTCATTCACACCAAGTGAGCTGGAAACGCTCGCTATCCCCCGTGAAGGTGAGGAAGTGTTCTGGAACCAGTTCCAGTATGCCGACACATTTGGATCGCTAATCCGACCTCAAGAGGATCTACTCAATCAGATGTGCGCGCACATCGGCATAAAGGATCTTGGTGATCAAGACCTGTGGATGCGCGACCTTATGGAGCGCGCCCAGAGAGTCGTGCATCAGGCGCAATATCTGTCGAAGCGATACCACGTGGTTGTAGCGAATCCACCTTATATGGGATCGAAGAATATGAGCGCTGGATTATCTGACTGGATCAGAGCTGAGTACCCGGACGTTAAGTCAGACTTATTCTCGGCTTTTTTCTACCGGTGCTTAGACTTGGTCCTTGAGCAAGGACAGCTCGGCTTCATGAGCCCCTTTGTTTGGATGTTCATTTCCTCCTACGAGAAGCTTCGACGACGGTTTGTGCAGGACCAGACCATCACTTCGTTGATTCAGCTCGAGTATTCAGGGTTTGAAGGTGCGACGGTTCCTGTCTGTGCCTTCACCCTGGAGAAAGGGAATAAGGAATACCGTGCAGCATTCGTACGACTTAGCGATTTCGTTGGGTCAGCCCAGCAGGCACCTCGGGCACTCGAGATAATCAAAGCTGGCATAGCAAACGAACGGGGCGTGACGAGCGATACGAGCACCATGTCGCGGTACTTTTACCGGGCTACAGCTAAGGACTTCAACTCAAGCCCGGCTTGCTCAATAGTCTATTGGTTGTCGGATGATGCAAAAAAGCTCCTTCAAAGTGCTCGGACGGTCGGAGATGTCTTCGAGGTAAAAGCTGGAATTTCAACAGGGGAGAACGAAAAATCTTTCCGCCACTGGCATGAAGTATCACTTAGCAGGACCTCTCTGTCCGGAACGAAAACTTCGGAATGGTATCCGCACAACAAGGGTGGTGCCTTTCGCAAATGGTACGGGAACCTTCAATACGTTCTCCGATATTCACCTGCTGCAATTGCAGACATGCGAACACGGCCTGGTTTTCGCCATGACGGCCGTGAATATTACTTCCGGCCACATGTTGGTTGGTCACAGATAACTTCCATTGACTCCAGTTTTCGTATGTACCCGGCCGGGATGACGTTCGGCTCTGGTGGACTGGGAATTTTCCATGCGGACGAATCGGCTCTGTTGAAAGTTTTGGCATATCTCAACTCGCCAATAGCCCGGGAACTCATTGGTGCGCTAAACCCGACCCTTAACGTCTCGCCGGGGGCGCTGGCGTCGCTCCCCCTGCCGGAGCTCGGCGAGGTTGACCTCGAGTTAGTCAGTCAATTGGTGGACAGTCAGCGAGCTCTCTGGGACGCAAACGAGTCCTCCTGGAACTTCCAAACGTATGAACTCGTCCGCGCGCGCCGCTCTGATTCCCCGCTGAAAGATGTCGCTGTTGAGGCAGTGGAGGAACGATCCCGTCTACTCCTAAAGGTGTCGAAGCTCGAAAATGATCTGTTCGCATCTAGTGGGTTTGGTTTCGCCGAGCCCGTTGCTAATCCCGGTAGCGGCGTTCGGGAAAGCTCAGATACGACGGTTCTGCAGACCATGCGTGATCTTGTGTCATACGCCGTGGGTTGCATGTTTGGTCGCTACAGCATTGATGAGCCTGGCCTGATTCTCGTGAATCAGGGCGAAACGCTTCAGGACTACCTCGCCAGAGTCCCTGTCTCAACGTTCCTCCCAGATAAGGACAACGTGATCCCGGTCGTCGATGGGGACTGGTTTGAAGACGACATCGTGGAGAGGTTCCGGCACTTCCTGCGCCTTGGGTTCGGGGACGAGCATTTCGAGGACAACCTGCGGTTCGTTGAAGATACGTTGGGGAAGGACATCCGGAAGTACTTTGTGCAGGACTTCTATAAGGATCATGTGCAGCGGTATAAGAAGCGGCCTATTTATTGGATGTTCTCGTCTGCGAAGGGCAGCTTCAGCGCGCTCATCTACATGCACCGATACACGCCTTCGACCGTCTCAACCGTCCTGAACGAGTACTTGAGGGAGTTCAAAGCAAAGCTGGATGCCAGTCGCCAGCACCACGAGCGCCTCGCTGCAGGCACAGGTGCACCACGCCAGCAGGCCGCCGCCCAGAAAGAGGTCGACCGTCTGCGCAAGGTGATGCTCGAACTCGACGAGTACGAGCACGACGTGCTGTACCCGCTGGCGACTCAACAGGTGCAGATCGACCTCGATGACGGTGTGAAGGCGAACTATCCGAAGCTCGGTGCTGCCTTGAAGAAGATCCCCGGACTAGAGGCCAGCGATGAGTGA	METAPLKSFATWARTALIREVSARISVVLASQELRLEQPNAVAALEKAVNAAGGGDKGRDVVADKVAYTWFNRIIALRFMDANGYTGIGVVSPERGREGGQPEVLAEAKRGNIDSAVVTNKRTAETVTSLLNGMRRSDDPQGEAYALLLAEYCRHWNRSMPFMFEREGDYTELLIPANLLADDSVMARAVHVLTEDVCQDVEVIGWLYQFYILERKEEVFAGFKKSTKAGAAEIPAATQLFTPHWIVRYLVENSLGNLWLLNRPTSGLADQMDYYIAPVEETDYLKISSPEELKIIDPACGSGHMLTYAFDLLYAIYEEEGYAPSDIPGLILANNLYGTEIDPRAGALAAFALTMKARACQRTFFSKQVQPNICVLQALSFTPSELETLAIPREGEEVFWNQFQYADTFGSLIRPQEDLLNQMCAHIGIKDLGDQDLWMRDLMERAQRVVHQAQYLSKRYHVVVANPPYMGSKNMSAGLSDWIRAEYPDVKSDLFSAFFYRCLDLVLEQGQLGFMSPFVWMFISSYEKLRRRFVQDQTITSLIQLEYSGFEGATVPVCAFTLEKGNKEYRAAFVRLSDFVGSAQQAPRALEIIKAGIANERGVTSDTSTMSRYFYRATAKDFNSSPACSIVYWLSDDAKKLLQSARTVGDVFEVKAGISTGENEKSFRHWHEVSLSRTSLSGTKTSEWYPHNKGGAFRKWYGNLQYVLRYSPAAIADMRTRPGFRHDGREYYFRPHVGWSQITSIDSSFRMYPAGMTFGSGGLGIFHADESALLKVLAYLNSPIARELIGALNPTLNVSPGALASLPLPELGEVDLELVSQLVDSQRALWDANESSWNFQTYELVRARRSDSPLKDVAVEAVEERSRLLLKVSKLENDLFASSGFGFAEPVANPGSGVRESSDTTVLQTMRDLVSYAVGCMFGRYSIDEPGLILVNQGETLQDYLARVPVSTFLPDKDNVIPVVDGDWFEDDIVERFRHFLRLGFGDEHFEDNLRFVEDTLGKDIRKYFVQDFYKDHVQRYKKRPIYWMFSSAKGSFSALIYMHRYTPSTVSTVLNEYLREFKAKLDASRQHHERLAAGTGAPRQQAAAQKEVDRLRKVMLELDEYEHDVLYPLATQQVQIDLDDGVKANYPKLGAALKKIPGLEASDE				NA	NA	NA	NA	NA
D1-29_01877	2496			hypothetical protein	ATGAGTGAGACATCCGCCGTCAGGCCCCATCTGGAGCGTCGCTTTGAGGTGCAGCGTGTGGTGTTCTGGCACGACCCCGATGGTGAGTACGCCGCTGACCTCGACACGCTCGGCCTGGAGGACGTGCAGACTTTGCGCGTCAATAACGACGAGTATGCGGTAAAGAACCGGCTGCTCCACCAGGAGCCCAAGTCGAAGTTCCTTGTCTATCGTTCGGGTGCTGTGCCGACGGGGATCGGCAATTGGCTGTTGGACCTGGAGCTTGCGTACGGAGTGTTCACAGCAGACCGGACCTCGCTAGTGCAGCAGGAACTCGGGCTCCCCGCCGACGATATTGGCGAAGTCGTGCTGGCGCATGAGAGCTTCTTTCGCGCGGCCAAGCGCATTCAAGACCTGAAGAAGCTGCTGGACGCCGACGATGACGCCCGGCTGCTGCAAGCCAAGATGTCAGCAATTCTGCTCGGTCAAAGCGAGCACAGCCTACTGGAGATCACCCGCACTCTGCTGATCGAGAACGCCGGCGGTGCGGACGCCAAGTACGGTGCCCTTGCCGAGCACGGCCTCGACGAGTTCTACTGGCAAGGCGTGGAGTCGATCTATGGCTACATGTCACCAAGCCCGAGCATCGCCGATTTCGTTCTGTGGGTTTTCCGGCAGGCCAACGCCGGATTCAAGTCAGAACGACCCGGCGGCTTGCGCAACATCCAGCTCGACTTCGGGAGCTTTCGCTACGACAGGCGTAGCCAGGAGGCATTGACAACGCTCGCGAAACGCGCAGCGCGAGATCTGGACTATGCCAGCACCATCGAGGACGCAAGCTTCCGCGATCTGTTGGGCAACGACCTTTTCGAGGAGACTGACCGCAAGATCATCAGCGATCTGGCACGCGCGGTCGCTGAGCGAACGGTCACAGGCCGCGAGGTTACAGAGGTAATCCGCAGCCGTCAGAGCAGCATCTGGGTCGACGGGTACCGGAAGCTATACACAGCGATCGGCTGCGCCTCGGAACTCCTGACCGTGCTTGGCACGCTTAACCTGTCGATGCAGTCGCTCGATGAGGGATTGGAGCGATACCGGGGTGCCTGGTTCCGCATCGATCAGCTCTACCGACAGTTCACATATGCTGCCCGCACAGCAGAGTTCCCCGGCCCGCTGGAGACCCTGCGTACCCAAGTGGAGAAGTTCTACGCCAACAAGTTTCTCTACGAGCTCGGTAACACCTGGCAACAGCAGGTCGATGGCATCGACCAGTGGCGTTCCACATTGCTCCGGCCCCAAACCTCGTTCTTCACCGACCACGTTGCACCCATCACGCGAGACGGCCGGCGCAAGGCCGTCGTCATCATCTCGGACGCCCTGCGGTACGAGATCGCTGACGAACTTGGCTCACGCATCCGCCAGGAAGACCGCTACGATGCGGACCTGAAAGCCATGCTCGGCGTGCTGCCCAGCTACACCCAACTGGGCATGGCTGCACTGCTGCCACACAGCACGATCGGACACTCCAAGGACGGGGATCCTGTTCTGGCCGATGGTCAGCGCACAGACGGCACCGTGAACCGCAGCAAGCTCCTCGACGCCGTTGACGGGAAAGCGATTCAAGCTGAGAACGTCTTTTCCCTGACCCGGGACGAGCTGCGGGAGTTGTACCAGCAACATCAGGTGCTGTACGTCTATCACAACCGCATCGACGCGACGGGTGACAAGGCCGGCACGGAACGTCAGGTCTTTGAGGCCGCCGAGGACACGCTTCGCGAACTGGTCGATCTTGTTAAGCGATTGACCAACGCGAACGCGACGAACATCCTCATCACGGCGGACCACGGCTTCCTTTTCCAGGACACGGCACTCGATGACGCCTTCTATCTATCGACACTGCCGCAAGGCGACGATATCAAGGTGATCAACCGCCGTTACGTCCTCGGTCACGGCTTGAAGGAAGTCCCCGCGTTCAAGACTTTCACGTCAGGCCAACTCGGCCTCGATGGAGACCTGGATGTGCAGATACCAAAGTCGATTCATCGGCTGAGGCTTCCAGGCGCAGGGTCGCGATTCGTCCACGGCGGTGCGGCCTTGCAGGAGATCGTCGTCCCAGTACTGGCGATCAACAAGAAGCGCAAGAGCGACGTGCGAACGGTCAACGTCAAGATCATGCCCGAGTCGGACAAGATCACGACAGGCCAGCTGGTCATCAAGTTGTTTCAGGCTGAGCCGGTGAGCGAGAAGGTTCGCCCCCTTGTGTTGCGCGCAGGGCTGTATGTCGGCGAGATCCTCATATCGAATCATCTCTCGCTCACGTTCGACCAGGACTCGACAGACCAGCGTGACCGCTACCAGAACGCGCACATGCTGCTGAGCCAGGACGCAAACGACTACAACAACCGCCCGGTCGAGTTCCGGCTTGAAGAACTCATCCCGGGCACCAATCAATGGCGCGGCTACGCCAAGGCGTTCTACACGCTAAAGCGATCGTTCGCCTCGGACTTCGATTTCTAA	MSETSAVRPHLERRFEVQRVVFWHDPDGEYAADLDTLGLEDVQTLRVNNDEYAVKNRLLHQEPKSKFLVYRSGAVPTGIGNWLLDLELAYGVFTADRTSLVQQELGLPADDIGEVVLAHESFFRAAKRIQDLKKLLDADDDARLLQAKMSAILLGQSEHSLLEITRTLLIENAGGADAKYGALAEHGLDEFYWQGVESIYGYMSPSPSIADFVLWVFRQANAGFKSERPGGLRNIQLDFGSFRYDRRSQEALTTLAKRAARDLDYASTIEDASFRDLLGNDLFEETDRKIISDLARAVAERTVTGREVTEVIRSRQSSIWVDGYRKLYTAIGCASELLTVLGTLNLSMQSLDEGLERYRGAWFRIDQLYRQFTYAARTAEFPGPLETLRTQVEKFYANKFLYELGNTWQQQVDGIDQWRSTLLRPQTSFFTDHVAPITRDGRRKAVVIISDALRYEIADELGSRIRQEDRYDADLKAMLGVLPSYTQLGMAALLPHSTIGHSKDGDPVLADGQRTDGTVNRSKLLDAVDGKAIQAENVFSLTRDELRELYQQHQVLYVYHNRIDATGDKAGTERQVFEAAEDTLRELVDLVKRLTNANATNILITADHGFLFQDTALDDAFYLSTLPQGDDIKVINRRYVLGHGLKEVPAFKTFTSGQLGLDGDLDVQIPKSIHRLRLPGAGSRFVHGGAALQEIVVPVLAINKKRKSDVRTVNVKIMPESDKITTGQLVIKLFQAEPVSEKVRPLVLRAGLYVGEILISNHLSLTFDQDSTDQRDRYQNAHMLLSQDANDYNNRPVEFRLEELIPGTNQWRGYAKAFYTLKRSFASDFDF				NA	NA	NA	NA	NA
D1-29_01878	2145			hypothetical protein	ATGAGCGAAGTGAGCGAGGTAGGTCCAGAGATAACCGCTGGGATCAACACATCAGCAGATGCCACCCCACTGCAGAGCGACCTGGACCGAAAGATCAACCAGCTCTTCCCCGGGGTTGTAGTCCGCAAGGACCTGGTGAAGGCGGTCAAGGGCAACGCCATTGTGCCCTCCTACGTGCTGGAGTACCTGCTCGGCCAATACGCGGCATCTGACGACGAAGCCACCATCCAGGCAGGCATCGACACGGTGCGCAAGATCCTCGCCGAACACTATGTGAACCGGAACGAGTCCGAGCTCGTGAAGTCCACGATTCGAGAGCGCGGGCGGCATCGCATCATCGATAAGGTTACGGTCGCGCTCAACGAGAAAGATGACGTCTACCAAGCCGAGTTCGCCAACCTCGGCATCAAGGGCGTACTCGTCGAACCTGCAACGATCAAGGCTCACCCGAAGCTGCTCGTCGGCGGTGTGTGGTGCATCTGCGACATCGAGTATTTCCACAGTGACGATGCCCGCATGGTGCCGTGGATATTGGGGTCGATCAAGCCCATCCAGTTGTCCAGGTTCGACTTTGAGTCCTATCTCGCGGCACGGGGCGAGTTCACAACCGGCGAGTGGATCGACCTGCTCGTGCAGTCAATAGGGTTCAATCCCGAACTTTTCGGGCACCGCGCCAAGCTCATCCAGCTCGTGCGGCTCATCCCGTTCGTCGAGCGCAACTACAACCTCGTTGAACTCGGCCCCAAAGGGACCGGCAAGTCACACATCTTCTCTGAGTTCTCACCCCACGGCATGCTCATCTCCGGTGGCGAGGTCACGGTCCCGAAGCTGTTCGTCAACAACTCCAACGGCCGCATCGGGCTGGTCGGCTACTGGGATGTAGTCGCGTTCGACGAGTTCGCGGGTAAGAAGAAGCGTACCGACAAGGCACTCGTCGACATCATGAAGAACTACATGGCGAACAAATCGTTTTCCCGCGGCGTCGAGACGCTCGGCGCGGAGGCGTCAATGGTGTTCGTCGGCAACACTTCGCACACCGTGCCCTACATGCTCAAACACTCCGACCTGTTCGACGAGCTTCCCGAAAGCTACCACGACTCGGCGTACCTTGACCGCCTGCACCACTACATCCCCGGGTGGGAGGTCGACACCATCCGCGGCGAGATGTTCTCCAACGGGTACGGGTTCGTTGTCGACTACATCGCCGAGGTGCTCAAGTCGATGCGTTCGGCAGACTACTCCGACCGCTACCAGTCGCACTTCACACTCTCATCGGACATTTCGACGCGAGACCGCGACGGCATCCACAAGACCTTCTCCGGCCTGATGAAAATCCTTTACCCGCATGGGGAAGCGACACGCGAAGAGATCGAAGAGATCCTGCAGTTCGCCATCGAGGGCCGCAAGCGGGTCAAAGACCAGATCCTCCGCATCGACTCAACGATGGCAAACGTAAAGTTCGGCTACCTCGACAAGGCCGGTACATGGCATTCAGTCTCTACGCTTGAAGAGGATGAGTACCCGGCGTACTACTACCGTGAGCGCCGCGTAAGCACAGACGCGGAGGAGGCAACGGGCGATCCAACTGGGCACGCCGCGGCTTCTGCGGAAGACGGTCAACCAATTGCGCCCTCGCCAGCCACCATAAAACCGCTGTTTGAGGGTCACCAGGAGTTCCAGGAGAACCAGCGTGGAATCTCCTTCGAGACTCTCTTGGTCCCGTACCTGCGCGGAGCCACGCAGATCACCATAACTGACCCTTACATCCGGCAGTTCCACCAGGCCCGTAATCTCATGGAACTGATCGAGTGCATCGCGGCCACCAAGGACGCGGCCGACGAAGTGAGTGTCCGGCTCGTTACTTCTGAGAACACCGAGGGACAAGACAAGCTCCGCAAGCAGTACGAACTACTGCTGAAGGTCAAGCAGGGAGCCTCTGTCGCCGGCATCAACGTCGACATCGTCTTCGACGGAGCTATCCATGATCGGTCCATCCTCACCGACACCGGATGGAGGATCCTGCTCGGCCGCGGGTTGGACATCTTTCAGTACATCACGGGCGATGCCTTCGAACTTGCCACTAAGCTTCAGGAATATCGGCAAGTCAAGGCCTTTGGCATAACTTACATCCGAGACGACGCGTGA	MSEVSEVGPEITAGINTSADATPLQSDLDRKINQLFPGVVVRKDLVKAVKGNAIVPSYVLEYLLGQYAASDDEATIQAGIDTVRKILAEHYVNRNESELVKSTIRERGRHRIIDKVTVALNEKDDVYQAEFANLGIKGVLVEPATIKAHPKLLVGGVWCICDIEYFHSDDARMVPWILGSIKPIQLSRFDFESYLAARGEFTTGEWIDLLVQSIGFNPELFGHRAKLIQLVRLIPFVERNYNLVELGPKGTGKSHIFSEFSPHGMLISGGEVTVPKLFVNNSNGRIGLVGYWDVVAFDEFAGKKKRTDKALVDIMKNYMANKSFSRGVETLGAEASMVFVGNTSHTVPYMLKHSDLFDELPESYHDSAYLDRLHHYIPGWEVDTIRGEMFSNGYGFVVDYIAEVLKSMRSADYSDRYQSHFTLSSDISTRDRDGIHKTFSGLMKILYPHGEATREEIEEILQFAIEGRKRVKDQILRIDSTMANVKFGYLDKAGTWHSVSTLEEDEYPAYYYRERRVSTDAEEATGDPTGHAAASAEDGQPIAPSPATIKPLFEGHQEFQENQRGISFETLLVPYLRGATQITITDPYIRQFHQARNLMELIECIAATKDAADEVSVRLVTSENTEGQDKLRKQYELLLKVKQGASVAGINVDIVFDGAIHDRSILTDTGWRILLGRGLDIFQYITGDAFELATKLQEYRQVKAFGITYIRDDA	PGPT0014315_5027	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
D1-29_01879	783			hypothetical protein	ATGGCGACCACGAAGAGCCCGGGTGACGGCGAAGAAGACAAAATCCTGGCGGACTTCAGAACAATGATCGAAAAGTTACCGCCGCTGCGTCCGACTCCGATTGATGACTGGAACCGAGATGACGAGGCCGCGGTCCGTGCCGTCGGCATCGCGTGGGGGTGGCTTATGCGAACCCTACGCACTGCCGAGGCCATCAGGCTCTTAGAACAGCGCGGATTCGGCGTCGAGTGCGCTCCGCTCCGACGCTCCGTCGTTGAACACGTCATCAGGCTCCACTGGGCCACCACCGTCGACACCCGCAGATTCGTCGAAGCAGCATTGAACAAGCGCAAACATAGCTTGGGCAACATCACACTTGCGGCAGAGGCCGGCACCCCTCTACCCGATGGCGCGCTGGATATCATCGAATTACTAAAGTCCGAAGCGGATCCCGGATCGGACAGCGTCTCCTTCAAAGACCTCAAGTCCTTGATGAACGACATCCCCGATTACCAGATTCTTTTCCAAATCTGGCTTACGGACACCCAAGAATCCCACGCAACGCTGACCCGTTCAGAAGCCTATGTCGAGTTCGACCCTGATGAGCCCGGAATGCATCTTCACATGGAACCAACCCCTCACAATCGCTTCGGCGCGATGCTGCCAAGCTTGATGCTGCTAGGCACCGAGGCCTTCGTGCATCTGGCCGGCATGGCAGACCAGTTGACGGAACCGCTTGCTGACATCCGGGATCGCGTAACGCAATTGGGAACTGCGCAAAACTCAGCCACCGGGCCTGGGTAA	MATTKSPGDGEEDKILADFRTMIEKLPPLRPTPIDDWNRDDEAAVRAVGIAWGWLMRTLRTAEAIRLLEQRGFGVECAPLRRSVVEHVIRLHWATTVDTRRFVEAALNKRKHSLGNITLAAEAGTPLPDGALDIIELLKSEADPGSDSVSFKDLKSLMNDIPDYQILFQIWLTDTQESHATLTRSEAYVEFDPDEPGMHLHMEPTPHNRFGAMLPSLMLLGTEAFVHLAGMADQLTEPLADIRDRVTQLGTAQNSATGPG				NA	NA	NA	NA	NA
D1-29_01880	546			hypothetical protein	ATGCTGCCGAGCCAGACGGACAGGCTTGACGCCTGGTACGAGTACTCGCGTGGAGACCGGACACTTGCAGCCGAGAAGCCCCAACAGCCGATCCCAGCGGGCCTCGCGGGCCTACTTGACTCGCTCAACGAACACCGCCCCTACGGTTGGCTTTCAACCAGCATTGACCTTCTCGATCTCGACGGACCACTCCGGCGAGAAATTGGGGTTCTACTCCTCACGTTGCGTCGAGAGAGCCGTATGGACGGACAGATGCACAGCAAGTTTGTCGGATTCGGCATTGCGGGACCGGGCAAGCGCCGGGGCACGCTGTTCCTCAGCTTCGCTCGGGGCGTCACCCGGGACGCTGCCGTCCGGGAGGCCAGCTTGCGCATGCGATTGCGGAAACACGCCCTACGTCTCGACTACCTAGCGGCGATTGGCGTTTGGGATTCCATTGAGACCTTTAACATCTTCGTGTTCAACGACGAACCATGGCAGCCGAATCCCGGCCTCGATGAGCTCGCGAGGCGCGCAGGATACGAGATAGCCGAACCAGCTACATAG	MLPSQTDRLDAWYEYSRGDRTLAAEKPQQPIPAGLAGLLDSLNEHRPYGWLSTSIDLLDLDGPLRREIGVLLLTLRRESRMDGQMHSKFVGFGIAGPGKRRGTLFLSFARGVTRDAAVREASLRMRLRKHALRLDYLAAIGVWDSIETFNIFVFNDEPWQPNPGLDELARRAGYEIAEPAT				NA	NA	NA	NA	NA
D1-29_01881	198			hypothetical protein	ATGAAGCACTGGATGGGCATCGAGGTGGGGCAGTACAAGTCCATCAAGTCCATCAACCCGGGTAAGCACTGGGATGAGGCTGAGCTGCAGCAGTACCGCAGCAAGCTGGCAGGATTGAAGGACGAGTTCGCTTCCAGACCTGAATGGCACGAGGCGATCATGGGCAATATCGACAGAGTATTGGAGCACATGAAGTGA	MKHWMGIEVGQYKSIKSINPGKHWDEAELQQYRSKLAGLKDEFASRPEWHEAIMGNIDRVLEHMK				NA	NA	NA	NA	NA
D1-29_01882	621			hypothetical protein	GTGATCGAGTTCATTGAGGTTCAGTCCAAGGAGTCTCTTGGAACAGTAGAGCTCAAGGACGGGAAGCTGGTCGGACCGATCCATCTTCAGTCCATGATCCAGGCGTGGCTGCGCCAGGAGAAGAGCCCGGAAGAGTTCATGGAGTTTTACGGCGGGGATGGCTGGTCCAACGGCTACATCTACTCCCAGGTCGCCAGCGGTGAGGCCAAGGCTGCCGCCGAGGAAGTTCCGGTCGAGGAGATGCGTGCCCGTATCCGTACCTTCGCGCAGAACGACGAGGAGCTCTCACCGGTGACGGTGGTTGAGAAGCTGCGGGACATCGTGGCTGAGGACGTGAAGGCCCATCCGGAGGTGGGTGCCGCCGGAGCCGAAGTCATGCGGGAGATGGACAACTACGTCGAGCTGATCACTGAGGCGGAGACCGACGAGGACGTCAGGGACATCATCGAGGACATCCTCGAAGAGGTGCCTGTCGCGGATTACGATGGCGCTGAGGATATCGTGGATTTCCTGGAGGCTTTCCTCGAAGGCGGCGAGAAGCCCGTCAAGGAAGAGAAGCCTGCCAAGGAAGAGCCCGCCAAGACGCTCCGAGTTACGTTTCCGCGCCCTATCAAGAAGTAG	MIEFIEVQSKESLGTVELKDGKLVGPIHLQSMIQAWLRQEKSPEEFMEFYGGDGWSNGYIYSQVASGEAKAAAEEVPVEEMRARIRTFAQNDEELSPVTVVEKLRDIVAEDVKAHPEVGAAGAEVMREMDNYVELITEAETDEDVRDIIEDILEEVPVADYDGAEDIVDFLEAFLEGGEKPVKEEKPAKEEPAKTLRVTFPRPIKK				NA	NA	NA	NA	NA
D1-29_01883	1833			hypothetical protein	ATGTCGATCGCTACAGCGCTGCGACAGATCCAGGAGCGTAAGCTCATCCTTCCGGCGATCCAGCGAGAGTATGTCTGGAAACCTTCCCAGATCATCCGCGTGTTCGACTCCATCATGCGCGGCTACCCGGTTGGGAGCTTCCTCTCGTGGAGGGTGCGTCCGGAGACGGTCAGCAAGTTCAAGTTCTACGGATTCATGAAGGACTACAGCGCCTTCGATAACCGGCACAACCCGGTGATTGACATACCCACCGACCGTGAGGTCGTCGCCGTCCTTGACGGTCAGCAGAGATTGACCTCACTCAACATCGGACTTCGTGGTACCTACGCTTATAAGGTCCATGGCGGCTGGTCGAACAAGCCATGGTCCTACCCCGAGCGGCGTCTCTACCTGAACCTTCTGGGAGAAGCCCCCGAGAATGAGTTCGGCCTCAAGTACCACTTCCAATTCCTGACCAAGGACGACCTCGACGCAGCGGTGGCCGACGAGAGCAAGTCGTGGCTCCCGGTGTCCGAGATCTTCGGCGCAGCCGAACCAGCAGTCATGATGCGGATTCCTGCGAAGTACGGCGTCGGGAACAACGAGGCAGCAGTCGATCTCGCCGGGAAGCTCTGGCAGGAGATCCACCACAGCGCCAGCCTCCATTTCTATGAAGAAGACGTGCAGGACATCGAACGTGTCCTCGACATCTTCGTGCGAGTCAACTCCGGCGGCACCGTCCTGTCCTACAGCGACCTGCTCCTGTCCATCGCAACAGCGCAATGGGAGGGCGATGCTCGTGCCGCTGTCCACGGCCTGGTGGACTCCCTCAACCAGACAGGCAACGGCTTCAACTTCTCCCGGGACACGATCCTGAAGTCAGGGCTGGTGCTAGCGGACGTCGGCGACATCGGATTCAAGGTCAAGAACTTCACTACAGCCAATATGGCGAAGCTCGAGGCCGGCTGGGATGTCATGAGTACATCCCTTCACGTCGCGGTCGGGCTTCTCAGCGATTTCGGGCTGTCAGGCGGAGCACTCACCGCGGACAGCATCCTTATCCCGGTCGCCTGCTACGTGCACCGCCGGAGGCTCGGGCACGCATACCGCGAGTCGCCTACGTCCCGCGAGGATCGTGAAGCCCTTCGGTCATGGGTTCTGCGGTCCCTCATCGTGCGCGGTGTCTGGGGCTCTGGCCTGGACACTTTGCTCCGCGACCTGCGCGAGGTCATCAAGTCCCAGGGTAGCTCGGCGTTCCCGGTCGCGGCGATCGAACAGGCGATGGCACTTCGCGGCAAGTCGCTCGCGGTCACAGATGCCCTGGTCGACGACATCTTGAGCCTGGAGTACGGCAAAGCTCGAACCTTTGCAGTGCTTGCAGCCCTGTTCCCGCACGTCGACACGCGCAACATGTTCCACGTCGACCACGTGTTCCCAGCCGCACGGTTCGACAAGAAGGTACTGGCGAGCCACAGGAACGCCGACGGCACACCTCGATTCACCGCCGATTCTATCGACGAGCTCGTCTCGCTACGTGACCGCCTGCCGAACCTGCAACTGCTCCCAGGGCTCGAAAACATTGGCAAGTCTGACAAGGCACCGGACGACTGGCTTGCGGCGGAGTTTCCATCCCCAGATAACCGCAGCGCGTTCCTCGCACGGCATGCTCTGCCGTCGCCGCTACCGCACTCCGTGGACGAGTTCACCGCGTTCTTCGAGCAACGGCGCGCGAATCTCACGGCTCGTATGCTCGACATGTTCAAGATCCGTAGTCCGGAGCCAGTCGGGGCTTACACGGGCCCTCCGCCCGCTGACCTGGATGAGGAACTCGCTGAAGGCGACTACGAGGACTGA	MSIATALRQIQERKLILPAIQREYVWKPSQIIRVFDSIMRGYPVGSFLSWRVRPETVSKFKFYGFMKDYSAFDNRHNPVIDIPTDREVVAVLDGQQRLTSLNIGLRGTYAYKVHGGWSNKPWSYPERRLYLNLLGEAPENEFGLKYHFQFLTKDDLDAAVADESKSWLPVSEIFGAAEPAVMMRIPAKYGVGNNEAAVDLAGKLWQEIHHSASLHFYEEDVQDIERVLDIFVRVNSGGTVLSYSDLLLSIATAQWEGDARAAVHGLVDSLNQTGNGFNFSRDTILKSGLVLADVGDIGFKVKNFTTANMAKLEAGWDVMSTSLHVAVGLLSDFGLSGGALTADSILIPVACYVHRRRLGHAYRESPTSREDREALRSWVLRSLIVRGVWGSGLDTLLRDLREVIKSQGSSAFPVAAIEQAMALRGKSLAVTDALVDDILSLEYGKARTFAVLAALFPHVDTRNMFHVDHVFPAARFDKKVLASHRNADGTPRFTADSIDELVSLRDRLPNLQLLPGLENIGKSDKAPDDWLAAEFPSPDNRSAFLARHALPSPLPHSVDEFTAFFEQRRANLTARMLDMFKIRSPEPVGAYTGPPPADLDEELAEGDYED				NA	NA	NA	NA	NA
D1-29_01884	183			hypothetical protein	ATGACCATTGTTCTCCATGTGAAGTCCAATACTGGCCTCTCCATTTGGAACGCGGAAGTCGACTTCAATGACTATGGTCACCTAACGGGTACCTACTGGCTGAACACCGAAAATAGTAAATCTGCGGTCCCCAAGCATTTTGCCGATTTAGTTCAAGCAGAAATTAAGCAACGCATCCGTTAA	MTIVLHVKSNTGLSIWNAEVDFNDYGHLTGTYWLNTENSKSAVPKHFADLVQAEIKQRIR				NA	NA	NA	NA	NA
D1-29_01885	249			hypothetical protein	ATGTTCGCCCGGATCCAAGCGGAAGAGAGCCGACCGATTGATGACCCGGCTCCCATCAGAGAGTTCCCGAAGTATGGCCGGCCCATGGTCTATGTGAGCGGCATCTATGGCAAAGCTGTGGGCTGGACCCGGAACTATGGCTTGATTGAATGGCTCGACTCATCCGGCAAATACCACGTGGGTTGGGCGCATTCGTCCAGCATCAAGCGGGTGAAGCCTGAAGAGTGGAAGGGCGGCGGCGGGCTGTAG	MFARIQAEESRPIDDPAPIREFPKYGRPMVYVSGIYGKAVGWTRNYGLIEWLDSSGKYHVGWAHSSSIKRVKPEEWKGGGGL				NA	NA	NA	NA	NA
D1-29_01886	252			hypothetical protein	GTGACCGAAGAACCCAAGAAGCACCGATTCCTGACCATCGAGCAGGCAGCCGAGGAACTCAACGTGTCCCACAGCCAGATCCGGGCACTGCTGAAGATAGGTGAGCTTCGCGCCATTCAGGTCGGCGGCAGGGGCATGTGGCGTATCGGCGTCGAGGACATGGAGGACTACATCGCCGAGGCGTACCGGCGCACTGCCGAACGGATCGCCGCCGGCGAGATCGTTGACGACGGGGATCAGGACAGCGAATAG	MTEEPKKHRFLTIEQAAEELNVSHSQIRALLKIGELRAIQVGGRGMWRIGVEDMEDYIAEAYRRTAERIAAGEIVDDGDQDSE				NA	NA	NA	NA	NA
D1-29_01887	285			hypothetical protein	ATGACGGCACCAACGGTGGAGGCGGCGATCCATGAGCTGATGGATTTCTGTTGGAATGTTGTCTACGACCTGCTGGAAGTGCGGGGCCTGCTCGGTGACGGCTTGTTCGTCGAGGAGTACACCGGAATCCACTCCTGGGTGGAGGAGTGCACCCGCTATACCGTGGTGCACTCCCGGACAGTTGCTGTCTTGTTTGTGGACACGCGGCCGGTGGACGCCATCGTGTTCCACCACGACCTCCTAGGCGCAGACGACCCAAAAAGCTACTTCAGCGTGCCTCAGTAA	MTAPTVEAAIHELMDFCWNVVYDLLEVRGLLGDGLFVEEYTGIHSWVEECTRYTVVHSRTVAVLFVDTRPVDAIVFHHDLLGADDPKSYFSVPQ				NA	NA	NA	NA	NA
D1-29_01888	648			hypothetical protein	ATGACCCAGACCAAGCGCACCGCGCCCGATCCTGAGTGGGTGCTGATGTACCGGCAAGGCATACCCACGCCGAAAATCGCAGCGGTCGCCGGCGTCGCTGAAACCACGGTCAGGTACCACCTGGCCATTGCCGCCAAGCTGGATACCCGCATCAGGGCTGAGCATCAGGCGGCGCTTCCCGCCGCACTCCCGCGTCTGACAGCAGCAGGCCGGCGGAATCTGGAGGACATCATCGCCTTCTACAAGACCGAAGGCCGGTTGCCGATCTTCAGCCGCTCGGCCCGCGAAAAGGCACTGGCGGTCTGGCTGCATCGACGCCGTAAGGAAGCAGCGCAGGGCACCCTCTCCCCTGCCTACGCTGACGCCCTGGACATGGTCCCTGACTGGCGGAAACCATCGACGAAACAGGCTGACGACGAAGCGCGCTGGAAACAGCGCCTTACTGAGGTCGCTGAGTACCGGGGAGCCGGCAACGATTGGCCCCGGCACAACAAAACCAACGATCCGTTAGAACGAATGCTTGGCGTATGGCTGCATGTCCAACGCATCAACGACCGCGCCGGCAAGCTTGATCCGGCGAAAAGGACCCAGCTGGATGCTGTGATCCCCGGATGGCGGCAGGGAAGGCAGAAGGCAGCAAAGAGGTGA	MTQTKRTAPDPEWVLMYRQGIPTPKIAAVAGVAETTVRYHLAIAAKLDTRIRAEHQAALPAALPRLTAAGRRNLEDIIAFYKTEGRLPIFSRSAREKALAVWLHRRRKEAAQGTLSPAYADALDMVPDWRKPSTKQADDEARWKQRLTEVAEYRGAGNDWPRHNKTNDPLERMLGVWLHVQRINDRAGKLDPAKRTQLDAVIPGWRQGRQKAAKR				NA	NA	NA	NA	NA
D1-29_01889	168			hypothetical protein	GTGAATGCAAGTCCGGCCTTCGGTGTTATTGGTGCTGTGTACGCGATCTTTACGGTCGTGCTGGCCGGACTGGCGGTATACGCCCTGGTCCTCGTCATCGTGTTCCTTCGGCTGCGGATCGCTGAGCTGAAGCAGGCTGGACGGACCAAGGACGACCCCCTGCGGTGA	MNASPAFGVIGAVYAIFTVVLAGLAVYALVLVIVFLRLRIAELKQAGRTKDDPLR				NA	NA	NA	NA	NA
D1-29_01890	2121			hypothetical protein	GTGGAGACTTTTAAGCGGACGCCGCTTCAGCTGTTCAACCTGCCACAGCACTTCGTGATTCCGCTGTTCCAGCGCCCCTACGTCTGGAAAGAGGATGAGCAGTGGGAGCCACTGTGGAAAGACATTCGGCGCGTTGCAGAGCTGCGCATGAGCGAGCCCCACCTGGCACCACAACACTTCCTGGGAGCCGTCGTTCTCCAGGCACAGGAAGCCGAGAGCGCACGGCTCACCACATGGAATGTCATCGACGGCCAGCAGCGACTAACGACGCTTCAGCTGCTCGCCGACGCGACGTGCGCCATCTTCGCCCAGGCAGGGCTTTCGAAGCACGCCAGCCAGTTGGAAGGCCTGACGCATAACTCCGAGAGCTTCATCGAGGAAGATGAAAGCCCGCTCAAGGTTCTGCACCTCAACAATGATCACGACGCCTTCCTGGAAGTCATGACAGCGGAGCCACCGATCGACCACTCTGACCTCAAGCACCATGAATCCCGGATCGTCCATGCGCATCGGTATTTCACGACAGCAGTCACCCAGTGGCTCGGGAACCATGGCACAGACGAGTTTGCGGCGAAGGCCAAAGAACTCGCTCGCGTCCTGCTCGATGACCTGCAGCTGGTGACCATCGAGCTCAAAGCGTCCGAGAACTCGCAGGAGATCTTCGAGACGCTCAACGCCCGCGGGACTCCCCTGACGGCGGCGGATCTGATCCGGAACTTTGTGTTCCAGCGGCTTGAAGCTGAAGGCGGAGACACCAAGAAGGCCTACCGCGAGGACTGGCCCTTCGAGGCCAGGTTCTGGACGAAGGAGGTCAGCGTCGGTCGCTACCTCGTGAGCCGAAGCTCGCTCTTCTTCAACCAGTGGTTGATCTCTCGTACAGGTGAGGAGATCAGCCCGCAGTCAACGTTCACCAGATTCAAGTCGTACGTCGAGCACACAGCCGGGCACAAGATGGTTGACCTGCTCGCCGTGATCAAGCAGCAAGCTGCGCTATATGAGTCGTGGACTGAAGCCTCGCTCAGGCCTGACGGCAATCTCGGCGCTGTCGAGATGGCTTTCCACCGCATGAATGCCGCTGGCATAGAGCTTCTTAAGCCACTCATGCTCTGGCTGTACGAACCCGGCAGGGATCTTCCACAGCACGTTCTCGACGCCGTGATCCGTGTCGCAGAGAGCTGGGTCATCCGTCGGCAACTGCTTCGCCTCACGGGCTCCGATCTCGGCCGCATCGTCGCCGATGTTATCCACGCCAACTCCGATGTCGAAGCCAGCGAACTGGTCGAGCGCGTCACCGGGTACCTCGCCCGTCTCAATGTCTCCAGCACGTATTGGCCTGGGGACGACGAGATCAGGGTGGCGCTCAAGGATGAGCCCGTCTACCGCCGCTACCCACGCCCTCGCCTGCGCATGTTCCTGGAGGCGATCGAGAACCACTTCCGCGCCGAAACCAAGCAGGCACAAGTCGTGCGATCCGGGCTTCCTATCGAGCACATCCTTCCGCAGAAGTGGCAGGACAACTGGCCACTGGACACACCTGAAGAACAGCAGGACCGTCAAGCTCATGTGCACCGCCTCGGCAACCTGACACTCCTGACCTCTCCCCTCAACTCGAAGGTCTCCAATGGCCCGTGGCCGGCCAAACGCCACGCGATGCTCAAGCACAACACGATCAGTCTGACCGGACGCGTGGTCGCGGACACCGAAGGAGAGGTGTGGCGTGAATCGCTCATTGACCACCGGACAGAGGTCCTGGTCGAAACGCTTCTCAGGGTGTGGCCTGTCCCCGACGGACACAAAGGTCAGGTAGTCGACCCCCAGGCCAAGGCGGAAGATTGGGTCCAGCTCAAGCACCTGATTGCTGCTGGTCTCCTTTCCCCGGGCGACAAGCTCATCGCCACGCACCGCGACTTCAAGGGCGTCGAAGCGCTAGTCAGATCCGACGGATCGATCGAGCTTGATGGCAAGCGTTTCACCGCCCCGTCATCGGCCGGCCACCACCTGCGCAAGAAGGCCACGAACGGCTGGTACTTCTGGGCTGTCGCGGACGGGCGTCGGCTGCGGGACGTTCGGGCGCAATTCCAGAGCATGTCAACTTCAATACCGGCCGACGCAGAGTACTGA	METFKRTPLQLFNLPQHFVIPLFQRPYVWKEDEQWEPLWKDIRRVAELRMSEPHLAPQHFLGAVVLQAQEAESARLTTWNVIDGQQRLTTLQLLADATCAIFAQAGLSKHASQLEGLTHNSESFIEEDESPLKVLHLNNDHDAFLEVMTAEPPIDHSDLKHHESRIVHAHRYFTTAVTQWLGNHGTDEFAAKAKELARVLLDDLQLVTIELKASENSQEIFETLNARGTPLTAADLIRNFVFQRLEAEGGDTKKAYREDWPFEARFWTKEVSVGRYLVSRSSLFFNQWLISRTGEEISPQSTFTRFKSYVEHTAGHKMVDLLAVIKQQAALYESWTEASLRPDGNLGAVEMAFHRMNAAGIELLKPLMLWLYEPGRDLPQHVLDAVIRVAESWVIRRQLLRLTGSDLGRIVADVIHANSDVEASELVERVTGYLARLNVSSTYWPGDDEIRVALKDEPVYRRYPRPRLRMFLEAIENHFRAETKQAQVVRSGLPIEHILPQKWQDNWPLDTPEEQQDRQAHVHRLGNLTLLTSPLNSKVSNGPWPAKRHAMLKHNTISLTGRVVADTEGEVWRESLIDHRTEVLVETLLRVWPVPDGHKGQVVDPQAKAEDWVQLKHLIAAGLLSPGDKLIATHRDFKGVEALVRSDGSIELDGKRFTAPSSAGHHLRKKATNGWYFWAVADGRRLRDVRAQFQSMSTSIPADAEY				NA	NA	NA	NA	NA
D1-29_01891	288			hypothetical protein	ATGATTCTGGCAGCGGTGGATCCTGGGATCACCCCTAATGCGAACTTTCCCTTTCTTGAATCCCTTAAGCAGATCGGCGGAGGGATCCTCGTCGGCGCTTTCATTGTCATCGCCATCGTGGCGATCATCGGGGCCGCGATGCTCTTGGCCGGCAAGCTGAGTCAATCGTCGCGCCTCGCCTCAGGCGGTGGCTCCATCTTGCTGTGGACAGGCCCGGTGGCCGCGATCCTTGGCGGCATCAACGGCTACATTCTCTGGTCCCAGAGTGCGTTCCCGCTCGGGTTCTAG	MILAAVDPGITPNANFPFLESLKQIGGGILVGAFIVIAIVAIIGAAMLLAGKLSQSSRLASGGGSILLWTGPVAAILGGINGYILWSQSAFPLGF	PGPT0025410_672	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-TRB_SECRETION_SYSTEM,PGPT0025410-trbC-K20528	NA	NA
D1-29_01892	1419			hypothetical protein	ATGCCAGTTCAATGTGACCTCAATGGCTGGTGGCCGCCCGGATGCGGACTCGTCTCGCAGGCCAACGATGGTGTTCAGGGCGCTATCACCTCCCTCTTCGCGAACATTCTTCAGAACATTGCGTCATGGATGTGGGCCTTCATCACAGGTGCTTTCAGTGCGTCGGAGATCGACGATTCGCAGTGGACGTCTATCCGGGGCCTGACTAACTGGTGGGTCATTGTGATGATGACCCCTTTGGTCGTCGCGATGATCCTCCAACTACTTTCGGGTCTGATTAGCCAACAACCGCGGCGTATAGTCAGGGCGTTGGTTGGTGGTGCAGCTGCGATACCCATGGTGGCCAGCGCCGTTTACCTGGTTCGTCAGCTCACAAGGGTCAGTGACTCCGCGTCGACGGCGCTTCTCGACTCGATGGGAACGGATCCCTATGTCGTGTTCATGCGGCTCTTTGGATTCGAGCGAGCGCCTGCCGGCTCCGACAGAGAGTGGAATGTCATCTCATTCGCCCCTGGGACAGCTGGGGGCGCCGCAGGAGGGGTGATTGTCACTGCGATGGCCGTCATCGTCGTGTGGATATTGGCCTTCATTCTCATGTGCTCCATGATCTTCCGATCGTTCGCACTCATTGTGCTGGCCGCCGTCGCGCCAGTCGCCTTAATGCTCATGCCGTGGGAGAAAACGAAGACATGGGCAAGGCGGTGGTGTGAGATTGCCGTTGCCCTGTTGCTCGCGAAACCACTCGCCGCGACTGTGCTGGCAGTAGCAATCAAACTCTTTGCGAATTCGACGTCGTTCGCCGGACTCGCTGCCGGCACTGTCGGAATGGTGCTGGCTTGTGGCGCACCGCTGATGGCCCTGAGGCTCGTCAGCTTTGCAGGCGGCGAGTTAGCGGCAGCGGCGCAAACTGCCGGCGGCGGGCACGTCCTATCACGGAGCAGTAGTGTTGCCGCCCGGCAGATAAGCCGCCAGACAGGCGGCCGGCTTACCCTCGCCTCAATGATTGGGCGCTCGTCAATGACTCGGCCGATCCAATCGAGCCGGGCACAGTTCCCAACGCGAGCGCTGCCGGCCGGCATGTCGGTGCCAGTGTCTTCGAAGGTTCCGACGCCGTCGTTACGGTCTGGCGGACCCGCTCCCACTTTCGACGACGTGGGTCCAAGTTCCCGCACGCTCTCTGCCCAGTCCCGGGAGGCCCCTGGTTCCGGCCGTCAGTCCGCTGGTAGCCACGCCCGGTCCGCATCAAGATCACCCACAGCGGTGAGCCTAGGGAACGCGGCCCTTGATACCGAGCGGCCGCAGCCATCTCATGTTCCCGACCGCGGGAATCCGGTGCTGAACCTGCCGGCGACGCCACCGCCTCCAGTCCACCCCCAACCAAAAACCGTACCTCCATCAGGTGATAAATCCGATGTCTGA	MPVQCDLNGWWPPGCGLVSQANDGVQGAITSLFANILQNIASWMWAFITGAFSASEIDDSQWTSIRGLTNWWVIVMMTPLVVAMILQLLSGLISQQPRRIVRALVGGAAAIPMVASAVYLVRQLTRVSDSASTALLDSMGTDPYVVFMRLFGFERAPAGSDREWNVISFAPGTAGGAAGGVIVTAMAVIVVWILAFILMCSMIFRSFALIVLAAVAPVALMLMPWEKTKTWARRWCEIAVALLLAKPLAATVLAVAIKLFANSTSFAGLAAGTVGMVLACGAPLMALRLVSFAGGELAAAAQTAGGGHVLSRSSSVAARQISRQTGGRLTLASMIGRSSMTRPIQSSRAQFPTRALPAGMSVPVSSKVPTPSLRSGGPAPTFDDVGPSSRTLSAQSREAPGSGRQSAGSHARSASRSPTAVSLGNAALDTERPQPSHVPDRGNPVLNLPATPPPPVHPQPKTVPPSGDKSDV				NA	NA	NA	NA	NA
D1-29_01893	1512			hypothetical protein	ATGTCTGAAAGATCACGGACTCTCGAAGCAGTCAAGTTTCCCCGGTATGAACGTCGCGGTCTGTTCATGGGATTGAAGTGGTACCAATTGCTGCTGCTCGCGGCCGGCGTTTTTACTGGGAGTGTGGCCTCTGCCACCGGTGGACTTAGCGCCCTGTTCACCTCAGGACCCATGTGGCTGTCGCTGATGCTGCTCGGTCTCCTGCAGTATTCGCGGATCCCTTATCCGGTCTGGGCCACGCAGATCATCGTGTTTTTCTACCGCTCTGCAATCAGGCAGACCCTCTTCCTGGCTCGGCCTGAAAGCGCAGTTCTCGCTGGGCGGCTCGTACTTCCTGGCGGCCTCGGGAATCTCGAGTTCCGTCGTGCGGCTAATGGCGAGTGCTTCATTGTGGATCCCAAGGGCAGGGAAGCGATAGCGGTGCTGCGCTGCACCACAAGGTCCTTCGCCCTCCTCGACGCCGATGACAAGGCCTGGGCCGTACAGGCCTGGTCGCGCGTGCAGGCTGGAATGGCCCAGCGGTCAAGCATCGCGAGAATCGCAGTGCAGGACTACACCGTTCCCTACCCTTCAACGGCCCTCCGTGACTTCTACGACCGTAGGATGCCAGGAAAGTCCCGCCCCGCGAGTGGGCGGACGTGGGGTGAACGGGCGTATGAGGACCTGATGGCCGCCGCCGGTTCCACCATGAGCCACGACCTTTTGGTCGCAGTTGTGCTGGACACGGCAAAGGCCCGACGGCGGATCAAGGAGTCGGGTGGCGGCCTGGCCGGTGTCGAGCGTGTGCTCCGACTGGAAGTCGAGGCCATGAGCACCGCCTTGGGAACGCACAGCGTGAAGGTGGAGGAGTGGCTGCCTGAAGACGGCATCCTCGACGTCGTTCACTGCGCATTCGATCCAGCTGCAGTGGCAGCGCCGCGCAGTGACGCGAGGACAGAACTCCCGGCCGCCCTCGCAGATCGCCAACCCGACGTCGATCCCCAACCGCGGGCTGTGGCGGCGGGCCCCATGGCGGTCGAGGAACACTGGACGTATGTTCGCACCGACTCTGGTTTTCATCAGACGTTCTGGATCGCGGAGTGGCCGAGGCAAAAGGTACTCCCCGGATTCCTCCATCCGCTGATTTATGTGGGCGAGTTCCGCCACACCGTTACCCAAGTGATCCGAACCGTTCCCACGGTGGAGGCTTTGAGGGACATCCGTTCCGCCCAGGAGGCCCATGAAACTCGACGACGGATCAACACTCGCTTTGACAGGCCGCTCACCCGCGAGCAAAAAGCCGAGGAAGAAGAGGTGGCCCAAAGAGAGGAGGAGATCGTCGCCGGACACGGTGATGTCCGCCCCGCTGCTTACGTGACCATTTCGGCCGCCACGCTAGACGATCTTGCCCGCCACAGGCAGGAACTGGAATCAGCGGCTGCAGGAGCTTTCGTTGAGCTGCGCCTGCTGGCTGGACAGCAGTGGGCGGCCTACGTAGCTGGTGCACTTCCCTTTGGAAGAGGATTGCGATGA	MSERSRTLEAVKFPRYERRGLFMGLKWYQLLLLAAGVFTGSVASATGGLSALFTSGPMWLSLMLLGLLQYSRIPYPVWATQIIVFFYRSAIRQTLFLARPESAVLAGRLVLPGGLGNLEFRRAANGECFIVDPKGREAIAVLRCTTRSFALLDADDKAWAVQAWSRVQAGMAQRSSIARIAVQDYTVPYPSTALRDFYDRRMPGKSRPASGRTWGERAYEDLMAAAGSTMSHDLLVAVVLDTAKARRRIKESGGGLAGVERVLRLEVEAMSTALGTHSVKVEEWLPEDGILDVVHCAFDPAAVAAPRSDARTELPAALADRQPDVDPQPRAVAAGPMAVEEHWTYVRTDSGFHQTFWIAEWPRQKVLPGFLHPLIYVGEFRHTVTQVIRTVPTVEALRDIRSAQEAHETRRRINTRFDRPLTREQKAEEEEVAQREEEIVAGHGDVRPAAYVTISAATLDDLARHRQELESAAAGAFVELRLLAGQQWAAYVAGALPFGRGLR				NA	NA	NA	NA	NA
D1-29_01894	1215			hypothetical protein	ATGACGTTTGCGGCCGCTTACCCCTTCATCACTGAATCAGGGCTGGGCCACGAAGGCACGTATATCGGCACTGACGTCTTCGGCTCCGGCGCATTCTCTTATGATCCGTGGATTCTCTATGACAAGGGCGTGATCAGTGGCCCCTCGATTGTTGTCATTGGGACTGTGGGCACAGGTAAATCCATGTGCGGAAAGTCGCTCGTGGCCCGATCGATCACGCTAGGTCGTAAGGCTGCTGTCGCATCTGACCCCAAAGGCGAGTGGGTCGCCGTCGCCAAAGCCGTTGGCGGCAAAGTTATCTCGGTGGGACCAGGACGCTCCGCACGGGTCAACCCTCTTGATGCCGGACCCAGACCTAGCGCCCTGAATGAAAGTCAGTGGCAGGCTGTGGTGCGTCAACGGCGCCGGCATCTGCTGGTTGCCTTAGTTTCCCTGATGCGGCAGGGCACGCCGCTGCGACCAGTTGAGCACACCGCCCTGGACATGGCGCTGATGGAGACTGTCGCCCAGAATTCGAATCCCACGCTGCCCATGGTCCTGGACCACCTCTTGAACCCGTCTAAGGAGACGATAGGGCTTGTCGGCAAAGACGGCGGCCTGGCTGTCAGCCACTCATTACGGCGCACGGTGTCGGGCGACTTGGAGGGCATGTTTGACGCTCCCTCGACCGTAGCCTTCGATGCAGACGCCCCAATGATGGTGATGGATACGTCTGCCCTGATAGGTGCTTCCGAACAGGCGCTATCCCTCGCAGCGGCGTGCGGCGCTACTTGGCTGGAGGCGGCGATCACCAACCCCGACGGCGGCAAGCGGCTCGTGGTCTACGACGAAGGTTGGCGAATGCTGGCCGACCCTTACATGCTGGCCAAAATGAGCGAGCAATGGCGACTCGCACGCACTTACGGGATCGCGAACCTGCTCATTATGCACAAGGTGGCTGACCTCAACGAGATTGGCGACAGCACCAGCGGTCACCGGCAAAAGGCCCTTGGCCTGCTTACCGAGGCAGACACCCGGATCATCTACCGGCAAAAACATGACGCCATGCGCCTGACCAAAGAAGCGCTGGGACTAACCGAGGCTGAATGCGAGCACGTGGAGAACCTCCCTAAGGGCGTTGGACTTTGGAAGGTCGGTAACCGTTCCTTCATCGTCGCGAACAGGGTCACCACTGACGAGCTGGAGGTCTTCGGCACTGACGATCGGATGATTTGA	MTFAAAYPFITESGLGHEGTYIGTDVFGSGAFSYDPWILYDKGVISGPSIVVIGTVGTGKSMCGKSLVARSITLGRKAAVASDPKGEWVAVAKAVGGKVISVGPGRSARVNPLDAGPRPSALNESQWQAVVRQRRRHLLVALVSLMRQGTPLRPVEHTALDMALMETVAQNSNPTLPMVLDHLLNPSKETIGLVGKDGGLAVSHSLRRTVSGDLEGMFDAPSTVAFDADAPMMVMDTSALIGASEQALSLAAACGATWLEAAITNPDGGKRLVVYDEGWRMLADPYMLAKMSEQWRLARTYGIANLLIMHKVADLNEIGDSTSGHRQKALGLLTEADTRIIYRQKHDAMRLTKEALGLTEAECEHVENLPKGVGLWKVGNRSFIVANRVTTDELEVFGTDDRMI				NA	NA	NA	NA	NA
D1-29_01895	1782			hypothetical protein	TTGGTGACCGCCGGGCTCGTGACGATGGCTGGCTACTTTTGCCTGTGCTTTCTCGTTCAGGCGTCAGCCACCATCGTGGTGAGTTGGCGCTGCGGCGCCGGGAAGCCTTCGCCCTTCAGTCCGGCAGCCGCCGTCGGGCTTGTTATGGACCGGATTGATTGGGTGTTGCTGGAAGCACCCACCTGCAGTATCGCCAGCGGCGATGTGTGGTGGCTGGTCGGCCCAGTTCTCGTCCTCCTCGGTGCGCTCGCGGTCGGTTGCATTCTGGGCTGGCGAAGATGGAAGCAATCCGGCGCATGGCTTCGTCAGGACATCTTGAAGCGAGACGGAATCGCCGGACGTGCCGAGATCCTTCACGATTTCGGTGCCAGAGCCGTCAGAAGACGGGGTAAGTTCACCCGGCCAGGACTCAGCAAACCCAAAATTGAAGACGTGTCATGGACGCTTGGTCGATCACATGGAGTCACCGTCCACGTCTCGACTGAAGAATCCATGGTGATTCAAGGCGCTCCGCGTTCAGGTAAGGGTCTATATGTGGTCATCAACGCCATACTCGACGCTCCGGGTGCCGTAGTAACGACGTCCACTCGTGCTGACAACCTGGTGGTGACCATGACGGCGCGAGCCAGCGGAGGAAGACCCGTTACGGTGTTCGACCCGCAGGGAATGTCTGGGCTGCCTTCCACACTCCGGTGGTCGCCGGTGCGCGGATGCGAGGATCCCGACATTGCTACCCGCCGGGCACTGGTCATCACGGCGGACACCGAAATGAAGGGTGAGAACGCGGCGTGGCAAAAGCGCTCGCTGATCGTTCTGCAATGTCTGCTGCACGCTGCAGCCCTGTCTGGGGAGGGCGTACGTGCGTTCCGCCGGTGGTCCTCGAGCCCAGTGTTGGCTCGGGAAGCCTTGGAAGTGCTGAGTAGTCCTGGGGCAGCGGTGGGATGGCAGGCCGACCTAATGGGGATCCTCGAGGACGACCCCAGGAACACGTCCAATTCGTGGATCGGTGTATCGGCTGCCGTGGCGCCGCTCTCATCGCCGAAGGTGCTGGCTGCTTTGGATCCCCACGAAGCGTCCGAGGAGTTCGATCCCAAGGCGTTTATCCGTGAGCGCGGCACCCTCTATTTGATCGGCACCCGGGCTGGAGCCGCCGCGGCGGGTCCGTACCTTTCCGCACTAATCGACGACATCGACAATGCCGCCCGTGAGATGGCCTTCGTGTCGCCAGGCGGCCGGCTTGATCCACCCCTGTCGCTCGTCCTCGACGAGATCGCCAATCTGGCCCCCTGGCCTGGCTTGCCTGTCGCCCTTTCCGACGGAGGCGGTATAGGAATCTCCACGCTGGTTGTGCTGCAGTCGCTTTCGCAGGCGCGTACCGGCTGGTCGATTGAGGAGGCAGCCACCATTTGGGACTCGGCCATCATCAAGGTGATTTTCGGAGGAGGTTCCGACGAACGTGACCTTCGTTCCATGGCCGGCCTGCTGGGGGAGAGAAGCCTCATCTTGAATACCCGTTCCTGGTCTTCTCAAGGCCGGCAGGACGGCGAGCAGATCAGGGAGAGTCCTGTCATTCGGCTCGATGAGATCCGTCGGCTGCCTATCGGCACGGCACTGATGCTGGGCAGGCGTACACGGCCGATACTCCTGGACCTCAGGGGGTGGCACAAGCGCAAGGACGCAGCCGAGCTCGGACGCTCAAAGATGGAAGTCGAACGAACGTTGGCAGATGGCCACAGGCTGCGCCAGCAGGCAACTGAGGGGACTGATGATGAGCAGTTATGA	MVTAGLVTMAGYFCLCFLVQASATIVVSWRCGAGKPSPFSPAAAVGLVMDRIDWVLLEAPTCSIASGDVWWLVGPVLVLLGALAVGCILGWRRWKQSGAWLRQDILKRDGIAGRAEILHDFGARAVRRRGKFTRPGLSKPKIEDVSWTLGRSHGVTVHVSTEESMVIQGAPRSGKGLYVVINAILDAPGAVVTTSTRADNLVVTMTARASGGRPVTVFDPQGMSGLPSTLRWSPVRGCEDPDIATRRALVITADTEMKGENAAWQKRSLIVLQCLLHAAALSGEGVRAFRRWSSSPVLAREALEVLSSPGAAVGWQADLMGILEDDPRNTSNSWIGVSAAVAPLSSPKVLAALDPHEASEEFDPKAFIRERGTLYLIGTRAGAAAAGPYLSALIDDIDNAAREMAFVSPGGRLDPPLSLVLDEIANLAPWPGLPVALSDGGGIGISTLVVLQSLSQARTGWSIEEAATIWDSAIIKVIFGGGSDERDLRSMAGLLGERSLILNTRSWSSQGRQDGEQIRESPVIRLDEIRRLPIGTALMLGRRTRPILLDLRGWHKRKDAAELGRSKMEVERTLADGHRLRQQATEGTDDEQL	PGPT0029925_1480	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_IV_SECRETION_SYSTEMS	CE-T4SS-CONJUGAL_DNA-PROTEIN_TRANSFER,PGPT0029925-virD4|lvhD4-K03205	NA	NA
D1-29_01896	510			hypothetical protein	ATGAGCAGTTATGAGGATGCCGAACGCTTTGAGATCCCATCAGCTGGAGGGGACGACGACGAGCTGACCGCGCAACTGTTCCGCTCGGCTTTCCGTCCTCAGGGCGGAGGGTCTGGCGCGACATACCGATGGCGGGACATGGACGCCCAGCAGTCTGAAAGCGCCTGGCGTGCTTTGGCAGTGTGGGTGAGGTGGTTCGTCGCCACGTACCAGCTCACGACGTCGGTGGTTCCCGATTGCTGGTGGCGTCACCCTGAGATTGTGGCTGAGCTGTATGCCCTCCAGAGGGCTGAGCTCGCCTCTTACACAGCAGACGACTCCGGGTTCGGGCCGCTGGCCCTCCACGAGCGGCTGCCTCACGCCGTCGAGCGTCTCAGGACGCACTGCCGGGCGGCTGGTTGCGTTGGCCTTCAGGCGCACAAAGAGCCTTCTCGACGGATGCTCTCGACGAATGATGCTGGCTTTGTGGAGTGGCAGGCGGAACCGCATCAACTCGGGGCTGATTTCTGA	MSSYEDAERFEIPSAGGDDDELTAQLFRSAFRPQGGGSGATYRWRDMDAQQSESAWRALAVWVRWFVATYQLTTSVVPDCWWRHPEIVAELYALQRAELASYTADDSGFGPLALHERLPHAVERLRTHCRAAGCVGLQAHKEPSRRMLSTNDAGFVEWQAEPHQLGADF				NA	NA	NA	NA	NA
D1-29_01897	1308			hypothetical protein	ATGATGCTGGCTTTGTGGAGTGGCAGGCGGAACCGCATCAACTCGGGGCTGATTTCTGAAGTCATGCTGTTGGTGCACCTCTTCGACATGAAAAGGTATCCGCCGGTTTGGCGGAGCTTAGAAGCGTGGAAGGTGGCTGTCGTGGCTCCGATGTCTGAGGACGTGCTTGGCTCGTTTCTGCTCGGTTCTTCCCCTCGGCTGGAGGAACTTGGCAAGACGCGGATGACCCCCGAGGAGCGTATCGCTGCACTAACAGAAGGGCTTCACGCACACCTTGAGCAAGCTGTGGAGTCCCCGTCCCAGTGGCAGGTGCTCTTGGACGCTTCGGCAACTCTGTGGCGGTACTCGGGCGGGAACGTTGCCTTGCTCATGATGCAGATGGCCCAGCGTGGTACGGAGGAGCCCTCTCTGGTGGCCGGCTACAAGGAGTGGGAACGCCACGGCCGGAGGGTCTTGAAGGGGGAGCACGCCTTGTGGGTGATTGCGCCTCGCACAACTCGCGTCCAAGAGGTGGTCATGCCCGACGGCGCCCGGCAGCGTATTGCAGTAGGCGAGAGTTTGCCGCCGGGCGGTGTCGATGGTGGGAAGAAGACAATCATCACCGGGTGGCGTGGGCAGGCGGTTTTTGATGTCTCACAAACGCAGGGAAGGCCGCTCCTGGTGCCCCGCGGAGGAGCAGAGAGTGCAGCTGGTGCTCCGGAGTTGTGGGAGTCATTGGCTAACGTGGCTCGTCGACATGGTTTCGAGTTGCATCTCTCTGACGCCCAGCACGGTCTCGCGAGCGGATTCACGGACTTCGCGCAGCACCGCATCGAGGTGGGAACGTGGATGAACGCCGAAGACAGGGTCGCAGTACTGGCACACGAGCTAGGGCATGTGATGCTTCACGGCCCTGAGGACGAGACGGGCAAACTGTACGGCAGCAGCGCGAACCACCGTGGCCTTGCTGAGATCGAGGCCGAATCCGTGGCCTACACGATTCTGCGGGCCCACGGCATTGACCGCGGGGACCAATCGGCGCTCTACCTGTCGGGATGGGCAGAAACCGTGATTCAAGTTCAGCGCGCCGCATTCGAGCAGGACATGTACAGCATGCACCCTACGTCCCGGGTGGACGTAGCCAAGTCGGTCCTCGCCCGGGTTACCGCCGCGACCAAGGGGATCCTCGAACTGACGCATCCGCCGGGGTTCGGTGGGAAGATTGTCGGCCCTGATTTGAGGCCGCAGGTGGCTCCGGCGACGACTTATGTCGGTGCCTACCCTTCGGCCAAGCCCGATGGACCTGTGATGGCCGGCCCGCAGTCCTAA	MMLALWSGRRNRINSGLISEVMLLVHLFDMKRYPPVWRSLEAWKVAVVAPMSEDVLGSFLLGSSPRLEELGKTRMTPEERIAALTEGLHAHLEQAVESPSQWQVLLDASATLWRYSGGNVALLMMQMAQRGTEEPSLVAGYKEWERHGRRVLKGEHALWVIAPRTTRVQEVVMPDGARQRIAVGESLPPGGVDGGKKTIITGWRGQAVFDVSQTQGRPLLVPRGGAESAAGAPELWESLANVARRHGFELHLSDAQHGLASGFTDFAQHRIEVGTWMNAEDRVAVLAHELGHVMLHGPEDETGKLYGSSANHRGLAEIEAESVAYTILRAHGIDRGDQSALYLSGWAETVIQVQRAAFEQDMYSMHPTSRVDVAKSVLARVTAATKGILELTHPPGFGGKIVGPDLRPQVAPATTYVGAYPSAKPDGPVMAGPQS				NA	NA	NA	NA	NA
D1-29_01898	513			Single-stranded DNA-binding protein	ATGAACACCAAGATCCCAGTAAGCATCACGGGCAACCTCGTCGCCGATCCTGAGCTAACTATCGGAGAAAGCGGCGTCGCCCATGCCAAGCTGCGCGTCGCCGTAAACCAGCGCGTCCAGGGAGCAGACGGCACCTGGCAAGACGGCGAACCCGTCTTCCATAACGTTTCGGCGTTCCGCGCGCTCGCAGAGAACGTTGCCAACTCTTTGAAGAAGGGCGACCCTGTCAACGTGGCGGGCGAGCTTGAATTCCGCGCCTACGAAAAAGACGGAGAACGACGCGAAGCGCGCCGGATCATTGCGGATACCATCGGGCCGGACCTTCGCTTCGGCACCGCCGTTTACCAGCGTTCATCACGCACGGCCGATGCCCGACCGGATGCAGAAGTTCACGCTGGCCCCCAAGCGTCAGTTGCTGGCGTGTCTTCTGCCCCCGCCTACAGCGTTGCGACAAAGGGCCCGGTTGTGATGCCCCCTTTTGGCCCGGCAACGGGGAATGAGATGAGCTGGTGA	MNTKIPVSITGNLVADPELTIGESGVAHAKLRVAVNQRVQGADGTWQDGEPVFHNVSAFRALAENVANSLKKGDPVNVAGELEFRAYEKDGERREARRIIADTIGPDLRFGTAVYQRSSRTADARPDAEVHAGPQASVAGVSSAPAYSVATKGPVVMPPFGPATGNEMSW				NA	NA	NA	NA	NA
D1-29_01899	4155			hypothetical protein	ATGACATCCCAAGCCCTCGGCCCCACCGCCGCCGCCACCCCTCTGGCCGAAATCGGCGTCGACATGTCTAAGCTCCCCACCCCGGGGGTAATTGTGTTCCTCGGCCGAAGTTTCCCCCGCATCAACTCCTCCGCAGGGAAAACCAGAACGGAACTCATCCACGTCCGGCAGCACGAACCTCTCGGCTACACCGTCACCCTCACCCGGCCGCCTAACACCAAAATGAACAGCAACACCTGGCGATCCATCCCCGACGCCTCAACATGCGCCCATCTAACGCACGTCATCTCACTTCGGACTCGACGCGACAGACACCCCAAGGGGTCCTCGGCAATGCTGCTGGGTGTTTCGGACGCTGGCCACGGATCCGGTCTGTCAGCTAGGTCGCCACCTTTGGGATCTCGTTCAGGAGGACGGGATAGGTTATGTTGTACGATCCGAGGACTAACAGCGTTGCCCTACCCGAGCCATTTCATTAGTGAACGGACCTCAATGACGAACCGCCCTCACGCTGCGAATTTCAGACCTTTCGTGTTCAAAGATGCTGTTGAGTTACTGGACGGGAAGTCATCCCAGATAATCGATGTGAGTGACCGCGTGGCGACGGCGGCGATCTTGACCGCAGGAGTTGCGGGTGCATCGGGTGCTTTTAGTCTTCTTGGGCCAAAGAATGCGCTAGTCAAGGCCTGCGAGCAGATTCAGGGACGCATCCCAAATGAAGTTTCTGGAAGCAGCGGAATCGATCGCACCCGCCTTCTCGTTGCGGCACATTCCATATTGGTTATCACGAGTTTCTTCGACGCCGCTTCTCTGATACAGGTCCGCATCCCGGATGCAGATGTGAAACTTACGGGCAAGGAAGAACTTCAAGTAGCTCTGCGGGACAAGGCCGGGGCAAAGTTGAACAATTTGGTCGATTTCCTGATGACCTCTGAAATTCCATATCCGAAGCCCGAACTGGCACCGGGTCAACTTCACGGCCATCTGGGGGATTTTTACGACAACTTGTCGGCCAGCCTCGCTAATTACTGCAAGGGCCTCCGGTTCTGGGACAGCCTGGACGACCGCATGCGCCGGGCGGTGGAGCGTTACTTCGAAGAGGACGTTCCTGGGCTGGCCTTAGTCGGCTACCAGGACTCTCTAAGGAAACTTGCATCCCAAGTCCACGAGTTTGAGATTTGGCTAAATCAACTTGCCGCGCAAGGAATTATCGGTTCCATTCGTGATCAGGGCGCGGTCGCATCGGAGAAACTTGACCTGCTACTAGCCGGACAACGTCAGGCTTCACAGCAGTTTGATGACCTTCAGAGCTTCCTTAGTCGGGTGGCCGCTGACCTCCCTGTCCCTTCAACAAGGACCTCTGACCTTGTCCGCAGAATTTACTCAGTAACCCAACTTTCACTTATACCTCCTGACGTTTCTCGGCTGAAGGAAGGGTCAGGTGCATCCATTCCTTCGTTATCAGAGCTGTATATAGAGCCACCTTTCAAGGTCATAACTGGCCGGAGCCAGGCAAACGTAAGCAAAGAGGAATGGTGGAGAACCGTCGAACCTCGACACAACATTGATGACTTCTTCAGCGCATACTTGACGACTTCGCCAGCCGCATTTACCAGTCCGCTTTTAGTACTTGGTCATCCCGGCTCGGGTAAGTCTTCCTTGACACGAGTTTTGGCTGCCCGGCTACCCGAGACAATGTATGTCCCAATCCGAGTGGAGCTGAGGAGAGTTACGCCATCGCATGGGATCGAGGTGCAGATCGAGGAGGGCCTATCTTCGCTTCTGGGCCGAACGACGACATGGAGTGAATTCAGGCAGGCTACCGACCTGACCCCTGTCATCTTTCTCGACGGGCTTGATGAATTGATACAGGCGAGCGAAGAAAGGCAAGCAGACTACCTCGAACAGGTTGAGCTTTTTCAGCAACGCGAGCTTGCATATGGTGGGGCTTACGTGATTGTTACCAGTAGGACCGTCGTAGCAGATCAGACAAGAATTCCTCCAAATGCAATTGTGCTGAAGATTGATGACTTCAGTTCTCCCGAAATATCAGCATTCATAGACACCTGGAATTATCTCAACCGTAAATACTTCGAAGAAGCCCGCTTACGGCCGCTTCCAAAAGAACTGCCCCGAGAGGTCGTTCAGCTAGCCGGACAGCCGCTACTGCTCTTGTTGCTCGCTCTACTTGACGCGGACAGCAACGCCTTGCAGAGCGATGTCGGTACAAGGACAAAAGCATCAACGTACCAGCAAATACTCACAACTTTCATACGTCGAGAAGTACTAAAGCATCGGCCGCAAATGGCCGACAATGAAACGCGCCAGGCGATTCAATCGGAGCTACTCAAGCTGTCATACATAGCACTCGGCATGTTCAACAGAGGTGTGCAAATGGTAAACACGAGGCAGGTGGCAGAAGACCTGACCGCACTATCTGCGGACTCTGTTCATGCTGAAGGCATCGAGAGTGTTCACAAACTGTTAGGCAGGTTTTTCTTCGTTCACCAAGCGCATTCGAATTCGTCGGAAGGCCTGCAAAACGCCTATGAGTTCCTGCATTCGACCTTTGGCGAGTATCTGGTGGCTCATCTAGCGCACGAAGTGCTCAAAGAGGTACACGATGACGTGAACCGTTTGTCACGCGCACGCTTTGCCGGTGCCCGTAATGCTGATCAATGGGCATCCACGCTCTTCGCCTTCCAACCTTTTAGTCAGAGACTGCAGGTCTTAGACTTTTTCGCGGAACTTTCAGCAGAGAGCCCGCCTCCTGGCGACATGTCTGACTTGTTGATCACGCTGGCAATTGAACGACTCGAGGCTGGAAGTAACCACATGTCACTTCAACGGCCATACAAACCTACGGACTTGACCCATTCAGCCATGCTCGCCACATACACTTGCAATCTGATCCTTCTGGCGTGCTGCATTCGTGGGGATGACAGCGCGGAATTGGTTGGGTCGCGGACATTGGTTCCGTCGGTCCAGAGATGGGACTCCCTCGTACACTTTTGGAAATCACAGTTGGACAGCTCCGCTTGGGGACAGCTTAGCCAAGTTCTATGGGCACGATCGAGCAATGTACTGCCTGAGAATCAGGGGTCATCTCAAGACGTCGAAATCGGCTTGGAGTTTCTGACGCCTGCAAGCAGCAGTATCTACTACCTGACCCCCATCTCGGAGAGTGTGGATACCTCAGTAGAGACTCTTCAGATGGTACTGACGGAGACCTCCACCGTGGAACAATCGAGGCAACTGCTGTCAGGCGATACCTCCTATGCGCTTAAGGGGGTCGTGTCCGCAGAGTTCAGAGTTTACTTCCTTGCATTCCAAAAGGTTCATCTTGTGTTCGACGTCGATGACCTGTTGGCTCAGCTCCAGAATTCCAGTCTCAAAATCGTGCCTATAGACTTGGTGGATCCAGCGCTGAGGTTCCTGATAAACGAGCCAGCCTGCACGGCATGGCTGACCCGACATCTTCGAGTCATCCTCACGTCGCCACTTATTGACCAATTTCAGCTTTCCACGTTGGAGCAACTCGTCGACGCCGTGTTTGTCAACCCGCCTGAAGACCTAGGGCTGCTAGCCCAAGTTATTGATGCCATAGTCGATGCGGATATGGGCTTCAACACTTATCGGCTGATTGACTTGGCAGTTCCGCGAAGAATTCGAACTGAATTCCTGAAGGAAAATCCTGGCTTTGCACTGCGATTTGCTGTAGCCCTCGCCAGAGGTGGTTACCATAATGAGCCAGAAAATAGCAATTGGGCTCAACTCGTTACCCATGTTCCATTGATCAGTCTCTATGACGAGGATGTTGTTGCACCAATCCTTGCTATGACCCTGGCCAGAAAACATAATCTCCACAACTGGGGCACGAGTAGGGGCATAATTGAAGCAAGTGAATTGCCCGCGACAGTGCTACGACAAATGCCTATAGATGATGCGCTGTTCCTTATTCGGTGCGGGGCTCGAGACCCTAAGAACGGGATCGACAAAGTGCAACGGTTCAGCCAATCTTGGGGCGATGCGCATCGAGGCGTCCGGGAGAAGCGAATCCGAGACCTTGCTGACGCGATACGTCGGCTTTCCGAGCGTCCAATAATCAGCTTGCAAGCAGCGATCGATACCCTTACGCGAACGCCGGCCGTTTGA	MTSQALGPTAAATPLAEIGVDMSKLPTPGVIVFLGRSFPRINSSAGKTRTELIHVRQHEPLGYTVTLTRPPNTKMNSNTWRSIPDASTCAHLTHVISLRTRRDRHPKGSSAMLLGVSDAGHGSGLSARSPPLGSRSGGRDRLCCTIRGLTALPYPSHFISERTSMTNRPHAANFRPFVFKDAVELLDGKSSQIIDVSDRVATAAILTAGVAGASGAFSLLGPKNALVKACEQIQGRIPNEVSGSSGIDRTRLLVAAHSILVITSFFDAASLIQVRIPDADVKLTGKEELQVALRDKAGAKLNNLVDFLMTSEIPYPKPELAPGQLHGHLGDFYDNLSASLANYCKGLRFWDSLDDRMRRAVERYFEEDVPGLALVGYQDSLRKLASQVHEFEIWLNQLAAQGIIGSIRDQGAVASEKLDLLLAGQRQASQQFDDLQSFLSRVAADLPVPSTRTSDLVRRIYSVTQLSLIPPDVSRLKEGSGASIPSLSELYIEPPFKVITGRSQANVSKEEWWRTVEPRHNIDDFFSAYLTTSPAAFTSPLLVLGHPGSGKSSLTRVLAARLPETMYVPIRVELRRVTPSHGIEVQIEEGLSSLLGRTTTWSEFRQATDLTPVIFLDGLDELIQASEERQADYLEQVELFQQRELAYGGAYVIVTSRTVVADQTRIPPNAIVLKIDDFSSPEISAFIDTWNYLNRKYFEEARLRPLPKELPREVVQLAGQPLLLLLLALLDADSNALQSDVGTRTKASTYQQILTTFIRREVLKHRPQMADNETRQAIQSELLKLSYIALGMFNRGVQMVNTRQVAEDLTALSADSVHAEGIESVHKLLGRFFFVHQAHSNSSEGLQNAYEFLHSTFGEYLVAHLAHEVLKEVHDDVNRLSRARFAGARNADQWASTLFAFQPFSQRLQVLDFFAELSAESPPPGDMSDLLITLAIERLEAGSNHMSLQRPYKPTDLTHSAMLATYTCNLILLACCIRGDDSAELVGSRTLVPSVQRWDSLVHFWKSQLDSSAWGQLSQVLWARSSNVLPENQGSSQDVEIGLEFLTPASSSIYYLTPISESVDTSVETLQMVLTETSTVEQSRQLLSGDTSYALKGVVSAEFRVYFLAFQKVHLVFDVDDLLAQLQNSSLKIVPIDLVDPALRFLINEPACTAWLTRHLRVILTSPLIDQFQLSTLEQLVDAVFVNPPEDLGLLAQVIDAIVDADMGFNTYRLIDLAVPRRIRTEFLKENPGFALRFAVALARGGYHNEPENSNWAQLVTHVPLISLYDEDVVAPILAMTLARKHNLHNWGTSRGIIEASELPATVLRQMPIDDALFLIRCGARDPKNGIDKVQRFSQSWGDAHRGVREKRIRDLADAIRRLSERPIISLQAAIDTLTRTPAV				NA	NA	NA	NA	NA
D1-29_01900	180			hypothetical protein	ATGCGGAACAAGATCACCGAACTTGAGGAGGACTTCACCCGCCGCTTTGACGAGGACCACCGCTTCCTGCTCGCCGGAATGCTGGCCCGGTCCGATGGGATCGACGCCGACATCGCCGCGCTCGACGAGCAAGTGGAGGCGTACGCGGCCATTTCGCGTGGCAGTGGAACGCCTGGATGA	MRNKITELEEDFTRRFDEDHRFLLAGMLARSDGIDADIAALDEQVEAYAAISRGSGTPG	PGPT0030635_513	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
D1-29_01901	1038			hypothetical protein	ATGCCTCGCAGTCTCGAAAGCCTCGCATCTCTGCGTGAGGGCTATCGCCGATATGACGAATACGTCGACGTAGTATCGTGCTTCGAATGGATGTTTGCGGGGGATGCGAAGGACCTTCCCGAAACCGTAAAACACTTCGAGCGGTATCCAAAGTGCATGGTTTCAAATGCAGGAGCTTCACCGCGCACCGTCACACCGGATTTCGTCGTTGTATTCCATGACGATTCAGTCCTAGTCGGAGAAATTGCTTCGATAGCGAGACACGAGAACTCCGTCGACAAGCTTTGCAGCCAGCTGCTGGCCTACGAAAACATAGCCGAAGTGTCGCTAGCTGATGGTTCCGCGGTGGCCCCGAGCAGGATAGACGTCATGTGGCTCGTGCCAGTTGAGCTGTCTAACGACGCTTGCACACGAGTCTTGGATGACCGGCTCCAGAACCCTGATCATTCCTATAAACCTCGAAAAGCGCCTTGCATCGTGCAATACGCAAGGCTCACCCACAAGTATACTTTCGCCCGGATACCTCGTCCGGATAACGGTGTGCTCCACAGCGGACTGCCAAGCATCAGCATCGCGACTTACCTAGACCGAAATCTGAACATCAAGCCCGAATACTTCGTGCACATCAAGACTTCACGGGGATTCATGAATGATCCCGCCGAACCTCTCTACCTAGCCACATACATGTACGTCCGTGTTTGGCCCCTGATCTTCGGTCCGGGCACATCCGAAGAGCGCGTCTCCAGCCAGAGCGTTTCGCAAGAACTGCAACGAACCTATAGGTACGGCAGACACAAAGAAGTCGTTACTGCACTTGAACTCCTTGCCGAGGCCGGCTTGGCGTCCAGACAATCCAATGGAACTTGGCTTGTAAAACGCAAAGTGCTGGGCAGCAAAGGTGACCGGGAAGTGCACGCCAAGATCTTGGAGCTCGTCGAATCAACCCAAGAACGCGCAAACAAACCGTCCCGCCGATCGCCTCGACAGCAGCAGATCCCGGCCCAGCTCAGCCTTTTCGATACCAACAGTCTTCCCTAA	MPRSLESLASLREGYRRYDEYVDVVSCFEWMFAGDAKDLPETVKHFERYPKCMVSNAGASPRTVTPDFVVVFHDDSVLVGEIASIARHENSVDKLCSQLLAYENIAEVSLADGSAVAPSRIDVMWLVPVELSNDACTRVLDDRLQNPDHSYKPRKAPCIVQYARLTHKYTFARIPRPDNGVLHSGLPSISIATYLDRNLNIKPEYFVHIKTSRGFMNDPAEPLYLATYMYVRVWPLIFGPGTSEERVSSQSVSQELQRTYRYGRHKEVVTALELLAEAGLASRQSNGTWLVKRKVLGSKGDREVHAKILELVESTQERANKPSRRSPRQQQIPAQLSLFDTNSLP				NA	NA	NA	NA	NA
D1-29_01902	1116			hypothetical protein	ATGGCGAACCTGTCGTCCGGCGGCGCTGCCGATCATATTTCAAGTTCCTTCGACAGGAGACTGTGGGCCCTTGCACTTAATAAGGGTGTGCCTGAATCCCTCCTTCGCGCTCATGACGGCGTGGGTTTGGAGCGCGGCGAGCAGCTAGCTTTTGAGACCGTGATGTGTGACGGCGACCCAGTCGACATGCTCTTTGGGCCTGATTCCGGTTTCCCAAAAGTGACCAACGGGACAAGCAGTCTCATGAAGATCTTCGACGATGATGGAGACTTCGTTGTTGCCAGTTGGGCGACAGCACAAATTGGTGTCTTCCACATCAGCGGGTCAGTTCCCACAAGCGATCGCCGTTGGAGCCGCGTCAATCGAGCCATTTCTCGTGCACCGGAAGTTATGCGGTGCTTCCTCAACGAGGATAAGTTCCGTCAGCTTGCCAGAAAGCTGGATTCCATAGGTCGCCCGGAAGTAGTTCGCATGGCCGCCTGGCGGCAGTCAGATGCTTCATCGCTCAACAGGGGATGGCCAGCCAAATCCGAATCTCTGAGATACACACCTGACGATGTGTTCGACCTTGCGAGCATGGAAGGCGCATCCGTTCGTTCATTGACAGTCTCCATCGAGAACGAACTGCATTGTCATCTTCGGCGTACGAGCGGGGCTACTTTCTATTCGGGACAATTCCGCGCGTTTACGGCCAATATTCTTGACGCCTTCGCTGAGTACTCGGCTGAACGGCTTGAGCTCCTGTCGAATCGACAACGTGCCGTCAACGGGCCCCTCGGACTCCCGCTTACCATCAACTTGGCCGAGCAGGTCTTCTCCGATGCCGGGGACACGGAGCGCCTACGCCGCCTAATGGAAGATGGGCAGCACACCTCGGTGGCCGTCCTACATGACAATCCCTACCTTCATCTGATGGTCGCCGATCATGCTGACGGATCCACTTTCGACGTTGTGGTTACTTCACCCGATGCGGTAGATATCTATCCCAGTTTCCGCTCGAGTGCGTCCTCCCTGGCCCGCCTTGTTCAGCGAATCGGAGAACACTTTTCCGCCGAAAGAATCGAAGAAGCAGCCCCGCGGGAGCGCGTTTCTCTCGATAACCTGGTGGGCGCATAA	MANLSSGGAADHISSSFDRRLWALALNKGVPESLLRAHDGVGLERGEQLAFETVMCDGDPVDMLFGPDSGFPKVTNGTSSLMKIFDDDGDFVVASWATAQIGVFHISGSVPTSDRRWSRVNRAISRAPEVMRCFLNEDKFRQLARKLDSIGRPEVVRMAAWRQSDASSLNRGWPAKSESLRYTPDDVFDLASMEGASVRSLTVSIENELHCHLRRTSGATFYSGQFRAFTANILDAFAEYSAERLELLSNRQRAVNGPLGLPLTINLAEQVFSDAGDTERLRRLMEDGQHTSVAVLHDNPYLHLMVADHADGSTFDVVVTSPDAVDIYPSFRSSASSLARLVQRIGEHFSAERIEEAAPRERVSLDNLVGA				NA	NA	NA	NA	NA
D1-29_01903	564			hypothetical protein	ATGACCTCGAACCCAGTCCTCAAGCCCAAGATTGCGACACCCGCGCTGATTTTGGCCACGGCGACGGTGTCGATTGCAGCTGGTTTCTTCTTGACAACCTTGACTGCCGGAGTATCCTCTGGCGGGATTCTCATGATTGTTGGCCTCGCAATACTCTTGGCGGTGGCCGCCTTGGGCGTCCTTTGGCTGACTCGTTTTCGCCGCCGCCGAGCTTGGGTGATGGCCGCCGAACGAAGGTGGCATCACTTCGAGGACGCAAGGCGGAATCATAGGACGACCACCGAAATCACGGTTCTCAGTGTCGACGCTCTGGAGCCGACTGGATCCTGGATCACTATCAACTGGAACCGTTTCGACCATGTTCAACCTGCATGGATCGAGGCTTTGCCAGACCCCATCTGGCCAGGATCCGTTCTGTTGATTTCGCCAGACCCCGCCCAAGTCCGGCCGGGTCTGCCATGGCCACAAACGTACTATATTAGCGGCCCGAACACATTTGCCTGGGCCCCGCAAGCAGAACCGATCAGGAAACCGCGGAAGTTCCCAGATCGGGCTCACCTTTAG	MTSNPVLKPKIATPALILATATVSIAAGFFLTTLTAGVSSGGILMIVGLAILLAVAALGVLWLTRFRRRRAWVMAAERRWHHFEDARRNHRTTTEITVLSVDALEPTGSWITINWNRFDHVQPAWIEALPDPIWPGSVLLISPDPAQVRPGLPWPQTYYISGPNTFAWAPQAEPIRKPRKFPDRAHL				NA	NA	NA	NA	NA
D1-29_01904	3576	recD2		ATP-dependent RecD-like DNA helicase	ATGACCATGTCCATCGCCCGTCTCTCCGTTCAGTCGGGCCTGAAGTACCTCTTCAAAACGACGATGATGGACGACGTCACCGTCACTCCCCCGGACGCCACCAGCTATTACATGAAAGCGGGAACACCTCAGGGCAGATGGCTTGGCTCAGGCCTTAGCGGCATTGACCGCACTGCCGGAGATATCGTCACGGAGACCGATGCCAAGGCACTTTTCGACCACGCCGTCCATCCAGACACCGGAGCCCCGTTAGGTCGGCCACACGGCCAACCCACCCTCGTTCAGACCAGCCAAGGCCACACAACCAAGCGTCATGCCGTCGTCGGATTCGACCTTACGTTCAGCGTCCCGAAGTCAGTCTCGGTCCTCTGGGCCCTTAGCCCCCGCACCATGCAGGACCAGATCCTCCAAACGCACCATGAAGCCGTAACAGCCACCCTCCATTGGCTCGAGGAGAACGTCATCCACACACGAGCGGGGCGCAACGGCGTCGCCCGCATCGGCACGAATGGCGCCATCGCTGCTGCTTTCGACCACTGGGAGTCCCGGGCCGGAGACCCGCAGTTACACACCCACTTAGTCATAGCCAACCGCGTTCAGCGCATCACCGACGGCGCCTGGGTCACCTTGGACTCCCGGACCCTCTACAAAGCGGCCGTCGCTGCCAGCGAGCACTACAACGGACTCCTCTTCGATGCCCTGCACCGGAACCTCGCGACGGACGCCGAGATCCGGAAACCGGCAACCAACACACACAACCCAACCCAACAGCTCATCGGCGTCGACGACCAACTGATTCGCGAGTTCTCCAACCGATCCCGGCTCATCGACCTGGAAACCGACCGACTCGTCTCCCTCTGGACTGAGGAACATGGCAAACGTCCAAGCGCTACTACAACAGTGAAACTCAGGCAGCAGGCCACGCTCTCAACGCGAGCGCCTAAAGCTGAGTCAGTCGCTCCGCTTCGCGTGCTCTCTCGGCAGTGGCAGGCACGCGCAATCGCTAGGGGCTACGACCCTAGCCGCATTCTCCTCGAGACGGTCCGGCGCTCGCAAAGCTCCCCGTTCCGCAGCTGCGACTTCACCGTGAACTGGGTGGAAGCCGTTGCTTCCATTGCCAAGGACCGTGTGGCGGCCAAACGCTCCACCTGGAACCGGTGGAATCTGCTGGCCGAGGCAGAACGGGTCTGCGCCGCAGTCCGCTGCCAAGCGCCCGGGGACCGCAACAGCTTGATCGGTGCCATTGCTACCGCCGCCGAGAGGCAGTCCGTCCCACTCAATGAGTGCCGATACAGGGTCGATCCCGACGCGGCGCCTAAGCTGCGCCTCGGGAAGCAGAGCGTCTTTGATTTCCAAGGCGCACGACTTTACACCGACGCCACAACGCTCGCCGCTGAGGATGTCGTTATGGAAGCAAGGAACGACGACGGCGGCCCTGCCGTGCGTGCTACCGTCACCATGGAGTCGCTCGCCACCTACAGGCATCACGGCCGCTTTGAGCTATACGCGGACCAGCGCGGTGCCGCTGCCCAGGTTCTTCTAAGTGGCAACCGGCTCGACGCCGTCGTGGGGCCGGCCGGCACGGGTAAGACGACCACCCTTGGTGCGGTAAAGACGGCGTGGGAATCAGAGTTTGGGCCTGGAAGCGTTGTGGGACTGGCGCCGGCCGCGGCGAGCGCCGAGGTTCTCGGACGGGAGCTGACTATGGACACGGAGAACGTCGCCAAGTGGCTCTATGAGTCCGTGGGTCAAGGAGCCAGTTATCGAGCGTCGCGATTTTTCGAGATGGAGCGCCGCCTCGAGGCCGAGGCGAATCCCCTTAGCTTCCGACGAACGCGTCTGGCACAAGAAACAGCTCGGTTGGCCGCCGAACAGAACAGGTGGCGCTTTCATCCGAACCAGCTTGTCGTCGTCGATGAAGCCTCAATGGTGTCCACGATTCAGCTCTCCGCCTTGGTATCTCAGGCACGAGATGCGGGGGCCAAGATCCTCTTGGTAGGAGACCCTGCCCAGCTGGATGCCATCGACGCGGGCGGGGTCCTCGGGTGGCTGGACCGGCAAGGAAAGACGGCGAGGCTAAGTACGATTTGGCGGTTCGAGCAGGCGTGGGAACGGGAGGCGTCGCTAAAGCTCCGCTCAGGCGATTACGCTGCCATCGACGACTACGATCAGCACGAGCGTATCCGGCACGGCTCCTATGTCAACATGGTCGACCAGGCCTACGTGAACTGGCAATCCGATATCCAATCCGGAAACTCGTCCATCCTCATAGCGGCAGACAATGACACAGTCGGCATCCTCAACGAACGTGCCCAGGCCGATCTGGTGATCCAGGGGGTCGTGGACGCGGAGCAGACCGTCCTGCTCAGCGACGGGCTCCATGCCGGCCGCGGCGACACGATCATCGTCCGTCACAACGACCGCACCATCTGGGACAGTAACGGAGACTTCGTTCGCAACGGAACCATGTTCGATGTCGGACGCGTCGCCAAGCGCGACGGCTCCCTCGTAGCAGTTCGCAGGGACACAGGAGGCGTTGTTACCTTGCGCCGCGACTACGTTCAGTCCGCGGTTGAGTTGGGGTACGCCACAACCGCACACCGTTCCCAGGGCCTCACGGTGGACACCGGCCACACCGTCGTCACGCAGGGGCGGCTCACCCGTGAACTCCTGTATGTGAGCATGACCCGGGGGCGCATCGGTAATCACGCATACGTCAGCCAAAACGATCCGCTTGATCACGATCCTTTGGACCCGTCGGTGCAACCGTCGTGGCGCGAGATCTTGGGGGAGGTCCTCGCTGCAGAAGGTGCTGAGCGCACTGCCCATGAGGTCCGCGAGGCCGAACATTCCAAAGCCGATAGCTTGCAGCGGCTTAGCGCCGAGTACGACTACCTTGCCCAAATCGCAGCCGGTGAGGATCTGGCTGAGTTCCTTCAGTCCCGTGCGCCGGAGCGGACCAACGAGATCCAGCAATCTCCCTCGTGGGGTGCGACTGTTGCAGCCTGGCGCCGCTGCTCAGGAATCAGCCGCCCAAGCGCCCAGCGAGTTGTGCTCGAAACGTTGGAAACAAGCTTGTCGGCTAGAGATCTTGCGTCTGTCCTTCACTCCCGACTTCGGGGACTTCTCTCTCGCTTGCCTTCAGATGGATTCACAACGATTCCTGAGGTTCTTCACCCGAGCCGCTCCGATCTGAGAGACATGATTCGCCAAGTGGCAGAACGAATGCAGCGTCGGACAGACGATGTCGCGGAAGCCGCATTGCTGCAGGAGACCGAGTGGAAGCGAGACCTATTGCAGCGCCTCGGACGGGAGGCAGAGCCCGAAGAAGCTAGACGTCTTGTTCGCGAAGTCGCTATCTTCCGAGATAGGTGGGGGGTCGAAGACTCTCCGCTTGCGCTCGGCCCAGTGGCGCCGGACTACGAATCGGAACAGCAAGCGCAGCGGGCGAGCATCGAGCGTCAAATGTCTCAAGCCGCTCCCCTCGCTTCAGCCGGATCTCAGCAGCTGGGGGCATGGATGAAGGCGCCGAGTCAGCGCGAGGCAAGTCTTATCAATGTCGGATGGCAGCTCTAA	MTMSIARLSVQSGLKYLFKTTMMDDVTVTPPDATSYYMKAGTPQGRWLGSGLSGIDRTAGDIVTETDAKALFDHAVHPDTGAPLGRPHGQPTLVQTSQGHTTKRHAVVGFDLTFSVPKSVSVLWALSPRTMQDQILQTHHEAVTATLHWLEENVIHTRAGRNGVARIGTNGAIAAAFDHWESRAGDPQLHTHLVIANRVQRITDGAWVTLDSRTLYKAAVAASEHYNGLLFDALHRNLATDAEIRKPATNTHNPTQQLIGVDDQLIREFSNRSRLIDLETDRLVSLWTEEHGKRPSATTTVKLRQQATLSTRAPKAESVAPLRVLSRQWQARAIARGYDPSRILLETVRRSQSSPFRSCDFTVNWVEAVASIAKDRVAAKRSTWNRWNLLAEAERVCAAVRCQAPGDRNSLIGAIATAAERQSVPLNECRYRVDPDAAPKLRLGKQSVFDFQGARLYTDATTLAAEDVVMEARNDDGGPAVRATVTMESLATYRHHGRFELYADQRGAAAQVLLSGNRLDAVVGPAGTGKTTTLGAVKTAWESEFGPGSVVGLAPAAASAEVLGRELTMDTENVAKWLYESVGQGASYRASRFFEMERRLEAEANPLSFRRTRLAQETARLAAEQNRWRFHPNQLVVVDEASMVSTIQLSALVSQARDAGAKILLVGDPAQLDAIDAGGVLGWLDRQGKTARLSTIWRFEQAWEREASLKLRSGDYAAIDDYDQHERIRHGSYVNMVDQAYVNWQSDIQSGNSSILIAADNDTVGILNERAQADLVIQGVVDAEQTVLLSDGLHAGRGDTIIVRHNDRTIWDSNGDFVRNGTMFDVGRVAKRDGSLVAVRRDTGGVVTLRRDYVQSAVELGYATTAHRSQGLTVDTGHTVVTQGRLTRELLYVSMTRGRIGNHAYVSQNDPLDHDPLDPSVQPSWREILGEVLAAEGAERTAHEVREAEHSKADSLQRLSAEYDYLAQIAAGEDLAEFLQSRAPERTNEIQQSPSWGATVAAWRRCSGISRPSAQRVVLETLETSLSARDLASVLHSRLRGLLSRLPSDGFTTIPEVLHPSRSDLRDMIRQVAERMQRRTDDVAEAALLQETEWKRDLLQRLGREAEPEEARRLVREVAIFRDRWGVEDSPLALGPVAPDYESEQQAQRASIERQMSQAAPLASAGSQQLGAWMKAPSQREASLINVGWQL				NA	NA	NA	NA	NA
D1-29_01905	1035			hypothetical protein	ATGGAATCGCTCAGCATCAAAACCCCAGCCGATGTCCTCAGTTTCGTTGGACATACTCTCGGCTTCTGGCCCAAGGAGAGTCTGGTCTGCATCACATTGAATCAAAAGAATATGGTCGGGGCTACGCTGCGGGTGGATCTGCCCAAGAGCGAGGACGGGCTCTTCTCCTACGCCCAAACAGTCGCGGGCTACATCCAGAAGGACGCGAATGCCTCGACTGTCCTCTTCGCCGTCTACACCGAGAAGCCTTGGGAGATTGGTGAGGAGAAACCCCATGCTCACACCGTCGCGGCTCTGACTGGCGCCCTCGCCCAGCAAGGTATTTCCATTCGAGACGGACTGCTTGTGGGAAACGAGGCGTGCCTGCCCTACGACAGCGATCGCTTGAACGGCCCTTCAATCCCCCTGGCGGCAACGCAGTCCAGCGAAATCAATGCCGAGTTCGTGTACCGCGGGAGCCAAATCGAACCACAGGGGATCAGTTTACCTGCCTCAACCAAGGAGACCCTGACGACGGATGCAGTCCTGGACCGCATGGAGGAAATTCGACGACTTCCTGCTCAAGAAGCGTTAGACGAAGCCCGCGCACTCTGGGGGTCCATGCTGCAGGGGAAGACCTATCCCACGGACGAGGAGACCGTAAGTCTAATTGCGAGCTTCCAGTTCGCCGGTATCCGCGATCGGCTCATGGCAGACATCCCGGGAATAGACGAACCCATGGTCGAAGTCCTCCTGGCGCAGACCGAGGCGAAACCACAATGGTCAAGGGTTGAATGGGCGCAGCAACTGCTCCTACATGCCTACACGCACAGCAGCACCCAACACTCCGCAGCATTGTTGACCACAGTCGGGTACATCAACTGGTGGGAAGGCCGAGGCAGCAAGGCCCACCAATTCCTGCAGCTCGCACTCGAAGCAGACCCCGCCTATCGCCTGGCCCGGCTCAGTGACCATATGGTCGCACAGGGAATGCTCGCGCCCTGGAGCACAGACAGGAACAAGGCATACGGACCGAGGGGGCTCGAAGCTTCCTAA	MESLSIKTPADVLSFVGHTLGFWPKESLVCITLNQKNMVGATLRVDLPKSEDGLFSYAQTVAGYIQKDANASTVLFAVYTEKPWEIGEEKPHAHTVAALTGALAQQGISIRDGLLVGNEACLPYDSDRLNGPSIPLAATQSSEINAEFVYRGSQIEPQGISLPASTKETLTTDAVLDRMEEIRRLPAQEALDEARALWGSMLQGKTYPTDEETVSLIASFQFAGIRDRLMADIPGIDEPMVEVLLAQTEAKPQWSRVEWAQQLLLHAYTHSSTQHSAALLTTVGYINWWEGRGSKAHQFLQLALEADPAYRLARLSDHMVAQGMLAPWSTDRNKAYGPRGLEAS				NA	NA	NA	NA	NA
D1-29_01906	480			hypothetical protein	ATGGGATTCGAGTGGTCCTTATCGGTCATCCGGGACGCGAGATGGGGCGTTTCCTCCTCACCCCTGCCATGGCCATCGAGAATGAAGACCTGGCAAGAGGCCGCTAGCAGGCCCTCCAGGCGGGGACACGTCGTCTGGTTCAGGCTCGGAGACCTCTTCGTCCTAATCCCCGCGCACGGCCCCATGACAAAGTTACCCAGGAGGGCTCCAGGATTCTGCGCGCGCGAGCTCGTGATCATTGACGACATATGCCCCTGTCGGCGGCCCCAGACGCTACCGAGGGCCTATACCGTGTCCTGGACGCAGCTTACGAAAAACGTTGCGGGGCGATCAGATCCACTGCACCCGGCAGGCCTCGACGAACTCATGTCCAGAACCCTCGCCACCGCCACCGCTGACAGACTCTTTAGCCACGCCCACGTCTGTCAGACCAGTGGCGACTCCTTCTGCCTCACCCAGGCCCTCGCCGGAAGGGAATGA	MGFEWSLSVIRDARWGVSSSPLPWPSRMKTWQEAASRPSRRGHVVWFRLGDLFVLIPAHGPMTKLPRRAPGFCARELVIIDDICPCRRPQTLPRAYTVSWTQLTKNVAGRSDPLHPAGLDELMSRTLATATADRLFSHAHVCQTSGDSFCLTQALAGRE				NA	NA	NA	NA	NA
D1-29_01907	2583			hypothetical protein	ATGGTCCAGTCGGACGCCGCGGGTACGAAGCTGTCCTCGCAGCTGCTCTCGGAGCTGAAGGTCCTGGCGCGCACACCGAACCTGCTCGTGGCCTGCAGTTATGACGGGACGCTCTCTGCCGCTGTGGGGACCTCCAGGGTGGCCCTGCCGTTGGGCAGCGCCTCGTTTGCCCTGCGTGCCCTGACCTCCTTGCCGAACACCCACGCGGCGGTGATCTCGGGCCGTTCTTTGCGGGATTTGGCTGCGGTGTCCCGGTTACCGGCCGAAGTCCATCTGGTGGGTTCTTATGGCGCGGAATTTGACATGAATTTCCTGTACGAGCAGCCAGCAACCACTCCACCGATCCTTCAGGAAGTCACTGACGCCCTGACCCAAGTAGTGAGCGCCGAAAAGGATTTCAGGATCGAGAGAATCCAGCGCAAACCCGCCGCGGTCTCAGTCCACCTTGTCGGGAAGCCGGCGGACCTCGCCGCCAGGGTGAGGGCCAAAGCCGAGCAGATCGCACGGGACCGCGGGATGTTTTTCATTGCGGACGGCACCGTCCTGGACCTGTCCCTGGTGGAGCCCGGCAAGGGCAAGGCACTCGAACGGCTGCGGTCCCAGCTGGGCATCAGCGCCGCGCTCTATGCCGGGGACGGTCCCAGCGACGAGGATGCCCTCGCCACGCTGCGGGGTCCTGACCTGGGCCTGCGCGTGGGAGACGGACCCGGGGACGGGCACCGGCTGCCGGATCCGGATGCCTTCGCCGTGGTCCTGGCGGTACTCTTTGAACTCCGCCGTGCCTGGCTGTTCGGCGAGGATGCCGTGGGCTTGGAGCGTCATTCGCTGTTGGGGAACGGTTCCACCACCGCTCTGGTAACCCCGGATGCCAAAATCTGCTGGATGACACACCCTTTGCCGGACTCCGGGTCCGTGTTCGCCCACATCCTCGGCGGAGATGCCGCAGGGCATTTCAGCGTTGAACCGGTCAAGGAATCCCCGGTGCTCGGGCAACGCTACGTCGACAACACCATGATCGTCGAGACCCGCTGGGCGGACATCACCGTCACCGACTACCTCGAACCCTCACCGGACGGGCTCACCAGCCTTGTCAGGGTGCTCACCGGCACGGGCACAGCCAGGATCACCTTCGCACCACGACCGGACTATACCAACGCCCCCTTCAATATGGAGGTCCGGAACCATGACCTCCACGTTCTCGGCACCGCTGACCGCATAATCCTGCACGCCCCCGGGGTCAGCTTCACGGTCACCACCGACAACCGTCACGCCACCGCCACAGCCGAGGCGGACCTGCGCCACGGCCCGGTCGTCCTGAACCTCCGCTGCGGAGAGACCGAAGCTTTTGTGCTCGACACCGCCGGAGAGCCCGTGCGGCGGGCCGAGGTCGCAGCAGCATCCCTGGCGTGGGTGCGCAAACTGAATCTCCCAACCATCAAACCCTCCCTCGTCAAACGCTCCGCACTGGCACTCCGGGCCATGGTGCACGAACCCACGGGCGGAGTCTTGGCAGCGCCCACCACCTCCCTGCCCGAAGGAATCGGCGGGATCCGCAATTGGGACTACCGCTACTGCTGGCTGCGGGACGGTTCCATGACCGTCAAAGCACTGGTCGATCTTGGATCCACCGCCGAAGCCGAGGGTTTCCTGCGCTGGCTCGGCCGGATTCTGGACCAGGCTCCAGGGCCTGAGTGGCTGCACCCGCTCTACTCAGTGACCGGGAACCCCATGGCCAGCGAAGCCACCATCGAAAGCCTGCCAGGATACGCAGGGTCACGCCCGGTGCGAATCGGCAACGCCGCAGACCACCAAGTGCAGCTGGACGTCTTCGGCCCCATCGCCGAGCTCGTCCACGCCCTGAGTAAACACCACGGCATCCTGACCGAATTCCAGTGGCAACTGCTCGAACAGATGGCCGCAGCCGTCCTGGCCCGCTGGCACGAACCTGACCACGGAATCTGGGAAGCCCGGCGCCCGCCCCGCCACCACGTCTACACAAAAGTGATGTGCTGGCTCACGCTGGACCGCGCCCTACGTACAGCCGAACGCCATGGTCGGGTCGCTGATCCGCTCTGGCGCCCCACGGCCGCGGCCATCCGCACCGAAGTCCTGCAGCAGGGCTGGGACGAGGAAACAGCGTCGTACACTGTGGCCTACGACAGCCCCGACGCGGACGCGGCAGTCCTGCACATCGGCCTCTCCGGCCTGCTCGACGTAACCGACCCCAGGTTCCTGGCCACCGTAAACGCTGTCGAGCGCGTTCTGCGCGTTGGACCCACAGTCTTCCGGTACCGCTACGACGACGGGCTGCCCGGACTCGAAGGAGGTTTCCACATCTGCACCACCTGGCTGATCGAGGCCTACCTCGCGATCGGCCGCACCGATGACGCCGAGGAACTCTTCGGGCAACTGGTCAACCTGGTCGGACCAACCGGGCTACTGTCCGAAGAATACGACCCCACAACCGAAACACACCTCGGTAACCACCCCCAGGCATACTCCCACCTAGGCCTGATCCGCTGCGCACAACTGCTGGACCGACAAAAGCCAAGAGAGCTGAACCGGCGCCCTGCACCCGCATAG	MVQSDAAGTKLSSQLLSELKVLARTPNLLVACSYDGTLSAAVGTSRVALPLGSASFALRALTSLPNTHAAVISGRSLRDLAAVSRLPAEVHLVGSYGAEFDMNFLYEQPATTPPILQEVTDALTQVVSAEKDFRIERIQRKPAAVSVHLVGKPADLAARVRAKAEQIARDRGMFFIADGTVLDLSLVEPGKGKALERLRSQLGISAALYAGDGPSDEDALATLRGPDLGLRVGDGPGDGHRLPDPDAFAVVLAVLFELRRAWLFGEDAVGLERHSLLGNGSTTALVTPDAKICWMTHPLPDSGSVFAHILGGDAAGHFSVEPVKESPVLGQRYVDNTMIVETRWADITVTDYLEPSPDGLTSLVRVLTGTGTARITFAPRPDYTNAPFNMEVRNHDLHVLGTADRIILHAPGVSFTVTTDNRHATATAEADLRHGPVVLNLRCGETEAFVLDTAGEPVRRAEVAAASLAWVRKLNLPTIKPSLVKRSALALRAMVHEPTGGVLAAPTTSLPEGIGGIRNWDYRYCWLRDGSMTVKALVDLGSTAEAEGFLRWLGRILDQAPGPEWLHPLYSVTGNPMASEATIESLPGYAGSRPVRIGNAADHQVQLDVFGPIAELVHALSKHHGILTEFQWQLLEQMAAAVLARWHEPDHGIWEARRPPRHHVYTKVMCWLTLDRALRTAERHGRVADPLWRPTAAAIRTEVLQQGWDEETASYTVAYDSPDADAAVLHIGLSGLLDVTDPRFLATVNAVERVLRVGPTVFRYRYDDGLPGLEGGFHICTTWLIEAYLAIGRTDDAEELFGQLVNLVGPTGLLSEEYDPTTETHLGNHPQAYSHLGLIRCAQLLDRQKPRELNRRPAPA	PGPT0014140_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014140-otsB-K01087	NA	NA
D1-29_01908	804			hypothetical protein	ATGCCGAAGCCTGCCGCCGGGAAAGCAGGCGCCAGAAGCGTTTTCCTGTGGCAGTGCTCGGGGGACTCCTCGGAGCACATCAGGGCCAACGAGCCGGGCGACTTCCATGATTGTTTTTCCGAAGTCCTCGTTCTCTCCCAGGCCTCCCAGGTTCCGGCCCTTCCATTCGTACTGGATGCCCCACATCGGCAAAACGACTTCCAGCTCCGCGCGATTGTGCTGCGGCTTCCAGCGGCTGTACGGGCTCGCCCTGGCGTCTACGAGGACGGAGATGCGGGCTTTGTCCAGGATCTCCTTCAAACTGTCCAGGGAAGCGGTGCCGTGGCCGACGGTCCATATGATCGCGCTCATCGGCTCAGGTTAGCGGTAGCCGGAGGGTTCGGAGATGCGGAACATTCCGGCAAGGCGGGGGACGAGGAAGCATACGTCCCTGAGTTTGCGAAGCTCGATGGCCCTTTTGTCATCGAGGAGTTTCCTCCTGCACAGCATGGGAAGACCGGCTGGCAGCTTCGAGGACCTGGGTTCTCTAGTTCAGGGCGTGCGATAGTCAAAGAGAGTCTGGTCCTCACTGGAGAGGGCTCCCCAGTGGCCAACCTGATGCTGAGGCAGCCACTGTTTCATCCGCGGCGCTTGTCTATGCGGGTGCAGGGCGCCGGTTCAGCTCTCTTGGCTTTTGTCGGTCCAGCAGTTGTGCGCAGCGGATCAGGCCTAGGTGGGAGTATGCCTGGGGGTGGTTACCGAGGTGTGTTTCGGTTGTGGGGTCGTATTCTTCGGACAGTAGCCCGGTTGGTCCGACCAGGTTGA	MPKPAAGKAGARSVFLWQCSGDSSEHIRANEPGDFHDCFSEVLVLSQASQVPALPFVLDAPHRQNDFQLRAIVLRLPAAVRARPGVYEDGDAGFVQDLLQTVQGSGAVADGPYDRAHRLRLAVAGGFGDAEHSGKAGDEEAYVPEFAKLDGPFVIEEFPPAQHGKTGWQLRGPGFSSSGRAIVKESLVLTGEGSPVANLMLRQPLFHPRRLSMRVQGAGSALLAFVGPAVVRSGSGLGGSMPGGGYRGVFRLWGRILRTVARLVRPG				NA	NA	NA	NA	NA
D1-29_01909	171			hypothetical protein	ATGGAAATCACCCGCGCCGCCGACATTTGCGAGCAGTTCAAGACCACCCGCAGACAGCTTGAGCAGCTCGCAGCGGAAGGCCGCATCGTGATGTCAACGGACGATCTCAACAGGTGGCGCAGCGCGAATGAGGCCATCACCGGACGGGGGACGCTGGCTCAGCAGTTCTGA	MEITRAADICEQFKTTRRQLEQLAAEGRIVMSTDDLNRWRSANEAITGRGTLAQQF				NA	NA	NA	NA	NA
D1-29_01910	144			hypothetical protein	ATGTCAGCTTTGGGTGTGGCCCAACCTGACGAAGCCGCCCTACGTGAGCCGAGGGACCAGAGCGAGTTGGGGGAGGGAGACGGCAAGAAGTTGCTGTTCTTATATCGGGCGCTGGTTTTCCTCGTTAGGGGCTACGGCGCTTAG	MSALGVAQPDEAALREPRDQSELGEGDGKKLLFLYRALVFLVRGYGA				NA	NA	NA	NA	NA
D1-29_01911	315			hypothetical protein	ATGGCCAACCTCATGCTCTCCGTTATGGCGGCGTTCGCTGAATTCGAACGCTGCCTCATCAGGAAACGCCAAAGAGAAGGCATCGCCCTGGCCAAGCAACGCGGCGCCCACAGGGCGGAAAAATGGTTCGGTCAGAAAATTACCGCGACAGTGGGCGTATCCAAACTGGGCAGGACCTCAATGACCTACGTCTTTGAGGTCCACGGCCATCCGGTGGATGAAGTACCTGGAGGCCTCGCCGCGTACGGAAGCGTAACGGTGGCACACGTTCCACCCAAGTCTGCCAGAGCCCTGCCATGGCCCCCCGCCGTCTAA	MANLMLSVMAAFAEFERCLIRKRQREGIALAKQRGAHRAEKWFGQKITATVGVSKLGRTSMTYVFEVHGHPVDEVPGGLAAYGSVTVAHVPPKSARALPWPPAV				NA	NA	NA	NA	NA
D1-29_01912	1158	cytR_4	COG1609	HTH-type transcriptional repressor CytR	ATGCGCCGACCTCACGAAGACCACAATCGTTGCTCTAGAAAGCACACGCGCGCGAACATATGCGCGTCCGTGTGCAACCGGTTGGAACATTGTCGTTATGATGAGGAAGTGAGTGAAGTCGAAAATGCTTCCGTAGCCACCAACAGGGTTAACAAACCCGCCCGCAGCGGGAAGCCCAGCCCAACGATTTACGACATCGCCAAGGTAGCCGGGGTCAATGCCTCAACGGTGTCGCGGGCGCTCAGTAAGCCGGGCCGTGTAAGTGTCAAGACTCGGAAGCTTGTTGAGGATGCGGCAGCCCAACTTCACTACCAGGTGAACCCCTTCGCGCGGGCGCTGCCAACCGGGCGAACCAGCACGCTTGGGTTGATTGTCGCTGATATCACCAACCCCATTTACTTGGACATCATCCGGGGTACCGAATCAACAGCCATCGGCCAGGACTATACACTGATGCTCGCTGAGTCTGCCGAAACCCCGGAGACCGAGTTCAGCGCGGCCCGGCGCATGATGCCCTCTGTCGACGGTCTCATCCTGGCCAGTCCATGTATGGACGACAGTCGAATTCAGGAACTCGCCGGGGAAAAACCTTTGGTTGTGATCAACCGCGAGGTCAATGATGTTACGTGCGTGGTCCCTGAGGTTAACAAAGGCATCGGTGAGGCCATCCGGAGTCTCGTTGTCAACGGTCACCGCAAAATCGCTTATCTGGCAGGACCTCCACAGTCCTGGATCTCCAAGCGTCACTGGCACGGAGTTCAAACCGCGTGTGACTGGTCGAAACTGGAGGCTGTTCGGCTGGAATCTGTCAGACCTACAGTGGACGGCGGCCGGCAGGTAGCCCGAGAAGTGGTTTCCAGCGGCGCCACCGCGGTGCTGACCTACAACGACATGCTGGCCATCGGACTGATGCAGGAGCTGCAGGCAGCGTCTGTAGTTGTTCCCGACGAGATCAGCATCGTGGGCTTCGACGACATTTTCGGGGCGGACTTCACAACTCCACCTCTTACAACCGTTCGGTCTCCAATGCTGACCTGCGGCAACGAAGCAGCAAGGCTTGTGCTCAACCTGCTCAACGGGGAAGTGCCCAGCACCCTAATACTCCATGTCGACACAGAACTTGTACTGCGCGGCTCCAGCGGAAGACTTCTGACTTAG	MRRPHEDHNRCSRKHTRANICASVCNRLEHCRYDEEVSEVENASVATNRVNKPARSGKPSPTIYDIAKVAGVNASTVSRALSKPGRVSVKTRKLVEDAAAQLHYQVNPFARALPTGRTSTLGLIVADITNPIYLDIIRGTESTAIGQDYTLMLAESAETPETEFSAARRMMPSVDGLILASPCMDDSRIQELAGEKPLVVINREVNDVTCVVPEVNKGIGEAIRSLVVNGHRKIAYLAGPPQSWISKRHWHGVQTACDWSKLEAVRLESVRPTVDGGRQVAREVVSSGATAVLTYNDMLAIGLMQELQAASVVVPDEISIVGFDDIFGADFTTPPLTTVRSPMLTCGNEAARLVLNLLNGEVPSTLILHVDTELVLRGSSGRLLT	PGPT0017992_2159	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
D1-29_01913	516	gntK	COG3265	Thermoresistant gluconokinase	GTGAGCACACACCGCGTAGTCGTCATGGGCGTCTCCGGCTGCGGCAAGAGCACCGTCGGAGCGCTCCTGGCGCAGGAACTCGGTGCCGGATTCCTCGATGGGGACTCATTGCACCCCGGCGCCAACATCCAGAAGATGGCGGCCGGGATCCCGCTGGACGATAACGACCGCCGGCCTTGGCTCCAGGAAGTAGGACGGCGCCTCGCAGCTGAAGGCGACAATTCACTCGTCATTGCCTGCAGCGCCCTGAAGCGTTCCTACCGGGACTTGATCCGTTCCGGCGCTGCGGACGCGCGGTTCGTACACCTGCACGGCACCGCAAGTCTTCTTGCCGCCCGAATGGCAGCGCGCCCTGGGCACTTCATGCCGCCGTCGCTCCTGGCATCACAACTGGAGACACTGGAGCCACTCGGCGAGGGTGAGTCAGGGATTGTTCTCAACATCGGCGAATCCCCTGCTCATCTGGCGTCTGAAGCCGCGGCATGGCTCGAGTTCACAGAACGCGGCGTCCGCTGA	MSTHRVVVMGVSGCGKSTVGALLAQELGAGFLDGDSLHPGANIQKMAAGIPLDDNDRRPWLQEVGRRLAAEGDNSLVIACSALKRSYRDLIRSGAADARFVHLHGTASLLAARMAARPGHFMPPSLLASQLETLEPLGEGESGIVLNIGESPAHLASEAAAWLEFTERGVR	PGPT0018055_1716	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
D1-29_01914	1230	rspA_1	COG4948	D-galactonate dehydratase family member RspA	ATGAAAATCATTGCCGCCGACGTCTTCGTGACAAGTCCCTCCCGGAACTTCGTGACCCTACGGATTACCACCGAGGACGGTGTGACCGGTATTGGTGACGCCACCCTGAACGGGCGTGAGCTCGCCGTCGCCGCCTACCTCAAGGAACACGTCGCGCAGCTGCTGATCGGCAAGGACCCGCACCGGATCGAGGACACCTGGCAGTTCCTGTACCGCTCCTCGTACTGGCGCCGCGGCCCGGTGACTATGGCGGCGATCGCCGCCGTCGACATGGCGCTGTGGGACATCAAGGGCAAAATCGCGGGCATGCCGGTGTACCAGCTTTTGGGCGGGGCGTCCCGGAACGGGTTGCGCGCGTACGGGCACGCCTCCGGGGCGGACCTTCCGGCTCTGTTCGATTCGGTCCGGGAGCACCTGGAACTCGGCTACAAATCCATTCGGATCCAGACCGCCGTCCCAGGCATCAAAGCCGTCTACGGTGTCGCGGCGCAGGCGCAGGCGTCGGGTGAGCGCTACGACTACGAACCCGCCGGCCGCGGTGCGTTCCCGGTGGAGGAGGACTGGGACACCCGCGCCTACCTGCGCCACCTGCCAACCGTGTTCGAGGCGGTCCGGAACGAGTTCGGTCCGGAACTGCCGCTGCTGCATGACGGTCACCACCGCATGACGCCCATCCAGGCCGCCAAGCTGGGCAAGGCGCTGGAACAGTACGACCTGTTCTGGCTCGAGGACTGCACCCCGGCCGAGAACCAGGAAGGACTCCGCCTGGTCCGCCAGCACACCACCACCCCGCTGGCCATCGGGGAAATCTTCAACACCGTGTTCGACTTCCAGACCCTGATCAAGGAACAGCTGATCGACTACGTCCGCGCGGCTTCCACCCACTTCGGCGGGATCTCGCCGCTGAAGAAGGTGATGGACTTCGCCGCGCAGTACCAGATCAAATCCGGCTTCCACGGCCCAACCGACATCTCCCCGGTGGGCTTTGCCGCGCAGCTGCATGTGGGCCTGGCCATCCACAACTACGGCATCCAGGAATACATGCCGCACTCGGACAAGACCAACGAGGTCTTCGAGCAGTCCATGACCTTCGTCGACGGTTACCTCCACCCAGGGGACAAGCCCGGCATCGGCGTCGAATTCAACGAAGAAGCCGCAGCAGCGTACCCCTACCAGCAGGCCTACCTGCCCTACAACCGCCTCATCGACGGAACGGTCCACGACTGGTGA	MKIIAADVFVTSPSRNFVTLRITTEDGVTGIGDATLNGRELAVAAYLKEHVAQLLIGKDPHRIEDTWQFLYRSSYWRRGPVTMAAIAAVDMALWDIKGKIAGMPVYQLLGGASRNGLRAYGHASGADLPALFDSVREHLELGYKSIRIQTAVPGIKAVYGVAAQAQASGERYDYEPAGRGAFPVEEDWDTRAYLRHLPTVFEAVRNEFGPELPLLHDGHHRMTPIQAAKLGKALEQYDLFWLEDCTPAENQEGLRLVRQHTTTPLAIGEIFNTVFDFQTLIKEQLIDYVRAASTHFGGISPLKKVMDFAAQYQIKSGFHGPTDISPVGFAAQLHVGLAIHNYGIQEYMPHSDKTNEVFEQSMTFVDGYLHPGDKPGIGVEFNEEAAAAYPYQQAYLPYNRLIDGTVHDW	PGPT0018285_251	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
D1-29_01915	1425	mtlK_1	COG0246	Mannitol 2-dehydrogenase	ATGACCGTCCGGAACGGCGTCCAGGCGTTGAACCGCACCAACGCTGAAGCCGGCCCCGCCGCTCCCGTGCAGATTGTGCACATCGGCCTGGGCGCCTTCCACCGCTCACACCAAGCCTGGTTTACCGAACAGGTTGACCCAGAACGCCAGTGGGGCATCGCGGCCTTCACCGGCCGCAGCCCGGAAGCGGCAGAGATCCTCGCCGCCCAGGACGGGCTCTACACCCTCGTCGAACGCGGCAACGAGGGCGATACGTTCAGCATCGTAGCCAGCATCAGTGCAGCATACGACGGCGCGGACCTCCCCCGGCTCACGACGGTACTGTCAGCACCTGGGACCGCACTGCTGACGATCACCGTCACTGAACCGGCCTACCATCTTGGCGCTGACGGGCTCCTCAACACCTCTTCCCCCGCCGTCACAGCCGATGCAGCAGCCCTGAAAAAGATGTGGGTACAGGACGGAAGCCTCAAGATACACCGTGACCATCCGCAGCTGGCCACAATGGGCGCGCGCGTCCTGCCGGGCCTGGATGCCAGGCGCCGGGCAGGTGCCGGCCCGATCACCGTCGTCCCCTGCGACAACCTCACGTCCAATGGTGCGGCGGCCGCACAGGCGATCCATGGCCTCGCCGCGCTGGTCTCTGCGGAGCTGGCCAACTGGATTGCCGGGAACGTGTCCTTCGTCAACACCTCGGTGGACCGTATCACTCCTCGTACCACCGGCACCGACATCGCTGCTGTTCGGGAGGCCACCGGGTTCGACGACGCCGCACCGGTCATCACCGAACCCTTCTCCAACTGGGTCCTCTGCGGTGAATTCCCGGCTGGGCGCCCGGCGTGGGAGAACGCCGGAGCGGTTTTCGTGGACGATATTGCTCCCTTTGAACAGCGCAAACTCTGGCTGCTCAACGGCGCTCATTCGCTCCTCGCCTACGCCGGCCAGCTCCGCGGCCTGCGCACAGTCGCGGATGCGGTGGCCGATCCCTCCTGCGCAGCCGAACTCGAAGTCTTCTGGAATGAAGCCGCCGCCCACCTGGACCAGCCCCAGCTCGACATTCCCGCCTACCGCGCCGCCCTGCTTAGCCGCTTCCGCAACCCGCGGATCGAGCACCTGCTCGAACAGATCGGTGCCGACGGCACTACAAAACTCCGCATGCGGGCTGTTCCGGTCCTCCTCGCCGAGCGCTCGGCAGGCCGGACCGGAGCTGGCGCTGCCCGCGTCATCGCTGCCTGGGCTGATTTCCTGGTCCAACAGCACGACCACGGCACGAAGCCAGTTGACGCTGAAGCCGACAATCTCCTCGGCATCCTGAAACTCTCCGGCAAGGACCTCATCCAGGCCCTCGTCACAACACTCAACACCGACCTCGGAGCTGATACCGCCGTCGTCGACCTCGTCCACCGCCTCCGGGGCAGCTGGTAA	MTVRNGVQALNRTNAEAGPAAPVQIVHIGLGAFHRSHQAWFTEQVDPERQWGIAAFTGRSPEAAEILAAQDGLYTLVERGNEGDTFSIVASISAAYDGADLPRLTTVLSAPGTALLTITVTEPAYHLGADGLLNTSSPAVTADAAALKKMWVQDGSLKIHRDHPQLATMGARVLPGLDARRRAGAGPITVVPCDNLTSNGAAAAQAIHGLAALVSAELANWIAGNVSFVNTSVDRITPRTTGTDIAAVREATGFDDAAPVITEPFSNWVLCGEFPAGRPAWENAGAVFVDDIAPFEQRKLWLLNGAHSLLAYAGQLRGLRTVADAVADPSCAAELEVFWNEAAAHLDQPQLDIPAYRAALLSRFRNPRIEHLLEQIGADGTTKLRMRAVPVLLAERSAGRTGAGAARVIAAWADFLVQQHDHGTKPVDAEADNLLGILKLSGKDLIQALVTTLNTDLGADTAVVDLVHRLRGSW	PGPT0018275_1155	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
D1-29_01916	1416	uxaC_1	COG1904	Uronate isomerase	ATGCCCCCTTCACCTTCTTCCCTCGCAGCGGAGCCGGACCGGCTCCTGCCAGCTGAACCCGGAGTGCGTGCAATCGCCCGGGACCTGCTGGGCCTCGTTGACTCATTGCCCATCATCTCCCCACACGGCCACGTCGACGCCGCCGTGCTGGCCCAAGACACAGCCTTTCCGGATCCGGCAACGTTGCTGGTCACCCCGGACCACTACGTCGTCCGTCTCATCCACGCCAGCGGAGTCCCGCTCGACCGTCTCAACCAAGGCCCGATCGCCAACACCGACCCCCGCATCGTATGGCGCGAGTTCTGCAAGGCCTGGCCGCTGTTCGACGGCACCGCGTCGGGCTACTGGATCCGCTCTGAGCTCCAGCACGTCTTCAAGCTGCACGAGGAGATCTCCGAGGCTACGGCTGACAGCACGTTCGACACGCTTCAGTCCCGCCTGAGGGAACCCGCCTTCCGCCCGCGCCAGCTCTTCCACGATTTCAACATTGAGGTGCTCGCCACCACCGATGATCCGCTGGACGAGCTGCAGCACCACGCTGCCATCGCAGCAGACCATACCTTCCGCGGCCGCGTAATTCCCACGTTCCGCCCGGACGCGTACATCAACATCGGCCACCCCGACTGGGTGGAGAACGTTGGCCGCCTGATCGGCGTTGCCGGTGACGGCGCGGCCGGCTACACCGGGTACATCCGCGCGATGGAGAACCGCCGGCTCTACTTCGTGGAACACGGGGCCGTATCCGCGGACCACGGCGTGCGCACACCGCTGACCCTCAAGCTTGACCGGTCCGACGCCGAGAAGCTCTTCACCCGAGCACGATGCGGTGAATGGACAGCGGAGGACCGCGACGTCTTCGAAGCCCACATGATGTACGAGATGGCGCGCATGTCGGTCCAGGACGGCCTGGTCATGACAATCCACCCTGGCTCCTACCGTAACCACCACCTGCCCAGCTTCGAGAAGTTCGGCGGCGACACCGGCCACGACATCCCGTTCCCGATCAGCTACACCGAAGCCATCCGCCCGCTGCTGCAGGACTTCGGCACGGCACCCGGCTTCCACCTCGTGCTGTTCACCCTCGACGAGACCGTCTTCTCCCGTGAGCTGGCCCCGCTGGCCGGGTTCTACCCTTCCGTTTACATCGGGGCGCCCTGGTGGTTCCTCGATGCCCCCGACGCCATGCTCCGCTTCCGCTCGGCCATCACAGAAACCGCTGGATTCTCGCGATCCTCCGGCTTCATCGATGACACCCGCGCATTCTGCTCGATCCCCGCCCGCCATAACGCCTCACGCCGGATCGAAGCATCCTTCCTCGCACGGCTCGTGTCCGAGCACCGCATCACGCCCGCCCGGGCCGAGGAGCTGATTGTCGATGTCGTTGACCGGGCACCGCGACGGGTCTTCAAGCTATGA	MPPSPSSLAAEPDRLLPAEPGVRAIARDLLGLVDSLPIISPHGHVDAAVLAQDTAFPDPATLLVTPDHYVVRLIHASGVPLDRLNQGPIANTDPRIVWREFCKAWPLFDGTASGYWIRSELQHVFKLHEEISEATADSTFDTLQSRLREPAFRPRQLFHDFNIEVLATTDDPLDELQHHAAIAADHTFRGRVIPTFRPDAYINIGHPDWVENVGRLIGVAGDGAAGYTGYIRAMENRRLYFVEHGAVSADHGVRTPLTLKLDRSDAEKLFTRARCGEWTAEDRDVFEAHMMYEMARMSVQDGLVMTIHPGSYRNHHLPSFEKFGGDTGHDIPFPISYTEAIRPLLQDFGTAPGFHLVLFTLDETVFSRELAPLAGFYPSVYIGAPWWFLDAPDAMLRFRSAITETAGFSRSSGFIDDTRAFCSIPARHNASRRIEASFLARLVSEHRITPARAEELIVDVVDRAPRRVFKL	PGPT0018210_1059	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018210-uxaC-K01812	NA	NA
D1-29_01917	1008	degA_2	COG1609	HTH-type transcriptional regulator DegA	ATGGCTGATTCACAAGGCTTACCCTCGATCTACGACGTCGCTCGTGTCGCCGGGGTGTCGGCATCCACCGTTTCCCGTGCCTTCGCTCGCCCGGGGCGGGTCAGCCACCATACGGCACAGAAAATCTTCGCTGCGGCCATCGAGGTGGGCTACCGCTCAGCCCATGTGGCCGGCATCCAGCATCCTGGCGGGCAGCGCTCCTCAATGATCGCCCTGGTCATCGCGGACATCCGGAACCCTGTGTACGCGGAGATGGTGCGTGGGGCTGAAGCCGCGGCGGCAGAAGCGGGTTACACCATGCTGCTCGCCCACACACAGGAGTCGGAGCGGAAGGAACGCGAGGCGCTTGAGCGCGCTCTGCCCTCCGTGGACGGTATTGTCCTGTCAAGTTCGCGCATGTCCGATTCAGCAATCCGCATGATTGCCAAGCAGAAACCCCTTATCGTCATGAACCGCGCAGTCAAGGACGTGGCAAGTGTGGTGACCGATAACCCACGCGGCATCCGCCGCGCCGCCGAACACCTCGGCGAACTCGGACACCGCACCATCACCTACCTCGCAGGACCCGAAGCGTCCTGGGCCGACGGCATTCGGTGGCGCTCACTGCGCGAAGCAGCCATGGAGCTGGAGCTCTCGGTTCGCCGGACGGGATCGCATCTGCCGACCATTCAGGGCGGTGAGGAAGTCGCCGCCGAATGGCTGCACCACCGCACCCCCGGTGTCATCGCCTACAACGACCAAATGGCCATCGGCTTCATCCGCGCCCTGCAGCAAAAAGGGTTATCCGTTCCCGGCGACGTCAGCGTCGTCGGCCATGACAACAGCTATGGGGCCGCCCTCATTACCCCCTCGCTGACCACGATCGAGGCCCCCCTATACTCCCTCGGTGCTACGGCAGTGAACAACCTGCTGGCCTTCGCCGCCGGCGCCCGTTCCCGATCCAACCAGCCGGTGGTCCTCCCCACCCGACTGGTCGTCCGCGACTCCACCGGGCCGACAAACAGCTGA	MADSQGLPSIYDVARVAGVSASTVSRAFARPGRVSHHTAQKIFAAAIEVGYRSAHVAGIQHPGGQRSSMIALVIADIRNPVYAEMVRGAEAAAAEAGYTMLLAHTQESERKEREALERALPSVDGIVLSSSRMSDSAIRMIAKQKPLIVMNRAVKDVASVVTDNPRGIRRAAEHLGELGHRTITYLAGPEASWADGIRWRSLREAAMELELSVRRTGSHLPTIQGGEEVAAEWLHHRTPGVIAYNDQMAIGFIRALQQKGLSVPGDVSVVGHDNSYGAALITPSLTTIEAPLYSLGATAVNNLLAFAAGARSRSNQPVVLPTRLVVRDSTGPTNS	PGPT0017992_6231	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
D1-29_01918	1023		COG1638	Solute-binding protein	ATGTTGCGCACAAAGATTTATTCCCTGATGGCTGTTGCCACTGCCACCGCGCTAGCCCTGACCGCCTGCGGCGGCGGTGAGGCGGGGGGAGGGAGCCCCGGTGGGGAAAGCGGCACCTTGCGGGTGGCGCTGAACCAGACCGAGGAGCACCCCTCGTTCATTGCCCTGGACAACTTCGGCAAGCGCCTTGAGGCCGCCACTGAGGGCCGCTGGAAGATGGACGTCTATCCGAACGAGACCCTCGGCGCCCAGCAGGAGGCCCTGCAGTTGGTCTCCCACGGCTCGGTGGACATGGCGATCGTCTCGGGCACTCAGCTGGAGAACCTTAACAAGGACTTTCGGGTCTTCAACCTCCCCAAGGTCTTCGATGACGTCGAGCACCAGATGAAGGTCATCCACGACCCGAAGGTCACCGGAGAGCTGTACGGCTCCCTCGAGGAGTCAAACAAGCTCACCGTCTTGGGTGGGTTCACCCAGGGGGCCCGCAGCATCTACACCACCGACGCCCCGGTGAAGACGCCGGCGGACCTGGCCGGCAAGAAGCTGCGCGTGCAGGAGTCGGACGTGATGATAGCGCTGGCCGAGGCGTTGGGTGCCTCCGCGACCCCGATGGCCTTCGGTGAGCTCTATACCGCCCTGCAGTCCGGGGTGGTAGACGCGGCTGAGAACAATGAGGTCTCCTACTTCACGCAGAAGCATTTCGAGGTCGCTCCGCACTTTTCCCAAACCAATCACCTGGTCGGTTTGGACTATCTGATCGTCAACTCCGATCTGCTCGCGAAGATGTCCGAGACTGACCGCGCCGCGTTCCAAAAGGAATGGACGGCCACGCACGAGGAGCACACCAAGCTCTGGACCACGGCCACGGAGGAGAATATCGCCAGCGCCAAGGCCGGTGGTGCGACCTTCAGTGAGGTCGATGAGGCCGCTTTCAACAAGGTGCTCGAACCGATCGCCGAAAAATTCATCGAGAACGACTCTCAGCAGGCCCTCTACGACGCCGCTCGCGCCGCCGTGAAGTGA	MLRTKIYSLMAVATATALALTACGGGEAGGGSPGGESGTLRVALNQTEEHPSFIALDNFGKRLEAATEGRWKMDVYPNETLGAQQEALQLVSHGSVDMAIVSGTQLENLNKDFRVFNLPKVFDDVEHQMKVIHDPKVTGELYGSLEESNKLTVLGGFTQGARSIYTTDAPVKTPADLAGKKLRVQESDVMIALAEALGASATPMAFGELYTALQSGVVDAAENNEVSYFTQKHFEVAPHFSQTNHLVGLDYLIVNSDLLAKMSETDRAAFQKEWTATHEEHTKLWTTATEENIASAKAGGATFSEVDEAAFNKVLEPIAEKFIENDSQQALYDAARAAVK				NA	NA	NA	NA	NA
D1-29_01919	648			hypothetical protein	ATGACCAGCAAGAAGCCAACAGGGGCCAGCGGTGACGTCCCGGCCGTCCCCGGGCGGGACGGTGGTGCTTCAGCCGTGCCGGCACCGCCGGCAGTCGCCGGACAGCAGCGCCCCACCGGCGGTCCAGCCGTGGCCGCTTTGGAGGCAGTGCGACACATCATCGACCGGGTCCTGGCCCTGCTGTGCATGGTGATCTTTGCCGCACTGGTAGTCGTGGTCGCCTGGCAGGTGATCTCCCGGCAGGTGCTCGGCGCACCGGCATCCTGGACCGAGGAATCAGCCCGGTATGTCTTCGTCGTCCTGGCCCTGCTCGGCGCGGCGCTGGTGTTCTCCGAGCGTGGCCACATCGCAGTCGAGCTCCTTATGAAGAAGTTTCCCGAGCCGGTGCAGAGGGTCGTCGCCCTCGTTGTGGAAGTGACGATCGTATTCTTCGCCGTGTTCGTGATGATCTTCGGCGGATACGAAGTGGCGATGAACGCGTGGAACCAAAACATCTCCACCATGCCGGTGAGTGTGGGCCAGATCTACCTGGTCCTGCCAGTCGCCGGCGCGTTGATCACCTTCTTCGCGCTGTGTCACATAGTGGGCATGTTCGCTGGCACCGAGGAGCTCGTGCCTGAGATCGACGAGAACAACCAAGGAATCTGA	MTSKKPTGASGDVPAVPGRDGGASAVPAPPAVAGQQRPTGGPAVAALEAVRHIIDRVLALLCMVIFAALVVVVAWQVISRQVLGAPASWTEESARYVFVVLALLGAALVFSERGHIAVELLMKKFPEPVQRVVALVVEVTIVFFAVFVMIFGGYEVAMNAWNQNISTMPVSVGQIYLVLPVAGALITFFALCHIVGMFAGTEELVPEIDENNQGI				NA	NA	NA	NA	NA
D1-29_01920	1311	dctM	COG1593	C4-dicarboxylate TRAP transporter large permease protein DctM	ATGGAACCCGTCACACTCGCCGCGCTCATACTGCTCGGCGGCATGATCATCGGCATTGCCCTGGGGGTCCCTGTTGCCGTCGCAATGGGCGTGCCCTCGGCCCTTGCCATCGTCGTCCTCCTCGGCTGGGACGGTGCGGCACTCACTTCGGCCCAACGCCTGTTCACCGCCAGCAACTCCTTCGCCTTGCTTGCGATCCCCTTCTTCATCCTTGCGGGCGGACTGATGAATACCGGAGGCATTGCCCAACGTCTCATCGACTTAGCGCAGGTCCTCGCAGGGCGCTTGCCTGCCTCCCTGGCCCAGACCACCGTAGTGGCCAACGCCATGTTCGGCGCGGTCTCAGGCGCCTCCGTCGCCTCCGCCGCCGCAGTCGGCTCGGTGCTCTCCCCGCCGATGCGTAAAGCTGGCTACGACCCGGCCTTCGCCGCCGCTGTCAACGCAGCGGCCTCGCCCGCAGGAATGCTGATCCCCCCGAGCAACACTTTCATCGTCTACTCTCTCGTCTCGAGCACCTCTGTCGCAGCGCTGTTCATGGCCGGCGTCGGCCCGGGCCTGCTGTGGGCGCTGGTCTGCGTCATCATGGTCGCGATCTACGCCCGCAAACACCCCGAGCTCGCCAGCGGGCAGCGCCCCACCGCCCGCGAGGCCGGGATCGTGTTCCTGCGCGCCGTCCCATCCCTGCTGATGATAGTCATCGTCATCGGCGGCATCCTCGCAGGGTACTTCACCGCCACAGAATCTGCCGTCATCGCCGTGCTCTACTCCCTCGCCCTCGGCCTGATCCAGAAGACGCTGCCGCTGCGCGCACTGCCCTCAATCACCATAGAAGCGGCCAAAACAACCGCGATCGTCATGCTGCTCATCGGCGTCTCGGGCATTCTCGCCTGGGTGATGTCCTTCGCCAAGGTGCCCGCGCTCGTCGGTGACGCCCTCCTGGGCCTGACCGACAACACCGTCGTGATACTCGTCCTTATCATGATCATCATGCTCCTGGCCGGCACCGTAATGGACCCCACGCCGGCCATCCTGATCTTCACGCCGATCTTCCTGCCGATCGTCACGCAGCTCGGTGTCGATCCGATCCACTTCGGCACGATGATGGTCTTCAACATGTGTCTGGGGAATATCTCCCCGCCCATAGGAAATAACCTCTTCGTAGCCGCGCGAGTAGCCAAGGTGAGCATCGAACCTATGATCAAGCGGATCATGCCCATCTTCTGGGCCCTGACCGTCGCCCTTTTCCTCGTCGCCTTCGTCCCACAGCTATCCATGTGGCTACCCACCGTCATGGGCCTGGTAAAGCCGTAA	MEPVTLAALILLGGMIIGIALGVPVAVAMGVPSALAIVVLLGWDGAALTSAQRLFTASNSFALLAIPFFILAGGLMNTGGIAQRLIDLAQVLAGRLPASLAQTTVVANAMFGAVSGASVASAAAVGSVLSPPMRKAGYDPAFAAAVNAAASPAGMLIPPSNTFIVYSLVSSTSVAALFMAGVGPGLLWALVCVIMVAIYARKHPELASGQRPTAREAGIVFLRAVPSLLMIVIVIGGILAGYFTATESAVIAVLYSLALGLIQKTLPLRALPSITIEAAKTTAIVMLLIGVSGILAWVMSFAKVPALVGDALLGLTDNTVVILVLIMIIMLLAGTVMDPTPAILIFTPIFLPIVTQLGVDPIHFGTMMVFNMCLGNISPPIGNNLFVAARVAKVSIEPMIKRIMPIFWALTVALFLVAFVPQLSMWLPTVMGLVKP	PGPT0017335_2518	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
D1-29_01921	1887			hypothetical protein	ATGATTTCTCATGGCAGGGCGCACGAAGCGGAGCCGGAAGGAAAGGTAAAACCCTTGGTAATCTCGAGGTTTGGTTATGCGAGCAGCCCACGTATACGGCGTATCACTTGGGCGGCTGTCTTGTCAGTGACCCTTCTTGCCGCCCTTAATCTACAGAGGGCTGCGACACCCACAGCGCTGCTCTATCAGGTCGCCCCGAAAGTCCACGACGCCAGCGCCTTGGGCAGTGCCGCTGTGCCCTATGACGAGGAACTTGTGGCGGCCAACCAACTGGGATCGAAGATGCTGCCTTCGGGCAGCCCCTTTGCGTCAATGCCGTCGCTTGGGGATTCCCCGCAGGAATATCTGGGAGCGCTCTGCTGGAGTTATCAGCCCCGGACCTCATCGTTTCCAAGCGGCAGGCATATGTCCGACGCCCAATTCAATAATGCTTCCAGCATTGTCGACGCCGCTGTGAGGCTTGCGCTGCCCGCCGAGGCTCAAGTGCTCGGCGTGCAAGCCGCGCTCGGCGAGTCTTCACTTGAGAACCTCGATCATGGGGATGCTGCCGGACCCGACTCCAGGGGACTCTTCCAGCAACGGGACAACGGGGCGTGGGGATCATTGAACGACCGCGTGGACCCATTTGTCAGTGCAACCCACTTCTTTCTGGCACTCAGAAATGTCGACGGTTGGGAACAACTCCCGCCCAGTGCTGCCATCCATCAGGTACAGCGGAACCAGGACCCGGAGCACTATACAAAATTCCGCCCGCAGGCACTGGAAGTTGTCCGCGCCCTGAGGGCTAAGAACGCTGCGGGGCTAAATGTGCACGACCGTGCCTGCAGCCCGGGCGGGACACAACAAAGCCAGGTTTCGCTGGCACCACTCTTGCAGCGCCCGGCAGCAGGGACGCTGATGTCTCCGCTGGCGAATCTCCGGCAGACGTCCCCGTTCGGACACCGATCCAGCCCAATCACGGGAACGGCCGGGGAATTCCATACGGGGCAGGATTACGCGAGCAGCTGCGGCACCCCTGTCCACTCCGCAGACGAGGGTTCAGTCAGGGAGGTCGGCTGGCACCCGTGGGGAGGAGGAAACCGGGTGGAAATTGACCACGGCAACGGCCTGGTCACCACGTACAACCATCTGCAAGGGATCGCTGTCCGCAAGGGGCAAAAAGTCGGCGCCGCAGAAGTCATCGCAACAGTCGGCACAACTGGTTCCTCTACCGGCTGCCACCTTCACTTTGAAACCATACTTAACGGTCATCATGCGGATCCAAACATGTGGCGGCTGATGCCGCTGCCGGCAGGATCCTCCCTTGGCGCGCTCATGCTGACAAGCTACGCGCCAGGATCAGCAGCAGGGCAGTCCACCGCAACACCTTTGTGGTCACTGCCGACTGTGCGAACCGCCGAGCCGGTGTCTCCGACCAGGGCCGCGCCATGGCCGAGGACCGCCGCCGTGCCGGGTCCCACTCCCGAGCCAACGCCGGCACCTTTGGTTCTTCCTGAGCCCACGCTCACAGCCGAGCCGGCGCCGACGCCCACCGTCGAGCCAACGCCGACAGCTGCTCCCAGCCCTGAACCAACACCAGTGCCGGAGCCGGAGCCAACACGGATGCCTACCCCGGAGCCGGCACTGACCGCCGAACCGGAGCCGGAGCCGACACGGATGCCTACCCCGGAGCCGGCACTGACCGCCGAACCGGAGCCAACACTGACCGCCGAACCGGAGCCGGAGCCGACACGGATGCCTACCCCGGAGCCGTCACTGACCGCCGAGCCGGAGCCAATACTGACCGGCGAACCGGAGCCGACGCCGATGACACCCGCCGACTCAACAGCGACGGCCGAGCCGGAACGTACTGTGTCTGGGGCATATCTCCCCGCCCGTAGGAAATAA	MISHGRAHEAEPEGKVKPLVISRFGYASSPRIRRITWAAVLSVTLLAALNLQRAATPTALLYQVAPKVHDASALGSAAVPYDEELVAANQLGSKMLPSGSPFASMPSLGDSPQEYLGALCWSYQPRTSSFPSGRHMSDAQFNNASSIVDAAVRLALPAEAQVLGVQAALGESSLENLDHGDAAGPDSRGLFQQRDNGAWGSLNDRVDPFVSATHFFLALRNVDGWEQLPPSAAIHQVQRNQDPEHYTKFRPQALEVVRALRAKNAAGLNVHDRACSPGGTQQSQVSLAPLLQRPAAGTLMSPLANLRQTSPFGHRSSPITGTAGEFHTGQDYASSCGTPVHSADEGSVREVGWHPWGGGNRVEIDHGNGLVTTYNHLQGIAVRKGQKVGAAEVIATVGTTGSSTGCHLHFETILNGHHADPNMWRLMPLPAGSSLGALMLTSYAPGSAAGQSTATPLWSLPTVRTAEPVSPTRAAPWPRTAAVPGPTPEPTPAPLVLPEPTLTAEPAPTPTVEPTPTAAPSPEPTPVPEPEPTRMPTPEPALTAEPEPEPTRMPTPEPALTAEPEPTLTAEPEPEPTRMPTPEPSLTAEPEPILTGEPEPTPMTPADSTATAEPERTVSGAYLPARRK				NA	NA	NA	NA	NA
D1-29_01922	117			hypothetical protein	ATGATCAAGCGGATCATGCCCATCTTCTGGGCCCTGACCGTCGCCCTTTTCCTCGTCGCCTTCCTCCCTCAGCTATCCATGTGGCTACCCACCGTCATGGGCCTAGCGAAGCCGTAA	MIKRIMPIFWALTVALFLVAFLPQLSMWLPTVMGLAKP				NA	NA	NA	NA	NA
D1-29_01923	198			hypothetical protein	ATGTACTTGGAAGTACTGAAAAGCTCCGGCCTGCCCCGGCGGTTAGCCCTCAATCCGTCCGTACCTGCTGATCACGTCGCCCTAGATGGTCTTGGGCTGGTCCTGAAGTACCAGCCGGGATACCGGGTCGCCGTCCTGGAGCAAGCGGCAGCCGCTACTCAACGTCTGGCTTCAGGGACGTCGATGCGAGAGGCCTGA	MYLEVLKSSGLPRRLALNPSVPADHVALDGLGLVLKYQPGYRVAVLEQAAAATQRLASGTSMREA				NA	NA	NA	NA	NA
D1-29_01924	333			hypothetical protein	TTGTTCACTGCGGTCTCGCCTGCATCCCCGCTTGACGCCGCGACCAACTATGAGCTGGACGTGATCGCAGCGGTTGTCATTGGTGGCACTCGCCTCATCGGTGGGCACGTGTCTGTTGTGGGCACGCTCATTGGCGCCGCCTTGATGGCAGCTGTCCGCAACGGCATCAACGGCCTGAATGTCGACACGTTCTGGCGGCGGGTAGTCGTCGAAAGCATCATTCTTATCGCTATCGCTATCGCTATCGCTTACGACGGAGTCGCCGCCCGACGGGCACGACGCGCAGCACGTGTCGTCAGCAGCCCGGTTCACAACGAACTGGCCGTTAGATGA	MFTAVSPASPLDAATNYELDVIAAVVIGGTRLIGGHVSVVGTLIGAALMAAVRNGINGLNVDTFWRRVVVESIILIAIAIAIAYDGVAARRARRAARVVSSPVHNELAVR				NA	NA	NA	NA	NA
D1-29_01925	2511	bglB_2	COG1472	Thermostable beta-glucosidase B	ATGATTGGCCGTTCAAGCCGAAAACACAGATTCCTTGCACTTGCTGTTGCCTTACCGCTCGCCCTATCCGGCATTGGCCTAGGATCTATGGGGGCCGCAACCGCAGAAAGCACGCAAGCCGTCGTTAATGACCTGCCGTGGATGAATACCGCGCTCACACCAGAAGAGCGCTCGAGCCTGCTGCTCAAGGCACTGAATCTTGACCAGAAGATACAGCAACTGAGCGGGGCACGTCCGGAGATCCTGCCCGACCTTCCCGAATGCTACGGAGGGCGCCATGTAACGGGTATTGCGGAACTGGGTATCCCGACGCTTCGCATCACCAACGGCCCCGTCGGCGTGGGACAGAACGACTGCGTCGACCCCGCACTGTTTGGAGACCCCAACGCACCGTCTGGCACGCCATACGTTCACCCTTCCTCGGCTAAGGCAACGGCGCTGCCGTCAGGCACGACGGTGGCTGCCTCCTTTGACCCTGAGGTCGCAGCCACTTTCGGCGGTGTCATTGCTGACGAGATGAACAACCTCGCGCTGCACGTGTTTGAGGCGCCGGGCCTGAACATGGCTCGGTTGCCGGTGCTGGGCCGGAACTTCGAGTATTTTGGTGAGGACCCCTTCCTTACGGGCACGATGGGTGTCGCGGAAATCCAGGCCGTGCAGGACAAGGGCCTGATCGCTATGGCGAAGCACTATGCCGCCAATGAGCAGGAAACCAACCGCAAGACTGTTCAGGAGACGGTCGACGAGCGAACCCTGCACGAAATGTATCTGTTGCCGTTCGAGATGGCTGTCAAGGACGGCGATGTTGCCTCGATTATGTGCGCATACAACTACGTCAACGCGGTTTCCTCCTGCGAGAACGAGTACCTTCTCACCGATGTGCTTCGCGAACAGTGGGGCTTCGAAGGCTACGTGCAGTCTGACTTTTTCGCTACAAAGAGCACGGTAGATACCCTGCGCAACGGTTTGGACAACATGATGCCGACCCCTCAGCAGTGGGAACCTCACCTGTTGAAGGCAGCGTTGGAATCCGGTGACATCGAAATCTCCCACATCGATACAGCACTCGATCGCCGCTATGTCCAAATGTTCAAATACGGCATCTTTGACCGGCCGCTGGTTCAGACCCCGATTGACTACGCCGCTGGCGGTGAGCGCGCCCGCGAGATCGGTGTCCAGGGCGGTGTGCTCCTGCAAAATAACGGTTCCCTGCCCATCAAGTCGACCGTCGAGGACGTCGTCGTGATCGGAAAGGCTTCCCAGGTCTACGCCCAACAAGCCGTTTCCGGCGGAGCCATACCAGGTAAAGCCGCCGGTTCGGACGGACGTGGCAGTTCGGTCGTTGTTCCGGCTTACGAAGTCGCCCCAGTCGAGGGCATCAAGAACGTTCTTTCCAACTTGGGCAACACCAACGCGAATGTGCGCCTTGTTCTGGTCGACGACGCGAACGAAACCGCGACCGTCGACGGTAAAGAGATCCCATTCGCAGAAGTGTTGGAGCAGGCCAAAGGCGCTGACGCAGTCGTCATGATGGCTGGCACCATTTCCACAGAGGGCGCTGACCGCGCTACTTTCACAGACTCTTCAGGAAAGACGCTGGTCGATGTTGGCAACAACCTTGACTGGTACGTTGACAACCTCGCTGCCGTGGCGACAGTAAATGGGCCTAATCAGGCAAAGAACAGTAACACTGTCGCGATGATCAAAGCAGTCATGGACGCTGCCCCTGAAATGGAGGACAAGACCACCCTGGTCCTCAAGGATAACGCCGGTGTCGAAATGGATCCTGCGCTCGTGGGTGAGCAAGGCCCGGCAATCCTGGAGGCGTGGTTCCCTGGCCAGGAGGACGGACATATCGTTGCCGACCTGCTCCTTGGTGCGGAGAACCCGTCGGGCAAATCGCCGGTGACCTTTCCCTACGCGGATAAAGGTTTTCTCGACCACGCTACAACTCGGCAGTTCCCCGGCGACATGGTCAACAACCAGCAGACTGTTGAGTACACGGAGAAACTGAACGTCGGCTACCGCTGGTATGACGCCAACGCAAGCGGGGAATGCGAGCAGGCCTCAGACGGATCCAATCCATGTGTCGCGTTCCCGTTCGGACACGGCCTGTCCTACACCGACTTCGAAATTTCGAAGATCAATGTTACCCCCAAGGTGTCGGACGGCACGAAGCCCTTCAAGGTGCAGTTCTTCGTCGAAAACACCGGCGATGTGGCTGGCGCTGAGGTGCCGCAGGTCTACATCAGCATGCCAGAGTCGGCGGGTGAGCCACCGAAGCGCTTGGTGGGATTCGATAAGGTGCAGCTCAATCCGGGCGAGAAGAAGAAGGTTGAGATCACCATCGACCCCTCTGCCACCAACCACCCGCTGTCCGTCTGGGATGCCGAAGCCGATAAGTGGACCACACCGGCAGGGGAATTTGACATACGGATCGGCAACTCCTCCGGTAGCACGTCGCTTTCGGACACGGTGACAGTCAAGGTGCCTGCCGGGCACACTCGCTAA	MIGRSSRKHRFLALAVALPLALSGIGLGSMGAATAESTQAVVNDLPWMNTALTPEERSSLLLKALNLDQKIQQLSGARPEILPDLPECYGGRHVTGIAELGIPTLRITNGPVGVGQNDCVDPALFGDPNAPSGTPYVHPSSAKATALPSGTTVAASFDPEVAATFGGVIADEMNNLALHVFEAPGLNMARLPVLGRNFEYFGEDPFLTGTMGVAEIQAVQDKGLIAMAKHYAANEQETNRKTVQETVDERTLHEMYLLPFEMAVKDGDVASIMCAYNYVNAVSSCENEYLLTDVLREQWGFEGYVQSDFFATKSTVDTLRNGLDNMMPTPQQWEPHLLKAALESGDIEISHIDTALDRRYVQMFKYGIFDRPLVQTPIDYAAGGERAREIGVQGGVLLQNNGSLPIKSTVEDVVVIGKASQVYAQQAVSGGAIPGKAAGSDGRGSSVVVPAYEVAPVEGIKNVLSNLGNTNANVRLVLVDDANETATVDGKEIPFAEVLEQAKGADAVVMMAGTISTEGADRATFTDSSGKTLVDVGNNLDWYVDNLAAVATVNGPNQAKNSNTVAMIKAVMDAAPEMEDKTTLVLKDNAGVEMDPALVGEQGPAILEAWFPGQEDGHIVADLLLGAENPSGKSPVTFPYADKGFLDHATTRQFPGDMVNNQQTVEYTEKLNVGYRWYDANASGECEQASDGSNPCVAFPFGHGLSYTDFEISKINVTPKVSDGTKPFKVQFFVENTGDVAGAEVPQVYISMPESAGEPPKRLVGFDKVQLNPGEKKKVEITIDPSATNHPLSVWDAEADKWTTPAGEFDIRIGNSSGSTSLSDTVTVKVPAGHTR	PGPT0019110_1459	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
D1-29_01926	120			hypothetical protein	ATGTACCACCGAGTGCATGACGAGGCCAATGCGGTGGTGAGTGACTACGTGTGGGACTTTCTTTCTTTTCCGCAGCGCGACAACGGACACCGTGTCGACAGCAAGGCTAGGCAGCTCTGA	MYHRVHDEANAVVSDYVWDFLSFPQRDNGHRVDSKARQL				NA	NA	NA	NA	NA
D1-29_01927	2178			hypothetical protein	ATGGCTGGTTGGAATGCTGACACGGCGGCCGGGCCGTTAGGGGCCGGGACTGTCGTTTTGGTGGAGGGGACATCTTTCTGTATCTCGTTGTCGAACGGGGATATCCATCCGGGGTATCCGCACGGGGTTTTCTTCCAGGACACCCGTATCCTGTCCGGCTGGAATCTGACCATTAATGGCCAGCCGCTAGAGCCGCTGGCAGCGGAGACGAAGGAGCCGTACCGGGCGCTGTTCGCCTGTCGTGTTGCCCGATTGGATGGATATGCGGACAGCCCGCTGCTCGTGGAGCGTTTACGTGAAGTGGGAGCCGGGATCCAGGAGCAAATAACGGTACGCAACTATGGCCTGGATCCTGCCGAGTGCGTCGTTTCGCTGAGCGTGGAATCCGATTTCGCGGATCTGTTCGAAGTGAAGGAGGCCCGGATCCGCCGGCTCTGGGACGAGACCCGCCAGCCGGAGGATGGTTCGTTGGCCATACGTGCCGTCTGGAAGGATGTACGGAAGGGCGTCCTCGTCAAGGCCGACGGTGCCGAGATCACCGCTGAGGCCCTGACCTACCGGATGGTTGTTGCTCCCCAGGGCCAATGGACCACCGTGCTCAGCCTGGTGCCCCTCATTGAGGGCACCATCCTTAGAACGCCGTTTGTTCATCCAGGCGCCGGAGACTTGTCCGCGAGTGACCGGCGCCGGGAGGAATGGGTGGCGAAGATTCCGGTGCTGCAGATGGGAAACCGGTCCATCGAACGGACTTTACGGCGCAGCTACGACGACCTGGGTGCCCTGCGCATCGAGGACCCGAACCATCCTGACCGGGTCGTGGTGGCCGCGGGCGCGCCCTGGTTCATGACGCTGTTCGGCCGGGACTCACTGTTGGCCTCTGGCATGGCGTTGCCCGTGGATCCGTCCCTGGCCCTCGGGACACTGCAGACGCTGGCGGACCGCCAGGGCCGCGTGGTGGATCCGGTGAGCGAGGAGGAGCCGGGCAAGATCCTGCACGAGGTCAGGCTCGACGTCTCCAGCGGGTTGTCCCTGGGCGGCAAGTCCTCCTACTACGGGAGTGTGGATGCGACCCCGCTGTTTGTGGGCGTGCTCGGGGCGGTCAGCCGGTGGGGGTTCGCCGCGGATACCATCGCTGCGCTGCTGCCGCACGCGGACCGGGCGCTGGAGTGGATTAGTGACTATGGGGACAAGGACGGCGACGGGTTTGTCGAGTACGAGCGGCTCAACGACCAGGGGCTGATCAACCAGGGCTGGAAGGATTCCTGGGACGGCATCAACTTTGCCGATGGGCGCCTGGCGGAGCCGCCGATCGCACTCTGCGAGGTGCAGGCCTACGTCTACACCGCCTACATGGCCCGCGCCTGGATGGCTTACGACGCCGGTGACGTGCCTCTGGCGGCGGAGCTAACCGATCGGGCCGGCCGGCTGAAGAGACAGTTCAATGAGCAGTTCTGGATGCCCGACCGCGGATATTACGCCGTCGCCCTCGATGGCAAGAAACGGCAGGTCGACGCCTGCGCGTCCAACATGGGCCACTGCTTAACGAATGGCATTGTGGATGACGACAAGGCCGGGCAGGTGGCCGAGCGGCTGATGTCCCCGGAAATGTTCAGCGGCTGGGGCGTACGGACACTGGCAAGCGACATGCGCGCGTACAACCCCGCCAGCTACCACAACGGCTCAGTCTGGCCACATGACAATGCCATCATCGCGACAGGTTTGCTCCGCTACGGCTTCGTGGCTGAGGCACAGCGGATCTCGATCGCACTGCTGGAGGCGGCCGAGTACTCCGAGGGCCGGCTGCCCGAACTGTTCTGCGGCTTCAGCCGGGACCAGTTCGCCGCACCCGTTCCTTATCCAACGGCCTGCTCGCCGCAGGCCTGGGCGTCGACCACGCCGATTAATCTGGTGACGAGCCTGATGCGGTACGACGTGCATGTTTCCCGTGGCAGCCTTTGGATGGATCCCGTACTCCCTGATTCCTTTGGCGACGTGCATATTACCAATGCACCAGTGGCCGGTGGCCGGATCACCATCGACATCACCAATTCAGTACCGTCCGTCCAGGGCCTGCCCAGGGGCATGGCGTTCCACCACGGCCACCGGCCACCGCTGGCCAAACTCGTGCAGCAAGCCGGTCGGAAGCAGATGCCAAAGGGCGATTCCGCTGATACGTGA	MAGWNADTAAGPLGAGTVVLVEGTSFCISLSNGDIHPGYPHGVFFQDTRILSGWNLTINGQPLEPLAAETKEPYRALFACRVARLDGYADSPLLVERLREVGAGIQEQITVRNYGLDPAECVVSLSVESDFADLFEVKEARIRRLWDETRQPEDGSLAIRAVWKDVRKGVLVKADGAEITAEALTYRMVVAPQGQWTTVLSLVPLIEGTILRTPFVHPGAGDLSASDRRREEWVAKIPVLQMGNRSIERTLRRSYDDLGALRIEDPNHPDRVVVAAGAPWFMTLFGRDSLLASGMALPVDPSLALGTLQTLADRQGRVVDPVSEEEPGKILHEVRLDVSSGLSLGGKSSYYGSVDATPLFVGVLGAVSRWGFAADTIAALLPHADRALEWISDYGDKDGDGFVEYERLNDQGLINQGWKDSWDGINFADGRLAEPPIALCEVQAYVYTAYMARAWMAYDAGDVPLAAELTDRAGRLKRQFNEQFWMPDRGYYAVALDGKKRQVDACASNMGHCLTNGIVDDDKAGQVAERLMSPEMFSGWGVRTLASDMRAYNPASYHNGSVWPHDNAIIATGLLRYGFVAEAQRISIALLEAAEYSEGRLPELFCGFSRDQFAAPVPYPTACSPQAWASTTPINLVTSLMRYDVHVSRGSLWMDPVLPDSFGDVHITNAPVAGGRITIDITNSVPSVQGLPRGMAFHHGHRPPLAKLVQQAGRKQMPKGDSADT				NA	NA	NA	NA	NA
D1-29_01928	288			hypothetical protein	ATGGAGGACGCTTTGCAGATCTTGACCGGTTTGGGTTCCATGTCCGTAATATCGGGCTTCTGGCCTCGGGCTTGGCGAGGCCGGGCGACCACTGCGACGGGAGTGGAAGCCTATCTGCAGTTAGCGATGAAGGCAGCGGCTCTCATGGAGTTGGTCGCGCGGTTTCACCCGCTGATCGGCGGCAATAGACGCACGGCGTGGACGCTGATGGTTCTGATGCTCTGGATCAATGGTTACCGGTATGACTTCAACACCGATTCGGCGTTCGATCTGGTCGTGGGCTTATAG	MEDALQILTGLGSMSVISGFWPRAWRGRATTATGVEAYLQLAMKAAALMELVARFHPLIGGNRRTAWTLMVLMLWINGYRYDFNTDSAFDLVVGL	PGPT0027560_1145	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-Doc-Phd_TOXIN-ANTITOXIN_SYSTEM,PGPT0027560-toxin_doc-K07341	NA	NA
D1-29_01929	1017			hypothetical protein	ATGGCAGTGATGGACGCACGTGTGGGCATTGTCACCGGTGCCGCGGGAAGGCTGGGCCGCCATATTGCGATCCTCTTCGCCGCTGAGGGCGGCACTGTTGTCATTAACGACGTGAACCGTGAGGGATCCGAAGCACTGGCGGAGGAGATCCGCGCCGCAGGCGGCACCGTCTCGCTCGCCGTGGGCGACGCGACTACCCTCGCGAGCGCGAGCGAGCTGGTGGAGAAGACGGTGGACGAGTTCGGGCGCATTGACTCGATCATCCTTGCGGGCGCGAATATGGCGGGTCAGCGCATTCAGACGATCGAGGAGATGTCCGAGGACCACTTCAGAGAGATCACCCTTTCACACGTGGGCGGGCATTTTGCCATGTTCAAGGCCGTCATCCCTCACATGAAGCGGCAGCGGTACGGACGCATCGTCGCGTTCGCATCTGCGCATGGCATGGTGGGCGACTGGGGTCGCAGCCACTACGCGGCAGGCAAAGGAGCCATCACGTCGCTCATGCGCACGGCGGCGATCGAGCTCGATGCCTGGGGCATCAACGTCAACGCCCTCAGCCCCGCAGGAATCTCGAGCGACGGCGGGACTCGCATGCTGCGGGAACGGGCGGGAGACCCCGCGGGAGTCGCGCCTCTCGCGGTCTACCTCGCCTCTGAGGACGCTGGCTACATGAACGGGCACGTCTTCGAAGGCTCCGGCTCGGGTCGCATTGGCTTGTATGGTCCCTTCGTGCCCCAGCATTACATGCATAATCCGAGCGGGTGGACCCTCGACGAGCTGCGAGAGATCGTGCCAGGGCTCTTTGAGGCGAGTTACACCAATGAGCCGCGGCAGCGGCCGGCGATGCTGCCCCGTGACCCGCTGCTCGAGACGCAGCCGGGGGAGATGGTCGACCACTTGCCGACCGGTCTCTCCCCGATCGTCAGCGACGGGCTCGGACTGCAACTGCTCAATCAGCTCGGACTGCCCAGCTACAACGAACCCGGCCCGAAGGTCACTCCCGACGAAAGGTAG	MAVMDARVGIVTGAAGRLGRHIAILFAAEGGTVVINDVNREGSEALAEEIRAAGGTVSLAVGDATTLASASELVEKTVDEFGRIDSIILAGANMAGQRIQTIEEMSEDHFREITLSHVGGHFAMFKAVIPHMKRQRYGRIVAFASAHGMVGDWGRSHYAAGKGAITSLMRTAAIELDAWGINVNALSPAGISSDGGTRMLRERAGDPAGVAPLAVYLASEDAGYMNGHVFEGSGSGRIGLYGPFVPQHYMHNPSGWTLDELREIVPGLFEASYTNEPRQRPAMLPRDPLLETQPGEMVDHLPTGLSPIVSDGLGLQLLNQLGLPSYNEPGPKVTPDER				NA	NA	NA	NA	NA
D1-29_01930	240			hypothetical protein	GTGCCCGCCGCCATCGAGCGGCTTCTCTCCGACCCGCGGGTATCAGGCGTCAGTATCACTGGAAGTGTGCGGGCCTGTGCCAGCGTGGTGGCCCTGGCCGATCGGAAAATCAAGAATAGTTTGCTCGAGCTGGGCAGTCCTGTCCCGTTCGTCGTGCTCGATGACGTCGACCTGCAGGTTGCGGGCGCATGCGTTGAGAACACGCTTTATCAATACCGGACAAAGCTGCTTGCGGCCTAG	MPAAIERLLSDPRVSGVSITGSVRACASVVALADRKIKNSLLELGSPVPFVVLDDVDLQVAGACVENTLYQYRTKLLAA	PGPT0001580_5397	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
D1-29_01931	216			hypothetical protein	ATGCGGCTCCGGGACCATGTCGTGGACGCCGTCATCCGCTTGGGACAGGCAGTGTCCGAGACCGCCGCGGCGTTCAGGGTGTCATGGTGGCTGGTGCGTGCTGCGGTGAACGAAGCCTGCCTCCTGAGCCTGCCCGGTGTGGATGAACTCAGTCTTCGGATGCTGGGCATCGACGATGTCGGTGACGGTCGAAAAGTGAGCCATTGTGACGGTTGA	MRLRDHVVDAVIRLGQAVSETAAAFRVSWWLVRAAVNEACLLSLPGVDELSLRMLGIDDVGDGRKVSHCDG	PGPT0030630_551	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030630-tnpA-K07485	NA	NA
D1-29_01932	912			hypothetical protein	ATGAGGTCGATAGCGGCGCGGCTGGGTGTTTCCAGGAACACGGTCGCGAAGGCTGTCAGCGCCGATGGTCCGCCAACCTATGTGCGTTCTCCGCAGGACTCCGGGATCAAGGCGTTGGAACCGGCGATTCGTGCGCTGCTGAGGGAGAATCCGCGGATGCCGGCGACGGTGTTGGCCGAGCGCGTGGGCTGGTCCGGGTCCCCTGCGTGGTTCCGGGAGAACGTGGCCAGGATCCGGCCGGAGTACGCTCCAGCGGATCCTGCGGACCGGATCAGTTACGAACCCGGCGATCAGGCGCAGTGCGACCTGTGGTTCCCGGAGGCGCGGATACCTGTCGGGTCCGGGAAGCCAAGGGTTCTGCCGGTGCTGGTGATGGTGTCCTCGCATTCGCGGTTCATCATGGCCCGGATGCTTCCGTCACGGATGACCGGGGACCTGTTGGCCGGGATGTGGGAGCTGATCGGGTCCCTGGGAGCGGTGCCGCGGCGGCTGATCTGGGACAACGAAACCGGCATCGGCCGCCGGAACAGTTACGCCGCCGGAGTAGCTGCGTTCGCTGGGGTCCTCGCGACCAGGATCGTGCAGGTCAAACCCTACGATCCGGAGAGCAAGGGCGTGGTGGAGCGGGCTAACCAGTTCCTGGAAACCTCGTTCCTGCCCGGCCGGACCTTCACCTCACCGGCGGATTTCAACACACAACTCGGCCAGTGGCTGCCGAAGGCGAACAACCGGATGGTCCGGCGGACCGGGGCCCGGCCTGCGGAGCTGATCAAGCGGGACAAGGCGGCGATGCTGGGGCTGCCGCCGGTTTCGCCCGTGACCGGGTTCGCGGCGAGGGTCCGGCTGCCGCGGGACTACTACGTGCGGATGGGCTCCAATGACTACTCAGGTGCACCCGCAGGCCATCGGTAG	MRSIAARLGVSRNTVAKAVSADGPPTYVRSPQDSGIKALEPAIRALLRENPRMPATVLAERVGWSGSPAWFRENVARIRPEYAPADPADRISYEPGDQAQCDLWFPEARIPVGSGKPRVLPVLVMVSSHSRFIMARMLPSRMTGDLLAGMWELIGSLGAVPRRLIWDNETGIGRRNSYAAGVAAFAGVLATRIVQVKPYDPESKGVVERANQFLETSFLPGRTFTSPADFNTQLGQWLPKANNRMVRRTGARPAELIKRDKAAMLGLPPVSPVTGFAARVRLPRDYYVRMGSNDYSGAPAGHR				NA	NA	NA	NA	NA
D1-29_01933	282			hypothetical protein	ATGACTACTCAGGTGCACCCGCAGGCCATCGGTAGGTTCGTCGACGTCACCGCAGACCTGGAAACGGTGAGGATCACCCTGGAGGGCCGCTGCGTCGGAAACCATGCAAGGTCCTGGGGCGCTGGCCTGACCATCACAGACCCGGACCATGTCGAGGCTGCCCGGACGATGCGGACAGCCTTCCAAAACCCCGCACCTCCAGCAGATGCATCCGGGTTGCGGGACCTGGCTGACTACGACCGGGCGTTCGGTGTCGTCCTTGATGATGGGCAGGTCGCCTGA	MTTQVHPQAIGRFVDVTADLETVRITLEGRCVGNHARSWGAGLTITDPDHVEAARTMRTAFQNPAPPADASGLRDLADYDRAFGVVLDDGQVA				NA	NA	NA	NA	NA
D1-29_01934	789			IS21 family transposase ISMt3	ATGACCGAAGCGAAGGAAACAACCGGTCAGATCGAGTACTACTCCCGGGCCATGAAGGCACCCCGGATCCGAGAAGGTGCAGCACGGCTCGCGGACCATGCGCGCGAGGCCGGCTGGACCCATGAGGAATACCTCGCCGCGGTCCTGTCCCGGGAAGTCGCCGCCAGAGAAGCCTCCGGAGCCGAAACCCGTGCCAGAGCAGCCGGGTTTCCGGCCCGCAAATCGCTCGAGGACTTCAGCTTCGACCACCAGCCCGGCCTCAAACGCGACACCATCGCGCACCTGGCCACCGGAGCGTTCCTCACCGAAGCGTCCAATATCGTCCTGCTCGGCCCGCCCGGAACCGGGAAAACCCATCTCGCGACCGGGCTGGGGCTGCGGGCCACCCAGCTGGGCCACCGCGTCCTGTTCGCAACAGCCATCGACTGGGTTGCCCGTCTCCAGGCAGCCCACCAGAGCGGGCGGCTGCCTCAGGAACTGATCAGACTGCGCCGCTACGGGCTGATCATCGTCGATGAGGTCGGCTACATTCCGTTCGAACAGGATGCCGCGAACCTGTTCTTCCAGCTCGTGTCCTCACGCTACGAACATGCCTCGTTGATCCTGACCTCGAACCTGCCATTCGCCCGCTGGGGAGACGTGTTCGGTGACCAGGTCGTCGCCTCAGCCATGATCGACCGCATCGTCCACCACGCCGAAGTTGTCACACTCAAAGGCTCAAGCTACCGGCTCAAATATGCCCAGGCGGACTCCCTGCCCTCGACAAGACCGGAAAATACGGCAGAATAA	MTEAKETTGQIEYYSRAMKAPRIREGAARLADHAREAGWTHEEYLAAVLSREVAAREASGAETRARAAGFPARKSLEDFSFDHQPGLKRDTIAHLATGAFLTEASNIVLLGPPGTGKTHLATGLGLRATQLGHRVLFATAIDWVARLQAAHQSGRLPQELIRLRRYGLIIVDEVGYIPFEQDAANLFFQLVSSRYEHASLILTSNLPFARWGDVFGDQVVASAMIDRIVHHAEVVTLKGSSYRLKYAQADSLPSTRPENTAE				NA	NA	NA	NA	NA
D1-29_01935	198			hypothetical protein	ATGACGCTCATCCGGAACAAGTTTCCCGACCAACCGGGCCGTGAAGTCCCGTCTGAGAAGGTCGGGCATGCGCTCCGCTGCTTCAGCGCCAGCCTTGGTGATGATGCGGAACTGCCGTGGTTGACAGGCCACCAGGCCGTGGCAGCGCATGATCTGTCGCATCCACTCGAGAGAGCACTGGGGCCGTTCCGCGGATAG	MTLIRNKFPDQPGREVPSEKVGHALRCFSASLGDDAELPWLTGHQAVAAHDLSHPLERALGPFRG				NA	NA	NA	NA	NA
D1-29_01936	255			hypothetical protein	ATGCGAAGGGAAGCTCTGATGTACCAGTACCGCCGTGACGACTGGAGCCAATTGGTCGGCTTCTTCGTGGAAGTTCGCCACGATCAGCAAATACTCAGGTCAGGATTCGTCGACCGCGCCATGCCTGATTCGTCCGCCCTCTGGCTGGCGGCAGATGGGATAGAAAAGAGGACTCTCATAGCTAAAGTCGAAGGCTACGAGGTGTGGATTGACGCGCGCTGCTTAAGCAGGCTCAAAGACCGACTATCAACATGA	MRREALMYQYRRDDWSQLVGFFVEVRHDQQILRSGFVDRAMPDSSALWLAADGIEKRTLIAKVEGYEVWIDARCLSRLKDRLST				NA	NA	NA	NA	NA
D1-29_01937	1137	gltA_2		2-methylcitrate synthase	ATGGCTGACACAGAGATCAAGAAGGGCCTCGCAGGTGTCGTGGTGGATTACACCGCCGTCTCCAAGGTCAATGCAGAAACCAACTCGCTGCTGTACCGGGGCTACCCGGTGCAGGAGCTTGCCGCTAAGTGCAGTTTTGAGGAGGTCGCGCTCCTGCTATGGAACGGAGAGCTGCCCACGGCGGAGCAGCTGGCGGAGTTCACGGCACGCGAACGGGCAGGACGCGCCCTGGACCCGGTGGTCAAACAGGTCATCGACGCGCTGCCCACCACCTCGCATCCCATGGATGTCTGCCGGACGGCCGCATCGGTCATGGGTGCCCGGCACGCCCTCACGGAGGACTCCTCGCATGAGGCGAACATGGCCAAGGCGATGGACCTCTTTGCTGCGATGCCGGCTGTGGTGGCCTACGACCAGCGCCGCCGTCACGGGCAGGAGGCCATGGAACCGCGTGACGACCTGGGGTACTCGGCCAACTTCCTCTGGATGGCCTTCGGCGAAGAACAGGTCCCCGAAGTGGTTGAGGCATTCAACGTCTCGATGATCCTCTACGCCGAGCACTCCTTCAACGCCTCCACCTTCACGGCCCGCGTCATCACGTCCACCCTCTCGGACCTGCATTCAGCCGTCACCGGAGCCATCGGTGCATTGAAGGGTCCGCTGCACGGCGGAGCCAACGAGGCCGTGATGCACACGTTCGATGAAATCGGGATACGTCAAGAAGAGTCCCTGGACGAAGCAGCCGCCCGTGCGAAAGCATGGATGGAGGACGCCCTGGCACACAAAAAGAAGGTCATGGGCTTCGGGCACCGCGTCTACAAGCACGGCGACTCCCGCGTGCCCACTATGAAGGCCTCCCTGGACAAGATGATCGCCCACTACGGCCGACCCGAACTGCTGGGACTCTACAACGGACTGGAAAGCGCCATGGACGAGGCCAAGGCCATCAAGCCCAACCTCGACTACCCCGCCGGCCCCACGTACCACCTCATGGGCTTCGATACGCAGACGTTCACTCCCCTGTTCGTCGCCAGCCGCATCACAGGATGGACCGCCCACATCATGGAACAGGCCTCCGACAACTCGCTGATCCGCCCCCTTAGCACCTACAACGGCGTGCAGGAACGTGCCTTCTAG	MADTEIKKGLAGVVVDYTAVSKVNAETNSLLYRGYPVQELAAKCSFEEVALLLWNGELPTAEQLAEFTARERAGRALDPVVKQVIDALPTTSHPMDVCRTAASVMGARHALTEDSSHEANMAKAMDLFAAMPAVVAYDQRRRHGQEAMEPRDDLGYSANFLWMAFGEEQVPEVVEAFNVSMILYAEHSFNASTFTARVITSTLSDLHSAVTGAIGALKGPLHGGANEAVMHTFDEIGIRQEESLDEAAARAKAWMEDALAHKKKVMGFGHRVYKHGDSRVPTMKASLDKMIAHYGRPELLGLYNGLESAMDEAKAIKPNLDYPAGPTYHLMGFDTQTFTPLFVASRITGWTAHIMEQASDNSLIRPLSTYNGVQERAF	PGPT0001480_753	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-CITRIC_ACID_BIOSYNTHESIS,PGPT0001480-prpC-K01659	NA	NA
D1-29_01938	906	mmgF	COG2513	2-methylisocitrate lyase	ATGCTCTATTCCAACACAACGCCCGAAGAGAAGCGGGTCCTCCTCCGCGAACTCCTTGCCTCCGGAAGCATCCAGCAGTTCCCGGGGGCCTTCAACCCGCTCTCTGCCCGGCTGATCGAAGAAAAGGGCTTCGCCGGTGTCTACATCTCCGGCGCTGTCCTGGCCAACGACCTCGGGCTGCCGGACATCGGCCTGACCACCCTCACAGAGGTGGCCACTCGTGCAGGGCAGATCGCGAGGATGACCGGACTGCCGTGCATCGTGGACGCCGACACCGGGTTCGGCGAGCCCATGAATGTGGCCCGCACGGTCCAGGAACTCGAAAATGCCGGGCTGGCAGGCCTGCACATCGAGGACCAGTTCAATCCGAAACGCTGCGGCCACCTGGACGGCAAGAACGTAGTGGATCTAGACACCGCCACGAAACGGATCAGGGCTGCAGTGGATGCCCGGCGCGACCCGAACTTCCTCATCATGGCGAGGACGGACATCCGCGCCGTCGACGGTCTGGAAGCTGCCCAGGACCGGGCCAAGGCGCTCGTCGACGCCGGGGCGGACGCCATCTTCCCAGAGGCTATGCGGGACCTGAGCGAGTTCCGGGCCATCCGCGACGCCGTAGACGTGCCGATCCTCGCCAACATGACCGAGTTCGGGAAAAGCGAACTTTTCACGGTGGAGCAGCTCCAGGAAACCGGCGTGAACATGGTGATATATCCGGTGACCCTCCTCCGTAGTGCCATGGGCGCCGCCGAGCGTGTTTTAGACACGCTCAAGAGCCTGGGAAGCCAGCAGGAACGCGTGCCTGAAATGCTCACCAGAGCCCGCCTCTACGACCTGGTGGACTACGAGGCTTACAACAAATTCGATCGCGGCATCTTCAACTTCCAGATCCCCGACATTCACTAG	MLYSNTTPEEKRVLLRELLASGSIQQFPGAFNPLSARLIEEKGFAGVYISGAVLANDLGLPDIGLTTLTEVATRAGQIARMTGLPCIVDADTGFGEPMNVARTVQELENAGLAGLHIEDQFNPKRCGHLDGKNVVDLDTATKRIRAAVDARRDPNFLIMARTDIRAVDGLEAAQDRAKALVDAGADAIFPEAMRDLSEFRAIRDAVDVPILANMTEFGKSELFTVEQLQETGVNMVIYPVTLLRSAMGAAERVLDTLKSLGSQQERVPEMLTRARLYDLVDYEAYNKFDRGIFNFQIPDIH	PGPT0001555_450	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001555-prpB-K03417	NA	NA
D1-29_01939	1521	prpD2_2	COG2079	2-methylcitrate dehydratase 2	ATGGTTAAGCTCAACCACGTCCGTGTCTACAAAAGTGAAGAGAACCTCACCCGCGAGGACCAGTTGGCCCACAAGATCGCCGTAGTTGCCGCTGATCCCGTGGAGGTGACCCCCGAGGTCACCGAAATGGTCATCAACCGGGTCATCGACAACGCGTCCGTCGCAATCGCATCGCTGAACCGCGGCCCGATCGTGGCTGCCCGCGCGCAGGCTATGACCCATGCGCCGACGACCAACGGCAAGGGCGCAAGCGTCTTCGGCATCACGGACCGTGTGTCCCCCGAATGGGGTGCCTGGGCCAACGGTGTGGCGGTGCGTGAGTTGGACTACCACGACACGTTCCTGGCAGCGGAGTACTCCCACCCCGGGGACAACATCCCGCCCGTCCTTGCCGTTGCCCAGCACGTCGGTGCCAGCGGCAAGGACCTGATCCGGGGCATTGTCACCGGCTATGAGATCCAGGTCAATCTGGTCAAGGCGATCTGCCTGCACAAGCACAAAATCGACCACGTGGCGCACCTCGGCCCGTCCGCCGCGGCCGGCATCGGGACGTTGCTGGGCCTCGACGTCGAGACCATCTTCCAGTCCGTCTGCCAGGCGCTGCATACCACCACCGCCACCCGCCAGTCCCGCAAGGGCGAAATCTCCACCTGGAAGGCACACGCGCCGGCGTTCGCGGGCAAGATGGCCGTAGAAGCCGTGGACCGCTCCATCCGCGGCCAGACCTCACCTGTGCCGATCTACGAAGGTGAAGACGGTGTCATCGCCTGGCTCCTGGACGGCCCCGACGCCTCCTACGAGGTCCCCCTGCCCGAGGCCGGCGAGGCCAAACGCGCCATCATGGACACCTACACCAAGGAACATTCTGCCGAATACCAGGCACAGGCCTGGATCGACCTGGCCCGGAAGCTCCACAGGGAACACCCGGAAACCACGGACCCGGCCAACGTGAAGTCTGTGCTGATCAAAACCAGCCATCACACCCACTACGTCATTGGCTCCGGCGCGAACGACCCGCAGAAGTACAGCCCCACCGCGAGCCGGGAGACCCTGGACCACTCGATCCCGTACATCTTCACGGTCGCGCTGCAGGACGGTGCCTGGCATCATGTGGATTCCTACACCCCCGAACGCGCCGGCCGGCCGGATACCGTGGAACTTTGGCACAAGGTCACCACCGATGAGGACCCGGAATGGACCCGCCGCTACCACTCCCTAGACATCATGGAGAAGGCCTACGGCGGGTCTGTGGAGATCGCTCTCAACGACGGCACGGTCGTCACCGACCAGATCGCCGTGGCTGACGCCCATCCGCTCGGTGCCCGGCCGTTCGCCCGGCACCAGTACTTGACCAAGTTCCGCACGCTCGCGGCCGGCCTGGTCGAGGATAAGGAAATTGAGCGTTTCCTGGCTGCCGCCGAGGACCTAGCCAACCTCGGTCCGGGCGAACTGGACCAGCTGAACATCACAGCCGCCCCGGGTGTCATCGACCTCAGCAACGCACCCCAGGGGCTGTTCTAA	MVKLNHVRVYKSEENLTREDQLAHKIAVVAADPVEVTPEVTEMVINRVIDNASVAIASLNRGPIVAARAQAMTHAPTTNGKGASVFGITDRVSPEWGAWANGVAVRELDYHDTFLAAEYSHPGDNIPPVLAVAQHVGASGKDLIRGIVTGYEIQVNLVKAICLHKHKIDHVAHLGPSAAAGIGTLLGLDVETIFQSVCQALHTTTATRQSRKGEISTWKAHAPAFAGKMAVEAVDRSIRGQTSPVPIYEGEDGVIAWLLDGPDASYEVPLPEAGEAKRAIMDTYTKEHSAEYQAQAWIDLARKLHREHPETTDPANVKSVLIKTSHHTHYVIGSGANDPQKYSPTASRETLDHSIPYIFTVALQDGAWHHVDSYTPERAGRPDTVELWHKVTTDEDPEWTRRYHSLDIMEKAYGGSVEIALNDGTVVTDQIAVADAHPLGARPFARHQYLTKFRTLAAGLVEDKEIERFLAAAEDLANLGPGELDQLNITAAPGVIDLSNAPQGLF				NA	NA	NA	NA	NA
D1-29_01940	642	gntR_3		putative D-xylose utilization operon transcriptional repressor	GTGCGGGCCAGCGATAGGGCCTACTCCGCGCTGCGTGATGACATCATCGAATGGCGCCTCCTCCCCGGCACAGTTCTTGCGGAAGTCGAGCAGTCTGAACGACTCGGGGTCTCGCGGACGCCTCTCCGCGAAGCGTTAAGCCGTCTGACGGCGGAGGGACTTACGACAGCGGCGGACGGGCGGGGTGTCGTCGTAACAGACATCTCTACAGAGGACATCGACGAACTGTTCGAGCTCCGCGAAACACTCGAGGGCAGGGCTGCCGCGTTAGCGGCTGAGCGGGGAGACGCAGGAGTCTTCCACCAACTCCTGAAAGAGTTTCTCGAAGCGGGGACCCTTATCCGCGGCTCTGATCCAGCCCGGCACGAATACTACGCCCTAGTGACCCGGCTCGATGATGCGATCGACGGCGCCATCTCCAACTCCTACTTGGCCCAGGCGATGCGCGGCCTGCGCGTCCATCTTGTCCGCGTGCGCCGCCTCGCGGCCGATGACGAGCGGCGCCTGCATGCTGCAGCCCTGGAGCATGCAGCGATCGCCGAAGCCATCGCTGCTGGCAACGCCAGGCTCGCCGAAGCGGCCACCATCCTTCATCTGCACCGCAGTCTTACCCACGTCAAAGCGACGCATACAGCGCAATAA	MRASDRAYSALRDDIIEWRLLPGTVLAEVEQSERLGVSRTPLREALSRLTAEGLTTAADGRGVVVTDISTEDIDELFELRETLEGRAAALAAERGDAGVFHQLLKEFLEAGTLIRGSDPARHEYYALVTRLDDAIDGAISNSYLAQAMRGLRVHLVRVRRLAADDERRLHAAALEHAAIAEAIAAGNARLAEAATILHLHRSLTHVKATHTAQ				NA	NA	NA	NA	NA
D1-29_01941	711			hypothetical protein	ATGGAAGCAAAGGACAAGGGTCTGCAGATCAACCCCCGCGACGGCAACCAGACGCTGAGGCGCGGCCTTCGTGTTCTCCTGGAAGTGGCCGATTCCAAGGATGGTCTCTCAGTTCAACAGGTCAGTGAGATGCTGGGCGTCCACCGGTCGATTGCCTACCGCCTTCTGCAGACCCTCGCTGACTACCGGATGGTGACTCGTAGTAGGGCGGGACTTTATATTCCGGGTGCTCGCCTGGCGACGCTCGCCGGGACGTACCTCCCGAACCTTCGGGACGTCGCCAGCCCGGCCATGCTCGCTCTCGCCGACCGACTCCAATCAACAATTGCGCTGTTCGTTGAAGAGGGAGAAGAAGTCGTGGCAGTCTCCATGGTGGAGCCAACAACACCCGTACACCATATTTCGTTCCAGCCCGGCATGCGCACACCACTAACGCTCGGCGCGGCGGGCTACGCGATTCTCGCGGGCGGCGCTCCCAGTGCGGACGAGCCCGCCAACGTCGCGGTCGCACGCGAAAAGGGCTACGCGCGTAGCCACTCAGAGGTTGAGGCCGGTGCGTTCGGTGTTGCAGCGTGGATTCCCATGGGCGGAGCTGGTGTGCGAGCCTGCCTGAACCTCATTACCCATCGAGAAGATATAGCAGATCAAGCCGGCCCTGAGATGCGGCGCGTGGCCGACGAGGTCGGGCATCTCCTACAGCAATCGGGATGA	MEAKDKGLQINPRDGNQTLRRGLRVLLEVADSKDGLSVQQVSEMLGVHRSIAYRLLQTLADYRMVTRSRAGLYIPGARLATLAGTYLPNLRDVASPAMLALADRLQSTIALFVEEGEEVVAVSMVEPTTPVHHISFQPGMRTPLTLGAAGYAILAGGAPSADEPANVAVAREKGYARSHSEVEAGAFGVAAWIPMGGAGVRACLNLITHREDIADQAGPEMRRVADEVGHLLQQSG				NA	NA	NA	NA	NA
D1-29_01942	1617	pamO_1	COG2072	Phenylacetone monooxygenase	ATGGGACCGGACAATGTACAAACGGCAGGGGATCATTCTCCAGACGTGGTCATCGTCGGAGCCGGCATCGCTGGCATTTACGGCATCAAGCGCCTTCGAGAGACGGGCATGTCAGTGCTCGGCATCGAGGCCGCTCCCGAGGTTGGCGGAGTCTGGTATCACAATGGGTACCCAGGCGCACGGGTCGACCTCGACAGTGACATGTTTAACTACTTCTTCGACGAAGAGTTGTACAAAACGTGGGACTGGGAAGACCGCTATGCCACCCAGCCGCAAGTGCTTGCCTATCTGAAGCACGTTGCGGACAAGTATGATGTCCGGCGAAGCATCCGCTTCAACACCCGGGTCATCGGCACCACGTGGCAGCCTAAGGAGAAGCGGTGGCTCGTTGAGACCGACGACGGCGCCACGCTGAGCCCCCGATACCTGGTCATGGCCACGGGACAGCTCTCCCGACCTCGCGACCCCCAGTTCGAAGGTCTCCACGATTTCGAGGGCGAGTGGTACCAGACCTCGCGATGGCCTCACGACGAAGTGGAACTCGCTGGAAAGCGTATCGCCGTCATCGGCACCGGGTCCTCAGGCGTTCAAGCCGCGACCGCGATCGCCGAGGTCGCAGACCACTTGACCGTCTTCCAGCGCACTCCCCACTACTCCATTCCTGCTCAGAACCGGCGGCCTGACGAGTCTCGTCGGCAACGGCTTCGCGGGCGATTTCCGGAACTGTGGAACGAGCTATCGCAGACGCATTTCGGGGGGTTCGCTCCCCCGCCTGCAGGACCCGCCTCGGCATTCTCCACCGAGGATCAGCAGTTGCTGTTGCAGCAGCGGTGGGATTTCGGCAGTCAGTCCATGGTGGGGGTCTTCTCTGATCAGGCAGTTGACTGGGACACGAACACACTCGTGGCCGAGTTCGTCCGTTCAAAGGTCCGCGACAAGGTAGAGGACCCCGCCATCCGGGCCGCCGTAGTGCCAGACGAGTACCCCATCGGAACCAAGCGGCTCATTCTCGACACCGGTTATTACGAAGCATTGAACCAAGACAACGTCAATCTTGTAGACATGCGTAGCGAGCCAATTGTCCGGCTGACCCCCCACGGCATCCAAACCACGGGGCGTGAGTATGAGTTCGATGTCATCGTCTTCGCCATGGGCTTCGAAGCCTTTACCGGCGCCTTGGACGACGCAAACATTCGCAACGCAGACGGGGTTACGCCCTCCCAGGCATGGGACCGCGGCCCACAGACTTACCTTGGACTTCAAACCCGAGGATTCCCCAATCTGTTCTTCCTTACCGGCGCTGGGAGTCCCTCCGTGCTGGCGAACATGTTCGTCGCGAACCAGCATCACGTGGACGTGCTGGCGGAACTCTTTACGCATATGAACGAGCACGGCTTCTCCGTCGTCCAGCCGCAGCAGAGGGATCAGGACGCCTGGGTCGCGCACTCGGCCGAGGTCGCCGAGAAGCTCATCCGCCGCGAGATTAACCAATACATGGTGAAGGTAACCGACGACGGTACCCGCGTGTTTATACCTTATGCCGGCGGTTTCAAGGCGTATTACGCAAAAGTCAAGGACGAGATCGATACCGGCTGGCCCGGATTCGAATTCGCCTGA	MGPDNVQTAGDHSPDVVIVGAGIAGIYGIKRLRETGMSVLGIEAAPEVGGVWYHNGYPGARVDLDSDMFNYFFDEELYKTWDWEDRYATQPQVLAYLKHVADKYDVRRSIRFNTRVIGTTWQPKEKRWLVETDDGATLSPRYLVMATGQLSRPRDPQFEGLHDFEGEWYQTSRWPHDEVELAGKRIAVIGTGSSGVQAATAIAEVADHLTVFQRTPHYSIPAQNRRPDESRRQRLRGRFPELWNELSQTHFGGFAPPPAGPASAFSTEDQQLLLQQRWDFGSQSMVGVFSDQAVDWDTNTLVAEFVRSKVRDKVEDPAIRAAVVPDEYPIGTKRLILDTGYYEALNQDNVNLVDMRSEPIVRLTPHGIQTTGREYEFDVIVFAMGFEAFTGALDDANIRNADGVTPSQAWDRGPQTYLGLQTRGFPNLFFLTGAGSPSVLANMFVANQHHVDVLAELFTHMNEHGFSVVQPQQRDQDAWVAHSAEVAEKLIRREINQYMVKVTDDGTRVFIPYAGGFKAYYAKVKDEIDTGWPGFEFA				NA	NA	NA	NA	NA
D1-29_01943	384			hypothetical protein	ATGCTGGGGAAGGTATTCGGGTCGCTCTACTCTCGCCGATGTTGTGGAGTCATCTGGGTCATTGCCCACAGCGAGATGGCACTGACCCGAAATGCCACGAAGCCGCTCTCGATTGCCCAGTTCATAGTCATCGCATTGACCGCTTTTGGTAGCACCGTAAGCGCTCATTCCAAGGATGCCATGTTGCGCGCCGGAGACGATGCTTACGGCCTGCCGCTGCGGCAAGCGGGCACTCTCCCTGTGATCTCGGCCCGCATCGGTTACGACGAAGGCCTTGTCGCTGAGGACGATATTGGACGTCAACGCTCACTCCCCCTCGAGTGTCCCTATCGAAGGGCATACTGCGAACAAATCAATGCGATATTTGAACTAGATGAACCATAG	MLGKVFGSLYSRRCCGVIWVIAHSEMALTRNATKPLSIAQFIVIALTAFGSTVSAHSKDAMLRAGDDAYGLPLRQAGTLPVISARIGYDEGLVAEDDIGRQRSLPLECPYRRAYCEQINAIFELDEP				NA	NA	NA	NA	NA
D1-29_01944	177			hypothetical protein	GTGGCGAACCGCGGGGCTAAATGGGTCTTCGACGCCCTCGAACACGTCATCCCGGTTTTCCCCTTCCCCATCATTTCCCCGCTGGCGAAGGTGAAGCTGTCCTTCTACAACCTGGGAGAATCTCGAATCCCGGCCAAGTTGGGGATTGACTCCTTTGCCCACTCACATGATACTTAG	MANRGAKWVFDALEHVIPVFPFPIISPLAKVKLSFYNLGESRIPAKLGIDSFAHSHDT				NA	NA	NA	NA	NA
D1-29_01945	1530	gsiB_1	COG0747	Glutathione-binding protein GsiB	ATGACCCCGAAACACAAGCTCCCAGCGGTAGCGATTGCTGCCGCACTTGCCCTGTCCGGATGTGCACAGGGTGGTGAAACGGACCCTGCAGAAGGAATGGCGGCGGGCGACGCCGTCCTGCAGTTCGGCACGAGCACGACCCCGAACAATCTCGACCCCCACAGGACCTCGTTCCCCAGCGACTGCACTTACCTTTGTCCGGCCTACGACCGGCTGGTGCATGTCGATCCGGATGGCAGCCTGATCCCCGGACTCGCGGAGTCATGGGAGTTCAGTCAAGACGGCCTGAAGTTGACCTTTCACATTCGTAAGGGCGTGGCGTTCAAAGACGGCACCGTCCTGGACGGCGAGGCCGTGAAGGCGAGCCTGCTCCGGGCACGCGACCTCCCGGAATCTGCCGTGAAGAGTGACTTCGCCACGGTGGCCGACGTGACCGTGGACGATCCGCAGACGGTCACGCTAAGCCTGAGCGCTCCGAACGCGGCCATGCCCGCCATTCTCTCGGGTCTTGCTGGCGCCGTCATCAACCCGACCGCGCTGGCGATGGGCGTAAACCTCAGCGAAACATTGGACGGAGCCGGTGCATTCCGGTTCGTCTCGTACACAACCGGCAGCGAGCTCAAGTTGGAACGGAACCCCGATTACTGGGGCGAGGCGCCTGGGCTGGCCGGCATCGACTTCAAGATAGTCACGGATCCAGCTGCGCTCGCCAACGCACTGCTGGCGGGCCAAGTCGACACTGCTCTGGTGCTCTCGCAAAATATAGGTCCTTTCAAGGATAACGGGGACTTCACTGTCAAGGCGGAGACCGTGCTTTTCCAAACCGCTATGCTGGCGAACTTCAAAATTGCCGGGCTCACCGATGAGCGCGTGCGCCAGGCGCTCCTGCACGGTATCGACCGCGAGAGCATCTGCGAGACCCTCTATGCCGGGTTCTGCAAGGTGTCCGACCAGCCGTTCCCGCCCGGATATTTCGCATACGACGAGAGCCTCCCCGATGTCCTTTACCCCTATGACCCGGAGAAGGCCAAGGCCCTCCTAACCGAGGCAGGCGAGGCGGACCTGTCGATCACCGCGATTGTGCCCGGAGCGAATTACACCCAGCTCGCGCAGGTTATAAAGGAGCAGCTGAAGGAGATCGGGGTCAATATGGAGATTTTGCCCCTCGACAACTCGGCAATGGCGCAGAAGTTTATCGTCGACAAAACCGGTGAGATGGTCATCACCGGCGTCGTTGGTCGGTCGGACCCATCGCAGCTGTTCGCCTCACGCTTCTCTGAAAAAGGGGTCTTCAATCCGGGCGGATTCGTGACGCCCGAGCTGGATGAGCTGCTGGCCGACTCGCTCGCAGTGACCGATCCCGATGAGCGCAGGGCCGTCCTTCAGGCGGCGTCCCGGGAGGCCGCCGAATCAGCACTGTCCCTGATGCTGAACTTCCCGGCACGCATCTACGTGATGAAGAAGGGTGTTGACTTCGACGTCTATCTGAGCGGCCTGCAGGAGATCAGCGGAGCCACGAAGGTGGACTGA	MTPKHKLPAVAIAAALALSGCAQGGETDPAEGMAAGDAVLQFGTSTTPNNLDPHRTSFPSDCTYLCPAYDRLVHVDPDGSLIPGLAESWEFSQDGLKLTFHIRKGVAFKDGTVLDGEAVKASLLRARDLPESAVKSDFATVADVTVDDPQTVTLSLSAPNAAMPAILSGLAGAVINPTALAMGVNLSETLDGAGAFRFVSYTTGSELKLERNPDYWGEAPGLAGIDFKIVTDPAALANALLAGQVDTALVLSQNIGPFKDNGDFTVKAETVLFQTAMLANFKIAGLTDERVRQALLHGIDRESICETLYAGFCKVSDQPFPPGYFAYDESLPDVLYPYDPEKAKALLTEAGEADLSITAIVPGANYTQLAQVIKEQLKEIGVNMEILPLDNSAMAQKFIVDKTGEMVITGVVGRSDPSQLFASRFSEKGVFNPGGFVTPELDELLADSLAVTDPDERRAVLQAASREAAESALSLMLNFPARIYVMKKGVDFDVYLSGLQEISGATKVD				NA	NA	NA	NA	NA
D1-29_01946	1203			hypothetical protein	GTGAAACGTTTTCTCATGAACATTGTGGCGACCGGCACCACCGCTCTGCTGCTCGCTGGATGTGCCTCTGCGGGCAGCGGACCTAGTGATGCGGACGCCGCAGATGAATCTGACGGCCCGATTAAGATCGCTATCGTGTATGGTCTCACCGGCGCATTCGCTGGAACGGGCAGCATCTTCATGACCGGCTTTGACGCTGCCGTCAAACACCTCAACGACGAAGGCGGCATCAAAGGGCGCCAGATTGAGGTAAAACTCCTCGACAGCAAGAGCGACCCGACGCACGCTGTCAGCGTGCTCACCGAACTCCTGGACTCCGGATACGACCCCGATGTCATCATCCCCGGTGGAGTTAGCAGTGAGGTCCTTGCCATGCTTCCGCTTGCAACGGACGCGAAGCTCTTCAGTGTCGCGCCCGGGACGAACTCGGCGATCAACGATCATGGTGCCTATCCCCACCACATCGGCAGTTTGACCCCGGCCAGCGCGAGTCTCTCAAGCGTGGCTAGGAGTTTCACCGACGACGGGATCAAGACGCTCGGAGTGGTTCTGCCTGGTGACGCGTTTGGCGATTCCCTGCTCAGCGGTATCACTGCGATCGCGAGCGATGCAGGCGTCAAGATCGTCCAGGTCGAGCGCCCGGATCCAGCCGCGCTCAACTTCGATGTTGAAGTGCAACGCGTGAAGTCTGCAGCGCCCGATGCGATGTTTTTCGACTTCGCGGGGCACGATTCCCTGGCACGGCTATTGAGCTCGCGCGTCGCAGTCGGAGCGACAGACATCCCGTTCTATGGAGGAACCGGAGCAGCAGCCGCGGTCCTGTCCAATCTCGCGGAACCCTCGGCACTGGAGAACTGCTCGCTCCCAGTCTACTCATTCACCGTCACACCAGACTCACCCGCTGACCACCTCAAGCCCTTGTATGCTGCCTTCGCCGATAGCGACGTCGGAATCCTGGCGGGGGCACTCGGTTGGGACGTCGTTCACCTCGCCGCGCTTGCCATCGAACGCACGGACGGTGACACGAGTGGAGATGCCCTTATCGCTGCAATACGGAACGAGCCTGTTCCCGGAGACTACCTGGCACTCTATCCCGGTGGCGTGACCTACAGCGAAGACGACGTTTTCCCGACTCCTGCGAAGGGTGCCTTCGGTCTTGTGGAGTGTGGCGCGAGCGTCAAAGACGGGCTTTGGGTGGAATAA	MKRFLMNIVATGTTALLLAGCASAGSGPSDADAADESDGPIKIAIVYGLTGAFAGTGSIFMTGFDAAVKHLNDEGGIKGRQIEVKLLDSKSDPTHAVSVLTELLDSGYDPDVIIPGGVSSEVLAMLPLATDAKLFSVAPGTNSAINDHGAYPHHIGSLTPASASLSSVARSFTDDGIKTLGVVLPGDAFGDSLLSGITAIASDAGVKIVQVERPDPAALNFDVEVQRVKSAAPDAMFFDFAGHDSLARLLSSRVAVGATDIPFYGGTGAAAAVLSNLAEPSALENCSLPVYSFTVTPDSPADHLKPLYAAFADSDVGILAGALGWDVVHLAALAIERTDGDTSGDALIAAIRNEPVPGDYLALYPGGVTYSEDDVFPTPAKGAFGLVECGASVKDGLWVE	PGPT0020765_5976	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
D1-29_01947	1650	kstD_1		3-oxosteroid 1-dehydrogenase	ATGAAACAGTTCTACGACGTCGTCGTTCTGGGATCGGGAGCGGCGGGATTGACAGCAGCATTGGCCTCGGCCGTCGACGGCGCGACGGTAGCCGTCTACGAGAAGGCTGCGCTGCTCGGCGGAACGACCGCGTTGTCGGGCGCTGGGATTTGGATCCCCGACAATGGGCCCGCGCGGGAACTTGGAATCGAGGATTCGCACGAGAGCGGTCTTGAATATCTGCTGAGTCTTTCGAAGGGGATGATCCTCGAGGAACTGGCCGAAGCTCTCATTCAGGGTGGGCCTCGATTCGTCGAGTTCCTCGAAGAGCACACTGAGCTGCGAATGCAGGTTGTCGAAGGATACCCCGATTATCACCCCGAACAGCCAGGGGGACTTCCCGGCGGTGGACGAACACTGGAACCCGGCCTTGTCTCTACAAAAGGATTTGAGGATTGGGCGGTCCGTATCAGTGGCGACGTGAAGCGGATCGTCCTCGCGGAGATGCCACTAGGAGGGAGCTCTGGTGTGATTCCAGCGTCGGCAAATGCAGAACGGGAGGAAGGCAGTCTTGAGGGGCTCGGCCGCGCCCTGATCATTGGTCTTCTGCGTTCGTGCCTTGATCTGGGCGTCGACGTCGTCACCGAGGCCAGAGGTTTGCGCCTCTTGACTGAGCGAAGCGCCGTGACTGGAGTCGAGATAGAAACACCGGACGGTGTGGCGTCGGTACAGGCTGGCGCTGTCGTCCTGGCCACTGGCGGCTTCGAATGTGATCCTGCGCTGGTGCGCGACTTCCTTCGCGGCCCGATCTCGCGCACTGTAGGCGCCCCTTCGAATACGGGCGATGGCTTACGGATGGCGATGCGGGTGGGTGCCCAACTTGGCAATATGCGCGAGGCCTGGTGGGCCCCAGTCATCTCTCTACCAGGAGTTCGCCGCGACGGCGGCCGGAATGGTCTGCTCACAGCACGGGAGCGCGCGCTCCCCGGATCGCTGATGATCAACCGCCAGGGACGTCGGTTCGCTAACGAGGCCGCCAACTACAATGCCTTTGGCGGTGCGTACCATGAACTTGACGCCTCGAGGTTCGACTATCTGAACCTTCCAAGCTACCTCATCTTCGATCAGTCGGTGGTCGACCGATTCGGAGTATTCGGTGGCGGTCCAGGTGGCGGTGTGCCCGATTGGGTGACTCGTGCAGGCTCTCTCAACGATCTCGCCGAGGCGCTTGGTGTGCCGGCTGACAGCCTGCGGGAAACCGTGGCGCGGTTCAACGACCATGCGAGAACCGGCGTGGACCCAGACTTTGGTCGGGGCGAGAGCGCTTATGACCGGTTTCCTGGCGGTCGACTCCTGAACCCGGATTCCGTTTTCTCCACCTTGGGGCCGGTGGAGATAGGGCCGTTCTACGGCGTCGAAGTTGAGTCTTCGGCGCTGGGCACAAAAGGCGGTCCGCGAACCGATTCCGTCGGCCATGTGCTCGATGTCGATGGCGACATTATTCGGGGGCTGTACGCCGCAGGCAACGTCATGGCGAACCCGACAGGGATGGTCTACGGCGGGGCGGGGGCGACGCTCGCAGTCGCGGGTGTGTGGGGTATGAATGCAGGCCGCGCGGCAGCCGCTGACACCATGCTTGAGACAACTGGCGAAAGGAACGGCCCACGATGA	MKQFYDVVVLGSGAAGLTAALASAVDGATVAVYEKAALLGGTTALSGAGIWIPDNGPARELGIEDSHESGLEYLLSLSKGMILEELAEALIQGGPRFVEFLEEHTELRMQVVEGYPDYHPEQPGGLPGGGRTLEPGLVSTKGFEDWAVRISGDVKRIVLAEMPLGGSSGVIPASANAEREEGSLEGLGRALIIGLLRSCLDLGVDVVTEARGLRLLTERSAVTGVEIETPDGVASVQAGAVVLATGGFECDPALVRDFLRGPISRTVGAPSNTGDGLRMAMRVGAQLGNMREAWWAPVISLPGVRRDGGRNGLLTARERALPGSLMINRQGRRFANEAANYNAFGGAYHELDASRFDYLNLPSYLIFDQSVVDRFGVFGGGPGGGVPDWVTRAGSLNDLAEALGVPADSLRETVARFNDHARTGVDPDFGRGESAYDRFPGGRLLNPDSVFSTLGPVEIGPFYGVEVESSALGTKGGPRTDSVGHVLDVDGDIIRGLYAAGNVMANPTGMVYGGAGATLAVAGVWGMNAGRAAAADTMLETTGERNGPR	PGPT0006680_548	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_ADROSTENEDIONE_DEGRADATION,PGPT0006680-kstD-K05898	NA	NA
D1-29_01948	858	livH_1	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGACGATCGCTATCCTCGCTGGATTGTCGACGGGCGCGATCTATGCGCTGATTGCCATCGGGTACAACATCACCCTCACATCATCGGGGGTACTCAATTTTGCCTTTGCGAATATTCTTGTCTTCGGGGGATTCGTTGCCATAACGACGGTCGGGCTGGGTCTGTCCCTGCCGGTCACGCTGGTTATTTGTGCGGTGGTCTGCGCTCTAATGGCAGCTATCGTCCAGCTCATCGCTGTGCGATATCTGCCGGCTGGTAGCCATGCGGAACTCATCACCACCTTGGGGGCCGCGACCATCCTCACTGCAATCACGGCCATCATCTGGGGAACCGATCCGCAACGGCTCGTCCTCTTCGCGCAGGAGCCCATCGAACTCCTCGGAGGCAGGGTGCTCCCGAACACACTGATCCTGATCGCGCTTCCCATCGTCTTTGGGTTGACCATGCATCTGCTCATGCACGGTACGAGGTTCGGCCAGTCGAGTCGCGCCCAAGCCTTCGACCGGGAGGCAACGATGCTTCGCGGCGTCAATGTGCTCTGGCTGTCGGTCGGTTCCTTCGCCATCGCCGGCGTATTCGCAGGACTCGTCGGACCCTTCGTGCTCGTCTCAACGTCAGCGAGTCCTTACCTGGCGCTTAGCCTTGCGCTGAAAGGCTTTGTCGTACTGGCGCTCGGCGGGCTGGGCAGCCAACTAGGGGCAGTGATAGCCGGGTTCGCAATCGGCCTCATTGAGGCGCTGGTGGCACTGTTCGTCGGTCCGTTTTTCGGCGACTACGCGGTGTTTGTTGTCTTCGTGCTCGTGCTCCTGTTCCGCTCGGGCGGGCTGTTCGGCAATCGGAATCTGAGGCTCGTCTAA	MTIAILAGLSTGAIYALIAIGYNITLTSSGVLNFAFANILVFGGFVAITTVGLGLSLPVTLVICAVVCALMAAIVQLIAVRYLPAGSHAELITTLGAATILTAITAIIWGTDPQRLVLFAQEPIELLGGRVLPNTLILIALPIVFGLTMHLLMHGTRFGQSSRAQAFDREATMLRGVNVLWLSVGSFAIAGVFAGLVGPFVLVSTSASPYLALSLALKGFVVLALGGLGSQLGAVIAGFAIGLIEALVALFVGPFFGDYAVFVVFVLVLLFRSGGLFGNRNLRLV	PGPT0020770_9359	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
D1-29_01949	1863	btuD_6		Vitamin B12 import ATP-binding protein BtuD	ATGGCAACATATCCCATCACCGCGGCAAGCCCGATTCGTCCCTTCCTGCTTCCCATTCTTTGGATCGGGATCACTGTACTTGTTGCCATCGCACCCCTCCTCGGGCTTCCAAACTTTTGGTCCCGACAGGTCCTTCTGATCTCCACGATGGCCCTTCTTGTCATCGGCCTGAACCTTAACCTTGGCTGGGCGGGCGAGCTGAACATGGGGCTTCCCGCTATGTACGCGGTGGGGGCCTACCTGACCGCCTATTTGGCCACCCGAGTCATCAATGACATTGCGCTCCTGCTGGCTCTTTCGGCGGGCGTCGCAGTCGTCGTCGGGCTTATAGCCGGCGCGCCGGGTATCCGGCTCGGCGGATGGATGCTAGCCGTGTGCTCGTTCCTTCTCGTCTTGCTCATCCCCAATACGCTCCAGGTGATCCCATACGAAATCCTCGGCGGACAATCCGGCTTTACCGGCATTCCGAGACCGATGCTCTTCGGAAACAAACTCGACGGAAGTGCGTTCTTCGTAGTTGTCGTCGTTGTCACCTCCACGTGGTTCGCGGTCTACCGCAGCGCTGTGAAGTCGCAGTTCGGCAACTGCCTCATGATCCTGCAGCAAGGTTCCGTGTTGGCTCCGTCACTGGGGATGTCGCGCTACCGGCTCAAACTGATGACGTATGCTTTTGCGTCCCTTCCAGTCGGGATGGCCGGCGCATTCTTCGCCTATACAGATCGCTTCATTGCCCCAGAAAGCGTTGGCCTGCACCTCATCATCAATGTGCTGGTTGCATCGATCGTCGCTGGCAGGCGCAGCATCTATGCAATCTTCATTGGAGTGGCGTTCGTGCAGATTATCAGCACTCAATCGACACGCTTCGGCGAGTTCGGTGAAGTGGCATTCGGCGCGTTTCTCGTCATAGGAGGGTTGGCATTTGGCTCAGGCATGTCCGGGCTGGGCAAGAAAATCGCCCGTCGCTTCACGCGTAACAAGTCGCCTGCATCCGTGGTCTCCCCTGGCGCAGGCCGATCACTCGACCTCCCCGCCCTGCCCGGCAAGGATCTCAGGCTCGAGTCCGTATCCAAGTCTTTCGGCGGGGTGGAAGCGGTGAGTGAGGCCACCTTTATCGCCGGCGCCGGTCAGATCACTGCATTGATTGGACCGAACGGCTCGGGGAAGACAACGACTCTCAACATCATCAACGGTTTCGAAAGGCCGACCAGTGGGAAAGTCTTTCTCGGAGATGAGGACGTCACAACCCTGTCCGCCATGGAAGTGGCACGTCGCGGTGTTCGGCGCACCTTTCAGACGCCAGCGATCCCCGGCGACCTTTCGGTGCTGGACGTCGTCGCGTCGGGTCGCATCCATACGCACGATGCGTCGCTCTTCGCGACTATTTTCCGGCTGCCTTCATACCGACGGAGTATCAGGGAGAATCGCGCGGCAGCCTCGCGCTGGCTCGACATCCTCGGACTAGGCAATGTAGCCCACGAGTCGGCGGCTGAGATGTCGCTCGGGACCCGCCGCATGATTGAACTCGCTCGCGCCCTGTGCGCCAGCCCGTCTGTCGTGCTATTGGACGAGGTCGCGTCCGGCCTCGATCGGGACGAAGTCCAGGAACTCACAGCAGTACTGCGGAGAGTGAGGGATGCGGGAGCGACTGTCATTCTCGTTGAACACAACTTCAGTCTTGTTCAATCCCTTGCGGACTACGTCGTGGTCCTTGCGGAAGGGAGGGTACTGACGGATGGCGATCCGCGCACGGTTGCCGAGCATCCTGAAGTGCTGGAGCGGTTCCTCGGGGTGGGTGCTGGGGTTACCGGAACGACTGTTGTTGTCGACGGCATAGAGGTTCCAGCGGAAGCAGTTCGACCATGA	MATYPITAASPIRPFLLPILWIGITVLVAIAPLLGLPNFWSRQVLLISTMALLVIGLNLNLGWAGELNMGLPAMYAVGAYLTAYLATRVINDIALLLALSAGVAVVVGLIAGAPGIRLGGWMLAVCSFLLVLLIPNTLQVIPYEILGGQSGFTGIPRPMLFGNKLDGSAFFVVVVVVTSTWFAVYRSAVKSQFGNCLMILQQGSVLAPSLGMSRYRLKLMTYAFASLPVGMAGAFFAYTDRFIAPESVGLHLIINVLVASIVAGRRSIYAIFIGVAFVQIISTQSTRFGEFGEVAFGAFLVIGGLAFGSGMSGLGKKIARRFTRNKSPASVVSPGAGRSLDLPALPGKDLRLESVSKSFGGVEAVSEATFIAGAGQITALIGPNGSGKTTTLNIINGFERPTSGKVFLGDEDVTTLSAMEVARRGVRRTFQTPAIPGDLSVLDVVASGRIHTHDASLFATIFRLPSYRRSIRENRAAASRWLDILGLGNVAHESAAEMSLGTRRMIELARALCASPSVVLLDEVASGLDRDEVQELTAVLRRVRDAGATVILVEHNFSLVQSLADYVVVLAEGRVLTDGDPRTVAEHPEVLERFLGVGAGVTGTTVVVDGIEVPAEAVRP	PGPT0020775_760	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
D1-29_01950	750	livF_2	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGAGCACCATTCTGAACGTGTCCAGCCTGGCCACGGGCTATGGGGACCTGCGCGTAGTCTGGGATGTTAGCTTTTCCGTCCAGCAAGGGGAAGTGCTCGCCCTCCTCGGGCGCAACGGGGCAGGAAAGTCAACCATCCTTCGCACGGTGATGGGGCTTAATCCGGTGCAGTCGGGTCGGATCGAATATGAGGGCAAGGATCTGGGCCGGTCACCTGTCTACGATCGAGTGAAACAGGGTATCGGCTTTGTGCAAGAGGGGAAGCGCCTCATCGGAGACATGACCGTCGAGGAGAATCTGAAACTCGGAGCCCACTCCCGCCGCTGGACCCGCGCCGATCTTGCCCCGCGGCTTGAGTGGGCCTACGAGATGTTCCCCATTCTTCGCGATCGGCGAACGTCTCTTGCTGCGATGCTTTCGGGCGGTCAGCAGCAGATGCTTGCCATCGCCCAGGCGCTCATGCCCGAACCACGTCTTCTCCTCGTGGACGAGCCATCCGCGGGGCTGGCTCCCGCCGTTGTGGGAGATGTCCTGGCGGGCCTGGCCCGCCTGAGCGACAGCGGAATGTCGATCGTGCTGGTGGAGCAGTCCGTTGACTTCGCGCTCCAGTTGGCCACGCACGTGGTCGCCGTTGACCTTGGGCATGTGGTCTATTTCAGCCCCGCAGGTGATCCCGGCGTGAGGGAGGCCCTACGCGAGGCTTACCTAGGGCAGACCGAAGTCTCGCAGCACCCCTCCATACGACCATGA	MSTILNVSSLATGYGDLRVVWDVSFSVQQGEVLALLGRNGAGKSTILRTVMGLNPVQSGRIEYEGKDLGRSPVYDRVKQGIGFVQEGKRLIGDMTVEENLKLGAHSRRWTRADLAPRLEWAYEMFPILRDRRTSLAAMLSGGQQQMLAIAQALMPEPRLLLVDEPSAGLAPAVVGDVLAGLARLSDSGMSIVLVEQSVDFALQLATHVVAVDLGHVVYFSPAGDPGVREALREAYLGQTEVSQHPSIRP	PGPT0020785_2643	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
D1-29_01951	1869			hypothetical protein	ATGACAAATACTATGCAGGCGCCACTCACAGGACTGACAGATCGGGAAACCGCTGACATCGTTGCGGAATGGGTAGCTGACTTCGCGTCCGCCCTTGAGCGAGGTTCTGTGGCCGAACTGGAAGTGCTCTTCACCGAGGACGCAACATGGCGTGACTTCATGGCGTTTCCCTGGGATTTTATGAACCGCATCGATCGCGACGTGCTTGTTCCTGAACTGATCCGACTCGCTCATGACTGGAACGCTCGGAACTTCGAGGCCAGCGCCGATCAGGCCCCTGTGGTTAGCGGAAATGTGATCAACGCATTTTTTGACTTTACAACAAAAGACCGGATCGACCGTGGCTACGTTTGCCTGGTGCAGGGCGAAGAAGGGCTCGTCGCAACAACCATGCAGACACAGGTGGTGGGCTTGCAGGACCACCCGGAAAGGATAGGTTCTAATCGTCCTGAGGGCAAGGTGTACGGTGTTGTGCCGGATCGCACGCGGTGGAGTAGCGAGCGTAAGAAGGCCGAAGCCTTCGAGGACAACGACCCCGCAGTGCTCGTGCTCGGCGCGGGACATAACGGACTGTCGGTCGCGGCTCGCCTCGGTGCCCTGGACGTGCCGACGCTGATCATTGATCGAGAGGCGCGTGTGGGCGATCAATGGCGCAAGCGTTACGCAGCACTCGCGCTGCACAGCAGTGTCTTCGGTGACCACCTTCCCTACATGCCGATGCCGTCGACCTGGACCGCCCACACCCCAAAGGACAAGTGGGCCGACTGGTTGGAGTCATATGCGAAGTTGCTTGATCTCAACGTATGGACGGGGACTGAGTATCTCAGCGGGGAATATGACGAGGAGGCCGGGCACTGGAATATTCGTGTCCGACGCGAAGACGGCTCGATTCGTGAATTGCGCCCGCGGCACTTCTTTGTTGCCGGCGGCATGTTTGCTGCACCGAAGATACCGCAGGTAAAAGGGCTTGACAGTTTCGCGGGAGAGGTGCTGCATTCCGACTCATTCCAGGACGGAGCGAATTTCGCTGGGCGGAAGGCGCTGGTCGTCGGCGCAGGAGTCAGCGGACATGAATTGGCGCACGACCTGTGGGAGCACCGCGCGGATGTCACCATTCTCCAGCGCAGTGCGACCTATGTTATCTCCTATGAGGCCTACCACAAGTTCTGGAACTCCCTCTTTTCCGAGGACATGCCTTACTCAGCGGAGTTCGCGGACCAGATCGCCTACGCGGTGCCGAATGCACGCACAGACCCGATCAATAAGAAGCTGGTGAAGGATGCCGCGGAGTTTGACAATGCGCTTCATACCCGACTGGAGGCGGCGGGGTTCAAACTTGAGTGGGGACCGGACGGCACCGGAATCCTCGGTGCGCACCAGTCCGGCCGCGACAGCTACCAGATTGACATCGGGGCGTCCCAACTCGTCGCAGACGGAAAAGTTCACCTCAAGCAAGGCGTTGAGCTGGCAGAGGTAAGAGGAAACACCGCTGTCTTCAGCGACGGATCTGAGCTTGACGTCGATCTCATCGTTTTCGCCACGGGCTATCACCAGTTCTGGGGGCACATTAAGCCTACGCTCGGCTCCGCTGCGTCGAAGATCGATAAGGCATATGGCCGCGCAGCCGACGGCGAATACGCAAATACCTGGCGGAGGTCTGCGCAGCCCGGCCTCTGGTTCGGCAGCGGGTTCATCCGGATGGCCCGGTTCTATTCGACGTTCAGTGCCCTCCTGATCAAAGCAATCGAAGAAGGAATCGAGCCCACGGATCCGACCAAGGCCGAAACCGGTAGCAAGCACGTTGGGCCTGGCGGCGGTGGCCTCGTAAGCGTCGCTGACGACAACCTTGCTGCCATCATCCATGACTAA	MTNTMQAPLTGLTDRETADIVAEWVADFASALERGSVAELEVLFTEDATWRDFMAFPWDFMNRIDRDVLVPELIRLAHDWNARNFEASADQAPVVSGNVINAFFDFTTKDRIDRGYVCLVQGEEGLVATTMQTQVVGLQDHPERIGSNRPEGKVYGVVPDRTRWSSERKKAEAFEDNDPAVLVLGAGHNGLSVAARLGALDVPTLIIDREARVGDQWRKRYAALALHSSVFGDHLPYMPMPSTWTAHTPKDKWADWLESYAKLLDLNVWTGTEYLSGEYDEEAGHWNIRVRREDGSIRELRPRHFFVAGGMFAAPKIPQVKGLDSFAGEVLHSDSFQDGANFAGRKALVVGAGVSGHELAHDLWEHRADVTILQRSATYVISYEAYHKFWNSLFSEDMPYSAEFADQIAYAVPNARTDPINKKLVKDAAEFDNALHTRLEAAGFKLEWGPDGTGILGAHQSGRDSYQIDIGASQLVADGKVHLKQGVELAEVRGNTAVFSDGSELDVDLIVFATGYHQFWGHIKPTLGSAASKIDKAYGRAADGEYANTWRRSAQPGLWFGSGFIRMARFYSTFSALLIKAIEEGIEPTDPTKAETGSKHVGPGGGGLVSVADDNLAAIIHD	PGPT0013865_166	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013865-czcO|noxC|yrdP|trkA|hapE-K07222	NA	NA
D1-29_01952	1986	aes_1		Acetyl esterase	GTGGCCAATAACACCACACGCGGACCGCTTCAGGCGGACGCGGCTCGTTTCTTGAAACAGTTCGGAGCAGCCTTCACCGTGCCTCCCGAAGTGTTCGACGATGTGGTCGCCACTGCGCGCTACTTGGAGGGGGAGCGTGATCGGCTGGGAGCAGTCGCCGGAGCCAGCCTTCTCGGCGAACCGGAGCGAGCCGTCATTACAGCGGATCACACACTCCGCGACGGCGTCGCGGTCCGCAGCTATCTTCCGCGAGGGGACTCAGAGGTCCCGCGCCCGGTCGCCCTTTTCATCCATGGCGGTGGCTGGGTTACCGGGAGCATCGACCAGCACGATACAACCTGTCGCATTCTTGCGGTCGCGGCTGACATGGTTGTCGTCAACGTGGGATACCGGCTTGCGCCTGAACACCCATACCCCGGACCTCTGGACGACTGTGACCGAGCCCTCCAGTGGACGCGATCCGTTGCAGGTTCCCTGTTCGGGGCCGACCCATCGCGGATCGCTGTAGTGGGCGCCAGTTCCGGTGGCAATTTGGCGGCTGCACTCGCGATGCGAGCTAGGGACCGGCGTCTGAATGAGATCGACCTGCAGGTTCTTCTCTACCCTGCCCTGGATTCACAGATGTCCAGTGAATCATACGAGCCGGAGGTGAATGGTCGCGACTACTTCATTAACGCTAACCACATGCGTTGGTATTGGGATCTCTATCGAGCCGGCGGTGCGGACGACGATGACCCGTACTTCTCCCCCCTGGCCTCGACGGACTTGTCAGGCCTCCCTGCAGCAGTGATAGTCAGCGCAGAATTCGATCTGTTGCGCGATGACGCCATCAAATACGACAGCCGACTTCGGGCTGCGGGAGTCGCTTCTGAAAGACGGCATCACCAATCGATCCACGGATTTCTCGCGCTCTTTGACTTCGTCGCCGAGGCATATCCGGAAGTGGGCGAGCTAGGACGGGTGATGCGCGCGCGGCTCGACAAGATTGAGCGCGAGCGGCCCGTGAACACAATTACGTTGCCGCCGGCGATCGACGTTGCCGCGCGCGTGGAATCGGGAACGCTGGAGTCCCTGGACTTGCTTGCCCGATGGAATTCGACGAACGTCGAGACCATCCGCGCGAGTTATGAGAAGATTCCGCGACGAGCGGTTCCAGCCTCCGGGGACGTGTCGCGTGAAGACGGCATCGTCGTAGCCGGGGGCGGTCGGACGATTCCGGTCCGCTGGTACCGACCTCGGGACGTGAGTGGCCCGCTGCCGGTCATTGTCTATATACACGGCGGCGCGTACATCATGGGTACCTTGGACGAGAACGACGAACGACTGGAGGAGTTCGTGCGTCGGTTAGGGTGCGCAGTGGTCTCCGTCGACTACAGGCTCGCGCCGGAGAATCCCTACCCGGCGGGCCTCGATGACGTCGAGGCCGTATGGAGGGCACTTTCGTCAGCTCACGATCAGTACGACGTCGATCCCAATCGTATGGTAGTCGCCGGCTCAAGCGCTGGTGCTGGGCTCGCCGCATCTCTTTGCATTCGCCTGAAGGAATGTAACGAGCCACAGCCCCTGCTGCAGGTACTGGTCTACCCGATGTTGGACGATCGCGAATGGCCCAGCATCGCTATGCTCGAGGGCGGGCCCGGACACTGGGGGCTTTGGCAGATCCGGCAGGAGAGGCTTTCTTGGGAGGCGTACCTCGGTGACGCGGGAGTTCACCGTGAGCGGCTCGCGGCGTCGGCCATTCCCGGTCGGGCCGATCCCAAGATGCTCGTCGGTCTCGCGCCCGCGTTCATCGGCATTGGCGATGTCGACGCGCTTATCGATTCGAACCTACGGTTCGCGGCTAATTTGATTGCAGCGGGTGTTTCGACTGAGTTGCACACATATCCCGGCGTGATTCACGGTGGATTCCTGCCGCACCCTCGTACTCAGATGACCCGGAAATTCCTGGCCGACGTGTACGAGGCGCTCGCGCGAGCGCTCCGCTAA	MANNTTRGPLQADAARFLKQFGAAFTVPPEVFDDVVATARYLEGERDRLGAVAGASLLGEPERAVITADHTLRDGVAVRSYLPRGDSEVPRPVALFIHGGGWVTGSIDQHDTTCRILAVAADMVVVNVGYRLAPEHPYPGPLDDCDRALQWTRSVAGSLFGADPSRIAVVGASSGGNLAAALAMRARDRRLNEIDLQVLLYPALDSQMSSESYEPEVNGRDYFINANHMRWYWDLYRAGGADDDDPYFSPLASTDLSGLPAAVIVSAEFDLLRDDAIKYDSRLRAAGVASERRHHQSIHGFLALFDFVAEAYPEVGELGRVMRARLDKIERERPVNTITLPPAIDVAARVESGTLESLDLLARWNSTNVETIRASYEKIPRRAVPASGDVSREDGIVVAGGGRTIPVRWYRPRDVSGPLPVIVYIHGGAYIMGTLDENDERLEEFVRRLGCAVVSVDYRLAPENPYPAGLDDVEAVWRALSSAHDQYDVDPNRMVVAGSSAGAGLAASLCIRLKECNEPQPLLQVLVYPMLDDREWPSIAMLEGGPGHWGLWQIRQERLSWEAYLGDAGVHRERLAASAIPGRADPKMLVGLAPAFIGIGDVDALIDSNLRFAANLIAAGVSTELHTYPGVIHGGFLPHPRTQMTRKFLADVYEALARALR				NA	NA	NA	NA	NA
D1-29_01953	1662	mhpA	COG0654	3-(3-hydroxy-phenyl)propionate/3-hydroxycinnamic acid hydroxylase	GTGTCCGAAAACTTCGACTTAGATGATGCGATTGACGTCGCCGTGGTGGGAGCGGGTCCGACGGGTCTGATGCTCGCCAATTTGCTCGGCTCACACGGTCTCAAAGTCGCAGTATTCGAGGCTGGCGCTGAGCTCATCGATTTCCCCCGCGGGGTCGGTATCGATGACGAGAGCCTGCGAACATTCCAGTCGGCTGGTCTGGTGAGCAAGGTGCTCCCGCACACGATTGCAAATCAGTTGTTGGTCTTCATCGACGCCAAGGGCCGAGACCTCGCCCGGATCGCGCCCCCGTCGGCCGAGTTTGGATGGCCTCGCCGCAACGGTTTTGTGCAGCCTCTCGCCGACCGCGTTCTCCTGGACGGACTCGAACGCTACGACGCCGTGGACATCAACTGGTCCGCAGAGGTGACCGGATTCATCCAAGATGCGGATGGCGTCGACTTGACGGTCTCGTCACCCGGTGGGGAACGCAGTGTGCGGGCCCGCTACGTCGTCGGTGCAGACGGCGGCAGAAGTCAGACCCGCAAGACTCTTGGATTCGACTTTGTCGGCAGTTCATCCACAGCTGATTGGTTCGTTGTCGATATCCGCAACGACCCCTTGGGTCAGCCTGGCGCCTACGTGTGTGCAGACCCGCGCCGGCCCTATGCATCGATAAGCATCCCTCACGGCATTCGGCGCTTCGAGTTCATGTTGAAGCCCGGAGAGACCGAAGAGATTGCGATGACCGACGAGTTCCTCGCGCGCCTGCTCGAGCCTCTCGTGCCGTCGACAGCCAAGGTGGAGATTATTCGTCGCCGCGTCTACACGCACCACTCCAGGATCGCCACTCATTTCCGATCTGGCCGCGTCTTCCTTATCGGCGATGCGGCCCACGTGATGCCGGTGTGGCAAGGGCAAGGGTACAACAGCGGTATCCGTGACTCCCTGAACCTGTCCTGGAAGCTCGTGATGGTGCTCCGCGGCCTGGCCGGGGACAAGCTGCTTGACAGTTACGAGGCGGAGCGTCGGGAACACGTCCAGGCCATGACAAACCTCTCCACCCAGGTCGGTCGTGTTGTGTCCATGACGAATCGGCTCGGTGCCGCGCTGCGGGACGCGTTCTTCCGGGGAATCTCGATGCTGCCGAGTGCCAAGAATTACATCGTGCAGATGCGGTTCAAGCCCATGCCGACCATGTCACAGGGGGCGCTGACTACGATCGGCTCGCAGGGCGACCCGGCAGCCGTCGGGCGGCTCTTCATCCAGCCCACCGTGTGTACGCTCGATTCGGTATCAATCAAACTTGACGACGCCGTCGGACCATGGTTCGCGCTCATTGCCTGGAACAATGACCCGTGCGCCATCCTCGACGAGGACGCTCGGCAACGACTCGAGCGGGCAGGGGTTCGCCTGGTCGCGGCCCGCCCGGCTTCTCAGCTGCACTGGGTAGGTCCTGCGCCGGATGACTCGGTTCTCGTCATGGGCGATGTGGATGGGTCGCTGAAACGCTGGTTCGATTCACGGCCGGAATCGGTCATTCTCCTCCGTCCTGACCGAATTGTCGCGGGAGCGAGTGCCGCTCACGCCGCATCGGAGATGGTCCGGGGATTCGATCATGCCATTGGTGCTCCGGCAGTAGTTGCCGTGGCAACATCAGCACACCCATTACAAGGAGTTTGA	MSENFDLDDAIDVAVVGAGPTGLMLANLLGSHGLKVAVFEAGAELIDFPRGVGIDDESLRTFQSAGLVSKVLPHTIANQLLVFIDAKGRDLARIAPPSAEFGWPRRNGFVQPLADRVLLDGLERYDAVDINWSAEVTGFIQDADGVDLTVSSPGGERSVRARYVVGADGGRSQTRKTLGFDFVGSSSTADWFVVDIRNDPLGQPGAYVCADPRRPYASISIPHGIRRFEFMLKPGETEEIAMTDEFLARLLEPLVPSTAKVEIIRRRVYTHHSRIATHFRSGRVFLIGDAAHVMPVWQGQGYNSGIRDSLNLSWKLVMVLRGLAGDKLLDSYEAERREHVQAMTNLSTQVGRVVSMTNRLGAALRDAFFRGISMLPSAKNYIVQMRFKPMPTMSQGALTTIGSQGDPAAVGRLFIQPTVCTLDSVSIKLDDAVGPWFALIAWNNDPCAILDEDARQRLERAGVRLVAARPASQLHWVGPAPDDSVLVMGDVDGSLKRWFDSRPESVILLRPDRIVAGASAAHAASEMVRGFDHAIGAPAVVAVATSAHPLQGV	PGPT0019755_676	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0019755-mhpA-K05712	NA	NA
D1-29_01954	852	bphD	COG0596	2-hydroxy-6-oxo-6-phenylhexa-2,4-dienoate hydrolase	ATGACCCTCTGGACCGAACTCACCGGGCTCGACTACTCGATCCGCCACGTTACTGTCGGGCCGTGGTCGACCCGCGTTCTTGAAAGCGGAGCGGGCACGCCGTTCATTCTCATGCATGGAACCGGTGGGCACCTCGAAGCTTTCACGAAGAACATCCGCGCCTTGGCAGCGAACTACCGGGTCATCGCTTATGACTACCCCGGACATGGATGGACCACCACCACGCAGAGCGACTTGGAGATTGACGACTACATCGAGCACCTTGTCGGCCTCATGGATGCGCTCGATATAGAAAGCGCCCACCTCAGTGGAGAATCGCTCGGTGGCTGGGTGGCTGTAAAGTTTGCCGCTCGGTATCCCGACCGCGTAAAGAAGCTTGTGCTCAATACGCCGGGAGGAACAATGGCTTCCCCTGATGTCATGGAGCGCGTTCGATCGCTCAGTCAGGCAGCGGCCGATGACCCAAGTAAGGACAAAATACGAACCCGGCTCGAATGGCTGATGGCCGACCCGGACTCGGTGACTGAGGAGCTTATTGCCGTCCGACGGGCGGTATACAGCCGGCCGGGATTCCCGGATTCGATGAGGCATATTCTCTGCCTTCAAGACCCGGAAATCCGGCAACGGAACTTGGTCTCCGATGAGGAACTCGCCGCAGTTGTCTCAGCCGCTCTCGTAATTTGGACGAGCGATGACCCCTCAGGCCCTGCAGGAGCCGGCATGGACATGGCAAACCGGATGCCAGCCGGCGAGTTCCAACTGATCGAGCAAGCCGGACACTGGCCGCAGTGGGAGCAGCAGGCGCTTTTTGACGCCACTGTACTTGAGTTTCTGGGACGTGCAGAGCAGTGA	MTLWTELTGLDYSIRHVTVGPWSTRVLESGAGTPFILMHGTGGHLEAFTKNIRALAANYRVIAYDYPGHGWTTTTQSDLEIDDYIEHLVGLMDALDIESAHLSGESLGGWVAVKFAARYPDRVKKLVLNTPGGTMASPDVMERVRSLSQAAADDPSKDKIRTRLEWLMADPDSVTEELIAVRRAVYSRPGFPDSMRHILCLQDPEIRQRNLVSDEELAAVVSAALVIWTSDDPSGPAGAGMDMANRMPAGEFQLIEQAGHWPQWEQQALFDATVLEFLGRAEQ	PGPT0019765_452	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0019765-mhpC-K05714	NA	NA
D1-29_01955	804	mhpD		2-keto-4-pentenoate hydratase	GTGATTGCGACTGAGGCGATTGAGGCTGCGGCTGACAGAATCGAGGCCGCTGCAATTAGCGGGATCGCGTGCGAGCCTGTTTCGGATCTCCTGGGGCATCATGATATCGACGCTGCGTACCGAACCCAGCGTCGATTGACTGAACGCCGCCTTGCCCGCGGTACCCGCCTAGTTGGACGGAAGATCGGCCTGACGTCTGAGGCGGTTCAGAGGCAGATCGGAGTCGCGAGACCTGACTTCGGGGTGCTCTTCGACGACATGAGATACGGTGACGGCGACGAGATCCCGATGGCGCGGCTCCTGCAGCCGAAAGCAGAGGCAGAGATCGCCTTTCTGCTCGAAGAGGACATTCTTGATGCCAGCGACGCCGTCGCCGTACGTGCCGCTGTAGCACTGGCCTTTCCCGCACTCGAAATCGTCGACAGCCGCATTGCCGACTGGCGCATCGGCATCACAGACACCATCGCTGACAACGCTTCATCCGGCGTCTTCGTGATCGGCGCGAACGGTTTTCCGCTCGACGCCTTTGAGCCCGCTGGCGTCGTGATGAGAATGCGCCGCGGCGACACGGTTGTCTCGGAGGGCACCGGCCGTGACTGTCTAGGGGATCCGCTCAACGCCCTGACATGGCTGGCGGCAACGGCCATCGAGGTCGGTTCCCCGCTCCGTGCCGGTGATTTCGTGCTTTCCGGTGCGCTGGGACCCATGGTCACTGTCTCCCCGGGGGACGAATTCAGCGCCTCGATAGAACCGCTCGGAAGTGTGAGCATCCGATTCTCAGAGAAGGAAGAAGAACACGTATGA	MIATEAIEAAADRIEAAAISGIACEPVSDLLGHHDIDAAYRTQRRLTERRLARGTRLVGRKIGLTSEAVQRQIGVARPDFGVLFDDMRYGDGDEIPMARLLQPKAEAEIAFLLEEDILDASDAVAVRAAVALAFPALEIVDSRIADWRIGITDTIADNASSGVFVIGANGFPLDAFEPAGVVMRMRRGDTVVSEGTGRDCLGDPLNALTWLAATAIEVGSPLRAGDFVLSGALGPMVTVSPGDEFSASIEPLGSVSIRFSEKEEEHV	PGPT0006005_245	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID|CINNAMIC_ACID_RESISTANCE,PGPT0006005-mhpD-K02554	NA	NA
D1-29_01956	939	dmpF		Acetaldehyde dehydrogenase	ATGACGAACACAATGGGAGTCGCGATCATCGGCTCTGGAAACATCGGCACCGACTTGATGTTCAAGGTGATGCGCGGATCTGAGACCCTTCGGGTCGTTGCGATGGTGGGCATCGACCCAGACTCCGATGGACTCGCGAGAGCAGCCAGCCTAGGGGTCGCAACGACGTCGGACGGCGTCAGTGGCCTGATCGCGCTCCCCGACTTCGCCGACGTCGAGATCGTATTCGATGCGACAAGCGCTGGTGCGCACATTGCGAACGCACGCCTTCTTGAGCCATATGGTTGTCGCTTGATCGACCTGACGCCGGCGGCCATCGGCCCGTTCGTCATCCCGCCGGTGAATCTTGAGGAGCACCTGGACGCGCCGAACATCAACATGGTCACCTGTGGCGGCCAGGCCACGATTCCCATCGTGGCTGCAGTGTCGCGTGTCACAGAGGTTCCTTACGCGGAGATTGTCGCGTCAGTCTCTTCCAAATCTGCCGGGCCAGGTACCCGGGCCAACATCGACGAGTTCACCGAAACGACCTCCCATGCCATCGAGATCGTCGGCGGGGCCCGCCGAGGCAAAGCCATCATCATCCTGAACCCAGCGGAGCCGCCGCTTATCATGCGCGACACAGTCTACTGCCTGATTGGCAACGCAGACCATGATGCGGTCCGGAGAGCAGTCAAGGAAATGGTCGATAAAGTAGCCACATATGTGCCCGGGTACCGCCTTGTCCAGGACGTCCAGTTCACGGCCGTGGATCCCGCCGAAGTCTCGACACTCCTACCCGATGGAGCCGGGCCGGTCGACACGAAGGTCTCAGTCTTTCTTGAGGTCGAGGGCGCGGCCCACTATCTGCCGGCTTACGCGGGCAATCTGGACATCATGACATCAGCGGCCATGGCCGTCGCCGAACGAATCGCCATCCGCGGAACGGTGGCTGCGTGA	MTNTMGVAIIGSGNIGTDLMFKVMRGSETLRVVAMVGIDPDSDGLARAASLGVATTSDGVSGLIALPDFADVEIVFDATSAGAHIANARLLEPYGCRLIDLTPAAIGPFVIPPVNLEEHLDAPNINMVTCGGQATIPIVAAVSRVTEVPYAEIVASVSSKSAGPGTRANIDEFTETTSHAIEIVGGARRGKAIIILNPAEPPLIMRDTVYCLIGNADHDAVRRAVKEMVDKVATYVPGYRLVQDVQFTAVDPAEVSTLLPDGAGPVDTKVSVFLEVEGAAHYLPAYAGNLDIMTSAAMAVAERIAIRGTVAA	PGPT0006010_387	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,PGPT0006010-mhpF-K04073	NA	NA
D1-29_01957	1014	mhpE	COG0119	4-hydroxy-2-oxovalerate aldolase	ATGGGCACCAAGATCTATGTTCAAGACGTCACTCTCCGGGACGGCATGCACGCCATCCGGCACCGGATAACACCAGAAAAAGTCGGCCAAATCGTCGGCGCCCTCGATCGGGCGGGCGTCTCAGCAATTGAGATCAGTCACGGCGACGGGCTCGCAGGATCGAGCCTAAACTACGGTCCGGGCAGCCACACTGACTGGGAATGGATCGAAGCTGCAGTCGCGAATGCGCAGAACGCCATCATCACCACGCTTCTTCTTCCTGGGCTGGGCACGATCGCAGAACTTCGACAAGCATTCGAACTCGGTGTCCGATCTGTACGAGTGGCCACCCACTGCACAGAAGCGGACGTCGCTGCACAACACATTGCCGAGGCTCGGTCACTGGGCATGGATGTATCCGGCTTTCTGATGATGAGCCACATGGTCCCTCCCGCGGAACTCGCTAAGCAGGCCCAACTCATGGAATCCTATGGCGCCCACTGCGTCTACATCACCGACTCAAGCGGTCGATTGACGACCGATGATGTTCGCGAGCGGGTGCGCGCCTACCGGGACGTACTCGACGACTCGACGCAGGTGGGAATCCATGCACACGAGAACCTGTCGCTCGCCGTCGCGAACTCGGTGGCAGCAGTCGAAGAAGGCGCGTACCGTGTCGACGCCTCTCTCGCGGGCCAGGGCGCTGCCGCCGGCAACGCCCAGCTTGAGGCGTTCATCGCCGTCGCGAATCTGCGTGGCTGGGAAACCGGATGCGACCTTTTCCCGCTGGAGGACGCTGCTGACGATTTGGTACGGCCGCTGCAGGACCGACCTGTCCGTGTGGACCGCGAGACACTCACGATCGGCTACGCCGGCGTCTATGGCAGTTTCCTCCGTCACGCAGAGATTGCGGCGTCGAACTACGGCGTGGACGCACGCGACATTCTTATCGAGGCCGGCCGCCGCAAGCTCGTCGGCGGTCAGGAAGACATGCTTACCGACATCGCGCTGAACCTCCAGGCACAGTCCAAGTGA	MGTKIYVQDVTLRDGMHAIRHRITPEKVGQIVGALDRAGVSAIEISHGDGLAGSSLNYGPGSHTDWEWIEAAVANAQNAIITTLLLPGLGTIAELRQAFELGVRSVRVATHCTEADVAAQHIAEARSLGMDVSGFLMMSHMVPPAELAKQAQLMESYGAHCVYITDSSGRLTTDDVRERVRAYRDVLDDSTQVGIHAHENLSLAVANSVAAVEEGAYRVDASLAGQGAAAGNAQLEAFIAVANLRGWETGCDLFPLEDAADDLVRPLQDRPVRVDRETLTIGYAGVYGSFLRHAEIAASNYGVDARDILIEAGRRKLVGGQEDMLTDIALNLQAQSK	PGPT0002050_794	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,PGPT0002050-mhpE-K01666	NA	NA
D1-29_01958	1005	bphC_2		Manganese-dependent 2,3-dihydroxybiphenyl 1,2-dioxygenase	ATGTCCCCCCGCGACCAGTATGATCCAGGGCCCCAGATTGCCCAGGCAGGAAGCATCAACCTTGGTACGCCCGATCTTGACCGCTCGCTAGGATTCTTCCAGGACCTCCTGGGCATGGAGATCGTGGAACGGACCGATGATGGTGTGGCCTATCTGCGCGGCTATCAGGAGCTTATTCATCACTCTCTCGTTCTTACTGAGCAGGACGAGGCCCGCGTAAACGCCTACAGCTTCCGAGTGAAGCGCGCTCAGGACGTAGAACTCTTTCGTGACGAACTCGTGAAGCAGGACATCGAGGTGCTCGAAGTTCCGTCCGGAAGTGAATCTGGCCGCGGTACCGCGATTCGCTTCCTGGTGCCGTGGAGTGAGCATCCGTTCGAGTTTTACTATGACATCGAAAAGCCACTCGCGCCGGAGGAGCTCCGCTCGCGCCTTCCCAGCAGCAGCTCTCGTCGTCGCGGGCTCGGGGTGCGCCGTATCGATCACTTCAATGTTCAGACCAGCCCCGGCACCATCAACCAGGCAGAGCTATGGTTGCGCGAGAACATGGGTCTCAAACGCCGCGAGTTCATCATGATGCCTGACCATCCATCGACCGTCATGGCATCGTGGATGTCCGTGACCTCTCAGATGCATGACGTTGCTCTCGGCGTTAACCGCGACGAAAAAATGGGTCAGCTGCACCACGTCGCCTTCAACCTCGAGAACTACCACGACGTGCTGACCGCTGCGGATCAAATCCGTGACCTCGATATCGAATACGGAGTGGGGCCGGGAAAGCACGGCGTCGGTCAGGCCATGTATCTGTACGTGCACGACCCGGGTTCGGACCACCGGGTTGAAATCTACTCTGGCGGGTACCAGGTTTTCGATCCCGACTGGGAGCCGATTGAGTGGAAGGTTCCAGACGTCCCGCACGGCATGACATGGTACGGCGATGCCATCGATATTCAACAGGGGAGCCGCGGCCGGGAGACCACCTCGTCGGCTGGCCTCTGGCTGTAG	MSPRDQYDPGPQIAQAGSINLGTPDLDRSLGFFQDLLGMEIVERTDDGVAYLRGYQELIHHSLVLTEQDEARVNAYSFRVKRAQDVELFRDELVKQDIEVLEVPSGSESGRGTAIRFLVPWSEHPFEFYYDIEKPLAPEELRSRLPSSSSRRRGLGVRRIDHFNVQTSPGTINQAELWLRENMGLKRREFIMMPDHPSTVMASWMSVTSQMHDVALGVNRDEKMGQLHHVAFNLENYHDVLTAADQIRDLDIEYGVGPGKHGVGQAMYLYVHDPGSDHRVEIYSGGYQVFDPDWEPIEWKVPDVPHGMTWYGDAIDIQQGSRGRETTSSAGLWL	PGPT0005055_164	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
D1-29_01959	1530	oadA	COG0511	Oxaloacetate decarboxylase alpha chain	GTGTCGTCGAATCAGCCAGAAACAATCACCTCAGTCATGAGTCTTGGAGGGCGTCCGGCAAACAGCCGCCGTGAAATCAAAATCATCGATACGACCTTGCGCGATGCTCATCAGAGCCTTTGGGCGACACGGATGCGCACTGATCACATCGTTTCCATGGCTGCAGAATTTGACAAGGTTGGATTCGAGCAGGTGGATCTTATGGCTCCGATCCAGTTTGACGTGGCGGTCCGCTACCTAAAGGAAGATCCTTGGGAGCGGGTCCGACTCGCACACGAGCATGCACCCAACACCAGGTTCCGGGCACTGATCCGCTCCAAGAACATCGCTTCGTTCGACTTCCTGGCGGACGATGTGATTGAGGCCTGGGTGGAGAACCTGTACGCAAACGGCTTTCGGGTCATCGGCTCGTTCGACGGGCTCAACGACGTCGACAACATCGCGCCAGGCCTGATCCGCGCGAAGGAGTTGGGGGCCTCCACTTTTGGTGCGGTCTCGTTCTGTGAAAGCCCGGTCCACACCGACGAGCTCTTCGTCGCCAAGGCGCGCGAGCTGATCGAGAAGGCCGATGTGGATGCGATCATGCTCAAGGACGCCGGCGGCCTCTTAACACCGGACCGCATTCGCACGCTGGTGCCCGCCCTCAAAGAGGTCATGGGGGACCGGACTCTCGAACTGCACAGCCACTGCCTAACGGGGCTGGCGCCGCTGGTCTACCTTGAGGCCGTGGAGCTGGGGTGCGATGCGCTGCACACCTCAATCGCGCCAATGGCCAACGGTGCTGCGCAGCCGGCGACGCAGGGCATCGTGCGGGATCTGAGGGCGCTCGGATATACAGTCAATGTCGACGACGTGCTGATCGATACGATCAGTGAGAAGCTCTCTGCGATCGCTGAGGCGGAGGACAAGCCGGTGGGCCATCCGGTCGCGTACAACGGCTTGCATTTCATGCATCAGCTTCCTGGCGGGATGCTGTCGAACTTCCATTCTCAGCTGGCGACGGCAGGCCTTTCGGACCGTTTCGATGAGCTGCTCCACGAAGTTGCCCGGGTGCGGTCGGAGCTGGCGTTTCCGATCATGATCACCCCCTTCGCTCAGTTTGTGGGCACTCAAGCGGTGATGAATGTGATCTCTGGTGAGCGGTACTCGATCGTGCCGAACGAAATCAAAAAGTACGTCCTCGGTTACTACGGCACTCTCCTGGCACCCATTGACGCGGAATTGCATGCTCGGATCGTGACCAACGGCGCTTCGGACATTGCTCTCGAGCCTGCCGCCATCGCTCCAATGCTCCCCGACCTGCGGGAGCGCCATCCCGACGAGAGCATCGACATGCTGCTCCTGCGGGCGATGTTCGCCGGTACGCAGGTCGACGAGATGAAGAAGACCGTGGCGGGTGGTAAAAATGCCAATGAATTCCGCCAGCCGCTTCTGGACCTCATCAAAACATTGCATCAGAAGAGCCAGGCCGGCAGGCAATCGCTGACAGCCGGAAATCTGCAAATCAGCCTCACAAAAGGAGAAAAATAA	MSSNQPETITSVMSLGGRPANSRREIKIIDTTLRDAHQSLWATRMRTDHIVSMAAEFDKVGFEQVDLMAPIQFDVAVRYLKEDPWERVRLAHEHAPNTRFRALIRSKNIASFDFLADDVIEAWVENLYANGFRVIGSFDGLNDVDNIAPGLIRAKELGASTFGAVSFCESPVHTDELFVAKARELIEKADVDAIMLKDAGGLLTPDRIRTLVPALKEVMGDRTLELHSHCLTGLAPLVYLEAVELGCDALHTSIAPMANGAAQPATQGIVRDLRALGYTVNVDDVLIDTISEKLSAIAEAEDKPVGHPVAYNGLHFMHQLPGGMLSNFHSQLATAGLSDRFDELLHEVARVRSELAFPIMITPFAQFVGTQAVMNVISGERYSIVPNEIKKYVLGYYGTLLAPIDAELHARIVTNGASDIALEPAAIAPMLPDLRERHPDESIDMLLLRAMFAGTQVDEMKKTVAGGKNANEFRQPLLDLIKTLHQKSQAGRQSLTAGNLQISLTKGEK	PGPT0001935_502	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001935-oadA-K01571	NA	NA
D1-29_01960	519	accB	COG0511	Biotin carboxyl carrier protein of acetyl-CoA carboxylase	ATGTCGCTTACCCCGCCCGATATCAGGGAACTCAAGGCCATCCTCGATTGGGCGAATCTGACCGAGGACGTGCGCGAACTCTCGATCAAATTCGGCGATGTTGAGTTGTTCATCTCCCGCGACCGGCAGCCGTCCATAGGCCATCCCGTTGCCGCACAGGGGTCGGCAACAGCGACAGCCATTTCGCCTCCGGTCGCCCCAGTGCCGCTGCACCCGCCAGCCGCCGCACCTGTAGCCCTGAGCCAACTGCAGGCCTCCGACGCGCTGGCGTCCGACGAGGTGCTGATTAAAGCACCGATGGTCGGACTGTTCTATTCATCGCCGAAGCCCGGAGACCCCGCTTTCGTAGCTGTCGGTGACAAGGTTGGCGTCGAGACGGTGCTTTGCATCGTGGAGGTCATGAAGCTGATGAGCAACGTCGAGGCGCGGGTCGAGGGCACAGTCACGAAGATTCTGGTCGAGAACGAGCAAGCGGTCGAGTACGGCCAGCCCCTGATGGTGATTAAACGCGATGCCTGA	MSLTPPDIRELKAILDWANLTEDVRELSIKFGDVELFISRDRQPSIGHPVAAQGSATATAISPPVAPVPLHPPAAAPVALSQLQASDALASDEVLIKAPMVGLFYSSPKPGDPAFVAVGDKVGVETVLCIVEVMKLMSNVEARVEGTVTKILVENEQAVEYGQPLMVIKRDA	PGPT0001700_411	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001700-accB|bccP-K02160	NA	NA
D1-29_01961	1368	accC	COG0439	Biotin carboxylase	ATGCCTGAACCCCTGAAGAGCGTGCTGATCGCCAACCGTGGCGAAATAGCGCTGCGCGTGGTCAGAGCGTGCAAGGAACTGGGTATCCGGAGCGTCCTGGCGTATTCGGAGGCCGACGCCGATTCCTTGCCGGTGAAGCTTGCCGACCAGGCCGTTTGCATCGGTCCCGCGCAAGCGAAGTCAAGCTATCGCGATCCCCGAGCAGTTATCAGTGCGGCGCTGGCATACAAGGTCGACGCCATCCACCCCGGCTATGGCTTTCTTTCCGAGAACGCGGACTTCGCCAAAATGTGCGAAGACGAGAATGTCGTCTTCATCGGCCCGGCCTCGGACGTCATCCGTTGCATGGGCGACAAGATCGAGGCGAAGAATATCGCACGCAGGGCCGGAGTGCCCACAGTGCCTGGTTCGCTGGGCGCAATAGCCGAGTACAACGAAGCCTTCGATGTGGCCGGCGAGGTCGGCTACCCCCTGCTGATCAAGGCTGCGGCCGGGGGTGGCGGACGTGGCATGCGTGTCGTGGAGTCGGCCGCAACGCTCGAGAAGGACCTAGCGGAGATCATGTCGGAAGCCGAAGTCGCGTTCGGTGACCCAGCCGTCTATATCGAGCGCTACCTCACCGACATCCGGCACATCGAGATACAGGTAATATCCGATGGCCAGACCGTATTGCACCTCGGAGAGCGGGACTGCACGGTACAGCGACGTAACCAAAAGCTGATCGAGGAGTCGCCGTCGCCAGTCCTTGACGCAGAACTCAGGCACGGCTTGGCACAGGCTGCGGTGGCGCTGTGCAGAGAAGTCGGATACACGAATGCCGGGACTGTCGAGTTCGTTTTCGACAACATCGATCGCAGGTACTACTTCATCGAGATGAACACCCGGATCCAGGTGGAGCACCCCGTCTCAGAGATGGTCACCGGCATCGACCTCATCAAGCTGCAGTTGCAGATCGCTGGCGGTTTGCCGCTAAGCCTGACCCAGCAGGATATCCATATCAGCGGCCACGCTATCGAATGTCGCATCAATGCTGAAGACCCGGACAATGGGTTTGCACCCAGCCCGGGCAGGGTCGCCGATTTCCGTGCGCCGGGCGGCTTCGGAGTAAGGATGGATACACATATCGAGTCGGGCTATTCCATCCCTCCCTACTACGACTCCATGATCGGCAAGCTCATCTGCTGGGGCAAAGATCGCGACGAGGCCATCGCCCGAGCCCTCCGCGCTCTCGACGAGCTCGTCGTGGAGGGAATTATCACCACAGCCCCCTTCCACAAGAGAATCCTTCAATGCTCGAAGTTCGAAACAGGTGATTTCAACACTGGGTTCGTTGCTGAGCTCTTGGCGGGTGAAACAATCATGGGGTGA	MPEPLKSVLIANRGEIALRVVRACKELGIRSVLAYSEADADSLPVKLADQAVCIGPAQAKSSYRDPRAVISAALAYKVDAIHPGYGFLSENADFAKMCEDENVVFIGPASDVIRCMGDKIEAKNIARRAGVPTVPGSLGAIAEYNEAFDVAGEVGYPLLIKAAAGGGGRGMRVVESAATLEKDLAEIMSEAEVAFGDPAVYIERYLTDIRHIEIQVISDGQTVLHLGERDCTVQRRNQKLIEESPSPVLDAELRHGLAQAAVALCREVGYTNAGTVEFVFDNIDRRYYFIEMNTRIQVEHPVSEMVTGIDLIKLQLQIAGGLPLSLTQQDIHISGHAIECRINAEDPDNGFAPSPGRVADFRAPGGFGVRMDTHIESGYSIPPYYDSMIGKLICWGKDRDEAIARALRALDELVVEGIITTAPFHKRILQCSKFETGDFNTGFVAELLAGETIMG	PGPT0001705_1562	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
D1-29_01962	1185		COG0183	putative acetyl-CoA acetyltransferase	ATGGAGACATCCGTCATCGTCGCTGGCGCACGAACGCCTATAGGCAAATTACTCGGTGGGCTCTCAGGCTTTACCGCGACCGAGCTTGGAGGTATCGCTACTGCGGCGGCCATAGAGCGCGCTGGCATCGACCCTGGCTCTCTCGACGCCGTCACGCTCGGCAATGTTGTTCAGGCTGGGGTGGGTGCAGGCCCGGCCCGGCAAGCCGCAATAGCCGGCGGCGTCCCACTGTCGGTTCCCGCGACGACTGTGAACAAACTTTGCCTCTCTGGCCTGGCGGCTATTGGCCTCACCGACAACGCTATTCGAGCGGGTTTCTGGACGCGGGCGCTGGCAGGCGGGATGGAGTCCATGAGCAATGCCCCGCACGTGTTACGGCGCACGCGCGCCGGCTTTAAGTACGGGAGTGCCCCCCTTGAAGATTCCCTTGAACGTGATGCCTTGATCTGCTCCATTGAAAACACGACAATGGGCGCAGCAACCGACCGCTACCAACGACCGCTAAGCATCACACGTGAAGAGCAGGACGAATTCGCTGCCCGCTCGCACTCGAAGGCCTCAGCTGCCATTCAATCAGGCCGCTTCACTGCCGAGATTGTTCCGGTCAAGGCTGCCGGGCGCACCGGCGAGATGGTCTTCGACACGGATGAGGGTGTACGTCCGGGCACCACTGCAGAGACACTCGCAAGGCTCCGCCCGGCTTTCGATCCCGATGGCACAATAACGGCGGGATCGGCATCCCAACTATCGGATGGCGCTGCGGCCCTTGTTGTAATGAGCCGCTCCGAAGCTGATCGGTGCGGGCTCGATTGGATTGCCGAGATAGTCAGCTATGGCACTTTCTCCGGCCCCGACCCCTCGCTGCTCCTTCAGCCTGCCGGAGCAATCCGGGATGCGCTCCGTCGGCAGAACGAAGTGACTCTCGAAGATCTTGACGTTTTCGAGATGAATGAAGCCTTTGCGGGCGTGCCGATCGCCTCAGCTCGCGAACTTCGCATCGAACTCGAACGTGTCAACCCTAACGGCGGCGCCATCGCTCTCGGCCACCCCGTTGGAATGAGTGGTGCGCGACTCGTTCTGAGTCTTGCACTTGAACTCCGCCTTCGGGGTGGCGGGCTAGGTGCGGCGGCACTTTGCGGAGGCGGCGGACAAGGCGACGCTCTGATTATCCGAGTACGTCCTTAG	METSVIVAGARTPIGKLLGGLSGFTATELGGIATAAAIERAGIDPGSLDAVTLGNVVQAGVGAGPARQAAIAGGVPLSVPATTVNKLCLSGLAAIGLTDNAIRAGFWTRALAGGMESMSNAPHVLRRTRAGFKYGSAPLEDSLERDALICSIENTTMGAATDRYQRPLSITREEQDEFAARSHSKASAAIQSGRFTAEIVPVKAAGRTGEMVFDTDEGVRPGTTAETLARLRPAFDPDGTITAGSASQLSDGAAALVVMSRSEADRCGLDWIAEIVSYGTFSGPDPSLLLQPAGAIRDALRRQNEVTLEDLDVFEMNEAFAGVPIASARELRIELERVNPNGGAIALGHPVGMSGARLVLSLALELRLRGGGLGAAALCGGGGQGDALIIRVRP	PGPT0008320_6221	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-29_01963	1500	bauC_3	COG1012	Putative 3-oxopropanoate dehydrogenase	ATGGTTCGCGAACTAATGCACTTTGTCGGCGGCAAGGCTGTTGCCGGAACTTCGGGCCGCTTCAGCGATGTCTATAATCCCAGCACGGGAGAAATTCAGGCCCGAGTGCCTCTGGCCACCACTGAAGAGGTCGAGGCCGCGATTAGCAACGCCGAAGAGGCACAGATTATATGGAGTTCATGGAATCCGCAGCGCCGTGCCCGGGTGCTGGCTAAGTTTCTTACCCTGGTCGAGCGTGACCTCGACAAGCTTGCCCGACTTCTTAGCTCCGAGCACGGCAAGACCGTAGCCGATGCCAAGGGTGATATTCAGCGCGGCGTCGAGGTCATTGAATTCGCTGTTGGCGGACCTCATTTGCTCAAGGGGGAGTACACGAGCGGCGCAGGTACGGGAATCGATGTCTATTCCATGCGCCAGCCCCTCGGGGTCGTAGCTGGCATAACGCCCTTTAATTTTCCCGCAATGATCCCTCTTTGGAAGTGCGGGCCTGCACTTGCCGCTGGCAACTCGTTCATCCTTAAGCCAAGCGAACGCGATCCGTCCGTTCCACTCGCCCTCGCCGAACTTTTCCTTGAGGCAGGCATGCCTCCGGGTGTGTTCAACGTCGTCAACGGCGACAAGGTAAGCGTGGATGCGTTACTGAATGATGAGCGCGTGAAAGCGATCGGCTTCGTTGGTTCAACCCCCATTGCGCAATATATCTATCAAACAGCGGCCGCCAACGGGAAGCGCGCACAGTGTTTTGGGGGAGCGAAAAACCACATGATCGTCATGCCCGACGCCGATCTCGACCAGGTCGCTGACGCTCTGATGGGCGCCGGCTACGGCTCAGCGGGGGAACGCTGCATGGCGATTTCGGTGGCCGTTCCCGTAGGTCAGGCAACAGCCGACGCCCTTGCGGCCAAACTGACTGAGCGCGTGAAGGAACTGAGAATCGGACCCGCCCTCGATGAGGCAAGCGACTACGGTCCCCTAGTGACCCAGGCCGCAGTAGACACAGTGTCAAAATACATCGGAATCGGCGTCGAGGAAGGTGCGACGCTTCTAGCTGACGGGCGTGGGCACATAGTCGAAGGATTCGAGCAGGGGTTCTACCTGGGCCCAACGTTGTTCGACCACGTCACCTCCGACATGACCATCTACCGTGAAGAAATCTTTGGCCCTGTCCTAATAATTACGCGGGCCAAGGACTACGAGGAGGCGCTGCGCCTGCCCTCTGAACACATCTACGGCAATGGAGTCTCGATCTTCACCCGTGATGGCGATACCGCCCGCGATTTCACCGCCCGGGTGAATGTCGGCATGGTCGGCGTCAACGTTCCGATTCCGGTACCAATCGCCTACCACACCTTTGGCGGGTGGAAAAAGTCGGGCTTCGGCGACCTGAATCAGCACGGACCCGACTCCTTCCGGTTCTACACGAAGACGAAGACGGTGACATCACGGTGGCCATCAGGGTTAAAAGAAGGCGCCAACTTCTCAATACCGACGATGGACTGA	MVRELMHFVGGKAVAGTSGRFSDVYNPSTGEIQARVPLATTEEVEAAISNAEEAQIIWSSWNPQRRARVLAKFLTLVERDLDKLARLLSSEHGKTVADAKGDIQRGVEVIEFAVGGPHLLKGEYTSGAGTGIDVYSMRQPLGVVAGITPFNFPAMIPLWKCGPALAAGNSFILKPSERDPSVPLALAELFLEAGMPPGVFNVVNGDKVSVDALLNDERVKAIGFVGSTPIAQYIYQTAAANGKRAQCFGGAKNHMIVMPDADLDQVADALMGAGYGSAGERCMAISVAVPVGQATADALAAKLTERVKELRIGPALDEASDYGPLVTQAAVDTVSKYIGIGVEEGATLLADGRGHIVEGFEQGFYLGPTLFDHVTSDMTIYREEIFGPVLIITRAKDYEEALRLPSEHIYGNGVSIFTRDGDTARDFTARVNVGMVGVNVPIPVPIAYHTFGGWKKSGFGDLNQHGPDSFRFYTKTKTVTSRWPSGLKEGANFSIPTMD	PGPT0002295_1688	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
D1-29_01964	1143	mmgC_3	COG1960	Acyl-CoA dehydrogenase	GTGTACCCCGTAACAGAAGACCAGCGGGCCCTCATCGAGGCCGTGCGAGACTTTTCACAGTCCGCGCTGGCGCCGAACGCCATCGAGTGGGACCAGACGAAGTTCTTTCCCGTCGACGTTCTCGAGCAGGCTGGTGAACTCGGCCTCGGAGGTATCTACACCAGCGAAGACGTAGGTGGCGCCGGGCTAACCCGCAGCGATGCCGTTCTGATATTCGAGGAGCTCGCAAAAGGCGACACCGCCATCGCAGCGTACATTTCGATCCACAACATGGTCGTGTGGATGATCGATACGTTCGGCGACGATGATCAACGCAAACGGTGGGTGCCCGAACTCGCCTCAATGCAGCAGCTGGGCAGCTACTGCCTCACGGAGCCGGGAGCAGGGTCCGACGCCGCATCGCTGCAGACGTCGGCCAGGCGCGATGGCGACGAATACGTACTGAATGGAACCAAGCAGTTCATCTCGGGTGCAGGTTCTTCGAGCATCTACATCGTCCTGGCTCGAACCGGTGGGGAGGGACCGCGGGGAATCAGCGCTATCGTGGTTCCCGCGGAAACACCAGGACTCTCATTCGGCTCGAACGAGAAGAAGATGGGCTGGAACGCCCAGCCTACTCGCCAAGTTGTCCTCGACGATGTGCGAGTTCCGGTGGCCAACCGTCTTGGCGACGAAGGCGCGGGCTTCCACATAGCTATGAAGGGCCTCAACGGCGGCCGGGTAAATATGGGAGCCTGTTCACTTGGTGGCGCGCAGTGGGCACTGGAACAAACCATCAAGCACCTGAACGAACGGGTTGCTTTTGGGAAGCCGCTGGCTGCACAGCAGTCACTTGTATTCACGCTTGCGGACATGGAAACCGAACTGCAGGCGGCTCGGGGGATGTTGCGGCAGGCTGCCCTCGCCATGGACACAGACGACCCCAATGTTGCAACAATTTGTGCCATGGCAAAACGCTTCGCAACTGATGCTGCGTTCACAGCAGCTAACTCCGCCCTGCAACTGCACGGCGGCTACGGGTACCTCGCTGACTATGGAATCGAGAAGGTTGTTCGGGACCTCCGTGTGCACCAAATCCTGGAGGGAACCAACGAAATCATGCGTCTGATTGTCGGACGCGCTCTGCTGGAGAAAGCGTCATGA	MYPVTEDQRALIEAVRDFSQSALAPNAIEWDQTKFFPVDVLEQAGELGLGGIYTSEDVGGAGLTRSDAVLIFEELAKGDTAIAAYISIHNMVVWMIDTFGDDDQRKRWVPELASMQQLGSYCLTEPGAGSDAASLQTSARRDGDEYVLNGTKQFISGAGSSSIYIVLARTGGEGPRGISAIVVPAETPGLSFGSNEKKMGWNAQPTRQVVLDDVRVPVANRLGDEGAGFHIAMKGLNGGRVNMGACSLGGAQWALEQTIKHLNERVAFGKPLAAQQSLVFTLADMETELQAARGMLRQAALAMDTDDPNVATICAMAKRFATDAAFTAANSALQLHGGYGYLADYGIEKVVRDLRVHQILEGTNEIMRLIVGRALLEKAS	PGPT0002285_345	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
D1-29_01965	1095	menB_1		1,4-dihydroxy-2-naphthoyl-CoA synthase	ATGAACCAGCAGCTCCCTCCCAATGCACAGGTGACGCCGGAACAGGAGGTCCTTTTCGAGGTACGAGGGCACCTTGGTCACATCACGCTCAACCGACCGCGAGCCATCAACGCGCTCAACCATGCGATGGTGAAGATGGTCCTCGCCCAGCTCGAGGCCTGGTCCATGGACCGACGGGTAAGCACCGTACTCGTCACCGGCAGTGGTGAACGTGGACTGTGCGCGGGAGGTGACATCGTGTCGCTTTACCGGGACGCACGCGAGGGCGACGGGCGGGCATCAGCCGACTTCTGGCGGGATGAATACCGGCTCAATGTTGAAATCGCTAACTACCCCAAGCCATATGTCGCTGTCCAGGACGGACTCGTCCTGGGCGGTGGCATTGGCATCTCGGCGCACGGCTCGCATCGAATCGTCACGGAAAGATCCAAGCTCGGGATGCCAGAGACCGGCATCGGCTTCATTCCCGATGTAGGAGGAACCCGTCTGCTTTCACGTGCTCCCGGCGAGCTCGGAACCTACCTTGCTCTGACAGCAGGTTCGGTCGGAGGCGCAGACGCCATCGCCCTAGGGCTATCCGACAGTTGGGTTCCATCAGCTCGCATCCCTGAGCTCATCGCCGCGCTCGAGAACCTGGCCGCGGACGACGCAGTGGCAGCAGTCGTCGGACAAGCCCCAGTGGCAGGCCTACTCGCGCACCGAGCCTGGATTGACCCAGCGTTCTCTGCCGACAGCGTCGCTGAGATCGTCGAGCGATTGCGCCATTCTGGCACAAAGGAGGCTCGTGAGGCCGCCACGGCCGTCACATCGAAGTCTCCGACTGCCCTGGCTGTAACGCTCGAGTCCCTGCGTCGCGCTCGCCACCTCGATTCGCTCGAAGACACCATGCAGCAAGAGTTTCGAGTTTCTCTTCGTGCACTGAGGGCCCACGACTTTGCAGAGGGCGTCAGGGCGCAGGTCGTCGATAAAGATCGCCTACCGAACTGGGATCCAGCAGGTCTTCACGACGTTACGACCGAGTTGATCAATGCCTACTTTGCCTCGCTCGGCGACGACGAACTGGAACTGAGGAGTTCCGGGCTCCAGACGCGCTAA	MNQQLPPNAQVTPEQEVLFEVRGHLGHITLNRPRAINALNHAMVKMVLAQLEAWSMDRRVSTVLVTGSGERGLCAGGDIVSLYRDAREGDGRASADFWRDEYRLNVEIANYPKPYVAVQDGLVLGGGIGISAHGSHRIVTERSKLGMPETGIGFIPDVGGTRLLSRAPGELGTYLALTAGSVGGADAIALGLSDSWVPSARIPELIAALENLAADDAVAAVVGQAPVAGLLAHRAWIDPAFSADSVAEIVERLRHSGTKEAREAATAVTSKSPTALAVTLESLRRARHLDSLEDTMQQEFRVSLRALRAHDFAEGVRAQVVDKDRLPNWDPAGLHDVTTELINAYFASLGDDELELRSSGLQTR	PGPT0001860_52	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
D1-29_01966	918	mmsB_2	COG2084	putative 3-hydroxyisobutyrate dehydrogenase	ATGACTACCTCAATAGCCTTCATCGGCCTCGGCCACATGGGCGGACCCATGGCCATCAATCTCGCGAAGGCAGGCTACAAGGTCGCCGGCTTCGATCTCTCCCAAGCTGCCGTGGACGCTGTCAACGGCCACGATATCACTACGGCCGCCAGTGCTGCTGAAGCCGTGGCCACAGCCGATGTTGTCATCACCATGTTGCCCGCGGGTCGTCACGTGATCGCCGCTTACAAGGGCGGCGGCGACGACAAGGGCCTGCTGTCTTATGCCAAACCGGGAACCCTCTTCATCGACTCATCAACCATCGCAGTCGACGACGCCCGGTCCGCTCACGACCTGGCGGTTGCCGCCGGACACCGCGCAATGGATGCCCCCGTGTCGGGCGGAACCGGAGGAGCGGAGGCCGGCACTCTGGCGTTCATGGTTGGAGGATCAGAGGAAGACTTCGCAGTAGCCGCGCCAATCTTGAAAGCCATGGGCCATCGAATTGTCCATTGCGGCGGTTCAGGACTCGGGCAAGCGGCCAAGGTCTGCAACAACCTGATACTTGGAATTTCAATGATTGCAGTAAGCGAAGCATTCGTTCTGGGGGAGAAACTTGGCCTCGAACATCAAGCGCTCTTTGATGTCGCATCCAACGCCTCGGGCCAGTGCTGGGCGCTTACCACTAACTGTCCAGTCCCGGGACCGGTACCTACGAGCCCGGCAAATCGTGGCTATCAGCCGGGTTTCTCGTCGGCTCTGATGGCAAAGGACCTCGGCCTCGCCGCCCAAGCCTTCGAGATGACCGGGATGCAGGCCGAGGTTGGCACGCTTGCGAACGAAATTTACCAGCGGTTCGCAGCCGGGGATGGTGACGGTGCCGACTTCTCGGGCATCATCAACCACATTCGTAAGGGCAGTGAGTCAAAGGGAGGCTAG	MTTSIAFIGLGHMGGPMAINLAKAGYKVAGFDLSQAAVDAVNGHDITTAASAAEAVATADVVITMLPAGRHVIAAYKGGGDDKGLLSYAKPGTLFIDSSTIAVDDARSAHDLAVAAGHRAMDAPVSGGTGGAEAGTLAFMVGGSEEDFAVAAPILKAMGHRIVHCGGSGLGQAAKVCNNLILGISMIAVSEAFVLGEKLGLEHQALFDVASNASGQCWALTTNCPVPGPVPTSPANRGYQPGFSSALMAKDLGLAAQAFEMTGMQAEVGTLANEIYQRFAAGDGDGADFSGIINHIRKGSESKGG	PGPT0018170_220	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
D1-29_01967	537			hypothetical protein	GTGCCCGCGTCATCGCCATTACCTATTGATCCAATTGCGGAAGCAAAACGACAATGGCTCAAGCACGGCTGGGATGACGCTGCAGTCGGCATGGCTGCTGTCACTTCGATCATGCGGGCGCAGCAGATCATGCTTGCCCGGGTCGAATCGACGTTGAAGCCATTTAATTTGTCTTTCGCCCGGTTTGAACTGCTGCGCTTGCTTGCGTTCTCAAGAGGCGGGGCACTTCCAATGGCAAGTGCAACAGCGAGGCTTCAGGTTCATCCGACCAGCGTCACGAATACCGTCGCACGGCTCGAGCGTGCTGCTCTGGTCGAGCGCTCACCGCACCCTACCGATGGCAGGGCGACACTGGTTAAGCTGACCGATGCGGGTTTCGAAGTGGTCACGGCCGCCACTGACGCTCTCAACAATTCGGTATTTTCTCAGTTAGGCTTCCCGGACCAGGATCTTGCAGCCCTAGTAAGCATTATCGCGAAATTTCGGCGCGAATCAGGTGACTTCAACGACCCGCCACCCCTCCCTGATCCTTTGTAA	MPASSPLPIDPIAEAKRQWLKHGWDDAAVGMAAVTSIMRAQQIMLARVESTLKPFNLSFARFELLRLLAFSRGGALPMASATARLQVHPTSVTNTVARLERAALVERSPHPTDGRATLVKLTDAGFEVVTAATDALNNSVFSQLGFPDQDLAALVSIIAKFRRESGDFNDPPPLPDPL				NA	NA	NA	NA	NA
D1-29_01968	1374			hypothetical protein	ATGGCGAATCAAGAACCGCCCCAACGTCGGCAGGGCCTGCCGCGTCCAGGTGAGCCCGCAGCCCCGAGCGACTCAAGCCCGACGTTTTCTCCTGCTACGCCGGTGGCGACTTCCCCCATTGAATCCGTCGAGGCAACTGCGGTCCCCACCACAGGTGAACCCAAAAAACCTCAAAACGCGTCGAATGGGAGGCGGGGCTTACCCAGGCCCTCTGTCTCGCCGTCCCTGGCCCCCGAGAACACACAACAGCCGCCCCCGCGCACTGTGGCTGGCCGACAGGGCCTTCGAGCGACATCCCCGGACTCATCGGCGCCCGCCGCCTTGACTGCGGCAACTGTGCCCTCCGCCGCGGAGACGCCGGGGGCGCCGGGGGCGCGCGTGGCCTTGCTGTCTTCGCAAGGGGCAACCGGGGGGAATGGGGCTGCGGGGGAAGAGGCATCCAGCACTGTCCGTTCCAAAATCAAGTCGGCGGCAGGAAGCGGCACTGGGCGCTATGTCTTTGGAGCCGTCGGGCTTGTGATCGCCGCGGGTGTGGTGGCCATCATCGCCCGGATGCTTGTCTCCACAGGGGAAGTGCAGAATTTTCTCGTGACTTATCCTGGGGAAGTTCCTCTTCCGGAATCCGCTCCGGTCGGCTTCCCTGCATGGCTTGGCTGGCAGCATTTTCTCAATGCGTTCTTCATTGTCCTGATCATCCGTAGCGGCTGGTTGGTACGCACTACCAAGCGCCCTCCCGCGTCGTGGACGCGCAACAACACGGGGCTGATCAAGACTAAGGGAAGCCCGAATCGAATTAGTCTGGACCTCTGGTTCCATCTGAGTATGGACGCGCTGTGGTTACTGAACGGCGTGGTGTTCATCGTTCTTCTATTCAGCACCGGCCAGTGGACACGGATCGTGCCCACCAGCTGGGACATAGTACCGAACGCACTTTCGGCCGCACTTCAATATGCTTCGCTGCAATGGCCGACCGAGAATGGCTGGGTTAATTACAATAGCCTGCAGGTTTTGGCGTACTTTTTTACGGTTTTCGTCGCCGCTCCCCTAGCCGCTGTTACTGGTATCCGGATGTCGGGTGCGTGGCCTTCAAAGGCGACCGGTCTTAACCGCATCTACCCAATCGAGGTCGCGCGTTCCATCCATCTTCTCGTCATGTTGTACTTTGTGGTCTTCATCACCGTACATGTGGCTCTAGTACTAGCCACTGGTGCTCTCCGCAATCTGAACCACATGTACGGCGGGCAAGATGCAGTAAATTGGTGGGGTTTCACCATTTTTGTGCTGTCGCTTCTGGTCACCGCTGCAGCTGTGCTCGCGGCGCGCCCGCTCGTTCTCGCCCCTATAGCGGGATTGATGGGAAAGGTGGGCCGCTGA	MANQEPPQRRQGLPRPGEPAAPSDSSPTFSPATPVATSPIESVEATAVPTTGEPKKPQNASNGRRGLPRPSVSPSLAPENTQQPPPRTVAGRQGLRATSPDSSAPAALTAATVPSAAETPGAPGARVALLSSQGATGGNGAAGEEASSTVRSKIKSAAGSGTGRYVFGAVGLVIAAGVVAIIARMLVSTGEVQNFLVTYPGEVPLPESAPVGFPAWLGWQHFLNAFFIVLIIRSGWLVRTTKRPPASWTRNNTGLIKTKGSPNRISLDLWFHLSMDALWLLNGVVFIVLLFSTGQWTRIVPTSWDIVPNALSAALQYASLQWPTENGWVNYNSLQVLAYFFTVFVAAPLAAVTGIRMSGAWPSKATGLNRIYPIEVARSIHLLVMLYFVVFITVHVALVLATGALRNLNHMYGGQDAVNWWGFTIFVLSLLVTAAAVLAARPLVLAPIAGLMGKVGR				NA	NA	NA	NA	NA
D1-29_01969	978	etfA_1	COG2025	Electron transfer flavoprotein subunit alpha	ATGTCCCACAACCCCGTCTTGGTGTTCATTGAAATTTCCCCCGACGGCGCCATTCACAAAAGTGCTGCTGGCTTGCTTGGTGCCGCTGCGAACATCGGCGAGCCAACGGCACTCGTTGTTACCACCCCCGGGCGATCGATAGCGGCAGCGGAGGAGGTCTCGCGGCTCGGAGCTGAGCGGATTCTTATCGTTGAAGACGACAGTTTGTCAACGATGTTGACAGTACCTTTAGTTGATGCCCTCGCCTCGGCCTTCGACGCCGTCGCTCCTGATGCAGTCCTCATCTCCAACTCAGTCGAGGGCCGCGATGTGGCGGCTCGCTTCGCTGTCCGCTCAGCACTAGCGCTGGCTCTGGATGCCGTAAGCGTGAGCCGTGATGAAGAGGGAGTCGTCTCGACCCACTCCGTTTACGGCGGTGCATATGACGTCAATTCAGCGGCGACCGCAGGCGCGGTCGTGATTACGGTCCGTCAGGGGGCAGTCGATTTGCGTGCTGAGCCGAGAAATGCCGTTATTGAGCAACTCGCTGTGCCACCGTCGGGCAAGGCTGCAGCAACCATCACCGAATTCCACTCGCTTCCCGTTAGTACCACGCGTCCAGACCTTCGAGGAGCCGACAAGGTGGTAGCGGGCGGGCGAGGACTCCAGTCTGCTGAGAAGTTCGCCTTGGTGGAAGAGTTGGCGGACGCGCTTGGTGCGGCGGTCGGGGCATCGCGTGCCGCTGTGGACGCAGGCTATGTTTCGCACACTTTTCAAGTTGGACAGACTGGTGTGGCTGTTTCGCCCCAGCTTTACATCGCTCTCGGAATCTCCGGGGCGATTCAGCATCAGGCCGGCATGCAGACGGCGAAAACGATCGTGGCCATCAACAAGGATGCCGGCGCCCCCATCTTTGCGATTGCCGACTTCGGTGTGGTGGGAGACGTTTTTTCCGTCGTACCACAGCTGTTGGCGAGCCTGGATTCCAGGAGGGACTGA	MSHNPVLVFIEISPDGAIHKSAAGLLGAAANIGEPTALVVTTPGRSIAAAEEVSRLGAERILIVEDDSLSTMLTVPLVDALASAFDAVAPDAVLISNSVEGRDVAARFAVRSALALALDAVSVSRDEEGVVSTHSVYGGAYDVNSAATAGAVVITVRQGAVDLRAEPRNAVIEQLAVPPSGKAAATITEFHSLPVSTTRPDLRGADKVVAGGRGLQSAEKFALVEELADALGAAVGASRAAVDAGYVSHTFQVGQTGVAVSPQLYIALGISGAIQHQAGMQTAKTIVAINKDAGAPIFAIADFGVVGDVFSVVPQLLASLDSRRD	PGPT0001040_1659	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
D1-29_01970	777	etfB_1	COG2086	Electron transfer flavoprotein subunit beta	ATGAAGATAGTCGTACTGCTGAAGGAGGTTCCCGACACCTACGGAAACCGAAAACTTAGCCTCGACAGCGGGCTGGCTGATCGAGCCGCCAGCGATGCGGTAGCGGATGAAGTTGGCGAACGCGCTCTGGAACTGGCTCTCAAATACGCTGACGCGAACCCCTCCACAGAAGTTGTCGTGGCTTCGATGGGGCCGAAGACCGCCGTTACGTCGTTGCGCAAAGCTCTAGCAATGGGAGCCGCTTCGGCTGTCCACATCGCTGATGACCTGTTGGCGGGAGCCGACGCTGGACTTACGGCAGAAGTGATTTCTGCCTCGCTTCGACGTACTGGATTCGATCTTGTAGTGGCTGGCAACGCCACAACGGACGGCAATGGCGGTGTCATTCCGGCCATGCTTGCCGAGTTACTCGACGTTCCCCATTTGACGAACCTCGAATCTGTTGAGATATCCGCTGTTCGGGTTAAAGGCAGCCGAACTACCGAGTCAGGAACTCTTGCCGTTCACGCTTCACTGCCGGCGGTTATCAGCGTTACAGAGAATCTGCCCGAAGGACGTCTTCCAGGCTTAAAGGGAATTATGTCCGCCAAAAAGAAGCCATACGAGACCTGGTCACTTGACGACCTGGGGATCGGCCTCGACAGCGACACGAAGGCACGCTCCATCGTCATTGCACTCTCCGAGCGACCGGCCAGGTCCGCGGGCGTCGTCGTAGTCGATGAGGGCGCGGCCGGCGAACGCCTCGCCGATTTTCTCATTCAAAACAGACTCGCCTAG	MKIVVLLKEVPDTYGNRKLSLDSGLADRAASDAVADEVGERALELALKYADANPSTEVVVASMGPKTAVTSLRKALAMGAASAVHIADDLLAGADAGLTAEVISASLRRTGFDLVVAGNATTDGNGGVIPAMLAELLDVPHLTNLESVEISAVRVKGSRTTESGTLAVHASLPAVISVTENLPEGRLPGLKGIMSAKKKPYETWSLDDLGIGLDSDTKARSIVIALSERPARSAGVVVVDEGAAGERLADFLIQNRLA	PGPT0001035_1865	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
D1-29_01971	1557	pntA_1	COG3288	NAD(P) transhydrogenase subunit alpha	GTGACACGTATTGGCATTGTGGCCGAGTTGGGTCGCGAGAGGCGGGTGGCGGCTACGCCCGCCACGGTGAAGCAGTTGTTGGGGTTGGGCTACGAGGTTGTGGTCGAAAAGGGCGCCGGGGAGTCCGCGTCGTTCCGGGATGAGACGTATGTCGAGGCCGGTGCCGTGATTGTGGGTGCTGATGAGGCGTGGGGCAGTGAAGTGGTGTTGCGGATTAATCCGCCTACCGAGGATGAGATCGACAGGCTAGCTCCGGGTGCGACGCTGATTGGGTCGTTGAGCCCAGGCCTGCGTCCGGAGCTGGTGGAGGCTTTGGCCGCTCGTCCGATTACGGCGTTGGCGTTGGATGCGGTGCCGCGGATTTCCCGAGCGCAGTCGATGGATGTGTTGAGTTCGATGGCGAACATTGCCGGGTACCGGGCGGTGATTGAGGCCGCGCACGAGTTCGGCCGGTTCTTCACCGGCCAGGTGACCGCGGCGGGTAAGGTCCCGCCGGCGAAGGTCCTGGTCGCGGGTGCGGGGGTTGCTGGCCTGGCGGCGATCGGTGCGGCGTCCAGCCTGGGTGCGATTGTGCGGGCAACGGATCCGCGGCCTGAGGTTGCTGATCAGGTGAAGTCGATCGGCGGGACCTACCTCAAGGTTGAGGTGGGGGAGGAGATGAAGTCCTCCGATGGGTATGCGAAGGCCACGAGTGACGCGTATAACGCCCGGGCGGCGGAGATCTACACCGAGCAGGCAGCTGATGTGGACATCATCATCACTACGGCCCTGATCCCGGGCCGTCCTGCGCCGAAGCTGCTCACGGCCGAGGACGTGGCCGGGATGAAGTCCGGCAGCGTGATTGTTGACATGGCCGCCGGGCAGGGCGGGAACGTGGAAGGCTCCGTGGCCGGGGAACGGGTGGTGACGGAGAACGGTGTGGTCATCCTGGGCTATACAGATCTGCCGGCGCGTCTTCCGGCGCAGGCGTCCCAGCTGTACGGGACGAACATGCTGAACCTGCTCAAGCTCCTGACAAAGGACAAAGACGGGGTGCTGCGCATCGACTTTGACGATGTGGTGCAGCGTTCAGTGACGGTGGTGCGCGACGGTGAGAAGACCTGGCCGCCGCCCCCGGTCCAGGTCTCCGCCGCCCCCACGGCCAAAACCCAGTCCCCGGCCGCCGAAAGCACTGCATCGAAGAAGAAGCAGGGCATGAGCACCGCGGGCAAAGCGGGCTTGTTTGCCGCCGGCATCGCGGCGCTGTTCCTGGTCAATGCGGTTGCTCCGGCGCCGCTGCCGCAGCACTTCACGGTGCTGATGCTCTCAGTCGTGGTCGGGTTCTATGTTATCGGGAAGGTCCACCATGCCCTGCACACCCCGCTGATGTCCGTCACGAACGCGATCTCGGGGATCATCGTGGTCGGTGCACTGCTGCAGGTCACCTCGGACAACGCCGTGATGCAGGTCCTCGCCGCGGTCGCGGTGCTGCTAGCCAGCATTAACATCTTCGGCGGGTTCGCCGTGACCCGGCGAATGCTCGCAATGTTCTCCCGCGGAGACGGGGCACGTAAATGA	MTRIGIVAELGRERRVAATPATVKQLLGLGYEVVVEKGAGESASFRDETYVEAGAVIVGADEAWGSEVVLRINPPTEDEIDRLAPGATLIGSLSPGLRPELVEALAARPITALALDAVPRISRAQSMDVLSSMANIAGYRAVIEAAHEFGRFFTGQVTAAGKVPPAKVLVAGAGVAGLAAIGAASSLGAIVRATDPRPEVADQVKSIGGTYLKVEVGEEMKSSDGYAKATSDAYNARAAEIYTEQAADVDIIITTALIPGRPAPKLLTAEDVAGMKSGSVIVDMAAGQGGNVEGSVAGERVVTENGVVILGYTDLPARLPAQASQLYGTNMLNLLKLLTKDKDGVLRIDFDDVVQRSVTVVRDGEKTWPPPPVQVSAAPTAKTQSPAAESTASKKKQGMSTAGKAGLFAAGIAALFLVNAVAPAPLPQHFTVLMLSVVVGFYVIGKVHHALHTPLMSVTNAISGIIVVGALLQVTSDNAVMQVLAAVAVLLASINIFGGFAVTRRMLAMFSRGDGARK	PGPT0013500_406	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
D1-29_01972	1479	pntB_1	COG1282	NAD(P) transhydrogenase subunit beta	ATGATGAGCCCCGCCACCGAAGCAGCAGCCCGAATCGTCTCGAGGAGCCTTACCGTGTCTGACACCGTCTCCGGTCCGTTGACCGCCGACTCCATCGCAGGAGCCGCGTACATCGTCGCGGCCCTGCTGTTCATCCTCAGCCTCGCCGGGCTGAGCAAACACGAGAAAGCCCGCGCCGGCGTCGTCTACGGCATCACGGGCATGGTCATCGCCCTCGCCGCGACCGTATGGCTGACCGTGCAGGGCGCCTGGGGCACCGGCCACGGCGTGACCGGCCTTGTGCTGCTCCTGGCAGCGGTCCTGGTGGGCGGGGCCATCGGGCTCTGGCGCGCCCGGGTGGTCGAAATGACCGGCATGCCCGAACTGATCGCGCTGCTGCACAGCTTCGTTGGCCTCGCTGCCGTGCTCGTGGGCTGGAACGGGCACCTGGAAGCCCCGGACCTGTCCGGGGATCTGATGGCCATCCACCATGCCGAGGTGTTCATCGGAGTCTTCATCGGCGCGGTGACCTTCACCGGTTCGATCGTGGCGTTCCTGAAACTCTCCGCCAGGATGAAGTCCTCGCCCCTGATGCTGCCGGGCAAGAACGCGATCAACCTCGGCGCCCTCGCCGCATTCATCGCCCTGACCGTCTGGTATGTCAACGACTCTCAGCTCTGGCTCCTGGTCGTGGTCACCGTTCTTGCCCTGGGCCTGGGCTGGCACCTGGTGGCATCCATCGGCGGCGGCGACATGCCCGTCGTCGTGTCCATGCTCAACAGCTACTCCGGCTGGGCCGCGGCCGCGGCGGGCTTCCTGCTGAACAACGACCTGCTCATCATCACCGGCGCCCTGGTGGGCTCCTCCGGCGCGTACCTGTCCTACATCATGTGTAAGGCCATGAACCGGTCCTTCATCTCCGTGATCGCCGGCGGGTTCGGCATCGCCGCACCGGCCGCGGCGGACGCCGAACACGGCGAACACCGCGAAATCACTGCCGAGGCCACCGCGGACATGCTGACCAACGCCTCGTCGGTGGTCATCACCCCCGGCTACGGCATGGCAGTGGCCCAGGCCCAGTACCCCGTCGCTGAACTCGCCCACCAGCTCCGCGAGAAGGGTGTGAATGTCAGGTTCGGCATCCACCCCGTCGCCGGGCGCCTGCCCGGACACATGAACGTGCTCCTCGCCGAAGCCAAGGTCCCGTACGACATCGTCCTGGAAATGGATGAAATCAACGACGACCTCGGCGACACCTCCGTGGTCCTGGTCATCGGTGCGAACGACACCGTCAACCCCTCGGCCGCAGAAGACCCGGGAAGCCCCATCGCGGGCATGCCCGTCCTCCGGGTCTGGGAAGCCGAGAACGTCATCGTATTCAAACGCTCCATGGCAGCCGGCTACGCAGGCGTCCAAAACCCCCTGTTCTACCGCGACAACTCCCAAATGCTCTTCGGCGACGCCAAAACCCGCGTCGAAGACATCCTCCGCGCCTTCTAA	MMSPATEAAARIVSRSLTVSDTVSGPLTADSIAGAAYIVAALLFILSLAGLSKHEKARAGVVYGITGMVIALAATVWLTVQGAWGTGHGVTGLVLLLAAVLVGGAIGLWRARVVEMTGMPELIALLHSFVGLAAVLVGWNGHLEAPDLSGDLMAIHHAEVFIGVFIGAVTFTGSIVAFLKLSARMKSSPLMLPGKNAINLGALAAFIALTVWYVNDSQLWLLVVVTVLALGLGWHLVASIGGGDMPVVVSMLNSYSGWAAAAAGFLLNNDLLIITGALVGSSGAYLSYIMCKAMNRSFISVIAGGFGIAAPAAADAEHGEHREITAEATADMLTNASSVVITPGYGMAVAQAQYPVAELAHQLREKGVNVRFGIHPVAGRLPGHMNVLLAEAKVPYDIVLEMDEINDDLGDTSVVLVIGANDTVNPSAAEDPGSPIAGMPVLRVWEAENVIVFKRSMAAGYAGVQNPLFYRDNSQMLFGDAKTRVEDILRAF	PGPT0013505_647	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013505-pntB-K00325	NA	NA
D1-29_01973	264			hypothetical protein	GTGCTTCCGAAACTGGCCGAACAGCTGCTGTCCCTTCGCCATCAGCGCGACGAGATCGCCGCCCAGGGCGAGGCCCTCGTGGAGGCCCACCCGTCTCCCTTGGTCCTGACATCGGCGTCAGCGCCTGGCGCCCGCATCCGTTCCGAAGTGACAGGGAAGTACTTCGCGAACGCAGCCCATCTGGCCTCCTATGCCGGCATCGCACCGGTCACCCGCCGCTCCGGCACATCCATTCGTGGAGAACACACCAGCCGGCGGGAATAA	MLPKLAEQLLSLRHQRDEIAAQGEALVEAHPSPLVLTSASAPGARIRSEVTGKYFANAAHLASYAGIAPVTRRSGTSIRGEHTSRRE	PGPT0030635_6485	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
D1-29_01974	1377			hypothetical protein	ATGACGGACGTGTTCTGCGGCATCGACTGGGCAGAAGGACCTCACGACATCTCAGTCGTGGACCAACAAGGCCAGCTGTTGGCGTCGCGAAGGATTGAAGATACAGCTGCCAGCCTGACGGAACTGCTGGAAATGCTGGGCGCCTTGGGCGACCGTGCCGAAGATCCTATTCCAGTTGCCATTGAAACCACCCGCTGCCTGCTCGTCGCAGCACTGCGATCGAGCGGCCGGGATGTCTATGCCATCAACCCGATGGCTGCCTCCCGCTACCGGGACCGGCACACAGTCTCCAGCAAGAAATCCGATGCCCAGGACGCTGCCGCGCTGGCCAACATTCTGCGGACCGACAGGCACGCTCACCGCCCGATGCCCAAGGATTCCGAACTCGTTCAGGCCATCGCGGTACTTGCGCGGGCCCAGCAGGACGCAGTCTGGGAACGGCAGCAAGAGACCAACCGGATCCGGTCCCTGCTGCGGGAGTATTACCCCTCTGCGCTCAGGGCCTTCCCCAACAGCGCCGACCTCGCTTCCCCCGTCGCCAGGGCCCTGCTCGGTGCCGTTTCCAACCCCTGCGAAAGCTGCCAAGCTCAGTCGTGTCCAGCTCGGTCGAATCCTGCTAAAGCAGGGCGGACACGCAGCCTGGAGACCACCATCGACAAGCTCTACCGATCCTCCGCAGCACCAATCTCCGCCAGTCAACCGTGGTCGAAGCTGCGTTCGGACCCAGCTTCGACCATGCTTGGGCAGTTGGATGCCGTCTGCCAGGGCCTTGAGTCGCTGACCGCAGCCGTTGAAAAGGCCTTCCATGCACACCCGGACGCGCAGACCCTGGTGAGCTTTCCCGGCCTCGGGTCAATTGCCGGAGCACGGATCCTAGCCGAAATCGGCGACGACCGCACAAGATTCACAACCGCTTCGGCGCTGAAGGCCTACGCCGGCGCGGCGCCTGTCACCCGCGCCAACGGAAAGAGCCACACCGTCCTGGCCAGGCGGGTCAAGAACAACCGACTGGCAGCCGCCGGCTACATCTGGGCCTTTTCAGCACTCACCAACTCAGCCGGCGCCCGGGCGCACTACGACCGGCGCAAGAAGCTCGGCGACAGACACACCGCAGCCCAGCGCAACCTTTTCAACCGGCTCCTCCGCTGCCTCCACCACTGTCTGCAGGCCAGCCGGACCTACAACGAATCAGCCGCATTCCCGGTCCCCCAAGAGAGAGCCGCCTCTGAACTCCTTAGCCCCATCAGATGTCTTTTTCGTAGCCCCGGTCCTGTTGCGGATGAGGGTGTGTTGGCCGGTCGGTCCCGGCATGGTTTTTGCCCCCAGTCGTTCATGATCCGGGGGTGTTGTCACCGGAGCCGGGTTAGCGGCAGATGA	MTDVFCGIDWAEGPHDISVVDQQGQLLASRRIEDTAASLTELLEMLGALGDRAEDPIPVAIETTRCLLVAALRSSGRDVYAINPMAASRYRDRHTVSSKKSDAQDAAALANILRTDRHAHRPMPKDSELVQAIAVLARAQQDAVWERQQETNRIRSLLREYYPSALRAFPNSADLASPVARALLGAVSNPCESCQAQSCPARSNPAKAGRTRSLETTIDKLYRSSAAPISASQPWSKLRSDPASTMLGQLDAVCQGLESLTAAVEKAFHAHPDAQTLVSFPGLGSIAGARILAEIGDDRTRFTTASALKAYAGAAPVTRANGKSHTVLARRVKNNRLAAAGYIWAFSALTNSAGARAHYDRRKKLGDRHTAAQRNLFNRLLRCLHHCLQASRTYNESAAFPVPQERAASELLSPIRCLFRSPGPVADEGVLAGRSRHGFCPQSFMIRGCCHRSRVSGR				NA	NA	NA	NA	NA
D1-29_01975	777	echA8_2	COG1024	putative enoyl-CoA hydratase echA8	ATGAACACCTATGACAACATCCAGATCAAAAGGTGCGGACGAGTCGGCATCATCACCCTCCACCGCGCGAAGGCTCTCAACGCCCTCAACAGCAAACTCATGCATGAGGTCGTAGCCGCCGCCACCGAGTTCGACAAGGATCCCGAAGTCGGAGCAATCATCCTCACCGGCTCGGAGCGGGCATTCGCTGCCGGCGCTGATATTTCGGAGATGGCTGGAAAGAGTTTCCAGGACGTCTCTCTCGGGGGCTTGTTCCAGGAATGGGATGAGTTTGCAGCCGTCCGCACACCCACCATCGCAGCTGTCGCCGGTTATGCACTCGGCGGGGGGTGCGAAATCGCCATGATGTGCGATCTTATCGTGGCCGCTGACAGCGCAGTGTTCGGCCAACCAGAAATTAACCTTGGAGTAATTCCCGGGCTCGGCGGAACGCAGAGACTCACCCGCGCGATCGGCAAAGCAAAAGCGATGGACATGATTCTAACCGGCAGGTACATGAAAGCAGACGAAGCTGAGCGGGCCGGGCTGGTCGCCCGAGTCGTGACCGCGGACGCGCTGCTCGACACCGCCCAAGAGATCGCTGAGACTATAGCGGCAAAATCCCTGCCCGTTGCAATAGCTGCCAAACAATCCGTCAATCGAGCGTTCGAAAGCAGCCTCGCTGAGGGACTCACCTTCGAAACCCGCAGTTTCCGCGCTCTCTTTGCCCTCGACGACCAGACAGAAGGCATGACGGCTTTCATTGAAAAGCGGACTCCCGTGTTCAATCACCGTTGA	MNTYDNIQIKRCGRVGIITLHRAKALNALNSKLMHEVVAAATEFDKDPEVGAIILTGSERAFAAGADISEMAGKSFQDVSLGGLFQEWDEFAAVRTPTIAAVAGYALGGGCEIAMMCDLIVAADSAVFGQPEINLGVIPGLGGTQRLTRAIGKAKAMDMILTGRYMKADEAERAGLVARVVTADALLDTAQEIAETIAAKSLPVAIAAKQSVNRAFESSLAEGLTFETRSFRALFALDDQTEGMTAFIEKRTPVFNHR	PGPT0001860_5161	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
D1-29_01976	759			putative oxidoreductase	ATGGACATCAGCAAAGCAACGGCAATAGTTACGGGTGCTGCATCCGGTCTCGGTGCGGCGACCGCAGCCCGCTTGGCCGCCTCGGGAGCTTTGGTTGTGGGGATCGACCTCGCTAACAGTATTACATCCGCTCCCGCAATCGATGGGGTGACGTACGTCGCCGCCGACGTCAGTAGTGCAAACGAGATCGAGGCAGCCCTTGCAGTGGCCGCCGACCTCGGCAGGCCGCTGCGGCTCGTTATAAACTGCGCGGGCATAGCGCCTGCTGTGCGGATACTGTCGGGGAGAGGGGTGCATGACCTCGACCTGTTCCGGCGCACGATCGAGGTCAACTTGGTCGGCACCTTCAACGTGCTGCGCTTGGCGGCCGAAGTTATCGCTCGCGAGGAGCCCGACACAGATGGTCAACGCGGCCTGATCATCAACACCGCTTCTGTCGCCGCCTACGAGGGCCAGATCGGACAGGCCGCGTATGCGGCGTCAAAGGGCGGAGTCGTGAGTCTGACGATAGCGAGTGCGCGCGATCTGGCCCGGTCTGGTATCCGGGTGAATACCATCGCCCCAGGGATTGTTGAGACTCCAATGCTCGCTTCCCTTGGCGAGGACGTGGGTGCTGCCCTTGCTGCCTCAGTGCCATTCCCGAAGCGGCTAGGGCGCCCTTCAGAGTTTGCGGATCTGGTGATGATGATCACCGCGCATGACTATCTCAATGGCGAGACAATCCGCTTGGACGGAGCTCTGCGGCTGGCGCCGCAGTAG	MDISKATAIVTGAASGLGAATAARLAASGALVVGIDLANSITSAPAIDGVTYVAADVSSANEIEAALAVAADLGRPLRLVINCAGIAPAVRILSGRGVHDLDLFRRTIEVNLVGTFNVLRLAAEVIAREEPDTDGQRGLIINTASVAAYEGQIGQAAYAASKGGVVSLTIASARDLARSGIRVNTIAPGIVETPMLASLGEDVGAALAASVPFPKRLGRPSEFADLVMMITAHDYLNGETIRLDGALRLAPQ	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
D1-29_01977	1641	pamO_2	COG2072	Phenylacetone monooxygenase	ATGGGCACTGAACTCGAACACTCAGTTACGACGACCGATTCTGCTCCGGAAGTGCTCGATGCACTGATCGTGGGGGCCGGTTTCGCCGGGGTGCGGCAGCTGTATCAATTCCACTCGCAGGGACTTAATGTCCGCCTCGTGGAGCGCGGCGGCGGTGTTGGCGGTACATGGTATTGGAACCGGTATCCTGGTGCTCGAACAGACTCCGATGCGTACTCCTACTCGTTCTACTTCACACGTGAGCTGGGCGAGGAATGGGCCTGGCCCGATCACTTCTCGTCACAGGAAGACATCGAGAAGTACATGAACTGGGTCATCGACCGCTTTGGGTTGCGTGACAGCCTGCAGCTCAACACGACCGTCACGAGCGCTGTCTTCGATGAAGAAACCAGCCTTTGGACCGTTGGCTACGCCGACGGCACCGGAGTAAAGACGCGCTACCTCGCGCTCGCAACCGGCATGCTTTCGCACCCGGTCTTTCCCAACTTCCCCGGACTCGACAGTTTCACCGGCGCCGCCGTACACACGGGCCTCTGGCCAGAGGAAGGTATCGATCTCGAGGGAAAGCGGGTCGCTGTCTTCGGTGCAGGTTCCTCCGCCGTCCAGGTGGTGCCGAACATTGCCAAGGTCGCAAGGTCACTCACTGTGTTCCAGCGTGGCGGCCACTGGGCAACCCCGCTGAACAACAGCACATTGACCGCCGAGGAGCAGGAAGAATACCGCCAACGCTTCGACGATCTGCGCGATCAAATCCGCAAGGACTACGGCGGCCAGGCCGACCACACCCCGGACCTACGTTCCACACTTGAGGTCACCGAGGAAGAACGGCTCGCCAAGTACGAGTATCTCTACAACGAGGGGCGCGGGCTGCGCATCTTCTCCGAGAACTTCCAAGACATGATGTGGCACCCGGAGGCAAACAAACACTTCAGCGACTTCCTCGCCGACAAGATTCGCTCGCGTGTCACAAAGCCCGAAGTCGCCGAGATGCTCGTCCCCGATCACGGCTTCGGCCGGTTCCGCCCGCCCAAAGACGTGGACGGCTACTACGAGTGCTTCAACGAAGAGCATGTGCAGCTGGTGTCGACTAAGTACACGCCGGTCGTCGAGATCACCCCCACGAGCATCAAGACCACCGAAAGCGAGTATGAGGTCGACGTTATCGTGTTCGCGACCGGATTCGACGCTTGGATGGGTGCGCTACGTCAAATGGATATCCAAGGCCTCGGCGGGAAGACTCTCAGCGAGGCGTGGTCCAACGGTCCGCACACCTTCCTCGGCATGGTTACCCCTAACTTCCCCAACCTTCTGTTCGTCGGCGGCGCCCAAGGCGTCGGGGCAAACACGCCAGGTTACGTCGAAGTACACGCCGAGTGGCTCGGCGCACTCGTAGCCTATGCGGATGAGAACGGCATCAAGCGTATCGAGGCGACTGAGGAGGCCAGCAACGCGTGGTCCGAGCAAATTCACGAGATCGCTAAGACCGGTCTGGTGGGAGACTCAAAGGCCTGGTACTTCGGGGGCAACATCGAAGGCAGCGACGGCAAGCTGCGCGTATATCCCGCCGGGTTCCCCGCCTACCAGACCGCGATCGCGGCAAGTGCAGAGAACGGTTACGAGGGTCTCGTTCTTTCCAAGTAG	MGTELEHSVTTTDSAPEVLDALIVGAGFAGVRQLYQFHSQGLNVRLVERGGGVGGTWYWNRYPGARTDSDAYSYSFYFTRELGEEWAWPDHFSSQEDIEKYMNWVIDRFGLRDSLQLNTTVTSAVFDEETSLWTVGYADGTGVKTRYLALATGMLSHPVFPNFPGLDSFTGAAVHTGLWPEEGIDLEGKRVAVFGAGSSAVQVVPNIAKVARSLTVFQRGGHWATPLNNSTLTAEEQEEYRQRFDDLRDQIRKDYGGQADHTPDLRSTLEVTEEERLAKYEYLYNEGRGLRIFSENFQDMMWHPEANKHFSDFLADKIRSRVTKPEVAEMLVPDHGFGRFRPPKDVDGYYECFNEEHVQLVSTKYTPVVEITPTSIKTTESEYEVDVIVFATGFDAWMGALRQMDIQGLGGKTLSEAWSNGPHTFLGMVTPNFPNLLFVGGAQGVGANTPGYVEVHAEWLGALVAYADENGIKRIEATEEASNAWSEQIHEIAKTGLVGDSKAWYFGGNIEGSDGKLRVYPAGFPAYQTAIAASAENGYEGLVLSK				NA	NA	NA	NA	NA
D1-29_01978	1032	caiD_1		Carnitinyl-CoA dehydratase	ATGATTGAACTCCCGCTGCGTGAGCTCATGGACAGCGCCCCGCTTCGGATGATCCCTGATGATGGTGGCATCCCCATGAATCCCCTCGTCGTCATCAATCTGGACGAGGCCACGGGGGATGATGTACCTGCCGCCGTTGCGGCGTTACAGGCCTATCCGCGGCCTGTGGTGGTCGGTATCTCCAACCGCATCATCCCCTCCGACGTACTGCCAATTGCAGAGGCCATGACGATCGTATTGGGCCCCGAGGAGAGCGGTCGATGCAGTGCGGGCTCGCCCAAGGACCTTGACGCAATCGCGCGAACAGTGGAGAGGTCGCCCATCGCGGCGGTCACTTACGCCGACGTCCTGCGGGCGTCCGAGCACGTTTCCTTCAACCAAGCCATTGTTACGGAATCCCTCGCCTACTCGACGTTGCTGTTCGGTCCGGAGTTCCTCCACTGGTTGCATACCCGCACCGTCCCCACCGCGGTGCCAGGTGGCGACGATCCGGACTGGGAGCCGGTGCAACTGCAACGATCGGGGGATACACTCTCGGTCGTGTTAAATGATCCGGAGCGCCACAATGCGTTCAGCAGCCCCATGAGAGCGGGTCTCCTCAACGCCCTCGCCATCGCCGCGGCCGATCCCGCACTCCGCGTGGAGATCAGCGGCGCGGGGGCTTCCTTCTGCACTGGCGGTGACCTTACCGAATTCGGACTTTCGACCGACCCGGCGACCGCACACATGAACAGAATGCGGAATCACCCGGGTCCGGCCATGCACTTGGTGCAATCGAGAACTTCGGTGCACGTACATGGACCCCTCATTGGCGCAGGCATAGAGTTCGCTGCGTGTGCCGGGCACATCTCGGCGGCCCCAGGCTCGTTCTTTCTCCTGCCGGAACTCGGCTACGGCCAAATACCGGGCGCTGGCGGGACAGTCGGCATCCCTCGCAGGATCGGCCGGTGGCGTGCGGCATACATGGGGCTAACGCGGTACCGCATAAATGTTGCCAGCGGACTTCGATGGGGACTCATCGATGATGCATGA	MIELPLRELMDSAPLRMIPDDGGIPMNPLVVINLDEATGDDVPAAVAALQAYPRPVVVGISNRIIPSDVLPIAEAMTIVLGPEESGRCSAGSPKDLDAIARTVERSPIAAVTYADVLRASEHVSFNQAIVTESLAYSTLLFGPEFLHWLHTRTVPTAVPGGDDPDWEPVQLQRSGDTLSVVLNDPERHNAFSSPMRAGLLNALAIAAADPALRVEISGAGASFCTGGDLTEFGLSTDPATAHMNRMRNHPGPAMHLVQSRTSVHVHGPLIGAGIEFAACAGHISAAPGSFFLLPELGYGQIPGAGGTVGIPRRIGRWRAAYMGLTRYRINVASGLRWGLIDDA	PGPT0001860_841	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
D1-29_01979	1242			hypothetical protein	ATGATGCATGAGATGCAGGACCATGGGACCGATCCGGTGAGGGCGTGGGCAGCATCCGGGGCGATGGCACTTACGGGGCGAGCTGATGGGCCTCCCATGGTGGCTCCCGGCCGTCCTGCAACATTTTTGACAGATCAGTTGGTGCGCTTCGCTGACCTCGCCGGCGAGCGTACTGGTGTGCGACCAGTAGTCCCTGGCGCCGAGCTGCTCGGTGAGCGTGCGGCGATCGCAGGCCTTAAGCGGGCGGCTCCGATGTCCTGTGGCGGAGCTTTCCAAGCCGTGCCGGCGAATGATGGCTGGTTCGGCCTCTCGCTTGCCCGTGACACGGACCATCGGGCGGTTCCCGCTCTAGTCGAGGGTGACTCAGATGCCGAACCGTGGGCCGCGATCAAGGCCTGGGCGCGCACTCAAAGCAGGGGCGAGGCGATTGAGCGAGCCCGTCTGCTTGACCTGGCTGCCTGCGCCTGGCCACCGGAGCCCTCCAGCCGGGCTCCCGTGATCAGGGGGTCAGAGGGGGGACTGCACTTACGGATTGAACGACCCCTCGTCGTGGACTTCAGTGCGCTATGGGCCGGCCCGCTCTGCGCCCACCTTCTCTCGATGGCTGGTTGCGACGTCATCAAGGTTGAGAGCGCAAAGCGGCCGGATGGAGCCCGCCGGGGGGCGGCTATGTTCTACGATCTCCTTCATGCCGGGCACGCGGCTATTCACGTCGACTTTGAGGACGCTGCAGACCTCGACCGGTTGCGCACCCTGATGAGCACAGCGTCGGTGGTCATAGAAAGCTCGCGTGCTCGGTCGCTGCGCGGACTGGGGCTCGTGGCTGAGGAATTCGTCAGAGCGGGCGTGACCTGGCTCTCCATCACGGCCCGTGGGCGGGAATCGAATGCACCTGGCTTCGGCGATGATGTCGCGGTGGGGGCAGGACTCGCAATCGAGGAAGGTGGGCAGGTGCTGCCAGTAGGCGATGCCATAGCAGATCCGTTGACCGGCGCGGTTGCGGCCACCGCGGCGGCCGAAGCTCTGCTCTCGGAGCGCGCCTTGCTCGTCGACATATCCATGCACGATGTTGCAAGCGCGGCTGCGGCGGGAGGAATTGCAGCACACTCTGTCGAGTCGGTAGAAGGTGAGTGGTGGGTGGAGACTGAGCGTGGACGTTACCCGGTGGCCGCCCCTCGTGCGAGGCAAGCGGTTGGGTTGGCCCCGGAACTTGGAGCGGACACTGCACAATGGCTCCGATGA	MMHEMQDHGTDPVRAWAASGAMALTGRADGPPMVAPGRPATFLTDQLVRFADLAGERTGVRPVVPGAELLGERAAIAGLKRAAPMSCGGAFQAVPANDGWFGLSLARDTDHRAVPALVEGDSDAEPWAAIKAWARTQSRGEAIERARLLDLAACAWPPEPSSRAPVIRGSEGGLHLRIERPLVVDFSALWAGPLCAHLLSMAGCDVIKVESAKRPDGARRGAAMFYDLLHAGHAAIHVDFEDAADLDRLRTLMSTASVVIESSRARSLRGLGLVAEEFVRAGVTWLSITARGRESNAPGFGDDVAVGAGLAIEEGGQVLPVGDAIADPLTGAVAATAAAEALLSERALLVDISMHDVASAAAAGGIAAHSVESVEGEWWVETERGRYPVAAPRARQAVGLAPELGADTAQWLR				NA	NA	NA	NA	NA
D1-29_01980	1395	nfdA_2		N-substituted formamide deformylase	ATGGCTCCGATGACCTCGACGATTCTCGCCGACGTGGAGGTGGAGGGCCGTCGAGTCGACGTCGCGATCAACGGGGGCCTGATCTCCAGGATCGATCCGGTGGGAGAGCGCCAGGGTGTCCTGGCAGGGTCGGTAATCGACTGCGGCGGCGCCACGCTCATCCCGGGTTTGCACGACCATCACGTGCACCTGATGGCGATGGCTGCGACGCAGGACTCAGTGGACTGTGCGGCGCTCTCAACAGTGGCGGAATTTACCGCCGCGATCAGGAACCGCAGCGGGTCCACGGTTCGGGCGGTTGGGTACCATGAGTCTCTCGCGGGAGTGCTGGACCGATTCGCTTTGGATGCAATCGAAGACCGTCGACCACTGCGGGTGCAGCATCGCACCGGGGGACTATGGATGCTGAATTCGCGCGCTCTCGCCCGACTCGGCCCTGCGACCGAGGGCGCGCTCGGCATCGAGAGAGACCCCAACGGCCGTCCAACGGGGCGGTTATGGCGATGTGACGACTTGGTCCGTCATGCGTTCCCTCGCGAGCCACCACACCTCGGCGCGGTCGGCCGCTCGCTCTCCTGCCTAGGCATCACCGGAGTCACCGATGCGACTCCGGACCTTGACGACGTCGCAATCGTCGCGATTGGGGAGGCAGTCCGGACCGGACAACTGCCCCAACGCGTCGTCCTTCTCGGCGCACCGGACGCCCACCCGCTACCCCTTGGCGTCCAATCGGGACCCCGTAAGATTCTTCTTCACGACCACAACCTCCCGGCCGCCTCAACGCTGCTTGACCTCATAGCCGGAAGCCATGCGGTCGGCCGCCCGGTGGCCATTCATTGTGTAACGGCCGACGCCTTGGTCCTGGTCCTCGGCGTCCTTGCTGAATGCGGCACTCTACCCGGAGACCGCCTCGAGCATGCCGCCGTCGTCCCGCCAGAGTTAGTTCAGGTTCTGGCGGCCTTCGACTTGGCGATCGTCACTCAGCCGGACTTCCTGCGGTCCAAAGGCGACGACTATCTCCGCGATGTACCGGAAGCCGAGCGAGACTGGCTCTATCCATATGCATCGCTCAAGGCCGCCGGGGTAAGCGTCGTACCATCCAGCGATGCACCCTTCGGAGACGTGGACCCTTGGCGCGTCGTCGCCACAGCGGGCACCCGGCGGACGCGGAGCGGGACGACTCTCAACGCGGACGAGGCGGTGTCCGCTGAGCTCGCTCTGTCGGGCTATTTGATGGATCCGCTTGACTTAGGCGGGACTCAGCGGCGGGTGCTTGCGGATTCACCAGCAGATCTGTGCCTGCTCACTCCGGACTACCTCGAGGTTGCTCACTCTGGAACATCGCCGGTTATTTTGACAATCATCTCCGGCGAGATTGCTTTCAGCTCAATCTGA	MAPMTSTILADVEVEGRRVDVAINGGLISRIDPVGERQGVLAGSVIDCGGATLIPGLHDHHVHLMAMAATQDSVDCAALSTVAEFTAAIRNRSGSTVRAVGYHESLAGVLDRFALDAIEDRRPLRVQHRTGGLWMLNSRALARLGPATEGALGIERDPNGRPTGRLWRCDDLVRHAFPREPPHLGAVGRSLSCLGITGVTDATPDLDDVAIVAIGEAVRTGQLPQRVVLLGAPDAHPLPLGVQSGPRKILLHDHNLPAASTLLDLIAGSHAVGRPVAIHCVTADALVLVLGVLAECGTLPGDRLEHAAVVPPELVQVLAAFDLAIVTQPDFLRSKGDDYLRDVPEAERDWLYPYASLKAAGVSVVPSSDAPFGDVDPWRVVATAGTRRTRSGTTLNADEAVSAELALSGYLMDPLDLGGTQRRVLADSPADLCLLTPDYLEVAHSGTSPVILTIISGEIAFSSI				NA	NA	NA	NA	NA
D1-29_01981	1311	ntaA_1		Nitrilotriacetate monooxygenase component A	ATGTCAGACGGACGTCGGTTGCATTTGAATATTGTAGGCAACGAACTTAATCTTCATCAGGGTGCCCGTGCGTTCGAGCGGGACAACGGCGGTGGCCCGGACCGCACCAGTGCATTCGGTCCGATCCTTGAAATGGGAAAACTCGCTGACGAGGGCCTGTTCACGGCCATGTTCCTCGGCGATATCGCCGGATCGATCGGCAGTCCTGCGATCGACGACGGCGCCCCTGAGCCTCTCACCGCGATGGCTGCCCTGTCCCGGGAGACTAAAAACCTAGGATTTATTGCCACTGCGTCAACCTCGTTCTACGACCCATACAACATCGCGCGCCTCGTTGGCTCCCTCGATTTGATCTCCGAGGGCCGGGCTGGAATGAACGCCATCACAAGTGCTGCGGATTTCTGGGCGCTGAACTACAGCCAAACCCAACACCTCGACCGTGAGGCGCGGTACAAGCGCGCGGATGAATTCCTTGACGTCATCAAGGCTCTTTGGGACAACCGTGACTTCCGCACCGATCCCGACGGCATTCGCCGGTTCTACTCCGAGCCGATCAACCACACCGGCGAGAACTTCCAGGTCACCGGCCCGCTCAATGTGCACCCGAGCCGCCAGGGTCGTCCGCTCATTGCACAAGCCGGCGGCTCCGGTCCCGGTATCAACGTGGCGGCCAAGCACGCTGACATGGTGTTCACCAACGCCTACTCGCGAGAGAGCGCCAAGACCTACCGCGCCTCGCTCGACGAAGCGCTCGCCAAACACGGTCGTGCAGCAGGGTCCGCCCCGGCCATTCCCGGCCTCATCCCGTATATAGCGAAAACGGCGCGGGAAGCCGAAGAGCGGATGCACGCCCTTGATGATTACATCGATTGGGAAAGCATCGCTCCCTACGCCCTTATGGAGTTCGGCATCCAGTACACGTACAACAGCGTCAACGATCCCTTCCCGGTGGAAGTCCTGCCAAATCCCGAGGATGTCAAGGACACGCTCAAGAGTGTTTTCGGCAACTACGTCGGCCTCTGGAACCACGTGCAGGCCAATCCCGGCCTGACCGTTCGCGACCTCGTCGCCCACGCAATGGTGCGCGGCGGTGCCCAGCACCGTAAATTCGTCGGTTCGTATGACGACTTCGCCGACGAGCTCGTGGACTGGTTCGAAGACGGCAACATCGGAGGCTTCAACCTGATGTTCCCGACGGGCAGCATGTGGCTCCAGGAGTTTGTCGACGAGGCCGTGCCGCGTCTGATCGACCGTGGGATTTACCGCAGCACGCCGGATACCCGGGTGCTTCGGGAGCGTTTCCAGGCCTGA	MSDGRRLHLNIVGNELNLHQGARAFERDNGGGPDRTSAFGPILEMGKLADEGLFTAMFLGDIAGSIGSPAIDDGAPEPLTAMAALSRETKNLGFIATASTSFYDPYNIARLVGSLDLISEGRAGMNAITSAADFWALNYSQTQHLDREARYKRADEFLDVIKALWDNRDFRTDPDGIRRFYSEPINHTGENFQVTGPLNVHPSRQGRPLIAQAGGSGPGINVAAKHADMVFTNAYSRESAKTYRASLDEALAKHGRAAGSAPAIPGLIPYIAKTAREAEERMHALDDYIDWESIAPYALMEFGIQYTYNSVNDPFPVEVLPNPEDVKDTLKSVFGNYVGLWNHVQANPGLTVRDLVAHAMVRGGAQHRKFVGSYDDFADELVDWFEDGNIGGFNLMFPTGSMWLQEFVDEAVPRLIDRGIYRSTPDTRVLRERFQA				NA	NA	NA	NA	NA
D1-29_01982	828	bacC_2		Dihydroanticapsin 7-dehydrogenase	ATGGCCGGAGAACTCACCGATAAGGTGGCCGTTGTCACCGGAGGAGCTGCTGGGCTCGGTCGGGCCGCGGCGCGCAAATTTGTCGCCGAGGGCGCGCACGTCGTCATCGCCGATCTGCAACGCGAAGAGGGCGAGGCTCTGGCATCCGAGCTCGGACCGCACGCTATCTACTCGCATACCGACGTTTCTGACCGGGAGCAGGTCGCGGACTTGGTAACGCTTGCGGTCAAGTCCTTCGGCGGTCTGCACATCATGTTCAATAACGCTGGAATTTCGGGGCCAATGTTTCCCCGATTCCTCGACGACGATCTGCTGGCGTTTGAACAAGTCCTCAAGGTGAACCTCCTCGGGGTCATGGCGGGTACCCAATCGGCCGCTCGCCACATGGCAGTCAACGGTGGCGGCTCGATCATCAATACCACTTCAATCGGCGGCATTCAGGCTGGCCGTAATGTGATGACCTATCGCGCGTCGAAGGCCGCTGTGATCCAGTTCACGAAGTCGGTCGCTATTGACCTCGGCGAGCACGGGGTCCGGGTCAATGCGCTTGCTCCGGGCAACATTCCGACCTCGCTCCTGGCCTCATCCGCGAGAGACTACGAGGAGGGCCCGGTCCGTGACGAATTCATTGCAGGCGTACGCAGGATGCAATCCGCGAGCCGGCCACTTAATCACGAGGGCACCCCGGAGGACGTCGCCGACGCCGCAGTCTTCCTCGCAAGCGATCGCTCGAAGTACATCACGGGCGCGGTGTTACGGGTTGATGGCGGTACGGCCGCCGGCAACACGACTAACTCCGCTATTACCAGCCAGAGCCCAAGGAAATAG	MAGELTDKVAVVTGGAAGLGRAAARKFVAEGAHVVIADLQREEGEALASELGPHAIYSHTDVSDREQVADLVTLAVKSFGGLHIMFNNAGISGPMFPRFLDDDLLAFEQVLKVNLLGVMAGTQSAARHMAVNGGGSIINTTSIGGIQAGRNVMTYRASKAAVIQFTKSVAIDLGEHGVRVNALAPGNIPTSLLASSARDYEEGPVRDEFIAGVRRMQSASRPLNHEGTPEDVADAAVFLASDRSKYITGAVLRVDGGTAAGNTTNSAITSQSPRK	PGPT0008190_366	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
D1-29_01983	1185	thcD		Rhodocoxin reductase	GTGACGGATACTGACGTACTCATCGTCGGAGCGTCCGCCGCCGGGCTGGGTGTCCTGGAGAGCCTACGCGGCGCGAATTACCGAGGTCGGATCACCCTTCTCGGTGCCGAAACTCACCTTCCTTACGACCGACCCCCGCTATCAAAACAGGTCCTGGGCGGTGAATGGGATGCCGAGCGCGCGCAACTGCGGTCGCGCGAACAGCTTGACGCACTCGACGCCCGGTTCATCCTCGGTGAAGCTGCAACGGGTCTCAACGCCTCGGCCCGACAGGTTCACACTGCGCAGCGAAAACTGACGGCGGGGAACATCGTCATCGCGACAGGAACCTCCGCACGCAAACTGAGGAGCCAGCCGGAGATCAAGGGTCTTCACACACTCCGCACTCTCGAAGACGCCCTCGCGCTTCGCGAGGACCTGTTGGCTGCATCCCGGCTTGTCGTGGTCGGTGAGGGGGTGCTCGGCTCTGAGATTGCGGCGACGGCGAGCCAGCTAGGCCTCGACGTGACCATCACCGGACCGTTGACCTCGCCTATGCAGCTTCAGCTCGGCGGCTATGTATCGGGTTTGCTAGCGGAGTTGCACTCTGAAGCCGGAGTGCAGCTCAGGCTCGGAGTCGGTGTAACCGGGTTCACTGAGCACGATGATCGGGTGACCGGTGTCCGCCTCGCAGACGGTATGGAACTCCCAGCCGACATCGTCGTTGTCGCAATCGGCGGCATACCCGCCACCGACTGGCTGGCCGACAGCGGGCTCACATTGGAAAACGGAGTAGTCTGCGACGAGCAGTGCCGCGCCGCAGAAGGGATCTACGCTGTCGGCGACGTCGCACGATGGTTCCACAGTGGGGCGGGTGACTTAGTACGCCTTGAGAACCGCACCAACGCCACGGAGCAGTCAGCGGTTGTCGCTGCTGCAATCCTCGGCGGCACGAGTGGCTATGAGCCTGTCCCGTACTTCTGGTCGGACCAGTACAAGACCAAGATCCAGGTGTACGGAACAATCAGGCCGGATGCGTACTTCGATGTGGTGGAAGGCAACATCGATAACAGGCGGTTCGTCATCCGTTATCACGTAGATGGCCTTGTCACCGCGGTGCTGGGCTGGAACATGCCAAAGCAAACTCGTCTCCGGGCACAGGAGATTGACAAGAGACACCCGATTCAGGAAGAGGTAGCGGTATGA	MTDTDVLIVGASAAGLGVLESLRGANYRGRITLLGAETHLPYDRPPLSKQVLGGEWDAERAQLRSREQLDALDARFILGEAATGLNASARQVHTAQRKLTAGNIVIATGTSARKLRSQPEIKGLHTLRTLEDALALREDLLAASRLVVVGEGVLGSEIAATASQLGLDVTITGPLTSPMQLQLGGYVSGLLAELHSEAGVQLRLGVGVTGFTEHDDRVTGVRLADGMELPADIVVVAIGGIPATDWLADSGLTLENGVVCDEQCRAAEGIYAVGDVARWFHSGAGDLVRLENRTNATEQSAVVAAAILGGTSGYEPVPYFWSDQYKTKIQVYGTIRPDAYFDVVEGNIDNRRFVIRYHVDGLVTAVLGWNMPKQTRLRAQEIDKRHPIQEEVAV	PGPT0019730_136	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
D1-29_01984	210	subB		Ferredoxin-2	ATGAAGGTTGTCATAAACGAACACAAATGCGTCGCAGCAGGTCAGTGTGCCTCCTATGCGCAGGACGTATTTGACCAACGTGACGAGGACGGCATCGTCGTCCTCCTCAATGAGAACCCACCGGAAAGCCAGCACGCTGACACACGCCGCGCTGCGGGGGCATGCCCCGCAATGGCCATTGTGATAGAAGAAGGAGCCCAGCATGACTGA	MKVVINEHKCVAAGQCASYAQDVFDQRDEDGIVVLLNENPPESQHADTRRAAGACPAMAIVIEEGAQHD	PGPT0007360_1193	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-GIBBERELLINS_PRODUCTION	PHYTOHORMONE-GIBBERELLINS_METABOLISM	PHYTOHORMONE-GIBBERELLINS_BIOSYNTHESIS,PGPT0007360-Uncharacterized_P450_system_3Fe_4S_ferredoxin-K05337	NA	NA
D1-29_01985	1230			Cytochrome P450-SU2	ATGACTGATCCATCAAACAGCAGTGCCCCTGAGGTACTCGAATTTCCCGTGATGCGTGAGCCGAAGTGCCCGTTCAATCCGCCTCAGGTCCTCATCGACATGGCGGTTAAGGAACCGGTAAGCCGTGTGCGCATCTGGGATGGCAGCACGCCGTGGCTGGTGACGGGCAACGAAGAGTTGCGGGCATTGGCAGCCGATGAGCGCGTCAGCGTTAATCACCATCTGCCCGGGTATCCGGCCTGGAACGCAGGACAAGCCGCCGCTGCATCCGTCCGCCCGGACTCGCTCATCAACGTCGACGGTGCGGAGCACGTGCGTCTTCGCCGCATGGCGACGCGCGCGTTCTCATTCAAGCGGGTCAACGCGATGCGTCCGGTAATACAGCGGGTCACCGACGAGCACATAGACGCGATCCTCGCGGGACCCAAGTCGATTGATCTCGTGCCCGCCCTAGCGCTGCCCATCCCGTCCCTTATGATCTGTTCGCTGCTCGGGGTTCCGTATGAGGACCACGACTTCTTCGAGGAGTCCGCGAAAGGCATTTTGGATCGCTACTCGCAGCCGGAAGATCAGGCCCGGCACTTCTCAGGGTTGACGGAGTACATGCGGGGACTCGTTGAGCTCAGACTTGAGGAGCCGACTGAAGACGTCGTCTCCGAGTTCGCCGAGCTGGCCCGCACGGGGGAGATCACCGTCAACGAGGCTGTGCAGACTTGTATCGTCCTGCTGTTAGCCGGTCACGAGACCAGTGCTAATATGATCGGCCTCGGCACCCTCGCGGTGTTGGAGAACCCGGAACAGTTCGCGGCTCTTCGCGAGAGCGACGATCCGAAGGTTATCGCGAACGCTGTCGAAGAGCTCCTTCGCTATCTGTCGATCATCCACAATGGGCAGCGCCGCATCGCGGTTGGAGACATCGAGATCGCCGGCGAGTCCATCAAGGCGGGCGAGGGCATCATCCTCGACTTCTCCGCCGGAAATTGGGACACCCGGGTATTCGAGGAACCCGAGGTGCTCGACCTTACCCGGGATGCCTCGCAGCACGTCGCCTTCGGATACGGCCCGCACGTCTGCGTCGGGCAGCAACTGGCCCGCGCGGAACTCCAGATCGTGTTCAGCACACTGTTCCGGCGGATTCCCACGCTCAAGCTCGCCGTCCCGTTGGACGAAATCGAGTTCAAGCACGACCGCCTCGCGTACGGCGTCTACTCACTGCCCGTCACGTGGTGA	MTDPSNSSAPEVLEFPVMREPKCPFNPPQVLIDMAVKEPVSRVRIWDGSTPWLVTGNEELRALAADERVSVNHHLPGYPAWNAGQAAAASVRPDSLINVDGAEHVRLRRMATRAFSFKRVNAMRPVIQRVTDEHIDAILAGPKSIDLVPALALPIPSLMICSLLGVPYEDHDFFEESAKGILDRYSQPEDQARHFSGLTEYMRGLVELRLEEPTEDVVSEFAELARTGEITVNEAVQTCIVLLLAGHETSANMIGLGTLAVLENPEQFAALRESDDPKVIANAVEELLRYLSIIHNGQRRIAVGDIEIAGESIKAGEGIILDFSAGNWDTRVFEEPEVLDLTRDASQHVAFGYGPHVCVGQQLARAELQIVFSTLFRRIPTLKLAVPLDEIEFKHDRLAYGVYSLPVTW	PGPT0011505_29	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	ANTIPROTOZOAN|ANTIPROTISTAL_ACTIVITY	ANTIPROTISTAL-PENTALENOLACTONE_METABOLISM,PGPT0011505-CYP105D-K17876	NA	NA
D1-29_01986	516	ntaB		FMN reductase (NADH) NtaB	ATGACGTCCGCCAAGTTCCGGGCGGCGTTCCGTAATCACCCCGGCGGTGTCTCGGTCATCACGGCTGACGCAGGGGATGGGCCGGTCGGTTTGACCGCAACCTCTGTCATCTCTGTCAGCCTCGAGCCGCCCCTGGTGGTCTTCTCGGTGTCGGAGCTGTCCTCAAGCACGCCTACGATCCTCAAGAGCGACACTGTCGTCATCCATATGCTCAGCGTTGGACAGCTCGACATCGCCAAGCTCTGTTCCACGAGCGGCATCGACCGATTCGCCGACACATCGATCTGGTCGCGCCTGGTAACCGGTGAGCCGTTTTTCCACGCGGCCCCGGCCTGGATCCGCGGCAAGATTGTCTCCACCATGGCTGCGGGCGGCTCGACCGTCATCGCCGTGCAGGCACTGCAAGCCCTAGCCCCTGACCCCGACACGGTGGGCGTCATCGACCAGGAATCCGAGCAGCCCCTTGTGTACCACAACCGCACCTGGCACACGCTGAGCCAAAGTTCGGTGGTCTGA	MTSAKFRAAFRNHPGGVSVITADAGDGPVGLTATSVISVSLEPPLVVFSVSELSSSTPTILKSDTVVIHMLSVGQLDIAKLCSTSGIDRFADTSIWSRLVTGEPFFHAAPAWIRGKIVSTMAAGGSTVIAVQALQALAPDPDTVGVIDQESEQPLVYHNRTWHTLSQSSVV				NA	NA	NA	NA	NA
D1-29_01987	213			hypothetical protein	ATGCTGTGGCACCGAGTTACTCTCAATAGCACTCGCCAGTCGGCGTCTGATTCCAGCACCGCCGTTAGTGCGACCTGCCCAGACGGGCGCAACCAGATCTTGGCGTTCGACATTGATGAGTACAACGCGTCTCCGTGGGTTGGCCTTCACTACAGACATGAGTTCATGCTCCACCACAGACATGAACTATTGGAGCGCGACGTCGACTTGTGA	MLWHRVTLNSTRQSASDSSTAVSATCPDGRNQILAFDIDEYNASPWVGLHYRHEFMLHHRHELLERDVDL				NA	NA	NA	NA	NA
D1-29_01988	1041	adhC2_2	COG1064	NADP-dependent alcohol dehydrogenase C 2	ATGCCTACCGTCAATGCTTACGCAGCACTTTCAGCTACCGGCGACCTGGTCCCTACGACGATTCAACGCCGCGACGTCGGCGGGCATGATGTGCTGATTGAAATCAAGTATGCGGGCATCTGCCACTCAGACATCCACACCGCTAGAGGCGAATGGGGGTCCCAGCAGTACCCGCTGGTTCCCGGCCATGAGATCGCCGGGATCGTCACCACGGTGGGCGCCGGTGTCACCAAACACGCCATCGACGACCGAGTCGGTGTGGGTTGTATGGTCAATTCCTGCCGCGAGTGCGTGAACTGCACGAAAGGCGAGGAACAGTACTGCCGCCGGTGCATTGCCACGTACGGCGGTAAAGACAGCGATGGGACCGTCACTCAGGGCGGCTACTCCAGCTCTGTGGTGGTGAACGAGGACTTCGTGGTGGCCATCCCGGAAGGGATCGAGCTCGACGTCGCCGCCCCGCTGCTGTGCGCGGGCATCACCGCCTACTCGCCGCTGCGCCACTGGGATGCCGGGCCAGGCAAGAAGATCGCCGTCGTCGGCCTCGGAGGACTGGGCCACATGGCCGTCAAACTCGCTCACGCCATGGGCGCCGAGGTCACCGTGCTCTCACAGTCACTAAAAAAACGGGAAGACGGCCTGAATCTAGGGGCGGACCACTTCTATGCCACCAACGATGAAAACACCTTCAAGGATCTGGCCCGATACTTCGACCTGATCATTAACACCGTCAGCGCCAAGATCGACATCAGCGCCTACCTGCGGCTGCTGGCCCTCGACGGCGTCCTCGTGAACGTCGGTGCTCCTGCAGCACCACTCCCGGTAAACGTGTTCTCCCTTATTACGGGCCGCCGGTCCTTCGCTGGCTCCATGATCGGCGGTATTGGTGAAACTCAGGAAATGCTCGATTTCTGTGCCGAACATGGCATCGGCGCAGAAATTGAAGTCATCCCAGCCAGCAAGATCAATGACGCCTACCAGCGCGTCCTCGCCGCAGACGTGAGGTACCGGTTCGTCATCGACGCATCAACCCTGAGCTGA	MPTVNAYAALSATGDLVPTTIQRRDVGGHDVLIEIKYAGICHSDIHTARGEWGSQQYPLVPGHEIAGIVTTVGAGVTKHAIDDRVGVGCMVNSCRECVNCTKGEEQYCRRCIATYGGKDSDGTVTQGGYSSSVVVNEDFVVAIPEGIELDVAAPLLCAGITAYSPLRHWDAGPGKKIAVVGLGGLGHMAVKLAHAMGAEVTVLSQSLKKREDGLNLGADHFYATNDENTFKDLARYFDLIINTVSAKIDISAYLRLLALDGVLVNVGAPAAPLPVNVFSLITGRRSFAGSMIGGIGETQEMLDFCAEHGIGAEIEVIPASKINDAYQRVLAADVRYRFVIDASTLS	PGPT0024430_1744	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
D1-29_01989	567			hypothetical protein	GTGCAGGAATTTCTACCAAGCTCTCGACCTCCAGGCCCACGGCGGACTCAAACGCGAGGTCAAAGAAGCCCTGCGCACAGGAAGGACACGCCGCAAAAGGCAGAAAAGCCCTCAGGGACGCAACAGTCGATTCCGGGACCCGATGATCAACATTTCCGAACCACCCGCTACCTGATGCTGGTACACCTGCCGGTGGACCACACCGCCGAATCGGTCCGTGACGGGCTCATCAACACCATGGGTACCCTTCCGGCGCATCTGCGCGGTTCCCTGACCTGGGACCAAGCGTCGAAATGGCCAAACACAAGGCCTTCAGCATCGCCACCGACATGGACGTCTACTTCTGCCAACCGGCCAGCCCCTGGCAGCGCGGATCCAACGAAAACACCAAAGGACTACTGGAATGGTCCACTACTACGCCAGTACTTCCCCAAAAACACTGACCTGAACGCCTACGGGCCCGAGGACCTAGAACGCGTCGCACAGGGACTCAACGCCCGCCCCCGGAAAAATACTCAACTGGAAAACCCAGCCGAGTCACTTCGTGATTCACTGATAGCCAACTGA	MQEFLPSSRPPGPRRTQTRGQRSPAHRKDTPQKAEKPSGTQQSIPGPDDQHFRTTRYLMLVHLPVDHTAESVRDGLINTMGTLPAHLRGSLTWDQASKWPNTRPSASPPTWTSTSANRPAPGSADPTKTPKDYWNGPLLRQYFPKNTDLNAYGPEDLERVAQGLNARPRKNTQLENPAESLRDSLIAN	PGPT0030610_518	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030610-IS30_family-K07482	NA	NA
D1-29_01990	285			hypothetical protein	ATGGGCGTGCAGTTCAGTGTCTCCTACCCGGTCCCGGTGATGAAGGCCCGCATGGTCGCGTGGGTGGTCAACGCCCCCGACGTCCGCGCACTCACCGACTACCCGTCGGGCACGAGCCTCTATCTGCGTGCCGAGCCGCTGCACCCCGGCGCTCACGCGACGCTCCTGGATGTGGACGGGCACAGAGTCACGGCCTTTTTGACGAACGCACCGTCCTGGCACGGGCCGGTCTTGATGCCCGGCACCGGGGCCGGGGACGGTGCGAGAACCGGATTAAGACCCTGA	MGVQFSVSYPVPVMKARMVAWVVNAPDVRALTDYPSGTSLYLRAEPLHPGAHATLLDVDGHRVTAFLTNAPSWHGPVLMPGTGAGDGARTGLRP				NA	NA	NA	NA	NA
D1-29_01991	243			hypothetical protein	ATGAATCTGGTTTCCCGGCTGCAACTTACCGCTCTGCCCACCGGCCACAAAGCCAGGGGATGGGACATGAAAAGGTGGCGCTACCGGCTTTTCGCGACCGCCGGGAAAATCATCACCCGGGCCCGGCGGACCCGGGTGCTGATCCCTGACAAAGCCCCGGAAGCCGCAAAGATAACCACAATCCTAACCGCCATCGCCGGGCTGACAAACAGCCTCCGACAACGGGACGGACTCCTGGCCTGA	MNLVSRLQLTALPTGHKARGWDMKRWRYRLFATAGKIITRARRTRVLIPDKAPEAAKITTILTAIAGLTNSLRQRDGLLA				NA	NA	NA	NA	NA
D1-29_01992	1518	gsiB_2	COG0747	Glutathione-binding protein GsiB	ATGACGCTAAAACTTAAGGTCGTGGTGCCGGTTATGGCGGCCGCGCTCGTTCTCACGGGTTGTGCGCAGGGCGGTGCTGCGACTCCTGCCAAGGAGGCCGGAAACTCCGTCTTTCGTTACGGGGGACACGCGGTGAACAACCTTGACCCGCACAAGAACGCGCAATTCACGGACTGCACTTATCTTTGCCCTGCCTACGACCGGCTGGTGCATGTCGATCCGGATGGCAGCCTAATCCCCGGTCTCGCAGAGTCATGGGAGTTCAGCGAAGGCGGCCTGAAGTTGACGTTTAAGATCCGCGAGGGCGTGAAGTTCAAGGACGGCACTGTCCTGGATGGCGAAGCCGTGAAGGCGAGCTTGCTTCGAGCACGGGACCTTCCGGGATCGGCCGTGAAGAACGACTTCGCCACCATGTCCGATGTGACCGTGGATAATCCGCAGACGGTAACGCTCAACCTGAGCGCGCCGAACGCGGCGATGCCTGCCATTCTCTCGGGTCTTGCCGGGGTTGTCATCAACCCGACTGCGCTCGCGCAGGGCGTAAACCTCAGTGAAACGCTGGACGGAGCCGGTGCCTTCCGGTTTGTCTCGTACACGACCGGCAGTGAGCTTAAGTTGGAACGCAACCCCGATTACTGGGGCGAGACGCCGGAATTCGCCGGCATCGACTTCCGATTCTTCACCGATGCAGCGGCGCTTGCGAACTCTGTGCTGGGGGGGCAGATAGACGCCGCCGCGATCGTGCCCCAGAACCTCAAGCCATTCGTCGACAACGACAAGTTCAAAATGGAAACGACGAGTTCGCTCACCCAGAACACGATGATCGTGAACCACAAACAAAACGGACTTGACGACGAGCGCGTGCGCAAGGCGATCCTTCATGGCCTCGATCGTGATGCCATCTGCGAAGCGGTGTACGACGGGTTCTGCGAGATCACGGATCAGCCCTTCCCGCCGGGGCACTACGCCCACAATGACTCTATCCCCGAGGTGCTTTACCCCTATGACCAGAAGAAGGCCAAGGAGCTCCTAGCAGAGGCCGGCGCCAGTGACTTGATCTTGAAGGCGATCATGGTCCCGGCGGCACGCAAGATGGCCGAGGTTGTGCAAGCTCAGCTTAAGGAGATCGGGGTTGACCTGCAGCTCGAAGCGATTGAACTCTCGACTATGGTGCAGCGACTGCTCATCGACAAGACGGACTCGATGCTGGTCCTTCCCTTCAGTGGCCGCATTGACCCGTCCCAGATGCTGGCGGCCCGGCACTCCGAAAAGGGTTTTTTCAATCCCGGCGGTTACACCACTCCCAAGATGCAGCAGCTGTACGTCGACTCCGTCGCTGAACTCGACCCCGAAGCCCGCACGAAGATTCTGAAGGAAGCATCCCGTGTCGCAGCGGAAGCCGCACTGCCCCTGACGCTGAGTTTCTCGGAGAAAATCTACGTCATGAGGAGCGGTGTGACGTTCCCCTTGTTCAGCACGGGCAGCCAAGAAATCACGTGGGCAACCGAAACCAAGTGA	MTLKLKVVVPVMAAALVLTGCAQGGAATPAKEAGNSVFRYGGHAVNNLDPHKNAQFTDCTYLCPAYDRLVHVDPDGSLIPGLAESWEFSEGGLKLTFKIREGVKFKDGTVLDGEAVKASLLRARDLPGSAVKNDFATMSDVTVDNPQTVTLNLSAPNAAMPAILSGLAGVVINPTALAQGVNLSETLDGAGAFRFVSYTTGSELKLERNPDYWGETPEFAGIDFRFFTDAAALANSVLGGQIDAAAIVPQNLKPFVDNDKFKMETTSSLTQNTMIVNHKQNGLDDERVRKAILHGLDRDAICEAVYDGFCEITDQPFPPGHYAHNDSIPEVLYPYDQKKAKELLAEAGASDLILKAIMVPAARKMAEVVQAQLKEIGVDLQLEAIELSTMVQRLLIDKTDSMLVLPFSGRIDPSQMLAARHSEKGFFNPGGYTTPKMQQLYVDSVAELDPEARTKILKEASRVAAEAALPLTLSFSEKIYVMRSGVTFPLFSTGSQEITWATETK				NA	NA	NA	NA	NA
D1-29_01993	951	dppB_2	COG0601	Dipeptide transport system permease protein DppB	GTGCTGCTTCGTCTCATTTTGAACCGCCTCCTGTCGATGGCACCAGTGCTGTTACTGGTCTCCTTCGCGGTATTCATGCTGATCGCCTTGATTCCCGGTGATCCTGCCGTTACTCTCGCAGGCGGCGACAACGCCTCACCGGAATCCATCGCTGCGGTGCGGGAGCGCCTCAACATGGACGAGCCGCTGATCGTCCAGTACCTGATCTGGCTGGGCGGAATCATCCGGCTTGACCTCGGTACCTCGTTGCTGAGCGGGCAGAACATCGCTGCAGAAATCGCGGCCCGACTGCCCTTCACCCTCAGTCTCACGCTGGCTGCGGCAGTCGTCGCGATCCTGGTCGCCATCCCCCTCGGCGTGCTGTCCGGAATGTGGCCGGGCGGCCGTCTCGACGAAGGAGTCCGCCTCGTCGCAAGTGCCGGGATCGCAGTGCCGAACTTCTGGCTTGCGGTCATGCTCGTCTCGCTATTCGGGGTGCAGCTCAGACTGTTTCCACCGACGGGCTACGTTCTCCCCTCGCAATCGTTTGGCGGATGGCTCGAAACCGTCACTCTTCCTGCGATCGCACTCGGGGTTGTGGTTTCTGCAAACCTGGCGCGGCAGTTGCGTCGCAGTCTCATCGAAGTCCTCGACTCCAACTACATCCGGACGGCCTGGGCGAAGGGGGCCGGCAGCGCCCGTGTCGTGGGTGTCCACGCGCTCAAGAACGCGGCGATTCCGGCAGTCACGGTGTTTGGGGTTCAGCTCGGAAACCTGCTGGGAGGAGCAATCATCATCGAATCCATCTTCGCGATCCCGGGGCTCGGCACGTACATGCTTCAGGCGATCAGCAGCCAGGATCTGCCCGTGGTCCAGGGCGTCGTGCTGATTTTCGTCGTGTTCCAGCTGGTGCTGAGCCTCCTCGTCGACATAAGTTACGGATACCTCAACCCGAAGGTGCGCATCGCATGA	MLLRLILNRLLSMAPVLLLVSFAVFMLIALIPGDPAVTLAGGDNASPESIAAVRERLNMDEPLIVQYLIWLGGIIRLDLGTSLLSGQNIAAEIAARLPFTLSLTLAAAVVAILVAIPLGVLSGMWPGGRLDEGVRLVASAGIAVPNFWLAVMLVSLFGVQLRLFPPTGYVLPSQSFGGWLETVTLPAIALGVVVSANLARQLRRSLIEVLDSNYIRTAWAKGAGSARVVGVHALKNAAIPAVTVFGVQLGNLLGGAIIIESIFAIPGLGTYMLQAISSQDLPVVQGVVLIFVVFQLVLSLLVDISYGYLNPKVRIA	PGPT0004445_11959	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
D1-29_01994	2022	btuD_7		Vitamin B12 import ATP-binding protein BtuD	ATGACCGGAATCGAACAGCCCACCAGCACTGTCGGCATGGCCATAGAGGCCACGGGGGAAGCCAAGCTTCCCCCGCGCTGGATCAGTCATCCATGGATTCGTGCTCTTAAAACATGGAGTGGAGCATTAGCGGCCGGATGGCTGATCCTGGTGGTCCTGGTTGCAGGCCTTGCGCCCTGGATCGCAGGGCATCCGCCCGGGCAGCAGGATCTGGGCAACGCGCTCGCTCCGTTCTCGCTCGAACACCCCCTGGGCACCGACGATCTGGGCAGAGATGTGTTGTCGCGGCTTATGTACGGTGCGCAGATCAGTCTGGCGGTCTCGGTCCAGGTTGTGGTTCTCGCACTGCTCGGCGCCATCCCGATCGGTCTGTACGCTGGTTATAAGGGCGGCCGGGCCGATCGCCTGCTGATGCGTTTCATGGACGCGGGTCTGAGCTTTCCGGCGCTCGTGCTCGCGCTGGCTGTGGTCAGCGTCCTCGGCCCTGGTGTCACCAATGCGGCGATCGCGCTGGCGATCGTATTCATGCCCCTGCTGGCCCGCCTGGTGCGCGCACAGACGTTGGCAGTCAAGGAAGAGTCCTTCATCGAGGCTTCGCAGTCGCTGGGGACGCGCCCCTTCCTCATCGTGGTGCGCCGTATCCTTCCCAACCTCGCTTCCGCTCTGATCGTCCAGGCGGCGATCGTGATGAGCGGCGCGCTCATCGCGGAGGCAACGCTGAGCTTCCTGGGCTTGGGCGCGCAGCCGCCCGCGCCGAGCTGGGGTGGCATGCTGCAGCAGGCGTACGCGTCCGCGCTGTTCATCAATCCGCTCAGCCTCGTCCCGCCGGGACTGGCTATCGCTCTCACCGTCGTTGCTTTCAACGGATTCGGCGACGCGCTGACGACCGCTTACGGCCTGGACCGGACGAAGGCTAAGCGGCGCCATCTGCCCCGCCGGGCCAGGGGGAGGCGAGGATTCACGGCGATCGACCGCCCCGCCGCCGTTCCCGGTGCTGAGCCGGCAGGGAGTAACATCTGCCTGCGCGTCCGCGGACTGAACGTCGCGGTGCAGACCCCGAATGGGACGGTTCCCGTCGTCGAAGACGTGAACCTCACAGTTGGGCAGGGGGAAATCGTCGGGCTCGTGGGCGAGAGCGGCTCCGGAAAGACGGTTACGTCGCTGTCCATCATGCGCCTAGCCCCGTCCCCGCCCTTCGTGATCACCGGGGGAGTCATCGAACTCGGCGGACGCGACCTGTTCGCAATGAACTACAAGGAGCTCCGCCGTACTCGAGGCTCGGAAATCGCCATGATCTTCCAGGATCCTATGTCGAGCCTGAATCCCTCGCAGACAGTGGGCGCCCAGATCGGCGAGTCGCTGCGCCTACATCGTGGGCTTTCCCGTAAGCAGGCCACGGCTAGAGCCGTCGAGATGCTGGAACGCGTCGGCATCCCGGATCCCGTGAACCGTGCGCGTTCCTACCCCCACGAGCTATCTGGCGGTATGCGTCAACGGGTGATGATCGCCATGGCACTCAGTTGCTCTCCCCGCTTGATCATCGCAGACGAGCCCACCACGGCACTGGATGTGACGATCCAGGCGCAGGTGCTGGATCTGCTGCGCAAGCTCGCCGTCGAGGACGGGGTCGCTGTCATCTTCGTCACCCACGACCTGGCGGTCGTTTCGGAACTGTGTGACTCGGTCGCGGTGATGTACGCGGGCCAAGTCGTCGAACGCGCGCGGACTGTTGATCTGTTCCGCTCACCGCAGCACCCCTACACGCAGGGGCTGATCGCCGCGAGTCGCCGGGGCGAGGGCGAGGAGCCTGAGCCGATCCCCGGCCAGGTCCCGCGCATCGGGCTCGTCCCGTCGGGTTGCCGGTTCGCTCCGCGCTGCCCATTCGCAGTGGAGGAGTGCCGTCAGTCGCCCCAAATTCTGGAACCGGTGCTGAGCGTCGTCACAACCGAGACGTCCCCGGAGGACGCACGCATGGCAAGGTGCCGGCGCAAAAATGAGCTTCAATTGGAAGGAGTGCGATGA	MTGIEQPTSTVGMAIEATGEAKLPPRWISHPWIRALKTWSGALAAGWLILVVLVAGLAPWIAGHPPGQQDLGNALAPFSLEHPLGTDDLGRDVLSRLMYGAQISLAVSVQVVVLALLGAIPIGLYAGYKGGRADRLLMRFMDAGLSFPALVLALAVVSVLGPGVTNAAIALAIVFMPLLARLVRAQTLAVKEESFIEASQSLGTRPFLIVVRRILPNLASALIVQAAIVMSGALIAEATLSFLGLGAQPPAPSWGGMLQQAYASALFINPLSLVPPGLAIALTVVAFNGFGDALTTAYGLDRTKAKRRHLPRRARGRRGFTAIDRPAAVPGAEPAGSNICLRVRGLNVAVQTPNGTVPVVEDVNLTVGQGEIVGLVGESGSGKTVTSLSIMRLAPSPPFVITGGVIELGGRDLFAMNYKELRRTRGSEIAMIFQDPMSSLNPSQTVGAQIGESLRLHRGLSRKQATARAVEMLERVGIPDPVNRARSYPHELSGGMRQRVMIAMALSCSPRLIIADEPTTALDVTIQAQVLDLLRKLAVEDGVAVIFVTHDLAVVSELCDSVAVMYAGQVVERARTVDLFRSPQHPYTQGLIAASRRGEGEEPEPIPGQVPRIGLVPSGCRFAPRCPFAVEECRQSPQILEPVLSVVTTETSPEDARMARCRRKNELQLEGVR	PGPT0004435_1040	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
D1-29_01995	1047	btuD_8		Vitamin B12 import ATP-binding protein BtuD	ATGAGTACCATCGCGAGCGTGACCGCCCCCCCAGCCGTCAGCCAGCTTATTGGGGTCTCCAAGCACTATTCCGTCCGACTTGCAGGCGGCGGCAAGGGCGTTCTGCAGGCCGTGGACGGAGCCGATCTCACCGTGAGGCCGGGCAAAACCCTCGGTCTGGTGGGCGAGTCCGGCTCCGGAAAGTCCACCATCGCCCGGCTGATGCTCAAGCTTGTCGAGCCAACGGCCGGAAGCGTGTTCCTGGATGGCGAAGACATCACGGGTGTCCGCGGTAGCCGGCTGCGTGCGCTGCGATCCAAGATGCAATTGGTGTTTCAGGACCCCTATTCTTCTTTCGACCCGCGTGCGGACATCAACGACAGCCTGGGGGAGGCGCTGCGACCGCTCGGCCTGAACAGGACCGAACGCGCCCGGAAATCCGCCGAGTTGCTCGAAACGGTAGGACTTCCGAGCGCGTTGGGTGCCCGGCGGCCGCGCGATCTGTCCGGCGGACAGCTGCAGAGGGCTGCCATCGCGCGCGCTCTTTCGCTTAGCCCGAAACTCATCGCCCTTGACGAACCCGTAAGCAGCCTGGACGTCTCAAGCCAGGTGCACATCATTAATCTGCTCAACAAGCTCCAGGAGGAGCTGGGCGTGTCGATGCTGTTCATCAGCCACGACCTGACCGTGGTGCGCGATGTCAGCCACGACATCGCCGTGATGTACCTGGGGAAAGTCGTCGAGCGAGGCGCATCCGCGGCCGTCTATTCTTCTCCCCGACACCCGTATACAGAGGCGCTCCTGTCGGCCGCGCCGCGGATGACCGCAGCTTCCGACACCGTCAGAGTCCAGCGGATTCTGCTTCGTGGAGACATCCCATCACCTCTGCGCCCTCCGGCGGGCTGCAGGTTCCACACAAGGTGTCCGAAGGTGATGGACGTCTGCCGCACGATTGTTCCCGAGGTGGTGCGGACGCCGCTGGGGGATGAAGCGGCCTGCCATCTTCTGACCGACACGCAAATGGTGCCCAGCGGCGCAGGACGCGGTCGCTCCGAGGACCGCACGTGA	MSTIASVTAPPAVSQLIGVSKHYSVRLAGGGKGVLQAVDGADLTVRPGKTLGLVGESGSGKSTIARLMLKLVEPTAGSVFLDGEDITGVRGSRLRALRSKMQLVFQDPYSSFDPRADINDSLGEALRPLGLNRTERARKSAELLETVGLPSALGARRPRDLSGGQLQRAAIARALSLSPKLIALDEPVSSLDVSSQVHIINLLNKLQEELGVSMLFISHDLTVVRDVSHDIAVMYLGKVVERGASAAVYSSPRHPYTEALLSAAPRMTAASDTVRVQRILLRGDIPSPLRPPAGCRFHTRCPKVMDVCRTIVPEVVRTPLGDEAACHLLTDTQMVPSGAGRGRSEDRT	PGPT0021035_2064	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021035-oppF-K10823	NA	NA
D1-29_01996	1239			Cytochrome P450-SU2	ATGACCAATCCTGCAACCACGACGAGCCATTCCGACGTCTTCGACTTCCCGGTCGGCCGGGAGCCCAAATGCCCGTTCAACCCGCCGGCCAAATTAGTGGAGTCCGCCGCCGAGTATCCCGTGCGGCGCGTCCGCATCTGGGACGGCACCATGCCGTGGGTCATCACTGGCAACGAGGAACTCCATCTGCTCGCAACCGATCCGCGCGTCCTCGCCGAGGACCGGGTGCCTGGCTTCCCTCACTGGAATGAGGGGAAGAAGGCCACAGCGCTGCTGCGCCCGCAGAGCATCTTCAACACCGATGGCCCCGAACACTCCCGATTCCGCCGCATGACGACGAGATCATTTGCCTTCAAACGGGTAGAGTCGCTCCGCCCGAGGATCCAGGAGATCACGGACGAACGCATAGACACAATCCTGACAAGCGCCAAGCCGGTGGATCTGGTAAGCGAGTTCGCGCTGCCCATTCCGTCGCTGATGATCTGCGAGATGCTCGGCGTGCCCTACGAGCACCACGAGTTCTTCCAGGAGCACACCAGTGTTTCGCTGGACCGCTACGGTACTGCGGAGGAGCAGGAACGCACCTACCTCGTCATCAACGACTTTATGCGGACCCTCATCGAGTCGCGGATTGCCGACCCGGTGGACCGTGGAGGTGTGATCGAGGAACTCGTAGGACATGTCCGCGCCGGTGACATCTCGGTGGCCGAGGCTGTGCAGCTCGCCCGCGGCCTGCTCGCGGCAGGGTTCGAGACGAGCGCGAATATGATCGGCCTCGGCACGCTCGCTCTGCTGCAGAACCCCGATCAGCTTGCCATCCTGCGCGACACTGACGACCCGAAGGTCATCGCGAACGCGGTAGAGGAGCTGCTGCGCTACCTGAGCATCGTCCACAACGGCCAGCGCCGCATCGCGGCTGCAGATATCGAGATCGCCGGCCAGTCCATAAAGGCGGGCGAGGGCATCATCCTGGACTTCTCGGCCGGGAACTGGGACGCGCGGACGTTCAAGCAGCCAGACGTGTTTGATATACAGCGGACCACGGACAATCATCTGGCATTCGGCTTCGGCTCGCACGGCTGCATCGGCCAACAGCTGGCCCGGGCCGAGCTTCAGATCGTCTTCAGCACGCTGTTTAGGCGGATTCCCACGCTTAAGCTCGCGGTCCCGTTGGATGACATCGAGTTCAAGCACGACCGCCTCGCCTACGGCGTCTACTCGCTGCCCGTCACGTGGTGA	MTNPATTTSHSDVFDFPVGREPKCPFNPPAKLVESAAEYPVRRVRIWDGTMPWVITGNEELHLLATDPRVLAEDRVPGFPHWNEGKKATALLRPQSIFNTDGPEHSRFRRMTTRSFAFKRVESLRPRIQEITDERIDTILTSAKPVDLVSEFALPIPSLMICEMLGVPYEHHEFFQEHTSVSLDRYGTAEEQERTYLVINDFMRTLIESRIADPVDRGGVIEELVGHVRAGDISVAEAVQLARGLLAAGFETSANMIGLGTLALLQNPDQLAILRDTDDPKVIANAVEELLRYLSIVHNGQRRIAAADIEIAGQSIKAGEGIILDFSAGNWDARTFKQPDVFDIQRTTDNHLAFGFGSHGCIGQQLARAELQIVFSTLFRRIPTLKLAVPLDDIEFKHDRLAYGVYSLPVTW	PGPT0011505_38	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	ANTIPROTOZOAN|ANTIPROTISTAL_ACTIVITY	ANTIPROTISTAL-PENTALENOLACTONE_METABOLISM,PGPT0011505-CYP105D-K17876	NA	NA
D1-29_01997	657			hypothetical protein	GTGCTCTCCAACAACTACTCCGTGGACCCGTCGTTCATTGGGCGGATCGTGGATGTCGTCGCTGATCTGGACACCGTTTGGGTCACTCACGAGGGTGTCATCATCGCCACGCACTTCCCGGCTTGGACCTGGCACCTGGTGGTGACCAATCCTATCCACGTGGCCCGCGCGGCGGTGATGCGCCGGGACTTCCGGACCCAAAGAGTGCACTGCCCCGAACTGAGGAAGGCGGTGCAGGTGCGGGATCTGGCCGCCTATGACGAGATCTTCGGCATCGACCTCGGGCCAGCAGCCGAAACTGGTCCTAGAGGCGGCGTCATGACCGGGACACCCTCACAGATCGAGTACTACGCCCGGGCCCTGCGCGCACCACGGATCAGCGACGGGTTCCGCCGGCTCGGGGAACAGGCCCGGGACGCCGGCTGGTCCCATGAGGAGTACCCGGCCGCGGTCCTCTCCCGGGAAGTCTCCGAACGCGATGCCTCCGGAGCGGCGACCCGGATCAACCGGCACCCGCATTCTTCGCCGTCGACACAACCGTCCGTGAGACCGCGCGTGCCCGGTTCCTGGCTATGGAAAACCCACTGGAAGAGCTCTTCCCACCCTCCGGGTCGAATCCGGCCAAAAAGGCCGCCGGAAACGGGCCAGGAACATTAA	MLSNNYSVDPSFIGRIVDVVADLDTVWVTHEGVIIATHFPAWTWHLVVTNPIHVARAAVMRRDFRTQRVHCPELRKAVQVRDLAAYDEIFGIDLGPAAETGPRGGVMTGTPSQIEYYARALRAPRISDGFRRLGEQARDAGWSHEEYPAAVLSREVSERDASGAATRINRHPHSSPSTQPSVRPRVPGSWLWKTHWKSSSHPPGRIRPKRPPETGQEH				NA	NA	NA	NA	NA
D1-29_01998	816			hypothetical protein	TTGGATGATTGGGCGGAGATACGCCACCTGTTTTCGACGGGCAAGCACTCGAAGCGGGTGATCGGCAGGATCGTGGGTGTTTCCCGCGGAACGGTGGATCGGGTGCTGGAGTCGGATTGGGCGCCGAAGTATCAGCGGGTGGCGGGTGTGTCGAGTTTTGATGCGTTTGCTCCCAGGGTTCCGGAGTTGTTGGTGAAGACGCCAACGATGCCGGCGGCGACGCTGGCGGAGCGGGTGGGCTGGTCTGATTTCGCGTCCTTGTTCCCGGCCGAGGTCGCGGCGATCCGGCCCGAATACGCGCCGCCGGACCCGGCTGACCGTTTGGTTCACGAGCCGGGGTTACAGGTCCAGTGCGATCTCTGGTTTCCGCACGAGCCGCTGGCTGTCGGTGAGGGCCAGTCCGACACGCCGCCGGTGCTGGTGATGACTTCTGCGTTCTCCGGATTTATCCAGGCCCGGATGCTGCCGTCACGGACGACGCCGGACCTTCTGGGCGGAATGTGGACTCTGCTGCAGAACGCGCAGGCGGTCCCGTCCCGGCTCTTGTGGGACAACGAGTCCGGCAACGGCAGGCGCAAACCGACCGAGCCGGTGGCCGCGTTCGCCGGTTCCCTCGGGCTGGAGATCAAGCTGCTTCCGCCGCGGGATCCGGAGTCCAAGGGCATGGTCGAGCGGATGGACCGCTACTTCCGGCAACGCTTCATGCCGGGCCGGGACTTCCGCTCCCAACGGACTTCAACGCCCAGCTGGAAGACTGGCTGCCCAAGGCCAATCACCGCTACTCCCGGTCCCGCCACGGCCGCCCTGACGAGCTGA	MDDWAEIRHLFSTGKHSKRVIGRIVGVSRGTVDRVLESDWAPKYQRVAGVSSFDAFAPRVPELLVKTPTMPAATLAERVGWSDFASLFPAEVAAIRPEYAPPDPADRLVHEPGLQVQCDLWFPHEPLAVGEGQSDTPPVLVMTSAFSGFIQARMLPSRTTPDLLGGMWTLLQNAQAVPSRLLWDNESGNGRRKPTEPVAAFAGSLGLEIKLLPPRDPESKGMVERMDRYFRQRFMPGRDFRSQRTSTPSWKTGCPRPITATPGPATAALTS				NA	NA	NA	NA	NA
D1-29_01999	312			hypothetical protein	ATGGCATTAAAAGCGGGAAGTCGGCTGCGGAGTCAAGTCTGCAGCACGGAAGTCATAGTGGTCGGTGCACCCTCAACCAGTGTCACACTGACATGTGGCGGGTTTGACATGGTCGCGTTCGGCGACAGCCGCAATGATGCGCTTGCTCCCCTCACGGGCTGGGATGGCGGAAACAGTTTAGGAAAACGCTACACAGAAATCGAAGACAAAGCACTTGAGGTGCTGGTGACCAAGGCCGGCGTCGGCACTCTGGGCAACGGCCACGTTGCGCTCGTGGTCAAGGAATCCAAGCCGCTCCCTTCGAGCGACTGA	MALKAGSRLRSQVCSTEVIVVGAPSTSVTLTCGGFDMVAFGDSRNDALAPLTGWDGGNSLGKRYTEIEDKALEVLVTKAGVGTLGNGHVALVVKESKPLPSSD				NA	NA	NA	NA	NA
D1-29_02000	1497	lcfB_1	COG0318	Long-chain-fatty-acid--CoA ligase	ATGGATCTTGCATTACTGATTGATATGGCGTCAGGTCACGGAGACCGGGTTGTATTAGGTTCGGGGGAATCCGCCATCACAGCGTCGAGGCTCCGCGAACTTGCAGGGGGCGGCGCGGGCGTCCTCACGCAAGCCGGGGCGCAAAACGTAGTCCTGCTGGCACGCAACGGACCTATCGTACCCGTGCTCCTCTTCTCGGGCGCCCTGGCTGGAGTGCCGTTCTCCGCACTCAACTATCGACTGTCTGCCGACCAGATCCGCGAGCAGCTCGCGCGCTTGGACGCTCCCTTCGTGGTCGTCGACGAGGAATACAGGCGGATAGTTGAGGGCAGTGAACACGTCGTCACCGTCGCCGAGTTCTTCGCGCTCGCCGGATCCGCCGAACCTATCGCGACGAGCCCTGCCAGCGACTCCGTCGCTGCCAAGCTATTCACCAGCGGCACGACGTCTAAGCCAAAAATAGTGCCTCTTCGGCACGAGAATCTGTTCGCCTATGTCTCCCAGACAGTCGAGTTCGGCGGGGCTACCGAGAACGAGACTGCGCTGGTTTGCGTTCCTCCGTACCACGTCGCCGCACTCGGTTCCGTTCTGACTAATCTGTATGCCGGGCGACGCGTGGCCTACCTTCCCGACTTCGACGCGAACTCCTGGTTGTCCATGGTCAAGGAAGAAGGTGTGACCTCGGCCATGCTCGTACCCACGATGATCAGTCGCCTCGTGGAAACCCTCGCCGGCGAGCCCGCCGACGCCCCGACGCTGCGACAAATCACCTACGGCGGATCGAAGATGCCGACACCAGTACTGGAACGCGCGCTGCTGGCTTTCCCAGGTTGCGGGTTCGTCAACGCATACGGGCTCACCGAGACCAGCTCGACGATTGCGCTGCTCGGGCCGGATGATCACCGCACGGCACTCGCCAGCTCCGAAGCGCACGTGCGGGCACGCCTTTCGAGCGCAGGCCGTTCGATCCCCGGCATCGAACTTCAGATCCGCGACAGCAAAGACAGTGTGATTACGGACGACGCCACCGGAGAACTCTGGGTGCGCGGAGCGCAGGTCTCCGGCGAGTACCAGGACTCCGGTTCGGTCCTCGACGCGGCCGGCTGGTTTCCCACGAAGGACCGCGCGTGGATGGACAGTGAGGGCTACCTCTTCGTTGAGGGTCGCACCGACGATGTCATCATCCGCGGCGGCGAAAACATCGCTCCTGCTGAGATCGAAGATGTCCTTCTCCGCCACCCCGGCATCCTCGAGGCCGCGGTGGTCGGCACGCCTGACGACGAGTGGGGCGAACGCATCGTAGCTGTCGTTGTAGCGCGCGAAGGACACTTCCTGACTGAGAGCGACGTACGTGAGTGGGCGCGCGCCCGTATCCGTGGCTCTCGCACACCCGATGACGTGGTATGGCGGAACGAACTCCCACATACGGCAACTGGAAAGTTGCTCCGAAGGGAACTCGTCGCCGAAATTGCCAGCCGCTCGGCAGCCGGTGCGTAA	MDLALLIDMASGHGDRVVLGSGESAITASRLRELAGGGAGVLTQAGAQNVVLLARNGPIVPVLLFSGALAGVPFSALNYRLSADQIREQLARLDAPFVVVDEEYRRIVEGSEHVVTVAEFFALAGSAEPIATSPASDSVAAKLFTSGTTSKPKIVPLRHENLFAYVSQTVEFGGATENETALVCVPPYHVAALGSVLTNLYAGRRVAYLPDFDANSWLSMVKEEGVTSAMLVPTMISRLVETLAGEPADAPTLRQITYGGSKMPTPVLERALLAFPGCGFVNAYGLTETSSTIALLGPDDHRTALASSEAHVRARLSSAGRSIPGIELQIRDSKDSVITDDATGELWVRGAQVSGEYQDSGSVLDAAGWFPTKDRAWMDSEGYLFVEGRTDDVIIRGGENIAPAEIEDVLLRHPGILEAAVVGTPDDEWGERIVAVVVAREGHFLTESDVREWARARIRGSRTPDDVVWRNELPHTATGKLLRRELVAEIASRSAAGA	PGPT0008380_15075	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-29_02001	1098	gloB_2		Hydroxyacylglutathione hydrolase	ATGCAAATGTTGCCCTTGTGTTCAAATAGTCAAATGAACGAATCCCACACAGCCATCCGTGACACACCTCTTCAGCGAACGGTGAGCGGGGGCGCTGTTCCGACCTCACGTCGTCAGGTCGAGGCATGGGTTGAGCGCCGACAGCCCCCAGTCGAACGGGTCGCGGAGCAGGTATGGAGCATCCCGGTGGACTGTGCAGAGTTCCCTGTGGCCTACACGCTCGCTTACGTCCTCGTCGGAAACGATGGTGGCTTCATCATCATCGACCCCGGATGGACCAGCGCTGCTGGGCGCGCCGACCTGCAGGCGGGACTTCGCATGGCCGGTCTCGCGGAGAACGACCTCCAAGGCATCGTCGTTACTCATTCGCACGCGGATCATTATGGACTGGCCCCTGAGCTGGCCGACCGTACTGGTTCTTGGATCGCCGGGCATCCGGCTGAGATTCCGGAGGACCAGTTCCACCGGGAGGTCACAAGGATCGTCCAGTCCAATCGGGACGTGATGCAGGCGCTCGGAGTGCCGCTCGTCGACCTGGATCGGGTGACCTTCGCTCCTGAGGACCTCAAAAGGTACGTTCCCGACCGTGTTGTAGACCGCGAGCTGCTCGATGGCGATCTCCTGCCGCTCGCTGGCCGGGAAGTGCGGGCTATCTGGACGCCGGGTCACACTCGCGGTCACCTGAGTTTCATCGACCTCGACAACTGCCTGCTGTTCACCGGTGACCACGTCCTGCCGCGAATCTCTCCGAACATTGGACTCCTGCAAGAATTCGAAGTCGAGCATGACCCTGTTGGTGACTACCTGGTGTCGCTTGAGCGGCTGCGCCCCTGGAGCGATTACGAGGCATGCCCGGCTCACGAGTACCGATTCACGGAACTGGCGCAACGGCTCGACGAACTTCGCGACCATACGCACGGGCGCTCGAACCAGGTCGCCGCCGTGCTTGCGGGTGACCCTGGGGCGAGCGTCTGGGAGGTCGCCCAGCGACTGACGTGGTCCCGGGGTTGGGACGCTCTCGACGGCTCAAACCTCCAGGCCGCGCTCGGTGAGACGAACGCGCACGTCCGTCATGTCAGACTTATCGCGGAGTCCTAG	MQMLPLCSNSQMNESHTAIRDTPLQRTVSGGAVPTSRRQVEAWVERRQPPVERVAEQVWSIPVDCAEFPVAYTLAYVLVGNDGGFIIIDPGWTSAAGRADLQAGLRMAGLAENDLQGIVVTHSHADHYGLAPELADRTGSWIAGHPAEIPEDQFHREVTRIVQSNRDVMQALGVPLVDLDRVTFAPEDLKRYVPDRVVDRELLDGDLLPLAGREVRAIWTPGHTRGHLSFIDLDNCLLFTGDHVLPRISPNIGLLQEFEVEHDPVGDYLVSLERLRPWSDYEACPAHEYRFTELAQRLDELRDHTHGRSNQVAAVLAGDPGASVWEVAQRLTWSRGWDALDGSNLQAALGETNAHVRHVRLIAES				NA	NA	NA	NA	NA
D1-29_02002	756	fcbB2		4-chlorobenzoyl coenzyme A dehalogenase-2	ATGGCCGGCATCCGCGTGGAACGGGGTTCGTCGTTTTCGCGCATCGTGCTCAGTCGGCCCGACGAGGGCAATGCGCTCGACATCGCGCTGGCTCGCGATCTGCGGGACGCCGTACAGGAACTGTCGCGCGACAGCGGCCACATACTGGTTCTGTCAGCTGAGGGCCGGCTGTTCTGCGGCGGCGGCGATCTCGCAGCAACTAATGCTGCCCCCTCCCCCGCTGAGTACATCAATGAGCTTGCTGCGACCATGCACGAAGCCATCCTCGCCCTCGCCGAGTCCGATCTCATCGTCGTGGCCTCCGTTCAGGGTTCCGCCGCCGGCGGCGGACTCGGGCTCGTACTCAACGCCGACTACGTCGTTGCGAGCGAGAAGGCGAGCTTCCTCAGCGCCTACTCCGCCGTCGGTCTGAGCCCCGACTGTGGAGCCTCGTACCTCCTGCCGCGTGTCGTCGGCTTGCGGCGGGCAAGCGAGGTCCTCCTGGCGAAGCGCACGCTGGACGCGGCCACTGCCCTCGACTGGGGGCTCGTTAACCACGTAGCCTCTGCCGATGAGCTGGAGACAGCAACGATCCAAGCAGTCAATACGATCGCCACTCAGCCAGCGCCCGCACGTGCTGCTGCAAAGCGACTCCTGGCTCAGAACTGGATCGACGGCTACAGCACCCACCTCGATCGAGAGCAGACCTCCATCGCTCGGCTTACCGCATCCAAGGAGTCAACCGCTTTGCGGGACGCCTTCGTACGCAAGGGTTAA	MAGIRVERGSSFSRIVLSRPDEGNALDIALARDLRDAVQELSRDSGHILVLSAEGRLFCGGGDLAATNAAPSPAEYINELAATMHEAILALAESDLIVVASVQGSAAGGGLGLVLNADYVVASEKASFLSAYSAVGLSPDCGASYLLPRVVGLRRASEVLLAKRTLDAATALDWGLVNHVASADELETATIQAVNTIATQPAPARAAAKRLLAQNWIDGYSTHLDREQTSIARLTASKESTALRDAFVRKG	PGPT0006070_2952	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866	NA	NA
D1-29_02003	978		COG2070	NADH:quinone reductase	GTGATCACAAACGATTTCACTCGAACATTCGGGGTAAAGCACCCCATAACCTGCGGCGGCATGACCGGCGTAGGTACCGCACCGTTGATCGCGGCGGTGGCCAACGCGGGAGCCATGGGCTTCCTGACTGCCCTCACGCAGCCCACCCCCGAGGACCTTGTGCGAGAGATTCAGCGCACTCGCGATCTCACGGACGCTCCCTTCGGCGTCAACCTCACAATCCTCCCAACGATCCGCCCGGTGCCCTATGACGAATACCGTAGGGCGATCATTGAAAGCAAGATCCCCTTCGTCGAGACCGCAGGGAGCAACCCCGAGCCACATATGGCCGATTTCAAAGCTGCAGGGGTCAAGGTTCTGCACAAGGCCGTCTCCGTGCGCCACGCCGTCAAGGCGGAGGAGGTCGGGGTCGATGCACTCAGCATCGACGGGTTCGAGTGCGCCGGTCACCCGGGCGAGGACGATGTGCCTGGTCTGGTGCTGATCCCGGCCGCGGCCCGGGTGCTGAAGATCCCATTCATCGCATCCGGCGGTTTTGCCACCGGACGCGGTCTCGCGGCGGCACTCTCCCTCGGTGCCAGCGGCATCAACATGGGCACACGGTTTGTAGCGACCCACGAAGCCCCGGTCCACGAGAACGTCAAAAAACAGATCGTCGCGAACAACGAGCGCGACACAGTGCTCGTCTTCCGGATGTTCAAGAACACCGCCCGGGTCGCCCGCAACTCGATCTCTGAGGAGATCCTCGAAATCTCGTCGAAGCCAGGCGCGACCTTCGAGGACATCGCCCACCTAGCGTCCGGCGTCCGCGGTCGCGATCGCGTTCTCGGCGGCGGAGAAATGGAAGATGGTCTGTGGTGGGGAGGCCAGTCGCAGGGACTGATCGACGAGGTGCTCAGCGCCCGCGAGGTTGTAGACTCCATCGTCGCGGAGGCGGAGGACGTCATCACCCGCCTTCTGGCGAATCAGGTCGCCTGA	MITNDFTRTFGVKHPITCGGMTGVGTAPLIAAVANAGAMGFLTALTQPTPEDLVREIQRTRDLTDAPFGVNLTILPTIRPVPYDEYRRAIIESKIPFVETAGSNPEPHMADFKAAGVKVLHKAVSVRHAVKAEEVGVDALSIDGFECAGHPGEDDVPGLVLIPAAARVLKIPFIASGGFATGRGLAAALSLGASGINMGTRFVATHEAPVHENVKKQIVANNERDTVLVFRMFKNTARVARNSISEEILEISSKPGATFEDIAHLASGVRGRDRVLGGGEMEDGLWWGGQSQGLIDEVLSAREVVDSIVAEAEDVITRLLANQVA	PGPT0006800_3585	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
D1-29_02004	636			hypothetical protein	ATGCGTGAGGCAACACTGCGAGCCGCCGGCTCTGGTAAAGTCGGCCCCAAGATGACTACCACGCCTAAGATCCTTCCCATCCGTCAGCGCCAGCGGGAGATGACGAGAGACGCTATTCTCGCAGCGGCCCTGGATGCATTTAGCGAGCAGGGCTTCTTCTTCGTGTCGATCGACGACATCGTTCAAAGAGCGGGAATCAGCCGGACGACGTTTTATTTGCACTTCACGGACAAATCCGCCGCACTTCGCGCACTGCGGGACAAGCGACTTGCGGAATGGGGGGAGTCTGACAGTTATGAATGGATAAAGGACCAAGAGTCGGCTGAAGCGTTCTTCACAAAGATGGTCGACTTCTATCTGGAAACGCCGGAACTGCACAAAACCCTCCACCAAGCTCGTGCGGCCGATCCTGAATTTGCAGCAGCGCATCAGCAGTCCATGGAGGAACAGCTGGCGCTGCTCGCAGAGAACCCGGCCATGCGGGATGCGACCGAGGAACAACGTCGGATGGCAATCGCAATGCTCTATTCGATGATCGATCACTTCCTCTACGTATGGTTGATCCAGGGTTGGAAACTCGATCGTTCGCAAGCCATCAAAGCTATGGCAAACGCGATGTCCGGAGTCCTGACCTAA	MREATLRAAGSGKVGPKMTTTPKILPIRQRQREMTRDAILAAALDAFSEQGFFFVSIDDIVQRAGISRTTFYLHFTDKSAALRALRDKRLAEWGESDSYEWIKDQESAEAFFTKMVDFYLETPELHKTLHQARAADPEFAAAHQQSMEEQLALLAENPAMRDATEEQRRMAIAMLYSMIDHFLYVWLIQGWKLDRSQAIKAMANAMSGVLT				NA	NA	NA	NA	NA
D1-29_02005	954	menB_2		1,4-dihydroxy-2-naphthoyl-CoA synthase	ATGACCCAGGAATCACCCTCAGCAGAGGAAATTGTCCTCTATGACAAAGACCCCGCTACGAAGATAGCGACCATAACCTTGGCGCGGCCGGAGCGACTAAATGCTCCGACCGTCGCGGCCCGTCACCGCTATGCCGACCTTATCCACAAGGCCAACATCGACGACGACGTGAAAGTTCTCGTCATTCGTGGCCTTGGCGATGATTTTGGCAGCGGAGTCGATCTTCCCGACTTCATGGACGGCCTCAATGGCGATGATGCGGAGCGCCTGAAGGAATTCCGGATCGAGGACGATGACGTGCGGTACCCCCCGGTCGGCACCTACCGCAATCAAGGAAATTTCGGCCCCTGGCTTGCCAACCCGGCATCGGGTGCGCGCTCACTGCAGGAGTTCCAGAAAATCAGCATCGTCGAGGTCAAGGGCTATTGCTACGGATGGCACTTCTACCAGGCTGCCGACGCCGACCTTGTCATCTCCGCCGATGACGGTCTGTTCGGCCACGCGTCGTTCCGCTACGCCGGGTGGGGCCCGCGCATGTGGACGTGGGCCATGACCATGGGCCTCCGCAAGTTCCAGGAGATGGTCTTCACAGGCCGCCCGTTCACCGCCCAAGAAATGTACGACTGCGACTTCGTCAACAAGGTGGTGCCTCGCGACAAACTCGAGGAGGAGGTCGCCACCTACGCGTCAGCATGCGCCCGAACACGCCCAACCGACACAGTGCACATCCAGAAGATGTTTTTCCAGATATTCAAGCAGTACCAAGGCGAGTACATGGGCAGTCTCCTGACAGGAATGATTGAATCAATGGGCAGCATGGTCAAGCCTGACGCAGCCGACTTTAAGCTCGACGCCGATATGCTCGAGCGCGGCCTCGGCAACTCGGTGAAGGAGAACGATCTGCAGTTCCCACCCTCGTTCCGCATGAGCAAGAAAGGCCGTCAGCAGCCGTGA	MTQESPSAEEIVLYDKDPATKIATITLARPERLNAPTVAARHRYADLIHKANIDDDVKVLVIRGLGDDFGSGVDLPDFMDGLNGDDAERLKEFRIEDDDVRYPPVGTYRNQGNFGPWLANPASGARSLQEFQKISIVEVKGYCYGWHFYQAADADLVISADDGLFGHASFRYAGWGPRMWTWAMTMGLRKFQEMVFTGRPFTAQEMYDCDFVNKVVPRDKLEEEVATYASACARTRPTDTVHIQKMFFQIFKQYQGEYMGSLLTGMIESMGSMVKPDAADFKLDADMLERGLGNSVKENDLQFPPSFRMSKKGRQQP	PGPT0001860_1099	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
D1-29_02006	2451	frc		Formyl-CoA:oxalate CoA-transferase	ATGACGACCCAGAACACGGCTCCAGCCACCGAACCTTCGATCGGGCGGGGTCGGCCGCCGCTAACGGGCAGGGTCATCCTGGACCTCTCAGGGGGAATAGCAGGGGCATACTGCTCAAAACTGCTCAGCGATGCGGGAGCTACCGTCGTGAAGGTCGAAGCGCCAGAGGGTACCGCGTTGCGTCGCTGGAGCGCCTCGCGCACCAAAATCGAGCCAGGTAACGACGGCGTGCTGTTCTCATACCTTGCGCAGGGCGCGCAGAGCGTCATTATCGATCCTGATTCCCCCCAAGCACTCCACCTTCTCGACGCTCTGATCGGTCTGTCCGACGCCATCGTGTGGTCGCCGGGCTCACCCATCGCAGACCTCCGCGGTGCGTCGGCCAAAGAACTGCGCCAGCGGCACCCGGACTCCATAATCGCTTCGATCACGAATTTCGGTTTAGAAGGCCCTTGGCACGACCGGGCAGCGACAGAGTTTACCCTGCAGGCCTGGTCCGGCGCGATCATTGGCCTGGGTCGTGGTGCGAGCGATCGGGCACCTTTTTATGTCGGTGGACAAATCGGCGAGTGGGTCAGCGGAGCCTACGCCGCCGTCGCAATCATGAGCTCTTGGGCCGAGAAGAAGGTGACCGGACAAGGGTCGCTAATCGACCATTCGATCCTCGAGGCGCTCACGCTCTGCCTCACCTACTATCCGGTCACCTTCCTGGAGGTCATGGGCCGACCGTGGCGCGACAGCCGAACCCTCGTTGTGCCTGGAGTGTCTCAAGCGAAAGACGGGCTCATCGGAATCGCCTGCGGGACCCTTCAGCAGCGCAATGATTTGTACGTCATGGTGGACCACCCGGAGTGGATTATCGACGATGCCTTAATGACCCGGCAGGACGAAGTCAGTGCCATCTTCAATGATTGGATCGCGGAACGCACGGTAGCCGAGGTTCGAGAACTCGCTAGCGCATTCCGGATTCCGCACGCTCCCGTCGGCAACGGCGCAACGATTCCCGAGAGTGATCATTTCAGGGCGCGCAATGTGTTCGTTGACAGCCCGGACGGCCGTTTCGTACAGCCCCGCCCCTCGTACCGTCCATCGTCCTTCACCTTGCGCGAGCCTACGCTCGCCCCCGCGCTCGGTGCGGACACGGAGTACTGGCTGTCTCGTGCCAAACTGCCAACGGCCAGGTCCTCGCAAGCGGCCGATGGCTCGACGGCTCTTCCTTTCGCGGGCTTGCGCGTACTGGACCTGACCGCATTCTGGGCAGGACCTTCCTGCACCCACGCGCTCGCGCTGATGGGTGCCGAAGTCATTCACCTCGAATCCACGCGGCGTCCCGATGGTGGGCGCCTCGTCGCTGGTGTGCGCGAAGGCGGACCGTGGTGGGAGCACTCGCCCATCCATCTGGGCGGCAACGCGGGCAAGAAAAGCGTGACCATCAACTTCCAGACCGACGAAGGCCGGGATCTGCTCAGGGAACTTGTCGCCACCGCGGACGTGTTGGTCGAGAACTTCACTCCTCGGGTGCTCGACCACGCCGGCTTCGGCTTTGATGCCCTGCGCGAGATCAACCCAAGGCTCATCATGCTGCGCATGCCCGGATTCGGGCTTGAGGGCCCGTGGCGTGACGTTCCAGCGTTTGCATATGCAATCGAAGACGGTGGAGCGTTGACCTGGCTCACCGGGTACGAAGACCAGAAGCCGGTTGAGCCGTACTGCATCGGAGATCCCAACGCCGGCGTCCACGCACTATTCGCACTGCTGGTTGCCCTTGAAAACCGGGAACAGACCGGAGAGGGGGCCCTCGTAGAGGCAGCTATGATCGATGCTGCCGTGAATCTCGCCGCGGAGCAGTTCCTGGAGTACTCAGCAAACGGAATCCTCCTGACCAGGGCCGGCAATAAAGGCCCAGTGTCCGCGCCCCAGAATCTCTACCCAACATCGGAGATTGACGAGTTTGGGCGCCACGATGTTTGGATTGCCCTGGCGGTGAGCAATGACGGGCAGTGGCAGGCTCTTCGCACCGCCCTTGGTGACCCATCATGGGCGCAGGATCCAACATTTTCCACAGCAGCGGGTAGACACGCCGCTCACAAAGTGATCGACGAAGCCCTCACTGCCTGGTGCGAGACACAAACTGCTGCCGACATCGTAGACCTGCTCTGGCCCGCGGGTGTCCCCGTGGCACGCGTCATGCAGCCACACCGGCAGATCGAGATCCCTCAATACGAGGCGCGTCAGTTTTTCGAAGTCGTGGACCACCCTGTTGTCGGCACCTTCCACCAGAGCACCCTTCCGTTCCGATGGAGCAGCCGCCCGGATCAGCTGACCCTCAAGTCGGCGCCTCTTCTCGGCGAGGACAACGACTCCGTTTTCGCTTCTCTCGGCATCACAGAAACCAAGCTTGCCGAGCTCGAAGCTCTCGACGTCATCGGGCGGGCACCCGCCTCCGCCTAA	MTTQNTAPATEPSIGRGRPPLTGRVILDLSGGIAGAYCSKLLSDAGATVVKVEAPEGTALRRWSASRTKIEPGNDGVLFSYLAQGAQSVIIDPDSPQALHLLDALIGLSDAIVWSPGSPIADLRGASAKELRQRHPDSIIASITNFGLEGPWHDRAATEFTLQAWSGAIIGLGRGASDRAPFYVGGQIGEWVSGAYAAVAIMSSWAEKKVTGQGSLIDHSILEALTLCLTYYPVTFLEVMGRPWRDSRTLVVPGVSQAKDGLIGIACGTLQQRNDLYVMVDHPEWIIDDALMTRQDEVSAIFNDWIAERTVAEVRELASAFRIPHAPVGNGATIPESDHFRARNVFVDSPDGRFVQPRPSYRPSSFTLREPTLAPALGADTEYWLSRAKLPTARSSQAADGSTALPFAGLRVLDLTAFWAGPSCTHALALMGAEVIHLESTRRPDGGRLVAGVREGGPWWEHSPIHLGGNAGKKSVTINFQTDEGRDLLRELVATADVLVENFTPRVLDHAGFGFDALREINPRLIMLRMPGFGLEGPWRDVPAFAYAIEDGGALTWLTGYEDQKPVEPYCIGDPNAGVHALFALLVALENREQTGEGALVEAAMIDAAVNLAAEQFLEYSANGILLTRAGNKGPVSAPQNLYPTSEIDEFGRHDVWIALAVSNDGQWQALRTALGDPSWAQDPTFSTAAGRHAAHKVIDEALTAWCETQTAADIVDLLWPAGVPVARVMQPHRQIEIPQYEARQFFEVVDHPVVGTFHQSTLPFRWSSRPDQLTLKSAPLLGEDNDSVFASLGITETKLAELEALDVIGRAPASA				NA	NA	NA	NA	NA
D1-29_02007	1521	ddpA_1	COG0747	putative D,D-dipeptide-binding periplasmic protein DdpA	GTGACTGCAAATAAAGGTGCCGCCGTGTTTTCGATGGTTGCTGCTTTGGCGCTGGCCGGATGTTCGGCCAGTCCTCAGCCGGAGGCGTCGTCGGGAGCAGGTGATCAGACACTGGTCTACGGTAATTCCGTCCCGCCGAATAACCTCGACCCCCACAAGTCGCTCTACAGCGCCGACTGCCTGATGCTATGCGCGATCTATGACCGACTGGTGCACGTGGATTCTGAAGGCAAGCTCATCCCGGGACTTGCCGAGTCGTGGACGTTCAGCGACGACGCACTCTCGCTTAATCTGAAGATCCGAGAGGGCGTGACGTTCGCCGACGGCATGAAGCTCGACGCGGTAGGTGTCAAGGCGAACCTCGACCGTATTCGCACTCTACCGGGCGCACCCGGCGGCCGTGACCTGGCCATGGTGACCGATGTAGCAGTGACTGACCCGCAGACAGTGACCCTGGCTCTGTCGCAGCCGTACGCGTCGCTGCCGGGCATCCTCTCGGGCCTTGCTGGCGCAATCATCAACCCGGCCGCTCTCGCTAAAGGAACCGACCTGAGCGCGACCCCTGATGGGGCTGGCGCATATCGCTTCCAGTCCTACACCCCGGGCAGCGAGCTCAATCTGGTCCGCAACGACGACTACTGGGGTAACACGCCGCAGCTCGCTGGTCTGAACTTCAAGTTCATCTCTGATTCCGCAGCTATCGCCAATTCCCTACAGGCCGGACAGATCGATGTGGCGCACATCGTGCCGCAGAACCTCAAACAGTTCGAAGACAACCCGTCGTTCACCGTGAAGGAGGTGACGACGCTGTACCAGTACGCGCTCATCACCAACTTTGCGTTGGCCGGTCTGGAGGACGTACGGGCGCGTCAGGCGGTGCTTCATGGCATTGACCGCGAGAGTATCTGCGCACAGATCGCCAAGGGCCAATGCGCGGTTTCGGACCAGCCCTTCCCGGAAGGCTACTTCGCCAACGACCCGTCGATCGACCAGGTACTCTACCCGTTCGATCCCGAAAAGGCGCGCTCCCTGCTGGCCGAGGCCGGCGTCAAGGATCTGAGCCTCAGTGCGGTCGTGCCCGGCCAACAGTTTATGGCGCTGGCCCAGGCCATTCAGGCTCAGCTGGGCGAAATCGGAGTTGAGCTCAAGCTCGAAATGGTCGATGGTAACGCGATGGCGCAGAGGGCGTTTGTTGATAAGACGTCGGACATGGTCATCACCGCCTTCGGTGGCCGCCCCGACCCCGCCCAGCTGTTCACGGTCCGATACAGTGCGGCCGGCTTCTACAACCCTGGTGGCTTCACGACGGACACGATGGAGAAGCTGCTCAAGGAGTCCCAGGCCACAACCGACAAGGGCAAGCGTGACTCGCTTCTTCAGGCCGGTTCGCGCGAAGCCGCCGAGTCCGCACTCAGCATGATGCTCTACGCGCCGACAGAAGCCTATGTGATGAAGAACGGCGTGGACTTCCAGCCGTACGTCACAGGCACTCACGAATTCCCCTCAGTCACGAAGAAGTAA	MTANKGAAVFSMVAALALAGCSASPQPEASSGAGDQTLVYGNSVPPNNLDPHKSLYSADCLMLCAIYDRLVHVDSEGKLIPGLAESWTFSDDALSLNLKIREGVTFADGMKLDAVGVKANLDRIRTLPGAPGGRDLAMVTDVAVTDPQTVTLALSQPYASLPGILSGLAGAIINPAALAKGTDLSATPDGAGAYRFQSYTPGSELNLVRNDDYWGNTPQLAGLNFKFISDSAAIANSLQAGQIDVAHIVPQNLKQFEDNPSFTVKEVTTLYQYALITNFALAGLEDVRARQAVLHGIDRESICAQIAKGQCAVSDQPFPEGYFANDPSIDQVLYPFDPEKARSLLAEAGVKDLSLSAVVPGQQFMALAQAIQAQLGEIGVELKLEMVDGNAMAQRAFVDKTSDMVITAFGGRPDPAQLFTVRYSAAGFYNPGGFTTDTMEKLLKESQATTDKGKRDSLLQAGSREAAESALSMMLYAPTEAYVMKNGVDFQPYVTGTHEFPSVTKK				NA	NA	NA	NA	NA
D1-29_02008	420	ohrB	COG1764	Organic hydroperoxide resistance protein OhrB	ATGACAGCCATCTATACAGCAGAAGCTATTGCAACAGGAGCCGGTCGCAATGGACGTGCCCGGACGGACGACGGACTGCTGGACATCCAGCTGGCCGCTCCGCACGCCCTCGGCGGTTCTGGTGGCGGGCATAACCCTGAGCAGCTCTTTGCTGCCGGCTACGCTGCCTGCTTCCACTCCGCCCTCCATTTCGTAGCCCGAACCCTAAAGACCGACTTGGGCGACTCAAGCGTCGCCGCAAAAGTTGGTCTTGTCCGTGAAGGAAACGCTTTCGGGCTCGAGGTAGACCTTGAAGTTGTCATTCCGACTATGACCCAGAGCGAGGCGAAGTCCCTGGCCGAGGAAGCCCATCAGGTCTGCCCCTACAGCAATGCCATCCGCGGAAACATCGAGGTCAACATCACCGTCCCTGACGACTAA	MTAIYTAEAIATGAGRNGRARTDDGLLDIQLAAPHALGGSGGGHNPEQLFAAGYAACFHSALHFVARTLKTDLGDSSVAAKVGLVREGNAFGLEVDLEVVIPTMTQSEAKSLAEEAHQVCPYSNAIRGNIEVNITVPDD	PGPT0013160_2793	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
D1-29_02009	177			hypothetical protein	GTGAGCGGCCCGAGTCACGACGCCGTCCGCCAACTCGCCGCTCACCTTTTTGGGGAACGGGGATACCGCACTGTCACGGTGCGCGATATCGCTTCAGAAGCAGGTGTTTCGGCGGCCTTGGTCATGAAACTTTTCGTTTCCAATGAGAAGCTCTTTGCTGCCGTGCAGCCAGGATGA	MSGPSHDAVRQLAAHLFGERGYRTVTVRDIASEAGVSAALVMKLFVSNEKLFAAVQPG				NA	NA	NA	NA	NA
D1-29_02010	294			hypothetical protein	GTGCGGGACCGGCTTGTGATGGGCGGCGCAGGCACCACCTCGGGCGGTGAGGAATTCGCCGCCGCCGTGATGACCCTGCTTGAAGCCAGCGGCGGGTATACGCCAGCGCCCGGACAGAGGACGACGGCGCGTTTGCCTTTCCGCTCCCCCGCAGGCCGCTCTTTAGTCATCATGTCCCATCCAATGATGGAGCAGGCGATCGCGCGGAAGCTAGCGGTGGACAACCGCCTGATTACCCTGGACCTCGACGCGCCAGGCGTCGAGCAAAGCTCCGAAGAGCCGGTGGGAGCGTGA	MRDRLVMGGAGTTSGGEEFAAAVMTLLEASGGYTPAPGQRTTARLPFRSPAGRSLVIMSHPMMEQAIARKLAVDNRLITLDLDAPGVEQSSEEPVGA				NA	NA	NA	NA	NA
D1-29_02011	1803			Ferredoxin--NADP reductase	ATGCGAGATATCAACCACAGTGCCGGGATCTGGCTAGCCGAGCTTGAGAGGGCGCTTAAAGGGCGTAACAATGATCTCTTTGAAAGCCTGTTCGCGGAGAACGCCATGTGGCGCGACCTCCTGTCATTCACCTTCAACATCCGTCAGTTCCACGACAGGGACGCCATTGCGAATTATTTTTGGACAACCGCCGACGAGTTGGAGCCATCGAATTTCACGATCGACGCGAACTTTCCGGTTGAGCCCGTTTCCGAGGTTCCCTTCTCTTTGACGGAGACGTTCGAGATCGACTTCACATTCGAGACGACTGCAGGCTTCAGCGACGGCCTGGTGCACGTCGTTCCTGACCCGACGTCTCCAGGGGGCCTGCGGGCCGTGCTCCTTCTGACGCGTCTGCAGTCTCTTCGCGATCTTCCGCCGGTCTGGCCGAAGTTTGGTCGGTACAACCAGTTGGAGCTTGAGAACGAGAGGAAGGTACTCGAGCAGCGCAAAACTTATTCACAGGGTGAGCCCGAGGTACTTATCGTTGGGGCGGGTCACAACGGCGTATTCGTCGCTGCCGCGTTGGCGAGGCTTGGAATCGATGCGCTGATCGTCGACAAGCACGAGCGGGCGGGTGACAGTTGGCGAAAGCGTTACGACTCGCTGGTGTTACACATGCCGCACGGAATGATGCAGTTTCTTCACCTGCCCTTCCCGGACAGCTTTCCTGACTACATTTCAAAGGATCGTCTCGCCGATTGGTATGAGGTGTACGTCAATGCTCTTGACCTCAACCTCTGGACCTCGACTGAATTTGTGCATGGCGAGTACGATGAGGACGCGCAGCAGTGGTCTGCAACCGTCCGTCAGGCCGATGGCACCGACAGGACCTTCCGCCCCAAATATCTCGTCCTTGCCACGGGTGGTAGCGGGACACCCCGGATCCCCGACCTTCCCGGCCTGCAGGATTTCACGGGCCCCGTCACTCACAGCCACAGTTTCCGCTCCGGAGCGGACTTCGCCGGAAAGAACGTGTTGGTAGTGGGAACCGGAACCAGTGCGCACGACATCGCATTCGACATCGTCAACCACGATGGAAAGTCGACGTTGCTACAGCGCGGGGCAACCTTCGTCGTCGACCTTCCGTCGGCCAACCTCAACTACGGCCCTTTCAACACCAGGAGTGTGCCGACAGATGTGGTGGACAAGCGCTGGCTCGTGACCCAGATCAAGCCACTCATGCTCGAAAATTTCAAACGCGTCACCGCAATGGGCAATGAGCTGGACAAAGAATTACACGAGCAGGTTGAGAAGGCGGGTCTCGTTCTGGACAAGTCGGAGTACGGTTTCTTCGCGAAGTACTTCGAAGTCGCCGGCGGCTACTACATCAACGTCGGGGCGTCTCAGGCGATGATCCGCGGTGACATCAAGGTCGAGCAGTTCTCAAACGTAGATCGTTTCGTCGGCGACGGTATCCGGTTAAACAGTGGCGAAGTGCGCAAATTCGACGCGATAGTTCTCGCCACCGGCTATGAAAATCAGCGTGTTATCCTCGAGCGCTTCTTCGGTTCCGAGGTCGCCGAGCGAATCGGCGACGTCGCCGGCTATGACGCCGGAGGCGACCCCGAACGCAACCAGTACAAGCCGATCGCGGCCCAGCCGCGCCTGGCGATTGCCGGAAGCGGCATCTCGGCCGGGCGCTGGTATGCGCCGCTGGTGGCCCTGGAGATCCAAGCAGAGTTCGAGGGACGAATACCTGAGTCATTCAAGGCGGCAGGCCACCCCAGCCAGATCCCCACGGAGGCGCTAACTACAAGTTAG	MRDINHSAGIWLAELERALKGRNNDLFESLFAENAMWRDLLSFTFNIRQFHDRDAIANYFWTTADELEPSNFTIDANFPVEPVSEVPFSLTETFEIDFTFETTAGFSDGLVHVVPDPTSPGGLRAVLLLTRLQSLRDLPPVWPKFGRYNQLELENERKVLEQRKTYSQGEPEVLIVGAGHNGVFVAAALARLGIDALIVDKHERAGDSWRKRYDSLVLHMPHGMMQFLHLPFPDSFPDYISKDRLADWYEVYVNALDLNLWTSTEFVHGEYDEDAQQWSATVRQADGTDRTFRPKYLVLATGGSGTPRIPDLPGLQDFTGPVTHSHSFRSGADFAGKNVLVVGTGTSAHDIAFDIVNHDGKSTLLQRGATFVVDLPSANLNYGPFNTRSVPTDVVDKRWLVTQIKPLMLENFKRVTAMGNELDKELHEQVEKAGLVLDKSEYGFFAKYFEVAGGYYINVGASQAMIRGDIKVEQFSNVDRFVGDGIRLNSGEVRKFDAIVLATGYENQRVILERFFGSEVAERIGDVAGYDAGGDPERNQYKPIAAQPRLAIAGSGISAGRWYAPLVALEIQAEFEGRIPESFKAAGHPSQIPTEALTTS				NA	NA	NA	NA	NA
D1-29_02012	933			hypothetical protein	GTGAGGCCAGAGGCGACCGATTGCCTGAAATGGCAGTTTCGGCTGCTCGGACTCACTCGCCCTCCCTACACACAGATTGGAAAGCAATTGCGTATCGGCAACATTGAAGTTACCTCCGTAATCGACGGGGAGATCGTCATTCCGACGGAGCAATACTACGCCGGCCACACCAATGGCGAATGGGGCGATTTTTCCTTCAGCCTCTGTCATTCCACCAATAATCCCGTGCAGACGGTCGGGAGCTTTCTCATAGAGGGCATCGGGGATCGGTTGATACTCGTAGATGCAGGAGTCGGCAACAACCCCACCTTCCCTTTCTCCGGCGGCGCACTGCGCTCCGGATTACTGGCGAAGGGCGTCCGGCCCGACGACATCACTGATGTCTTGTTCACTCACCTGCATTTCGACCACATTGGCTGGGCGTCACTGAACGGCAAGCCCTTTTTCAAGAACGCAACCTATCGCTGTGATCAGCGAGACTGGGAGTACTTCATGGCGCCCGGGTACGAGATTCCTGAGTGGGAGCACGTGCTGGCGAAGCCGGAATTCGATGCCCCCCAGCCTCGCCTCGGACCGATCGCAGACAGGATGGAGTTCTGGAATGGAGACTCCGGGCTCTTTCCCGGGCTTGAAACCGTTGACGCGGCCGGCCACACGCCCGGGACCTCCTTGATTCGGCTCAAGGACGGCGGCGAAGAGGGTCTGATCCTCGGTGACCTCGTGCATGGCTACCCGGAACTACTTGAGGACCAGGAGTGGACGCTGTGGGCCCATAAGGATGGTGAGGCCGCAGCAGCCCAGATCGTCGACGTCCGCAAGGAATTAATCGACAACCGTACTCCATTCGTCGCGTCGCACGTACCGGGCATGCGGTGGGGGCGTTTCAGCAGAGATGAGTCGAGAAAGCAGACCTTCGAGCTCCTGCCAGCTTAG	MRPEATDCLKWQFRLLGLTRPPYTQIGKQLRIGNIEVTSVIDGEIVIPTEQYYAGHTNGEWGDFSFSLCHSTNNPVQTVGSFLIEGIGDRLILVDAGVGNNPTFPFSGGALRSGLLAKGVRPDDITDVLFTHLHFDHIGWASLNGKPFFKNATYRCDQRDWEYFMAPGYEIPEWEHVLAKPEFDAPQPRLGPIADRMEFWNGDSGLFPGLETVDAAGHTPGTSLIRLKDGGEEGLILGDLVHGYPELLEDQEWTLWAHKDGEAAAAQIVDVRKELIDNRTPFVASHVPGMRWGRFSRDESRKQTFELLPA				NA	NA	NA	NA	NA
D1-29_02013	738	novJ		Short-chain reductase protein NovJ	ATGGTCACGGGCGGCGGAGCCGGGATTGGGCGTTCTACCGCATTGATGCTGGCCCACCAGGGAGCTGATGTCGTGATCTGCGATATCCACGAAGAGAACGGCCGGATCGTGGCGTCCGAGATCGAGGCGATCGGTCGCAGGGCTGTCGTCATTCCCACCGACAGTGCTGACGAAGACCAGGTCGAGCGCCTAGTCGCTGAAGGAATTCGTGAGTTGGGCAAGATCGACATTCTTGTAAACAATGCCGGAATCATATCAACGGACCCGATTCTCGAGCTTACGGCGGAGACATGGGATCGGGTTGTTGCCGTGCACCTGCGTAGCACCTTCTTATCGGCCAGGGCGGTCGTCCGGGATATGAGTTCGCGTGATTGGGGTCGTATCGTTAACGTCACCTCCCGGGCGGCGTACCGCGGCCGAGCAGGTATCGGTCCATATGCCGCATCGAAGGGTGCCATTCTCGCGTACTCGCGGGTACTCGCGGCCGAGACGGCTCAGTGGGGCGTCACCGTCAACAATGTTGCGCCTGGCACCACGCTTACTCCGATGGTGGAACGCGCCTTCCCTCAACCTGAAGCACAAGCCGAAGAGGCACGCTCATCAGGCGTAATCACCTCCCCTGTACGTCTGGCCGAGGCCGACGAGATCGCCGGAGCCGTGCTCTATTTGTGCGGTCTGTATTCCGGGCATATCACCGGTACGACGATTCACGTCAACGGCGGCAGCTTCATGCCGTGA	MVTGGGAGIGRSTALMLAHQGADVVICDIHEENGRIVASEIEAIGRRAVVIPTDSADEDQVERLVAEGIRELGKIDILVNNAGIISTDPILELTAETWDRVVAVHLRSTFLSARAVVRDMSSRDWGRIVNVTSRAAYRGRAGIGPYAASKGAILAYSRVLAAETAQWGVTVNNVAPGTTLTPMVERAFPQPEAQAEEARSSGVITSPVRLAEADEIAGAVLYLCGLYSGHITGTTIHVNGGSFMP	PGPT0003180_10736	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
D1-29_02014	900	hcaB_2		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGGGTAGGACAGAGAATGAAGGTAACGACGTCGGCGGGGTGGTGAATCGTTTCGCGAGTGCACCTTCTGCGCTCTCGGGAAAAGCGGTCATTGTCACCGGTGCGGGGCAGGGCCTTGGTCGGGCCTACGCACTGGCCTGCGGGCGAGCAGGCGCCAGCGTTGTTGTCAACGACGTCGACGGGTCCGCCGCAGAGGAAACGGCAGCTGCACTCCGCACGGAGGGTGTGGCGGCAATAAGTGTGGCAGGGTCGGTGGCCACGTGGGATGATGCCGAACGCACAGTCGCAGAGAGCATCGCCGCCTTCGGTCGCTTGGATGGGCTGGTGGCGAACGCGGCAATTATGCACATGGGTGCCCCGTGGGATGAAACCGAGGACCAGCTGCGCCTGATCAACCAGGTCAACGTTCTAGGGGTTCAGTTCACGGCCCGCCACGCGATGCGAGCCATGGTCGAAGCCGGTCGAGGCGGTTCAATCGTGACAATCGTCTCGGGTGCCCAGCATGGGATTCATGGTATGAGTGCTTACGGCGCGACCAAGGGCGCCGTCAATGCCATGACCGCCAACTGGGCTATTGAGGGTCAGGAGCATGGCATCCGCGTAAACGCAGTGTCGCCGTGGGCAATGACGCAGATGACACTTGACCACCTTGATGAGACTAAAGCCGACCGGAGTTCCTTCCCGGAACCAGCCCAAATATCTCCGCTGGTCGTCGCGCTTCTCTCGGACGAAACGAGCAGCGTGAGCGGTCACATCATCCGTTTCGACGGGATCACCCTCAGCCAGTACGAGACGTCATTGGTGCCGATCGCCGCCCAAGAGGAGGTGTGGTCGGCCAAGGAAATCTCTGCACTTCTCGTGCGCAAGCTGGGATCCCTTACAACTGATGTCAGCGTGTAG	MGRTENEGNDVGGVVNRFASAPSALSGKAVIVTGAGQGLGRAYALACGRAGASVVVNDVDGSAAEETAAALRTEGVAAISVAGSVATWDDAERTVAESIAAFGRLDGLVANAAIMHMGAPWDETEDQLRLINQVNVLGVQFTARHAMRAMVEAGRGGSIVTIVSGAQHGIHGMSAYGATKGAVNAMTANWAIEGQEHGIRVNAVSPWAMTQMTLDHLDETKADRSSFPEPAQISPLVVALLSDETSSVSGHIIRFDGITLSQYETSLVPIAAQEEVWSAKEISALLVRKLGSLTTDVSV				NA	NA	NA	NA	NA
D1-29_02015	1635	kstD_2	COG1053	3-oxosteroid 1-dehydrogenase	ATGACAGTTGCGAGCTCGTTCGATGTGGTAGTGCTTGGCAGCGGGGCGACGGGGCTGACGGCCGCTTTTACCGCAGCCAACGAGGGTGCTCGGGTAGCGCTCTTCGAGAAGAACTCCAGAATCGGCGGGACGAGCGCGTGGTCGGGTGGCCATGTATGGATTGTTGCCAATGATCACCAATCCGAGCTCGGAGTCGATGACTCGGTTGAAGAAGGCGTGACGTATCTACACGCGGTCGGCCGGGGGTTCGTCGGCGAGCCGCACGTGAGAGCATTTGCCGATAACGGGCGACACATGATCCGATACCTCGAAGATCATGGCAACGCGCCCTTTTACGCCGTCTCTGGCATTCCTGACTATCACCCAGAGCATCCTGGCGGCAAAACAAAAGGCGGCCGCACCATGGGCACGCCACTTTTTGCTTTTGGTGAGCTCGGCGAATGGCACGACCGCGTGGAGGTCACTCCGTATTACTCGCCGTACTACCGCATGGACGAAACGGGAATCGGTTCCGGAGTTCCGAACCCCCCCAGTCCTGAGGAACTTGAACGCCGCGCCACTGCTGACGAGCGCGGCCAGGGCGGCAGTCTGGTCGGTCATCTTCTCCGTGCAGCACTCAAGGCGGGTGTGCACATCGAAACCTCGACCGGTGGGGTTGAGCTATGCCTACAGGACGGCCGGGTGACCGGCGTCGAGGTGGAAGGCCCGAACGGGCGCCGTGTCGTGCACGCGCGGCAGGGAGTCATCCTTGCCACGGGCGGGTTCGAGTGGAATGAAGAGTACCGAAAGACGTTCCTCCGGGGTGAAGTCTTTCAGCCGGCCTCCATTCCCACGAACACCGGTGACGGACTTCGAATGGCGCTCAAAGCTGGCGCGGCCCTCCAGAATATGCGTGAGGCATGGTGGATCCCGATCGCTGTGCTTCCGCCTGGAGTAAATTCTATGAACCTTGACATGATCAATGGTGACCGCACTCGCCCAGGAAGCATTATGGTGAACCGGTCGGGTCGGCGCTTTGCGAATGAGGCAGCGAACTACAACGCCTTCGGCGGGGCTTTCCAGCAGGAGGACGTCGCTGCCTTTGGCTATGCGAACGTGCCCGCTTGGGTGATTCACGACCACACATACATGAAGAAGTATGGCTCGCGAGGAGTTCCGTACACTGGCGTGACACCTCAGTGGCTGACGGAGGCGCCAACTCTTCATGCGTTGGGTGAAACACTGGGCATTGATGCAGATGAACTGGAGCGCACCGTCGCGCGGTGGAACGAACATGTAGCTGAGGGTGCCGATCCCGATTTTAATCGCGGCGAAAGTGCGCATGACCGCTGGTGGGGTGACCCGTGGAAAAAGGGCTTACCCGAGTCGACATTAGGTCCACTCAACGACGGGCCGTTCTATGCGATGGAACTGCAGCCCGGCACTATCGGCACGAAGGGTGGCCCCAAGGTGACGGTCAACTCGCAGGTCGTCAATCATGACGGCCTGACTGTGCCAGGGCTCTACGCCGCGGGAAACACCTCATCGCCGACCGGCACCGGTTACGGCGGGCCGGGTGGAACGCTCGGACCGAACATGACGTTCGGATGGCTGGCAGCAATGCACGCGGTGGGCACTCCGGTCATCGCGGAGTAG	MTVASSFDVVVLGSGATGLTAAFTAANEGARVALFEKNSRIGGTSAWSGGHVWIVANDHQSELGVDDSVEEGVTYLHAVGRGFVGEPHVRAFADNGRHMIRYLEDHGNAPFYAVSGIPDYHPEHPGGKTKGGRTMGTPLFAFGELGEWHDRVEVTPYYSPYYRMDETGIGSGVPNPPSPEELERRATADERGQGGSLVGHLLRAALKAGVHIETSTGGVELCLQDGRVTGVEVEGPNGRRVVHARQGVILATGGFEWNEEYRKTFLRGEVFQPASIPTNTGDGLRMALKAGAALQNMREAWWIPIAVLPPGVNSMNLDMINGDRTRPGSIMVNRSGRRFANEAANYNAFGGAFQQEDVAAFGYANVPAWVIHDHTYMKKYGSRGVPYTGVTPQWLTEAPTLHALGETLGIDADELERTVARWNEHVAEGADPDFNRGESAHDRWWGDPWKKGLPESTLGPLNDGPFYAMELQPGTIGTKGGPKVTVNSQVVNHDGLTVPGLYAAGNTSSPTGTGYGGPGGTLGPNMTFGWLAAMHAVGTPVIAE	PGPT0006680_688	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_ADROSTENEDIONE_DEGRADATION,PGPT0006680-kstD-K05898	NA	NA
D1-29_02016	1836			Ferredoxin--NADP reductase	GTGACGTCCAGCATTGACACTATGATCGTCGACACCACCACGATCGCCCGCCAAGCAGCGGACGCATGGCTAAGCGCCTTCAACGAGGCCCTAGCAAGCGCCGACCGCGCAGCACTCGACGAACTCTTCCTCGACGATGTATACGTCAGAGATATGGGTGCGCTCACCTGGAATCTTCGGCAGGAATCCGTCAAGGAACGCGCCATCGATCTGATTGCGGGCAGCATCGATGGAACACACCCACGAGCCTTCAAGGTCGACGCAAACCGCCCCGTGGTCCCCGCGATTATTGCCGAGGCTCCGCGCGTGGTGGAAGCGTTCCTCGCTTTCGAAGTCGATGCCGGCAACGGTGACGGCATCGCCTATCTCGTCGAGGACGACACCTCACCGGTGGGCTGGAAGGCCCGCAACCTGCTCACTCGCCTACGCGACTTCCGGGATCACAAGAACGAGTGGCCCCGCCGCGATCGCTTCGATGACACACACCCCACTGAGCGCTGGAGCGAGTACCGGGACCGGCTGGCCGCTTTCGAAGACCGCGATCCCGAGGTGCTCATTGTCGGTGGCGGCCAGATGGGGGTCATGACGTCGGCTTCGCTGAACCGGTTCGGCGTTGATAATCTGGTCGTTGACAAAAATTCCTCGGTTGGAGGCAACTGGCGCAACCGGTACGCTTCCCTGTTGCTGCACCAGCCCCACGGCATGCTGAACTTCCCGTTTATGAGCTTCCCCGAAAGCTACCCGGAGTACATTCCGAAGGACAAGCTCGCCGACTGGTTCCAGGCCTACGTCGATGCCCTGGAAATTAACTTCTGGACCTCCACCGAATTCCTTGGCGGTACGTTTGACGAGGAATCCGAGACCTGGACGGTGAAGCTCCGGCGCGCCGACGGCAGCATCCGCGAGATGCACCCCAAGCACGTCGTCATCGCAACCGGCGGCGTCGAAAAGCCCAAGGTTCCAAACATTCCCGGGCTCTCGGAGTTCCAGGGTGAGATTGTGCACTCGAGCCGATTCTCCGACGGCGCTAACTACACGGACAAGAACGTGCTGGTCGTCGGGGTCGGAACAAGCGCGCACGACATCTCCCTGGACGTGTTCAAGCACGGCGGCAACTCCACGATCCTGCAACGCGGTAACGCTATCGTCGTCGACATTGAGACCGCAAACATGATGTACGGGGACTACAACCCCCGCATTGTGCCCACCGAACTCGTCGACGTCCGGTTCCTCTCGGGCTTGGTCTACCCACAGCTCAAAGGCAACTTCCTTGCAGGAACGGCGTACGGAAATACCCTCGACGCGGAGCTCCAGGCGAACCTGCGCAAGGCCGGAATGAAAGTGTGGTCCGGCGCAGAAGACTGCGGCTTCTTCTACGAGTACTTCAAGACCGGCGGCGGCTACTACCTTGACGTCGGCGCCTCCGCCGAAATCATCAAAGGCAACATCGGCGTGATCCAGATGGACACCGTCGAGAGCTTCACCACAGATGGAATAAAGCTCAATGACGGCAGCGAACGGCCCATCGACACAGTGGTGCTCGCGACCGGATACGAGAATATCTCCGTCGCCATCGGCGAATACTTCGGCCAGGAAGTTGTCGACAAGCTCGGCCCCATCTGGGGCTTCGGCACGGACGGTGAAATCAACAACACTTGGAAGCCCACCGCCCAAAAAGGACTCTGGATCGGGCTCGGCGCAATCCCCCAGGCCCGCTGGTACGCACCGCTGATCGCAACACTGATCCAAGGTGAGCTCAAGGGCCTGGTCCCGGCCTCCTTCCTCGAGCCGGGCCATCCGTCCCGGACCCCCCTCGAGCAGGTCGTGGACATCTAG	MTSSIDTMIVDTTTIARQAADAWLSAFNEALASADRAALDELFLDDVYVRDMGALTWNLRQESVKERAIDLIAGSIDGTHPRAFKVDANRPVVPAIIAEAPRVVEAFLAFEVDAGNGDGIAYLVEDDTSPVGWKARNLLTRLRDFRDHKNEWPRRDRFDDTHPTERWSEYRDRLAAFEDRDPEVLIVGGGQMGVMTSASLNRFGVDNLVVDKNSSVGGNWRNRYASLLLHQPHGMLNFPFMSFPESYPEYIPKDKLADWFQAYVDALEINFWTSTEFLGGTFDEESETWTVKLRRADGSIREMHPKHVVIATGGVEKPKVPNIPGLSEFQGEIVHSSRFSDGANYTDKNVLVVGVGTSAHDISLDVFKHGGNSTILQRGNAIVVDIETANMMYGDYNPRIVPTELVDVRFLSGLVYPQLKGNFLAGTAYGNTLDAELQANLRKAGMKVWSGAEDCGFFYEYFKTGGGYYLDVGASAEIIKGNIGVIQMDTVESFTTDGIKLNDGSERPIDTVVLATGYENISVAIGEYFGQEVVDKLGPIWGFGTDGEINNTWKPTAQKGLWIGLGAIPQARWYAPLIATLIQGELKGLVPASFLEPGHPSRTPLEQVVDI				NA	NA	NA	NA	NA
D1-29_02017	993			hypothetical protein	ATGAACACTATTGAGGACTTTTACGATGCTGCGAAGCGCGTGAGCAACACGGGGCGCTGGGGGGCTGAGGACGAACTCGGTACGCTGAACTTCATCACCGAGGCGAAGATTGCAGGCTCGGCGCAGCTTGTGCGCAGCGGAAAGCTATTTTCACTGGGTATCGACTTCGGTTCGGGCGGTCCTCAAGGCGACTTCTATATGCGAGGCAACCCGATTCACCTCATGACCATGGACGGTGGCGACGCCGACAACTTTGTCGAGCACTCACAGCACTGGCACGCGAACCCCACCGCCACGCAAATCAGCGGATTCTTTGCCGACAACCCGTTCCGGTTCAATGAAGACGTCATTATCATGCCGTTGCAGGCGGCCACCCAGTGGGATGCCCTTTCTCACTGCTACTACGACGGAAAGCTCTACAACGACTTTCCTGCCGCGGGGGTGACCAGCCAGGGTGCCACTCGGTGCGGCATTGACAAAGTCGGAAGCAAAGGTATCGCCTCGCGGGGGGTACTGCTCGACGTCGTGCGGCACCGAGGCAACGAGCTATGTCTCGGCATTGACCAGCCGATCACTCCCGATGAGCTCGATGAGATCGCGGCGAAGCAGGGGGTCACCATCGAATCAGGCGACATCGTGGTCATCCACACGGGGTGGTGGGCTAACTTCGTCGCCACTGGTGACCGGTCCGCGCCGGTCTCCGGCCTGAGCTGGCGGTGCGCCGAGTGGCTGCACGAGCACGAGGTGGCCGCTGTGGCCGCAGACAACATCACCGTAGAACACGCTGCGGGCGGTGAGGTGACGGGCGTCTTCCTTCCGTTCCACCTGCTCTGCCTTCGCGACATGGGCCTGATGCTTGGCGAGTACTGGAACACGACGCAACTGGCTGCCGATTGCGCCGAGGATGGAGTCTACGAGTTCCAGCTCGTCGCCCCACCGCTCAGCGTGATCGGTGGGGTCGGGTCCCCGGTCAACCCGATCGCTTTCAAGTAA	MNTIEDFYDAAKRVSNTGRWGAEDELGTLNFITEAKIAGSAQLVRSGKLFSLGIDFGSGGPQGDFYMRGNPIHLMTMDGGDADNFVEHSQHWHANPTATQISGFFADNPFRFNEDVIIMPLQAATQWDALSHCYYDGKLYNDFPAAGVTSQGATRCGIDKVGSKGIASRGVLLDVVRHRGNELCLGIDQPITPDELDEIAAKQGVTIESGDIVVIHTGWWANFVATGDRSAPVSGLSWRCAEWLHEHEVAAVAADNITVEHAAGGEVTGVFLPFHLLCLRDMGLMLGEYWNTTQLAADCAEDGVYEFQLVAPPLSVIGGVGSPVNPIAFK				NA	NA	NA	NA	NA
D1-29_02018	198			hypothetical protein	ATGACCCCGAGCCCGGAGAATGACAGAGACGCCGAGGATCGATATCAGCCAGGGCAGCGGCGGCTCGCCCCAGCGTACAACCGGTTACGCGGCGATGCGCTTTTTCCGGCGCCCACGAGCCCCGAAATCACGACGGAGACCGCGAGCGGAAGCCTCGAGAGCACCATCGTCGCGCAGGCAAGCAGCGAGCCGATCTGA	MTPSPENDRDAEDRYQPGQRRLAPAYNRLRGDALFPAPTSPEITTETASGSLESTIVAQASSEPI				NA	NA	NA	NA	NA
D1-29_02019	747			hypothetical protein	ATGATTAGGACCATGAGCATTTCGACTCCAGTCAACACAACTCCACGGGTGCAGCCCGGAAGCCAGACCCTAGCCCGCGGCCTCACCGCGCTCATTGCGATCACCGACTCACGCTCGGGCATGACCATCCAGGAGGTCGCTGACCAACTCTCGGTCCACCGGTCAATTGCCTATCGGCTCCTCCAGACTTTTGTCGATTTTGGCTTCATTTCGCGCTCTGACGACAGCGTCTACCGACCGGGTGCCCGACTCGCAAGCCTCGCCACGTCGTATTACCCGAGCCTGCGAGAACTTGCGCTTCCAATTATGCGCCAGCTCGCTGAGGAGCTCGGCTCCACTATCGCCTTGTTCGTCGCCGAGGGCAAGGAGGCCGCGGCCATCTCGATGGTAGAGCCAACCACCACCCTTCACCACATCTCATTCAAGGCGGGGATGCGGACACCATTGGATCGCGGCAGTGCTGCGTACGCACTCGTTTCGGGCATGCCTCCGGTGGAGAATGAGCCGCCCGAGGCCACCAAGGCCCGCGAGGTGGGCTTCGCAAGGAGTTTTGGCGAGATCGAAGAGGGGGCATATGGCGTCGGTGCCTTCATTCCGACGCAATCTCCTGGACCGGTGGCGTGCGTACACCTCATCACTTATCGAGGCGATGTCGCCGAGATGGCCGGCCCAGTGATGAAACGAGCGGCTGCCGCAATCGGCACCCTGCTCTCAGACCACTCTCACAGCACACCCTCCGGAAGCTGA	MIRTMSISTPVNTTPRVQPGSQTLARGLTALIAITDSRSGMTIQEVADQLSVHRSIAYRLLQTFVDFGFISRSDDSVYRPGARLASLATSYYPSLRELALPIMRQLAEELGSTIALFVAEGKEAAAISMVEPTTTLHHISFKAGMRTPLDRGSAAYALVSGMPPVENEPPEATKAREVGFARSFGEIEEGAYGVGAFIPTQSPGPVACVHLITYRGDVAEMAGPVMKRAAAAIGTLLSDHSHSTPSGS				NA	NA	NA	NA	NA
D1-29_02020	1656	kstD_3		3-oxosteroid 1-dehydrogenase	ATGCCATTCAACACCAGCGCACGAGATGAGACGGTAGACGTCATCGTGCTCGGCACCGGGGCCGCCGGTCTCACCGCAGCCATCACGGCAACTCGGCTGGGACGATCGGTTGCCATTTTCGAGAAGGAAGCCACGGTGGGTGGCACCACGGCAGTCTCAGGCGGCGTGGTCTGGGTGCCCGCGCACGACCGGAGTTCGACCGGCAAGGATTTCTCGATCGACGATGCCCTCACCTACCTGGCCGCGCTCTCGAACGGGACAATGCGGGACGACCTCGTCCAGGCTTTTGTCCGCACCGGTCCCCGGATGCTCGACTTCATCGAGCAGGCAACCCAATTGAGGTTCCACCCGTACGAGGGCTTCCCCGATTACAAGCCCGAAAAGCCCGGCGGTCGCCCAGCCGGCGGCAGGTCGTTCAATCCTGCTCCATTCAACTTTGCTGAGCTGGGCGACTGGGCATCAGCAGTCACGGCCTTTCCTGCCGACTGGAGCGACGTCGGTTTCGATGCTGAGACGATGGCTCGCGTCGGCCAGTCCGCGGCGGAGTTCGGCTTCGACGATAACGCTAACGTGAAGTTCATGGGCAAGGCCCTTATAGGCGGGCTTCTGAAGGGGCTGCTGGACGCAGGGGTGGTGCCCCGAGTTAACTCCCCCGCCACCGAACTCATCGTCACGGATGGTCACGCTACCGGCGTCGTCGTGAACGGCCCCGATGGCGCGCGAACCGTGCACGCGAGAAATGGCGTGGTGCTCGCGACTGGTGGCTTCGAGTGGAACCCCGAACTGGTCGGCGCATTCTTGCGCGGACCTATGCTCGCCCCGGTCTCGCCCCCGGGAAAGAACGGCGATGGATTGAGAATGGCGATGAAGGCAGGCGCCGCGCTCGGCAACATGTCAGAGGCTTGGTGGGCGACCGGAATCAGAATCCCCGGCGATACGATCGACGGCCATCCTCGGAGCCGCTCCATCCGCTCGGAGCGCACACATCCGCGCTGCATCATCGTCAACGCCTCGGGCCGGCGCTTCGCCAACGAGGCGCAGGACTACAACTCGATGGGTGGAGCCTTCCACCAAATCGATCCCAGCGACTTCAGCTTTCCGAATACGCGAGCGTGGATGGTCTTCGACGAGCAGCACCTGCAGACCTATGGTTTCCTTGGAGTGAAGCCCGGAGAGATCCCGCCCGAGTGGTTCTCCCGGTCGGCAAGCATCACTGAGCTTGGCGAGCGATGCGGCATCGACACCGCAGGCCTCTCCTCGACCATCGACCGCTGGAACACCGCTGTCACCACCCATCAAAGCGACCCTGATTTTCGGCGCGGCAGCAGCGCCTACGACAGCTTCTGGGGCGACCTGAGCAAGCCTGTCGGGCCGGAACGCACACTCGGACCGATCGACTCAGGCCCGTACTACGCGGTGCCAATCTATGTCGGCACCATCGGAACCAAGGGCGGCCCGGCGACCGACGAAAACGGGCAGGTACGCAATGTCGATGGCGCACTCATCGGAGGGCTCTACGCTGCGGGCAACGCAATGGCCAACGCCCTCGGCATGGCCTACCCCGGGGCCGGGGCCACCATCGGTACCGCCATGGTCTTCGGCTATCGGGCCGGGCACCACGCTGCGACTGGCGCCGGCGCCACCATGAACATGTAG	MPFNTSARDETVDVIVLGTGAAGLTAAITATRLGRSVAIFEKEATVGGTTAVSGGVVWVPAHDRSSTGKDFSIDDALTYLAALSNGTMRDDLVQAFVRTGPRMLDFIEQATQLRFHPYEGFPDYKPEKPGGRPAGGRSFNPAPFNFAELGDWASAVTAFPADWSDVGFDAETMARVGQSAAEFGFDDNANVKFMGKALIGGLLKGLLDAGVVPRVNSPATELIVTDGHATGVVVNGPDGARTVHARNGVVLATGGFEWNPELVGAFLRGPMLAPVSPPGKNGDGLRMAMKAGAALGNMSEAWWATGIRIPGDTIDGHPRSRSIRSERTHPRCIIVNASGRRFANEAQDYNSMGGAFHQIDPSDFSFPNTRAWMVFDEQHLQTYGFLGVKPGEIPPEWFSRSASITELGERCGIDTAGLSSTIDRWNTAVTTHQSDPDFRRGSSAYDSFWGDLSKPVGPERTLGPIDSGPYYAVPIYVGTIGTKGGPATDENGQVRNVDGALIGGLYAAGNAMANALGMAYPGAGATIGTAMVFGYRAGHHAATGAGATMNM	PGPT0006680_697	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_ADROSTENEDIONE_DEGRADATION,PGPT0006680-kstD-K05898	NA	NA
D1-29_02021	852	carC_2		2-hydroxy-6-oxo-6-(2'-aminophenyl)hexa-2,4-dienoic acid hydrolase	GTGGCATCCAGCGCAGCATCCATGTCCGCGTTCATGCGGGCGCATCAACGCGAGACGACGATCGACGGAGCGAGGACGAACTACTTCGAGGCAGGATCCGGGACGCCCGTCGTGCTGCTTCACGGGGGCGAGTTCGGGGGGAGCGCAGAGCTCGCATGGGAAGACCTTATCGCTCCCCTCTCCCGGGACTTCCGCGTTCTGGCGCCCGACATGCTTGGCTTCGGGCACTCCGAGAAGGCGGTCAGTTTCGTCGACGGCCGCGGCTTCAGAACCCGGCACCTTGCCCGGTTCTGTGAGCACCTCGGCGTGGAATCGGCGCACTTCGTAGGTAATTCGATGGGTGCGATCCTGCTGCTCACCGACGGAATCGGCGAAGCCCCACGGCTTCCCGCCCGAACGATCACCGCCATCTGTGGGGGCGGCGAGATCCAGAAGAACGAGCACATGAGCGCCCTCATCGAATACGACGGCTCGTTCGAGGCGATGCGTGCCCTCGTACGTGCGCTGTTCCACTCGACCGCCTACGGCGACGACGACGCTTACGTATACCGCCGTCACGGAATGAGTCTTCTCCCTGGCGCATGGGAGTCCGTCGCGTCCGCGCGTTTTCGGCGCCCGCTCCAGGATGACACCACGATTGCCCCTGCGAAGCCGGTATTCGCCAACCTGCCCGTTCCGGCGCTCTTCATCGAGGGGCGAGACGACAAGCTACTTCCCGGAGGCTGGGCTGCCGCCATCGCCGCGCAGACACACGATGCCCGCTCGCTGGTGATTGATCAAGCGGGCCACTGTCCCCAAATCGAACAACCGGACGCCGTCCTCGGAGCACTCCGAGATTTTTTACTGAACTGA	MASSAASMSAFMRAHQRETTIDGARTNYFEAGSGTPVVLLHGGEFGGSAELAWEDLIAPLSRDFRVLAPDMLGFGHSEKAVSFVDGRGFRTRHLARFCEHLGVESAHFVGNSMGAILLLTDGIGEAPRLPARTITAICGGGEIQKNEHMSALIEYDGSFEAMRALVRALFHSTAYGDDDAYVYRRHGMSLLPGAWESVASARFRRPLQDDTTIAPAKPVFANLPVPALFIEGRDDKLLPGGWAAAIAAQTHDARSLVIDQAGHCPQIEQPDAVLGALRDFLLN	PGPT0005235_237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005235-dmpD|xylF-K10216	NA	NA
D1-29_02022	372			hypothetical protein	ATGCCAACATCCGTCTACGTCGTCCTCACTAATTCTGTCGAGGGAAGCGACCAAGAGTTCAACGACTGGTACACCAAGCAACACCTCGCGGATGTGACGAACGTGCCGGGCTACGTCCGGGCCAGGCGGTATAAACTCGCCGACGCGCAGTTCCTCGGGCCGCAGACCGACTTCAAGTACCTGGCGATCTACGAGGTCGAGGGCGAGACGCAGGACGCTGTCGATGCGATGGCGAACGCGATCAAGGACGGTATGTACCTCTCGCCGGCCTTGGCCGAGACCCTGCACTCCACGTTTTACGAGCCGCTCACCGATTGGGTGGCCGCGCCGAGCATGTCGGGACGCGCAAGCACCGACGCTCTCGCGAACTAG	MPTSVYVVLTNSVEGSDQEFNDWYTKQHLADVTNVPGYVRARRYKLADAQFLGPQTDFKYLAIYEVEGETQDAVDAMANAIKDGMYLSPALAETLHSTFYEPLTDWVAAPSMSGRASTDALAN				NA	NA	NA	NA	NA
D1-29_02023	819	calA		Coniferyl-alcohol dehydrogenase	ATGACCACAACTCGAGATGCCAATTGGTTCGAAGGACGCCGAGCCGTCGTCACGGGATGCGCCTCCGGCATCGGCCATGCGACTGCGGTGCAATTGAAGGAACGTGGTGCCTTCGTGATCGGGATGGACATCCAGCCCTGCACCGAATTCGACGAGTTCCACCGGATTGACCTCGGCGACTCGCAGTCGATCCGCGACGTGGCCGAGGCCATCGACGCTCCGATCGACGCGCTCATCAACGTGGCCGGAGTCTCGTCCGGATTCGGTGGCCCACTCACGGTCGTGGGAATAAACTTCATTGGTACCCGGGAACTCACCGAGGCACTCATGCCGCAGCTGCTGCCGGGGTCAGCAATCGTAAACACCTCCTCGCTGGCGGCGAAGGAATACCGCTCGAGGACCTCGGTCACCGCGGAACTCCTTGCGACCGCCACCAGAGACGAGGCGCTCGCCTGGTGCGCGGCGCACCCGGAGCAGGTCGAGCTTGGCTACAGCCTCTCCAAGGAGGCAATAATCCTGTATACCGCAGCGCAGGCCGTGCGCCTCGCCGCACGTGGGGTGCGAATCAACTGCATCGCTCCTGGAGTCACGCAGACGCCGATTCTTCACGACACGATTTCCCGCCTTGGCGAGGACTACCTCAACGCGATCCCGAAACCACTCGGCAGGCTCTCAACCCCGGATGAGCAGGCCTCGGTACTGCTGTTCCTCGCCAGTGACGCGGCCAGCTACATCACCGGGTCGACGATCTGGACTGACGGCGGCTACACAGCAGGAGAAGAAACCGGAACCCTGCAGGCATTCGTCGCCCAACGCTGA	MTTTRDANWFEGRRAVVTGCASGIGHATAVQLKERGAFVIGMDIQPCTEFDEFHRIDLGDSQSIRDVAEAIDAPIDALINVAGVSSGFGGPLTVVGINFIGTRELTEALMPQLLPGSAIVNTSSLAAKEYRSRTSVTAELLATATRDEALAWCAAHPEQVELGYSLSKEAIILYTAAQAVRLAARGVRINCIAPGVTQTPILHDTISRLGEDYLNAIPKPLGRLSTPDEQASVLLFLASDAASYITGSTIWTDGGYTAGEETGTLQAFVAQR				NA	NA	NA	NA	NA
D1-29_02024	1767	kstD_4		3-oxosteroid 1-dehydrogenase	ATGAATGATGCCCAGGCGCAAGAGTTCGACCGAGTCGTGGACACCCTTGTGGTGGGGAGCGGGGCAGGCGGGATGACTGCCGCGCTGGCCTCGAAGTCCCGAGGACTCGAAACACTTCTTATCGAAAAGGCGTCGCGGTTCGGTGGTTCGAGCGCACTGTCCGGCGGAGGACTGTGGATTCCAGGTGCACCCCCACAGATGCGCGAGGGGCACGAGATCGATCTCGACGAGGTATTTGAGTATCTCAAGCTGCTCACCGAGGGCTTGGTCTCAGACGAGCGGCTTCGCGCCTACGTCGACGAGGGCCCCAAGATGATGCGGTTTCTCGAGGAGCTCAGCCCTCAGATGCAATTCATCTGGAAGGCCGGATACCCAGATTACTACCCCGAACTCCGCGGCGGATCCACGGCAGGCAGCGTGATCAACGTGCCAGCGATTGACCTTCGGGAGTTGGGCGCCGACATCGACGCGCTTCTTCCCCCTCTCGCGCTCGCGCCCCGTGGCATGTGGATCGGTCCCAGCGAGCTTCGCGAGTTCTACCGCCTGCGCCAGTCGTGGAAGGCGAAGGCACTCTTCGTCAAACTCGTCTGGCGGATGGTGCGCGCCCGGCTCACCGGCGAACGGATCGTGACAGTTGGCCAGTCACTGATGGCGCGGCTTTGGCTAACGGCCAGGCAACACGAGCTTGAAATCTGGCTCGAATCCCCCATGATCTCGCTTATCACCGAGACGGACGGAAGGGTCATCGGTGCACGCGTCGTGCGGCACGGTGAGGAGCTCCGGGTAGGCGCCCGGGGCGGCGTCATTCTCGCCACCGGTGGATTCGACCACGACGCCGAACTGCGACGCCTGCATCAACCGTTCGCGGAGAAGGAATACAGTCTAGGTGCGCGCACCAATACCGGCGACGGCATCCGCGCCGGCGTCGAGGCTGGTGCAGCGACAACCCTGATGGAAGAGGCGTGGTGGTATCCTGCCGTGGCCTGGCCAACCGGCGGCGTGCAATTCAGCCTCAATGAGCGAATGATGCCGAGCCAGTTCATCGTGAACGGCGACGGCGAGCGCTATATCAACGAGGCCGCGCCTTACTCCGAGTTCGGGCAGGCGATGATACGCGGCCAGGCCGGGAGCACCCCCCACATTCCGTCATGGCTCATCACTGACATGGACTCCTGGCACAAGTACGTCATCTTCGGCCACCTCCCCGTGCCCAAGATCCCCCTTGCGCCCGTGCCCACCGGGTGGAAGATACCGAAGGCCTGGCTGAAGTCCGGCGTGGTCTTCACGGGGGACACCTGGCAGGACATTGCTAACCAGATTGGCGTTCCAGCCACCAACCTTGCCGAGACGGCACGCCGCTACAATGAGATTGCGCGTACCGGCGCTGACACCGATTTTCACCGCGGTGCCAGTGCTTACGACCACTACTACGGCGATGTCACACTCCCGAACCCGAACCTCGCTCCTCTGGGGAATGGCCCCTACATCGCGTTCCGGCTCATCCTCGCTGACCTAGGCACCAATGGCGGCGTCAACACAGACGAGGCCGCTCGCGTGCTGCGGGCCGACGGATCGCCGATCACCGGACTGTACGCGACGGGGAACACCTCGGCCGCGGTCATGGGCCGCAGCTACGCCGGCGCGGGGGCAACCCTAGGTCCCGCTATGACGTTCGGATACATCGCCGCACAGGACATTGCAAAACGAACCAGCGCGCGTGGTGCCCACGCCCCCCAACCCGCCACTGCAGTAGCCGGAGAGGAATGA	MNDAQAQEFDRVVDTLVVGSGAGGMTAALASKSRGLETLLIEKASRFGGSSALSGGGLWIPGAPPQMREGHEIDLDEVFEYLKLLTEGLVSDERLRAYVDEGPKMMRFLEELSPQMQFIWKAGYPDYYPELRGGSTAGSVINVPAIDLRELGADIDALLPPLALAPRGMWIGPSELREFYRLRQSWKAKALFVKLVWRMVRARLTGERIVTVGQSLMARLWLTARQHELEIWLESPMISLITETDGRVIGARVVRHGEELRVGARGGVILATGGFDHDAELRRLHQPFAEKEYSLGARTNTGDGIRAGVEAGAATTLMEEAWWYPAVAWPTGGVQFSLNERMMPSQFIVNGDGERYINEAAPYSEFGQAMIRGQAGSTPHIPSWLITDMDSWHKYVIFGHLPVPKIPLAPVPTGWKIPKAWLKSGVVFTGDTWQDIANQIGVPATNLAETARRYNEIARTGADTDFHRGASAYDHYYGDVTLPNPNLAPLGNGPYIAFRLILADLGTNGGVNTDEAARVLRADGSPITGLYATGNTSAAVMGRSYAGAGATLGPAMTFGYIAAQDIAKRTSARGAHAPQPATAVAGEE	PGPT0006680_148	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_ADROSTENEDIONE_DEGRADATION,PGPT0006680-kstD-K05898	NA	NA
D1-29_02025	1203			hypothetical protein	TTGGTCGGCGTCGACACCCATGCCGATACTCACCACGTCGCCATCATCAACGAGTACGGCAAACCTCTGGCCGATCAGGAGTTCCTTGCTGTGGGCTCCGGATACCGCAAAATCCTGGACTTCATCGCCAGGCATGGAACAGTTGCCGCGGTAGGGGTCGAAGGAACCGGCTCATACGGCGCCGGGCTGTCCAAGGTGCTCCGCAGCGAAGGGCTAACTGTCCTGGAGGTCAACCGCCCAAACCGGGCTCAGCGTCGCCTGAAAGGAAAATCCGACCCCCTGGATGCCTACCAGGCAGCCCAGTCAGTACTGGCTCAACGAGGCCTCTCGACCCCGAAAGCCAAAGACGGACCCGTCAAATGCCTGCGGATCCTACGTAACGCTCGTTCTTCGGCAATGAAAGCCCGCACGGCAGCAATCAATCAGATCAAGGCTCTCCTCGTGTCGGCACCGGACGCTCTCCGGGCGAAATACAGGGGCATGGCCACTCCCGCCATAATCAGCGCCCTTCAGCGAAGCAGGCCCTCAGGCCATGTGGCCGACCCGGAAAACATGACGCTGCTGACCTTGAAAACCCTGGCCACCCGCTACCAGGCCTTGGCCGAAGAAATCACCGCAGCCGATACTGCCCTGCAAGAAATCCTCGATTCCTATGCGCCCTTCCTCTGCGACCTCCCAGGCGTAGGACCAGACGTTGCCAGCCAGCTCCTCATCACCGTAGGAGACAACCGGGAACGGATCGGAAACGAAGCCCAGTTCGCGGCACTCGCAGGGGTAGCACCCATCCCGGCATCGTCAGGAAAAACGACCCGCCACCGGCTCAGCCGAGGCGGTGACCGCAACGCAAACCGTGCCCTGCATCAAGTAGTGCTGACCCGCATGTCTTCATGTCCACGGACAAAAAACTATGTCAGTAAACGCACCACCGAAGGAAAAAACAAGCCAGAGATCATGCGTTGCCTCAAACGCTACGTATCCCGTCAAATATACCGACAGATACTCAACCCTGTACCGGCACCAGACATCACCGACCTACGACAGAAACGCAAAAGCCTTGGGCTAACCGTCAACGCGGTCGCCGGCGAACTCAACCAATGGCCCTCCATTATCTCCCGCCTCGAACGCGGCATCCTCCGCAACGACGACCTCGCAACAAGCTACCGGAAATGGCTCGCCGAGCAAGCGGCTCCAAAAACGAATTGA	MVGVDTHADTHHVAIINEYGKPLADQEFLAVGSGYRKILDFIARHGTVAAVGVEGTGSYGAGLSKVLRSEGLTVLEVNRPNRAQRRLKGKSDPLDAYQAAQSVLAQRGLSTPKAKDGPVKCLRILRNARSSAMKARTAAINQIKALLVSAPDALRAKYRGMATPAIISALQRSRPSGHVADPENMTLLTLKTLATRYQALAEEITAADTALQEILDSYAPFLCDLPGVGPDVASQLLITVGDNRERIGNEAQFAALAGVAPIPASSGKTTRHRLSRGGDRNANRALHQVVLTRMSSCPRTKNYVSKRTTEGKNKPEIMRCLKRYVSRQIYRQILNPVPAPDITDLRQKRKSLGLTVNAVAGELNQWPSIISRLERGILRNDDLATSYRKWLAEQAAPKTN	PGPT0030635_664	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
D1-29_02026	819		COG1262	Formylglycine-generating enzyme	ATGGGTGATGCCTTTGGGGAGGGCTATTCTTCCGATGGGGAGACTCCGCTGCATGACGTGCGGCTGGACCCTTTCCGCATTGATGCAGCTACTGTAACGAACAGCATTTTCGCTGCTTTCATCGCGGAAACCGGCTACCGGACCGATGCAGAACAGTACGGAACTTCCGCTGTGTTCCACAGCCTCGTCCGGGCCCATCCCCGCGACATCCTCGGTGCCGCTGCCGGCGCGCCCTGGTGGCTGAACGTGCGGGGTGCCGACTGGGCCCATCCAGCAGGCCCTTCATCCAACTGGGAAGACATCGCCGACCACCCGGTGGTCCACGTATCCCATCATGATGCCCTTACCTACTGCACCTGGGCCGGGCGCCGGCTGCCCACCGAGGCCGAGTGGGAGTATGCAGCCAGAGGAGGGGTAGAGGGAATGCGATACCCCTGGGGGAACGACCTTACGCCCGGCGGCGAGCACCGTTGCAATATCTGGCAAGGGACCTTCCCGAAAATCAACACGCGCGACGACGGGCATTCGGGCACCGCCCCGGTAAAGTCCTTCCGGCCAAACGGGTACGGGCTGTACCAGATGGCCGGTAACGTCTGGGAATGGTGCGGCGACTGGTTCTTGCCAAAGTACTACCGCAACTCACCCTCGGATAACCCACACGGGCCAAGCATCGGGGCTGGACGCGTCATGCGAGGCGGCTCTTATCTGTGCCACGATACCTACTGCAACCGCTACCGCGTCGCTGCCCGAACCTCCAACACACCGGAGTCCTCCTCGGGTAACTGCGGCTTCCGTACTGTTGCAGCGATCGCAGTGTGA	MGDAFGEGYSSDGETPLHDVRLDPFRIDAATVTNSIFAAFIAETGYRTDAEQYGTSAVFHSLVRAHPRDILGAAAGAPWWLNVRGADWAHPAGPSSNWEDIADHPVVHVSHHDALTYCTWAGRRLPTEAEWEYAARGGVEGMRYPWGNDLTPGGEHRCNIWQGTFPKINTRDDGHSGTAPVKSFRPNGYGLYQMAGNVWEWCGDWFLPKYYRNSPSDNPHGPSIGAGRVMRGGSYLCHDTYCNRYRVAARTSNTPESSSGNCGFRTVAAIAV				NA	NA	NA	NA	NA
D1-29_02027	1800			hypothetical protein	ATGCGCGCCATAGTTGTCATGTTCGACAGCTTGAACCGGGAATATCTTCCCGCTTACAACGCTGAGACTCCCGTCACCACGCCTAATTTTGCACGGCTGGCAGACCGGACTGTCACCATGGAAACGTCCTATGCGGGCAGCATGCCGTGTATGCCGGCAAGGAGGGAGCTCCATACCGGCCGGTACAACTTCCTGCATCGCGGGTGGGGGCCAATGGAACCTTTTGATGACTCTGTTCCCGAGATGCTAAGGACTGCGGGTGTACACACCCACCTCGCAACGGACCACATGCATTACTGGGAGGACGGCGGTGCTACTTACCACACACGTTACTCGACCTACTCCCTGATCCGCGGACAGCAGGGAGACCCCTGGAAAGGCGAGGTCGCTGATCCGCCTCCGGCGAACGATCTGCGTGTCAACCGGCTGGGCACGTGGCGGCAGGACCAGATCAACCGCAAGTACATGGCCGAACTCGGGGCCCACCCCCAAGTCCGTACCTTTGACGCCGCAGAGGAGTTCATTCGTACCAACCATTTCCAGGACCGATGGATGATCCAAGTAGAAACATTCGACCCCCATGAGCCGTTTTTCAGCACGCCGGACTTGAACGGGAAGTACGATGACCCCTCCTATGCCGGGCCCCAGTACGAATGGCCTGAATACATGGAAGACATCGAAGACGATGCGACGCGTGCACATGTCCGTGCCCGGTACTCGGCGCTGATTGGGCTATGCGACCAGTCGTTGGGCCGGGTCCTGGACCTGATGGATGAGTATTCGATGTGGGAGGACACGCTGCTTATTGTCTGCACCGACCACGGGTTTTTCCTGGGCGAACATGGATGGTGGGGCAAGAGCGTGCAGCCATGGTACGAGGAAGTCATCCATACCCCACTATTCATCTGGGATCCTCGATCCGGCATGGCAGGCTCCCGCCACGACGGCCTCGTCCAGACGATTGACATAGCACCCACGCTCCTGGAACATTTTGGCCTCCAGCCGACGGCGGACATGCAGGGTATCTCGCTGCCTCCGGTTTTACGGAATGAAAGGCCAGCCCACGATTTTGTGCTGTTCGGTGCTTTCGGCGGACAAGTCAATATCACGGACGGAAGGTACGTCTACATGCGTACATGCACCACTCCGGACAATTCGCCGCTTTTCGAACACACCCTCATGCCCACCCACATGCGTGGCTTCTTCACCTTGGAGGAGCTCTCAGGGGCCGAACTCGTAGAACCATTTACCTTCACCAAGGATGTACCCGTGCTGCGCTCCGCCGCTGCAACACTGGGAAACCCCCGATCACTGGGCACACTCCTGTTTGACCTCCAGACAGACCCCGGGCAAGAGAATCCGCTCTTGGACGAAGACCTGGAGATGCGGATGTGTAACGCCCTCGTGGATCTTCTGAAACGCAGCGATTCCCCCCGCAGCCAGTTCGAGCGACTGGACCTTCCTGAAGAAGGATCAGTGGGAAAAGAGCATTTAGCTTGCGCCAGGCAAAAACCGGAATCGACCTTTTTGCCGCCCGGTCACTTCCCCTCCGGAATGCCAAGTGTTCACACACCCCTTGCAGACCTGCTCGCCGACCCGAGAGCCCACTCCATTCTGGAACGACACTTGGACCACAAACTCCTCACGGGGCTCTTTCCTCGGATCTCCGGTCCAGTGTCCCTCTACCGTGCCACCCTCGCGCTCCGGGGAAGGATCAGCTGGCCAGCCCTGGAACAGGTGGCCAACGACCTGACATCGTCTGCATCCCCAGGAGACAAGCCGAAACAATCCAGCCTCTAG	MRAIVVMFDSLNREYLPAYNAETPVTTPNFARLADRTVTMETSYAGSMPCMPARRELHTGRYNFLHRGWGPMEPFDDSVPEMLRTAGVHTHLATDHMHYWEDGGATYHTRYSTYSLIRGQQGDPWKGEVADPPPANDLRVNRLGTWRQDQINRKYMAELGAHPQVRTFDAAEEFIRTNHFQDRWMIQVETFDPHEPFFSTPDLNGKYDDPSYAGPQYEWPEYMEDIEDDATRAHVRARYSALIGLCDQSLGRVLDLMDEYSMWEDTLLIVCTDHGFFLGEHGWWGKSVQPWYEEVIHTPLFIWDPRSGMAGSRHDGLVQTIDIAPTLLEHFGLQPTADMQGISLPPVLRNERPAHDFVLFGAFGGQVNITDGRYVYMRTCTTPDNSPLFEHTLMPTHMRGFFTLEELSGAELVEPFTFTKDVPVLRSAAATLGNPRSLGTLLFDLQTDPGQENPLLDEDLEMRMCNALVDLLKRSDSPRSQFERLDLPEEGSVGKEHLACARQKPESTFLPPGHFPSGMPSVHTPLADLLADPRAHSILERHLDHKLLTGLFPRISGPVSLYRATLALRGRISWPALEQVANDLTSSASPGDKPKQSSL				NA	NA	NA	NA	NA
D1-29_02028	912	hcaR_2		Hca operon transcriptional activator HcaR	ATGCAGCTGCGGCAGCTGGAAATCTTTAGCGTCTTGGCGGATGAGCTCCACTTCGGAAGAGCTGCCGCCCGCTTGCGAATATCCCAGTCAGCGCTGAGCCAGCAGCTGCAAAAACTGGAGGCGTCCCTTGGTGCCCAGCTGGTGTTCCGCAGTAGCCGGGACATCAGCCTCACGGAAGCCGGCACCCTGTTTCTGGAACCAGCCAGACAAACCCTGGCAACAGCGGACAGGGCACAGCTACTCCTCCAGGACCATAAGGCAGGACGTACAGGTCGAATTGTCATCGGTTCTCTGGGGGCAGGTCTGAACGGACCGCTCCCTGAGATTATCCGGAAATTCCGCAGCAGGTCACCGGCGAGCATAATTGAGCTAAAGCATTTCCGCGATAGTGCATCCCAGGAACATGCCATCCTCACAGGTGCACTCGATGCCGGGATTCTGAGGCGCGTTGTGAACGACCGGTCAATCCGGGCGGTGAAGCTCCTGGATGAATCCTTCGTTGTATTCTTCCCAAACCAACATCGGCTGGCGGACCGCCGCATGGTGTCCCTCTCAGAGTTGACGGAAGAAAACTACGTCATCTGGCACCGGCACTTTGGTTCATCGTTTTACGACCTGATCATAGGTGCCTGCCATGAGCACGGCTTTCAGCCGAACATAGAGGGCTTGGGCGATACCCTGGAAGCACAGTTGGCGCTCGTTGCCGCAGGCGTGGGGATATGTATCCAGTCCGAGTCCCATGCCTCCATCACCCGTTTGGGGGTAACCTCGGTCCCTCTGGACCCTCGTGATCTTGGCGCTGCCCTCTGGTTCGGCTACCGTCGCTGGCAGGACTCCCCCGTCGTCGCCAAACTGATCGAAGTCATCGACGAGTGCAGCAGCCGGCTGAACTCCACCCATCCAACGCCTTGA	MQLRQLEIFSVLADELHFGRAAARLRISQSALSQQLQKLEASLGAQLVFRSSRDISLTEAGTLFLEPARQTLATADRAQLLLQDHKAGRTGRIVIGSLGAGLNGPLPEIIRKFRSRSPASIIELKHFRDSASQEHAILTGALDAGILRRVVNDRSIRAVKLLDESFVVFFPNQHRLADRRMVSLSELTEENYVIWHRHFGSSFYDLIIGACHEHGFQPNIEGLGDTLEAQLALVAAGVGICIQSESHASITRLGVTSVPLDPRDLGAALWFGYRRWQDSPVVAKLIEVIDECSSRLNSTHPTP				NA	NA	NA	NA	NA
D1-29_02029	1422			hypothetical protein	ATGCGGGCCCGGGAGCAGCTTTCACTCCCCAACATCGTCCTCATCCTGGCCGATGACATGGGCTATGGCGACTTTGGGTTTTTGAATAGTCAACTGACCTCGACGCCGGCACTCGATGAGTTGGCTTCTGAATCGCTCGTCTTCACTCAGCATTACTCGGCTTCCCCTGTTTGTGCCCCTGCCCGTGCGGCGCTCCTTACTGGCCGATATCCGCAGCGGACAGGAGTCATTGACACACTCGAGGCGCGGGGGACGGACAGGCTTTCCCTAGCGGAAGTAACCCTCGCTGATGCGCTTCGTGCCGGCGGTTATCGAACGGGACTTGTGGGCAAGTGGCATACCGGGGCAATCGGTGACGATTATGCCCCCCGCCAGCGAGGTTTTGATGAATTCGTTGGTTTCCGTGGGGGATGGCAGGACTACTGGCAATGGACCCTCGAAGTGCAGGGAGGACGCGCACGTTCAGACGGCAGATACCTCACTGACGTCCTTGCCGACGAATCGGTGGAGTTCATCCGGCGCCATGCCGGAGAGCCGTTTTTCCTTCACGTTGCCTTTAACGCCCCCCACTTTCCGTTCCAAGCCCCAAAGGAACTCATCAGACGGCACCAGTCAGCTGACCGGACCGATGTGGTCGCCACCATTTACGCCATGATCGAGGTGATGGACAGGGGGGTCGGACGAATACGGCAGGCGTTGGTTGACGCCGGCATTTCCGAGAACACCTTACTGCTGTTCACCAGCGATAACGGACCGGATCATGGCGGTGAAGGCACCCTCTCGGCCGCACGATTCAATGCCAGCCTGGCAGGGTCAAAGCAATACGTGTACGACGGCGGAATCCGGCTTCCGCTTATTCTGCATTGGCCTTCCGGCGTCTCTGTGGGCAGCACAAGCCAATTCGCCCATTTCACTGACTGGTATCCAACCCTGCTGGGAGTAGCGGGAGCAAAAAATCCTGGCCACATGCCGATCGATGGTCAGGATCTACGCCCAGTGTTTGCCGGTTCAAACGTAGACTCGGGGCCCCGGTTCTGGCAGTGGACCCGCTACCTGCCGATGCTTGCCTCGAATGCGGCGATGCGGGATGGGCCCTGGAAACTGGTTCACCCAGCCCTCGCCGGAACACTGGATCTGGATCCAGAAGATGAGAGAACCGACGCTGACATCAAGGTCCACCCCGAGCGGTACCCGGAACCTGTCAAATGGACGCCACCTGTTCATGCGATGCCAGAGGCAGCCCCCATCGAACTATTCAACATCAGCGACGACCAGGAGGAACGGCAGGACGTCGCGGACCAGCATCCCTCCGTCGTGTCTCGAATGGAAGCAGACCTGAGCCGTTGGTTCGAGTCCGTGGAGGCGGAGCGGAACATGTCTCGGCCAGCCCTGCGCGAAGGGAGGGAGAGGAGATACCCATGA	MRAREQLSLPNIVLILADDMGYGDFGFLNSQLTSTPALDELASESLVFTQHYSASPVCAPARAALLTGRYPQRTGVIDTLEARGTDRLSLAEVTLADALRAGGYRTGLVGKWHTGAIGDDYAPRQRGFDEFVGFRGGWQDYWQWTLEVQGGRARSDGRYLTDVLADESVEFIRRHAGEPFFLHVAFNAPHFPFQAPKELIRRHQSADRTDVVATIYAMIEVMDRGVGRIRQALVDAGISENTLLLFTSDNGPDHGGEGTLSAARFNASLAGSKQYVYDGGIRLPLILHWPSGVSVGSTSQFAHFTDWYPTLLGVAGAKNPGHMPIDGQDLRPVFAGSNVDSGPRFWQWTRYLPMLASNAAMRDGPWKLVHPALAGTLDLDPEDERTDADIKVHPERYPEPVKWTPPVHAMPEAAPIELFNISDDQEERQDVADQHPSVVSRMEADLSRWFESVEAERNMSRPALREGRERRYP				NA	NA	NA	NA	NA
D1-29_02030	1512		COG3119	N-acetylgalactosamine-6-O-sulfatase	ATGAACCGTTCGACCAGACCCAACATCGTCCTCGTCCTGGCCGATGATCTTGGCTGGGGGGATGTCAGCTGCTATGGAGCAACCAGGATCACGACGCCGAACATAGATTCACTTGCGGCTGAGGGGATCAGGCTGACTGACGCCCATGCAGCATCGGCGGTTTGCACTCCTAGCCGGTATGCACTCCTGACAGGGCGGTACAGTTGGCGCAGCCCCCTTAAGCAAGGCGTGCTCATGGGTCATGGCCCTGCCCTGATTGAGCCCTTCAGGGCCACCTTCGCATCAGTCCTGAAAGCCGCAGGGTACGCTACTGCGGCGATCGGTAAATGGCACTTGGGACTGGGATGGAAGCACCTCGACGGCAGCACGTGGGACGCCTTCAATGGAAAGGATCCGCTCGAATATCAGCTGGGGGATCCGCTGGTAAAGCACCGGGACATGGATGTGGACTCCGGAGTCGATATTGATTACTCCAAGCCGTTCGTCGGCGGTCCACTTGATCTGGGTTTCGATCGGTTCTTCGGCATTGCCGGTTCCCTCAACATGCCGCCTTATGCCTTCTTGGAGCAGGACCGCACCGTCGGGGTTCCGAGGCGGAAGAAGCGGCGCTTCCTGCCCAGTCAGCGGCCTGGCTTTGAATCCGATGATTGGGACGAACGGGAAGTGGACCTCCGTTTCACGGCGGAAGCGGTCCGCTTCATCCACCGTCTGGACAAGAACAATCCCTTCTTCCTGTATTTCTCGCCTTCCGCCCCGCACCGGCCCCAGGTCCCTCCGGCATTCCTTAAAGGGTCCTCGCAGGCCGGGGCACGGGGAGATTCTGTGGTGTTCGTTGACTGGATGGTTGGAGAACTGGCGCACGCCCTCCGCGAGGACGGGCTTTTTGATAACACCCTCTTTATATTCACCAGTGACAATGGAGCCCCGACTATCTTCCCGGACGACGGGGATACCACGGAGCACCGGGCCAATGGTCCATGGCGGGGGCAAAAAGGCGACGTCTGGGACGGCGGTCACCGTGAGCCCTTCGTAGCCCGCTGGCCAGGAACCATCGTTCCTGGAACAGTCAGCCACTCGGCCATTGGGCTCATCGATCTCTTGCCCAGCATTGCTGCTCTCCTGGACCTGGAGTTGCCCGACGCCGCGGCGCCCGACGGCGCCGACCGCTCAGGTGCCCTGCTTGACGCCGCCGCTGGTGAGGAGCGGCCCCTCGTTCTGCACAGCATGGGTGGGGCGTTCTCAATCGTTCGCGGTCGGTGGAAAGCAATTTTCGCCACGGGGTCCGGGGGAGGACTGTCAGAGCCCAGGGGCGAGAATCTCAGCCGGGAGCATCCAGTCGGACAACTGTACGACATGGCACTGGACCCTTACGAAACGACGAATGTCTGGAACGAGCACTTAAACGTCGTAACTGATCTCTATTCAGCCCTCGCCGGCATCGTCGAAGCGGACAACGGGTTGCCGTTGGACGTTAAGTTGACCGAGTTTTTTCCTGCTCAGAAGCCAACCTGA	MNRSTRPNIVLVLADDLGWGDVSCYGATRITTPNIDSLAAEGIRLTDAHAASAVCTPSRYALLTGRYSWRSPLKQGVLMGHGPALIEPFRATFASVLKAAGYATAAIGKWHLGLGWKHLDGSTWDAFNGKDPLEYQLGDPLVKHRDMDVDSGVDIDYSKPFVGGPLDLGFDRFFGIAGSLNMPPYAFLEQDRTVGVPRRKKRRFLPSQRPGFESDDWDEREVDLRFTAEAVRFIHRLDKNNPFFLYFSPSAPHRPQVPPAFLKGSSQAGARGDSVVFVDWMVGELAHALREDGLFDNTLFIFTSDNGAPTIFPDDGDTTEHRANGPWRGQKGDVWDGGHREPFVARWPGTIVPGTVSHSAIGLIDLLPSIAALLDLELPDAAAPDGADRSGALLDAAAGEERPLVLHSMGGAFSIVRGRWKAIFATGSGGGLSEPRGENLSREHPVGQLYDMALDPYETTNVWNEHLNVVTDLYSALAGIVEADNGLPLDVKLTEFFPAQKPT				NA	NA	NA	NA	NA
D1-29_02031	1281			hypothetical protein	ATGAAAACGTCAACGGCCAACGCGAGAAGGCTCGTCGCGGCCACCGCTGCGCTGGCTCTCGTCACTGGATGCTCGCCCGGGGGCGGGACGACAGATGAAGAGGTGACAGAACTTAACTTGCCGGCCGTCGAAGCGCCATGGTTGGACGGTTACAAGAAGATCATCGCCGATTACGAGAATGAAAAAGGCATCAAAATAAACCTCACCTCATTTCCGTTCGACGGGCTGCTGACTCAAGAGGCGAACGCCGCCCAAAGCGGGTCGAACGCCTTCGATCTATTCCTGATCAACGAACAGTGGGTCGGGCAGTTCTACGACAACGAGTGGGTGCAGCCGCTCGAAGAGGTGAACTCAGACTTCGAATGGGACGAGAACCTTATCGAATTTGATGGAATAGGGCGGTGGAATACGGACGCCCGCACGACCACTTTGGACGGAGCCCCTTATTCCCTGCCTATCAACGGCAACATTCACGAATTCATGTATCGAACCGACCTTTACCAACAGCTCGGTCTCAAGGTCCCGACAACATGGGATGAAGTGGTTGCCAATGGTAACGCAGCTAAGGCTGCAGGTGCTGTGGGTAGCGGCTACGTTGTGCGAGGCAAGACGCCCTCATACGACTTCAGTGCATTGCTCTACTCCTATGGCGGTAAGTGGTTCGAAGATGAGGCCGGCGGCAACTGGAAGCCAGCCATTGACTCACGGGAATTCAGGCAAGCCTTGACGAAGTTCAAGGAGTTGGCCGACATCGGGCCGGCAGCCCCGCAAACCATTGCCCAGGCCGAAGCGATTTCCCTCATGCAAAGCGGCGATGTTCTGCAAACATCCCTCGTGACAGCGAATGCCGTTCCGATTGAGAACCCGGCTGCCTCCCGGGTTGCTGGCAAGATCAGTTACGCCAAGTTGCCGGGCGGCACACCAGTCAGCGGCACGTGGACCATGGGTGTCCCGACGGGACTACCGGAGAACCGTTCTGCTGCCGCCTATGAGTTCCTGACCTGGCTCACCAGCAAAGACACCATGCAGAAGTGGGAGGGGTACGGCGGCGTGACGACGCGTGCGGACGTCACCAGCCAACGGCCCGAACTAAAAGTCCTCATCGAATCGGAGGAAGACATCCGCGGCGGTCTGCGGTATCCGTTCACGCCGGCCCTGCTTGACGTTACTGATCCGGCCATTGGCGAGTACCTCGCAGGAACAAAGAATCTGGAAGATTCAATCTCTACCATGCAGGACCGTCTCACCGAGGTCGTCGAAAAGGCAGGCTTCCTGAAATGA	MKTSTANARRLVAATAALALVTGCSPGGGTTDEEVTELNLPAVEAPWLDGYKKIIADYENEKGIKINLTSFPFDGLLTQEANAAQSGSNAFDLFLINEQWVGQFYDNEWVQPLEEVNSDFEWDENLIEFDGIGRWNTDARTTTLDGAPYSLPINGNIHEFMYRTDLYQQLGLKVPTTWDEVVANGNAAKAAGAVGSGYVVRGKTPSYDFSALLYSYGGKWFEDEAGGNWKPAIDSREFRQALTKFKELADIGPAAPQTIAQAEAISLMQSGDVLQTSLVTANAVPIENPAASRVAGKISYAKLPGGTPVSGTWTMGVPTGLPENRSAAAYEFLTWLTSKDTMQKWEGYGGVTTRADVTSQRPELKVLIESEEDIRGGLRYPFTPALLDVTDPAIGEYLAGTKNLEDSISTMQDRLTEVVEKAGFLK	PGPT0016545_7496	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
D1-29_02032	960	araP_1	COG1175	L-arabinose transport system permease protein AraP	ATGAGCACCACGATCAGGGCCGGTTCCACTTCCGGAGGACGGGATGTGGGCCGGCCCCCTGGACAACGTGAACATCGGCGGAAGCCGTTCCCCTGGTTTAAATACCTGGCTGTCCTTCCCCTCCTGCTCTTCTTCCTGGTACTGGTTGCATTTCCGGTCGGGCAGCTCGTCTGGATGGCCTTCGGAAGGGTCAGACTGGTTGCAGGTAACTTCCTGTGGAGGCCAGTTGGTTTCGACAACTTCACGGAGATGATGTCGGACAGAGTGTTCGGTATTTCACTATGGAATTCTGCTGTTTTCATCACCTCCACGGTTGTCCTCACGCTGGTGCTGGGCGTTCTACTGGCCTTGGCAACGGAGCGTCTCGTCCGAGGGCAACAGTTGGCCCAGAATGTCATAATCTGGCCTGCCATCATTGCCCCTGTTGTCATCAGTGTTATCTGGCTGCTCATCCTCAGTCCCCAGATCGGACTGCTGAACCGCATACTGATCAGCTTTGGAATAAGTCCCCAGGCCTGGTTGGGTGACAACTTTGGCGCGATGGCCAGCGTCATCGTGGTCGACGTGTGGCACTGGACGCCGATAGTTTTTCTGTTCGTCTATACGGCGCTGCGGGGTCTTGATACAGAGGTGCTTGAGGCAGCCAGCGTGGACGGCGCCAGCTATATGCAGCGGGTGCGGTTTGTCGTCCTGCCTCTCCTGGCACCGGCCATCCTTGGCGCTGCCGCAATCCGGATCATCATGGGTGTGAAGGTCTTCGATGAGATGTACCTCCTCACTTTTGGCGGGCCAGGTACAGCCACGACCGTCATCTCGATCTACCTGCGCTCCGTGTTCTTTGACGCCTTTGAATACGGCTACGGGGCTGCCCTGAGCGTCACGGTGGTGCTGCTGGTCCTGCTGGTACTCATCCTCGTGTTCGTTTCCCGGACACTTATCAGGAGGTTGTCCCGTGGCTGA	MSTTIRAGSTSGGRDVGRPPGQREHRRKPFPWFKYLAVLPLLLFFLVLVAFPVGQLVWMAFGRVRLVAGNFLWRPVGFDNFTEMMSDRVFGISLWNSAVFITSTVVLTLVLGVLLALATERLVRGQQLAQNVIIWPAIIAPVVISVIWLLILSPQIGLLNRILISFGISPQAWLGDNFGAMASVIVVDVWHWTPIVFLFVYTALRGLDTEVLEAASVDGASYMQRVRFVVLPLLAPAILGAAAIRIIMGVKVFDEMYLLTFGGPGTATTVISIYLRSVFFDAFEYGYGAALSVTVVLLVLLVLILVFVSRTLIRRLSRG	PGPT0016535_9682	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
D1-29_02033	885	ngcG_3	COG0395	Diacetylchitobiose uptake system permease protein NgcG	GTGGCTGAAGTCCGCACTGTTTCCCCCGGAACCGAAGCTCGGCAGCGAACTGGAGCTTCAAAACAGGGCGGCGGCCACTGGATCGCCCGCCTGATCGTTATCGGAGCGGCCATTATCACCATCGTTCCACTGATCTGGATGATCTTTATTTCACTCCAGAAACCACGGGTTATCATCTCCATGGGCTGGGGCGCTGAATTCGCCATTGATAGCTTCGCGGAGATTTTTGATCCCCGCGCGGTTTTCGGTCAGCAGGTCATCAACAGTATTCTGCTCGTCGTTTCAGCGACCGCGATCACACTGGTCGTCAGCGCGCTTGCCGGCTACAGTCTGAGCCAGTTGAGATGGTCCAACCGGGTTGTTGTAACGGTGCTTTCGGTCTCCGCCCTGCTCCAGGTTATCCCTCCGATGACTCTGGTCCCGGGGCTTTATGCGACGCTGACCAACTACGGTCTCGTTAACAGCCTTGGTGGGCTTATCCTGCTCAATACCGTGTTCAATCTCCCGTTCGCCACGATCATGACGAAGTTCTACTTCGACACCATCCCTGGTGAACTTCGCGAATCGGCGGCTATCGATGGGGCAAGTGAATTCGGCGCCTTCCGGACGGTTATGTTGCCTCTCGCGGCACCTGGGATCGCCGCGGTGGCGATCTTCACGGCTATCCAGGTCTGGAACGAGTTCCTCTTCGGCCTGGTCTTCACCACCGGTGGTTCACAGGCTCCCATCACAGTAGGCATCGCGGCGCTGATCCAACCCCAGGAAATAAAGTTCGGCGCAATGGCCGCTGTGGGAGTTGTCACCGCCGTTCCCATTATTCTGCTCGCCATCGTGGCTAACCGGCAGATCGTGGCCGGTCTCACCGGCGGCGCCGTGAAGGGATAG	MAEVRTVSPGTEARQRTGASKQGGGHWIARLIVIGAAIITIVPLIWMIFISLQKPRVIISMGWGAEFAIDSFAEIFDPRAVFGQQVINSILLVVSATAITLVVSALAGYSLSQLRWSNRVVVTVLSVSALLQVIPPMTLVPGLYATLTNYGLVNSLGGLILLNTVFNLPFATIMTKFYFDTIPGELRESAAIDGASEFGAFRTVMLPLAAPGIAAVAIFTAIQVWNEFLFGLVFTTGGSQAPITVGIAALIQPQEIKFGAMAAVGVVTAVPIILLAIVANRQIVAGLTGGAVKG	PGPT0016540_4700	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
D1-29_02034	1305			Ulvan-active sulfatase	ATGTCAGTACCTGGCGCACATGCGCAAGCTCAAGGGCAACCCAACATTGTGCTCATCCATTGCCACGACCTTGGGGATTGGCTAAGCACTTATGGGTACAGGGCAGTTCCAGACAGCCGCTTACGGGCCTTTGCGGAAGAGTCGCTGGTTTTCGATGCAGCATTTGCGACTGCTCCGTTGTGCACGCCTGCGCGTTCATCCCTCTTTACTGGTCAAATGCCGCACCAGAATGGCTTGATGGGGCTGACGCACCAGGGATGGCAATACGCGCCAGGGGTCAAGACACTGCCGGAGATGCTGTCACCGCTTGGCTACCATACGACGCTGATCGGCCTGCAACACGAAGATTTCGACGCGCGGGTGCTTGGCTTTGACGAGGTCCTGGGTCTTGGTTTCATTCCACGGGCTATGGAAATCGCCCGGCTGGTACAAAGGTGGCTCTCGCACAACCGGAACAGCAGCCCCTACTTCGCCACTATTGGGATGTGGGAAGTTCACCGGCCATGGCCTCTAGAGGACTACGTGCCTGCTGATCCCGATACTGTAGACGTGCCGCCGTACCTGCCTGATAACGGCTATACCCGTGCCGACATTGCAGGGTTCTATGGCGCGATCCGACAGATGGACGAAGCATTTGCTCTGATCCTGGCAGCCCTAGATGCCAGTCCGGATGCGGGCAACACCCTCGTCATCTTTACTACCGATCACGGTGCGGCATTTCCGAGGGCAAAGAGCACCCTCTACGATTCAGGCGTCAAAGTGACCCTGTTTGTTCGTCCGCCGCCTCAATGGAGTGTCCCTCCCACCCGGATCCAGGCTCTAGTGAGCCACTTGGATATCGCCCCAACACTTGTCGAGCTGGCTGGGGGACCAACAGAGCAGGAGGTCGCGGGCAGAAGCTTGGCCCCGTTGCTGCGGGGTATAGGACCTGAAGGCAACGAGAGGAGGGAGCTCTTTTTCGAGAAGACGTATCACGACAGGTACGACCCCATCCGGGCCATTCGCACACAGGACGCAAAGTACATCCGCAATTTCCTGGATGGACCGCTGCTTCCTCTTCCAGCCGACTTGGAGAACAGCGAAACGAGGGCCGGAATGGGAAACGCGCACCTTGGGCCCCGGCCAAAAGAGGAGCTTTATCTCTTGGGAAGCGACCCATGGGAGCTGACCAACGTCGCCCAATCGCCGGAGCACGCCGAGCTGAAGGATCGGCTCGCGGACCACTTGGCTCAATTCATGCAGGAAACATCCGATCCGCTGTTGGAGGCGGACGTGGATGAACCGCCGGCACCCCATAGGAGGTGA	MSVPGAHAQAQGQPNIVLIHCHDLGDWLSTYGYRAVPDSRLRAFAEESLVFDAAFATAPLCTPARSSLFTGQMPHQNGLMGLTHQGWQYAPGVKTLPEMLSPLGYHTTLIGLQHEDFDARVLGFDEVLGLGFIPRAMEIARLVQRWLSHNRNSSPYFATIGMWEVHRPWPLEDYVPADPDTVDVPPYLPDNGYTRADIAGFYGAIRQMDEAFALILAALDASPDAGNTLVIFTTDHGAAFPRAKSTLYDSGVKVTLFVRPPPQWSVPPTRIQALVSHLDIAPTLVELAGGPTEQEVAGRSLAPLLRGIGPEGNERRELFFEKTYHDRYDPIRAIRTQDAKYIRNFLDGPLLPLPADLENSETRAGMGNAHLGPRPKEELYLLGSDPWELTNVAQSPEHAELKDRLADHLAQFMQETSDPLLEADVDEPPAPHRR				NA	NA	NA	NA	NA
D1-29_02035	1407			Ulvan-active sulfatase	ATGGCTGGAAGACCCAATATCTTGTTCATTCTGAGTGACGATCAGGGCCCGTGGGCGATGGGTTCCTCAGGCAATGCTGAGATACTCACTCCGCATCTGGACTTACTTGCCGAACATGGTGCCCGTTTGGAGAATTTTTTCTGTTCCTCGCCCGTCTGCTCGCCGGCCCGGGCGACCCTGCTCACTGGCGGCGTCCCATCGGGGCACGGGGTGCACGATTTTTTGGTGGGCCACGAAGCAGGCGAAGAGGGAATCGATTTTCTTGAGGGACAGCGCCTTTTCACTGGCGCCCTCGTGGATGACGGATATACCGTTGGACTGGTCGGAAAATGGCATCTTGGTGCCAGTGACCGGCCCCGGGAGGGGTTTAGCCACTGGTTCGCCTTGGAAGGGGGCAGCAGCGATTATCACAACGCCACCGTGTATAGAGGATCAGCCAAGGAAACTCCCACGTCCTATCTCACTGACGTCTTCGCTGACGAGGCAATCGCGTTTCTCGAGGAAGGTGCCAGCAACCCGCGCCCCTTCTTTTTGTCCCTTAATTTCACCGCCCCGCACAAGCCGTGGACGGGTCAGCACCCGGAGCGCTTTGAGCGGATGTACGAGGATTGTGCCTTCGAGTCCTGTCCCGAGGAAAAGCCACACCCCTGGCTTGCAACTAAGAATGGCATGCCAATTGCTGGTGAAGCCGACCTCAGGTCCGCCCTCATAGGATATTTTGCAGCAGTCAGCGCCATGGATCACGCGATTGGCCGGGTCCTGAACCGCCTGCAGGAACTGGGCCTGACTGAAAACACACTCGTGGTGTTCTCAAGCGATAACGGGTTCAATTGTGGCCACCATGGCGTCTGGGGAAAGGGCAACGGAACCTTTCCCTTGAACATGTACGACTCCTCGGTAAAGGTCCCGGCGATCTTCTCCTTCCCGGGCAAGATCCCGGCAGGACAGGTCGTGGATGACCTGCTTTCAGGCTATGACATGGCCGCGACTCTATTGGACCTGGCCGGTATTGGGCCATACGAGTTCGAGCAAGGGCCAGGCAGGAGCTTCGCCAGCGTGCTTCTAGGCCGTGGTCTCCATGCCGAGCAGCGGCCCGTAGTGGTGTTTGACGAATATGGACCGGTGCGCATGATTCGAACCCGTGAATGGAAGTACGTGCACAGGTATCCCCTCGGTCCACACGAGCTCTACAATCTTCAGTCCGATCCCGGTGAGAAGAGGAACGAGTTCAGCAATCCCATGAACTCAGCCCTCGTCGCTGATCTGAGCAGGCAGCTCCATTCATGGTTTTCGCTTCACGCAACGGCAAAGCGCGACGGCAGCTTCCTCCCAGTCTCTGGCGGCGGGCAATCAGGGATGGTCACAGAGGATCCCTTGAATGCGTTTATTCCCCGGCAAATCTCATAG	MAGRPNILFILSDDQGPWAMGSSGNAEILTPHLDLLAEHGARLENFFCSSPVCSPARATLLTGGVPSGHGVHDFLVGHEAGEEGIDFLEGQRLFTGALVDDGYTVGLVGKWHLGASDRPREGFSHWFALEGGSSDYHNATVYRGSAKETPTSYLTDVFADEAIAFLEEGASNPRPFFLSLNFTAPHKPWTGQHPERFERMYEDCAFESCPEEKPHPWLATKNGMPIAGEADLRSALIGYFAAVSAMDHAIGRVLNRLQELGLTENTLVVFSSDNGFNCGHHGVWGKGNGTFPLNMYDSSVKVPAIFSFPGKIPAGQVVDDLLSGYDMAATLLDLAGIGPYEFEQGPGRSFASVLLGRGLHAEQRPVVVFDEYGPVRMIRTREWKYVHRYPLGPHELYNLQSDPGEKRNEFSNPMNSALVADLSRQLHSWFSLHATAKRDGSFLPVSGGGQSGMVTEDPLNAFIPRQIS	PGPT0013620_747	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_CHOLINE-O-SULFATE|PHOSPHORYLCHOLINE_UTILIZATION,PGPT0013620-betC-K01133	NA	NA
D1-29_02036	1542			hypothetical protein	ATGGCGCTATTGCGATTGGGGTCTTCGCTGGAGGCCTATGCCGGAAAGTTGGCTTACGCGGGAGACATTCACAATCACTGTGACATCAGCTATGGCCACGGAACCATCGAAGATGCATACCGGAACGCGCGCCTGCAGCTTGACTTCGCAAGCGTCACCGGACACGCCAGCTGGCACGATATGCCTGACCATCCCTCCCATGTGCGCGACTACCACAGCAGGGGATTCGCACACCTCCGGGACGAATGGGATCACGTCCAGGACGTTACCGAGGACGTTCACGACGACGGCGAATTCGTCACACTGCTCTCCTTCGAGTGGCACAGCATGAAGTACGGCGACCACTGTATTTACTACAGAGCAGGGCGGGGTCCGCTGTCTCCCTCCGCCGCCGGCAGCTTGGAGCAGCTCCGCGATGAGCTGAGGAAAATAAAGAGGAACGGGCTGGACGCCTTGGCGATCCCTCACCACATCGGCTATCAGTCCGGCCGGCGCGGAATCAATTGGGAGACATACACCGAGGAGTTTTCCCCCGTGGTGGAGATTCTTTCCATGCACGGGTGCGGGGAATCCGACTTGGCGCCAAGGCCATATTTGCACACCATGGGCCCAAGGGATTCGCGCAGCACCGCGCACCATGGCCTTAAACTTGGGCACACTTTCGGCTTTCTTGGTTCGACCGACCATCATAGTGCCCACCCGGGAAGCCACGGTTATGGAAGGGCGATGGTCTGGGCAGACGAGCTCACACGAGATGGCATTTGGAATGCCATACGGGCCAGGCGGACGTACGCAATTACCGGAGACCGCATCATCCTGGCTACCAGTGTTAACGGTTCGCCCATGGGTGCGGAGATCCTGAGCAGCAGTCAAAGGGAAATCGCAATAGATGTGGTCGCCGGATACTCCATTGATTACGTGGAGCTGGTCCGCAACGGGGAAGTAATTGCGCGAACGTCGCCGCAGGAAGTGAAGGAGTCACATTTTGATGGAGTGCTCTCGGTGAGCGTCGGATGGGGAGAAGTCGGAGTCAGGGATGCATGGGATGTCGAACTCGAAGTCTTGGGCGGCCGCATCACGGCCGTGGAGCCACGTCTTCACGGCAATGACATCGTGGCACCGAGCGACTCAATTGAAGGCAGGTTCAGCTTTTCCGCATGGCGGCAAATAGACGAGCACCGAATAGTCTTCTCGACCGAAACGAGAGGCAATCCAACGGTCATGACCGACGCGACCCAGCAGCTTGCACTGCATGTGACGGGCGATGACGACACCGTACTGGTCGGGAGGTTCAACGGAGTCGAGATGAAGCACTCAGTCGCCGAGCTACTGCAGGGCTCCCGGGCCGCATATAAAGGAGGCTTTCTTTCCGGAGCCATGCTCATGCACCGCGCGTCGCCTCTGAGCAGTCGCCACGTGCCCCTCGAGCTCCTGGACTCCGGATCAGGAGGCCCTCATGACTGGTACTACGTAAGGGTCCGGCAACACAACGATCAGTACGCGTGGAGCTCCCCAACGTGGGTCAGTGCTACCGGGCAATGA	MALLRLGSSLEAYAGKLAYAGDIHNHCDISYGHGTIEDAYRNARLQLDFASVTGHASWHDMPDHPSHVRDYHSRGFAHLRDEWDHVQDVTEDVHDDGEFVTLLSFEWHSMKYGDHCIYYRAGRGPLSPSAAGSLEQLRDELRKIKRNGLDALAIPHHIGYQSGRRGINWETYTEEFSPVVEILSMHGCGESDLAPRPYLHTMGPRDSRSTAHHGLKLGHTFGFLGSTDHHSAHPGSHGYGRAMVWADELTRDGIWNAIRARRTYAITGDRIILATSVNGSPMGAEILSSSQREIAIDVVAGYSIDYVELVRNGEVIARTSPQEVKESHFDGVLSVSVGWGEVGVRDAWDVELEVLGGRITAVEPRLHGNDIVAPSDSIEGRFSFSAWRQIDEHRIVFSTETRGNPTVMTDATQQLALHVTGDDDTVLVGRFNGVEMKHSVAELLQGSRAAYKGGFLSGAMLMHRASPLSSRHVPLELLDSGSGGPHDWYYVRVRQHNDQYAWSSPTWVSATGQ				NA	NA	NA	NA	NA
D1-29_02037	564			hypothetical protein	ATGACCGGCGGAGAACTCACCGCCGCACAAATCCGGGCCCTCCTCCATGAACTCGGCAGGCGCCTACAGGCCGCCGGCGCTCACGGCGACATCAAGTTAGTGGGCGGCGCTGCCCTCGTCCTTCAGGGCATCGGCAACCGCCCCACCGCCGACATCGACGCCAGCTACGCCGACCCACACACCATTCACGCCGTCGTCGCCGACATGGCCACGGACTACGACCTCGCCCCCGACTGGCTCAACACCAACGCCTCAGCTTTCGTCCCCGACAACGCCACCTGGGTCAACCTTGAACAACTCGACGGACTCACCATCCAGGCCGCAGACACCGAAACGCTCCTGGCCATGAAAATCGCCGCCGAACGCGACAAAGACACACTCGACATCGCCCGTCTCCTACACCGGCTCAACATCACCAACGCCGCCGAAGCCGTCGACCTCGCCTACAACAAATACGGCAGCCACTCCATCCCCCTGGCCGCAGGCCGCGACAACTACCTCATTGTCGTCGGCGACGCCCTCGACGCAGCCACCGCCCTCGACGAGTCTGAAACAGACGAGTGA	MTGGELTAAQIRALLHELGRRLQAAGAHGDIKLVGGAALVLQGIGNRPTADIDASYADPHTIHAVVADMATDYDLAPDWLNTNASAFVPDNATWVNLEQLDGLTIQAADTETLLAMKIAAERDKDTLDIARLLHRLNITNAAEAVDLAYNKYGSHSIPLAAGRDNYLIVVGDALDAATALDESETDE				NA	NA	NA	NA	NA
D1-29_02038	621			hypothetical protein	ATGACACTGGAAAGCACCATCGAGACGCCCGCAGCAGCCGGCGCCATCATCCGCGCCCGCCGCACAGCCCGCGGACTGTCCCAGCAAACCCTTGCCGACATGGCCGGAGTGTCACGGAAGTTCCTCATCGATCTGGAAGCCGGCCACGACCGCGCCGAACTCGGCAAAACCCTAGCCGTCATGAGCGCTCTCGGCCTGACCTTGGCCGCCACAGATCCCATCCCCCGCGGCAGCGACTTCGACCCGGCACGGCGCGACTACGCGACAACCTTTACGCGGCTCATCGCCGAACGGGACTTTGAGTTCGCGATCAAAATGCTCGCGGATTACGCCAACGCATCCCTCATCGCCGGCAGACCGCTCCTCCAGCGCAGCCCCCGCCTCAAAGACCCGCGCTGGTCAGCAGCCCTCGCTGGAATCACCAACTACACTGCACACCGCCTCGGCCAACCAGCGCCATCCTGGACGCGACGGATCAAGCCCCTCGACGCGGCGTGGATGCCGGCAGAGTCCTACCGCAGCATCCGGGAACCTATGAAAGAACTCACCCGCGCCCAAACGCCGCCGGAACTCGCCGCCCTGAACGTCTTCATCCGCGAACGCAGCCTGGCCACCGCATGA	MTLESTIETPAAAGAIIRARRTARGLSQQTLADMAGVSRKFLIDLEAGHDRAELGKTLAVMSALGLTLAATDPIPRGSDFDPARRDYATTFTRLIAERDFEFAIKMLADYANASLIAGRPLLQRSPRLKDPRWSAALAGITNYTAHRLGQPAPSWTRRIKPLDAAWMPAESYRSIREPMKELTRAQTPPELAALNVFIRERSLATA				NA	NA	NA	NA	NA
D1-29_02039	759	kdgR_1	COG1414	Transcriptional regulator KdgR	GTGGCCAGCGACGGCGTGAGAAGCGTGTTGACGGCAATGCGCGTGCTGGAGAGGCTTACCGAGCCCGGTCTGGTTGGCGTATCGCAGCTGGCCAGAGACTTGGAACTCCCGAAGTCGTCCGTACAGCGGATGCTCCGCACGCTTCAGGAGGGAGGTTGGGCCGCCGAGGTCCATGGCCAAGTGACACGCTGGACGCTCACGCCGAAAATGTTCCAGTTGGGGCAGCGACACCAAGCTGGCAATGATCTCCGCACGATAGCGCTACCGGTGATGGAGCAGCTTCGGGAGGAGACCCGAGAGACCGTACATCTCGCGACGGTTAAGGGGGACTCTGTCTTTGTCCTAGAGACTCTCGACAGCCCTCAAGCGGTGCGCGCGCACGTCTCTCCAGGTATGTCGATACCACTGTTGGCCTCCGCCCACGGGCACGCCCTTCTGTCGACACGGTCTGACAACGAGGTCCAAGGAGTCCTGCTCCGGGGACTGACCGCCTACACACCATTTACCATCACGGATGTTGATACTCTTGCCTCTGCCATTCATCAAACCCGGGTGCGCGGCTACGCAGTGAACGACCAGCAGTGGCAAGAAGGCGTCCACGGTATTGCAGCGCCGATCGTTGTCGCGGGGGTAGGGGTCGCTGGGATAGGCATCTCAACCCCGGTTCATCGAATGTCTGCTGAGTTGCAAGACAAGTTCGGGGAAATACTGGTGAAGGCTGCCATGGCCATCGCCCATGGCCTGGGAGAAACGCTCTGA	MASDGVRSVLTAMRVLERLTEPGLVGVSQLARDLELPKSSVQRMLRTLQEGGWAAEVHGQVTRWTLTPKMFQLGQRHQAGNDLRTIALPVMEQLREETRETVHLATVKGDSVFVLETLDSPQAVRAHVSPGMSIPLLASAHGHALLSTRSDNEVQGVLLRGLTAYTPFTITDVDTLASAIHQTRVRGYAVNDQQWQEGVHGIAAPIVVAGVGVAGIGISTPVHRMSAELQDKFGEILVKAAMAIAHGLGETL				NA	NA	NA	NA	NA
D1-29_02040	1350	ydfJ_2		Putative transporter YdfJ	GTGACTTATACAACGCCGCCTGGTGCGGCTAATACGGAAGTAGCTAAGGCTGCTCATCGTCGCGTCGGACCCGCAGTTGTCGTGGGAACCGCCCTCGAATATTTCGATTTCTTTTTGTACTCGGCGATGGCCGGACTCGTGATAGGCCCCACGTTCTTCCCCTCATCGGACTCGACTGCAAGCGCAATGGCGGCCCTCGCAACGTTCGGCGTCGGGTTCCTAGCCCGGCCACTTGCGGGACTGGTGTTCGGCATTATCGGAGATAAGTTCGGACGCAAAGTGGTGTTGTCCTGGAGTCTCATCCTGATGGGCGGATCCACGGGACTGATGGGATTGATTCCTTCGTACGACTCCATCGGCGTGGCAGCGCCAATCCTGCTGGTCCTGCTTCGCATCTTTCAAGGTGTGGGCGCAGGCGCAGAGTTCAGTGCTGCTATAACGGTCTCCTACGAGCATGCCGGGGACGGCAAGCACGGGCGGTTCGGCTCTCTCCCTACACTAGGAGTCAACTTGGGTGTCTTCTTCGCCTCACTCGCGGTGGCCGGGTTGGCCCTGATCGGCGACGACTTTTTCTACTCCTGGGGTTGGCGAATCCCCTTTGTAATAAGCTTTCTCGTTGCCGTCGTGGGATATGTTATTCGCCTGAAGCTACCGGAAAGTCCCGATTTCGAGGCAATGCCAGTGGCAGAAACCCGGAGAAGCTGGCTTCGTGTTCTGGCCGACCTATTCAGGTCGGACTGGAGAGGCCTGGTCATCGTATTTGCTGCCTACGCTGGCTACGCACTCATCGCGACCCTGTGGAAGACATTCTCTATTTCTTACCTTGCTGAATTCAAAGACATAGGCGGTGCTGTCAGCAGCTTCGGCATAACCTTGGCCAGCGCGGTCGCAATTTTCTGGACGCCCATTTGCGGCCGACTTTGCGACATGATCCCTGTTCAGAGAGTCCTGGCGTTCGGCGGCCTGCTGGTCATCCTCTACGCGTTCCCTTTCTTCTGGCTACTCAACACAGGAGTCCCGCTGTACATCTGGATCGCCTTGATTCTCGGCACGGGCCTTCTTGCGCCACTTCTCTCCGTAGCCGCAAGCCCCTTTATGGCGCGCCAATTTGCGACCAAAACCCGTGTGACTGGAATAGGCGTGGGCAAGGAATCGAGCGGCGCAGTTGCCGCCGGATTCGGTCCGGTGCTGGCCCTGGCACTTATAACAGCCTCCGGGACCGGTAGCACGGCCGCCGTTTCTGGCATGTTCATCGTCGGAGGCATCTTGTTCGTGTTCGCTGCCTGGCGAGGCCGTACAACACCACCCTCCATCGCTAAAGCGGACCAATCGCTGTTGACTGAGGTTTGA	MTYTTPPGAANTEVAKAAHRRVGPAVVVGTALEYFDFFLYSAMAGLVIGPTFFPSSDSTASAMAALATFGVGFLARPLAGLVFGIIGDKFGRKVVLSWSLILMGGSTGLMGLIPSYDSIGVAAPILLVLLRIFQGVGAGAEFSAAITVSYEHAGDGKHGRFGSLPTLGVNLGVFFASLAVAGLALIGDDFFYSWGWRIPFVISFLVAVVGYVIRLKLPESPDFEAMPVAETRRSWLRVLADLFRSDWRGLVIVFAAYAGYALIATLWKTFSISYLAEFKDIGGAVSSFGITLASAVAIFWTPICGRLCDMIPVQRVLAFGGLLVILYAFPFFWLLNTGVPLYIWIALILGTGLLAPLLSVAASPFMARQFATKTRVTGIGVGKESSGAVAAGFGPVLALALITASGTGSTAAVSGMFIVGGILFVFAAWRGRTTPPSIAKADQSLLTEV				NA	NA	NA	NA	NA
D1-29_02041	162			hypothetical protein	ATGGCGGGGCGTTCCAAGAACACCGATATCGAGGCTCACCCGAACCGCCTGGTCTTCCAAGCCACCCATATGGTCGTGGTGCTAGAGCACCTCAGGGAACGGCTCATCGACTCCTTCGACACCCAATTTATCTGGGAAACAAACTCTCAAAGAAAGTCATAG	MAGRSKNTDIEAHPNRLVFQATHMVVVLEHLRERLIDSFDTQFIWETNSQRKS				NA	NA	NA	NA	NA
D1-29_02042	570			hypothetical protein	ATGTTTGCGCTGGCAGAAAGACCTATCAAGCGACCGTCACCGGGAATGATGGAGGTCACCATCGAAAGTCCCTCACTTGTGGACAGTGCTTTGGACGATGCGGTAGTTCAAACAGAGGACGCCGCAGTTCGTCATGCGACTGGGATCATGATTACTCAGACACGGCCCGGCCGATACATCGTTCGCCGCGCGTCCGGCCCTGCCGTGGGGGCTCATCCTACAAAGCCACGAATAGGCGCACCAGAGGCCCCCTCTGGAACTTCCGCCCAGGCACTGCCCTTCGTCGTCGCCGCATCGGACCTGCCGAAGCAGTGTTGTCCCACCTTGAGCGCGGATAGAGACTGGTCCAAACCTCCAACCCGAGAGCAGCATCTAAAAATTCCCGCTGGCATAAGGCCTCAGGAGCAATCCACAGGCCGCTACCGTCGAGCATGGCATCGTCAACTAATCCGCGGCGATACACCCCTCCATCCAGCCAGACCTCGACGATCAAGCCGTCGAAGGACCGCCATTTGTCCGTATGGTGCATGCCGCCCTGAGCTTCATACTTACGATGTCGCCCGTCTCTGA	MFALAERPIKRPSPGMMEVTIESPSLVDSALDDAVVQTEDAAVRHATGIMITQTRPGRYIVRRASGPAVGAHPTKPRIGAPEAPSGTSAQALPFVVAASDLPKQCCPTLSADRDWSKPPTREQHLKIPAGIRPQEQSTGRYRRAWHRQLIRGDTPLHPARPRRSSRRRTAICPYGACRPELHTYDVARL				NA	NA	NA	NA	NA
D1-29_02043	906	panB_2	COG0413	3-methyl-2-oxobutanoate hydroxymethyltransferase	ATGGGCACCAATAACAGACCTGAAGAAGACACCTCAGCTGAGGTTCCGGCCCCCTACGGGGCGGGTCTCTCGAGGATCGGGGTTCCGGCTCCTGGGACGCCTAGGCGGCCAGATGGCAGGATCCGGACCCATCATTTGCAGCTGGCGAAGTACAACGGTGAACGCTTTGCCATGCTCACCGCTTACGAACAGTACACGGCGGAAGTCTTCGACCAGGCCGGCATCGAGGTCCTCCTCGTGGGTGACTCGGCTTCCAACAATGTTTTCGGCAACGAAAACAGTCTGCCAGTTACCGTGGATGAGCTGCTGCCGTTATGCCGGGCAGTGGCGCGTGCTGCCAAGCGCGCCCTCGTTGTTGCCGACTTGCCATTTGGGAGTTATGAGGTGTCAGCGGGTCAGGCCGTGGCCACTGGTGTGCGGTTCCTTAAGGAAGGCCTCGCGCATGCGGTGAAAATTGAAGGGGGCAGCTTTTTCACGGAAACAGTGAGGGCAATGGTCCAGGCCGGTATCCCGGTCATGGCACACATCGGCTTCACCCCGCAAAGCGAACACGCCCTTGGCGGCTACCGGGTCCAGGGCCGTGGGGATGACGCCAACCGGCTGATCCAGGACGCGGTTGCCCTGGCGGAGGCTGGTGCCTTTTGCGTGCTCATGGAAATGGTGCCGGCCGAAACGGCAGCGGCAGTTGATGCCGCCGTTTCCGTTCCGACAGTCGGTATCGGTGCCGGAAACGGGACCACCGGGCAGGTCCTCGTGTGGCCTGACATGGCCGGACTGCGGGCCGGCAGGATGGCGAGATTCGTCAAGCAGTACGCGGACATCCGCACTGCACTCAGCGACGCGGCCAAAGCCTACGGCGACGAGGTCCGCTCCGGGCAATTCCCCGGCCCCGAACACACCTTCTGA	MGTNNRPEEDTSAEVPAPYGAGLSRIGVPAPGTPRRPDGRIRTHHLQLAKYNGERFAMLTAYEQYTAEVFDQAGIEVLLVGDSASNNVFGNENSLPVTVDELLPLCRAVARAAKRALVVADLPFGSYEVSAGQAVATGVRFLKEGLAHAVKIEGGSFFTETVRAMVQAGIPVMAHIGFTPQSEHALGGYRVQGRGDDANRLIQDAVALAEAGAFCVLMEMVPAETAAAVDAAVSVPTVGIGAGNGTTGQVLVWPDMAGLRAGRMARFVKQYADIRTALSDAAKAYGDEVRSGQFPGPEHTF	PGPT0008740_361	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
D1-29_02044	438	panD_1	COG0853	Aspartate 1-decarboxylase	ATGCAAATGATGACTCGTATGATGTTCAAGTCCAAAATCCACCGCGCCACGGTCACGCACGCGGACCTGCACTACGTAGGCTCCGTCACCGTAGACCTGGACCTGCTGGAGGCAGCCGACATCCTCCCAGGCGAAGTCGTTGCGATTGTCGACGTCACTAACGGCGCACGTCTGGAAACTTACACCATCGCCGGCGAACGTGGCTCCGGCGTGATCGGCATCAACGGACCGGCCGCACACCTGGTCCACGAAAATGACATAGTCATTCTCATTACCTACGCGAATATGACCGCTGAAGAAGCCAAGGTTTACGACCCCAAGGTGGTCCATGTGGACCAGCACAATAGGATTCTCCGGCTCGGCAACGATCCCGCTGAAGGCATCACCCCGGGACTGACCCGCCCACCCTTCGCATTGAACAACAGCGAGGTGAGGTGA	MQMMTRMMFKSKIHRATVTHADLHYVGSVTVDLDLLEAADILPGEVVAIVDVTNGARLETYTIAGERGSGVIGINGPAAHLVHENDIVILITYANMTAEEAKVYDPKVVHVDQHNRILRLGNDPAEGITPGLTRPPFALNNSEVR	PGPT0008890_308	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0008890-panD-K01579	NA	NA
D1-29_02045	975			hypothetical protein	ATGATTCGCTTCGACGAACGGCCCGTTACAAGCGCAGGGCTCCGCAGCACAGTGCTGGGTTTTGGCGCCATGGAGTTACGGGGGGCCTCGCACCGTGTGCCTCGATTACTCGATGAGGGAGTTGCAGAGTTGCTCCTCAATACGGTGCTGGACGAGGGCATCCGATTCATAGATACTTCGATCGACTATGGAGAGAGTGAGGGGCTCATAGGGCGCTACATAAGTCATCGTCGGTCGGAGTATCTGCTGGCGTCCAAGGTTGGCTGCCCGCTGGACCACCAGCCTGATGGCCCGTCCAACGGCCCTCTTATCCATGACTATTCGCCTGCGAATATCCGCGCAGGAATCGAGCAAAGCCTCTCGCGTCTACGCACTGATTACTTGGACCTGGTACAGGTCCACATTGGGCCCTCTGTTGCGGTTCTTCAACGTGATGACGTGTTGGGGACACTGGAACGTGCCCGAGCGGAAGGCAAGGTTCGAGCGATTGGCATATCTTCCACTCTTCCGGACCTCTCTGACCACATCGACCTCGGCGTATTCGAGACTTTCCAAATCCCGTATTCCGCACTCGACCGTTCTCTCGAAAATTTTCTTCCGCTTATCAATGCCACCGGCGCGGGCGTCATAGTGCGGGGAGGAACGGCACGCGCGGCGCGAGCCAAATGGAAAGTGGACAGCGGGCATGTGTCACAGGCTGATCTTGCCTTGGACGATCTGATGGATGGCGACAACTTGCAGGGATTCCTCCTTCGCTTCGTGATGACCCGGGCGGAAGTGTCCACAGTGATCGTCGGAACAGCCTCTCCTGAGCATGTACGGGAGAATGCCAAGGCTGCAGCTCGAGGAATTCTGGCGGAGGACGTATACACAGAAGCACTACGGCGATTGGATACTGCTGGATTCCCCACTTCAAAGCGTTGCCCCGCTCCAAACGGTCAGAGACCGGCCGCACGAAGATTCGGGCGTCGGTAA	MIRFDERPVTSAGLRSTVLGFGAMELRGASHRVPRLLDEGVAELLLNTVLDEGIRFIDTSIDYGESEGLIGRYISHRRSEYLLASKVGCPLDHQPDGPSNGPLIHDYSPANIRAGIEQSLSRLRTDYLDLVQVHIGPSVAVLQRDDVLGTLERARAEGKVRAIGISSTLPDLSDHIDLGVFETFQIPYSALDRSLENFLPLINATGAGVIVRGGTARAARAKWKVDSGHVSQADLALDDLMDGDNLQGFLLRFVMTRAEVSTVIVGTASPEHVRENAKAAARGILAEDVYTEALRRLDTAGFPTSKRCPAPNGQRPAARRFGRR				NA	NA	NA	NA	NA
D1-29_02046	954			hypothetical protein	ATGAACGATTCGCAGGCAGCCACGATCGACCTCGAACTTGTGGAGCTTGACCATTGGGGGATGTCACCGGATGCAATCCTCCTGGATGAGAGCGTAGCTTCGAGGAGGGACCTTGCCACTTTCGAGTTATCAGAAAACGACAGGGCGTCCGACTACCATCTGACGTCCGAGTCCCTTCCGCAGGACGGCGTTCCCGCCGGGAAGTACTACCATTTCCGCTGGACCAGTCATGCCGTCTACCCCGGCGTCACCAGCAGTGTCTACCTGTATCTGCCCCATGGCGCTGAGGAAGCTGAATCGGTCAACTTGATGATCTGCCTGGACGGCCTGGAGTACTCCGGAGAGAAGTGTCGTGCCACCACAGTGCTGGACAACCTCGTGCATAAGGGCGAGATCCCCATGACCGTGGGCCTCTTCCACAACCCGGGCGAGACCGGACCGGGCTACCCGCTCATGGGCGGGAGCACCAACCGTGCTGTTGAGTACGACACGGTCAATGAGGACTTCGCCCGCTATCTGGTGGAGGAGCTGTTTCCTGTCATCCGGACCAAGGTCAGGCTGACCGACGACCCCCGGGGCCGCGTCATCTGCGGCTTCAGCGCCGGCGGCGCAGGTGCCTTCACCGCTGCCTTTCATCGCCCGGACGAGTTCGGGAACGTCGTCTCGCACTGCGGCGGCTTCATCAACATCCTCGGTGCACACAATCTGCCCAGCATGGTCCGGCGCGCGCCGCGAAAGCCGATCCGGGTCTGGCACCAGTCAGGCAAGCGCGACGTCGACATCATCTACGGCAACATCCCCATCGCCAACCACGACCTCGACGCAGCCCTGAAGTATCGCCGCTACAATTCGATGTTCGTGTTCGGCAGCGGCGGACACACCCTCGCCCATGGCGGAGCAGTGTTTCCCGAGACACTCCGCTGGATCTTCCGCGACCAGATTGAAGACAAATGA	MNDSQAATIDLELVELDHWGMSPDAILLDESVASRRDLATFELSENDRASDYHLTSESLPQDGVPAGKYYHFRWTSHAVYPGVTSSVYLYLPHGAEEAESVNLMICLDGLEYSGEKCRATTVLDNLVHKGEIPMTVGLFHNPGETGPGYPLMGGSTNRAVEYDTVNEDFARYLVEELFPVIRTKVRLTDDPRGRVICGFSAGGAGAFTAAFHRPDEFGNVVSHCGGFINILGAHNLPSMVRRAPRKPIRVWHQSGKRDVDIIYGNIPIANHDLDAALKYRRYNSMFVFGSGGHTLAHGGAVFPETLRWIFRDQIEDK				NA	NA	NA	NA	NA
D1-29_02047	1515	proP_3		Proline/betaine transporter	ATGTCTACTGGAGACCAAAGATTTGGGAATGCCACCGGTGCCCATCATGGCAAGCGGCGTTTGAAATTAAGCGACATCCGCATAGTCAACAAGGCTGCCTTGAGGCGCGCTGTTGCCGGAACTGTCGTCGGAAACATTATCGAATGGTATGAGTTCGGTGTATTTGCCTACCTCATAACGGTAATGGGCCCGGTCTTCCTGCCGCAGGCCGACTCGACAGTTCAGGCTCTGTACCTATATGGCACATTCGCAGTAACTTTCGTTGCCCGACCGCTGGGGGGCGTATTCTTCGGATGGCTGGGAGACAGGATCGGGCGACGTAAGGTCCTGACCTTCACGCTGCTCCTGATGTCTGTCGCCACGTTTGCTACCGGTCTGCTCCCGGGCTACGCCGTCATCGGCCTCTGGGCTCCGGCACTTCTCGTGTTCCTGAAACTGCTGCAAGGGTTCTCCGCCAGCGGCGAATACACCGGTGGTGCGACTTTCTTGAGCGAATACGCCCCGGATAAGCGACGGGGTTTCTATGTTGGATTTATGGGCTCCAGCTACCTCGGATTCGCCTTTGGTGCCGGTTTGGTAGCTGTTCTTCAGCTAGGGCTTGGTCAGGATGCGATGCAGTCCTTCGGCTGGCGTATTCCGTTTCTCATCGCAGGGCCGCTTGCCGTCATAGCCCTGTACTTCCGCTATAGGATCGAAGAGTCGCCTACCTTCAGTGCCGTCTTGAAGGAGCGCGCTGAGGAATCCCGGAAAACCGGCGAGTTGGCCAAAAACCCGGGTATTGTGCAGGTCATTCGGGCCCACGGACGATTCATCCTGCCCGTCATGGGCGTCGCGGCCGCCGGCAATGTCATTGCCTACACCATGACGTCCTTCACTCCGACATATCTGAATCAGACGCTGGGCTTCCAAGGATCCCTCGGCACTCTTGTGATCTTTCCCTTGTTCGTCCTTGCGGCTTTCGCAACCCAGTTCTTTGCCTCGCTCTCGGACAAGATAGGCAGGAAGCGAATCCTGTTCAGCGGCGCAATCCTGGGCGTCGTGCTTCCTATTCCGGCGTTTATGATGATGGGGTCCGGCCAGCTTTGGGGTGCACAACTCGGGACACTTTTCATCATGATCTGCGCCACTCTCTTTTCGTCGAGCTACGCTTCTTCGCTGCCTGAACAGTTTCCTACGCCGTCGCGTTCCAGCGCTCTTGGGCTTGCATACAATGTGGGAAATGCTGCCTTTGGCGGTACGGCTCCACTGGTTGTTGCTGCGCTTATCGGAGTTACCGGGAACAAGATGGTGCCTGCCTACTACCTGATGGGCGCTGCCCTTCTGGGACTAATTTCCGTCTTTTTCCTCAAAGAAACAAGCAGGAAACCACTAGATGGGTCCATGCCCAACGTGGAAACAAGCGAAGAAGCCCAATACCTCATTGATACCCAGGACACCAACAACCTCCTCGATTCAACGGAACTGCCTCTCGCCCTGGTTGCTCATTCAGAGACCGAGGGCGGAGGTCGTATTTAG	MSTGDQRFGNATGAHHGKRRLKLSDIRIVNKAALRRAVAGTVVGNIIEWYEFGVFAYLITVMGPVFLPQADSTVQALYLYGTFAVTFVARPLGGVFFGWLGDRIGRRKVLTFTLLLMSVATFATGLLPGYAVIGLWAPALLVFLKLLQGFSASGEYTGGATFLSEYAPDKRRGFYVGFMGSSYLGFAFGAGLVAVLQLGLGQDAMQSFGWRIPFLIAGPLAVIALYFRYRIEESPTFSAVLKERAEESRKTGELAKNPGIVQVIRAHGRFILPVMGVAAAGNVIAYTMTSFTPTYLNQTLGFQGSLGTLVIFPLFVLAAFATQFFASLSDKIGRKRILFSGAILGVVLPIPAFMMMGSGQLWGAQLGTLFIMICATLFSSSYASSLPEQFPTPSRSSALGLAYNVGNAAFGGTAPLVVAALIGVTGNKMVPAYYLMGAALLGLISVFFLKETSRKPLDGSMPNVETSEEAQYLIDTQDTNNLLDSTELPLALVAHSETEGGGRI	PGPT0013645_59	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013645-proP-K03762	NA	NA
D1-29_02048	132			hypothetical protein	GTGACTAAAACCATGCGCGCTATCCGACTGACCGGACCCGACACACCCAGCGAACTCACCGTTTCACAGGTGCCAATCCCCGACGTGGAGCCTGGACAGGGGCGCATCCGCGTGATGGCGCTCGGCGTTTAA	MTKTMRAIRLTGPDTPSELTVSQVPIPDVEPGQGRIRVMALGV	PGPT0013255_3700	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
D1-29_02049	591	betI_3		HTH-type transcriptional regulator BetI	GTGCGGAAGGGCAAGCCGAACGATCCGGAGCGCCGGGCGCGAATCCTGCGCGCAGCCCTCGAAATCATTGGCATGGAAGGGGTTCACGCCGCCTCGTATCGGCGTATCGCCGCGCAGGCTGGTGTGCCGCTGGGGTCCACAACGTACTACTTCTCCGATCTGGAGGCTCTGATCGTCAGTGCGTTCGAGACACTCCGGGATGGCCTGGAGCCGCGATACGCGGCCCCACTGCGCGCCGCCCAGAACAATGCCGAAGCAGTTGATGTGCTCGTTGACGCCACGTGCGGCACGACAAGCCCGACCCTCGATGACATCCGGCTCTACGAGGAGATGCGCCACTACGGGGCACGAAGCTTTCAGGTGGCGGACCTCCTCCGCGACTTCCAGGAAGAATCCCTCGTGATCCTCCGTCGCTCCTTCCCCGACGGTTCCGCCCGAGCCGTCGACGCTCTCATGTGGGGGTGGTGGAGTTATCGCCTCTTCCACGAAGACCTGCCGCTCGACCAGAACATGGTCCGCCGCGCATACCAAGCCCTCGTCAACCTCCCCGTTACCGAATCCATAGCAGCACAGGAGACCCACCGTGACTAA	MRKGKPNDPERRARILRAALEIIGMEGVHAASYRRIAAQAGVPLGSTTYYFSDLEALIVSAFETLRDGLEPRYAAPLRAAQNNAEAVDVLVDATCGTTSPTLDDIRLYEEMRHYGARSFQVADLLRDFQEESLVILRRSFPDGSARAVDALMWGWWSYRLFHEDLPLDQNMVRRAYQALVNLPVTESIAAQETHRD	PGPT0014935_132	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014935-rcdA-K23778	NA	NA
D1-29_02050	384			hypothetical protein	GTGAACGGTGACATGCTTCAACAGCGCGCCAGGGACCGCGTCGAAGAGCTGCCGGGCGCCGGACTCGCGCACCCATTCGGGCCCGACTGGGACGTGTTCAAGGTGGGGGAGAAGGTCTTCATGTTGATGACCGAGGTCACGGGCCAACCCATCGTGATCGTCAAGGCCCACCCTGAAGATGGAAAATCACTTCGCGAGGAACACGGTGACATCACGCCCGGCTATCACATGAACAAGAAACACTGGATCACGCTGCACCCCGGCGGAACCCTGACGAAGACCCTCGTTGATGAGCTGGTTACCGAGTCTTACCTGCTCGTCGTCGAAAATCTGCCCAAGGCGAAGCGCCCCGTTGACCCCGTCCTGTTTGGCAGGACAGGCTGA	MNGDMLQQRARDRVEELPGAGLAHPFGPDWDVFKVGEKVFMLMTEVTGQPIVIVKAHPEDGKSLREEHGDITPGYHMNKKHWITLHPGGTLTKTLVDELVTESYLLVVENLPKAKRPVDPVLFGRTG				NA	NA	NA	NA	NA
D1-29_02051	360			hypothetical protein	ATGACCCTCTCCGGTGACCGGCTTCAACAGGCTGCCCGTAACACCGCAGCCGCACTGGGCGATGTCAGCAATGGGCGGCCGTTCACGCCCCACCTCGACGTGTGGAAGGTGCGTGGCAAAGTGTTCCTCATCATCACCGAAGACGACCCCGAACAGCAGATCATCACTGTCAAGGCCGACCCGCACCACAGCGACGCGCTCCGCCGCGACCACGACACGATCACCCCCGGTCAGTACCTCGACAAACGGCACTGGATCTCCGTCGGACCCGGCCCAGGTGTGACGAAGCGGCTTATCGAGAACCTGGTGGAGGACTCCTACGACCTCGCTTCCGGCCACCATCCGGAGCGGCGATCGTGA	MTLSGDRLQQAARNTAAALGDVSNGRPFTPHLDVWKVRGKVFLIITEDDPEQQIITVKADPHHSDALRRDHDTITPGQYLDKRHWISVGPGPGVTKRLIENLVEDSYDLASGHHPERRS				NA	NA	NA	NA	NA
D1-29_02052	1338	rarA	COG2256	Replication-associated recombination protein A	GTGAGCGAGCAACCCCTGTCGCTTTTCGACATGGATGACTCCTCCCGGCCCCTTGCCGACCGGCTGCGCCCGCGCATCCTGGCCGACGTCGTCGGCCAGGATCACCTCCTTGCCGCAGATGCCTCGATCGGGCGCATGGTCGGCGCGCAACGACTCGTATCGATGATCCTGTGGGGCCCACCCGGCTGCGGGAAGACCACCATCGCACGCCTCCTCGCAGAGCAAACCAACCTGGCGTTCGAACCGCTCTCCGCCACCTTCTCCGGTGTCGCGGACCTCCGGAAGGTGTTTCAGACGGCCCAGCGCCGGCGCGAGGTCGGGCAGGGCACGCTGCTCTTCGTCGACGAGATCCACCGCTTCAACCGCGCCCAACAGGACTCGTTCCTGCCCTACGTCGAAGACGGCACGATTGTCCTCGTCGGCGCAACCACCGAAAACCCCAGCTTCGAACTCAACGGTGCACTGCTGTCCCGCTGCCAGGTCTTCGTCCTGAAACGCCTCGACGACGTAGCGCTCAGCACCCTCATCAATCGCGCCCAACACATACTCGGTGCACCGCTGCCGTTGGATGAGGACGCCCGGCAGTCGCTCATCGCGATGGCAGACGGAGACGGCAGGTATCTGCTGAACATGATCGAACAGGTGCACGCCCTCCCCGCTCCCGTTGACTCGCCTGCCCTCGCTGCCGCGGTGCAAAAGCGTGCACCGTTATATGACAAGGCTCAAGAGGGCCACTACAACCTCATCTCGGCGCTCCACAAGTCGATGCGCGGCTCGGATCCGGATGCTGCCCTTTACTGGTTGGCTCGAATGCTCGACGGCGGCGAGGACCCGTTGTTCATCGCCCGCCGCATCACCCGGTTCGCCACCGAAGACATCGGCATGGCTGACCCCAACGCCGTACAGCAGGCCCTCGCCGCCTGGGACGTTTATGAACGTCTCGGTTCCCCGGAAGGCGAACTCGCGATCGCCCAAGCCGTGCTCTACCTCGCAACCGCGCCGAAGTCGATCGGCGTGTACCGCGGCTTCAACAGGGCCCGCGCCGCAGCACGAGGAACCGGGTCGCTGATGCCGCCTGCTCACATCCTCAATGCCCCCACCCGGCTGATGAAGGACCTCGGCTACGGCAAGGGCTACCAATACGACCCCGACACCGACACCGGGTTCTCCGGTGCCGACTACTTTCCCGACGGCATGCCTCGGCAGACCTTCTACGAACCCACCACCAATGGATACGAACGTGCCATCACCGAGCGGCTCCGCCACTGGGCACAACGGCGGACCGCCGGCCCAAGCGCTTCTACCCGCAACAACTCCACTACCTCCGAAACCGACTGA	MSEQPLSLFDMDDSSRPLADRLRPRILADVVGQDHLLAADASIGRMVGAQRLVSMILWGPPGCGKTTIARLLAEQTNLAFEPLSATFSGVADLRKVFQTAQRRREVGQGTLLFVDEIHRFNRAQQDSFLPYVEDGTIVLVGATTENPSFELNGALLSRCQVFVLKRLDDVALSTLINRAQHILGAPLPLDEDARQSLIAMADGDGRYLLNMIEQVHALPAPVDSPALAAAVQKRAPLYDKAQEGHYNLISALHKSMRGSDPDAALYWLARMLDGGEDPLFIARRITRFATEDIGMADPNAVQQALAAWDVYERLGSPEGELAIAQAVLYLATAPKSIGVYRGFNRARAAARGTGSLMPPAHILNAPTRLMKDLGYGKGYQYDPDTDTGFSGADYFPDGMPRQTFYEPTTNGYERAITERLRHWAQRRTAGPSASTRNNSTTSETD				NA	NA	NA	NA	NA
D1-29_02053	1440			hypothetical protein	ATGACCGACACCAGCAGCACCTCTACGAATGAAAACGCAGTTCGCTCTTGGCTGGGCATCCGGTACGCCAGCGCCGAACGGTTCCGCCGACCCACCCTGCTGCCCTTCAACCCCGATCTGCCCTACGACCAGAAAGGACCCGCACCGCTTCAAGCCGGCGACACCAGCTGGCTCGAAGCCAACAACGGGTTCAGTGAGGACTGCCTGAACCTCAACGTCTGGACACCCGAGGATGCTGGTGACGAGCCACTCCCCGTGGTCGTCTACATCTTCGGTGGCGGGTGGGAGCTTGGCGCGAACACCCAGACCACCTCGAACGCGTCAGGCCTCGCCGCCACCGGTCGAGCAATCGGCGTCTCGATCAACTACCGGCTCGGTCCGTTCGGCTGGCTCTCCCTCTCCCAATATGGCGGTGCACTCGAGGAGGCAACCAACCTTGGCCTGCAGGACATCATCACCGCGCTGCGATGGGTGCGGGAGAACATCGCCCGATTCGGCGGAAACCCGGAGAACGTCACCGTCACCGGCCACAGTGCCGGCGCCTTCTCCGCCCTTGGCCTTCTTGCCGCGCCATCAGCCGACGGCCTCTACCACCACATCGCCGCGTTCTCGGGCATGCCATCACGCCTGGTGCCGGCCTGGGGAGCGGAAGAGCGCGCGCTGAAAGTCCTCACCGAGCTGGGAATTCAGGACGATCCCGAACAGTTGCTGGACGTGGACGCGAAGCTGCTCGCCGAGACGATGAGCAAAACGCAACTGTCAGACCCTGGTGCAAGGCACGGCATCGACAACAACGTCATCGCAATCGTCGATGACCGCACTCAGCCCGGCGGCGTCATCGCCGATCATCCCCTGAGAGCCCTCGAGTCCGGACGCCACCGAGACGTCGACATATTGTTCAGCAGCACCACTCACGAGACCGATTGGTGGGTCCAGCACAAGACGCACGAGTTCGATCCCGGCAGCATCGGCGACCTCGTCGAGGAGTTCGCCACCCGGAACCGCATCCAACGCAGCCGCGCGCATAAAATCATAGCTGCGTACGACGTCGAAAGGCGCACCCCGGTCGAGGCCCGCGGCGCATTGCTCACAGACTTCTCCTTCACCCTGCCTCAGGTCCGTGGTGCGCTCGTGCACGCCGCGGCTGGAGGGAGCGCACATCTGCTCTCCGTCGGCCCTGTGGAAGGTGCGCATGCCGTTCACGGCACGGAGATGTACGGCATCGTTGGCCAAATGCGACCTGGCGCCAGCGACGAGCAGGTACTCCGCGACACCTTCGTTCGGGACGCTGTCCTCGCCCTTGCATCGGGCAAAACTGACCAAATGTGGGAACCCGTGACCGTCACACCCACCACGAAGGGCCTCGGCAACATGCCCTACGACGCCACCACCCACGCCAAGAACGTGCTCGAGATCTTCAGGGACATCGATCGCCCGTAG	MTDTSSTSTNENAVRSWLGIRYASAERFRRPTLLPFNPDLPYDQKGPAPLQAGDTSWLEANNGFSEDCLNLNVWTPEDAGDEPLPVVVYIFGGGWELGANTQTTSNASGLAATGRAIGVSINYRLGPFGWLSLSQYGGALEEATNLGLQDIITALRWVRENIARFGGNPENVTVTGHSAGAFSALGLLAAPSADGLYHHIAAFSGMPSRLVPAWGAEERALKVLTELGIQDDPEQLLDVDAKLLAETMSKTQLSDPGARHGIDNNVIAIVDDRTQPGGVIADHPLRALESGRHRDVDILFSSTTHETDWWVQHKTHEFDPGSIGDLVEEFATRNRIQRSRAHKIIAAYDVERRTPVEARGALLTDFSFTLPQVRGALVHAAAGGSAHLLSVGPVEGAHAVHGTEMYGIVGQMRPGASDEQVLRDTFVRDAVLALASGKTDQMWEPVTVTPTTKGLGNMPYDATTHAKNVLEIFRDIDRP	PGPT0030515_2430	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TANNIN_DEGRADATION	PUTATIVE-TANNIN_DEGRADATION-1,PGPT0030515-pnbA-K03929
D1-29_02054	786	crt_1	COG1024	Short-chain-enoyl-CoA hydratase	ATGACAGAGCTCAGGATTGATCGCCCAGCACCGGGGGTGCTCCGCTGTCGGCTGGACGGACCGGACACTTTGAACGCGCTTGATGATCCAGTCAAGCGTGCCTTGGTGGAGCAGATTGTCCGGTCAGGAGCTGAACCTGAGGTGCGGGTGCTGATGTTGACAGGTGCTGGCCGCGCGTTTTGTTCCGGTGGCGATATTCAAAGCATGGGGCAACGCACTCCGGCTGAGATGAACCAAGTGCTGACCTACGGCCGCCAGATTACCGAAGGCCTGTACAACCTCCAGAAGCCGGTCGTGGCCGCCGTGAACGGCATTGCTTCGGGGGCTGGTTTCAACCTTGCCCTTGCCTGTGACCTCATCTTGGCCACTCCGCAGGCCTGGTTCCAACAGTCTTTCGTGAAAATGGGTCTCATGCCGGACATGGGGGGAACATATTTTCTCGCCCAATCCATCGGCCTACACCGCGCCAAGGAGGCGGTGCTAAACATGCGCAGGTTCTCGGCGCATGAAGGCAAACAGCTGGGTTTCGTTGCCGAGGTTCTGGAGGGCGAGTCTTTTGACGACCAAGCCGTGGCGTACTGTGCTGCGCTTTCCCGACGAGCCCCTCTGGCCCTCGGACTGACAAAGTTCCTTACCAACCGCTCTGTGGACGGCACCCTCCGAGATGCACTGGACCGTGAGGGCCTTGCGCAGGGAGTCCTGGCTGCAACTGCGGACCACAAACGTGCCGTTGCCGCTTTTCATAGCAAAGAAGACCTTGACGCCATCGAGTTCACCGGTAATTGA	MTELRIDRPAPGVLRCRLDGPDTLNALDDPVKRALVEQIVRSGAEPEVRVLMLTGAGRAFCSGGDIQSMGQRTPAEMNQVLTYGRQITEGLYNLQKPVVAAVNGIASGAGFNLALACDLILATPQAWFQQSFVKMGLMPDMGGTYFLAQSIGLHRAKEAVLNMRRFSAHEGKQLGFVAEVLEGESFDDQAVAYCAALSRRAPLALGLTKFLTNRSVDGTLRDALDREGLAQGVLAATADHKRAVAAFHSKEDLDAIEFTGN	PGPT0006070_2068	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866	NA	NA
D1-29_02055	1002			hypothetical protein	ATGTCATTGGATCCAACACAACGTAACTCGCTCGTTCTGCCAGTTGTGTGCGCACCCATGGCAGGGGTGTCCGGGCCCGACTTGGTCCGCGAAGCGTGCAAATCGGGAATCATGGGCGTTTTGCCCCGACACAACGCCGCAGACCTTGCACAATTCGGGGACTGGCTCCGCCAGATCCGCCGCGACCTTGACGAGCATCACGAGTTGTATCCGTCCGCCATCATCGGTCCCCTTGCAGTAAATTTTTCTCGTCGCAGGACCGCTGATGAAATGAAAGAAGACCTTGATCTCTGCGCCCGGTACGGTGTGGACGTTATCGTGAGTGCGATGGGCGATCCGACCGAACTCACCCGAGTTGTCCAGGGATGGGGCGGCAAGGTCTTTCACGATGTCACGAGTATGCGTTTCGCTGAGAAGGCGATCTCCGCCGGCGTCGACGGTCTGACTTGCATCGTCGGCGGAGGAGGTGGCCACTCGGGGCTACTCAGCCCATTCGTCTTTATTCCGCAGGTGCGGAGTATGTTCGATGGCACAGTTCTCTTGGCCGGGACCATTTCAACCGGCGCCGCGATCAGGTCAGCAGAGATACTTGGGGCCGATCTTGCGTATCTGGGAACTCGGTTCATTGCGACGAAAGAGGCGAATGTTGCCCCCGCCTATCGGCGGATGCTTGTGGAGGCGAGATCGACTGATCTGATCTACACGAGCAGCGTAACTGCCGTTCCGGCCAATTGGTTGAGGCCCTCGCTCAGCTCAATTGGCTTAGATCCTGAAGATCTTCCGGTCTCATCCGGCCGCGGCAATTATGATCATCTGCCGCCCAAGACTCGACCATGGCGTGACATCTGGAGTGCCGGCCAAGGTATCGACCTCATCGACGATGTTCCTTCAGTATCGGACTTGGTTCAACGCCTACGTATTGAGTACCGCGCTGCTTGCCAAATTCCCGAATTTAGCCCGTTCCACGAGAACTCTGATTGCAGCGATGCTGTTGACGCCTAG	MSLDPTQRNSLVLPVVCAPMAGVSGPDLVREACKSGIMGVLPRHNAADLAQFGDWLRQIRRDLDEHHELYPSAIIGPLAVNFSRRRTADEMKEDLDLCARYGVDVIVSAMGDPTELTRVVQGWGGKVFHDVTSMRFAEKAISAGVDGLTCIVGGGGGHSGLLSPFVFIPQVRSMFDGTVLLAGTISTGAAIRSAEILGADLAYLGTRFIATKEANVAPAYRRMLVEARSTDLIYTSSVTAVPANWLRPSLSSIGLDPEDLPVSSGRGNYDHLPPKTRPWRDIWSAGQGIDLIDDVPSVSDLVQRLRIEYRAACQIPEFSPFHENSDCSDAVDA	PGPT0006800_3113	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
D1-29_02056	2154			hypothetical protein	ATGTCCGGTTGGAATGTTGATAACGCTGCGGGCCCTCTAGGGGCAGGCACGGTTACCCTGGTTGAGGGTTCGTCTTTCTGTATCTCCTTGGCGAATGGTGATATCCATCCTAAGCATCCGCATGGTCTTTTTGTCCAAGACACTCGTATCCTGTCGCACTGGAGCTTATCCGTTAACGGCCAGGTGGTAGAAGAGTTGGGGGCTGAAACGAAGGAGCCGTACCGCGCGCTATTTGCGGGACGTGTCCCCAGCCTTAATGGGCATGCCGATAGCCCCCTTATTGTGGAGCGGCTGCGTGAAGTGGGGTCCGGAATCCACGAGCAGATAACGGTTCGGAACTACTCGCCGGTGAGTGCGGAGTGCCTGGTTTCGCTGAGGGTTGCGGCTGATTTCGCTGATCTTTTCGAAGTGAAGGAGGCGCGACCCAAAAGGCGTTGGGACGAAACCCGCCAGAACCGGGGCGATGAGCTGGTTATTCAAGCCACCTGGCAAGATGTCCGTAAGGGCGTTGTTATTCGTGCCCCCGGAGCACAGGTCTCGCCCGAAACCCTGACATATAGGGTGACCATCCCACCGCACGGCCGGTGGAGCACAACCCTGACGGTGATGCCCGAAACCCAGGGCGGCAGTCGTCCACGGTCTTTCGTCCACACCGACGGCGAACTCTCGCCCAGCGACCTTCGCCGACAACAGTGGGTGGCCAAGATTCCGATCCTGCAGATGGGGAACCGGTCAATTGAACGGACCATGCGGCGTAGTTATGACGACCTGGGTGCACTCAGGATCGAAGATCCTAACCACCCGGATCGGGTTGTCGTGGCCGCCGGCGCGCCGTGGTTCATGACCCTTTTTGGCCGGGACTCATTATGGGCTTCGGAGATGTCGCTTCCAATTGATCCCTCCCTAGCACTGGGGACGCTGCAAACGCTCGCCGACCGCCAGGGCCGCGCAGTGGATCCAATTAGTGAAGAAGAACCCGGCAAGATTTTGCACGAGGTCAGGTTGGATGTCTCAAGCGCACTGGCGCTGGGAGGAAAGGCCACCTACTACGGCAGCGTTGATGCGACCCCTTTGTTCGTCATGGTTCTCGGATCGGTTAGCCGTTGGGGCTTCGCCGCGGACACCATTGCTGCTCTGCTGCCTCACGCAGACCGCGCGCTGGAATGGGTTCAGAAATACGGGGACAAAGACGGCGACGGTTTCGTCGAATATGAGCGACTGAACAATCGGGGGTTGATCAACCAAGGCTGGAAGGATTCCTGGGACGGTATTAATTTCGCAGATGGAAGTATGCCCGAGCCACCGATAGCCCTGTGTGAGGTCCAGGCGTATGTCTACGGAGCCTACGCGGCCCGCGCCTGGATGGCTTATGACGCCGGAGACGATGCCCTGGGGAACGAGTATGCCGATCTTATGGTGCAGTTAAAGAAGCGCTTCAACGAGGAATTCTGGATGCCGGAACGTGGCTATTACGCCGTGGCCTTGGACGGCAAGAAGCGCCAGGTCGACGCTTGCGCTTCGAACATGGGTCACTGCCTATGGCTCGGACTTGTGGATGAGGACAAGGCGCCGTCGGTGGTGAAGCACCTCATGTCCCCCGAAATGTTCAGCGGATGGGGCGTCCGAACCTTGGCCACGGACATGGGCGCCTATAACCCCGCCAGCTATCACAACGGTTCCGTATGGCCCCACGACAACGCCATCATTGCAGCCGGACTCCTGCGATACGGGTTTGTGGACGAGGCGCAACGGATCTCGACCGCCCTGCTGGAGGCCGCCGAGTTTTCCGGTGGCCGCCTCCCTGAGTTGTTTTGCGGTTTCAGCCGGGATCAATTCGCCGTGCCCCTTCCGTACCCGACGGCATGTTCACCCCAGGCCTGGGCATCAACAACGCCCATACTTCTGGTGACAGGCCTGATGCGATACGACGCACACGTTTCCCAAGGCGGCGTGTGGATGGACCCAGTCCTTCCCGCGTCTTTTGGCGACGTCCACATCACGAACGCACCCATGGCCGGCGGACGGATCACCATCGACATCTCAAACTCCGTCCCATCCGTCGATGGGTTGCCCAAACATTTGACTTTCCATCGGGGGCACAGGCCATGGATCACGGAGCTGGTAGACCAAGCCGATCGACGCCGAAAGGGCTAA	MSGWNVDNAAGPLGAGTVTLVEGSSFCISLANGDIHPKHPHGLFVQDTRILSHWSLSVNGQVVEELGAETKEPYRALFAGRVPSLNGHADSPLIVERLREVGSGIHEQITVRNYSPVSAECLVSLRVAADFADLFEVKEARPKRRWDETRQNRGDELVIQATWQDVRKGVVIRAPGAQVSPETLTYRVTIPPHGRWSTTLTVMPETQGGSRPRSFVHTDGELSPSDLRRQQWVAKIPILQMGNRSIERTMRRSYDDLGALRIEDPNHPDRVVVAAGAPWFMTLFGRDSLWASEMSLPIDPSLALGTLQTLADRQGRAVDPISEEEPGKILHEVRLDVSSALALGGKATYYGSVDATPLFVMVLGSVSRWGFAADTIAALLPHADRALEWVQKYGDKDGDGFVEYERLNNRGLINQGWKDSWDGINFADGSMPEPPIALCEVQAYVYGAYAARAWMAYDAGDDALGNEYADLMVQLKKRFNEEFWMPERGYYAVALDGKKRQVDACASNMGHCLWLGLVDEDKAPSVVKHLMSPEMFSGWGVRTLATDMGAYNPASYHNGSVWPHDNAIIAAGLLRYGFVDEAQRISTALLEAAEFSGGRLPELFCGFSRDQFAVPLPYPTACSPQAWASTTPILLVTGLMRYDAHVSQGGVWMDPVLPASFGDVHITNAPMAGGRITIDISNSVPSVDGLPKHLTFHRGHRPWITELVDQADRRRKG				NA	NA	NA	NA	NA
D1-29_02057	1026			hypothetical protein	ATGTCAGTTCAGCACTCTGCCGTCGGCCCCCTCCCTCCCTATGATCCAGAAATTGCGCGGTTCATGGCCAGCTTTCCAGCCTATGAAGACCAACAGGCTGCGCTCGAGGCGATGATTCAACAGAGGGAATGCGTTCTAGGTGAGGATCAGATTACTCGTAATGGGACGTTCACCGTTCGCGCGAAGGTCATACAGGGCCAGCAGGGACGCTCAGTGACCATGCATATCATAGGTCCGGCACACCAACCGGCACGTGGTGCCATCGTTTGGTTGCATAGCGGCGGGATGGTTTCCGGGGCGGCTCTCTCACTGGATCTTCCCCAAGTTTTGGACATCGCTGAAGACCAGTCCTTGCTAGTCGTTGCAGTGGAATACGCCCGGGCACCCGAGCATCCCGCCCCAGCCGGGATGCTGGATTCCCTTGATGCCTTTTATTGGGTCGCAGCTCATGCAGACGAGCTTAACTTTCCACGGAACGCCCTGTTCCTGCATGGACTCAGCGGTGGTGCCGGTCTGGCCGCTGCAGTGGCGTTTGAAGCGCGCGCGGCCGCCCTGGACTATGCCGGCTTGGTCATCGACGGGGCCATGATTGACGATCGGATGCGCTCGCTCTCCTATCAACAACTGGACAGCAGTTCTGAAGCCCTCGCCAGCATGTACCGCGTGATGTGGAACGCCGTCCTGGGAAAGGCCTCCCCCTCGATATTTGCGGATTATCCGCACCTCGCTGTTGGCCGACTGGTCGACCAAGATTTCTCCGGCTTCCCACCCGTATTTCTCATGTGCGGCGCCAGTGATGCCTTCCGGGACGACACAACGGCTTTGGCCCAGGCAATCTGGCGTTCCGGTGGCACAGCAGACCTGCACCAATGGGCGGGCACGATACATGGTTCCGACTTGATGGTGCCCGAAGCCCACGTCTCCAAGGAATCAGCAGCCGTCCGGAGAGGGTGGTACGACAGGAGAATGACGAGAATCGAACAAGACGCGAAACAGTCGCAGGACGAGAAAGTTCAGGCCATCTGA	MSVQHSAVGPLPPYDPEIARFMASFPAYEDQQAALEAMIQQRECVLGEDQITRNGTFTVRAKVIQGQQGRSVTMHIIGPAHQPARGAIVWLHSGGMVSGAALSLDLPQVLDIAEDQSLLVVAVEYARAPEHPAPAGMLDSLDAFYWVAAHADELNFPRNALFLHGLSGGAGLAAAVAFEARAAALDYAGLVIDGAMIDDRMRSLSYQQLDSSSEALASMYRVMWNAVLGKASPSIFADYPHLAVGRLVDQDFSGFPPVFLMCGASDAFRDDTTALAQAIWRSGGTADLHQWAGTIHGSDLMVPEAHVSKESAAVRRGWYDRRMTRIEQDAKQSQDEKVQAI				NA	NA	NA	NA	NA
D1-29_02058	2067	dorA	COG0243	Dimethyl sulfoxide/trimethylamine N-oxide reductase	GTGGAGGTGTCTTGGGAACGGGCCATAGAGCTGGTAAGTGCGGAACTCAGTCGGGTCTACACGGACTACGGCCCTATGGCTGTATACGGCTGCTCATATGGATGGGCCAGCGCCGGCCGTTTCCATCACACTCAAAGCCAAATCCACAGATTCCTGAACTCCCTCGGCGGATATGTTGCAGGTGTGACGGACTACAGTTACGGGGCCTCCGGCGTCCTGCTTCCGCACGTCATCGCTCCCCCGGTTGAAATTATGGCGAGGGCAACATCCTGGGACGTGGTCAGCCAGAACACGCAGCTGTTCGTTGCATTTGGTGGATTGTCAGAAAAAAACAGTGGAATAGGCCCAGGTGGAATTGGCCGTCACGTCGCCCGCAACGCAATCAAGGACGCGGTTGCGCGCGGCTGCCGCTTCATCGATGTATCACCAATCGCAGATGATACTTATGGGGAGGCCCAGGCCGAGTGGATCGCCCCCGTTCCCGGCAGTGATGCCGCTTTGATGCTGGCATTGGCCTTCGTCCTGGATGCAGAAAACCTCGCTGACTCGCAATTCCTGGACCGCTATTGCGTTGGGGCGAACAAATTCTTGTCCTACGTGCGCGGTGAAGTTGACGGAGCGCCCAAGAACCCCCAATGGGCAGAAAAACTGACATCGATACCTGCTGGACGAATCGTCCGGCTTGCACGCGAGATGGCAGCCTCACGGACGATGATCAACATCAGTTGGTCAATGCAGCGGCAGCAGCATGGCGAGCAACCTGTTTGGCTCGGTGTGACGCTGGCAGCCATGCTCGGCCAGATCGGGCTGCCTGGTGGTGGTTTCCAGCATGGATATGGCTCCTCAGCAGACGTCGGGTTGCCCTTGCGAGTCTCGAGCGCGCCCTCCTTTCCCCAAGGTCGAAACCAAGAACCGTCCTATATCCCGGTAGCTCGGATCTCGGACATGCTGCTCGACCCGGGTAGCCAGATCGACTTCAATGGCAATCGTTTGACTCTGCCAAAAATCGAGCTGATCTATTGGGCCGGGGGCAACCCCTTCCATCATCACCAAGACCTTGCCAAATTCCGTAAAGCATGGTCAAAACCCGCAACCGTTATCGTCAATGAGCAGTTCTGGACGAGTACCGCACGGCACGCCGATATAGTTCTGCCTGCAACCATGACGTTTGAGCGAAACGACTATGGGGCCGGCCGTAACGACCCTACGTTCTTTCCCATGCACGCTCTAACGGCACCCGCTGGAGAAGCACGCGACGATTTCGATATCTTCGCCGCTGTGGCGGAAAAGATGGGACGGGGTGATGTTTTCACCGAAAACCGGGACACTATGGGCTGGCTTCGCCATCTGTACGACGGGTGGCAAAAGAGGCTCGCTGACAAGGGAACTGTCGTCGTGGATTTCGACACATTCTGGGCGAGCGAGAAAATCGAGATCCCGGTGATAGAGCCGGATCAGGTTCTTTTTTCCGAATTCCGGCGCGATCCAATCGGGAATCCCCTCGCCACCCCTAGCGGCAAGATTGAGATTTTCTCCTCGACGATCGAAAGTTTCGGCTACCCTGATTGCCCCGGTCATCCCGTTTGGATTGAGCCCGACGAATGGCTTGGATCAGCTGGCGATTACCCGTTGCACCTGATAGCGAATCAACCTAAGACCAAGCTACACAGCCAACTGGACATAGGGACCACCAGTCAAAAATCCAAAATAGAGGGACGCGAACCCCTTCGAATGAATCCTGAAGATGCCGCTGCCCGGGGACTTTCGGACGGACAGGTTGTCCTGGTTCGAAACAACCGTGGAAGGTGCCTGGCCGGCCTGGTCATTTCCGCTGCCATACGTCCGCGAGTTGTACAGCTTTCAGCAGGGGCCTGGTACGACCCCGCACCCGATGATCCATCGTTCTGCCGCCACGGCAATCCGAATGTGCTGACATCCGACAGGCCGTCCTCAAGTCTTTCCCAGGCCACTACTGCCCAGCACGCGCTCGTGGAGGTCGAAGCATGGTCAGGCGATATTCCTGAGCTGGATGTGCTCACACCGCCCGTTCTGGTGCCGGACCACTAA	MEVSWERAIELVSAELSRVYTDYGPMAVYGCSYGWASAGRFHHTQSQIHRFLNSLGGYVAGVTDYSYGASGVLLPHVIAPPVEIMARATSWDVVSQNTQLFVAFGGLSEKNSGIGPGGIGRHVARNAIKDAVARGCRFIDVSPIADDTYGEAQAEWIAPVPGSDAALMLALAFVLDAENLADSQFLDRYCVGANKFLSYVRGEVDGAPKNPQWAEKLTSIPAGRIVRLAREMAASRTMINISWSMQRQQHGEQPVWLGVTLAAMLGQIGLPGGGFQHGYGSSADVGLPLRVSSAPSFPQGRNQEPSYIPVARISDMLLDPGSQIDFNGNRLTLPKIELIYWAGGNPFHHHQDLAKFRKAWSKPATVIVNEQFWTSTARHADIVLPATMTFERNDYGAGRNDPTFFPMHALTAPAGEARDDFDIFAAVAEKMGRGDVFTENRDTMGWLRHLYDGWQKRLADKGTVVVDFDTFWASEKIEIPVIEPDQVLFSEFRRDPIGNPLATPSGKIEIFSSTIESFGYPDCPGHPVWIEPDEWLGSAGDYPLHLIANQPKTKLHSQLDIGTTSQKSKIEGREPLRMNPEDAAARGLSDGQVVLVRNNRGRCLAGLVISAAIRPRVVQLSAGAWYDPAPDDPSFCRHGNPNVLTSDRPSSSLSQATTAQHALVEVEAWSGDIPELDVLTPPVLVPDH	PGPT0022135_426	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022135-bisC-K08351	NA	NA
D1-29_02059	1164	tdh_3		L-threonine 3-dehydrogenase	ATGACAGAGAGATCAGTGGCCACGATTACGAACATTCCCACAATGATGGCTGCGGTCCAGCTGGTTGGCCACGGCGGGCTCGACCAGCTGGTGTACCGGACTGATGTGCCGACCCCTGTTGCGGCGCCGGGAGGAGTGCTGGTCAGGGTTGGTGCGTGCGCGCTCAACAATACCGAGATCAACACGCGCACGGGATGGTACGACCGGGTGGTAGAGGAATCTGTCTCGGAGGAGCTTGGTCGGTCGGGGCGCGACGACGATGCCGGTGCCACTTGGAATAACACGAAAATGTCGTTTCCCCGGGTTCAGGGGGCCTCGGTAGCTGGAACGATCGTGGCAGTTGGGGAAGGAGTGGATGAGAGCCGGATAGGTACCCGAATCGTCGTCGACCCGTCTGTTCGGGATCCGAACCTCCCTCGCCGTGCACAGATTGTCGAATACTTGGGTGGTGACCGAGACGGAGGATTCGCGGAGTATGTGAATGTGCCGTCTGTGAACGCGCATCGGGTGAGCACCCACCTCAGTGACGCTGAGCTCGCCACTTTCCCCTGCTCTTACGACACTGCGGAGGAGATGCTGGCCCGGACGGAGCTGTGCGAGGGCGAGACAGTCGTTGTCACCGGCGCAGCCGGCGGTGTGGGCACGGCGACCATCCAGCTGGCACAGGCTCGCGGCGCCCGCGTTATCGCAATTGCGAGTGCTGGGAAAGAGGCGCGGCTGCGGGAACTCGGCGTCGACGGATTTGTCCCTCGAGACGAGCCGGACCTGGTGGCTGCTGTTGCAAATGTCATCGGTGAACGTGGCGCCGACGTCGTTATCGATGTTGTCGGTGGCAGCATGTTCGAGAGTTTGCTCCTCATGCTTCGGCGTGGAGGTCGATACGCGACAGCAGGAGCCATCGGCGGACCGGTGAGCCGTATCGACCTTCGGGAGCTTATCTATAAGGATCTGGAAATGCACGGGATCACTAACCCGACGCCCGAGACGTTCGCGCGTCTCGTCGGTCTCATAGAAGAGGGAAAGATCAAGCCTCTCGTGGAGGAAGTCTTTCCGCTCTCTGAGCTCGGCAAGGCTCAGGAGACGATGCTGAAGAGAGCCCATATCGGCAAGATTGTCGTCGTACCTGACGGTTCTATGGATTTCGGGTCAAGTACCCAGAACTGA	MTERSVATITNIPTMMAAVQLVGHGGLDQLVYRTDVPTPVAAPGGVLVRVGACALNNTEINTRTGWYDRVVEESVSEELGRSGRDDDAGATWNNTKMSFPRVQGASVAGTIVAVGEGVDESRIGTRIVVDPSVRDPNLPRRAQIVEYLGGDRDGGFAEYVNVPSVNAHRVSTHLSDAELATFPCSYDTAEEMLARTELCEGETVVVTGAAGGVGTATIQLAQARGARVIAIASAGKEARLRELGVDGFVPRDEPDLVAAVANVIGERGADVVIDVVGGSMFESLLLMLRRGGRYATAGAIGGPVSRIDLRELIYKDLEMHGITNPTPETFARLVGLIEEGKIKPLVEEVFPLSELGKAQETMLKRAHIGKIVVVPDGSMDFGSSTQN	PGPT0006375_793	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
D1-29_02060	1449	prr_1	COG1012	Gamma-aminobutyraldehyde dehydrogenase	ATGACTCTGGAAAGCACGGACTTTATGGCCTTTGCGGAAACGTACCTCGCTAGCGAGAACCGTGAAGACGCTTCGAAGGTATTCAACCCGGCGACCGGAGAAGTGATCGCCAGATTCCCGGTAGCCTCTGATTCGGACGTCGATGCGGCCGTGCAGCGAGCCTCGGACGCGTTCAAGACTTGGGGAAGCACTTCCCCAGCCGAGCGCGCGGCCGTTCTGCTCAAAATCGCTGATGCGGTCGAGCAGGAGATCGACGAGTTCGCACGGATCGAGAGCCTGAACGTGGGGCTTCCGATCGGAGATGTGCGCGACTTCGTGGTGCCGACGGTCGTGGATGTTCTTCGATTCTTCGCTGGTGCTGCTCGCATCTCGACGGCGCCCGCCGTCGACGAGTACGACAACGAGAGCACTTCATGGGTTCGGCGGGAGCCGCTCGGTGTCGTCGGACTCATCACGCCTTGGAACTACCCCCTACTGATGGGGGCCTGGAAGATCGCGCCGGCACTTGCAGCTGGCAACACTATGCTGCTCAAGCCGGCGACTGTGACACCGCTGAGTACCCTCAAGCTGGTCGAGATCGCTAACAGCTTCCTTCCTGAAGGCGTGATCAACCTCATCCTGGGTAGCGGATCGGCGGGCACCGCGATGGCCAAGCACCCCGGAATTCGAAAGATCGCGTTCACCGGCGCAACCTCGACCGGCAAATTTGTGGCAGCAACAGCTGCAGAGACCGTCAAGAAGGTGGGCCTCGAGCTGGGCGGCAAGGCACCGGTGCTGGTGTTCGCGGACAGTCCAATTCGCAAGACGGCAAAAGACCTCGTGGCTTTCGGGTATTCGGGCGCTGGCCAGGATTGCACGGCTGCTTGCCGCATCATCGTCGAAGAGTCTGTCTACGAGGAATTCGTCGAGGCGTACTGCAAGGAAGTTAGCGAGCTTGTCCTCGGCGACCCATCCGATCCCGCCACCACGTTGGGGCCGGTGATATCAGAAAAGCAACTGAGGTCCGTTCTCGGGTTTATCGAACGCGCGAGGGAAGCCGGCAACACGATCAAGGTGGGCGGACGACAGGCTGATCGTCCAGGCTGGTTCATCGAACCGACTGTGATCACCGACGTCAAGCAGACGGATGAGATAGTTCAGAGCGAGGTGTTCGGCCCGGTGGTGAGTATCCAGTCGGCACAAAGCGACGATGAAATGCTGCAGCTTGCCAATGACGTCAATTACGGCCTGTCGGCCAGCGTGTGGACGACCAGTCTGGCGCGCACGCTGCGCTTCACCAAAGAACTGCGCTTCGGCACGGTCTGGGTCAACCAGCACACGCCCAATGTGTCGGAGATGCCATTCGGCGGATACGGCGAGTCGGGCTACGGCCGGGAGCTATCGCTGCACGGTCTGGACGAGTACTCCCAGCTGAAGCACGTCATGGTCAAGCCTGGGCTCGATCTTTAG	MTLESTDFMAFAETYLASENREDASKVFNPATGEVIARFPVASDSDVDAAVQRASDAFKTWGSTSPAERAAVLLKIADAVEQEIDEFARIESLNVGLPIGDVRDFVVPTVVDVLRFFAGAARISTAPAVDEYDNESTSWVRREPLGVVGLITPWNYPLLMGAWKIAPALAAGNTMLLKPATVTPLSTLKLVEIANSFLPEGVINLILGSGSAGTAMAKHPGIRKIAFTGATSTGKFVAATAAETVKKVGLELGGKAPVLVFADSPIRKTAKDLVAFGYSGAGQDCTAACRIIVEESVYEEFVEAYCKEVSELVLGDPSDPATTLGPVISEKQLRSVLGFIERAREAGNTIKVGGRQADRPGWFIEPTVITDVKQTDEIVQSEVFGPVVSIQSAQSDDEMLQLANDVNYGLSASVWTTSLARTLRFTKELRFGTVWVNQHTPNVSEMPFGGYGESGYGRELSLHGLDEYSQLKHVMVKPGLDL	PGPT0007165_3169	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130	NA	NA
D1-29_02061	1683	betA_4		Oxygen-dependent choline dehydrogenase	ATGAAGCTTGACGCTTATGACTACATCATTGTTGGGGGAGGTTCCGCAGGTTGCGTCCTCGCGAACCGTTTGAGCGAAGATCCACAAAACCGGGTATTGGTCCTTGAAGCCGGTCACAGATACTCCTCACTTGATGTCCCCGTGCGAGTGCCCGCAGCATTCCTCTTCCTCATGGGCCACCCCTTCTATGACTGGCGCACGAAGTCGGAGCCGGAGACAGGGCTTAAGGGTCGTCGAATTGACCACTATCACGGTAGGGTCATGGGCGGAAGCAGCTCGATTAACGGGATGTTTTATCAGCGCGCCAATCCACTCGTCTACGAGCGTTGGGCGCAAGAGACTGGAACCAAAGAATGGGACTACGCTCACGTTCTTCCGTATTTTAAGCGGATCGAGACGTTCAAGGGCTCGGATCCAACCGGTGCGTACCGAGGTCGATCGGGACCTATTCCGGTTAGCCAGCATCATCACAACGGATCGCGAAACCCGTTGTTCGGTGCGCTCTTTGAAGCGGCCAAGCAGTCGGGCTACGAGCTCGTCAACAACGTGAATGGCTACCGCCAGGAGGGCTTCTCTTCATTCGATTCAAACATCGACAACGGTGAACGCTACAACGCTGCGCGCACCTACTTTGCCCCAGTGAAGAAGCGGAAGAACCTCGATGTCATCACGGGCGCTCGAGCAACGCGGGTGGTCTTCGAGGGAACTCGCGCAGTCGGCGTCGAGTTTGCGACCCGGCTTCGCCGTCTAACCATCGCGCGAGGCGCTGAAGTTATTCTGAGCGGCGGTGCGTACAACTCGCCACAACTGCTGCAGCTTTCGGGTGTCGGTAACGCCGCTGAGCTAAGGCAGCACGGCATCGACGTCGTCGCCGATCTGCCTGGCGTCGGCGAGAACCTGCAGGATCACCTTGAAGCGTTCATCATGTACGAGTGCAAGCAGCCAGTCTCGAACCAGAGCATCGTCAAAAAGTACACCTATCCGATGACAGGGCTGAAGTGGTTGTTCAATAGGACCGGGCCAGGCGCGTCGAATCACTTCGAGGGCGGCGGCTTCATCCGCTCGTTCGATGACGCCACCATGCCGAACCTGATGCTCACCATGCTCACGCTCGGGGTGCGAAACGACGGCACCCCTGCGCCGACGCCTCACGCATATCAGATCAATCTCGGTCCGCAGCAGCCACAGTCGAAGGGGCACATCAAGTTGCGGAACAGCGATCCGTTCGAACAACCCGTTGCGACGTTCAATTATCTGTCCACCGAACGTGATCGCCAAGAATGGATTGACGGTGTTCGCACTACACGAGCCCTCATGAATCAGCCCGCCTTCGCAGCATTCAACGGCGGCGAGCTCTCGCCCGGCCCCGAAGTCCAGACGGACAAGGAGATCCTCGATTGGGTCTCCCAGGATGCCGAGACGACCTACCATCCGTGCGGGACCTGCAAGATGGGGAACGATGACCAGTCCGTCGTTGATCCCCACAGCTTCCGGGTGCACGGAGTTGAGGGCCTTCGAGTTGTCGATGCTTCGGTGATGCCGTCTATTCCGAATGCCAACCTCTATGCGCCGGTCATGATGATCGCCGAGAAGGCTGCCGACGTCATCCTTGACAAGGACCCGCTCCCCGCTGAGCACGTCGACTTCTACCGGCATGCGGCGGCAGAGGGTCTCAGCCTCTAG	MKLDAYDYIIVGGGSAGCVLANRLSEDPQNRVLVLEAGHRYSSLDVPVRVPAAFLFLMGHPFYDWRTKSEPETGLKGRRIDHYHGRVMGGSSSINGMFYQRANPLVYERWAQETGTKEWDYAHVLPYFKRIETFKGSDPTGAYRGRSGPIPVSQHHHNGSRNPLFGALFEAAKQSGYELVNNVNGYRQEGFSSFDSNIDNGERYNAARTYFAPVKKRKNLDVITGARATRVVFEGTRAVGVEFATRLRRLTIARGAEVILSGGAYNSPQLLQLSGVGNAAELRQHGIDVVADLPGVGENLQDHLEAFIMYECKQPVSNQSIVKKYTYPMTGLKWLFNRTGPGASNHFEGGGFIRSFDDATMPNLMLTMLTLGVRNDGTPAPTPHAYQINLGPQQPQSKGHIKLRNSDPFEQPVATFNYLSTERDRQEWIDGVRTTRALMNQPAFAAFNGGELSPGPEVQTDKEILDWVSQDAETTYHPCGTCKMGNDDQSVVDPHSFRVHGVEGLRVVDASVMPSIPNANLYAPVMMIAEKAADVILDKDPLPAEHVDFYRHAAAEGLSL	PGPT0013615_2060	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
D1-29_02062	1395	norB		Quinolone resistance protein NorB	GTGACTGACTCGGCTGCGCCCTCCCGCCTGGTTCCGGCGCTGATTTATGCAGCGCTTTCGACGTCGATCGTGAGTTCGCTCGGCATGTTGCTAGTGCCTGCCATCTCCCGCGAGATGAATGTTTCAGTCAGCAACGCGCAGTGGATGCTCACCGTCAACCTTTTGTTTGGAGCGATTTCAACACCAATAATGGGGCGTCTAAGTGATGGCCCGCACAAGAAGCGGCTTCTTCTAGTCTCCTTGACCGTTATCCTTATTGGCTCCGTGGTGGCGGCCTTGGCACCGAACTTTACGGTATTCCTCATCGGTCGGGCCCTTCAAGGATTGACCTACGGGATTGTGCCGGTCACCATTTCCCTTGCCCGTCGCTACGTTCCTGTCGACAAAGTGCAAGTTTCTATCTCCAGCTTGTCCGTGACCGTGGCAACCGGGCTGGGGTTAGGATACCCCTTGACGGGGGTAATCGCAGGCCTGACAGATTTTCGTATCGCGTTCTGGTTTGCCGTGCTTTTTGTGGTTTCCGCAATCGTGGTGGTCTTCGTTGCGGTTCCGGCAGGACCTGACACGCAAGCCGCGCTGTTACCGTTCGATTACTGCGGAGCCGCGTTGCTCAGCCTAGGCCTGGGTGGACTCCTGATCAGTGTTAGTGAGGCACCAACGTGGGGGTGGACGTCTCCGTGGACTATGGGCAGCTTTGCTTTGGCTGCTTTCCTTCTGTTCTTTTGGGTCAGGACGGGGCTACGACTGCGGGACCCCCTGATCAACCTACGAGTCTTCCGACACGGTGAGGTCTTGCTCGCCAACGCCGCTGGAACCGGGTTAGGCGCCGCACTGTACATCGGCCTCTCAATTTCAAGTCTCGTTGCACAAGCTCCCCTATCCACAAGGTATGGCATGGCCCTCCCAGTATTCTGGGCTGGATTCGTCATGCTGCCGCTCTCCGTAGGAAGCTTCGCGGCTAACCGTCTGGTCCGCTGGCTCTCACGCCGAATAAAGCTAACAACGCTGCTGCCGATTGGTGCCGGCATTATGACCGGGGCTGGAATGTTGCTGTGGTTTGCACACGATGAACTCTGGGAGATTCTGGTGGGGATGCTCACTTTCGGAGTCGGCATGGGGGCCAGCTACGCTGCAATGCCTGCTCTCATTGCGCGAAGCGTGGCCAGGACGGAATTGGGAAGCTCCGTGAGCTTCAACCAGGTCCTACGATCTGTTGGCGCATCCTTCGGCACCGCCGTTTCTGGCGCGGTGCTCGCGGCGAACATGGCACCTGATTTCCACGCGACCGGGGACGGTATCCGAGCGACCTTCGCGATCGGAGCGCTCCTCTGTACGGCGGTATTCATATCGTTGCTCATCCACGCATTCGCCAGTCGTCGTCGCATTATAGGCTAG	MTDSAAPSRLVPALIYAALSTSIVSSLGMLLVPAISREMNVSVSNAQWMLTVNLLFGAISTPIMGRLSDGPHKKRLLLVSLTVILIGSVVAALAPNFTVFLIGRALQGLTYGIVPVTISLARRYVPVDKVQVSISSLSVTVATGLGLGYPLTGVIAGLTDFRIAFWFAVLFVVSAIVVVFVAVPAGPDTQAALLPFDYCGAALLSLGLGGLLISVSEAPTWGWTSPWTMGSFALAAFLLFFWVRTGLRLRDPLINLRVFRHGEVLLANAAGTGLGAALYIGLSISSLVAQAPLSTRYGMALPVFWAGFVMLPLSVGSFAANRLVRWLSRRIKLTTLLPIGAGIMTGAGMLLWFAHDELWEILVGMLTFGVGMGASYAAMPALIARSVARTELGSSVSFNQVLRSVGASFGTAVSGAVLAANMAPDFHATGDGIRATFAIGALLCTAVFISLLIHAFASRRRIIG				NA	NA	NA	NA	NA
D1-29_02063	477			hypothetical protein	TTGAATGAGTGCCGCTGCCTCATTCTCGAGGACGGGGGCAGGTGTGAAGCGTCGCAGAGCAACGCGAACGCGGCTTCCAACTTCATCCAGACGGGGTTTGTCATTGGCAGACACGAGGAGCTGTCCGGTGACTTCGATGCCGATTCTGCCGTGTTCGAGGCATTGAGGTACAAGGGCTTCGATGCTGGGGTTGATGAGTTCGTCCAGATCCGCTATTTCGTCAGTAAGGTCCGGCGGGGCCAGCGACTTCGTCGCGACCCGATAGTCAATGACGGCATCGGTCGCTTAACACGTCCGGCCGCCAAGCAGCGAGGGTGCGGATCAGATGCATCCAGGCCAGGTGGCGGAGAGCTGGTCGTGAACTTCATAAGCAAACTGTCTAAACAGCTTGACCGGGGCAGGCTGCGGTCGCTTGGTGCAGCAGGCTTTGTGGGATACACCAACGGCGGTCTCCGTCTTATGAAAATCAACAATTAA	MNECRCLILEDGGRCEASQSNANAASNFIQTGFVIGRHEELSGDFDADSAVFEALRYKGFDAGVDEFVQIRYFVSKVRRGQRLRRDPIVNDGIGRLTRPAAKQRGCGSDASRPGGGELVVNFISKLSKQLDRGRLRSLGAAGFVGYTNGGLRLMKINN				NA	NA	NA	NA	NA
D1-29_02064	1605	sgrR_2		HTH-type transcriptional regulator SgrR	ATGGATCACAACATTCATCAGTCCTCAGCGGCAAGGCCCATCAGTACGTTCAAGCTTGAGGCTTCCCGGCGGCAGGTGCTGGCGGTTGGTGGCATCAGCCTCGGCGCACTTTTGCTGTCCGCTTGCACCAGTTCGCCTGGCACCGGTTCCGAGCAGTCCGGCGGAGCGCCCCAGAAGGGCGGTACCCTGCGCATGTCAATCAGTGACGGTGGCAGCTCGGACACCCTGGACCCTGGTACCGCTCTCACGGGGAATGCATCCACAGTCCTAAAAGCGGTTTATGACCCGCTTGTGGTCAACGACGACAATTTCGTGGCCCAGCCGGCTCTCGCGACCTCGTGGGAAGTCAATTCGGGTGCCACACAGTGGACGATCTCTCTTCGAGAAGGGGTCAAGTGGCATGACGGTAGCGACTTCACGTCAAAGGACGTCGTCTACACCATCAGCCGTTGGCTCGATCCAAAGACCGGGAGTTCGCTCAACGGATACCTGTCGCCCTACCTCGACATCGGCGGGGTTTCGGCGCCGGATGCCTCGACTATTGTGCTCACCCTTAAGCAGCCCAACAGCGTCCTGATGCAGACGCTGGGCGCTAACCCCACTAGTCAAATAATCAAGGACGGAGCCACCGACTTCAGCGGTGCGAACGTGGTAGGCACGGGGCCGTTCAAGTTAACATCATGGAACCCGGGCACAAGCTGGAAGGCCGTCCGAAACGACGCATACTGGGGTGAGGCGGCGTACCTGGATGGGATCGAGGCAACGATTACGCCGGATCAGGGCGCCAAGCTGCAAGCCGCCCTGTCAGGAGCAACTGATCTCACCGATTTGATACCGGTCTCACTCTGGACGGGGATTCAAGGCCGAAGCGACCTGGTACTCGAGACCCTCAAGAACCAGCGAACCTGGGTCTTCGCGTTCGACCAGCGGGTGGCGCCCTTCAGCGACCCCCGCGTGCTCGATGCCATCAAGCTTGCAACCGACCGCGACAAGATGGTCGAGACCGCACTGCAAGGCCACGGGACAACCGCAGCCGATGTGCCCATCCCCCCTAATTCTTCCTGGTATCCGTCCGCCCTCAAACCCGAGTACGCCCCTGACAAGGCGAGGACGCTGCTGGCCGAGGCGGGTTTCCCGGACGGACTCGATATCAAGTTGAGTGTGACTGATTCAGTGCCTGGGATGTTGGATGCTGCTCAAGCCTGGCAGCAGGCCGTCAAGAGCGCCGGGATCAACGTGACACTGGACCAGTTCTCGCCGGACACGTACTGGTCAAAGGGGTATATGGTCACCCCTGCTTACATGAGTTATATTCCCCAGATATTCCCCCCGTCCGCTTTCGACGCCTTCTACCGCAAGAGCGCCCCTTATCCTTACAGCCACTTCTCAGATCCAGCGCTGGACAAGATCGTCGATGAGCTTCTCGTCACCACAGATCAGAGCCGGCAGATCGAGTTGACCCAGGAGGCCTTCCTTCTGGCCCGGAAGTCCTACGGCATTCTGCTACCTATTTACTCGGACGCTGCTTATGCCCGGTCTTCCAAAGTCAATGGTCTCTTCATCACTATTGACACAGTCGATTTCAGGAAGACGTGGTTGGCCTGA	MDHNIHQSSAARPISTFKLEASRRQVLAVGGISLGALLLSACTSSPGTGSEQSGGAPQKGGTLRMSISDGGSSDTLDPGTALTGNASTVLKAVYDPLVVNDDNFVAQPALATSWEVNSGATQWTISLREGVKWHDGSDFTSKDVVYTISRWLDPKTGSSLNGYLSPYLDIGGVSAPDASTIVLTLKQPNSVLMQTLGANPTSQIIKDGATDFSGANVVGTGPFKLTSWNPGTSWKAVRNDAYWGEAAYLDGIEATITPDQGAKLQAALSGATDLTDLIPVSLWTGIQGRSDLVLETLKNQRTWVFAFDQRVAPFSDPRVLDAIKLATDRDKMVETALQGHGTTAADVPIPPNSSWYPSALKPEYAPDKARTLLAEAGFPDGLDIKLSVTDSVPGMLDAAQAWQQAVKSAGINVTLDQFSPDTYWSKGYMVTPAYMSYIPQIFPPSAFDAFYRKSAPYPYSHFSDPALDKIVDELLVTTDQSRQIELTQEAFLLARKSYGILLPIYSDAAYARSSKVNGLFITIDTVDFRKTWLA				NA	NA	NA	NA	NA
D1-29_02065	1008	gsiC_2	COG0601	Glutathione transport system permease protein GsiC	ATGACTATGGTGGCAGCGGAACCGGTAGCCGACCGGGTGGTAGATGGCGGTAAGAACAAGGCTCGCGTTTGGGCCTTGGTCCGTCAGCTTCTGATGTCGGTTCTGACGCTCTTGCTGATTTCGTTCATAGCGTTCATAGCAATGAATCGTTCAGGTGAGCAAATCGCGCGCAACGCCCTCGGAATCAACGTTACCGATGAGCAGTTGCAAGCGTTCATCACGACAAATGGACTTGACCGTCCTTTGCTCGTTCGATATTTCGACTGGCTAGGTCACTACATTCAGGGTGATTGGGGAACGACCCTGATCTCAAAGGTACCGATCCAACCTCTGGTACTTCCTGCTTTCGCCCACACGGCAGAGCTCGCCCTGGCATCTCTGGCGTGGTCCCTTCCCGTGGCCATCCTCCTCGGGGTGTTCATGGCTCGAAAAGGAGGGTTCTTTGATCGGGGTGCATTCGTGGTGATGACAGTGCTGGCCGCACTGCCGGAGTTCGTTATCGGATTGAGCCTAATGATCCTTCTTGCTGTTCAGGTTCGCTGGCTGCCTGTTGCCTCCTCGGCCGTCTCGGGGGAGCTTAGTATTGCCTGGCTTCAGGCCTTCGTCCTCCCTGCTTTGACTCTGGGACTGAGCGTCGTGCCTTACGTTTCACGAATAGCACGTGCGTCCGTCTCGGAAGCATTGAACGCACCCTTTACAAGGAACGCTGTTCTGCGGGGGTTGCCCAGGCGGCTAGTCGTCTGGCGACATGCGACCCGCTCCGCGGCCGTCCCGCTCGTTCATGCCGTAGCGCTCGTCATGACTTACCTGCTGGGAGGAGCCATCATCGTTGAGAACGTGTTCGGTTTCCCAGGGCTGGGACGCCTCTTGGTGCAAGCCATCAACCAGGGCGACACCAATTCCGCTCTCTCCATAACCGTGCTGCTGGGGGCGGTATTTATCGCACTTAGTTTTATCGCGGATATCTTCGTCACGTACCTCAACCCACGATTGAAGGCAGCCCGATGA	MTMVAAEPVADRVVDGGKNKARVWALVRQLLMSVLTLLLISFIAFIAMNRSGEQIARNALGINVTDEQLQAFITTNGLDRPLLVRYFDWLGHYIQGDWGTTLISKVPIQPLVLPAFAHTAELALASLAWSLPVAILLGVFMARKGGFFDRGAFVVMTVLAALPEFVIGLSLMILLAVQVRWLPVASSAVSGELSIAWLQAFVLPALTLGLSVVPYVSRIARASVSEALNAPFTRNAVLRGLPRRLVVWRHATRSAAVPLVHAVALVMTYLLGGAIIVENVFGFPGLGRLLVQAINQGDTNSALSITVLLGAVFIALSFIADIFVTYLNPRLKAAR	PGPT0004445_13001	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
D1-29_02066	897	ddpC_2	COG1173	putative D,D-dipeptide transport system permease protein DdpC	ATGAGTGTTGATTCCATACCTCAAGCGACAGCTATTCATCTTCAACCAGCACGTAAGTTTCGTCCGCTGAGACCCATCACCCACACCTGGTCGGGTCGCTGCGGACTGGCTATTGTCAGCGCCGTGCTGCTTGTGCTCATTCTCGGTCCGGCATTGGCTCCACATGCGTACGATCAGCTTGCTGTAGGACGCCCGCTCTCGCCGCCCAGCAGTGGTCTCCCGTTCGGAACGGACCACCTGGGGCGGGACGTTTTCAGCCGATTCCTACTGGGCGGCCAGATGGTGTTGCTGATTCCCCTCGCGGCCGTTGCACTGGCGACGATCACCGGGGGCTTGTTGGGGATGGTTGCTGCATATGTTGGGGGAGTGCTCGATAAGGTGGTTGCCCGAGTCTTCGACGTGCTCCTGACTCTTCCGCCCCTGCTTATTGCTCTTTCCGTGATAGCTGGATTCGGCTCGTCGCCGACAGTCCTGTTGATTACAGTGGCTGTAGTCTTCGTACCGCCAATCGGAAGAGTTGCCCGGGGAGCAACACTCGGAGTTGTCACGGCCGATTATGTCCAGGCCGCGCGAGCACGCGGGGAGCGTGCTGTTTCCATTGTCGTGCGGGAGATCGCCCCGAATATCGTCGGACCGCTCGTCTCGGATCTTGCCCTCCGGATCACCTACGGAGTGCTCTTCGTCGCAGCCCTCAATTTCCTTGGTCTTGGAGCTACGCCACCCTCGCCTGACTGGGCCCTCTCTATCGCGACCAGCCTGGGGTACGTGCAGATTCAGCCCTGGGCGGCTCTCGCGCCGGTAGTCGGCATCGCCGCTCTGTCGGTTGGCCTCAACCTGATCGCAGATTCGATCATCTCCCACGTCAACAACGACACCACTAAGGACTTCATGCTATGA	MSVDSIPQATAIHLQPARKFRPLRPITHTWSGRCGLAIVSAVLLVLILGPALAPHAYDQLAVGRPLSPPSSGLPFGTDHLGRDVFSRFLLGGQMVLLIPLAAVALATITGGLLGMVAAYVGGVLDKVVARVFDVLLTLPPLLIALSVIAGFGSSPTVLLITVAVVFVPPIGRVARGATLGVVTADYVQAARARGERAVSIVVREIAPNIVGPLVSDLALRITYGVLFVAALNFLGLGATPPSPDWALSIATSLGYVQIQPWAALAPVVGIAALSVGLNLIADSIISHVNNDTTKDFML	PGPT0004450_11663	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
D1-29_02067	1830		COG1123	putative ABC transporter ATP-binding protein	ATGAGTACCTCGGTCGCACTGGAAGTGCGGGGCCTCTCAGTAGGGTACGGCCTGCGGAAAGGCGTCATTAAAGAGGTCGTGAGCGACGTCGATTTCGTGCTGGAGCGAGGAAAGATCCTCGGAATGGCGGGCGAATCCGGCTGCGGTAAGAGCACGACGGCCTTGGCGGCGATCGGCTATCGGCCCGGTGCCATGCAAGTGCCCGCTGGCGAGTCAAAGCTCGGGGACATTGATCTGCTGAACATCCCCCTTGCACAACTTCGGCGCATATGGGGCAGCAAGGTAGTCTACATGCCCCAAGCATCGTCGAATGGATTGACTCCAGCGTTGACAATTGGGCATCAGATGGCCGAGCCCATGAAGATCCACCTCGGGCTAACCGGACAAGCCAACCATGACAGGCAAGTCGAACTTTTGAAGGAGGTCGGCGTTCCTAATCCGGAGGCCGCCCTTCGACGTTATCCGCATCAGTTCAGTGGTGGTCAGCAACAGCGCATCAACCTGGCGATTGCTATCTCATGCAATCCCGAGGTGTTGATCCTCGACGAGCCGACGACTGGGTTGGACGTGACCACGCAGGCAAGAATCGTCAAACTTCTCAAGCGCGTGGTAGAGGAACACCAGACTGCTGCCCTGTTCGTGAGCCATGACCTGCCTCTCCTCGCGGAGGTCGCCGACCGAATCGCAATTATGTACGCAGGCCAAGTCATAGAGTCCGGTCCGGCGGGAGAATTGATGTCACGCCCAGAGCACCCATACACCAGGGCGCTGCTGGCGGCCGTTCCGGACGCAACCGGTACTCGTGCACTATCAGGGATCCCCGGGGCGCCGCCGTCGGGAGTTGTAGCTGGAGCCTGTCCTTTCGCACCGCGCTGCCAGTTCAGTATTAAGAGCTGCTCAGAATCCAACCCGAACCTCTTGCCGGTGCGACCATCCCACAACGTCAGGTGCCTGCGAGCCGGCAATTTCGAAAGTCTTGCGATCAGTGACCGAGCTGGAGTTCTAGGAGCGATCGAGGATTCGGCCTCGTTGCTTTCTGTTGATGATGTGTGGTGCGAGTACGGCTCGCGTGGTGGCGCGACGCCTGTAGTCAAGGGGGTCACTTTTAGCGTCGCTCCGGGCGAGACGCTCGCCTTGGTCGGTGAATCGGGCAGCGGAAAATCAACTCTTCTGCGTGCCATTGCGGGACTGCACCCTCGCAGCAGCGGAGAAATTCAGTTTGACGGCGCCGCACTGGCCCCGGACGTGGGAAAGAGGTCACGCTCGGCGCGGCGTGATGTACAAATAGTCTTCCAAAACCCCGACATGTCTCTGAACCCGCGGCACGACGTATTGAGCCTCGTCACAAGGCCACTGCAACTCTTTGAGCCCGAGCTATCCAAAGCCGACCGTGAAGAACGAGTGCGTAAAATTCTGGCGGACGTAAATCTTCCGGAATCAATGGTTCATCGCCGCCCAAGTGAGCTGTCTGGCGGGCAGAAGCAACGCATAGCAATCGCGCGGGCTTTCGTGACGAATCCACGGCTGATTCTTGCCGACGAAATCACCTCAGCACTTGATGTGTCTGTGCAGGCTGCGATACTCGATCTCCTTTCCGGGCTGTCTGCTGAGCATGGCACTTCTGTTGTGTTCGTTACCCATGACCTTGCGGTAGTGCGCGCAATAGCCCATCGTGCGCTCGTTTTGCAGAAGGGCATAGTCAGAGAGATCGGTCGGGTCGCCCAACTATTCGAGTCGCCTGCGGACGACTACACGCGTGAACTGGTTGACGCCATCCCGATGTTTAGGCCCCAAAGCTATGGAGTTGACGCAAGGAGCCCACATACCTGA	MSTSVALEVRGLSVGYGLRKGVIKEVVSDVDFVLERGKILGMAGESGCGKSTTALAAIGYRPGAMQVPAGESKLGDIDLLNIPLAQLRRIWGSKVVYMPQASSNGLTPALTIGHQMAEPMKIHLGLTGQANHDRQVELLKEVGVPNPEAALRRYPHQFSGGQQQRINLAIAISCNPEVLILDEPTTGLDVTTQARIVKLLKRVVEEHQTAALFVSHDLPLLAEVADRIAIMYAGQVIESGPAGELMSRPEHPYTRALLAAVPDATGTRALSGIPGAPPSGVVAGACPFAPRCQFSIKSCSESNPNLLPVRPSHNVRCLRAGNFESLAISDRAGVLGAIEDSASLLSVDDVWCEYGSRGGATPVVKGVTFSVAPGETLALVGESGSGKSTLLRAIAGLHPRSSGEIQFDGAALAPDVGKRSRSARRDVQIVFQNPDMSLNPRHDVLSLVTRPLQLFEPELSKADREERVRKILADVNLPESMVHRRPSELSGGQKQRIAIARAFVTNPRLILADEITSALDVSVQAAILDLLSGLSAEHGTSVVFVTHDLAVVRAIAHRALVLQKGIVREIGRVAQLFESPADDYTRELVDAIPMFRPQSYGVDARSPHT	PGPT0004435_2022	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
D1-29_02068	126			hypothetical protein	ATGGCCGAACGGAAAGAATCCGGGACCGGTCCGGCAGCGGCTGAGTCGGCCGAGGTGCGGGAGCTGAAGAAGCGCAACCGCTTGCTGGAGCAGGAGAATGAGATCCTGCGCCGCGCTGCTGCCTAA	MAERKESGTGPAAAESAEVRELKKRNRLLEQENEILRRAAA				NA	NA	NA	NA	NA
D1-29_02069	672			hypothetical protein	ATGACCTACCCGCTGGTCACGGATCTTGCCGCCGACGGTGTTCCTGTGGCGGTGACCTGCAGGTTGTTGGGATTCAGCAAGCAACCCTATTACCGGTGGAGAGCCAGCCCGGTCACGGAACGGGATTGGGTAGACGCGCACTTGGTTAACACCGCCCTGGACATCCATGCCGACGATCCTGCATTCGGGTATCGGTTCATCGCCGACGAACTCCCCGAGAAGGGCATCCTGGCAGGCGAGAACAAGGTCCAGCGCCTCTGCAGGGACCACGGCGTCTGGTCGGTCTTCTCCAAGAAGCGTGGACTGAACCGGCAACCCGGTCTACCGGTCCACAACGACCTGGTGGAGCGGGACTTCACCGCCGCTACGCCGAACGAGCTGTGGCTGACAGATATCACCGAACACCCCACGGCCGAGGGCAAGCTCTACCTCTGCGCGGTGAAGTACGTCTATTCCGCGAGGATCGTCGGGTATTCGATGGACTGGCGGATGAAGTCGTCCCTGGCGGTGTCCGCGCTGGAGAACGCGGTACGGGCACGCCGTCCGGCAGGGACCGTGGTGCATTCAGATCGTGGGTCCCTACTTCGACGGCAAAGAGGGCTGCTTGTCAGCGATGGTCGAAAAGTGAGCCATTTCGCGGGCTTGGCGTCTAGTTGTCGTTGCAACACCTGA	MTYPLVTDLAADGVPVAVTCRLLGFSKQPYYRWRASPVTERDWVDAHLVNTALDIHADDPAFGYRFIADELPEKGILAGENKVQRLCRDHGVWSVFSKKRGLNRQPGLPVHNDLVERDFTAATPNELWLTDITEHPTAEGKLYLCAVKYVYSARIVGYSMDWRMKSSLAVSALENAVRARRPAGTVVHSDRGSLLRRQRGLLVSDGRKVSHFAGLASSCRCNT				NA	NA	NA	NA	NA
D1-29_02070	162			hypothetical protein	ATGATCCGGGACAGGCCTGCCGAAGTGATCGGCAGATTGGTACCAGGGCATTGGGAGGCGGATTTAATCATTGGAAAGGGCAGCCGTTCGTCCATCGCCACACTGGTCGAACGGACCACGCGCTTCATCATCCTCGTACATCAGGCGGGAAACCGCGGTTGA	MIRDRPAEVIGRLVPGHWEADLIIGKGSRSSIATLVERTTRFIILVHQAGNRG	PGPT0030610_364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030610-IS30_family-K07482	NA	NA
D1-29_02071	102			hypothetical protein	ATGATTCCCATTTTCGAGAACCACGTTGTGCCCTTCTTCTACCAGACCCCTAGGGTGTGCTTGACGATGGTGTCCCAGTCCTTGGCGAGGCTCCCACATTGA	MIPIFENHVVPFFYQTPRVCLTMVSQSLARLPH				NA	NA	NA	NA	NA
D1-29_02072	363			hypothetical protein	ATGACAACCGCTTTGAACCACAAACCCACTTTTGATCCAAGCAACGTTAACGACTTTGGTCCGGCAAAAATCGAACATCGAACGGCCGGAAGCGAGCTCAGGCAGCTTGGAACATACATTATGACCTTTCAGGAGAAGGGCTTCAGTGACCCGTGGACGGTTCAGTATGAAGAAACAATCTACGTGATTGAAGGTCAGGCTCGCCTGATCATAATCAACGGCGACCACAAGGAAGACCTAATTGGTGACGCGGACGAACTGCTTGTTCTTCCAAAAGGAACCACTGTCCAGTACAGCGCAACCCCTGGGACCCGGCTCTTGCTTTCCATCAGCCCAGTCCACTGGCGCCACGAAGTCGCTTAG	MTTALNHKPTFDPSNVNDFGPAKIEHRTAGSELRQLGTYIMTFQEKGFSDPWTVQYEETIYVIEGQARLIIINGDHKEDLIGDADELLVLPKGTTVQYSATPGTRLLLSISPVHWRHEVA				NA	NA	NA	NA	NA
D1-29_02073	402		COG0824	Putative esterase	ATGCCGCTCTACCAGCATCGCGTCAGAAACCACGAGGTGGACTCGCAGGGGTTTCTCTTCAACAGCCGCTATCTTGAGCTCGCCGACGTAGCTATGACAGAGTTCTTCCGCAGTATTGGTTGGCCTTACCCGAAACTGGTCGCTGAAGGGACAGATCCGTCTGTTGTCAGCGCAGTTCTTTCTTTCAAATCCCCCGCTTACTTCGACGACAGTCTCGACGTTGACGTCGAGTGCCGAACCGTTGGAAACTCGAGCTTCAAGATTGACGTCTCGATTGCTCGCGATCGCACGGAGGTGGCGAAGGTGGAACTTGTTTACGTAAACGTGGACCCAGCTCAGGCCCGCTCTCGGCCACTTCCGGACGCCGTAGCGCAAGCACTTCTTGGCGCCATACAGGGCTGA	MPLYQHRVRNHEVDSQGFLFNSRYLELADVAMTEFFRSIGWPYPKLVAEGTDPSVVSAVLSFKSPAYFDDSLDVDVECRTVGNSSFKIDVSIARDRTEVAKVELVYVNVDPAQARSRPLPDAVAQALLGAIQG	PGPT0001850_5405	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
D1-29_02074	906			hypothetical protein	ATGACCAAGGCGTCACTCAAGGTAGCCACCATTCAGTTCGAGCTTCGGGCCGAGAGAACCCTCGAAGAGTATTTGGAACATATGGAGGGGCTGGTCAAGCGCGCGGCGCAGCAACAAGCCGAACTTGTGCTTTTCCCCGAGCTCGCAAGCACGGGGCTCCTCGGAGCAGTCACCGATCACGAAGTGACAACCAACACAATTACATCGGATTACTGGAAGTTCCTGCCCGAGTTTACAGATGGCCTCGTTCAAGGCATGCGCCGGATGGCTCGCGAGAATAACATCGTGGTTGCTGGTGGAAGTCACAACCGGGTCGCCGAGGACGGATCGTTGCGTAATACAGCGTTCATCGCCCACCCGGACGGTCGAATTGAGTCCCAAGACAAAATTCACCTCACACCACAGGAGCACGCGCTTGGCGCCCGCGGAGGCGATGAACTGTTAGTAACAAAGATTGGGCCGTTCACAGTAGGGCTCCTGATCTGCGCTGACATCCAGTTTCCTGAACTCTCACGCTACCTGGTCCATAAGGGCGTCGACCTAATCCTTTGTCCTTCCCTCACCTGGAACCGGCGAGGCGTCCACCGGGTACGCACCGGCTGCCAGGCGCGTGCAATCGAAAACCAACTGTACGTCGTAATGTCACCGTTGTTCGGCACAAGCGGCATTCCGACCGATTCCCCGATGTTCGCGGTGGGAAAGGCCCTGATCGCCGGGCCCGTGGACAAGACAGTGGGAGTCAACGACGGGATCCTAGCCACCACTGCATCAGCTGATGAGGAAGTGCTGGTGGCCGACTTGGACCATGACCTGTTGGTTGCCTCACGGGCGCAACCCGAAGCACCCGGCCTGGCACTGCGGAGGCTGGATCTGTACGCCAAGCTGCAGGCAGAAATGGGGGCCTGA	MTKASLKVATIQFELRAERTLEEYLEHMEGLVKRAAQQQAELVLFPELASTGLLGAVTDHEVTTNTITSDYWKFLPEFTDGLVQGMRRMARENNIVVAGGSHNRVAEDGSLRNTAFIAHPDGRIESQDKIHLTPQEHALGARGGDELLVTKIGPFTVGLLICADIQFPELSRYLVHKGVDLILCPSLTWNRRGVHRVRTGCQARAIENQLYVVMSPLFGTSGIPTDSPMFAVGKALIAGPVDKTVGVNDGILATTASADEEVLVADLDHDLLVASRAQPEAPGLALRRLDLYAKLQAEMGA				NA	NA	NA	NA	NA
D1-29_02075	1239	hcnC_1	COG0665	Hydrogen cyanide synthase subunit HcnC	ATGAGCGCGGACACACTTGCGACAGGTGACATTGTCGTCATAGGAGCAGGGATTGTGGGTCTTTGTACTGCTTGGGAGCTACGCAAACGGGGGTTCGACGTCGTCGTCGTTGAACAGCGGTTTCCTGCCTACGGTGCGTCAGGACGAAACCCTGGTTCAATATGGTTGCAGACACGGCGCGCAGGGGACGAACTGTCACTCGCTCAGGCCGGTAAGGACAAGTACCAAGACTATATAAGCGAACTTGGCGACGTGTTTGACTACCGCAATCAGGGTGGGCTTTTTTTCTTCGAGAATGACGTACAGGCTCGGGTTCTTGAAGATTATGCTGCCGATCGGCGGGCCGCCGGCCTGGACGCAACGATGATTAGTCGTGAAGAGGCTCAGAAGCATTCCTCCATCCTTCCGGAAAGTGCTCTCGGCGCCGTTTTTTGCGCCGATGATGCCCAAGTAGATGGTGTACAGTTTGTCAACGCACTCGCTAGCGCTTGTGTGCGGGCAGGTATCCGCACTTTTGAAAACACGTCCGTCCTTTCCACCCTGCGAACTGGCGAAACCGTAACAGGGGTCCGTACGGTCAGAGGCGAAATTCATGCATCAGGCGTGGTATGGGCAACGGGTGCATGGTCAACCAACCTTCGCGCCGAGGGGATCGATGTCCCCATCGCCACTGCAAGAGTGGGGCAGATGCTGACTCAACCCGTTGATACTCGGCTGAACGCGATTATGCATGGACCGAGGGGGGTCTATGGATGCGGAGCGCTTACTGACCTCCCCACTTATGACGCCAAGGTTTTTCCCGCACCAAACAGTTCCGGCGCGGGAACGAGCCCGACTGCGAAGTCCAGTGTCTCGTTCGTTGGATATGACGACTCGATCGCGCAAAACAGCGGAGGGTCGATATTCATCGGCAACAGTCTTGACGGCAGGGGTTCCCTCAATCCCCACATCAGCATGAACGCTACAAACGCGATGGTTTCAACAACCTTGGACAGATACAGAACCCTTGCTGAATTCGGCGTTACCGGTCTTTGGGCAGGCCTCGGAAGCGAAACAAGTGACCATATGCCAATCGTCGACCGAGCTGACGGTGCCTATATAAATACCGGTCATGCCTGGGGCATTACGAGCGGGCCTATATGCGGCCAGGTAATGGCGGAGATCATCGCTGGGGAATCCAGCAACTTTGCTGGTGCCTTGAAGATGGACAGGTCCTCACTCACAATCGCCGCAGACTAG	MSADTLATGDIVVIGAGIVGLCTAWELRKRGFDVVVVEQRFPAYGASGRNPGSIWLQTRRAGDELSLAQAGKDKYQDYISELGDVFDYRNQGGLFFFENDVQARVLEDYAADRRAAGLDATMISREEAQKHSSILPESALGAVFCADDAQVDGVQFVNALASACVRAGIRTFENTSVLSTLRTGETVTGVRTVRGEIHASGVVWATGAWSTNLRAEGIDVPIATARVGQMLTQPVDTRLNAIMHGPRGVYGCGALTDLPTYDAKVFPAPNSSGAGTSPTAKSSVSFVGYDDSIAQNSGGSIFIGNSLDGRGSLNPHISMNATNAMVSTTLDRYRTLAEFGVTGLWAGLGSETSDHMPIVDRADGAYINTGHAWGITSGPICGQVMAEIIAGESSNFAGALKMDRSSLTIAAD				NA	NA	NA	NA	NA
D1-29_02076	1668			hypothetical protein	ATGATTCATGATCCGACTTCTATACCACTGGGAGCCGTCCTGGCGGACTTGGGTCCTGCTGCGAAGCTTGTCGCGGGGACCGCTTCGCAGCAGTCCAGGCAAGTTCGCGGCGCTGTTGTTTTACTGAAGCCGGAAGACTTGCCCGCCGACATCGATGCGGTCGTCATATGTCCGGGTGCCGACAGTTTTATTGAACTGGTCAGGCACCGCCTCGACGGGCCCGGACGGGTATTCTTCGTCATGTCGTCTGAATTAGCACTATCGGATTGGATTGAAGCTGTCGGGGAGCAGCATGTCGTCATCGCTGTTGATCCAGCCCTGAACGTCGCTAACGTCGTGATGTCCTTTTCCCGATCGATGCAGGTTCCGGAGGAGTCCGTTTCACGCAGATTGGCCTCCTTGCAGAGGGCGCTCAGTCAATCGATGACGGAGGCTGAGCCGATACCGGCGCTCCTTAGCCGGTTGGCGCATGTGTGTAATGCTACCGCCGTCTTAATCGATAGATTTGGTAGTACTGTCCAGGCCACCGGGCCGATACCCATGTCACTTCTGTTCGAAGAGATTGCCCGCACCGAGGCCGATTCCCAAAACGTGGACGTGGACGGTTGGCGTGGCGTGGCAGCTCGAATTTCGGCTCCTGACGAGGCTGACTCACACTTCGGCTGGCTCGTCATCACGGCTCGGCGGAAGAATTTTCCGGATAGCCATTCAACCTCGGCGGCTCACGTGGCGGCAACCCTGGTGGAGGCCAGCCAGCGAATGGCAGTGGCAGCGCGACAGCAAGAACGGGCCATACGCACTGCCGTGCTTGAGGAGGCGCTGGCATTGCGCCGCGAGCCTCACAATCCCGAATTGGCTGCCCGAATCACGGCTTTCGGTCTGTCTTTTGACGACGAGTTGAGGACCATTGTTTTTCGGCCCATTCGTCCTGCAGTTGCTTCGCGGTCGTTGCCAGCGACTGAGGACCTGTCGGAAATGTTAGGCAAAGCGCTGGAGTCGCAGTCCATCGCGTACCTAATGACCGCCAAGGACAAGACAATAACGATAGCGGCGCAGTGCAGTGTTCAGGCCTTCCGGCGAGTGATCGTGGCGGAAGGCTCCAAACTCCCAGGCGCTCTCATTGGAATCGGCCGCTGTGTGCACGCTCTAGGAGACATTCTGGACTCCTTCCAGGATGCGCACCTGGCGGTTCGGACGCTTCGCCGAAATTCGCGGGGTCCAAAGGTCATGGCCTACGAAGACTTCAACTATGCAACGAGGCTTTTCGCTGACGTCGGATTCGACAAGATGATTAAGTGGGCCCAGGAGTTCCTGAAGCCCTTGGAGGGGCGGGAGTTGCTGGTTGAAGGTCTTCAGACGTACTTTGAGCATGCTCAGAACATCAATGCCGCGGCAGACAATCTGGAGATCCACCACAACTCACTGCGGTATCGGATAGCTAAGGCTGAGGAAATCCTGGGCATCAATTTGAGGGAACCGGGTGCCGTCTCTTCCGTCTTCTTAGCACTGACAGCCCTTGAGCTGGGACAGATTCAACAGCCGCGACCCAGGTCGTCGGGCGATACAGGGAGAAGTCGTAGACCATCTGACGTCGAGGCAAGTGACGTCCTGCCCTACTCGAGGCCATCCACCGAAAGAGCCGGTGTAGTTCGTGCACCTGGCAGATGA	MIHDPTSIPLGAVLADLGPAAKLVAGTASQQSRQVRGAVVLLKPEDLPADIDAVVICPGADSFIELVRHRLDGPGRVFFVMSSELALSDWIEAVGEQHVVIAVDPALNVANVVMSFSRSMQVPEESVSRRLASLQRALSQSMTEAEPIPALLSRLAHVCNATAVLIDRFGSTVQATGPIPMSLLFEEIARTEADSQNVDVDGWRGVAARISAPDEADSHFGWLVITARRKNFPDSHSTSAAHVAATLVEASQRMAVAARQQERAIRTAVLEEALALRREPHNPELAARITAFGLSFDDELRTIVFRPIRPAVASRSLPATEDLSEMLGKALESQSIAYLMTAKDKTITIAAQCSVQAFRRVIVAEGSKLPGALIGIGRCVHALGDILDSFQDAHLAVRTLRRNSRGPKVMAYEDFNYATRLFADVGFDKMIKWAQEFLKPLEGRELLVEGLQTYFEHAQNINAAADNLEIHHNSLRYRIAKAEEILGINLREPGAVSSVFLALTALELGQIQQPRPRSSGDTGRSRRPSDVEASDVLPYSRPSTERAGVVRAPGR				NA	NA	NA	NA	NA
D1-29_02077	756	baiA		3-alpha-hydroxycholanate dehydrogenase (NADP(+))	ATGAATCGTCTTGCGGGCAAGCGCGCCCTCATCACCGGCGGCACGAGTGGGATCGGTCTGGAGACCGCGCAGCGTTTTGTTGCGGAGGGAGCTGAGGTGCTGGTCACAGGCATCACCCCAGCCAGCATCGACAGGGCGCGTCAGATCCTCGGGGACAACGTGCCGGTGGTGCAGGCCGATGCGCGCGATCTCGATGCGCAGCGTGGCCTGGCAGAGCGTGTTCGTGAGCACTTCGGGGAACTCGACATTGCCTTCCTGAACGCCGGCGTCTCGGACTGGCGGCCGTTCGAGGACCACACGGAGGATAGTTTCGGCCGGCTCTTCGACATCAACGTCAAGAGCGTCTTCTTTCTCACGCAGGCCCTGGTCCCCGTGCTGGCTAACCCTTCCTCAGTCATCCTCAACGCGTCCAACAGTGCTCACGGCGGCTATGGTCACTCGAACGCCTACGCCGCGACGAAGGCGGCAGTCAGCTCCCTGATGCGGTCCTGGAACGCGGATCTGCTCAGGTCGCACGGCATCCGGTTCAACGCGGTCAGTCCCGGCCCGGTGGACACCCCCCTGTACTCTAAACTTGGCATCGAGGACCCCGCGCAGCAGACTGCGGTTCTGGAGGCGATCAGCTCCGGCATCCCGCTGGGCCGCATGGGCAGGCCCGAGGAGGTCGCGGAAGCTGTCGTGTATCTGGCATCGGATGTCTCCGCCTTCGCTGTGGGGCAGGATCTTATCCTTGACGGTGGTCAGACCGTCCTCTGA	MNRLAGKRALITGGTSGIGLETAQRFVAEGAEVLVTGITPASIDRARQILGDNVPVVQADARDLDAQRGLAERVREHFGELDIAFLNAGVSDWRPFEDHTEDSFGRLFDINVKSVFFLTQALVPVLANPSSVILNASNSAHGGYGHSNAYAATKAAVSSLMRSWNADLLRSHGIRFNAVSPGPVDTPLYSKLGIEDPAQQTAVLEAISSGIPLGRMGRPEEVAEAVVYLASDVSAFAVGQDLILDGGQTVL				NA	NA	NA	NA	NA
D1-29_02078	693			hypothetical protein	ATGACGGTGGCGGACCATAACCGAGCGGAAACCGGCGGCGATTCGTGCCAGGCCGGGTATCACGCGCAGATCAAAGCGGAGAATCGCGCGCGCATTATTCGCGCCGCCCGCGACCTCTTTCTCGCGAAGGGTTACGACAAAACCTCCCTGGCCCAAATCGCCGCGGAGGCCCGCGTCTCGACCGGTACCCTCTTCAAACGGTACCCCTCCAAGGCTGAGCTGTTCGGGGCCGTCACCGCGGAGCAGTGGCAGCTGGATGTAGAGTACGCCGACCCGCCTCCTCCCGGTGATCCCCGGTACGGTCTGGACCACATCGGCCGCGATTACGCTTGCTTGATCTCGCGGACCGGCACTGCGGCGCTGTGCCGTCTCATCATCACCGAACTTCCCCAGATGCCGGAGCTTGCCGACATCGTCGGCAACGGCTTCGCTATCGACCGCGGTCCCTTCTTCGACCGGCTCCGTGTCTATCTGGAGGCCGAAGCACAGGCTGGCACACTCGATTTCCGTTCGGCCGACGGCGAACATCAGTCTGCATCCGCAGTCGCCGAACAGTTCCTCGGCATGATCTGCGGCCAGCTCCTGTGGCCTCAACTTGTAAGGACAGACTTCATTCCGCCTGACCCCGCCGACACCACGATCGTGGACGAAGCCGTAGCCCTCATGCTCACCCGCTATCGCGCTGGATCCTGA	MTVADHNRAETGGDSCQAGYHAQIKAENRARIIRAARDLFLAKGYDKTSLAQIAAEARVSTGTLFKRYPSKAELFGAVTAEQWQLDVEYADPPPPGDPRYGLDHIGRDYACLISRTGTAALCRLIITELPQMPELADIVGNGFAIDRGPFFDRLRVYLEAEAQAGTLDFRSADGEHQSASAVAEQFLGMICGQLLWPQLVRTDFIPPDPADTTIVDEAVALMLTRYRAGS				NA	NA	NA	NA	NA
D1-29_02079	495	adk_1	COG0563	Adenylate kinase	ATGGCAAAATCATATCTGGATGCTGGACAATTTGTACCGGATTCGGTCACGAACGGGATGATCCGTGAGCGACTGGGGCAGAACGACGCAGACAACGGATTTATATTGGATGGATATCCCCGCACTCTAGGTCAGGTTGACTATCTCGATGAGATCCTTGCAGATAAGGGCCACGAACTTGACCTCGTATTGCAGCTCTCTGTTGATACGGACGAACTGATCCAGCGCTTACTCTTGAGGGCCGAACGCGAAAACCGCTCGGACGACACAGCGGAAGTCATCAGAAACAGGATGGCACTGTTTTTCAATCAGACAACCGCCGTTACGTCCCGCTACCGCGAACGCGGCATCTTAGCGGAAGTGAAGGGGGTCGGCAGTATCTCGGACGTATTCAGCAGAGTTTCGACCGCCCTGGATCTGACGCTCGGGTCGTCGTTAAGGCAGACCACTACATTTGCGGCCGATGGCAGTCTCGAGCGGGCACTGCTGGTCTAG	MAKSYLDAGQFVPDSVTNGMIRERLGQNDADNGFILDGYPRTLGQVDYLDEILADKGHELDLVLQLSVDTDELIQRLLLRAERENRSDDTAEVIRNRMALFFNQTTAVTSRYRERGILAEVKGVGSISDVFSRVSTALDLTLGSSLRQTTTFAADGSLERALLV	PGPT0009040_6788	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939	NA	NA
D1-29_02080	816	pgdA		Peptidoglycan deacetylase	ATGTCCCGAGGTGAATTCGGTGCCCTAGTCGGCGCCCCACGACTCCTTGACGTCTTCCGGCGCTACGGAATTACCACGACATGGTGTGTGCCCACACATACCATGCAAACATTCCGCAGCTCGGTGGATGCAATTGTCGAGTCCGGGCATGAGATCGGCGCTCACGGCGTCTACCACGAATACGTGCCGGCACTCGATAAAGCCGAGGAAGAACGGCTGCTGGAACTGCAAATAGCTCAGCACGAACGACTCCTGGGTACGCGTCCTCGCGGATACCGCTCGCCTGCACTGGACGTTACCGACAACACGCTCGATCTCCTTGCGAAATTCGAGTTTGACTGGGACTCGTCCTTGATGGGCAGGGACTTCGAGCCATACCGGCCCCGGATGGTGGTCGGCGTTAGCGAGGAAGAGGGAAACACCTTCGGCCCAGAGAGCAGCGTCCTCGAGTTCCCGGTGTCCTGGTTCCTCGACGATTTCCCCGAACTCGAGTCTTTCAAGGGAAACACGCTCATGCAGAGCAACGAGACGGTTCTGGCTCGCTGGATTGACAGCTTCAATTTCGCATATGAGCGATGTGCCGGGGGCGCGATGACGTGGACACTACACCCGCAGACCATTGGTCGGGCACACAACCTCGTAATGCTCGAAAAGTTCCTCGATCACGTCACTTCATTTGAAGATGTATGGTTTCCAACGCTCTCCGAGCTCTTCACTTGCTGGCAAGACGACACTGCGCCAGCGACGGCATCCTCCCCCGCAGTTTCCAGGCCCGCGCTGAATGACCTCGGTCCGCTAGACAGGATGCTTCCATGA	MSRGEFGALVGAPRLLDVFRRYGITTTWCVPTHTMQTFRSSVDAIVESGHEIGAHGVYHEYVPALDKAEEERLLELQIAQHERLLGTRPRGYRSPALDVTDNTLDLLAKFEFDWDSSLMGRDFEPYRPRMVVGVSEEEGNTFGPESSVLEFPVSWFLDDFPELESFKGNTLMQSNETVLARWIDSFNFAYERCAGGAMTWTLHPQTIGRAHNLVMLEKFLDHVTSFEDVWFPTLSELFTCWQDDTAPATASSPAVSRPALNDLGPLDRMLP	PGPT0018645_2325	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
D1-29_02081	486	paaZ_1	COG2030	Bifunctional protein PaaZ	TTGACTACTCACACACTCGGCACGACCAATGAGTCAGCCGTACGCTACCTGGACGAGCTGGAACTTGGCCAGCAATGGACATCAGCAGGAAGAACCGTCACGGAGTTCGATGTCGTCACCTTCGCTACATGGTCAGGAGACATGCACCCGTTGCATACCAACGAGGAGTACGCCAAGACAACAGAATTCGGCACCAGGCTCTTCCATGGTCCCGGCGCACTTTCGATTGCCTTTGGGCTGGAAATGGCATTGGGATGGAAAAACGGCTCCGCGATCGCCTTTCTGGGAATCGACAACTGGAACCTCCGGGCCCCGATCCGCATTGGCGACACCATCAGTGTTCGTGAAGAAGTGATCGGCATCAAGCCGTCTGCCAGCAAGCCCGACCGTGGAGTTGTAACTACCCGCGTTCAAATTCTGAATCAGAACGGCGTGGTCTGCCAGGAAGGCGACTGGATTGTCCTCCTATCCCGTCGCCCGGCCTAG	MTTHTLGTTNESAVRYLDELELGQQWTSAGRTVTEFDVVTFATWSGDMHPLHTNEEYAKTTEFGTRLFHGPGALSIAFGLEMALGWKNGSAIAFLGIDNWNLRAPIRIGDTISVREEVIGIKPSASKPDRGVVTTRVQILNQNGVVCQEGDWIVLLSRRPA	PGPT0014741_104	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014741-phaJ|croR-K17865	NA	NA
D1-29_02082	1227	hcnC_2		Hydrogen cyanide synthase subunit HcnC	ATGAACCTCGACAAGGCCGGTGTGGTTGTTGTAGGCGGCGGGATAGTAGGTGTAACAACCGCGTACTATCTTGCTTCAAAAGGGCACGATGTTGTGCTGCTCGAACAGCGGGAACTTGGCCACGGCGCTTCCGGGCGAAATCTCGGATTCCTCCACATGCAGAATCGTCATGGCGACTACGCCGTCGAACTGACCCGTGCGGGGAGGGCCCTGTACGACGACTTTGCAGACATCCTCGGGCCATCTTTTGAATACAGAAGCAACGGTGCCATGACGTTCTTCTATACGGACGATCAGCGGCGGGTCTATAAGGAATTCGTAGAAGCCAGGATCGCAGACGGATTCAAAGCCGAACTCCTTGACGACCAGGCCGCTCATGAAGCCGCCCCGATATTGCCGCCCGATGTTATTGGAGCCACGTTCAGCCCGGAAGATGGCCAAATTCGTACGCCGAAGTTCGTCCGTGCCTTGGCGCAGGAATGCCGCAGGCTCGGTGTTCGAATTCATGAAAACACGCCGGTCCTCGGACTCCTACGGAATGGCTCAAAAGTAGTCGGAGTACAAACAGTCGGCGGCAGCGTTTCAGCGGACAAGGTCGTTTGGGCAACTGGCGTCTGGTCTACAATGCTCGAATCAGAGGGTGTAACCGTACCCATCAAGCCACACAGGCTGGGTGCTGTCCTAATGGCTCCTGTAGAGGAGAAGCTCGATAAAATCCTGAATGGACCGCTTGCTGCGAAGCAATACGCCCACATCCGGAACCTCCCCAGTTACCGGGACGAGTACTTCACCTCCCCTTCAGAGGACCAATCACAGGGCCTCGAACACATGGAATGTGTGGCCAAGACCGAGGACGGGAATCTATTCATAGGCTGCCCGATGGACTACCCTGACCAACTCGACGACAGGATGCCTGCCGCCGCTCTAAAGTTGGCCATCGATTCATTGCTCACAACCTTCCCCAACTACAGGTCTCTCGGTATTGAACGTGCCTGGGCTGGCCTCGTCCCCGCCACAGCTGACTCCCTCCCGATCGTTGACGAGGTGGAGGAACTTCCCGGGCTGATTCTGGCCACCGGCCACGTCTACGGCAACTTGGCCGGCCCGATCACAGGGAAGCTGGTGGCCGAACTCATCTCAGGTGAGCGCCTCAGCCTCCCCCTGGACGAACTATCCCTCTACCGGCCGTCCCTGACCACCCCGGTAGACGGAGTCATTCGCTATTAG	MNLDKAGVVVVGGGIVGVTTAYYLASKGHDVVLLEQRELGHGASGRNLGFLHMQNRHGDYAVELTRAGRALYDDFADILGPSFEYRSNGAMTFFYTDDQRRVYKEFVEARIADGFKAELLDDQAAHEAAPILPPDVIGATFSPEDGQIRTPKFVRALAQECRRLGVRIHENTPVLGLLRNGSKVVGVQTVGGSVSADKVVWATGVWSTMLESEGVTVPIKPHRLGAVLMAPVEEKLDKILNGPLAAKQYAHIRNLPSYRDEYFTSPSEDQSQGLEHMECVAKTEDGNLFIGCPMDYPDQLDDRMPAAALKLAIDSLLTTFPNYRSLGIERAWAGLVPATADSLPIVDEVEELPGLILATGHVYGNLAGPITGKLVAELISGERLSLPLDELSLYRPSLTTPVDGVIRY				NA	NA	NA	NA	NA
D1-29_02083	1542	lcfB_2	COG0318	Long-chain-fatty-acid--CoA ligase	ATGAATGAAACGTCGCCGGAGCTAACGGATTGCGTCTCCGCGCTGGAATGCATCGCCGAACAATACCCAAATAATACAGCGATTGTCGACGGCGACACGTTCATGAGCTACAAAGATCTCCAGAGATCGATTGAGCATCGCTCAGCTGTGCTGCTTGCGGCCGGCCTCAAGTCGGGTTATCGCGTGGCCCTCGTCGCGGAAAGCTCAGCGGACTATCTCGCCACAGCCCTCGCTGTATGGCGCAGCGGCGGTGTCCTGGTTACTGTCTATCCTTCTTCTGGTCCAGAGGACCTGGAATATGCCATTGCCACAAGTGAACCTGCGCTGATAATCACCTCCGAAAGCGTTGATCCTGCGCATATCGCCCCTGCCGCGCGAAATGCCCCAATTGTCGATATCGTTGACTTCCACGTAACCAGTGTTCGGCACGACGCTCTACCCAACCCTGAGGGTCTTCGAGAACCCCTGTCCATGATCTGCTTCTCGTCCGGCACCACCAGCCGCCCGAAAGCGATCATGCTTTCTGCCACAGCCGTATATAACTGCGCAAACACCTACGGCGAAGTCTGGCACCTTTCACCCGAAGACAAGGCAATTATCTGTCTGCCGATGGCATGGCTCTATGGGCTTGCAAGCACATCTCTGGCCGTCCTGCTAAGCGGCGGGACAGTGGTGATAGTCCGGAGGGCTCGTCCAGACATGATTGCTCCCGCCATTGAGGAGCATTCCGCCACGTTCCTCGCCGGTGTGACGGCGACTTTCGGAAAGCTGGCCCAGTACGCTGAACTCCGAGCCGGGGATAAGCCGGCATTCCCATCACTTCGACTGTGCATCTCAGGCGGAGAGCCCAGGAACGAAGCAGCATTCAGCCGCTGGGAGGCCCAAACTGGACTGCCAGTTCTGGACGCGTACTGCGCGTCCGAATGCCTACCGCTGGTGACTTACGACCCCGTCGCGAACCCCACGCCCAAACCCGGGTCGGCAGGCAAGCTTGTGCCGCGGTCGAAGCTAAAGGTTCTCGACGCCGAGGGAGCGGAAGTACCAGCCGGGGAGGTTGGGGAAGCGTACTCGACTGGACCGGGGTTGATGCTCGGGTATTGGCGTGACGAAGAACAAACGAGGACTGTCATAACTGATGACGGCTGGTATCGCACAAAAGATCTTGTTCGGGTGGATGAGGACGGTTTCGTCTACGTCGTTGGTCGGCTCTCCGACGTCATCATCCGTGGCGGAACAAACATCTCGCCGGCAGAAGTTGAGCGTGTACTTCAGCAGCATGCCTCAGTTGGTGAAGTGGCAGTGGTTGGTCTTCCCGATGACGTCTACGGCCAGCGTGTTGTGGCCGCTGTCGTCCCCAGGGGCATAGCGCCTCTTGACGAAGCCGAACTGAAGGGATTCGCTGCGGCCCGCCTGTCGTCGTATAAGGTCCCCAGTGAGTTCGTCGCAGTCGACTCCCTCCCAGTGAATTCGACAACCGGCAAAGTCAATAGGCGGGACGTGGCGACGCTGCTGACAGCGGAGAAGAGCCAGGGCAGGGCATAA	MNETSPELTDCVSALECIAEQYPNNTAIVDGDTFMSYKDLQRSIEHRSAVLLAAGLKSGYRVALVAESSADYLATALAVWRSGGVLVTVYPSSGPEDLEYAIATSEPALIITSESVDPAHIAPAARNAPIVDIVDFHVTSVRHDALPNPEGLREPLSMICFSSGTTSRPKAIMLSATAVYNCANTYGEVWHLSPEDKAIICLPMAWLYGLASTSLAVLLSGGTVVIVRRARPDMIAPAIEEHSATFLAGVTATFGKLAQYAELRAGDKPAFPSLRLCISGGEPRNEAAFSRWEAQTGLPVLDAYCASECLPLVTYDPVANPTPKPGSAGKLVPRSKLKVLDAEGAEVPAGEVGEAYSTGPGLMLGYWRDEEQTRTVITDDGWYRTKDLVRVDEDGFVYVVGRLSDVIIRGGTNISPAEVERVLQQHASVGEVAVVGLPDDVYGQRVVAAVVPRGIAPLDEAELKGFAAARLSSYKVPSEFVAVDSLPVNSTTGKVNRRDVATLLTAEKSQGRA	PGPT0008380_14021	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-29_02084	1053		COG2070	Putative monooxygenase	GTGATCAAGACAGCATTGACGGAGGCCCTGAGCCTCAAATACCCCGTCTGCTCAGCCGGCATGGCGCGTGTCGCTCAGGCCGGACTCGTCACCGCGGTCAGTAACGCGGGCGGCTTGGGATGCCTGGGCGGCGTCAGCTTCATGCCGGATGACCTTCGGGCCGAAATCAAGAAGATCGAAGCTGGAACCGACAAGCCCTACGCGATTAATCTCCTGCTGCCGGACTCACTCACCACCGAAGATGAAACACAATGGGCGCCAGTGCGCGAACTGTGGAAATCACTTTCCGGAGCCGACCAAGAAAAGATGGCAGGTGTAGAAGCGCTTTTGACGCCGGGGGCCGTAGCAGACCAGGTGCAGATCGTCCTGGACGCGGCACCTTCCGCGGTTGTTTTGACGTTCGCTACACCGGATTGGTTCATCAAAGAGTGTAAGGATCGCGGAATCACGGTGTTCTCGCTTGTCGGCTCAGTGGGCAAGGCACAGGAAGCTAGTGCAGCGGGTGTTGACTTTATTGTCGCTCAGGGCAGTGAGGCCGGCGGGCACACAGGATACGCATCTACTATGACCCTCGTCCCTGCCGTTATTGATGTGGTGGATCAGCCAGTCCTGGCCGCTGGCGGCATCGCCGATGGCCGCGGGCTGGCCGCCTCACTCGCTTTAGGTGCAGCAGGAGTCTGGGTGGGAACGCGCTTCATTGCCAGCCCCGAAGCTTACGGGCACGACAATTTCAAGAACCGAGTGGTGGGAGGATCCTTCAAGGACAGCACCATCACCTACTCATACAGCGGTAAGCGTATGCGTGCATTCGAGAACAAATGGACCTCGGAATGGGAGTCTTCGGATAAAAAACCCGCAGGCTTCCCCGGACAATACGCCGTCGCCGGCACGCGCGTCGAAACAGGATATCTGGACGGAGACATGGACTTCGGAATGATGCCGGTGGGCCAGACCATGCAGCTTGTTCACGAAATTCTGCCTGCTGGTGAGATCGTCGAGAATATGGCATCAGATGCAGAAAAAATCCTGCGTGGACTTGCAGCCGGAAAATAG	MIKTALTEALSLKYPVCSAGMARVAQAGLVTAVSNAGGLGCLGGVSFMPDDLRAEIKKIEAGTDKPYAINLLLPDSLTTEDETQWAPVRELWKSLSGADQEKMAGVEALLTPGAVADQVQIVLDAAPSAVVLTFATPDWFIKECKDRGITVFSLVGSVGKAQEASAAGVDFIVAQGSEAGGHTGYASTMTLVPAVIDVVDQPVLAAGGIADGRGLAASLALGAAGVWVGTRFIASPEAYGHDNFKNRVVGGSFKDSTITYSYSGKRMRAFENKWTSEWESSDKKPAGFPGQYAVAGTRVETGYLDGDMDFGMMPVGQTMQLVHEILPAGEIVENMASDAEKILRGLAAGK				NA	NA	NA	NA	NA
D1-29_02085	780		COG1028	3-beta-hydroxycholanate 3-dehydrogenase (NAD(+)) 2	ATGGGAAGCAAAAGCGTAATTATCACCGGATCCGGATCCGGCATCGGCCGGGCCATTGCCCAGGCATTCGTCGAAGCAGACTACGAAGTCTATGCGAGTGACGTTTCAGAGGAACGTCTGGCGGAGACTCGGCAAGAGCTCGGCTCTCCGGGCTCACTCCACACCAGGGTCGTAGACGTTAGCGACTACCAGTCTGTGTCTGCTTTGGTGGACGAGGTTGTGGAGAAGACAGGCAAACTGGACGTTATGGTCAATAGCGCGGGAGTCTTCGACGGGTATGCCGACGTGCTCGAAACGACGCCCGAGTTGTGGGCCAAGATTATTGGCGTCAACCTAACAGGAACGTTCTATGGCTGCCGTGCAGCAGCACAGGTGATGACGAAGCAGAACTGCGGTCGCATCATTACAATCGGCTCCGTCGCCGGCCAAAGGGGTGCAGCGGACGGCATCTCATACGTCGCATCCAAGGCGGGTATAGAGGGGCTGAATCGTCGTCTCGCCATCGATGTTGCCCCGCACGGGATAACAGCCAACGTTGTCGCCCCGGGAGTCATCAAGACAAACCTTCGCGCCACTTCCGAGGAGATCCTGGGTGATCTCGTTTCAACGCAGCAGCGCGGCATCGGGGTGTCGCCCGAGATCATGGACTTCCTCATTCCGGCAAAGCGATCCGGCGAACCCTCCGAGGTGGCGAGCGTAGTGCTGTTCCTCGCGTCCGACGCTGCTGGTTATGTCAACGGGCAAACTATCCAGGTCGATGGCGGCTGGAACGCGACGTAG	MGSKSVIITGSGSGIGRAIAQAFVEADYEVYASDVSEERLAETRQELGSPGSLHTRVVDVSDYQSVSALVDEVVEKTGKLDVMVNSAGVFDGYADVLETTPELWAKIIGVNLTGTFYGCRAAAQVMTKQNCGRIITIGSVAGQRGAADGISYVASKAGIEGLNRRLAIDVAPHGITANVVAPGVIKTNLRATSEEILGDLVSTQQRGIGVSPEIMDFLIPAKRSGEPSEVASVVLFLASDAAGYVNGQTIQVDGGWNAT	PGPT0003180_5058	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
D1-29_02086	171			hypothetical protein	ATGCTCCAGGCTGGTCCGCAGTATCCGTTGGCAATGTTTCTCCCGAACCGTAAAGTTTCTCAAAAGGGCCTGCGGGGCTGGGCAACTAGACGAGCCAAGCTCCAAAGTATGTCGGCCATGTCCTTGAACTTTAGAATCAACCGCATCATCCTGGCATTGGAGATTTTCTGA	MLQAGPQYPLAMFLPNRKVSQKGLRGWATRRAKLQSMSAMSLNFRINRIILALEIF				NA	NA	NA	NA	NA
D1-29_02087	663			hypothetical protein	GTGCTGGACGCGGTCCTGAGCGGAGTCCTGGATTACGGTCTCGAAAAGCCGGGGACAGTAGCTGCGCGGTTTGCCGTATCCGCAAATCCAAGTATGGCTATCGGCATGTCAGCTGCCTGCCTATCAGTGGGAAAGCACACCCTGGCAACTGAGGACAGCGGACGTTTCATGCTGGCTACCCATGACGAGTTTCTGAGATCCGGCCTCACGCTCGAAGCTTTTGCCGAGGAAAAGGTGAACCGGATGCGTGCGGCAAAGGAGCGCATCCCCGGCTTGGGGCACCCTATTTTCAAGGTTGTCGATCCCCGCGCGGAACGGCTCCGGTCGATTGCCCGGCAAGAGGGTTTGTGGGGTCAGACGGCTGAGGTATACGAGGCAGTTCATAAGGCCTTCACAAAACTTCCAGGTAAGTCTGATGTTCCGATAAATGACGTTGGTGCTATGGCCGCCATTCTGCTGGGGCTTGGCTTCACACCCGAAGAAGGGACAGGGGTTGCCCTGCTCTCGACCCTGCCTGGGGTGATAGCACACGTGTCTGAGGAACTCTCCGCTGGCAAGCCAATCCGCATTGTCCCGAGAGGCTCCGCATCTTATGAGGGGACCACTGATCGGGACTTTGATGCCGACAGACTTCAGGCCGGCTGGAGCCCTTCCGGGTCCTAG	MLDAVLSGVLDYGLEKPGTVAARFAVSANPSMAIGMSAACLSVGKHTLATEDSGRFMLATHDEFLRSGLTLEAFAEEKVNRMRAAKERIPGLGHPIFKVVDPRAERLRSIARQEGLWGQTAEVYEAVHKAFTKLPGKSDVPINDVGAMAAILLGLGFTPEEGTGVALLSTLPGVIAHVSEELSAGKPIRIVPRGSASYEGTTDRDFDADRLQAGWSPSGS	PGPT0001355_5	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001355-ccl-K15234	NA	NA
D1-29_02088	495	paaZ_2	COG2030	Bifunctional protein PaaZ	ATGAGTGCAAGATCAGAGAATCGTCCGATTCCTTCAGCAACTCGATTCCTTGAGGATCTCCGGATCGGAAATTCGTGGTCGTCTCAAGGACGAACAATCACAGAGACGGATCTGCTCACCTTCGCTACCTGGTCCGGGGATATGCATCCGCTCCACACCAACGAAGAGTTTGCCCGTGGTACTCAGTTTCGAGAACGGGTTTTCCACGGTCAGGGGACTCTCGCCATAGCTTTTGGACTGGAAATGGGACTGGGCTGGAAGGAACGTTCGGCCATAGCATTTCTAGGCATTTACGACTGGAAACTTATTGCTCCCGTACGCATCGGCGACACAATCGCAATACGGGAAGAAGTAGTGGAGCTGCGGCCTTCTGCGAGTAAACCAGACCGGGGCATCGTGAAGACCAAACTCCAGATACTCAATCAGCGAGGCGAAGTTTGCCAGGAGGGCTTCTGGGTCGTTCTCCTGTATCGGTCTGCTGCCTACACACCATGA	MSARSENRPIPSATRFLEDLRIGNSWSSQGRTITETDLLTFATWSGDMHPLHTNEEFARGTQFRERVFHGQGTLAIAFGLEMGLGWKERSAIAFLGIYDWKLIAPVRIGDTIAIREEVVELRPSASKPDRGIVKTKLQILNQRGEVCQEGFWVVLLYRSAAYTP	PGPT0014741_104	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014741-phaJ|croR-K17865	NA	NA
D1-29_02089	708			hypothetical protein	ATGGAACCGCCGGTTCCACGGCTTGCGGTAAGCGTGGTTCTGATGCGGGATTCCCGGCACGGAGTAGAAGTATTTGTCCAATGCAGGGCACTTACTATGGATTTTGCTGCTGGTGTGGTTGCGTTCCCCGGGGGCCGAGTCGACGCCAGTGACTTCTCGTACGCGGCTGTCAGCGGAAGACTATTGGAGCACCACGCCAAGGCCTGGAGGCGGACCAGCGTTTGGGCCGATGTAACAAAGGCGCGGCACACGTCCGCTTGCCTCCTGTCTGCCGCCGTGCGTGAACTGGCAGAAGAATGCGATGTTGTCCTCCAACCGGAAGACTTGGTCCCGTGGGCAAACTGGATCACACCGGAGGGCTTTCCCAAACGTTTCGATACGTTCTTTTTTGTCACTGCTGTAGCGCCCGATCTGGAGCCCAAGCATGTCACGACGGAGGCAACATCGTCGCAATGGATGCCGGTGCGAAAGATCCTCCTGGACGAAGCTGCCGGAAGGCTTAGGCTCCTGCCCCCAACGGTGGCAATTCTAGATGAAATTGCGGAAGTGGATACCACCAACAAAGTGCTTTCGGGGAAACGGACAATCGAGTCGGTGTGCCTACGCCTTGATGAAATAGAGGAGTTCCATCGCCTGCGGCACCAGAGCACGGGGGACACCCGGAAGCAGCCTTGGTACAGGGCTGTCCGCGCTGGACATCAACGATGA	MEPPVPRLAVSVVLMRDSRHGVEVFVQCRALTMDFAAGVVAFPGGRVDASDFSYAAVSGRLLEHHAKAWRRTSVWADVTKARHTSACLLSAAVRELAEECDVVLQPEDLVPWANWITPEGFPKRFDTFFFVTAVAPDLEPKHVTTEATSSQWMPVRKILLDEAAGRLRLLPPTVAILDEIAEVDTTNKVLSGKRTIESVCLRLDEIEEFHRLRHQSTGDTRKQPWYRAVRAGHQR				NA	NA	NA	NA	NA
D1-29_02090	1722	cocE_1		Cocaine esterase	ATGAGTGCAACTGAACTTGGATTGAGTAACGAGGCGGCAAAATCTGGTGAAGTCGTGGCCGCATCGGTGCTCACGGAGTTCGATGTGCCTGCGCGCATGCGCGACGGTGTTGTGTTGCGGGCCGACATTTACCGGCCTGTGGGTGAGGGACCATGGCCGACGTTGGTGATCCGCACGCCCTATGGAAAGGGCTCGATGTGGGAGAACGAGTGGAACGGCATATCGCCCACCGAGGCGGCCCGGCGTGGCTTCATTGTAGTCATCCAGGATGTCCGTGGCCGAAATGCGTCAGACGGAATGTGGGCGCCCGTCCTTAACGAGGGCCGCGACGGGGCCGACACTATCGCCTGGGCCGCCGATCTAGCGGGCTCAAGCGGTCGCGTGGGGTTGGTCGGCGGAAGCTACTGCGGCAACACGCAAATGATGGCGGCGCTTGAACAACCGCCCGCGCTCAAAGTAATTGCACCACTGATGACCTGGTCGGAGCCGCGTGATGGCCTGGTGGCCCGCGGAGGTGCAGTTGAGCTCGCCATTGGAATCGCCTGGCCCCTGGTTCAGGGCTTCGACTGGTTGACCCGCATTGGTCTGACGGGTGACGAGGCATCGGAGCGGGCCGGTGCACTCATCTCAGAGGTCGACAGGTTGCCCGAGGACGGGTACTGGGGCCTCCCGGTCACCGAGATGCCGGTGGTACGCCGGCACGAGATCCCAGGGTTCGTCGAACTGGGGGAGGCTAACGATGACGAAGCGACCCGACACATGCGCGTCGCAGGGCGGCACGAGCGGATTCAGGTTCCGGGCTTTTTTACCACCGGCTGGTTTGACACTCTCCAGCAGGGGACTCTTGACAACTACATGGCAATGCGGGCACTCGGACTCGAGACGCGCTTGATCGTCGGCCCATGGTCGCACAGCGACTTCATGAACGAAGTCGGCGAACAGGAGTTCGGCGTCATGTCGATGCGGGACGCGCACGCCTTTCCGAATGGTGCATGGAGCGACGAGGTACTGGCTTTCTTGCGGCATCATCTTGTCGATGACGCCCCCGCCGGGGATGCGTCGCCCGTGCAACTGTTTGTCATGGGCCGCAACGAGTGGCGCAACGAGGAATCCTGGCCTTTGGAGCGCGCCCGTATGGAGCAATGGAATCTGCACGCCGGGGGGAGCCTTAGCAAAGCGGCGCCGGCTGGCGACGCAGTGCCGACCGAGCTTGACTACGACCCTTCGGATCCGGTTCCCACGTACGGCGGGCCCCTCAACCTCCCCGCCATTGTGCGGGGTCCGGTTGACCAGGCGCGTATCGAAGCGCGGCCGGACGTCCTCGTCTTCACTTCGGACGTACTAAAGGAGGACCTTGAGGTAACGGGCCGCATCCGGGTTCGACTGCATGTCCAGAGCTCGGCGCCCTCGGCCGACTGGGTCGCGCGCCTGTGCGACGTCGACCCGGACGGCCGCTCGATGAACCTCACTGACGGAATCGTTCGCATCCATCAAGGCGCCGATGAAAGTCGCGAGATCGAGATTGATCTGTGGTCTACGAGCAACGTCTTCGTCGCTGGCCATCGCGTGCGGGTACAGATTACGAATAGCTGCTTCCCACGTTGGGATCGCAACCTAAGCACCGGGGACCAGAGCCAGCCTGGATTCACCACAGCGCGTCAGCGCCTTTACCACGACGGCGCCCGCCCGTCTTACATCGAGCTGCCTGTAATCCCTTCGTGA	MSATELGLSNEAAKSGEVVAASVLTEFDVPARMRDGVVLRADIYRPVGEGPWPTLVIRTPYGKGSMWENEWNGISPTEAARRGFIVVIQDVRGRNASDGMWAPVLNEGRDGADTIAWAADLAGSSGRVGLVGGSYCGNTQMMAALEQPPALKVIAPLMTWSEPRDGLVARGGAVELAIGIAWPLVQGFDWLTRIGLTGDEASERAGALISEVDRLPEDGYWGLPVTEMPVVRRHEIPGFVELGEANDDEATRHMRVAGRHERIQVPGFFTTGWFDTLQQGTLDNYMAMRALGLETRLIVGPWSHSDFMNEVGEQEFGVMSMRDAHAFPNGAWSDEVLAFLRHHLVDDAPAGDASPVQLFVMGRNEWRNEESWPLERARMEQWNLHAGGSLSKAAPAGDAVPTELDYDPSDPVPTYGGPLNLPAIVRGPVDQARIEARPDVLVFTSDVLKEDLEVTGRIRVRLHVQSSAPSADWVARLCDVDPDGRSMNLTDGIVRIHQGADESREIEIDLWSTSNVFVAGHRVRVQITNSCFPRWDRNLSTGDQSQPGFTTARQRLYHDGARPSYIELPVIPS				NA	NA	NA	NA	NA
D1-29_02091	501			hypothetical protein	ATGACTCAAGATGTCCTCTCCACCCCGGGCCATGCAGCGGTGCTTGCCCGGCTGGAAGCGGCGGGCGTGCTTGCCGAAGTAACGGGCCACCGCATTGCCGCGTATTCCTATAATGCATCCAACTACAGGGTTCCGCCTGTTGCCGTGGTCTTCCCCCGAAGCGTCCAGGACGTCGTCGCTGCCGCAGCCGCATGTCGGGAAACCGGCACACCGCTGGTGAGCCGGGGTGGCGGGACATCCATTGCCGGCAACGCCATCGGCCCCGGCATTGTTCTGGACTTTTCCCGGTACATGAACCGGATCAATAGCGTCGATGAGGCAACCAAAACCGCCGACGTCGACCCCGGCGTGGTCCTCTCCCACCTCACCCTTGAGACCGAGAGGGTCAGGGGTGGGAGGCTCACGTTCGCGCCGGACCCTTCGTCAATGAACCGCGTCACCATCGGCGGCTCTCTCGGGAACGACGCGTGCGGGTGCACGCCAGGATGTGAAGTGCAGTGA	MTQDVLSTPGHAAVLARLEAAGVLAEVTGHRIAAYSYNASNYRVPPVAVVFPRSVQDVVAAAAACRETGTPLVSRGGGTSIAGNAIGPGIVLDFSRYMNRINSVDEATKTADVDPGVVLSHLTLETERVRGGRLTFAPDPSSMNRVTIGGSLGNDACGCTPGCEVQ				NA	NA	NA	NA	NA
D1-29_02092	1740	leuA_1	COG0119	2-isopropylmalate synthase	ATGCAAAACGCACAAAAGCCCTCAGGAATGCCCGCCCACCGCTACACGCCGTTCCAGGACCAGATTAAGGTGGAACTGCCAGACCGCACCTGGCCGGACAAGATCATCGCCAAAGCGCCCCGCTGGTGCGCGGTGGACCTGCGCGACGGCAACCAGTCACTGATCGATCCCATGAGCCCGGCGCGCAAGATGAAGATGTTCGACCTGCTGGTCCGCATGGGCTACAAGGAGATCGAGCTCGGGTTCCCTTCCGCCTCTCAGACCGACTTCGATTTCGTCCGGCAGCTCATCGAGGGCAACCATATCCCGGACGATGTGACCATCCAGGTCCTGACCCAGGCCCGTGAACACCTGATTGAGCGGACCTACGAATCCCTGGTGGGCGCCAAGCAGGCCATCGTCCACCTCTACAACGCTACCTCGGTGTTGCAGCGCCGCGTGGTGTTCAACCAGGACGAGGATGGGATTCTGGATATCGCCCTCCAAGGCGCGCGACTCTGCAAAAAATACGAGGAAACGCTCGTTGACACGCATGTCATCTATGAGTACTCACCGGAATCCTTTACGGGTACGGAACTGGAGTACGCGGCGCGGGTGTGCAATGCCGTGGCCGATGTTTTTGAAGCCTCCGCTGACCGGCAGGTCATCATTAACCTGCCTGCCACGGTGGAAATGGCCACGCCCAACGTGTACGCGGATTCGATCGAGTGGATGAGCCGGCATCTGCACCCTCGGGAGGGCATCATCCTGTCCATGCACCCGCACAACGACCGCGGAACGGGAGTTGCCGCCGCGGAACTGGGATACATGGCCGGCGCTGAGCGGATTGAAGGCTGCCTGTTCGGCAACGGCGAGCGGACCGGCAACGTTGACCTGGTGACCCTGGGCCTGAACCTTTTCGTCCAGGGCATCGATCCCATGATTGACTTCTCCAATATTGACGAGGTCCGCCGTACGGTGGAGTACTGCAACCAGCTGCCCGTCCCGGAGCGTTCCCCCTACGGTGGCGACCTGGTATTCACGGCGTTCTCCGGCTCGCACCAGGACGCCATCAAGAAGGGCTTCGAGGCACTGGAGCGGGACGCGGCCGCTGCCGGCAAGGACGTAGCCGACTTCACCTGGCAGGTGCCTTACCTGCCCATCGACCCCAAGGACCTGGGCCGCAGCTACGAAGCCGTCATCCGGGTAAACTCCCAGTCCGGCAAGGGCGGCGTAGCGTACCTGCTCAAGAACGAGCACAGCGTAGACCTGCCCCGCCGGGCCCAGATCGAATTCTCCGCGGTTATCCAGCGCCGCACGGACACGGTTGGCGGGGAGATCAGCGGCGCGCAGCTCTGGCAGATCTTCCAGGACGAATACCTGCCCTCCGGCGAGGCTGACGGGCAGTGGGGCCGCTACTCGCTGGGCGCGGTCAAGACGGAAACAGATGACGACGGCGGCATGACGCTTCACGCCTCACTCACTGTGGACGGCGTGCAGGTTCAGCGCACCGGCACCGGCAACGGCCCTATCGCTGCCCTGCTGAGCATCCTTCGGGAGGATGGCGTGGACGTCCGCGTGTTGGACTACAGCGAGCACGCACTCTCCGAGGGCGGCAACGCGATGGCTGCAGCATACGTTGAATGTGCCGTGGGGGAGCGCTTGCTGTGGGGCGTCGGCATCGACGCCAACACGAGCACGGCCGCGCTCAAGGCTGTGATCTCCGCGGTGAACCGAGCCATTCGGGACGCCCAGGCATGA	MQNAQKPSGMPAHRYTPFQDQIKVELPDRTWPDKIIAKAPRWCAVDLRDGNQSLIDPMSPARKMKMFDLLVRMGYKEIELGFPSASQTDFDFVRQLIEGNHIPDDVTIQVLTQAREHLIERTYESLVGAKQAIVHLYNATSVLQRRVVFNQDEDGILDIALQGARLCKKYEETLVDTHVIYEYSPESFTGTELEYAARVCNAVADVFEASADRQVIINLPATVEMATPNVYADSIEWMSRHLHPREGIILSMHPHNDRGTGVAAAELGYMAGAERIEGCLFGNGERTGNVDLVTLGLNLFVQGIDPMIDFSNIDEVRRTVEYCNQLPVPERSPYGGDLVFTAFSGSHQDAIKKGFEALERDAAAAGKDVADFTWQVPYLPIDPKDLGRSYEAVIRVNSQSGKGGVAYLLKNEHSVDLPRRAQIEFSAVIQRRTDTVGGEISGAQLWQIFQDEYLPSGEADGQWGRYSLGAVKTETDDDGGMTLHASLTVDGVQVQRTGTGNGPIAALLSILREDGVDVRVLDYSEHALSEGGNAMAAAYVECAVGERLLWGVGIDANTSTAALKAVISAVNRAIRDAQA				NA	NA	NA	NA	NA
D1-29_02093	2145	fadJ_3	COG1024	Fatty acid oxidation complex subunit alpha	ATGACAAACCCGACTCGCTCAGTAACTCAATCCGGTGATCCTGAGGCACACGCCGTTCGCGGCCTCTCTTCCTATGCACAACTGACAGAAGTCCAACTGCCTGGAGCAGGCACCTTCGCATTGATCACGCTTACGGGCGGTGAGGGCAAACCTGCCACCTTTAGCCCTGAGTCGCTGCTGGGACTCCAAGAGATGCTTGTGGAAGTCGCGAAGGGAGTCGAATCCGGACACGTGGCTGGGGTTGGCATCACCGGCCAGAACCGGTTTTTCGTGGCCGGCGCAGACCTAAAGGCTCTGAAAGGCCTGAAGGACCTGGAGTCGTCCCGAGCTGTTGCGCGCCTGGGTCACCAGGTGTTTGGCGCACTCGCAGCTATGGACGTTCCAACCTTCGCCTTCATCAATGGTGCGGCCATAGGCGGCGGGTTGGAAGTCGCGTTGGCAGCCCGCTACCGTACAATCTCAACGGACGCGACAGGGATCTCCCTGCCCGAGGCCTACCTCGGCCTGGTGCCCGGCTGGGGCGGAGTGTACCGACTTCCTCGGCTCATCGGGCCCGCTAATGCGGTGAAGGTGATGATCGAGAACCCGCTGGCCAACAACAAGGTTCTTGACGGCAGGTCAGCCAATGAGCTTGGTATTGCAGACACTATATTCGACAGTCCCGATTTCCTGAGTCAGTCCCTGGCCTGGGCGGACCGGATTATCACCGATACTGCACACCGGGAAGAACTTTATCAACGGCGGGCCTCGATTGCCGGCTCCTCTCAGGAAGAGTGGGACGCGGCCGTGGCTGCGGGTCGGGCCATCGTTAAGTCCAAGACGTCCAATGCTGCACCTGCCCCTGCTCGTCTGCTGGACCTGCTCGAACTGGGCAGGAGTCTAGACCAGGCACAATCCGCAGAGTTGGAAGTCGACGCACTCGGCGAACTGATCTTGACACCGCAGTTCAAGGATTCCGTGTACGCGTTTCTTGAACTTCTACAGCGTAGGGCCAAGAACCCGTCAGGCGCACCCGATCCCGCGCTGGCCCGCCCGATCAACAAGGTCGGAGTTGTCGGCGCGGGCCTGATGGCCGGCCAGCTAGCCCTGCTGTTTGCCCGACAACTGCAGGTGCCCGTTGTGATGACGGACATCGACCAAGGCCGCGTCGATAAAGGAGTAGGTCACGTCCACGCCCAGATCGACAAACTGTCTACCCGGAAACGCATCTCCCTGGACGACGCCGATCACCTTAAAACCCTTATTAGCGGCTCGGTGTCCACGACCGCCTTTGCCGACGCTGACTTCGTGATCGAGGCGGTCTTCGAAGAACTCTCCGTCAAGAAGCAGGTCCTCGCAGAAGTTGAGTCCGTCGTTTCGGAAAAGTGCATTATTGCCACCAACACGTCCTCGTTACTGGTGACGGAGATGGCCGCAGACCTACTGTACCCGGAACGCGTTATCGGATTTCACTTTTTTAATCCGGTGGCCGCTATGCCCTTGCTGGAGATCGTTTGGACCTCCAAGACCAGCGACGAAGTCCTGGCCGCAGCGTTTGTCCTCGGCAGGGCGCTGAAGAAGACTACGGTCCTCGTCCGTGATGCGCCGGCCTTCGTTGTCAACCGCGTGCTGCTGCGTTCGGTGGCGGAGGTTCTAAAGGCCTTTGACGAAGGGACTCCTCCTGAGATCGCGGACGGGGCACTCAAGCCCATGGGCCTGCCAATGACCCCATTCACGTTGTTGGCCATGATCGGGCTTCCAGTCGCGCAACACGTCATTGAATCTCTCCATCACGCCTTCGGCGATAGATTCCCCATCTCTACCAATCTACAAAAACTTATCGACCACGGCATAACGTCGCTCTGGGCTCCTGAACACGATGGCAGCCCGCGCATCCCACAGGCCACGATGGGCCTCCTGGAATTCGCTCACTGCCCGACCACCTCGGAGCAACTGCTCGAACGAATCCAGGACGCCTTGGCAGAAGAGATCGGGCTGCTGCTTGACGAGGGAGTGGTGGCTTCCGCGGAGGACGTGGACTTGTGCATGATGGCCGGCGCTGGCTGGCCGCTGCATCTGGGCGGCATCACCCCATACTTGGACCGAACGGGTGCCTCCGAGAGAGTCAACGGCAAGCCCTTTCACTTGGATAGCCGAAGGCCCTAA	MTNPTRSVTQSGDPEAHAVRGLSSYAQLTEVQLPGAGTFALITLTGGEGKPATFSPESLLGLQEMLVEVAKGVESGHVAGVGITGQNRFFVAGADLKALKGLKDLESSRAVARLGHQVFGALAAMDVPTFAFINGAAIGGGLEVALAARYRTISTDATGISLPEAYLGLVPGWGGVYRLPRLIGPANAVKVMIENPLANNKVLDGRSANELGIADTIFDSPDFLSQSLAWADRIITDTAHREELYQRRASIAGSSQEEWDAAVAAGRAIVKSKTSNAAPAPARLLDLLELGRSLDQAQSAELEVDALGELILTPQFKDSVYAFLELLQRRAKNPSGAPDPALARPINKVGVVGAGLMAGQLALLFARQLQVPVVMTDIDQGRVDKGVGHVHAQIDKLSTRKRISLDDADHLKTLISGSVSTTAFADADFVIEAVFEELSVKKQVLAEVESVVSEKCIIATNTSSLLVTEMAADLLYPERVIGFHFFNPVAAMPLLEIVWTSKTSDEVLAAAFVLGRALKKTTVLVRDAPAFVVNRVLLRSVAEVLKAFDEGTPPEIADGALKPMGLPMTPFTLLAMIGLPVAQHVIESLHHAFGDRFPISTNLQKLIDHGITSLWAPEHDGSPRIPQATMGLLEFAHCPTTSEQLLERIQDALAEEIGLLLDEGVVASAEDVDLCMMAGAGWPLHLGGITPYLDRTGASERVNGKPFHLDSRRP				NA	NA	NA	NA	NA
D1-29_02094	786			hypothetical protein	GTGGACAAAGGGCAAGCAGTCGACGAAGCGGCCGGATGGCTTTCACACAATGAGGCTGTTCCTAACAAGACCGAGCTGCAGCGACCAGCCGCCGCCCGGGGGAGTAACCGTCCAGCAGGCAGGGAAGAGCAGACGTCGGCGCCGAGGCGTCGCACGCAGCAGGAGCGGCGGGAGGAAGCCGAGACCCGGCTTCTTGCCGCCGCGCGGACCCTGCTTTCGCGCAAAGGTTGGGTGGGAATGACCCTGGCCGAAGTCGGCCAGACGGCAGGCTACAGCCGGGGACAGGCTGCTCATCACTTCGGCAGCAAGGGTGCGCTGTTGCGCGCCCTGACTCTGCACATCAATCGGTCGTTCGCCCAGGAGATGCAAGCTGCGCCAACGCCCCCCGCTGGCCTGCAGGCCGTACTCGGCTATGTCCGCGTCTACCTGGGCCGAAGCGACCCGAAGTGGACGAACACCCGCACGCTCCTACTACTGCTGGCGGAGTCCCTTCTCGAGAACTCGGAGACGGCCGAAGTTGTCGCTGTATATAACCGTGAGATGTTTGCGTGGCTGGAGGACAACCTGCGCATAGGAATTGCCCAGGGCGAGGTGCGTGGCGACATCGATCCAGCGATCGGGGCGGAGTTCGTCGTGGGCGCCCTTCGTGGCCTTGCATCCCAGCGTCTCATACAAGGATCGGCGGCAGACATACGTGGAATCAGGGATCAGGTCGTGCAATTAGTCGAACATACATTCGCGGCACCCACCGATCGCGAACGGAAGGAAGGAGCAAACGATGGATGA	MDKGQAVDEAAGWLSHNEAVPNKTELQRPAAARGSNRPAGREEQTSAPRRRTQQERREEAETRLLAAARTLLSRKGWVGMTLAEVGQTAGYSRGQAAHHFGSKGALLRALTLHINRSFAQEMQAAPTPPAGLQAVLGYVRVYLGRSDPKWTNTRTLLLLLAESLLENSETAEVVAVYNREMFAWLEDNLRIGIAQGEVRGDIDPAIGAEFVVGALRGLASQRLIQGSAADIRGIRDQVVQLVEHTFAAPTDRERKEGANDG				NA	NA	NA	NA	NA
D1-29_02095	1071	caiA_1		Crotonobetainyl-CoA reductase	ATGGATGATGACACTCGAGAGATGCTCCATCAAACGGCGGCGAGCATTTTCGCCGATGGACCCCCTGACTTATGGGAGGTTCTGCGAAGCGTCGGTTTTGACAAGGCTTTGGTGCCTGAGAGCAATGGCGGCGTCGGCGTGAGCTGGGCGATTGCCTGCGAGCTCTTGGGGATCGCTGGCAAGCACGCCGCTGCTGTGCCGATGGCCGAAGCCATGATTGGGCATTGGCTCCTAGACCTTGCGGGCATTGAAGACGCAGAGTTGCCGACAATCGCCTTTTCTCCGCCCTTGGAACCGGTTCGGCTCAGCCGATCTGGCGACGAGTGGCACGTCGACGGCCCTCTCGTTCGTGTGCCTTGGGGCAGCGCATGCACGCACGTCGCGTTCATGAGTGAGGGCCCAGCGGCCCAGCTGATCGTTGTTGCCCGCCATGCATCCGGCGTCTCGATTACGCCCGGTCAAAACCTCGCAGGGGAGCCGCGCGACGACATGACGCTCGAAGGCGTCGTCCCGCTTGCCGTGGCGCCTGTGCCGTTTGAGTCCAATTCGCTGCTGGCGATCGCTGCAGTCATGCGCAGTGCTCTGATGGCGGGTGCCATCGAACGTGCCTTGGCTTTAACCGTGGATTACGCAAATATGCGGGTCCAATTCGGCCGGCCGATTGGCAAGTTTCAGGCGGTCCAGCAGAACATTGCCGTACTTGCGACGCAGGCAGCAGCCGCGCGCGCAGCGACCGAAGCCGGCGGTGAGGCGATTGACGGCTGGCTCGCTGGTGAGAACGCGTCCCTCACGCACAACGTTGCCGCGGTAAGTGCGAAGATCCGCACCGGTGAAGCGGCCGGACAAGCCTCCGCGATCGCTCACCAGGTATTCGGCGCGATCGGCTTCACTGAGGAACACGAATTGCATCGCTTCACGAAGCGGCTCTGGTCCTGGCGCGACGAATACGGCAACGAAGCGTTTTGGGCCGACGTCCTTGGGGAACGCATCCTGGCCAACGAATCTGAGAAAACCCTCTGGCGCACGCTGGCGCCGACGGGCATTGGCCTCGAAATAGGAGCGACGCGATGA	MDDDTREMLHQTAASIFADGPPDLWEVLRSVGFDKALVPESNGGVGVSWAIACELLGIAGKHAAAVPMAEAMIGHWLLDLAGIEDAELPTIAFSPPLEPVRLSRSGDEWHVDGPLVRVPWGSACTHVAFMSEGPAAQLIVVARHASGVSITPGQNLAGEPRDDMTLEGVVPLAVAPVPFESNSLLAIAAVMRSALMAGAIERALALTVDYANMRVQFGRPIGKFQAVQQNIAVLATQAAAARAATEAGGEAIDGWLAGENASLTHNVAAVSAKIRTGEAAGQASAIAHQVFGAIGFTEEHELHRFTKRLWSWRDEYGNEAFWADVLGERILANESEKTLWRTLAPTGIGLEIGATR	PGPT0008385_8944	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
D1-29_02096	1146	caiA_2		Crotonobetainyl-CoA reductase	ATGAGCAACCTGTCCTTTCCGCGCCCTCGGCAGTCCGAGGTCGGCGAGCGGCTGCGGGCAGAGGTACGCGAGTTCCTCGACGATTTTGATTGGCGGGGCGACCCACATGCAGCCAGCGTTTTTGGTGGCTACGATCCTGAGTTTAGCGAAGCGCTGGGCGCGCGCGGATGGATCGGCATGGGCTTTCCCCAGCGCTATGGCGGTGGCGGCTACGGCCTCGTTGAACGCTATGTGGTTATGGAGGAACTGCTCGCCGCCCGGGCTCCCATCACTGCACACTCTGTAGCCGACCGGCAGAGCGGCCAACTGCTGCTCCGGTTCGGCAGTGAGAGCCAACGCGAAGAAATCCTGCCCCGCATCGCCGCTGGCAAGTCCTACTTCTGTATTGGAATGAGCGAGCCGGACTCCGGGTCGGACTTGGCATCGGTTCGTACCCGCGCCACGAAAGTGGACGGAGGCTGGCTTGTAAACGGCGCGAAAATCTGGACCACGAATGCGCACCGCAGCCACTACATGATCCTGCTCTGCCGCACCTCGCCGGCAGGCCAGGAGCGCCACGCGGGCCTTAGCCAGTTCCTGGTCGATATGAAGACGCCCGGAATCGTGTGTCAGCCGATCGTCAACATCGCCGGAGTGCACGACTTCAATGAAGTGCACCTGCAAGATGCTTTTCTCCCCGACGAGGCGCTCATCGGGGTCGAAGGTGAAGGATGGAAACAGGTTACGAGTGAGCTGGCGTTCGAACGTAGCGGGCCGGAGCGCTTTCTGTCTCATCTCGGTGTGTTGGAAGAATTCGTCCGCGTCTTGAAGAGTCAACCGTCTGCTGTGGGAGCCAGGGCCCTCGGGCGCCTGGTTGCCCACCTCACCACGCTGCGGCGGATGTCGCGCAGTGTGGCTACGATGATCGCTGATGGTCAGGATGCCGCACTGCACGCCGCGCTGGTAAAAGACCTGGGCACCTGCTTCGAACAGGAAATTCCCGAGATCTTGCGGCTCGCGCTGCAAGCTGAGCCCGATCCCAACGCCTCCGACGCGTATCGGGCTGCCCTGGCCCACGTGGTCTTGAACGCGCCTTCCTCCACGATCCGCGGCGGAACCAAAGAGGTGCTGCGTGGCATCGTCGCGAAGGGTTTGGGACTGCGATGA	MSNLSFPRPRQSEVGERLRAEVREFLDDFDWRGDPHAASVFGGYDPEFSEALGARGWIGMGFPQRYGGGGYGLVERYVVMEELLAARAPITAHSVADRQSGQLLLRFGSESQREEILPRIAAGKSYFCIGMSEPDSGSDLASVRTRATKVDGGWLVNGAKIWTTNAHRSHYMILLCRTSPAGQERHAGLSQFLVDMKTPGIVCQPIVNIAGVHDFNEVHLQDAFLPDEALIGVEGEGWKQVTSELAFERSGPERFLSHLGVLEEFVRVLKSQPSAVGARALGRLVAHLTTLRRMSRSVATMIADGQDAALHAALVKDLGTCFEQEIPEILRLALQAEPDPNASDAYRAALAHVVLNAPSSTIRGGTKEVLRGIVAKGLGLR	PGPT0008385_7307	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
D1-29_02097	798	paaF	COG1024	2,3-dehydroadipyl-CoA hydratase	ATGTCAATAGAGCTGTCAACGGAGACGGACGAACTTCAACTGCAGCAGAGCGGGCACGTCCTGTGGCTCAGGCTTAACCGGCCGCAGGCGTTGAATGCGCTTACCGCGTCGCTGGTGGATGATCTGACCAGGGTCATAGGGGACGCCGAGGAAGATCCGGAGGTGCGGGTCATTGTCCTCACTGGTACCGGTAGGGCTTTCTGCGCGGGCGCAGATTTGAAGGACAGTGCAAAGCGCAGTCCCGAAAGCGGTGCCCGATTTGTAAAAAAAATTGGTGAACTCACGAATTTGATCGAGGAGTGCACTAAACCTGTGATCGCGGCGATTAACGGTATTGCTATCGCTGGTGGTCTGGAATTGGTGTTGGCTTGCGATGTCGTTATCGCGGCGGAGTCGGCGGTCCTCGGGGACGCTCATTCGAATTACGCGATGTTCCCTGGGGCGGGCGCCACGGTGCGTTTGCCGCGGAAGATTGGCCTCAACAATGCTAAGTATTTGATGTTCACGGGCGATATGCCGGCGGCCCGCGACTGGCTGGCGATGGGGCTGGTGAGCCAAGTGATCCCAGACGAGGGCCTCAACGACGCGGTGTCGGCGCTGGCCAGCAAGCTTGCCGGTAAGAGCCCGTTGGGGTTGGCAAGAATGAAGCAGGCCCTGAATGACTCACTGGATCAGCCGGCAAACATCGGACTGCGTTACGAACGGGCGTTGGTTAACCTCTATAGCCACTCTGCCGACCGTGTCGAGGGCCTGGCGGCCTTCCGGGAAAAACGCACCCCACATTTCCAGGGTAAATAG	MSIELSTETDELQLQQSGHVLWLRLNRPQALNALTASLVDDLTRVIGDAEEDPEVRVIVLTGTGRAFCAGADLKDSAKRSPESGARFVKKIGELTNLIEECTKPVIAAINGIAIAGGLELVLACDVVIAAESAVLGDAHSNYAMFPGAGATVRLPRKIGLNNAKYLMFTGDMPAARDWLAMGLVSQVIPDEGLNDAVSALASKLAGKSPLGLARMKQALNDSLDQPANIGLRYERALVNLYSHSADRVEGLAAFREKRTPHFQGK	PGPT0001860_3929	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
D1-29_02098	1203	smtB	COG1804	Succinyl-CoA--L-malate CoA-transferase beta subunit	ATGGAACTGAATGACAAAGGGCCGTTGTCAGGTATACGAGTGATCGATGTGGGCACCATGGTCGCCGGGCCTGTCGCTGCAACTCTGATGGCCGATTTCGGCGCTGAGGTGATCAAGGTCGAGCAACCCGGCAAAGGAGACACTTTGCGTCATATCGGCCCGAGCTTGGGTGATGGTGAGAGCTTGTGGTGGAACGTCGAGGGGCGCAACAAGAAATCTATCACGCTCGATTTACGTCAACCCGAGGGGCAACGGATCCTGAAGGAGTTAGTGAAGGGCGCCGATGTCCTGGTAGAGAATTTTCGACCCGGAACCTTGGAACGCTGGAACCTTGCCTGGAAAGATTTAGAGCAGGTGAACCCCGGGCTGGTGATGCTCAGCGTCTCCGGATATGGGCAAACCGGCCCCTACGCACCCCGAGCGGGCTATGACCGGATGGGCCTTGCCTTGGGTGGGGTGTTGAACGCGACGGGATACCCTGACCGGGCTCCGGTGAAGGTCGGTGTTGCCATTGCTGATTATCAGACAGCGGTGCTTGCAGCCTTCGGGACGATGGTTGCCCTCTACAACAGGGACGTCAGCGGCGGGAAGGGTCAGCAGATCGATCTTTCGCTGTTTGAAACGGTCTTCCGATTCACTGACGTAATGGTGACCGCGTACGACAAGTTTGGCCACACGCGGGAGCGCACGGGGAACCTCCATTTCGCGGCCGCGCCGGGGGACCACTTCGAAACGATCGATGGGCGCCATATCGTCCTGACGGTATCGTCGGACCGCATGTTCCGCCGCCTGTGCGAAGCAATACCGGAGTTGATCGGTGATAAGCGGTTCACCACGCACACGGATCGCATCGCCAACATCGAGGAGATAAATCGACTCGTTGGGGTGTGGATCAAGTCTCTGCCGGTTCCGGAACTGTGCCAAATCCTGGACGACAAGGGCCTGGCCTACTCCCTCATCTACTCTATCGAGGATATCGTTGCCGACCCGCAGTACCAGTCGCGGGGCACCATCGCCACCGTCGAGAATCCAAGGCTCGGTCCCCTGAAAATGCCGGCACCGCAGCCAAGGTTCAGTCGGACGCCAGCGCCTGTGATGCGCCCAGCACCCGAGTTGGGCTTTCACACGGACGAGGTCCTGGGCGAACTCATAGGTCTCTCGGCCGAGCAGATCGCAGGACTGCGTAAGGCGGGCACCATCTAA	MELNDKGPLSGIRVIDVGTMVAGPVAATLMADFGAEVIKVEQPGKGDTLRHIGPSLGDGESLWWNVEGRNKKSITLDLRQPEGQRILKELVKGADVLVENFRPGTLERWNLAWKDLEQVNPGLVMLSVSGYGQTGPYAPRAGYDRMGLALGGVLNATGYPDRAPVKVGVAIADYQTAVLAAFGTMVALYNRDVSGGKGQQIDLSLFETVFRFTDVMVTAYDKFGHTRERTGNLHFAAAPGDHFETIDGRHIVLTVSSDRMFRRLCEAIPELIGDKRFTTHTDRIANIEEINRLVGVWIKSLPVPELCQILDDKGLAYSLIYSIEDIVADPQYQSRGTIATVENPRLGPLKMPAPQPRFSRTPAPVMRPAPELGFHTDEVLGELIGLSAEQIAGLRKAGTI	PGPT0002130_486	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
D1-29_02099	726	cnbA		Chloronitrobenzene nitroreductase	TTGATAGCATCACGCGTCACGGCCGAAGTGCAGGACCCGACAAGTGTGGAAGTCGCCATCGAGAGCCGCTTCTCATGCCGGGCGTTCCTTCCGGACAAGGCAGTTGCCCGAAGCGACATCCAGGAAATACTTCGCGTCGCTAGTCAAGCCGCATCTGGCACGAATACCCAACCGTGGAAGGTGTACGTACTACAGGGCAATCAACGGGACAACCTCGTGGACCAGGTCTGTGCGGTGGACGACGCTGTCTACTCTGATCCCGGCCTGGCAGAAAAGCACCGCGAGAAGGTCGACTACTACCCGGCAGAATGGGTCTCACCGTATATCGACCGGCGCCGTCAGAATGGCTGGAGCTTGTATGACCTTCTCGGCATCGGCAGGGGAGAGAAGGACAAGATGCATGCACAGCTACAGCGTAATTACCGCTTCTTTGATGCCCCCGTGGGGCTGATCTTTACGGTCGATAGGGTCATGGGGCGAGGATCACTCATCGATTACGGAATGTTCCTGCAGAACATCATGCTTATGGCCCGGGCGCGGGGGCTGCACACCTGCCCTCAGGCGGCATGGAACTACTATGCGAAGACCATCATGCCGATCATAGGTGCTGGTGCGGACGAAATGCTGGTTTGCGGTATGTCCCTTGGCTACGCCGATGAGTCAGCGCCAGTGAACACACTCGTTACCCCGAGGGAAACAGTGGACAGTTTCACGCAGTGGGTTTGA	MIASRVTAEVQDPTSVEVAIESRFSCRAFLPDKAVARSDIQEILRVASQAASGTNTQPWKVYVLQGNQRDNLVDQVCAVDDAVYSDPGLAEKHREKVDYYPAEWVSPYIDRRRQNGWSLYDLLGIGRGEKDKMHAQLQRNYRFFDAPVGLIFTVDRVMGRGSLIDYGMFLQNIMLMARARGLHTCPQAAWNYYAKTIMPIIGAGADEMLVCGMSLGYADESAPVNTLVTPRETVDSFTQWV				NA	NA	NA	NA	NA
D1-29_02100	1173	bktB	COG0183	Beta-ketothiolase BktB	GTGGAGAAAATCATCGTCCTGGACGGTGCGCGCACCCCCACCGGCAGCTTCGGCGGCATCTTCAAGGATGTGCCCGGCCACGTGCTGGGGGCGACGGCCAGCAAAGCAGCCTTGGAACGGGCCGATGTTACGGGCGACGACATCGACGAAGTCGTCATGGGTTGCATCGGCCAGGTGGGGGCCGACGCGTACAACGCGCGGCGGGTCGCGGTGACGGCAGGACTGCCTACAGGGGTTCCCGCCTACAACGTGAACCGGCTGTGCGGCTCGGGCTTGCAGGCCATCTGGTCGGCAGCCATGGAAATGCAATGGAACCAGCTTGACTTCGCTCTGGCTGGCGGCAACGAGTCCATGACGAGGATGCCGTTCTACGACTTCGGCGCGCGCCAGGGCTACCGTCTTGGCGACCGTTCCCTTAGCGACGGCACTCTCATGATGCTCACAGACCCCTTCCACGGCATCCACATGGGGGTTACCGCCGAGAATGTAGCCAGCAAATACAATGTTTCACGCTTGGAACAGGACGAGTTCGCTGTCGAATCTCAACGCCGCGCCGCTGCGCCCGAGGCTCAGGCAGCGTTCGCTGAGGAAATAACGCCAGTTAATGTCGCAGGTCGAAAGCCTTTCACAGCTGAGAAGGATGAGCACCCCAAGCCGGAGACAAGCCTGGAGACCTTGGCGGGATTGCGTCCGGCCTTTGCCACTGGTGGGACCGTTACGGCCGGCAATGCATCGGGCATCAACGACGGCGCCGCCGCCGTCGTTCTGGCTCGCGAGTCAGCGGCCGCCGAGCGTGGCTTGAAGGGCTTGGTTAGTCTTGAGGCCGTTGCCACGGCCGCCATGGAACCGGAACTCATGGGATACGCACCCACGCTGGCTCTGAGGTCCTTGTTCGAGAAGACCGGCACGACCCCAAAGGATATCGGTTCGATTGAACTGAACGAGGCCTTCGCCTCGCAGGCTGTCGCTGTCATTCGGGACGCCGACCTCGATCCGGCCCAGGTCAATCCCTACGGCGGAGCTATTGCCCTTGGCCATCCAGTCGGTGCTACCGGGGCGATCCTGACGCTACGTCTTGCCAAGGACATGGCGCGCCGGGATCTTGAACTCGGAATTGTCACCATGTGCATCGGCGGAGGACAAGCACTGGCAGCACTCTTCCGGAGGATCTGA	MEKIIVLDGARTPTGSFGGIFKDVPGHVLGATASKAALERADVTGDDIDEVVMGCIGQVGADAYNARRVAVTAGLPTGVPAYNVNRLCGSGLQAIWSAAMEMQWNQLDFALAGGNESMTRMPFYDFGARQGYRLGDRSLSDGTLMMLTDPFHGIHMGVTAENVASKYNVSRLEQDEFAVESQRRAAAPEAQAAFAEEITPVNVAGRKPFTAEKDEHPKPETSLETLAGLRPAFATGGTVTAGNASGINDGAAAVVLARESAAAERGLKGLVSLEAVATAAMEPELMGYAPTLALRSLFEKTGTTPKDIGSIELNEAFASQAVAVIRDADLDPAQVNPYGGAIALGHPVGATGAILTLRLAKDMARRDLELGIVTMCIGGGQALAALFRRI	PGPT0008320_9268	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-29_02101	753	paaG	COG1024	1,2-epoxyphenylacetyl-CoA isomerase	ATGCCAAAGCCGGTAACTCTAACTACTGCGGGCGGCGTCGGACACCTGCAGCTCAACCGCCCGGAGGCAGCCAACACGATAAATATGCCCTTAGCCGTGGCGCTCGGAGAGGCGGTTAACCGCGTTGCGGAGGACGACGCGGTTAAGGCGGTCTTGCTGACCGGTAACGGCAGGCGGTTCTGTGCCGGTGGAGACATTTCTGCGTTCGCTGAGTCCTCAGACCAAGGTCAATTCCTGACTGAGCTGGCGGCCACCGTTGATGGGGCTGTGCAGGCCCTCGAATCTCTGCAGAAGCCCGTGGTGGCGGCCGTCCACGGAGCCGTTGCAGGTGGTGGGCTTGGCATCATGCTGGCCGCCGACGTCATCATCGCAGCGGAAGGTACAAGTTTTGTGTTTGCCTACCCCTCCATCGGCCTGACTCCCGACTGTGGCACCTCCGTCAGCTTGCCCCGGGCCATGGGGCTACACCGCGCACTGGCCTTTGCCCTATCCGGGCGGCCATTGAACACCAGTCAAGCGCTTAATCAGGGACTTGTTACAGAAGTCGTTGTCGACCCAATGGCCCGCGCTCAAGAGGTGGTCGCAGCTTGGGTGGCCGGTGCGCCCGGTGCGCTCGGCGATGTCCGAAGGCTGCTGCGCCAGGGCCTCGGCCTTTCGCGCGGGGAGGTAGGCGCACGCGAGGCTGTGACCATCGGTGAGCGCATGGCCACGGACGAGGCTCAATTCCTCATTCCTGCATTCCTTAGTCGCTGA	MPKPVTLTTAGGVGHLQLNRPEAANTINMPLAVALGEAVNRVAEDDAVKAVLLTGNGRRFCAGGDISAFAESSDQGQFLTELAATVDGAVQALESLQKPVVAAVHGAVAGGGLGIMLAADVIIAAEGTSFVFAYPSIGLTPDCGTSVSLPRAMGLHRALAFALSGRPLNTSQALNQGLVTEVVVDPMARAQEVVAAWVAGAPGALGDVRRLLRQGLGLSRGEVGAREAVTIGERMATDEAQFLIPAFLSR	PGPT0006070_2979	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866	NA	NA
D1-29_02102	774	etfB_2	COG2086	Electron transfer flavoprotein subunit beta	ATGAAGATTGTTGTGTTGGCGAAGCAGGTTCCGGACACATGGTCTGATCGTAAGATCGACTTGGAATCCGGAATGCTGGACCGCGGTGCGTCCGAGCCCGTGCCGGACGAGATCAATGAACGGGCTCTGGAGAATGCCCTTCAGCTCAAGGATTCGCGCAAAGATACCGAAATTGTGGTGATCGCAATGGGGCCGGAGGACGCGGGTAAGACCCTCCGGAAGCTGTTGTCCATGGGCGCGGATTCCGCCGTTTTGGTCTCGGACGAGTCCCTGGCGGGTTCCGACATGGTGCAGACAGCGCGGGTGCTGGCTGCCGCCGTCGCAAAGCTAGGAGGGGTGGATCTGGTCGTCGCCGGCAACGCGGCCACGGACGGACGGGGCGGAATGGTCCCAGCGATGATAGCCGAGATTCTGGGGTGGCCGGTACTGCCAGGCTTGGATGAGGTAGTAATCGCCCCGGATGCCGTGTCAGGTTGGGCCCAGGTGGACGGCGGCGCTTTGCGCTTGTCATCGGCTTTGCCAGCAGTGGTATCGGTCACGGAGAAGTCCGCGGATGCCCGCTTTCCAAACTTCAAGGGGATTATGGCGGCGAAGAAGAAGCCCTTGGCGAGTTGGTCGCTCGTTGATCTGGGGATCGCTGCCACTCCGGAAGTCGCATCGGTGATGGTCTCGGCATCGGCCCGCCCTGCCAAGCAGGCCGGACCGAAGGTTGTCGACGACGGCGCCGCGGCAGCACAGCTGGCCGAGTTCCTGGCCGCGAACCGCCTCATCTGA	MKIVVLAKQVPDTWSDRKIDLESGMLDRGASEPVPDEINERALENALQLKDSRKDTEIVVIAMGPEDAGKTLRKLLSMGADSAVLVSDESLAGSDMVQTARVLAAAVAKLGGVDLVVAGNAATDGRGGMVPAMIAEILGWPVLPGLDEVVIAPDAVSGWAQVDGGALRLSSALPAVVSVTEKSADARFPNFKGIMAAKKKPLASWSLVDLGIAATPEVASVMVSASARPAKQAGPKVVDDGAAAAQLAEFLAANRLI	PGPT0001035_1623	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
D1-29_02103	990	etfA_2	COG2025	Electron transfer flavoprotein subunit alpha	ATGGCAAACACCGGAAACGTTCTGGTCCTGATCGAGACGACCCGCGAGGGATCGCCGAAGTCCACTGCGGCTGGCCTGCTCAGGCTGGCTGCCGACCTCGGCACGCCCGTAGCAGTGGCAGTTACTGCCCCAGGGCGGTCCGGGGACTTGGCCATTGACTTGGGGACCTTGGGCGCGGCCCAGGTGTACCTGGCCGAATCTGAGAGCGCCGCCACCGAATTGGGGTCCGCGCAGGTCGGTGCCATGGCAGATGCGGTACATATGTACGGGGCCGGCCTGGTGTTGATACCGGCGACGAACGATTCCAACGCTGTGGCAGGCAGACTCGCAATCGTGACTGGCGGTTCCGTAGCCGCTGATGCGGTCGCGGTTCGCTTTGACGAGGAGAGCCAGGAGATCATTGCTTGCCATTCAGTGTTCGGTGGCGACTTCACAACTGAGTCGACTGTGGAAGGCGGCCTGATGGTGGTTACAGTGCGTCCGGGCTCCATTGAGGGCTGGGCCGAGGCCGTCGCATCCCCTGAGGTCACGACCGCGCACATAGCAACCACGACGGCGACCGGAGCCAGGATCGATGAGGCCACCCAGTCCGCGGCGAAAGCAGGCCGACCCGTGTTGAGAGGGGCGAAGACCGTTGTCGCTGGCGGACGCGGCGTTGGTTCGAAGGAGGCGTTTAGGGTGGTGGAGGACCTTGCCGACGTGTTGGGCGCCGCGGTGGGTGCCTCGCGTGCTGCCGTTGATGCCGGGTACGTGCCGCAGTCCTACCAGGTGGGTCAGACTGGCGTGACGGTGACCCCGCAACTCTATGTGGCGCTGGGAATCTCCGGGGCGATCCAGCACCGGGCAGGGATGCAAACTTCCAAAACGATCGTTGCTATCAATAAGGACGAGGATGCTCCGATCTTCGACGTCGCCGATTTCGGCATCGTCGGTGACGTGTTCACTGTGGTCCCACAGCTGATCGAAGAGATCAACAACCGACGCAGCTGA	MANTGNVLVLIETTREGSPKSTAAGLLRLAADLGTPVAVAVTAPGRSGDLAIDLGTLGAAQVYLAESESAATELGSAQVGAMADAVHMYGAGLVLIPATNDSNAVAGRLAIVTGGSVAADAVAVRFDEESQEIIACHSVFGGDFTTESTVEGGLMVVTVRPGSIEGWAEAVASPEVTTAHIATTTATGARIDEATQSAAKAGRPVLRGAKTVVAGGRGVGSKEAFRVVEDLADVLGAAVGASRAAVDAGYVPQSYQVGQTGVTVTPQLYVALGISGAIQHRAGMQTSKTIVAINKDEDAPIFDVADFGIVGDVFTVVPQLIEEINNRRS	PGPT0001040_1785	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
D1-29_02104	1398			hypothetical protein	ATGACTAGCGAGCGAAACCCCAGCCAGGCACCGAAACGGCGCCGCATGGCAGGATACACGCCGCTAGCCCCTGAGCGCACCGGCGCCGAGCCCGTGCCTGCGGAGCGAGTACAGACGCATTTGCAGCAACAGCAGCAGGGCGATCCGCCGGTTGCAAAGAAGGCCATAACGACGCCGGCGACCATCGATGACGTCACGGCGATGATCGACAAGACGCAGCTTCAGGGCATGGACTTACCAGCGGCGCGGGAACGCGAGCAACCGAAGTCAGCTGCTGAGCATGCTCCTGCACGCAAGCGCCGGATGGGCGCCGCCGCGCAGGCGGCCGAACAGCAGGAGGTCGAGCGGCCATCGACTAATTCTGCCGTAGAGGGTGGTTCTGGTGCCGCCCAGACAGGTTTGGTCACACCGACGGCCAAGGCGACCTCTTCGACTCGTCTCCTCGGCGCAAAGGGGGCGGCCGGGGGCGGCCCGGTAAGTAAGTCGCATACGGCCGGCCCGGCATGGCGGAAGCCCGCAGTGGTTATCGCCGTATTCTTGGTTCTGGGCCTACTGGTGGTGTTTGGCGCGCGCTGGCTACGCACCCTTGAGGGTGTGCAGCAGTTCGTTATGTCTTACAGCGGGCACGCGTGGCAGCCGGAAGGCGCTCCGGTCGGAATCCCGGCATGGCTGGGCTGGCAACACTTCTTCAACATGTTCTTCATCGTGCTGATCGTACGCACCGGTCTCCAGGTGCGTACGGAGCGTAAGCCTCCCGGCTACTGGACGGCGAAGAAGGACTCGTTCTTCTCCCCGAAGGGCAATAGCCCGAAAAAGGTATCACTGTCCCTATGGCTGCACCAGAGTCTGGACGTGCTCTGGGCGGCGAACGGGATGATCTTCGTCGCTCTACTACTTGTCAGCGGGCACTGGACGCGGATCGTACCGACGAGTTGGGACATCTTCCCAAACATGCTCTCAGCAGCAGTACAGTATGCGTCGCTGGACTGGCCTGCCGAAAACGGCTGGGTGCACTACAACGCACTGCAGGTGATGGCCTACTTCCTCACTGTGTTCATCGCCGCCCCCTTGGCGGTCCTGACCGGCGTCCGGATGTCGACTTGGTGGCCCGAACGCGCTAGGCGCCTCACAAAGATATACCCGGTCGAATGGGCGCGGGCATTGCACTTTCCGGTGATGCTCTACTTCGTTGCGTTTACGGTGGTGCATGTGTTCCTGGTCTTCTTCACCGGAGCTTTACAGAACCTAAACCACATGTACGGCTCCCGGAACGTGGTGGACTGGTGGGGCCTTGTCATCTTCCTGATCTCCCTGCTGGTCATCGCCGCGGCTTGGTTCCTGATCAAACCGCTGTTTACCACGCCCATAGCAAGCCGTATGGGCAAGGTCACCAAATAG	MTSERNPSQAPKRRRMAGYTPLAPERTGAEPVPAERVQTHLQQQQQGDPPVAKKAITTPATIDDVTAMIDKTQLQGMDLPAAREREQPKSAAEHAPARKRRMGAAAQAAEQQEVERPSTNSAVEGGSGAAQTGLVTPTAKATSSTRLLGAKGAAGGGPVSKSHTAGPAWRKPAVVIAVFLVLGLLVVFGARWLRTLEGVQQFVMSYSGHAWQPEGAPVGIPAWLGWQHFFNMFFIVLIVRTGLQVRTERKPPGYWTAKKDSFFSPKGNSPKKVSLSLWLHQSLDVLWAANGMIFVALLLVSGHWTRIVPTSWDIFPNMLSAAVQYASLDWPAENGWVHYNALQVMAYFLTVFIAAPLAVLTGVRMSTWWPERARRLTKIYPVEWARALHFPVMLYFVAFTVVHVFLVFFTGALQNLNHMYGSRNVVDWWGLVIFLISLLVIAAAWFLIKPLFTTPIASRMGKVTK				NA	NA	NA	NA	NA
D1-29_02105	720			hypothetical protein	ATGGTCACGACGGAGCTGCAACTGAACTTCCTGGTGCCCCCACCTATTGACGGCGACGTGCTGGAGGCCTGGACCAGAAGCAGCTTCGTTGATCAAAGGGGAGGCGTGTCTCTTGGCACCCTACGTGGACCGGACGGAACGGAACACGTACACGCCGTTGGCTGGTTCCAAGCGGTGGGGCCGTCCCCAGCCGGGGCACTCGACCACTTCCACAGTATGGGCGCGTTACCATTAGGGCCCGAGTCCAACGTCTCTTTGGACAGGTTGCTAGGCATGCGCAGTCAGGCGTGGAGCGCTGCAGACGAGAAGCCAGCGAATGACGAGGGCTTCCTCAGGGGGCCTGATTTCCCGGTGATCCATGAGTTCATGAATCGCAACGGGACCGTTCACGGAGGGGCAATCACCATGATGGCGGGACTCGCTGCCAAGGCGGCCATTCCGACGCCTGAGAATTTCGATCTCCAGTCCTTGCGGATGGTGTTTCTTCGTCCGTCCACAGGACCAATTGCTACGCGGGCACGAATCCGACATGCGGGCCGCTCCCTGTACATCGTGGATTTGGAACTGTTCAGCAGCCGTACAACTCCAGGAAGCACGACATCACGTGCATCAGACACTGACATGCGGGAGGACCTTGACAAGGCCTTCGAAAGCAAGCCAATCGCGCAGGCCCACGCAATCTTCCGTCCGGCCGCTGAACGGCCCGGGGTCACGGCCTGA	MVTTELQLNFLVPPPIDGDVLEAWTRSSFVDQRGGVSLGTLRGPDGTEHVHAVGWFQAVGPSPAGALDHFHSMGALPLGPESNVSLDRLLGMRSQAWSAADEKPANDEGFLRGPDFPVIHEFMNRNGTVHGGAITMMAGLAAKAAIPTPENFDLQSLRMVFLRPSTGPIATRARIRHAGRSLYIVDLELFSSRTTPGSTTSRASDTDMREDLDKAFESKPIAQAHAIFRPAAERPGVTA				NA	NA	NA	NA	NA
D1-29_02106	789	gltA_3		2-methylcitrate synthase	ATGACTACACGGGATACCAACGCTTGGGAAACTGCCATAGGGGAGGTCGAGAAGGATGATGTAATTATTCGGGGGCACCGGCTGAGCCAGCTGATCGGGAATACTTCATATTCAGAGATGATGTACCTGGTCCTTACCGGGAATCGTGCAACACCTGGTCAGGCTCGAGTTCTTGATGCCCTACTTGTCTCGGTGATGGAACACGGAATATCGCCGTCGAGTACGGTCACCAGAATGCTCGCCTCGTACGGGGTTCCCCTTCAAGTGGGGATTGCAGCGGGAGTGACGACCTTCGGGGACATCCAGGGTGGCGCCGGTCAACAACTGGCATTGAAGTTGCAATCGGTTGTACATCAGATAGCCGAAGACGGTGAGGTCACCGACGAATCGCTGCAGCGAGCCGCCAAGGAGATTGTGGCTGACAGCAGGGCGCGGCGAGCCCCCCTTGAGGGGTTTGGTCATCCGCAACACGGTGCGGATCCGCGCTTTCCTATTCTGATGGGTATCGCCAAGGAGGAAGGGGTCTTCTCCCATCACTCGTCATTGCTGGCTCACCTGGAATACGAGTTGAGCCAAGCGGTTGGGCGCAAGATTCCTGCGAACGTCGATGGCGCGATTGCAGCCCTCATTCTGGATCTCGGGTTCACCTGGGAGACGACGCGAATCTTCCTGGTGGCACCTCGGTCGGTCGGCCTTGCAGCCCACTACTTGGAGGAGGTGGCACAGGGAAACACGTGGCGCCACGTTCCTGCCGACCAGGTAAATTACACGGGCCAAAACCCATCGTAA	MTTRDTNAWETAIGEVEKDDVIIRGHRLSQLIGNTSYSEMMYLVLTGNRATPGQARVLDALLVSVMEHGISPSSTVTRMLASYGVPLQVGIAAGVTTFGDIQGGAGQQLALKLQSVVHQIAEDGEVTDESLQRAAKEIVADSRARRAPLEGFGHPQHGADPRFPILMGIAKEEGVFSHHSSLLAHLEYELSQAVGRKIPANVDGAIAALILDLGFTWETTRIFLVAPRSVGLAAHYLEEVAQGNTWRHVPADQVNYTGQNPS				NA	NA	NA	NA	NA
D1-29_02107	888		COG1028	Putative short-chain type dehydrogenase/reductase	ATGGGTGTTCTGGATGGACGAGTTGCGATCGTGACGGGCGCCGGGAGAGGTCTCGGCCGCGAGCACGCCCTGCTGTTTGCGGCCGAAGGTGCGCGGGTAGTTGTAAATGACGTTGGGGGAGCAGGCGCGGACAATGGTCCGGCGCATGATGTGGTTGCTGAAATCATCTCTGCGGGCGGGGAAGCCGTGGCTAACACTGACAGCGTCAGTGACTGGCTCGGTGCGCAGCGGCTGGTCGAAACCGCAATACGCGAATTCGGCGACCTCCACGTGGTGGTGAACAACGCGGGCATCATGAGGGATCGGACGTTGATCAACATGACCGAGGAGGAGTTTGACTCGGTGGTGGACGTCAATCTTAAGGGCACTTTCGCTGTCAGCCGGCACGCGGCTGCGTATTGGCGTAACCAATCAAAATTGGGGTTGGACGCAGACAGGGCGATTATCAATACTTCCTCGGCCGCGGGGCTTCAGCCGGGGGCAGGTCAGACGAACTACGCGGCAGCGAAAGCTGGGATCGCTGCCATGACGCAGGTCGCGTCGAAGGAGCTAAAGAGGTACGGCGTACGGGTTAACTGTATTGCGCCAGCGGCGCGGACCCACTTGACTCTGTCCACTCCGGGGCTCAGTGAACGGGTGGCCGAGCCGGACTCCGACACGGATTTTGATAGCTGGCACCCGGGAAATATCTCGCCGCTGGTAGCGTTCCTGGCGGCCGAGCGCTGCGCCTTCTCCGGCCACATGTTCCGCGTGGTGGGTGATCTGATTGGAGTCTATGAAGGATGGCGGGTCGTGGATACATTCGAGAACGGTAGCCGCTGGAGTGTGCCGCAGATCGAGCAGGCACTTGTCGGCGTCGCAGCCGAGCCTCTCGTCCAGGATGCCTAA	MGVLDGRVAIVTGAGRGLGREHALLFAAEGARVVVNDVGGAGADNGPAHDVVAEIISAGGEAVANTDSVSDWLGAQRLVETAIREFGDLHVVVNNAGIMRDRTLINMTEEEFDSVVDVNLKGTFAVSRHAAAYWRNQSKLGLDADRAIINTSSAAGLQPGAGQTNYAAAKAGIAAMTQVASKELKRYGVRVNCIAPAARTHLTLSTPGLSERVAEPDSDTDFDSWHPGNISPLVAFLAAERCAFSGHMFRVVGDLIGVYEGWRVVDTFENGSRWSVPQIEQALVGVAAEPLVQDA	PGPT0003180_985	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
D1-29_02108	1179	thlA_1	COG0183	Acetyl-CoA acetyltransferase	ATGACCGACCGCGTAGCGATCGCTGGAATTGGAATGACTTCTTTTGGGAAGTTTCTTGATCGATCGGTGAAGAGTCTCTCCGAAGAAGCTGTGAAAATAGCGCTGGAGGATGCCGGAATTGATGCGGACAAGGTAGACCGTATCTACTTCGGCAATTCGGCGTCCGGAGTCATCACCGGGCAGGAGATGATTCGAGGCCAAGCCGCGCTCAGGAACACCGGCCTCATGGGTAAGCCCATAATCAACGTGGAAAACGCTTGCGCCACGGGCAGCACAGCGTTCCACCTGGCGTGGCAAACGGTGGCAAGTGGCCAGGCGGATGTTGTGCTGGCAGTCGGAGCGGAGAAGCTGAGCCATGCAGACAAGGCCGTATCCATCGCAGCGTTCGGAGGGGCTGTAGACAAGGAAGAAGAACTTCCGTCGCACGTCGGCTCTGGCAGCGGTTCCATTTTTATGGACATCTATGCAGAACGCACTCGCAGGTACATGGACGCCACGGGAACGACGCCAGCTGATTTTGCGCGGATAACCGTCAAGAGTCGCCACGCTGCGTCGCTCAACCCGTACGCGCAGTTTCGTAAAGAGACGACGGTCGAGGAAGTGCTGGCAAGCCGGATGATCAGCGAACCATTGACGCTTCCTATGTGCTCTGCAATCGGCGATGGGGCAGCGGCGATAGTCCTGTGTTCCCCGCGTGTCGCATCCAAGCTGTCAAGGTCCAGGCCTGTTTGGGTGGCAAGCTCAGCGCTTGTTTCGGGCTCAGCGGATCCGACGAAGCCAAACGCTTCGTCTCGGGCCGCGAAAGCGGCCTACAAGGCAGCCTCGATTGGGCCCGAAGACGTTCACGTAGCTGAGGTGCACGACGCATCCGCCCCTGGTGAACTCATCAATTACGAAGTCATGCAGTTCTGCGCGCCGGGGGCGGCAGCGGAACTGTTGCGTAGTGGTGCAACGGACCTTGGCGGCAGGATCTCTGTAAACCCGAGCGGCGGTTTGCTCAGCAGAGGGCATCCGATTGGAGCTACAGGAACCGCTCAAATATTTGAACTGGTTCAACAGCTGCGCGGAGAAGCGGGCGAACGGCAACGGGAGTCTGCAAAGGTCGCGTTAGCGCAGAATTCTGGCGGGCAGGTTGGTGGAGATTCTGCTGCAGCGGTCGTCTCAATCCTTGTTTCTTAG	MTDRVAIAGIGMTSFGKFLDRSVKSLSEEAVKIALEDAGIDADKVDRIYFGNSASGVITGQEMIRGQAALRNTGLMGKPIINVENACATGSTAFHLAWQTVASGQADVVLAVGAEKLSHADKAVSIAAFGGAVDKEEELPSHVGSGSGSIFMDIYAERTRRYMDATGTTPADFARITVKSRHAASLNPYAQFRKETTVEEVLASRMISEPLTLPMCSAIGDGAAAIVLCSPRVASKLSRSRPVWVASSALVSGSADPTKPNASSRAAKAAYKAASIGPEDVHVAEVHDASAPGELINYEVMQFCAPGAAAELLRSGATDLGGRISVNPSGGLLSRGHPIGATGTAQIFELVQQLRGEAGERQRESAKVALAQNSGGQVGGDSAAAVVSILVS	PGPT0001565_3407	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
D1-29_02109	885			IS3 family transposase ISAar26	ATGGAGGCCGAGAAGGCTAACTACCCGGTCCAGCGCATGGCCCGGCTCCTGCGGGTGTCCCGGTCCGGGTTCTACGCCTGGCGCCGACGAAGCTCTGAGCAGGCGGAACGGGCAGCGGCCCGGGCGGAACTGGATGCGAAGGTCCGGCGGGCCCACACGGATTCGACCGGGATCTACGGGGCGCCCAGGGTGCAGGCCGCGCTGGCCAGGAACGGGACAGGGGTTGACCGGAAGACCGTGGCCGCCTCGATGCGCCGGCAGGGCCTGGAAGGGATCTCGCCGCGGCGGTTCCGGCCGATAGCGCCGATCGGTGAAGCGCAGGTCCATTCAATCCCTGATCTGGTCGAAAGGAAGGGGGACACCGGTGCTCTGGACGCGGTCTGGATCTCGGATACCACGTACCTGCGCACCGGTGAAGGCTGGGTGTATCTGTGTGCCGTCAGGGACGCGTGTTCCCGCCGTGTGATTGGGTGGGCGATGGACTCCTCCCAGACCAGCGCTCTGGTCGAGCGCGCGTTACGGATGGCTTACATCCTGCGCGGCGGAGGCCCGGCCGGGGTCGTATTCCACGCCGACCGCGGCACCCAATACACCTCTGCCCAGCTCAACGATGTCTGCAACGGACTGGGCATCAGGCAGTCGGTCGGGCGGACAGGGGTGTGCTGGGACAACGCGATGCAGGAATCTTTCTGGTCGACCCTGAAGACCGAGTTCTACGACCGGCGCCGGTGGGCAACCAGGCACGAAGCGATCCGGGCAACAGGACGCTGGATCGAGGAGTTCTACAACCGCTCCCGGCTCCACTCAGCCCTGGGCTACACCACGCCCGTGGAACACGAACAATTCCTCACCATCAATAAAACTCAGCCGGCACAAGCCGCCTGA	MEAEKANYPVQRMARLLRVSRSGFYAWRRRSSEQAERAAARAELDAKVRRAHTDSTGIYGAPRVQAALARNGTGVDRKTVAASMRRQGLEGISPRRFRPIAPIGEAQVHSIPDLVERKGDTGALDAVWISDTTYLRTGEGWVYLCAVRDACSRRVIGWAMDSSQTSALVERALRMAYILRGGGPAGVVFHADRGTQYTSAQLNDVCNGLGIRQSVGRTGVCWDNAMQESFWSTLKTEFYDRRRWATRHEAIRATGRWIEEFYNRSRLHSALGYTTPVEHEQFLTINKTQPAQAA	PGPT0030468_2306	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
D1-29_02110	312			hypothetical protein	GTGAGCACGACACGACGAAAATTCACTCCGGAGTATCGGCGCGAGGCGGCGCGCCTTGTCATCGATACGGGCAGGCCGGTAGCGCCGGTGGCCCGGGAGTTGGGTTTGGGTGAGCAGTTGCTGGGCCGGTGGGTGGCTCAGGAGCGGGCCCGTCTGGAGGCTCCCGAGGAGTTCGCGGCGGCTGAGACGGAGAAGTCTGAACTGGAGCGTTTACGCCGGGAGAACGCGCAGTTGCGGATGGATAACGAGTTCCTGGGAAAAGCCGCAGCCTTCATCGCTTCCAAGCAGCAGAATCGGAATGCTTCGAGCTGA	MSTTRRKFTPEYRREAARLVIDTGRPVAPVARELGLGEQLLGRWVAQERARLEAPEEFAAAETEKSELERLRRENAQLRMDNEFLGKAAAFIASKQQNRNASS				NA	NA	NA	NA	NA
D1-29_02111	1746	cocE_2		Cocaine esterase	ATGAGCGTGGACACGAAGGCACAGGAAATGAGCAGTGTAATGAAGGCGGAGATTGACGCGACGGCGTCTGTGACGGTGGAGTTCGATGTCCCTGCCCGCATGCGGGACGGCGTCGTGCTGAAGGCTGACGTCTACCGGCCGGCGGGGGCAGGTCCCTGGCCCATCCTGGCCGTGCGCACGCCCTACAACAAGGGCGGCGCTGCGGACAACGTCTGGAATGGCTTCTCCCCACAAGAAGTGGCCCGGAGGGGGTTCATCATGGTCATCCAGGATGTCCGTGGCCGCTATGCGTCCGACGGTGACTGGGAGCCGCTGCAGCACGAGGGTGCTGACGGCGCTGACACCATTGCTTGGGCCGCCCAGCTTGCCGGCTCCAACGGACGCGTCGGCATGCTCGGTGGCAGTTACTGCGGGAACACGCAATGGCAGGCCGCGCTTCAACAGCCGCCCGCATTGAAGGCGATCACGCCCCTGATGACGTGGACGGAGCCGCGTGAATCGCTGGTGGCCCGCGGTGGCGCCACCCAGATATCGGTCATCGCATCGTGGTCTTTGGCTGCCGGGTTCGACTGGTTGTCGCGTCAGGGCCTGACTGACGACGCGATGGCCGCCCGTCTCGCGGCCCTTATTGAAGACTTCGACAGTCTCGAGACGGACGGCTACTGGGGACTGCCCACCGCCGAGCTGCCCGTGCTACGTCGGCACGGCACTCCGGTCTTTGTAGAGCCGGGCGCAGCCACTGATGTGGAGGCCACGCAGCACATGCGTGTGACCGGAGGGCACTCGCGTGTCGAGATCCCCACCCTGCACACGGGAGGCTGGTACGACAGCTGCCTGCAGGGAACCATCGACAACTTCACAGCTATGCATGACCTTGGTCGGGAGTCGCGGCTGATCATCGGCCCATGGACCCACGTTGACTTTGGCAACCGGATCGGCGCTCAGGACTTCGGAATCATGTCCAGCCGGGACGCGGGGGCCCATCCGAATGGGCGCTGGAGCGATGAGGTGCTGGCGTTTCTCCGCGGTCACCTCACGGATGATGCACCTGTAAGTGCCTCGGCTCCGGTACGGATATTCGTGATGGGACGCAATGAATGGCGGGACGAGGAAGCCTGGCCTCTGCAACGCTCCCGCACCGAGCGCTGGCACCTGCATTCCGATGGTGGCCTGAGCACGACGGCTCTGCCCATCGAGGCAGGGCCGAGTGAGATCGACTATGACCCCGCCGACCCCGTCCCCACGTATGGTGGGCCAATTTCCCTCACACCAGGACGGGGCCCTCATGACCAGGCGCCGGTCGAGTCGCGACCCGACGTGCTCGTCTTCACCTCCGAGGTGCTTGAGGAAGACCTCGAGGTGACAGGGCCGATCCGGGTACGGCTGCACGTCCAGAGCTCAGCGCCCTCGACAGACTGGGTCGCCCGCCTGTGCGACGTGGACCCCGACGGGCGGTCTCTAAACCTCACCGATGGAATCCTCCGCATAGACAGCGGTGCAGACGAGGCTCAGGAGATCGAGATCGATCTATGGTCAACAAGCAACGTGTTCCTGGCCGGACACAGGATCAGAGTGCAGATCACCAATAGCTGCTTCCCCCGGTGGGACCGCAACCTCAACACCGGTGACCAAGCCGGGACGAAGTTTGTCACGGCACATCAGCGGCTTTACCACGACGCTATCCGTCAGTCGTACATCCAACTCCCCATCGTCCCAGCGGAAGAGAATCGAGTTTCCGGCACGTAG	MSVDTKAQEMSSVMKAEIDATASVTVEFDVPARMRDGVVLKADVYRPAGAGPWPILAVRTPYNKGGAADNVWNGFSPQEVARRGFIMVIQDVRGRYASDGDWEPLQHEGADGADTIAWAAQLAGSNGRVGMLGGSYCGNTQWQAALQQPPALKAITPLMTWTEPRESLVARGGATQISVIASWSLAAGFDWLSRQGLTDDAMAARLAALIEDFDSLETDGYWGLPTAELPVLRRHGTPVFVEPGAATDVEATQHMRVTGGHSRVEIPTLHTGGWYDSCLQGTIDNFTAMHDLGRESRLIIGPWTHVDFGNRIGAQDFGIMSSRDAGAHPNGRWSDEVLAFLRGHLTDDAPVSASAPVRIFVMGRNEWRDEEAWPLQRSRTERWHLHSDGGLSTTALPIEAGPSEIDYDPADPVPTYGGPISLTPGRGPHDQAPVESRPDVLVFTSEVLEEDLEVTGPIRVRLHVQSSAPSTDWVARLCDVDPDGRSLNLTDGILRIDSGADEAQEIEIDLWSTSNVFLAGHRIRVQITNSCFPRWDRNLNTGDQAGTKFVTAHQRLYHDAIRQSYIQLPIVPAEENRVSGT				NA	NA	NA	NA	NA
D1-29_02112	954			hypothetical protein	ATGACCCATTCGCAGACAGCCACGATTGAGCTCGAACTTGTAGAGCTTGACCATTGGGGGATGTCACCTGATGTTGTCCTGTCGGAGGATAACCAGACTCCGAGCAAGGATCTCGCTACTTTCGAGTTGTCAGAAAACGACACAGCGTCCGAGTACCACCTGACGTCCGACTCGCTTCCTCAGGACGGCGTTCCAGCCGGAAAGTACTACCATTTCCGCTGGACCAGTCACACCGTCTACCCCGGCGTCACCAGCAGCGTCTACCTGTACCTGCCCCACGGTGCTGAGGAGGCCGAATCGGTCAACCTGATGGTCTGCCTGGACGGCCTGGAGTACTCCGGAGAGAAGTGTCGTGCCACCACCGTCCTGGACAACCTCGTGCACAGGGGCGAGATCCCCATGACCGTGGGCCTCTTCCACAACCCCGGCGAGATCGGACCGGGCTACCCGCTCTTCGGCGGGAGCACCAACCGTGCTGTTGAGTACGACACGGTCAATGAGGACTTCGCCCGCTACCTCGTGGAGGAGCTGTTTCCCGTCGTCCGGACCAAGGTCAGGCTGACCGACGACCCCCGGGGCCGCGTCATCTGCGGCATCAGCTCCGGCGGCGCCGGCGCCTTTAGCGCCGCATTCCACCGACCGGATCACTTCGGGAACGTGATCTCGCACTGCGGCAGCTTCATCAACATCCTCGGTGCGAACAACCTGCCCAGCATGGTCCGGCGCGCGCCGCGAAAGCCGATCCGGGTCTGGCACCAGTCAGGCAAGCGCGACGTCGACATCATCTACGGCAACATCCCCATCGCTAACCACGACCTCGACGCGGCCCTGAAGTACCGGCGCTACGATTCAATGTTCGTGTACGGCAGCGGCGGGCACACCCTCGCGCACGGCGGAGCAGTGTTTCCCGAGACACTCCGGTGGATGTTCCGCGACCAGATTGAAGACAAATGA	MTHSQTATIELELVELDHWGMSPDVVLSEDNQTPSKDLATFELSENDTASEYHLTSDSLPQDGVPAGKYYHFRWTSHTVYPGVTSSVYLYLPHGAEEAESVNLMVCLDGLEYSGEKCRATTVLDNLVHRGEIPMTVGLFHNPGEIGPGYPLFGGSTNRAVEYDTVNEDFARYLVEELFPVVRTKVRLTDDPRGRVICGISSGGAGAFSAAFHRPDHFGNVISHCGSFINILGANNLPSMVRRAPRKPIRVWHQSGKRDVDIIYGNIPIANHDLDAALKYRRYDSMFVYGSGGHTLAHGGAVFPETLRWMFRDQIEDK				NA	NA	NA	NA	NA
D1-29_02113	792		COG1028	Glucose 1-dehydrogenase	ATGAGAGCTTTGGTTAGTGGCGGAAGCAGCGGCATAGGCGCGTCTACCTGCCTGCGACTCGCAGAGTCGGCTCTTGCCCGGGGCGTGCACCCGATGATTGCCGTGTGTGGACACGAATCGAACAGTAGCCAAAAACAAGTTGTTCGTTCAATCCAGTCAATGGGCGGTACCGCCATCGCGTTAACGGGCGACCTCAGTGATCCCGACGTGCCAAGTCAACTGGTAGAAGCTGCGGTAGCCGAATTTGGTGGCCTGGACGCGTTGATAGCGAACGCCGGAACCGCCAACCCTGGCGCAATCTGTGACGTATCCATTGAGGACTGGGACGCCATGTTCTCCATTAACCTCCGCAGCGCGTGGCTTCTTGCCAAAGCAAGCCACGCGCACTTGCAGCAGAGCCGCGGTTCCGCCTGTTTTACCTCTTCAATGTCTGGCCAGCAACCACATGCCGGATCAGGTGCTTACAGCCCCAGCAAAGCTGCATTGACAATGCTCGCCCAAACACTCGCATTGGAATGGGCACCCGACGGCATCCGCGTGAACGTGGTATCCCCGGGCATGACTCATACACCTATGACCGAAAAAATGTATGCCGATCCCCAAATCAAGAAAGCAAGGGAAGATATTATCCCGCTGGCAAGAATTGGAGATCCCATGGACATTGCGAACGTGATCGAATTTCTCGTAGGCCCCCTATCGGGTTATGTCACCGGGCAGGACATCTGTGTCGATGGCGGCTTCTCTAAGTCTATTCTTAGCCATATTCCCGGACGGCCCAGCTCCAAATCCTGA	MRALVSGGSSGIGASTCLRLAESALARGVHPMIAVCGHESNSSQKQVVRSIQSMGGTAIALTGDLSDPDVPSQLVEAAVAEFGGLDALIANAGTANPGAICDVSIEDWDAMFSINLRSAWLLAKASHAHLQQSRGSACFTSSMSGQQPHAGSGAYSPSKAALTMLAQTLALEWAPDGIRVNVVSPGMTHTPMTEKMYADPQIKKAREDIIPLARIGDPMDIANVIEFLVGPLSGYVTGQDICVDGGFSKSILSHIPGRPSSKS	PGPT0014705_459	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
D1-29_02114	822	nfo		endonuclease 4	GTGAATCAAATGATTATTAACACATTTTCCTATCTATGGTCATCTACGGCAATTGATGCGATAGCTGAATTGGTCGACAATGGGTATAACACTTTTGAAGTTCCGGTCAGCTCGCCACATTGCTGGCCGGATGAAATATCCGGCTCGGAGCGCGCGGCAATTCATGCAAAACTCAATGAATACAGCGCCAAAATCAGGTCACTGAACGCCGGCGGATACGACATCAATTTGGCCAGCCCTGGCGCCAACATGCGTCGCAAAAGTGTTGAGCACGTTAAGTCGGTGATTGACCTGGCCGCAGCGTGGAATGTTCCCGAAGTCGTGATATCCCCCGGCACAAGACGCCCAATGATTTCACCCTCACTCGAAAAGACGTCCGGGTGGATGTACGAGAGCCTGGAGAGTCTGATCCCGCAGGCCAAACAGGCGGGCACACGACTACTTTTCGAAAACACTCCCTACTGCTTCACCCCCACCATTGAGGACCTCTCAGGCGTCGTAAGCACTATCAACGACGACGCAGTCAAGATCGTGTACGACGTCGCCAACGCTGCCTACATAGGAGAAGATCCCGTAGCGGGTTTGCTCGCCAACCACGAATCAATTGGACTTGTGCATATTTCTGACACAGGCACTGAAACCTGGGGCCATGATCCAATCGGCACTGGAGTGATCGACTGGAGTGCATTGGGCAATGCCGTAAGAGAAACCTGCGGAGTCAATAATGTAGTTCTTGAGATCATTCGCGAAGAGAACCCCGTGCAGGAATTCAAGAAGGCGATGCAGGATCTCAAAAATCACGGTTGGGAACTAGGCAATTAA	MNQMIINTFSYLWSSTAIDAIAELVDNGYNTFEVPVSSPHCWPDEISGSERAAIHAKLNEYSAKIRSLNAGGYDINLASPGANMRRKSVEHVKSVIDLAAAWNVPEVVISPGTRRPMISPSLEKTSGWMYESLESLIPQAKQAGTRLLFENTPYCFTPTIEDLSGVVSTINDDAVKIVYDVANAAYIGEDPVAGLLANHESIGLVHISDTGTETWGHDPIGTGVIDWSALGNAVRETCGVNNVVLEIIREENPVQEFKKAMQDLKNHGWELGN	PGPT0017530_1111	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION	PLANT_DERIVED_VITAMIN_C_UTILIZATION,PGPT0017530-ulaE|sgaU|sgbU-K03079	NA	NA
D1-29_02115	1413	proP_4		Proline/betaine transporter	ATGAAGACCTCAGAAGACGTCCTCGACAGCCCGGGCCTTTCCGATCGTCTCAAGGCGCCCGATCGTAGCATCCGCAACATCGTGGCAGGCACGATCGGCCACTTCGTGGAGTGGTACGACTGGTACATCTACGGGCTGCTGGCAGCGGTGTTCTCATCACAGATATTTCCAAGTGATTCCCCGTTCGCCTCCCTTGTCGCAGCACTGCTCACCTACGCAGTCGGGTTTGTTGTGCGCCCGCTCAGCGGAATCATCATTTCTCCACTAGCCGACCGTTTCGGCCGAAGGCTCATCCTGACGCTGTCCGTTTCCGGGATGGCGCTCGGCTCACTCATCATCGGTCTCACACCTTCATTTGCGACCATCGGCTATGCAGCGCCTGTTCTCTTCCTGGTCGCACGGATCATCCAGGGCATCTCGGCCGGTAGCGAGGGGCAGAGCGCCATCGCATTCATGGTTGAACACGCTCCCGCGAACCGGAGGGGCCTGTTCGGTTCGTTCACCAACATGGCGAGCGGCCTGGCGACGCTCGCAGCGACCGGATCCGCTGCGATGGTGACATCATTCTTTGCTCCGGTGGACCTCGCCGCCTGGGGTTGGCGGATCCCGTTCGTAGTGGGGGGTATCCTCGGCGTCGTCGGCCTTATCTTGAGGGCCCGCGCAGAAGAGACACCTGAGTTTGAGGCGAGTGCCCTCGTCGATCAAAAGTCCGCCCCTGCCCGCCTGATGGACCTGCTTCGCGAACACCCGAAGGCGCTGCTGCAGGCAGCAGCCCTCTCCGCCCCGGCGGTGGCCTACTACACCTGGGCCACCTTCCTTCCCACCTACGCCAAGCTGACCACCGGCCGGGATCTCTCCTCCACCCTGGCCGGGAGCGTTATCGGGCTGGCCTTGCTGGTTATCATCGTGCCTGCTTGCGGCGCGCTTTCGGATCGACTCGGCCGACGCAAAATCTTCCCGATCATCGGTGCCATCGGCATGATCGTTCTCTTCTACCCCATGCTCCTGCTACTCAACCAGCCGGGCTTCTGGGTATACGTTCTGGTATCGGCGTCCGGGTGGGTGGTCCTCGGTATCTGGCAATCGGTGTATCCGACCATCCAGGCCGAACTGTTCCCAGCTGCGGTACGGGTATCGGGCATCGGCTTCGCACACCAAATCGTGATTGCCGTTTTCGGTGGTACCGCGCCGCTGATCGCCGCAGCGTTCGTCGGCGCCGGACAGCCCATGTACGTCGCGATCTACATGACAGTCATTGTCGCTCTCTGCCTCGCCGTCTACTTCACACTCCCGGAAACCGGCGACCGCGGTAACCGTGCCACCGTGGCGCCGGCTGACCCTGAGGTACTCGAAGGCGAACACCTGCTCATGAGCACTTCGCCGGCCACCGGCGGTGCGAAGCGTTCCAAGTAG	MKTSEDVLDSPGLSDRLKAPDRSIRNIVAGTIGHFVEWYDWYIYGLLAAVFSSQIFPSDSPFASLVAALLTYAVGFVVRPLSGIIISPLADRFGRRLILTLSVSGMALGSLIIGLTPSFATIGYAAPVLFLVARIIQGISAGSEGQSAIAFMVEHAPANRRGLFGSFTNMASGLATLAATGSAAMVTSFFAPVDLAAWGWRIPFVVGGILGVVGLILRARAEETPEFEASALVDQKSAPARLMDLLREHPKALLQAAALSAPAVAYYTWATFLPTYAKLTTGRDLSSTLAGSVIGLALLVIIVPACGALSDRLGRRKIFPIIGAIGMIVLFYPMLLLLNQPGFWVYVLVSASGWVVLGIWQSVYPTIQAELFPAAVRVSGIGFAHQIVIAVFGGTAPLIAAAFVGAGQPMYVAIYMTVIVALCLAVYFTLPETGDRGNRATVAPADPEVLEGEHLLMSTSPATGGAKRSK	PGPT0001525_134	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
D1-29_02116	180			hypothetical protein	TTGGAATATTCCCTGACCCCTGAAACGGTGTGCGGCTCCCGCCTGGCTGTAACGCGGCTCGACGGGACAGTCGACGGCCAAGGCCAAGAGCATGCGCAACGCATCAGCGCTGCCTGGCTTGCAGTGGGAAAGAAGCTGATCCAGCCTCTCCAGTATTTAATAAATGAGATCGATTGCTGA	MEYSLTPETVCGSRLAVTRLDGTVDGQGQEHAQRISAAWLAVGKKLIQPLQYLINEIDC				NA	NA	NA	NA	NA
D1-29_02117	543			hypothetical protein	ATGTCCCCGCGCGTCTTCATTGTCATCGGCCCTGCCGGATCCGGAAAGACGACCATTGCCCAGCAAAAAGCACAACTGCATGGGGCTGCGTACCTGGACAAGGACCGGGTCAGCGGACGCTTCGTCGAATTCGCGCTGACCGCTACGGGGCATGATCCCACCGACCGAGAGTCCAACGACTACTATCGCGACAACTTGCTGCCCCTGGAGTACGAGACTCTTATGGATGTGGCGGGGATAAACCTGCGCCTCGGCCGTTCAGTGGTCCTTGATGCTCCTTTCGGAGCCTATTTCGGAGAATCAGACTATTTGACTCGCGTGGCACAAGACTTCCAATGGCCGCCGACCGCGATCACCGTGATACGGGTCCGGGTACCTCAAGACGTTCTACGGACGCGGCTGACCCGGCGCGGACTGGAACGAGACCAGTGGAAACTTGCCCACTGGGATGACTACTGGTCCGTATACGGCAGCTTGGAGTGCGCTTGGTCCGGAGTGGAATTCCAGGACTTCAACAATGAGGCGCCCCTTCCGGTCGATTAA	MSPRVFIVIGPAGSGKTTIAQQKAQLHGAAYLDKDRVSGRFVEFALTATGHDPTDRESNDYYRDNLLPLEYETLMDVAGINLRLGRSVVLDAPFGAYFGESDYLTRVAQDFQWPPTAITVIRVRVPQDVLRTRLTRRGLERDQWKLAHWDDYWSVYGSLECAWSGVEFQDFNNEAPLPVD				NA	NA	NA	NA	NA
D1-29_02118	648	kdgA_2	COG0800	KHG/KDPG aldolase	ATGTACAAGAAACTTCGCACCCTGCAAACTATCGACGAGTCAGGGGCCATCCTCATAGTGCGGCTGGAGAACGCGGAGATTGCCGAGCGCGTTGCGGAAGCTGCCATCGCAGGAGGTTTCCGTGCACTCGAGATCACGCTTTCAATTCCCGGCGCTGTCGACGTGATCCGTCGGCTCTCCACCAAACACGGCTCCGCCGGCGTAGCAATCGGCGCCGGAACTGTGCTGGATGAGCACTCAGCGTACGAATGCATCCGGGCCGGCGCTCAGTTCTTGGTCAGTCCCCAGCTGAACCCCGCGATGATCCGGACCGCGAACCGGTACCAGATACCAACCATCAGCGGAGCCTACACACCCACTGAGCTGGTTAACTCCGCCGAGGCAGGCGCCGACATCCTTAAGCTCTTCCCCACCGAAGCCGGCGGCATCCCCTACGCCAAATCAGTCCTCGCCCCGCTCGCACATCTGCCGATCATGCCAGCTGGGGGCGTAACCGTAAAGAACGTGAGCGAATGGTTCGCGGCGGGTGTGGCGGGCGTCGGCGTCGGCAGCTACGTGACGAAAGCATGGCAACCCGACGGCGACTTCTCCCGCGTCACCGAGGCCGCCAGGGAATTTCTCTCAGCAGTAGCAGAGGCCCGCAAATAA	MYKKLRTLQTIDESGAILIVRLENAEIAERVAEAAIAGGFRALEITLSIPGAVDVIRRLSTKHGSAGVAIGAGTVLDEHSAYECIRAGAQFLVSPQLNPAMIRTANRYQIPTISGAYTPTELVNSAEAGADILKLFPTEAGGIPYAKSVLAPLAHLPIMPAGGVTVKNVSEWFAAGVAGVGVGSYVTKAWQPDGDFSRVTEAAREFLSAVAEARK	PGPT0002060_1424	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
D1-29_02119	987			hypothetical protein	TTGACTAATGTAGGCACAATCATTCTTGGCGCTTCCCATTGGCATGTTCCGCTCTGTGCGCCGGCCATTGCCGAAGAACACGCCGTGATCGGAGTCGGTGACGACGATGTATCCCGCGTGCAGGTGCAGTACCTGGCCGAAGGCTGGGGGGCACCGGTAGAAGCCGACTGGCACAAGCTGGTTGATCTCCCCGACGTCGGACTCGCATATGTCTTCGGTCCCCATGAGGGGATGGCCGAAAAGTGCCTTGCCCTGATCGAGCGCGGTATTCCGTTCGTCGTGGAAAAGCCGTTGGGCACTTCACTTGACGAGCTTTCCGCCGTGCGGCAAGCCGCCGAGGCAGCCGGCGTGCCTGCCACTGTCCCCCTGGTCCAGCGCGGCGGACCCACGGAGCAATGGCTGGCCAAGGCCGGCCGGCCCACTTACCAGCGAACCTCATTCATTGCTGGTCCACCATCCCGGTACCTCGACAATGCCAATCCCTGGATGCTCGATCCGATCAAGGCGGGCGGGGGTTGCCTAGCCAATCTGGGTCCACATTTTGTCGATCTGTTCCTCAGGGGCAGCGGTGAGACAGCAGCACATGTGGACTCCCGGCTCTCATCGGTTCTTCACAACCAGGCTGTTGAGGATCACGCCAGCCTCATCATCACGACACCGGAAGGACGCGAAGCCATTGTGGAAGTTGGCTACGCATTCCCTGGCTCGCCGCTCAAGCGCTACTGCAGCTTTACCTCGGTCGGTGAGGCAGGATTCGCCTCCGTTGATTCGGACGGCACAGCTACGTTCACGGCACTGGATGGCACCACGGAGGTCGACAAGATCAATGTGGATAGCGACCCTCTTTACGATCCGTTCGTACGACGAGTCGCCCAAACACTGGAAGATGGATTCCGGGGCCTGCCGACGCTGGCCCAGCTCGAAGACGTCATGCGCCCCATTTGGCAGGCCTATGACGACCAGCACGGAGGAAGAGAACATGCCTGA	MTNVGTIILGASHWHVPLCAPAIAEEHAVIGVGDDDVSRVQVQYLAEGWGAPVEADWHKLVDLPDVGLAYVFGPHEGMAEKCLALIERGIPFVVEKPLGTSLDELSAVRQAAEAAGVPATVPLVQRGGPTEQWLAKAGRPTYQRTSFIAGPPSRYLDNANPWMLDPIKAGGGCLANLGPHFVDLFLRGSGETAAHVDSRLSSVLHNQAVEDHASLIITTPEGREAIVEVGYAFPGSPLKRYCSFTSVGEAGFASVDSDGTATFTALDGTTEVDKINVDSDPLYDPFVRRVAQTLEDGFRGLPTLAQLEDVMRPIWQAYDDQHGGREHA				NA	NA	NA	NA	NA
D1-29_02120	996	degA_3	COG1609	HTH-type transcriptional regulator DegA	ATGCCTGATCTGAGTATCGACGTCGTCGCGAAGGCTGCCGGCGTCCACCGATCCACCGTTTCCCGGGCATTCTCCCGGCCGGAAGCCGTCAAAAGCGAAACACGCGAACACATCCTCAAGGTTGCCGAAGAACTCGGCTACACAATGAGTCCACTCGCCCAGGCTCTTCGGACCAAGACCAGCACGTTCATCCCGCTGATCGTGCCTGACATCACCAACCCGTTCTTTGCAGAACTTGCCAAGACGATGACGCAGGCGGCCGACGAGCGCGGCTATCAGCTGCTGCTCTGTGTCACCAATGGGGACCCTGCCAAAACTGAGGGTTACTTCACCGCCATGCAGGCCATGTATGCCCCCTTCGGGATTGTCGCGCCGTCCACAAAGGTCGATACCGAGGCCATGAAACGCTTTGATTTCGGCCACAAGGTCGTGGTGATTGACCGGGTTGAGGGGGACAATGCCGTCCCAACGGTCACCGTCGACAGCCGCCGCGGAATCATGCTGGCCCTGGATCACCTGCATTCTTTGGGGCACAACTCGATCGGCTACGTTTCCGGCATCGCCGGGACGCACACTGCCCAAGACCGGATGGACGCCTATCTGGAGCTGTCCGCCGAGAGCGGCAGCGCACCTGTCGTGCTGGACAGCGGGTCGGATCTTGATGCGGGCACGCGTGGGGCAGAACATTACCTCGAGATGGACAATCCTCCAACGGCCATCATCGCGGCCAATGACATGGTGGCCTTTGCGGTCATCTCGGCACTCGGCCAACGTGGCGTTCGGGTACCGGAGGACGTGTCGGTCATTGGTTTCGACGGTCTCGCTCTCGGCGCCCGGTTCAGCCCTCCTCTGACCACCGTTCGCCAGCCGATCGCCGACATGGGTCACATTGCCATCGAACTGGCCGAGAAGCAGAATGCAGACGGCTCCGTGGACCACATCGTCCTCGAACCTGAGCTTCTGGTCCGTGCCTCGACCTCTGGACCACGCAAGTGA	MPDLSIDVVAKAAGVHRSTVSRAFSRPEAVKSETREHILKVAEELGYTMSPLAQALRTKTSTFIPLIVPDITNPFFAELAKTMTQAADERGYQLLLCVTNGDPAKTEGYFTAMQAMYAPFGIVAPSTKVDTEAMKRFDFGHKVVVIDRVEGDNAVPTVTVDSRRGIMLALDHLHSLGHNSIGYVSGIAGTHTAQDRMDAYLELSAESGSAPVVLDSGSDLDAGTRGAEHYLEMDNPPTAIIAANDMVAFAVISALGQRGVRVPEDVSVIGFDGLALGARFSPPLTTVRQPIADMGHIAIELAEKQNADGSVDHIVLEPELLVRASTSGPRK	PGPT0017992_13885	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
D1-29_02121	579	cetB		2-epi-5-epi-valiolone epimerase	GTGATCGCGCGAATGAGCAGGGGACAGGAGTCAACGCTCCGGCGTCTGACGGGGCTCCAGCACACAGACCACATCGGCCTGACGGTGCCAAACCTTGAGGACGGCATCCGGTTTTTCGTCGAAGTCCTCGGAGCTGAAGAGCTGTACCGCTCGGAACGCGGGCCCGACGCGGAATTCATGCCCACAAACTTCGACGTTCCGGCAGATGCCAAGCTCACGCTCGCCATGTTGCGCCTGCCACCGAACCTCAACATCGAGCTTTTCGAGTGGAGCAGCTCTGAACGGCGCGAGACGCCACCGCGGCACTGCGACGCCGGCGGGCATCACCTGTGCTTCGTCGTGGACGACGTGGATGAAGCGATCGCAGTGCTGCAGGAAATACCTGGGGTACGCGTGCTCGGTGAGCGCAAAGAAGTCGCGGGCGACAGCCCCCGAGTAGCCGGCAACCGCTGGACCTACTTCACAACCCCCTGGGGACTGCTGATGGAAATCGTGGATCGATCCCGCGTTCCAGCCCCGCCCCGGCTGGTCGGTCCCGCGGACTGGACAGCCCCTCCAAATACTTCAGAAAGGACTTGA	MIARMSRGQESTLRRLTGLQHTDHIGLTVPNLEDGIRFFVEVLGAEELYRSERGPDAEFMPTNFDVPADAKLTLAMLRLPPNLNIELFEWSSSERRETPPRHCDAGGHHLCFVVDDVDEAIAVLQEIPGVRVLGERKEVAGDSPRVAGNRWTYFTTPWGLLMEIVDRSRVPAPPRLVGPADWTAPPNTSERT				NA	NA	NA	NA	NA
D1-29_02122	891	iolE_3		Inosose dehydratase	ATGCGGCTAGCGGGTCACACACTAGGCACCCCGGACCACACGGTTCCCCAAGCACTTGATCTATTCCGAGCCGCAGGGCTCGATGCCGCCGAAGTCATCTACCAGAATGACTACAAATCAGGATTGCCATTAGGTGACCGGCGTGCCGCGAAGGAGGCAATGAAAGCCGCCGAAACCGCAGGGATACCCATCGTAGGTCTGACGCCTTACACGACCGCCATCAACTCACTGGACGACGCGGAATGGCGCACAGCAGTCGATGAATTCCGCGGCGCCATAGAAACCGCACACCTGCTGGGCGCTGACCGGGTCCGCGTCTATGCTGGTTCGTGGCACCCTGGGGACAACGACCACGCGGCGCGTTGGGGCAAACTGCGTAAGGCGCTGGAGGCCCTCGCGCCCGAAGCCGGCCAGGCCGGCGTTCGCCTTTGCGTGGAAAACCACTTCGGCACCATGACCCAGACCGCGGCAGACACCGCTGCCCTTGTCCGGGAAATTGCCCATCCGGCCGTCCGCGTTCTCTATGACCAGGCGAACCTGACATTCACGCACGACGAAACGTACGAACAGGCCTTCGCAGTTCAAGGTGACCTGATCGGTCACGTTCACGTGAAGGACCTCGTCTTCACGGATCCCAACGCGGCCTTCCGCGCCACGGAAACAGCCCGAGTCAACGCTTCCGAGCGGGCGGTCCGGTCGCGGGTCGTCGGAGGCGGCGTCGTTCCATGGTCGGACATCCTCGCCGCGTTGCTGCAGCATGGCTACGACGACGTGCTGAGCATCGAACTCGAGTACCGTTGGCACCCGCAAGACCTCCCCGCGCCCGAGGACGGATTCCGCGAATCCGCCGCCGTCCTGCGCTCAATGCTCTCTGAAGTGAGGAACGCCTGA	MRLAGHTLGTPDHTVPQALDLFRAAGLDAAEVIYQNDYKSGLPLGDRRAAKEAMKAAETAGIPIVGLTPYTTAINSLDDAEWRTAVDEFRGAIETAHLLGADRVRVYAGSWHPGDNDHAARWGKLRKALEALAPEAGQAGVRLCVENHFGTMTQTAADTAALVREIAHPAVRVLYDQANLTFTHDETYEQAFAVQGDLIGHVHVKDLVFTDPNAAFRATETARVNASERAVRSRVVGGGVVPWSDILAALLQHGYDDVLSIELEYRWHPQDLPAPEDGFRESAAVLRSMLSEVRNA	PGPT0017530_135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION	PLANT_DERIVED_VITAMIN_C_UTILIZATION,PGPT0017530-ulaE|sgaU|sgbU-K03079	NA	NA
D1-29_02123	993	yceM	COG0673	Putative oxidoreductase YceM	ATGACTACCAACCGTCTGCGCGTCGGAGTTGTCGGCGCGGGCAATATCGCCACCATTGCCCAATTGCCCACCCTCGTCCAACGCGATGATGTCGAGTTGGCCGCTCTGGTTTCCCGGCGTGAGAATCCAGGCAACCTGGTCCGGCGCTGGGGCTTCAACGCCGCCTACAAAACGGTGGAGGACATGTTGGATTCGCAGGAGCTGGATGCAGTATTCGTCCTTACGCCGCGGTCCGAGCACGCCCATGCCGTCCAGCTGTGCCTGAACCGTGAAGTCGACGTGTTCTGCGAAAAGCCGTTGGCTCCGGCAACCGATGAAGCAGAACGTCTTGCAGATCTCGCCGACGAGCGGGGCCGCATCCTGATGGTGGACTTCAACCGCCGCTATGCGCCGGTCTATACCGCCGGTCGGGAGGTCTTTGGTGCCAAAGGCGCCACCTTCTGCGTTGCCCAGAAAAATCGCCCTGGATCTGAATACCGTGCGACATTCGAGAACGCCATTCACATGGTCGATCTCCTCCGCTGGTACTGCGGCGGCGAACCGGAGGACGTCGCCGCCCACGCCGCCGGTGATGACCCGTGGGAAGAAGACGGCGTCGCAGCAACTATCCGCTTCAGTACCGGGAACACTGGCGTCCTGATGGCAGCCCGGACAGCGGGTGCATGGAATGAAAAGCTGGACGCCTACGGCGACGGAAAGACCGTCGAAGTCAGGGCACCGGAGACGGTTTCGACCACTATCAAGGGCGTCACCACCTCGCGGGAACTGAGCGCCGAGGCCTACGGCTGGGCTACAGCCACCGAAACCTTGGGGTTCTCGGCGGCCGTTCATCATTTTCTGGACCGGGTTGCTGACAGGGCGCAGCCACTTACTTCAGGCCGGGAAGCTGTCCATACCCAACGCCTGCTCGACCGGATTCTCGCTGCCGCCGGTTTGCCGACAGAAGAGCAAGCCGGCCGGGAATGGGCCAGCCACGCAGTAAACGGAAGCTAA	MTTNRLRVGVVGAGNIATIAQLPTLVQRDDVELAALVSRRENPGNLVRRWGFNAAYKTVEDMLDSQELDAVFVLTPRSEHAHAVQLCLNREVDVFCEKPLAPATDEAERLADLADERGRILMVDFNRRYAPVYTAGREVFGAKGATFCVAQKNRPGSEYRATFENAIHMVDLLRWYCGGEPEDVAAHAAGDDPWEEDGVAATIRFSTGNTGVLMAARTAGAWNEKLDAYGDGKTVEVRAPETVSTTIKGVTTSRELSAEAYGWATATETLGFSAAVHHFLDRVADRAQPLTSGREAVHTQRLLDRILAAAGLPTEEQAGREWASHAVNGS	PGPT0024195_37	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_MODIFICATION,PGPT0024195-mviM|yceM-K03810	NA	NA
D1-29_02124	1287	yycB_1	COG2807	putative transporter YycB	ATGGCTCGACTTCGCCTCCGTCAGGGCAGCCCACACATCGGGGGAGCGGGGAGACAACCGTTCCGCGGCCGGCTCACCGCGCTTGCCGGCATCCTGCTGGTCGCGTTCAGCGCCAGAGAAGCGGTTTCGGCGGTGTCCCCACTCCTTGGTCCAATCAGCGAGGACCTTCCCCTCGACGCGGTGACGACAGGGATCCTTGGGATGCTGCCGACCGCCGGCTTCGCAGTGATGGGCTTCCTGGCTCCGCCGCTCCTCCGGCGTATCCAGCTCGAACACCTGCTACTGGTTGCGATCCTGCTGACAACACTTGGTCAGGTCGGCCGTGCACTGGGATGGAACATCCCGGCATTTTTGGTGTTCACCTGGATCGCCATGCTCGGGATCGGGATGGTCAATGTCGTGATTCCGCCTCTGCTGATGAAGTACTTTCCCGACAAAACTGGGATCCTCGCAGCGCTCCACATAACCCTCCTGGGCGCCAGCACGGCCGTGGCCGCCCAATTCGCCATACCCTTGAGCAATCCTTATGGCTGGCGGTTCTCCATCGGCATTTGGGCGGCCCTCAGCGCGGTCGCTGCGATGCCTTGGCTGATTCTTCTTGCCAACAAGCGGACTGTTGCTCGCTCCAAGACATCACCAGCCAACGATAGGCCGCCTCCCCCTACGAACGCGATCAAACCCTGGAGATCATCAATTGGCTGGGGTGCAGCACTGATCTTCGCTGGTTTCTCGAGCAATACTTTTGCGGCGCTAACTTGGCTTCCGGCTGTTCTTATCGACAGAGGAATGAGTCAGGAAACCGCTGGATCCATGCTGGCGCTCTATTCAATCCTCACCGTGCCTGTCGCCCTGTTTGTGCCTCTGGTAGTGGTGAGAATGCCTCGCCCGCTACCCGTTGCAATCCTGTTTGTCCTCGCATTCGCCATCGGTTACGGAGGCATCCTCTTTGCTCCACCAGCCTCTGCAGTGGTCTGGGTCGTCATAGCCGGACTTGGCCAAGGCGCGTACTCCTTCGCGTTCACGATGATCAATAAGCGAACACGAACGCAATCCGGCTCAGGGATCCTGTCCGGGTTCGCCCACGGAGTCGGTTACGCCCTTGCAAGCGTTGGCCCGTTCTTTTTTGGTCTCCTGCATCATCCAGGGGACGGCTGGCTGCCCTCGTTCGGCATGCTCGGAGCGTGGCTCCTGGTGCTTTTGGCAGGAGCGATGATGGTCAACAAGCCGCGCTTGCTCGAAGACGCCTTCCTGGTGGTACAGCCAGGCACCAAAGAAGCAAGAAGCTGA	MARLRLRQGSPHIGGAGRQPFRGRLTALAGILLVAFSAREAVSAVSPLLGPISEDLPLDAVTTGILGMLPTAGFAVMGFLAPPLLRRIQLEHLLLVAILLTTLGQVGRALGWNIPAFLVFTWIAMLGIGMVNVVIPPLLMKYFPDKTGILAALHITLLGASTAVAAQFAIPLSNPYGWRFSIGIWAALSAVAAMPWLILLANKRTVARSKTSPANDRPPPPTNAIKPWRSSIGWGAALIFAGFSSNTFAALTWLPAVLIDRGMSQETAGSMLALYSILTVPVALFVPLVVVRMPRPLPVAILFVLAFAIGYGGILFAPPASAVVWVVIAGLGQGAYSFAFTMINKRTRTQSGSGILSGFAHGVGYALASVGPFFFGLLHHPGDGWLPSFGMLGAWLLVLLAGAMMVNKPRLLEDAFLVVQPGTKEARS	PGPT0005211_230	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
D1-29_02125	987			hypothetical protein	ATGACCGCGACGGCACATGCCCCGCGCGTCGCCGTCGTGGGAGCGGCCGGCTGGGCCGGATCACGGCACGCCCGGGCATTCGCCGCGGCAGGTGCCCAGGTCTCCATCCTTGTGGAGAAGGACGAGCGCGGCCTCGCCCTCGCTCAGGAGCTCGGCGCACAGTTGGTGCCGAGTACAGCGGATCTCCATCCCGAACACCTTGACTTGGTAGTCGTAGCACTGCCCACCACGATGCAACCGGTCATATGCGCAGATCTGCTGAACAGGGGATTTCGAGTGTTGACTGAAAAGCCGGTGGCCGCAGATGCCGAAGGTGCTGCCGTCCTGGCTGCCGCTTCCGGGGTACACGACAGACTCATGGTCGGGTATACGCTCCACCACCATCCCGCCGCCGCGCTGGTCTCTCAATGGATCAGGAACAAGAACGTGATCGCCGTGTCTGTCCGTTCCGTCGCCCACAAACAGAACGTCCACTCATGGCGCGCTGACCCGAAAGAGGGCGGCGTCGCTGTAGTGAATGGTATTCACGCCATCGAATTAGTCTCATCATGGTTCAACGGCGATCCGAAAGTACTGGCCACCAGCGCCAGCAGCAACCTCTATGGGTCGCCGGTGCCGGAGCACGTCGTCTCCACCCTCGAATTTCCTGAGGGCGTCATATTCACCATGCAGAGCTATTGGTCTCCCTGGCAGGAGCCTCAAGGACTCAATCAGGGCGACTGGAGTCTCACCATTGACGTCCTGGCCACTGAGGGCCGGATGTTATGGTCCAACGACTCCCTTCACGTGTGGGAGCGTGACGGCGGCCAGTACGTAAAGACCTTTGACCCCTCCGACCTCTTCCTGCGCCAAGCAGAGACAGCGTTGAAGTTCTGCACGGGTGAAACCCCTGCAGTCACATTCGCCCAGGCACTCCGCGCGACAGTAATCGCCGATGCAGTCCTGGCAGCGGCAACATCCAGCGCGGAGGATGTGGTCTCCCCGTAA	MTATAHAPRVAVVGAAGWAGSRHARAFAAAGAQVSILVEKDERGLALAQELGAQLVPSTADLHPEHLDLVVVALPTTMQPVICADLLNRGFRVLTEKPVAADAEGAAVLAAASGVHDRLMVGYTLHHHPAAALVSQWIRNKNVIAVSVRSVAHKQNVHSWRADPKEGGVAVVNGIHAIELVSSWFNGDPKVLATSASSNLYGSPVPEHVVSTLEFPEGVIFTMQSYWSPWQEPQGLNQGDWSLTIDVLATEGRMLWSNDSLHVWERDGGQYVKTFDPSDLFLRQAETALKFCTGETPAVTFAQALRATVIADAVLAAATSSAEDVVSP				NA	NA	NA	NA	NA
D1-29_02126	750	bacC_3		Dihydroanticapsin 7-dehydrogenase	ATGAGCCTCAAAGACCAGGTGGTTCTGGTAACCGGATCGAGCGGGGGAATCGGCGATGCTGCTGTCAGCGCATTCGTAGCCGCAGGCGCCCTCGTCGTCGGCGCTGATCGTTCCCCCAAGGAGGACCAGGCGCTGGGGGCCTTCTATCCTCTCGACATCACGTCCGAGCAACAATGCGCAACGGTTATCCAGGACATCAAAGCCAGATTCGGCCGCACCGATGTCCTCGTCCATGCAGCAGGAGTGCTCGGCACCACGCCGGACATTATGGAGACAACCACAGAAGAGTTCGACTCCATTCTGAGGATCAATGCCTCTGCAACGTTCTCGATGGTACGAGAGACAGCAAAGTCAATGCTTGAGTCCGGCACGGCCGGCGCCATCGTGGTCTTATCCTCCGTCGCGGCCAAAGAAGCACGCCTGAACTACCTGCCTTATAACGCGAGCAAGCTTGCAGTCCTGCATATCATGTGGTCATTCGCAGAATTACTCGGGCCTCAGGGCATCTCCGTCAACGCCGTGGCACCAGGCCCGGTGAACACACCCATGTGGGCACAGTTTGCCAAAGATTCAGGCCCGGATGCGGCTGCCAACCGGGCGAAGAGGGCAGCGCAACTGCCGATGCGCCGGTTTGCCGAACCCGACGAAGTCGCCCGCGCCATCCTCTTTCTGACCGATCCCGACAACCGCTACATCACCGGAGTGTCTCTCGATGTGGCCGGCGGAGCACACCTGGGAATAGGAACCTGA	MSLKDQVVLVTGSSGGIGDAAVSAFVAAGALVVGADRSPKEDQALGAFYPLDITSEQQCATVIQDIKARFGRTDVLVHAAGVLGTTPDIMETTTEEFDSILRINASATFSMVRETAKSMLESGTAGAIVVLSSVAAKEARLNYLPYNASKLAVLHIMWSFAELLGPQGISVNAVAPGPVNTPMWAQFAKDSGPDAAANRAKRAAQLPMRRFAEPDEVARAILFLTDPDNRYITGVSLDVAGGAHLGIGT				NA	NA	NA	NA	NA
D1-29_02127	465			hypothetical protein	ATGAAAACTGCGATTCGACATCATCACACTGCCCTGCACGTTACGGACATGGAGCGCAGCGCCCGGTTCTACGTGGAAGGGCTTGGCCTTGCCCGCTTGAAAGCGTGGACATCGGGCCCATACGTCGGCGAACTTTACGGCCGTCCGGACGTTAAGGTCAAAGCACTAATGCTCTCAACGGGTGACGGTACCTTCAACTTGGAGCTGGTCCAAGTTGAGGATCCGCCACCGGCCGTCAACCCATCAGAGGCGCAGCCGGGGACTGCACATCTTGCTTTTACCGATATTGACCTGCGCAAGGTTTACGCCAGAATGACAGCGCTCGGGTACAGCGCACTGTCCGAACCGGTCGCACCCACGTCGGGCCCGGTTGCAGGAGGCTTGCTGATCTACCTGCTCGATCCAGACGGAAATCGTGTGGAGCTAATTCAGCCGCCAGATTGGCCGCCAAGCGACAACTCTTGA	MKTAIRHHHTALHVTDMERSARFYVEGLGLARLKAWTSGPYVGELYGRPDVKVKALMLSTGDGTFNLELVQVEDPPPAVNPSEAQPGTAHLAFTDIDLRKVYARMTALGYSALSEPVAPTSGPVAGGLLIYLLDPDGNRVELIQPPDWPPSDNS				NA	NA	NA	NA	NA
D1-29_02128	564			hypothetical protein	TTGGCAAGTCCGTGGCACGGACTTGCTGCGCAAAAACGGTACACGGACGCGGACTGCGGTCTGGTCCTCGCCCTATTAAACGGTGAGCACGGTTTAAGAGGGCAAGGTAGTGGTCCCTGTTCGGGAGCCGCTTGTGGTGGGCGAGCAGGCTGGGCCTGTGTTCCGCATATCGACTGTTTGGTTCATGATTCAGCGCTTCGTTGGGTGAGGGGATATCCCCGACGCCGCGTCGCGAGGTCGCTGCGACACATGCAGGAATGGTCTAGGGGGAGCGCTGCTAGGCTTCGCGCAAGGTGTGGCTACCCCTTGCATGCCTGGGGCTCCTGCTATTCGGCCTGCGCCACCGCCCGGATGGCAGTTGGATCCCATGGTGTGGGGGTGAGATCTGGTTGCTCGTGGGGCCGTAGGAGCAGCCTTGAGAAGCCATCCCCGTATGCTCGGGTCCCTAATGAACTCTGCCGCTTCGTAGCGGTTCATCGATTGAGTTACGGGCTGCAGATGATCCTAACCTCAGCAGTGCGGGTGAGGTTAAGGCCTGCCGAAACAGCCGAACAGGGTTCATAG	MASPWHGLAAQKRYTDADCGLVLALLNGEHGLRGQGSGPCSGAACGGRAGWACVPHIDCLVHDSALRWVRGYPRRRVARSLRHMQEWSRGSAARLRARCGYPLHAWGSCYSACATARMAVGSHGVGVRSGCSWGRRSSLEKPSPYARVPNELCRFVAVHRLSYGLQMILTSAVRVRLRPAETAEQGS				NA	NA	NA	NA	NA
D1-29_02129	219			hypothetical protein	GTGGCCACGAGCTGGGAGTCGGGGTTGAAAAGACTGATGCAGGTCGTAATAACTTCCCCCAATATCGTTGCCGGCCTGGCGGAGAGCGCCTACGGCCGCGAGATTGCCGTTACCAGGCAGTTCAACAACGTAAGGGACTTTGCTATTGCCGATCCGCCACTCAAGGCAACGAGACACCCCCTGTTTCCGCAAATACACGGAAAATCTACGCTGCGTTGA	MATSWESGLKRLMQVVITSPNIVAGLAESAYGREIAVTRQFNNVRDFAIADPPLKATRHPLFPQIHGKSTLR				NA	NA	NA	NA	NA
D1-29_02130	210			hypothetical protein	ATGTGGCGTGCCCTTCGCGACTCACCGGAACTGCAATTCCTAAACTCTGACAAGCCCCTCAGCCCGCGTCATAAGTACCGGCGGGGGCCGAATGCGCTGGAACTCACGGGCAAGAGCTCAACGTGTAGACGAGCCAGGCCCCACCGCCTGTCCCTTCATGGAATCTCGTTCAACACCAACATCAACACCAACGCCAACGAAGGAGCCTGA	MWRALRDSPELQFLNSDKPLSPRHKYRRGPNALELTGKSSTCRRARPHRLSLHGISFNTNINTNANEGA				NA	NA	NA	NA	NA
D1-29_02131	861	dasC_2	COG0395	Diacetylchitobiose uptake system permease protein DasC	GTGAGCACCACAACCTCGCGCCGCCAAGGCCGCGTCGGCGCCCTCCTTCGGGCGGTTCCGGCTTGGGCATACGTCTTCCTCTCAGCCGCGATCGTTCTACCGCCGGTCGCGTGGATCGTATCCACCTCGCTGAAAACCGGCTCGGACACCCTTGAGTTCCCGCCACGATGGATTCCGGACCCGATCTCATTCGAGGGCTTTGCAGGCATACTGACTTCGACGAACATTCGATTTTTTGTTAACTCCCTCATCTACGCCGGCGGTTCTATCGCCCTCGCGTTGGCGATTTCCATCCCGGCAGCATATGTCGCCACCAGGTACCGAAGCCGCCGCATGGAAACTCTGATGACCGGGATCCTGGTGCTGTCGATGGTTCCCGCGATCGTGGTCTTCATCGCCCTGTACTCCATGTTCGTGAGGACAGCCTTGATTAACACCTATCCGATGCTGATTCTTGTCTACACGGCCATCATCTGTGGGCAGACCATATTGTTCCTGCGCAACTTCATTGAGAACATTCCCGTTGAGATAGAGGAAGCGGCTGCGATCGATGGCTGCTCCCGGCCACAGATCCTGTGGCGCATCATCCTCCCGCTCATCCGTCCCGGCATTGCAGCCGTAGCCATCTTCATCTTCGTATTCGTCTGGAACGACTTCCTTGTAGGCACCGTCCTCGCCACCACAGAAGACATGAAGACCGTCCAGAACGGCATCGTGCGGTATATAACCACTGGCTTCGGTAGCTTCTGGGGACTCTTCGCTGCATTCATCGTCGTTGCTTTCATCCCCGTTCTCTCAATCTTCCTGGCCTTCCAGCGCTGGTTTGTTGCCGGCATGACGTCCGGTGGTGTCAAGGGATAA	MSTTTSRRQGRVGALLRAVPAWAYVFLSAAIVLPPVAWIVSTSLKTGSDTLEFPPRWIPDPISFEGFAGILTSTNIRFFVNSLIYAGGSIALALAISIPAAYVATRYRSRRMETLMTGILVLSMVPAIVVFIALYSMFVRTALINTYPMLILVYTAIICGQTILFLRNFIENIPVEIEEAAAIDGCSRPQILWRIILPLIRPGIAAVAIFIFVFVWNDFLVGTVLATTEDMKTVQNGIVRYITTGFGSFWGLFAAFIVVAFIPVLSIFLAFQRWFVAGMTSGGVKG	PGPT0016540_4384	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
D1-29_02132	933	melD_6	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGTCAACAAACAGCCCGACCCGCACTTCATCTCAGACGGCCACTGCACCCACAGGCATCCAGGCTTTCCGCCGGGCTCGTAAAGACCGCATGGTCTGGTTGTACGTCGTCCCCGTCACTGCCGTGTTTCTTTTTGTCTTCGTTGGACCGCTCATCTACACGGCCTGGACAGCGCTCCACGAGACTTCGTATTACCAGATCGGCAAATTCTCTGGTCTGAACTCTTTTACAAAGCTGTTCTCAGATTCCGACCTGCCCGCCCGCATCTGGACAACGCTTGTATTTTCGCTCGGGGCGCTGGTCATTGCATTGCCCGCGGGACTCTTGTCTGCGATTGTGCTGAACAACCTGCATCGATTCAAGCGCTCCGTCCGCAGCCTCTTCCTGTTGCCGTGGCTTATGTCCCAGGCCACGGCAGGAACAATCTGGCTTTGGTTCCTCAACCCTAATTACGGGCCAGCCTCAGCTATCACCCAAGCCCTTGGGTTCGGTCCTACTGATGTCTTCTCGTCCCCTAATAGTGCGCTCGTCGCCGTGACTCTGATGACGGCGTGGTGGTCCTACCCGCAAGCCATGCTTCTCTTTCTCGGCGCCCTTCAAACCATTCCAGTGGAATTGTACGAAAGCCTCAAAGTGGACGGCGGGGGCATTCGGCACGCATTTGTCAACGTCACGTTGCCTTACCTGCGCAACACCATCGTCTCCGTGGTGATCGTTCTGCTCATGCTCTACGTACAGATGGTCACCATCATCCTGGTAACGACACGAGGTGGCCCCATCGGATCGACCGAGACGCTGTCAATGCGGGTATACAACCAGATGTTCGACAAGTTCGATCTCTCCGGGGCATCAGCAACGGCTATCCTCCTTTTCGCCGTAAACATTCTCCTCACTCTTGTCGCCATTCGCTTCCGACGGAAGGAAAGCCTGTGA	MSTNSPTRTSSQTATAPTGIQAFRRARKDRMVWLYVVPVTAVFLFVFVGPLIYTAWTALHETSYYQIGKFSGLNSFTKLFSDSDLPARIWTTLVFSLGALVIALPAGLLSAIVLNNLHRFKRSVRSLFLLPWLMSQATAGTIWLWFLNPNYGPASAITQALGFGPTDVFSSPNSALVAVTLMTAWWSYPQAMLLFLGALQTIPVELYESLKVDGGGIRHAFVNVTLPYLRNTIVSVVIVLLMLYVQMVTIILVTTRGGPIGSTETLSMRVYNQMFDKFDLSGASATAILLFAVNILLTLVAIRFRRKESL	PGPT0016535_9461	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
D1-29_02133	1254			hypothetical protein	ATGATCAAGAAGCGATGGGGCTTGGCACTCGTAACAGCAGTCGTAGCTAGCCTTGCCCTCAGCGGCTGCTCCCCCTCAACTCCGGAATCTGGGGGGCCGGTGACGCTCAATTACTGGGACTTCCTCGATCCCAGTCAGGACAATCCGCGATCGAAGGCACTGAAGGAAAACATCGCCAACTTTGAGGCGGCAAACCCTGACATCAAGATCAATCTCTCGGTGGTTTCCCTGGGCGATATGCTGAACAGGCTGCCGCAGTCGGCAGCGGCCGGTCAGGCGCCGGATGTGTTTAAGATGTTCACCCCGATCGTGCCCCAGATGGCCGCGGCCGGTGTCTATTCGCCGCTGCCTGATGCTGCGTCCGAGGTCACTGACTGGCTCCGTCCCACGGACACTCTCGCGGGACCTGACGGCAAGCAGGTCGCGGTGCCCTATGAATACCGGACCTGCGCACTGTACTACAACCAGAAAATTCTTTCTCAGATCGGTGCGGCCACTCCGACCACCTACGAGGAAGTCGTGGACGTGGCACAGAAAGCTGCCGCAGCTGGATTCACCGGGTTCGGAACCGGGTTCTCGGACACTGACAATTCAGCCATCATCAGCACTTTCTTCAACTGCTTCATGACGCAGGTCGACCAGGAAATATGGACTGGGGACGGACAGGCAGATTTCGCCACAAAGAAGAGCGAGGAGTTTGGCAATTTCCTTGCCAAGCTCCGGGACGCAAAGGCACTGGGTAGCAACGTCGTTTCCGACACGTATGGCACCGTAGCAGACGGCATGGCCAGCGGCACTGTCGCAATGTCAGTCATGGGCACCGAACGTATCGTGTCGTTCGCATCCCAGAACCCGGACGTCAAGTGGACCAACTTGCCGAAGGCATCTACTGGAGACACCACGGGCACCACCATTGGATGGACACTCGGAATTGGCAACGGGAGCAAAAATACAGAGGCTGCCTGGAAGTTCATCGAATACATGACCGGACCCGAAGCCGGCGCAAAGATGGCCACCGGCGGCGAGGTTCCCACACGCGCTGCCACTTATGAGCAGCCATTCTTCTCCACGCCTGAAGCGAAGGTTGTGAACGATATCGCCGCCTATGTCAAGAGCAACAGCGAACCCCGCACATATTCCGATAACTGGACCTCGCTGGCCACCGGGCTCTCCCAGGCCGGACAGAAACTGACCCTCAACAATCTATCGGGCAGCGAGTTTATCCGTTCCGCCCAGGATGCGGCCAACAAGTAA	MIKKRWGLALVTAVVASLALSGCSPSTPESGGPVTLNYWDFLDPSQDNPRSKALKENIANFEAANPDIKINLSVVSLGDMLNRLPQSAAAGQAPDVFKMFTPIVPQMAAAGVYSPLPDAASEVTDWLRPTDTLAGPDGKQVAVPYEYRTCALYYNQKILSQIGAATPTTYEEVVDVAQKAAAAGFTGFGTGFSDTDNSAIISTFFNCFMTQVDQEIWTGDGQADFATKKSEEFGNFLAKLRDAKALGSNVVSDTYGTVADGMASGTVAMSVMGTERIVSFASQNPDVKWTNLPKASTGDTTGTTIGWTLGIGNGSKNTEAAWKFIEYMTGPEAGAKMATGGEVPTRAATYEQPFFSTPEAKVVNDIAAYVKSNSEPRTYSDNWTSLATGLSQAGQKLTLNNLSGSEFIRSAQDAANK	PGPT0016545_9299	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
D1-29_02134	669	glaR	COG1802	HTH-type transcriptional repressor GlaR	GTGGCAAACCCGGCCGTAGCACTGTCCAAAAACGCCTACGCCTACGAGGAGCTCCGCCGCCAGATCCTCAGCGGGGATATTCCTCAGGGCTCTGTCCTTAACCAAGCACAGCTCGCTCAGGAAATCGGCGTCAGTACCACCCCCTTGCGGGAAGCCCTTCGACGCCTCGCGGCGGAAGGACTCGTTCAACTCGAATCACACCGCGACGCCCGGGTCGCCTCGCTCACTGCAGATGAAGCACGAGACCTCTACGTCATCCGCGAAAACCTGGATCCGTTGGCAGCCGGCCTCGCGGCCGAAAGTAGAACACCAGCAGATGTCGCCCAGATCCGGACCGCCTTGGCGCAGCTGACACCCCTGCACGACGCGGCCGATCTCGGAGCCATGACCGTTCACCGCGAATTCCACCGCGCCATCTACACCGCATCGCACAACCCCCTCCTGATCGGCATCCTGGAAGGTCTGTGGGACAAGGCAGACCGCTACCGGCAAATCGGACTGCAAAGCCAGGAAGACTCCGAAAAAGACCGGATCCGCGTCCAGGAAGAACACATCAAAATCGCCGACGCCGTCGTTGCCGGCGACGCCCTCCGTGCCCGGGAAATCATGCACCGTCACGTCGTAGGCAGCCTCGGCCGAAGGGCCATCTCTGTGCTCTCGCCGAGCTAG	MANPAVALSKNAYAYEELRRQILSGDIPQGSVLNQAQLAQEIGVSTTPLREALRRLAAEGLVQLESHRDARVASLTADEARDLYVIRENLDPLAAGLAAESRTPADVAQIRTALAQLTPLHDAADLGAMTVHREFHRAIYTASHNPLLIGILEGLWDKADRYRQIGLQSQEDSEKDRIRVQEEHIKIADAVVAGDALRAREIMHRHVVGSLGRRAISVLSPS				NA	NA	NA	NA	NA
D1-29_02135	1176			hypothetical protein	ATGACGGCGTCCAAAACCCGCTGCACTTCCTCGTCCCGATCCAGAGTTTTCACCAGATATGCCGCAGCCTGCGTGGCCTCGGCCCTCGCCTTAACTTTGACTGCTTGCGGCGGAGCGGCCGTCCCCACACGGACTCCCGCTCCGGAGAACTCGATCACAACGGGCCAGTACCCCGACTATTACCCGGCCGAGTACAAGGACCTTGTCGCCGCGGCAGAGAAGGAGGGTGGCGAGCTCACCGTCTACTCGAACACGGACCAGGAAAACTGGGCGCCGGTGTTCCGTGATTTCAAGAAGAAGTACCCGTTCATCAAGGACATCTCCGCGAACAACCTCGGTTCCGACGAAGTTTTCCAGCGCGTTCTGAGCGAAAACGCCACCGGCGGCTCCCCGGCGGACATTCTGGTCACTAACGCTGCCGGCGCCTGGGCAGACTTCGCAGCCCGGGGAGATGTCCTGACCCAGTACACCTCCCCGGAATTGGTGAAGGTCCCTGAGTTCGCCAACCTGCTGCCCGGCGTGACCGCGATGTCGGCGGACGCGATGACGGTCACGTACAACACCGCCTTGATGACCGAAGCGCCGACCGGGCTCGCCTCACTCGCCGAGCAGGTCAAGGCCAACCCGTCCCAGTTCCAGGACAAGATCGGCATCCGCGACATCAAGAGCGCCTTTGGATTTACCGTCTTCCACGCCCTGACGAAGGACAAGCCCGAAGCCTGGGACGCCCTGGCAACCATCCTGCCGCTCTCCCGTCCGGAGAGTTCCTCTGCCACGGAGAAGGTCTTGGCCGGCGAGTACGTCGCCAGCGCACTGGTCAGCGCAGCTCCGGCATTCCCCGTGGTCAAGGACTCCGCCGGTCTGTTCAAGATCGCACTGCCCGACGACGGCACGGTCGTTCTGCCCCGCGGCGTCGGTATCGCAGCGAAGGCACCGCACGCTGCCACGGCAAAGCTCTTCATGGACTTCACCCTTTCGGCCGAAGGCCAGCAGGCTGTTCAGGAAGGCGGCCTGTCTTCCTTCCGCGAGGGCGTCAAGCCGGTCGAGTTCACCTACACGTACGCCGACATCGTCAAGGAAGTCGGGGAGGAGAACATCATCTCCGTTCCCTTCAAGAAGGTCTCCGAGGCAGAAACCGCTGCGTTCACCGAGCGCTGGAACAGCCTCAAAAAGTAA	MTASKTRCTSSSRSRVFTRYAAACVASALALTLTACGGAAVPTRTPAPENSITTGQYPDYYPAEYKDLVAAAEKEGGELTVYSNTDQENWAPVFRDFKKKYPFIKDISANNLGSDEVFQRVLSENATGGSPADILVTNAAGAWADFAARGDVLTQYTSPELVKVPEFANLLPGVTAMSADAMTVTYNTALMTEAPTGLASLAEQVKANPSQFQDKIGIRDIKSAFGFTVFHALTKDKPEAWDALATILPLSRPESSSATEKVLAGEYVASALVSAAPAFPVVKDSAGLFKIALPDDGTVVLPRGVGIAAKAPHAATAKLFMDFTLSAEGQQAVQEGGLSSFREGVKPVEFTYTYADIVKEVGEENIISVPFKKVSEAETAAFTERWNSLKK	PGPT0003725_432	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
D1-29_02136	1773			hypothetical protein	ATGACAACAATCCCCGAAACCAAGCCGCCGGCCCAGGTGGCCCCGCCGCGGCCGGAATATCCGGCTCCGAAGTATCGCCGGATCCTCGGCGCGGACCGCAGTCAGCTGCTTTTCTGGGCAACCATCATTGTGCTGGCGCTCCTGGTTCTTGCACCTGTGGTCCCCACGCTTTACCAGTCGGTGATGGACCGTCCTCTGTACGAGGAGGGCGGTCTGTTCACCCCCGATAACTACATCCGGCTTTTCACCGAGGCCAACTTCGGCTCTGTGGCCCTGAACACCATTTTGTTCGCTGTGATGACAACGGTCATGACGCTCCTGATCGCCGTGCCTATGGCCATCGTCGTCATCCGCACCAACATCCCGGGCCGGAAGTTCTTTGGGGCGGCCATGCAGTGGCCGTTTTTCATCTCGTCGCTAATTTTGGGCTTCGGCTGGATAACCATGTATGGACCCGCAGGCTTCGCCAGCGTCGAGGTCCGCCGGGTCCTGGGCTTCCTGCCCTGGGACCTGTACACCCTCCCGGGCATGGCACTGACCGAAGCCGTGGCCCTCGCACCGATCGCCTACCTTTTCTGCGCCAACGCCCTTCGCAACTCCGACGCATCCCTCGAAGGCGCCGCCCAGACCGTGGGCGCCGGCCCGTTCCGGATCCTCTGGTCAGTCATTATGCCAATGCTGCGCCCGCCCATCGTTTACAGCTCGGTCCTGGTCTTCAGCATGTCCATCGAGACGCTCTCCATTCCGCTGCTCTACGGCCAGCCCGTGGACATCACCGTCTTTGCCACCTTCCTATACAAAAACGGACTGCAGTCCATCGACCCCGACTACGGGATCCTGGGTGCCGCATCCGTGATCATCCTGCTCGTGACGATCCTCCTCGTCGCCGTCCAGGCCAAACTCCTCAAGGACGCGAAGCGCTTCGTCTCGGTCCGCGGCAAGGCCACCAGGCCCCGTCTGCTGGATCTGGGCTGGATCAAATGGCTCGCGGTCGCCTTCATCACCAGCTACGTGGTCATCGGCGCGCTCGTTCCGATCCTCGGGTTGGTGATGCGGTCCTTCACCAAGATTTTCACCCCGCTGCAGAACCCGTTGCTGTCCCTGACGATGGGCAACTACCAGCGGATCTTCGAATTTCCCGCCTACGTCGGCTCGATCCGCAACAGCCTCATCGTGGCCGGCGTCGGTGCCGTCCTGGTCAGCGTCCTAGCCGTCGTCGCCGTCGTTGTCTCCAAACGCTCCAGCTTTCGCTACCGCAAGGTCATCGAGTACCTGGCTTTGGCCCCGCAGGCCATGCCCGGGTTGATCATCGGCATCGGTCTGTTCTGGGCCTTCGCTTTCATGCCGTTCAACATGGGCTCCCTGCTGCAGGGCACCATCTGGGCCATCATCATCGGTTTCGGCATCCGCGCCCTGCCCAGCGCGTTCGGCTCCATCTCCCCGGCGGTCATGCAGATCGGCGAGGAACTGGACAACGCGGCCCGCGTCAACGGTGCGGACTGGCTGCGGATGTTTCTCCGCATCCTGGTCAAGCTCCTCACCCCCGCTTTTGTCGCCGCGATGGTCCTGACTTTCGTGGTGATGATGAAGGAATACTCCCCGGCGATCTTCCTCGGCTCAGCCGATACCGCCGTCATCGGCACCACCATGCTCGAGCTCTGGGTCCAGGGCAACACCGGATCGGTCGCCGCCCTGGCCACCATTCAGATCGTTATCACCGCAGTCTTCGTCGGCGCCGCCGGCCTGCTTATGAAAGGTAAAAAAGATGCCTGA	MTTIPETKPPAQVAPPRPEYPAPKYRRILGADRSQLLFWATIIVLALLVLAPVVPTLYQSVMDRPLYEEGGLFTPDNYIRLFTEANFGSVALNTILFAVMTTVMTLLIAVPMAIVVIRTNIPGRKFFGAAMQWPFFISSLILGFGWITMYGPAGFASVEVRRVLGFLPWDLYTLPGMALTEAVALAPIAYLFCANALRNSDASLEGAAQTVGAGPFRILWSVIMPMLRPPIVYSSVLVFSMSIETLSIPLLYGQPVDITVFATFLYKNGLQSIDPDYGILGAASVIILLVTILLVAVQAKLLKDAKRFVSVRGKATRPRLLDLGWIKWLAVAFITSYVVIGALVPILGLVMRSFTKIFTPLQNPLLSLTMGNYQRIFEFPAYVGSIRNSLIVAGVGAVLVSVLAVVAVVVSKRSSFRYRKVIEYLALAPQAMPGLIIGIGLFWAFAFMPFNMGSLLQGTIWAIIIGFGIRALPSAFGSISPAVMQIGEELDNAARVNGADWLRMFLRILVKLLTPAFVAAMVLTFVVMMKEYSPAIFLGSADTAVIGTTMLELWVQGNTGSVAALATIQIVITAVFVGAAGLLMKGKKDA	PGPT0003730_929	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
D1-29_02137	1131	btuD_9		Vitamin B12 import ATP-binding protein BtuD	ATGCCTGACGTCGTCGTCAAGAACCTCCGCAAAGACTTCGGAGGCAACACCGTCCTCCACGAGGTCAGCTTCACCATCAAGGACGGGGAGTTCTTCACCCTCCTGGGCCCGTCCGGTTGCGGAAAGTCCACCACCCTGTCCTGCCTCGCCGGCCTGGAGCAGCCCACTTCGGGCTCCATCGCCGTCGGAGACACCGTCCTGGTCGATGACTCCTCGAACAAGTTCGTCCCGCCCGAGGAGCGCAACCTCGGCATGGTGTTCCAGTCCTACGCCCTCTGGCCGCACATGACACTGGCGGAGAACCTGGCGATGCCGCTGAACATCCGCAAGGTCTCCAAGGCTGAGCAGAAGACCCTTATCCACGACGCGCTGGAGAAGGTAGGCCTGGCCCACCTGTCCCACCGATACCCGCACCAGCTCTCCGGCGGCCAGCAGCAGCGCGTCGCCCTCGCCCGGGCCCTGGTCTACTCGCCCAAGGTCCTGCTCCTGGACGAACCGCTCTCCAACCTGGACGCCAAACTCCGCGAACAGGCCCGGGTCTGGCTCAAACGGCTCCAGTCCGAACTGGGCATCACCACCGTCTACGTCACCCATGACCAGGAAGAAGCCCTGGCCATGAGCGACCGGATCGCGGTCATGTCCAACGGGCACATGCTCCAGGTCGCACCGCCCCATGAAATCTACGAACGTCCCGCCACTGCAGAAGTTGCCGCCTTCATCGGACGCTCCAACTTCATCGACGGTACGGTCATCTCCGCCCGCGACGGCGCAGCCACCGTCCGCCTCGACGAGAGCGGCGAAACCATCAACGTCGCCGTCAGCGAACAGGCCGCCAGCGGGGACCTCGTCACCGTGGCCTTCCGACCGGAAAAGGTCTTCCTGACCAACAGAGGCGCCGAACTCCCGGCAGACGCCATCGCCCTCAACGCCGACATCATCACCACCTCCTACGTCGGGTCCCGGTACGAGTACGACCTCAAATACGGCAGCAAAACCCTCCTGGTCGACAGCACAACCGGCGGGCTGACCGGCGCGGTCCGCCTGGTGGTCCCGGCCGAAGCCGTGCGACTCTACCCCCGGGCAAACGTCGTCTCCAAGGACGTCGCCGAACTGATGGCTGTCACCCACTAG	MPDVVVKNLRKDFGGNTVLHEVSFTIKDGEFFTLLGPSGCGKSTTLSCLAGLEQPTSGSIAVGDTVLVDDSSNKFVPPEERNLGMVFQSYALWPHMTLAENLAMPLNIRKVSKAEQKTLIHDALEKVGLAHLSHRYPHQLSGGQQQRVALARALVYSPKVLLLDEPLSNLDAKLREQARVWLKRLQSELGITTVYVTHDQEEALAMSDRIAVMSNGHMLQVAPPHEIYERPATAEVAAFIGRSNFIDGTVISARDGAATVRLDESGETINVAVSEQAASGDLVTVAFRPEKVFLTNRGAELPADAIALNADIITTSYVGSRYEYDLKYGSKTLLVDSTTGGLTGAVRLVVPAEAVRLYPRANVVSKDVAELMAVTH	PGPT0003735_395	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
D1-29_02138	2637	citB	COG1048	Aconitate/2-methylaconitate hydratase	ATGAGCATCGCCACCGCCGCCGGTTCCCACCCCTCCCTTACCCCCCTCGAAGTCAACGGCGACGTGCTCCAAGCCGTGGACATCGTAGGCGCGTTCGGGCCGGACTACCCCCGCCTGCCCATCGTTCTTCGGCTCCTGGCGGAGAACGTCCAGCGGAACATGACCGGCCACGAGCGCGACCAGGCCATGGACGCCCTGCGCCGCTGGCTTGACACCGGGACGAGCACCGCCGAAATCGAGTTCCTTCCGACCAGGGTGCTGATGCACGACACCACCAGCACACCCGCCCTGGTGGACATCGCCGCCATGCGCGACACCCTGGCCGAATGCGGTGAGGACCCTATGGCATTGAACCCGCTGCTGCGCGTGGACGTTTCCATTGATCATTCACTGGCGGTGGAGGAATACGGGCGGGCCGACGCAGCCGCCCGGAACATCAAGCACGAGATACGGAGGAACCGGGAACGCTACCAGTTCCTGAAATGGGCGTCGAAGGCGATGAACGGCGTTCACATCAACCCGCCCGGAACCGGCATCATGCACACCATCAACCTCGAACAGCTCGCCACCGTGGTCACCACCATCGAAAAGGACGGGGTCCGCTGGGCTGTCCCGGACATGATGGTGGGCACCGACAGCCACACGCCGATGATTAACGGCCTCGGTGTTCTCGGCTGGGGCGTCGGCGGACTGGAAGCCCAGACGGTCATGTTTGGCATGCCCGCCACCCTGCGGATCCCCGACGTCGTCGGGGTCCGGCTCACCGGCGAACTGGGAACCGGCACCCTCGCCACTGACCTGGCCCTGACCGTTACCCACCGCCTTCGCGAAGTCGGCGTCACAGGTGAGTTTGTTGAGTTCTTCGGCCCCGGCGTCTCCACGCTGACGGTGGGGGAGCGGGCCGTCGTGGCGAACATGGCACCCGAGTACGGCGCTACCACCGGGTACTTCCCGATCGACGCTATGGCCCTGGACTACCTTGCCGGCACCGGCCGCACAGCGGAACAGACACGCCTTGTGGAGGCTTACGCCAGGCAGGCAGGGATCTGGTTCGACCCGGAAGCAACCCCCGTCTACACGCGGGTGATCGACGTCAACCTGTCCACGATCGCCATGCACGCCGCCGGCCCCCGCCGCCCCCAGGACCTCCTGCCCTACGGCGGCATCCGCAACGCCCTGGAACAGGAGGCCGGACCGAAACTCCCCGGAACCGGGCCGCTGCCGGAGTTCCCCGTTGCCCTGGCCGCGATCACCAGCTGCACCAACACCTCTGACCCGCGCCTGCTGATCGCTGCCGGACTGGTGGCCCGGAACGCCAGAAAGCGGGGCATGAGAGTCCCCGAATGGGTCAAGACATCCCTCGCTCCCGGTTCACCCGCGGCGGCCAGCTACCTCAAGCGCGCCGACCTGACTGAGGACCTCGCCTCCGTGGGATTCGACATCGTCGGTTTCGGCTGCACCACCTGCATCGGCAACCCCGGGCCCCTGACGCCGGTGGTTGCCCAGGCCCAGAATGACGGCGGGAGCGAACCTGTGGCTATCCTCTCCGGGAACCGGAATTTCCCGGGACGGGTGCATCCCGACGTCGAACTCAGCTTCATCATGTCCCCGCCCCTTGTCGTGGCCTTCGCCCTGGCCGGCGACGCCAAACGCGACCTCAGCGCCGAACCTCTCCAGTACCTGGAGGACGGTACACCTGTCTACCTCACGGACCTGTGGCCGACGCGCGAAGAGATCGACGCGCTGGTATTGAAAGCCAACGACCCCGCGGATTTCCGCCGCGACTTCGTGATCGCCAGCCGGGATCCGCAGTGGCGCCGAGTGGAAGCCCCGTACGGCGCACAGTATCCCTGGGATCCGGCGTCGACCATCCTGCGGAGGCCGCCGTTCGCGGCGATGACTGAGGGGAGCCTCTTGGGCGGGTTTACAGCCCACCCGCTGCTAGTCCTCGGCGACGACATCACCACGGACCACATCTCCCCGGCCAGTGCCATCCCGCCACATAGCGACGTGGCGGACTTCTTGGTGGCCAGAGGAGAGGACAGAGGTGACCTGAACGTCTTTGCCTCGCGCCGCGGCAACTGGGAGGTTATGGTCCGCGGTGCCTTCCACGCCAAGTCAGTCAAAAACCTCCTCCACCCCGAAGCGCCTGTCGCGCAGACTGTCCACTCGCCGTCGGGCGTCACCATGCCAATCTGGGACGCCGCTCAGCGGTACCGCAAGGAAGGCGAATCCGTGGTGATGGTGGCGGGGGAGCGGTACGGCATGGGATCCTCCCGGGACTGGGCGGCCAAGGCCCAGCGGCTGCTCGGCGTCAGGGCCGTCATCGCGGTCAGCTTCGAGCGGATTCACCGTTCCAACCTCGTCGGGATGGGCATCCTCCCGCTCGTTATGCCCGCCGATATGAGGGACAAGCTCCTCAGTCTCAAGCCTGGCGACAGGATCAGGCTCGACGCCTTCGAAGACTGCATCCACCCCCGCGCCGCCATCACGGCGGCCATTGTCCGCAGCGACGGAACACAAGAGCCCTTCACCGCCACGGCTGCCGTGGAAACCGGATTGGAATGCGAACTCCTTGCCGTGGGCGGCGTTATCCCCATGATCCTCCGCCGGACCCTGAACCACACGGACAGCTGA	MSIATAAGSHPSLTPLEVNGDVLQAVDIVGAFGPDYPRLPIVLRLLAENVQRNMTGHERDQAMDALRRWLDTGTSTAEIEFLPTRVLMHDTTSTPALVDIAAMRDTLAECGEDPMALNPLLRVDVSIDHSLAVEEYGRADAAARNIKHEIRRNRERYQFLKWASKAMNGVHINPPGTGIMHTINLEQLATVVTTIEKDGVRWAVPDMMVGTDSHTPMINGLGVLGWGVGGLEAQTVMFGMPATLRIPDVVGVRLTGELGTGTLATDLALTVTHRLREVGVTGEFVEFFGPGVSTLTVGERAVVANMAPEYGATTGYFPIDAMALDYLAGTGRTAEQTRLVEAYARQAGIWFDPEATPVYTRVIDVNLSTIAMHAAGPRRPQDLLPYGGIRNALEQEAGPKLPGTGPLPEFPVALAAITSCTNTSDPRLLIAAGLVARNARKRGMRVPEWVKTSLAPGSPAAASYLKRADLTEDLASVGFDIVGFGCTTCIGNPGPLTPVVAQAQNDGGSEPVAILSGNRNFPGRVHPDVELSFIMSPPLVVAFALAGDAKRDLSAEPLQYLEDGTPVYLTDLWPTREEIDALVLKANDPADFRRDFVIASRDPQWRRVEAPYGAQYPWDPASTILRRPPFAAMTEGSLLGGFTAHPLLVLGDDITTDHISPASAIPPHSDVADFLVARGEDRGDLNVFASRRGNWEVMVRGAFHAKSVKNLLHPEAPVAQTVHSPSGVTMPIWDAAQRYRKEGESVVMVAGERYGMGSSRDWAAKAQRLLGVRAVIAVSFERIHRSNLVGMGILPLVMPADMRDKLLSLKPGDRIRLDAFEDCIHPRAAITAAIVRSDGTQEPFTATAAVETGLECELLAVGGVIPMILRRTLNHTDS	PGPT0001465_3539	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
D1-29_02139	273			hypothetical protein	ATGCCAAGCACTGATCGTCAAACGGCCAGTTTTCAATCAGGGCTGCCCCGCCATGCCCAGCTGGAACCGGTACTGAACTGGACAAAGCTCTCGCGCAAGAACGATTTGGAGCTCGTGCATCGAAACGGCAAGACCCTGACCTCAGGCAGGGTGGACATGCTCGCCGTGGACTGCAGCGTTTTCTGGCTGATCCAGGACAACGGCAAAGGCCGGGCAATGTTCCTTCCGGCCGACGACGCCATGGTCTTTAGGCACAACCGCGGCGGGCAATAA	MPSTDRQTASFQSGLPRHAQLEPVLNWTKLSRKNDLELVHRNGKTLTSGRVDMLAVDCSVFWLIQDNGKGRAMFLPADDAMVFRHNRGGQ				NA	NA	NA	NA	NA
D1-29_02140	1239	icd_2	COG0538	Isocitrate dehydrogenase [NADP]	ATGAGTGCGTTCGAGAAAATTGAGGTTGTGGGTTCAGTGGTGGAGCTCGACGGCGACGAAATGACACACATCCTCTGGCAGTTCATCAAGGACCGCCTGATCACCCCCTACTTGAACATCAAGCTCGAGAGTTTTGATCTGTCCCTGGAGAACCGGGACGCGACCGATGACCGGGTGACGTTGGATGCCGCCCATGCTATCCGTGAGCAAAAGGTGGGCGTCAAGTGCGCCACCATCACTCCCGATGAAGCACGGGTGCGGGAATTCGGCCTCAAGAAGATGTGGCCCTCGCCCAACGGAACAGTCCGAAACGTCCTGGGCGGCGTCCTGTTCCGCGAGCCGATCATCATCTCCAACATCCCCCGTCTGGTTCCCGGCTGGAACAAACCCATCATCATTGGCCGGCACGCCTTCGGTGACCAATATCGGGCCACCAACTTCAAGGTCCCGGGGCCGGGGACTCTCACATTGACGTTTACCCCTTCCGACGGCGGGGAGGAGATCCGGCAGGAGGTGGTCACGTATCCGGAGGGAGGCGGCGTGGCAATGGGCATGTACAACTTCAACGACTCCATCCGCGACTTTGCCAGAGCGTCCTTCTCCTACGGGCTGCAGCGGAACTACCCCGTCTACCTCTCCACGAAGAACACCATCCTCAAGGCATACGACGGGCAGTTCAAGGACCTGTTCCGGCAGGTGTTCGAAACCGAATTTAAGGAAGCGTTCGACGCCGTCGGGCTGGGGTATGAACACCGGCTGATCGATGACATGGTTGCCTCAGCCATGAAGTGGGAGGGCGGCTATGTTTGGGCCTGCAAGAACTACGACGGTGACGTCCAGTCAGACATCGTCGCGCAGGGATTCGGCTCCCTGGGTTTGATGACGTCCGTGCTCATGACGCCGGATGGCAGCACCGTGGTCGCCGAAGCCGCCCATGGCACTGTCACGCGGCACTACCGCCAACACCAACAGGGTAAGCCCACCTCCACGAACCCCATCGCCTGCATCTTCGCATGGAGCGGCGCCCTGCGGCACCGCGGCAAGCTGGACCAGACACCGGATGTGGTCCGGTTCGCCGAAACCTTGGAAGACGTGGTCATCAAAACGGTCGTATCCGGAAAGATGACCAAAGACCTCGCACTTCTCATCGGGCCGGAACAGCCTTGGCTCACAACCGAAGAGTTCCTTGCAGCCGTTGATGCCCGCCTTGCCGTCTCACACCTGCCGGTCATTGTCTGA	MSAFEKIEVVGSVVELDGDEMTHILWQFIKDRLITPYLNIKLESFDLSLENRDATDDRVTLDAAHAIREQKVGVKCATITPDEARVREFGLKKMWPSPNGTVRNVLGGVLFREPIIISNIPRLVPGWNKPIIIGRHAFGDQYRATNFKVPGPGTLTLTFTPSDGGEEIRQEVVTYPEGGGVAMGMYNFNDSIRDFARASFSYGLQRNYPVYLSTKNTILKAYDGQFKDLFRQVFETEFKEAFDAVGLGYEHRLIDDMVASAMKWEGGYVWACKNYDGDVQSDIVAQGFGSLGLMTSVLMTPDGSTVVAEAAHGTVTRHYRQHQQGKPTSTNPIACIFAWSGALRHRGKLDQTPDVVRFAETLEDVVIKTVVSGKMTKDLALLIGPEQPWLTTEEFLAAVDARLAVSHLPVIV	PGPT0001170_5060	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
D1-29_02141	465		COG0183	putative acetyl-CoA acetyltransferase	GTGCCGCGGCGCCGCGGGGAAGCCCAGCTGGCAGGCACAGACGAGGGGGTGCGGGCGGAGAGCAACGAGGAGACCCTTGCCAAACTCAGGCCTGCGTTCTCCCCGAGCGGCACTGTTACCGCAGGCAATGCGGCCGGCCCGGACACCACACTGCCCGATAAACCAGCCCATGCCATCGGCAAGGCACTGGAGACGGCCGGCTGGGGCGTTGACGATCTGGACTTCGTGGAGATCAATGAGGCGTTTGCCTCGGTCTCTGTCCACTCGGCCGCGCAGCTGGGGATCGGCATGGACCGTGTCAACGTCAACGGGGGAGCCATCGCGCTCGGCCATCCCATTGGCGCTTCCGGAGCACGTGTGGTGGTGGCTGCCGTCTATGAGCTCCAGAGGCGCGGTACCGGCAAGGCCGCTGTAGCGCTGTGCGGCGGCGGCGGCCAAGGCGAAGCATTGCTCCTGTCACGATGA	MPRRRGEAQLAGTDEGVRAESNEETLAKLRPAFSPSGTVTAGNAAGPDTTLPDKPAHAIGKALETAGWGVDDLDFVEINEAFASVSVHSAAQLGIGMDRVNVNGGAIALGHPIGASGARVVVAAVYELQRRGTGKAAVALCGGGGQGEALLLSR	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
D1-29_02142	339		COG1262	Formylglycine-generating enzyme	ATGCAGTCAACGGCGAAACACCCGTCCACTAAGTGCATCTACCATCTCAGTACCTTTTGGAGCTTCATCCTACGGACCGGTGCTTCTACGACACCCCCCGTCGCCGGCAACGTGTGGGAATGGTGCGCCGACTGGTTCCTGCCCAAGTACTACCGCAAATCCCCTGCGAAAAATCCTCCTGGACCCACCATTGGCGCCGGCAGGGTAATGCGCGGAGGTTCCTACCTATGCCATGACTCGTACTGCAACCGCTACCGTGTCTCGGCCAGAACATCCAACACGCCCGAATCCTCCAGCGGCAACTCCGGCCTCCGCACTGCCGCCGCCATCTCGACCTAA	MQSTAKHPSTKCIYHLSTFWSFILRTGASTTPPVAGNVWEWCADWFLPKYYRKSPAKNPPGPTIGAGRVMRGGSYLCHDSYCNRYRVSARTSNTPESSSGNSGLRTAAAIST				NA	NA	NA	NA	NA
D1-29_02143	444			hypothetical protein	ATGAACAAAACCGGATATTTGCACCCGACCGTGGCCAAGGCCAGCACGGCAGTGAAAGTGCTGCTTGCCGGTCTCCTGGCCTTTGTTCTTTCGGCAGGCACCATCTTCGACGCCAGCCAAGAGGCCGGCCTCATGATCGTCGCCACCGGCCCTATCCAAGCTAGCGGTGTCCTGGTCCAGTCTCAACAGTCCTCGATGAACACCCCCGACCTTACCGGGGAACCAGGTTCGCCGCTGTCCCCCCGGCGCGACTGTTCCCCTGAACGTCTCCTTCTCCAACCCCACCGACAAGAGTCTGGCGGCGACCAGGTTATCGGTCAGTATTATCGGCATCACCCAGACACAGGAAGCGGTAGCTGCCGCACTGCCCTGCAGTGCGCGGACCCGCGGACGGCCTCCCATCATCGGGGCCTCCACTTCCCCATAGAGTACGCCCCTGGGTAA	MNKTGYLHPTVAKASTAVKVLLAGLLAFVLSAGTIFDASQEAGLMIVATGPIQASGVLVQSQQSSMNTPDLTGEPGSPLSPRRDCSPERLLLQPHRQESGGDQVIGQYYRHHPDTGSGSCRTALQCADPRTASHHRGLHFPIEYAPG				NA	NA	NA	NA	NA
D1-29_02144	384			hypothetical protein	ATGACCGTGTCGCATGAGACCGCATTGGCAGAGCTGGCAGGGCATTTGAAGCCGGTATTCGAGCAAAGCCCTGACGGCGTTTACCTCTGGCTCGACGAACAGCACAAGGTCTGCAACCAGCGGTTGGCCGGCATGTTTGGGTACGACGTCCGCGAGTGGCAGGAGGTCGACGACTTCGCCGACACGTTCATTGCGGACGAGAGTCGGTCACTGTATGTCTGGCACTACCAGCACCAAGTCGGCGGCCTGCAGTATCCGGTGTCCTTCCGCTTCCGTGGCAAGCGCAAGGACGGGTCAACTTTTGACGCGGAGACGGACATGATTCCGCTGACGTACGCCGGGTATGTCGTCGCCTACCACTTCGTCCGCCAAGTCGGCGCCTAG	MTVSHETALAELAGHLKPVFEQSPDGVYLWLDEQHKVCNQRLAGMFGYDVREWQEVDDFADTFIADESRSLYVWHYQHQVGGLQYPVSFRFRGKRKDGSTFDAETDMIPLTYAGYVVAYHFVRQVGA				NA	NA	NA	NA	NA
D1-29_02145	1017			hypothetical protein	ATGAAACTTCAAACGACCAAGAATCGCCCGCTCCTGTTGAGTGCAGGGCTGGCCGCTGTTGTCCTGGCTCTGACAGCATGCGGAGGCACCGCGGCATCGACCGAGTCCGGCGCGTCAAAGAAACAAGTTGAGGTTCAAGGGGCGATGCCGGAACCAGCCGATCCCAAGTCCGTGAAGGAGTACACCAGCGTTGACGGAATCAAGGCCTACGAGCCTGCTGCCTCGCTGGTACCCAAGGACCTCCGCGAAAAAGGAGTTATCGTTTTCGGCGTAAGCCCAACGAATGCCCCCACCTCGTTTACCGGCTCAGACGGGAAGACGTTTGTCGGAATGGACGCGGACATATCACGCGCACTGGGAAAGATCCTCGACATCCAGATTGCCTACAAGAGCTCGACCTTCGATGCACTCATCCCAGGACTGCAGGCCAAACGCTTTGATGCTGTCATCGCCGACATGGGTGTGACCGTGGACCGTTTGAAAGTAATCGACATGGTCGGCTACGCCCGCGGCGGGTACGGCATTGCCACCAAGCCAGGAAACCCACTCAACATTGGTGAAAAGACCATGTGTGGGCGCAAGATCGCGGTGACTTTGGGAAGCATCCAGCAAGTAACAAAGGGACCGGCCTACAGCGCCGACTGTGTTGCACGAGGGGAAGCCCCCATCAACCTCATTTCCGTCCCCAATGGGCAAGAGATGTTTCTTCAGGTGCGCAGCGGCCAGGTAGACGCCGCCTACGCTGATGGACCGGGTGCGGCCTGGGCGAGCAAACAGAATCCGAATGAGATGGAACTGGGGGCCACTATCCCCGGAACCATTCTTTCCATGGCGCTGCCAGGTGGTTCTGAACTGACCCCGGCCCTGGTACAGGCCATAAAGCACCTCGCCAGCTCGCCCGAGTACAAGGAGATCCTTAATAAATGGGGCATGGACTACGCCATCCTCGACGCCCAGTACCTCGACTCCTACAAAGCCGTCCCGACACCTCCCCCCGCAGCGGTTCCCACTAAGTAA	MKLQTTKNRPLLLSAGLAAVVLALTACGGTAASTESGASKKQVEVQGAMPEPADPKSVKEYTSVDGIKAYEPAASLVPKDLREKGVIVFGVSPTNAPTSFTGSDGKTFVGMDADISRALGKILDIQIAYKSSTFDALIPGLQAKRFDAVIADMGVTVDRLKVIDMVGYARGGYGIATKPGNPLNIGEKTMCGRKIAVTLGSIQQVTKGPAYSADCVARGEAPINLISVPNGQEMFLQVRSGQVDAAYADGPGAAWASKQNPNEMELGATIPGTILSMALPGGSELTPALVQAIKHLASSPEYKEILNKWGMDYAILDAQYLDSYKAVPTPPPAAVPTK				NA	NA	NA	NA	NA
D1-29_02146	768	tcyC_1	COG1126	L-cystine import ATP-binding protein TcyC	ATGACTTACGATAAAGTTCTCGAAGTCAAGAATCTGCGCAAACACTTCGGTGACAATCCGGTATTGTCAGGAATCGACTTCTCAATGAACCGCGGAGATGTGGTCTGCCTTTTGGGACCCAGCGGCTCAGGCAAATCAACTCTTTTGCGCTGCGTGAATCTCTTGGAAAAACCTGACGGCGGAAGCATTTTCGTCAACGGTGAACGCATGGGTTACGAACTCAAAAATAACAAGTACTACGAACTGAATGAGAGCGGAATCGCCCGTCAACGGGCCCGAATCGGAATGGTGTTTCAAAAGTTCAACCTCTTCCCTCACATGACCGCTCTCGAAAATGTGTGCGTTGCCCCTGGCTGGGTTAAAAGGGAAAACAAGAGCGAGATAGTGAAACGCGCCCACGCTCTCCTGAAGCGGGTGGGCCTCGAAAACAAATCTGACTACTATCCAAGCCAGCTCTCCGGCGGGCAACAGCAAAGGGTCGCCATCGCCCGAGCCCTGGCCATGAACCCCGAAATGATGCTTTTCGACGAACCAACGTCCGCACTTGACCCCGAACTCGTCGGTGAGGTTCTGGAGGTCATGAAGGAACTGGCCACCGGAGGAACCAGCATGGTCGTCGTTACTCACGAAATCGGCTTCGCCCGGGAAGTGGGTGATGAAATCGTATTCCTCGACGGCGGAGTCGTCGTCGAAACCGGTAACCCGGCCGAAGTGCTGCTACATCCCAAAAATAGCCGGACCAAAGAATTTCTCAGTCAAGTTCTCTAA	MTYDKVLEVKNLRKHFGDNPVLSGIDFSMNRGDVVCLLGPSGSGKSTLLRCVNLLEKPDGGSIFVNGERMGYELKNNKYYELNESGIARQRARIGMVFQKFNLFPHMTALENVCVAPGWVKRENKSEIVKRAHALLKRVGLENKSDYYPSQLSGGQQQRVAIARALAMNPEMMLFDEPTSALDPELVGEVLEVMKELATGGTSMVVVTHEIGFAREVGDEIVFLDGGVVVETGNPAEVLLHPKNSRTKEFLSQVL	PGPT0020790_2568	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
D1-29_02147	957			hypothetical protein	ATGCATAGTGTTCAAAGCAAAGAAAATAATCGCAGCCAGGAACCGGCGCATCGGAGCGAGGTTCCCGAAGACTCATTTCCCATTGTCCGTCAACGCCATGTCGGGAAAATTGTGGCTTCGATCATTGTGGCGGGGTTGGCCCTCGCAATGCTTATTTCCGTCCTGCTGAATGAGAATCTTCGCTGGGATGTAGTGGCTGAGTATTTCACCGCCCAGACTATTCTTGAGGGCATATTGCTGACTCTTTGGCTGACAGCGGTCTGCATGGTGCTGGGGACCGTGCTCGGTGGCGTCATCGGTGTTATGCGAATGTCAAAGAACAAGCTGCTCAATTCAATAGCAGGCTTTTACGTGTGGTTCTTTCGCGCCACGCCCGTTCTCGTTCAGCTGATTTTTTGGTTCAATTTGTCTGCACTCTACCCAACACTTGGCGTCGAGCTTCCGTTCGGTCTGACTTTCCTGCAGGTGGACACGAATGTGGTCATGACGCCCATTGTTGCTGCCATCCTGTGCCTGACCCTCAACGAGGCAGCCTACATGGCTGAAATTACCAGGGGCGGATTCCTGGGCGTCGATTCCGGCCAAACCGAAGCGGCGAAAGCCCTCGGCATGGGAAGGCTCAATACCCTCAGGATTCTCATACCTCAAGCCATGAGAATGATCATTCCCCCCACCGGTAACCAGGTCATTTCATTGCTCAAGGCCACCTCCCTCGTGAGTGTGGTGGGTATCGCTGATCTCCTGCACAGTGCGCAGCTGATCTACGCCTCCAACTACCAAACCATTCCGCTGTTGACCGTCGCCGGACTGTGGTACCTGATCATCACTTCGATCCTTAGCTATTTCCAGAGCCGAATCGAACAGCGTCTCGCACGAGGATTCACGCCCCGGAATGCTGTGTTGAAACGGGAAACAGCTCAGCCAATTGTGGCCCTACAAGAAAGCAACAACAACTGA	MHSVQSKENNRSQEPAHRSEVPEDSFPIVRQRHVGKIVASIIVAGLALAMLISVLLNENLRWDVVAEYFTAQTILEGILLTLWLTAVCMVLGTVLGGVIGVMRMSKNKLLNSIAGFYVWFFRATPVLVQLIFWFNLSALYPTLGVELPFGLTFLQVDTNVVMTPIVAAILCLTLNEAAYMAEITRGGFLGVDSGQTEAAKALGMGRLNTLRILIPQAMRMIIPPTGNQVISLLKATSLVSVVGIADLLHSAQLIYASNYQTIPLLTVAGLWYLIITSILSYFQSRIEQRLARGFTPRNAVLKRETAQPIVALQESNNN	PGPT0020795_1662	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
D1-29_02148	1155	soxA_3		Monomeric sarcosine oxidase	ATGCATACGGAATTCGACGTTGCCGTGATCGGCTTGGGGGCCATGGGGAGCATGGCGCTCTGGCAGCTCGCTGAGGACGGCTTAAATGTCGTCGGGTTTGAACAGTTCGGGATTGGCCATGATCGGGGTGCCGTTGGAGGCGAGTCACGATTGTTCCGGCGGATGCAGACCAGCGGTCCGGAGTACAACCCCGTGATAGATATGGCTCGCAGTCGCTGGGAGAACCTTCAGGAGTTCTCGGACGTCCAAATCCTGACCGAAACTGGAGGCCTCATGATTGGCCGTCCGGGTGATTCCCGGATGGTTGCCGCTCAAGTAGCAGCGGAAAAGGCCGGTCTTGAGATGGAGTACCTCAGCGGGCTGGACATGGAGAATCGCTTCCCCGAGCACCTGCTTGACCAGGGCGAGATTGGAATGTTTGATTCCACCCAGGGATACATTCGTTGCGAACAAGCAGTTCTGACGGCAGTCGCTCGCGCAAGACATCTCGGAGCCCAGGTCCGGGACTATTCAAAGATCTCCATTAAGCACGCTTCGGCGGAGGGTGTGGTGATGACGGATGGGCAAAACGAGTGGACTGCCAAAAAGGCAATCGTGACCACCGGTTCTTGGTCCGGGGACAATCTCCCCTCTGAGCTTCGGGACAAAAGCCGTGCCGGCCGTATCAAGTTGACTTGGTTCAGCCCCCTGCCCGGGCATGACTTCACCGCAGAAAACTTTCCTGTCTTTCAGCGTTTGGTTGATGACGGGACCCTTTATGGAGCGCCGAGCCTTGATGGTGGTGGTTCAGTAAAGATCGCTCCCGGCGGCGCGCCCACGGATATGGCCGGACCCGATGACTACTTCCGCGGCCAGACTGTGGATGAGATCCAAGACATGGAAAGACACGTCGCAAGGTATTTTCCGGGACTCAGCAAGAGTCCGATAAGGGCATGTGCCTGGACAGATTTCTATGTGGATGACTGGATTCCTTTCCTCGGCTTCCTGCCCCGCAGCGAAAGTGTTCTTCTGGCAAACGGCTTTGCGGGATTCGGGTTCAAGATGTGCCCGGGAATCGGACGAATCGCAGCGGACATGGTTCAGGGGAAAAAAGATAGAAAATTTCAATTCATGGAGCCCACGCGCTCGATCGGCTCCCACGCAGGTAAGGCATGA	MHTEFDVAVIGLGAMGSMALWQLAEDGLNVVGFEQFGIGHDRGAVGGESRLFRRMQTSGPEYNPVIDMARSRWENLQEFSDVQILTETGGLMIGRPGDSRMVAAQVAAEKAGLEMEYLSGLDMENRFPEHLLDQGEIGMFDSTQGYIRCEQAVLTAVARARHLGAQVRDYSKISIKHASAEGVVMTDGQNEWTAKKAIVTTGSWSGDNLPSELRDKSRAGRIKLTWFSPLPGHDFTAENFPVFQRLVDDGTLYGAPSLDGGGSVKIAPGGAPTDMAGPDDYFRGQTVDEIQDMERHVARYFPGLSKSPIRACAWTDFYVDDWIPFLGFLPRSESVLLANGFAGFGFKMCPGIGRIAADMVQGKKDRKFQFMEPTRSIGSHAGKA				NA	NA	NA	NA	NA
D1-29_02149	2157			hypothetical protein	ATGGCCGGATGGAATGCTGATACTGCCGCCGGTGCGCTCGGGGTAGGTACTGTCACCTTGGTCGAGGGTTCGTCCTTCTGCATCTCCTTGCAGAACGGGGACATGCACTCCGAACAACCACACGGTCTTTTCGTCCAGGACACCCGTATCCTGTCCGGTTGGAGCCTGACCATCAACGGCCTGCCGCTTGAGCCGCTGACAGCCCTGACCCTGGAGCCCTATCGCGCGCTGTTTGCCGGGCGCGTTCACCGTTCCGACGGATATGCAGACAGCCCGCTGATCGTGGAGCGGCTGCGTGAGGTGGGGGCCGGCGTCCAGGAGCAGATCACCCTCCGCAACCACTCCCGCGAAGAGGCTGAATGCGTGATCGCCCTGAGAATCGAAGCGGACTTCGCGGACCTCTTCGAGGTAAAGGAGGCTCGGATCCAGCGGCGCTGGAACAAAACCAGCCAAGTCGACGCCGACAATCTCACCATCCGGGCCGCCTGGCAGGACGTCCGGAAGGGCATCACCGTCCACGCACCCGGAGCAAGCCTTGCACCGAGCACCCTCACGTACCGGCTGTCCATTCCGCCGCACGGTTACTGGAGCACGGTCCTGACCGTGGTGCCCAACAACGAGGGATCATTTTCCGCAGCGACGTTTGTCCACCCTGACGGGGACGGATTGTCCCCCCGCGATCTACGCCGACAGGAATGGGTGGCGAAGATTCCCGTGCTGCAGATGGGAAACCAGTCCATCCAACGGACACTGCGGCGCAGCTACGACGATCTGGGCTCCCTGCGAATAGAGGACCCGGACCACCCGGACCGCGTAGTGGTGGCCGCCGGAGCGCCCTGGTTCATGACCCTCTTCGGCAGGGACGCGCTGTGGGCATCCGAGATGGCGATGCCTGTCGATCCATCCCTGGCCCTGGGCACACTGCAGACGCTCGCTGACCGCCAGGGCAGCCTGGTGGATCCGATGAGCGAGGAGGAACCGGGCAAGATCCTGCACGAGGTACGGCTCGATGTTTCCAGCGGGTTGTCCCTGGGCGGGAAGTCCGTTTACTACGGAAGCGTCGACGCCACTCCCCTGTTCGTCTGCTTGCTCGGGGACGTCAGCCGCTGGGGGTTTGCCCCGGACACCATCGCCGCTCTCCTGCCCCACGCGGACAGGGCCATGGACTGGATCCGGGACTACGGGGACAAGGACGGAGACGGGTTCGTCGAGTACGAACGCCTAAACCCCCAGGGGCTGATCAACCAAGGTTGGAAGGACTCCTGGGACGGCATCAACTTCGCCGACGGCACCTTGGCCGAGCCGCCGATCGCCCTCTGCGAGGTGCAGGCCTACGTCTACACTGCCTACATGGCGCGGTCGTGGATGGCGTACGACGCCGGCGACACAGCTAGAGGCAATGAACTCGCCGCCAGCGCGGCGGAGCTGAAAAAGCGGTTCAACGAACAGTTCTGGATGCCGGACCGCGGATACTATGCAGTGGCCCTCGACGGGAAGAAGCGGCAGGTCGACGCGTGTGCGTCCAATATGGGCCATTGCCTGTGGCACGGCATCGTGGATGAGGACAAGGCACCGCTCGTCGCCGAACGGCTTATGTCTCAGGAAATGTTCAGCGGCTGGGGCGTCCGGACGTTGGCCAGCGACATGGGCGCGTACAACCCAGCCAGCTACCACAACGGCTCGGTCTGGCCACACGACAACGCAATCATCGCAGCCGGCCTGCTGCGCTGCGGCTTTGTCAAGGAGGCACAACGGATCTCCACCGCCTTGCTTGAGGCCGCCAATTTCTCCGACGGTCGGCTGCCCGAACTGTTCTGCGGATTCAGCCGGCACCAGTTTCCCGAGCCTGTGCCTTACCCAACGGCGTGCTCACCGCAGGCTTGGGCAGCGACAACACCGATCATGCTTGTAACCAGCCTCATGCGGTATGACGCAGATGTCTCCAAAGGGGGCCTATGGATGGACCCGGTCCTCCCGGAGTCCTATGGCGACCTCCACATCGGCAACGCTCCCATGGCAGGCGGCCGCATCACCATCGGCATCACAAATTCCGTGCCAGGAGTACAGGGGCTGCCTGACGGGATGGTGTTCCATCAGGGGCACCGCCCATGGCTGACCGAACTGGTAGATCAGGCGGGCCGGAGCCCCAAGCGCTAG	MAGWNADTAAGALGVGTVTLVEGSSFCISLQNGDMHSEQPHGLFVQDTRILSGWSLTINGLPLEPLTALTLEPYRALFAGRVHRSDGYADSPLIVERLREVGAGVQEQITLRNHSREEAECVIALRIEADFADLFEVKEARIQRRWNKTSQVDADNLTIRAAWQDVRKGITVHAPGASLAPSTLTYRLSIPPHGYWSTVLTVVPNNEGSFSAATFVHPDGDGLSPRDLRRQEWVAKIPVLQMGNQSIQRTLRRSYDDLGSLRIEDPDHPDRVVVAAGAPWFMTLFGRDALWASEMAMPVDPSLALGTLQTLADRQGSLVDPMSEEEPGKILHEVRLDVSSGLSLGGKSVYYGSVDATPLFVCLLGDVSRWGFAPDTIAALLPHADRAMDWIRDYGDKDGDGFVEYERLNPQGLINQGWKDSWDGINFADGTLAEPPIALCEVQAYVYTAYMARSWMAYDAGDTARGNELAASAAELKKRFNEQFWMPDRGYYAVALDGKKRQVDACASNMGHCLWHGIVDEDKAPLVAERLMSQEMFSGWGVRTLASDMGAYNPASYHNGSVWPHDNAIIAAGLLRCGFVKEAQRISTALLEAANFSDGRLPELFCGFSRHQFPEPVPYPTACSPQAWAATTPIMLVTSLMRYDADVSKGGLWMDPVLPESYGDLHIGNAPMAGGRITIGITNSVPGVQGLPDGMVFHQGHRPWLTELVDQAGRSPKR				NA	NA	NA	NA	NA
D1-29_02150	705			hypothetical protein	ATGACCGACTTACTGCGTGCGGGAATAGACCGCACGGCTAAGCCCACCCGGGTTGAGGCGGTGGCTATCAGCCTTCGGACTGAGATCCTACTGGGGTTGAGGTATCCCCGCGAAAGGCTCGCGGAAGTCGCCCTGGCGGAAGAGCACAAGGTCTCCAGAGGGACCATCCGAGAGGCCCTGCAGCGCCTTGCCGCGATGGGATTCGTCGTTGGAGAACCTCACAGAGGATTCTCCGTGCGGGAATTCACTTATGACGATGTCATAGGGCTGGGCGAGGTGTTCGCCATGCTTGAACTCCAGGCCACAAAGAGCATTGAATTCCCAGTCAGCACCGCGACTCTGGACATCATGCGCGAAAGCGCTGAAGCGATGGAAGAGCTCGAGCTTCCTCGTGATTGGGACGCCCTCTGGGAACTCGATCGGAAGTTCCACGGCTCGCTCGTGGCTGAAAGCAAAAATCCCTGGCTTCTGGATACGTGGCAACGACTGCAGCCCTTTCTTAGTGTGATTACCGTCCCGCTCTTGCGTCCGGGCGTGCCGTACCCCGGCCAATTAGCCACCGCACGCCATCTTGAGCTCCTGGAAGCCATAGCGGGCGGTGATGTTTCGGTTGCACGACGAGCGATCGAGGACCATTACCACCAACACGACGAGCACATGATGGTCCCGGAACAGCGGGCGGTGACAGTCCCGAAGAGAGGCTGA	MTDLLRAGIDRTAKPTRVEAVAISLRTEILLGLRYPRERLAEVALAEEHKVSRGTIREALQRLAAMGFVVGEPHRGFSVREFTYDDVIGLGEVFAMLELQATKSIEFPVSTATLDIMRESAEAMEELELPRDWDALWELDRKFHGSLVAESKNPWLLDTWQRLQPFLSVITVPLLRPGVPYPGQLATARHLELLEAIAGGDVSVARRAIEDHYHQHDEHMMVPEQRAVTVPKRG				NA	NA	NA	NA	NA
D1-29_02151	1092			hypothetical protein	ATGAATAATGCACATGAGGCCTTCAGCGTAGGGGCCGTGGTTGCTGACCCAGGAACCACGGCGGCGGGCTACTGTTCAGTCGAGATCCACGGAAGGACACTTCGCCTTCCGGTAGTCATTGTGCATGGGGAACGGCCCGGCCCCGTCCTTGCTGTTACCGCAGGCATCCACGGGGGCGAGTACGTGTCCATGGTGGCCGTGCGGGAGTTCGTTTTTGGCTTAAATGCTTCCGCTATTCAAGGAACGGTAATCGCCTCGCTTCAGTCCAGTCCCCTCTCCTTTCAGGGCAGGAGTGCATTCGTCAACCCTATGGACGGCAAGAACCTCAACCGTGCTTTCCCCGGCAACCCGGACGGCGGCAGCACCGACCGTCTTGCCTACTGGCTGTGGTCCAACGTCATTTCCCGCGCAGACTACTACGTCGACTGCCACAGCGGCGATATTCCCGAGACTCTGGAAAGCTTTGCCGGCGTGAGCCCGGTGGGAACTGCGGATGTGGACGATCTGTCACGTGAACTGGCTGATCAGTTCGATGTGCCGCGCATTGTGCTGTTCGAAGCCGTGGGCTCGAGCATTTGGGCCGCTGCCAAAGCGGGGATCCCGTCCACACTGATTGAAGTGGGCGGAGAGGGCCGATGGTCTGCGGCAGAAGTGGCGATCCAGCAGGAGGGCCTGCGTCGAATTGCGGGCTTCGCGGGGTTGCTGGGCCTGGGCCGAGAAGAGAGGAAGCCTCTGCCTGTTTTCGAGAATCAAGCCGTGATGTGTGAGATCCCGGGCCTGTGGTACAGAAACGTCGAGCCAGGTTCATTCATCGACGCCGGGGCGTTACTTGGGGTCGTTGAGGATCCGTTCGGGACCGTACTTCAAGAGGCGCGGTCTCCCATTTCAGGCGTCCTCCTGTATGGGCTGTCGAGTCTCGCGGCGAACGAAGGGGATCTGATCGCATGTATTGCGCGGCCTAAGGATCTGGACGCGTCAGCGACGCCGTTAAGTTCCGATCAGGGGCGGGAACTCCCTTGGCCGGGAAATCCTCACGACTGCCTCAGCAACTGGGAGCAGGATGGAGAAGGGACAGCGAAACAACTGGTGTAA	MNNAHEAFSVGAVVADPGTTAAGYCSVEIHGRTLRLPVVIVHGERPGPVLAVTAGIHGGEYVSMVAVREFVFGLNASAIQGTVIASLQSSPLSFQGRSAFVNPMDGKNLNRAFPGNPDGGSTDRLAYWLWSNVISRADYYVDCHSGDIPETLESFAGVSPVGTADVDDLSRELADQFDVPRIVLFEAVGSSIWAAAKAGIPSTLIEVGGEGRWSAAEVAIQQEGLRRIAGFAGLLGLGREERKPLPVFENQAVMCEIPGLWYRNVEPGSFIDAGALLGVVEDPFGTVLQEARSPISGVLLYGLSSLAANEGDLIACIARPKDLDASATPLSSDQGRELPWPGNPHDCLSNWEQDGEGTAKQLV				NA	NA	NA	NA	NA
D1-29_02152	1167	soxA_4		Monomeric sarcosine oxidase	ATGACTACCCTCGAAACGGACGTTGTCATTGTTGGAGTCGGTTCTGTGGGGAGCATGGCAAGCTGGCAGCTTGCCTCTCGCGGACTGAAGGTCATTGGCGTGGACCGGTTTTCGATACCCGGGCCCTTTTCTGCCTACGCCGGGGAATCGCGCCTTTTCCGCAAGGTGTACGCGGAAGGCGGGCATTACACACCGATTCTGCAGAGGTCGCAGGATTTGTGGCGCGACCTGGAAAAAATCGGCGGAATGCCCCTGCTCAACACCACAGGCTTCGTCACAATGCTTGATGAAGACCATCCTTTACTCGAATCGCTCATCGAGGCAGGGAAAACGAGTGGCCTAGATTATGAAACCCTCCGGGGCGATAAGGCGAGGGCAAAATATCCCGAACACGTGATCAGGGACACAGACGTGGCACTCTTTGACCCTGAGGGCGGCTACGTGTATTCCGAGAAAGCAGTGGCCACCGCGCTGGTGGAATCGGCCAGGCTCGGCGCGCAGTTCCTGGGAAACCGTAAGGCGCAGTCAGTTGAGCCGTATGGTGACCGGTACATCGTCCGGACCGATCAGGAAGAGATCGTTGCCTCCAGGGTGATTATCTCCCAGGGCACCGGAGCCGGAGCCGTATGCAAGGAACTTGGCGTTCATCTCTCAGTTCGGCCGCAGGTCCTGACATGGTTCCCCATCTCGGATCCGTCTAAATTCAGCCGGGAAGGTTTGCCGGTGTTCATGCGCAGAATCCACGACGTTGGTTTCTATGGGTTCCCAAGTGCAGACGGTTGGACGGTTAAAGTCGCCGGCAGCGTCTACATGGACGAAGTCGAGTCCATGGAGAAACCCCTCTCTTGGGACCCGAAGTATTTGGATACCATACGAGCATGGGTAGCAGAGTACATTCCGAGTCTCGTTCCGGAACCGGTACGGGTTGCCCTGTGTGCTGACGGCTATACTCCCGATGGGACAGGCCTGCTGGGGAAGGTGCCGGGAATGGAAGGTGTCATAGCGGCGGTAGGCTTCTCGGGCCACGGCTTCAAGATGGCCTCCGCGCTGGGTGCCATCGCCGCGGACCTGGTGATAGACGGAACGACTGCCACTGACGTCAGCTTCATGAATCCGGCCCGGTTCCTTGGACCAGATTCCCAACTAACCTCCTTGCCACTGAGCTAA	MTTLETDVVIVGVGSVGSMASWQLASRGLKVIGVDRFSIPGPFSAYAGESRLFRKVYAEGGHYTPILQRSQDLWRDLEKIGGMPLLNTTGFVTMLDEDHPLLESLIEAGKTSGLDYETLRGDKARAKYPEHVIRDTDVALFDPEGGYVYSEKAVATALVESARLGAQFLGNRKAQSVEPYGDRYIVRTDQEEIVASRVIISQGTGAGAVCKELGVHLSVRPQVLTWFPISDPSKFSREGLPVFMRRIHDVGFYGFPSADGWTVKVAGSVYMDEVESMEKPLSWDPKYLDTIRAWVAEYIPSLVPEPVRVALCADGYTPDGTGLLGKVPGMEGVIAAVGFSGHGFKMASALGAIAADLVIDGTTATDVSFMNPARFLGPDSQLTSLPLS				NA	NA	NA	NA	NA
D1-29_02153	363			hypothetical protein	ATGGTCAAGGCGACAGTATTGAACGACACGACATCGGTAAATCTCGGAGAGCATGTAGCAAAAGCGACCAGTTCAACACCGGGACAGACCGAGGTGTCCTTCAAGTTTTGGGAAGACAATGGTCTTCGCACCGGGGTGTGGGAGGCCACGCCGGGCACATTCACCAGTACGCGCGAGGGATACAACGAGATCTGCCAGATCCTCAGTGGAACGGCAACCATCACCGACGAGAATGGCAGCTTCGACATCGGACCGGGCTCGCTGTTCGTCACTCCAGCCGGCTGGCGGGGCAGCTGGACTGTTCATGAAACCCTGCGCAAGATGGCGGTTGTTCAGGACCTCCCAGCCCAGCCGGCTGACTAG	MVKATVLNDTTSVNLGEHVAKATSSTPGQTEVSFKFWEDNGLRTGVWEATPGTFTSTREGYNEICQILSGTATITDENGSFDIGPGSLFVTPAGWRGSWTVHETLRKMAVVQDLPAQPAD				NA	NA	NA	NA	NA
D1-29_02154	1581	gapN	COG1012	NADP-dependent glyceraldehyde-3-phosphate dehydrogenase	ATGCTTTCATCAACCACCGTCTCCGGAGCGAACACTGAACCAGTGGCAGCACGCCCGGACAAACGCTCCAGATATGCCGACGTTCCCGGAGGAGCCTTCTTCGAAGGCAAGTGGCAGACCGCCGGCCTGACCCTTGAGGTCAGGGATCCGGAAGACGGCCGGTTGATCGGGCGGGTATGCGAATCGACGCCACAGGATGTGAGGCGTGCCATAGACCACATTCACCGCCACCTCCAGGCAGACGACTGGCCGTTGCGGTCCCGTCGACAGGCGCTTGAAAAGGCAACACAATTGCTGGCTGAACAGTCTGAGCGCTTCGCAAACATCATTGCGGCAGAGAGCAGCAAGACCATCACCGAAGCAGAGCATGAGGTCCGCCGCTGCACTGAAACCCTGCGGCTTTCCGCGGCGGCTTCGACCGAGCTGGCGGGCCGGACACTGGGCTTTGAGGACAGCGTGGCTGGGGGGAACAAGATCGGCTGGTACAGCCGGAAACCGGTAGGAATCATTGCGGCCATCACGCCGTTCAACGATCCCCTCAACCTGGTGGCGCACAAGCTGGGGCCTGCTCTCATCGGAGGCAACGGCGTCGTACTTAAACCCTCCGGCCGCACCCCCCTGACGGGGCTGGCCCTGGTCCAGTTGCTGCTCGAAGCTGGCGTGCCGTCAGGACGGATTGCCGCCATCGCCGGTGGTCCGGGCGTTGCCGAAGCACTCGTCACGGATAGCCAGGTGGACCTGATTTCCTTCACCGGTGGTCCCCAAACGGCGGAACGCATCGCCGCAGCCGCCGGCGCAAAAAAGATCCTCTCCGAGCTCGGCGGCAACAACGCCACCATCGTCTGCGCTGACGCGGACGTGATCCAGGCAGCGGACGCCATTGTTGCCGGAGCATTCGGGGTTGCAGGGCAGAACTGCCTTTCCGTGCAGCGTGTCTACGTGGACATCTCGCTGTTCGAGCAGGTCCTCAAGCACGTTGTCCGCCGGACCAAGTCCCTCAAAGCCGGACCGAAGCTGGACCGGAGCTCCGACCTGGGTCCGATGATTTGTGAGGAGGAGGCGGAACGGGTCGCGGAATGGGTGGAAGAGGCCAGGGCGGCGGGAGCGACTATCCACGCGGGAGGCCAGCGCAGGAATGCCTACTACGAGCCGACGATCCTGACCGATGTACCGGCAGAGTGCAGGGTGATCCGGGAAGAAGTATTCGGTCCCGTGGTCAGCATTATTCCGTTCATTGAGGTCTCAGATGCCATCTACGCGGCCAACCAATCTGACTATGGACTCCAAGCGGGCGTATTCACGCAATCCATGGACCTTGCGCTGGCGATCGCCGACAAGCTGCACGTGGGCGCAGTGGTCATCAACGAGACCAGCGACGTCCGAATCGACTCCATGCCCTTTGGCGGATTCAAGAAATCCGGTGTAGGGCGGGAAGGCGTACAGTACGCCGTCCACGAGATGACCGAACCCAAGAGCACAATCATCAATCTGCGCGAACCGCAGGCGCGCTGGCAAGAGCGGGTTGGGTTCCCCGATGCCTTGCACGCAGCCACTGCTACGACCGCAGGGCTTGCGTCATGA	MLSSTTVSGANTEPVAARPDKRSRYADVPGGAFFEGKWQTAGLTLEVRDPEDGRLIGRVCESTPQDVRRAIDHIHRHLQADDWPLRSRRQALEKATQLLAEQSERFANIIAAESSKTITEAEHEVRRCTETLRLSAAASTELAGRTLGFEDSVAGGNKIGWYSRKPVGIIAAITPFNDPLNLVAHKLGPALIGGNGVVLKPSGRTPLTGLALVQLLLEAGVPSGRIAAIAGGPGVAEALVTDSQVDLISFTGGPQTAERIAAAAGAKKILSELGGNNATIVCADADVIQAADAIVAGAFGVAGQNCLSVQRVYVDISLFEQVLKHVVRRTKSLKAGPKLDRSSDLGPMICEEEAERVAEWVEEARAAGATIHAGGQRRNAYYEPTILTDVPAECRVIREEVFGPVVSIIPFIEVSDAIYAANQSDYGLQAGVFTQSMDLALAIADKLHVGAVVINETSDVRIDSMPFGGFKKSGVGREGVQYAVHEMTEPKSTIINLREPQARWQERVGFPDALHAATATTAGLAS	PGPT0018005_346	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018005-gapN-K00131	NA	NA
D1-29_02155	984	hpr_2	COG1052	Hydroxypyruvate reductase	ATGACTGCCGCCCCGGAACGCACCAGGCCGGTAGTTGCGGTTCTCTACCGAGATGTCCTGCCGCCACGGCTGGCGGAAATCCAGGAGCTCGCCGACGTCCGCCTGACCAAGGCCGGCCCTCTGGCCCAAGCAATGGACGGCGCGGAGATCTTGTACCAATGGCACTCCTTCTCACCTGCCCTACAGGAGAACTGGAATGCCGCTGCGGGCCTGAAATGGGTCCACAACCGGGCAGCAGGAGTAAGCCAACTGCTTTTCGATGAACTGACCCGGAGCAACGTCGTGTACACGAACTCCCGCGGAGTGCTCAGCCGGGGGATCGCAGAGTTTGTGCTCGGTTTCGTCCTGGACATCGCCAAGGACATGCACGGGTCGTTCAGGCTGCAGCACCAACAGCGCTGGCAGCACAGGATCACGCGAAAGATCGAGGGCCAGACGGCGCTGGTAGTCGGCACAGGTTCTATCGGTCGTGAGATCGCGAGGGTTTTCCAGGCGGTTGGGATGAAGGTCAGTGGAGCAGGGCGGACAGCCCGGCCAGGCGACGCGGATTTCGAACAGATCTATTCCTCCAGGGATCTGGTGGACGCCGTTCACGACTACGACTACGTGGTGCTCGCCGCGCCGCTGACCCCGGAGACCAGCGGCTTGGTGAACGCCGAAGTGCTTGCTGCTATGAAATCTACCGCGCATCTGATCAACGTAGGGCGCGGGGAACTCGTTGATACCGAGGCTCTCACTGAGGCTCTGACGTCAGGATCCATTGCCGGAGCGGCGCTGGACGTTGTACATCCGGAGCCTCTGCCTGAAGGGCATGCTCTGTGGAGCATGAAGAATGTCATCATCACACCCCACATGAGCGGTGACACGGAAGACTACCACGACGATCTTGACCGACTTTTTATCGACAATCTTCAGCGGTTCTGCAAGGGCGAACCCTTACGGAATGTCGTAGACAAGGCCCTTGGATTCGTCCCCTCGGAGTAG	MTAAPERTRPVVAVLYRDVLPPRLAEIQELADVRLTKAGPLAQAMDGAEILYQWHSFSPALQENWNAAAGLKWVHNRAAGVSQLLFDELTRSNVVYTNSRGVLSRGIAEFVLGFVLDIAKDMHGSFRLQHQQRWQHRITRKIEGQTALVVGTGSIGREIARVFQAVGMKVSGAGRTARPGDADFEQIYSSRDLVDAVHDYDYVVLAAPLTPETSGLVNAEVLAAMKSTAHLINVGRGELVDTEALTEALTSGSIAGAALDVVHPEPLPEGHALWSMKNVIITPHMSGDTEDYHDDLDRLFIDNLQRFCKGEPLRNVVDKALGFVPSE				NA	NA	NA	NA	NA
D1-29_02156	903	fdh_1		D-threo-aldose 1-dehydrogenase	ATGAAAAGAACGATATTGCCTGGCGTCGGTCGAGAGGTCACGCACTTGTGTGTGGGGACGAGCCCACTCGGCTCGGCGATGCCGTTGGTGTACGGGGGAACGGTGACCGACGTCAGTGCTCGGGCCACCATTGATGCAGTGCTCGACAGCGAAATCCGATTTCTAGACACATCGAATGCGTATGGGGAAGCCGAACGTCGCATTGGAGAAGTGCTGAAATCTAGAGGTTTGCCCGAGGACTTCGTCGTGTCTACTAAAGCAGACCCCTTGGGTAAGGACTTCAGCGGGGCCCGGGTGCGAGCGTCCCACACGGAAAGCACCGCCCGACTCGGAGTGGAAACGCTCGACCTGTTCTACCTGCATGACCCGGAGCTATTCTTGTTTGACGACCTCACAGCAAGTGGCGGTGCCGTCAACACAATGGTGGAACTCAAACGCGACGGTTTGGTGCGCGGCATTGGAGTTGCCGGAGGCGACCTCGATGCCATGCGTCGCTATGTCGACCTTGGCATATTCGATGTCGTCCTGAACCACAACCGCTACACCCTGCTCGATCGCACCGCCGAGCCGCTGATAAACCAGACTTTGGATGCTGGCGCTGCCTTCATTAATGCCGCCCCGTACGCTAGTGGCTTTCTGGCCAAAACATCCCGAGCAACCTACCAATATGGGGCACCCTCCAAGGATGTGGTCCGTGAAGTCCAACGTCTTCGGGCCGTGTGCGCCGAGTACGGCGTTTCGCTACCTGCGCTGGCATTGAGGTTCTCGACTCAAGACCCCCGCATAAGTGCAACTGTCGTCGGGGTTTCGCGCCCTGAGCGCATCGCCGAACTGACATTGAATGACGCCGCAGAGATTCCCAACGACATCTGGTCAGCGGTTGAGGACGCACTTGGCTTTTGA	MKRTILPGVGREVTHLCVGTSPLGSAMPLVYGGTVTDVSARATIDAVLDSEIRFLDTSNAYGEAERRIGEVLKSRGLPEDFVVSTKADPLGKDFSGARVRASHTESTARLGVETLDLFYLHDPELFLFDDLTASGGAVNTMVELKRDGLVRGIGVAGGDLDAMRRYVDLGIFDVVLNHNRYTLLDRTAEPLINQTLDAGAAFINAAPYASGFLAKTSRATYQYGAPSKDVVREVQRLRAVCAEYGVSLPALALRFSTQDPRISATVVGVSRPERIAELTLNDAAEIPNDIWSAVEDALGF	PGPT0017915_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017915-pld-K00064	NA	NA
D1-29_02157	1539			hypothetical protein	ATGACTTCATCGCCCCGCCGTCTCTTCCTAGGTGGAGAACTACATAATTCGAGCGCGAGCACTGCCGCGTCGCTACGAGAGGCTTTCCGGCGTATCCGGGAACTTGGCGCAGATACGGTACTCGCGCCGGTGTCATGGGAGACGATCGAACTCCGCGAGGGAGTCTTTGATCTCTCGCTGGTAGACACCGCCCTGGAAACAGCCGAGACGTACGGGTTGGCTTGGGTTCCGCTGTGGTTTGGAGCCTGGAAGAACGGCGCGTCAACATACGTTCCAGGATGGGTCAAGCGAGACAGTGAGCGCTTCCCACGCGCTCACTCAACAGCGGGGGCGATGCACCATATTTCACCGTTCGGTGATGAGATTGCCGCGGCCGATGCCACCGCCTTCGCTCAGGTCCTGGCGCGGATCAAAGAGTCCGGCGCGGCCCACTTAGTGCCGTTCGTTCAGGTGGAAAATGAACCCGGGCTTCTGGGCGCTCGCCGGGATGAGAGCGACGTGGCTTCGGCATGCTGGTATCAGGATGTGCCGGATGCTGTGATTGCCGCGGTTCGAGACACCAGCGGACGCCTTCGCTCGGCGTGGGAGTCAAAAGGCAGGCAGGCCGAAGGCTCTTGGAGCCAGGTCTTCGGGCCCGAGGCGGACGAGGCTTTCATGGCATGGGCCTATGCCACCCACATTGAGAAGGTCGCGGCGCGCGGCAAAGCCGAACTGGGCGTCCCGCTTTACGTCAACGCTTGGCTCGACGCAGTCAACCCGATGACGCCCGCAGACGAGCTTGTCGCGGGCGGTGCCGAGCCAGGCAGTTATCCAAGTGGGGGTCCAGTTCCCCACTTGCTCCCGCTGTGGCGGGCGTTGACACCGTCCATCGACTTCTACTCTCCCGACATTTATTTCGGCGACTTCGACGCCACGTGCGGTGCGTACGCTGCGATATCCGACCGACTCGTCATCCCCGAAATGAGACGAGACCAGCTCGGCATCGCCCACATGTTCCGCGCCATCGGTGAGCACAACGCTGAGTTGGTGGCACCGTTCGGCCTGGACTCCCTTCACGCCGGCGCTCCCGACCACGACGAGATAGTGGACGCGTACGGGCTCTTGGCGGCAATGCGGGAAACCGTCGTCGGCGCACCCTCCGACTCGGTGAGGGGCTTCTTCGTCGACCGTGCGAACCCCGTCGCTCGTCTCACCATCGGTGAATTCGATCTCGTCGCTTCGCTCGATGATCCCCGCGGCATGCTCGACGAGGGTGAAATCGGCTTTGGTATCGCCGTCGACATGGGAAGCGCGCTGCGGGTGGCAGGTAGGGGCTTTCTACTCCAGCCAGCCGAGCCGGTTACCGGTCGCACGGGACTCGCGTCGGTCATAGAGAGAACGCGGGGGATCGAGGTCCACCGAGTACTGAACGGCGACGAGACCGGCGGTGGTAACGAGGTGCGCTTTCATCGCCTCTACTCCGGCCGCGGCCAGGGCGTCGTGCCCTTCAACACGCGCTTCACAGGCATCATTGATATCGAGCTGTATCACTTCGAATGA	MTSSPRRLFLGGELHNSSASTAASLREAFRRIRELGADTVLAPVSWETIELREGVFDLSLVDTALETAETYGLAWVPLWFGAWKNGASTYVPGWVKRDSERFPRAHSTAGAMHHISPFGDEIAAADATAFAQVLARIKESGAAHLVPFVQVENEPGLLGARRDESDVASACWYQDVPDAVIAAVRDTSGRLRSAWESKGRQAEGSWSQVFGPEADEAFMAWAYATHIEKVAARGKAELGVPLYVNAWLDAVNPMTPADELVAGGAEPGSYPSGGPVPHLLPLWRALTPSIDFYSPDIYFGDFDATCGAYAAISDRLVIPEMRRDQLGIAHMFRAIGEHNAELVAPFGLDSLHAGAPDHDEIVDAYGLLAAMRETVVGAPSDSVRGFFVDRANPVARLTIGEFDLVASLDDPRGMLDEGEIGFGIAVDMGSALRVAGRGFLLQPAEPVTGRTGLASVIERTRGIEVHRVLNGDETGGGNEVRFHRLYSGRGQGVVPFNTRFTGIIDIELYHFE				NA	NA	NA	NA	NA
D1-29_02158	1029			hypothetical protein	ATGAATAAGCTGATCCGCCCCGGTGAGATCATGACCGACACTGAAGGCAAGCGCATCCACATTCACGGCGGCTCCGTACTTGCCGTGGACGGCGAGTACTACTGGTATGGCGAAGACAAGTCCCAGTCAACACCAGCCAGCGGTAGATGGCATAGTGGGGTTCGCGCCTATCGCTCCCCCGACCTCATGTCCTGGACTGACCTCGGGCCGATCCTGCCAGTCGAACCCAACGGCCCTGATTCACCCCTGCACCCTGCCAAGATGATGGACAGGCCGCACATTGTGCGTCACCCCTCTACTGGAAAATTCGTTTGTTGGATGAAGGTGATGCACGAGGACGGCAAGCAGCGCTCCTGGGTATACCAGGCTGATCGATTCGAAGGACCCTACCTTCTGGTCCGCACCGGTTTTGAACCCCTTGGCATGAGTGCCGGCGACTTTGACCTCGTGGTCGACCCAGAAACAGGCCGTGGCTACTACTTCTTCGAACGCGTTCACTCCGAGCTCATTTGCGCCGACCTTACAGAGGACCTGACGGATGTCACGGGCACATACTCCACGCACTTCCCCCACCCTCACCCACCCCTCGTTCGCGAAGCACCAGCATATTTTCGGCATGAAGGCCGCCATTACCTCATCACTTCAGGTACGAGCTGGTATTTTCCCAATCGTTCAGAGGTGGCCGTCGCTGACGACTACCACGGCCCATGGACAGTGATCGGGGACCCCCACCGCAATGATCCGAGCGGCACATCATTCCACTCCCAAATTTCCTCCGTGCTGACCCTTGAGGACGGCCGGCATATCGCGCTTGCAGACCGATGGCTCCCCGACGCGACAGACGACCTGATCCGTCGGGGTTGGCGGGCAACCGAAGCGCAGTTCACAGGGGGCGAACGAGATCCCGAAATTGACGCGTTCGTTCATGCCGGCGCTCCCGACACGTCTCGCGCTCGCCACGTATGGCTGGAAATTCGTTTCGAAAACGGTGTTCCAGTAATCGACTGGCAGGACGCGTGGCGGCCGTAG	MNKLIRPGEIMTDTEGKRIHIHGGSVLAVDGEYYWYGEDKSQSTPASGRWHSGVRAYRSPDLMSWTDLGPILPVEPNGPDSPLHPAKMMDRPHIVRHPSTGKFVCWMKVMHEDGKQRSWVYQADRFEGPYLLVRTGFEPLGMSAGDFDLVVDPETGRGYYFFERVHSELICADLTEDLTDVTGTYSTHFPHPHPPLVREAPAYFRHEGRHYLITSGTSWYFPNRSEVAVADDYHGPWTVIGDPHRNDPSGTSFHSQISSVLTLEDGRHIALADRWLPDATDDLIRRGWRATEAQFTGGERDPEIDAFVHAGAPDTSRARHVWLEIRFENGVPVIDWQDAWRP				NA	NA	NA	NA	NA
D1-29_02159	2412			Beta-xylosidase	ATGAGCGCCTTTGTGATAGACCCATGGATGGACGAGGGGCTGGCTTCCAACGAACGCGCCGCCCTGCTGCTGGAAAAGCTGAGCCTTGACGAGAAGATGGCCCAGGTTTCCTGCTACTTCCCCACCGACATCACGCAGACCGGCGATTTTGGTGAGCGTTTCCCGTACGGCATTGGTGAGGTTTCGTGCCTCGAGGCGCGTTCTGCGCTCACGCTGGATGAGGTCACCGCCTTTCAGCATCGGGTGCAGGCGCAGGCCATGGAGGGTTCCGGGCACGGGATTCCAGCAATATTTCACATGGAGGGGCTCTGCGGCGCGTACCTTCCAGAAGCGACGAGCTTCCCCTCCGGGCTCGGACGGGCCGCTGCATGGAATGTTGACCTGGAGCGGGAAGTCGGAAACATCGTGGGCCGGCAGGAACGGGCAGTTGGCATCACGCACACGTTGGCTCCTGTTCTGGATGTTTCCCGCGACCCTCGCCTGGGACGGCAGGGTGAGACCTACGGAGAAGACCCAACCCTCGCGTCCGCTCTCGGCGTCGCTTACACCCAGGGGCTGCAAGGCGAGGATGCAGCCGGCCGGCGCACAGAGGCGGTAGCAAAGCACTTTGTCGGTTCGCACCACACCGAAGGCGGCATTCACGGGGCCCACTGCAACATCCCCGACCGTCTGCTGTTGGAGGTGTACGCCAAGCCCTTCCAGGCCGCAATCACCCTTGGTGGGCTGCGGGGTGTGATGCCTTCCTACAACTCTGTGGGCGGCGAGCCGATGTCCGCCTCCGTCCGGCTGCTCAAGACACTGCTGCGGGAACAGATGGGCTTCGACGGCTTGATCGTCTCTGACTACGGCGCCGTGGGAAACCTTCACACCGTCCAGCATGTTGCAGAGTCCCCCGCACAGGCCGGCCTGGCGGCCCTGCGTGCGGGGATGGATGTCGAGCTCCACGTGCCGCAGGGATTCGGCCCCGAACTGCGGGAGTGGTTCGCGGACGGACGCGCCGACGTTGCCCTCCTCGACCGGGCGGTTCACCAGGTTCTCACCGCAAAGTTTCGCATGGGACTCTTTGAGCACCCCTTTGCACCGGACTCCGCCGACCGGGACACTTCATTTCAGTCACCTGCCGACAGGGCCGTGGCTGTACAGTCTGCCCGGGAATCGCTGGTCCTTCTGCACAATGACGGTGCCCTGCCGTTGCAGCCGGACATCCGGACACTCGCAGTTATCGGCTGCCACGCGGCGACTGCCCGGTACTTTTTTGGCGGCTACACCCACTACTCCATGGCAGAGGGAAAACTCGCCGTCAACACCTCGATGGCCGGCCTCACCACCAGCAGCGAAAACCATCAGAGCGTGACCAACACCGTTCCAGGCACCACCATCGAGGCGTCCGACGGTCCGGCGTTCGAGGAACTGCTGCTGCAGCAACAGCCAGGCATCCGCAGCCTCCTCGACGAGCTTCGCATCCGGCTACCCGAAACGGAGGTGAGCTGGGCGTACGGGTACCCAATTGCCGGCGGCGACGACTCCGGACACGACGAAGCCATCGCTCTCGCCGATAGGGCCGACGTTGTGCTCCTAACGCTCGGAGGCAAACACGGCACGGCCTCCATCGCGTCAATGGGCGAGGGCATTGATGCAACCAACATCAACCTGCCGTGCTGCCAGGACGACCTGATCGTCAAGCTCGCCAAACTGGGCAAGCCAATAATCGGCATCCACCTCGACGGCCGCCCGGTATCCAGCGACGCCGCCGACACACACCTGGCGGCACTCCTGGAAGCATGGAGCCCCGCCGAAGGCGGAGCCGAAGCTATCGTCGACATCCTCACCGGTGCCCACAACCCGAGCGGGCGGTTACCGGTCAGCGTCGCAGGCAACGCCGGCCAGGTTCCGGTCTACTACAACCACCCGCATGGGTCGGCTTGGAACCAAGGCGAGAGCATCGGGTTCCCCGATTACGTCGATGCGCCCCACACACCGCGATACTTCTTCGGCCACGGGCTCTCCTACACAACGTTCGACTATTCGGATCTTGAACTCTCGCAGCACGAAGTAGCCGCTGACGACACGATCACCATCTCACTCACCGTGACCAATAGCGGAGCGCGGCCCGGAACCGAGATTATCCAGCTCTACGTCAGTGACAAGTTCGCATCGGTCTCGAGGCCAGTGCTGGAGCTCGCCGGTTTCCGCCGGCTCGACCTTGAGCCGGGGCAGGCAGCCCGGGTCCGCTTCCAACTCGATATCAGCCAACTGGCCTTCCTCGACGCCGACATGCGCTGGCGGGTCGAATCAGGGGAAGTCGACATCATGATTGGCGCCTCCTCGAACGACCTGCGGCTGACGGAATCGGTATCCATCGTTTCAGGCGCCGTGATTGACGGCAAAAACAGAAGCTTCTATGCCGGCTAG	MSAFVIDPWMDEGLASNERAALLLEKLSLDEKMAQVSCYFPTDITQTGDFGERFPYGIGEVSCLEARSALTLDEVTAFQHRVQAQAMEGSGHGIPAIFHMEGLCGAYLPEATSFPSGLGRAAAWNVDLEREVGNIVGRQERAVGITHTLAPVLDVSRDPRLGRQGETYGEDPTLASALGVAYTQGLQGEDAAGRRTEAVAKHFVGSHHTEGGIHGAHCNIPDRLLLEVYAKPFQAAITLGGLRGVMPSYNSVGGEPMSASVRLLKTLLREQMGFDGLIVSDYGAVGNLHTVQHVAESPAQAGLAALRAGMDVELHVPQGFGPELREWFADGRADVALLDRAVHQVLTAKFRMGLFEHPFAPDSADRDTSFQSPADRAVAVQSARESLVLLHNDGALPLQPDIRTLAVIGCHAATARYFFGGYTHYSMAEGKLAVNTSMAGLTTSSENHQSVTNTVPGTTIEASDGPAFEELLLQQQPGIRSLLDELRIRLPETEVSWAYGYPIAGGDDSGHDEAIALADRADVVLLTLGGKHGTASIASMGEGIDATNINLPCCQDDLIVKLAKLGKPIIGIHLDGRPVSSDAADTHLAALLEAWSPAEGGAEAIVDILTGAHNPSGRLPVSVAGNAGQVPVYYNHPHGSAWNQGESIGFPDYVDAPHTPRYFFGHGLSYTTFDYSDLELSQHEVAADDTITISLTVTNSGARPGTEIIQLYVSDKFASVSRPVLELAGFRRLDLEPGQAARVRFQLDISQLAFLDADMRWRVESGEVDIMIGASSNDLRLTESVSIVSGAVIDGKNRSFYAG	PGPT0019110_2675	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
D1-29_02160	1854			hypothetical protein	ATGAAGATCCACTCCACCCTTGCCCGCCGCGGAGGGATTGGCACCCTTGCTGCCACCTTGCTCGTCAGTGCTGGACTCGGCACGGCGAGCCCGGGGCTTGCCGCACCACCTGTATGCGCGACCGTCGGCGGCGCCCTGCAAGTGACTGAGGGCTGCATCGACCCGACATATGCCACGCCCGTCATCGACAGCGAGACCGATGAAACAGCGCCCATGCCGCACCACCGCATCAGGGGCCACTTCGAGGGCACGAACATCCAGTTCACCGTTTACCTCCACGCCGAGGAGAACAAAGCGCAGTGGGAGGGCCGGTTCTTCCAGTTCACCTACCCCGTTGTGTTTCCTGCGGCACCGGACACCTCACGGGCGGATGACCGCGCCATCGGGTTTGCGCTCTCCAGTGGCGGTTACGCGGTGCAGGCCGGGAACACGTCTGTGTCATTGGGATATCGGCATGCGGCCGCCGCCGCGAAGTTCGCCGAGACGGTGGCCGCGAAGTACTACGGCAGTAACCGCCAGATTTCCGGTTACCTCTACGGGCCCAGCGGAGGTTCGTTCCAGACGGTCGGCGCCGCTGAAAACACCACCGGAGTGTGGCAGGGGTTCGTCCCTCTGGTTCAGGCAGTGCCCGCACCCACGTCCTACAATTTCCTTGGCCGGTCCGCAGCGGAACTCATCCTCGGTGACAAGGCTGACCAGATCCGAACCGCGTTGCTGCCGGGAGGCAGCGGTGACCCGTTTGCCGGCCTCGATGAGGCCGAGCAGGCCATGCTGAAAGAAGTTCACGCTCTTGGCATTCCCTGGCAGGGGTGGGAGTACCCCGATTACCTGTTGGGCCGCTCGGAGCAGTACCCCAACGGTCTCGCCAACAGCACCCCGCTTTCCTATGATCCGAGCTACGTCAACGACTTCTGGAGCGCGGACGGTTACCTTGGCACGGAGAATTCTCCGCTGGGTGAGCGTGTGCGGGCAGAGCTGGCCAATGCGGGCGACAACCTTGCGAACCGCTGGAACATCGCCAACCGCTTCTACTACCGGTACCAAATCCCCGCCGCGAGCGAAGGCTGGATCGGGCTTGACCAGTTCCGCGGATCCGATGGCACACCGCTCTATCCGCAACGGCCGGTGAAAGCCCCGGGCTTCGGAGGTGCCGTATCCGGCAACGCCGCTTTCGACGGCTCCATCAATGGGAAGGTCATCGCGGTGTCCAACCTCTACGACACCGATGCCTTGCCGTGGCACACCGACTGGTATCGCCATCGCGTCGCGGCCAGCCTGGGCGCCGCCGCCGCCGACACCTACCGAGTCTACTTCAATGACCACGCGGACCACCAGGACGCGCCTGTCACAGGCGAGCGGGCCAAGCACCTGGTGAACTGGTACGGGATGGCCGAGCAGGCACTCCGGGACGTCAGCGCGTGGGCAGAAAAGGGCATTGAACCGCCAGCGTCCACCAACTATCAGGTCACCGATGCCCAGATCGTCGTGCCCGACAACGCCGCCGCTCGCCGGGGGATTCAACCTACAGTCGACCTCACCACGCAAGGCAAGGAGACCGCCGCGGCCGAGGCTGGCCAGGCAGTTCCCCTCAGTGCCAAGGCGCAGGTACCCCCGGGCGCCGGCAAAATCGTCAAGGCCGAATGGGACCTCGACGGTGACGGGGTCTACACGGACGCACCGCTCACCCGAACAGGAAGTGTCATCACGCTTCAGACAACCGCCACGTTCGACAAGCCGGGGACGTACTTCGTCGCGCTGCGGGTCTCTTCAGAGCGCGACGGCGACCCGACGGCCAGGTTCGCGCTGGCGCAAAACCTCGACCGGGTCAAGATTATCGTCACAGCCGCCGACTGA	MKIHSTLARRGGIGTLAATLLVSAGLGTASPGLAAPPVCATVGGALQVTEGCIDPTYATPVIDSETDETAPMPHHRIRGHFEGTNIQFTVYLHAEENKAQWEGRFFQFTYPVVFPAAPDTSRADDRAIGFALSSGGYAVQAGNTSVSLGYRHAAAAAKFAETVAAKYYGSNRQISGYLYGPSGGSFQTVGAAENTTGVWQGFVPLVQAVPAPTSYNFLGRSAAELILGDKADQIRTALLPGGSGDPFAGLDEAEQAMLKEVHALGIPWQGWEYPDYLLGRSEQYPNGLANSTPLSYDPSYVNDFWSADGYLGTENSPLGERVRAELANAGDNLANRWNIANRFYYRYQIPAASEGWIGLDQFRGSDGTPLYPQRPVKAPGFGGAVSGNAAFDGSINGKVIAVSNLYDTDALPWHTDWYRHRVAASLGAAAADTYRVYFNDHADHQDAPVTGERAKHLVNWYGMAEQALRDVSAWAEKGIEPPASTNYQVTDAQIVVPDNAAARRGIQPTVDLTTQGKETAAAEAGQAVPLSAKAQVPPGAGKIVKAEWDLDGDGVYTDAPLTRTGSVITLQTTATFDKPGTYFVALRVSSERDGDPTARFALAQNLDRVKIIVTAAD				NA	NA	NA	NA	NA
D1-29_02161	1032	cytR_5	COG1609	HTH-type transcriptional repressor CytR	ATGAGCGAGGGCAATGACCAGCGTCGGCGCCGCGTCACGATTGTGGACGTGGCAAAGCACGCGGGAGTGTCTACGGCGGCCGCCTCCAGAGTCCTCCGCAACGCCTACGGCGCCAGCGAGTCGATGCGCGCCCGCGTTCAGGCCTCCATGGAGGAGCTCGATTACCGTCCCCACGGCCCCGCGCGCGGTATGCGGGGGCGCACGTTTACGATCGGCATAGTCGTGTCGGACGTTGAGAATCCGTTTTTCAGCCTCATTATCGACGGTATCTCCAGCGTGATCCGCCCCAAGTCGTATGAGCTGTTTGTCTCGCCTGGCGGTTTCGGAGTGCTCCCGCAAAAGTCAGTTGTCGAGGCGATGATCGACCATCACATGGACGGCCTCGTGCTGGTGGCCCCGCCGATGACCATCGCCGAACTCGAACAGATTGCCGTGAGGATCCCGCTCATGGTCGTCGGCCATCACAGCCACAGCCAGGCTTTCGACACGGTCGCGGCCGACGACGAGCAGGGCGCGCAGCTCGTCGTCGACCACCTCGTAGAGCTGGGTCACCGCCGCATCGCGTTCGTCATGCACGCGGATGGTCGAGGCGACGAAGCCAGGCCGGAGTCCCACCGCCTGCGCGGCTTCGAACGTGCCATGAACAAGCACGGCCTCGACAGTGACGCAATTGTCGTCGACTCGCGTTGGAGCCTCGACGGCGGACGAGACGCTGCCCGGCAGATCGATGCACTGGACTCGCCTCCGACGGCGGTGCATGCCGGCGCGGACATCGTCGCGTTGGGAATAATGAATGAGTTGTGGGCTGGCAACAGGTCAGTGCCCGAGGACTATTCCCTGGTGGGCTACGACAATTCGAGCACGTCGTCTCTCGGGCCGATCTGGCTCACGACAGTTGACCAGTCCGGTGTGGAGATGGGTAAGCGGGTCGGCCCCCTGCTGATCGAGCGCATCGAAGGCAGGTCCGAAGCACGCCATGAAGTGTTTGAACCGCGGCTGGTGGTACGCGGCACGACTGCTCGTCCGGCATGA	MSEGNDQRRRRVTIVDVAKHAGVSTAAASRVLRNAYGASESMRARVQASMEELDYRPHGPARGMRGRTFTIGIVVSDVENPFFSLIIDGISSVIRPKSYELFVSPGGFGVLPQKSVVEAMIDHHMDGLVLVAPPMTIAELEQIAVRIPLMVVGHHSHSQAFDTVAADDEQGAQLVVDHLVELGHRRIAFVMHADGRGDEARPESHRLRGFERAMNKHGLDSDAIVVDSRWSLDGGRDAARQIDALDSPPTAVHAGADIVALGIMNELWAGNRSVPEDYSLVGYDNSSTSSLGPIWLTTVDQSGVEMGKRVGPLLIERIEGRSEARHEVFEPRLVVRGTTARPA	PGPT0017992_5042	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
D1-29_02162	1134	ccpA_7	COG1609	Catabolite control protein A	TTGTCCACCGGGTTACACTTGAATGCCATGAAGGACAAAGAACATGCGTCGCAGGAGTCGTCCCACGACGGCGCAATCAGTAGCAAGTCACGCCGAACCACGCTCCAGGACGTCGCGAGCGAGGCCGGGGTCTCATTCTCCGCAGTGTCCAAAGTCATCCGAGGTGCCAGCGGCGTCAGCCCGGAGATGCGCAGCAAAGTAACAGCGGCGATTCAGAAGCTCGGGTACCGGCCGCATGCAGGGGCGCGGGCAATGCGCGGCAAGTCCTTCACCATTGGCGTGGTCCTGATTGAGTTGACCTCCCCCTTCCAACCCGAAGTTGTGCAGGGGGTCAGCGACGAACTGGAAACCAGCCCCTACCAGGAAATCATCGTGGCAGCAGGAGTATCCCCTGAGCGCCAGCAACGCGCCGTCGAGGCCCTTATTGATCGACAGGTGGATGGCCTCATCCTCATCGCCCCGTGGACAACCTCGGAATGGCTCGAAGACATCGCGGCGAAGATCCCGACGGTCGTCGTCGCCCGGCACGGCGGCGCCCGAAACTTTGACACCGTAGTTGACGACGACTATGAGGGCGCACGCCTCATGGTTGATCACCTGGTCGGGCTTGGTCACCGACGCATCGTGCATACCAGCATGCCGTCCGGCGGACTCACTCGGCCTTTCGTTCTGTCACACACGGCCCGGCTTGACGGGTACGAGCAGGCGATGAAGCGGCACGGCCTTGAACCTGAGATTATCGTTACCTCCTACTCCGAAAAGGGCGGCTACGAAGCTGCGGTCCAGGTACTGGCAGAGACTCCGCGCCCCACGGCCATCTTCGCCGGAGCGGACGTTGCTGCCCTCGGCGTCCTCCGGGCAGCCGAAGAACAAGGACTGATGGTCCCGGAAGACCTCACCGTGACCGGCTACGACAACATCTACGTATCCACCATCGGACGGATTTCACTCACCACCGTCGACCAGTCCGGACAGCTCACCGGAGCCAACAGCGCCAAACTGCTCCTCGAACGCATTAACGGCCGAGAGCAGCCCAAGAACTACGTCGTTGCGCCACGGCTCATTCCCCGCGCCACGAGCGGGCCACCGGCTACCGCAACGCTGCAGTCCCAGGCTGAGCTCTCCTCCACCTAG	MSTGLHLNAMKDKEHASQESSHDGAISSKSRRTTLQDVASEAGVSFSAVSKVIRGASGVSPEMRSKVTAAIQKLGYRPHAGARAMRGKSFTIGVVLIELTSPFQPEVVQGVSDELETSPYQEIIVAAGVSPERQQRAVEALIDRQVDGLILIAPWTTSEWLEDIAAKIPTVVVARHGGARNFDTVVDDDYEGARLMVDHLVGLGHRRIVHTSMPSGGLTRPFVLSHTARLDGYEQAMKRHGLEPEIIVTSYSEKGGYEAAVQVLAETPRPTAIFAGADVAALGVLRAAEEQGLMVPEDLTVTGYDNIYVSTIGRISLTTVDQSGQLTGANSAKLLLERINGREQPKNYVVAPRLIPRATSGPPATATLQSQAELSST	PGPT0017992_7427	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
D1-29_02163	1533	cntA	COG0747	Metal-staphylopine-binding protein CntA	ATGCGGCGCACACGACGACGTGCACTTGTCGCCTTGGCGGCCCCCCTGGCCCTTAGCCTCGCGGCGCTCACTGGTTGCACCAGTGGCGGCCAGGCTGGGGACACTGGCAGCTCAGACAACAAAGACGCTCTCACCCTGGCAATGACTGCAGACATCCAGGGGTGGGACCCAGGGGTCCAGCCTTCCTACCAGGGATGGTCGGCGGACGCGGTGTGGGATTCCCTGCTCCGCTGCGACAAGAACGGCAAGCCGGAGGCTTCCCTGGCAGACAAGTGGGAGTTCAGCCCTGACCAGAAGACGGCTACCCTCCACATTAGGGAGGGCGCGAAGTTCTCGGACGGTACCCCGGTGGATTCAGCGGCCGTGAAGGCCAACGCTGAGTACTACGCCACAGCCGGCGGTGCGTCGAGCCGCTGGGCGGGAATTACCGTCGAGACTCCTGACCCCCAAACCGTGGCAATCTCGTGGCCGACGGCCAACCCGTTGCTGGCCTTGCGGATGTGCGAATCCAAGATTGCAACCCCGGAATCCATTGCATCCAAGAAGTTTGACGTTCCAGTCGGTTCGGGCCCTTACACTCTCGATGAAGCAGCAACCACCCGGGGTTCGGTCTACACCTTTGTCAAGAACGACTCGTTCTGGGACAGCGCAAGATTCCCCTACAAGAAGCTCGTACTTAAGGTCCTCGAGGATGAGACCGCTGCAATTAACGCACTCAAGACCCAGCAAATCGATGGCACGATGGTTTCCTCGTCCACTCTCGAGGAGGCCAAGAGCGCTGGCCAGAACATCCAGACGTTGAAGGGCAGCAGCACCACCCGACTTCTTATCACCGACCACCTCGGCGAGAAGGTGCCCGCGCTGGGCAACCTCGATGTCCGTAAAGCGATGAACATGGTGTTCGATAGGGACGCGATCGCCAAGAATCTCTATCAGGGCCATGCAACCCCGGCCTACCAGATCTTCCGCGAGGGCAGTGACGCCTACATTGCCGACGCCAAGGACCCGTACCCGTTCAACGTCGACGAGGCCAAAGCCCTCATGGCCAAAGCTGGCTACGCGGACGGCTTTACGCTGCAGATTCCGACCATGACGGGGCAGAATCACGAAACGCTGATGCCTTACATCTCCCAGCAGTTGGCACTTCTCAACATCAAAGTTGAGCAGGTGGCACTTTCCGGGCCGAACGCGATCGCCGAACTTCTCAGCGGCAAGTTCCCCGTTCCGCTGTGGCAGCTTGGAAACTACGGCGAGTCGCTGCAGGACATCAGCGACTACGTCCTGAAGGACGGCATCTGGAATGTTTCCCACCAGCCGGATGCCAAGGTTGACGCTCTGTGGAACACCGTGTTGACCGGCTCCGAAGCGGAGCGTAAGCAGGCCCAGCAGGACATCAACCAGTACGTTACCGAGCAGGCATGGTTTGTCCCCATGGCCTACATGGACCGGTTCTACGCAACCAATCCCAACGTGGAGCTTCAGGAGTCCAGCGACTTCGCCGGCCTGCACCCGCTCCTGCGCGACTTCCAGTAA	MRRTRRRALVALAAPLALSLAALTGCTSGGQAGDTGSSDNKDALTLAMTADIQGWDPGVQPSYQGWSADAVWDSLLRCDKNGKPEASLADKWEFSPDQKTATLHIREGAKFSDGTPVDSAAVKANAEYYATAGGASSRWAGITVETPDPQTVAISWPTANPLLALRMCESKIATPESIASKKFDVPVGSGPYTLDEAATTRGSVYTFVKNDSFWDSARFPYKKLVLKVLEDETAAINALKTQQIDGTMVSSSTLEEAKSAGQNIQTLKGSSTTRLLITDHLGEKVPALGNLDVRKAMNMVFDRDAIAKNLYQGHATPAYQIFREGSDAYIADAKDPYPFNVDEAKALMAKAGYADGFTLQIPTMTGQNHETLMPYISQQLALLNIKVEQVALSGPNAIAELLSGKFPVPLWQLGNYGESLQDISDYVLKDGIWNVSHQPDAKVDALWNTVLTGSEAERKQAQQDINQYVTEQAWFVPMAYMDRFYATNPNVELQESSDFAGLHPLLRDFQ	PGPT0004430_16098	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
D1-29_02164	897	gsiC_3	COG0601	Glutathione transport system permease protein GsiC	GTGTTAACCGTCAGCTTTGCAACGTTCTGTCTCATGTTCGGCAACGGCCCCGGAATCGCCCGCGCGATCCTCGGCTACCAAGCCAGCGAGAGTGATGTCCAGCGCAAGGTGGTCAGTCTGGGACTGGATCGTCCACTGCTTGTTCAATTCTGGGACTGGATCACCAAGGCAGTCACCGGCAACCTCGGAGAGTCGTTCTTCACGGGTCAAACTGTGACGTCGGCCCTTGCAACGAGGGTGCCGGTGACGCTGACCCTGGTGATCCTGACACTGATCCTCACGGTTGTCCTGAGCGTCCTTTTGGGCGTCGCGGCCGCGGTCTACGGCGGGTGGCTTGACCGGCTGCTCCAGTTCGTCTCCGTTGCCGGTGCAGCTGCCCCCGCGTTCGTTATCGCCATCGCTTTGGTGTTCAGCCTCGCCATCGCCGTACCCATCTTCCCGGCTACCGGCTACGTTTCACCGGACCGCAGTCTGAGCGGATGGATTCTCTCGGTGACGCTGCCGGTGCTGGCCCTGTTGATCGGGTCAGTTGCCAACGCTGCCAGCCAGTTCCGGGGAGCTGTGCTGGACACATTGTCCCGCGATTTCGTTCGGACACTGCGGGCACGCGGTATCCGCGAATCCCACGTGATCTTCCGCCACGTCTTAAGAAACGCGGGAGGGCCTGGACTGACGGTTCTGAGTCTACAAACCCTTGCGCTGTTCGGTGGCGCAATCTTCGTCGAGAAAGTCATGGCACTACCCGGCATCGGGCAGTTGGCCAACATGTCGGCACAGCAAGGCGACGTGCCCATGGTCATGGGAGCGGTCGTAGTGGCCATCCTCTTTGTTCTCATCGTCAATTTCCTTAGCGACCTCGCCAATTCCATGTTGAACCCGAAAGCGAGGACCCGATGA	MLTVSFATFCLMFGNGPGIARAILGYQASESDVQRKVVSLGLDRPLLVQFWDWITKAVTGNLGESFFTGQTVTSALATRVPVTLTLVILTLILTVVLSVLLGVAAAVYGGWLDRLLQFVSVAGAAAPAFVIAIALVFSLAIAVPIFPATGYVSPDRSLSGWILSVTLPVLALLIGSVANAASQFRGAVLDTLSRDFVRTLRARGIRESHVIFRHVLRNAGGPGLTVLSLQTLALFGGAIFVEKVMALPGIGQLANMSAQQGDVPMVMGAVVVAILFVLIVNFLSDLANSMLNPKARTR	PGPT0004445_12488	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
D1-29_02165	1785	btuD_10		Vitamin B12 import ATP-binding protein BtuD	ATGAGCGAACAAAGCTTTGAGCTGGATTCCGAGACCATCACAGGCGCCGTGAGCCAGGCGCCCGCCGGCAAGGGCCGCTCGGTCCCTAGGCGGCTGCTCACCCATCCCGTGGGCGCCATCTGCATCACGTTTCTGCTCTTTGTTCTGATCTTCGGCATCAGCAGCCCGCTATTGGCCCCTTACCAGCCGAACCAGGCAGACCTCAACGCTGTCAACGCCGCCCCATTCGGCGAGGGACATATTCTGGGCGCTGACCGGGCCGGACGGGACATCCTCTCGCAACTGATGTGGGGAACCAACGGCACACTCATGGGATCAGCACTTATTCTTGCGATCTCACTCCTCATCGGCGTCACCAGCGGCCTGCTCGCCGGTTTCTACCGTGGCAAATTCGAAGCTGCGGCCAGTTGGGTCAACGACGTGATCATGTCCTTGCCGAGCATTGTCCTGCTCATCGCACTCTTTGCACTTACGGGCCCGAACATCATGGTCGCCATGGCAGTCTTCGGTGTCCTCGTCGCGCCGTCGTACTACCGGCTGGTCCGCTCCGTGGTCCTTGGAGTCAGGACAGAACTGTACGTCGACGCGGCCAAGGTAGTGGGCCTTTCAGACCAGCGCATCATCGGAAGGCATGTGCTGTGGGCAGTCCGTGCACCTGTCGTCATCCAAAGCTCCTTCATTCTCGCAGCAGGCATTGCCATCCAGGCCGGCGTGGAATTCCTTGGCTTGGGCGATCCCGAACAGCCATCCTGGGGCGGCACACTCGAGAATGCCAACAGCAACATTTACAACAATCCGTTCGGAGTCCTCTGGCCCGCCCTGCTCATCAGCCTGACAATCCTCGCGCTCGTTTTGCTCGGAAACGTCCTGCGCGATGTCCTGCAGTCCTCGGCACACAACAAGACGCTCAAGAGCGGCCGCCGTCGTGACCTAGCGGCAAAAGCGCAGCAGGAGAGAGGAAACGGGAAGACAGCGGCGCCCGACAACGACATTGTCCTCTCCATCCGCGGGCTCCGGGTGGGTTACCCCGACGGTCCGGAGAGCGTCCGGGAGGTAGTCCACGGAGTCGACCTGGACGTCAGGCGAGGCGAAATCCACGGCCTGGTGGGTGAATCAGGTTCAGGTAAATCCCAGATGGCTTTCTCCACACTCGGAATCCTGCCAAAAGAAGCCGTCATATTGGGCGGCAGCATCTTCCTTGACGGCGAAGACCTCTTGGCGGACGGCAAGGCAATGAAGCGGAACCGCGGGCACAGAATCGGCTACATCCCGCAGGAGCCGATGTCCAACCTGGACCCGTCCTTCACCATCGGTGCACAGCTGACGTACGGGTTGCGTGCCGTCAAGAAAATCAGTGCCAAGGACGCAAAGAAACAGCTGATGGAACTGTTGTCCAAGGTCGGGATTCGCGATGCTGAAGGTGTCATGAGCCTCTACCCCCACGAAATCTCCGGCGGTATGGCCCAGCGCGTCCTGATCTGCGGCGCCATCGCCGCAGATCCGGACCTGATCGTCGCCGACGAACCGACCACCGCGTTGGACGTGACAGTCCAGGCAGAGGTCCTGGAACTTCTGCGGGAACTGAGCATGGAACGCGGCCTGGCGATGGTCCTGGTCACGCACAATCTCGGTGTGGTCGCTGACCTTTGCGACAACGTCAGTGTGATGAAGGATGGACGGATTGTGGAACGCAGCGATGTTGACACGCTGTTCACAGATCCGCAGCAGGAGTACACCAAGGAACTCCTGGAATCCTCACGCCGTGTAGAACTGATGGAGGTCTGA	MSEQSFELDSETITGAVSQAPAGKGRSVPRRLLTHPVGAICITFLLFVLIFGISSPLLAPYQPNQADLNAVNAAPFGEGHILGADRAGRDILSQLMWGTNGTLMGSALILAISLLIGVTSGLLAGFYRGKFEAAASWVNDVIMSLPSIVLLIALFALTGPNIMVAMAVFGVLVAPSYYRLVRSVVLGVRTELYVDAAKVVGLSDQRIIGRHVLWAVRAPVVIQSSFILAAGIAIQAGVEFLGLGDPEQPSWGGTLENANSNIYNNPFGVLWPALLISLTILALVLLGNVLRDVLQSSAHNKTLKSGRRRDLAAKAQQERGNGKTAAPDNDIVLSIRGLRVGYPDGPESVREVVHGVDLDVRRGEIHGLVGESGSGKSQMAFSTLGILPKEAVILGGSIFLDGEDLLADGKAMKRNRGHRIGYIPQEPMSNLDPSFTIGAQLTYGLRAVKKISAKDAKKQLMELLSKVGIRDAEGVMSLYPHEISGGMAQRVLICGAIAADPDLIVADEPTTALDVTVQAEVLELLRELSMERGLAMVLVTHNLGVVADLCDNVSVMKDGRIVERSDVDTLFTDPQQEYTKELLESSRRVELMEV	PGPT0004435_1908	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
D1-29_02166	858	oppF_2	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGAACGAACCACTGCTCCGGGTGGAAAACCTCGTCGTCACTTACAAGGGACGGCACGGTCTCTCCAAGCGCGTGATCGACGACGTGAGCCTGAATCTCAGCGCCGGGGAGACCCTCAGCCTCGTGGGCGAATCGGGCTCGGGCAAAACGACAATAGGGCGGGCCATCCTTGGTCTCGCTCCGGTGACCGGGGGTTCCATCACGTTCCGCGGCGACACCATCAGCAACATCAGCCGGGCGCAGCGCCGCAAGGTGGCCCGCGGCATCCAAGTGGTGTTCCAGGATCCCTACTCGTCGCTGAACCCGTCCATGACGGTCGAAGACATCCTCGTCGAACCCATGGCCGCGGCCGGCGCCACCGGTGGAAGGCAACGCGTTCGCGAACTGCTGGACGCCGTCGGGCTCCCCGGAGACTCCGGAAGCCGGTACCCCAAGGAATTCTCGGGGGGACAGAGGCAGCGTATCGCCATCGCCCGGGCACTCGCCCTGGACCCCGCCGTCATCATCTGCGATGAACCCACCAGCGCACTCGATGTCACCACGCAGGCACGCGTACTGACGCTCTTCAAAGAGTTGCAGGAGCAGACCGGCGTCGCCTATCTGTTCATCAGCCACGATCTCGGCGTCGTAAACTCCATCAGCGACAGGATCGCCGTGCTCTACCACGGCAGCGTCGTTGAAATTGGCGAGGCTGACCAGGTTTCCCGGGCACCCCGTCATGAGTACACGCGCCGGCTGCAAATGGCTGCACCCGTGGCAGACCCCAAAAAGCAGCGTTCACGGCGGGCAGCCCGCCTCAAGCTCCTGGCAGATGAAAGCAACCTCAAAGGCTCCCCGGGAGTTTTGAGCCAGAGCTGA	MNEPLLRVENLVVTYKGRHGLSKRVIDDVSLNLSAGETLSLVGESGSGKTTIGRAILGLAPVTGGSITFRGDTISNISRAQRRKVARGIQVVFQDPYSSLNPSMTVEDILVEPMAAAGATGGRQRVRELLDAVGLPGDSGSRYPKEFSGGQRQRIAIARALALDPAVIICDEPTSALDVTTQARVLTLFKELQEQTGVAYLFISHDLGVVNSISDRIAVLYHGSVVEIGEADQVSRAPRHEYTRRLQMAAPVADPKKQRSRRAARLKLLADESNLKGSPGVLSQS	PGPT0004440_6562	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
D1-29_02167	2817			Alpha-L-rhamnosidase	ATGGCAATGGCTGCCGCTCCCCACGCCCCACGCTTTGAACACCGCACAGAAACCGGTCCAATCCTCGGCATAGGTACCGGCACGCCCAGACTCTCATGGTCGGTTCCGACCGCTGACGAAGGCTACGCGCAGACCGCCTACGAACTGGAGGTCAGCCGGGGTGGGCTCATCCAGGTGTACAGGATCGAAAGCTCCGAGCAGGTATTGGTTCCGTGGCCTGCTCCCGCCCTGTCCTCCCGTGAGTCCGCCAGCGTGAGGGTTCGTGTCAGCCACAATTCGGACTGGAGCGAATGGAGTGAGCCGTCAGTCGTCGAAGCCGGCCTCCTCAACACCAGCGACTGGGTGGCCGACTTCATCAGCCCCGTCAACCTCGGAACGGAGGACATGCCCGCGCCGATCCTGATGGGGACCGTTGACGTGCCGGCTGCAGTGGCTAAAGCACGCCTCTATGCAACCGCCCACGGGATTTATGTCGCCACGCTGAACGGGCAGCGGGTCGATGACAGTGTCCTTGCCCCAGGCTGGACCTCGTACGAAAACCGGCTCCGCTACCATACCTACGACGTCACGGCACTGGTGCGCGAAGGTGCCAACACCCTGGACATGCTCTTGGGTAACGGCTGGTACCGCGGCCGTCTCGGTTTCGAAAACAAGCGTGCGCTCTACGGGGACAGGCTCGCCGTGCTCGCCCAGCTTGAGGTCACCACGGTCGACGGCGGCACGTACGTCCTGCTCTCCGACGGGTCCTGGACGGCCCGGGAGAGCAATATTCTGTCCGACGATCTGTACGACGGGCAACGGACCGACCTGCGGATCCTGAATGACGTCGCGGCGCCAGGGGCCGGTACGGTCGAAGTCATCAAGGCCGATATGTCCCGTCTTGTCGCCCCGGAAGGGCCCACTGTCCGGCCCACAGACGTAATACCTGCGCAGTCGGTCTTCACGTCGCCTTCCGGCAGGACGCTGGTGGACTTCGGCCAGAACCTGGTCGGCTGGGTCCGGTTGCGGGCGCGTAACCTGCCCGCCGGAAGTCAGGTTGTCATCAGGCATGCGGAAGTCCTCGAAAACGCCGAGCTTGGCACCGGGCCACTGCGTTCCGCCAAGGCAACGGATTCCTTCATCGTTGCCGGGTCCGCGGAGGAAACGTTGGAGCCCTGCTTCACCCTGCATGGCTTCCGCTATGCGGAGGTGGCCGGTGTGCACGGCCTCAAAGCAGAAGACATTGAGGCTGTTGTGATCGGATCGGACCTTCGACGCACCGGATGGTTTTCTTCGTCCAACCAACTGCTCAACCGGCTCCACGAGAACGTTGTCTGGAGCATCCGCGGCAACTTCGTGGATGTGCCCACTGACTGCCCGCAGCGGGACGAGCGCCTGGGCTGGACGGGGGACATCCAGGTCTTCGCGCCGACGGCGTCCTTCCTCTTCGATACCACAGGTTTCCTCAACTCCTGGCTGGCGGACCTTGCCGCCGAGCAGCTGCCGGACGGTTCAGTACCCCACGTCGTTCCCGACGTCATCCATTCGGAGTTCACTAATGCCCCCACGGCGGCCTGGGGTGACGCAGCAGTACTCGTTCCTTGGACGCTCTACCAGCGGACAGGCGACCAGCAGGTTCTTGAACGGCAGTTTCCCAGCATGTGCGCATGGCTGGACAAGGTTGCCACGCTGTCAGGCCCTGATCACCTGTGGACGGGCGGTTTCCAGTACGGCGACTGGCTGGACCCCAGCGCTCCACCCGAGGATGCCGCCCGCGCCCAAACGGATCCCGACGTCGTCGCAACGGCGCACTACGCCCGCTCGGCAGAAGTCCTCGGCAAGGCAGCGGCGGTTCTCGGACGGGACGAGGACGCCGCCCGGTATGCCAAGCTGGCCGCCGAGGTCCGTGCCGCCTTTGCCCGGGCGTTTGTGACCCCCTCAGGGAGGATTCTTTCTGACAGCCAGACTGCCTACGCGATGGCGCTGGAATGGGCCCTGTTGCCGACTGAAGAGCAGCGCGAGGAAGCAGGCAGGCGGCTTGCCGACCTTGTGCGTGTCAGCGGGTTCCGGATCAGCACCGGGTTCGTTGGCACGCCGCTGGTCTGTGATGCCCTCACCTCAGCGGGGCACGTGGATACTGCCTACCGGCTTCTCCTGCAAACAGGCTGCCCATCATGGCTCTACCCTGTCACCATGGGTGCCACGACCATCTGGGAACGCTGGGACAGCATGCGGCCGGACGGATCTGTCAACCCGGGCGGCATGACATCGTTCAACCACTATGCCTTGGGAGCAGTGGCCGACTGGATGCATCGCAGCCTGGCCGGACTCGCGCCGGCGGCTCCCGGCTACCGGGCACTTGAGGTGCGGCCGTATCCGACGGCGGCACTCACTTCAGCATCCGCACGGCACCTGACCCCGTACGGGGAGGCTGTCGTGGCGTGGGAGCGTTCCGACGGCCGACTCAAGCTGCACGTCAAAGTCCCGGTAGGCGCAACAGCCCAAGTACACGTCCCGGGCTTCCCGGCGGCGGAAACGGTGGCGCACGGCGAGCATTCATGGGACGTCGCAGACCCAACGGCAGCGGAAAATCACGCAGCTGACACGATCCGGGACGTGCTCGACTACATGCCGGCCGCCTGGTCGGCTGTCGTGGCTGCCGCCGTCGAAACAGGCATCACCCCCGAAGGCGAAGCCCAGGCAGCAGACAAAATCAGCAGGTATCTCAATGAGCCCGCCAGCAAACTGGCCACTGCGCTGGTTCCCGAACCGTGGGTCAGCGCGCATGTTCCCCTCCGCGAACGGGTGGCTGAGATCATCGCGGACTCCCGCTCATGA	MAMAAAPHAPRFEHRTETGPILGIGTGTPRLSWSVPTADEGYAQTAYELEVSRGGLIQVYRIESSEQVLVPWPAPALSSRESASVRVRVSHNSDWSEWSEPSVVEAGLLNTSDWVADFISPVNLGTEDMPAPILMGTVDVPAAVAKARLYATAHGIYVATLNGQRVDDSVLAPGWTSYENRLRYHTYDVTALVREGANTLDMLLGNGWYRGRLGFENKRALYGDRLAVLAQLEVTTVDGGTYVLLSDGSWTARESNILSDDLYDGQRTDLRILNDVAAPGAGTVEVIKADMSRLVAPEGPTVRPTDVIPAQSVFTSPSGRTLVDFGQNLVGWVRLRARNLPAGSQVVIRHAEVLENAELGTGPLRSAKATDSFIVAGSAEETLEPCFTLHGFRYAEVAGVHGLKAEDIEAVVIGSDLRRTGWFSSSNQLLNRLHENVVWSIRGNFVDVPTDCPQRDERLGWTGDIQVFAPTASFLFDTTGFLNSWLADLAAEQLPDGSVPHVVPDVIHSEFTNAPTAAWGDAAVLVPWTLYQRTGDQQVLERQFPSMCAWLDKVATLSGPDHLWTGGFQYGDWLDPSAPPEDAARAQTDPDVVATAHYARSAEVLGKAAAVLGRDEDAARYAKLAAEVRAAFARAFVTPSGRILSDSQTAYAMALEWALLPTEEQREEAGRRLADLVRVSGFRISTGFVGTPLVCDALTSAGHVDTAYRLLLQTGCPSWLYPVTMGATTIWERWDSMRPDGSVNPGGMTSFNHYALGAVADWMHRSLAGLAPAAPGYRALEVRPYPTAALTSASARHLTPYGEAVVAWERSDGRLKLHVKVPVGATAQVHVPGFPAAETVAHGEHSWDVADPTAAENHAADTIRDVLDYMPAAWSAVVAAAVETGITPEGEAQAADKISRYLNEPASKLATALVPEPWVSAHVPLRERVAEIIADSRS	PGPT0019195_347	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-RHAMNOSIDASE,PGPT0019195-ramA-K05989	NA	NA
D1-29_02168	1500		COG3507	Non-reducing end alpha-L-arabinofuranosidase BoGH43A	ATGACCGCCCCCACAAAAGCCGGCAACTCCTCATTGCGACCCATCCTGCCCGGCTTCTATCCGGACCCGACAATTTGCCGCGTAGGCGGAGACTACTACCTGTCAACGTCCAGCTTTGAATACTTCCCCGGCGCCCCCATTTTTCACAGCACCGACCTGTTGACCTGGTCGCAGATCGGCCATGTTCTCGACCGCAGGAGCCAATTCAGGCTGGGGGACCCCCGCCCCTCGACAGGCATTTACGGAGCCACCCTGCGCCACCATAACGGCATGTTCTGGTTCATCACCACCAACGTCAGCGACTACGAATCCGGCCAAGTCCTGGTCCACGCAGAGGATGCGACGGGACCATGGAGCGACCCCGTCTTCGTTGACGGCGCAATCGGCATCGACCCGGATCTGTGCTGGGACGATGACGATAACTGCTTCCTCAGCTGGAAGGCGATGAGTTTTGGTGTGGGCGAGTTCGGCATCCAGCAGGCACGCCTGGACACCGCCAGTGGAAAACTGCTGGATGAGCCCTACCTGATCTGGCAGGGGAGCGGTCTCGGAGCCGTGGAAGCACCCCACCTCTACCGCATTGGCGAATATTGGTACTTGCTCCTCGCTGAGGGCGGCACCGAGCGTGGGCATTGCGTCACCGCAGCCCGCAGTCCCCATCCTTCCGGGCCCTTCGAGCCATGCCCGGCAAATCCCGTCTTCACTCATCGGAGCCTGGTCCATCCCGTGCAAAATGTGGGCCACGCCGACCTGATGCAGACGACCGACGGCGGCTGGGCAGCCGTCTATCTGGCAGTCCGCCCTCAAGGATCGACGCCTGGTTTCCACGTGCTGGGCCGAGAGACTTTTATTGCCGGCGTTGACTGGGTGGAGGGATGGCCCGTCTTCGACGAGGAACGCTTCACCGTGCCGCAGACCGATACGGCGTATGCGGAGGACTTTTCGGCGCAGCAGCTCGACCCCCGGTGGGTCGTTCCCGGCGGCGAACCTGACAACGTGGCGATGATGGATGACGACGGCGGCATCCGACTCAAGCCGCTGGCTGACGGAACGCCTGGGCTGCTCTGCACGCGGGTCCGGGACCTTCATTGGACCGCAGACGCCTCGATAGAGGGAAGCGGCAGCTTCGTGCTCCGCATCGACGACCGCTACTGCTTTGGCCTGACCTGCGGCAACGGGAAGGCGCGTGCGTGGGCTCAGCTCGGAGAGATTAGGCACGAAACCGGGTCGGTCGACGTCGCTGCAAACCATCCCGTGACACTCCGCATCCAAAGTGTGCCTGCCTCCTCGCCCACCGTGCCCCTGGGCCACGGCGGGCCGGACGAGGTGGTGCTCTCCGTCGTCGAGCATTCCCAGGCACGCGAGCTGGGCAGGCTGGACGGCCGTCACCTTTCCACGGAAGTCGCCTCAGGCTTCACGGGCCGGATGTTGGCCCTTCAGTCGGCAGGCCCCGAGGGCAAATTCATGTCCGTTAGCTATAAACCCCAACCCCCGCAGTAG	MTAPTKAGNSSLRPILPGFYPDPTICRVGGDYYLSTSSFEYFPGAPIFHSTDLLTWSQIGHVLDRRSQFRLGDPRPSTGIYGATLRHHNGMFWFITTNVSDYESGQVLVHAEDATGPWSDPVFVDGAIGIDPDLCWDDDDNCFLSWKAMSFGVGEFGIQQARLDTASGKLLDEPYLIWQGSGLGAVEAPHLYRIGEYWYLLLAEGGTERGHCVTAARSPHPSGPFEPCPANPVFTHRSLVHPVQNVGHADLMQTTDGGWAAVYLAVRPQGSTPGFHVLGRETFIAGVDWVEGWPVFDEERFTVPQTDTAYAEDFSAQQLDPRWVVPGGEPDNVAMMDDDGGIRLKPLADGTPGLLCTRVRDLHWTADASIEGSGSFVLRIDDRYCFGLTCGNGKARAWAQLGEIRHETGSVDVAANHPVTLRIQSVPASSPTVPLGHGGPDEVVLSVVEHSQARELGRLDGRHLSTEVASGFTGRMLALQSAGPEGKFMSVSYKPQPPQ	PGPT0018665_1956	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-XYLOSIDASE,PGPT0018665-xynB-K01198	NA	NA
D1-29_02169	1749			hypothetical protein	ATGCCATTTACACAGAACGCGACCCTGGCAGACATCATGGCCAGCCCTGAAGCCTCCGCCGTCCTTGACCGACACTTTCCCGGTTTCCTGACCTGGAACGATTGGTCCCTCTCGCCCCTTGCGAAGCTGGCGGAGGTTGCCCATTGGGCCAGGGGAGTGGGAGCGACAGATCCTGACCTGACAGCACTGTGGGAGGACCTGGCAACTCTGGAATCCTCGCCCGGAGTGAAGGAGATTCCCGCGGCACCGGCCGGGCCCCAAGACGATTATGAAGAATCCGGTCAAGCACGTGCCCGGGCCGTCATCGACTCCATCCACTCCGCTCAGCAGTGGGGTGCCGCAGAAGTGATCCTGAACGGTCCGTCCCATGGCAATCCTTTCACTGACGTGGAGATCCAGGCGACGTTCCGATGCGACGGCACCTCGATAGAGGTCGGCGGCTTCTATGACGGGGACGGCGTCTACCGCATCCGGTTCATGCCGCCAAGCCCTGGTCAGTGGGCGTTCGAGAGCAGTTCCAACGCTTCCTCACTCAATGGCATCACCGGAACAGTTGACGTAACCGGGCCGGAAGAAGGCAACCATGGTCCGGTGGTGGTACGGGACACGTTCCATTTCGCTTATAAGGACGGCACTCCCTACCTTCCCTTCGGGACCACCGCCTATGCCTGGACCAACCAAACGCAGGAACTGCAGGACCAGACGCTTCGAACATTGGCAGAGTCTCCGTTCACGAAGATCCGCATGTGCGTTTTCCCGAAATCCTATTCCTACAACGCCAACGAACCCGACAACTACGCCTACACCCGGAACGCCGACGGCAGCTGGGACTTCACCCGCTTTGACGTAGCCTTTTTCCGCAATCTGGAGCAGAGAATCCTAAGCTTGCAGCGCTTGGGCGTCGAAGCAGATCTGATCCTGTTCCATCCTTACGACCGGTGGGGCTTCTCGGACATGCCGGCGTGGGCCGATGACCTGTATCTCAGCTACATCGTGCGAAGGCTCGGCGCCTTCCGCAACATCTGGTGGTCGCTGGCCAACGAATACGACTTTATGCAAACCAAAAGGGAAGAGGACTGGGAACGGTTCGCTGCCGTGATAGGCCGGGAAGACCACGCAGGGCACCTGATCTCCATCCACAACGGGGCCACGTTCTATGACTACTCCCGGCCGTGGATCACGCATTGCAGCATCCAGCGGACGGACAATTACGTATCGGCGGAGAACACGGATTCGTGGCGGAAGCAGTGGGGTAAGCCTGCAGTCATCGACGAGGTCGGCTATGAGGGCGACGTGGCGGAGGGCTGGGGGAACCTCAGTCCACAGGAGCTGCTCCGCCGTTGCTGGGAGGGCGCAGTCCGCGGCGGCTACGTCAACCACGGCGAAACTTACCTCGATGAGGACGACGTGATCTGGTGGGCCAAGGGGGGCACCCTCAAGGGCCGGTCGCCAGCCCGCATCGGCTTTCTCAGTCGGCTCGTTGCCGAATCACCCGGCGGACGGTGGGACCCGCTTCCGGGGGACTGGGACTCCCGGACCGGAGGTGACGACGATCACCGGGTAATCTACCTCGGGCTGGGCCGCCCCCGGTTCCGCTCGGTTCTTGTACCGGCCGCATCCCCCTGGCATGTGGACGTCATTGACACCTGGAATATGACGATCGATACGTTGCCGGATCCCGTGCAGGGGCGGGTGGTGGTCGACCTGCCAGGCCGGGAATACATCGCAATCCGTATTCGTCGCGCATAA	MPFTQNATLADIMASPEASAVLDRHFPGFLTWNDWSLSPLAKLAEVAHWARGVGATDPDLTALWEDLATLESSPGVKEIPAAPAGPQDDYEESGQARARAVIDSIHSAQQWGAAEVILNGPSHGNPFTDVEIQATFRCDGTSIEVGGFYDGDGVYRIRFMPPSPGQWAFESSSNASSLNGITGTVDVTGPEEGNHGPVVVRDTFHFAYKDGTPYLPFGTTAYAWTNQTQELQDQTLRTLAESPFTKIRMCVFPKSYSYNANEPDNYAYTRNADGSWDFTRFDVAFFRNLEQRILSLQRLGVEADLILFHPYDRWGFSDMPAWADDLYLSYIVRRLGAFRNIWWSLANEYDFMQTKREEDWERFAAVIGREDHAGHLISIHNGATFYDYSRPWITHCSIQRTDNYVSAENTDSWRKQWGKPAVIDEVGYEGDVAEGWGNLSPQELLRRCWEGAVRGGYVNHGETYLDEDDVIWWAKGGTLKGRSPARIGFLSRLVAESPGGRWDPLPGDWDSRTGGDDDHRVIYLGLGRPRFRSVLVPAASPWHVDVIDTWNMTIDTLPDPVQGRVVVDLPGREYIAIRIRRA				NA	NA	NA	NA	NA
D1-29_02170	1302		COG2814	Chloramphenicol efflux pump	ATGGCGCCAAATGTGAGCCGCAGCCAGGACGAAGGACAACTTCAGTCTCACCAAACCAAGGAGAACTTCCCCTTCGTCGGGCTTGTGGTCCTGTCCGCTGCCATCTTCATTTCGATGGCCACGGAGTTCCTGCCCGCCGGACTCATCCCACAGCTATCGGGAGATTTTGACCGGTCGGTGTCCGAAGTCGGGAACCTCATCACGGTCTTCGCTTTGACGGTCATTGTGACGGCCGCACCTCTGGCCGTCCTCACCCGCCGGATTCCGCGCAAGGGAATGGTCCTGGGCTCGTTTGCCGTCGTAGGAGTGGCGAATCTGATGACAGTAGTTTCGCCGACGTTTGAGGTGCTGCTTGTCGCGCGGGTGCTGGGTGCTGTAGCGCACGGCGCATTCTGGTCCGTTGTGGCGGCCTATCCAGCGCACCTCGTTCGTCCCTCACAGTTGGGAAAGGCCACCGCGATCACAGCGGCCGGTGGCTCTGTCTCCGGGGTAGTCGGCATCCCTCTCGGAAATGCCCTGGGGCAGGCCTTCGGATGGCGCGTGTCCTTCGCCGTGCTCGCCGCACTCGCGCTGATCGTTTTTGTGTTGATGATCCGACTCCTGCCAGCCGTACCCAGGCAATTGCCCGCCCCGGCCAGGAAAGCAAAGGTCCGTGACGGGCAGGACAGCACATTGCCCGCCGTCCTGATGGTTTGCCTGCTCATCCTCCTTGTTGTTGCGGCACAAAACGGCTTCGGAACCTTTCAGGTGGTGTGGTTGCTGGACGTCGCCCATTTCGCCCCCGGCGCCATCCCGGTTGTTCTCCTGGCCGGAGGAATCGCAAGCGCTGTCGGAGTTGCCTTGGTGGGCGGCCTCTACGGCCGGTTCCCGCGGAGGTTGTTCCTCGGGTCGCTGACAGTCATGGTTGTCATACTTTGCACAATTCCCGTGGCTGCGGCCTCCGGATCAGAGGCCAGTGTGTGGATCCTAATCATCCTGATGGGGGCCGTATTCGGAGGCATACCGGTCATGCTCCAAACACGGATGATGTGGTCGGCTTCTCCGCACAGCCGTAACCTGGCCGCGGCCCTTCAAACCACTGCATTCAATGTCGGCATCGGGGGAGGGGCCTTCTTCGGTGGGCTCGTCTTGGAGGGAACATCCTTGGCTTCTTTGTCTTACTGGGCTGCTGGCGCCATGTTCCTTGCCCTGCTCACTGCCGGCATCTGGGAGATCAGCAGGGGGCCTGGTCGCAGGAAGGCTCGCCGGGAACCTTCAACGGAACACACAGCGAACCGGATGCACCAGCCGGCCGATGAATAG	MAPNVSRSQDEGQLQSHQTKENFPFVGLVVLSAAIFISMATEFLPAGLIPQLSGDFDRSVSEVGNLITVFALTVIVTAAPLAVLTRRIPRKGMVLGSFAVVGVANLMTVVSPTFEVLLVARVLGAVAHGAFWSVVAAYPAHLVRPSQLGKATAITAAGGSVSGVVGIPLGNALGQAFGWRVSFAVLAALALIVFVLMIRLLPAVPRQLPAPARKAKVRDGQDSTLPAVLMVCLLILLVVAAQNGFGTFQVVWLLDVAHFAPGAIPVVLLAGGIASAVGVALVGGLYGRFPRRLFLGSLTVMVVILCTIPVAAASGSEASVWILIILMGAVFGGIPVMLQTRMMWSASPHSRNLAAALQTTAFNVGIGGGAFFGGLVLEGTSLASLSYWAAGAMFLALLTAGIWEISRGPGRRKARREPSTEHTANRMHQPADE	PGPT0028991_1657	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
D1-29_02171	1761			hypothetical protein	ATGCTTTTCATGGACGATCAAACCAAGACCCGCGAGATCCTCGAGGACGAAGCAGGCCGGAACGCGCTCCGGATTGCGCTTCCGGAAGTGGTCGACAAGCCCGGGAAGTTCGGCGGTGCACTGGAGCTTCCCATCGGCGCCCTGGCCACTGTCTTCCGCGTGAAGGAAAGCATCCAGGCAGAGCTCTGGGAGCGGCTGGCGTGTATTCCTGCGAAAGAGCGCACCGAGGCCCTTCCCGTCGAGCCCAATCCGGACTACGAGGGGGCGGAAGTACCCGCCGGTTCGGCCGCCATCTCCGCCCCGATGGCAGGGAAAGTCAATGCCATGCTGGAAATCGTCCTTACGGGGCCGACGCATGGAAACCCCTTCACCGACGTCGACTTGCAGGCGAAGTTCAGGCTCGGTGACATCGAACTACGTGTAGGTGGCTTCTACGACGGTAACGGCAGGTACCTGATCCGATTCCTTCCGCCGAAACCCGGAACTTGGGAGTTCCGCACTCTATCAACGGCCCGTTCGCTGGATGGACACGCCGGCACCACGACGGTGGAGCCTTCCTCGGCAACCGGACCGGTCCGGGTAGCTGACACCTTTCACTTCGCCTACGACAATGGCGATGTCTACCGCCCGGTTGGTACCACTCTTTACGCTTGGACGCATCAGAGCCAGGAACTTCAGGAGCAGACGTTGGCGACGCTGGCGAAAAGCGCCTTCACTAAGGTGCGCATGTGCGTCTTCCCCAAGGCATTCATCTTCAACGACAACGAGCCCGAGCTTTATCCGTTCACTCGTGACGGCGACAACTGGGACAGCACACGATTAAACCCGGCGTACTTCCAGCACCTTGAGAACCGGATCCGTGACCTGGATGACCTTGGAATCCAGGCCGACGTAATTCTCTTCCACCCTTACGATCGCTGGGGCTTTCAGGATCTAGGCAAGGCCGCTGACGACCGCTACCTCCGCTACGTCGTCCGGAGGCTGGCCGCCTTTCCGAACGTATGGTGGTCACTGGCGAACGAATACGACTTCATGACCACCAAACGGCGCGAAGACTGGGAACGATTCGCACACATCGTTACCGAGGAAGACCACGCGGACCACCTGCTTTCCATCCACAATGGCACACGCATGTACGACTATTCTGCGGAGTGGGCAACCCATTGCAGCATCCAAAAGGTCGACTACTACAAGACCGCCGAACAGGTCACCGACATGCGTGAACAATGGGGCAAACCCGTAGTCCTCGATGAAATTGGCTACGAAGGCGACCTCGAATATGAGTGGGGAAGCCTCTCAGCACGCGAGGTTGTACGCCGGGCGTGGGAGACAACCCTCCGAGGCGGCTACTACACCCACGGCGAAACGTACTACGACGACAACGACGTTCTCTGGTGGGCCAAGGGCGGACAACTGGTAGGACAAAGCGCCGAGAGAATCGCATTCCTCGACCGGCTGATTGGAGAATCCCCGACCGGGCGGCTGGAGCCGATCCTACGGATGTCCCCAACACCTATTGGCGGCGTTGAAGGCAAATACGAAATCCATTACCAGGGCTATAGCCAGCACCGATTCCAGACGATTGATATCGCAGAGGCCCATATGGCGAAGGTCGACCTAATCGACACCTGGGCCATGACCATCGAGCCCCTTCCCGGGACTTTCAGCGGGGGACAACGGATTGAACTGCCCGTCCGTCCTTACATGGCGTACCGGCTGCGGATTGAAGCGACCGCACCTATAGACAAGGACGTTCAGTGA	MLFMDDQTKTREILEDEAGRNALRIALPEVVDKPGKFGGALELPIGALATVFRVKESIQAELWERLACIPAKERTEALPVEPNPDYEGAEVPAGSAAISAPMAGKVNAMLEIVLTGPTHGNPFTDVDLQAKFRLGDIELRVGGFYDGNGRYLIRFLPPKPGTWEFRTLSTARSLDGHAGTTTVEPSSATGPVRVADTFHFAYDNGDVYRPVGTTLYAWTHQSQELQEQTLATLAKSAFTKVRMCVFPKAFIFNDNEPELYPFTRDGDNWDSTRLNPAYFQHLENRIRDLDDLGIQADVILFHPYDRWGFQDLGKAADDRYLRYVVRRLAAFPNVWWSLANEYDFMTTKRREDWERFAHIVTEEDHADHLLSIHNGTRMYDYSAEWATHCSIQKVDYYKTAEQVTDMREQWGKPVVLDEIGYEGDLEYEWGSLSAREVVRRAWETTLRGGYYTHGETYYDDNDVLWWAKGGQLVGQSAERIAFLDRLIGESPTGRLEPILRMSPTPIGGVEGKYEIHYQGYSQHRFQTIDIAEAHMAKVDLIDTWAMTIEPLPGTFSGGQRIELPVRPYMAYRLRIEATAPIDKDVQ				NA	NA	NA	NA	NA
D1-29_02172	1749	apnL_1		D-apionate lactonase	GTGACAATGCTTGCCGAGAACAAGGCCCGGCTCCTTGGCCCTACTCAGTCACTCGCCCACGGACCTTGGCGAGTTCTGTTACGCGGGGACGAATTCGCCGACATTTCATACCGGGGCCGCCCAGTCCTCAGGGCCATCCGGGCAGTTGTCCGGGACCATGACTGGAGAACCCTGACCCCCCAAGTCGAATCTGTCACCGGCTCCCAAGACGGGGCAACCTTCACCAAAACCCTCGAAGTCCGGTTCACAGGTTTCGGCGGTGAGTACACGGCAGGAGTGACTCTCCAGGCATCCGACAACGATCTTTCTGTGTCCTTCGACGGCAGGGCGACCCAGGATTTCAGCAGCAACCGCATAGGCCTCGTAGTGCTTCACAGACCCGATGACGCCGGCCGTGACATCACCGTCACGTCACCGGACCACACCGAGACCAAAAGCGCCTTCCCTACGGACATCAGCCCGCACCAGCCCTTTACAAATATCGCCGCCATGAGCTGGGAACGGGAAGGCACCGCCTTCCGGCTGGACTTCGCCGGAGACGTCTTCGAAACCGAAGACCAGCGAAACTGGACCGACGCTTCCTTCAAGACCTACAGCACGCCGCTTTCCCGGCCCTTCCCCGTCAAAGTGCAGGCCGGCGACCGAACCCAGCAGAGCATCCGGCTCAGCGCCCAACCCTCGACGGCAAACACAACCACCTCACCACCGCCGTCCATACCCGAGATGCTGACCGTGCGGAAGCATTCCCGTGGATGCGTGCCCGCCCTGGGCACTTCCGCATCCACGTCAGCGATCAAACTTCCCTTCGTGCCCGGACTTGCGGCCCTGACCGTGGAAGTTTCGGGCAATAATCCCGCCACGGCTGCAGAACTGCTGGCCCAGGCGGGACGACAGGCCCAGGAGCTGGGCACTGCGCTTGATGTGCGGATCGTCGCGGAAGCAAGCGAAGAGATCCGCTCGATCGTGGACCTGCTGCCTCTGGACAGGGTGGTTCGGGTAGGAGCCTTCAGCTCCCAAGGGCACGTTACCGAGCCAGAGTTATGGCAGCAGTTGAAAGCTACGGCAAAAAGCCGAGGATTCACCGGCGCTCTACTCGCCGGCGCACGTTCCCACTTCACAGAACTCAACCGTCGACCGGACTCCATCAAGCTCGACGCCGACGAGATCACCTACAGCATCACGCCGCAAATGCACGCCACCGAAGTGCCGCATATCGTTGAAAGCCTGCCCATTCAACGGCTGACAGCGTTGAACGCCCTCCGGCTCGGATCCGGAAAACCACTGCTCGTAGGCCCCGTGACGCTCAAGGCACGCTTCAACGCCGTCTCAACCCGAGGCGCCTACGACCCCGCCACCTTAGAAGTCATGACGACTGACCCGCTGCAGGCAGATGAGTTCACCGCTGCTTGGCTGCTGGGCAGCATTAACGCCCTCACCGTGCCAGGCGTCGAATCCGTCACCTACTTCGAAGCCAGCGGCCCCCGAGGTCTCATCACCGCGGAAGGAACCACTACACTCGCGTTCGAGATCCTGGCCAAACTGGCGACCCTGCGGGGTGCAGATGTCCTGCACGTCGACAGTGACGTTCCCGGCCTCGTGCTCTACCCGGTGGCATCAGGAACCGGCGTTGTGCTGTTCGCCGCCAACCTCACTGCACAGCCGCTGACCACCGCGGTCAAACTTGAAAACGGCTACCCGCGGACTCTTGAAATTTCACCGTGGTCGGCGATCACCCGGCCCCTCAGCTGA	MTMLAENKARLLGPTQSLAHGPWRVLLRGDEFADISYRGRPVLRAIRAVVRDHDWRTLTPQVESVTGSQDGATFTKTLEVRFTGFGGEYTAGVTLQASDNDLSVSFDGRATQDFSSNRIGLVVLHRPDDAGRDITVTSPDHTETKSAFPTDISPHQPFTNIAAMSWEREGTAFRLDFAGDVFETEDQRNWTDASFKTYSTPLSRPFPVKVQAGDRTQQSIRLSAQPSTANTTTSPPPSIPEMLTVRKHSRGCVPALGTSASTSAIKLPFVPGLAALTVEVSGNNPATAAELLAQAGRQAQELGTALDVRIVAEASEEIRSIVDLLPLDRVVRVGAFSSQGHVTEPELWQQLKATAKSRGFTGALLAGARSHFTELNRRPDSIKLDADEITYSITPQMHATEVPHIVESLPIQRLTALNALRLGSGKPLLVGPVTLKARFNAVSTRGAYDPATLEVMTTDPLQADEFTAAWLLGSINALTVPGVESVTYFEASGPRGLITAEGTTTLAFEILAKLATLRGADVLHVDSDVPGLVLYPVASGTGVVLFAANLTAQPLTTAVKLENGYPRTLEISPWSAITRPLS	PGPT0019151_98	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_APIOSE_CATBALIC_ENZYMES,PGPT0019151-apnL-K23246	NA	NA
D1-29_02173	759	bacC_4		Dihydroanticapsin 7-dehydrogenase	ATGATGTCCAATAGGCTCGCAGGCAAAACCGCTCTGGTCACCGGCGCAGGATCCGGCATCGGCCTGGCGATAGCGCAGCGCTTCACTGCAGAAAGTGCCCGCGTTTACTTCGCCGATATCAACCTGGAAGCCGCCGCGAAAGCAGCCCGAGCCACAGGCAGCGACCTGGCGACCCCACTGGCAATTGATATATCCGACGAGAAGAGTGTGGAAGCCGCCTATGCCGTAGTCGCAGCCGACGGCGCCCTGGACATAGTTGTGGCCAACGCCGGCGTCCAACTTTTCGGTCAGGACGCCAAAGTGGGAGACCTGCCCTTGGAAGTCTGGGAAAAAACGGTTGCGGTCAACCACCGCGGATCCTTCCTGACCCTGAAGCACGCAGTGCGGGCCCTGAAAGGCAGGGGAGGGTCCATCATCTGCACCGGCAGCCCGACCGCAGTCGTAGCCTGCGGTCAAACCTTCACCGCATATTCCAGTTCGAAAGCCGGTGTTCACGGGCTGGCCCGGGTTGTAGCCGCGGACTACGCCAAAGAAGGCATCCGGGTGAACACCGTAGTCCCCGGATACACCGAGACACCCCTCGTGCAAACTATCGCCGACGACCCTGCCAGCCGCGCTGGCCTGGTCAACTCGACCATGCTTGGACGGGCAGGCACCGCCGCCGATGTCGAAGGCATCATGGTCTACCTCGCCAGCGACGAATCAGCCTACGCCACAGGCGGTCTCTTCACCGTCGACGGTGGACTCACGGCGCTATGA	MMSNRLAGKTALVTGAGSGIGLAIAQRFTAESARVYFADINLEAAAKAARATGSDLATPLAIDISDEKSVEAAYAVVAADGALDIVVANAGVQLFGQDAKVGDLPLEVWEKTVAVNHRGSFLTLKHAVRALKGRGGSIICTGSPTAVVACGQTFTAYSSSKAGVHGLARVVAADYAKEGIRVNTVVPGYTETPLVQTIADDPASRAGLVNSTMLGRAGTAADVEGIMVYLASDESAYATGGLFTVDGGLTAL	PGPT0006670_180	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_TESTOSTERONE_DEGRADATION,PGPT0006670-beta_hydroxysteroid_dehydrogenase-K05296	NA	NA
D1-29_02174	675	LRA5		2-dehydro-3-deoxy-L-rhamnonate dehydrogenase (NAD(+))	ATGAAAACAGCACTCGTCACCGGTGGCGCCAGAGGCCTTGGCGCCGCAGTTGCAGATCGGCTCCGAGCAGACGGCATCCGCGTGATCACACTCGACATTGCTGGCGACGTAGACGTCGTCGTCGACATCACTGACGAAGACCGGCTCACCGAGGCGGCAGCAGCAATCGGCCCCGTAGACATCCTCATCAACTCTGCCGGCATTGTCGGCCCCGGCATTCCCCTCGTCACAACGACATCCACCGACTGGCGCACCGTCTTCGACGTCAACGTCCTCGGCGTCGTCGCCACCATGCGCGCCTTCGTGCCCGGAATGGTCGAACGCGGCTGGGGCCGAGTCATCAATTTCGCGAGCATGGCCGGCAAAGACGGAAACCCTAACCTGTCCATCTACTCCGCCTCAAAAGCAGCCGTCATCGCCCTCACCAAATCGGCCGGCAAAGAACTCGCGACCACCGGCGTCCTGGTCAACGCCATCGCACCCGCCGTGATTGCCACGCCAATGAACGACAACACATCACCAGAAGTGCTCGCCCACATCACCAGCCTCATCCCCATGAAACGAGTAGGCAAAGCGGAGGAAGTCGCCGAACTGGTCGCCTGGCTTTCCTCGGAGAAGGTCAGCTTCTCGACGGGAGCTGTCTACGACATCAGCGGCGGACGCGCCACATACTGA	MKTALVTGGARGLGAAVADRLRADGIRVITLDIAGDVDVVVDITDEDRLTEAAAAIGPVDILINSAGIVGPGIPLVTTTSTDWRTVFDVNVLGVVATMRAFVPGMVERGWGRVINFASMAGKDGNPNLSIYSASKAAVIALTKSAGKELATTGVLVNAIAPAVIATPMNDNTSPEVLAHITSLIPMKRVGKAEEVAELVAWLSSEKVSFSTGAVYDISGGRATY	PGPT0003180_17224	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
D1-29_02175	1038	ydjJ	COG1063	putative zinc-type alcohol dehydrogenase-like protein YdjJ	ATGCGTGCACTTGTCGTCACCGGGCCCCGCCAGGCCCACGTGCAGGACGTTCCCGACCCCGTCGCCGCAGCCGGTCAGTTACTCGTTGACGTCGAACGCGTCGGCATCTGCGGCACCGATGTGGAGCTCTACACGGGCGAGATGGCCTACATCGACCAGTGCTTCACCAGCTTTCCCTTGCGGCTGGGCCACGAGTGGACCGGCCGGGTTGTGGCAGCAGGCTCACCGGAAGATGAGGGCTGGATTGGCAAGCGGGTGACAGGCGACACCATGCTGGGTTGCGGGCACTGCCAGTACTGCCAGTCAGGGCACCATCACGTCTGCCCCAACCGCTTTGAAGTCGGGGTTCGGGACGGTTGGGATGGGGCGCTTGCCGAACGTATGCTTGTCCCAAGCAAATTTGCGTACGAGATCCCGGAAAGCGTCAGTCTCACCTCCGCCGCCCTCGTCGAGCCCGCCGGTAATTCCCTCCGCGCCGTGCGCGGCGCAGCTCTGCTTCCAGGGCAAAAACTCCTCGTCCTCGGCTCAGGCACTATTGGGCTTCTGGCCGCACAGTTTGCACTCGCGGACGGCGTTGAGGTCCATGTCGGCGGCGTACGTGAAGGTTCGCTGGCCCTCGCCCGTTCACTGGGCGTACAGCACACTTGGCAGCTCGGTGAGCTCGCCGATGGCCGGGCCGACGAATTCGACGCCGTCATCGAAGCAACCAGTAACGCTGATATGCCGGCTCTCTCTGTTCGCCTGACTAAGCCAGCCGGACGTGTGGTGTACATCGGCTTGTCCTCGGGTCCGAGCTTCGTCGATACCCGGGAAATAGCACTGAAGGACATCACAGCAGTCGGAATCCTTTCGGCATCCCCTGGCCTATCCGGGGCGATTGCCGGCTTCGCCAGCGGAGCAGTGAACCCGGAGGCCATTGTCAGTGAAGTTATACCGCTTGAAGAAGTTCCCGCCCGGCTTGAAGGCCGGCGAGGCAGCAACGCCGGTCCAGGCCCGAAAGTCCACGTCGACCCCCGTCTTATCCAGGAGAAACCATGA	MRALVVTGPRQAHVQDVPDPVAAAGQLLVDVERVGICGTDVELYTGEMAYIDQCFTSFPLRLGHEWTGRVVAAGSPEDEGWIGKRVTGDTMLGCGHCQYCQSGHHHVCPNRFEVGVRDGWDGALAERMLVPSKFAYEIPESVSLTSAALVEPAGNSLRAVRGAALLPGQKLLVLGSGTIGLLAAQFALADGVEVHVGGVREGSLALARSLGVQHTWQLGELADGRADEFDAVIEATSNADMPALSVRLTKPAGRVVYIGLSSGPSFVDTREIALKDITAVGILSASPGLSGAIAGFASGAVNPEAIVSEVIPLEEVPARLEGRRGSNAGPGPKVHVDPRLIQEKP	PGPT0018265_347	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018265-rspB-K08322	NA	NA
D1-29_02176	858			Ureidoglycolate lyase	ATGAGACTCGTACGAGTTGGAGCCGGCGGCTCCGAGGCCCCTGGCGCACTGATTGACGACGACACCTTCATCGACCTCTCAGATATCGTCAGCGACTTCAACGAGGCGTTCTTCGCATCGGGCACAATCGCGACCCTGCCCGCCATCATCGCTGACCGGATCGCAGACGGGCGGGGTGAGTCACTCGACGGACGCCGCTTCGGTGCACCCATCGCCCGGCCCCACCAGATTCTCTGCATCGGCCTGAACTACAGCGACCACGCCGCCGAAACCGGCCAGGCCGTACCGACCGAGCCCATCCTCTTCACGAAATCGCCCAACACCCTCATCGGCCCCAATGACGACGTGCTCATCCCACGTAACTCGGAGAAAACAGACTGGGAGGTCGAACTCGGCATCGTCATTGGACAGCGCGCCTCCTATCTCGTGGACGAGACAGAAGCAGCCGCTGCCATCGCCGGCTACGTCCTGGTCAACGACGTCAGCGAGCGGGCCTGGCAGCTCGAACGAAACGGTCAATGGGCGAAAGGAAAGTCCGCACCCACCTTCAACCCCGCAGGGCCATACCTGGTGACACCGGACGAGATCGACGACGTACTGAACCTGGATATGTGGCTCGACATCGACGGCGTGCGCCGCCAGACCGGCTCGACTTCGACGATGATCTTCAGCCCAACCTTCATCGTCCATTACCTCAGCCAGTTCCTGGCACTCGAGCCCGGCGACCTCATCAACACCGGAACACCCCCCGGCGTCGGCATGGGAATGACACCCCAGGTCTTCCTGAAAGGCGGCGAAACCATGACGCTCGGCATCACCCGGCTGGGAAGCCAGACGCAGCAAGTGATCGCCAACTAA	MRLVRVGAGGSEAPGALIDDDTFIDLSDIVSDFNEAFFASGTIATLPAIIADRIADGRGESLDGRRFGAPIARPHQILCIGLNYSDHAAETGQAVPTEPILFTKSPNTLIGPNDDVLIPRNSEKTDWEVELGIVIGQRASYLVDETEAAAAIAGYVLVNDVSERAWQLERNGQWAKGKSAPTFNPAGPYLVTPDEIDDVLNLDMWLDIDGVRRQTGSTSTMIFSPTFIVHYLSQFLALEPGDLINTGTPPGVGMGMTPQVFLKGGETMTLGITRLGSQTQQVIAN	PGPT0001745_254	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001745-lra6-K18336	NA	NA
D1-29_02177	915			6-deoxy-6-sulfogluconolactonase	ATGAGTGAGATTCCCAGCCTTGCAGCAGCGGCGGCGACGCCTGCTGACTACAACCTTGCCGAAGGCGTGCTGTGGGACGACCGTGCCAGTCTCGTCAGGTGGGTGGACATCTGGAAAGGCCGCGTACTCTCCGGCGCACTCGACAGCGGACGTATCTCCGACATCCACGAGGTCACCATTGGTGAAACCGCCGGAGCGGTCGCAATAGCGGAAGACGGCGGACTGCTGGTTGCCGCAGCCCGCGGCCTGGCAACAATCTCACCATTGGGCGACGTGTCCCTCGGGCCCGACCTGCTCGGCGGACGGACCGGCGTCCGTTTCAACGATGGGACAGTCGATCCCCACGGCGCCTTCGTCGTCGGCACCCTCTCGCTCACCGAGCGCACCGACGAAGAGGTCCTGCTTCGCGTCTGGCCCGATGGCCGGATGGAGACGTTGCGCGAAGGCATCGGCCTTTCCAACGGTGTCGCGTTTTCGCCCGACGGCGCCACGATCTACCATGTCGACACGTTTGCGGGCACGGTTTCACGGCACTCCTACGGCCCGGCCCCCTTCAACCCGGAAGAACCCTGGGTCACGGTCCTTGACGGCCTTCCCGCTTACCCGGACGGACTCACTGTAGATGCCGAGGGCGCGCTCTGGGTGGCGCAGTGGGGCGGATCGAGTGTTCGGCGGCACGCACCGACCGGTGAACTGCTTGCAGTCGTGGAAGTAGACGCCGCACAGGCCTCATGCCCAGGTTTCGTCGGACCGAACCTCGACACCCTGGCCATCACTACTGCCCAGGAAGGGCTTGACACCCTCACCGACCAGGCGGGAGCCATCTTCCTCGCCGACGTCGGAGTTTCAGGCCTGCCACCACACCGGTGGGCAGGCAGCACAACCACCCCCTATTGGAGAAAAGAAAAACTATGA	MSEIPSLAAAAATPADYNLAEGVLWDDRASLVRWVDIWKGRVLSGALDSGRISDIHEVTIGETAGAVAIAEDGGLLVAAARGLATISPLGDVSLGPDLLGGRTGVRFNDGTVDPHGAFVVGTLSLTERTDEEVLLRVWPDGRMETLREGIGLSNGVAFSPDGATIYHVDTFAGTVSRHSYGPAPFNPEEPWVTVLDGLPAYPDGLTVDAEGALWVAQWGGSSVRRHAPTGELLAVVEVDAAQASCPGFVGPNLDTLAITTAQEGLDTLTDQAGAIFLADVGVSGLPPHRWAGSTTTPYWRKEKL				NA	NA	NA	NA	NA
D1-29_02178	2877			hypothetical protein	GTGAAAGCCACTAACTTAGCCTCCCGCTCCGTTCTCACTGGCCCGGAGACCGGGCTGGGTGCACGGCTTGGTGACGCCCTCCCCCGCGAGGGAGCCGTCTCCACCAGCCCCTTCGACAGGGTGATCGCCGCCGTCGACGCATCGCACTACCTGCTGACACCGCGTGCAGTCGTGACCCCCCAGAACGCGGGGGAAGTCGGGGCGCTGTTCGCCTATGCGACAGCCAACGGTGAAGCTCTGACGTTCCGGTCTGGTGGCACAAGCCTGTCCGGGCAAGCCTCAACGTCGAACATCCTCGTCGATACCCGCAAATTCTTCCGCTCCATCACCATCGAAGATGACGGGCGCATCGCCCGGGTAGGCCCCGGCGCAACCGTCCGCCAGGTCAACGCCCGACTCCTGCGCCACGGCCGCAAACTCGGGCCAGACCCTGCCAGCGAAATCGCCTGCACCATTGGCGGCGTCGTTGCCAACAACTCCTCCGGCATGGCCTGCGGAACACGCCAGAATACCTACCAGACGCTGCGCTCAGCGATCATCGTCCTGCCCAGCGGCAGCATCGTCGACACCAGCACCGGGGACGCTGATGACAGGCTTCGCGCCACAGATCCTGAGCTCTGGCATTCGCTCATGGCACTGCGGGAGCAAGTCCTCGCCGCACCGGAGCTCGTCGCAGAAATTGCACGTCAATACAGCATCAAAAACACCATGGGCTATGGGCTGAACTCGCTCGTCGACCACGACACGGCCGTGCAGATCCTCGCGCACCTCATGGTCGGCAGCGAGGGAACGCTTGGCTTTGTCGCGGAAGCCTCCTTCAACACCGTGCCGCTGCACAAGTTCGGGGCCACCACCCTGCTGGTGTTCGACACCCTGCGCTCCGCTACTGAAGCACTGGTGGATATCGTCGCCACCGGACCGGCAACCGTTGAGCTCATGGACGCCACATCGCTGCGTGCGGCCCGCATTGATCCAGCGTCCCGCGCCGCGCTCCCCCAGTTCGAGCCCGTCAACCATTGCGCGCTGCTCGTTGAGTACCAGGCCTCGACCGCATCTGAACTCGCCGAGCTGAGCCACGATGCAGAGACACTCTTCGCGCGCCTGCCGCTGACTGCTGCACCGGTCTTGTCCCGGGACGAGACGGCCCGGGCATCCCTCTGGCGGATACGCAAGGGGCTCTACGCAACAATTGCCGGCTCCCGCCCGTCCGGTACGACGGCTCTCCTGGAGGACATCGCGGTGCCGGTTGAGGCGCTCTCGGAGACCTGCGCGGGCCTCACACGCCTGTTCAAGGTCCACGGTTATGACGACGCCGTCATTTTTGGGCACGCCAAAGACGGCAACGTGCATTTCCTCATCAACGAAGACTTTGATGAAGAGTCCAATCTCGCCCGGTATGCGGCGTTCACCGAAGACATGGTCGAGCTCGTGCTTCGCGCCGGCGGCACCCTTAAAGCCGAGCATGGGACAGGGCGAATCATGGCACCGTTCGTCGCACGACAGTATGGCCCTGTGCTCTACGGGATCATGCTGGAGATCAAAAAGGCATTCGACCCGGCAGGGATCCTGAATCCGGACGCTGTCCTCACCACGGACCCCGACCTGCACCTCAAAGACCTCAAGTCCACACCCACCGTCGAAGCCGAAGTCGACCGGTGTGTCGAGTGCGGCTACTGCGAGCCGGTCTGCCCCAGCAAGGACCTCACGACCACACCCCGCCAGCGCATCGTTGTTCAACGAGCGATCGCCGAGGCAGAGCTGCGCGGCGACACAGCCCTCGCCAAGGAGCTGCGCCGTGAGCAGGAATACGAAGTCGTTGACACATGCGCCGTCGACGGAATGTGCCAGACGGCGTGTCCGGTGCTCATCAACACGGGCGACCTGGTGCGGCGTCTGCGGTCCGAAAAGGTCGGCGCGGTTGAGGCTGCCGTGTGGACGGCCGCGGGCAAGGCATGGAAACCCGTGATCCAGGCCGCCTCGGCCGCCCTCACTGTCGCTGCCGCTGTGCCCGCTCCACTGATCACGGGCCCGAACTCGGCCGCCAGGGCCCTGCTAGGCGCGGACACGCTTCCGCTGTGGTTCAAAGACCTGCCAAAAGGCGGCCGCAGACGCCGGTCAGGGGCGGACATCGACGTGGATGGCGTCTACTTCCAGGCCTGTGTGGGGACCATGTTCGGCCCGACCGAGGGAGGCGAGGGTGTCGCTGCCGCTTTCGAATCCCTCGCCGCGAAGGCCGGTCTCGGGCTCGTACGGCCGGATGGGATCGGCGGCTTGTGCTGCGGCACCCCGTGGAAGTCCAAGGGAATCCTCAGCGGATATCACAGCATGGTTGACCGCACCGCTGCCGCCTTATGGGAGGCATCTGATCACGGCCGGCTGCCCGTCGTCTGCGACAACTCCTCATGCTCGGAGGGCTTGGTGCTTGCGCTTGAAAAGGCGGTCGAGAGCAATCCGAATTATCGGGGACTGCGCATCATCGACGCCGTCGATTTCACCGCCGAGCACATCCTGCCCCGCCTCGATATCAGCACTAGGGTCAACAGCGTCGCCGTGCACCCGACCTGCTCGAGTACCCGGGCCGGTTCCAACACCAACCTCGTGAAGCTCGCCGCTGCCGTGGCATCGGCAGTAACAGTCCCGGACAGCTGGGGATGTTGCGCCTTCGCCGGTGACCGGGGCATGTTGCATCCCGAGCTCACAGCCAGCGCTACCGAGCGCGAGTCAGGCGAGATCGCCTCCGGCGAATTCGATGCCTACGTATCGTGCAACCGCACCTGCGAAATCGGCATGACACGGGCCACGGGCCAACCGTACGTCCATGTTCTTGAGGTACTGGACCGGGCTGCAGATCCACAATTAAAGGAAGCCCATGAGTGA	MKATNLASRSVLTGPETGLGARLGDALPREGAVSTSPFDRVIAAVDASHYLLTPRAVVTPQNAGEVGALFAYATANGEALTFRSGGTSLSGQASTSNILVDTRKFFRSITIEDDGRIARVGPGATVRQVNARLLRHGRKLGPDPASEIACTIGGVVANNSSGMACGTRQNTYQTLRSAIIVLPSGSIVDTSTGDADDRLRATDPELWHSLMALREQVLAAPELVAEIARQYSIKNTMGYGLNSLVDHDTAVQILAHLMVGSEGTLGFVAEASFNTVPLHKFGATTLLVFDTLRSATEALVDIVATGPATVELMDATSLRAARIDPASRAALPQFEPVNHCALLVEYQASTASELAELSHDAETLFARLPLTAAPVLSRDETARASLWRIRKGLYATIAGSRPSGTTALLEDIAVPVEALSETCAGLTRLFKVHGYDDAVIFGHAKDGNVHFLINEDFDEESNLARYAAFTEDMVELVLRAGGTLKAEHGTGRIMAPFVARQYGPVLYGIMLEIKKAFDPAGILNPDAVLTTDPDLHLKDLKSTPTVEAEVDRCVECGYCEPVCPSKDLTTTPRQRIVVQRAIAEAELRGDTALAKELRREQEYEVVDTCAVDGMCQTACPVLINTGDLVRRLRSEKVGAVEAAVWTAAGKAWKPVIQAASAALTVAAAVPAPLITGPNSAARALLGADTLPLWFKDLPKGGRRRRSGADIDVDGVYFQACVGTMFGPTEGGEGVAAAFESLAAKAGLGLVRPDGIGGLCCGTPWKSKGILSGYHSMVDRTAAALWEASDHGRLPVVCDNSSCSEGLVLALEKAVESNPNYRGLRIIDAVDFTAEHILPRLDISTRVNSVAVHPTCSSTRAGSNTNLVKLAAAVASAVTVPDSWGCCAFAGDRGMLHPELTASATERESGEIASGEFDAYVSCNRTCEIGMTRATGQPYVHVLEVLDRAADPQLKEAHE	PGPT0018110_125	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018110-dld2-K18930	NA	NA
D1-29_02179	1719	araC		L-arabonate dehydratase	GTGGATCATCTAAGGAGCGCGGACTGGTACGCCGGTTCGGACCGGAATGCCTACATCCATCGTGCCTGGATGCGTCGCGGCCTTCCCGAGGACGCCCTCGAGTCCAAGAAGCCTCAGATTGCGATCGCCAACACCGCCTCGGACCTTACTCCCTGCAACATGCATCTCAATGAAGTTGCTGACTCGGTCAAGCAGGGCGTCTGGGCAGCAGGCGGAGTCCCGCTCAACCTGCCCGTCGTCTCCCTGGGTGAGACCCAAGTCAAACCCACCGCCATGCTCTGGCGGAATATGGCCGCCATGGCGATGGAGGAAATGTTCCGTGCCAACCCCATTGACGGACTTGTGCTGTTGGGCGGATGCGACAAGACAATCCCGGCACTGCTGATGGCCGCGGCGTCGGTCAACATTCCCGCAGTCGTCGTGCCTGGCGGGCCGATGCTGACCGGCCACTTCCGCGGCAAGGCCCTGGGATGCGGCACCGACGTCTGGCGCCTGAGCGAAGAAGCCAGGGCCGGCACCATCACCAACAGCCAGTTCACCCAGTCAGAGCAATCGATGATCCGCAGCAAGGGCCACTGCAACACGATGGGAACCGCCTCGACGATGGCCGTGGTGGCAGAAGCACTCGGGATGACAATTCCCGGGTTCGCCGGAATCCCAGCCCCGGACGCCCGACTGCTCTCCATGTCGCACGACACTGGCCGGCTCATCGTGGACATGGTCGCACAGGGCCGCCGGCCCAGCGACGTCATGACCAGGGAAGCATTCCTCAACGCAATCATCGCCGTCGCCGCCGTGGGCGGATCAACCAACTCTGTGGTGCACCTGCTCGCTATCGCCGGCCGGCTCGGAGTCGACCTGAGCCTTGAAGACTTCGATGCCGCCGGCGCTGGAGTGCCCGTCATGGCAAACCTGCAGCCCTCCGGCACTTTTCTTATGGATGACCTGTACCGTGCCGGTGGTGTGCTTGCCCTCCTGTCGCAGATAAAGGACCTCTTGCACCCCGCCCCCATCACCGTCACCGGTACCCCACTCGTCGAGTATCTCGTTGACCAGCCGGTCCACGACGAAACAGTCATCTACCCCCGTGAGGCCCCGTTCTTGGATGATGCGGGCATAGCGGTACTACGCGGCAACCTCGCCCCACGCGGAGCCATCATCAAGCCTGCGGCCGCGACAGCCGAACTGCTGCAGCACACCGGCCCCGCCGTTGTCTTCGACAGCATCGAGGACATGCGCGCACGCATCGACGACCCGGACCTGGACGTCACCGCCGACTCAGTTCTCGTCCTGCGCGGTTGCGGACCCCGCGGCTACCCGGGGTTCCCGGAAGTGGGCAACATGCCCCTCCCCCGCAAACTCCTGGAACAGGGCGTTCGGGACATGGTGCGTATCAGCGATGCCAGGATGAGTGGCACCGCCTACGGCACCGTCATCCTGCACGTCGCCCCCGAAGCCGCCGCCGGCGGGCCGCTCGCATTCGTCCGCACAGGGGACATCATCTCCCTGGATGTCGAAAACCGCACCCTCACCATGGACGTCTCGGATGAGGAGCTGCACGCGCGCACTCAGAGCCCGGCCAGTGAGGCCGGCTACGCCGCACCCGCCCGTGGCTGGGCGAAACTCTATGTCGACCACGTCATGCAGGCTGATCAGGGCGCCGACCTGGACTTCCTCGTGGGCTCCAGCGGGGAAGCGGTGGGCCGTGAAAGCCACTAA	MDHLRSADWYAGSDRNAYIHRAWMRRGLPEDALESKKPQIAIANTASDLTPCNMHLNEVADSVKQGVWAAGGVPLNLPVVSLGETQVKPTAMLWRNMAAMAMEEMFRANPIDGLVLLGGCDKTIPALLMAAASVNIPAVVVPGGPMLTGHFRGKALGCGTDVWRLSEEARAGTITNSQFTQSEQSMIRSKGHCNTMGTASTMAVVAEALGMTIPGFAGIPAPDARLLSMSHDTGRLIVDMVAQGRRPSDVMTREAFLNAIIAVAAVGGSTNSVVHLLAIAGRLGVDLSLEDFDAAGAGVPVMANLQPSGTFLMDDLYRAGGVLALLSQIKDLLHPAPITVTGTPLVEYLVDQPVHDETVIYPREAPFLDDAGIAVLRGNLAPRGAIIKPAAATAELLQHTGPAVVFDSIEDMRARIDDPDLDVTADSVLVLRGCGPRGYPGFPEVGNMPLPRKLLEQGVRDMVRISDARMSGTAYGTVILHVAPEAAAGGPLAFVRTGDIISLDVENRTLTMDVSDEELHARTQSPASEAGYAAPARGWAKLYVDHVMQADQGADLDFLVGSSGEAVGRESH	PGPT0017465_338	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017465-araC-K13875	NA	NA
D1-29_02180	780	pcaR_1	COG1414	Pca regulon regulatory protein	ATGACACACGATGCAGATCCAAGCCAAGGGGAGCGCCTCGTCGGCTCCGACCGCGTGCTCGCCGTTCTTGTTGAACTTGCAAAGCGTCCGGAGGGTGCGACACTGGAGGAGCTTGCAGGCGCCCTCGACAGTCCCAAGTCCACCGTGCACCGCGCCCTCGCGTCCTTGCGGAAAGCCTCACTGGCCGAACTGACCGCCCGCGGCGTCTACTCCCTGGGGGATGAATTCTTCAGGCTTGCCTTCAGCAATCACGCGGCCCGCCCCGAGACGGAAAGGCTCCAGCCACTCCTGAATGCACTGGCGGACGAATACGGCGAGACAGTGCACTACGCCGTGCTCGACGGCAAGGATGTTGTATACCGTGCGAAGGTCGACCCGACCCAAGGGTCGGTGAAGCTGACCTCGTACGTGGGCGGCCGCAACCCGGCCTACCGGACCGGCGTCGGGAAACTGCTTCTGTCCTACATCGTGGACACCGAAGCGCAGCTGGCTGCATGGCTCGACGGCGACAAGCTTGAAGCGAAGACGGCATCGACAATCACAGACCCGGCTGCCCTCCTGGCCGAACTGCAGGCAACCCGCTCCCGCGGCTACGGCATCGATGACCAGGAAAACGAACTCGGCATCAACTGCATCGCGGTACCGGTATTCGGCACCTCCTCCACCACGCCAACAGGTGCCATCAGCGTCAGCGCGCTGCGATTCAGATACCCCTTGGAGCAACTTGTTCAGACGGCTCCAACGCTCGCCGCCGGCGTTCGCTCCGCCTTGGCGGGCTGA	MTHDADPSQGERLVGSDRVLAVLVELAKRPEGATLEELAGALDSPKSTVHRALASLRKASLAELTARGVYSLGDEFFRLAFSNHAARPETERLQPLLNALADEYGETVHYAVLDGKDVVYRAKVDPTQGSVKLTSYVGGRNPAYRTGVGKLLLSYIVDTEAQLAAWLDGDKLEAKTASTITDPAALLAELQATRSRGYGIDDQENELGINCIAVPVFGTSSTTPTGAISVSALRFRYPLEQLVQTAPTLAAGVRSALAG				NA	NA	NA	NA	NA
D1-29_02181	321			hypothetical protein	GTGCTGGGATCAGGGGGAGGATTCTATGAGTACGACTTTGGTGACAGCTGGCTCCATCGTCTCGAGCTGGCATCCCGCCGACCCAGGGACGAGAACAGTTCGCCGGCCCAGCTGATCGACGGCGCCCGGCGTGGTCCGCTGGAAGACTCCGGCGGACTGCCTGGATTCGAGGACATCATCGACGCGCTGGAGGATTCGTCGCATCCTGACCATGACGAACACGCCGCGTGGGTGGCTGGCCTGACCGACTCAATTGCGCCCTTCAACCCTGCCTTCCTTGACATTCCCGCCGTGAATCGAGCGCCGGCTGAACAGTTCTAA	MLGSGGGFYEYDFGDSWLHRLELASRRPRDENSSPAQLIDGARRGPLEDSGGLPGFEDIIDALEDSSHPDHDEHAAWVAGLTDSIAPFNPAFLDIPAVNRAPAEQF				NA	NA	NA	NA	NA
D1-29_02182	375			hypothetical protein	ATGAATCCCTACTGGAAGCTGGACCATCTCCAGGACGTTTACCTCGAAGACAGCTGGATTCTGTCGATGAACGCTTCGCCAGGACGCCTGGAAGTGCTCTTGGACTTCGTTCTCCGAGAAAGTCACCCGGACTACAGCAACCCCAAACCCGGAGAACAGTACTGCTACAAGAGGGGCAGCCTCGTGTTCTCGTCAGTGAGCGAACTGCACTGGACCGCGCAAAGCAGAATTACGCCCGTAACTGACGCCAGTGGTGAGATCGATTACGGATCACTCGATGTGCTGGAGTTCAAGGACAACGTCTGGTCGATGGACGGAGACTTCGGGCAGATCTCGTTGATCTCGACGCCACCACAAATCGAATGGCTACCCTAA	MNPYWKLDHLQDVYLEDSWILSMNASPGRLEVLLDFVLRESHPDYSNPKPGEQYCYKRGSLVFSSVSELHWTAQSRITPVTDASGEIDYGSLDVLEFKDNVWSMDGDFGQISLISTPPQIEWLP				NA	NA	NA	NA	NA
D1-29_02183	1467			hypothetical protein	ATGCCTAGATCACGAAAAGCCAGCAACCCCGAAACATGGCCCGAACCATGCGGGCGATGCGCCGAACACCACCAGATCGCGGTCCGCTGGCCAGACGCCGCCATCTGCGGCTACTGCTACCAACAAGCCAAAAGAACCCGAGGCACCTGCGCCTGCGGCCACGAGGGAGTCCTGCCCGGCCGCGTCGACGCGCTTCCGGCCTGCCGGAAATGCTCCGGCGTCCGACTCAACGTCGACTGCATCGGATGCGGCAACGAAGAGGAACTGCACTCCGGTAACCGATGCTGGCCATGCATTCTGTCAGCAACTGTCGACCGGCTCCTCAGCGCAGACAACCAGCCAACCTCACCCGCGCTCCAGGCAATCGCCACAGCCCTGAAATCCATGAAACGCGCCAACAGCGGACTCACTTGGATCCAACAACCACACGTCACAGCCTTCCTCAAACAACTGGCCGCCACACCAGTCATCAGGCACGCCGGCCTCGACGAGCTCCCACCTTCGCCAACCCGCGAATACGTCCGCGGCCTTCTCGTTGAACACGCCGCCCTGCCACGCCGCGACGAACTCAACGCCCGATTCACAGTCTGGGCAGACCAAGCCCTCGACCGGATCGCCACCCAAAGTCATCGCGACATCATCCGGCGCTACATTCGATGGCACCACCAACGCCGCATGAACCAGATGGACGAAGTCACCCAAGGCACGTTCCTCCGGGCCAAGCAATCGGTAACCGTCGCCATCGACCTGCTGAACTGGCTCACCGAGCACGACACTGAACTTACGGAAGTGAACCAAGCACACTTGGACCGTTGGCAGGCTGAAGGCCCAACGACGCGAGGCATCGCCTCACGCTTCCTCGACTGGGCAATCAGGACCAGCCTCATCGACCCGTCTTTGAAGCTGCAGCCTCACCGCCGCGGCACTAGCCCCCGGTTGGACGCCGCCAGGCAAACAGAAGTCGTGCACAGCCTGAGCCACACTACCGACATGAACCCCCGGGATCGCGCAGCAGCCATCCTGGTCATGGTCTTCGGCCAGCAGGTCTCCGACATCGTCCAACTGACGTGGGACAACGTCACGGTGACAGAGGAACTCGTCACGATAACCCTCGGAACAGTGGAGATAGCCCTCAGGGAACCGCTCGATGAGCCTTGGCGTGAACTAGCAGCTTCCCCAACCCACGACCAGACAGCTGCTCACCCCAATAGCAATTGGGTATTCCGCGGCGGCTCCCCGGGCAGACATCTCCAGGCCTCAACCCTCGCTCAAAGACTCAGCACCGCTTTCAGCAGCCGGGCGGCCAGGCTCGGAACCCTTCACGAACTCACCAAACTCGCCCCGGTAGCCATCATCGCCGAGGCCCTCGGCTACAGCCCCGCCACCATCGAGCGCCACGCCATCGACTCATCAGCCAATTACGCTCAATACATCGCCTCGACAGCGCTGGCGAGGAACCAACCATGA	MPRSRKASNPETWPEPCGRCAEHHQIAVRWPDAAICGYCYQQAKRTRGTCACGHEGVLPGRVDALPACRKCSGVRLNVDCIGCGNEEELHSGNRCWPCILSATVDRLLSADNQPTSPALQAIATALKSMKRANSGLTWIQQPHVTAFLKQLAATPVIRHAGLDELPPSPTREYVRGLLVEHAALPRRDELNARFTVWADQALDRIATQSHRDIIRRYIRWHHQRRMNQMDEVTQGTFLRAKQSVTVAIDLLNWLTEHDTELTEVNQAHLDRWQAEGPTTRGIASRFLDWAIRTSLIDPSLKLQPHRRGTSPRLDAARQTEVVHSLSHTTDMNPRDRAAAILVMVFGQQVSDIVQLTWDNVTVTEELVTITLGTVEIALREPLDEPWRELAASPTHDQTAAHPNSNWVFRGGSPGRHLQASTLAQRLSTAFSSRAARLGTLHELTKLAPVAIIAEALGYSPATIERHAIDSSANYAQYIASTALARNQP				NA	NA	NA	NA	NA
D1-29_02184	351			hypothetical protein	ATGGCTGAACAGCGACGGATCGGATACCGCTGGAACCTTCGGCAGATGATGGCCCAACGAAACCTCTGGAAGACCACCGAGCTTCTCCCCCTGCTCAAAGCCCGTGGCATCAGCCTCTCTAACGCCCAGGTCCACCGCCTAGTCACCGGAACACCGGAACGCATCCCCGCCCAGACCTTCGCCGCTCTCTGCGACATTCTTGAGTGCACCCCGAACGACCTGTTCGAACCCTACGTCCAAATGCGCGCCAAGAGTGCCAATGCCCCGAAGATGCCAGAAGACCTGGGTATCCAGCCCGGTACGCCGATCGCACGCCGCATCCGCGTCCTGCCACCGGACGAAGATGCCTAG	MAEQRRIGYRWNLRQMMAQRNLWKTTELLPLLKARGISLSNAQVHRLVTGTPERIPAQTFAALCDILECTPNDLFEPYVQMRAKSANAPKMPEDLGIQPGTPIARRIRVLPPDEDA				NA	NA	NA	NA	NA
D1-29_02185	1134	xerC_2		Tyrosine recombinase XerC	GTGAATATTGAAGCCGGACGGATTCCGGCGTTTCTGACCACCGCGAACGTCGGGTTGCTGCGGGCTGAGGATCGCGCCTTTGAGGCGATGTTGGATGGCTGGCGTGCCCAGATGCTGGCCCGCGGCCTCTCGACGTCTTACATCAAGAGCTCTTGTGGGACGGTTCAGCGGTTCCAGGAACACTCCAATCAGTACCCTTGGACCTGGTCTGCGCATCATGTAGATGAGTTCCTGGCGGATCGACGCAGCTCGGAGAACGGCCTGGCGCTATCGACCCTCAGGGCCAATTCCGGCGCCATCAGGGCGTTCTGCTCCTACCTGACCGATGGGCGCTACGGGTGGGCAAACTTCTGCGAACGAGTCTTTGCGGACATTCCGGTGCAGGTCGTGTTCGAGTGGAACTCGCCCCGGCACACAACAGACGATGCCATGCCGGCACGCCGCCGGGCGTTCACGAAGGCTGAACTCCAGATGTTCTTCGATGCCGCCGATGACCTGGTCGACACCGAGTTCGCCAAGGGCTCGAAGCGCTGGCTTCCTGCACTGAGGGACTCGACGGCGTTCAAGGTCGCCTATGCCTACGGGCTCCGCCGGCGAGAGCTAACGATGCTGGAGTACGTCGATTTCGGACCGAACCCGCACGTTGAACAGTTCGGCCGATTCGGGGCGCTCCAGGTGCGCTGGGCGAAAGGAACCAAAGGCTCCGGACCGAGACGCCGGACCGTTCTGACCGTCCCGGAATTCGATTGGGTCGTAGGGCTGCTTGAGCACTGGCTCTCCCCCGACGGTCGGAAACGTTTCCCGACGGCGGACCGTTCGACCAGCCTGTGGCCCTCGGAACGCTCAGGCTCCACGGTTCACCGCAACTTCGACCGTTCCTTTCAGCGCGTCCGGGAGATCGCCGGGCTCCCCCAGGAATTGTCCTTGCATACCTTGAGGCATTCCTACGTCACTCATCTGATCGAAGCCGGCTACGACCCCTTGTTTATCCAGCAGCAGGTCGGGCACAGCTACTCCTCGACCACCGCCCTCTATACTTCCGTGTCGGCGGACTTCAAACAGAAGACCATCCAGACGATGATCGCGCAGCGCCTACGCAGCAGCGGCACTGACGAAGGGAACGGCCATGGCTGA	MNIEAGRIPAFLTTANVGLLRAEDRAFEAMLDGWRAQMLARGLSTSYIKSSCGTVQRFQEHSNQYPWTWSAHHVDEFLADRRSSENGLALSTLRANSGAIRAFCSYLTDGRYGWANFCERVFADIPVQVVFEWNSPRHTTDDAMPARRRAFTKAELQMFFDAADDLVDTEFAKGSKRWLPALRDSTAFKVAYAYGLRRRELTMLEYVDFGPNPHVEQFGRFGALQVRWAKGTKGSGPRRRTVLTVPEFDWVVGLLEHWLSPDGRKRFPTADRSTSLWPSERSGSTVHRNFDRSFQRVREIAGLPQELSLHTLRHSYVTHLIEAGYDPLFIQQQVGHSYSSTTALYTSVSADFKQKTIQTMIAQRLRSSGTDEGNGHG	PGPT0022000_885	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
D1-29_02186	384			hypothetical protein	ATGACGAACGCAAGGGACAAGAGCGCCCGACTCGAGCCCCACGAGGACCTATATGGACAAGTTAGGGGCGACGTCGAAAGACTTGAGCGCCAACTATTGTTCGTGATGAAGCTCTGGAGTGATCGGGACGAGAACTACGAACGAATCGCAGCCGCCGTCCGAGTCGGGGCGGGGAAACTACGGACTAAAGCTAAGGGCATCAACCGTGCGCGAGACCGGCAGGACATGATGGGGAAGATCGAACGCGTCATTTCGGACATCTCGCGCCTCAACCGATACCCGCCCTATGTCCCAGGTTCCGGAGGGCAGCGCCCAGCCCCTCCCAGAGGCCGCATTAGCTCGATAAAACCCGGTGGGCTGCCAGGATTTGGGAAGCGGCGGTAG	MTNARDKSARLEPHEDLYGQVRGDVERLERQLLFVMKLWSDRDENYERIAAAVRVGAGKLRTKAKGINRARDRQDMMGKIERVISDISRLNRYPPYVPGSGGQRPAPPRGRISSIKPGGLPGFGKRR				NA	NA	NA	NA	NA
D1-29_02187	1029			hypothetical protein	ATGGAAAAGCTCACGATCACAACACCATCAGATGTCCTCAGCTTCATCGGCCACACCCTAGGCTTCTGGCCCCAGGAAAGCCTGGTCTGCATCACCCTGAACAACAACAGCATCGGCGCGACCCTGCGCATCGATCTCCCCCGCCAACCAGGCCAGGAACTCCCCTACGCGCGCACCGTCGCCCACTACCTCACCAGCGACACCACCGCCACATCAATCCTCTTCGCCGTCTACACCAGCGAAACAGCCCCGCAGGGACAAGCCAGACCCCACGCTGGCACCATCGCCGCTCTCACCGGGGTCCTGGCTGAACAGGGCATCACCATCCGGGACGGACTCTTCGTCGGCGAACAAACTTTCTCCCCCTACGACGGCGAACCCGGCACCAGTCTCGCCCTGCCCGTCAGCTCCACCCAGACCAGCGCGATCAACGCCGAATTCATCTACCGCGGCAGCTATATAGAATCCACCGACAGCGTCACCCTCCCCACCACCGGTCATGAAGAAGCGAAAGCGGCCGCCGTCGAACACCATATGGAAGCCATCGCCGCCCAACCAGCCGGCACCGCGCTCCAGCAAGGCAGGAAACTTTGGGGTGACATGCTCGGGTCCACGGCTTTTCCCAGCGACGATGATTGCCACGCCCTGGTCGCGAATCTTCAGTTCCCGGCGATCCGGGACCGGCTCATCGCGGACATCCCGGGAGTGGACGAGCCCATGCAGCACATCTTGTTTGCCCAAACCGACCAGGCCCCGAAGTGGTCACGCATCGAATGGGCCCAGCAGCTGCTCCTTCATGCCTACACCCGTACCAGTGCAGAACATGCAGCACCGGTCCTCACTGCAATCGGCTACATCAACTGGTGGGAAGGCAAAGGCAGCAAAGCCCACCAATTTCTCCAACTCGCCCTCGACAACGACCCCGCCTACCGCCTCGCCCGCCTCAGCGACCAAATGATCGGCTCCGGCCTTGTCGCCGGCTGGAACATGAACAAAGAAACCGCGTACAAGGCACTGCCCTTCGATTAG	MEKLTITTPSDVLSFIGHTLGFWPQESLVCITLNNNSIGATLRIDLPRQPGQELPYARTVAHYLTSDTTATSILFAVYTSETAPQGQARPHAGTIAALTGVLAEQGITIRDGLFVGEQTFSPYDGEPGTSLALPVSSTQTSAINAEFIYRGSYIESTDSVTLPTTGHEEAKAAAVEHHMEAIAAQPAGTALQQGRKLWGDMLGSTAFPSDDDCHALVANLQFPAIRDRLIADIPGVDEPMQHILFAQTDQAPKWSRIEWAQQLLLHAYTRTSAEHAAPVLTAIGYINWWEGKGSKAHQFLQLALDNDPAYRLARLSDQMIGSGLVAGWNMNKETAYKALPFD				NA	NA	NA	NA	NA
D1-29_02188	573			hypothetical protein	GTGGCTCGGCGCGCAAATCCTCCCAAGAAGGTGGGTCGTTGTCGGATTCTTGTACCGCAAAGGTCTGTTGAGGTGCGAGCCAAATCTGTCAGGACAAAGAAGAACCGCATTCCGTCGTTGCGGGGTGCAGTCGTAGGTCGAACGCTTCGGCGGGGGCGAAATCGGGGTGTGGACATTGTCCACAGTCTTGGCCTCGGACCGGGTAATACCGCCCTCGGAGTGCTTCCAATTCCGCATGTTTTCGGAAGTTCCCAGCGTTGGCAAGGCCGGGAATGCAGTTCGAGTCCCACCTCGGGCACAGGGTTTCCGCAGGTCAGTGGCTTTTGGCCTCTGACCCTGTTGACAGTGTCCACACACTGTCCGGGGGTCATTAATGACGGGTGGCAGTCACGCCGTTTTTGTCGGTGGGCCGTGCTTGTGGCCGGATCCTTCCTTTCGTTCTGTCGGCGAATTTTCGGCTTGCTACTCCTTCATTGCTGGGCCGGGTCTTGGCAACACGACTTGTTTCGACCCGGGGGAGTGACGCTGCGCCGGCTTGTGGTCTGTTTCTCGTCTCACGCATGTTCATGGTGA	MARRANPPKKVGRCRILVPQRSVEVRAKSVRTKKNRIPSLRGAVVGRTLRRGRNRGVDIVHSLGLGPGNTALGVLPIPHVFGSSQRWQGRECSSSPTSGTGFPQVSGFWPLTLLTVSTHCPGVINDGWQSRRFCRWAVLVAGSFLSFCRRIFGLLLLHCWAGSWQHDLFRPGGVTLRRLVVCFSSHACSW				NA	NA	NA	NA	NA
D1-29_02189	531			hypothetical protein	ATGAAAACGCATGATCCATTTGCACCAACATCCGGGATCGAATCCTTCGAAGTCATCAGCGAATCCTTCGAGGATGGCCAGGTTCTTCCGAAATCCCAACGCAGCGCCGTCCTGGGAGCCGGCGGGCGGGACGAATCGCCCCAGCTCACCTGGTCGGGCGCGCCCGAGGGAACCAGGAGCTACGCAGTCACCGTCTTCGACCCCGATGCCCCAGGCTCGGGCTACTGGCATTGGGCTGTGGTGAACATCCCGGCAGACGTCACCTCCCTCCCGGCCGGTGCAGGTTCCCGGGACAACTCCCGGTTACCGTCTGGTGCAGTGCAATTGAAGAACGATGCCGGATTTGTCGGTTTCGTGGGAGCTGCCCCGCCTCCCGGGCACGGTCAGCACCGGTATTTGCTGGTGGTCCATGCCATGGATGTTGAGCGGCTGGACCTGCGCACTGATGACACCCCCGCCGCCCTGCAATCCGCGCTCTCCACCCACACCTTGGGCCGGGCGAGGCTGACGGGAACCTTCGAACGCCGCTAG	MKTHDPFAPTSGIESFEVISESFEDGQVLPKSQRSAVLGAGGRDESPQLTWSGAPEGTRSYAVTVFDPDAPGSGYWHWAVVNIPADVTSLPAGAGSRDNSRLPSGAVQLKNDAGFVGFVGAAPPPGHGQHRYLLVVHAMDVERLDLRTDDTPAALQSALSTHTLGRARLTGTFERR				NA	NA	NA	NA	NA
D1-29_02190	369	doc	COG3654	Toxin Doc	GTGACCGAGTACCTCGAGATTGAGGACGCTTTGCAGGTCGTTGACCGGTTTGGATTCCATGTCCGTGATATCGGGCTTCTGGGCTCGGCACTGGCGAGGCCGGCAACCACTGTGATGGGGGTGGAAGCCTATCCGCAGTTAGCGACGAAGGCAGCGGCGCTCATGGAGTCGGTGGCGCGGTTTCACCCCCTGATCGACGGAAATAAACGCACGGCCTGGACGCTGATGGTTCTGATGCTCTGGATCAACGGCTACCGGCATGACTTCAGCACTGACGAGGCCTTCAATCTCGTCGTGGGTGTGGCAGCCGGCGACATCACACTGCAGGACAGCGCGGGGACGATTGCGACCCACCTCGTCAGGCGGTAG	MTEYLEIEDALQVVDRFGFHVRDIGLLGSALARPATTVMGVEAYPQLATKAAALMESVARFHPLIDGNKRTAWTLMVLMLWINGYRHDFSTDEAFNLVVGVAAGDITLQDSAGTIATHLVRR	PGPT0027560_1150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-Doc-Phd_TOXIN-ANTITOXIN_SYSTEM,PGPT0027560-toxin_doc-K07341	NA	NA
D1-29_02191	306			hypothetical protein	ATGTTGAATTGCGGCCTTACCTACATGGTGAGCACGTACTCCTTGGCCAGTCCATCCAGGTGGGTGCGAGCAGGCAGTTGGAAATACATCTGGTTCTCGAAGAATGGAAATGAGCAACTTTTCGACCTCCACAATGACCCCGAGGAGACCCGGAATCTCAGTAAAGATCCCGGTTGCCGGACTCAGCTCCTTAAACTTGGAGCTAACCTCATCGCCGAACTCTCCGGTCGCCCGGAGGAGTTCGTGCAGTCGGGCCAGCTAGTACCTGGACAGGCCGTCGTTACGCTGCTTCCAAAAGGATCGTAG	MLNCGLTYMVSTYSLASPSRWVRAGSWKYIWFSKNGNEQLFDLHNDPEETRNLSKDPGCRTQLLKLGANLIAELSGRPEEFVQSGQLVPGQAVVTLLPKGS	PGPT0006785_110	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-ORGANOPHOSPHATE_DEGRADTION,PGPT0006785-pehA-K01130	NA	NA
D1-29_02192	261			hypothetical protein	ATGATCGATATGCGTGACGTTGCCGTAATATCCGGCACGGGCTCGGTTCAAAGTCTGCTGATCGTATGTAGCAACGTGGGCGTCTGGCCGATGATCCGTTCCATAGCCCTCAAGGTCGGCAACCCAGTCGCCCACGGGTGGTTCATGGTCAGGAAGGTTCAAATACTGTTCGAAGGCCCATACTGGCGGATTGTATGGCGGGTGCGGGCGGTGGAAGGAGAGGTACAGGAAGAATGGAACGGTAGGGTCTCGGCGGTATAA	MIDMRDVAVISGTGSVQSLLIVCSNVGVWPMIRSIALKVGNPVAHGWFMVRKVQILFEGPYWRIVWRVRAVEGEVQEEWNGRVSAV				NA	NA	NA	NA	NA
D1-29_02193	381		COG3119	Arylsulfatase	ATGACTCAAGCTAGTTCGACGGCGGGCACTCCTAATGTTGTTCTCATCTGTACCGATCAATGGAGAGGAGACTGTCTCTCCATCAACGGCCATCCAATTGTTAGGACGCCTTATCTCGACGCAATTGCCGCAGAGGGTGCAAATTTCTCGAATGCTTATTCATCCACGCCGACCTGTGTTCCTGCCCGCATGGCCCTGATGACCGGCCTTACCGCCCGTTCCCACAGAAGGGTTGGCTATACCGACGGCGTTGATTTCGACGTATCCGTTACACTCCCGGGAGAGTTCACGAAGGCGGGCTATCAAACACAGGCGATCGGGAAAATGCATTACTATCCTGAACGCGGACGCATTGGGTTTAACGACGTTAATTCTTCATGA	MTQASSTAGTPNVVLICTDQWRGDCLSINGHPIVRTPYLDAIAAEGANFSNAYSSTPTCVPARMALMTGLTARSHRRVGYTDGVDFDVSVTLPGEFTKAGYQTQAIGKMHYYPERGRIGFNDVNSS	PGPT0006785_45	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-ORGANOPHOSPHATE_DEGRADTION,PGPT0006785-pehA-K01130	NA	NA
D1-29_02194	2436		COG3250	Beta-galactosidase BoGH2A	ATGAAACGCATTTCGTTCAACCGTGACTGGCAGTTCGGCCCACTCGTCTCGGTTCACGAAGCAATCCGAGTAGCACCGCCCAGCGACAACCTCGTCAACCTCCCCCACGATGCAATGCTTGCCAGCGGACGCACACCGGACGGGACAGGCGGGGCACCTAACGGTTACTTTGACGGAGGATCCTGGACATACGAAAAGCAGTTTGATGCCCCTGCTGACTGGGCGACCAAACGCATCACTTTCGAATTCGAAGGCGTCTACCGGGACCCCATGGTCTTCCTCAACGGAGCCTTCGCTGGCCAATGGAGCAACGGCTACTCCTCGTTCCACATCGAAGCTGATCCCTTCCTGAACTACGGTGAAACCAACACCATCCGCGTTGACGCACGTTCCCACCAAGACTCACGCTGGTACCCAGGCGGGGGGCTCTACCGCCCGGTACACCTCCTTATCGGTGAACTCGTCCACATAACGCCCACTGGACTGCGGGTATCCACCCCGGACGTCGATGAAGAACTCGCCACCGTCGTGGTCAGATCAACAATCGCAAATAAAGGGGCAACCACCCGAACCGTGGATGTCCTGCTCGAAATCCGTGACGACGCAGGCGCGGAAGTGGTCTCAGAAAGATCCCGTGTCACACTCCTGCCCAACGAAACACTGACTGCACATCAGCGGACATACGTGCCGCACCCGTCCCTGTGGAGCCCGGATAACCCCGCTCTGTACCACGCAACTGTTACCCTCCAGGACGAGAACGGACCCATCGACCGTGAATCAACGACGTTCGGCATCCGGAGCCTCGCAGTCGACCCCATCCGCGGGCTCCGCCTGAACGGAGAAAGCATCAAGCTTCGAGGCGCTGCGGTCCACCACGATCACGGCGTGCTCGGCGCAACGGAATTCCCCGACGCCGCAAGGCGGCGGGTTAGGCGGATGAAGGACGCGGGCTTCAATGCAATACGCTCAGCACACAACCCCATCAGTGTGGCGATGCTCGACGCATGTGACCGGCTGGGCATGCTGGTATTCGACGAGGCGTTCGACATGTGGTCGGTGTCCAAATCCACAGACGACTATTCCCGCTCGTTCCCGCAGTGGTGGGAGCGCGATATCGATTCGCTGGTAGCGAAGGACTTCAATCATCCGAGCGTCATCATGTATTCCATCGGAAACGAAATCATCGAAGCAGGAACCCGGCACGGCGCCCGGTGGGGTCGGTTGCTTGCAGAGCGCATCCGTGAGCAGGACCCAACCCGGATCGTGACGCACGCTCTCCAGGGTATGTACATGGCCCGGGACAAGGTCCCGGAACTCCGCGCCGAGGTAAACCAGGACAGCTCCACCATCCGCGGGCTCAACGACTACCTGGGCCAGGTAACCCACCTCATGAACCGGGTCATGGCCTCGGAGCTTCTCGGAGAGCGGCTGCTGGAGCCGGCATCCATGCTCGACATCGTTGGTCTAAATTACGGAGACGCACGCTATGAAGTCGACGCGGACGAATTCCCCAACCGCATCTACTTCAACTCGGAATCATTTCCAACACACATTGACCGCCTGTGGAAGTTGATTCTTGAGAAAAACAACGTGCTCGGTGATTTCACCTGGACCGGTTGGGACTTTCTGGGTGAGGTCGGTACGGGCCGGCACGTTTACCCCGAAGACTCCCAGGAACACCGAGCCCCCTACCCGTGGATCGCCGCCGTATGCGGAGACATCGACCTCATCGGTCAACGCAAGCCCATCTCCTACTATCGGCAAATCGTCTTTGGACTGACCGACGTCCCCTACGTCGCCGTACGAAAACCCCGCGATGACGGATACGTGATCGAACCCAAAGCCTGGACCTGGTCAGACGTTGCACCGTCCTGGACCTGGGACGTCGATCCAGGAACTCCCATGCACATCGAAGCCTATGCCTCCGGTGATGAAGTGCAGTTCCTCCTCAACGGAGCAGTCGTAGCCAGCGAAAAGGTCGGAGTGAACCGCGATTACCTCGTACAGGCGACGCTCCCATTCGAACCCGGGGTCCTCGAAGTCGTTTCATACCGCAATGGCAACGAATTGGGTCGCCGGGAGCTACAAACTGCCAGCAAGCCGGCCAAACTAAGGCTTTCGGCCGACCGGACCTCTATCACCGCCAACACGGTCGACCTCCTGCATCTGGAAATCACGCTCGTGGACGAGGAAAACCGCCCCAATCCGAACACAGACGTCGAAGTAGCCGTGACCGTCCACGGGCCCGCGACACTGCAAGGATTAGGATCAGCCAACCCTGCAGCCCCCTGCGGCTACCTTGGAACTGTCACATCCACCTACCACGGCCAAGCCCTCGCGGTCCTTCGCGCCGGAGCCCAGCCAGGTCCCGTTACCATCACTGTCAGAGCCGACGGGTATCCGGACGCGACGTTAGTAACCGCACAGGAGACATAG	MKRISFNRDWQFGPLVSVHEAIRVAPPSDNLVNLPHDAMLASGRTPDGTGGAPNGYFDGGSWTYEKQFDAPADWATKRITFEFEGVYRDPMVFLNGAFAGQWSNGYSSFHIEADPFLNYGETNTIRVDARSHQDSRWYPGGGLYRPVHLLIGELVHITPTGLRVSTPDVDEELATVVVRSTIANKGATTRTVDVLLEIRDDAGAEVVSERSRVTLLPNETLTAHQRTYVPHPSLWSPDNPALYHATVTLQDENGPIDRESTTFGIRSLAVDPIRGLRLNGESIKLRGAAVHHDHGVLGATEFPDAARRRVRRMKDAGFNAIRSAHNPISVAMLDACDRLGMLVFDEAFDMWSVSKSTDDYSRSFPQWWERDIDSLVAKDFNHPSVIMYSIGNEIIEAGTRHGARWGRLLAERIREQDPTRIVTHALQGMYMARDKVPELRAEVNQDSSTIRGLNDYLGQVTHLMNRVMASELLGERLLEPASMLDIVGLNYGDARYEVDADEFPNRIYFNSESFPTHIDRLWKLILEKNNVLGDFTWTGWDFLGEVGTGRHVYPEDSQEHRAPYPWIAAVCGDIDLIGQRKPISYYRQIVFGLTDVPYVAVRKPRDDGYVIEPKAWTWSDVAPSWTWDVDPGTPMHIEAYASGDEVQFLLNGAVVASEKVGVNRDYLVQATLPFEPGVLEVVSYRNGNELGRRELQTASKPAKLRLSADRTSITANTVDLLHLEITLVDEENRPNPNTDVEVAVTVHGPATLQGLGSANPAAPCGYLGTVTSTYHGQALAVLRAGAQPGPVTITVRADGYPDATLVTAQET	PGPT0017810_2763	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017810-lacZ-K01190	NA	NA
D1-29_02195	921	araQ_7	COG0395	L-arabinose transport system permease protein AraQ	ATGACTACCGCTCCCCCGCGCACTCACGCTGCAGCGCGGCCCCCGGTGCGACCCAAGCGGCCCAGCCGTATGCCGTGGCGGCAACAGCGCGTCCCTTTCTCGGCCCGCGCGTTCTCCTTCATTGTGATGGGCGCGTTCGCGTTCTATAGCCTGGTGCCCCTCTGGTGGCTCGTCGTCACAGCAACAAAGAACAGCCAGGACCTGTTCACCACCAACCCCATGTGGTTCGCCGATTTCAGCCTGTTGGCCAACATCGGAGATGTCTTCGGACAGCAGGACGGTATCTTCGCCGTATGGACCGGAAACACCATCATTTACTGTGTTGGCGGCGCCGCCATCAGCACCCTCCTCGCCGCAATGGCAGGCTACGCCCTGGGCAAATACGAGTTCCCGGGCCGAAAAATCGTTTCCAACGTCATCCTGGCCGCCGTGCTCGTACCCGCGATCCTCTTCGCACTCCCCCTGTACCTGATGTTCAGCGAGATAGAGCTGGTCAACACCTACTGGTCAGTTCTCCTGCCCAGCCTCGTAAGCCCCTTCGGAGTGTTCCTGGCATCCACGTACGCAGCACAATCCGTTCCCACCGAGCTCCTCGAAGCAGCCCGCATCGATGGTGCCAGCGAAGCGCGGATCTTCTGGCGGATCGGGTTCCCCATCATGACGCCGGCCCTGGTCACGGTGTTCCTGTACCAGTTTGTCGCGATCTGGAGCAACTACCTTCTGCCCGTGCTCATGCTCAACAACGATACTCTTCAGCCACTGTCAGTTGGCCTGGTCAACTGGCGCGAGCGTCTGAATGAAGGCATTCCATACCACGTGACAATCACAGGATCCCTCCTGGCCGTTATTCCATTGCTGATCGCGTTCTCCATTCTTCAGCGCTACTGGCGCTCCGACCTGACCGCCGGCGGCGTAAAGTAA	MTTAPPRTHAAARPPVRPKRPSRMPWRQQRVPFSARAFSFIVMGAFAFYSLVPLWWLVVTATKNSQDLFTTNPMWFADFSLLANIGDVFGQQDGIFAVWTGNTIIYCVGGAAISTLLAAMAGYALGKYEFPGRKIVSNVILAAVLVPAILFALPLYLMFSEIELVNTYWSVLLPSLVSPFGVFLASTYAAQSVPTELLEAARIDGASEARIFWRIGFPIMTPALVTVFLYQFVAIWSNYLLPVLMLNNDTLQPLSVGLVNWRERLNEGIPYHVTITGSLLAVIPLLIAFSILQRYWRSDLTAGGVK	PGPT0016540_2700	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
D1-29_02196	960	araP_2	COG1175	L-arabinose transport system permease protein AraP	ATGAAGGCACCCACTCTGTCTGCACAGCAACCAGTGCAACCAGGAACGACAACCACCAAGCCCCGCAAATCGCGGCTCAGCCGGAAGACAAAGCGGGCAGCGCTGCTCTTCCTGGTTCCGTTCATGATCATGTTTCTTTCCATGAAGGTGGCCCCCATCTTCTACGCGATCTACCAAAGCTTTTTCAAGACGGAACGCAGCGGCCTGGGCGTGGGAAGTGCCAAGAGTGTCTTCTCGGGCGTCGAGAACTATCTCGTGGCGCTGCAGAACAGCGACTTCATTGCCTCCTTCGGACGAGTGCTCCTGATCGGGATTGTGCAGGTCCCGCTTATGCTGACTATTGCTCTTTTCCTGGCGCTCCTTCTGGACTCCGCATTCTCACCCTTCAAACGCGGCTTCCGACTGATTTACTTCCTGCCTTACGCCTTCCCCGGGGTCATCGCAGCAATCATGTGGTCCTTCCTTTACCAACCTCAAATCGGGCCCTTCACTGGATGGCTGAGCGCCATCGGTATCGACGTCAATTTTCTTGCCAACAACACGGTCTTTTTTTCAATCGGCAACATGATGACGTGGGGCTATACGGGCTTCAACATGTTGGTCATCTACTCAGCCCTTCAGGCAGTACCCGAAGAACTCACTGAAGCGGCTAGCCTCGACGGCGCCGGATGGTGGGCCACAAACTGGCACATCAAGGTCCCGGCAGTGCGGCCAGCCATCATCCTCACCGCAGTGTTCTCAATCATCGGAACCGTGCAGCTCTACAACGACCCTGCAATTCTGGCCAAGGTGGCGCCGGGCATTTCCTCCACGTTCACCCCAATCATGGCCGCCCAGCAACAAGCCGCAGCGAACAACTACAACCTGGCCGCCGCGCAATCGGTCATCCTGGCCCTCGTTGCCCTGGTCCTGTCGTTCGGGTTCCTCAAGTTCACTCAGCGAAAGGGTGCCAACTCATGA	MKAPTLSAQQPVQPGTTTTKPRKSRLSRKTKRAALLFLVPFMIMFLSMKVAPIFYAIYQSFFKTERSGLGVGSAKSVFSGVENYLVALQNSDFIASFGRVLLIGIVQVPLMLTIALFLALLLDSAFSPFKRGFRLIYFLPYAFPGVIAAIMWSFLYQPQIGPFTGWLSAIGIDVNFLANNTVFFSIGNMMTWGYTGFNMLVIYSALQAVPEELTEAASLDGAGWWATNWHIKVPAVRPAIILTAVFSIIGTVQLYNDPAILAKVAPGISSTFTPIMAAQQQAAANNYNLAAAQSVILALVALVLSFGFLKFTQRKGANS	PGPT0016535_985	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
D1-29_02197	1320			hypothetical protein	ATGGCACCTCGTTGGTTTACAAGCACGGCGGCAGGCGTCGCCCTTTTGAGTGCAGCCGCGCTAACCGGTTGTTCGAACAGCAGCCCTAGCCCGGCCGAGACCGGCCCTGCCGGGGAGCCAGTGACCGTCGAGTTCTGGGGGGCTGCAGTTGGCCAGGAGAAGGCAGTGGATGTCTTCAACGCGGCGCATAAAGATAAAAATGTTCAAATTAAGTACACCCAGATCTCTGCCGGATCTGCCGGCGGCTACTCCAAGATGCTGAACGCTGTAAATGCGGGGAATGCGCCATGCCTGGGCCAGATCAGCTACGACACCGTCCCCAGCTTTGCGGCATCGGGTTCCCTTGAGGACATTACCGAGCATGCGCAGGGCAGCAAAGACCAGTACTCAGCCGCGGCCTGGCAGCTATCCAGCTTGGGGGGAAACGTATACGGCATCCCGGGGGACCTCGGACCAATGGCGCTGTACTACCGCGCCGACCTGTTTGAGCAGTACGGTATCACGCCACCTAAAACCTGGGATGAGTACCGCGCTACCGCCAAAACCCTGAAGGAGAAGGATCCTGCCGCCTTCATGGGGACCTTCCCGTTGAGCACGTACGACCTCGGCGCGTTGTCACACCAAGCCAAAGGCCAGTGGTTTGGCACCGAAAATGACGCTTGGAAGGTGTCCATCAACGACCAGCCCTCGAAGCAGGTCGCTGACTACTGGCAGGGTCTGCTGGATGAAAAGCTTGTTGTTCCCGAACCGGCCTTTGCTCAGGCCTGGTACACCAACCTCCAGAATGGACAGATCGTTTCCTATGTTGGTGCTGCCTGGAGCGGTGCACTGCTTGAGAAGAACGCGCCGGGCCTCAAGGGCAAAATGGCCGTTGCTGAGCTCCCCCAGTGGAAGGAAGGCGAATATGTCTCGGGTAACCGCGGCGGTGGGGCCTACTCTGTTCTAAAGGGGTGCAAGAACCCGAAGGAGGCCACCGAAGCCGCAGTGTGGCTGACCACCAACGCCGACAGCGTGACCAGCCTGATCAAAGAGACGGGCATTTACCCCGCTGCCGTCAGTGGCCAGAAACTGCCTGCGCTTACAGCTGGATCGGACTTCTTCATTAACGCCGACAAGACTGCCGAGATCTTCACCTCGGCCGCGCAGAACACACCCGATAAGTGGGTGTGGGGTCCAAACATGACCAGCGTTCAGCCCAAGATGAATGACGGGCTAAAGGTTATCGGATCAGGACAGGGAACGGTCTCTGAACTGCTCGACACCGTCCAGGAATCCACGATCTCCGAACTGAAAAGCCAGGGTTTGAGCGTCAAGGAGTAA	MAPRWFTSTAAGVALLSAAALTGCSNSSPSPAETGPAGEPVTVEFWGAAVGQEKAVDVFNAAHKDKNVQIKYTQISAGSAGGYSKMLNAVNAGNAPCLGQISYDTVPSFAASGSLEDITEHAQGSKDQYSAAAWQLSSLGGNVYGIPGDLGPMALYYRADLFEQYGITPPKTWDEYRATAKTLKEKDPAAFMGTFPLSTYDLGALSHQAKGQWFGTENDAWKVSINDQPSKQVADYWQGLLDEKLVVPEPAFAQAWYTNLQNGQIVSYVGAAWSGALLEKNAPGLKGKMAVAELPQWKEGEYVSGNRGGGAYSVLKGCKNPKEATEAAVWLTTNADSVTSLIKETGIYPAAVSGQKLPALTAGSDFFINADKTAEIFTSAAQNTPDKWVWGPNMTSVQPKMNDGLKVIGSGQGTVSELLDTVQESTISELKSQGLSVKE	PGPT0016545_8141	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
D1-29_02198	1176	aruH	COG0436	Arginine--pyruvate transaminase AruH	ATGACTTCCACACCGGCCCTCGTTGACTACAGCCCTGACAGCTCAGACTCAGCCCAGCGCATAGTCCTGGCCTCCCGGCGGCCCGCATCCTTGGGATCGACACCCGATGGCGCCATTGCACTGTCCATGGGAGAACCGGACTCCGGGACACCGAATCCCATCGTCGAGGCCGCGGTTGAGGCCTTGCGTAGCGGCAGGACACGCTACACAAACCTCAGTGGAGCACCAGAACTACGCCGCTCCCTGGCCGAGAAACTGACACGTACGTCCGGTCAGAATCTCAGCCCGGAACAGCTTGTAGTCACTCACGGAGGAAGTGCAGGCCTGGCCGCCACGATACTTGCCCTTATTAATCCCGGAGACAAGGTTCTGATTCCGGAACCGACGTATTCCCTGTATGCAGACCACCTGGCCATGGTTGGTGCCGAGGGAATCTGGGTTGCTAACCGTGCAGACGGAACGTTGGATCTTGAGCGGCTGGCCCGCGAAGCGGCGGATAGCCGCATGATTATTCTCTGCAATCCAGGTAACCCAACAGGCCGGGTCTACAGCGAGGACGAACTCCGGCAACTGGCAGTAATTCTGGAGGCCCACCCTCATCTTCTGCTTCTTTCCGACGAGGCCTACGCCGACATTGTCTTTGATGGCATGAAGTTTCTATCCGCTTTGGAACTTCCAAATGTCGCAGATCAGGTCATCTGCTGCAGCACGTTTTCCAAGACCTACGCCATGACCGGGTGGCGGCTTGGTTACGTAGTCGCCTCCCTCAAACTGTCAGAGAAGATCAACCTGCTCCATCGAACGCTCAACGGCTCCATCAATACCTTCGTGCAGGACGCCGCCCTCGTCGCTTTGGAAACACCCGCTGAACACCTCCGAGCCATGGCCGAGTCATACCAGGCACGCCGCGACATCGTCGTCGACAAGCTTTCCGGCATCCCCGGACTTAGCATGCTCCCGCCCCAAGGCGCTTTCTATGCGTTCGTCAAAATCGACTCAGGCCTCACCTCGGATGAGATGACCGCCCGGTTCGCAGCGGCCGGAGTAATTGTCAGGTCCGGCAGCGAGTTCGGGCCATCCGGGGAAGGACACGTGCGCCTCTCATTCGCCACCGACCCCGGAAACCTTGAACTCGGCTTGGACCGGTTCATTGACGCAACGCGGAACCTCATGTGA	MTSTPALVDYSPDSSDSAQRIVLASRRPASLGSTPDGAIALSMGEPDSGTPNPIVEAAVEALRSGRTRYTNLSGAPELRRSLAEKLTRTSGQNLSPEQLVVTHGGSAGLAATILALINPGDKVLIPEPTYSLYADHLAMVGAEGIWVANRADGTLDLERLAREAADSRMIILCNPGNPTGRVYSEDELRQLAVILEAHPHLLLLSDEAYADIVFDGMKFLSALELPNVADQVICCSTFSKTYAMTGWRLGYVVASLKLSEKINLLHRTLNGSINTFVQDAALVALETPAEHLRAMAESYQARRDIVVDKLSGIPGLSMLPPQGAFYAFVKIDSGLTSDEMTARFAAAGVIVRSGSEFGPSGEGHVRLSFATDPGNLELGLDRFIDATRNLM	PGPT0020110_3910	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
D1-29_02199	681			hypothetical protein	GTGACCGAGGAACTACCCGGCTGTCAACCTCTCAGCACCAGAAGTACATCTGCACACGCCGCGGACCGTACAGGGAAGACCACTCCGTTGCGCCGTGATACGAAAAGGAACCTGGTCCGGCTGCTTCGTGCAGTCTCGGAAGAAGTCCAGGAAAGCCCCGGCAACTTGTCGTTACAGGGAGTTGCTGCCAGGGCTGAAGTAGGTGTGGCCACTGCGTACCGCTACTTTTCGTCACTGGATGAGCTGCTCGAGGCTTACACCATCAACATCACCGAAGAACTCCGGGACTTCGCCCGGCAGTGCCCCCTGTCCGGGAGGGACCTGTACAACGCCGTGCTGTCCCGCTGGATCACCCTGGTACTCGAACACGGCAAAGTCATGGTCCAGCTGCGTTCCCGCTCCGGATACCTACATCGCCTCGACCAAGGCGACCCCGTCATAGCAACCTCCCGCGACATCTGGGAACAACCCCTGAGAGGACTCCTCCAGGATCTCAGCCTCCCCGACAGCCTGCTCAGGCACGCCCTCTTCCTGAACAACGCACTTTCAGACCCCCGCGAAATCCTCGAACTCTCTTCAGCCGACGCCATGACATCCAACGACATAGCCTCGGTCCTGGCAGGAGCCGTCGCCGGCGCACTTCGGAAAGATCCCCGTTCTACGGTGGCTTTCCGGCAATGA	MTEELPGCQPLSTRSTSAHAADRTGKTTPLRRDTKRNLVRLLRAVSEEVQESPGNLSLQGVAARAEVGVATAYRYFSSLDELLEAYTINITEELRDFARQCPLSGRDLYNAVLSRWITLVLEHGKVMVQLRSRSGYLHRLDQGDPVIATSRDIWEQPLRGLLQDLSLPDSLLRHALFLNNALSDPREILELSSADAMTSNDIASVLAGAVAGALRKDPRSTVAFRQ				NA	NA	NA	NA	NA
D1-29_02200	573			hypothetical protein	ATGAAAAGCCTCATGCTGGCAGTCGGTGAGGAGATCGCTGAGAACCCGGGCAACGTGACGATGCAAAGCGCGGCGGCCCGTGCGGGCATCGGGACGGCCACCGCGTACCGCTACTTTTCGTCACTGGACGAGCTGCTCGAGGCTTACACCATCAACATCACCGAAGAACTCCGGGACTTCGCCCGGCAGTGCCCCCTGTCCGGGAGGGACCTGTACAACGCCGTGCTGTCCCGCTGGATCACCCTGGTACTCGAACACGGCAAAGTCATGGTCCAGCTGCGTTCCCGCTCCGGATACCTACATCGCCTCGACCAAGGCGACCCCGTCATAGCAACCTCCCGCGACATCTGGGAACAACCCCTGAAGGGACTCCTCCAGGATCTCAGCCTCCCCGACAGCCTGCTCAGGCACGCCCTCTTCCTGAACAACGCACTCTCAGACCCCCGCGAAATCCTCGACTTGAGCGAAACAGAGAAGCTGAAGCCGGAGCAGATCGCTGGCCAATTGCTGGAAGCACTTTCCGGCTCTCTTCATGGATGGGCGGACGCTGCGGGTACCAGGGCCCCTGTATAG	MKSLMLAVGEEIAENPGNVTMQSAAARAGIGTATAYRYFSSLDELLEAYTINITEELRDFARQCPLSGRDLYNAVLSRWITLVLEHGKVMVQLRSRSGYLHRLDQGDPVIATSRDIWEQPLKGLLQDLSLPDSLLRHALFLNNALSDPREILDLSETEKLKPEQIAGQLLEALSGSLHGWADAAGTRAPV				NA	NA	NA	NA	NA
D1-29_02201	603			hypothetical protein	ATGACTTCAACAAGCGAGGTTGGATCTTCGTCGGTGACAGTGTCGGTCACGAGAAAAGTAGACCCTGCGCGCACCGATGAGGTGACTGCTTGGGTCCAGTCCGGAGTAAGTCTTGCTAGCCGCTGGCCAGGCTTTCTCGGATCTGGATGGATACGGTCATCCAGGCGAAGCGATGAGTGGTACATGCTTTACCGGTTCGCAGACCCCTTTGCCCTGAGCGCCTGGGAAAGTTCAAGCACACGCAAAGGCTGGCTCGATCAGGGAAACGGGCTGGTGGAGGAACGTCGCGTCGAAAAACTGACCGGGATCGAGGGCTGGTTTGATTCCACTCAATCCCGTGAATTGCTCTCGTCTCCCCCACCTCGGCCGGCCCGATGGAAACAGGCGGTGAGCGTCTGGCTCGCATTTTTCCCTGTCAGTCTGGTTTTTGCTCTTCTCATGGAAGCCGTATATCCCGCATGGGGTGGTCTTTGGACAACTGCAAGAGTCTTTGTAACCACCACCGTACTTACTCCGATCATGACAGTATGGGTCCTGCCTGTGGTCACCCGGCTCCTCCGATCGTGGCTGATCCCGGACAATGCTTCTGTGTCGAAACAATAA	MTSTSEVGSSSVTVSVTRKVDPARTDEVTAWVQSGVSLASRWPGFLGSGWIRSSRRSDEWYMLYRFADPFALSAWESSSTRKGWLDQGNGLVEERRVEKLTGIEGWFDSTQSRELLSSPPPRPARWKQAVSVWLAFFPVSLVFALLMEAVYPAWGGLWTTARVFVTTTVLTPIMTVWVLPVVTRLLRSWLIPDNASVSKQ				NA	NA	NA	NA	NA
D1-29_02202	660	ligK_1	COG0684	4-carboxy-4-hydroxy-2-oxoadipate aldolase	ATGTTCATCGACGCACCCACGAGCTCATTGACGGTTGGTCGCCGTGCAGGGGCTTCCTCCCGAGAGGTAGTCAAAAGTCTCCGGCAGTACGGAACAGCCAGCATTGGTGATGCCATGGACCGTCTCAATCTCATGGATTCTGGCATTGCTACCCAATGGACTGCCGGCCGGTGTGTCGGACCAGCGCTGACCGTGTTGACACGCGAGGGCGACAACCTGGCCATCCATCGTGCCCTTGATGACGCGGAACCTGGAGACGTCTTGGTCATCAACGCATTGGGCGGGACAACGCGGGCAGTGTTCGGAGATCTCCTCGCCGAGATCTGCCTTGCTGCAGGCATTGTCGGCGTCATCATCGACGGACTGGCCAGGGACCGGGCCGCCATAGGGGAAATGGGGCTGCCATTGTGGGCGCGGGGCGTATCCCCTGCCGGCCCAGCGAAGTATGGACCAGGAGCGGTAAATGTTCCTGTGGCTTGCGGAGGCGTTGTAGTCAATCCCGGCGATCTTGTCTCAGCGGACGACGACGGAGTCGCAGTCCTCCCAGCTGAAAGCTCCGGGATAGTTCTGAACAGGCTTAGGGACATCCACGACTCCGAACGCAAACTCCGCGCACGGATCCAGAACTCTGTCAGAAGTTCCCCTGCGGCGGCTCACTAA	MFIDAPTSSLTVGRRAGASSREVVKSLRQYGTASIGDAMDRLNLMDSGIATQWTAGRCVGPALTVLTREGDNLAIHRALDDAEPGDVLVINALGGTTRAVFGDLLAEICLAAGIVGVIIDGLARDRAAIGEMGLPLWARGVSPAGPAKYGPGAVNVPVACGGVVVNPGDLVSADDDGVAVLPAESSGIVLNRLRDIHDSERKLRARIQNSVRSSPAAAH	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
D1-29_02203	1101			hypothetical protein	ATGAGGGAGTTGATACTGGTGAGGCCAACCCCGCCCCGGTCGGGAATCGAGTACTACAGTGGATGTATGGCTCCCGGCCGTAATCCGCTTGACGACCTGCGCGAAACCATCGGCCATCTGGCCGATCAGCTCAAGCTGCCCGGTTCGGAGCGCGTCGATGACCTGGTCGGCGATCTCATCGGTGCGAGGCCCGGGCCGGCCCGGCCGCTGTCCGAGGTGCAGGCTGAACTCGACGCTCTGGTAGGACTGGAGACCGTGAAGGAACAGGTGCGGGCCCTCGTCGCACTCCTCCAGGTTCAGGCCCGCCGTAAGGCGCACGGCCTGCCTGAGGTGGCCACGTCACAGCATCTGGTGTTCCTCGGAAATCCGGGCACGGGCAAGACCACCGTGGCGCGGCTCCTGGCCGAAATGTACCGCGCGGTCGGTCTGCTGCAGAAAGGCCACCTGGTCGAGGTCGACCGTTCGGGCCTGGTGGGGCAGTACGTCGGAGCGACCGCCATCAAGACGGACCGGGTGATCCGGCGTGCGCTGGACGGCGTCCTGTTCATCGACGAGGCTTACGCGCTGGCGCCGGAGGACGGACGGATGGACTTCGGCCCCGAGGCGATCGAGGTCCTGCTCAAGCGGATGGAGGACCACCGCCACCGCCTGGTCGTGATCGTGGCCGGGTACCCGCGGCTGATGGAGTCCTTCTTGCTCTCGAACCCCGGACTGCGCTCCCGGTTCGCCCGCGAGATCACGTTCCCCGACTACTCCGTCGACGCACTCCAGGCGATCTTCCACCAGATGCTGGCCCAGCACGAGTACACACTGGAGCCGGGTGCGGACCAGACGCTGCGCCGCATCTTTACCGGGCTCCACGCGGGCGAGGACTCCGGCAACGCACGGTTCGCCCGCACGCTGTTCGAGCAGGCGCTCAACCGCCAGGCGCTGCGGCTGTCGCTCGACGAGGACCAAAGTCTGGACGCGCTCGATCGTGAGGCCGTCATGACGCTCACCGCGGACGACATCGTCGAGGCCGCGCTGGCCTTGGGCGAGGAGCCGGAGCCGGAACCGACGCCGGAACCGGAGCGGTCACGCTGGTGGCGCTGGCTGGTCTGA	MRELILVRPTPPRSGIEYYSGCMAPGRNPLDDLRETIGHLADQLKLPGSERVDDLVGDLIGARPGPARPLSEVQAELDALVGLETVKEQVRALVALLQVQARRKAHGLPEVATSQHLVFLGNPGTGKTTVARLLAEMYRAVGLLQKGHLVEVDRSGLVGQYVGATAIKTDRVIRRALDGVLFIDEAYALAPEDGRMDFGPEAIEVLLKRMEDHRHRLVVIVAGYPRLMESFLLSNPGLRSRFAREITFPDYSVDALQAIFHQMLAQHEYTLEPGADQTLRRIFTGLHAGEDSGNARFARTLFEQALNRQALRLSLDEDQSLDALDREAVMTLTADDIVEAALALGEEPEPEPTPEPERSRWWRWLV	PGPT0024835_84	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024835-spoVK-K06413	NA	NA
D1-29_02204	921	rhaR_1		HTH-type transcriptional activator RhaR	ATGGGTGATGACGGCCGCGAGGGGGCCGCGGCGCGGCTCGCGGAGAGACTGGTTGGCATGCGCGCCAACCGGGAGGTGATCCCGGCTGACCCGAACCATTCCGTCCGCTGGAATGAGCATGACTATCCAAGTCCGTTGGCCCGGTGGAACTACCATCCTGAATATGAGATCCACCTGATCCGGAAGGGGTCCGGGAAATTCATCGTGGGCGACCATATCGGGACGTTCGAAGCCGGGCATGTTTCACTCGTTGGATCCGGATTGCCGCATGACTGGGTCAGCGACCTGGAACCCGGCGAAGTACTGGAAAAGCGCGACGCGGTCATTCAGTTTGACGGCAACTGGCTTCAGCAGTGCGTTGGCCTCATGCCTGAATTGGATGAGGTCCGGGTTCTTCTTCAGCAATCCTCGCGGGGAATCGAGTTTTTTGGACAAACCGCGCTGAGTGCAGCAGAGGCGATCGAAGCCATGGGCGCCACCAGCGGCCTGGCGCGCCTCCAGCACCTGATCCGGCTCTTTACGGTCCTGGCATGCGCGCCGCCGGAGGACCGGGAATACCTGGCTGATGAATGGTTCCGGCCCCAGCTGGACGGCCAGGCCGCCGCCGTCGTCGATCTTGTCCTTGAGTATGTTTTCAGCAATCACGCCGGAACTGTGAAAATGTCAGACGCCGCCGCGCTGGTAGGTATGCAGGAAGCCTCCTTTTCCAAGTACTTCAAGAGAGCTACAGGCCAGAATTTCAGCGACTTGGTCCGCAAACTCCGAATAACGCACGCCAAGCGTCTGCTCGAGCGCAGCGATAGGCCCATTTCCGACATTTGCTATGAGGTGGGCTTCTCTAACTTGTCCAACTTCAATCGACACTTCCTCAACGATGTCGGGGAAACGCCACGGCAGTTCCGACGGCGCGTACAGGCCTGA	MGDDGREGAAARLAERLVGMRANREVIPADPNHSVRWNEHDYPSPLARWNYHPEYEIHLIRKGSGKFIVGDHIGTFEAGHVSLVGSGLPHDWVSDLEPGEVLEKRDAVIQFDGNWLQQCVGLMPELDEVRVLLQQSSRGIEFFGQTALSAAEAIEAMGATSGLARLQHLIRLFTVLACAPPEDREYLADEWFRPQLDGQAAAVVDLVLEYVFSNHAGTVKMSDAAALVGMQEASFSKYFKRATGQNFSDLVRKLRITHAKRLLERSDRPISDICYEVGFSNLSNFNRHFLNDVGETPRQFRRRVQA				NA	NA	NA	NA	NA
D1-29_02205	1350			hypothetical protein	ATGCGCCCGAAAATCCGCGCTGCCACCCTCACCGCAGGTGCCCTTGCGCTGGCCTTGGCTGCCTCAGCCTGTTCGGGGGCCGGCGGCGGCACCTCAGCAGGAGACCAGAACAGCATCAACGTGCTGATGGTGAACAACCCCCAGATGGAGGACCTGCAGAAGCTGACCGCTGACAACTTCACCAAGGACACCGGCATCAAGGTCAACTACACGATCCTCCCGGAGAACGACGTCCGAGCCAAGATCAGCCAGGAGTTCTCCAGCCAGGCCGGCCAGTACGATGTTGCATCCCTGTCGAACTACGAGATTCCGTTCTATTCTGCGAACAAATGGCTGGCGCCGCTGGACAGTGTGGCGAACGACGCCGAGTTCAACCAGGACGACATTCTTCCGGCCTACACGGCATCCCTGACGGGAGAGGACGGCAAGCTCTACGGCGAACCGTTCTACGGCGAGTCTTCCTTCCTGATGTACCGCAAGGACATCCTGGAAACCAAAGGCCTGACGATGCCGGAGAAGCCCACATGGGATCAGGTGGCCGAGCTGGCAGCCCAGGCTGATGGCGCGGAGCCAGGTATGAAGGGCATTTGCCTCCGGGGCCAGCCGGGCTGGGGCCAGGTCTTCGCCCCGTTGACCACCGTGGTGAACACCTATGGCGGCACATGGTTCGACAAGGACTGGAACGCCCAGGTCAACTCCCCGGAATTCGTCGAAGCCACCAAGTTCTACGTTGATCTGGTGCGGAAGCACGGTGAAGCCGGCGCCGCCCAGGCAGGGTTCACCGAATGCCTGAACAACATGAGCCAGAGCAAGGTGGCCATGTGGTACGACGCCACCTCTGCAGCCGGCGCTCTGGAAGCCGAAGGATCACCTGTGAAGGGAAAGATCGGCTACGCCCAGGCTCCCGTCAAGGAAACGGATTCCTCCGGTTGGCTCTGGACCTGGTCCTGGGGCGTGCAGGCCGCGTCCAAGAAGCAGGATGCTGCCGGCAAGTTCATCGCGTGGGCCAGCTCGAAGAAGTACGAAGAACTGGTGGCGTCGACGCTCGGTTGGGCCAAGGTTCCGTCCGGCAAGCGCATCTCCACCTACGAGAACGCCGAATTCCAGAAGGCAGCCCCGTTCTTCGAAGCAGAACGTTCCGCTATTGAAAACGCGGATCCGAAGAACCCGGGCGTGCAGGAACGGCCGGTTGTGGGCATCCAGTTTGTTGGGATTCCTGAGTTCGCCGACCTTGGCACCACTGTCTCCCAGGGAGTGAGCTCGGCCATCGCCGGACAGGGCACCGTGGAGGACGCGCTGGCCAAGGGCCAGGAAGCCGCTCAGAAAATCGGCGACAAGTACAAGAAGTAA	MRPKIRAATLTAGALALALAASACSGAGGGTSAGDQNSINVLMVNNPQMEDLQKLTADNFTKDTGIKVNYTILPENDVRAKISQEFSSQAGQYDVASLSNYEIPFYSANKWLAPLDSVANDAEFNQDDILPAYTASLTGEDGKLYGEPFYGESSFLMYRKDILETKGLTMPEKPTWDQVAELAAQADGAEPGMKGICLRGQPGWGQVFAPLTTVVNTYGGTWFDKDWNAQVNSPEFVEATKFYVDLVRKHGEAGAAQAGFTECLNNMSQSKVAMWYDATSAAGALEAEGSPVKGKIGYAQAPVKETDSSGWLWTWSWGVQAASKKQDAAGKFIAWASSKKYEELVASTLGWAKVPSGKRISTYENAEFQKAAPFFEAERSAIENADPKNPGVQERPVVGIQFVGIPEFADLGTTVSQGVSSAIAGQGTVEDALAKGQEAAQKIGDKYKK	PGPT0016380_198	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
D1-29_02206	969	sugA_3	COG1175	Trehalose transport system permease protein SugA	ATGACTACCGCAACAGCGCGCGTCGCCCGTCAAGGACACGGCGCCCCCAAACCTTCAAAAGACGCCAGGGCCCGTGAACGCGCCACGGCATGGGCACGGCGTGCGCCGCTGCTGCCGGCCCTGATCTTCCTCATCATCGTCACGCAGCTTCCCTTCGCTGCCACCCTGATCATTTCGTTTATGAACTGGAACAGCCTGCGCCCGGACCAAACGGGGTTCGCCGGTTTGAGCAACTACGTCGAAGTCCTCACCAACGCGGACCTGCGCCAGGCCATCTTCACCACCATCGTCCTCACCGTCTCGGTTGTCTTGGCCAGCCTGCTCATCGGACTGGTCCTGGCATTGCTGCTGGATAAGAAGTTCATCGGCCGCGGACTGGCCCGCACCCTCCTGATCGCCCCGTTCCTGGTGGTTCCGGTGGCTGCAGCCCTGGTGTGGAAGCACGCCCTCCTGAACCCGACATATGGTCTGATCAACGGCATCCTGACCTGGATCTGGTCACTCTTTGGCAGCAGTACGCCGCCGCAGCCGGACCTGCTCTCGCAGGCTCCGCTGACGGCCGTCATCCTTTCCCTGGTCTGGCAGTGGACGCCGTTCATGATGCTCATCCTGCTGGCAGGCCTGCAGTCCCGCCCCATGGACACCGTGGAAGCTGCCCAGATGGACGGCGCAAGCCCTTGGGAAATCTTCCACCATTTGACGCTGCCGCACCTTCGCCAGTACCTGGAACTTGGCGGCCTGCTCGGCGCCATCTACATCGTGCAGAACTTCGACGCCGTCTTCACCCTCACGTCCGGCGGCCTGGGCACAGCGAACCTGCCGTACTCCATCTACCAGACCTTCTACTTCGCCAACGAATACGGCTTGGCCTCAGCTACCGGCGTCGTGGTGGTCATCGGCACGATCATCGTCGCCACCTTCGCGCTCCGCACCGTTTTCTCGCTCTTCAAGAAGGAGGCAGCACGATGA	MTTATARVARQGHGAPKPSKDARARERATAWARRAPLLPALIFLIIVTQLPFAATLIISFMNWNSLRPDQTGFAGLSNYVEVLTNADLRQAIFTTIVLTVSVVLASLLIGLVLALLLDKKFIGRGLARTLLIAPFLVVPVAAALVWKHALLNPTYGLINGILTWIWSLFGSSTPPQPDLLSQAPLTAVILSLVWQWTPFMMLILLAGLQSRPMDTVEAAQMDGASPWEIFHHLTLPHLRQYLELGGLLGAIYIVQNFDAVFTLTSGGLGTANLPYSIYQTFYFANEYGLASATGVVVVIGTIIVATFALRTVFSLFKKEAAR	PGPT0016385_58	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
D1-29_02207	951	dasC_3	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGAGCATCCAAACTCCTGCCGTACCCAGCAAGTCGGGCAATGCCCGTTCCACATCGCCCACCGCCCTGAACACCCGCCCGGGCCGGCGCGGGTTGTTCAAGCCCGGCCGAGGCAAGTCGCGGATGGACCCCACCCGAAACAACACCGCCGCCGGCATGGCCGCCTGGCTGCTGGCCCTGCTGTTCGTTGCCCCGGTCCTGTGGATGGTCCTGACATCCTTCCACTCCGAGACGGATGCCGCCACCAACCCGCCTTCCCTCTTCGCGCCCCTGACCCTCGATGGCTACGAGGAGTTCTTCGGCGCCAGTTCCGGGGTCAGCCCCTGGCCCCCGCTGATCAACTCAGCCACCGCGTCGGTCCTGTCCACACTCCTGGTGCTGGTCCTGGCCATCCCGGCCGCCTACGCGCTTTCGATCAGGCCGATTAAAAAGTGGACAGACGTCATGTTCTTCTTCCTCTCCACCAAAATGCTGCCAATCGTCGCAGCCGTCCTGCCGCTGTTCCTGTTCGCCAAGACCATCGGCGGGCTGGACAACATCTGGTTCCTGATCCTGATGTACACCTCCATGAACCTGCCCATCGCAGTGTGGATGATGCGCTCATTCCTTGCTGAAGTGCCGGTGGAAATGCTTGAGGCATCTCAAATCGACGGAGCCGGCCTCCTTCTGACACTCCGCGCCGTGGTGGCGCCAGTTGCGATGCCCGGCATCGCGGCCACGGCCCTGATCTGCTTCATTTTCAGCTGGAACGAACTGCTCCTGGCCCGGGTCCTCACCGGTGTTATGGCCGGAACTGCGCCGGTCTTCCTGACCGGCTTCGTCTCCAGCCAGGGCCTGTTCCTGGCGAAAGTGTGCGCGGCGGCAGTCGTGATCTCCCTGCCCGTGCTGTTCGCCGGCTTTGCCGCCCAGGACAAACTCGTCCAGGGCCTCTCCCTCGGTGCGGTCAAGTAA	MSIQTPAVPSKSGNARSTSPTALNTRPGRRGLFKPGRGKSRMDPTRNNTAAGMAAWLLALLFVAPVLWMVLTSFHSETDAATNPPSLFAPLTLDGYEEFFGASSGVSPWPPLINSATASVLSTLLVLVLAIPAAYALSIRPIKKWTDVMFFFLSTKMLPIVAAVLPLFLFAKTIGGLDNIWFLILMYTSMNLPIAVWMMRSFLAEVPVEMLEASQIDGAGLLLTLRAVVAPVAMPGIAATALICFIFSWNELLLARVLTGVMAGTAPVFLTGFVSSQGLFLAKVCAAAVVISLPVLFAGFAAQDKLVQGLSLGAVK	PGPT0016390_1	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
D1-29_02208	1062	gutB	COG1063	Sorbitol dehydrogenase	ATGACAACACCTACAACCCAAGCTCCGTCAACCGAAGGGGCAGCGCTTCCGCAGACCATGCGTGCGTCCGTCCTCAAGGGCCAAGGGGATATGGCGCTGGAAACCCTTAACGTTCCCGGGCTGGAAGCCGACCAGGTCCTGGTGGAGGTGGCCGCCGTCGGCGTCTGCGGCAGCGATGTCCACTACTACGAGCACGGCCGCATCGGCGACTACATCGTGGATCATCCGCTGATCCTCGGCCACGAACTCTCCGGCCGGATCGCCGCCGTCGGCAACGCTGTGGACCCTGCCCGCATCGGCCAGCGCGTCGCCGTCGAGCCTCAACGTCCCTGCCGGAAATGCAAGCAGTGCAAAGCCGGCCGGTACAACCTCTGCCCGGACATCGAGTTCTACGCGACTCCGCCGATCGACGGCGCGTTCGCTGAATACGTCACCATCCAATCCGACTTCGCCTACGACATCCCGGACAGCGTCAGTGATGAAGCCGCCGCGCTCATCGAGCCGCTCTCCGTCGGGCTGTGGGCCTGCGAACGGGCCGGAATCCGCCCCGGCAGCCGTGTGCTTATCGCCGGCGCAGGCCCCATCGGCATCATTGCCGCCCAGGCCGCCCGGGCCTTCGGCGCCACGGAAATCTATATTTCCGACATCGCCGAAGACCGCCTCGCGTTCGCCCTGCAGCACGGGGCAACGCATACGCTCAACGCTCGAACCGACAGCGTGGAAGGGCTCGACGTCGACGCGTTCATTGACGCCTCCGGCGCACCCCAAGCTGTCCGTTCAGGCATTGAGGCCGTGGCCCCCGCCGGGAGAGTCATCCTCGTCGGTCTGGGGGCGGACGACGTCGAGCTTCCCGTGTCCTTTATCCAGAACCGGGAAATCTGGCTCTCCGGCGTCTTCCGCTACACGAACACCTGGCCGCTGGCCATTCAGCTGCTGGCAGACGGCAAGGTGGACCTGGACGTCCTGGTCACCGGCAAGTTCACTCTTGCCGAATCAGAAGAAGCGCTCAAAGCGGGCAAACAGGCCGGCCAGCTCAAGGCTGTCGTCTACCCGGGCCGCTGA	MTTPTTQAPSTEGAALPQTMRASVLKGQGDMALETLNVPGLEADQVLVEVAAVGVCGSDVHYYEHGRIGDYIVDHPLILGHELSGRIAAVGNAVDPARIGQRVAVEPQRPCRKCKQCKAGRYNLCPDIEFYATPPIDGAFAEYVTIQSDFAYDIPDSVSDEAAALIEPLSVGLWACERAGIRPGSRVLIAGAGPIGIIAAQAARAFGATEIYISDIAEDRLAFALQHGATHTLNARTDSVEGLDVDAFIDASGAPQAVRSGIEAVAPAGRVILVGLGADDVELPVSFIQNREIWLSGVFRYTNTWPLAIQLLADGKVDLDVLVTGKFTLAESEEALKAGKQAGQLKAVVYPGR	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
D1-29_02209	1005	RBKS_2		Ribokinase	ATGTCATCACAAGGGAATGGTTATCAACCACAGCTCTCCGACGGCAAAGCCCTGGTAACCGTCATCGGCGAATCACTCGTCGACATCATTGACGATCCGCGCCAAGGAAACACCGCACGCGAGACCCATCCGGGCGGCAGCCCCCTGAACGTGGCCGTAGGCTGCGCCCGCCTGGGCCTTCAAACCAAACTCGTCACGCACTTCGCCGAGGACCCGTACGGCCAGCTGATCGCCGAGCATCTGGAAAACAACGGTGTCGAAAGCATCGTGGGCGGATCCCAACCCACGTCAACGGCACTGGCGACTTTGGATGGCACGGGAGCCGCCCGGTACACCTTCGGCGTCAACTGGGACATCAACGGGGCCTCCATCGCCGCCCTGGCAGCAGTGGAAAGCTCCGTTCACGTCCACACTGGATCCATCGCCACGGTTCTGCCCCCGGGCAGCACATCTGTGATGGGCCTGATCGAAGAGGCTAGCCAGCACGCCACCATCAGCTTTGACCCCAACTGCAGGCCGGCAATCAGCCCAGACAAGGCCGCCGCCCGGAAACAGGCAGAGGCTTTCGTTGCCTCCAGCGACATCGTCAAAGCCAGCGACGAGGACCTGCGCTGGCTTTACCCCGATAGGACCCTGGAGGAATCGATGAACGCTTGGCTGGCCCTGGGGCCTGCCATGGTCGCATTGACCCGCGGCGCCAACGGACCCGTCCTCCTCAGCCGGTCCGGCAGGGCTGACATCCCTGGTGAAGCGGTCAGCGTAACGGACACCGTCGGAGCCGGAGACTCCTTCATGGCGGCGCTGATTTCCGGGCTCGCGCAGCTCGACGCACTCGGAGCAGCAGCCCGGCAGCGCCTCCACGGGATTACCCAGGACCAGCTTGACGGCTTGGCCCGCTACGCAAAGAGGGCAGCCGGCATCACCTGCACCCGACCGGGCGCCAACCCACCGGAACTGGCCGACCTCGGTCCGCTGACCATCCCGTCGTCCACCTTCGAAGCGTAG	MSSQGNGYQPQLSDGKALVTVIGESLVDIIDDPRQGNTARETHPGGSPLNVAVGCARLGLQTKLVTHFAEDPYGQLIAEHLENNGVESIVGGSQPTSTALATLDGTGAARYTFGVNWDINGASIAALAAVESSVHVHTGSIATVLPPGSTSVMGLIEEASQHATISFDPNCRPAISPDKAAARKQAEAFVASSDIVKASDEDLRWLYPDRTLEESMNAWLALGPAMVALTRGANGPVLLSRSGRADIPGEAVSVTDTVGAGDSFMAALISGLAQLDALGAAARQRLHGITQDQLDGLARYAKRAAGITCTRPGANPPELADLGPLTIPSSTFEA	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
D1-29_02210	1479	mtlK_2	COG0246	Mannitol 2-dehydrogenase	ATGCCAATCCTGAGTAACTACACCTTGCACGACGTTCCCGGCCCGGTCAGCCCACCAAGCTACAACAGGTCAAAGTTGACGGAGGGCATCGTCCATTTCGGAGTGGGCGGGTTTCACCGCGCCCACCAGGCCATGTACCTGGACCGGCTCATGAATGCCGGAAAAGCCCTGGACTGGGCCATCTGCGGTGTCGGTGTCCTACCCGGCGACGCCCGGATGAAGAAGGTGATGGACAACCAGGACTGCCTTTACACCCTCACTGTGAAGCATGCCGATGGCACCCGACAGGCCAGAATTATTGGCTCCATCGTCAACTACCTCTTCGCCCCGGACAACCCCGAAGCGGTGATTGCGAAGATGGCCTCGCCCGCCATCCGTATCGTCTCACTTACTGTCACCGAAGGCGGCTACAACTTCCACCACGTCACCGGAGAATTCAACGCGGATAACCCCGACGTCGTCCACGACCTTCAACCGGGGGCTTCACCTCGGACAACTTTTGGTCTCATCACAGCAGCCCTCGCCCGCCGAAGGCAGCGCGGCCTGGCTCCCTTCACCATCTTGTCCTGCGACAACATCCAGGGCAACGGCGACGTTGCCCGCAAGATGTTTACAGCCTTTGCTTCACTCAAGGACCCCGAACTCGGCGCATGGGTAAGGGGAAATGTCCCTTTTCCCAACAGCATGGTCGATCGCATTACCCCCGCCACCACCGGCGAAGACCGCCTGACGGCATCCCGGGAATATGGCCTTGAGGACGCCTGGCCGGTGGTGTGCGAACCATTCGAGCAATGGGTCCTCGAAGACCATTTCAACCTCGGGCGCCCGCCGTTGGAGGACGCCGGCGTCCAACTCGTGACCGACGTAGGGCCGTATGAGCTCATGAAGCTCCGCCTCCTCAACGCCAGCCATCAAGGCATGTGTTACTTTGGCCACCTCGCCGGCTACACCTACGCCCACCAAGCCGCCCAGGACCCGCTGTTTGCCCGGTTCCTGCTGGATTACATGAACCTGGAAGGCACCCCCACGCTGAAGCCCGTGCCGGGAATAGACCTCGACAGCTACAAGCAAACTCTGATCGACCGCTTCTCCAATGAGCACATCCGGGACACCCTCGCCCGCCTGTGCGCCGAAAGTTCCGACCGCATCCCCAAATGGCTGCTGCCTGTCATCCACTCCAACCTGGAAGGGGGCGGGGAGGTTCAACGCTCCGCCGCCATCGTGGCCAGCTGGGCGCGTTACGCCGAAGGTGTTGATGAGCAGGGAAACAGCATTGACGTCGTCGACCGGCTCAAGGAACCGCTGATGGCAGCTGCGGCCCGCCAGCGCCGGGAGCCCTTGGCGTTCCTCGCCAACCACCAGATCTTCGGCGACCTGATCGACAACGAGCTGTTCGTCCAGGCCTACACCGAAGCGCTGAACCAACTGCACGACGGCGGGGCCAGGGCCACGCTGGAGTCTCTTATCTCCCAGCCCTAA	MPILSNYTLHDVPGPVSPPSYNRSKLTEGIVHFGVGGFHRAHQAMYLDRLMNAGKALDWAICGVGVLPGDARMKKVMDNQDCLYTLTVKHADGTRQARIIGSIVNYLFAPDNPEAVIAKMASPAIRIVSLTVTEGGYNFHHVTGEFNADNPDVVHDLQPGASPRTTFGLITAALARRRQRGLAPFTILSCDNIQGNGDVARKMFTAFASLKDPELGAWVRGNVPFPNSMVDRITPATTGEDRLTASREYGLEDAWPVVCEPFEQWVLEDHFNLGRPPLEDAGVQLVTDVGPYELMKLRLLNASHQGMCYFGHLAGYTYAHQAAQDPLFARFLLDYMNLEGTPTLKPVPGIDLDSYKQTLIDRFSNEHIRDTLARLCAESSDRIPKWLLPVIHSNLEGGGEVQRSAAIVASWARYAEGVDEQGNSIDVVDRLKEPLMAAAARQRREPLAFLANHQIFGDLIDNELFVQAYTEALNQLHDGGARATLESLISQP	PGPT0018400_441	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0018400-mtlK-K00045	NA	NA
D1-29_02211	1821	opuD	COG1292	Glycine betaine transporter OpuD	ATGCCGGCCACACCAGGCATGAGGACCATCAAGGAACCACCGGGGAACCTTCCGCCTGCCCCCAAAGCAAGGGCGGGCAACCAGCCGCGAGACGGCAACCAAAAGCTCGCCCGATGGGTCTTCTGGCCCGCAGCCGCCACCATCATCGTGTTCGTCCTCTTCGCCACGATCTACCCGGCCGCCGCCACAGGCCTCTTCGGCGCGATCCAGGACAACGTCATCAGATGGTTCGGCTGGTACTACGTCGCAGTGATTGCCCTCTTCGTAGCATTCGCGCTTTGGATCGGCCTCGGCCACTACGGCAACATCAAACTCGGCAAAGACGAGGATGAACCCGAGTTCTCCGTTATGTCCTGGTTCGCCCTCCTGTTCGCTGCCGGCATGGGGATTGGCCTGGTCTTCTTCGGTGTGGCCGAGCCCCTGAACCACTTCGCCTCTCCCCGTCCGGGTGTGGAAGGTTCACCTCTGGAGCTCGCCCAGCAGGCGATGACGCAGACGTACCTCCACTGGGGTCTGCACGCGTGGGCCATCTACGTTGTGGTGGGGGTATCCATTGCCTACGCCGTGCATCGCAAGAACCACCCCATCTCCATTCGGTGGGCCTTGGAACCGCTTTTGGGCCACAGGCGTGTAGCCGGCGCGTGGGGCAACCTGATCGACGTTGTCGCCCTGGTGGGTACGCTCTTTGGCGTAGCTGCCTCACTGGGTCTCGGCGTCCTGCAGATTTCTGCCGGTCTGGAGCAGGTTAACATCGTTCAGGCCACCACTATGACGCAGATCGGCCTGATCCTCTCCATCATCACATTGACCATCGTTTCCGTGGTGTCAGGTGTGGCCAGGGGCATGAAGTGGCTGTCCAACACCAACCTGGTCCTGGCCGCATTGCTGATGCTCGTGGTGCTGTTCACGGGCCCCACACTGTTCCTGCTGCGAGAGTTCGTGCAGTCCATCGGCCATTACCTGCAGAACGTCGTAGGCCTCACGTTCAACACCTTGGCCTTCTCTGGTGCGGAGGGTGAAGCCTGGCAAGCAGCCTGGACCACCTTCTACTGGGGCTGGTGGATCTCTTGGGCACCTTTCGTCGGCATCTTTATTGCCCGCATTTCAAAGGGCCGCACCGTCCGGCAGTTCGTTGCCGGCGTCCTGCTGGTGCCTACCACCGTCGGATTCCTATGGTTCTCCGTCCTGGGCGGCGCGGCGATCCACCGCGAACTGTTCGGCGGCGGGGGCCTAATCAGTCAAGACGGCAGTGTGGATACCGAGGGCGCACTGTTCAACCTCCTGGGCAGCCTTCCCGGCGGAGCGGTCCTGACGGTGGGCGCCATCCTCCTGATAGCCATCTTCTTCATCACCTCGGCAGACTCCGGCTCACTGGTGATGGGCATGATTTCCACCGGAGGCGATGTGGAGCCGAAGAACTGGTTGCGAGTCTTCTGGGCACTGTCAGCCGCCGCCGTTGCCATCGCACTACTCCTGTCCAACGGTTTGCAAGCAATCCAAACGGCGGCCATTCTGACGGCAGTGCCTTTCAGTGTGGTCATCGTTCTGATGTGCATTTCCACAGCCAAGGCTTTCCATCGGGAACACGCCATCCTGATGAGAGCCCAACGCAAGCTTGCCCGCGACCAGATGACTGCCCACGTCACCGAACAGGTTCAGGACTCCGTGCATGACTCCGTTCAGGAGCATTACCAGGAGCACTTTGCAGGCCAGGTCAGCGAGGCTGTGGAGGCGCAGCTCAGTGAGCGGCTCGCTGCTGAGGACGTCGCTGAGCACAGCGCACCTAAGACGGGAACGTCCAGGGAGAAGCGCACCCCCTAG	MPATPGMRTIKEPPGNLPPAPKARAGNQPRDGNQKLARWVFWPAAATIIVFVLFATIYPAAATGLFGAIQDNVIRWFGWYYVAVIALFVAFALWIGLGHYGNIKLGKDEDEPEFSVMSWFALLFAAGMGIGLVFFGVAEPLNHFASPRPGVEGSPLELAQQAMTQTYLHWGLHAWAIYVVVGVSIAYAVHRKNHPISIRWALEPLLGHRRVAGAWGNLIDVVALVGTLFGVAASLGLGVLQISAGLEQVNIVQATTMTQIGLILSIITLTIVSVVSGVARGMKWLSNTNLVLAALLMLVVLFTGPTLFLLREFVQSIGHYLQNVVGLTFNTLAFSGAEGEAWQAAWTTFYWGWWISWAPFVGIFIARISKGRTVRQFVAGVLLVPTTVGFLWFSVLGGAAIHRELFGGGGLISQDGSVDTEGALFNLLGSLPGGAVLTVGAILLIAIFFITSADSGSLVMGMISTGGDVEPKNWLRVFWALSAAAVAIALLLSNGLQAIQTAAILTAVPFSVVIVLMCISTAKAFHREHAILMRAQRKLARDQMTAHVTEQVQDSVHDSVQEHYQEHFAGQVSEAVEAQLSERLAAEDVAEHSAPKTGTSREKRTP	PGPT0013600_1039	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
D1-29_02212	1509		COG3119	N-acetylglucosamine-6-O-sulfatase	ATGTCGAAGACGAACATCATCTTCATCATGTCCGACGACCATGCCGCACATGCCATCTCGGCCTACGGGAGCCGCGTAAATTCGACCCCGCATCTGGACCGCATCGCCGAGGGCGGCATGCGTCTGGACTCGGTGTACTGCACCAACTCGATCTGCAGCCCGTCGCGGGCAAGCATCCTCACCGGGACCTACAGCCACATCAATGGCGTGTCATCGATCTGGACGGAGATGGATTATCGGGTGCCCACTTTCGTGGATGTGCTGCAGGCGAACGGCTACAAGACCGCCCTGTTCGGGAAGTGGCATCTCGGAGAGCATGGGAAAGCTCTGCCCCGGGGGTTTGATGCATGGAAGATCTTTCCCGGGCAGGGCGACTACGTCGATCCGGAAATGATCGATGAGAGCGGCAGTGCGACCATGCCCGGGTACGCGACAGACATCGTCACGGACCTGTCCATCGACTGGCTGGATGGGCTGGACGGCGAGGAACCGTTCTGCATGCTGGTCCATCACAAGGCACCGCACCGCCCATGGATTCCCGACGAGAAGCACAAGCACCTCTACGCGGACGGGCAGATCCCGGAGCCGGAGACCTTCTTCGATGATTACGCCACCCGCAGCCAGGCCGTGCGCGGCGTACATATGACCATCGCGGACGATATGGGCGCCGACGACCTCAAGACAGAGGTCCCGGAAGAGTTGCGGGGGCCCGAGAACCGGGAAGCGCGGATGCGGTGGAAGTACCAGATTTACATGCGCGACTACCTGCAGTGCGTTCAGTCCATCGATGACAACGTCGGCCGTCTGCTGGACCACCTCGAGCAACGCGGACTCGCTGAGAACACATTGGTGGTCTACACCTCGGACCAGGGGTTCTTCCTCGGGGACCACGGCTGGTTCGATAAGCGGCTGATGTTTGATCAGTCCCTGCAGATGCCCATGCTGATGAGATGGCCAGCCGAAATCGCCGCCGGCAGCCGCTGTGAAGCAATCATCACCAACGTCGATTTCGCCGCCACGTTCCTGGACATCTGCGGCATCGGCTCAACGGACGCGCTTCCGACGTCGCAGGGCCGCAGCTTCCGGCCCCTCCTGCGCGGAGAGGAAGTCGACGACTGGCCGGATGCCGCTTACTACCGGTACTGGGAACACGACGACCCCATCCATGCAGCACCAGGCCACTACGGCATCCGCACCGCCGACTACAAGCTCATCCGATACTACGGCGGAGGTCTCGGCGTCCCCGGCGCCTCCGTGCGTGAATTCGAAGCCGAGTGGGAACTGTACGACCTCCGCAACGACCCCACCGAGATCCGGAACGTAGCCCAGGACCCCGGGTATGCGGAAATCCGTGCCGAGCTTGAACAAAAACTTGCCGAGTACCAGCGCCACTACCGGGATGAACCCTACGCCGGGCCCGGCACTCCGCACCCGGAGTGGGGTCCCCACGATGCCGGGATACTCGAGCGCGTCGAAAAGTACGCCCAAGCTCTCCGCGCATCCAGTTAA	MSKTNIIFIMSDDHAAHAISAYGSRVNSTPHLDRIAEGGMRLDSVYCTNSICSPSRASILTGTYSHINGVSSIWTEMDYRVPTFVDVLQANGYKTALFGKWHLGEHGKALPRGFDAWKIFPGQGDYVDPEMIDESGSATMPGYATDIVTDLSIDWLDGLDGEEPFCMLVHHKAPHRPWIPDEKHKHLYADGQIPEPETFFDDYATRSQAVRGVHMTIADDMGADDLKTEVPEELRGPENREARMRWKYQIYMRDYLQCVQSIDDNVGRLLDHLEQRGLAENTLVVYTSDQGFFLGDHGWFDKRLMFDQSLQMPMLMRWPAEIAAGSRCEAIITNVDFAATFLDICGIGSTDALPTSQGRSFRPLLRGEEVDDWPDAAYYRYWEHDDPIHAAPGHYGIRTADYKLIRYYGGGLGVPGASVREFEAEWELYDLRNDPTEIRNVAQDPGYAEIRAELEQKLAEYQRHYRDEPYAGPGTPHPEWGPHDAGILERVEKYAQALRASS	PGPT0013620_309	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_CHOLINE-O-SULFATE|PHOSPHORYLCHOLINE_UTILIZATION,PGPT0013620-betC-K01133	NA	NA
D1-29_02213	765			hypothetical protein	ATGGTTGCCCGCACCGATCAAACCACGGACCCGGTCCTGCTGGAGGGGCTCCTTCAGGCCCGCCGCGGGACCGCGTTTTTCGCCCGGAAACTCAACGAGCTCTCTGACGCGGACCTTGATGGGCCCTCGCTGCTGCCGGGCTGGACCCGCCGCCACCTCACCGCGCACATCGGCTACAACGCCCGCGCCCTGGCCCGGCTCATCGAATGGGCGGCCACCGGGATCGAAACCCCCATGTATGCCTCCCCGGAAGCCCGCAACCAAGAGATCGCGTTCGGTGCCACCCTGTCCCCGATCGCGCTGCGGAACCTCTTTGACCACTCCGCCGTGCACCTGAACGTCGAATGGCGCGACCTCCCCGCTGACGCCTGGCACCACAAGGTCAAAACCGCCCAGGGCCGGATCGTCCCGGCAAGCGAAACAGTATGGATGCGCACCCGCGAAGTCTGGATCCACGCCGTCGACCTGGACAACGGCGCCACCTTCGCCGACATCCCCGAACCCGTCCTCACCAGACTCCTCAAAGACATCACCAGCGCCTGGGCCACCCGCAGCACCGACACCGGACTGCTGGTCAGGGTGGATGATGCCGGGCGCGGGAGTGGCCTCACGTTCGGCGATACCAGCGCCGCCCACCCGACGATCATCACCGGGCCGCTGCCCGCCGTCGTCGCATGGGCCGCAGGCCGCGGCTCGCACGGCGTCACGGCCACCGGCCCGGGCGCAGTACACGGTACCGCTCCAGCGGCCCCGACATGGATCTAG	MVARTDQTTDPVLLEGLLQARRGTAFFARKLNELSDADLDGPSLLPGWTRRHLTAHIGYNARALARLIEWAATGIETPMYASPEARNQEIAFGATLSPIALRNLFDHSAVHLNVEWRDLPADAWHHKVKTAQGRIVPASETVWMRTREVWIHAVDLDNGATFADIPEPVLTRLLKDITSAWATRSTDTGLLVRVDDAGRGSGLTFGDTSAAHPTIITGPLPAVVAWAAGRGSHGVTATGPGAVHGTAPAAPTWI				NA	NA	NA	NA	NA
D1-29_02214	855			hypothetical protein	ATGAGACTCCTCACCCTCCGCACCGAAAACGGCAGCAACGGCGCCAGCACCAAAACAACCAGTACTGTGGCGGTCCGCCAGGACGGCGACACCCTCACCGAGATCGAAGGGTTCGCCGACGTCGGAGCCCTGCTGCAGGACCCCGCCTGGGAAACCACGGCCAAAGCCGCCAACGGCGCAACCCACGCGCTCGACGGCGCGGACCTCGCCGCCGTCGTGCCCTCCCCCGGGAAAATCATCTGCGTGGGCCATAACTACCGCAACCACATCAAGGAAATGGGCCGGGAAGTCCCCGAATACCCCACCCTGTTCGCCAAGTACGCCGAGTCCCTGATCGGGCCCAACGATGACCTGGCGCTGCCGCAGGAATCAGACGCGGTGGACTGGGAAGCTGAACTCGCCCTCATCATCGGCAAAACCGGCCGCCGCATCCCCGAGGCCGACGCCGCGAACCACATCGCCGGCTACGCGGTCCTGAACGACATCTCCATGCGCGATTACCAGTTCCGCACCGTCCAATGGCTCCAAGGCAAAACCTGGGAAAAGTCCACCCCGTTCGGCCCGGCCCTGGTCACCCAGGACGAATTCACCCCCGGCCCGCTGATGACCTCCGCCGTCGACGGGGACATCCAGCAGAGCACCCCCACCTCGGACCTGGTCTTCACCCCTGAGTTCCTGGTCTCCTACATTTCCACCATCATCACCCTGAACCCCGGCGACGTGATCGCCACCGGCACCCCCGGCGGCGTCGGCCACGCCCAAGACCCCAAAAAATACCTGCAGGAAGGCCAAGTCCTGGTCACCACCATCGAAGGCCTGGGACAACTGAAAAACCGCGTGGTCAAGGAAGTTTGA	MRLLTLRTENGSNGASTKTTSTVAVRQDGDTLTEIEGFADVGALLQDPAWETTAKAANGATHALDGADLAAVVPSPGKIICVGHNYRNHIKEMGREVPEYPTLFAKYAESLIGPNDDLALPQESDAVDWEAELALIIGKTGRRIPEADAANHIAGYAVLNDISMRDYQFRTVQWLQGKTWEKSTPFGPALVTQDEFTPGPLMTSAVDGDIQQSTPTSDLVFTPEFLVSYISTIITLNPGDVIATGTPGGVGHAQDPKKYLQEGQVLVTTIEGLGQLKNRVVKEV	PGPT0001630_241	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001630-hpaF-K16164	NA	NA
D1-29_02215	1146	sdgD_1		Gentisate 1,2-dioxygenase	ATGTCTGAGAACCCGACGCATGAATCGGTTGCCGCAGGGCACTCTGTTCCGGAGCCCACACCGGAGGAGGCTGCCCAGCTGGAGCAGCTGTACCGGGACTTTGATAAGGAGAACCTGATTCCGTTGTGGACCGAGATCGCGGACCTGATGCCCATGGTCCCGTCGCCGAAGGCGGTGCCGCACGTCTGGCGGTGGGACGATTTGTATCCGCTGGCTGCCCGTGCCGGTGATCTGGTGCCCGTGGGCCGGGGCGGGGAGCGCCGTGCTATTGCCCTGGCCAACCCGGGCCTGGCTGGTACCCCCTACGCCACGCCCACGCTGTGGGCCGCCATCCAGTACCTTGGCGCCCGCGAAACGGCACCGGAGCACCGCCACTCGCAGAACGCTTTCCGCTTTGTGGTGGAGGGCGAGGGCGTCTGGACCGTGGTCAACGGTGATCCGGTCCGGATGTCACGCGGCGATTTCCTGCTCACGCCGGGCTGGAACTTCCACGGCCACCATAACGACACGGATCAGCCGATGGCCTGGATTGACGGCCTGGACATCCCGTTTGTGCACTACGCTGACGCCGGCTTCTTTGAGTTCGGCACCGAACGCGTCACCGACGAGGCCACTCCTGACATCTCCCGCTCGGAGCGGCTCTGGGCCCACCCGGGCCTGCGCCCGCTCTCCGGCCTGGATGACACCACCAGCTCCCCGATCGCCGCCTACCGCTGGGAACACACTGACAGGGCACTGGCCGAGCAGCTGCTCCTGGAAGACGAGGGCCACCCGGCCACCGTGTCCCAGGGCCATGCCGCCGTCCGCTTCACGAACCCGACCACCGGCGGGGACGTGATGCCTACCATCAGGGCTGAGTTCCACCGGCTCCGCGCCGGAGCCCTGACCGATACCGTCCGCGAGGTTGGTTCCAGCGTCTGGCAGGTCTTCGAAGGCACCGGTTCCGTGACCCTGAACGGCGAAACAAGGCAGCTGGCCAAGGGCGACCTGTTTGTGGTCCCGTCCTGGGCAGCCTGGTCGCTGCAGGCCGACCCGCAGTCCGAGACACCGGCCGGCGCCGGCTTTGATTTGTTCCGTTTCAGTGACGCCCCCATTTTTGAGCGCCTGAGCTTCAACCGCACCTACATCGAAGGACGCACCAAGTAA	MSENPTHESVAAGHSVPEPTPEEAAQLEQLYRDFDKENLIPLWTEIADLMPMVPSPKAVPHVWRWDDLYPLAARAGDLVPVGRGGERRAIALANPGLAGTPYATPTLWAAIQYLGARETAPEHRHSQNAFRFVVEGEGVWTVVNGDPVRMSRGDFLLTPGWNFHGHHNDTDQPMAWIDGLDIPFVHYADAGFFEFGTERVTDEATPDISRSERLWAHPGLRPLSGLDDTTSSPIAAYRWEHTDRALAEQLLLEDEGHPATVSQGHAAVRFTNPTTGGDVMPTIRAEFHRLRAGALTDTVREVGSSVWQVFEGTGSVTLNGETRQLAKGDLFVVPSWAAWSLQADPQSETPAGAGFDLFRFSDAPIFERLSFNRTYIEGRTK				NA	NA	NA	NA	NA
D1-29_02216	1638			Ulvan-active sulfatase	TTGAAATTGCCGAACATCGTCTGGATTTCGACACATGACATAAATCCAGACCTGGGGTGCTATCAGGGGGTTTGGGCAGGAGCAGAATATGCCACGACACCGAACCTCGACCGTCTCGCCGCAGAGGGTGCCCGGTTTGACAACGCTTTTGCGTCCGCTCCTGTCTGTGCCCCGGCCCGTTCTGCGATCATAACCGGTTGCTTTCCTACGGCCATCGGCACAATGCACATGCGTACCAAAGCGGTGCCGCCGCCGGAAGTCCGGCTCCTGCCCGAGTACTTCAGACAAGCCGGTTACTACTGCACCAACAACGTCTTCACTGACTTCCAGGTGGTCACGCCGCCCACAACGTTCGACGACTGCAGCAGCACCGCGCACTGGCGAAACCGTCCTCACCCCGATACTCCGTTCTTTGCCGCCTTCCACGGCTTGACCACCCATGAATCCCGGATCTACCTGGACGAGGAGCTCTTCGCGGAGACCACGCGGAACGTCGGGTCGGAAGCCAGGCATCACCCCGATGAAGCACCCTTGCCGCCGTACTACCCGGACACTCCTGTGTTCCGGCGCGCATGGGCCAGGTACAGCGACCTCATCACCGAGATGGACCACTGGGTTGGTGACATTTTGGCCCAGCTGGAAGAGGACGGGCTGGCCGAATCCACCATCGTGGTGTTCTGGAGCGATCACGGCCGCGGCATGCCCCGGGCCAAACGATGGCCGAACGAAGCCGGGCTAAGGGAACCGTTAATCGTACGGTGGCCCGGCGCGATTCCTCCGGAGACAGTCCGGACGGAGCTCGTCCATACAATGGACCTCGCCCCCACCATGCTCAAGGCTTGCGGCCTTCCCATCCCTGCGCACATGCACGGCATTCCCCTCTTTAACGGCAATGGGGAATTCTCCGAGCAGCAGAACGACTTTGTATTTGGCAGCAGGGACCGTATGGACGAGTCCGAGGACACATCCCGGACCGTCAGGGACGCCCGCTACCGATATATCCGGCACTACCACCCGGACCGTTCTGGAATGCAGCATACCCAGTACCCGGATCACCTGGAAACGTGGGCCGAATTCCGGGAGTTGGCCGCGGAGGAGGCCAACCAGCTGGGCATCGGCACGCTACCAAACAGGCTAACGGAACTCCAGCGCAGCGTCGTGGCAGCTGGACGACCTCAGGAAGAGCTGTACGACCTCATTGCCGATCCGCATGAGACGGTCAACCTGGCGACGGACGCTGCTCATACCGCCGTCCTTCAACGGCTGCGCTCGGCACTCTTAGCGTGGCAGGACCGCTATGGAGACCTGGGGCTGGTGCGTGAGCCTGAATTGATCGAACAATGGAGGCCCGGGGGAAAGCTGCGTCCCACGGACACCCCCCATGTTTTTCGGACCCCAGAGGGCTTAGAAGCCAAATGCTCCACGGCAGGGGCATCAATCGGTTGGACGTTCGACCCGCCCGGCGACTGGATGATAGCTGGCAGCCCGTTGGAGCAGGTTAGCGGAGCTCCACAGAATGACGGACGCCGCTGGAACCTGTACAGCAGTCCCCTCACAGCAGAAAAGGGCGCAAGACTGTGGGTCCGCGCCTGGCGCCTCGGCTTTGAACCAAGCGATGAGGTCCCCATCACCATGTAA	MKLPNIVWISTHDINPDLGCYQGVWAGAEYATTPNLDRLAAEGARFDNAFASAPVCAPARSAIITGCFPTAIGTMHMRTKAVPPPEVRLLPEYFRQAGYYCTNNVFTDFQVVTPPTTFDDCSSTAHWRNRPHPDTPFFAAFHGLTTHESRIYLDEELFAETTRNVGSEARHHPDEAPLPPYYPDTPVFRRAWARYSDLITEMDHWVGDILAQLEEDGLAESTIVVFWSDHGRGMPRAKRWPNEAGLREPLIVRWPGAIPPETVRTELVHTMDLAPTMLKACGLPIPAHMHGIPLFNGNGEFSEQQNDFVFGSRDRMDESEDTSRTVRDARYRYIRHYHPDRSGMQHTQYPDHLETWAEFRELAAEEANQLGIGTLPNRLTELQRSVVAAGRPQEELYDLIADPHETVNLATDAAHTAVLQRLRSALLAWQDRYGDLGLVREPELIEQWRPGGKLRPTDTPHVFRTPEGLEAKCSTAGASIGWTFDPPGDWMIAGSPLEQVSGAPQNDGRRWNLYSSPLTAEKGARLWVRAWRLGFEPSDEVPITM				NA	NA	NA	NA	NA
D1-29_02217	630			hypothetical protein	ATGGCCGCAAACACCGAAGTGCCTCCCCGGAGGCGTGGAACCTACGCGAAAGGCAGGGCAGCACGGGAACTAATCCTTGAAACAGCCCTGGAAGTTATCAGCAAAAAGGGCTACACCGCCACTTCGCTCCGCGACATCGCAGATCAGGCGGGCATGACCCAGGCCGGGCTGCTCCACCACTTCGACACCAAGGAAAACCTCCTGGCCGAGGTGCTGAGAAAACGTGACGAAGTGGACAGGCAGCATTTCAGCCCAGCCGACATCACTCAACTTCCGCTGATTATCCAGCTGGCACATCACAACATGGAGGTCCCAGGCCTCGTGCAGCTGTACGTCAGCCTCCAGGCAGCGGCCGTTAACCCTGAGCATCCCTGCCATGACTATTTCCGGGACCGGGACCTGGTGGTCCACGCCCGGATAAGCCGGGACATCGAAAAGCGCCAAAAGGCCGGGACGTTCAGCCCCGACGCTGACCCGAGGGTGATCGCCCGTATGCTTCTGGCACTCTCCGACGGGCTGCAGGCGGAATGGGCCATTAACCCTGACGTGGACCTGGCTGGCACGCTGGATGCTTTCTGGAACAGCTATGTTCGCACGAGCCCGACTGTTCCGGCCGCCACCGAGGGATGA	MAANTEVPPRRRGTYAKGRAARELILETALEVISKKGYTATSLRDIADQAGMTQAGLLHHFDTKENLLAEVLRKRDEVDRQHFSPADITQLPLIIQLAHHNMEVPGLVQLYVSLQAAAVNPEHPCHDYFRDRDLVVHARISRDIEKRQKAGTFSPDADPRVIARMLLALSDGLQAEWAINPDVDLAGTLDAFWNSYVRTSPTVPAATEG				NA	NA	NA	NA	NA
D1-29_02218	1860	nagZ_1		Beta-hexosaminidase	ATGAGCGTTGATCTGGAGCCGGAATTCCAGCGCACTGCCGAGGGAACTGTCTTTCGGGACCTCAACGGCAACGGCATCATGGACCCCTACGAAAACCCGAAACTGCCCGCAGCCGACCGGGTTGAGGACCTCCTGGGCAGACTCTCCCTCGAGGAAAAGGCCGGACTGATGTTCCAAACAGTGGTCAGCGCCGCTGAGAACGGAAAGCTCGGAGACGAGAGCCCGCGGCCAAGCCAGGCCACTGTTCGGCAAGTCGTCGCCGACAAGTACATCAACCACCTCAATCTCCACTTCGTGCCCGAGCCAAAACTCGCAGCCCGTTGGGTGAACGAACTCCAGCGCATGGCCACCAGCTCCAGCCCGCACGGGATCCCGGTGACACTGTCCACGGACCCCCGCCACTCCTTCATCGAAAACTGGGGCGCATCCTTCACCGCCGCGTACTTCTCCGCCTGGCCCGAGCCGCTCGGCCTCGCCGCCGTGAGGGACGAACAGCTGGTCCGCGAATTCGCAGCCATCGCCAGAGCCGAATACACCGCGATCGGTATCCGCGCCGCCCTCCACCCCACCCTCGACCTCGCCACCGAACCCCGGTGGGCACGCCAATACAGCACTTTCGGCCAGGACAATGACCTTGTCGCCCGCCTCGCCCTGGCCTACCTGGACGGATTCGAAGACCAGCCTTTGGGCGCCGGCAGCGTCGCCTGCATGGCCAAACACTTCCCCGGCGGCGGCCCGCAACGGGACGGCGAAGACCCGCACTTCCCCTATGGGCGCGAACAGGTCTACCCCGGGGGCATGTTCGAGCATCACCTTGAGCCCTTTAAGCGCATCATCGCCCACGGCGTAACGGCCATCATGCCCTACTACGGCATGCCCATCGGCCTGGAACTGGACGGCGAACCTGTCGAAGAAGTCGGCTTCGGGTACAACCGGCAGATCATCACCGGACTCCTGCGGGAAAAACTGGGCTACCAGGGCGTTGTATGCACCGACTGGGGCCTGGTCACCGAATCCCGTCTCTTTGGACGCCAACTCCCGCCGCGCGCCTGGGGCGTGGAACACCTCTCCGAAACGGAACGCGTCCTGAAAATTATCGAAGCCGGCTGCGACCAGTTCGGCGGCGAAGAATGCCCCGAGCTAGTGGTAGCGCTGGTCCGGGACGGCCGGCTGAGCGAAGCGCTGATCGACACTTCGGTCCGCCGGCTGTTGAAGGTGAAGTTCGAACTGGGCTTGTTCGACAACCCGTACATTGACGAGGCACAGGCTGAAGAACGGACCGGCCTGCCCGAATATGTGGCGGCGGGCCAGCGGGCCCAGGCCCGCTCCGTGACAGTCCTGAAGAACGAAATAAGCGACGGCTCGGCTCTCTTGCCGCTGGCGTCCGGTCTCCGCGTATTTTCGGAGGAGCTAGGCCCGGACGCACTTACCGAAGCCGGTCTCATCCCAGCCGCAGATCCCGCCGATGCTGATGTGGCAATTGTTCGGGTAGCGGCCCCCTTTGAATTCCGCGACACCTACATGCTGGAAGCCAGCTTCCACGCAGGAAGCCTGGAATTCGACAGCGAGACCACTAACAGAGTCCAGCAGCTGGCTGCGGTCCTCCCGGTCATTCTTGTCCCGCACTTGGACCGCCCCGCAGTATTGACCCCACTGGAACCGAGCTGCGCCGCCATAGCGGCCGTGTACGGCGCATCCGACACCGCTGTCCTCCAGGCACTCACCAGCACTGTTCCGCCTGAAGGCCGCCTGCCGTTCCAGCTCCCCCGCTCGGAGGCTGCCGTGGTAGCCTCCCGACCTGACGTTCCTGGAGACACAAAGGACCCGCTGTACGAGTACGGGTTCGGATTGGAGCTTTAA	MSVDLEPEFQRTAEGTVFRDLNGNGIMDPYENPKLPAADRVEDLLGRLSLEEKAGLMFQTVVSAAENGKLGDESPRPSQATVRQVVADKYINHLNLHFVPEPKLAARWVNELQRMATSSSPHGIPVTLSTDPRHSFIENWGASFTAAYFSAWPEPLGLAAVRDEQLVREFAAIARAEYTAIGIRAALHPTLDLATEPRWARQYSTFGQDNDLVARLALAYLDGFEDQPLGAGSVACMAKHFPGGGPQRDGEDPHFPYGREQVYPGGMFEHHLEPFKRIIAHGVTAIMPYYGMPIGLELDGEPVEEVGFGYNRQIITGLLREKLGYQGVVCTDWGLVTESRLFGRQLPPRAWGVEHLSETERVLKIIEAGCDQFGGEECPELVVALVRDGRLSEALIDTSVRRLLKVKFELGLFDNPYIDEAQAEERTGLPEYVAAGQRAQARSVTVLKNEISDGSALLPLASGLRVFSEELGPDALTEAGLIPAADPADADVAIVRVAAPFEFRDTYMLEASFHAGSLEFDSETTNRVQQLAAVLPVILVPHLDRPAVLTPLEPSCAAIAAVYGASDTAVLQALTSTVPPEGRLPFQLPRSEAAVVASRPDVPGDTKDPLYEYGFGLEL	PGPT0019110_6548	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
D1-29_02219	849	oppF_3	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGACGAACACGAACCGGCTCCTGGAAGTCGAGAACCTCGCCGTGGAATACCCCGGCCACGGGCGTAAGCCGGCCTTCAAGGCCCTTGAGGACATTTCCTTCACCATCCGCGAAGGCGAAACCCTGGGCCTGGTCGGCGAATCCGGCTCAGGAAAAACCACTATAGGCAGGGCGATCCTTGGCCTGGTCAAACCCTCCGCTGGGCGCATCCTGTTCGACGGCAAAGACATCACCCACGCCGGACGCGGGGAGAGGCGGGCCCTGAGCCGGGACATCCAGGTGGTGTTCCAGGACCCGTATACGTCCATGAATCCGTCGATGACAGTGGAAGACATCCTCTCCGAGCCGCTCACCATCCAGGGCAACAGCAAAAAAGACTCCCTCGAACGCGTCCGCGGGCTCCTGGACCGGGTCCACCTTCCGGCCAACTCAGGTGGCCGGCTCCCGCGTGAGTTTTCCGGCGGACAGCGGCAACGCATCGCCATCGCCCGCGCCATCGCCGTCAAGCCACGCCTCATTGTCTGCGATGAACCCGTCTCCGCACTGGACCTCACCACCCAGGCCACGGTCCTGGACCTGCTGGTCGAGATCCAGGAAGCCACCAAAGTGGCCTACCTCTTCGTCTCCCACGATCTCAGCGTGATCCGCCACATCAGCCACAACGTCATCGTCCTGTACAAGGGACACATCGTGGAGCAGGGCCGCGCTGCCCAGGTCACCTCCCAACCAGTCCACCCCTACACGCAAAGGCTGTTCATGTCCGCTCCTGTCCCCCACCCCGCCCAGCAACGCGAACGCCGCGAAGCACGCCGCCAACTCGTCACCGCAACCGCGGAGCAGGCAGCATGA	MTNTNRLLEVENLAVEYPGHGRKPAFKALEDISFTIREGETLGLVGESGSGKTTIGRAILGLVKPSAGRILFDGKDITHAGRGERRALSRDIQVVFQDPYTSMNPSMTVEDILSEPLTIQGNSKKDSLERVRGLLDRVHLPANSGGRLPREFSGGQRQRIAIARAIAVKPRLIVCDEPVSALDLTTQATVLDLLVEIQEATKVAYLFVSHDLSVIRHISHNVIVLYKGHIVEQGRAAQVTSQPVHPYTQRLFMSAPVPHPAQQRERREARRQLVTATAEQAA	PGPT0004440_7201	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
D1-29_02220	1797	btuD_11		Vitamin B12 import ATP-binding protein BtuD	ATGACTCTTGCGACAGAAGTCCCCACCGACGTCGAACCCGTCGCCGCCAGCTCTGGCCTGATTCGGCGCTTTGTCCGCAACCCCCTCGGACTGCTCTCCGCCCTGGTGCTCCTGGCCGTCATCACCATCGCCATCGTGGTGCCTTTCCTCGGGCTGCCTGACCCTAATGGCGTTAACCTGCGCGAGTCCACGCTTCCCCCGGGCCCCGGTCACCCACTCGGCACCGACGCCTCCGGTCGGGACATCTTCAGCCGCATCATGTGGGGCAGCCAGGTCAACCTCATCGGCGCCGGCATCGCCCTGGCCATCGCACTGGTCACCGGCGTGATCACGGGTCTGCTTGCCGGCTACTACGGCGGCTGGTTCGACAGCGCCGCGTCCTGGGTCAACAACCTCAACATGGCCCTTCCCGGCATCGTGGTCCTGCTCGCCGTCCGCGCCATCGTCGGGCCATCCGTCTACATCGCCATGGCTGTTTTCGGCGTCCTTCTGGCGCCCGCCTTCTTCCGGGTGGTCCGCGGAGCGGTGCAGGCTGTCCGTAATGAGCTGTACGTTGACGCCGCCCGCGTCTCCGGCCTGAGTGATGCCAGGATCATCGCCCGCCACATCCTCACCGTGGTGAGGGCACCGGTCATCATCCAGGCCGCCCGTGTGGCCAGCATCGCCATCGCCATCCAGGCAGGACTGGAGTTCCTCGGCGTCACGGACCCCTCCGTTCCGTCCTGGGGCAACATGCTCAATGAAGGCTTCCGCAGGATCGCCCTCAGCCCGGGACTGATCCTCTGGCCCAGCGTCGCAATCGGATTGGTCTCCATGGCACTCATTCTTTTCGGCAACGCCCTGCGCGACGCCTTGGAAGACCGCAGCCACGGCATGACCCGCGCCGTCCGGCTCCCGGCCAAAAGCACTGCAGCAACCGCCGCCACGGCGGCACCGGCACCCGCTCACCCGGAAAACGCGCTCCTGTCCGTCCATAACCTCAAAGTCGCCTACGGCACCGGCGGCGAAAAGGAAGTGGTGCACGGAGTCACCCTCCACATCGCACCCGGCGAAGTACTCGGTCTGGTGGGCGAGTCCGGATCCGGCAAAACCCAGACCGCTTTCGCCATACTGGGCCTCCTGCCTGAAGGCGGACGCGTCTCGGAAGGCTCCATTCTCTTCGACGGCAAAGAACTCACCACCCTCGGAAACAAGGAACGCACCGCCCTGCGCGGCACCGACATCGCTTACATCCCCCAGGAGCCCATGAGCAACCTGGACCCATCCTTCCGGATCGGCCACCAGCTCACCGTCCCCTTGCGGACAAAACTCGGGCTCTCCAAACAGGACGCCACCAAACGCGCCCTTGAACTGCTGGCCAGGGTCGGCATCACGGACCCGGAAAAAACCTTCAAATCCTACCCCCACGAGATATCCGGCGGGATGGCCCAGCGCGTCCTCATTGCCGGCGCCGTCTCCTGCAACCCCCGCCTGCTCATCGCCGATGAGCCCACCACCGCCCTGGACGTCACCGTTCAGGCCGAAGTCCTGGACCTGCTCCGGGACCTCCAGCGCGAAACCGGGATGGCGGTGATTATGGTCACCCACAACTTCGGTGTGGTGGCCGACATCTGCGACCGCGTAGCCGTCATGCAGGCCGGGCGCCTGGTGGAAGTGGACACCGTGGAGAAGATCCTCACCTCACCGTCACAGGCCTACACCCAGAAACTCCTCGATTCCATGCTTGAAGACAGCCCGGCCCGGCCCTACCCCTTCGACGACGACGATCTCGCCGCGCCCACGAAAGCCAAGGAGTAA	MTLATEVPTDVEPVAASSGLIRRFVRNPLGLLSALVLLAVITIAIVVPFLGLPDPNGVNLRESTLPPGPGHPLGTDASGRDIFSRIMWGSQVNLIGAGIALAIALVTGVITGLLAGYYGGWFDSAASWVNNLNMALPGIVVLLAVRAIVGPSVYIAMAVFGVLLAPAFFRVVRGAVQAVRNELYVDAARVSGLSDARIIARHILTVVRAPVIIQAARVASIAIAIQAGLEFLGVTDPSVPSWGNMLNEGFRRIALSPGLILWPSVAIGLVSMALILFGNALRDALEDRSHGMTRAVRLPAKSTAATAATAAPAPAHPENALLSVHNLKVAYGTGGEKEVVHGVTLHIAPGEVLGLVGESGSGKTQTAFAILGLLPEGGRVSEGSILFDGKELTTLGNKERTALRGTDIAYIPQEPMSNLDPSFRIGHQLTVPLRTKLGLSKQDATKRALELLARVGITDPEKTFKSYPHEISGGMAQRVLIAGAVSCNPRLLIADEPTTALDVTVQAEVLDLLRDLQRETGMAVIMVTHNFGVVADICDRVAVMQAGRLVEVDTVEKILTSPSQAYTQKLLDSMLEDSPARPYPFDDDDLAAPTKAKE	PGPT0004435_1241	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
D1-29_02221	942	gsiC_4	COG0601	Glutathione transport system permease protein GsiC	GTGACTATTTTTCTGCTGCGGCGCTTATTCTCAGCCGTTGTCCTGCTCGTGGCCGTGTCTTTCCTGGCCTACGTGCTGCTCTACCCCGGCGCAGGGGACATTGCCCGGAACATCCTCGGCGAGAACGCCACCGAGGAACAGGTCGCACTGAAGAACCAGGCGCTCGGCCTGGATCAGCCCCTCCTGGTCCAGTATTTCGCCTGGTTCACCAAAGCAATTTCGGGGGACCTTGGCGTCTCCTACTTCACCAGCCAGCCGGTGTGGGACACGCTCATGATCCGGCTCCCGGTCACCCTCAGCCTGGTGGTCGTGGTGACCGTGCTGACCGGCGTCCTGGCATTCGCGGCCGGCATCTGGGCCGCGGTGCGCAAAGGCTGGGTGGACCGCACCCTGCAGCTCCTCGCCACCCTGGGGGATGCCCTTCCCTCGTTCATCGTGGCGCTGTTCCTGGTCACGTACTTCGCGATCCAGCTGAAAATGTTCCCGGCAACAGGCTACATACCATTGACTGAATCACCAGCCGGCTGGGCAAGAACCATCACCCTGCCCGTGATCGCTCTCGCGATCGGCGGTGTCGCAGGCGTTGCCCAGCAGGTCCGTTCAGCCACCCTTGGGGTGCTGCGCAATGATTACATCCGGACGGTCCGCAGCCGCGGGTTATCGGAGCGCCGGATCATCCTCACGTCCGTCCTGCGCAATGCCTCGACGAACGGCCTGACCAGCCTGGCAGTTCAGGTGGTGGGAATTCTCGGCGGCGCCGTCGTCATCGAAACGATCTTTGCGCTCCCCGGGCTGGGCTCCCTCGCCGTGGAGGCAACGAGCCGTACTGACCTGCCCCTCATCGTCGGCGTGATCCTTGCCGTCGTGCTGATCGTCGTCATCGTCAACCTGGCCGTCGACGTCCTCGTCGCCTGGCTCAACCCGAAAGTGCGCCTGTCATGA	MTIFLLRRLFSAVVLLVAVSFLAYVLLYPGAGDIARNILGENATEEQVALKNQALGLDQPLLVQYFAWFTKAISGDLGVSYFTSQPVWDTLMIRLPVTLSLVVVVTVLTGVLAFAAGIWAAVRKGWVDRTLQLLATLGDALPSFIVALFLVTYFAIQLKMFPATGYIPLTESPAGWARTITLPVIALAIGGVAGVAQQVRSATLGVLRNDYIRTVRSRGLSERRIILTSVLRNASTNGLTSLAVQVVGILGGAVVIETIFALPGLGSLAVEATSRTDLPLIVGVILAVVLIVVIVNLAVDVLVAWLNPKVRLS	PGPT0004445_12553	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
D1-29_02222	1548	sgrR_3		HTH-type transcriptional regulator SgrR	ATGATGAGGATCAAGAACCGAATTTTCTCGACGGTGGTGACTGCCGTCGTCGCATCCTTGGCGTTTACTGCCTGCGGCGGGGGCGGCCCCGAGGGATCAACAACCACGCAGGGACCGGAAACCGCGCCCCTGCTGCGAATCGGCTCATTGCAGGAGCCGCAGAGTTATGACCCCGCGCAGGCCAACGAAGGACACCAGGCCCCTATCTACCAGGCCGTGTACGACACGCTTATCAAGCGGGAGCCGGATGGCAGCCTCAGCCCGATGCTGGCCACGTCCTGGGAGCCAAGCGACGGCAATACCACCTACACCCTGAAGCTGCGCGAAGGGGTTAAGTTTACCGATGGCGCCACTTTTGACTCGGCTGCAGTGAAGGCCAACCTGGAACACTTCATTAAGGCCAATGGACCTCTGGCCGGCACTGCAAGCAGCGTACAGTCGGTCGAAACCCCGGACGCCACCACCGCGGTGATCCGCCTCTCAGAACCTGACCCTGGACTTCCCTATTCCCTCGCCAACGCGGCAGGCTACATCGCCAGCCCCAGCGCTGTCGGTACCGAGGCAATCGCGACCAGGCCCGTAGGATCAGGCCCCTACACTCTGGATCCCGCCAACACGGTGTCTGGTTCGAAGATCACCTTTGTCCGTAACGCCGATTACTGGGGTGACAAGCTCCCCTATGACAAGGTTGAGTTCCAGGTCCTGACGGATGAGAACGCCCGCCTTAACGCACTCAAATCAGGCCAGATCGATGCCGCCGTCCTCAACCGTGCAGCAACTGCCGTGGAAGCGGAAGGTGCGGGACTTCAGCACAAGCCCAATGAGGTTAACTGGGAGGGCATCTTCTTCTTTGACCGCAACGGTACCAAGCTTCCGGAACTCGCCGACGTGCGGGTACGGGAAGCCCTGACGCTTGCGATCGACCGGGAAGCACTCCTGCAGGCCGTCCACCTCGGAAAAGGCACCCTGACCAGCCAGACGTTCCGGCCCGGCACTGAGGGCTATGATGAGGCCCTTGACGGCAAGTACACTTACGATCCTGACCGTGCCCGTGAGCTCCTCAAGGAAGCCGGTGCGGAGAACCTGACGTTCACCTTGCCGATCAGCCCGGTCTTCGATCCCTCGATCTACGATTCGATCATCCAGAACTGGCAGGATGTCGGGGTAACGGTGAACCGGCACCAGTGGGGCCCTGGCCAGGCAATCCCGTCCATGCTCCGCGCAGAGTACCCCATCGCTTACATGGCTCTCAGCCAGCGTGATGATTGGCGGCACACCACCTTCCAGCTGGCACCCAGCGCCCCCTGGAACCCCTTCAAGGTTGAGGACCCGGAACTGAACGGGTTTATCCAGAAGGCCCAATCAGGCGGTGAGGCTGAGCAGAAGGAAGCAGCCAAGTCGATCAACAACTTCATCGTGGACAACTACTGGTTCAGCCCGCTCTACCGGCTGCATTCCCACTTCTACTTCACCGGCTCCGTCGACGTGGAGCCGCAGACGGAACAGGCCGTGCCGTCCATCTATAACTACAGGCCCACCGGCAAGTAG	MMRIKNRIFSTVVTAVVASLAFTACGGGGPEGSTTTQGPETAPLLRIGSLQEPQSYDPAQANEGHQAPIYQAVYDTLIKREPDGSLSPMLATSWEPSDGNTTYTLKLREGVKFTDGATFDSAAVKANLEHFIKANGPLAGTASSVQSVETPDATTAVIRLSEPDPGLPYSLANAAGYIASPSAVGTEAIATRPVGSGPYTLDPANTVSGSKITFVRNADYWGDKLPYDKVEFQVLTDENARLNALKSGQIDAAVLNRAATAVEAEGAGLQHKPNEVNWEGIFFFDRNGTKLPELADVRVREALTLAIDREALLQAVHLGKGTLTSQTFRPGTEGYDEALDGKYTYDPDRARELLKEAGAENLTFTLPISPVFDPSIYDSIIQNWQDVGVTVNRHQWGPGQAIPSMLRAEYPIAYMALSQRDDWRHTTFQLAPSAPWNPFKVEDPELNGFIQKAQSGGEAEQKEAAKSINNFIVDNYWFSPLYRLHSHFYFTGSVDVEPQTEQAVPSIYNYRPTGK	PGPT0004430_15562	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
D1-29_02223	1665			Ulvan-active sulfatase	ATGACCCGTCCCAATGTCCTGTGGATTTCGACCCATGACATCAGCCCGCATCTCGGCGCCTATGCCGGTGTCTACCCTGGAGCAGAGTACGCAGTAACTCCGAACTTGGACCGCCTCGCTGCTGAAGGCATGCGCTTCGATCACGCCTTTGCTGCCGCTCCCATATGCGCACCCTCCCGTTCGGCCATCATGACCGGCTGCTTTCCGACGGCGATCGGCACGATGCATATGCGCACAAAGGCAGTGCCGCCGCCGGATGTACGGCTGTTCAGCGAGTACTTCCGGGAGGCCGGCTACTACGTCACTAATAACTCGTTCACGGATTTCCAGGTCACGACGCCGCCCAGCGCGTTCGATGACTGCAGCGCCACGGCCCATTGGCGGAACCGCCCGGACGCCGGGACGCCGTTTTTCGCTACGTTCCACGGGCTGATCACGCACGAGTCACAGATCTACCTCGACGACGACGCTTTCGCCGCACGTACCAGCCACGTCCACCCCTTCGACCGGCATGATCCCGCCACGGCTCCCCTGCCTCCCTACTACCCGGACACCGAGGTTTTCCGCCGGTCCTGGGCGCGCTACAGCGACCTGATCACAGAGATGGACCATTGGGTAGGTACCATCCTTGCTGAACTGGAAGAGGACGGACTGGCGGAGAACACAATTGTGGTGTTTTGGAGTGATCATGGCCCTGGCATGCCACGGGCCAAGCGTTGGGTCAATGATTCCGGCCTTCGCGAGCCACTGATCATCAAGTGGCCAGACCGCATTCCTGCCGGAAGCGCCAACCCAAACGTTGCCCACCTCATGGATCTTGCCCCGACCATGCTGCAGTTGTGCGGCCTGGACATCCTGCCCCACATGCATGCCAAGCCCTTGCTCAACCCCGACGGCGGCATTGTTGACTCGCCCAACACCTATGCCTTTGCCGGTCGGGACCGGATGGGTGAATTGGAGGACATGTCCCGCACGGCCCGTGATAGCCGTTTCCGTTACATCCGCCACTACCATCCTGACCGCGGTCCGATGCAGCACTGCGAATACCCTGACGGGCTGGCCACGTGGCGCGAATTGAGGCAGCTCGCCTCGGGCGAGGCAGGGCAGCGGGCGTTGGGTGAACGCCGAACCCTGCTTAGTCCGCTTCAGCGGGAGCTTGTGGCACCGACGAAAGCCCGTGAGGAACTGTTCGATGTTCCTAGCGATCCACACGAAACAACCAATCTCGCCGAGGACCCTGCCTATTCCGGCACCTTGGAAAGATTCCGCAGCGCAGTCGATCACTGGCAGGCCACCTACGGGGACGCGGGCTTCACACCCGAAGACGATCTGTCCGATCAGTGGCGCCCATCCGGCATCCAACCCGTCACAGCGCCGCCACTGGTCGAGGTGGAAGACGGGGCCATCACGGCGCGCTCCTCTACTGCCGGCGCGTGCGTGGTGTGGACAGCGGACCCGCCCACCCCGGAAGGAGCCGGAATGGCGACGGCCGCCAGGCCACGGATGGCAGAGGAGACAGGTGCGCCACTCTCGGATGGACGGGCCTGGTACATCGTCTGTAAGGCGACTCCGGCGCCTCCCGAAGTCGCGCTCTGGTTCAAGGCTTGCCGGCTCGGATACGCCGACAGCGCCGAGATTCATTTTGCCCCAATAGCGGCAACTTAG	MTRPNVLWISTHDISPHLGAYAGVYPGAEYAVTPNLDRLAAEGMRFDHAFAAAPICAPSRSAIMTGCFPTAIGTMHMRTKAVPPPDVRLFSEYFREAGYYVTNNSFTDFQVTTPPSAFDDCSATAHWRNRPDAGTPFFATFHGLITHESQIYLDDDAFAARTSHVHPFDRHDPATAPLPPYYPDTEVFRRSWARYSDLITEMDHWVGTILAELEEDGLAENTIVVFWSDHGPGMPRAKRWVNDSGLREPLIIKWPDRIPAGSANPNVAHLMDLAPTMLQLCGLDILPHMHAKPLLNPDGGIVDSPNTYAFAGRDRMGELEDMSRTARDSRFRYIRHYHPDRGPMQHCEYPDGLATWRELRQLASGEAGQRALGERRTLLSPLQRELVAPTKAREELFDVPSDPHETTNLAEDPAYSGTLERFRSAVDHWQATYGDAGFTPEDDLSDQWRPSGIQPVTAPPLVEVEDGAITARSSTAGACVVWTADPPTPEGAGMATAARPRMAEETGAPLSDGRAWYIVCKATPAPPEVALWFKACRLGYADSAEIHFAPIAAT				NA	NA	NA	NA	NA
D1-29_02224	1818			hypothetical protein	ATGAGGGCCATTATCCTGATGTTCGACAGCCTCAACCGGCATATGCTCCCACCTTATGGCGACACCATAATTGATGCCCCCAATTTCGCCCGGCTGGCCGAGAAATCCGTCACCTTCGATAACTTCTATGCTGGATCCATGCCTTGCATGCCGGCCCGGCGCGAAATGCACACGGGCCGCTACAACTTCCTGCACCGCAGCTGGGGCCCCCTGGAACCGTTTGACGACTCCATGCCCGAAATACTGGGACAGGCCGGGATCCACACGCACCTGGTTTCAGACCACCCGCACTACTGGGAGGACGGCGGCGGCACGTATCACACGCGTTACACAACATGGGAATTCCTCCGGGGACAGGAAGGCGACCCGTGGAAGGGCGTAGTGACCCCCCGGGGCAGCGTAGGCACTGTACTGACCCGAATGCGTCGGCAGGACGCCGTCAACCGCAGCTACATGCCCACGGAGGCCGAACACCCGCAGACCAGGACGGTCGACGCCGGCATTGAGTTTATCGAGACGAACAGCGCCGCAGACGAATGGATGCTCCAGCTTGAGCTTTTCGATCCGCACGAACCCTTCTTCACCCACGACTCCTTCAAGGCAAAGTACCCCCACGAGTATTCGGGGCCGGAATTCGACTGGCCAGGCTACCAAAAGGTGGCGGAGCCCCAGGATCAGGTCAACCATGCCCGATACGAATACGCCGCGCTGGTCTCAATGTGTGACAAGTCGCTGGGCCGCGTCCTGGACGCAATGGACCAGCACGACATGTGGAAAGACACCATGCTGGTTGTCAACACAGACCACGGCTTCCTCCTGGGCGAGCATGGCTGGTGGGCCAAGTCAGTCATGCCCTGGTTCAACGAACTGGTGCATCTGCCAATGTTCCTGTGGGACCCAAGGACTGCAGAGCGGGGCACCCGTAGGGGCGCCCTTACGCAAACCATCGACATCGCACCCACCCTGCTGCGTTTCTTCGGGCACGAGCCAACCCCGGACATGCAGGGGCAGGACCTCGCCGCCGTACTCCACGACGATGCCGACGTCCATCAGGGCGTGCTGTTCGGCATCCATGGCGGGCACGTGAATGTAACTGACGGCAGGCATGTCTACATGCGGGCGGCCATAGAAGCTGCCAACGCGCCGCTGGAGGACTTCACGCTGATGCCGACCCATATGCGCTCCCGGTTCACGGTGGACGAACTTGCCAACTGGCAGCCTGCCGAACCGTTTTCGTTCACCAAGGCTCTTCGCAGCATCAAGATCCAGGCCAAGTCACTGATGAATCCATGGACCCACGGAACGCTGCTGTTCGACCTGGAAGCGGACCCCGGACAGAACACCCCCATCACCGACGACGAGGCAGAACTGCGGATGCTCCGGCTGCTGGCCGACATGATGCACGAGTCTGACGCGCCGCCCAGCCAGTTCATCCGTCTGGGAATCCCGTACGATGCAGTCCCGGGCAGGAATCATTTGCTGGTCGGCAAGCAGGCTGCCCGCGCGGCCGTCGCGTTGGAACCGTTGCCTCCGCTTTCGGACTTCCCTCATGGTGGTGCGGCGCTGGACATCCCCATCCTGGAACTCCGCCAGGACCCCCGATGCGAGGCCATTCTTGCCAGACACCTTCCGCAACTGGTATCCACCGAACTGATCAATATCCGGGCTCAGCTCAGCCTCTACCAGATGGCCAGGGTCACGCCGATTTCGAGTGCTGTGCTCACCCAGCTGGCAGAGGACCTTCGAGGCGTTCATGATATTCCCGCTGCCGGCCGGACACCCCCCGTCAATACGATGGCCGCGAGCGCAGAAACATGA	MRAIILMFDSLNRHMLPPYGDTIIDAPNFARLAEKSVTFDNFYAGSMPCMPARREMHTGRYNFLHRSWGPLEPFDDSMPEILGQAGIHTHLVSDHPHYWEDGGGTYHTRYTTWEFLRGQEGDPWKGVVTPRGSVGTVLTRMRRQDAVNRSYMPTEAEHPQTRTVDAGIEFIETNSAADEWMLQLELFDPHEPFFTHDSFKAKYPHEYSGPEFDWPGYQKVAEPQDQVNHARYEYAALVSMCDKSLGRVLDAMDQHDMWKDTMLVVNTDHGFLLGEHGWWAKSVMPWFNELVHLPMFLWDPRTAERGTRRGALTQTIDIAPTLLRFFGHEPTPDMQGQDLAAVLHDDADVHQGVLFGIHGGHVNVTDGRHVYMRAAIEAANAPLEDFTLMPTHMRSRFTVDELANWQPAEPFSFTKALRSIKIQAKSLMNPWTHGTLLFDLEADPGQNTPITDDEAELRMLRLLADMMHESDAPPSQFIRLGIPYDAVPGRNHLLVGKQAARAAVALEPLPPLSDFPHGGAALDIPILELRQDPRCEAILARHLPQLVSTELINIRAQLSLYQMARVTPISSAVLTQLAEDLRGVHDIPAAGRTPPVNTMAASAET				NA	NA	NA	NA	NA
D1-29_02225	579			hypothetical protein	ATGAAGCTCGAGCACATTCTTTTGGGCGTTCTGCTGGAACATCCGAGCACCGGCTATGACCTTAAAAAGTTCCTTGATAACAGGGGACGATTCATGCGGTCCAACACCCAGATGAGCCAGGTCTACCGGTCGCTGGGGCTGATGGAGTCACAAGGACTGGTCACCCACAAGGTGGAACACAGGCCCGGGGCGCAGGATGCCAAAACATACCGGGTTACGGAAAAAGGTGCCTCAGTCTTCCTCGCCTGGTTGACCGGACCCTATACGCCACCCACCCGCTTTCAGGACCCGGAACTTAACGTTCGCCTGAGCTTCGCGGGGTTTATGGGCCGGGACCAGCTGGCCGCCTTGCTCGACGTCGAAATCCACCACCGGCAGGATGAGATCCGCCGCTACCGGCACCGGGACCGGCATGAAAATTGGGAACCATCCATCCCCTTCGACGAGGAACTGGCCGAATCCGTCAAGGAGCGGCTCCACCTGATGGGTTCTGCTGCCATGGACGCCCACGTCGCTGCGCTGACCGAACTCCGCGAGGAACTCCTCGGCACCCCGCATTCTATGGAAGGAACCCGATGA	MKLEHILLGVLLEHPSTGYDLKKFLDNRGRFMRSNTQMSQVYRSLGLMESQGLVTHKVEHRPGAQDAKTYRVTEKGASVFLAWLTGPYTPPTRFQDPELNVRLSFAGFMGRDQLAALLDVEIHHRQDEIRRYRHRDRHENWEPSIPFDEELAESVKERLHLMGSAAMDAHVAALTELREELLGTPHSMEGTR	PGPT0025575_76	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR|BF-CELL_DENSITY_REGULATION	CE-QSR|BF-BIOFILM-LOW_CELL_DENSITY_REGULATOR,PGPT0025575-aphA-K10917	NA	NA
D1-29_02226	966		COG1262	Formylglycine-generating enzyme	ATGGAGCCATCAGACCGCGCTGAACAATCCGGCTGCTGCGCCCCCTCCAGGGCCGCTGCCGTCACCGAGCAGCGTCAGCCGATGACCGACGTCGGTTCCGCATTCCATGACGACGTCTTACTGCCCGAGGGCACATTCCAGATGGGTGATGCCTTCGGCGAGGGATATCCCTCAGACGGTGAAGTGCCGGTTCATGAGGTCCGGGTTCCGGCGTTCCGCATGGACACGACGTCAGTGACGAACCGAATGTTCGCCAAGTTCGTGACGGAGACCGGTTACAGCACAGAGGCGGAGAAGTATGGAACTTCCGCAGTGTTCCACCTGCTGTTGAAGGCGCCATCAAAGGACGTGCTTGGGGCAGCCGAAAGAGCGCCATGGTGGCTTAACGTCCGCGGGGCGGACTGGGCGCACCCGGCTGGCGCCAGCTCCCACTGGACCGACGCGGCGGATCATCCGGTGGTTCACGTCTCCCACAATGACGCCTTGGCATACTGTTCGTGGGCTCAGCGGAGGCTTCCCACTGAAGCGGAATGGGAGTATGCGGCACGCGGAGGCCTGTCCGGAAAACGATATGCCTGGGGCAATGAACTAACGCCGGACGGAGAACACCGGTGCAATATCTGGCAGGGCACGTTCCCCCGCAGGAACACCGCGAAGGACGGGTTCCTCGGGACTGCGCCGGTTAAATCGTTCGCTCCGAACGGGTACGGCCTATATGAGACTGCGGGAAACGTCTGGGAGTGGTGCGCCGACTGGTTCCTCCCCAAGTACTATCGCAATTCACCAGTCGATAACCCGCAGGGTCCGACCATCGGCGCTGGACGGGTCATGCGAGGCGGCTCGTACCTTTGCCATGACTCCTATTGCAACAGGTACCGGGTGGCCGCCCGCACGTCCAACACCCCGGAATCCTCCAGCGGGAACTGCGGATTCCGGACCGTGTGCCTCGACGGATCAGGTGGTTAG	MEPSDRAEQSGCCAPSRAAAVTEQRQPMTDVGSAFHDDVLLPEGTFQMGDAFGEGYPSDGEVPVHEVRVPAFRMDTTSVTNRMFAKFVTETGYSTEAEKYGTSAVFHLLLKAPSKDVLGAAERAPWWLNVRGADWAHPAGASSHWTDAADHPVVHVSHNDALAYCSWAQRRLPTEAEWEYAARGGLSGKRYAWGNELTPDGEHRCNIWQGTFPRRNTAKDGFLGTAPVKSFAPNGYGLYETAGNVWEWCADWFLPKYYRNSPVDNPQGPTIGAGRVMRGGSYLCHDSYCNRYRVAARTSNTPESSSGNCGFRTVCLDGSGG				NA	NA	NA	NA	NA
D1-29_02227	1779			hypothetical protein	ATGACGCTAACTCCGGAAAGTCCCCTCAGCGATGTTCTGGCAAACCGGGCCGCTCGGGCAATGATCCAGAACTACCTGCCCGGCATCCTCAACTCCCCCATGCTGCATCAGCTCAAGGCGCTGCCGGTGGGCGTGGTCATCGGCCTTAACGCCGAGCTCAGCAGCCGGACTGATGAGCTCGAGAAGCTGTGGAAAGGGCTGGCCGCAGTTCCGGAAGTGGCCAGCGGCCAGTCTCCGCCAAGCGTCAGGGAAAAGCCCCGGGCAGATTACGAACCCGGGTCCGTGGCCCCCGGATCCGCTCCGTTCCGCCACGGCGGAGGCGCCGCCTGCTGGGATATGTTCGAAGTGGTCATTGATGGGCCGGAGCACGGCAACCCCTTCACTGAAGTGGAGCTGACCGCAGCCTTTGTCCACACGGATTCCGGCGCCGCCGCTTCATCAACGGGCGTTGCTGTACACCGGGTCGGTGGCTTCTATGACGGCCACGGGCTCTACAAAATCCGTTTCATGCCCGACAAACCCGGAGACTGGACCTTCCGGACCAGCTCGAATGCCCGATCCCTGGACGGGCTTGAAGGCCGCTTCCACTGCTCCGCTCCCAACCCTGGCAGCCATGGGCCGGTCAGGGTGGCTGACCAATTCCATTTCGCTCACGCTGACGGCCGCCGCTACCGTCCGATCGGCACCACCGCCTACGCCTGGACGCACCAGCCGGCAGAGGTGCAGGAGCGCACACTCCAGACATTGGCCGAGTCCCCTTTCAACAAAATCAGAATGTGCGTGTTCCCCAAGTCCTACCTGTTCAACACCAATGAACCGGACCTGTTTCCTTACGAGCGCACGGCAGACGGCTGGGATTTCACCCGGTTCAACCCCGCGTTCTTCCGGCACCTCGAGGGCCGGATCAAGCAGCTGGCCGGGCTGGGCATCGAAGCGGACCTCATCCTGTTCCACGCCTATGACCGATGGGGCTTTTCAGACATGGGCGCCTCCGCGGACGATCTCTTCGTCACCTACGTTTTGCGACGGCTGGCCGCCTTCGGCAACGTGTGGTGGTCCCTCGCCAATGAATACGACCTCCTCGGTACCAAGAGCCTGGACGACTGGGAGCGCATGGCGGAAGTCATCACTACCAATGACCCGGCCAGCCACCTTCTGTCCATCCACAACTGCTTCGGCTTTTACGACTACACCAAACCTTGGATAACCCACGCGAGCACGCAGCGGATTGATGTCTACCGCACAGCCGAGAACACTGACCAATGGCGGGAAGCCTGGGGCAAACCCGTGGTGATCGATGAATGCGCCTACGAGGGCGATATTGACCAGGGCTGGGGAAACATCACCGGCGAAGAGATGGTGCGCCGCTTCTGGGAAGGGGCGGTACGCGGCGGGTACGTCGGGCACGGTGAGACGTACCTGAATGAGACCGAGGAACTGTGGTGGTCCAAGGGCGGAAACCTGGTGGGAAGCAGCCCGGCACGGATCGGGTTCCTGGCCGGGATTCTCGCCCAGGCTCCCAACGGCGTGCTGGACCCTCTGCCGGGTGACTGGGACGCTCCCCGCGGGGGCGTCCCGGGCGTCCTCGAACTGATCTACTTTGGGTTCAACCGCCCCAGCTACCGGACTATCATGCTGCCGCCGGACACGGTGTGCACTGTGGACGTCATCGACACCTGGAACATGACAATCGAGCGCCTGGACGGGCGGCGGAGCGGAATTTTCCGCGTGGAGCTTCCCGCAAGACAATACATGGCCATCCGGTTGAATATGGTCTAA	MTLTPESPLSDVLANRAARAMIQNYLPGILNSPMLHQLKALPVGVVIGLNAELSSRTDELEKLWKGLAAVPEVASGQSPPSVREKPRADYEPGSVAPGSAPFRHGGGAACWDMFEVVIDGPEHGNPFTEVELTAAFVHTDSGAAASSTGVAVHRVGGFYDGHGLYKIRFMPDKPGDWTFRTSSNARSLDGLEGRFHCSAPNPGSHGPVRVADQFHFAHADGRRYRPIGTTAYAWTHQPAEVQERTLQTLAESPFNKIRMCVFPKSYLFNTNEPDLFPYERTADGWDFTRFNPAFFRHLEGRIKQLAGLGIEADLILFHAYDRWGFSDMGASADDLFVTYVLRRLAAFGNVWWSLANEYDLLGTKSLDDWERMAEVITTNDPASHLLSIHNCFGFYDYTKPWITHASTQRIDVYRTAENTDQWREAWGKPVVIDECAYEGDIDQGWGNITGEEMVRRFWEGAVRGGYVGHGETYLNETEELWWSKGGNLVGSSPARIGFLAGILAQAPNGVLDPLPGDWDAPRGGVPGVLELIYFGFNRPSYRTIMLPPDTVCTVDVIDTWNMTIERLDGRRSGIFRVELPARQYMAIRLNMV				NA	NA	NA	NA	NA
D1-29_02228	861	apnO		D-apionate oxidoisomerase	ATGTCAGCAGAAAAATTGACCGTCGCCGTCATCGGAGCCGGAGGCAAAATGGGGATGCGCGTTTCCCGGAACCTGCAGAAGAGCACCCACACCGTCTTCTACTCCGAGAACTCCCCCGCCGGCCAGGAACGCATCCAGGCCGAAGGCCGCACCATTACCTCCACCGACGAGGCCGTCAAGGGTGCCGACGTCGTGATCCTCGCCGTCCCGGACACCGCCCTTGGCGTCGTCTCCGAAGGCGTTGTTCCGCAGATGAAGGCCGGCGCAATCTTGCTCACCCTGGACCCCGCCGCCGCCTACGCGGGCCTGCTGGCCAAGCGCGACGACGTCGTCCAGGCAGTGGCCCACCCCTGCCACCCGTCCGTGTTCCTCGAGCGCACCACGAAGGAAGAATGGGCCGACACCTTCGGCGGCGAAGGCGCCCCGCAGAACGTCGTGGCCGCCATCGACGACGACGCCTCCGCGGAGACCAAGGCAGCCGCCGAGGCCGTCATCCGCACCATCTACGCCCCCGTCATCGACGTCCACTGGGTCACCGTCAAGCAACTCGCTGTCCTTGAGCCCACCTTGGTGGAAACCGTGGCCTGCATGATCGGCACCCTCCTCAACGAGGCGCTGCACGAGACGGTGCACACCGCCGGCGTCCCCGAGGACGCGGCCAAGGCCATGCTTTTCGGCCACGTCCAGATCGCCCTCACCAACGCGCTGCGCGGCTCCAACCCGTTCTCCGAGGCCTGCGAAATCGCCATCCAGTACGGCAAGGAGACCATCATCAAGGACGACTGGAAGAAGATCTTCGACGACTCCGAGCTGGACAGCGTTATCGCCAAGATGCTCAAGCTGGACGCCGTCCAACGCTGA	MSAEKLTVAVIGAGGKMGMRVSRNLQKSTHTVFYSENSPAGQERIQAEGRTITSTDEAVKGADVVILAVPDTALGVVSEGVVPQMKAGAILLTLDPAAAYAGLLAKRDDVVQAVAHPCHPSVFLERTTKEEWADTFGGEGAPQNVVAAIDDDASAETKAAAEAVIRTIYAPVIDVHWVTVKQLAVLEPTLVETVACMIGTLLNEALHETVHTAGVPEDAAKAMLFGHVQIALTNALRGSNPFSEACEIAIQYGKETIIKDDWKKIFDDSELDSVIAKMLKLDAVQR	PGPT0017515_46	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_APIOSE_CATBALIC_ENZYMES,PGPT0017515-apnO-K23245	NA	NA
D1-29_02229	825	oiaC		3-oxo-isoapionate decarboxylase	ATGAACTCCAGCAACCGGACGGGCCAGGGCTCACGGATCGGTTTGAGCAGCTACGCCTTCTTCTGGCAGCTCTCGGACAAGGTTTCCGAACCGCTCAGCATCCACCAGGCGCTCGAGCGGACCGCCGCACTCGGTGTGGACCTTTTCCAGGTCTGCGACTACGCCCCGCTGGAAGCCATGACGGAATCCGAACTGGAAACCGTCCGGGCCACAGCTGACCGGCTGGGCGTCTCCTTGGAGCTCGGCACCAAAGGCATCCGCCCCGAGCACCTGCGGAAGTTCCTGCGTATTGCCCGCATCCTGGGCTCGCCCCTGCTGCGGACCATGTTCAACGTCCCCGGACACACCCCCACCGCGGAGGAAGCCGTGGCGATCTTCAAAGACGTCCTGCCTGATTTCGAGGCCACCGGAGTGAAGATCGCGGTGGAAACCTACGAGCAGGTGCCCACCTCCCGGATCCTGGACGTGATCCACGGAGTGGACAGCCCCTACCTGGGCATCTGCAGCGACCCGGCCAACACGGTCGCTGCGCTGGAAATGCCGCGCGAGGTGATTGACGCCGTCGCGCCCTACGTCCTGAACATGCACATCAAGGACTTCGCTTTCAGCCGCAAGGACGGGTGGGTCGGATTTACCTATGCCGGCGCACCGCTCGGCGAAGGCCTGCTCGACTACGACTACATGGTCAGCAAGTTCCAGCCCCACCAAAGAAACATCAACCAGATCGTCGAACACTGGCTGCCGTGGCAGGACTCCGAGGCGGAAACCATCCGGCTCGAAAACCAGTGGACCCAACACAGCATCGAATTCCTAAGGAGCAAGTGA	MNSSNRTGQGSRIGLSSYAFFWQLSDKVSEPLSIHQALERTAALGVDLFQVCDYAPLEAMTESELETVRATADRLGVSLELGTKGIRPEHLRKFLRIARILGSPLLRTMFNVPGHTPTAEEAVAIFKDVLPDFEATGVKIAVETYEQVPTSRILDVIHGVDSPYLGICSDPANTVAALEMPREVIDAVAPYVLNMHIKDFAFSRKDGWVGFTYAGAPLGEGLLDYDYMVSKFQPHQRNINQIVEHWLPWQDSEAETIRLENQWTQHSIEFLRSK	PGPT0017510_132	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_APIOSE_METABOLISM,PGPT0017510-oiaC-K23248	NA	NA
D1-29_02230	813	lerI	COG0149	L-erythrulose-1-phosphate isomerase	GTGTCACTTCCTGCTAACCCCGCCGCACAACCGAAGGCCATCATCGGGGTCAGCCTCAAGATGTACTTCGGCTACCAGCGCTCCGTGGACTACTGCCGCGACGTTGCCGCCATCGCCTTGGGGCACCCGGCGGTCCAGAGCGGTGACATAGAACTCTTGGTTCTGCCCACCCTGCCCGCCTTGCCCGAGGCCGCCCGGATCCTGGGCTCAGCGGGAGCAGCCGCCGGTGCCCAGGACATCTTCTGGGAAGACGAAGGCGCGTTCACCGGTGAAGTCGGCGGCAGGACCGTGGCTGAACTAGGCGGCCGCTACGCCGAAGTGGGCCACGCCGAACGCCGCCGCATCTTCGGCGAGGACGAGTCGATCATCGGGCTGAAGACGGCCGCTGCCTACCGCAACGGCCTCACCCCCATCCTGTGCGTCGGGGAACTGCAGCAGGCATCCGTGGAGGCAGCCATCGCCCTGTGCACGGCCGAGATCGACGGCGCACTGAACCGCGCGCAGTCCCTTGCACCCACCGGCCGGACCATCGTGGCCTACGAGCCCCAGTGGGCCATCGGCGCCCCCGAACCCGCGACGCCGGAGTACATCAGCGCCGTTATCACCGGGCTGGACGCGCACCTGCGCGCCTTGCCCGGCCAGGCGGACAGCCGCGTCATTTACGGCGGCAGCGCCGGCCCCGGCCTCATCACCAAACTGGACTCCGCCGTCGCCGGCCTGTTCCTGGGCCGCTTCGCGCACGATCCGAAAGCGCTGAAGACCTTCCTGGACGAGACGGCCGCCCGGCTCGCCGCAGCCGAGGTGACAGTATGA	MSLPANPAAQPKAIIGVSLKMYFGYQRSVDYCRDVAAIALGHPAVQSGDIELLVLPTLPALPEAARILGSAGAAAGAQDIFWEDEGAFTGEVGGRTVAELGGRYAEVGHAERRRIFGEDESIIGLKTAAAYRNGLTPILCVGELQQASVEAAIALCTAEIDGALNRAQSLAPTGRTIVAYEPQWAIGAPEPATPEYISAVITGLDAHLRALPGQADSRVIYGGSAGPGLITKLDSAVAGLFLGRFAHDPKALKTFLDETAARLAAAEVTV	PGPT0018375_20	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
D1-29_02231	471	derI1	COG0698	D-erythrulose-4-phosphate isomerase 1	ATGAGCGCCAAACTGCGCCTGATCGTTGGAGCTGACGACGCCGGTTTCGAGTACAAGGAAGCCTTGAAGGCTGACCTTGAAGCGTCCGAACTGGTCGAATCCGTAACCGACGTAGGGGTGGATGCCACCAGCCACACCCCCTACCCGTCCGTAGCCATCGCCGCCGCTGAACTCATCGCCGCCGGCAAGGCCGACCGCGCCCTGCTGGTATGCGGCACCGGGCTCGGCGTGGCCATCGCCGCCAACAAGGTTCCCGGCATCCGGGCCGTCACCGCGCACGACTCCTTCTCAGTGGAACGCTCCGTCCTGAGCAACAACGCCCAAGTCCTCACGTTCGGCCAGCGCGTCGTCGGCCTGGAACTGGCCCGACGGCTCGCCAAGGAATGGCTCACCTACACCTTCGATGAGACGTCCGCCTCGGCCGAAAAAGTCTCCCTGATTAAGGACTATGAAGGTGTCACTTCCTGCTAA	MSAKLRLIVGADDAGFEYKEALKADLEASELVESVTDVGVDATSHTPYPSVAIAAAELIAAGKADRALLVCGTGLGVAIAANKVPGIRAVTAHDSFSVERSVLSNNAQVLTFGQRVVGLELARRLAKEWLTYTFDETSASAEKVSLIKDYEGVTSC	PGPT0017395_936	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
D1-29_02232	1773	lerK	COG2376	L-erythrulose kinase	ATGACCCGCCTGTTCAACGAACCCGCAGCCTTCGCTGACGAGATGATCGAAGGTTTTGTCGCCTCCCACGGACGCTGGGTAAAACGTGTCTCCGGCGGCGTGGTCCGCAACACCAGGAGCACACCGGAAACCGTGGCGCTCGTGATCGGCGGCGGCTCCGGCCACTACCCCGCCTTCGCCGGTCTGGTGGGCCAGGGGCTGGCTCACGGCGCGGCGATGGGCAACCTTTTCGCATCCCCATCCGCCCAGCAGGTCTACAACGTGGCGAAGGCCGCCAACAACGGCGGCGGCGTGCTCCTGGGATACGGCAACTACGCCGGCGACGTCCTGCACTTCAACCAGGCCCAGGACCGCCTCCGCAAGGAAGGCATTGACTGCCGCAGCATCGCCGTTACCGACGACGTCTCTTCTGCCCCGCTCGCCGAGCGCGCGAAACGCCGCGGCATTGCCGGTGACCTCACAGTATTCAAAGTCGCCGCCGGCGCCGCTGAAGCCGGCTACTCCCTGGATGCCACTGCCGATATCGCCGAGCGGGCCAATGACCGTACACGTTCCTTCGGTGTCGCCTTCACCGGCTGCACCCTGCCGGGCGCCAACCATCCGCTGTTCTCCGTCCCGGAGGGGCGCATGGCGGTGGGTATGGGCATCCACGGCGAACCCGGAATCGACGAAACGGAGATCCCGACGGCGGATGGGCTCGCCGAGCTTCTGGTCGCCAAGCTCCTCACCGAAGTCCCCGAGGGCGTGGCGCCGCCGCGCGACACCAACAAACGTGCCCGGGTAGTCCCCATCCTCAACGGCCTGGGCAGCGTCAAGTACGAGGAGCTCTTTGTGGTCTACCGCCGCGTCGCACAGCTCCTGGCCGAAGCCGGCCTGGAAGCGGTGGACCCGCAGGTGGGCGAACTCGTCACCAGCTTCGACATGGCAGGCACTTCCCTGACCCTCTTCTGGCTCGACGACGAACTCGAGACCCTCTGGAACGCACCCGCCGACGCGCCCGCGTTCCGCCGCGGCGCCGTCACCGCTGAGGCCCTCGAAGCAGGTTTTCCCGACCTTAGCCAAGCGGAGGTCTCCATCCCGGAAGCAACGCCGGAGTCCCGGGCCGGCGCCGCCCGTGTCCTCACCGCCCTTGGCGCCGCCAAAGCCGTGGTGGACGCCAACGCCGACGAACTGGGCCGGATCGATGCGATCGCCGGCGACGGCGACCACGGCATCGGCATGGAACGCGGCGTGCGCGCCGCCGTCGAAGCCGCAACCAACGCCGTCGAACGCGGGGCGGGTGCCGCCACCACTCTGTATTTCGCCGCAGACGCCTGGGCCGACAAAGCCGGCGGCACCTCCGGCGCCCTGTGGGGCATGGCCCTGCGGGCGGTGGGGGATGCCGTGGGAGACAGCCAAGCGCCCGACGCCGCCGCTTTCTCCGCGGGAGTGGCAGGTGCCGCGGCCGCGATTATGGACTTCGGCAAAGCCAAGCCCGGCGACAAGACCCTGGTGGACGTCCTGGTCCCGTTCCGCGATGCCCTGGCATCCGGCGTCGAGGCCGGCAAGTCCCTCACCGATGCCTGGGGCGCCGCCGCCTCGGCCGCAGAGCAGGCCGCCGAAGACACCGCCCAACTGCTGCCCCTCATGGGCCGCGCCCGCCCGCACGCCGAGAAGAGCCTGGGCACCCCAGATGCGGGCGCCGTGTCCATGGCCCTGATCATCCGAGCCATCCACAACACGCTCACCGACTCGAAAGCCGCTGAGCGGACCCCCATTAAGGAGAAAGCATGA	MTRLFNEPAAFADEMIEGFVASHGRWVKRVSGGVVRNTRSTPETVALVIGGGSGHYPAFAGLVGQGLAHGAAMGNLFASPSAQQVYNVAKAANNGGGVLLGYGNYAGDVLHFNQAQDRLRKEGIDCRSIAVTDDVSSAPLAERAKRRGIAGDLTVFKVAAGAAEAGYSLDATADIAERANDRTRSFGVAFTGCTLPGANHPLFSVPEGRMAVGMGIHGEPGIDETEIPTADGLAELLVAKLLTEVPEGVAPPRDTNKRARVVPILNGLGSVKYEELFVVYRRVAQLLAEAGLEAVDPQVGELVTSFDMAGTSLTLFWLDDELETLWNAPADAPAFRRGAVTAEALEAGFPDLSQAEVSIPEATPESRAGAARVLTALGAAKAVVDANADELGRIDAIAGDGDHGIGMERGVRAAVEAATNAVERGAGAATTLYFAADAWADKAGGTSGALWGMALRAVGDAVGDSQAPDAAAFSAGVAGAAAAIMDFGKAKPGDKTLVDVLVPFRDALASGVEAGKSLTDAWGAAASAAEQAAEDTAQLLPLMGRARPHAEKSLGTPDAGAVSMALIIRAIHNTLTDSKAAERTPIKEKA	PGPT0018355_10	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
D1-29_02233	1365	ttuB		Putative tartrate transporter	GTGGACACCACACAATTGGTGGTCGAAAAATCTGCAATCAGGAAAGTGGCGATCAGGCTTGTCCCTTTCGTGGCCCTGATGTTCTTCATCAACTATCTGGACCGTACGGCGATCTCCTTTGCCGGCCCCAACGGCATGAACGCCGACCTGGCCCTCTCCGCGGCGCAGTTCGGCTTCGCCTCGGGCGTCTTCTTCATCGGCTACATCCTGCTGGAGGTCCCCAGCAACCTGGCCCTGCACAAGTTCGGCGCCCGCCGCTGGCTCGCCCGCATCATGGTCAGCTGGGGCATCGTTTCCCTGCTCTTTACCTGGGTGGGGAACGTGGAGCAGCTCTACATCCTGCGGTTCATCCTGGGTGTGGCTGAGGCCGGCTTCTTCCCCGGCGCCATCCTCTTCCTGAGCCTCTGGGTCCCATCGCGGCACCGTAGCAAGATCCTTGCCCTCTTCTACCTGGCACAGCCGCTGACCACTGTGATCGGTGCCCCGTTTGCGGGCCTCCTCATCCAGCAGGACGGCCTCTTCGGCCTTGAGGGTTGGCGGGTCATGTTCTTCGGCGTTGCGCTCCCCGCCATCATCGTCGGCATCATCGCGTGGTTCTACCTGGCCGACTCCCCCGCAAAGGCCAAATGGCTGACCCAGGAAGAAAAGACCTGGCTGACAGGCGCCCTTGAGAAGGAAAAGAACGAAACCGTTTCCAGCAACAAGCACGTCAGCGTCCGGACGGTGTTCGGCAACGGCCGTGTCTGGATGCTCTCCGCCATCTACTTCGGCTTCATCTACGGCCTCTACGCACTCGGGTTCTTCCTGCCAACCATCATTGCCGGCTTCGAAGGCATCTACGGCACGAAGTTCGACGTGTTCCAGAAGGGCCTGATCACCGCGATCCCGTACCTGCCGGCAGCATTTGCCCTGTATTTCTGGTCAAAGGACGCCACCAAGCGAGGCGTGAAGACCTGGCACATTGCCCTTCCCGCCCTGACGGGCGCCCTCAGCATCCCGCTGGCCCTGTTCGCCAGTTCACCGGCCGCTACGATCGCCGTCATCACCATCACCGCAATGTCCATCTTCGCGGCGTTGCCCAACTTCTGGACGGTGCCCACCCAGTTCCTGACCGGTGCGGCAGCAGCGGCAGGCATCGCCCTGATCAACACTGTGGGCAACCTGGCCGGCTTCAGCGCAGGCTACATCACGGGCTGGCTCAAGGACCTCACCGGCAGTTACACGGTGCCGATGTTCGTCGTCGGCGGCTTCATGCTCCTGTCCTCCATCCTCATGGTCACGCTGAGCCGGGCCGGCAAGGTCAACGAGGGTGTACCTGCTGAAGCGCTGGACCCCGCCGGCGCAGGACACCACGCCGAGCCGTAA	MDTTQLVVEKSAIRKVAIRLVPFVALMFFINYLDRTAISFAGPNGMNADLALSAAQFGFASGVFFIGYILLEVPSNLALHKFGARRWLARIMVSWGIVSLLFTWVGNVEQLYILRFILGVAEAGFFPGAILFLSLWVPSRHRSKILALFYLAQPLTTVIGAPFAGLLIQQDGLFGLEGWRVMFFGVALPAIIVGIIAWFYLADSPAKAKWLTQEEKTWLTGALEKEKNETVSSNKHVSVRTVFGNGRVWMLSAIYFGFIYGLYALGFFLPTIIAGFEGIYGTKFDVFQKGLITAIPYLPAAFALYFWSKDATKRGVKTWHIALPALTGALSIPLALFASSPAATIAVITITAMSIFAALPNFWTVPTQFLTGAAAAAGIALINTVGNLAGFSAGYITGWLKDLTGSYTVPMFVVGGFMLLSSILMVTLSRAGKVNEGVPAEALDPAGAGHHAEP	PGPT0002325_143	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-ORGANIC_ACID_METABOLISM	P-SOLUBILISATION-TARTARIC_ACID_TRANSPORT,PGPT0002325-ttuB-K13021	NA	NA
D1-29_02234	837	nanR_1		HTH-type transcriptional repressor NanR	ATGAAATTGGTCAACCGGTTGACGTGTGCAGGTCCTTTTGGATGTCCTGTCGTCGAGGCGCCGGGCGCCGCGGCCCGTTGTTACGCTTGGGATGTGTCCATAAACTCAGCCGCGTCGGCGGCCAAGATCAGCGAGGCCCTCGGTTCAGTGGGTCAGGGGTCCGTTGTGTCCGAGGTCGCCGAGCGCCTGCTGGCCTACTTCACCAGCGGTGATATCGCCGTCGGGACCAGGCTCCCGGCAGAGCGCCAGCTCGCCGCGTCACTGGGAGTGGGCAGGTCTGCCGTGCGCGAAGCCCTCGCGGCCCTGGAAATCTTGGGCATCGTGATTGTCCGTCCGGGATCCGGCACGTATCTCCGTGACGGCATCTCCGAACTCCTGCCCCGCACGTTGAGCTGGGGCCTGATGCTTGGGGCGCCTCGAACCCGCGAGTTGGTGGAACTTCGGAGCGGCCTCGAAGTCCAGGCCGCACAGCTCGCCGCCGACCGCATCACCGATGAATCGCTGGAGCGCATGCGTGGGAACCTCGCCAGCATGGCCGAAACACTGGATGATCTGGCAGCGTTCGTCGAAGCGGACGCATTGTTCCACCGTGAGATTGCTGAAGCCTCGGGAAATCAGGTCCTGCAGGAACTGCTGCAGAGCATCCGGTCCCTGCTTCGGATCTGGGTGGACCGCGCTTTGACCGATGAAGGCCATGCCGCCGCCGCCCTCAAGGAGCACTCGGAAATTTTTGCAGCTTTGGAGGCGCGTGACCTGGAAGCCGTTACCAGGACCATGCGTTCGCACATGGAGACTGCGTCCCGCCGCCTTCTTGCCGGCTTTGATGCTTCGCAATAG	MKLVNRLTCAGPFGCPVVEAPGAAARCYAWDVSINSAASAAKISEALGSVGQGSVVSEVAERLLAYFTSGDIAVGTRLPAERQLAASLGVGRSAVREALAALEILGIVIVRPGSGTYLRDGISELLPRTLSWGLMLGAPRTRELVELRSGLEVQAAQLAADRITDESLERMRGNLASMAETLDDLAAFVEADALFHREIAEASGNQVLQELLQSIRSLLRIWVDRALTDEGHAAAALKEHSEIFAALEARDLEAVTRTMRSHMETASRRLLAGFDASQ				NA	NA	NA	NA	NA
D1-29_02235	1908	apnL_2		D-apionate lactonase	GTGTCTGTCCAGCCCCCGAACAACCAACCACAAATCCCGTCTTCCCTCCGCGCCCGCCTTGCGCCGCCGGTACGGCTCCTGGCCGCCGGGCCGTGGTCTGCCCGGCTTGTAGGCGACGAACTGGCCCATCTCAGCTATGCGGGCCGGCCTGTACTGCGGGCTGTCAAGGCCGTGGTCCGCGACCAGGACTGGCGGACACCCCAACCTTCCGTCGCCACTGTGAATGTCACCCAGGGCGACGACGGGCTGCATGCGCGCTGGACAGTAAAGTATGCCGGTTATGGCGTGGAGTACGACGGCGTCCTGATGGCAACCTTTACCCCCGCCGCGGTGGAGATTACCTTCGAAGGCACTGCAGCCCACGCCTTCTGCAGAAACCGGATTGGGCTGGTGGTGCTCCATCCGCCGGCAGATGCGGGGCGGGACGTTGCTGTGGAGCATACGGGCGGCGACATCACGGCCGCACAATTCCCGCGGGACATCAGTCCGCACCAGCCCTTCATGGACATCGCTGCCCTGGAATGGGCCGACGCGGGCACCTCTTTCCGGCTTTCGTTCACCGGTGACATCTTTGAGACCGAGGACCAGCGGAACTGGACGGATGCCTCCTTCAAGACCTACTGCACGCCGCTGGAGCTGCCCTTTCCGGTGGATGTCGCGGCGGGGGACACCGTCCGGCAGTCCGTGCTCTTGGAGGCGGCGACCTTCGAGCCACAGGAAGCGGTGGAGATAGCGGCCGCGGGAACGTTGCGCGGCGTGCCCGATGACTTCCGCCGGTTCCGTGCCAGTGTGGGGGGTATCGTCGGCCAGGTTCCAGCCCTCGCCGTTGTGGCGGGGCAGTCCCCGGAAATACTCGCGCCGATCCCAGGCCTGGACGCCCTCGTGGTGGAACTCGTTGAGCAGCACGGTGATGCCCCTCGCTCCGGTTGGGGCGCCGAACTTGAGGCAGCCGCAGCTGCCGCTGCCCTCCACCCGGCCGCTCTGGACATCCGGGCAGTGACCCCGGACCCCGTCGGCGCCGTGGCGGACCTCGCACCCTACCTTCCCGATGCGAAGCGACTCGCGGTCTTCCACCCGGGCAGCCACCTCACGGAACCTGATGGCTGGCAGGAAGTCAGGGCAGCGGCGCAAACGGCCGGCTTCAGGGGTGGGCTACTGGCGGGCGTCCGGTCCCACTTCACGGAACTGAACCGCAACAGCGGCCGCACGCCGTCGGACTCCGACGCCCTCACGTTCAGCATCACGCCCCAGATGCACAGCACCGAAACTGCGCACATCATCGACAGCGTGCCCGTGCACCGGCTCGTTGCCCGGAACGCGCTGCGCCTGGGCGGTGGCCGGCCGCTCCATGTGGGGCCGGTGACGCTCCTGCCGCGCTTCAACGCGGTGGCGACGTCGGGCGATGGCGGCGAGGCGGAGGCCGACGAACTCCAAACCCACCCGTTCACTGCCGCCTGGACCCTTGCCAGCATCGGGGCGCTGACCATGGACGGTGTTGCGTGCATCAGCTACTTCGAGGCGTCCGGTCCGAGGGGCATCTGCGACCACGAGGGCCGGCTGAACCCTGCGGGCGAGCTCCTGAAGGAACTCGCTGCCCTCAGGGGCAACCCTGTCCTTGCGGTTGACGTACCGGCTGCCCCACCGACCGCGGACACTGCGGTGACTTTGTATGCCGTTCAGTCTCCGGGTGGCCTGATGATTTTCGCGGCCAACCTCTCCGGGGCAGCGGCTGAGATTGACCTCCAGTTGCCTGGGTCCGTCACTGCTGGTGCAAGTGAGTGCACGGCCTTCGGGCCCGGCGCCGGCTCCGTCATCACCTTCGATATCCAGGACGACGGCCCCCCGCGCGGACTGCTGACGCTCGGACCCTGGTCCGCCGGCGTCGTGCGTTTTCCGGCACCCAGCTGA	MSVQPPNNQPQIPSSLRARLAPPVRLLAAGPWSARLVGDELAHLSYAGRPVLRAVKAVVRDQDWRTPQPSVATVNVTQGDDGLHARWTVKYAGYGVEYDGVLMATFTPAAVEITFEGTAAHAFCRNRIGLVVLHPPADAGRDVAVEHTGGDITAAQFPRDISPHQPFMDIAALEWADAGTSFRLSFTGDIFETEDQRNWTDASFKTYCTPLELPFPVDVAAGDTVRQSVLLEAATFEPQEAVEIAAAGTLRGVPDDFRRFRASVGGIVGQVPALAVVAGQSPEILAPIPGLDALVVELVEQHGDAPRSGWGAELEAAAAAAALHPAALDIRAVTPDPVGAVADLAPYLPDAKRLAVFHPGSHLTEPDGWQEVRAAAQTAGFRGGLLAGVRSHFTELNRNSGRTPSDSDALTFSITPQMHSTETAHIIDSVPVHRLVARNALRLGGGRPLHVGPVTLLPRFNAVATSGDGGEAEADELQTHPFTAAWTLASIGALTMDGVACISYFEASGPRGICDHEGRLNPAGELLKELAALRGNPVLAVDVPAAPPTADTAVTLYAVQSPGGLMIFAANLSGAAAEIDLQLPGSVTAGASECTAFGPGAGSVITFDIQDDGPPRGLLTLGPWSAGVVRFPAPS	PGPT0019151_27	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_APIOSE_CATBALIC_ENZYMES,PGPT0019151-apnL-K23246	NA	NA
D1-29_02236	756	bacC_5		Dihydroanticapsin 7-dehydrogenase	ATGGGTCTGCGTCTTGAAGGAAAAACTGCCCTGGTCACCGGAGCGGGTTCGGGGATCGGCCTCGCCGTTGCCCTGCGGTTCCTCGCCGAAGGGGCCGTTGTCTACTTCGCGGACATCAATGTGGAGGCTGCCGAAAAAGCCGCGGTGGCCACCGGGTCTGCCGGCGCCAGGTCCCTGCGTATGGACATCTCGGATGAAGAGAGCGTGGCCGCCGCGTACGCAGCCGTGGCCGAGGCCGGACACCTTGACGTGGTGGTGGCGAACGCCGGTGTGCAGCTCTTCGGGCAGGACGCCAAAGTGGGCGACCTGGAACTCGCGGTCTGGGAGAAAACAGTGAGCATCAACCAGCGTGGTACGTTCCTGACCCTCAAGCACGCCGTCCGGGCCTTGGAGGGGCGCGGTGGATCGATCATCTGCACCGGCAGCCCCACGGCCGTTGTGGCCTGCGGCCAGACGTTCACCGCCTACACCAGCTCGAAGGCAGGTGTGCATGGTTTGGCCCGGGTGGTTGCGGCCGATTATGCCCACTCAGGAATCCGCGTCAACATCGTGGTCCCTGGCTACACGGAAACCCCGCTGGTCCAGGCCATCGCGGATGACCCCGTCAGCCGCGCCGGCCTGGTGAATTCCACCATGCTGGGGCGTCCCGGGACGGCGGCCGACGTCGAGGGAATCATGGTGTTCCTCGCCAGCGACGACTCCTCCTACGCCACCGGGGGCATCTTCACCGTGGACGGTGGCCTGACGGCCCTGTAG	MGLRLEGKTALVTGAGSGIGLAVALRFLAEGAVVYFADINVEAAEKAAVATGSAGARSLRMDISDEESVAAAYAAVAEAGHLDVVVANAGVQLFGQDAKVGDLELAVWEKTVSINQRGTFLTLKHAVRALEGRGGSIICTGSPTAVVACGQTFTAYTSSKAGVHGLARVVAADYAHSGIRVNIVVPGYTETPLVQAIADDPVSRAGLVNSTMLGRPGTAADVEGIMVFLASDDSSYATGGIFTVDGGLTAL				NA	NA	NA	NA	NA
D1-29_02237	855	menH_2		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGTTGCCTTCTGATAGGTTCATCGCTGTGAAGACGATGATGTTTGGCACTGGTAACGATGTTCAACTCGAAATGCTTGCCGCTGTTCCTGCTGGTCCGGCCGGGCTCCGTCCTGCGCTGCTCCTTGTGCATGGGCTCGGCCATGACGCCGCATGCTGGCGCAACTGGATGCAAGCGGCTTCCGCTGACGGCTATGCGGCTTACGCGATCTCCCTCAGAGGTCACGGCGCGAGTGGAGGAAGCCTGCGCTCGGCGTGGCTGAAGGACTATGTTGCTGATGTCCTTCGTGCAGTCGAAGCTGTCGATGCTAATGAGCTCGTCCTGATTGGGCACTCACTTGGTGGCTTGGTCGTGCAGCGGGTGTTGGCACTGAAGCCGGCAAAGGTAAGCGCGGGCGTGCTCGTTGGCTCTATCACTTCCGGTCCGGCCTTCGGGACGGTCATATCGGTGCTGCGACACCATCCTTGGCAAGCGATGCGGTTTCTCGCGGGTCGAAGCCTTCGGCTGCCACCAGGCATGCTGTTCGAGCGGATGGGCACTGAGGAGGCGGCGGAGGTTTCCCGATCGCTTTGTGGCGGGTCACCCTGGATCCAGTACCAGCTGCTTTTCCACCTGCCGTCGAGGATGTCTGCATATCCGCTCCTCTCCGTCTACAGCAAGCACGACCGAATGGTGCCCGTGCGGTCAGCGCGCGCAACCGCACGACGCTATGGTGCCGACATGCGGGAGATCGCCGGGATCGGGCACGACATGATGCTCGACGGCGGCTGGGAACACCCCTGGAGCGTGATCAGTCACTGGTTGAAGGCGCTGCGGATCGAAGCCTTCTCCCGTGAAGGAAAGCAAATCGGTTGA	MLPSDRFIAVKTMMFGTGNDVQLEMLAAVPAGPAGLRPALLLVHGLGHDAACWRNWMQAASADGYAAYAISLRGHGASGGSLRSAWLKDYVADVLRAVEAVDANELVLIGHSLGGLVVQRVLALKPAKVSAGVLVGSITSGPAFGTVISVLRHHPWQAMRFLAGRSLRLPPGMLFERMGTEEAAEVSRSLCGGSPWIQYQLLFHLPSRMSAYPLLSVYSKHDRMVPVRSARATARRYGADMREIAGIGHDMMLDGGWEHPWSVISHWLKALRIEAFSREGKQIG				NA	NA	NA	NA	NA
D1-29_02238	1467	mhbT		3-hydroxybenzoate transporter MhbT	GTGCCCAGGATTCACCAGCACTACGAGCTATGCATCGGCTCACGCATGCCAATGACGGCTTGCATCAGAAAGGCGAACAACATGGCAATTGCCAACGAGGCGTCAAAGACGACCGACCTCCGGACCTCGGCTTCCCCCCGCTTGACCGTTCAGGAATTACTCAATCAGGCGCCGCTGGGCAACAGGCGGCGCGTGATCATCCTTCTCGGGTTCCTGACCATGACCCTGGAGGGAGTTGAAATCGGCCTGTGGGGATTCATCTACCCCCAAATAGTCACCCAGTGGGGTACGTCGCTGGCAACAGTGACAACCATGGTCACATTGGGAGTTGTTGGGCTCACCGTCGGTTCGATGGTTGCCGGCCCGCTGTCTGACCAGATTGGCCGCAGGCTCCCGATCATCGTGGGCACGGCAGGGTTCGGGCTCGCCACCTTAGGCGGCGCCCTGGCACCAAACGACCTGACATTAGGAATCTTCCGGGTAGTGGCGTGCCTGTTCCTGGGAGCCGTGATGCCCCTGGTCATCACGCTCGTGGCCGAGTTCGCACCTGAAAAGCGGAAGGCCGCCATTGTGGCGATCACGTTCACCGGATTCCCGCTGGGGACGGTCATCACCGGCTTCCTGGCATCAACCATCATTCCCACCCTGGGCTGGCAGTGGCTGCTCGGGACCGGAACTGTCCTCGCCTTGATCCTGCTGCCCGCACTGGTGTGGGGCCTGCCAGAATCCACCGTATTCATGATTCGACGGGGAGGCCGGACAGAAAACGTCACGAAGGTACTGGGCGCCATCATTCCCGGGTTCGACATGAAGACGGTGGACCTCACAGGAGCAGCACCTGCAGACGGTGCCAAGCCGGTTGGAGGAGTCAGGGCGGTGCTGTCCAGAAAACTTGTGGTGGTGTCGCTGCTGATCTGGCTTTGCTACTTCATCTGCGCCGCAGTGGTCTACATGTTCCTGAACTACCTGCCGCTCATCGTCAAGCAACTCAACATCGACGCCGCGGGCACGGGCAATGTGGTGTCGATGTTCGGCCTCGGCGGTGTGATTGGAGCTTTGGCCATCGGTTTTGCCATGGAGAAGCTGGGCAAATATGTTTCCCTCGGCGCCGCTTTCACGCTGGCCGCCGGAGCGGCTTGGATCCTGGCGTCAGTCAACCTGACCTTGCCACTGCTGCTTGTCCTGGGCTTCACCATAGGCGTGGTGCTGGTGGGAGCCAATAGCGGCATGAACGCACTGAGCACATCGGTCTTCCCCACAGAAGCGCGCGCCACCGGTGTGTCATGGATGCACAGCTTCGGCAAGGCCGGTTCCATCGTCAGTGGTGTGCTGGGTGGCGTGATGCTGGGCGCAGGATGGGGCGTCGACCAGATCTTCTTCGCCCTGGCCATTCCGCTCCTGGCGGGAGCTGCGGCCGTGGCTGCAGTCAGGGCGATGACCACACGGCGTTCACGCACAGCTGCATAG	MPRIHQHYELCIGSRMPMTACIRKANNMAIANEASKTTDLRTSASPRLTVQELLNQAPLGNRRRVIILLGFLTMTLEGVEIGLWGFIYPQIVTQWGTSLATVTTMVTLGVVGLTVGSMVAGPLSDQIGRRLPIIVGTAGFGLATLGGALAPNDLTLGIFRVVACLFLGAVMPLVITLVAEFAPEKRKAAIVAITFTGFPLGTVITGFLASTIIPTLGWQWLLGTGTVLALILLPALVWGLPESTVFMIRRGGRTENVTKVLGAIIPGFDMKTVDLTGAAPADGAKPVGGVRAVLSRKLVVVSLLIWLCYFICAAVVYMFLNYLPLIVKQLNIDAAGTGNVVSMFGLGGVIGALAIGFAMEKLGKYVSLGAAFTLAAGAAWILASVNLTLPLLLVLGFTIGVVLVGANSGMNALSTSVFPTEARATGVSWMHSFGKAGSIVSGVLGGVMLGAGWGVDQIFFALAIPLLAGAAAVAAVRAMTTRRSRTAA				NA	NA	NA	NA	NA
D1-29_02239	633			hypothetical protein	ATGGCTGGATTTGTAACACTCGGAGTGTATGGAGTCTCACAAGCACAAAGGCAGGATCCGCGCGGCGTCATCGTTCTTGTCCTGCTGGTGTGCGGACTCGTACTGATACTGACCCTTGCTTTACGGCAATATCGCAACATCCGAAACGGCCGCCGGATGTTGGCAGGAAAATCGTTCCGTGCGTACACCTTTCATACTTCTGCCGATGCAGAGTACGGACACGCACCCGCGACTGTCTGGGAGCTGATCCGACCTGCCGAGGCTGCCATCCTCCTCGATGGCGCTGCCAAGGCATTCACAGTCCCGGGCACCCCAGGCGGGGAAGGCGAGTTGCAATGCTTTATTTCAGCAGAGGGTCAGGTTTCGGCCATCGAAATTCTCAGCGAGGACGCTGGCCGTTCCGCCGTGACTAGGGCGGTCAATTCTTCCGAATACGCATCGGTTGAGACCCGCTACACCCTCGAACCCATCACGGCTGGTTGCCGGCTCACCATGGAAGTTCTTTATGAGTCCCCCGTTCCAATGCCCTCTGCACAGAAGCACGCGATCCGGGCGCATAGCCGAGGGTTTCTGGAAAAAGTACGGCATTTGCTGGACACGCAATCTGCGCAGAAGATCGAACAGGGCCTCTAA	MAGFVTLGVYGVSQAQRQDPRGVIVLVLLVCGLVLILTLALRQYRNIRNGRRMLAGKSFRAYTFHTSADAEYGHAPATVWELIRPAEAAILLDGAAKAFTVPGTPGGEGELQCFISAEGQVSAIEILSEDAGRSAVTRAVNSSEYASVETRYTLEPITAGCRLTMEVLYESPVPMPSAQKHAIRAHSRGFLEKVRHLLDTQSAQKIEQGL				NA	NA	NA	NA	NA
D1-29_02240	975	pip_2		Proline iminopeptidase	GTGCCTTACCCGATCCCAGAGCCTTACGACGCCGGAATGCTCGATACGGGCGACGGCCACCGGATCTATTGGGAGGTTTGCGGAAACCCGCAGGGCAAGCCGGCCGTCGTCCTCCACGGTGGTCCGGGGTCCGGGGCTGCCCCGTGGTGGCGTCAGTACTTCGACCCGGACCGCTATCGTGTTGTCCTGTTCGATCAGAGAAGCTGTGGCCGCAGCCTGCCGAACGCCTGCGACGACCTTGCCGGTCTTGAAAATAACACGACCGCCCACCTGCTGACAGATATGGAGCAGCTGCGCGAGCACCTTGGCATCGATCAATGGCTGCTCTTCGGCGCCTCATGGGGATCGACCCTTGGCCTGGCCTACGCGGTGGAACATCCGCACCGTGTCTCGGAGCTCGTGCTCTGGGCGGTGGTGACCACCAGGGCGAGCGACGTGGCTTGGCTGACGCACACCATGGGGCAGATCTATCCGCAGGAGTACGACGAATTGCTGGCAGCCGTGCCCGCTGCTCAGCGGGACGGCAACATCACGGCGGCCCTCCAGGAGCTGCTTCGTTCAAGCGATCCGGACGTGAGTGGGCCTGCCGCTCTTGCCTGGTGCAAGTGGGAGGACCGCCTGGCCACCCTCAGTGGTCCGGTTCAGCCGAGCGCACGTTTCCGGGATCCGCGGCAGCGTCTTGGCTTCGCCAGGCTGGTCACGCACTACTTCGGCAACCACGCTTTCCTCGATGACGATGCGATCACCGGCCGCCTGGACCGGCTGAGCAACGTTCCAGCGTACTTTTTGAGGGGGCGGCTGGATATAGCGTCACCATTGAGAAGCGCCTACGAGGTTGCTGGCAGACTGCCGCTCGCAACGCTTGAGGTGGTGGAGGCTGACGCACACGGCGGTGGCGACAACACCCAGGCCAGGCTCGTCGAGGTGCTGGACAATTTCGCCGGACCCCGTCACAGGACTTCGAGCCGGCTTTGA	MPYPIPEPYDAGMLDTGDGHRIYWEVCGNPQGKPAVVLHGGPGSGAAPWWRQYFDPDRYRVVLFDQRSCGRSLPNACDDLAGLENNTTAHLLTDMEQLREHLGIDQWLLFGASWGSTLGLAYAVEHPHRVSELVLWAVVTTRASDVAWLTHTMGQIYPQEYDELLAAVPAAQRDGNITAALQELLRSSDPDVSGPAALAWCKWEDRLATLSGPVQPSARFRDPRQRLGFARLVTHYFGNHAFLDDDAITGRLDRLSNVPAYFLRGRLDIASPLRSAYEVAGRLPLATLEVVEADAHGGGDNTQARLVEVLDNFAGPRHRTSSRL				NA	NA	NA	NA	NA
D1-29_02241	954	tehA	COG1275	Tellurite resistance protein TehA	ATGCACCCCTTCAACCTGTTTGCCGTTCCGCTGGGCATCTCCGGGTTGGGGGGTGCCTGGCAGGCAGCCCGTGTGACTCTTCACGCCCCGGCGTGGCCGGCGGAAGTGTTCTATGGGATCAGTGCCGCCATCTGGTCGGTCCTGGTTGTCTGGTACCTGGCGAAAAGTTTCCGGAAGAGGTCCAAGGGACACTTCGACAAAGAGATAAGACATCCCGGAAATGGCCCGTCGGCGTCCTTCATTCCCTTGGTGGGCATCCTCCTGAGCAGCCACTACATCGAATACAACAAGGTGTTCTGGTCTGCCCTGTGCCTGTTCTTCGTCATCGCTCTCACGCTCCTCGGAGCCAGGCTCCTGGTCCATTGGGTGACCGGCGGAGTGACCCTGGAATGGGTCCACCCGGGTTACCTGCTTCCTGTCGCTGCAGGTCCATTCATCGCCAGCATCGGCTTCTCCATCATGGGTTGGCCCCAAGCGGCTGTCGCTGCCTGGGGAACCGGTGGATTTTTCTGGCTGATGATCGGGACTGTGGTGACTGTGCGTTTCATGGCGGGGATTGAAATGCCGGAGGACCTGAAGCCCGTCCTGGCCGGATACCTGGCCGCGCCCGCCACGGCCTGCGTTGCGTGGATAGTGATCCGCCCGGACGGTTCCGGAATCATCCAGCTGGGGCTTACAGGAGTCCTCTTCATGATGATTCTGATGCAGGTTTTCCTGATCCCCCAGTACGCCAGCCTGCCCTTTTCGCTGACGTTCTGGATCTTTACCTTCCCGGTGTCAACGTCGGCGAACTACGGCATCAGATGGCTCGGAACCCTCGGCGTCGCCGGCTCGGACCTGATCTCTTGGACCCTCGTAGGCCTTGCCACGGCTTTTGTCCTTGGTATCGGAATACGGACGCTCGTGCACGGCTCTTCGGCCACTAGACGTGCTGGGGCTTTGGCGCAGCCGTAA	MHPFNLFAVPLGISGLGGAWQAARVTLHAPAWPAEVFYGISAAIWSVLVVWYLAKSFRKRSKGHFDKEIRHPGNGPSASFIPLVGILLSSHYIEYNKVFWSALCLFFVIALTLLGARLLVHWVTGGVTLEWVHPGYLLPVAAGPFIASIGFSIMGWPQAAVAAWGTGGFFWLMIGTVVTVRFMAGIEMPEDLKPVLAGYLAAPATACVAWIVIRPDGSGIIQLGLTGVLFMMILMQVFLIPQYASLPFSLTFWIFTFPVSTSANYGIRWLGTLGVAGSDLISWTLVGLATAFVLGIGIRTLVHGSSATRRAGALAQP	PGPT0004920_606	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004920-tehA-K03304	NA	NA
D1-29_02242	852	gloB_3		Hydroxyacylglutathione hydrolase	ATGGCACCCACAACCGAGCTGGCTTACGACGTCTTCGTCTCCGGCACCCTGCCTCAAACAGGACGAGGGACCCTCCCGAACGGGGACCCGCGCATCTGGTCCCCGCTGTCCGCAACGCTGATCTCCGGGCAGGAGAACGCGGTGCTGGTTGACCCGCCCATGACGGTGGAACAGACACAGAAGGTGGGCGACTGGATCGAGGCATCGGGGAAGAACCTCAGCCACATCTACATCACCCACGGCCACGGTGACCACTGGTTCGGCGCAGGCCCGCTGGTAGCGCGGTTTCCGAGCGTCACAGTACTCGCAACCCCGGGCACGCTCCAGGAGATGGAAATGCACGGCTCCCCCGGGTTCCGCTCCTCTTTCTGGGACTCGATTTTCCCGGACCAGATTCCGCCCACCACCACGGTGACCCAGCCGGTCGAAAATGGATCCTTTGAACTGGAGGGGCATGAACTGCGGATCGTTGAAGTGGGCCATACCGATACTGACAACACCACTATGCTGTTCGTTCCATCCATCGGGCTCCTGGTAGCCGGGGACGCCGTCTACAACGGGGTCCACCCCTACCTGACTGAATCTCAGGACGGAGGCATTGAATCCTGGCTGCGGGCGCTTGATATCGCGGAGAGCCTCGAGCCAAAGTTCGTGGTGGCCGGGCACAAGAACCCCGCATTGCCTGATCTGCCCGGGCAGATCCAGGAGACCCGCGGGTACCTGCAGGACGCGTCGAAGCTCCTTGCCGAAAAGCCGACGCCGGAGGAGTTCTTCTCGGCAATGCTTGCCCTGCATCCTGACCGGATCAACCCCGGCGCTTTGTGGGGTGCGGCCCTGAAACTGCTCAGTTGA	MAPTTELAYDVFVSGTLPQTGRGTLPNGDPRIWSPLSATLISGQENAVLVDPPMTVEQTQKVGDWIEASGKNLSHIYITHGHGDHWFGAGPLVARFPSVTVLATPGTLQEMEMHGSPGFRSSFWDSIFPDQIPPTTTVTQPVENGSFELEGHELRIVEVGHTDTDNTTMLFVPSIGLLVAGDAVYNGVHPYLTESQDGGIESWLRALDIAESLEPKFVVAGHKNPALPDLPGQIQETRGYLQDASKLLAEKPTPEEFFSAMLALHPDRINPGALWGAALKLLS				NA	NA	NA	NA	NA
D1-29_02243	501			hypothetical protein	GTGGTCTCCCAGGTACCCGCCATCAACGGCCATGTGGCCGGTTCCCGGCGTGCGATAGGCGATGCCAAGACGGCGCTGGAACAGTCCTTCGTGGACGACGAACGGGACCAGGCCGCCGGTAAGGCACCCAGAATGATCGCGGTGGTGAGCAGTGACCCAAGCCAGGCTGCCGCGTACCGGCTGCCCTCCGCCGTCGCCTTCTATACACAGCCCGGCCCGGAAGAATTCGGCTGGGACAACACCGTTACTCTGCAGTCCACCCGGGCAGCGCGCCTCTACGAGCCCGGGGTCTGGGCCTCACGGGTGTCACCCAAGCCGCTGCTTTTCATCGTGGCTGAGGATGACGAACTGACCGGCACTGACCTGGCCCTGGAAGCCTACGAACAGGCCCAGGAGCCCAAATCCCTGGTGATGCTTCCGGGCGGGCACTTCGAGCCGTACGTCGAGAACTTTGAAGACTCAAGTTCCGCCGCCCTCAGCTGGTTCTTGCAGCACCTCTAA	MVSQVPAINGHVAGSRRAIGDAKTALEQSFVDDERDQAAGKAPRMIAVVSSDPSQAAAYRLPSAVAFYTQPGPEEFGWDNTVTLQSTRAARLYEPGVWASRVSPKPLLFIVAEDDELTGTDLALEAYEQAQEPKSLVMLPGGHFEPYVENFEDSSSAALSWFLQHL				NA	NA	NA	NA	NA
D1-29_02244	855			IS3 family transposase ISBli34	GTGAAGGTCCATGCTCTCATCGCCCTCAAGGCTGACTTCCCACTTCCGGTTCTGCTGCAGGTCTCAGGTCTTGCCCGATCGACATTCTTCTATCACCAGGCCCGTCTCCAAGCCCCTGACCCGCAAGCGGAACTCAAGAGCGCAACCACGGAGATCTTCACGACCAACCACGGCCGGTACGGGCACCGGCGCATCCACTCTGAACTGCTCAAGCAGGGCTGGGGGATCGCGAAGAAGACCGTGCTGAAGCTGATGCGTGTGCTGGGGCTGGTGTGTAAGGTCCGGCGGAAAAAGCGCTACAACTCCTACCAAGGCGGACAGGGCACTGTCGCGCCGAACCTGCTGAACCGCAAGTTTGACGCCACCGCCCCAAACCAGAAGTGGGTGACCGACGTGACCGAGTTCAGCGTCGGCGACCGGAAGCTTTACCTCTCACCAATCATGGACCTCTTCGACCGGCAGATCATTGCCCATTCAATCGGCACATCCCCGAGCCTGGCGCTCACCAACGCTGCGCTGCAGCAGGCCCTGGCCTGTCTTCAGCCCGGTCAGCAGCCACTCGTCCATTCCGACCAGGGCTTCCAGTACCAGCACACCTCGTGGCGGAACCTGCTCCAGGGCGCCGGCGCGGTCCAATCGATGTCCCGCAAGGGCAACTGCTACGACAACGCCGTGATGGAGAATTTCTTCGGCCACCTCAAGGAAGAGCTCTTCCACAGGGTCCGGTTTATCAGCACCGACGCACTGACCGCGCAACTGAACGAGTACATCCATTGGTACAACACCAAAAGGATCTCGACAAAGCTCGAGGGCCTGAGCCCGGTGCAATACCGTGCCCAGGCCCTCGCGGCTTAG	MKVHALIALKADFPLPVLLQVSGLARSTFFYHQARLQAPDPQAELKSATTEIFTTNHGRYGHRRIHSELLKQGWGIAKKTVLKLMRVLGLVCKVRRKKRYNSYQGGQGTVAPNLLNRKFDATAPNQKWVTDVTEFSVGDRKLYLSPIMDLFDRQIIAHSIGTSPSLALTNAALQQALACLQPGQQPLVHSDQGFQYQHTSWRNLLQGAGAVQSMSRKGNCYDNAVMENFFGHLKEELFHRVRFISTDALTAQLNEYIHWYNTKRISTKLEGLSPVQYRAQALAA				NA	NA	NA	NA	NA
D1-29_02245	489			hypothetical protein	ATGCGTGCAAGTAGTTCGTTATCCAAGGATCAGCGCGAGGCCGCTGTAGCGTGGTTTGAGAAGGGCATCGCCGATAGGGCCGCGGCGCGGTTACTGGGTGTGCCCCGATCGCCGGTCAGGGATCTCTATCGGCGGTGGAGGATCCATGGTCAAGGAGCGCTGGTGACTAAGCCGACAAAACAGTCGTACTCTTTCGACTTCAAGCTCGCCTTAGTGGAACGGTTCCTTGCGGGTGAGACTGCCCCGGATCTGGCGGCGGAGGCTGGCTTGTCTTCGCCTGTGTTACTGAAAACGTGGGTGCGTGCGTATCGTCGCGAGGGCGCGGACTCATTGCGCCCGAAGGCTAAAGGCAGACCCCGGAAGCCTGACGCCCCACCGCCCGCGGAGATATCCGAGCTGGAGCGGTTGCGCCGTGAGAACGAACGGTTGCGGGCAGAAGTGGCCTATCTGGGAAAATTGCGGGCCTTGAGGGCCCAAAAACAACGGTGA	MRASSSLSKDQREAAVAWFEKGIADRAAARLLGVPRSPVRDLYRRWRIHGQGALVTKPTKQSYSFDFKLALVERFLAGETAPDLAAEAGLSSPVLLKTWVRAYRREGADSLRPKAKGRPRKPDAPPPAEISELERLRRENERLRAEVAYLGKLRALRAQKQR				NA	NA	NA	NA	NA
D1-29_02246	324	aidA		Quorum-quenching protein AidA	ATGGCAGAACGACTGGATGTTGAATTCACCGCCGAGGGTGGCATCAAGCTTCGTGCTTGGCTCTACCTCCCGGATGGGCCAGGGCCGCATCCCGCCATCACCATGGCCCATGGCTATGCCGGCACACGCGCCCACGGACTGGATGCCTATGCCTCCCGCTTTGCCGACAACGGATTTGTGGTCTTGGTCCACGACCACCGGAATTTCGGCGCCAGCGAGGGCGAACTCCGGCACGACATCAATCCCTGGCAGCAGATCAAGGACTGGCGCCGTGCGGTGACCTACCTTGAGGGCAGGCCGGAAGTAGACGCCTCCCGCATCTGA	MAERLDVEFTAEGGIKLRAWLYLPDGPGPHPAITMAHGYAGTRAHGLDAYASRFADNGFVVLVHDHRNFGASEGELRHDINPWQQIKDWRRAVTYLEGRPEVDASRI	PGPT0026245_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_QUENCHING	CE-QUORUM_QUENCHING-AHL-DEGRADATION,PGPT0026245-aidA-K24084	NA	NA
D1-29_02247	1170	paaJ_2	COG0183	3-oxoadipyl-CoA/3-oxo-5,6-dehydrosuberyl-CoA thiolase	ATGGCAAGCAGCTTCATCTACGACGGAATCCGTACCCCCTTCGGAAAATTCGGGAAGTCATTGGCGGGCATCCGCCCCGACGATTTGGCCTCCCATGTGATCCGCGAGGTGGTGGGCAGGCAGCCGGGGCTCGAAACGTACAGGATCGATGAGGTGATTCTGGGCAACGCGAACGGGGCTGGGGAAGATAACCGCAATGTGGCGCGCATGGCTGCGCTGCTGGCCGGGCTTCCGACGTCGGTGCCTGGCGTTACGGTCAATCGGTTGTGCGGTTCCGGCCTCGAGGCTGCCATCCAGGCGAGCCGGGCGGTGGAGATCGGCGATGCCGACCTGGTGGTCGCCGGCGGCGTCGAATCCATGAGCAGGGCGCCCTGGATCCTGGCAAAACCCGAGCGGCCCTTTCCTGCCGGCCCGGAAACCCTGCACAGTTCGACGGTGGGCTGGCGCATGGTCAACCCGAAAATGAACCAGGCCTGGACCATCTCCAATGGGGAAACGGCTGAAAACCTCGCCGACAAGTTCGGCATCTCAAGGACGGAACAGGACCAGTTTGCGGTCCGCAGCCATCGGTTGGCCGCCAAGGCTTGGTCCGAGGGCATCTACGACGACGAGGTTGTGGCCCCCCCTGATTCACAGCTCCTCACCGACGAGGGTGTCCGGCCGACCACCTCAGGGGAGGCCCTGGCCGGCCTGGTTCCGGCATTCCGGAACGGCGGTTCCGTCACTGCAGGCAATTCGTCTCCGCTCAATGACGGGGCAGCAGCCATGCTCATCGGCCGTGAGGGCGCCCTGGACACGGAACCCCTGGCGCGTGTCGTTTCACGTGGAGTGGCCGGCAACGATCCGGACATCTTCGGCATTGCGCCCGTGGAGGCTGCCAACCAGGCCTTGGCCCGGGCGGGGAAGACCTGGGCGGACGTGGATGTGGTGGAGCTCAATGAAGCGTTTGCGGCCCAAAGCCTGGCATGCCTGCGGCTGTGGCCTGATCTGGATCCGGAGAAGGTGAATATTCACGGTGGTGCGCTGGCTTTGGGGCACCCGCTGGGAGCATCCGGGGCCCGGGTTCTGATTCACCTGGCGCGGGAGCTGAAGCGCCGCGGGGGAGGGGTTGGAGTTGCTGCCATTTGCATCGGGGTGGGGCAGGGCCTCGCTGTTGTGCTGGAGCGCTAA	MASSFIYDGIRTPFGKFGKSLAGIRPDDLASHVIREVVGRQPGLETYRIDEVILGNANGAGEDNRNVARMAALLAGLPTSVPGVTVNRLCGSGLEAAIQASRAVEIGDADLVVAGGVESMSRAPWILAKPERPFPAGPETLHSSTVGWRMVNPKMNQAWTISNGETAENLADKFGISRTEQDQFAVRSHRLAAKAWSEGIYDDEVVAPPDSQLLTDEGVRPTTSGEALAGLVPAFRNGGSVTAGNSSPLNDGAAAMLIGREGALDTEPLARVVSRGVAGNDPDIFGIAPVEAANQALARAGKTWADVDVVELNEAFAAQSLACLRLWPDLDPEKVNIHGGALALGHPLGASGARVLIHLARELKRRGGGVGVAAICIGVGQGLAVVLER	PGPT0001565_3437	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
D1-29_02248	723			hypothetical protein	ATGATCATCAACAGTGCAGATCTCGACGCCGTCGACTCCTACAAACTCCTCATCGGAAGCATCATTCCCCGGGCGATCGCTTGGGTGAGCACCATCTCCGAAGACGGAGTGGCCAACCTCGCCCCCATTTCCTTCTTCACGGCGGTGGGACGAAAGCCGCCCATGGTGTCCATCTCGCTGCAGCCACGCTCAGACGGCAGGACCCTCAAGGACACGTTCGTCAACATCCGCGACACGGGGAACTTTGTGGTCAATGTGGCCACGCTTCCGCAGGCCCACGCCCTGCACTCCTCTGCCTTCGAATTCCCTTCGGGAATCGACGAGTTTGAGGCGGTAGGGCTCGAAAAAGAGGCGTCGCAGGCCGTGACGGCACCCAGGATCAAAGACGCACCTATCGCGATGGAATGCATCGTTAACCGCATCATTCCCGTGGGCGACATGAACGATCACGTCGTCTGGGGCGAAGTGGTCCGGTTCCACGTCAAGGATGAGCTTTACCTGGACCGAGGCCGGATTGACACTGCGGCGGTCACGGCCGTCGGCAGGTTGGCGGCTGAATACACCCTGGTTGAAAACGTGTTCACCACGCCCCTTGAGGAGGACCTCCTCAAGTCCAAGCACAAGCAGCGCATGGCACGCCTGGACGGCCAGCCGGATGACTGGTCGCCCATCAATACGGCAGCCTGGTCGGCGTCCGGATCCACCCTCACCAAGGAGCAGTAA	MIINSADLDAVDSYKLLIGSIIPRAIAWVSTISEDGVANLAPISFFTAVGRKPPMVSISLQPRSDGRTLKDTFVNIRDTGNFVVNVATLPQAHALHSSAFEFPSGIDEFEAVGLEKEASQAVTAPRIKDAPIAMECIVNRIIPVGDMNDHVVWGEVVRFHVKDELYLDRGRIDTAAVTAVGRLAAEYTLVENVFTTPLEEDLLKSKHKQRMARLDGQPDDWSPINTAAWSASGSTLTKEQ				NA	NA	NA	NA	NA
D1-29_02249	1215	menH_3		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGACCACCGTAATTGAGCACTTGCAGGAGCAGGATCCCTCCCTGAAGGTGACTGGCAGCGGCAATGTGGCCGTGCTCTTCATCCACGGATTCCTGGACGATCAGAGTGTCTGGGACGACGTCGTCTCCGAACTCGCCACCGCGGACGCCCAGTTGCTGAGGCTGGACCTGGCAGGGATGGGGGACCGGAGCGCGGATGCGGGCCCCTACAGCCTGCAGCGGTACGCCGACGACGTCGCTCGCGTCGTTGCCGGGCTGGACAGCCCCGTAGTACTCGTCGCGCAAAGCATGGGCACGCTCGTGGCCGAGCTCGTGGGTATCCGGCACCCGGACAAGGTGCTGGGCGCAGTCTTCCTCACGCCCGTGCCGCTGGCAGGGACACACCTTCCGGAGGAAGCCGTGGGTTCCTTCCGGCATCTTGGTGGGGATATACAAGCGCAGCGCGGGGTTCGGATGTACTTGGGCGGCGGGCTGAACGAATCCGGGCTGGACAAGCTCACACGCATAGGCAGCCGCATCCGCCCGGAAGTTGTTACCCACCTTGTTGACTGCTGGAACGAGGGGATTCCGGACGCCCCGGAGAAGAGTGAATTTAGCTCACCTGTCCTAATAATCCGCGGTGAAGCCGACGGTTTCGCCACCGCCGACCTGGTGTCCTCAGCAGTCAGGCCACGGTTCCAGCACGTGCAGGAGGAGGTACTCAGCGCGGCGGGCCACTGGCCCCACGTCCAGCAGCCCCAGAACGTGGCCGCACTCATCGGGCGGTTCCTCAACGAACTTTCGGAAGGATCTGCCAGTGCGCCTGGCGCAGCCGGCGCCCAAGGCTGGATCAACGCCTTTGCCAGCAAGTCCGCGGACGACTTTGGCGAGGCCTTCCACCGCGACGTTGTCCTTGAAGCGTCTGTCATCCGGTCACCGATCACGGGCCGGGAGAACGTCAAAACGGCGATGAGCGCAGCCAGCTCCATCTACGAGTCCCTCGAGTTCATGCACCAAACCACTAATGGTGCGCGAACCTATCTTGAGTGGCAGGCGACGGCTTTCGGAGGACTCAAGCTCTACGGAGTCACCGTCCTCACGAAGGACGAGAACGGTCAGATCGTCTCAGCCGCCATCCACCACCGCCCGCTCGACGCAGCACTCCGCTTTTCGGCTGAACTCGGCAAGCGGATCGGGAAGGCCGTGGGTGAATCCCGTTTCTACTCCGCCGACTGA	MTTVIEHLQEQDPSLKVTGSGNVAVLFIHGFLDDQSVWDDVVSELATADAQLLRLDLAGMGDRSADAGPYSLQRYADDVARVVAGLDSPVVLVAQSMGTLVAELVGIRHPDKVLGAVFLTPVPLAGTHLPEEAVGSFRHLGGDIQAQRGVRMYLGGGLNESGLDKLTRIGSRIRPEVVTHLVDCWNEGIPDAPEKSEFSSPVLIIRGEADGFATADLVSSAVRPRFQHVQEEVLSAAGHWPHVQQPQNVAALIGRFLNELSEGSASAPGAAGAQGWINAFASKSADDFGEAFHRDVVLEASVIRSPITGRENVKTAMSAASSIYESLEFMHQTTNGARTYLEWQATAFGGLKLYGVTVLTKDENGQIVSAAIHHRPLDAALRFSAELGKRIGKAVGESRFYSAD				NA	NA	NA	NA	NA
D1-29_02250	789	caiD_2	COG1024	Carnitinyl-CoA dehydratase	ATGACCCACCTGACGTTCACCGTCCAGGACCAGATTGCCACCATCGTCCTGGACAATCCGCCCCAGAACCGAATTGACCTTCAGATGGCGGACGAGCTTTCCGAAGCCATAACCGCCATCGGCAGCAGTGACGCCCGTGCGGTCATCATTCGGTCTGAAGGCCCGGACTTCAGCTTCGGCGGTGACATCATGACGTGGCCGGGCGCCGAAACAAGGGAACTGCGTGCCTTGTTTGAGCGCTACATGTCAGTCTTCAACCAGCTTGAATTGCTGCCGATGCCGGTCATTGCCGAAGTCCAGGGCCTTTGCTTCGGAGGCGGATTTGAACTGGCTCTGCGGGCCGACCTCATCTTTGCCGCAGAGTCAGCGGAGTTCGGGCATCCGGAGCAGACTCTTGGCATCGTTACCCTCCTGGGCGGCATCTACCGGGTGGCAGAAAGGGCAGGCAAGGCGCGGGCAGCAGAATGGGCCATGACCTCTGAGAAAGTACCGGCGTCGGAAATGAGCCGCGCCGGAGTGGTGAACCGCGTGGTCTCCGAGGACAAGCTCCGCGAGGAAGTCTTGGCGTTCGCGCAGCGGATCGCCACCGGCGCCACGCGGGCCTACGCCGCACACAAGGCGCTCCTGAGGACCTGGTCCCTGGGCGGCGTCGCTGCGGCAGACCAAGCGATGTTTGATATCGCCATGCCCTTGTTTGAGCGCGAAGACACCCAGGTGGGGCTGAATTCGGCAGTGGAAGCCATGAAAGCGGGACGGCCGCGGCCCGTGTTGGAATTTCAGGGACGCTGA	MTHLTFTVQDQIATIVLDNPPQNRIDLQMADELSEAITAIGSSDARAVIIRSEGPDFSFGGDIMTWPGAETRELRALFERYMSVFNQLELLPMPVIAEVQGLCFGGGFELALRADLIFAAESAEFGHPEQTLGIVTLLGGIYRVAERAGKARAAEWAMTSEKVPASEMSRAGVVNRVVSEDKLREEVLAFAQRIATGATRAYAAHKALLRTWSLGGVAAADQAMFDIAMPLFEREDTQVGLNSAVEAMKAGRPRPVLEFQGR				NA	NA	NA	NA	NA
D1-29_02251	618			hypothetical protein	GTGAGCGATTGGAACGCGACGCGGCGCTATGACATGGAAAGTGCTCCTGGCGGGCTCGCTTTTGTGCATGACCTGCTCAACACGAAATCCGCTGGAAAGCCGCGACGGTCCGATCTGTTGCTTGTCCTTGGGCCCGCCCAAGCCTGGGTGGATGCGGGGCTGAAACAGTGGGCACTGGCAACCGGCAGGCGCTATGTCGACGTCAAACTTACCGAACGCGACCTGGAACATCTGCGCTACTTTCGTGATGAACTTGCCAGCACGCTCAACGCCGAAGGCGACCCTGCCGCCGTCGTCAGTTCCGACGTCGACGCCCTCCCCACAGTCTGGACAACCGCCACGTCCTTAAAGCTCAAATCCAATGGAACGGTCCAGGCAGAACCGCAGGGAGCGGGAGCCGGGCACATTGAATCCCTGGCCATGACAGAGATTTTCCAGGCCCAGCTTGCAGGAACCTGGCACAGGCTCAAACTATGCCGCAGCGAAAAATGCAGGGTTGCGTTCTTTGACCGTTCACGCAACAACAGCGGCGTTTGGCATGACGTGAAAATCTGCGGCAACCCGGCGAATCTCCGAGCGCACCGGGCGCGAAAACATGAATCAAAGCTCGTGAATTGA	MSDWNATRRYDMESAPGGLAFVHDLLNTKSAGKPRRSDLLLVLGPAQAWVDAGLKQWALATGRRYVDVKLTERDLEHLRYFRDELASTLNAEGDPAAVVSSDVDALPTVWTTATSLKLKSNGTVQAEPQGAGAGHIESLAMTEIFQAQLAGTWHRLKLCRSEKCRVAFFDRSRNNSGVWHDVKICGNPANLRAHRARKHESKLVN				NA	NA	NA	NA	NA
D1-29_02252	903	sseA_2	COG2897	Putative thiosulfate sulfurtransferase SseA	ATGCACGCCTTACCTTCAGACAATTCTGACCGAATCGCAGAGTACGCACATTCCGACAGGCTGGTCACGGCCGAATGGCTTGTGCAGCAAATGGCCGACCCCAGGCTGGTCATCGTGGAGTCTGACGAGGATCCGCTGCTGTATGAAGTGGGCCATATACCGTCGGCCGTGAAAATTGATTGGCATACGGACCTGAACGACCAGGTGATGCGCGACTATTTGACGGGGCAGGAATTTGCCCATCTGATGACGTCCCGCGGTATTTCACGGGACAGCACCGTTGTCATTTATGGTGACAAGCACAACTGGTGGGCGGCTTATACGCTCTGGGTGTTCAGTCTCTTTGGCCATCCTGACGTCCGCTTGCTCGACGGCGGACGGGAAAAGTGGATCTCGGAAGGCCGGCCGCTCGAAACAGCGCCGGCGCCGGCCGGGAGCGCAGCGCTGTATCCGGTGGTCACTCGGGACGACTCCTCCATCCGGGCCTTCAAGAATGACGTCCAGCAACACATCGGGCTACCCCTGATAGACATCCGCAGCCCTGAGGAATACACGGGTGAGCGCACGTCGATTCCCGATTACCCGCAGGAAGGGGTCCTCCGCGGCGGCCATATCCCCGGGGCGCGCAACGTCCCGTGGGCGCGGGCCGTTTCCGACGACGGGACGTTCCGGCCGCGGAGGGAACTTGAGGAGATCTACTTCAGCGAAGTAGGCCTTCGAGCCGACGACGACGTCATCACCTACTGCCGCATCGGCGAGCGCTCAAGCCATTCGTGGTTCGCCCTGACTTTCCTGCTGGGCATGGACAGGGTGAGGAACTACGACGGCTCATGGACCGAATGGGGCAACGCTGTTCGGGCTCCCATAGCGGTAGGCAATGGAGTTTCCGGTTTGGGTGAGTAG	MHALPSDNSDRIAEYAHSDRLVTAEWLVQQMADPRLVIVESDEDPLLYEVGHIPSAVKIDWHTDLNDQVMRDYLTGQEFAHLMTSRGISRDSTVVIYGDKHNWWAAYTLWVFSLFGHPDVRLLDGGREKWISEGRPLETAPAPAGSAALYPVVTRDDSSIRAFKNDVQQHIGLPLIDIRSPEEYTGERTSIPDYPQEGVLRGGHIPGARNVPWARAVSDDGTFRPRRELEEIYFSEVGLRADDDVITYCRIGERSSHSWFALTFLLGMDRVRNYDGSWTEWGNAVRAPIAVGNGVSGLGE	PGPT0002045_909	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
D1-29_02253	1185			ISNCY family transposase ISKol11	ATGATCCAACGGCAGGCTGTGACGAAGAAGAAGGCTCTCGCTTACAAGACGGCGGATCGGGCGGGGAAGTCCCGGATCTTGAACGAGCTGGTCGAGCTGACCGGTTGGCACCGCGATTACGCCCGGGCGGCTCTGCGGGGCGCCTTGGTCCTGAAAGTTGTCAGGCCCAGGCCGGGCCGGAAGCCCGTGTACGGCCCTGATCTGCTGGACCCGCTGATCAGGTGCTGGGCTGTGTTGCGTGCCCCTGCCGGCAGGCTGCTGGCCCCGATGCTGCCGGTCCTGGTACCGCTGCTGCGCCGGGACAAAGAGCTGGTGATCACCGACAGGCAGGCTGATCTGCTGATGCGCATGAGCGCGGCGACGATCGACCGCAAACTCGTCGGTGAACGGGCGAAACTCTTCCCCCGGGGACGGTCCCATACCAAGCCCGGCACCCTCCTGAAATCCCAGATCCCGGTCCGGACCTGGGCCGAGTGGGACGACGCCGTCCCGGGATTCGTGGAGATTGATCTGGTTGGACATGAGGGCGGCAACAGCTTCGGGGAGTTCTGTTTCACCCTGACGGTGACCGATATTTCCACGGGCTGGACGGTGAACCGGTCGGTGCGGAACAAGGCGGCCAAATGGGTCTTCGAGGCCCTCGAACACGTCATCGCGGTGTTCCCTTTCCCGATCATCGGGATCGACTCGGACAACGGCTCCGAGTTCATCAATGAGCAACTGCTCGCTTACTGCCACGCACACCAGATCACCTTCACCCGGTCCCGCCAAGGCAACAAGAACGACGGCGCCCACGTGGAGCAAAAGAACTGGGCAAGGGTCCGGGAACTGGTCGGCTACCTCCGCTACGACACCACCGGGGAGCTCGGGAAACTCAACGAAATCTGGGAGCTGGACCGGCTCTTCACTAACTACCTGCTGCCCCAGCAAAAACTCATTCAGAAACAACGGCACGGCGCAAAAGTGACCAAGAAACACGACGCGCCGGCCACACCCCACCAGCGGGCGATCCGGCACGAGAAGATGCGTAAGCGCCCGATCATCCGGATGAATGCCGCCTTCAAACAGATCAAACCCGGCAGCCTCTCACGCCAGATCCTGGCACTCACCGCCCAGCTGGAGACCCTCTCCCGGGCAAAGAGTCCCGCCGCCGTCAAACCTGTCAACAGGGCTTGGAACAGCTAA	MIQRQAVTKKKALAYKTADRAGKSRILNELVELTGWHRDYARAALRGALVLKVVRPRPGRKPVYGPDLLDPLIRCWAVLRAPAGRLLAPMLPVLVPLLRRDKELVITDRQADLLMRMSAATIDRKLVGERAKLFPRGRSHTKPGTLLKSQIPVRTWAEWDDAVPGFVEIDLVGHEGGNSFGEFCFTLTVTDISTGWTVNRSVRNKAAKWVFEALEHVIAVFPFPIIGIDSDNGSEFINEQLLAYCHAHQITFTRSRQGNKNDGAHVEQKNWARVRELVGYLRYDTTGELGKLNEIWELDRLFTNYLLPQQKLIQKQRHGAKVTKKHDAPATPHQRAIRHEKMRKRPIIRMNAAFKQIKPGSLSRQILALTAQLETLSRAKSPAAVKPVNRAWNS	PGPT0030665_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030665-putative_transposase-K07493	NA	NA
D1-29_02254	1443	puuC	COG1012	NADP/NAD-dependent aldehyde dehydrogenase PuuC	ATGTCCGGTCTTTCGTTCGTCCCCCACCTCATCGCAGGACAGGAGCGCGCGTCGCACGACGACTCGACGCTCGAAAATGTCAACCCTTGGACACGGTCGCCGCAGGGAGCGCTCGCCTCCGGCGGCGCCAGGGAGGCCGAGGACGCCATCGCCGCGGCGAGGTCGTCGTTCGAGAGTGGCGCCTGGTCCCGGCTTGGGGAACGTCAGCGCGCCGCGCTCATGCACGCGCTCGCCGACCGGATGGAACTCCACGCCGAGGAGCTCGCGCAGGCCGAGACGGCCGACATAGGGCGTCCCTTGGCCGCCGCGCGGAGCTTCGACGTCCCGAGAGCGGTCGGGATGATCCGCTTCTTCGCGGATCACCTCTCGCTCTCTACGAGCGAGGTCTATCCGATGGGCTCCGACTTCCATGCGTTCACGGCCTACCGGCCCGCGGGTGTCGTCGTCGCGATTTCACCCTGGAACCATCCGCTCATGCTCGGCGTGTGGAAGATCGCGGCCGCGCTGGCTTGGGGAAACTCTGTCGTCTGGAAACCCGCGGAGGACAGCCCGACATCCGCCTACCTCGTGGCGAGATTTGCGCTCGAGGCGGGGTGGCCCACGGGAGTGCTCAACGTCGTCCAGGGCCGGGGAGCGGTGATCGGGGATGCACTCATCCACTCCTCGGAGATCGACCGCATCACCTTCACGGGATCGACCGCCGTCGGCCGCCTCGTTGGCGCAGCCGCCGGGCAGAATCTCGTGCCTGTCACACTCGAACTCGGCGGCAAAGGTGCGTCCGTCGTGTTCGACGACGCCGATCTCGACCTCGCTGCGGCTACCGCTGCCAGGGCAGTCTTCAACAACACCGGACAGGTATGCCTTGCCGGCACCCGCGTGCTCGTCCAACGCTCTGTGTATGACGAGTTCCTGCGCCGCTTCGCGCAACAGGCTGCACAACTGCGCGTAGGCGACCCGCTTGACCCGTCGACGGACCTCGGCCCGCTCGCCTCGGAGAAGCAGTTCGACCGAGTTTCCCGCTACTTCGCGCTCGCGCAGTCCGAAGGCGGGACGGTCCTCGGCGGCGGGCCGGGGGAGGGCTGGACGTTCAAGCCGACCATCGTCGCCGACGTCTCGCGCAAGGGCCGCGTCTGGCGCGAAGAGGTCTTCGGCCCGATGGCGACCGTCTCCACGTTCGACGATTTCGACCAGGGCATCGCACTTGCCAACGACACCGACTACGGGCTGACCTGCACGCTGTTCTCCGAGTCCGCGGCCCGCATCCACACCGCCGCGTCCCGGCTGAGGGCGGGGACCGTGTGGGCGAACTGCTACCAGGTCCGCGATCTACGCGCACCCATGGGAGGGTCCGGGTACTCTGGCATCGGGCGCGAGGGCGGAAACTTCAGCCGGGAGTTCTTCACCGAGCCGCAGGCCGTCTTCATCAAAACATCGCTGGACTGA	MSGLSFVPHLIAGQERASHDDSTLENVNPWTRSPQGALASGGAREAEDAIAAARSSFESGAWSRLGERQRAALMHALADRMELHAEELAQAETADIGRPLAAARSFDVPRAVGMIRFFADHLSLSTSEVYPMGSDFHAFTAYRPAGVVVAISPWNHPLMLGVWKIAAALAWGNSVVWKPAEDSPTSAYLVARFALEAGWPTGVLNVVQGRGAVIGDALIHSSEIDRITFTGSTAVGRLVGAAAGQNLVPVTLELGGKGASVVFDDADLDLAAATAARAVFNNTGQVCLAGTRVLVQRSVYDEFLRRFAQQAAQLRVGDPLDPSTDLGPLASEKQFDRVSRYFALAQSEGGTVLGGGPGEGWTFKPTIVADVSRKGRVWREEVFGPMATVSTFDDFDQGIALANDTDYGLTCTLFSESAARIHTAASRLRAGTVWANCYQVRDLRAPMGGSGYSGIGREGGNFSREFFTEPQAVFIKTSLD	PGPT0005060_351	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
D1-29_02255	1170	nahG		Salicylate hydroxylase	ATGCGCGTCGCGATCATAGGAGGCGGCATCGGCGGCCTGACGGCCGCGATAGCGCTTCGGGATGTCGGCATCGAGGCGGTCGTCTACGAGCAGGCGCAGCAGCTCGGCGAGGTGGGCGCCGGGATCGGGGTCGCGCCGAACGGGCTGCGCGTTTACGAGCGGCTCGGGCTCAGGGACGCGATCGAGTCCGTCGCCGCACGCTACGGGGACGGATCGGTCTACTACCGTGCCGATGGGACGCTCATCGGCGAGATGACCACCTCCGACAGCTCCGGCCGGTACTTCACTCTGGGACTTCATCGTGCCGATTTCGTCGGCGTCCTGATGTCCGCCCTGCCGGAGGGGGTGGTCCGTACGGGGCACCGCCTCATACGCCTCGAGGAAGGCGAGGAAGGTGTGCTTCTCGAGTTCGCTGGCGGCGTCACGGAGACAGCCGATCTCGTCGTCGGCGCAGACGGGATCCACTCGGTCGTGCGCGCGGCCGTGACCGAGCCCGCCGATCCCGTCGCCTCGGGCTCGATCGCCTACCGGGGGCTGGTGCGCGCGGACAGGCTCAGGTCCTGGACACCCGGCATTGCCCAGCTCTGGATGGGCGAAGGCAAGCACTTCCTGACGTATCCGGTGCGTTCAGGGGAGCTGATCAACTACGTTGGATTCGTGCCCAGCGGCGAGCGTCTGCGCGAATCCTGGTCGGCACCCGGCAACGTCGAAGCACTCCGCGCCGACTTCGCGGGATGGGATGACCGCGTTGAGGGGCTTCTTGAGAAGGTCGAGCAGACCTTCTGGTGGGGCCTGTACGATCGCGAGCCGCTCCAACGCTGGTCGACGGAACGAGTCACCCTCCTCGGTGATGCCGCCCATGCGATGCTCCCCCACCTGGGCCAGGGGGCGAACCAGGCGATCGAGGACGCGATGACGCTCGCGGTCCTGCTCGGGGCTGCGGCCGCCAGTTCGTTCCCGGAGGCGCTCGCTGAGTACGAGCGGCTCCGCCTTGATCGCACGACGCGTGTCCAGAGCGGCGCTCGCGACAACGGTCTGCGCTACGACTCCGGCTACGAGGACCTGAGGCAACGCGACGACGAGATCAAGAACTCTCAGGCGTTCCGCCGCTGGCTCTACGACTACGATGCGGAGGCAGTGGCGCGCGAGCGCGTGTTGACCGTCGATTAG	MRVAIIGGGIGGLTAAIALRDVGIEAVVYEQAQQLGEVGAGIGVAPNGLRVYERLGLRDAIESVAARYGDGSVYYRADGTLIGEMTTSDSSGRYFTLGLHRADFVGVLMSALPEGVVRTGHRLIRLEEGEEGVLLEFAGGVTETADLVVGADGIHSVVRAAVTEPADPVASGSIAYRGLVRADRLRSWTPGIAQLWMGEGKHFLTYPVRSGELINYVGFVPSGERLRESWSAPGNVEALRADFAGWDDRVEGLLEKVEQTFWWGLYDREPLQRWSTERVTLLGDAAHAMLPHLGQGANQAIEDAMTLAVLLGAAAASSFPEALAEYERLRLDRTTRVQSGARDNGLRYDSGYEDLRQRDDEIKNSQAFRRWLYDYDAEAVARERVLTVD	PGPT0006315_1748	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_NAPHTALENE|DERIVATE_DEGRADATION	XENOBIOTIC_NAPHTALENE_DEGRADATION,PGPT0006315-nahG-K00480	NA	NA
D1-29_02256	1182	nicC		6-hydroxynicotinate 3-monooxygenase	ATGACTTCAGGCAAGCGGGTTTTGATCGTCGGGGGTGGTGTCGGAGGGCTGTTCCTCGCCAACGCGTTGATGGCACAGGGCATCGAGGCGGTGCTGTACGAGCAGGCGTCTGCCTTCGGCGAGGTCGGGGCCGGCGTATATCTCACGCCTAACTCGGTCCGCCACCTTATCCGGGTCGGTCTCGGTCCCGCGGTCGAGGAGGTCGGCGCCCTCGTCAAAGAGGACTCGCGGTACTACCGGTTTGACGGCAGGGAGATCGCCCCAGTGCAGGTGGCGGATCCGAGCGGATGGAACGCCACCTATGGGATGCATCGGGCGGACCTCGTCGAGCTGCTCTGTCGCCGGCTGCCGTCGGGGGTCCTCCACACCGGGCACCGCGCGACGGGTTTCAAGCAAAACGGTGACGTCGCGCGGGTCAGCTTCGAGAACGGCGAGGCGGCAGAGGCCGACATCGTGGTCGGTGCGGACGGGATCCACTCCATCCTGCGGCCGATCGTCCATCCCGAGAGCAAGCCGGTGTTCTCCGGTACCGCCGTATACCGGGGCCTGGTCCCCCGCGAGCTGCTCGACGGATGGCGACCGGACGTCTGGCAGATGTGGCTCGGTGCAGGCAAGCACTTCCTGTCCTTCCCGGTGCGCCGCGGCGAGCTGATCAACTTCGTCGGCTTCGTGCCGGCGCGCGGCATCATGCGGGAGTCCTGGACGGCGCCCGGCGACCCGGACGAGCTGCGGCAGGAGTTCGAGGGCTGGGATCCAAGGATCGCCGGCCTCCTCGCACACGTCGAGTCCACGTTCCGGTGGTCGCTGTACGACCGCGATCCGATCCCGGTGTGGACCAAGGGGCGGCTCACGCTGCTCGGGGATGCCGCCCACCCGATGCTGCCCCATCTCGGCCAGGGCGCGAATCAGTCAATCGAGGATGGAATGGCGCTCTCGCTCCTTCTTGGGGGAAGCGACCCGGTGGACGCCCCCGCCGCGCTCCAGACCTACGAGTCGCTGCGCCGCACGCGAGTCGCGGAGGTCCAGATCGGCGCGAGACAGAACGGCATGCGGTACGACTCGATGGAGGGCGATCTTGAGCAGAGGGATGCGGAAATCAGGGCCCACGCGGAATTCCGACGCGAACTTTACGGCTTCGACGTCGTGCAGCAGGTGACCGAAGTGCTGCAGGCGCCACGATGA	MTSGKRVLIVGGGVGGLFLANALMAQGIEAVLYEQASAFGEVGAGVYLTPNSVRHLIRVGLGPAVEEVGALVKEDSRYYRFDGREIAPVQVADPSGWNATYGMHRADLVELLCRRLPSGVLHTGHRATGFKQNGDVARVSFENGEAAEADIVVGADGIHSILRPIVHPESKPVFSGTAVYRGLVPRELLDGWRPDVWQMWLGAGKHFLSFPVRRGELINFVGFVPARGIMRESWTAPGDPDELRQEFEGWDPRIAGLLAHVESTFRWSLYDRDPIPVWTKGRLTLLGDAAHPMLPHLGQGANQSIEDGMALSLLLGGSDPVDAPAALQTYESLRRTRVAEVQIGARQNGMRYDSMEGDLEQRDAEIRAHAEFRRELYGFDVVQQVTEVLQAPR	PGPT0006315_775	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_NAPHTALENE|DERIVATE_DEGRADATION	XENOBIOTIC_NAPHTALENE_DEGRADATION,PGPT0006315-nahG-K00480	NA	NA
D1-29_02257	1470	ifcA	COG1053	Fumarate reductase flavoprotein subunit	ATGGACGATGGAAGTTCGACTATGACCGCTCTCTCTCCCGACGGGCCTGCTGTCGACCAGCAGGCCGACGTCGTCGTGATCGGTGCCGGCGCCTCCGGCCTCTCCTGTGTGATCGAGGCCGCGGGGCGCGGTGCGCGCGTGACAGTCATCGACGCGGCGCCGAGCTTCGGCGGGACCGCGTCCGGTGCGGCCGGCGGCACCTGCATCGCCGGTTCCCCGCTCCAGGATCGGCTCGGCGTCGTGGACTCCGTCGGCCTTGCGCTCGAGGACTGGATCGCTTGGGGCGGCGACTCGGTCGACGTCGAATGGGCGCAGCGCTACCTCCTTGCCGGTCGGGATGTGTTCTTCGACCACCTGTCAGTGCTGGGGGTCAGGTGGATCTCCATCCACCCGCACGAGGGCAACCGCGTGCCGCGATGGCATCGTCCGGAGGGGGGAGGCAAACGCGTCATGTCGCTGCTCGCCCAGCATGCCCGTGCGCTGCCGAACATCACGTGGCGCTTCGGCTACCGTGCGAAGGAGCTCGTCCGCACCGGCGGGCGGATCACGGGCGTCATCGCCGTGAACGGGGATCGAACGGTCGAGCTCTCCGCGCCGGCGGTCGTCATGGCGACCGGCGGTTTCAACAACAGCGCCAAGCTCGTAGCGGTGCACGCCAAACAGGCGGCCGGAGCAGAGCGCGTGCTCCTCGGGGGCGGACCGGAAGCGAAGGGCGAGGGTCTTCGCATGCTCGAGGCAGTCGGCGCGCAGTTCACGGAGCTTGATTCGGTGTGGATGTACCCGTATGGGACACCCGACTACCTAAAGCCAGGAACCGATCGCGGCCTCGCTGTACGCGGGGCAGACGGCGAACTGTGGATCAACGACGAGGGCAACCGATTCCACGACGAAAGCCTGCGGGGCGGGGCGAGCGGGACCGTTGCGCTCCTCGCCCAGAAGGAGGGCCGGGCGTGGTCCGTATTCGACGCGGGCGTCGCGTCGGGGTTGATCCTAGCCGATCCGTACTACGTCGACGGCAACAAGGTCATCCGCGATCGCGTGGCGGAGTTCCTCCACTTATCGCCCTACGTCGAGTCAGCCCCGAGTGCCGCCGCGCTCGCTGACCGCATCGGCGTCGATCGGAGCAATCTGGAGGCCGCCGTCGACGACATGAATAAGGCCATCGCCGCCGGCCTGCACCGGGACCCCGACTTCGGCAAGCCGCTCGACGGCCTAGCCCCGCTTGACCGAGCCCCGTTCTATGCGGTGCGCCTGCACCCGATGGCGCGGAAGAACCTCGGCGGCGTGCACACCGACCTCCACTGCCGCGTCCTCGACAGCGAGGGTCAGCCAATCAACGGACTGTTCGCATCCGGTGAGGTCGCGGGGATGGCCGGCGGCCACATCAACGGTCACGCCGCGCTGGAAGGCACAGCCTTCGGGCCTAGCCTGTTCAGCGGCATCGTCGCCGGGCGGGCAGTCGCCGAATGA	MDDGSSTMTALSPDGPAVDQQADVVVIGAGASGLSCVIEAAGRGARVTVIDAAPSFGGTASGAAGGTCIAGSPLQDRLGVVDSVGLALEDWIAWGGDSVDVEWAQRYLLAGRDVFFDHLSVLGVRWISIHPHEGNRVPRWHRPEGGGKRVMSLLAQHARALPNITWRFGYRAKELVRTGGRITGVIAVNGDRTVELSAPAVVMATGGFNNSAKLVAVHAKQAAGAERVLLGGGPEAKGEGLRMLEAVGAQFTELDSVWMYPYGTPDYLKPGTDRGLAVRGADGELWINDEGNRFHDESLRGGASGTVALLAQKEGRAWSVFDAGVASGLILADPYYVDGNKVIRDRVAEFLHLSPYVESAPSAAALADRIGVDRSNLEAAVDDMNKAIAAGLHRDPDFGKPLDGLAPLDRAPFYAVRLHPMARKNLGGVHTDLHCRVLDSEGQPINGLFASGEVAGMAGGHINGHAALEGTAFGPSLFSGIVAGRAVAE				NA	NA	NA	NA	NA
D1-29_02258	1185	lldD_1	COG1304	Putative L-lactate dehydrogenase	ATGAGAAACGGCACCGTACCGCCCCGCGGGCTCGAGCTCAGTCACGCCGTCAACGTTGAGGACGTCCGCGCGATCGCGAATCGGCGGCTGCCGGCGGCGGTCAGCGACTTCATCGATGGCGGTGGTGAAGGTGAAATCACGATGCACCGTAACCGGCACTCCCTGGATGCGATCATGTTCCGCCCACGCGCACTTTCCGACGCGTCCACCCGGACGCTCGCGACGACCATGCTCGGCACACCGGTGTCGGCGCCTCTCGCCCTCGCACCGGTCGGGCTCGCGGCGCTCGCGCACCCGCTTGGCGAGCGGGCGGCCGCACTGGCGGCCGCTGAGGCCGGGATCGTCTCGACCCTCAGCTCGAGCTCCTGCTGGAGCCTCGAAGAGGTGGCGGAGGCGACACCGGACGCGCCGAAGTGGTTCCAAATCTACGTCTGGCGAGATCGTGGCATCACCAGCGAGGTCGTCCAGCGGGCGAGGTCCACCGGATACAAGGCGCTCGTTGTCACCGTCGATGTGCCCGTCGGAGCACGGCGCGAGCGGGATCTCCGCAACGGCTTCACGATCCCCCCACGCCCCACCTGGCGGCACACCGGCGATGTGCTCGGGCACCTGCCGTGGGTCGCCCGCTTCGGCTGGGACGAGATGTTCGGGCATGGGCTGACGATGGGGAACTTCGGCGGCAAGACCGCGGTGACCCGGCGCATGGCATTCATGGAACGGGTCAATCAGCGGTTCGATCCCGGCATGACCTGGGACGACCTCGAATGGCTGCGATCGCTCTGGGACGGCCCGATGGTCGTCAAGGGAATCACGAATGAGCGTGACGCCGCCGAGGCGGTCGCTCGAGGCATCGACGCCGTGTGGGTCTCCAACCATGGCGGGCGCCAGCTCGATGGGCTTCCCGCGACGATCGACGTCTTGCCTGCTGTCGTCGACGCCGTGGACGGCAAGGCCGAGGTGTACATGGACGGCGGCATCCGCCGAGGCAGCGACATCGCCAAGGCACTCGCACGCGGCGCCAGGATCTGCATGATCGGACGACCGTACATCTACGGCCTCGCTGCGAAGGGACAGGCCGGCGTCACGAAAGTGATCGAGCTGTTGAAAGAGCAGCTCGACAACACCCTCGCGCTGCTCGGTTGCGCCTCCGTGGAAGCGCTCGACCAGGACTGGCTGCGCAGCTGA	MRNGTVPPRGLELSHAVNVEDVRAIANRRLPAAVSDFIDGGGEGEITMHRNRHSLDAIMFRPRALSDASTRTLATTMLGTPVSAPLALAPVGLAALAHPLGERAAALAAAEAGIVSTLSSSSCWSLEEVAEATPDAPKWFQIYVWRDRGITSEVVQRARSTGYKALVVTVDVPVGARRERDLRNGFTIPPRPTWRHTGDVLGHLPWVARFGWDEMFGHGLTMGNFGGKTAVTRRMAFMERVNQRFDPGMTWDDLEWLRSLWDGPMVVKGITNERDAAEAVARGIDAVWVSNHGGRQLDGLPATIDVLPAVVDAVDGKAEVYMDGGIRRGSDIAKALARGARICMIGRPYIYGLAAKGQAGVTKVIELLKEQLDNTLALLGCASVEALDQDWLRS	PGPT0001765_695	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0001765-lldD-K00101	NA	NA
D1-29_02259	1689	ilvB	COG0028	Acetolactate synthase large subunit	ATGACATCGGCGGGGATCACCGGGAATCCGACGGACGCCGGCGGCGTGACAGTGGCCCGCAATACCGCCGGCGTTATCGCAGCCACGGCGGTTCGGCTTGGCGCCACGCACCTTTTCGAGGTGATGGGCGGGTCGAATATGCGCGTCGTGCACGCCTTCGAGGACGCTGGCGCCGCCCTCCACCACTTTCGGCATGAGAATGGCGCGGTCGGCGGTGCCGACGGCTACGCACGCGCAACCGGCCAGGTCGGCTGGACGAGCGTGGTGCACGGGCCCGGATTCACGAACGCGCTGACCGGGCTGCGGACCGCCGTCAAGGCGCGCAGCCCCGTCGTGCTCATCATGGGCGACGTGATGAGCACGCCGGCCCGCAATGCTCCTTTCGAGGTAGGAATTCAGGGACTCGCCCCCGATGCGCTGCTCGGCGAGATCGGCGTCGCAGTGGTCCGCGTAAGTGCCGCGACAGCCGCGCAGGACACCGTGTCCGCGTATCAGGCCTCCCTGCATGGGCGCGTCCCGGTCGCGCTTATCATCCCGCACGGCATCGAGTCACTGCCGAGCGAGTCCGACATCGAACCGGCCATCGCCAGGCTGTCAGGTCCCTCCGGTAAGGTGCAACCCAAGGCGGAGGACGTTGCCGCGGCGGAGCGCGCCATCCGCGGGGCTAGGCAGATTGTGCTTCTCGCCGGTCGGGGCGGCAGCGCCCCGGAGACGGCGAAGCTCCTCGAGCGCCTCGCGGAACTGACGGGGGCCTACCTCGCCACCTCGGTCAAGGGCATCGGCATCTTCAAGGACTCCCCGGCGAACCTCGGCATCTTCGGCGGCTTCACCTCCCCCGAAGGTGCGCGGATCATCCGCGAGGCGGACTGCGTCCTCGCCGTCGGTGCCAGCCTGAACTACATCCAGACCCGTCGCTCCACTCTCCTTTCCGGCTCCCAGGTGGTCCAGGTCGATGAGGACCCCCTGGCCTTCGGCAAGTACGACCGTGCGGACGTCCCGGTCCTCGGCGACGCCGCGATCGTCACCCGGGAACTCATCGCCCGCTTCGAGGCGGAGCCGATGGTGCCGGGGCGTCCGCTGCCCACCGCACCTGCGCAGACAGGATCCAGCTTTATCGATGTCTCCGCGCCGGCACAGATCGACCCCCGTGCGCTCGCGACCGAGCTCGACCGCCTCCTGCCTGCCGAGCGGGCCGCTGTCATTGACGGCGGCCACTTCACGGTCTGGCCGATCGCCTTCATGCATCATCCGAGCCCCGACTCGCTGATGTGGACCTGCGACTTCGGCGCGATGGGCTGCGGCCTCGGGCCAGCCATCGGTGCGTCCATCGGACGCCCTGATCGGCTGACAGCACTCTACATCGGCGACTGCGGCCTGTTCATGTCGCTGGGCGACCTCGAGGTCGCAGCCAGGGAACGGATACCGATCCTCGTCATCTGCTTCAACGACGGTGCCGCCGGGTCCGAGATCGTGCTCTCTGAGATCGCTGGCCTTCCCGCCGACGAAGCGATCTTCGGCGTCTCGGACCTCGCGAAAATCGCGGCGAGCCTCGGTACGGAAGCCGCCGTCATCTCAACGGTGGCTGACCTCGAACCGGCGCTCGCCGGCTGGGACCGCAGCGGCCCGCTCTTCCTCGACTGCCGGATCACGCGTGATGTCCGCTCACCGCTGTACGCGCAGTACATCTGA	MTSAGITGNPTDAGGVTVARNTAGVIAATAVRLGATHLFEVMGGSNMRVVHAFEDAGAALHHFRHENGAVGGADGYARATGQVGWTSVVHGPGFTNALTGLRTAVKARSPVVLIMGDVMSTPARNAPFEVGIQGLAPDALLGEIGVAVVRVSAATAAQDTVSAYQASLHGRVPVALIIPHGIESLPSESDIEPAIARLSGPSGKVQPKAEDVAAAERAIRGARQIVLLAGRGGSAPETAKLLERLAELTGAYLATSVKGIGIFKDSPANLGIFGGFTSPEGARIIREADCVLAVGASLNYIQTRRSTLLSGSQVVQVDEDPLAFGKYDRADVPVLGDAAIVTRELIARFEAEPMVPGRPLPTAPAQTGSSFIDVSAPAQIDPRALATELDRLLPAERAAVIDGGHFTVWPIAFMHHPSPDSLMWTCDFGAMGCGLGPAIGASIGRPDRLTALYIGDCGLFMSLGDLEVAARERIPILVICFNDGAAGSEIVLSEIAGLPADEAIFGVSDLAKIAASLGTEAAVISTVADLEPALAGWDRSGPLFLDCRITRDVRSPLYAQYI	PGPT0008185_5713	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
D1-29_02260	1419	ligM_1	COG0404	Vanillate/3-O-methylgallate O-demethylase	ATGAGCGCTTCGCCCACAGTCCGCTCCCTGCAGGACCTGATCGACTCGAAGCCGGATCTGGTCGATTACCTGTACAACGACTCGCCCGGTGCGCACTCCCGCGGCCGGGCCGACCTCACGCCGGTACGGCAGGAGTTCACGAACTGGCGCGACGAGCAGCGTTCGTGGCTCGAGACGGCAGTCCTGTTCGACCAGTCGCACCATATGCCGGAGCTCGTCGTCAAAGGCGCGGACGCCAAGCGGCTGCTCAATCATGTCGGTGTCAACAGCCTCGCGAACCTCCAGCCGGGGCGCGCAAAGCAGTTCCTCGGGGTCAATGAGCGAGGGCAGATGATCGGCGACTGTATCCTCTACGCCCTCGAGGATGAGACCTATGAGCTCGTCAGCAGTATGCCGCTCCTGAACTGGGTCGAGTACCAGATCCTGACCGGCGGGTGGGACGTGACGTACGAGCGTGACAACAACACCTCCGACAATCCCACCGGAAGCCGCAAGCTCTTCCGCTACCAGCTCGACGGCCCGAACGCCGGCGCGATCTTCGACGAGGTCATCGAAGGCGGCGTGCCCGATATCGGCCCGTTCCGCACCGCCAGGGTCCGAATCGCCGGCGTCGACGTCCTCGTGCTGCGGCACAGCATGTCGGGTCACCGGGGCTATGAGGTCTCGGGCGCATACGAGCAGGGTGAAAGCGTCGTGTTAAAGGCGATCCTCGAGGCCGGCGTCCGGCACGGGCTTCTCCAGGCCGGAGCGAAGACGTACTTCAGTGCGAGCTTCGAGGGCGGTTGGATGGCTTATCCGCTGCCTGCTGTCTACACAGGCGAGGAGCTTCGCGCGTATCGCGAATGGCTGCCGGCCGATTCGTGGGAGGGGAGGTTCCAGCTCGCCGGCAGCTTCCGCCCCGAAAGCGTTGAGGACTACTACGTCACGCCGTTTGACATGGGCTATGGGAAGCTCGTGAGCTTCGATCACGACTTCATCGGCCGCGCGGCGCTTGAGGAGATCGCACAGCACAAGACCAGGTCCAAGGTGACGCTCGTCTGGAACAGGGATGACGTACTCAAGGTCGTAGGCTCGCTCTTCGATGAGGGTGAGCTGCCCTACAAGTACATCGAGCTGCCGGTCGCCGACTACGGCAACCTCACGCACCGCGACGAGGTCTACAACCTCGATGGCGAGATGATCGGCGTCGCGACGAAGGTCGGTTACACGATCAACGTTCGGAAGCTCATCTCGGTCGCCATGATCGATCTCGACCGTGTCGCGGCCGGCGACGAGGTCGAGATCGTCTGGGGTGAGGCGAATGGCGGCTCCCGCAAGCCGCGGGTCGAGCGTCACCGTCAGGTACGGGTCCGCGCAACGGTCGAGCCCGCACCGAACCCGGCGTCGGTGAAACCCGCGCCCGCGAAGGCCACGGGCTGA	MSASPTVRSLQDLIDSKPDLVDYLYNDSPGAHSRGRADLTPVRQEFTNWRDEQRSWLETAVLFDQSHHMPELVVKGADAKRLLNHVGVNSLANLQPGRAKQFLGVNERGQMIGDCILYALEDETYELVSSMPLLNWVEYQILTGGWDVTYERDNNTSDNPTGSRKLFRYQLDGPNAGAIFDEVIEGGVPDIGPFRTARVRIAGVDVLVLRHSMSGHRGYEVSGAYEQGESVVLKAILEAGVRHGLLQAGAKTYFSASFEGGWMAYPLPAVYTGEELRAYREWLPADSWEGRFQLAGSFRPESVEDYYVTPFDMGYGKLVSFDHDFIGRAALEEIAQHKTRSKVTLVWNRDDVLKVVGSLFDEGELPYKYIELPVADYGNLTHRDEVYNLDGEMIGVATKVGYTINVRKLISVAMIDLDRVAAGDEVEIVWGEANGGSRKPRVERHRQVRVRATVEPAPNPASVKPAPAKATG	PGPT0005520_20	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_VANILLIN|VANILLATE_DEGRADATION,PGPT0005520-ligM-K15066	NA	NA
D1-29_02261	1542	geoB		Geranial dehydrogenase	ATGACGACGACGGAACGCCTGCCTGCAGTGGAGGTCGAGCTCAAGCTCGCCGCGCGGCACGCCGCCGCCGCCGGGATGCTGCCGGCGCGCTACGTCGACGATCTTTTCATTGCCGGCGAGTACCGTCCGGCGAAAGGCGCCGAGCGGACCGAGCTCGTCGACCCCGCGACCGGGGACGTATGGGGAGCGGTGCCGGTGGCCGACGCGTCGGACGTTAATGCCGCGGTGGCGGCTGCGGCCCGCGGGCTTCCCGAGTGGAGCCGCCGCGGGCCATCGGAACGCGCGGAACTTCTGCTCGCGATGGCCGACGCGATCGAGCGTCGCGCCGAACCGCTCAGCATCACGAGTACGCTCGAGAACGGCTCGCCGTTGTCAGAGACAGCCCTGGCCGCAGGTAACGCGGCCGGGATCCTCCGCTACTTCGCCTCGCTGGCAGGCTGGCTCGCGCAACCCGATCTCCGTGGCTCGCCGAATGACCCAACCGTCGTGACGTCCGTACACCGCGATCCCATCGGTGTGTGCGCACTGATCGCACCCTGGAACTTCCCGATCAACCTGGTCCTCATCAAGCTCGCGCCGGCGCTCCTTGCAGGATGCACGGTGGTGGTGAAGCCGGCACCCTCGACGCCGTTGTCGGTCCGATACATCATCGATGCCGCGATAGAGGCGGGTATCCCCGCCGGCGTCGTCAACCTGGTGACCGGCGGCGGCACGGTGGGTGACCAACTCGTCCGGCACCCGCTGGTCGACAAGGTGGCGTTCACCGGCTCGACCTCGGTCGGCCGCCGGGTCGCGGCGGCGTGCGGGGAGCTGTTGCGCCCCGTCACGCTTGAGCTTGGCGGCAAGTCGGCCGCTATCGTGCTGCCGGACGTCGACCTCGACGTTCTCGGGAGTGCGCTGCTGCGCAGCTGCCTGCGGAACACCGGCCAGACCTGCTACAACTCGTCTCGGATCATCGTCACCCCGGAGCGCTATGACGATGTCGTCCAGCTCGCGGCGGCGGCGGTGTCCGCCGCGGCGGTCGGGGATCCTTTCGACTCGGCCACGGTGTTCGGCCCGGTGGCGACCGCCGCTCAGCGTGATGTCGTGCGGGGCTACGTCCGGTCAGGCATCCGAGAGGGTGCACGTGTTGCGGCCGGCGGCGACGTCGCGCCCGTCTTCGAACGCGGCTCGTGGGTGGTTCCGACGGTGTTCGCAGACGTCGATCCCGGAATGCGGATCGCGCGCGAGGAGATTTTCGGACCGGTGCTCTCCATCCTCAGCGCTGCGGACGTCGACGAGGCGGTGGCGATCGCCAATGCGACGGAATACGGACTCGGCGGCATCGTCTTCGGCCAGGACGAGGACCGCGCGTTCCAGGTGGCGCGCCGTGTCGACACGGGCAACATCGGCCTCAATTTCTTCACGTCGAACCCCGCCGCACCGCTCGCGGGCCGACACGATTCCGGTATCGGCGTCGAGTACGGCGTGGAGGGCCTCTCCCAGTACCTGACGTCACAGTCCGTGCACCGCAGGCAAGGCATCCAGGAGGCATCTATGTAA	MTTTERLPAVEVELKLAARHAAAAGMLPARYVDDLFIAGEYRPAKGAERTELVDPATGDVWGAVPVADASDVNAAVAAAARGLPEWSRRGPSERAELLLAMADAIERRAEPLSITSTLENGSPLSETALAAGNAAGILRYFASLAGWLAQPDLRGSPNDPTVVTSVHRDPIGVCALIAPWNFPINLVLIKLAPALLAGCTVVVKPAPSTPLSVRYIIDAAIEAGIPAGVVNLVTGGGTVGDQLVRHPLVDKVAFTGSTSVGRRVAAACGELLRPVTLELGGKSAAIVLPDVDLDVLGSALLRSCLRNTGQTCYNSSRIIVTPERYDDVVQLAAAAVSAAAVGDPFDSATVFGPVATAAQRDVVRGYVRSGIREGARVAAGGDVAPVFERGSWVVPTVFADVDPGMRIAREEIFGPVLSILSAADVDEAVAIANATEYGLGGIVFGQDEDRAFQVARRVDTGNIGLNFFTSNPAAPLAGRHDSGIGVEYGVEGLSQYLTSQSVHRRQGIQEASM	PGPT0006875_938	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
D1-29_02262	996			hypothetical protein	ATGTTCATTCAAAGGCGATTGAAGAGCATCTCGATAGTCGCGCTTGCACTCTCGGCGGCCCTCACCACGGTTGCCGGCTGCAGTCCCGGGCCCGGGTCGACGAACGGGACGGATGGTACCGGAGATACGGTGGACATCGTCGCCGGCGTCGCGGCGAGCATGAGCTCCCTGAACCTGCGCTTGGGCATGGAGCAGGGCTTCTTCGCTGAGGAGGGACTGAATGTCACCACCGTGCCGTCCGGCACCGGCGCCGGCGGTGTCACGGGGCTCATCAACGGTGAGATCCAGGTCGCGCTCGGCGGGCTCTCGGGGACCATCACCGCAGCCTCGCAGGGCATCCCGGTCGTCTTCGTCTCTGGCGGCATCGCCGACGCGGAGAGCCAGGAGGGCCCCTGGTACGCCACGCTCGTCTCGCCGGACAGCGGCATAAAAAGCTTCAAAGACCTCGAAGGCAAGACAGTCGCGATCAACTCGCTGAACTGTTGCTGGGACTTCTGGACCCGTGAATCGGTCATCGCCGACGGCGGCGACGATAGCAAGCTGAAGCTGGTGCAACTGCCGTTCGCCCAGCAGGCCACAGCGCTGGCCAACGGCCAAGTCGACGCGATCACGACGCAGCAACCCTTCGCCAAGCAGGCGGAGCTTGAGGGCTTTGTCAGCATCGGCGACCCGGCGGCGATCGCGTACGGCGACCCCGAGAACGGCAACACCAACTACTTCATGGCGAAGTCGTTCGTGGACGCCAACCCAGGTGTCGTTGAGCGGTGGCGTGCGGCACTACAGAAGTCGACTGACTACGCGAAGGCAAACCCCGATAAGGTGCGGGATGCCGCGATCTCGATGGTGTCGCTCGATCCTGATCTCGTCGCAGCTGCCCCGGTGCCAAACTTCGTCGTGGAGCTCGACCGCAACGCGATCGAGAAAGAAACCGGCTGGCTGCTGAAATACGGAGTGATCCAGAACGCGCCGTCGGTCGACAGCCTGATTGTTCCCTGA	MFIQRRLKSISIVALALSAALTTVAGCSPGPGSTNGTDGTGDTVDIVAGVAASMSSLNLRLGMEQGFFAEEGLNVTTVPSGTGAGGVTGLINGEIQVALGGLSGTITAASQGIPVVFVSGGIADAESQEGPWYATLVSPDSGIKSFKDLEGKTVAINSLNCCWDFWTRESVIADGGDDSKLKLVQLPFAQQATALANGQVDAITTQQPFAKQAELEGFVSIGDPAAIAYGDPENGNTNYFMAKSFVDANPGVVERWRAALQKSTDYAKANPDKVRDAAISMVSLDPDLVAAAPVPNFVVELDRNAIEKETGWLLKYGVIQNAPSVDSLIVP				NA	NA	NA	NA	NA
D1-29_02263	774			hypothetical protein	ATGCGTCGTTCATGGCTCGTCCGGTCCCTTCCCTGGATCACGACCCTCGCCATCATCACGTTGCAGGAGATCCTCGCCCGAACGGGCGTGCTCCCCAACGTGATCCCCCCTTTCACGGAGGTTGTCGCGGCAGGTTGGATGATGCTGCCGACCGACGTTTTCCTTACGGGCCTCCGGGAGATGCTCCAGCAATTTGCGATCAGCCTTGCGCTAGGAATCGGTGCAGGCCTTGTGCTCGGCATTCTGATCGGCGTCGCGCCGGTGCTGAACCAGCTTTTTCGGTATGTGCTCGAGTTCCTCCGCTTCACCCCCAGCGTGGTGTACATCCCGATCCTCCTGCTCCTCATGGGAGCGAGGCCGCCTGTGGCGATCACTCTGGCGGCGATCGGGGCCACATGGCCGGTTCTCTACCAGACCTATTACGGAGTCGTTGGCGTATCGCCGATCCTGAAGGACACCGGACGCGTGTTCGGCCTGAGCCGCGCGCAGCAGATACGGAGCATCACCATCCCCAGCGTGTCGCCGTTCCTGGCGACCGGGATCCGGATCGCCGCGGCCCATGCGCTCATCATCGTGGTCGCGGTCCAGATCATCGCCGCGGTCCCGGGCACGGGACGTGACATCCAGAACTACGCCGAGAACGGCGTCTTTCCCCGGATGTATGCCCTCATCCTGGTGGTCGGCATCATCGGACTCATTATCAACGGGCTGCTCGAGTTGCTCGAGCGCCGTCAATTGCACTGGCATGCATCGTACCGGGAGAAGCAGGCATGA	MRRSWLVRSLPWITTLAIITLQEILARTGVLPNVIPPFTEVVAAGWMMLPTDVFLTGLREMLQQFAISLALGIGAGLVLGILIGVAPVLNQLFRYVLEFLRFTPSVVYIPILLLLMGARPPVAITLAAIGATWPVLYQTYYGVVGVSPILKDTGRVFGLSRAQQIRSITIPSVSPFLATGIRIAAAHALIIVVAVQIIAAVPGTGRDIQNYAENGVFPRMYALILVVGIIGLIINGLLELLERRQLHWHASYREKQA				NA	NA	NA	NA	NA
D1-29_02264	822	ssuC_5	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGACGACCACCACAGCGACCAGCGCATCGACCACCACCGAAGCCACTGGACGGCGTTGGTCCTCGCGCTTGAGCGGTACGATCTTCTCGCTCATCCTTCCCGTGGTGATCCTTGTCATCTGGTGGTTCGTGTCGGCGAACAGCACCTCGCCGTTCTTCCCACCCCTCCAGTTGATCCTCGAGACGTTTGTCGAGGCCTGGCTGTCGGCGCGGGTTATGTCCGATATTGTGCCGAGCCTCACGCGCCTGGTGGTCGGATTCCTGATCGCCGCCGTCGTCGGCGTCTCGCTCGGTGCGCTCCTCGGGCGGCTGCGGATCGCGGCCTACGCACTGAACCCGGTCCTGCAGTTCTTCCGATCGCTCCCGGCGACGTCACTGATCCCGGTCGCGGTGGTGCTGTTCGGCATCGGCGACACCCCGAAGATCGTGCTGATCGCCTTCGTGAGCTCCTTCCCGATCCTGCTGAACACGATCGACGGAGTCAGGAACATCGACCCGGTGATCGAAGACGTCAGCAGGTCCTTCCGGCTGACCAAGATGCAGCGCTTGCGCTGGGTTCAACTCCACGCCGCCTCGCCTCAGGTGATCTCCGGGATGCGTATCGCGTTGAGCCTCGCCTTCGTGGTCATGGTTTCGTCGGAGATGCTTGGCGCGACGAACGGCATGGGCTATGTGACCCTGCTCGCGCAGCAGGGCTTCCAGATTCCGCTCATGTGGTCCGGACTTATCCTGCTCGGACTGATCGGGCTGCTCGTTAACGGCATCTTCATTCTGGTGGAGCGCAAGCTGCTCCACTGGTATACCCAAAATCAGGAGGACTGA	MTTTTATSASTTTEATGRRWSSRLSGTIFSLILPVVILVIWWFVSANSTSPFFPPLQLILETFVEAWLSARVMSDIVPSLTRLVVGFLIAAVVGVSLGALLGRLRIAAYALNPVLQFFRSLPATSLIPVAVVLFGIGDTPKIVLIAFVSSFPILLNTIDGVRNIDPVIEDVSRSFRLTKMQRLRWVQLHAASPQVISGMRIALSLAFVVMVSSEMLGATNGMGYVTLLAQQGFQIPLMWSGLILLGLIGLLVNGIFILVERKLLHWYTQNQED	PGPT0001145_2549	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
D1-29_02265	825	nrtC	COG0715	Nitrate import ATP-binding protein NrtC	GTGCTCAGCGTTGAACGACTGCAAAAGACCTATGCTACGGGCGGCAAGTCCCTTGAGGTGCTTCGAGACGTGAGCTTCACGGTCAAGGAGGGCGAGTTCGTCACTGTCGTGGGGCCGTCCGGAGCCGGGAAGACCACGCTGCTGCGCTGCATGGCCGGCCTGCTGCCGCCTTCCGGCGGGAAGGTGACGTTGACCGACACCGGCAGGGTCATCGACTCGCCGCCGAAAGAGATTGCCTGCGTGTTCCAGGACTACAGCCGTTCGCTGATGCCCTGGTACAAGGTCAGTCGCAACGTCGCCTTGCCGCTCGCCAACACCATCAAGGACCGGGACGAGCGCCGGCAGGCGGTCGAGCAGGCGTTGCAGAGTGTCGGGCTCGATGGTTTTGGGGACAGCTATCCGTGGCAGCTCTCCGGCGGCATGCAGCAGCGGGTGGCGATCGCCCGTGCCCTCGCCTACCGCCCCGAGTTCCTCATCATGGACGAGCCCTTCGCCTCCGTCGACGCACAGACCCGCGCCGACCTTGAAGACCTCATCCTTCGGGTCCGGCAGAGCGCGGGCGTCACCATCGTGCTCGTCACTCACGACATCGATGAAGCCGTCTACCTTGCCGACCGCGTTGTCGTCGTGTCCAACCGGCCGACAGTCGTGATGGACGTGATCGACATCGATCTGCCGCATCCGCGCAGCCAGGTCACGACGAAGGGTCTGCCACGATTCGGAGAGCTCCGCACCAAGGTGGCGAAGCTCATCACGCAAGCCAGCGCAGATGCGGCGGCAGCGCAAGCAGAGGCGGCAGCAGCGCAAGCGGAGGCGAAGGCCTGA	MLSVERLQKTYATGGKSLEVLRDVSFTVKEGEFVTVVGPSGAGKTTLLRCMAGLLPPSGGKVTLTDTGRVIDSPPKEIACVFQDYSRSLMPWYKVSRNVALPLANTIKDRDERRQAVEQALQSVGLDGFGDSYPWQLSGGMQQRVAIARALAYRPEFLIMDEPFASVDAQTRADLEDLILRVRQSAGVTIVLVTHDIDEAVYLADRVVVVSNRPTVVMDVIDIDLPHPRSQVTTKGLPRFGELRTKVAKLITQASADAAAAQAEAAAAQAEAKA	PGPT0001140_3128	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
D1-29_02266	1701	mdlC		Benzoylformate decarboxylase	TTGACCACCACCGAGCAGGCTCTCTCCCGAACGACTCCGCGGCCGCTCTCCGGCGCGGAGCTCCTCCTCCGGGGCCTCATCGACCGGGGCGTCGACACGATTTACATCAATCCGGGTACCGACACCGCGCCGCTCGCCCGCGCGATCGAGATTGGAATCGCCGAGACACGCCCAGTTCCACGGCTTGTCCTGTGCCCGCACGAGACGGTCGCACTCGCTGCCGCCCACGCGCATTTCGCGGTGACCGGCCAGGTGTCTGCCGTCTTCGTCCACGTCGACGTCGGCACGCAGAATCTCGGCGCGATGGTGCACAACGCGGCTCGGGCGGGGGCAGGCGTCATCATCATGGCTGGCCTCACCCCCTACGACGAGTACGGCACCGTCCATGGCGGGCGCGACCACATCGTCCACTGGATGCAGGACGCACCCGACCAAGCAGGTATCGTCCGGCAGTACGTGAAGGCCACGTTCAACCCCTCCCACGCCAGCCTCGTCCATAAGACCGTGCAGCGGGCGATCGACATCGCAGGGGCCGCCCCGCCCGGGCCGGTTTACCTGACGTTCGGGCGTGAGATGCTCATCGAGACGGCACCGGAGCCAGAGGCCCCGCGGCTGGGCTCCTTGTTCCGCTCGGGCCCGAGCCCGGAGGCAACCGACGCGAGCCTTCGGGAGATCCGGGCGAGCAAGCACCCCGTGCTTGTCACCTCCCGGGTTGGGCAGGACCCTGAAGCAGTCGCACCGTTCACCCGGCTCGCGGAGCTCATTGGTGCGACCGTCATCGATCCGCTCAAGGAGCGGATGAACTTCCCCCCGACGCACCCGCTCGCCGCGACCAACGTCGCGGCAGCCTGGGCGGAGGCTGACCTAGCGATAGTCCTCGATGCGCCCGTTCCCTGGATCCTGGGAAAGGAAGGCCCCCGGCGGGACTGCCGGGTACTCCTCATCGACACCGATCCGCTCCAAGTCGCGATGCCGAACTGGGCGTTCCCGGCGGATGTGCGCGTCACGAGTTCGCCGCGCGTTTGGCTCGAAACGATACTCGCGCGGCTCGAGGCGGAGGGTGCGAGGCCCGTCCCGCTCGGGCGGCGGCCTTTGATGCCCAAACGCCCGACCCTCGGTGCATCGCTCACGGCGCAGGACGTCCTTGCCGTTCTCGCCGACCACATCACGGCGGAGGATCGGCTCATCGAGGAGTCGACGACCTCGGCGGGCTATGTCCGCCAGTGGCTCCCGCGGACAGTCCCGGGCACCTTGTTCCGCGCCGGCGGCGCCGGGCTCGGCTGGGCCCTCGGCGCGTTGCTCGGGGCGATGGCCGCCGAGCCGGAGCGGCCGACCTTCGTCGTCGTCGGGGATGGCTCCTTCATATTCAGTGCACCGGTTGCGGCGCTCATTGCGCTGCGGCGCGAGCGCGTCGACGGTCTCATCGTGGTACTCCAGAATGGTGGCTATGCGGCGAGCAGTCAGCCCGTCCACGACCTCTTTCCCGACGCCGAGCGGCCCCAGCCGCCAGCGACTGCCTTCCTTGCCGAGGTGGACATCGCCGGGATCGCCGCGGCGTGTGGCGCGACCGGCTTCACGGTGACCTCCCCGCAAGATCTCGCCGATGGGATAAAGCGCGCTGTCGCCGCTTGGCGACAGGGGGGCCTCGTGGTGCTCGCGGCAATGATCAGTTCGCCATGGATCAAGCCAGCGGACTACTGA	MTTTEQALSRTTPRPLSGAELLLRGLIDRGVDTIYINPGTDTAPLARAIEIGIAETRPVPRLVLCPHETVALAAAHAHFAVTGQVSAVFVHVDVGTQNLGAMVHNAARAGAGVIIMAGLTPYDEYGTVHGGRDHIVHWMQDAPDQAGIVRQYVKATFNPSHASLVHKTVQRAIDIAGAAPPGPVYLTFGREMLIETAPEPEAPRLGSLFRSGPSPEATDASLREIRASKHPVLVTSRVGQDPEAVAPFTRLAELIGATVIDPLKERMNFPPTHPLAATNVAAAWAEADLAIVLDAPVPWILGKEGPRRDCRVLLIDTDPLQVAMPNWAFPADVRVTSSPRVWLETILARLEAEGARPVPLGRRPLMPKRPTLGASLTAQDVLAVLADHITAEDRLIEESTTSAGYVRQWLPRTVPGTLFRAGGAGLGWALGALLGAMAAEPERPTFVVVGDGSFIFSAPVAALIALRRERVDGLIVVLQNGGYAASSQPVHDLFPDAERPQPPATAFLAEVDIAGIAAACGATGFTVTSPQDLADGIKRAVAAWRQGGLVVLAAMISSPWIKPADY				NA	NA	NA	NA	NA
D1-29_02267	798	pcaR_2	COG1414	Pca regulon regulatory protein	ATGAGTAGGCGGCCTGAGGGTCTAGACCAACGCGACTATGTTCAGTCCCTCGAGCGGGGACTCGCGGTCATCTTGGCCTTCGCTGATCACCGTCCGCGGCTGACTCTGACAGAGGTCGCAGCCGCAGCGGGACTGAGCCGTCCCACCGCACGACGCCTTCTGATCACCCTCGAGGCACTCGGTTATGTCCGCGCCGACGGGCGCGGCTTCTTACTGACGCCGCGCGTCCTCACCATCGGATACGCCTATTTGAACTCGCTCGACCTCAGGGAGATCGCGCAGCCGGTGATGGAGCAGATCGTCGCCGAGGTGAGAGAGACCTGCACGCTGGCGACACTCGACGGATCGGACATCGTCTATATAAGCCGCATCTCGATGCGGCGGATTAGCAATCTCTCGCTTGTCATCGGCACCCGGCTCCCGGCCTATGCGAGCGCGATGGGACAGGTGATCCTCGCCGATCTCCCAGCGGCGGGCCTGCGCCACTATCTCGACACAACCGGACTTGAGGCGATCACGCCGCACACCATCACGAGCCCCGCCGCTCTCAAAGAGCGCCTCGCGAAGATACGCGAGCGCGGCTGGTCGGAAGTGGACCAGGAATTCGAAACCGGGCTGCGCGCGATTGCGGTGCCTGTCCGCGGCGGCGACGGACGGGTGTTCGCCGGGCTTGGCCTGTCGTCCACCGCCCTGACGACGCGCGAACTGCTGGAGCACCTCCCGCTGCTCCAGGACGCCGCCGCAAAGATCAGCGCCGGACTCGGCAGCGAGTTTTCGACCCGCGTAGAGCATCACTGA	MSRRPEGLDQRDYVQSLERGLAVILAFADHRPRLTLTEVAAAAGLSRPTARRLLITLEALGYVRADGRGFLLTPRVLTIGYAYLNSLDLREIAQPVMEQIVAEVRETCTLATLDGSDIVYISRISMRRISNLSLVIGTRLPAYASAMGQVILADLPAAGLRHYLDTTGLEAITPHTITSPAALKERLAKIRERGWSEVDQEFETGLRAIAVPVRGGDGRVFAGLGLSSTALTTRELLEHLPLLQDAAAKISAGLGSEFSTRVEHH				NA	NA	NA	NA	NA
D1-29_02269	180			hypothetical protein	ATGAGCGCCAGCGCCAAGCCCCGGCTCGCTGGCCGGCAACCCTCCAACCGCGGTGGGGTGCCCCGGGTGAGGACCTGGCTGTCCGGCAACGGCCGGATGGCAAGCGCGGCCCGTGGTGCTCCCAACATGCCCCGGGCCCACGTCAAAGGAGCCTTGAATGTCCAACGGATGGTCTTTTGA	MSASAKPRLAGRQPSNRGGVPRVRTWLSGNGRMASAARGAPNMPRAHVKGALNVQRMVF				NA	NA	NA	NA	NA
D1-29_02270	1326	metY	COG2873	O-acetyl-L-homoserine sulfhydrylase	ATGTCCAACGGATGGTCTTTTGAAACCCGCCAGATCCATGCCGGGCAGGAGCCGGATTCTGCCACCGGCGCCCGGGCACTGCCCATTTACCAGACCACGTCTTTCGTGTTTCCCAGTGCGGAAAGCGCTGCCAACCGCTTTGCACTGGCCGAGCTGGCGCCGATCTATACGCGCATCGGCAACCCCACGCAGGACGCGGTGGAGCAGCGTATTGCCAGCCTGGAAGGAGGCCTGGCAGCGCTGCTGCTCAGCTCCGGCCAGGCGGCGGAGACCTTCGCGGTCCTGAACATCGCCGAAGCCGGGGACCACATCGTGGCCAGCCCCAGCCTTTACGGCGGCACCTACAACCTCTTCGCCCACACGCTGAAGAAGTTCGGCATCAGCGTCACGTTCGTAGCGGACCCGGACAACCTGGACCAGTGGCGTGACGCGGTGCAGCCGAACACCAAGCTCTTCTTCGCCGAGGTGGTGTCCAACCCCCGCCAGGATGTCCTGGACATTGAGGGCGTATCCGGGGCTGCCCACGAGGCGGGCGTGCCGCTGATCGTGGACAACACGCTGTCCACGCCGTACCTGATCCGTCCGCTGGAATGGGGCGCGGACATTGTGGTGCATTCGGCCACAAAATACCTGGGCGGCCACGGCGCAGCGATCGCGGGCGTCATCGTGGATTCCGGCAAGTTCGATTTCGGCAAGGACCCGGAGCGGTTCCCCGGCTTCAACACCCCGGACCCCACCTACAACGGGCTGGTCTACGCCCGCGACCTCGGCGAGGGCGGCGCCCTGGGCGCCAACCTGTCCTACATCCTCAAGGCACGGGTCCAGCTCCTGCGGGACCTGGGCTCGGCGGTGTCCCCGTTCAACGCGTTCCTGATCTCGCAGGGCCTGGAGACCCTGAGCCTGCGGGTGGAACGCCACGTGGCCAACGCCGGCGAAGTGGCCCGCTGGCTGGAAGCGCGTGACGACGTCGAATCCGTCGCCTACGCGGGCCTGCCCTCAAGCCCCTGGTACGAGCGCGGGCGGAAATACGGCCCCAAGGGCACGGGTGCCATCGTGTCCTTCAATCTTTCCGGAGGCGCCGAGGCGGGCAAGCGGTTCGTGGACGCGCTGGAGCTGCACTCGCACGTGGCCAACATCGGGGACGTCCGGTCCCTGGTCATCCATCCGGCCTCCACCACGCACAGCCAGCTCTCCCCGGAGCAGCAGGCCGTGGCCGGCGTGACCCCGGGACTGGTCCGCCTCTCCGTGGGCATCGAGCACATCGATGACATCCTGGCAGACCTTGAAGCCGGCTTCCGTGCCGCCAAGGAGGCCAGCGGCGCCTGA	MSNGWSFETRQIHAGQEPDSATGARALPIYQTTSFVFPSAESAANRFALAELAPIYTRIGNPTQDAVEQRIASLEGGLAALLLSSGQAAETFAVLNIAEAGDHIVASPSLYGGTYNLFAHTLKKFGISVTFVADPDNLDQWRDAVQPNTKLFFAEVVSNPRQDVLDIEGVSGAAHEAGVPLIVDNTLSTPYLIRPLEWGADIVVHSATKYLGGHGAAIAGVIVDSGKFDFGKDPERFPGFNTPDPTYNGLVYARDLGEGGALGANLSYILKARVQLLRDLGSAVSPFNAFLISQGLETLSLRVERHVANAGEVARWLEARDDVESVAYAGLPSSPWYERGRKYGPKGTGAIVSFNLSGGAEAGKRFVDALELHSHVANIGDVRSLVIHPASTTHSQLSPEQQAVAGVTPGLVRLSVGIEHIDDILADLEAGFRAAKEASGA	PGPT0001995_267	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001995-metC-K01760	NA	NA
D1-29_02271	345			hypothetical protein	ATGGCGGTCATCGAGCAGGTGCGTGAAGGAATGCACGTTGTAGCGCCGGATGGCAAGAAGATCGGCAAAGTGGAAGCACTGAAGATGGGGGATCCGGAGGCAGTGACGGCGGAGGGTCAGACCGACCCTGAAACGGGAGGCCTCGTCGGCACAGCGATTCACGCATTCGCTGCCACCTCCTCGTTGCCCCATCACACGGCGGAAAGGCTGTTGCGGATCGGCTATGTGAAAGTGGACAGGTCAGGTCTGTTTGCCGGTCACGCATACTTCGCATCGGATGAGCTGGAGAGAGTCGACGGCGACACCCTATGGCTCAAAGAAGGCCCGCATACCGACCAATTGTGA	MAVIEQVREGMHVVAPDGKKIGKVEALKMGDPEAVTAEGQTDPETGGLVGTAIHAFAATSSLPHHTAERLLRIGYVKVDRSGLFAGHAYFASDELERVDGDTLWLKEGPHTDQL				NA	NA	NA	NA	NA
D1-29_02272	804			hypothetical protein	ATGATTCTGTCTACAGTCACGGATGAAGTCATCGCTGACCGCTCCCCGGCCGCGTTCCCCCGAATTTTCGAAACAACCAAGGCCGAAGGAATCTCCGATGTTGAGATCCGCATGGTCGAAGCCAAGCGATTCCCTGTAGTGGATCCAGATGCCTGGGACCGCCTCAAATCAACATCACAAGAGTACGAAATCACCCTCTCCGCCGTTTCACCCGGCCTGTTCAAGGCTCCGCTGAACAGCGACCTGCTATCCCTGCACTCGAACGGCATCCTGGAGATGAGCCTTGATTTGGCAGAACGGCTGGAAATTAACACCCTGATCGTCTTCGGCGTGCAGCGCAGCCACCAGGACACCGCATCAGATCTCCAGCGCGTCATCGAGATTCTTGGACAGACGTCCGACCGTGCCGCTAAACGGGGCTTCACCGTGCAGCTGGAAAACATTCCAGGCTCCTGGGCTGACACGGGCGATAACTGCCTGGCCCTGCTCGAAGGCGTTGGCAGGGACAACTTCGGATACGTGTGGGACACCGGTAATCTCTACGAAGCTGAAGAGAAGCCCTTCCATCAAAGCTACGAAAAACTCAAGCCATACATCAAAAACGTTCACCTCAAAGACGGTCGCTTCATCGATGGCGTTATGACTTGGGAGCACTTCGGAACCGGGGTAACCGACATCGCCGGACAGGTCTCCGCCCTTAAAGCAGACGGCTACGAAGGCAAACTCACCATGGAAGCCAAGTGCGAACCCCATATGGACGAAGACTTCATTGCGTCCGTCCGCTACCTGAAGTCAGTGCTGTAA	MILSTVTDEVIADRSPAAFPRIFETTKAEGISDVEIRMVEAKRFPVVDPDAWDRLKSTSQEYEITLSAVSPGLFKAPLNSDLLSLHSNGILEMSLDLAERLEINTLIVFGVQRSHQDTASDLQRVIEILGQTSDRAAKRGFTVQLENIPGSWADTGDNCLALLEGVGRDNFGYVWDTGNLYEAEEKPFHQSYEKLKPYIKNVHLKDGRFIDGVMTWEHFGTGVTDIAGQVSALKADGYEGKLTMEAKCEPHMDEDFIASVRYLKSVL	PGPT0003570_91	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-PETROBACTIN_BIOSYNTHESIS,PGPT0003570-asbF-K15652	NA	NA
D1-29_02273	927	dasC_4	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGTCAATTGACAACCCTGTTACCGCGGCCACCCGGCCCGCCCTGTTCCGCCGCAGCACGCCACAGGATGGCAGGTTTGAATCTGCTCTTGGATGGCAACCCGGCAAGAAGTCTTCACTCGTGTTGCGGACAGGGCTTGCCCTCCTGGCCGTCCTGATTTTCGCTGGCCCCATTCTGGCAATCATCGCCAGTGCGTTTGACCTGAATGCCGACCCTACCCGGTTGACCCTCATCCCCCAGAACCCCAGCCTTCGAAACTTCGAAGTGGCCACAGATCGCAATGTCTGGGGGTTCTTCTTGAATTCGGTCCTGATTGCCGGCTTTGGTCTGCTTCTGCAGACCATCGTTGCGGTCACCAGCGCATATGCTTTGGCCCGCCACAAGTTCCGGGGCCAGGCGATAATCCTGTGGCTCTTCCTCGCCACCATGATGTTGCCGGAGGAAGTGGTGGCAGTACCCCTGGCCGTTGTTTTGGGAGACGTACCCCTGACCGGCATCAACATGCGTGGAACCATCTGGGCCGTAGCCCTTCCGGTTGCCGCGTCCGCTTTCTCCATCCTGGTGATGACCGCATTCATGAAAGACATCCCGGACGAAATTGAAGAAGCGGCAAAGATCGACGGCGCCGGTGAGATCCGCATGCTGGTCCAGGTCATCCTTCCACTGTGCAAGCCCGCGCTGGGCGTTATTACCATCTTTGGCTTCATTGGCGTGTGGGACCAGTATCTGCTCCCGCTCATCGCCGCCAACAGCACATCGAATTACACCATCACGGTGGCCTTGGCCAGCCTGCGCGCAGACGTTCAAGTAGGCACTGGTGTCCTTCTCGCCGGCGCCTTCCTGGCTCTCATCCCTTCCCTCCTGGTGTACCTGCTCCTGCAAAACTCCTTGGTCCGAGGCATGACTACCGGCGCAGTCAAAGGCTAA	MSIDNPVTAATRPALFRRSTPQDGRFESALGWQPGKKSSLVLRTGLALLAVLIFAGPILAIIASAFDLNADPTRLTLIPQNPSLRNFEVATDRNVWGFFLNSVLIAGFGLLLQTIVAVTSAYALARHKFRGQAIILWLFLATMMLPEEVVAVPLAVVLGDVPLTGINMRGTIWAVALPVAASAFSILVMTAFMKDIPDEIEEAAKIDGAGEIRMLVQVILPLCKPALGVITIFGFIGVWDQYLLPLIAANSTSNYTITVALASLRADVQVGTGVLLAGAFLALIPSLLVYLLLQNSLVRGMTTGAVKG	PGPT0016540_1844	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
D1-29_02274	1017	melD_7	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGACCGGTAAAACCGTTCACCCGGCGCCGTTAACCACGGCGTCGGGACCCAACTCCCGGGCACGCCGCACGCTGCGGCCGGCGCAAGGCGGGTTGGCCCAGGAGGGGTCGTCGCAAGTCGCATCGGCCCTGCGTATCAGGCCCCGACGGCGCAAAGCCTTCCCCTGGATGGTGTGGTTCCTGCTGTTCCCGGCCATGCTGCTATTCCTGTACTTCAAGTTCATCCCGATGTTCGCCGGGATCTCCATGAGCTTCCATGAGGTCCGTCCCTTCCTTGGTGACATCTGGGTGGGGATGGATAACTACCTCACGGTTTTGGCTGATCCCAAGTCCGGAAGCGCCATCTGGCACACCCTGGTGCTCGGAATTGGTCAGTCTGCCGGAGCAGTGATTGGCGGGCTGGCGCTGGCGATGATCCTCGAAGGTGCCAGCCGCAGCCTCGCGGTTGTACGCACTCTGGCCTTTCTGCCCGTTGTCACTGCCACTGCTGTGATCGGCGAAGTGTGGCGCATCATCTATTACCCGGCTCCCGACGGGCTCATCAATTCGATCCTCGGCGTCGTGGGAATCGGGCCGGTCCGCTTCCTCGAAGACCCGGACACGGCATTGGCATCGGTCATGGCCGTAGGCATCTGGCAAGGTGCCCCCTACAACATGGTCATCATCCTCGCCGGTCTGGCAGCCGTGGACCGTTCCCTCTACGAAGCGGGAGCAATCGATGGCGTCAACACCTGGCAACGACTGCGATACATCGTTATGCCTGCGCTCCGTCCTGCCATGACTATCGTGATCGTCCTCGCAGCGATCCGTAGCCTCAGGGTTTTCACCGACGTTTGGGTTCTCACAGGGGGTGGTCCCTCGGGCGCCACCGACGTTTGGATGACCCGGGTCTACTCGCTGGGTTTCGAGCGCAACGATATCGGTGTGGCGTCCGCCGCCTCGGTCCTGCTACTTGTCGCGACTCTGGTGCTGACCCTGGGTTCAGTGCTTGTCATGCGGCGGAGGAAGGATGCCTAA	MTGKTVHPAPLTTASGPNSRARRTLRPAQGGLAQEGSSQVASALRIRPRRRKAFPWMVWFLLFPAMLLFLYFKFIPMFAGISMSFHEVRPFLGDIWVGMDNYLTVLADPKSGSAIWHTLVLGIGQSAGAVIGGLALAMILEGASRSLAVVRTLAFLPVVTATAVIGEVWRIIYYPAPDGLINSILGVVGIGPVRFLEDPDTALASVMAVGIWQGAPYNMVIILAGLAAVDRSLYEAGAIDGVNTWQRLRYIVMPALRPAMTIVIVLAAIRSLRVFTDVWVLTGGGPSGATDVWMTRVYSLGFERNDIGVASAASVLLLVATLVLTLGSVLVMRRRKDA	PGPT0016535_3531	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
D1-29_02275	1314			hypothetical protein	ATGACTAAATTGACACTTTTCCGCTCGCTTATTGCAGCAGGTTGCTCCGTCGCCATGATTTGCTCCGCGGGATGCTCGTCGTCCCAGCCAGTGAGCACCGCAGACGACGGCCAACCATTGGAAGTGTGGTCCCGCAGCGGACCGGAGGCTGCCAAGACGTACCAGGCGGTTCTCGACGCCTTCACGCAAAAGACCGGTATCAAGGTTGACTACCTGGCCACAGTGGAATTCGAAACACAGCTGCAGGCACGTGCCGCTGCCAAAGACCTCCCGGACGTCATGATCTACGACCAATCCAGCATGGCCAATTACGCCGAAAAAGGCATGCTCAGGACAATTGAACGCGATGACATCGCCGGGGCGGACCAGTTGAGTGACGATTCATGGGCGTCAGTCAAGACGGCAGATGGTACCCACTACGGCGTCCCCTTCAGCCAGCATGCCCAGGTCACCTTCATCCGGAAGGACTGGAGGGAGCGGCTCGGGATCGCAGTGCCGAAGAGCCATGACGAACTCCTTGCCCTCGCAACGGCCTTTGCCACAGGGGATCCCGACGGCAACGGTGTCAACGGCGACACCTACGGCATGACGGTGCCAGGCACAACCGACCGCGGATTCTTCACCTGGTGGGCTTCCTCCTACCTCTGGCAGCGCGACGCCGGCATCGTCAACGGCAGCGACGGAAAATACAGCGTCGAGGCGAACAGCCCCAAGACGGTGGAAGCAGTTTCCTGGCTGAAGACGTGGTTCTGCACGCCGAACATGGTCCAGCCTGGAGCACTGACCAACGCCAGTGCCACTCCATTCTTCGCCGAAGGCAAGTCAGGGATCTACCAGACAGGGCCTTATGCGTTCGCCAACTTCGACAAGTCCCCAGGGAAGGACAAGTACGAGGTCATCACCGCACCCAAGGGCCCGGGCGGAAGCACCACGCTGACCGAACGCACTAGCATCTACTTCGGCGCTTCGACCAACAAGCCTGACAAGCAAAAGGCCCTCGCGGAGTTCCTCATCTCCGCCGAGGCACAAAAGCTCGGCATGACCGCTCCGGGCCAGCCGGTGGTGCGGCTCCCCATCAACACATCGGTTGACGCAGCAGAAGTCTATGGGGACCCACGTTGGAAAGTGGCACAGGAACAGTTGGCCGATTCTGAGCTCTTGCCCTCAGATATCGACTTCACTGTCATCCGCCAAGATGTGGCTGAAACTCTCAACTCCATGTTCGGGCAGTGCAGCTCTGATGTTTCGAAAGAACTGAAAGCCCTTTCGGAGCGGATCACCGAGGACCTGAAAAGCAGGGATGCGCTCAAATGA	MTKLTLFRSLIAAGCSVAMICSAGCSSSQPVSTADDGQPLEVWSRSGPEAAKTYQAVLDAFTQKTGIKVDYLATVEFETQLQARAAAKDLPDVMIYDQSSMANYAEKGMLRTIERDDIAGADQLSDDSWASVKTADGTHYGVPFSQHAQVTFIRKDWRERLGIAVPKSHDELLALATAFATGDPDGNGVNGDTYGMTVPGTTDRGFFTWWASSYLWQRDAGIVNGSDGKYSVEANSPKTVEAVSWLKTWFCTPNMVQPGALTNASATPFFAEGKSGIYQTGPYAFANFDKSPGKDKYEVITAPKGPGGSTTLTERTSIYFGASTNKPDKQKALAEFLISAEAQKLGMTAPGQPVVRLPINTSVDAAEVYGDPRWKVAQEQLADSELLPSDIDFTVIRQDVAETLNSMFGQCSSDVSKELKALSERITEDLKSRDALK	PGPT0016545_7117	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
D1-29_02276	930	argP_2		HTH-type transcriptional regulator ArgP	ATGGACACCTGGAAGCTCGAGGCGTTCGTTAAGACGATAGATCTAGGCAGTATTTCCCGTGCGGCGGTGGCCCTGCACTTGGCACAGTCCGCACTCAGCCAACACCTCTCGAGTCTCGAAACGAAGCTCTCGGTGAAACTGCTCGTCCGGACCAAGCAGGGAGTAGAGCCCACCGCGGCAGGGCGGGTGCTGTACCGGCATGCCCAACTGATTCTGAGGGGTGTCGACAATGCCGTCCAGGAAGTCAAAGCGGTCTCCGAGGGGCCAAGTGGGCGTGTGTCGGTTGGTCTTGCCCCCTACAGCTTCGCTGCCGCCCTGGCAGTGCCACTCATAGAAGCAGTCCGTGCGGCAGCCCCGAAAATCGTTCTTCATGTTCGGGAGAACTTCGGCGGAATACTTAGCGAGGCCATTGCTACCGGGCAGATGGATCTGGGCGTCCTGTATACCCCAGTCCCGCTGCGTGCCGTACACGTAGAGCCGATCCACCGCGAACGGCTGTGGCTGGCAACCAGCAAGCGAGCCGGGCTACCCGACGTCGTGTCGTTTCCCACGCTGACCGATACTGGTGTCTTTCTGCCCTCGCGCCAGCACTCTATCCGGCTTGCTGTTGATGCCGCCTTCCAGCAGCACAATCTTTTCCCCCGGCTACTCGGTGAAGTCGAGTCTGTGCCGACTTTGATGGAGCTCATCAGCAGGGATCTCGGCGCCACCATACTGCCTTTTTCCGCTTTTCCTTCCCTTGGGAGCTATCCGGAAGTCCAGATTCATGAGCTTGACGACCCGGTAACGGACCTCGGGATTGCCCTGTGCACGGGCAGTCATCAGCCCTTGTCAGACCAGGCCCGCATCGTGGAATCCATCCTGAGGGATCTGCTGATGCGGAGCGTTAACAGTTCCGCCGACCACGCTGCATCAGCGCAGAGGGACTGA	MDTWKLEAFVKTIDLGSISRAAVALHLAQSALSQHLSSLETKLSVKLLVRTKQGVEPTAAGRVLYRHAQLILRGVDNAVQEVKAVSEGPSGRVSVGLAPYSFAAALAVPLIEAVRAAAPKIVLHVRENFGGILSEAIATGQMDLGVLYTPVPLRAVHVEPIHRERLWLATSKRAGLPDVVSFPTLTDTGVFLPSRQHSIRLAVDAAFQQHNLFPRLLGEVESVPTLMELISRDLGATILPFSAFPSLGSYPEVQIHELDDPVTDLGIALCTGSHQPLSDQARIVESILRDLLMRSVNSSADHAASAQRD				NA	NA	NA	NA	NA
D1-29_02277	1212	aatB	COG0436	Aspartate aminotransferase	ATGCCTGAATTTGTGCCCGCGTCACGCGTATCCCGAATCAAATCCTCAGCCAGTGTCGCAGCTGCAGCACGTGTCCGGGAGTTGAAGGCGGAAGGCCGCCGAATATTGGACCTGACGGTTGGGGAACCAGACTTCGACACACCGGAAAGCATCAAAACGGCGGCGGTGGATGCCATCAATGCGGGTGACACAAAATACACCTCGGTCAACGGAACGCCGGCATTGCAGAAGGCCATTTTGCAAAGGCTGGAGGTCAGAACCGGGCTTCACTACCTTCCGAGCGAGATAACCATCGGCGGCGGCGCCAAACAGGTCATTTTCACGGCCTTCATGGCGTCCCTGGACTCGGGAGACGAGGTAATTGTCCCGGCCCCGTATTGGGTCTCCTACCCCGACATGGTGCTCGCCAATGAGGGCACCCCTGTGGTGGTGCCGTGTGCCGAAGATGCCGGGTTCAAACTGACCCCGGAAGCCTTAAGTGAATCCATCACTGGCCGGACCAAATGGCTGATCCTCAATACACCCTCGAATCCCACCGGCGCCGTCTACTCGCGAGGTGAGCTCCGCGCGTTGGCTGATGTCCTGGTGCGCTTCCCCCAGGTCCATGTGCTGACCGATGAGATCTACGACCAGATCTACTTCGGCGAGGGCCGCATTTCCAGCCTGGTTGAGGTGGCCCCGGAGCTGAAGGATCGGGTTCTGCTGGTGAACGGCGTTTCAAAAGCGTATGCCATGACGGGATGGAGGCTGGGGTATGCAGCCGGCCCCGCTGGCGTGATCGCTGCCATCAACAAGCTGCAGTCTCAAATCTCCTCCTGCCCATCGTCCATCAGTCAGGCTGCTGCTGCCGCTGCCCTCACCGGAGACCAGTCCTTCATTCAGTCCAACGCAGACGTCTACCGCAGCCGCAGGGACGCTGCTGTCTCAGGACTGAACAAGATCGAGGGACTTTCCTGTTCCACTCCAGAGGGCGCGTTCTATGCGTACGTGAACTGCAGTGACCTTATGGGCAAAAAGACCCCCGACGGGACACCGCTCACAAACGACCAGGACTTCGTCCTCTACCTTCTGAACAGCGCCTCCGTTGCCGCCATCCCCGGGTCGGCTTACGGGTTGGGGCCCTACTTCCGTATCTCGTACGCCACAAGCCTTTCGGTAGTCGAAGAGGCCATCGCCGCCATCGACAAAGCGGTAGAGGCCCTGAGCAATTGA	MPEFVPASRVSRIKSSASVAAAARVRELKAEGRRILDLTVGEPDFDTPESIKTAAVDAINAGDTKYTSVNGTPALQKAILQRLEVRTGLHYLPSEITIGGGAKQVIFTAFMASLDSGDEVIVPAPYWVSYPDMVLANEGTPVVVPCAEDAGFKLTPEALSESITGRTKWLILNTPSNPTGAVYSRGELRALADVLVRFPQVHVLTDEIYDQIYFGEGRISSLVEVAPELKDRVLLVNGVSKAYAMTGWRLGYAAGPAGVIAAINKLQSQISSCPSSISQAAAAAALTGDQSFIQSNADVYRSRRDAAVSGLNKIEGLSCSTPEGAFYAYVNCSDLMGKKTPDGTPLTNDQDFVLYLLNSASVAAIPGSAYGLGPYFRISYATSLSVVEEAIAAIDKAVEALSN	PGPT0020110_1191	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
D1-29_02278	681	ligK_2	COG0684	4-carboxy-4-hydroxy-2-oxoadipate aldolase	ATGATTCACGTAAGAACAAATATCAATCGTCCGAGCGAAGACGTCGTCAGCAGGCTGAGCCAGTTCTCGTCTGCGACAATCCACGAGGCCCAAGGCAGGAAGGGGGCACTGAGCTCCAAAATCAAGCCGATTGACCGGGCCATGTCCTTCTGCGGACCGGCGGTCACGGTACGCTGCGCTCCGCGGGACAACCTGATGCTGCAGGTGGCAATCCACTACGCACAGGCTGGAGACGTGGTCCTTGTATCCGCCGGTGAATTCGAAGAGGCGGGCACCTTCGGGGACGTTCTCGGCAATGCCATGAAAGCCAAAGGCCTGGCCGCCATGGTCACGGACTCCGGCGTCCGTGACACCCAGGACCTCATTGAATTGGGCCTTCCTGTCTTCTCAGGCAGCATCAGCATCAAGGGCACGGTCAAGGAAACCATTGGGCCCATCAATCACCCGGTGGTCTTCGGGGACGAAATCATCTATCCGGGCGATATTCTCCGGGGAGATGCCGACGGCGTCGTCGTCATCCGTAAAGAGGAGGCTGAAGAGGTGGTCCGACTCTCGCAGGAACGCGATGACGCCGAGCGCGATCTCATCCGTCGGTACCACGAAGGCGGCACAACAATCGAGCTCTGCAACCTCACGGATGTGCTCAAAGAAAAAGGTCTTCTTGTGGAAAATGCCAGCTGA	MIHVRTNINRPSEDVVSRLSQFSSATIHEAQGRKGALSSKIKPIDRAMSFCGPAVTVRCAPRDNLMLQVAIHYAQAGDVVLVSAGEFEEAGTFGDVLGNAMKAKGLAAMVTDSGVRDTQDLIELGLPVFSGSISIKGTVKETIGPINHPVVFGDEIIYPGDILRGDADGVVVIRKEEAEEVVRLSQERDDAERDLIRRYHEGGTTIELCNLTDVLKEKGLLVENAS	PGPT0002085_662	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
D1-29_02279	918	cynR		HTH-type transcriptional regulator CynR	ATGGACACTAGGAAACTTGCCTACTTCGTGAAAATTGTGGACTCCGGAAGCATCACGCGCGCCGCGGCGGCATTACACGTTGCCCAGCCTGCCCTCAGCCAGCAGGTTTCAGCCCTGGAAAGTGAGTTGAAGCAACGTCTTCTGATTCGCAGTAAGCAGGGCGTGGTTCCTACAGCAGCCGGCCACACTCTCTACCGCCATGCCCAGACCATCCTGCGGCAGGTCGAACAGGCACGCGAGGATGTCGCCCGTTCAGGTGCCGCACCCTCCGGACGCGTGTCAATAGCGATCGCGCCGTACAGTATGGCCTCCAGCCTGACGCCCCAGATCATCAGTGAAGTGGGCCGCAGATATCCGGATATAGTGCTGCACCTGACTGAGATCTACGGAGGAGTCCTCAGTGAAGCCATCAAGAATGGCCGCCTGGACATGGCCCTTATCTATGAGCCGGGTCCCATTCGGGGGGTGCAGTTCACCACGATGATCGTGGAAGACCTGCATCTGGTGGTCAACCGCGCACGCGTGCCCTCATCGGACTCCACGGAGATCACCTTAGAAGAGGTGGAGCGTTTCGGGCTCTTCCTTCCCGAGCAAAACCACACCCTCCGTCAGATCGTGGAGGGTGGCATGCAAAAGAAGGGGCTGACTCTGCGTTTGGTTGGTGAAGTGGAATCCGTCCCTTCGTTGACCAGGCTCCTTCGGGCCGATCTGGGCGCAACCATTCTTCCGAAATCCGCCTCAGACGCGCTTTTCCATGAGGAAGATTTTCTGGTTCTGAGGATTACCGACCCTGAACTGCAATGCAAAATTGCTTTATGCACTCCAGATCACGAGCCCTTGTCGGAGGCTGCGTCCGCTGTTCTTCTCGTGTTGAAAGAAATGCTCCAGGAGATGCTCAGTGAGAAGTATGCCCGGTAG	MDTRKLAYFVKIVDSGSITRAAAALHVAQPALSQQVSALESELKQRLLIRSKQGVVPTAAGHTLYRHAQTILRQVEQAREDVARSGAAPSGRVSIAIAPYSMASSLTPQIISEVGRRYPDIVLHLTEIYGGVLSEAIKNGRLDMALIYEPGPIRGVQFTTMIVEDLHLVVNRARVPSSDSTEITLEEVERFGLFLPEQNHTLRQIVEGGMQKKGLTLRLVGEVESVPSLTRLLRADLGATILPKSASDALFHEEDFLVLRITDPELQCKIALCTPDHEPLSEAASAVLLVLKEMLQEMLSEKYAR				NA	NA	NA	NA	NA
D1-29_02280	1107			hypothetical protein	ATGGAAAGATCCGACCAAATGAAAATCATAACAAAGGGCAAGATCGGTCTGGCTGCGGCCGCTGCTGCAACGCTGGTACTCACTGGTTGCGGCGGAGGCGCCTCCGGTTCCGGCTCTGACGGCGGCGGCAGCGCCACGTCAGGGGAAATTAACCTGATTGCCTACTCCGGCGTCTGGCAGGACCAATACACGGCTGCGGTCATCGAACCGTTCAAGGCCAAGTACCCGGACATTAAGATCAACTACGCCTCCAAGCGCTCCTCAGCAGAAATGCTTAGCGCCCTGCAGGGGCAGAAGAACAATCCGTCCACCGACGTGGCAATCATGGACAACTCTGTATCAACCACAGGTAACACGCAGGGACTGTTCGACAAGATTGATACCGCCGCCGTCCCCAACCTGGCGAACGTTCCAGACCAGTTCAAGAACAAGGATGGATTCGGTCCGGTGGTAATGCTCGACGCAGTCGGCCTGCTCTATGACACCGCAACTTTCCCCCAGGCACCTGAAAGCTGGGACGTGCTGTGGGATCCGGCGTATGCGGGCAAAATCAACGTTAACGCTCCGCCCTCCCTGCTGGGGCTCTCCCTGACCGCCATCACCTCGAAGATGGAGGGCGAGGATTACACCCAGAGCATCGACAAGGCGGTGGCACGCCTCAAAGAGATGGCGCCCGGCGTCCAGACGTTCGCGCCCAACCCCGATGAATACCAAAACGTGATCACCGGCCAGACGGTACTGGGACTTGGACAAAACGCCCGCGGTCAGTTCTACAGCGACCAGAGCAACAAGAAGATGGGCGTGACCTTCCCCAAAGAAGGCACCGTGTACCAGATCAACACAGTGAACGTTGTTAAGGATGCGCCCAACAAGGAGGCCGCCCAGACCTTCGTTGACTACGCGCTCTCAGCCGAGGCCCAGACCGCTTTCGCCAAGGCACTCTTCTACGCACCCTCTGTGACCAACGCTGAACTGCCGGCGGACGTGAAGGACCGCGTGGTTCCCACTGACGGCTCCCTGAACATCGTTCCCCTCGATGTTCAGTTCCTGTCTTCAGCCCGTGACAAGTGGACCGACACTTGGAAGCGCGAAATTATCACCAAGTAG	MERSDQMKIITKGKIGLAAAAAATLVLTGCGGGASGSGSDGGGSATSGEINLIAYSGVWQDQYTAAVIEPFKAKYPDIKINYASKRSSAEMLSALQGQKNNPSTDVAIMDNSVSTTGNTQGLFDKIDTAAVPNLANVPDQFKNKDGFGPVVMLDAVGLLYDTATFPQAPESWDVLWDPAYAGKINVNAPPSLLGLSLTAITSKMEGEDYTQSIDKAVARLKEMAPGVQTFAPNPDEYQNVITGQTVLGLGQNARGQFYSDQSNKKMGVTFPKEGTVYQINTVNVVKDAPNKEAAQTFVDYALSAEAQTAFAKALFYAPSVTNAELPADVKDRVVPTDGSLNIVPLDVQFLSSARDKWTDTWKREIITK	PGPT0007855_2384	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007855-ABC_SP_S|ydcS-K02055	NA	NA
D1-29_02281	1131	cysA	COG1118	Sulfate/thiosulfate import ATP-binding protein CysA	GTGACTGAAACAAAACTGTCGATCGTGGATCTGACCAAAAGATACGCTGCCGGTCTTGAACCGGCCGTCGACCGCCTGAACATGGAGGTGGAAGAGGGGCATCTGGTGGCGCTCCTCGGCCCCTCGGGCTGCGGCAAAACCACCACACTGCGGATGGTTGCCGGCCTGATGGATCCGACCGCCGGCTCCATTGTGGTTGACGGCAAGGAAATCACCCACACCCCCGTCAACAAGCGCGGCATGGGCATGGTCTTCCAGTCCTACGCCCTGTTTCCGCACATGAACGTCGAACAGAATGTGGCCTTCGGGCTGCAGATGCGCCAGGCCTCAAAGGCCGACCAGAAACGCCGGGTGGCTGGAGCGCTGGACATGGTGCAGCTGGGACACCTGTCCAAGCGGCAGGTGAGGGAACTCTCCGGCGGACAGCAGCAGCGCATTGCCCTGGCAAGGGCACTTGTTGTGGAGCCGACGCTCCTGCTCCTGGACGAGCCATTGTCCAACCTGGACGCCAAGCTCCGCGAAACCATGAGGACAGAGATTCGCTCCATCCAGCAACGGACCCGGGCCACCACGCTGTTCGTCACACACGACCAGGATGAGGCGCTGGACATGGCAGACCGGATCGCTGTGATGAATGGGGGACTGATCGAGCAGTTTGGTTCTCCCACCGACGTCTATGAACGGCCGCGGACCCGGTTCGTGGCAAATTTCATCGGCCAGGCCAACTTCCTCACCGCCCGCGTTTTGTCCGAAACAGGTTCGGCCGCCAAGGGCGAAACGCATTACCGGGTATCAGTGGACGAACTCGGCCAGTTCGGAGCCGTGGGGGAACCCGGGCTGACGGGGTCCACGCATGAACTGGTCATCCGGCCGCACCGCCTCAAGGTATTCCTGCACCCTGCCGGCACCGAGACGATCTCGGGCATCATCGAGCGTGTCAGCTACACGGGCGATGCCATCTCGGTGGCCGTCAGGGCTGGGGACCGCGTCTTGCAGGCACAGATGCCCACGTCCAGCGGGGACCTTCCCCGTCCGGGCGACGCAGCCTATCTTTCATGGAACGAGCAGGATGCATACTTGCTGCCTGCCGCAGTGGAAGCCCCTGCCGCCCTGGAAGCCCAAGTATCATGA	MTETKLSIVDLTKRYAAGLEPAVDRLNMEVEEGHLVALLGPSGCGKTTTLRMVAGLMDPTAGSIVVDGKEITHTPVNKRGMGMVFQSYALFPHMNVEQNVAFGLQMRQASKADQKRRVAGALDMVQLGHLSKRQVRELSGGQQQRIALARALVVEPTLLLLDEPLSNLDAKLRETMRTEIRSIQQRTRATTLFVTHDQDEALDMADRIAVMNGGLIEQFGSPTDVYERPRTRFVANFIGQANFLTARVLSETGSAAKGETHYRVSVDELGQFGAVGEPGLTGSTHELVIRPHRLKVFLHPAGTETISGIIERVSYTGDAISVAVRAGDRVLQAQMPTSSGDLPRPGDAAYLSWNEQDAYLLPAAVEAPAALEAQVS	PGPT0007860_700	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007860-ABC_SP_A|ydcT-K02052	NA	NA
D1-29_02282	921	potB	COG1176	Spermidine/putrescine transport system permease protein PotB	ATGACAACCACCCAACTGCAGTCCCCGTCTGTCCGCCGGGCCGGTGCCGCCGAAGGTGAGCTGGAAAAGGCCACAGGACGCCGAAACCGGCGGACCTACCTGGCCCTCCTCCTGCCTGGTCTCCTCGGGCTGCTGGTGAGCTTCGTCTTCCCGCTGGCCTACATGATTCGGATGTCCTTTAACAAGGGAGCACCGGACGGCGTCATCGAGGAAACGTTCACACTGGACACCTACATCCAGCCGTTAACTGACCCGTACTATTGGCGGGTCACCCTGGATACCTTCCAAATGGGCGTCACAGTGGGGTTGCTCTGCATTCTGGTGTCGTATCCCGTTGCCCTGTTCCTGGCCCGGAGCACCAGCAAGTACCGAGGGTTGCTTCTGGCCATCGCCATCGCACCCCTGCTGACGTCCGCCGTTGTGCGGACGTACGGGTGGATGGTCATCCTGGGCACGAACGGCCTTGTCAACTCTTCGCTGCAGGGCATGGGCGTGATCGAAACTCCGCTGAGGCTGACGAACAACATGACGGGTGTCACCATAGGCTTGGTTGAGATCTTCATGCCATATGCCATCCTCGCCATGATCTCCGGATTCGGCCGGCTCAGCCCGCAGCTGGAGGAAGCGGCTGGGTCCTTGGGTGCAAGCAAGCTGCAGGTGTTCACCCGGGTCACGCTTCCGTTGAGCCTCCCTGGAATCCTCACCGCGTTCCTTCTGGTCTTTGTGTTGTCCATCAGTACCTTCATCACCCCGCGCCTCCTGGGAGGCGGCAGCGTCCAGGTGCTGGCAACAGAAATCTACGATCAGACCACAGGCCTGCTCAACTGGCCGTTCGCAGCCGCACTCTCCGTGATCCTGCTGATCCTGTTCGGCCTGATCATTGCCGTCTACCAGCGCCTCACCAAGAAGATCGGAGGCTAG	MTTTQLQSPSVRRAGAAEGELEKATGRRNRRTYLALLLPGLLGLLVSFVFPLAYMIRMSFNKGAPDGVIEETFTLDTYIQPLTDPYYWRVTLDTFQMGVTVGLLCILVSYPVALFLARSTSKYRGLLLAIAIAPLLTSAVVRTYGWMVILGTNGLVNSSLQGMGVIETPLRLTNNMTGVTIGLVEIFMPYAILAMISGFGRLSPQLEEAAGSLGASKLQVFTRVTLPLSLPGILTAFLLVFVLSISTFITPRLLGGGSVQVLATEIYDQTTGLLNWPFAAALSVILLILFGLIIAVYQRLTKKIGG	PGPT0007850_1422	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007850-ABC_SP_P1|ydcU-K02054	NA	NA
D1-29_02283	816	ydcV		Inner membrane ABC transporter permease protein YdcV	ATGTCTGAAGCCCGCCTTTTCAAACCGCGGTTCAACCCGGCCAAGCCGGCGTTCGGGATCCTGGTGTTCCTGCTTTACCTGTTCCTGCTTGCCCCACTGCTGATCGTTTTTGTCGTCTCCTTCGCGTCGAACCAGTACCTGTCCTTCCCGCCTGAAGGGCTGACCTTCAAGTGGTACGAGATGCTGCCCGAGGAAAGCACGTTCATGAACGGCATGCGGGTCAGCCTCATCGTGGCCGTGGTTGTCACGGCCATCGTCCTGGCCCTCGGCGTACCGGTGGCACTGGCCCTGGACAGGTTTGAATTCAAGGCGAAGGCAGCGGTCCAGTCCTTTTTCCTCTCGCCGCTGCTGATCCCCAGCATCGTCCTGGCACTGGGGATGGTCCTGCTCTTCGGGCCGCTGGAACTGAACAACACCTACGCCGGAATCATCATCGGTCACGTAGCCATCACCATCCCGTTCGTGATCAGGACAACACTGATGAGCCTGGCAACCACTGACACGTCCTGCGAAGCGGCGGCGAGGATCCTCGGGGCAGGGTCCTGGACCGTCTTCCGGCGCATCACGCTTCCCATCATCCAACCCGGTGTCATTGCCGGCGGTGTCATAGCCTTCATCGTTTCCTTCGATGAAGCAGTCATCTCGCTCTTTGTTGCCGAATCAGGGCTGCCCACGCTGCCGGTGCAGGTCCTGCGGTACGTCGAGAACTCAGCCGACGCCGCCGTCGCTGCTTTGTCGGTCATCCTCATCCTGATCTCGCTCGTCGTTGTGGTCGTCGTCGAGCGGGCCATGGGCCTCCGCAAGGCCCTGCGCTAA	MSEARLFKPRFNPAKPAFGILVFLLYLFLLAPLLIVFVVSFASNQYLSFPPEGLTFKWYEMLPEESTFMNGMRVSLIVAVVVTAIVLALGVPVALALDRFEFKAKAAVQSFFLSPLLIPSIVLALGMVLLFGPLELNNTYAGIIIGHVAITIPFVIRTTLMSLATTDTSCEAAARILGAGSWTVFRRITLPIIQPGVIAGGVIAFIVSFDEAVISLFVAESGLPTLPVQVLRYVENSADAAVAALSVILILISLVVVVVVERAMGLRKALR	PGPT0007845_2222	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007845-ABC_SP_P|ydcV-K02053	NA	NA
D1-29_02284	789	pxpA_3	COG1540	5-oxoprolinase subunit A	ATGGGTCGCACAGTTGATCTCGTGGCAGATCTCGGTGAAGGCTTCGGTGCCTACTCCCTGGGCGACGACAACGCACTTCTCGAAATCGTTTCCAGCGCCAACATAGCCTGCGGTTTCCACGCAGGAGACCCGGACATCATGGACCGTACGGTGGCGGAATGCGTCAGGCGCGGAGTGAGCATCGGAGCTCACCCCAGCTTTCCGGACCTCCGGGGATTCGGGCGTCGCGCCATGGAGCTAACAGCAGACGAAGTCCGCAATGATGTCATTTACCAGATTGGCGCCCTGTCAGCCTTCGCCGCGTACCACGGAACCAGCGTTTCCCACGTCGCCCCCCATGGGCGGCTGGGCAACCTCGTCGCCACACGCCAGGACTATGCCGCCGCCGTCGCTGACGCCGCACACCGCGTAAATCCTGGCCTGATCGTCCTGGCCCAGGATGGTGAGCTCGCCGAGGCGGCCGCCGGGCGCGGCCTGCCTGTGGCCATTGTCGGCATCGCCGACCGTGCCTACGAAGAAGACGGAACCTTGGTGCCGCGCAGCCAGCCAGGGGCCGTCATCCACGATCCGGCAACCATCGTTGAGCGCACCATCCGCATGGTGTGTGAAGGCTTTATTGAATCTGTGTCTGGGCTGAAACTCCCCGTCGTCGCCGATACCGTCCTGCTGCACGGCGACAACCCCGGAGCCGTGGACCTGGCCCGGCTCATCCGCAAAGAACTGACTGCGGCCGGCGTGACCATTGCCTCGCTTGCCCAGGTGCTGGCGGCCAAAGCGGAAGCCGCCTGA	MGRTVDLVADLGEGFGAYSLGDDNALLEIVSSANIACGFHAGDPDIMDRTVAECVRRGVSIGAHPSFPDLRGFGRRAMELTADEVRNDVIYQIGALSAFAAYHGTSVSHVAPHGRLGNLVATRQDYAAAVADAAHRVNPGLIVLAQDGELAEAAAGRGLPVAIVGIADRAYEEDGTLVPRSQPGAVIHDPATIVERTIRMVCEGFIESVSGLKLPVVADTVLLHGDNPGAVDLARLIRKELTAAGVTIASLAQVLAAKAEAA				NA	NA	NA	NA	NA
D1-29_02285	720	pxpB	COG2049	5-oxoprolinase subunit B	ATGGCTGACAACCCAACACCGGTGGAGGTGCACGAGTCGGGCGACGCCGCCCTCCGGGTCGTCGCCACGTCCCCCGACCGCGAGCGGAACTGGGCCGCGGTGCATGCGCTGGCGGCTTGGCTCGAGACGGCCGACGTCGACGGCGTCCACGGCGCGGTCCCCACCTATGATTCGGTGCTGGTTGAGTTCGACCCGTACATCACTTCCGCCCGCCAGATCCGGGCCTTTGTCCTGCTGGGCATGCGCCAGCTCGATTTCGTTGGTGCTCCAGCCCGCACGCCCCGGCAGTTCGAGGTACCTGTGGTCTACGGCGGTGAATACGGACCCGACCTGCAGAAGGTCGCGGACCACGAGGGTCTCCCGGTTTCCGAGGTCATCGCCCTCCACACGGCCAAGTCGTACGTCATCCGGTGCCTGGGTGCCCCGGCCGGGTCGCCCATGATGGATGGTCCGGACTTCCCGCTGCCCGTGCCCCGGCTGAAAGACCCACGGCTTTCGGTACCCGCCGGTGCAGTCTCCGTGGCAGGACGGCAGGCAGTGATTGCGCCGGCGGTGGCCCCGGGTGGCTGGTGCGTCATCGGACAAACACCTCTGACGGCGCTGAACGCCCACAACCAACCCTTGGTTCCGTACATGCCTGGAGACCTGCTCCGGTTCCACGAGATCCCGGCCGCCGACTTCGAGCGCTATGCAGGCCTTGAGCTGGAGGCATCGAAATGA	MADNPTPVEVHESGDAALRVVATSPDRERNWAAVHALAAWLETADVDGVHGAVPTYDSVLVEFDPYITSARQIRAFVLLGMRQLDFVGAPARTPRQFEVPVVYGGEYGPDLQKVADHEGLPVSEVIALHTAKSYVIRCLGAPAGSPMMDGPDFPLPVPRLKDPRLSVPAGAVSVAGRQAVIAPAVAPGGWCVIGQTPLTALNAHNQPLVPYMPGDLLRFHEIPAADFERYAGLELEASK				NA	NA	NA	NA	NA
D1-29_02286	1014	pxpC	COG1984	5-oxoprolinase subunit C	ATGAGCGGCACCCTGACCATCCAGCAGCCAGGCCATTCCGTGGTCACGGATCTTGGCAGGTTCAAAGGGCCACGGTACGGACTCCCCGTCAATGGCGCCCTGGACCAGTTTTCCGCCCGCGCCGCCAACATCCTCGCCGGCAACCTGGACAACGATCCGCTGATCGAAGTCACTGCCCTGGACTTCCGGATGCGTGCCGACTCGGACCTGCTCATCGCTGTTACGGGTGCCCCGCTTACCCTGAGCGTCGGCGGACGCGAATGCCCGCAGTGGGAACCGGTGTCCGTCCTGGCCGGTGAAACTGTTGCCTTACGGGGTATGAAGACGGGGCTACGCGCCTACGTGGCGGTCCACGGCGCCCTGGACGCTCCGACCCTGCTGGGCAGCTGCGCGCCGGACACCGTCGTCGGATTCGGGTTGAAACTTAACCAAGGAACTGTCCTCGGCTGCCGAAAGACCGTTCCGCCCATCCGGCAGCCGTATTTTGACCTTCCGCTGTTCCGGCTGGGGCTTACCCGCCCCGGAATCAGCGCCTGCCCGGTCATCAATGTAACTGACGGGCCGGACCTCGCGGAGTTTGGTGACACTGCCGAACTCCTGTTTAGGACCAGTTACACCGTGAGCGGACGGAGCAACCACATCGGACTCCGCCTCGGCGGAGCGCTTCCGGAAAGGCAGTCGACGGCGGAAGTCCTGTCCAGGGGCGTTCCGGTGGGGGCGATCGAAGTCCCGTCCCGGGAGGAACTCCTGGTACTCCACCGCGGACGCGGCGTGACGGCCGGCTACCCGGTTCTCGGTGTGGTCACCAGCCGCTCGCTGGATGTCCTTGCCCAGACCAGGCCCGGCGATACCATCACCTTCCGTAAGACCACTGTGGCTGAGGCCACCGCGCGGCACCGGGCTGCCGTGCGTGAGCTGGAGGCCCTTCGCACGTCAGTAAATACAGTTTTTGGCCTGCTGGGTGTGGGAGCCCCCGCGAGCTGGCGGGAACTCATGCCTGCCTCCGGAAGCTGA	MSGTLTIQQPGHSVVTDLGRFKGPRYGLPVNGALDQFSARAANILAGNLDNDPLIEVTALDFRMRADSDLLIAVTGAPLTLSVGGRECPQWEPVSVLAGETVALRGMKTGLRAYVAVHGALDAPTLLGSCAPDTVVGFGLKLNQGTVLGCRKTVPPIRQPYFDLPLFRLGLTRPGISACPVINVTDGPDLAEFGDTAELLFRTSYTVSGRSNHIGLRLGGALPERQSTAEVLSRGVPVGAIEVPSREELLVLHRGRGVTAGYPVLGVVTSRSLDVLAQTRPGDTITFRKTTVAEATARHRAAVRELEALRTSVNTVFGLLGVGAPASWRELMPASGS				NA	NA	NA	NA	NA
D1-29_02287	1341	proP_5		Proline/betaine transporter	ATGTCAGCGTCAATACGAGCGGCTGGTCCGCAGAACGATCGGCTGGATGCCAAGCAGACCCGGAAGGTGGTCACCGCCGGCTGTGTGGGCATCTTCGTGGAACTTTACGACAACGGCATCTTCGCCTTTATGGCTGGAACGCTTGCGCTGGTGTTCCTGGCACCGGGCAACCCTGACAACGCCCTGTTGTTCGTCTTTGCCGGCTACGCCGTGTCCTTCTTCGTGCGCCCCCTTGGCGCTGTGGTCTGCGGTTACCTTGGGGACCGGATCGGGCGGCAAAAGCTGCTGGTCTTTGTCATCCTGCTGATCAGCGTTGCCACGGCGGGCATTGGCTTGCTGCCGGCCTATTCGGCCATCGGCATCGCCGCGCCGATTCTCCTGGTGCTGCTCCGCATGCTGCAGGGCTTCTCCGTTGGCGGCGAAGCCGCTGGCGCTATGACATTTCTCGCCGAACACGCCCCGGAAGGCAAGCGCGGCATCATCACCTCCTACGCACAGATCGCCTCCTTCGCAGCGCTGCTGACCGGCACGCTCGTTGCATTCTCCATGTCGCCCTGGCTCAGCCAGGCAGCGATCGACGGCGGCGGTTTCGGCGCGTTCGCCTGGCGCATCCCGTTCCTGGTCGCCATCCCCATGGGCGTCATCGGCTGGTACATCCGCAAGGCCATCGCGGACACCCCAAACTTCGTGAAGCTGAAAGAAGAGGGCGGCCTGTCCAAGAACCCGCTCAAGGAAGCCTTCAAGTCCGCCGAACACCGCCGTGCCATGCTGCTGGCCCTGTTCATCCCGCTCATGAACGGCTCCGGCTACTACGTCCTGTTCTCCTACATGCCCACCTTCCTCAAGGGCAAGCAACTGAACTTCACCATCGGCGAGGCGCTGATCGTCACCGCCTGCAGCCTTGTGGTTATCTGCATCGCCATCCCTTTTATGGGCGCCCTCTCAGACAGGGTGGGACGTAAGAAGGTCATCGCCGGCTCCGCGATCGCCATGGCAGTCGTCGGTGTCCCCGCGTACGCCCTGATCGCCACCGGTGAGATGGCGCTGGCCATCCTGGGCGCCTCCATCATGGCAGTGGTCTTCGCCGGCCACACCGCAGTGATCCACATCCTGATAGTTGAACTTTTCCCCACCCGGGTCCGATACTCGGCCTACGGCCTGGGCTACAACATCTCTTCGGCACTCTTCGGCGGCACCGCGCCGCTGCTGATGACCTGGCTGATCTCCTCCACCGGCAACATCTACATGCCCGCTTTCTACGCCGTCATCACCGCGCTGGGCACCCTCGCGGCCGTCAGCACCGTCAAGGACCGGGCGCACCTGCCACTCCGCGACGCCTAA	MSASIRAAGPQNDRLDAKQTRKVVTAGCVGIFVELYDNGIFAFMAGTLALVFLAPGNPDNALLFVFAGYAVSFFVRPLGAVVCGYLGDRIGRQKLLVFVILLISVATAGIGLLPAYSAIGIAAPILLVLLRMLQGFSVGGEAAGAMTFLAEHAPEGKRGIITSYAQIASFAALLTGTLVAFSMSPWLSQAAIDGGGFGAFAWRIPFLVAIPMGVIGWYIRKAIADTPNFVKLKEEGGLSKNPLKEAFKSAEHRRAMLLALFIPLMNGSGYYVLFSYMPTFLKGKQLNFTIGEALIVTACSLVVICIAIPFMGALSDRVGRKKVIAGSAIAMAVVGVPAYALIATGEMALAILGASIMAVVFAGHTAVIHILIVELFPTRVRYSAYGLGYNISSALFGGTAPLLMTWLISSTGNIYMPAFYAVITALGTLAAVSTVKDRAHLPLRDA	PGPT0013645_1439	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_PROLINE_TRANSPORT,PGPT0013645-proP-K03762	NA	NA
D1-29_02288	750	ydfG	COG4221	NADP-dependent 3-hydroxy acid dehydrogenase YdfG	ATGCCATTTTCAGACTATTCAACCGCCCTGGTCACCGGCGCTTCCACCGGAATGGGTGCAGCGATCGCCGAACGCCTTACTAAACGCGGGCTCACGGTCCACGCCGTTGCGCGTAACGAGGATCGGCTGAAGGAGCTGGCCGACAAGACCGGCGCGATTCCCCAGGTGGTGGACTTGACCGACACCGCCGCAATCACAAAAACCCTGGATGGCCTAAAAGTGGACGTACTGGTGAACTGCGCTGGAGTTTCCCGGCCGGGGAACATCCTGGACTCCAGCGCGGACGACGTCGACGAACTGGTGGACGTGAACCTGCGCGCCTTGCTTCAGCTCACACGTCTGGTCCTGCCCGGCATGGTGGACCGGGACAACGGCCACGTCATCAACATCAGTTCAATCGCAGGTCTTTACAATTTTTACGGACACACGGTCTATCACGCCACCAAGGCAGCCGTGCACCAAGTTTCCAGGCAGCTTCGCAATGACACGGTGGGCAAACGGATCCGCGTTACGGAGATCTGCCCGGGGCGGGTTGAAACCGAGATCTTTGGCCGGAACATGGGCGGAACGCCGGAAGCCATGGAAGAGGCATGGAAGACCTACTACGAAGGTTATGAGTCCCTGACAACGGACGACATCGTCAATGCCCTTGACTATGCGGTGGAAACTCCCCGGCATGTAAACGTGGGCATGCTGGAACTGATGCCCACCTTCCAGGTCCCCGGCGGCCTCACCTTCGACAGGCGTTAA	MPFSDYSTALVTGASTGMGAAIAERLTKRGLTVHAVARNEDRLKELADKTGAIPQVVDLTDTAAITKTLDGLKVDVLVNCAGVSRPGNILDSSADDVDELVDVNLRALLQLTRLVLPGMVDRDNGHVINISSIAGLYNFYGHTVYHATKAAVHQVSRQLRNDTVGKRIRVTEICPGRVETEIFGRNMGGTPEAMEEAWKTYYEGYESLTTDDIVNALDYAVETPRHVNVGMLELMPTFQVPGGLTFDRR	PGPT0021285_781	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
D1-29_02289	945			Formate dehydrogenase, mitochondrial	ATGCAAACAGTCCGTACCGTCAGCTTCCCCGACCGCCAGCTCCTTGCCGACCTCTCGCCCCTGCCCGAAGGGCTGAAGGGAGTGGTATGGGACCTGAAAACGGATCCCGACGGCGGGACGCTCGGTGAGATCGACGGCGTCATCCTCCCATACATCGACGCCGCCGCCGTGCTGGGCTCGCTCGGCCAGGTCCAGGACCTGAAATTCGTCCAGACCCAGTCCACCGGTTATGACGGGGTTGTTGAGGCGGCTGGACCAGCCGCCGGAGTGGCCAACGCCTCCGGCGTCCACGCCGCCGCCACCGCGGAACTGGCTGTGGGCCTGATCCTGGCGAAGCTGCGTGGCATCGACCAGGCAGTCCGGGATCAGCAGTACGGCCTCTGGCGGCCAGAGCGTCGCCAGTCACTGGCCGACAGGCGTGTTCTGCTGCTGGGCGTCGGCGGGATAGGTCATGAAATCGCACGACGCCTGGAACCCTTTGAGGTTACTGTCACCCGGGTGGGAAGTTCGGCCCGTACGGACGAATACGGCGAAGTGCATTCCTCCGCCGGCCTGGCCGCGCTTGCCTCGACGCACGACATCCTGGTCTCGGTGCTGCCCCTGAGCCAGCAGACCCATCAGCTGGTGGGGGAGGAGGTCCTGGCTGCCCTGCCGGACGGCGCCCTGGTTGTCAACGTGGGCCGCGGCTCCGTGGTGGACACTGCCGCCTTGACCAAAGAAGTCGTCTCCGGGCGTCTGCAGTGCGCCATTGACGTCGTCGATCCTGAACCCCTGCCGCAGGACCACCCCCTGTGGTCCACGCCCAACGCGCTCATCACCCCGCACGTCGGCGGAAACGCGTCCGCGTTCCAGCCCAGGATCCTCAAACTCCTCCGGAAACAGCTGGAAGCCCTTGCCGCCGGTCAGGCTCCGTCCAACCTGGTGCAGGATGGCCCCTTCTCATGA	MQTVRTVSFPDRQLLADLSPLPEGLKGVVWDLKTDPDGGTLGEIDGVILPYIDAAAVLGSLGQVQDLKFVQTQSTGYDGVVEAAGPAAGVANASGVHAAATAELAVGLILAKLRGIDQAVRDQQYGLWRPERRQSLADRRVLLLGVGGIGHEIARRLEPFEVTVTRVGSSARTDEYGEVHSSAGLAALASTHDILVSVLPLSQQTHQLVGEEVLAALPDGALVVNVGRGSVVDTAALTKEVVSGRLQCAIDVVDPEPLPQDHPLWSTPNALITPHVGGNASAFQPRILKLLRKQLEALAAGQAPSNLVQDGPFS				NA	NA	NA	NA	NA
D1-29_02290	771	gno_1		Gluconate 5-dehydrogenase	ATGAGCGGACTTTTTGATTTGACGGGGCGGGTTGCCCTGGTAACGGGTTCGAGCCGGGGGATTGGCAATGCGCTGGCACGGGCTCTGGCCGACGCCGGTGCCACGGTGGTGCTGAACGGCGTCAATGCCGAGCGGCTCAAGGACGCCGCGGCGGCGATGGCCGCGGAGTATGCGCCGGGGCAGGTGCACAGCATCGCGTTTGATGTCACATCCGACGCAGAGGCGGCGAGGGGTGTGGCGTGGGTGGAAGAGAACGTCGGCCCGTTGGAGATTCTGGTGAACAACGCCGGGATCCAGCACCGGGTGCCGATGTTGGATTTGGACGTTGCGGACTGGGAGCGGGTGATTACCACGGACCTGACGAGTGCGTTCTTGGTGGGACGGGAAGCTGCCCGGCACATGATCCCGCGCGGGCACGGAAAGATCATCAACATCTGCTCAGTGCAGACGGACCTGGCCCGGCCCACGATCGCCCCGTATATCGCGGCGAAGGGCGGATTGCGGAACCTGACCCGCGCCATGACCGCGGAGTGGGCGGCCTCGGGGCTGCAGGTCAACGGGATCGCGCCCGGGTATATCCACACGGAGATGACGCAGAACCTGGTGGATGATGAGCAGTTCAACTCCTGGATCCTGGGCCGTACCCCGGCGCACCGTTGGGGCACCGTGCAGGACCTCGCCGGCCCGGCGGTATGGCTGGCCTCCAGCGGCTCAGACTTCGTGAACGGGCAGACGATCTTCATCGACGGCGGAATGACGGTGGTGGTCTGA	MSGLFDLTGRVALVTGSSRGIGNALARALADAGATVVLNGVNAERLKDAAAAMAAEYAPGQVHSIAFDVTSDAEAARGVAWVEENVGPLEILVNNAGIQHRVPMLDLDVADWERVITTDLTSAFLVGREAARHMIPRGHGKIINICSVQTDLARPTIAPYIAAKGGLRNLTRAMTAEWAASGLQVNGIAPGYIHTEMTQNLVDDEQFNSWILGRTPAHRWGTVQDLAGPAVWLASSGSDFVNGQTIFIDGGMTVVV	PGPT0018070_585	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018070-idnO-K00046	NA	NA
D1-29_02291	1080	idnD_1	COG1063	L-idonate 5-dehydrogenase (NAD(P)(+))	ATGCCCACCTCAACTGAACTCCCTGAGTTCGGGCTGGCAGTAGTTGCGCATGCGGCCGGAGACCTGCGGATCGATACGGTTACATTGGGAACGCCCGAACGGGACGAAGCCGTCGTCGAAGTAGCCTATGGTGGCATCTGTGGTTCCGACCTTCATTACTGGATGCACGGCGCGGCAGGGGAGTCGATCCTAAGGGCCCCACTTGTTCTCGGGCACGAAATATCGGGAGTTGTTGTCCGTGCGGCAGCGGACGGCAGCGGACCCGCCACAGGGAGCCCCGTCACAGTTCACCCTGCCACCCCTGGCCCGGGGAAGGAGCGGTACCCCGTTGATCGGCCCAATCTCTCTCCGGGGTGCACCTATTTAGGGAGTGCCGCACGGTTTCCGCACAAGGACGGCGCCTTCAGCCGCTACGTGAAACTGCCAACCCGCATGCTGCGCGTCCTGCCAGATAACGTGGACCTGAGGACGGCTGCCCTGATCGAGCCGGCCAGCGTAGCGTGGCATGCCATTTCACGCGCAGGAGATGTTGAAGGCAAGACTGCGCTGGTCATAGGTTGCGGACCGATCGGCGCCCTGGTCGTCGCTGTCCTCAAACGCGCCGGCGCGGGCAGGATTGTCGCCGTCGACATGCACGCCAAACCGCTGGAGATCGCCACTGCTCTTGGAGCGGATGAAGTTATTACAGCTGCGGATGTCGACGCCATTAAAGCGGTGGAAGCGGACATCGTTATCGAGTCCTCGGGTAACCACCACGGGCTGGCTTCCGCCATCCGCGGTGCCGCCCGCGCGGGCACTGTGGTCATGGTCGGCCTCCTGCCCACAGGACCGCAGCCTGTTCTCATCTCCCTGGCCATCACCAGGGAGCTGCAGCTCCTAGGGTCTTTCCGTTTCAACGACGAGATCGATGAAGTGATAGCTGCCCTTGCCGATGGCACCTTGGACGTAGGACCTGTCATTACCCACCAGTTCGCCCTTGCCGATGCAGTCCAAGCCTTCGAAGTGGCGCGCAACTCGGCTGAATCGGGGAAGGTTCTCCTGGATTTTTCGGGGGCAGACACTGCGCGATCCAAGACGTGA	MPTSTELPEFGLAVVAHAAGDLRIDTVTLGTPERDEAVVEVAYGGICGSDLHYWMHGAAGESILRAPLVLGHEISGVVVRAAADGSGPATGSPVTVHPATPGPGKERYPVDRPNLSPGCTYLGSAARFPHKDGAFSRYVKLPTRMLRVLPDNVDLRTAALIEPASVAWHAISRAGDVEGKTALVIGCGPIGALVVAVLKRAGAGRIVAVDMHAKPLEIATALGADEVITAADVDAIKAVEADIVIESSGNHHGLASAIRGAARAGTVVMVGLLPTGPQPVLISLAITRELQLLGSFRFNDEIDEVIAALADGTLDVGPVITHQFALADAVQAFEVARNSAESGKVLLDFSGADTARSKT	PGPT0018190_28	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018190-idnD-K00098	NA	NA
D1-29_02292	615			hypothetical protein	ATGCCCCCGCCCAGAACAGCTGTATCGCGGAGTTCCGGAACAGCGCTGCAGGCCGGGGGCATCGGCGCAGGACCCGGTTATCGCTATCGGGGAGCATCGAAAACCGTACGCCCCGTGCAGAAAGCCGAGAAGGTTCGAGAGCTTCTAAAAGAGCAGCGACAGGCCCTGTCCTTCAAATCCAGCAGCCTTCGAGACGTGTCGGTGCGGATGAATGAGAGGATCGCCCAAGCTATCAAGGATGGCTTGAAGGTCACGGACCTTGCGGTCGTTACTCAGCTGTCGCGCCCCGAGGTGCGACGAATTGCGCTTTCTTTTGCGGATCTGGACAGGACATCAACGACGGAGAGAGAACATCTCGAGGCTATCCGAAAGCTTGGAGCGGAACTTCAGGCAATTGAGAAGGCCAGGGACATGCTTGAGGAGAAGCGTCTGCACGTCATCGCAGCGGCTCGGAAGACCCAGTTGATTGACGACTACGAACTCGCATCCCTGACGGGCCTCAATCCCGCTTACCTCGGGAAGATGACATGGGGCGTTCTCCCCGGAGCAGCAGGCCGTGGCTGGCGTGACCCCGGGACTGGTCCGCCTGTCCGTGGGCATCGAGCACATCGATGA	MPPPRTAVSRSSGTALQAGGIGAGPGYRYRGASKTVRPVQKAEKVRELLKEQRQALSFKSSSLRDVSVRMNERIAQAIKDGLKVTDLAVVTQLSRPEVRRIALSFADLDRTSTTEREHLEAIRKLGAELQAIEKARDMLEEKRLHVIAAARKTQLIDDYELASLTGLNPAYLGKMTWGVLPGAAGRGWRDPGTGPPVRGHRAHR				NA	NA	NA	NA	NA
D1-29_02293	117			hypothetical protein	GTGGCTGGCGTGACCCCGGGACTGGTCCGCCTGTCCGTGGGCATCGAGCACATCGATGACATCCTGGCAGACCTTGAAGCCGGCTTCCGTGCCGCCAAGGAGGCAAGTGGCGCCTGA	MAGVTPGLVRLSVGIEHIDDILADLEAGFRAAKEASGA	PGPT0020020_920	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020020-mdeA-K01761	NA	NA
D1-29_02294	1020	rbsR_6	COG1609	Ribose operon repressor	ATGGAAGTCCAACCAGCCGCAACGGCGCGGGACAAGGCCGCCACACTGGCGGATGTCGCGGCACGTGCCGGGGTCTCGCTCGCCACGGCTTCAAAGGCGCTCAGCAACCGTTACGACGTTGCCGACCGCACCAAACTGAGGGTTCTCCAGGCTGCCGAGGAGCTTTCCTTTTCACCGAACCTCCTGGCGCGGGGGCTGCTTGGAGGACGCACGCAGTCCGTAGGGGTCATCACAAACGACTCTGAGGGCAGGTTTTCACTCCCCATCATGATGGGGGCAGAAGACTCGCTGGGCGCGGACAGTTCGACCGTGCTGCTCTCGAACTCACGGGGAAATCCAGAGCTGGAGCTGCAGCACGCCAAAGCCCTCGTGAGCCGAAGGGTGGACGGTCTCCTCCTTGTGGGTGACATCCCCGAGCCACGGCCGTCCCTGCACCTGAACACCAACGTCCCGCTCGTCTACGTGTACGCGCCCTCGCTCGATCCGGCCGACACTTCCTTTGTCTGCGACAACACGGAATCCGCCAAACTCGTAACGGAGAGACTCATCAGTACCGGCCGCAAAATGATTGTCCATATCGGCGGGCCGCAGCGCGAGACGGCCGCCCGCGACCGTGCCGAGGGGACGCTTCTTGCCACCGCCGCAGCCGGGCTGGACCTGGTGGGCGGGATTCCCTCTCACGGCGAATGGCACGAGACCTGGGGATGGTCATCCGTACACCGTCTCCTCGACGACTCCGTAGCATTCGACGCTTTAGTGTGCGGCAACGACCAGATCGCGCGCGGAGCAATGGATGCGTTGGAAGCGCGCGGACTTCGCACACCCCAAGACGTTGCATTGGTTGGCTTCGACAACTGGTCGGTGGTCAGCAGGGACGTCCGCCGTCCCTTCTCCAGCGTGGACATGAACCTGGAGGAGCTGGGGCGCGCCGCCGCCCAGGCCCTCATGGAGTCCGGCGCGCTCGTACCCGGGGTCCACAAGCTCCCCGGAAGTATCGTTGACCGCGGAACAATAGGATGA	MEVQPAATARDKAATLADVAARAGVSLATASKALSNRYDVADRTKLRVLQAAEELSFSPNLLARGLLGGRTQSVGVITNDSEGRFSLPIMMGAEDSLGADSSTVLLSNSRGNPELELQHAKALVSRRVDGLLLVGDIPEPRPSLHLNTNVPLVYVYAPSLDPADTSFVCDNTESAKLVTERLISTGRKMIVHIGGPQRETAARDRAEGTLLATAAAGLDLVGGIPSHGEWHETWGWSSVHRLLDDSVAFDALVCGNDQIARGAMDALEARGLRTPQDVALVGFDNWSVVSRDVRRPFSSVDMNLEELGRAAAQALMESGALVPGVHKLPGSIVDRGTIG	PGPT0017992_6521	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
D1-29_02295	1920	hypBA1		Non-reducing end beta-L-arabinofuranosidase	ATGACTGCTCGAGCCATTGCACGGACCGATCGCGGTCTTTCCCCGCTGCCCTTGACTGACGTCGTCATTGATGACGCTTTCTGGGCGCCGCGCCGGGAACTTATCCGGACCCGTACGCTGCGCCAGCAGGAGGACCAGTTGCGTAGGGGCGGACAGTTCGAAGCCCTGAAACTGGGCTGGAAGCAGGGGGACCCGGAGCCTCACATCTTTTGGGAAAGCGACGTGGCGAAGTGGATCGAAGCGGCCAGCTACTGCCTGGCGACGACGCCGGACCCTGAGCTTGAGGCTTCAGTGGATGAGGCCATCGGACTGCTCGCCGCCGCCCAGCAGGAGGATGGCTACCTCAATGTCTACTTCACGGTGGTCCGTCCAGGTGAAAGATTCACAGACCTGCGCGATGCCCATGAACTCTACTGCGCCGGCCATCTGATCGAAGCCGGTGTCGCCCACCATCAGGCAACCGGCAAAACCAGGCTCCTAGAGGTGGTTCGACGCTATGCGGACCTTATCGAGACCACATTCGGCCCGGGCGGGCAGTGCGAGGGAGGTTACGACGGTCACCAGGAAATTGAACTGGCCCTGGTCAAGCTGTACCGCGAAACCGGTGAGCGCCGCTATCTTGAAGTGAGCCGGCGGCTGATCAGGAACCGCGGGCAGCAGCCTTTCTACTTCGATCTGGAAGAGGAACGGCGCGGTACTCCCGGCTATTTCGCCAGTTTCTTTCCACACCGTCACGAGCAGGTGCGGCGCTTCCGCGAATACAACCAAAGCCATCAGCCCGTCGTCGAACAGGCGTCGGCAGTAGGCCATTCGGTACGCGCCGTCTACATGTACTCCGCCATGACAGATCTCGCGGCGGAATACGATGACACGGAACTGGGCGAAGCCTGCGACACGCTGTGGGCGAACCTTACCGACAGGAAGCTTTACCTCACCGGCGGGATCGGCTCCGATCATTCCATTGAGGGATTCGGCCCTGACTATGATCTCCCGGACGAACACGGCTATGCGGAGACCTGCGCTGCCATCGGGCTTGTCCAGTGGTCCCAACGGATGGCCAACACACGGCGGCACGGACGCCATATCGATGTCCTGGAACGCGCCCTCTACAACGGTGTCCTCAGCGGCGCCTCTGCGGAAGGCACGCACTACTTTTACGGCAACCCTCTGGCCAGCAGCGGCAGTGTTCAGCGGCAGGAATGGTTTGGGGTGGCCTGCTGCCCGCCCAACCTGGCCCGCCTCCTGAGCGAGCTCGGACGGTACATTTATGCGCAAGGCCCCAACGAAGCTGTGGTCCACCTGTTCGTGGGCGGCGAAGCACGGTTCGCCCTGGACGCCGGCACCATCACGCTCCGTCAAACAACCGAATACCCTCGCCATGGCAAGACCGGGATTTCCGTCGGCACTACAAGGCCGGCAGATTTCACCCTCTCCATCCGCATCCCGGCGTGGAGCCAGCCATCAGTCAGCCTCAACGGCGAGACCCTCCAGAATCCAGAGTTCACCAACGGATACCTGTCGCTGAGGCGCACCTGGGGCGACGGCGATGTGGTGAGCCTGGACCTGAATCTTGCACCACGACGGATTTGGGCCAACCCCGGCGTCGCTTCAGCCAGAGGCAAGGTGGCGCTGGCCTGGGGACCGCTGGTGCATTGCCTGGAAGGCGTGGACCATAATGCCCCCGTCAGAGGCATCACTCTTCCGCGATCCAGTGAGCTGACCGTGGTCTCGGACCACCGCACAGGAACCGTCACACTCCACGCCGCAGCCGAGACTGCCGGCCCTGCTGCCAACGGGGAGCTCTACCCGACGGCACCGCCAACCTCCGTCAGCACGGCGCTGACCGCTGTGCCTTACTTTTCCTGGGCAAACCGGGGAATTGCAGACATGACCGTCTGGATTCACGAATCCGACCGATAG	MTARAIARTDRGLSPLPLTDVVIDDAFWAPRRELIRTRTLRQQEDQLRRGGQFEALKLGWKQGDPEPHIFWESDVAKWIEAASYCLATTPDPELEASVDEAIGLLAAAQQEDGYLNVYFTVVRPGERFTDLRDAHELYCAGHLIEAGVAHHQATGKTRLLEVVRRYADLIETTFGPGGQCEGGYDGHQEIELALVKLYRETGERRYLEVSRRLIRNRGQQPFYFDLEEERRGTPGYFASFFPHRHEQVRRFREYNQSHQPVVEQASAVGHSVRAVYMYSAMTDLAAEYDDTELGEACDTLWANLTDRKLYLTGGIGSDHSIEGFGPDYDLPDEHGYAETCAAIGLVQWSQRMANTRRHGRHIDVLERALYNGVLSGASAEGTHYFYGNPLASSGSVQRQEWFGVACCPPNLARLLSELGRYIYAQGPNEAVVHLFVGGEARFALDAGTITLRQTTEYPRHGKTGISVGTTRPADFTLSIRIPAWSQPSVSLNGETLQNPEFTNGYLSLRRTWGDGDVVSLDLNLAPRRIWANPGVASARGKVALAWGPLVHCLEGVDHNAPVRGITLPRSSELTVVSDHRTGTVTLHAAAETAGPAANGELYPTAPPTSVSTALTAVPYFSWANRGIADMTVWIHESDR	PGPT0019100_1395	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_ARABINAN_BREAKDOWN,PGPT0019100-hypBA-K09955	NA	NA
D1-29_02296	927			hypothetical protein	ATGAAGACTGGAAAGAAGATCCAGACGGCGGCCGCCGGACTCGCAGTCCTGCTGGCCCTGAGTGCCTGCGGCGGCACGTCAACGGGCACTGAGGGCACAGAACTCTCCAAGACACAGAACACCCGGGACATCTCAGAAGGTGTCCAACCGGATCCGGCAGCGGTGGCGCTGCTGCCGGAGCCCTACAAGGCCAAGGGTGAACTGTCCGTGGCGATGGATCTTAGCTCCCCGCCGATGACGTTCCTGGCCGAGGACAACTCCACCCCGATCGGGGTGAACCCGGACCTCGCCCGGCTCGTGGCGAAGAAGCTGGGGCTGAAGCTGAAGTTTGAGAACACGGCGTTTGACACGATCATTCCCGGTATCGACGGCGGCCGGTATGACTTCACTGCCACCACCATGGCGGCGACGGAACAGCGGCTGAAGGTCCTGGACATGATCAACTACCTCAAGGGCGGCTCGGCCGTGGCCGTACACCATGGCAACCCGCTGAAGCTGACCAACGACACACTCTGCGGGAAGAACATTGGCGTAGCCAAGGGCTCCACCCAGCAGTTGAACCACTTGCCGAACGTCTCGAAGTGGACCTGTGAGGAAAAGGGCCAGCCAGCCATCAACGGCGTGACACTGCCCAACATCCAGGAGGCCCTGACGCAGCTGGACTCCAAGCGGATCGACGGGGTCTTCTACGACGCCAGTGCCCTGGCCTGGGCCATCGAGCAGCAGCCCAACCACTTCGCCGTTCTGGAACCGAGGATGGATACCCGCACGAACACCACCGTCGCCATGGCGCTGAAGAAGGGATCACCGTTTACACCGGCGCTGCAGCAGGCCATCCAGTCCGTTCTGGAATCCCCGGAGTACAAGGAGTGCCTGGAGTACTGGGGCCTGGAAGAATCAGCCATCACCGAAGCCGCCATCCGCTAG	MKTGKKIQTAAAGLAVLLALSACGGTSTGTEGTELSKTQNTRDISEGVQPDPAAVALLPEPYKAKGELSVAMDLSSPPMTFLAEDNSTPIGVNPDLARLVAKKLGLKLKFENTAFDTIIPGIDGGRYDFTATTMAATEQRLKVLDMINYLKGGSAVAVHHGNPLKLTNDTLCGKNIGVAKGSTQQLNHLPNVSKWTCEEKGQPAINGVTLPNIQEALTQLDSKRIDGVFYDASALAWAIEQQPNHFAVLEPRMDTRTNTTVAMALKKGSPFTPALQQAIQSVLESPEYKECLEYWGLEESAITEAAIR	PGPT0020800_2395	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
D1-29_02297	1374	aldH1	COG1012	4,4'-diaponeurosporen-aldehyde dehydrogenase	ATGGCCACACCTGCTTCCGCGGCCTCCCGGGCCCGTTCAGTGTTCGACGGCGGTGCCAGCCGTCCGTTGGCGGCGCGGCTTCAACTCCTGCGTAATATGCGCAGGATGCTGGCCGAGCACGAGGAGGACTTCGTGCGCGCACTCCAGGAGGACCTCGGCAAACCGCGGAGTGAATCACTGGCAACAGATTTCGGTTTCACGCTTGCCGAGATCGGCAACTTGGAGCGCAATCTTGAGCGATGGCTCCGCCCGCGACCGGTTCCCGTACCGTCGATGTTACTGCCCGCGAAGGCATGGACTGAGCTGACCCCATTGGGTACGGTCCTGATCATCGGCCCCTGGAACTACCCGATAAACCTCACACTCGCGCCCATGGCGGGGGCTCTGGCAGCGGGAAACACTGTGGTCCTCAAGCCAAGCGAACATTCGCCTGCGACGTCGTCCGCCTTGGCCCGGTGGGTCCCGCAATACCTGGCTCCGTCTGTGGAAGTGGTGGAGGGTGCCGTCCCGGAGACGACCGCCCTGCTCAACGAGCGCTTTGACCATATCTTCTTCACGGGCGGCCGCAATGCTGCGCAGGCCGTGATGCGGGCAGCAGCCGAGAACCTGACTCCGGTAACCCTCGAGCTTGGCGGAAAGTGTCCGGCCTATGTCGATGACGGGAGGAACCTCAGGCAAACAGCCATGCGGATCGCGTGGACCAGGTTCATAAATGCAGGTCAGAGTTGTATCGCTCCGGACTATGTCATGGCTCAGCCTTCCCTCCTCGACTCCCTCGAACACGAACTCAAGCTGGCGATCACCCGCCTGTTTGGCAAGGACCCAACCTCCAGCTCCTCTTACGGACGGATCATCGACGGGCGGCATTTCGACAGGCTCACTGCCTTGGCTGACGGCACCACTGTTGTCCACGGAGGTCAACGGGATGCGGCCACCCGGTACTTCGCCCCCACCCTCCTGCGGCCGCATGAGGGCGACGCAGTCATGCAGGAAGAAATCTTCGGCCCCCTCCTGCCGCTGGTGCCGGTCAGCGGGAAGGATGAGGCTATCCGCCTTATCAACTCCGGCCCCAAACCGCTTGCCCTCTACGTCTTCGCGGCCACTGATGGAGTCCGGCAGGCCTTCGCCGAAAAGACATCCTCTGGAGCCTTGAATTTCGACATTCCTGCCGCCCACTTTTCGGTTCCCGGACTTCCCTTCGGCGGCGTAGGAGGCAGCGGCATGGGCGCCTACCACGGCGAGCATTCCCTGCGGACCTTTTCGCACGAACGGTCCACACTCGATAAGCCCCTGCGCCCCGACACTCTTCGGTTCGCGTACCCGCCCTACGGGGCCGTCAAGGAGAAGCTTCTGAGGTCCTTGACGCGCCGGTAA	MATPASAASRARSVFDGGASRPLAARLQLLRNMRRMLAEHEEDFVRALQEDLGKPRSESLATDFGFTLAEIGNLERNLERWLRPRPVPVPSMLLPAKAWTELTPLGTVLIIGPWNYPINLTLAPMAGALAAGNTVVLKPSEHSPATSSALARWVPQYLAPSVEVVEGAVPETTALLNERFDHIFFTGGRNAAQAVMRAAAENLTPVTLELGGKCPAYVDDGRNLRQTAMRIAWTRFINAGQSCIAPDYVMAQPSLLDSLEHELKLAITRLFGKDPTSSSSYGRIIDGRHFDRLTALADGTTVVHGGQRDAATRYFAPTLLRPHEGDAVMQEEIFGPLLPLVPVSGKDEAIRLINSGPKPLALYVFAATDGVRQAFAEKTSSGALNFDIPAAHFSVPGLPFGGVGGSGMGAYHGEHSLRTFSHERSTLDKPLRPDTLRFAYPPYGAVKEKLLRSLTRR	PGPT0006875_9123	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
D1-29_02298	708	mntB_1	COG1121	Manganese transport system ATP-binding protein MntB	ATGACTTCTTCGCCGCGCCTCAACCCGACGTCCAGCAAGGCAACGCAGGCAGGCCTGCTTGTCTTAGAGGATGTATGGCTGGATCATGACGGCGTGGAGGCGCTGTGCGGCCTGTCGCTGCGGATCGAAGCCAACACCATCACCGCTGTTGCCGGCCCCAACGGGTCCGGAAAATCCACACTGCTCAACGTGCTGGCAGGCCTGCAGACCCCGCGCCACGGAAGAGTTGAGCTGCCCGTCAAAGGCAGCACCGCACTCGTGGTTCAACGCAGCGCGGTCCCCGAGCGAATGCCCCTGACGGTACGCGACGTCGTCAGCATGGGCAGGTGGGCACGCAAGGGGCTCCTGCGCCCCCTTCTCAAACATGACCAGAGGATCGTCGACGAATGCATCGGCCGTGTCGGTCTCTCAGGCTACGAGAAGCGGCAGCTGCACAGCCTCTCAGGCGGGCAGCGCCAGCGCGCCTTCCTTGGCCAAGGCCTCGCGCAAGACGCGGACATCCTGCTCCTGGATGAACCGACCACCGGGCTGGACTCGGAATCACAGGAACGGATCACCGAAATTCTTTTCGCTGAAAAAGAACGGGGAGCAACGGTTGTGTGCGCGTCACATGACACGGCGACCCTGGAGGCAGCCGACACTGTCATCACACTAAACCGCGGCCGCCTCTCTCGGCCCAAAGATATGCAGCCCTCAGAAACCTTCTAG	MTSSPRLNPTSSKATQAGLLVLEDVWLDHDGVEALCGLSLRIEANTITAVAGPNGSGKSTLLNVLAGLQTPRHGRVELPVKGSTALVVQRSAVPERMPLTVRDVVSMGRWARKGLLRPLLKHDQRIVDECIGRVGLSGYEKRQLHSLSGGQRQRAFLGQGLAQDADILLLDEPTTGLDSESQERITEILFAEKERGATVVCASHDTATLEAADTVITLNRGRLSRPKDMQPSETF	PGPT0004265_1311	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004265-ABC_ZM_A-K02074	NA	NA
D1-29_02299	942			hypothetical protein	GTGCACCTGATCCTTGAACCTTTCGCTGCTGATTTCATGCTCTACGCCCTTCTGGGCGGTTCCTTATGTGCTGCCGTTTGCGCCGTCGTGGGGACGTGGGTGGTTATCAGGGGCATGGCATTCCTGGGCGAGGCGATGGCGCATGGCATGCTGCCCGGAGTTGCCGTCGCGACCCTTACCGGTGTTCCTGTCGTCTTAGGCGCTGCCGGAAGTGCCATTTTGATGAGCGTTGGGGTGAGTCTGCTGGCCCGCAGGGGCAGGTTGTCCCATGACACGAGCATCGGTCTCTTTTTCGTCGGAATGCTCGCCGCCGGCGTGATCATCATTTCGCATTCACGCAGTTTTGCCACCGATGCCACGGCCATCCTCTTTGGCGACATCCTCGCCATAGGGCAGGCAGATCTGTGGTTGCTGTTCTGGGCATTGCTGGCAACCGTAGTGGTGGCCAGAGTGTTCCACCGCTCCTTTGTGGCCCTGGTGTTTGACCAGCGGGTTGCCCAGGTCATGGGTCTTCGGCCCCGGCTGGCGCAGGTGCTGCTGGTTGGCCTGGTGACGTTGGCGGTGGTCGCTTCCTATCAGGCAGTGGGGGCATTGCTGGTCCTCGGTCTGTTGCTTGCCCCGTCCGTGGCCGCTGCGGCCTGGACCCGGCACATCCGGACCACCATGGTCCTGGCAGCGCTCATCGGTTGTACGTCGGTCTTCGTCGGCCTGCTGGTTTCCTGGTACTGGGGCACGGCAGCCGGCGCCTCCATCGCCCTCACCGCGGTTTCAGCCGCGGCGTGCTCAAACCTAGCCCGGGCCGCGTCATCTCCGCTGCGGCGCGGCCAGGCAGCCGGGCACGCCTCCCACCCTTCCGCAGCCCTGTCCTCCGGCATCACCGGCAGCCCTGTTGCCGGTTCCGCTAATCGCTCCACCAAGAAAGCAATTCGTGCGAACATCTAG	MHLILEPFAADFMLYALLGGSLCAAVCAVVGTWVVIRGMAFLGEAMAHGMLPGVAVATLTGVPVVLGAAGSAILMSVGVSLLARRGRLSHDTSIGLFFVGMLAAGVIIISHSRSFATDATAILFGDILAIGQADLWLLFWALLATVVVARVFHRSFVALVFDQRVAQVMGLRPRLAQVLLVGLVTLAVVASYQAVGALLVLGLLLAPSVAAAAWTRHIRTTMVLAALIGCTSVFVGLLVSWYWGTAAGASIALTAVSAAACSNLARAASSPLRRGQAAGHASHPSAALSSGITGSPVAGSANRSTKKAIRANI	PGPT0004270_141	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004270-ABC_ZM_P-K02075	NA	NA
D1-29_02300	1275			hypothetical protein	GTGCGAACATCTAGAACCCTCACACTTTCCGCCTTCGCGCTGACCCTGGCCCTTTCCGCATGTTCCGCCCCAGTGGCGGTCCCGGGATCAGGACCGGAAGCAGCTAAGGAAACCGCCGCTGCAGGGGGATCAGCAATCGGCGACGGGCATGGAGCCAAGGCAGGCGCCAGTGAGGTAGCTGAACCCCAGCTTCACTTGCTCACCGTTGGCCAGGCCGGCGAAGTGGGCATGCTGGACCTCGCGGATGAAACGTGGAGAAGTGCGGGAAGCCTGCCGGGCACAAAGAGCGGCATTACCGATGGCAGGTACATCTTCGCCTCATCCCCGGAACAAGGAACAGTCACGGTCCTGGACAGTGGCGTCTGGACCTGGGACCACGAGGATCACTTCCACTACTACCGCTCCGATCCCAGAACCGTCGGAACAATTACGGGGCAGGGGAAGGCAGTCGTTACACCCGGGGCATCGGCCACCGGGGTGTTCTTCCCTGAAACGGGAAAGGGCGTCCTCCTGAGCAACGACGCCCTGGCAGAAGGCCAGATCCGTGAAACAGCGCACCTAAACGATGCAGCCACACCCCACCAGGGAATGCTGGTGCCGCTGGGTGACTTCGCACTTGCCACGGTGCCCGGCGCTGACGGGAAAGCCCAGGCAGTACAGGCGTACGACGGCGAAGGGTCGGCTCTGGACGGAGCACAGGCGCCCTGCGCCGACGCGCAGGGCACCATCACCACACGCGTTGGTGTGGTCATCGGATGCACGGATGGCGCCCTCCTGGCAACCGTGGAAAACGGGAAAGTCGCGTTCGAGCACATCCCTTACCCGGCAGGCGCAGGGGCAGGACCCGCCACGGCGTTTCGGGCCCGCGAAGGCCGCCCCACTGTGGCGGCCGTGGCCGGTGACCAGGGTGCCTGGATCCTCGATACCCGCGAACGGAGCTGGCAGCTCATCAAAACTGATGTGCCCTTGCAGCAGGTAGCTGCCGTGGATGACAAGGAAGGGCACGCCGTCGCCCTCTCCATTGACGGGCGGGTCCTGGTGCTCTCCGCCGAGACTGGTGCCACGTTGTCCTCCACCGAACCCCTGCTGACCGAGACCCTGTCCGATCCCGGGCTCCTGGCCAGCGTGGAGCTGGTTGCCGATCAGCAGCGTGCCTACCTCAACGCGCCGGCCGAACAGAAGCTGTACGAGATTGATTTCGCTGATAACGCCCGTCTGGCCCGGACCTTCGCCACACCGTCCGTGCCGGTTGTTTTTGCCAGGACAGGACGGTGA	MRTSRTLTLSAFALTLALSACSAPVAVPGSGPEAAKETAAAGGSAIGDGHGAKAGASEVAEPQLHLLTVGQAGEVGMLDLADETWRSAGSLPGTKSGITDGRYIFASSPEQGTVTVLDSGVWTWDHEDHFHYYRSDPRTVGTITGQGKAVVTPGASATGVFFPETGKGVLLSNDALAEGQIRETAHLNDAATPHQGMLVPLGDFALATVPGADGKAQAVQAYDGEGSALDGAQAPCADAQGTITTRVGVVIGCTDGALLATVENGKVAFEHIPYPAGAGAGPATAFRAREGRPTVAAVAGDQGAWILDTRERSWQLIKTDVPLQQVAAVDDKEGHAVALSIDGRVLVLSAETGATLSSTEPLLTETLSDPGLLASVELVADQQRAYLNAPAEQKLYEIDFADNARLARTFATPSVPVVFARTGR				NA	NA	NA	NA	NA
D1-29_02301	966	psaA	COG0803	Manganese ABC transporter substrate-binding lipoprotein	GTGACGAAGATGCTTCGACGCTTTAAGACTGCACGCCTTAAGAGTGCACGCCGCCCGCTGACGCTGCTTCTGGCGGCCGCGGCCTTGGCGGGTTCCGCTGGTTGCAGCCCGCTGGAAGCGGACCGGCCGCTGATTGTGGTCAGCACGAACATCCTCGGCGATGTAGTGGAGAACGTCATCGGGGACCAGGCCGAGGTCCTGACGCTTATGCAGCCCAATGCGGACCCGCACTCTTTCGAGATTTCCGCCCAGCAGGCAGCAACAATGCGGCAGGCGGACCTCATCGTTACCAATGGACTGGGGCTGGAGGAAGGCCTGCAGCAACACATCGACTCTGCCAACGCCGGTAAGGTCCCCCTGCTCGTCGCCGGCGACGTCATTGATGTCCTCAATTACGGCGACGACAGCACGGCAGGAAACTCCGCCGGAGCAGCCGATCCCCACTTCTGGACCGACCCGGAACGCATGATCACGGTAGTCAACGCCCTTCAGGAGCGGTTATCAACCATTGACGGAATCGACCCCGAAGTGGTCAAGGCAAAGGCAGAGTCCTATCGGGCAGAGCTGACGCAGCTGGACTCCGACATGACCGCAGCCTTCACCGCCATCCCCGCAGAGCGGCGGAACCTCGTGACCAACCACCACGTCTTCGGTTACCTGGCCGACCGGTACGGGTTCAACGTAATTGGTGCCGTGATCCCGGGCGGAACCACCCTTGCCTCCCCAAGCGCCTCCGACCTGCGTGACCTGGTCAGCGCCATCGAGGAAGCCAAGGTGCCCACAATCTTTGCCGAGTCTTCCCAACCGGACCGCCTCGTCCAGGTCCTGGCCGACGGCGCCAACATCGACGTTTCGGTCGTCGAACTCTTCACCGAATCGCTCACCGACCCCGACGGCGGGGCGGAGTCCTACCTGACCATGATGCGCACCAATACAGAGCGCATCTCCACCGGCCTCTCGCCATGA	MTKMLRRFKTARLKSARRPLTLLLAAAALAGSAGCSPLEADRPLIVVSTNILGDVVENVIGDQAEVLTLMQPNADPHSFEISAQQAATMRQADLIVTNGLGLEEGLQQHIDSANAGKVPLLVAGDVIDVLNYGDDSTAGNSAGAADPHFWTDPERMITVVNALQERLSTIDGIDPEVVKAKAESYRAELTQLDSDMTAAFTAIPAERRNLVTNHHVFGYLADRYGFNVIGAVIPGGTTLASPSASDLRDLVSAIEEAKVPTIFAESSQPDRLVQVLADGANIDVSVVELFTESLTDPDGGAESYLTMMRTNTERISTGLSP	PGPT0004275_1153	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004275-ABC_ZM_S-K02077	NA	NA
D1-29_02302	1248			hypothetical protein	ATGAAAAACGCCATATCGCCGTTGCGCACCAGGCGCATTGTCCTCGCAGCAGCCGTCACCGCCTCTGCGCTCCTCCTATCCGCCTGCGGATCCGCCTCCGGACCGGCAGCGAGTACTGCCAGTACAGGTTCTGCCGGCGCCGGCACAACTGCTCCGGCCCCGCGTGTGGCCCTCACGTATGACGGGGGCATTGCCGTCCTTGACGGCAAAACACTCGAGCTCGAGGGCGACCTGCCTCTGGCAGGCTTCAACCGGCTCAACCCGGCAGGCGACGGACGGCACGCAATGGTCACCACCGCAGAAGGGTTCCAAGTCCTGGACATGGGGACCTGGACTGATGCCAGCGGCTCCCGGCAGGCCGAACCTCAACTCACCGATCTCGTCTTCAAGGCCGACAAAGCCGGACACGTGGTGCGACACGATGGCAAGACCGTCCTGTATGCAGACGGCACTGGTGAAACGACTATTTTCGAGACCGACGCACTGCTTGACGAACCTACCAAGTTGCCTGAAACCGAGGTGGTTCCCGCGGAGGAAGCACACCACGGCGTGTCAATCGTCCTGAAGGACGACACGCTGCTCACCACCGTAGGCAACTCGCAAAGCCGCTCAGGACTCCGGGTGCTGGACAAAGACCGCAAGGAAATCGCCAGGAACGGCGAATGCCCCTCTATCCACGGGGAGGGCACGGTAGCCGGCGAAATCGCGGTCTTCGGATGCAGCAACGGCGTGCTCGTCTACGAGGCCGGCACCATCACCAAAATCACCGCCCCGGACAAGTATGGCCGCATGGGCAACGCCTACGTAACGGACACCAGCCCCATCGCCGTTTTCGACTACAACGCCGATCCGGACGCCGAAGGCTACCTGCTCCACCAGCTCGGCCTCATCGATACAAAGGCTAAGACCATGAAAGTGGTGGACCTGCCTGACGGCGTCGAGTACACATGGCGGGACGTCGCACGCGGACCCAACGAAGAAATTCTCCTGCTCGGAACGGACGGATCCCTGCACACCCTCGATCCCGTCAGCGGGGAGACCACTTCTTCCCTCCCTGTCATCGGCGCCTGGGAAGGCCCTGCCGAGTGGCAGGACGCGCACCCGGCACTCACTGTGCTCGATGGCACCGCTTACGTAACCGACCCGGCCAAGAAAACACTCCACGCCATCGACCTCGCCACGGGTAAAATCACCACCTCCAAGGAACTTCCTGGCACACCCAACGAGATCACCGTCGTCGAAGGCTAA	MKNAISPLRTRRIVLAAAVTASALLLSACGSASGPAASTASTGSAGAGTTAPAPRVALTYDGGIAVLDGKTLELEGDLPLAGFNRLNPAGDGRHAMVTTAEGFQVLDMGTWTDASGSRQAEPQLTDLVFKADKAGHVVRHDGKTVLYADGTGETTIFETDALLDEPTKLPETEVVPAEEAHHGVSIVLKDDTLLTTVGNSQSRSGLRVLDKDRKEIARNGECPSIHGEGTVAGEIAVFGCSNGVLVYEAGTITKITAPDKYGRMGNAYVTDTSPIAVFDYNADPDAEGYLLHQLGLIDTKAKTMKVVDLPDGVEYTWRDVARGPNEEILLLGTDGSLHTLDPVSGETTSSLPVIGAWEGPAEWQDAHPALTVLDGTAYVTDPAKKTLHAIDLATGKITTSKELPGTPNEITVVEG				NA	NA	NA	NA	NA
D1-29_02303	780	kdgR_2		Pectin degradation repressor protein KdgR	GTGACCGCCGAACCCGGGCCTGCGGAGCCCCAGCTGTCCGCACTGATGAAAGGCCTCAAAGTGCTGGAGGCGGTGCCTGCGCACCACAGGATTTCTGACATTGCCTCCGAGACTGGCCTGTCCGTCAGCACCGTCCACCGTATCCTGAGTGACCTCGTGGAGTATGGCTGGGTGGAACAGGACCAGGAGAGGGCCTACCGCCCGGGCCGGCGGGTCCAAGGGCTTGTTTCGTTGCTGCACAATGACGAACAACTTGTCCGCACGGCACTGCCAGATCTTCAGGCGCTGCGGGACAGCGTTGGTTTCACTGTCCACATGGCGCGGTTCTCACACAACGAGTTGAGTTACGTTGCAAAAATTGACGGGCCGGCCGCCTATCAAATGCGCTCAAGGGTCGGCGACACCATTCCGCTGTGGTCCTCCGCCATCGGAAAGGCGATACTGGCCGCGCTCGACGAGCAAACAAGCCGCGAACTGTTGAAAGCCGCGCAGCTGAAGCGGAGAACCCGGTCCACCATCATGTCCAAGAGCCTGCTCTGGAACCAGGTGGAACTCATCCGCCGTCGGGGGTGGGCCGTTGACGACGAGGAAAACGAACTCCACATCAGGTGCGTTGGGGTTGCGCTCCAGGACGCGAGCGGAAGAGTCATCGGCGGACTCAGCACGTCCGCGCTTGACCACGAGATGACCCCCGCCACGATAGAGCGGATAGCGCCCCTTGTTGTGGAAACAGGGGCGCGGATCAACAAGCTGCTGGGCCGGGACAGCCAACGGAAGTGA	MTAEPGPAEPQLSALMKGLKVLEAVPAHHRISDIASETGLSVSTVHRILSDLVEYGWVEQDQERAYRPGRRVQGLVSLLHNDEQLVRTALPDLQALRDSVGFTVHMARFSHNELSYVAKIDGPAAYQMRSRVGDTIPLWSSAIGKAILAALDEQTSRELLKAAQLKRRTRSTIMSKSLLWNQVELIRRRGWAVDDEENELHIRCVGVALQDASGRVIGGLSTSALDHEMTPATIERIAPLVVETGARINKLLGRDSQRK				NA	NA	NA	NA	NA
D1-29_02304	783	kduD		2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase	ATGAACGGCGGAGCCAGCATGGAATCATCCACCACCCTGTCCCGTCCACTTCAGGGTCAACGCGCCGTGGTTACCGGAGCGCGGACAGGCATCGGATTCGCGTGCGCGGAGCGGCTCGCCCGCGGGGGCGCCGATCTGGTCCTCTGGGGACACCGGGACATGGCGGAGACCGCAGAGCTGCTGTCCGGCCATGGTGTCACCATCGACGTTGTGACATCTGACCTTGGCGATCCCGCCGCGGCCCGTACCGATGCCGAACGCCTCGTGGCATCAGGACCGGTGGATATCCTGGTCAATAACGCGGGAACGATTCACCGCGAACCGGCCGCGGCTCATGCCAGCGAGGCCTGGGACCGGGTCCTGAACCTGAATCTGAACACCGTTTGGCACCTGAGCCAGGTCTTCGGCACCCATATGGTCAACCGGGGACACGGCAGGATCATTTCCATCGCCTCACTCCTCTCGTTCCAGGGAGGAATAAACGTTCCCTCCTACACGGCGTCAAAACACGCGGTGGTGGGCTTAACTAAAGCCCTCGCCAACGAGTGGGCATCGCACGGGGTAACGGTGAACGCTATTGCGCCCGGATACATTGCAACGAACAACACTGAAGCTTTGCGCGGAGACCCCGAACGGGAGCGCTCGATCCGTGAGCGGATCCCTGCAGGGCGGTGGGGTTCGCCGGAGGATATTGCCGGCAGTGTGGCCTTCCTTGCCGGGCCGGAGGCGGCATACGTCAATGGCCACGTTCTGGTTGTCGACGGCGGGTGGCTGGGCAGGTGA	MNGGASMESSTTLSRPLQGQRAVVTGARTGIGFACAERLARGGADLVLWGHRDMAETAELLSGHGVTIDVVTSDLGDPAAARTDAERLVASGPVDILVNNAGTIHREPAAAHASEAWDRVLNLNLNTVWHLSQVFGTHMVNRGHGRIISIASLLSFQGGINVPSYTASKHAVVGLTKALANEWASHGVTVNAIAPGYIATNNTEALRGDPERERSIRERIPAGRWGSPEDIAGSVAFLAGPEAAYVNGHVLVVDGGWLGR	PGPT0018065_536	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018065-kduD-K00065	NA	NA
D1-29_02305	813	kduI_1		4-deoxy-L-threo-5-hexosulose-uronate ketol-isomerase	GTGAAACGCCTGTGGAGCACGCACCCTGATGACCTGGCCCGCCTCGATTCAAGGGAGCTGCACCAGCGCTTTGTCGTCTCAGACCTCTTCGCACCCGGGGAGGTCCGGCTCGCCTACGCCCACGACGACCGGATCATTGTGGGAGGAGCCATGCCAACAGGGGATCCGATCGAGCTTGAGGCTCCAGCCGAGGTACGCTCCCGGAACTTCCTTGATCGACGCGAACTGGCCCTCGTTGGCCTTGACGGCGCCGTCTCAGTGACCGCCGACGGGGAAACCTGGAAGGTGGGCCGGCACGACGTCCTCTACCTGCCGTGCGGAACGAAATCGGTGACTCTGTCCGATACAGGGGCCGTTTACCTCGTTTCGGCCCCCGCGCACCGGCGGACAGCAGCCCGGCTTGCTTCCCACGATGACGCAGCAGCCCTGCATCTGGGCTCGTCAGAAGAGGCCAATGAGCGCGTTATCCGCAAGTACGTTCACGCCGACGGAATTGAGTCCAATCAGCTGGTCCTTGGCATTACTACCCTGAAGCAGGGTTCTGTCTGGAATACCATGCCGGCCCACCTGCACGACCGCCGGACTGAAATCTATTTTTACGATGGACTGGGTGACGCCCTCCTTGTCCACCTCATGGGCCAGCCGGACAGCACACGTCACCTGTTGCTGCGGGACCGGGACGCTGTGGTTTCACCGCCGTGGTCCATTCATAGTGGCAGCGGAACCAGTGCGTATTCGTTTATCTGGGCGATGGCCGGAGAGAACATCGACTACAGTGACGTTGATTCCGTCAGCTCCGGAGACCTTCGATGA	MKRLWSTHPDDLARLDSRELHQRFVVSDLFAPGEVRLAYAHDDRIIVGGAMPTGDPIELEAPAEVRSRNFLDRRELALVGLDGAVSVTADGETWKVGRHDVLYLPCGTKSVTLSDTGAVYLVSAPAHRRTAARLASHDDAAALHLGSSEEANERVIRKYVHADGIESNQLVLGITTLKQGSVWNTMPAHLHDRRTEIYFYDGLGDALLVHLMGQPDSTRHLLLRDRDAVVSPPWSIHSGSGTSAYSFIWAMAGENIDYSDVDSVSSGDLR	PGPT0018245_1037	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018245-kduI-K01815	NA	NA
D1-29_02306	1389			hypothetical protein	GTGTTCGTGACGTTGCGCACATTGTCGCCCCGGCAGGGGGCGATCACCATCAAGGAGGATGAAGTGGCTAAAAAGAGTCGGATAACAGCGCGGTTGATGCTCGCTGTCACCGCCGTCACCCTGCTGGGCGCCTGTGCGCCAGGCCAGGTTGAAGGGGAGGGCGGCCCGGGACAGGAGCCGCTTACCGTCGAGAGCGTCGACCCCGCGGAGTTCAAGGGAAAGACCCTGAACTACGTCTACTTCACGGACGGGCCAGACGAGCAGGCGACCCGTTCCCTCATTGGGGACTTCGAAAAGAAATTCGACGTCACCGTCAATCTTGAGGTTCTTCCCTACAAAGATCTTGTGACTTCCGTTCAGGCACGCCTTTCCGGCGGAAATGTGCCCGACGTCGTTCGCCTCACCGGGCTCACTGATTTCAAGGCCGATCTCCTGGACCTGCGCCGCTACCTGGGTGAAAAGTATGCGGAGGAGTTCCTCCCCGGCCCGCTGGTCGGCGCTGCCGGCGACAATGACCAGCTTCTCGCAGTACCGTCGGACCTCACGCTCAACGGCCCGTTCGTCAACGTGGACATGTTCAAGAAAGCCGGTGTTGAGCTTCCCAATCCGGAAGATCCCTGGACCTGGGAGGAGATGATCGCCTCCGCCACCAAGGTGCAGCAGGCCACCGGATCGCAGTACGCCTTCGCCATGGATAAGTCCGGTCACCGGCTTTCCACCGTTCTCAACCAGTACGGCACGACGCTCGTCGCAGATGGCAAGGCAGTGCTGGACGCGGACAAAGCAGCAAAGGCCCTGACCCCACTTGTCGAGATGATGGGCGATAACCGGATGCCCCGGGACTTCTGGCTCGGCTCAGGCTCGCGCTATACCGGTGCCAACGAAATTTTCCTCGCCCAGGACGCGCCCGTCTACCTCTCGGGAAACTGGCAGGTGGGACAGTTCGCGGCCAACGCCAAATTTGAATGGGCCGCCGCCCCCAACCCCTGCGCAGAAAACTGCGGCGGCTTCCCGGGCGGCAAGTACATGGCGGCTTTGGCAGAAGGCAAGAATCCTGCGCTGGCCGCTGAGTTCATCCGGTTCATGAATACCGCGGAAAACCAGAAGACCTTCATCGTTGCCGGCGGCTTCCTGCCCACCCGGAAGGACCTTGCAGAAGAAGGCGTCGCCTATCCCGCCCGGCAATCCGATATGGACGTTTTCCTGAAGGATCTCTCACGCACTCCTGAGGTTGGGTACTCCGCAAATGCCGATCCGGCGTTCGCCGGCTCGGGGACCGAACTCGTCAATGCGGTCTCGGAAGTCGTTGCCGGAAAGACTGACCTGCCGGCTGCGCTGACGAAGGTCCAGGAGAAGTCACAAGCCCTCGTGGATGAACTGGACCGATGA	MFVTLRTLSPRQGAITIKEDEVAKKSRITARLMLAVTAVTLLGACAPGQVEGEGGPGQEPLTVESVDPAEFKGKTLNYVYFTDGPDEQATRSLIGDFEKKFDVTVNLEVLPYKDLVTSVQARLSGGNVPDVVRLTGLTDFKADLLDLRRYLGEKYAEEFLPGPLVGAAGDNDQLLAVPSDLTLNGPFVNVDMFKKAGVELPNPEDPWTWEEMIASATKVQQATGSQYAFAMDKSGHRLSTVLNQYGTTLVADGKAVLDADKAAKALTPLVEMMGDNRMPRDFWLGSGSRYTGANEIFLAQDAPVYLSGNWQVGQFAANAKFEWAAAPNPCAENCGGFPGGKYMAALAEGKNPALAAEFIRFMNTAENQKTFIVAGGFLPTRKDLAEEGVAYPARQSDMDVFLKDLSRTPEVGYSANADPAFAGSGTELVNAVSEVVAGKTDLPAALTKVQEKSQALVDELDR	PGPT0017260_4	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALPHA-1|4-DIGALACTURONATE_TRANSPORT,PGPT0017260-aguE-K17241	NA	NA
D1-29_02307	909	melD_8	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGACAGCAGTCCGGACGGCTCCTCCCCGGAAGCGCAAGTCATCACTGAAGATGGGGTTGGTTCCATATCTCTTCCTCCTGCCGAACATGGCGATCTTCGGACTCTTCACCATCTGGCCGGCCATCAACGGCTTCAACATCTCCATGTACTCCTCCTCCAACGGCCGGACTTTCCGGTGGGAGGGGGCCGGGAATTACCAGAGCATCCTGACTGACGCTGATTTCTGGGGAATTGTCCGAAACACAGTGATCTATGCATTCGCGTTTGTGCTGCTCTCCGTGGTGATCGGGGTGATACTTGCGGTGCTTGTCGATCAGCAGCGGCGGGGCCGAACGTTCTTCCGCTCCGTCTTCTTTATCCCGGTCCTTATTTCGCCTGTCGTGGTGGGCCTGGTCTGGAACTGGATGCTTGAGCGGCAGGGAGGCCTGGTCAATACCTTTCTGGGCTGGTTCGGAATCCCGGAGATCCCGTGGCTGGTGGACAACAACCTCGCCACCATTGTGGTGATCGCCGTTGGCGTCTGGATGCAGGTGGGCTTCTACATGCTGATCCTCCTCGCCGGGCTCCAGAGCATCGATCCGTCTGTCTATGAGGCGGCGCGAGTGGACGGAGCAAACCGGTGGCGGCAGTTCATCAGCCTGACTTTTCCGCTGCTGCAGCCAAGCATCCTTGTGGTTGTTGTGCTTGCCACCATCCATGGCTTCCAGGCATTCGACTACATCTACACCCTGACCGGCGGTGGCCCCGTCGGCGCCACAACCCTCATCGTTCAATACATCTACGAAAACGGCTTCGTCTCCCCGATCAGGTATGGCATGGCATCGGCTGGCAGCGTCCTGCTGTTCTGCGCCATATTCGCGTTGACGATCATCAACTGGATGGTTGGCCGGAAAAGGGAAGCAGCATGA	MTAVRTAPPRKRKSSLKMGLVPYLFLLPNMAIFGLFTIWPAINGFNISMYSSSNGRTFRWEGAGNYQSILTDADFWGIVRNTVIYAFAFVLLSVVIGVILAVLVDQQRRGRTFFRSVFFIPVLISPVVVGLVWNWMLERQGGLVNTFLGWFGIPEIPWLVDNNLATIVVIAVGVWMQVGFYMLILLAGLQSIDPSVYEAARVDGANRWRQFISLTFPLLQPSILVVVVLATIHGFQAFDYIYTLTGGGPVGATTLIVQYIYENGFVSPIRYGMASAGSVLLFCAIFALTIINWMVGRKREAA	PGPT0017265_131	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALPHA-1|4-DIGALACTURONATE_TRANSPORT,PGPT0017265-aguF-K17242	NA	NA
D1-29_02308	888	araQ_8	COG0395	L-arabinose transport system permease protein AraQ	ATGAGCAGCACTACAACTGAGGCCGCACCTGAAACGCTCCCGGGTAAAACCTGGACGTCGACAGGCAAAAACAACATAACCGCCACCGACGCCCTCCGGGTGGTCATCCTCGTTACCGCGGCGCTCGTTGCCCTGGTCCCCATCGTGTGGCTTGTGCTTGGGGCGTTCAAGACTCCCACCGAGCTGTCGGCACGGCCGCCGTTGCTGCTGCCGGAGTCGTGGGGACTCTCGAACTACACCGACGCACTGACGCGGTTCGACTTTACGACGTACCTCTTCAACAGCACCGTCGTGACGATCGCTGCGACCGCCCTGACCCTCGCGATCAACTCCATGGCCGCCTACGCCCTGGCGAAGTACAACTTCCGCGGAAAAAACGGCCTGTTCCTCCTCACACTGGCAACGATCATGATCCCGCTGCAAGTGATTCTGATTCCGGTTTACCAGGTGGTTGCGTCGCTGGGGATGGTGAATACCCTCTGGGGGCTCATCATCCCGGCGGCCGCCACACCCACTGGGGTCTTCATCCTGCGGCAGTACATGCTCTCCATCCCGGACGAGCTGATCGAAGCGGCGAGGGTGGACGGATCCGGGGAATTCCGGACCTTCATTCAGATAGTCCTCCCGATGTGCAGGCCCGCGCTGGCTGTGGTGGCCATCCTGTCCATCATGTGGCGCTGGAATGACTTCCTGTGGCCGCTCGTCGTCGCCCAAAGTGAAACCGTCTACACGCTGCCGGTTGCGTTGGCGCGCTTCACTGCTGAGGAAACCGTACCGTTCAACCTCATCATCGCCATGAGCGTGGTCAGCATCCTGCCTGTGATCATCCTGTTCCTCTTCTTCCAGAGGCAGATCGTCACAGGCATCGCGAACACCGGAATCAAGTGA	MSSTTTEAAPETLPGKTWTSTGKNNITATDALRVVILVTAALVALVPIVWLVLGAFKTPTELSARPPLLLPESWGLSNYTDALTRFDFTTYLFNSTVVTIAATALTLAINSMAAYALAKYNFRGKNGLFLLTLATIMIPLQVILIPVYQVVASLGMVNTLWGLIIPAAATPTGVFILRQYMLSIPDELIEAARVDGSGEFRTFIQIVLPMCRPALAVVAILSIMWRWNDFLWPLVVAQSETVYTLPVALARFTAEETVPFNLIIAMSVVSILPVIILFLFFQRQIVTGIANTGIK	PGPT0017270_198	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALPHA-1|4-DIGALACTURONATE_TRANSPORT,PGPT0017270-aguG-K17243	NA	NA
D1-29_02309	2784			hypothetical protein	ATGAGTGAAATTTTTATGCCGACCAACAGGACCACCCACACCACCGACGCCGACGGTACCGTGCGCGACTGGCTGGTCTCGCCCGTATGGGCTTCCCCGTGCGGGGACCTGGAGAAGTTCCTTCCCGCCGAAGGTGAGCCCTGGGGGGATGGCCGGTGGGTCCTGACCAACGGGCCCGACGTCGGCGGGCTGAAGGAACGACTGGCGAAAGCACACCCCATCGATATCGGGCAGCACATCGAGCCGCCGGTCGAGGGCGGTGCCGTCAGCTGGCTGGCGGGAGGTTCCACGTACAAGGCTTCGTGGCGGCGGGTCCGCACGGGGGAGGACGGGTTCCTTGACTGGTCGGCCTTCTGCTTCACACCGGAATACAGGTATTCGTTGGCAAGCACCGTGCTGGAAATAGACCAGAGCGACTGGCGAACCATTGAACTCCATACCACCGGCCCGTTCGTCCTGTGGCTCAATGGCGAGGTGGTGCTCCAGGGCGGCAAGGTCTCCTACATGGAACCCGAAGTGCACACGGCGCGGGTCCGCCTCCCCTCACGAACCACCACTGTCCATTTGGCGACATGGCAGGTCGCCTTCCGCGAGTGCCGCCAGATTGCCCGGATGCGGGTAACAGGCCTGCCCGTACGGGTCGTCATCCCCTCACCGGGGGCAGATGAACACGCAGCCAGGCTGGCCCAGACCGTACTGGCGAAAATCGGCTCGCCGTCCTGGGCGCAGGACGCGGCCGAGGCCACCCTCTTAGCTCCTCCGGGCGCTGCCTTGAGGGTGCGCGTGGGGGAGAATTCGCCCTGGCAGCATATAACGGCCGACGCGGCCGGAAAAGCAACATACCGCCTGGATCATGCAACGGAGGAGGAGCAGGACGAAGGCGGCGACGTCGCCCGAACGGCAGGGGCATCGATGCTCTCCAGCGGAGAAAGCATCGTCGAAGTAGGCCTGGACGACGAGCGCTGCCCGCAGACGATGCGGATGCGGGTGGCTGTCCTGCCGCCCTTGAGTACCGAAAGCCCCACAGGTGACACCGCAGCCTGGCGCAACGATGTCCTTCGGCACGTCGCCGGACACGGCGAAGGCGCGATCCGCGAGCCAGGAGTCGCTGGCCTCCTCGCCCGTTACGCCCTGGATTCCCAGACCACCGTCCAGGTGGAGGACCTCAGATCTTCGCTGCACCGGATCCTGACGCGTGGCGACTGCGCCGACTTCGAGGTGGTGTCCCTTCTGCTTGCATGGCATTGGATTCCCGAGGACCGCTGGTCACCCGAGCTGCGGAAGGAAGTTTCCGTGGCAATCACCGGGATGAAGTACTGGATCACCCAGCCTGGCCTTGATGCCATGTGTTACTTCACGGAGAACCATCAGTTCGTCTGGCACGTGGCGGAGGCGCTCGCAGGAGAGGCCTTCCCTGACTCAGTCTTCACCGTTGACGGCCGTACCGGATCCGAGCACGGAGCGGAAGCCCGTTCCCGGGCTGCGGGCTGGCTGACGAGGAAACTGCGGGGCGGCTTCAGCGAGTTCGATTCCAACGCATACCTTGCCATCGACAGTTACGCTTTGTGCGCGCTCATCGAGCTGGGCGAAGACCAGGCGCTGATTACGGCAGCGCGCACCCTTTTGGACAAGGTCCTGGTGACGCTGGCGTCCAACTCCTGGCGCGGCACCCATGGTGCGGCTCATGGCCGCTCCTACGTGCACACCCTGCGCAGCTCACGATTCGAGGAAACCTCCCCGATCCTTCGGCTTGTGGCCGGCGTGGGAACCCTTAACGACGCCGTACTTCCGGTGACGGCCCTGGCGCTGGCGCAGAAGTACACGATTCCTGATGTTGTCCGCGAACTGGCCGGGAACGAACCAGAAGAATGGTGGGGCCGCCAGGTCTACCGCGGCGAACTTTCCTTCGAACGGGACCTCCTGGAGAGGCCCTACCGCTCCGACCTGCGGGTCTGGAGAACACCTGACGTCATGCTCTCCAGTGTGCAGGATTACCGGGCCGGCCTTCCCGGCCTTCAGGAACACATCTGGGGGGTCACCCTTGGGCGCGAGCTGCAGGTGTTCGTTACCCACCCGGCCAACTCCGACACCGGATCTTCTGCCCGCCCGAACGCCTGGGCAGGCCATCGGATTCTCCCTCGTGTACATCAGCATCGAAATGCGCTGATCCACCTGCAGAGGTTCACCACGACGGATCCAATCCGTTCCACACACCTGTGGCTTCCCCTGTCCCAAACGGATGAATACATCCAGCAGGGTGAATGGATCGCAGCACGCCGCGGCGAGGGCTATGTCGCTATCGCCACTCCCGGTGGCGTCCGCCCTGTCCTGGAAGGCGAGACAGCCTGGCAGGAGTGGCTCCCGGTGGAGGGAGGCGCCGCCTGGATTACCGTCGTCGGACGCAAACAGGCCGACGGCGACTTCCGGGCCTGGGTCAATTCGCTCGCATCCACCGAGGTGCAGTGGCACCCGCGCGGTGAAGCTGATCCCGGGGTCCGCTTCGCCAGGGAGAATGCAGCCGTCATGGAAGTGACTTTCGAAACCGCGTTCCTGCTGGACGGTACTCCCGTTGGCCTCGTCAATGGGGTCCCCGAGAATGAGCCGCACCTGGACAACCCGGCAGTCCATGCAGAGTTCGACGACGGCCGAATCGACGTCGCCTGGCGTGGAAAGACACTGGGTCTCGATGTCGCCGGTTCACTTTCCGCCCTCGCGGAGGCATACGCCGTGGAAGGCGTTTCAAGCGCCACCAAGCTGGTAGGGAGCATGTCCAATGGCCGGTGA	MSEIFMPTNRTTHTTDADGTVRDWLVSPVWASPCGDLEKFLPAEGEPWGDGRWVLTNGPDVGGLKERLAKAHPIDIGQHIEPPVEGGAVSWLAGGSTYKASWRRVRTGEDGFLDWSAFCFTPEYRYSLASTVLEIDQSDWRTIELHTTGPFVLWLNGEVVLQGGKVSYMEPEVHTARVRLPSRTTTVHLATWQVAFRECRQIARMRVTGLPVRVVIPSPGADEHAARLAQTVLAKIGSPSWAQDAAEATLLAPPGAALRVRVGENSPWQHITADAAGKATYRLDHATEEEQDEGGDVARTAGASMLSSGESIVEVGLDDERCPQTMRMRVAVLPPLSTESPTGDTAAWRNDVLRHVAGHGEGAIREPGVAGLLARYALDSQTTVQVEDLRSSLHRILTRGDCADFEVVSLLLAWHWIPEDRWSPELRKEVSVAITGMKYWITQPGLDAMCYFTENHQFVWHVAEALAGEAFPDSVFTVDGRTGSEHGAEARSRAAGWLTRKLRGGFSEFDSNAYLAIDSYALCALIELGEDQALITAARTLLDKVLVTLASNSWRGTHGAAHGRSYVHTLRSSRFEETSPILRLVAGVGTLNDAVLPVTALALAQKYTIPDVVRELAGNEPEEWWGRQVYRGELSFERDLLERPYRSDLRVWRTPDVMLSSVQDYRAGLPGLQEHIWGVTLGRELQVFVTHPANSDTGSSARPNAWAGHRILPRVHQHRNALIHLQRFTTTDPIRSTHLWLPLSQTDEYIQQGEWIAARRGEGYVAIATPGGVRPVLEGETAWQEWLPVEGGAAWITVVGRKQADGDFRAWVNSLASTEVQWHPRGEADPGVRFARENAAVMEVTFETAFLLDGTPVGLVNGVPENEPHLDNPAVHAEFDDGRIDVAWRGKTLGLDVAGSLSALAEAYAVEGVSSATKLVGSMSNGR				NA	NA	NA	NA	NA
D1-29_02310	1149	yesR	COG4225	Unsaturated rhamnogalacturonyl hydrolase YesR	ATGGCCGGTGAAGACACTTCCTCAGCTGAGCTCTCTGCTCCTCCTGTGCGTCCGTTGGAGCGGGCAGATCTGGTCACGGACCTTGATTCGATCGAGGCGGCACTGATTTCCCGGACGGCCAGCATGGGGGTGGAACGCTGGTTTTGGGGCGAAGGTGTGTGCCTGCTGGCAGCATGGCGGGCCGCGGCCGCGCGCGGAGCCGACATACCCGAACTGGTCACTGCCTTTACGCACAGGTTTCTGGCCAGCCCCCCGATCCTGGAACACGTTAATAACCTGGCACCGGGCGCCGCGGTGGCCGAGCTGTACCGCCGCGCCCCCGACCCTGCGATCAGGGCACTCCTGGAGGCTTGCCTGGAGTGGTATTTGCATGCCCCCGAAGCTACCCGCGCCCCGAACGGCGCGTTGGAACACTGGCCCGGCGGTGTGTGGGCTGACACCGTTTACATGGCCGGGGAGTTCCTCTTGCGCGCAGGGAACGTCCTGGACCGGCAGGACCTGGTTCAGGAGGCAGTAGACCAGTGGCTCGCGCACGCCGAACTGCTACAGGATTCGGATTCAGGTCTGTTCGTTCACGGTACGCACTCCGGCGCGCGCATCGACAGTTTCTGGGGCCGGGCCAACGCCTGGACTGCCCTGGCAGGGGCCGATCTTCTCGCCCTGGGAGGCACGGCCGAGCGGCTGGGAGAAGTGCGGGAACGTTTGGACCGCCAGCTGCAGACCCTCGCACAACTCCAGCCTGAGCACGGCGTCTGGGATGTTTTGGTTGACGGTCAGGTTGAGGTACGGGGCGTGCTCGAAACGTCCGCGGCCGCCGGAATCGGGGCAGCAATGCTGCGCGCCGATGCCCTCACAGCCGCCAGGGAAGCAACTTCAAAGCCGACGGCTGACCAAGCATCGCCGCGGTCAGCCCTGCGTGAGGCGGGGGAGCGGGCAGTCCGCGGTGCATTGGCATACGTCCATGAAGGCACCCTGACCCGGGTCAGCGCCGGAACCGTTCTGCAGCTCATTCCGTTCGGCTACTCAGTCATCAGGGACGACCGCATCCAGCCTTGGGGACAAGGCCTTGCGCTTGAGGCAATCGCCGCCTGGCGCGAGACGACAAAAAGCATGAATATGCCCGTGGGCCAACAGGGGGAAAACCTATGA	MAGEDTSSAELSAPPVRPLERADLVTDLDSIEAALISRTASMGVERWFWGEGVCLLAAWRAAAARGADIPELVTAFTHRFLASPPILEHVNNLAPGAAVAELYRRAPDPAIRALLEACLEWYLHAPEATRAPNGALEHWPGGVWADTVYMAGEFLLRAGNVLDRQDLVQEAVDQWLAHAELLQDSDSGLFVHGTHSGARIDSFWGRANAWTALAGADLLALGGTAERLGEVRERLDRQLQTLAQLQPEHGVWDVLVDGQVEVRGVLETSAAAGIGAAMLRADALTAAREATSKPTADQASPRSALREAGERAVRGALAYVHEGTLTRVSAGTVLQLIPFGYSVIRDDRIQPWGQGLALEAIAAWRETTKSMNMPVGQQGENL	PGPT0018255_1181	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018255-yteR|yesR-K15532	NA	NA
D1-29_02311	834	kduI_2		4-deoxy-L-threo-5-hexosulose-uronate ketol-isomerase	ATGATTACCACTAAATACGCCCACAGCCCGGGGCACGTTGCCACCATGACCAGCCGGCAACTGAGGGATGCCTTCCTCGGCGAGAATCTGTTTCGGCCGGGCGAGGTTCATGGCCTGTACAGCCACCACGATAGGATCCTGGCCCTGGGAATCGTGCCCCTGGCGGAGCCGCTTGGGCTGCCGGTTCCGGACCAGATCAGAGCCGAGCACCTGCTGCAGCGCCGGGAAGCGGGAGTGATTAACGTTGGTGGCCCGGGCGTGGTTTCGGCTGACGGCCAGGCGTACAAGTTGAGCCATACTTCCACCATGTACTTGGGGCGCGGCGCCTCGGAAGTATCCTTTGCTTCCTCAGATCCAACGGATCCGGCTGCGTTTTACGTCTTCACCGCAACATCGCATCAGGCCCTGCCCACGGCCCTTATCGAGCCCGAAATGATGAACGTCGTGGAGTTGGGATCGCAGGACGGCGCCAACCGGCGCACCCTTCACCAGTGCATCTACGAAGGCGGGACCCGGAGCTCCCAGATCGCCTTCGGATACACCAGGGTTCACGCCGGAAGCACGTGGAATACGATGCCGGCCCACACCCATGACCGGCGCACGGAGTCCTACCTCTACTTTGATCTGGCTCCCAAGGATCGGGTCTTCCACATCATGGGCGAACCCAACGAAACCCGCCACCTGATTGTCGCTGACCGCCAGCTCGTAGTTTCCCCCAGCTGGTCACTTCATTTCGGCTCCGGCACGGGACCCTACACCTTCGTGTGGGCAACCGCGGGCGAAAACACCACCTACAACGACATGGACAGTGTCGACGTCACGGACATGCTGTGA	MITTKYAHSPGHVATMTSRQLRDAFLGENLFRPGEVHGLYSHHDRILALGIVPLAEPLGLPVPDQIRAEHLLQRREAGVINVGGPGVVSADGQAYKLSHTSTMYLGRGASEVSFASSDPTDPAAFYVFTATSHQALPTALIEPEMMNVVELGSQDGANRRTLHQCIYEGGTRSSQIAFGYTRVHAGSTWNTMPAHTHDRRTESYLYFDLAPKDRVFHIMGEPNETRHLIVADRQLVVSPSWSLHFGSGTGPYTFVWATAGENTTYNDMDSVDVTDML	PGPT0018245_335	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018245-kduI-K01815	NA	NA
D1-29_02312	666	eda	COG0800	Putative KHG/KDPG aldolase	GTGAAAGCCGAAACCGAAGTCATATCCACCTTTGGAAAGTGGGGGGTGATTCCTGTCGTTGTCATTGACGATGCAGAGAATGCAGTGCCCTTGTTGACTGCGCTCAGCCAGGCCGGACTGCCCGTGGCTGAAATTACGTTCCGAACACCTGCAGGAGCAGAAGCCATTCGAACCGCCGTAGACGCCGGGCTCACTGAAGGACCGGCCCCTGTCCTCATCGGCGCCGGCACAGTGACCACCGTTGAGGAGGTGGACAAAGCGGTCGACGCCGGCGCTCAGTTCATCGTCTCGCCAGGGTTTAGCCGGAGCGTAGTGGAACGCTGCCAAGAACATGGTGTCCCGATAGTGCCGGGGGCTGTCACGGCAACAGAGATTCTGGCATGCCTGGAAATGGGTCTGCAGACAGTGAAGTTTTTCCCGGCATCAGTTTCGGGAGGTCCGGCCGCCGTCCAAGCACTGGTGGAGCCCTTCGGTTCCCTGCAGGTGATCCCTACCGGCGGAATAAACCCGGACAACCTCGCCACCTACCTGAACATACCGAATGTCATGGCAGCAGGCGGCAGTTGGATGGTGCCCCGGGCCGCAATCCAGTCCAAGGACTTCGCGCGGATCGGTTCACTCAGCGAACAAGCGGTTGCCCTTGCCACGGCAATCCGGCAGGACTGA	MKAETEVISTFGKWGVIPVVVIDDAENAVPLLTALSQAGLPVAEITFRTPAGAEAIRTAVDAGLTEGPAPVLIGAGTVTTVEEVDKAVDAGAQFIVSPGFSRSVVERCQEHGVPIVPGAVTATEILACLEMGLQTVKFFPASVSGGPAAVQALVEPFGSLQVIPTGGINPDNLATYLNIPNVMAAGGSWMVPRAAIQSKDFARIGSLSEQAVALATAIRQD	PGPT0002060_378	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
D1-29_02313	1032	kdgK_2		2-dehydro-3-deoxygluconokinase	ATGACCCCACCTACCTGGAACACCGGGCCGGATGCTGAAGCCCCAGCGGCCGCAAGGACAACGGTGCCACGCGAGCGTGCAACAGGCGCCCCCGAAGTTGTGACGATGGGCGAGTCCATGGCTCTTTTCAATCCGGAAACTGTCGGTCCGTTGCCACACGCCGGGTCCTTTACGCTGGGCATCGGCGGTGCGGAAAGCAACGTGGCCATTGCCCTCAAACGGCTGGACACCTCCGTGGCCTGGGTGGGCAGGCTCGGGGATGACACGCTCGGAAACCTGGTCCGCCGGGAACTCCTGGCTGAGGGAGTGGAAGTTGTCTGCGCCCGGGACGGCGGGGCCCCCACGGGGCTCATGATCAAGGAGCGCCGCACATCGTCCAGCACCAGGGTGTCTTACTACCGGGCTAACAGTGCGGGCTCACGGCTCTGTGTGGAGGACGTCCCCAGCGACCTCATTGCCGGGGCACGGCTGTTGCACCTGACAGGCATCACGCCCGCATTGTCCAGATCGGCAGCCGAAGCGGTGCAGTACGCCATCGACTGCGCAAAAGCTGCTGGTGTCAAGGTCTCCTTTGACCTTAACTACCGCGCGTCTCTGTGGTCCATGCAGGAGGCGAAATCCGCCTACGAGAATCTGATCAGTCAGGCAGACGTGGTTTTCGCAGGCGAAGAGGAGGCGGCGATCGTGGTGGACTGCGCCGAAAATCCTCTTCAGTTGGCCGAGCGGCTGGCCAAACTCGGCCCCACCGAAGTGGTGATCAAGCTGGGCGCGGCGGGATGTGCCGCTCTTGTCGATGGCATTGAATATCATCAGCCCGCAATCCAGGTTGACGCCATCGACACGGTAGGAGCCGGGGATGCATTCGTCGCTGGCTACCTGGCGGAATGGCTCCGTGACGAGAGTGTTTCCCAGCGCCTGCTCACCGCAGTCCGCACCGGGGCGTTTGCCTGCCTGGTGCCAGGTGACTGGGAAGGCATGCCCTACCGCAACGAACTTTCGCTGCTGGATGCCACCGAACCCGTAACCAGGTAA	MTPPTWNTGPDAEAPAAARTTVPRERATGAPEVVTMGESMALFNPETVGPLPHAGSFTLGIGGAESNVAIALKRLDTSVAWVGRLGDDTLGNLVRRELLAEGVEVVCARDGGAPTGLMIKERRTSSSTRVSYYRANSAGSRLCVEDVPSDLIAGARLLHLTGITPALSRSAAEAVQYAIDCAKAAGVKVSFDLNYRASLWSMQEAKSAYENLISQADVVFAGEEEAAIVVDCAENPLQLAERLAKLGPTEVVIKLGAAGCAALVDGIEYHQPAIQVDAIDTVGAGDAFVAGYLAEWLRDESVSQRLLTAVRTGAFACLVPGDWEGMPYRNELSLLDATEPVTR	PGPT0018060_1332	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
D1-29_02314	387	fosA		Glutathione transferase FosA	ATGACAGTCGCATTCAACCACACCATTGTTTATGCAACAGACAAGCGCCGTTCGGCGGAGTTCCTGGCCAACGTGCTCGGACTGCCGAAACCCCAAGCCATGTGGTCCTTCATGACAGTTAGCCTCGAGCACGGAGTGGCCCTCGACTTCGCCACCGCAGACCGGCCCATCTCTCCGCAGCACTACGCCTTCCTGGTCAGCGAGGAGGACTTCGACGCAATCTTCGCAAGGATCCAGGCCCAGGGCATCCCCTACTGGGCTGACCCGGGACGGTCCCGCCCGCAGCAGATCAACCACAACGACGGCGGACGTGGCGTCTACTTCGCGGATCCTGACGGGCATTTCCTCGAGGCGATCACCCGCCCGTACGGATCGGGCGCTGCCTGA	MTVAFNHTIVYATDKRRSAEFLANVLGLPKPQAMWSFMTVSLEHGVALDFATADRPISPQHYAFLVSEEDFDAIFARIQAQGIPYWADPGRSRPQQINHNDGGRGVYFADPDGHFLEAITRPYGSGAA	PGPT0002935_20	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
D1-29_02315	792	mshB		1D-myo-inositol 2-acetamido-2-deoxy-alpha-D-glucopyranoside deacetylase	ATGGACGAGCCACATTCACTGGCGGTTGTGGTTGCGCATCCGGACGATGATGCGTACGGCTGCGCGGGCTCGATTGCCCTGCATGAGAACGACCCTGGATTCCGCTTCTGCCTGGTGCTTGCGACCGACGGCGGGGCCGGGCAGATTGCGGAGGGCGTCCCCACTACGCCGCAGGAGCTGGGCGCATGGCGGCGACGGGAAAGTGCCAGTGCCTGGCAGGCCCACGGCACAATTCCGGACCGGCACGAATGGCTGGACTACGAGGACGGGCACGTCGCAGACGTGGGCTTCGAGGAGCTGGTCGGGAGGATTCTGGCCATCCTTCTCCAGGAACGTCCGCAGGTAGTGGTGACTTTCGGACCCGATGGGATCACAGGACACCGGGACCATATCGCGGTGGGCAGGGCTACCGATGAAGCCTTTACACGGGCACGTCAGGTACCGGGCCCTGGTTTGAAACGACTCGTCCACGGCGCCTTGCGCGCGTCCACCTTTGAACGCTGGAACCAGAGGCGGCAACAACAGGGCCTGGAGCCTTGGGACCCTGCCCGTGAGTACCACCTGCGCCCGGTTCCCGACGAATGGATCGACATTGAAGTGGACACCAGCAAGGTGGCGCACCGAATAGTCGCAGGCCTCATGGAGCACAAATCCCAGCGGCACGTCATCGTCGACCCGGGGGTGACTGAGCGCCGGTGGGCCAGAATTGTGTCCCGCGAATCGTCGGTCCTGGCGTGGCCGGCCAGGACGCCCGGCAGTCCACTGCTGACAGACCTGTTTGAAGGACTCTGA	MDEPHSLAVVVAHPDDDAYGCAGSIALHENDPGFRFCLVLATDGGAGQIAEGVPTTPQELGAWRRRESASAWQAHGTIPDRHEWLDYEDGHVADVGFEELVGRILAILLQERPQVVVTFGPDGITGHRDHIAVGRATDEAFTRARQVPGPGLKRLVHGALRASTFERWNQRRQQQGLEPWDPAREYHLRPVPDEWIDIEVDTSKVAHRIVAGLMEHKSQRHVIVDPGVTERRWARIVSRESSVLAWPARTPGSPLLTDLFEGL	PGPT0019575_56	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019575-bshB2-K22135	NA	NA
D1-29_02316	831			hypothetical protein	GTGACCCGTGACGAGGACATCCCTCCGCACTTCTACGGCCAGCTGATCGAGACGACGGCCCGGATTGTCGCGTGGAATGTCTGGGGGCTGTACGGACCATGGCAGGAACGTGAGGCTGCCATCATCACCACCTTGGCGAATGCACGCCCTGACATCGTCGTTCTGGCGGAATCGTGGGCACAAGCCGAAGACAGCCAGTGCGCCAGGCTGGCCGGCCCGCTCGGGTTGCCACACCATGCCTTCAGCGGCGTGCAGGCGCAGGAAGACGCCTCCGCACTGTCCGGCGTCGCGGTGATGTCACGTTGGCCAATCACCTCCCAGGCCAGCACATCGTTCGGGGGCATGCGTGCGCAGCACGCCAGGCTGTCCGGGCCACGCGGCCCGATCCAGGTGTGTGGCGTGGTGATGGACGCATGGTGGTTCGATCAAAGCCAGGAACGCCAGGAAGCAGTGAGGGGCCTGCTCACGTACCTGCACGCGTCCCAGGACGATCGAACGCCGCTGGTGGTCTGCGGAGATTTCAACGCAGATCCCGACAGTGACGAAATGCGCATGATGACGGGCCGTGCAGCGGCGCCCGTCCCCGGAATGGCCTTCTATGACGCTTGGGAAGTGGCCGGCCCGGGGGGTCAAGGCTGCACATGGTCCAACAGCAACCCGTGGGCCACCCAACTGCTCTGGCCGGACCGCCGGATCGACTACATCTTAACGGCGGCACCACGGCGCGGCGGAGCCGGCCATCCGCTCTCCGCTGCGCTGCTTGGCACCGGCCCGGCGCAAGGCACGTACGCGTCGGACCACTTCGCGGTACAGGCCGACGTCCGCTATTGA	MTRDEDIPPHFYGQLIETTARIVAWNVWGLYGPWQEREAAIITTLANARPDIVVLAESWAQAEDSQCARLAGPLGLPHHAFSGVQAQEDASALSGVAVMSRWPITSQASTSFGGMRAQHARLSGPRGPIQVCGVVMDAWWFDQSQERQEAVRGLLTYLHASQDDRTPLVVCGDFNADPDSDEMRMMTGRAAAPVPGMAFYDAWEVAGPGGQGCTWSNSNPWATQLLWPDRRIDYILTAAPRRGGAGHPLSAALLGTGPAQGTYASDHFAVQADVRY				NA	NA	NA	NA	NA
D1-29_02317	1869			hypothetical protein	ATGGGCCGTCGACGCGCAGCAACTGACCCGAGCTATCCGCGCTGGGTCTGGATCACCGCAGGGGCCACCGTGGCCCTCCTCATTGTGGGCGGCGCATTCCTGCTGCGAACGTTCATCTTTCCCCCCGGGCCGGGACTCGGCGGACCTTCAGCCGGTCCTGGCAACATACCTCCGGCCGGCGAGCCCTTGGCGCAGGACAGCCCCGCCGCCGTCGCCGGGGCCTCTCCCTGCATTCCCCTGAACATCCTCACCTCGCTCGAGAACGCGGAGATGGTCAGGTCCATGGCGGCAGATTATACGGCGAAGCCCCGCAGCGTGGACGGCAAATGCGTGACACCGGCCGTTACCCAGGAAAAGTCGGGGATCGCAGCCGGCAAGGTTGCCGGGCAGTTCCCCGGGGTTCCGGCCGGCGAGAGGCCGGCCATCTGGCTGCCCGACTCCTCCGCGTGGTTACGCATCGCAAAGGAAGGCGCCGGCGGAGGCACAGTCCCGGCGGAGGGAGCAAGTGTCGCGCGGAGTGCGGTAGTGGTGGCCATGCCCGAAACGATGGCCAGTGCCCTCGGCTGGGACAGCAAACCGCCGTCGTGGTCTGAGGTGTTCAGGATGGCCGAGGACCGGGACGTCTGGGAGCGCCTCGGCCATGGCGACTGGGGGAAGTTCAAGTTCGGCAAGGCCAGTCCGCTCGTCTCGACGTCAGGCCTGATGGCCCTTGCTGCTTCCTACGGTGCCGCCGGAGGCAGCCTTGGGGGTGTGGACGGCATGGACCTGGACGCATCGTCCCTGGTGGAGAAAGTGCGCGCCGTGGAAATTGGCACCAGCCACTACATGGCCACGCCCGAGCATTTCCTGTGGCACGCCAGGGAGGCAGACGACGCCGGGAAGGTCTCGGAATTCCTCTCGGCCGTGATCGTGGATGAGAAGTCCGTCTGGGACTACAACCGGGGAGTGGTCAGCGAGGACGGAATAACGAAGCAATCCGGTCCCCCGCCCAAGGAGCCCCTCCGTGCCATCTATCCCCAGGACGGCGTGCATGTTGCGGACAATCCGGCAGTAATACTCGACGGGGATTGGGTGGGGAGCCAGCAACGCCTGGCGGCCCAGGATTTCCTCAAGTTCGCAGTGACGGAACAGGGCCAAAACGTTGTGAAGGCCTCCGGCTACCGGACAGTCCAGGGCATGCTGGATGCCGCAGTGGCCGGAACCGGACGGTACGCTGAGGCGCTCCAGCCGCTGCCACTGCCCAAGGCGGAAGCGCTTGTTGCCATGCAGGACAGCTTCCCCGAGGTCCGAAAGCGGGCCAGGGCCCTGTTCCTGCTGGATGTCTCGGAGTCCATGGTGCAGGAACCCGGCCTGACCAAGCTGCAGCGGGCCAAGGATGCCGTCCGGAAGGCACTGGATCACTTCACGGGTGACGACGAGGTTGGGCTGGCCGCTTTCTCCCACGTGGGCGACGGCCCCTTGCAGCCTGGCATCGTCAGCCCGGTAGCGCCTTTCAAGACCAACAAGGAAGACCTCATCGCCAAGCTCAACGAGCTTCAGGCAGTGGACGCAACGCCTCTCTTCGAAGCGGTGAGCCGCTTCACTGGCGAACAGGCCAAGGACTACAAAGACACCTTCATCAACACCATCGTGCTTTTGAGTGACGGCAAAAACGACACCACCCACCCGGGAGACCTGAGTGGGCTCTCCGAACAGTTGAGCCATCAGAACCACTCGACGCCCGTCCTGGTCTTTACGCTCGCTTACGGGCCCGACGCCGACGTCCCCACGCTGCTGGAAATCGCCCAGGCCAGCGGGGCGCACTACTATGACGCCACCGATCCGAACAGGCTCGAAGAGGTGCTCGGCGAACTGGTGACCAGTTTCTAG	MGRRRAATDPSYPRWVWITAGATVALLIVGGAFLLRTFIFPPGPGLGGPSAGPGNIPPAGEPLAQDSPAAVAGASPCIPLNILTSLENAEMVRSMAADYTAKPRSVDGKCVTPAVTQEKSGIAAGKVAGQFPGVPAGERPAIWLPDSSAWLRIAKEGAGGGTVPAEGASVARSAVVVAMPETMASALGWDSKPPSWSEVFRMAEDRDVWERLGHGDWGKFKFGKASPLVSTSGLMALAASYGAAGGSLGGVDGMDLDASSLVEKVRAVEIGTSHYMATPEHFLWHAREADDAGKVSEFLSAVIVDEKSVWDYNRGVVSEDGITKQSGPPPKEPLRAIYPQDGVHVADNPAVILDGDWVGSQQRLAAQDFLKFAVTEQGQNVVKASGYRTVQGMLDAAVAGTGRYAEALQPLPLPKAEALVAMQDSFPEVRKRARALFLLDVSESMVQEPGLTKLQRAKDAVRKALDHFTGDDEVGLAAFSHVGDGPLQPGIVSPVAPFKTNKEDLIAKLNELQAVDATPLFEAVSRFTGEQAKDYKDTFINTIVLLSDGKNDTTHPGDLSGLSEQLSHQNHSTPVLVFTLAYGPDADVPTLLEIAQASGAHYYDATDPNRLEEVLGELVTSF	PGPT0014015_1204	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
D1-29_02318	1296	acdA_2	COG1960	Acyl-CoA dehydrogenase	ATGAGTATAAACAGCAAGGTGGACACCACCAGTACTACGGCGGGGCCCGGCTTGGGTGCCGCGCAACAGGCTCCAGCGGGACCGGCAATGTCCGGGCGGCTGTATGCGGTCTCGGATTTCTACGACGCCGAGGCTTTGCTCACCGCTGAGGAACGCCAGGTTTTGGCGCGGCTCCGGAACTTCCTCGACGAACAGGCCAAGCCGTTGCTGGCCGAGTACTGGGAGCGGGGCGAGTTCCCGGAGCAGCTGGCGCAGCCTTTGATCGATCTCGACATCATGGAGCCCGCGGACCTGACCGGCGCCGAAGGTGCAGAGCGTACCCCGGTGCGGGGGATTTACCATGGCTTCCGGGTCTTTGAACTCGCCCGCTCGGACGCATCGCTGGCCACCTGGTACACCGCCCAGGCCGGGCTCTTCCGCACAGCCATCCGCGTTGGCGCCTCCGAGGAACAGCAGCGCGAGTGGATGCCCCGGGTCATCGACTTCTCTCTCAAGGGCGTCTTCTCCCTGACCGAACCGGAGCACGGTTCGGACATCGCCGGCGGACTCTCCACGACGGCCCGTTTCGAAGCGGAGGCCGACGGCTGCAGTTGGGTTTTGGACGGTGCCAAACGCTGGATCGGGGGCGCGTCCACCGCTGACGTGCTGTGCGTGTTCGCCCGCGACATCATCGACGGTCAGGTCAAGGCGTTCCTCGTAGACCGGGCCGCGGCGGGGGTCACGCTGGAGAAGATCCACGGCAAGACCGCGCTGCGGATGATGCAGAACGCACACATCACCCTGGCCGGCGTCCGCGTTCCCGACGCCATGCGCCTGCAGAATGTGAACTCGTTCAAGGACGTCGCGGCCATGTTGCGGGCGATGCGCTCCGATGTTGCCTGGATCGCCACCGGGATCCAGGCCGGCGCGTTCGAGGCCGCACTGGCCTACGTGAAGGAACGCAGTCAGTTCGGCCGCAGCCTGGGTTCGTTTCAGCTGGTCCAGGAGAAACTGGCCCGGATGATAGGAAACATCACCGCCAGCCTGTCCTTGGTGGTCCGCCTGACCGAGCAGCAGGCCCGGGGCATCTACCGGGACCAGGACTCTGCCTTGGCCAAGATGCAAACCAGCCTGCTGATGCGTGAAACCGTGGCTCTGGCCCGTGAAGTAGTGGGCGGCAACGGCATCACGCTGGATACGGACGTAGCCCGTTTCCACGCGGACGCCGAGGCCGTCTACTCCTATGAGGGCACCCACGACATCAATGCCCTCGTCATCGGCCGCGCCCTGACAGGCGAGAGCGCCTTCACGCGCTGA	MSINSKVDTTSTTAGPGLGAAQQAPAGPAMSGRLYAVSDFYDAEALLTAEERQVLARLRNFLDEQAKPLLAEYWERGEFPEQLAQPLIDLDIMEPADLTGAEGAERTPVRGIYHGFRVFELARSDASLATWYTAQAGLFRTAIRVGASEEQQREWMPRVIDFSLKGVFSLTEPEHGSDIAGGLSTTARFEAEADGCSWVLDGAKRWIGGASTADVLCVFARDIIDGQVKAFLVDRAAAGVTLEKIHGKTALRMMQNAHITLAGVRVPDAMRLQNVNSFKDVAAMLRAMRSDVAWIATGIQAGAFEAALAYVKERSQFGRSLGSFQLVQEKLARMIGNITASLSLVVRLTEQQARGIYRDQDSALAKMQTSLLMRETVALAREVVGGNGITLDTDVARFHADAEAVYSYEGTHDINALVIGRALTGESAFTR	PGPT0021815_765	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
D1-29_02319	225			hypothetical protein	ATGAACAGCAAGGCTCTACTCACCAGTCAGCATTCCGACAGCCACTGGACCGCCAACGATGTGAGGGAAAAGCTTGGGCGGGGGCTGGAATCCGATCCGGGCCTGGCTGAATTCCTTGCCGCAGCCCCTGACATGGCACGCGCTCTCAAAGCCGTCCTGAACCTGGACCTTGGCGTCATTGCCGAGCGACTGGTGCGAGCTGAGATTGGCGCCATTCTGCACTAA	MNSKALLTSQHSDSHWTANDVREKLGRGLESDPGLAEFLAAAPDMARALKAVLNLDLGVIAERLVRAEIGAILH				NA	NA	NA	NA	NA
D1-29_02320	837	menH_4		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGCATCAGCGAATGACGGCAACCCCCGAAAGCGGGTACGCCCCCGTCAACGGCCTGCAGATGTACTACGAGCTGCATGGTGCCGGGGGCACACCGCTTTTGCTCCTGCACGGCGGGCTGTTCGATATCGAGCAGCAGTTTGGCGCATTAATCCCGGGCTTATCGGCCGGGCGCAGGGTCATCGCGGCCGACTTTCAGGGTCACGGCCGGACCAATGACATCGACCGTCCCCTGAACAGTCGCGACCTCGCATCCGATGTCACTGGTCTCCTTGAACACCTGGGTGTTCGCGAGGTCGATATATTCGGATTCAGCGTCGGCGGCGCGGTCGCGCTGCATCTGGCTGTCAACCGCCCTGAAATTGTCCGTAAGATCATCGTCTCCTCAGTGTCCTTCCGGCCCGACGGCGACCGGGGCGGGAACGCCGAAGCGGTTGCCGCCATGACCGTCGACATGATCGCCGGTACCCCCATGGAACAGCGCTATCTGGCGGTGTCGCCGCACCCCGACCGCGAGCACCTCCAGGGGTTGTTGGACAAGCTCGGACGCTACGACGCAGGCGCCACAGGGTGGAGTGACGACGAGATCCGCGGCATCGCCGCCCCGACACTGATCACCGTGGGCGATTGCGACATGGTCAAGCTCGAGCACGCGGTGCGGTTCCTTCAGCTGCGCGGGGGCGATGTAAACGGCGACTTTGAAGGTGTGCCCACTTCGCAGCTGGCAGTCTTTCCTGGCACAACACACTTCTTCGGGCTGGCGAGGACCGGCCTGGTGATGGATGTTGTCACAACCTTTCTGGACTCGCCCCCGCCTTCGGTGCAGCAGGACCGGTAA	MHQRMTATPESGYAPVNGLQMYYELHGAGGTPLLLLHGGLFDIEQQFGALIPGLSAGRRVIAADFQGHGRTNDIDRPLNSRDLASDVTGLLEHLGVREVDIFGFSVGGAVALHLAVNRPEIVRKIIVSSVSFRPDGDRGGNAEAVAAMTVDMIAGTPMEQRYLAVSPHPDREHLQGLLDKLGRYDAGATGWSDDEIRGIAAPTLITVGDCDMVKLEHAVRFLQLRGGDVNGDFEGVPTSQLAVFPGTTHFFGLARTGLVMDVVTTFLDSPPPSVQQDR				NA	NA	NA	NA	NA
D1-29_02321	1029	lacI_3	COG1609	Lactose operon repressor	ATGGTGCAGACAACAATCGAGGGCGGCAAGCCGAAAGCCCCCACCATTTACGATGTGGCAGGGTTAGCCGGCGTCTCCCACCAAACCGTCTCCCGGTATTTGAGGGACAAAACTAAACTTAGGCCCGCGACGTTGGCGCGGGTGGAAAAGGCCCTTGCAGACCTGAACTACACCCCGAACCTTGCAGCCCGCTCCCTGAGGTCCCGGGCGCTCTACCGTGTGGTGGTTGTGGTTCCGGAAGCTTCGCTGTACTTCCCTATTAGGATGCTCAATGGGGCAGCGGCCGCGGCCCATGCAGCCGGATATCGGGTGGACGTCGTGGCTATGGAGGGAACAGTTGAAGCCCGGGCACAGCAACTTCGCTCCCTGCTGTCGGGAGAGGACATCGCGGGGATCCTATCCTTTGTCCCGCTGCCGAAGTCTGCGGCGGCCTTCCCAAATGCCACCGTCCCCCTGGTAGTAGCGGGCGAGTACCAAAACAGGATGCGCGCCCGGGGCAGCATCGCCGACGGCACGGCGGCTGCGAAAATTGTCCAACATCTGGCAGCACTTGGCCACCGAAACTTCTTCCATGTCGCCGGGCCCGCCAACTACCCCTCAGCCCGCAACCGGAAGAGCGCTTACTTGCAGGCTACAGCGGAACTCGGCCTCACATCCCTGGGCGTCGCCGCCGGCGATTGGTCCCCTGCCTCCGGATATGCCGCCGGACAGAAGATTATTGAGCTCAAGGAAGTCACAGCCGTCTTCGCTGCCAATGACCAAATGGCGCTGGGTGTCATCCGTGCCCTCCATGAAAACGGCATAACCGTACCCGACGATATAAGCGTGTTCGGCTGGGACGACATGGCCGACTCGGCATTCGTCATCCCATCACTGTCAACAGTTCATATGGACCTGGAACGCCTTGGCGCGCGAAGCCTCAGAGAGCTGATCACACTCATCCAGGGCGGACAAGGGACGCCCGAAGCCCTAACGCTGGATCCCATGGAGCTCGTCCTGCGCGAGTCGACAGGGCCGGCGCGCCAGTAA	MVQTTIEGGKPKAPTIYDVAGLAGVSHQTVSRYLRDKTKLRPATLARVEKALADLNYTPNLAARSLRSRALYRVVVVVPEASLYFPIRMLNGAAAAAHAAGYRVDVVAMEGTVEARAQQLRSLLSGEDIAGILSFVPLPKSAAAFPNATVPLVVAGEYQNRMRARGSIADGTAAAKIVQHLAALGHRNFFHVAGPANYPSARNRKSAYLQATAELGLTSLGVAAGDWSPASGYAAGQKIIELKEVTAVFAANDQMALGVIRALHENGITVPDDISVFGWDDMADSAFVIPSLSTVHMDLERLGARSLRELITLIQGGQGTPEALTLDPMELVLRESTGPARQ	PGPT0021075_1708	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
D1-29_02322	735			hypothetical protein	ATGAAACAAGAACTGAATACATCGTTTCCGGGTGCCGTTGGCCTAAGCCGGCTGTCGGTCTATGACTGGGAATCAAGCGACGGTGTCTGCGGTGGATCTCCGCACATGCACACTGCCTCAACTGAGGCGTACCTTGTGCTTTCGGGCTCCGGCCGGGTCGAGACAATCCGGTCATCCGGGTACGAATCCTATGACCTCGCAGCCAACGACCTTTTATGGTTCAGCCCCGGAACCATCCATCGCCTGGTGAATGAGGACCACCTTGAAATCCTGGTGGTCATGCAGAACTCCGGATTGCCTGAAGCAGGGGATGCCGTACTCACGTTCGAAGCAGACATTGTTGCCAGCCCTGAACGTTACATGAAGGCAGCATCACTGATACCAGACGCGGGACTTGGTTCTGCCCAGGAAACGGCACGTATCAGGCGCGACGCAGCACTCGCCGGATACCAGAGGCTGAAGGAGGCCGCCATCGCGGGCCGGCATGACGCCGTCGAGCAGTTTCACCGTGATGCCGCCAATCTGGTCCAGTCCCGCATCCCCGAGTGGCAAGGCATTTGGGAACAGACCATTGCACCTGAAGCGGCCAGAACGGGGGCCTGGCTGAAGGAGCTCTCGGAGGGACGACTCGCTCATTTAGCCGAGGCGACTGTGGTCAGGTCGGAGGTTGGGGGGAACAAGATCTTTGGCATGTGCGGGATGCTGCAGAAGTGGGACACGGGGCAGTTGGTCTGA	MKQELNTSFPGAVGLSRLSVYDWESSDGVCGGSPHMHTASTEAYLVLSGSGRVETIRSSGYESYDLAANDLLWFSPGTIHRLVNEDHLEILVVMQNSGLPEAGDAVLTFEADIVASPERYMKAASLIPDAGLGSAQETARIRRDAALAGYQRLKEAAIAGRHDAVEQFHRDAANLVQSRIPEWQGIWEQTIAPEAARTGAWLKELSEGRLAHLAEATVVRSEVGGNKIFGMCGMLQKWDTGQLV				NA	NA	NA	NA	NA
D1-29_02323	942			hypothetical protein	ATGAACACGCCACCAGCTCTTACATGGCGCGATGACAACCAGTCCCTGACCGTTTCGCTCGGGGCCGTGGACATCGCCGCGTATACCTACGACGCCACTGACGAACAGCGGGAATCGCCGCGGCCGTACTTCCATCCGCTGCGCACCACAGCCGGGGAAACCGTCACCGCCTACCGGCCCTGGGACCACGTGTGGCACAAGGGCATCGCCTGGTCCCTGCCGCACTTTGGTGAGGATAACTTCTGGGGCGGTCCCAGCTACCGCCGCGACGAAGACTACAAATGGCTCCCGAACAATGGAAGCATGCGCCACGAACGCGTCATAGAGGCCGGGCTCGACGGCGGTGCGTTTCGTTTCGCACACGCGCTGAGTTGGTGGACGCAGTCAGGCATACACGTGGCCGATGAAGCCCGCAGCATCCGGATCCTCCCCGGGCCTGACGATAACGCCTGGACTCTTGTCTTCGAAACGGCCATGACCAACGTCTCAGGCCGCGACATCCACATCGGTTCCCCCACCACCGAGGGCCGCGAAAATGCTGGCTATGGGGGCCTGTTTTGGCGGGGTCCCCGCGAGTTCGCCGGTGGCCGGATCGTGGGACCTGACGGAGCAACCGGCGAAGCGCTTCGCGGCACCCGGGCGCCATGGCTCGCCTTCATTGGCCAGCACGATGACACCTGCCGCCACTCGACTATTCTGATCGCGGACGATAGCGGCAATGCGCAGCACCCGCCGGAGTGGTTCGCCCGATCCGAGCCCTTCGCATGCTTCGGACCGGCACCGTTCTTCAGCCAGGAAGTCCTGTTCGCGGCCGGAGGCACTATGACCAACCGCTACGCCGTGGTGATCGCTGACGGCAACTCGGACCAGGAGCGGCTGGACCACCTTTCTTCCTTAGCTCTGGATGCCCTGCAGCACCAGCTGATGACGGCAGGAGCATGA	MNTPPALTWRDDNQSLTVSLGAVDIAAYTYDATDEQRESPRPYFHPLRTTAGETVTAYRPWDHVWHKGIAWSLPHFGEDNFWGGPSYRRDEDYKWLPNNGSMRHERVIEAGLDGGAFRFAHALSWWTQSGIHVADEARSIRILPGPDDNAWTLVFETAMTNVSGRDIHIGSPTTEGRENAGYGGLFWRGPREFAGGRIVGPDGATGEALRGTRAPWLAFIGQHDDTCRHSTILIADDSGNAQHPPEWFARSEPFACFGPAPFFSQEVLFAAGGTMTNRYAVVIADGNSDQERLDHLSSLALDALQHQLMTAGA				NA	NA	NA	NA	NA
D1-29_02324	1113	iolG_10		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACTGACCTGAACCATCCCAATAGAATCCGAGTGGGCTTCATCGGCACCGGAGGGATAGCCAATGCCCATGCCGATGCACTGCGGCAGCAGCCAGGCGTGGAACTCACTGCCGCAATCGATCTCGACACATCACGTGCGGAGGCCTTCGCCAGCAAGTGGGGAATTGCCCGCACCGCGGCGAACCTCAGGAAGGCGGTCGACGCCGGCGGGCTGGATCTCGTAGCCATCTGCACCCCTCCGTCCAGCCATTTTCCACTCGCCCTCGAGGCGCTCACGCACGGCCTGCACGCGGTCATAGAAAAGCCCCCCACACTGTCCCTCAGCCAGATGCGCGAGTTGGAATCAGCTGAAGCTGCATCCGCCGGGACGCTCAGCTGCGTTTTCCAGCACCGCTTCGGCTCGGGTGCCCGGAAGCTGCATTCCCTGCAGTCATCCGGAGTACTCGGCAAGCCGCTCGTTGGCACCTGCAACACCCTGTGGTTCCGCGACCAGGCATACTTCGATGTCCCGTGGCGAGGCCTCTGGGACGTCGAAGGCGGCGGACCGACCATGGGCCACGGCATCCACCAGTTCGACCTGCTGCTGCACTTGTGGGGTCCATGGGCCGAGGTGTCGGCCTTTGCCGGCAAACTGGCACGCCGGACTGATACTGAGGACGCTTCTGCGGCGGTGGTCCGGTTCGAATCCGGTGCGATCGCCACCATCATCAATTCGGTGATTTCGCCGCGGGAAACCTCGTACATGCGGCTGGACTTCGAAAACGCCACCGTCGAACTCGAGCATCTCTACGGCTACGCCGACCACAACTGGACGGTAACGCCGGCACCCGGCCAGGACGCCGTCGTCGAACTCTGGGCCCAGGGTGACGACTACGCAAGCGGGCACTCGGCCCAGTATCAAACCATCGTCCGCAGCCTGCAGGGAGGCGAGGCTGTTCCGGTTTCCATCAGCGATGCCTACGGAACCATGGAACTGGCCGCCGCCATCTACGCGTCGAGCGTCAGCGGAACAACCATCGCCCGCGGCCAGATCGACGAATCGAGCCCCTTCTTCACCCGTATGGACGGCCACCTGGAACCCTGGAAACAAGAAGAGGAACTCAAGGCATGA	MTDLNHPNRIRVGFIGTGGIANAHADALRQQPGVELTAAIDLDTSRAEAFASKWGIARTAANLRKAVDAGGLDLVAICTPPSSHFPLALEALTHGLHAVIEKPPTLSLSQMRELESAEAASAGTLSCVFQHRFGSGARKLHSLQSSGVLGKPLVGTCNTLWFRDQAYFDVPWRGLWDVEGGGPTMGHGIHQFDLLLHLWGPWAEVSAFAGKLARRTDTEDASAAVVRFESGAIATIINSVISPRETSYMRLDFENATVELEHLYGYADHNWTVTPAPGQDAVVELWAQGDDYASGHSAQYQTIVRSLQGGEAVPVSISDAYGTMELAAAIYASSVSGTTIARGQIDESSPFFTRMDGHLEPWKQEEELKA				NA	NA	NA	NA	NA
D1-29_02325	1302	yesO_4	COG1653	Putative ABC transporter substrate-binding protein YesO	ATGAACAACCAACCATCCCGTCGGAACGTACTGCAACTGTCTGTTGGCATAGCTGCATCCGCGCTGATGCTCAGCGGCTGCGGCACGGCCGGCACCCCCGCTGCGGAAGAAACCGGACCTGTGACAATCCGCTTTACCTGGTGGGGCGGGGACGCACGCCAGAAGCTGACCCAGCAGGTTATCGACGCCTTCCATGCCGAAAACCCGAACATCACCGTCGTCGGGGAATATGCCGACTGGAGTGGCTACTGGGATAAGCTCGCCACCCAGGTCGCAGCCAACGATGCACCGGACATCATCCAGATGGATGAGAAGTATGTCCGCGAATACGGTGACCGCGGAGCCCTGCTGGACATTCACAAACTCAACGGACTGGATACCTCTGGCATTGCAGAGGACACTCTCAAGAGCGGTGAAGTGGATGGCAAACTCGTCGGTCTGGTGACAGGCGTGGCTAACTATTGCATCGCTGCCAATCCCGCAGTTCTGGAAAAGGCAGGGGTTGCCATGCCGAACGACAAGACGTGGACCTGGGAAGACTACAAGAAGCTCGGTCAAAAGATCAGCGAGAGTGGAACGGGAGCCACCGGCGTCGGCGTCTTCTACCAGGACCACGATCTGTACATCTGGGCACGGCAACAGGGCGACCGTCTTTATGACGACTCCGGCAAAGTGGTCATCAAGCCCGGGACGCTTGCCTCGTTCTGGACCAACCTCCTGGACCTGTCCAAGTCCGGAGCAGCCGGCAAGCCCTCTGCCATCATCGAAAACGCCACAGCATCAATCAACCAGAACGCCCTTGCCAAGAACCAGATGGGCTTCTCCGGCGTCTTCCAAACCCAGCTGACCGCTTACGAGTCCGCCAGCGGCCAACAGCTGAAGTTGCTCCGGCTTCCTGGCGAGTCACAGGCCAAGGAACGGGGTGCCTACTACAAGGCCTCCATGTTCTGGTCCGTGTCCTCCCGCACCAAACACCAGCAGGCAGCGGCCAAGTTCCTCAACTTCCTGACAACGAGCCAGACCGCCGGAGACATCATGCTCACCGAGCGCGGAATCCCAGCCAACACCAAGACCCGCGAGGCCATCACCCCTAAGTTGAAGCCTTCCGATAAAGCTGCGATTGACTTCACCAATGCAATTGCGGATGACGTACGGCCCGCTCCGCCCATCACGCCGGCCGGCGGTAGTGGCATCCAGGACCTCCTGGCCCGGTACACCTCCGACGTTCTCTTTGAGCGCATCACCCCCGAAAAGGCCGCCCAACCCTTCATCGACGAACTCTCGTCTTCACTGCGGAAGTAG	MNNQPSRRNVLQLSVGIAASALMLSGCGTAGTPAAEETGPVTIRFTWWGGDARQKLTQQVIDAFHAENPNITVVGEYADWSGYWDKLATQVAANDAPDIIQMDEKYVREYGDRGALLDIHKLNGLDTSGIAEDTLKSGEVDGKLVGLVTGVANYCIAANPAVLEKAGVAMPNDKTWTWEDYKKLGQKISESGTGATGVGVFYQDHDLYIWARQQGDRLYDDSGKVVIKPGTLASFWTNLLDLSKSGAAGKPSAIIENATASINQNALAKNQMGFSGVFQTQLTAYESASGQQLKLLRLPGESQAKERGAYYKASMFWSVSSRTKHQQAAAKFLNFLTTSQTAGDIMLTERGIPANTKTREAITPKLKPSDKAAIDFTNAIADDVRPAPPITPAGGSGIQDLLARYTSDVLFERITPEKAAQPFIDELSSSLRK	PGPT0016545_7308	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
D1-29_02326	927	araQ_9	COG0395	L-arabinose transport system permease protein AraQ	ATGACGACTGAAATCCAGCCCCAACACACCGCTTCCGCCATGGCGCAGCAGGGCACCGTGCCCGGCCCGGCGATGCCGTCACGGCCAAAAAGTCCCGCTGCAGCCAGGTACCGCCCGCTCCTGAAGCATCTGATCCTGATCATCTCCGCGATGCTGATGATCTATCCGCTGCTGTGGATGATTGCTTCCTCCCTTCGGCCCAATGACCTCATCTTCCGGGAACCAGGCCTGTGGCTGACCACGTTCGAGGCAGGCAACTACGCTGACGGGTGGAACGCCCTGGCGCAGCCGTTCTCCACCTACCTGTTCAACTCGGCGGCCGTGGTCCTTGGCTGCATCATCGGCAACCTGGTGTCCTGCTCGATGGCAGCATATGCCTTCGCCCGGCTGAACTTCAAAGGCAAGAAATGGCTCTTTGCAGCCATGCTGCTGACCATCATGTTGCCGTTCCATGTGGTGATCGTGCCCCAGTACATACTGTTCTCGCAGATCGGATGGGTTAACACCTTCTGGCCCATCATCGTGCCGAAACTTCTGGCAACCGACGCTTTCTTCGTCTTCCTCATGGTCCAGTTCATTCGCGGCATTCCCAAGGACCTTGACGAGGCAGCGCGGATCGACGGTGCCGGCCACGCCAGAATCTTCCTCCAGGTGATGCTGCCCCTGATGGTTCCGGCGCTGGCCACCACCACAATCTTCACCTTCATCTGGACCTGGAATGACTTCTTCAGCCAGCTGATCTACCTCACAGACCCCGACATGTTCACAGTTCCCGTGGCGCTACGGGCATTCATCGATGCGACCGCCTCGACCTCCTGGGGATCCATGTTCGCCATGTCCATAGTGTCCCTGCTCCCCGTTTTCATTGCCTTCCTGCTCGGCCAGAAGTTCCTGGTCAAGGGCATCGCCACCACCGGTATCAAATAA	MTTEIQPQHTASAMAQQGTVPGPAMPSRPKSPAAARYRPLLKHLILIISAMLMIYPLLWMIASSLRPNDLIFREPGLWLTTFEAGNYADGWNALAQPFSTYLFNSAAVVLGCIIGNLVSCSMAAYAFARLNFKGKKWLFAAMLLTIMLPFHVVIVPQYILFSQIGWVNTFWPIIVPKLLATDAFFVFLMVQFIRGIPKDLDEAARIDGAGHARIFLQVMLPLMVPALATTTIFTFIWTWNDFFSQLIYLTDPDMFTVPVALRAFIDATASTSWGSMFAMSIVSLLPVFIAFLLGQKFLVKGIATTGIK	PGPT0016540_1145	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
D1-29_02327	924	lacF_7		Lactose transport system permease protein LacF	ATGAGCGCACTGTCAGAGCTGAGCAAGCTCAAAGGCCAGGGGTCAAAGACGGAAGGCCGGGACACCAAGGCGGCCCTGGTGTTCCTGGCCCCGTGGCTGGTGGGCTTGGTGGGCATCACCGTTGGTCCCATGCTCATCTCGCTCTACCTGTCCTTCACTGATTACAACCTCCTTCAGGAGCCCACTTTCATCGGCTTCGAGAACTTCACCAGGATGTTTGAAGACGCCCGGCTGTGGAACTCACTGAGGGTCACATTCATCTACGTACTGGTGGGCGTCCCCCTGCAGCTCGCCGTTGCCCTCCTCATCGCGATGGTCTTGGACCGGGGCATTCGGGGCTTGCCGTTCTACCGTTCGGTGTTCTATTTGCCATCCCTCCTTGGTGGCTCAGTTGCGGTGGCCATCCTGTGGAAGCAGATATTCGGCACCACCGGCCTCGTTAACCAGTTCCTGACCCTTCTGGGCATAGAGGGTCCGGGTTGGATATCGGACCCGAGCACAGCACTGAGCACCATCATCCTGCTGCACATCTGGACCTTCGGCAGCCCCATGATTATTTTCCTGGCTGGCCTGCGTCAGATCCCGCATATGTACTACGAAGCCGCGCAGGTGGATGGTGCCAGCAAAGTGGTTCAGTTCTTCCGTATCACGCTCCCCCTGCTGAGCCCCATCATCTTCTTCAACCTTGTGCTCCAGATCGTTGGCGCCTTCCAGTCATTCACCCAGGCCTTCATCGTCTCCGGCGGCACCGGCGGACCGTCAGACTCCACCATGTTCTTCACCCTGTACCTGTACCAGAAGGGGTTTGGCCAGTTCGACATGGGTTATGCCTCGGCCATGGCCTGGGTTCTCCTGCTGATCATCGGCGTCCTCACCGCCATCAACTTCTACGCCTCAAAGTTCTGGGTGTTCTATGACGACTGA	MSALSELSKLKGQGSKTEGRDTKAALVFLAPWLVGLVGITVGPMLISLYLSFTDYNLLQEPTFIGFENFTRMFEDARLWNSLRVTFIYVLVGVPLQLAVALLIAMVLDRGIRGLPFYRSVFYLPSLLGGSVAVAILWKQIFGTTGLVNQFLTLLGIEGPGWISDPSTALSTIILLHIWTFGSPMIIFLAGLRQIPHMYYEAAQVDGASKVVQFFRITLPLLSPIIFFNLVLQIVGAFQSFTQAFIVSGGTGGPSDSTMFFTLYLYQKGFGQFDMGYASAMAWVLLLIIGVLTAINFYASKFWVFYDD	PGPT0016535_3140	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
D1-29_02328	1128	moaA_2		GTP 3',8-cyclase	ATGGCCGTTCAGCTGGGCATCCCGGTCCTGCGCCAGGGCAGCAACAACAACCACGGGTCCGCTCTCAAACCGCGCCCGATTGGACTCCCTGCCGGGCTCCTGGACCGTTTCGGGAGGCAGGCCACCGACATGCGCCTGTCCCTGACGGACAAATGCAACCTTCGCTGCACCTACTGCATGCCCGCCGACGGCCTTCAATGGCTGGCGAAGCAGGCCGTCATGACGGCCGGGGAGATCGTGCGGATCGTCCACCTGGGCGTGAACCGCCTGGGAGTCCGGGAGCTGCGCCTGACCGGCGGCGAACCCCTGGTCCGGGCCGATCTGGTGGACATCATCAGGTCCCTTCGCCAACAACATCCGGACCTGCCCATCTCCATGACAACCAATGCCGTGGGGTTGGACAAGAAGGCCGCTCAACTCAAACAGGCGGGCCTCACCCGCATCAACGTATCGCTGGACTCCCTGCATGCGGAGACCTTCGCGCAGCTGACCCGCCGCCCGTTCCTGGACCAGGTCCTGGCCGGTGTTGAGGCTGCCGATGCTGCTGGTCTTGGACCCATCAAACTCAATGCCGTGCTCATGCGCGGGATCAATGACACCGAATCCCCCAGCTTGTTGGCGTGGTCGCTGGAACGCGGCTACGAATTGCGCTTTATCGAACAGATGCCCCTCGACGCGGACCATGGCTGGACCCGTCAGGACATGATCACCGCGTCCGAGATCCGGGACCTCCTCGCCGATGACTTTGTGCTGTACCCGGACCCCAGGGAGCGTAGCGGCGCCCCCGCCGAACGATTCCAGGTCCAGCGGCGCGATCCCGCAACGGGCGAGCCCAGCGGCGCCGTGCTCGGTACTGTAGGCATCATTGCCTCTGTCACGGAACCGTTCTGCAGTGACTGCCGCCGGACCCGAATCACCGCCGACGGAAAGATCATGAGTTGCCTGTTCTCGCGCCAGGAATTCGATCTGTTGGGGCTGCTTCGCTCCGGAGCCGACGACGACGAGCTCACCACTCGCTGGCAGGACGCCATGTGGGCCAAGCCCAAGGCCCATGGGATGGACCACGCGGGATTGGAAGGGGACGACTTCGTCCAATCGGACCGCAGTATGAGCGCTATCGGGGGCTAA	MAVQLGIPVLRQGSNNNHGSALKPRPIGLPAGLLDRFGRQATDMRLSLTDKCNLRCTYCMPADGLQWLAKQAVMTAGEIVRIVHLGVNRLGVRELRLTGGEPLVRADLVDIIRSLRQQHPDLPISMTTNAVGLDKKAAQLKQAGLTRINVSLDSLHAETFAQLTRRPFLDQVLAGVEAADAAGLGPIKLNAVLMRGINDTESPSLLAWSLERGYELRFIEQMPLDADHGWTRQDMITASEIRDLLADDFVLYPDPRERSGAPAERFQVQRRDPATGEPSGAVLGTVGIIASVTEPFCSDCRRTRITADGKIMSCLFSRQEFDLLGLLRSGADDDELTTRWQDAMWAKPKAHGMDHAGLEGDDFVQSDRSMSAIGG	PGPT0008410_277	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
D1-29_02329	2106	betP	COG1292	Glycine betaine transporter BetP	GTGGCCGACGGCGACATCATGGTCGTCGAGCTCACGGAAGCCCCCAACCTTCCTCCCGGCCGGACAGTCAACGGCCACATCTCAAAATACGCAGTCCATGACTCCCAAGCAAAGGACGAAATCATGGCTATAAACAGTGACATCAAACCCCCCAAGAAACCTCCCGTCAGCGAAAGCGATGGGGAGGGCCTAAGAATCGGGGAGCTGGCTTCAGACGATGGGGTCGAAGCAGTTCTCCTCATTCCTGAGGGCGGAGCTGCCGGCACTTTGCCGGATTCAGAAGAATACGATCAGATCCTGGAAGAGCTGCGCTCCGCCAAAACCGAGCACGCCGTTTCGGCACGCCGGAATACCAAACTCACCCTCGATAAGGTCACCTTCGGGATTACGGGAGTCTTCGCCATAGCCTTCGTGGTTTGGGGATTCGTGGGCCGGGACAGCCTCTCCGCATCCTCGACGGGCGCCCTGAACTGGGTGATGGAATACACAGGATGGCTCTTTATGGTCCTGGCGTCCCTGTTCGTGGTGTTCGTCCTGTGGCTTGCCCTGGGCAAGTTCGGCAACATCCCGCTGGGCAAGGACGGCGAGAAGCCTGAATTCCGCACTATCTCCTGGGTGGCAATGATGTTCGCTGCAGGCATGGGCATCGGGCTGATGTTCTACGGCGTGGCCGAGCCGCTCTACCACTACATTTCGCCGCCGCCGGGAACCGTTGACGGCAGCACGCCGGCTGCCATCCAGACTGCCATGGCTACCTCAATCTTCCACTGGACGCTGCACCCCTGGGCGATGTACGCCGTGGTGGGCATCGCCATGGCCTACGGAACCTACCGCCTGGGCCGCAAACAGCTGATCTCCGCCGCGTTTACCTCCCTGTTCGGCATCCGCGTAGTTGAAGGTCCGGCCGGCAAATTTATCAACATCCTTGCCATTTTCGCGACGCTTTTCGGCACGGCGGCATCGCTGGGCCTTGGCGCCCTGCAGATCGGCAGCGGCATGACGTCCAACGGCTGGATGGGAGAAATCGGCACTCCGGTGCTCGTGGCCATTGTGGCCGTCCTGACAACGTGTTTCGTGGCCTCCGCCGTTTCCGGCATCAGCCGCGGAATCCAGTGGCTGTCCAACATCAACATGGTCCTGGCCGTCGTCCTGGCCCTGATCGTCTTCGTGGCAGGGCCCACGCTGTTCATTCTCAACCTGATTCCTGCCGCCGTCGGTGACTACGCCAGGGACCTGGCGGAAATGTCTTCCCGGACTGAAGCCGTGGGCGACGAGGCGCTGCGCAGCTGGATGTCCGGCTGGACCATCTTCTACTGGGCCTGGTGGGTGTCCTGGACGCCGTTCGTGGGCATGTTCATTGCCCGCATCAGCCGTGGACGCACCATCCGCCAGTTTGTCACCGGCGTGCTGCTGGTGCCCAGCGTCGTCAGCGTGATCTGGTTCGGCATCTTCGGCGGCACTGCCTTCCATGTGCAGCAGGAAGCCGACAAGGCCGGCACTCCCGGCCTGGTCACCATGGTCGACGGCGTCCCGACCGTTAGCTTCGACGGAGCGCTTTTCGACCTGGTCAAGAACCTGGGCATGCCCGCATGGGCCGTCGGCGCAGTCATCGTCCTGGCGATGGTCCTGGTGGGAATCTTCTTTATCACCGGCGCAGACGCGGCCTCCATCGTGATGGGATCGCTCAGCTCCAACGGCGCCGAGGAACCCCGCCGGGGAGTCGTCATCTTCTGGGGCACGCTCACCGGAGCCGTCGCGGCCGTTATGCTCCTGGCGGGCGGAGACGTACCCTCCGAAGCCCTGTCCGGGCTCCAACGCATCACCATCGTCGCTGCCCTTCCCTTCGTGATCGTGATGCTGCTGCTCTGCTTTGCCTTGGTCAAGGACCTCCGCCGTGACCCGCTGGCACTGCGGCAGCGGCTGGCCACCAATGTCATGGAACGTGCAATCCGTACCGGCGTGGAGCAACACGGCCTTGTCCAGTTCGACCTCGTGACAAGGCACGAATGCGCGGAAAAGTGCTCGGACTCGGACTGCATTGGCAGGACTCCCACGGGGAGCGTTCCGACCGTCGGTGCCAAGCATGCGGACCGGGACAGTAACTAG	MADGDIMVVELTEAPNLPPGRTVNGHISKYAVHDSQAKDEIMAINSDIKPPKKPPVSESDGEGLRIGELASDDGVEAVLLIPEGGAAGTLPDSEEYDQILEELRSAKTEHAVSARRNTKLTLDKVTFGITGVFAIAFVVWGFVGRDSLSASSTGALNWVMEYTGWLFMVLASLFVVFVLWLALGKFGNIPLGKDGEKPEFRTISWVAMMFAAGMGIGLMFYGVAEPLYHYISPPPGTVDGSTPAAIQTAMATSIFHWTLHPWAMYAVVGIAMAYGTYRLGRKQLISAAFTSLFGIRVVEGPAGKFINILAIFATLFGTAASLGLGALQIGSGMTSNGWMGEIGTPVLVAIVAVLTTCFVASAVSGISRGIQWLSNINMVLAVVLALIVFVAGPTLFILNLIPAAVGDYARDLAEMSSRTEAVGDEALRSWMSGWTIFYWAWWVSWTPFVGMFIARISRGRTIRQFVTGVLLVPSVVSVIWFGIFGGTAFHVQQEADKAGTPGLVTMVDGVPTVSFDGALFDLVKNLGMPAWAVGAVIVLAMVLVGIFFITGADAASIVMGSLSSNGAEEPRRGVVIFWGTLTGAVAAVMLLAGGDVPSEALSGLQRITIVAALPFVIVMLLLCFALVKDLRRDPLALRQRLATNVMERAIRTGVEQHGLVQFDLVTRHECAEKCSDSDCIGRTPTGSVPTVGAKHADRDSN	PGPT0013600_324	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
D1-29_02330	804	kdgR_3	COG1414	Transcriptional regulator KdgR	ATGGCCACAAATGACCCTGACGCCCCAAAGGGTGCCAACGGGCAGGCCGGGGGCGTGCAGTCCGTTGACCGCGCCCTGCAGATCCTCGAGATCCTCTCCCGGGACGGACACGCGGGTGTCAGCGACATCGCGGAGGAAATGGGCGTTCACAAGTCCACCGTTTTCCGGCTGCTCGAATCACTGGTCGGCCCTGAGATGGTCCAGCAGAACACCGGACGTGGCAAGTATCAGCTGGGCTTTGGCATACTTCGCCTCGCCGCCTCAATCCCGGCGCGCCTCAGCCTGGTGCGGGAGGCCAGGCCAATCCTGGAGGACCTGGCGCAGCAGAGCAAGGAAACCGTTAACCTGGCAGTCCTGCGATCGGGCTATGCCGTCAATGTCGACCAGGCCCTGGGACCCTCCAGCCTCGCCACATACGACTGGGTGGGTGGACTGACCCCACTCCATGCCACGTCCAGTGGCAAGGTTTTTTTGGCCGCACTGCCGGCTGATGAGCGCCGGCGGATCCTGGATGAGGTCGGACTCTCTGCCCGGACGCCGTGCACCATCACGGACCGGGGCGTTCTGGAAAAGCAGCTGCTCGACGTAGCCCGCAACGGATATGCGGAGACACGAGAGGAACTCGAGATCGGCCTGAATGCGATCGCCGTCCCCGTGTTTAACCACGTTGGCGCAGTCATCGGATCAGTAAGCATTTCGGGACCGGCGTTCCGCTTCGACACCGAAAAACAGCCGGGGCTCATCGCGTCCCTCCGTGAGGCCGGACTGCAGATCAGCACGAAAATGGGCTACACGCAAAGGTAA	MATNDPDAPKGANGQAGGVQSVDRALQILEILSRDGHAGVSDIAEEMGVHKSTVFRLLESLVGPEMVQQNTGRGKYQLGFGILRLAASIPARLSLVREARPILEDLAQQSKETVNLAVLRSGYAVNVDQALGPSSLATYDWVGGLTPLHATSSGKVFLAALPADERRRILDEVGLSARTPCTITDRGVLEKQLLDVARNGYAETREELEIGLNAIAVPVFNHVGAVIGSVSISGPAFRFDTEKQPGLIASLREAGLQISTKMGYTQR	PGPT0018213_119	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
D1-29_02331	882	fdhD_2	COG1526	Sulfur carrier protein FdhD	ATGGCACGCATGACGCAGCGCCGCAAAATCCATCGCTTCCACCTGGACGGTTCCGGCACCGAATACCCGGTCCGGTTCAAGGAAGACGTACTCGCCGCCGAGGAGCCCCTGGAAATCCGTATCGGCGGCCGGTCTTTCGCGGTTACCATGAGGACCCCTGGGGACGACTTTGACCTGGTGGCGGGGTTCCTGGTCTCAGAAGGCATCATCAGCTCCCACTCCGAGCTGGTATCGATGCGCTTTTGCGCCGGAGATGCCGGCGGAGAACAAACATACAACGTCATCGAGACCCAGCTGGCGCCGGATGTGGCCATGCCTGACACGATGCGGCATGTCTACACGTCAAGCTCCTGCGGCATCTGCGGGACAGACTCAATCGAATCCGTCCGCAAGACCCTTCGCTTCGATCCTGCCCAGGACCCGCTGCGGATTCCTGTGGATGTCCTGGCCGAACTCCCGGAGCGGCTCCGCGAGGCCCAGGCAGTGTTCGACAAGACGGGCGGCGTCCATGCTGCAGGCCTGTTCAGAGTGGACGGCGCCAGCCCGGAGCTCCTCTGTCTCCGGGAGGATGTTGGACGCCATAATGCGGTGGACAAGGTTGTTGGTTGGGCGCTGCGCCAAAACCTGTTGCCATTGAGCGGCACCGTCCTCCAGGTTTCGGGGCGCGCTTCCTTCGAGCTTGTCCAGAAGGCCGCCATGGCCGGCATCCCCGTCCTGTCTGCCGTCAGCGCGCCCTCAAGCCTGGCCGCCGACCTCGCCGTGGAGACCGGAGTGACCCTGGTTGGATTCAGCCGTGGACACAGCCTGAATGTCTACGCGGGACGGGAACGGCTGGGCCGCCCGCAAAAGGGCGGCCAGGAGGAGGCCTATGCACGGCTCTAA	MARMTQRRKIHRFHLDGSGTEYPVRFKEDVLAAEEPLEIRIGGRSFAVTMRTPGDDFDLVAGFLVSEGIISSHSELVSMRFCAGDAGGEQTYNVIETQLAPDVAMPDTMRHVYTSSSCGICGTDSIESVRKTLRFDPAQDPLRIPVDVLAELPERLREAQAVFDKTGGVHAAGLFRVDGASPELLCLREDVGRHNAVDKVVGWALRQNLLPLSGTVLQVSGRASFELVQKAAMAGIPVLSAVSAPSSLAADLAVETGVTLVGFSRGHSLNVYAGRERLGRPQKGGQEEAYARL				NA	NA	NA	NA	NA
D1-29_02332	1317			hypothetical protein	TTGCTCGCCAAAGACATCACCATGAGCGGTGGCACCTTGGAATTCTCCCCGGCTTGGAGCCCTTCCGGACAAGCCTCCCCCACATGGGCCGAAGCCCGCGAGCTGGCTTTCGATTGCGCTGTGCCACTCCCGCCGGTGGATGTTCCCCTCCCATCAGCAGTCGGCCACACCCTGACCCGCGATGTCGCCGCCCTGCAAGAACTCCCCCATTACCAGTCCTCCGCAATGGACGGCTGGGCCGTCAGCGGTTGCGGTCCCTGGCTCCTTACCGACGATGAGCACTTCCTGCCACCCGGGCGGGCCAGGGTCATAGCCACCGGCGGACTGGTGCCTGCCGGCGCCACATCGGTACTCCGCAAGGAAAGCGGAGCTGTCCACCAGAACGCTGAGGGCGGCCTTCTCCTGCAGGAAACCGAGAGTGCAGAACATGGCGGGTCGGGCCGCGGCCGGCATATTCGTCCCGCCGGGGAAGAAGCTGCGGCCGGTGAAGTGCTGATCCCCGCCGGCACAAGACTGAACCCTGGCCACATTGCGCTTGCCGCCGTGGCCGGGCATGACACGCTGCAGGTGCAGCGCAAGCCGGTGGTCGGCGTCGTACTGACCGGTTCCGAAGTAGTTACGGCGGGCGTTCCGGAACCAGGACGCGTCAGGGACACCTTTGGTCCCCAGCTGGGAACGGTCATTTCCCTTCTGGGCGGAACATCCGCCGGGTCGCTGCGGATCGGGGATTCCTACCACGAATGGCTGGCGGCACTAGATGGTTCTGGATCGTTCCTCGGACCCCTGCCGGACGTGACCATAACCACTGGCGGAACCGGGTGTTCCGGGACAGATCATTTCCGCGGTGCCATCGCCGCTCTCGGCGGACAGTTGCTGCTGGACGGCATCGCCATGCGGCCCGGCCACCCGGCTGTCCTGGCCGTGCTCCCGGACGGCCGTTTCGTCGTCGGGCTGCCCGGTAACCCCTTGGCAGCAATGATGGCCCTCATCACCATTGGTGCGCCGCTGCTGGAGGCACTCGGAGGACGGTCCCTGGGCGCTGTCGGGCAGGTGACATCGGCCGCTGACGTTGATCCCTCGCCCGGCCGGACCCGCCTGATTCCCTGCAGGTTCATCGAGGGCCTGGCCTTCCCCGCCCCGCATACCGGGCCCGGCATGGTCCGGGGGCTTGCCTGGGCAGATGGTGTCATGGCGGTTCCCCCTGCCGGGGTTCTGTCCGGCGAGCCGGTTCCTGTGCTCCCCCTCCCCTGGACGCAGTCCAACGAGACGATCCCGTCCGCCACCAACCACCTACGGAGCACCACATGGCACGCATGA	MLAKDITMSGGTLEFSPAWSPSGQASPTWAEARELAFDCAVPLPPVDVPLPSAVGHTLTRDVAALQELPHYQSSAMDGWAVSGCGPWLLTDDEHFLPPGRARVIATGGLVPAGATSVLRKESGAVHQNAEGGLLLQETESAEHGGSGRGRHIRPAGEEAAAGEVLIPAGTRLNPGHIALAAVAGHDTLQVQRKPVVGVVLTGSEVVTAGVPEPGRVRDTFGPQLGTVISLLGGTSAGSLRIGDSYHEWLAALDGSGSFLGPLPDVTITTGGTGCSGTDHFRGAIAALGGQLLLDGIAMRPGHPAVLAVLPDGRFVVGLPGNPLAAMMALITIGAPLLEALGGRSLGAVGQVTSAADVDPSPGRTRLIPCRFIEGLAFPAPHTGPGMVRGLAWADGVMAVPPAGVLSGEPVPVLPLPWTQSNETIPSATNHLRSTTWHA	PGPT0008430_1383	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
D1-29_02333	1218	fdhA		Glutathione-independent formaldehyde dehydrogenase	ATGTCAGGAAACAGAGCAGTCGCCTACAAAGAACCCGGTGTCGTCGAAATCATCAATACCGACTACCCGACGTTCGAACTCAAGGACGGGCCCGGCGTCAATCCGGAGAATGTGGGCCGGAAAGTGCCCCACGGTGCGATCCTGCGCACGGTGACCACCAACATCTGCGGTTCGGACCAGCACATGGTGAGGGGCCGGACCACCGCTCCCAAGGACCTCGTCCTCGGCCATGAAATCACCGGCGAAGTGGTGGAAGTCGGACCGGACGTTGAGTTCATCAAGGTGGGCGACATCGTCTCCGTACCGTTCAACATCTCCTGTGGTCGCTGCCGGAACTGCAAGGAGCGCAAGACGGGCATCTGCCTGAACGTTAATCCGGACCGCCCGGGGAGCGCTTACGGTTATGTGGACATGGGCGGCTGGGTGGGTGGCCAGGCAGAATTCGTGCTGGTCCCCTACGCTGACTGGAACCTGCTCAGGTTCCCGGACCGCGACCAGGCCCTGGAAAAGATCATGGACCTGACCATGCTTTCCGATATCTTCCCCACTGGCTTCCACGGAGCAGTGACCGCTGGAGTCGGTGTCGGCTCCACTGTCTACATCGCCGGGGCAGGACCTGTCGGCCTGGCGGCTGCCGTCGGTGCACAGCTGCTGGGCGCCGCGGTGGTCATTGTCGGTGACATGAACGAAGACCGCCTGGCCCAGGCCAAGTCCTTCGGTTGTGAAACAGTGAACGTGTCCCAGGGCGATCCGAAGGACCAGATTGAGCAGATCCTTGGTGTGCCGGAAGTGGACTGTGGCGTGGACGCCGTCGGTTTTGAAGCCCGCGGACACGGCAAGGACGCCTCGCACGAGGCGCCGGCCACTGTGCTGAACTCCCTCATGGACATCACCGCCGCAGGTGGCGCCCTGGGCATCCCGGGACTGTATGTGACCGGGGACCCCGGGGGAATCGACAAGGCAGCCCAGCACGGATCCCTCTCCCTTTCGCTGGGCACCGGATGGGCAAAATCCTTGTCCTTCACCACTGGACAGTGCCCTGTGATGAATTACAACCGCCAATTGATGATGGCCATCCTGCATGACAAGGTGCAGATCGCCAAGGCAGTGAACGCCAAGGCCATCCCGCTAGAAGATGCGCCGCGCGGCTACGCCGAATTCGACGCCGGTTCGGCAACAAAGTTCGTCCTGAACCCGAATGGATACGTCAAGGCGTAG	MSGNRAVAYKEPGVVEIINTDYPTFELKDGPGVNPENVGRKVPHGAILRTVTTNICGSDQHMVRGRTTAPKDLVLGHEITGEVVEVGPDVEFIKVGDIVSVPFNISCGRCRNCKERKTGICLNVNPDRPGSAYGYVDMGGWVGGQAEFVLVPYADWNLLRFPDRDQALEKIMDLTMLSDIFPTGFHGAVTAGVGVGSTVYIAGAGPVGLAAAVGAQLLGAAVVIVGDMNEDRLAQAKSFGCETVNVSQGDPKDQIEQILGVPEVDCGVDAVGFEARGHGKDASHEAPATVLNSLMDITAAGGALGIPGLYVTGDPGGIDKAAQHGSLSLSLGTGWAKSLSFTTGQCPVMNYNRQLMMAILHDKVQIAKAVNAKAIPLEDAPRGYAEFDAGSATKFVLNPNGYVKA	PGPT0002115_108	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROMETHANE_DEGRADATION,PGPT0002115-fdhA-K00148	NA	NA
D1-29_02334	672	rspR_2	COG1802	HTH-type transcriptional repressor RspR	TTGGGCACAGCAGGCTCTTATCTGTCGGAGAGGCTGGAGGACGAGTCCTTCGCCGACTTTGCCTACAGGGCGCTTTGCGATGAGCTGATCCTCCTGGACATCAAGCCTGGCGAGCCACTGAACGACGACGTGATTTCCCGGCGGCTCGGAGTGGGAAGGACCCCCATCCGCGAAGCCATGAAGCGCCTTGAAAGTGACCATCTGGTGGTAGCATATCCCCGCCGCGGAACGTTCGCGGCAGGGGTGGACATCACCGATTTGGCGGAAATCTCCGAAATCCGGCAGCTTCTGGAACCTGCTGCAGCAGCGCGGGCGGCCCGGATGGCGTCGCCGCAACTGCGGCAGGAGATCAAGGAATTCGCCAAGGAGGTGGGGGAGCTCCTGCCGCAGTTGCACTCCCAGCGGGACCTTATGCGCCTGGATATGCGCGTACACCGGATGATCTACCGGGCCACAGGAAGCAGGCACCTTGAAGATGTCCTCATCCGGTACGACAATCTGGCAACGCGTATCTGGAGCCTTGTGCTGGAGAAACTGCCTCCAGTCTCTGAGCATATTGCCCAGCACATTGAGCTTCTTGAATGCATTGCGGATGGAGATTCCGACGCTGCTGCCCGGCTGACCAGCAAGCACGTGGCGGACTTCGAGAACCTGATCAGGGCCGTCCTGTAG	MGTAGSYLSERLEDESFADFAYRALCDELILLDIKPGEPLNDDVISRRLGVGRTPIREAMKRLESDHLVVAYPRRGTFAAGVDITDLAEISEIRQLLEPAAAARAARMASPQLRQEIKEFAKEVGELLPQLHSQRDLMRLDMRVHRMIYRATGSRHLEDVLIRYDNLATRIWSLVLEKLPPVSEHIAQHIELLECIADGDSDAAARLTSKHVADFENLIRAVL				NA	NA	NA	NA	NA
D1-29_02335	876	folD_2		Bifunctional protein FolD protein	TTGAGCACGACACTTCTCTCCGGACGGGCACTGGCCGGGCTAACGCAGCAAAAGGCCTCCGACGCCGCCAGGGCTCTCGAAATCGATGGCCTCCGCCCTACGCTTGCCGTGGTTGTGGCCACCGACGACGGCTCCACACACTGGTACGTGCGGTCCATCGAACGGGCCGCGGAAAGCGCCGGCATCATGTGCCGCATTGTGGACCTTGGCCATGATGCGACAGGACAGGTGTTGGCCTCTGTTCTGAAAGATCTCAGCGCCGAGCCATCGGTAAACGGCATCATCCTCCAGACACCGCTGCCTCCCGGCGTGGATGCAGATGCATTGGTTGGACACATCGCACCTGAAAAGGACATCGACGGCGCGAATCCACTGAGCCTGGGCCGGCTTGCAGTCGGCCAGCCATCGTTCGCCCCCGCAACGGCCCGGGCCGTAGTCGAGATCCTTGATCACTTCGACATCCCGGTGGCGGGCCGGAACGTCGTGGTGATTGGACGTTCAGCCGTTGTGGGAAAGCCGCTCTCCCTGCTGCTCATGGAACGTGATGCCGCGGTCACGGTCTGCCATTCGAGGTCGGGGCCGTTGGAGAAATACACCAGGACGGCCGACGTCGTGGTTGTCGCGGCCGGGCGCATCGGCCTGCTGACCGGCAGCCATATTTCGTCCGAGGCCGTAGTGATTGACGTCGGCACCAACGTCCTTTCCGACGGTTCGCTTGTGGGGGACGTGGACCAAGCCAGCGTTCGGGGCGTCGCGGCGGCACTGACACCAGTACCGGGCGGCGTTGGGTCGGTCACCACGTCCCTGCTTCTCCTGCACACCGTCGAGGCCGCGCGGGAACAGTCGCGGGCCTTGCTTACGGCAACGGCTGGGTAA	MSTTLLSGRALAGLTQQKASDAARALEIDGLRPTLAVVVATDDGSTHWYVRSIERAAESAGIMCRIVDLGHDATGQVLASVLKDLSAEPSVNGIILQTPLPPGVDADALVGHIAPEKDIDGANPLSLGRLAVGQPSFAPATARAVVEILDHFDIPVAGRNVVVIGRSAVVGKPLSLLLMERDAAVTVCHSRSGPLEKYTRTADVVVVAAGRIGLLTGSHISSEAVVIDVGTNVLSDGSLVGDVDQASVRGVAAALTPVPGGVGSVTTSLLLLHTVEAAREQSRALLTATAG	PGPT0008075_1971	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491	NA	NA
D1-29_02336	627	fchA	COG3404	Methenyltetrahydrofolate cyclohydrolase	ATGATCAGTTCAGAAACAATAGAGGGCTACCTCACCAGACTTTCCTCGCGCGAACCCACCCCAGGCGGCGGCGCAGCCGCAGCGCTCCACGCCGCCCAGGGGGCGGCACTGGTTTCCATGGTGGCCAGGTACTCCACCGGCACGAAGTACGAGCAGCACGCCGAACTCGTGACCAGGGTCATCGCCTCCGCCGACCAACTGGTGGTAGAGGCCTTGCGCCTCGCAGACGCGGACCAGCATGCGTTCCAGGGCGTCATCGATGCGTACAAACTTCCTGCCGGCACTGACCAACTCAAGGCCGCACGAACAGCATCCATCCAGGACGCGCTGATCCTGGCCGCCACTACGCCGGCACAGCTCATCCTTCTTGCCGGCGCCGTCGTGGATCTTGCCACCGAACTTTTCGAGGTGGCCAATGCCAACGTGATCAGTGACGTCGCCGCCGCCGTCGACGCAGCCCGGGCAGCCGCCACCACTGCACGGGTGAACATCGACATCAATGTGGTTGCCATCAAGGACACCGAAGCCCGCTCCCGGCTGGCTGTCCAGACTGACGGCCTTGAGGAAAAGGTCATCCTGGCAGCCGACTCACTCGCCAAGCGGGTTCGGGAAAGGATCCTCAGTTGA	MISSETIEGYLTRLSSREPTPGGGAAAALHAAQGAALVSMVARYSTGTKYEQHAELVTRVIASADQLVVEALRLADADQHAFQGVIDAYKLPAGTDQLKAARTASIQDALILAATTPAQLILLAGAVVDLATELFEVANANVISDVAAAVDAARAAATTARVNIDINVVAIKDTEARSRLAVQTDGLEEKVILAADSLAKRVRERILS	PGPT0008080_307	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008080-fchA-K01500	NA	NA
D1-29_02337	2493	dmg		Dimethylglycine oxidase	ATGGCATCAACGCCAAGCATTGTCATTATTGGAGCTGGAATCGTCGGCACGAACCTTGCCGATGAACTGGTCGCACGGGGCTGGAACAACATCACTGTCCTGGACCAGGGCCCCCTCAACATGCCCGGTGGCTCCACGTCCCACGCCCCCGGCCTTGTCTTCCAGACCAACCCTTCAAAGTCCATGGCGCTCTTCGCCAAGTACACCGTGGAAAAGCTTTTGTCCCTCACCGAGGACGGCGTGAGCTGCTTCAACCAGGTCGGCGGGTTGGAAGTTGCCACCACCGAGACCCGCCTCACGGACCTCAAGCGGAAGCTCGGCTATGCCGCCGCATGGGGCATCGAAGGCAAGATCCTCTCCCGCGCCGAGTGCAAGGAGCTCTACCCGCTCCTGAACGAGGAAGACATCCTTGGCGGGCTCCACGTTCCCAGCGACGGCCTGGCCCGCGCTGCCCGCGCGGTCCAGCTGCTGATCAAGCGGACCGAAGCCGCAGGCGTCAAGTACCTGGGCAACACCACGGTGACGGGTATTGAACAGTCGGGCCACCGGGTCACCGGTGTCCAGACCTCCGAAGGCACCATCCCCGCCGACATCGTGGTCTCCTGCGCCGGATTCTGGGGCGCCAAGATTGGCGAGATGATCGGGATGTCCGTCCCGCTCCTGCCATTGGCGCACCAGTACGTCAAGACCACTCCCGTGCCGGCGCAGAAGGGCCGCAACGAACTGCCCAACGACGCCTCCCTGCCGATCCTGCGGCACCAGGACCAGGACCTCTATTACCGCGAGCACGGTGACCGCTACGGCATCGGTTCCTACGCGCACCGCCCCATGCCCGTGGACCTTGATGAACTGGGCTCCTACGACCCCAACAGCATCACCGAGCACAACATGCCTTCCCGCCTCGACTTCACGCTGGAGGACTTCCTCCCGGCGTGGGAGGCCACCAAGCAGCTGCTGCCGGCCCTGCGCGAAAGCGAGATTGAGGACGGCTTCAACGGCATCTTCTCCTTCACCCCGGACGGCGGCGCCCTGGTGGGTGAGTCCAAGGAGCTTGATGGCTTCTTCGTGGCCGAAGCCGTGTGGGTCACACACTCGGCCGGCATCGCCCGCGCTGTCGCGGAGCTCCTGACCACCGGCAAGTCGCAGATCGACCTTGGAGAATGCGACATCCACCGCTTCGAAGAGGTCCAGCTGACTCCCGAATACGTCAGCGAAACGTCCCAGCAGAACTTCGTGGAAATCTACGACGTCCTGCACCCGCTGCAGCCGAAGCTCTCGCCCCGGAACCTTCGCGTCAGCCCGTTCCACGCCCGCCATAAGCAGCTGGGCGGCTTCTTCCTGGAGGGCGGCGGATGGGAGCGCCCCTACTGGTTCGAAGCCAACGCCGAACTGCTCAAGGAGATGCCTGACGAATGGCAGCCGCCGGCACGTGACGCCTGGTCCGGGATGTTCAGCTCCCCCATCGCCGCCGCCGAAGCCTGGAAGACCCGCACCGCTGTGGCCATGTACGACATGACTCCGCTCAAGCGCCTTGAGGTCTCCGGCCCCGGAGCCATGAAGCTGCTGCAGGAGCTGACCACCGCCGACATGACCAAGAAGCCGGGGGCCGTCACCTACACCCTCCTGCTGGACCACGCAGGCGGGATCCGAAGCGACATCACCGTGGCCCGCCTGAGCGAAGACACCTTCCAGCTCGGAGCCAACGGAAACATCGACACCGCCTACTTTGAGCGGGCCGCACGCCACCAGACGGAAAACGGGACCGCCAGCGACTGGGTCCAGGTTCGCGACACCACCGGCGGCACATGCTGCATCGGCCTGTGGGGGCCCCTCGCCCGGGACCTCATCAGCACCGTCAGCAGCGACGACTTCACCAACGACGGCCTGAAATACTTCCGGTCCAAGAAGGTGGTCATCGGCGGCGTCACCGTCACGGCAATGCGCCTGTCCTATGTCGGCGAGCTGGGTTGGGAACTGTACACCAGCGCAGACAACGGCCAGCGCCTGTGGGATGCACTGTGGAAGGCCGGGCAGCCGTTCGGCGTTATCGCCGCGGGCCGCGCCGCGTTCAGCTCGCTGCGCCTTGAAAAGGGCTACCGCTCGTGGGGCACAGACATGACCACGGAGCATGACCCGCTGGAAGCAGGACTTGGTTTCGCCGTGAAGATGGCCAAGGAAAACTTCGTCGGAAAGGCAGCACTGGAAGGCAGGACCGAGGAAAACTCCGCCCGCCGCCTTCGCTGCCTGACCGTCGACGACGGCCGCAGCATTGTGCTGGGCAAGGAACCTGTCTTCTACAAGGACCAGGCAGTCGGCTATGTCACCAGTGCCGCATACGGCTATACCGTAGCCAAGCCCATCGCCTACGCATACCTCCCCGCCGCTGTGTCCATTGGTGACTCTGTCGAGATCGAATACTTTGGCCGGCGCGTCCAGGCCACGGTCACGGCCGATCCGCTGTACGACCCCACCATGACCAGGCTCCGCGGCTAA	MASTPSIVIIGAGIVGTNLADELVARGWNNITVLDQGPLNMPGGSTSHAPGLVFQTNPSKSMALFAKYTVEKLLSLTEDGVSCFNQVGGLEVATTETRLTDLKRKLGYAAAWGIEGKILSRAECKELYPLLNEEDILGGLHVPSDGLARAARAVQLLIKRTEAAGVKYLGNTTVTGIEQSGHRVTGVQTSEGTIPADIVVSCAGFWGAKIGEMIGMSVPLLPLAHQYVKTTPVPAQKGRNELPNDASLPILRHQDQDLYYREHGDRYGIGSYAHRPMPVDLDELGSYDPNSITEHNMPSRLDFTLEDFLPAWEATKQLLPALRESEIEDGFNGIFSFTPDGGALVGESKELDGFFVAEAVWVTHSAGIARAVAELLTTGKSQIDLGECDIHRFEEVQLTPEYVSETSQQNFVEIYDVLHPLQPKLSPRNLRVSPFHARHKQLGGFFLEGGGWERPYWFEANAELLKEMPDEWQPPARDAWSGMFSSPIAAAEAWKTRTAVAMYDMTPLKRLEVSGPGAMKLLQELTTADMTKKPGAVTYTLLLDHAGGIRSDITVARLSEDTFQLGANGNIDTAYFERAARHQTENGTASDWVQVRDTTGGTCCIGLWGPLARDLISTVSSDDFTNDGLKYFRSKKVVIGGVTVTAMRLSYVGELGWELYTSADNGQRLWDALWKAGQPFGVIAAGRAAFSSLRLEKGYRSWGTDMTTEHDPLEAGLGFAVKMAKENFVGKAALEGRTEENSARRLRCLTVDDGRSIVLGKEPVFYKDQAVGYVTSAAYGYTVAKPIAYAYLPAAVSIGDSVEIEYFGRRVQATVTADPLYDPTMTRLRG	PGPT0013545_95	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013545-dmg_like-K00309	NA	NA
D1-29_02338	918	purU_2	COG0788	Formyltetrahydrofolate deformylase	ATGTCCCTAGTGGCTACAGACTCATCAACCAGCACGCTGACTCAGACCGAGCCCCGCGTGGAAGAAGCCAAGGCCCAGAAGTTCGTACTCACACTGTCGTGCGTCGAACGTGCCGGGATTGTCCAGGCGGTCACCACTTTTCTCTTCGAACGTGGCTTCAACATCGAAGAGCACCAGCAGTTCGACGACGGGCTGCGCCAGACGCTGCATCTGCGCACCGCATTCTCGGGTTCCCCTGAGTACACGCCCGAGAGGCTCCAGGAGGAGTTCAAGGCGATCGCGGACCGTTTCGAGATGAAGTTCAGCTTCCATGACCAGACCAAGCAGCGCGTCCTGGTGATGGTGTCCAAGTTCGGGCACTGCCTCAATGACCTGCTCTTCCGTTGGCGCGGTGGCAGCCTGGGCGGGGACATTGTCCTGATAGTTTCCAATCACGAAACCCACCGGGCCATGGCCGAGGCAGCCGGCCTCCCCTTCCTCTACGTCCCGGTGACACCCGAGACCAAGGCAGATGCCGAACAGCGCCTGCTGGATCTCATCGACGAATATGACATCGACCTCGTGGTGCTGGCCCGCTACATGCAGGTGCTCTCCGACGACCTCTGCCGCTCCCTTGAGGGCCGCGCCATTAACATCCACCACTCGTTCCTGCCCGGATTCAAGGGAGCCCGTCCGTATCACCAGGCGTACGATCGTGGCGTCAAGCTGGTGGGCGCAACGGCCCACTACGTGACTGCGGAGCTTGATGAGGGTCCTATCATCGAACAGGAAGTCATCCGGGTCGACCACAGCTACGGACCCACCGCCCTGTCCACCGTCGGGCGGGATGCGGAAGCCCTGGCGCTGTCCCGTGCCGTGAGGTGGCACTGCGAGCACCGTGTGTTGCTGGATCAAACCAGCACTGTCGTGTTCCGGTAA	MSLVATDSSTSTLTQTEPRVEEAKAQKFVLTLSCVERAGIVQAVTTFLFERGFNIEEHQQFDDGLRQTLHLRTAFSGSPEYTPERLQEEFKAIADRFEMKFSFHDQTKQRVLVMVSKFGHCLNDLLFRWRGGSLGGDIVLIVSNHETHRAMAEAAGLPFLYVPVTPETKADAEQRLLDLIDEYDIDLVVLARYMQVLSDDLCRSLEGRAINIHHSFLPGFKGARPYHQAYDRGVKLVGATAHYVTAELDEGPIIEQEVIRVDHSYGPTALSTVGRDAEALALSRAVRWHCEHRVLLDQTSTVVFR	PGPT0008155_1217	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
D1-29_02339	678			hypothetical protein	ATGGCGGTTGAAGTTTTGGCACCCGCAGGCGAGGCTGTCAGAAAGTCGTTGGCGGAATTGGCCTACGAGCGCATCCGAGATCGCCTGCTGATGCTGGACATCAAGCCGGGTGATCTTCTCAATGACGACCACCTCGCCAGGGATCTCGGTATGGGGCGCACTCCCGTACGCGAAGCTTTGAAGCGGCTTGAGTTGGACCGGCTGGTTGTTTCGTATCCGCGCAGGGGAACTTTTGCAACGCGGGTGGAGGTCACTGATCTTGCCTTTATTTCCGAAATCCGGACCCAGCTCGAACCGCTTGCAGCCTCCCGCGCTGCCCGGGTTGCCACTGAGCAGCAGCGCGAGCAGCTGCGCGCTGTGTTGCGGGCTGTTGAATCCTTCGATACACATGCTGCCTCCGTCGTGGAAACACTGCGGCTGGATGCACGGGTGCATCAGGGAATCTACGCTGCTGCAGCCAATCCCCACCTCGAAGACGTCCTGGTCCGCTATGACAACCTCGCCACCCGTATCTGGTGCATGGTGCTGGATCGCCTTCCTGACCTCTCGCACCACGTGCATGAGCATGTTGACCTGCTCGGCGCGGTGATTGACGGGGACGAGGCGCGCGCCGCCGATCTCGCAAGGATTCACGTCAGCGGCTTCGAGGATGCCGTCCGCAGGGCTCTCTTCGCCTAA	MAVEVLAPAGEAVRKSLAELAYERIRDRLLMLDIKPGDLLNDDHLARDLGMGRTPVREALKRLELDRLVVSYPRRGTFATRVEVTDLAFISEIRTQLEPLAASRAARVATEQQREQLRAVLRAVESFDTHAASVVETLRLDARVHQGIYAAAANPHLEDVLVRYDNLATRIWCMVLDRLPDLSHHVHEHVDLLGAVIDGDEARAADLARIHVSGFEDAVRRALFA				NA	NA	NA	NA	NA
D1-29_02340	1299	glyA2_1	COG0112	Serine hydroxymethyltransferase 2	ATGGTCGACGTTCTGACCCGCACGCTTGCAGAGACGGATCCTGCTATCCACGCAGCCGTGCACCAGGAACTCCTGCGCCAGCAGGGCACGCTGGAGATGATCGCCTCCGAAAACTTTGCGCCCACTGCTGTCATGGAGGCGCAGGGATCCGTACTGACCAACAAGTACGCCGAGGGTTACCCGGGCAAGCGCTATTACGGCGGCTGCGAACACGTTGACGTGGTAGAGCAGCTGGCCATCGACCGCCTCAAGTCATTGTTCGGCTCCGAATTCGCCAATGTGCAGCCGCACTCCGGCGCCCAGGCCAACGCAGCGGCCATGTTCGCCCTGATCCAGCCCGGCGACACCATCCTGGGCCTGAACCTCGCCCACGGTGGCCACCTGACGCACGGCATGCGGATCAACTTCTCCGGAAAGCTCTACAAGGTGGTTCCGTATGGCGTCGATGAGGACTCCATGCTGATTGACATGGCCGAAGTGGAGCGCCTGGCGGTTGAGCACAAGCCCCGCCTGATCGTCGCCGGCTGGTCCGCTTACTCCCGCCAGCTGGACTTCGCCGAATTCCGCCGCATCGCGGACCTGGTAGGCGCCTACCTGATGGTGGACATGGCACATTTCGCCGGCTTGGTGGCAGCAGGACTGCACCCCAACCCCGTGCCTCACGCCCACATCGTTACCAGCACCACCCACAAGACCCTCGGCGGACCGCGCGGGGGAGTCATCCTGACCAACGACGCCGACATTGCCAAGAAGGTCAACTCCGCAGTGTTCCCCGGACAGCAGGGTGGCCCGCTGGAGCACGTCATTGCCGCGAAGGCTGTGGCGTTCAAGCTCGCTGCTGAGCCGGAGTTCCGCGATCGCCAGGAACGCACCCTGGAAGGCGCCCGCATCATCGCAGAACGCATTCTGGCTGCCGACGTTGCAGAATCCGGCGTGACCGTGGTCAGCGGTGGCACCGACGTGCACCTGGTCCTGGTGGACCTGCGCAATTCTGAACTGGACGGCCAGCAGGGCGAAGACCGCCTGCACCGGATCGGCATCACCGTCAACCGGAACGCGGTGCCCTTCGACCCGCGTCCGCCGATGGTCTCTTCCGGTCTTCGTATCGGCACGCCGGCACTGGCCACGCGTGGGTTCGGGAAGGCAGAATTCACCGAGGTCGCGGACATTATCGCCGCAGCACTCAAGCGCGAGTTCAGCGACGAGACTGCGACGGAACTGCGGCAGCGGGTTGAAATCCTGGCCGGAAAGTTCCCGCTCTACCCCAACCTCTCCTCTGACACGAACGAGGTGGCATGA	MVDVLTRTLAETDPAIHAAVHQELLRQQGTLEMIASENFAPTAVMEAQGSVLTNKYAEGYPGKRYYGGCEHVDVVEQLAIDRLKSLFGSEFANVQPHSGAQANAAAMFALIQPGDTILGLNLAHGGHLTHGMRINFSGKLYKVVPYGVDEDSMLIDMAEVERLAVEHKPRLIVAGWSAYSRQLDFAEFRRIADLVGAYLMVDMAHFAGLVAAGLHPNPVPHAHIVTSTTHKTLGGPRGGVILTNDADIAKKVNSAVFPGQQGGPLEHVIAAKAVAFKLAAEPEFRDRQERTLEGARIIAERILAADVAESGVTVVSGGTDVHLVLVDLRNSELDGQQGEDRLHRIGITVNRNAVPFDPRPPMVSSGLRIGTPALATRGFGKAEFTEVADIIAAALKREFSDETATELRQRVEILAGKFPLYPNLSSDTNEVA	PGPT0008090_2633	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
D1-29_02341	1218	soxB		Sarcosine oxidase subunit beta	ATGGCAGATTTGCTTCCGGAGCACCCGGATTTCCTCTGGCGGAACCCCGAGCCCAAGTCCTCCTATGACGCCGTGATCGTTGGCGGCGGCGGACACGGGCTGGCCACCGCCTATTTCCTGGCCAAGAACCACGGCATGACCAACATTGCCGTGCTCGAAAAGGGCTGGCTGGCCGGCGGCAACATGGCCCGGAACACCACCATCATCCGGTCCAACTACCTCTGGGACGAGAGCGCTGCCATCTACGAGCACGCCCTCAAACTCTGGGAGATCCTGCCGGAGGAACTCGAATACGACTTCCTCTTCAGCCAGCGCGGCGTCATGAACCTCGCCCACACCCTGGGTGACGTGCGCGAAAGCATGCGCCGCGTGGGAGCCAACCAACTCAACGGCGTGGACGCCGAGTGGCTGGACCCGCAGCAGGTCAAAGAACTCTGCCCCATCCTGAACATCAGCGACAACATCCGCTACCCCGTCATGGGCGCCACGTACCAGCCTCGTGCAGGTATCGCCAAGCATGACCACGTGGCATGGGCTTTCGCCCGCAAATGCGACGAACTCGGCGTGGACATCATCCAGAACTGCGAAGTCACCGGCTTCATCAAGGACGGCAACCGCGTCACTGGCGTCAAGACCAACCAGGGCACCATCAACACCGAGAAGGTGGGCCTGTGCGCCGCCGGGCACAGCTCGGTGCTGGCTGAGATGGCGGGCTTCCGGCTTCCCATCCAGTCCCACCCGCTGCAGGCGCTGGTCTCCGAACTGCACGAACCGGTCCACCCCACCGTGGTGATGTCCAACCACGTGCACGTGTACGTTTCCCAGGCACACAAGGGCGAACTGGTCATGGGCGCCGGCGTGGACTCCTACAACGGCTACGGCCAGCGCGGGTCTTTCCATGTGATCGAGCACCAGATGGCAGCCGCCGTCGAGCTCTTCCCGATCTTTGCCCGTGCGCACGTACTCAGGACCTGGGGCGGCATCGTTGACACAACACTGGATGCTTCCCCGATCGTGGGCACCACTCCGGTGGAGAACATGTTCGTGAACTGTGGCTGGGGCACCGGCGGCTTCAAGGGTACGCCGGCCGCCGGCCTCACCTTTGCCCACACCATCGCCACAGGAACGCCGCACGAGCTGAACAAGCCGTTTGCGCTGGAGCGGTTCGAAACCGGCGCCCTGATCGACGAACACGGCGCAGCCGCCGTGGCCCACTAG	MADLLPEHPDFLWRNPEPKSSYDAVIVGGGGHGLATAYFLAKNHGMTNIAVLEKGWLAGGNMARNTTIIRSNYLWDESAAIYEHALKLWEILPEELEYDFLFSQRGVMNLAHTLGDVRESMRRVGANQLNGVDAEWLDPQQVKELCPILNISDNIRYPVMGATYQPRAGIAKHDHVAWAFARKCDELGVDIIQNCEVTGFIKDGNRVTGVKTNQGTINTEKVGLCAAGHSSVLAEMAGFRLPIQSHPLQALVSELHEPVHPTVVMSNHVHVYVSQAHKGELVMGAGVDSYNGYGQRGSFHVIEHQMAAAVELFPIFARAHVLRTWGGIVDTTLDASPIVGTTPVENMFVNCGWGTGGFKGTPAAGLTFAHTIATGTPHELNKPFALERFETGALIDEHGAAAVAH	PGPT0013510_790	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013510-soxB_-K00303	NA	NA
D1-29_02342	426			hypothetical protein	ATGCTCCTCATTTCATGCCCCAACTGCGGCTCCCGCGACGAGACCGAGTTCCACTACGGCGGCCAGGCCCACGTGGCCTATCCGGAAAACCCGAACGAACTGAACGACCGCGAATGGGCCGAGTTCCTGTTCTACCGGGACAACACCAAGGGCGCCTTCGCCGAACGCTGGCTCCACAGCACCGGCTGCCGCCAGTGGTTCAACATGCTCCGCGACACGGTCACCTACGAGATCCAGGCGGTTTACCCCATGGGCGCGCCCCGCCCGGACAAAGCCGCCCCGGCAGGCGGCGAATCCGGTACCGCCAGTACAGCTCCGGACAGCACTACTACAGGCAGCGCCGGGCCCAGCATCGCTGCAACCAGCATCGCAGGAACCAGCACCACATCTCCCAGCAGCACCGCCCCGGAAGGAGCAACCAAGTGA	MLLISCPNCGSRDETEFHYGGQAHVAYPENPNELNDREWAEFLFYRDNTKGAFAERWLHSTGCRQWFNMLRDTVTYEIQAVYPMGAPRPDKAAPAGGESGTASTAPDSTTTGSAGPSIAATSIAGTSTTSPSSTAPEGATK	PGPT0013520_9	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013520-soxD-K00304	NA	NA
D1-29_02343	2958	soxA_5		Sarcosine oxidase subunit alpha	GTGACTTCCCAGAACGCCCGCCTCGCCGCCGGCGGACGCATTGACCGCACCATCTCCTGGCGTTTCACCGTGGACGGCGAGGAATTCACGGGCCACCCCGGAGACACACTGGCCTCGGCCCTGCTTGCCAACGGCCGGATCGCCGTCGGCAACTCCCTCTACGAGGACCGGCCGCGCGGCATCATGTCAGCCGGCGTGGAAGAATCCAACGCCCTGGTCAAGGTGGCTCCCCGGTTCGCAGGCCACGTTGCCGAGTCCATGCTTCCCGCCACTACGGTCACCCTGGTGGACGGCCTCAAGGCGGAGCTGCTCAACGGCCTTGGCAAGCTGGATCCGGAAGAGGACCGCGCCGAATACGACAAGAAGTACGTCCACACCGACGTCCTGGTGATCGGCGGCGGGCCCGCCGGCCTGGCCGCTGCCCGTGAAGCTGTCCGCACCGGCGCCCGCGTCATGCTGCTGGATGACCAGCCAGAACTGGGCGGCTCCCTGCTGTCCGGTTCCACGGCGCCCGAACTGGCCCAGGTCATCGAAGGCAAACCGGCCCTCGAATGGGTGGCGGATGTCGAAGCCGAGCTCGTTTCCGGCGCCGAGTCCACCGTCCTGAACCGCACCACCGCCTTCGGCGCCTACGACGCCAACTACGTCATCGCCGTCCAGAACCGTACCGACCACCTGTCCACGCCGGCCGCCTCCGGCGTGTCCCGGCAGCGTATCTGGCACATCCGCGCCAACCAGGTGGTGCTGGCTCCCGGTGCCCACGAGCGCCCGCTGGTGTTCGAGAACAACGACCGCCCCGGCATCATGCTCGCCTCGGCCGTCCGCAGCTACCTCAACCGCTACGCGGTGGCCGCCGGGCAGCGCGTTGTCATCAGCACCACCAACGACAGCGCTTACGCCCTGGCAGCTGACCTGCGCGCCGCCGGCGTCAAAATCGCCGCCGTCGTCGACGCCCGCCCCCAGCTGACCGCGGTGGCTGCTGCCGCCGTCGAAGCCGGGACGCGCGTGCTGATCGGCAGTGCGGTGGCCAATACCGCCGCCGGAACCGATACAGGGTCTGCCGATGGCCGCCTGGGCGGCGTTACCGTCCGCAGCATCAACGACGACGGCGAACTCACCTCCGGCGTCGAAGAAATCGAGTGCGACCTGCTGGCCGTGTCCGGTGGCTGGAGCCCGCTGGTCCACCTCCACTCCCAGCGGCAGGGCAAGCTGCGCTGGGACGATGACCTGGCGGCTTTCGTGCCGAGCACTGTCGTCCCGAACCAGCAGACCATCGGTTCCGGCCGCGGCAGCTTCGAACTCGAGGATTGCCTCGCCGAAGGCATCTCCGCCGGTGCCGCTGCAGCCATCGCCGCCGGTTTCGAATCCACCGTCGAACCTTCTCCGATCGCCGATCCGAAGGCGTCCGCCCCCACCCGCCAGCTGTGGCTGGTACCGGGGGAGAATGGAACCCCGGACGACTGGCACCAGCACTTCGTGGACTTCCAGCGGGACCAGAGCGTTGCCGACGTCCTGCGCTCCACCGGCGCGGGGATGCGGTCCGTGGAGCACATCAAGCGCTACACCTCCATCAGCACCGCCAACGACCAGGGCAAGACCTCCGGTGTCAACGCGATCGGCGTCATCGCCGCCGCGCTGCGCCAGGCAGGCGAAGCGTCCCGGGGCATCGGCGACATCGGAACCACCACCTACCGGGCACCGTTCACCCCCGTGGCGTTCTCGGCACTGGCCGGACGCCAGCGCGGCGAACTCTTCGATCCGGCCCGCGTGACCTCCATCCACCCGTGGCACGTGGCCAAGGGCGCTCTGTTCGAGGACGTCGGACAGTGGAAGCGTCCCTGGTACTACCCGCAGGGCGGGGAGGACATGGACCAGGCCGTGCTGCGTGAATGCGCCGCCGTCCGCGAATCCGTTGGCTTTATGGACGCCACCACGCTCGGCAAGATTGAAATCCGCGGCAAGGACGCCGGCGAGTTCCTCAACCGGATCTACACCAACGCCTTCAAGAAGCTCGCGCCCGGTTCCGCACGCTACGGCGTGATGTGCCTGGCCGACGGCATGATCTTCGACGACGGCGTGACCCTGCGCCTGGACGAGGACCGCTTCTTTATGACCACCACCACCAGCGGCGCCGGCAAGGTGCTGGACTGGCTGGAGGAATGGCTGCAGACCGAGTGGCCGGAACTGGACGTGCACTGCACCTCGGTGACGGAACAGTGGAGCACCATTGCCGTCGTCGGGCCCAAATCCCGCGCGGTTCTGGCCAAGGTGGCACCGGAACTGGCCGCCAATGGTGGACTGGAAGCAGAAGCCTTCCCGTTCATGACCTTCCGCGAAACCACGCTGGCCTCCGGCGTCCGCGCCCGGGTCTGCCGCATCTCCTTCTCCGGTGAGCTCGCCTACGAGATCAACGTGCCGTCCTGGTACGGACTGAACACCTGGGAAGCCGTGGCCGCTGCGGGCGCCGAATTCAACATCACCCCGTACGGCACCGAGACCATGCATGTGCTCCGCGCCGAAAAGGGCTACCCGATCGTTGGCCAGGACACCGATGGCACCGTCACGCCGCAGGATGCCGGGATGGAATGGATCGTCTCCAAAGCCAAGGACTTTATCGGCAAGCGCTCCTACGCCCGTGCCGATGCCCGGCGCGAGGACCGTAAGCACTTGGTCAGCGTGCTGCCCGTCGACGGCAACATCCGGTTGCCGGAAGGCACCCAGCTGGTGGAAAAGGGCATCCCGGTGACGCCGGCCGACGGCCCCGTTCCCATGCAGGGTTTTGTCACCTCCAGCTACCAGAGCGCAGCCCTGGGCAGGTCCTTCGCCCTGGCACTGGTCAAGAACGGCCGCAACCGGATCGGCGAGACCCTGGTGGCTGCCGCCGGCAACCAGCTCGTTGACGTTGTTGTCGCAGAAACCGTACTTTTTGACCCTGAAGGGACCCGCAAAGATGGCTGA	MTSQNARLAAGGRIDRTISWRFTVDGEEFTGHPGDTLASALLANGRIAVGNSLYEDRPRGIMSAGVEESNALVKVAPRFAGHVAESMLPATTVTLVDGLKAELLNGLGKLDPEEDRAEYDKKYVHTDVLVIGGGPAGLAAAREAVRTGARVMLLDDQPELGGSLLSGSTAPELAQVIEGKPALEWVADVEAELVSGAESTVLNRTTAFGAYDANYVIAVQNRTDHLSTPAASGVSRQRIWHIRANQVVLAPGAHERPLVFENNDRPGIMLASAVRSYLNRYAVAAGQRVVISTTNDSAYALAADLRAAGVKIAAVVDARPQLTAVAAAAVEAGTRVLIGSAVANTAAGTDTGSADGRLGGVTVRSINDDGELTSGVEEIECDLLAVSGGWSPLVHLHSQRQGKLRWDDDLAAFVPSTVVPNQQTIGSGRGSFELEDCLAEGISAGAAAAIAAGFESTVEPSPIADPKASAPTRQLWLVPGENGTPDDWHQHFVDFQRDQSVADVLRSTGAGMRSVEHIKRYTSISTANDQGKTSGVNAIGVIAAALRQAGEASRGIGDIGTTTYRAPFTPVAFSALAGRQRGELFDPARVTSIHPWHVAKGALFEDVGQWKRPWYYPQGGEDMDQAVLRECAAVRESVGFMDATTLGKIEIRGKDAGEFLNRIYTNAFKKLAPGSARYGVMCLADGMIFDDGVTLRLDEDRFFMTTTTSGAGKVLDWLEEWLQTEWPELDVHCTSVTEQWSTIAVVGPKSRAVLAKVAPELAANGGLEAEAFPFMTFRETTLASGVRARVCRISFSGELAYEINVPSWYGLNTWEAVAAAGAEFNITPYGTETMHVLRAEKGYPIVGQDTDGTVTPQDAGMEWIVSKAKDFIGKRSYARADARREDRKHLVSVLPVDGNIRLPEGTQLVEKGIPVTPADGPVPMQGFVTSSYQSAALGRSFALALVKNGRNRIGETLVAAAGNQLVDVVVAETVLFDPEGTRKDG	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
D1-29_02344	639	soxG		Sarcosine oxidase subunit gamma	ATGGCTGAAACAGCAGCACCCAAAACCTCCCACGAGACGAACCTGGCCCTGCGAACCAGCCCGGCTGCACTGCTCCGGACAGCCTTTGAAACCGGCTCCGTCCGCGGCATTGTGGAACTGAGCGAAATCACCTTCCTGACCATGGCGGGCCTCCGGGTTCGCCGGGACAGCGAGGCCGGGAACCGGATCGCGTCGGTCACCGGGGGCTTGCCCGCAACATGCGGGGCCGTCAGCGGTACCGGTGAAACCTCCGTCCTGTGGCTGGGGCCCGAGGAGTTCCTGGTGGTGGCACCCGTGGAAGCCCACGAATCGCTCGGCGGGGACCTGATCCAGGCACTGAAGGAAGCCCTCGGCGACGGTGAAGGCCAGGTAGTGGACCTTTCCGCCAACCGCACCACCTTCGAACTCACCGGGCCCCGGGCCCGGGCCGTCCTGGAAAAGGGCTGCTCCCTGGACCTGCACCCCCGCACGTTCAAGGCCGGCACGGCGCTGTCCACGGAGGTGGGCAACATCCCCGTGGTCCTATGGAAGACAGGCGATGAGAGCTACCGGATCTTCCCGCGCGCCTCGTTCGCCGAGTTCCTGGGCCGGTGGATCCTCGATGCCATGCGGGAGTATGCCTCCCCTGAGGTCCCCTAA	MAETAAPKTSHETNLALRTSPAALLRTAFETGSVRGIVELSEITFLTMAGLRVRRDSEAGNRIASVTGGLPATCGAVSGTGETSVLWLGPEEFLVVAPVEAHESLGGDLIQALKEALGDGEGQVVDLSANRTTFELTGPRARAVLEKGCSLDLHPRTFKAGTALSTEVGNIPVVLWKTGDESYRIFPRASFAEFLGRWILDAMREYASPEVP	PGPT0013525_127	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013525-soxG-K00305	NA	NA
D1-29_02345	1374	sdaA_2	COG1760	L-serine dehydratase 1	ATGGCACTGAGCGTCCTGGACCTGTTTTCCGTTGGCATCGGGCCGTCGTCGTCACACACGGTCGGCCCGATGCGGGCAGCGAAGCTGTTCGCCGACGGGCTAAAAGACGACGGACACCTGAGCTCCACCACACGCGTGCAGGCCGAACTCTACGGCTCCCTCGGGGCCACCGGACGGGGCCACGGCTCGGACAAGGCCGTGGTTCTGGGCTTCAAGGGGCTGGATCCGGAAACCGTGGACACCTCCACAGCTGATGACCAGGTGGCCGCCGCCGCCCTCGACGCTGAACTGTGGGTGGGCGGGGACCACCGGGTGGACTTCAACTGGGACGAAGATGTGGTGCTGCACCGGCGCAAGTCCCTCCCTGCCCACCCCAACGGCATGACGTTCCGTGCCCTGGACCATTCAGGAGCCGTGCTCAGCGAGCGAAGCTTCTATTCAATTGGGGGCGGCTTCGTCGTTGACGGGGACGCCGACGCCGGCGACCGGGTGGTGGCTGACACCACCGTCCTGCCCTACCCCTTCACCACGGCGGACCAGCTTCTGGAGATTTGCAGCCGCGAAGGCATGTCCATCTCCGATGTGATGCTCGCCAACGAACTCACCTGGCGCAGCGAAGCGGAACTCCGGGAAAAGCTGCTTTCTCTCTGGGCCGTGATGCGCGAATGCGTGGACAACGGCTGCGCCGCGGAAGGGATCCTTCCCGGTGGGCTGAACGTCAGGCGGCGGGCGCCGTCGCTATTCAAGACCCTGACGGCGGACACCGGGGTAACCGACCCGCTCCGGGCGATGGAATGGGTAAACCTGTTCGCGCTGGCAGTCAACGAGGAGAACGCGGCCGGCGGCCGGATTGTGACCGCACCGACCAACGGCGCGGCCGGCATCGTCCCGGCGGTGCTGCATTACTACGTGAAGTTCGTTCCCGGCGCCAACGACGACGGCGTGGTCCGCTTCCTGCTGGCCGCGGCCGCCGTCGGAATTCTGTTCAAAATCAATGCCTCCATCTCCGGCGCCGAAGTGGGCTGCCAGGGTGAGGTGGGTTCTGCCTGCTCCATGGCAGCGGCCGGCCTTTGTGAAGTCCTCGGCGGAACGCCTGCACAGGTGGAAAACGCCGCCGAAGTGGGGATCGAACACAACCTCGGCCTGACCTGCGACCCTGTGGGCGGTCTGGTGCAGATCCCCTGCATTGAACGGAACGCCATCGCCAGCGTCAAAGCCATCAATGCCGCGCGCCTTGCCCTGCACGGCGACGGCAGCCACAAAGTGTCCCTGGACAAGGCCATCAAGACCATGAGGGAAACCGGCGCGGACATGAAGGACAAATACAAGGAAACCTCTCGGGGTGGCCTCGCGGTAAACGTGATCGAATGCTGA	MALSVLDLFSVGIGPSSSHTVGPMRAAKLFADGLKDDGHLSSTTRVQAELYGSLGATGRGHGSDKAVVLGFKGLDPETVDTSTADDQVAAAALDAELWVGGDHRVDFNWDEDVVLHRRKSLPAHPNGMTFRALDHSGAVLSERSFYSIGGGFVVDGDADAGDRVVADTTVLPYPFTTADQLLEICSREGMSISDVMLANELTWRSEAELREKLLSLWAVMRECVDNGCAAEGILPGGLNVRRRAPSLFKTLTADTGVTDPLRAMEWVNLFALAVNEENAAGGRIVTAPTNGAAGIVPAVLHYYVKFVPGANDDGVVRFLLAAAAVGILFKINASISGAEVGCQGEVGSACSMAAAGLCEVLGGTPAQVENAAEVGIEHNLGLTCDPVGGLVQIPCIERNAIASVKAINAARLALHGDGSHKVSLDKAIKTMRETGADMKDKYKETSRGGLAVNVIEC	PGPT0001975_2027	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
D1-29_02346	222			hypothetical protein	ATGGCAGGGTCCGCAATCAAGACTGAAGAGGGCCGCGGCCTCCGCGACGACTGGCATATGCTCGCCGGGCGCACCGTGGAGGTTTGGCTGCTGGGGGAGCACATCCTGACCGGGAGGGTGGAGCAGGCGGCTGATGATGATGCGATTCTTTGGATCGCGGCGGAAGGCAGCCGTACCCGAAAGCTCTTTGACAAGCGAAGCGGCTACCAGGTGTGGGCCTAA	MAGSAIKTEEGRGLRDDWHMLAGRTVEVWLLGEHILTGRVEQAADDDAILWIAAEGSRTRKLFDKRSGYQVWA				NA	NA	NA	NA	NA
D1-29_02347	2160			hypothetical protein	ATGGCTGGTTGGAATGCCGACACGGCGGCTGGGCCGCTTGGGGCAGGGACAGTGACGTTGGTTGAGGGATCGTCCTTCTGTATTAGTTCAGCCAATGGGGACATCCAACCTGACCTTCCGCATGGAGTCTTCTACCGCGACACCCGCATACTGTCGCACTGGACCCTGACCGTTAATGGCCTGGCGCTGGAGCCCCTGGCTTCAGAATTGAAGGAGCCATACCGGGCTTTGTTCGCATGCCGGGTGCCCCGTTCGGACGGATATGCTGACAGCCCCCTGATTGTGGAACGCCTCCGCGAGGTGGGAGCCGGGATTCTGGAACGCATCACCATCCGCAACTATTCCGGCGCTCCTGCGGAGTGTGAGGTAGCCCTGGCCGTTGGTTCGGATTTCGCCGATCTGTTTGAGGTGAAGGAGGCAAGGGTTCAGCGGCGCTGGGACGAGAGCCGTCACCCGGAAGGCGATTCGCTGTCTGTTAGAGGCATGTGGGAAGGCGTCCAAAAGGCGGTCATGGTCAAAGCCGAAGGAGCCAGTGCTACAGCCGACGGCGTGACCTACCGGGTAACCGTCCCGGCCTACGATCAGTGGACAACGCAGCTGACAGTCGTTCCTGCAGTCGATGACGCAGATCCTGAACCCCCGGCCTTCGGCCATCCGACCCCGGGCGAAATGTCACCCCGGGACAGACGCCGCCAGGAATGGGTCGCCAAGATTCCGGTGCTGCAGATGGGCAACCGCTCCATCGAACGCACCCTGCGGCGCAGCTACGACGATCTGGGTGCGCTGAGAATCGAGGACCCCGAGCATCCGGAGCGGGTGGTGGTGGCGGCCGGTGCGCCATGGTTCATGACCCTGTTTGGCCGGGACTCGCTGTGGGCCTCTGAAATGGCTTTGCCCGTGGACCCTTCCCTGGCGCTGGGCACGCTGAAGACGCTAGCTGACCGGCAGGGCACTGTGGTGGACCCCATGAGCGAGGAAGAACCGGGCAAGATCCTGCACGAGGTCCGCCTCGGAGTTTCCAGCGGCCTGGCGTTGGGAGGCAAGTCCGCCTACTACGGCAGCGTTGACGCAACCCCGCTGTTCGTGCTTGCCGTGGGAGGTGTGAGCCGCTGGGGATTTGCCAAGGAGACGATTAACGCGCTGCTTCCTAACGCAGACCGGGCGCTGGAATGGATCAGGGACTACGGGGACCGGGATGGCGACGGCTTTGTTGAGTATGAGCGCCTGAACGAACACGGACTGATCAACCAGGGCTGGAAAGACTCTTGGGACGGGATCAACTTCGCCGATGGCCGAATGGCCGAACCTCCGATCGCGCTGTGCGAGGTGCAGGCTTACGTCCACGGGGCCTATGTGGCGCGGGCCTGGATGGCCTATGACGCCGGGGACCTGGACCTCGCGGCGGATCTTCGGGACCGCGCCGCGCGGCTGAAGCAACGCTTCAATGAACAATTCTGGCTTCCGGACAAGGGTTACTACGCCGTGGCCCTGGACCGGGACAAACGGCCGGTGGACGCGTGTGCATCGAATATGGGGCATTGCCTCTGGTTTGGACTCATTGACGAGGATAAGGCGCCGCAGGTTGTGGAGCGGTTGATGTCTCCGGAAATGTTTAGCGGCTGGGGTGTCCGGACGTTGGCCAGCGACATGCGCGCCTACAACCCCGCAAGCTACCACAACGGCTCAGTGTGGCCCCACGACAATGCCCTGATCGTGGCAGGGCTGATGCGGTACGGATTTGTGGAGGAAGCGCAGAAGATTGCCACGGCATTGTTGGAAGCGGCTGAATTCTCTGACGGCCGCCTCCCAGAGTTGTTCTGTGGCTTCAGCCGTGACCAGTTTGCACGGCCTGTCCCCTACCCGACCGCCTGCTCGCCGCAGGCATGGGCCGCCACCACACCGATCCTCCTGGTCACCAGCCTCATGCGCTACGACGCCCACATCTCGCAGGGCGGCCTGTGGCTTGACCCCGCACTCCCTGATTCCTATGGCGACGTCCATATCAGCAACGCCCCGATGGGAGCCGGCAGAATCACCATCGACATCTCCGGGTCCACAGCCTCAGTCCATGGGATGCCCGAAGGCGTTGAAGTTCACCACGGCCAAAGACCGTGGATCACTGACCTCGTGGAACAGGCTAAACTCCGCCCGGAGGATTAG	MAGWNADTAAGPLGAGTVTLVEGSSFCISSANGDIQPDLPHGVFYRDTRILSHWTLTVNGLALEPLASELKEPYRALFACRVPRSDGYADSPLIVERLREVGAGILERITIRNYSGAPAECEVALAVGSDFADLFEVKEARVQRRWDESRHPEGDSLSVRGMWEGVQKAVMVKAEGASATADGVTYRVTVPAYDQWTTQLTVVPAVDDADPEPPAFGHPTPGEMSPRDRRRQEWVAKIPVLQMGNRSIERTLRRSYDDLGALRIEDPEHPERVVVAAGAPWFMTLFGRDSLWASEMALPVDPSLALGTLKTLADRQGTVVDPMSEEEPGKILHEVRLGVSSGLALGGKSAYYGSVDATPLFVLAVGGVSRWGFAKETINALLPNADRALEWIRDYGDRDGDGFVEYERLNEHGLINQGWKDSWDGINFADGRMAEPPIALCEVQAYVHGAYVARAWMAYDAGDLDLAADLRDRAARLKQRFNEQFWLPDKGYYAVALDRDKRPVDACASNMGHCLWFGLIDEDKAPQVVERLMSPEMFSGWGVRTLASDMRAYNPASYHNGSVWPHDNALIVAGLMRYGFVEEAQKIATALLEAAEFSDGRLPELFCGFSRDQFARPVPYPTACSPQAWAATTPILLVTSLMRYDAHISQGGLWLDPALPDSYGDVHISNAPMGAGRITIDISGSTASVHGMPEGVEVHHGQRPWITDLVEQAKLRPED				NA	NA	NA	NA	NA
D1-29_02348	2295	katG	COG0376	Catalase-peroxidase	ATGACCGATCCGCAGGACCGCCCCCCGGTCCCCACCCCGGGAAGCGCCCAAGGCCTGGACCGCAAGGTTGAGGGTGGGTGCCCGGTTGACCACGACAGCGTCACCTCGCACGGCAGCGAGAGCGAAAATCCGGCGATCGATTCGCCGCAGCCCAAGGCGCACCGGCCCCGGACTGTGGCGGACTGGTGGCCCAACCAGCTGGACCTCTCGGTGCTCCATGCGCACAACCAGGCGGGCAACCCGCTGGGCCCCACCTTCAGGTACCGCGAGGCGTTCCAGCAGCTCGACGTCGAGGCGCTCAAGCAGGACATCGTTCAGGTCCTGACCACCTCGCAGGACTGGTGGCCCGCAGACTTCGGCCACTACGGCGGCCTGATGATCCGGATGAGCTGGCACGCCGCCGGCACCTACCGCGTCCACGATGGCCGCGGCGGTGCAGGGGACGGCAGCCAGCGGTTCGCTCCGCTCAACAGCTGGCCGGACAACGCAAACCTCGACAAGGCCCGCCGGCTCCTGTGGCCGGTGAAGCAGAAATATGGCCAAAAGCTCTCCTGGGCCGACCTGATCGTCCTCGCGGGCAACGTCGCCCTCGAATCGATGGGCTTCAAGACTTTCGGCTTCGCCTTCGGCCGGGAGGACGTGTGGGAGCCCGAGGAGATTTTCTGGGGGCCCGAGGACGCCTGGCTCGGCGACGAGAGGTACATCGGCGAAGGCAAGATGGCGGAGGATGTCGGCTCCACCGAAATGGGCCTGATCTACGTCAACCCCGAGGGGCCGATGGGCAACCCGGACCCCAAACTCGCCGCAGCGTATATACGCGAGACGTTCAAGCGGATGGCGATGAACGACGAGGAGACCTTCGCGCTGATCGCGGGCGGCCACACCTTTGGCAAGACCCACGGGGCCGGTGACGCCGACGCGCACGTAGGTCCCGAGCCGGAGGCCGGGGACCTCGAGGCGCAGGGACTGGGCTGGCTCAGCACGTACGGCAGCGGCAAGGGTGGCGACACGATCACCTCCGGCCTCGAGGTCACGTGGACGGACCGGCCCACCCAGTGGAGCAACCGCTTCCTGGAGATCCTGTTCGAGTACGAGTGGGAGCTTGTCAAGAGCCCCGCCGGCGCCCACCAGTGGGTTGCCAAGGATGCCCCGGAGATCATCCCGGACGCGCACGACCCCGAGAAAAAGCACCGGCCCACCATGCTGACGACGGACCTGTCGCTGCGGTTCGACCCGATCTATGGGGAAATAGGGCGGCGCTTCCTGGCAAACCCGGACGAGTTCGCGCTCGCGTTCGCGAAGGCCTGGTACAAGCTGCTGCACCGCGACATGGGTCCCGTCGGGCCGCACATGCTCGGCCCATGGGTCCCGGAGCCCCAGCTCTGGCAGGACCCTGTCCCGGAGGTAGACCACCAGCTGATCGACGAGCAGGACATCGCCTCGCTCAAGGCTCAGCTCCTGGACTCCGGCCTGTCCGTCTCACAGCTGGCCGGCACGGCCTGGGCCGCCGCATCCACCTTCCGCAAGACCGACAGGCGCGGCGGCGCCAACGGTGCGCGCATCCGGCTGGAACCCCAGCGCAGCTGGGAAATCAACGAAACCGAGCAGCTCTCGACGGCGGTGCAGGCGCTTGAGACGGTGCAGCAGCAGTTCAACTCCGGCCAGGCCGACGGCAAGAACGTCTCGCTGGCGGACCTGATCGTGCTCGGTGGCTGCGCCGCGGTGGAGAAGGCCGCGAACGACGCCGGCTTCGCCATCACCGTGCCGTTCCGGCCTGGCCGGACCGACGCCGCGCAAGAGCAGACCGACGTCGAGTCCTTCCAGTACCTGAAGCCGCGGGCGGACGGGTTCCGCAACTATGTGCGCCCCGGCGAGAAGCTCCAGCCGGAGACCCTCCTGCTGGACAAGGCGTACCTGCTGGACCTCTCGGCGCCGGAGATGACAGCGCTTATCGGCGGCATGCGTGCCCTCGGCACCAACGTTGGCGGTTCCAGCCACGGCGTCCTCACCGACAGGCCGCAGGTCCTGACGAACGATTTCTTCGTTAATCTGCTCTCGCCGGGGACAAAGTGGAAGGCATCCGAAGGCGAGGAGAACGTCTACGAGATCAGCGACGTCGCCACCGGTGAGCTGAAGTGGACCGCCACGCCGGTGGACCTGGTGTTCGGCTCCAATTCACAGCTCCGTGCACTGGCCGAGGTCTATGCGAGTGAGGACGCCAAGGAAAAGTTCGTCAGCGACTTCGTTGCGGCCTGGGTGAAGGTCATGGAGCTGGACCGCTTCGACCTGAACTGA	MTDPQDRPPVPTPGSAQGLDRKVEGGCPVDHDSVTSHGSESENPAIDSPQPKAHRPRTVADWWPNQLDLSVLHAHNQAGNPLGPTFRYREAFQQLDVEALKQDIVQVLTTSQDWWPADFGHYGGLMIRMSWHAAGTYRVHDGRGGAGDGSQRFAPLNSWPDNANLDKARRLLWPVKQKYGQKLSWADLIVLAGNVALESMGFKTFGFAFGREDVWEPEEIFWGPEDAWLGDERYIGEGKMAEDVGSTEMGLIYVNPEGPMGNPDPKLAAAYIRETFKRMAMNDEETFALIAGGHTFGKTHGAGDADAHVGPEPEAGDLEAQGLGWLSTYGSGKGGDTITSGLEVTWTDRPTQWSNRFLEILFEYEWELVKSPAGAHQWVAKDAPEIIPDAHDPEKKHRPTMLTTDLSLRFDPIYGEIGRRFLANPDEFALAFAKAWYKLLHRDMGPVGPHMLGPWVPEPQLWQDPVPEVDHQLIDEQDIASLKAQLLDSGLSVSQLAGTAWAAASTFRKTDRRGGANGARIRLEPQRSWEINETEQLSTAVQALETVQQQFNSGQADGKNVSLADLIVLGGCAAVEKAANDAGFAITVPFRPGRTDAAQEQTDVESFQYLKPRADGFRNYVRPGEKLQPETLLLDKAYLLDLSAPEMTALIGGMRALGTNVGGSSHGVLTDRPQVLTNDFFVNLLSPGTKWKASEGEENVYEISDVATGELKWTATPVDLVFGSNSQLRALAEVYASEDAKEKFVSDFVAAWVKVMELDRFDLN	PGPT0013165_102	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PHENYLALANINE_DEGRADATION,PGPT0013165-katG-K03782	NA	NA
D1-29_02349	1329	lacG_3		6-phospho-beta-galactosidase	GTGAGTAGAAATTTGAACTGGTACCAAGACGGGCGCCTGCACTTCGGCCTCGGCATCGAAGATACTTTCATCCCCCAGGAACGTGCAGGGGAACGCTCCCTTGACGAATATGAGCTCACCCAGCACTACAGGTTCTGGCACCAGGACCTGGGCCTGGCCAAAGAAGCCGGCGGCGAATTCCTTCGCTGGGGTATCCCCTGGTACCGGATCAACCCGGCGCCAGGAGTGTGGAAGTGGGAGTGGCTGGACCAGGTCATGGACCGCTTCGCGGAACTTGACCTCAGGCCGCTGGTGGACCTGATGCACTACGGGACACCCACCTGGCTGGACAATCAGTTCCTGAATTCCAGCTACCCGGAACTCGTTGCTGACTACTCCGCCCGGGTCGCGGCCCGCTACTCAGACAGGGTGGTGGACTACACCCCCGTCAACGAGCCGATGATCCACACCCTGTTCTCGGGCAAATTCGGGCATTGGCCACCCTACCTTTCCGGCGACGACGGACTGGTTGCCCTGGTGCGGAACCTGTCCAAAGGCTTTGCACTGGCCCAGCAGAACATGGCGGAAGTCCTTGGAGACCGCGGGATCTTCACCCACGTCGACGCCGGTTTCCGGTTCGTCAGTGACACCGCCGATGGCAGGCACGACGACGAAATCCGGCACCTCAGGGCCCGCTCCTACCTGGTTGAAGACCTGGTTACCGGCAAGGTGACTACCGATCACGAGCTTGCGCCGTGGCTCAGCCGCCACGGGATAACGGATGAAGATCTGAACTGGCACCAGCACAACATCGTGCTGCCCCACGTCATGGGCGTGAACTACTATCCCTTGCACTCCACGGAGCTGCTCGAAGCGGCAACACCCCGGCGGGGAGACATTGCCGATCCCCGCGCTGTCCGCAACGACTGGACAGAGGGACTGGCCGAGGTTCTGACCACTTACGGCCAGAGGTACGGCGCCCCGGTGGCCCTGACGGAAACCTGCCTCACCGGATCCTATGACCGGCGCCTGGAGTGGCTGGATGATTCAGTGGAATGCGTCCAGCAGCTGCGCGCCGCCGGGCAGGACATCGTCGGCTATACCTGGTGGCCGGTCACGGACATGTACGAATGGACCTACCGTTATGGGACCGAACCGCTGGAACACTACCGGCTGACCATGGGACTGTGGGACCTCATCCCGGACGAAATCGGTACCCTGAACCGTGTCAGGAACCCCGTCGCAGACCGCTTCCTGCACCACGCAAGCACAGGCGCCGGCGTCGAATCCACCCAAAACGCTCCTGCTGTCTCCGCCCAGGAAAGAAGACGGTGGCCACTGCACGCCTGA	MSRNLNWYQDGRLHFGLGIEDTFIPQERAGERSLDEYELTQHYRFWHQDLGLAKEAGGEFLRWGIPWYRINPAPGVWKWEWLDQVMDRFAELDLRPLVDLMHYGTPTWLDNQFLNSSYPELVADYSARVAARYSDRVVDYTPVNEPMIHTLFSGKFGHWPPYLSGDDGLVALVRNLSKGFALAQQNMAEVLGDRGIFTHVDAGFRFVSDTADGRHDDEIRHLRARSYLVEDLVTGKVTTDHELAPWLSRHGITDEDLNWHQHNIVLPHVMGVNYYPLHSTELLEAATPRRGDIADPRAVRNDWTEGLAEVLTTYGQRYGAPVALTETCLTGSYDRRLEWLDDSVECVQQLRAAGQDIVGYTWWPVTDMYEWTYRYGTEPLEHYRLTMGLWDLIPDEIGTLNRVRNPVADRFLHHASTGAGVESTQNAPAVSAQERRRWPLHA	PGPT0019165_2846	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019165-bglB-K05350	NA	NA
D1-29_02350	885	araQ_10	COG0395	L-arabinose transport system permease protein AraQ	ATGTCCACAACACTCCCTCCACGCCTGGCCCCACGGTCAACCGGTGCCGGCGTTCGCCTGAACAAGCGAGCCAGGCTGAACCGGGCAGTGGTGGTCATGCTGCTGGCCCTGGCCACCGCGGTGATCCTGCTTCCCATTGCGATCATCATCTTCACAGCTTTCAAGCCGGCCGCTGAAGTAAATGCCTTCCCGCCCACCCTGGTTCCCGGACAGTGGACCCTGGATAACTTCGCCAGAATCTTCCAGGAACTCCCCTTTGTGCGTCTGATCGCCAACAGCTTCATCTTCGCCGGCGGCGTCACGCTGTTTGCCCTGCTGTTTGACTCGCTGGCCGCCTACGCCCTGGCAAGGATCGACTTCACGGGCAAGAAGTTCCTGCTGATCGCCATCATCGCCAGCCTGATGATCCCGTTCCAGGCCACCCTCGTGCCGGTCTATCAGCTCGCCAGCGACCTTGGCTGGGTGAATACGTTCGCCGCGCTGATCGTCCCCCGGGCGGCGGACGCCTTCGGGATCTTCTTCCTTCGTCAGTTCTTCCTTTCCCTTCCCCGGGACCTGGACAACGCAGCACGCATCGATGGCGCTTCCGAATGGCGGGTCTACTGGAACGTCATCCTGCCCAACGCCATGCCGGCCATCCTGACCCTGGGCGTCTTCGTGTTCGTGAACAACTGGAACGATCTGCTGTGGCCGCTCATCTTCACCACCGACAGGAACATGGGCACCCTGACCTCCGGACTGACCCTCCTGACCGGCCCGGGCGGCATTGTCCCCTACGGCGTGATGATGGCAGGGGCCCTGGTGGCCATCCTCCCCCTCGCCGCGATCTTTATGTTTGTCCAACGCCGCTTTATTGAAAGCGTCGCCACCACCGGATTGAAGTGA	MSTTLPPRLAPRSTGAGVRLNKRARLNRAVVVMLLALATAVILLPIAIIIFTAFKPAAEVNAFPPTLVPGQWTLDNFARIFQELPFVRLIANSFIFAGGVTLFALLFDSLAAYALARIDFTGKKFLLIAIIASLMIPFQATLVPVYQLASDLGWVNTFAALIVPRAADAFGIFFLRQFFLSLPRDLDNAARIDGASEWRVYWNVILPNAMPAILTLGVFVFVNNWNDLLWPLIFTTDRNMGTLTSGLTLLTGPGGIVPYGVMMAGALVAILPLAAIFMFVQRRFIESVATTGLK	PGPT0016540_2666	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
D1-29_02351	1005	lacF_8		Lactose transport system permease protein LacF	ATGCGGCGCCTCCGGGCGCCGCATCCTTCGAAAGAAGCTCCCATGAGCACAACAGTGCACAAGAAACCGGCAGAAACCCGGCGGTACCGCGCTCCAGCGCCACTCGGCGGACGCCGGAACCCCGCCATCGGCCAGCGCCGCAAAAACTTCCAGGCCCTCGCGTTCCTTCTCCCGGCCCTCATAGTCCTGGGGGCCTTCACAGCCTGGCCCATGTTCTCCGCTCTCCGGCTGTCCTTTACCGACGCCAGCGGCTTTGGTAAAGAGGAATGGGTGGGCTTGGAGAACTACGCCCGCATCTTCACCGATCCCGTGATCATCAACGCCGTGGTCAACACAGCGCTCTACGCGCTGTTGTTTACACCGACGGCGGTGGCCCTGGCCTTGGCCCTGGCCCTGCTGCTGAATGATCCGAGACTGCCGTTCAGGGGCTTTTTCCGCACCGCCTTGTTCCTGCCGTTCATCATCAGCCTCGCCGTTGCAGCCATCGCCTGGGCGTACCTGATCGACCCACAGGTCGGGCTGCTGAACTACTGGCTGGGCAGTGCAGGGATCCGGATCGGCAATGTCCTGCAGGATCCCGTTCTGGCCATGCCGGCCGTCGCGTTCGTCGCCGTTTGGAAAAGCTTTGGCTTCTACATGGTGATCTTCCTGGCCGGACTCCAGGAAATCCCCGGAAGCCTCTATGAGGCAGCCCGCGTCGACGGCGCCGGGCCGTGGACGCGCTTCCGCCATGTGACCATGCCCATGCTCTCCAACACCACCGCTTTCGTCCTCATCTTTGCCCTCATCGCCGCATTGCAGGCCTTCGACCAGATTTACGTGATGACCGGCGGCGGCCCCTACGGCCATACCGAGACCGTCGTCATGCAGATCTACACGTCCGGTTTCCGCAAACTGGACGTCGGTTTCGCCTCCGCGCTGTCCTACGTACTGCTCGCCGCCACCTTGCTGCTGAGCGTTATCCAGTTCGTCTTCTTCGGAAAACGCGAACGGGAAGGTGACTGA	MRRLRAPHPSKEAPMSTTVHKKPAETRRYRAPAPLGGRRNPAIGQRRKNFQALAFLLPALIVLGAFTAWPMFSALRLSFTDASGFGKEEWVGLENYARIFTDPVIINAVVNTALYALLFTPTAVALALALALLLNDPRLPFRGFFRTALFLPFIISLAVAAIAWAYLIDPQVGLLNYWLGSAGIRIGNVLQDPVLAMPAVAFVAVWKSFGFYMVIFLAGLQEIPGSLYEAARVDGAGPWTRFRHVTMPMLSNTTAFVLIFALIAALQAFDQIYVMTGGGPYGHTETVVMQIYTSGFRKLDVGFASALSYVLLAATLLLSVIQFVFFGKREREGD	PGPT0016535_3480	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
D1-29_02352	1362	cycB	COG2182	Cyclodextrin-binding protein	ATGCTTGATACAACGTTTACCTACAACGTTTACCCAACAGTTGTATTCAGGTTCAGGGACACGGAAGTCCCACTCATTGAAAGGGCCGACATGAAAAGGTCGCTCACACTTCTTACTGCGGTTGCTGCCGCGTCGCTGGTCCTGACCTCCTGCTCCGGAGCAGGGGCAGGCTCGGACAAGCAGGAAGGCTCCAAGGCGGAGCTGACGTTCTGGCACGGCTACACCGAGGCGGACGGGAAGGTGCTGAATAAGATCGTGGAGGATTTCAACGCCTCCCAGGCCGAGGTCACCATCACCGTCCAGACCAATCCCTGGTCCGTCATCGACGACACCTTGCTGCCGGCGCTGTCCTCCGGAAATGGTCCGGACATCGTGGCCATGCCTGCTGAGCGCCTCCCCGTGTACGCGGACAAAGGCGCGTTCGTCGAACTCGACGACCTCTACAAAGACCCCAACAGCAATCTGGACAAGCTGGTCCCCGCCGCCGCAGACATGGAGACAGTGAACGGACACAAGTACGGCGTCCCCTCCGGCTTCGTGCCCCTGGCAATGTTCTACAACAAGGACCTCTTTGCCAAGGCCGGCATCACTTCCCCTCCCGCCACCTGGGATGAATGGATCGCAGCGGCCAAGAAACTTACGGTGGACGCCAACGGGGACGGCACCCCCGAGCAGTTCGGGCTCGGCCTTCCGGACCACGCCACCGTGGCGAACGGCGTCTGGCCCTCCCTCTTCTACGGAAATGGCGGCGACATCGTCAAGGACGGCAAGGCCGTCGTCGACTCCCCCGAGAACGCCGAGACCCTGAAGACCTGGGTGGAAGCCATCAGGAATGACAAGATCTCCCCCACCGGTTTGGACGGGATTGCCGGCGACAAGCTGTTCAGCAGCGGCAAGGCCGCCATGTACCTCGGAGGGCCGTGGATGTCCTCCATCGCCAAGGAAAACAACATCGATTACGGCATTGCCGCTGTCCCCGCCGGCCCGGAAGACCAGGCGGCGTCAGCGATCGGGGTCTCCATGGCCATCACTGAGCAGAAGGACGACTCCAAAGCCGCTGCCGCGAAGAAGTTCTTCAGCTACTTCCTGCAGAAGGAACAGGCCACGGCATGGTCCCTGGGTTCGGGGTGGCCGCCGCTGCGCTCGGACATTCCTGCCGCTGATGTTGCCGCGAATCCGGTGGTGGAAGCCCTGACAAAGCAGTCCGAGTTCGGCCGGCCCCTTCTGCCCGGCGTCGTGAACAGCACCGATGTCCTCACAGCAATTGACAAGCTCACCCAGCGGGCTGTGGCCGGTGAAAACATCCAGGACCTGCTGAAGGAGACACAGGGCTCTATCCAGAAGACCCTCGACGCCAAGTAA	MLDTTFTYNVYPTVVFRFRDTEVPLIERADMKRSLTLLTAVAAASLVLTSCSGAGAGSDKQEGSKAELTFWHGYTEADGKVLNKIVEDFNASQAEVTITVQTNPWSVIDDTLLPALSSGNGPDIVAMPAERLPVYADKGAFVELDDLYKDPNSNLDKLVPAAADMETVNGHKYGVPSGFVPLAMFYNKDLFAKAGITSPPATWDEWIAAAKKLTVDANGDGTPEQFGLGLPDHATVANGVWPSLFYGNGGDIVKDGKAVVDSPENAETLKTWVEAIRNDKISPTGLDGIAGDKLFSSGKAAMYLGGPWMSSIAKENNIDYGIAAVPAGPEDQAASAIGVSMAITEQKDDSKAAAAKKFFSYFLQKEQATAWSLGSGWPPLRSDIPAADVAANPVVEALTKQSEFGRPLLPGVVNSTDVLTAIDKLTQRAVAGENIQDLLKETQGSIQKTLDAK	PGPT0016545_9007	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
D1-29_02353	1047	ccpA_8	COG1609	Catabolite control protein A	GTGTCGGTCACGATCAGGGATGTTGCACGGGTCAGCGGCTTTTCCATCAAGACGGTGTCCAATGTCATCAACGGGCATCCGCAGCTACGGCCCGAGACCCGGCAGCGGGTGGAAGATGCCATCGAGCAGCTCGGCTACCGTCCCAATCTGTCTGCACGGAACCTGAGGTCCGGCCGTTCCGGCGTCATCGGACTAATCATTCCTGACCTCACCACCGCCTATTTTGCCGAACTCGCAGACGCGGTCATGCGTGCGGCCAAGGCCAACGGTCTTGCGGTGCTGATCGAACCTATCGGGAGCGGCCGCGAAAACGAACTCGCAGCGCTTCGGGGCCAGCACAGGCACATGGTTGATGGGGTTATCTACAGCTCCCTCACGCTGGGTGCGGCGGATGCCGATCTCCTGAAGGCGGTTGACACGCCGCTGGTGGTTCTCGGAGATACATCGTTCGACGGCCAGGTGGACCGCATCACGATGGCCAACATCGCTGGTGCGCGCGCAGCAACAGATCATTTGCTGGCGGGAGGCCGGCGTCGCGTCCTGGCGCTTGCTGCCCATGAAGGCGACATCGTCGCTTCAGCTGAGCTCCGTTTGACCGGTTACCGGGAGGCCATCGAGGCCGCTGGCCTGGCGTTTGATCCCGAACTGGTCTGCTACGCAGAGTCCTGGCACCGGCGCGGAGGTGCCGAAGCAATGACGAGGTTGCTGAGTGACGGCGTATCGTTCGACGGCGTCTTCGCCTTTAGCGACACCCTGGCACTTGGCGCCATGCGTGTGCTCCAGGAATCAGGCCTGCGCATCCCCCAGGATGTTGCCATTGTTGGCTTCGATGACCTGGATGAAACCCGGTATACCCTGCCGGCCCTTTCAACCGTGAACCCGCGCAGGGACGAGATTGCCACGGCCGCCGTGGAGACCCTCCTTCGCCGGATCGCAGGCGGGCCGGAGCTGGAAGCAACCGAAATCGAGACGGGCTTCTCCCTCGAAATCCGCGAGTCCTCAGGCGGATCCGGGCACAAGGCTTCCGCCGCGACGAACGCCGCCTGA	MSVTIRDVARVSGFSIKTVSNVINGHPQLRPETRQRVEDAIEQLGYRPNLSARNLRSGRSGVIGLIIPDLTTAYFAELADAVMRAAKANGLAVLIEPIGSGRENELAALRGQHRHMVDGVIYSSLTLGAADADLLKAVDTPLVVLGDTSFDGQVDRITMANIAGARAATDHLLAGGRRRVLALAAHEGDIVASAELRLTGYREAIEAAGLAFDPELVCYAESWHRRGGAEAMTRLLSDGVSFDGVFAFSDTLALGAMRVLQESGLRIPQDVAIVGFDDLDETRYTLPALSTVNPRRDEIATAAVETLLRRIAGGPELEATEIETGFSLEIRESSGGSGHKASAATNAA	PGPT0017992_13697	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
D1-29_02354	1371	mdtH		Multidrug resistance protein MdtH	ATGAGCCCGACGGCGGCGCGGAAGCCGCGCCCGAAACTCACCCGGCGACGTCCTGCCAGGGTTGAACCTGCGCCGCAGCTGCTGCTGGCCAGCCAGTTAATCTTCAATATCGGCTTCTATGCAGTAGTGCCGTTCCTCGCAGTAGCCATGCGGAACGACTTCGGGATGGGCGCGATGGCCATCGGCATCGTCCTTGGCGCGCGTACCTTCGCCCAGCAGGGTATGTTCCTGTTCGGCGGGGCACTGGCCGACCGGTGGGGAGCGCGGCAGTCGATGATCACGGGCTGCCTGGTCCGGATTGCCGGCTTTCTGTTGCTCGTTTGGGCCACGGACTTTCCGCTGTTCCTGCTCGGTGCCATCATCACGGGTATCGGCGGGGCACTGTTTTCGCCTGCCCTGCAAAGCCTGGTGGCCGCCGCCGCCGAGGGCGGCACCAGCCGGGCGGACGGCCAGGAACCGGGAACCGGGAACGACCGCGCGAACAGCGGCGCCGCACCGCAGAACAACAGAGCCACGCTCTTCGCCTTGCTGGTAATCTGCGGCGAAGTAGGCGTGGTTGTCGGGCCGCTGCTGGGATCCCTTTTGCTCCATACCGGCTTTGACACTTCCCTGCTGGCAGGGTCCGCTGTCTTTGCCGTCATGGCCCTGGTCTTCTGGCTCTTCCTGCCCAAGGCCCCTGCCCAGGCGCCCAAAACGTCAGCGGACCTGACGGGCCAGGCGCCGCCGTCGGGCCTTTGGTCCTGCCTCAAAGACAAAAGGTTCATCGGGTTCGCCGCCTTCTACAGCGTCAACCTCCTGGCCACCAACCAGCTCTATTTCGGGCTTCCGGTAGAGCTGGAACGCAGCGGGGCAGGGGTCCAGGCCCTGGCAGTCGTCTTCGCCTACGCGTCCGTCCTGACCATCACGCTTCAATGGCCCATAGCCCGGCTCATGCGCAAAGCCGGGCCGAAAACCGCGCTTCCCCTGGGCTTTGCCCTGCAGTCCATGGGCTTCGCCTCCCTGGGAGTCCTGGCAGTGGTCCCTCCGCCCAGCGAACTTCCCATCCTGCCTGCCCTCCTGCTGGTGACAGGCCTCGCCCTAGGCAACATGTGCGTCACACCCATGGCGATGGGACTGGTGCTGGAGTTCTCCGCCGGACGCCCCACCGGCGCCTACTACGGCCTGCTCGCCAGCGCCGGAGGGCTCGCCGTTGTGATCGGCAATGCAGCCCTGGCCCCGCTGTACGAACTCGCCTACACGCCGTCGGGCACTGCACTCGCTCCATGGCTCCTGCTGTCCCTGCTGGGGGCGATAACGGCCACCTTCATCCGCCGGTTCGTCCCCAAAACGCCCGCCAGGGTAAGCGTCCTGCGGGAAGCCCAAAATGCGTGA	MSPTAARKPRPKLTRRRPARVEPAPQLLLASQLIFNIGFYAVVPFLAVAMRNDFGMGAMAIGIVLGARTFAQQGMFLFGGALADRWGARQSMITGCLVRIAGFLLLVWATDFPLFLLGAIITGIGGALFSPALQSLVAAAAEGGTSRADGQEPGTGNDRANSGAAPQNNRATLFALLVICGEVGVVVGPLLGSLLLHTGFDTSLLAGSAVFAVMALVFWLFLPKAPAQAPKTSADLTGQAPPSGLWSCLKDKRFIGFAAFYSVNLLATNQLYFGLPVELERSGAGVQALAVVFAYASVLTITLQWPIARLMRKAGPKTALPLGFALQSMGFASLGVLAVVPPPSELPILPALLLVTGLALGNMCVTPMAMGLVLEFSAGRPTGAYYGLLASAGGLAVVIGNAALAPLYELAYTPSGTALAPWLLLSLLGAITATFIRRFVPKTPARVSVLREAQNA				NA	NA	NA	NA	NA
D1-29_02355	864			hypothetical protein	ATGAGGGCCAGAAAATTTCTCACACCCGAGTTCTGGCCCCAGGCTGAAAAGCTCTGCTACTACGTTCTCCTCCCCGCCCTGTTTGTCCATGGGACCGCTAACGCTGAACTCTCCCACCTGCCGATCGGTGCGATGGCCCCCGTACTGGCCGGATCAGTCATCCTGACTGCCATCGCACTGGTCCTGGTGCAGCAACGGCTCAGCTTCAACGGGCCAGCCTTCACCTCAGTGGTGCAGGGAAGCATCCGGTTCAACAACTACCTGGGACTTTCCATTGCCGTGGTCCTCTACGGGGAACAGGGGGTGGCCCTGGCAGCCGTCACGAATGCAATTCTCGTCCCGGTGGTCAATGTGCTGTGCACTATCGCCTTTGCCCGCTATGGCAGCAAACCGCTCTCGATCACGGGAACACTCCGGAGCCTGGGTACCAACCCGCTGATCCTTGCCTGTGCGGCCGGCTTGGTCCTCAACCTCTCAGGCGCCGGATTACCGGCCGGGATCCAGGACCTGGTCCGTGCACTGGGCAGCGCTTCGCTGCCCGTGGGCCTGCTCTGTGTCGGAGCGGCCCTCAAAATCAGCAGTATCGGACGCAATTTTCCACCCATTGCCTACGCCTCGGCCGTCAAATTCCTCGTCCTGCCCGGAATCGCCGCAGCAGCCTGCGTTTTCACCGGGCTGGCCGGGCCGCCGGCCGGCATCATCGTCCTGTTCCTGGCGCTCCCTACCGCGTCCTCTGCCTACGTCATGGCCCAGGCCCTCGGCGGGGACTCCACCCTCATGGCATCGACCGTCACCCTGCAAACGATCGCCGGCGTTGTCTACCTGCCCGGCCTGCTGTTACTCATCACGTCCTGCACGGGATAG	MRARKFLTPEFWPQAEKLCYYVLLPALFVHGTANAELSHLPIGAMAPVLAGSVILTAIALVLVQQRLSFNGPAFTSVVQGSIRFNNYLGLSIAVVLYGEQGVALAAVTNAILVPVVNVLCTIAFARYGSKPLSITGTLRSLGTNPLILACAAGLVLNLSGAGLPAGIQDLVRALGSASLPVGLLCVGAALKISSIGRNFPPIAYASAVKFLVLPGIAAAACVFTGLAGPPAGIIVLFLALPTASSAYVMAQALGGDSTLMASTVTLQTIAGVVYLPGLLLLITSCTG	PGPT0001720_2148	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
D1-29_02356	567			hypothetical protein	ATGACGTTCAAGCATTACAATGAGGGGATGGTCTACAATCACGAAAACCAGGTGGGAGCTCAATTGGCAGCGGCCCTGGTGAATGCCCCGGAAGCTCAGGACCTGGAGGCTGTGCTGGAAGAATTCAGCATTCGGGAGCCCCGGCTGGATGACACGGCTGAACGAGGCCTGCGGGTATGGGCCGAGAAACTGAAGCCAACCTTTGCAGCCGAATCCGTGGAGGAACGATGTACCGCCATCAATGCGCTCCTCGACAGCGCCGCCGGGAGAGTGTCCCTCACCACCCATGACGGCTCGCGGCCGCACCTCCACCTTTTCCCCGAAGGTGATGACGTCCTGTCCCGGGTCAAGGCTGTCACGGCCGGCGGGCTCGCATTGTTTATTGCCTGGAGCGGTGGCGAACGGATCGGCATGTGCGCCCGGCCGAGCTGTTTCAACGCATTTGTTGACAACTCAAAGGCAGGCAGGCAGCGGTACTGCAGCGCCCGATGTGGAAACACCGACGCCGTCGCACGGCACCGTCAGCTGCAAAGGAAACCACGTGTCCGTGCCGATGCGGCATGGTGA	MTFKHYNEGMVYNHENQVGAQLAAALVNAPEAQDLEAVLEEFSIREPRLDDTAERGLRVWAEKLKPTFAAESVEERCTAINALLDSAAGRVSLTTHDGSRPHLHLFPEGDDVLSRVKAVTAGGLALFIAWSGGERIGMCARPSCFNAFVDNSKAGRQRYCSARCGNTDAVARHRQLQRKPRVRADAAW				NA	NA	NA	NA	NA
D1-29_02357	573	puuR_2		HTH-type transcriptional regulator PuuR	ATGGCCAGCGAAACCGACCTTACTCAATCCCAGCTAGGTGAACGGGTCCTCCAGTTTCGCTCACTTCGGCGCATGTCGCTCAAGGAACTGGGCGAAGCGAGCGGGACCACCGCCGGCTTTCTTAGCCAGCTTGAACGTGGCCTGACAAATGCCAGCATCGGTGTCCTGCGGCGGATCGCGGCTGCTTTGGGCATGACCCTGGCGGACCTTTTCGAGGAACTGCCTGCGGGCTCTCCCCGTCTGTTGCGCCGCGAAGTCCGGCCGGAACTGCAGACTAACGCGGGGATCCACAAATTCCTTATCTCCCAGCGGCCGCTGAGGCACCTGGAAGTTTACGCGGGAGAGTTTGAGCCGGGATCATCAACCGGGGACGAGCCGTATACGCACGGTGACGCGCAGGAAATCCTTTATGTGACAGCCGGCGAAATTGTCATCGAGCTGGATGGGGAACCATACGCCATGCAGCAGGGCGACAGCATGGATTACATGTCCTCCTTGCCGCACAGAATCATCAACAACAGCAGCAAGCCTGCTGAGGTTCTTTGGATCGTGAGCCCACCAACAAGCATCTAG	MASETDLTQSQLGERVLQFRSLRRMSLKELGEASGTTAGFLSQLERGLTNASIGVLRRIAAALGMTLADLFEELPAGSPRLLRREVRPELQTNAGIHKFLISQRPLRHLEVYAGEFEPGSSTGDEPYTHGDAQEILYVTAGEIVIELDGEPYAMQQGDSMDYMSSLPHRIINNSSKPAEVLWIVSPPTSI				NA	NA	NA	NA	NA
D1-29_02358	1512	bauC_4	COG1012	Putative 3-oxopropanoate dehydrogenase	GTGACCCTGTCCACGACGACTACGCTGATCAACCATTTCATCAACGGTGCGGAAAGCGCGGGTGAAGGAGACCGCACGCGGCCGGTGTTCAACCCGGCGACGGGTGCGGTGTCGGGGGAGCTGCGGCTGGCGAGCCGGGCGGATCTTGATGCCACGGTGGCCGCCGCCCGTGCTGCCGCCGATTCCTGGGGTGACATCTCCCTGGCCAAACGCACGGCGGTGCTGTTCAGGTTCCGCGAACTCGTCGCCTCCCATGTGGATGAGCTCGCGGCGCTGATCACCGCCGAGCACGGCAAGGTCCTCTCCGATGCCAAGGGCGAGATCGCCCGCGGCCTGGAGGTGGTGGAGTTCGCCTGCGGCATCCCCACGCTGCTCAAGGGCGACTACTCGGACCAGGTCTCCACCGGCATCGATGTGTTCTCCTTCCGCGAGCCGCTCGGTGTGGTCGCAGGGATCACCCCGTTCAACTTTCCGGTGATGGTGCCGCTGTGGATGGCGCCGATGGCGATCGCCACCGGCAACGCGTTCATCCTCAAGCCCTCCGAACGCGATCCGTCCGCGTCCATGCTGCTGGCTAAGCTGTGGAAGGAGGCAGGTCTGCCGGATGGGGTGTTCCAGGTCCTGCACGGCGGCAAGGAAACCGTCGACGGGCTCCTGACCCACCCGGACGTGGACGGGATCTCCTTCGTCGGGTCCACCCCGATCGCCCAGTACGTCCAGGAGACCGCCACCAAGCACGGCAAACGCGTCCAGGCCCTGGGCGGGGCGAAGAACCACGCCATCGTCATGCCCGACGCTGACCTGGACAACGCCGCAGACCACCTCGCCGCCGCGGCGTTCGGCTCCGCCGGGGAACGCTGCATGGCCATCTCGGTCGCCGTCGCCGTCGGGGACGCAGCCGACCTTTTGGTCAAGAAGGTCGAAGAGCGCGCCCTGGCGGTGAAGGTGGACAACGGCACCGCGCCCGGCGCCGAGATGGGCCCGGTCATCACGCCCGAGTCCCGGGAACGGATCGTGCGGATCGTCACCGAAGCCGAAGCCGCGGGCGCGGCCATGGTCGTGGATGGCCGGGATCTCGTCGTCGAAGGCCATGAGGACGGCTTCTGGGTCGGACCCACCGTGATCGACCACGTCAAAACCGAAATGACCGCCTACACCGAGGAAATCTTCGGACCGGTCCTCGTCGTTGTCCGCGTTCAGGACCTGGAGGAGGGGATCAGGCTGATCAACGCCAACCCGTACGGCAACGGCACCGCGATCTTCACCTCCTCCGGCGCGCACGCCAGGAAGTTCCAGCGCTCCGTGGACGTCGGAATGATCGGCATCAACGTCCCGCTGCCCGTCCCCGTCGCGTACCACTCGTTCGGCGGCTGGAAAGCCTCGCTCTTCGGGGACAAGCACATCTACGGCCCCGAAGGCGTCTCCTTCTACACCCGCGGCAAAGTGGTCACCTCCCGCTGGCCAGAACCCACCCAAGCCTCCGGCGCCTCCTACAACTTCCCCTCCAACTAG	MTLSTTTTLINHFINGAESAGEGDRTRPVFNPATGAVSGELRLASRADLDATVAAARAAADSWGDISLAKRTAVLFRFRELVASHVDELAALITAEHGKVLSDAKGEIARGLEVVEFACGIPTLLKGDYSDQVSTGIDVFSFREPLGVVAGITPFNFPVMVPLWMAPMAIATGNAFILKPSERDPSASMLLAKLWKEAGLPDGVFQVLHGGKETVDGLLTHPDVDGISFVGSTPIAQYVQETATKHGKRVQALGGAKNHAIVMPDADLDNAADHLAAAAFGSAGERCMAISVAVAVGDAADLLVKKVEERALAVKVDNGTAPGAEMGPVITPESRERIVRIVTEAEAAGAAMVVDGRDLVVEGHEDGFWVGPTVIDHVKTEMTAYTEEIFGPVLVVVRVQDLEEGIRLINANPYGNGTAIFTSSGAHARKFQRSVDVGMIGINVPLPVPVAYHSFGGWKASLFGDKHIYGPEGVSFYTRGKVVTSRWPEPTQASGASYNFPSN	PGPT0002295_1526	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
D1-29_02359	996			Zinc-type alcohol dehydrogenase-like protein	ATGAAAGCGTTCGTCATCAGGAAGTACAAAGGCCCCCTCCAGGAAGCGGATGTCCCGGAGCCCACCCTGGGGGAGCACGATGTGCTGGTGCAGGTGCAGGCAGCAGGTTTGAACGTGCTTGATGAGAAGATCCGCGCGGGTGAGTTCAGGCAGATCCTGCCGTACAAGCTTCCTTTGATTCCGGGCAACGATGTGGCCGGGACCGTCATCCGTGTCGGCTCGAAAGTCCGTTCATTCACCGCCGGCGATGAGGTTTACGCACGGCCCCACCAGGACCGGATCGGCACCTTCGCCGAGCGGATCGCCGTCGCGGAGGCTGATCTGGCGCTCAAGCCGGAATCGATCAGCATGGAGGAGGCCGGCTCCCTGCCCCTGGTGGCGCTGACCGCGTGGCAAGCACTCGTTGAGCGCGGCCAGGTGAAGCCCGGACACAAGGTCCTGATCCACGCCGGCGCGGGCGGAGTGGGGTCCATCGCCATCCAGCTGGCCAAGCATCTCGGTGCCACAGTGGCCACCACAGCCAGCGCGGCCAATCTGGACTTCGCGCGGGAACTCGGCGCTGACACTGTCATCGATTACCGCAGCCAGGACTTCGAACAGCTCCTGAGCGGCTATGACCTGGTGCTGGACAGCCTCGGCGGAGAAAACCTTCAGAAGTCCCTGCGCGTGCTCAAGCCCGGCGGGAAGGCGATCGGGATCACCGGGCCTCCCGACCCGGCGTTTGCCCGTGAGGCAGGCCTGAATCCTGTGCTCCGCCTTGCCATCGCTGCCCTGAGCGCAGGCATCCGGCGTCAGGCCAGGAAGCTGGGCGTCAGCTACGAGTTCCTGTTCATGCGCGCCAGCGGCGACCAGTTGCGACTGATTACCGCATTGATCGACGACGGCACCTTGCGTCCCGTCGTCGGAAGGGTCTTCCCCTTCGACCGGACCATTGAAGCCCTTCATGGCCTGGAAAAGGGCGGCATCCGCGGCAAGGCCGTTATCAGCATCCCCTAA	MKAFVIRKYKGPLQEADVPEPTLGEHDVLVQVQAAGLNVLDEKIRAGEFRQILPYKLPLIPGNDVAGTVIRVGSKVRSFTAGDEVYARPHQDRIGTFAERIAVAEADLALKPESISMEEAGSLPLVALTAWQALVERGQVKPGHKVLIHAGAGGVGSIAIQLAKHLGATVATTASAANLDFARELGADTVIDYRSQDFEQLLSGYDLVLDSLGGENLQKSLRVLKPGGKAIGITGPPDPAFAREAGLNPVLRLAIAALSAGIRRQARKLGVSYEFLFMRASGDQLRLITALIDDGTLRPVVGRVFPFDRTIEALHGLEKGGIRGKAVISIP	PGPT0006375_1232	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
D1-29_02360	867	cpo		Non-heme chloroperoxidase	ATGAATGCGCAGGAAACCCCTCAAGAGTCCGTCATCACCTCCTACGCCAAAGCGCCGGCCCGCACCATCAACGCCGGCGGCGTGAGCTACGCCTACCGCGAACTCGGGCCCAAGGGCGGCATTCCTGTCATCTTTTTCGTCCACCTCGCGGCGACCCTGGATAACTGGGACCCCCGCATCATCGATCCCATAGCCAAGAATCATCACGTGGTCACGTTCAACAACCAGGGTGTCGGCGCCTCCACCGGACAGGTGCCCGACAGCATCGAGGCAATGGCGGATGACGCCTACACGTTCATCAAAGCCCTCGGACACAAGAAGATCGATATCTTCTCCTTCTCCCTCGGCGGCATGGTGGCCCAGGCCCTGGTCCTCAAACACCCTGGCCTCGTCCGCAAGATCGTCCTCACCGGCACCGGCCCCAAGGGCGGAAAGGACATGGACAAGGTCATCGGGACCACCTACTTCGACATCCTCCGCGCAGCCCTGACCCGGGCCGACGCCAAGGAATTCCTCTTCTTCAACCGTGACGCCGAAGGCAAGCGGGCCGCGAAAGCATTTGTGAAACGGCTGGCGGAGCGCACCGAGCACCGCGACGCCCCCATCAAGGTCAAGGCCTTCCAGACCCAGCTCAAAGCGATCAGCAAATGGGGGCACGGGACGCCCGCTGACCTGTCCACGATCACCCAGCCCACCCTGATCGCCAACGGCGATAACGACCGCATGGTCCCCTCGGTTCTCTCGGAGGACCTGCACCGCCGCATTACAGGTTCCGAGCTGATCATCTACCCCGGCTCGGGCCACGGCGGCATCTTCCAGTTCCATGAGAAGTTCGCCCCCGTCGCGGTCGAGTTCCTCGCCCGCTGA	MNAQETPQESVITSYAKAPARTINAGGVSYAYRELGPKGGIPVIFFVHLAATLDNWDPRIIDPIAKNHHVVTFNNQGVGASTGQVPDSIEAMADDAYTFIKALGHKKIDIFSFSLGGMVAQALVLKHPGLVRKIVLTGTGPKGGKDMDKVIGTTYFDILRAALTRADAKEFLFFNRDAEGKRAAKAFVKRLAERTEHRDAPIKVKAFQTQLKAISKWGHGTPADLSTITQPTLIANGDNDRMVPSVLSEDLHRRITGSELIIYPGSGHGGIFQFHEKFAPVAVEFLAR				NA	NA	NA	NA	NA
D1-29_02361	831			hypothetical protein	ATGCACGCGAGACTTTTGTTTTTGACTATGCTCGCCATTGCGCTGGCGGGTTGTCAGTACATCGGCGAGGACGAAAAGCTAGTCAACTCGCCGACCCCGAGCGCAACGGCGCCGCCGCGGTCTGTCCAAGACAACATTGATGACGTGGCGCGTTTGCTTGAGGTATCCGAGGACGCTCCGGGAATGCCTTCGGAAGCAAAGCCCGCCGGCGAGCTGACGGTGGATCTCGCTCCGGGAGATTATGAGATCAAGGCTGCCTGTGCCGGCGTGCTTACGGCCAACCTCACCCTGGTGAAGGCCTGGGGCCCGCCGGAACCCATGGAATATCCGTGCGACACCACCCCCGTGAAGCGATTCGAGTCGCACGCCGGTGGTCCCCTCACGATCCGTGCGGAGCCGTTGACCGGCGACGCGGCTGTTGCCGGCGTAACCGACGCGGCTGTTGCCGGCGTAACCGTGGGGCCCAACGGTGACCCGCAGGGTCCAAGGTCGCTGGACCTGTTGAAGTGGTCACTACAGCAGCTGAAACCAGAGTTGCCCGGTGAAATATTCGGGGCCGGGGAGTCGAATACAGATGTCAGCTACGGAAGTGGAAGGTCGGCTGCACAGGGGACGTACGAACTGCATTTCCTCTGCGAAGGACCATCCGAGGCCGAGCTTTCAGTGTCGGCCTCGGATGGCGCCGAAGTTTTCGGGCCCGTACAGGTCTCATGCGATGGGGGCGTTTATAAGGCAACCGTGCAGCTGGCCACGCAAGGAGCCGACGTCAAGGTGACTCCCGCTGCTGGTCCAGACGTCCGCTACGCCTTCAGGCTTGTTCCCTCCACCTAG	MHARLLFLTMLAIALAGCQYIGEDEKLVNSPTPSATAPPRSVQDNIDDVARLLEVSEDAPGMPSEAKPAGELTVDLAPGDYEIKAACAGVLTANLTLVKAWGPPEPMEYPCDTTPVKRFESHAGGPLTIRAEPLTGDAAVAGVTDAAVAGVTVGPNGDPQGPRSLDLLKWSLQQLKPELPGEIFGAGESNTDVSYGSGRSAAQGTYELHFLCEGPSEAELSVSASDGAEVFGPVQVSCDGGVYKATVQLATQGADVKVTPAAGPDVRYAFRLVPST				NA	NA	NA	NA	NA
D1-29_02362	723			putative oxidoreductase	ATGCCCTCACTCAATGGAGCAGTTGTCCTCGTCACCGGAGCAAACGGCGGCATCGGAACCCACTTTGTGCACGATGCCCTCGCCCGAGGCGCCAGCAAGGTCTACGCCACCGCCCGCACGCCCCGAACCTGGGAGGACGAGCGCATCATCCCGCTCACCCTCGACGTCACCGATTCCGCCTCCATCCAGGCAGCCGTCTTGGCAGCCGGCGACGTCACGGTGCTGATTAACAATGCCGGAGCCAACGTCGCCAGCCCCGGGATCCTCAGCCACACCGATGAGGAAATCCACACCAACGTCGAGACCAACTTCCTCGGCCCGCTGTTCCTTGCCCGCGCCTTCGCGCCGATCCTCTCAGCGAAGGATGAATCGGCGATCATCAACATCCACTCCGCACTGAGCTGGTACGCCGTCGCCGGAATCTACAGCGCCACCAAGGCAGCCCTCTGGTCGGCCACCAACTCCCTGCGCCTCGAACTCGCGCCCGCGGGAGTCCATGTGGTGGGAGTTCACGTCGGGTGGGTGGACACTGCCATGGCTGCGCACGCCACCGATCCCAAGATGGACCCGGCCGACCTGGTCCGCACCGTCCTGGATGCCGTCGAAGCCGGCGACTACGAAGTTCTCGCGGACGAAACATCCGTCCAGCTCAAGGCCGGGCTCAGCGCTCCCATCGAGGCACTCTACCCGGAACTGCAGGGCACGAAGACGGGGAGCCAGTGA	MPSLNGAVVLVTGANGGIGTHFVHDALARGASKVYATARTPRTWEDERIIPLTLDVTDSASIQAAVLAAGDVTVLINNAGANVASPGILSHTDEEIHTNVETNFLGPLFLARAFAPILSAKDESAIINIHSALSWYAVAGIYSATKAALWSATNSLRLELAPAGVHVVGVHVGWVDTAMAAHATDPKMDPADLVRTVLDAVEAGDYEVLADETSVQLKAGLSAPIEALYPELQGTKTGSQ				NA	NA	NA	NA	NA
D1-29_02363	606			hypothetical protein	ATGTCTGTCGCCCCTCAATCGGTTGGCCGGCGTGAGCGGAACAAACAGGAGAAGCTGGACCGCATCACGGCCGCCGCACTGGAGCTCTTTTCCCAGCATGGTGTCGATGACGTCACCACCCAGCAGATTGCCGACAAGGCCGACATTGGCACCGGAACCCTGTTCCTGTACGCCAAGACCAAGGCTGAACTGCTCCTGCTGGTTCAGAACTCCGCCTACGCCGAAGCGCTGGTGAGTGGCAAAAAGGCCGCCGAGGGGACCGCCGATGTATTTCAGGCAGTCCTGGCCATCGTCCGCCCGGTGGTGGAGTGCAACCGCAAGCAGATCGACAATGGCCGGACATACCTTCGTGAAGTGGTGTTCGGAGACCCCGAGGAGCCACACCACCGCGACGCCCTCACCCTGACCGTTCAGACCGAAGAGGCCATTGCCGAAGTGTTGCGGCGGGACCCGCGCGTCGAGGCCGGGCATGCTGCCAAGCTCGCGCACCTCGTCGCCGCGGTCATGTTCATCAGCATGGCTGCCACCATCAACATCTCGGCTTCCGTCGAGGAGATCCTCTCGGAGATCTCAGACCACGTGAAGGCCCTGCTGCCGGCAGAGTAA	MSVAPQSVGRRERNKQEKLDRITAAALELFSQHGVDDVTTQQIADKADIGTGTLFLYAKTKAELLLLVQNSAYAEALVSGKKAAEGTADVFQAVLAIVRPVVECNRKQIDNGRTYLREVVFGDPEEPHHRDALTLTVQTEEAIAEVLRRDPRVEAGHAAKLAHLVAAVMFISMAATINISASVEEILSEISDHVKALLPAE				NA	NA	NA	NA	NA
D1-29_02364	1410	feaB_1	COG1012	Phenylacetaldehyde dehydrogenase	ATGGAAACGTACGATGCCCTGCTGGCCTCGATCACCCCGGAGTCCGGAGAAACCCGGACCATCCTCGACCCCGCCACCGGCACCGTTGTCGGCGCTGCTCCCGTCCACACCATCGAGGATCTGGAGAACGCAGTTGCTGCCGCCCAGGCAGCGCAGCCGGCCTGGGCCGCACTGGGCCACGACGCCAGGTCCGCCGCCCTCCTTAAAGCGGCCGACGCCGTCGAACGCTCTGCCGAGGAACTCGCCCGGCTGCTCTCCCGCGAGCAAGGCAAACCCCTCAACGGCCCGAACGCCAGGTTCGAGGTGGGCGCCTGCGCCGCCTGGCTCCGGGCGGCCGCCACCATTCCACTGGAACCGGAAACGGTGGTGGACGACGGCGAAACGTACGCCGAACTCCATTACCGGCCCATCGGCGTCGTCGGTGCCATCGGCCCATGGAACTGGCCCATGATGATCACCGTCTGGCAGATCGCCCCGGCACTCCGGATGGGCAACGCCGTGGTGGTCAAACCATCCAAGATGACTCCGTTGTCCGTTATGGCCCTGATCAAGGTCATCAACGAGGAACTCCCGGAGGGTCTTCTCAACGTGGTCTCCGGTGACCGCGAGGTGGGTGCCCGCCTGGCCGAACACCCCGCCGTCGGAAAGATCATGTTCACCGGCTCCACCTCCGCCGGGCGGCAGATCATCAAATCCTCCGCGGACACCATCAAGCGGCTCACCCTTGAACTGGGAGGCAACGACGCCGGCATCGTCCTGCCCGACGCCGACCCCGCCGCGATTGCCGAGGGCCTCTTTTGGGGCGCCTTCATCAACACCGGCCAGACCTGCGCTGCGCTGAAGCGCCTCTACGTCCATGACGACATCTACGACGCCGTCTGCGACGAACTCACCAAGGTGGCCGCAGCGATGCCGATGGGCGTCGGGCTCGAGGAAGCCAACGTCCTGGGCCCGCTGCAGAACCGGGCGCAGTACGACATCGTTGCCGGCCTGGTGGAAGCCGCCCGCGGCTCCGGCGCACGGATCCTCCTGGGTGGGAACCCGCAACTGGACCAGCCCGGCCATTTCTACCCCACCACCCTGGTGGCCGACATCGACAACGACAACCCCCTGGTCGCCGAGGAACAGTTCGGCCCAGCCCTGCCGATCATCCGGTACAGCACGGTGGACGAGGCTGTGGAGATGGCCAACGGGCTCGACGTCGGACTCGGCGCCTCCGTCTGGTCCCCCAACCTCACCGAAGCCCGCAAGGTTGCCGCCCGCCTTGAAGCGGGCACTGTATGGATCAACAAACACGGCGCCGTGGACCCCCGAGTTCCGTTCGGCGGTGCCAAGCAGTCCGGCTACGGCCTGGAGTTCGGCGTCGAGGGCCTCAAAGCCCTCGGCGTCCCGCAGGCCATTAACGGTTAA	METYDALLASITPESGETRTILDPATGTVVGAAPVHTIEDLENAVAAAQAAQPAWAALGHDARSAALLKAADAVERSAEELARLLSREQGKPLNGPNARFEVGACAAWLRAAATIPLEPETVVDDGETYAELHYRPIGVVGAIGPWNWPMMITVWQIAPALRMGNAVVVKPSKMTPLSVMALIKVINEELPEGLLNVVSGDREVGARLAEHPAVGKIMFTGSTSAGRQIIKSSADTIKRLTLELGGNDAGIVLPDADPAAIAEGLFWGAFINTGQTCAALKRLYVHDDIYDAVCDELTKVAAAMPMGVGLEEANVLGPLQNRAQYDIVAGLVEAARGSGARILLGGNPQLDQPGHFYPTTLVADIDNDNPLVAEEQFGPALPIIRYSTVDEAVEMANGLDVGLGASVWSPNLTEARKVAARLEAGTVWINKHGAVDPRVPFGGAKQSGYGLEFGVEGLKALGVPQAING				NA	NA	NA	NA	NA
D1-29_02365	588			hypothetical protein	ATGAAAAGCTCCGCCTCCCCTGCCCTTCCGTCCAAATACGGGACCGGCAAGGAAGCCCTGCTCCGTGCGGCCGTCGGAGTGGTAGCGGCCAAAGGCCTGCGTGGGCTCACATATCGTTCGGTGGCAGAAGCCGCGGGGGTGAACAACACACTGGTGGCCCACCATTTCGGGTCCCGCGACGCGTTGATCGCCGCAGCGCTGGACTGGGCGGCGGACCAGTCCATCAATGCGTCCCAGCTGCGGGAAGCGGCAGCAGTGGGGCATTCCTTCACGGAGTCACTCCTGGAGCTCTTGCTGGCCGAACCGGAACTGCAGGCCTTCCAGTACGAGATGATCCTCGAGGCCCGCCGCCGGCCTGAGCTGGCGGGCGCGGTCACCTCCCTCTACGAGAACTACGTCAACGCCCTGGCCGAGGGCCTCATTGCCTCCGGAGTCACGGAGAACGTGAGTGTTGTGGCCCGGACACTCTTCGCCGCGCTGGACGGCCTGGTACTCCAGTACCTTGCTGGTGTGGACCGCGCACTCATCGCGGCATCCCTTGAGGAAGTCCATGAAGTGCTGCTCCTCCGGACCGGCCCGCAACACTAA	MKSSASPALPSKYGTGKEALLRAAVGVVAAKGLRGLTYRSVAEAAGVNNTLVAHHFGSRDALIAAALDWAADQSINASQLREAAAVGHSFTESLLELLLAEPELQAFQYEMILEARRRPELAGAVTSLYENYVNALAEGLIASGVTENVSVVARTLFAALDGLVLQYLAGVDRALIAASLEEVHEVLLLRTGPQH	PGPT0014935_138	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014935-rcdA-K23778	NA	NA
D1-29_02366	345			hypothetical protein	GTGCCACAAACTCCTGCCTTCACCACTTCATCCGCCCTCGACCCCAACAAGAATGAACCCTTCGAACTTGGCCAGATCCAATGGGTCCGCCGCTTTGGAGAAGGCGGCCGCCCGGACCTCGCCTGCGGATACTGGCACGTCACGCCCGCGGAGGCGCCCCAGCCCTTCGACCTGGTGATCCACGCCGACGAGACCATTTCCCTTGTTGAAGGGCACCTCCGGATCGAGGTGGAGGGCGGGGACTCCTACGACCTCACCGCCGGGTGCGCAGCGTCCTTCAACAAGGGCGCCCGCACCAGGTGGGAAGTCCTGGCGCCCACCGTCGAATTCTTTGTGTACTCCTAG	MPQTPAFTTSSALDPNKNEPFELGQIQWVRRFGEGGRPDLACGYWHVTPAEAPQPFDLVIHADETISLVEGHLRIEVEGGDSYDLTAGCAASFNKGARTRWEVLAPTVEFFVYS				NA	NA	NA	NA	NA
D1-29_02367	1323	pao		Pseudooxynicotine oxidase	ATGGACGTTGAACTGTACGACGGCGTTGAACTCTACGACGCTGTGGTGGTCGGGGCCGGCTTCGCGGGGCTCACGGCTGCCCGCGAGCTCAGCAGGCAAGGACTGTCCGTCCGGATCGTGGAGGCCCGCGACCGGATCGGCGGACGCACGTGGCTGGACCGCCGGCTGGGGCGCGACCTGGAAATCGGCGGCACGTGGGTGCACTGGACCCAACCCTATGTCTGGGCCGAGCTGAAGCGCTACGGCCTGGACACCACGCCCAGCCCCGAGCCGGAACGGGCCTTCTGGTGGGCGGACGGGCGCCGCCATGAGGGCGGGCCGGAGGAGTTGCTCGGTCTCATCGGCGGGATGAACGGCGAATTCGTGAAGTACTCCCGCGAATACTTTCCCGAACCGTTCAGGCCCCTGTCCCGCGACAATTTCAAGGCCATCGACGATGTGTCCGTCCAGGACCGGATCCGCGCCCAGTTCCCCGCCTGCGCCCAGCGCGACATCCTGGAATCCTTTTGGACGTTGAACTTCAACGGTCCGCTGCAAAATGCTGCCCTGACCCAGGCCCTTCGCTGGGTGGCCCTGACCAACGGAGACTGGACGGTCAACTTCGAGGCCTGCGCCACCTACAAGATCGTCGGCGGCACAGCTGCCCTCGCCGACGCGATCCTCGCGGACTCGGGGGCCGGCGTCGAACACGGTTTCACCGTGGGCAGCGTGCACGACGCCGGCACCTCGGTGGCCATCCACAGTACCGATGGGCGGAGCATCAGCGGGCGGACCGCGATTATCACCGTGCCCCTGCATGCGATGCGCGCGGTGAGCTTCGAGCCGCCACTGTCCGCCGCCAAGAACGAAGGACTCAGCCTCGGCCAGGTGTCCAAGGGAGCCAAGGTCTGGATCAGGCTGAAGGGGGACCACCCACCCTTCGTGGCCTTGGGCGGCGCCGACTGGCCCCTGAATTTCTTCCAGGCGGAGTATGGCATCGACGGCGACACCATCGTGGTGGGCTTCGGTCCGGACGCCGCAGAAATCAACGTGGAGGACGCGGCGGCTGTCCAGGAGCAGCTGGTGCGCCTTGTCCCGGAGGCTGAGGTGATGGGCGTGGCCAGCCACAACTGGGTGGAGGATCCACTGTCCGGTGAAACGTGGCCCATGCACGCCACCGGATTCCTGTCCCGGCATCTGCCTGCCATGCAGGAGGCCCATGGCCTGGTCCGGTTTGCGGGCTCGGACATCGCCAACGGCTGGGGCGGTTTCATCGACGGCGCCATCGAGAGCGGCATGGAGGCCGCCCTCGCCACTGCTGCTGCGCTGAGGAACAACAACTGA	MDVELYDGVELYDAVVVGAGFAGLTAARELSRQGLSVRIVEARDRIGGRTWLDRRLGRDLEIGGTWVHWTQPYVWAELKRYGLDTTPSPEPERAFWWADGRRHEGGPEELLGLIGGMNGEFVKYSREYFPEPFRPLSRDNFKAIDDVSVQDRIRAQFPACAQRDILESFWTLNFNGPLQNAALTQALRWVALTNGDWTVNFEACATYKIVGGTAALADAILADSGAGVEHGFTVGSVHDAGTSVAIHSTDGRSISGRTAIITVPLHAMRAVSFEPPLSAAKNEGLSLGQVSKGAKVWIRLKGDHPPFVALGGADWPLNFFQAEYGIDGDTIVVGFGPDAAEINVEDAAAVQEQLVRLVPEAEVMGVASHNWVEDPLSGETWPMHATGFLSRHLPAMQEAHGLVRFAGSDIANGWGGFIDGAIESGMEAALATAAALRNNN				NA	NA	NA	NA	NA
D1-29_02368	1554			hypothetical protein	ATGCTGGATTTCACGCTGCCTTCCCCCTCGGGTGGCACCCTTTCCCCAACACTCATGACCGTTAAGAAGGATCCAATGAGTATTTCGAATTCCGAATCCCGGACCACCGAAGCCGCTCCGCGCGAGGAGCACTCCACCGCGCTCCGCGCCGGCAGCATCGGCGTGATGGGCATCCTGTTCTTTGTCCTGTCCGCCCAGGCGCCCCTCACGGGGATCGTCGGGGCTTCGCCGCTCGCGGCTGCACTCGGCAACGGCGCCGGTGCACCCGGTGCCTACCTGGTTGTTGGCATCGTGATCGTGATCTTCGCGGTGGGCTTCGTCGCGATGAGCCGCAAGATCCAGGCCAATGGCGCCTTCTACGCTTACGTCACCGCCGCGTTCGGGCGGAAGATCGGCGCTGGCGCGGCCTGGCTGGCGCTGCTCGCCTACAGCACCGTCCAGGCCGCCATGTACGGACTCTATGGCGCCGCGTTTTCCGGCCTGCTGGCGTCAATCGGAGTGGAAATTCCCTGGTGGCTGCTGGCTTTGGTGACGATGGCCGGCGTCCAGGTCCTGGGCTCCCTGAACATCGAACTTGGCGCCAAGGTCCTGGCCCTCCTGGTGGGACTGGAAGTGGCCGTCCTGCTGATGTTCGGCTTCACCGTCCTGTTCCGCGGTGGCGGTCCCGAAGGCCTCAGCCTTGCCGCGTCCTTCTCACCGGAGGCCATTTCGTCAGGCGCCCCCGGTGTAGCCATCATGTTCGCGGTGGCCTCCATGTTCGGCTTCGAATCCACGGCGATCTACTCAGCCGAAGCCAAGGACGCGCACAGGACGGTGGCGCGGGCAACCTATTTGTCGGTGGGTGTTATTGCCGTGTTCTTCTCCTTCATCTCGTGGATGCTGGTGAGCTACTACGGCCCGTCGCAGGTGATCGACGCCGCGGGTGCGGCCCTGGAGTCCGGCGACTCCACCGCCTTTGTCCTCACGCCGATGGTGGAGCTGTTCGGGCCGTGGGCAGGAGTCACCACCGGCATCCTGCTGGTCACGTCCCTGCTCGCCGGGATCATCGCCTTCCACAACGGCATCAACCGCTACCTCCATTCGCTGGCTCTTCGCGGTTCCCTGCCAGCAGTCGTTGCCCGGACCAACCGGCACCAGGCACCCGCCGCGGCTGCCTGGATCCAGACGGCCACCGCCGTCGTCCTGGTGGCGCCCTTCGCCGTCCTGGCACTGGACCCGGTCCTGACCCTTTTCTCGTGGTTCAGCGGGCTGGCTGTTGCGGCACTCCTGGTGTTGTACATCCTCTGCTCCCTCGCCGTCGTTGGCTTCTTCCGCCGGGAACGGGTTCCCGGGCAGCTCTGGCAGACCCTGCTGGCGCCGGCGCTTGCGTCACTGTTGCTGGCCTGGGTCCTGTACCTGGTGGTCAGCAACTTCACGTCGCTGATCGGCGGCAGCGCAGAGACGGCAGTTGCCCTGCTGGTGGCGGTCCCGGTGGTGTTCGCGGCCGGCCTGCTGGTGGAAGGCCAGGTGGAGCGCCGCCGGGTGGCTGCCACCCTGGGGCACTCCGTCAGCTAA	MLDFTLPSPSGGTLSPTLMTVKKDPMSISNSESRTTEAAPREEHSTALRAGSIGVMGILFFVLSAQAPLTGIVGASPLAAALGNGAGAPGAYLVVGIVIVIFAVGFVAMSRKIQANGAFYAYVTAAFGRKIGAGAAWLALLAYSTVQAAMYGLYGAAFSGLLASIGVEIPWWLLALVTMAGVQVLGSLNIELGAKVLALLVGLEVAVLLMFGFTVLFRGGGPEGLSLAASFSPEAISSGAPGVAIMFAVASMFGFESTAIYSAEAKDAHRTVARATYLSVGVIAVFFSFISWMLVSYYGPSQVIDAAGAALESGDSTAFVLTPMVELFGPWAGVTTGILLVTSLLAGIIAFHNGINRYLHSLALRGSLPAVVARTNRHQAPAAAAWIQTATAVVLVAPFAVLALDPVLTLFSWFSGLAVAALLVLYILCSLAVVGFFRRERVPGQLWQTLLAPALASLLLAWVLYLVVSNFTSLIGGSAETAVALLVAVPVVFAAGLLVEGQVERRRVAATLGHSVS				NA	NA	NA	NA	NA
D1-29_02369	1266			hypothetical protein	ATGACAAACCCATATCTGAAAGTCATCGCCGGGATCGACACACACGCCGACACCCATTACGTCGCAATCATCGACGAGACCGGCAGACACCTCATGGACAAAGAATTTCCCGCCGTTGGGTCCGGCTACCGGAATATTGTCGAGTTCATTACCGGGTTCGGCCCGGTGGTTGCCGCCGGAGTGGAAGGCACCGGCAGTTACGGCGCCGAACTCGCCCGTGTCCTGACCAGGGAGGGCTTCCGGGTTCTGGAAGTCATGCGCCCGAACCGGCAGGGACGCCGGCTGCGGGGCAAATCGGACGCTCTGGACGCCTACCAGGCGGCAGAAGCCGCGCTGGCCGGCCGGAACGTCGCAACACCCAAATCCCGGGACGGCGCGGTGGAATCCCTGCGGGTCCTGCGCGCCGAACGGGCGACGGCCATGCGCGCCAGGGTAGCGGTCATGGCGCAGATCAAAAGCATCCTTACGGCTGCACCCGAGGCGTTACGGGCCAAATACCGGCGGCTGACCCGCGCCCCGATGATGGCCGCCCTGGAGAAAACCCGGCCGGCCGGAAACATGTCTGACCCGTTGATCGCCACCGCGGCCGTGCTTAAACGCCTCGCGATCCGTTACCGCGCCCTGGATCAGGAACTGGCGGTCATTGATGCCGAGTTAGACGCGATCGTGACAACCCACGCGCCGATGCTCCGTGACCTGCACGGGGTCGGCACCGACGTGGCAAGCCAGCTCCTGGTCACCGTGGGCGACAACCCCGGACGGATCGGCACCGAAGCGCAGTTCGCAGCCCTCGTGGGCGTCGCGCCGATCCCCGCGTCCTCGGGAAAGACCATGCGGCACCGGCTCAGCCGTGGCGGCGACCGGCGGGCCAACAAAGCCATCCACCACGTTGCCCTGGTACGGATGATGAGCGACACCCGCACCAAAAATTACGTCGCCAGACGCCGGGCCGAAGGGAAAAGCACCAAGGAAATCATCCGCTGCGTCAAACGCTACATCGCCCGCGAAGTCTACGATCAGCTGATCCATCCACAACCAGCACCAGACGCCGGAGCCCTCCGCACCCTACGCCAAACGAAGAACATCACCCTCCAGGCCGCCGCGGACAGCCTCCATGTCTGGCCCACAGCACTGTCCCGGCTCGAACGCGGACTCACCCGCCACGACGACTTCTACCAACACTACGAAACCTGGCTCAACTCTCAATCCCAAAAACCGCGAAGAGGCACCCGGGAGGTTGCAGGACTGACCGGGCAGTTTGCCTAG	MTNPYLKVIAGIDTHADTHYVAIIDETGRHLMDKEFPAVGSGYRNIVEFITGFGPVVAAGVEGTGSYGAELARVLTREGFRVLEVMRPNRQGRRLRGKSDALDAYQAAEAALAGRNVATPKSRDGAVESLRVLRAERATAMRARVAVMAQIKSILTAAPEALRAKYRRLTRAPMMAALEKTRPAGNMSDPLIATAAVLKRLAIRYRALDQELAVIDAELDAIVTTHAPMLRDLHGVGTDVASQLLVTVGDNPGRIGTEAQFAALVGVAPIPASSGKTMRHRLSRGGDRRANKAIHHVALVRMMSDTRTKNYVARRRAEGKSTKEIIRCVKRYIAREVYDQLIHPQPAPDAGALRTLRQTKNITLQAAADSLHVWPTALSRLERGLTRHDDFYQHYETWLNSQSQKPRRGTREVAGLTGQFA	PGPT0030635_535	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
D1-29_02370	1638			hypothetical protein	ATGGACAACGGGGAAGTCTTGGAGGCAGTCGAAGCACCTGGTGCTGCCCTGGTCCTGATCGAAGCGGCCTCCTCCGCTGCTGCCACAGGTTCTGATACTGACTCTGACTCGGGAGCCGCTTTTGATGCTGGCGCTGGTTCTGATCCGTTGCGGGATTTGGCGGAGGAGTGCCTGGCCGAGATGGCGGAGGCGGCCCGTGACGAGGCGCGGGCGGCAGCGCGGAAGGCCCGGGCGGCCGCCACCTACGCGGACACCTGCCGGCGCCTGCTTCCACCGTCGACGTCGCTGCACGAACAGTCCGTGGCGGAGATAGGCATGGTCGCCGAGGTCGCCTGTGCCCTGACCATCAGCGAAGGCGCCGCATCAGCGTTCCTGGTCCAGTCCCGCCAGCTGAGCACCGAACTGCCCCGCACCCTCGCGGCCCTGCAGGCCGGGACCCTGTCCTGGCAGCACGCCCGGATCCTCTGCGATGAAACCACCGGCCTGGGCCCCGACGGGGCGGCAGCCCTGGAAACACACTTCCTGGACCCCGACGCCGCCAAGGCTTCCCGCGCCTGCCTGGCCGGGGACCTTACACCCTCCCGGTTCCGCGCCAGGGCCCGGACCTGGCGCGAACGCCACCACCCCGTCTCGATTGAAACCCGCCACACCAAGTGCGTCCTGGACCGCCGGGTCGAATACACGCCGGACCGCGACGGGATGGCCTGGCTCTCCGCCTACCTCCCCGCAGATCAGGCCGCCGGCATCTGGGAACACACCACCACCACAGCCCGGGCACTCCAAGGCCCCACCGAATCCCGCACCCTCACCCAGCTCCGCGCCGACGCCCTCGCCGCCGCACTCCTCGGCGGAGAGACCACCAACCCCGGCAACATCAGCAGTTCAGCACTCATGGGTGGCGGGAGCGCCAATGGAGGGATAAGCGGCGGCGGCAGCCCGAACGGCCAAATCACCAGCTGGCGTACCGGCAGCGGAGGGACCAACGGCGGTGGAAGCGACAACTGCTGGATAAGCGGCGGGGGAAGCGGCAGCGGCGCTCTTCTCGGTGGCGGAAGCGACAGCGGCGCAAATAGCCGGCCCGATTGGGACGGAGAGCGCGCTGCCGGGCAGGTCCCGCCGCCCCGGGCCCAGGTGCTGGTCACCGTGCCCGTGTTCAGCCTCCTGGGCCTGACCGATGAACCTGCCACCCTGGACGGCCACGGCCCCATCCCCGCCTCCATGGCAAGGAACCTGGTCGCCAACGGAGCCCACTCCTTCCACCGCGTCCTGACCGACCCCCGCGACGGCGCACCACTGGAAATCGGCCGAACCAGCTACCGGCTCACCACAGCAATGCGCCGCTGGCTCAGACTCCGCGACGCCAAATGCCCCTTCCCCGGCTGCAACAACCACTCCCTCGACAACGAAGCAGACCACCTCCTCGCCTGGGCAAACGGCGGCACCACCGGCATCAACAACCTCGGCCAGCCCTGCCGCAAACACCACCACCTCAAACACAACACCACCTGGCAACCAACCCCGGCCAGCAAAAACGAACCACCAGGCTGGACGTCACCCACCGGCCGACACTACAAAAGCGAACACCAAGACTGGGAACCACCCACCTGGCCGGACGGCACACCGAGCCGTCTCGAATGA	MDNGEVLEAVEAPGAALVLIEAASSAAATGSDTDSDSGAAFDAGAGSDPLRDLAEECLAEMAEAARDEARAAARKARAAATYADTCRRLLPPSTSLHEQSVAEIGMVAEVACALTISEGAASAFLVQSRQLSTELPRTLAALQAGTLSWQHARILCDETTGLGPDGAAALETHFLDPDAAKASRACLAGDLTPSRFRARARTWRERHHPVSIETRHTKCVLDRRVEYTPDRDGMAWLSAYLPADQAAGIWEHTTTTARALQGPTESRTLTQLRADALAAALLGGETTNPGNISSSALMGGGSANGGISGGGSPNGQITSWRTGSGGTNGGGSDNCWISGGGSGSGALLGGGSDSGANSRPDWDGERAAGQVPPPRAQVLVTVPVFSLLGLTDEPATLDGHGPIPASMARNLVANGAHSFHRVLTDPRDGAPLEIGRTSYRLTTAMRRWLRLRDAKCPFPGCNNHSLDNEADHLLAWANGGTTGINNLGQPCRKHHHLKHNTTWQPTPASKNEPPGWTSPTGRHYKSEHQDWEPPTWPDGTPSRLE				NA	NA	NA	NA	NA
D1-29_02371	696			hypothetical protein	ATGACCTTACGGCTTGCCTACACCGAGATGCTGCCCAACGAGAAGAAGGAGACCGCAGCAGCGTTCTGGAAACGGGCCAACGAAGCCTTCGTAGCCGCCGGCATTACAGTGACCTGGGTTTTGACGGATAACGGCTCCTGCTACCGCTCCCGCCTCTTCGCCCAAGCCCTCGGCCCGCACATCAAACACAAACGGACCCGCCCCTACCGGCCCAAACAAATGGCAAGGTCGAACTGTTCAACCGCCCCCTGCTCGAAGAGTGGGCATACGCCCGGCCCTACACCTCAGAAGCGGAGCTGGTCGCCGCCTTTCCATCCTGGCTGCACCACTACAATCACACCCGAGGCCACACCTCACTCAAAGGTCAACCACCGGCCAGCCGCGTTACCAACCTCCGTGGTCAATACAGCTAGATGCCCCATGGGGAGGGGAAGCAAAACCGGCAGTGGCCCGGCGCGGAAGTACTCCGCGCCGGGCCATTTGCTTTGGGCGAGCTTTCCAATGCACGATATTTGCCGCCCGACGGGCGGCAGGTTGCTTAGCGCTCAGCGGCGCCGGTTACTGAGCTGGGGTAGGGCCGGTCAGGCGCCCCGGCGCCAGTCGCTGGGGGAGACGCCGAAGGAGTCGCGGAAAATGCGGCTGAAGTGCGCTGCGTCGAGGAAACCCCAACGGGCAGCCACAGCGCCTACCGACTGA	MTLRLAYTEMLPNEKKETAAAFWKRANEAFVAAGITVTWVLTDNGSCYRSRLFAQALGPHIKHKRTRPYRPKQMARSNCSTAPCSKSGHTPGPTPQKRSWSPPFHPGCTTTITPEATPHSKVNHRPAALPTSVVNTARCPMGRGSKTGSGPARKYSAPGHLLWASFPMHDICRPTGGRLLSAQRRRLLSWGRAGQAPRRQSLGETPKESRKMRLKCAASRKPQRAATAPTD				NA	NA	NA	NA	NA
D1-29_02372	957	nphR		Transcriptional activator NphR	ATGCCAGCTGCAGTCCAGCCCGCCAGCCAGAACCTCACGTCCAGCGTTGCGCTGACGTTTGACCACTGGAAACACCTCGTCGCGGAGTCCTTTGTGCCGCTCGCGGCCAGGACAGCAGATGTTGACGGCTTCCGCGGCCAGATGCGTTCGCGCGTGCTGGACCGGATGTCCGTCGTCGAAGTCACCGCCACCTCCCACGAGGTCCACCGCACCCCTGCCCTGATCGCCCAGGCCAGCGAACGTTACTTCAAGCTCAACCTCCAGCTGGAGGGCACGGGACTGCTGATCCAGGACAACCGCGAGGCCCTGCTCCAGCCAGGTGACCTGGCCATCTACGACACCAACCGCCCCTATACCCTCGCTTTCGAGGAAGAGGCGCGGATGATGGTGGTGATGTTCCCTTGCGACGCCCTGTCGCTCCCCACCGACTACGTGGGCCAGCTTGCAGCGGTTCGAATGGCCGGCAGCACCGGCCTCAGCGGGATCGTGGGGCAGTTCATTCGGCAGCTCTCTGAGAACCTTGAGGTCCTGAGCGGTCCCAGCGGTTCGCGGCTGGCAACAAACGCCCTGGACCTCGTGTCCACCATGCTGCACGCCGAAATGGACATCGCCCCGGACCGGATGAAGCCGCAGGCCCTCCTGGCCGTGTCGGTGCGCGAATACATCGAGGCCAACTTGTCAGATCCACTGCTGTCACCGGCCAGCATTGCGGCTGCGCATTTCATCTCCACACGGCACCTGCACAACGTCTTCCATGAATCCGGGACCACCGTGGCCAGCTGGATCAGGAGCCAAAGGCTGGACGGCGCGCGCCGCGAACTGCGCGATCCTCTGCATGCCGGTCAGTCGGTAGGCGCTGTGGCTGCCCGTTGGGGTTTCCTCGACGCAGCGCACTTCAGCCGCATTTTCCGCGACTCCTTCGGCGTCTCCCCCAGCGACTGGCGCCGGGGCGCCTGA	MPAAVQPASQNLTSSVALTFDHWKHLVAESFVPLAARTADVDGFRGQMRSRVLDRMSVVEVTATSHEVHRTPALIAQASERYFKLNLQLEGTGLLIQDNREALLQPGDLAIYDTNRPYTLAFEEEARMMVVMFPCDALSLPTDYVGQLAAVRMAGSTGLSGIVGQFIRQLSENLEVLSGPSGSRLATNALDLVSTMLHAEMDIAPDRMKPQALLAVSVREYIEANLSDPLLSPASIAAAHFISTRHLHNVFHESGTTVASWIRSQRLDGARRELRDPLHAGQSVGAVAARWGFLDAAHFSRIFRDSFGVSPSDWRRGA				NA	NA	NA	NA	NA
D1-29_02373	1098	dthadh		D-threo-3-hydroxyaspartate dehydratase	GTGACCATTCCCCCTGAGATCGATACTCCGGACATCATGATCGATCTCGACATCCTTGAACGGAATATCGAACGGATGGCTGCTGCTGTCCGGGACAGGGGCCTCACCCTTCGCCCCCATGCCAAGACCCACAAAATCATTGAGATCGCGGCCCGGCAGCTGGCCGCCGGAGCAGCCGGCCTGACCGTCGCAACCATTGGCGAGGCGGAGGTGTTCGCTGATGCGGGAATCGACGACATCTTCATCGCCTACCCGCTCTGGATTTCACCGCACAAGGCCGGGCGGCTCCGGCACCTGGCATCAGCCGTGAGGATCTCGGTAGGCGTGGACTCTGCAGCGGGGGCCGCCATGCTCGGATCAAGCCTCGGTCATGTGGCCGGGAGGGTCAGCGTCCTGGTCGAGATCGACAGCGGCCACCATCGCAGCGGCGTCAGGCCGGAGGCAGCGGCGGCGGTTGCCGAAGCCGCGTCCCGTGCCGGGCTGCAGGTTGCGGGCGTCTTCACCTTCCCGGGCCACAGCTACGCCCCTGGGATGCCGGCAGAGGCCGCCGCACAGGAGCATCAGGCGCTGCTCCTGGCAGCCGAATCACTGGAGGCGGCAGGGTTCGAGGCCACCTGCCGAAGCGGAGGATCCACCCCTACCGCTCTTTTGACGGAGGGGTCTGCGGCCACGGAAGTGCGGCCCGGGGTCTACGTCTTTGGCGATGCGCAGCAACTGGAGCTTGGCCGGTGCGCCGTGGAGGACATTGCGCTGACTGTCGCTGCCACCGTGGTGAGTCACCATGAGACCTCCCCGGACGCTCCGGCGCGTTTCATCATTGACGCCGGCAGCAAGATCCTGGGCAGCGACAGGCCGGCCTGGGCCACCGGATTTGGGCGCCTGATGGACCACCCGGATGCCCGAATCATTGCCCTCTCAGAACACCATGCCACCGTGGAATGGCCCGGTAGCTCAACCCGGCCGGCCCTCGGCGACCGGCTGCGCGTGATCCCCAACCACGTCTGCCTGGCGATCAACCTGGTGGACGACCTCGCGGTAACCAGCCGTGGCACCCTCGTGGAGCGTTGGAACGTCGTGGCGAGGGGCAGGAACAAGTAG	MTIPPEIDTPDIMIDLDILERNIERMAAAVRDRGLTLRPHAKTHKIIEIAARQLAAGAAGLTVATIGEAEVFADAGIDDIFIAYPLWISPHKAGRLRHLASAVRISVGVDSAAGAAMLGSSLGHVAGRVSVLVEIDSGHHRSGVRPEAAAAVAEAASRAGLQVAGVFTFPGHSYAPGMPAEAAAQEHQALLLAAESLEAAGFEATCRSGGSTPTALLTEGSAATEVRPGVYVFGDAQQLELGRCAVEDIALTVAATVVSHHETSPDAPARFIIDAGSKILGSDRPAWATGFGRLMDHPDARIIALSEHHATVEWPGSSTRPALGDRLRVIPNHVCLAINLVDDLAVTSRGTLVERWNVVARGRNK				NA	NA	NA	NA	NA
D1-29_02374	597	betI_4		HTH-type transcriptional regulator BetI	GTGCCAAAGATTGTTGACCATGACGAACGCCGGCTGGAACTGGTGGATGCCACGTGGCGGATCATCGCCCGCCTGGGCATTGAAGGCGCCACCATGAGGGAGATTGCGCTGGAGGCAGGCTTCGCCAATGGCGCGCTCAAGCCCTACTTCCCCACCAAGGACAACCTCTTGGAGTTCGCGTTCGGGCACGTCTTCAACCGGACCAACCAACGCATCGCCGCAGTGACAGAAGGCAAATCCGGGCTGTCCGCACTGCGGGCCTTTTGCCTGGAGGTGCTCCCCCTGGATGAGGAACGGGTGAACGAGGCGCGGATCGTCATCCCCTTTTGGCAGAAGGCGGTCAATGACCCGCAGAAGGCGGAGATCCACCAGCAGTCCATGGACGAGTGGCTTGCTGCCATCCGGCAATATCTCGCGGAGGCGCGGGGCGCGGGGGACGTCAAGGCCGCCGTCGACGACGACACCCTGGCGAGACAACTCCTGAACATGCTGCTGGGAGCACAGATCGGGGCAGCATTGGGAGCCGGTGCCGTTGCCAGTACTGGCGCCGGCCTTGCCGACCAGCTTGAAGGGTTTCTTGCCCTGCTTGCCCGATAA	MPKIVDHDERRLELVDATWRIIARLGIEGATMREIALEAGFANGALKPYFPTKDNLLEFAFGHVFNRTNQRIAAVTEGKSGLSALRAFCLEVLPLDEERVNEARIVIPFWQKAVNDPQKAEIHQQSMDEWLAAIRQYLAEARGAGDVKAAVDDDTLARQLLNMLLGAQIGAALGAGAVASTGAGLADQLEGFLALLAR				NA	NA	NA	NA	NA
D1-29_02375	2049			Phenylethylamine oxidase	ATGATGCTTGCAGCAGCTGACACAGCAACTCCGTACCGCCTGGCATCAGCCAGCGAGGTCACCGAGGTCCAGGCCATCCTTCGCGCCGCCGGTCACCTGGGCCCGGAGAAGCGCGTCGCCTATCTGGGCCTGCTTGACCCCGCCCGCGGGGACGCCGCCAGTGCTGCCGTCGTGGGGACTGTCAACGGCGGGACGCCCGACGGCGGGACGCCCGACGGCGGTGCTGCCGCCAGTGCTGCGGTCGCCGTCGCGGTCCCTGCCGGGGACCGCCGGTTCCGGATCTTTATCCATGACATCTCTGGTGGAGCTCCCGCGGACGTGGTGGTTTCCGTGACCCGCCGGGAGGTACTGTCCGCCGTCGAACTTGATACCGGGATGACCGGTGAACTCCCGGTCCTGGAAGAGGAATTTGAGGTGGTGGAGTCGCTCCTGGCCACGGACGACCGCTGGCTGAAGGCGCTGGCGGACCGCGGACTCGACGTCACCAAGGTCCGTGTCGCCCCGCTCTCGGCAGGGGTGTTCGAGTACGCCGAAGAGAAGGGGCGGCGCATCCTGCGTGGCCTGGCGTTTGTGCAGGATTTCCCGGAGGACAGCGCCTGGGCGCATCCCGTCGATGGACTCGTGGCCTACGTCGATGTCGTCAGCAAGGAAGTCACCCAGGTCATCGACCTCGGTGCCATGCCCATCCCGTCCGAGCACGGAAACTACACGGATCCGGACCTGACCGGGCCCCTGCGCACCACCCAGAAGCCCATCAGCATCACCCAGCCTGAAGGCCCGAGTTTCACCGTGTCCGGGGGAAACCACGTGGAGTGGGAAAAATGGAGCGTGGACGTCGGCTTCGACGTCCGTGAAGGAGTTGTGCTGCACAACCTCGCCTTCCTGGACGGTGGGAGAAGGCGTCCCATCATCAACCGGGCCTCGATCGCCGAGATGGTGGTTCCGTACGGTGATCCGTCTCCCATCCGGTCCTGGCAGAACTACTTCGACACCGGCGAATATCTCGTGGGTCAGTACGCCAACTCGCTGGAGCTGGGCTGCGACTGCCTCGGTGACATCACGTACCTCAGCCCCGTGATCAGCGACGCCTTCGGCAACCCCCGGGAAATCCGCAACGGCATCTGCATGCACGAGGAGGACTGGGGCATTCTGTCCAAGCACTCCGACCTCTGGACAGGGATCAACTACACCCGCCGCAACCGCCGCCTGGTGATCTCCTTCTTCACCACCATCGGCAACTACGATTACGGCTTCTACTGGTACCTATACCTGGACGGCACCATCGAGTTCGAGGCCAAGGCCACCGGCGTCGTCTTCACCAGCGCCTTCCCGGAGGGAGGCTCGGACAACATCTCACAGCTCGCCCCCGGCCTGGGCGCACCCTTCCACCAGCACCTCTTCAGCGCCCGGCTGGATATGGCAATCGATGGCTTCACGAACAGGGTGGAAGAGGAGGACGTGGTCCGCCAGGCCATGGGACCGGGCAACGAACGCGGCAACGCCTTTTCCCGGAAGCGGACAGTGCTGACGAGTGAATCCGAAGGCAGCCGGGAGGCCGACGCCCGGGCAGGCCGGACCTGGATCATCTCCAACCCGGAGTCGAAGAACCGGCTGGGCGAGCCTGCGGGCTACAAACTGCACAGCCAGAACCAGCCCACCCTGCTGGCCGATCCGGAATCATCCATCGCCCGCCGCGCAGCCTTCGCCACCAAGGATCTGTGGGTCACCCGCTACTGCGACGAGGAACGCTACCCCACGGGGGACTTCGTGAACCAGCACTCCGGCGGGGCAGGACTGCCCGCCTACGTGGCACAGGACCGGGAGATCGACGGCCAGGACATCGTCCTCTGGCACACCTTTGGCCTCACCCACTTCCCCCGCGTGGAGGACTGGCCCATCATGCCCGTGGACACCGTCGGCTTCAAGCTCCGGCCCGAGGGCTTCTTTGACCGCAGCCCTGTCCTGGATGTTCCTGCCAACGCAAGCCAGTCCTTAGGCACCTGCCACAGAGCCGGCGGCAGTGACGCCGGCTCCGGCGCCTGCCACTAG	MMLAAADTATPYRLASASEVTEVQAILRAAGHLGPEKRVAYLGLLDPARGDAASAAVVGTVNGGTPDGGTPDGGAAASAAVAVAVPAGDRRFRIFIHDISGGAPADVVVSVTRREVLSAVELDTGMTGELPVLEEEFEVVESLLATDDRWLKALADRGLDVTKVRVAPLSAGVFEYAEEKGRRILRGLAFVQDFPEDSAWAHPVDGLVAYVDVVSKEVTQVIDLGAMPIPSEHGNYTDPDLTGPLRTTQKPISITQPEGPSFTVSGGNHVEWEKWSVDVGFDVREGVVLHNLAFLDGGRRRPIINRASIAEMVVPYGDPSPIRSWQNYFDTGEYLVGQYANSLELGCDCLGDITYLSPVISDAFGNPREIRNGICMHEEDWGILSKHSDLWTGINYTRRNRRLVISFFTTIGNYDYGFYWYLYLDGTIEFEAKATGVVFTSAFPEGGSDNISQLAPGLGAPFHQHLFSARLDMAIDGFTNRVEEEDVVRQAMGPGNERGNAFSRKRTVLTSESEGSREADARAGRTWIISNPESKNRLGEPAGYKLHSQNQPTLLADPESSIARRAAFATKDLWVTRYCDEERYPTGDFVNQHSGGAGLPAYVAQDREIDGQDIVLWHTFGLTHFPRVEDWPIMPVDTVGFKLRPEGFFDRSPVLDVPANASQSLGTCHRAGGSDAGSGACH				NA	NA	NA	NA	NA
D1-29_02376	429			hypothetical protein	ATGACGACGACGGCGGGACTGGCCCGAGCCAGCAGGCCCGTCCTGCATCCGCGGTTATGCGCCGTGGTGGTGGCAGGCTCCAGTGCCGTGCATCTGTGGCTTGCCGCCACCAGCCGGCATGGCGCTTGGCTGGGTGCACTCATGCTGGTTCTTGCGGTGGTCTGCCTGCCCTGCGTTGTGCACATCTGGGAGCACAGCAGAGTGGCCGCCCTCCGCAGGGTGATGGCCTGTGCTGTCGGCATGGTTGCCCTCCACGGGCTGCTGCTGGCCGCAGGCGGCGCAGGCGGCCACGCGCACGGCGGTGTTCCGGCGTCGGACGCTCCAAGCGTCAATGGCGCCGCCGGACTCCTGCTGGTCATCGCCCTTGAAATCACGACGGCGTTGCTCGCCGCAACGCTGCTGGCCCGCCTTCGGCGCACATCGCCGTAG	MTTTAGLARASRPVLHPRLCAVVVAGSSAVHLWLAATSRHGAWLGALMLVLAVVCLPCVVHIWEHSRVAALRRVMACAVGMVALHGLLLAAGGAGGHAHGGVPASDAPSVNGAAGLLLVIALEITTALLAATLLARLRRTSP				NA	NA	NA	NA	NA
D1-29_02377	1548			hypothetical protein	ATGAGGGCCGGGCAACCCTGTCCGCACGTCCGGGTTCTCAGTACACTGGAACGCATGACCGAGCAGGAACCGGCCCCACGCAGGGCCGCTGCGGATTCAGAAAGCAGTGCAGGCCACCCCGAGGATTCGGCCTTCGCCTCCACATCTGTGGAGGACGGGGAGGCCCCCGGCCTGGTTGACCCGGACGCCGTCGACACGTCCTTGCGCAGTCCGCAGGAGCGGTCCCGGACCTTCACCGGGATCCTGGTGAATACCGCCCTGGCGAACATTACCACCAGCTATCTGTGGTTCGCCCTGACCTTCTGGGTATATCTGGAGACGCGGAACGTGATCGCCACCGGGGTGATCGGCGGGGCCTACATGCTGTTGATCGCCCTTTCCAGCATCAGCTTTGGCACCTTTGTGGACCGTTACCGCAAGCTGGCCGTGATGCGCTTCGCCGCCGCTTTCACGCTGGTGATGTTCGTGCTGTCCGGGGTCATGTTCCTGCTGACCCCCACCGCACAGCTGCTGGATCTGACCCAGCCGTGGTTCTGGATCTTCGCGCTGATCATCCTGGCGGGTGCCGTCGTGGAAAACATGCGCAACGTAGCCCTCTCCACCATTGTCACCATCCTTATCGAACCGGACCGGCGGGCCAACGCCAACGGCATGGTGGGAATGGTGCAGGGGCTGGCCTTCATCGTCACCTCAGTGCTCTCGGGGCTCTCGATCGGTCTGCTGGGCATGGGCTGGACCGTTGTTGTGGCCGTGGTGCTCACCGTACTGGCTTTCGCGCATCTGCTCTTTCTGCGCATGCCGGAAGAAGTACGGGTTGCCGCCACCGACGCCCACGGCGCCTTCGACCTGCGCGGTTCCATCGCCGCCGTGTTGGCCGTTACCGGGTTGTTCGCGCTGATCCTGTTCTCAACGTTCAACAACTTCATTGGCGGCGTCTACATGGCGCTGATGGATCCGTACGGGCTGGAGATGTTCCCCGTGGAGATATGGGGAGCCGTCTTCGCGCTGGGGTCAACCGGCTTCATCATTGGCGGCGCGTTGGTGGGCAAGTTCGGGCTGGGGCCCAACCCGTTGCGCACCATGCTTCTCGCGGTGGTGGTGATGGGGGTTCTCGGTGCTGTGTTTACGGTGCGCGAATGGGCGTGGCTGTACATCGCCGGTATCTGGCTGTACCTGGTCCTGATACCAGTTGTGGAGGCAGCCGAGCAGACCGTCATCCAGCAGGTGGTCCCGCTTCAGCGGCAGGGCAGGGTCTTCGGGTTCGCCATGGCATTCGAGTCGGCTGCAGCGCCGATTACCTCCTTCCTCATTGCGCCGATCGCCCAGTTCTGGATCATCCCGTACGCGCGGTCCGCTGACGGCGCGGCCCACCTGGCACCGCTGCTTGGCGAGGGCACCTCCCGCGGCATCGCCCTGGTGTTCCTGATTGCCGGGATCATCATGCTGGTGGCTGCGTTGCTTGCCTTCCTGACCCCGGTTTACCGCCGGGTTTCGGCGTCATATGCGCAGGCGGCCGCAGACGCGAAAGAGGCAACGGATACTGTTTGA	MRAGQPCPHVRVLSTLERMTEQEPAPRRAAADSESSAGHPEDSAFASTSVEDGEAPGLVDPDAVDTSLRSPQERSRTFTGILVNTALANITTSYLWFALTFWVYLETRNVIATGVIGGAYMLLIALSSISFGTFVDRYRKLAVMRFAAAFTLVMFVLSGVMFLLTPTAQLLDLTQPWFWIFALIILAGAVVENMRNVALSTIVTILIEPDRRANANGMVGMVQGLAFIVTSVLSGLSIGLLGMGWTVVVAVVLTVLAFAHLLFLRMPEEVRVAATDAHGAFDLRGSIAAVLAVTGLFALILFSTFNNFIGGVYMALMDPYGLEMFPVEIWGAVFALGSTGFIIGGALVGKFGLGPNPLRTMLLAVVVMGVLGAVFTVREWAWLYIAGIWLYLVLIPVVEAAEQTVIQQVVPLQRQGRVFGFAMAFESAAAPITSFLIAPIAQFWIIPYARSADGAAHLAPLLGEGTSRGIALVFLIAGIIMLVAALLAFLTPVYRRVSASYAQAAADAKEATDTV	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
D1-29_02378	1782			hypothetical protein	ATGCCCAAAACTTCCCGTGTCAGCTTCGACATTGACGACATCCCTTTCAGTACCCGCGGATCCTGGCTTAACCTGTCCCGGGTGGTTGGACTCCACAAGAGCGCGCCGGACATCCACCTCGTGACGCACCAAAACGGCCATCAGAATGGCCTCACGGGGATCCTGCGCCTCACGGCCCGCCGGAACGGCGCGAAGGTGGCCGCCTCTGTTGAAACCAACAGCTCCACGCTTTCGTGGATCGATGGAGACGCAAAGGTTGAGGCTGTCTTCGACGGGCCGGAAATCCTGCGGATCTCAGGCCAGGGACTGGCATTGCGCCTGGAAGACGCAGCGGCAAGCCTCACTCCTTTTACCGGAACGTTCTTCTACTACGATCCGGCCAGCAAGGGCTGGTGCTTCACCTCCTATGAAACCGGCTTGAGGTACAGGATCACCGTTCTCAGCGGCACACTGTCCGCCGTCGGGGCCGAAGCGCTGGGGCAGGCGGAGCGTTGGATCGAGGTCAGCGCCCCGGAGGGAACGTGGGAAATCGCCATCGACGAATTCCGCACCGCCCGCAAACCACTGGCGCTCCCGGAGACCTTCGAAGAATCACTCGACCGGGCTGACGCGGCATTTGCGGACTATCTGGACCGCCTTGCCCCCTGGCGGACCCAACGGACCCCGGCGGCTCCACTGGCGGCCTATGTTCTCTATTCGGCGACGGTCAGCCCCCTGGGATTCCTCCGGCGCGAATCGGTCCTCATGTCCAAACACTGGATGGACAAAGTCTGGAGCTGGGACCACTGCTTTAACGCCCTGGCCCTGGCAAACGGCCTCGCCGCCGAAGCCTGGGACCAGTTCCTGGCACCGTTCGATCACCAAACGCCCGAAGGAGCACTGCCGGACTCCATCTCGCACTCCGAGCTCCTGTACAACTACGTCAAGCCACCAATCCACGGGTGGGCGTATTCCAAACTCCGCCAAAACCAGCCAGTGGTGGAAGGCAAGCTGCTCACCGAGATCTACGGCGCCCTTTCCCAATGGACAAGTTTTTGGATCCACCACCGCACCAGCCCGGGACGCGATCTCCCCTACTACCAGCACGGAAATGACAGCGGGTGGGACAACTCCACCACGTTCGACCTGGACCGCCTCATAGAATCCCCCGATCTGGCCGCATTCCTTATTTATCAGCTCGACGTCCTGATCGACCTGGCGGCTGAGCTTGAAACCGAAGAAGAAGGCATGTGGCGCGGGCATAGGGACCGGATCTACCGGGGCCTCATGAGCCTCTGGGACGGCTCAGTGTTCCGGGCATACGCCCCCATCACGGGGAGGTGGAGTACGTCCACCAGCCTCCTGAACCTGCTTCCGCTGGTGATTTCGGACCGGCTTCCCGCGGAAGTCGGCCAAACCATGGCGGCGCGGCTGGCAGAACATCTCACTGAGTGGGGTCCGGCCACCCAGCCGCCGGCTTCGCCGCTGTATGAACCGGACGGGTACTGGCGCGGTCCCATCTGGGCGCCGTCCACCTACCTCATCGAAGACGGTCTGCGCAGGGGCGGATACCTGGAGATGGCGGATGCTGTCAGCAGCCGGTTCCGGCGCCTCTGCGAGACAAGCGGTTTCGCAGAGAACTTCGACGCACTCACCGGTGAAGGACTGCGGGACCGCGCTTACACGTGGACCGCAAGCACGTACCTGTCCCTGGCCGCTGATGCCGTTCGGCGTCAGGCTGACGGTGAAACCTTTGTGATGCCCGACGCTCAGGAGGCCTATGACGATGTGCCGGTCTCCTAG	MPKTSRVSFDIDDIPFSTRGSWLNLSRVVGLHKSAPDIHLVTHQNGHQNGLTGILRLTARRNGAKVAASVETNSSTLSWIDGDAKVEAVFDGPEILRISGQGLALRLEDAAASLTPFTGTFFYYDPASKGWCFTSYETGLRYRITVLSGTLSAVGAEALGQAERWIEVSAPEGTWEIAIDEFRTARKPLALPETFEESLDRADAAFADYLDRLAPWRTQRTPAAPLAAYVLYSATVSPLGFLRRESVLMSKHWMDKVWSWDHCFNALALANGLAAEAWDQFLAPFDHQTPEGALPDSISHSELLYNYVKPPIHGWAYSKLRQNQPVVEGKLLTEIYGALSQWTSFWIHHRTSPGRDLPYYQHGNDSGWDNSTTFDLDRLIESPDLAAFLIYQLDVLIDLAAELETEEEGMWRGHRDRIYRGLMSLWDGSVFRAYAPITGRWSTSTSLLNLLPLVISDRLPAEVGQTMAARLAEHLTEWGPATQPPASPLYEPDGYWRGPIWAPSTYLIEDGLRRGGYLEMADAVSSRFRRLCETSGFAENFDALTGEGLRDRAYTWTASTYLSLAADAVRRQADGETFVMPDAQEAYDDVPVS				NA	NA	NA	NA	NA
D1-29_02379	819	sugB_2	COG0395	Trehalose transport system permease protein SugB	GTGAAGACCCGCCGCTTTTCCTTCAAGACCATTCTTGGAATCGTTCTGACAGCCATCATGCTGTTTCCGGTGTACTGGATGATCAACGTCTCGCTGACCCCCAGCACCGATATGAGGAAATCCCCGCCGAGCCTGTTCCCCGTCGACGTGACCTTCGAAGGCTACGCGGCTGTCCTGCAGCAGCAGATGCCATTCCTGGGAACCAGCCTCATCCTGGGCTTGGGCACCGTGATCCTGACGGTGGCGGTGGCAGCCCCCGCCGCTTATGCCCTAGCCAAGCTCCGACCGCGCGGCACGGGGCTGTTGAACTTCCTTATGCTGATCGCCCAGATGATCCCCGCCATCATCATCGCCATGGGCTTCTACGCCATCTATCTGGGCCTGGGAATCCTCAACACGCTCCCGGGGCTGATTGTGGCTGACTCAACCATCGCGGTGCCTTTTGCCGTGCTGATCTTTTCGGCCTTTATGTCCGGCATTCCTGACGAGTTGCTGAACGCGGCCAAGATCGACGGCGCCTCCCACTGGCGGACTTTTCGCTCCATTGTCATGCCGGTCAGCCGGAACTCCGTGGTCACCGTTTCGCTCTTCGCCTTCCTGTGGGCCTGGTCTGACTTCATCTTCGCCTCCACGTTGAATAACGGCGGTGCCATGCGCCCCATCACCTTGGGCATCTACGCGTACATCGGCAACAACAACCAGCAGTGGAACGCCATCATGGCAACGGCCGTCGTCGCATCCATTCCTGCCGCCGTCCTGCTTGTCGTAGCGCAGAAGTACGTCTCTGCCGGCGTCACCGCCGGCGCGGTCAAAGACTGA	MKTRRFSFKTILGIVLTAIMLFPVYWMINVSLTPSTDMRKSPPSLFPVDVTFEGYAAVLQQQMPFLGTSLILGLGTVILTVAVAAPAAYALAKLRPRGTGLLNFLMLIAQMIPAIIIAMGFYAIYLGLGILNTLPGLIVADSTIAVPFAVLIFSAFMSGIPDELLNAAKIDGASHWRTFRSIVMPVSRNSVVTVSLFAFLWAWSDFIFASTLNNGGAMRPITLGIYAYIGNNNQQWNAIMATAVVASIPAAVLLVVAQKYVSAGVTAGAVKD	PGPT0016540_8929	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
D1-29_02380	972	lacF_9		Lactose transport system permease protein LacF	ATGTCACCCGTGAATATCGGGACTGCACAGCGGGAAGCACTCCCCGCCGTCGGGACGCTCGAGGCAGTGCCCGCCCGTGCGCGGCGGGCGGCGGCGTCAACGCGCTGGGCTGCGGCTGCCTTTCTGGCACCCCTGCTGGTGTACCTTGCCGTCTTTTATGCCTACCCGCTGTACCGCAACATCGAACTGAGCCTGAAGGCCTACACGGTCCGCAGCTTCGTCCAGGGAAACGCCCCCTTCGCGGGGTTGGACAACTATATCGAAGTCTTCACCTCGGCCACTTTTTGGCCGGCCGTCTCGCACACTGCCACCTTTACCGTTGTCTCCATCGTCTTCCAGTTCGGGATAGGCCTGGCGCTGGCAGTCTTTTTCCACTCCGGGTTCAGGCTCTCCGGGACTCTGCGGGCGCTGTTCCTGGTTCCGTGGCTGCTGCCGCTGATCGTTTCGGCATCCACCTGGTCGTGGATGCTCAACAGCGATTCGGGCATCGTCAACGCCGCACTCGCAGCGATGGGAATGCCGCAGATCAACTGGCTCACGTCGCCCGACTGGTCCCTTGCCGCCGTCCTCATCGCGAACATCTGGATCGGTGTGCCCTTCAACCTTGTGATCCTTTACAGCGGCCTGCAGGGCATCTCCACCGACGTGTATGAAGCCGCCTCCATCGACGGAGCCAACGCCTGGCAGAAATTCTGGCAGATTACACTTCCGCTGCTCCGGCCGGTTTCGGCGATCACCATCCTGCTGGGCCTGGTCTACACGCTGAAGGTTTTCGACATCATCTGGATCATGACCAAGGGCGGGCCGGCCGGGTCCTCCACCACTCTGGCCACCTGGACGTACCAGCTGGGTTTCGGCTCGGTCCTGCCCGATTTCGGCCCTGCAGCAGCCATCGGAAACCTCCTGATCGTGCTTGCGGTGGTCTTCGGCTTTATCTATATCCGTGTGCAGAGTAGACAGGAAAACCTGTGA	MSPVNIGTAQREALPAVGTLEAVPARARRAAASTRWAAAAFLAPLLVYLAVFYAYPLYRNIELSLKAYTVRSFVQGNAPFAGLDNYIEVFTSATFWPAVSHTATFTVVSIVFQFGIGLALAVFFHSGFRLSGTLRALFLVPWLLPLIVSASTWSWMLNSDSGIVNAALAAMGMPQINWLTSPDWSLAAVLIANIWIGVPFNLVILYSGLQGISTDVYEAASIDGANAWQKFWQITLPLLRPVSAITILLGLVYTLKVFDIIWIMTKGGPAGSSTTLATWTYQLGFGSVLPDFGPAAAIGNLLIVLAVVFGFIYIRVQSRQENL	PGPT0016535_1248	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
D1-29_02381	1251			hypothetical protein	GTGTTTTACAAGAAATCAATCCAAGCCAGATCCGCTACAGTCCTTGCCTTGGCCGTTCTGGCCGGAGGCGGGCTGGCAGGCTGTTCTTCGGCGCCATCCCCGACAACGGCGGCCGGCACCAGCGAACTTACCTTCTGGGACCCGTACCCCCAGTACGATGCATCGTCCGCGTGGGCCGCATCGATCGACAAATGCGGTGCCGAGGCCGGAGCTACGATCAAGCGGACCGCCTACGACACCAGTGATCTGACCAGCAAGGCTCTCCTGGCCGGCCAGCAGGGTTCCTCGCCCGATGTTCTCCTCGTGGACAACCCGGTGGTTTCCACACTCGCGGAGGCCGGCGTGCTGACGTCCGCCAAGGACAGTGGCCTGGACGCTTCAGCCACCCAGGCGAACCTCCTGGCTGCAGGTGAAATAGATGGCGACACGTTTGGTGTACCCATCGGGGCAAACACCCTCGCCCTTTACTACAATCCCCAAATCCTGAAAGCAGCCGGGGTTGATCCGGCCTCCGTGACTGACTGGGCGTCCCTGAATGCGGCCCTCGAAAAGGTCAAGGCCTCCGGCAAGAAGGGCATTACCTTCTCGGCCGTCGGAACCGAAGAAGGAAGCTTCCAGTTCCTGCCCTGGTTCTGGGGTTCCGGCGCCGAACTTGATGATCTTTCCTCCGGCGACGCAGTCTCGGCATTGGCCCTGTGGAGCGACTGGATCGAGCAGGGACATGCTCCCAATTCGGTCATCAACAACACGCAGACCACCAGCTGGCAGGAGTTCATGGCCGGCGACTTTGCCTTCGCCGAGAACGGAACCTGGCAGAAGGCGGACGCTGCCAAGGCCGGATATGAGGTCATGCCGATCCCTGCGAAGTCCGGCGGTGCCGCAGCTGCCCCGACCGGCGGCGAGTTCCTGACCATCCCGGTACAGAAGGAGACCGGACGGTACGAAACGTCGAAAAAGGTCATCGCGTGCCTCACCAATGCCTCCAATGTGGTGGCTACGGACAACACGCTGAACTACATCGCTCCCACTGAGGAAGCGCAGAAGGCCCAGCTGGCGGCCGACGCAACCCTGAAGCCGTGGATCGACGCCGTCGCCGCTGCCAAGGGGCGCACCAGTGACAACCTGGGCACCAAGTATCCGAAAATCTCTGAACAGCTGTGGACAGCAGTCCAGGCTTCGGTGACCGGGTCCGCCACGCCCCAGGATGCGGCAAAAGCTGCACAGACGGCCGCGGCCGCGGCAACCAAGTAG	MFYKKSIQARSATVLALAVLAGGGLAGCSSAPSPTTAAGTSELTFWDPYPQYDASSAWAASIDKCGAEAGATIKRTAYDTSDLTSKALLAGQQGSSPDVLLVDNPVVSTLAEAGVLTSAKDSGLDASATQANLLAAGEIDGDTFGVPIGANTLALYYNPQILKAAGVDPASVTDWASLNAALEKVKASGKKGITFSAVGTEEGSFQFLPWFWGSGAELDDLSSGDAVSALALWSDWIEQGHAPNSVINNTQTTSWQEFMAGDFAFAENGTWQKADAAKAGYEVMPIPAKSGGAAAAPTGGEFLTIPVQKETGRYETSKKVIACLTNASNVVATDNTLNYIAPTEEAQKAQLAADATLKPWIDAVAAAKGRTSDNLGTKYPKISEQLWTAVQASVTGSATPQDAAKAAQTAAAAATK	PGPT0016545_9656	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
D1-29_02382	1005	galR	COG1609	HTH-type transcriptional regulator GalR	GTGGCAACCATTGGCGACGTGGCACGTGTGGCGGGCGTCTCCCGCAGCACTGTCTCTTATGCCCTGTCCGGGAAACGCACCATTTCCCCGGACACACAGGAACGCATACGCCTGGCAGTGGAAAGCCTGGGTTTCACGCCCAACGCCGGGGCCCGGGCTCTGGCGAGCCAGAAAACGATGGTTCTGGGGCTGCTGCTTCACTTCAATGCAGATGAGTTTGCTCCGGCGATGATGCAGTACGTGATGTCCGTGTCCAGCGCTGCCCGGGCGCACGGCTACGACATCCTCATGATTACCGAGGAGGACGGTGCAGCCGCCCTGCGCAGGGTGACGGAGTCGAACATGGTGGACGGGGTTGTCCTGCTTGATGTCCTCCATTCTGATCCGCGGGTTGAGGTGATGAGATCAGCACGGCAGCCAGGAGCAATGATCGGGCTGCCTGGTGACTTCAATGGCCTTGACGTCTTCGATCTCGACTTTGGCGAATCGGCACGGGTCATTGTGGACCATCTGTACGGGCTTGGTCATCGCGACATCATGCTGCTGTGTCCCCCAAAACACGTCTTCGAGAGAGGCGGAGCATATACGTGGCGTTTCCGGGACGCTGCCCAGGAACGTGCGGCCCGGTACGGCATCCACCTGCACACGTTCTACGGCGAATCCCGCCAGCCAGGAATCCAGACCAGCCTTGAACTGATGCTGGGCTCCCGGCCCGACGCTACGGCTTTGATCGTCCACAATGATGCGACCATCGCCGCCCTCCCCGCGTTCCTCAGCAACCGAGGCATCTCCGTCCCGTCGGACCTGTCCGTGGTGAGCCTTTATGCCAAGGAATTCGGGCGCGACTTCTCATTGCCCTACACCGCTGTCGAGACCACTCCGAGTGAGTTGGCCCGGATGGCAGTGGAACGGCTCGTTCAAAGGATCAATAACCCCGACCAGGCCGGCGAACCCCTCGTCCGCTTTGTCGCCCCCGAACTGGTGGACCGCGGCACGGTCAAGTAA	MATIGDVARVAGVSRSTVSYALSGKRTISPDTQERIRLAVESLGFTPNAGARALASQKTMVLGLLLHFNADEFAPAMMQYVMSVSSAARAHGYDILMITEEDGAAALRRVTESNMVDGVVLLDVLHSDPRVEVMRSARQPGAMIGLPGDFNGLDVFDLDFGESARVIVDHLYGLGHRDIMLLCPPKHVFERGGAYTWRFRDAAQERAARYGIHLHTFYGESRQPGIQTSLELMLGSRPDATALIVHNDATIAALPAFLSNRGISVPSDLSVVSLYAKEFGRDFSLPYTAVETTPSELARMAVERLVQRINNPDQAGEPLVRFVAPELVDRGTVK				NA	NA	NA	NA	NA
D1-29_02383	3339			hypothetical protein	ATGATGGTGGCCGCGGCTGATGTTCCTCTTCCTGATGAGAACCTGATCCTCCACTACGATTTCGAAGCCAACCAGGTGGCCGGCTCTACGGTTACGGACCTGTCCGCCAAACACCTCAACGGTGCGATCGCGAACGTAGCTAACGCCACGTTCGTGAACGGCCGCACAGCGGGGACGAGGGCCATCAGCCTCCCCGGCGGTGCGGCAGGTTCGACGACGGCGCCCTACGTCACAGTGCCGAACGGGCTCTTCCAGAGCGCGAAGGCTATGACGGTGTCATCGTGGATGAAGTGGGATGGCGGGGCTGATTTTCAGTGGCTGTACGGCCTCGGCAAGGACCTGAACAACGCGACGTTCCTGACGCCGTCGTTCGCCGGCGATTCCAAAACGCGCTCCTCCATCAAGCCTGTCAACGGGACAGCCGAGGTCGGGGTTTCGGGAAGCGGCAAGATCCCGATAGGCAGCTGGGTCAATGTGACCACCACTATCGACCAGCAGACCATCACGTACTACCTCAACGGCATCAGTCTCGGGACGAAACCGGCAACGGTGGACCTGGTTGCGAAGATGTACTCGGCGACTAACACCACATCCGGGGCCTTGGGTAAGGCGTTTTGGGGCGGGCACCCCTTCTTCGACGGCGCGATCGACGACTTCAGAGTCTACTCCCAGGCACTGACCGCGGAGCAGGTGCGGACACTGGCCGGCGACACCGTTCCGAGGGCCGACTTCACGGTGGACCTGGGAACCAGCACCGGCCCCTTCCACGGCGGAGCTTCAGGCACCCTTTACGGGGTGTACGGCGAGGGGCTGCCCTCCAGCAATCTCCTCGAGGCCATCAAACTCCGCACCGTCTCCACCAAGGCACAGGACGGACCCCAGCACCCCGGAGCCGACGCGCTGGAAGTGGTCAAGCCTTTGGTTGACGCCTCCAACGGTGACGTGTACATCTACATGACTGACATATACCGCGGGTTCCCGTATCAATGGCCCGGGAACACGCCGGAAGAACGCCTGAACGACTACAAAGCCAAGGTTGCTGCCCAGGTTGATCAGGTGCTGCAGCTTCCCGTCGAGTACCGGGACAACATCGTTTTTGTGCCGTACAACGAACCCGAGGGGAACATGTTCGGCACGAGCACCTGGAGCTACAACAACATCAGCTGGCTGAACGACCCGCAGTACTTCTTCAAGGCGTGGGACGACACGTACAAACTCATCAGGGCCAAGATGCCAACGGCCCGGATCGGCGGGCCAAATACCAGCACGCTTTACAACCAGGTGCAGGGTTTCCTCCAGCACACGGTGGCTGCCGGTACGGTGCCGGACGTGATGACCTGGCACGAACTGAGCGCACCCCAATCCATCCGCAGCAACGTTGCCCGCTACCGGGGCTGGGAAAACACTGCGTTCGCCGGCACCGCCCTGGCCGGAAAGCACTTGCCCATCAACCTCAACGAATACGCCTTCAACTACCACACCTCAGTGCCTGGGCAGATGATCCAGTGGTTCTCTGCCATCGAGGATTCAAAGGTCGACGGCGACATTGCCTACTGGAACATCGACGGCAACCTCAGCGACTCGGCGGTCCAGGCGAACCGCGCCAATGGCCAGTGGTGGCTCCTGAACTCCTATGCCCAGATGTCCGGGGATACAGTGAAGGTCACCCCGCCCAAGCCCAATGTCAGCTACACCCTTCAGGGCGTGGCAACCCTGGACAAGGCCAAGGCACAATCACGCATCCTCCTGGGTGGGGCAAGCGGCAGGCAGCATGTGCAAGTTAATGGAGTGGACCCGGCAGTTTTCGGCGGAACAGTGCATGCCCTGGTCACCGAGATCGGCTGGAGCGGGCAGTTGGGTGACTCGGCCCAGCCGTCAGTGGTCGGCCAGCTGAACCTCCCGGTGACGAACGGCTCGGTCGGCTTCGATTTCGGTGCGATCCTGCCTGCCCTCAACGCCGACTCCTCCTACGAGATCATCCTCACCCCCGGCGGGAAAGCCTCCACGGGCACCCCCGCAACCGCGCTGTGGAAGGGAACGTACGAGGCCGAGAACGCCGCCTTCACCGGAACCGGCTACACGAAGAACGGACCGGAAGGGACGCCGTCGAACGTCTCCAAGTTCTACACCTCAGGAAACTACAACGTCGGCGGCCTCCGCACGGGGTCAGATGTCAAGCTCAACTTCGATGTCACCGTGCCGCAGACCGGCGACTACGATCTCAGCGTCTTCGCCAACTCCCTGAACACTTATGCGGCAGTCCAGGAACAGGGGCCCACCAACGTGTTCCTCACCGTCGACGGTGGAGCCGAGCAGGAAATGTACCTGCCGCTGGGCTACAAGTGGGTGGTCTGGGACCACGCAGACACCAAGGTCAAACTGACTGCCGGAAAGCACACCATCTCCCTGTCTGCGAAGAATCTGGCCGGAAGCAAGGGGACGAAGGGTGATGCCATCGTGGACAAGATCGACCTCACGCTGAAAAACCCTGCCGCCGGACAGGCGATCCACGAAGGCGAAAACGCAACCCTCAAGGGGGCGGCGGCCGACTACACCCGGACCGGCGTGTCCGGTTCGGGAACGGCACGCATCACTCAAGGCCAAAGCGCGACGTTCTGGGTCTACGCAGCGTCCGACGGCGAGGCGGAGCTTTCCGTGGACGTCCTTGGCACCGGCACTGCGAACCTGAGCGTCAACGGCCAGAAACTGGCCGAAGGAATCACCGGGCCGCTCACCAAGGCGGTGTTCCTAGCAGGCGGCATCAACAAGGTCCAGGTAACAGGTGATTCGGGCACACTCTACGTGGACCGGGTCCGCACTGGGGCATCAACCGGGAAGCTCACCTCCACCACCTATGAAGCGGAGACGGCTACGCTCTCCGGTTCCGCCGCCATCACCAGCTATCTGCTGGCTTCAGGCGGCAAGGCTGTGACGAAAGTTGGCGGAGATCCCAACAACACCAACACCCTCACCTTCGGAAGCGTCCAGGCACCCGCGGCCGGTACGTACGCGCTGACTGTGCGCTACTCCAACCAGGAGCAGTCTCCCGCCACGCACTACAACCCCGACCCGCTGGCACGCCACGCGGAAATCCAGGTCAACGGAGGATCCACCAAGCGAGGCTGGTTCCCCCACACCTTCCACGCAGACAACTTCTGGGAACTCACAATTCCCGTGGAGCTGAAGGCTGGAACGAACACCATCAGGTTCTCCTCCCAGGAGCTGCCGAACTTCAACAGCACTGAACTGCTCTCAACGTCCGCTCCGGAACTGCTGAGGTCAAAATACGCACCGAACATCGACCGCATTCGGGTGACCGCCTTGAAGCGACCGAGCTGA	MMVAAADVPLPDENLILHYDFEANQVAGSTVTDLSAKHLNGAIANVANATFVNGRTAGTRAISLPGGAAGSTTAPYVTVPNGLFQSAKAMTVSSWMKWDGGADFQWLYGLGKDLNNATFLTPSFAGDSKTRSSIKPVNGTAEVGVSGSGKIPIGSWVNVTTTIDQQTITYYLNGISLGTKPATVDLVAKMYSATNTTSGALGKAFWGGHPFFDGAIDDFRVYSQALTAEQVRTLAGDTVPRADFTVDLGTSTGPFHGGASGTLYGVYGEGLPSSNLLEAIKLRTVSTKAQDGPQHPGADALEVVKPLVDASNGDVYIYMTDIYRGFPYQWPGNTPEERLNDYKAKVAAQVDQVLQLPVEYRDNIVFVPYNEPEGNMFGTSTWSYNNISWLNDPQYFFKAWDDTYKLIRAKMPTARIGGPNTSTLYNQVQGFLQHTVAAGTVPDVMTWHELSAPQSIRSNVARYRGWENTAFAGTALAGKHLPINLNEYAFNYHTSVPGQMIQWFSAIEDSKVDGDIAYWNIDGNLSDSAVQANRANGQWWLLNSYAQMSGDTVKVTPPKPNVSYTLQGVATLDKAKAQSRILLGGASGRQHVQVNGVDPAVFGGTVHALVTEIGWSGQLGDSAQPSVVGQLNLPVTNGSVGFDFGAILPALNADSSYEIILTPGGKASTGTPATALWKGTYEAENAAFTGTGYTKNGPEGTPSNVSKFYTSGNYNVGGLRTGSDVKLNFDVTVPQTGDYDLSVFANSLNTYAAVQEQGPTNVFLTVDGGAEQEMYLPLGYKWVVWDHADTKVKLTAGKHTISLSAKNLAGSKGTKGDAIVDKIDLTLKNPAAGQAIHEGENATLKGAAADYTRTGVSGSGTARITQGQSATFWVYAASDGEAELSVDVLGTGTANLSVNGQKLAEGITGPLTKAVFLAGGINKVQVTGDSGTLYVDRVRTGASTGKLTSTTYEAETATLSGSAAITSYLLASGGKAVTKVGGDPNNTNTLTFGSVQAPAAGTYALTVRYSNQEQSPATHYNPDPLARHAEIQVNGGSTKRGWFPHTFHADNFWELTIPVELKAGTNTIRFSSQELPNFNSTELLSTSAPELLRSKYAPNIDRIRVTALKRPS				NA	NA	NA	NA	NA
D1-29_02384	1551			hypothetical protein	ATGATCCCAACAACGCTCCGGCGTACTGACACAGACGCCGACGCGAGCCCAGACACCAAGTCGAGCCGACGCACCAGGTCGTCGTACGCCATCCACACCCTGATCGGGCTTGCCCTGATGGCGGTGATTTCGTTCCTCCCCGCGCCGGCTCCGATAACACCCACCGGCATGGCGGTGATGGGCGTTTTCGCCGGCACCCTCTACCTTTGGACATTCGTCGATCTGGTGTGGCCGAGCGTCCTTGGCGTCACACTGAGCGCCTTCTTTATCAACTCAGTGATGGAACCGGCGTCCCTCCACGGAATTTGGAAGTCACTCCAGGAGTCAACGGGCAGCTGGGTGGTGGCCTTTGTGATCGGCAGCCTCCTCCTGACGTATGCCCTCAATGAGTCCGGCCTCACCAGCAGGATCGCCGACTGGTTCCTCTCACGCCGGTGGGCGCAGCGAAGCCCCTGGGCCTTCACTTACACCCTGTTCGCCTGCGCCTTCTTCCTGGGCATGTTCCTGGACCTGATCCCCACCCTGGTCTTCATGATCGCCCTCCTTAACGCTGTTTTCCGCAAACTCGGCTACACCTACGGCGAGAAGTACCCCCTCGTTGTCATCATCGGCTGCACCTTCCTGATCAACATCGCTTTCGCCATCACCCCCATTTCCCATCCGATCACTCTCATCGGCTTCGGTGTATTCGCGGGCGCCTCCGGGGGCGGGTCGATCGGATTTGTCGAATACATGCTTGTCGGGATTCCAGTGGGAATCGTCGCCGCCGGCCTCATCGCACTGTTCCTCCGGTACGTCGCCAAGCCGAGCACTGAACGGTTCAAGGATGTGGACTACACCGAACTTGCGGCCGAGAACGCCACGCCGCTCAGCCGGCGGGAAATCGCGACGGCAACGATCTTCTCCCTCGTAGTCATCACCTGGGTCCTGCCAGGTCTCGTCAGCCTGTTCGCCCCTCAGTCGGGCATCGTCGCCTTCTTTGACGACATTACGTTGATTGTCCCGACACTCTTTGGCGTCATTCTCCTGATGCTCCTCCGGGTCGGGGGAAAACCGCTCCTCGATCACGGTCCGGCGCTGCGCACCATCCCGTGGGGCGTGATTTCACTGGTGGCGTGCGCCATGCTCTTCGGCACACTGCTCACCGAGGACGCCGTGGGGCTGAACACCTTCCTCGTTGTGGCCCTCGGCCCGCTGTTCGCCTCCAACCTGAGCCCGTTCATCATCATGCTCATCCTGGTACTTGCGATCGCACTCCTCACCAACGTGGCGAACAATGTCCCGGTGATCATTATGTTCGTGGCGGTCTGCGTTCCCCTGGCCGAAGCGCTCGGAGTGGACAACAGGCTGGTGGGCACCCTGGTGATCCTGGCCGCGCAGATGGGCTTCGCCTTGCCGTCGTCCCTCGCATCAGTTGCCCTGATCTTCGGTGACCCGTGGGTGAAGCCCGCAGCGGTCGTACGGTACGGCGCCTACGCCACACTGGTTTCCGCCCTCAGCATCGTTGTGGTCGGGTTCCCGCTCGCCACCCTGGTATTCGCAGGCGGATAG	MIPTTLRRTDTDADASPDTKSSRRTRSSYAIHTLIGLALMAVISFLPAPAPITPTGMAVMGVFAGTLYLWTFVDLVWPSVLGVTLSAFFINSVMEPASLHGIWKSLQESTGSWVVAFVIGSLLLTYALNESGLTSRIADWFLSRRWAQRSPWAFTYTLFACAFFLGMFLDLIPTLVFMIALLNAVFRKLGYTYGEKYPLVVIIGCTFLINIAFAITPISHPITLIGFGVFAGASGGGSIGFVEYMLVGIPVGIVAAGLIALFLRYVAKPSTERFKDVDYTELAAENATPLSRREIATATIFSLVVITWVLPGLVSLFAPQSGIVAFFDDITLIVPTLFGVILLMLLRVGGKPLLDHGPALRTIPWGVISLVACAMLFGTLLTEDAVGLNTFLVVALGPLFASNLSPFIIMLILVLAIALLTNVANNVPVIIMFVAVCVPLAEALGVDNRLVGTLVILAAQMGFALPSSLASVALIFGDPWVKPAAVVRYGAYATLVSALSIVVVGFPLATLVFAGG				NA	NA	NA	NA	NA
D1-29_02385	1116	adhT_2		Alcohol dehydrogenase	ATGACTGAAACAACAACGATGTTGGCAGCCCGGATGCACGACGTCTCTGCCCCGATGACGCTCGAACGTGTACCTCTTCCGTCCCCGGGGCCCCTGGACGTACGCATCAGGATCAAGGCCTGCAACATAGTCCCCAACCTGGCCAATGTGCTGCGGAACTGGACCACGTGGTTCCCGCAGAATCCACTGCCCGCCCTGCCGGCCATCTTCGGTCTGGACCCAGCCGGCGTCGTGGATGAGGTTGGCCCCGGCGTGCAGGGCTTCAAGCCGGGAGACCGCGTTTATGTGAACCCCGGCCGCTACTGCGACTCCTGCCGCGAATGCCGGTCGAACAACCGGATGCACTGCCAGAACTTCGCGTTCGCCGGCTACTTTGGCCTGACGCCCACCAGCGGAATGATGCTGGACCGCTATCCCTACGGCGGACTGGCGGAGTACATGATTGCCCCCCAGTATTCGCTGGTAAAGCTTCCGGCAAACGTGAGCTTTGAAACAGGGGCACGGCTTGGGTACCTGGGCACCGGGTATGCGGCCCTCCGCAAGGCGGGAGTCGGTTCCACCACCACTGTGCTCATCAACGGAATCAGCGGAACCCTTGGCCTCGGCGTTGCATTGTTTGCCCTCGCCATGGGCGCGCCGGCCGTGCTGGGTACCGGGCGCAACCGGGAACTCCTGGAGAAGGTCCAAGCCCTGGCTCCGGATCGGATCCGGACTCATTCCCTGTCCGACGGGCCCGTCAGCGACTGGGTAAAGTCCGTCACCGGCGAAGGCGTCGACGTTCACATCGACGCGCTGGGTCCCGGCGCTGACCACGAAGTCTTCAATGAAGGGCTGAAATCGCTCCGGCGGGGCGGCATCGCCGTCAACATTGGGGCCACGGCCGGGCTGGTGCCCATTGATGTGCACCACATGATGGACCAGCAGTTGCGTTTGATCGGATCGTGCTGGTTCAGCGCCGGCGAGGGCCAGGCGATGGCTGACATGGCCGGCTCCGGCGCCGTGGACCTTTCAGTTTTTGAGCACGTCGTTTTCCCGCTTGAAAAAGTCAATGAGGCCATTTCCGGCATATCGGCCCGCAAGGGCGGGTTCAGCAACTTCATTATTTCCCCGTCTTAA	MTETTTMLAARMHDVSAPMTLERVPLPSPGPLDVRIRIKACNIVPNLANVLRNWTTWFPQNPLPALPAIFGLDPAGVVDEVGPGVQGFKPGDRVYVNPGRYCDSCRECRSNNRMHCQNFAFAGYFGLTPTSGMMLDRYPYGGLAEYMIAPQYSLVKLPANVSFETGARLGYLGTGYAALRKAGVGSTTTVLINGISGTLGLGVALFALAMGAPAVLGTGRNRELLEKVQALAPDRIRTHSLSDGPVSDWVKSVTGEGVDVHIDALGPGADHEVFNEGLKSLRRGGIAVNIGATAGLVPIDVHHMMDQQLRLIGSCWFSAGEGQAMADMAGSGAVDLSVFEHVVFPLEKVNEAISGISARKGGFSNFIISPS	PGPT0006375_672	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
D1-29_02386	1482	sad_3		Succinate-semialdehyde dehydrogenase	ATGTCTGTCCCCGTACTAAACGAACTCACATTGCTGGACACCGTGCCCACCGGCCTGCTGATCGGCGGGCAGTGGCGGGACGCGTCCGACGGCGGCACGTTTGACGTGCACGACCCCGCCACCGGGGAGGTGCTCGCCACCCTCGCCTCCGCCACCAGCGCGGACGCCGTCGCCGCCCTGGAGGCCGCCGACGCCGCCCAGGCCTCCTGGGCCAGGACCGCGCCCCGGGAACGGGCGGAGATCCTGCGCCGCGCCTTTGACCTGGTCACCGAACGTGCCGAGGACTTCGCCCTGCTGATGACCCTGGAGATGGGCAAGCCGCTGGCCGAGGCCCGCGGCGAAGTCACCTACGGTGCGGAGTTCCTGCGCTGGTTCTCGGAGGAAGCAGTCCGCGACTACGGCCGTTACCTCATCACCCCCGAGGGCAAAAACAAGATCCTGGTCCAGCACAAACCGGTCGGACCCTGCCTGCTCATTACCCCCTGGAACTTCCCGCTGGCGATGGCCACCCGCAAGGTCGCCCCCGCCGTGGCCGCCGGCTGCACCATGGTCCTCAAACCAGCCAAGCTCACCCCGCTGACCGCGCAGTACTTCGCGCAGACCATGCTCGACGCCGGCCTGCCCGCCGGCGTCCTGAACGTCGTGCCATCGTCGTCGGCGTCGGGGATATCCGGGCCCTTGTTGAAGGATTCCCGGCTCCGGAAAGTCTCGTTCACCGGCTCCACCCCCGTCGGCAAACGCCTCATCGCCGACGCCGCGCAGAACGTACTGCGCACCTCGATGGAACTCGGCGGAAACGCGCCCTTCATCGTGTTCGAAGACGCGGACCTGGACAAGGCCGTCGAAGGCGCCATGGCCGCCAAGATGCGCAACATGGGCGAGGCCTGCACCGCCGCCAACCGGTTCCTCGTCCACGAATCCATTGCCACCGAGTTCACCACCAAGTTCGCCGCCGCGATGGGAGCCCTGACCACAGGCCACGGAACCGACCCGGCAACCCAGGTGGGCCCGCTCATCGACGCCGGAGCCCGCAACGACGTCCACGCCCTCGTGACCGCCGCCGTCGACGCCGGAGCAACAGCCGTCACCGGAGGCGCCCCCGTGGACGGCCCCGGCTACTTCTACCAAGCCACCGTCCTCGCCAACGTCCCCAACGACGCCGAAATCCTCCGCCAGGAAATCTTCGGACCCGTCGCGCCCGTCACCACCTTCAGCACCGAAGAAGACGCCATCCGGCTCGCCAACGCATCCGAGTACGGGCTCGCGTCCTACCTCTACAGCCGCGACTTCAACAGGCTGCTGCGGGTGGCCGAACAGATCGAATTCGGCATGGTCGGGTTCAACGCCGGCATCATCTCCAACGCCGCCGCACCCTTCGGCGGCGTCAAGCAATCAGGACTCGGCCGCGAAGGCGGCTCCGAAGGCATCGCCGAATACACCACCACCCAATACATCGGCATCGCCGACCCCTACATCAGCTAG	MSVPVLNELTLLDTVPTGLLIGGQWRDASDGGTFDVHDPATGEVLATLASATSADAVAALEAADAAQASWARTAPRERAEILRRAFDLVTERAEDFALLMTLEMGKPLAEARGEVTYGAEFLRWFSEEAVRDYGRYLITPEGKNKILVQHKPVGPCLLITPWNFPLAMATRKVAPAVAAGCTMVLKPAKLTPLTAQYFAQTMLDAGLPAGVLNVVPSSSASGISGPLLKDSRLRKVSFTGSTPVGKRLIADAAQNVLRTSMELGGNAPFIVFEDADLDKAVEGAMAAKMRNMGEACTAANRFLVHESIATEFTTKFAAAMGALTTGHGTDPATQVGPLIDAGARNDVHALVTAAVDAGATAVTGGAPVDGPGYFYQATVLANVPNDAEILRQEIFGPVAPVTTFSTEEDAIRLANASEYGLASYLYSRDFNRLLRVAEQIEFGMVGFNAGIISNAAAPFGGVKQSGLGREGGSEGIAEYTTTQYIGIADPYIS	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
D1-29_02387	1758	ilvG_2		Acetolactate synthase isozyme 2 large subunit	ATGACATCACAGGTAGAAACCCCAAGCGGCGCTGTTGCGTCCCTATCCCCCGACCCGGCCCTGCCGGCCCAAACAGCGCCTCAAACAGCACCGGGCACAGGAAGCGCATCACCCCGCACGGCCGCCGCAACGAAGTCTGCTGGCCACGTCATCGTTGACGCCCTGGTGGCCCACGGCGTCAAGCGCACCCATATCGTTCCCGGCGAAAGCTTCCTTGACGTCCTGGACGGGCTGCATGGCGCGGACATCGAAACCATTGTTTGCCGCCACGAGGGCGGAGCCACTTACATGGCAGAAGCCGACGGCAAAATGAACCAGCTGCCGGGTGTGGCAATGGTCACCCGGGGACCCGGTGCCGCCAATGCCCACGTCGGCCTGCACACCGCGTGGCAGGATTCCACGCCCATGGTGCTGTTCGTGGGGCTGATCCCCTTCGCCCACCGGGACCGCGAGGCGTTCCAGGAATTCGACATCAAAGCCTGGTTCGATACCGGCGCCAAGCGCGTGATGGTCCTGGACCACGCCGAGCGTGCTTCCGAAATCGTCGCTGAGGCCTTCTTCGCCGCCATGAGCGGACGGCCAGGTCCCGTGGTCATCGGCCTGCCCGAGGACGTCATCCGCAAGCAGATCGATCCGACTCCGCACCCGCCGATCCCGGTGGCAACCGGCGGAATGACCGGCACTGATTCAGACGCCCTTTCGGCAGCCCTTGCCGCCTCAACCAAGCCACTGTTTGTCACCGGGGGCAACGACTGGACCCAGGAAGGCGCCGACCAGCTCACCGAATGGCTGGAAAAGCACCACATCCCTGCCGCCGCAGAGTGGCGCACGGAAGGTACCGTACCGTTCGATTCCCCCTCCTACGTTGGTCCTATAGGTTACGGCCGCCCCAGGCCCACCTACGACCTGCTGGAAGAAACGGACCTGCTGATCTTCGTTGGCACCGTCCCCGGCGACGTCATCACCGACGGATTCCTCTGCCGCCAGGACTGGAACAAAAAGAACTTCCTCGTCACCATCGATCCCTCCCTTCGGGGCCGTTCCGGGCCCGTTTCCTATCAGATCGTGGCCAAACCCGACGTCTTCATTCGCGACCTTGCCAAGATCCAGCTTCCGGTGAAAGAAGAGTGGAAAGCCTGGACAGGACGGATGCGGGCCGAGCAGGTTGCCTTCGCTGCGCTCCCGCCGGCAACGCCGTCGGCTGGTCCCGCCCGGATGGACACCCTGATGGCAAACCTGGTGCCCACGCTGCCTGCCGACGCGATGGTAACGCTTGGCGCAGGCGAGCACACCAACTGGGCACACCGCTATTTTCCTACGCAGCGCTACGCCTCAATGATCAGCGCCCGCAATGGCTCCATGGGGTACTCCGTTCCCTCCGCCATCGCCGCCTCCCTGGAGTACCCCGGCAGGCGGGTGGTGACCATCGCCGGTGACGGCGAATTCCTCATGAACGGCCAGGAACTGGCCACCGCAGCCCAGTACGGCGCCACTCCCCTGGTCATCGTGATGGACAACCAGGAATACGGAACCATCCGCACCCACCAGGAACGCCACTACCCCGAACGGGTCTCCGGTACACAGCTGAAAAACCCGGAATTCGCGCTCATGGCGCAGGCCTTCGGAGGCTTCGGAATCAAGGTCGAACGCGACGCCGATATCCCTGCCGCCATCGAAGCGGCCCTCAGCGCCATCGATGAAGAGCAGAGGTTCGCACTCATCCACCTGGTGGTTGAGCAGAGGGTCAGAGCCTACTAA	MTSQVETPSGAVASLSPDPALPAQTAPQTAPGTGSASPRTAAATKSAGHVIVDALVAHGVKRTHIVPGESFLDVLDGLHGADIETIVCRHEGGATYMAEADGKMNQLPGVAMVTRGPGAANAHVGLHTAWQDSTPMVLFVGLIPFAHRDREAFQEFDIKAWFDTGAKRVMVLDHAERASEIVAEAFFAAMSGRPGPVVIGLPEDVIRKQIDPTPHPPIPVATGGMTGTDSDALSAALAASTKPLFVTGGNDWTQEGADQLTEWLEKHHIPAAAEWRTEGTVPFDSPSYVGPIGYGRPRPTYDLLEETDLLIFVGTVPGDVITDGFLCRQDWNKKNFLVTIDPSLRGRSGPVSYQIVAKPDVFIRDLAKIQLPVKEEWKAWTGRMRAEQVAFAALPPATPSAGPARMDTLMANLVPTLPADAMVTLGAGEHTNWAHRYFPTQRYASMISARNGSMGYSVPSAIAASLEYPGRRVVTIAGDGEFLMNGQELATAAQYGATPLVIVMDNQEYGTIRTHQERHYPERVSGTQLKNPEFALMAQAFGGFGIKVERDADIPAAIEAALSAIDEEQRFALIHLVVEQRVRAY	PGPT0008185_6792	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
D1-29_02388	678	ligK_3	COG0684	4-carboxy-4-hydroxy-2-oxoadipate aldolase	ATGGCCCGCGTCATCAACACCATCGTACGGACCCCCGCCGAGATCGCCTCGGCCTTCGCAGGGCTGGGAGTGGCCACCACGCACGAGGCCCAGGAGCGCTCCGGGCTTCTCCACTCACGATTGCAGCCCCGCCAGTCGGACGCCGCCATAGCCGGCACCGCTGTCACCTGCGAGGTGGCCCCGGGCGACAACTGGATGATCCACGTGGCACTCGAACAGGCCCAGCCGGGGGACATCCTCGTCGTGACACCCACATCGCCATGCGACGACGGGTATTTCGGAGATCTGCTCGCAACGTCCGCCATGGCGCGCGGCGTCCGCGGCCTCGTCATCGATGCGGGCGTGCGGGACCTCGCGATACTCAGGCGGATGGGTTTTCCCGTCTGGAGCAAGGCCATCAGCGCGCAAGGCACCGTCAAGGAGACCCTGGCCAACGTCCAGGTTCCCATTGTGTGCGGCGGCCAACTCATCTCACCAGGCGACGTCATCGTCGCGGACGACGACGGTATCTGCGTCGTCCGCCGGGAGGATGCCGCTGCTGTCCTTGAAGCCGGCCTGCGCCGGGAGGCCGCTGAAGAAGAGAAGCGCGCCCTCTATGCCCAAGGACTCTTGAGCCTGGATGTGGTGGACGGAATGCGCGCCCGCCTCGAGGCCAAAGGCCTGCAGTACCTTAGCTAG	MARVINTIVRTPAEIASAFAGLGVATTHEAQERSGLLHSRLQPRQSDAAIAGTAVTCEVAPGDNWMIHVALEQAQPGDILVVTPTSPCDDGYFGDLLATSAMARGVRGLVIDAGVRDLAILRRMGFPVWSKAISAQGTVKETLANVQVPIVCGGQLISPGDVIVADDDGICVVRREDAAAVLEAGLRREAAEEEKRALYAQGLLSLDVVDGMRARLEAKGLQYLS	PGPT0002085_852	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
D1-29_02389	912			hypothetical protein	ATGAGCAATACATTTAAAAAAGTACGCTTCGCAGGTGCTGCCCAGGGATTCAACTGGCTGCCCGTCTTCGTCGCCGACGAGCAAGGAATCTTCGCCAGGCATGGAATCAGCATCGAATACATGCGGCTGGGTTCCGTCGATAAGGCGACGGCGGCCGTGCGTGAGGGAACAGCAGACCTTGCGATCACCCCTCCGGAAGGCGCCGTCGCCGATTTCGTGACCGGTGGCACGCTGCGCATCGTTGGCTCCAACTCGGAGCGGCTCCCCATGTCACTCGTGGCGCGGGCGGACATTGCGACGCTGGAGGAACTGCGCGGCAAGCGGATCGGCACGTCGTCGCTCACTGAAGGCACCGCCATCTACACGCAGCTGATGCTCCGCGAAGCCGGCCTCAGCTATCCGCAGGATTACAGCTTCGTCCTCGCGGGCGTGCACACCACCCGCTGGGCTGCCCTGCAGGAAGACGGGATCGACGCCGCCCCGCAGCCCGCACCCTGGAACTTCCTCGCCGAACGCTCCGGCTACAACCTGCTCGGCGAGGTTGCCGATGTTATCCCCGAAATCATCTTCGCCGCCATCGTTGGCAATGAAGACTGGCTGCGTGACAACAGTGAGCTGGTGCAGGACCTTGTCTCGGCCCTCTCCGAAGCCCATGACTTCGTCAACAACCCAGCCAACGACTCCGTCACGCTGCCCATTTACCAGCGCCTCACCACGCCGGATGACGCAGAGCTCGCCGCCCGCGGCCTGGCGTACACCCGCGACCTCGGCATGTGGCCGGCAGGACTCCGGGTCTCACCCGAGGCGTTGGCGGCAACCATTGACGTCATGATCGGCTCCGGCCTCCTACAGGACTCCGACAGGACCACCGCCGGCGGCGTCGTGGACAGCAACTTCGCGGTAGGGGCATAA	MSNTFKKVRFAGAAQGFNWLPVFVADEQGIFARHGISIEYMRLGSVDKATAAVREGTADLAITPPEGAVADFVTGGTLRIVGSNSERLPMSLVARADIATLEELRGKRIGTSSLTEGTAIYTQLMLREAGLSYPQDYSFVLAGVHTTRWAALQEDGIDAAPQPAPWNFLAERSGYNLLGEVADVIPEIIFAAIVGNEDWLRDNSELVQDLVSALSEAHDFVNNPANDSVTLPIYQRLTTPDDAELAARGLAYTRDLGMWPAGLRVSPEALAATIDVMIGSGLLQDSDRTTAGGVVDSNFAVGA				NA	NA	NA	NA	NA
D1-29_02390	1032	ligJ_1		2-keto-4-carboxy-3-hexenedioate hydratase	ATGACACAAACACTGACCATAGACTGCCACGGCCACTTCACCACTGAACCCGCTGACTTCCACGCCTACCGCGCCGCGCAGATCGCCCACGCCGAGGGCCGGGGGGAAGCTCCCGGCCCCTATCGTGGAATTGCCGATGATGAACTGCGGGAGATCATTACGGCCAACCAGCTGAGGCTGCAGCGTGAACGCGGGTCAGACGTCACCATCCTTTCGCCCCGGGCATCCGGGATGGGCCACCACGTTCCCGGGCAGGACGCGGCCAACGACTGGGCCCGGCTGTCCAACGACACAATCGCGAGGATCTGCGATCTCTTCCCGGAGAACTTCGCAGGCGTGTGCCAGCTCCCGCAGACTGTCGAGGGAGGACTGCGGCCAGTCATCGCCGAACTGGAACGCTGTGTCGAAGCCGGCTTCGTGGGATGCAACCTCAACCCGGATCCCTCCGGCGGCCGATGGTCCGCCCCACCGCTGACCGACCGCTGGTGGGACCCGCTCTGGGATGCCATGGAACGACTCGACGTCCCTGCGATGATCCATGTTTCAGCTTCGTGTTCTCCGGCGCTCCACACCACCGGGGCACACTACCTGGCGGCCGACACCGCAGTGTTCATGCAGTTGCTCGCCGGGGACCTCTTCGAGCGGCATCCGGACCTGCGCCTGGTGATACCCCATGGTGGAGGCGCCGTTCCTTATCACTGGGGGCGCTACCGGGGTCTTTCAATCATGCTCGACAAGCCGCCATTGGCTGAGCACCTGATGCGCAACGTCTTCTTCGACACCTGCGTCTACCACCAGGAGGGTATCAATGCGCTGTTCTCGGTCATTGACCCCTCAAACATCCTGTTCGGCTCGGAATTGCTTGGTGCCGTCAAAGCTGACGATCCCGAGACGGGCCACCCCTTTGACGACACGAAGCGGTACGTGGAGGCGCTGAACCTGGACCAACAGGACCGGCATGCCGTCCTCAGCGGGAATGCACGCCGAGTCTACCCACGCCTCGACGCCCGACTCGCCGCCCAAGGGCGGTAA	MTQTLTIDCHGHFTTEPADFHAYRAAQIAHAEGRGEAPGPYRGIADDELREIITANQLRLQRERGSDVTILSPRASGMGHHVPGQDAANDWARLSNDTIARICDLFPENFAGVCQLPQTVEGGLRPVIAELERCVEAGFVGCNLNPDPSGGRWSAPPLTDRWWDPLWDAMERLDVPAMIHVSASCSPALHTTGAHYLAADTAVFMQLLAGDLFERHPDLRLVIPHGGGAVPYHWGRYRGLSIMLDKPPLAEHLMRNVFFDTCVYHQEGINALFSVIDPSNILFGSELLGAVKADDPETGHPFDDTKRYVEALNLDQQDRHAVLSGNARRVYPRLDARLAAQGR	PGPT0005260_138	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0005260-ligJ-K10220	NA	NA
D1-29_02391	1584	pchF_1		4-cresol dehydrogenase [hydroxylating] flavoprotein subunit	ATGAGCCAACCCGAGGCCCTGCCGACGATCCCCGATGCGATGGCGCAAGAGCTGGCCGCACTTCTGGGACAGGATGCCGTCCACGTCGAACGGACCCGCATCGATGACTTCAAGGACGATTATTGGCTCACCGGGGATGAAACCTACGCGGCGTCAGCCGTTGTACAGCCCACCACCACCGAACAGGTTCAGGGAATCCTGGAGATCGCACGGCGCTACGCCGTTCCGGTCTGGCCCCACAGCCAGGGGCGCAACCTGGGGCATGGCGGTGCCTCCCCGAAGGTCCGGGGGTCCATCCAGCTTGGTTTCCAGCGGATGAACCGGATCCTTGAGATTAACGAAGAGCTCGCCTATGCAGTGGTGGAGCCCGGAGTGACCTGGTTCGATCTGCACGACGCCGTACGCAACAAGGGTTACGACCTCGCCACTGCCTGCCCTGACCTTGGCTGGGGCTCCATCGTGGGCAACACCATGGACGGCGGCCACACGTACCAGCGGTACGGCGCGGACTACATGCTGGCCGCCGGCCTTGAAGTCGTGATGCCGGATGGTGCCATCCTGCGCACGGGGCAAGGTGCCATTCCTTCCAGCCCTGCCTGGCACACCTACAAGCGAAGCCTGGGACCAAACCTCGAACCGATGTTCGTCCAATCGAATTTCGGGATCGTTACCAGGATGGGCATCTGGCTGACGCGCCGGCCGGAATCCTTTGCACCCTTGCTCCTTGCCATCGACGACGAGGCGGACTTCGAGGCTGCCGTCGACACCATCCGTGAGCTCCGCCTTGCCGGGCACCTGGAAGGCATGCCGGCGCTGTACTCCACCCTGCGGGCATGCCATATGCTGCGCGATGCACCGGTTGCGGGGCAGGAGCATCCTTTCACGGACTCAGAGCTGCGGGACATTGGGATCCATGCGGGAGTTGGTGCCTGGGCGGCACGCGCGGCTGTCTGGGGTGCACCGGAAATCGTGGATGCGAAGGTGCGCCGGATCCGTGACGCGTGGGAGGCGATCCCCAGTGGCCGGGTGGAGGCCCGCCGCACTTACTCGCCCAATGAGTACAACCAACTTGAGTCTTCCGCCGAGCAAATCATGGCCGGCGAACCAACGCTGAAGGCCATTGAAAACACTCCACCCAACATCGCGCACGTTGATGTTTCCCCCGTGGTTCCCTTGCAGGGAACTGCGATGCGCGGCGTCATCGACGTGCTGCGTCGGGAGTTCAAGGCCGCCGGCCGCGACTTCGGCGCCGGCATCATGGTCACAGGAGAACGTTCTGCCGTGGTAATCGCCGGCGTTCGCTACGACAGGACGGATGAAAACTCCACCCGTTCCGCGTTCGCCCTGGCCCGCAGCCTGATCCTCGAACTCGGAAAGCTGGGGATTGCCGACAGCCGCCCCCACTTGGAATTCATGGACCTGGCCGCCGCGGAGTACAGCTTCAACGACAACATCTACCGGCGGGTGGCCACCCAGATCAAGGACGCCCTCGATCCCGACGGGATCCTCTCCCCCGGCAGGCACGGCATCTGGCCAACCACCCTCGGCCAGGCCCGAACCCATACCTCGAAGGACCCGAGATGA	MSQPEALPTIPDAMAQELAALLGQDAVHVERTRIDDFKDDYWLTGDETYAASAVVQPTTTEQVQGILEIARRYAVPVWPHSQGRNLGHGGASPKVRGSIQLGFQRMNRILEINEELAYAVVEPGVTWFDLHDAVRNKGYDLATACPDLGWGSIVGNTMDGGHTYQRYGADYMLAAGLEVVMPDGAILRTGQGAIPSSPAWHTYKRSLGPNLEPMFVQSNFGIVTRMGIWLTRRPESFAPLLLAIDDEADFEAAVDTIRELRLAGHLEGMPALYSTLRACHMLRDAPVAGQEHPFTDSELRDIGIHAGVGAWAARAAVWGAPEIVDAKVRRIRDAWEAIPSGRVEARRTYSPNEYNQLESSAEQIMAGEPTLKAIENTPPNIAHVDVSPVVPLQGTAMRGVIDVLRREFKAAGRDFGAGIMVTGERSAVVIAGVRYDRTDENSTRSAFALARSLILELGKLGIADSRPHLEFMDLAAAEYSFNDNIYRRVATQIKDALDPDGILSPGRHGIWPTTLGQARTHTSKDPR	PGPT0005880_69	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION	XENOBIOTIC_TOLULENE-4-SULFONATE_DEGRADATION_PATHWAY_1,PGPT0005880-pchF-K05797	NA	NA
D1-29_02392	1785	tfdB		2,4-dichlorophenol 6-monooxygenase	ATGACACTCGAAAATTCGCCGTTTGACTCGGATGTGCTGGTCATCGGCACAGGACCGATGGGCGCGACTACCGCGCTTGCACTCGCGACCTACGGCATACGCACAGTGGCGGTCAGCAGGGAAAACTGGCTTGCCCACACCCCCCGCGCGCACATCACCAACCTCCGTGCCATGGAGGTGCTCCGCAGCCTGGGCATCGAGGAGGAGGTGAAGCAGCAGGCAACCCCATGGAACCTCATGGGCGAGACAAAGTTTACGACCAGTCTCGCGGGGAGGGAGATCGCGCGTCTGAGCAGCTACGGAACGGGAGACGGTCGGCAGGGAGACTACCGTCAATCCAGTCCCTGCTCCATGGTGGACATCCCCCAGTCGGACCTGGAGCCGATTATCCTCAACAGTGCGGCAAAGCGGCGGGCATCGTTCGAATTCAACACCCTCTACCGCTCCAGCGTGCAGGACGACGACGGGGTCACAGTTACGCTTGAACACCGCCCCAGCGGGCGCGTCTACCAGCACCGCACCCGCTACCTGGTGGGTGCCGACGGGGCGCGTTCCCAGGTGGCCCAGGACGCCGGAATTCCCATCGAGGGCGTCTTGGCGCGTGCTGGCACGGTGTACGCACAGTTCCGTGGCGACGTCTCCAAGTACGTGGCCCACCGGCCGGCAATCATGAACTGGATCGTCAACCAGGAGGCAGCCGTCGGTGAAATCGGCCTGGGGCTTCTGCGGGCCGTGCGGCCGTGGGACAACTGGATCGCGGGATGGGGGTTCGACATCTCGCAAGGCGATCCTGACCTGAGCTTTGAGACAGCACGGACCCGGATCAAGGCCTACATCGGCGACCCCGACTTCGAGCCGGAAATCACCTCGGTAGGGCCCTGGTACGTCAACGAGGCTTACGCGCCCTACTACTCAAACAACCGCATCTTCTGTGGAGGGGACGCCACCCACCGCCATCCCCCGACGAACGGTCTCGGTTCAAACACCTGCATCCAGGATGCCTTCAACCTGGCCTGGAAGCTTGCCTATGTCATCAAGGGCGACGCTGCCCCGTCACTGCTGGACTCCTACACAGAGGAGCGGGCACCGATCGGTCGGCAAATCGTTGAGCGCGCGAACCAGTCGAGGAGGGAGTTTGCTCCCCTGAAGCAGGCCTTTGCGGCAGAGCGTCCCGGCGGGCCGGCGGGCCTGGAAAAGCTCATTGCCCCTACCGCCGAAGGAGAAGCTGCCCGAGCAGAACTTGCACGCGCCCTTGAGCTCCGGAATTACGAGTTCAACGCCCAGGGTGTGGAGATGAACCACCGCTACGAATCCGGGGCAGTGGTTCCGGACTCCGATGAGCCCGAGGTGTGGGCACGCGACAAGGAACTTTACGCGCAGGCGTCAACCCGTCCAGGTGCAAAACTCCCTCACGCCTGGCTTGTGGACGCCTCCGGACACAAGGTCTCAACGCTCGATCTCGTGGGCGACGGCTACTTCACCCTATTGACCGGGCCGTCAGGTACGGCATGGGTGGAGGCAGTCGCCGGGCTCGGGCACGCCCGCGTGCGGGCGCGGGTGATCGGCGCACCGGATGCGCAAGACCTCTATTTCGCCTGGCACAAGCTCCGCGGGATGGATGAAGACGGGGCCCTGCTGGTGCGTCCCGACGGCGTCATCGCGTGGCGCTCCCTGCATTCAGCTGGAGACGGGGCCCAGCAGGCGCTGTCCGAGGCCCTGACGGCCATCCTCGGAGTGAACACCGCGGACTTAAGCCATCAGGCCCCCATGGTGAATGTCCCATGA	MTLENSPFDSDVLVIGTGPMGATTALALATYGIRTVAVSRENWLAHTPRAHITNLRAMEVLRSLGIEEEVKQQATPWNLMGETKFTTSLAGREIARLSSYGTGDGRQGDYRQSSPCSMVDIPQSDLEPIILNSAAKRRASFEFNTLYRSSVQDDDGVTVTLEHRPSGRVYQHRTRYLVGADGARSQVAQDAGIPIEGVLARAGTVYAQFRGDVSKYVAHRPAIMNWIVNQEAAVGEIGLGLLRAVRPWDNWIAGWGFDISQGDPDLSFETARTRIKAYIGDPDFEPEITSVGPWYVNEAYAPYYSNNRIFCGGDATHRHPPTNGLGSNTCIQDAFNLAWKLAYVIKGDAAPSLLDSYTEERAPIGRQIVERANQSRREFAPLKQAFAAERPGGPAGLEKLIAPTAEGEAARAELARALELRNYEFNAQGVEMNHRYESGAVVPDSDEPEVWARDKELYAQASTRPGAKLPHAWLVDASGHKVSTLDLVGDGYFTLLTGPSGTAWVEAVAGLGHARVRARVIGAPDAQDLYFAWHKLRGMDEDGALLVRPDGVIAWRSLHSAGDGAQQALSEALTAILGVNTADLSHQAPMVNVP	PGPT0006950_132	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_CHLORPHENOL_DERIVATE_DEGRADATION,PGPT0006950-tfdB-K10676	NA	NA
D1-29_02393	900			hypothetical protein	GTGATTGAACTCAGTGAGGAGCATAACATCGGATTCGTTGAAAGGGGAAGAGAGACAGTGGAGACCTCGACTACCAGCAGCAGGGCTTATGTGGCAGGCGAGGCCGGGGAGGCAGCACCCCTTGGCACCCTCGAGCGTGGCCTTTACCTGTTGGGCCTCTTTTCAACGGAACGGCCGGAGTGGACGCTGCGTGAACTGCGGGAGGAATCGCAGTTGCCGAAGGCGACCGTACGGCGACTGATGCTCACGCTGGAGCGGCTGGGATGGGTGGAGCAGGACGTGGCGGGCAACTACGCCCTTGGCCCGCGAATGCTTCAAAGCCTGTACGCGAAGACGTCGGCCAGCGTGCTGGTCAGTGAAGCCCGGCCCTACCTGGAACGGCTCGCCCAGAGCACCACTGAATCCGCCCTCCTGTCGGTATGGGGCCACGAAGGAACACTGTCCCTGGACCTCGTCACAACGGAGCGGCACTTCAAACCGTTCACCTCGGCGGGCATGGTGGTCCATGGACTGATGTCGGCCGATGCGAAGGTGCTGGTGGCGTTCGCGCCCGAGATGCTTTGGGAGGCGCGGTATGCTTCCCTCTCACAAGCCATGCCGGCCGGAGTCACAGTGGATTCCATGCGGGCGAAATGGCGGGAGGTCCGCGCTGCAGGCGTCGCCTTCGATTACGAGGAATGGAAGCCAGGCGTCTGCGCAGTGGCGGCGCCGGTCCTCGGTGCCGACGGCTTTGTCCTCGCCTCCATCTCCCTGGTCATCCCCAGTGAGCGCGGCGGCAAGCAGGAGCTCGAACGCTACGCAGCAGCCGTCCGCGACGCTGCCGCAGCGCTCTCCCGGGTTCACATTGAGCGGAACCAATCATTGGGAATGACTCCTGATGATGGTGATTCACAGGGCTGA	MIELSEEHNIGFVERGRETVETSTTSSRAYVAGEAGEAAPLGTLERGLYLLGLFSTERPEWTLRELREESQLPKATVRRLMLTLERLGWVEQDVAGNYALGPRMLQSLYAKTSASVLVSEARPYLERLAQSTTESALLSVWGHEGTLSLDLVTTERHFKPFTSAGMVVHGLMSADAKVLVAFAPEMLWEARYASLSQAMPAGVTVDSMRAKWREVRAAGVAFDYEEWKPGVCAVAAPVLGADGFVLASISLVIPSERGGKQELERYAAAVRDAAAALSRVHIERNQSLGMTPDDGDSQG				NA	NA	NA	NA	NA
D1-29_02394	1134	adhT_3		Alcohol dehydrogenase	ATGACAATGACTCAGACAATGACTGCGGCACGAATGCATGCCGTCGGCGAACCGATGGTGATTGAAGAAGTACCGCTGCCGATACCTACCGGCGCGGACGTTCGGGTCCGTGTTCACAGCTGCAACATCGTGCCCAACCTCGCTAACATCCTCGCGAATTGGACCACCTGGTTTCCGCAGAACCCGCTGCCGGCCCTTCCGGCCATCTTTGGCCTGGATCCCGCAGGCGTTGTGGAGGCCGTTGGCCCGGACGTCCGGGAGTTTGCGCCCGGCGACCGTGTTTACGTCAATCCGGGCCGGTCCTGCGGTGCCTGCAAGGAATGCCGGAGCGGGAAGATCATGCACTGCCAGCATTTTGCTTTTGCTGGCTACTTCGGGCTGACGCCCACCTCAGGGCAGATGCTGGACCGGTACCCCTATGGCGGCTTGGCCGAGGCCATGCTCGCTCCTGCAGGTTCGTTGGTCCGGTTGCCGGACAACCTCAGTTTCAACCGGGCGGCACGGTTTGGATACCTGGGCACTGGCTACGCAGCCTTGCAAAAGGCACGCCTGGAACCCGGCAGCAGCCTGCTGATCAACGGAATCAGCGGAACCCTCGGGCTCGGAACTGCCCTGTTTGCCCTCGCCCAGGGGGTAACCACCATCCTGGGGACGGGCAGGAACCGCGAGCTCCTCGAGCGGGTGCGTGCCATTTCCCCGGAACGGATCCAGGTGTTCTCCACAGACGATGGGCCCATTGATGAATGGGTCCGCCGGGTCACCGACGGTGGGGTGGACGGCTATATCAGCGCCCTCGGACCGAATACCCCGCATGCTCCCTTCCTCGAGGGTCTTCGGTCCTTGCGCAGGGGCGGCCGCGCCGTCAACGTCGGTGCAACAGCCGGCGACGTCCCCGTCGATGTTCATCACCTGATGGACCAGCAGCAATCCCTGATCGGATCCTGCTGGTTCTCGCCCGGCGAAGGCCAGGAGATGGCGGCCCTTGCCGGGTCAGGGGCTGTCGATCTGTCGGTGTTCGAAGATGTCGTCTTTGGCCTTGAGGACGTCAATGACGCCATCAACGGTTTGGAAAACCGCAATGGAGGCTTCAGCAACTACATCGTCTCGCCGACTGGCGGGCGGGAGTATGTCTGA	MTMTQTMTAARMHAVGEPMVIEEVPLPIPTGADVRVRVHSCNIVPNLANILANWTTWFPQNPLPALPAIFGLDPAGVVEAVGPDVREFAPGDRVYVNPGRSCGACKECRSGKIMHCQHFAFAGYFGLTPTSGQMLDRYPYGGLAEAMLAPAGSLVRLPDNLSFNRAARFGYLGTGYAALQKARLEPGSSLLINGISGTLGLGTALFALAQGVTTILGTGRNRELLERVRAISPERIQVFSTDDGPIDEWVRRVTDGGVDGYISALGPNTPHAPFLEGLRSLRRGGRAVNVGATAGDVPVDVHHLMDQQQSLIGSCWFSPGEGQEMAALAGSGAVDLSVFEDVVFGLEDVNDAINGLENRNGGFSNYIVSPTGGREYV	PGPT0006375_672	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
D1-29_02395	606			hypothetical protein	ATGTCTGAACAGCTTCGTGTTGACGCGATCCAGGGCAGGGACGACAACCATCTCCAGGGCACAGGCGGCCAGGCTTCGGCCGTGCGTCGTGTCGTGACGGGTGTCTCCACCCAGGGTGAGCCAAACATCGTGAGTGACGGTCCGCCGCCCCGCTCCCGGGCGCATCAGGCGATCCCGGGCATGGTCAATTCCGTCGTCTGGGCGACACCGGCTCCGCCGGAATCCGGGTATCGTGACCTCACGCCAGACCTCGTCACTCTTGTTCCGGGCGCCGGGGAAACCGTTGCCCTGCTGGTCACTTTTCCACCGGATACCGTGTTCGCGGACCCGCTGTTCGACGGCGCAAAAGCGGCGCGTGAACAGCTGGAGATCACGCCTGGTCTCGCTGAACTGTTCGAGCAGGACAATCCAGGCTTCCATACAACTCCCACCGTCGACTATGGCATCGTGGTCAGTGGTGAGGTTGTGCTTGACCTTGGATCCACAACAACTGTCCTGCGGCAGGGCGACACCATAGTGCAGAACGGAACCAGGCACGCTTGGCGGAACCCCACCGATCAGCCTGCGACTGTTTTCTTCGTGTTGATCGGAAGGAAGCCCGCGTAA	MSEQLRVDAIQGRDDNHLQGTGGQASAVRRVVTGVSTQGEPNIVSDGPPPRSRAHQAIPGMVNSVVWATPAPPESGYRDLTPDLVTLVPGAGETVALLVTFPPDTVFADPLFDGAKAAREQLEITPGLAELFEQDNPGFHTTPTVDYGIVVSGEVVLDLGSTTTVLRQGDTIVQNGTRHAWRNPTDQPATVFFVLIGRKPA				NA	NA	NA	NA	NA
D1-29_02396	2172			hypothetical protein	ATGGCCGGATGGAATGCGGACAATGCTGCCGGTTCTACGGGATTGGGCGCTGTAACGCTGGTGGAGGGTTCGTCCTTTTGCATTTCGTTGCAGAATGGCGACATCTTCGCCCAACACCCTCATGGTGTTTTCCACAGGGACACCCGAATCCTGTCCCGCTGGTGCCTGACGGTTAACGGCCAGGAGCTTGAGCCGCTGGGTGCCTGGACTCCTTCACCCTTCCGCGCAACCTATATCGGCCGGGGAGTTCGTGCCGACGGCAGGGCCGACAGTCCACTCACGGTTCTCCGCAACCGGGAGCTGGGGGCAGGAATACTGGAGGACATCGCTATCTACAATTACTCCCCCCACCCGGCTGCCTGTGAGGTCGCGCTCTCCGTGGATGCGGATTTCGCCGACCTTTTTGAGGTGAAGGACGGGCGTTTCCACCGGCAGTGGGCACAAACACGCCAGGCAGAGGACGGGGCGCTGAGGATCGAGGCCCTCTGGCAGGGTGTGAAGAAGGATGTCATTGTGCGGGCACCCGGCTGCGAGGTCAGCACCGATGGTTTGCTGTTCAGCACCGTTATTCCTCCCCAAGGCGAGTGGAGCGTCCGTGCCTCGGTGATGCCTGAATTGGGGGAATCCGCGGATGGACAGCCTTTCCACCCCGCCGCGGATGCCGATTCCCCCCAAGACAGGCGGCAGCAGGCCTGGGCCAGGACAATCCCTGATGTCACCATGGGCAATCCTTCCGTACAGAGAACAATGCTGCGCAGCCACGCCGATCTGGGCGCCCTGCGAATCGTGGATCCGGATCATCCCGAGCGCATGGTTGCCGCCGCGGGTGCGCCCTGGTTCATGGCACTGTTCGGGCGGGACTCGCTGCTGTCCTCGTCCATGATCCTGCCGCTCGACGCGTCCCTGGCCCTTGGAACGCTGCAGACCCTGGCTGACCGGCAGGGGAAGGTGGAGGACGTGCTGACCGAAGAGCAGCCCGGGCGGATCCTGCACGAGGTGCGGTTCGGCGTCGGGACGGGCCTGGCACTTGGCGGCAAATCCGCCTATTACGGCAGCGCCGACGCAACGCCCCTGTTCGTGGCACTGATGGGCGAAGTCTCCCGCTGGGGAGTCTCTGCGGAGGACATCGCCGCGCTGCTTCCCCATGCGGACCGTGCCCTTGACTGGATCCGCGACTACGGCGACCGTGACGGTGACGGGTTCGTCGAGTACGAGCGGCTCAACGACCAAGGCCTCATTAACCAGGGCTGGAAGGACTCGTGGGACGGAATCAACTTTGCCGACGGCCGCCTCGCGGAGGCTCCCATTGCGCTGTGCGAAGTGCAGGGTTATGTCTACAGCGCCTACATCGCCCGGGCCTGGATGGCCCACGATGCCGGCGACAGCCAGATGGCCGCGGAGCTCCAGGACCGCGCGGCACTGCTGAAGCAGCGGTTCAATGAGGCGTTCTGGTTGCCCGACCGCGGGTATTATGCGATTGCCCTTGACCGGGATAAGCGGCCGGTTGATGCCTGCGCTTCCAATATGGGCCACTGCCTGTGGTCCGGCATCGTCGACGCCGACAAGGCGCAACAGGTTGCCGATCGGCTCATGTCTCCGGAGATGTTCAGCGGCTGGGGTGTACGTACCCTGGCGAGCGACATGAAGGCGTACAACCCGGTGAGCTACCATAACGGCTCCGTCTGGCCACACGACAATGCGCTGATCGTGGCCGGCCTCATGCGCTACGGTTTCGTCGAGGAGGCCCAGACCCTGTCCATTGCGTTGTTGGAGGCCGCCGAATATACGGACAACCGGCTTCCGGAACTGTTCTGCGGGTTCAGCCGTGACAAGTGCCCTGAGCCGCTCCCTTATCCGACGGCCTGCTCTCCCCAGGCATGGGCCTCTGCTGCCCCGGTGATGTTGCTCCGGAGCCTGCTGCGCTATGAGGCACACGTCTCCCTGGGTGGACTGTGGATGGACCCTGTTTTGCCGGAATCCTGGGGCGCCATGCACGGGTCAAACGCACCGGTGGGTACTGCCCGGGTTACGGTCGACATTTCGGGAAGGCAGGCAACGGTCATGGGATTGCCCGAAGGAATGGTGCACTACAGGGGAACACGCCCTCCGCTGGACAACTTTTCGGAGTTGGAAAACCTTCGCCGGAACAGGGTGCCCGGGCCCAACGGCTAG	MAGWNADNAAGSTGLGAVTLVEGSSFCISLQNGDIFAQHPHGVFHRDTRILSRWCLTVNGQELEPLGAWTPSPFRATYIGRGVRADGRADSPLTVLRNRELGAGILEDIAIYNYSPHPAACEVALSVDADFADLFEVKDGRFHRQWAQTRQAEDGALRIEALWQGVKKDVIVRAPGCEVSTDGLLFSTVIPPQGEWSVRASVMPELGESADGQPFHPAADADSPQDRRQQAWARTIPDVTMGNPSVQRTMLRSHADLGALRIVDPDHPERMVAAAGAPWFMALFGRDSLLSSSMILPLDASLALGTLQTLADRQGKVEDVLTEEQPGRILHEVRFGVGTGLALGGKSAYYGSADATPLFVALMGEVSRWGVSAEDIAALLPHADRALDWIRDYGDRDGDGFVEYERLNDQGLINQGWKDSWDGINFADGRLAEAPIALCEVQGYVYSAYIARAWMAHDAGDSQMAAELQDRAALLKQRFNEAFWLPDRGYYAIALDRDKRPVDACASNMGHCLWSGIVDADKAQQVADRLMSPEMFSGWGVRTLASDMKAYNPVSYHNGSVWPHDNALIVAGLMRYGFVEEAQTLSIALLEAAEYTDNRLPELFCGFSRDKCPEPLPYPTACSPQAWASAAPVMLLRSLLRYEAHVSLGGLWMDPVLPESWGAMHGSNAPVGTARVTVDISGRQATVMGLPEGMVHYRGTRPPLDNFSELENLRRNRVPGPNG				NA	NA	NA	NA	NA
D1-29_02397	822	xynR_2	COG1414	HTH-type transcriptional regulator XynR	ATGGCTGGAAACAGCACCCATCCCGGTCTTTCAGTGGTGAGCAAGGCCGTAAACATCTTGGGAGTCTTCTCGGAAGAGCGCACGGAGTTGGCGCTCTCAGACCTGGCAAGGGCAACCGCCATGCCCACCAGCACCGTCCACCGCCTGGTCCAGGAGCTGGTGGAATGCGGAGCGCTGGAGCGAACCGCTGCTGGCCGCTACGTGATCGGCCTGCGGCTGTGGGGAATTGCAGCCCGTTCACCGCACAATTACGCCTTGAGCGACGCTGCGACGCCCTACATGCAGCAGGTGCTGTCATCAACGCATGGCCATGTCCACCTGGCTGCGCTGCACGGACACGGCGCACTGGTCCTAGAAAAGCTGTCCTGGCCCCATGCCGAGAAGACCATCTCCCGGACCGGGAGCAAAATGCCGCTGCACGCCAGCGCCGCCGGACTGGTTTTGCTCGCCTATGCCCCCAGTGCGTTTCAGGAAACTGTGCTGGCAGCGCCCCTGAGTGCCTTTACGCCTCAGACCACAACAGATCCGCTTGTTCTCCGAAGACTGTTGGCTGTGATCCGGCAGGAGGGGATTTCCAGGAGCATGGAACAGCTGGTAGCGGGCATGGATGCCTGTGCGGCGCCGGTCTTCTGGCCTGATCAACGGGTGGCAGGAGCCATAGCCGGTATCGCGGCGACGGGAACCTACAAAATGGCGGACATGGAGCGTGCCGTCAGGAAGGCCGCCAGGGGTCTCACGGACTTCCTGGCTACCCCCGAATCTGCCGTTGGTTCACGGGCATCGTTCCATGCCGGGCTGCGGCCAATGGCCCAAACGGATTGA	MAGNSTHPGLSVVSKAVNILGVFSEERTELALSDLARATAMPTSTVHRLVQELVECGALERTAAGRYVIGLRLWGIAARSPHNYALSDAATPYMQQVLSSTHGHVHLAALHGHGALVLEKLSWPHAEKTISRTGSKMPLHASAAGLVLLAYAPSAFQETVLAAPLSAFTPQTTTDPLVLRRLLAVIRQEGISRSMEQLVAGMDACAAPVFWPDQRVAGAIAGIAATGTYKMADMERAVRKAARGLTDFLATPESAVGSRASFHAGLRPMAQTD				NA	NA	NA	NA	NA
D1-29_02398	759	yclP	COG4604	Petrobactin import ATP-binding protein YclP	ATGATTGACATCCGGAACGTTTCCAAGGCGTACGGAGGGCGGTTGGTCCTCGACGACGTCAGCTGCCTTATTCCCCGCGGTGGCATCACCTCGATCATCGGCCCGAACGGTGCCGGAAAGTCCACTTTGCTTTCGCTGATCAGCCGGCTGCAGCCGCTGGAGAGTGGCACGGTTGAGGTGTCAGGCCTGGACGTGGCCAGCACGCCGGGCAGGGAGCTCGCCCGGACCATGGCCATCCTTCGCCAGGAAAACCACCTGACCATGCGGCTCACGGTCCGTGACCTGGTTGCCTTTGGCAGGTTCCCCCATACCGGGGGCCGCCCCACGGTGGAAGACCTGGCAATGGTGGAGGAATCGATCCGGCAGCTGGATCTGACCGCCATGGCAGACAGGTTCGTGGACGAACTCTCCGGAGGCCAGCGGCAGCGTGCCTACATCGCGATGGTCCTGGCGCAGGACACCGAATTTCTGCTCCTGGATGAACCGTTGAACAACCTGGACATGAAACATTCAGTGGAAATGATGCGGTTGCTGCGCCGGCTGGCGGATGAGCTGGGCAAGACCATTGTCCTGGTGGTGCACGACATCAATTTTGCGTCCTGCTACTCCGATACGATCCTGGCCATGAAGGACGGGCGCCTGATCCATCAGGGCAGCCCGGAGGAGATCATGCACGGCCCCATGCTCCAGGCTGTTTATGACATCGACATCAGGATCGAAGAGATCGACGGCAACCGCATCGGCGTCTATTTCGCCTGA	MIDIRNVSKAYGGRLVLDDVSCLIPRGGITSIIGPNGAGKSTLLSLISRLQPLESGTVEVSGLDVASTPGRELARTMAILRQENHLTMRLTVRDLVAFGRFPHTGGRPTVEDLAMVEESIRQLDLTAMADRFVDELSGGQRQRAYIAMVLAQDTEFLLLDEPLNNLDMKHSVEMMRLLRRLADELGKTIVLVVHDINFASCYSDTILAMKDGRLIHQGSPEEIMHGPMLQAVYDIDIRIEEIDGNRIGVYFA	PGPT0003760_7732	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
D1-29_02399	687	yclO	COG4605	Petrobactin import system permease protein YclO	GTGGTGGCCCCCTCGCCTTCCCTGCGGTTCGGGCTGGAGGTGGTCCTCATGGTGGCCTTCAGTGCCGTGCTTTACCGGTGGATGTTCACCGGTGCAACGCGTTCCCTGCACCTGCTGCTCCTGGTGGGTGTGATCCTGGGTAGCCTCTTCCGTGGTCTTTCCTCGCTGCTTCAGCGGCTGATGGAGCCGAGCGAGTTCATCATTCTGCAGGATTTCTTTTTTGCCAGCTTCAACAACGTGGAGCCCTCGCTTTTGGGAGTCTCCGCCGTGATCATCGCCGTGGTGTGCGGGGGTGTCTGGAAGTCCCGCCATACCTTGGACGTGCTGGCCCTCGGGCGGGAGATCGCCATTAATGTAGGCGTGGACCACCGGCGCGCAGTCATGCGTATCCTGTTGGCCTGCTCACTCCTGGTGGCGGTCTCTACTGCCCTGGTTGGTCCTGTGACGTTCTTCGGCCTGCTGGTGGTCAGCCTTGCCTATCAGCTGTGCCGTGGCTTCAGCCACGCCCGCCTCTTCCCGATAGTGGCGCTCATCGGCGTCATCGCGCTGGTGGGTGGCCAGGTGGTGCTGGAGCGTGTGTTCGGCTTCGCCACCGCCCTGAGTGTTGTCATCGAATTCGCCGGCGGCATTCTGTTCCTCTTCCTCCTCCTCAAGGGCTCCCTGAAAATGACCGGGACACGCAAATGA	MVAPSPSLRFGLEVVLMVAFSAVLYRWMFTGATRSLHLLLLVGVILGSLFRGLSSLLQRLMEPSEFIILQDFFFASFNNVEPSLLGVSAVIIAVVCGGVWKSRHTLDVLALGREIAINVGVDHRRAVMRILLACSLLVAVSTALVGPVTFFGLLVVSLAYQLCRGFSHARLFPIVALIGVIALVGGQVVLERVFGFATALSVVIEFAGGILFLFLLLKGSLKMTGTRK	PGPT0003770_4505	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
D1-29_02400	603			hypothetical protein	ATGGCGCGGCTGACACGGGAACAGAGCCAGGCACTGACTCGGGAGAAGCTCCTCCGATCTGCTGGCGACGTGGTGGCACGTTACAGCTATGACGGCGCCTCCGTAGAGCGCATCGCCGAGGAAGCAGGGTTCTCCAAAGGCGCGTTCTACTCGAATTTCTCCTCCAAGGAGGACATTCTTCAACAGATGCTCGAAGGAAATGCCGGCTTCGATGTCAAGGATCTGGCCCAGCTGCTCGACGGGATCGACGATCCCGTCGAGGTGATCGACGTCGTCGCCCAGTGGAGCGATTCACGCGCGGGCGAAAAAAAGTGGGGCCTCATTGCCATCGAAATGCTGCGGCGGGCGCATCGCGACGGCACGCTGACTGACCGGCAGCGCCAGCTTTTTACCAGCCAGTGGGAACAGATAGGACATCTCCTCCGCAGTAAACTCTTCCCAAATGGCCATCCTGAAATAAGCGACACGGATCTCGGCGGAATGATCCTGGACCTGACGTACGGCGGCATCGCGGTCTACCTCGAGGTGAACACGGCCGGGCAAATGGTGCGGCACATCCTGTCCGCTCTTCGCGACTCAGCCCGGGTAACACCCGGCAAATAA	MARLTREQSQALTREKLLRSAGDVVARYSYDGASVERIAEEAGFSKGAFYSNFSSKEDILQQMLEGNAGFDVKDLAQLLDGIDDPVEVIDVVAQWSDSRAGEKKWGLIAIEMLRRAHRDGTLTDRQRQLFTSQWEQIGHLLRSKLFPNGHPEISDTDLGGMILDLTYGGIAVYLEVNTAGQMVRHILSALRDSARVTPGK				NA	NA	NA	NA	NA
D1-29_02401	246			hypothetical protein	ATGTCGTTACGAGCAGCAGGCAACCCGGACCGGGACCTGAACAGCGGCCTCGGTCCGCACCCGCGGTTGCTTTCGCTGCCAAGCAAGTGGGTGGGCGGAATGACCCGCGAGGAGGCCTATTCGCTCTGCCCGGAGGACTCATATGTCGAGTACTACGGAAACCAGTGGCTGATTGTGCCTTTCGAACCGGTGGAACAGCCGCACTTCTTCGTCTGCCGGCCGGAGGACCATGTACTTGTCGCATGA	MSLRAAGNPDRDLNSGLGPHPRLLSLPSKWVGGMTREEAYSLCPEDSYVEYYGNQWLIVPFEPVEQPHFFVCRPEDHVLVA				NA	NA	NA	NA	NA
D1-29_02402	915			hypothetical protein	ATGATTGTTGATTTGCCGGACACCACCACCTCGAACGTGTCCAAGAAGATCATGGCCCTGCGCGAGCAGGGCGGCGTGATCGCCCTGGGCCGGGTCCTGACCCTGGTGGTCGTGACCACCTCAGGGCTCGAGGAAGAAGCGATCGAGGCCGCGAATGAGGCCAGCCGGGAACACCCCTGCCGGATCATCGTCCTCGCCGACGCCGGCAAGGACGCCCCGGACCGGCTGGACGCGCAGATCCGGGTCGGCGGGGACGCCGGCGCGTCCGAGGTGATCGTGCTGCGCGGCTACGGCCAGCTCGCGCACGAGTCCGAGTCCCTCGTCGCGGCTTTGCTGTTGCCGGACGCCCCGATCGTGGCGTGGTGGCCGCACGGCGCCCCGGAAAACGCCTGCGAAACCTCGATCGGGCGGATCGCGCACCGCCGGATCACCGATTCCGCGAACGAACCGGACCCGCAACAGGCCCTGGAAAACATCCGCGCCACCTACAAAGCCGGCGACACCGACCTGGCCTGGACCCGGCTGACGAACTGGCGGATCCAGCTCGCCGCGGTCCTGGACCAGGTAGACCCCTCCCCCGTAACAGCCGTCGCGGTCGAGGGCGCCTCCGACTCCCCCTCCACCATCCTCCTCGCGGCCTGGCTCACCCTGTCCCTGGAGGCCCCCGTGACCATCGTCGCGGACCCCGCCGGAACCGGGATCCGCCGCGTCCGCCTCAGCCGACCCGGCGGCGACGTCCAACTCTTCCGCCCCGGACTCTCCATCGCCGAACTCACCCAACCCGGCCAACCAGCCCAACGCATCTCACTCCCCCGACGCAGCCTCCGCGACTGCCTCGCCGAAGAACTCCGCCGCCTGGACCCCGACGAAGTCTTCGGCCAGGTTCTGCAGACGGCGACTCCCGCCGGCCGCTGA	MIVDLPDTTTSNVSKKIMALREQGGVIALGRVLTLVVVTTSGLEEEAIEAANEASREHPCRIIVLADAGKDAPDRLDAQIRVGGDAGASEVIVLRGYGQLAHESESLVAALLLPDAPIVAWWPHGAPENACETSIGRIAHRRITDSANEPDPQQALENIRATYKAGDTDLAWTRLTNWRIQLAAVLDQVDPSPVTAVAVEGASDSPSTILLAAWLTLSLEAPVTIVADPAGTGIRRVRLSRPGGDVQLFRPGLSIAELTQPGQPAQRISLPRRSLRDCLAEELRRLDPDEVFGQVLQTATPAGR				NA	NA	NA	NA	NA
D1-29_02403	1413	zwf2_1	COG0364	Glucose-6-phosphate 1-dehydrogenase 2	ATGCCGGCGGTGTATGACTTGGCGAATCGTGGGTTGTTGCCGCCGAGTTTCGCGTTGGTCGGGTTCGCGCGGCGGGAGTGGGACAAGGAGGATTTCGCTGCGGAGGTGAAGGCCTCGGTGCAGGCCTATGCCCGTACGCCGTTTGATGAGGCGGTGTGGAACCAGCTCGCGGAGGGGATCCGTTTTGTCCAGGGCGAGTTCGATGATGACGGCGCGTTTGAGCGGCTGGGCGAGACGATCAAGGAACTTGATGATGTCCGCGGCACGCGTGGGAATCACGCGTTTTATTTGTCGATCCCGCCGAAAGCGTTTGAGCAGGTGTGCCGGCAGCTGTCCAAGCATGGCCTGGCGCAGGCCGAGGGGGATAAGTGGCGGCGGGTGGTGATCGAGAAGCCGTTCGGTCATGACCTGGAATCGGCCCGGAAGCTGAACGACATTGTGGAGTCGGTGTTCCCGGCGGACGCGGTGTTCCGGATTGATCATTATTTGGGTAAGGAGACGGTGCAGAACATTCTGGCGTTGCGGTTCGCGAACCAGTTGTTTGAGCCGTTGTGGAACGCGAACTACGTGGACCATGTCCAGATCACGATGGCTGAGGATATCGGTACGGGCGGCCGGGCGGGGTATTACGACGGTGTGGGCGCGGCGCGGGATGTGATCCAGAACCACCTGCTGCAGCTGTTGGCGCTGACCGCGATGGAAGAGCCGATCTCGTTTAATGCTGATGATTTGCGGGCGGAGAAGGAAAAGGTCCTCGCCGCGGTCAAGCTCCCGGAGGACCTGTCGGCGCATTCGGCCAGGGGGCAGTTCGCCGGTGGCTGGCAGGGCGGGGAGCAGGTCCTGGGTTACCTGGAGGAAGAGGGGATCCCTGCTGATTCGATGACGGAGACGTTCGCGGCGATCCGGGTGGATATCCATACCCGGCGCTGGGCCGGGGTGCCGTTTTATCTGCGTGCGGGCAAGCGTTTGGGGAGGCGGGTGACGGAGATCGCGGTGGTGTTCAAACGCGCCCCGAACCTGCTCTTCCGGGATCATGGCGAGGATGATTTCGGGCAGAACGCTGTGGTGATCCGGGTCCAGCCCGATGAGGGCGTGACCATCAGGTTCGGCTCCAAGGTCCCGGGCACCCAGATGGAAGTGAGGGACGTGACGATGGACTTCGGCTACGGGCATTCGTTCACCGAATCCAGCCCCGAGGCGTATGAGCGTTTGATCCTGGACGTGCTGTTGGGTGAGCCGCCGTTGTTCCCGCGGCATGAGGAAGTGGAGCTGTCCTGGAAGATCCTTGACCCGTTCGAGGACTACTGGGCCGAACTGAACGAACAGCCCGAGCCCTATGCCCCGGGTTCCTGGGGCCCGGCCAGCGCCGATGAGTTGCTGGCCCGTGACGGACGAACCTGGAGAAGGCCATGA	MPAVYDLANRGLLPPSFALVGFARREWDKEDFAAEVKASVQAYARTPFDEAVWNQLAEGIRFVQGEFDDDGAFERLGETIKELDDVRGTRGNHAFYLSIPPKAFEQVCRQLSKHGLAQAEGDKWRRVVIEKPFGHDLESARKLNDIVESVFPADAVFRIDHYLGKETVQNILALRFANQLFEPLWNANYVDHVQITMAEDIGTGGRAGYYDGVGAARDVIQNHLLQLLALTAMEEPISFNADDLRAEKEKVLAAVKLPEDLSAHSARGQFAGGWQGGEQVLGYLEEEGIPADSMTETFAAIRVDIHTRRWAGVPFYLRAGKRLGRRVTEIAVVFKRAPNLLFRDHGEDDFGQNAVVIRVQPDEGVTIRFGSKVPGTQMEVRDVTMDFGYGHSFTESSPEAYERLILDVLLGEPPLFPRHEEVELSWKILDPFEDYWAELNEQPEPYAPGSWGPASADELLARDGRTWRRP	PGPT0017380_786	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
D1-29_02404	606	rmpA		3-hexulose-6-phosphate synthase	ATGGACCTTCTCACCGTCGAGGATGCCCTCGAACTGGCCGGCAAGGTTGCCGAATACGTTGACATCATTGAGCTCGGCACGCCCCTGATCAAAGCCGCCGGCCTGGGTGCCGTCACCGCCGTCAAGGCTGCCCACCCGGACAAGACCGTGTTTGCTGATATGAAGACGATGGATGCCGGCGAGCTTGAAGCCGACATTGCCTTCACAGCCGGCGCCGATCTGGTGTCCGTTCTCGGCAGCGCTGACGACTCCACTATCGCAGGTGCCGTCAAGGCCGCAAAAGCGCACAACAAGGGCATCGTGGTGGACCTCATCGGCGTTCCGAACAAGGTTGCCCGCGCCAAAGAGGTACGTGCACTCGGCGCAACCTTCGTGGAGTTCCACGCGGGCCTGGATGAGCAGGCGCAGCCCGGCTTTGACCTCAACGGGCTGCTCAGTGCAGGCGAAGAGGCCCGCGTTCCCTTCTCGGTTGCCGGTGGCGTCAACCTCAGCACCATTGAGGCTGTCCAGCGTGCAGGCGCTGACGTGGCCGTAGCAGGCGGTGCCATCTACGGCGCCGCAGATCCGGCCCTCGCAGCGAAAGAGCTGAAGGCCGCCATCATCTAG	MDLLTVEDALELAGKVAEYVDIIELGTPLIKAAGLGAVTAVKAAHPDKTVFADMKTMDAGELEADIAFTAGADLVSVLGSADDSTIAGAVKAAKAHNKGIVVDLIGVPNKVARAKEVRALGATFVEFHAGLDEQAQPGFDLNGLLSAGEEARVPFSVAGGVNLSTIEAVQRAGADVAVAGGAIYGAADPALAAKELKAAII	PGPT0013295_499	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-FORMALDEHYDE_FIXATION,PGPT0013295-hxlA|yckG-K08093	NA	NA
D1-29_02405	657	rmpB		3-hexulose-6-phosphate isomerase	ATGAAAAGCTTCTCATCTGGCACAGTGTCGCTGATGACGAATGAAGGAACGCACACAGTGAATTCAACAACAGCCGGTGCATCGACAGTGGAAGACACTGTCGGCGCCATTGCTTACAACCTGTCACTCGTCCGGAACGAGATTGCTGACACAGCCGCACGGATCGATGACCGGCAACTGGCCGGACTGGCAGCGAAAATCGGCCAGGCAGACCGCGTCTTTGTCGCCGGGGCAGGCCGCAGCGGCCTCGTCCTGAGGATGGCGGCCATGCGCTTGATGCATCTGGGCCTGACTGTCCATGTGGCTGGTGATACCACCACCCCAGCGATCAGCTCCGGTGACCTGCTCCTGGTTGCTTCCGGCTCCGGCACCACTTCCGGTGTGGTGAAGGCAGCAGAAACTGCAGTCAGCGCGGGGGCAAGCGTCGCGGCGTTTACCACCAACCAGGGATCGCCGTTGGCAGGTCTCAGCGACGAGCTGGTGATTATCCCCGCCCAGCAAAAGACAGACCACGGATCAGGGGTCTCCCGTCAGTACTCCGGGAGCCTCTTCGAGCAGGTGCTTTTCCTGGCCACCGAAGCCGTCTTCCAAACGCTTTGGGGCAACGCAGATGTGCCGGCGGAGCAACTCTGGCTGCGGCACGCCAACCTCGAGTAA	MKSFSSGTVSLMTNEGTHTVNSTTAGASTVEDTVGAIAYNLSLVRNEIADTAARIDDRQLAGLAAKIGQADRVFVAGAGRSGLVLRMAAMRLMHLGLTVHVAGDTTTPAISSGDLLLVASGSGTTSGVVKAAETAVSAGASVAAFTTNQGSPLAGLSDELVIIPAQQKTDHGSGVSRQYSGSLFEQVLFLATEAVFQTLWGNADVPAEQLWLRHANLE	PGPT0013290_115	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-FORMALDEHYDE_FIXATION,PGPT0013290-hxlB|yckF-K08094	NA	NA
D1-29_02406	1329			hypothetical protein	ATGAACACAGCCGGAAAGCCACTCGACACAGCGCCGGGCCCTGCTCTCCTGGATGCGACGTGGGCCCTCCTGAACGCGGTGTCGGCCGTGGCCCAGGCCCCCCTCACCTCCATCGCGGAGCGTTTGCGCGAGGCGCTGCTTCCCTTCGCGGCCGGAAGCGCACTGGTGATTTTCACAGAGGACTGCACGGGGCGTCCGCAAAAGAAGGCTGGTGAAGAAGGGATTATTTCCCGGGTGTCCATCGCCGAACTGCAGGGCCTGCGCGCGTCCCTGACTGATGGACGTCCCTGGCTGGGGGAGGCCGGGATAGCGGGGGAGCCACGGCCGGTACTCGCAGTTAGGCACGTGGCCAGCAACGCCCTGCTTGTTATTACTGATCCCTGCCTGGACGAGAATGATCTGGACAAGGATGCGGCGGCACTGGACGCGGCGCTGGAACTGGTGCAGTACTTTTGGCAGCTCGCAGCCCAAAGGATCCAGGAAAAGGTTAAGGACGCTCCGCCGTCGTACCTGCTGGAATCACGGGCGGCATCGGCCGAGCGGATCCGCGTCACGGCCGAACTGGTGGACCAGCATTCCACAACCCTGGAAACACAGCTGGCCGCCCTTCGATCTTCGTCCCTGGACGACGCCGCCGCGCGTTCGTCGGTTACTGCGCTGACGGCCAAGGCACTGGTGGGGCTACGGACTCTCAGTGACCGCACAGCCGACCTGGTGGAGGAGCCGGTTGCAAAGGCCTTCGAACGCCTGCGGGAGGACCTGCGGCCGCTGACCCGGTTCAGCGGCATCAACGTCCAGTTCATTGAACCGCCCCTGGGTGGGAGGGCGCTTCCCGGTGAGGTTGCCCACGCGGCGAGGGCGATAGTCAGGGGACTGCTGCTGGCGATGATGGAACAGCCGGAAGTCAGGCGGGTCCGGGCACAGTGGGACTGCGACGGGGAGAACCTGCTGATAAATGTACGCGACGACGGCCTCGGCGCGCTTTCAGCCGACGCCCCGAGTATTGGCCGGTTGGACCGCCGGGTCCAGGCGCTGTCCGGTCGCATGCAACTCGACGTCATGGCCGGCTGGGGTGCCGACGTCAGTGTCACGCTGCCGTTGGACCCTCCAGCTCTGCCTGCCGGTGATGTGACGGCCTGGAACCTTGCCGCCCGGGAACTGGAAGTCCTTCAGCACCTGGCTGCCGGGAAGCGGAACCGCACCATCGCGTCGGCCCTGGGCATTAGCGAGAACACCGTGAAATTCCATGTGCGGAATCTTTTCAGGAAGCTCGACGTCGGTTCACGCACCGAGGCAATTGCCCTGGCCAACAGCCACGGCCTGCGCTGA	MNTAGKPLDTAPGPALLDATWALLNAVSAVAQAPLTSIAERLREALLPFAAGSALVIFTEDCTGRPQKKAGEEGIISRVSIAELQGLRASLTDGRPWLGEAGIAGEPRPVLAVRHVASNALLVITDPCLDENDLDKDAAALDAALELVQYFWQLAAQRIQEKVKDAPPSYLLESRAASAERIRVTAELVDQHSTTLETQLAALRSSSLDDAAARSSVTALTAKALVGLRTLSDRTADLVEEPVAKAFERLREDLRPLTRFSGINVQFIEPPLGGRALPGEVAHAARAIVRGLLLAMMEQPEVRRVRAQWDCDGENLLINVRDDGLGALSADAPSIGRLDRRVQALSGRMQLDVMAGWGADVSVTLPLDPPALPAGDVTAWNLAARELEVLQHLAAGKRNRTIASALGISENTVKFHVRNLFRKLDVGSRTEAIALANSHGLR				NA	NA	NA	NA	NA
D1-29_02407	600			hypothetical protein	ATGGCGCGGCTGACACGGGAACAGAGCCAGGCACTGACACGAAAGAAGCTCCTGAAATCGGCAGGCGACGTGGTGGCACGCTACAGCTATGACGGTGCGTCCGTTGAACGCATCGCCGAAGAAGCAGGCTTCTCCAAAGGTGCGTTCTATTCAAACTTCGCCTCCAAGGAGGACATTCTTCAACAGCTGCTGGAAGGGAACGCGGGCAACGACGTGCGGGACCTGACCCGGCGGCTAAAAGGTGTCCAAACGACTGAAGAAGCGATAGACGTCGTGGCCGAGTGGAGCGATTCACGCGCCGAGGAACAGAAGTGGGGCATCATCGCCATCGAAATGCTGCGCCGGGCGCAGCGCGATGGCACCCTGACTGACCGGCAAAGGCAGCTCTTTGCCAGCCAGTGGGAAGAGGTGGGTGAGCTCCTGCGCAGCAGGCTCTTTCCGGACAGGGACATCGACATCAGCGCTGTCGATCTCGGCGGCATAGTCCTGGACCTGACCTACGGCGGTATTGCCGTCTTCCTTAAGGTCAACACCGCCGGGCAGATGGTGCGCCAGGTCCTCACTGCACTTCACGGATCCGTACGCGTGCCCAGCGGGTGA	MARLTREQSQALTRKKLLKSAGDVVARYSYDGASVERIAEEAGFSKGAFYSNFASKEDILQQLLEGNAGNDVRDLTRRLKGVQTTEEAIDVVAEWSDSRAEEQKWGIIAIEMLRRAQRDGTLTDRQRQLFASQWEEVGELLRSRLFPDRDIDISAVDLGGIVLDLTYGGIAVFLKVNTAGQMVRQVLTALHGSVRVPSG				NA	NA	NA	NA	NA
D1-29_02408	1581	pchF_2		4-cresol dehydrogenase [hydroxylating] flavoprotein subunit	ATGAACAACCTCGCGATGGACCTCCCGACCATCCCGGACGACATGATCCGTGAGCTTTCAGCGGTAGTTGGCAAGGAATCGGTCCACATTGAGCGCGCCAGGGTGGACGAGTTCAAGGACCCCTACTGGCTCCCCGGAGACGAGACGTACGCCGCGTCGGCGGTCCTGCAGCCGACGTCGACGGAACAGGTGCAGGAAATCATGCGGATCGCCAACAAGTACGGGATTCCCGTGTGGCCGCACAGCCAGGGCCGTAACGTCGGACACGGCGGCCCGTCGCCCAAGGTACGGGGGTCCATCCAAATCGGCTTCCAGAAGATGAACCGGATACTCGAGATCAATGACGAGCTCGCCTATGCGGTGGTTGAGCCGGGCGTACGGTGGTTCGACCTCTACGACGCAGTGAAAGCGGCCGGCTACAGCCTCATGGTGCCCTGTCCCGACCTCGGCTGGGGATCGGTCATCGGCAATTCGATGGACAGCGGGCACACCTACCAGTTCTACGGCGCGGACTACATGTTCCCGACGGGCTTCGAGGTGGTACTGCCGGACGGGGACCTGTTGCGGACCGGTGCCGGCGCGGTACCGGGCAGCAAGGTGTGGCACCTCTACAAGCGAAGCCTTGGGCCGTCCCTGGATCCGTTGTTTGTGCAGTCGAATCTGGGTATCGTCACCAGGATGGGTGTCTGGCTGAAGCGCCTGCCCGAGGCCTACGCCCCGGTGATGCTCTCGATCGGGGAGGACATGGACCTGGAGCTCGCGATAGATACGCTCCGGGAGTTGAAGATCGAGGGCCACCTGGAGGGGGTTCCGACATTGTATTCATCCCTGCGCGCCGCCGTTATGCTTCGCGATGAGCCGGGTGCTGGCGGCCTCACGCAGCTCACGGCCAACGAGGTCCGGGAGATCGGCGAACGGGCAGGAGTGGGCGCCTGGGCAACGCGGGCGGCGGTTTGGGGTGACGCCGAGATAGTCCGAATCAAGCTTCGCCGCATCCAGGACGCGTGGGCCAAGATCCCCAGTGGACGCGTTGACGCTCCCCGCACCTACGCCCCCCATGAGTACGACGAGATTGTCTATTCGGCTGACCAGATCATGGCGGGCATCCCCACACTGAAGGCCATTGAAAACACTCCCGACCATATTGCGCACGTCGACTTCTCCCCGATTGTGCCGATGCAGGGCACCGAGGTGCGCCTGGTCACTGACGAGATTCGCAGGCATCTCGAGGCGGCCGGCCTGAACTTCTCGGCAGCCATAATGCTGACCAGCGAGAGGTCAGGGATTGTCCTGGCGGGCGTTCGTTACGACAAAACGAACGCTGACGCGGTGCGCAACGCGTTCGACGTCGTCAAGCTGATGGTTTCCCGGCTCGGCAGTCTTGGTTACGGCGTCTGCCGCCCCCACCTCGATTTTATGGACCTTGCGGCAGACCAATATTCGTTCAATGGACATGCCTACCGGCGTTTCGTCGAGAAGCTGAAGGACGCCGTGGACCCAAACGGCATTCTGTCCCCGGGCCGCCATGGCATCTGGCCAGCTGCGTACCGCGACGGGGGCGAGCGGAGCAGCCGCACCTAG	MNNLAMDLPTIPDDMIRELSAVVGKESVHIERARVDEFKDPYWLPGDETYAASAVLQPTSTEQVQEIMRIANKYGIPVWPHSQGRNVGHGGPSPKVRGSIQIGFQKMNRILEINDELAYAVVEPGVRWFDLYDAVKAAGYSLMVPCPDLGWGSVIGNSMDSGHTYQFYGADYMFPTGFEVVLPDGDLLRTGAGAVPGSKVWHLYKRSLGPSLDPLFVQSNLGIVTRMGVWLKRLPEAYAPVMLSIGEDMDLELAIDTLRELKIEGHLEGVPTLYSSLRAAVMLRDEPGAGGLTQLTANEVREIGERAGVGAWATRAAVWGDAEIVRIKLRRIQDAWAKIPSGRVDAPRTYAPHEYDEIVYSADQIMAGIPTLKAIENTPDHIAHVDFSPIVPMQGTEVRLVTDEIRRHLEAAGLNFSAAIMLTSERSGIVLAGVRYDKTNADAVRNAFDVVKLMVSRLGSLGYGVCRPHLDFMDLAADQYSFNGHAYRRFVEKLKDAVDPNGILSPGRHGIWPAAYRDGGERSSRT	PGPT0005880_121	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION	XENOBIOTIC_TOLULENE-4-SULFONATE_DEGRADATION_PATHWAY_1,PGPT0005880-pchF-K05797	NA	NA
D1-29_02409	1182	gcoA		Aromatic O-demethylase, cytochrome P450 subunit	ATGTCGACAGAATTAACAGGAGACAACCTGTACAGGGATCCCTATCCCGTCTATGCCCGGTTGCGCCGGGAAGAACCGGTGGCCTTCTTTGAGGGCACCAAGGAATACTTCATCACCCGTTTCGATGACTGCCGTGCAGCAGGATCCAATGACCGGGTTTTTGGCCCGTCGGCCAGCCCGGACAGGCCAGAGGCCCGTGTTATGGGTATGCCGAACGTGCTGAGCATGACGGGTGAAGAACACAGCGGTCTTCGTGAAGCGATCGACCAGAACCTGACCCAGGAGGCGGTGCGCCGTTTCGTTGACGCACTGACCCGGCCGGTGGTGAAGCGGTACCTTGCCGAGCTGTTGCCGCGCGGCGAGGCAAACCTCACGGCCGACCTCTTCGAACCGATTTCGGTCCGCTGCATCGGCGATGTCATTGGACTCACTGAAACGCCTAACGAGACGTTGGTGGAATGGTTCCACGCGATGAGCGCAGGCCTGCAGAACGTCAATGACGACCCCGCCGTATGGGGCCGGCTGGACCGGGCATTGGTCGATATCGATTCCCAGTTGGGGGATCTGTACGAGCGGGCGGTGTCAAAGCCCAACCACACGCTGATGAGCCATGTGATGCATGGCGGCATGCCGGAGGGCAAGGTGCGCAGCGTCGAAGAGATCATGCCCACCATGAAGGTCATCATTCTGGGTGGCCTTCAGGAGCCGGGCCACGCTGCTGCGAATGCTGCCGCAGGGCTCCTCCTGGATCCTGAGCAGACCCAGGCCATGGCTGCCGACCCCAAGGAACATGCCCTGCGCGCGTTCGATGAGGGCTTGCGCTGGGTCTCACCCATTGGCGTCACTCCACGCGTTGCCGCCAAAGACGTGCAGATCTCCGGCACACACATTCCGGCCGGCTCTTCAATCGCCATTGTCATGGCGTCGGCCAACCGCGACGAGAGCCGTTTCGAGGACCCGGACCGTTTCAACATGTTCCGGAAGAAGCGCCCGCACTTCTCCTTCGGCTTCCGGCCGCATTTCTGTTCCGGCCATGCGCTTTCCCGCGCCATGGGCGAGATCGCGCTGGAAGAAGCCTTCCTGCAGCTGCCAGGTCTTCGCCTCGATGACAGCCGCGAGATGAAGTTCAAGGGCTGGCGGTTCCGTGGTGTGTCAGACCTCCCCGGCACATGGAACGCCTGA	MSTELTGDNLYRDPYPVYARLRREEPVAFFEGTKEYFITRFDDCRAAGSNDRVFGPSASPDRPEARVMGMPNVLSMTGEEHSGLREAIDQNLTQEAVRRFVDALTRPVVKRYLAELLPRGEANLTADLFEPISVRCIGDVIGLTETPNETLVEWFHAMSAGLQNVNDDPAVWGRLDRALVDIDSQLGDLYERAVSKPNHTLMSHVMHGGMPEGKVRSVEEIMPTMKVIILGGLQEPGHAAANAAAGLLLDPEQTQAMAADPKEHALRAFDEGLRWVSPIGVTPRVAAKDVQISGTHIPAGSSIAIVMASANRDESRFEDPDRFNMFRKKRPHFSFGFRPHFCSGHALSRAMGEIALEEAFLQLPGLRLDDSREMKFKGWRFRGVSDLPGTWNA				NA	NA	NA	NA	NA
D1-29_02410	1038	ligJ_2		2-keto-4-carboxy-3-hexenedioate hydratase	ATGGAACGCCTGAACACGCTGGCCATCGATTGCCATGGCCACTTCACCACGGAGCCGCCGGAGTTCCACGCGTTCCGGAAAGCCCAGATCGCCTTCGCTGAAGGACGATCAGAAGAACGGCCGCTGTATACGGGCATCCCGGACGACGAGCTGCGCAGGATCATCACGGACAACCAGCTTCGGATCCAGCAGGAAAGGGGATCGGATTTCACCATCCTCTCGCCGCGGGCGTCCGGAATGGGCCATCATGTACCCGGCCAGGAAACGGCGACGGACTGGGCCCGCCTGTCCAACGATACGATCCGGCGAATCTGTGAACTCTTTCCGCTAAACTTCGCCGCGGTCTGCCAGTTGCCGCAAACCGTCGACGGCGGCCTGGGCCCCGTCGTATCCGAACTCGAACGCTGCGTCTCCGCCGGCTTCATTGGATGCAACATCAACCCCGATCCCTCCGGCGGGCACTGGTCGGCTCCGCCGCTCTACGATCCGTGGTGGGACCCACTCTGGGAAGCCATGACCAGGCTCGACGTCCCGGGCATGATCCACGTCTCCGGCTCCTGTGAACGCGCACTGCACACCACAGGGGCGCACTATCTGGCTGCCGATACCGCCGTTTTTATGCAGTTGGTCGAAGGGGATCTCTTCGAACGTCACCCAAACCTGCGCCTGATCATCCCCCATGGCGGCGGCGCCGCTCCCTATCACTGGGGCCGCTACCGGGGCCTGTCCATGATGCTGGGTAAGCCGCCCCTTGCCGAGCACGTGATGCAGAATCTGTTCTTCGACACCTGCGTCTACCACCAGGCGGGGATCGACATGCTCTTCCGGGTGGTGGAGCCGAAGAACATCCTCTTCGGCTCGGAACTGCTGGGAGCGGTTCGCGCCGAGGACCCCGAAACTGGCCACAGCTTTGACGACACCAAACGCTACATCGACGCGCTGAACCTCGATCACAACATCCATCACGCTGTCCTGGGCGGAAATGCCCGGCAGGTCTACCCGCGGCTCGACGCACTGCTTACGGCACAGGGCCGCTAG	MERLNTLAIDCHGHFTTEPPEFHAFRKAQIAFAEGRSEERPLYTGIPDDELRRIITDNQLRIQQERGSDFTILSPRASGMGHHVPGQETATDWARLSNDTIRRICELFPLNFAAVCQLPQTVDGGLGPVVSELERCVSAGFIGCNINPDPSGGHWSAPPLYDPWWDPLWEAMTRLDVPGMIHVSGSCERALHTTGAHYLAADTAVFMQLVEGDLFERHPNLRLIIPHGGGAAPYHWGRYRGLSMMLGKPPLAEHVMQNLFFDTCVYHQAGIDMLFRVVEPKNILFGSELLGAVRAEDPETGHSFDDTKRYIDALNLDHNIHHAVLGGNARQVYPRLDALLTAQGR	PGPT0005260_138	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0005260-ligJ-K10220	NA	NA
D1-29_02411	936			hypothetical protein	ATGACAACATCTTTGACTCAAGTGCGCCTTGCGGGAGGTGCCCAGGGCTTCAACTGGCTTCCCGTATTTGTCGCTGAAGAGCAGGGCCTGTTCGAACGGAACGGGCTGACGATCGAATATCTGAAGCTTGGATCCGTGGACAAGGCGACCACCGCAGTGCGTGAAGGCACAGCAGACCTTGCCATCACCCCGCCGGAAGGGGCCATCGCGGACTACGTCTCCGGCGGCAACCTTCGGATCATCGGCGCCAACGCCGTCCGCCTTCCGATGTCGCTGGTGGCACGGCCGGACATCGCCGGCATCCAGGACTTGCGCGGGAAGCGGATTGGAACATCTTCCCTGACCGAGGGAACCGCAATCTACACGCAGATGATGCTTCAGCAGGAGGGCCTGAGCTACCCGGCTGACTATGACTTTGTCCTTGCCGGTGTTCATACCACCAGGTGGACGGCGCTGAGGAACGGCGAGATCGATGCCGCACCCCAGCCTGCTCCATGGAACTTCCTTGCCGAACGCGAGGGGTACCGCCTGATCTGCGAGACGAATGACGTGATCCCTGAGCTTGTGTTCGCGGCCCTCATCGGCAATGCCGGCTGGGTCTCTGCGAACCCGGAGACGGTGGGCAAGCTCGTGGCAGCGCTGGCCGAGGCCCACGACTTCGTCAATGATCCCTCCAACGATGCCGTCACCCTGCCGATTTATCAGCGGCTGACGACACCCGGAGACGTGGAACTGGCCACCAAGGGACTCGCTTACACCCGTGACATGGGGATGTGGCCGGGCAATCTCCACATCCTGCCCACTGCGCTGCAGGCCACCTTTGACCTGATGATCCGCGTCGGGTTGCTGGGGTCCGAACACCGAACCACAGCGGAAGGCGCGTTCGATCCCGGCTTTGTCCGGCAGCTCACCGCACCGACGCCGACGACTGCCTAA	MTTSLTQVRLAGGAQGFNWLPVFVAEEQGLFERNGLTIEYLKLGSVDKATTAVREGTADLAITPPEGAIADYVSGGNLRIIGANAVRLPMSLVARPDIAGIQDLRGKRIGTSSLTEGTAIYTQMMLQQEGLSYPADYDFVLAGVHTTRWTALRNGEIDAAPQPAPWNFLAEREGYRLICETNDVIPELVFAALIGNAGWVSANPETVGKLVAALAEAHDFVNDPSNDAVTLPIYQRLTTPGDVELATKGLAYTRDMGMWPGNLHILPTALQATFDLMIRVGLLGSEHRTTAEGAFDPGFVRQLTAPTPTTA				NA	NA	NA	NA	NA
D1-29_02412	678	ligK_4	COG0684	4-carboxy-4-hydroxy-2-oxoadipate aldolase	ATGGCAAAAGTAGTGACAGAAACCAAGCGGACCGGGGCCGGGATCTGCGAAGGATTCGCCGCCCTCGGTGTGGCCACCGCGCATGAAGCACAGAACCGGACCGGGCTGCTGGGCGCCCGGCTGCGCCCCCGGCAGTCAGGAACAACCATTGCGGGGCCGGCACTGACCTGCGAGGTGGCACCGGGAGACAACTGGATGATCCACGTCGCCCTGGAGCAGGCGCAGCCGGGAGACATCCTGGTGGTGACACCGACGTCCCCCTGCGATGACGGCTATTTCGGGGATCTCCTCGCCACCTCGGCGATGGCCAGGGGCATCCGGGGACTGGTCATCGACGCGGGAGTTCGCGACGTGGCCCAGTTGCGCGCCATGGGATTTCCTGTCTGGAGCAAGGCAGTCAGCGCCCAGGGAACAGTGAAGGAAACGCTCGCCGACGTTCAGGTGCCCATTGTTTGCGGCGGCGCCCTGATCACCCCGGGAGACGTGGTGATCGCTGACGACGACGGCATCTGCGTAGTGCCGCAGGGCAGCGCAGCCGCGGTGCTTGGGAAGGCCCGCGCCCGCGCCGCGATGGAGGAAGAGAAGCGGCAGCTCTATGAGGCCGGCCACCTGAGCCTGGACGTCAACGACATGCGGCCCCGACTAAAAGAGAAAGGCCTTTTCCATGAGCAAGCCTGA	MAKVVTETKRTGAGICEGFAALGVATAHEAQNRTGLLGARLRPRQSGTTIAGPALTCEVAPGDNWMIHVALEQAQPGDILVVTPTSPCDDGYFGDLLATSAMARGIRGLVIDAGVRDVAQLRAMGFPVWSKAVSAQGTVKETLADVQVPIVCGGALITPGDVVIADDDGICVVPQGSAAAVLGKARARAAMEEEKRQLYEAGHLSLDVNDMRPRLKEKGLFHEQA	PGPT0002085_852	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
D1-29_02413	558			hypothetical protein	ATGAGCAAGCCTGATGCGCCCGCTGTCCCACGCCGGGTGGTGACCGGCGTCAGGAACGGCAGATCCGTCGTCGTCAGCGACGGCCCTGTTCCCAATGCCCACCACTACACGTCCATCCCGGGCATGATGACCTCCGTCCTCTACGCGACCGCCGCCTCACCAAGGCTTCCCCAGCAGGAGGTGGAGACCGCGCCGTTGCGGATGCACGTGCCTCCGCCACCTGGCGAGACCCGGCTGATGATCGTGACCTTTCCGCCGGATTCCTCGCTGGCCCTGCCCGGGTTTGATCCCGTCGCCGCCGATGCCGAACAGCGGGAATTCATCCCTGGCCTGGCCGAACTGTTCGAACAGGACGCCCCCGGAATGCACAGGAGCGAGACGGTGGACTACGGCGTCGTCCTCGACGGCGAAATCTGGCTTGAGCTGGACGAAGGAGACCGGACGCACCTGCGGACGGACGATGTGGTGGTTCAGTGCGGCACCAGGCACGCCTGGCGGAACGCCGGCGACCGCACCGCGAAGATGCTTTTTGTACTGATCGGCGGTGAGCGGAAATGA	MSKPDAPAVPRRVVTGVRNGRSVVVSDGPVPNAHHYTSIPGMMTSVLYATAASPRLPQQEVETAPLRMHVPPPPGETRLMIVTFPPDSSLALPGFDPVAADAEQREFIPGLAELFEQDAPGMHRSETVDYGVVLDGEIWLELDEGDRTHLRTDDVVVQCGTRHAWRNAGDRTAKMLFVLIGGERK				NA	NA	NA	NA	NA
D1-29_02414	1236	ddmA2		Dicamba O-demethylase 2, ferredoxin reductase component	ATGACGATGGAACGTTTTGATTGCCTCATTATTGGGGCGGGACATGCCGGGGCAGAGGCCGCAATTACCCTTCGCCAAACAGGATTCGCGGGAACAATCGGCCTGGTGGGCAACGAGACCGTGCTCCCTTACGAGCGTCCGGCGCTGTCAAAGGAATATCTCGCCGGCAAAAAGACCTTCGACCAGCTTCTCCTGCGGCCGTCGGACTTTTGGGGCCAGCACAACGTCTCCGTCCGCCTCGGGCGGCAGGTGATCGGGATCGATGCTCCCGGCAAGACCGTGACCTGTGAAGACGGCAACGAGATGGGTTATGGCGTCCTGGTCTGGGCCACCGGGGGCAGCCCGCGCACTCTCACTTGCCCCGGTCATGACCTTGAAGGCATCCACGCGATCCGGGATCTGGCTGACTGTGACCGGCTGATGGCCGTACTTCCCGAAAGCCGGCGCATCGCAGTCATTGGCGGCGGTTTCATCGGGCTGGAGGCTGCTGCCGTCCTCCGGGAGCTCGGCAAGGAGGTGGTGATCATCGAAGCCCTTGACCGTTTTCTGGCCCGGGTGGCTGCGGAACCTGTGTCCCGGTTCTATGAGGCTGAGCACCGCAGCCGCGGCGTGGACATCCACCTTGGAACGGGTGTGTCGGAAATCGTGGGCCGCAATGGTGCCGTGAGTGGTGTCCGCCTTATTGATGGACGGGTCATTGACGCTGACCAGGTCATCGTGGGAATTGGGATTGTTCCGGCAATCCAGCCCCTTGTCCTCGCAGGGGCGGAGGCAACAGCGGGTGCCACCGGTGTGCTTGTTGACGACCACTGCCGCACCTCAGTGGCCGATATTTATTGCATTGGTGATTGCGCAGTCTTGAGCAGCGGACCCGGCATCCGCATTGAATCCAGGCAAAACGCCACCGAGCAGGCGCAAACCGCGGCCAAAGCGATCAGCGGCCAGGCTGAACCCCTGGATCTGCTCCCGTGGTTCTGGTCAAACCAGTACGATCTGCGGCTCAAGACCATTGGCCTGAGCCTCGGCTATGACCAGACGGTATTGCGCGGTGACCCGGAAAGCCGGAGCTTCTCGCTGATCTACCTGAAACAGGGCGCCGTCATTGCGCTGGACTGCATCAACGCCACGAAGGACTACATGCAGGGACGCAAGCTTGTCGAAGCGCGCTCACGCATCGATCCCGCCATCCTTGCGGACAAAGGGAAACCACTCAAAGAGATGGCCGCTGCCATCTGA	MTMERFDCLIIGAGHAGAEAAITLRQTGFAGTIGLVGNETVLPYERPALSKEYLAGKKTFDQLLLRPSDFWGQHNVSVRLGRQVIGIDAPGKTVTCEDGNEMGYGVLVWATGGSPRTLTCPGHDLEGIHAIRDLADCDRLMAVLPESRRIAVIGGGFIGLEAAAVLRELGKEVVIIEALDRFLARVAAEPVSRFYEAEHRSRGVDIHLGTGVSEIVGRNGAVSGVRLIDGRVIDADQVIVGIGIVPAIQPLVLAGAEATAGATGVLVDDHCRTSVADIYCIGDCAVLSSGPGIRIESRQNATEQAQTAAKAISGQAEPLDLLPWFWSNQYDLRLKTIGLSLGYDQTVLRGDPESRSFSLIYLKQGAVIALDCINATKDYMQGRKLVEARSRIDPAILADKGKPLKEMAAAI	PGPT0019730_739	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
D1-29_02415	318	cndB2		Chloroacetanilide N-alkylformylase 2, ferredoxin component	ATGGAATTCACTGTTACTACCCGGGACGACGTCGACCACACCATAGAGGCCCGCACTGGCATTTCGCTGATGCAGAATATCCGCAACGCCGGCATCGAGGAACTTGAGGCCATTTGTGGCGGCGCGCTGTCGTGCGCCACCTGCCACGTCTACGTGCAGAGCCTGCCCGCCGGTGCCGAACTGCCCGAAAAGTCCCGGGACGAGGAAGACCTCCTCGACGCCTCGGACTGCCTGACGTCCTATTCCCGGCTGTCCTGCCAACTGGTCTTTGACACACCCCTGAGCGGCATGCGGGTCACCGTAGCACCTGAGGACTGA	MEFTVTTRDDVDHTIEARTGISLMQNIRNAGIEELEAICGGALSCATCHVYVQSLPAGAELPEKSRDEEDLLDASDCLTSYSRLSCQLVFDTPLSGMRVTVAPED	PGPT0006786_1891	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0006786-fdx|cndB-K04755
D1-29_02416	1110	adhT_4		Alcohol dehydrogenase	ATGCAGCAAGTAATGCGTGCCGCGCGGCTCCACGCCGTCGGCGAAAAGATGGTCATTGAGGACGTCGAACGGCCCAGGGCAACCGGCACAGACGTAGTGGTTGAAGTCAAGGGATGCGGAATGGTGCCCAATCTGGGCAACGTCCTGGCGAATTGGGAAACCTGGTACCCGCAGATGCCGCTTCCGCCCCGTCCCGCGATCTTCGGGCTCGACCCGGTGGGCATCGTGCATGAGGTCGGGGAGATGGTGCTCAACGTGAAGCCCGGAGACCGGGTCTATGTCAATCCGGGGCGTTCGTGCGGGGCATGCCAGTCCTGTGCCGCCGGGACACCGCAAAAATGCGACTACTGGACGTTGAACGGGTACTTCGGCTACAACCCCAACAGCCTTGAGATGTTCAAGCGCTATCCCCACGGCGGCTTCTGCGAATACATGCGGGCTCCCCAGACCGCCATCGTGAAACTTCCGGACAACATAGAGTTCCGCCAGGCAACCCGGATGGGTTACCTGGGAACGTCCTACGCCGCAGTCAAGAAGATGGGCCCGCTGGCCGGAAAATCCCTCATCATCAACGGCGCGTCGGGAACGCTCGGAGTCGGTGTCACCTTGGTGGCCCTGGCACTTGGCATTTCCCGCATCTACGCAGTTGCCAGGGGACTGCCCTTGCTGGAGAGGCTCCAGGCCCTTGCCCCGGAGCGCATCGAGATCTTCTCCAACACCGAAGGCAGCACCGCAACCTGGGTCAGGTCCAGGACCGGGGGAGCCGGAGCGGATTTGATGGTGGATACCCTCGGTGCCGTTGCCTCGCTCGACTCGCTCAAGGATGCCATGCATGGGGTACGCCGCGGTGGACGCATCATCAACATCGGCGGAACCGCTGGCGACCTCAGCATTGACGTGAAGTGGTGGATGGACGAACAGATGGAACTCCTTGGCTCGGTCTGGTTCACGTCGGCTGAGGCGATCGAACTTGCGGAGTTGTTGCGTAACGGGACTATCGACATCTCTGTACTGACCCCTAAGAGTTGGCCATTGGATGACATCAATGAAGCCATCTCAGGGGTCGCCAGTGGTGACGGCGGTTTTACCAGCTACCTCGTCGAAATCTGA	MQQVMRAARLHAVGEKMVIEDVERPRATGTDVVVEVKGCGMVPNLGNVLANWETWYPQMPLPPRPAIFGLDPVGIVHEVGEMVLNVKPGDRVYVNPGRSCGACQSCAAGTPQKCDYWTLNGYFGYNPNSLEMFKRYPHGGFCEYMRAPQTAIVKLPDNIEFRQATRMGYLGTSYAAVKKMGPLAGKSLIINGASGTLGVGVTLVALALGISRIYAVARGLPLLERLQALAPERIEIFSNTEGSTATWVRSRTGGAGADLMVDTLGAVASLDSLKDAMHGVRRGGRIINIGGTAGDLSIDVKWWMDEQMELLGSVWFTSAEAIELAELLRNGTIDISVLTPKSWPLDDINEAISGVASGDGGFTSYLVEI	PGPT0006375_688	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
D1-29_02417	1173			hypothetical protein	ATGCAACGACGCATTAAACGCGCCTTGAGCTCCGCCGCAGTCATCGCCTCCATCTCACTTGCCGCCGCAGGCTGCGCCACGGACGCCGGCAGTGACGGCCCGACGGCGGAAGTCACCTACCGTGACGCAAGCGACAATTGTGCCGCACCTCCGCTGGCGGGAGTCGATTTCGACGCTGCGCAGGCATTCCTCAAGCCGTTCGAGCAGAAGGCAACCGGGCTGCTTGTGACCCAGCCGCTGCCGCAGCCCATCAACCCCGGCACTACCGTCGCCTACCTGGACAATGGCTCAGCTGTCTCGGGACTTATCTGGGGGTTCATGGAGGCAGCAGGCAAGACGGCCGGCGTGACCATGCAGCGGGTAGCCACCGGGACGAATGCCCAAAGCATTAACACGGCGCTCAGCTCGGTTGTTGAAACAGCTCCTGACATCCTGGTGGCGGCCGCCACGGATGCCACGTTCTTCCAGGACCAGCTCAAGGCCCTTGAGGCAGCCGGCACAACCATTGTGTACGCCGGGTCTACCAACGCGGAGGACTTTGGCCTGCTCGACTCATTCTCCGGCCGCGGCGCTTCGATCGAGAACGGCAAGGTTCTTGCTGCCAGCGCAGTGAACTTTACCTGTGGCACTGGCACGGAATTCGTGTTCTATAACGTCCCTGAATTCACGTTCTCCCAGGTGCAGCTTGAGGCGATCCGGGAGTACCTGCCGACGCTGTGCCCTGACTGCAAGCTCCGCGTGGCGGAGATCCCGGTAGCCACGATGGACACCACTGCCGGTGACGCGATCGTGAGTGACCTGCAGGCGCATCCGGAAACGCAGTACTTCATGACGGTTGCAGACCAGATGCAGATCGGGCTGAAGGCAAAGCAGGAGCTCGCCGGAATCAACGTTCCCGGTATTGGTCATTCCTCGCTCCCGCCGAACGTCGAGCAGATCGCCAGCGGACTCCAGTCCGCCGGTTACGCAGCCGACTACAACATGTACGCCTGGCTGCTCATGGACGAGGGACTCCGCCGCCACATGGGTGAAACCGTGACCTACGACGATTGGGCCAACGCCACCCAGCACATGTCGCGAGTACTCACGGCGCAGAATGCCGGCGAGTACCCGCATGGTTTCGTTGCCTACCCCAACATGGTGGAGGACTTCAAGAAGCTCTGGGGCAAGTGA	MQRRIKRALSSAAVIASISLAAAGCATDAGSDGPTAEVTYRDASDNCAAPPLAGVDFDAAQAFLKPFEQKATGLLVTQPLPQPINPGTTVAYLDNGSAVSGLIWGFMEAAGKTAGVTMQRVATGTNAQSINTALSSVVETAPDILVAAATDATFFQDQLKALEAAGTTIVYAGSTNAEDFGLLDSFSGRGASIENGKVLAASAVNFTCGTGTEFVFYNVPEFTFSQVQLEAIREYLPTLCPDCKLRVAEIPVATMDTTAGDAIVSDLQAHPETQYFMTVADQMQIGLKAKQELAGINVPGIGHSSLPPNVEQIASGLQSAGYAADYNMYAWLLMDEGLRRHMGETVTYDDWANATQHMSRVLTAQNAGEYPHGFVAYPNMVEDFKKLWGK	PGPT0015740_279	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
D1-29_02418	1572	rbsA_1	COG1129	Ribose import ATP-binding protein RbsA	ATGGACCGTGGCTCCGGGCCCCTGCTGAGGGTCCAGGGCGTTACCAAGGACTTCCCCGCGCTGCGGGCCCTGGATGACGTGTCCCTGGACCTTCACAGCGGCGAGGTTGTTGCGGTAGTGGGCCACAACGGCTCCGGCAAATCGACCCTTGTCAAGATTCTCGCGGGACTGTACGTCGCCGATGGTGGAACTGTTGAATTGGCGGCCACGGAGGGCCGGCAGACCGAACTGCACATCATCCACCAGGACCTGGGCCTCGTCTCAGAACTCAACGCCATCGAAAACCTGGGCATGACGCACTACAAAGGCGCGGCGGCGGTGACACCCTTCAACAGGAAGCAGGAGCGTGCCCGGGCGCTTGAGCTGATTCGCCGGTTCGGTGAGGAGTTCGACGTCGACGTGCCCATCAGCGGGCTGACTCCGGCCCAGCGGGCGATCATTGCGATCGCCCGCGCGCTGGACGGCTGGCAGCACAGCCACAACGTCCTCATTCTTGATGAGCCGACCGAGGCGCTCCACGCCAGTGAAGTCAAGATCCTCTTCGACGCCGTCAAGCGTGTGGCTGCAGACGGCGCCGGGGTCATCTTCATTTCCCACCGGCTTGACGAGGTACTGGAGATGGCGGACCGTGCCGTCGTCCTGCGCGACGGCAGGAAAGTCGCGGATGAGCAGCGGGAGACCCTGGACCATGACCAGCTCATTGCCCATGTCACGGGTGTGGCGAAGGGCGTTGCCCTGGCCCGGCAATCGAACCGGGAGAAGGGTGCCGTGATCCTGGAAATATCGGGACTCAGAGGGGCCGGTGTGGAGTCTGTGGACCTCACGCTCCGCGCCGGCGAAGTGGTTGGCGTCGCCGGTGTCCTGGGCTCGGGCCGGGAGGCACTTCCTGCCCTGATGTTCGGGGCCATTGATTCAACCGCTGACAGCTACATCCTGGGAGGGCAGCCGTACCGGAAGCGCCGGCCGGCGGAAAGTATCCGCCGCGGGATGGCGTTTGTGGCGGGGGACAGGGCCCGCTTTGGTGCTGTCCGCGCCCTGACGGCCCGCGAGAACATCACCCTCCCGGAGCTGGCGAGCCTGCGGAGCCGCTTCGGCGGCATCAAGAGGAAGAAGGAGCGCGCCCACACCGCCGCGCTCATGGAGCAGTTCGGCGTCAGGCCGCCGCGGCTGGAGCAGAAGTTTTCGCAGTTCAGCGGCGGTAACCAGCAGAAAATCGTGATGGCGAAATGGCTGCGCAACCGGCCGCAGGTTCTTCTCCTTGAGGAGCCGACCCAAGGGGTGGACATCGGCGCGAAGCAGGCCATCTACACCGCCATCGAAACCGCTGCAGGCCAGGGCGCCGCGGTTCTGGTGTGCTCCTCGGACGCCAAGGAACTGGTGCGGCTGTGTGACAGGGTCCTTGTCCTGCGGCACGGAACAGTGGCGGCCGAGCTGTCCGGGGACCGACTGACAGAGACCGATCTGGTGCTGGCGGGATACGGATTGGCCGACGCCGGCGCTGACGCCGACACCGGGGCTGAGCCCGCGCCCGCTGCCGGCGGAGCACGTGAAATAAGCAAAGGAAAGCAATGA	MDRGSGPLLRVQGVTKDFPALRALDDVSLDLHSGEVVAVVGHNGSGKSTLVKILAGLYVADGGTVELAATEGRQTELHIIHQDLGLVSELNAIENLGMTHYKGAAAVTPFNRKQERARALELIRRFGEEFDVDVPISGLTPAQRAIIAIARALDGWQHSHNVLILDEPTEALHASEVKILFDAVKRVAADGAGVIFISHRLDEVLEMADRAVVLRDGRKVADEQRETLDHDQLIAHVTGVAKGVALARQSNREKGAVILEISGLRGAGVESVDLTLRAGEVVGVAGVLGSGREALPALMFGAIDSTADSYILGGQPYRKRRPAESIRRGMAFVAGDRARFGAVRALTARENITLPELASLRSRFGGIKRKKERAHTAALMEQFGVRPPRLEQKFSQFSGGNQQKIVMAKWLRNRPQVLLLEEPTQGVDIGAKQAIYTAIETAAGQGAAVLVCSSDAKELVRLCDRVLVLRHGTVAAELSGDRLTETDLVLAGYGLADAGADADTGAEPAPAAGGAREISKGKQ	PGPT0016600_1734	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
D1-29_02419	1173			hypothetical protein	ATGAGCACCATCGAAACCCCCAGCACCGCCGCGGGCGAGGCGAGCGCCGCCCCCTCCGGAGGTATGAATACTGCAGGTACGAGCACTGCAGGGAGGAACACTGCAGGTACGGACACGGCCGGGATGAAGCCGGCCGCTACGAAGCCGAGCGACCTGAAACCGGGTGGCTGGGCGAAGGCGCTCTCCTTCCGGAACATCAGCGCCATCTATATCTTCATCTCCATCTTTGTGATCTTCTCGCTGGTGACGCCGCAGACCTTTCTCCAGGCGGGTGTGTGGCGCACCTTGCTGGACGCTCAGGCGATTACTGTTATCGCGGCCATCGCCGTCCTCATCCCGCTGGTGACCGGCGCCTTCAACCTCGCCATTGGCGCGGAAATCGGGTTCGCCGGAATCCTCATCGCCACCCTGCAGGTGAAGGCAGGCATCCCCTTTGCAATAGCGATCCCGCTGGCCCTGCTTGTGGGCGCGCTGGTTGGGCTCGTCTCAGGCCTCCTTATCACCAAGGGCAAGATCGACTCATTCATCGCAACCCTGGGCCTGAGCTCAGTCCTGCTCGCCGCCCTTGCGTGGCTTTCGGCAAGCCAGCAGATTACTGGTCTTCAGGATGGTTTCCGGCTGGTGGCGACAGGGAAGTTCCTGGGGGTAACGAACTCCGCCTACATCATGATCGTCCTGGCGTTTGTCGTCTGGTACGTCCTGGAGCGGACGCCGGTGGGCCGGCGCATGTATGCAGCAGGCTATAACCCGGACGGGGCAAGGCTCGCGGGAGTTAATGTCGCACGGATCCAGATCTGTGCTCTGATGGCCGGCGGTGCCATCGCAGCCGTTGCCGGAGTGCTGCTCACGTCCAGGATCAATACCGGCGATCCGACGGTGGGCCCCAGCTTGCTGCTGCCGGCACTGACTGCCGTGTTCCTCGGTTCCACGCAGTTCAGCGGGGGCCGCCTTAACGTCTGGGGCACCCTGATCTCCGTCTACGTGCTTGCCACCGGGATCAAGGGCCTGCAGCTCATTGGTGCCGCGCCCTGGATCAACGACCTTTTCAACGGCGTCGCGCTGCTCGCCGCCGTCGGCCTCTCCCAATGGGAGGCGACGTCCAAGCGGACCTCAGCCATCCGGCGGGTCCTGCCGTTCGGCAAGGGCAAGAAGGAGAAGGCGGCCGCCCGCTAG	MSTIETPSTAAGEASAAPSGGMNTAGTSTAGRNTAGTDTAGMKPAATKPSDLKPGGWAKALSFRNISAIYIFISIFVIFSLVTPQTFLQAGVWRTLLDAQAITVIAAIAVLIPLVTGAFNLAIGAEIGFAGILIATLQVKAGIPFAIAIPLALLVGALVGLVSGLLITKGKIDSFIATLGLSSVLLAALAWLSASQQITGLQDGFRLVATGKFLGVTNSAYIMIVLAFVVWYVLERTPVGRRMYAAGYNPDGARLAGVNVARIQICALMAGGAIAAVAGVLLTSRINTGDPTVGPSLLLPALTAVFLGSTQFSGGRLNVWGTLISVYVLATGIKGLQLIGAAPWINDLFNGVALLAAVGLSQWEATSKRTSAIRRVLPFGKGKKEKAAAR	PGPT0016590_541	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
D1-29_02420	435	mhqP	COG2259	Putative oxidoreductase MhqP	ATGAACCAGTCCACCCTGACAAACACTGCCCTGACCATCCTGCGCGCCGCCGTCGGATTTATTTTCGCCGCCCATGGCCTGCAGAAATTCGTCGAGTTCACTATCCCCGGCACGCAGGCCGCTTTCGCCCAGATGGGTGTTCCTGCAGCCCAGATCGTGGCACCCGTTGTGGCCACTCTCGAGTTGCTGGGAGGGATCGCCCTGATTGCCGGTGTCCTGGCACGGGTTTTCGCCGCGCTCCTGGTCCTGGACATGCTCGGCGCCCTGGTGGTGGTGCACGCTCCGGCTGGCATCTTCGTGGAGAAGGGCGGTTTCGAATTCGTCCTGGCCCTCGCCGCCGCGGCCCTGGCAATTGTCCTGACCGGCGCTGGCCGCTTCTCTGCGGATGCCACACTTTTCGGCGGCAGGGGCTCGAAGCTGAGCGTCCTGGCCTGA	MNQSTLTNTALTILRAAVGFIFAAHGLQKFVEFTIPGTQAAFAQMGVPAAQIVAPVVATLELLGGIALIAGVLARVFAALLVLDMLGALVVVHAPAGIFVEKGGFEFVLALAAAALAIVLTGAGRFSADATLFGGRGSKLSVLA	PGPT0028505_3374	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
D1-29_02421	636			hypothetical protein	ATGGGCGAGACAACTTCTGAAGGGTCTTCAGCGGATCTGATGGTGGACCTGATCATCTCCCTGGACGGGTATGCCTCAGCTGAGGGATGGCCCGGCTGGTGGGGTCTGGAGGGCCCGGAGTACCTCGCGTGGCTCGGGGAGGAGGGGGAGAAGGGCTACACCTTCCTGCTCGGTGCCAACACATACCGGCTGATGTCCAACATGTCGGAGGAGGCCGCGGCGGAGGACTCCGAATTTTCCGAGGATGAGGGAGCCAGCCTGACAGGCCTTGCAGCCGTCCCCAAGGTTGTCTTCTCCTCCTCCCTTCCGGCGCCGCTGACATGGCCGAACTCCACCCTTGTCACCGGAGACGCGGTCCAGGCTGTCAGGGAGCTGAAACGGACAGCTGCCGGCCCCCTGAGCACCCTGGGCAGCTTGAGCCTCTGCCGTTCGCTCCTGAGTGCCGGCCTCGTGGACAGATTCCGGTTGGTTGTCTTCCCTGTGATCACAGGGAAGACCGGGCGGGAGCGGATCTACGACGGGTATCCGGACGTTGCCCTGGAGATGGTGGAGAGCCGGACCTTTGACGGCCGGCTCCAGCTGCTGGAGTACATTCCCACCGTGCTCAACGGTCCGCCGGGCAGCGGTCCGACATAA	MGETTSEGSSADLMVDLIISLDGYASAEGWPGWWGLEGPEYLAWLGEEGEKGYTFLLGANTYRLMSNMSEEAAAEDSEFSEDEGASLTGLAAVPKVVFSSSLPAPLTWPNSTLVTGDAVQAVRELKRTAAGPLSTLGSLSLCRSLLSAGLVDRFRLVVFPVITGKTGRERIYDGYPDVALEMVESRTFDGRLQLLEYIPTVLNGPPGSGPT				NA	NA	NA	NA	NA
D1-29_02422	645	gntR_4		putative D-xylose utilization operon transcriptional repressor	ATGAACAGTGGACCCGCCCTGAATGCCATGACCCGCCAGTCAACACCCGTTAAAATCGCGGATCAGTTGCGTGAGCGGATGATTGACGGGCACTTCGCCCCAGGCCAGCAGATTAATGAAGTGCTCGTGGCAGGCCAGCTCAATCTTTCGCGTGGTCCGCTCCGGGAAGCCCTGCAGCGCCTGAGCCAGGAGGGGTTGCTGGTCAGCAGGCCCAACCGCGGCGTGTTTGTGGTTCAGCTGACACAAGAGGACGTCGACGAGATCTACCGCGTGCGGGAGATCCTTGAACTTGGCGCCGCCGAAATCATCGCTGCCCAGCCGGCCCAGCAGAGAAGGCAGACGTCCCGGAAGCTTCTTGACATTGCCGTAAGGCTCTCAGAAGCTGCCGAGGCCGATGACTGGGCCCAGGTGTTCAGGTTGGACCTTGAGTTTCACACCACCCTGGTGGCGGAGTCCGGAAAATCACGTTTGCTCCGCGCCTACACCACACTGGCAACTGAATCTCTGATGTGCATGACCAATCTGGACCAGGCGTATCCCGCCCTGAGCAGCGTGAGTAACCACACCGTTATGGCCGAGCTGATCGCGACAGGCACGTTCCCGGAGATCCGGGATGCATTCCACAGGCACCTGTCTGTGGAATAA	MNSGPALNAMTRQSTPVKIADQLRERMIDGHFAPGQQINEVLVAGQLNLSRGPLREALQRLSQEGLLVSRPNRGVFVVQLTQEDVDEIYRVREILELGAAEIIAAQPAQQRRQTSRKLLDIAVRLSEAAEADDWAQVFRLDLEFHTTLVAESGKSRLLRAYTTLATESLMCMTNLDQAYPALSSVSNHTVMAELIATGTFPEIRDAFHRHLSVE				NA	NA	NA	NA	NA
D1-29_02423	597	yyaP_3	COG0262	putative protein YyaP	ATGGACAGTGTCACGTGCGATCTCACCATTTCCCTCGATGGATACCTCGCCGGGCCCAATCAGAGCCAGGAAAACCCGCTGGGCGAAGGCGGCGAAGACCTGCACCGGTGGATGTTCGAAGAGCCCGAGGCGAACGCGGCGGAGATTGCGGGCATCCTCTCGTCCGGCGCCTACATCATGGGCCGCAACATGTTCGCCGGCCCCGGGCCGGGGCCATGGGGTAAGGACTGGCGCGGCTGGTGGGGTGAGGACCCGCCCTATCACGCCCCCGTGTTTGTCCTCACCCATCATCCCCGCCCTCCCCTGCAGATGCAGGGCGGCACCACCTTCCACTTCGTGGCCGACGGGATCGGATCGGCACTGGACCAGGCCCGGGAAGCAGCCGCTGGTAAGGACGTTGCCGTAGCGGGGGGCGCAGAAACTGTCCGCCAGTTCCTTTCGGCAGGGCTGATCGACGAGTTGCGGCTGCATATCGCACCGATCCTGCTCGGAGCGGGTGAGCGGCTGCTCGATGGCGTCCAAAACTTCAACGTGGAGCCCAGAGACGTTAGCGGGACCCGCCTGGTGACGCACGTCCGCTACCGGTCGATCCGCTAA	MDSVTCDLTISLDGYLAGPNQSQENPLGEGGEDLHRWMFEEPEANAAEIAGILSSGAYIMGRNMFAGPGPGPWGKDWRGWWGEDPPYHAPVFVLTHHPRPPLQMQGGTTFHFVADGIGSALDQAREAAAGKDVAVAGGAETVRQFLSAGLIDELRLHIAPILLGAGERLLDGVQNFNVEPRDVSGTRLVTHVRYRSIR				NA	NA	NA	NA	NA
D1-29_02424	423	arfB	COG1186	Peptidyl-tRNA hydrolase ArfB	ATGGATCTGGAGGTGTCACCCGCGCTGACCATTCCTGCCTCGGAACTAGGATGGCGGTTTTCGCGTTCGTCCGGGCCGGGCGGTCAACACGTCAACACAACGGACAGCCGCGTAGAGCTCCTCTGGAATATCGGCGACTCTGCGGCGCTTACTGAGGGCCAACGCCTGATACTGCTCACGCGTCTCGGACAACGCCTCGTCGACGGCATCATCACCGTGACCGCCTCCGAGCAGCGCTCCCAGCTGCGAAACCGCGAGATCGCCATGAGCAAGCTCCTTGACATTGTGGCAGAAGGCCTTGCTCCGCCGGCGGCTCCTCGCCGGGCGACCAAACCAACCCGGGGCTCGAACCGCCGCCGCCTGGCCGCGAAGGAACAACGGGCGGCGACGAAGCGGCAACGAAAGCGGCCGTCTGCAGAGTAG	MDLEVSPALTIPASELGWRFSRSSGPGGQHVNTTDSRVELLWNIGDSAALTEGQRLILLTRLGQRLVDGIITVTASEQRSQLRNREIAMSKLLDIVAEGLAPPAAPRRATKPTRGSNRRRLAAKEQRAATKRQRKRPSAE				NA	NA	NA	NA	NA
D1-29_02425	768			hypothetical protein	ATGGTTGCCCGCACCGACCAAACCACGGACCCGGCGATCCTGGACGCGCTCCTCCAGGCCCGCCGCGGGACCGCGTTCTTCGCCCGGAAACTCAACGAGCTCTCCGACGCGGACCTCGACGGGCCCTCGCTGCTGCCGGGCTGGACCCGCCGCCACGTCACCGCGCACATCGGCTACAACGCCCGCGCCCTGGCCCGGCTCATCGAATGGGCGGCCACCGGGATCGAAACCCCCATGTACCCCTCCCCGGAAGCCCGCAACCAGGAGATCGCGTTCGGTGCCACCCTGTCCCCGATCGCGCTGCGGAACCTCTTTGACCACTCCGCCGTGCACCTGAACGTCGAATGGCGCGACCTCCCCGCCCACGCCTGGCACCACAAAGTCAAAACCGCCCAAGGCCGGATCGTCCCGGCAAGCGAAACGGTATGGATGCGCACCCGCGAAGTCTGGATTCACGCCGTCGACCTCGACAACGGCGCCACCTTCGCCGACATCCCCGCACCCGTCCTCACCAGGCTCCTCAAAGACATCACCAGCGCCTGGGCCACCCGCGGCACCGACGCCGGGCTGCGCATCAGTGTCACAGGCACTGACCAGCCCGAGCAGCCGCCGGTGCTTTATGGAGACGCGGCAGCCGAATCACCGGTGGAAATAGCCGGTCCCCTGGCGGCCGTCGTCGAATGGGCCGCAGGCCGCGGCAGCACGGGGGTGACCGCCTCGGGCCCGGGTACAACGGAAGGTACGCCAGCCGCCCCCGCCTGGATTTAG	MVARTDQTTDPAILDALLQARRGTAFFARKLNELSDADLDGPSLLPGWTRRHVTAHIGYNARALARLIEWAATGIETPMYPSPEARNQEIAFGATLSPIALRNLFDHSAVHLNVEWRDLPAHAWHHKVKTAQGRIVPASETVWMRTREVWIHAVDLDNGATFADIPAPVLTRLLKDITSAWATRGTDAGLRISVTGTDQPEQPPVLYGDAAAESPVEIAGPLAAVVEWAAGRGSTGVTASGPGTTEGTPAAPAWI				NA	NA	NA	NA	NA
D1-29_02426	855			hypothetical protein	ATGAGACTCCTCACCCTCCGCACCGAAAACGGCAGCAACGGCGCCGGCACCAAAACAACCAGTACTGTGGCGGTCCGCCAGGACGGCGGCACCCTCACAGAGATTGAGGGGTTCGTCGACGTCGGAGCCCTCCTGCAGGATCCCGCCTGGGAAACCACTGCGAAGGCAGCCAACGGCGCAACGCACACGCTGGACGGCGCGGACCTTGTCGCCGTCGTGCCTTCCCCAGGCAAGATCATCTGCGTGGGCCATAACTACCGCAACCACATCAAGGAAATGGGCCGGGAAGTCCCCGAGTACCCCACCCTGTTCGCCAAGTACGCCGAGTCCCTGATCGGGCCCAACGATGACCTGGCGCTGCCGCAGGAATCAGACGCGGTGGACTGGGAAGCTGAACTCGCCCTCATCATCGGCAAAACCGGCCGCCGCATCCCCGAGGCCGACGCCGCGAACCACATCGCCGGCTACGCGGTCCTGAACGACATCTCCATGCGCGACTACCAGTTCCGCACCATCCAATGGCTCCAAGGCAAAACCTGGGAAAAATCCACCCCGTTCGGCCCGGCCCTGGTCACCAAAGACGAATTCACCCCCGGCCCACTGATGACCTCCGCCGTCGACGGGGACATCCAGCAGAGCACCCCCACCTCGGACCTGGTCTTCACCCCCGAGTTCCTGGTCTCCTACATCTCCACCATCATCACCCTGAACCCCGGCGACGTGATCGCCACCGGCACCCCCGGCGGCGTAGGCCACGCACAGGACCCCAAAAAATACCTGCAGGAAGGCCAGCTCCTGGTCACCACCATCGAAGGCCTGGGCCAACTGAAAAACCGTGTGGTCAAGGAAGCCTGA	MRLLTLRTENGSNGAGTKTTSTVAVRQDGGTLTEIEGFVDVGALLQDPAWETTAKAANGATHTLDGADLVAVVPSPGKIICVGHNYRNHIKEMGREVPEYPTLFAKYAESLIGPNDDLALPQESDAVDWEAELALIIGKTGRRIPEADAANHIAGYAVLNDISMRDYQFRTIQWLQGKTWEKSTPFGPALVTKDEFTPGPLMTSAVDGDIQQSTPTSDLVFTPEFLVSYISTIITLNPGDVIATGTPGGVGHAQDPKKYLQEGQLLVTTIEGLGQLKNRVVKEA	PGPT0001630_122	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001630-hpaF-K16164	NA	NA
D1-29_02427	1146	sdgD_2		Gentisate 1,2-dioxygenase	GTGTCCATCAGCGCCGAGAACACGACCCATGAATCAGTTGCCGCAGGGCACTCTGTTCCGGAGCCCACGCCTGAGGAGGCTGCCCAGCTGGGGCAGTTGTACCGGGACTTTGATAAGGAGAACCTGATTCCGTTGTGGACCGAGATCGCGGACTTGATGCCGATGGTTCCGTCGCCGAAGGCGGTGCCGCATGTTTGGCGGTGGGACGATTTGTATCCGCTGGCTGCCCATGCCGGTGATCTGGTGCCCGTGGGCCGGGGCGGGGAGCGCCGTGCTATTGCCCTGGCCAACCCGGGCCTGGCTGGTACCCCCTACGCGACGCCCACGCTGTGGGCTGCGATCCAGTACCTTGGCGCCCGCGAAACTGCACCGGAGCACCGCCATTCGCAGAACGCTTTCCGCTTTGTGGTGGAGGGCGAGGGCGTCTGGACCGTGGTCAACGGTGACCCGGTCCGGATGTCCCGCGGCGATTTTCTGCTCACACCGGGCTGGAACTTCCACGGCCACCATAACGACACGGATCAGCCGATGGCCTGGATTGACGGCCTGGACATCCCGTTTGTGCACTACGCCGACGCCGGTTTCTTTGAGTTCGGCACCGAACGCGTCACCGACGAGGCCACTCCTGACATCTCCCGCTCGGAGCGGCTCTGGGCCCACCCCGGCCTGCGCCCGCTCTCCGGCCTGGATGACACCACCAGCTCCCCCATCGCCGCCTACCGCTGGGAACACACAGACAAGGCACTGGCCGAGCAGCTGCTCCTGGAAGACGAGGGCCACCCGGCCACCGTGTCCCAGGGCCATGCCGCCGTCCGCTTCACCAACCCGACCACCGGCGGGGACGTGATGCCCACCATCCGGGCCGAGTTCCACCGGCTCCGCGCCGGCGCCCTGACCGAAACCGTCCGCGAGGTTGGCTCCAGCGTCTGGCAGGTCTTCGAAGGCACCGGATCCGTGACTCTGAACGGCGAAACGAGGCAGCTGGCCAAGGGCGACCTGTTTGTGGTCCCGTCCTGGGCGGCCTGGTCGCTTCAGGCCGAGGCGGGGACAGACACAGACTTTGACTTGTTCCGTTTCAGTGACGCCCCCATTTTTGAGCGCCTGAGCTTTAACCGCACCTACATCGAAGGACGCAAGAACGCATGA	MSISAENTTHESVAAGHSVPEPTPEEAAQLGQLYRDFDKENLIPLWTEIADLMPMVPSPKAVPHVWRWDDLYPLAAHAGDLVPVGRGGERRAIALANPGLAGTPYATPTLWAAIQYLGARETAPEHRHSQNAFRFVVEGEGVWTVVNGDPVRMSRGDFLLTPGWNFHGHHNDTDQPMAWIDGLDIPFVHYADAGFFEFGTERVTDEATPDISRSERLWAHPGLRPLSGLDDTTSSPIAAYRWEHTDKALAEQLLLEDEGHPATVSQGHAAVRFTNPTTGGDVMPTIRAEFHRLRAGALTETVREVGSSVWQVFEGTGSVTLNGETRQLAKGDLFVVPSWAAWSLQAEAGTDTDFDLFRFSDAPIFERLSFNRTYIEGRKNA				NA	NA	NA	NA	NA
D1-29_02428	789	allR	COG1414	HTH-type transcriptional repressor AllR	GTGCAAAAACGGCCGGCTTACTCCATCGAGGCGGTGGACAACGCGCTCCAGCTCCTCCAGCTGCTGCGCGACGGCGGGGCGCTTCGGCTCAAGGACGCCGCCATGGAACTGGGGGTTGCCCCCTCCACGGCCCACCGGCTCCTGGCCATGCTGGTCTACCGCGGGTTTGCCGTGCAGGATGAAAACCGGCGGTACGTCCCCGGCCCGGCCATGGGCGTCGGACCGGCGGGGCTGGGGTGGACCAGGCTCTTGCGCTCCCTCGCCCAGCCCCACATGGAGCTGCTCTCGGCGCAGCTCAACGAGACCGTCAACCTCATGGTGAGGGTGGGCACCAAAGTGCGTTTCCTGGCCACCGTGGAGGGAAACAACGTGTTACGTGTCGGTGACAGGCAGGGGACGGTCATGCCGGCCAACAGGACTTCTGGCGGCAAAGCCATGCTGGCAGAACTTGAAACCCCGTTGATCGGCCAGCTTTTTCGCAGCAATAACGCCGAAATCGGCGGGGACACCATCTCGGATGAGGAGTATCCGGCGTTCCTTCGCGAGCTGGAGACCATCCGCAGCAATGGCTTCGCCGCTAATTTCGAGGGCACTGAGGAAGGCGTGTGCGCCCTGGGGATGGCACTGCACAACCGCCACGGGCACGTGGTGGGGGCGCTGAGCGTTGCCACTCCCGCAACACGTTTTAGGAGGGTATTCGACGCCGGACTTGTTCCGGTCCTGCGTGAAAGCTGCCGGCAACTGGAGATCGACATAGCAGCGAACCCGGCCGAGCCCGACGCCGGCTGA	MQKRPAYSIEAVDNALQLLQLLRDGGALRLKDAAMELGVAPSTAHRLLAMLVYRGFAVQDENRRYVPGPAMGVGPAGLGWTRLLRSLAQPHMELLSAQLNETVNLMVRVGTKVRFLATVEGNNVLRVGDRQGTVMPANRTSGGKAMLAELETPLIGQLFRSNNAEIGGDTISDEEYPAFLRELETIRSNGFAANFEGTEEGVCALGMALHNRHGHVVGALSVATPATRFRRVFDAGLVPVLRESCRQLEIDIAANPAEPDAG				NA	NA	NA	NA	NA
D1-29_02429	1329	genK	COG0477	Gentisate transporter	ATGAACCACACACTTCCCGCTGCAGCGCCGCAACGGACCTCGCCAGAACAGTCCTCCACAAAGTTCACCAAAGCCTCGGCTGCGGCCGTCCTTGTCTGCTGGCTGTTGGTGGTCTTTGATGGCTATGACCTGATCGTCTACGGCACCGTCCAGTCCTCCCTGATCTCCGAAACCGGATGGGGACTCAGCAAGGCCACGGCCGGAACCATCGGGTCCATGGCCTTCGTGGGCATGATGATCGGAGCGATCTTCGCCGGCCGGATGGCCGACTCCTGGGGCCGGCGCCGCACCATCCTGGGGTGTGCCATTGTCTTTTCGGTCTTCACCGTCCTCTGCGCATTCGCGCCCAATGCCGCCATCTTCGGCATCCTGCGGCTCCTCGCCGGCATCGGGCTCGGCGGCCTGGTGCCGTCGGCAAATGCCCTGGTGGCCGAACTCGTCCCCAGCAAATGGCGGTCCATCGTGGCCACCCTGATGATGTCCGGTGTCCCCATCGGCGGATCCATCGCCGCCGTCGTCGGCATCCAAATGATTCCGGCCTTCGGCTGGGAGTCCATGTTCCTTGTTGCCGCGCTGGCCCTGGTGATCGTGGTGCCGCTCGGACTGAAGTACCTTCCTGAGACACTGGCCGCCGGAACGGTCGGCAACCAGGGTTCGGCGGATGGGGCCAGCACCACAGTCAGCAGGCCTGCCGGCTTTAAGTCACTGCTCCGCGCACCTTATCTGGGGATCAGCGTACTGTTCGCCGTGGCCACCATCGCCACACTTTTCGCCTGGTACGGGCTGGGGACCTGGCTGCCGAACCTTATGCAGCTGGCCGGCTACAACCTCGGTTCCGCCCTGACCTTCGCCCTTGCCTTGAATCTGGGAGCGGTGGCAGGCTCAGTCATCACTGCCTGGGCCGGCACCCGCTTCGGACCGATTCCGACGGCGATCGCCGCGGCCGCAGTTGCGGCCGGAGCGCTGCTGGTCCTGGTTACAGGACCGTCCGTCACCATCGTGTACCTGATGCTGGTCCTCGCCGGCGTCGGGACCCACGGCACGCAGTGCCTGATCATCGCGGCAGTGGCAAGCCACTATCCGGGACATCTGCGGGGGACGGCCCTCGGCTGGGCACTGGGGACAGGCCGCATCGGAGCGGTGGCTGCACCCCAGGTTGGCGGCCTTCTGCTGGCCGCCGGGCTGGGCGTCAATTCGAATTTCCTTGCCTTTGCCGGCGCAGCGGCAATCGCGGCGGTCCTGCTGGCCGCCGTCGGTCTCAAACTCACTTCAAAGCTCGCTATCACCCCCTCAATCCATCCCTCACCAACAGGAGCAAACAATGTCTGA	MNHTLPAAAPQRTSPEQSSTKFTKASAAAVLVCWLLVVFDGYDLIVYGTVQSSLISETGWGLSKATAGTIGSMAFVGMMIGAIFAGRMADSWGRRRTILGCAIVFSVFTVLCAFAPNAAIFGILRLLAGIGLGGLVPSANALVAELVPSKWRSIVATLMMSGVPIGGSIAAVVGIQMIPAFGWESMFLVAALALVIVVPLGLKYLPETLAAGTVGNQGSADGASTTVSRPAGFKSLLRAPYLGISVLFAVATIATLFAWYGLGTWLPNLMQLAGYNLGSALTFALALNLGAVAGSVITAWAGTRFGPIPTAIAAAAVAAGALLVLVTGPSVTIVYLMLVLAGVGTHGTQCLIIAAVASHYPGHLRGTALGWALGTGRIGAVAAPQVGGLLLAAGLGVNSNFLAFAGAAAIAAVLLAAVGLKLTSKLAITPSIHPSPTGANNV	PGPT0005390_364	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_BENZOATE|DERIVATE_DEGRADATION	XENOBIOTIC_BENZOATE-DEGREDATION-BENZOATE_TRANSPORT,PGPT0005390-benK-K05548	NA	NA
D1-29_02430	1257		COG0654	3-hydroxybenzoate 6-hydroxylase	ATGTCTGAGCAGGCCACGTCCACTGATGTCCTTGTGATCGGAGGGGGAATGGCCAGCCTGGCCGGCGCCCTCGCGCTGCGTGAAAATGGGGCCGACGTCACGCTGGTGGAGCGGGCGCCCGAGTTCGGCGAAGTAGGCGCAGGGCTGCAGATGGCCCCCAACGCCTCCCGAGTCCTGCAGCGGTGGGGGCTGCTTGAAAAGGCGCTGGAAATCGGCGTCCAGCCCAAGCACCTGGTCTTCCGCGATGCCATCACCGGTGAGGAACTCACCCGGCAGACACTGGGTGGGGAATTCGCCGAACGCTACGGCGCACCGTACATAGTGATCCACCGTAGCGACCTGCACCGGGTCCTGCTCGAAGGGTGCGAGGCGGCCGGCGTCAAGCTTGTGAACGATGTGATGGTCGAAAGCGTGGAGACCGTGAACGGACGGGGAGTGGCGCACACCGCCGCCGGTGTTGACTACGAGGCCGACGTGGTGATCGGCGCAGACGGACTCAAATCCACACTGCGCCCGCTGGTTGCAACCGACGAACCGGTCTCCTCGGCCTACGTGGCCTACCGCGGCACAGTGCCGATCACGGAAGAGACGCCGCAGGCTGACCTTGAGGACGTCATCGTCTACCTCGGACCGGACTGCCACCTGGTCCAGTATCCGCTCCGCAAGGGCAAGCTGCTGAACACCGTGGCAGTTTTCAAGTCCGCCTCCTTTGAGCGCGGCGAAGAGCAGTACGGGGGCGTGGACGAGCTCGAAGCTGCGTACAAGGACTGTGTCCCGGCCGTGCGGGCAGCGTTGAAGAACCTGGGCACCGGCATGCGGTGGCCCATGTACGATCGCGACCCGATCGAAAACTGGGTTGCCGGCCGAATGGTGCTGATGGGCGATGCCGCCCACCCCATGCTGCAGTATCTGGCCCAGGGGGCCTGCCAGGCTCTTGAAGACGCAGCGGTCCTCCAGGATGTCAGCGCCGGCAGCGTTTTCACCGAAGACGGCGTCAACCCGGCCGCCTGGGACGTCGCCATCAAGGAATTCAACACCATCCGCGCGGGCCGTACCGCCCGGATTCAGCGCACCGCACGCGTCTGGGGCGAATCCTGGCACGTCTCCGGCCTGGCCAGGACACTCCGGAATCTGCTCTTCAAGAGCCGGAAGGACAACAACTTCCAGTACAACGACTGGCTGTACGGCCAGGATGGCGAGGGAGTTCCGGCTGTTGAAGCGGCCCGGTCCAGCCAGGCAAACGGGCTTACTGCCTGA	MSEQATSTDVLVIGGGMASLAGALALRENGADVTLVERAPEFGEVGAGLQMAPNASRVLQRWGLLEKALEIGVQPKHLVFRDAITGEELTRQTLGGEFAERYGAPYIVIHRSDLHRVLLEGCEAAGVKLVNDVMVESVETVNGRGVAHTAAGVDYEADVVIGADGLKSTLRPLVATDEPVSSAYVAYRGTVPITEETPQADLEDVIVYLGPDCHLVQYPLRKGKLLNTVAVFKSASFERGEEQYGGVDELEAAYKDCVPAVRAALKNLGTGMRWPMYDRDPIENWVAGRMVLMGDAAHPMLQYLAQGACQALEDAAVLQDVSAGSVFTEDGVNPAAWDVAIKEFNTIRAGRTARIQRTARVWGESWHVSGLARTLRNLLFKSRKDNNFQYNDWLYGQDGEGVPAVEAARSSQANGLTA	PGPT0005130_47	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYBENZOIC_ACID_GALLATE_RESISTANCE,PGPT0005130-nagX-K22270	NA	NA
D1-29_02431	1293			hypothetical protein	ATGGAACGGGTACGCCTTCCGTTCGAGGACCTGCTGCGCACCCTCGCGCCGCAGGTCCTGGGCATGCTTGCCCGCCGCCACGGCCAGTTCGATGCGTGTGAGGACGCCGTCCAGGAAGCGCTCCTGGAAGCCTCCCTCAGATGGCCGCAGGATGGTGTTCCGGACAACCCCCGCAGCTGGCTGATGACGGTTGCCGGGCGGCGGCTGGTTGACCAGTGGCGCAGCGAGACCGCGCGGCGTCGCCGGGAGGAATCGTTTGCCCTGGCGACGTTCCCTTTGCAGGCGGGGCTGACTGTGACGGGTGCCGGGGAGCACGACGACGCGTTGGCGCCTGACGCCGATGACACCCTGACGCTCCTGTACTTGTGCTGCCACCCGGCGCTCTCTCCGCCGTCCCAACTGGCCCTGACGCTGCGGGCCGTGGGTGGCCTGACCACTGCGGAGATCGCCAGCGCCTTCCTGGTGCCCGAGGCCACCATGGCACAGCGGATCAGCCGGGCAAAGGGCAGCATCACCCGGGCGGGCGCCCGTTTCGAATCCCCCGCTCCCGAAGAGGCGATGGCGAGAACCGCCGTCGTACAGCAGGTTCTGTACCTGATTTTCAACGAAGGTTACGCCGCGAGTTCAGGGCCATCGCTGCAGCGCTCAGACCTGACCGGCGAGGCCACCCGGCTTGCCCGGCTGCTGCTGGACGTTACCCCGGCCGAATCTGCAGCAAGGGGAGAAACAGCCGGCCTCCTTGCCCTGATGCTGCTGACGGATGCCCGGCGGCAGGCCCGCACGCTGCCCGACGGCGCCCTGGTGCCGCTCGCTGAACAGGACCGGACCCTCTGGGATGCGGACCGGATCCGCGAAGGTGTCCTACTCCTGACCGGAACCTTGGGAAAATTTCCGGTAGGACCGTACCAACTGCAGGCGGCAGTAGCTGCCATCCATGACGAAGCTTTGACCGCCGCGGCTACCGACTGGCCCCAGATTCTGGCGCTTTACGACGTGCTGGAGCAGGTGGCACCCAGCCCGGTGGTGACTCTGAACCGGGCAGTCGCCGTCGCCATGGTCAAGGGACCCCTCGCCGGGTTGGCGGTGCTGGGGACAGTGGAAAACGATCCGCAGCTGGCCCGAAGTCACCGCCTGGATGCGGTGCGGGCGCACCTGCTGGAACTTTCCGGTGATACGGCGGCGGCCCGTGAGGCCTATCTCCGGGCTGCGGCCACAACTGCGAGCCTCCCCGAGCGCCGCTACCTCGCAGCACGGGCGGCCCGGCTGGGCCAGGTCCGCCAGGTCAGGCAGTAA	MERVRLPFEDLLRTLAPQVLGMLARRHGQFDACEDAVQEALLEASLRWPQDGVPDNPRSWLMTVAGRRLVDQWRSETARRRREESFALATFPLQAGLTVTGAGEHDDALAPDADDTLTLLYLCCHPALSPPSQLALTLRAVGGLTTAEIASAFLVPEATMAQRISRAKGSITRAGARFESPAPEEAMARTAVVQQVLYLIFNEGYAASSGPSLQRSDLTGEATRLARLLLDVTPAESAARGETAGLLALMLLTDARRQARTLPDGALVPLAEQDRTLWDADRIREGVLLLTGTLGKFPVGPYQLQAAVAAIHDEALTAAATDWPQILALYDVLEQVAPSPVVTLNRAVAVAMVKGPLAGLAVLGTVENDPQLARSHRLDAVRAHLLELSGDTAAAREAYLRAAATTASLPERRYLAARAARLGQVRQVRQ	PGPT0014960_522	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-29_02432	360			hypothetical protein	ATGAAATACATGATCATGATGTTCGGTTCGGCCGAAGGCATGATGGAGACTGCCGATCCGGCCTGGATCCAGGAAATGATCGGGTTCATGATCCAGATCGACAAGGATCTCACCGAATCCGGCGAACTGGTCTTCAATGCCGGTCTGGCCGACGGCAGCACCGCGAAAACCGTCAAACAGGCGGACGGCGGCGTGATCACCACTGACGGTCCCTACGCAGAGTCCAAGGAGTCGTTGATCGGGTACTGGGTGGTGGATGTGGCCAGCGAACAGCGGGCCATTGAGATCTGCTCCGGCATAGTCAAGTACGCCGGAACTGTGGAATTGAGGGCCGTTCAGGACGGGCCGCCGGACGTCTAG	MKYMIMMFGSAEGMMETADPAWIQEMIGFMIQIDKDLTESGELVFNAGLADGSTAKTVKQADGGVITTDGPYAESKESLIGYWVVDVASEQRAIEICSGIVKYAGTVELRAVQDGPPDV				NA	NA	NA	NA	NA
D1-29_02433	117			hypothetical protein	ATGGCTGCGGGAATCCGGTTCCATGCGCTGCCGGGCGGTCGGCCGCCGTCGGACATTTTCTTCAGTTTTTTTCCGGACCGTGTAGAGAACCACCTGGCGGCTCCGACTTATCCATGA	MAAGIRFHALPGGRPPSDIFFSFFPDRVENHLAAPTYP				NA	NA	NA	NA	NA
D1-29_02434	624			hypothetical protein	ATGCCCAACCAGAGTGCTCCCCAGAGGAAGCAGCCCTCCGGCTCCGCTGAAGACGACGTCCTGCGCGGTGCTGCCCTTGACGCCGCGGACCGCCTCTTCTACGCGAAAGGCATCCAGGGCGTGGGCATGGATGAGCTTCGCAGCGCCTCGGGAATTTCGCTCAAGCGGCTCTACCGGCTTTTTCCCTCCAAGGATGCGATCGTGGAGCAGGTCCTGCTGGCCCGTCACCGAAAGTGGACCGAAGGCGTGGCCGCAGCGGTGGCCCGTGAGACGGAACCACGGGAGCGGCTCCTGGCCGTCTACGATTTTCTTGCCGAGTGGTTTATCCAGGAGGACTTCCGCGGGTGCGCCTTCATCAACTCCTTTGGGGAACTCGGCGGTACGTCTCCGCGCATTGCTGAAATCGTGAGGACCCACAAAGAGGACTTCCAGCAGTACCTTTCGGCGCTGGCCGCGGAGATCGGGGCACCACCGGCGCTGGCGCCCCAACTCGCCATCCTGGCCGAAGGGGCCCAGACGACTGCCGCCATCTCGGGCAGTGCCGAGCCGGCAAGGCAAGCGCGTGAGGCCGCCGAAGTGCTGATTGGCTCTGCACTGACCCGCGCGCAGGCGGCTTCAAACTGA	MPNQSAPQRKQPSGSAEDDVLRGAALDAADRLFYAKGIQGVGMDELRSASGISLKRLYRLFPSKDAIVEQVLLARHRKWTEGVAAAVARETEPRERLLAVYDFLAEWFIQEDFRGCAFINSFGELGGTSPRIAEIVRTHKEDFQQYLSALAAEIGAPPALAPQLAILAEGAQTTAAISGSAEPARQAREAAEVLIGSALTRAQAASN				NA	NA	NA	NA	NA
D1-29_02435	834	bpoA2_1		Non-haem bromoperoxidase BPO-A2	GTGGCTTTCATTACGGTTGGAACAGAAAACAGCACCGACATCGAGCTCTACTACGAGGACCACGGAGCGGGACAGCCGGTTGTGCTGATCCATGGGTACCCACTCGACGGCCACTCCTGGGAAAAGCAGAGCGCGGCCCTGCTCAGCGCCGGGTACCGTGTCATCACCTATGACCGCCGGGGCTTTGGCCGCTCGAGCCAGCCCACCACGGGTTACGACTATGACACGTTCTCCGCTGACCTGAACGTCCTCCTGGAAACCCTTGATCTTAGCAACGTCGTCTTGGTGGGCTTCTCCATGGGAACCGGCGAGGTGGGCCGGTACCTTGGCACGTACGGATCCGGCCGCATTGCCAAGGCAGCCTTCCTGGCCGCCCTGGAACCATTCCTCCTGCAGACCGGGGACAACCCCCAGGGTGTCCCGCAGGAAGTATTCGACGGGATCCTCGACGCCGTCACCACCGACCGCTACGCCTACTTCGCAGACTTCTACAAGAGCTTCTACAACACCGACGACACCCTGGGAACCCGTCTGTCGGAAGAGGCGCTGCGCAACAGCTGGAACGTTGCCGCCGGCGCCTCCTGGTACGCCTCCAGTGCGGCCGTGCCCACCTGGACTACAGACTTCAGGGCTGACATTGCCAAGATTGACGTTCCCGCGCTCATCCTGCATGGAACCGCCGACAACATCCTGCCCATCGATGCAACCGGGCGGCCGTTCTACAAGGCCCTGCCCACAGCCGACTACGTAGAGGTTGAGGGGGCTCCGCACGGCCTGCTCTGGACCCATGCCGAGGAAGTCAACGAGGCACTGCTGGCCTTCCTCGCCAAGTAG	MAFITVGTENSTDIELYYEDHGAGQPVVLIHGYPLDGHSWEKQSAALLSAGYRVITYDRRGFGRSSQPTTGYDYDTFSADLNVLLETLDLSNVVLVGFSMGTGEVGRYLGTYGSGRIAKAAFLAALEPFLLQTGDNPQGVPQEVFDGILDAVTTDRYAYFADFYKSFYNTDDTLGTRLSEEALRNSWNVAAGASWYASSAAVPTWTTDFRADIAKIDVPALILHGTADNILPIDATGRPFYKALPTADYVEVEGAPHGLLWTHAEEVNEALLAFLAK	PGPT0013125_1256	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
D1-29_02436	402	rutC		Putative aminoacrylate peracid reductase RutC	ATGACATCCATCCAGCGCATCCGTCCTGAAGGGCTTGTACCGAGCCCCGCCTTCAGCCACGTCGCCATTGTTCCGCCGGGCGCCACCACCATCTATGTCGGAGGCCAGAACGCCGTCGACGCCGATGGCTCCCTCGTCGGTGAGGGAGACGTTGCGGTGCAGTCTGCGCGCGCCCTGGCGAACGTCAAAACCGCGCTTGCCGCGGCCGGCGCAACGCTCAGCGACGTCGTCCAGTGGACGGTACTCTTTGTGGACGGCGCAGACCTCGCCGCGGGATATGGGGCGATAGCGCCGGAGCTGGCCTCCGACGAGCCGGCACTGGTCACCGCAGCCCGTGTAGCCGGGCTGGGGGTTCCAGGTGCGCTCGTGGAGATCAGCGCCGTCGCAGCCGTGATGCAGTAA	MTSIQRIRPEGLVPSPAFSHVAIVPPGATTIYVGGQNAVDADGSLVGEGDVAVQSARALANVKTALAAAGATLSDVVQWTVLFVDGADLAAGYGAIAPELASDEPALVTAARVAGLGVPGALVEISAVAAVMQ	PGPT0020030_1364	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
D1-29_02437	369			hypothetical protein	ATGGCGTCAACAGAATCAAACAAGGAAGCCGTGGCTCGGCTTTTCGAAGCTTTCCGGGCGGGTGACACGGAGGCTTTCGATCAGTTGATTGTGGACGACTACAAGCAGCACAATCCGCTGGCTGGCAACGGACTGCAAGCTGTCAAGGGCTTTTTCGCCCAGTTCGGGCCAGTCGACGTCGAAGTCCACCGCGTGATCGCCGAAGGCGACTTCGTTGCCGTGCATTCGCACTACCGGACGTTGAATTCCGCTGCTGTTGATATCTTCCGCTTCAACGAAGCGGGCAAGATCATTGAGCATTGGGACGTTCTCCAGGAAGTCCCCACGGCGACGGCGAGCGGGAACGACATGTTCTCGCAACTCACCTAG	MASTESNKEAVARLFEAFRAGDTEAFDQLIVDDYKQHNPLAGNGLQAVKGFFAQFGPVDVEVHRVIAEGDFVAVHSHYRTLNSAAVDIFRFNEAGKIIEHWDVLQEVPTATASGNDMFSQLT				NA	NA	NA	NA	NA
D1-29_02438	1074	lacI_4	COG1609	Lactose operon repressor	ATGGACAACGAGCGGGCTACACAAACGGTGGCTGCGGGCAGTGGGCCCGTTCCGCCGTCACCGGCGACCAGGCAGGCCACCATTTACGATGTCGCTGAAGCGGCAGGAGTTTCGCATCAGACGGTCAGCCGTTTCCTGCGCGGTTTCGAGGGCATCCGGCCTGAGACGAAACGGCGGGTGGTTGACGCCCTTGAGAAGCTCAACTACCGGCCCAACCTGTCGGCGCGCTCGCTGACAACAGGTCAGTCCCATCGGATCGGTGCCCTCACCCACGAGATCGCCCATTTCGGCCCAAGCAAGGTCCTGCAGGGCGCCAGTGCCGCGGCAAGGGAGGCCGGATACCTGCTCGATATCGTCACCCTGGATGTCAGCGACCGCCGTTCAATCGAAGAAGCACTGGCGCTGGTGATGCAACACGATCTTGCCGGTGTCCTGGCACTCGCCTCAACCGACGAGATGCGGGAGGCCTTCGAGAGAACCGAATTCCGCGTCCCCTCGTATATAGGTTCCGAGGAGGACGATGCCCTGACCGGCCGCCCCTCACAATTGACCACCATTGGTTTTCCGGCCCTCATCGGGTACCTGGCGTCCCTGGGCCACCGCCGGTTCCTTCACGTCGCAGGGCCCACCACGTTTCCTGCCGCCCGAAACCGCGCCCGGGCCTATGAGGCAGCGATCGCAGAACAGGGCCTCCGGTCCGAGGGAATCGTCTTTGGCGACTGGTCCGCCAGTTCCGGGTATGTGACAATCGCTGGAATGACCAGCACCCTCCAAGCCACGGCAGTGGTTTCTGCCAACGATCAAATGGCGCTCGGGGCCATGCTCGCCCTCTCCGAACGGGGACTCAGCGTCCCGGAAGACGTGAGCGTGACAGGGGTTGACGACATCCCCGAGGCCGCCTACTTCGCCCCGCCCCTCACCACGCTCCGCGTTGACTTTGCCGCCCAGGGGCGGACCGCTGTCCAGGAGCTTTTGGCGCAGGTCAACAGCACCCCGCCGCCGCCCGGTGATGTGCTGGCCTCTGAACTTGTCCCCCGTCGATCCACCGGGCCGGCGCCTGCATCGCTGCCGTAG	MDNERATQTVAAGSGPVPPSPATRQATIYDVAEAAGVSHQTVSRFLRGFEGIRPETKRRVVDALEKLNYRPNLSARSLTTGQSHRIGALTHEIAHFGPSKVLQGASAAAREAGYLLDIVTLDVSDRRSIEEALALVMQHDLAGVLALASTDEMREAFERTEFRVPSYIGSEEDDALTGRPSQLTTIGFPALIGYLASLGHRRFLHVAGPTTFPAARNRARAYEAAIAEQGLRSEGIVFGDWSASSGYVTIAGMTSTLQATAVVSANDQMALGAMLALSERGLSVPEDVSVTGVDDIPEAAYFAPPLTTLRVDFAAQGRTAVQELLAQVNSTPPPPGDVLASELVPRRSTGPAPASLP	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
D1-29_02439	2109	bgaA	COG1874	Beta-galactosidase BgaA	ATGGATTCGCCCGCCCCCGCCCACGTCCCCAACGGCATCCTCTTTGGTGCCGCCTACTACGCCGAATACCACATGAACGACCGGCTTAAAGTGGATCTCGACCTGATGAAGGATGCCGGGTTTACCGTCATCCGGGTGGGCGAGTCAGTCTGGTCCTCGTGGGAGCCGCAGGATGGAGAGTTCGACGTCGAATGGTTGGCCCCCGTTTTGGACGGCGCCCATGAACGCGGCATCAAAGTCATCCTGGGTACCCCCACCTATGCTGTCCCGCCATGGCTGCAGACTGCCTATCCTGAAATCGCCGCCGAACGAAGCACCGGAACCAGGATTCCCTGGGGCGCACGGCAGGAAGTGGACTACTCCCACCCCGCATTCCTCTTCCATGCAGAACGCGTTATCCGCAGGGTCATGGAACGGCATGCCAGCCACCCTGCGGTTATTGGATTCCAGGTAGACAACGAGCCCGGCCTGGAACTCATCCATAACCACGGCGCCTTCACACGGTTCGTGCGGCGGATCAAGAAGCAGTACGGCGACGTTGAGACCCTCAACCGGGAATGGGGCCTGACGTACTGGTCGCACCGGATCACCGACTGGGCCGAGCTCTGGCGGCCGGACGGCAACACCTTCCCGCAGTACGATCTGGCCTGGCGGCGCTACCAGGCGGACCTCACCACGGAGTTCATCACCTGGCAGGCGGGCCTGGTCTCCGAGTATCGGCGGGGCGATCAGTTTGTCACAACGTGTTTGCAGTTCCCGCGCCGCGGCCTGGACGACGAACAGCTTTTCAATGGACTCGATATTGCTGCCGGAAACCCCTATTACGGCATGCAGGACCACCTGGACGGGCTCGAAGAACTTGACCAGCCCAACTACTGGACCACCACGGGGGTGGCGGGTCTGTTCAGGCAGGCTGACCGGCTCTACGGAGCCAAGCAGGGACGTTACCTGGTCACAGAGACCAACGCCCAGGCCATAGGTGCCGCCGAGACAAACCTGCCACCCTACCCGGGCCAACTGAAGCAGGCGGCTTACGCTTTCATCTCCCGGGGTGCTGCGATGATCGAATACTGGCACTGGCACACTCTGCCTTACGGGGCGGAAACCTATTGGGGAGGAGTCCTGCCCCACAGCCTGGTCCCCGGGCGGGTCTACGCGGAACTGTCCGAACTGGGGTCCGAACTCGGCCAGATCGGAACGCTGCTGGACGGCTACGTGCCGGACGCCGACGTCGCGATTCTGTGGTCGAACCCCAGCCGGTTTGCCTTACAGTTCATGCCGCCCTTTGCTGCCGGCAGCCAGCCGGACGGAGAATCCTACGAGCACATCATTGACTCGTTCCACCGCGGGGTCATCGACGCCGGCCGGCAGTCCCGGGTCCTCCATCTCGCCCAGGCAGCGGCGCTCGGCGCCGCGCAACTGGTCGAGCAGTTCCCCGTACTGGTGGCGGCAGGCGTCTATGTGGCCTCGGACGAGGAACTTGTGCTGCTGCGGGAGTACGCCGAACTGGGCGGCCACCTCATCCTTGGCGTCCGCACAGGGTATGCCGATGAGGAAGCGCGAGCCCGCGTCGCCGTCGCGCCTGACTTCCTGCATGAGGCTGCCGGCGTGCGGTACGAGGAATTCTCCAACCTGGAGCGGGATGTTCCGGTAAGCGGCACGGCCGGCAGCGGCCTTGAACTCGAGGATGCGTCGTATGCCCGGCTGTGGGTGGACGGGCTCATCCTGCAGGGGGCAGAGACACTGGCCTCCTATGAGCACCCCCGGTTCGGGGACTTTCCCGCGGTCACCACGCGGATCCACGGTGCAGGCAGGGTGACGGCGGTTGGTTGCGTGCCCTCGCCGGGACTCGCCAAGTCGCTGATCCGCTGGGCCGTCCCGGAGGCGCCGGAGTCCCGGCTGGTGGGTGAAGTCCAGCGGCCCATCACCGTATCCTCTGGTTCGCTGCCGGACGGGCGCCGGGTGTGGTTTGTCTTCAACTGGGGCTGGGACCGTCAAACGGTCTCCCTCGCCGGACGCGTCACCGAGGTGGTCACCGGTACCGCCCACGAACCCGGTGCAGAGCTTTCCCTGAGCCCATGGTCAACACGAACTTTCGTCAGCCAGTGA	MDSPAPAHVPNGILFGAAYYAEYHMNDRLKVDLDLMKDAGFTVIRVGESVWSSWEPQDGEFDVEWLAPVLDGAHERGIKVILGTPTYAVPPWLQTAYPEIAAERSTGTRIPWGARQEVDYSHPAFLFHAERVIRRVMERHASHPAVIGFQVDNEPGLELIHNHGAFTRFVRRIKKQYGDVETLNREWGLTYWSHRITDWAELWRPDGNTFPQYDLAWRRYQADLTTEFITWQAGLVSEYRRGDQFVTTCLQFPRRGLDDEQLFNGLDIAAGNPYYGMQDHLDGLEELDQPNYWTTTGVAGLFRQADRLYGAKQGRYLVTETNAQAIGAAETNLPPYPGQLKQAAYAFISRGAAMIEYWHWHTLPYGAETYWGGVLPHSLVPGRVYAELSELGSELGQIGTLLDGYVPDADVAILWSNPSRFALQFMPPFAAGSQPDGESYEHIIDSFHRGVIDAGRQSRVLHLAQAAALGAAQLVEQFPVLVAAGVYVASDEELVLLREYAELGGHLILGVRTGYADEEARARVAVAPDFLHEAAGVRYEEFSNLERDVPVSGTAGSGLELEDASYARLWVDGLILQGAETLASYEHPRFGDFPAVTTRIHGAGRVTAVGCVPSPGLAKSLIRWAVPEAPESRLVGEVQRPITVSSGSLPDGRRVWFVFNWGWDRQTVSLAGRVTEVVTGTAHEPGAELSLSPWSTRTFVSQ	PGPT0017815_436	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
D1-29_02440	1353			hypothetical protein	ATGAAAAAGGCACCAAAAACAGCAATGGCGCTGGTGAGCAGCGCCGCGGTGGCCGCAATGCTCCTCTCCGGCTGCAGCAGCAGTACACCGGCCGGAACCACGGCACCGGAGAAAGTGTCGCAGGACCAGATCGACCAGGCGCTGAGCACACCTACCAAGCTGACGTTCTGGACCTGGGTGCCTGATATCGAAAAGGAAGTCGCCCTGTTCGAAAAGAAATACCCGGCGATCGATGTCACGGTCGAGAACGTCGGCCAGGGATTGGAGCACTACCAAAAGGTCCGCACGGCTCTCCAGTCCAAAGAGGGCGCCCCGGACGTAGTGCAGGTGGAGTACCAGTACATCCCTTCATTCACCCTGACCGATTCCCTTCTGGACCTCACTCCCTATGGTGCAGCGGACCTCTCCGGTGACTACGTGGACTGGGTCTGGAACCAGGTCTCCACCGATGACGGCGTTTGGGCCATTCCGCAGGACATCGGACCCCTGGGCAACGTCTACCGCAGGGACATCCTGAACCAGGCAGGCGTCACCGAGGCCCCGAAGACCTACGAGGAATACACCGCAGCAGCCCAAAAAGTAAAAGACTCAACGGGTTCGTACATCTCCAACCTTGCAACCAACGACCCCGCGCAGGTGGTCGGACTCCTCTGGCAGGCCGGTGTGAAGCCCTTCGGGTACGACGGCGACAAAACCGTCAGCATCAACGTCAACAGCCTCGAAGCCAAGCAGGTCCTCGGCTACTGGCAGGACCTGATCGAAAAGGACCTTGTATCCACGGACGCGGATTTCAATGACCAGTTCTACCAGGGCCTGGCCGGCGGCAAGTATGCCGGATGGCTGACGGCGGCCTGGGCTCCCATTTTCCTCCAGGGCACGGCCGCTGACACCTCAGGAAAGTGGAGCGCGGCACCACTTCCGCAATGGGAAACAGGCAAGGAAGTCTCGGGAAACTGGGGCGGCTCCTCGGACGCCGTGCTGTCAACCACCAAGAACCCCATCGCAGCCCAGGAACTGGCCAAATTCATCAACCACGATGAAGAATCCACCACGATGTTCGCCAACGAGCAGTTCCTCTTCCCGGCAGCGAAAAGCGTTCTCGAAAGTCCGGAATTCACTGACAAAGCGGTGCAGTTCTTTGGCGGCCAAAAGGTGAACGACCTCTTTGCCGAGATCTCAGGCACGGTGGATACCGAGTTCCAGTGGCTTCCGTTCACCGAGTACGCGTACTCGCAGTTCAACGAGATTGTCGGCACCGCCATCGGTGAGAAGAAGGACCTGGGCGCGGCACTTGACCAGTGGCAGGACGTCCTCGTCAAGTACGCGAAGGCCCAGGGATTCACCGTCACATAA	MKKAPKTAMALVSSAAVAAMLLSGCSSSTPAGTTAPEKVSQDQIDQALSTPTKLTFWTWVPDIEKEVALFEKKYPAIDVTVENVGQGLEHYQKVRTALQSKEGAPDVVQVEYQYIPSFTLTDSLLDLTPYGAADLSGDYVDWVWNQVSTDDGVWAIPQDIGPLGNVYRRDILNQAGVTEAPKTYEEYTAAAQKVKDSTGSYISNLATNDPAQVVGLLWQAGVKPFGYDGDKTVSINVNSLEAKQVLGYWQDLIEKDLVSTDADFNDQFYQGLAGGKYAGWLTAAWAPIFLQGTAADTSGKWSAAPLPQWETGKEVSGNWGGSSDAVLSTTKNPIAAQELAKFINHDEESTTMFANEQFLFPAAKSVLESPEFTDKAVQFFGGQKVNDLFAEISGTVDTEFQWLPFTEYAYSQFNEIVGTAIGEKKDLGAALDQWQDVLVKYAKAQGFTVT	PGPT0016545_2802	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
D1-29_02441	957	lacF_10		Lactose transport system permease protein LacF	GTGGCCATCAGGTCTATCTCCGCCGCGAAACCGGCCGGCACAAGCACCGCCAGACGTTCATCCGTCAGCAAGCGCAGACAAACGACCGCCGCCTACCTCTTTGTGCTGCCGTTCTTCGTGGTCTTCACCACCATGCTTGTCATCCCGCTCGGATACTCGGGCTACCTCAGTGTGTTCAAGAACCAGTTGGTCGGCGGACTCTCATTTATCGGACTGGACAACTACATCCAGGCTTTCTCGGACCCGGATTTCCTGGCTGGGATTGGCCGGATGCTGATTTTCCTGCTGGTCCAGGTGCCTATCATGCTCGGCGTAGCCCTGTTGCTCGCCCTCGGCCTCGACAGCGGCAGGGCACACGGTGCCAAGGCCCTGCGCCTCGTGTACTTCATGCCCTATGCCGTTCCCGGGGTCGTCGCGACGCTGATGTGGGGATACCTCTACGGCCCCGACTTCGGCCCCATCTCGCAGCTGTTCCGCGCCGTGGGCCTTGAGTCCCCGAATCTTCTCAACTCACAGAACATTCTCGGATCGATGATGAACATCGTCACATGGGAATTCGTGGGCTACAACATGATCATCCTGTACGCGGCCCTCCGCTCCATTCCTGCTGAACTCTATGAGGCGGCAGCCATCGACGGCGCCAGCCAGTACAGGATCGCCTGGAGCATCAAGATCCCGGCCATCCGGCCCGCCATCATGCTGACAGTCATCTTTTCGATCATTGGGACGTTCCAGCTGTTCAACGAGCCAAGCCTGCTGGACGCAATCGCCCCCAGTGCCATCACCAATGGGTTCACCCCGAACTTCTACGCGTACAACCTTGCGTTCGTCAACCAGGACGTCAACTACGCCGCTGCCGTGGCGTTCCTCCTCGGGGCGATCATCGCCGTCGTCTCCTACGTCGTCCAGTTGGGCACGCAGCGCAGCGAACGCAAACAGCGAAAGGCCACCCGATGA	MAIRSISAAKPAGTSTARRSSVSKRRQTTAAYLFVLPFFVVFTTMLVIPLGYSGYLSVFKNQLVGGLSFIGLDNYIQAFSDPDFLAGIGRMLIFLLVQVPIMLGVALLLALGLDSGRAHGAKALRLVYFMPYAVPGVVATLMWGYLYGPDFGPISQLFRAVGLESPNLLNSQNILGSMMNIVTWEFVGYNMIILYAALRSIPAELYEAAAIDGASQYRIAWSIKIPAIRPAIMLTVIFSIIGTFQLFNEPSLLDAIAPSAITNGFTPNFYAYNLAFVNQDVNYAAAVAFLLGAIIAVVSYVVQLGTQRSERKQRKATR	PGPT0016535_1919	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
D1-29_02442	918	araQ_11	COG0395	L-arabinose transport system permease protein AraQ	ATGACCTCCACCACGCTCGCTCCCAGCCCGAAAACCGAGACCGTTCCGAGCAGGCCGGCCGGCCGCCGCAACGGAAAAGAACGCAGCCTGCCGCTGACCATCGTTCTGTGGCTGTGCGCCCTCTATTTCCTTCTCCCGCTGTTCTGGCTGTTCATTGCCAGCACAAAAGACAACTCTGATCTATTCAGCAGCTTCGGGCTGTGGTTCGGCGACCGGTTTTCGCTCTGGGACAACATCGCCTCGGTGTTCACGGTCCGCGACGGCCTCTACCTCCGGTGGACGCTCAACACTGTCCTCTATGCCGGCGTGAGCGCTGTGGGAGCGTCACTGATTGCAACGATGGCCGGTTATGCCTTTGCGAAGTACACGTTCCCCGGGTCACGGGCCCTGTTCAGCCTCACCCTGGGGGCCATCATGATTCCGCTCACGGCCCTGGCATTGCCCACGTACCTGCTTTTCAACGCGGCCAGCCTCACCAACACGCCCTGGGCAATCATCCTGCCCTCTCTGGTGAGCCCGTTCGGGGTCTTCCTGATGCGCGTCTACGCAGCCGACGCTGTACCGGACTCCATGATCGAAGCCGCTCGCGTTGATGGGGCAGGTGAGTTCAGGATCTTCTGGCAGGTGTCCTTCCGGCTCCTGGGGCCCGGAGTGGTGACCGTCTTCCTCTTCGCGCTGGTGGCCACTTGGAACAACTACTTCCTGCCCCTGATCATGCTGAACAGCTCCTCCCTGTACCCGCTGACTGTCGGACTGGCGCAGCAACAGTCCGCGAGCGCCGCGGGAGGCGGCGCCCAAGCCCTCTTCTCGACGGTTATCACCGGCTCACTGGTCAGCGTTATACCGCTGATCATCGCCTTCCTGTTCCTCCAACGCTATTGGGAGACGGGTTTGGCGACTGGGGGAGTCAAGGAGTAG	MTSTTLAPSPKTETVPSRPAGRRNGKERSLPLTIVLWLCALYFLLPLFWLFIASTKDNSDLFSSFGLWFGDRFSLWDNIASVFTVRDGLYLRWTLNTVLYAGVSAVGASLIATMAGYAFAKYTFPGSRALFSLTLGAIMIPLTALALPTYLLFNAASLTNTPWAIILPSLVSPFGVFLMRVYAADAVPDSMIEAARVDGAGEFRIFWQVSFRLLGPGVVTVFLFALVATWNNYFLPLIMLNSSSLYPLTVGLAQQQSASAAGGGAQALFSTVITGSLVSVIPLIIAFLFLQRYWETGLATGGVKE	PGPT0016540_1095	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
D1-29_02443	585	gpmA_3		2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	GTGACTCTTACGACTTTCGCCCTCGTCCGCCACGGTCAGACAGATTGGAATGCGCAGCGCCGGTTGCAGGGATCCACCGATATCCCACTGAACGACGTCGGCCGGGGCCAGGCGCGCGATGCCGTCGCCGTCCTGTCCGGCTACGAGTGGGACGCCATCGTGTCCTCGCCGCTGAGCCGAGCCGCGGAAACCGCCGATCTTATCGCCGCGGGGCTGGGGCTGGACGTGGTCCGGCGTGTGCAAGGGCTGACTGAGCGCAGCTTCGGATCCGCGGAGGGCCTTCAGGCCGGACCCGAACTGGACGCTTTGCGCATCCCCGGTGGCTACCTCGGCGCAGAAGGCGAGGACGACGCCGCGTGCCGCGGGCTGGCTGCATTGGAAGCACTGGCCGAGGAATTTCCGGGCGGCCGTATTCTTGCCATCGCCCACGGCACGCTCATCCGAGTCAGTCTCAGCCGCGCCATCGGCCGTGCCTTGCAGAAAATCGACAACGCCGCCCTCAACCTGGCCCACCACCATGCCGTTGATGGCTGGAAGCTCGAGTATTTCAACGGCGAACGGGTATCCGCCGACGTCCCAGGCTGA	MTLTTFALVRHGQTDWNAQRRLQGSTDIPLNDVGRGQARDAVAVLSGYEWDAIVSSPLSRAAETADLIAAGLGLDVVRRVQGLTERSFGSAEGLQAGPELDALRIPGGYLGAEGEDDAACRGLAALEALAEEFPGGRILAIAHGTLIRVSLSRAIGRALQKIDNAALNLAHHHAVDGWKLEYFNGERVSADVPG	PGPT0002590_153	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATASE_ACTIVITY	P-SOLUBILISATION-UNCHARACTERIZED_PHOSPHATASE,PGPT0002590-phoE-K15640	NA	NA
D1-29_02444	912			hypothetical protein	ATGACTGACAATGGGCCCGTTCTGGTGGTGGGCGGCACTGGCATGCTGGGCGGCCAGGTTGTGGCCGAACTCCTGGCGCGCGGAAAACAAGTTCGTGCCCTCGTGCGCGTCGGTTCGGATGCGGCCCGCCTGAAAGCCGCCGGAGCCACTATCGCCCGGGGCGACATGATGGTCCCGGGGTCGCTGCGGCGGGCGATGGACGGCGTGGACTGTGTGATCACCACGGCGGCAGGCTATACCCGGCACCGGAAGGGGGACACACCAGAAACGGACATCGTTGGCAACGCCAACCTTGTCGATGCCGCGGCCGCCAGCAAGGTGCGCAGGTTCGTCCTGACAAGCATCCTGACGTGTGACCAGACGCCCGGGGTTCCGCACTTTTGGCACAAGAAGCTGACTGAGGACCGGCTCGAAAACCGGGGCGTGCCGTTCGTGGCGCTGCGGCCGGGCGCCTTTTTTGACCAGGTCACCCGTTTCGGCGGCGACCCCGTCAGCAAGGGCCGCTTCAGATGGCTCGGGGACCCTGGCGTCCCGCTGACGTTCGTGCTCACGCCCGACGTTGCAGGCTGTCTTGCCGCGGCAGTCGACGCACCCGGCGTCGAGGGTCAACGGATCGATATCGGGTGGGACCGGCCGGTAAGCATGCAGCAGGTGGCCGAGATCTCCGGCCGGCTCCTTGGCAGGCGCATGGGCGTACGGGCGGTCCCCGCGGGGCTCGTCCGCACCATGGGCACCGTGCTTGGGCCGGTTAACCCGATGCTGAAGGACCTGGGTGCGATGATCAACTATTTCCAGACCGGCGGCTACGTCGCCGACACCACCCGGCAACAGGAGGTCTTTGGCGCCGTGCCTACGGCCGAAGATTCCATCGGCCGCCTGATAACCAGCCTGGGACACTCCCCCGCCCGTTAG	MTDNGPVLVVGGTGMLGGQVVAELLARGKQVRALVRVGSDAARLKAAGATIARGDMMVPGSLRRAMDGVDCVITTAAGYTRHRKGDTPETDIVGNANLVDAAAASKVRRFVLTSILTCDQTPGVPHFWHKKLTEDRLENRGVPFVALRPGAFFDQVTRFGGDPVSKGRFRWLGDPGVPLTFVLTPDVAGCLAAAVDAPGVEGQRIDIGWDRPVSMQQVAEISGRLLGRRMGVRAVPAGLVRTMGTVLGPVNPMLKDLGAMINYFQTGGYVADTTRQQEVFGAVPTAEDSIGRLITSLGHSPAR				NA	NA	NA	NA	NA
D1-29_02445	426			hypothetical protein	ATGGCTGAAAACATAACCGTCCCCACTGGCGCCAGCGTGGAGGAGTTCCTCTCCTCCATTGACCATCCCACCCGCCGTGAGGATGGCTTCGCCCTGCTCCGGATCATGTCCGAGGCCACCGGGCAGCCCGCCGTCATGTGGGGCCCCAGCATCGTGGGCTTCGGAAGCTACCACTACAGGGGCGCCAGCCGCGAGGGCGACTTTGCCGCCGTCGGATATTCACCGAGAAAGGCCAATCTGGCGCTGTACGGGGTGATTTACCGCCCCGATGCGTCGTCGCTGCTGCCCAAGCTCGGAAAACACAAGCTGGGTGTCGGCTGCCTCTACATCAACAAGCTCGACGACGTGGACACCGACGTCCTCGAGCAGCTGGTACGCGAGGGCTATGAGTACGTCACGACGGAACTGGACGTGCCAAGGACTTGA	MAENITVPTGASVEEFLSSIDHPTRREDGFALLRIMSEATGQPAVMWGPSIVGFGSYHYRGASREGDFAAVGYSPRKANLALYGVIYRPDASSLLPKLGKHKLGVGCLYINKLDDVDTDVLEQLVREGYEYVTTELDVPRT				NA	NA	NA	NA	NA
D1-29_02446	1188			hypothetical protein	GTGACCGAAACCAACGCTGAAGGCCGGGACAGGCTCAGCCGCTGGCGTCTGCTGCTCGGCGGTCACGAAGCGGACGGCGTCAGAACATCCGACGGCGAGAGTGTGGTCCTCTCAGCTGAGGACCACCTCCGGGACAAGGCGCTGGAAGACTTGTACGGGGCAGCAGGCAAGGGGGCGGGAGGCCTGGGCGCCTCCAGTCCCCGGGTGGCCAGGTGGCTCGGTGACATTCGTGGCTATTTCCCCTCCAGCGTGGTCCAGGTGATGCAGGCCGACGCCATGGACAGGCTGGCCCTGCGCCAACTGCTCCTGGAACCGGAGATGCTGCGCACCGTGCAGCCGGATATCGGCCTCGTCAGCACGCTCGTTGGGCTGGGCCGCGTGATCCCGGAGCGTTCGCGGGAGACAGCCAGGGCAGTGGTCCGCCAAGTGACGGATCAACTCGAGGACCGTTTGCGCGCCAAGACAGTCCAGGCAGTTTCCGGGGCATTGAACCGGGCAGCACGGACCAGGCGGCCGCGGCACCAGGACATCGATTGGAACCGCACCATCGCCGCGAACCTGAAGCACTATCAGCCCGAATACCGGACCATTGTGCCTGAACGGCTGGTGGGATATGCCCGGCGAAGCACCCAGGTCCAGCGTGAGATCATCCTGTGCATCGACCAGTCCGGGTCCATGGCCGAGTCGGTGGTGTACTCCAGCGTGTTCGGCGCGGTGCTCAGCTCGCTGCGGTCGGTGCGGACACGGCTGGTGGTCTTCGACACCGAAGTTGTGGACCTGTCGGACGAGCTGGAGGACCCCGTGGACGTGCTCTTCGGCGTGCAACTGGGCGGCGGCACGGACATCAACCGGGCACTGGCCTACTGTCAGGATCAGATCACGCAGCCAACGGAGACAATCCTGGTGCTCATCAGCGACCTCTATGAAGGTGGAATAGCTGAGGAGATGCTGCGCCGGGCCGCCTCGATCGTCGGAGCCGGGGCAACCATGATTGCCCTGCTGGCGTTAAGCGACAGCGGACATCCGACGTTCGACGTCAACCACGCCGCCGCCCTTGCCGGCATCGGCGTCCCGGCCTTCGCCTGCACGCCGGACCTGTTCCCTGAACTGATGGCCGCGGCCATCGAACGCAGGGACGTGGGCGAATGGGCCGCCTCCCACGACATTGTCACGACTCACGAAACCTAG	MTETNAEGRDRLSRWRLLLGGHEADGVRTSDGESVVLSAEDHLRDKALEDLYGAAGKGAGGLGASSPRVARWLGDIRGYFPSSVVQVMQADAMDRLALRQLLLEPEMLRTVQPDIGLVSTLVGLGRVIPERSRETARAVVRQVTDQLEDRLRAKTVQAVSGALNRAARTRRPRHQDIDWNRTIAANLKHYQPEYRTIVPERLVGYARRSTQVQREIILCIDQSGSMAESVVYSSVFGAVLSSLRSVRTRLVVFDTEVVDLSDELEDPVDVLFGVQLGGGTDINRALAYCQDQITQPTETILVLISDLYEGGIAEEMLRRAASIVGAGATMIALLALSDSGHPTFDVNHAAALAGIGVPAFACTPDLFPELMAAAIERRDVGEWAASHDIVTTHET				NA	NA	NA	NA	NA
D1-29_02447	2322			hypothetical protein	GTGACAGACGTCCACGTCCTGGGCATCAGGCACCACGGACCCGGTTCGGCGCATTCGGTCGCGGAAGCCCTGGCAGCCCTCCGGCCGGACCTGGTGCTGGTGGAGGGCCCGCCGGAACTGGACCAGATCCTGCCGCTGCTTTCGGATCCCGGGATGACCCCTCCGGTGGCGGGGCTGATCTACGCAGCCGAGCAGCCGCGGCTGGCGTCGTTCTACCCGCTGGCAGGCTTCTCCCCTGAGTGGGTGGCCATCCGCTGGGCGCTGTCAACAGGAACGGGGGTCCGGGCCATCGACCTGCCCGCGGCCCACAGCTTCGCGCTGCACCTGGCCGCCCCGCCACGCGATGCTGGTTCCGATGCTGACTCGGACTCGGATTCAGCAGAGGCTGACCCGGCCACCCCCGTTGACCCCGCCGAACCAGCCCCGGACCTGCAGCAGCCCTACCGGCCGGATGCGGTTGCGATGCTGGCTGAGGCTGCCGGGTACAGCGACGCCGAACGCTGGTGGGAGGACGCCATCGAGCACCGGAATGAGGGCCCGCTGGACCAGTTTGCCGCCGTCATCGATGCCATCGCCGAAATTCGCGCCATCGACACCAGGCCCGCTGACCACCCGGACGTGGTGGAGAACAACCTCCGGGAGGCATCCATGCGGCGTCTCCTGCGGGCGGCGATCCGCGAAGGGCACGGACGGATCGCCGTAGTGTGCGGCGCCTATCACGCGCCGGCGCTGGTCACCGCTGCTTTTCCTCCTGTCTCGGCCGACAACAGGCTGCTGGCCGGCCTGCCCAAGATCAAGGTCACGGCCGCCTGGGTGCCCTGGACCTCCGATCGGCTCAGTCTCCGCAGCGGATATGGGGCGGGCGTGACCGCTCCGGGCTGGTACCAGCATCTCTTCACCCACCGCGCCGCCCAGGATCCCTCCCTGGATGTAGCAACCACCTGGCTGGTGCGGGTTGCCCGTACCTTGCGACGCGAGAACCTTGACGCGTCCACGGCGTCGGTGGTGGAGGCAAGCCGGATGGCGCGTGCCCTGGCCGCAGTCCGGGGACGGCCCAGCCCGGGACTATCCGAACTGGATGACGCCGCCCAGGCAGTGCTCTGCGACGGCTCGCCGCTGCCCCTGGCACTGGTGCACCGGGAACTGACCATCGGACGTGAACTGGGGAACGTGCCGGCGTCCGCGCCCACCGTTCCGCTGGCCGCTGACCTCGCTGCCGCCCAGCGCAGGCTGCGGCTGAAACCCAGCGCGATGGAAGAGGTCCTGACAATTGACCTGCGCAAGCCGAACCAGCTGGCCCGCTCGGTGCTGCTGCACAGGCTGGCGCTGCTCGGCGTGGACTGGGGCATCCCCAGCGAGACCGGCCGTACCACGGGCACGTTCAAAGAGGCGTGGATACTGCGTTGGGAGCCGGAGCTTGCCATCGCAGTGGTGGAAGCCAGCCGTTATGGCACCACCGTCGAATCGGCGGCAGCGGCATACGTGTCCGAACGGGCCCAGCTCGCCACCAGCCTGACGGACCTTAGTGATCTCCTGACGCGCTGCCTGCTTGCGGACCTGCCGGAGGGAATCAGTGGCGTGGTGTCGGTGCTGGCGGAGCGCACGGCCCTGCAGCATGACGTTCCGCCGCTCCTGGAAACCATTGCTCCGCTTGCCCGGACCTGCCGGTACGGCAACGTGCGCGGTGTGGACGTCACGGAAGTGCGGAAGATTCTCGATGCGACCGCAGTTCGGGCCTGTGTTGGCCTGCCGACAGCCTGCTCCGGGCTGGACGATGAGGCGGCAGCAGCGATGCGGCGGGCCATTGACTCGGCCCAGCATGGTTTGTCCCTGCTGCCGGACCTGCCCCTGGATGACTGGCACGGGGCCCTGGGTGCCGTTTCAGGTTCGGACGCCATTCACGGAGCGGTCGCAGGGCGGGCCACCAGGCTGCTGCTGGACGCCGGCCTGGTGGACAGGGACGACGTCGCGGCGCGGCTCAGCCGCCGGCTGTCCATCGCCACGCCGGCCCCGCAGGCCGCAGCCTGGCTCGACGGCGTTCTGTCAGGCGATGCTGTCCTGCTGATTCACGATCCGCGCCTCCTGCAGATCGTCGACGAGTGGGTGGCCGGTGTGCCAGACGGCGTCTTTGACGACGTTTTGCCGTTGCTGCGCAGGACGTTTTCGTTGTTCAGCCCTCCAGAGCGGCGGGAAATGGGTGAACAGGTGAGCCGCGGAAGTGCGCTCACCCGGACTTCGGATGCATTAGCGCTGCACTTCACGGGCGCGGACGAGGCGATCCGCACGATGGCCAGGTACCTGGGATGGGAGGCAGTGCAGTGA	MTDVHVLGIRHHGPGSAHSVAEALAALRPDLVLVEGPPELDQILPLLSDPGMTPPVAGLIYAAEQPRLASFYPLAGFSPEWVAIRWALSTGTGVRAIDLPAAHSFALHLAAPPRDAGSDADSDSDSAEADPATPVDPAEPAPDLQQPYRPDAVAMLAEAAGYSDAERWWEDAIEHRNEGPLDQFAAVIDAIAEIRAIDTRPADHPDVVENNLREASMRRLLRAAIREGHGRIAVVCGAYHAPALVTAAFPPVSADNRLLAGLPKIKVTAAWVPWTSDRLSLRSGYGAGVTAPGWYQHLFTHRAAQDPSLDVATTWLVRVARTLRRENLDASTASVVEASRMARALAAVRGRPSPGLSELDDAAQAVLCDGSPLPLALVHRELTIGRELGNVPASAPTVPLAADLAAAQRRLRLKPSAMEEVLTIDLRKPNQLARSVLLHRLALLGVDWGIPSETGRTTGTFKEAWILRWEPELAIAVVEASRYGTTVESAAAAYVSERAQLATSLTDLSDLLTRCLLADLPEGISGVVSVLAERTALQHDVPPLLETIAPLARTCRYGNVRGVDVTEVRKILDATAVRACVGLPTACSGLDDEAAAAMRRAIDSAQHGLSLLPDLPLDDWHGALGAVSGSDAIHGAVAGRATRLLLDAGLVDRDDVAARLSRRLSIATPAPQAAAWLDGVLSGDAVLLIHDPRLLQIVDEWVAGVPDGVFDDVLPLLRRTFSLFSPPERREMGEQVSRGSALTRTSDALALHFTGADEAIRTMARYLGWEAVQ				NA	NA	NA	NA	NA
D1-29_02448	1107	yehL	COG0714	putative protein YehL	ATGACCGATGCCCAGTCCACCACTGATGTTCTGCGCGCCCATGCCGAAGACGCTTATGCGGCGGAACTCAGGGAGCTGGCAGCTTTGGATGACCGGCCCCGCCCGCCCAGCTGGCGCCTTTCACCCTGGGCAGTGGCCACCTATGTCCTTGGCGGCACCTTGCCCAACGGGACTGAGATCAGCGCGAAGTACCTTGGCTCGGCGCGGCTGGTGGAAATCGCCGTGGCATCCCTGGCCACTGACCGTGCGCTGTTGCTGCTCGGCGTTCCCGGCACCGCGAAAACCTGGCTCAGCGAGCACCTGGCCGCCGCCATCTCGGGCACATCCACGCTGGTAGTGCAGGGCACGGCCGGCACACCCGAGGAAGCACTGCGGTACGGCTGGAATTATGCCCGGCTGCTGGCCGAGGGCCCGTCCAGGGCGGCCATGGTTGCCGGGCCGGTGATGCGCGCGATGGAAAGCGGCAGCCTGGTCCGGGTGGAGGAGCTCACCCGCATCCCCTCGGATGTGCAGGATTCCCTCATCACCATCCTGAGTGAAAAAGTCCTGCCCATCCCTGAGCTGAACCAGGAAGTCCAGGCACGCAAGGGATTCAACGTCATCGCCACGGCCAACAACCGCGACAAAGGCGTCAATGACCTCTCCTCCGCCCTGCGCCGCCGTTTCAACACCGTGGTGCTGCCCCTCCCGGACAGCCTCGAGCAGGAGGTGGAGATTGTCAGCACCCGGGTTCGCAGCCTGGGCGCGGCCCTGGAACTGCCGGCTGATCTTGCGGCGCTGTCTGAAATCCGCCGCGTGGTCACTGTGATGCGCGAACTGCGCGCCGGCGTCACCCAGGATCAACGCACCACCATCAAGTCGCCGTCGGCAACCCTTTCGACGGCGGAAGCCATTTCCGTGATGACCAACGGGCTGTCCCTGGCAGCCCATTTTGGAGACGGAACGGTCCGGGCCCCCGACGTGGCGGCCAGCCTGGTGGGCGCGGTGGTAAAGGATCCCGTGCAGGACCGGGTGATTTGGCAGGAGTACCTGGAGACCATCGTCCGCAACCGCCCGGAGTGGAAGGACCTGTACCGGGCCTGCCGCGATCTTGATTCGTCCAACTGA	MTDAQSTTDVLRAHAEDAYAAELRELAALDDRPRPPSWRLSPWAVATYVLGGTLPNGTEISAKYLGSARLVEIAVASLATDRALLLLGVPGTAKTWLSEHLAAAISGTSTLVVQGTAGTPEEALRYGWNYARLLAEGPSRAAMVAGPVMRAMESGSLVRVEELTRIPSDVQDSLITILSEKVLPIPELNQEVQARKGFNVIATANNRDKGVNDLSSALRRRFNTVVLPLPDSLEQEVEIVSTRVRSLGAALELPADLAALSEIRRVVTVMRELRAGVTQDQRTTIKSPSATLSTAEAISVMTNGLSLAAHFGDGTVRAPDVAASLVGAVVKDPVQDRVIWQEYLETIVRNRPEWKDLYRACRDLDSSN				NA	NA	NA	NA	NA
D1-29_02449	1455			hypothetical protein	GTGACCTGGCTGGCGGATCTCCGGACGTCGGCGCTTCTTGGCACCGGACGCCATGCGGCGCCCTTGCCGCCTGCGGAATTGGGGGTTCGGCCACCGGCCGGCCTGTCCCGGGAGGAGCTCTTGCTCGACCAGGCCGCCATGGCCGACGTCGCCACCCGTGCTGCCCGCCGCCCGGGCACCGGGGACACCGATCAGCTGCCGGCTCCGGCCCCGCCGGACGATGTTCCGGAAGCGTCCGGCGAATCCGCCCGGTTGCTGGACCTGCTGCTCAATCAGCCTCCGGTCAGTCAGGAGCTCCGGAGGCAGCTGGTGATTGATTGGCTGCAGCTCGCGGACGCGGCCCAAGGCCGGGTGCCCCACCGCTTGCTTCCGGCCCTGCTCACGCTGGCTGACACCCGGCCCGGCGTGGCGGAGCATCTTCATCCGGCCATCGGGGCCCGTGGCAGCTGGCTGCAGGACCTCGCCCGGCCCGGGGTTTCCGGCAGGCCTTCCACCGCCGGCACCGATTGGGCGGGGCTGGGGAGCGCCGACGCCACGGTGGAACTGGAACGGCTCCGGCGCAGCGACCCCGCGGCCGCCCGGGGCCTGCTGGCCAGCCAATGGGGCACCCTGGGCGCGCGGGAACGGGCCGCCCACCTGGGCACCTTCGCCGTCAACGTTCAATCCGACGACGACGAGCTGCTGGAACGGGCCCTGGATGACAAGGCAAAGAGCGTGCGGGAGGTTGCCGCCAACCTGCTGGACCGGCTCCCCGGCAGCGCCCGGGCCGGCCGCATGGCCGCACGGCTGCTCCCGCTGCTTCGCATCAAAGGGGTGCTGCGCAAACAGTTCGAGATCGAGCTGCCACCGGAACCGGACGAAGAGTCCGTGCGCGACGGCATCGCCGGGGATCCCCGCAGCGGCGAACCCCACAGGCTCGGCCGGCTGGAAACGATCATCCGGGGTGCCCCGCTCGACGTGTGGACAACGGTTTCTGGACGTGGCCCGGCGGCAACGCTGGCGCTGCTTGAGAGCGAACCCCGGATCGTTGCGGCCATTCTCGACGCCGCTGTGCTGCGCGCCGACCTTGACTGGGTGCGCGCGCTGGCAGAGCTCCGCCAGGACCCGCGGCTGCTGAGCTGCCTGCCCGCCGTCGAGCGCGAGTCCGCACTCGTCCGGCATCTCCGCAGCGGAGGCCGGAATCCGTTGACGCTGGCCCCGTTGCTGAGGGACCAGCCAAGGCCGTGGGGCCCGCGCCTGGCCGACGAAGTACTCAAGCTGATAACCGCCAAGAACGGCGGGCAGCTGGCAGCAATGCTGGCCGACATCCTGCCCACCGGGCTTCCGCTGGAAGCCGCCGACGAGTGCCGCCGCCTGCTCGAGCGTTCAGACGACGACGCCGCCCGGCGCCGCGTTCTGCGTGATGTCGTACAGTACCAATCATTCCGAAAATCGCTGACGGAGGCCTTCCGATGA	MTWLADLRTSALLGTGRHAAPLPPAELGVRPPAGLSREELLLDQAAMADVATRAARRPGTGDTDQLPAPAPPDDVPEASGESARLLDLLLNQPPVSQELRRQLVIDWLQLADAAQGRVPHRLLPALLTLADTRPGVAEHLHPAIGARGSWLQDLARPGVSGRPSTAGTDWAGLGSADATVELERLRRSDPAAARGLLASQWGTLGARERAAHLGTFAVNVQSDDDELLERALDDKAKSVREVAANLLDRLPGSARAGRMAARLLPLLRIKGVLRKQFEIELPPEPDEESVRDGIAGDPRSGEPHRLGRLETIIRGAPLDVWTTVSGRGPAATLALLESEPRIVAAILDAAVLRADLDWVRALAELRQDPRLLSCLPAVERESALVRHLRSGGRNPLTLAPLLRDQPRPWGPRLADEVLKLITAKNGGQLAAMLADILPTGLPLEAADECRRLLERSDDDAARRRVLRDVVQYQSFRKSLTEAFR				NA	NA	NA	NA	NA
D1-29_02450	1296			hypothetical protein	GTGCGTTGGAGCGAGGAGAAGGTGATCAGCGCCGCCCCCGATGATTCTTCGATGGCGGCCGCCCGCAAGCTGGCTCGTCCCGGCCCGTGGTCCGAGACCGGCAGCAATGACGTCCTGGTATGGGGTAAATGCCAGGGCAGCGGCAAGACCCCGTACCAGGTCAGCGTTGACCTGGCCGCCCCGGCGTACCGGTGCTCGTGCCCCAGCCGGAAGTTCCCCTGCAAGCATGCGCTGGCCCTTCTCCTCCTGTGGTCCCGTGGCCAGGCGGCCGACGCCGGCGCGGAGACCGCCGACTTTGCCCGGGAATGGGCGGGCCAGCGGGAGGAACGGGCGGCAGCGCTGGAACGGCGCCAGACCGGCCAGCAGGCAGATCCGGTTGCGCAGGCCAAGCGGCGCGCGGACCGGTTGGCCCTGATGGATTCGGGGGTATCCGACTTCGCCCGGTGGCTGACGGACCTCGTGCGGACTGGCCTGGCTGCCGCCCGCGACCAGCCGTATGCCTGGTGGGACGCTGTAGCCGCGCGGTTGGTGGACGCCCAGCTTCCGGGCCTGGCCGAGCAAGTCCGGGCGATGGGGTCAGACGTGCACGCCCGCGGGGATTGGGCCGATCATCTTCTCCTGCACGCAGGCCGCTGGTGGGCGCTGACCAAAGCCTGGAACATGCGGGAGGAGCTGTCAGCCACCGAGTTTGCCGATCTCCGGGCGGCCGTCGGATGGGCGGTGGCCTCCGCCGATGTCCAGGGTACGGAGGAATTGCCGGGTCCTTGGCTGGTGCTGGGGGCTTACCGGACCGACGACGGACGGCTGCAGCAACAACGCACCTGGCTTCGCGGACCTGACGGTACGGTGGTGGTCGTGCTCGATTTTGCCGCCCAGGGGCAGGCACTCTCCGCGCCCCAATTGGCCGGTGCGGAGCTGGACACCAGCGTCGCACGGTATCCCGGCACCGCGCCGCAGCGGGCCATGTTCACAAACCCTGTCAACGCCCGCGGGCTGGCCCGCAGCCTCGGTGACGGGTGCAGCATTGCCCGGGCACTGGAATCGGAATCGGCCGCTGTTGCCGTCTCGCCATGGCGTGGGCGTCACCCGGTGCTGTTCGGCAAGGTCCGCGTCTCCCCTGGTGGTCACGGCTGGCTCCACGACAGCTCCGGCGATGCACTCCCCCTGGTGGACGCGCCGCTGGACTCGCTCCTGGCCCAGACCGGCGGGCATCCTGTGGACCTGTTTGGTGAGCTGGAGGAGGGCCGGGTGCGGCCCCTGTCCGTCGTCGTCGGGCAACGGGTGGTGACCCCGTGA	MRWSEEKVISAAPDDSSMAAARKLARPGPWSETGSNDVLVWGKCQGSGKTPYQVSVDLAAPAYRCSCPSRKFPCKHALALLLLWSRGQAADAGAETADFAREWAGQREERAAALERRQTGQQADPVAQAKRRADRLALMDSGVSDFARWLTDLVRTGLAAARDQPYAWWDAVAARLVDAQLPGLAEQVRAMGSDVHARGDWADHLLLHAGRWWALTKAWNMREELSATEFADLRAAVGWAVASADVQGTEELPGPWLVLGAYRTDDGRLQQQRTWLRGPDGTVVVVLDFAAQGQALSAPQLAGAELDTSVARYPGTAPQRAMFTNPVNARGLARSLGDGCSIARALESESAAVAVSPWRGRHPVLFGKVRVSPGGHGWLHDSSGDALPLVDAPLDSLLAQTGGHPVDLFGELEEGRVRPLSVVVGQRVVTP				NA	NA	NA	NA	NA
D1-29_02451	282			hypothetical protein	ATGGGGTTATCCGATGAAGAGCGCAGGCGTCTCGAAAAGCTCGAACAGGAACTGGCCGCAACGGATCCGGATTTGGACCGGGAACTGCAGTCAGGAACGCCCCACGGCAGGGCCGCCGCCCGCACCGTCTACGGTGTCCTGGCCGTCATAGCCGGCTTGGTGCTGGTCATCGTGGGAATTATTACAGAGCTCGTTGTCATTGGCGCTGTCGGCTTCCTGCTGACGGTTGCAGGTGCTCACTGGTTCCTCAGCGGACTCCGCCTCCCGGACAAGCCCCGGTAA	MGLSDEERRRLEKLEQELAATDPDLDRELQSGTPHGRAAARTVYGVLAVIAGLVLVIVGIITELVVIGAVGFLLTVAGAHWFLSGLRLPDKPR				NA	NA	NA	NA	NA
D1-29_02452	429		COG0589	Universal stress protein	ATGAAGATTGTTGTGGGAGTCGACGGGTCGGATGCTTCCGTCGAAGCGCTGCGGCAGGCACAGCGGCTGGCGGTCCCGCTTAATTCAGAGATAGAGGCCTTGGCCTGCTGGGAGTACCCGAACACGTATGCCTCGTATGTGGCCGTCGGTATCGGAGGGTTCAAGGAACATGCAGAGGAATTACTGGAGGACGCCGTAGTCAAGGCCTTCGGCCCCCAGCGTCCAGAAAATGTACGGACCCGACTTATGGAAGGATTCGCACGCACGATACTTATCGAGGAGAGCAAATATGCCGATCTTCTCGTCCTCGGGCCCAGGGGCCATGGCGGCTTTGCGGGGCTGTTACTCGGGTCGGTCACCTCAGCCTGCATCGCCCACGCGCACTGTCCCGTGCTCATTGCACGTAGGCGCACCGCAGCAGACGGGTAA	MKIVVGVDGSDASVEALRQAQRLAVPLNSEIEALACWEYPNTYASYVAVGIGGFKEHAEELLEDAVVKAFGPQRPENVRTRLMEGFARTILIEESKYADLLVLGPRGHGGFAGLLLGSVTSACIAHAHCPVLIARRRTAADG				NA	NA	NA	NA	NA
D1-29_02453	1461	yhdG_3	COG0531	putative amino acid permease YhdG	ATGAAAGTCTCTCAAGCTGTGCAAACGCAGGACACTTCACTTCTTAAGGTCTTGGGAAACTGGGACGCGTTAGCCCTTGGCTTCGGCGCAATGATCGGTTTTGGCTGGGTAGTCCTCACCGGTGGCTGGATATCTTCGGCGGGCACCATGGGGGCGGTCCTCGCCATGATTACCGGTGGCCTGATCATGGGCGTAGTGGGATTAACCTACGCTGAGTTGACCGCTGCGATGCCTAAGGCCGGCGGCGAGCACAACTTCTTGCTCCGCGGCATGGGTCCCCGTTGGTCTTTCATTGGGTCCTGGGCCATCACCGGAGGCTACATCACAATTGTTGCCTTTGAGGCTGTGGCGCTGCCGCGCACTGCCCAGTACCTCTTTCCTGACCTGAGCCAGGTCCCCCTGTGGGAAGTTGCCGGCTACCAGGTACACCTCACATGGGCCTTGGTGGGGGCTGTTGCCGCAGTCATTATCACGGGGATAAACATCCTCGGAGTCAAGCTTGCCGGCGTCGCCCAGACTTTCGTGGTCGTTTTCCTGCTGGTTATTGGCTTGATGCTTGTCTTCGGCTCCTTCACGGGAGGCTCAGCAGCGAACATGCAGCCTTTCTTCACGGGCGGCATGAACGGTTTCTTCGCCGTCCTCGTGGTAGTTCCGTTTCTGTTCGTTGGCTTCGACGTTATCCCCCAGTCTGCCGAGGAGGTAAACATCCCGGCGCGGCAGATAGGAAGGCTCGTCGTCATTGCGGTCCTGCTTGCCACGGTTTGGTACACCATGACTGTGCTGACTACCTCCTCCGCAATGCCTCCGGGAGACATCGCTCAAGCGGATATAGCAACGGCTGATGCCATGGGTGCACTGTTCGGCAGCGACGTAATGGCCAAGATCCTGATCGCCGGCGGCATTGCAGGCATTCTGACCTCATGGAACTCACTGCTTCTCGGCGCCTCACGCCTGATGTATTCAATGGCCCGCTCCGGCATGCTGCCTGTATGGTTTGCCAAGCTGCACCCCAAGTACCGGACTCCAGTCAACGCCCTGCTGTTCATTGGCGCACTGTCCTTTCTTGCACCGTTCTTCGGCGTTTCGATGCTGGGCTGGCTCGTGGACTCCGGCGCACCGAGCATCGTGATCGCCTACATCCTTGTTGCATTGGTGTTCGTGATCCTGCGCCGCCGCGAACCTCACATGGACAGGCCCCTCCGCATCGGCGGCAAGGGCAACGGAGGCATCATTATTGGCGTTCTGGCAGTGGTCCTGTGTATTGGACTTCTCAGCCTCTACCTGCCAGGCATGCCGGCATCCCTCACACCGCCGCCGTGGATTCTCTTTGGCTTGTGGTGGGTGCTCGGATTGGTCCTCTTCCTGCGCATTCCGGCCGGAATTGCTCCCGGCGAAGACGCTGAGCACCATCTGCTCGAACGCCTTGGGCAACGACGGCAGGAAGCGGTCAGGAACGGCTGA	MKVSQAVQTQDTSLLKVLGNWDALALGFGAMIGFGWVVLTGGWISSAGTMGAVLAMITGGLIMGVVGLTYAELTAAMPKAGGEHNFLLRGMGPRWSFIGSWAITGGYITIVAFEAVALPRTAQYLFPDLSQVPLWEVAGYQVHLTWALVGAVAAVIITGINILGVKLAGVAQTFVVVFLLVIGLMLVFGSFTGGSAANMQPFFTGGMNGFFAVLVVVPFLFVGFDVIPQSAEEVNIPARQIGRLVVIAVLLATVWYTMTVLTTSSAMPPGDIAQADIATADAMGALFGSDVMAKILIAGGIAGILTSWNSLLLGASRLMYSMARSGMLPVWFAKLHPKYRTPVNALLFIGALSFLAPFFGVSMLGWLVDSGAPSIVIAYILVALVFVILRRREPHMDRPLRIGGKGNGGIIIGVLAVVLCIGLLSLYLPGMPASLTPPPWILFGLWWVLGLVLFLRIPAGIAPGEDAEHHLLERLGQRRQEAVRNG	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
D1-29_02454	477			hypothetical protein	ATGGAATCCGTCAAAGAGACCATCGATGTAGCAGTGCCGGTATCAACGGCCTACAACCAGTGGACGCAGTTTGAATCATTTCCGCAATTCATGTCCGGTGTTGAATCCGTGACACAGCTGACCGACACCACCAATCACTGGGTCACGAAGATCGGCGGCGTGGAGCGGGAATTCGATACCGAAATTGTGGACCAGACGCCGGACGAACGCATCGCCTGGCGCAGCGTCGACGGGAAGTCCCACGCCGGCCGGGTCCACTTCACGCCGCTGGATGCCGGGAACACAAGGATTTCTGTTCACTTCGAATGGGGACCGGAGACTTTCACCGAGAAGGCCGGGGCTGCCCTTAACCTCGACGACATGCGAGTCAAGGCGGACATGCGCAGGTTCAAGGAGTTCATCGAATCCCGGGGCGCCGAGACCGGTGCATGGCGCGGCGAAGTGAACGACACCCGACCCACCGGAGAGGCTTTGTAA	MESVKETIDVAVPVSTAYNQWTQFESFPQFMSGVESVTQLTDTTNHWVTKIGGVEREFDTEIVDQTPDERIAWRSVDGKSHAGRVHFTPLDAGNTRISVHFEWGPETFTEKAGAALNLDDMRVKADMRRFKEFIESRGAETGAWRGEVNDTRPTGEAL				NA	NA	NA	NA	NA
D1-29_02455	1233	thcB		Cytochrome P450 116	ATGACCCCGGATCCATCAATCACGGGGATCCTCACGCCCCCATCCGAAACCCGTTGCCCATACATGGTGGTGCGCAACCCGGATGACGTCCGTGAAATCCTGCAAAGACCAGCCGACTTCAGTCCCGCCAACGCCCTGGTTGCCGTGACGCCTTTGACGGGGCCGGCCCTGCGTGCGCTCCAGCGCGTGCGGTTCGCGCTGCCGCCGGTTCTGGCCAGCAATGACACTGACACCCACGCCGGGATCCGCAAGGTGGTGGCGGGCTACTTCACCCCCGCCAAGGTTGCGGCGATGGAACCCCGCATCCGTGAACTTGCCCGGGTAGCAGCATTCAACGCTGCCGGACGGCTTTCCCGTGCCGAACCGGTTGACCTTGTCCAGTCCATTGCGGCGTTACCGCCGGCCATTGTCATGCTGGAGCTGCTGGGGCTGCCCGTGCGGGACCTGGTGAGCCTGAAGCGCTGGGGACTTGACTCGATGGAGCTGTTCTGGGGCTGGCCCGACGAAACCCGCCAGCTGGAGCTCGCCCGGAGCGCGGCCGATTTCTATGTGTGGATTCGCGAGCTGGTCACGGAATCCGTGCAGGTACCCGGGCGCAACCTGTTCAAATCGCTGGCGGAGCACGGTCTGTCCGTGCCGGAAATCTGCTCGCTTGGCTACTTCCTCCTGATTGCCGGGCAGGAAACAACAACTCAACTGATCAGCACCACCCTGTTCCGCCTCTTGGAGGGAAGCGCAGTCCAGAGCTGGCGGGATGCTGGGTCTGAGGCTGGCGCCCGTTCGATGGTCCGGCACGTGCTGGCCACGGAATCGTCCGTTCCGACGTGGCGGCGGGTGACCACCCAGGACACGGACCTCGGCGGGGAGCGTGTTCCGGCCGGAACCGAAATCCTCCTCGAGTTGAGCGGCAACTTCATCACAAGCCCCTTCAAGGCCGGGCCGGGCACCAAAACCGGTCCGGAAGGCAGGCCGCGGCCCTTGCCCGGGCAGCCGGACCGAGCGGCCAACTCAATGAGCAACGGTCTGGTTTTCGGCTTCGGCATCCACCGCTGCCTCGGAGCCAAACTGGCGGAACTCGAGGCCAGCATCGTTGTCCACGAAACAGCTTCGGCGCTGCCCGGGCTTCAGCTGGCGGACTCCGAACCGGCGTGGATCATGCTGTTGTCCTTCCAGGCCCCCAGGGCACTTCCGGTGAAATATTCGGTTCTGGACACCAATAGTCAGCAGGCTTAG	MTPDPSITGILTPPSETRCPYMVVRNPDDVREILQRPADFSPANALVAVTPLTGPALRALQRVRFALPPVLASNDTDTHAGIRKVVAGYFTPAKVAAMEPRIRELARVAAFNAAGRLSRAEPVDLVQSIAALPPAIVMLELLGLPVRDLVSLKRWGLDSMELFWGWPDETRQLELARSAADFYVWIRELVTESVQVPGRNLFKSLAEHGLSVPEICSLGYFLLIAGQETTTQLISTTLFRLLEGSAVQSWRDAGSEAGARSMVRHVLATESSVPTWRRVTTQDTDLGGERVPAGTEILLELSGNFITSPFKAGPGTKTGPEGRPRPLPGQPDRAANSMSNGLVFGFGIHRCLGAKLAELEASIVVHETASALPGLQLADSEPAWIMLLSFQAPRALPVKYSVLDTNSQQA				NA	NA	NA	NA	NA
D1-29_02456	678	bioD	COG0132	ATP-dependent dethiobiotin synthetase BioD	ATGAACCTGCCGCCCATCATCCTGATCACCGGAACAGACACCGGTGTCGGCAAGACAATAACGACGGCGGCGCTCGCCGCCGTCCTCGGCGGACTGGGACGCAGCGTTGCCGTCTACAAGCCGTGCCAGTCAGGAGCGTCGGCGGGCGACTCCGACACGGCCGAAATCCTCCGGCTGGCCGGTGCCGTGACAGCGGAAACGGGAGTCGTGCTGCGTGAGCCGCTGGCACCAATCGCCGCTGCCGCCGTCGACCGGATGCCCCTTCCCCCGCTGACAGCGCACGCGGACAGGATCCGTGAACTCGCAGGATCCCATGATCACGTCCTGGTTGAAGGTGCCGGCGGCCTGCTGGTGCAGCTCGATTCCTCAGGCGGCACCATGGCGGAGCTGGGCGGGCTCTTGGCTGCGGCCTTCGTTCTTGTGGCCCGTCCTGCCCTTGGCACGCTCAACCACACAGCACTGACGCTCGAGGCGCTGGCACTGCGCGGACTTCAAGTGCTGGGCATTGTGCTGGGCAGTTGGCCCGCTGAACCAGGGTTTCTGCACCACAGCAACCTTGAGGTCATGAGATCCCTGCCCGTTCCGTTTCTCGGCGCCCTTCCCGAGCAGGCGTCAACCCTGCCGCCGGTCCGCTTTCGGGCCGAAGCAGCGCACTGGCTGAACGGACTGCCGGCATGA	MNLPPIILITGTDTGVGKTITTAALAAVLGGLGRSVAVYKPCQSGASAGDSDTAEILRLAGAVTAETGVVLREPLAPIAAAAVDRMPLPPLTAHADRIRELAGSHDHVLVEGAGGLLVQLDSSGGTMAELGGLLAAAFVLVARPALGTLNHTALTLEALALRGLQVLGIVLGSWPAEPGFLHHSNLEVMRSLPVPFLGALPEQASTLPPVRFRAEAAHWLNGLPA	PGPT0022115_2182	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022115-bioD-K01935	NA	NA
D1-29_02457	1149	bioF	COG0156	8-amino-7-oxononanoate synthase	ATGACGCAGTGGCTGGAGCGGCAGGCAGCCGTCCGGGACCGGCGCGGGCTGGTCCGCCGGCCCGCTCCCCGGTCTGCCGACGAACTGTTCATCGACCTCGCCAGCAACGACTACCTGGGGCTGTCAGCCGACTTGCGGCTGGCCAAGGCAGCCACCGAGGCCGTGTCCCGATGGGGTACGGGTGCCACGTCCTCACGGCTGGTGGCCGGGACAACCCGGCTCCACCTCGAATTGGAGCAGGAACTGGCGTTGTTGACGGGCATGGCCGCAGGGCTGGTGTTCTCCTCCGGCTACCTGGCCAACCTGGGCGTGATCACCGCGCTGGGCGGGCCGGGAACCCTGATCGTGGCCGATGAGCACTGCCACGCCTCGATGATCGACGGATTCCGGCTCAGCCGCTCCCGGACAGAGTTCTTTGAACACAACAATGCATGCGAAGCGGGCCGGCTGCTCGCGGAACGGACCGAACCGCGTGCACTCATCGCCGTCGAATCCGTCTACAGCGTGCTGGGCGATGAGGCGCCGCTCCAGGACCTTCTCTCTTTGGCGACGGAACACGACGCCACCCTGCTGATAGACGAGGCGCATAGTTTGGGAGTGGCCGGCTTTCAGGGACACGGCGCGGTGGCAGGAACCTCTCTTGCCGGGCATCCCAACGTGATTGTCACTGCCACCTTGTCCAAGGCCTTGGGCAGCCAGGGCGGTGTGGTTCTGGGCTCGGAGCTGTTGCGCGAACACCTGGTCAACCGTGCGCGCAGCTTTATGTTCGACACAGGACTGGCCCCGGCATCGGCGGCGGCGGCCCTTGCTGCGGTCCATGTCATTCGGGATGAACCGTGGCGCGCCGCATCCGTCCGGAGCAATGCAGCAGCCCTGGCCTCGGGCCTGGCCGGCGTGCTGGAGAACATGGGCACCACCATGGCGCCTTCGGCGGGGGCTGTTCAATCCATCGCCATGCCCTCCTCGGAGGCGGCCCTGAAGGTTGCTGAAGCTGCACGGGCCGCCGGCGTGCACATCGGCTGTTTCCGCCCGCCGTCGGTCCCTGACGGCATTTCACGGCTTCGGCTCACGGCCAGGGCCACCCTTAAGCCTAAGGACGTCGAACACAGTTGCGCGGTGTTGCGCACCCTTTTGGAGGATCACCCATGA	MTQWLERQAAVRDRRGLVRRPAPRSADELFIDLASNDYLGLSADLRLAKAATEAVSRWGTGATSSRLVAGTTRLHLELEQELALLTGMAAGLVFSSGYLANLGVITALGGPGTLIVADEHCHASMIDGFRLSRSRTEFFEHNNACEAGRLLAERTEPRALIAVESVYSVLGDEAPLQDLLSLATEHDATLLIDEAHSLGVAGFQGHGAVAGTSLAGHPNVIVTATLSKALGSQGGVVLGSELLREHLVNRARSFMFDTGLAPASAAAALAAVHVIRDEPWRAASVRSNAAALASGLAGVLENMGTTMAPSAGAVQSIAMPSSEAALKVAEAARAAGVHIGCFRPPSVPDGISRLRLTARATLKPKDVEHSCAVLRTLLEDHP	PGPT0022095_2663	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022095-bioF-K00652	NA	NA
D1-29_02458	1383	bioA	COG0161	Adenosylmethionine-8-amino-7-oxononanoate aminotransferase	GTGAGCGGCGAGGCTCAGCCGGGGCTGATCCAGCGGGACCGCGCGCGGTTATGGCATCCGTACGCCCCGGCGTCCGCGGACCTTCCGCTCTGGGAGGTCGAGGCGGCCGACGGCGTGCGGCTGCGGCTCAGGGGCGAGGACGGCAGCCGCCACGAGGTGGTGGATGCGATGTCATCGTGGTGGTCCGCCATCCACGGCTACCGCCACCCGGTGCTGGATGCCGCTGCGAGGGAGCAGCTGGACAGTTTCAGCCACGTGATGTTCGGCGGGCTCACGCATGCCCCGGCGGTGGAGCTCGCAGAGCGGCTGGTGGAGATGGCGCCGGCTGGCGGCGGAAGATCACCCCTGGAGCGGGTGTTCCTCGCCGACTCGGGCTCCGTCTCCGTGGAGGTCGCGCTGAAACTGGCGGTGCAGTTTCAGACAGCGCGCGGATTTCCCCAACGGCAGCGCTTCCTGAGCATTCGGGGCGGGTACCACGGGGACACTTTTGCGGCGATGGGCGTCTGCGATCCCGTGGACGGGATGCACTCTGCCTTCCCGGGTCTGCTGGCGGGCAACGTGTTTGCGCCCCGTCCCCCGGCGGGGTCCTCCGCCACCGGGGGCGCCACCGCAGACGCCACTACAGGCAACATCAAACAGTGGGCGGCGGCGGTCCGGGACATCGTGGCCGCCGGCTTCGAGGGGCTTGCGGCCATCATCGTGGAACCGGTCCTCCAGGGTGCGGGCGGCATGTTCGCGTACCCGCCCGAATGCCTGCATGAACTGCGGCTCATTGCGGACAGCTACGGCCTGCTGCTCATTTTCGACGAAATCGCCACCGGCTTTGGCCGGACCGGGGAGCTTTTCGCAGCCGATCATGCCGGCGTGGTTCCGGACATCATGTGCGTGGGAAAGGCGCTGACCGGCGGATACCTGACCCTTGCCGCCATGCTCTGCACCGCCGACGTGGCCAGCACGGTATCCAACGGCAAGGCCGGCGCCCTGCTGCACGGGCCCACGTTCATGGGCAACCCGCTGGCCTGCGCGGTGGCCAACGCGAGCCTGGGCATTCTCGACTCCGGAGGCTGGCGGGACGATGTGGCCCGGATCGGCGCCGGCCTTGAGTCAGGGCTCGCCCCCGCGCAGGACCTCGACGCCGTAGCCGGGGTCCGGACCATCGGCGCCGTCGGTGTCATCGAACTGCACGACGCCGTCGACGTGGCCGCCGTGACTGCGGCCGCCATCCGGCACGGTGTCTGGGTTCGCCCGTTCCGGAACCTCGTCTACACCATGCCCCCGTACATCAGCACCGCGGCGGACATTGAACAGATCACCGCGGGCATGAGGGCCGCCGTCGCGGAAGTCCACGACCTCGTCCCTGTACCCGTGGGCGGCCGGGCATGA	MSGEAQPGLIQRDRARLWHPYAPASADLPLWEVEAADGVRLRLRGEDGSRHEVVDAMSSWWSAIHGYRHPVLDAAAREQLDSFSHVMFGGLTHAPAVELAERLVEMAPAGGGRSPLERVFLADSGSVSVEVALKLAVQFQTARGFPQRQRFLSIRGGYHGDTFAAMGVCDPVDGMHSAFPGLLAGNVFAPRPPAGSSATGGATADATTGNIKQWAAAVRDIVAAGFEGLAAIIVEPVLQGAGGMFAYPPECLHELRLIADSYGLLLIFDEIATGFGRTGELFAADHAGVVPDIMCVGKALTGGYLTLAAMLCTADVASTVSNGKAGALLHGPTFMGNPLACAVANASLGILDSGGWRDDVARIGAGLESGLAPAQDLDAVAGVRTIGAVGVIELHDAVDVAAVTAAAIRHGVWVRPFRNLVYTMPPYISTAADIEQITAGMRAAVAEVHDLVPVPVGGRA	PGPT0022100_632	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022100-bioA-K00833	NA	NA
D1-29_02459	234			hypothetical protein	ATGATCCCCAACCGCTCACTCACCCCGCAAAACCCTGTCGGGTTCTGCGGGCACTGCGGCCAGCCGTCCGACGGCGGCGCCGGCCTGGCGCCGGACGTCCACCACCGCTGCGGCGAGCGCCTCGCGATGGAGCCGCCGCGCTATTGCGCGACGTGCAGGCGCCGCATGAAGGTCCAGGTGACTCCGCTGGGCTGGTCGGCCGAATGCTCGCGCCATGAGGTTTTGGCGCCGTGA	MIPNRSLTPQNPVGFCGHCGQPSDGGAGLAPDVHHRCGERLAMEPPRYCATCRRRMKVQVTPLGWSAECSRHEVLAP				NA	NA	NA	NA	NA
D1-29_02460	1071	bioB	COG0502	Biotin synthase	ATGACGATTCAGGCAGATCCTCCGATGACCCCCGGCTCCACCCTTCAGGCACCGAACCTTGAGGCACCGGTGCCCGAGCCGTCCATACTCGGGATTGCAAGGAAACAGGTCCTGGAAGACGGCGTGGGGCTGACCGAAAGCCAGCTGGTGGAGATTCTCAGGCTCCCGGACGAGGCACTTCCGGCCGCCCTTCAGCTGGCGCACGAGGTGCGGCTCAAGCACTGTGGCGAGGACGTCGAGGTGGAAGGCATCATTTCGATCAAGACGGGAGGATGTCCCGAGGACTGCCATTTCTGCAGCCAGTCCGGTCTGTTCGACTCCCCCGTCCGGGGCGTCTGGCTCGACATTCCCGAACTCGTCAAGGCGGCCAAAGAAACAGCCGCCACCGGAGCCACTGAATTCTGCATCGTGGCGGCGGTTCGTGGGCCGGACATCAAACTCATGAACCAGATCAAGTTCGCGATCGATCGCATCAACGAAGCAGTTGAGATCAACATCGCCTGCTCCCTTGGCATGCTGACCCAGCGTCAGGTGGACCAACTTGCTGAGTGGGGCGTGCACCGCTACAACCACAACCTGGAAACGGCCCGCAGCTACTTCAGCGAGGTAGTGACCACGCACAGCTACGAAGAGCGCCTGGAGACCTGCAACATGGTTAAGGATGCCGGAATGGAACTGTGCTGCGGAGCGCTCATCGGCATGGGCGAATCCTTGGAGCAGCGCGCCGAACTGGCCGCCCAGCTCGCGGCCCTGGAACCGCACGAGGTCCCGCTGAACTTCCTCAACCCCCGGCCGGGAACGCCGCTGGAGAACCAGCAGATCATGGATGGAAAGGACGCCCTCAGGGCCATCGCCGCGTTCCGGCTGGCCATGCCCCGCACCGTCCTGCGCTATGCCGGCGGACGCGAACTGACACTCGGCGATCTGGGAACGCGGGAGGGGCTGATGGGCGGGATCAACGCCGTCATCGTGGGCAACTACCTCACCACGCTGGGCCGCCCGACCACAGCCGACCTAAACCTGCTGGTCGAGCTCAACATGCCCATCAAGGAACTCCAGAAGTCGCTATGA	MTIQADPPMTPGSTLQAPNLEAPVPEPSILGIARKQVLEDGVGLTESQLVEILRLPDEALPAALQLAHEVRLKHCGEDVEVEGIISIKTGGCPEDCHFCSQSGLFDSPVRGVWLDIPELVKAAKETAATGATEFCIVAAVRGPDIKLMNQIKFAIDRINEAVEINIACSLGMLTQRQVDQLAEWGVHRYNHNLETARSYFSEVVTTHSYEERLETCNMVKDAGMELCCGALIGMGESLEQRAELAAQLAALEPHEVPLNFLNPRPGTPLENQQIMDGKDALRAIAAFRLAMPRTVLRYAGGRELTLGDLGTREGLMGGINAVIVGNYLTTLGRPTTADLNLLVELNMPIKELQKSL	PGPT0022120_1479	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022120-bioB-K01012	NA	NA
D1-29_02461	939		COG0258	5'-3' exonuclease	ATGCCTGACCGCCTGATGCTGCTGGACACTGCCTCGCTGTACTTCCGCGCCTTCTATGGCGTCCCTGACACCATCCGCCGCTCCGACGGCACGCCGGTGAACGCTGTCCGCGGGCTGCTGGACATGATCGCCCGGCTCACCACCGATTACGGGCCAACGCATCTCATCGCGTGCTGGGACGACGATTGGCGTCCGCAGTGGCGCGTGGACCTTCTCCCAACTTATAAATCGCATAGGGTGGCTGAGGTGATGGTTGGTGCCGCCGACGTGGAGGTGGTGCCGGACGCCCTGGAGGCGCAGCTTCCGATGATCCGGCGGGTGCTTGACCTTGCCGGGATCGCCGTGGTGGGGGCTGCCGAGCACGAGGCCGACGACGTCGTGGGCACCTACGCCAGCCACGCCGCGTTGCCGGTGGACGTTGTCACGGGGGACAGGGATCTCTTCCAGGTTGTCGACGACGCCCGTCAGGTGCGGGTCATCTACACCGCGCGCGGGATGAGGAACCTTGAAGTCATCACAGAGATCGTGGTGGTGGGCAAGTACCGTGTGCTGCCGCAGCAGTATGCCGACTATGCAACCCTCCGCGGTGACGCTTCGGACGGGCTGCCGGGCGTTGCCGGCATCGGGGAGAAGACCGCGGCTTCGCTGCTCAAACAGTATGGGACGCTGGAGCGGCTCCTCGAAGCGGCGGCAGATCCGGGAAGCGGACTCTCCGCATCCGTGGGATCCAAGCTTGCTGCGGCCGAGGCATACCTCCGGGTCGCGCCCACCGTGGTGAGGCTGGTCCGCGACCTTGAGCTGCCCACCCTGGAGGAATCCGGCGCGCAGCTGCGTGCCGTGGCCGGCGAGCCTCGGGCAGAACTGCAACGTCTCGCGACGGAGTGGAACCTGGGCGGATCAGTAGCACGGCTCCTCGAGGCGCTCGACCGGCACGGCTGA	MPDRLMLLDTASLYFRAFYGVPDTIRRSDGTPVNAVRGLLDMIARLTTDYGPTHLIACWDDDWRPQWRVDLLPTYKSHRVAEVMVGAADVEVVPDALEAQLPMIRRVLDLAGIAVVGAAEHEADDVVGTYASHAALPVDVVTGDRDLFQVVDDARQVRVIYTARGMRNLEVITEIVVVGKYRVLPQQYADYATLRGDASDGLPGVAGIGEKTAASLLKQYGTLERLLEAAADPGSGLSASVGSKLAAAEAYLRVAPTVVRLVRDLELPTLEESGAQLRAVAGEPRAELQRLATEWNLGGSVARLLEALDRHG				NA	NA	NA	NA	NA
D1-29_02462	2157			hypothetical protein	ATGGCCGGATGGAATGCAGACAACGCCGCAGGATCCACCGGCCAGGGCGCGGTAACTCTCGTCGCAGGATCGTCCTTCTGCATCTCCCTTCCTAACGGTGACATTTTCCCGCACCACCCGCACGGCGTTTTCTACCGGGACACCAGGATCCTGTCGCGCTGGGCGCTCACGGTGAACGGTCAGCCGCTGGAGCCGCTGGGCGCGTGGACCCCGTCCCCGTACCAGGGCACCTATATCGGGAGGGCAGCCCGCTCCGACGGCCGGGCCGACAGCCCCCTGACCGTCGAGCGGAAGCGTGAGCTGGGTGCCGGCATCGTGGAGGACATCACCGTCAGCAACTATTCCCTCCAGCCTGCGGCCTGCGAGATTGCGCTGTCCCTGGACGCGGACTTCGCAGATCTGTTCGAGGTCAAGGACGGCCGGTTCCACCGCGTCTGGGAACAAAGCAGGCGCTTTAAGTCCGGTTCGGTGACGATCGAAGCGGCCTGGCAGGAGGCACGCAAAGGCATCGTTGTCCGCATGCGCGATGCCGAAGCAAGCGCTGAAGGCTTCGTGGTGGGGATGACTATCCCGCCGCATGGAAAGTGGACCGTGCGGGCCACCGTTCTGCCGCTGACCGCCGAAACTGAAGTGGATGCCGGCCTGCCGACCGTTTCCCTCTCTGCCGCCATGATCTCGGCGCAGGAGCGGCTTCAGCGGACTTGGGAGGCACGAATCCCGCTTCCCCGAGTGGGCAATCCGTCCATCGAGCGGAGCCTCCTGCGCAGCCATGACGACATCGGCGCACTCCGCATCGTTGACCCCGACCATCCGGACAGGATGGTGGTGGCGGCAGGAGCCCCGTGGTTTATGGCGCTGTTCGGGCGGGACTCGCTGTTGTCATCCTTTATGGTCCTGCCGGTCGACGCAACGCTGGCCCTGGGAACGCTGCAAACCCTTGCGGACCGCCAAGGTACCAAAGTGGATCCCCTGACCGAAGAGCAACCGGGACGGATTCTGCACGAGGTGCGGCTCGACGTCGGGACCGGCCTTGCGCTGGGCGGCAGATCCGCCTATTACGGCACTGCCGACGCCACTCCCCTTTTCGTGACCCTCCTTGGCGAAGCGAGCCACTGGGGGCTTGCCGCCGGGGACATCGCCGCCCTGGTGCCCCATGCCGACCGCGCCCTGGACTGGGTCCGGGACTACGGCGACCGTGACGGCGATGGGTTTGTCGAGTATGAGCGCCTGAACGAGCACGGCCTCATCAACCAGGGCTGGAAGGACTCCTGGGACGGGATCAATTTTGCCGACGGCCGCATTGCCGAGGCGCCCATCGCCCTGTGTGAGGTACAGGGCTACGTCTACAGTGCCTACATCGCCCGGGCGTGGATGGCGTACGACGCCGGTGACCTGGCGCTCGCTGCTGACTTCCGGTACCGGGCCGAGCGGCTGAAAAAGCAGTTCAACGAACAGTTCTGGTTGCCGGAACAGGGGTATTTCGCCATCGCACTGGACGGGGACAAACGGCCGGTTGACGCCTGCGCCTCCAACATGGGCCACTGCCTCTGGTCCGGCATCGTGGATGAGGACAAAGCACCATTGGTTGTCCGCCGGCTGATGTCCCCGGAGATGTTCAGCGGCTGGGGAATCCGGACCCTGGCAACAGACATGGGGGCCTACAACCCGGTCAGTTACCACAACGGATCCGTGTGGCCCCACGACAACGCGCTCATCGTGGCAGGTTTTATGAGGTACGGCTTCGTCAAGGAGGCGCAGCAGCTTTCCACGGCACTGATGGAGGCGGCCGAATACACGGACAACCGGCTTCCCGAACTGTTCTGCGGATTCAGCAGGTTCGAGTGTCCGGAACCCCTGCCCTACCCCACCGCCTGTTCCCCGCAGGCGTGGGCTTCGGCCACGCCGGTGATGATTATGCGCAGCCTCCTGCGCTATGAGGCGCACGTCTCCCGCGGCGCGCTGTGGATGGACCCCGTGCTGCCCAAATCCTGGGGAAGCCTGCACACCACCAACCTCCCCGTGGGCGGGGCACGGGTGACCATCGATGTGTCCGGATCACGCGTAGCAGTAGAGGGATTGCCGGAGGGGATGCTTTTCCGCAGGGGAACAAGGCCACCGCTGGCAGCCCTGCTGGATGCCCCTGACCAACGGGTCTAG	MAGWNADNAAGSTGQGAVTLVAGSSFCISLPNGDIFPHHPHGVFYRDTRILSRWALTVNGQPLEPLGAWTPSPYQGTYIGRAARSDGRADSPLTVERKRELGAGIVEDITVSNYSLQPAACEIALSLDADFADLFEVKDGRFHRVWEQSRRFKSGSVTIEAAWQEARKGIVVRMRDAEASAEGFVVGMTIPPHGKWTVRATVLPLTAETEVDAGLPTVSLSAAMISAQERLQRTWEARIPLPRVGNPSIERSLLRSHDDIGALRIVDPDHPDRMVVAAGAPWFMALFGRDSLLSSFMVLPVDATLALGTLQTLADRQGTKVDPLTEEQPGRILHEVRLDVGTGLALGGRSAYYGTADATPLFVTLLGEASHWGLAAGDIAALVPHADRALDWVRDYGDRDGDGFVEYERLNEHGLINQGWKDSWDGINFADGRIAEAPIALCEVQGYVYSAYIARAWMAYDAGDLALAADFRYRAERLKKQFNEQFWLPEQGYFAIALDGDKRPVDACASNMGHCLWSGIVDEDKAPLVVRRLMSPEMFSGWGIRTLATDMGAYNPVSYHNGSVWPHDNALIVAGFMRYGFVKEAQQLSTALMEAAEYTDNRLPELFCGFSRFECPEPLPYPTACSPQAWASATPVMIMRSLLRYEAHVSRGALWMDPVLPKSWGSLHTTNLPVGGARVTIDVSGSRVAVEGLPEGMLFRRGTRPPLAALLDAPDQRV				NA	NA	NA	NA	NA
D1-29_02463	426			hypothetical protein	ATGCCCAAGACCGGCAAGAACAACCACGCCCGCAAGGAAGAGCTTCCCTCGACCCTGCAGCGCTCTGAGCAGAAGGCCCAGGACACGTTCGCCAAAACCTACGATGCCGCCCTTGAGACCTACGACAACGACGAGAGCAGGGCTGCCCGTGCCGCCTACGCCTCGCTGAAGCACAGCTATGAGAAGGTGGGCGACCACTGGGAGCCAAAAGAGAAGCGCGGCCCCTCAGACAAGCGCGCCGAAGGCGGAGTTGATTCATCGGCACCCACTGCCGGCGGCGTGGATGCGAACGCATCCAAGGAACACCTCTACAAGCGTGCGCAGGAACTGCACATCAACGGCCGCTCGAGGATGAATAAGGACGAGCTGGTCCAGGCACTGCAAAAGGCAAATGAAACCGCCACCAGGAAGGCGCGTGGCGGCTAA	MPKTGKNNHARKEELPSTLQRSEQKAQDTFAKTYDAALETYDNDESRAARAAYASLKHSYEKVGDHWEPKEKRGPSDKRAEGGVDSSAPTAGGVDANASKEHLYKRAQELHINGRSRMNKDELVQALQKANETATRKARGG				NA	NA	NA	NA	NA
D1-29_02464	582			hypothetical protein	ATGCAATCACTCCCCCGGATCACCGTGGAGGTGCCGGTGCTGAGCGTGGGCTCCGGGCCATCCGACTACGAGCATCTGGGCAGCTACGTCCATGGGTTGCGCAGGCCGCAGGGGCTGCACCTGACCCTGCTGCACATCGGCATCCTGGAGGACTTCTCCCGGGACGTCGCTGATTGGACCAACGGCATCACCAGCCCCGACGCTGTTATCAGCAGCACGGTTGGCTGGTTGCGGTCCCTGCCGGTGCTGGAAGGCTTTTCCGGGCGGGCGGAAAGACTGATCCTGCTCGGAGGGGGAAGTATCTCCGGACTGGAAGTGGATGTGCCGGAACGGGTGCACGATTACCAGGCATCACTCCTGCAGGGGCTGCGCGAACTTCTCGACGGGCTGCTGGTGGACCACGTGGATGACTTCATCCTCAGCTCCAGGGCGCTCGGCTTCAGGCACCCCCGCTGGACTCCGCACGTAGCGGTGGGGCGCCCCAAAACCAAAGATCGCGGGCAGTGGCAGATTCCCCCGCTGACCGTCCATTGCGGCGAATCACGGATCAGGAACGCGCAGTCCCTGCCCGCCGTCGCCTAG	MQSLPRITVEVPVLSVGSGPSDYEHLGSYVHGLRRPQGLHLTLLHIGILEDFSRDVADWTNGITSPDAVISSTVGWLRSLPVLEGFSGRAERLILLGGGSISGLEVDVPERVHDYQASLLQGLRELLDGLLVDHVDDFILSSRALGFRHPRWTPHVAVGRPKTKDRGQWQIPPLTVHCGESRIRNAQSLPAVA				NA	NA	NA	NA	NA
D1-29_02465	660	rspR_3	COG1802	HTH-type transcriptional repressor RspR	ATGACGATTATTGATGAGGCCACGCGGACCGGCCTTTCTGCGTCCGAGCTTGTCAGCGTACTCCGCCAGGCGATCATCACCGGTGAACTGGTACCCAAGCAGCGGCTTGTCGAAGCCGATCTTGCCGCCGAGTACGGTGCCAGCCGCGGAAACATCCGCGTCGCGCTGTCGGAACTGAGCGTTGAGGGCCTGGTGGAGCGTGTGCAGAACCGCGGGGCCAGGGTCCGGGCAGTCTCGGTGGAGGAAGCCGTTGAGATCACCGAAGTCCGCGGCGCCCTGGAAGCGCTGTGCGCGCGGAAAGCCGCCCAGCGAATTTCCGATCCTGAGTCCGAGGAGTTGCGGGAGCTTGCCAGGCAGATGGAAGACGCTGTGGCCCGGGGTGACCGGGAATCGTACTCCGACTGCAACCAGCGGCTTCACGCCAAGATCATTGCCATGAGCGGCCAGGAGACCGCCGCCACAACAATTCAGCGGCTGCGCGGCCAGGCAGTGCGGTTTCAGTTCCGGCTTGCGCGGCAGCCGGGGCGGCCGGCTATTTCCCTTCCACAGCACCTGGCCATCATTGATGCTGTTTGCCGGCACGATTCCGAAGGGGCGGCCGAGGCGATGAGGCTGCATCTGGAAAGCGTGGCAGACGCCATCCGTGGGCCCCAGGGCTGA	MTIIDEATRTGLSASELVSVLRQAIITGELVPKQRLVEADLAAEYGASRGNIRVALSELSVEGLVERVQNRGARVRAVSVEEAVEITEVRGALEALCARKAAQRISDPESEELRELARQMEDAVARGDRESYSDCNQRLHAKIIAMSGQETAATTIQRLRGQAVRFQFRLARQPGRPAISLPQHLAIIDAVCRHDSEGAAEAMRLHLESVADAIRGPQG				NA	NA	NA	NA	NA
D1-29_02466	1377	garB		Glutathione amide reductase	ATGGACTACACGTACGATGTTCTGGTCATCGGCGGCGGGCCCGCTGGAATGGCAGCTGCGGAACGGGCGGCCGAACTGGGCGCCAGGACAGCGGTGGTGGAGAGTGCGGCGCTCGGCGGGACGTGCCTGAACTCAGGCTGCGTTCCCACGCGTGTGCTGGCCAAGACGGCAAGGCTGTACCGCGAGGTGAGGACAGCGTTTGACTACGGGATCGTGGTCCAGGAACCGGCCGTGGACTGGGAAAGGACAGTTGCCCGCGTCCGCGAGACTGTGCAGCGCGTGCTGGCGGCAAAGCAGTACGACGCCATGATGGAACGCCTTGGCATCCGCCTCATCTCAGGACGGGCCCTCTTTACCGACGACCACACCGTCAGCGTTGATGGACAGGAATTCACTGCGGCCTCCATCATTCTCTGTGTTGGCGGAGCCGCACGGCGGCTCCCGATCCCTGGAGCCGAGCACGCCATCCTTCCCGACGAAGTGCTGACCCTCAAAGAACTCCCCGGGAAGCTGGCCATCATTGGGGGCGGCCACACCGGTGCGCAGCTGGCCACCATCTTCAACGCGCTGGGATCCGAGGTGCTGCTCCTGGACGTGGCGCCCCGCCTGCTGCTGACCGAGGACCATGACGTTGCCGCCTATGTAGGGCAAAGCTTCGCCACCAAGGGAATCAGGCTGGAAACCGGAATTTCCGGCATCGAAGAGATCGCCAGGAACCATGATGGGGATCTCGAAATCTCCTGGACCAAGAACGGCGGGCGCTCCGCCGTCGATGTTGACACCGTGGTGATGGCCGCCGGGTGGCCGGCCAACATCCCGGGGCTGGGCCTGGAGGCCGCGGGGGTGGCGACGTCCGGCTCGTTCATTCCAGTGGACGGCTACCTGCGTACCAACGTGCCGCACATTTTTGTCGCCGGAGACGCGAACGGTACCAGCATGCTGGTGCAGGCCGCGGTGTTTGAAGGCGAAACGGCGGCAGGCAACGCGGTCCTGGGCGCCCACCGGACCACACCCCACCACCTGCTGCCGGAAGGCGGTTTCACTGACCCCGACTACGCCGGAGTGGGGCTCACCGAGGAACGGGCGCGGGAATGCGACCCGGAATGCCTCTCGGTGACCGTCCCCTACGGCACGGTAGAGCGTCCCATCATCGATGACCGGGAAGCGGGCTTCCTCAAACTTGTCACTGACCGGCACCAGGAACTGATCCTGGGCGCCCATGCAGTGGGGGAAAGCGCCGTCGAGGTGGTGCAGGCCGTGGCCTCAGCCATGGCGGCAGGTACAGACCTCGCCACCTTGGCAAGGGTCAAGTTCGCCTATCCAACGTACAGTGCCATCATTGGACAGGCCGCCCGCGCCGCAACGCGCACTGCCTGA	MDYTYDVLVIGGGPAGMAAAERAAELGARTAVVESAALGGTCLNSGCVPTRVLAKTARLYREVRTAFDYGIVVQEPAVDWERTVARVRETVQRVLAAKQYDAMMERLGIRLISGRALFTDDHTVSVDGQEFTAASIILCVGGAARRLPIPGAEHAILPDEVLTLKELPGKLAIIGGGHTGAQLATIFNALGSEVLLLDVAPRLLLTEDHDVAAYVGQSFATKGIRLETGISGIEEIARNHDGDLEISWTKNGGRSAVDVDTVVMAAGWPANIPGLGLEAAGVATSGSFIPVDGYLRTNVPHIFVAGDANGTSMLVQAAVFEGETAAGNAVLGAHRTTPHHLLPEGGFTDPDYAGVGLTEERARECDPECLSVTVPYGTVERPIIDDREAGFLKLVTDRHQELILGAHAVGESAVEVVQAVASAMAAGTDLATLARVKFAYPTYSAIIGQAARAATRTA				NA	NA	NA	NA	NA
D1-29_02467	1845	ggt	COG0405	Glutathione hydrolase proenzyme	ATGCCACATGTGAGACGACGACTGGCTGCCGTAACGGCAGTCCTGGCCTTGAGCACGACGGCGGGCGGTGCTATCAGCCCCGCCTTCGCCGATCCCCGCGAAACTGAAAAGACGGCCACTGCCACCGGATACGGCGGAGCCGTAAGCACGGTGGATCCGGAGGCTTCCGCGGCCGCAATCGAAGTCCTGCGCAAGGGCGGCAACGCGGCGGACGCTGCCGTCGCAGCGGCAGCGACCCTTGGCGTGACCGAGCCCTACAGCGCCGGGATCGGCGGTGGCGGCTACTTCGTCTTCTACGATGCCAAAACCGGCAAGGTGAGCACCATCGACGGGCGCGAAACGGCACCCGCAGCAATGCCCCAGAATGCGTTCATCGACCCGGCCACCATTACCCCAGACAAGCCCGCAGGCGCGCCGTACACTTTTGCGCAGCTCGTGTCGAGCGGCGTCTCCGTTGGCGTCCCCGGCACACCCGCTACCTGGGAGCGGGCGCTGGAGCGTTGGGGAACCTTAAGCCTCGGCGATGCCCTGAAGCCGGCCATCAAGGTGGCGAACCGCGGTTTTGTGGTGGACGAAACATTCCGCCAGCAGACCTTGGAGAACAAGGTCCGCTTCGCGGCCTTCACCTCGACAAGCAGCCTTTTCCTCCCGGGCGGCGACGCACCCGCCGTCGGCAGTATCTTCCAGAACCACGACCTTGCCCAGACGTACCGGCTCCTCGCAAAGCAGGGCACGGACGGCTTCTACACGGGCCCTCTTGCAGAGGAGATCGCAACCACGGTCCAGGCGCCGCCGAAATCGCCCGATACCGAACTGCCGGTCCCTGTGGGGCACCTGACGGCGGCTGACCTGGCTGCCTATAAGGCCCTGGACCAAGATCCTACCCATGTGAAGTACCGCGACTATGACGTTTACGGCATGGCGCCCTCCAGCAGCGGCGGAACCACAGTGGGTGAAGCCCTGAACATTTTGGAGCCGTTCAACCTGGCCGAAATGCCAACCTCCGGGGCCCTGCACCACTATCTCGAGGCAAGTGCGCTTGCCTTCGCCGACAGGGCCAAGTACGTGGGCGACCCGGCTTTTGTGAACGTGCCCACCGCTGCGCTGACGGACCCGCTGTTCGGCAAGGAACGCTCCTGCCAGATCAACCCGGCGCAGGCGGCAACCAAGCCGGTACCAGCGGGGGACGTAACCAAGTACGACGGCGCGTGCCCGGGTGCCGTTGCCCCGCTCGCGGATGAAAAGGACACCGAAAACATCTCGACGACGAACCTGACAGTCGCCGATAAATGGGGCAACGTGGTGGAGTACACCCTGACCATTGAGCAGACCGGCGGGTCCGGGATTGTAGTGCCCGGCCGGGGGTTCATCCTCAACAACGAGCTGACCGACTTCTCCACCGTGTACGACCCTGCTGATCCCAACAGGATCGAGGCAGGGAAGCGGCCGCGTTCCTCGATGTCCCCAACCATCATCCTGAAGGAGGGCGAACCGTTCCTTGCGCTTGGCTCGCCCGGCGGATCCACGATTATCACCACCGTCCTGCAGACCATCCTGAACCGGGTGGACCTGGGGATGACCATCTCCGAGGCGCTAGCCGCACCGCGCGCAGCCCAGCGCAATACGGCCAAAATCAGCGCCGAGCAGGAGTTCATCGATACTTATGCGGGCGAACTCGAGCCTCTCGGCCATGTGTTCACCAAAGCAGGTGACTCGTTCACCTCGCTGCCCGAAATCGGAGCTGCCACCGCCATCGAGTTCGGACCCGGCAACCGGATGGTCGCCGCTGCCGAGCCGGAAAGGCGTGGCGGCGGCTCTGCCATGGTGGTCACGCCGGCGCCTTAG	MPHVRRRLAAVTAVLALSTTAGGAISPAFADPRETEKTATATGYGGAVSTVDPEASAAAIEVLRKGGNAADAAVAAAATLGVTEPYSAGIGGGGYFVFYDAKTGKVSTIDGRETAPAAMPQNAFIDPATITPDKPAGAPYTFAQLVSSGVSVGVPGTPATWERALERWGTLSLGDALKPAIKVANRGFVVDETFRQQTLENKVRFAAFTSTSSLFLPGGDAPAVGSIFQNHDLAQTYRLLAKQGTDGFYTGPLAEEIATTVQAPPKSPDTELPVPVGHLTAADLAAYKALDQDPTHVKYRDYDVYGMAPSSSGGTTVGEALNILEPFNLAEMPTSGALHHYLEASALAFADRAKYVGDPAFVNVPTAALTDPLFGKERSCQINPAQAATKPVPAGDVTKYDGACPGAVAPLADEKDTENISTTNLTVADKWGNVVEYTLTIEQTGGSGIVVPGRGFILNNELTDFSTVYDPADPNRIEAGKRPRSSMSPTIILKEGEPFLALGSPGGSTIITTVLQTILNRVDLGMTISEALAAPRAAQRNTAKISAEQEFIDTYAGELEPLGHVFTKAGDSFTSLPEIGAATAIEFGPGNRMVAAAEPERRGGGSAMVVTPAP	PGPT0002935_739	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
D1-29_02468	1938		COG3387	Trehalase	ATGAAGGCCGCGAGCGTCAACCCGGCTGCTGAGCCTGCCGGCAGCCGGCCTCCCCGGCGGGTTGAGCGGCGGGTTGAGCGGCAGGGTGAGCGCGTGGCTGAGCGGCAGGCTGAGCGGCGGGCGGAGCGACGGCGCGAACTTCCCATCGCGGACTACGGGCTGCTGGGCGACACGCGGACAGCCGCGCTGGTGTCCGCCGAGGGCGGAGTGGATTGGTTTTGTGCCCCCACATTCGACGGCGAGCCTGTCTTCGGCGCGCTCCTGGGCGGCACCGAAGCCGGGACCTTCCTGATGGGACCGGCCGTGCCTTCCCGGCCCGTCAGCCGCCGTTACCTTCCCGGAACCGCCACGCTGGAAACAGTGTGGGCCTCAGATCAGGGAAGGCTTGTCCTCACCGAAGCCATGGTGGCAGAGGTAGCAGGCCAGTTGCTGCCGACGACAGTGCTGGTTCGGCGCCTGACGGCAGAAGGCGCGCCAGTGGCAGCATCGGTCTGCTTTGACCCCAAGCTCGGTGAACGTCACCGCCGCCCACGCGTCCGCAATGGCCGGAGCCTGGTGTGCGAATGGGGCCCACTGGCCCTTTCCCTCGGCTGCAGCCCCGCACTGGACCTGGAACCGGGCAAGCCGGAACCTGTCACTGTCATCCCCGGCCAACCCGTGACCCTGGTGCTTGCTGTGGCGTACGGCGAACCGCTCATCCACGTTGATCCGGCGGCGGCGTGGGAACTGGTGGAGGCTGACTCCGCCCGCTGGCGGATGTGGACTGAAGAGGTGGACAGGAGGATTCCGTTCCGCGAACCGGTCCTCCGTAGCCTGCTGACCCTGCGGCTTCTCACCTACTCCCCCTCGGGCGCGCCCGTGGCGGCGCCAACCACCTCACTGCCCGAGGACGTGGGCGGTATCCGCAACTGGGACTACAGGTATGCGTGGCCGCGGGACGCCAGCATCGGCGTCGGGTCCTTCCTGGCCGCAGGAAAATCGGCCGAAGCGCTCAACTTCCTCGGGTGGCTCCTGCATGCCAGCAGGCTGGAACGGCCCAGGCTGCCAGCCATCCTCAGCCTGTCCGGCCGGCACGTGCCACGGGAACGCACGCTGCAAGGCTGGCCGGGGTATGCCGGGAGTGCCCCCGTCCGTACCGGCAACGGCGCCGCCAACCAGCACCAGCTTGATGGCTACGGTTGGGTCCTGGATGCCGCCTGGGTGCTGGTGAAGGGTGGACATCCGCTGTTTTCGGAGACGTGGCGGGCCATGCGCGGCTTCACTGATCTGGTAGCTGGACGCTGGCAGGATCCGGACGCGGGAATTTGGGAGATCCGGGGCGATGAAGCGCAGCATGTCCACTCAAAAATCATGGGCTGGCTGACCCTGGACAGGGCGCTGCGCATCGCAGAGACCCACCGCCTCGGTGCCAGGCAAAGACGCCGCTGGCAGGAGGCAAGGGAGTCCCTGTCCGAAGAGATCAAGGCCAAGGGCTTTGACCCCGGGAAAAATTCCTACACACGCACCTACGGGTCCCAGGACCTGGACGCGGCTTTGCTCGTGCTGCCTCTTCTGGGCCTGGACGAACCGGGATCAGCCCGGGTGAGAGGCACGGTGGACGCTATTGGACGTGAACTGTCCGCCGGATATCCACTCCTTTACCGATACCCGCCGGGCCAGGACGGGCTGCCGGGGACAGAGGGCGCCTTCCTGCCCTGTTCCTTCTGGCTGGTCCAGGCCCTCGCCCATACCGGCCGTCATGCCGAAGCCACGGAACTCTTTGAAGCCCTGCTTGGAAAGGCCAACGAGCTGGGCCTCTACAGCGAAGAAATCGATCCGGCCAGCGGCATGTTGCTGGGGAACTTTCCCCAGGCCCTGACGCATGCGGCGCTTGTCCAGGCAGCCCTGGCGCTCCGCGATACCGGGCCCGGGGAAAGTGCCCCTATGCCATCACCCTAA	MKAASVNPAAEPAGSRPPRRVERRVERQGERVAERQAERRAERRRELPIADYGLLGDTRTAALVSAEGGVDWFCAPTFDGEPVFGALLGGTEAGTFLMGPAVPSRPVSRRYLPGTATLETVWASDQGRLVLTEAMVAEVAGQLLPTTVLVRRLTAEGAPVAASVCFDPKLGERHRRPRVRNGRSLVCEWGPLALSLGCSPALDLEPGKPEPVTVIPGQPVTLVLAVAYGEPLIHVDPAAAWELVEADSARWRMWTEEVDRRIPFREPVLRSLLTLRLLTYSPSGAPVAAPTTSLPEDVGGIRNWDYRYAWPRDASIGVGSFLAAGKSAEALNFLGWLLHASRLERPRLPAILSLSGRHVPRERTLQGWPGYAGSAPVRTGNGAANQHQLDGYGWVLDAAWVLVKGGHPLFSETWRAMRGFTDLVAGRWQDPDAGIWEIRGDEAQHVHSKIMGWLTLDRALRIAETHRLGARQRRRWQEARESLSEEIKAKGFDPGKNSYTRTYGSQDLDAALLVLPLLGLDEPGSARVRGTVDAIGRELSAGYPLLYRYPPGQDGLPGTEGAFLPCSFWLVQALAHTGRHAEATELFEALLGKANELGLYSEEIDPASGMLLGNFPQALTHAALVQAALALRDTGPGESAPMPSP				NA	NA	NA	NA	NA
D1-29_02469	477			hypothetical protein	ATGGATTGGCAAGGTTGGGCCGTTTTCGGTCTGTTGGCCACCAGTGCCCTGACCGTTGTGATGATTGCCGCGCAAATGGCGGGCTGGACCCGTCTTGATCTGCCGCTGGTCCTGGGTACGGTCCTCACTCCGGACCCGGACAGGGCCCGGTTCGCGGGCTTTTTCATTCACCTGGCCGCCGGCCAGGTATTCGCCTTGGGGTACGCGGCAACGTTCGCCCTTCTGGGACAGGCCACGTGGTGGATCGGGGCGCTGCTCGGGCTCCTTCACGTTGCCGTTGCCCTGACGGTGATCCTGCCCCTTTTGCCCGGCGTCCATCCACGGATGGCATCCACCCGTGCGGGACCGGCCAACAGGGCCGCGCTGGAACCCCCGGGCCTGCTGGGCCTGAACTACGGAATCCAGACGCCAGCCGTGGCCGTCGTGGCCCACGTGATCTACGGCGCCGTCCTGGGACTGCTGCTGGGGGCGTCATGA	MDWQGWAVFGLLATSALTVVMIAAQMAGWTRLDLPLVLGTVLTPDPDRARFAGFFIHLAAGQVFALGYAATFALLGQATWWIGALLGLLHVAVALTVILPLLPGVHPRMASTRAGPANRAALEPPGLLGLNYGIQTPAVAVVAHVIYGAVLGLLLGAS				NA	NA	NA	NA	NA
D1-29_02470	270			hypothetical protein	ATGGTTCCTGCGCTCGCCGCCCTTGCGGTTGCCCTGCTGGGGGCGGCAGGCGCTGCGGGGCTGGATCAGATGGCAAACTCGAAAACGCAGAACTCTGCCCTGTTCGCCATCCAGGCATCAGCAGACGGCCAGCCATCCCTCCACCGGCTGGTGATGATCGGCCTTGCCGAAGGGTCACTTCCCGGAGGCTTCCCCAACGACGAGGCGCGGGAAGAAAAGTACGACGAGAACTTCCTGGAGACGCTGCACCTGCCCACGGCGCCTGCCTGA	MVPALAALAVALLGAAGAAGLDQMANSKTQNSALFAIQASADGQPSLHRLVMIGLAEGSLPGGFPNDEAREEKYDENFLETLHLPTAPA				NA	NA	NA	NA	NA
D1-29_02471	1548	ddpA_2	COG0747	putative D,D-dipeptide-binding periplasmic protein DdpA	TTGCGTGTACTCCATTGGTCCAAAGCAGCCCTGGGCCTGGCAGCCCTGCTTGCCCTCAGCGGCTGTGGAATGAGTGGCCAGGGCAGCCAGGCCGCCAGTTCTGTGGATCTGAATCAGCGGATTGTGGTGAACAACTTCCGGGCGCCGGTGGCGAACTGGGCACCGGAGTCCGATGCTGCCTATATCCTGTCGCTTTCAGGCTGCCTGGAGACCCTGACAAAGTACGATCACGAGCAAGGCAAGGTGGTTCCTTTCCTGGCCACCGAATGGAAGCAGGCCTCACCGCTGGAATGGGATTTCACCATCCGCAGCGGAGTGAAGTTCCAGGACGGCACGGACCTCACGGCCGAGGCCGTGGTTGCGTCGCTTCAGCATGTCCTTAACGCCCAGGTGCCGGCGAGGGCTTTCAACAAGACCACGGTCAGCGCAGTCACGGCGACCGACGCCAGCACAGTCCGCATCACCACCGCCACCGAAAGCCCGCTGGTGCCGTACCGGCTGGCCAGCGTCAACACCGGAATCCTCGCCCCGGCAGCCTACAAAGACGCTGTGGTCAACCCCTTTGGCCACTGCACCGGTCCCTTCACCCCCGTGTCGGAAAAACCCAAGCAGTCACTGACCTTGGACCGCAACGAAAACTACTGGGGAGGCAAAGTCCAGCTCGCCGGTGCCGAGGTCCGGTTCGTCACGAACGGGGCAACCCGTGCGGCCCAGGTCCAGACAGGCGAGGCCGACATTTCCCTCTCCATCCCGGTCTCGAGCCTCTCCGCGCTGGAGTCTGCCCCCAACGTCACCGTACTCAAGGCAGACTCTCCGCGGACCGCAACCCTCTACCTGAACAACGGCAGGGAGCCGCTGAACAACGCCGATTTCCGGAAGGCGCTCCGGTCAGCGCTTGACCTCGATGCACTGGCAGCCAGCGTTTACGAGGGCGCGGCGCTTCCGGCGTCGGGGCCCTTCGCTCCGTCAGAACCCTGGGCGTCCGGAAAAGCCGAGTCACCCAAGCAGAACCTTGATGAAGCCAAAAAACTGCTCGCCTCAGCCGGATACACGGCGGGCAGGCCGCTGGAAATCATCGCCATCGTGGAGCGTGCCGAGTTCGCAGACGTCGCTGCCGTGATCCAGGAGAACCTGAAGAACATTGGCGTCCCGCTGACCATCCAGACCAAGGAGTACGCGGCGGCCGAACCGGACGTGCTCGCCGGCAACTACGACATGCTGCTGAGCCAACGGAACCGCCTGATCGACATCGCTGATCCCATCGGCTTCCTCACGGCGGACTACACCTGCAAGGGATCGTACAACCTCAGCCACTTCTGCGACGAGAAGTACGACAATTTCATCCGCGAGGCCGCCCAGACCCAAAGCACGGAGGACCGGTACAGGCTCTATGAGCAGGCCGGAAACATTCTTGAATCCGAGGCCGTCAACATCTGGCTCGTCAACGAACAGGCAACCGACGCCATTGGCAGCAAGGTCCAGTCCTACGTCCAGGATCCGCTCTCACGCTATGTCCTGACCGCCCAGACCGCGAAGACCGGCTCCTAG	MRVLHWSKAALGLAALLALSGCGMSGQGSQAASSVDLNQRIVVNNFRAPVANWAPESDAAYILSLSGCLETLTKYDHEQGKVVPFLATEWKQASPLEWDFTIRSGVKFQDGTDLTAEAVVASLQHVLNAQVPARAFNKTTVSAVTATDASTVRITTATESPLVPYRLASVNTGILAPAAYKDAVVNPFGHCTGPFTPVSEKPKQSLTLDRNENYWGGKVQLAGAEVRFVTNGATRAAQVQTGEADISLSIPVSSLSALESAPNVTVLKADSPRTATLYLNNGREPLNNADFRKALRSALDLDALAASVYEGAALPASGPFAPSEPWASGKAESPKQNLDEAKKLLASAGYTAGRPLEIIAIVERAEFADVAAVIQENLKNIGVPLTIQTKEYAAAEPDVLAGNYDMLLSQRNRLIDIADPIGFLTADYTCKGSYNLSHFCDEKYDNFIREAAQTQSTEDRYRLYEQAGNILESEAVNIWLVNEQATDAIGSKVQSYVQDPLSRYVLTAQTAKTGS	PGPT0004430_13466	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
D1-29_02472	942	gsiC_5	COG0601	Glutathione transport system permease protein GsiC	ATGATTGCCTTTCTGTCCAGAAGAACGGCGACCCTGACGGTCGCCGTTCTTCTGTCGTCCTTCGCAGTGTTCCTGATTCCCTATCTGACTCCTGGCGATGCTGTCCGCAAGATCATCCGCTCCCGGGTAGCCGGAGACGTGGTGGACGAAGCAACAGTTCAGGCCCTCAGCAGGAGCCTTGGCCTTGATGACCCGCTTCCGGTCCAGTACTTTCGGTGGCTGGGCTCATTCATCAGCGGCGATATGGGCCTCTCCCATGTGAGCCGGACCCCGGTGGCCGACCAGGTCATGCCGGCCCTCGCCGTCACTGTCAGCCTGGTTGTCCTGGCCCTTGCTACGGCCACCCTGATTGCCCTCCCATTGGGAATCGCGTCGGCACTCCGGCAAGGCGGCCGGACCGACAGGCTAATCACCACTGTCACGCAATCTTTTATAGCCATGCCGGAATACTGGCTGGCCCCGCTTCTGGTGCTGGTCTTCGCCCTGAAGCTGTCCCTGCTGCCGTCAGCAGGCTGGGCCAACGGCTGGTCGGCGGTCCTGCCCGCAGCCACCCTGGCCCTTCGCCCCATCAGTTACTTCACGGCAGCCGTCCGGTCGGGGATGATCGACGCACTGGAAGCCGATCACGTTCCGGCCGCCCGGGCCCGGGGGCTCAGCCAGTCCCAGGCTGTGCTCAGGCATGTGGTGCCAAACGGGCTTGTCCCCTTGGTGACGCTCGTCGCGGTCTGGTTTGCCGGCCTGTTGGGCGGTTCCGTCATTGTGGAGGTGATCTTTGCCGTTCCGGGGATGGGCCGGCTTCTCTACGACGCCGTGGTCAACGGTGACATACCCCTTGCCCAGGGAGGCGTTGTGGTGGTTGTCGCCCTCGCGGTGGGCATCACCACCCTGGCGGACTTTGTCCATCGTTTCCTGAGCCCGAAAGTAGGAGGCAAGTTTGCGTAG	MIAFLSRRTATLTVAVLLSSFAVFLIPYLTPGDAVRKIIRSRVAGDVVDEATVQALSRSLGLDDPLPVQYFRWLGSFISGDMGLSHVSRTPVADQVMPALAVTVSLVVLALATATLIALPLGIASALRQGGRTDRLITTVTQSFIAMPEYWLAPLLVLVFALKLSLLPSAGWANGWSAVLPAATLALRPISYFTAAVRSGMIDALEADHVPAARARGLSQSQAVLRHVVPNGLVPLVTLVAVWFAGLLGGSVIVEVIFAVPGMGRLLYDAVVNGDIPLAQGGVVVVVALAVGITTLADFVHRFLSPKVGGKFA	PGPT0004445_12354	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
D1-29_02473	831	gsiD_1	COG1173	Glutathione transport system permease protein GsiD	TTGCGTAGCTGGACACCTGTGGACAGGACCGCCGTGGTCATCCTGGGCTTTCTGGTGCTGGCTGTCGCCGCGGCCCCGTGGCTGGCTCCTTACCCGCCCGATGAGCAGAATCTCGTGGCCCGGCTTGCCCAGCCCCAACCGGGACACTGGCTCGGAACGGATCATCTCGGCAGGGATACCCTCAGCCGCCTGCTCGACGGCGGACGCTTTTCAATGCTGATGGCTGCCCTGGCAACACTGCTGACGGCCGTTCTGGGCATAACAGTCGGGGTCATCAGCGCCCGCCGCCGGGGTTGGCTGGACGAGTTCTTTACCCGCACGAATGACGTCCTGCTGGCTCTTCCGGAGATGGTGGTGGCCCTCTTTATCGTTGCTGCGATGGGCACAGGCTTCCAGTCCCTGCTGGTGGCTCTCACCGTAACCGGCTGGACGCCCTTCGCCAGGCTGGCCCGGACACTGGCGTATGACGTGTCCGCCCGGGGGTTCGTGGAGGCCGCGCGCGTTGTGGGATGCACGCCGTCGTTCATCATCTTCCGCCATATCCTCCCGCATCTGGCCGGTCCCATGCTGGGCCTGGCCACGCTGAGGTTCGGCCAGCTGCTTATCAGTGTCGGCGCGTTGTCGTACCTGGGTCTCGGCGTCCAGCCGCCCCAGTCCGACTGGGGTTCCATGCTGGCCGCGGCGCAGCCTTTCGCTGACAGGGCACCGTTGGGGATCATCGCGCCCGGCCTGGCCATCTTCACGGTGGCGCTGTGTGTCACCCTGATCGGGCAGCGCGCCGCGCACATGGCCGCCGCGCCGCTGCTCCTCCCGGTGGGAGCGCGCGGATAA	MRSWTPVDRTAVVILGFLVLAVAAAPWLAPYPPDEQNLVARLAQPQPGHWLGTDHLGRDTLSRLLDGGRFSMLMAALATLLTAVLGITVGVISARRRGWLDEFFTRTNDVLLALPEMVVALFIVAAMGTGFQSLLVALTVTGWTPFARLARTLAYDVSARGFVEAARVVGCTPSFIIFRHILPHLAGPMLGLATLRFGQLLISVGALSYLGLGVQPPQSDWGSMLAAAQPFADRAPLGIIAPGLAIFTVALCVTLIGQRAAHMAAAPLLLPVGARG	PGPT0004450_13268	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
D1-29_02474	1659	yejF	COG4172	putative ABC transporter ATP-binding protein YejF	ATGCCCGAAGAGTTGGTCATCGAAGGCCTGCATGTCAGCAGCAGCGCCGCGCCCACAGGGAAAAAGGCGCCAGCCGCGGGCAAACGGGCGTCGCCCACGGCGGCTGCGTCCCGGCCCATCCTCGCCGGGGTCAGCCTATCCGTGGCCCCCGGGGAGTTCGTAGCGCTGGTGGGAGGATCAGGGTCAGGAAAAACCATGACGGCCATGTCGGCCCTCCGCCTGCTGCCCCCACAGCTGCGAATCGAGTCCGGTTCCATCCGCCTGGGCCCGCTGGACCTCACCGGCGCATCCGAGGCGGAACTCAACACAGTCCGCGGCGGCCGCCTGGGCATGCTGTTCCAGCAGCCGAAGCGGATGTTCAATCCCAACAAAACCATTGGCAGCCACCTCCGGGAGCCGTTGAAGCTGCACAGTGGTCTGCAGGGCAAGCAGGCCCGGGCCAAGGCGCTTGAACTGTTGGAAGAAGTAGGCTTCGAGGACCCCTCCTGGGGTGTCAGGGCCTACCCACACCAGCTGTCCGGCGGGATGGCACAGCGGGCCATGACTGCCGTTGCCCTGGCCGGCCGGCCAGCCATGCTGCTGGCGGACGAGCCGACGTCGGCCCTGGACAAGGTGCTGGAGAGCCAGATCCTGGACCTGCTGGACCGTGAGCGGGACGAACGTGGACTTGGCATTCTCTACATCACGCACAACCTTGCCTCGGTGGCAGCGTTTGCCGACCGTGTTGTAGTGATGGACGCCGGGCAGATAGTGGAGCAGGGCCCTGCCCGGGAAATCTTCGCCCGTCCCCGCGCCGCTTACACCCAACAGCTGCTGGAGGCTTCCAACCTCCTGCCCGCCACGATCCGCCGCTCCGCATCCGCGAGCCGGAGCGTCCTGAACCTGAACGGTGTCGTGAAGCGTTTCGGTAAGGCGGGCCGGGCGGCCCTGGACAGCGTTTCCCTGGACGTGAAGCGGGGCGAAATCCTGGGCGTCCTGGGCCAGTCAGGGTCAGGAAAGAGCACCCTGGCACGGTCCATTGTGGGGCTTGAGGCCATCGACGGCGGGAAGATCAGCAGGAACCTTGCCCAGGACGGCAAGGGCACGGCGCCTGGCACAGCTGTTCAACTGGTGTTCCAGGAACCGCATGACGCCTTCGATCCGCGCATGACACTGCGCACCAGCCTTGAGGCTCCGCTCCTGCGGCGCACTGACCTCACCCCCGCCGGCAGGTCCGGGCACCTTGATGCCGCCATGGAGGAAGTGGGGCTGGATCCCGCCATTCTGGACAGGCGTCCCGGGCAGTGCTCCGGGGGCCAGCTTCAACGCATCACCATCGCACGGGCCCTGCTGCTGGATCCCCAGGTGCTGATCTGCGACGAGGCAACCTCGGCTTTAGACACGCTGACCCAGCGGACAATCCTGAACCTGCTGAAGCGCCTGCACCGGGACAGGGGCCTGTCGTTGATCCTGATCACCCATGACATGGACGTCATCCGGCATATGTGCGACAGGGTGGCAGTCCTGTTCAAGGGCTGCCTGGTGGAAGTCGCCGGGACGTCCGAGTTCTTCGCCGATCCGAAGCACGAACACAGCAAGGACCTGGTTTCGGCCTCCATTCCCTGCCGGGGCCTGCACCTCAAGAAAATCACTCACGCCCAGGCCGCTGCCTCGGCGTAA	MPEELVIEGLHVSSSAAPTGKKAPAAGKRASPTAAASRPILAGVSLSVAPGEFVALVGGSGSGKTMTAMSALRLLPPQLRIESGSIRLGPLDLTGASEAELNTVRGGRLGMLFQQPKRMFNPNKTIGSHLREPLKLHSGLQGKQARAKALELLEEVGFEDPSWGVRAYPHQLSGGMAQRAMTAVALAGRPAMLLADEPTSALDKVLESQILDLLDRERDERGLGILYITHNLASVAAFADRVVVMDAGQIVEQGPAREIFARPRAAYTQQLLEASNLLPATIRRSASASRSVLNLNGVVKRFGKAGRAALDSVSLDVKRGEILGVLGQSGSGKSTLARSIVGLEAIDGGKISRNLAQDGKGTAPGTAVQLVFQEPHDAFDPRMTLRTSLEAPLLRRTDLTPAGRSGHLDAAMEEVGLDPAILDRRPGQCSGGQLQRITIARALLLDPQVLICDEATSALDTLTQRTILNLLKRLHRDRGLSLILITHDMDVIRHMCDRVAVLFKGCLVEVAGTSEFFADPKHEHSKDLVSASIPCRGLHLKKITHAQAAASA	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
D1-29_02475	5292			hypothetical protein	ATGCGACCCGTACGTTTGCTAACCAGGGCGGCTGCCGCTGGGGCCGTCGCCTCTGCCCTGGTCCTGACCCCGCTGGTCCCGGCACTGGCCGAGACCTCCCCTGATCCCCGGCTTGTGCTCCAATACGCGCTGGACCAGACCACCGGGAGCGTCGCCGTGGACACGTCCGGAAACGGGCGCAACGGGGCGGTCGTCAACGGCGGCACCTGGTCAGGCAGCGAAGGCCTGAAGCTGGACGGGGTCAATGACCACGTACGCCTTCCCGACAACATCATGCAGGGCCTGTCTGCCATCACTGTCAGCACTGAGGTGCTGATCTCGCCTGCCCAGTCCACGCCCTACTTCATCTACGGCATGGGCAACACCACGTCCAACGCCGGCAACGGGTACCTGTTCACTACAGGTGACAGCTACCGCACCTCCATTGCCTCCGGCAACTGGTCCACCGAACAGACACTTTCCCAGAACCAGCCCCTGGCCCGCGGTGTCTGGAAGACCATCACGTACACGCTGTCCAACGGGACAGCGACGCTCTTCCTGGACGGTGTGCAGGTGGGGCAGAAAACGGGCGTCACCATTACGCCCGCGAGCATCGGAAACGGCCTGACCACCGCGAACTACCTCGGCCGCTCGGTCTACACAGCGGACAGGTACCTGTCCGGATCGGTGCGCGATTTCCGGATCTACAACGCGGCCCTGACTCCAGGGGAGGTGGCGGCAACCATCGCGCCCAGCGACCAGCTCCGGAAAGACCGGGACGTCGCCGCCCTGAGCCTGGGTGACCTGTCAGCGGTGACAGCCAACCTGTCCCTGCCGGCAGGCGGCGCCAACGGTTCCACGGTGGCCTGGGCCTCCAGCGACCCATCGGTGGTCACCGCTGCCGGTGTTGTCACCCGCCCGAGTGCTGCGGAGGGCGCCGCAACCGTGACGCTGACGGCGACGGTTACCCGCGGTGAGGCGTCCGGAACCAAAGACTTCACCGTAACCGTGCTCCCCGCTGAATCCGACCAGGAGAAGCTGGCTGCCGCCACCGCTGCCCTGGTGCTTCCCGCCGTCGATGACGTCCGCGGAAACATCACCCTGCCGCCCAGCAGCGGCCAGGCAGCGGTCACGTGGCAGTCTTCAAACCCCATCATCGACCCCACCGGCATTGTTAACCGCCCCGCCGCGGACACCGACGTCGTCCTGACCGCAACCCTGACCGTCGGGGCGGCCAGCGGAACAAAAGAGTTCACGGCCCGGGTAAAGGCAAAGCCCGCAGTTGCCCCCTACGCCGGATACGCGTTCGCGTACTTCACGGGCAACAGCGTTGCCGGTGAGAACATCTATATGGCCGCCAGCCGCGGAAATGATGCCCTCCATTGGGACGAGACCAATGGCGGCAAGCCGATCCTGACTTCAACCATGGGAACCAAGGGCCTGCGGGATCCTTTTGTGATCCGCTCCCCCGAAGGCGACAAGTTCTACATGATCGCCACCGATCTTTCCATCGGCGGCGGCACGTCCTGGGATGCCTCGCAGCGCCAGGGCAGCCAATATCTTGAAGTGTGGGAATCCTATGACCTCAAGAACTGGTCGGAGCAGCGGCACGTCAAGGTGTCCCCGGCCACGGCAGGCAACACCTGGGCGCCGGAGGCCTACTATGACCAGGGCATCGGCGCGTACGTTGTGTTCTGGGCATCGAAAATCTACGCCGAGAATGATCCCGGCCACACCGCCGGCGTCGTCAACAAGATGATGTACTCCACAACGCGCGACTTCCGCACCTTCTCCGAAGCCAAGGTCTGGAATGACCCAGGCACGTCCGTCATTGATTCAACGGTCATCAAGGACAAGGACACGTTCTACCGCTTCACGAAGGACGAAGGCGGAGTTTCCGGCTGCGTGGACATCATGCAGGAAAAGTCCAACAACCTGCTCGCCGTAGACCTTCCCGGCAGCAACCCCAGGAACTGGGCACTCCAGAGTTCCTGCATTGGCAAGAACGCAGGAACGGCGGCGGTGGAGGGTCCTACCGTTTTCAAATCCAACATTGAGGAAAAGTTCTACCTCTTCCTCGATGAGTTCGGCGGGCGCGGCTACATCCCACTGGAGAGCACCAGCCTTCAAACACCCAACTGGAAGCTCTCCACCAACTACGATCTTCCCGCCAGCCCGCGCCACGGAACCGTTCTTCCGGTCACCCAAACCGAACTGGACGCGCTTCGGCAAACGCCCAAGCCCGTCCCGGCGAACGCAAACGGTGAGATTCTCCGCTATACCTTCGATCAGGGAACCGGAACGGACGTGGCCGATTCCTCCGGCAACGGCCTCAACGGAAAGATCGTGGGCGGCGGCAGCTGGCAGCCGGACGGTGCACTCAAGCTCGACGGCGCCACCGGTTACGTCGATGTCCCGGACAACATCCTCTCCGGCGTCCAGGACGTGACGGTGGAAGCGGACGTCCTGGTCAGCGGCGCCCAGAGTGGGGCCTACTTCATCTATGGATTCGGCCACACCGACGCCGCCGGTGTGGGCAACGGGTACATGTTCGCCACGGGAAATTCCGTGTACAAGACGGGAATCGCCTCGGGAAACTGGACTACGGAACAACTCGCCATCAGCACAGCAGCCCTCCCCCGGGATTCCTGGAAGCATCTGGTGTACACGCTCAAGGGCACCGTCGCCACCGTGTACCTTGACGGGAAAAAGGTGGGCGAGAACCTCAACGCCACCCTGAACCCCGGGGACATCGGATTCGGCAGCACGACGTCGAACTACCTGGGCAAGTCCGTCTACAACGCGGACAGGACCCTCAACGGCTCCTTCCGCGAATTCGCCATCTACAACCGGGCACTGTCAGCGGAGGAAGTAATGAAAATTTCAGGCGACCAGGCCGGCCTCGGAGAAGTTTCCCTCGCCGACCCCAGCCTCCTGAAAGTGGCGCCCATCGTGGACGGCACCAGCAGGAAAGTCACTTACCCTGTCAAGCCGGGAACGGATGTGGGCAAGCTGGCTCCCACCTTCAGCCTCTTCCCCGGGGCCGTCTCCAGCCCGGCTTCCGGAGCCGCCGTGGACCTGAGCAGTCCGGTCACCTACAAGGTGACAGGGCCAGATGGTTCGACGGCGGAATGGACCTTTGCCGCGCTCGAAATGAAGAGCCCTGTCCTGCCCGGCTACACCGCCGACCCAAACATTGTGGTGTACGGCGACACGTATTACATCTACCCCACCACCGATGGAATTGCCTCGTGGGGCAGCACAAAATTCTCCGTCTACTCCTCCAAGAACCTTGTGGACTGGACAGATGAAGGCGTGGTGCTGGACCTGGCGAACGTCAGCTGGACGCATTCCAACGCGTGGGCACCCACAGCAACGTCGAAGAATGGAAAGTACTACCTCTACTTCTCTGCGGGTCAAAGCATCGGTGTGGCCGTGGCTGACTCACCCAAGGGGCCGTTTGTGGACTCCGGCGCTCCCCTGGTGGACAAGGCCGCGTACGGTGGCGCCCAACAAATTGATCCGGCTGTTTTTACTGATAACGACGGCGTGTCCTACCTGTTCTGGGGCAACGGCACGGCGCGCTACGTGCCCCTGAACGCGGACATGGTGTCCTACACTGCTGCGAATGTGAAGACCATTTCCGGCCTGAGCCAGTTCAGGGAGGGCCCGTTTGTCCATCAGCGCAACGGCACCTATTACATGACCTACTCGATCGATGACACCCGGAGCGAGAACTATCGCGTCGGTTATGCCACGGCCAGCAGCATCGCCGGCCCGTGGACCTACAAGGGCGTCATTCTCGAGAAGAAGCCCGAACTGGGAATCCTTGGCACCGGCCATAACTCCGTTGTCCAGGTGCCGGGAACGGACGACTGGTACATCGTCTACCACCGTTTTGCCATTCCGGGCGGAGACGGGATGCACAGGGAGACCACCATCGACCGTCTGACCTACGCTCAGGATGGATCCATCAATCGGGTGGTCCCCACCCTTGAAAGCGTCGGGCCCCGGTTCGCGGACACGTCCGCCCCGGTGGTAGCCCTGGCCACTTCCCCTGCAGCACCCAACGGTGCTGACGGCTGGTACCTGGGTCCGGTGACCGTGAGCGCCACTGCCACCGACAATTCGGGCGCAGCCCCCATGGTGGAGGTAGCGGTCGACGGCGGCGCCTGGGTTCCGTACTCGTCCTCCTTCGAGGTGGCATCGGACGGTGCCCACACCATCAGGGCGCGGGCAACCGACGCGACGGGAAACATCTCGGCGGAAGCATCCGATGCCGTGAAGATTGACAGGACGGCACCCCAGGCAGGCGCAGGCCTGGATGAGGACCGGACGCTGACCCTCACCGCCACCGATCCGTACTCCGGTGTTGCTTCGCTGGACTACCGGGTGGGGACGGCCGAATGGGCGACTTACACCTCCCCCGTTCCCGCGGGGCGTACGGCGGCCACGGTGGAGTTCCGGGCCGTCGACAAGGCAGGCAACGCCACCACCGGCACGGTGGATGTGCCCGCTCCGGCCGGCCAATCCATCTCCTTTGGTGACATCACGCCCAAAACCCTTGGCGACTCTGACTTCACCATCAGTGCAGCGGCAACCTCCAACCTGCCCGTCAGCTTCGGTGCCGCGGGCGCGTGTACCCTGCTGGACACCTCGGTTCACCTGACGGGGGCGGGCACGTGCAGCATCACCGCCCGGCAAGAAGGCAGCGCGCGCTTCCTGGCGGCACCTGAGGTGGTTCGTTCATTCGAGGTCAAGGCGCCCGTCCTGGACAGCTTCGACCGGGCCAACGGCGGCGTCGGCAGTGCGTGGAGCGGCGACAACGGACGCCAGGCCTACGTCATCAAGGACAAAGCCCTCAACCCGCTCCTGGGCGGCGTCCTGCTCCATTCCGCGACCTTCGGATCAGACCAGACGGCTTCGCTGACGTTGAAGGCCATCGCGGCCAAGTCGGTCCAGGGCGTGGTTCTCAAGGGGCAGTCCGGCAAGTCCTTCCTGACGGCGGGTGTATCAGCGCTCTACGACGCATCCGCCAGGACCGTCCGGGTCTCCACGCTTGGCGTTGATAAGAACGCGTGGCACTCCTACGGCGACACTGCCGCCTCATTCGAGGCCGGCGACGTCCTGACGGCGAAATACGTGGATGGAACCGTGACGGTCTACCGCAATGCCGACGTCGTGGCTTCCGTTCCGCTGCGGGCAGCGGATGTCCAGTTGTTTGCCGGGAAGTCTGGAAAGACCGGGATCTCGTCGACGCTGGCAACGGGCAGCAGCCTGGACGATTTCCGGGCTGCGGCAATCACCAGGTAG	MRPVRLLTRAAAAGAVASALVLTPLVPALAETSPDPRLVLQYALDQTTGSVAVDTSGNGRNGAVVNGGTWSGSEGLKLDGVNDHVRLPDNIMQGLSAITVSTEVLISPAQSTPYFIYGMGNTTSNAGNGYLFTTGDSYRTSIASGNWSTEQTLSQNQPLARGVWKTITYTLSNGTATLFLDGVQVGQKTGVTITPASIGNGLTTANYLGRSVYTADRYLSGSVRDFRIYNAALTPGEVAATIAPSDQLRKDRDVAALSLGDLSAVTANLSLPAGGANGSTVAWASSDPSVVTAAGVVTRPSAAEGAATVTLTATVTRGEASGTKDFTVTVLPAESDQEKLAAATAALVLPAVDDVRGNITLPPSSGQAAVTWQSSNPIIDPTGIVNRPAADTDVVLTATLTVGAASGTKEFTARVKAKPAVAPYAGYAFAYFTGNSVAGENIYMAASRGNDALHWDETNGGKPILTSTMGTKGLRDPFVIRSPEGDKFYMIATDLSIGGGTSWDASQRQGSQYLEVWESYDLKNWSEQRHVKVSPATAGNTWAPEAYYDQGIGAYVVFWASKIYAENDPGHTAGVVNKMMYSTTRDFRTFSEAKVWNDPGTSVIDSTVIKDKDTFYRFTKDEGGVSGCVDIMQEKSNNLLAVDLPGSNPRNWALQSSCIGKNAGTAAVEGPTVFKSNIEEKFYLFLDEFGGRGYIPLESTSLQTPNWKLSTNYDLPASPRHGTVLPVTQTELDALRQTPKPVPANANGEILRYTFDQGTGTDVADSSGNGLNGKIVGGGSWQPDGALKLDGATGYVDVPDNILSGVQDVTVEADVLVSGAQSGAYFIYGFGHTDAAGVGNGYMFATGNSVYKTGIASGNWTTEQLAISTAALPRDSWKHLVYTLKGTVATVYLDGKKVGENLNATLNPGDIGFGSTTSNYLGKSVYNADRTLNGSFREFAIYNRALSAEEVMKISGDQAGLGEVSLADPSLLKVAPIVDGTSRKVTYPVKPGTDVGKLAPTFSLFPGAVSSPASGAAVDLSSPVTYKVTGPDGSTAEWTFAALEMKSPVLPGYTADPNIVVYGDTYYIYPTTDGIASWGSTKFSVYSSKNLVDWTDEGVVLDLANVSWTHSNAWAPTATSKNGKYYLYFSAGQSIGVAVADSPKGPFVDSGAPLVDKAAYGGAQQIDPAVFTDNDGVSYLFWGNGTARYVPLNADMVSYTAANVKTISGLSQFREGPFVHQRNGTYYMTYSIDDTRSENYRVGYATASSIAGPWTYKGVILEKKPELGILGTGHNSVVQVPGTDDWYIVYHRFAIPGGDGMHRETTIDRLTYAQDGSINRVVPTLESVGPRFADTSAPVVALATSPAAPNGADGWYLGPVTVSATATDNSGAAPMVEVAVDGGAWVPYSSSFEVASDGAHTIRARATDATGNISAEASDAVKIDRTAPQAGAGLDEDRTLTLTATDPYSGVASLDYRVGTAEWATYTSPVPAGRTAATVEFRAVDKAGNATTGTVDVPAPAGQSISFGDITPKTLGDSDFTISAAATSNLPVSFGAAGACTLLDTSVHLTGAGTCSITARQEGSARFLAAPEVVRSFEVKAPVLDSFDRANGGVGSAWSGDNGRQAYVIKDKALNPLLGGVLLHSATFGSDQTASLTLKAIAAKSVQGVVLKGQSGKSFLTAGVSALYDASARTVRVSTLGVDKNAWHSYGDTAASFEAGDVLTAKYVDGTVTVYRNADVVASVPLRAADVQLFAGKSGKTGISSTLATGSSLDDFRAAAITR				NA	NA	NA	NA	NA
D1-29_02476	474			hypothetical protein	ATGAACGCTGCGGCGAGAAAACCAGACCGGATCCTCCTCGCCATCCTGGCCGCCATCGCGCTGCTGGTGGTCACCGCACTGGCCGTCGTTTTCTTCCGCGGCGCCCCGCAGGAGCTGGACGAATCGACGCCCGCAGGCGTAGTCCAGCGGTACAGCACAGCCGTCATCACCGGCGACACCGCCACAGCCGATACGTTCCTGACGGAAGAAGCCCGAGGCCGGTGCAACGGATACTTCGGGCCGCCCGAAGCCACCCGGGTGGTCCTGGTCTCCACCAGCGAGCGCGGCGACTCCGCCACCGTAAGAGTCTCCATCGTCCACTCCTCCCCCGGGGGACCCTTTGGGCCTTCCGAATTCGAGATGGAAGAGGCCTTCTCCCTCGTGAAGGACGGTGGCAGGTGGAAGGTGAACCAGGCGCCCTACCAGCTGATGTCCTGCGGGGCGCCTGCCAGGCCAGCAAGTCCAATGCCATGA	MNAAARKPDRILLAILAAIALLVVTALAVVFFRGAPQELDESTPAGVVQRYSTAVITGDTATADTFLTEEARGRCNGYFGPPEATRVVLVSTSERGDSATVRVSIVHSSPGGPFGPSEFEMEEAFSLVKDGGRWKVNQAPYQLMSCGAPARPASPMP				NA	NA	NA	NA	NA
D1-29_02477	1797			hypothetical protein	ATGAACAAGCCGGCAGCACCTGACGTCACACCCTCCGCTGTCCCGGTGGCAGGCACAGCCCAACAGGTGCTGCGGCGGCTGATCCTGTACATGCTGCTGTTTATCCTGGTGCTCGTGGCGGCCACAGGCCTCGCCGGCCTGTTGGAGCGCCTTTTCAGTTCAGGCTCAGAAATGGCGTCCACCGATGTCACCGGGCTTGCCCGCGCCCTGGCGTTCACCCTGATCGGTGGGCCGATGGCGCTTCTGCTCTGGTGGTTTGTCTGGAAAAGGCTCGACGACGGGGATGAACGCGGCACTGTGGGCTGGGGCCTCTACATTGCTGCCATGTACACGATCGCCCTCATCAGCTTCACCACGACGCTGCTGGGATGGGCCGCGTCCATAGTCGACGGCTCGGAGCCGAGGTGGTATGCGGCGCTGGCCACCGGGCTTGTCTGGGGCGCTGTTTGGGGATGGCACCGGTGGATGTGGCGGCATCCTGCCAGGGGACCGCGAAGCCTTGCGGACGTCCCGTCCGTTGTGGGTGCAGTTTTTGGGCTGGTAGTCGGCGCGGCCGGAGCGATTACCGCGCTGGGCAGGTTGCTGGACGATGCCCTCCGCGGCTTCACCTCACTCACAACTGCGGCGGAGCCGTGGTGGCAGCCTGTGCTCCAGGGCGCGGTGTGGGCCGCGGGCGGAAGTGCCGTGTGGTGGTGGCACTGGAAACGGGATCCCGGCAGCCGCCTCAAGTCCGGCCTGGCCGACGTCGCGGTTGTCGCCGTGGGTGTCTTCGCCGCCGCCATCACGGCGCTGGGCGGGGCCGGCGTCGCGCTGTTCGCCCTCCTGAGGCTGGCGTTCGACAGGACGGACCCTGACACGGAAATGCTCGCACCCCTCGGTCCGGCGCTGGCTGCCGCCGCCATCGGCGCCCTGGTCTGGCGGTACCACCGCACTCTCGCCGCTGACCGCGCCGCCGGAACCGTCCGTGCCAGCAGGCTGGTCACATCAGGCGTCGCCCTGGCGGCCGCTGCTTCGGGCATTGGGGTGGTGGTCAACGCCGCCCTGGCGCTGGCGGTCTCCCCGCTGGCAGGAGACGGCTCCCGATCTTTGCTGCTGGGGGGCCTCAGCTCCCTGATGGTGGGCGGCCCGGTCTGGTGGCTCGCGTGGAAGCCGGCACAACAACCAGAACCGGGCGCCGCCCATCCTCCCGGCAGGCGCGTGTACCTTGTGGCGTTCTTTGGAATCAGCGCAGTGGTGGCGCTCGTTGCCCTTTTGGTCATTGGATACCGGCTCTTCGAATTTTTCCTCGGCGACGTGTCTGGGGGCAGCGTCGTAGACCGGGTCCGGGGACCACTGGGCCTGCTGGTGGCCGCCGGCCTCGTGGCGGGCTATCACTATTCCCTCTGGAGGCATGAACACGCGCTGCCGGAGGCAGGGGCAGAGGCAGAGCCAGAGGTAGCGGCGGACGCGGCTGACCTGACGGAGAAGAAGCCAACCATCGGCCACGTCACGCTCGTCACCGGGACTCATCCCGAAGCCATATCCAGTGCCATTGCAGCAGCCACCGGCGCGCAGGTCACCGTCTGGAGACGGGCCGACGGCGTCAGTCACCAGCCAGCCAGTCCCCAGCCGCCCGCACCTTCAGGCCAGGGGGAGTCCACTGAGCAGGAAGCCCTCGCTGCGCGCGTGACCCAAGCACTCGAAGGCACCGTCGCCCGCAGTGTCCTTCTGGTCATTGGTCATGACACCGGAGCGGATGCACAGATACAGGTCATTCCCCTGGCCACTGATGGCCAGAAGGCGGGGCACCAGACTTGA	MNKPAAPDVTPSAVPVAGTAQQVLRRLILYMLLFILVLVAATGLAGLLERLFSSGSEMASTDVTGLARALAFTLIGGPMALLLWWFVWKRLDDGDERGTVGWGLYIAAMYTIALISFTTTLLGWAASIVDGSEPRWYAALATGLVWGAVWGWHRWMWRHPARGPRSLADVPSVVGAVFGLVVGAAGAITALGRLLDDALRGFTSLTTAAEPWWQPVLQGAVWAAGGSAVWWWHWKRDPGSRLKSGLADVAVVAVGVFAAAITALGGAGVALFALLRLAFDRTDPDTEMLAPLGPALAAAAIGALVWRYHRTLAADRAAGTVRASRLVTSGVALAAAASGIGVVVNAALALAVSPLAGDGSRSLLLGGLSSLMVGGPVWWLAWKPAQQPEPGAAHPPGRRVYLVAFFGISAVVALVALLVIGYRLFEFFLGDVSGGSVVDRVRGPLGLLVAAGLVAGYHYSLWRHEHALPEAGAEAEPEVAADAADLTEKKPTIGHVTLVTGTHPEAISSAIAAATGAQVTVWRRADGVSHQPASPQPPAPSGQGESTEQEALAARVTQALEGTVARSVLLVIGHDTGADAQIQVIPLATDGQKAGHQT				NA	NA	NA	NA	NA
D1-29_02478	969	aes_2		Acetyl esterase	ATGATTCCAACCCCCAAAGCCCCACCCTTCGATGTTGAGCTCGGTTCAACCCTCGCTGCGTTGGGAGATCTGCTCAATCCGACCCTGACGCCGGACATGATTTCCGGTATGCGCGGCGGTCCCTTGACCGCTTCCATCGAAGATCAACTGGCCGGCCATGCGGTGCGTCACGAGGAGCGGATTATCCCCGGCCCTGAAGGTGCTCCGGACATCGTCGTGTCGATCTTCACCAAAATCGGCCACGTGCCCGGTGGCCCCGGGATCTATCACACCCACGGCGGCGGGATGATCATCGGCGACCGCTTCCTCGGCGCTGACATGCTCATCGAGTGGGTCGAGCTGATGGACGCCGTCGCCGTGTCGGTTGAGTACCGCCTGGCGCCGGAAAACCCGGACCCGGCCCCCGTAGAGGATTGCTATGCGGGCCTCGTGTGGACAGCTGCGCATGCGGAAGAGCTTGGATTTGACCCGGAGCGGCTCATCATCGCCGGCGCGAGTGCCGGCGGCGGCCTGGCCGCAGGCGTGTCCCTGATGGCAAGGGACAGGGGTGGTCCGGCGCTCGCGGGCCAGGTCCTGATCTGCCCCATGCTGGATGACCGCAACGAAACAGTCTCCAGCTACCAGATTGACGGCTTCGGACTGTGGGATCGCACCAGCAACGACACCGGCTGGGATGCCTTGCTGGGTGACCGGCGCAAGACGCCCGAGGTGTCCATCTACGCCGCACCGGCACGTGCAACTGACCTTTCACGGCTGCCTCCCGCATTCATTGATGTGGCCACCGCAGAAGTTTTCCGCGATGAAGTGGTGGCCTACGCTTCCGGTATCTGGGCAGTAGGTGGCGTGGCGGAACTGCATGTGTGGGCCGGCGGATTCCACGGCTTCGACATGATCGTGCCCCAGGCCGCATTATCGATCCAGGCCCGCGATGTGCGGACGAAGTGGGTCCGCCGCATCCTGGGGGCCTGA	MIPTPKAPPFDVELGSTLAALGDLLNPTLTPDMISGMRGGPLTASIEDQLAGHAVRHEERIIPGPEGAPDIVVSIFTKIGHVPGGPGIYHTHGGGMIIGDRFLGADMLIEWVELMDAVAVSVEYRLAPENPDPAPVEDCYAGLVWTAAHAEELGFDPERLIIAGASAGGGLAAGVSLMARDRGGPALAGQVLICPMLDDRNETVSSYQIDGFGLWDRTSNDTGWDALLGDRRKTPEVSIYAAPARATDLSRLPPAFIDVATAEVFRDEVVAYASGIWAVGGVAELHVWAGGFHGFDMIVPQAALSIQARDVRTKWVRRILGA				NA	NA	NA	NA	NA
D1-29_02479	1077			hypothetical protein	ATGCAGGGATTGGTATGGCGCCTCAAAGCGTTGGATCCTGAGGCGTCCGAAAGCCTCAAGGTCATCGCGTACTTCGACGCGCTCGTTGACGGCCATGCGAGCGCCCAGGTCCTGCTGAGCGGTGCTGCGGTCCTGAGCGGCTGTCCGGCAGGATATGCCAGTGACGGCAGCACCGTCCGGGTTGACGCCTCCGGAACGAAAACCGACGCCGGGGCTCCGGCTCCCGGAGCACCCGACGGCGGCTGGCCTTGGCACGCTTTCGGCGACGGCGGCCGGGTGTGGATCGAGCGTCCAGGCCCGGCTTTTGCCAACGACGAAATGATCCTTGAGCGGGTGGCGATCGCCCTGGGGATCTCCCTGGACCGCACCAGCCCGGTGGCCGCTTCCCGCCGGGCGGTCGAAACGCTCCTGGATGCCGCCGCGTCCCTCGACAGGCGGATGGATGCCGCCGCCATGCTCCACCTTGACCGTCACACGTCCTATCGCGTGGTTGCTGTTCCGGCGTCCACGGAGCTCGCAGGGCCAAGGACCGTCGTCTATACCGCCGTGGGTCCTGTGCGGGCAGCGGTACTCCGGTTCTCCGCAACAGAGTTGGCCGAAGGCCGGAATTCTGCCCCGAATACGGCCCGGAACACGCCGGACGCGTCCCCGGCGGGGATCGGCCTGGCTATGACCCCGGAGTCGCTCCACCGCTCGTGGGCAACTGCACTCCTGGCCCTCCGGCTGACGAGCCCGCGCCACCCGCGGCAGCTTGCAGACGATTTGGGGAGCCTGCTCGTCTTTGCGGAGGCGGCGGATGCCTCTTCGTATGAAACGCCTGACCTCACGGCGCTCAAACGCCTCGTGAAGCAACAGCCCAAGGCCCTCGGGTTACTGGAATCCGTTGCCTGCGCGAACAGCCTGCGCGCCGTCGCCGACGAGGCAGGCCTCCACCACTCCAGCGTCCAGGCCCGGGCCGCCGACTTTTCGGCGGAACTCAATTTTGACGTCCGCACAGCGCTGGGCCGGGTACGCCTGTCGCTGGCCCTCGCGCTGTACAGGCTCAACACGGCCACGTTCGGCGGGGACGGGCCGTAA	MQGLVWRLKALDPEASESLKVIAYFDALVDGHASAQVLLSGAAVLSGCPAGYASDGSTVRVDASGTKTDAGAPAPGAPDGGWPWHAFGDGGRVWIERPGPAFANDEMILERVAIALGISLDRTSPVAASRRAVETLLDAAASLDRRMDAAAMLHLDRHTSYRVVAVPASTELAGPRTVVYTAVGPVRAAVLRFSATELAEGRNSAPNTARNTPDASPAGIGLAMTPESLHRSWATALLALRLTSPRHPRQLADDLGSLLVFAEAADASSYETPDLTALKRLVKQQPKALGLLESVACANSLRAVADEAGLHHSSVQARAADFSAELNFDVRTALGRVRLSLALALYRLNTATFGGDGP				NA	NA	NA	NA	NA
D1-29_02480	261			hypothetical protein	ATGATTAACCTGCAGCAGGATTCCGAAGGCTTTATCCGCATGAACAGGCACTTTCCGGGCAGCGCCGCCATCACCGTCGCCTTCACTGACGGGACACAGGAAGTATTGACCGGGCGCCGTCTCAACCAGGCGTACGACGACGCCCTGGCTGCCTACCGCGCCGGGAATCAGCTGGACGCCAAAGGCTTTTCGCGGGGTCCCACAAAGAAGGTAAACCCGGGGATTGAGTTCGTGCCGGTCCAGCCCGGGATGGCGGAGTAG	MINLQQDSEGFIRMNRHFPGSAAITVAFTDGTQEVLTGRRLNQAYDDALAAYRAGNQLDAKGFSRGPTKKVNPGIEFVPVQPGMAE				NA	NA	NA	NA	NA
D1-29_02481	2823	hrpB	COG1643	ATP-dependent RNA helicase HrpB	GTGACCTCCTCAAGTACCCCTCCCCGGCGGAACGCCCCGGCTGGTCCGGGCAGCGGATTCTTCCAGCTTTCCCGCATCGGTGAGGGCCTGGCCTTTGCGGAATCGCTGGCGGAGCTTGTGGCGGTGCTGCGGCGGGGCGGGGCAGCGGGAACGGCAGTGGTCCAGGCACCTCCCGGCACGGGGAAAACCACGCTGGTACCGCCGCTGCTCGCTAACCTTGCCGCAGAAACATCTCCTGCTCCTGTGCGGGTGGTGGTCACGCAGCCGCGGCGGGTGGCGGCCCGCGCGGCGGCCAGGCGCCTTGCCTCCCTCGACGGCAGCAGGCTGGGGGACAGGGTGGGATACACCGTCCGGGGCGAACGGCAGGTGAGCCAGGGGACCCTGGTGGAGTTCGTGACACCCGGGATCCTGCTGCGCCGCCTGCTCGGGGATCCGGGCTTGGAAACCACCTCAGCGGTGATCCTCGACGAAGTCCACGAACGCGGCCTGGAAACAGACCTGCTGCTGGGCATGCTCGCCGAGGTCCGCCAGTTACGCGGGGATCTCATGCTGGTGGCGATGTCCGCCACGCTGGATGCGCCCCGGTTCGCGGCGCTGCTGGGCGATGATCAGGACAACGGCGAGGACGACAGCGGGCGGGACAACGGCGAGGACGACGGCGGGCGCCCTGCCCCCGTCGTCGACTGTCCGTCCGCGCTGTACCCCCTGGAAATCGCCTGGTCACCGCCCGCGGCGCCACGGCTGGACAGCCGGGGCGTCACCCGCTCTTTCCTGGACCACGTTGCGGACACTGCCGCGACCTCGTACCTGCGGGCAGCTGTGGCCGACGGCGGCCTCGACGCCCTCGTTTTCGTCCCCGGCGCCTGGGAGGTGTCCTATGTTGCTGCCCGGGTGCGTGACCGGGTTGGCGCCGGCATTGAGGTCCTGGAGCTTCACGGGCAGGCAAGCCCTGCGGACCAGGACCGTGCTGTGTCCGGGCGGGGTCCCGGCGGCCGCCCACGCATCATCGTCTCCACGGATCTCGCGGAATCTTCCCTCACTGTTCCCGGCGTCCGCCTGGTCATCGACTCCGGGCTGACCCGGGAACCGCGGCGCGACGCCGGCCGCGGAATGTCCGGCCTCGTGACGGTTTCCTGCTCGCGGGCATCGGCCGAGCAGCGGGCAGGCCGTGCGGCACGGCAGGGGCCTGGCAAAGTGGTGCGCTGCTATGACCAAAGAACCTACGGTGCTGCCCCTGCCCACGTCACTCCCGAGATCGCCGTGGCGGACCTGACCGGGGCCGCCCTGGTTCTGGCCTGCTGGGGTTCACCCGGCGGGGAGGGCCTGGAGCTTCCTGACAGGCCACCCCGGCAGGCCATGGAGGACGCGGTTGAGGTGTTGCGGGAACTTGGTGCGGTGTGGGCGGACGGCACAGCCACCGACCACGGAAAGATCCTGGCCAGGATCCCTGCGGATCCGAGGCTCGCGCGGGCGCTGCTGGATGGCGCTGCCGTGACAGGACACCGGGCTGCGGCGGAGGCTGTTGCCATGGTCTCAGGTGACCAGCGCGCTCCCGGCGCAGACCTCACCCGGCTTCTGGCCATCCTGCGCGGGGGCAAGGACCCGGCGGCCCGGCGGTGGGCCGAGGAGGTCCGGCGGCTGGAAGCCATCGCACGCCAGGAGCGGGCCGGCGTCGTGCCTTCCATGTCCCCGGGAACGGTCGCTGCAGCGGAAGCTGTTGGCGCCGTCGTCGCCCTGGCGTTTCCGGACCGCGTGGCACGGCGTGTCCCGGGCGGAGGGCAGGAGCGTTACCTGCTGTCATCCGGCACGCGCGCCGGGCTGCCCGCGGGGAGCACTCTCTCCGGGCACGAATGGTTGGCGGTCGCTGAAGTTTCGCGGGCCCAAGGCCGCGACGCCGCCGGGACGGGTGCCGTTATCCGCTCCGCCGCGCCCATCACGGCGGACATAGCCCAGGCGGCGGCTTCCGGCCTGCTCGCTGAATCCGTGGCGGCAACATTCAGCAACGGCCGGATAACCGCCCGGCGCGAACGCAGGCTGGGCGCGATCGGCCTCGCCTCAACGCCGGTGCGCCCTTCCGCGGAAGAAGGACGAATGGCCGTGGCCACTGCGCTGGCAGAAGGAGGCCTGGGAATGATCGGCTGGTCGACGGCGGCGGACGCCCTGCGCCGTCGGCTCGCCCTCCTGCACCGGGAACTCGGAGATCCCTGGCCGGACGTTTCCGAGCCGGCCCTGCTGGCGAAGCTGACCACCTGGCTGGGTCCGGAGCTGGAGGCCCTGGCCGGTGGCGCGTCCGCCGGGGGAATAGACCTCACCGACCCACTCCGGCGGCTGCTGCCGTGGCCCGAGGCCTCACGGCTTGGGGAACTCGCGCCGGAGTGGCTGGAGGTGCCCAGCGGCTCCAGGGTGAAAATCGACTACCCGGACCTGTCGGAGTACGCGGTGACGGAGAATGCAGCGTCGGAGAATGCGGCGTCCGAGTACGCAGAGTCGGAGAATGCAGAGACAGGAAAGGCAACACCGGAACATCCGGTGCGGAACGGTGCGGCGCGGGAACAGGCCGGCAGCCCTGTTGTCGCCGTAAAGCTGCAGGAGTGCTTCGGTTGGGCGGAGACTCCACGGCTGGTGGAGGGGCGAGTGCCTGTGTTGTTCCACCTGCTCTCGCCCGCCAGACGTCCCCTTGCCGTGACCGGCGACCTTGCCTCCTTCTGGTCCGGGCCCTATGCCCAGGTCAGGGCTGAGATGCGGGGCCGCTACCCCAGGCATCCATGGCCTGAGGACCCGTGGTCAGCGCCGGCCACCGCACGGACCAAACGGAAAATGTGA	MTSSSTPPRRNAPAGPGSGFFQLSRIGEGLAFAESLAELVAVLRRGGAAGTAVVQAPPGTGKTTLVPPLLANLAAETSPAPVRVVVTQPRRVAARAAARRLASLDGSRLGDRVGYTVRGERQVSQGTLVEFVTPGILLRRLLGDPGLETTSAVILDEVHERGLETDLLLGMLAEVRQLRGDLMLVAMSATLDAPRFAALLGDDQDNGEDDSGRDNGEDDGGRPAPVVDCPSALYPLEIAWSPPAAPRLDSRGVTRSFLDHVADTAATSYLRAAVADGGLDALVFVPGAWEVSYVAARVRDRVGAGIEVLELHGQASPADQDRAVSGRGPGGRPRIIVSTDLAESSLTVPGVRLVIDSGLTREPRRDAGRGMSGLVTVSCSRASAEQRAGRAARQGPGKVVRCYDQRTYGAAPAHVTPEIAVADLTGAALVLACWGSPGGEGLELPDRPPRQAMEDAVEVLRELGAVWADGTATDHGKILARIPADPRLARALLDGAAVTGHRAAAEAVAMVSGDQRAPGADLTRLLAILRGGKDPAARRWAEEVRRLEAIARQERAGVVPSMSPGTVAAAEAVGAVVALAFPDRVARRVPGGGQERYLLSSGTRAGLPAGSTLSGHEWLAVAEVSRAQGRDAAGTGAVIRSAAPITADIAQAAASGLLAESVAATFSNGRITARRERRLGAIGLASTPVRPSAEEGRMAVATALAEGGLGMIGWSTAADALRRRLALLHRELGDPWPDVSEPALLAKLTTWLGPELEALAGGASAGGIDLTDPLRRLLPWPEASRLGELAPEWLEVPSGSRVKIDYPDLSEYAVTENAASENAASEYAESENAETGKATPEHPVRNGAAREQAGSPVVAVKLQECFGWAETPRLVEGRVPVLFHLLSPARRPLAVTGDLASFWSGPYAQVRAEMRGRYPRHPWPEDPWSAPATARTKRKM				NA	NA	NA	NA	NA
D1-29_02482	150			hypothetical protein	ATGTTGCTTTTTACCAGCCTTAACTTCTTGCTCGATGCCCGCCGGAATGACGACAACCCTGCGCATGGGGCCGGAAGCGGCAAGACCGGGTTCCCTCATGGCCAGCTGACGTCCACTGCCTGGGAAGGGTGGTGGCACGACGAAGCCTAG	MLLFTSLNFLLDARRNDDNPAHGAGSGKTGFPHGQLTSTAWEGWWHDEA				NA	NA	NA	NA	NA
D1-29_02483	1266			hypothetical protein	ATGACAAACCCATATCTGAAAGTCATCGCCGGGATCGACACACACGCCGACACCCATTACGTCGCAATCATCGACGAGACCGGCAGACACCTCATGGACAAAGAATTTCCCGCCGTTGGGTCCGGCTACCGGAATATTGTCGAGTTCATTACCGGGTTCGGCCCGGTGGTTGCCGCCGGAGTGGAAGGCACCGGCAGTTACGGCGCCGAACTCGCCCGTGTCCTGACCAGGGAGGGCTTCCGGGTTCTGGAAGTCATGCGCCCGAACCGGCAGGGACGCCGGCTGCGGGGCAAATCGGACGCTCTGGACGCCTACCAGGCGGCAGAAGCCGCGCTGGCCGGCCGGAACGTCGCAACACCCAAATCCCGGGACGGCGCGGTGGAATCCCTGCGGGTCCTGCGCGCCGAACGGGCGACGGCCATGCGCGCCAGGGTAGCGGTCATGGCGCAGATCAAAAGCATCCTTACGGCTGCACCCGAGGCGTTACGGGCCAAATACCGGCGGCTGACCCGCGCCCCGATGATGGCCGCCCTGGAGAAAACCCGGCCGGCCGGAAACATGTCTGACCCGTTGATCGCCACCGCGGCCGTGCTTAAACGCCTCGCGATCCGTTACCGCGCCCTGGATCAGGAACTGGCGGTCATTGATGCCGAGTTAGACGCGATCGTGACAACCCACGCGCCGATGCTCCGTGACCTGCACGGGGTCGGCACCGACGTGGCAAGCCAGCTCCTGGTCACCGTGGGCGACAACCCCGGACGGATCGGCACCGAAGCGCAGTTCGCAGCCCTCGTGGGCGTCGCGCCGATCCCCGCGTCCTCGGGAAAGACCATGCGGCACCGGCTCAGCCGTGGCGGCGACCGGCGGGCCAACAAAGCCATCCACCACGTTGCCCTGGTACGGATGATGAGCGACACCCGCACCAAAAATTACGTCGCCAGACGCCGGGCCGAAGGGAAAAGCACCAAGGAAATCATCCGCTGCGTCAAACGCTACATCGCCCGCGAAGTCTACGATCAGCTGATCCATCCACAACCAGCACCAGACGCCGGAGCCCTCCGCACCCTACGCCAAACGAAGAACATCACCCTCCAGGCCGCCGCGGACAGCCTCCATGTCTGGCCCACAGCACTGTCCCGGCTCGAACGCGGACTCACCCGCCACGACGACTTCTACCAACACTACGAAACCTGGCTCAACTCTCAATCCCAAAAACCGCGAAGAGGCACCCGGGAGGTTGCAGGACTGACCGGGCAGTTTGCCTAG	MTNPYLKVIAGIDTHADTHYVAIIDETGRHLMDKEFPAVGSGYRNIVEFITGFGPVVAAGVEGTGSYGAELARVLTREGFRVLEVMRPNRQGRRLRGKSDALDAYQAAEAALAGRNVATPKSRDGAVESLRVLRAERATAMRARVAVMAQIKSILTAAPEALRAKYRRLTRAPMMAALEKTRPAGNMSDPLIATAAVLKRLAIRYRALDQELAVIDAELDAIVTTHAPMLRDLHGVGTDVASQLLVTVGDNPGRIGTEAQFAALVGVAPIPASSGKTMRHRLSRGGDRRANKAIHHVALVRMMSDTRTKNYVARRRAEGKSTKEIIRCVKRYIAREVYDQLIHPQPAPDAGALRTLRQTKNITLQAAADSLHVWPTALSRLERGLTRHDDFYQHYETWLNSQSQKPRRGTREVAGLTGQFA	PGPT0030635_535	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
D1-29_02484	1587			hypothetical protein	ATGGACAACGGGGAAGTCTTGGAGGCAGTCGAAGCACCTGATGCTGCCCTCGTCACAATCGAAGCGGCCTCCTCCGCTGCTGCCACAGGTTCTGATTCTGCTTCTGACTCAGTAGCCGAAATTGATACTGATACTGATCCGTCGCGGGATTTGGCGGAGGAGTGCCTGGCCGAGATGGCGGAGGCTGCCCGTGACGAAGCCCGGGCCGCCGCGCGGAAGGCCCGGGCGGCTGCCACGTACGCGGACACCTGCCGGCGCCTGCTTCCACCGTCGGCGTCGCTGCACGAACAGTCCGTGGCGGAGATGGGCATGGTCGCCGAGGTCGCCTGTACCCTGACCATCAGCGAAAGTGCCGCCTCGGCGTTCCTGGTCCAGTCACACCAGCTGAACACCGAACTGCCCCTCACCCTGGCTGCCCTGCAGGCCGGGGCCCTGTCCTGGCAGCACGCCCGGATCCTCTGCGATGAAACCACCGGCCTGGGCCCCGCCGGCGCGGCCGCCCTGGAAACCCACTTCCTGGACCCCGACGCCGCCAAGGCTTCCCGCGCCTGCCTTGCCGGGGACCTCACACCCTCCAGGTTCCGTGCCAGGGCCCGGACCTGGCGCGAACGCCACCACCCCGTCTCGATCGAAACACGCCACACCAAATGCGTCCTGGACCGCCGGGTCGAATACACCCCGGACCGCGACGGCATGGCCTGGCTCTCCGCCTACCTCCCCGCAGACCAGGCCGCCGGCATCTGGGAACACACCACCACCACAGCCCGGGCACTCCAAGGCCCCACCGAGCCCCGCACCCTCACCCAACTCCGCGCCGACACCCTCGCCGCCGCACTCCTCGGCGGAGAGAGCACCAACCCCGGCAACATCAGCAGTTCAGCACTCATGGGTGGCGGGAGCGCCAGCAGGGGAACCAGCAGTTGGCGTAGCGACAGCGGCGGAAGCGGCAGCGGCGGGATCAACGGCGGCGGAAGCGCAAGCGGCGCTCTCCCCGGTGGCGGAAGCGACAACGGCGTAAATAGCCGGCCCGATCGGGACGCAGAGCGCACTGCCGGGCAGGTCCCGCCGCCGCGGGCGCAAGTGCTGGTCACCGTGCCCGTGTTCTCGCTCCTGGGCCTCACCGACGAACCCGCCACCCTCGACGGCCACGGCCCCATCCCGGCCTCCATGGCCCGGAACCTGGTCGCCAACGGAGCCGACTCCTTCCACCGCGTCCTCACCGACCCCCGCGACGGCGCACCACTGGAAATCGGCCGAACCAGCTACCGGCTCACCACAGCAATGCGCCGCTGGCTCAGACTTCGCGACGCCAAATGCCCCTTCCCCGGCTGCAACAACCACTCGCTGGATAACGAAGCGGACCACCTCCTGGCCTGGGCAGGCGGCGGCACCACCGGCATCAGCAACCTCGGCCAGCCTTGCCGCAAACACCACCACCTGAAACACAACTCCGCCTGGCAACCGACCCCGGCCAGTAAAAACGAACCACCCGGCTGGACCTCACCCACCGGCCGAGAGTACAAAAGCGAACACCAAGACTGGGAACCACCCACCTGGCCTGACGGCACACCGAGCCGTCTCGAATGA	MDNGEVLEAVEAPDAALVTIEAASSAAATGSDSASDSVAEIDTDTDPSRDLAEECLAEMAEAARDEARAAARKARAAATYADTCRRLLPPSASLHEQSVAEMGMVAEVACTLTISESAASAFLVQSHQLNTELPLTLAALQAGALSWQHARILCDETTGLGPAGAAALETHFLDPDAAKASRACLAGDLTPSRFRARARTWRERHHPVSIETRHTKCVLDRRVEYTPDRDGMAWLSAYLPADQAAGIWEHTTTTARALQGPTEPRTLTQLRADTLAAALLGGESTNPGNISSSALMGGGSASRGTSSWRSDSGGSGSGGINGGGSASGALPGGGSDNGVNSRPDRDAERTAGQVPPPRAQVLVTVPVFSLLGLTDEPATLDGHGPIPASMARNLVANGADSFHRVLTDPRDGAPLEIGRTSYRLTTAMRRWLRLRDAKCPFPGCNNHSLDNEADHLLAWAGGGTTGISNLGQPCRKHHHLKHNSAWQPTPASKNEPPGWTSPTGREYKSEHQDWEPPTWPDGTPSRLE				NA	NA	NA	NA	NA
D1-29_02485	2181		COG0480	Elongation factor G-like protein	ATGTCGGTGAAAGGCACCAACGGCCGGGGCAAGGCCCCCGGCCGCACTAATTCTGATCTCCGGCGGGCCGACGGGTCCGCGGGAGGGCCGGCAGATGCACCGGAAAAGGTCCGGAACGTTGCCCTCGTAGGGCACTCGGGCGCGGGAAAGACCCTGCTGCTTGAGGCTCTGCTGGCTGCCACGGGCGTGATATCCCGCAAGGGTTCCATCGAGGACGGCAACACGGTCAGCGACGCCGAGCCCTCGGAGATCCACCAGCAGCGGTCAGTGGTGTTATCTGTGGCCCCGCTGGTGTTCGACGGCATCAAGGTCAATGTGCTGGACACCCCGGGCTACGGGGACTTCACCGGCGAGCTGCGCGCGGGCCTCCGCGCGGCGGATGCGGCACTCTTTGTGGTGTCCGCCCTGGACGATATTGATGCGGCCACCACAGCGTTGTGGGCCGAATGCGACCAGGTTGATGTGCCCCGTGCAGTGGTGATCAGCCGGCTCGATCATCCCCGGGCGGACTTCGAAAGAACCGTGGACGCCTGCCGCCGGGCCTTCGGCGACGCCGTCGTCCCGGCTTATCTGCCGGTGCGTACGGGATCAGCCATCACGGGCCTGCTGGGGCTGCTCTCCGGGACTGTATCCGACTACAGCAGCGGCGGCCCTATGCCGGAAGTGCGGGCCGCCACACCGCATGAGCTTGCGGCTTCGGAGGGGGAACGCGGCGCACTCATCGAGGGGATCATCTCCGAGAGCGAAGACGAATCCCTGATGGACCGCTACCTCGGCGGCGAGGAGATCGACGTCGACGTCCTGGTGGATGACCTGGAGACTGCTGTGGCGCGCGGTTCATTTTTTCCCGTGCTGGCCACATCCGCGGAAACCGGACTGGGCATCACCGAACTGCTGGAAATGCTGACGCGGGCGTTTCCATCGCCGGTGGAACGCAGCCTGCCGGAAGCGACGGATCTCGCCGGCAAACCTGTGGCCCCGCTCACCTGCGACCCTGCGGGACCGTTGGCCGGGGAGGTTGTCCGGACCACCATCGATCCCTTCCTGGGCCGGGTCTGCCTGGTTCGCGTTTTCTCCGGCACGCTGCGGGAGGACTCAGCCGTGCATGTTGGCGGCCGCGGACTGGCCGAACGCGGCCATGAGGACCATGACAGCGATGAGCGCCTCACCCACCTCTACTCGCCTGTGGGGGCCAGCCTCAAGCCCGTGCCCTATTGCATTGCCGGGGACATCTGTGCCATCGCCAAACTGGCAAATGCCGAGACCGGCGACACGATATCGGCCAAGGAGAACCCGCTGCTGGTGGAATCGTGGGACATGCCGGAGCCGCTGATGCCGCTCGCCGTGGAAGGGGCCTCGCGAAGTGACGAAGACGCCCTTGCAAAGAGCATGGGGAAGGTGGCGGCCGGCGATCCGACCCTCCGGGTGGAACGTAACTCCGAAACCCATCAGTTGATTTTGTGGTGCATGGGGGAGGCGCACGGCGAGGTGGTCCTGGACCGGCTGCGGGACCAGGGCGTGAAACTGGAAACAGTTCCAGTGATCACTCCATTGCGCGAAACATTTGCTGCGCCCGCCGCGGGCCACGGCCGCCATGTCAAGCAGTCAGGAGGCCACGGGCAATACGCCATTTGCGATATTGAAGTCGAGCCCCTGGAACGGGGCGCCGGGTTCGAATTCCTCGACAAGACAGTTGGCGGCGTCGTTCCCGGCCACTACATCCCCTCCGTGGAGAAAGGCGTCCGGACTCAAATGCAGAAAGGCGTGTCGGCAGGATTCCCGGTAGTGGATATCCGCGTAACCCTGGTGGGCGGCAAGGCACACAGCGTTGACTCGTCGGACGCCGCGTTCCAGGCTGCGGGCGCGCTGGCGCTGCGAGAAGCGGCGGCCGCGGGCCGTATCCAGCTGCTCGAACCCGTCTCCTCAGTGGTCATCACCACTCCGGATGAGTACGTCGGCCCCGTTATGAGTGATATGTCTTCACGCCGGGGACGGGTGACAGGAACCACGTCGATAGGCGGCGAACGCACGGAAGTCATCGCGGAAGTGCCCGACGGCGAATTGTTGCGTTACGCCGTCCAGCTGCGGGCGCTTACCGCCGGGACAGGCCGCTTCCGGCGCAGCTACCTGCGTCACGAACCGGTGCCGGGCAACGTGGCCCCGGCGGGCAGCCATGCCTGA	MSVKGTNGRGKAPGRTNSDLRRADGSAGGPADAPEKVRNVALVGHSGAGKTLLLEALLAATGVISRKGSIEDGNTVSDAEPSEIHQQRSVVLSVAPLVFDGIKVNVLDTPGYGDFTGELRAGLRAADAALFVVSALDDIDAATTALWAECDQVDVPRAVVISRLDHPRADFERTVDACRRAFGDAVVPAYLPVRTGSAITGLLGLLSGTVSDYSSGGPMPEVRAATPHELAASEGERGALIEGIISESEDESLMDRYLGGEEIDVDVLVDDLETAVARGSFFPVLATSAETGLGITELLEMLTRAFPSPVERSLPEATDLAGKPVAPLTCDPAGPLAGEVVRTTIDPFLGRVCLVRVFSGTLREDSAVHVGGRGLAERGHEDHDSDERLTHLYSPVGASLKPVPYCIAGDICAIAKLANAETGDTISAKENPLLVESWDMPEPLMPLAVEGASRSDEDALAKSMGKVAAGDPTLRVERNSETHQLILWCMGEAHGEVVLDRLRDQGVKLETVPVITPLRETFAAPAAGHGRHVKQSGGHGQYAICDIEVEPLERGAGFEFLDKTVGGVVPGHYIPSVEKGVRTQMQKGVSAGFPVVDIRVTLVGGKAHSVDSSDAAFQAAGALALREAAAAGRIQLLEPVSSVVITTPDEYVGPVMSDMSSRRGRVTGTTSIGGERTEVIAEVPDGELLRYAVQLRALTAGTGRFRRSYLRHEPVPGNVAPAGSHA				NA	NA	NA	NA	NA
D1-29_02486	666			hypothetical protein	ATGTCCGTTCCAGAGTCCTCCCTCACCATTCCCACCGGCGAAACAGAAGTTTCGGGGGTCTATGCGCGTCCTGACAATCCCTTCGCCACGCTGGTGGTTGCCCATGGCGCCGGCGCCGGGATGGAGCACCCGTTCCTCCGAGGTTTCACCCGGGCACTGAACGACGACGGCGTGGCCACGTTGCGCTTCAACTTTCCCTACCGTGAAGCCGGCAGGAAGTTCCCCGACCGGCCGCCGGCCGCGATCGCCGCATGGCGCGCAGCCCTCGACGCTGCCCGGTCACGGTCCGACGGGGAGCCCGTTTGGGCGGCAGGCAAATCCTTTGGCGGCAGGATGGCCTCCATGGCCGTCGCAGAGGGCATGGACACGAAAGGCCTGGTTTACCTCGGATATCCGTTGCATCCGCCGGGCAAGCCGGAAAAGCTTCGGGACGAGCATCTGTACGGACTGGAACTTCCCATGCTGTTCCTGCAGGGAACCCGGGATACGTTCGCCACTCCCGAGCTTCTCGAGGGGGTTGCCGCCCGGATTGGTCCCGGCGCGACGCTTGAGTGGGTTGAAGGCGGCGACCATTCCTTCGCCGTGGCAGGCGCCAAGCGCAGCGCTGAAGAGATCGGAGCCTCACTGGCCGAGCGGGTGGCGGAGTTTATCCGGAAGCATCCTTGA	MSVPESSLTIPTGETEVSGVYARPDNPFATLVVAHGAGAGMEHPFLRGFTRALNDDGVATLRFNFPYREAGRKFPDRPPAAIAAWRAALDAARSRSDGEPVWAAGKSFGGRMASMAVAEGMDTKGLVYLGYPLHPPGKPEKLRDEHLYGLELPMLFLQGTRDTFATPELLEGVAARIGPGATLEWVEGGDHSFAVAGAKRSAEEIGASLAERVAEFIRKHP				NA	NA	NA	NA	NA
D1-29_02487	1023	ligD	COG1793	Multifunctional non-homologous end joining protein LigD	ATGGCCAGCGAACAGACCACCCTTTCCGTCCCGGGGCCCAGCGGCAGCCGCGAAATGCGCATCTCCAGTCCCAGCCGGGTCCTCTGGCCGGACCTGGGCCTGACCAAGCTGGACCTGGCCCGCTACATCGTCGAGGTGGGGGAAGCCTTCATAGCCGCAAACGGTGACAGGCCGGTCTCGCTGCAGCGGTATTCGGACAATATCGTGGGGGAAATGTTCTTCTCCAAGAACCCGCCCAAAGGGACCCCTGACTTTGTCCGGTCGGTGAAGGTGGTCTACCCAAGCGCCCGTTCGCATCCGCAGCTGGTCCTTGACGAGCCGGCAGCCGCCGTATGGGCGGTGCAGATGAACACAGTGGTCTTTCACCCCTGGCCATCCCGAACGGAGAACACGGACAATCCGGACCAGCTGCGGATCGACCTGGACCCTCAGCCCGGGACGGACTTCGATGACGCTGTTCCCGCCGCGCTGCTCCTGAAGGAAGTACTGGCGGAGGCAGGACTGGACTGCTTTATCAAGACGTCTGGAAACCGTGGGCTTCACGTGTACTCGCCCATCGAGCCGGCCCATGAATTCCTGGATGTCCGCCATGCGGTCATCGCCGCAGCCAGGGAGGTGGAGCGGCGCATTCCGGACAAGGTGACCACCGCGTGGTGGAAGGAGGAACGCGGCCAGCGGGTGTTCCTGGACTTTAATCAGGCCAACCGCGACCGGACCATCGCCGGTGCCTACAGCCCGCGCGCACTGCCGCATGCCCCGGTATCGTGCCCCATCACGTGGGATGAACTGGGCACCGCCGACCCCAAGAACTTCACCATCCTCACCGTCCCGGAACGCCTGAAGACTGTCGGCGACCCGTGGGCGGATATGGGTGCAAAGCCTGGAACCATCGACAAATTGCTGGAGTGGTGGGAACGCGACGTCGCGTCAGGACTCGGAGAGATGCCTTTCCCGCCCGACTACCCCAAGATGCCGGGTGAGCCGCCGCGTGTGCAGCCCAGCCGGGCGCGCAAACAGGACTAG	MASEQTTLSVPGPSGSREMRISSPSRVLWPDLGLTKLDLARYIVEVGEAFIAANGDRPVSLQRYSDNIVGEMFFSKNPPKGTPDFVRSVKVVYPSARSHPQLVLDEPAAAVWAVQMNTVVFHPWPSRTENTDNPDQLRIDLDPQPGTDFDDAVPAALLLKEVLAEAGLDCFIKTSGNRGLHVYSPIEPAHEFLDVRHAVIAAAREVERRIPDKVTTAWWKEERGQRVFLDFNQANRDRTIAGAYSPRALPHAPVSCPITWDELGTADPKNFTILTVPERLKTVGDPWADMGAKPGTIDKLLEWWERDVASGLGEMPFPPDYPKMPGEPPRVQPSRARKQD	PGPT0014910_1120	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
D1-29_02488	621	yciO	COG0009	putative protein YciO	ATGGCCAGATACTTCGACGTTCATCCCCAGGATCCGCAGCCGCGGGCCATCACCCAGGCCGTCCGCATGGTGCTCGACGGCGGCCTGATCGCCTACCCCACGGACTCCTGCTACGCGCTGGGCGCCCAGCTGGGCAACAAGGATGCCCTGGATCGTATCCGGACCATTCGAAAACTTGACGCCAAACACCATTTCACCCTGGTCTGCAAGGATTTCGCCCAGCTGGGCCAATTCGTGAACATCGGCAATGACGTCTTCCGCAGCATCAAGTCGGTGACACCCGGCAGCTACACGTTCATCCTGCCCGCCACCAAGGAAGTTCCCCGGCGGCTCCTCCACCCGAAGAAAAAGACCGTGGGCGTCCGCATCCCTGACAACCGGGTGGTGCAGGCCTTGCTGGCCGAACTCGGCGAACCGCTGCTCTCCAGCACGCTGCTGCTTCCGGATGAGGCAGATCCGCTCACCAACGGCTGGGAGATCAAGGAAAGGCTGGAGCATGAGGTGGACGCCGTGATCGATGCCGGCGACTGCGGGGCCGAACCGACCACGGTCATCGACTTCTCCGGCGGCGCGGCCGAGGTGGCCCGTTACGGCGCCGGAGATCCGTCCCGGTTCGAGTAG	MARYFDVHPQDPQPRAITQAVRMVLDGGLIAYPTDSCYALGAQLGNKDALDRIRTIRKLDAKHHFTLVCKDFAQLGQFVNIGNDVFRSIKSVTPGSYTFILPATKEVPRRLLHPKKKTVGVRIPDNRVVQALLAELGEPLLSSTLLLPDEADPLTNGWEIKERLEHEVDAVIDAGDCGAEPTTVIDFSGGAAEVARYGAGDPSRFE				NA	NA	NA	NA	NA
D1-29_02489	435			hypothetical protein	ATGCCCACAGTGCTCAACCCCTACCTTGGCTTCCGCGACAACGCCCGGGAGGCGATGAACTTCTACCAGAACGTCTTCGGCGGCGAATTGACACTCAGCACCTTCGGGGATTTCCAGGCGAGCGAGGACCCCGCCGAGGCGGACAAGATCATGCACGGCATGCTGACCACCCAGCAGGGGATGGTCCTGATGGGGGCCGACACCCCGAACTCGATGGAGTACACACCGGGCGGTTCGATTTCTGTCTCGGTCAGCGGCGACGATGAGGCCGAGCTGCGCGGCTATTGGGACAAACTGGCCGGCGACGGCGGCAGCGTGACTGTTCCGCTGGAGCAGGCGCCCTGGGGCGATATTTTTGGCATGTGCACCGACAAGTTCGGCGTGGCGTGGCTGGTCAACGTCAACGGCGCACAGCCGGGCGGTCCCGTGACTTAA	MPTVLNPYLGFRDNAREAMNFYQNVFGGELTLSTFGDFQASEDPAEADKIMHGMLTTQQGMVLMGADTPNSMEYTPGGSISVSVSGDDEAELRGYWDKLAGDGGSVTVPLEQAPWGDIFGMCTDKFGVAWLVNVNGAQPGGPVT	PGPT0030505_1639	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
D1-29_02490	684			hypothetical protein	GTGCAGCCCCTCTTCGATTTTCTCGCTCACTACTGGTGGTTGGTTTTCCCCCTCAGTGGTGTGATGGGCGGGTGGGCCAAGTCCTGGCAGATGTCCACGGAACGCCGGCATCAGCGGAGGGTGGAGCTGTACAAACTCCGGAACCAGTCACTGCAGGCCGAGCAGGTGGCCATCGCCGACATCGAGTCCCTCATGGCTGCCCATGATGCCGTTAACCGCCGCTGGCTGGACTACGAACTGGACGTCGGCAAGCTGATTGATTTTCCCCTGATGACCGATGTCCGCGAACCCCTCACGGTGGCCTTCCTGCGGGCCAAACGCGAGGCGGACGGGCTGCGGCCTTCCTCGGCCAAGGAGCTGACCGCACCGTCACGGCTCGAGGCTTACCGGGCGTCGGTCAATGCCTTTGAAGTGGCCTTCGCGGTCGCGGAGCGGGAAGCCAAACGGATCAGGGATACGAACTTTTCCGGGCCAGAGCGTGAGCGGCTGGCAACGGCCAGGAAGCTGCTGCGGCTCGCCGAGAATGACGCCGCCACCCCCGCTGAGCGGCAGGCCGCCTACAAGCGGGCCCGCCGCGAACTGGACGGCCTCATCGTGCTTCCGGATGCCGCGGTTGCCGCGCTGGAGGAAAAAGTGGCGCCCATGCTCGATTCCGGCCGCCCATCGGACTCTCCGCAGAGGTAG	MQPLFDFLAHYWWLVFPLSGVMGGWAKSWQMSTERRHQRRVELYKLRNQSLQAEQVAIADIESLMAAHDAVNRRWLDYELDVGKLIDFPLMTDVREPLTVAFLRAKREADGLRPSSAKELTAPSRLEAYRASVNAFEVAFAVAEREAKRIRDTNFSGPERERLATARKLLRLAENDAATPAERQAAYKRARRELDGLIVLPDAAVAALEEKVAPMLDSGRPSDSPQR				NA	NA	NA	NA	NA
D1-29_02491	534			hypothetical protein	GTGAAAAGAGTCTCCCTTTACCTCGACGTGGACGGGGTGATTTGTCCTTTCGGGCCAGCCGGGGTCAGTGAATGGGGCTCTCCCTGGCGGCACGCCAGTGCCGGCCTGCTGTCGGTCGCGTTTGCCCAGGAGCTCGTCGACGGACTGAACGGGCTCGCCGCCGTTGATGGACTCAGGTGCGTGTGGCTGACCAGCTGGGAGGACCTGGCACCCGAATACCTCTGCCCCTCCATTGGCCTCAACGCGGCGAATTGGCCCTATCTGACGGCGGCGGGAGCAGGCGCAGGAGGCGTCCCGGGTCAAGCGCTCGGGGAAGGCTGGTGGAAACTCCGTGCCATCCAGGATGACATGGACAGATTTGGCCCTGACGCCGTGGTGTGGATCGATGACCAACTCAGGTATGAGGAGGAGGCGCAGGCATGGGCGAGGATCCTGGGACGCCGCATCCTCCTGGTGTCACCTGACCCGCGCCGCGGAATCTCACCGGCCGAGTTCGGCGCCGTCAGGTCGTTTCTGGAACAGCCGGTGTTTTGA	MKRVSLYLDVDGVICPFGPAGVSEWGSPWRHASAGLLSVAFAQELVDGLNGLAAVDGLRCVWLTSWEDLAPEYLCPSIGLNAANWPYLTAAGAGAGGVPGQALGEGWWKLRAIQDDMDRFGPDAVVWIDDQLRYEEEAQAWARILGRRILLVSPDPRRGISPAEFGAVRSFLEQPVF				NA	NA	NA	NA	NA
D1-29_02492	1209			hypothetical protein	ATGGTGGCGCTGGTCATAGCACTGGCACTATTTTTCGACTTCACGAACGGCTTCCACGACACCGCCAACGCGATGGCAACACCAATCGCCACCGGCGCTATCAAACCGAAGGCTGCAGTGACTCTCGCGGCGATCCTGAACCTGGTGGGCGCATTCCTGTCAACGGAAGTGGCCAAGACAGTTTCCGGTGGCATCATCAGGGAAGGATCGGACGGGGTCCAGATCACTCCGGACATCATCTTTGCCGGTTTGATGGGCGCGATCCTGTGGAACATGATCACCTGGCTCAAAGGACTTCCGTCCAGTTCATCCCATGCCCTGTTCGGCGGACTGATCGGCGCGGCCATCGCAGGCATCGGCTTCAACTCGATCAACCTCGAGAGCCTTATGCAGAAGGTCATCCTCCCGGCCATCTTTGCGCCGCTCATCGCGGGCATTGTTGCTTACGCGTGCACCCGTCTCGCCTATGCCATGACCTCCCGGCATGATCCCGAGACCGGCAGCAAGCTGACGCAGAAGCGTGGCGGCTTCCGCACCGGACAGATCTTCACCTCCAGCCTGGTGGCGCTGGCTCACGGCACCAACGACGCCCAGAAGACCATGGGCATCATCACGCTGGTCCTGATCGCGGCCGGCACCCAGGCTCCCGGTTCCGGCCCCGAATTCTGGGTGATCGCCGCCTGTGCCTTCGCCATTGCCATCGGCACGTACGCTGGTGGCTGGCGCATCATCCGGACCATGGGATCCGGTCTGACCGAGGTCAAGCCGGCGCAGGGCTTCGCCGCCGAGACGAGCACCGCATCTGCCATCCTGGCGTCCTCGCACTTGGGCTTCGCCTTGTCCACCACGCAGGTGGCTTCCGGTTCTGTCATCGGTTCGGGAATGGGGCGGAAGGGGACCAGCGTGCGCTGGAGTATGGTGGGCAAGATCCTTGTGGGCTGGCTCTTCACCCTGCCGGCTGCGGGCATCGTTGGCGCGCTGACCGCCCTGCTCGTCAAGACGGGCGTCGTCGGTGTGGTGATCGCCGCCGTCGCCGGAACTGCTGCCGTGCTGTTTATGTTCTTCTATTCCCGCAAGTCCCATGTGGGCCACCACAATGCCGTGGAGGTCGAAGAAGCCGGGCAGGCCGTCCGCTTCGCCAAGAAGAAGAGCCTGGCCCGGGCCCAGGCCAGGGCCAAAGCCAACAATCCGAAGGATGTCCAGCGATGA	MVALVIALALFFDFTNGFHDTANAMATPIATGAIKPKAAVTLAAILNLVGAFLSTEVAKTVSGGIIREGSDGVQITPDIIFAGLMGAILWNMITWLKGLPSSSSHALFGGLIGAAIAGIGFNSINLESLMQKVILPAIFAPLIAGIVAYACTRLAYAMTSRHDPETGSKLTQKRGGFRTGQIFTSSLVALAHGTNDAQKTMGIITLVLIAAGTQAPGSGPEFWVIAACAFAIAIGTYAGGWRIIRTMGSGLTEVKPAQGFAAETSTASAILASSHLGFALSTTQVASGSVIGSGMGRKGTSVRWSMVGKILVGWLFTLPAAGIVGALTALLVKTGVVGVVIAAVAGTAAVLFMFFYSRKSHVGHHNAVEVEEAGQAVRFAKKKSLARAQARAKANNPKDVQR	PGPT0002655_1862	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002655-TC_PIT-K03306	NA	NA
D1-29_02493	222			hypothetical protein	ATGAAGTGGTTGGAACTGGTAACCGTAGGCGGCGCCACCCTGGTGTCTGCCGTGACAGTGGTGTTCCTGTACTCACTGGGTGTCCGCCTCACCGCCATCGCCGGCGATGCCGAGCAGGCCTCGCCCCGCATAAAGCGCTCCCTGGCGTACGTCTGCTTTGGCCTCTGCGGCCTTGCTGTCCTGTTCGGGCTCTACCTGATCATTCCTTACTTCAGCAAGTAG	MKWLELVTVGGATLVSAVTVVFLYSLGVRLTAIAGDAEQASPRIKRSLAYVCFGLCGLAVLFGLYLIIPYFSK				NA	NA	NA	NA	NA
D1-29_02494	564	yyaP_4	COG0262	putative protein YyaP	ATGTCACGGATCCAGTATTTTGTTGCTTCGTCCCTTGACGGTTTTATCGCAACGTCCACTGATGACCTCGGCTGGCTCCTGCAGTTTGACGGTTTCGAGGGCGGCAAGGAAAGCTACGAATCGTTCATGGACGGCGTGGGCTGCATTGTGATGGGCGGAGAAACGTTCGCCTGGCTGATGAAACACGAACCGGGAAACTGGCCCTATACCTCCACCCCCTCGTACGTTTTCACGCGCCACGAGTACGCCGCGCCGCCGGGGGCAGACGTCACCTTTATCCGGGGTGAGGTAGGGGAATTTGTCCAGGACTTCAAGGACGACGCCCGCGGCAAGAACGTCTGGGTGGTGGGCGGCGGAAACCTTGCGGCACAGTTCGCCGGCGCCGGCCTGCTGGACGAACTCATCGTGTCCATCATCCCCGTGGTCCTGGGGAACGGAAAGCGGCTGCTGCCTCTTGAAGGCCCGACGCCGCCGCTTCAGTTAACAGATTCGCGCACCCTTGGGCGGGGGGTCGTGGAGCTGCGTTACGGCTTCAGCCCTGCCGCCCGGCCGGGTGTGGCCTGA	MSRIQYFVASSLDGFIATSTDDLGWLLQFDGFEGGKESYESFMDGVGCIVMGGETFAWLMKHEPGNWPYTSTPSYVFTRHEYAAPPGADVTFIRGEVGEFVQDFKDDARGKNVWVVGGGNLAAQFAGAGLLDELIVSIIPVVLGNGKRLLPLEGPTPPLQLTDSRTLGRGVVELRYGFSPAARPGVA				NA	NA	NA	NA	NA
D1-29_02495	474	entH		Proofreading thioesterase EntH	ATGATGGACAATTTCACGCCCGGCCCATTTACCGATGAGTTAGTGGCAGCCGGTATCCCGGAACACCTTCACGGCTGGCTTGGCGAGTACGGAGTAGGCGCCTTGGTGGTGAAGATGGGGATCCACTTCCTGGAGATGAGCCCCGAACGGACCGTGGCCACCATGCCGGTGGAAGGCAATACCCAGGTAGCAGGCATCCTGCACGGCGGCGCCCACGTGGTCCTCGCGGAAACTCTGGGATCCTTTGCGGCAGGGATGCACGCCGGGCCAGGCCGGCGGGCCCTGGGCATTGAGGTCAGTGCAACCCACCACCGCTCCATTGCCGCGGGGAGCGTCATCGGGACCTGCACCGCAATCCACCTGGGTCGCTCGCTGACTACGCACCAAATCGTGGTGACCGACGAAAAGGGACGGCGGCTTTCCACCGCCCGGATCACCAATATGCTGCGTGACAACGGCCCTGACGACAGCTGA	MMDNFTPGPFTDELVAAGIPEHLHGWLGEYGVGALVVKMGIHFLEMSPERTVATMPVEGNTQVAGILHGGAHVVLAETLGSFAAGMHAGPGRRALGIEVSATHHRSIAAGSVIGTCTAIHLGRSLTTHQIVVTDEKGRRLSTARITNMLRDNGPDDS	PGPT0001845_322	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
D1-29_02496	2838	polA	COG0258	DNA polymerase I	GTGAGTGAAACTACCAAACCGGCCCCTTTCCCGTCCCAGACCTCTGACCTTCGGGACGATGCTGCCCTGCCCGCCGACGCTGCTTTGCAGGACGTGGTGGTTCCGCCGCCGGCCAGCCAATCGGTGTCAGCCACGGTGGCTCCCGTCATCCCCATCACCGACCAGCCGCGCCTGCTGGTTCTGGACGGGCACTCCATGGCATTCCGGGCTTTCTTCGCCTTGCCCGCGGACAAGTTCTCCACGGCCAACGGACAGCACACCAACGCCATCCACGGGTTCACGTCCATGCTCATCAACCTGATCAAGGAACAGAAGCCCACGCACATCGCGGTCGCCTTCGACGTCTCCGACGACACCACCCACCGCAAGGCCGAGTACAGCGGATACAAGGGCGGCAGAAACGAAACGCCGCGGGAGATGAGCGGCCAGATCGACCTCATCGACAAAGTCATGGGTGCCTGGGGCATCAAGACCATCAAGATGCCCGGCTACGAAGCTGACGACATCCTCGCCACCCTCGCCGCCATGGGGGAGAAGGCCGGTTTCGAAGTACTCCTGGTAACAGGGGACCGCGACGCGTTCCAGCTCATCACGGACAACGTCTTTGTGCTTTATCCCAGGAAGGGCGTCAGCGACATCCCGCGCCTGGATGCTGCTGCCATCCAGGAGAAGTACTTCGTCACGCCTCCGCAGTACTCGGACCTCGCCGCGCTGGTGGGGGAATCGGCGGACAACCTGCCGGGCGTTCCCGGCGTCGGCCCCAAGACCGCGGCCAAGTGGATCAACCTCTACGGCGGGCTCGAAGGAGTGCTGGAGCACCTGGACGCGATCGGCGGGAAGGTGGGCGACGCCCTCCGGGAAAACGTCGAGGACGTCAAGCGCAACCGGCGGCTGAACAGGCTTCACACCGATCTGGAACTGCCGCTGACGCTGGACGACCTCGCCGAGCCGAGGCCTGACGAGGCCGCACTGGAGCAACTGTTCGACGAACTCGAATTCAAGACCATCCGCGCCCGGCTGTTCGCCCTTTACGGCAGCGACGAAGTGGAGTCAGCGGAACGCGAGACCATCGACACCCCCGCCTTTGTCACCCCGGCGAACGCCGCAGAGCTGGCTGCCTTCCTGGCTGCAGGGGCCGGGAAACGCTCCGCCATTGCCGTTGATCTGGTACCGGGCCGGATCGGCGAAGACGCTGCGGCACTGGCCATCGTCCGTGACGACGCCGCCGTCTACATCGACCTCGCCGGCCAGGACGCCGCAGCCGAAAACGTCCTCGCAGACTGGCTGCGGGATGACACCTCCGCCAAGGTCATGCACGGATACAAGGCTGCCCTCAAGGCACTGTCCAGCCGTGGGCTGGGACTCTCAGGAGTAGTGGACGACACCTCCATCTCCGGGTACCTCATCCAGCCGGACCGCCGCACCTACGAACTCGCGGAACTGGCGCAGCACCACCTGAACATCAGCATCTCGCCAGAGACGGCCAAGGCGGGCCAGCTTGAGCTGTCGTTCGACGGCGAGGATGCCGCCGCCGCGGATGCGCTGGTCCGGGTGGCGGCGGTGGTCCAGACGCTGAGCCGGCGGTTCGAGTCCGAGCTCAAGGAACGCCAGGCCGAGGACCTGCTGTCCACCCTTGAGTTGCCTGTCAGCCGGGTCCTGGCCGACATGGAGCTCGCCGGGATCGCCATCGACATGCCGCACCTGGATGAACAGCTGGCCGATTTGGCGAAGGTCATCGACAACGCGCAGGAACTCGCCTTCGCCGCCATTGGCCACGAGGTCAACCTCGGTTCCCCCAAGCAGCTGCAGACTGTCCTCTTCGACGAACTCCAGCTGCCGAAGACCAAGAAAATCAAGTCCGGCTACACCACCGACGCCGCATCCTTGAAGAACCTCCTGGAAAAGACGGGGCACGAGTTCCTGGTCCAGCTGATGGCGCACCGTGAGTCCGCGAAACTAAGCCAGATGCTCGAGACGCTCAAGAAATCCGTCACCGAGGATGGCCGCATCCACACCACCTACGCGCAGAACGTTGCCGCCACGGGCCGGATCTCCTCCAACAACCCCAACCTCCAGAACATCCCCATCCGCAGCGAGGAAGGCCGGCGCGTGCGCGGCATCTTCGTGGTCAGCGACGGCTACGAGTGCCTGCTCTCCGCTGACTACTCGCAGATCGAAATGCGGATCATGGCCCACCTGTCAGGCGACCCCGGGCTGATTGCGGCATACAAGGAAGGCGAAGACCTCCACCGCTTCGTTGGCTCGCACATCTTCCACGTGCCGCCGGCGGAAGTGACCAGCGCCATGCGCTCCAAGGTCAAGGCCATGTCCTACGGACTCGCCTACGGACTGACGTCCTTTGGGCTGTCCAAGCAACTGGAAATTTCGGTAGACGAGGCCCGGACCCTGATGAAGGACTACTTCGACAGGTTCGGGGCCGTCCGCGACTACCTCCGCGGAGTGGTGGACCAGGCACGGATCGACGGCTACACCGCCACCATCGAGGGCAGGCGCCGCTATCTGCCGGACCTTACCAGCACGGACCGGCAGCTGAGGGAAAACGCCGAGCGCATCGCACTGAACTCACCCATCCAGGGATCCGCAGCGGACATCATCAAGCGGGCAATGCTGGGCGTGCACGACGAACTGCAGGCCCAGGGACTCAAATCGCGCCTGCTCCTGCAGGTCCACGATGAACTGGTGCTTGAGGTGGCCATTGGCGAGCGGGAACTCGTGGAGAGGCTGGTCACCGAGCAGATGGGCTCCGCCGCCGATCTCACCGTCCCCCTCGAAGTCCAGATCGGCGTTGGCACCACCTGGTACGACGCCGGCCACTAG	MSETTKPAPFPSQTSDLRDDAALPADAALQDVVVPPPASQSVSATVAPVIPITDQPRLLVLDGHSMAFRAFFALPADKFSTANGQHTNAIHGFTSMLINLIKEQKPTHIAVAFDVSDDTTHRKAEYSGYKGGRNETPREMSGQIDLIDKVMGAWGIKTIKMPGYEADDILATLAAMGEKAGFEVLLVTGDRDAFQLITDNVFVLYPRKGVSDIPRLDAAAIQEKYFVTPPQYSDLAALVGESADNLPGVPGVGPKTAAKWINLYGGLEGVLEHLDAIGGKVGDALRENVEDVKRNRRLNRLHTDLELPLTLDDLAEPRPDEAALEQLFDELEFKTIRARLFALYGSDEVESAERETIDTPAFVTPANAAELAAFLAAGAGKRSAIAVDLVPGRIGEDAAALAIVRDDAAVYIDLAGQDAAAENVLADWLRDDTSAKVMHGYKAALKALSSRGLGLSGVVDDTSISGYLIQPDRRTYELAELAQHHLNISISPETAKAGQLELSFDGEDAAAADALVRVAAVVQTLSRRFESELKERQAEDLLSTLELPVSRVLADMELAGIAIDMPHLDEQLADLAKVIDNAQELAFAAIGHEVNLGSPKQLQTVLFDELQLPKTKKIKSGYTTDAASLKNLLEKTGHEFLVQLMAHRESAKLSQMLETLKKSVTEDGRIHTTYAQNVAATGRISSNNPNLQNIPIRSEEGRRVRGIFVVSDGYECLLSADYSQIEMRIMAHLSGDPGLIAAYKEGEDLHRFVGSHIFHVPPAEVTSAMRSKVKAMSYGLAYGLTSFGLSKQLEISVDEARTLMKDYFDRFGAVRDYLRGVVDQARIDGYTATIEGRRRYLPDLTSTDRQLRENAERIALNSPIQGSAADIIKRAMLGVHDELQAQGLKSRLLLQVHDELVLEVAIGERELVERLVTEQMGSAADLTVPLEVQIGVGTTWYDAGH				NA	NA	NA	NA	NA
D1-29_02497	525			hypothetical protein	ATGGAACTTCAAACGTATGTCAACAGCCTCCAGGAACAGTTGGCCAATGCCGCCGGGGCAGGCGGTGAGCAGGCGCGCGAGGTGGCGCTCCGCCTCGCGGCGCCCCTTGAAACAGCAACAAGGCTTGTCCTGCTGGAAGCACTTGCAGCCGCCGCCGGGGAAATCACCGGGGAGCTGGCGCCAGGATCGGTGGAGGTGCGCCTGCGCGGCCGTAATCCCGAGTTCGTTGTTTCCCTTCCGCCGGCCCGGACGGACTTTGACGATACCGCTCAGGAGTTCCCTGTAACTGAACCCCAGCCGGCATCACCAGGGGAGGGGGACGACGGCGGGACGTCCCGGTTTACGCTGCGCCTGCCGGAACATCTTAAGCAGCGCATCGAGGCTGCGGCGGCAGCGGAGAAACTCTCGGTCAACTCGTGGCTGGTCCGCTCCCTTGCCGCTTCTTTGGAGCATCCCGGCCAAACCCCCCGGGGCAGTAAGAAAAGGTCCTCCGAGGGGCGGAGCTACAGCGGTTGGGTGCAGTGA	MELQTYVNSLQEQLANAAGAGGEQAREVALRLAAPLETATRLVLLEALAAAAGEITGELAPGSVEVRLRGRNPEFVVSLPPARTDFDDTAQEFPVTEPQPASPGEGDDGGTSRFTLRLPEHLKQRIEAAAAAEKLSVNSWLVRSLAASLEHPGQTPRGSKKRSSEGRSYSGWVQ				NA	NA	NA	NA	NA
D1-29_02498	882			hypothetical protein	ATGTTTAATTTCGCCACCCCGGAACCCATTTCCGTCACCATCGAATTGAACCTCGGAGACGTCCGGATGACAGCGAGCGACCGTGCCGACGCCGTGGTTGAGGTGCAGCCCACGGATGAATCAAAGGCCTCGGACATCCGGGCGGCCGAGCAGACAAGGGTGGAGTATTCCCATGGCCGGCTCGTCGTCAAGGGGTCCAGTGACTGGAGACGGTATGCCGTTTTCACTGGAAACGGATCCGTTGACGTCACCATCAAACTTCCCTCCCGTTCCGACGTCCGGGCAGAGGCAGGAATGGGCAAGTTCGAGTGCCAGGGTGAACTGGGCCGGTGTTCGCTCAAAACCGGCATGGGCAGGATCCGCCTGGACCGGACCGCTTCCGTCAAGGCTGAGACCGGCTACGGGGACATCACGCTGGAAGGTGCCGCCGGCGACGTCGAGATCAAAACGGGGTCGGGCGAGATCAGTGCCCGCCGTATTGAAGGCGCCGCCCACGTAAAGAGCTCAGATGGCCACGTCTATATCGGCTGGGTGGCCGGCGATGTCCAGGTTAAGGCAGCCAACGGCAAAATTTCCATTGGCCAGGCGCAAGGGTCCGTCACAGCCAAGTCCGCCAACGGCAGGATCCGGGTGGGCGGAGTGGCGCGCGGCTCGGTCCTGCTGGAAACCGCGATGGGTGACGTTCGGGTAGGCGTCCAGGAAGGAACGGCAGCCTGGCTCGACGTCAGCACGCAGTACGGAAGGGTGCTCAATTCCCTCAACGCTGCCGATGGGCCTGGCGGGCACAAGGAGACGGTGGAGATCCGCGCCCGGACATCCTACGGCGACGTCGAGATCCAGCGTTCACTGGACCCAATCCACGAGACGGGAAACCGCGGGTGA	MFNFATPEPISVTIELNLGDVRMTASDRADAVVEVQPTDESKASDIRAAEQTRVEYSHGRLVVKGSSDWRRYAVFTGNGSVDVTIKLPSRSDVRAEAGMGKFECQGELGRCSLKTGMGRIRLDRTASVKAETGYGDITLEGAAGDVEIKTGSGEISARRIEGAAHVKSSDGHVYIGWVAGDVQVKAANGKISIGQAQGSVTAKSANGRIRVGGVARGSVLLETAMGDVRVGVQEGTAAWLDVSTQYGRVLNSLNAADGPGGHKETVEIRARTSYGDVEIQRSLDPIHETGNRG				NA	NA	NA	NA	NA
D1-29_02499	642			hypothetical protein	ATGGGTAGGGTTGATGTTGTGAAAAGTACGCGCGGAATCGAGATCGGGTCACTTCCCTTCCCCCTGGTCAGTGAAGGCCCGCCGTCTCTGGTTGCCCCGCTCCTTGAGGGGGAGAGGCTAGTCCTGACGGCGGACGCCGGCGCGGATATGTTCCTTGACCCCGGCGGACATCCGGACACGTCCGATGCTGAACGCTTCGTCTGGCCCGTCACGGGTGACTTTCGGTTCAGCGCATTCGTCAGCCCGGTGTTTGTCTCTGATTTCGACTCCGGCGTGCTGCTGGGCTACATCGATCCACTGAATTGGTTCAAAGTCTGCGCCGAACTGGATCCCAGCGGGACCACCAGGGTGGTGTCCGTTGTCACGCGGAACGGCAAGTCCGACGACTGTGACAGCTGGCCGATCGACGGAGCGGGGACTTACCTGCGAATCTCCCGCCTCGGCCAGGCTTTCGCGCTGCACGCCTCCATTGACGGCGAATGGTGGAACATGGTCCGCTACTTCGGCATGGGCGAGCCGGCACCTGATGCCGTCAAAATCGGATTCGCAGCGCAGTCCCCTTCCGGAGAGGGAACGACGGCGACATTCAGTGAGGTCAGGTTCGATACCCAGCGGCTGGCCGAAGTAAGGGACGGCACGTAG	MGRVDVVKSTRGIEIGSLPFPLVSEGPPSLVAPLLEGERLVLTADAGADMFLDPGGHPDTSDAERFVWPVTGDFRFSAFVSPVFVSDFDSGVLLGYIDPLNWFKVCAELDPSGTTRVVSVVTRNGKSDDCDSWPIDGAGTYLRISRLGQAFALHASIDGEWWNMVRYFGMGEPAPDAVKIGFAAQSPSGEGTTATFSEVRFDTQRLAEVRDGT				NA	NA	NA	NA	NA
D1-29_02500	297			hypothetical protein	ATGCTTTACGCCGTGCGCGGCAAGGCGGGCCAGGACGTCGTCGAGGCCTTCCATTCCGAGGGTCAGCAGAGCCCTTCCGGCCCGATCGGCCCGCTCCTGGCGCGTAAGTTTCAGCTGACGTTTGCCGGGAGGTGCTCGCCAGCCGGGGGCGGCTACGTGCCGTCCCTTACTTCGGCCAGCCGCTGGGTATCGAACCTGACCTCACTGAATGTCGCCGTCGTTCCCTCTCCGGAAGGGGACTGCGCTGCGAATCCGATTTTGACGGCATCAGGTGCCGGCTCGCCCATGCCGAAGTAG	MLYAVRGKAGQDVVEAFHSEGQQSPSGPIGPLLARKFQLTFAGRCSPAGGGYVPSLTSASRWVSNLTSLNVAVVPSPEGDCAANPILTASGAGSPMPK				NA	NA	NA	NA	NA
D1-29_02501	1326	eis		N-acetyltransferase Eis	ATGGATTTATTGGCTAGGCTCGGCGGTGTGGATGAACTGAGTGGGGACTATGAAATCCGGCGCTTTGGCGCGGCAACCAAAGGCGAGCAGGGCTATGCCGAGGCCGAATCGTGGATCAGGGCGGTGGCCTTCGGTTTCCATGAGGCCACCCGCGAGCCGGAGCGGATAGCGAGGTCCCTTGACAGCTACCGGGCAGACCAGCGCATCCTCACCGGCGCTTATCAGATCCGTGACGTGGCGCCGGGATCACTGCCGGCAGAAGTTCCCGTCGCCACCTTCGCTACTCTTCGCAAAACGCTCAACATCGGTTTCGGCCGCCAGCTGGAGACCCAGATGGTCACCGCCGTCACGGTGCGGACATCCCACCGGCGCCGGGGCCTGTTGCGCCGGATGATGTCAGAGGACCTGGACATGGCACGGCGGGATGGCATGGCTATGGCTGCCCTGACGGCATCCGAGGGATCGATCTATGGACGGTTCGGTTACGGGGTAGCCAGCTTCGAACGCAGCGTGAAAGTGGACACCACCGCGAGGTTCAAGCTGAACCACCAGCCTGTGGGCTACATTGAAGTCGCCGATCCGAAGGTGCTGCTGGACCTGGGTCCCCAGGTTTTCGACAAGGTGCACCGGTTGACTCCGGGCTCGATGGGCCGCCAGGACTGGTACCGTCTCCTGGCGTCGGGTTCCATGGGACCGGACGGCAAGGAGGATCCGGCCATCAAAGTAGCCCTGCACTACGGGCCGCACGGAGCTGTTGACGGGTACGTGTCCTACAAGTTCCTCGGTTGGGACAAGGAGCCCTACACCATGGAGATAGTGGACCTTGTTGCCGCCAGCAATGAGGCCTACCTTGAGCTCTGGCAGTTCCTGGGTGCCATCGACCTGGTGGAGCGGGTGACGTGGGAAGAAGCGCCGTTGGACGACCCGCTCACGTGGGCCCTGAACGACCCCCGCTGCATCGACTCCTCGAACAGCAGGGACATGCTGTGGCTCAGGATCCTGGACGTTCGGAAAGCACTGGAGGCGCGGTACTTTCCGGTGGAGGGCCGGCTGGTGCTGGAAGTCCTTGATCCGCTGGGGCTGACTGCAGGAACCTTTGCGCTGGAAGTTACGGGCGGTGAGGCCGCCGTCGTTCCCTGGGAAACACCGGAGCAGGCTGACCTGACGTTGGACGTGTCAGCGCTGTCGTCGATCTATCTGGGGGCTGTTTGCCCGGTGACCCTGACGGCGGCGGGCCGGATCCGCGAGAACACGAAGGGCGCGGCGTTCCAAGCCCGGCAGATGTTCACCGTGGAGCGGTCTACGCACTGCCTCACCCACTTCTGA	MDLLARLGGVDELSGDYEIRRFGAATKGEQGYAEAESWIRAVAFGFHEATREPERIARSLDSYRADQRILTGAYQIRDVAPGSLPAEVPVATFATLRKTLNIGFGRQLETQMVTAVTVRTSHRRRGLLRRMMSEDLDMARRDGMAMAALTASEGSIYGRFGYGVASFERSVKVDTTARFKLNHQPVGYIEVADPKVLLDLGPQVFDKVHRLTPGSMGRQDWYRLLASGSMGPDGKEDPAIKVALHYGPHGAVDGYVSYKFLGWDKEPYTMEIVDLVAASNEAYLELWQFLGAIDLVERVTWEEAPLDDPLTWALNDPRCIDSSNSRDMLWLRILDVRKALEARYFPVEGRLVLEVLDPLGLTAGTFALEVTGGEAAVVPWETPEQADLTLDVSALSSIYLGAVCPVTLTAAGRIRENTKGAAFQARQMFTVERSTHCLTHF				NA	NA	NA	NA	NA
D1-29_02502	1479	rpsA	COG0539	30S ribosomal protein S1	ATGACCATCACCTCCACCGAGAAGCCCGGTACCCCCGTAGTCGCGATTAACGACATCGGTACCGCTGAGGACTTCCTCGCAGCAGTCGACGCCACCATCAAGTACTTCAACGACGGAGACCTCGTCGAAGGTACTGTCGTCAAGGTCGACCGCGATGAAGTTCTGCTCGACATCGGTTACAAGACCGAAGGTGTCATCCCCTCCCGCGAGCTTTCCATCAAGCACGATGTTGATCCCGGAGACGTCGTCTCCGTTGGCGATCAGGTCGAAGCCCTGGTGCTCACCAAGGAAGACAAAGAAGGCCGCCTGATCCTCTCCAAGAAGCGCGCTCAGTACGAGCGTGCCTGGGGCGACATCGAGAAGGTCAAGGAAGAAGACGGTGTTGTCACCGGTACCGTCATCGAGGTTGTCAAGGGTGGTCTTATCCTCGACATCGGTCTGCGCGGCTTCCTGCCCGCATCCCTCGTCGAGATGCGCCGTGTGCGCGACCTTGCTCCGTACATCGGTCAGCAGATCGAAGCCAAGATCATCGAGCTGGACAAGAACCGCAACAACGTTGTGCTGTCCCGCCGTGCATGGCTCGAGCAGACCCAGTCCGAGGTCCGCTCCACGTTCCTCAACAAGCTGGAAAAGGGCCAGGTCCGTCCCGGCGTCGTTTCCTCCATCGTCAACTTCGGTGCCTTCGTGGACCTTGGCGGCGTAGACGGTCTCGTCCACGTTTCCGAGCTGTCCTGGAAGCACATCGACCACCCGTCCGAGGTTGTCGAAGTTGGCCAGGAAGTCACCGTCGAGGTCCTCGAGGTCGACCTGGACCGCGAGCGTGTTTCCCTGTCGCTCAAGGCTACGCAGGAAGATCCGTGGCAGACCTTCGCCCGCACCCACGCCCTCGGCCAGGTTGTTCCGGGTAAGGTCACCAAGCTGGTTCCGTTCGGTGCGTTCGTCCGCGTCGAAGACGGCATCGAAGGCCTGGTCCACATCTCCGAGCTCGCCGTGCGCCACGTTGAGCTGGCTGAGCAGGTTGTCTCCGTTGGTGACGAGCTGTTCGTCAAGGTCATCGACATCGACCTCGAGCGCCGCCGGATCTCCCTCTCCCTCAAGCAGGCCAACGAGGGCGTCGACGCCGAAAGCACCGAATTCGATCCTGCTCTCTACGGCATGGCCGCTGAGTACGACGAAGAGGGCAACTACAAGTACCCGGAGGGCTTCGACCCGGAGTCCAACGAGTGGCTTGAGGGCTACGAGAACCAGCGTTCGGCCTGGGAGCAGCAGTACGCTGACGCCCAGACCCGCTGGGAAGCACACAAGAAGCAGGTTGCCCAGCACGCTGCCGACGACGCTGCAGCTGCAACGTCCGGTGAGAGCGACTCCGGCACCACCAGCTACTCCTCGGAGCCGGCTGCTGAGTCCAACACCGGAGCCGGCACGCTGGCTTCGGACGAGGCTCTTGCCGCTCTGCGCGAGAAGCTGACCGGCAACTAA	MTITSTEKPGTPVVAINDIGTAEDFLAAVDATIKYFNDGDLVEGTVVKVDRDEVLLDIGYKTEGVIPSRELSIKHDVDPGDVVSVGDQVEALVLTKEDKEGRLILSKKRAQYERAWGDIEKVKEEDGVVTGTVIEVVKGGLILDIGLRGFLPASLVEMRRVRDLAPYIGQQIEAKIIELDKNRNNVVLSRRAWLEQTQSEVRSTFLNKLEKGQVRPGVVSSIVNFGAFVDLGGVDGLVHVSELSWKHIDHPSEVVEVGQEVTVEVLEVDLDRERVSLSLKATQEDPWQTFARTHALGQVVPGKVTKLVPFGAFVRVEDGIEGLVHISELAVRHVELAEQVVSVGDELFVKVIDIDLERRRISLSLKQANEGVDAESTEFDPALYGMAAEYDEEGNYKYPEGFDPESNEWLEGYENQRSAWEQQYADAQTRWEAHKKQVAQHAADDAAAATSGESDSGTTSYSSEPAAESNTGAGTLASDEALAALREKLTGN	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
D1-29_02503	495			hypothetical protein	ATGTCCCGCTCCCTTGACGTCCGGTTGGCAGACGTAGACGAGGCCATGTTGGAACAGCTCATGGCTCTGGCCATGACGGATGCCTCGCCTGACGAGGTCACACCCCCGCTTGGCTCCGGCGCGGGCTGGAACACCGAGCGGATTGACTGGTTCCGGGCCTACCACCGGGCGGCGGCGGCAGGCCTGGACGGAGCGGCGCAGGAGAAGTCATGGGCGGTACTTTGCGACGGCAGCGCCGCCGGTTCCGTCAGGCTGAAGCGGACAGGGCCGGCAACGGCGGAAACCGGCATCTGGCTGGGCCGCAGTTGGCGCGGCTCCGGCATCGGAACCGCAGCGCTGACCCTGGTCCTGGCGGAGGCGCGGCGGGCCGGCCTGCAACAGGTAACGGCCACCACCACGGACGCCAACATTGGCGCCCAGCGCCTCCTCACGGCGGCAGGTGCCCTGCTGACGTCCGACGACGGGGGCGCGGTGAGTGCCGCCGTCGTACTGTAG	MSRSLDVRLADVDEAMLEQLMALAMTDASPDEVTPPLGSGAGWNTERIDWFRAYHRAAAAGLDGAAQEKSWAVLCDGSAAGSVRLKRTGPATAETGIWLGRSWRGSGIGTAALTLVLAEARRAGLQQVTATTTDANIGAQRLLTAAGALLTSDDGGAVSAAVVL				NA	NA	NA	NA	NA
D1-29_02504	726			hypothetical protein	ATGAGTTCAGGGGGCGGTGGGGCCTACACTGGGGCGGTGCAAGAGCAAGACAGCCGGACCACCGCCTACACCACGCTTGCCGCAGGAACCGATTCTCGGCACGAGATCGAGCTCAAGCGGTCCCGCTTCATCACTGTGCTCCGCCGCACCGCCACAGAAGAGGCCGCGAAGGACCTGGTATCCGGATTACGCCGCGAGTTCCACGACGCCCGCCACCACTGTTCCGCCTTTGTCCTAGGCCCGGACCGCGATGTTCAGCGTTCAAACGACGACGGTGAACCCTCCGGCACCGCCGGCACGCCCATGCTCGAGGCCCTTGTCAAAAGGGAAACCACGCCGGGGGTGACGGACCTCAGCGACGTGAGCGCCGTCGTCGTGCGCTATTTTGGCGGTATCCTGCTGGGTGCCGGCGGGCTGGTCCGGGCGTACTCGGAGTCGGTGTCCGCGGCTCTGGAGCAGGCGCCGCTGGTGCGCCGCCGCCGGCTGCGGATCTGCGAAGCGTCCGTGCCGCATGCCGCCGCCGGCCGGTTGGAGAATGACCTGCGGGCGGCCGGATTCGTCATGGCGGAAACGGGATACGGCGCCCAGGATACTATCCTGCGCCTGGCCATCCCCGATGAGCCGGCGGACATCTCCGCGGCCGCGGAGCGCGTCTTGTCGCTCACTGCAGGAAAGGCCATGCTCACGCCCGGTGGAACGGAGTGGATTGATGTCCCGCTCCCTTGA	MSSGGGGAYTGAVQEQDSRTTAYTTLAAGTDSRHEIELKRSRFITVLRRTATEEAAKDLVSGLRREFHDARHHCSAFVLGPDRDVQRSNDDGEPSGTAGTPMLEALVKRETTPGVTDLSDVSAVVVRYFGGILLGAGGLVRAYSESVSAALEQAPLVRRRRLRICEASVPHAAAGRLENDLRAAGFVMAETGYGAQDTILRLAIPDEPADISAAAERVLSLTAGKAMLTPGGTEWIDVPLP				NA	NA	NA	NA	NA
D1-29_02505	1233	coaE	COG0237	Dephospho-CoA kinase	GTGCTGAAAATCGGTTTGACGGGCGGCATCGCCTCGGGGAAGTCAGTGGTCGCCTCCCGCCTCGCCCATCTTGGGGCGGTGCTGGTTGACGCTGACGCCCTGGCCCGGGAGGTGCTGGAGCCAGGCACGCCAGGACTGGCCGCCGTCGTTGAGGCCTTCGGCAGTGGAATGTTGAATGGCGGGGGACGGCTGGACCGGGCAAAACTTGGTGCCGTGGTCTTCGGCAACCCGGAGCGGCTGGCCGTATTGAACGGCATCGTCCATCCGTTGGTGCGCCAGGCGGCGGCGGGCCTCGTGGCGGCCGCTCCCGACGGTGCCGTAGTGGTCCAGGATATTCCGCTGCTGGTGGAGACCGGCCAGGGGAGCGACTTCCACCTGGTTATGGTGGTGGATGCCCCGGACGAGGTCCGGATCCGGCGGATGCTGGACCACCGCCGCATGTCAGCGGACGAGGCCAGGTCACGAATGGCCGCGCAGGCTCCGCGCGATGAACGGCTCGCCGCTGCCGACGTGGTGCTGGACAACTCCGGCTCCATGGACGGACTGCTGGCGCAGGTGGATGCACTCTGGGGGGAGCGGCTGGCCCCGTTCGCCCGCAATCTCCTGACGCAGACGCCCGCTGACCGCCCAGGCGGACCGGTCCTGCACGCGCCTACCTCCGAGTGGCCGCGGACCGCGGAACGGCTGATCACCAGGATCCTCGCCGCGCTCCGGAAGGACGCGCCGGATGGGACGCCTCCAGTCCTCGGGGTGGATCACATCGGCTCAACGTCGGTCCCTGGCCTGGACGCGAAGGATGTTCTGGATCTGCAGGTGACAGTACTGGCGTTGGCTGCGGCGGGACCGCTGGAGCCCGTCCTGGCCGCCGCCGGATATCCCCGCGTGCACGCCATCACGGCGGATACGCCCAAGCCAACCCTGCCGGACACCACTGCCTGGGCGAAACGGTTACACGCCAGCGCCGATCCCGGCCGGGCAGTCAACCTGCATATCAGGGCCGCCGGGTCTCCCGGCTGGCGCTTCACCCTCTGTTTCCGGGACTGGCTCCGGGCCGATCCGGACGCTGCGGCGGATTATGTCGCCCTGAAACGCCGCCTTGCGGATCTTCACGCCACCGACCCCTCCACGGCCGCCTACGCCGCCGCCAAAGAGGCTTGGTTCGCCGCGGCGGAAGAGCCAATGGAGCAGTGGGCCAAACGCTCGGGGTGGGCCCCGCCGTCGTACCCGTCCTGA	MLKIGLTGGIASGKSVVASRLAHLGAVLVDADALAREVLEPGTPGLAAVVEAFGSGMLNGGGRLDRAKLGAVVFGNPERLAVLNGIVHPLVRQAAAGLVAAAPDGAVVVQDIPLLVETGQGSDFHLVMVVDAPDEVRIRRMLDHRRMSADEARSRMAAQAPRDERLAAADVVLDNSGSMDGLLAQVDALWGERLAPFARNLLTQTPADRPGGPVLHAPTSEWPRTAERLITRILAALRKDAPDGTPPVLGVDHIGSTSVPGLDAKDVLDLQVTVLALAAAGPLEPVLAAAGYPRVHAITADTPKPTLPDTTAWAKRLHASADPGRAVNLHIRAAGSPGWRFTLCFRDWLRADPDAAADYVALKRRLADLHATDPSTAAYAAAKEAWFAAAEEPMEQWAKRSGWAPPSYPS	PGPT0008835_6	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
D1-29_02506	2100	uvrB	COG0556	UvrABC system protein B	ATGAGCCTTGCCCAGGAGATCAACCGTGTCGTAGCGCCGTTTGAAGTCATCAGCGAGTTCCAGCCGGCGGGTGACCAGCCTGCCGCCATCGCCGAGCTGACGGACCGCATCAAGAACGGCGAAAAGGACGTGGTCCTGCTCGGCGCCACCGGTACCGGTAAGAGCGCCACCACGGCGTGGCTCATCGAACAGGTCCAGCGCCCCACCCTGGTGATGGTGCAGAACAAGACACTCGCCGCCCAGCTGGCCAATGAGTTCCGGGAACTGCTGCCCAACAATGCCGTGGAGTACTTCGTCTCCTACTACGACTACTACCAACCGGAAGCCTACGTTCCGCAGACGGACACCTTCATCGAGAAGGACTCCTCCGTCAATGAGGAGGTGGAGCGGCTGCGGCACTCGGCCACCAACGCCCTCCTGACCCGCAGGGACGTGATCGTTGTCGCCACCGTGTCCTGCATCTACGGCCTCGGTACGCCGGAGGAATACATCGCCGGTATGGTCACGCTCCGCAAAGGCCAGCAGATGAACCGGGACCATCTCCTGCGCAAGTTTGTGTCCATGCAGTACACCCGCAATGACATGGACTTCCACCGCGGGACCTTCCGCGTCCGCGGCGATACCGTAGAGATCATCCCCATGTATGAGGAACTGGCGCTGCGCATCGAGTTCTTCGGGGACGAAGTAGAGAACATCTACACCCTGCACCCTGTCACCGGGGAAGTCATCCGGGACGAAACCGAAATGTACGTCTTCCCTGCGTCCCACTACGTCGCGGGACCTGAACGGATGGGACGCGCCATCAAGGCCATCGAGGACGAGCTCGCCGAACGGCTGGCGGTGCTGGAAGGCCAAAACAAGCTTGTGGAGGCACAGCGCCTGCGGATGCGCACCACGTATGACCTCGAAATGATGCAGCAGATGGGCTTCTGCAACGGCATCGAAAACTATTCCCGGCACATCGACGGCCGGCCCGGAGGAAGCGCCCCGCACTGCCTCATCGATTACTTCCCCGATGACTTCCTGCTGGTCATCGACGAATCCCATGTGACGGTTCCGCAGATCGGAGCCATGTATGAAGGTGACATGTCCCGGAAGCGGACCCTCGTGGACCACGGCTTCAGGCTTCCCTCAGCCATGGACAACCGGCCGCTGAAGTGGGACGAGTTCCTGGAGCGCGTCGGCCAGACCGTCTACCTGTCCGCGACGCCTGGGAAGTACGAACTCGGCAAGGCTGACGGTTTCGTCCAGCAGATCATCCGGCCCACCGGCCTGATCGACCCCGAAGTGGTGGTCAAGCCCACCAAAGGACAGATCGATGACCTCCTGGGCGAGATCCGGACACGGGTGGAAAAGGACGAGCGCATCCTGGTCACCACGCTCACCAAGCGGATGGCGGAGGACCTCACCGATTACCTGCTGGGCCACGGCATCAAGGTGCAGTACCTGCACTCGGATGTGGATACCCTGCGGCGCGTGGAGTTGCTGCGTGAACTGCGGATGGGCAGTTTTGACGTGCTGGTGGGCATCAACCTGCTCCGTGAAGGCCTGGACCTGCCGGAGGTGTCACTGGTCAGTATCCTGGACGCCGACAAGGAAGGCTTCCTGCGTTCTGCCACCTCCCTGATCCAGACGATTGGCCGCGCAGCGCGAAACGTGTCCGGCCAGGTCCACATGTACGCTGACCGCATCACCGACTCCATGGCCAAGGCGATCGACGAAACCAACAGGCGCCGCGCCATCCAGGTGGCCTACAACACCGAAAACGGTGTGGATCCGCAGCCGCTCCGGAAGAAGATCGCGGACATCACGGACCAGCTGGCCCGGGAGGACGCCGATACCCAGGAACTGCTCAGCAACAACCGGCTGGCCAAGGGCGCCAAACGGGGGAAGTCCACAGCAAAGGGCGCTGCCCAGGTCCGCGCAGACGGCCTGGCAGCAGCTCCGGCCGAGGACCTTGTGGGCCTGATCGAACAGCTCACCGAGCAGATGCATGGCGCAGCCGCCGAACTTCAGTTCGAGGTGGCCGCCCGGATCCGTGATGAAGTCAGCGATCTGAAGAAGGAACTCCGCCAAATGCAGGCTGCCGGGCACGCCTGA	MSLAQEINRVVAPFEVISEFQPAGDQPAAIAELTDRIKNGEKDVVLLGATGTGKSATTAWLIEQVQRPTLVMVQNKTLAAQLANEFRELLPNNAVEYFVSYYDYYQPEAYVPQTDTFIEKDSSVNEEVERLRHSATNALLTRRDVIVVATVSCIYGLGTPEEYIAGMVTLRKGQQMNRDHLLRKFVSMQYTRNDMDFHRGTFRVRGDTVEIIPMYEELALRIEFFGDEVENIYTLHPVTGEVIRDETEMYVFPASHYVAGPERMGRAIKAIEDELAERLAVLEGQNKLVEAQRLRMRTTYDLEMMQQMGFCNGIENYSRHIDGRPGGSAPHCLIDYFPDDFLLVIDESHVTVPQIGAMYEGDMSRKRTLVDHGFRLPSAMDNRPLKWDEFLERVGQTVYLSATPGKYELGKADGFVQQIIRPTGLIDPEVVVKPTKGQIDDLLGEIRTRVEKDERILVTTLTKRMAEDLTDYLLGHGIKVQYLHSDVDTLRRVELLRELRMGSFDVLVGINLLREGLDLPEVSLVSILDADKEGFLRSATSLIQTIGRAARNVSGQVHMYADRITDSMAKAIDETNRRRAIQVAYNTENGVDPQPLRKKIADITDQLAREDADTQELLSNNRLAKGAKRGKSTAKGAAQVRADGLAAAPAEDLVGLIEQLTEQMHGAAAELQFEVAARIRDEVSDLKKELRQMQAAGHA	PGPT0014920_1264	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014920-uvrB-K03702	NA	NA
D1-29_02507	1044		COG0861	putative membrane protein	GTGCTCGAACTTCCCGTCTGGTTCGAAGTCGGCTCATTCGTCGTCCTCGGCCTCATCCTCGCTCTTGACCTTCTACTGGTGCTCCGCCGCCCACATGAGCCTTCCATGAAGGAAGCCGGCCTGTGGGTGGCTTTTTACGTGGCTTTGGCCATGGTCTTTGCGGGCGCCATGTTCATGTTCACCGGCCCGGAGTATGGCGGGCAGTTCCTTGCCGGCTGGGTCACCGAGTACAGCCTCAGCATCGACAACCTTTTTGTTTTCATCATCATCATGGCCCGGTTCTCAGTACCCCGTAAGTACCAGCAGGAAGTGCTGATGGTGGGCATCATTATTGCGCTGATCCTCCGCGGAATCTTCATCCTGCTGGGCGCCATGGTCATCGAGCAGTTCAGCTGGGTCTTCTACATCTTCGGTGCCTTCCTGCTGTGGACAGCCTGGAAGCAGGCCCAGGATGAGGGCGAAGACGAAGAGGACCGGGAAAACCCGATCATCGAGAAGCTCCGCAAGGTGATTCCGATGTCGGAGAAGTTCGACGGCGGCAAGCTGCGCACGGTGGTGGACGGCAAAAAGGTCTTCACCCCGATGCTCATCGTTTTCGTCACTATCGGCATGACCGACCTGCTGTTCGCCGTGGACTCGATCCCCGCGATCTTCGGTCTGACCCAGAGTGCCTTCATTGTCTTCACCGCGAACATCTTCGCGCTCATGGGCCTCCGCCAGCTCTACTTCCTGCTGGGCGGACTGATGAACCGGCTCATCTACCTCAAGCACGCGCTCTCGGTGATCCTCGCCTTCATCGGGGTCAAGCTGGTCCTGCACGCGATGCACGTCAACGAACTCCCGTTCATCAATGGCGGCCAGCATATCGAGTGGGCTCCGGAGATCCCCACCTTTGTATCCCTGGGTGTGATCATCGGCACGATCGTCATCGCCGTGATTGCCAGCCTGGTCAGTTCCAAGGCAAAGGCGGCCCACCTGGATCCCCGCCTTGAGGAAGATGCCAAGAAGAGCCTCAGGGACTCTGACCTCACCGACGCCGAATAG	MLELPVWFEVGSFVVLGLILALDLLLVLRRPHEPSMKEAGLWVAFYVALAMVFAGAMFMFTGPEYGGQFLAGWVTEYSLSIDNLFVFIIIMARFSVPRKYQQEVLMVGIIIALILRGIFILLGAMVIEQFSWVFYIFGAFLLWTAWKQAQDEGEDEEDRENPIIEKLRKVIPMSEKFDGGKLRTVVDGKKVFTPMLIVFVTIGMTDLLFAVDSIPAIFGLTQSAFIVFTANIFALMGLRQLYFLLGGLMNRLIYLKHALSVILAFIGVKLVLHAMHVNELPFINGGQHIEWAPEIPTFVSLGVIIGTIVIAVIASLVSSKAKAAHLDPRLEEDAKKSLRDSDLTDAE	PGPT0004905_699	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004905-terC-K05794	NA	NA
D1-29_02508	1365	rfnT_1		Riboflavin transporter RfnT	ATGGCCCGCACCCTGAATACCGAAATCGGAGTGCGCCAGGTGCAAAGGCGCACCGTGGCGCTGCTGAGCGCGGCCCAGGTCCTGGGCGGCATTGGAACGGGAGCAACGGTATCCGTCGGGTCCCTCCTTGCCGTGGACCTGTCGGGCTCCACTGCCTGGGCAGGGGCGGTGGCAACCATCATGACTCTGGGCGCTGCGCTGGTGGCGCTTCCCCTTGCCTCGCTGGCCGACCGCCGGGGGCGGCGGGTTGGCCAGGTCGCGGGGCTGTCTGCCGCTGTCGGAGGAGCTTTCCTGATCGTACTGTCGGTTGTGACCGGGCTTTTCGTCCTGCTGTTGGTGGGGGCAGCCGGCATCGGTGTGGGTGCCGCCGCCAGCCTGCAGGCACGCTTTGCCGCGGTGGACCTCGCCGATGCCGAACACCGCGGGCGGGCGTTGTCGTCAGTGGTGTGGGCGGTCACCGTGGGTGCGGTGGCCGGACCCAACCTGATCCAGCCCGGAGCCGTCGTCGGACAGGCCCTGGGCCTGCCCCCCATGGCTGGTCCGTTCGTGATTTCCGGTGCTGGTCTGGTGTTGGCCACCGTCCTGCTTTTTGCCGGGCTAAGGCCTGACCCCCTCCTGCTCGCACGCGAGCTCGCCGCCCGGCAGGCCAACGGTACTGACACTGGCACGCCGCAGCCGCCGGGAAACCTGCAGGCGGCTGCGCCCCGTCCTGCCTTCGGAAGTTCACTCGTCCGCGGGCTGCGGGCGATTCGGCAGTCCAGGGCGGCTGTCCTGGCACTGGCAGCTGTTGTGGGAGCCCACGCCATCATGGTGGGAGTCATGTCCATGACGCCGCTGCATCTGCAGGAACTCGTGGCAGGGCCGGGAGCCTCCCACGCCGGCCACACTGCCTCAGGCGATGTCCTGGTCATTATCGGCTTCACGATCTCCCTGCATATCGCAGGCATGTTTGCGCTGTCACCGGTCATGGGCTTGCTGACAGATAAAGCAGGCCGGACCGAGACCATCGTCCTGGGGTTTATCACGCTCATGGCTGCTGTTGCTGTTGCCGGGTTCGGGCAGGCATCAACGGCTGCCGTGGCCACCGGGCTGGTCCTGCTGGGAATAGGCTGGTCCGCGTCGACCATCGCCGGTTCCACCCTGCTGGCGGAAAGCGTGGGCCAGGAATCACGGGTTGTTGTCCAGGGCGTTTCCGACATGATGATGGGGATCGCAGGAGCGGTCGGCGGGGCCACCTCCGGGCTCATCCTCAGTTGGACGGGCTACCTCGGGCTGAACCTTGCCGGCGGCGTGGTGGGGGCGGCCGTGCTGGCTGCGGCCCTGGTGACACTTGTAGCACACCGCCGTCAGCCACTGGCCGGCTAG	MARTLNTEIGVRQVQRRTVALLSAAQVLGGIGTGATVSVGSLLAVDLSGSTAWAGAVATIMTLGAALVALPLASLADRRGRRVGQVAGLSAAVGGAFLIVLSVVTGLFVLLLVGAAGIGVGAAASLQARFAAVDLADAEHRGRALSSVVWAVTVGAVAGPNLIQPGAVVGQALGLPPMAGPFVISGAGLVLATVLLFAGLRPDPLLLARELAARQANGTDTGTPQPPGNLQAAAPRPAFGSSLVRGLRAIRQSRAAVLALAAVVGAHAIMVGVMSMTPLHLQELVAGPGASHAGHTASGDVLVIIGFTISLHIAGMFALSPVMGLLTDKAGRTETIVLGFITLMAAVAVAGFGQASTAAVATGLVLLGIGWSASTIAGSTLLAESVGQESRVVVQGVSDMMMGIAGAVGGATSGLILSWTGYLGLNLAGGVVGAAVLAAALVTLVAHRRQPLAG	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
D1-29_02509	1344	rfnT_2		Riboflavin transporter RfnT	GTGACTTCTTCTACCGCAGCGGCGCTGGACCCCCACCGGGTCCAGCGCCGTACTGTCCTGGTTCTTAGCCTTGCCCAGCTGCTTAGCGGGATCGGCAGTGGCGCAAGCCTGTCCGTCGGCTCCCTCCTCGCCGTCCAGCTCTCCGGCTCCAATGCCTGGGCAGGCTCGGTGACCACCGTGATGACCCTGGCGACTGCGCTTGCCGCCATGCCGCTGGCAGGACTTGCCGAACGGCGCGGCCGCCGGATTGGGCTCCTGACAGGTGTCCTGTCCGGAATGCTGGGGGCGATTCTGGTCATCGCGGCAACGGTGTCGGGGTTCTTTCCGGTGCTCCTGGCCGGAGCCGCCCTCCTGGGGCTGGCCACTGCGGCAAACCTCCAGGCCCGGTTTGCCGCGGTTGACCTGGCGGATCCGGAGCACCGGGGCCGTTCCCTTGCCATTGTTGTCTGGGCTGTCACCGCCGGAGCGGTGGCGGGCCCCAACCTGATCAGGCCTGGCGCTGTTGTGGGTGAGGCCATGGGACTGCCAGGCATCGCCGGCCCCTTTGTTTTCTCCACCGTGGGACTCGCGTTGGCGGCCCTCCTCCTGCTGGTTGCTCTGCGCCCGGATCCGTTGCTCCATGCCCTGGCCATCAGGCGGGCTGCTGGCGGCGGCGCCGATGCCGTCATCCCGGGCCCCCGCCGGGGTTCACTCCGCCGCGGGCTTGCCGCCATCCGGTCCTCGCCGCAGGCCGGCCTGGCGCTGCTGGCCGTCGTTGCAGCCCACGCCTGCATGGCAGCGGTGATGTCCATGACGCCGCTGCATCTTCAACTCCTGAGCGAAGGACCGCTGGCCTCCCATGGTGCCGGCCACGCCCACACCGCCAGTACGGACGTCTTTGTGCTGATAGGCTTCACCATTTCGCTGCACATCGCAGGGATGTATGCACTGTCTCCGGTGATGGGGTGGCTGACCGACCGTGCAGGCAGGGTTCCCGTCATCATCGGCGGGCACGGCCTGATCCTGGCGGCGGCATGCTGTGCAGGGTTTGGCGCCGGACAGCCCATCCTCGTCACCACCGGATTGGTGCTCCTGGGACTGGGCTGGTCTGCCGCCACCATCGCCGGCTCCACCATGCTGGCGGAGAGTGTCAGCGTCGATTCCCGGGTCCTGGTCCAGGGCGTTTCGGACACCCTGATGAGCGGGGCCGGAGCAATTGGTGCCGGTTTCTCGGGCGTGGTGATGAGCTGGATCGGCTACCAGGGGCTGAACATGTTTGCGGTGGCCGTTGCTGCCCTGGTGATGGCCGTGCTGGCTGCGGATTTCCGCAGCCGGGGGACGGCCAGCCCCTTAGCGGCGGGCTGA	MTSSTAAALDPHRVQRRTVLVLSLAQLLSGIGSGASLSVGSLLAVQLSGSNAWAGSVTTVMTLATALAAMPLAGLAERRGRRIGLLTGVLSGMLGAILVIAATVSGFFPVLLAGAALLGLATAANLQARFAAVDLADPEHRGRSLAIVVWAVTAGAVAGPNLIRPGAVVGEAMGLPGIAGPFVFSTVGLALAALLLLVALRPDPLLHALAIRRAAGGGADAVIPGPRRGSLRRGLAAIRSSPQAGLALLAVVAAHACMAAVMSMTPLHLQLLSEGPLASHGAGHAHTASTDVFVLIGFTISLHIAGMYALSPVMGWLTDRAGRVPVIIGGHGLILAAACCAGFGAGQPILVTTGLVLLGLGWSAATIAGSTMLAESVSVDSRVLVQGVSDTLMSGAGAIGAGFSGVVMSWIGYQGLNMFAVAVAALVMAVLAADFRSRGTASPLAAG	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
D1-29_02510	1380	pip_3		Proline iminopeptidase	ATGGCTAAGGCCGCACGGGCTGCGGTGCGGGCCGCCGGCCCTGTAGCCCACACGGTCCGGGCCCGCCACGAGTTCCGCGGCATGCGCACGGCAGAGCACTATTTCACCGTTCCCCTGGACCATTTCGGGCACGATGCGGTGCGCCCTGACCGGCAGACAGGGTCAGGTCCGGAAACCATCACTGTCTTCGCACGCGAGTACGTATCGGCTGCCCACACCGAGGCTGAGGCGCAGAGCCTGCCGTGGCTGCTGTTCCTCCAGGGCGGCCCGGGAGGCCGCGGGCCCAGGCTTGCCTCGCTGGGCGGCTGGAGCAAAGCGGCCGCCAAGGACTTCCGGATCCTGATGCTCGATCAGCGCGGGACCGGGCTCTCCTCGCCCATCGACCGGAATACCCTGCCGCTTCGGGGCACACCAGAGCAGCAGGCCGCGTACCTTGAGCACTTCCGGGCCGATTCCATCGTCGCCGACGCCGAGCTCATCCGCCTGGCCCTAGGCTCAGGACCCTGGACTATCTACGGCCAAAGCTACGGCGGTTTTTGCGCACTCAGTTACCTGTCCTTCGCCCCCGGGGGCGTTAAGGAGGCGCTCATCACGGGAGGCTTGGCGCCCCTCTCTGGCACGGCCGACGACGTCTACCGGGCCACCTTCCGGCGGGTAGCCGCGCGGAACGACGAGTACTTCACGTGGTATCCCGAGGACCGCACCACAGTGGAGCGGATCGCCGCCCACCTGCGTCAGGTACCCGAGGTCCTTCCCGACGGCGGGCAGCTCACCGTGGAGCGGTTCCAGATGGCCGGAGCCTTCCTGGGCGGAAACACCCGGGTGGACGGACTCCACTTTTTGCTGGAGGACGCTTTCACCGAGACACCAGATGGTACCCGGCTCTCGGACGCTTTCCTGGAACAGATGCAGGGAATCGTATCCCGGCAGTCGAACCCGCTCTATGCCCTGATGCACGAGTCAATCTATGGTCAGGGCCAGGCGACCGACTGGTCCGCCTGGCGGGTGCTCCAGGAGTATCCGGAATTCAGGCCGGAAGCAGAACCCCTGCTGCTGACCGGCGAAATGGTCTACCCGTGGTACTTCGACCAGGACCCGGCCTTGCGTCCGCTGCAAAAAGTGGCGGAACTGGTAGCGGCCAAGAAGGACTGGAAGCCGCTCTACAGTTCCTCCCGGCTTGCGGCCAACACGGTGCCCGTTGCCGCGGCCGTCTACCGTGACGACATCTACGTGGACCGCGACCTGTCGCTGGAGACCGCTGCAGCGGTCAGGGGACTGCAGGTCTGGGAGACGGCCGACTTCCACCACGACGGGATTTCGGACGACGGCGAGGCGATCTTCGGCCGCCTGCTGGGCATGGTCCGCTCAGCCCGCCGCTAA	MAKAARAAVRAAGPVAHTVRARHEFRGMRTAEHYFTVPLDHFGHDAVRPDRQTGSGPETITVFAREYVSAAHTEAEAQSLPWLLFLQGGPGGRGPRLASLGGWSKAAAKDFRILMLDQRGTGLSSPIDRNTLPLRGTPEQQAAYLEHFRADSIVADAELIRLALGSGPWTIYGQSYGGFCALSYLSFAPGGVKEALITGGLAPLSGTADDVYRATFRRVAARNDEYFTWYPEDRTTVERIAAHLRQVPEVLPDGGQLTVERFQMAGAFLGGNTRVDGLHFLLEDAFTETPDGTRLSDAFLEQMQGIVSRQSNPLYALMHESIYGQGQATDWSAWRVLQEYPEFRPEAEPLLLTGEMVYPWYFDQDPALRPLQKVAELVAAKKDWKPLYSSSRLAANTVPVAAAVYRDDIYVDRDLSLETAAAVRGLQVWETADFHHDGISDDGEAIFGRLLGMVRSARR				NA	NA	NA	NA	NA
D1-29_02511	501			hypothetical protein	ATGAGTGTAATCCGCCCCGCAACAGTTCAAGACGTCCCCACGATCCTGCGCATGATCCATGATTTGGCCATCTATGAGAAGGAACCGGACGCCGTCCGGAACACCCCGGGGAAGCTTGCGGAGGCGCTGTTCGGCGAGAATCCGCGGGTGTTCGCCACGATGGCCGAGAATGAGGCCGGCGACGTCCAGGGATTCGCACTCTGGTTCCTGAACTACTCCACCTGGGAAGGCGTTCACGGCATCTACCTGGAGGACCTTTACGTCAGCCCGGAGGCGCGGGGCGAGGGCCATGGCAAGGCGCTGCTGCAGCACCTTGCGGCCACCGCCGTCGAAAACGGTTATGCACGGGTGGAGTGGAGCGTCCTGGACTGGAACGAACCGTCCATCAATTTCTACCGGAACCTCGGTGCGTTCCCCATGGACGGCTGGTCCACGTTCCGGCTGACCGGAGATGCGCTGGAACACTTCGGCAGCACCCGCCCCGTGTCTGTCCATGGCTAA	MSVIRPATVQDVPTILRMIHDLAIYEKEPDAVRNTPGKLAEALFGENPRVFATMAENEAGDVQGFALWFLNYSTWEGVHGIYLEDLYVSPEARGEGHGKALLQHLAATAVENGYARVEWSVLDWNEPSINFYRNLGAFPMDGWSTFRLTGDALEHFGSTRPVSVHG	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
D1-29_02512	2547			hypothetical protein	ATGAAACTCGTTGACCAGCTGCCCGTCCTGTCCGTTCCAAGCCTTTCCGGAGCGGGCATCGATCCTGACGCTTTGTACACACAATTCCTTGAGTGGACTGACAGCCGCGGACTTGCCCTGTATGCGGCACAGGACGAAGCCATTATGGAGTTGGCCACCGGCGCCAACGTCATCCTGGCTACCCCGACGGGCTCGGGGAAGTCGCTTGTTGCGATAGCCGCCCATTTCCAGGCCATGTCCCGCGGGCAGCGAAGCTACTACACGGCGCCCATCAAGGCCCTGGTGTCGGAGAAATTCTTTGCGCTGTGCGACATTTTCGGGGCTGAAAACGTCGGTATGATCACGGGCGATTCCGGGGTTAACCAGGATGCCCCGATCATCTGCTGTACAGCCGAGATCCTGGCCAACATAGCTCTCCGGGAAGGCGCCGGCGCCGACCTGGGAGCCGTCATTATGGACGAGTTCCACTTCTACTCCGATCCGCAGCGCGGCTGGGCGTGGCAGGTTCCGCTGCTGGAACTCCCGCAGGCCCAGTTCCTCCTGATGTCCGCGACGCTGGGCGACGTCAGCCGGTTCGAGGAAGGCATCACCGGGCTCACCGGCCGTCCCACCACAACCGTGAGTTCAGCGGAACGGCCCATCCCGCTGCACTACTACTACCACCAGACGCCTGTGCACGAGACGCTTGAAGAGCTCCTCTCGACGCGCCAGGTGCCGGTCTATGTGGTGCATTTCAGCCAGATCGAAGCCATTGACCGCGCCCAGAACCTGATGAGCATCAACGTCTGCACCCGTGAGGAAAAAGACAAGATCGCGGAGCTGATCGCCAACTTCCGTTTCGCCGCGGGGTTCGGGAAAACCCTCAACCGGCTGGTGCGGCACGGTATCGGCGTCCACCATGCAGGGATGCTTCCCAAATACCGGAGGCTGGTGGAGCAGCTCGCCCAGGCGGGCCTGCTGAAGGTTATCTGCGGGACCGACACCCTGGGCGTGGGTATCAACGTGCCCATCCGCACCGTCCTGCTCACGGCCCTGAGCAAGTACGACGGCGTCCGTACCCGCCTGCTTAACTCCCGGGAGTTCCACCAGATTGCGGGGCGCGCCGGCCGCGCCGGCTATGACACTGCCGGAACCGTTGTGGTCCAGGCCCCCGAGCACGTGACAGAGAACGTCAAAGCGATGGCCAAGGCCACGGCCAAATTCGGCGACGACCAGAAGAAGCTTCGCCAGGTGGTGAAGAAGAAACCTCCCGAAGGATTTGTCTCTTGGGGCGAACCGACTTTTAAGCGCCTGGTGGAATCGGTCCCGGATCCGCTGACTTCCAGCTTCAGCGTCACCCATTCGATGCTGATGAACCTGATGGAGCGGCCTGGTGACCCCTTCACCGCCGCACGGCGGCTGCTGACGGAGAACCATGAGCCACGGTCCTCCCAGCTGCAGCTGATGAAAAAGGCACTGGGGATCTATCGGGAACTGCTGGCGGCCGAAGTGGTGGAGCGCATCCCGCTGGAGCAGCAGGGCGCGGATGGCCGCAGCGTGCGGCTGACAGTCCATCTGCAACCGAACTTTGCGCTGAACCAGCCGCTTTCCCCGTTTGCGCTGGCAGCACTGGAACTGCTGGATCCGGACTCGGCGTCGTACGCATTGGACGTGGTGTCCGTGATCGAAGCGACCCTGGAAAAACCCCGGCAGATTCTCTCCGCCCAGCAGAAAAAGGCCCGCGGTGAGGCAATCGCTGCCATGAAGGCTGACGGTATCGAGTACGACCAGCGGATGGCGATGCTGGAGGAGGTGACGTATCCGCAGCCTCTGGCCGAAATCCTGGGCGAGGCCTTTGAGGTCTACCGCAAGGCCGCGCCCTGGGTGGGCGACTTCGAGCTGGCCCCCAAGTCCGTGGTCCGTGACATGTATGAACGGGCCATGAACTTTGGCGAATTCGTCCAGTTCTACGGCCTGGCCCGCTCCGAGGGAATTGTCCTGCGCTACCTCGCGGACTGTTTCAAGGCGCTCCGCCAGACAGTGCCGCAGGACCTGCTCCGGGAGGACCTCGAGGATCTGATCGCCTGGCTGGGTGAATTGGTGAGGCAGGTCGATTCGAGTTTGCTGGATGAATGGGAGGAACTGACCTCCGGCGCCGCGCCCACTCCGCATGACGCCCCGCCGCCTCCTCCCCCTTCACTGACGTCCAACGTCCGGGCCTTCCGGGTGATGGTCCGCAACGAGATGTTCCGGCGGGTGGAACTCTTCGCGGATGAGAACGCAACCGCCCTGGAAGAACTCGACGGCGGCGCCGGCTGGGACGCTGACCGCTGGGAGGACGTCCTGGACGACTACTTCGACGAACATAACGACATCGGCACCGGCCCTGACGCCCGCGGGCCGGAGCTGCTGATCATCACCGAAGAGCCCGGGCAGTGGAAAGTACGCCAGATCTTTGACGATCCCGGAAAGAACCATGACTGGGGAATTTCGGCTGTGGTGGATCTGGCCGCGTCTGACGAAACGGGTACGGCCGTAGTCCGCGTGACCGACGTCAACCGGCTCTGA	MKLVDQLPVLSVPSLSGAGIDPDALYTQFLEWTDSRGLALYAAQDEAIMELATGANVILATPTGSGKSLVAIAAHFQAMSRGQRSYYTAPIKALVSEKFFALCDIFGAENVGMITGDSGVNQDAPIICCTAEILANIALREGAGADLGAVIMDEFHFYSDPQRGWAWQVPLLELPQAQFLLMSATLGDVSRFEEGITGLTGRPTTTVSSAERPIPLHYYYHQTPVHETLEELLSTRQVPVYVVHFSQIEAIDRAQNLMSINVCTREEKDKIAELIANFRFAAGFGKTLNRLVRHGIGVHHAGMLPKYRRLVEQLAQAGLLKVICGTDTLGVGINVPIRTVLLTALSKYDGVRTRLLNSREFHQIAGRAGRAGYDTAGTVVVQAPEHVTENVKAMAKATAKFGDDQKKLRQVVKKKPPEGFVSWGEPTFKRLVESVPDPLTSSFSVTHSMLMNLMERPGDPFTAARRLLTENHEPRSSQLQLMKKALGIYRELLAAEVVERIPLEQQGADGRSVRLTVHLQPNFALNQPLSPFALAALELLDPDSASYALDVVSVIEATLEKPRQILSAQQKKARGEAIAAMKADGIEYDQRMAMLEEVTYPQPLAEILGEAFEVYRKAAPWVGDFELAPKSVVRDMYERAMNFGEFVQFYGLARSEGIVLRYLADCFKALRQTVPQDLLREDLEDLIAWLGELVRQVDSSLLDEWEELTSGAAPTPHDAPPPPPPSLTSNVRAFRVMVRNEMFRRVELFADENATALEELDGGAGWDADRWEDVLDDYFDEHNDIGTGPDARGPELLIITEEPGQWKVRQIFDDPGKNHDWGISAVVDLAASDETGTAVVRVTDVNRL				NA	NA	NA	NA	NA
D1-29_02513	780	tam_1	COG4106	putative trans-aconitate 2-methyltransferase	GTGAAGTGGGACCCTTCAAGGTATGTTCAGTTCGGCGACTACCGGGACCGGCCATTTTTTGATCTGACCGGCCGGATCCACACCCAGAACCCGCATGAGGTGGTGGACCTCGGATGCGGGCCGGGGAACCTCACCGCAACCCTGGCCCGCCGTTGGCCCCACGCCAAGGTGCTGGGGCTGGATTCGTCCGCCGAGATGCTGGCCAGGGCGGCAGCGGAAGCCCGTGAGGAACCCCGGCTGCGCTTCGAGTTCGAGGATATTGCCGAGTGGATGCCGTCGCCCACTACGGACGTGGTGGTCTCCAACGCGGCGCTGCAGTGGGTTCCCGGCCATCAGGACCTGCTGGCCCGGTGGCTTGACCGGCTGAAACCGGGCGCGTGGTTCGCCATGCAGGTCCCCGGCAACTTCAATGCACCGTCCCATGTCCTGATGCGGGAACTGGCTTCGACTCCCCGCTGGAAACCAAAGCTGGAAGGCGTGCTGCGTGGCGGGGAGTCGGTGGGGGAGCCCGCCGACTACCTCGAAATCATGCTTGACGCGAACTGTAGGGCTGACAGCTGGGAAACCAGTTACCTGCAACTCCTCACAGGCACTGATCCAGTACTGGCGTGGGTGCGGGGAACGGCTTTGCGGCCGGTCCTTGCTGCACTTCCTGCCGAGGAGGCACTCGCCTTCGAGGCCGAGTATGCAGCGGCGCTCTCGACGGCATACCCGGGAACCAAGCACGGCACTGTGTTTCCGTTCCGGAGGATTTTCGCCGTGGCACGGAAGAAAGGCTGA	MKWDPSRYVQFGDYRDRPFFDLTGRIHTQNPHEVVDLGCGPGNLTATLARRWPHAKVLGLDSSAEMLARAAAEAREEPRLRFEFEDIAEWMPSPTTDVVVSNAALQWVPGHQDLLARWLDRLKPGAWFAMQVPGNFNAPSHVLMRELASTPRWKPKLEGVLRGGESVGEPADYLEIMLDANCRADSWETSYLQLLTGTDPVLAWVRGTALRPVLAALPAEEALAFEAEYAAALSTAYPGTKHGTVFPFRRIFAVARKKG				NA	NA	NA	NA	NA
D1-29_02514	1740		COG1132	putative ABC transporter ATP-binding protein	GTGCTTTTCGGGATGATGATCCGGCTGTTGGCTGGCCACAAGGCAACCGTCATGGCGATTGTCCTCCTCCAGCTGCTCCAGACTGCCGGCAACCTCCTGCTTCCCACCGTGAATGCGGCCATCATTGACGATGGAATCGTGGCCGGGGACACGCCGGTGATCCTGCGCCTGGGCTCGGTGATGACTGCCATTGCGGCTGTCCAGGCGGGAGCGGCCATCGCCGCGGGATACCTCGGTGCCATGGTGGCCATGAAGCTCGGGCACCAGCTTCGTGCCGAGCTCTTTGGCAAAATCCAGACCCTGTCATCCCAGGAGGTGGCTGCGTTCGGCACCCAGAGCCTGGTCACGCGGGCCACCAACGATACCCAGCAGATCCAGTCATTCGCCGTTTTAGTGTTCACCATGCTTATTGCGGCGCCCGTCATGGGAGTGGGCGGTGTATTGCTGGCCCTGCATCAGGACGTAGTGCTCTCGGCGGTGGTCATCATCATCGTGCCGGTGCTGCTCCTGATCATGTACCTGATCGTTCGGCGCCTCGTGCCGCTGTACCGGGAAGGGCAGGACCTGCTTGACCGCACCGGGGCCGTGCTGCGTGAACAGATTATTGGAGCCAACGTGATCCGGGCCTTTGTCCGGCAGGATCATGAGACCCGGCGATTCGCCCGGACAAACGCCAGCCTTACAGGAAACAATCTGCAATCAGCCCTCGTGGTGGCTGGGATGTTGCCGCTGATCATGATCGTGGTGAACCTCTCATCGGTGGCAGTTGTGTGGTTTGGCGGACACCGGGTGCAGAACGGTGAGATGGAGATCGGCGCCTTAACGGCGTTTGTTGCCTACATCCTGCAGATTCTGCTGGCCATCATGATGGCAATGTATGTGCTCATGACGGCTCCCCGTGCCGCAGCCTGCGCCGAGCGGATCCGGACCGTCCTGGACGCCGAGCCCATGGTGAGGGACGGTGCCGACCGTCGGGACGGGGACCTGGTTTTCGACGGCGGCAGCGTTTCGTTCCGCAATGTCAGCTTCTCCTACCCCGGCGCGGAAGCCCCGGTTCTGGAAAACATCAGCTTCACTGCCCGGCCCGGCACCACCACTGCCATCGTGGGGTCCACGGGCAGCGGAAAATCGACCCTTCTGAACCTGATTCCCCGGTTTATGGATTCCACCGGCGGACTCATCACCGTAGGCGGCCGGGATGTCCGGGCCGTCCCCCTTGACTTGCTGCGCAGGCAGATGTCCGTAGTGCCGCAGCGCTCCCACCTGTTCACGGGCACAGTCGCCGACAACCTGCGGATCGCTGCACCGGCAGCGACGGATGCCGAATTATGGGAGGCGCTGGACATTGCCCAGGCATCGGGCTTTGTACGCCAACTGCCACTGGGCCTGCAGACGGCCGTGGGACAAGGCGGAACAAATCTCTCCGGCGGCCAGCGCCAACGGCTCTGCATTGCCCGGGCGCTGCTTCGTCCGGCTTCCCTGTACCTCTTCGACGACAGCTTCTCCGCCCTGGACTACGACACCGATGCCCGGCTGAGGGACGCACTGGAAGCCGCCCTGCACCTGGCGGTGGTCATCGTCGTGGCGGAACGCATCGCCACCGTGGAGGGCGCCGGGCTGATTCTGGTGCTCGACGACGGCCGCCTCGTGGCACAGGGCACCCACCTTGAGCTGCTGGCGGCCTCCGCCACATACCGCGAAATCGCGGAATCACAGCTTGCCCTGGAGGACACCCTGTGA	MLFGMMIRLLAGHKATVMAIVLLQLLQTAGNLLLPTVNAAIIDDGIVAGDTPVILRLGSVMTAIAAVQAGAAIAAGYLGAMVAMKLGHQLRAELFGKIQTLSSQEVAAFGTQSLVTRATNDTQQIQSFAVLVFTMLIAAPVMGVGGVLLALHQDVVLSAVVIIIVPVLLLIMYLIVRRLVPLYREGQDLLDRTGAVLREQIIGANVIRAFVRQDHETRRFARTNASLTGNNLQSALVVAGMLPLIMIVVNLSSVAVVWFGGHRVQNGEMEIGALTAFVAYILQILLAIMMAMYVLMTAPRAAACAERIRTVLDAEPMVRDGADRRDGDLVFDGGSVSFRNVSFSYPGAEAPVLENISFTARPGTTTAIVGSTGSGKSTLLNLIPRFMDSTGGLITVGGRDVRAVPLDLLRRQMSVVPQRSHLFTGTVADNLRIAAPAATDAELWEALDIAQASGFVRQLPLGLQTAVGQGGTNLSGGQRQRLCIARALLRPASLYLFDDSFSALDYDTDARLRDALEAALHLAVVIVVAERIATVEGAGLILVLDDGRLVAQGTHLELLAASATYREIAESQLALEDTL	PGPT0029025_1008	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
D1-29_02515	1824		COG1132	Fatty acid ABC transporter ATP-binding/permease protein	GTGAAGACTGTGACGGCGCCGGTGGCGGCAGACGCGGCTCCGGGATTGTTCTGGCCCACGTCCCGCCGCCTGCTCGGCCTGCTGACGCCGTACCGATGGCATATGCTGACAGCCATCGTGGCAACCTGCGGGTTTGCCGGCCTCAACGTTGCCGCACCAAAGTACCTGGGAGACGCCACCGACGTTGTGGTGGACGGCGTGTTTGACGGCGTCCTCAACGGGCAGAGGCTGGGGGGCCTGCTGACCGGCGTGGCGCTGATGTACGTCGGAGCGTCGCTGTTCAACTGGGTCCAGGGCTCGCTGACAGCGAGTTCAGTTCATGGCCTTATGTACCGCCTGCGGGCCTCCCTGGAGGACAAGCTGCACAGACTGCCGTCAACGTACTTCCAGGAACAGTCCCGCGGTGATGTCCTCAGCCGGGCCACGAATGACATCGACAACATTTCCCAGGCGCTCAACCAGATCCTGACCCAGTTGATCATGTCCGTCCTGATGCTCTGTGGTGCCTTGGCCATGATGCTCTGGATTTCCCCGCTCCTGGCCGGCCTCGCCCTGGCGTTTGTCCCGTTGTCCATGCTGATCACTGTCCTGGTGGCCCGCCGGTCCCAGGCGCAGTTCGCACGCCAATGGACCGAAACGGGGGAACTGAACGCGCACGTGGAGGAGTTCGTGAGCGGCCATGAGGTGATCAAGGCCTTCGGCTACCAGGAACAGGCAGCGGCAGTCTTTGCTGCGAGTAACGACAGGCTGGCCCGGGCGGCGGCGAAGGCGCAGTATTCATCCGGCATGGTGCAGCCGCTGATGGTGCTGGTGGGCAACCTTAATTACATCGCGGTGGCAGTGGTCGGCGCCCTGCAGGTTACCGCGGGCGCCATGACCATTGGCGGTATCCAGGCCTTCATCCAGTTCAGCCGGCTTTTTACCCAGCCCGTCGGACAGATTGGCGGCATGCTGAACGTTATCCAGTCGTGCGCGGCGTCGGCAGGACGGGTTTTCGCGCTCCTTGACGCGGACGAAATTCCGCCCGAACCACTGAGAATGCGCACACCACCGGAGGCGGGCGGACCCATTGTTTTTGACGACGTCACCTTTGGGTACCAGCCATCCGTCGCCGTCGTCCGTAACCTGTCGTTTACTGTGGCGCCCGGACAGACAGTGGCAATTGTCGGGCACACCGGAGCGGGCAAAACCACCGTCGTCAACCTTCTGATGCGTTTTTATGAAATCGACACGGGCCGGATCACCATGGGCGGGACGGATATTGCCACCATGCCACGGGACACCCTGCGGGCTGAATTCGGGGTGGTGCTCCAGGACGCCTGGCTGTTCGCCGGCAGCATCCGGGAGAACATCGCTTACGCCCGGCCAGGGGCAACTGACGCGGACATTGTGGCCGCAGCAGAAGGAAGCCACGTAGACCATTTCGTCAGGTCGCTCCCGGCAGGATATGACACCATGCTGGACAACGGCGGAGACCCGCTCAGCCAGGGTCAGCGCCAGCTGATCACTATTGCCCGGGCCCAGCTCGCGGGCCGCAGCGTCCTGGTCCTGGATGAGGCCACCAGCTCCGTGGACTCCCGGACCGAACTCCTGATCCGCCAGGCCATGCGCCGGCTGCGGCAGGGGAGGACCAGTTTTGTTATCGCCCACCGTTTGTCCACAGTCCGTGACGCTGATCTAATCTTGGTCATGGATCATGGACGCATCATGGAGCAGGGAACCCACACTGCGTTGCTGGCAGCCAACAGCTATTACTCCAGGCTTTACAACGCCCAGTTCGCCGGCCGTACGGAAAAACCAGATGTCCTGGAGGCCGGGCTATGA	MKTVTAPVAADAAPGLFWPTSRRLLGLLTPYRWHMLTAIVATCGFAGLNVAAPKYLGDATDVVVDGVFDGVLNGQRLGGLLTGVALMYVGASLFNWVQGSLTASSVHGLMYRLRASLEDKLHRLPSTYFQEQSRGDVLSRATNDIDNISQALNQILTQLIMSVLMLCGALAMMLWISPLLAGLALAFVPLSMLITVLVARRSQAQFARQWTETGELNAHVEEFVSGHEVIKAFGYQEQAAAVFAASNDRLARAAAKAQYSSGMVQPLMVLVGNLNYIAVAVVGALQVTAGAMTIGGIQAFIQFSRLFTQPVGQIGGMLNVIQSCAASAGRVFALLDADEIPPEPLRMRTPPEAGGPIVFDDVTFGYQPSVAVVRNLSFTVAPGQTVAIVGHTGAGKTTVVNLLMRFYEIDTGRITMGGTDIATMPRDTLRAEFGVVLQDAWLFAGSIRENIAYARPGATDADIVAAAEGSHVDHFVRSLPAGYDTMLDNGGDPLSQGQRQLITIARAQLAGRSVLVLDEATSSVDSRTELLIRQAMRRLRQGRTSFVIAHRLSTVRDADLILVMDHGRIMEQGTHTALLAANSYYSRLYNAQFAGRTEKPDVLEAGL	PGPT0029030_1776	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
D1-29_02516	378			hypothetical protein	ATGAGTGCCGGGAACAGCTTTCCGGGGAGCTGGAAGCCCAACCAGGCCAGCACGGTGGCGCTGTTCGAACAGTTGCGGCTGCACGTCATCAAACTGGCGGACAGCGGAGTACTGCCACCGGGTACACGGCTTCCCGCAGTGCGGGCCCTGGCCGAACGGCTGGATGTGGCCCCGCACACTGTGGCCCGGGCCTACAAGGAACTTGAGGCGGCAGGCGTGGTGGCCACCCGCGGGAGAAACGGCACGGTGGTCTGCGCGCGGGATGAACGGTGGAACGCACTCTCCGCTGCGGCTGCGGCATACGCGGGAGCAGCCAAGGCCCAGGGTGCCTCGTTCGCCGAGGCGGTTCAGCTGCTGGCCGCGGCATACGACGACTAA	MSAGNSFPGSWKPNQASTVALFEQLRLHVIKLADSGVLPPGTRLPAVRALAERLDVAPHTVARAYKELEAAGVVATRGRNGTVVCARDERWNALSAAAAAYAGAAKAQGASFAEAVQLLAAAYDD				NA	NA	NA	NA	NA
D1-29_02517	2928	uvrA_1	COG0178	UvrABC system protein A	GTGCCTAAAGCCGTAGCTGAAGAAACAGCAGTCGAACCCGCTCCCGCCACCGCAGCCCGGATCCCCGTCAAGCCCGCGCGTCCGGACCTGTCACGCCTGGTTGTCAAGGGCGCGCGCGAGCACAATCTGCGCAACGTGGACCTCGACCTGCCCCGCGACGCCATGATCGTCTTCACAGGCCTGTCCGGTTCCGGCAAGTCTTCCCTTGCCTTTGACACCATCTTCGCCGAGGGACAGCGGCGCTACGTTGAGTCCCTTTCCGCCTACGCGCGTCAGTTCCTGGGCCAGGTGGATAAACCTGACGTTGACTTCATCGAGGGACTGTCCCCGGCCGTGTCCATCGACCAGAAATCAACCAGTAAGAACCCGCGTTCCACCGTTGGCACCATCACGGAAATTTACGACTACATGCGCCTGCTCTGGGCGCGCGTGGGGCGTCCGCACTGCCCGGTCTGTGGTGAGCCCGTGATCAAGCAGACCCCCCAGCAGATTGTGGACCAGCTGCTGGAGCTCGAGGAGGGAACACGTTTCCAGATCCTCGCCCCGGTGGTCCGGGGACGAAAAGGCGAATTCGTGGACCTCTTCAAGGAGCTGACCGCCAAGGGCTACTCCCGTGCCAGGGTGGATGGCGAGCTGGTCCAGCTCAGTGACGCCCCCAAGCTGGGCAAGCAGTTTAAGCACACCATTGAGGTGGTGGTTGACCGCCTGGTGGTTAAGGAAGGCATCAGCCAGCGCCTTACCGATTCCATCGAAACCGCGCTGTCCCTCGCCGAGGGCCGGGTGCTGGCAGATTTTGTCGACCTCGACGCCGACGATCCCGCCCGGCTGCGCGCTTTCTCCGAAAACCTTGCCTGCCCCAACGAACACCCGCTGGCCATCGATGAGATCGAGCCCCGCTCATTCTCCTTCAACAACCCCTTCGGCGCCTGTGCGGCCTGCAGCGGCATCGGCACCAAGCTGGAGGTGGACGAGGAACTGATTGTCCCTAATTCGGAGCTGTCACTGGCGGAAGGGGCCATTGCCCCCTGGTCCCTGGGGACCGCCACCACTGAGTACTGGAACAGGCTGCTCGAGGGCCTGGCGAAGGAACTTGGGTTTTCCATGGACACCCCCTGGGAGGAGCTGGGCAACGACGTCCGCCAGACCGTGCTGCACGGGAAGGATCACAAGGTGGTGGTCCAGTACCGTAACCGCTTTGGCCGGGAACGGAAGTACAGCACAGGCTTTGAAGGCGCCATCCAGTACGTCCACCGGAAACATGGCGAGACAGACTCCGACTGGGCCCGGGACCGCTACGAAGAATACATGCGGCAGATCCCTTGCCCCGCCTGCAACGGCGCCCGGCTGAACCCGGCGTCGCTGTCCGTCCTGATCAACGGAAAGTCGATTGCCGACGTCGCGGCCTTGCCCATGCGGACCTGCGCGGACTTCCTGAACAACCTGGTGCTTACCGGCCGGGAGGCCCAGATTGCGCACCAGGTCCTGAAGGAGATCCAGGCACGCCTGACGTTCCTCCTTGACGTGGGCCTGGAGTACCTGAACCTCGAACGGCCCTCCGCCACCCTGTCGGGGGGCGAGGCTCAGCGAATCCGGCTGGCAACCCAGATCGGTTCCGGCCTGGTGGGAGTCCTGTACGTCCTGGATGAGCCGTCCATCGGGCTGCACCAGCGCGATAACCGCCGGCTCATCGAGACACTCACCCGGCTCCGCGACATGGGAAACACCCTCATCGTGGTGGAGCACGACGAAGACACCATCCACGAGGCCGACTGGATTGTGGACATCGGACCGGGCGCAGGCGAGCACGGTGGGGAGGTAGTGCACTCGGGCTCCTACCAGGACCTGCTGAAGAACCGCGCCTCCCTGACCGGCGACTACCTGTCGGGACGAAAGAAAATCGACATCCCCAAGAAGCGGCGCAAATACGACAAAAAGCGTGAACTCAAAGTGGTGGGGGCCCGCGAGAACAACCTGATTAATGTCGATGCGGCTTTCCCGCTGGGGCTCTTCACGGCGGTGACCGGCGTGAGCGGCTCCGGTAAATCCACCCTTGTCAACGAAATCCTTTACAAGGTGCTGGCCAACAAGCTCAACGGTGCCAAGCAGGTCGCCGGACGGCACAAGTCCGTTCAGGGCCTTGAGCACCTGGACAAGGTGGTCCACGTTGACCAAAGCCCCATCGGGCGCACCCCCCGGTCCAACCCGGCCACGTACACAGGCGTCTTCGACAACATCCGTAAGCTCTTCGCCGAGACCACTGAAGCCAAGGTGCGCGGCTATCTGCCCGGCCGGTTCTCCTTCAACGTCAAGGGCGGGCGCTGCGAAGCCTGCTCCGGCGACGGCACACTGAAGATTGAGATGAACTTCCTCCCCGACGTCTACGTGCCCTGCGAGGTCTGCCATGGCGCGCGCTACAACCGGGAGACGCTTGAGGTGCACTACAAAGGCAAGACCATCGCCGATGTATTGAACATGCCCATCGAAGAGGGCGCCGAATTCTTCGCGGCCTTTTCGCCTATCGCCCGGCACCTGAACACCCTGGTGGACGTAGGGCTGGGCTATGTGCGCCTGGGACAGCCTGCCACCACCCTGTCCGGCGGAGAAGCCCAGCGCGTCAAGTTGGCGGCTGAACTCCAAAAGCGGTCCAACGGCCGCAGCGTCTACGTTCTGGACGAGCCAACCACCGGCCTCCACTTTGAGGACATCCGCAAGCTGCTGCTGGTCCTCCAGGGCCTGGTGGACAAGGGCAACACGGTCATCACCATCGAGCACAATCTCGACGTCATCAAGAGCGCTGACTGGATCGTGGATCTTGGTCCTGACGGCGGCTCCGGAGGCGGGCAGATTGTCGCCACGGGAACCCCTGAACAGGTGGCAAAATCCGAGGAAAGCCACACCGCCGCCTTCCTGGCCGAGATTCTGGGCTAG	MPKAVAEETAVEPAPATAARIPVKPARPDLSRLVVKGAREHNLRNVDLDLPRDAMIVFTGLSGSGKSSLAFDTIFAEGQRRYVESLSAYARQFLGQVDKPDVDFIEGLSPAVSIDQKSTSKNPRSTVGTITEIYDYMRLLWARVGRPHCPVCGEPVIKQTPQQIVDQLLELEEGTRFQILAPVVRGRKGEFVDLFKELTAKGYSRARVDGELVQLSDAPKLGKQFKHTIEVVVDRLVVKEGISQRLTDSIETALSLAEGRVLADFVDLDADDPARLRAFSENLACPNEHPLAIDEIEPRSFSFNNPFGACAACSGIGTKLEVDEELIVPNSELSLAEGAIAPWSLGTATTEYWNRLLEGLAKELGFSMDTPWEELGNDVRQTVLHGKDHKVVVQYRNRFGRERKYSTGFEGAIQYVHRKHGETDSDWARDRYEEYMRQIPCPACNGARLNPASLSVLINGKSIADVAALPMRTCADFLNNLVLTGREAQIAHQVLKEIQARLTFLLDVGLEYLNLERPSATLSGGEAQRIRLATQIGSGLVGVLYVLDEPSIGLHQRDNRRLIETLTRLRDMGNTLIVVEHDEDTIHEADWIVDIGPGAGEHGGEVVHSGSYQDLLKNRASLTGDYLSGRKKIDIPKKRRKYDKKRELKVVGARENNLINVDAAFPLGLFTAVTGVSGSGKSTLVNEILYKVLANKLNGAKQVAGRHKSVQGLEHLDKVVHVDQSPIGRTPRSNPATYTGVFDNIRKLFAETTEAKVRGYLPGRFSFNVKGGRCEACSGDGTLKIEMNFLPDVYVPCEVCHGARYNRETLEVHYKGKTIADVLNMPIEEGAEFFAAFSPIARHLNTLVDVGLGYVRLGQPATTLSGGEAQRVKLAAELQKRSNGRSVYVLDEPTTGLHFEDIRKLLLVLQGLVDKGNTVITIEHNLDVIKSADWIVDLGPDGGSGGGQIVATGTPEQVAKSEESHTAAFLAEILG	PGPT0014915_1411	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
D1-29_02518	717		COG0546	5'-nucleotidase	GTGACTCAAACAACAGTGCCCGTGATCTTTGACCTGGACGGCACTCTTGTCGATCCTGCAGGCGGAATTACAGACGGAATTGCAAGTGCCCTTCGGAAGCTGGCACTCCCCGTTCCCAGCCAGGACCTGCTGGACGCGATGATCGGCCCGAAACTGAGCGACTCCCTGTTGAACGTCGCCATGGTTCCAGCGGACCTGCTTGATGATGCCATCCGCCTCTACCGGCAGTACTACGTCACCACGGGCATCGGCCAGGGACGGCTGTACCCGGGAATCATGGACGTCCTGGACAGCTTCGCATCGGCAGGCCGGCCCGTAGCCGTGGCAACCCAGAAACCCGAAGGCCTGGCGCGGACGGTCCTTGAGCACCACGGGATAGCGGGCATGTTCCAGTCCATCCGGGGCTCCGCGCACGACGAATCCGCCGGGGCTGCCGGCCCCGTGGGGAAAACAGGCATTATTGCCGCCGCCCTCCGGGACCTTTCCACCCACCACGCGGTGATGGTGGGGGACCGCGCACAGGACGTGGCCGGCGCCATCGCCAACGGGCTTGACTGCATCGGCGTGAACTGGGGTTTCGCTCCAAACGGCGAACTGCAGGATGCGGGGGCCATCATGCTGGTGGATACCGCCGCGGACCTTGTGGCCGCCATCGAACGGTTGGAAGCCATCCACGCAGCAGCCATGAGCGAGGTGCAAAACGATGGCACTCTTTGA	MTQTTVPVIFDLDGTLVDPAGGITDGIASALRKLALPVPSQDLLDAMIGPKLSDSLLNVAMVPADLLDDAIRLYRQYYVTTGIGQGRLYPGIMDVLDSFASAGRPVAVATQKPEGLARTVLEHHGIAGMFQSIRGSAHDESAGAAGPVGKTGIIAAALRDLSTHHAVMVGDRAQDVAGAIANGLDCIGVNWGFAPNGELQDAGAIMLVDTAADLVAAIERLEAIHAAAMSEVQNDGTL	PGPT0001730_1160	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
D1-29_02519	669	aas		Bifunctional protein Aas	ATGGCACTCTTTGATGCGGTCCGCTGGACCACCCGAACCCTGATCTCCGGCTCCTGCCGGCCCACCGTCGTCGGCCTTGAAAACGTGCCCACGGACGGCGCATTTATCGTCGCGCCCAATCACCTTTCGTTTTTTGACAGCGTTATTGTCCAGGCCCTGATGCCGCGCCCCGTGGCCTTCTTCGCGAAGGCAGAGTACTTCAACACCGGCGGCATCAAGGGCAAGGTCATGAAGTCCTTCTTCGAGTCCGTCGGCTCCATCCCGGTGGAACGCGGCGAGCAGGCGGCCAGCGTACAGGCCCTCAAGACGCTCCTGGACATCCTTGAATCGGGCAAGGGCATCGGCATCTACCCCGAGGGCACCCGCTCCCGCGACGGTATCCTCTACCGTGGCCGGACCGGCGTTGGCTGGCTGGCCCTGACCACGGGCGCCCCCGTGGTGCCCGTCGGGCTAATCGGCACCGAGAACCTGCAGCCTGCCGGGGAGAAGGGCTTCAAGCCGCAGCATTTCACCATGAAGGTGGGGTCACCCTTGTACTTCGACAAGACAGGCCCGGACCATTCCCTTCCGGCCCGGCGCGAGGTGACGGACCGGATCATGGACGCCATCGCTGAACTCAGCGGCCAGGACCGTTCCACGACCTACAACCAGAGCAAGGCATTGGACTAG	MALFDAVRWTTRTLISGSCRPTVVGLENVPTDGAFIVAPNHLSFFDSVIVQALMPRPVAFFAKAEYFNTGGIKGKVMKSFFESVGSIPVERGEQAASVQALKTLLDILESGKGIGIYPEGTRSRDGILYRGRTGVGWLALTTGAPVVPVGLIGTENLQPAGEKGFKPQHFTMKVGSPLYFDKTGPDHSLPARREVTDRIMDAIAELSGQDRSTTYNQSKALD	PGPT0024380_5984	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
D1-29_02520	2007	uvrC	COG0322	UvrABC system protein C	GTGGCAGATCCAGCAAGTTACAGGCCCCAGACGGGTGAGATTCCCATCAACCCCGGGGTATACCGGTTCCGCGATCCCCATGGACGGGTCATCTATGTAGGCAAGGCGAAAAGCCTCCGCTCACGCCTGAATTCCTATTTCGCGAATCCGGCCGGTCTGCTGCCTAAAACCCATGCCATGGTCCATGCCGCCAGCAGCGTTGAATGGACGGTGGTCAGCAGCGAGCTGGAATCGCTGCAGCTGGAGTACACCTGGATCAAGGAGTTCAAGCCACGCTTCAATGTTGTCTTCCGCGACGACAAAACGTATCCGTACCTTGCCCTGACCATGAGCGAGAAGCTCCCGCGGGTCCAGGTCATGCGGGGTGACCGCAGGAAGGGCACCCGCTATTTCGGCCCGTACACGGCCGGGGCCATCCGGGAAACCATGGATACGCTCCTGCGTGTCTTCCCCGTCCGCAGTTGCAGCGCAGGCGTGCTCAAACGGGCCCAGGCCAGCGGCAGGCCCTGCCTGCTTGGCTACATCGACAAATGCTCGGCACCCTGCGTCGGCCGGGTCACGCCGGAGGAACACCGGGCGCTGGCCGAGGATTTCTGCGCGTTTATGGGCGGCGAAGCCAAACGTTTTATCTCCAAGCTGGAAAAGCAGATGGCCGAGGCCGTGGCAGCCCTCGATTATGAGCGTGCGGCCAGGCTCCGCGACGACATCTCTGCCTTACGGAAAGTGTTCGAACGCAACGCCGTGGTCCTTGGCGAGGACACCGACGCCGACATCTTTGCCTTGCATGAAGACGAGCTGGAAGCAGCCGTGCAGGTATTCCACGTCCGCGGCGGCAGGGTCCGCGGCCAGCGGGGCTGGGTTGTGGAGAAGGTGGAAGACGCCACCACGCCGGACCTCGTGGAACACCTCCTCCAGCAGGTTTACGGCGAAGATGGGGACAGCCACGGCAGGCTGCCCAGGGAGGTGTTGGTGCCGGTTGCCCCGAGCAACGCCGCAGAGCTTGCCGAATGGCTCGGAGGCCTGCGGGGAGCCAAGGTGGACATCCGGGTGCCCCAGCGCGGCGACAAGGCGGCGCTGATGTCCACCGTCCGCGAGAACGCGGAGCACGCCCTGAAACTGCACAAGACGCGGCGGGCAGGTGACCTGACCGTCCGGTCGCAGGCCCTCCAGGAGCTCCAGGAAGCCCTGGACCTGCCGGTGGCGCTCCTCCGGATCGAGTGCTTTGACGTCTCCCATGTCCAGGGCACCAACGTGGTGGCGTCCATGGTGGTGGTGGAGGATGGCCTGCCGAAGAAGTCCGACTACCGCAAGTTCTCGGTTACCGGCGCAGCCGCTACTGACGATACCGCCGCCATGCATGATGTCCTGACGCGCCGTTTCCGCCATTATCTGCAGGACAAGACGGCCCAGGTGGAAGCGGCCGCCCTGGACGGACACCAGGCGGCCCTCGATGCTGCGGCCGACGCCGCAGTCCTTGACACCACCACGCCGGCCCCACGGGCAAAGTTCGCCTACCCGCCCAACCTGGTGGTGGTGGATGGCGGTAAACCGCAGGTCAACGCGGCTGCCAGGGCGCTGGCTGATCTCGGCATCGATGACGTGTACGTGGTGGGACTGGCCAAACGCCTCGAGGAAGTCTGGCTGCCGGACAGCGACTTCCCGGTCATCCTGCCCAGGACATCGCAGGGACTGTACCTCCTGCAGCGGATTCGTGACGAGGCGCACCGTTTTGCCATTTCCTTCCACCGGCAGAAGCGCGGCAAGGCCATGACGGTTTCGGCGCTGGACGGCGTGCCGGGCCTGGGGGAATCGAAGCGGAAAGCCCTGCTGGCGCACTTCGGTTCCGTCAAGGGAGTCAAGGCAGCGTCTGTGACTGAACTTTCGGCAGCCAAAGGCATCGGCCCCGCCCTGGCCACCGCCATCGTCAACCACTTCAGCTCTGATGATGCGGCGGGCGAAACCGCTCCGGCCATCAACATGAGCACCGGCGAAATCCTTGAAACTTAG	MADPASYRPQTGEIPINPGVYRFRDPHGRVIYVGKAKSLRSRLNSYFANPAGLLPKTHAMVHAASSVEWTVVSSELESLQLEYTWIKEFKPRFNVVFRDDKTYPYLALTMSEKLPRVQVMRGDRRKGTRYFGPYTAGAIRETMDTLLRVFPVRSCSAGVLKRAQASGRPCLLGYIDKCSAPCVGRVTPEEHRALAEDFCAFMGGEAKRFISKLEKQMAEAVAALDYERAARLRDDISALRKVFERNAVVLGEDTDADIFALHEDELEAAVQVFHVRGGRVRGQRGWVVEKVEDATTPDLVEHLLQQVYGEDGDSHGRLPREVLVPVAPSNAAELAEWLGGLRGAKVDIRVPQRGDKAALMSTVRENAEHALKLHKTRRAGDLTVRSQALQELQEALDLPVALLRIECFDVSHVQGTNVVASMVVVEDGLPKKSDYRKFSVTGAAATDDTAAMHDVLTRRFRHYLQDKTAQVEAAALDGHQAALDAAADAAVLDTTTPAPRAKFAYPPNLVVVDGGKPQVNAAARALADLGIDDVYVVGLAKRLEEVWLPDSDFPVILPRTSQGLYLLQRIRDEAHRFAISFHRQKRGKAMTVSALDGVPGLGESKRKALLAHFGSVKGVKAASVTELSAAKGIGPALATAIVNHFSSDDAAGETAPAINMSTGEILET	PGPT0014925_849	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703	NA	NA
D1-29_02521	924		COG1660	Nucleotide-binding protein	ATGGCAGAGTCAACGGCGGAATCCGGGACGGAGCAGGACGGGCTGACGCCGGTCAAGCCCCTCGAAGCGGAACTGCTCGTGGTCACCGGGATGTCCGGGGCCGGACGCAGCACAGCCGCGGACGCGCTCGAGGACCACGGCTGGTATGTCGTGGAAAACCTCCCGCCGCAGATGCTCAGCACGCTCGCCGAACTGGTGTCACACGCACCGCAGTCCATTCCGCGGCTGGCCGTGGTCATGGACGTCCGCAGCAAGGGCCTCTTCGCCGACATCCGTGCGGCCCTCGGTGCCCTGGCCGCCAGCGGCGTGACCTTCCGGGTCCTGTTCCTCGACGCCAGTGACGACGTCCTGGTCCGCCGGTTTGAACAGGGCCGCAGGCCCCACCCGCTCCAGGAAGGCGGCCGGATCCTGGACGGGATAGCCGCAGAACGGGAGCTGCTGACAGAACTCCGCGACAGCGCCGACGTCGTCCTCGATACCTCCACGTACAACGTCCATGGCCTGGCCACAGCCATCACCGAACTCTTCAGCGAGACCGGACCTGTGGCGCTTCGGCTGAACGTCATGAGCTTCGGGTTCAAGTACGGCCTTCCGGTCGATTCGAACTACGTGGCGGATGTCCGCTTCATTCCCAACCCGCACTGGGTGCCGCAGCTGCGTCCGCATACAGGCCTGGACAAGGATGTCAGCGATTATGTCCTGGAGGCCGAAGGCGTGAAGAACTTCGTTGACCGCTTTGTACTGGCCCTCGAACCGGTCCTGGACGGCTACCGGCGCGAGAACAAGCACTATGCCACCATCGCGGTCGGGTGCACGGGCGGCAAGCACCGCTCGGTGGCAGTCGCCGTCGAGCTTTCCAAGAAACTGGCCCAATATCCCAGGGTCACAGTCACCACCAGCCACCGGGACCTGGGCCGCGAGTAA	MAESTAESGTEQDGLTPVKPLEAELLVVTGMSGAGRSTAADALEDHGWYVVENLPPQMLSTLAELVSHAPQSIPRLAVVMDVRSKGLFADIRAALGALAASGVTFRVLFLDASDDVLVRRFEQGRRPHPLQEGGRILDGIAAERELLTELRDSADVVLDTSTYNVHGLATAITELFSETGPVALRLNVMSFGFKYGLPVDSNYVADVRFIPNPHWVPQLRPHTGLDKDVSDYVLEAEGVKNFVDRFVLALEPVLDGYRRENKHYATIAVGCTGGKHRSVAVAVELSKKLAQYPRVTVTTSHRDLGRE				NA	NA	NA	NA	NA
D1-29_02522	1020		COG0391	Putative gluconeogenesis factor	ATGGGATTGCTTACCGGGCCGATGCCCTTGATTCCGCCTTCGGGGGGAACAGGAGCAGGCCAGCAGGACAAGGGTCCCAACGTGGTGGCTCTCGGCGGCGGGCACGGCCTGTCCGCGTCGCTGTCAGCCCTGAGGCTGCTCACGTCGCAGCTCACCGCCGTGGTCACGGTAGCGGACGACGGCGGATCATCCGGTCGCCTGCGGGAAGAGTACGCTGTCCTCCCGCCAGGGGACCTGCGCATGGCGCTGTCCGCGCTCTGTGACGACACCGACTGGGGACGCACCTGGCGCGACGTGATGCAGCACCGGTTCCGGCCGGGGAAGGGTCCCGGCGGCTCCCTGGATGAACACGCGATGGGGAACCTGCTGATCGTCACGCTCTGGGAACTCCTGGGCGACACCGTGGCCGGACTCAAGTGGGCAGGGGCCCTGCTCGGCGCCCGCGGCGAGGTGCTGCCGATGTCCACTGTGCCGCTCACCATCGAGGGCGACGTCCGGATCACTGCGCCGGACGGCGCGTCCGCGCTTGAAACCATCCGCGGCCAGGCGCGCTGCGCGGTCGCCGGTTCGCTGGAACAGGTCCGCCTGCTGCCCGAGGACGCTCACGCGTGTGTTGAGGCCCTCACCGCGATCGAACTGGCCGACTGGGTCATCCTGGGTCCCGGTTCCTGGTACACCTCGGTGCTGCCGCACCTGCTGCTGCCCGAGATGCGGCAGGCGCTGTGCCATACTGCCGCCAAACGCTGCCTCACCATGAACCTCGCCACCGATACGAAAGAGACATCGGGGATGTCTGCGGCTGACCACCTGCATGCGCTGCGCCGCTACGCTCCGGGTTTCAGCGTGGACGTGGTCCTGGCCGATCCCGCCTCCGTTCCGGACCTGTCGGAGTTCGAGAAGGCGGCGGAGATGATCGGTGCCGAGGTTGTCTTGGGTAAAGTAGGGGCGTCGGGCCGCCGGCCCATCCATGACCCCCTGCGTCTGGCGACGGCGTACCAAGACATTTTCGGGAACAGTTAG	MGLLTGPMPLIPPSGGTGAGQQDKGPNVVALGGGHGLSASLSALRLLTSQLTAVVTVADDGGSSGRLREEYAVLPPGDLRMALSALCDDTDWGRTWRDVMQHRFRPGKGPGGSLDEHAMGNLLIVTLWELLGDTVAGLKWAGALLGARGEVLPMSTVPLTIEGDVRITAPDGASALETIRGQARCAVAGSLEQVRLLPEDAHACVEALTAIELADWVILGPGSWYTSVLPHLLLPEMRQALCHTAAKRCLTMNLATDTKETSGMSAADHLHALRRYAPGFSVDVVLADPASVPDLSEFEKAAEMIGAEVVLGKVGASGRRPIHDPLRLATAYQDIFGNS				NA	NA	NA	NA	NA
D1-29_02523	981	whiA	COG1481	putative cell division protein WhiA	ATGGCACTGACAGCATCGGTCAAGGAAGAACTGTCCCGTCTGGACATCAAGAAGTCATCAGTGCGCAAGGCTGAGGTCTCCGCCATGCTCCGGTTCGCCGGCGGCCTGCACATCATCTCGGGCCGGATTGTGATCGAGGCCGAAGTGGACCTCGCATCCACAGCACGCCGGCTGCGGGCGGCGGTAGCAGAGGTTTACGGGCACCAGAGCGAAATCATCGTGGTTTCCGGCGGCGGGCTGCGGCGGGGGAGCCGGTATGTGGTCCGCGTGGTTCGCGACGGCGAAGCGCTGGCGCGGCAAACCGGGCTGCTCGACGGCCGGGGCAGGCCTGTCCGCGGCCTTCCGTCGGCAGTGGTGAACGGCTCCGCGGCCGACGCCGAGGCCGTCTGGCGGGGTGCTTTCCTGGTCCACGGCTCGCTCACGGAGCCAGGCCGCTCGTCGTCCCTGGAGGTCACCTGCCCCGGCCCCGAATCCGCCCTCGCGCTGGTGGGGGCGGCCCGCCGCCTGGGCATCCAGGCGAAGGCCCGGGAAGTCAGGGGAGTGGACCGCGTGGTGATCCGCGACGGCGACACCATCGCAGCCCTGCTGACCCGCATGGGCGCCCACGACGCACTGATGGTCTGGGAAGAACGCCGGATGCGCAAGGAAGTCCGGGCCACGGCCAACCGGCTTGCCAACTTCGACGACGCCAACCTGCGCCGGTCTGCCCAGGCAGCAGTGGCAGCAGGTGCCCGCGTTGACCGCGCCCTCGAAATCCTCGGCGACGACGTCCCGGACCACCTTAAGTACGCCGGCGAGCTCCGGGTGGCCCACAAGCAGGCGAGCCTGGATGAGCTGGGCCGGCTGGCAGATCCCGTGATGACCAAGGACGCGATTGCCGGGCGCATCCGCCGGCTGCTCGCCATGGCGGACAAACGTGCCATCGACCTGGGGATCCCCGGCACGGACGCCAATGTGACGCCGGAAATGCTGGACGAGTAA	MALTASVKEELSRLDIKKSSVRKAEVSAMLRFAGGLHIISGRIVIEAEVDLASTARRLRAAVAEVYGHQSEIIVVSGGGLRRGSRYVVRVVRDGEALARQTGLLDGRGRPVRGLPSAVVNGSAADAEAVWRGAFLVHGSLTEPGRSSSLEVTCPGPESALALVGAARRLGIQAKAREVRGVDRVVIRDGDTIAALLTRMGAHDALMVWEERRMRKEVRATANRLANFDDANLRRSAQAAVAAGARVDRALEILGDDVPDHLKYAGELRVAHKQASLDELGRLADPVMTKDAIAGRIRRLLAMADKRAIDLGIPGTDANVTPEMLDE				NA	NA	NA	NA	NA
D1-29_02524	750	sodA	COG0605	Superoxide dismutase [Mn]	ATGCCCGGCGAACGGGCCCGGCCTCACCGGTTCCGTTACCGCAATTTTCCGGATGCCCGTCATCCGGATGCACAATCCGAGCGTTACCAACCGGACAGTCAGTCCACGATATTGGAGGATTTTGTGACCGAGTACGTACTGCCAGAACTCAGCTACGACTACGCAGCGCTTGAGCCGCACATTTCGGCGCGGATCATGGAGCTGCACCACAGCAAGCACCATGCAGCCTACGTGGCGGGCGCCAACAACGCCCTGGCCCAGCTGGCTGATGCCCGTGAAAAGGGCGACTTCGCCAACATCAACCGCCTGTCCAAGGACCTCGCGTTCCACACCGGCGGCCACGTCAACCACTCGGTGTTCTGGAACAACCTGTCGCCGGACGGCGGGGACAAGCCCGAGGGCGAGCTCGCTGCTGCCATCGATGACGCCTTCGGGTCCTTCGACGCTTTCCGTGCACAGTTCTCCGCAGCCGCCCTGGGCCTCCAGGGATCCGGCTGGGGCTTCCTGGCCTTCGAGCCGATCGGTGGCAACCTTGTCATCGAGCAGCTCTATGACCAGCAGGGCAACGTGGCGCTGGGCACCACCCCGCTGCTGATGCTCGACATGTGGGAGCACGCTTTCTACCTGGACTACGTCAACGTCAAGGCGGACTACGTCAAGGCATTCTGGAACATCGTCAACTGGGCTGACGTCGCCAAGCGCTTCGATGCTGCCCGCTCCAACGCGACGGGCCTCATCACCCTCCCGTAG	MPGERARPHRFRYRNFPDARHPDAQSERYQPDSQSTILEDFVTEYVLPELSYDYAALEPHISARIMELHHSKHHAAYVAGANNALAQLADAREKGDFANINRLSKDLAFHTGGHVNHSVFWNNLSPDGGDKPEGELAAAIDDAFGSFDAFRAQFSAAALGLQGSGWGFLAFEPIGGNLVIEQLYDQQGNVALGTTPLLMLDMWEHAFYLDYVNVKADYVKAFWNIVNWADVAKRFDAARSNATGLITLP	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
D1-29_02525	1011	gap	COG0057	Glyceraldehyde-3-phosphate dehydrogenase	GTGACGACCCGTATTGGTATCAACGGCTTTGGCCGTATCGGCCGCAACTACTTCCGCGCAGCACTCGCACAGGGCGCGGACCTTGAGATCGTTGCCGTCAACGACCTCACCAGCCCCGAAGCCCTTGCCCATCTGCTGAAGTACGACTCCGTTGGTGGCCGCCTCAAGGAAACCGTTGAGGTCAAGGACGGCAACATCGTCGTCGACGGAAACGTCATCAAGGTTCTCGCCGAGCGCGATCCCGCAAACCTGCCCTGGGCCGATCTCGGCGTCGACATCGTCATCGAGTCCACCGGCTTCTTCACCAAGGCAGCCGCTGCCCAGAAGCACATCGACGCAGGGGCCAAGAAGGTCCTGATCTCGGCTCCGGCCTCCGATGAGGACATCACCATCGTGATGGGCGTTAACGACGGACTCTACGACTCCTCCGCGCACCACATCATCTCCAACGCTTCCTGCACCACCAACTGCCTCGGCCCGCTGGCTAAGGTCATCAACGACACCTTTGGCATCGAGCGTGGCCTTATGACCACCATCCACGCCTACACCGCCGACCAGAACCTCCAGGACGGCCCGCACAACGACCTCCGCCGCGCCCGCGCCGCAGGCATCAACATGGTCCCCACCTCCACGGGTGCCGCCAAGGCAATCGGCCTGGTCCTTCCCGAGCTCAAGGGCAAGCTGGACGGCTACGCCATCCGTGTTCCCGTGCCCACCGGCTCCGCCACCGACCTCACGGTCAACGTCTCCCGCGAAACCACCGTGGAAGAAGTCAACGCGGCGCTGAAGAAGGCTTCGGAGTCGGACGAGCTCCAGGGAATCCTGACCTACACGGACGCCCCGATCGTTTCCTCCGACATCGTGGGGGACCCGGCGTCTTCCATCTTTGATTCCGGCCTGACGAAGGTCATCGGCAACCAGGTCAAGGTTGTGTCCTGGTATGACAACGAATGGGGCTACTCCAACCGCCTGGTGGACCTGACGAAGCTCGTCGCATCCAAGCTGGGCTAG	MTTRIGINGFGRIGRNYFRAALAQGADLEIVAVNDLTSPEALAHLLKYDSVGGRLKETVEVKDGNIVVDGNVIKVLAERDPANLPWADLGVDIVIESTGFFTKAAAAQKHIDAGAKKVLISAPASDEDITIVMGVNDGLYDSSAHHIISNASCTTNCLGPLAKVINDTFGIERGLMTTIHAYTADQNLQDGPHNDLRRARAAGINMVPTSTGAAKAIGLVLPELKGKLDGYAIRVPVPTGSATDLTVNVSRETTVEEVNAALKKASESDELQGILTYTDAPIVSSDIVGDPASSIFDSGLTKVIGNQVKVVSWYDNEWGYSNRLVDLTKLVASKLG	PGPT0018000_4007	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
D1-29_02526	1227	pgk	COG0126	Phosphoglycerate kinase	ATGACATTTCACACCCTCAACGAACTGATCGCTGAAGGTGTCCGCGGGCGGTACGTTCTTGTCAGAAGTGACCTGAACGTGCCGCTCGACGGCTTTACGGTGACTGACGACGGCCGCATCAAGGCCTCCCTGCCAGTGCTGGAAAAGCTCACGGACGCCGGTGCCCGCGTACTGGTCACAGCCCACCTCGGACGCCCGAAGGGCGCCCCCGAAGAAAAGTACTCCCTGAAGCCTGCCGTCGCACGGCTGGCGGAACTCGCGCCTTTCAAGGTGGTTCTCGCCGAGGACTCCGTCGGAAGCTCCGCGAAGGAGCTTTCTGCCTCACTGCAGGACGGTGAAGTACTCGTCCTGGAGAACGTGCGCTTCGATGCACGCGAAACCAGCAAGGACGATTCACAGCGAGCCCAGTTCGCCGATGAACTGGTGGCCCTGACGGGCAGCAACGGCGCGTTCGTGGATGACGCCTTTGGTGCTGTCCACCGCAAGCACGCCAGTGTCTACGACGTCGCCACCCGGCTTCCGTCCTACCAGGGCGATCTGGTGCACACGGAAGTGGAAGTCCTCAGGAAGCTAACAACTGACACGCAGCGCCCGTACGTGGTGGTTCTCGGCGGTTCCAAGGTTTCGGACAAGCTGGCCGTCATCGACAACCTGCTTGGCAAGGCTGACACCATCCTGGTGGGCGGCGGCATGCTGTTCACGTTCCTTGCTGCCGTTGGCCACCAAGTGGCCGGCAGCCTCCTGGAAGAAGACCAGATCCCGGTGGTCAAGGACTACCTCCAGCGGGCAGCAGCCGCCGGCACGGAATTCATTGTCCCCACCGACGTCGTCGTCGCCGAGAAGTTCAGCGCAGACGCCGCGCACGAAACCGTTCCTGCTGACGCCATCGAGAGCAGCAGCTTTGGAGCCAAGGGCATCGGCCTGGACATTGGCCCCGATTCGGCGGCCGCCTTCGCGGACCGGATCAAGGGTGCAAAAACCGTGTTCTGGAACGGCCCCATGGGAGTCTTCGAGTTTGAAGCCTTCTCCGGCGGCACCCGCGCCGTGGCGCAGGCACTCAGCGAAGCCGATGCGTTTACCGTTGTGGGCGGCGGAGACTCGGCCGCTGCTGTGCGGACGCTGGGCTTCGCTGACGACGCGTTCGGCCACATTTCAACAGGAGGCGGCGCCAGCCTGGAATACCTTGAAGGCAAGGAACTCCCGGGTCTGAGCGTCCTGGACCGCTAG	MTFHTLNELIAEGVRGRYVLVRSDLNVPLDGFTVTDDGRIKASLPVLEKLTDAGARVLVTAHLGRPKGAPEEKYSLKPAVARLAELAPFKVVLAEDSVGSSAKELSASLQDGEVLVLENVRFDARETSKDDSQRAQFADELVALTGSNGAFVDDAFGAVHRKHASVYDVATRLPSYQGDLVHTEVEVLRKLTTDTQRPYVVVLGGSKVSDKLAVIDNLLGKADTILVGGGMLFTFLAAVGHQVAGSLLEEDQIPVVKDYLQRAAAAGTEFIVPTDVVVAEKFSADAAHETVPADAIESSSFGAKGIGLDIGPDSAAAFADRIKGAKTVFWNGPMGVFEFEAFSGGTRAVAQALSEADAFTVVGGGDSAAAVRTLGFADDAFGHISTGGGASLEYLEGKELPGLSVLDR	PGPT0018015_1345	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
D1-29_02527	816	tpiA	COG0149	Triosephosphate isomerase	GTGACTACGTCAACGAACGGCGCTTTTGACCGCACGCCCTTCATCGCGGGCAACTGGAAGATGAACATGGACCATGTCCAGGGCATCACACTCCTGCAGAAGCTGGCCTGGACCCTGTCCGACGCGAAGCATGACTACAACCGCGTTGAGGTTGCCGTCTTCCCGCCCTTCACCGACCTTCGCGGCGTGCAGACCCTGGTTCAGGGCGACGACCTCGATATTGCCTACGGCGGCCAGGACCTGTCGCAGTTCGACTCCGGAGCCTACACCGGCGACATCTCCGGCCAGTTCCTCAGCAAGCTGGGCTGCAAGTACGTGCTGGCGGGGCACAGCGAACGCCGCACCATCCACCAGGAATCCGACGAAGTACTCAACGCCAAGGTCAAGGCAGCGTTCAAGCATGGCGTGACCCCGGTCCTCTGCGTCGGAGAGGGACTTGAAATCCGCCAGGCCGGCACGCACGTGGAGCACACGCTGAACCAGCTCCGCGCAGACGTCGAGGGTCTCACTCCGGAACAGGCAGCCGAGCTGGTTGTTGCGTACGAACCCGTGTGGGCCATCGGTACGGGCGAAGTAGCGGGACCGGAAGACGCCCAGGAGATGTGTGCAGCCATCCGCGCCGAACTGGCCACACTGTTCGGCGACGACGTTGCAGCAAAAATCCGGCTGCTCTACGGTGGCTCAGTCAAGTCCAGCAACGTCGCTGCCATCCTGAACGAACGGGACGTCGACGGCGTGTTGGTGGGCGGGGCAAGCCTTGATCCGGCGGAGTTTGCTAATATTGTCAGGTTCGAGAGTCATTTGCTGACGGAGTAG	MTTSTNGAFDRTPFIAGNWKMNMDHVQGITLLQKLAWTLSDAKHDYNRVEVAVFPPFTDLRGVQTLVQGDDLDIAYGGQDLSQFDSGAYTGDISGQFLSKLGCKYVLAGHSERRTIHQESDEVLNAKVKAAFKHGVTPVLCVGEGLEIRQAGTHVEHTLNQLRADVEGLTPEQAAELVVAYEPVWAIGTGEVAGPEDAQEMCAAIRAELATLFGDDVAAKIRLLYGGSVKSSNVAAILNERDVDGVLVGGASLDPAEFANIVRFESHLLTE	PGPT0017995_437	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
D1-29_02528	258	secG	COG1314	putative protein-export membrane protein SecG	GTGGACGTTCTTCATGTCATTCTGCAGATCCTCCTGGGCATCACCAGCCTTCTGCTGACGTTGCTTATCCTCCTGCACAAGGGACGGGGCGGCGGGCTCTCGGACATGTTCGGTGGCGGTATGAGCTCCGGCCTCAGCTCTTCCGGTGTGGCGGAGCGCAACCTGAACAGGTTCACCGTAATCCTTGGTGTCACCTGGGGCGTCGTCATTATTGCCCTGGGCCTGATTATGCGCTTCAGCGGCGCGGGTGACTCCTAA	MDVLHVILQILLGITSLLLTLLILLHKGRGGGLSDMFGGGMSSGLSSSGVAERNLNRFTVILGVTWGVVIIALGLIMRFSGAGDS	PGPT0025720_2789	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025720-secG-K03075	NA	NA
D1-29_02529	396	rbpA_1		RNA polymerase-binding protein RbpA	ATGGTAAACACAGCGTCAGGATTCCGTGGCACCCGCGTGGGTGTCACGGAAGGAACCGGCCTCAAGAACCAGTCCGATGATTTTCCCGGTGACAGATTGCCGCGTATGCGTGTTTCCTATTGGTGCGCCAAGGGACATGAGACGCGGCCTGTTTTTATTAAGCTGCCGGAAGACCAGATTCCGCTGGTCTGGGACTGCCGCAGATGCGGGGCGACGGCGTCAAGGGACGGGCAGGAGGCTGCCCTTGACGAACCTGTGGAAGAGGGTTTCAAGAGCCATCTGGAATACGTTAAAGAACGGCGCTCCGACCAGGACGCCGAAGACGTCCTGGCCGGAGCGCTCGAACGGTTACGCGCCCGCGGCGTCCTTGCGGACCAGTTGCCCGGGGACCCGTGA	MVNTASGFRGTRVGVTEGTGLKNQSDDFPGDRLPRMRVSYWCAKGHETRPVFIKLPEDQIPLVWDCRRCGATASRDGQEAALDEPVEEGFKSHLEYVKERRSDQDAEDVLAGALERLRARGVLADQLPGDP				NA	NA	NA	NA	NA
D1-29_02530	819	pgl_2	COG0363	6-phosphogluconolactonase	GTGAGCGTTGAGCCAAGAGTAAGCATTCATCCCGATTCGTCCGTCCTGATGGCTGCTATCGCAGCCCGCCTGATCACAAAACTTGTTGATGTGCAGGATAAGTACGGTGAGGCCACGGTGGTGCTTACTGGCGGCACGGTTGGCATCGGTACGCTGAAGGCTGTTGCTGACTCTCCGGCAGCGCCTGCCGTTGACTGGTCGCGGGTGAACTTCTGGTGGGGCGACGAACGTTTCGTGCCCGCCGGAGACGCCGACCGTAACACGAAGCAGGCTTTTGATGCTCTGCTGTCGCACATTCCGGTGGATCCCGCCAGGATCCACGAGCCTGCCTCGGCGGACGACTTTGACACCCCTGAGGAGGCGGCAGAGGACTACGCCCGCAGGCTTCGGGAGGCGGCAGAGGCCGAGCACGCTGCGGACATGTCAGATGACCGCCCGGACCAGCCTGGTGTCCTTCCGCGGCTGGACGTGGTTCTCCTGGGCGTTGGCCCCGACGCGCATGTGGCATCGCTGTTTCCGGAGCAGGGGGGCATTCGGGAGAAGTCGCTGACGGTTGTCGGCGTCCGCAACTCCCCCAAGCCCCCGCCCCTGCGCATTTCGCTGACGCTGCCGGCCATCAACACTGCCGCCGAAGTGTGGATGGTAGTGGCCGGCGAGGACAAGGCGGGAGCGGTGGGCCTGGCGCTTGCCGGCGCCAACCCGGTTCAGGTACCGGCGGCGGGCCCTCGAGGAACGTCCCGCACTCTCTGGCTTATTGACGAGAACGCCGCGTCACGGGTCCCCGGGCAACTGGTCCGCAAGGACGCCGCGGGCGCGTAA	MSVEPRVSIHPDSSVLMAAIAARLITKLVDVQDKYGEATVVLTGGTVGIGTLKAVADSPAAPAVDWSRVNFWWGDERFVPAGDADRNTKQAFDALLSHIPVDPARIHEPASADDFDTPEEAAEDYARRLREAAEAEHAADMSDDRPDQPGVLPRLDVVLLGVGPDAHVASLFPEQGGIREKSLTVVGVRNSPKPPPLRISLTLPAINTAAEVWMVVAGEDKAGAVGLALAGANPVQVPAAGPRGTSRTLWLIDENAASRVPGQLVRKDAAGA				NA	NA	NA	NA	NA
D1-29_02531	942			hypothetical protein	ATGATTGTTGATTTGCCGGACACCACCACCTCGAACGTGTCCAAGAAGATCATGGCCCTGCGTGAGCAGGGCGGCGTGATCGCGCTGGGCCGGGTCCTGACCCTGGTGGTCGTGACCACGTCCGGGCTCGAGGAAGAAGCGATCGAGGCCGCGAACGAGGCCAGCCGGGAACACCCCTGCCGGATCATCGTCCTCGCCGACGCCGGCAAGGACGCCCCGGACCGGCTGGACGCGCAGATCCGGGTCGGCGGGGACGCCGGCGCGTCCGAGGTGATCGTGCTGCGAGGCTACGGCCAGCTCGCGCACGAGTCCGAGTCCCTCGTCGCGGCGTTGCTGCTCCCGGACGCCCCGATCGTGGCGTGGTGGCCGCACGGCGCCCCGGAGAACGCCTGCGAAACCTCGATCGGGCGGATCGCGCACCGCCGGATCACCGATTCCGCGAACGAACCGGACCCGCAACAGGCCCTGGAAAACATACGCGCCACGTACAAAGCCGGGGATACCGATCTGGCCTGGACCCGGCTGACGAACTGGCGGATCCAGCTCGCCGCGGTCCTGGACCAGGTAGACCCCTCCCCCGTGACAGCCGTCGCGGTCGAGGGCGCCTCCGACTCCCCCTCCACCATCCTCCTCGCGGCCTGGCTCACCCTGTCCCTGGAGGCCCCCGTGACCATCGTCGCGGACCCCGCCGGCACCGGGATCCGCCGCGTCCGGCTGTCCCGTCCCGGCGGCGACGTCCAACTCTTCCGCCCCGGACTCTCCATCGCCGAACTCACCCAACCCGGCCAACCAGCCCAACGCATCTCACTCCCCCGACGCAGCCTCCGCGACTGCCTCGCCGAAGAACTCCGCCGCCTGGACCCCGACGAAGTCTTCGGAGAAGTGATTACTATTGGACTGCCACGTACCAATCTAAGGAGCGTCCGACCCAGTGAGCGTTGA	MIVDLPDTTTSNVSKKIMALREQGGVIALGRVLTLVVVTTSGLEEEAIEAANEASREHPCRIIVLADAGKDAPDRLDAQIRVGGDAGASEVIVLRGYGQLAHESESLVAALLLPDAPIVAWWPHGAPENACETSIGRIAHRRITDSANEPDPQQALENIRATYKAGDTDLAWTRLTNWRIQLAAVLDQVDPSPVTAVAVEGASDSPSTILLAAWLTLSLEAPVTIVADPAGTGIRRVRLSRPGGDVQLFRPGLSIAELTQPGQPAQRISLPRRSLRDCLAEELRRLDPDEVFGEVITIGLPRTNLRSVRPSER				NA	NA	NA	NA	NA
D1-29_02532	1572	zwf2_2	COG0364	Glucose-6-phosphate 1-dehydrogenase 2	ATGCCAGAAACTGAATACGGCAGGACATCCGGGTTGCGTCCGGGTAAATTGGGGCGGAATCCGTTGCGGGATCCGCGGGACCGCCGCCTGAACCGGATCGCCGGTCCGTCGTCGCTGGTGCTCTTTGGAGTTACCGGTGACCTTGCCCGCAAGAAGCTCATGCCGGCCGTGTATGACCTGGCGAACCGGGGGTTGCTGCCGCCGAGTTTCGCGCTGGTTGGTTTTGCCCGGCGCGAGTGGGACAAGGAGGATTTCGCCGCTGAGGTGAAGGCTTCCGTGCAGGCCTACGCGCGCACGCCTTTTGATGAGGCGGTGTGGAACCAGCTGTCCGAGGGCATCCGTTTTGTCCAGGGTGAGTTCGACGACGACGGCGCTTTCGAGCGGCTCGGCGAGACCATTAAGGAACTTGATGATGTCCGCGGGACCCGCGGGAACCATGCGTTCTACCTCTCGATCCCGCCGAAGGCGTTCGAGCAGGTCTGCCGGCAGCTGTCCAAGCACGGACTGGCGCAGGCTGAGGGGGATAAGTGGCGGCGGGTGGTGATCGAGAAGCCGTTCGGTCATGACCTGGAGTCGGCGCGGAAGCTCAATGACATTGTGGAGTCGGTGTTCCCTGCGGATGCGGTGTTCCGGATTGATCATTATTTGGGTAAGGAGACGGTGCAGAACATTCTGGCGTTGCGGTTCGCGAACCAGTTGTTTGAGCCGTTGTGGAACGCGAATTATGTGGATCATGTCCAGATCACGATGGCTGAGGACATCGGTACGGGCGGCCGGGCGGGGTATTACGACGGTGTGGGTGCTGCGCGGGATGTGATTCAGAACCATTTGCTGCAGTTGTTGGCTTTGACCGCGATGGAGGAGCCGATTTCGTTTAATGCTGATGATTTGCGGGCGGAGAAGGAAAAGGTCCTGGCCGCGGTGAAGCTCCCGGAGGATTTGTCGGCGCATTCGGCGCGGGGGCAGTTCGCTGGTGGCTGGCAGGGTGGGGAGCAGGTCCTGGGTTACCTGGAGGAAGAGGGGATCCCGGCTGATTCGATGACGGAGACGTTCGCGGCGATCCGGGTGGATATCCATACCCGGCGCTGGGCCGGGGTGCCGTTTTATCTGCGCGCGGGCAAGCGTTTGGGGAGGCGGGTGACGGAGATCGCGGTGGTGTTCAAACGCGCCCCGAACCTGCTCTTCCGGGATCATGGTGAGGATGACTTCGGGCAGAATGCTGTGGTGATCCGGGTCCAGCCCGATGAGGGCGTGACCATCAGGTTCGGGTCCAAGGTCCCGGGCACCCAGATGGAAGTCAGGGATGTGACGATGGACTTCGGTTACGGGCACTCCTTCACCGAATCGTCCCCGGAGGCGTATGAGCGTTTGATCCTGGACGTGCTGCTGGGTGAGCCGCCGTTGTTCCCGCGGCATGAGGAAGTGGAGCTGTCCTGGAAGATCCTTGACCCGTTCGAGGACTACTGGGCCGAACTGAACGAACAGCCCGAACCCTACGCCCCGGGTTCCTGGGGCCCGGCCAGCGCTGATGAGCTGCTGGCCCGTGACGGACGAACCTGGAGAAGGCCATGA	MPETEYGRTSGLRPGKLGRNPLRDPRDRRLNRIAGPSSLVLFGVTGDLARKKLMPAVYDLANRGLLPPSFALVGFARREWDKEDFAAEVKASVQAYARTPFDEAVWNQLSEGIRFVQGEFDDDGAFERLGETIKELDDVRGTRGNHAFYLSIPPKAFEQVCRQLSKHGLAQAEGDKWRRVVIEKPFGHDLESARKLNDIVESVFPADAVFRIDHYLGKETVQNILALRFANQLFEPLWNANYVDHVQITMAEDIGTGGRAGYYDGVGAARDVIQNHLLQLLALTAMEEPISFNADDLRAEKEKVLAAVKLPEDLSAHSARGQFAGGWQGGEQVLGYLEEEGIPADSMTETFAAIRVDIHTRRWAGVPFYLRAGKRLGRRVTEIAVVFKRAPNLLFRDHGEDDFGQNAVVIRVQPDEGVTIRFGSKVPGTQMEVRDVTMDFGYGHSFTESSPEAYERLILDVLLGEPPLFPRHEEVELSWKILDPFEDYWAELNEQPEPYAPGSWGPASADELLARDGRTWRRP	PGPT0017380_786	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
D1-29_02533	1635	pgi		Glucose-6-phosphate isomerase	ATGAGTACTCTCAGCTACGACGCCACCGGTGCCGCACAGAAGGCACTTGAACAGCACCTGCCGGTCCTCGTTGAGGAGCGCAGTGCCACCCGGATCTTCGCCAAGGACCACACCCTGTGGGGTTCCGACGCCGAAGCCGAGTCGGCAGTCCGCCTCGGCTGGGTTGAGGCAGCCACCGTCTCGCAGCCCCTGGTTCCAGGCATCCTGGAACTGCGCGATGCCCTCAGGGCCGAAGGTGTCACCCGGATCGTGCTTTGCGGCATGGGCGGATCATCGCTTGCCCCCGAGGTGATCGCCGGCACCGCTGGCGTCGAGCTGACCGTATTGGACAGCACCGACCCCGACCAGGTCAGTGCAGCCCTCGCGGACCGGCTGGCCGAGACCGCCATTGTGGTTTCATCCAAGTCCGGTTCCACCCTGGAGACCGACTCACAGCGCAGGATCTTCGAACACGCCTTCAACGAGGCCGGCATCGATGCAAAGAGCCGGATCATCATTGTGACCGATCCCGGTTCCCCGCTGGACAAGGCGTCCCGCGAAGCCGGTTACCGGGCCGTCTTCAACGCCGACCCCAACGTCGGCGGTCGCTACTCCGCCCTCACCGCATTCGGCCTGGTGCCCTCGGGCCTGGCCGGCGTGGACATCCAGGCCTTCCTGGACGAGGCCGAGGAAGCTGCCGAAATTCTGAACGAGGACGCCCCGGAGAACATCGGGCTGGCCCTCGGAACGGCCCTGGGCGGCACCAGCCCGTTGCGGGACAAGATTGTCATCGCAGAGGACGGCTCCGGCATTGTGGGCTTCGCGGACTGGGCCGAACAGCTCATCGCCGAGTCCACCGGCAAGCTCGGGACCGGTGTCCTGCCGGTGGTGGCCGGCCCCTCCTCACCCGAGGTCACTTCCGGCGCCGAGGACGTCCTGGTGGTGCGGCTGGTAGCCGCTGACGCCGACGTCGAACTCGGTGAAAACGAGGTCGCCATTGCGGGCGGCCTGGCAACGCAGATGATGGTTTGGGAATTCGCCACGGCCGTCGCCGGACGGCTGCTGGGTATCAACCCGTTTGACCAGCCCGACGTCGAGGCTGCCAAGGTGGCTGCCCGCGGCCTGCTGGACGCCCAGCCGGAACCCACGCCCGCTGCGTTTGTTGACGGTGCCATCGAAGTACGCGGCGGTGACTGGCTCGGCGACGCCACCACTGCCGAGGACGCCGTGCACGCACTGCTGGGGACTCTTGCCGCGGACAGCTACCTCAGTGTCCAGGCATACTTTGACCGGCTCGCTTTCGCGCAGCTCGAGGGCATCCGGGACGAACTGGCAGCAGTCAGCGGCCGTCCCGTCACCTTCGGCTGGGGTCCGCGCTTCCTGCACTCCACCGGCCAATTCCACAAGGGGGGCCCCGCTATCGGCGTCTTCCTCCAGGTCACTGCGGCTCCCGCCGCCGATCTGGCCATCCCTGACCGTCCCTTTACGTTCGGGGAACTGATCTCTGCGCAGGCCGCGGGCGACGCCCAGGTCCTGGCTGGCCATGGACGGCCCGTACTGCGTCTGCACCTGACCGACCGCGCCGCCGGGGTGGCACAGCTGCAGGCAATTGTCGCAGCGCTTGCCGCACGGTCAGCATCCGTCACTGAAAGCTAA	MSTLSYDATGAAQKALEQHLPVLVEERSATRIFAKDHTLWGSDAEAESAVRLGWVEAATVSQPLVPGILELRDALRAEGVTRIVLCGMGGSSLAPEVIAGTAGVELTVLDSTDPDQVSAALADRLAETAIVVSSKSGSTLETDSQRRIFEHAFNEAGIDAKSRIIIVTDPGSPLDKASREAGYRAVFNADPNVGGRYSALTAFGLVPSGLAGVDIQAFLDEAEEAAEILNEDAPENIGLALGTALGGTSPLRDKIVIAEDGSGIVGFADWAEQLIAESTGKLGTGVLPVVAGPSSPEVTSGAEDVLVVRLVAADADVELGENEVAIAGGLATQMMVWEFATAVAGRLLGINPFDQPDVEAAKVAARGLLDAQPEPTPAAFVDGAIEVRGGDWLGDATTAEDAVHALLGTLAADSYLSVQAYFDRLAFAQLEGIRDELAAVSGRPVTFGWGPRFLHSTGQFHKGGPAIGVFLQVTAAPAADLAIPDRPFTFGELISAQAAGDAQVLAGHGRPVLRLHLTDRAAGVAQLQAIVAALAARSASVTES	PGPT0017735_2972	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
D1-29_02534	1116	tal	COG0176	Transaldolase	ATGACTACCCCCACACAGCAGCTGTCCGACGCCGGCGTTTCCATCTGGCTTGATGACCTTTCCCGCGGCCGCCTCAAGACCGGCACGCTCCGAAAGCTCATCGAAGAGAAGAACGTTGTTGGTGTCACCACCAACCCCTCTATCTTCCACGCCGCCATCACCACCGGCACTGACTACGACGCCACCATCGCAGCCCAGGCCGCCGCGGGCGCCAGCATCGAAGAGACCATCTTCGAAATCACCACCACCGACGTCGCTGATGCCTGCGACCTGTTCGCCCCCGTTGCCGCGGCAACCAAGGGAGTTGACGGCCGCGTTTCGATCGAGGTGGATCCCCGCCTCGCCTGGGACACCGCCGGAACCATCGCGGAAGCCAAGCACCTGTACAAGAAGGTGAACAAGGACAACGTCCACATCAAGATCCCGGCAACCCTTGAAGGCCTTGAGGCGATCACCGCCACCCTGGCCGAGGGAATCAGCGTGAACGTCACCCTGATCTTCTCGCTGGAGCGGTACCGCGCTGTGATCAACGCCTTCCAGTCAGGGCTTGAGCAGGCCAAGGAGAACGGGCACGACCTCTCCAAGATCCACTCGGTGGCCTCGTTCTTCGTTTCCCGCGTGGATTCCGAGATCGACAAGCGCCTCGACGCCATTGGCACCGATGAGGCCAAGGCCCTCAAGGGCAAGGCCGGCGTGGCAAACGCCCGCCTGGCCTACCAGGTCTACGAGGAGCTCTTCGCCACGGAGCGCTGGGCCCTGCTGGCCGACGCCGGCGCCCTCCCCCAGCGCCCGCTGTGGGCTTCCACCGGTGTGAAGGATCCGGCCTACCCGGACACCCTGTACGTGACCGAACTGGTTGCCCGCGGCGTGGTCAACACCATGCCGGAGAAGACGCTGGACGCCACGTTCGACCACGGTGTCGTCACCGGTGACACCATCACCGGCACCTACGCCGAGGCCAACGCAACCCTTGACGCGCTGGACGCCCTGGGCATTTCCTATAACGAGGTTGTTACGCTCCTCGAATCCGAGGGCCTGGACAAGTTCGTGGCCAGCTGGAAGGAACTTTTGGCTGACGTTGAAGGTGCCCTCGCCTCTGCACGGAAGGCTTCCTAG	MTTPTQQLSDAGVSIWLDDLSRGRLKTGTLRKLIEEKNVVGVTTNPSIFHAAITTGTDYDATIAAQAAAGASIEETIFEITTTDVADACDLFAPVAAATKGVDGRVSIEVDPRLAWDTAGTIAEAKHLYKKVNKDNVHIKIPATLEGLEAITATLAEGISVNVTLIFSLERYRAVINAFQSGLEQAKENGHDLSKIHSVASFFVSRVDSEIDKRLDAIGTDEAKALKGKAGVANARLAYQVYEELFATERWALLADAGALPQRPLWASTGVKDPAYPDTLYVTELVARGVVNTMPEKTLDATFDHGVVTGDTITGTYAEANATLDALDALGISYNEVVTLLESEGLDKFVASWKELLADVEGALASARKAS	PGPT0017375_940	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
D1-29_02535	2127	tkt	COG0021	Transketolase	GTGCCACATTTGGAAGAGCAAGAACTGTCATGGACCAGCTTGGACCAGCGCGCCGTGGATACCGTCCGGGTATTGGCTGCGGACGCTGTGGAGAAGGTGGGGAACGGCCACCCCGGCACGGCCATGAGCCTTGCGCCTGCCGCATACCTTCTCTTTCAGAAGCTCATGCGCCACGATCCGCGGAATCCCGATTGGCTGGGACGTGACCGTTTCATCCTGTCCCCCGGCCACACGTCACTGACGCTGTACATCCAGCTGTTCCTCTCCGGCTACGGCCTGGAGCTGAAGGACCTTGAGGCCCTTCGCACCTGGAATTCCCTCACCCCGGGGCACCCGGAGTACAAGCACACCGCCGGTGTGGAGATCACCACCGGCCCGCTGGGCCAGGGACTCGCCTCCTCAGTAGGCTTCGCCTACTCCCAGCGCCGCCAACGCGGACTGTTCGACGCCGATGCTGCCGCCGGCACCAGCCCGTTCGACCACACCATCTGGGTTATCGCCTCCGACGGCGACCTCCAGGAGGGCGTCACCGCCGAGGCTTCCTCACTGGCCGGCCACCAGGAGCTGGGCAACCTGGTAGTTATCTACGATGAGAACCACATCTCCATCGAGGACGATACGGACATCTCCTTCACCGAAGACGTCCTGAAGCGCTACGAAGCCTACGGCTGGCACACCCAGCGCGTGGACTGGACCAAGACCGGCGAATACAAGGAAGACGTGCAGGAGCTCTACTCCGCACTGCTCGCCGCCAAGGCTGAGACCTCCAAGCCTTCCATCGTCTCGCTGCGCACCATCATCGGTTACCCGGCCCCGAAGAAGCAGAACACCGGCAAGATCCACGGTTCCGCACTCGGCTCCGAGGAAGTAGCGGCACTGAAGGAGGTCCTGGGGTTCGATCCCGCGAAGTCTTTTGAGGTTGACCAGGACGTCCTGGCGCACGCCCGCGCCGTGGTGGACCGTGGAGCAGCCGCCCGCAAGGAATGGGAGGAATCCTTCAACTCCTGGCAGGCGTCCAACCCGGAAGGCGCCGCGCTCCTGCAGCGGATCGAAGCCCGTGAACTGCCGGAAGGCCTGGACGCAGCACTGCCGGTCTTCCCGGCGGGCAAGGACGTGTCCACCCGTGCAGCGTCCGGCAAGGTCCTCAACGGGCTGGGCCCGGTCATGCCGGAACTCTGGGGCGGCTCCGCTGACCTCGCCGAATCCAACAACACCACCATCGAGGGCTCGCCGTCGTTTGTGCCGGCATCCAAGCAGACTGACGCGTGGTCCGGCAACCCCTACGGCCGGGTGCTCCACTTTGGTATCCGTGAGCACGCGGCGGCTGCGATCGTGAACGGCATCAGCCTCCACGGCAACACCCGTTCCTTCTCCGGTACGTTCCTCATCTTCAGTGACTACCAGCGCCCCGCTATCCGGCTTGGTGCCCTGATGGGTGTCCCGTCGCTGTACGTCTGGACCCATGACTCCATTGGCCTGGGCGAAGACGGTCCCACCCACCAGCCCGTGGAACAGCTGGCGTCACTGCGTGCCATCGTGGGCCTGGACGTTGTCCGCCCCGGCGACGCCAACGAGGTGGCCATGGCATGGAAGACCATGCTGGAGAACCACGAGAACCCGGCCGGCATTGTGCTGACCCGCCAGAACATCCCCACCTACGCCCGTGGCGAGGGCAAGGCCGACGGCGACACCTTCGGTTCGGTTTCCGGTGTGGCCAAGGGCGGCTACGTGCTGGCTGAGGCGTCCCGGGACGGCGCCACGGTTCCGGCCGACGTCATCCTCATTGGCACCGGCTCCGAAGTCCAGCTTGCCGTCCAGGCCCGCGAAGCACTCCAGGCTGAAGGCATCGCTGCCCGCGTTGTCTCCATGCCGTGCGTGGAGTGGTTCAAGAAGCAGGACGCCGCGTACCGCGAATCCGTACTTCCGGCCGGCGTCAAAGCCCGTGTGTCCGTCGAAGCCGGGCTTGCCCTGGGCTGGCGGGAATTCGTCGGCGACGCCGGACGTTCCGTCTCGCTCGAGCACTACGGCGCTTCCGCTGACTACAAGCGCCTTTTCCAGGAGTTCGGCATTACCGCGGAGGCTGTCGCCGCCGCTGCCAAGGACTCCCTCGCTGGCCTGCAGGCCTGA	MPHLEEQELSWTSLDQRAVDTVRVLAADAVEKVGNGHPGTAMSLAPAAYLLFQKLMRHDPRNPDWLGRDRFILSPGHTSLTLYIQLFLSGYGLELKDLEALRTWNSLTPGHPEYKHTAGVEITTGPLGQGLASSVGFAYSQRRQRGLFDADAAAGTSPFDHTIWVIASDGDLQEGVTAEASSLAGHQELGNLVVIYDENHISIEDDTDISFTEDVLKRYEAYGWHTQRVDWTKTGEYKEDVQELYSALLAAKAETSKPSIVSLRTIIGYPAPKKQNTGKIHGSALGSEEVAALKEVLGFDPAKSFEVDQDVLAHARAVVDRGAAARKEWEESFNSWQASNPEGAALLQRIEARELPEGLDAALPVFPAGKDVSTRAASGKVLNGLGPVMPELWGGSADLAESNNTTIEGSPSFVPASKQTDAWSGNPYGRVLHFGIREHAAAAIVNGISLHGNTRSFSGTFLIFSDYQRPAIRLGALMGVPSLYVWTHDSIGLGEDGPTHQPVEQLASLRAIVGLDVVRPGDANEVAMAWKTMLENHENPAGIVLTRQNIPTYARGEGKADGDTFGSVSGVAKGGYVLAEASRDGATVPADVILIGTGSEVQLAVQAREALQAEGIAARVVSMPCVEWFKKQDAAYRESVLPAGVKARVSVEAGLALGWREFVGDAGRSVSLEHYGASADYKRLFQEFGITAEAVAAAAKDSLAGLQA	PGPT0011200_504	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
D1-29_02536	960	cyoE	COG0109	Protoheme IX farnesyltransferase	GTGACTGCCACCGTGAGCACAACCGATACGCCGCTGAACGCTTCCCGGGCCAGAGGGGGAGCAGGGCTGGCCCGCAAGGCCAAGGCGTATTTCGCCCTCACGAAGCCGCGGGTTATCGAACTGCTGTTGGTGAGCACGCTGCCCACCATGATCTATGCGGAGCGGGGTTTTCCCTCCGTCGGGCTCATCCTGGCCACGCTCGTGGGCGGTGCCTTTGCCGCCGGCAGCGCCGGTGCTTTCAACTGCTACATTGACCGGGACATCGACAAACTGATGCACCGGACCGAGAACCGGCCCCTGGTCACGGGCGAAGTGACCCCCCGTGAAGCGCTCATCTTCTCCTGGCTCCTGGGCGTCGCCGCGATCGTTATCCTCTGGTTCGGCGCCAACCCGCTGGCGGCATGGCTGGGACTGGCTGCCATCTTCTTCTACGTGGTCATCTACACCATCATCCTGAAGCGACGCACGGCGCAAAACATTGTGTGGGGCGGGGCCGCGGGCTGCTTTCCCGTCCTGATCGCCTGGGCTGCCGTCACCAACTCGGTGGAGTGGCCGGCGGTGATCCTCTTTATGGTCATCTTCCTGTGGACTCCGCCGCATTACTGGCCGCTGTCCATGCGCTACGGCGAGGATTACCGCAACGCCAACGTGCCCATGCTCGGTGCCATCGCCGGCGCCAAGGTGGTCTCGGTCCAGGTGGTCCTCTACGCGTGGGCCATGGTTGCATGCTCACTGCTGATGGTTCCGGCAGGCGGGGCAGGCTGGGTCTACACCGTGACCGCGGTGCTGGCCGGCGCCTGGTTCCTGTACGAATCACACTCCCTGTACATCCGCGCCCACCGCGAAGACATCCCGGACAAGCGGGCCATGAAGGTATTCCACGGATCCATCAGCTACCTGACACTGCTCTTCATCGCACTGGCCGTCGACCCGTTCGTCGGCTCCGCCATCGTGGGCTAA	MTATVSTTDTPLNASRARGGAGLARKAKAYFALTKPRVIELLLVSTLPTMIYAERGFPSVGLILATLVGGAFAAGSAGAFNCYIDRDIDKLMHRTENRPLVTGEVTPREALIFSWLLGVAAIVILWFGANPLAAWLGLAAIFFYVVIYTIILKRRTAQNIVWGGAAGCFPVLIAWAAVTNSVEWPAVILFMVIFLWTPPHYWPLSMRYGEDYRNANVPMLGAIAGAKVVSVQVVLYAWAMVACSLLMVPAGGAGWVYTVTAVLAGAWFLYESHSLYIRAHREDIPDKRAMKVFHGSISYLTLLFIALAVDPFVGSAIVG	PGPT0008520_1006	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
D1-29_02537	945	ctaA		Heme A synthase	GTGAGCACGGCTTCACGCCTCCCCCAGTTCGCCGGCCGCCTCTTCGCAGGTTTGCCCCGTACCGTGGACACCCGGGTCCGCCGCCTCGCGGTGGCCTCCCTTATCGGCCAGACCCTCCTGGTGGTCACCGGCGGCGCTGTCCGGCTGACGGCGTCGGGCCTGGGCTGTCCCACCTGGCCCCGCTGCACTGACACGTCGCTGGTGAACACCCCGGAAATGGGGATCCATGGATTCATCGAGTTCGGCAACAGGCTGCTGACCTTTGCCCTCGCGGCAGTGGCGGCACTCATGCTGGTCTACCTGTGGAACCTTCGCAAGGAACGCCGGGACCTCTTCCTGCTGGCGCTTGGCCTGCTGGCGAGCATTCCGGCTCAGGCTGTGATCGGCGGCATCACGGTGCTGACCAACCTCAACCCGTGGGTTGTCGGGCTGCACTTCCTCGTCTCCATGGCCCTTGTGGTGTTCGCCACGCTGCTGGTGAACCGGGCCTACGGCCGGACCGGCCGCTTTGCCACTACCCGGCTCCCCGCGCTGCCGGGCGTCCTGCGTCCGGTGACGGCCGCCGTCGCGCTTTTCTCAGCCGTTGCGGTGATGCTGGGCGTGGTGGTGACCGGCGCGGGTCCGCATGCGGGCGACGCCGACGCGCCGCGGAACGGGCTGGACTGGGACCTCTTCTCCCACATCCACGCCGTTCCTGCCTACCTCATCACGGCCGGAACGCTCTTTGCGCTGGTGATGGTTTTCAGGGCGCGGATCTCCGGGCCCTTCAGGACGGCGGCCTTGATGCTCCTGGCCGTGACCCTGCTGCAGGCGGTCATCGGCTTTACGCAGTACTACAACGGAATTCCTGCCCTGCTGGTCGCGGCGCACATGCTCGGTGCGGCCCTGCTCATGAGCGCAGCAACCAACGCTGCCGACGTCGCCCGTTCGAGCCCGGTCAAGTAG	MSTASRLPQFAGRLFAGLPRTVDTRVRRLAVASLIGQTLLVVTGGAVRLTASGLGCPTWPRCTDTSLVNTPEMGIHGFIEFGNRLLTFALAAVAALMLVYLWNLRKERRDLFLLALGLLASIPAQAVIGGITVLTNLNPWVVGLHFLVSMALVVFATLLVNRAYGRTGRFATTRLPALPGVLRPVTAAVALFSAVAVMLGVVVTGAGPHAGDADAPRNGLDWDLFSHIHAVPAYLITAGTLFALVMVFRARISGPFRTAALMLLAVTLLQAVIGFTQYYNGIPALLVAAHMLGAALLMSAATNAADVARSSPVK	PGPT0008525_2854	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008525-ctaA-K02259	NA	NA
D1-29_02538	801			hypothetical protein	ATGAACGGTCTGCCCACGGTTTCCGTGCCGGCATCGCCGGGCAGCCGCTCGGCCTCGCCGCCGGCTGCCGCCCCTCTGCTGCGCCGCATCCTGCTGCAGGGCAAGTACGAGTCCCTGACCATGATCCGCAATGGCGAACAGCTCATCCTGGCCGTTGTGCTCCCACTCCTTGCGCTGGTTGGCCTGACGGTGACCCCGTTTCTCGACGGGCTGGGGGCGAGCCGGATCAACGTGGCAGTCCCGGGCATCCTGGCACTCTGTGCCATGTCCACGGCGTTTACGGGCCAGGGAATTTCCACCGGGTTCGACAGGCGTTACGGCGTGCTTCGGTTCCTTTCCACCACTCCGCTGGGGCGCGTGGGCCTCATCGCCGGCAAGGTGCTGGCGGTCCTGGTGGTTCTTACCCTGCAGATCGGCGTGGTCACAGCAGTTGCCGTACCGTTGGGCTGGCAGCCTCCCGCCGCTGGCTGGCTGCCCGGCATTTCCCTTCTTGTTCTGGGCGCCGCGGCCTTTACAGCTTTGGGACTTCTGGTGGCCGGGACGGTTCGGCCCGAGGCCACGCTGGCCATCACCAACCTGCTGTGGATCCTGCTCGGCGCCCTGGGCGGGATAGTTATCCCTGCCGTACGGCTCCCGGACGCGGCACAGGCAGTGGTGCATTACCTTCCTTCCGGTGCCCTGGGCGAAGCCTTGCGCGAAGCATTCCTGCACGGCACGCTCAATGGCGGCGCCGCGCTTATCCTGCTGGCCTGGACCATCCTTGGCGGGGCCGCAGCCATCCGTTGGTTCAAGTGGAATTGA	MNGLPTVSVPASPGSRSASPPAAAPLLRRILLQGKYESLTMIRNGEQLILAVVLPLLALVGLTVTPFLDGLGASRINVAVPGILALCAMSTAFTGQGISTGFDRRYGVLRFLSTTPLGRVGLIAGKVLAVLVVLTLQIGVVTAVAVPLGWQPPAAGWLPGISLLVLGAAAFTALGLLVAGTVRPEATLAITNLLWILLGALGGIVIPAVRLPDAAQAVVHYLPSGALGEALREAFLHGTLNGGAALILLAWTILGGAAAIRWFKWN	PGPT0006730_18900	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-29_02539	888	lnrL_2	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGCTCCGTGTGGTCAGCGGTGTTTCGCTGGTTGCTGAGCGGGGCCAGGTTACTGCCCTCCTTGGCGCGAATGGCGCCGGGAAAACCACCACCATTGAATGCGCCCAGGGCCTTCAAAAGCGCAGTGGCGGGACTATTTCCCTGCTGGGTGAGGATCCCGCCCGTGCGGGCGCAGAACTCCGCTCCCGGGTAGGGATCATGCTCCAGGACGGCGGCCTCCCGCCGTCGGCCCGTCCGATCCCCCTGCTGAAACACATCGCGGGTATGTATTCGCACCCGCGGCCTGTGCATGAGCTGGTGGAGCGGTTGGGGATCGACGGATTCAGCCGGACCACTGTCCGCCGTCTCTCCGGCGGACAGAAGCAGCGGCTGGCACTTGCAGCGGCGCTGATCGGAAACCCCGAGGTCCTGTTCCTCGATGAGCCCAGCGCAGGACTGGATCCCCAGTCCCGGCAGCTGGTGTTTGAACTGATCTCGGAGCTGCGGGACGCCGGGATGGGCATCGTCCTGACCACCCACCTGATGGACGACGCCCAACGGCTGGCCGACTACGTCTACATCATCGACGCCGGCAGGAACGTGGCGGAAGGCACCGTGTCCCAGCTGCTCCAGCGGGATCCCGCTGTCGAGGATGGCGTTGACCACGTCCGGACGCTTTTCTTTGAGGCCCCGGCGGGCCTGGACTTTTCCGGCGTCCTCCCCGAAGGCATCGCGGTCAGTGAGACGCGTGCGGGCAGTTACGTCGCCACCGGAGCCCTGACCCCCCAGGATCTTGCCTCGTTGGCAACCTGGTGGGCCGCCCACGGTGTGATGCCCGGTTCCATGAGCCTGGAGGCACGCAGCCTCGAGGACGTTTTCCTTGACATTTCCGGGAAGGAGATCCGATGA	MLRVVSGVSLVAERGQVTALLGANGAGKTTTIECAQGLQKRSGGTISLLGEDPARAGAELRSRVGIMLQDGGLPPSARPIPLLKHIAGMYSHPRPVHELVERLGIDGFSRTTVRRLSGGQKQRLALAAALIGNPEVLFLDEPSAGLDPQSRQLVFELISELRDAGMGIVLTTHLMDDAQRLADYVYIIDAGRNVAEGTVSQLLQRDPAVEDGVDHVRTLFFEAPAGLDFSGVLPEGIAVSETRAGSYVATGALTPQDLASLATWWAAHGVMPGSMSLEARSLEDVFLDISGKEIR	PGPT0006725_4915	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-29_02540	831			hypothetical protein	ATGACCAATGCTTCTGCTGTGCCTTTTGCCGGGCACGGAGCGCCGCGCACCACCGAGGGCGGCCATCTCGCTGCCGTGCCGGTGGCTGACGCGGACGAGCGCACCCGGGACCGTGTCCTGGGCGCCGTCCTGGAGCACGGGCCCATCAGCGCGGCCGAACTCGGTGACATGCTCGGATTTACTCCGGCCGCCGTCCGCCGCCACCTGGATCACCTTTCCCGCAGCGGTGTCATCGAGGTCAAGCGCGTGGCCAGGGCCGGTGCCGGAGCGGGCCGCCCGGCCCGCCGGTACGTCCTCAGTTCCCAAGGGCAATCCACCCTTGGCAACGACTACCTGGACATCGCCACCCTTGCACTCAAGCAGCTCCAGCAAATGGGCGGCGAAGAAGCGGTGCGGGAATTCGCCGTCGAGCGTTTTGCTGACATGGAGCGCCGGTATGCGCCGGAGATCGAAAAGGCCGGTCCGGATATCACCGCACGGGCCCGCGCACTGTCCGCCGCCCTCAGCCGGGACGGTTTTGTGGCGTCTGCCGCCTCGATCGAGGCCAAAGCCCCTTTGCCCGCGGCGCTTTCCAGCGTCCAGCTCTGCCAGGGGCACTGCCCCATCCAGCAGCTTGCGGCGCATTTCCCCGTCTTCTGCGATGTCGAGACCGAGGTCTTTGCCCGGCTCGTAGGCGTGGACGTGCGCCGGCTGTCCACCCTGGCACGCGGCGGCCACGTCTGTACCACCCACATACCTACAGGCCGGCTGGCTGCTATGGGACCCCAAATCCCGGTAGCCGCCCCCGCCAGCCTGAATGAAGTAAACAACCATCAGCAAGAAAGGCCGTGA	MTNASAVPFAGHGAPRTTEGGHLAAVPVADADERTRDRVLGAVLEHGPISAAELGDMLGFTPAAVRRHLDHLSRSGVIEVKRVARAGAGAGRPARRYVLSSQGQSTLGNDYLDIATLALKQLQQMGGEEAVREFAVERFADMERRYAPEIEKAGPDITARARALSAALSRDGFVASAASIEAKAPLPAALSSVQLCQGHCPIQQLAAHFPVFCDVETEVFARLVGVDVRRLSTLARGGHVCTTHIPTGRLAAMGPQIPVAAPASLNEVNNHQQERP				NA	NA	NA	NA	NA
D1-29_02541	1464			hypothetical protein	ATGACGGACCAACTATCAGAGAAAGCGGTAGCCGAAGACACTGTGATCTCGGAGATTCTGGAAAAGAATCCTGAGCTTCACGGCATCGGCACGTACGAGTACGGATGGTCCGACAAGAACGACGTCGGTGCCAACGCCCGCCGCGGTATCAGCGACGAGGTTGTCCGCGATATTTCGGACAAGAAGAGCGAGCCGGAATGGATGCTGGACCTTCGCCTGAAGGGCCTGAAGTACTTCGACCGCAAGCCCATGCCCACCTGGGGTGCAGACCTCTCCGGCATCGACTTCGACAACATCAAGTACTTCGTCCGGTCCACCGAGAAGCAGGCCGCCACCTGGGAAGACCTGCCCGAGGACATCCGGAACACCTATGAAAAGCTGGGTATCCCGGAAGCTGAGCGCAGCCGCCTCGTCTCAGGTGTGGCCGCACAGTATGAGTCCGAAGTTGTGTACCACCAGATCCGTGAGGACCTGGAAGCACAGGGTGTCATCTTCCTGGACACCGATACGGCACTGCGCGAGCACCCGGAGATCTTCCAGGAGTACTTCGGCACGGTCATTCCGGTGGGCGACAACAAATTCGCTTCCCTGAACACGGCAGTCTGGTCCGGCGGCTCCTTTGTGTATGTCCCCAAGGGCGTCCACGTGGACATTCCGCTGCAGGCATACTTCCGCATCAACACGGAAAACATGGGCCAGTTCGAGCGGACCCTGATCATCGCCGACGAGGACTCCTACGTCCACTACATCGAAGGCTGCACCGCTCCGATCTACACCTCGGACTCGCTGCACTCCGCCGTGGTGGAAATCATTGTCAAGAAGGGCGCACGCGTCCGTTACACCACCATCCAGAACTGGTCCACCAACGTGTACAACCTGGTGACCAAGCGTGCCATCTGCGAAGAAGGCGCCACCATGGAATGGGTTGACGGCAACATCGGTTCCAAGGTCACCATGAAATACCCGGCTGTCTACCTGGTGGGCGAGCACGCCAAGGGCGAAACCCTGTCCATCGCCTTCGCCGGCGCCGGCCAGCACCAGGACACCGGATCCAAGATGGTGCACATCGCGCCGAACACCAAGAGCTCCATCATCTCCAAGTCTGTTGCCCGCGGCGGCGGACGTGCAGCATACCGCGGCCTGGTCCAGGTCCGCGAAGGTGCCAAGCACTCTGCCAACACCGTCCGCTGCGACGCCCTGCTGGTGGACACCATCAGCCGTTCGGACACCTACCCGTACATCGACATCCGCGAGGATGACGTTGTCATGGGCCACGAAGCAACCGTTTCACGGGTCAGCGAAGAGCAGCTCTTCTACCTGATGTCCCGCGGCATGCGCGAAGACGAAGCCATGGCGATGATCGTCCGCGGCTTCATCGAACCAATTGCCCGCGAACTCCCGATGGAGTACGCACTTGAGCTGAACCGCCTGATTGAACTGCAGATGGAAGGGTCCGTCGGATAA	MTDQLSEKAVAEDTVISEILEKNPELHGIGTYEYGWSDKNDVGANARRGISDEVVRDISDKKSEPEWMLDLRLKGLKYFDRKPMPTWGADLSGIDFDNIKYFVRSTEKQAATWEDLPEDIRNTYEKLGIPEAERSRLVSGVAAQYESEVVYHQIREDLEAQGVIFLDTDTALREHPEIFQEYFGTVIPVGDNKFASLNTAVWSGGSFVYVPKGVHVDIPLQAYFRINTENMGQFERTLIIADEDSYVHYIEGCTAPIYTSDSLHSAVVEIIVKKGARVRYTTIQNWSTNVYNLVTKRAICEEGATMEWVDGNIGSKVTMKYPAVYLVGEHAKGETLSIAFAGAGQHQDTGSKMVHIAPNTKSSIISKSVARGGGRAAYRGLVQVREGAKHSANTVRCDALLVDTISRSDTYPYIDIREDDVVMGHEATVSRVSEEQLFYLMSRGMREDEAMAMIVRGFIEPIARELPMEYALELNRLIELQMEGSVG				NA	NA	NA	NA	NA
D1-29_02542	1287			hypothetical protein	ATGACTGAAATCACTACCGAAAAGGCGCGCATCGGCGCGCCCTCAGCCCAGCCGTTTATCAACGGCTTCACCGAAGAGGGCGAAAGCCTGTCGCCGATCAACGCGGCCGCCTCCAAGGCCCCGCTTGCGGGAGAAGCGGTTAAGAGCCACTCCCATGGCGGCGGTGTCGGCATCCCGGACAGCTCACGCGCCGGCCGCCTGACCTCCTACAACCTGGCTGACTTCAAGCCCCTCACCGGCCTGGAAGAGGACTGGCGGTTCACGCCGCTCAAACGGCTGCGCGGACTTCACAGCGAGGTCCTCGCAGGGGCGGCTCCGGCCGTTACCGTCAGCGGCCCGGACCGGGTTCAGGTGGAAACGGTTGCCCGCGAGGACAAGCGCATTGGTACTGCCGGCATCCCGGAGGACCGAGTGTCCGCCAACGCCTGGGAGAACTTCAGCGAAGCCACCGTCATCACCGTCCCGGCCGAATTTGAGGCTGACACGGAAATCACCGTCCTCATCACCGGCCTGGCGACCGAAGCGGCCGCCCAGCACCTGGTGATCGTGGCAGAAAAGTTCTCCAAGTCAGTTGTGGTCCTGGACCACCAGGGCTCGGCTGTCGTCTCCGAAAACGTTGAAATCGTTGTTGAAGACGGCGCCGACCTCACCGTTGTCTCCCTCCAGGAATGGAACGACGACGCCGTCCACGCCTCCTCCCAGCAGGCGAAAATCGGCCGTGACGCCAAGCTCAAGCACGTGGTGGTCAGCCTCGGCGGAGACCTCGTCCGGGTAACCCCCTCGGCCCGCTTCACCGCCCCCGGCGGCGAGGCTGAAATGTTCGGCCTGTACTTCGCCGACGCCGGCCAGCACCTGGAGCAGCGGCTGTTCGTAGACCATGCCGTGGCCAACTGCACCTCCAACGTCCTGTACAAGGGCGCCCTGCAGGGCAGGAACGCCCACGCCGTGTGGGTTGGCGACGTCCTGATTCGCAAGGAAGCCGAAGGCACCGACAGCTACGAGGCCAACCGCAACCTGCTGCTCACCGACGGCGCGCGCGCCGACTCGGTTCCGAACCTGGAAATTGAAACAGGCCTGATCAAGGGTGCCGGCCACGCCAGTGCCACAGGGCGCCTGGACGACGAGCACCTGTTCTACCTCATGGCCCGCGGCATCCCCGAGGATGTTGCGCGCCGCCTGGTAGTCCGCGGCTTCCTCCACGAGATCATCCAGCAGATCAAGGTTCCGGCCCTCGAAGAGCGGCTCACGGACGCTGTTGAGCGCGAGCTCGCCGTGACCAACAACTAG	MTEITTEKARIGAPSAQPFINGFTEEGESLSPINAAASKAPLAGEAVKSHSHGGGVGIPDSSRAGRLTSYNLADFKPLTGLEEDWRFTPLKRLRGLHSEVLAGAAPAVTVSGPDRVQVETVAREDKRIGTAGIPEDRVSANAWENFSEATVITVPAEFEADTEITVLITGLATEAAAQHLVIVAEKFSKSVVVLDHQGSAVVSENVEIVVEDGADLTVVSLQEWNDDAVHASSQQAKIGRDAKLKHVVVSLGGDLVRVTPSARFTAPGGEAEMFGLYFADAGQHLEQRLFVDHAVANCTSNVLYKGALQGRNAHAVWVGDVLIRKEAEGTDSYEANRNLLLTDGARADSVPNLEIETGLIKGAGHASATGRLDDEHLFYLMARGIPEDVARRLVVRGFLHEIIQQIKVPALEERLTDAVERELAVTNN				NA	NA	NA	NA	NA
D1-29_02543	360	hcaC	COG2146	3-phenylpropionate/cinnamic acid dioxygenase ferredoxin subunit	ATGACTGACAAGCCAAAGGGCGAATTCGTCTGCAAGGTGGATGAAATCCAGCTCAAGCAGGCGCTGCGGATCCTGATCGATGACTACCCCGTAGCCATCGTCAAGGACTCCATGGGCGAGATCCACGCCATCGGCGACACCTGCTCACACGCGGACATTTCCTTGTCCGAGGGCGAGGTGGAAGGCTGCATGATCGAGTGCTGGGGCCACGGCTCCCAGTTCGATCTGCGAAGCGGGGAACCGCTGCAGCTGCCGGCGTATGACCCGGTCCCGGTGTTCGCCGTCGAGATCGTCGGGGATGAGGTCTATGTGGACTTCACCAACGTGGTCAACGGTGCGGAAGCCCCCAACTTTGGCTAG	MTDKPKGEFVCKVDEIQLKQALRILIDDYPVAIVKDSMGEIHAIGDTCSHADISLSEGEVEGCMIECWGHGSQFDLRSGEPLQLPAYDPVPVFAVEIVGDEVYVDFTNVVNGAEAPNFG	PGPT0019745_106	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
D1-29_02544	795	sufC	COG0396	Vegetative protein 296	ATGTCTACTCTTGAGATCAAGGACCTGCACGTCAGCATTGACACTGAGCAGGGCACCAAGGAGATCCTGAAGGGCGTCAGCCTGACCATCAAGACCGGCCAGACCCACGCCATCATGGGACCCAACGGCTCCGGCAAGTCCACGCTGGCCTCCACCATCGCCGGCCACCCGCGCTACAACGTCACCAGCGGCTCCATCACCCTGGACGGCGAAGACGTCCTGGACATGAGCGTTGACGAGCGCGCCCGGGCCGGCCTCTTCCTGGCCATGCAGTACCCTGTGGAGGTCCCCGGCGTCAGCATGACCAACTTCCTGCGCACCGCCAAGACCGCCATCGACGGCGAGGCTCCCAAGCTGCGCACCTGGACCAAGGACGTCAAGGACGCCATGCAGAAGCTGCGCATCGACGCCGACTTCGCCCAGCGCAATGTCAACGAAGGTTTCTCGGGCGGCGAAAAGAAGCGCGTGGAGATCCTCCAGCTGGAGCTCTTCAAGCCGAAGTTCGCCATCCTGGACGAGACCGACTCCGGGCTGGACGTGGACGCGCTCAAGGTTGTCTCCGAGGGCGTCAATCGTGCGCACGCCGAAGGCAACATGGGCACCCTGCTGATCACCCACTACACCCGGATCCTGCGCTACATCAAGCCGGACTTCGTGCACGTGTTTGTTGACGGCCAGGTTGTCGAAGAAGGCGGCCCCGAGCTGGCTGACCGCCTTGAAGAAGAAGGCTACGACCGCTACGCCAAGGGCGCCGGCGCAGCCACCATCGCTGCCGCAGCGGCACAGGCTCAGTAA	MSTLEIKDLHVSIDTEQGTKEILKGVSLTIKTGQTHAIMGPNGSGKSTLASTIAGHPRYNVTSGSITLDGEDVLDMSVDERARAGLFLAMQYPVEVPGVSMTNFLRTAKTAIDGEAPKLRTWTKDVKDAMQKLRIDADFAQRNVNEGFSGGEKKRVEILQLELFKPKFAILDETDSGLDVDALKVVSEGVNRAHAEGNMGTLLITHYTRILRYIKPDFVHVFVDGQVVEEGGPELADRLEEEGYDRYAKGAGAATIAAAAAQAQ				NA	NA	NA	NA	NA
D1-29_02545	333			hypothetical protein	ATGACCGAAATCGATTCGGCCCGCACGGGCCTCGAAGACGTCGAAGAGGCACTCAAGGACGTCATCGACCCCGAGCTCGGCGTGAACATCGTTGACCTCGGGCTGCTGTACGGCCTCAAGTACTCAGACGACGACGGCGCCCTGCTGATCGACATGACGCTGACCACGGCCGCCTGCCCGCTCACCGATGTCATCGAGGAGCAGGTGGGCAAGGCCCTGGACGGCATCGTGGACGACTGGCGCCTGAACTGGGTGTGGATGCCGCCTTGGGGTCCCGAGCGGATCACCGACGACGGCAAGGACCAGATGCGGGCCCTCGGCTTCAACATCTGA	MTEIDSARTGLEDVEEALKDVIDPELGVNIVDLGLLYGLKYSDDDGALLIDMTLTTAACPLTDVIEEQVGKALDGIVDDWRLNWVWMPPWGPERITDDGKDQMRALGFNI				NA	NA	NA	NA	NA
D1-29_02546	822		COG2321	putative protein	ATGGGCCGCGGGGCTAAAGTGGGCGGCGGCATCGGGGGCGGGCTCATCCTCCTGGTTGCCTTGCTTCTGGGCGTGAATCCGCAGCTGCTGGAGGGCCTGGGCGGCATCGCGCCCGATCCCCAGAGCCAGGGCACCGCACCCGCATGTGAAACCGGGGCCGACGCGGACGCACGCCTGGACTGCCGGATCACCGGGACCGTCAACAGCCTCAATGCATTCTGGCCCGCTTATCTCCGGAACTACAACGTTCAGTACCCGCAGCCGGAAACGGTCATCTTCGGCGACGCCGTCAGCACCGGATGCGGCACGGCGTCCAGCGCGGTGGGTCCGTTCTATTGCCCCGCGGACACCACTGCCTACTTTGATCCCGGATTCTTCCAGGACCTCGTGGACAGGTTTGGGTCCTCCGGCGGTCCCCTGGCCCAGGAGTATGTGGTTGCCCACGAGTTCGGCCACCACATCCAGAATGTGCTGGGATACCTTGACCGTGCCCAGCAGGATCCCCAGGGGCCGGAGTCAGGTGCTGTCCGCGTGGAACTCCAGGCCGACTGCTACGCCGGCCTCTGGGTCAGGCACGCCGCCACCCAACCAGGACCCGACGGCCAGCCGTTCCTGGAGCCCATTACCCAGCAGGACCTCAACGACGCCCTGTCAGCAGCATCGGCGGTGGGCGATGACCGGATCCAGCAGGCCGCCACCGGCAGGGTGACACCGGAAGCGTGGACCCACGGGTCCAGCGAGCAGCGGCAGAAGTGGTTCTACCTGGGGTATCAGACCGGAGACATCAACCAGTGCGACACGTTCTCGGCGGCCACCCTCTGA	MGRGAKVGGGIGGGLILLVALLLGVNPQLLEGLGGIAPDPQSQGTAPACETGADADARLDCRITGTVNSLNAFWPAYLRNYNVQYPQPETVIFGDAVSTGCGTASSAVGPFYCPADTTAYFDPGFFQDLVDRFGSSGGPLAQEYVVAHEFGHHIQNVLGYLDRAQQDPQGPESGAVRVELQADCYAGLWVRHAATQPGPDGQPFLEPITQQDLNDALSAASAVGDDRIQQAATGRVTPEAWTHGSSEQRQKWFYLGYQTGDINQCDTFSAATL				NA	NA	NA	NA	NA
D1-29_02547	1407	menE_1		2-succinylbenzoate--CoA ligase	ATGCCTTTCTTGAACAGAATCCAGCGCTGGGCCGACGAACGGCCGCACGACACCGCCGTGGTGGTCGAAGGCAAACGCCTGGACTGGCTGTCGCTCCGGGATGCCGCGGCAGCGGCCGTGGCCGGTTCTGCGGGCGTATCGGTCCTTACCGAGGCCAACTCTGTGGACTTCGCCGTCAGGTTCGCGGCGGGTGTAGCGGGGGAACGGCAATGTGCCGTCCTGGATCCGGCGTGGCCGGCCCTGCTGCGCGAGGAGATCCATCAGCGGCTCCGGGAAACCCAGCAACCGCCTGCCGTCTCCGAGGAAGACCCGCTGGCTGACGGTTCGCCCGACTCCACGTTCCTGATCGGGCTCACCTCGGGAACCACCTCGGTTCCCAAGGCCTTCACCAGGTCGCGGCGGTCCTGGCAGCAGTCCTTTGACGCCTCGATCGAGTTCTTTGGCCTCCAGCAGGACGACGTGACGCTGGCGCCCGGACCGCTCGCTGCCAGCCTCAACCTCTATGCCCTGGCCGAATGCCTTTACGCCGGTTCGGAATTCCAGACCCTCGAACACTTCGATGTGGGCGACGTGCACGCTGCCATCACCCACGACGGCGTGACCCGGCTGGTGCTGGTCCCCACCATGCTTCGGCTGCTGAGCGAGCGCGGGCTGACCGGTTGTGTTGATGCCTCCGGTGTCCGCACCATCATCTGTGCCGGCTCGAAACTGGACGCGCGTACGCTGGAAGCGGCCCGCCGCTGGGCTCCCCATGCCACCATCTTCGAATACTATGGCGCGTCCGAACTCAGCTTCGTTTCGGGGACAGGCCTTCCCGCGGGAGAGTTGCCCGATGCGGGCGGAACCGGAATCGGACGGCCTTTCCCCGGTGTGGAAGTCCGGATCCTGGACGATGCCGGAGCAGTCCTGGCGGATGGCTCCGCGGGGAACATCTGCGTGCGCAGCCCGATGGTGAGCAACGGCTACCTCTGGGGTGACGACGGCGAGGCATTGCGCTCTTTCGACGGCTGGTACACCGTGGGGGACCAGGGCTACCTGGCGGACGGAGAACTGCACATCCTGGGCCGCCGCGCAGACATGATCCTGACCTCCGGAAAGAACGTATATCCGCACGAGGTGGAGCTGGCACTGGCTTCCGTGCCGGGTGTCGCTGCCGCGGTCGCGGCCGGAATGCCTGATGACCTCAGGGGCCAGCGGGTGGTGGCCGGGGTCCTGCCCTCGCACGGCGGAATCACCGCCACACAGCTCAGGGCAGGACTCGAAAACATCCTGACCCGGGACAAACGCCCCCTGCAGTATTTTGCGTTGACCGAACTCCCCACCACCGACCGTGGCAAGGTCAGCCGGAACATGTTCCTTGAGTGGATCGGCTCGCAGGACCAGAGGGCCCGGCACCTTGGCCACTGA	MPFLNRIQRWADERPHDTAVVVEGKRLDWLSLRDAAAAAVAGSAGVSVLTEANSVDFAVRFAAGVAGERQCAVLDPAWPALLREEIHQRLRETQQPPAVSEEDPLADGSPDSTFLIGLTSGTTSVPKAFTRSRRSWQQSFDASIEFFGLQQDDVTLAPGPLAASLNLYALAECLYAGSEFQTLEHFDVGDVHAAITHDGVTRLVLVPTMLRLLSERGLTGCVDASGVRTIICAGSKLDARTLEAARRWAPHATIFEYYGASELSFVSGTGLPAGELPDAGGTGIGRPFPGVEVRILDDAGAVLADGSAGNICVRSPMVSNGYLWGDDGEALRSFDGWYTVGDQGYLADGELHILGRRADMILTSGKNVYPHEVELALASVPGVAAAVAAGMPDDLRGQRVVAGVLPSHGGITATQLRAGLENILTRDKRPLQYFALTELPTTDRGKVSRNMFLEWIGSQDQRARHLGH	PGPT0008380_15918	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-29_02548	1188	thlA_2	COG0183	Acetyl-CoA acetyltransferase	TTGGCCACTGATCTGCTTCCCGCCGACCGGCAGCCGGTCATCATCGGTGCGCGCCGCACCCCTGTCTGCCGCGCCAATGGGCCCCTGAAGGAGCTGCGGGCGCACCAGCTGCTGGCGCCTGTCCTGGGTCAGCTGCTTGCTGACAGCGGCGTCCCGTCGGGGGCCGTCACCGATGTGGTGATCGGCAACGCGGTGGGCGGCGGCGGAAATGTGGCCCGGCTCGCCTTGCTGGAGGCCGGTCTCCCCGTCAGCGTCCCCGGGGTCACCGTGGACCGGCAGTGCGGTTCCGGGCTGGATGCCATCGTGCTGGCCTCCAAGCTCGTGGCGGCCGGCGGCGGTCCCGTGTATCTCGCCGGGGGAGTGGAAAGCATCAGCACCGCGCCGCTGCGCGCACACCGGAACGACGACGGCGGGCACGACTTCTTTTCCCGTGCCCAGTTTGTGCCGCACAGCTTTGGCGACCCCGACATGGGTGTGGCTGCCGAGAACGTCGCAGCCAAGTTCGCCGTCAGCAGGGAAAGCCAGGATGCTTTTGCCCTGCGGAGCCACCAACGGGCGGTCGCAGCAGTCCAGGCGGGCGCGTTCGCCGACGAAATCACGCCGCTGGAAACGCCTTCCGGGACCATCAGTACCGACGACGGCCCGCGTCCGCGGCTAACTGCCGGCGTCCTGGCCAGGTTCCCGGCAGCCTTCGTTGATCAGGGTACTGTCACCGCCGGGAACTCATGCTTCGACGCGGACGCCGCGTCCGCCGTCGTGATCACGTCCTTGGAGCGGGCACGGGAACTGGGCGTGCCGGACGGCCTGCTGGTCCTGGCCACCGAGACCGTTGGGGTGGAGCCGCGGCTGCTGGGGATCGGGGCCGCGATGGCCGCCGAGAAGCTTCTGGCCGCCCGGGGTTTGTCCGTCTCTGAGCTGGGCCTGGTGGAGTTCAACGAGGCTTTTGCGTCGCAGGCACTTGCGTGCCTTGACCACCTTGGCATTGATCCGCTCCTGGTGAATCTCGACGGCGGGGCGTTGGCTTTGGGCCACGCGTACGGGGCGTCAGGGGCCGTGCTCGTGACGCGCCTGCTGGCCCAGGCGAGGCGGAAAGCCGAGGCAGGCTGCCTTGCCCTGGCCATGATCAGCATCGCGGGTGGCATGGGTACTGCGGCGCTGCTGCAGTATGAAAGGTTCGCCGCCGGCTGA	MATDLLPADRQPVIIGARRTPVCRANGPLKELRAHQLLAPVLGQLLADSGVPSGAVTDVVIGNAVGGGGNVARLALLEAGLPVSVPGVTVDRQCGSGLDAIVLASKLVAAGGGPVYLAGGVESISTAPLRAHRNDDGGHDFFSRAQFVPHSFGDPDMGVAAENVAAKFAVSRESQDAFALRSHQRAVAAVQAGAFADEITPLETPSGTISTDDGPRPRLTAGVLARFPAAFVDQGTVTAGNSCFDADAASAVVITSLERARELGVPDGLLVLATETVGVEPRLLGIGAAMAAEKLLAARGLSVSELGLVEFNEAFASQALACLDHLGIDPLLVNLDGGALALGHAYGASGAVLVTRLLAQARRKAEAGCLALAMISIAGGMGTAALLQYERFAAG	PGPT0008320_5169	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-29_02549	624	bioN	COG0619	Energy-coupling factor transporter transmembrane protein BioN	GTGAGGGGGCATGGCTTCCTGCTGGCCAACTATGTTCCCGGCAACTCCGTCATCCACCGGGCACCGCTGGCAGCCAAGTTCCTGCTGGTCATCGGCTGTGGCCTGTCATCGTTCCTGGTAGGCGACTGGCTGGTGTCCGCGGCCGTCTTTGCCGTGATGTGCGGGCTGTTTCTCCTGACGGGCGCGGGTGTGCTCCGGCTCCTCGCCGCCGTCCGGCCGTTGATCCTGGTACTGCTGGTGATCGGCCTGTTCCAATGGTGGCAGCTGGGCGGCCCCACCGCCGCACGGATTGTCCTGAACATCCTGGTCTGCGTCGTTGCGGCGTCCTTGCTGACGGCCACCACCCCGATGCAGCGGCTGCTGGATGGTGTGGTGTCCCTGGCCAGGCCCTTCCGCCGCTTTGGTGCGGACCCGGAGCGCTTTGCCCTCACCATCGCCATCATGCTGCGGAGCATCCCCTACATCGCCGGCGCCTTCGCCGACGTCCGGGACTCCGCCCGGGCCCGCGGGTTGGAGCGCAACCCCCGTGCCCTCGTGCTGCCCGTCATCATTACCACCGTGGCGTTCGCAAGGCAGACCGGCGAGGCACTGGCGGCCCGAGGACTTGGCGAGCCCGAAGACTAA	MRGHGFLLANYVPGNSVIHRAPLAAKFLLVIGCGLSSFLVGDWLVSAAVFAVMCGLFLLTGAGVLRLLAAVRPLILVLLVIGLFQWWQLGGPTAARIVLNILVCVVAASLLTATTPMQRLLDGVVSLARPFRRFGADPERFALTIAIMLRSIPYIAGAFADVRDSARARGLERNPRALVLPVIITTVAFARQTGEALAARGLGEPED				NA	NA	NA	NA	NA
D1-29_02550	717	bioM	COG1122	Biotin transport ATP-binding protein BioM	ATGGCCACCATTTCATTCCACGATGCCTGCGTTGAGGTGGCTGTTGAAGGCCGGCACGAGGCCAAGGCACTCCTTCGGGACATCAACCTGGACCTGACCGAACAACGGATCGGCGTCATCGGGGCCAACGGCTCCGGCAAGTCCACATTGCTGCGACTGATCAATGGGCTGGTCCAGCCAAGCTCGGGCTCGGTCAGTGTGGACGGCGCCGATACTGTCCGTGCCGTTCGGTCTGTTCGCCGGCAGGTCGGGTTTGTTTTCACCGATCCGCTCTCGCAGTTGGTGATGCCCACAGGACGGGAGGACGTTGAACTGTCATTGCGCAGGCCGGTCCGCAACGGACAGGAGCGGCGCCGCCAGGCGGAAGCCGCCCTGGACCGGTTCGGCCTCCTCCCGCTCGCCGATCAGAGCATCTACGAGCTCTCCGGCGGAGAACGCCAACTGATGGCGCTCGCGGCCGTTCTGGCCGTGAATCCTTCGGTACTGGTGCTGGATGAGCCTTCAACGCTGCTGGACTTGCGGAACCGCGAGCTGTTACGGCGTACGCTCTCGGCTCTTGACCAGCAGATCATCATGTCCACCCATGACCTGGATCTGGCATTGGAAATGGACCGTGTGCTGGTGGTCGAAGCAGGCCGGGTGGTGTTCGACGGCGGCCCCGCCGAAGCGGTGGACGGGTACCGGGCGCTCTGCGCCAACGGCCTGGCATCCCCGTGA	MATISFHDACVEVAVEGRHEAKALLRDINLDLTEQRIGVIGANGSGKSTLLRLINGLVQPSSGSVSVDGADTVRAVRSVRRQVGFVFTDPLSQLVMPTGREDVELSLRRPVRNGQERRRQAEAALDRFGLLPLADQSIYELSGGERQLMALAAVLAVNPSVLVLDEPSTLLDLRNRELLRRTLSALDQQIIMSTHDLDLALEMDRVLVVEAGRVVFDGGPAEAVDGYRALCANGLASP	PGPT0022045_255	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022045-bioM-K16784	NA	NA
D1-29_02551	630	bioY	COG1268	Biotin transporter BioY	ATGAGCAAGACTGACACAGCTGTCACCGGCACCGCCGCCCGTGAACGCATCCGCTGGAACGCCACGGACCTTGGCCTGATCGCCGTTTTCGCCGCGCTGGTGGCAGCATCCGCCATGATCCCCGGCATCGCCGCCAACGTCTTCGGCGTTCCCATCACCTTCCAGACCCTCGCCGTAATGCTCACCGGACTGATGCTGGGCCCTGGACGCGGCTTCGCCGCCGTGGGCCTCTACACGGTTCTGGGGCTGGCGGGACTGCCCATCTTCAGCCAGGGCCGCAGCGGCCTGGGTATCCTCGCCGGGCCGTCGGCAGGTTATATTATCGCCTTCCCCATCGCGGCGGCCGTGGTGGGCTGGTTGGCAACAGTGGTTATCCGCCGCACGTCACGGGCCAGGGCGCTGTGGTTCTTCGCCGCAGCCACGGTAACCAGCATTGTTGTGGTGCACACCCTCGGGATTGCCGGGATCGCCCTGAACACCAAGGCAACCCTGGGAGAGGCTTTTCTTGCCGACCTGATCTTCTACCCTGGCGACGTCGTCAAGAACATCCTGGCGGCAGCGATCGCGGTTGCCCTGCACCGGGCCTTTCCTGACCTTCTGGTCCGCCGCGTGAAGCGGATCGCGGCCTAG	MSKTDTAVTGTAARERIRWNATDLGLIAVFAALVAASAMIPGIAANVFGVPITFQTLAVMLTGLMLGPGRGFAAVGLYTVLGLAGLPIFSQGRSGLGILAGPSAGYIIAFPIAAAVVGWLATVVIRRTSRARALWFFAAATVTSIVVVHTLGIAGIALNTKATLGEAFLADLIFYPGDVVKNILAAAIAVALHRAFPDLLVRRVKRIAA	PGPT0022050_214	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523	NA	NA
D1-29_02552	210			hypothetical protein	ATGGAAGACCTGCGGCACACGGCGAGGATCCTGCTGCAGCGGGATGATGTGGCCTTGACTGACCTCTGGATCATGTACTGGAACCATGGTGGGGACTGCCATCCGTTTGATTTCGATGCCTTTATCCATGAACTGCTGCCCGTTGCCTGGTTCGACATGAACGCCCTGGCCTCAGCGGTTCATGAACTGGTTCTCGAAAGCACCGGCTGA	MEDLRHTARILLQRDDVALTDLWIMYWNHGGDCHPFDFDAFIHELLPVAWFDMNALASAVHELVLESTG				NA	NA	NA	NA	NA
D1-29_02553	735			hypothetical protein	ATGGATACCCCTGAGGAGATGGACGATTTCGAACGGCTCCAGGATCTGGTAGCCGAAATGGAAGACATCAAAGGCTTCCTTGAGGGCATGACGGGCCTTGCCGCCGCCGCAATGACCCGGGCCTCTGAAGCACGTATTGAATGTGCCGTGACCCTTCAACGCCGCAAGCGCCCCGCCACGATCGCGGGAAGCAGTGACGACGCAATCCTCCTGGACGGGATCGAACAGCGCCTGGGGGACGGCCCGTGCCTTTTGGCGCTGCGCACGGGTGCAACAGTGCTGCTGGGCGATCTCTCATCCGATTCCCGGTGGCCGGAGTTCCGCCAGGAGCTGGCGGCTAAAGGCTTCCGCAGCGCACTGGGTGTTCCACTGGACCTGGGCAAGAATGCCTCGTCCGTCCTGAATTTCTTCGCCTCTGACACAGGTGTCTTCACCCAGGAGAGCATCGAAGAAGCTCAACGCTTCGCAGATGTGGCTGGCCGTGCCCTCCGCCTGGGCCTGAGGATTGCTGCCGCCGAGCTGCGGGCCGAGGACCTGGCCTCGGCCATGGAGTCCAGGACCACCATCGACATGGCACGTGGCATTATCATGGCGCAGAACCGCTGTACGGGCGAAGAAGCCTTCGATATCCTCCGCCGCGTTTCGAGCACTCGAAACGAGAAGCTGCACGATATTGCCGGTGGTGTCGTCGCCGGGGTTGCAGGACCGCCCAAGGCAATGCACTTCGAGCCGTGA	MDTPEEMDDFERLQDLVAEMEDIKGFLEGMTGLAAAAMTRASEARIECAVTLQRRKRPATIAGSSDDAILLDGIEQRLGDGPCLLALRTGATVLLGDLSSDSRWPEFRQELAAKGFRSALGVPLDLGKNASSVLNFFASDTGVFTQESIEEAQRFADVAGRALRLGLRIAAAELRAEDLASAMESRTTIDMARGIIMAQNRCTGEEAFDILRRVSSTRNEKLHDIAGGVVAGVAGPPKAMHFEP				NA	NA	NA	NA	NA
D1-29_02554	1782	asnB	COG0367	Asparagine synthetase [glutamine-hydrolyzing] 1	ATGTGCGCAATTGCCGGCGAGATTGCCTTCAACGGAGAAAGGGCAGAGCGCGAACCTGTCCTGAAAATGATGGGAGCCATGACATCGCGCGGCCCGGATGGAGACGGAATCTGGGATTGCGGCTGGGCGGCCCTGGGCCACCAGCGATTGAGCATTATCGACCTTTCCGAAGCCGGCGCACAGCCCATGATCGATGAGGACGCCGGCCTTGCCCTCACCTTCAACGGATGCATCTACAACTACAGGGATCTGCGGCGGGAGCTTGGCAAGGAGTTCGTCTTCCAGTCCACGAGTGACACCGAGGTCATCCTCAAGGCATACCGGAAATGGGGAGAAGACTTCGTCCATCACCTGGTGGGGATGTTTGCCATCGCCATCGCCGACAAAAGACGCCGGAAGATCCTCCTGGTGCGGGACCGGCTGGGCATCAAGCCCCTGTATCTGGCCAAACTCCAGGGCCGAATCCGCTTTGCGTCAACCCTCCCGGCACTGGTCAGCGCGGGCGGCCTGGATACCAGCATCGACGAGACCGCACTGCACCACTACCTGAGCTGGCACTCCATCGTTCCTGCGCCAAGGACCATCCTGAAGGGAGTGGAAAAGCTTCCGGCGGCCACCATGAGGGTCCTCCAGGCGGATGGAACCTGGCACGACAGAGAGTACTGGAAGCCCGAATACACCCGGACGGCAGGGTTCGCGGACTGGACCACCCAGGACTGGCGGGATGCCATTGGCGAGTCGCTTCGGACAGCGGTGCGCCGGCGTATGGTGGCCGATGTGCCGGTGGGCGTGCTGCTGTCCGGAGGCCTGGATTCCAGCCTGCTGGTTGCCCTCCTGGCAGACGAGGGCCAGCAGGGGCTGGCCACTTTCAGTATTGGATTCGACGGTGCCGGCGGGGAAGCCGGTGATGAATTCGCCTATTCAAACCTGATCGCCAAGACCTTTGGGACGCAGCATGAGCGCCTCCACGTGGGAACGTCAGATTTAGCCCCCGCGGTTGCGGGAGCCGTCTCGGCCATGTCCGAGCCCATGTCCAGCCACGATGTCACGGCCTTCTACCTGCTGTCCCAGAGGGTATCGGAGAGACTCAAAGTAGTGCAGTGCGGCCAGGGCGCCGACGAAGTCTTCGCCGGTTACAGCTACCACCAGCCCGCCACAACGGTGTCACGGCGGGAAGCGAGGGCCGCCTTTGTCCCGGCTTTTGTTGACCACAGCCATAAGGAGCTCCTCGAGATCCTTGAGCCTGAATGGTGGTGTGGCAGGGACGTCAGCGGCGAGGTCCTGGCTTCGAACCTGGCGTGCCCCGGAGCGGATACTGCCCTGGATGCGGTGCTGAGGCTTGATACCCATCTCCTGATGATTGATGACCCGGTAAAACGGCTGGACAACATGTCCATGGCCTGGGGCCTCGAAGCCCGCGTCCCATTCCTTGACCATCACCTCGTGGAACTCGCCGCTTCCTGCCCGCCCGGGCTCAAGTCCGCCCACGGTGGTAAAGGCATACTCAAGGACCTGGGCCGCACCATCCTGCCTTCGGCCGTGATTGATCGCCCCAAGGGGTACTTTCCCGTGCCTGCGCTGCGGTACCTGGCGGAACCATTCCTGTCCATGGCGCATGATGCCCTGCATTCACCGGAGGCCAAGCAGCGGGGACTTTTCCGGTCAGACTATGTTGAGGGGCTCCTGGCCGATCCGAACAGCAGCCGTACTCCGGTCAACAGCAATGTCCTGTGGCAGCTGGCGCTACTGGAGATGTGGCTCCAGCAGCACGGTGTGGGCTGA	MCAIAGEIAFNGERAEREPVLKMMGAMTSRGPDGDGIWDCGWAALGHQRLSIIDLSEAGAQPMIDEDAGLALTFNGCIYNYRDLRRELGKEFVFQSTSDTEVILKAYRKWGEDFVHHLVGMFAIAIADKRRRKILLVRDRLGIKPLYLAKLQGRIRFASTLPALVSAGGLDTSIDETALHHYLSWHSIVPAPRTILKGVEKLPAATMRVLQADGTWHDREYWKPEYTRTAGFADWTTQDWRDAIGESLRTAVRRRMVADVPVGVLLSGGLDSSLLVALLADEGQQGLATFSIGFDGAGGEAGDEFAYSNLIAKTFGTQHERLHVGTSDLAPAVAGAVSAMSEPMSSHDVTAFYLLSQRVSERLKVVQCGQGADEVFAGYSYHQPATTVSRREARAAFVPAFVDHSHKELLEILEPEWWCGRDVSGEVLASNLACPGADTALDAVLRLDTHLLMIDDPVKRLDNMSMAWGLEARVPFLDHHLVELAASCPPGLKSAHGGKGILKDLGRTILPSAVIDRPKGYFPVPALRYLAEPFLSMAHDALHSPEAKQRGLFRSDYVEGLLADPNSSRTPVNSNVLWQLALLEMWLQQHGVG	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
D1-29_02555	1599	ybiT_1	COG0488	putative ABC transporter ATP-binding protein YbiT	GTGATTACCGTCCAGGATCTTGAATTGCGCGCCGGCGCCCGGCTCCTTATGGACCAGGTGAGCTTCCGCATCGACAAGGGAGACAAGATCGGCCTTGTGGGCCGGAACGGAGCAGGCAAGACCACCCTGACCCGCGTGCTGGCCGGTGAAGGACTTCCGGCCGCCGGCAAAGTGACCCGCACCGGAGAGATCGGTTACCTTCCGCAGGATCCCCGCACGCCGGACATGGAACAGCTTGCCCGCGACCGTATCCTGGCTGCCAGGGGGCTGGACATCGCGGTCGGCAAACTCCGGCTGGCGCACGATGAGATGGCGAGCGAGGACGCCGACGTCCAGCGCAAGGCGATGAACCGCTATGACCGGCTGGAATCGGAGTTCCTGGCAGCCGGCGGCTACGCGGCTGAGGCCGAGGCCGCCGCCATCTGCTCCAACCTGGCACTGCCGGACCGTATCCTGAACCAGCCGCTTAAGACGCTGTCCGGCGGGCAGCGCCGGCGTGTTGAACTGGCACGGATCCTGTACTCCGACGCCGAGACCATGCTGCTGGATGAACCTACCAACCACCTTGATGCGGACTCCATCGCGTGGCTCCGCGACTTCCTGAAAAACCATCAGGGCGGGCTCATTGTCATCAGCCACGATACCGAGCTCCTGGAAGCCACCGTCAACAAGGTCTTCCTGCTGGATGCCAACCGGGCCCAGATCGACTTCTACAACATGGACTGGAAGCGCTACCTCACCCAGCGGGAGACCGACGAACGCGCCCGCAAGCGGGAACGCGCCAACGCGGAAAAGAAGGCCCAGGTCCTGTTTGACCAGGCCAATAAGATGCGGGCCAAGGCCACCAAGGCAGTTGCAGCCCAGAACATGGCCAAGCGTGCCGAGCGGCTGCTCAGCGGGCTGGAAGCTGTCCGCGAAAACGACCGCGTGGCCGCCCTCCGCTTCCCGGATCCGTCACCCTGTGGCAAGACCCCGCTGACTGCCGAAGGCCTCAGCAAGTCCTACGGTTCGCTGGAAATCTTCACCGATGTTGATCTGGCGATCGACCGCGGTTCCAAGGTGGTGATCCTGGGCCTGAACGGCGCCGGAAAGACCACCCTCCTGCGTATGCTCGCCGGCGTGGACAAGCCCGACACCGGAGACATCATCCCTGGGCACGGGCTCAAGGTGGGCTACTACGCCCAGGAGCACGAAACCCTGGACGTGGACCGGACTGTCCTGCAGAACATGCGCTCTTCGGCGCCGGACATGCAGGACGCCGAAGTCCGCGGCATTCTTGGCTCGTTCCTGTTCTCCGGGGACGACGTCGACAAGCCGGCCGGCGTCCTTTCAGGTGGTGAGAAGACCCGCCTGGCCCTGGCCACCATTGTGGCTTCCAGCGCCAACGTGCTTCTGCTCGACGAACCCACGAACAACCTTGACCCTGCCAGCCGCGCCGAGATCCTGGGCGCCCTGCGCAACTACAGCGGCGCCGTGGTCCTTGTCAGCCACGACGAAGGCGCTGTGGAAGCCCTGAACCCGGAGCGGGTAGTCCTCCTGCCCGACGGCGTCGAGGACCTCTGGAACGAGGACTACCTGGACCTCATCACGCTGGCCTAG	MITVQDLELRAGARLLMDQVSFRIDKGDKIGLVGRNGAGKTTLTRVLAGEGLPAAGKVTRTGEIGYLPQDPRTPDMEQLARDRILAARGLDIAVGKLRLAHDEMASEDADVQRKAMNRYDRLESEFLAAGGYAAEAEAAAICSNLALPDRILNQPLKTLSGGQRRRVELARILYSDAETMLLDEPTNHLDADSIAWLRDFLKNHQGGLIVISHDTELLEATVNKVFLLDANRAQIDFYNMDWKRYLTQRETDERARKRERANAEKKAQVLFDQANKMRAKATKAVAAQNMAKRAERLLSGLEAVRENDRVAALRFPDPSPCGKTPLTAEGLSKSYGSLEIFTDVDLAIDRGSKVVILGLNGAGKTTLLRMLAGVDKPDTGDIIPGHGLKVGYYAQEHETLDVDRTVLQNMRSSAPDMQDAEVRGILGSFLFSGDDVDKPAGVLSGGEKTRLALATIVASSANVLLLDEPTNNLDPASRAEILGALRNYSGAVVLVSHDEGAVEALNPERVVLLPDGVEDLWNEDYLDLITLA				NA	NA	NA	NA	NA
D1-29_02556	396			hypothetical protein	TTGACCGACAAGCTCAGTATTCTCGTTCGAGTAGACCTCGATTCCGCCCGCGCCCAGGTTTCCACCCGGGGCCATGTGACCACCAAAAGCATCCAGGCCCTTTACGTTGTGGTAAAGCGCGCCAACGCCCTCCGGGAAAATCTTGACCTGGAAATCGACATGACCCACGCCTGGGTTGAGCCGGACGCACTGGAGCAACTGAACAAGTGCTCCCGGACGCGTCACCTGCCCGTGCAGATCGATCCCTACCAGGCTGACTGCAGGTTCCGCGTGGTACCGCCAAGCGCTCCGGTGGTGACTGCACCGGCCATGATTGCGCAGGCTTCGGCCGGGACACTGCCAAAGAGGACGCCGGGCAGCACGGTACGAACGAAAGTGGCAGGCCTGGCTGCCTGA	MTDKLSILVRVDLDSARAQVSTRGHVTTKSIQALYVVVKRANALRENLDLEIDMTHAWVEPDALEQLNKCSRTRHLPVQIDPYQADCRFRVVPPSAPVVTAPAMIAQASAGTLPKRTPGSTVRTKVAGLAA				NA	NA	NA	NA	NA
D1-29_02557	885		COG3346	putative SURF1-like protein	ATGTACCGGTTCCTCTTTTCCAGCAAGTGGCTGGGTTACCTCCTGCTTGCCGCCATTTTCGCGGCCGCGTGTGTTTTCCTGGGGCGGTGGCAGATGGACCGCAGGGCTGAAACCCTTGCAGAGATCAACCGGGTCGTCTCCAATTACTCGGCGGCCCCCATCCCCTTTGCTGAGGCGAGAGACGAGTTCATCCGTTTGGATCCGGAGAAGGAATGGACCCAGGTTGAGCTGAAGGGCCGTTACGACGTCGCAGGCGAGAGGATTGTCAGGAACCGTCCGCTGAACGGCCAACCGGGTTATGAGGTGGTGGTTCCGTTCAGGCTGGATTCCGGCGAGACAGTGGTCATCGACCGGGGATGGCTGCCCATTGGCAACAGCAATCCGGGCAGCCCCGACTCGGTCCCCGAACCGCCCTCCGGGGAAGTGACTGCTGTTGTCCGGCTCAAACCCGGTGAGCCGCAGCTGCAGCGCGGTGCCCCGGCCGGGCAACTGGCCTCCATTGACCTTCCCGCATACTCGGCTGAGCTCGGCTATCCCCTTCTAACCGGCGCCTACGGACAGCTGGCCAGCGAGTCGCCGGCAGTGGCTGACATGCCTTTCCCCTTCCCCATGCCTTCCACCGAGGAAGGGACGCATCTGTCCTACTCCCTGCAGTGGTTTGCCTTTGGTGTCCTGATGTTTGTCGGCTTCGGCTATGCCGCCAGGCAGCAGGCACGCAACGCGGCGATCGACGCGGAGGAGGAAGCGGAGAACGGAATTGACTCCGGCAGCACCGTTCACTCGACTGCTGCAGCGGCCCGCCGTCGTCCGGCTGTTGCCCGCAAACGCAGGCACGCGACGTCGGAGGAAGAGGAAGACGCCATCCTGGACGCGCGGGGCCTGTAA	MYRFLFSSKWLGYLLLAAIFAAACVFLGRWQMDRRAETLAEINRVVSNYSAAPIPFAEARDEFIRLDPEKEWTQVELKGRYDVAGERIVRNRPLNGQPGYEVVVPFRLDSGETVVIDRGWLPIGNSNPGSPDSVPEPPSGEVTAVVRLKPGEPQLQRGAPAGQLASIDLPAYSAELGYPLLTGAYGQLASESPAVADMPFPFPMPSTEEGTHLSYSLQWFAFGVLMFVGFGYAARQQARNAAIDAEEEAENGIDSGSTVHSTAAAARRRPAVARKRRHATSEEEEDAILDARGL				NA	NA	NA	NA	NA
D1-29_02558	273			hypothetical protein	ATGAACATTTTCGACCTGGCTGCAGGGACGGATCCCGGGCCGGCCGGGGCTGCCATGTGCTCCCGGAAAGCCTGCCGTTCGGATGCCGCCTGGCAACTCCTGTGGAACAACCCCAAGATCCACACCCCGGAACGCCGGAAGATCTGGCTCGCCTGCAACGAGCACCGTGACTGGCTGGAGGACTATCTCCAGACGCGTGGGCTCTGGAAGGACACCGTAGCCCTGGCTCCCGACGCGGAGGCCGGGCATGCCCCTGCAAGGCAGGATGGCTGA	MNIFDLAAGTDPGPAGAAMCSRKACRSDAAWQLLWNNPKIHTPERRKIWLACNEHRDWLEDYLQTRGLWKDTVALAPDAEAGHAPARQDG				NA	NA	NA	NA	NA
D1-29_02559	441			hypothetical protein	GTGACCCTTGAAAACCATGCCGGACAGTCCGTGCCCGGAGATCGTGAAAGGTTCTCCGGGGACCCGGAAGTCCACAGCATCACGGATGCCGCTGCAGCCCATTCGGAGGACATGCACCAGCGTATGGTCAAGTACGCGCTGGCCATGGGAATCCGCATGGTGTGCCTCATCCTGATCTTTGTGGTGGATGGCTGGTTCAAGATCCTTATGGTCGCGGGAGCGGTCTTCCTGCCATGGATTGCAGTGGTCATCGCCAACGGCAGCGACAAAGCTGAAATCCACAGCGATTCGCTCCTCGATTCCGCTCCCCTCGCTGAGCTTGAGGGCGGCGCGGCAGCACCGGCCGCCGACGAAGACCCCGTCTCTGCAGTGCTCCAGGGCGAAGTCATTGATGATAACGACGACGAACCACACGACGGACAGGAACGGCGCGCTACATGA	MTLENHAGQSVPGDRERFSGDPEVHSITDAAAAHSEDMHQRMVKYALAMGIRMVCLILIFVVDGWFKILMVAGAVFLPWIAVVIANGSDKAEIHSDSLLDSAPLAELEGGAAAPAADEDPVSAVLQGEVIDDNDDEPHDGQERRAT				NA	NA	NA	NA	NA
D1-29_02560	726	fabG_2		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGTCTGAAGCAGTTACCGCGGCCCGCAGCGTCCTGATCACCGGAGGCAACCGCGGCATCGGGCTGGCCATCGCCGAGGCGTTCCTCGCCAACGGCGACAAAGTGGCCGTGACCTACCGGAGCGAGTCGGAGCTTCCGGCGGGGATCCTGGGCGTCAAAGCCGATGTGACGGACGAGGCCTCCGTGGATGTTGCCTTCTCCGAGGTGGAAGCCGCCCACGGTCCCGTGGAGGTCCTTGTGGCCAACGCAGGCATCACCAAGGACACGCTCCTGCTGCGTATGAGCGAGGACGATTTCACCTCAGTGATCGATACCAACCTCACCGGGGCGTTCCGCGTCATCAAGCGCGCCTCCAAGGGCATGATCCGGCTACGGAAGGGCCGCGTGGTCCTCATCTCATCCGTCTCCGGACTGTACGGAGCCCCGGGCCAGATCAATTATTCGGCGTCCAAGGCGGGGCTGGTGGGCATCGCCCGCTCGCTCACCCGTGAACTGGGCTCCCGCGGAATCACGGCCAACGTTGTGGCACCGGGGTTCATTAACACGGACATGACCGCGGAACTGAACGAAGCAACCCAGAAGGACTACCTTTCCAAGGTTCCGGCCGGACGCTTTGCCGACGCCTCCGAGGTTGCCAACGTTGTCCGCTGGATTTCCAGCGACGAGGCGGCGTACATTTCCGGGGCGGTCATTCCGGTGGACGGCGGACTGGGCATGGGCCACTAG	MSEAVTAARSVLITGGNRGIGLAIAEAFLANGDKVAVTYRSESELPAGILGVKADVTDEASVDVAFSEVEAAHGPVEVLVANAGITKDTLLLRMSEDDFTSVIDTNLTGAFRVIKRASKGMIRLRKGRVVLISSVSGLYGAPGQINYSASKAGLVGIARSLTRELGSRGITANVVAPGFINTDMTAELNEATQKDYLSKVPAGRFADASEVANVVRWISSDEAAYISGAVIPVDGGLGMGH	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
D1-29_02561	753			hypothetical protein	GTGGGACTGCTGGACAACAAGACAGCCATCGTGACCGGATCCTCGCGCGGAATCGGCGCCGAAGTGGCCAAAAACCTCGCTGCCGAGGGTGCCGCCGTCGTTGTTAATTACCGTCAGAAGGCGCCCCGCGCCAACAAGGTTGTGGCCGGCATCGAGGCGGCCGGCGGCCGCGCCGTGGCGGTGGGCGCCGATCTCACCACCCAGGAAGGCGTGCAGGCGCTGGCCAGCGCCGCCATGGAAAACTTCGGGTCACTCGATGTCCTGGTGCTCAATGCATCCGGCGGCATGGAGTCGGGTATGGAAGACGACTACGCGCTAAAGCTCAACCGCGACGCACAGGTCAACATGCTCAACGCCGCAGTGCCCCTGATGAAGGAAGGCTCCCGCGTGGTCTTCGTGACCAGCCACCAGGCCCACTTCATCAACTCCGTCCCCACCATGCCGGAATACGAGCCTGTCGCCCGCAGCAAGCGCGCCGGTGAAGATGCGCTCCGTGAGCTTCTGCCGAACCTGGCTGAAAAGGGCATCTCCCTGGTGGTGGTGTCAGGCGACATGATCGAGGGCACAGTGACCGCCACGCTCCTGGACCGTTCCAACCCGGGCGCCATCGAGGCTCGTCGGGCGGAGGCAGGCAAGCTCTACTCAGTGGAAGAGTTTGCTGAAGTGGTGGCAGGCATGGCCACGGCCGACGTCGAATCCGGACACACTGAATACGCCGGCGGCGCCGACTACTTCGGCAAGAGCGTCAAGTAA	MGLLDNKTAIVTGSSRGIGAEVAKNLAAEGAAVVVNYRQKAPRANKVVAGIEAAGGRAVAVGADLTTQEGVQALASAAMENFGSLDVLVLNASGGMESGMEDDYALKLNRDAQVNMLNAAVPLMKEGSRVVFVTSHQAHFINSVPTMPEYEPVARSKRAGEDALRELLPNLAEKGISLVVVSGDMIEGTVTATLLDRSNPGAIEARRAEAGKLYSVEEFAEVVAGMATADVESGHTEYAGGADYFGKSVK	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
D1-29_02562	948			hypothetical protein	ATGAATTCGGGCAGGACTCCCCCGCTGGCTAAGATTGCAGCCATGACTTCGAACGTGACTGCGGTCAGCTATGGCCTCAAACTGACCTCCGGGGAGCTGGAACAGCTGCGTTCCCTCCTGATCGAAAACGGTGCATCCGTTCAAGACGAATCCCGTGCCGCGGACAGCCGTTATGAGGTTCACACCGCGGAACTTGGCCTTCCGGAGGCTACGGCCGCCGGCATCGCTGCCCTGCGGCGGGCCGTGGCGGGAGCCTCAGAGGATGGACCGGACAAAGCCATGGACACGGCGATTGTGCCGTCGGGGCTTCGGAAGGCTCCCCGCAAGCTGCTGATCATGGATGTTGACTCAACGCTGATCCAGCAGGAAGTGATTGAACTCCTTGCCGCCTACGCGGGCAAGCGGGAGGAAGTCGCCGCGGTGACAGAAGCCGCCATGCGCGGTGAACTCGATTTCGCACAGAGCCTCCACGCCAGGGTTGCCGTACTCGCAGGCCTCCCCGCGGACGTCGTCGGAGCCGTCCGCCGGGAAGTGAAGCTGAGCGAGGGTGCTGCCGAACTGGTGGCTGCCTTCAAGGCCGCCGGCCACGTGGTCGCCGTCGTTTCCGGCGGCTTCAACCAGATCCTGGAGCCGATCGCCGATGAACTGGGGCTGGACTACTGGATGGCCAATGAGCTCGAAATCGTTGACGGCGCCTTGACCGGCAAGGTGCTCGGGGCGGTCATAGACCGGGCCGCCAAGGAAAAGTACCTGCGCGAATGGGCCGCGGCCGAAGGCATCCCAATGGAACACACCATCGCCGTGGGCGATGGCGCCAACGACCTGGACATGCTGGGTGCTGCAGGAATAGGCGTTGCCTTCAACGCCAAGCCCGCAGTCCGAGCCGTCGCCGATTCGGCCATCAACATGCCCTACCTTGACGCTGTCCGCCACATCGCCGGGGTTTGA	MNSGRTPPLAKIAAMTSNVTAVSYGLKLTSGELEQLRSLLIENGASVQDESRAADSRYEVHTAELGLPEATAAGIAALRRAVAGASEDGPDKAMDTAIVPSGLRKAPRKLLIMDVDSTLIQQEVIELLAAYAGKREEVAAVTEAAMRGELDFAQSLHARVAVLAGLPADVVGAVRREVKLSEGAAELVAAFKAAGHVVAVVSGGFNQILEPIADELGLDYWMANELEIVDGALTGKVLGAVIDRAAKEKYLREWAAAEGIPMEHTIAVGDGANDLDMLGAAGIGVAFNAKPAVRAVADSAINMPYLDAVRHIAGV				NA	NA	NA	NA	NA
D1-29_02563	786	ylmA	COG1119	putative ABC transporter ATP-binding protein YlmA	ATGAGTGAAGTTCTTGAATTGGCCGCCGTCAGCGTTGTCCGTGGAGCCAAAACGCTTCTGAACAAGGTGGACTGGCAGGTCAAGGAGGGCGAGCGTTGGGTCATCCTTGGCCCCAACGGCGCCGGCAAGACCACGCTCCTTCAGATCGCTGCCGCGCGGCTTCATCCCACCAGCGGCATGGCCGGCATCCTGGAGGAAATCCTGGGTGCTGTGGACGTGTTTGAGCTCCGTCCCCGCATTGGCCTCTCCTCCGCCGCACTGGCCAACCAGATCCCCGAGCACGAAAAAGTCCTTAACGTTGTGGTGACAGCCGCCTATGGCGTGACCGGCCGCTGGCGTGAGGGGTATGAGCGCGACGACGAACGCCGGGCCTTCACCCTCCTGAACGAGTGGGGCATGGGACCGCTGCTCAACCGGCCCTTCGCCTCCCTGTCCGAAGGCGAGCGCAAGCGTGTGCAGATCGCCCGTGCCCTGATGACAGATCCGGAACTTCTGCTCCTCGACGAGCCGGCCGCCGGCCTGGACCTTGGTGGGCGCGAGGACCTGGTGCACCGCCTCAGTGAGCTGGCCCAGGACGAGTCGGCGCCGGCCATCGTCCTGGTCACCCACCACCTTGAGGAGGTCCCGCCCGGATTCACCCATGCCATGCTGCTCCGCGACGCGAATGTTGTGGCCGCCGGACCCATCGCCGACGTGCTGACCGCCGCCCACCTGAGCCAGACTTTCGGGCTCGACCTGGACGTCACCGTCACCGGAGGCCGCTACACCGCCACCGCCCGCCGCTAA	MSEVLELAAVSVVRGAKTLLNKVDWQVKEGERWVILGPNGAGKTTLLQIAAARLHPTSGMAGILEEILGAVDVFELRPRIGLSSAALANQIPEHEKVLNVVVTAAYGVTGRWREGYERDDERRAFTLLNEWGMGPLLNRPFASLSEGERKRVQIARALMTDPELLLLDEPAAGLDLGGREDLVHRLSELAQDESAPAIVLVTHHLEEVPPGFTHAMLLRDANVVAAGPIADVLTAAHLSQTFGLDLDVTVTGGRYTATARR	PGPT0003760_5190	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
D1-29_02564	786			hypothetical protein	GTGGACCTTCTCAGCAGTACCTTTGTGACCTTCGCCGGCCTCTGGGCAGGCACCATCAACGCCGTCGTAGGGTCCGGCACCCTGGTGACCTTCCCGGTGCTGATCGCCCTCGGCGTCACCCCCGTTGTGGCATCCATGAGCAACGCCATGGGCCTCGTGGCGGGCACCGCAGCCGGCGCGTGGGGCTACCGCCGTGAACTCACGGGGCGCGGCAGGCAACTGCTCAGGCTCCTGCCGGCCTCGTTGCTGGGCGGCATCTCCGGAGCCTGGCTGCTTCTCCACCTCCCGGAGAGGGTCTTCCACTTCGTGGCCCCTGTGCTGCTGGTCCTGGCCCTGCTCATGGTCCTGTTCCAGCCGCGGCTGCAGTCCTGGGTGCTCAACCGCGAGGTGAATCCTGAGCATGCCATCCGGGACAAGCGCCATGGGATCCTCCTGGTGGTGCTGGTCTACCTCGCCGGCGTGTATGGCGGCTATTTCGTCGCGGCCCAGGGAATCCTGCTGGTTGGCATCCTGGGGATATTCCTGACCGGAACCATCCAGAACGCCAACGCCATGAAGAACATCCTGGTTCTGGGTGTGAACTTCGTCGCGGCCGTCTCCTACCTGCTGTTCGCCTTTGACCGGATCAACTGGCTGGTGGTGCTCCTGATCGCCGTCAGCTCCACGGTGGGGGGACTCCTGGGCTCGAGGGTCGGCAGGCGTCTGTCGCCCGCCGTGCTGCGGGGCATTATCTTCGCGCTCGGCCTGATGGCGCTGGGCTTTATGATCGCCAATCTGCTGAAATAA	MDLLSSTFVTFAGLWAGTINAVVGSGTLVTFPVLIALGVTPVVASMSNAMGLVAGTAAGAWGYRRELTGRGRQLLRLLPASLLGGISGAWLLLHLPERVFHFVAPVLLVLALLMVLFQPRLQSWVLNREVNPEHAIRDKRHGILLVVLVYLAGVYGGYFVAAQGILLVGILGIFLTGTIQNANAMKNILVLGVNFVAAVSYLLFAFDRINWLVVLLIAVSSTVGGLLGSRVGRRLSPAVLRGIIFALGLMALGFMIANLLK				NA	NA	NA	NA	NA
D1-29_02565	810	rlmB_2		23S rRNA (guanosine-2'-O-)-methyltransferase RlmB	GTGACAATCCACTACCTAGAGTCCGCCGGGGATCCCCGTATCTCGGACTACACGCAGCTGACGGATGTGCACCTGCGAAAACTCCGCGAGCCCGCCGAGGGCATGTACATAGCGGAGTCCTCCCGCGTGCTGCGCCGGGCGCTGGCGGCAGGCCACACGCCGCGCTCCTTTTTCCTCGCGGAGAAGTGGCTTGATGACCTGCAGGACATCCTCGGTGCTTATCCGGACGTCCCGGCCTTCATCGGCAGTGCGGCACTGCTGGAGGAAATCACCGGCTTCCACCTCCACCGCGGCGCCATGGCGGCGATGCAACGGCCGGCGCCCGTCCCGCTGGCGGAACTGCTCGCAGGCGCGCGGCGGGTGGCCGTCCTGGAGGACATTGTGGACCACACCAACGTGGGCGCCATCTTCCGGTCCGCCGCGGCCCTGGACATTGATGCGGTGCTTATTTCGCCGCGGTGCGGGGATCCGCTCTACCGCCGGAGTGTTCGGGTCAGCATGGGCACCGTCTTCCAGGTGCCGTGGGCACGGCTGGATAGCTGGCCACATGATCTAAACGTTCTCCGGGACGCCGGCTTCACGGTGGCCGCCCTGGAATTAACCCCCGACGCCGTGGACGTGGACGAACTCGCCGCGCGCAATCCAGCCCGGCTCGCCCTGGTGCTGGGCACCGAAGGCGCGGGCATGAGCGCGGAGACTCTCGCCGCCGTCGACCTCGCCGTCAAGATACCCATGCGGGCAGGAGTCGACTCACTCAACGTCGCCGCGGCCTCCGCCGTGGCGTTTTGGGAGCTACGGCCCCGGCAGTAG	MTIHYLESAGDPRISDYTQLTDVHLRKLREPAEGMYIAESSRVLRRALAAGHTPRSFFLAEKWLDDLQDILGAYPDVPAFIGSAALLEEITGFHLHRGAMAAMQRPAPVPLAELLAGARRVAVLEDIVDHTNVGAIFRSAAALDIDAVLISPRCGDPLYRRSVRVSMGTVFQVPWARLDSWPHDLNVLRDAGFTVAALELTPDAVDVDELAARNPARLALVLGTEGAGMSAETLAAVDLAVKIPMRAGVDSLNVAAASAVAFWELRPRQ				NA	NA	NA	NA	NA
D1-29_02566	258	rpmE2	COG0254	50S ribosomal protein L31 type B	ATGAAGTCTGATATCCACCCGAAGTACGAAGCTGTTGTTTTCAACGACCTGGCTTCCGGCGTCAAGTTCCTGACCAAGTCCACCGTGTCTTCCAAGAAGACCATCGAGTGGGAAGACGGCAACACCTACCCGGTCATCGACGTCGAAATCTCCTCCGAGTCCCACCCGTTCTACACGGGTAAGCAGCGCATCATGGACTCTGCAGGCCGCGTCGAGCGCTTCAACGCTCGCTTCAAGGGCTTCGGCGGCAAGAAGTAA	MKSDIHPKYEAVVFNDLASGVKFLTKSTVSSKKTIEWEDGNTYPVIDVEISSESHPFYTGKQRIMDSAGRVERFNARFKGFGGKK	PGPT0014325_1319	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909	NA	NA
D1-29_02567	1104	lipM		Octanoyltransferase LipM	ATGACGCAGCCTATGCCCAGCCCGGTTCCCGCCTCTCCCGGAACGGCGGCCAACCACCACGGCGAGTACAAGGTGCCCGGCGGCAAGCTGGTGGTGGTGGATCTCGACGTCGTTGACGGTTTCCTGGCCAACGTCTCCCTCAGCGGCGATTTCTTCCTGGAGCCCGACGACGCCCTGCCGGCCATGAACCGGGCCCTGGCCGGGCTCCCGGAAACGACGACGGCGGCAGAGCTGTCCGCCGCCGTGTCTGCGTCGCTGCCGCCCGGCGCAGTCCTGTTCGGCTTCTCAGCGGATGCTGTGGCGGTCACTGTCCGCCGCGCCCTGGCAAAGGCAACGTCCTGGTCCGACCACCACTGGAACGTCATCGCTCCCTCCGTGCTGCCCACGCACATCAACGTCGCGTTGGACGAAGTACTGACCGAAGAGGTGGGCGCCGGCCGGCGCAACCCCACCCTGCGGTTCTGGGACTGGGCTGAACCGTCTGTGGTGATCGGCAGCTTCCAGTCGGTCCGCAATGAGATAGACCCCGACGGCGTTGCCCGGCACGGCATCACAGTGGTCCGCCGGATCAGCGGCGGGGGAGCGATGTTCATGGAAGCCGGCAACTGCATTACGTACTCCCTGTACCTTCCACAGACGCTGGTGGACGGCATCAGCTTCGCGGACTCCTACGCGTTCCTGGATGCCTGGGTGATGGCCGCCCTGGAGAAGCTCGGGATCAGCGCCTTCTACGTTCCGCTGAACGATATCGCCACGGACCAGGGGAAGATCGGCGGTGCAGCCCAGAAGCGCCTCGCCAACGGCGGCATGCTTCACCACGTGACCATGAGCTATGACATCGACGCCGACAAAATGGTGGAAGTGCTGCGCATCGGCAAGGAAAAGCTCTCGGACAAGGGAACGCGCAGCGCCAAAAAACGCGTCGATCCGCTCCGCCGGCAAACCGGGCTGGCCCGCACGGAGATCATCTCGGCCATGATGGAGGTGTTTACCGAAAGGTACGGTGCCACCCCTTCTGAGCTCACCGAGGCGGAACTTACGGCTGCCACGGAGCGCGTGGCGTCAAAGTTCGGCACCGGGGAATGGCTGAACCGAGTCCCCTAA	MTQPMPSPVPASPGTAANHHGEYKVPGGKLVVVDLDVVDGFLANVSLSGDFFLEPDDALPAMNRALAGLPETTTAAELSAAVSASLPPGAVLFGFSADAVAVTVRRALAKATSWSDHHWNVIAPSVLPTHINVALDEVLTEEVGAGRRNPTLRFWDWAEPSVVIGSFQSVRNEIDPDGVARHGITVVRRISGGGAMFMEAGNCITYSLYLPQTLVDGISFADSYAFLDAWVMAALEKLGISAFYVPLNDIATDQGKIGGAAQKRLANGGMLHHVTMSYDIDADKMVEVLRIGKEKLSDKGTRSAKKRVDPLRRQTGLARTEIISAMMEVFTERYGATPSELTEAELTAATERVASKFGTGEWLNRVP	PGPT0003945_234	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
D1-29_02568	2649	pepN_1		Aminopeptidase N	GTGCCACACGAGAATCTGCAGCGCGCCGAAGCCGCCGAACGTTCAGCCCTGATCAGAACCCACAGCTACGACATTTCCCTTGACGTGCGGCAGGTGGAGAACCCTGACGTGGCAGGGTACCCAAGCCGCAGTGTCATCAACTTCTCTGCAGCCGAGCCAGGCGGGACTACCTTCCTGGACTTCATAGGGAGCGACGTGCACAGCGTTTTCCTCAACGGCAAGGGGTTGCCTGTAACCGAAGTGCTGGACGGATCCCGGATCCGGCTGGAGAACCTGCAGGCAGAGAACCAGGTGACAGTGACCGGCACCGCCCTCTACAGCCGCTCAGGCGAAGGCATGCACCGCTTTGTGGATCCGGCCGACGGCCAGTGCTACCTGTACACGCAGTACGAACCGGCCGACGCCCGCCGCGTGTTTGCCAACTTTGAGCAGCCCGACCTCAAGGCCGAATTCACGTTCCACGTGATGGCGCCTTTCGGGTGGGAGGTCACCTCCAACGGTGCTGAGACGGCCCGAACCCAGCTGACCAGTGATCCCGCCACCAGCCGCTGGGATTTCGCACCAACCAAACCAATGTCCACCTACATCACTTCGATCCTTGCCGGTCCGTACTTCAAAGCGGAGGACAGGTGGCAGGCAACGCTGGATGACGGCAGCCAACTGGATGTTCCCCTGGCTCTTTACTGCCGGGCGTCCATGGCGGAGTCCTTTGATGCTCCCGAACTGTTCAGGCTGACAAAGAACGGGCTGGAGTTCTTCAACCGGCTCTTCGACTACCCCTATCCCTGGGGCAAATACGATCAGGCCTTTGTCCCGGAGTACAACCTTGGCGCCATGGAGAACCCTGGGCTGGTGACGTTCACCGAAAGCTACGTTTTCACCTCACGTGCCACCGACTCGCAGTACCAGGCGCGGGCCAACACCCTGATGCACGAAATGGCCCACATGTGGTTCGGTGACCTAGTCACCATGGAATGGTGGGACGATCTGTGGCTCAAGGAATCCTTCGCGGACTACATGGGGACCCTTGGCGTGGACCGGGCCACCGGCTGGGACACCGCCTGGGTGGACTTTGCGAACAAGCGCAAGGCGTGGGCCTACGTCCAGGACCAGCTGCCCACGACGCATCCCATCGTGGCCGACATCCCGGACCTGGAGGCGGCCAAGCAGAACTTTGACGGCATCACCTACGCCAAGGGCGCCTCGGTGCTCAAGCAATTGGTGGCCTACGTCGGCTTTGAAGCCTTCATCGCCGGCTCCCGGCAGTACTTCCACGACCACGCATACGGCAACACCACGCTCGCGGACCTGCTCGGGGCGCTCAGCGCCTCCTCCGGCCGTGACCTGGCCGGCTGGGCAGCGCAGTGGCTGCAGACCTCAGGCATCTCCACCCTGTCCGTGGAGACGGGGGCGCACGACGGCGTCCTCGGCACGGTGGCCATCGTCCAGGACGCTGAGGACCCCGTCAGCGGACGCCAGGAACTCCGCCCGCACCGGCTCCGGCTGGGATTCTACGACTTCGCCCCGGACGGCGCCCTGGTCCGGATGGACAGCGTGGAAACGGATGTTGCCGGCGCGCGGACGGAGCTTCCGGAACTCGCGGGCCGGCCGCAACCCGCCCTCCTGCTGGTCAACGACGATGACCTCAGCTATGCCAAGGTACGGCTGGATCCGTTGTCTGAGGCCACGGTGCTGGAGTCGCTTGACCGCCTCAGCGATCCGATGGCGCGCGCACTCTGCTGGACAGCGCTGTGGAACTCGGCGCGCGACGGTGAAAGCCCGGCGTCCCGGTACATTGAGGCGGTCCAGGCCTTCGGGCCCTCCGAAACGGGGATCGGCGTCCTGCTGAACATCCTCAATAACGCCTCGACCGCCGTCGAACGCTATGTTCCCGTGCAGGGAAGGGACGCCGTCCGGTCAGCCTTCCTCACGGCAGTCAAGACCCGGCTGGAGATTGCGGCACCGGGTTCGGACCACCAGCTTGCGTGGGCCCGCACCCTCGCGGCCGTCAGCCGGCATGACGCAGCCTTCCTTCCCACGCTCACCGGCCTCCTGGAGGGAACGGTTGTGGTGGAGGGCCTTGCAGTGGATGCAGAGCTGCGGTGGAACATCTGGCACGCCCTGGCGGCCAACGGACAGGCAACACAGGCCGGGCTTGACGAGGAACTGGCCCGGGACACCACAGCCTCAGGCCGTGCCGGCCACGCGACCGCGCTCGCCGCCCGCACCGATCCCGAGGTGAAGAAGTCCGCCTGGAACGCCGCCGTGCACGGCACGGAACTGTCCAACCAGCTCCTCAGTGCCACCATCGCAGGCTTTACAACGGCTCCTGTTGCGCTCCTCACGCCTTACGTGGAGCCCTATTTCGAATGCCTCCGCAGCGTCTGGGACGGACGGAGCATCGAGATCGCCAGCCGGATCGTCCGGGGACTGTTTCCCCTGGCCCAGGACATGCCGCTGGACGGGAGCCGCCCCGACCAGCATCCGGTGGTGATCCGCACTGACGCTTGGCTGGACGGGAATGCGGACGCTCCGCCTGCCCTCCGGCGGATCGTCATCGAGCAGCGCAGCCACCTGCTCCGGGCCCTCTCGGCGCAGGCCGCCGTCGTCAATTCACCTGAGCCTTTGCCGTACCCCGCTGCGCAGTGA	MPHENLQRAEAAERSALIRTHSYDISLDVRQVENPDVAGYPSRSVINFSAAEPGGTTFLDFIGSDVHSVFLNGKGLPVTEVLDGSRIRLENLQAENQVTVTGTALYSRSGEGMHRFVDPADGQCYLYTQYEPADARRVFANFEQPDLKAEFTFHVMAPFGWEVTSNGAETARTQLTSDPATSRWDFAPTKPMSTYITSILAGPYFKAEDRWQATLDDGSQLDVPLALYCRASMAESFDAPELFRLTKNGLEFFNRLFDYPYPWGKYDQAFVPEYNLGAMENPGLVTFTESYVFTSRATDSQYQARANTLMHEMAHMWFGDLVTMEWWDDLWLKESFADYMGTLGVDRATGWDTAWVDFANKRKAWAYVQDQLPTTHPIVADIPDLEAAKQNFDGITYAKGASVLKQLVAYVGFEAFIAGSRQYFHDHAYGNTTLADLLGALSASSGRDLAGWAAQWLQTSGISTLSVETGAHDGVLGTVAIVQDAEDPVSGRQELRPHRLRLGFYDFAPDGALVRMDSVETDVAGARTELPELAGRPQPALLLVNDDDLSYAKVRLDPLSEATVLESLDRLSDPMARALCWTALWNSARDGESPASRYIEAVQAFGPSETGIGVLLNILNNASTAVERYVPVQGRDAVRSAFLTAVKTRLEIAAPGSDHQLAWARTLAAVSRHDAAFLPTLTGLLEGTVVVEGLAVDAELRWNIWHALAANGQATQAGLDEELARDTTASGRAGHATALAARTDPEVKKSAWNAAVHGTELSNQLLSATIAGFTTAPVALLTPYVEPYFECLRSVWDGRSIEIASRIVRGLFPLAQDMPLDGSRPDQHPVVIRTDAWLDGNADAPPALRRIVIEQRSHLLRALSAQAAVVNSPEPLPYPAAQ				NA	NA	NA	NA	NA
D1-29_02569	1116			hypothetical protein	ATGAACAGAAGCCGGCGGGAGTCCGGAAAGGGGCCGGGCATCAGACAGCCCGGACTGCCGCACGCCCGTGCAGACCGTCTCCTGCCGGGCCTGCTGACGGCTGCCGTTTCCCTGGCAGCCGTGTTCTCTGTGCATGCCCTGGTCCCTGTCCTGCCCGCCATGACCCTGGCAGTTGTCCTGGGCCTCCTCGCCGCCAACCTGCCCGGCACCGCTGTCTGGATCGCCGGCCGGGCCAGGCCGGGCCTTGACTTCGCCGGAAAACACTTCATGCGCGGCGGGATCGTCCTGCTGGGGCTCAAGGTCAGCATCATGGACATCCTGGGCCTGGGCTGGTTGGCCCTGGTCCTGATCGCCGGCGTGGTGCTGGTGAGTTTCTGGGGTACCTACCTCATAGCCCGCCTCTTCCGGCTGCCGGGGGACACTTCGTTGCTGGTTGCCACGGGCTTTTCAATCTGCGGAGCATCGGCGATCGGAGCCATGGCCGCCGTGCGGCGGATCCGGCATGTGGACACCGTCCTTCCGGTGGCGCTGGTGACGCTCTGCGGAACACTCGCCATCGGGGTGCTGCCGCTGCTGGTGCACCCGCTGGCCCTGACTCCCCTCGCGTTCGGCGCCTGGACGGGCGCCTCCGTGCACGACGTCGGCCAGGTGGTGGCCACAGCGCAAACGGCCGGAACAGCGGCCCTTGGCATCGCCGTCGTGGTCAAACTCACCAGGGTGCTGCTGCTGGCGCCCGTGGTGGCCGTCGCCGGACTGCAGCAGAGGGTGAGCACGGGGAGGATGCGCCGCAGTGTCGACGCGCAGAATCGGTCCGGGAGTGCTCCTGCAGGGCCGGTGTCACCGGAACTCGCCCTGCCGCCTGTAGTGCCCCTCTTCGTGGTGGGCTTCGTGGCCATGGTGGCGCTTCGCTCCAGCGGTTGGCTGACCCCCGGCTGGCTCGAGGCAGGTGCGGGACTTCAGGACATCCTCCTGGGCGCGGCGCTGTTCGGGCTTGGCTCTGCGGTGCGGATCCGAACGCTGCTGCACACCGGTGGACGGGCGTTGCTCGCCGCGCTTGCTGCCTGGCTCCTGATCGCGCTGCTGGGCCTCGGGGCTGCGCTGCTGATGACAGGCTAG	MNRSRRESGKGPGIRQPGLPHARADRLLPGLLTAAVSLAAVFSVHALVPVLPAMTLAVVLGLLAANLPGTAVWIAGRARPGLDFAGKHFMRGGIVLLGLKVSIMDILGLGWLALVLIAGVVLVSFWGTYLIARLFRLPGDTSLLVATGFSICGASAIGAMAAVRRIRHVDTVLPVALVTLCGTLAIGVLPLLVHPLALTPLAFGAWTGASVHDVGQVVATAQTAGTAALGIAVVVKLTRVLLLAPVVAVAGLQQRVSTGRMRRSVDAQNRSGSAPAGPVSPELALPPVVPLFVVGFVAMVALRSSGWLTPGWLEAGAGLQDILLGAALFGLGSAVRIRTLLHTGGRALLAALAAWLLIALLGLGAALLMTG				NA	NA	NA	NA	NA
D1-29_02570	1557		COG2308	putative protein	ATGTCAGACCTATTCCAGGATTACTCCGAGGCCGCCGGGAGAACCGGCGCCTACGACGAGATGTTCACCCCCGGCCAGGAACCCCGTGACTCCTACGGCCAGGTGGCGGATGCCCTGCAGAAGCTGTCCCTCGCCGATGTCAGCGCACGGGCCGATTCCATGGCCCGGACGTTCCTGGACCGCGGTGTGACATTCGACTTCGCGGGGGAGGAGCGGCCGTTCCCGCTGGACATCGTTCCCCGCGTCATCCCCGCTGACGAATGGGACGTGCTGGAACGTGGCGTGGCCCAGCGGGTCCGGGCCCTCGAAGCCTTCCTTGATGACGTTTACGACAAGATGAACGTGGTGGCCGACGGCGTGATTCCCCGCCAGCTGGTGACCACCAGCGCCCACTTCCACCGTCAGGTGCAGGGTTTTGAGCCGGCCGGCGGGGTCCGGGTTCACATTTCGGGAATCGACGTCGTCCGCGATGCCGCGGGCACGTTCCGTGTCCTCGAGGACAACGTCCGCGTCCCCTCCGGCGTGAGCTACGTCCTGGAAAACCGCCGTGCCATGGCCAAGGGCCTGCCGGAGGCATTCGGGCAGCAACTCATCCGGCCCGTGGAGGAGTACCCCCGCCGGCTGCTGTCGGCCCTGCGAAAGACCGCCCCGTCCGGCGTCGACGATCCTACCGTCGTGGTCCTCACTCCCGGAGTCTTCAACAGCGCCTACTTTGAGCACACCCTCCTGGCCGGGCTGATGGGCGTGGAGCTGGTGGAGGGGCGCGACCTCATCTGCCGCGGCAACCGCGTCTATATGCGCACCACCGCCGGTGAACAGCGCGTGGACGTGATCTACAAGCGCATCGACGACGAATTCCTGGACCCGCTGCAGTTCCGGTCCGATTCCATGCTTGGCTGCCCCGGGCTGGTCAATGCCGCCCGCGCGGGCGGCGTGACCATCGCCAACGCCGTGGGTAACGGAGTGGCCGACGACAAGCTTGTGTACAGCTACGTCCCGGACCTGATCCGCTACTACCTGAATGAGGAACCTGTCATCGCGAACGTTGACACGTTCCGGCTGGAGGAAAAGGAAGCCCGCGAGTACGTCCTGGACAACCTCGCGGAACTTGTTGTTAAGCCGGTGGACGGGTCCGGCGGCAAGGGCCTGGTGATCGGGCCTGACGCGTCACGGGACGAACTCGATGCCCTCCGCAAGCGGGTCATCGCCGATCCCCGCGGCTGGATCGCGCAACCGGTGCTGCAGCTGTCTACCGTGCCTACGCTGAGCGGAGACAAGTTTGGTCCCCGCCACGTGGATCTTCGCCCCTTCGCCGTCAACGACGGCGACAACGTCTGGGTCCTGCCCGGCGGACTCACCCGGGTTGCCCTGAAAGAGGGCTCGCTGATCGTCAATTCCAGCCAGGGCGGCGGATCCAAGGACACCTGGGTCCTGGCCGGTTCGCCCCAGGTTCCCGTCGAAACCATTCCGCGGCCATCCATCACCATCCGCGAGCGTGTTTCCGTCTGGCCCGTGGAGAGCAATTGGCGCGACCGCCAGTCGGAGCAGCAGCAGTGA	MSDLFQDYSEAAGRTGAYDEMFTPGQEPRDSYGQVADALQKLSLADVSARADSMARTFLDRGVTFDFAGEERPFPLDIVPRVIPADEWDVLERGVAQRVRALEAFLDDVYDKMNVVADGVIPRQLVTTSAHFHRQVQGFEPAGGVRVHISGIDVVRDAAGTFRVLEDNVRVPSGVSYVLENRRAMAKGLPEAFGQQLIRPVEEYPRRLLSALRKTAPSGVDDPTVVVLTPGVFNSAYFEHTLLAGLMGVELVEGRDLICRGNRVYMRTTAGEQRVDVIYKRIDDEFLDPLQFRSDSMLGCPGLVNAARAGGVTIANAVGNGVADDKLVYSYVPDLIRYYLNEEPVIANVDTFRLEEKEAREYVLDNLAELVVKPVDGSGGKGLVIGPDASRDELDALRKRVIADPRGWIAQPVLQLSTVPTLSGDKFGPRHVDLRPFAVNDGDNVWVLPGGLTRVALKEGSLIVNSSQGGGSKDTWVLAGSPQVPVETIPRPSITIRERVSVWPVESNWRDRQSEQQQ	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
D1-29_02571	927			hypothetical protein	ATGCTTAGCCGAATTGCTGAGTCCCTTTTTTGGATCGGACGCTATGTTGAGCGGGCGGACGGTACGGCCCGGATCCTGGATGTGCACCTCGAACGCCTGAACCACCTCCCCATGGATGAACGCCGCAGCGTCGCGCAGGAACTCCTGGCCGTGATGGGCGCCCGGCCGGACAGCGCAGACTTCGGCCTGCCGGAACTGCTCCATGCCCTGGCGTATGACAAGACAAGCGCCACGTCCATCGCGGGTTCCCTGGGCGCTGCGCGTGAGAATGCCCGCCGCGCCCGCGAAACAGTCTCGTCCGGCCTGTGGGAGAGCCTCAACACCACCTACTACGGGCTGAGCCAGCACCGCAAGGACGTGGTGGGTACTTACCGTTTCTGCAACTGGACCCTGGAACGGACCGCCATGGTCAGCGGACTGGCAGACACCACCGTGAGCCATGATGAAAGCTGGCTCTTCCTGGTGCTTGGCCGTTCCCTGGAGCGGGCAGACATGACGGCACGCATGCTCTCCACCCGGGACGTGCTGTCCGCCGGAATGTCATGGGTCAACATGCTGCGCTGCGCCGGAGCCTACGAATCGTTCCTGCGGACCCGCCGCGCCGCGTTCGGCGACCAGCACGCCGCCGAGTTCCTGCTGCTGGACCGCCTGTTTCCGCGTTCCATCGTCTATGCGCTGCGGGACGCCGACGAATGCCTGGCCAAACTGGACCCATCGGCCCAGCGCGTGGGCTTCATCAACGACGCCCGCCGCATCGTGGGCCAGGCCAGGACCTTCCTGGAATTCCACCGGACGGATGACCTGATGTCCGAACTGCCCGAGCACATGGAACGCGTGCAGAAGGCCGTTTCGCAGGCCTCGGACGCCATATCCCGTAAGTACTTCAATCAGGCGGACGAACTGGCCTGGGTGGGAGAAGTTTCATGA	MLSRIAESLFWIGRYVERADGTARILDVHLERLNHLPMDERRSVAQELLAVMGARPDSADFGLPELLHALAYDKTSATSIAGSLGAARENARRARETVSSGLWESLNTTYYGLSQHRKDVVGTYRFCNWTLERTAMVSGLADTTVSHDESWLFLVLGRSLERADMTARMLSTRDVLSAGMSWVNMLRCAGAYESFLRTRRAAFGDQHAAEFLLLDRLFPRSIVYALRDADECLAKLDPSAQRVGFINDARRIVGQARTFLEFHRTDDLMSELPEHMERVQKAVSQASDAISRKYFNQADELAWVGEVS				NA	NA	NA	NA	NA
D1-29_02572	852		COG1305	putative protein	ATGACCCGGCTCAACATCATCCACAAGACCGCGTACAAGTACAACAAGCGGGTCACCCTGTCCTACAACGAGGCCCGGGTGACACCCCTGACGGACCCCCAGCAGGTGGTCCTCGAATCGGTGCTCAAGGTCTCGCCGTCGCAGGCCGCCGTGAGCAGCTACCGGGACTACTGGGGCACTCGGGTCACAGCCTTTGACATGCAGATGCCGCATGACCACCTGGAGGTGGTCTCCAACAGTACTGTTGAGGTGCACCGGGCCGAAAGGATTCCGTCCGACGCCGACATTGCCGGCTGGGATGTGCTGTCCTCCGCGGAGACGCTGAACACGTACAGTGACTGGCTCCCGCAGTCTCAGCTGAGCGGCCCCGGCGCTGAGGTGTTGGGGATCATTCCGGCAGTGGCCGCCGGCAGGAACGCGCATGAGGCTGCCCTTGCCATCTTTGAATGGATGCGCGGCGAAATGACCTACGTGTCAGGCTCCACCGCCGTCACCACCAATGCTGAAGAGGCGTGGGGGCAGCGGCAGGGAGTTTGCCAGGACCTCGCCCACCTTGCCATCGGAGCCTTGCGCAGCTGCGGCATACCGGCACGTTACGTTTCCGGTTACCTGCATCCGCGGTCGACGGCGGACATTGGCGAAACGGTTGCCGGCCAGTCACATGCGTGGCTTGAGTGGTGGGACGGCCAATGGCGCAGCTGGGACCCCACCAACCACAAGCCGGCCGGCGATTACCATGTCACCGTGGCCAAGGGCCGGGATTACCGCGACGTACCGCCCTTGAAGGGCATTCTGTCCGGCGGCGGGGGATCGGCGCTGAGCGTCAGCGTGGAGATCACCCGGCTCGCCTAG	MTRLNIIHKTAYKYNKRVTLSYNEARVTPLTDPQQVVLESVLKVSPSQAAVSSYRDYWGTRVTAFDMQMPHDHLEVVSNSTVEVHRAERIPSDADIAGWDVLSSAETLNTYSDWLPQSQLSGPGAEVLGIIPAVAAGRNAHEAALAIFEWMRGEMTYVSGSTAVTTNAEEAWGQRQGVCQDLAHLAIGALRSCGIPARYVSGYLHPRSTADIGETVAGQSHAWLEWWDGQWRSWDPTNHKPAGDYHVTVAKGRDYRDVPPLKGILSGGGGSALSVSVEITRLA				NA	NA	NA	NA	NA
D1-29_02573	468			hypothetical protein	ATGAGCAGCGAGCCAACGTCAGACGTGCACACTTTGGACCACCGCGAGTGCTGGGACCTGTTGCGGACAGTCTCGGTCGGACGGCTGGCCCTCCTGGTGAACGGCCAGCCGGACATCTTTCCCATTAACTACACGGTCGACGGCGGCACACTCGTGTTCCGCACCGGCGAAGGAACCAAGCTGGCCGGTGCGTCCGGCGGCGCCCAGGTGGCACTGGAAGCCGATGGAGTGGATGCCGTGAGCGGGCTGGCCTGGAGCGTTGTGGTCAAGGGGCCGGCCGAGGTCATCACGGGCACAGAGGACATCCTGGATACAGCTGCCCTCTACCTGTTCCCATGGCAGGCTGGAAGGAAGGACGCCTTCATCCGGATAAACCCGGACTCGATCACGGGACGGCGGTTCAAGGTCACCGCACCCATGACCTGGTGGACACAACTCAGCGGCGCCGTCAGGACGGCCCCGGAGTAA	MSSEPTSDVHTLDHRECWDLLRTVSVGRLALLVNGQPDIFPINYTVDGGTLVFRTGEGTKLAGASGGAQVALEADGVDAVSGLAWSVVVKGPAEVITGTEDILDTAALYLFPWQAGRKDAFIRINPDSITGRRFKVTAPMTWWTQLSGAVRTAPE	PGPT0028780_2153	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
D1-29_02574	1452			hypothetical protein	ATGAGCTCCCCCGATTTAACGCCTGAGGAAATCCAGGCCTGCCTCAAGGTCTTGAACAGCATTCACGTCTACGACGAGGAACATCCGGACTTCGTGTCCGTGCGCCGTGCCACCGGGAAGATGTTCAAGGCCGTCAAGCGGCACCGCCGGGTGACCAAGCGCGACCTGATTTCCGAAGCCGACCGGGCGGTGCTGGCTCAGACTGCAACCGCGGCTCCGGACCGAATCGACGACGAAACCCGCGGAAACAAGCTGGAGACGTCTGCCACCGGCAAGGTCGCCGGGCACCTCATCCGTTCACGCCCGTGCTACATCTGCAAACAGCACTACACCCAGGTGGATGCGTTCTACCACCAGCTCTGCCCCGATTGCGCGGCGTTCAGCCACACCAAGCGTGACGCCCGCACCGACCTCACGGGCCGCCGCGCCCTGCTGACCGGCGGACGGGCAAAAATCGGCATGTACATCGCCCTGCGCCTGCTGCGGGACGGTGCGTACACCACCATCACCACCCGTTTCCCCAAAGACGCGGCCCGCCGGTTCGCCGCCATGGAAGACAGCGCCGAATGGCTGCACCGGCTCCGGATCGTAGGCATCGACCTCCGCGACCCCTCCCAGGTCATGGCCCTGACCGATTCGATCGACGCCGCCGGCCCCCTGGACATCATCATCAACAACGCTGCCCAGACCGTACGGCGCTCCGGCAACGCCTACAAGCCGCTGGTGGACGCAGAGGACGAGCCGCTTCCGGCAGCCCTGGAGCCTGGCAACGGCGGACCGGAACTGGTGACGTTTGGGCACGCCCATGACAAGCACCCCCTCGCGCTGGCCAGCAGCGTCACAGAGCACCCGGTACTGGCCGGAGACGCCATCACGTCCCTGGCTTTGTCCACCGGCTCCGCATCACTGGAGCGGATCGCGTCCGGAACCGCCATCGACGCCGGTGGACTCGTCCCGGACCTTGGCGCCATCAACAGCTGGACCCAGGTGGTGAACGAGGTAGACCCCCTGGAAATGCTCGAAGTGCAGCTCTGCAACGTAACGGCGCCGTTCCTACTGGTCAGCCGGCTGCGCCCGGCCATGAAGCGCTCCACCGCGCACCGGAAGTACATCGTCAACGTCTCCGCCATGGAAGGCCAGTTCTCGCGCGCCTACAAGGGGCCCGGGCATCCGCACACCAACATGGCCAAAGCCGCGCTGAACATGATGACCCGGACCAGCGCGCAGGAAATGCTGGAATCCGACGGGATCCTGATGACCGCGGTGGACACGGGCTGGATCACGGACGAGCGCCCCCACGTCACCAAGGTCCGGCTGATGGAGGAAGGCTTCCACGCCCCGCTGGACCTCGTTGACGGAGCCGCCCGCGTCTACGATCCCATCGTGATGGGCGAAAAGGGCGAGGACCAGTACGGCGTCTTCCTGAAGGACTATAAGCCCAGTCCCTGGTAG	MSSPDLTPEEIQACLKVLNSIHVYDEEHPDFVSVRRATGKMFKAVKRHRRVTKRDLISEADRAVLAQTATAAPDRIDDETRGNKLETSATGKVAGHLIRSRPCYICKQHYTQVDAFYHQLCPDCAAFSHTKRDARTDLTGRRALLTGGRAKIGMYIALRLLRDGAYTTITTRFPKDAARRFAAMEDSAEWLHRLRIVGIDLRDPSQVMALTDSIDAAGPLDIIINNAAQTVRRSGNAYKPLVDAEDEPLPAALEPGNGGPELVTFGHAHDKHPLALASSVTEHPVLAGDAITSLALSTGSASLERIASGTAIDAGGLVPDLGAINSWTQVVNEVDPLEMLEVQLCNVTAPFLLVSRLRPAMKRSTAHRKYIVNVSAMEGQFSRAYKGPGHPHTNMAKAALNMMTRTSAQEMLESDGILMTAVDTGWITDERPHVTKVRLMEEGFHAPLDLVDGAARVYDPIVMGEKGEDQYGVFLKDYKPSPW				NA	NA	NA	NA	NA
D1-29_02575	1410	glgC	COG0448	Glucose-1-phosphate adenylyltransferase	ATGCCGTTGAACAAAAAAGTCCTGGCCATTGTCCTCGCTGGCGGCGAGGGAAACCGGCTCATGCCACTGACGGCAGACCGGGCAAAACCTGCTGTGCCCTTTGCCGGCAGCTACCGCCTGATCGACTTTGCCCTGTCCAACCTGGTGAATTCGCGCTACCTGCAGATCGTTGTGCTCACCCAGTACAAATCGCACAGCCTTGACCGACATATATCCGAGACCTGGCGGATGTCCACCCAACTGGGCAACTACGTGGCATCCGTCCCGGCCCAGCAGCGCGTGGGCAAGAGCTGGTTCCTGGGCAGCGCCAACGCCATCTACCAGTCCCTGAACCTGATCCACGACGCCAATCCCGACATCGTGGTGGTTGTTGGCGCGGACCACGTCTACCGCATGGACTTTTCCCAGATGGTGGAGCAGCATGTGGCCAGCGGTGCCAAAGCCACCGTTGCCGCGGTACGCCAGCCGTTGAGCATGGCCGACCAGTTCGGTGTGATCGAGGTGGACCAGGAAGATCCGCAGAAGATCGCAGCTTTCGTGGAGAAACCCGCCACCACACCGGGACTCGCCGCCGATCCCACCCAATTCCTCGCCTCCATGGGCAACTACGTCTTCGACGCCGACGCCCTGGTGGAAGCACTCCACGTCGACGCCGAACGACTGGACACCAAGCACGACATGGGCGGGGACATCATCCCGTACTTTGTTAACCAGGGCGAGGCAGGGGTCTACGACTTCACCCTCAACCAGATCCCGGGATCCACCGAACGCGACCGCACCTACTGGCGTGACGTCGGCACCATCGACTCGTTCTATGACGCCCACATTGACCTGATTTCCCCCCTTCCGGTCTTCAACCTGTACAACTCCGAGTGGCCCATCTACACCCGGCAGAGCATCTCCCCGCCGGCAAAGTTCGTCCGCGGGCAGAAAAACACCGTTGGAACGGCGCTGGATTCGATCGTGGCCAACGGCGTGGTCATTTCCGGCGGCGTGGTGGAGGGCTCGGTCCTTTCCAACGACGTCTTTGTGGGAACCAGCAGCCGCGTGATCGACTCGGTGCTGATGGACAAGGTGAACGTCGGCGAGGGCGCCGTGATCAACCGGGCCATCATCGACAAAAACGTCAAGATCCCGGCCGGTGCTGCGATTGGGCTGGATCCGGAGCTTGACCGCGCCAGGGGCTTTAAGGTGACCGAATCAGGAATCACTGTCCTGGCCAAGGGCCAGGAAGTGCCGGAACCCGGCGAGGAAGAACTTGCCCTCTCGGCCCGGAACCTGCGCCTGGTTCCCAACGCCGTCAAGGCTGCCACCGCCAACTATCCTGACCTGCGGGAATCCGTGGACCAGACGGCGGAGATCCACGCAAACACCGCAGCGGAGGTTTCGCCCGGCGCCCGTCGTTCCTGA	MPLNKKVLAIVLAGGEGNRLMPLTADRAKPAVPFAGSYRLIDFALSNLVNSRYLQIVVLTQYKSHSLDRHISETWRMSTQLGNYVASVPAQQRVGKSWFLGSANAIYQSLNLIHDANPDIVVVVGADHVYRMDFSQMVEQHVASGAKATVAAVRQPLSMADQFGVIEVDQEDPQKIAAFVEKPATTPGLAADPTQFLASMGNYVFDADALVEALHVDAERLDTKHDMGGDIIPYFVNQGEAGVYDFTLNQIPGSTERDRTYWRDVGTIDSFYDAHIDLISPLPVFNLYNSEWPIYTRQSISPPAKFVRGQKNTVGTALDSIVANGVVISGGVVEGSVLSNDVFVGTSSRVIDSVLMDKVNVGEGAVINRAIIDKNVKIPAGAAIGLDPELDRARGFKVTESGITVLAKGQEVPEPGEEELALSARNLRLVPNAVKAATANYPDLRESVDQTAEIHANTAAEVSPGARRS	PGPT0025885_651	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
D1-29_02576	1197	glgM	COG0438	Alpha-maltose-1-phosphate synthase	GTGCGAATAGACATTGTGACTAAAGAGTTCCCGCCGGAGATCTACGGTGGCGCCGGAGTCCACGTGGCCGAATTGAGCAGGGTGCTGAGTAAGCACGTTGACCTGCAGGTTCGTGCTTTCGGGGCGCCCCGCGATGCCGATTACCACGGTGCCGGGGTGACTTCCTATACCGTGCCCGAGGATCTGGGATCGGCTAACGCAGCGGTCCAGACGCTCGGGGTGGATCTGCGGATCGTTCCTGACATCGAGGGCGCAGACGTCGTCCATTCCCACACCTGGTACGCCAATATGGCTGGGCACCTGGCGTCCCTGCTGCATGGCATCCCGCATGTGCTCAGCGCGCACAGCCTTGAACCGTTGAGGCCGTGGAAGGCCGAGCAGCTGGGTGGCGGCTACGCCCTGTCTTCGTGGGTGGAAAAGACCGCCTACGAGGCCGCTGCGGCCATCATCGCCGTTTCCGAAGGCATGCGCCAGGACATCCTGCGCAGCTACCCGGATGTTGACCCGTCCAAGGTGCGTGTGGTCCACAACGGCATCGACGTTGATCAGTGGCACCGTGATGAAGGCGAAGACGCAGTTCGTGCCCTAGGCATCGATCCGCAGAAGCCCAGTGTGGTCTTTGTGGGGCGCAACACCCGCCAAAAGGGTGTGCCGTACCTGCTGCGCGCAGCGGCCAAGCTGCCGGCGGATGTTCAGCTGGTGCTGTGCCTCGGGGCTGCAGACACGCCTGAACTCGCCGCGGAGACGGCGCGCCTGATTGAGGACCTCCAAAGCCAGAGGACAGGTGTGGTCCTCATCGAGCGGATGCTGCCGCGCAAGGAGCTCATCCAGGTTCTCAGCCATGCCACGGCCTTTGCGTGCCCGTCGATTTATGAACCCCTGGGCATTGTCAACCTTGAGGCGATGGCCTGCGGGGCCGCCGTTGTGGCCAGCGCCACGGGCGGGATCCCGGAGGTGGTCAAGCACGGCGAAACCGGCCTGCTGGTTGACATCGAACAGGTCGCCGACGGCACGGGCACACCCCTGGATCCGGAGAAGTTCGTCACCGAATTCGCGGCAGCACTGATCGAGGTTGTGTCCGATCCCGAGCGTGCCCGGGCCATGGGACAGGCCGGCCGCCGCCGCGCCGAGGAGCACTTCTCCTGGGAGTCCATCACCGAAACAACCCTTGAGGTATACCGTTCAGTCCTGAACTGA	MRIDIVTKEFPPEIYGGAGVHVAELSRVLSKHVDLQVRAFGAPRDADYHGAGVTSYTVPEDLGSANAAVQTLGVDLRIVPDIEGADVVHSHTWYANMAGHLASLLHGIPHVLSAHSLEPLRPWKAEQLGGGYALSSWVEKTAYEAAAAIIAVSEGMRQDILRSYPDVDPSKVRVVHNGIDVDQWHRDEGEDAVRALGIDPQKPSVVFVGRNTRQKGVPYLLRAAAKLPADVQLVLCLGAADTPELAAETARLIEDLQSQRTGVVLIERMLPRKELIQVLSHATAFACPSIYEPLGIVNLEAMACGAAVVASATGGIPEVVKHGETGLLVDIEQVADGTGTPLDPEKFVTEFAAALIEVVSDPERARAMGQAGRRRAEEHFSWESITETTLEVYRSVLN	PGPT0017715_303	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017715-glgM-K16148	NA	NA
D1-29_02577	2127			hypothetical protein	ATGACCGAACTAGTGGACCGACCCGCGGGCCGGGGATCCCGGCCCGCCGCCGACACCCAGGGGGACGGTAAGCCAGGTTCAGGACAGCCAGCGGTAGACGTCGCGGGCCTTGGCCGGCTGCTCCTGGGCCGATGGGCCGAGATCCGTTTGCAGGCGCGGGACCTGGCCGCCCGTCCGGAGCTGCACAAGACCGAGGGCCTGACCCACACCGAACATCGGACCCGGACGTTCGGCCAGTTGAAGTACCTCGTGGAGAATGAAGCCGTTCACCGTGCCTTCCCCACCGCATTGGGCGGCTCTGATGACCATGGCGGCAACATCGCTGGCTTCGAGGAGCTGGTGACCGCGGATCCGTCCCTGCAGATCAAAGCCGGTGTCCAATGGGGCCTCTTTGGTTCGGCGGTGATGCACCTTGGCACTGAGGAACACCATGCCAAGTGGCTCCCGGGAATTATGAACCTTGACATCCCTGGCTGCTTTGCAATGACGGAAACAGGGCACGGCTCCGACGTCGCCAGCATTGCCACCACAGCCACATACGACCCCGGCACCCAGGAGTTCGTCGTCCATACGCCGTTCCGGGCCGCGTGGAAGGACTACATCGGCAATGCTGCCAATGACGGACTCGGCGCAGTGGTCTTTGCGCAGCTGGTCACTCAAGGGGTAAACCACGGAGTGCACGCCTTCTACGTGGACCTGCGCGATCCTCGCACCAAAGAGTTCCTGCCCGGCATCGGCGGCGAGGACGATGGTGTGAAGGGCGGCCTTAACGGCATCGACAACGGCCGGCTGCACTTCACCAACGTCCGCATCCCGCGGTCCAACCTCCTCAACCGGTACGGCAACGTGGATGTTGACGGCACTTACAGCTCGCCCATTGCCAGCCCCGGCCGGCGTTTCTTCACCATGCTGGGGACACTTGTCCAGGGCCGGGTTTCACTTGACGGAGCGGCAGTGGCCGCGTCCAAGGTCGCCCTCACCGCGGCCATCCGCTACGCCACGGAGCGGCGCCAGTTCAACGCCTCCTCCCACACGGAGGAGGAAGTACTCCTTGACTACCAGCGGCACCAGCGGCGGCTCTTCACCCGGCTGGCCACCACCTACGCCGCGGGCTTTGCCCATGAGCAGCTGCTCCAGAAGTTCGACGACGTCTTTTCCGGCGCCCACGACACGGACGAAGACCGGCAGGACCTCGAAACCCTCGCTGCGGCCCTCAAGCCGCTTAGCACCTGGCACGCCCTCGATACGCTGCAGGAGTGCCGCGAAGCGTGCGGCGGTGCAGGCTTCCTGATCGAAAACCGCTTCGCTTCCCTGCGGGCGGACCTGGACGTCTACGCCACGTTCGAAGGCGACAACACGGTGCTGCTTCAGCTCGTGGCCAAGCGGCTCCTGGCCGACTACGCCAAAGAGTTCAGGAATGTCGATTTTGGCGTCCTGGCACGCTACGTGGTGGGCCAGGCGACGGGCGTGGCCATCCACCGCACCGGCCTGCGGCAGGTGGCCCAGTTTGTGGCAGACACGGGGTCCGTGCAAAAGGCTGCCCTTGCCCTGAGGGACGAGGAAGGCCAGCGTGCCCTGCTGACGGACCGGGTCCAGACGATGGTGGCGGACGTCGGCGCCGCCCTCAACGGCGCCAACCGGCTGCCCCACGACAAAGGGGCCGCGCTGTTCAACAAGCACCAGAACGAGCTGATCGAGGCCGCGCAGGCACACGCCGAGCTCCTGCAGTGGGAGGCCTTCACGGAGGCGCTGAAGGACATCGCGGATCCGGGCACCAGGACGGTGCTGACGTGGATGCGTGACCTCTTTGGACTTTCACTGATTGAGAAGAACCTGGCCTGGTACCTCATGAACGGCAGGCTGTCCATGCAGCGCGGGCGCACCGTGGGTGAGTACATCAATCGGCTCCTGGTGAAGATTCGTCCGCACGCCCTCGATCTGGTGGAAGCTTTCGGCTACAGCCAGGACCACATCCGCGCCGCGGTTGCCGCCGGTGCAGAAAAGACCCGGCAGGATGAGGCACGCGCCTATTTCCGGAGCCAACGGGCCAGCGGCCAGGCCCCGGTGGACGAGAAAGTGCTGCTTGCCCGCACTTCCTCGCCAGGCAAGGGCCGGACCGGAGCCTGA	MTELVDRPAGRGSRPAADTQGDGKPGSGQPAVDVAGLGRLLLGRWAEIRLQARDLAARPELHKTEGLTHTEHRTRTFGQLKYLVENEAVHRAFPTALGGSDDHGGNIAGFEELVTADPSLQIKAGVQWGLFGSAVMHLGTEEHHAKWLPGIMNLDIPGCFAMTETGHGSDVASIATTATYDPGTQEFVVHTPFRAAWKDYIGNAANDGLGAVVFAQLVTQGVNHGVHAFYVDLRDPRTKEFLPGIGGEDDGVKGGLNGIDNGRLHFTNVRIPRSNLLNRYGNVDVDGTYSSPIASPGRRFFTMLGTLVQGRVSLDGAAVAASKVALTAAIRYATERRQFNASSHTEEEVLLDYQRHQRRLFTRLATTYAAGFAHEQLLQKFDDVFSGAHDTDEDRQDLETLAAALKPLSTWHALDTLQECREACGGAGFLIENRFASLRADLDVYATFEGDNTVLLQLVAKRLLADYAKEFRNVDFGVLARYVVGQATGVAIHRTGLRQVAQFVADTGSVQKAALALRDEEGQRALLTDRVQTMVADVGAALNGANRLPHDKGAALFNKHQNELIEAAQAHAELLQWEAFTEALKDIADPGTRTVLTWMRDLFGLSLIEKNLAWYLMNGRLSMQRGRTVGEYINRLLVKIRPHALDLVEAFGYSQDHIRAAVAAGAEKTRQDEARAYFRSQRASGQAPVDEKVLLARTSSPGKGRTGA	PGPT0002290_421	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
D1-29_02578	750	betI_5		HTH-type transcriptional regulator BetI	ATGACTCCTCTGGGTTGTCGGTTACCGATACTCAGCGTACCTGATACGCTGAGTATCGTGAACAAGCCCCTACCCGTGTCCCCTCCGGCCTTTGCCGGTGGCAGCGCAGACGGCCGCTCGGCCCGTTGGCAGACCCACCGCGAGGACCGCCGCCGCGAACTCATTAAGTCCGCCCGGCGGGCCGTGCATGCGCTGGGAAGCGACGCTTCCATGGAGGAAATTGCGGCCGCCGCAGGAACCTCCAAGTCAGTCTTTTACCGCTACTTCGGGGATAAGGCAGGCCTTCAGCAGGCCGTGGGCGAAGTGGTACTCAACCAGATGCAGCAGCGGATCCGCGAGGCTGCCCAGAGTGCCCAGACACCGCGCCAGGGCCTGTTTGCCATGGTTTCCGCCTATCTCCAGATGGCTGAGACAAGCCCGAACGTCTACAGCTTCGTGACCCGCTACTCCCCCGCTGACGCCGATACTTCGCACAATGCAGCGGCAATCTCAGGCGCGCTGGGCCACTTCTTCGAGTCCATTGGAGAAATGATCGCCACTCCCATGCGGACCCATCTCGGGGATGGCAAGGAAGCCGTAATCGGCTATTGGCCCATGGCTGCCATCGGTCTTGTCCGCAATGCCGGTGAGCAATGGCTGAAGACACCGGCATCGGCGTCCAAGCCGGACCAGGAAGCCATGGCCCGCCAGATCACGGCCTGGCTGTGTGTGGGGATCGCACCAGAGCTTGACCAGCCGAAATCACCGTAG	MTPLGCRLPILSVPDTLSIVNKPLPVSPPAFAGGSADGRSARWQTHREDRRRELIKSARRAVHALGSDASMEEIAAAAGTSKSVFYRYFGDKAGLQQAVGEVVLNQMQQRIREAAQSAQTPRQGLFAMVSAYLQMAETSPNVYSFVTRYSPADADTSHNAAAISGALGHFFESIGEMIATPMRTHLGDGKEAVIGYWPMAAIGLVRNAGEQWLKTPASASKPDQEAMARQITAWLCVGIAPELDQPKSP				NA	NA	NA	NA	NA
D1-29_02579	1368	fadI	COG0183	3-ketoacyl-CoA thiolase FadI	ATGTCCGTCGATGGACAGTCCGCAACCGGACCCCAGGATTTCAGCAACCCGGCTTCCCCTGGAGCCGGCGTAACCCTTCGCGATGCCGTCATCGTGGGCGGCAACAGGATTCCTTTTGCCCGATCAGGAGGCGCCTACACGAAGTCCTCGAACCAGGACATGCTGACGGCCGCGCTGGAGGGTCTCATCGCCAGGTTCGGGCTGCAGGATGAGCGGATTGGCGAGGTCGCCGCCGGGGCCGTCCTGAAGCACTCCAGGGACTTCAACCTGACCCGCGAGGCTGTCCTCGGCTCGTCATTGTCCGCCGAGACGCCTGCCTACGACGTGCAGCAGGCCTGCGCGACCGGGCTGGAGACCGTCCTGGGCCTTGCCAACAAAATCAAGCTTGGCCAGATTGATTCCGCCATTGCCGGTGGCGTGGATTCGGCGTCGGATGCGCCCATTGCGGTCAGCGAGGGGTTGCGGGCAGTGCTCCTGGACCTCAGCCGTGCCAAAACACTGCCGCAGCGCCTCCAGGCCCTTAGCCGGCTTCGCCCCAAGGACCTGGCCCCGGATGCGCCAAGCACCGGCGAGCCCCGCACCGGTCTCTCCATGGGGGAGCACCAGGCGCTGACGACGGCGCAGTGGAACATCACCCGCGAGGCGCAGGACGAGATAGCGCTGAACAGCCACCGCAACCTGGCGGCAGCCTACGGCGCCGGATTCTTTGACGACCTCCTGACCCCGTACCGCGGTCTGGCACGGGATTCGAATCTGCGGCCGGACACAACGCTGGAGAAGCTGGCATCACTGAAGCCGGTTTTCGGAAAGAGCCTGGGTGCCGAAGCCACCATGACGGCGGGGAATTCCACGCCGTTGACGGACGGCGCATCAACTGTCCTGCTGGCATCCGCCGAATGGGCGGATGCCCACGACCTGCCCAAACTGGCCAAGGTGGTGGACGGTGAAGCTGCCGCTGTGGATTTTGTGCACGGCAAGGACGGGCTCCTGATGGCTCCCGCATTCGCCGTCCCGCGGCTCCTGGCACGCCGGGGCCTGACCCTTGACGATTTTGATTTCTTTGAAATCCATGAGGCCTTTGCCGGTACTGTCCTCAGCACCCTTGCAGCGTGGGAGGACGAGGAGTTCGGCAAGACCAGGCTTGGCCTTGACGGGGCGTTTGGCAGTGTCGACCGCAGCAAACTCAACGTCAACGGCTCCTCACTCGCCGTGGGACACCCCTTTGCCGCCACGGGCGGCCGTATCGCTGCCTCGCTCGCCAAGATGCTGCATGAGAAGGGGACGGTCAACGGCCGGCCCGCCCGCGGGCTCATCTCGGTCTGCGCCGCCGGCGGCCAGGGCGTCGTTGCCATTCTCGAAGCGCTGTAG	MSVDGQSATGPQDFSNPASPGAGVTLRDAVIVGGNRIPFARSGGAYTKSSNQDMLTAALEGLIARFGLQDERIGEVAAGAVLKHSRDFNLTREAVLGSSLSAETPAYDVQQACATGLETVLGLANKIKLGQIDSAIAGGVDSASDAPIAVSEGLRAVLLDLSRAKTLPQRLQALSRLRPKDLAPDAPSTGEPRTGLSMGEHQALTTAQWNITREAQDEIALNSHRNLAAAYGAGFFDDLLTPYRGLARDSNLRPDTTLEKLASLKPVFGKSLGAEATMTAGNSTPLTDGASTVLLASAEWADAHDLPKLAKVVDGEAAAVDFVHGKDGLLMAPAFAVPRLLARRGLTLDDFDFFEIHEAFAGTVLSTLAAWEDEEFGKTRLGLDGAFGSVDRSKLNVNGSSLAVGHPFAATGGRIAASLAKMLHEKGTVNGRPARGLISVCAAGGQGVVAILEAL	PGPT0008320_547	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-29_02580	1341	hcaB_3		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGACAGACACATACACCCAACTCGTGAGCCACGGACCGGGCAGGAAGGTCGCCCGGAAGCTTGGCCTGCCCCAGCCGGCGCTGCTGCGCAGGTACCAGCCGGGCCAGCCGCTCATCACCGGGCCCATCCTGGTTCAGGGGACAACACACGGCGCCGACGAGTTGGCGGCCACCCTGCTCTCCTGGGACCTGGATGTCCGGCGCCACGCGGTGCCCCGCGAAAAGCTTGGTGCCATCATTCTTGTCCTGGACGACGTGTCCCGGCCCGGTGATCTCGAAAAACCAGTCCTGGCAGCAGCGTCCTCGCTGCGGGATCTCGGTTCAAGCGCCCGCTTCATCACCATCTCGCGGCCCGCCCATGAGGCCGGAACACCTTCCGAAGCCGCGGCGCGGCAGGGGGTAGACGGTTTCCTGCGTTCGCTCGCAAAGGAGCTCCGTGCCGGTGCCACGGCCAACGGGATCCTGCTCGCCGGCGAGACACCAGCTGCCAGCCCCAGCAGCGTGGCTGCGCTGAGGTTTTTCCTCTCCGGCCGCTCGGCCTTTGTGGATGGCCAGTTCCTGACCGTTACGACGCCGGCGGGGCAACTCCCTGCCGACGTTGAAAGGCCACTGGCCGGCAAGGTCGCCGTGGTCACCGGTGCAGCGCGTGGGATAGGCGCTGCCATCGCCAGGATCCTCCACCGGGACGGCGCCACCCTGGTCCTGGTTGACATACCGGCAGCGGGTGACCATCTGGCAACGGTGGCCAACGAGGTCCGTGGCACTGCCCTTCAGCTGGACATCAGCAGGGACGACGCCGGCCAGCGGATTATCGATCACGCCGTGCAACGCCACGGTCACTTGGACATTGTGGTCCACAACGCAGGCATTACCAGGGACAAACTGCTGGCCAACATGGATCATGCCCGCTGGAGTTCGGTGATCAACGTCAACATCGCCGCCCAGCTCCGGATCAATGAGGCGTTGCTCGACTCGGACAGCTTCAGCGGTTCACCCAGGATCGTGTCAGTGGCGTCCACCAGCGGAATAGCGGGGAACAGGGGCCAGACGAACTATGCTGCTTCCAAGGGCGGGGTCATGGGGATGGTTCGTGCCACCGCCCCGCTCATGGCAGCCAAAGGAGGCACCATCAACGCCGTTGCGCCAGGCTTCATCGAAACGGAAATGACTGCCCGGATCCCCCTCGCCATGAGGGAACTGGGCCGGCGGCTCAACTCCCTCCAGCAAGGCGGGGAGCCGGCCGACGTCGCCGAGGCCATCGCCTTCCTCGCCAGTGATGCAGCAGGGGGCATCAACGGGGACGTCCTGCGGGTCTGCGGACAGCACATGGTGGGGGCATGA	MTDTYTQLVSHGPGRKVARKLGLPQPALLRRYQPGQPLITGPILVQGTTHGADELAATLLSWDLDVRRHAVPREKLGAIILVLDDVSRPGDLEKPVLAAASSLRDLGSSARFITISRPAHEAGTPSEAAARQGVDGFLRSLAKELRAGATANGILLAGETPAASPSSVAALRFFLSGRSAFVDGQFLTVTTPAGQLPADVERPLAGKVAVVTGAARGIGAAIARILHRDGATLVLVDIPAAGDHLATVANEVRGTALQLDISRDDAGQRIIDHAVQRHGHLDIVVHNAGITRDKLLANMDHARWSSVINVNIAAQLRINEALLDSDSFSGSPRIVSVASTSGIAGNRGQTNYAASKGGVMGMVRATAPLMAAKGGTINAVAPGFIETEMTARIPLAMRELGRRLNSLQQGGEPADVAEAIAFLASDAAGGINGDVLRVCGQHMVGA	PGPT0003180_560	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
D1-29_02581	924			hypothetical protein	ATGACCACGGCTCAGCCAGCGCCACAGCCGGTCATCCTTGGCGAGATGCCATCGCTGTCCAAGCTTTACGTGAACGCGGCTGCCCAGGCGGCCCGCCGCCGCGTACTGGGCACAAACAACGGCTCCAGCCTCCCGGACGCCAGCCATGAAGTGCGCGGCGTCAGGGCCGACGTCGGCAACCTCACCGCTTACCAGCACCTCATCGGGGAAACCGCCAGCGACGTCCTGCCCGCCGGCTACATCCATGCCCTCACCTTCCCTCTTGCCATTAGCGTTATGAACCGGGACGACTTCCCGCTGCCCGTCCTGGGCATGATCCATCTGAGCAACTACGTGGAGCAGCGTTCCCCGCTGACGTTCACTGAACCGCTGGACATCACGGCAAGGGTGGAGAACCTGCGGGGGCACCGCGCCGGGACACAGCTGGATGTGGTAGCGGAGGTGCGGGGCACAGGCACGTCCGAGGTCCGCTGGACGGGTGTCTCCACGTACCTGGCCAAGGGTGTGTTCCTCCCGGGCATCGACAAGCCGTCCCCGTCCAGGGTCCTTGAGGAATTCACGCCACCGGACCCCACGGCGCTTTGGCACCTGGGCGTGGACACCGGGCGATCCTATGCTGCCGTTTCCGGCGACTTTAATCCCATCCACCTCAGCCTCCTCTCGGCTAAGGCATTGGGACTGCGCCGCTCCATCGCCCACGGAATGTACCTTGCCTCAAGGGCACTCGCCGACGTCGGAGCAGTCAAGGGCGATGCCTTCATCTGGAGCATTGCGTTTGAGGCGCCGGTGTTCCTGCCGGGCCGCGTCGGACTACACATCACTTCTGTGGAGGCTGCTGACGGGGCATGGAAACGGTCGGAGTTCGTAGGCTGGAACCGGCGGTCAGGCCGCCGGCACTTCACCGGCACCGTGGCCGGGCTCTAA	MTTAQPAPQPVILGEMPSLSKLYVNAAAQAARRRVLGTNNGSSLPDASHEVRGVRADVGNLTAYQHLIGETASDVLPAGYIHALTFPLAISVMNRDDFPLPVLGMIHLSNYVEQRSPLTFTEPLDITARVENLRGHRAGTQLDVVAEVRGTGTSEVRWTGVSTYLAKGVFLPGIDKPSPSRVLEEFTPPDPTALWHLGVDTGRSYAAVSGDFNPIHLSLLSAKALGLRRSIAHGMYLASRALADVGAVKGDAFIWSIAFEAPVFLPGRVGLHITSVEAADGAWKRSEFVGWNRRSGRRHFTGTVAGL				NA	NA	NA	NA	NA
D1-29_02582	1119			hypothetical protein	GTGGATAATTCGAAAGTCCAGACGGCGGCCAGGTGGACCACGGGTACCCGTCTCTTGAAGAACGCAGCGGCCGGACTGTCGGCGGCCTTTACAGCACAGCGACTGCAGCTTGCCGCCAAGGCCGCGATCGCTGCCGGCCTCGCTTTTCTCGTCGCTCCCCTCATGCCCGGGGCGGCGGCGAACTACCCCTACTACGCGCCGCTGGGGGCTCTGGTGGCGATGTATCACAACGTGGCTGGCTCGGTGAAGCAGGGCCTGCAAACCCTGATCGGCTTAGCCATGGGAATCGGGCTGGCTTTTCTCCTGGTCAACATTACTGACCCTTCGCCGATTGCGGTGGCCATTTTCATGGGTATTGGAGTGTTGCTGGGCGGCCTTCCCCGCATCGGATCCGGCAGCGACTGGATTCCGACGGCGGCCCTGCTGGTGCTGCTGGTGGGCGGCAGCAATCCTGACGACTTTTCCTTCGGATACCTGCTCCAGATGGGCGCCGGAGTGGCCGTGGGCATTGCCGTCAACTTCCTGGTCTTTCCACCCCTGCATTTTGACGCTGCGGCGGCAAGCCTCGACGAACTCCGCGCCGCCCTGGGCAAGCAGTTGACTGACATGGGGGCGGCGCTTACGGAAAGCTGGCCGCCGGAACACGAGGACTGGTCCCGACGCTCGGATGAGCTGGCCTCAGCTGCCCGGGCCGTCCGCCACCTGGTCCGGGAGGCTGACATGAGCCGGCGGGCCAATCCGCGCCGAAAGCTGCATCCCCGCGACGTGGACCTTGACTACCGCAACCTGCGCGAACTTGAGCGTGTGACGTTCCATATCCAGGACATGACCGATGTCCTGTCCGACGTGATCTGGGAGGAGGACGCGCCCTATGCAGTTCCCCCGGAGGACAGCGGTCCCCTGGCCGATGCGCTGACAGCCACAGGCACGTTGCTCTCCTCGTTCCGTGACGGCGATCCGGACCTCCAGGCCGAGCGGTTTGCGGCCGCGGAATCGGCGGTGGAGGCATGTGTGGAGGCGACACCCGGAAATGCCCCGGAGACCGGCACCGTGCCCGCCTCCGAGTCCATCCTCCTGAGCCTTCACAGGATTCTCCGGGCCGTGCGTCCGGCGTCTTAG	MDNSKVQTAARWTTGTRLLKNAAAGLSAAFTAQRLQLAAKAAIAAGLAFLVAPLMPGAAANYPYYAPLGALVAMYHNVAGSVKQGLQTLIGLAMGIGLAFLLVNITDPSPIAVAIFMGIGVLLGGLPRIGSGSDWIPTAALLVLLVGGSNPDDFSFGYLLQMGAGVAVGIAVNFLVFPPLHFDAAAASLDELRAALGKQLTDMGAALTESWPPEHEDWSRRSDELASAARAVRHLVREADMSRRANPRRKLHPRDVDLDYRNLRELERVTFHIQDMTDVLSDVIWEEDAPYAVPPEDSGPLADALTATGTLLSSFRDGDPDLQAERFAAAESAVEACVEATPGNAPETGTVPASESILLSLHRILRAVRPAS				NA	NA	NA	NA	NA
D1-29_02583	1116			hypothetical protein	ATGAGCATGCAGATTTCTCACGGCTATGCCGCGCCCGCGTATGAGGACGTCCTGGATCTTTTCGGGTCCTTCCTGGCTGACGACCCGCTGTACAGCGCCCAGGTTGCGGCGTACCGGAACGGCATCAAAGTGCTCGACCTGGCAGGCGGCCCGGAGATCACTGCAGATACCCTGACAGGCGCCTACTCCTGTTCCAAGGGCGTGGCTGCCGTGGTGGTGTCGCTGCTGGTCCAGGACGGGCTGCTGGATCTGGACCGCGCGGTGGCCCACTACTGGCCGGAGTTCGGGGTTCACGGAAAGGACCGGCTCCTGGTGCGGGAGGCCCTGTCACACCAGGCCGGCCTGATGGGAGTTGAAGGCGGCTTTGCCCTGGACGAATTCACTACTCAGGAGGCCGCCGCCCGTTTGGCTGCGGCCCAACCGGCATGGACCCCTGGAAGCTGCTTTGGCTACCATGCCCTGACCATCGGGATCCTGATGGAGGAACTGTGCAGGCGGGTGGCCGGGGACACCCTGCAAAGCCTTTATGACCGCCGCGTCAGGAAGCCTTACGGCGTGGACTTCTTTCTGGGACTGCCCGAGGAGTTGGAGGGGCGCTACCGGGACGTGCTTTACGACGCCGACGCCCGGCAGCCGTGGGTGGATCCCTTCAGTCTGGAAGGACTGAACGGCAACGCCCCGGTCAGCACCGTCATGGAGCTCCCCAACCACCGCACCATCCGGGCTGCCGGCATGAGCGCGGCCGGTGGGGTCGGATCTGCCGAAGGCATGGCCCGGCTCTACGCTGCAGCCACCACGGGCGTGGAAGGGGATCCACCCCTGCTTACCGCCGAGACGATCAGTGTGATGACCCAGGAACAGGTCTGGGGCCTGGACCGTTCTTCAGGACTGGACAATGCTTTTGCCGTGGTCTTTATGAAACCGCATCCCTCACGGAATTTCGGAAGCCACCGTGCCTTTGGCCATGAAGGCGCCAATGCCGCGTTGGGCTTTGCCGACCCCGCCTACGGACTTGGCTTTGGTTATATTCCCCGGCGTGCGGAGGATGGGCGCACCCCCGGCAAGGCGCACCGGCTGGCTGCGGCGGTCCGGCAGGCTGCATCCGCCTTGTCCTAG	MSMQISHGYAAPAYEDVLDLFGSFLADDPLYSAQVAAYRNGIKVLDLAGGPEITADTLTGAYSCSKGVAAVVVSLLVQDGLLDLDRAVAHYWPEFGVHGKDRLLVREALSHQAGLMGVEGGFALDEFTTQEAAARLAAAQPAWTPGSCFGYHALTIGILMEELCRRVAGDTLQSLYDRRVRKPYGVDFFLGLPEELEGRYRDVLYDADARQPWVDPFSLEGLNGNAPVSTVMELPNHRTIRAAGMSAAGGVGSAEGMARLYAAATTGVEGDPPLLTAETISVMTQEQVWGLDRSSGLDNAFAVVFMKPHPSRNFGSHRAFGHEGANAALGFADPAYGLGFGYIPRRAEDGRTPGKAHRLAAAVRQAASALS				NA	NA	NA	NA	NA
D1-29_02584	1110	yqjG	COG0435	Glutathionyl-hydroquinone reductase YqjG	ATGGGCAAGGAAACGCAAGCCGCGCCAGCGGCAACAGGAACAGCTGCAAAAGGAACGGCCGGATCAGCCGGCCACAGCACGAAGGGTGCCTATGTCGCGGACGGCGCCGAATTCAATCGGGACACCAACTACATTGAGGACCGGATCACCCGCGATGGTTCTCCTGGCAGCAACGGCGAGCCGGGCTGGCCGGTGGAAGCCGGACGTTACCGGCTGATCGCCGCAAGGGCATGTCCATGGGCGAACAGGGCAGTTATTGTCCGGCGGCTCCTTGGCCTTGAGGAGGCGATCTCCCTGGGCCAGCCGGGACCCACCCACGACGCCCGGTCCTGGACTTTTGACCTTGACCCGGGTGGCGTGGACCCCGTGCTGGTGATTGAGCGGCTTCAAAGTGCGTATTTCACCAGGTTCCCCGAGTATCCACGGGGCATCACCGTTCCGGCCATCGTGGATGTTGCCAGCGGTGCGGTGGTAACCAACAATTTTCCCCAGATCACCCTGGACTTCTCCACTGAGTGGACCGAATTCCATCGGCCGGGCGCCCCCCGGCTTTATCCTGAGGAGCTTCGGCCCGAAATTGACGAAGTCAACGAACGCGTCTTTACCGAGGTGAACAACGGAGTCTACCGCTGCGGTTTCGCGGGTTCGCAGGAGGCCTACGACGCCGCCTACGCGCGGCTTTGGACAGCACTGGACTGGCTTGAAGAGCGCCTGGCCACGCAGCGTTACCTGGTGGGAGAGACCATCACGGAGGCTGACGTGCGGCTGTTCACTACCCTGGCCAGGTTCGACGCCGTGTACCACGGCCATTTCAAATGCAACCGGCAGAAACTCAGCGAGATGCCCGCCCTGTGGGCATACGCGCGTGACCTGTTCCAGACTCCGGGCTTTGGCGACACCATCGATTTTGTCCAGATCAAGCAGCACTACTACATCGTCCACGAGGACATCAATCCCACCGGGATCGTCCCGCACGGCCCCGACCTGACGGGCTGGCTCAAGCCCCATGGCAGGGAGTCACTGGGTGGGCGCCCGTTTGGCGACGGTACTCCCCCGGGACCCGTCCGACCCGGCGAAGAGGTCGCTGCGGGGCACGGCGCAACAGCTTGA	MGKETQAAPAATGTAAKGTAGSAGHSTKGAYVADGAEFNRDTNYIEDRITRDGSPGSNGEPGWPVEAGRYRLIAARACPWANRAVIVRRLLGLEEAISLGQPGPTHDARSWTFDLDPGGVDPVLVIERLQSAYFTRFPEYPRGITVPAIVDVASGAVVTNNFPQITLDFSTEWTEFHRPGAPRLYPEELRPEIDEVNERVFTEVNNGVYRCGFAGSQEAYDAAYARLWTALDWLEERLATQRYLVGETITEADVRLFTTLARFDAVYHGHFKCNRQKLSEMPALWAYARDLFQTPGFGDTIDFVQIKQHYYIVHEDINPTGIVPHGPDLTGWLKPHGRESLGGRPFGDGTPPGPVRPGEEVAAGHGATA	PGPT0013050_189	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013050-yqjG-K07393	NA	NA
D1-29_02585	744			hypothetical protein	ATGACCTCCTTCCCTGGGCAACTGTGGCAACGCATCGTTGAAGCCTTCAGCCGCACCGACATCCCTCAGGTTTCCCTCCTCGAGTTGTCGTTGGTGCTGTTGATGGCCATTGCGCTGTCTGTCCCGCGGGTCACGTGGAGGTACTTTGGCCTTTTGGCCACCGCCACCCATGAGCTGGGCCACGCCTTCGCGGCGGTTGTCAGCGGCCAAAGACTGGGAGGGATCCGGCTCAGCCTGGACCACTCGGGAACCACCATCAGCTACAGCCGTGGCCGGCTGGCCACTGTCTGGTCCGGTTTTTGGGGCTATCCGGTTCCGGCGATGACAGGTGCCGCGCTGGTTTCCGCAGGTTTTGCCGGCTGGGGCCCCGCGGCACTGGCGACCGGCACCCTGATCCTGCTGGCATCGCTGCTGTTTATACGTAATATGGCAGGCATCCTGATCACCGCCGGGGCTGTCGCAGGCGGTGCCGCGCTCATCTTTTTTGTACCGCATGCGTTCACCGGCCATGTGGCGGTCATCCTCGGGCTCGCCCTGTTGGTGGCAGCAGTCCGGGACCTGCTGAAGCTTTCCCAGGTGCATCTGCGGCGCAGGGAGCGTCTGGCAAGTTCGGATGCTTACCTGCTGTACCGCGCCACGTCGGTGCCTTCCTTTATCTGGATTACCCTTTTTACGGCGATTGTGGCGGGGTCCTGGCTGGTTGCCTGGCAGCCCATCTCCACAATCCTTGCAGCCGGCACCTAG	MTSFPGQLWQRIVEAFSRTDIPQVSLLELSLVLLMAIALSVPRVTWRYFGLLATATHELGHAFAAVVSGQRLGGIRLSLDHSGTTISYSRGRLATVWSGFWGYPVPAMTGAALVSAGFAGWGPAALATGTLILLASLLFIRNMAGILITAGAVAGGAALIFFVPHAFTGHVAVILGLALLVAAVRDLLKLSQVHLRRRERLASSDAYLLYRATSVPSFIWITLFTAIVAGSWLVAWQPISTILAAGT				NA	NA	NA	NA	NA
D1-29_02586	465	yqeY	COG1610	putative protein YqeY	GTGACCACTTTGAAGGAACGCCTGCATGCTGACGTAGTTGCGCACATGAAGGACCGTAACAAGACCGCCCTGACAACGGTGCGAAACGTCCTAGGCGAGATCGAAACGCGCGAAAAATCAGGCAAGACACCCGTAGTGCTCGACGACGCCCAGGTAACGTCGCTGCTGCAAAAGGAAGCGGCCAAGCGCCGTGACACCGCCAGGATCTACTCTGAGGCTGGCGAACCCGAACGGGCAGCAGCCGAGATCGCTGAAGCTGAGGTCATTGAGGCCTATCTTCCGCAGACCCTGACACCAGCGGAAGTGGAAGCCATCGTGGACGAAACCATCGCCCAGCTCACAGCCGAAGGGCAAACGCCCACCATGCGCCAGATGGGCGCCGTTATGAAACCCGTTACCGCCAAGGTTGCAGGGCGCTTCGATGGCAAGGCCGTCAGCGAAATCGTCCGCAGCCGCCTCACCTAA	MTTLKERLHADVVAHMKDRNKTALTTVRNVLGEIETREKSGKTPVVLDDAQVTSLLQKEAAKRRDTARIYSEAGEPERAAAEIAEAEVIEAYLPQTLTPAEVEAIVDETIAQLTAEGQTPTMRQMGAVMKPVTAKVAGRFDGKAVSEIVRSRLT	PGPT0030490_350	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSAMIDASE_ACTIVITY	PUTATIVE-TRANSAMIDASE_ACTIVITY-1,PGPT0030490-gatB|yqeY-K09117
D1-29_02587	303			hypothetical protein	GTGGCAACCGATTACGACGAACTCCGCTCCGACGTCAAGGAATCGCAGGACAACTCGCTGGAGGCGCTTCAGTCTGCCAATGCACCGGACGCACGCAGCGTCGTCCTCGAACTCGATGAGGCCGATGGGCTGGATGGCGCCGGCGTTCCGGGCGGCGAATTTGTCGCCGAGGAACTGGTCGTCCAGGTCATTCCCCAGGCTGACGACGAGTTCACCTGCTACTCCTGCTTCCTGGTCCGGCACCGGTCCCAGATTGCACGGCAAAAAGATGGACACAGCTACTGCACCGACTGCGAAGGCTGA	MATDYDELRSDVKESQDNSLEALQSANAPDARSVVLELDEADGLDGAGVPGGEFVAEELVVQVIPQADDEFTCYSCFLVRHRSQIARQKDGHSYCTDCEG				NA	NA	NA	NA	NA
D1-29_02588	663			hypothetical protein	TTGTCCCTGTTCGTTGCAGCCCTGCTGACCGGCGGCCTGACCGGTTGCGAACCCGCCTCAACGATGGGAACCGCCCACGCAGGGACTGAGGCGAAGGCCGGCGACGCCGCAGCCGCGCTGGCCCAATTGGAGACAATCCCCATTAAAGGCCGTGCACCCAAGACCGGCTACAGCCGGGGCGAGTTTGGTCCTGCCTGGGCGGACGTGGACCGGAACGGCTGCGACACCCGCAACGACATCCTGGCCCGTGACCTCGTCGAGGAGACATTTAAGGACGGGACCCACAACTGCGTTGTGCTGACAGGCACGCTTCCCGACAAATACACAGGCAAGACGATTACGTTCATCCGGGGAGCCGACACCAGTTCCGAGGTCCAGATCGACCATCTTGTCCCGCTGTCGCTGGCATGGCAGACCGGTGCCCAGCAAATCAGCGAAGAAGAACGAAAACAATTTGCCAACGATCCCCTTAACCTTATGGCAGCGGACGGCCCGGCAAACATGTCCAAATCCGACAAGGACGCCGCCACGTGGCTGCCGTCCAACAAATCGTTTCGCTGTGAGTACGTTGCCCGCCAGACGGCAGTCAAGGCCAAGTACAAGTTGTGGGTCACCCAGCCCGAACATGACGCCATCGCCGGAATCCTGAACACCTGCCAATAG	MSLFVAALLTGGLTGCEPASTMGTAHAGTEAKAGDAAAALAQLETIPIKGRAPKTGYSRGEFGPAWADVDRNGCDTRNDILARDLVEETFKDGTHNCVVLTGTLPDKYTGKTITFIRGADTSSEVQIDHLVPLSLAWQTGAQQISEEERKQFANDPLNLMAADGPANMSKSDKDAATWLPSNKSFRCEYVARQTAVKAKYKLWVTQPEHDAIAGILNTCQ				NA	NA	NA	NA	NA
D1-29_02589	894	rbn_1	COG1234	Ribonuclease BN	ATGCGTGAATTCGTTGTCCTGGGAACTGCCTCGCAGGTCCCCACCCGGTCCCGAAACCACAACGGCTATTTCCTGTTGTGGGACGGCGAAGGATTCCTCTTCGACCCTGGTGAGGGATCGCAGCGCCAGATGATGTTTGCCGGTGTTTCGGCCCACCAGGTCAACCGGATCTGCCTGACCCATGTCCACGGCGACCATTGCCTTGGGCTTCCCGGCGTGCTTTCCCGGATGGTCCTGGACGGCGTGAAACATACCGTGCACCTGCATTTTCCGGCTTCAGGCGGGGACGCAGTTCGGGCCCTCGTTTCCCTTGCTCCACCGAGCCTTGATCTCCGGTTACACCCGCATGCCGGCAGCAGCACCGTGGCCCCCGGGTTGGAGATACGCCCGTTGAACCACAGGATCGAAACATACGGGTACCGGCTGGTGGAGCCGGATGGGCATACGCTGCTCGCTGAACGACTCGAAAAGGCAGGGATCAGCGGGCCCGACGTCGGCCGCCTGCAGCGCGAGGGCAGCCTCGGTTCCGTACATATCAAGGATGTGAGTGTGCCGCGGCGGGGCCAACGTTTCGCCTTCGTGATGGATACGGCACCCTGTGCCGGCGCTGAAGAACTTGCCGAAGGCGCCGACTTGCTCGTGGCAGAGTCCACGTTCAGTGACGCCGACGTTGACCTGGCCACGCAGTACCGGCACCTCACCGCCGGGCAGGCCGGCGCGTTGGCGGCCGCTGGCCGCGTCCGCACTCTGGTTCTGACCCACTTCTCCGCCCGCTACCCAGACGTTGGCTTACTGGCGGAACAGGCCAGGGCGCGTGCCGGGGAAGCAACAGTAGTGATTGCCAACGACCTTGACCGGATTGCTTTTCCGAAGCGGCAAAACCCGGCGGGTTGA	MREFVVLGTASQVPTRSRNHNGYFLLWDGEGFLFDPGEGSQRQMMFAGVSAHQVNRICLTHVHGDHCLGLPGVLSRMVLDGVKHTVHLHFPASGGDAVRALVSLAPPSLDLRLHPHAGSSTVAPGLEIRPLNHRIETYGYRLVEPDGHTLLAERLEKAGISGPDVGRLQREGSLGSVHIKDVSVPRRGQRFAFVMDTAPCAGAEELAEGADLLVAESTFSDADVDLATQYRHLTAGQAGALAAAGRVRTLVLTHFSARYPDVGLLAEQARARAGEATVVIANDLDRIAFPKRQNPAG				NA	NA	NA	NA	NA
D1-29_02590	489			hypothetical protein	TTGAGTTATCCGCAACAACAACAGCAACAGCCATTCCTGCAGGCCGGCGAGCCGCCGCTTTGGGCACCCTACTACGGTGCGCCGTTGCCGGTAGCTGTGAAGCGCTTCTTCAAGAAGTACGCAACGTTCTCCGGCCGTGCCAGCCGCAGCGAGTACTGGTGGTGGACTCTCGTCTCCGTCGGTGTCAGCATCATCCTGCAGATCGTCGCGGGCATTATGGGGGCTGCCGGAGCGACCGTTACGGCAGACGGGACGGCCGTCCCGGGGGCAGGAGCAGTTCCTGTCTACATCATCTTGGTAATCTGGGGCCTGGCCACCATCGTTCCGTCCTTGGCGCTGACCGCCCGCCGCCTGCACGACGTGAACCTCAGCGGATGGCTGATCCTCGTGGTGCTCGTTCCGTTCCTGGGCGCAATTGCCTTGCTCGTGATGACCATCCTGGCTTCCAAGCCTGAAGGCCAGCGGTTCGACCAGCCTGGCAGCATGTAG	MSYPQQQQQQPFLQAGEPPLWAPYYGAPLPVAVKRFFKKYATFSGRASRSEYWWWTLVSVGVSIILQIVAGIMGAAGATVTADGTAVPGAGAVPVYIILVIWGLATIVPSLALTARRLHDVNLSGWLILVVLVPFLGAIALLVMTILASKPEGQRFDQPGSM				NA	NA	NA	NA	NA
D1-29_02592	1305	dapE_1	COG0624	Succinyl-diaminopimelate desuccinylase	ATGTCTGACGTCCGTCCCGAGGATGAAGTTGTAGGGATCTGCCAGGACCTCATCCGGATAGATACTTCAAACTATGGCGACGGCTCAGGGCCGGGGGAGCGGGCAGCGGCGGAATATACCGCTGCATTGATCGAAGAAGTGGGCCTGACTGCTGATATCTTCGAATCCGCTCCCGGCCGCGCCAATGTGGTTACGCGGATGGCCGGCGAAGATCCGTCTGCAAGCGCACTGGTGGTGCACGGGCACCTGGACGTTGTTCCGGCACTAAGGGACCAGTGGTCGGTGGACCCTTTCGGCGCCGAGCTCAGGGACGGCCTGATCTGGGGCAGGGGTGCGGTGGACATGAAGGACATGGACGCCATGATCCTCTCGGTCATGCGGGGCTTGGCGCGCACAGGGCGAAAGCCGAAGAGGGACATAGTTTTCGCCTTTTTTGCCGATGAGGAAGCCGGCGGCGAGTACGGGGCCCGCTACGCCGTGGACAAGCGCCCCGAGCTCTTTGAGGGCGCCACCGAAGCCATCTCCGAAGTGGGCGGCTTCTCGGCAACCATTGGCGGACAGCGCACGTACCTGCTGCAGACCGCCGAGAAGGGTATTTCCTGGCTGCGCCTGGTGGCCCACGGACGCGCGGGGCACGGGTCCCAGATCAGCACGGACAATGCCATCACACGGCTGGCGGCAGCGGTGACCCGCATCGGGGAGTACAAGTGGCCAATTGAGCTGACCCCCACCACGCGCCAGTTCCTGGACGGCGTCACTGAACTCACAGGAGTCGAGTTCGACGCCGACAATCCGGATCTCCTGTTGAACCAACTCGGAACGGTGGCACGGTTCGTCGGTGCCACCCTGCAAAACACCACCAACCCCACCCTCCTGAAGGGGGGCTACAAGCACAATGTCATTCCCGAGTCGGCGGAGGCCCTGGTGGACTGCCGAACCCTGCCGGGACAGCAGGAACACGTTCTAGAGATCGTGCGCGACCTCGCCGGAGCCGGCGTCGATGTCAGCTATGTCCACTCGGACGTCTCCCTGGAGGTCCCCTTCGCGGGCAACCTCGTGGATTCCATGATCGACGCCCTGCACTCCGAGGATCCCGGTGCCAAGGTCCTCCCGTACACACTCTCCGGTGGAACGGACAACAAATCCCTGAGCAGGCTGGGGATCACCGGCTACGGTTTCGCGCCGCTGCAGCTGCCCGATGACCTGGACTTCACCGGGATGTTCCACGGGGTGGACGAGCGTGTCCCTGCCGATTCGCTCAAATTCGGCGCCCGGGTGCTTAACACCCTCCTCACGAACTACTGA	MSDVRPEDEVVGICQDLIRIDTSNYGDGSGPGERAAAEYTAALIEEVGLTADIFESAPGRANVVTRMAGEDPSASALVVHGHLDVVPALRDQWSVDPFGAELRDGLIWGRGAVDMKDMDAMILSVMRGLARTGRKPKRDIVFAFFADEEAGGEYGARYAVDKRPELFEGATEAISEVGGFSATIGGQRTYLLQTAEKGISWLRLVAHGRAGHGSQISTDNAITRLAAAVTRIGEYKWPIELTPTTRQFLDGVTELTGVEFDADNPDLLLNQLGTVARFVGATLQNTTNPTLLKGGYKHNVIPESAEALVDCRTLPGQQEHVLEIVRDLAGAGVDVSYVHSDVSLEVPFAGNLVDSMIDALHSEDPGAKVLPYTLSGGTDNKSLSRLGITGYGFAPLQLPDDLDFTGMFHGVDERVPADSLKFGARVLNTLLTNY				NA	NA	NA	NA	NA
D1-29_02593	1161	ydbM		Putative acyl-CoA dehydrogenase YdbM	ATGACGCCGGAAGAAATCCTTCCCGAGGCGCTGCTGGAGCGCATCCGCGGCCGGGCAGCCGGCTATGACCGGGATAACGCCTTTTTCCACGAGGATCTGGCGGAGCTGGCCGCAGCCGGGTACCTCAAGCTCTTTGTCCCTGCAGCCGACGGCGGTGCCGGGTTGGGGCTTGAAGCGGCGGCGCAGTGCCAGCGAAGGCTGGCAACGGCTGCGCCCGCCACTGCCCTCGCGGTCAACATGCATTTGGTGTGGACCGGCGTCGCGTACGTCCTGGCCGGGAGAGGCGACCAGTCCCTGGACTTCGTCCTCAAGGAGGCCGCGAACGGCGAAATCTTTGCCTTCGGCAATTCCGAAGCAGGCAACGATTCAGTCCTCTTCGATTCGCGGACAGTTGCCACGCCACTGTCCGGCGGCGGCTACAGCTTCACCGGGTCAAAGATCTTCACGAGCCTTTCCCCGGCATGGACCAGGCTGGGGATCTTCGGAAAGGATGAAGGCGCGAGGGGCGGAGAGGGGGAACTGATTCACGGTTTCATCACCCGCGAGACCCCGGGCTACACAATCCTGGACGACTGGAACACGCTGGGGATGCGGGCCAGCCAGTCCAACACAACAGTGCTGAACGCCGCCGAAGTCCCCGCCGACCGGATTTTCCGCAGGCTCCCCGTGGGGCCGAATGCGGACCCGTTGATCTTCGCCATTTTCGCCTGCTTTGAATCACTCCTCGCCGCCGTGTACACCGGTCTTGGGGAGCGCGCCCTGCACCTGGCCGTGGAGGCCGTCAAGCGCCGCACCTCCTTCAAGAACGGTGGCCGGAGCTACGCCCAGGATCCTGACATCCGCTGGAAAGTGGCAGAGGCGGCCATGGCCATGGACAATCTCTACCCCCAGCTCCTGATGGTGACGCGTGATGTTGACGGCGTTGTGGACCACGGTCCGCAGTGGTTCCCCAGGCTCGTCGGATTGAAAATCAATGCCACAGAGACCGCCCGCCGGGTGGTTGACCTTGCCATCAGGGTCAGCGGAGGCTCAAGTTACTTCCAAGGCAGCGAACTGGAGCGCCTGTACCGCGACGTACTGGCCGGGATGTTCCACCCCTCTGATGACGAATCAGCGCACAATACAGTGGCGAATGCCTGGCTCGGCCCCCTGGAACAATGA	MTPEEILPEALLERIRGRAAGYDRDNAFFHEDLAELAAAGYLKLFVPAADGGAGLGLEAAAQCQRRLATAAPATALAVNMHLVWTGVAYVLAGRGDQSLDFVLKEAANGEIFAFGNSEAGNDSVLFDSRTVATPLSGGGYSFTGSKIFTSLSPAWTRLGIFGKDEGARGGEGELIHGFITRETPGYTILDDWNTLGMRASQSNTTVLNAAEVPADRIFRRLPVGPNADPLIFAIFACFESLLAAVYTGLGERALHLAVEAVKRRTSFKNGGRSYAQDPDIRWKVAEAAMAMDNLYPQLLMVTRDVDGVVDHGPQWFPRLVGLKINATETARRVVDLAIRVSGGSSYFQGSELERLYRDVLAGMFHPSDDESAHNTVANAWLGPLEQ				NA	NA	NA	NA	NA
D1-29_02594	234			hypothetical protein	ATGAAGGAACAATTTCTCACCAGCTCCGTCCACCGGGAACGGGACTATTTGAGGCAGTACGAGTACCTCGTACTGACGGTAAGCCCTGACGATTCACTGCGTGAGGCGCGTCGCCGGCTCGTGGAGCACTCCGAGTACGGCAAGTGGGAACTGGAACGCAGCAAGCTCTACCTCGGTGGCGGACGCCGCTTTTGGCTCCGGCGCAGGGTCATGCAGGTCCAACGGACTGTCTAG	MKEQFLTSSVHRERDYLRQYEYLVLTVSPDDSLREARRRLVEHSEYGKWELERSKLYLGGGRRFWLRRRVMQVQRTV				NA	NA	NA	NA	NA
D1-29_02595	267			hypothetical protein	ATGAGCATCGATCCGCGTGTCGCGCTTCAGTCCTTGACAGCTGCCTTGGAAGAACACCTTATCGCAGCCTCCAACCGGCGCGGCGATGGCGACCCCACGGTGGAAGCAGCTTTTTTTGCTGTTGCGGATGCCTTCGAAGTTTACGAGGACGCACTCTACGAGGCGTACAACGAAGTGACGCCGCTGCAGGTGTTTGACGACGAGGAAGATGAAGAGGAAGACAGCGTCCTGGACGACGATGAGGACCTGGAAATCGTCGAGGAGTAA	MSIDPRVALQSLTAALEEHLIAASNRRGDGDPTVEAAFFAVADAFEVYEDALYEAYNEVTPLQVFDDEEDEEEDSVLDDDEDLEIVEE				NA	NA	NA	NA	NA
D1-29_02596	960	gpr_1	COG0667	L-glyceraldehyde 3-phosphate reductase	ATGATTCCCCGTAAGCTTGCTGCTATGCAGCAGCGTTATGTCGGCAACAGTGGATTGCGGGTCTCCGCCCTTACCCTGGGCACCATGTCCTGGGCAGGCGATACCGATGAACAGGACGCAACGGACCTGCTGCGCGCTTTCGTCAACGCCGGCGGCAAGCACATCGACACTGCAGCGTCCTATGCGGACGGCCGCGCAGAGGCGATGATCGGATCGCTGCTGGGGGACGTCGTCTCCAGGACCGAAGTCTCCATTTCCACCAAAGCCGGGATGTCGACGTCGGACGGCCGGCGGACGGTGGACACCTCACGGAACGCGATGCTGTCCGGGCTGGACGCCAGCCTGGCGAGGCTCGGGACCGATTACGTGGATATTTGGTTTGCGCAGGCGTGGGATGCCAACGTCCCGTTGGAGGAAACCCTCTCGGCCCTTGAATTCGCCCTGCGGAGCGGGCGGGCCAGGTATGCAGGCGTCTCAAACTTCAGCGGCTGGCAAACTGCCAAGGCCGCCGCCGTGGCCGGGTTTCCGCTGGTGGCCGCGCAGGCAGAATATTCGCTCCTTCAGCGGAAGGCGGAAGCAGAACTCATTCCCGCTGTGGAGGACGCAGGGCTGGGCCTGATGGCATGGGCCCCGCTGGGCCGGGGTGTCCTCACCGGCAAGTACCGGGGCAACATCCCCGGCGATTCCCGGGCCGCACACCCGGTCCTTGCGCCCTACGTTGAACCGTACCTGGCGGAAAAGCCGTCCCGGGTGGTGGAGGCGGTGGCCATGGCTGCCAAGGGATTGGGCCGCACACCGCTGGATGTCTCCCTCAGTTGGCTGCTTTCCCAGCACGGGGTTGCCACGGCGATGGTGGGCCCCCGGACGCCTGTCCAGCTTAAAGAGATCCTGGATGCCCAGCTGACACCATTGCCGCCGGAGATTTCCCGCGCCCTTGAGGACGTTTCAGAAACGTCCTGA	MIPRKLAAMQQRYVGNSGLRVSALTLGTMSWAGDTDEQDATDLLRAFVNAGGKHIDTAASYADGRAEAMIGSLLGDVVSRTEVSISTKAGMSTSDGRRTVDTSRNAMLSGLDASLARLGTDYVDIWFAQAWDANVPLEETLSALEFALRSGRARYAGVSNFSGWQTAKAAAVAGFPLVAAQAEYSLLQRKAEAELIPAVEDAGLGLMAWAPLGRGVLTGKYRGNIPGDSRAAHPVLAPYVEPYLAEKPSRVVEAVAMAAKGLGRTPLDVSLSWLLSQHGVATAMVGPRTPVQLKEILDAQLTPLPPEISRALEDVSETS				NA	NA	NA	NA	NA
D1-29_02597	834	uppP	COG1968	Undecaprenyl-diphosphatase	GTGAACTGGTTTGAGGCGGCCCTGCTGGGCCTTGTGCAGGGACTGACCGAATTTCTACCGATTTCATCAAGTGCGCACCTGCGGATTGTGGGGGAGTTCCTGCCGAACGCCGCCGATCCCGGTGCCGCTTTTACCGCCATAACCCAGCTGGGGACCGAAACGGCCGTCCTTGTCTACTTCCGGCATGACATCGTCAGGATCTTCAGGGCGTGGGCCGGAGCACTCACCGGCAAAGTGTCCAGGCAGGACCCGGATGCGCGGATGGGATGGCTCGTTATTTTGGGAAGCCTGCCCATCATCGTCCTGGGGCTTCTGTTCCAGGACCAGATCGAATCAGTACTGCGGAGCCTGTGGATTGTAGCCACCACACTGATCGTCTTCGGGCTGGTCCTGGCGGTGGCCGATGCGGTGGGCCGGCAGGAACGCGAGCTGAGCCGGCTGACGTACAAGCACGGTGTATTTTATGGATTTGCCCAGGCAATGGCGCTTATTCCCGGGGTTTCGAGGTCGGGAGGGACCATCACGGCCGGCCTGCTGATGGGCTACACCAGGGAAGCCGCGGCGCGGTACTCGTTCCTTCTGGCCATTCCTGCTGTATTCGGCAGCGGCCTGTTCCAGCTCTACAAGACCGTCACCAAAGAGGGCATCAGTGGACCCTATGGGCTGCCGGAGACGGCGATGGCCACCGTCATTGCGTTTGCCGTGGGTTATGTGATCATCGGCTGGTTCCTGAAGTTCGTTTCCACCCGCAGCTACCGCCTCTTTGTCTGGTACCGGATCTTCCTGGGGATGGCGCTGTATCTGCTGCTCGGTTTCAATGTCATCAGCGCCTAG	MNWFEAALLGLVQGLTEFLPISSSAHLRIVGEFLPNAADPGAAFTAITQLGTETAVLVYFRHDIVRIFRAWAGALTGKVSRQDPDARMGWLVILGSLPIIVLGLLFQDQIESVLRSLWIVATTLIVFGLVLAVADAVGRQERELSRLTYKHGVFYGFAQAMALIPGVSRSGGTITAGLLMGYTREAAARYSFLLAIPAVFGSGLFQLYKTVTKEGISGPYGLPETAMATVIAFAVGYVIIGWFLKFVSTRSYRLFVWYRIFLGMALYLLLGFNVISA	PGPT0024165_1848	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
D1-29_02598	1239	mshC	COG0215	L-cysteine:1D-myo-inositol 2-amino-2-deoxy-alpha-D-glucopyranoside ligase	ATGTCCGCCATACGGCTGTTCGACACAGCCCGCGGCATTGAAGTGACGCTTCCCAACGGCGGGGACCAGTCGATGTATGTCTGTGGAATCACGCCTTATGACGCCACGCACATGGGGCATGCTGCCAGCTACGTGGCCTTTGACCTGCTGAACAGGGCCTGGCGCGACGCCGGGCAGCGGGTTTCGTACGTCCAGAATGTCACCGACGTTGACGACCCCCTGCTGGAACGGGCCACAGCCACGGGAGTTGACTGGAGGGACCTTGCGGCCAGCCAGGTGGAGCTCTTCCGGACCGACATGGAAGCGCTGAACGTGCTGGCACCGGATAACTACGTTGGGGCTGTGGAATCCATTCCCCTCATCGTCCCGGCGATCGAGCATCTTGTCCGGCTGGGCCTTGCCTATCGCGTGCCGGGCACTGCGGGAGAACCGGATGGCGATGTGTATTACGACGTCGAGGCAGCCGGCAAGCATTCCGTCTCCGATGAACCGGACGCCTGGACCCTGGGCTCAATTTCGGGCCTGCCGGAAACTGAGATGCTGGAGCTCTTTGCTGAACGGGGCGGCGATCCCGGGCGGGCCGGCAAGCGTCAGGCCCTTGATCCGCTCCTTTGGCGGGTTGCACGGGACGGCGAGCCCAGCTGGCCCGGCGGCGAGCTTGGGCAGGGCAGGCCGGGCTGGCACATTGAGTGCACGGTCATCGCCCAGAAATACCTCCCGGCCCCCTTCACCGTCCAGGGCGGAGGCTCTGACCTGATCTTCCCCCATCATGAAATGGGTGCAGGGCACGCGTATTCACTGACCGGGGTGCCGTTGGCCCAGCATTTTGCCCACGCCGGAATGGTGGGCCTTGACGGTGAAAAGATGAGCAAGTCCAAGGGAAATCTGGTCCTGGTCTCCGCATTGCGGGCTGCAGGGGAGGAGCCCGCGGCCATCCGCCTGGCTATCCTGGCACACCACTACCGTACGGACTGGTCCTGGACAGAGTCCGGATTTGCCCAGGCGAAGGAACGGCTGGAGTCCTGGCGCGGCGCCCTTGCCAGCGCGCCCGCAGGATCTGCGGCTGGCCTTATTGCCGGGATGCGCGAGGCAATGGCCGCTGATTTGAACGCCCCGGCGGCGCTGGCGGCCGTGGACAAATGGGCTGCGATGGCTACCACTTCAGACACCGCGGGCAGCCAGCATGACCAGGCTCTTGCCAGCGACGCGATTGACGCACTTCTCGGGGTCCGGCTCTAA	MSAIRLFDTARGIEVTLPNGGDQSMYVCGITPYDATHMGHAASYVAFDLLNRAWRDAGQRVSYVQNVTDVDDPLLERATATGVDWRDLAASQVELFRTDMEALNVLAPDNYVGAVESIPLIVPAIEHLVRLGLAYRVPGTAGEPDGDVYYDVEAAGKHSVSDEPDAWTLGSISGLPETEMLELFAERGGDPGRAGKRQALDPLLWRVARDGEPSWPGGELGQGRPGWHIECTVIAQKYLPAPFTVQGGGSDLIFPHHEMGAGHAYSLTGVPLAQHFAHAGMVGLDGEKMSKSKGNLVLVSALRAAGEEPAAIRLAILAHHYRTDWSWTESGFAQAKERLESWRGALASAPAGSAAGLIAGMREAMAADLNAPAALAAVDKWAAMATTSDTAGSQHDQALASDAIDALLGVRL				NA	NA	NA	NA	NA
D1-29_02599	906			hypothetical protein	ATGAATAGCTTCGATGGAGACACCACCGAACCGGATGCCGTGGACGAGCCAGAGCGGTTCCTGCTGCCAGTGGCGGACGGAGAGCGGGTGACCGTGATGTTGGCCGCCTTTGAGGGCTGGAACGACGCCGGCGAGGCCGCGAGCGATTCACTTCGCTACCTCAATAAGCTCTGGGGCGGTAAGAAGGTTGCCTCCATCGACGCCGATGAATACTACGACTTCCAGTTCACCCGTCCAACGGTACGGCGGAACGCGGCAGGCGAACGCAAGATCAAATGGCCCTCCACCCGCATCTACAAGGCGAGTGCGCCCGGCTCCAACGTGGATGTCATCTTTGTGCAGGGAACTGAGCCCTCCTACAAATGGCGTGCCTACACAGCCGAGCTGCTGGTGCATGCGGAGGCGTTGAAGGTGGATTACGTGGTGCTGGTGGGAGCCCTGCTCGCGGACGTTCCCCACAGCAGGCCTATCCCCGTCAGCACCTCCTCCGACGACGGACCGCTCCGGGAGCGTCTGAACCTGGAGGCCTCCCAGTATGAAGGTCCGGTGGGGATTGTGGGCGTACTGTCCGAAGTCTCGCTGCTGGCAGGCATTCCTACCGTGTCGTTGTGGGCGGCCGTACCGCACTACGTAGCCCAGGCGCCGTCACCCAAGGCGCAGCTGGCCCTCCTGCACCGGATTGAGGAGTTGCTGCAGGTGCCTTTGGATACCCACGAACTGGCAGAGGAAGCCGACGCCTGGGAGCGGGGCGTTGATGAGCTCGCCACCGAGGACCCGGAAATCGCTGCTTACGTGCGCCAGTTGGAAGAGGCCAAGGATACCGCCGACCTTCCTGAGGCGAGCGGGGAGTCCATCGCACGGGAGTTTGAGCGGTACCTCAAACGCCGCGGCCAGGACCGGCCCTAA	MNSFDGDTTEPDAVDEPERFLLPVADGERVTVMLAAFEGWNDAGEAASDSLRYLNKLWGGKKVASIDADEYYDFQFTRPTVRRNAAGERKIKWPSTRIYKASAPGSNVDVIFVQGTEPSYKWRAYTAELLVHAEALKVDYVVLVGALLADVPHSRPIPVSTSSDDGPLRERLNLEASQYEGPVGIVGVLSEVSLLAGIPTVSLWAAVPHYVAQAPSPKAQLALLHRIEELLQVPLDTHELAEEADAWERGVDELATEDPEIAAYVRQLEEAKDTADLPEASGESIAREFERYLKRRGQDRP				NA	NA	NA	NA	NA
D1-29_02600	687	gph_2		Phosphoglycolate phosphatase	GTGGACACGGAACCATACTGGATCGCCGCCGAACACGCGCTGGTCCAGGCTTACGGCGGGACCTGGTCGCACGAGCAGGCCATGCAGCTGGTGGGGCAGTCCCTGACGTTTTCCGCCGGCATTCTGCAGGAGGCCGGTGTCCGGCTGGAGATCCGGCAGATTATCGACACCCTGACTGCCGAAGTCATCCGCAATGTGCGGCGCAAGGTTCCTTGGCGCCCCGGTGCACGGGAACTGCTGGATGACCTCCACAGTGCCGGCATCCGCTGCGCCCTGGTCACCATGTCTGAAGGCCCGCTGGCACGCGAAATAGTTTCCAGTCTTCCCCGGCAGTACTTCGAATTCCTGGTCACCGGAGACAGTGTGGTCCGCGGCAAGCCGGACCCTGAGGCGTACCTGACGGCTGTTGAACTGCTGCGCCAGGATGATCCCGGCCTGACCGTGGACCACTGTGTGGCGCTGGAGGACTCGGCACCGGGCGTTGCGGCGGCGGTAGCCTCAGGTGTTGCCACCGTTGCCATTCCGCATATGGTCCCGCTGCCGCCTGACCCGCGGCACGTGACCTGGGAATCACTGGAGGGACGCACCGTGGCCGAACTGGAATCCATCGCTGCACGCCGGGGCGAACAGCAGGCCGGCACGTCGGCAATGCCGGCAACCGCTTCGAGGAGCCTTGCACTTGACTAA	MDTEPYWIAAEHALVQAYGGTWSHEQAMQLVGQSLTFSAGILQEAGVRLEIRQIIDTLTAEVIRNVRRKVPWRPGARELLDDLHSAGIRCALVTMSEGPLAREIVSSLPRQYFEFLVTGDSVVRGKPDPEAYLTAVELLRQDDPGLTVDHCVALEDSAPGVAAAVASGVATVAIPHMVPLPPDPRHVTWESLEGRTVAELESIAARRGEQQAGTSAMPATASRSLALD				NA	NA	NA	NA	NA
D1-29_02601	1167	rip3	COG0517	Putative zinc metalloprotease Rip3	TTGACTAAAACGAAAGCGCCCTCCCGCAGGGAGGGCATTCCGCTGGGCAGGATTGCGGGCATTCCCGTCATTCTGGCCTACTCCTGGTTTATCATCGCGGCCTTCACGGTGGTTGCCTTCGGACCAGCGCTCCTGGCGAGGAACCCCGCCCTGGGCTTCGCCGCCTACTTGGTGGCCTTTGCTTACGCCGTGCTTCTGCTGATCTCGGTCCTCGTCCACGAACTGGCTCATGCGCTGACCGCCAAGATCTATGGCTGGCCCACGCAGAAGATCGTCCTGAACCTTTGGGGCGGGCACACACAGTTCGAAAACTTCACGGCCACCCCGGGGCGCTCCGTGCTGGTGGCACTGGCCGGGCCGGCCGCCAACTTCGTGCTCGCCGGGGGGACGTGGCTGGTCCGTGCCTCGGCCGACCTTGGCGGAGTGGCGGACATCCTGACAAATATCTTTATGGTGGCCAACCTGCTGATCGGCATCTTCAACGTCCTGCCGGGACTCCCGCTCGACGGCGGGCGCCTGGTCGAGTCGGCGGTCTGGAAGGCAACGGGAAGCCAGGCAAAAGGCACAGTCGCCGCGGGCTGGGCCGGACGTGTCCTTGTGGTCGCCCTGGGATACTGGTTTATTGCCAGGCCGCTGCTCGCCGGTGAGCCGCCGGACCTCACCTTCCTAATGATTACCATCCTCGTCGCCGGATTCCTCTGGATGGGCGCTTCGGCCTCCATCCAGCAGGGGACACTGCGCGGCAGGCTCCACCTGGTGAGCGCTGCAGCGCTGTCCGAACCCGCCGTCGGAATTCCTGCTTCTGCAACAGTGGCGGAAATCCTGCGGCTCTCACCTGCCGGAACCCCTGCAGTTGTTGTCTGCGGCCCGGACGGCCGGCCGCAGGGAGTGGTGGACCCTTCGGCGGTTTCTGCCGTACCCCCTGCCGCCGCAGGAACCACCCCAGTGACGGCCGTGTCCTATGCCCTGGTTCCCGGCGCCTATGTGCCCGAATGGTCCAAGGGGCAGGAGCTCATCCAGTACCTCGCCCAGCTGGAGGGCCGCGAATATGCCGTGGTGGATCACCGGGGGACGGTGACCGGACTCCTGCGGCAGAACGCAGTGCTGGCTGCCATCACCGGCAAGGGTCTCCGGCCCAATGGCCATCGGCAGGACCAAAACCGGTAG	MTKTKAPSRREGIPLGRIAGIPVILAYSWFIIAAFTVVAFGPALLARNPALGFAAYLVAFAYAVLLLISVLVHELAHALTAKIYGWPTQKIVLNLWGGHTQFENFTATPGRSVLVALAGPAANFVLAGGTWLVRASADLGGVADILTNIFMVANLLIGIFNVLPGLPLDGGRLVESAVWKATGSQAKGTVAAGWAGRVLVVALGYWFIARPLLAGEPPDLTFLMITILVAGFLWMGASASIQQGTLRGRLHLVSAAALSEPAVGIPASATVAEILRLSPAGTPAVVVCGPDGRPQGVVDPSAVSAVPPAAAGTTPVTAVSYALVPGAYVPEWSKGQELIQYLAQLEGREYAVVDHRGTVTGLLRQNAVLAAITGKGLRPNGHRQDQNR				NA	NA	NA	NA	NA
D1-29_02602	1080			hypothetical protein	ATGAGCAGCGAAACTGCCGCCAACGAAGCCACAGCAACAACCCAAGACGGTGTTGTCGCCGGCGGCTTGCAGCCTGTAGGCGCTGCACGGCGCCGGGGTCCCTTCCGGGAGGGGGAGCGGGTCCAGCTGACCGACGAACGCGGCCGGATGAACACCATCACGCTGGAAACCGGCGGCGCGTTCCACACCCACCGCGGCTTCCTGAACCACGACGAGATCATCGGCAAGGTGGACGGTTCGGTAGTGGTGAACAACGTTGGCCAGCAGTACCAGACGCTGCGCCCGCTTCTCTCCGATTTTGTCCTGTCCATGCCCCGGGGTGCCGCCGTGGTTTACCCGAAGGATGCAGGGCAGATTGTCACCATGGCGGACATCTTTCCCGGCGCCAGGGTAGTGGAGGCCGGGGTCGGTTCCGGCGCGCTGTCCATCTCGCTGCTGCGGGCCGTGGGCGACAACGGCTACCTGCACTCCTTTGAACGCCGGGCGGAATTCGCGGACATTGCCCGGGGCAACGTGGAGACCATCTTTGGTGGCCCCCACCCCGCCTGGAAGGTCTCGCTCGGCGATTTCCAGGAAGAAGTGGTCCGCAGCGAAGCCCCCGGGTCCATTGACCGCGTGGTCCTGGACATGCTGGCGCCGTGGGAGTGCCTCGACGCCGTTGCCACGGTGCTTGCCCCAGGCGGCGTCTGGATCAATTACGTGGCCACCGTAACGCAGCTCTCCCGGACTGCCGAGGCCATCCGCGCCGACGGCCGTTTCACCGAGCCCGACGCTTGGGAATCCCTGGTGCGTGGCTGGCATCTGGAAGGCCTGGCGGTCCGCCCAGACCACCGCATGGTGGCCCACACCGGTTTCCTGCTGGTGACCCGCCGGCTGGCTGACGGTGTCACCGGGATTTCGGTCAAGCGCCGGCCGTCCAAAACGGATTTCAATGAAGAGGACGTCAATGCCTGGACGCCCGGCGCGGTGGGCGAACGGCTGGTCTCAGACAAGAAACTTCGCCGCGCAGCGAGGGACGCCATCGCCGGCACCAACGTTAAGGACGAACCCGTTAAAGACGAACCGGAGATCACGAACTAG	MSSETAANEATATTQDGVVAGGLQPVGAARRRGPFREGERVQLTDERGRMNTITLETGGAFHTHRGFLNHDEIIGKVDGSVVVNNVGQQYQTLRPLLSDFVLSMPRGAAVVYPKDAGQIVTMADIFPGARVVEAGVGSGALSISLLRAVGDNGYLHSFERRAEFADIARGNVETIFGGPHPAWKVSLGDFQEEVVRSEAPGSIDRVVLDMLAPWECLDAVATVLAPGGVWINYVATVTQLSRTAEAIRADGRFTEPDAWESLVRGWHLEGLAVRPDHRMVAHTGFLLVTRRLADGVTGISVKRRPSKTDFNEEDVNAWTPGAVGERLVSDKKLRRAARDAIAGTNVKDEPVKDEPEITN				NA	NA	NA	NA	NA
D1-29_02603	1755	mpa	COG0464	Proteasome-associated ATPase	ATGATGGAGACGCCGAACCAGGACTCCGGACGCACACCGGCGGAGCAGTCTGCCGCCAACGATCTGTCCGTTGCCGACCGGCAGGTTAACATCCTCCGGGACAAACTCAGGCACATCGACCGCCAATTGGCAGCCGCGACACAAAACAACGCCAAGCTCGTCAGCATGCTGGAAACTGCGAAAGCGGAGATTCTTCGGCTGAAGAACGCGCTGGACCAGGAAGGGCAGCCGCCGTACAGCTTTGGCACCATCCTCCAGTTGAACCCAAAGCGGCAGCCGTCGGCCGGCAGCAGCGGGCAGGCCGCCACGGAGGAATCCGCTGACATCTTCAATGCCGGCCGAAAGATGCGGGTGGGGATCAGTCCACTGGTCAACATCAACCAGTTGGCAGTGGGCCAGGAGGTCCTGCTGAACGAGGCACTGCTGATCGTGGCCGGACTCGGCTACGAGCGTGCGGGAGAGCTTGCGACACTCAAGGAAATGCTCGGCGCAGACCGCGCCCTGGTAGTGGGACGGGCGGACGAAGAGCGCGTGATCCGGCTCTCCGGAGCACTGCTGTCCGAAAAACTCAGGGTGGGCGATGCACTGTCCATCGACTCCCGCACAGGATATGCCCTGGAGAAGGTACCCAGGTCCGAGGTGGAAAACCTCGTACTCGAGGAAGTCCCGGACATCACGTACGAGGACATCGGTGGCCTGGGGCCGCAGATCGAGCAGATCAGGGACGCCGTCGAATTGCCGTTCCTGCACCCTGACCTCTACCGTGAGCACGGCCTGAAGGCACCCAAGGGGATCCTGCTCTACGGTCCGCCGGGCTGCGGCAAGACCCTCATCGCCAAGGCAGTAGCCAACTCATTGGCCGCCCGGGCGGCAGAACGTTCAGGCAACGTAGATCTGAAGAGCTACTTCCTGAACATCAAAGGTCCTGAACTGCTGGACAAGTACGTGGGGGAGACCGAACGGCACATCCGCCTGATTTTCTCCCGCGCCCGGGAAAAGGCGTCCGACGGCAGCCCCGTAGTGGTGTTCTTCGACGAGATGGACTCCCTCTTCCGCACCCGCGGAACCGGGATCTCCTCAGACGTCGAAACCACCATCGTTCCCCAGCTGCTCAGTGAGATCGACGGCGTGGAGCGGCTTGACAACGTGATTGTGATCGGTGCCTCCAACCGCGAGGACATGATTGATCCGGCCATCCTGCGTCCGGGCCGTCTGGACGTCAAAGTCAAGATCCACCGCCCCGACGCCGAGGCCGCAGCCGACATCTTCAACAAGTACATCACCACTGACCTGCCGTTCCACGAGTCCGATCTCGCAGAGCATGACGGTGACGTCCAGGCAACCGTGGACGCCATGATCCAGCGCACGGTGGAAGCCATGTACTCCACAGACAAGTCCAACGAGTACCTGGAAGTCACCTACGCCAACGGCGACACGGAGATGCTCTACTTCAAGGACTTCAACTCCGGCGCAGTGGTGCAGAATGTGGTTGACCGGGCCAAGAAGTACGCCATCAAGGATTTGCTGACGCTGCACCAGAAGGGCCTGCGGATCGAGCACCTGCTCCGTGCCGTAGTGGATGAATTCCGCGAACACGAGGATATGCCCAACACCACCAACCCGGATGACTGGGCACGCATCTCCGGCAAGAAGGGCGAGCGGATCACCTACATCCGCACCATCGTCCAGGGCAAGGCCGGCCAGGAGCCAGGCAAGTCTATTGAGACGATGCCGAACACAGGGCAGTACCTGTGA	MMETPNQDSGRTPAEQSAANDLSVADRQVNILRDKLRHIDRQLAAATQNNAKLVSMLETAKAEILRLKNALDQEGQPPYSFGTILQLNPKRQPSAGSSGQAATEESADIFNAGRKMRVGISPLVNINQLAVGQEVLLNEALLIVAGLGYERAGELATLKEMLGADRALVVGRADEERVIRLSGALLSEKLRVGDALSIDSRTGYALEKVPRSEVENLVLEEVPDITYEDIGGLGPQIEQIRDAVELPFLHPDLYREHGLKAPKGILLYGPPGCGKTLIAKAVANSLAARAAERSGNVDLKSYFLNIKGPELLDKYVGETERHIRLIFSRAREKASDGSPVVVFFDEMDSLFRTRGTGISSDVETTIVPQLLSEIDGVERLDNVIVIGASNREDMIDPAILRPGRLDVKVKIHRPDAEAAADIFNKYITTDLPFHESDLAEHDGDVQATVDAMIQRTVEAMYSTDKSNEYLEVTYANGDTEMLYFKDFNSGAVVQNVVDRAKKYAIKDLLTLHQKGLRIEHLLRAVVDEFREHEDMPNTTNPDDWARISGKKGERITYIRTIVQGKAGQEPGKSIETMPNTGQYL				NA	NA	NA	NA	NA
D1-29_02604	1674	dop		Depupylase	GTGACGGCTGCACCGGAACCCGTCGTCGGAGGATCGCTCCCCGTCGGCGGGGCCATGCGCGTCATGGGGGCTGAGACCGAGTACGGTATCCATGCCCCCTCGGCCCCCGGCGCCAATGCCACCATGATGTCCGCCCGGGTAGTGCAGGCGTATGCGCAGGTGACACGCCAGCGCGCGGCCGGCGGAGCAGAGACGCGGTGGGACTACACCGACGAGGAGCCCCTGCACGACGCCCGCGGCTGGACCCTTGAGCGGGAATCGGCGCATCCCAGCCAACTGACTGACCAACCGCCGGTCCTTGACGCCGAAGCCGTGGCCCTTGCCTACGGGCGCGAGGAACTGGAACTGGACGGGCAGGACGAGTCAGGCACGCTGCTGATGAACATGGTCCTGGGCAACGGCGCGCGCCTGTACGTGGACCATGCGCACCCGGAGTATTCCAGCCCTGAGGTCACCAGTCCCCGTGACGCCGTGAAGTGGGACGCGGCAGGGGACCTCGTAGCCCTGGCCGCAGTCCGGCGGCTCGCGGCGGATCCCGAACTCCCCGCCGTCAACCTCTACAAAAACAACACGGACAACAAGTCCGTCTCCTACGGCTCCCATGAGAACTACCTCATGCCGCGCTCCGTCCCGTTTGGCGACATCGTGCGGGGCCTGACACCCTTCTTCGTTACCCGGCAAATCATGTGCGGTTCGGGCCGGGTGGGTTTGGGACAGGACAGCTCCACACCGGGTTACCAGATCAGCCAACGTGCGGATTTCTTCGAGGCCGAAGTGGGCCTGGAGACCACCATCCGCCGGCCCATCATCAACACCCGTGATGAACCGCATGCCACCGCGGACAAGTACCGCCGGCTGCATGTGATCATCGGGGACGCCAACCTGAGCCAGGTGTCCAATTACCTGAAATTTGGCGCCACAGCGCTGGTTCTCAGCCTCATCGAAGCAGGCCTTGCACCGAAAGTGGAAGTGCACGAGCCTGTCGCCGCACTGCAGGCCGTCAGCCACGACACGTCCCTGACTGCCAAACTCAGGCTGCTGGACGGGCGCAGGGTGACAGCCCTGGATCTTCAGTGGATGTATCACGAGGCCGCCGCAAAGCTTGCCCAGGACACAGGGGTTGGCGACGCCGTCGACGGGGACGGGCACACCCACGAGGTCCTGGAGCGCTGGGCGTCCACGCTCACGCAGCTGGACTCGGACAGGGCGGCTGCCGCCTCATCGGTGGAGTGGCTGGCAAAGCTTTCCCTTCTGGAGGGTTACCGGGACCGTGACGGGCTCGCCTGGGACGACGCCAGGCTTGGCCTCGTGGATCTGCAGTGGGCGGATATCCGTCCGGAGAAGGGCCTGTATTACAGGTTCCTCGCGCGGAACCGGATGCAACGGATCATCGACGACGCCGACATCGCCACTGCGGTCACCGAACCGCCGTCGGACACCCGTGCCTTTTTCCGCGGCCGCTGCATCAGCAGCTTCGGCAAGGATGTGGTGGGGGCAAGCTGGGACTCGGTCATCTTCGATGTACCGGGATACGGCCGGCTCCAGCGGGTGCCCACCAGGGAACCGCTGCGTGGCACCAAAGCACTCACCGGAGGGCTCTTTGCCCGCCACCGGACGGCCGGTCCTTTCCTGGCAGAGCTGCTGGGACACAAGACTGCTCCGCCTCCGGCGTAA	MTAAPEPVVGGSLPVGGAMRVMGAETEYGIHAPSAPGANATMMSARVVQAYAQVTRQRAAGGAETRWDYTDEEPLHDARGWTLERESAHPSQLTDQPPVLDAEAVALAYGREELELDGQDESGTLLMNMVLGNGARLYVDHAHPEYSSPEVTSPRDAVKWDAAGDLVALAAVRRLAADPELPAVNLYKNNTDNKSVSYGSHENYLMPRSVPFGDIVRGLTPFFVTRQIMCGSGRVGLGQDSSTPGYQISQRADFFEAEVGLETTIRRPIINTRDEPHATADKYRRLHVIIGDANLSQVSNYLKFGATALVLSLIEAGLAPKVEVHEPVAALQAVSHDTSLTAKLRLLDGRRVTALDLQWMYHEAAAKLAQDTGVGDAVDGDGHTHEVLERWASTLTQLDSDRAAAASSVEWLAKLSLLEGYRDRDGLAWDDARLGLVDLQWADIRPEKGLYYRFLARNRMQRIIDDADIATAVTEPPSDTRAFFRGRCISSFGKDVVGASWDSVIFDVPGYGRLQRVPTREPLRGTKALTGGLFARHRTAGPFLAELLGHKTAPPPA				NA	NA	NA	NA	NA
D1-29_02605	204	pup		Prokaryotic ubiquitin-like protein Pup	ATGGCAGGCCAGGAGCAGCAGCAGCCACAATCGCGCGACAGCCAGGTCGAGGAAGACGTGCCGGAGGCCCCTCCCGCGCCCCCTGAAGCCCAGGCATCGGCGTCCACCCAGGGCGTGGATGACCTCCTCGACGAAATCGACGGCGTCCTTGAATCCAACGCTGAAGAGTTTGTCCGCGCGTTCGTCCAAAAGGGCGGTCAGTAA	MAGQEQQQPQSRDSQVEEDVPEAPPAPPEAQASASTQGVDDLLDEIDGVLESNAEEFVRAFVQKGGQ				NA	NA	NA	NA	NA
D1-29_02606	822	prcB	COG0638	Proteasome subunit beta	GTGCAGGAATCAACCGCCAATCAGGTAGCCGCCAGTGCGACGTCGTCATTTACCGAGCATCTGCAGCGGGACCGCCCGGAACTGCTTCCCTACGGCCGTGACCTTCCGGCCGGGGCAAATCCGGGCACACCCCTGCAGGTGCCGCATGCCACCACCATCGTGGCGATGAGCTACGGTGGCGGCGTACTGATGGCTGGTGATCGGCGTGCCACCATGGGCAACGTGATTGCCAGCCGGCACATTGAAAAGGTATTTCCGGCGGACCAGTATTCAGTCCTGGGGATAGCAGGAACAGCAGGCATCGCCATAGACCTGACCCGTCTCTTCCAGGTGGAGCTGGAACACTACGAAAAGATCGAGGGCACGCTGCTCAGCCTGGATGGCAAGGCCAACCGGCTGGGGGCCATGATCCGCAGCAACCTTCCCATGGCCATGCAGGGACTGGCCGTGGTTCCCCTCTTTGCAGGCTTTGACACCACGGCCGGCGTGGGCCGCCTCTTCTCCTACGATGTCACTGGCGGCCGGTACGAGGAACGGGAACACCACACGGTGGGGTCCGGTTCGGTCTTCGCCCGCGGCGCTCTGAAAAAGCTATGGCGGCCCAACCTCACGGAAGCCGAGGCAGTTTCGGTGGCCGTGGAATCGCTTTACGACGCTGCCGACGACGATTCCGCCACCGGCGGCCCCGATCCCGTCCGTCAGCTTTGGCCGATTGTCTACACTGTGAACAGGTCCGGTGCCAGGCGCGTGCCCGAGTCCGAGCTGGCCACGGTGGCAGGAAACATCATCGAAGCCCGTTCCAGCGCACGGCGGGAGGCCTGA	MQESTANQVAASATSSFTEHLQRDRPELLPYGRDLPAGANPGTPLQVPHATTIVAMSYGGGVLMAGDRRATMGNVIASRHIEKVFPADQYSVLGIAGTAGIAIDLTRLFQVELEHYEKIEGTLLSLDGKANRLGAMIRSNLPMAMQGLAVVPLFAGFDTTAGVGRLFSYDVTGGRYEEREHHTVGSGSVFARGALKKLWRPNLTEAEAVSVAVESLYDAADDDSATGGPDPVRQLWPIVYTVNRSGARRVPESELATVAGNIIEARSSARREA				NA	NA	NA	NA	NA
D1-29_02607	708	prcA	COG0638	Proteasome subunit alpha	ATGACGCAGCAGTTTTATGTTTCGCCTGAGCAACTGATGAAGGACCGTGCGGACTTCGCACGGAAAGGCATCGCACGCGGCCGCTCTGTGGTGGTGGTCAGCTGTGAGGACGGCATCGCGCTGGTTGCCGAAAACCCGTCACCGTCGCTGCACAAGATCGGCGAGATCTACGACAAGATCGCGTTTGCCGCGGTGGGCAAGTACAACGAATTTGAAAGCCTTCGCCAGGCAGGTGTGAGGTATGCCGATGTCCGCGGGTACTCGTACGACCGCGAGGATGTCACGGCCCGCGGACTTGCCAGCGTTTACGCGCAAAGCCTTGGTGCCGTGTTCACGGCGGAACAGAAGCCCTTCGAAGTGGAGTTGGCAGTGGCCGAGGTGGGACCCACGCAGGAACGCGACCACCTCTACCGGCTGACTTTCGACGGTTCCATCGCAGATGAGCACGGCTTCATTGTCATGGGCGGCCAGGCTGAGAAGGTGTCATCCGCCATTGCGGCAGGCTGGCGCTCGTCCTTGCGGTTCCCCCATGCGATCCGTCTCGCGATGGAAGGCCTGGTCACTGACACGGAAGCAGGGGAACTGCCAGCCAAAGCCGTGGAAGTTGCCGTGCTGGACCGCGTTTCCGAGAGCTCCCGTGGCTCGCGGCGCGCCTTCCGGCGACTGAATGACGCCGATCTCACGGCGTTGCTTGCTGAGGAGGACTGA	MTQQFYVSPEQLMKDRADFARKGIARGRSVVVVSCEDGIALVAENPSPSLHKIGEIYDKIAFAAVGKYNEFESLRQAGVRYADVRGYSYDREDVTARGLASVYAQSLGAVFTAEQKPFEVELAVAEVGPTQERDHLYRLTFDGSIADEHGFIVMGGQAEKVSSAIAAGWRSSLRFPHAIRLAMEGLVTDTEAGELPAKAVEVAVLDRVSESSRGSRRAFRRLNDADLTALLAEED				NA	NA	NA	NA	NA
D1-29_02608	1365	pafA		Pup--protein ligase	ATGGACAAGAGGATCTTCGGTATTGAAACCGAGTTCGGCATTTCGTACTCGAGCCCGGATTCACGGCCGTTGGCGCCCGAGGAAGTGGCCCGTTACCTTTTCCGCAAGGTGGTCAGCTGGGGGAGGTCATCCAACGTGTTCCTCACCAACGGTTCCCGCCTCTACCTCGACGTCGGATCGCACCCCGAGTATGCCACCGCTGAATGCGATGACCTTGCACAGCTCATCGCCCACGACCGGGCAGGCGAACTCATCCTTGATGACCTCGTGGACGAAGCACAGTCCAGGCTGGCGGCTGAGGGCTTCAACGGCACCGTGTACCTGTTCAAGAACAACACTGATTCGGCCGGCAACTCCTACGGCAGCCATGAAAACTACCTGATCCCGCGGCGGGGCGAGTTCTCCAGGCTGGCCGAAATCCTCATTCCCTTCCTTGTTACCCGGCAGCTCATCGCCGGGGCGGGAAAAATCCTCAAAACGCCGCACGGGGCCACCTACGCCTTTTCGCAGCGGGCCGACCATATCTGGGAGGGTGTCTCGTCCGCCACCACACGGTCCCGTCCCATCATCAACACCAGGGACGAACCACACGCCGATGCCGAGTTCTTCAGGCGGCTCCATGTCATTGTGGGCGATTCGAACATGTCCGAAACGACGGCCCTGCTGAAGGTGGGCACGGTGGACCTGATCCTGCGGATGATTGAGGCCGGCGTGATCATGCGCGACATGCGGATGGAAAACCCCATCCGCAGCATCCGGGAAATTTCCCACGACCTCACTGGCCGTGCCCTGGTCCGGCTGGCGAACGGCCGCCAACTGACGGCGCTGGAGATCCAGCAGGAGTACCTGACCAAGGTCATCGCTTTCGTTCAGGAGAACGGTGCGCACAACCCGCATGTCCCGCTCATCCTTGACCTGTGGGGCAGGACCCTGAGGGCCATTGAAAGCGGCGACACCAGCACCATCGAAACAGAAATCGACTGGGCTATTAAAAAGAAGCTGATGGACAACTACCGGGAACGGCATGGCCTGGGCCTGGACGCACCGCGGATTGCCCAGCTTGACCTCACTTACCATGACATTTCACGCAGCCGCGGACTCTACTATCTGCTCCAGTCCAGAGGCGTGGTGCGTCGCGTGGTGGATGACACCATAGTCAAGGATGCGGTGGACGCCCCGCCCCAGACCACCAGGGCCAAATTACGGGGAGATTTCGTCCGCCGCGCCCAGGAACTGGGCAGGGACTACACGGTGGACTGGGTGCATCTGAAGCTGAATGACCGCGCACACCAGACCATCCTGTGCAAGGATCCATTCCGCAGCGTGGACGACCGTGTGGATGCCCTGCTGGACTCTATGGGCTGA	MDKRIFGIETEFGISYSSPDSRPLAPEEVARYLFRKVVSWGRSSNVFLTNGSRLYLDVGSHPEYATAECDDLAQLIAHDRAGELILDDLVDEAQSRLAAEGFNGTVYLFKNNTDSAGNSYGSHENYLIPRRGEFSRLAEILIPFLVTRQLIAGAGKILKTPHGATYAFSQRADHIWEGVSSATTRSRPIINTRDEPHADAEFFRRLHVIVGDSNMSETTALLKVGTVDLILRMIEAGVIMRDMRMENPIRSIREISHDLTGRALVRLANGRQLTALEIQQEYLTKVIAFVQENGAHNPHVPLILDLWGRTLRAIESGDTSTIETEIDWAIKKKLMDNYRERHGLGLDAPRIAQLDLTYHDISRSRGLYYLLQSRGVVRRVVDDTIVKDAVDAPPQTTRAKLRGDFVRRAQELGRDYTVDWVHLKLNDRAHQTILCKDPFRSVDDRVDALLDSMG				NA	NA	NA	NA	NA
D1-29_02609	933			hypothetical protein	GTGCGCCGACTACTTGCAATTCTTATCCCCGGTCTGCTGTTGCTTACCGCCTGTGGCGGGTCGCCCGCAGCACCGGAACCCACCAGTCAGTCCGCTGGCGATACTGCGAAGTTCGACTCCCTGAAACTGACGGACAACGGGGACAAAAAAGCTCCCGGCGTCGAATTCACCAAGCCACTCGAAGTGACTGAACCCACTGTCAAGGTGGTCGCCGAGGGCAGCGGGGATCCCGTCAAACCGAACCAGGTTGCGAACATCTCAATCCTCGCCCTGAACGGAACCGACGGCTCCACGCTGGAGGACACCTTCGCCGGTGAGCCCGAGCCCCTGGAACTCAACGAGGACCTCAAGACCGGAAGCGCCTTCATTTACAACGCGTTTGTTGGCGCCAAAGTCGGTTCGAGCCTTGCCCTTGCCATTCCCGGCCAGGCTGCTGCCGCCTCCGGCGCCCCGGCCCAGCCCACACAGCTGCTGCTGATCAAGGTGCTCTCCGCCAAGGACGTCCCACCGGCGCTCGAAAAGCCAGAGGGCGATCCCGTCACTCCGCCTGCAGGCCTGCCCACCGTCAAGGAAAATGACCAGGGCGTTCCGGAGATCTCCGTGGATGGCGCTGCGGCGCCCACTGCCCTCGTGGCCCAGGACCTGATCAAGGGCAAGGGCGCCGAAGTCAAGGCAACAGACACCCTCACCGTCAACTACGTGGGCGTGAACCTCGTGGGCGGCACCAAGTTTGATTCAAGCTTCGACCGCGGAGAGCCCGCCAGCTTCCCGCTGACGGGTGTCATCAAGGGCTGGACGCAGGGGCTCGCCGGGAAGACAGTTGGCTCGCGTGTACTCTTGGTTGTCCCCAAAGACCTGGCCTATGGTGACGCCGGGCAGGGCGAAGCCAAGGGCGACCTCGTTTTCGTTGTCGACATCCTCGGCGTTAAGTAG	MRRLLAILIPGLLLLTACGGSPAAPEPTSQSAGDTAKFDSLKLTDNGDKKAPGVEFTKPLEVTEPTVKVVAEGSGDPVKPNQVANISILALNGTDGSTLEDTFAGEPEPLELNEDLKTGSAFIYNAFVGAKVGSSLALAIPGQAAAASGAPAQPTQLLLIKVLSAKDVPPALEKPEGDPVTPPAGLPTVKENDQGVPEISVDGAAAPTALVAQDLIKGKGAEVKATDTLTVNYVGVNLVGGTKFDSSFDRGEPASFPLTGVIKGWTQGLAGKTVGSRVLLVVPKDLAYGDAGQGEAKGDLVFVVDILGVK				NA	NA	NA	NA	NA
D1-29_02610	396	fkbP		FK506-binding protein	ATGTCATTTGGTCAGCGCAATTTCGACCGCCAGAAGCCGGAAATTGACTTCCCGGAAGGCGATGTCCCCACAGAGCTGGTCATCACTGACCTCATCGAGGGTGACGGCGCCGAGGCCAAGGCCGGCGACACCGTCTCCACCCACTATGTGGGCGTTGCCTGGTCCACCGGCGAAGAATTCGACGCATCCTGGGGCCGCGGCGCACCGCTGGACTTCCGCGTAGGCGTCGGCCAGGTCATCCAGGGCTGGGACCAGGGCCTGCTCGGCATGAAAGTGGGCGGACGCCGCCGCCTGGAGATCCCCTCTGAACTCGCCTATGGATCACGCGGTGCCGGCGGAGCCATCGGCCCCAACGAAGCCCTGATCTTTGTGGTCGACCTCGTGGGCGTCCGCTGA	MSFGQRNFDRQKPEIDFPEGDVPTELVITDLIEGDGAEAKAGDTVSTHYVGVAWSTGEEFDASWGRGAPLDFRVGVGQVIQGWDQGLLGMKVGGRRRLEIPSELAYGSRGAGGAIGPNEALIFVVDLVGVR	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
D1-29_02611	2040			hypothetical protein	TTGTTGCCGCGCTTTCTGCTTTCCGGCACGGACTTTAGTAACGTAGCCTGCGTGTCCGCATCCCGTACAGAGCGCCTCCTGAATCTGCTGATCGCACTCCTCAACACCAAATACGGCCTCCGCCGCAGCGAACTGCGCGAAAAGGTCTACCACGACACGTCCGGCAATGACGTGGCCTTCGGCAGGATGTTCGAGCGTGACAAGAACGACCTGCGGCAGTTCGGCTTTGACGTGGAGACGGTTACGGACCTGGGCTGGAGTGAGGACGATCCCGCCACCACGCGCTACCGGATCGGCAAGGAGTCCAACAGGCTGCCGGACGTCCGGCTCAGCCCGGGGGAGTGGACGGTACTTCTGCTGGCCTCGCAGCTCTGGGAACGGGCGGCACTGGGCGCCGCCGCAGAGAACGCGCTGCGGAAGCTGCAGGCTTCCGGCGGCCTGTCTGACGTTGGACTTCCCGTCGGTGTTCAGCCAAGAATCAAACCCGCCGGCAGGGCGTTCGATGATCTCGTCGGAGCCATGCACGCCCAGCACCCTGTCACCTTCAGCTATCTGGCAGGCAGTACAGGCAACGAGGAACACCGGACGGTGGAACCCTGGGGCCTGGGAAGCCGCTTCGGCCAGTGGTACCTTGCCGGCTATGACCGCACGCGCCGGGCTGTGCGGCATTTCCGCCTCTCCCGGATCACCAGTGCCGTCTCGGTACTGGACAAGGAGCGCTATTCGCCGCCGGAGAACTTCAACATCCGGGAAGTGCTGGCAAGACTTCCGGAACTCCCGCTTCGGACCGCCGTCGTGGACGTCAGGGCGGGGCGGCTGGTGGGCTTGCGCCAGCGCGCCGCGGTCTCCGAGGAAGGCGGGGATATGGGAGCTCCCGACGCCGGGTACGACAGGCTTGAGCTTCAGTTCAGGGATGCGGAGGTGCTTGCCGAGGAACTGGCTTCCTACGGCCCGGATGCCCTGGCAGTCTCGCCTGACGAGCTCGTCACGGCCGTCCGGCGAAGGCTGCGTGCCGCCGCTGACTTCTGCGCGTCTCCGGTTCCGGAGTTCAGGTTTTCCGATGCCACAGCGGCCAGGACGGCCCGCAAGCGGACGTCTGAGGATCAGCTCAAACGGATGCTGCAGCTGGTGCCGTTCCTGGTGCACAACCAGGGGCTGCACATCCAGGACGTTGCGCGGCGGTTTGGGGTCACGCGCACTGAACTTGAAGATGACTTGCGGATCCTCATCTGTTCCGGCCTTCCCGAGGGGTATCCGGACGACCTCCTGGACATCCAGTGGGAGGACGACCACGTCTATATCACCCAGGATCTGGATCTCACCAGGCCGGTCCGCTTCACCGTGGAGGAGGCCTGTGCGCTCCTCACTGGTCTGGAGACGCTGAACGGCCTGCCGGAACTCGCTGAGGGCGGAGCGCTGGAATCCGTAACCCTGAAGCTCATGGCAGCAGCAGGTGAAGAGGGACTTCGCGCCGGCTCCCTCGCGGGGCCTGAGGTTGGTCCGGCGGATTCCGCGATTCTCGAACTGATCCATCAGGCGATCGATGACCGAGCCCAGCTGCATCTTGTGTATTTGTCCCCGCAGCGGGACAGGTTTTCAGAACGCGACGTTGACCCGCTCCGTCTTTATTCGCTGGACAACACGTGGTATTTCGAGGCGTACTGCCATTCTGTGCAGGGGTTGCGGAACTTCCGGCTGGACCGGGTCCAGGAGTTGCGGCGAAACGGCAAACAGGCGTCAAGCGACATGGAGCCCGCCGAAGGTTTCCCCGCCAAGCTCTTCACTCCCACCGACGACGACGTCACGGTGACGGTCCAGCTCACCAGGCAGGGCGCCGGGCTGGCTGACGACTACTACGCCGAACGCACGGCAGCCCTTCAGGACGGCGGCCTGGTGGCGGAGATCCGGTTCGGCAACACTGCCTGGCTGCCAATGTTCGTGGCCCAGCATGGGGGTGCGGTGCGCATTCTGGAGCCTGCGGAACTGGCGGAGTCTGCACGCAACTGGGTCAAGGCCTCGTTGGACCGGTACGGCGGCTAG	MLPRFLLSGTDFSNVACVSASRTERLLNLLIALLNTKYGLRRSELREKVYHDTSGNDVAFGRMFERDKNDLRQFGFDVETVTDLGWSEDDPATTRYRIGKESNRLPDVRLSPGEWTVLLLASQLWERAALGAAAENALRKLQASGGLSDVGLPVGVQPRIKPAGRAFDDLVGAMHAQHPVTFSYLAGSTGNEEHRTVEPWGLGSRFGQWYLAGYDRTRRAVRHFRLSRITSAVSVLDKERYSPPENFNIREVLARLPELPLRTAVVDVRAGRLVGLRQRAAVSEEGGDMGAPDAGYDRLELQFRDAEVLAEELASYGPDALAVSPDELVTAVRRRLRAAADFCASPVPEFRFSDATAARTARKRTSEDQLKRMLQLVPFLVHNQGLHIQDVARRFGVTRTELEDDLRILICSGLPEGYPDDLLDIQWEDDHVYITQDLDLTRPVRFTVEEACALLTGLETLNGLPELAEGGALESVTLKLMAAAGEEGLRAGSLAGPEVGPADSAILELIHQAIDDRAQLHLVYLSPQRDRFSERDVDPLRLYSLDNTWYFEAYCHSVQGLRNFRLDRVQELRRNGKQASSDMEPAEGFPAKLFTPTDDDVTVTVQLTRQGAGLADDYYAERTAALQDGGLVAEIRFGNTAWLPMFVAQHGGAVRILEPAELAESARNWVKASLDRYGG				NA	NA	NA	NA	NA
D1-29_02612	351			hypothetical protein	ATGCCTTGGTGGTCCTGGATTCTGCTCTGGATAGCGCTTGTTGCGCTCTCCCTCCTGTTCTATGTCTTTTTGGGCATCCGCCTTTTCCGCCAGTTCATGGCAACGGTCAAGGATCTGGGTGCCGCAGGAGAGAAACTGGCGCGGCTGAATCCGGATCTTGCTCCGCCAGGGGACAGCCCGGCGGACAAGGCGGAGCAGCCCGGTTCAGCCGTTTTTGCCTCACCCGTGCGGATGCGGCATGATTACCACACATCCGCGTCATCACGCCGGGAACAGCGCCGCCAAAGGCGGGTTCAGCGTAGGACCGACCGGGGCCAGCCGCAGCTACTGGGCGATCTCGACTTCACTTAG	MPWWSWILLWIALVALSLLFYVFLGIRLFRQFMATVKDLGAAGEKLARLNPDLAPPGDSPADKAEQPGSAVFASPVRMRHDYHTSASSRREQRRQRRVQRRTDRGQPQLLGDLDFT				NA	NA	NA	NA	NA
D1-29_02613	273	tatA		Sec-independent protein translocase protein TatA	GTGGGAAGACTCTTTGATGGCCCGTGGCCAATCGTAATTATCATCGTCGTGGCCTTGCTGCTCTTTGCCGCGCCCAAGCTTCCGGCCATGGCGCGCAGCCTTGGGCAGTCGATGCGGATCATTAAATCCGAAGTCAAGGAAATGAAGAACGACGGCAAGACCGAGACCACCGATGCATCGGGGCCCGTAGAGGGTAAGGTCGTCAACCATCCGCAGGGCAAACCCGGTGAGCCGACCGACGGTACTGACGCTCCGCCGTCGAACCGCGCTTAA	MGRLFDGPWPIVIIIVVALLLFAAPKLPAMARSLGQSMRIIKSEVKEMKNDGKTETTDASGPVEGKVVNHPQGKPGEPTDGTDAPPSNRA	PGPT0029290_1399	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
D1-29_02614	795	tatC	COG0805	Sec-independent protein translocase protein TatC	ATGGCTCTTTGGGACCACCTCAGGGAGCTGAAGAACCGGCTGATCAAGTCCGCCATCGGCGTTGTCGTCGGCGGCGTGGGCGGCTGGTTCCTCTATGACCCGTTGCTCTCGGCCTTGGCCGAGCCGGTGAACCGCATTTCACAGCAAACCGGTGGGCTCTCCGCCATCAACTTTGGCACGATTGCTTCACCATTCGACTTCAAGTTGCAGATGTCGCTGCTGATCGGCCTGGTTATTTCCAGCCCGATCTGGATCTACCAGTTGTGGGCGTTCATCACCCCGGGCCTGACCTCGAAAGAGCGGCGCTACACCCTGGGTTACATGGCGGCAGCAGTGCCTTTGTTCCTGGCCGGAATCTACGCGGGCTGGCTGGTGGTCCCGCAGGTGGTCCGGGCACTGACGCAGTTCACCCCGACCGGGTCTTCCAGCGTTATCGATGCCCGCACCTACATCGAGTTTGTGACCCGGATGGTTCTGGTCCTGGGTATCGCCTTCCTGGTGCCGGTGGTCCTTGTCGGCATCAACATGGCCGGCGTCATCTCCGGCCAGACCATCCTCAAGGCTTGGCGCATCACAGTATTCCTCGTCTTTGTCCTGGCGGCCATCGCTGCCCCGGGTGCCGACGCAATCTCTATGTTTATGCTTGCTGGTCCGCTGCTGCTGCTCTTCTTTGCCGCCATAGGAATCTGTCTGATGAACGACAAACGGCGCAGCCGGCGGGCAGCCAAGCAGGCTGCCGAGACTGAGGCGAATGCGGATATCGCAACCCCGGGCACTGAGCTGAAGAACCTGTAG	MALWDHLRELKNRLIKSAIGVVVGGVGGWFLYDPLLSALAEPVNRISQQTGGLSAINFGTIASPFDFKLQMSLLIGLVISSPIWIYQLWAFITPGLTSKERRYTLGYMAAAVPLFLAGIYAGWLVVPQVVRALTQFTPTGSSSVIDARTYIEFVTRMVLVLGIAFLVPVVLVGINMAGVISGQTILKAWRITVFLVFVLAAIAAPGADAISMFMLAGPLLLLFFAAIGICLMNDKRRSRRAAKQAAETEANADIATPGTELKNL	PGPT0029295_2263	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
D1-29_02615	2949	helY	COG4581	putative helicase HelY	ATGTCCTCCATTTCCGGGCCGCTCTCTTCGGGGCCATTTTCTACCGGGCCCACCGATCCAGATCCACTGTCGCCCGCAGATAGCTACCGGGCCAGCGCAGAGCGCACGGCCGAGGCAGCCACATACCTTGGCGGCTTCATCCGCACCCTGGACTTTGAGCTTGACGATTTCCAGCGGCAGGCCTGCCTTTCGCTCCAGGCCGGCAAGGGAGTGCTGGTGGCAGCCCCCACCGGAGCCGGCAAGACGATCGTGGGCGAGTTCGCCATCTACCTCGCGCTGGAGCGGAACCTCAAGGCCTTCTACACCACCCCCATCAAGGCGCTGAGCAACCAGAAGTTTACTGAGCTCGCCGAGAAATACGGGCCCGCGAACGTGGGCCTCCTTACGGGTGACACCAGCATCAACGGAGACGCCCCCGTGGTGGTGATGACCACCGAAGTCCTTCGGAACATGCTCTATGCCGATTCCGATACATTGGATGACCTGGGCTTTGTGGTGATGGACGAAGTGCACTACCTCGCGGACCGGTTCCGCGGCGCGGTGTGGGAGGAAGTCATCATCCATCTTCCCAGCGAGGTCCAGGTAGTGTCCCTGAGCGCCACGGTATCCAACGCGGAGGAGTTCGGTGCCTGGCTGGACACCGTTCGCGGGGATACGGACATCATCGTGTCCGAGCACCGGCCGGTGCCCCTCTGGCAGCACGTTATGGTCGGCCGGGAGATTGTGGACCTGTTCGCCGGCGAAACCACGTTTGATGAGATTGCGCCGCCGGCGGAGGCAGGCGATGGAATTGCCGTCGAAGTGATCCGGGATGAACCGGGGCGGCCTGCAGCCCAGCCACGGGGGTTTGAAGTCAACCCCGACTTGCTGGCCATGGCCAGAATAGAGAGCCGGCAGAACTTCAACGGCCGCTTCGGACACGGCGGACGCAGCCAGCGCCGCCAGCACAGGCAGCGGGGCGACGACGGGCCTCCCCAGGCCACGGGTGTGCGGCGGGCCAGCCGCCCACAGGTCATAGCCAGCCTGGACAAGCAGGACCTGCTGCCGGCCATCACTTTCATTTTTTCCAGGGCGGGCTGCGATGCTGCCGTGGCTCAGTGTGTTTCCTCGGGATTGTGGCTGACCACCGAGCGGGAGCAGCGCATTATTGCCCAGCGTGTCGACGAAGCCGGGCAGGACATTCCGTCGGATGATTTGGACGTCCTGGGCTTTTGGACATGGCGCGACGGCCTGCTCCGAGGCTTCGCCGCCCATCATGCCGGCATGCTCCCCACGTTCAAGGAAGTGGTGGAGAAACTGTTTGCCGAAGGGCTGGTGAAGGCTGTTTTCGCCACCGAAACCCTCGCCCTGGGCGTGAACATGCCGGCCCGTTCAGTGGTCCTGGAGAAGCTGGACAAGTTCAACGGCGAAGCCCACGTGGACATCACCGCAGGGGAGTACACCCAGCTCACCGGGCGGGCAGGACGCCGTGGCATCGACGTCGAGGGCCACGCTGTGGTGCTGTGGCAGCCGGGCACCGATCCGGCAGCGGTTGCGGGCCTGGCCTCCCGGCGGACCTACCCCCTGAACTCCAGCTTCCGGCCCACGTACAACATGAGCATCAACCTGCTGGCGCAGTTCGGCCGCGCCCGTGCCAGGGAGATCCTGGAGTCGTCCTTTGCGCAGTTCCAGGCGGACCGTTCGGTGGTAGGCCTGGCCAAACAGGTCCGCAGCCGCGAAGAATCCCTGGCCGGGTATGCGAAGTCCATGACATGCCATCTTGGCGACTTTACGGAGTACGCGCGCTTGCGCCGGGAACTGTCCGACGCCGAGAATGTCACCTCGCGTACCAAGTCACGGGCCCGGAAATCCCTCAGCGACGACTCCCTGGCGCGCCTGCTTCCGGGAGACGTGGTGGACGTGCCCGGCGGCCGCGCCCCGGGTCCGGCCATTGTGCTCAGCTCCGATCACAGCAGCCGGGAGCCGCGGCCAGCTGTGCTTACGCTGGACAACCAGCTGCGCAGGATCGGGACGGATGACCTTGAAGGGCCCATTGCACCCCTGACCCGCATCCGGATTCCAAAATCCTTCAATGCCAAGGTTCCCAAGTCCCGCCGGGACCTTGCGTCTTCCGCCCGGAATGCGCTTCGGGAAAACCGGCCGCCGGCCCCCACCAGCAACCGCAACAACGATTTTGGCCTGGCAACTGCGCTGCCCAACCAGGAAAAGCGCATCGCGGACCTGCGACGGGCGCTTCGGGCCCATCCCTGCCACGGCTGCAGCGAACGCGAAGACCATGCACGGTGGTCCGAACGCTGGTGGAAGCTTCGGCGCGAAACTGATGCGCTGGTCCGCCAGATCCAGGGCCGGACCAACACCATCGCCAAAACGTTCGACCGCGTTTGTGATGTGCTCTCCGCCTATGGCTACCTGGAAGCCGCCGGTGACGGCAGGCTGGCCATCAGCGCTGACGGCCAAAGGCTGCGGCGAATTTACGGTGAAAAAGACCTCCTGATCTCGCAGTCGCTCCGGCTGGGTGCGTTCGATGACCTGGACGCCGTTGAGGTAGCCGCCCTGGCGAGCGTCCTGGTGTACCAAGCCAAACGTGAGGACAGGGGGCTTCGGCCGAGGATGCCCAGCATCTCCCTGGAATCCTCGGTGGACCTGGTGATCCGGGAATGGTCGGCCCTGGAGGACGTGGAAGAACAGAACAAGCTGCCGCTCACCGGGGAACCTGAACTGGGACTCGTGTGGCCGATGTACAAATGGGCCCGCGGGAGGCATCTTCAGGAGGTGCTCAACGGCACCGACCTGGCCGCCGGCGACTTTGTCCGGTGGGTCAAGCAGGTTATTGACCTCCTGGACCAGATTGCCAAGATTCCCGGCCTTGAACCACGCCTGGCACGCCTGTGCGCCGAAGCGATCTCCCTGATCCGGCGTGGAGTGGTGGCCTACTCTTCAGTCCTCTGA	MSSISGPLSSGPFSTGPTDPDPLSPADSYRASAERTAEAATYLGGFIRTLDFELDDFQRQACLSLQAGKGVLVAAPTGAGKTIVGEFAIYLALERNLKAFYTTPIKALSNQKFTELAEKYGPANVGLLTGDTSINGDAPVVVMTTEVLRNMLYADSDTLDDLGFVVMDEVHYLADRFRGAVWEEVIIHLPSEVQVVSLSATVSNAEEFGAWLDTVRGDTDIIVSEHRPVPLWQHVMVGREIVDLFAGETTFDEIAPPAEAGDGIAVEVIRDEPGRPAAQPRGFEVNPDLLAMARIESRQNFNGRFGHGGRSQRRQHRQRGDDGPPQATGVRRASRPQVIASLDKQDLLPAITFIFSRAGCDAAVAQCVSSGLWLTTEREQRIIAQRVDEAGQDIPSDDLDVLGFWTWRDGLLRGFAAHHAGMLPTFKEVVEKLFAEGLVKAVFATETLALGVNMPARSVVLEKLDKFNGEAHVDITAGEYTQLTGRAGRRGIDVEGHAVVLWQPGTDPAAVAGLASRRTYPLNSSFRPTYNMSINLLAQFGRARAREILESSFAQFQADRSVVGLAKQVRSREESLAGYAKSMTCHLGDFTEYARLRRELSDAENVTSRTKSRARKSLSDDSLARLLPGDVVDVPGGRAPGPAIVLSSDHSSREPRPAVLTLDNQLRRIGTDDLEGPIAPLTRIRIPKSFNAKVPKSRRDLASSARNALRENRPPAPTSNRNNDFGLATALPNQEKRIADLRRALRAHPCHGCSEREDHARWSERWWKLRRETDALVRQIQGRTNTIAKTFDRVCDVLSAYGYLEAAGDGRLAISADGQRLRRIYGEKDLLISQSLRLGAFDDLDAVEVAALASVLVYQAKREDRGLRPRMPSISLESSVDLVIREWSALEDVEEQNKLPLTGEPELGLVWPMYKWARGRHLQEVLNGTDLAAGDFVRWVKQVIDLLDQIAKIPGLEPRLARLCAEAISLIRRGVVAYSSVL				NA	NA	NA	NA	NA
D1-29_02616	1659	hutI_2		Imidazolonepropionase	ATGACCAGTACGCCTTCCCCGGAGCCGTCCCGCCGCGAACGCAAGGTTGTCCTCTACCGGAACGGATCCGTGTACACCGCCGCGGATCCCTTCGCCACAGCAATGCTGGTGGACGGTGACACCGTCGCGTGGGTGGGCTCAGAGCAGGCGGCCTCGTCCATCGCGGACGGCTCCATGGAAATCATCGACCTTCACGGAGCCCTCATCACGCCGGGATTTGTCGATTCACATATGCACCTGACCGAAACGGGCATTGCCCTGGGATCCCTCCAGCTCGGGGACGTCCGCTCAGCCGGGCAGCTCCTGCAGGCGGTTGCATCGTCACACGCCAACGGGCCTGTGCTTGGCCATGGCTGGGATGAGTCCACGTGGGCCGATCCTGCCCTGCCCACCGCTGATGAGCTGCAGCGGGCTGCCGGCGGCAGGGACGTCTATCTGTCCAGGGTGGACGTTCATTCTGCCCTTGTCTCTTCATCGCTGGCCGCATCCGCCGGGCTTGCCGGCCTGGATGGCTTTTCGGCAGGCAGCCAGGTCAAGAGGGCAGCCCATACGGCCGCACGCCAGGCCACGCGGCAACTTTCCGCGGAGTCGCTGCGGGCCTATCAAATGCAGGCTTTGAGGGAAGCCGCAGAGAACGGCTACGTCGCCCTGGCGGAGATGGCCGCGCCGCATATCGGAGGGGCGGATGATCTTCGGGTCGCCGCCTCCTGGACCACTGACCAGGAGGAACAGGCTGTTCCGAAAGTTCTCCCGTACTGGGGCGAACTGGCCACCTCGGAAGAACATGCCCGCGGAGTCCTGGACTCACTCGGCGTCCCGGTACGCGGCCTCGCCGGCGACTTGAACATTGACGGATCCATTGGCTCCCGGACTGCGGCGCTTCGGTCTGACTACGCTGACGCGCCCGGTGAGCGGGGCAGGCTGTACCTCTCCGCAGACCAGGCGGCCGCCCACGTCGCGGCCTGTTCGCTGTTGGGGATCCAGGGGGGATTCCACGTCATTGGCGATGCCGGGCTGGATGCGGTGCTGGCAGCATTTGACCTTGCCGCGGCGGAGGTGGGCGAACAGCGCATCCGTGCCGCCGGCCACCGGCTTGAGCACGTGGAAATGGCCGATTCCGACGCCGTCGCGCGGCTGGCGCACTACTCTGTCACGGTCAGCGCCCAGCCGGGATTTGATGGGGCCTGGGGCGCGGCAGGCGGCCTCTACGAACAGCGCCTGGGCGGCCGCAGCCGGACCATGAATTCCTTCGCGTCCTTCTATTCGGCGGGGGTCCCCATTTGCTTCGGCAGCGACAGCCCCGTCACGGCATTGCGGCCGTGGTCCAGTGTCCGTGCCTGCCTGGAGCATCACAACCAGGACGAACGGATTTCGGCGAGGGCTGCGTTCCTGGGCCATACCCGGGCAGGCTGGCGGGCGGCCAAGTACCGTAACCCCATGGCAGGACAACTTGTGCCGGGAGCGCCAGCCTCCTTCGCCGTGTGGGAGGTGGATGAACTGATGGTCCAGGTGGCCGATGGAAGGGTTCAGTCCTGGAGCACCGATCCGCGGGCCCGTACCCCGTTGTTGCCGGCTTTGGACACCGGCCGGGACCCCGTCTGCCTGCAGACTGTGAGGGACGGCCGCGAGCTGTACTCCAGTCCTGCGCTTCGATCCTGA	MTSTPSPEPSRRERKVVLYRNGSVYTAADPFATAMLVDGDTVAWVGSEQAASSIADGSMEIIDLHGALITPGFVDSHMHLTETGIALGSLQLGDVRSAGQLLQAVASSHANGPVLGHGWDESTWADPALPTADELQRAAGGRDVYLSRVDVHSALVSSSLAASAGLAGLDGFSAGSQVKRAAHTAARQATRQLSAESLRAYQMQALREAAENGYVALAEMAAPHIGGADDLRVAASWTTDQEEQAVPKVLPYWGELATSEEHARGVLDSLGVPVRGLAGDLNIDGSIGSRTAALRSDYADAPGERGRLYLSADQAAAHVAACSLLGIQGGFHVIGDAGLDAVLAAFDLAAAEVGEQRIRAAGHRLEHVEMADSDAVARLAHYSVTVSAQPGFDGAWGAAGGLYEQRLGGRSRTMNSFASFYSAGVPICFGSDSPVTALRPWSSVRACLEHHNQDERISARAAFLGHTRAGWRAAKYRNPMAGQLVPGAPASFAVWEVDELMVQVADGRVQSWSTDPRARTPLLPALDTGRDPVCLQTVRDGRELYSSPALRS				NA	NA	NA	NA	NA
D1-29_02617	744			Undecaprenyl-phosphate mannosyltransferase	GTGCGCGTCCTTACCATCATTCCCACCTACAACGAGCTGGAATCCCTGCCCAAAACACTCCAGCGCCTGCGCGCGGCAGTGCCGGAGTCGGATGTGCTTGTGGTGGACGACAACAGCCCGGACGGCACAGGCCAGCTTGCCGACAGCTTCGCTGCCGACGACCCCCAGGTCCACGTCCTGCACCGCAAGGGCAAGGAAGGCCTGGGCGCCGCTTACATTGCCGGTTTCCGCTGGGGCCTGGACGCCGGGTACGACGTCCTGGTGGAAATGGATGCTGACGGGTCCCACCAGCCCGAACAGCTTCCCCAGCTGCTGGAGGCAGTAGAACAGGGTGCGGACCTGGCCATGGGTTCCCGTTGGGTCTCCGGCGGCAAAGTGGTCAACTGGCCGCTGTACCGGCAGGCCATTTCGCGGACCGGCAGCACGTACGCCCGCATTATGCTCGGCCTCAAGATCAAGGACGTAACCGGCGGATACCGGGCCTTCAGGCGGACAACGCTGGAAAAGCTGAACCTGGACCAGATCGACTCGGTTGGTTACGGCTTCCAGGTGGACCTTGCTTGGCGCGTTGCCAAAATGGGGCTCCGGATCGAGGAACGCCCCATCACCTTTGTGGAGCGTGAGCTGGGCGCGTCCAAGATGAGCGGAAACATCGTGGTCGAAGCAATGATCAACGTCACCAAGTGGGGCCTGCAGGCCAGATGGAACAAACTGACCGGACGCGACACGGCGGACCAAAGCTAG	MRVLTIIPTYNELESLPKTLQRLRAAVPESDVLVVDDNSPDGTGQLADSFAADDPQVHVLHRKGKEGLGAAYIAGFRWGLDAGYDVLVEMDADGSHQPEQLPQLLEAVEQGADLAMGSRWVSGGKVVNWPLYRQAISRTGSTYARIMLGLKIKDVTGGYRAFRRTTLEKLNLDQIDSVGYGFQVDLAWRVAKMGLRIEERPITFVERELGASKMSGNIVVEAMINVTKWGLQARWNKLTGRDTADQS	PGPT0017834_2210	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
D1-29_02618	348	rbpA_2		RNA polymerase-binding protein RbpA	ATGAGCGATCGCAGCCTGCGGGGTATGCGCCTTGGTGCACAGAGCATGGAGACCGAGTCCGGCGTGGAGCCGGCCCCGCGTCAGCGTGTCGAATACAGGTGCGAGGACGGCGAGCAGGTCTTCGTTACGTTCTCCTCCGAAGCGGAGATTCCCCCCGTGTGGGTTTCCAAGACCGGCAAGGAAGCACTCCTGGTCGACGGCGAACGGCCGGACACCAGCAACGAAAAAGCTGTCCGCACCCACTGGGACATGCTGCTGGAACGCCGCTCGCTCCCAGAGCTGGAACAGATCCTTGAAGACCGGCTGACCATCCTGCGCGAACGGCGTGGCGAACGGCGCAGCGCCTAG	MSDRSLRGMRLGAQSMETESGVEPAPRQRVEYRCEDGEQVFVTFSSEAEIPPVWVSKTGKEALLVDGERPDTSNEKAVRTHWDMLLERRSLPELEQILEDRLTILRERRGERRSA				NA	NA	NA	NA	NA
D1-29_02619	948		COG0330	putative protein	ATGGATAACGCAGGAGGAGCCGCCGTGGGCATTGTGTTGGTGGTCCTGATCGTATTCGTGATTATTGTTCTGGTCCGCTCGGTGCGAATCATCCCACAGGCGAGGGCAGGCGTCGTCGAGCGCCTTGGCAAGTACCAGCGGACACTCAACCCGGGCCTGACCATCCTGATCCCCTTCGTGGACCGGCTCCTGCCGCTCCTGGACCTGAGGGAACAGGTGGTCTCATTTCCTCCGCAGCCGGTTATCACCGAAGACAACCTGGTGGTGTCGATCGACACGGTGGTCTATTTCCAGGTCACGGATCCGCGTGCCGCCACGTACGAGATTGCCAACTACATCCAGGCCGTGGAGCAACTCACCACCACCACGTTGCGTAACGTCGTGGGCGGCCTGAACCTGGAAGAGGCCTTGACGTCCAGGGACCAGATCAACGGCCAACTGCGCGGAGTGCTCGATGAGGCCACAGGCCGGTGGGGCATCCGTGTTTCACGCGTGGAGCTCAAGGCCATCGATCCGCCGCACTCCATCCAGGACTCGATGGAAAAGCAGATGCGGGCCGAGCGTGACCGCCGGGCAGCCATCCTCACCGCTGAAGGTACCAAGCAGTCCGCCATCCTCACGGCCGAGGGCCAGCGGCAAGCCTCCATTCTGGCAGCAGAGGGTGATGCGAAGGCAGCCATCCTGAGGGCAGACGGTGAAGCCCAGGCCATCCAGAAGGTCTTCGACGCCATCCACAAGGGCAACCCCGACCAGAAGCTGCTTGCCTACCAGTATCTGCAGACGCTGCCCAAATTGGCTGAAGGATCATCCAACAAGCTGTGGATCATCCCCAGTGAAGTCGGCGAGGCCCTCAAGGGCATCGGAAATGCGCTCGGCGGCACCAACCCGGATCTCCAGTCAGGCCGCGGATTGTTCGATGAAGAGCCGGAGAAGCAGCCCCAGCCCTGA	MDNAGGAAVGIVLVVLIVFVIIVLVRSVRIIPQARAGVVERLGKYQRTLNPGLTILIPFVDRLLPLLDLREQVVSFPPQPVITEDNLVVSIDTVVYFQVTDPRAATYEIANYIQAVEQLTTTTLRNVVGGLNLEEALTSRDQINGQLRGVLDEATGRWGIRVSRVELKAIDPPHSIQDSMEKQMRAERDRRAAILTAEGTKQSAILTAEGQRQASILAAEGDAKAAILRADGEAQAIQKVFDAIHKGNPDQKLLAYQYLQTLPKLAEGSSNKLWIIPSEVGEALKGIGNALGGTNPDLQSGRGLFDEEPEKQPQP				NA	NA	NA	NA	NA
D1-29_02620	507			hypothetical protein	GTGGCTGCGTCAGGCTGCAGGATGCCGACAAAGGGGGACGGAATGTTCGAATGGCTGAGCGAGAATTGGTGGGCGCTGTGGCTCACCGTATTTCTTGCCTTCGCAGTGATCGAGATGATCACCCTTGACCTGTTCTTCATCATGCTTGGCGGTGGCACCCTCGCCGCCCTTGTCGCCGATTTCGCGGGCGCGGACCTATGGCTGCAGATCGTCGTCTTCTGCGTCGTTTCGCTGCTCATGATTGCATTTGTCCGGCCTGTAGCGCTCAAACACTTGAAAAAGGGACCCTCCGAGCAGCGCACCAACGTAGACCGGCTCATTGGCGAACAGGCCCTGGTGATGGAAGCGGTGACCTCCACAGGCGGCCTGGTGAAGATCGGCGGCGACGTGTGGAGTGCGCGCTCGGCCACAGGCGTGCTGGCCGCGGGGCAACGGGTGGTGGTGTCCGCCATCGACGGCGCAACGGCCGTCGTTGCCGCCCAGCCGGAGACCGCCAACCCATCCTGA	MAASGCRMPTKGDGMFEWLSENWWALWLTVFLAFAVIEMITLDLFFIMLGGGTLAALVADFAGADLWLQIVVFCVVSLLMIAFVRPVALKHLKKGPSEQRTNVDRLIGEQALVMEAVTSTGGLVKIGGDVWSARSATGVLAAGQRVVVSAIDGATAVVAAQPETANPS				NA	NA	NA	NA	NA
D1-29_02621	900	rlmAII		23S rRNA (guanine(748)-N(1))-methyltransferase	ATGGTGCCTATGCCAATCTCCGCTGACCCTCCGCTGCTGTGCCCTGTATGCCGGGCTCCGCTCAGCGCCACAGGCGACGTCAGGCCTGCCTCCCCCGGCGCAGCCTTGCGCTGCGATGCGGGGCACAGTTTTGATGCGGCGAAACAGGGCTACTTCAATCTGCTGGTCGGGAAGGGCACCGTTTTTGAATCGGATACAGCCGAGATGGTGGCTGCGCGCTTCAATTTCCTCGAAGGCGGCCACTACAGGCCCCTGGCTGAGGCTGTCGCGGCGGCCGCTGCCCCGCATCTGGCCGGCAGCGGCCGCGCCGTAGTCGATTCCGGAACGGGAACCGGCCACTATCTCAGGCAGTTGCTGGACACGGTAGCTCCCGCTGCTGCAACGGGTCTCCACGCCATCGCCCTGGACATTTCAAAATTCGCGCTCCGGAGGGCGGCCCGGCTCAACCCGGAAGCAGTCAACCTTGTCTGCGATGTCTGGCAGCCGCTTCCCGTGGCGGACTCCGCCGTCGACGTCGTCACGGTCATTTTCGCCCCGCGGAACGCGGCTGAATTCGCACGGATTCTCCGGCCGGCCGGCCGGCTGGTAGTGGTCACCCCGCGGGCGGGGCATCTCGCGGCAGTGAGGGCGGAAACGGGAATGCTGGCCATCGAGGCAGGCAAGGACGACAGGCTGGCCGAGGCGATGTCCGGGCATTTTGATGTCGAATCCGCCCATGACCTGGATATTTCCCTGAACCTGACACCAGTCGAAGTTGCCGACCTGGCATTCATGGGGCCTGCGGGACACCATCTGAACCGCGACGGCCTGATCCAGCGGCTCTCCGGCCTTGCCCCGACCACCGCAGTTGAGGCCCGCTTCCGAATCACGGTCCTTGGCCTGGCAGGGCGCCCAGGGTAA	MVPMPISADPPLLCPVCRAPLSATGDVRPASPGAALRCDAGHSFDAAKQGYFNLLVGKGTVFESDTAEMVAARFNFLEGGHYRPLAEAVAAAAAPHLAGSGRAVVDSGTGTGHYLRQLLDTVAPAAATGLHAIALDISKFALRRAARLNPEAVNLVCDVWQPLPVADSAVDVVTVIFAPRNAAEFARILRPAGRLVVVTPRAGHLAAVRAETGMLAIEAGKDDRLAEAMSGHFDVESAHDLDISLNLTPVEVADLAFMGPAGHHLNRDGLIQRLSGLAPTTAVEARFRITVLGLAGRPG	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
D1-29_02622	678	def_2		Peptide deformylase	ATGAGCCCAGCATCACCGCCAACACCGTTCAGCCCGTCACAGATTCAGGAAACAGTGCAGGAGATCCTCGCTGCCGAATCGCTCCCGCAGATCGTCCAGGCCGGGCATCCAGTGCTGCGCCAGCAGGCAGCTGCCTTTGATGGCCAGATCAGCCCGGCAGAACTGGAGCAGCTGATCAGCCTGATGAGTCGCGTGATGCACGAAGCCCCGGGCGTGGGACTGGCGGCGCCGCAGCTGGGAATTCCCTTGCAGCTTGCGGTGCTGGAAGACCAGTTCGACGTCGATCCGGAGGCAGCCGCGCTCCGCCACCGGACACCGCTGGACTTCCTGAGCATCCTGAACCCACGCTTCAGCCCAGTCGGTTCACAGAATGCGGCCTTTTTTGAAGGCTGCCTGTCCCTGAATGGTTTGCAGGCCGTGGTGGTTCGCCCTGAACAGGTACTGCTCAGGTTCGAAACGCCGGACGGACTCTCCACTGAACGGCACTTTGAGGGCTGGCAGGCACGGATCGTCCAGCATGAGACCGATCACCTCCAGGGCATCCTGTACGTTGACCGCGCCGAGCTCAGGTCATTAAGCAGCAATGCCGAATATGCAGCCCATTGGGCCGAAGCGGGTATTGGCAAGGCACGTGCTGCGCTGGGTTTCCTTCCGGAAACCGCTGAGCCGCTCCCCTAA	MSPASPPTPFSPSQIQETVQEILAAESLPQIVQAGHPVLRQQAAAFDGQISPAELEQLISLMSRVMHEAPGVGLAAPQLGIPLQLAVLEDQFDVDPEAAALRHRTPLDFLSILNPRFSPVGSQNAAFFEGCLSLNGLQAVVVRPEQVLLRFETPDGLSTERHFEGWQARIVQHETDHLQGILYVDRAELRSLSSNAEYAAHWAEAGIGKARAALGFLPETAEPLP				NA	NA	NA	NA	NA
D1-29_02623	420			hypothetical protein	ATGGCTGAACTGACCGCACCGGAGACCCTGCCCGTGGACGTCGTACTCGACTTTGTCCGGACCCTGGAGGCCGGAGGGGGCGGGGCGAAGATCCGCCGATTCCTCTCCGACGCGTTTGTGTTGGTGGAGGCGCCGCATTTGCTGGCGCCAAACGGTGCCACCCGCACCCTGGAGCAGGTACTCAGAGGCGCCGACCAGAGCTCACAGGTGGTTGCCAACCAGAAGTTCGACATCCGACGAACCACCAGCGAGGGTGGCCGCGTTGTGCTCGAAGCGGACTGGTCAGCTACGTCCGTCATGGACCTCCGGTATTGGGATTCGGGCGAGACGATCAGGGCCAGGACGTCATCGGTGTTTGAGGTCCGGGATGGACTCATCGTCAGCCAGGACAGCTACGACTGCTATTTCCCCGGTTCCTGA	MAELTAPETLPVDVVLDFVRTLEAGGGGAKIRRFLSDAFVLVEAPHLLAPNGATRTLEQVLRGADQSSQVVANQKFDIRRTTSEGGRVVLEADWSATSVMDLRYWDSGETIRARTSSVFEVRDGLIVSQDSYDCYFPGS				NA	NA	NA	NA	NA
D1-29_02624	1134	otcC		Anhydrotetracycline monooxygenase	ATGGCTGACGTGGTCATCGTGGGTGGCGGCCCGGTGGGGCTTTATCTTGCCGTCCTGCTCCTGCAGGAGGGCGTGGCGGTGCAGGTCATGGAGCAGCGGCTCCACCGGGACCTGCACTCGCGCGCCATCGGCATCCACCCTCCCGCGCTGCAGGCCCTGGAGCGGGCAGGCGTCGCTTCGGAGATGGTCGGCGAGGGCGTGCCCATCCGCCGCGGCTTTGCCATCAGCGGCGGGAAGGCCGTCGGTTCCATGTCCTTTGCACCAGTGTCCGACCGGTTTCCGTTTGTCCTGGCGCTACCCCAGTTCCGGACCGAAGCACTCCTGGAGGAAAGAGTCCGTGAGCTTGATCCGGCGGCCCTGGTCAGGGGGATCCGGGCTACTGGAATAGAGGACGACGGCGGCCGGGTCACCATCAGCGCCGCCGCCGGCACCGCGCCGGTGCAGGTTTCGGCTGCCTTGGCGGTAGCCGCTGACGGCTCCAGGTCAATCGTGCGGACCCTGCTGGGCATCCCCGTCCAGACCCGAAGCTACCCCGACCACTACCTCATGGGCGACTTTGCGGACGCCGGAACCTTCGCCCAGGATGCCGTGCTTTTCCTTGCCGCCGGAGGAATCGTTGAATCCTTCCCGCTGCCCGGTGGCCTCCGCCGCTGGGTGGTCCGGGTCAGCGAGCCGGGTCCAGCCCCCAGCGCGGGGCACCTTGCCTGGCTTGTCCAGCAGCGCACGGGCATCGCGCTTGATCCAGGCACCAACTGCATGCTCAGCAGTTTCAGCGTCCGGTCAACCATCGCCCGCAGGCTGGTGGCAGGGCGGGTTGCGCTCATCGGGGACGCTGCCCACGAAATCAGCCCAATCGGCGGCCAGGGCATGAACCTGGGCTGGCTCGACGCTCAGGAACTGGCGCCGATTATCCTTGCCGCCCTGGGGGGCCAGCCGGTTGGACAGGCCCTCCGGACATTCGAACTGCGCCGCCGGAAGGCCGCCCGCACGGCTCGGCGGCAGTCCGAGGTGAACATGATGCTGGGCCGGCCGCTGCCGGAACCCTGGTTGGACCTGCGGAACGGTGTCATCGGGGCCATCGCCTCCGTCCCGCCGGTTAACAGGCTGGTGGCCAAGCGTTTCACTATGCAGTAA	MADVVIVGGGPVGLYLAVLLLQEGVAVQVMEQRLHRDLHSRAIGIHPPALQALERAGVASEMVGEGVPIRRGFAISGGKAVGSMSFAPVSDRFPFVLALPQFRTEALLEERVRELDPAALVRGIRATGIEDDGGRVTISAAAGTAPVQVSAALAVAADGSRSIVRTLLGIPVQTRSYPDHYLMGDFADAGTFAQDAVLFLAAGGIVESFPLPGGLRRWVVRVSEPGPAPSAGHLAWLVQQRTGIALDPGTNCMLSSFSVRSTIARRLVAGRVALIGDAAHEISPIGGQGMNLGWLDAQELAPIILAALGGQPVGQALRTFELRRRKAARTARRQSEVNMMLGRPLPEPWLDLRNGVIGAIASVPPVNRLVAKRFTMQ				NA	NA	NA	NA	NA
D1-29_02625	702	COQ3_1		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGTTGCTGATGCGGCGGCGGGACTCCGACGCCGTGGAAATCATGGACCTGCCGGACTGCGATCCCCGGGGCTTGGACCGCACCTACCGGCAGTTCGCCATCATCAACCGGACGCTTTCGGGCTGGCGCCGGCTCTACTCCCGTGAGCTGAGGCCACTCCTGTCGGAGGAGTCAGGCACCACTCTCCTGGACATAGGATCAGGCGGCGGAGATCTTGCTCTGACGCTGTCCAGGTGGGCAGAACACGACAAGGTGAAGCTTCATGTCACCGGGATCGATCCCGACGGGCGGGCGTATTCATTCGCCGCTGCCAGGCCGAAGGTTCCGCACGTCGAATTCCGGCAGGCGCACAGCTCCGACCTGCTCGCTGAAGGCTGCACTTACGACGTAGTGATCTCCAACCATGTCCTGCACCACCTGCAGCCGCCTGAACTGCAGCAGCTGCTGCTGGACTCCCAGGCGCTCGCACGCCGCGCGGTGCTGCACAACGACCTGCGGCGGAGCGCGCTTGCCTACGCCCTGTTCTCTGTCGCAGCCCTTCCCTTCCGGGGTTCCTTCATCCGGGCTGATGGCCTGACCTCCATCAGGCGCAGTTACACCCCCGCGGAGCTGACTGACCTCGCTCCCCCGGGCTGGAGTGTGGAGCCGCACGCCCCTTTCCACCAGGTGCTGGTCCGCCATAAGGGCAGCGTTGATGGCTGA	MLLMRRRDSDAVEIMDLPDCDPRGLDRTYRQFAIINRTLSGWRRLYSRELRPLLSEESGTTLLDIGSGGGDLALTLSRWAEHDKVKLHVTGIDPDGRAYSFAAARPKVPHVEFRQAHSSDLLAEGCTYDVVISNHVLHHLQPPELQQLLLDSQALARRAVLHNDLRRSALAYALFSVAALPFRGSFIRADGLTSIRRSYTPAELTDLAPPGWSVEPHAPFHQVLVRHKGSVDG				NA	NA	NA	NA	NA
D1-29_02626	1206		COG3424	Alpha-pyrone synthesis polyketide synthase-like Pks18	ATGACGGTCTATCTGCGTTCATTGGAAACTGCTGTCCCGCCGACGCTGCTGGTCCAGACAGAAGCCAGGGACGTTTTTGCGGCCCAGCCCGGGCTGTCCAGGCTTGGTTCGCGACTGCTAAGCACCTGTTTCGACTCTGCGGCGATCGATACGCGTTACACGGCGGTCGAGGAAATGACGATGGACTTCCGGGCGGACGATCCCCAGTTCTTTGACCCAACCACCGGACTGCTGCTTAACCCCAGCACAAAGGTGCGGAATGAAATCTTTGCCCGCGAGGCCACCAAGCTTTTTATCGACGCTGCGCAGGCGGCCCTGGACGCCTGCCCCGAACTGGATGCGCCGGACGTCACCCACCTCATCACCGTCTCCTGCACAGGCTTCTTCAACCCGGGTCCCGACTACAAAATAGTCCGGGCCCTCGGGCTGGACCCGGCCGTGCAGCGCTACCACCTTGGATTTATGGGCTGCTATGCAGCTTTCCCCGCCCTGCGGGCCGCAAAGTCCTTCTGCGAGGCCGATCCCGAAGCAGTTGTCCTGGTGGTCTGCGCGGAACTCTGTTCCCTGCACGTCCGTACGTCAAACGATCCGGACACCATCATGGGTTCGGCGCTGTTTGCCGACGGCGCGGCAGCCGCAGTCGTTACTGCCCGGGAGTTCCCTGAAGCGCCAGCGCTTTTGCAGCTGGATCACTTTGAAACCGTGCTGACCCCCGTCGGCGAGGAGTCCATGGCGTGGAACATCGGGGACCACGGTTTTGAAATGGTGCTGGGAAACTACGTACCGCACATTATCGATGACCATATTGTCGGCGCGCTCCAACCACTGTTGGCTCATGATCCCACGCTGCTGGGCCTCGCCTACAGCGGCATCCGCCATTGGGCCATCCATCCGGGCGGCCGGAGCATTTTGGACAAGGTCCAGTCAAGGCTGGAACTGACGGACCAGCAGCTTGTTCCTGCCCGTGAGACGCTGCGGAACTACGGAAACATGAGCAGTGCCACGGTCCTGTTTGTCCTGAGGTACATCCTGGAACAGCCGCCGGAGGATGGCGGCGAACGCATCTGTTCCATGGCTTTCGGGCCGGGCCTTACCGTTGAAACGGGCCTCTTCACCAAGCTTCGGCAGGCGCCCGAAGTTCAGCTGCAGGGCTCCCCGGCCAGCGGGCTGGCTCAGGGGCAGGCAGCTGCGGAATCACTGGCCTGA	MTVYLRSLETAVPPTLLVQTEARDVFAAQPGLSRLGSRLLSTCFDSAAIDTRYTAVEEMTMDFRADDPQFFDPTTGLLLNPSTKVRNEIFAREATKLFIDAAQAALDACPELDAPDVTHLITVSCTGFFNPGPDYKIVRALGLDPAVQRYHLGFMGCYAAFPALRAAKSFCEADPEAVVLVVCAELCSLHVRTSNDPDTIMGSALFADGAAAAVVTAREFPEAPALLQLDHFETVLTPVGEESMAWNIGDHGFEMVLGNYVPHIIDDHIVGALQPLLAHDPTLLGLAYSGIRHWAIHPGGRSILDKVQSRLELTDQQLVPARETLRNYGNMSSATVLFVLRYILEQPPEDGGERICSMAFGPGLTVETGLFTKLRQAPEVQLQGSPASGLAQGQAAAESLA				NA	NA	NA	NA	NA
D1-29_02627	450	rhaR_2		HTH-type transcriptional activator RhaR	GTGACCAGCAAACCTGCCACGCCGCCGAACCTGCGCGACCTCGCCCTGCTGCGCCGCGTTCGGGACAGGATGGACCGGGAATACACGAAGCCGCTGGATGTGGAGGCCCTTGCCCGCGGGGTGAACATGTCCGCCGGGCACCTCAGCCGCCAGTTCCGTCTCGCCTACGGCGAGTCGCCTTATGCCTACCTGATGACCCGCCGCATCGAACGCGCCATGGCGCTGCTGCGTATCGGCGAGCTCAGCGTCACCGAAGTCTGCTTCGCCGTCGGGTGCTCGTCGCTGGGGACGTTCAGCACCCGCTTTACGGAGCTGGTGGGTGTGCCGCCCAGCGTCTATCGGCGCGAGAGCGCCCATGCAACCGCGGAAATCCCCTCCTGTGTGGCCAAACAGGTGACCAGACCGGTCAGGAATCGAGAAGCGCGGGCCCCGGAGCCGCAACTAGCATGA	MTSKPATPPNLRDLALLRRVRDRMDREYTKPLDVEALARGVNMSAGHLSRQFRLAYGESPYAYLMTRRIERAMALLRIGELSVTEVCFAVGCSSLGTFSTRFTELVGVPPSVYRRESAHATAEIPSCVAKQVTRPVRNREARAPEPQLA	PGPT0016790_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0016790-mocR-K00375	NA	NA
D1-29_02628	420			hypothetical protein	ATGACTGCCATGGACATCACCATTCACTCAAGCTTCCTTCCGCACAACGATCCCGAGGCCTCGCTGGCCTTCTACCGCGACACCCTTGGCTTTGAGGTCCGCAACGACGTCGGACACGGCACCATGCGATGGATCACGGTGGGCCCGGCCGGCCAGCCCGACACATCCATCGTTCTGCATCCGCCGGCCGTCGATCCCGGCATCACCGACGAGGAGCGCCGCACCATCACCGAGATGATGGCCAAGGGCACCTACGGCATCATCCTGTTGGCCACTCACGACCTCGACGGCGTCTTCTCCAAGGTGCAGGAAAGCGACGCTGAGGTTGTCCAGGAACCGACGTCCCAGCCGTACGGCGTTCGGGACTGCGCCTTCCGTGATCCAGCGGGAAGCCTGATCCGCATCCAGGAGCTGAACTGA	MTAMDITIHSSFLPHNDPEASLAFYRDTLGFEVRNDVGHGTMRWITVGPAGQPDTSIVLHPPAVDPGITDEERRTITEMMAKGTYGIILLATHDLDGVFSKVQESDAEVVQEPTSQPYGVRDCAFRDPAGSLIRIQELN				NA	NA	NA	NA	NA
D1-29_02629	2391	uvrA_2		UvrABC system protein A	ATGAGCACGGCCACGGGGACGGACACGCAATCGCCGGGACTTCACGTTGCAGACAGCCACGATCTGATCCGCGTGCAGGGGGCACGGGAAAACAACCTCAAGGATGTCAGCGTCGAGATCCCGAAGCGCCGGCTGACTGTGTTCACCGGCGTTTCCGGTTCGGGGAAGAGCTCGCTGGTATTTGCCACCATCGCTGCTGAGTCGCAGCGGATGATCAATGAAACCTACAGCGCCTTTGTGCAGGGGTTCATGCCGTCCCTGGCGCGTCCGGACGTGGACATGCTCGAGGGCCTCACGACGGCGATCATCGTCGACCAGGAGCGGATGGGCGCAAACCCCCGTTCCACCGTGGGAACTGCCACTGACGCGCACGCCATGCTCCGGATCCTGTTCAGCCGGCTCGGCAACCCGTACGTCGGGCCGCCCACAGCGTTCTCCTTTAACGTCCCGACGCGGAAGGCAAGCGGGGTGATGAGCACCGAGAAGAGTGGCCGGGTGGAGAAGAGCGTCGTCCAAAACGTCGTTTACCTTGGCGGCATGTGTCCGCGCTGCGAGGGCATGGGCTCGGTGTCCGACTTTGACCTCTCTGCGCTGTACGACGAGAGCAAGTCGCTCGCCGAGGGGGCGCTGACGGTGCCCGGCTACAGCATGGACGGCTGGTATGGCCGCATCTTCAGCGGGGCAGGCTTCAATATGGACAAGCCGATCGCAAAGTTCACCAAGAAGGAGATGCACGATCTCCTCTACAAGGAGCCAACGAAGATCAAGGTGGAGGGCATCAACCTCACCTACGAGGGGCTGATCCCGAAGATCCAGAAATCGATGCTTTCGAAGGACGTCGAGGCAATGCAGCCCCACATCCGGGCCTTCGTGGAACGCGCGATCACGTTTCAGACCTGCCCCGAATGCGACGGGACCCGGCTGAGCCCGGAGGCCCGCTCCTCGAAGATCCAGGGCAAGAACATCGCGGACCTGTGCGAGATGCAGATCAGCGACCTGGCTGGCTGGGTCCGCGAGCTGAAAGAGCCGTCGGTGGCGCCGCTGCTGAAAGGGCTGCGGCACCTGCTCGACTCGTTCGCCGAAATCGGGCTCGGCTACCTTTCACTTGACCGGCCGGCGGGCACGCTGTCCGGGGGAGAGGCCCAGCGGACCAAGATGATCCGGCACCTCGGGTCCTCCCTCACTGACGTCACCTATGTGTTCGACGAGCCCACCATCGGTCTGCATCCCCACGACATCGAGCGGATGAACCAGCTGCTGCTGCAGTTGCGCGATAAGGGCAACACCGTGCTCGTCGTAGAGCACAAGCCGGAAACAATCGCCATCGGTGATCACGTCGTCGACCTCGGTCCCGGGGCGGGCAGCGCCGGCGGTGAGGTGGTCTTCGAGGGCAGCGTCGAGGAACTCCGGCGCAGTGACACCATCACCGGGCGGCATCTTGACGACCGGGCTGCCCTCAAAAAGGCGGTGCGCACACCGAAGGGCGCGCTGGAGGTCCGCGGTGCGGGCACGCACAACCTGCAGAACGTGGACGTTGATGTGCCGCTGGGTGTGCTCTGCGTGGTGACCGGTGTTGCCGGCTCCGGGAAGAGCTCGCTGATCCACGGGTCGGTTGCCGGGCGCGAGGGCGTGGTGGTGGTGGACCAGGGCGCCATCAAGGGCTCACGCCGCAGCAACCCCGCGACCTATACCGGCCTGCTGGAACCGATCCGCAAGGCTTTCGCAAAAGCCAACGGCGTGAAGCCGGCTCTTTTCAGTTCCAACTCCGAGGGCGCCTGCCCCAACTGCAACGGCGCGGGGGTCATCTTCACGGAACTGGGGGTTATGGCTACTGTCGAGTCGACATGTGAGGTCTGCGAGGGCCGGCGGTTCCAGGCATCGGTCCTGGAATACACGATGGCCGGGCGGAACATCGCCGAGGTGCTGGCAATGTCCATGACCGAGGCGGAAAAGTTCTTCGGCGAAGGGGATGCCCGTACCCCCGCCGCCCATAAGATCCTGGACCGTATCGTGGATGTTGGGCTCGGGTATCTCACTCTCGGCCAGCCGCTGACCACGTTGTCCGGGGGAGAGCGGCAGCGTGTCAAGCTTGCCACCCAGATGGCTGAGAAGGGCGACGTCTACGTCCTCGATGAACCGACCACCGGGCTTCACCTTGCCGACGTCGAGAACCTGCTGGGCCTGCTCGACCGCCTGGTCGATTCCGGAAAGTCCGTCATTGTCATTGAGCATCACCAGGCCGTGATGGCGCACGCCGACTGGATTATCGACCTCGGCCCGGGAGCAGGCCACGACGGCGGCCGGATCGTTTTCGAGGGGACGCCAACGGATCTTGTGGCTAGCCGGCCAACACTCACCGGCGAGCACCTGGCGGCCTACGTCAGGAGTTGA	MSTATGTDTQSPGLHVADSHDLIRVQGARENNLKDVSVEIPKRRLTVFTGVSGSGKSSLVFATIAAESQRMINETYSAFVQGFMPSLARPDVDMLEGLTTAIIVDQERMGANPRSTVGTATDAHAMLRILFSRLGNPYVGPPTAFSFNVPTRKASGVMSTEKSGRVEKSVVQNVVYLGGMCPRCEGMGSVSDFDLSALYDESKSLAEGALTVPGYSMDGWYGRIFSGAGFNMDKPIAKFTKKEMHDLLYKEPTKIKVEGINLTYEGLIPKIQKSMLSKDVEAMQPHIRAFVERAITFQTCPECDGTRLSPEARSSKIQGKNIADLCEMQISDLAGWVRELKEPSVAPLLKGLRHLLDSFAEIGLGYLSLDRPAGTLSGGEAQRTKMIRHLGSSLTDVTYVFDEPTIGLHPHDIERMNQLLLQLRDKGNTVLVVEHKPETIAIGDHVVDLGPGAGSAGGEVVFEGSVEELRRSDTITGRHLDDRAALKKAVRTPKGALEVRGAGTHNLQNVDVDVPLGVLCVVTGVAGSGKSSLIHGSVAGREGVVVVDQGAIKGSRRSNPATYTGLLEPIRKAFAKANGVKPALFSSNSEGACPNCNGAGVIFTELGVMATVESTCEVCEGRRFQASVLEYTMAGRNIAEVLAMSMTEAEKFFGEGDARTPAAHKILDRIVDVGLGYLTLGQPLTTLSGGERQRVKLATQMAEKGDVYVLDEPTTGLHLADVENLLGLLDRLVDSGKSVIVIEHHQAVMAHADWIIDLGPGAGHDGGRIVFEGTPTDLVASRPTLTGEHLAAYVRS				NA	NA	NA	NA	NA
D1-29_02630	1518		COG3940	Extracellular exo-alpha-(1->5)-L-arabinofuranosidase	ATGACGGCCCCATTTACCTCCACCGAAAGGATTGCCCCCATGAATGAGATCACTGACAGAATGCGCTTCGAGGCACTCATCGGCCGGCGGACCCTGCTATTGGGCGCCGCGGGTGCCGCTGCCCTCACCGCTGTCGGCCTCGCCGGCGGCCCGCTGGGTGTATCCACCGCGCAGGCGGCGGCGCTGACACTCACCAATCCGCTTGTTCAGCAGCGGGCGGATCCACACATCGCCCGTGGGTCAGACGGTACCTATTACCTCACCGCTTCCGTTCCAGCCTATGACCGGGTGGTACTCCGGGCATCCCAGACCCTGGCCGGGCTCGCTACCGCCGCAGAAAAGACAATCTGGCTGCGCCCGGCATCCGGAACCACAGGCGGCCACATTTGGGCACCCGAAATGCACCTGGTGGATGGGGTCTGGCACATCTACTTCGCGGCAGGTGACGCTGGAGACGTCTTCCATGTACGGCCCTACGTCCTGCGCGCCAACGGTCCCGATCCAATGACGGCGACGTGGAGCGTGCTGGGACGGATCACGACAGCTTGGGACACTTTCGCGCTCGATGCCACTACTTTTGTCCACAGCGGCACGCGTTATCTGGTGTGGGCCCAGGCGGAACCAGGCATCGACACCAACAGCAATCTCTACATCTCGGCCATGTCCGGGCCAGCCACCCTGACAGGACCGCAGGTCCGTATTGCTGTCCCAACCGCTGGCTGGGAGACCATCAAGTACAAGGTCAACGAGGGACCCTCCGTGATCCAGCGGAACGGCCGCGTGTTTATCTCGTTCTCGGCCAGCGCCACGGATGCGAGCTACTGCTTGGGGCTGCTCACCGCCTCGACAGGAGCGAATCTGCTTGACGCAGCATCATGGACGAAATCAAATGGTCCGGTTTTCCGCACCAATGACACCACTGGCCAGTACGGCCCGGGCCACAACTGCTTCACCACGGCGGAGGACGGCAGCGACGTGCTGATCTACCACGCCCGCCCCTACCGGGACGTCCGTGATCCCTTGACCGATCCGAACCGGCACGCACGTGCCCAGCCGCTGTACTGGCGCACGGACGGAACTCCCGATTTCGGGATCCCGGTACCGGACGGCGTACCGCCCATCCGCCTCAAGCCAGCGAACTTCCCCACACGCTACGTGCGGCACCAGGACTTTGCGGCCAGGATTGATGTGGATGTCACCCCGCTGGAAGATTCGCAGATACGTCTTGTTGCCGGGCCTGCCGGCAACGGGTCCGTGGCAATGGAATCGATCAACTGGCCCGGGTGGTTCCTGACCGAGTCCTCCGGCACGGTTGCCCTTGCACGGAACGACGGCACCACGGGGTTCGCGGCGCGGGCGTCGTTCCAGCGGCGGACGGGGCTCTCGGGCGCCGGAACGGTCTCCTTCGAATCGGTGGCGAAACCCGGGGCGTGGCTTCGCCACCGCAATTACGTGCTGTACGTGGAACCTGTGGCCGGCACGCTTGGCGCGGCCGACGCGTCCTTCACAGTCGTCTAG	MTAPFTSTERIAPMNEITDRMRFEALIGRRTLLLGAAGAAALTAVGLAGGPLGVSTAQAAALTLTNPLVQQRADPHIARGSDGTYYLTASVPAYDRVVLRASQTLAGLATAAEKTIWLRPASGTTGGHIWAPEMHLVDGVWHIYFAAGDAGDVFHVRPYVLRANGPDPMTATWSVLGRITTAWDTFALDATTFVHSGTRYLVWAQAEPGIDTNSNLYISAMSGPATLTGPQVRIAVPTAGWETIKYKVNEGPSVIQRNGRVFISFSASATDASYCLGLLTASTGANLLDAASWTKSNGPVFRTNDTTGQYGPGHNCFTTAEDGSDVLIYHARPYRDVRDPLTDPNRHARAQPLYWRTDGTPDFGIPVPDGVPPIRLKPANFPTRYVRHQDFAARIDVDVTPLEDSQIRLVAGPAGNGSVAMESINWPGWFLTESSGTVALARNDGTTGFAARASFQRRTGLSGAGTVSFESVAKPGAWLRHRNYVLYVEPVAGTLGAADASFTVV	PGPT0019091_418	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
D1-29_02631	1890			hypothetical protein	ATGTTACGAGCCCGCCATCTTGCGCTATACGCGCTGGCGCTGGTGCTGCTGACCATTTCCGGTGTCCTCACAGTCCCGCCGCAGCAAGCGTCCGCCATCGGTGAAGCGCAATTCAGCAATCCGATCGTCGCTGACGGCGCAGACCCCACCATCGAGTTTTATCAAGGCAATTACTACATGGTGGCCACTACGTGGGACAACCACGTTGTGATGCGCAAGGCGCCCACTCTTGAAGGTCTCAAGACAGCCAAGCTCGTCACGGTGTACTCAGACAATACTCCGGGCCGCGACAACACTATGTGGGCCCCTGAACTCAAGCTCCTGAATGGGCCCAGCGGCCCGCGTTGGTACCTCATGTACACCATGGGCAGCAACGGGCTCCAGCAGATGCAGGTCATTGAAAGTGCTTCTACTGACCCGATGGGCCCTTACACGTACAAGGGCCGGCCCATCCCAACCAAAGAGTGGAACATTGACGGCTCCTACATGGAGCTAAACGGCGAGTTGTTCGTCACGTGGTCAATGTTCGCTCCTGACGGCTTGCAGAGCAACTACATTGCACGGATGTCAACGCCCTGGTCCACCACCGGTCCGCTGAACATCCTGTCCCAGCCCACCGCTGCCTGGGAGCGGACAGGCATGCCCGTGAACGAGGGCCCGGTCCCTCTGCAGAAAGACGGAAAAACCTGGGTTGTCTTCTCCGCAAGCTCATGCGCAACCGAGGACTACTCCTTGGGTACCTTGCGCTACACCGGCGGCGATCCCGTGCTCTCCGCATCCTGGAACAAGAGCTCAGGACCTGTGTTCTCCAAGGCAAACGGCGTCTTCGGGCCGGGCCACAACGACTTCTTCACCTCACCGGACGGCACACAGACCTGGAACCTGTACCACGGCAACGCCCGTGCTGACGGCGGATGTGGCCGCGAGCGTTCCGCCCGCGCCCAGCAGCTGACGTGGGATGCGGCCGGGGAACCAGTTTTCGGCCAGCCTGTGGCCACAGGAACCGCCCTGAGCGTGCCCTCCGGCGAACGCGGGCCCATCACGGCTGCCGTCGAAGGCGCTTCATTCGAGGTGGTCAACCGCAATAGCGGGCTCTGCTTGGGCGTGGCCGGCGGATCTACGGCAGACGGCGGAAACGTGGTCCAGGAGACGTGCGGCCCCGCTGGCGGAGCCACCACCTGGACCCTCGATTCCACTGCTGACGGGTACTACCGGTTGGTGAATGCTGCCACCAGGAAGGTGCTTGACTCCGCGAATTGCGGCACCACAGACGGAACTGATGCGCGGCAGTGGTCCTGGCTCGCCAACGCGTGCCAACAATGGCTGCCTACCGCAACGGCAGACGGATTCCTGACCCTCGGCAACCGCGCCAACGGCAAGGTGCTCGATGTTTCAAATTGCAGCACTGTGGCCGGCGGGGACGTCCGGCAGTGGCGTTCACTCGGCAACGCCTGCCAGCAGTGGTCCATTCGGCCCATAGGCCAGCGCGCTGTCCTCAGTGCGCACAGCGGAAAGTCCTTCGACATTCCCTTCTGTGCCACAACCACCGGGGCGGTCCTACAGCAGTGGCAGTACCTTGGCTCCAACTGCCAGACATATACGTTTTCAGCGGCCGCCGCCGGGGCAGTCCAAATCCGTCCCGGGTCCGCCCCCACCCTTTGCCTTGGCATCCGCGATGGATCCCCGGCAGATGGCGCCGCCGTCATCCAAGGGCCGTGCGACCAGACCGCGTCCTGGCGGTTGGTCCCCCTCGCAGATGGCACCACCCGCATTGTCTCGGCGCTCACCGGCAAGTCGCTCGACCTGGACGGCTGTCAAACCGCTGACGGTGCCAAGCTCCGCCAGTACAGCACCCTCCAGAACGACTGCCAGAAATTCCGGATCTCCTGA	MLRARHLALYALALVLLTISGVLTVPPQQASAIGEAQFSNPIVADGADPTIEFYQGNYYMVATTWDNHVVMRKAPTLEGLKTAKLVTVYSDNTPGRDNTMWAPELKLLNGPSGPRWYLMYTMGSNGLQQMQVIESASTDPMGPYTYKGRPIPTKEWNIDGSYMELNGELFVTWSMFAPDGLQSNYIARMSTPWSTTGPLNILSQPTAAWERTGMPVNEGPVPLQKDGKTWVVFSASSCATEDYSLGTLRYTGGDPVLSASWNKSSGPVFSKANGVFGPGHNDFFTSPDGTQTWNLYHGNARADGGCGRERSARAQQLTWDAAGEPVFGQPVATGTALSVPSGERGPITAAVEGASFEVVNRNSGLCLGVAGGSTADGGNVVQETCGPAGGATTWTLDSTADGYYRLVNAATRKVLDSANCGTTDGTDARQWSWLANACQQWLPTATADGFLTLGNRANGKVLDVSNCSTVAGGDVRQWRSLGNACQQWSIRPIGQRAVLSAHSGKSFDIPFCATTTGAVLQQWQYLGSNCQTYTFSAAAAGAVQIRPGSAPTLCLGIRDGSPADGAAVIQGPCDQTASWRLVPLADGTTRIVSALTGKSLDLDGCQTADGAKLRQYSTLQNDCQKFRIS	PGPT0019091_269	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
D1-29_02632	1272			hypothetical protein	ATGGGCTATTTCACCGAATCGCCACAGGGTCTGGGCAATGATTACGGCCTGCACCTGGCGGTCAGTTCTGACGGCCTGGAGTGGCAGCCCCTTAATCAGAACGCTGCGGTGGTCTATCCAACTGACGGCACCCGCGGTTTGCGGGATCCGTTCATTTTCCGCAAGCAGGACGGTACCTTCGTTGTGCTCGCTACCGACCTGAACGGACTTGATTTCACCCAACAGAACCAGTTCGTCCACATCTGGGATTCTGTCGACCTCCGCAGCTTCACGGGATACCGCCGTGTGAGGATGCACAGCCTCCCCACGCATTCCTGGGCCCCCGAAGCGTTTTGGGATCCAGCTCGCGGACAGTACGGCCTGGTCTACTCGGCACACGACGGAACACAGGACGTGATTCTCGTCAACTACACGTCGGATTTTCGCACGTTCTCCTCCCAACAGAAGTGGTTCGACGGCGGCGTCCCGGTCATCGATGCCACCTTGCACATGGACGGCTCCACGCCTTACCTCTACTACAAGCGGGACAACAAGCTCTACGGGGCGAAAGGAAATCTCGCTCCGCGCGGTTTTGAAGGCGGGACCTACACGCGAGGCTATGCAGGCCCCGGACTCACCGAAGCCCCTATCATCATTCGCTCGGCCACAAGCCGGACCTGGTACCTCTGGGGCGACGTGTACACACCGGTCAACGGAACGTTCATGGTGTGGTCGTCCCCAGACATCGCACAGGACCTGTGGACACCTCTCTCCCGCCGGCTGTACACGCAGCCGATCAATTCCAAGCACGCCACCATCCAGCCCATCTCGGCCGCCGAATACACCAGCCTCGTCGCCGCGTGGGGCCTTCCGCGTTGGAACCGCATAAAGTCGTACAACTTCCCTGACCGGTTCATCCGCCATCGTGATTCACTGGCACGCATCGACGCGTACCCTCTGGACCCGTTCACCGACTCCCAGTTTGTCCTCACTCCGGGGCTGGCCGACAGTTCCGCCGTATCCTTCCGCTCCGCCACTGACGCCGCCCTTTTTCTTCGCCACTCCGGATTTGGGCTGGTCCTGGCCCGCAACGACGGATCGTCACTGTTCGCCCGCGACGCCACCTTCACCAGACGTGCAGGGCTGGCAGATCCATCCTGGACCACGTTCGGATCTCTCAACTTTCCGGATCGTGTCATCCGGCACCGGAACTTCCAGCTGTACGTGGAGCCGGTTTCGGCGTCGTCATCCGTTGCAGAGCGCGAAGACGCTACTTTCCGCATAACTTCCTGA	MGYFTESPQGLGNDYGLHLAVSSDGLEWQPLNQNAAVVYPTDGTRGLRDPFIFRKQDGTFVVLATDLNGLDFTQQNQFVHIWDSVDLRSFTGYRRVRMHSLPTHSWAPEAFWDPARGQYGLVYSAHDGTQDVILVNYTSDFRTFSSQQKWFDGGVPVIDATLHMDGSTPYLYYKRDNKLYGAKGNLAPRGFEGGTYTRGYAGPGLTEAPIIIRSATSRTWYLWGDVYTPVNGTFMVWSSPDIAQDLWTPLSRRLYTQPINSKHATIQPISAAEYTSLVAAWGLPRWNRIKSYNFPDRFIRHRDSLARIDAYPLDPFTDSQFVLTPGLADSSAVSFRSATDAALFLRHSGFGLVLARNDGSSLFARDATFTRRAGLADPSWTTFGSLNFPDRVIRHRNFQLYVEPVSASSSVAEREDATFRITS	PGPT0019091_459	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
D1-29_02633	645			hypothetical protein	GTGGAGACGCCGAATCCGTTATGGGACGGGAGTTCTCGCACGTACTTCTACTCCCGTTGTTTTAACGCCGATAATCTACATTATGTAAAGTTGCAATGGTTGGTCGCATCAATATTCGCCCCAATCCCTCGGAGCCATCGGGATGGCTCACCCTCACCCCTCAGGCCACCACGGAGGGGTCATCGCGGGTATAGTCCGACCATGAACACACGGTGGTCAGGACCGGTCATTGTTGGATCAATATTGTCGTTGGTCGCATCGCTTGCTGCGTGTTCGGCCCCGTCTCCGAAACCTTCCCCGGGCTCGTCTTCGGCCCCCTACTTGCGCATCGTTACAGTCCCTGCACCGCAGAACAGCGCTATGGATGCGGCCTTTACGGGCACTTTAACAGTCGATGGCGACGGCTGTGTTCAGGCTCATTCAGGTGATGAATCTTCCGTCTACACTCTTGCCTGGCCGCAAGGCTATACAGTTCAAGGCGATTTGAAGGCGTTTGAAATCTTCGACGCGAACAAGAACGTCGTAGCCCGTTCAGGATCACCCTTTACGGTTGGCGGCGGACTTATCGACTCGCCACGTGAGAGTTGGACTGAACGAGACTGCTCCAAGGGCCACCTTTGGCTGGTTGCACCGCCCGATTTCTAG	METPNPLWDGSSRTYFYSRCFNADNLHYVKLQWLVASIFAPIPRSHRDGSPSPLRPPRRGHRGYSPTMNTRWSGPVIVGSILSLVASLAACSAPSPKPSPGSSSAPYLRIVTVPAPQNSAMDAAFTGTLTVDGDGCVQAHSGDESSVYTLAWPQGYTVQGDLKAFEIFDANKNVVARSGSPFTVGGGLIDSPRESWTERDCSKGHLWLVAPPDF				NA	NA	NA	NA	NA
D1-29_02634	135			hypothetical protein	ATGCCCTTTGCTCCGCAACGGACCGAACAGCGAATCCCTGCGGCGGGGATGCCGGTAGGGGAGACGGCAGTGACAGGCTCGTGGCCCTCTGCGGAGAACGAGTGCACCATCAACTACCGGTTTCTGAACCAGTAA	MPFAPQRTEQRIPAAGMPVGETAVTGSWPSAENECTINYRFLNQ				NA	NA	NA	NA	NA
D1-29_02635	660			hypothetical protein	ATGGATGATTCTCAAACAGTGACAACACAAACCTCGACGGTTGAGGAGTGGACGCGTGCGTTGGCGGAGTCCTCCGGTTCACCAGGCGGTGGGGCCGGGGCGGGAGTGATGCTAGCGGTAGCCGCGTCGTTGACGTCCATGGTTGCCGGGTACACGGAAGCTAAAGAGGAGCAGCGCAAGGAACTCGCGGATATTCATACGCGGGCGCACTCACTTCGAGAAGCCGCTCTGCGGTTGGCGGATGAGGACGCGTCGGCATCCCAGGCCTTTGGGGCCGCGTTTCGGCTGGATCCCGGGGCCGAACGCGAGGATGCAATACATCGGGCATCCGTGGACGCCGCCAAGGCATCCGCTGTACTTGGAGAGCGGGCAATGGATGCGATAGGAGATTTGGGGTGGCTTGCTTCCAACGGTAACCCGGCGCTTATTGCCGATGCTGTTGTCGCCTTCGGGGCCCTCAGGGCAGCGATAACAGGGGCGCGCACCAATGTGAGTTTCGATCTCGCGGCGCTCACGTCGGCGGGTTGCACACTCGAACAGGTTCGGGAACAGCACCCTGGCCTCTGGGCGACGGTTGAGCGGCTTAACGCCGCCCTTGAACGGATTGACGGATTGACTGCCAGTATCAATAACCGCGCCGCCCCAACCGACGCCGCCTGA	MDDSQTVTTQTSTVEEWTRALAESSGSPGGGAGAGVMLAVAASLTSMVAGYTEAKEEQRKELADIHTRAHSLREAALRLADEDASASQAFGAAFRLDPGAEREDAIHRASVDAAKASAVLGERAMDAIGDLGWLASNGNPALIADAVVAFGALRAAITGARTNVSFDLAALTSAGCTLEQVREQHPGLWATVERLNAALERIDGLTASINNRAAPTDAA				NA	NA	NA	NA	NA
D1-29_02636	1110	araR_1	COG1609	Arabinose metabolism transcriptional repressor	TTGGCACGGAGCGTGACGGAGAGACGGCAGGCCATTCTCGAGATCGTCCAGAAGGAAGGCTCACAAGTCGTTCTGGAACTGGCCCAACGGCTAAAAATCTCAGCTGTGACGATCCGCCGGGACCTGGAGGAACTCGCTGCGCAGGGCCTGGTCCACCGGACCCATGGTTCAGTTGCCCCCGCTGCCGAACCGGCATCGACGGCATTGGACGGGCCAAAAACCATCGGTCTGGTAGTACCGCACAGCAACTACTACTTCGACGGGGTCATCGCCGGCGCCAAAGCCGCTGCAGCATCAGCAGGAGCAAGGCTGGTCCTTGGCGTCTCCGACTACGACAAGGCCACAGAAATGCACCAGGTCGCCCGACTCACGAACAAAGGCGTCGACGGGCTGCTCATTGCCCCCACCCCCGATTTCATCACCGGCGAACTCGACGCCGAGCAGCAGCAATGGCTAGTGTCCCTCTCCGTTCCAGTCGTCCTGGTCGAACGCCCGGTCGCTTCCACGGGTGTAGCGTCAATCCTGGACTCCGTCAGCTCCTCCCACTCTGCAGGAGCTGCCCTCGCAATCCGGCATCTTGCCGAACTGGGCCACCGCAAACTCGTCAGTGTCATGATCTCTGGCCCCAATACCCCGCAAGTACGGCAGGGATACCTATCCGCTGTGGAGTCGCTGGGCCTGGAATCCCTGGGAGTCATCGATGAAGGCGGGGCAGGTTCCGAGGACGCAGCCGAAGTCCTCCTGCAGTCCGTCCGCGACGGCGCCACGGGTATCTTCGTCCACAACGACCAGCTGGCTGTGCGCTGCATGATGTGGCTGGAAGACGCAGGCATCGACGTCCCCGGAGAGGTTTCCCTTGCCGGCTACGACGACGTCATCGCCGGCGTAGCCCACGTACCACTGACCGCCGTAGCGCCCTGGAAAAGCGTGGTCGGTCATCGGGCGGTCCAGCGGCTTCTCAGCCGCATCGCGGAAAGAGAACCAGCAGGAAATTTCGGCCGCCCAACCGAACACATGGCCACTGAACACCTCGAGTTTGTCCCGCGGCTGCATATACGTCAATCAACAACCGAGCCCTCATTTGAGACCAGCATCGCAAGCCGTGGATAG	MARSVTERRQAILEIVQKEGSQVVLELAQRLKISAVTIRRDLEELAAQGLVHRTHGSVAPAAEPASTALDGPKTIGLVVPHSNYYFDGVIAGAKAAAASAGARLVLGVSDYDKATEMHQVARLTNKGVDGLLIAPTPDFITGELDAEQQQWLVSLSVPVVLVERPVASTGVASILDSVSSSHSAGAALAIRHLAELGHRKLVSVMISGPNTPQVRQGYLSAVESLGLESLGVIDEGGAGSEDAAEVLLQSVRDGATGIFVHNDQLAVRCMMWLEDAGIDVPGEVSLAGYDDVIAGVAHVPLTAVAPWKSVVGHRAVQRLLSRIAEREPAGNFGRPTEHMATEHLEFVPRLHIRQSTTEPSFETSIASRG				NA	NA	NA	NA	NA
D1-29_02637	432			hypothetical protein	ATGCACCACCTGCAGACCATGGACATCGACGACATCCAAATCTCCCCTTCGACTGTCACTGCCGGTCTAACAACGGCCACCACGGAGGCCGGCGACATCGGCCTGAACTGGACCGTTGCTGCCCCCGCAAAGACACCGGTAAGCTTTGCCATCCATCCAGGACCAGCCGGATCACCACTCACGGTCGACGCATCCACCCTGATCCGGACCGCCCTGGCCAGCCTCCTGCAGGCCACGGACGTGGAATGGCAACCTTCCAACGAGTACAAGCACGTTGTGGTCGCACGGTATGGCTCGGGCGCAGAAGTGGCCTGCACCAACGAAAGCAGGATCCTCTCCCCCGCCGCTGACACCATGACCACTGCAGTACGCATGGAAGAACATCAAGGCAAGGGTCGACGGCGGCATGGCCACCTTCGGCTCGTCGGCTGA	MHHLQTMDIDDIQISPSTVTAGLTTATTEAGDIGLNWTVAAPAKTPVSFAIHPGPAGSPLTVDASTLIRTALASLLQATDVEWQPSNEYKHVVVARYGSGAEVACTNESRILSPAADTMTTAVRMEEHQGKGRRRHGHLRLVG				NA	NA	NA	NA	NA
D1-29_02638	1314			hypothetical protein	ATGCCACGCAGTCGCAAACCAAGCATCGTCATCGCAGCGGGAATGCTCTCAGCAGCACTCCTCGCCGGCTGTTCGGGAACAGGAGCAGGAACAACCGCACCGCCTGCACCCACCCAGCAAGAGACGGTGGATATCACTTTCTCGTCATGGTTGAAGGGTTCAAAGCAGGTGGTTGACGCATTCAACGCCGCCCAGGACGAAGTCAACGTTACCTTCAACGAAGTAGCCAGTTCGAAGGACAACTACCCGCAGCTGACGAACCAGGTCAAGGCAGGAAACGCGCCGGACGTCATCACGGTGGAATATCCCCGGGTCGCGGAAATGGCCAGCCAGGGAGTTCTGAAGGACATCAGCAACGAAGCCGGTGACCTCGTCAAGGAGAATTTCTCCGAGTCCATCCAGTCCCTGGTCAACTTCGGCGGGTCCACCTGGTCGGTTCCGCTGGACGCAGGCGTCCTGCAGATGTATTACCGCGCAGACCTCTTCGAGCAGTACGGCATCACCGTGCCAAAGACCTGGGACGAGTACAAGGCCGCCGCCGAGAAGGTCGCGGCGGCCGATGGGAACGTCCGCATTGGGGCCAGCGCGGTGGGCGATCCCGCCATGTATGCCGCCCTCGCCTGGCAGAACGGCGCCAAGTGGGGAGGGCTCGACGGCGACTCGTGGAAGGTGGACATCGACACCGAGGAAACCAAGGAAGCGCTGAGGGTCCAGCAGGACCTTGTTGACGCCAAACTACTCTGGACCGAGGACGCCCCGGTGCTGCAGCAGAAGCAGGCAGCCGGCCAGCTCCTCTCCGTCATCAGCGGATCATGGTATGGCGCCGGGCTACAGTCCACTTATGCCGATCAAGCCGGCAAGTGGCGCGTCGCCCCGGTGCCGGCGCCGTCGTCAAAACCGGCCTCTGCGCTCTACGGCGGCTCAACCTTCGGCATCTCGGAGAACAGCACCAAGGCCGAAGCGGGCGTGAAGTTCATCAAGTGGATGACCACCAACCCTGAAGGCATCAAAGCACGCATCGCCGGCGGCACCTCCACAGTCTTCCCAGTGAACGAGGAAGCCCGCATGGCCGCCTCCGGTGCCTTCACGCCTGACTTCTTCGGCGGGCAGAACATCTACGACGTCGCCGCAGAGGGCCTGGCAGCAGTACCCGAAGGCTGGGTATGGGGACCGGGCACGGCCACCACGCTGGCCAAGCTCACCGACGAAAGCGCAAAGGTCAAGGCCGGTACCGCCAAGCTCACCGACATCTTTGCGCCGACCCAGGAAGCCACGGTTTCCGAGTTGAAGAACCGCGGAATCTCCGTCAAGTAA	MPRSRKPSIVIAAGMLSAALLAGCSGTGAGTTAPPAPTQQETVDITFSSWLKGSKQVVDAFNAAQDEVNVTFNEVASSKDNYPQLTNQVKAGNAPDVITVEYPRVAEMASQGVLKDISNEAGDLVKENFSESIQSLVNFGGSTWSVPLDAGVLQMYYRADLFEQYGITVPKTWDEYKAAAEKVAAADGNVRIGASAVGDPAMYAALAWQNGAKWGGLDGDSWKVDIDTEETKEALRVQQDLVDAKLLWTEDAPVLQQKQAAGQLLSVISGSWYGAGLQSTYADQAGKWRVAPVPAPSSKPASALYGGSTFGISENSTKAEAGVKFIKWMTTNPEGIKARIAGGTSTVFPVNEEARMAASGAFTPDFFGGQNIYDVAAEGLAAVPEGWVWGPGTATTLAKLTDESAKVKAGTAKLTDIFAPTQEATVSELKNRGISVK	PGPT0016545_6602	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
D1-29_02639	927			hypothetical protein	ATGACAGGCGCCACCACAACGGCCCGCTCCACCGTCATACGCCGTTCACGCCGCCGGTCAGGCAGACACGCTTTCCTGTTCCTGGCGCCGTTTTTCGTGCTGTTCCTGGCGTTCACCATCGCCCCCATTGGATACTCCGGGTTCCTGAGCCTCTTCACGGAAAAGTCCAGCGGACTGGGCCTGGGCGGGACAGCACGGGTTTTCAACGGCCTGGCCAACTACGTCCGCGCCTTCCAGGACCAGGCGTTCCTTGCAGGCTTCTTGAACATCGCCGTTTACTGCCTCTTCTACATCCCGGTCATGATCGGCCTGTCCCTGGTGGTGGCGCTTCTGCTGGACTCTGCAGCCGCACGGGCAAAGTCCTTTTTCCGCCTGGCGTTCTACATGCCGAACATCGTCCCCGGCCTGATTGCCGCGGTCATCTGGGTCTACCTCTACACTCCCGGCGTGAGCCCACTGGTGGACGTCTACGAAAGCACCGGCGCCGGTTGGGACATGGGCAGCCACCTGGCCGCCCTGCTCTCCTTGTCCAACATCACCATCTGGCTGCACACCGGCTATAACGTCATCCTCTTCTACGCCGCCCTGCAGGCCGTTCCGCAGGAGGTCCTGGAGGCCGCCACCGTTGACGGCGCAGGACCCATCCGCACCGCCTACGCCATCAAGGCCCGCATGATCATGGGCGCCGTGAGCGTCGCGACCCTGTTCACCGTCGTCGGCGCCATGCAGCTTTTCGCCGAACCGCTGCTCCTGAAGAGCCGCGCAACGTCCATCGACAGCAATTGGACCCCGAACATGTTCATTTACCAAACGGCTTTCGACAAACACGACTTCGGCTATGCGGCAGCAACAGCACTGCTCTTCGCCGTCTTCATCGGAGCCTTCTCCTGGGGCGTCACCAAATTCGGATCAAAGGTGGAATCATGA	MTGATTTARSTVIRRSRRRSGRHAFLFLAPFFVLFLAFTIAPIGYSGFLSLFTEKSSGLGLGGTARVFNGLANYVRAFQDQAFLAGFLNIAVYCLFYIPVMIGLSLVVALLLDSAAARAKSFFRLAFYMPNIVPGLIAAVIWVYLYTPGVSPLVDVYESTGAGWDMGSHLAALLSLSNITIWLHTGYNVILFYAALQAVPQEVLEAATVDGAGPIRTAYAIKARMIMGAVSVATLFTVVGAMQLFAEPLLLKSRATSIDSNWTPNMFIYQTAFDKHDFGYAAATALLFAVFIGAFSWGVTKFGSKVES	PGPT0016535_9141	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
D1-29_02640	924	araQ_12	COG0395	L-arabinose transport system permease protein AraQ	ATGAGCCCGCTGACCACACAACCTGCAGTAAGCGGACCCCCCATCCCCACTCCCCTGCCCCCAGCAGCCCCAAAACGGCGCCAGGCCAAGAGCGCCTGGTCCTCAAAGTTCGCAGTGAACATCGTGCTGGGCCTGTTCTGCCTCTACACACTGTTGCCGCTGACCTGGCTCATTGTCGCCTCGACGAAGAACACCTCAGACCTCTACGGCACAGCCGGATTCTCCTTCGCCGAGTTCAACCTCATCGAAAACCTCATCCAGCTGTTCACTTGGGAAAACGGAACGTTCCTGCGCTGGATGGCCAACACCGCCGCCTACGCCGGCCTCGGTGCCTGTGCCTCCGTGGCCGTATCCTTCCTTGCCGGCCACGCCTTCGACAAGTTCGACTTTCCCGGGAAGGAACGCTGGTTCGGCTTCGTCCTGGTCGGTGTCCTCGTACCCGCAGCAGTTACCACCATGCCGCTCTACCTGCTCGCCTCCAACCTCGGCCTGGTCAACAACTTTTGGGGCGTCTTCCTGCCCCAGGTCGCCAGTCCCTTCGGCGTCTACCTGGCCCGCATGTTCAGCGCCAGTTATGTGCCGAAGGAAATCATCGAGGCCGCCCGCCTGGACGGCGCCGGTGAATTCCGGGCCTTCCTGACCATTGCTGCGCCCCTCATGAAGCCCGGAATCGTCACCCTGTTCCTCATGACTTTCAGCGCCATCTGGAACAACTTCTTCCTCCCGCTGGTCATGCTTAGCGACACGAATCTGTTCCCGGCAGCGCTGGGCATCTACTCCTGGCACGGCAGGACGCTTGCCGACCCCGAGTACGCCCAGCTCGTCGTTGCCGGTTCTCTCGTCACCATCATCCCGGTCATCATCCTCTTCATGTCCCTGCAGAGGTTCTGGAAGGCCGGCATCGGGTCAGGAGCCCTGAAATAG	MSPLTTQPAVSGPPIPTPLPPAAPKRRQAKSAWSSKFAVNIVLGLFCLYTLLPLTWLIVASTKNTSDLYGTAGFSFAEFNLIENLIQLFTWENGTFLRWMANTAAYAGLGACASVAVSFLAGHAFDKFDFPGKERWFGFVLVGVLVPAAVTTMPLYLLASNLGLVNNFWGVFLPQVASPFGVYLARMFSASYVPKEIIEAARLDGAGEFRAFLTIAAPLMKPGIVTLFLMTFSAIWNNFFLPLVMLSDTNLFPAALGIYSWHGRTLADPEYAQLVVAGSLVTIIPVIILFMSLQRFWKAGIGSGALK	PGPT0016540_1337	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
D1-29_02641	963			Formate dehydrogenase, mitochondrial	ATGGAAAACGACCTTCCGGAAAGACTCTTCGCGCCGGCGGTGTTCCAGGACCTCAAAACCCTTGTGGATCTCCAACCGGCATTGCTCACCAAAGCCAACGCGGAGGATTACCCCCTGCAGGACATCGAACTCATCATTGGATGCTGGGGCTGCCCCCAGCTCGGTGAGGAGATCCTGTACCGGATGCCGCGACTCAAAGCCGTCATCTACACAGCCGGTTCGGTCAAGGAATTCGCCACGGACGAACTGTTCAAGCGCGGGATCGCCGTCACCTCGGGTGCGGTTACCAACGCCCTGCCGGTGGCCGAATACACGCTGGCGATGATCCTCCTCTCCGGCAAGCGTGTCCTGGAACTGGCCCGCGGCTACATGCACACCCGCAAATACCGTCCCTTTGAGGTTGAGCCCGTGCGCTGGGGCAACCACGGCCTCAAGGTCGGCATCGTCGGCGCTTCCCGCATCGGCCGGAGGGTCATTGACCTTCTCGCGCCCTTTGACATCGACGTCGTCTTCTACGACCCCTTCGTGCAGCACGGCATCCTCGACGCCCGCCCTGCCAGCTTGGAACACTTGCTGGAAACCTGCGACGTCGTCAGCCTCCACGCCCCGGAAGTCCCCGAAACCTTCCACATAATCGACAAAGACGCGCTATCCCTGATGCGGGACGGCGCCACGCTGATCAACACTGCCCGGGGATCACTGGTGGACACCGCGGCACTGACAGCGGAACTCGAGTCCGGGCGCCTGCACGCCGTCATCGACGTCACGGACCCGGACCCGCTGCCGGCGGAATCGCCCCTTTTCGATGCCCCAAACCTCGTGCTCACCCCGCACATCGCCGGCTCCCAAGGCAATGAACTCTACCGGCTCGGGGAAGCCGCATACCGGGAAGTCACACGGTTCGTCACCGGCAAGCCGCTCCTGAACCAGGTCAAAGCGGAAGTCCTCTCCCACACCGCCTAG	MENDLPERLFAPAVFQDLKTLVDLQPALLTKANAEDYPLQDIELIIGCWGCPQLGEEILYRMPRLKAVIYTAGSVKEFATDELFKRGIAVTSGAVTNALPVAEYTLAMILLSGKRVLELARGYMHTRKYRPFEVEPVRWGNHGLKVGIVGASRIGRRVIDLLAPFDIDVVFYDPFVQHGILDARPASLEHLLETCDVVSLHAPEVPETFHIIDKDALSLMRDGATLINTARGSLVDTAALTAELESGRLHAVIDVTDPDPLPAESPLFDAPNLVLTPHIAGSQGNELYRLGEAAYREVTRFVTGKPLLNQVKAEVLSHTA				NA	NA	NA	NA	NA
D1-29_02642	1797	bga_1		Beta-galactosidase	TTGCCCGACCCCATCCTGAGCTACCAGAACTCCCAACTCTTCCGGTCCAACCAACCCCACCGTATCCTCGCCGGAGCCATCCACTATTTCCGCGTCCATCCCGATCAGTGGCGGGACCGGCTCCTCAAGCTCCGGGCGATGGGGGCCAACACCGTTGACACCTACGTCGCGTGGAACTTCCACCAGCGCCGGCAGGAAGACGAACCCGATTTCAGCGGCTGGCGTGACCTGGGGGCCTTTATCGATACCGCAGCCGGCATCGGCCTGGATGTCATCGTCCGTCCCGGGCCCTTCATTTGTGCCGAATGGGACAACGGCGGGCTCCCGGCCTGGCTGACCGGGCAGCCAGGAATCGGCGTCCGGTCCATGGACCCGGTGTTCACGGCCGCCGTCGAAACGTGGTTCGACCAACTCTTGCCCGTCATCGTGCCGAGGCAGGCCGCCCATGGCGGTCCCGTCGTCGCCGTTCAGATCGAGAACGAATACGGCAGCTACGGCGACGATAAGGAATACCTGCAATGGAACAGGCAGGCGCTTGGGCAGCGCGGCATCACCGAACTGCTGTTTACTGCCGACGGCGGGACGGACTACTTCCTGGACGGCGGCGCCCTGGACGGCACCTGGGCGGCCGCCACCCTGGGCAGCCGCGGCGACGAAGCGATAGAGACCTGGCAACGCCGCCGCCCCGGGGAACCCTTCTTCAACGTGGAATTCTGGGGAGGCTGGTTCGACCATTGGGGCGAAGAGAACCATCACGTCCGCGACATCACCGAAACCTGCACCGAAGTGCGGAAGATTCTGGACCTCGACGGCTCAATCTGCCTCTACATGGCGCACGGCGGCACCAACTTTGGCCTGTTTTCCGGCGCGAACCATGACGGCAGCAAACTGCAGCCAACCACCACCAGCTACGACTCGGACGCCCCCATCGCCGAGAACGGTTCCCTCACGGAGAAATTCCACGCGCTGCGGGCCGAATTCTTCCGCGCCCAGGGCATCACCGATCCTCCCCCGCTCCCGCCCGCACTCCTGGAACCGGCACCGGTACTTCCGGCGCAGTCCCTGCCCGTCGCCGCGGGCAAACCCCTTCTCCCGCTCCTGCGCGAAGCCGCCCGTCCCGTCAGCAGCGTCCTTCCCCTGACCTTTGAACAGCTGGGGCTGGACTCCGGAATGGTTCTGTACTCCTCCCACCCCGTCCTCCCGGGAAGGCCGGACGAACCAACGGAAACCCCGCTACGGATCCTGGGCCTCGCAGACCGCGCCTACATCTGGGTGGACGGCAGCTTCGCCGGAATCCTCGATGACCACAACGCCGCCGACGGGCTCATTCTCACAGGGACAGGAACCCCGGTGCAGTTGGAAATCCTGGTCGAGAACAGGGGCAGGATCAACTACGGGCCACTGATCGGCCAAGGCAAGGGAATCCTGCACGGGGTACTCGTCAATCAACGGCGCACCTTCAACTGGAACCAAACGCCCATTCCGCTGGCCGGGTGGGCAGCAGAGGAACTCGAACCCCTCCTCTCGGCAACCCTCGATATCGACGCACCTGCAGATACCTACCTCGCATTCCCTGGCTTCGGGCAAGGCTTTGTCTGGGTCAACGGATTCCTCCTGGGCCGCTACCAGGAGGCCGGGCCGCAGGTCACCCTCTACGTCCCCGCACCCCTCCTGCACGCAGGAACCAACCACATCCACATCCTGGACCTGGTCAAGCACGGCACGCAGGTTGAGCTTCGTCCCGAGCCTGAACTGGGTACCCCCAGTACGGGGAAAATCCTCGCCGCGGAACTGTAG	MPDPILSYQNSQLFRSNQPHRILAGAIHYFRVHPDQWRDRLLKLRAMGANTVDTYVAWNFHQRRQEDEPDFSGWRDLGAFIDTAAGIGLDVIVRPGPFICAEWDNGGLPAWLTGQPGIGVRSMDPVFTAAVETWFDQLLPVIVPRQAAHGGPVVAVQIENEYGSYGDDKEYLQWNRQALGQRGITELLFTADGGTDYFLDGGALDGTWAAATLGSRGDEAIETWQRRRPGEPFFNVEFWGGWFDHWGEENHHVRDITETCTEVRKILDLDGSICLYMAHGGTNFGLFSGANHDGSKLQPTTTSYDSDAPIAENGSLTEKFHALRAEFFRAQGITDPPPLPPALLEPAPVLPAQSLPVAAGKPLLPLLREAARPVSSVLPLTFEQLGLDSGMVLYSSHPVLPGRPDEPTETPLRILGLADRAYIWVDGSFAGILDDHNAADGLILTGTGTPVQLEILVENRGRINYGPLIGQGKGILHGVLVNQRRTFNWNQTPIPLAGWAAEELEPLLSATLDIDAPADTYLAFPGFGQGFVWVNGFLLGRYQEAGPQVTLYVPAPLLHAGTNHIHILDLVKHGTQVELRPEPELGTPSTGKILAAEL	PGPT0017815_2173	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
D1-29_02643	1062	glkA_3		Glucokinase	ATGAGCACAGCAACAACACCATGGAACAGCCATGCGCCTTCACGGCAGGTGGCCCTTGCCCTGGACATCGGCGGAACCACGCTCAAGGGCGCGGCCGTCGATACCACCGGCCGCACCCTCATCACGCAAACCATCCCCACGGGCCGCCCTGGTAAAGGTGTCATGCACCGGGCACTGGCGATCCTCAAGGCACTGAAGGCCGAATCACTCCAACGGGGGCTGCATCCCGTTGGCATCGGCGTCGGGACTCCTGGACTGGTGAACTCCGGCACCGGCATGGTCGAATATGCCTCATCCCTGGGCTGGACCACCATGCCCGTCGCGGAGGTGCTCTCCGCGGAATTCGGTCTTCCCGTTCTCATCAGCCACGACGCGCGCGCCGCCGGGCTGGCAGAAGCCCGCCTCCTGCCACAGGCTCCAGGCCAAGATTCTGTCTTTGTCGCCATCGGCACCGGAGTCGGGGCAGCAGTCATCACCGACGGCACCGTCGTCAAAGGAGCGACCCACTCCGCCGGAGAACTAGGCCATATCCCCGTCATCCCCGGCGGCGAAACATGCACCTGCAGCCAGCGCGGCTGCCTCGAAGCCTACTTTTCCGGCGCGGGCCTCGTCCGCAGATACCGCGGCCGTGGAGGAGATCCTGGCATGACCACGGCAGATATCGCCTCCGGCCGGGCGGGCGAGACCGGTGCAAGCATCTGGGACGAAGGAATTAAGGCTCTTGCCCTGGCGCTGGCCACCGTCACCCTGCTCACCGACCCCAAAACGATCATCATCGGCGGCGGACTGTCCGAAGCCGGGGACACACTCCTGCACCCACTCGGGCAGAACATGGTATCGCTCCTGGGCTGGCGCCGCCCGCCGGAACTGCGGCGCTCACTGCTGGGACCACGCGCGGGACAAATCGGGGCCGCCATCCTTGGCTTCCGGGCGGCTGGTTCCCCGAACGCAGGCACCAGCTGGCGCCCTGAAGACGTCACCGCCGAAGCACCACGGCCGCTGGAAGAGCGCACAAGCCCGCCGCTGACACACAACCTCAGGAACCACCAAGGACACCCATGA	MSTATTPWNSHAPSRQVALALDIGGTTLKGAAVDTTGRTLITQTIPTGRPGKGVMHRALAILKALKAESLQRGLHPVGIGVGTPGLVNSGTGMVEYASSLGWTTMPVAEVLSAEFGLPVLISHDARAAGLAEARLLPQAPGQDSVFVAIGTGVGAAVITDGTVVKGATHSAGELGHIPVIPGGETCTCSQRGCLEAYFSGAGLVRRYRGRGGDPGMTTADIASGRAGETGASIWDEGIKALALALATVTLLTDPKTIIIGGGLSEAGDTLLHPLGQNMVSLLGWRRPPELRRSLLGPRAGQIGAAILGFRAAGSPNAGTSWRPEDVTAEAPRPLEERTSPPLTHNLRNHQGHP				NA	NA	NA	NA	NA
D1-29_02644	771	nagB_1	COG0363	Glucosamine-6-phosphate deaminase	ATGAAAATCGCCATCGTTAAGACCACCGCCGACATCGGCGCCTACGCCGCAGACATCATCGAGAACCGCATCAGCAGCGGCCGCCTCAAAGTCCTCGGCGTCGCGACCGGATCCTCTCCGCTGCCCGTCTATCAGGAACTGGCCGCCCGGCGCCCGGAAGGCCTGTCGGCTTTGTCCGCCTTCGCACTGGACGAGTACGTGGGCCTCAGCCCCAGCCACCCCGAGAGCTACCACGCAGTCATCGACCGCGAAGTGACAAAGCCCCTCGGACTGGACCCGGAACGAGTCCACATGCCGGATGGGACTGCCACCGACCTGGAAGGGGCCTGCGCCGGCTATGAGGAACTCATCACTGCCTCCGGCGGAATCGACCTCCAACTACTGGGAATCGGTTCCACCGGCCACATCGGCTTCAACGAGCCAACCTCATCCCTGAGCTCACGCACCAGGATAAAAACCCTCACCCCTCAGACGCGCAAAGACAATGCCCGATTCTTCACCAGTCCGGACGAAGTCCCAACGCACTGCCTCACCCAAGGCCTCGGCACCATTATGGACGCGAAGGAAGTCGTACTGATCGCCCAGGGCCGCTCGAAGGCAAAGGCCATCGCCGGCCTCATTGAAGGCCCAGTCAGCGCCATGTGTCCCGGCTCGGTGCTGCAAATGCACCCCCAGGCCACGGTAATCCTGGATGAAGAGGCCTCCGCAGAACTTCAAGGCGCCGCCTACTACAAATACGTGGCAGAGAACCTGCCCCTCTGGCAGGGGTAA	MKIAIVKTTADIGAYAADIIENRISSGRLKVLGVATGSSPLPVYQELAARRPEGLSALSAFALDEYVGLSPSHPESYHAVIDREVTKPLGLDPERVHMPDGTATDLEGACAGYEELITASGGIDLQLLGIGSTGHIGFNEPTSSLSSRTRIKTLTPQTRKDNARFFTSPDEVPTHCLTQGLGTIMDAKEVVLIAQGRSKAKAIAGLIEGPVSAMCPGSVLQMHPQATVILDEEASAELQGAAYYKYVAENLPLWQG	PGPT0018865_1743	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
D1-29_02645	1137	agaA	COG1820	N-acetylgalactosamine-6-phosphate deacetylase	GTGCACAGCGCGCGCCTCCTCGACGGCAACGGCACGGTAGAAAACGGATGGGTGGCAATCCAAGACCGCACGATTATCGCTACCGGCTCGGAAACCGGATGGCACACCTATGCCGCCCCGGACGTCGTCGACGGCAGCGGCGGGATCCTCGTACCCGGATTCATCGACCTGCACTGTCACGGAGCAGGCGGAGCAGCTTTTGACGCCGAACCCGAAGACATCCTGACGGCACTGGCGGTCCACAGGGCACACGGCACCACCCGCTCCGTTCTCAGCCTTGTCAGCGCCCCTCTCGATGAGCTCTGCCGCAGCCTGAACACCATTGCAGACCTGGCTGACACCAACCCCCTGATCCTCGGATCACACCTCGAAGGACCCTTCCTCGCCACCGCCCGGTGCGGTGCCCACAACCCGGATCACCTGATACATCCCACCCCCGCAGCGGTAGACCGGCTCCTCGACGCAGCCCGTGGGACCCTCCGCCAAATCACCATCGCCCCGGAACTGCCCGGAGCCCTTGACGCGATCGAAGAATTCGTCGCCGCAGGAGTCAGCGTGGCAGTAGGCCACACCGACGCGGACATGGCACTCACCAAAAAGGCCTTCGCCCGTGGCGCTACCCTGCTCACCCACGCCTTCAACGCGATGGCCGGAATCCATCACCGTGCACCCGGCCCTGTCGTAGCCGCATTCGGCGACCCGGCCGCATCCCTGGAAATCATTCTGGACGGCGTCCACCTAGACCCCGCCGTAGCAAAAATGGCCTTCGACGCGGCCCCGGGCCGAATCGCCCTGGTCACCGACGCCATGGCCGCAACAGGGGCGAAAGACGGGCACTACCGCCTGGGCAGCGCAGACGTCACCGTCGAGGCAGGGCGCGCCGTCCTGGCAGGAACCGGCACAATCGCCGGATCCACACTCACCCAGGACACCGCATTCAGGAATGCGGTCACCCTGCTCAAGCTCCCACTCACAGCAGCTGTGCAGGCATTGACGGCCACACCCGCCCACCTGGTTGGCCGCGAAGACCTCGGAAGCCTCAGTGTTGGGAAAGCAGCTGACTTTGTCCTGCTCGATCAGGGATACAACATACTCGTTGTATGGGCGGACGGGGAGAATCAAACACGCTCCACCTGA	MHSARLLDGNGTVENGWVAIQDRTIIATGSETGWHTYAAPDVVDGSGGILVPGFIDLHCHGAGGAAFDAEPEDILTALAVHRAHGTTRSVLSLVSAPLDELCRSLNTIADLADTNPLILGSHLEGPFLATARCGAHNPDHLIHPTPAAVDRLLDAARGTLRQITIAPELPGALDAIEEFVAAGVSVAVGHTDADMALTKKAFARGATLLTHAFNAMAGIHHRAPGPVVAAFGDPAASLEIILDGVHLDPAVAKMAFDAAPGRIALVTDAMAATGAKDGHYRLGSADVTVEAGRAVLAGTGTIAGSTLTQDTAFRNAVTLLKLPLTAAVQALTATPAHLVGREDLGSLSVGKAADFVLLDQGYNILVVWADGENQTRST	PGPT0018860_995	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
D1-29_02646	792			hypothetical protein	ATGCAACCTCCACGGGCGGTGTTTGCGGCATTCGGGGCTTCGGGGCCGCCGGAGCGGTTGGCCGGGGGCCGGGGACTCACCTGGCGGGCAGGGCACGTCGTGGTTCGCCCCACGGAGGATACCGAAGAGGCTGCCTGGAAGTCAGAGGTGCTGGCAGAGCTTGACGGTGCCGAATTGTTTACTGTTCCGCGCCCCATCCGCGACGATCGAGGCAAGTGGGTCCGCGATGGCTGGCAAGCCGCCGAGTGGATCCCTGGCGCCGCGGACGAGACCCGGGTTTCCGACGTCGTGCATGCAGGTGAGGTGTTTCACCGCGCCATTGCGGGGCTCCCGCGGCCAGCCTTCATCATGGCGTCGAACGATCCGTGGAGCAACGCGGACCGCATTGCCTGGGGTGAGGCGGCTTTGCCTGCCGATCAGCTTCTGGAGCTGTTGGTGGAGGAGTACCAGCCGGTGGGAACGCCGTCGCAGGTCATTCACGGTGATCTTCTGGGCAACGTCCTCTTTGCACAGGGGCGCCCGCCGGCGTTGATCGACTGGGCACCCTATTGGCGTCCGGCAGGACTGGGGGCGGCGATTGCAGTGGCCGATGCGGCGTGTTGGCATGGATACTCACTGGACGATTTGGCCGATCACCATGGTATTCCGGAATGGCGCCAGCTGCTGCTGAGGGCGTTGGTCTTCCGGATGACAACGCTTCACCTGCTCGGGTACTGGGATGACGTGCAGGCAGTACGGCATGGGCCGGTAGCAGCGGCTGTCATCGCCCTCTCTGATCCATGTGATTCGTGA	MQPPRAVFAAFGASGPPERLAGGRGLTWRAGHVVVRPTEDTEEAAWKSEVLAELDGAELFTVPRPIRDDRGKWVRDGWQAAEWIPGAADETRVSDVVHAGEVFHRAIAGLPRPAFIMASNDPWSNADRIAWGEAALPADQLLELLVEEYQPVGTPSQVIHGDLLGNVLFAQGRPPALIDWAPYWRPAGLGAAIAVADAACWHGYSLDDLADHHGIPEWRQLLLRALVFRMTTLHLLGYWDDVQAVRHGPVAAAVIALSDPCDS				NA	NA	NA	NA	NA
D1-29_02647	852			hypothetical protein	ATGAGTGAAAAGCCGCTTGCGGTCGAATGGGAAGCTGCGCGTGCGAGCAACCGCGACAACTGGGAAGACCGTGTTCCGTTGCACGAAAAGGCGTATGGGATCAGGGCCTTGGACGATCCGGACTACTTGACCGAAATCGTCCGCACGGACTTGGCCGCGCTGCAGCCTTTCCTTGCAGGGGGCACGGTGGCGGGTCTGGATGTCTGCCACCTTCAGTGCCATATCGGGACGGATACGCTCTCCCTGGCCCGGGCCGGCGCCCAGGTCACGGGCGTCGATTTCTCCCCTGCCGCGCTGGAATCTGCCGCCAACCTGGCACGGCATCTGGGACTCGAATCAACGTGGATCGAGACGGACGTCCTCGAGGCCCGTGCCGCCGTCGAGGGCGACTTTGACCTCGTGTACACCAGTATCGGAACCATTACCTGGCTGCCTGACCTGGACCGGTGGGCAGCCCAGGTGTCGGGTCTGCTACGGGCAGGGGGGTTGTTTTACATCCGGGACGGGCATCCTGCCCTCTACGCCCTTGACGAGCACGCCGACGGACTGCAGTTGAGGTATCCATACTTTGGCAACGGCAGGGCACAGGTATGGGATGACGAGTCCACGTATGCCGGCGATGGAAAAGTTGCGCACTCCCGGACGTATCAGTGGGCCCACCCCCTGTCCGACATCCTCAACTCGCTCATCAGGGCAGGCTTGCAAATTCTCCGTTTCGACGAGGACAACACCATTCCATGGAAGTTCAGCCGGCGCATGCTGGAGGTGCCAGGTGGCTACGCGTGGCCGCTGCCCGAGCGGGACCTTGTGCCGTGCACCTACACGATCGTCGCTCGGAAAGCAGCCGAATAG	MSEKPLAVEWEAARASNRDNWEDRVPLHEKAYGIRALDDPDYLTEIVRTDLAALQPFLAGGTVAGLDVCHLQCHIGTDTLSLARAGAQVTGVDFSPAALESAANLARHLGLESTWIETDVLEARAAVEGDFDLVYTSIGTITWLPDLDRWAAQVSGLLRAGGLFYIRDGHPALYALDEHADGLQLRYPYFGNGRAQVWDDESTYAGDGKVAHSRTYQWAHPLSDILNSLIRAGLQILRFDEDNTIPWKFSRRMLEVPGGYAWPLPERDLVPCTYTIVARKAAE				NA	NA	NA	NA	NA
D1-29_02648	867			putative protein	ATGAATGAGCAGACAGATGCCATCGAAGCGGACCGGGCGCTGAAGCAAAAGCACCGGGCCATGTGGGCCCAGGGCGACTACCCAGCCCTCGCCAGCGAACTGATTCCGGACCTCGGGGCAATCCTCGTGGAGGCCTGCGGGGTCAAGCCCCGGCAGCGAGTCCTTGACGTGGCCGCCGGCGCCGGCAACGCGGCGATTCCCGCAGCCATGATGGGGGCGGAGGTGGTGGCCAGCGACCTCACCCCCGAACTCTTCGACGCCGGACGCCGGCAGGCAGCGGACCGGGGGGCTGAACTGGAATGGATGGAAGGCGACGCCGAGTCCCTGCCGTTTCCTGATGACGAATTCGATGTGGTGCTGTCCTGCCTGGGTGTGATGTTCGCACCGCACCACCAGTCGGCCGCGGATGAGTTGGTGCGGGTGTGCAAACCCGGCGGCACCATTGGGCTGCTGAGCTGGACGCCCGACGGGTTTATCGGCAGGATGTTCGCTGCCATGAAGCCGTTTGCTCCCCCGCCCCCGCCTGGTGCCCAGCCACCGCCACTCTGGGGCAGTGAAGCCCATGTGCGGGAGCTCCTGGGTGACAGGATTACCGATGTCCAGGCGCGGACGCAGACAGTCTCAATCACCAGCTTCCATAAGCCGGACGACTTTCTGCATTACTTCAAGTCCCATTACGGCCCCACCATCTCCGTCTACAAGTTCCTCGCCGGCGATGAGGAAAAGATCCAGGCGCTGGACAAGGCGCTCACGGAACTGGCCGACACGTTCAGCGATGCCCACGGTGATGCGCCATCGCAAATGGACTGGGAATACTTGCTGCTGACGGCCAGGAAGCAGGCACGGAAACCCGCCACTCCCGCGTAG	MNEQTDAIEADRALKQKHRAMWAQGDYPALASELIPDLGAILVEACGVKPRQRVLDVAAGAGNAAIPAAMMGAEVVASDLTPELFDAGRRQAADRGAELEWMEGDAESLPFPDDEFDVVLSCLGVMFAPHHQSAADELVRVCKPGGTIGLLSWTPDGFIGRMFAAMKPFAPPPPPGAQPPPLWGSEAHVRELLGDRITDVQARTQTVSITSFHKPDDFLHYFKSHYGPTISVYKFLAGDEEKIQALDKALTELADTFSDAHGDAPSQMDWEYLLLTARKQARKPATPA				NA	NA	NA	NA	NA
D1-29_02649	1716			hypothetical protein	ATGACGACGAATTACCGCCACCCGCACTCATTCGGCAGCACGATTTCACGGAGGTCCCTGATAACAGGCGCCTCGTTGGCCATACCACTTGCAGCCTTCGGAACTTTGGGTGCCTCGGCGGCCAAGGACAAACCCCGTTCCGTGCCGCTTGCCACCGCAGCCGGAGCCGGAGCGTCCAACTACGCACACCCTGGCCTGGTGCACACGCTCTCGGACATCGAACAAGTATCGACACAGGTGGGCAGCGGCGCCCAGCCCTGGTTGGGAGGCTGGAACCGTCTCGTGGCGAATGGCCGCTCGAATTCGGGGTGGCAGCCGCGTCCGCTGGAGACAGTCGTCCGCGGCGGCGACGGCTCCAACTACGGGCAGCTGTTCCCTGACGTCCATGCCGCGTACCAGAACGCCCTGCGCTGGCGGATCTCCGGGGACGCCGCCCATGGAGCGGCTGCCGTGCGGATCCTCAACGCCTGGTCCGGAATGTTGACCACGGTCACCGGCAACGCAGACCGCTTCCTGGCTGCGGGCATCTACGGCTACCAGTTCGCCAACGCGGCGGAGCTAGTACGGGACCACCCGGACTTCGAGTTTGAGCGGTTCCGCGGCATGCTCCTCAACATTTTCCACCCGATGAACGAACACTTCCTCACCAATCACAACGGTGCCGTGATCACCAACTACTGGGCCAACTGGGACCTCTGCAACATGGCATCGATTCTGGCCATCGGCATCCTCGCGGACCGCGACGATCTCGTGGACCGCGCGGTCACTTACTTCCAGAGCGGTGCGGGCAACGGCTCCCTGCCCAATGCTGTGCCGTACGTTTACGAGGACGAGGGCCTGGCGCAGTGGCAGGAGAGCGGCCGCGACCAGGCGCACAGCATCATGGGCATCGGGCTGATGGGTGCCTTCTGTGAAATGGCCTGGAACCAAGGCATCGACTGCTACGGACACGATAACAACCGATTCCTCAAGGCGGCCGAGTACGTCGCCAAGTACAACCTCGGCCATGACGTCCCCTTCACCCCGTACACGTGGCAGTCCGGCCCATTGAGCACCGCCCCGCACGCCGGCTGGCAGACCCAGACTGTCCCGGGTGAGGGCGGGCGCGGGCAGGGCCGGCCGGTGTGGGATCAGGTTCTGGGACACTACTCCGGCCGCAAGGGCCTCAGCACCCCCTGGGTCAGCCAGATCGCTGCCACCCTTCGGCCTGATGGCGGAGGCGGCGACTATGGTTCCACGTCTGGAGGGTATGACGCACTGGGATTCGGCACCCTGATGCAGTACCCCGCCCAGACTGGCAGACGTTTCTCCCGCCTGCAAAGCTTCAACGTCCCGGACCGCTATGTCCGGCACTCCGGTTCGACAGTCCGCCTCGATCCCGTTACTTCGCCGGTCAAGGACTCACAGTTCCGGGTAGTTTCCGGGCTGGCAAGTGCGGCAGATGGCCGCATCTCCTTCGAATCCGTGGACATGCCCGGCTACTTCCTGCGCCACTGGAACTACCAATTCAGCCTGGTGCAGAATGATGGCTCCGCGGTCTTCAAGGCCGACACGACCTTCCTTCCTGTGTCCGGCTTGGGCCACAGCCGCCTGACATCCTTCCGGTCGCACAACTTCCCGGACCGGTATATCCGGCACCAGAACTACGCCCTGGTTCTGGCCCCAATGGTGAGCGATCTGGACCGTGCCGACGCAACATTCCGGATGGTCGACTAG	MTTNYRHPHSFGSTISRRSLITGASLAIPLAAFGTLGASAAKDKPRSVPLATAAGAGASNYAHPGLVHTLSDIEQVSTQVGSGAQPWLGGWNRLVANGRSNSGWQPRPLETVVRGGDGSNYGQLFPDVHAAYQNALRWRISGDAAHGAAAVRILNAWSGMLTTVTGNADRFLAAGIYGYQFANAAELVRDHPDFEFERFRGMLLNIFHPMNEHFLTNHNGAVITNYWANWDLCNMASILAIGILADRDDLVDRAVTYFQSGAGNGSLPNAVPYVYEDEGLAQWQESGRDQAHSIMGIGLMGAFCEMAWNQGIDCYGHDNNRFLKAAEYVAKYNLGHDVPFTPYTWQSGPLSTAPHAGWQTQTVPGEGGRGQGRPVWDQVLGHYSGRKGLSTPWVSQIAATLRPDGGGGDYGSTSGGYDALGFGTLMQYPAQTGRRFSRLQSFNVPDRYVRHSGSTVRLDPVTSPVKDSQFRVVSGLASAADGRISFESVDMPGYFLRHWNYQFSLVQNDGSAVFKADTTFLPVSGLGHSRLTSFRSHNFPDRYIRHQNYALVLAPMVSDLDRADATFRMVD				NA	NA	NA	NA	NA
D1-29_02650	1938	menF_1		Isochorismate synthase MenF	ATGACCTCGCTCCTCACCCGCATCGTTAACTCCTCCGCCGAGGCATCACTGCCCTTCGCCGTCATACGGCGCCAGCAGTCCGACGTCGTAGACGTCCTCACAGGCGATATTGTCGACGTCGAAAACCTGGCGGACATCCCCCTCGACTGGACGTCCAGCGGACAGGACGTGCTTACCTTGGTTCCGTTCCGCCAGGTCAGGGAGCGCGGATTTGCAGCAACCGACGACGGCGCGCCGCTCCGTTGCCTGCTGGTAACGGAACGTGAAACGGTCACCATCGCTGAAGCGCTGGCCACTCTCCCCGGCTACACGGTCCCCATCGAGTCTCTCGGATTTGAGACGTCCGACGCAGACTACGCCGGGATCGTACGGCGGGTTATCGACGACGAAATTGGACAAGGCGAAGGCGCCAACTTTGTCATCCGGCGCTCGTTCCGCGGAGGCATCGAAGCTTCCCCGGCGTCTGCGGTGCTTGCCTGGATGCGTGCCCTGCTCCTCTCAGAGCAGGGAGCCTACTGGACCTTTGCGGTGCACTCCCCCGGCCATTCACTTGTCGGAGCAACTCCGGAGCGCCACGTCTCGGTCAAGGACGGCATGGTGACGATGAATCCCATTTCCGGGACATACCGGCACCCAGCGGCAGGTCCCACCGCAGACGGCGTTCTGGAATTCCTCTCCGACATCAAGGAGAGCGGCGAACTCTTTATGGTGGTCGATGAGGAACTGAAAATGATGAGCGCCATCTGTCCGGACGGCGGGCGCATCCTGGGTCCGTACCTCAAGCAGATGTCCAGGCTCAGCCACACCGAGTATCTGCTGGAGGGACGAACCGGGCTGGATCTGCGGGAGGTCCTGCGTGCCACGATGTTCGCTCCCACCGTTACCGGCTCTCCCATGGAGAACGCCTGTTCCGTCATCGAACGCCATGAAGAGGGTGGCCGCGGATACTACTCAGGTGTCCTGGCGTTCTTTGAGTCCCGAATGGACGGGAACGGCTGCGTTTCCTATGAGCTGGACGCACCAATCCTCATCCGTACGGCGCATGTGGACGGGGCAGGCGGAGTCACCGTGTCAGCAGGCGCTACGCTCGTTCGGCTCTCGACGCCGGAAGGAGAGGCAGCAGAAACGCACGCAAAAGCGTCAGGAATACTCTCGGCGCTTGGGCTCCTCCCTTCGACGCCGGTCCCGCCTGCGGTGGACCTGAACTCACTGCCCGGCGTGGCTGAGGCGCTTCTGGATCGCAACAATCAACTGGCGCCGTTTTGGCTCCGCCCCCAGGGCTGGGAACAACACCCGCCCTTTTCCGGCAACACAGCGCTTGTCGTTGACTGCGAGGACCAGTTCACCGAGATGCTCGCCCATCAACTGCGGCACCTCGGTCTGGAAACCACCGTGGTCCGATGGGACGCCGCCGTGGATATCTCCAGCGCGGACCTGGTGGTCTTCGGGCCTGGCCCCGGGGACCCCCGGAGCGACACCAGCAGGCGGCTGGAAACCGTGCGGACCTTGATGCTTGCCAGGCTGGAGACGGGCCGGCCGCTGCTCGCCGTCTGCCTGAGCCACCAGCTCCTGTCGATCCTTGCGGGGCTTTCCGTTGAAGCATTGCCCATCCCCCGTCAGGGCACACGGCTTGACGCAGACGTTTTCGGTACCCGGGCCAGCCTCGGCTTTTACAACACCTTCGCCGCCATGGCTGAGCCGGACCAGCTGGCAACACCTCGCCTCAACCTGGAAATTTCCGCAGACAACGGCGTCGTGAACGCGTTACGCGGCGAAGGGGTCGCATCTATCCAGGGACACCTGGAATCTGTGCTCTCTACAGACGGCTTGGCCACGTTGGAGCGGCTCGTACATTCCGTGCTTTCCAGGCCCGCGGCCGGGCAAAGCTTCGCGGCGGACCTGTCGGTGCAGAGGCTGGAGGCCGGTCAGCCGTCGTAG	MTSLLTRIVNSSAEASLPFAVIRRQQSDVVDVLTGDIVDVENLADIPLDWTSSGQDVLTLVPFRQVRERGFAATDDGAPLRCLLVTERETVTIAEALATLPGYTVPIESLGFETSDADYAGIVRRVIDDEIGQGEGANFVIRRSFRGGIEASPASAVLAWMRALLLSEQGAYWTFAVHSPGHSLVGATPERHVSVKDGMVTMNPISGTYRHPAAGPTADGVLEFLSDIKESGELFMVVDEELKMMSAICPDGGRILGPYLKQMSRLSHTEYLLEGRTGLDLREVLRATMFAPTVTGSPMENACSVIERHEEGGRGYYSGVLAFFESRMDGNGCVSYELDAPILIRTAHVDGAGGVTVSAGATLVRLSTPEGEAAETHAKASGILSALGLLPSTPVPPAVDLNSLPGVAEALLDRNNQLAPFWLRPQGWEQHPPFSGNTALVVDCEDQFTEMLAHQLRHLGLETTVVRWDAAVDISSADLVVFGPGPGDPRSDTSRRLETVRTLMLARLETGRPLLAVCLSHQLLSILAGLSVEALPIPRQGTRLDADVFGTRASLGFYNTFAAMAEPDQLATPRLNLEISADNGVVNALRGEGVASIQGHLESVLSTDGLATLERLVHSVLSRPAAGQSFAADLSVQRLEAGQPS	PGPT0012800_241	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-HHQ|PQS_PERCIPITATION|SIGNALLING,PGPT0012800-phzE-K13063	NA	NA
D1-29_02651	768			hypothetical protein	GTGAAATTGCTGGCCGGGCCGCCATTGAGCGCCATAAACCTGCGCCCTTCGATCTCGAACTCCACCGTCATCGCCTGGCCCACGGGCCCCGGGCCGCCCTCCCCGAACCTGGCAACGTTGAGGATCCTGGAATCGCTAAAGACCGAAGTGTATAAGCCGGCGGCTTCCTCAGCCTGGTTTTCGAACCACAGGCATGTCGAAATTTTCTGCATCTGCTTCCTCTCCGAGCTGAGCCTAATCCGGCGGGACTACCTGCACAACGATTTCGGACGGATCGCCGTAGTGCGGCGGGCACCGGTCTTTGCTTTCCACTGTCAGCAAACCGCTAGGCTCGAAAGCGTGAATCCAGAGATCCAACAGACGAAACGGCCGGACGGCTCCGACGGCGCCGGGCGTCTTATCGTGGCCGGAGCGGCCCTGGCCGATGCCATCCTTATCCTGGTCTTCGCGGCCATCGGCCGGGACGCACACCAGCGCGGTGACGTTGTCACGGGGGTGCTGCTGACCGCCTGGCCCTTCCTTGCCGGTGCTGCGCTTGCGTGGGCTGCGGCAAGAGTGTGGCGCCGTCCGCTGTCTGTCCGGCCGGCAGGGCTGGCCGTCTGGCTCGGAACTGTCGCCGGCGGGATGCTCCTGCGTGCCCTGACCGGACAAACTGTGGTTATCGCGTTTGTCATCGTCGCCCTGGTGACCCTGGGCTTGTTCCTGGTGGGCTACCGTCTCCTGCTGGCCCTGCTCATCAGGTTGCGCAGCACGGCAAGCAAAGGTTGA	MKLLAGPPLSAINLRPSISNSTVIAWPTGPGPPSPNLATLRILESLKTEVYKPAASSAWFSNHRHVEIFCICFLSELSLIRRDYLHNDFGRIAVVRRAPVFAFHCQQTARLESVNPEIQQTKRPDGSDGAGRLIVAGAALADAILILVFAAIGRDAHQRGDVVTGVLLTAWPFLAGAALAWAAARVWRRPLSVRPAGLAVWLGTVAGGMLLRALTGQTVVIAFVIVALVTLGLFLVGYRLLLALLIRLRSTASKG				NA	NA	NA	NA	NA
D1-29_02652	282			hypothetical protein	GTGATCACCGCATTCGTTCTGATCAAAACAGATGCCGCCCGCATTCCCGAAACGGCGGAGGAGATTTCCGCCATCCAGGGCATCAGCGAGGTGTACTCCGTCACCGGGGAATGGGACCTCATTGCCGTGGCCCGGGTATCCCGCCACGAGGAACTGGCCGATGTCATCGCAGACAGGCTTTCGAAGGTTCCGGCTGTGGTGCATACCAGTACGCACATCGCTTTTCGCGCCTACTCCCAGCACGACCTGGATGCGGCGTTCGCTCTGGGCTTCGAACAGTAA	MITAFVLIKTDAARIPETAEEISAIQGISEVYSVTGEWDLIAVARVSRHEELADVIADRLSKVPAVVHTSTHIAFRAYSQHDLDAAFALGFEQ				NA	NA	NA	NA	NA
D1-29_02653	1059	trpD	COG0547	Anthranilate phosphoribosyltransferase	GTGACTTCTCAGGCATCGGCACCGGCGGCCGGCAACTCGTGGCCGCGGCTCATCTCCGCACTCATTAATGGCACAGACCTGACAGCGGACAGTACCGCCTGGGCGATGGGGACCATTATGTCCGGCGAGGCGACCCCGGCACAGATTGCCGGCTTCCTCGTTGCCCTCCGCGCCAAGGGCGAAACAGTCGAAGAGATCTCAGGTTTGGTCGAAGCAATGCTGGGCCACGCCAGGCCAGTGAGTATTTCCGGGCAAAAGCTGGACATTGTTGGCACCGGAGGAGACCAGCTCAACACGGTGAACATTTCAACCATGGCAGCCCTGGTGGCTGCAGGAGCGGGCGCCAAGGTGGTGAAGCACGGCAACCGGGCGGCGTCGTCCTCCTCAGGTTCTGCGGATGTTCTGGAGGCTTTGGGCGTCAGGCTCGACCTCCCCATCGACCAGGTGGCCTCCAACGCCGAGGAAGCCGGCATCACCTTCTGTTTTGCGCAGGTATTCCATCCGTCGTTCCGTCACACCGCTGTGCCCCGGCGTGAACTCGCCATTCCCACAGCCTTCAACTTCCTGGGCCCGCTGACCAACCCGGCGCACGTCCAGGCCTCAGCCGTGGGAGTGGCCAACGCCAGGATGGCGCCCTTGGTTGCAGGTGTCCTGGCGCGCAGGGGGAGCAGGGGGCTGGTGTTCCGCGGAGACGACGGGCTGGACGAACTGACCACCACAGGACCTTCCACCGTCTGGGAGATCCGGGACGGTGCCGTCATCGAGTTGGCTTTCTCGCCGGCCGATCTTGGAATCCGTCCGGCGACGGTGGAGGAGCTCCGTGGCGGAGATGCGCAGGCCAATGCCGCCGTCGTACGCGACGTCCTCGCCGGCAAGGCGGGACCAGCCCGCGATGCGGTCCTGCTCAATGCGGCAGCAGGACTGGTGGCTTTCGATACAGAAGCCCACGGGCCTTTCCTCGAACGTATGCGCTCGGCGCTGGCGCGGGCCACTGCCTCAATCGACTCCGGCGCTGCCGCAGGAGTCCTTGATAAGTGGGTATCGCTCACCCAGGCATGA	MTSQASAPAAGNSWPRLISALINGTDLTADSTAWAMGTIMSGEATPAQIAGFLVALRAKGETVEEISGLVEAMLGHARPVSISGQKLDIVGTGGDQLNTVNISTMAALVAAGAGAKVVKHGNRAASSSSGSADVLEALGVRLDLPIDQVASNAEEAGITFCFAQVFHPSFRHTAVPRRELAIPTAFNFLGPLTNPAHVQASAVGVANARMAPLVAGVLARRGSRGLVFRGDDGLDELTTTGPSTVWEIRDGAVIELAFSPADLGIRPATVEELRGGDAQANAAVVRDVLAGKAGPARDAVLLNAAAGLVAFDTEAHGPFLERMRSALARATASIDSGAAAGVLDKWVSLTQA	PGPT0007090_1014	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
D1-29_02654	579	ctaE	COG1845	putative cytochrome c oxidase subunit 3	ATGGTTTCCGTTGGAACCGTAGTGTGGCTGTCCAGCGAGTTGATGTTCTTCGCCGGTCTCTTCGCCATGTACTTCACGCTGCGCTCCACAAGCGGTGAGATGTGGGCGGACGAGACGGCCAAGCTCAACTTCCCCTTTGCGCTCGTCAACACGATTGTCCTTGTGGCCAGTTCCTTTACTTGCCAGATGGGCGTCTTCGCCGCCGAACGGCTGCAGCCCCGCAAGTCCGGTGGCCCGTTCCAGTTCTCCCGCTGGGGCATGAACGAGTGGTTCACCCTGACCTTCCTCATGGGCGCGTTCTTCGTCGCCGGCCAGGCCACGGAATACGCGATGCTGGTATCTGAGCATGTCTCGCTCTCCTCCAACGCCTACGGCTCGGCCTTCTACATCACCACCGGCTTCCACGGCCTGCACGTTATTGGTGGCCTGGTGGCCTTCCTCTTCATCATCGGCCGCTCGTTCGCCGCGAAGAAGTTTGGTCACTTTGAAGCAACCTCCGCGATTGTCACTTCCTACTACTGGCACTTCGTGGATGTCGTGTGGATCGGCCTCTTCCTGGTCATCTACGTACTCAAGTAG	MVSVGTVVWLSSELMFFAGLFAMYFTLRSTSGEMWADETAKLNFPFALVNTIVLVASSFTCQMGVFAAERLQPRKSGGPFQFSRWGMNEWFTLTFLMGAFFVAGQATEYAMLVSEHVSLSSNAYGSAFYITTGFHGLHVIGGLVAFLFIIGRSFAAKKFGHFEATSAIVTSYYWHFVDVVWIGLFLVIYVLK	PGPT0004035_2257	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
D1-29_02655	789	qcrC	COG2010	Cytochrome bc1 complex cytochrome c subunit	GTGAAGGCACTCTCGCAAAAGCGGCGTCACCCACTTGCAGCAATAGCGCTGCTCCTGATGGGGCTCCTCGTCACTGGTGGGCTTTATGCCGTTGCCACCACCGTCAACGAGGCGAAGGCTTCCACCACCAGCTACAGCGCCAATGATGTTGAGGAGGGCGGCAAGCTCTTCGCGGCCAACTGCGCCACCTGCCACGGCATGGGTGCCAGCGGAACCCAGGACGGTCCGTCCCTGGTTGGTGTCGGCGCCGCAGCGGTTGACTTCCAGGTTGGCACCGGCCGGATGCCCATGCAGATGAACGGCCCGCAGGCCGCCGAGAAGCCAGTCCAGTTCAACGACGAACAGACCCACCAGCTTGCAGCCTATGTCGCTTCCCTGGGAGCCGGCCCGGCAATCCCTGAAGAGCACCTGCTGGACGAAAAGGGTGACGCGGCAGCCGGCGGCGAGCTCTTCCGTACCAACTGCGCCATGTGCCACAACGCTGCTGCCGCCGGCGGTGCCCTGACGCGGGGTAAGTTCGCACCCGCTCTGGCCGACGTTTCGGGCAAGCACATTTACGAGGCGATGGTCACTGGCCCGCAGAACATGCCGGTATTCAGCGACGCCAACATCACCCCCGAGGGCAAGCGGGACATCATCACGTTCCTGAAGCAGATCGAGTCCAACGGCTCCCCCGGCGGCGCCGACCTCGGTGCACTGGGACCTGTCGCCGAAGGCCTGTTCGTCTGGGTCGCGGGGCTGGGTGTCATCATCGCTTTCACCATCTGGCTGACGTCGCGGACGTCTTAG	MKALSQKRRHPLAAIALLLMGLLVTGGLYAVATTVNEAKASTTSYSANDVEEGGKLFAANCATCHGMGASGTQDGPSLVGVGAAAVDFQVGTGRMPMQMNGPQAAEKPVQFNDEQTHQLAAYVASLGAGPAIPEEHLLDEKGDAAAGGELFRTNCAMCHNAAAAGGALTRGKFAPALADVSGKHIYEAMVTGPQNMPVFSDANITPEGKRDIITFLKQIESNGSPGGADLGALGPVAEGLFVWVAGLGVIIAFTIWLTSRTS				NA	NA	NA	NA	NA
D1-29_02656	1074	qcrA	COG0723	Cytochrome bc1 complex Rieske iron-sulfur subunit	ATGGGCAACCATAGTGACGGCAGTCCGAGCCACTCGGGCACCGTAGCTACGGCTGGTCAGAATGAGGTGGAGAAGTTCCAGGATCCTGGACTTCCTCCGCATCGTTTGCGCCTGGCTGACACGGACCCGAAGGCCGCAAAGCGTGCAGAACGGCAGGTCGCCCTACTTTTTGGCACCTCTGTTATCGGCACAGTGATCTTCCTGGTGGCGTACTTCGCCATCGACCTTGGCGGCGACGATTCCAGCATTGCAACGGTCCGCCTGCAGAATGCCCTGCTGGGCATCGGCACTGCTTTTGCCATGCTTGGCATCGGTACCGGCATTGTCCATTGGGCCAAGGCCCTCATGCCGGACCATGAAGTCTCGGAAGAACGCCATGGCATCCGCACAGAAGAGGACCGCCTCGCCGCTGTCCGCATCGTAGATGACATTGTGGAAGAGACCGGAATCAAGCGCCGTCCGCTCATCCGCAACACCCTTCTCGGCGCTGTAGCCCTGGCGCCCCTTCCGGCAGTGGCAATATTCGGCGACCTGGGCCCGCGCCCCGACAAGGCACTGTCGCACACCATGTGGGCTCCCCAGGACGGCCAGTTCAAGCGTCTTGCCCGCGACCCTGATGGCACTCCCATCAAGGCTTCGGATGTCACCCTGGGCTCCGCCTTCCACGTCATCCCGGAAGGCCTGAACGAACTGCATGAAGGCAAGCTCAACGAAAAAGCCAAGGCTGTTGTGCTGCTGATGCGTCTGGATCCAGCATCGCTGAACCCTTCAGCGGGCCGCGAGGACTGGAGCTACAACGGAATCGTTGCCTACTCCAAGATCTGCACTCACGTCGGGTGCCCGGTTGCTCTTTACGAGCAGCAGACGCACCACCTGCTGTGCCCGTGCCACCAGTCCACCTTTGACCTCACCAACGAGTGCAAGGTGATCTTCGGCCCGGCCAGCCGGCCCCTCCCCCAGCTGCCCATCGCAGTGGATGACGAGGGCTACCTGGTCGCAACCAGCGACTTCAAAGAACCTGTAGGACCTAGTTACTGGGAGCGTGATGAGCATGAGCGCAGCATCAAGAGCTGA	MGNHSDGSPSHSGTVATAGQNEVEKFQDPGLPPHRLRLADTDPKAAKRAERQVALLFGTSVIGTVIFLVAYFAIDLGGDDSSIATVRLQNALLGIGTAFAMLGIGTGIVHWAKALMPDHEVSEERHGIRTEEDRLAAVRIVDDIVEETGIKRRPLIRNTLLGAVALAPLPAVAIFGDLGPRPDKALSHTMWAPQDGQFKRLARDPDGTPIKASDVTLGSAFHVIPEGLNELHEGKLNEKAKAVVLLMRLDPASLNPSAGREDWSYNGIVAYSKICTHVGCPVALYEQQTHHLLCPCHQSTFDLTNECKVIFGPASRPLPQLPIAVDDEGYLVATSDFKEPVGPSYWERDEHERSIKS				NA	NA	NA	NA	NA
D1-29_02657	1677	qcrB	COG1290	Cytochrome bc1 complex cytochrome b subunit	ATGAGCGCAGCATCAAGAGCTGAAGCCCCCGCCTTCGTCGCCAAGACCAAAGCCGGACGCATTACCGATTTCGTTGACGAGCGCGTCGGCGGCGCCGGGATCCTGCGCGAGTTCGGCCGAAAGGTCTTCCCCGACCACTGGTCGTTCATGTTCGGTGAAGTCGCGCTGTATTCCTTCGTTATCCTGCTGCTGTCAGGTACGTTCCTGACGTTCTTCTTTGATCCGTCCATGGCAGAAACACACTACGACGGCTCATACGTGCCCCTCAAGGGCGTCGAGATGTCAGTGGCCTACAGCTCATCGCTGGACATCTCCTTTGACGTCCGCGGCGGCCTGTTCATGCGTCAGGTGCACCACTGGGCGGCCCTGCTGTTCGTGGCGTCCATCGCCGTGCACATGCTCCGCGTCTTCTTCACCGGAGCCTTCCGGAAACCCCGCGAAATGAACTGGGTGGTGGGCGGCGTCCTGCTGATCCTGGCGATGGCAGCCGGCTTCACCGGCTACTCCCTCCCCGATGACCTGCTGTCCGGCAACGGCCTGCGCATCATCGACGGCGTCATGAAGGCAATCCCGGTGATCGGGACCTACGCTTCCTTCTTCTTCTTCGGAGGCGAGTTCCCCGGAACGATGGTCATTGGCCGCCTCTATATGCTGCACATCCTGCTGGTTCCGGCCCTGATCCTCCTGATGATCGTCCTGCACCTCTTTATGGTGGTCATCCACAAGCACACCCAGTACCCCGGCCCGGGACGCAACGACGGAAACGTCGTCGGCTACCCGCTGGGTCCCGTATACGCTGCCAAGGCAGGCGGATTCTTCTTCATCGTCTTCGGTGTCATCGCACTGATGGCAGGGTTCTTCACCATCAACCCGATCTGGAACTACGGCCCCTACGATCCTTCACCGGTGTCGGCAGGTACCCAGCCTGACTGGTACATCGGCTTCGTGGACGGCGCACTGCGCCTCATGCCCGGTGTGATCGGGGACTTCCACTTTGAGTACGTCGTCTTCGGATACACGCTCTCACTCAATGTCCTGCTGCCGGCGCTGGTTCCTGCGGGCATTCTCTTCACGGTGATGTTCATGTACCCGTGGATCGAACGGTGGATCACCAAGGACAACCGTGAGCACCATGTCCTGGACCGTCCGCGCAATGCACCAACGCGTACCGCCATCGGCATGGCCGGTTTCGTCTGGTACTGCGTGATGTGGGCAGCTGCAGGCTCGGACCTCATCGCCACGCACTTCCATGTGTCGCTGAATGATGTCACCTACTGGCTCCGCGCGCTCTTCTTCATCGGCCCAATCATCGCGTTCATCGTCACCAAACGCGTCGCGCTGGCACTTCAGCGCAAGGACCGCGAAATCGCGCTCCACGGCCGTGAGACCGGACGTATCGTGCGACTGCCGCACGGTGAGTTCATTGAGGTGCACGCACCGCTGGACGAATACAAGCGCTACAAGCTGGTTGGCTTCGAGTCACCGGCACCACTTCCGGCAGTGCCCAACGATCACGGCATTGTCACACGCAAGGAGAAGCAGCGTGCCTGGCTCTCCCGGTGGTTCTTTGAGGACCGGGTAGCCCCCGCCACACCCGCGGAGCTGGAGGCAGCACACGGCCACCACGCCCACCCGGCAGTTGAAGCAGCCGAGGAGAGCAAGAGCCTCAGCCACTAG	MSAASRAEAPAFVAKTKAGRITDFVDERVGGAGILREFGRKVFPDHWSFMFGEVALYSFVILLLSGTFLTFFFDPSMAETHYDGSYVPLKGVEMSVAYSSSLDISFDVRGGLFMRQVHHWAALLFVASIAVHMLRVFFTGAFRKPREMNWVVGGVLLILAMAAGFTGYSLPDDLLSGNGLRIIDGVMKAIPVIGTYASFFFFGGEFPGTMVIGRLYMLHILLVPALILLMIVLHLFMVVIHKHTQYPGPGRNDGNVVGYPLGPVYAAKAGGFFFIVFGVIALMAGFFTINPIWNYGPYDPSPVSAGTQPDWYIGFVDGALRLMPGVIGDFHFEYVVFGYTLSLNVLLPALVPAGILFTVMFMYPWIERWITKDNREHHVLDRPRNAPTRTAIGMAGFVWYCVMWAAAGSDLIATHFHVSLNDVTYWLRALFFIGPIIAFIVTKRVALALQRKDREIALHGRETGRIVRLPHGEFIEVHAPLDEYKRYKLVGFESPAPLPAVPNDHGIVTRKEKQRAWLSRWFFEDRVAPATPAELEAAHGHHAHPAVEAAEESKSLSH				NA	NA	NA	NA	NA
D1-29_02658	792	dasR	COG2188	HTH-type transcriptional repressor DasR	ATGGCCGGTAGCGCAGGCGCCGTCAGCGGCGAGATAGACCGCAGCAACGGGACTGCCATCTACATTCAGCTGCGCGAGATCCTTCGTTCCTACATTGCGGACTCCTGCCCGCCTGGATCCGCACTCCCTTCGGAACGGGACCTTGCCGAACGCTTTGGCCTCGCTCGAATGACTGTGCGCCAGGCCATCGATGCACTGGTCGGCGAAGAAGTCATAGAACGAGTAGTGGGTCTTGGCACGTTCGTCCGCAAGCCAAAGCTTGACCTGCAGGTCAAGCTGACCTCGTACAGCGAGGAGATGCAGCGTCGCGGCATGGTGCCGGCCGCCAAGGTACTGAGCTTTGAGCAGATCGCCGCCAGTGCCTTCCTGGCCCGGGAGCTTCAGCTGGAGGAGGGAACGGCCCTGGTGCGTTTCCGCCGCCTTCTGCTGGCGGACGGGGAGCCCATGAGCGTGGATGAAAACTTCATTCCGGCGCACCGGGTCCCGGGGCTTTTGGACGGTGAACCGCCCACATCCCTCTACAACGTGCTCAGCGAGCAGTTCGGGCTCGTGATGGAGTGGGGCGAGGACATGATTGAAGCGACTGCGGCATCGCCCTCCACTGCCCGGCTACTCAACGTCGACGTTGGATCACCGCTGCTGAAAATCCAGCGGCATGCGTTCGTGGCCCGGGCCATGGTGGACTACTCCGTTTCGTACTACCGCGCTGACCGTTACAAGCTTTGGGTCCCGCTCCAGCGTCCGGGAGCGCGGCCGGCCCGAAATCATGCGTCGGGCTACCGGAACCCGTAG	MAGSAGAVSGEIDRSNGTAIYIQLREILRSYIADSCPPGSALPSERDLAERFGLARMTVRQAIDALVGEEVIERVVGLGTFVRKPKLDLQVKLTSYSEEMQRRGMVPAAKVLSFEQIAASAFLARELQLEEGTALVRFRRLLLADGEPMSVDENFIPAHRVPGLLDGEPPTSLYNVLSEQFGLVMEWGEDMIEATAASPSTARLLNVDVGSPLLKIQRHAFVARAMVDYSVSYYRADRYKLWVPLQRPGARPARNHASGYRNP				NA	NA	NA	NA	NA
D1-29_02659	312			hypothetical protein	GTGACAAAAGGAGTCCCGTTGCCCATTCACAAGGCCGTGGTGTCGGCGTCGATCGGCCTTCATGCCAGGCCAGCTGCTGTATTCGTCAGGGCCGTGACCGACACCGGGCTGCCGGTCACCATCAGCAAGGCAGGTATTGAAGGCGTAGATGCCCGCTCGCTGCTGGAAGTCATGACCGCAGACTTCCACTACGGCTGTGAAGTGGAGCTCTCCATCATGGATTCGGCCCTGGAGGGACCTTCAGGCCTCCAAACAGCAGAGGACGCTCTCCGTATGCTTGCCGAGCTGTTGGAGTCGCAGGGGGCCCGCTAG	MTKGVPLPIHKAVVSASIGLHARPAAVFVRAVTDTGLPVTISKAGIEGVDARSLLEVMTADFHYGCEVELSIMDSALEGPSGLQTAEDALRMLAELLESQGAR	PGPT0016875_288	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
D1-29_02660	402			hypothetical protein	GTGAAAATCGAATCTTGGATATTTGGAGCCGGAGTTTTCTTCTTCGTACCGGTCTCGATCGTTTACGGGTTCCTGACGGACTGGCATGAGTGGGTTGGCATCCTGGGAATCCTTCTCGTAGGCGGCCTGGCCGGCATGATCGGCGGCTACCTTGGATTCACCGGCAAGCGGATAGGTATGCGTCCTGAAGACCGCAATGACGCCGAAATCCATGAAGGTGCCGGCGAACAAGGGCACTTCAGCCCATGGAGCTGGTGGCCGCTGGTCCTGGGCCTGGCTTGCGCCGGGGGATTCCTGGGCATGGCAATAGGTTTCTGGATCGTCTTCATCAGTGCTGGACTCGCACTCATCGCCCTTGTGGGCTGGGTTTACGAGTACAGCCGCGGAGACCACGCCCACTAG	MKIESWIFGAGVFFFVPVSIVYGFLTDWHEWVGILGILLVGGLAGMIGGYLGFTGKRIGMRPEDRNDAEIHEGAGEQGHFSPWSWWPLVLGLACAGGFLGMAIGFWIVFISAGLALIALVGWVYEYSRGDHAH	PGPT0004025_23	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
D1-29_02661	1728	ctaD_2	COG0843	putative cytochrome c oxidase subunit 1	GTGGCTACTTACACTCAATCCGCACCCGTGGGCGTCCTCGAGGCGCCCGTGGTTCCCAAGTCCAAGGGACGCATCGTCGTCAACTGGATCACTTCCACCGACCACAAGACCATCGGGTATATGTACCTGATCGCGTCGTTTGTGTTCTTCTGCCTCGGCGGCGTCATGGCGCTGCTTATCCGCGCCGAGCTCTTCGAGCCTGGCATGCAGATCCTGCAGACCAAGGAGCAGTACAACCAGCTGTTTACCATGCACGGCACGGTAATGCTGCTGATGTTCGCCACCCCGCTGTTTGCCGGGTTCACGAACGTCATCATGCCGCTGCAGATCGGCGCCCCGGACGTCGCCTTCCCGCGGCTGAACGCCCTGGCATTCTGGTTCTTCCTCTTTGGCTCAACCATTGCCGTCTCAGGGTTCATCACACCGCAGGGCGCTGCCTCCTTTGGCTGGTTCGCCTACGCGCCGCTCTCGAACACCACCTTCAGCCCCGGTATTGGCGGGGACCTGTGGGTGTTCGGCCTGGCGCTCTCCGGCTTCGGCACCATCCTGGGCGCGGTCAACTTCATCACCACGATTGTCTGCATGCGCGCTCCTGGCATGACCATGTGGCGGATGCCCATCTTCACCTGGAACGCCCTGGTCACGTCCATCCTGGTACTGATGGCATTCCCGCCGCTGGCCGCAGCCCTGTTCGCGCTTGGCGCTGACAGGCGGTTCGGTGCCCACATCTTTGACCCCGACAACGGCGGTGCCGTTCTCTGGCAGCACCTGTTCTGGTTCTTCGGCCACCCCGAGGTGTACATCATCGCGCTGCCGTTCTTCGGCATCGTGTCCGAGATCTTCCCGGTCTTCAGCCGCAAACCGATCTTCGGTTACAAGGGCCTGGTCTACGCGACCATCGCCATCGCTGCCCTGTCCGTCACCGTGTGGGCGCATCACATGTACGTGACCGGATCCGTGCTGCTGCCGTTCTTCGCCTTTATGACCATGCTGATCGCGGTGCCCACCGGGGTGAAGTTCTTCAACTGGATCGGCACCATGTGGCGCGGATCAATCACGTTTGAGACGCCCATGCTGTGGAGCATCGGCTTCCTCATCACCTTCCTGTTCGGCGGCCTGACCGGCATCATCCTGGCGTCGCCGCCGCTGGACTTCCACGTCTCTGACTCCTACTTCGTGGTGGCGCACTTCCACTACGTGGTGTTTGGGACCGTGGTGTTCGCGATGTTCGCCGGCTTCTACTTCTGGTGGCCAAAATTCACCGGCAAGATGCTCAACGAGCGCCTGGGCAAGATCCACTTCTGGCTGCTGTTCCTGGGCTTCCACGGCACCTTCCTGATCCAGCACTGGCTGGGTGTCGAGGGCATGCCCCGCCGGTACGCGGACTACCTGGTGGAGGACAACTTCACCTGGATGAACCAGTTCTCCACCATCGCCTCGTTTGTCCTGGGAGCGTCCCTGATTCCGTTCTTCTGGAATGTCTACATCACCTGGCGCGGTGCCGAAAAGGTGCAGGTGGATGACCCGTGGGGCTTCGGTGCCTCGCTGGAGTGGGCCACGTCCTGCCCTCCGCCGCGCCACAACTTCACCTCGCTGCCCCGGATCCGTTCCGAGCGCCCGGCCCTGGACCTGCACCACCCGGAGCTCTCCCAGGTCCACACAGTTCAGTCGCCTGCTGTGGCTGCTGCTGCTCTTGGTAACGCCGACCAGAAGGACACCAGCAAGTGA	MATYTQSAPVGVLEAPVVPKSKGRIVVNWITSTDHKTIGYMYLIASFVFFCLGGVMALLIRAELFEPGMQILQTKEQYNQLFTMHGTVMLLMFATPLFAGFTNVIMPLQIGAPDVAFPRLNALAFWFFLFGSTIAVSGFITPQGAASFGWFAYAPLSNTTFSPGIGGDLWVFGLALSGFGTILGAVNFITTIVCMRAPGMTMWRMPIFTWNALVTSILVLMAFPPLAAALFALGADRRFGAHIFDPDNGGAVLWQHLFWFFGHPEVYIIALPFFGIVSEIFPVFSRKPIFGYKGLVYATIAIAALSVTVWAHHMYVTGSVLLPFFAFMTMLIAVPTGVKFFNWIGTMWRGSITFETPMLWSIGFLITFLFGGLTGIILASPPLDFHVSDSYFVVAHFHYVVFGTVVFAMFAGFYFWWPKFTGKMLNERLGKIHFWLLFLGFHGTFLIQHWLGVEGMPRRYADYLVEDNFTWMNQFSTIASFVLGASLIPFFWNVYITWRGAEKVQVDDPWGFGASLEWATSCPPPRHNFTSLPRIRSERPALDLHHPELSQVHTVQSPAVAAAALGNADQKDTSK	PGPT0004025_1508	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
D1-29_02662	873	ctaC	COG1622	Cytochrome c oxidase subunit 2	GTGAGTTCGCAGAACCGAACCGGCAGCCGACGCAAAACGATCACCTCGATCTCAGGCCTGGCAGTAGCCGGCGCGTTGGTTTTGACCGGATGTTCGCCAGAGGTAGAGAAGGGGTGGCTGCCCACCGAGCGTGGCACCACCAATCACACTGACCGCATCATGGACCTCTGGGTCAACTCATGGATTGCCGCACTTGTTGTGGGCATCATCACTTGGGGTTTGATCGTTTGGTGCATCGTTGCCTACCGCCGCCGCAAGGGCACCATTGGGTTTCCGCGGCAGACCAGCTTCAACCTCCCGCTTGAGGTCTTTTACCTGACTATCCCGCTCTTTATGGTGCTGGTGTTCTTCTACTTCACCGACCGGGACCAGCAGGCCATTGATGACCGCTCCCAGCCGGCTGACGTCGTTGTTGACGTCCGGGGCAAGCAGTGGGCATGGGACTTCAACTACAAGTCCGGTGACGTCATTCGCGAAGACGTCTATGAGGCCGGGGTGCAGGCGCACCTGACCGGCGAAACCCTGGACAAAGAGAAACTCCCCACGCTGTACCTGCCGGTTGGCAAGTCGGTTGATCTGGAGTTGAACTCACGCGACGTCATCCACTCCTTCTGGGTACCGGCGTTCCTGCAAAAGCGGGACATGATCCCCGGGAAGACCAACTACATCAGGTTCACCCCCACCAAAGAGGGAACCTATGACGGTAAGTGTGCTGAACTCTGCGGCGAGTACCACTCCGAGATGCTGTTCCGGGTCAAGGTGGTGTCCGAAGCTGAGTTCCAGGACCACATGAACCAGCTGCGTGATGAGGGCAACACCGGCCTCCTGGGCGAAGAGTACGACCGCAACCCGAACCTGAACGAAACAAACTAA	MSSQNRTGSRRKTITSISGLAVAGALVLTGCSPEVEKGWLPTERGTTNHTDRIMDLWVNSWIAALVVGIITWGLIVWCIVAYRRRKGTIGFPRQTSFNLPLEVFYLTIPLFMVLVFFYFTDRDQQAIDDRSQPADVVVDVRGKQWAWDFNYKSGDVIREDVYEAGVQAHLTGETLDKEKLPTLYLPVGKSVDLELNSRDVIHSFWVPAFLQKRDMIPGKTNYIRFTPTKEGTYDGKCAELCGEYHSEMLFRVKVVSEAEFQDHMNQLRDEGNTGLLGEEYDRNPNLNETN	PGPT0004030_3039	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275	NA	NA
D1-29_02663	390			Protein	ATGAGCACCGCAACCAATGAGAACAGCACCGAAACCACCAGCGCTGCCAGTGATGAACTGGCCGCCCACGAGGTCAAGCTGACCGACGTCGCAGCAGGCAAGGTACGCAGCCTCCTCGAACAGGAAGGCCGGACCGACCTCCGCCTCCGCGTTGCCGTCCAGCCCGGCGGCTGCTCGGGCCTCATTTACCAGCTTTACTTTGACGAGAGGCTCCTTGACGGAGACGCTGTCCGTGATTATGACGGAGTCGAAGTAGTAGTGGACAAGATGAGCGTGCCCTACCTCAGCGGCGCAAGCATCGATTTCGAGGACACCATCTCGAAGCAGGGCTTCACCATCGATAACCCGAACGCAGGCGGCTCGTGCGCCTGTGGCGACTCGTTCCACTAA	MSTATNENSTETTSAASDELAAHEVKLTDVAAGKVRSLLEQEGRTDLRLRVAVQPGGCSGLIYQLYFDERLLDGDAVRDYDGVEVVVDKMSVPYLSGASIDFEDTISKQGFTIDNPNAGGSCACGDSFH				NA	NA	NA	NA	NA
D1-29_02664	1461	dapE_2		Succinyl-diaminopimelate desuccinylase	ATGACGCCCACTCCAGCGGCAACCCCGCGAAATTCAAGCAGCCCGTACTCCAGCAACCCTGCGCCGGGTACCACTTCCGGTGCCATCGATGCGCAGGAACTGCGCAGCGCAGTCAGCCGGTCCTTTGATGCCACCCTGGCCCAACTTGCCGGGCTGGTGGCCATTCCAGGCATCGCCTGGCCCAGTTTCGATCCCGCTCAGCTGGAACGCAGCGCCCAGGCCGTGGCGGACCTTCTCCGTGCCAGCGGCCTGGACGATGTTGTCGTCCTGCGGTCTGACAAGAAGGACGGCACCCCCGGTGGCCCCGCCGTCGTCGCCCGCCGGCCGGCGGCCGAAGGAAAACCGACCATACTCCTGTATGCCCACCACGACGTGCAACCCCCGGGTGACCCCGCCCTGTGGGATACCGAACCCTTTGCCGCCGTCGAAAAGGACGGCCGTCTTTACGGCCGCGGTGCCGCCGATGACAAGGCCGGGATCATGGCCCACGTGGCCGCCTACTCCGCTGTTGCGGAGGTTCTGGGGCCTGAGCTGGGCCTGGGAGTGACGTTCTTCTTTGAGGGGGAGGAGGAGGCAGGATCCCCCACGTTCCGAACCTTCCTGGAGGCACATCGTGACCTGCTCCGGGCGGATGTGATTGTGGTGGCGGACTCCAGCAACTGGAAGGTGGGTGTGCCTGCGCTGACTACCAGTCTTCGCGGCCTGGTGGATGGAACAGTCGAAGTGCAAGTACTCGAACATGCTGTCCACTCAGGAATGTTCGGCGGCCCGGTGCTGGATGCGCCCACCCTGCTCTCGCGGCTGATCGCCACCTTCCACGATGATGAAGGCAACGTTGCCATCCAAGGGCTCGTCTCCCAGGACAATGTGGCAGTGGATCTCACCGAAACCGAGTACCGCGCCGATGCTTCCGTGCTGGACGGGGTTCAGCTCGCGGGATCGGGCACCATCGCTTCACGGCTGTGGACCAAACCTGCCCTGTCCATCATTGGCATTGACGCGCCGGCAGTTGCGGTGGCTTCAAACACGCTGCTGCCGCGGGCCAAGGCGAAGTTCAGCCTGCGCCTGGCCCCCGGACAGGACCCGGCCGATGCCATGGAAGCTATGCGGGAGCACGTCCAGGCACATGCTCCGTTCGGCGCCAAGGTGGTGTTCACTCCGGGAGAAAGCGGAAGCTCATTCCGCACGGATACGTCATCCAAGGCTGCAACCTTGGCTTTGTGGGCACTGGGCGAGGCGTGGGGAGTCCCTGCTGTGGAGATGGGAATCGGCGGATCAATCCCGTTCATCGCGGACCTTACCGAGGTCTATCCTGACGTGCAGATCCTTGTCACGGGCGTGGAGGATCCTGATTCAAGGGCCCACAGCGCCAACGAGTCGCTCTACATCGAAGACTTCAGGAACGCTGTGGTGGCAGAGGCCTTGATGCTGGCGAGGCTGAATGCGGAGGGCCTCGCCTGA	MTPTPAATPRNSSSPYSSNPAPGTTSGAIDAQELRSAVSRSFDATLAQLAGLVAIPGIAWPSFDPAQLERSAQAVADLLRASGLDDVVVLRSDKKDGTPGGPAVVARRPAAEGKPTILLYAHHDVQPPGDPALWDTEPFAAVEKDGRLYGRGAADDKAGIMAHVAAYSAVAEVLGPELGLGVTFFFEGEEEAGSPTFRTFLEAHRDLLRADVIVVADSSNWKVGVPALTTSLRGLVDGTVEVQVLEHAVHSGMFGGPVLDAPTLLSRLIATFHDDEGNVAIQGLVSQDNVAVDLTETEYRADASVLDGVQLAGSGTIASRLWTKPALSIIGIDAPAVAVASNTLLPRAKAKFSLRLAPGQDPADAMEAMREHVQAHAPFGAKVVFTPGESGSSFRTDTSSKAATLALWALGEAWGVPAVEMGIGGSIPFIADLTEVYPDVQILVTGVEDPDSRAHSANESLYIEDFRNAVVAEALMLARLNAEGLA				NA	NA	NA	NA	NA
D1-29_02665	603			putative protein	GTGTTCGGACGTAAAAAGGAAGCGCCCTCGGCGCAGGAAATAATAGACCAGCAGGCTGCCGATGCGGCTGCCCGGCAGGATGTGGCAGCGGGCAAGGGTGCGCCCACGCCCAAGCGCAAAGCCCAGGAAGCGGCCCGGAAGCGGCCCCTGGTGCCGGAGGACCGCAAGGCTTCCAAGGCTGCCGAACGCCAGGCCATCCAGGACCAGCGGCAGAAAATGCGCCAGGCCCTGGATACCGGCGACGAAAAGTTCCTGCCGCTGCGCGACAAGGGGCCGCAGAAGCGCTTCGCCCGGGACTACGTGGACGCGCGCTTCAGCCTGGGTGAATACCTGATGTTCGGCGCCCTGGTCTTTGTCATCATCTCCCTGCTTGTCCCGGCGTCCAGCGAACTGATGATCTACGTGCTGGGCGGGTTCTGGGTGATGTTCCTGGCAGTCTTCGTTGACGTGTTCATACTCTCCCGCAAACTCCGCAAGAAGCTGACGGAGAAATTCGGCGAGGTGGAGCGCGGCACCGTCTGGTACGGCTCCATGCGGTCACTGCAGTTCCGCAAACTCCGGCTGCCCAAGCCGCTGGTCAAACGCGGCGAATACCCCGCCTGA	MFGRKKEAPSAQEIIDQQAADAAARQDVAAGKGAPTPKRKAQEAARKRPLVPEDRKASKAAERQAIQDQRQKMRQALDTGDEKFLPLRDKGPQKRFARDYVDARFSLGEYLMFGALVFVIISLLVPASSELMIYVLGGFWVMFLAVFVDVFILSRKLRKKLTEKFGEVERGTVWYGSMRSLQFRKLRLPKPLVKRGEYPA				NA	NA	NA	NA	NA
D1-29_02666	1095	pyrD	COG0167	Dihydroorotate dehydrogenase (quinone)	ATGCGCGTATATCCCACATTTTTCAAACTGGCATTTTCATGGATGGACGCCGAACGCGCCCACAAGATCGGATTCAAGGGGATCAGGCTCGCGCATACCACCGGTGCCGGCCGGCTCCTGCAGCGTTTCACGGCTCCTGCGCCGTCACTTCAGACCACCGCCTTCGGCGTGACCTTTCCGTCGCCTTTCGGCCTCGCGGCCGGTTTCGATAAGGAAGGCCACAGCATCGAGGCACTCACCGACCTTGGCTTTGGCCATGTGGAGGTGGGGACCATTACGGGCCAGGCGCAGCCCGGCAACGAAAAGCCCCGCCTCTTTAGGCTGGTCCAGGACCGCGCTGTGATCAACCGGATGGGCTTTAACAACGACGGCGCGGCTGCGGTGGAGCCTCGTCTGAAGGCGGCCCGGGCCGCGCTGCGCCGCCGTTACCCTGCCGTGAGGCCGGTGATCGGCGTCAACATCGGAAAAAGCAAGGTGGTTGAACTCGACGACGCCGTCGGTGACTACCTCCTCAGCGCCCGGAGCCTCGCCCCGGCGGCAGATTACCTTGTAGTCAACGTCAGCTCGCCCAATACACCGGGCCTGCGCCTTCTGCAGGATGTTCAGACACTTCGCCCGCTGCTGGCCGCGGTGGGGGAGGAGGCTGACAGGGCCGCCGGCAGGCACGTTCCCCTGCTGGTGAAGATTGCACCTGACCTGAGCAACGAGGATATCGACGACGTCGCACGGCTGGCTTTGGACCTTAAACTCGACGGCATTATTGCCACCAACACCACCATTGCCCGGGCGGGACTTAAGTCGCCGGCGGAAACCATTGAAAAATGCGGACCGGGCGGATTGTCAGGGGCTCCGCTGAAGCAGCGCTCCCTGGAGGTGCTCCACAGGCTCAAGGACGCAACGGGGGACAGCATTGCCCTGGTGGCTGTGGGCGGCGTCGAGACCGCGCAGGATGTCCAGGAGCGGCTGGATGCCGGGGCAACGCTGGTGCAGGGCTACACGGCCTTCCTTTACGAGGGGCCTTTTTGGGCCGCCCGGATCAACCGGCAACTGGCGAAGAACCGCAGGCCTGACAAGGTGCCGAATAATAACTCCTGA	MRVYPTFFKLAFSWMDAERAHKIGFKGIRLAHTTGAGRLLQRFTAPAPSLQTTAFGVTFPSPFGLAAGFDKEGHSIEALTDLGFGHVEVGTITGQAQPGNEKPRLFRLVQDRAVINRMGFNNDGAAAVEPRLKAARAALRRRYPAVRPVIGVNIGKSKVVELDDAVGDYLLSARSLAPAADYLVVNVSSPNTPGLRLLQDVQTLRPLLAAVGEEADRAAGRHVPLLVKIAPDLSNEDIDDVARLALDLKLDGIIATNTTIARAGLKSPAETIEKCGPGGLSGAPLKQRSLEVLHRLKDATGDSIALVAVGGVETAQDVQERLDAGATLVQGYTAFLYEGPFWAARINRQLAKNRRPDKVPNNNS	PGPT0021190_1664	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021190-pyrD-K00254	NA	NA
D1-29_02667	1080			hypothetical protein	ATGACCTGGGAAGCTGACATCCTCGGAGACGGCTTCGAGGCATATACGTTCCGGGCGGCAGGCGACGACGGCGTGGAGCGCACGGCCACACTGGTGCGCCACCGGCCGGGAAACGAAGATCCGGTCCCCCCGCCAGGTGAACGCCGGGCCGTGCTGTTCCTCCACGGCTGGAGCGATTATTTCTTCAACGTGGATTTGGCCCGGTTCTGGAGCAGCCGCGGCTACGACTTCTACGCACTGGACATGCACAACCACGGCAGGAGCCTGCGCCCGGAGACGCCGGGCGGATATGTGGCGGATCTGTCCGACTACGACGCCGAGATCGGCAGGGCAATCGGCATTATTGCCGCTGACAGCCACCACGCTGACAGCCAACACACTGACAGCCAACAGCGTGGGCAATCCCGGCCGGCCCCTCTCACCCTGATGGGACACTCCACCGGCGGCCTGGTTGCCGCCCTTTGGGTGAGCAACCATCCTGGCACCATCTCCGCGCTGGTACTGAACAGTCCATGGCTTGAAATGCACGGAAGTTCGCTGATCCGTCGGGCGGCATCGACCATGGTGGGGCCGGTGGCCCGCTTCCGCCCCGAAGCGGTCCTTCGCCTGCCTGAACGGGGATTCTATTGGCGGACCATCAGCAGCTCTGCGGACGGAGAATGGGCGCTTGATGACCGGTACAGGCCCCCTATGGCTTTCCCGCTGCGGGCCGGCTGGCTGCATGCCATCCTTGCCGGTCACGCCAAGGTGGCACGAGGGCTGGGCATTGACATTCCGATTCTGGTCCTGCTGTCCCGGGGCAGCGCCAACGGCCCGTTTTGGACCGAGGAAATGCGCCGGACAGATGCAGTCCTTGACGTTAATGTCATCGCGCTGCGGGCGCTGACTCTTGGACGCACGGTGACGGTGGAGCGCATCGACGGCGCCCTGCACGACGTTTTTCTTTCGCCGCCCAAGGTACGGGCGGACGCGTATGCACGGTTGTCGCGCTGGCTTCGGGGTTACGGTGAGCCGGACACAGGGGCTGGAGACACCGGCGGCACCCTCTGGGACGCCCCCGACGGCGGGGGCAGGAGATGA	MTWEADILGDGFEAYTFRAAGDDGVERTATLVRHRPGNEDPVPPPGERRAVLFLHGWSDYFFNVDLARFWSSRGYDFYALDMHNHGRSLRPETPGGYVADLSDYDAEIGRAIGIIAADSHHADSQHTDSQQRGQSRPAPLTLMGHSTGGLVAALWVSNHPGTISALVLNSPWLEMHGSSLIRRAASTMVGPVARFRPEAVLRLPERGFYWRTISSSADGEWALDDRYRPPMAFPLRAGWLHAILAGHAKVARGLGIDIPILVLLSRGSANGPFWTEEMRRTDAVLDVNVIALRALTLGRTVTVERIDGALHDVFLSPPKVRADAYARLSRWLRGYGEPDTGAGDTGGTLWDAPDGGGRR				NA	NA	NA	NA	NA
D1-29_02668	744			hypothetical protein	ATGGTCTGTGGAACCAACACGGCCGCAGCAACGTACTTCAGGACTGCGAGAAAGTTGAGTCAATCACTCCCTGTCCATGTCTATGACCGCAGGGGCAGACCGGGCTCCAGCCCCCAGCCCGAGAATTATTCCATGTTAACCGAGATCTCGGACCTCCATTCTGTTATGGAGGCCACAGGCAGCACGGCCGTCTTCGGGCACAGCTACGGCGGGGCCGTTGCCCTCGAAGCCGCGCTTCAATTACCGGCCAGCCGCGTTGCTGTCTATGACCCTGTGCCCAATATCGGAGGCCTGGTGCCAACAGGGTTTCTTCCTGCCCTTGAAGATGCGGTGCAGCGCGGGGATGTGGCCCGTGCGGTTGGGGTCATAGGCAAGGGAATCTCCACAAGCCTTCGGGAAACACCACTCCCGGATCCTGTATTCCACATGTTGGTGTGGTGCATGTCCAGGGCAACCCGCAATGGGCGTTCATGGCGGGGCACCGTAGGCAGTTCGGTAAAGGAGATCGCTTGGCTGCACGCCAACCGGCCCAGCGCCAAGCGCTACGCAGACATCACAATTCCCGTACTTGTACTCTACGGAGCACGCAGCGACACTTTTTTCCGGCTCGTTGCCGAGTCGCTCGCGGGCACCCTTCCCTTAGGAAGATGCGCCGTAGTTCCCGGATCCGATCACGGGGCACCGGACTACGCTCCAGCTGCTCTTCTCGCCCAATTGGCGGAGTTCTTCACTGGGCAACGTTAG	MVCGTNTAAATYFRTARKLSQSLPVHVYDRRGRPGSSPQPENYSMLTEISDLHSVMEATGSTAVFGHSYGGAVALEAALQLPASRVAVYDPVPNIGGLVPTGFLPALEDAVQRGDVARAVGVIGKGISTSLRETPLPDPVFHMLVWCMSRATRNGRSWRGTVGSSVKEIAWLHANRPSAKRYADITIPVLVLYGARSDTFFRLVAESLAGTLPLGRCAVVPGSDHGAPDYAPAALLAQLAEFFTGQR				NA	NA	NA	NA	NA
D1-29_02669	846		COG0020	Trans,polycis-polyprenyl diphosphate synthase ((2Z,6E)-farnesyl diphosphate specific)	GTGGCCCTGGGAAAAAAGAACAACCCTTCACGGAAGCGGACTGCCCCCGTCGTGGCGCCCTATCCCCATCCTTCCGGCGCGACCGCTCCGGCCATCCCCGCTGAGTTCATTCCGCGGCACGTTGCCATTGTCATGGACGGCAACGGCCGGTGGGCAAACCAGCGCGGGCTGCCCAGGATCGAAGGACACAAGGCGGGGGAGCCCGCGCTGCTGGACGTCATGGCCGGCGCCATTGAGCTGGGCATCGAGTACGTCAGCGTTTACGCGTTCTCCACCGAGAACTGGCGCCGCTCACCGGAAGAGGTGCGGTTCCTGATGGGATTTAACAAGGATGTGCTCCGGCGGCAGCGGAACCAGCTCGATGAGTGGGGGGTCCGGGTGCGCTGGTCGGGCCGCCGTCCCAGGCTTTGGGGATCGGTGATCCGGGAACTTGAAGAAGCTGAGGCCTTTACCGTGGGCAACAGCACGTGCACATTGACCATGTGTGTGAATTACGGCGGACGGGCCGAAATTACGGATGCGGTATCAGCCATCGCCGAGGAAGTGGCGGCGGGACGCCTCAAGCCCGGGGCCATCACGGAGAAGACCATCCAGAAATACCTCGACGAGCCTGACCTGCCGGATGTGGACCTGTTCCTGCGGAGTTCGGGAGAGCAGAGGCTCTCCAACTTCCTCCTGTGGCAGTCAGCGTATGCGGAGTTCGTCTTTATGGACACGCTCTGGCCGGACGTGGACCGGCGCACTCTGTGGGAGGCCGTGGAGATCTACGCCCAGCGGGACCGGCGCTACGGCGGCGCCGTGGATGCCGCCCGGCCGGGCCTGCCTACAGGTGGCAGCTCCGCTTAG	MALGKKNNPSRKRTAPVVAPYPHPSGATAPAIPAEFIPRHVAIVMDGNGRWANQRGLPRIEGHKAGEPALLDVMAGAIELGIEYVSVYAFSTENWRRSPEEVRFLMGFNKDVLRRQRNQLDEWGVRVRWSGRRPRLWGSVIRELEEAEAFTVGNSTCTLTMCVNYGGRAEITDAVSAIAEEVAAGRLKPGAITEKTIQKYLDEPDLPDVDLFLRSSGEQRLSNFLLWQSAYAEFVFMDTLWPDVDRRTLWEAVEIYAQRDRRYGGAVDAARPGLPTGGSSA	PGPT0024180_204	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024180-uppS|ispU-K00806	NA	NA
D1-29_02670	753	recO		DNA repair protein RecO	GTGGTCCAACAATCATTTGCCGCCCGCGCGTACCGGGATGACGCCGTTGTGCTGCGCACCCATAAACTCGGTGAGGCAGACCGCATCATCACCCTGCTGACCAAGCACCACGGCCAGGTCAGGGCGGTAGCGAAGGGTGTCCGGCGGACCAGCAGCCGCTTTGGCGCCCGACTGGAACCATTTATGGTCGCCGACCTCCAACTGGTGTCCGGCCGCTCCCTGGACATCGTCACCCAGGCCGTTGCCAAGGGTGCGTACGGCGGCAACATTGCCGCCGACTATGGGCGCTACACGGTGGCCGCGGCCATGACGGAGACAGCCGAAAAACTCACAGACGTCGACGGCGAAGCCGGAACGGCACAGTACAACCTGCTGGTGGGAGCGCTGGCGTCCCTGAGCCGGGAGGAACACGCCCCGGGGCTGATCCTGGACTCCTATCTTCTGCGCGCCTTGTCCACCGGCGGCTGGGCGCCCAGCTTTACGGTCTGTGCCAGGTGCGGGAGCCAGGGTCCCCACATCGCTTTCTCGGCGCCGCTGGGCGGTATGGTCTGCGGCGATTGCCGCCCGCCCGGCTCGCCAGCGCCGGCCGCCGAGACGGTGGTCCTGCTGGCTGCCCTCCTGACGGGCGACTGGCCGACGGCGGACGCGTCCTTGCCGGTTCACCGGCGGGAAGCGGCCGGGCTGGTGGCCGCCTACCTGCAGTGGCACCTTGAGCGTGTCCTTAAATCCCTCAAACATGTGGAGCGTACCTGA	MVQQSFAARAYRDDAVVLRTHKLGEADRIITLLTKHHGQVRAVAKGVRRTSSRFGARLEPFMVADLQLVSGRSLDIVTQAVAKGAYGGNIAADYGRYTVAAAMTETAEKLTDVDGEAGTAQYNLLVGALASLSREEHAPGLILDSYLLRALSTGGWAPSFTVCARCGSQGPHIAFSAPLGGMVCGDCRPPGSPAPAAETVVLLAALLTGDWPTADASLPVHRREAAGLVAAYLQWHLERVLKSLKHVERT				NA	NA	NA	NA	NA
D1-29_02671	1740	leuA_2	COG0119	2-isopropylmalate synthase	ATGCAAAACGCACAAAAGCCCTCAGGAATGCCCGCCCACCGTTACCGCCCGTTCCAGGACCTGATCACTGTTGAACTGCCGGACCGGACTTGGCCGGACAAGGTCATCACCCACGCCCCGCGCTGGTGCGCCGTGGACCTGCGGGACGGTAACCAGGCACTCATCGATCCCATGAGCCCCGCCCGCAAGATGAAGATGTTCGACCTGCTGGTGCGCATGGGCTACAAGGAAATCGAGGTCGGCTTCCCTTCGGCCTCGCAGACCGACTTCGACTTCGTCCGCCAGCTCATCGAGGGCAACCACATCCCGGATGACGTGACCATCCAGGTTCTGACACAGGCCCGCGAGCACCTGATTGAGCGGACCTATGAGTCCCTGGTCGGCGCCAAGCAGGCCATCGTCCATTTGTACAACTCCACCTCGGTCCTGCAGCGCCGCGTGGTGTTCAACCAGGACGAGGACGGCATCCTGGACATCGCGCTCCAGGGCGCGCGGCTGTGCAAGAAGTACGAGGAAACGCTGGTGGATACCCACATCACCTACGAATACTCCCCGGAGTCCTTCACCGGCACGGAACTTGAGTATGCCGTGCGCGTATGCAACGCCGTCGCCAATGTTTTCGAGGCCTCCGCTGACAGCCAGGTCATCATCAACCTGCCCGCCACCGTGGAAATGGCCACGCCGAACGTTTACGCCGATTCCATTGAATGGATGAGCCGGCATCTGCACCCACGTGAGGGAATCATCCTCTCGCTGCACCCGCACAACGACCGCGGCACCGGAGTGGCAGCCGCCGAGCTCGGCTACATGGCAGGCGCGGACAGGATCGAAGGCTGCCTCTTTGGCAACGGCGAGCGGACCGGCAACGTGGACCTGGTCACGCTCGGCCTGAACCTGTTTGTGCAGGGCATCGATCCGATGATCGATTTCTCGGACATCGACGACATCCGCCGGACAGTGGAGTACTGCAACCAGCTGCCCGTGGCCGAGCGGGCCCCCTACGGCGGAGACCTCGTCTTTACCGCATTTTCCGGCTCGCACCAGGACGCCATCAAGAAGGGCTTCGAAGCCCTGGAGCGGGATGCCGCCGCGGCCGGGGTCAACGTGGCTGACTTCACGTGGCAGGTCCCGTACCTGCCTGTAGATCCCAAGGACCTGGGGCGCAGCTACGAAGCCGTCATCAGGGTCAACTCCCAGTCCGGCAAGGGCGGCGTTGCCTACCTGCTCAAGAACGAGCACAGCCTGGACCTGCCGCGGCGTGCGCAGATCGAATTCTCCGGTGTTATCCAGAAGCGGACAGACACCGTCGGCGGCGAAGTCAGCGGCACGCAGCTCTGGCAGGCATTCCAGGATGAATACCTTCCTTCCGGCGCCGCTGACGGCCAGTGGGGACGCTATTCGCTGGGTTCGGTCAGCACCGAAACGGACGACGACGGCGGCATGACGCTGCATGCTTCCCTCACCATTGATGGAGTGCAGGTCCGCCGCACGGGCACCGGAAACGGGCCGATTGCCGCGCTGCTGAACATCCTGCATGAAGACGGTGTGGACGTCCGTGTCCTGGACTACAGCGAGCATGCCCTGTCCGAGGGCGGCAACGCCATGGCGGCGGCGTACGTCGAATGCGCCGTGGGTGACCGCGTGCTCTGGGGAATCGGCATCGACTCCAACACCAGCATGTCATCGCTCAAAGCCGTGATCTCTGCGGTCAACCGCGCCATCCGGGATTCCCGCGCCTAG	MQNAQKPSGMPAHRYRPFQDLITVELPDRTWPDKVITHAPRWCAVDLRDGNQALIDPMSPARKMKMFDLLVRMGYKEIEVGFPSASQTDFDFVRQLIEGNHIPDDVTIQVLTQAREHLIERTYESLVGAKQAIVHLYNSTSVLQRRVVFNQDEDGILDIALQGARLCKKYEETLVDTHITYEYSPESFTGTELEYAVRVCNAVANVFEASADSQVIINLPATVEMATPNVYADSIEWMSRHLHPREGIILSLHPHNDRGTGVAAAELGYMAGADRIEGCLFGNGERTGNVDLVTLGLNLFVQGIDPMIDFSDIDDIRRTVEYCNQLPVAERAPYGGDLVFTAFSGSHQDAIKKGFEALERDAAAAGVNVADFTWQVPYLPVDPKDLGRSYEAVIRVNSQSGKGGVAYLLKNEHSLDLPRRAQIEFSGVIQKRTDTVGGEVSGTQLWQAFQDEYLPSGAADGQWGRYSLGSVSTETDDDGGMTLHASLTIDGVQVRRTGTGNGPIAALLNILHEDGVDVRVLDYSEHALSEGGNAMAAAYVECAVGDRVLWGIGIDSNTSMSSLKAVISAVNRAIRDSRA				NA	NA	NA	NA	NA
D1-29_02672	1953	pepO	COG3590	Neutral endopeptidase	GTGCCCATCTCGGGGATCGACCTGTCCAACATTGATCACACCGTCCGGCCGCAGGATGACCTGTACCAGCACGTCAACGGGGCATGGCTCAAGGCCACCGAAATTCCCGACGACCGCCCGCTGGAAGGAACGTTTACGGCCCTCCGCGACGGCGCGGAGATTGCGGTCCGGGACATCATCGAGGAAGCCGCGGGGAAGGGTGAAGAGGCCAGCGGGATAGAACGGAAGGTGGGCGACCTTTACAACAGCTTCATGGACGAAGCCACGGTGGAGGCCAAGGGCATGGAGCCCATCCGGCACCGGCTTGCCGAGGTTTTTGCCGCCACCACGGTCGGCGAACTCGTCGCCCTTGTCGGGCGGCTGTTCCGGGCTGACGTTTCGGGCCTCTTTTACATCTACCCGGCACCCGACGCGGGCAACCCGGACAGGATCCTGCTATACACCGGCCAGGGAGGGCTGGGCCTGCCGGACGAATCCTATTACCGGGAAGAGAAATTCGCCCCCATGGTCACGGCGTACGGTAACCACGTGCGGACCATGTTCTCCCTGGCCGGCCTGGACAATGCTGAGGCCGCCGCCGGCCGGGTGATCGGGCTGGAGACCAAACTGGCTTCCCACCACTGGGACAACGTCACGCTCCGGGACCCGCAAAAGACCTACAACCTCAAGACGTCAGAAGAGGCCGTATCCCTGTTCCCGCTGATGGGCACCTGGTTCGAATCGGCCGGGATCGATGCGGACAAGCGGCAGGAAATCGTGGTCAGCACTCCGGATTTCTTCAGCGGCGCGGCGGGACTGCTTGAATCCGAGCCCCTGTCCGTCTGGCAGGAGTGGCTGGCCATGCGCGTGATCAGCGCCGCCGCACCCTACCTGTCCTCAGCTTTTGTGGATGCAAACTTCGCGTTCTACGGCACCACCATCAGCGGCACACCCCGAAACAAGGACCGCTGGAAGCGGGGCGTCGGCGTCGTCGAAGCAGCCCTGGGTGAAGCGGTGGGCCAGATTTATGTCGCACGTCATTTCCCCGAAACCCATAAGGCCCGGATGCAGTCCCTGGTGGCCAATCTCATTGAGGCGTACCGCCAGAGCATCACGGACCTTGAGTGGATGGGCGAGCAGACCAAGGAAGAGGCGCTCCGGAAACTGGGCGCCTTCCGCGCCAAGATCGGTTACCCGGACAAATGGATCGACTACTCCGCCGTGGAAATCGACCCAACCGACCTCCTGGGGAACGTTGAGCGCGCGCACAATGCCGACGTCGACCGGCACCTTGATGAGGTGGGCAAACCGGTGGACCTGGACAAGTGGCTGATGACTCCCCAGACCGTCAACGCGTACTACCACCCGATGCTCAACGAGATCGTCTTCCCGGCCGCCATCCTGCAGCCGCCGTTCTTCACCGCGGATGCCGATGACGCCGTCAACTATGGCGGGATCGGCGCTGTCATCGGCCACGAAATCGGTCACGGTTTTGACGACCAGGGTTCACAGTTCGACGGCGGCGGCGCCCTCCGGAACTGGTGGACGGAGGCGGACCGGACGGCGTTCGAGGCACTAACCGCGAAGCTTGTCGCCCAGTTCGAGGTCCTCTCCCCCTATGCCGCGCCGGGGCACTACGTCAACGGCAAACTCACCCTCGGCGAAAACATCGGCGACCTGGGCGGACTGACCATCGGCTACAAGGCCTACCTCCTCAGCCTGGACGGCAAGGAGCCCGAGGTACTGGACGGGCTGACCGGCCAGCAGCGCTTCTTTGCATCCTGGGCGGCCGGTTGGCGCCAGGTCATCCGGACCGAAGAGGCCATCCGGAGGCTGGCCACGGATCCGCACTCCCCCAACGAGTTCCGGACCAATGCCATCGCCAGCAACCTGGACGCCTTCCATGAGGCCTTCGGCGTCACGGACCAGGACGGCATGTGGAGGTCACCGGAGGAGCGCGTCAGCATCTGGTAG	MPISGIDLSNIDHTVRPQDDLYQHVNGAWLKATEIPDDRPLEGTFTALRDGAEIAVRDIIEEAAGKGEEASGIERKVGDLYNSFMDEATVEAKGMEPIRHRLAEVFAATTVGELVALVGRLFRADVSGLFYIYPAPDAGNPDRILLYTGQGGLGLPDESYYREEKFAPMVTAYGNHVRTMFSLAGLDNAEAAAGRVIGLETKLASHHWDNVTLRDPQKTYNLKTSEEAVSLFPLMGTWFESAGIDADKRQEIVVSTPDFFSGAAGLLESEPLSVWQEWLAMRVISAAAPYLSSAFVDANFAFYGTTISGTPRNKDRWKRGVGVVEAALGEAVGQIYVARHFPETHKARMQSLVANLIEAYRQSITDLEWMGEQTKEEALRKLGAFRAKIGYPDKWIDYSAVEIDPTDLLGNVERAHNADVDRHLDEVGKPVDLDKWLMTPQTVNAYYHPMLNEIVFPAAILQPPFFTADADDAVNYGGIGAVIGHEIGHGFDDQGSQFDGGGALRNWWTEADRTAFEALTAKLVAQFEVLSPYAAPGHYVNGKLTLGENIGDLGGLTIGYKAYLLSLDGKEPEVLDGLTGQQRFFASWAAGWRQVIRTEEAIRRLATDPHSPNEFRTNAIASNLDAFHEAFGVTDQDGMWRSPEERVSIW				NA	NA	NA	NA	NA
D1-29_02673	1578	tagU_2		Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	GTGGTGCAACGCCGCGACAAACGCGACAACGGAGCTGACCCGTCAGCCGGAACCGGGCCAGTTTCCCGTCACGCGGAAGGCACCGCCGTCGGCTCCGCCCGCCATCTCGGAGCACAGCCAGGGATGCCCGCGTGGCTTAAGGTGATCGCCGCCGTCGTCTCGGTCCTGGTAGTGGGAGGCCTTGCGTTTGCCGGGTTTTGGTTCTTCCGCCTGCAGTCGAACATTACCAAGGCACCGCTGACCGCCGGCTCGGGTACGGCGAACCCAGTGAACGACTCATCCGACAGGATGCAGATCCTCATTCTGGGCTCGGACACGCGGGACGGCAAGAACGCCGAGTACGGTACCGCAGAGGACTCCTCAGGCTACGGACAGTCGGATGTGATGATGCTGATGGACATCTCCGCCGACAACAAGCGCGTCAATGTCATCAGCTTCCCCCGGGACCTCCTGGTTGACATCCCCGAGTGCACGGACCAGAAGACCAAACAGGTCTATCCGGCCAGGAGTGGTGTCATGATCAATGAGGCCATGGCCGAGGCCGGCATCGGCTGCGCTGTGGACACCGTGAACAAGCTGACCGGTCTCGAAATCGACCACTTCATGATGGCGGACTTCAACGCCGTCAAGGAGCTTTCCAACACGGTGGGCGGTGTGGAGGTCTGTATCAGCGACGCCGTCTACGACCCCGATTCCCGTCTGAGGTTGCCGAAGGGGACGTCCTCCGTGGAGGGCGAACAGGCACTGGCCTTCCTGCGCACACGGCATGCCTTCGCCGACGGCGGGGACTTGGGCCGCATTAAGGCCCAGCAGGGATTCCTCTCGTCGCTCACACGGAAAATCAAGGACGAGGGTACGCTGTCCGATCCTGCGAAGATGCTCCGGATTGCCGATGTCGTCACCCAAAACCTCACAGTCGATGAGGGACTTGCATCCGTTCCGTCACTCCTGACTATCGGAAACCGGCTGAAGAATATCGACGTCAGCAAGGTGGCGTTTGTCGCCGTGCCCACCACCACAGCAGTGGCAGACCTTAACCGCCTCCAGATCGCCGAACCCGCAGGATCGCAGTTGTTCGCAGCCCTCCGCAAGGACGTCGATCTAACGGACCCCACGGCTCCAGCCGCCACTCCCACGGCCACTCCGTCGCCGACGGACAGTGCGCCTGCCCCTGCGCCGACTGAAACACCGGCGCCGCCTTACGACAAATCCGCGCAGCCCGTCACCGTGGCGAACGGAACAGGTGTCGCCGGCCGCACCCAGGAAATTGCGCAGGCGTTGATTTCCGGAGGCTTTACCCAGCTTGGGCAGCTGGAAGCGGTACCGGTGGCGCAGTCCGTGGTCTATTACGGGCCGAACCACGCCGATGTGGCCGCCGACGTGGCCGCGCTGCTCGGGATCCCGGCCGAGCAAATACAGCCCGCACCAGCGTTAATCGGTGTGCAGGTCTACCTTGGCGAAGATTTCTCCTCGGGCATCACTTATGGGGCCACGACTGTGCCCAAGGACATCGTGAACCAGACTGCAGGGGACGCCGTTTGCCAGCAGGCCAACCCGGCGCTCATCGTCCAGGGCTGA	MVQRRDKRDNGADPSAGTGPVSRHAEGTAVGSARHLGAQPGMPAWLKVIAAVVSVLVVGGLAFAGFWFFRLQSNITKAPLTAGSGTANPVNDSSDRMQILILGSDTRDGKNAEYGTAEDSSGYGQSDVMMLMDISADNKRVNVISFPRDLLVDIPECTDQKTKQVYPARSGVMINEAMAEAGIGCAVDTVNKLTGLEIDHFMMADFNAVKELSNTVGGVEVCISDAVYDPDSRLRLPKGTSSVEGEQALAFLRTRHAFADGGDLGRIKAQQGFLSSLTRKIKDEGTLSDPAKMLRIADVVTQNLTVDEGLASVPSLLTIGNRLKNIDVSKVAFVAVPTTTAVADLNRLQIAEPAGSQLFAALRKDVDLTDPTAPAATPTATPSPTDSAPAPAPTETPAPPYDKSAQPVTVANGTGVAGRTQEIAQALISGGFTQLGQLEAVPVAQSVVYYGPNHADVAADVAALLGIPAEQIQPAPALIGVQVYLGEDFSSGITYGATTVPKDIVNQTAGDAVCQQANPALIVQG				NA	NA	NA	NA	NA
D1-29_02674	975	era_1	COG1159	GTPase Era	GTGAGCAAGAAAAATAGGCCGCTGGCTAACCAGGATTCTGCCAAGCCGGACTTCGGCGGCTTCCGCGCAGGCTTCTCGGTGCTCGTTGGCCGGCCCAACGCCGGCAAGTCCACCCTCACCAATGCGCTGGTGGGCAAGAAGGTGGCCATCACGTCTGCCAAGCCGCAGACCACCCGTCACACCATCCGCGGAATCGTCCACCGCGAGGACGCACAGCTGATCCTGGTGGACACGCCGGGCCTGCACCGCCCGCGCACGCTGCTGGGCAAACGCCTCAACGACCTGGTGGCTGACACACTGGCCGAAGTTGACGCTATCGGTTTCTGCCTGCCGGCCAACGAAAAAATCGGCCCCGGGGACAAGTACATCGCCGCCCAACTGGCTGCCGTTGGACGAACGCCGCTCATCGCGATTGTCACCAAGGCGGACCTTGTGGACCGCCAGGCGCTGACCGAACAGCTCCTCGCCGTCGCGGCCCTCGGCCGCGAAGTACTGGGGGAGGAAGGCTGGAAGGACATTGTTCCAGTTTCCGCTGCCGACGGCTTCCAGGTGGGCACTCTGGCCGATGTCCTGATCAGCCACATGCCGCCGTCGCCGCCGCTGTACCCGGACGGTGAACTGACCGACGAGCCCGAGGCCGTTATGGTGGCAGAACTTATCCGTGAAGCGGCCCTGGAAGGTGTCCGGGACGAACTACCGCACTCCCTGGCAGTGGTGGTGGACGAAATTGTGGCCCGCGAGGGCCGCGCAGAAGACAACCAGCTCCTTGACGTGAGGGTCAACCTGTATGTTGAGCGTCCCTCACAGAAGGCCATCATCATCGGAAAGGGTGGCAGCCGGCTGCGCGAAGTGGGCACCAACGCCCGGAAAGGCATCGAAGCGCTCCTGGGCACGCGTATCTACCTTGACCTTCATGTGAAGGTTGCCAAGGACTGGCAGCGGGATCCCAAACAACTGGTAAAACTCGGTTTCTGA	MSKKNRPLANQDSAKPDFGGFRAGFSVLVGRPNAGKSTLTNALVGKKVAITSAKPQTTRHTIRGIVHREDAQLILVDTPGLHRPRTLLGKRLNDLVADTLAEVDAIGFCLPANEKIGPGDKYIAAQLAAVGRTPLIAIVTKADLVDRQALTEQLLAVAALGREVLGEEGWKDIVPVSAADGFQVGTLADVLISHMPPSPPLYPDGELTDEPEAVMVAELIREAALEGVRDELPHSLAVVVDEIVAREGRAEDNQLLDVRVNLYVERPSQKAIIIGKGGSRLREVGTNARKGIEALLGTRIYLDLHVKVAKDWQRDPKQLVKLGF				NA	NA	NA	NA	NA
D1-29_02675	1332			hypothetical protein	GTGACGCCCCTGCTCCTCGTTTTTATGGCTCTGGCCTTCCTCAGCATTGCCGCGCTTCTGACCGCGGCGGAGGCCGCTTTCAACTTCCTTCCGCGGCATGACGCCGAAGAAGCGCTCCTCAAGAGCCGCGGAAATGCCATGCAACGGATCCTCGCGCAGCCTGTGGCGCACATCCGCGCGCTGCGTTTTTGGCGGATCTGGTTCGAGATGGCCTCCGCCGTCGCCGTCGCCGTCCTGCTCCACAGCCTGCTGGACAACGTGTGGCTGGCCGGCCTGGCAGCCACCGGGATCATGGCACTCGTCGGATTTGTGATCGTGGGAGTGTCCCCGCGGCAGCTCGGCAGGCTCCATTCCGCGGCCGTGGTGCGCTTCACCGCACCGTTGATCCGGCTGCTCACCTGGGTGCTGGGCCCCATTCCTGCCTGGCTGGTGGCGTTGGGCAGCGCGGCAGCCCCTGGCGCGCCCGGCGGCGATGAGGCCTTCTTCAGCGAACAGGAGTTCCGGGAGCTGGTGGACAGGGCCAGCGAATCGGACATGATCGAAGACACCGAGGCGGAGATGATCCAGTCCGTCTTCGACTTCGGCGATACCCTGGTGCGTGCTGTGATGGTTCCGCGGACCGACATCCTCAGCATCGACGCCGGCTCCAGCCTCAGGAGGGCCATGTCCCTTTTCCTGCGCTCCGGCTACTCCCGCATCCCCGTGATCGGCGAAAGCACCGACCAGATCCTCGGCATTGTGTACCTCAAGGACGTTGCCGCAGCCCTTCACGAGCTGGGCCCCGACGCCGAGCCGCCGCCAGTGGAGGCCCTCGCGCGTGAAGTCCGCTATGTTCCGGAATCCAAACAGGTCAGTGACCTGCTGCGTGAACTGCAAAAGGAATCGACGCACGTTGCCATCGTTATCGATGAATACGGCGGTACCGCCGGCCTTGTCACGCTGGAGGACCTCATCGAAGAAATCGTCGGTGAGATCGTGGATGAATATGACACCGAAAGCGCCGAAGCAGTGGCACTGGGGGACGGCTCCTTCCGGGTAAGCGCGCGGATGAGCATCGATGATCTTGGCGAACTGTTCGATATTGAACTGGACGACGATGAGGTGGACACCGTGGGCGGGCTCCTTGCCAAAGCCCTGGGCCGCGTTCCCATCGTGGGGAGCACCGTTGAAGTAAGCGGTGTGTCCCTGCGGGCCGAACGGCTCGAAGGGCGCCGCAACCGCGTCAGCCACATCATTGCGGCGCCGGCACCAAAAGTAGACACTGACCTTGAAGACCTCCTCAATGAGGCGGAAACAACCCAGCAGGGAGTTCCACGTGAGCAAGAAAAATAG	MTPLLLVFMALAFLSIAALLTAAEAAFNFLPRHDAEEALLKSRGNAMQRILAQPVAHIRALRFWRIWFEMASAVAVAVLLHSLLDNVWLAGLAATGIMALVGFVIVGVSPRQLGRLHSAAVVRFTAPLIRLLTWVLGPIPAWLVALGSAAAPGAPGGDEAFFSEQEFRELVDRASESDMIEDTEAEMIQSVFDFGDTLVRAVMVPRTDILSIDAGSSLRRAMSLFLRSGYSRIPVIGESTDQILGIVYLKDVAAALHELGPDAEPPPVEALAREVRYVPESKQVSDLLRELQKESTHVAIVIDEYGGTAGLVTLEDLIEEIVGEIVDEYDTESAEAVALGDGSFRVSARMSIDDLGELFDIELDDDEVDTVGGLLAKALGRVPIVGSTVEVSGVSLRAERLEGRRNRVSHIIAAPAPKVDTDLEDLLNEAETTQQGVPREQEK				NA	NA	NA	NA	NA
D1-29_02676	474	ybeY	COG0319	Endoribonuclease YbeY	GTGAGCATTGAGGTTAACAACGAATCCGGCATCCAGGTGGATGAGGCGGAGCTGGTAGCCCTGTCCCGGTACATCTTCGAACAGCTGTATATCCATCCGCAGGCGGAACTGTCCATTCTCCTGGTGGACGAACCTGCGATGGAGAAGCTCCATATTGAGCTGATGGACGAGCCTGGCTCCACCGACGTGCTTTCAGTGCCCATGGACGAACTCACTCCCGGCACTCCGGACCGCCCCACCCCCCAGGGGATGCTCGGCGACATCGCGGTCTGCCCGCAGGTGGCCCAGGTCCAGGCAAAGAACGCCGGCCACGCGCTGCAGGATGAGATGCTCCTCCTGACTACGCACGGCATCCTCCATCTCCTCGGTTACGACCATGCCGAGCCTGAGGAGAAGGCCGAGATGTTCGGTCTGCAGCGCGAACTGCTTTCGGGCTTCACGGGCAAAGAAGCACCCGCCGAGACCACGCAGTGA	MSIEVNNESGIQVDEAELVALSRYIFEQLYIHPQAELSILLVDEPAMEKLHIELMDEPGSTDVLSVPMDELTPGTPDRPTPQGMLGDIAVCPQVAQVQAKNAGHALQDEMLLLTTHGILHLLGYDHAEPEEKAEMFGLQRELLSGFTGKEAPAETTQ	PGPT0002700_49	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217	NA	NA
D1-29_02677	1197			hypothetical protein	GTGACCGTCGGCGGGCGGCAAACGCCCCGCCGCTCCAACCGCCATCGGCAGCGTTATCCGCAGTGTTTACTCGAAGTGAAGGGGACCTCAGGCCAGCGGGCCGGCACCATGACTGAATCAGCGAACGGAAAGCGCCGGTTGAACACCGGAGAGCGCGCCGCAGGAGAATTCCCGCACACCCTTCCTGGAATTCGGACGGAGGTGGTTCTCTTTGACAACTCCGATCAGATGGTTCAATCGCTCGGCAGCCACGATGAGGCCTTGCGCTTCATTGAGGAACAGTTCCCGGCCGTTAACTTCCACGTCCGCGGAAATGAACTCTCCATCAGCGGACCGGCCACGGACGTTCCCCGGATCATGCGGCTGCTGCACGAAGTGCGCGAACTGGTGGCCCGCGGTACCGTGATCAGCCCCGCCGTGCTTCAGCAGCTGGTTGTCTTACTGCGCAGCCAGTCACTGCAGAACCCGGTGGACGTCCTGACCCATGACATCCTTTCCAGCCGCGGCAAGACGATCCGGCCCAAGACGCTGAACCAGAAAAACTACGTTGACGCCATCGACGAAAACACCGTTATTTTCGGGATCGGCCCCGCAGGTACCGGCAAAACCTACCTGGCCATGGCCAAGGCGGTGCAGGCACTCCAGCAGAAGGAAGTCAGCCGCATCATCCTGACCAGGCCTGCCGTCGAGGCGGGTGAACGGCTGGGTTTCCTGCCCGGGACGCTGAGCGACAAGATCGACCCTTACCTGCGCCCGCTCTACGACGCCCTGCACGACATGATGGACCCCGAATCCATTCCGCGGCTGATGGCCGCGGGAACCATCGAGGTGGCGCCCCTGGCCTACATGCGCGGCCGGACGCTCAATGATGCGTTCATCATCCTCGACGAGGCCCAGAACACCACGCCGGAACAGATGAAGATGTTCCTGACCCGCCTGGGATTCGGTTCCAAGATGGTGGTCACCGGAGACGTAACGCAGGTTGACCTGCCTTTTGGCACGCGGTCGGGGCTGCGCATCGTTGAGGAGATCCTGCAGGGCATTGAGGACGTAAACTTCTCGGTCCTGGACTCCACCGACGTGGTCCGGCACCGTTTGGTGGGCGACATCGTCCGGGCCTACAGCCTCTGGGATGACGTCCAGCGGAACCGGGTCAAGCACTCGGTGGCCAGGGAGAAGCGGGCGGAACACGCGTGA	MTVGGRQTPRRSNRHRQRYPQCLLEVKGTSGQRAGTMTESANGKRRLNTGERAAGEFPHTLPGIRTEVVLFDNSDQMVQSLGSHDEALRFIEEQFPAVNFHVRGNELSISGPATDVPRIMRLLHEVRELVARGTVISPAVLQQLVVLLRSQSLQNPVDVLTHDILSSRGKTIRPKTLNQKNYVDAIDENTVIFGIGPAGTGKTYLAMAKAVQALQQKEVSRIILTRPAVEAGERLGFLPGTLSDKIDPYLRPLYDALHDMMDPESIPRLMAAGTIEVAPLAYMRGRTLNDAFIILDEAQNTTPEQMKMFLTRLGFGSKMVVTGDVTQVDLPFGTRSGLRIVEEILQGIEDVNFSVLDSTDVVRHRLVGDIVRAYSLWDDVQRNRVKHSVAREKRAEHA	PGPT0002700_513	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217	NA	NA
D1-29_02678	960			hypothetical protein	GTGCCGGGAAGAGCGTCGCCCCTTGCCGCGGGACCACTCTGGAAACGGGTCCGCTCTGCAGGCCTCCTGGGTCTCCTGCCTGTTGTCCTTGTCCTCACGGGCTGCATCGCCGCCCCCGGCCCCGAGCCGACACTGGCGTCTCCCACCACCGGTGCGGAAAGCACCCTCCCTCCCGGCGCACCTACCACCAGTGCCCCGCTTGAAACCACGCAGTCATCCAACAAAGCGCCTGTCTACTGGATCGGCCGCAGCAACAGCAACGTTTTCCTGTACCGGGAGTTCAGGGATGTGCCCGAGCAGGAGAACCCGGTCACCCGAGCACTGCGTGCCATGATGTCGGACAAGCCACTTGATCCGGATTTCTTCACGCCCTGGCAGAACCCCAAGAAGCTGGCCACATCGATCTCCGGCAAGAACGTCATCACCGTCGACGTCTCCGAGGATGCCTTCAACAGCAACCTGGACGCCGACATGGCGGCCCGTGCCATCCAGCAACTCGTCTATACGGCCACGGCGGCAGGTGCGAGTTCGGGCCTTATCGACTCCGGCCAGCAGATCCAGGTAATGGTGCTGGTGGACGGCCACACGGACTACCTCGCCTTCAACCACATCCGGCTGGGAACACTGATGTCCCGTACGGCAGGCATGGTGGCACCGGTGTGGATCATTGACCCGCAGGAAGGTGTGGACGTGCCTGACGGCAGCGTCAAGATCACTGGACGCAGCACGGCTCCCGGCGGCAAGCTCCGTTGGCAGATCCTGGAGGTCCAGGACAACGGGGACATGACTCCTTTCCTGACAGGCGAGACAACCGCCGCCGCAGAGCCCGGTCAGTCAGGCGTGTTTACTTTGGCGCTGACCCTCACACCGGGCAACTATGAGCTGCGCGTGTCCCAGCTGGATACGGTGGGAAACCGGCAGGACCTGAATGTGGACACCCGGGGTTTCAGCGTCCGGTAG	MPGRASPLAAGPLWKRVRSAGLLGLLPVVLVLTGCIAAPGPEPTLASPTTGAESTLPPGAPTTSAPLETTQSSNKAPVYWIGRSNSNVFLYREFRDVPEQENPVTRALRAMMSDKPLDPDFFTPWQNPKKLATSISGKNVITVDVSEDAFNSNLDADMAARAIQQLVYTATAAGASSGLIDSGQQIQVMVLVDGHTDYLAFNHIRLGTLMSRTAGMVAPVWIIDPQEGVDVPDGSVKITGRSTAPGGKLRWQILEVQDNGDMTPFLTGETTAAAEPGQSGVFTLALTLTPGNYELRVSQLDTVGNRQDLNVDTRGFSVR				NA	NA	NA	NA	NA
D1-29_02679	783	rsmE	COG1385	Ribosomal RNA small subunit methyltransferase E	GTGAGCAATCCGGTTTTCTTCAGCGCGGCCGGGTCCCTGGACCAGATGGAACCTGGCCGCCGATTTGTCCTTGAGGGGCCGGAGGCACGCCACGCGGTAACGGTCAAGCGCCTCGCCCCCGGGGAATCTGTGGATATCGCCGACGGCGCCGGTAAGCGGCTCACCGGAACTGTCATTTCGGCGCAGCCGGCTGAACTGACGGTGGAATGCTCGGGACTTGCGCTTGAAGAACGCCCCGACGTCCGGCTGGTCCTGGTCCAGGCGCTGGCCAAAGGTGACCGGGATGAACTTGCCGCCGAAACGGCAACAGAACTCGGCATCGACGCAGTGATCCCCTGGCAGTCCGAACGCTCCATTGTGCGTTGGAAGGGTGAGCGCGCAGTCAAATCCCACGCCAAATGGCAGTCGGTTGTTGCGGCGGCGGCCAAGCAGGCCCGGCGGGCATGGATCCCTGAGGTGCGGGCCGCCGTCGACACCCAGGGCCTGGCGGCCGCTGTGGCGTCAGCGGACCTGGCCGTGATTCTGCATGAGGATGCTGTCCGGCCGCTAAGGACTGTCCTGGAAGCCTGGCAGGATTCGGATACCGGAACCAGTCCCCGGGAAGTCCTCCTCATCGTTGGGCCGGAGGGCGGCATCAGCCCGCGCGAAGTCACACGGCTCTGTGATGTCGGCGCAGTGACGGCGCTCCTGGGACACCATGTGCTGCGTTCCTCCACGGCAGGCCCGGCAGCCGTGGTGCTGGCAAGTGATGTACTGGGCCGCTGGGCCGCACCTGCCGGCTAG	MSNPVFFSAAGSLDQMEPGRRFVLEGPEARHAVTVKRLAPGESVDIADGAGKRLTGTVISAQPAELTVECSGLALEERPDVRLVLVQALAKGDRDELAAETATELGIDAVIPWQSERSIVRWKGERAVKSHAKWQSVVAAAAKQARRAWIPEVRAAVDTQGLAAAVASADLAVILHEDAVRPLRTVLEAWQDSDTGTSPREVLLIVGPEGGISPREVTRLCDVGAVTALLGHHVLRSSTAGPAAVVLASDVLGRWAAPAG				NA	NA	NA	NA	NA
D1-29_02680	1128	dnaJ2	COG0484	Chaperone protein DnaJ 2	TTGAGCAGCCACTACGACGTCCTGGGAGTCTCGCCGGAAGCCACCGGAGAAGAGATCAAGAAGGCCTACCGGAAGCTTGCCCGCACCCTCCACCCGGACGTGAATCCCGGTGACGATGCGTCGGACCGCTTCAAGGCTGTGACGCACGCCTACGAGGTGCTTTCAGATCCACAGAAGCGCCGTGTTTACGACACCACCGGCAATGAAAACGGCACGGACAACGGTTTCGGTGGCGGTGGGTACGCCGGCCAGGGCTTTGCCTTCCAGGACATCTTCGACACCTTCTTCGGTGCCAGCGGTTCGTCGGGGCCTGCTTCACGCGTACGCCGGGGACAGGACGCGCTGATCAGCGTCCGGATTGAACTCCGTGACGCCGTCTTCGGCGTTAATAAGAAGCTCGAAGTGGACACGGCCGTCACCTGCCCCACCTGCAACGGTTCGTGCTGCCGCGAGGGAACCCACCCGGAGCGCTGCGACATCTGCGGCGGCAGTGGCCAGGTCCAGCGCGCAGTCCGTTCCATCCTTGGCCAGGTCATGACGGCGGCGCCGTGCGGTACCTGCGAAGGATTTGGAACTGTCATCAAGGACCCCTGCAACGAGTGCAGCGGGCAGGGACGGATCCGCAGCCGGCGCTCCCTGACTATCAAGGTACCGGCCGGAGTTGCCACCGGAACCCGTATCCAGCTCTCGGGCCAGGGCGAAGCGGGCCCCGCTGGAGGCCCCGCCGGAGACCTGTACGTCGAAATCCGGGTCAATAATGACGCCACTTATGTCCGCGATGGCGACGACCTGCACGCCACGCTCAACATTCCCATGACGGCGGCCGCGCTCGGAACGGAACTCGCGCTCGAGACCTTCGACGGGCTGCAGGAGATTGACGTCAAGGCCGGCACGCAGTCGGGCGAGATCATCACCCTCCGCGGCCTTGGCGTGACGCACCTGCGCGGCTACGGCCGCGGCGACCTGAAAGTGCATCTGCAGGTTGAGACGCCCTCCAAGCTTGATGCGGCCCAGGAAGACCTCCTGCGGCAGCTGGCAAAGATGCGTGGTGAGCAGTTTACCGAGGGGAAGCTGGCCGCCAGCGGCGGTGTCTTCGCCAAACTTCGGGACCGGCTCGGTAACCTGTAG	MSSHYDVLGVSPEATGEEIKKAYRKLARTLHPDVNPGDDASDRFKAVTHAYEVLSDPQKRRVYDTTGNENGTDNGFGGGGYAGQGFAFQDIFDTFFGASGSSGPASRVRRGQDALISVRIELRDAVFGVNKKLEVDTAVTCPTCNGSCCREGTHPERCDICGGSGQVQRAVRSILGQVMTAAPCGTCEGFGTVIKDPCNECSGQGRIRSRRSLTIKVPAGVATGTRIQLSGQGEAGPAGGPAGDLYVEIRVNNDATYVRDGDDLHATLNIPMTAAALGTELALETFDGLQEIDVKAGTQSGEIITLRGLGVTHLRGYGRGDLKVHLQVETPSKLDAAQEDLLRQLAKMRGEQFTEGKLAASGGVFAKLRDRLGNL	PGPT0014545_4328	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
D1-29_02681	1014	hrcA	COG1420	Heat-inducible transcription repressor HrcA	GTGAGCGAGCCACGCAAACTGGAAGTACTGCGTGCCATCGTGGAGGACTATGTGCACTCCCGGGAGCCCGTCGGTTCGAAGGCGCTTGTTGAGCGCCACCATCTGGGCGTGTCCAGCGCCACCATCCGAAACGACATGGCTGCCTTGGAGGACGAGGGGCTTATTACCGCCCCGCACACCAGCGCCGGTCGGATCCCCACGGACAAAGGCTACCGGCTGTTCGTGGACCAGATCTCGGCCGTGAAGCCGCTGTCCCCTGCCGAACGGCGTGCCATCCAGTCACTGCTGGAGGGCTCGGATGATCTTGACGATGTCCTGGACCGCACGGTCAGGCTTTTGTCCCAGCTGACCAACCAGGTAGCAGTGGTGCAGTATCCGCACTTGAGCCGCGCCTCCATCCGGCATATCGAATTTGTGCTCCTGGGGCCCCGGAAGGTCCTTGTGGTGCTGATCGCGAACACCGGCAAGGTGGAACAACGTGTGATCGACATCGGCCAGGACCTGGGCGATGATGCCATCGCCGGGCTCCGCGCCCGGTTCCTTGGCTCACTCTCTGGGACGCCTCTAAGCATGCTGACGCAGTCGCTGCCGGCGGTGGTCTCTGCTGTCAGCCCTGGCCAGCGGCAGGCAGCACAGGCCCTGGCGCACGGGCTGGAAAGCCTGGCGCACAACAGCCGTGAAGAGCGCATGGTCATGGCCGGCACGGCAAACCTGGCCAGGTCCAACGTGGATTTCCCGCTGAGTATCGGGCCGGTGCTCGAAGCCCTCGAGGAACAGGTGGTGATGCTGCGCCTGCTCAGCGAGATGGCGCAGGACCCCCGGGGGGTTACTGTAAGCATCGGCCGGGAAAATCCCTACGACGGCCTGGCCGAAGCATCGGTAGTGGCCACCAGTTACGGTCCGGACAGCACAGCAAAGATTGGTGTTCTCGGTCCCACCCGGATGGACTATCCCACCACCATGGCCGCCGTGCGGGCTGTAGCCCGCTACCTTTCACGAATTTTGGGCCCGTGA	MSEPRKLEVLRAIVEDYVHSREPVGSKALVERHHLGVSSATIRNDMAALEDEGLITAPHTSAGRIPTDKGYRLFVDQISAVKPLSPAERRAIQSLLEGSDDLDDVLDRTVRLLSQLTNQVAVVQYPHLSRASIRHIEFVLLGPRKVLVVLIANTGKVEQRVIDIGQDLGDDAIAGLRARFLGSLSGTPLSMLTQSLPAVVSAVSPGQRQAAQALAHGLESLAHNSREERMVMAGTANLARSNVDFPLSIGPVLEALEEQVVMLRLLSEMAQDPRGVTVSIGRENPYDGLAEASVVATSYGPDSTAKIGVLGPTRMDYPTTMAAVRAVARYLSRILGP				NA	NA	NA	NA	NA
D1-29_02682	846			hypothetical protein	ATGCAATACCAGAACTGGGGACCGCAGGAGATAGCCACCCCCGCCCGAAACCAGCTGCCTGAAATCCCCGTGGAGCGCGGCATGGTCCTGGAGGACGTCCAGTCCGGCTGGGTGGGAGCTGTCACGCGGGTGGAGAAATCCGGCGGCATGCACGTTGTGGCGCTGGAGGACCGGCGCGGCAAATCGCGGTCCTTCCGCCTGGGTTTTGGGTTCCTCCTGGAGGGCCGGCCCATCCGGCTCATGCCGCCCGCTCCCCGGCAGGCCGCCCCTGCCGGCGGCCGGACTGCGTCCGGGTCGGTACGGGTCGCGGGCCAGCGGGCCCAGGTGGCCAAGGCGAGCAGGATTTGGGTGGAGGGAAAGCACGACGCCGAACTGGTGGAAAAGGTCTGGGGAGACGACCTCCGAGTGGAGGGCATCGTCGTCGAGCCTTTGCACGGCATCGATGATCTTGCGGGGGCTGTCGCCGATTTCAGTCCCGGGCCAGGCCGGCGGCTGGGAGTCCTGGTGGACCACCTCGTGCCGGACTCCAAGGAGTCCCGGATCGCCGATGCGGTGATGGCATCACCGGGTGCGGCCGGCAACGTCCTCATCGTCGGGCACCCCTATGTGGATGTATGGCAGGCCATCCGGCCCGCCGTGCTGGGCATTGATAAATGGCCGGTGGTTCCCCGCGGCCAGGACTGGAAGACGGGAATCCTGGCTGCCTTCGGCTGGCCGCACTCCACCAAGGAGGACATTGGCCTGGGCTGGCAGAAACTGCTGGGGGCGGTCCACAGCTACGCGGATCTGGAAGCATCGCTGCTTGGCCGAGTCGAGGAAGTCATCGACTTCCTGACAGTGCCTTAG	MQYQNWGPQEIATPARNQLPEIPVERGMVLEDVQSGWVGAVTRVEKSGGMHVVALEDRRGKSRSFRLGFGFLLEGRPIRLMPPAPRQAAPAGGRTASGSVRVAGQRAQVAKASRIWVEGKHDAELVEKVWGDDLRVEGIVVEPLHGIDDLAGAVADFSPGPGRRLGVLVDHLVPDSKESRIADAVMASPGAAGNVLIVGHPYVDVWQAIRPAVLGIDKWPVVPRGQDWKTGILAAFGWPHSTKEDIGLGWQKLLGAVHSYADLEASLLGRVEEVIDFLTVP				NA	NA	NA	NA	NA
D1-29_02683	420			hypothetical protein	GTGGCACAAAACGCACGTGAACACAGGGACAACCAGGATGGCCAGGGCCGTTCCGAGTACCATGGCGTTCCCGCAAATGCGCTGCCGCTCACGGCGAGCGAAGACCGCCAATGGGCCACCTTGGCCCACTTCGGCGGGATCCTGGGATGCGTCCCGTCCCTGCTGATTTACCTCATCTTTCGGGACCGGGGACCCTTCACCGCGCAGGAGTCCAAGGAGGCGCTGAATTTCAGCCTGCCGCCCACCATCGCAGCGGTGGTGGCCAACATCCTTGTTTTCCTCCCCCTGGTGGGCAACATTTTTGCCGTCATAGCCACCCTGATCTGGATCGCCCTGACCTGCTACTCCGTGGCGGCCGGAATCCATGTGAACCGCGGCCAGCCGCACCGCTACCAGTACAACCTCCGGTGGATTAAATAG	MAQNAREHRDNQDGQGRSEYHGVPANALPLTASEDRQWATLAHFGGILGCVPSLLIYLIFRDRGPFTAQESKEALNFSLPPTIAAVVANILVFLPLVGNIFAVIATLIWIALTCYSVAAGIHVNRGQPHRYQYNLRWIK				NA	NA	NA	NA	NA
D1-29_02684	1230	hemW	COG0635	Heme chaperone HemW	ATGCCTAGCGTTCTTCCCCTTGGCGACCCGGCGCCGTCGGACGGTCTGCTGCCTGCACAGGCGGTGGACGGTGCGGCGGACCGGGCCTTCGGCCTGTATGTGCACATTCCGTTTTGCGCCGTCCGCTGCGGATACTGCGACTTCAACACGTACACCGCAACCGAACTGGGCGGTGGAGCCTCCCAGGATGCCTACGCCGACACCGCCATCTCGGAGGTGCAGCTGGCGGCACGCGTGCTCCCGCAGTCGGGCCTTCCCGGCCGCACGCTGAGCACTGTCTTCTTCGGCGGCGGCACGCCCACGCTGCTTCCGGCGGAGGACCTTGCCCGCATCCTGCGCGCGGCCATCGGTGAGTGGGGGATAGAGCCCGGAGCCGAGGTGACCACCGAGGCGAACCCGGATTCCGTCACGCCGGAGTCCCTCGCCGTGCTGAAGGACGCCGGTTTCACCAGGGTCTCCTTCGGCATGCAGTCCGCGGTTCCTCACGTGCTCAAGGTCCTGGACCGTACCCACACCCCCAGCCGCGTGCCCCAGGTGGTTCAATGGGCGCGGGAAGCCGGGCTGGCTGTCAGCCTGGACCTGATCTACGGGACCCCGGGGGAGTCGCTGGAGGACTGGCGGCACACCCTGCTCACAGCCCTGTCCTACGAGCCGGACCACATCAGCGCCTACGCACTGATTGTGGAAGACGGAACCAAGCTGGCCGCCCAGATCCGCCGCGGTGAAGTTCCCGGCATCGACGACGACGACCACGCCGACAAATACGAACTCGCCGATCAGCTGATCGGCGAAGCGGGGCTGAGCTGGTATGAAGTGAGCAACTGGGCACGGACGCCCGGGCAGGCGTGCCGGCACAACCTGGCCTACTGGCGGGGTGACGACTGGTGGGGCATCGGCCCGGGAGCCCACTCGCACGTGGGCGGAGTGCGCTGGTGGAACGTCAAACACCCCACCGCCTACGCTGGCCGCCTCGCCCAGGGACTCTCACCGGCCGCCGGACGGGAAACACTCGACGACGCCACCCGGGACCTGGAGCGGATTATGCTCGGGGCGCGGCTTGAATCCGGGGTGGGCATCGGCTCGCTGGGGGAGTCGGGCAGGAAAGCAGTGGCCGGACTCATCGCGGACAGCCTGGTGGATCCCGCGGCGGCGTTCCGGGGACAGCTGGTGCTAACCCTGAAGGGCCGCCTGCTCGCCGACGCAGTGGTCCGCAGGATCCTTCCCGACTAG	MPSVLPLGDPAPSDGLLPAQAVDGAADRAFGLYVHIPFCAVRCGYCDFNTYTATELGGGASQDAYADTAISEVQLAARVLPQSGLPGRTLSTVFFGGGTPTLLPAEDLARILRAAIGEWGIEPGAEVTTEANPDSVTPESLAVLKDAGFTRVSFGMQSAVPHVLKVLDRTHTPSRVPQVVQWAREAGLAVSLDLIYGTPGESLEDWRHTLLTALSYEPDHISAYALIVEDGTKLAAQIRRGEVPGIDDDDHADKYELADQLIGEAGLSWYEVSNWARTPGQACRHNLAYWRGDDWWGIGPGAHSHVGGVRWWNVKHPTAYAGRLAQGLSPAAGRETLDDATRDLERIMLGARLESGVGIGSLGESGRKAVAGLIADSLVDPAAAFRGQLVLTLKGRLLADAVVRRILPD				NA	NA	NA	NA	NA
D1-29_02685	1854	lepA	COG0481	Elongation factor 4	GTGTCTCCCATGGCCCGCACCGCCCCGGTGCCCGCCGCGACAGATCCGGCCATCATTCGGAATTTCTGCATCATCGCGCACATTGACCACGGCAAGTCCACCCTGGCCGACCGCATGCTGCAGTACACCGGGGTCGTTCAGTCCCGCGACATGAAGGCGCAGTATCTGGACCGTATGGATATTGAGCGTGAACGCGGTATCACCATCAAGTCCCAGGCAGTCCGCATGCCCTGGGAACTCGACGGCATGAGCTACGCACTGAACATGATCGATACCCCCGGGCACGTCGACTTTACCTACGAGGTCTCCCGCTCGCTCGCGGCGTGCGAAGGAGCAATCCTCCTGGTGGATGCGGCGCAGGGCATCGAGGCCCAGACGCTCGCCAACCTGTACCTGGCGATGGAAAACAACCTCACGATCATCCCGGTCCTGAATAAAATCGACCTTCCGGCAGCGCAGCCGGAGAAGTACGCGGCCGAACTGGCCAGCCTGATTGGCGGTGACCCGGAGGACGTTCTGCGCGTTTCCGGGAAAACCGGCATGGGCGTTGAGGCGCTGCTGGACAAGATCGTCCGCGACCTGCCGGCCCCGCAGGGCGATGCCAACGCCCCTGCCCGGGCCATGATTTTCGACTCCGTCTATGACACCTACCGCGGCGTGGTCACCTACGTCCGGGTGGTGGACGGCATGCTGCACCCGCGCGAGAAGATCCAGATGATGTCCACCCGGGCCACGCACGAACTCCTCGAAATCGGTGTCAGCTCCCCGGAGCCCACCCCCTCTAAAGGCCTGGGCGTCGGCGAAGTGGGGTACCTCATCACCGGGGTAAAGGACGTCCGCCTGTCCAAGGTCGGCGATACCGTGACCAACATGGCCAAGCCCGCCTCGGATTCGCTTCCAGGCTACGCGGATGCAAAACCCATGGTCTTCTCCGGCCTGTATCCCCTGGACGGCACGGACTACCCGGTGCTGCGCGATGCGCTGGAGAAGCTGATGCTCAACGACGCCGCGCTGGTGTACGAGCCCGAGACGTCGGCGGCACTGGGCTTCGGGTTCCGGGTCGGCTTCCTGGGCCTGCTGCACCTGGAAATCACCCGGGAACGCCTGGAACGTGAATATAACCTGGACCTGATTTCCACCGCCCCCAACGTGGAATACGAGGTGACCCTGGAGGACAAGAAGGTAGTCCATGTCACCAACCCCAGTGAATACCCCACGGGCAAAGTAGCCGAGGTCCGCGAGCCCATGGTTTCGGCCACCATCCTGGCGCCCAACGAGTTCGTCGGCGCGATCATGGAGCTGTGCCAGAGCCGGCGCGGCGTGATGGGCGGCATGGACTACCTTTCCGAGGACAGGGTGGAAATCCGGTACCGCCTGCCGCTGGCCGAAATCGTCTTCGACTTCTTCGACATCCTTAAATCCAAGACCCGCGGCTACGGTTCGCTGGACTGGAAGGCCGACGGCGACCAGGTGGCTGACCTGGTCAAGGTGGACATCATGCTCCAGGGCGAGCAGGTGGATGCCTTTTCCGCCATCACCCACCGCGACAAGGCCTATGCCTACGGCGTCATGATGACCACCAAGCTGCGTGAGCTCATCCCGCGGCAGCAGTTTGAGGTCCCCATCCAGGCCGCTATTGGTTCCAGGATCATCGCGCGTGAAAGCATCCGGGCCATCCGCAAGGACGTGCTGGCCAAGTGTTACGGCGGTGACATTTCCCGTAAGCGCAAACTGCTGGAAAAGCAGAAGGAAGGCAAGAAGCGCATGAAGATGGTGGGCCGCGTGGAAGTGCCGCAGGAAGCCTTCATCGCCGCCCTGACCACAGACGAATCCAAGGACAAGGCCAAGAAGTAG	MSPMARTAPVPAATDPAIIRNFCIIAHIDHGKSTLADRMLQYTGVVQSRDMKAQYLDRMDIERERGITIKSQAVRMPWELDGMSYALNMIDTPGHVDFTYEVSRSLAACEGAILLVDAAQGIEAQTLANLYLAMENNLTIIPVLNKIDLPAAQPEKYAAELASLIGGDPEDVLRVSGKTGMGVEALLDKIVRDLPAPQGDANAPARAMIFDSVYDTYRGVVTYVRVVDGMLHPREKIQMMSTRATHELLEIGVSSPEPTPSKGLGVGEVGYLITGVKDVRLSKVGDTVTNMAKPASDSLPGYADAKPMVFSGLYPLDGTDYPVLRDALEKLMLNDAALVYEPETSAALGFGFRVGFLGLLHLEITRERLEREYNLDLISTAPNVEYEVTLEDKKVVHVTNPSEYPTGKVAEVREPMVSATILAPNEFVGAIMELCQSRRGVMGGMDYLSEDRVEIRYRLPLAEIVFDFFDILKSKTRGYGSLDWKADGDQVADLVKVDIMLQGEQVDAFSAITHRDKAYAYGVMMTTKLRELIPRQQFEVPIQAAIGSRIIARESIRAIRKDVLAKCYGGDISRKRKLLEKQKEGKKRMKMVGRVEVPQEAFIAALTTDESKDKAKK	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
D1-29_02686	606			hypothetical protein	ATGCCAATTAACCTCCGCTCACTGGCCCAGGCCGTCCAGGCCTCCCTTCGGATTCTCGACCGGTTCCGCGCCGGCGCGGCCGGTCCGCCAGCCGATCGGGGAACCCGCCGGCAAGCTGCGGGGACGACTAAACCGCGGCGGCCAGCGGCACCGCGTTCCGCCGCCCGGCCGTCCGTGCCGCCGTCGCCGTCGGCCGCGGCACGGGCAGCGTACGCCGGGGATTTCAGCGGCACGTCCACCATCCGGTATGCGCCCCAAACGGATGGCGCCCCTGACCCCGGAGAAGTGGTGTGGGCGTGGGTGCCCTACGAGGAAGACCACAGCCGCGGGAAAGACCGCCCTGTTCTGCTGATCGGCCACAACGGGCCGTACTTACTGGCGCTCATGCTGACCAGCAAAGATCATGACCAGCACCCCACGGATGCCGACGACTATGTGGACGTGGGGACGGGAAACTGGGACCGGCAGTCCCGGCCGAGCGAAGCAAACATAGGAAGGGTGCTCCAGCTCAATCCTGAGAGTATCCGCCGGGAGGGTGCCGTGCTGGACAAGGCGCGCTTCGACCTGGTTGCCGCAGGACTGCGGCGGCGACACGGCTGGAAGTAG	MPINLRSLAQAVQASLRILDRFRAGAAGPPADRGTRRQAAGTTKPRRPAAPRSAARPSVPPSPSAAARAAYAGDFSGTSTIRYAPQTDGAPDPGEVVWAWVPYEEDHSRGKDRPVLLIGHNGPYLLALMLTSKDHDQHPTDADDYVDVGTGNWDRQSRPSEANIGRVLQLNPESIRREGAVLDKARFDLVAAGLRRRHGWK				NA	NA	NA	NA	NA
D1-29_02687	261	rpsT	COG0268	30S ribosomal protein S20	GTGGCTAATATCAAGTCCCAGAAGAAGCGCATCCTCACCAACGAGAAGGCTCGCCTGCGCAACAACGCAGTCAAGTCTGAGCTGAAGACGGCCATCCGCGCCGTCAACACCGCCGTTGAGTCCACCGACAAGGATGCAGCTGCTGTTGCCCTGGTTGCTGCCAGCCGCAAGCTGGACAAGGCTGTCAGCAAGGGTGTTCTGCACAAGAACAACGCAGCGAACCGCAAGTCTGCGATCTCCAAGAAGGTCAACGCACTGTAA	MANIKSQKKRILTNEKARLRNNAVKSELKTAIRAVNTAVESTDKDAAAVALVAASRKLDKAVSKGVLHKNNAANRKSAISKKVNAL				NA	NA	NA	NA	NA
D1-29_02688	243			hypothetical protein	ATGTGGGCGATGAACGTTGGCGCCTACAACATCGCCTTTGGTCTGGGCATCGCCTCAGGACTGTGGATGGTTAACTTTTCGGGGAATGTGGCCGGTGGGTCAGCAATTGTGATTTTCTGCTGCGCGAGCCACGTCATCCTTGGCATCTGGCTGTGGGTCACAGAGAAGCGCCTGCTCACCAGCGCCATCGGACAGGCACTTGGTCCAGGACTGGCCCTGGTCTTTTACTTTTTCTTCCGGTAA	MWAMNVGAYNIAFGLGIASGLWMVNFSGNVAGGSAIVIFCCASHVILGIWLWVTEKRLLTSAIGQALGPGLALVFYFFFR				NA	NA	NA	NA	NA
D1-29_02689	1017			hypothetical protein	ATGGCCGCTGCGCCAACTGCCCGAACCCGCACGACGGCGTCCAACACGGCCACCTGGCGGGACGTAGCACCGGCCGCCGTGGTGCTCGTCGGTGGTCCGGAAGAGTATCTCGGGATCCGGGCAATGGACCACGTGCGGTCCCAGGTGCGGACCGCGTCTCCTGATGTGGAGGTGACACGGATGAACGCGGGCAGCTACGAGGCCGGAACACTGGCCATGAACGTCAGCCCCTCCCTGTTCGGCGAGAGCAAACTGATTGAAGTCGAAGGCGTCGAATCAATGAATGACGCCTTTCTGGCGGATGCCTTGGCATACCTGGCCCATCCCGAACCGGATGCCGTGCTGGTTCTCAGGCATGCCGGGGGAGTACGGGGCAAGAAGCTACTGGATGCTGTCAAAGCCGGCGGGTGGCCGGTGGTGGATTGCCAGCCACTGAAAAAGGAAGCAGACAAGGCGGCCTTCGTGGCTGCTGAGTTCCGGGCCGGCGGCCGCCGGATTGAGGCCGACGCGGTCCAGGCACTTGTTAATGCCGTCGGCGCCAATCTCTCCGAACTGGCAGCGGCGTGCAGCCAGCTGATCGCGGATGCCACCACAGCTGTCACCACTGACATGGTGGACCGCTATTACGGGGGCCGGATTGAAGCCACGGCGTTCAAAGTAGCCGACGCCGCGATGGCCGGAAACGGGCCGGCGGCTCTCTCCACGCTCCGCCACGCACTGGCCACGGGAGCTGATCCTGTTCCGCTCGTTGCGGCCCTGGCCGCCAAGCTCCGGACGGTAGCCAAGGTGGCCGGAGCCCAGGGATCTTCCGCGCAGATTGCCAGGGATCTGGGAATGCAGCCGTGGCTGGTGGAACAGGCCCAACGCGACGTCCGCCGCTGGACGCCAGAAGGATTGGTCCGTGCCATCCAGGCCACAGCCGAGGCGGATGCACAGGTCAAAGGGCTCTCCCGTGACCCTGTCTACGCCGTCGAACATGCCGTGACCGTGATCGCCATGTCGGCAAAGCAGCGTTGA	MAAAPTARTRTTASNTATWRDVAPAAVVLVGGPEEYLGIRAMDHVRSQVRTASPDVEVTRMNAGSYEAGTLAMNVSPSLFGESKLIEVEGVESMNDAFLADALAYLAHPEPDAVLVLRHAGGVRGKKLLDAVKAGGWPVVDCQPLKKEADKAAFVAAEFRAGGRRIEADAVQALVNAVGANLSELAAACSQLIADATTAVTTDMVDRYYGGRIEATAFKVADAAMAGNGPAALSTLRHALATGADPVPLVAALAAKLRTVAKVAGAQGSSAQIARDLGMQPWLVEQAQRDVRRWTPEGLVRAIQATAEADAQVKGLSRDPVYAVEHAVTVIAMSAKQR				NA	NA	NA	NA	NA
D1-29_02690	444			hypothetical protein	ATGCGTCTTCCTGTTATGTATTCGTTCACGGCGGCAACGGCGGTTGCCGCCGGACTCATCCTCAGCGGATGTTCCATTGCCGCACCGGCTCCGGCACCCGACCCCACAACCGAAACCTCGTCCTCCGCCGCGCCGGCACCTGCTGGCGCCAACCTCGCCGACGCCGTATCGGGATGCGGACTTGACGGCGCCGACGGAGTAGAGCTGAACGCGTACGGGACAAAGCTCTCCATCGACACCAAGGGACCCCGGGAAACCTCCGGAGCAGCGATGGCAGACGTTCAATGCGTTCTGGGCGCCCTGGAGGTCCCGAAAGACATCACTTCGATGATGAAGCTCACCACCTCCACGGCAGAGCCCACCGACGCTGAGTGGGAAGATCTGGGCTTCGCCTGGAACTACAGCCCCGAGAATCATTTCCGGCTCGCCATCGTCCGAGTCTGA	MRLPVMYSFTAATAVAAGLILSGCSIAAPAPAPDPTTETSSSAAPAPAGANLADAVSGCGLDGADGVELNAYGTKLSIDTKGPRETSGAAMADVQCVLGALEVPKDITSMMKLTTSTAEPTDAEWEDLGFAWNYSPENHFRLAIVRV				NA	NA	NA	NA	NA
D1-29_02691	1158			hypothetical protein	ATGACCGACCATCAGCGATCTCATCACAGGCCGCTGGACGTACTGTTCCTCAGCGGTGACATTGGGGGGAACCTCCCGCCAACTTTCGCGATCGCCGGAGAGCTCGCGCGTCGCGGCCATCACGTGACCATTGCCGGCGTGCGTGCCCGCCCCCAGCACTCCGCTCCCGCAGATGTGAAGATGGTGGAGTTGCCCGCCCTGGCACAGATGGACGTCTCCCTGCCTACAGGGAAGTTCGGCCATGCGCCTGCGCTGATGCGGATGGCGCTCGGGCGAAGAACTACCCGGGATGTGCGCTTCCTGCTCACCAGCCAACGTGCCGACATTATCGTTGTCGACGGCGTCATGCTCACTTCGCTGCGGGAAGCCCTCAACACGGGAACCCCCACTGCTGCGCTGTTCCATTCGCTCGGGAAATTCTGGGAGCACGGCATGGGCAACCCTGCCCTGAACGCGCTGCTCCGGCCGTTTGGGCTTGGCCCCCTGGCTCTCCTTGAGCGTTGCGCCGCGCGGCTCCTGCCCACCGACTGGGACATAGATCCAGCCGGGCAAGGAAGCTGCCGGATCGCGTTCGACTGGATCGGCACCACCGAGCAGGCAACTCCCCCCGCGCCACGCGCGCCCGGGAGCCCGCCGCTGGTCCTGGTCAGCCTCAGCACCGCCTGGCAGAAGAACCAGGACGACGTGTATCAGAGAATCATCACCGCCCTGGGCCAACTGGCAAATGGCAGATCAGCAGTGCGGGCAATAGTGACCACCGGCGGAGTGCCTCTACAAATCGATCAGATACTTCCAGCCAATGTCGAGCTCCGCGGGCGCATCCCCCACGAACAGATCATGCCTCACGCCGACCTCGTCATCGGCCACGGTGGACACTCGACGACCCTCAAAGCCCTCGCCCACGGCATCCCCCTGCTGGTGCTGCCCTTGAACACTTCATCCGACCAACCTTTGATCGGCCACACCATCGAACGCAACAGACTCGGCCGCGCCCTCCCCGCAAATTCGCCCCCTGAAACCATCGGCAAAACCATCAACGACATTCTCACCGACCACGCGATCATCGCTGCAACCGCACGCACCGGCGAACGCCTCCGTGCCCAAAACGGAGCGCGGAACGGAGCCGACCGCATCGAAATGATCGGGCACGGTCCCTGA	MTDHQRSHHRPLDVLFLSGDIGGNLPPTFAIAGELARRGHHVTIAGVRARPQHSAPADVKMVELPALAQMDVSLPTGKFGHAPALMRMALGRRTTRDVRFLLTSQRADIIVVDGVMLTSLREALNTGTPTAALFHSLGKFWEHGMGNPALNALLRPFGLGPLALLERCAARLLPTDWDIDPAGQGSCRIAFDWIGTTEQATPPAPRAPGSPPLVLVSLSTAWQKNQDDVYQRIITALGQLANGRSAVRAIVTTGGVPLQIDQILPANVELRGRIPHEQIMPHADLVIGHGGHSTTLKALAHGIPLLVLPLNTSSDQPLIGHTIERNRLGRALPANSPPETIGKTINDILTDHAIIAATARTGERLRAQNGARNGADRIEMIGHGP				NA	NA	NA	NA	NA
D1-29_02692	1137	sqr	COG0446	Sulfide-quinone reductase	ATGAGGTGCATGACAACAACCGTCATGATCCTCGGCGCCGGCTTCGGAGGGTTGGAACTCGCGAGCACACTGTCGGAGCGCCTTGCCGGCGAGGTCGACGTCACCCTCTTTGACCAGCACGACGCCTTCGTGTTCGGCTTCTCCAAGCTGGAGGTCCTCTTCGGGCACCAGAACGCGGAACAAGTGCGGATCCCTTACCGCGAGATCAGCACCCCGGGTGTGGAATTCCGCCAGGAGCGGGTGCTCGCGATCGACCCGGGGTCGCGGCACGTCGTCACCGAGGCTGCGGTTTACGATCCCGACATCATCGTCGTCGCCCTCGGTGCCGACTACGATATCGCCGCGACACCCGGCTTCGCCGACGGAGGGTTCGAGTACTACACTGTCGCAGGCGCCGAGCGGCTGCGCGACGAACTGGCGGCGTTCCGCGGCGGCCGGGTGATGCTGGCCGTGCTCTCCATCCCGTTCAAGTGCCCGCCCGCGCCATACGAGGCGATCCTGCTGCTCCACGACCTGCTCGTCGCAGGCGGCATACGCGAGGGCAGCGACCTTCACGTGGTCAGTCCGCAGCCGTCGCCCATCCCCGTATCGCCCCAGACATCGGCCGCGCTGGAACGCGCGATGGCCGAGCGTGGGATCGCATACACGAAACGCCACCGAATCCACGGGATCGACCCCGACGCGCAGGTCGCGCAGTTCAAGGACCACGACGAGCCGTACGACTTGTTCATCGGCATCCCGACCCACAAGGTGCCCGACGTGCTCGTCGAGGCGGGCCTGACGCAGGATGGCTGGGTCGCGGTCGACCCCGTTACGCTGCAGACGCCGTACGCCGGGGTGTACGCGATCGGCGACTGCGCCGAGACCGGGATCCCAAAGGCCGGCACCTTCGCCGAGAGCGCGGCCCACGTCGTCGCGGACAGCATCGTTCGCAGCATCCGTGGCGCCGGCGGACTTGCATCCGGGGGCACCGGGCTCTGCTATCTGGAGTTCGGCCACGGCGACGTCGGTCGCGTCGACGTCGACTTCCACGCTGACGGCGGGCCGACCGCCCCGCTCCTGGGGCCGTCGCCGGCGTATGCCGCTGAGAAGGCGGACTTCGGCGCCGTGCGACGCGCCCGCTGGTTCGGGGCCTGA	MRCMTTTVMILGAGFGGLELASTLSERLAGEVDVTLFDQHDAFVFGFSKLEVLFGHQNAEQVRIPYREISTPGVEFRQERVLAIDPGSRHVVTEAAVYDPDIIVVALGADYDIAATPGFADGGFEYYTVAGAERLRDELAAFRGGRVMLAVLSIPFKCPPAPYEAILLLHDLLVAGGIREGSDLHVVSPQPSPIPVSPQTSAALERAMAERGIAYTKRHRIHGIDPDAQVAQFKDHDEPYDLFIGIPTHKVPDVLVEAGLTQDGWVAVDPVTLQTPYAGVYAIGDCAETGIPKAGTFAESAAHVVADSIVRSIRGAGGLASGGTGLCYLEFGHGDVGRVDVDFHADGGPTAPLLGPSPAYAAEKADFGAVRRARWFGA				NA	NA	NA	NA	NA
D1-29_02693	525			hypothetical protein	GTGGAGCTACTCCGGCGCCACGGGCTGCTGGTGATCATCGCCGCCCTGGTCTTTGCAGGAAACAATGCTGCAGGGTATATGGCGACCGGGGGCTTTATTCCAAGCTACGCGTCCAGTCCCGCCGTCGGTCACGAACGCACTGACGTGCTCGTCGCTATCGCATACGGCTCCCCCGTCTGGCAGACAGTCCGCCTGGATCACTGCCTTAAGGTTCTCAAGACCAGCCCCGGCGCCCTTCCGGTTCACCTCTCTGGCCCGGGCGAGGGAGTCCGGTGGTTCACCAGCGCCCATGAGTCATTTTGGGCTGCATCCAGCACCACTCCGACCGGGGCTACATCCCGTCACGTGGCAGTGTTGTGTTGGACCAGCGGCGAGGGCTCGGGGCCTCAGATCGTTTTACAACCCCATAATGGCGGCTACGGTGGCGGTGGTTTTCAACCAGCTCAAGCAGTTGCTCTGCGCGGCTATGCAGCGCCATCACCACGTGCAGCATGCGACGGGGCCGGACGACCATCCATACGATGA	MELLRRHGLLVIIAALVFAGNNAAGYMATGGFIPSYASSPAVGHERTDVLVAIAYGSPVWQTVRLDHCLKVLKTSPGALPVHLSGPGEGVRWFTSAHESFWAASSTTPTGATSRHVAVLCWTSGEGSGPQIVLQPHNGGYGGGGFQPAQAVALRGYAAPSPRAACDGAGRPSIR				NA	NA	NA	NA	NA
D1-29_02694	1632			hypothetical protein	ATGATCCTGTGCGGCACGCTCGTGTCCCTGGCTGGACTGCTGTTCGTGACGGCTGCCCGGAGGAGGGCTGCAGTCCGCCCTAATCAGGGCGGCGGTGCAGCTTGGCCAGTCCGGATCCTCGCCGGCCGCCGGCGGTCGGAAGGCATCCCGCGGAGCTTCATACTGACCACCTCAATCGCCTTGGTCCTGTGCGCCGCCGCGGCCGCTCATTCCGCCGTCGCGTCATCCCAACGCCACAACGGAGCACTTGCTGATGCCATCGCGGCCGGCAGCTCATCGGTTGCCGTCCTCGAAGTGTCAGGCTCCCCACGTGCCCTGGTTTCGGGCGGCTCGTCCGGGATGCCGGGCCGGTGGGCCGTCCCGGTCATGACTGTTGAAATCACCGCCGGCGGCCAAGTGATCCGCACCCGCGCGGAGCTTATTGCCATGGGCGGGAACGCCTGGGGAAGCCTGGTACCCGGCCGGGTCGTCAGGACCACCGGCAAACTGAAGCCCGCTGACCCAGGCCAGCCCGAGGCCGGCGTGCTGGCCGCGTCTTCGGCTCCGGCGGAGCTCTCCGAGGGTCTTGGCTGGCAGGAGGGCGCCAAGGACCTGCGCAGCCGCTATGTTTCGGCATCCTCCTTCCTCACGGCCGACGCCCGGGGACTCCTGCCCGGCATGGTCACCGGAGACACCAGCGCCCTGGATGAGGGGCTGAATGCCGCCATGAAAACCGTGGGGATGACTCACCTGACCGCCGTCAGCGGTGCCAACTGCAGCCTTGTGCTGGGTGCCCTCCTGTTGGCGGCCAGGAGCCTGCGGCTGCCGCGGCTGCCTGCTGCAGCTCTTGCCCTGTCCGGGCTTGCCCTGTTTGTTGTGATGGTTGGTCCTGATGCCAGTGTCCTGCGCGCCGCGCTGATGGGCTCAATCGCCCTCGCATCCTTGGCAGGCGGTCGCTCCGGGCGTGGCCTTAGTTTCCTCTGCCTGGCGGTCATCGGCCTCCTCCTGTTTGATCCAAGCCTTGGAACCAGCTTCGGGTTCCTGCTATCGGTGCTGGCTACGCTGGGAATCATTGTCCTCGGGCAGCGCATGGTGGACTGGACGCCGGCGGTCATTCCACGATGGGTGGCGGCCGCCGTCGCGGTGCCTCTGTCAGCCCAGCTGCTGTGCAGCCCGGCAATCGTGCTTTTGCAGCCGCAGTTCTCCACCTACTCGCTGCTGGCCAACGTCCTGGCCTCACCATTGGTGGCGCCGGTAACGCTGCTGGGTACGGCAGCGGTAGCGCTCGTGGTCCTGGCCCCTTGGGCGGCTATTGTGCTGATCGCGGTTGCCGGCACCTTCAGTGCCGGTGTGGCGTGGATCGCCAGGTTCACTGCCGGCCTGCCCGGGGCCTCGCTGGCGTGGCCCGAGGGAGCTTTTGGGCTTCTGACGATGGTGTTGCTGTCCGCGCTTACCCTTGTCATCGTATGGATGGTCGTCCGGCCCCGTCGCATGCTGCACGTGGTGATGGCGCTGCATAGCCGCGCAGAGCAACTGCTTGAGCTGGTTGAAAACCACCGCCACCGTAGCCGCCATTATGGGGTTGTAAAACGATCTGAGGCCCCGAGCCCTCGCCGCTGGTCCAACACAACACTGCCACGTGACGGGATGTAG	MILCGTLVSLAGLLFVTAARRRAAVRPNQGGGAAWPVRILAGRRRSEGIPRSFILTTSIALVLCAAAAAHSAVASSQRHNGALADAIAAGSSSVAVLEVSGSPRALVSGGSSGMPGRWAVPVMTVEITAGGQVIRTRAELIAMGGNAWGSLVPGRVVRTTGKLKPADPGQPEAGVLAASSAPAELSEGLGWQEGAKDLRSRYVSASSFLTADARGLLPGMVTGDTSALDEGLNAAMKTVGMTHLTAVSGANCSLVLGALLLAARSLRLPRLPAAALALSGLALFVVMVGPDASVLRAALMGSIALASLAGGRSGRGLSFLCLAVIGLLLFDPSLGTSFGFLLSVLATLGIIVLGQRMVDWTPAVIPRWVAAAVAVPLSAQLLCSPAIVLLQPQFSTYSLLANVLASPLVAPVTLLGTAAVALVVLAPWAAIVLIAVAGTFSAGVAWIARFTAGLPGASLAWPEGAFGLLTMVLLSALTLVIVWMVVRPRRMLHVVMALHSRAEQLLELVENHRHRSRHYGVVKRSEAPSPRRWSNTTLPRDGM	PGPT0029415_3782	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
D1-29_02695	972			hypothetical protein	GTGGGGCCTATGTCACGCCGGGATGCTGGAGCAGCAGCGAGTCAGGGGGCACGCCACGCCAGGGACCGGCTGCAATCCACCCTGGGCAGCCGGCCCCACGGGCTGCTCCTGACAGACGACGGCCAGGAAATCTTTGAGTACGACGGCGGCACGGACGTTCCTGCACAGGAAACCGGAGTCCATGGCGCCGGCTCCGGGCGCCATCCGACGATGGATTCAGGGGCAGGAAGCGTGGCCGGGATGGGCCCTGCCGGGATAGGGGGCGCGGCCAGGACGGGTCCCGCCCTCAGGTGGCGGCTTGGAGTCCGCGTGGCCGTGCTCATCTGCATGGCCGCACTACTTGCCGGCGCCTGGTTCTGGTGGCAGGTCTCCCAGGGACAGCCACACGTGATTCCGCTCAGTGACGTCAGTGCTACCGGGAGTCCATCGGCCACGCCCGGTGGGGTGACGGATGAGCCGCCCGAGGGCGATGTGCCTGCCGGTCCAGGCGATGGGGATCCTTCGGCCGGGATCCTCATTGTCCATGTCGCAGGGGCCGTCGCCAGCCCAGGGGTGGTTCAGTTGCCTTCCGGGAGCCGGGTACACGAGGCGCTTGCGGCGGCTGGTGGCAGTACCCCCGCCGCGGACCTGGATCGGCTCAACCTGGCTGCGCCTCTGGTGGACGGGCAGAAGGTCTATGTTCCACTGCCGGGCGAACCGCTGCCTTCCGATTCGTCCGGCACGGCCGCCGGACCGTCCGCAGGCGGCGCTGGCGCCGGCGGGGATGCAGGCGGCCCCGGTGGTACAACGAACCTGAACACCGCCGGTATCGAAGAGCTTGATGCGCTGCCCAAGGTGGGACCGGTCCTGGCCCAGCGCATCGTGGACTGGCGAAAGGAGCACGGACCATTCAAAACCGTTGAGGAACTCGATGCCGTGGATGGCGTGGGGCCCAAGATGCTCGAAACGCTTCTTCCCCTTGTGAGCGTCTAG	MGPMSRRDAGAAASQGARHARDRLQSTLGSRPHGLLLTDDGQEIFEYDGGTDVPAQETGVHGAGSGRHPTMDSGAGSVAGMGPAGIGGAARTGPALRWRLGVRVAVLICMAALLAGAWFWWQVSQGQPHVIPLSDVSATGSPSATPGGVTDEPPEGDVPAGPGDGDPSAGILIVHVAGAVASPGVVQLPSGSRVHEALAAAGGSTPAADLDRLNLAAPLVDGQKVYVPLPGEPLPSDSSGTAAGPSAGGAGAGGDAGGPGGTTNLNTAGIEELDALPKVGPVLAQRIVDWRKEHGPFKTVEELDAVDGVGPKMLETLLPLVSV	PGPT0029410_219	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
D1-29_02696	504			hypothetical protein	GTGCAGCACTTCATTGCGGTGATTCCGCCTTCACGCGTCAGCGACACTCTGCGTGAGGTGGGCAACTACCTGATGGTTGGCCCGCACATCACCGTCAAAGCGCAGCCTGGCCTCAATGCGGAGGACAAACCTAAATGGATGGGTCGGCTGCGGCAATCCCTGGTGCACTTCGGCGAAGTGAAGGTGCAGCTAGGATCACTTGCGTCCTTCGGTGGTTCGGTCGCATACCTTGAAGTTGATTCCCCGCGTATCTACGATTTGTACGACGCGCTCTTGACGAGCATCAACCCAGCTCCGGAGGATGCAGAACGCTACTTCGAGCTCGACGGGTGGACTCCGCATCTGACACTGGAACAAGGCCGCTCGATTGACTTCGACAAGCTCCGCGCAGCGGTTGATCGGCTCGGACGTGTGTCGGCATTCACTGTCGACACACTATGGGTCTGTCGACAGGATCACCCCGGTCAGCCCTACTACCCGGAGACGCCGATCAATCTGGTGTAG	MQHFIAVIPPSRVSDTLREVGNYLMVGPHITVKAQPGLNAEDKPKWMGRLRQSLVHFGEVKVQLGSLASFGGSVAYLEVDSPRIYDLYDALLTSINPAPEDAERYFELDGWTPHLTLEQGRSIDFDKLRAAVDRLGRVSAFTVDTLWVCRQDHPGQPYYPETPINLV				NA	NA	NA	NA	NA
D1-29_02697	573			hypothetical protein	GTGAAGTTCGTCGTCATCTTTGGACCCCCTGCAGTTGGGAAAATGACAGTCGGTCACGAGCTTTCGAATATCACCGGCTTTAGACTTTTCCATAACCACATGACCATCGAACTGGTACTGAACTTCTTTGATTTCGGGGAGCCCCAATTCGAAGCTTTGGTGTCCGAGTTCCGCCAACGTGTGTTCGAAGAGGTTGCCATAAGCGATTTGCCAGGGCTTATTTTCACCTTCGTTTGGGCTGTGGAGGACGAATCTGACCGGGAGTTCGTGGAGCGGAGTTGCGACATCTTCAGAGACAAAGGTGCAGCCGTGTACTTCGTTGAGCTCCAGGCTGACTTGGAGGAGCGGCTGAGCCGGAACGAAACTGAATTCAGGTTGTTACACAAGGCGTCCAAGCGGGATATAGAGAGTTCCAGGAAGCGCTTGTTGGACGACGACGAGAAATTCAAGCTGAATTCTGACGGCGACGCTTTTATCAAAGATAACTACCTCAAAATTGATAACACGAACTTATCCGCAGCCGAAACTGCCCAGATAATTGCGGACGAATTCGCCTTCAGGCCGACTACCTGA	MKFVVIFGPPAVGKMTVGHELSNITGFRLFHNHMTIELVLNFFDFGEPQFEALVSEFRQRVFEEVAISDLPGLIFTFVWAVEDESDREFVERSCDIFRDKGAAVYFVELQADLEERLSRNETEFRLLHKASKRDIESSRKRLLDDDEKFKLNSDGDAFIKDNYLKIDNTNLSAAETAQIIADEFAFRPTT				NA	NA	NA	NA	NA
D1-29_02698	489			hypothetical protein	ATGAAATCTCTGCCCGTCACGGACCGCTCCGGTAACCAACTAGTCGCGATAGATCTCGTCGACGAGAGCGAGCTGAACAACCCTCTGCCCGACATAACTCTTCCCTTGTCGCTGATCATAGTGATGCAGGCAGGAAAAGTCTTGATGATCTTCAATAGGTGGCGGCAAGAATGGGAGTTGCCGGGAGGAATGATTGACCCTCACGAGACACCCCGCGCGGCGGCGACCCGCGAACTAAACGAAGAAACCGGTATCGCTGCCACCTGCCTCGACTTCCAAGGACGGGCGCTCTTCGCCCTAAAGCGACCCGACCGACTTGAGCACGCTGCAGTCTTCTCTATCCGGCTCAATTACCTTCCGGATCTCAAGGTAAACGAGGAAGCTTCCGCCTTTCTCTGGTGGACGCCGAGCCCGTCCCCCAAAGAGAATATGAGCGCCTTGGATGCTGCCATTTCCCACTGGTGTGCCGGGGTAGTGAAGTTCATCTGA	MKSLPVTDRSGNQLVAIDLVDESELNNPLPDITLPLSLIIVMQAGKVLMIFNRWRQEWELPGGMIDPHETPRAAATRELNEETGIAATCLDFQGRALFALKRPDRLEHAAVFSIRLNYLPDLKVNEEASAFLWWTPSPSPKENMSALDAAISHWCAGVVKFI				NA	NA	NA	NA	NA
D1-29_02699	336			hypothetical protein	ATGCTCCAGAGAAACCTCCAGGCCCTGCTGGCAAACGCGAGTGCGGCCGGCGTGGATGTTGTGATCGTGACCTGGGTCTACCAAAACGGAGAATTTCACAAACTGGTGGCAGGCCTGGCGCCAATGAAATCGGATACGGTGACGATCCAGCTCAGAGCGAGTGCCTCGGTTTGGCACGAACGGTTCACGCTTGATTCAGCCCGTCCAGCCATTGACGATTTCTTTGAGCATCGCTATCTTGCCGCTCAGTCGACGCCCGCAGATTACATCATTGAGACTGACGAGTTGAGCGAGAGTCAGATAGCTACAAAGATTTTCAGGCTGTTGAACTTCTGA	MLQRNLQALLANASAAGVDVVIVTWVYQNGEFHKLVAGLAPMKSDTVTIQLRASASVWHERFTLDSARPAIDDFFEHRYLAAQSTPADYIIETDELSESQIATKIFRLLNF				NA	NA	NA	NA	NA
D1-29_02700	192			hypothetical protein	GTGGCGCAGGAACCCAAGGAATCCCTACCGGGCGGTTACTTCCCCGGTTTGAGTGGACTCGGCCGGAGCTATATGAAATTCGACGACGTCTACGAACGCGTCGACCGGCATAGCCGGGTAGTGCCGACGAAGACCTTCGAGGTAGCCCTCCACCGTTCCACCGTCCGAAAGGCGGAGTCGTTCTGGAGTTAG	MAQEPKESLPGGYFPGLSGLGRSYMKFDDVYERVDRHSRVVPTKTFEVALHRSTVRKAESFWS				NA	NA	NA	NA	NA
D1-29_02701	231			hypothetical protein	ATGTCCGACGCTCTAAGACTCGCGGCTCTTGGGATGCTGATACCCATGGAACCCCTGGAGATGGAACGGCGGGTCATTGAGGCAGCAGAGGTGCTGGCTCGATCGCTCGGTAGCAACCCAAACCACACCGTGGCGGCCGCCGCCATGGACACCAACGGCCGGATACACACGGCTGTGAACGTCATCACTTCACCGGCGGCCCCTGCGCCGAGCTCGGCGCCCTGGGCGTAG	MSDALRLAALGMLIPMEPLEMERRVIEAAEVLARSLGSNPNHTVAAAAMDTNGRIHTAVNVITSPAAPAPSSAPWA				NA	NA	NA	NA	NA
D1-29_02702	282			hypothetical protein	ATGCAGCCCAGGGGTGACCTACGACTGGGCGTGGCTAGTCACCACGGCAGTGCCGGGTTGTTCCATTCGGAGATCTCGGCGTTTGCCACAGCGACCCTCTGCCTGCTGAACGTCCTGCTCCACCCTGACGCTCTTGTCATCACCGGGCTCATTGACGTTCACCGCCTGGGGTTGCGCGGACCGTTACGCAGACTCGCCCGGGCCACCAGGAGTATCGCCAGTGGCCAGAACCCTAGTTCAATGTTCATCACGCTGACCGTTACCTCACCCATTACGGGATAG	MQPRGDLRLGVASHHGSAGLFHSEISAFATATLCLLNVLLHPDALVITGLIDVHRLGLRGPLRRLARATRSIASGQNPSSMFITLTVTSPITG				NA	NA	NA	NA	NA
D1-29_02703	399			hypothetical protein	ATGTTTGTCGCGAGGATCGCCACTGTCACAATGAAAACCAACAACGCCGGAGAAGTCGCTCGGTTTTGGCATGAAATGCTCGACTATCGAATCGCGCCCAACCACAGCACCTCTGTGAAGCTCGTTGGAGACGATGGGCCCGCACTGCTCATCCAGCCGTCGGACACACCGATCGAACAAGGGGCCATCCATTTGGATCTGCGGCCGGAAGATCAATCGGCCTGTGTGGGCCAAGCCCTCAAGCTCGGGGCCGTGCATGCGGACATCGGGCAAACCGGCGACGAAGGATGGGTCGTCATGGCCGACCCCGGCGGCAACCTCTTTTGTATTCTTCAGTCTCGCGCCGACTACCAAGCATTCCTGTTCAACGATCCTGGCACCCCAACGCCGATCGATTAG	MFVARIATVTMKTNNAGEVARFWHEMLDYRIAPNHSTSVKLVGDDGPALLIQPSDTPIEQGAIHLDLRPEDQSACVGQALKLGAVHADIGQTGDEGWVVMADPGGNLFCILQSRADYQAFLFNDPGTPTPID				NA	NA	NA	NA	NA
D1-29_02704	222			hypothetical protein	ATGGCGTATCGAGACCCGACCCACTATCCGGCCTCCTACTTCCGCAACCAAAAACGTCTCCGGAACCCAGGCCTCGGACAAACCGATGCCTTGACGAAGACGTTCCGTTCTGTCGAGAAAATCCAACCAGTCGATGTCCGGCTGATAGCCATGGAGGAACTCAAAGCCTTCACGTGCGAGTTCTTCATGAGCTCGCGTTGCCTCATGCACGTCGTGAAGTGA	MAYRDPTHYPASYFRNQKRLRNPGLGQTDALTKTFRSVEKIQPVDVRLIAMEELKAFTCEFFMSSRCLMHVVK				NA	NA	NA	NA	NA
D1-29_02705	162			hypothetical protein	GTGGAAGCACGGAACCTTGGGATCCGCGAGGCACTGCTCACCTGCGACGCCGGCAACGTTGCATCCCGGCGGGTGATCGAAAACCACGGGGGCGTTCCGGATGCCCTCAACAGTCTGGACACACTAACAACGTTCAAATTGAGGTATTGGATAACCACCTGA	MEARNLGIREALLTCDAGNVASRRVIENHGGVPDALNSLDTLTTFKLRYWITT				NA	NA	NA	NA	NA
D1-29_02706	1005	degV	COG1307	Protein DegV	TTGCCAGACCATGATGCCGCCGCCTGGACCTGGCTCCGCGCCCGGCTGGGGGCCCTTCGTCCCGTACCCCGGCCGGAGACGGCCGCCGCGCCGTCCCCCGGCGGCGGTACTGCTGTGGTCACCGATTCAGCAGCGGCGCTTCCCGCAGAGTGGGTAGCGTCCTTCTCGGGCGACGGGCGGCTCACCGTGATCCCCATGCCCGTGATGGTGGGCGAGGAAATCTACGGTGAGGGCGAGGGCGACATCACCGAAACCATCTCGCTGGCACTGGCTACAGGCAAGTCGGTCAAGACCTCGCGCCCGTCTCCCGGGCAATTTGAGCAGGCGTTCCTCGCCGCTGAACGCCGGGGTTACCAGGCTGTGGTCTCACTCCACATCTCCGGCGGGTTGTCGGGGACTGCGGATGCGGCCCGGCTGGCGGCGGGCAGGGTTGGCATCCCCGTGGAGGTGATTGATTCCGGCACCGTGGGGATGGCCCAGGGCATGGGCGTGCAGGCCGCAGTGCTCGCCGCGGCCGAGGGGCAGGACGCTTCAGCCGTCAGGGCGGTGGCGGAGGAGCAGCTGGCACGGACCAAGGTCTACTTCTATGTCCCCAGCCTTGAGCAGCTGCGTCGCGGCGGAAGAATCGGGGCGGCGGCGTCCCTCCTGGGAACCATGCTTGCCATCAAGCCCATCCTCGCGGTCGACGACGGAAAAATCGTGCCGCTGGAAAAAGTCCGCTCAGCGGCCAGGGCCGTCGCCCGGCTGGAGGAGATAGCAGCGGCCGATGCTGCGTCCCGACCCGACGGTCAGGTGCGCCTCGCCGTCCATCACTTCGGCAATCCGGCGGAAGCGGAAGGGTTGGCTGCCAGGCTGGCGGCTGCGCTGCCTAACATCCCGCCCGCGCAGATCAGTTCACTGCCGGCGGTTCTCGCGGCGCACGCGGGGCTAGGGGTCCTTGCGGTGATCGTAGGGGAGACAGGTCCGCTGGCCCCACCTGAAAATCTGCCCGGGCTTTCCACGTAG	MPDHDAAAWTWLRARLGALRPVPRPETAAAPSPGGGTAVVTDSAAALPAEWVASFSGDGRLTVIPMPVMVGEEIYGEGEGDITETISLALATGKSVKTSRPSPGQFEQAFLAAERRGYQAVVSLHISGGLSGTADAARLAAGRVGIPVEVIDSGTVGMAQGMGVQAAVLAAAEGQDASAVRAVAEEQLARTKVYFYVPSLEQLRRGGRIGAAASLLGTMLAIKPILAVDDGKIVPLEKVRSAARAVARLEEIAAADAASRPDGQVRLAVHHFGNPAEAEGLAARLAAALPNIPPAQISSLPAVLAAHAGLGVLAVIVGETGPLAPPENLPGLST				NA	NA	NA	NA	NA
D1-29_02707	2526	leuS		Leucine--tRNA ligase	GTGGGCGTTCAGCCGGAAACAGAGACCGGAACAGCAGCAGTGGCGGCGGAGGGACCCGACGAGGGTGCCTACAGCTTTGCCGCCATGGAGGCCAAATGGCCGCAGGTGTGGGAGGACCTCAAGGTCTTCACGCCCGTCGACGACGGTTCACGGGAGCGCCGCTATGTGCTGGACATGTTCCCGTACCCCTCAGGTGACCTTCACATGGGCCACGCCGAGGCGTTTGCCATGGGTGATGTTGTGGCCCGCTACCTGCGCCAGCAGGGTTATGACGTGCTGCACCCCATCGGCTGGGACTCCTTCGGCCTCCCGGCCGAGAATGCGGCCATCAAGCGCAATGCGCACCCCAGCGAATGGACCTATGCCAACATTGAAACGCAGGCGGCGTCCTTCAAGCGGTACGCCATCTCCGCTGACTGGTCCCGGCGGCTGCACACCTCCGATCCCGGGTACTACCGCTGGACGCAGTGGCTGTTCAAGCGTTTTTACGAGCGCGGTCTGGCCTACCGCAAGGATTCGCCGGTTAACTGGTGCCCGAAGGACCAGACCGTGCTGGCCAACGAACAGGTGGTCAACGGTGCCTGCGAACGCTGTGGAACGCCCGTCACCAAGAAGTCCCTGAACCAGTGGTACTTCAAGATCACCGACTATGCCGACCGGCTCCTGGATGACATGGACGAGCTCCGCGGCCACTGGCCCGAGCGTGTGCTGGCCATGCAGAAAAACTGGATAGGCAGGTCCGAAGGCGCGCACGTCAACTTTGTCATCGAGGCCGACGGCGGCAAGCCCGCCAAGGATGTCACCGTCTTCACTACCCGCCCGGACACCCTGTATGGTGCCACCTTCTTTGTGGTTGCCGCCGACGCCCCGCTCGCCGTCGAACTGGTCACGGAGGAGCACTCCGCCGCCCTGGATGCGTACCGCGAGCAGGTCAAGGCCCTCACCGAGATTGAACGCCAGTCCACGGAGCGGGAGAAGACGGGCGTCTTCACCGGCCGCTATGCCATCAACCCGCTCAACGGCGAGAAGCTGCAGGTCTGGGCTGCCGACTACGTCCTGGCCGATTACGGCACGGGTGCCATCATGGCAGTCCCGGCCCATGACCAGCGCGACCTCGACTTCGCCAGGACATTCGGCCTTCCGGTCAGGACTGTCCTGGACACCGGGGAGGAGGACCCCGCTGTTTCCGGCAAGGCGACGGCAGGCGAAGGCACCCTGATCAATTCCGGCGCCCTGGACGGGCTGCCCAAGGCCGAGGCCATCCCCCCCGCCATTGGCATCCTGGAAAAGCAGGGAACGGGCGAAAAGTTCGTCAACTTCCGCCTGCGCGACTGGCTGCTCAGCCGCCAGCGGTTCTGGGGCACGCCCATCCCCATCATCCACTGCGCCGAGTGCGGGGAAGTCCCGGTGCCGGACGACCAGCTGCCCGTTACGCTGCCTGACAACCTGCGCGGCGAGGACCTTTCCCCAAAGGGCACCTCTCCTCTGGCGGCGGCCGAAGCCTGGGTCAACGTGGAATGCCCCAATTGCCAGGGTCCGGCAAAGCGGGACACGGACACCATGGACACGTTCGTTGACTCTTCCTGGTACTTCCTGCGTTTTGTGTCCCCGGACTACACCGAAGGGCCCTTTGATCCCGAGAAGATCAATGACTGGATGCCGGTGGGGCAGTACGTGGGCGGCGTGGAGCACGCCATCCTGCACCTGCTCTACGCACGGTTCTTCACCAAAGTGATCCATGACCTCGGCATGATCGACGCCGATGAGCCGTTCAGTGCGCTGCTCAACCAAGGGCAGGTCCTCAACGGCGGCAAGGCCATGAGCAAGTCCCTGGGGAACGGCGTGGACCTCGGCGAGCAGCTGGACAAGTACGGCGTGGACGCCGTGCGCCTGACCATGATCTTCGCTTCCCCGCCCGAGGACGACGTGGACTGGGCTGACGTTTCGCCGTCGGGTTCTGCAAAGTTCCTGGCCCGCGCGTGGCGCCTGGCGCAGGACGTGGCCAGTGTTCCGGGCGTGGATGTTACTGCCGGTGACCGTGCCCTGAGGTCCGTGACGCACCGCAGCATTGCCGATGCAGCCGATCTGCTGGACAACAACAAGTTCAACGTTGTGGTGGCCAAGCTGATGGAGCTGGTGAACGCCACCCGGAAGGCGATCGATTCCGGTGCCGGGGCAGCCGATCCTGCCGTTCGCGAGGCCGCTGAAGCAGTGGCGGTTATCCTGAGCCTCTTCGCACCGTACACGGCAGAGGACATGTGGAACGCCCTGGGCCATCCGGCCTCGGTGGCGAACGCAGGCTGGCCTGCCCACGACGTATCGCTGCTGGTACAGGACACGGTCACCGCCGTCGTCCAGGTGCAGGGGAAAGTCAGGGACCGCCTGGAGGTGTCCCCGGACATCACTGAGGAGCGGCTGCGCGAGCTTGCGCTGGGCTCGGAGAACGTCCAGCGGGCGCTTGACGGCCGCGGCATCCGCACCGTGATCGTCCGCGCCCCTAAACTGGTGAACATCGTCCCGGCCTAG	MGVQPETETGTAAVAAEGPDEGAYSFAAMEAKWPQVWEDLKVFTPVDDGSRERRYVLDMFPYPSGDLHMGHAEAFAMGDVVARYLRQQGYDVLHPIGWDSFGLPAENAAIKRNAHPSEWTYANIETQAASFKRYAISADWSRRLHTSDPGYYRWTQWLFKRFYERGLAYRKDSPVNWCPKDQTVLANEQVVNGACERCGTPVTKKSLNQWYFKITDYADRLLDDMDELRGHWPERVLAMQKNWIGRSEGAHVNFVIEADGGKPAKDVTVFTTRPDTLYGATFFVVAADAPLAVELVTEEHSAALDAYREQVKALTEIERQSTEREKTGVFTGRYAINPLNGEKLQVWAADYVLADYGTGAIMAVPAHDQRDLDFARTFGLPVRTVLDTGEEDPAVSGKATAGEGTLINSGALDGLPKAEAIPPAIGILEKQGTGEKFVNFRLRDWLLSRQRFWGTPIPIIHCAECGEVPVPDDQLPVTLPDNLRGEDLSPKGTSPLAAAEAWVNVECPNCQGPAKRDTDTMDTFVDSSWYFLRFVSPDYTEGPFDPEKINDWMPVGQYVGGVEHAILHLLYARFFTKVIHDLGMIDADEPFSALLNQGQVLNGGKAMSKSLGNGVDLGEQLDKYGVDAVRLTMIFASPPEDDVDWADVSPSGSAKFLARAWRLAQDVASVPGVDVTAGDRALRSVTHRSIADAADLLDNNKFNVVVAKLMELVNATRKAIDSGAGAADPAVREAAEAVAVILSLFAPYTAEDMWNALGHPASVANAGWPAHDVSLLVQDTVTAVVQVQGKVRDRLEVSPDITEERLRELALGSENVQRALDGRGIRTVIVRAPKLVNIVPA				NA	NA	NA	NA	NA
D1-29_02708	1515	glpK	COG0554	Glycerol kinase	ATGAACCAGTACGTAATCGCCATCGACCAGGGCACCACCAGCTCCCGCGCCATCATCTTTGACCACAGCGGTAACATCGTCTCCTCCGGCCAGATGGAGCACGAACAGATTCTCCCCCAGGCGGGATGGGTTGAACACAATCCGGCCGAGATCTGGAACAACACCCGCGAGGTCATCGGCTCCGCGCTGTCCAAGGCGAACCTGACGCGGCACGACATCGCGGCCATCGGGATCACCAACCAGCGCGAGACTGCCGTGGTGTGGGACAAAACCACCGGTGAGGCTGTCTACAACGCCATCGTCTGGCAGGACACGCGCACGCAGGACATCGTGAACGAGCTGGCCAGGGACGGCGGGCCGGAGCGGTTCAAGCAGAAGGTGGGCCTTCCGCTTGCCACCTACTTTTCCGGGACAAAGATCAAATGGATCCTGGACAACGTCGAAGGCGCCCGGGCCAGGGCCGAGGCCGGTAGCCTGGTCTTCGGCAACACCGACGCCTGGGTCCTGTGGAACCTGACTGGCGGAGTGGACGGCGGCGTCCACGTCACTGACGTCACCAACGCCTCCCGCACGCTCTTTATGGACCTCGAAACACTCACCTGGGACGAGGAAATCCTCGAGATCTTCGGCGTTCCGCTGAGCATGATGCCGGCCATCAAGTCCTCTTCGGAGGTGTACGGGAAAGTCCACACTTCGCAGTTGCTGCGTGAGGTTCCCGTGGCGGGCATCCTCGGCGACCAGCAGGCTGCCACGTTTGGCCAGGCTGCGTTCCAGGCCGGCGAAGCGAAGAACACCTATGGCACCGGCTGCTTCCTGATCTTCAACACGGGCGAGGACATCGTCCACTCAAAAAATGGCCTGCTGACCACGGTGGGCTACAAGCTCGGCGACGCCGCCCCGCACTACGCCCTGGAAGGCTCCATCGCCGTCACGGGGTCACTCATCCAGTGGCTGCGCGACAACCTGGGCCTGATCAGCAGCGCGCCGGAAGTGGAAACCCTGGCGGCCTCCGTCAAGGACAACGGCGGCGTGTACATTGTTCCGGCGTTCTCCGGACTCTTTGCCCCGTACTGGCGCTCCGATGCCCGTGGTGCCATCGTGGGCCTGACCCGGTTCGTCAACAGGAACCACATTGCCCGGGCCGCGCTGGAGGCCACGGCGTTCCAGACCCGCGAGGTACTGGATGCCGTCAACGCAGACTCCGGCGTTCCACTGACCGAGTTGAAGGTCGACGGCGGCATGGTCGCCAACGATGCCCTGATGCAGTTCCAGGCGGACATCCTTGGAGTCCCGGTCATCCGGCCGAAGGTGGTGGAGACCACCGCCCTGGGGGCAGCCTACGCCGCGGGCCTCGCCGTCGGCTTCTGGAAGGACCTGGGCGAACTCTCGGCAAACTGGTCCGAGGACAAACGCTGGAAACCCCAGCTGGACCAGGCTGAGGCTGACCGCCAGCTGCGGCTGTGGAAGAAGGCAGTCACCAAGTCAATGGACTGGGTGGATGAGGACGTGAAGTAG	MNQYVIAIDQGTTSSRAIIFDHSGNIVSSGQMEHEQILPQAGWVEHNPAEIWNNTREVIGSALSKANLTRHDIAAIGITNQRETAVVWDKTTGEAVYNAIVWQDTRTQDIVNELARDGGPERFKQKVGLPLATYFSGTKIKWILDNVEGARARAEAGSLVFGNTDAWVLWNLTGGVDGGVHVTDVTNASRTLFMDLETLTWDEEILEIFGVPLSMMPAIKSSSEVYGKVHTSQLLREVPVAGILGDQQAATFGQAAFQAGEAKNTYGTGCFLIFNTGEDIVHSKNGLLTTVGYKLGDAAPHYALEGSIAVTGSLIQWLRDNLGLISSAPEVETLAASVKDNGGVYIVPAFSGLFAPYWRSDARGAIVGLTRFVNRNHIARAALEATAFQTREVLDAVNADSGVPLTELKVDGGMVANDALMQFQADILGVPVIRPKVVETTALGAAYAAGLAVGFWKDLGELSANWSEDKRWKPQLDQAEADRQLRLWKKAVTKSMDWVDEDVK	PGPT0018435_2244	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864	NA	NA
D1-29_02709	1830			hypothetical protein	TTGGCCTGCAAGGATTCATTGGCCGCGAGCGCCATCTCTGAACAGGCGGCTGGGCCGCGTGCTTCAGTGCAGGGCCTGCGCCGGCGCCCGCACGCGCGGGTGCTGATCGTCGGTGGAGGTATTAATGGTGTCGGCACATTCCGCGACCTTGCCCTGCAGGGCGTCGACGTGGCGCTGGTGGAACGCGGTGACTATTGCCAAGGGGCCAGCGGCGCGTCGTCCCACATGATCCATGGCGGCATCCGCTACCTGGAAAATGGGGAATTCCGCCTGGTCCGGGAGTCCGTGGTGGAGCGCAACCGGCTGCTCCGCATTGCACCCCACTATGTGAAGCCCCTGCAGACCACAATCCCCATCTTCAGCACCTTCTCCGGCGTGCTCTCGGCTCCCTTGCGGTTCCTCACGCACAAGCAGCAGGGCAAACCCAAAGAGCGCGGGGCGTTCCTGATCAAGCTTGGCCTCAGCCTGTACGATTCCTTTTCCCGTGACGGCGGCAGCGTGCCGCGGCACCAGTTCCGTGGACGCAGGAAATCCCTCGCGGACCTGCCGCACCTCCACCCCGGCATTAAGTACACGGCCACATACTTCGACGCCTCGGTGCATAACCCGGAACGCCTGACGCTGGATGTCCTGCAGGATGGCGAGAAGGCAGGGTTGGCCAGCACCGGCGCACCGAGCACTGCCCGGGCCAGCAACTACCTTTCGCTTCACACCGTGCAACCGCCAGCAGCTTCTGCCGGCGCAGGTTCAGGCGCTGTTTCTCCCAGCGCTGGCTCCACCGTCCAGCTGCGGGACGAACTGACCGGCGAGCTGTTCGATTTTACGGCGGACATCATCATCAACACCACCGGGGCATGGGTGGATCTGACCAACCAGGCGATGGGTGCCGCTTCGTCCTTTATGGGCGGCACCAAAGGCTCCCACATTGTCCTGGACCACCCGGGCCTCCTTGAAGCCTGCCAGGGCCGGGAGATCTTCTTCGAACACACGGACGGCCGGATCGTGCTGATCTACCCCATGGGGGACCGTGTCCTGGTGGGAACCACGGATGTAGACGCGGACATGGCCCAGGATGCGATCTGCACAGACGAGGAGATCGCCTACTTCATTGACCTGATCGGCCATGTCTTCCCGGCCATCACAGTCCGGCGGGACCACATCGTCTACACGTTCTCCGGCGTGCGTCCCCTGCCCAGGCACGACGAAACACAGCCCGGCTTTGTCTCCCGCGACTACCGGATCGAACGGCGCGGCCCTGAGCACAACGGGACGGGCGCCGTCGTCCTCAGCCTGGTGGGTGGCAAATGGACCACTTTCAGGGCCATGGCCGAGCACCTGGCAAACGATGTCCTCGCCGAGCTGGGCATGGAGCGGAAGGTGTCGACGGCGCAGCTTGCCATCGGGGGCGGCGCAGGCTTCCCGGCGGACGGGCATGGAGTCCAGAAATGGATCAAGGGCCATATGTCCGCAGGCCGCGATGCCCACCGGACCGAAGTGCTCCTGACGCGCTACGGAACCCGGGCGGAGGAAGTCATCGGCTTCCTCGATGCCGGCCCGGACCGGCTGCTCCACTCGAGCCGTGAACTCAGTGTCCGCGAGCTGGAGTTCATGGCCCGGCATGAGCACGTGGCCCACCTGACCGACGTCCTGATCCGCCGCACGTCCCTTGCCTTCAGGGGACTGGTCACCGGCGAACTGCTCAACGAGCTTGCCGACGTCCTGGCCGCGCCGCTGGTTTGGGATGCCGGAACGAAGGCAGCAGAAATCCGGCACGCACAGGAAGTGCTTGAACGCTTCCACCGCGTCCAGATTCACAGCCTGGTCGGATAG	MACKDSLAASAISEQAAGPRASVQGLRRRPHARVLIVGGGINGVGTFRDLALQGVDVALVERGDYCQGASGASSHMIHGGIRYLENGEFRLVRESVVERNRLLRIAPHYVKPLQTTIPIFSTFSGVLSAPLRFLTHKQQGKPKERGAFLIKLGLSLYDSFSRDGGSVPRHQFRGRRKSLADLPHLHPGIKYTATYFDASVHNPERLTLDVLQDGEKAGLASTGAPSTARASNYLSLHTVQPPAASAGAGSGAVSPSAGSTVQLRDELTGELFDFTADIIINTTGAWVDLTNQAMGAASSFMGGTKGSHIVLDHPGLLEACQGREIFFEHTDGRIVLIYPMGDRVLVGTTDVDADMAQDAICTDEEIAYFIDLIGHVFPAITVRRDHIVYTFSGVRPLPRHDETQPGFVSRDYRIERRGPEHNGTGAVVLSLVGGKWTTFRAMAEHLANDVLAELGMERKVSTAQLAIGGGAGFPADGHGVQKWIKGHMSAGRDAHRTEVLLTRYGTRAEEVIGFLDAGPDRLLHSSRELSVRELEFMARHEHVAHLTDVLIRRTSLAFRGLVTGELLNELADVLAAPLVWDAGTKAAEIRHAQEVLERFHRVQIHSLVG	PGPT0006775_625	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
D1-29_02710	963	deoR	COG2390	Deoxyribonucleoside regulator	ATGGCAACCAGCCGCCACTCGGATGCGCTCCGGGCCGCACAGATGTATTACCTCCAGGACCTGACCATGGATGCCATTGCACGGGAGCTGCGAACATCCCGGTCCACGGTTTCCCGCCTTCTCTCAACTGCCCGGAACTCGGGTCTTGTGCAGATCCAAATTCGAAACCCGATGGACATCGGCCCGGAACTTGAAGGAATGATCCGGAACGAGTTCAACGTGGACGTGCACGTTGTCCCGGTGCTGGAAACCCTTAATGAGGCGGAAACGCTCGACCGCGTGGCCAGGCAGGCTGCCCGCACCATTGGACCGCTGGTGGACTCCAACGCGATTATCGGCGTGGCGTGGGGATCGACCTTGAGTGCAGTAAGCCGTCACCTGACCCCGAAAATTACCCACGACAGTGTGATCGTCCAGCTCAACGGAGCCGGAAACATGCACACCACGGGCATCACTTACGCAAGCGACATCATGCGCCGCTTTGGCAACGCATACGGAGCGCGTGTGGAGCAGTTCCCCGTTCCGGCCTTTTTCGACCACGCCGGCACCAAAACGGCCATGTGGAATGAGCGCAGCGTGCAGCGGATCCTGGATCTCCAGTCCAGGATGAGCATGGCCATCTTCGGGGTGGGTTCCGTGGACGCCGACTTTCCCAGCCATGTCTACGCCGGTGGTTACCTTGATGAAAACGACCTGAAAATCCTGGCCAACTCAGATGTTGTGGGCGACGTTGCCACCGTTTTCTTCAGGGGTGATGGGTCCTCTGACGGCATCGTGCTGAACGAACGGTCCACCGGGCCGGCCCTGGACCAGCTGCGGCAGGTGCGGCGGCGGATCTGCGTGGTGTCCGGCGCCTCCAAGATCAATGGCCTGCGCGGGGCCCTCACTGCCGGCTTGGCGACCGACCTCATCCTGGATGAAGCCACAGCACGCCGACTCGTGGCATTCGACGGCGTCTCCTGA	MATSRHSDALRAAQMYYLQDLTMDAIARELRTSRSTVSRLLSTARNSGLVQIQIRNPMDIGPELEGMIRNEFNVDVHVVPVLETLNEAETLDRVARQAARTIGPLVDSNAIIGVAWGSTLSAVSRHLTPKITHDSVIVQLNGAGNMHTTGITYASDIMRRFGNAYGARVEQFPVPAFFDHAGTKTAMWNERSVQRILDLQSRMSMAIFGVGSVDADFPSHVYAGGYLDENDLKILANSDVVGDVATVFFRGDGSSDGIVLNERSTGPALDQLRQVRRRICVVSGASKINGLRGALTAGLATDLILDEATARRLVAFDGVS				NA	NA	NA	NA	NA
D1-29_02711	867		COG0656	putative oxidoreductase/MSMEI_2347	ATGAAAACCTCACCCCGGCTCAGCCTGAACAACGGCGTGCTGATCGACCAGCTGGGATACGGGCTGTACAAAGTCCCGACGACGGAAGCTGCGTCACTGGTGGCCATGGCACTGGGCGCGGGGTACCGCCACTTCGACACAGCGGCGATGTACAGGAACGAAACAGGGGTGGCGCGGGGCATCAGTTCGCTGTCCACGCTGGAGGAGACCGGCGGCTCAGGTGAGGCGTCGCCCGGCATGTCCCGGAACGATCTCTTCATCACCACGAAGGTGTGGAACGACGACCAAGGGTATGACGCAACCCTCCGCGCCTTCGATACATCCATGGTGAACCTCGGCCTTGACTACGTGGATATGTACCTCATCCATTGGCCCTGCCCCAGGCGGGGGCTCTTTACGGAAACCTACCGGGCCATGGAGACCCTCTACCGGGAAGGCAAGGTCCGCGCGATCGGAGTCTGCAACTTCCAGCCTGCCCACCTTGACCGGTTGCTCGACTCGGCCGAGGTGGTCCCGGCTGTCAACCAGATCGAGCTCCACCCCTGGCTGCAGCAAGCGGAGCTGAGGGAGAAGCACCAGGGCCTGGGGATCAGGACCGAGGCCTGGAGCCCCCTGGGCCGGGGAAGGGTGCTTGCGGATCCGGTGGTTCAGGCATGCGCAGCGGAGCACGGGCGCACCCCCGCGCAGGTCATCCTGAGGTGGCACATCCAGCTCGGCAACATCGCGATCCCCAAAGCAAGCTCCGAGGCCCGGATCCGGGAGAACATGGACATCTTCGGATTCAAACTCTCCGAGCGTGACATGGCCGCCCTTGCCGAACTTGAGCGCGGGCAACGCACCGGCTCCCACCCGGACAACGTCAACTAG	MKTSPRLSLNNGVLIDQLGYGLYKVPTTEAASLVAMALGAGYRHFDTAAMYRNETGVARGISSLSTLEETGGSGEASPGMSRNDLFITTKVWNDDQGYDATLRAFDTSMVNLGLDYVDMYLIHWPCPRRGLFTETYRAMETLYREGKVRAIGVCNFQPAHLDRLLDSAEVVPAVNQIELHPWLQQAELREKHQGLGIRTEAWSPLGRGRVLADPVVQACAAEHGRTPAQVILRWHIQLGNIAIPKASSEARIRENMDIFGFKLSERDMAALAELERGQRTGSHPDNVN	PGPT0001320_228	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
D1-29_02712	930	lip3		Lipase 3	ATGAAAACCGCCCACCCCCAGCCATCCAGCACGCCGTCCTACATCAGCCCGGAACTGGAAACCAGGGCCACCGCCTCGGTGATCGAACTGGACGGCACAGCAGTTGCCTACTGGACCTACGAGCCGGCCCGCGTGACGTCGGAGACCCGCACCATCCTGGTTATCCACGGCTTCCGCGGCGATCACCACGGCCTGCTCCGCGTGGCTGACCAGCTTCCAGGGATGCGGATCATCATGCCCGACCTCCCCGGCTTCGGCAGCTCGGACGCATTTGCAGCCGGCCCGCACACCGTGGAACGCTATGGCCGGTTCATCACTGACTTGATGGCTGCCCTGGACCTCGGCCCTGACACGGTGCTGCTGGGACACTCCTTCGGTTCGATCATCGCCGCGCACTTTGTGGCAGCCCATCCCGGTACCGTCAATCCCCTGATCCTGATCAACCCCATTGCCGCGCCGGCGCTGGAGGGGCCCAAGGGAATCATGACAAAACTTGCTGTCCTCTACTACCGGCTGGCGGCCCGGCTTCCCCGTGCACTGGGACTTTCCCTGCTGCGCAGCCCGCTGATCGTCCGGGTCATGAGCGAAGCCATGGCCAAAACCGGAGACAAGGATCTGCGGCGCTTCATCCACGGCCAGCACCACGCCTACTTCAGCGCCTTCGCCAACAGGGAAAGCCTCCTTGAGTCGTTCACCGCGTCCGTAGGCAGCCATGTGGCGGAGGTGGCCGGCAAACTGACGCTGCCGGTGCTGCTGATTGCCGGCGAAAAGGACGAAATCGCCACGCTCCCGGACCAGCACCGGCTGGCCGCGCTGTTGCCGGACTGCTCGCTCAAGGTGATTCCCGGCGTCGGACACCTGATCCATTACGAAACGCCCGGCCCTGCCGCCGGCTTTATCAGCAGCTTCCTGAAGGACCATCCCGCATGA	MKTAHPQPSSTPSYISPELETRATASVIELDGTAVAYWTYEPARVTSETRTILVIHGFRGDHHGLLRVADQLPGMRIIMPDLPGFGSSDAFAAGPHTVERYGRFITDLMAALDLGPDTVLLGHSFGSIIAAHFVAAHPGTVNPLILINPIAAPALEGPKGIMTKLAVLYYRLAARLPRALGLSLLRSPLIVRVMSEAMAKTGDKDLRRFIHGQHHAYFSAFANRESLLESFTASVGSHVAEVAGKLTLPVLLIAGEKDEIATLPDQHRLAALLPDCSLKVIPGVGHLIHYETPGPAAGFISSFLKDHPA				NA	NA	NA	NA	NA
D1-29_02713	1092	mshA_2		D-inositol-3-phosphate glycosyltransferase	ATGAAAATAGTCATCGATGCACGATTCACCCGCACCGACCACCATGACGGGATCAGCCGCTACGGAGCCAGCCTCATCGCGGCCACGGCAAAGATTGCCGACGTGTCCATGCTCATCAGCGACATCCGCCAACTGGCGCTGCTGCCGGACGTTCCCTACACGCTGATCAACAGCCCGCTGTCGCCACTCGAGCTGGTCGTGGCACGCAAGGTGAACCCGCTCGGTGCGGACGTTGTTGTCTGCCCCATGCAAACGATGGGCAGCTGGGGGCGAAAGTACGGCCTGGTACTCACGCTGCATGACCTCATCTACTACGAGCACTCCGCTCCGCCGGGCTTCCTCCCCGCACCGGTGCAGCTGCTGTGGCGCCTCTACCACAAGGCGTTCTGGCCGCAGCGGCTGCTCCTCAACCGGGCTGACATCGTCGCCACGGTCAGCAGGACCACCGAGGCCCTGATGGCCAAGTACCGGCTCACAGAGCGGCCGGTACGGATCATCAGCAACGCGCCGCAGCCGGCGCAGGAACATCGGGATCCGGCCGCCGGCGCAGACCATTCCCTGGTGTACATGGGCTCCTTTATGTCCTACAAGAACGTGGAAACCATGGTGGCCGGGATGGCCGAACTTCCGGATTTCACCCTTCATCTGCTGAGCAGGATTTCACCGCAACGCCGCGCGGAACTGGAAATCATGGTCCCGCCCGGGGCGAAGGTGGTCTTCCACAACGGTGTCACCGATGAGGAGTACTCCACCCTCCTCAAGCGGGCCACGGCGCTGGTTACGCTTTCCCAGGCTGAAGGGTATGGCCTCCCGCTGGTGGAGGCGATGTCCCTTGGCACGCCGGTGATCGCCAGCGACATTCCCATCTTCCGGGAAGTCGGCGGCGAGGCCGCCTCCTACGTGGATCCTGCCTCGCCCTCCGGCTTTGCCGCCGCCGTGGAAAAACTCCGCGACGACGGCCACTGGCAGGAAGTTTCCCGCCTTTCGGTGGCCCGTGCCCGGCAGTTCAGCTGGGAAGAATCCGCCCGGCAACTGGTGGACGTGGCCCACGATATTGTCACCATGCGTTCCCGCCGGGGACCGGCACGCTAA	MKIVIDARFTRTDHHDGISRYGASLIAATAKIADVSMLISDIRQLALLPDVPYTLINSPLSPLELVVARKVNPLGADVVVCPMQTMGSWGRKYGLVLTLHDLIYYEHSAPPGFLPAPVQLLWRLYHKAFWPQRLLLNRADIVATVSRTTEALMAKYRLTERPVRIISNAPQPAQEHRDPAAGADHSLVYMGSFMSYKNVETMVAGMAELPDFTLHLLSRISPQRRAELEIMVPPGAKVVFHNGVTDEEYSTLLKRATALVTLSQAEGYGLPLVEAMSLGTPVIASDIPIFREVGGEAASYVDPASPSGFAAAVEKLRDDGHWQEVSRLSVARARQFSWEESARQLVDVAHDIVTMRSRRGPAR				NA	NA	NA	NA	NA
D1-29_02714	2139	priA	COG1198	putative primosomal protein N'	ATGACCGCCGAAGAGAATGGCGCTGTCCAGCTTTCCCTGCTGCAGGGATTCCCGTCCAGGGCGCCTCAGTCAGGCCCTGCTCTGGCCGCGAACCTGCCCGTGGCCAGGGTGCTCGTCGAATCCTCATTGCCGCATCTGGACCGTCCCTTTGATTACAGTGTGCCTGCAGGGCTGGATGCTGAGGCCCAGGCCGGCGTGAGGGTCAAGATCCGGTTCAACGGCCAGGACTTGTCCGGCTTCATCATTGAGCGCGTGGCCGAATCCGATGCGGGCCATACGTTGGTGCCCCTGCAGAAGGTGGTCTCGCCGCTATCCGTCCTCACACCAGAGGTCCGTGAGCTCATCACGGCAGTAGCCGCCCGCTATGCAGGGACAGTCAGCGACGTCCTTCGGGTCGCCATTCCGCCCAGGGTGGCCCGGCTCGAAAAGGAATTTTTGGCCGAAGCCAGCGGGCCCGATGTGGACAGCCGATCCGCTGTGGACGGTGGGCCCGGGGCGGACGCCGCGGCTGTTTCCGGCACCCTCCCTGCTTCCGCAGGCGGCTGGGCAAGCTACGCCAATGGCCAGCCCTTTATCCGGCACCTGCAGGATGGCGGCGCGCCACGTGCTGTCTTCAGCCCGCTGCAAGGGTTTGGGCCCTCCGCATGGCCCCGGCTCATTGCCGAAGCCGTGGCTGCTGTGCGAGGATCAGGCCGCGGCGCCGTGGTGGTGGTCCCTGACTACCGCGACCTGCAGCGGCTGGAAGACGCTCTCGCTGAACTCCTGCCTGCCGATGACATCGCACGCCTCACCGCCGACGACGGTCCCACACTCCGCTACCGGAACTTCCTGCGCATCCTCGACGGATCGGCACGCGTAGCCATCGGCACCAGGTCTGCGGCGTATGCTCCCGTGCGGGATCCGGGCCTGGTGGTCTGCTGGGATGACGGGGACGATCTCCACATCGAACAGCGGGCACCTTACGCGCACGCCCGCGAGGTCCTCCTGCTGCGGGCTGAGCAGCAAGGCCTGGCCTGCCTGATGGCGGCTCACACCCGAAGCACTGAGGCGCAGCGCCTGGTCGAGGCAGGATGGGCCATGCCCGTCGACGCCGGGAGGGCCGTGGTGCGCCGGACTGTACCCCGGGTCCTGAATACCGCCGACAGCTTTGAACAGGAAAGGGATCCCCTTGCGCGGATCGCGCGGCTGCCCGGCGCCGCCTGGCGCGCGGCCAAGGAAGGGCTTGAACGCGGACCTGTCCTGGTGCAGGTGGCGCGGGCAGGCTATGCCCCGTCCCTGGTGTGTGAAACCTGCCGCGAAGCTGCCCGCTGCGGCTCCTGCCAGGGGCCCCTGGCCGTTACGGGCGCCACGGGCAGTTCCGCCGTTCCCCAATGCCTCTGGTGCTCCACCCCGGCGCCTGACTGGAGTTGCACGCATTGCGGCGGCCGGGCGCTCCGCAAAGGGGCCACCGGAGTCATGCGCACAGCTGAAGAGCTGGGGCGGGCCTTTCCCGGCAAGACGGTGATTACCTCCTCCGGCGGCCACGTCAAGGCCAGCGTGGGCAGGGCCAAGGCCCTCGTGGTGGCCACTGTGGGTGCCGAACCCGTCGCTGACGGCGGATACGCCGCGGCGTTGCTCCTCGACGGCGACTCCCTCCTGCGCCGGGAGAACCTGCGCGCGGGGGAGGACACCGTGCGCCGCTGGTTTAATGCGGCAGCGCTGGTGCGTCCGGCGTCGGAGGAAGGCCTGGTGGTGATCACCGCGGCGGACACCGGCGCAGTCGGTGCATTGCTTCGCTGGGACCCAGCGGGCTTCGCCCAGCGGGAGCTGGCCCTCCGGGCTGAGTTGCGGCTGCCGCCCGCGGTCCGGGTCGCCTCTGTCACCGGACCGCGTGCCGCCGTCGAGCATTACACCGGAGGCGTGGAAAAGCAGCTGGAATCGTCGGGTGTGACGCTTCGGGTGGCAGGCCCGGCGCCGCTGCTCCTGACTGGTCCCGCAACGCCGCGGCGCTCCGGGGAGGATGTCCGTACCCTGCTGTTCTTTCCCTATGGGCAGGCGGCCACCGTCACCAGGACGTTGCGGGCAGCGCGGGCTGCGGCGGCGGCCAAGCGGAGCGAGGAACCGGTACAGGTCAGGCTGGACGGCGTGGACGTCCTCTAG	MTAEENGAVQLSLLQGFPSRAPQSGPALAANLPVARVLVESSLPHLDRPFDYSVPAGLDAEAQAGVRVKIRFNGQDLSGFIIERVAESDAGHTLVPLQKVVSPLSVLTPEVRELITAVAARYAGTVSDVLRVAIPPRVARLEKEFLAEASGPDVDSRSAVDGGPGADAAAVSGTLPASAGGWASYANGQPFIRHLQDGGAPRAVFSPLQGFGPSAWPRLIAEAVAAVRGSGRGAVVVVPDYRDLQRLEDALAELLPADDIARLTADDGPTLRYRNFLRILDGSARVAIGTRSAAYAPVRDPGLVVCWDDGDDLHIEQRAPYAHAREVLLLRAEQQGLACLMAAHTRSTEAQRLVEAGWAMPVDAGRAVVRRTVPRVLNTADSFEQERDPLARIARLPGAAWRAAKEGLERGPVLVQVARAGYAPSLVCETCREAARCGSCQGPLAVTGATGSSAVPQCLWCSTPAPDWSCTHCGGRALRKGATGVMRTAEELGRAFPGKTVITSSGGHVKASVGRAKALVVATVGAEPVADGGYAAALLLDGDSLLRRENLRAGEDTVRRWFNAAALVRPASEEGLVVITAADTGAVGALLRWDPAGFAQRELALRAELRLPPAVRVASVTGPRAAVEHYTGGVEKQLESSGVTLRVAGPAPLLLTGPATPRRSGEDVRTLLFFPYGQAATVTRTLRAARAAAAAKRSEEPVQVRLDGVDVL				NA	NA	NA	NA	NA
D1-29_02715	1236	metK	COG0192	S-adenosylmethionine synthase	GTGACTTTACCGCTGCACATTCCCCAGACCCACGGGGCTACGCCCTCCGCACTCCGGCTCTTCACCTCGGAGTCCGTCACTGAAGGCCACCCGGACAAGATCTGCGACCAGATCAGCGATGCCATCCTGGACGCGCTGCTTGCGGCAGACCCGGAGTCCCGCGTGGCCGTGGAGACGATGGCGACCACCGGCCTGGTCCATGTTGCCGGTGAGGTCACCACCGACGCCTATGTCGAAATTCCGCAGATCGTCCGCGAGACCATCCTCGGAATCGGCTACGACTCCTCGGCCAACGGCTTCGACGGTGCCCGTTGCGGCGTCTCCGTATCCATCGGGCAGCAGTCAAACGACATCGCCGGGGGAGTCTTCAACTCCCTCGAAGCCCGCGAAGGCCGCCAGGAGGACGACTACGACCTTCAGGGTGCCGGCGACCAGGGCCTGATGTTCGGCTACGCCAGCGACGAGACGGCGTCCTACATGCCGACGCCGATCTGGCTCGCCCACCGCCTTTCCGAACGCCTCACCGAAGTCCGCAAGTCAGGCGAACTCTCCTACCTTCGGCCCGACGGCAAGACCCAGGTCACAGTGGGATATGACCGCGACGTGCCCGTCTCGGTCGAAACCGTCGTGATTTCCAGCCAGCACGCCGAAGGCACCAGCCTGGACAGGCTGCGGGCGGACCTCGCAAAAATTGTGATCGAGCCGGTGCTCGCCGCCGCCAACCTGGATATCTCCCGCGCGGCCAACATCCTGAACCCGGCCGGCGAATTTGTCATCGGCGGGCCCGTAGGCGATGCCGGCCTGACCGGCCGCAAGATCATTGTTGATACGTACGGCGGCATGGCCCGGCACGGCGGCGGCGCCTTCTCCGGCAAGGACCCGTCCAAGGTGGACCGTTCCGCTGCATACGCCATGCGCTGGGTCGCCAAGAACGTTGTAGCGGCCGGGCTGGCCAAAAGGGCCGAAATCCAGATTGCGTACGCCATCGGCCAGGCCCGCCCCGTGGGCACCTACGTGGAAACCTTCGGCACTGAAACCGTGGACCCGCTGCGGATCAGCGAGGCCATCGCTGAGATCTTTGACCTCCGCCCGCGCGCCATCATCGACGCCCTGGACCTCAAGCGGCCCATCTATGCCAAAACGGCCGCTCATGGCCACTTCGGGCGGGATGACCCTGACTTCACTTGGGAGCGGCTGGACCGTGTGGACGACCTCAAGGCCTTCTTCAACGCCTAA	MTLPLHIPQTHGATPSALRLFTSESVTEGHPDKICDQISDAILDALLAADPESRVAVETMATTGLVHVAGEVTTDAYVEIPQIVRETILGIGYDSSANGFDGARCGVSVSIGQQSNDIAGGVFNSLEAREGRQEDDYDLQGAGDQGLMFGYASDETASYMPTPIWLAHRLSERLTEVRKSGELSYLRPDGKTQVTVGYDRDVPVSVETVVISSQHAEGTSLDRLRADLAKIVIEPVLAAANLDISRAANILNPAGEFVIGGPVGDAGLTGRKIIVDTYGGMARHGGGAFSGKDPSKVDRSAAYAMRWVAKNVVAAGLAKRAEIQIAYAIGQARPVGTYVETFGTETVDPLRISEAIAEIFDLRPRAIIDALDLKRPIYAKTAAHGHFGRDDPDFTWERLDRVDDLKAFFNA	PGPT0020000_854	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
D1-29_02716	1233	coaBC	COG0452	Coenzyme A biosynthesis bifunctional protein CoaBC	GTGCGCATAGTCCTCGGAGTCGGGGGAGGGATTGCCGCCTACAAGGTGGCATCGCTCCTCCGGCTTTTTACTGAAGCGGGCCATAACGTGACGGTGGTTCCCACCGAGGCCGCCACGCGCTTTGTCGGCGTTGCCACCTGGGAGGCCCTGTCCGGCAACCCGGTCAGCAACAGCGTCTTCGATGACGTCCACCAGGTCAATCACGTGCGGCTGGGACATGAGGCGGACCTCGTTGTCGTGGCGCCGGCCACCGCGGACCTCATCGCCCGCGCGGCAGCCGGCCTGGCTGACGACCTCCTCACCAACACCCTGCTGATGGCCCGGGGACCCGTCCTTTTTGCCCCCGCCATGCACACGGAAATGTGGCACAACGCGGCCACCCGCGCCAACGTGGAGACGCTGCGCGGACGGGGCATCGCCGTGCTTGATCCTGCCAGCGGCCGCCTGACCGGCACCGACTCCGGGCCGGGCCGGCTGCCGGAGCCGCAGGACATCTTCGACGCCGCCATCGCCCTGACCCAGGGACAGTCGGACTACCAGCTTCCCCTGGCCGGGCGCACTGTCACCATCAGCGCGGGCGGAACCCGTGAACCGCTGGATCCCGTCCGCTTCCTGGGCAACCGCTCCTCAGGCAAGCAAGGCGTTGCCCTGGCCGTGGCTGCCCGCAACGCCGGCGCCACCGTGCGGCTGCTCGCTGCCCACATGGACGTTCCGGCGCCGGCCGGCGTCGAGGTCGTGACCTTGGAAACTGCCCTGCAGCTGCGCGAAGCGGTGCTGGCAGCGGCAGCCGATTCCGACGTCGTGATCATGGCGGCGGCTGTGGCGGATTTCCGTCCCGCCGAGATCTCCGACACAAAGATCAAAAAACGCGATGACACCGCGGACCCCGTCATTACGCTGATCCGGAACCCGGACATCCTCCAGGAGCTGGTAGAAGTCCGCGGGATGTCCCAGCGCAGCCAGCTGATCGTCGGGTTCGCTGCCGAAACCGGCGACGGCCACGGGGATGTGCTCGCCTATGCCGAGGCCAAACTGAAACGCAAAGGCTGCGACCTCCTGGTGGTGAACCATGTGGGAACCGACAAGGTCTTCGGCCAGGACACCAACTCCATCGTCATCCTGGCCCGTTCCGGCTCCGATCCGCAGCTTGCCTCGGGAACCAAGAGCGAGGTTTCGGCCGCCATTATTAGCCGGATCGGCCTCGAACTGAACCACGTTTCGCCCCGCGCCTGA	MRIVLGVGGGIAAYKVASLLRLFTEAGHNVTVVPTEAATRFVGVATWEALSGNPVSNSVFDDVHQVNHVRLGHEADLVVVAPATADLIARAAAGLADDLLTNTLLMARGPVLFAPAMHTEMWHNAATRANVETLRGRGIAVLDPASGRLTGTDSGPGRLPEPQDIFDAAIALTQGQSDYQLPLAGRTVTISAGGTREPLDPVRFLGNRSSGKQGVALAVAARNAGATVRLLAAHMDVPAPAGVEVVTLETALQLREAVLAAAADSDVVIMAAAVADFRPAEISDTKIKKRDDTADPVITLIRNPDILQELVEVRGMSQRSQLIVGFAAETGDGHGDVLAYAEAKLKRKGCDLLVVNHVGTDKVFGQDTNSIVILARSGSDPQLASGTKSEVSAAIISRIGLELNHVSPRA	PGPT0008815_905	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
D1-29_02717	261	rpoZ	COG1758	DNA-directed RNA polymerase subunit omega	GTGGCCACGAACCTTGAAGGCATCATCAACCCGCCGATCGACTCACTGCTTGAGGCAGCTGATTCCAAGTACGGCCTGGTGATCTTCGGCGCCAAGCGTGCACGTCAGATCAACGCTTACTACGCCCAGCTGCACGAGGGCCTGTTTGAATACGTCGGCCCGCTCGTTGACACCAAGCTCAACGAGAAGTCGCTGTCCATCGCCCTGCGCGAGATCAACGAAGGCAAGCTTGTATCCACGCCGATCGAAGCTGCGGAGTAA	MATNLEGIINPPIDSLLEAADSKYGLVIFGAKRARQINAYYAQLHEGLFEYVGPLVDTKLNEKSLSIALREINEGKLVSTPIEAAE				NA	NA	NA	NA	NA
D1-29_02718	573	gmk	COG0194	Guanylate kinase	GTGAGCAAGAAACCGGGACTGACAGTCCTCGCTGGTCCGACGGCTGTTGGCAAAGGCACCGTGTCCACCTATATCCGGGACAACTACCCCGGCGTCTGGCTGTCCGTATCAGCCACCACCCGTGAGCCGCGGCCCGGAGAGCGCGACGGAGTGCACTACTTTTTCAAGACCGCCGAGGAGTTTGACCGGCTGATCGAGGCAGGCGAACTCCTGGAGTGGGCAGTGGTCCACGGGAAGAACCGCTACGGCACGCTGCGGAGCACCGTTGACCGCGCCATCGCGGACGGCCGTTCCGTCCTGCTGGAGATCGACCTGCAGGGCGCCCGGCAGGTCAAGGAGGCCGTTCCGGACGCCCAATTCGTCTTCCTGGCGCCCCCCAGCTGGGACGAAATGGTGCGCCGGCTGGTGGGCCGGGGCACCGAAACGGCCGAGGAACAGCAGCAGCGGCTGGAAACCGCTAAACTAGAGCTTGCCGCTGAACCGGAGTTCGATCACACCGTCATCAATGATGACGTTCGCCGGGCAGCGGACGAGCTTGTTTCACTCATGGGGCTGACCCCGAACCCGCGCTAG	MSKKPGLTVLAGPTAVGKGTVSTYIRDNYPGVWLSVSATTREPRPGERDGVHYFFKTAEEFDRLIEAGELLEWAVVHGKNRYGTLRSTVDRAIADGRSVLLEIDLQGARQVKEAVPDAQFVFLAPPSWDEMVRRLVGRGTETAEEQQQRLETAKLELAAEPEFDHTVINDDVRRAADELVSLMGLTPNPR	PGPT0021475_4837	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
D1-29_02719	318			hypothetical protein	ATGAGCCTGCGACCCTTATCCGAGTCGGAACGGGCTGACGCTCTCAACAAAGCCGCTGCCGCCCGCGCGGCCAGGGCTGAAGCGAAAGCGCGGCTGAAGAACGGCGAAACCTCGGCTGCGGACCTTATCAGCTCCGCTGCCCAGGACGACGCCCTTGCCCGGATGCGGGTGGTTGAGCTGTTGGAGGCACTGCCCGGCATCGGAAAAGTCAGGGCTGCGGCCATTATGGACCAGCTGGGCATAGCGGCCTCGCGGCGGGTCAGGGGCCTGGGCGTTCACCAGCGCCAGGCGCTGGTAGATTTTATAGACGAGAAGTAG	MSLRPLSESERADALNKAAAARAARAEAKARLKNGETSAADLISSAAQDDALARMRVVELLEALPGIGKVRAAAIMDQLGIAASRRVRGLGVHQRQALVDFIDEK	PGPT0021475_394	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
D1-29_02720	900	pyrF	COG0284	Orotidine 5'-phosphate decarboxylase	ATGCGGCACGGGAGAATGCAGTCGCCCAGAATGCCTGAGGTTGCAGCCACCGCTGCCAACCCCGGCCGGGAGTCCTTTGGCTCCCGGCTGGGGGCGGCCATGGCCTCCCGTGGTCCCTTGTGCGTGGGCATTGACCCGCATCCGGCGCTGCTGCAGAGCTGGGGGCTGAACGACGACGCCGCCGGGCTGCGCCGCTTTTCGCTGACGGTCCTGGAGGCTGTGAGTTTCCTCGCTGCCGCGGTCAAACCGCAGGTGGCGCTCTACGAGCGCCACGGTTCCGCTGGAATGGCCGTACTTGAGGAGGTACTGGCCGTTGCCCGGGATGAAGGCGTCCTCACCATCGCCGACGCCAAGCGCGGCGACATCGGCTCCACCATGGCTGCCTACGCGGATGCCTGGCTGCGGGACGGCTCGTCGTTGGCCGCTGATTCGGTCACCTTAAGCCCATACCTTGGATTCGAGTCGCTCCGGCCTGCCCTGGACCTGGCAGCGGACCATGGCCGTGGTGTGTTTGTCCTGGCGCTGACCTCCAATCCGGAGGGCGCCTCGGTGCAGCACGTCGGCGGGGGCGATTCGGTGGCCCGCCGGATCATCGGGGCAGCCGCTGCTGAAAACCGCAGGTATGCGGATTCCCTCGGCTCCGTTGGCCTGGTGGTCGGGGCTACCGTTGGCAGCGCGCTGGCCGAACTCGACCTTGACCTGGAGGCTGTTCGCGGCGCCATCCTTGCCCCTGGCCTCGGCGCCCAGGGTGCCACCCCGGCGGATCTGCGCAGGACCTTCGGCCCCGCGTATCCGCAGGTTCTGGGCACGTCCAGCCGTGACATCCTGGCCGCCGGACCGGAAATCCAGGGGCTCCGCGATGCGTCGCGGCGCACCCTGGACGGCCTGCGCGGAGAATAG	MRHGRMQSPRMPEVAATAANPGRESFGSRLGAAMASRGPLCVGIDPHPALLQSWGLNDDAAGLRRFSLTVLEAVSFLAAAVKPQVALYERHGSAGMAVLEEVLAVARDEGVLTIADAKRGDIGSTMAAYADAWLRDGSSLAADSVTLSPYLGFESLRPALDLAADHGRGVFVLALTSNPEGASVQHVGGGDSVARRIIGAAAAENRRYADSLGSVGLVVGATVGSALAELDLDLEAVRGAILAPGLGAQGATPADLRRTFGPAYPQVLGTSSRDILAAGPEIQGLRDASRRTLDGLRGE	PGPT0014965_428	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0014965-pyrF-K01591	NA	NA
D1-29_02721	3360	carB_3	COG0458	Carbamoyl-phosphate synthase large chain	ATGCCCAAGAGAACTGACCTTAAGAGCGTCCTGGTCATCGGTTCCGGCCCGATCGTCATCGGCCAGGCCGCTGAATTCGACTACTCAGGCACCCAGGCACTTCGTGTCCTCAAGGAGGAGGGCCTCCGGGTCATCCTGGTGAACTCCAACCCGGCCACCATCATGACCGACCCCGAGTTCGCCGATGCCACCTACATCGAACCCATCACGCCTGAAGTGGTGGAGAAGATCATCGCCAAGGAGCGCCCGGACGCCGTCCTGCCCACCCTGGGCGGACAGACCGCGCTGAACACCGCCATCGCACTGGACAAGAACGGTGTGCTCGAGAAGTACAACGTGGAACTGATCGGTGCCAACATTGCCGCCATCGAACTCGGCGAGGACCGCGAGAAGTTCAAGGGCGTGGTGGAGCGCTGCGGTGCCGAATCAGCCCGCAGCCACATCATCCACACCATGGACGAGGCCCTCAAGGCCGCTGAGGACCTCGGCTACCCCATGGTGGTCCGCCCGTCCTTCACCATGGGCGGCCTGGGTTCCGGGCTGGCGTACACCGAGGATGACCTCCGCCGCATCGTGGGCCAGGGCCTGCAGTACAGCCCCACCAGCGAAGTATTGCTCGAAGAGAGCATCCTTGGCTGGAAGGAATACGAGCTTGAGATGATGCGGGACAAGAACGACAACGTGGTGGTTGTCTGTTCCATCGAGAACTTCGACCCCGTGGGCGTCCACACCGGCGACTCCATCACGGTGGCGCCCGCACTCACCCTCACCGACCGCGAATACCAGCGGCTGCGGGACATCTCCATTGCCGTGATCCGCGAAGTGGGCGTTGACACCGGCGGCTGCAACATCCAGTTCGCCATCGAGCCGGACACCGGACGTGTTGTGGTCATCGAGATGAACCCCCGCGTGTCCCGCTCCTCGGCGCTGGCATCGAAGGCCACGGGGTTTGCGATTGCCAAGATCGCCACCAAGCTCTCCCTCGGCTACACCCTGGACGAGATCCCCAACGACATCACGCAGAAGACACCGGCGTCGTTTGAGCCCACCCTGGACTACGTGGTGGTGAAGGTTCCGCGGTTCGCCTTCGAGAAGTTCCCGGCGGCGGACAACACGCTCACCACCACCATGAAGTCCGTGGGCGAGGCCATGGCCATGGGCCGCAACTTCACCGAGGCACTGCAGAAGGCCCTGCGTTCCCTGGAACAGAAGGGATCGCAGCTGGACTTCAGCTCCGTCCCCGAATGGGAAGTGCCGGAGCTCATCGAAAAGGCCAAGCGCCCCACTACTGAGCGCCTGCACCAGGTGCAGCGTGCCCTGCTGGGCGGCGCCACGGTCGAGGACCTCTACGAGGCCACCAAGATCGACCCCTGGTTCCTGGACCAGCTGCAGCTGCTGAACGAGATCTCCCGCGAGATCCGCCAGTCCGGTGCCCTGACCGTGGAGATGCTCCAGCGCGCCAAGCGCCACGGCTTCTCCGACGAACAGATCGGCGCCCTGACGCACAACTCCGAAGCCGTGGTCCGCGGTGTCCGCCAGGCCCTGGGCATCCGCCCGGTCTACAAGACCGTGGACACCTGCGCCGCCGAGTTTGCGGCCTACACCCCGTATCACTACTCGTCCTACGACGAGGAGGACGAGGTGGCGCTGCACTCCAAGCCGTCCATCCTGATCCTGGGCTCGGGCCCCAACCGCATCGGCCAGGGCATCGAGTTCGACTACTCCTGCGTCCACGCCTCCATGGCGCTGCGCAAGGCCGGCTACGAGACCGTGATGGTCAACTGCAACCCGGAAACCGTGTCCACCGACTACGACGTCTCCACCCGGCTGTACTTCGAGCCGCTGACGCTTGAGGACGTCCTGGAGGTCATCGCGGCCGAGGAACGTACCGGCGGCGTGATGGGCGTGTTCGTGCAGCTCGGCGGCCAGACTCCGCTGAAGCTGGCGCAGCAGCTGGCAGACGCCGGTGTTCCCATCCTGGGCACCTCTCCCGAAGCGATCGACCTTGCCGAACACCGCGGCGCGTTCTCGCGGGTCCTGGACAAAGCCGGCCTTGTCTCCCCGAAGAACGGCACCGCCGTATCCTTCGAGGACGCCAAGAAGATCGCCGACGAGATCGGCTACCCGGTCCTGGTGCGCCCGTCCTACGTGCTGGGCGGCCGTGGCATGGAAATCGTCTACGACGAGCCCAACCTCTCCCGCTACATCGCCAACGCCACGGAGATCACCCCGGACCACCCGGTGCTGATCGACCGCTTCCTGGAGGACGCCGTCGAAATCGACGTCGACGCGCTCTTTGACGGCACCGACATGTACCTGGGCGGCATCATGGAGCACATCGAGGAAGCCGGCATCCACTCCGGCGACTCCGCCTGCGTCCTGCCTCCCATCACGCTGGGCACCAACGTCCTGGAACGGGTCCGGACCGCAACCCGGGCCATCGCCGAAGGTGTGGGAGTGCGCGGCCTGATCAACATCCAGTTCGCCCTGGCCTCGGACGTCCTGTACGTCCTGGAAGCCAACCCGCGCGCTTCCCGGACCGTGCCCTTCGTGTCCAAGGCCACCGGTGTCCAAATGGCCAAGGCCGCCGCCCTGATCGGCACCGGGGTCACCATCGGCCAGCTCCGCAGCGCCTACAAGATGCTGCCGGAAACCGGCGACGGCTCCACCCTGCCCCTGGACGCGCCCGTATCCGTCAAGGAAGCCGTTTTGCCCTTCAGCCGCTTCCGCACACCCGAGGGCAAGGTAGTGGACTCGCTGCTCGGCCCCGAGATGCGCTCCACCGGCGAGGTCATGGGAATCGACAAGCACTTCGACACCGCGTTCGCCAAGAGCCAGGCGGCTGCCAACAACGCGCTGCCCACCGAGGGCAAGATCTTCGTCTCTGTCGCCAACCGGGACAAGCGTTCGGTCATCATGGGCGTCAAGCGCCTCTCCGACCTCGGCTTCGAGATCGTGTCCACCGGCGGAACCGCAGACGTCCTGCGCCGCAACGGCATCCAGGCCACCCCGGTGCGCAAGGTAGCCGAAGGCAGCAGCGCCGAGGGGGAGGGCACCATCGCAGACCTCGTCATTGCCGGTGAGATCGACATGGTCTTCAACACACCCTCAGGCGGCGAAGCCCGCAGCGACGGTTACGAACTCCGCGCCGCTGCCACCTCAATCGGTATCCCCTGCATCACCACGGTGGCCGAGTTCAACGCCGCCGTGCAGGCGATCGAGGCCATGCGCACGTACGAATGGTCCGTGACCAGCCTCCAGGAGCACGCTGCAGCGCTGACAGCCTCACAGGAGGCTGCGCTGGAGAAGGCCGCAGCACAGAATGCGGCACGGGAGAATGCAGTCGCCCAGAATGCCTGA	MPKRTDLKSVLVIGSGPIVIGQAAEFDYSGTQALRVLKEEGLRVILVNSNPATIMTDPEFADATYIEPITPEVVEKIIAKERPDAVLPTLGGQTALNTAIALDKNGVLEKYNVELIGANIAAIELGEDREKFKGVVERCGAESARSHIIHTMDEALKAAEDLGYPMVVRPSFTMGGLGSGLAYTEDDLRRIVGQGLQYSPTSEVLLEESILGWKEYELEMMRDKNDNVVVVCSIENFDPVGVHTGDSITVAPALTLTDREYQRLRDISIAVIREVGVDTGGCNIQFAIEPDTGRVVVIEMNPRVSRSSALASKATGFAIAKIATKLSLGYTLDEIPNDITQKTPASFEPTLDYVVVKVPRFAFEKFPAADNTLTTTMKSVGEAMAMGRNFTEALQKALRSLEQKGSQLDFSSVPEWEVPELIEKAKRPTTERLHQVQRALLGGATVEDLYEATKIDPWFLDQLQLLNEISREIRQSGALTVEMLQRAKRHGFSDEQIGALTHNSEAVVRGVRQALGIRPVYKTVDTCAAEFAAYTPYHYSSYDEEDEVALHSKPSILILGSGPNRIGQGIEFDYSCVHASMALRKAGYETVMVNCNPETVSTDYDVSTRLYFEPLTLEDVLEVIAAEERTGGVMGVFVQLGGQTPLKLAQQLADAGVPILGTSPEAIDLAEHRGAFSRVLDKAGLVSPKNGTAVSFEDAKKIADEIGYPVLVRPSYVLGGRGMEIVYDEPNLSRYIANATEITPDHPVLIDRFLEDAVEIDVDALFDGTDMYLGGIMEHIEEAGIHSGDSACVLPPITLGTNVLERVRTATRAIAEGVGVRGLINIQFALASDVLYVLEANPRASRTVPFVSKATGVQMAKAAALIGTGVTIGQLRSAYKMLPETGDGSTLPLDAPVSVKEAVLPFSRFRTPEGKVVDSLLGPEMRSTGEVMGIDKHFDTAFAKSQAAANNALPTEGKIFVSVANRDKRSVIMGVKRLSDLGFEIVSTGGTADVLRRNGIQATPVRKVAEGSSAEGEGTIADLVIAGEIDMVFNTPSGGEARSDGYELRAAATSIGIPCITTVAEFNAAVQAIEAMRTYEWSVTSLQEHAAALTASQEAALEKAAAQNAARENAVAQNA	PGPT0021150_1197	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955	NA	NA
D1-29_02722	1305	carA	COG0505	Carbamoyl-phosphate synthase small chain	GTGACGAAAACAGAAGTGACAGCGAACCCCGTGCCTGCACGTCAAGCAACCATTTCCACCCCAGCGGCCCTCGTACTGGAAGATGGCCGCATCTTCCGCGGCAGCAGCTACGGGGCAACCGGAACCGCCTTGGGTGAAGCCGTCTTCGCCACAGGAATGACCGGCTACCAGGAGACCATTACCGATCCCTCCTACGCCCGCCAACTAGTGGTCCAGACGGCTCCGCACATCGGCAATACCGGTGTCAACAGCGAGGACGCCGAGTCCCGCCGCATCTGGGTGGCAGGCTACATCGTCCGTGACGCCGCCCGCCGTCCCTCCAACTGGCGCTCCGAGCGGTCCCTTGACTCCGAACTCATCGAGCAGGGCATCGTGGGCATCCAGGGCGTGGACACCAGGGCCATCACCCGGCACCTGCGCGAGCACAAGACGATGCGCGCCGGCATCTTCTCCGGCGACGCAGCCCAGGCCACGGACAAAGACCTCCTTGACGCCGTCCTGGCCAGCGCACCCATGGAAGGTGCCCGCCTGGCTGAAGAAGTCAGCGTGGACGAGGCCTACGTCGTTGAACCCAAGGACCACGGCTGGGACGGCGAACCGCGGTTCAGCATCGCCGCGATCGACCTCGGTATTAAGGCGATGACCCCCATCCGCTTCGCAGAACGCGGCGTCCGCGTCCACGTGCTCCCGGCCACCGCAACCCTGGCGGACGTCAAGGCCGTCAACCCGGACGGCTTCTTTATGTCCAACGGCCCGGGCGACCCCGCCACCGCGGATGCCCAGGTGAAGCTGCTGCGTTCGGTACTGGACGAGAAGCTGCCCTACTTTGGCATCTGCTTCGGCAACCAGATCCTGGGCCGCGCCCTGGGCTTTGGCACCTACAAGCTGCGTTACGGCCACCGCGGCATCAACCAGCCGGTCATGGACCGCCGCACGGGCAAGGTGGAGATCACCTCCCAGAACCACGGCTTTGCCGTGGACGCACCGCTCGACGGCGCCACGCAGGCCCCCGAGGAGCGCTACGGCCGTGTTGAGGTCAGCCACATCAGCCTGAATGACGACGTTGTTGAGGGCCTCGCGTGCCTGGACATTCCCGCTTTCTCCGTCCAGTACCACCCCGAAGCCGCTGCAGGCCCGCACGACGCCGCTTACCTGTTCGACCGCTTCATCGACCTGATGGAAGGCACCCGAGACGGCCGGACCGCCAACCTGTCCAAGGATGCCGTGGACTCCGCACACCCCGCAGACGCCGGTGCGCCGGACACAGCAGACAAAAATGACACCAAGACTGAGGACAAGAAGTAA	MTKTEVTANPVPARQATISTPAALVLEDGRIFRGSSYGATGTALGEAVFATGMTGYQETITDPSYARQLVVQTAPHIGNTGVNSEDAESRRIWVAGYIVRDAARRPSNWRSERSLDSELIEQGIVGIQGVDTRAITRHLREHKTMRAGIFSGDAAQATDKDLLDAVLASAPMEGARLAEEVSVDEAYVVEPKDHGWDGEPRFSIAAIDLGIKAMTPIRFAERGVRVHVLPATATLADVKAVNPDGFFMSNGPGDPATADAQVKLLRSVLDEKLPYFGICFGNQILGRALGFGTYKLRYGHRGINQPVMDRRTGKVEITSQNHGFAVDAPLDGATQAPEERYGRVEVSHISLNDDVVEGLACLDIPAFSVQYHPEAAAGPHDAAYLFDRFIDLMEGTRDGRTANLSKDAVDSAHPADAGAPDTADKNDTKTEDKK	PGPT0021155_337	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956	NA	NA
D1-29_02723	519			hypothetical protein	ATGGACAAAATCCTTCCCGGCCTGGCCATGCTGGCCATCATCGCCGTCGTTTTTGTCCTTATCTGGATCGGTTGGCGCAACCGGCTCAGGCGGCAGGCCGACGTCGAACCGTTGCCTGCCCTGCCCGCCACGCCCGGGACTCCGCTAACTAGCGCGGAAGGACAGTACGTCGCCTCCACCACCGCCGGTGACTGGCTGGACCGGATCGCCGTGCATGGCCTTGGCATCAGGACCAATGCCGTACTCAGCGTCTATCCCTCCGGTGTCTTCTTCGAGCGGTCCGGTGCTCCCGACGTCTTCATTCCGGTTGCGGACCTGAGTTCCGTCCGGCAGGACAGCGGCATGGCCGGCAAGTTCGTCGAAAAGGACGGGCTCCTGGTGGTCAGCTGGAAGCTGGGCGCGCACGAGCTCGACACCGGTTTCCGGACCCGCCATGCCGCCGACAAAGACGCCCTTTTTGAATCCCTTCAGCAATTGATCTCCGCAGCCCCCCAGGCAGATCCCCACAGTGGAAAGTAA	MDKILPGLAMLAIIAVVFVLIWIGWRNRLRRQADVEPLPALPATPGTPLTSAEGQYVASTTAGDWLDRIAVHGLGIRTNAVLSVYPSGVFFERSGAPDVFIPVADLSSVRQDSGMAGKFVEKDGLLVVSWKLGAHELDTGFRTRHAADKDALFESLQQLISAAPQADPHSGK				NA	NA	NA	NA	NA
D1-29_02724	1362	pyrC	COG0044	Dihydroorotase	ATGGCCGAGAACAACGGAACCTACCTGATCCGCGGCGCAGCGATCCTGGGCGCCGGCGCCGAGGACCTGCTCATTCGCGACGGCCTGATCGTTGAGCGCGGGACTGACCTATCGGCTGACGGAGCCACGGTCATCGAGGCGTCCGGCCTGGTGGCGCTGCCCGGCATGGTGGATGTGCACACGCACCTGCGCGAGCCGGGCCGTGAAGACGCCGAAACCGTGGAGACCGGCACGCGGGCCGCTGCCCTTGGCGGGTTCACCGCCGTCCATGCCATGGCCAACAGCATGCCGGTGGCAGACACCGCGGGTGTGGTGGAGCAGGTGCACTCCCTGGGGCGCGCCGCAGGCTGGGTTGATGTCCGCCCGGTCGGCGCCGTGACGGTGGGCCTGGCAGGGGAGCAGCTCGCCGAGCTCGGCGCCATGGCGGATTCCCGCGCGCAGGTCCGCATGTTTTCCGACGACGGCCTCTGCGTCCACGATCCGGTACTCATGCGCCGGGCCCTTGAATACGTCAAGGCGTTCGACGGCGTGGTGGCCCAGCATGCACAGGAACCCCGCCTCACAGCCGGCGCCCAGATGAATGAGGGCGAAGTTTCCGCCGTGCTCGGACTCACCGGCTGGCCGGCCGTGGCCGAGGAAAGCATCATTGCCCGCGACGTCCTGTTGACCCAGCACGTAGACTCCCGCCTGCACGTCTGCCATGTCTCCACGGCAGGTTCCGTGGAAATCGTCCGCTGGGCCAAGGAGCGGGGCATCAACGTCACCGCCGAAGTCACCCCGCACCACCTCCTGCTCACCGACGACCTGGTGCGGAGCTACGATCCTGTCTACAAGGTCAACCCGCCGCTGCGCACCGACGCGGACGTGCAGGCCCTGCGCGCCGGCCTGGCGGACGGCACCATCGACGTTGTGGGCACCGACCACGCCCCGCACCCCAGCGAGCACAAGGAATGCGAGTGGGCGCAGGCCGCCATGGGCATGACAGGCCTGGAGACGGCACTGTCCGTGGTCCAGCACACCATGATCGAAACCGGCCTCATGACGTGGGCCGACTTTGCCCGGGTCACCTCCACGGCGGCCGCGCAGATCGGCCGCCTGACCGACCAGGGCCGTCCCTTGGAAGCAGGCGAGCCCGCCAACATCATCCTTGTTGATCCCGCCGCGCGCTGGACGGTTGACCCCTCCAAGATGGCAACCATGGGCCGCAACTCGCCCTTCGCCGGCAGGGAACTTCCGGGCAAGGTGGTTGCCACCTTCTACAAAGGCCACCCCACCGTCCTGGACGGCAAGCTCAACACGCCTTACCGGGAACCGGCTGCCACCGCCCCAACAGTCACAGCCCCCGCCGGGACAGGCGCCTGA	MAENNGTYLIRGAAILGAGAEDLLIRDGLIVERGTDLSADGATVIEASGLVALPGMVDVHTHLREPGREDAETVETGTRAAALGGFTAVHAMANSMPVADTAGVVEQVHSLGRAAGWVDVRPVGAVTVGLAGEQLAELGAMADSRAQVRMFSDDGLCVHDPVLMRRALEYVKAFDGVVAQHAQEPRLTAGAQMNEGEVSAVLGLTGWPAVAEESIIARDVLLTQHVDSRLHVCHVSTAGSVEIVRWAKERGINVTAEVTPHHLLLTDDLVRSYDPVYKVNPPLRTDADVQALRAGLADGTIDVVGTDHAPHPSEHKECEWAQAAMGMTGLETALSVVQHTMIETGLMTWADFARVTSTAAAQIGRLTDQGRPLEAGEPANIILVDPAARWTVDPSKMATMGRNSPFAGRELPGKVVATFYKGHPTVLDGKLNTPYREPAATAPTVTAPAGTGA	PGPT0021145_576	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
D1-29_02725	1014	pyrB	COG0540	Aspartate carbamoyltransferase	GTGAAGCACCTGCTCTCCACCGAAGACCTCAGCCTCGCCAACGCCGTCCGCATCCTGGATACCGCTGAAGAAATGGCGGCAGTGGGGGAGCGGGAAGTCAAAAAGCTGCCGGCCCTGCGCGGACGAACCGTCGTCAACCTCTTCTTCGAGGATTCAACGAGGACCCGGATCTCCTTTGAGGCCGCAGCGAAGAGGCTGTCCGCCGACGTCATCAACTTTGCGGCGAAAGGTTCCTCTGTCTCCAAGGGAGAATCCCTCAAGGACACAGCCCAAACCCTTTCGGCGATGGGGGCCGACGCCGTCGTGATCCGCCACTGGGCCTCCGGCGCGCCGCACCGGCTCGCCGCCACGGACTGGATCGACGCCGCCGTCATCAATGCCGGCGACGGAACCCACGAGCACCCCACCCAGGCACTGCTGGACGCCTTCACGATGCGCCGGCACTGGGCGAAACTGTCCGGAAACGGATCCATCGGCGCCGACCTTAAGGGAATGCGCGTCGCCATCGCCGGCGACGTCCTCCACTCCCGTGTGGCGCGCTCCAACGTCTGGCTGCTGCGCACCCTGGGCGCTGACGTTACGCTCGTGGCCCCGCCCACCCTGCTGCCCATCGGCGTCGAAAAGTGGCCCTGCAAGGTGAGCTACAACATGGACGAAACCCTGGAACAGGGCGTGGACGCAGTGATGATGCTGCGTGTCCAGGGTGAGCGGATGAACGCTTCCTTCTTTCCCTCCACACGTGAATATTCACGCCGCTGGGGCTTTGATGACAACCGGCTCCTGGCGCTGGACGCCCTGGGAATGAAGGACACCATCATCATGCACCCCGGTCCCATGAACCGGGGGCTGGAAATTTCCGCTGCCGCCGCCGACTCGCCCCGGTCCACCGTGCTTGCACAGGTCCGCAACGGCGTGTCCGTCCGGATGGCCGCCCTGTACCTGCTGCTCTCCGGGGATACCCGCGAACCAGCCGTAAACACTGGCACCGCCCAGTCCACTAAGGAGAGCAACTGA	MKHLLSTEDLSLANAVRILDTAEEMAAVGEREVKKLPALRGRTVVNLFFEDSTRTRISFEAAAKRLSADVINFAAKGSSVSKGESLKDTAQTLSAMGADAVVIRHWASGAPHRLAATDWIDAAVINAGDGTHEHPTQALLDAFTMRRHWAKLSGNGSIGADLKGMRVAIAGDVLHSRVARSNVWLLRTLGADVTLVAPPTLLPIGVEKWPCKVSYNMDETLEQGVDAVMMLRVQGERMNASFFPSTREYSRRWGFDDNRLLALDALGMKDTIIMHPGPMNRGLEISAAAADSPRSTVLAQVRNGVSVRMAALYLLLSGDTREPAVNTGTAQSTKESN	PGPT0021160_581	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609	NA	NA
D1-29_02726	588	pyrR		Bifunctional protein pyrR	TTGACTTCTGTCACCAACGCACCGGTTCCAGCCAGGGTTGTCCTCAACCAGGCCGATATAGACCGTGCATTAACTCGTATCGCCCATGAGATCCTCGAGGCCAACAAGGGCTCCAAGGACCTGGTCCTGTTGGGCATTCCGCGCCGGGGCTACCCGCTGGCCGTCCGGCTTGCCCGAAAGATTGCCGCCACAGACCCCTCCGTGGACGCCGCCGCCATCGTCGGTCAGCTGGATGTGACCATGTTCCGCGATGACCTCTCCCACCAGCCCACCCGGCCGCCGTACCCCACGCAGCTGCCGCGCACGGGAATCGATAACAAGGTTGTGGTGCTCATCGATGACGTCCTGTATTCAGGCCGCACCATCCGCGCTGCCCTTGACGCCATCATCGACCTGGGCCGCCCCCGGATCGTCCGGCTTGCCGTCCTGATCGACCGCGGACACCGTGAGCTGCCCATTCGGGCGGACCACGTGGGAAAGAACCTGCCCACCTCCTCCGCCGAAAAGGTCCGCGTGCGCCTCGAAGAAACCGACACGAACGGAGACGGTTCAGCCGTCAACGAAGTGGTCATTGAGGGCGGCGCGTGA	MTSVTNAPVPARVVLNQADIDRALTRIAHEILEANKGSKDLVLLGIPRRGYPLAVRLARKIAATDPSVDAAAIVGQLDVTMFRDDLSHQPTRPPYPTQLPRTGIDNKVVVLIDDVLYSGRTIRAALDAIIDLGRPRIVRLAVLIDRGHRELPIRADHVGKNLPTSSAEKVRVRLEETDTNGDGSAVNEVVIEGGA	PGPT0021245_276	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021245-pyrR-K02825	NA	NA
D1-29_02727	1293			hypothetical protein	ATGTCGATGCACCCTTTTCCGCCCGCCGACGGACAACCCGGCCGGCCCGCAGGACCCCCAGGCCCACTCCCCGGCCAGGCCAACCCCACCTGGATGGGCCACGTGGAGCCGCAGTACTACCGGCCGGCACCGGGAAATGCGGCCGGACCAGTCAATGCCGGCCAGGGTCATCCGCTGGTGCCGCCGCAAATGCGCAGCTCCGCCGGGAGCACCATCGGCACCCCGTCCCCCGGGTTGCTTGCGCTGACCATCGGCGGCGGTGTCCTGGCCTTCCTCAGCCTGTTCCTGGTGGTCCCGTTCCTGCTGGCGAACACGGGAACTGCCGGGTTCCTGGTGGGATTCGTTGCCTCCCTGATCCCGCTCTCCGCGGTGTTGCTGGCTGTTTATGTCATTGACCGCTGGGAACCGGAGCCCAAACGTCTTCTGCTCTTTGCCTTTACCTGGGGAGCGGCGGTGTCCATCGCCGTCACGCTCCTCATCCAGCCGTTTTTTGCGCTGGCCTTCCAGTTCGCTGACGAGGCCGATTTCCGGACCTACATGGCCACCATCCAGGCACCGGTGGTGGAGGAGTTCGCCAAGTCGCTGGGACTGCTGCTGCTCCTGCTGATGGCGCGAAAGCACTTCGACGGGCCGGTGGACGGGGTTGTTTTCGCCTTCACCATCGCCGGAGGCTTCGCTTTCACGGAAAATATCCTCTATTTCGGCCGGGCCATTGCCGAGTCCGCGAGTCCCGCGTCAGATCTGGCCCAGATCTTCCTGCTCCGAGGCGTGATGTCTCCCTTCGCGCACGCGATCTTCACGGGAACCACCGGCCTGATTATGGGGTTTGCCGCCCGCCGCTGGCACTCGGGCGCTTCGGTGGCGGCGTTTTTCATCGGGCTCCTGCCAGCCATGTTCCTGCACAACCGGTGGAACAGCATGGGGCAGGGCTTCCTGGTGGAATACATCCTGGTCCAGGTGCCGATCTTTGTGCTGGCCATCATCGGCATCATCCTGCTGCGCGTTGCCGAAAACCGGCTCACCCGGCAGAGGCTGCTGGAGTATGCCGCGGCGGGCTGGTTCACCCCGTCGGAGGTTGCCATGCTTGCCACTCCCAGCGGACGGCGGAGCGCCCTGAACTGGGCCGGCAGCTACAACCGAAGGCCCCAAATGAAGGCCTTCGTCAAGGCGGCAACGCAGCTCGCCTTCACCCGGCAGCGGATCCTCAGCGGCCGCGACGTCCAGTTGCACCAGGCTGAGGAACGGCAGCAGCTGCACAACATCCTGGCGCTGCGGACCGCGGTCGCCGGCTGA	MSMHPFPPADGQPGRPAGPPGPLPGQANPTWMGHVEPQYYRPAPGNAAGPVNAGQGHPLVPPQMRSSAGSTIGTPSPGLLALTIGGGVLAFLSLFLVVPFLLANTGTAGFLVGFVASLIPLSAVLLAVYVIDRWEPEPKRLLLFAFTWGAAVSIAVTLLIQPFFALAFQFADEADFRTYMATIQAPVVEEFAKSLGLLLLLLMARKHFDGPVDGVVFAFTIAGGFAFTENILYFGRAIAESASPASDLAQIFLLRGVMSPFAHAIFTGTTGLIMGFAARRWHSGASVAAFFIGLLPAMFLHNRWNSMGQGFLVEYILVQVPIFVLAIIGIILLRVAENRLTRQRLLEYAAAGWFTPSEVAMLATPSGRRSALNWAGSYNRRPQMKAFVKAATQLAFTRQRILSGRDVQLHQAEERQQLHNILALRTAVAG				NA	NA	NA	NA	NA
D1-29_02728	444			hypothetical protein	ATGGTGTCAGAAACGTGGGATCCGGGCAGTCCCGGTGTGGTGGTCCTGCCCAGCGGACGCGCGGTGCGGGGCAGGGCGCTGAGGCAGGCCAGGCCAGAAGGGCAGCAACCGCAACACGGCCTGTACCTCTCGGCCCGCGAGCCGCTGACGGTTCCGTGGACGTCGCGGTGGCTCCGCTGGCCGGACTTCAGGCTGCCCAGCGATAAGGCCGAGGCCAGGATGCTGTTGGAGGAAGCCTGGGCCTGCGCCGTGGACATGCGGGTTGAAGTCGCCTGCTGGGGAGGGCGGGGACGCACCGGTACAGCGCTTGCCTGTATCGCAGTGCTCGACGGCGTTCCACCGGCAGAGGCCGTGGCCTACGTACGGGAGCGCTACGATCACCGTGCGGCGGAAACCCCTTGGCAGCGGAAGTATGTGGCCCGCTTCGGCCAGGGTAACGCCTGA	MVSETWDPGSPGVVVLPSGRAVRGRALRQARPEGQQPQHGLYLSAREPLTVPWTSRWLRWPDFRLPSDKAEARMLLEEAWACAVDMRVEVACWGGRGRTGTALACIAVLDGVPPAEAVAYVRERYDHRAAETPWQRKYVARFGQGNA				NA	NA	NA	NA	NA
D1-29_02729	795			hypothetical protein	GTGGACGAAGTGCTAGTGACAGGAGGCTCGGGCCATCTGGGGACCGACGTCGTACGGCTGCTTCTGGAGCGGGGCGAGCGGGTGCGTGTTTTGTCGCGTACACCGCGCGCAGGAACCGATGTGAGAACGTTCGAGGGCGATCTCGCCACGGGCCGGGGAATCAGGGAGGCGGTATCCGGGGTCCGCGTGATCGTTCATGCCGCGACACTTTCACCGGCTGCCCGGAGGGGCCATTTCCTGCCGGTGGACTTTGTGACCAGCCCTCCTGACGTGGACGTGCACGGAACCCAACAGCTCCTGGACGAAGCACAGCGAGCCGGAGTGGAGCACTTCCTGCATGTCTCAATAGTGGGAGTCCAGCATTCCAAGGTTCCCTATCTCCGGCGGAAGGCGGAGGCGGAGAACATTGTCCGGAGCTCCGCGGTTCCGTGGACGATTGTTCCGGCCACGCCATTCTTTTGGCTATTGGCAAGGTTCCACGACCATATGAGGAAGCAGCGCGTCTGGGTTGCTCCGTCGAACCTTCGCATGCAGCCCGGTGATTCTGCCGAATTCGCTCCGTACGTCGTCGAGTCTCTGGGGGCGGGTCCGGCGGGTGACCGTCCGTGTTTTGCCGGGCCGGAAGTCTTGTCCCAGGCGGATATCGGGCGCCAGTACCAGGCGGCCCGGGACGTCCACCGGAAAATCCTGGAAATTCCGCTGCCTGGTTTTGCCGTCCGGGCAAGCGGTCCGCAAACCTGCCCCGACGGCCGGCTGGGAACAACCACCTGGGCCAAGTGGCTCGCGAAACATTAA	MDEVLVTGGSGHLGTDVVRLLLERGERVRVLSRTPRAGTDVRTFEGDLATGRGIREAVSGVRVIVHAATLSPAARRGHFLPVDFVTSPPDVDVHGTQQLLDEAQRAGVEHFLHVSIVGVQHSKVPYLRRKAEAENIVRSSAVPWTIVPATPFFWLLARFHDHMRKQRVWVAPSNLRMQPGDSAEFAPYVVESLGAGPAGDRPCFAGPEVLSQADIGRQYQAARDVHRKILEIPLPGFAVRASGPQTCPDGRLGTTTWAKWLAKH				NA	NA	NA	NA	NA
D1-29_02730	411	nusB	COG0781	Transcription antitermination protein NusB	GTGAGCGCACGCGGCAAGGCCCGTAACAGGGCACTGGATGTTCTCTTTGAAGCTGAGCAGCGCTCCGTTTCTGCGTTTGATGTACTGAGGGCGCGGCGGGAGAAGACCGACCAGATCGTGAACCCGTACACGCTGGAAATCGTCGAAGGCGTGATCTCACAGCAGACCGCCATTGATGAATTCCTCGAGACGTATTCGCAGGGCTGGACGCTGGACCGGATGCCTTCGGTGGACCGGATCATCCTGCGGATCGGCACCTGGGAACTGCTGTACAACGACGACGTCCCCGACGGCGTCGCCGTCAGCGAGGCAGTGGCACTGGCCAAGACGCTCTCAACTGATGAATCGCCGTCGTTCATCAACGGGCTCCTGGGCCGCCTGCAGCAGCTGAAACCGTCGCTGCTGGCCTGA	MSARGKARNRALDVLFEAEQRSVSAFDVLRARREKTDQIVNPYTLEIVEGVISQQTAIDEFLETYSQGWTLDRMPSVDRIILRIGTWELLYNDDVPDGVAVSEAVALAKTLSTDESPSFINGLLGRLQQLKPSLLA				NA	NA	NA	NA	NA
D1-29_02731	564	efp	COG0231	Elongation factor P	GTGGCAACCACTAACGACATCAAGAACGGAACGGTCCTCAAGCTTGAGGGCCAGCTCTGGAACATCATCGAATTCCAGCACGTCAAGCCCGGCAAGGGCGGTGCGTTTGTACGGACCAAGATGCGGAATGTGATGTCCGGCAAGGTTGTGGACAAGACGTTCAACGCCGGCCTCAAGATTGAGACCGCAACTGTGGACCGGCGGGACTACCAGTACCTGTACCAGGACGGTTCCGACTTCGTGTTCATGGACACCTCCGACTACGACCAGATCACCGTGTCCGGTGCCACCGTGGGCGACGCCACCAACTTCATGCTCGAGAACCAGATGGTCAACATCGCCATCCACGAGGGAACCCCGCTGTACATCGAACTCCCTCCCAGCGTTGTCCTCGAAATCACCTACACCGAGCCGGGCCTTCAGGGCGACCGCTCCTCCGCCGGCACCAAGCCGGCCACCCTCGAAACCGGCTACGAGATCCAGGTACCCCTGTTCGTTGAGAACAACACCAAGGTCAAGGTCGACACCCGCGACGGCAGCTACCTCGGCCGGGTCAGCGAGTAG	MATTNDIKNGTVLKLEGQLWNIIEFQHVKPGKGGAFVRTKMRNVMSGKVVDKTFNAGLKIETATVDRRDYQYLYQDGSDFVFMDTSDYDQITVSGATVGDATNFMLENQMVNIAIHEGTPLYIELPPSVVLEITYTEPGLQGDRSSAGTKPATLETGYEIQVPLFVENNTKVKVDTRDGSYLGRVSE	PGPT0016205_2728	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356	NA	NA
D1-29_02732	519			hypothetical protein	ATGCAGGGCGCATTCGAGGGAACCACAGACTGGCCGGAGGCAGGCTTCCCGGGAATCCGGATCAACCCGCAGACGCTGCTGCCGCAGATCGTTAACGAGGAGGTCTGCCGTGCGGCCCTTGCCGCCTCTGCAGATCCCGCGGACCACATCTTTGTCCTGCTGGTGGAGGGCCATGCACCGGAGGCCGCGGAACTGCTGGCCGAGGCGCGCTTCAAGGACCCCGAGTCGTTCCGGCTGCGTGCCTTTGAAGCGGAGGTGCTGCGGGTCTCCAACCGCCTGGACCGGGCCGTGGAACTGTTCCGGCAGTTGCTCGCCGAAGTTCAGGGAACGCCCCGTGAAGCGCTGGTGCTCCAGTTCCTCGGAAAGACCCAGTACACCGCCGGACAAACGTCAGCGGCCGTTGAATCCTTTGCCCGGGCGCTGGACCTGCGGGTTGCCGAATCCGCCGACGCCGCGCAGATCTACTCGTCCACGGTGGCCCTGCAGCGCGCCCGCGAGGTCCTGGACCTCGCCTGCTGA	MQGAFEGTTDWPEAGFPGIRINPQTLLPQIVNEEVCRAALAASADPADHIFVLLVEGHAPEAAELLAEARFKDPESFRLRAFEAEVLRVSNRLDRAVELFRQLLAEVQGTPREALVLQFLGKTQYTAGQTSAAVESFARALDLRVAESADAAQIYSSTVALQRAREVLDLAC				NA	NA	NA	NA	NA
D1-29_02733	1092	aroB	COG0337	3-dehydroquinate synthase	TTGAGCGACGAATCAACAGTCATCAGTGTCACCGGCGAGGCCGCCAGCCAGAACTACGACGTCGTAGTGGGCCGCGGCCTCCTGGGGAGCGTTCCTGCCTTGCTGGGGGAGCGCGTCCGGCGGGTGCTGGTCATCCACCCCAGGGCCCTGCGGCTCACCGGGGACACTGTCAGGGACGAGCTCGCCGCTGCGGGCTTTACGTCCCTGACCGCGGAAATTCCCGACGCCGAAGAAGGCAAGCACATCCAGGTGGCCGCGTTCTGCTGGCAGGTCCTGGGCCAAAATGACTTCACCCGGTCCGACGCCATTGTGGCCGTGGGCGGCGGCGCAGTGACGGACCTTGCCGGCTTTGTGGCCGCCACCTGGCTGCGTGGCGTCAAGGTGATCCATATGCCCACCAGCCTGCTGGGCATGGTGGACGCCTCGGTAGGCGGCAAGACAGGAATCAACACTGCGGAGGGAAAGAACCTGGTGGGGTCCTTCCACCCGCCCGCCGGAGTGCTGGTGGATCTTGACACCCTGGACACGCTGCCCCGCAACGAACTGATTTCCGGAATGGCCGAAGTGGTTAAATGCGGCTTTATCGCCGATCCAACCATCCTGGACCTCGTCGAAAAGGACCCGGAGGCTGTGGTTGATCCGCAGTCCGCCGTGCTCCGGGAGCTTATTGAGCGGGCCATCGCTGTTAAGGCAAAGGTTGTTTCCGAAGACCTCAAGGAATCGGGACTCCGGGAAATCCTGAACTACGGCCACACCCTGGGCCACGCCATCGAACTGGTGGAGCGCTACTCCTGGCGGCACGGTGCTGCCGTCTCGGTGGGCATGATGTTCGCAGCCGAGCTTGCCCGCAGTGTGGGCCGGCTCAGTGACACCGACGCCGACAGGCACCGCAGCATCCTGGAAACCCTGGGCCTGCCCGTCACCTACCGGCGGGACCGCTGGCAGGGGCTGCTGGACGGAATGCGCCGGGATAAGAAGTCCCGCGGGGACCTGCTCCGGTTCGTTGTCCTGGACGGCATTGCCAAGCCCGGCATCCTGGACGTCCCGGATACCTCGCTGCTGTTCGCGGCCTACCAGGAGATCGCTTCCTGA	MSDESTVISVTGEAASQNYDVVVGRGLLGSVPALLGERVRRVLVIHPRALRLTGDTVRDELAAAGFTSLTAEIPDAEEGKHIQVAAFCWQVLGQNDFTRSDAIVAVGGGAVTDLAGFVAATWLRGVKVIHMPTSLLGMVDASVGGKTGINTAEGKNLVGSFHPPAGVLVDLDTLDTLPRNELISGMAEVVKCGFIADPTILDLVEKDPEAVVDPQSAVLRELIERAIAVKAKVVSEDLKESGLREILNYGHTLGHAIELVERYSWRHGAAVSVGMMFAAELARSVGRLSDTDADRHRSILETLGLPVTYRRDRWQGLLDGMRRDKKSRGDLLRFVVLDGIAKPGILDVPDTSLLFAAYQEIAS	PGPT0012865_2122	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
D1-29_02734	570	aroK		Shikimate kinase	GTGCCCTCCAGCAGCAAATCCGGTTCCGTTGGGAACCGGCCCATAGTGCTTATCGGCCCCATGGCCGTGGGCAAGTCGGCCATCGGCCAACAGCTTGCCCAGCAACTTGGTGTCCCCTTCGTGGACACCGATGCAGTCATCGTGGGAAACCATGGCTCCATAGCTGACATTTTTGCCGGCCGCGGGGAGCACGCGTTCCGGGAGATCGAGGCGCGGACGGTTGCAAGTGCCGTGGAGGACGCGGCAGGTTCGGCAGCGGTGATCTCCCTGGGTGGCGGCGCCGTGCTGGATTCGGGAACGCAACAACTGCTGGGCCGTTGCACCGTGGTCTACCTCGAATGCGATGCTGAGACAGTGGCAGGCCGGATCGCCCGCAATTCAGGCCGTCCGCTGCTCGCCGGCGATGCCATGGCCCGCTGGACCGCATTGTTTGCCACCCGTAAACCCGTCTACGAACGCCTGGCCGATTTGGTCCTGGACGTCCGCCACGGTTCGGTTGCCGAACTGGGACGCCGGCTCGAAGCTGCGCTGCGGGAACTCGCAGCTGCCAAACAGGAAGTTGAAAATTGA	MPSSSKSGSVGNRPIVLIGPMAVGKSAIGQQLAQQLGVPFVDTDAVIVGNHGSIADIFAGRGEHAFREIEARTVASAVEDAAGSAAVISLGGGAVLDSGTQQLLGRCTVVYLECDAETVAGRIARNSGRPLLAGDAMARWTALFATRKPVYERLADLVLDVRHGSVAELGRRLEAALRELAAAKQEVEN	PGPT0012900_1372	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
D1-29_02735	1200	aroC	COG0082	Chorismate synthase	ATGTTGCGTTGGTTGACAGCCGGTGAATCCCATGGTCCGGCTCTGATGGGAATTATTGAAGGCGTCCCCGCCGGTGTGGAACTCACCAGCGGGCAGATCGCCGATTCATTGGCACGCCGCCGCCTCGGTTACGGCCGGGGCGCACGTATGAAGTTCGAACAGGACGTCGTCACCATCCTTGGCGGGGTGCGGCACGGCCTGACCCAGGGCGGCCCTGTTGCTATCCAGGTGGGCAACACCGAATGGCCCAAATGGGAGCAGATCATGTCCCCGGACCCCGTTGACGCTGAGGTCCTCGCCGACCAGGCACGCAACGCCCCGCTGACGCGTCCCCGCCCGGGCCACGCAGACTTTACCGGGATGCAAAAGTACGGCTTCGCGGAGGCCCGGCCCGTGCTTGAGCGCGCCAGTGCCCGCGAAACGGCCACGCGCGTTGCCATGGGCACGGTAGCGGCCCAATTCCTCAAGCACCTGGGCATCGAACTGGTCAGCCACACGGTCTCGATCGCCAGTGTCATGGTGCCGGAAGGCCGCCCCCTGCCGGTCCCAGGCAACGTGATTGCGCTGGACGCGGACCCGTTGCGTTGCTTTGACCGCGACACGTCCAACGCCATGGTGGCCGAGGTTGATGCGGCGCATAAGGAAGGCGAGACCCTGGGCGGTGTGGTGGAGGTCCTGGCCTACGGACTTCCGCCTGGACTTGGAAGCTACGTGCACTGGGACCGCAGGCTCGATTCCCGGCTGGCCGCAGCGCTCATGGGCATCCAGGCCATCAAGGGTGTGGAAGTTGGCGACGGCTTCCGTACCGCGGCACGCCGTGGTTCTGCAGCGCACGACGAGATCGTCAAGGACGCCGACGGCAGGATCATCCGCACCAGCAACCGCGCAGGCGGGATCGAAGGCGGCATGAGCATTGGCGACGTGCTCCGCGTCCGGGCGGCCATGAAACCGATCGCCACCGTACCGCGAGCACTGAAAACCATCGACGTCACCACGGGGGAGGCCGCCAAGGCACACCACCAGCGTTCTGACGTTTGCGCCGTGCCGGCAGCGGGCGTCGTCGCGGAAGCAATGGTGGCGCTGGTGCTGGCGGAGGCCATCACCGAAAAGTTCGGCGGCGATTCAGTCGCGGAAACTGCACGTAATATCAAGGGCTATCTGGACAACATTCCGGCATCCCTGGACTCGATCGGCCAGTAG	MLRWLTAGESHGPALMGIIEGVPAGVELTSGQIADSLARRRLGYGRGARMKFEQDVVTILGGVRHGLTQGGPVAIQVGNTEWPKWEQIMSPDPVDAEVLADQARNAPLTRPRPGHADFTGMQKYGFAEARPVLERASARETATRVAMGTVAAQFLKHLGIELVSHTVSIASVMVPEGRPLPVPGNVIALDADPLRCFDRDTSNAMVAEVDAAHKEGETLGGVVEVLAYGLPPGLGSYVHWDRRLDSRLAAALMGIQAIKGVEVGDGFRTAARRGSAAHDEIVKDADGRIIRTSNRAGGIEGGMSIGDVLRVRAAMKPIATVPRALKTIDVTTGEAAKAHHQRSDVCAVPAAGVVAEAMVALVLAEAITEKFGGDSVAETARNIKGYLDNIPASLDSIGQ	PGPT0012875_670	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736	NA	NA
D1-29_02736	894	aroE_1	COG0169	Shikimate dehydrogenase (NADP(+))	ATGAGCCTGAGGGCCGCCGTCCTGGGTCATCCGATCAGCCATTCGAAGTCGCCCGCCCTGCATAAGGCTGCCTACGCCAAGCTGGGAATAGACATCAGTTACACCGCCATTGACGTCACCGAGGCCGGCTTGCCCGCGTTTATGCGCGACGTCCGTGGCCAGTCAGGCTGGCGGGGGCTTTCCGTCACGATGCCGCTCAAAACCGCTATGGTTCCCGAGGTGGACGAAGTCCGTGGCGTGGCCCGGGTCCTTGGCGTGGTCAATACGGTTGCCTTCGAGGATCAGGGCGACATCGTCAGGAGAATCGGTTACAACACCGACGTCGCCGGAATCGTCAATGCCGTGCGGAACGCAGGGGTGGCTGCCACGCCCGCTGCTGTAGTCCTGGGTGGCGGCGGAACGGCGGCATCTGCGGTGGCGGCACTCAGGGACCTTGGAACTGACCGGGTGCAGGTATTTGTGCGCGACACCGCCAGGGCAACCGAAGCCCTTGCGGCCGCGGCGGGAGTGGGTCTTGCCATCGACGTCAGTCCGCTGACGGAAGCGGCCAGCGCCATGGCGCGTGCCGACGTCGTGATTTCAACATTGCCGCCGCATGCGGCAGACGGACTGGCGGATGAACTGGCGGATGAACTGGCGAAGGGACCGGCCAAAGGACTGGCCTCCGCCGGCACCGGGACCGGCGTGCTGCTGGACGTGGCCTACGATCCCTGGCCCAGCCGGCTTGCTGCAGTGTGGCAGTCCGGCGGCGGTTCGGTGGTTCCCGGACTGGAGATGCTTCTCTATCAGGCCGTGGAACAGGTGCGCCTTTTTTCGCGCCGGGGCGAGGAAGTTAACGCAGCTGTCATAGATGTGATGTGTGACGCAGTCGGACTTCCCCGACGGGCGTTCTGA	MSLRAAVLGHPISHSKSPALHKAAYAKLGIDISYTAIDVTEAGLPAFMRDVRGQSGWRGLSVTMPLKTAMVPEVDEVRGVARVLGVVNTVAFEDQGDIVRRIGYNTDVAGIVNAVRNAGVAATPAAVVLGGGGTAASAVAALRDLGTDRVQVFVRDTARATEALAAAAGVGLAIDVSPLTEAASAMARADVVISTLPPHAADGLADELADELAKGPAKGLASAGTGTGVLLDVAYDPWPSRLAAVWQSGGGSVVPGLEMLLYQAVEQVRLFSRRGEEVNAAVIDVMCDAVGLPRRAF	PGPT0012890_1564	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
D1-29_02737	1710	mltG		Endolytic murein transglycosylase	GTGAGCCCGGCCAATATTGACGACTCCTCCGGTAACACCAGCAGCGGTGCGGCCAGGGCGTTGACCCGTAAAGAGATCCGGGCACGGGAAAAGTCCCTGCATACGGATGGCAGCAGTGTGGTCCCGGAACAGGCGTACGAAACCGGCGACGTGTTCCCGGCAGCGGCAGAGGTTCCTGAACCCGTCATCGCGCCAACGGCCAGGCCCGCCGCCGAGACCCATGTAGAGCCGGTAATTCAGCCGGGGCCGGTGATTCAGCCTTGGACAGAGCCTGCTGCTCAGGCCGCTCCTGCAGCCCCCGCCAGTTCCCCGATCCCCGCCGCGCCGGATACGCCACCCTCAATCCAGGAAGTGGAACCGGCCTACGCCGTGGGAAGTCCGTATGACGACGTCGCCGCTGAGGAGCTTCATACCGCCGTCCACCCCGTTCCTGTCCAAGCGGCCGTCCACCATGAGACCGACGCACACGAGACTGAGGCGTACGGGCACTATTACGAACCCGACGGAACCCACCACGCGGACGGGCAGCATCATGACGCCTATCATTCTGCGGACTACTTCGAGGACCAGCACCACGATGAACACCACGACGGACACCACCAAGGGGGCGTCCTCGGCGGCGCAACAGCTGTCTCCGTAGTGGCCGGACCCTCGAAGAAGGTCCGTCGGCGGCGCCGCTTCCTTGCCCTGTTTTTGACCCTTGCCGTGTTTGTTGTTGCCGTCGCCGTCGGTGCGCAGTTCCTCAAGCCGCTGCTGGGAACTGACAAGCTTAGTGATTATCCGGGACCCGGTACGGGGGAAGTCCAGCTGACGGTGGAGCCCGGCCAGGGCCCGCGGGCTGTGGCCACCAACCTCGAAAGCCAGAAAGTGGTTGCCAACGCAGACACCTTCCTGCAGGCCTTTACGGCTTCCGGCGCCACCCTGGCCCCGGGTGACTACATATTCCGGACGGAGATGAAGAATTCCGACGCCGTTAATGTCCTGGTTGGAAAGGACAAGGGCAAGGTCATCTACTTCGCCCTGAGCGCCGGCCTGCGCATCGGTGAATCCCTGCAGGCCATCTCCGAGGGGTCCGGAGTGCCGTTGCAGGACCTGCAGGCGCTCAGCAACCAGCCGGCCCAGTTTGGACTGCCCGCCACTGCCAAGAACCTGGAAGGTTACCTGGCTCCGGGTGAGCACCGCTTCCCGCTCGGTACACCGGCCAAAGACATTCTGCAGGCGCTGGTCAAGATTACAGTCGATGAACTCGTGGCACAGGGCATTACTGACCCTGCAAAGCAGTATGAAGCCGTGATTGTGGCCAGCATTGTCCAGGCCGAGGGCGGCCAGGCGGAGTACGGTGATGTGGCCGGGGCCATCTACAACCGGCTGAAACCCAACGACCAAACCGGCGGCTTCCTGCAGGTGGATTCGGCCGTCACGTACGGTCTCGGCACCAAGAGCTACAATTTCACGGACGCCGAGCGCCAGGACAAGGGAAACCCATACAACACCTATGCCAACCCGGGCCTTCCGCCGGGACCGATCGGTTCTCCGGGCAAGACGGCCATCGATGCTGCGGCCCGGCCGAAGTCCAATGACTACCTCTACTGGGTGACCATCAACCTGGACACGAAGGAGACCAAGTTCTCCCGCACCCTGGCCGAACACAACAGTTACGTTGAGCAGTACAACGCCTGGTGCATGGCCAATGTGGGCCGTTGCGCATGA	MSPANIDDSSGNTSSGAARALTRKEIRAREKSLHTDGSSVVPEQAYETGDVFPAAAEVPEPVIAPTARPAAETHVEPVIQPGPVIQPWTEPAAQAAPAAPASSPIPAAPDTPPSIQEVEPAYAVGSPYDDVAAEELHTAVHPVPVQAAVHHETDAHETEAYGHYYEPDGTHHADGQHHDAYHSADYFEDQHHDEHHDGHHQGGVLGGATAVSVVAGPSKKVRRRRRFLALFLTLAVFVVAVAVGAQFLKPLLGTDKLSDYPGPGTGEVQLTVEPGQGPRAVATNLESQKVVANADTFLQAFTASGATLAPGDYIFRTEMKNSDAVNVLVGKDKGKVIYFALSAGLRIGESLQAISEGSGVPLQDLQALSNQPAQFGLPATAKNLEGYLAPGEHRFPLGTPAKDILQALVKITVDELVAQGITDPAKQYEAVIVASIVQAEGGQAEYGDVAGAIYNRLKPNDQTGGFLQVDSAVTYGLGTKSYNFTDAERQDKGNPYNTYANPGLPPGPIGSPGKTAIDAAARPKSNDYLYWVTINLDTKETKFSRTLAEHNSYVEQYNAWCMANVGRCA				NA	NA	NA	NA	NA
D1-29_02738	600	yqgF		Putative pre-16S rRNA nuclease	GTGACCAATCCTGCTGCATCCGGCGACTACCCCCAGGGCATCAAACTGGGGGTGGACGTCGGCACCGTCCGTGTGGGGGTGGCCATCTGCGACCGGGACTCAATTCTGGCAACGCCTTATAAAACCCTGGACCGCAACCCGAAGAAGAATTCGGACGTCAGGATCATCGGATCCCTGGTTGAGGAACTCGGCGCTGTCCAGGTCATTGTGGGCCTTCCCCGCACCATGAAGGGGGAGGAACATGCCTCCGCGAGGATGGCAACAGAGTACGCGCAGCTGGTCGCCACCGAGCTCGAAAACCGTGGCCTGGACGTGCCGGTCAACCTAGTGGACGAGCGCCTGAGCAGCGTCTCAGCCCACCGGAATCTTCACGAAGCTGGCATGAGCAGCCGAAACCACCGTAAAGTAGTGGATCAGGTTGCGGCGGCAGGAATACTCCAGCACGCCATCGAAATGCAAAAAGCCAGGGGAACGGATGTTGGCAGCCGCGTGACTGCGCCTGTCCGTCCGGGGCACTCCGGGTCGGTTAAGGCAGATCTGATTGCAGAAGCCGCCCCGGAGGACAAGACACGATCTTCAGAAAACGGAAGGCTACAGTGA	MTNPAASGDYPQGIKLGVDVGTVRVGVAICDRDSILATPYKTLDRNPKKNSDVRIIGSLVEELGAVQVIVGLPRTMKGEEHASARMATEYAQLVATELENRGLDVPVNLVDERLSSVSAHRNLHEAGMSSRNHRKVVDQVAAAGILQHAIEMQKARGTDVGSRVTAPVRPGHSGSVKADLIAEAAPEDKTRSSENGRLQ				NA	NA	NA	NA	NA
D1-29_02739	2679	alaS	COG0013	Alanine--tRNA ligase	ATGAAGTCGCAGGAGATCACAAAGCGCTGGGTGGACTTTTTTGTCAGCAAAGGCCACACCGCGGTTCCCTCCGCGTCCCTGGTGTCCAGCGACCCGTCCCTGCTGTTCACCGTTGCCGGCATGGTGCCCTTCATTCCTTATCTGACTGCGCGCGAAGAAGCGCCCTACTCCCGCGCCACCAGCGTGCAGAAGTGCATCCGCACCGGTGACATCGAAGAGGTGGGCAAGACCGCCCGCCACGGGACGTTCTTCCAAATGTGCGGCAACTTCTCCTTTGGCGACTACTTCAAGGAAGACGCCATCAAGTTCGCCTGGGAACTGCTCACCACCAGCGTGGACGACGGCGGCTACGGCCTTCCGCCCGAACTCCTCTGGGTGACCGTCTACGAAGAGGACGACGAAGCCAAGGACCTGTGGCTGAAGAACACCGGCGTCCCCGCTGACCGGATCCAGCGGATGGGCAAGGCGGACAACTACTGGCACACCGGCCAGCCCGGACCGGCGGGCCCCTGCTCCGAGATCTACTACGACCGTGGCCCGGCCTACGGCGTCGAAGGCGGCCCCCTCGCCGACGAGAACCGGTACGTCGAAATCTGGAACCTGGTGTTTATGCAGTACCAGATCGACAACGTCCGGTCCAAGGACGACTTCGACATTGTGGGTGAACTGCCGAAGAAGAACATTGACACCGGGCTCGGCATGGAGCGGCTCGCCATGATCCTTCAGGGCGTCGAAAACATGTACGAGACCGACCAGGTCCGGCCGGTCATCGACAAGGCCGCCGAACTCTCCGGCCGTGAATACACGTCTGCGGAAACGCCTGATGATCCGCACCACACGGACGACGTCAGGATGCGGGTCGTGGGGGACCACATCCGCTCCGCGCTGATGCTGATCGCCGACGGCGTGACGCCGTCCAACGAAGGCCGCGGGTACGTCCTGCGCCGCCTCATCCGCCGCGCCGTCCGCTCCATGCGCCTGCTCGGCGTCGAAAAGGCCTGCCTGCCTGACCTGCTGCCGGAATCCCGCGACGCCATGAAGGGCGTCTACCCGGTTGTGGAGACTGACTTCGACCGCATCAGCCGCATTGCCTATGCAGAAGAACGTGCCTTCCTCCGCACCATCGCCTCAGGCACCGCCCGGCTTGAAGATGCAGTCACGGAATCCAAGGCAGCCGGCCGTCCGCTGTCCGGTGCCGACGCGTTCGCGCTCCACGACACCTACGGCTTCCCGATCGACCTCACCCTGGAAATGGCTGAGGAAGCCGGGCTGAAGGTGGACGAACCTGAATTCCGCCGGCTTATGCTCGAACAGCGCCGGCGTGCCCAGGCGGACGCCAAGGGAAAGAAGGGCGGCCACGCGGATCTCAGCGCCTTCCAGGAACTGCTGGCGCAGGGCGAGACCGTCTTCACCGGTTACACGGACCTTGACGGCGAGTCCCGTGTCCGCGGCATCCTCAGCGGAGGCCAGAAGGTTGGCCAGGCCTCCACCGGCGACGAGATTGAGCTTGTCCTGGCAGAGACGCCGTTTTATGCCGAAGCCGGCGGCCAGGCAGCCGACACAGGCCTGATCACCGGCGACGGGTTCGTCGTCGAGGTCCTGGACGTCCAGCGCCCGCTCAAGGGACTCAGCGTCCACAAGGCGATCGTCCGCGAAGGCGAGATCGGCTCCGACGCCCTGGTGCGGGCAGCGGTGGACCGGGAACGGCGCCACGCCGCCGAGCAGGCGCACACAGGTACCCACATCGTCCATGCGGCGCTGCACCAGATCCTCGGCCCCGAAGCTACCCAGCGCGGTTCCTACAACAAGGCCGGCTACCTCCGCTTCGACTTCGCGTGGGGCGAAGGGCTCAGCCCTGCCACCCGGTCCGAGATCGAGGAAGTCTCCAACCTGGCCATCCGCAACAACCACCGCGTTGAAACCAAGGTGATGGGGCTGGCTGAAGCCAAAGCCCTGGGCGCCATGGCGCTGTTCGGTGAGAACTACGGAAGCGAAGTCCGCGTGGTGGAGATCGACGGCGCGTGGTCCCGTGAACTGTGCGGCGGGACACACGTGCCCAGCACGTCCCAGATTGGAAGCCTTTCGCTCCTCGGCGAACAGTCCGTAGGCTCAGGGAACCGCCGTGTTGAGGCGTTCGTGGGCATGGACGCCTTCCGCCACCTGGCTGCTGAGCGGGCCCTGGTGACCGAACTGACAGAAATGCTGAAAGTCCCCTCCGGCCAGCTGGCGGACAGGATCGCCGTCACCCTTGCGAAGCTGAAGTCGGCTGAGAAGGAACTTGAACGCCTCCGGAAGGAACAGCTGGCGGCAGCCGCCGGGCAGCTGGCCGGAACCGCCAAGGACGCGTCCGGTGTGAGTGTTATTGCCCATGACGCAGGCCAGGTCAACGGCGCGGATGACCTCCGCGGCCTTGCGCTGGACCTGCGGAACCGCCTCGGTTCGGCCCCGTCAACCGTGGCTGTGGCCGGGGTCAGCAACGACCGGCCCATGATCCTGGTGGCCACCAACGAGGCAGCCCGGGACGCCGGCGTCAAGGCCGGAGCCCTGGTCCGGCTCGCTGCCGGCATCCTGGGCGGCGGCGGTGGCGGCAAGGACGATGTTGCACAGGGCGGCGGGACCGACGCTGGCAAAATCACGCCGGCGCTTGCCGCCGTCGTGGATGCCATCTCCCGGCGATAA	MKSQEITKRWVDFFVSKGHTAVPSASLVSSDPSLLFTVAGMVPFIPYLTAREEAPYSRATSVQKCIRTGDIEEVGKTARHGTFFQMCGNFSFGDYFKEDAIKFAWELLTTSVDDGGYGLPPELLWVTVYEEDDEAKDLWLKNTGVPADRIQRMGKADNYWHTGQPGPAGPCSEIYYDRGPAYGVEGGPLADENRYVEIWNLVFMQYQIDNVRSKDDFDIVGELPKKNIDTGLGMERLAMILQGVENMYETDQVRPVIDKAAELSGREYTSAETPDDPHHTDDVRMRVVGDHIRSALMLIADGVTPSNEGRGYVLRRLIRRAVRSMRLLGVEKACLPDLLPESRDAMKGVYPVVETDFDRISRIAYAEERAFLRTIASGTARLEDAVTESKAAGRPLSGADAFALHDTYGFPIDLTLEMAEEAGLKVDEPEFRRLMLEQRRRAQADAKGKKGGHADLSAFQELLAQGETVFTGYTDLDGESRVRGILSGGQKVGQASTGDEIELVLAETPFYAEAGGQAADTGLITGDGFVVEVLDVQRPLKGLSVHKAIVREGEIGSDALVRAAVDRERRHAAEQAHTGTHIVHAALHQILGPEATQRGSYNKAGYLRFDFAWGEGLSPATRSEIEEVSNLAIRNNHRVETKVMGLAEAKALGAMALFGENYGSEVRVVEIDGAWSRELCGGTHVPSTSQIGSLSLLGEQSVGSGNRRVEAFVGMDAFRHLAAERALVTELTEMLKVPSGQLADRIAVTLAKLKSAEKELERLRKEQLAAAAGQLAGTAKDASGVSVIAHDAGQVNGADDLRGLALDLRNRLGSAPSTVAVAGVSNDRPMILVATNEAARDAGVKAGALVRLAAGILGGGGGGKDDVAQGGGTDAGKITPALAAVVDAISRR				NA	NA	NA	NA	NA
D1-29_02740	243			hypothetical protein	ATGAAACGACTAGTTTGGATGGGAATCGGCGTCGCCATCGGCATCATCGCTTTCCGCAAGATTAGCGAAACGCAGTCCAATCTCCAGGCCAACCTGGGGCCGGAGGGCCTGAACCGTGCCGTGGGCAGGCTGACTGATGGCCTCTATGAGTTCGCCGACGCCGTCCGTTCCGGAATGCAAGAGCGCGAGACCGATCTGCGGACCGCCCTCGGCGTTGAGTCCCAGGACCTGGCCCGCCGCTGA	MKRLVWMGIGVAIGIIAFRKISETQSNLQANLGPEGLNRAVGRLTDGLYEFADAVRSGMQERETDLRTALGVESQDLARR				NA	NA	NA	NA	NA
D1-29_02741	375			hypothetical protein	ATGTCTGGTGGCGATATTGCCGGCCTGATCGCTGCCGGGGTGTTTGCGCTCCTGGTGCTGCTGCTGGCCGTGCCGATCCTGAAGCTCGGGAGGGTGCTGGATGAGGTCCGCACCTCCATCCGTTCCATCAGCGACGGCGCCACTCCACTCATGGACGAAGTCACAGCCACGGTGTCCACCACCAACCAGCAGCTGAAAAAAGTGGACGGCATTGCCTCCAACGTTTCCGATGCCTCCGCGAACCTTTCAGCGCTGTCCTCCCTGGTTGCCGCTACGGTGGGGTCACCGCTGATCAAGGTGGCAGCCTTCAGCTATGGCGTCCGCACCGCCCTGGCCAACCGCAAGAAGCCCGCCGCCGGCCGTCGCAGCCGCTAA	MSGGDIAGLIAAGVFALLVLLLAVPILKLGRVLDEVRTSIRSISDGATPLMDEVTATVSTTNQQLKKVDGIASNVSDASANLSALSSLVAATVGSPLIKVAAFSYGVRTALANRKKPAAGRRSR				NA	NA	NA	NA	NA
D1-29_02742	627	rpsD		30S ribosomal protein S4	GTGGCTAACAACACTCGTGCTCGCCGTACAGCACGCCTCTCGCGTGCACTCGGCATCGCTCTGACCCCCAAGGCCGCCAAGTACATGGAGCGCCGTCCGTACGGCCCCGGTGAGCACGGCCGTGCCCGCAAGAAGCAGGACTCCGACTACGCCGTACGTCTGCGCGAAAAGCAGCGTCTGCGCGCCCAGTACGGCATCCGCGAAGCCCAGATGACCCGTGCCTTCGAAGAAGCACGCCGCACCAAGGGCCTGACCGGTGAAAACCTGATCGAACTGCTCGAAATGCGTCTTGACGCCCTCGTGCTGCGTGCAGGTTTCGCCCGCACCATCGCCCAGGCCCGCCAGCTCGTGGTGCACCGCCACATCCTGGTTGACGGCATCCGCGTTGACCGCCCGTCCTTCCGCGTAGGCGAAGGCCAGCTGGTCCACGTCCACAGCCGCAGCGAAACCATGGTTCCGCTCCAGGTTGCAGCAGCCGGCGCACACCGCGACGTCCTGCCCCAGGTTCCGGCCTACCTGGACGTCAAGCTTGACGCCCTGCAGGCACGCCTGGTCCGCCGCCCGAAGCGCTCTGAGGTTCCCGTAACCTGCGAAGAGCAGCTCGTCGTCGAATTCTACGCACGCTAG	MANNTRARRTARLSRALGIALTPKAAKYMERRPYGPGEHGRARKKQDSDYAVRLREKQRLRAQYGIREAQMTRAFEEARRTKGLTGENLIELLEMRLDALVLRAGFARTIAQARQLVVHRHILVDGIRVDRPSFRVGEGQLVHVHSRSETMVPLQVAAAGAHRDVLPQVPAYLDVKLDALQARLVRRPKRSEVPVTCEEQLVVEFYAR				NA	NA	NA	NA	NA
D1-29_02743	1443		COG2256	putative AAA domain-containing protein	GTGGATGATCTCTTCGGCCAAGGGCCCGGTAATGACGACGACGAAGGCACTGAACCGTCGCCGGCCGGTGGAACGGCGGGCAGGTCCGCTTCGGGGTCCAAGGCCTCGCCGCGCAGCCCCCTTGCCGTCAGGATGCGGCCGCGTACATTGGATGACGTTGTTGGCCAGCAGCACCTGCTGGGGCAAGGGTCACCGCTGCGCCAGCTTGCCGCGGGCGCCAACGCAGCAGGGCCTGCCGGTCCCAGCTCGCTGATCCTCTGGGGCCCGCCCGGAACCGGGAAAACAACCCTGGCCCATGTGATCGCCAGGGGGCCGGGGCGGAAGTTCGTGGAGCTGTCCGCGATCACCGCCGGGGTCAAGGACGTGCGGCGCGTGATGGACGACGCTTTGACTGCCAGGGACCTGTACAAGACCACCACAGTCCTCTTCCTCGATGAGATCCACCGCTTCAACAAAGCCCAGCAGGATGCCCTGCTGCCGGGGGTGGAAAACCGGTGGGTAGTCCTGGTGGCGGCAACTACGGAGAATCCGTCCTTCTCTGTTGTCTCGCCGCTTCTGTCCAGGTCCATCCTGCTGACGCTCAAGCCCCTGACCGACGAGGATATCGAGGGGCTGCTCGTCCGGGCTGTCACTGACGTACGCGGGCTCAATGGGAAGGTGGAGCTCAGCGCGGAGGCGCTGGCCCACCTGGTGCGGCTTTCCGGCGGGGACGCTCGGCGGGCCCTGACCGCCCTGGAGGCCGCGGCAGGTGTTGCGTTTGGCGACGCCGACGACGCCGACAGCGCAGTGGGCGGAACGGAGGCGCCCATCATGGTGGAGCTGAAGCACACGGAACGGGCCCTGGACGTGGCAGCTGTCCGGTACGACCGGGCAGGCGACCAGCACTATGACGTGGCCAGCGCCTTCATCAAATCCATCCGCGGCTCCGATGTGGATGCGGCCCTGCACTATCTGGCCCGGATGCTGGAGGCGGGGGAGGACCCGCGGTTTGTGGCCCGCCGGATTGTGATCTCGGCCGCCGAAGACGTGGGCATGGCGGATCCCACCGCACTCCAGACTGCGGTGGCAGCTGCGCAGGCCGTCCAGCTGATCGGCATGCCGGAGGGTCGGATCGTCCTTGCCGAGGCTGTGGTGCACCTGGCCACCGCACCAAAATCCAACGCCGCCTACATGGGAATCAACAAAGCGGTTGCCGACATCCGGGCAGGACTGGGCAACGGGATACCCGCCCATCTGCGCGACGCCCACTATCCAGGGTCAAAACAACTGGGGCACGGGCTCGGCTACAAATACGCCCACGATGCCCCGCACTCGGTAGCCACCCAGCAGTATCCGCCCGATGACCTCGTGGACCGGAACTACTACGAACCCACGGCCAACGGCGCGGAACGGGATATTGCCGTACGGCTTGAACGGCTTCGAAAGATCGTCCGCGGCGACTGA	MDDLFGQGPGNDDDEGTEPSPAGGTAGRSASGSKASPRSPLAVRMRPRTLDDVVGQQHLLGQGSPLRQLAAGANAAGPAGPSSLILWGPPGTGKTTLAHVIARGPGRKFVELSAITAGVKDVRRVMDDALTARDLYKTTTVLFLDEIHRFNKAQQDALLPGVENRWVVLVAATTENPSFSVVSPLLSRSILLTLKPLTDEDIEGLLVRAVTDVRGLNGKVELSAEALAHLVRLSGGDARRALTALEAAAGVAFGDADDADSAVGGTEAPIMVELKHTERALDVAAVRYDRAGDQHYDVASAFIKSIRGSDVDAALHYLARMLEAGEDPRFVARRIVISAAEDVGMADPTALQTAVAAAQAVQLIGMPEGRIVLAEAVVHLATAPKSNAAYMGINKAVADIRAGLGNGIPAHLRDAHYPGSKQLGHGLGYKYAHDAPHSVATQQYPPDDLVDRNYYEPTANGAERDIAVRLERLRKIVRGD				NA	NA	NA	NA	NA
D1-29_02744	675			hypothetical protein	ATGACCGCAAACGCCCCTACCGGTGGCGGACGTCCCGCGTCCGTCCGGACGGCCTTTGTGCCGGGGTCCAGATTGCTGGGCTGGGCAGGCCGCTTCAGTGCGGCCCACGGCGGTTTCGGACTCACGGAGGAGGATGACGGCGTCCGGCTCACCGCTGCAGACGGCGCCACTGCGCTCCTCCAGGCTCCCTGGCCGGTGGATGGCCGTCCGGGGCGCGGGGCGGACGAATTGGAACGGCTGGCGGCCCTTGCTTCCCAGCCGCGGCGGATCGCCCTTGTGCTGGTCCGACGTGGAGGTTACGGCCTTGCGGTGGCCAGCGAGGGCGTCCTCCTCGCCTCCAAAGTGGGTTCCAAGTATGTGCAGTCACGGACGGCCGCCGGAGGCCAGTCGCAGCAAAGGTTTGCCCGGCGCCGGTCCAACCAGGCTGATTCGCTGTTGCAGGCCGCCGCCGAGCAGGCCCGGCTGGTATTCTCCGGCCAGTCCTTTGAGTATGTTGTGCCGGGCGGAGACCGCACGTTGGTTGGCCTGGTGTTGGAGGATCCGCGCCTCTCGGCCTATGCCCGGCTGCCGCGGCTCGCCTATCTCGATGTGCCTGACCCCAAAGCAGCGGTGGTTCAGAAGGCGGCAGTGGATGCCTGCGCGGTGCGGATCCAGGTAACCGACCCGCCGTCGTAA	MTANAPTGGGRPASVRTAFVPGSRLLGWAGRFSAAHGGFGLTEEDDGVRLTAADGATALLQAPWPVDGRPGRGADELERLAALASQPRRIALVLVRRGGYGLAVASEGVLLASKVGSKYVQSRTAAGGQSQQRFARRRSNQADSLLQAAAEQARLVFSGQSFEYVVPGGDRTLVGLVLEDPRLSAYARLPRLAYLDVPDPKAAVVQKAAVDACAVRIQVTDPPS				NA	NA	NA	NA	NA
D1-29_02745	1188		COG2826	IS30 family transposase ISAcl1	ATGCCGAAGTTGTTTCCTGCCAATGTCCGTGGTGATTTTCTTGATCTGGTGTGCTCCGGCGCGTCTGTGAGCGAGGCTGCACGGCGTGTCGCGGCCTCCCGCGGGACCGGGAAGAAGTGGTGGGCCGAGTCTGGTCAGATGAAAGTGAAGATGGGGGTCGTTGGCGGTCTGGCGGACCCGGCGCCGGGTGCGGAAGGCCCGGGCGGGCGGACGTTGACGGAAGCCGAGAGGGGGATGATCCAGATGGGCGTGGAGGCCGGGATGGGTTACGCCCAGATTGGCAAAGCGGTCGGCCGGGACAGGTCCGTCATCTGGCGGGAGGTGAAACGTAACTCCGACGCCGGCGGCAGGTATCACGCCAAAGTTGCGCACGCCAAGGCGCATCAGGCACGGCGCCGGCCCAAGCCCTTCAAGCTCATCGAGGACGAGGACCTGTGCCGGCTGATCGCCTTCTGGATGGATGAGGGGTGGAGCCCGAAACTGATCTCGTCGATGTTGGCGTTTTACTTCGCCGGTGACCAGACTATGCAGGTGAGCCACGAGACGATCTACCAGGCGCTGTACGTCCAAACCCGCGGAAGTCTGCGCAAAGACCTGGCCGAAAACCTCAGCCTGAAACGTAAACAGCGCGTCCCGCACATCGCTGACCGGCGCAAGAACAGCCCCTACAAAGAGGCGTTCAAGATCAGTGAACGACCCGCCGAAGTCCAGGACCGGGCCATCCCGGGGCATTGGGAAGGCGATCTGATCATCGGTTCTGACGGGACCGCTATCGGCACCCTCGTGGAACGCTCAACCCGGTTCACGATCCTGCTGCACCTGCCCGGGGACCACAGCGCCGAGACCGTCGCCGCAGCGATGATCCGGGAGATGGCGAACCTCCCGGATCATCTGCGCCGCTCCATCACCTGGGACCGCGGCTCCGAACTGGCAGGCTACGCGAAGATCCAGACAGCCTTGGAAACCACGCTGTATTTCTGCGACCCGCACTCGCCCTGGCAGCGCGGCACCAACGAAAACACCAACCGGCTCCTGAGGTTCTGGTTCGAGAAAGGCTCCGACCTCTCGGCCCACACACCGGAGGACCTCCGCCGCGTCGCCGCGACACTCAACCGCCGGCCCAGGCCGACCCTGAACCTACAAACCCCAGCCAACCGGCTAAACCAGCTGCTGCAAACAGCGGCATAA	MPKLFPANVRGDFLDLVCSGASVSEAARRVAASRGTGKKWWAESGQMKVKMGVVGGLADPAPGAEGPGGRTLTEAERGMIQMGVEAGMGYAQIGKAVGRDRSVIWREVKRNSDAGGRYHAKVAHAKAHQARRRPKPFKLIEDEDLCRLIAFWMDEGWSPKLISSMLAFYFAGDQTMQVSHETIYQALYVQTRGSLRKDLAENLSLKRKQRVPHIADRRKNSPYKEAFKISERPAEVQDRAIPGHWEGDLIIGSDGTAIGTLVERSTRFTILLHLPGDHSAETVAAAMIREMANLPDHLRRSITWDRGSELAGYAKIQTALETTLYFCDPHSPWQRGTNENTNRLLRFWFEKGSDLSAHTPEDLRRVAATLNRRPRPTLNLQTPANRLNQLLQTAA	PGPT0030610_273	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030610-IS30_family-K07482	NA	NA
D1-29_02746	795			hypothetical protein	GTGCAGCCCACGATGGAAAAATACGAGGCCCTGATGGATGCGGCCTGGCCTGCCCCCGAGCGGCATGACACGGGGGAGTGGACGCTCCGGGCCGCGGGCGGTGTGACGCAAAGGGCCAATTCTGTGTGGCCCCAAACCGAAGCCCGGGACATTCCCGCTGCCGTCCGCGACGCTTCACTGTGGTACCGGCGCCGGAGGCTGCCCGCGATCTACCAGGTCACCGACACTCCGCGCAACGCAGCCCTGAACGCGGTGCTGGATGCGCAGGGCTACACGCACCAGTCGGAAACCCTGATCATGTCCCGCGGCTCCGGTTCGACGAGCCGAACGGCTCCAGTGACCCCGCCAGGCGGCCCGGCAGCGGAATTGTCGGACCAGCCCACCGCTGAGTGGCTTGACTTGTGGTGGGGCGTTGACGGCCGGGGCGGCGCGCCTGAACTGGAAACCGCCCGCACCATCCTGACCGGGTGTCCCTCCCTGTACTCACTGGTGAGGACCGACGACGGCGATCCGGCCGCCGTCGGACGCTTGGCCCTTCCTGCCGCAGGGGAGAGCGGTTATGGAGGCATCTACGGGATGGCTACCCGGCCTGGGTTGCGCCGCCAAGGGCTGGCGGGCCGGGTGCTGCATTCACTCATGGAAGGTGCAGCGGAAGCCGGCGCCGAAGAGCTGTGGCTGCTGGTGACGGCGGCGAACTCCGGGGCGCAGGCTCTTTACGCAAAAGCAGGCTTCCGGGAAACCGGCCGGTACGCGTACCGGCAGGAGCGGCCCAAACGGCACCTGACCGGCTGCTGA	MQPTMEKYEALMDAAWPAPERHDTGEWTLRAAGGVTQRANSVWPQTEARDIPAAVRDASLWYRRRRLPAIYQVTDTPRNAALNAVLDAQGYTHQSETLIMSRGSGSTSRTAPVTPPGGPAAELSDQPTAEWLDLWWGVDGRGGAPELETARTILTGCPSLYSLVRTDDGDPAAVGRLALPAAGESGYGGIYGMATRPGLRRQGLAGRVLHSLMEGAAEAGAEELWLLVTAANSGAQALYAKAGFRETGRYAYRQERPKRHLTGC	PGPT0014246_391	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014246-yobR-K22476	NA	NA
D1-29_02747	1770	aspS	COG0173	Aspartate--tRNA(Asp/Asn) ligase	GTGCTGCGCACACATGACCTCGGATCCCTTCGCTCCGAGCACATTGGACAAACCGTAACCCTGGCCGGCTGGGTGGGCCGCCGTCGTGATCACGGTGGTGTCGCATTCGTGGACCTGCGCGATGCCTCCGGCGTTGCCCAGGTTGTGGTGCGTGAGGAAGAGGTCTTCCACGGTCTGCGCAATGAGTACGTCCTGCAGGTCACCGGCACCGTCTCCAAGCGGCCCGAGGGCAACGAGAACCCGGCGCTGGCCACCGGCGAGATCGAGGTCATGGCGGACAAGGTGGTCATTCTCAACACCTCTGAACCCCTGCCGTTCCAGATTGACGAACACGTTGAAGTGGGCGAGGAAGCACGCCTGAAGCACCGCTACCTGGACCTGCGCCGCCCTGGCCCCAGCCGCAACCTCCGGCTGCGCTCCGAAGCCAACCGGGTAGCCCGCGAGCTGCTTCACACCGAGGGCTACGTCGAGATCGAAACACCCACCCTGACGCGCTCGACGCCGGAAGGCGCCCGGGACTTCGTGGTTCCCGCCCGCCTGGCGCCGGGTTCCTGGTATGCGCTTCCGCAGTCACCGCAGCTTTTCAAGCAGCTGCTGCAGGTGGGCGGCTTCGAGAAGTACTACCAGATTGCCCGCTGCTACCGGGATGAGGACTTCCGCGCAGACCGCCAGCCGGAGTTCACCCAGTTGGACATCGAAGCCAGCTTCGTGGACCAGGACGACATCATTGCCCTGGGCGAAAACATCGTGAAGGCTGTGTGGAAGCTGATCGACGTCGAGATCCCCACGCCGATCCAGCGCATCACCTATGCGGACGCCATGGCGCGGTACGGCTCTGACAAGCCCGACCTTCGTTTCGGCGTGGAACTGACCGAGCTCACCGAATTCTTCAAGGACACCAACTTCGGCGTCTTCAAGGCCCCGTATGTCGGCGCCGTGGTGATGCCCGGCGGCGCCTCGCAGCCACGGCGAACCCTGGACGGCTGGCAGGAATTCGCCAAGCAGCGCGGGCACAAGGGTCTTGCCTACGTCCTCTTCAAGGAAGACGGGGAACTGGCCGGGCCGGTTGCCAAGAACCTGACCGACGCCGAGCGCGATGGCCTGGCGGATGCCGTGGGCGCCAAGCCCGGCGACTGCATCTTCTTTGCGGCCGGCGAGAAGTCTTCGGCGCGCGCCCTCCTCGGTGCTGCACGTGTGGAAATCGGCTACCGGACCGGACTGATCGACCCCAGCGCCTGGGCCTTCTGCTGGGTGGTTGACGCGCCGATGTTCGAACCGGCTGCTGCCGCCGTGGCCTCTGGCGACGTGGCTGTTGGTGCCGGCAAGTGGACAGCAGTCCACCACGCCTTCACCTCACCCAAGCCCGAGTTCCTGGCGACGTTCGACAAGGACCCGGAATCGGCTTTGTCCTACGCCTACGACATCGTCTGCAACGGCAACGAAATCGGCGGCGGATCCATCCGTATCCACGAGCGCGATGTCCAGGAACGTGTCTTTGAACTGATGGGCCTGGATAAGGAAGACGCCCAGACAAAGTTCGGCTTCCTGCTGGAGGGCTTCAAGTTCGGCGCTCCGCCGCACGGCGGCATCGCCTTTGGCTGGGACCGCGTGGTGGCACTTCTGGCCGGTGTCGAATCCATCCGCGATGTCATTGCCTTCCCGAAGACCGGCAACGGCTACGACCCGCTGACCCAGGCACCCGCTCCCATCACCGCGCAGCAGCGCAAGGAAGCCGGCGTGGACTTCAAGCCGGAAGCCAAAAAGGCGTAG	MLRTHDLGSLRSEHIGQTVTLAGWVGRRRDHGGVAFVDLRDASGVAQVVVREEEVFHGLRNEYVLQVTGTVSKRPEGNENPALATGEIEVMADKVVILNTSEPLPFQIDEHVEVGEEARLKHRYLDLRRPGPSRNLRLRSEANRVARELLHTEGYVEIETPTLTRSTPEGARDFVVPARLAPGSWYALPQSPQLFKQLLQVGGFEKYYQIARCYRDEDFRADRQPEFTQLDIEASFVDQDDIIALGENIVKAVWKLIDVEIPTPIQRITYADAMARYGSDKPDLRFGVELTELTEFFKDTNFGVFKAPYVGAVVMPGGASQPRRTLDGWQEFAKQRGHKGLAYVLFKEDGELAGPVAKNLTDAERDGLADAVGAKPGDCIFFAAGEKSSARALLGAARVEIGYRTGLIDPSAWAFCWVVDAPMFEPAAAAVASGDVAVGAGKWTAVHHAFTSPKPEFLATFDKDPESALSYAYDIVCNGNEIGGGSIRIHERDVQERVFELMGLDKEDAQTKFGFLLEGFKFGAPPHGGIAFGWDRVVALLAGVESIRDVIAFPKTGNGYDPLTQAPAPITAQQRKEAGVDFKPEAKKA				NA	NA	NA	NA	NA
D1-29_02748	1245		COG0531	putative transporter	ATGACCGCGCATCAGCAACTTCAGCGCAGGCTCGGCGTCTTCGATGCCACCTCCATCGGCCTTGGTTCCATGCTGGGGGCTGGCGTGTTCGTTGTCTTCGCTCCGGCCACGGCCCTGGCGGGCAACTTCCTGGTGCTGTCGGTGCTGATCGCCGGGGCAGTGGCCTATTGCAACGCCGTCGCCTCGGCGGAACTTGCCGCCCGGTATCCGTCAAGCGGCGGCACGTACGTTTATGGCCGGGAGCGTCTGGGCGAATGGCCCGGCTTCCTGGCCGGCTGGGGTTTCGTGACAGGCAAGACCGCTTCGTGCGCAGCCATGGCCCTGACGTTCGGACACTACATCGCCCCGGCCTACGCCGTCCCGGTGGCGGTGGCTGCGGTAGTGGCCTTGACGGTGGTCAACCTGCTGGGGATCACCCGCACGGCGCTGCTGACCAGGATCCTCCTGTGTGTTGTGCTTGCAACCCTCATTTTTGTGGCGATCGCCAGTGTTGTTGGCCCGCACCCTGCCGTAACTGCAGCGGACACCGATGCCTTGGGTGGCGCCGGGGGTGTTCTGCCCGCCGCAGGCCTGATGTTCTTCGCCTTTGCCGGTTACGCGCGGATTGCGACGTTGGGCGAAGAGGTCAAGGATCCGGCCAAGACCATTCCCCGCGCCATTCTCGCGGCCCTTGCCGCTGCCTTTGCCATCTATCTGGCGCTGGCGCTGCTGCTGCTGAACCATCTGCCTGGCGGCCAGCTCGCTGCCTCACGAGCGCCCCTGCTGGATGCTGTTCTGCACTCCGGATTGGCTGCGGGCGCTCCCCTTGTTCAGGCCGGCGCGGCGGCGGCGTGCCTGGGCGCCCTCCTGGCGTTGATTACGGGAGTGGGCAGGACCACCCTGGCCATGGCCCGGGAACGCGACCTGCCCGGCCCGTTGGCGCGTGTTGGGGGCAAGCACACGGTTCCCTTTGTCGCGGAACTGACAGTGGGCGCCGTCGTAATTCTCCTGCTGCTGACCACGGACGTGATGACCGTGGTGGGATTCTCCAGCTTTGGCGTGCTGATCTACTACGCGGTGGCCAACGCTGCCGCCTACACCCTGGCCGAGCACCCCGGACACGCGCCACGGTGGCTCAATGGCGTGGGCTTCTTCAGCTGCCTGCTCCTGGCCTTCACCCTGCCGGCCATGTCGGTGCTGGGCATGGCCTTGGTGCTGGCTGCAGGGGTTGCTGGGCGTTTCCTGGTGCTCCGGCTGCGCCGCTGA	MTAHQQLQRRLGVFDATSIGLGSMLGAGVFVVFAPATALAGNFLVLSVLIAGAVAYCNAVASAELAARYPSSGGTYVYGRERLGEWPGFLAGWGFVTGKTASCAAMALTFGHYIAPAYAVPVAVAAVVALTVVNLLGITRTALLTRILLCVVLATLIFVAIASVVGPHPAVTAADTDALGGAGGVLPAAGLMFFAFAGYARIATLGEEVKDPAKTIPRAILAALAAAFAIYLALALLLLNHLPGGQLAASRAPLLDAVLHSGLAAGAPLVQAGAAAACLGALLALITGVGRTTLAMARERDLPGPLARVGGKHTVPFVAELTVGAVVILLLLTTDVMTVVGFSSFGVLIYYAVANAAAYTLAEHPGHAPRWLNGVGFFSCLLLAFTLPAMSVLGMALVLAAGVAGRFLVLRLRR	PGPT0020810_6476	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
D1-29_02749	1359	hisS	COG0124	Histidine--tRNA ligase	ATGGCACGCACCGCCTCCCTGTCCGGCTTCCCCGAGTGGCTTCCCGAGGAGCGGCTGGTGGAGCTGCACGTGCTGGATACGCTGCGCCGGGTTTTCGAGCTGCACGGCTTTGCCTCGATCGAGACGCGGGCCGTTGAAACTGTGGGCCAGCTGCTGCGGAAGGGCGAGATTGACAAGGAAGTCTATGGCCTGAGCCGTCTTCAGGATGATGAGGACGACTCCAAGGCGGGCAAACACGATCCCCACGCCCTGGCCCTGCACTTCGACCTCACGGTGCCCTTTGCCAGGTACGTGGTGGAAAATGCCGGTTACCTTGCCTTCCCGTTCCGGCGTTACCAGATCCAGAAGGTCTGGCGCGGCGAACGTCCCCAGGAGGGCCGCGCCCGGGAATTCACCCAGGCAGACATCGATGTAGTGGGCGACGGCGAGCTGCCGTTCCGCTATGACGTGGAGATCGCGCTGGTCATTGCCGAGGCGCTCAGTGCCCTGCCCATTCCGGACTTCCGGCTGCGCATCAACAACCGCAAACTGGCCGAAGGCTTCTACCGGGGCATTGGCCTCGATGACACCGCAGGGGTGCTGCGCAGCATCGACAAGCTGGAAAAGATCGGTCCCGCCAAGGTGGCCGAACTCCTGAAGACCGAGCTCGGCGCCACAGATGAACAGGCCCACGCCGCGCTGCAGCTGGCCGCAATCCGCACCGAAGACACGTCATTTGTGGCGCAGGTCCGCGCGCTTGGTGTCAGCAACGACCTGCTGGAAGAGGGCTTGAACGAACTTGAACAGGTGATCGAGGCGGCGGTGCAGCGTGCGCCCGGCAAGGTCGTGGCTGATCTCAGCATCGCCCGCGGCCTGGACTACTACACGGGAACGGTGGTGGAAACCGTGCTGGTGGGGCACGAGCAGCTGGGGTCCATCTGCTCCGGCGGCCGTTATGACGCACTGGCCAGCAAAGGCAACCGCAAGTTTCCCGGCGTCGGCCTGTCCATTGGAGTCACACGGCTGGTGTCGAGGATCCTCAGCCAGGACTTGGCCAAGGCGTCGCGTTCGGTACCCACAGTTGTCCTGGTCGCCCTCACCAACGACGACAGCTGGGGTGCGGCCCAGGACGTCGCGGCCCAGCTTCGGGAACGCGGAATCGCCACCGAGGTGGCGGCCAAGGCCGAGAAGTTCGGCAAGCAGATCAAGTTCGCTGACCGCCGCGGAATTCCATTCGTCTGGTTCACGGACGACGACGGCAATCACCAGGTCAAGGACATCCGTTCCGGAGACCAGGCCGACGCCGACCCCGCACGGTGGACTCCGCCGTCGGAAGACCTTTCTGTCCAGGTGAAAACGGTGGCGGCGCAGCCGGTCTGA	MARTASLSGFPEWLPEERLVELHVLDTLRRVFELHGFASIETRAVETVGQLLRKGEIDKEVYGLSRLQDDEDDSKAGKHDPHALALHFDLTVPFARYVVENAGYLAFPFRRYQIQKVWRGERPQEGRAREFTQADIDVVGDGELPFRYDVEIALVIAEALSALPIPDFRLRINNRKLAEGFYRGIGLDDTAGVLRSIDKLEKIGPAKVAELLKTELGATDEQAHAALQLAAIRTEDTSFVAQVRALGVSNDLLEEGLNELEQVIEAAVQRAPGKVVADLSIARGLDYYTGTVVETVLVGHEQLGSICSGGRYDALASKGNRKFPGVGLSIGVTRLVSRILSQDLAKASRSVPTVVLVALTNDDSWGAAQDVAAQLRERGIATEVAAKAEKFGKQIKFADRRGIPFVWFTDDDGNHQVKDIRSGDQADADPARWTPPSEDLSVQVKTVAAQPV				NA	NA	NA	NA	NA
D1-29_02750	807			hypothetical protein	TTGGCGGCCAGTTCACGCAGTGCCCGCGAAGCCAAACGGCGCATCCAGCAGATGGAGGCAAAGCGCGAGCTGCGGCGGGAGCAGGAGAAACGGCGCAAGCGGGACAATATCATCGCCGTCGGCGCGGGTACCGCCGCGGTGGTGCTCGCCGTCGTGCTTCAGCTCACCGCGTTTGCCGGCAATCCCACCGAAGAGGAGTTCGCGGCAGCTGAAGCCGGGCTCAAGACGCCGTCTGCCTCCCCCACGCCGTCCGCCCCACCCACCAACGCCGCCAACATTCCGGCACCCGACATCGCAGCCGACAAGGTATTTACCGGCGAGTTGATGCTGAACAGGGGGACGGTAGGGGTGGAACTCGACGGCACCAAGGCACCGCAGGCTGCTGCCGTTTTCAAGTCCTTGAGTGACCAGGGCTATTACAACGGGTCCAACTGCCACCGGCTGGCTACGGGCGAAACCTTCGGCCTGCTTCAGTGCGGGTCCAAGACCGGTGACGGCGCCTCGGACCCGGACTACAACTGGGGCCCGCTGGAAAACACGCCCGCGGACAACACCTATCCTGCCGGCACCATTGCCGTTGCCAGGTCCGGAAACAATGCCTATGGGAACGGGACCCAGTTCTTCATCGTCTACAAGGACACCGTCATACCGGCCGATACGGCCGGCGGTTACAGCGTCGTGGGCAGGGTGACATCAGGACTGGACGTGGTGACGAATATAGCCGCCGCCGGAATCGCGGAAGGCGGAAATCCCACAGACGGCGCACCCGCGGAACCAGTCACGATAGACTCGTTTTCTCTGAAGTAG	MAASSRSAREAKRRIQQMEAKRELRREQEKRRKRDNIIAVGAGTAAVVLAVVLQLTAFAGNPTEEEFAAAEAGLKTPSASPTPSAPPTNAANIPAPDIAADKVFTGELMLNRGTVGVELDGTKAPQAAAVFKSLSDQGYYNGSNCHRLATGETFGLLQCGSKTGDGASDPDYNWGPLENTPADNTYPAGTIAVARSGNNAYGNGTQFFIVYKDTVIPADTAGGYSVVGRVTSGLDVVTNIAAAGIAEGGNPTDGAPAEPVTIDSFSLK	PGPT0015111_891	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
D1-29_02751	1944			hypothetical protein	GTGACAGACAGTCAGAAATCCGACGAAACAGCAGCAGACCTGACCGAGGCGACGGCGCCTGCGGTAGACGGGACCGCTGCTGGGCAGGCCGCGGCCGGCGACGCAGCACGTGACGAGACCGTGGCCGTCGTGCCTGCGGTCGACGAGGGAGCGGCTGACGAGGCTGTTGCCGAACCGGCAGCCGCGGAGTCCCCCGTGGAACAGGCCCCGGAAGCTAGCGAATCCGCAGCAGCCGAAGCCGAGCCGGCTGAATCCGAACAAGCTGAGTCAGAGCAAGCCGAATCAGAACAGGCTGAAGAGGCCGTGGTGCCGGACGCTGCACCCCAGGAGCCTGCCGCTGAAGAAGCCGCCGAATCCCCCGCGGAGGATGCACCCGCAGAGGACGCCGCCGCTGAGGCGCCGGCCATGGAGGACGCGCGTGCTGAGGCGCGTGCCGAATCCGAGGCACCAGCCGAATCTGAGGCGCCCGCGGAAGCCGGTGCACCTGCTCAGGGCCCCGCTGCTGAAGAATCAGCTGCAGAAGCCCCCGCTACAGAGGAATCAGCTGCAGAAGAAACAGCCGCGGCCGCAGCTGCGCCGGTGCCCGCTCCGGCACCGCGTCCGGCACCGTCGCCCGCAGCTTTCGCAGCCCGTCCCAAGCCGGCCGCCGCGGCACCCGCAGCAGCTCCGGCACCGGTGGCATCGGCAACCTCGCTGGCAGAAGCCGCACGCTGGGGCCGCGTCGAGGGCGACGGCCACGTCTTCCTGACCATCGACGGTGAAGAGCACCCCGTGGGCCAGTACCCCGGGGTCAGCGATGACGAGGCCCTGGCTTACTTCGCAAGGAAATACGACGACGTTGTAGCCCAGATCGTCCTCCTCGAGCAGCGCGTCAGTTCCAAGGCGCCCAGCACGGACATGCAGAAGACCGTGAACCACCTCCGCGAGCAGCTTGCCGAGCGGAACATGGTGGGTGACCTGCGTGCGGCAGAGGCGCGCCTGGACAGGCTCTCTGAACAGATTTCTGAACTGGAAAAGTCCGAAAAGGCAGAGCACGACGCCGTCCGCGCCTCAGAGCTGGCCGCTCGGGAAGCGATCGTGGCTGAGGCTGAGGAAATCTCCGGCCAGGACCCTTCCCAGATCCAGTGGAAGACCTCCAGCGCCCGGATGAACGAACTGTTCGAAAGCTGGAAGACGGCGCAGAAGAGCGGTGTACGGCTGGGCCGCAGCAACGAAGACGCCCTGTGGAAGCGCTTCCGTGCTGCGCGCACCGTTTTTGACCGCCACCGCAGGGCATACTTCTCCCAGCTGGACAGCAACAACTCGGCCGCGAAATCAGCCAAGGAAAAGCTCATCGCTGAGGCTGAGGCCCTCTCCACGTCAACGGACTGGGGGTACGCCGCGGGCGAATACCGCCGCCTGATGGATGAATGGAAAGCCTCCCCGCGTGCCAGCCGGAAGGACGACGACGCCCTGTGGGCCCGCTTCCGCGCTGCACAGGATGTTTTCTTCACATCACGGCAGGCCGCCAACGAGGAAATCGACCAGGAGTACGCGGCGAACCTTACCGTGAAGGAAGCGCTCCTGGTTGAAGCGAACGCCATCCTCCCCGTCAAGGATCTGGCCGCCGCCAAGAAGGCGCTCCAGTCGGTCCGTGACCGCTGGGAAGAGGCCGGCAAGGTCCCCCGTGCGGATATGGGACGGATCGAGGCGGGCCTCCGCAAGGTGGAAGACGCCGTCCGGCACGCCGAAGAGGAAAACTGGCAGCGGTCCAACCCTGAGACCAAGGCCCGCACCAACAGCGCCCTGTCCCAGCTGGAGGCAGCCATCGCCGGTCTGCAGGACGACCTGGCCAAGGCCGAGAAAGCCGGCGACCAGCACAAGATCAAGTCCGCCCGGGAAGCGCTCGAGGCACGGCAGGCCTGGTTGGACCAGATCCAGCGTTCAGCGAGCGAACTCTCCTAG	MTDSQKSDETAADLTEATAPAVDGTAAGQAAAGDAARDETVAVVPAVDEGAADEAVAEPAAAESPVEQAPEASESAAAEAEPAESEQAESEQAESEQAEEAVVPDAAPQEPAAEEAAESPAEDAPAEDAAAEAPAMEDARAEARAESEAPAESEAPAEAGAPAQGPAAEESAAEAPATEESAAEETAAAAAAPVPAPAPRPAPSPAAFAARPKPAAAAPAAAPAPVASATSLAEAARWGRVEGDGHVFLTIDGEEHPVGQYPGVSDDEALAYFARKYDDVVAQIVLLEQRVSSKAPSTDMQKTVNHLREQLAERNMVGDLRAAEARLDRLSEQISELEKSEKAEHDAVRASELAAREAIVAEAEEISGQDPSQIQWKTSSARMNELFESWKTAQKSGVRLGRSNEDALWKRFRAARTVFDRHRRAYFSQLDSNNSAAKSAKEKLIAEAEALSTSTDWGYAAGEYRRLMDEWKASPRASRKDDDALWARFRAAQDVFFTSRQAANEEIDQEYAANLTVKEALLVEANAILPVKDLAAAKKALQSVRDRWEEAGKVPRADMGRIEAGLRKVEDAVRHAEEENWQRSNPETKARTNSALSQLEAAIAGLQDDLAKAEKAGDQHKIKSAREALEARQAWLDQIQRSASELS				NA	NA	NA	NA	NA
D1-29_02752	687			hypothetical protein	ATGGCAGCAGCGTCCCCACCCGAATACCCTGACCTCTATTCGCCGGGGCGGCCTTTTAGCTGGCCGGAACTCCAATCGCTTGCTGCGGACGGCGTGCTGGCCAGGTTCCACCAGCAGGGGTATTCACTTCCGGACGTTCACACTTCACCCCAGCTGCGCGCCAGGGCAGCGGCCAACTACGTGCCGGCAGCCATCAGGCAGCGGGTGGTTGCCGGGCGGATGACTGCTGCCTGGATCTACGGCTGTGCGGCGGAGCCGGACCGGCTGGCACTCCTGGTGGACGCGAAACGCCGGGTCTCCAGCCTGCGGAACACCCGCGGATGCACGCTCCACGAAGTCAGGCTCGGCCCGTTCGACGTCGTCAGTCTCGGTGGTCTGATGGTCTCCAGTCCCCTGCGGACAGCCCTGGACATTGCCCTGCATGTGGAACCCCAGCGGGCAATCCCGGCTTTGGAGGGGCTGCTTGCCCGGCCCGAAAAGGACGTGAGGCTGCGCCTCCTGATCCTGGCCATTGAATCGACGCCAAGGGTGCCCCATAAGAAGGCCGCGCTGGAAAAGCTTGCCCTGCTAGCTCCGGCGCTTGTTGCCTGTGGTCCTGTAAACGTCAAAGACGCCGTCGATCCGCCGGACAGCGCTGAGGACGTGGCTCAGGTACTTGGGGTCGCCCATCTCGAACGCGAACTTTGA	MAAASPPEYPDLYSPGRPFSWPELQSLAADGVLARFHQQGYSLPDVHTSPQLRARAAANYVPAAIRQRVVAGRMTAAWIYGCAAEPDRLALLVDAKRRVSSLRNTRGCTLHEVRLGPFDVVSLGGLMVSSPLRTALDIALHVEPQRAIPALEGLLARPEKDVRLRLLILAIESTPRVPHKKAALEKLALLAPALVACGPVNVKDAVDPPDSAEDVAQVLGVAHLEREL				NA	NA	NA	NA	NA
D1-29_02753	2394	relA	COG0317	Bifunctional (p)ppGpp synthase/hydrolase RelA	TTGGAAGAACGTTCGGCGTCGGCGCCAACGGCAAACGGGGATAACAGTCCAGGCTCCGGACCGCAGACCGGGCTGGCCGCTTCCGGCCGCCCCGGCCCGGTGATTCCCGTGGACAATTCCGGTTCGCGTGCCACCTTTCCCGGCCGCCGGGAACGGACCCGCTCCCGGCTCGCACGCCTCACAGGGCGCAGTGCGGTCAATTATTCACCCATCCTTGAGCCGCTGCTGCGGACCGTCCGGGCGAACAACCCCAAAGAAGACTTTGACCTCATCCAGCGCGCCTTCGACGTCGCCGAGCGCAGCCACCGCGGCCAGAAACGCAAGAGCGGCGACCCCTACATCACCCACCCCGTGGCTGTTGCGACCATTCTGGCTGAACTCGGGCTGAGCGGCACTACCCTCGCCGCCGCACTCCTCCATGACACGGTGGAGGACACCCCGTACACGCTGGCGGACCTGAAGCGGGACTTCGGGCCGGAAGTCGCCATGCTGGTGGACGGCGTGACAAAGCTGGACAAAGTCAGTTTCGGTGAAGCTGCCCAGTCAGAGACAGTGCGCAAGATGGTCGTGGCCATGGCCAAGGACATCCGCGTCCTAATGATCAAGCTGGCGGACAGGCTGCACAATGCCCGTACCTGGCGTTTCGTCTCGGCCGAATCCTCCGCCCGCAAGGCGCGCGAAACCCTGGAGATCTTCGCACCCCTGGCCCACCGCCTCGGGATGAACACCATCAAGTGGGAGTTGGAGGACCTGTCCTTCGCGGCCCTCTATCCCAAGGTCTATGAGGAAATCGTCCGGATGGTGGGGGACCGCACCCCGGAGCGGGAGAAGAGCCTGGGGGTCATCCGGGACCAGATCACCGAGGACCTCAGGACCGCGCGGATCAAGTCCACCATTACCGGCAGGCCCAAGCACTATTACTCGATTTACCAGAAGATGATCGTGCGGGACAAGGACTTCGACGACATCAACGACCTCATGGGTGTCCGGGTGCTGGTGGATTCGGTCCGGGACTGTTATGCCGCGCTGGGCACCATGCATTCGCGCTGGAATCCGCTGCCCGGACGGTTCAAGGACTACATCGCGATGCCCAAGTTCAACATGTACCAGTCCCTCCACACCACCGTGATCGGCCCGGGCGGAAAGCCTGTGGAGATCCAGATCCGGACTCACGAAATGCACCGGCGCGCAGAGTACGGCGTGGCGGCACACTGGAAGTACAAGGACCAGCCAAACCGGACGGCCACCGGACCGGGCAGCCCACGCGACGGCGACATGGGCTGGCTCAGGTCCCTGGTGGACTGGCAGCAGGAAACCTCCGATCCCGGCGAATTCCTGGACTCCCTGCGCTTTGAGATCAATGCCCGGGAGGTGTTTGTCTTTACCCCAAAGGGCGAGGTCATGGCCCTGCCTGCCGGATCCACCCCGGTGGACTTTGCCTACGCCGTGCATACCGAAGTGGGGCACCGCACCATCGGCGCCAGGGTGAACGGCAAGCTGGTTCCGCTGAACAGCGAGCTCAACCATGGCGACTGGGTAGAAATCTTCACGTCGAAAGCAGAAGGAGCCGGCCCCAGCCAGGACTGGCAGCACTTCGTTAAGAGCGCCAGGGCCCGGAACAAGATCCGTCAGTGGTTCAGCAAGGAACGCCGCGAAGAGGCGATTGACCGTGGCAAGGAACTGTTGACGCGGGCCATGCGGAAACAGAACCTTCCCCTCCAGCGCCTGATGACACATGAAGCCCTGGCGGCAGTGGCCGCTGACTTCAAATACGTGGACATCTCTGGCCTGTACGCCGGCGTGGGTGACGGACACACGTCAGCCCAGTCCGTGATGGAAAAGCTCGTCGAAAGCCTTGGCGGCAACGAGAGCACCGACGAAGACATCACCGAAGTCAGTATCCCCACGCAGGTCACCAAGGCCCGGTTCTCGGATTCCGGCGTGGTGGTCCGCGGCGTGGGGGACGTCTGGGTGAAGCTGGCCCGCTGCTGCACCCCGGTTCCGCCCGATCCGATCCTCGGGTTTGTTACCCGGGGCTCCGGTGTTTCAGTGCACCGTACGGACTGCACCAACATCTCGGACCTTAAGGACCAGCCGGACAGGATTGTTGATGTGGACTGGGCCCCCACGCAGTCCAGTGTTTTCCTGGTGGAGATCCAGGTTGAAGCCCTGGACCGTAAGTCGCTGCTGTCCGATGTGACCCGGGTCCTCTCTGACAACCATGTGAACATCCTCGCCGCCAGCGTGCATACCTCCACGGACCGGGTGGCAATCTCAAAGTTCGCGTTCGAGATGGGCGACCCCAAGTACCTGAGCCACGTCCTCAGCGCTGTCCGGCGGATCGACGGCGTCTTTGACGTTTACAGGACCACAGGCAACAAGCGCCGGAGCTAG	MEERSASAPTANGDNSPGSGPQTGLAASGRPGPVIPVDNSGSRATFPGRRERTRSRLARLTGRSAVNYSPILEPLLRTVRANNPKEDFDLIQRAFDVAERSHRGQKRKSGDPYITHPVAVATILAELGLSGTTLAAALLHDTVEDTPYTLADLKRDFGPEVAMLVDGVTKLDKVSFGEAAQSETVRKMVVAMAKDIRVLMIKLADRLHNARTWRFVSAESSARKARETLEIFAPLAHRLGMNTIKWELEDLSFAALYPKVYEEIVRMVGDRTPEREKSLGVIRDQITEDLRTARIKSTITGRPKHYYSIYQKMIVRDKDFDDINDLMGVRVLVDSVRDCYAALGTMHSRWNPLPGRFKDYIAMPKFNMYQSLHTTVIGPGGKPVEIQIRTHEMHRRAEYGVAAHWKYKDQPNRTATGPGSPRDGDMGWLRSLVDWQQETSDPGEFLDSLRFEINAREVFVFTPKGEVMALPAGSTPVDFAYAVHTEVGHRTIGARVNGKLVPLNSELNHGDWVEIFTSKAEGAGPSQDWQHFVKSARARNKIRQWFSKERREEAIDRGKELLTRAMRKQNLPLQRLMTHEALAAVAADFKYVDISGLYAGVGDGHTSAQSVMEKLVESLGGNESTDEDITEVSIPTQVTKARFSDSGVVVRGVGDVWVKLARCCTPVPPDPILGFVTRGSGVSVHRTDCTNISDLKDQPDRIVDVDWAPTQSSVFLVEIQVEALDRKSLLSDVTRVLSDNHVNILAASVHTSTDRVAISKFAFEMGDPKYLSHVLSAVRRIDGVFDVYRTTGNKRRS	PGPT0014310_260	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139	NA	NA
D1-29_02754	1020	secF	COG0341	Protein translocase subunit SecF	ATGTCCAGCTTTGCCAATTTCGGTAACGAGCTCTACACCGGCAAGCGCTCCTACGACTTCGTGGGTGCCAAGAAAATCTGGTTCCTCATCGCGGCGGTTGCCGTTGCCCTGTCCATCCTGATCCCGGTCGCCAAGGGCGGGTTCAATCTGGGGATCGAGTTCCGTGGCGGTTCCGAGTTCACCGTCTCGAATGTCAAGACCACCGACGCTGCCGCCGGCGAAAAAGCGGTCCAGGACGTTGTGGCCGGCAGCATTCCCCGGGTGGCCAACGTGGCCGGCACCACCATGCGCATCCAGACTGACAAGCTCACGGATGAAGAGACCCTCAAGATCAAAGAGGGCCTCACCGCCGCCTATGGCGTGACCGACAACGAGGTGACATCCACCTTTGTGGGACCGACGTGGGGAGCTGACGTCACCAAACAGGCCCTGCTGGGGCTTGTGATCTTTGTGGTCTTGGCGGCCGTGCTGATGGCGCTGTACTTCAGGACCTGGAAAATGTCGCTCTCCGCGATTGCGGGCATGGCGGTGACCATGTTCATTACCGCCGGAGTTTACGCACTCAGTGACTTTGAAGTGACACCGTCAGCCATCATCGGCTTCCTGACTGTGCTCAGCTACTCGCTGTATGACACGGTGGTGGTGTTCGATAAGATCCGTGAGAACACGGCCGACATTGATGCCTCAACCCGCCGTACCTTTGGTGAAGAGGTCAACCTCGCCGTGAACCAGACCTTGGTGCGCTCCATCAACACCATGATGGTTGCCATCCTGCCCGTTGGTGCCATCCTCTTCATTGGTGCCGGGCTGCTGGGGGCGGGCACCCTTCGCGACCTTTCGCTGGCGCTGTTCGTCGGGATCCTGATCGGAACGGCCGCCACCATCTTCATCGCCGCACCGATGTACGCCTGGTTGCGCCAGAACGAACCAGAACTGGTGAAGCAGGCCAAACGCGTGGAGCACCGCCGGGCAGAGACGGCGTCACGGGCAGCTGCTCCGGCAGCGCCCGCCCAAGCCTGA	MSSFANFGNELYTGKRSYDFVGAKKIWFLIAAVAVALSILIPVAKGGFNLGIEFRGGSEFTVSNVKTTDAAAGEKAVQDVVAGSIPRVANVAGTTMRIQTDKLTDEETLKIKEGLTAAYGVTDNEVTSTFVGPTWGADVTKQALLGLVIFVVLAAVLMALYFRTWKMSLSAIAGMAVTMFITAGVYALSDFEVTPSAIIGFLTVLSYSLYDTVVVFDKIRENTADIDASTRRTFGEEVNLAVNQTLVRSINTMMVAILPVGAILFIGAGLLGAGTLRDLSLALFVGILIGTAATIFIAAPMYAWLRQNEPELVKQAKRVEHRRAETASRAAAPAAPAQA	PGPT0029265_730	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0029265-secF-K03074	NA	NA
D1-29_02755	1758	secD		Protein translocase subunit SecD	ATGGCACGAACTGGCCCCAAAAACTCAGCGCTCAGGGTGCTGGTCTGGCTCGGCGTAATTATCGCCGTGCTGACCGCAGTGCTGGCCGGCGGCACCATGTCCGGGCAGGCAAGCTGGGCTCCCAAGCTGGCGCTGGACCTTGAAGGCGGCACGCAGATGATCCTGGCGCCCAAGGTTGAGGGCAATTCGGACATTAATGAGGAGCAGCTCAACCAGGCGGTGTCCATCATTCGCCAGCGCGTTGATGGTTCCGGTGTGGCTGAGGCGGAAATCAGCACCCAGTCGGGCCGGAACGTTGTGGTCAGCCTTCCGGGCACCCCGTCATCCCAGACCCGGGCCCTGATCCAGGCGTCGGCGGACATGAACTTCCGCCCCGTCCTGCTGAATGGACCGGGCGCCGCTGTTCCCGCTGAGTCGCAGACGCCTGAGGAGCAGCTGCCCAAGCCCACGGCCGAGCCTGCCAACAGCAGCGACATCAACTGGATCACCCCTGAGCTCTACCGCCAGTTCGAGAGCCTTGACTGTGACAACCCGTCCCAGGACCGGCAGGAACGTTCAGACCCCACCAAGCCTCTGGTGACATGTGAGCCCGCCACGGCGTCGTCGCCCGCGGTCAAGTACATCCTCGGTCCCGTCGAGGTTAAGGGCACCAACATCGTGACGTCCTCGTTCCAGCTTCAGCAGGGCGCGCAGGGTGCTGTCACGAACGAATGGGCCGTCAACATCCAGTTCAACGATGAAGGCACCGCGAAGTTCAAAGAGGTCACAGAGCGCCTGAACCAGTTCTACGTCGCTGCCGGCGGTGACGCCGGAACCGACCCCAAGGCCCAGTTCGCCATTGTCCTGGATGACCAGGTCATCTCTGCTCCCCGCGCCCTTGCCGTCATCACCGACGGGCGGCCGCAGATCACCGGCGGATTCACCGAGCAGACAGCGAAGGCACTGTCCGACCAGCTCCGCTTTGGCGCGCTTCCCATCAGTTTCGAAATTCAGAGCGAGCAGCAGATTTCCGCAACCCTCGGTGGCGAACAGCTCCGTATGGGACTCCTCGCCGGTGTGATCGGCCTGCTCCTGGTGGTGGTGTACTCGCTGTTCCAGTACCGTGCGCTGGGCTTTGTCACCATTGCCTCCCTGGCGGTAGCCGGTGTGCTGACGTACCTCGCTATCGCAATCCTGGGCTGGACCGAGAACTATCGGCTCTCCCTGGCAGGCGTCGCCGGCATCATCGTGGCCATTGGCCAGACCGCTGACTCCTTCATTGTTTACTTCGAACGAATCCGTGATGAGCTTCGCGAGGGCCGCGGCCTGGTTTCCGCAGTCGAGAATGGCTGGAAGCGGGCCAAACGCACTGTGCTGGCCTCGAAGGCCGTGAACCTGCTGGCTGCCCTGGTGCTGTACTTCGTGGCTGTTGGCAACGTCCGCGGCTTCGCTTTCACCCTCGGGCTCACGGCCATCGCCGACCTCATCGTGGTGTTTATGTTCACCCACCCCACGCTGCGGTTGCTGGCACGCACCAAATTCTTCGGCGAGGGCCACCGTTTCTCCGGCCTTGACCCGAAGCGCCTTGGCGCAGTTCCGCTTTACCGTGGAGCCGGGCGCCTGCGCACCCCCGAGGCCAAGCCCTCGGTGGTCCGTGCCAAGAACAGCGGAGCAGCAGCGGAGGCAGAACGCAGGATGACCATCGCGGAACGCCGCCTAGCTGAAAAGCAGGAGCAGCTCGCTGGCTCCTCCAAGAGCGCAGCCAAGGAGAACAAGTAA	MARTGPKNSALRVLVWLGVIIAVLTAVLAGGTMSGQASWAPKLALDLEGGTQMILAPKVEGNSDINEEQLNQAVSIIRQRVDGSGVAEAEISTQSGRNVVVSLPGTPSSQTRALIQASADMNFRPVLLNGPGAAVPAESQTPEEQLPKPTAEPANSSDINWITPELYRQFESLDCDNPSQDRQERSDPTKPLVTCEPATASSPAVKYILGPVEVKGTNIVTSSFQLQQGAQGAVTNEWAVNIQFNDEGTAKFKEVTERLNQFYVAAGGDAGTDPKAQFAIVLDDQVISAPRALAVITDGRPQITGGFTEQTAKALSDQLRFGALPISFEIQSEQQISATLGGEQLRMGLLAGVIGLLLVVVYSLFQYRALGFVTIASLAVAGVLTYLAIAILGWTENYRLSLAGVAGIIVAIGQTADSFIVYFERIRDELREGRGLVSAVENGWKRAKRTVLASKAVNLLAALVLYFVAVGNVRGFAFTLGLTAIADLIVVFMFTHPTLRLLARTKFFGEGHRFSGLDPKRLGAVPLYRGAGRLRTPEAKPSVVRAKNSGAAAEAERRMTIAERRLAEKQEQLAGSSKSAAKENK	PGPT0029260_1999	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0029260-secD-K03072	NA	NA
D1-29_02756	552			hypothetical protein	ATGACGCCCGGCACCTTCGGGTCTTTGTTCCCGCAGGCGGCATTACCAGCCGCCGGTGGACGGCACACAGTTTTCCGCCAGGCCACACGGTTCAAAGCGGACGCTGCCTACACCAAAAATACGCCAGTACAGAACGGAAACTTCCCTGTGGATCCAATGAACATCGTCTTGTTCGCCATGCTCGGAATCTTTGTCTTTATGATGTTCCGCCGCAACAAGAAGACCAAGGAGCAGCAGGCAACGCTGCAGTCCCAGTTCGCCCCTGGCGTTGAGGTCATGACGAGCTTCGGTCTCTTTGGCCGCATCGTCTCGATGGACGATGAAGAGAACAAGGTCGTCCTGGAGCTTTCACCCGGCAACCTTGCCACCGTTCACCGCCAGGCCGTCACCAAGATTGTTGAGCCGGCCGTCGTTACCGAGGATGAGCCGTCTGTCGTCCCCAATGATGCTTCGTCCCTGACTGCTGAGGAAACAGGGCCGACCGCACCTGCTGCCGAGACGCCGGACGAGACCCTCAAGCGCCTCAACGACGAAGGTAAAAAGGACAGCTAG	MTPGTFGSLFPQAALPAAGGRHTVFRQATRFKADAAYTKNTPVQNGNFPVDPMNIVLFAMLGIFVFMMFRRNKKTKEQQATLQSQFAPGVEVMTSFGLFGRIVSMDDEENKVVLELSPGNLATVHRQAVTKIVEPAVVTEDEPSVVPNDASSLTAEETGPTAPAAETPDETLKRLNDEGKKDS	PGPT0025730_697	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025730-yajC-K03210	NA	NA
D1-29_02757	1089	ruvB	COG2255	Holliday junction ATP-dependent DNA helicase RuvB	GTGGCTGAGCCTTCGGTGGTGGCCGCGGTGGAAGAGCCTGAGGACCGCGCCATCGAGGCTGCGCTTCGGCCCAAGAACCTGGATGATTTTGTCGGCCAGCACAGGGTCCGCAAGCAGCTTTCGCTGGTCCTGCAGGCCTCAAGGATGCGCGGCCGGAGCGCCGACCACGTGCTCTTCTCCGGCCCGCCGGGGCTGGGTAAGACCACCTTGGCCATGATCGTGGCCGCCGAGATGAACGCGCCCCTGCGCATCAGCAGCGGTCCCGCCATCCAGCACGCGGGGGACCTGGCCGCCATTCTTTCCTCGCTCTCCGAGGGCGAGGTTCTGTTCCTCGACGAAATCCACCGCATGTCCCGGCCGGCCGAAGAAATGCTCTACATGGCCATGGAGGACTTCCGGGTGGACATCGTGGTGGGGAAGGGCGCCGGTGCCACCGCCATTCCGCTTGAGCTGCCGCCGTTCACCCTGGTGGGCGCCACCACGCGGGCCGGACTCCTGCCTGGCCCGCTGCGTGACAGGTTCGGGTTCACCGGGCACCTGGAGTTCTACTCCGTGGCCGAGCTGGAACTGGTCCTGAGACGGTCCGCCGGCCTGCTGGACCTCAAGGTCAACTCTGCCGGGTTCAGCGAAATCGCAGGACGGTCCCGTGGCACACCCCGTATAGCCAACCGCCTGCTCCGCCGTGTGCGCGACTGGGCCCTGGTGCATGGAATTGAGCAGATCGATGCCCGCGCTGCCTCCGCCGCGCTGGACATGTATGAAGTGGACAAGAAGGGCCTGGACCGGCTGGACCGTGCCGTCCTGGAAGCGCTTATCACCAAATTCGGCGGCGGGCCCGTGGGTCTGTCCACCCTGGCCATCGCCGTGGGGGAGGAGACAGAGACCGTCGAAACGGTAGCTGAGCCGTTCCTGGTCCGGGAAGGGCTGCTGGGACGAACTCCGCGTGGCCGTATCGCCATGGCCCCCGCGTGGACGCACCTTGGTTTTGCCGTCCCGGCCGGGGTGTTTGGGCAGGAGCCCCTGGATCTGTTCGAGACCGGTCCTGACGATGAAGAATCTGCGGCCGATTGGGCTCCGAACGGCCAATAG	MAEPSVVAAVEEPEDRAIEAALRPKNLDDFVGQHRVRKQLSLVLQASRMRGRSADHVLFSGPPGLGKTTLAMIVAAEMNAPLRISSGPAIQHAGDLAAILSSLSEGEVLFLDEIHRMSRPAEEMLYMAMEDFRVDIVVGKGAGATAIPLELPPFTLVGATTRAGLLPGPLRDRFGFTGHLEFYSVAELELVLRRSAGLLDLKVNSAGFSEIAGRSRGTPRIANRLLRRVRDWALVHGIEQIDARAASAALDMYEVDKKGLDRLDRAVLEALITKFGGGPVGLSTLAIAVGEETETVETVAEPFLVREGLLGRTPRGRIAMAPAWTHLGFAVPAGVFGQEPLDLFETGPDDEESAADWAPNGQ				NA	NA	NA	NA	NA
D1-29_02758	645	ruvA	COG0632	Holliday junction ATP-dependent DNA helicase RuvA	TTGATCAGTTTCCTTCGCGGAACAGTAGCGCACGTAGGTCTTTCCACGGCCGTGATTGACCTTAACGGGGCGGGAATGAGCGTGAACGCCACCCCGCAGACCCTCAGCCGGCTCCGCACGGGCGAAGAAGGAAAACTGTTCACCTCGCTTATAGTGCGCGAGGATTCCCTGACACTTTTCGGGTTCGCGTCCGACGACGAACGTGAAGTTTTCGATGTCCTGCTCAGTGTCAGCGGGGTTGGCCCGCGCCTGGCCCTGGCGGTGCTGGCGGTCCACGAACCCGAAGCCATCCGGGTGGCTGCCCACACAGGGGACAGCAAGACCTTCACAAAGGTGCCCGGGATCGGCCCCAAGGTGGCTGGCAGGATCGTCCTTGAGCTCGCCGGAAAGCTGGTGCCGCACGGCACCGCGGGCGCCCAGGCCGCGGCCACCCCCGCTGAAGCCGCCTGGAAGCCGCAGGTTGTCGCAGCCATGACCAGCCTGGGCTGGTCCGAAAAGGACGCCGCGGCGAGTATCGAGAAGGCACTGGCGGATGAGCCCGAGGTTTCCTTCCGCGGCAATGTGGCAGAAATTCTCCGCACCACCCTTCGCTGGCTTGGCCAGGACGGCGCCCGGGCCGGCAACCGGGTAGGCAGCCGTGGCTGA	MISFLRGTVAHVGLSTAVIDLNGAGMSVNATPQTLSRLRTGEEGKLFTSLIVREDSLTLFGFASDDEREVFDVLLSVSGVGPRLALAVLAVHEPEAIRVAAHTGDSKTFTKVPGIGPKVAGRIVLELAGKLVPHGTAGAQAAATPAEAAWKPQVVAAMTSLGWSEKDAAASIEKALADEPEVSFRGNVAEILRTTLRWLGQDGARAGNRVGSRG				NA	NA	NA	NA	NA
D1-29_02759	579	ruvC	COG0817	Crossover junction endodeoxyribonuclease RuvC	GTGACGCTGCGCGTCCTGGGGGTTGACCCCGGGCTCACCCGCTGCGGCATCGGCGTCGTCGACGTCGAACGGAACAGGCGGGCCACCATGGTGGCCGTCGGGGTGGTGGGCACCTCCCCGGGAGAGACCCTCGACCAGCGGCTGTTGGTCATCGCCCTGGCCATTGATGACTGGCTGGACAGATACGAACCCCACGTCCTGGCCGTTGAGCGCGTTTTTTCGCAGCTCAACGTCAGCACGGTGATGGGGGTGGCCCAGGCATCGGGAGTGGTGATCGCCGCCGCGGCCCGGCGCGGGATCCCGGTGGCGCTGCACACGCCGTCGGAAGTCAAGGCTGCAGTCACCGGCAGCGGCACGTCCAATAAGGACGCCGTCACCAAGCTGGTCACCAAGATCCTTCGGCTCGACGCGCCGCCGCGCCCTGCCGACGCCGCCGACGCCCTGGCCCTTGCCATCACCCACGCCTGGCGTGCGGGCAGCGGCGCCGCTGTGGCCACCACCGGTCCCGGCAGTTCCTCCCTGACACCCGCCCAGCGGGCCTGGGCTGACGCGGAGGCGAAGGCGCGCCGCGCACGCTGA	MTLRVLGVDPGLTRCGIGVVDVERNRRATMVAVGVVGTSPGETLDQRLLVIALAIDDWLDRYEPHVLAVERVFSQLNVSTVMGVAQASGVVIAAAARRGIPVALHTPSEVKAAVTGSGTSNKDAVTKLVTKILRLDAPPRPADAADALALAITHAWRAGSGAAVATTGPGSSSLTPAQRAWADAEAKARRAR				NA	NA	NA	NA	NA
D1-29_02760	756		COG0217	putative transcriptional regulatory protein	ATGTCAGGCCACTCCAAATGGGCGACGACCAAGCACAAGAAGGCCATCCTCGATAGCCGCCGCGCCAAGTCGTTCGCCAAACTGATCAAGAACATCGAAGTTGCCGCCCGCATGGGCGGACCGGACCTGGCCGGCAACCCCAGCCTGGAACTTGCCGTCACCAAGGCCAAGAAGACCTCCGTCCCAGCAGACAACATCGACCGTGCCATCAAGCGCGGCGCCGGCCTGACCGGTGAAGTGGTGGACTACACCGAGATCATGTACGAATGCCGCGGGCCGCAGGGTTCTGCCCTGCTCATCGAGTGCCTCACGGACAACAAGAACCGTGCCGCCTCAGAAGTGCGCCTGGCCATCTCCCGCAACGGTGGCACCATCGCCGATCCCGGTTCCGTCAGCTACCTCTTCAGCCGCAAAGGCGTTGTGTCCCTGCCCAAAAAGGACCTGACCGAGGACGACGTCCTGATGGCGGTCCTGGATGCCGGCGCCGAGGAAGTCAAGGACAACGGCGACAGCTTCGAAATCCACTCGGAGCCCACCGACCTGCAGGCCATCCGCGAAGCCCTCAAGGAAGCCGGGATCGAATACGACACCGATGAGGCCGAGTTCGTCCCCTCCATGCAGGTGCCGCTGGACCTCGACGCCGCCAAGAAGTTCATGAAGCTGGTGGATGCCCTGGAAGAGCTCGACGACGTCCAGAACGTCTACAGCAACGCCGACCTCAGCGACGAAGTCCAGGCCGCCCTGGAAGCCGAGTGA	MSGHSKWATTKHKKAILDSRRAKSFAKLIKNIEVAARMGGPDLAGNPSLELAVTKAKKTSVPADNIDRAIKRGAGLTGEVVDYTEIMYECRGPQGSALLIECLTDNKNRAASEVRLAISRNGGTIADPGSVSYLFSRKGVVSLPKKDLTEDDVLMAVLDAGAEEVKDNGDSFEIHSEPTDLQAIREALKEAGIEYDTDEAEFVPSMQVPLDLDAAKKFMKLVDALEELDDVQNVYSNADLSDEVQAALEAE				NA	NA	NA	NA	NA
D1-29_02761	711	pdxT	COG0311	Pyridoxal 5'-phosphate synthase subunit PdxT	ATGACAAACCCCCTTTCGGCTGCTCCTGCACGCGTGGGCTCAGGCCTGCGGATCGGCGTCCTGGCTCTTCAGGGCGACTTCCGCGAACACCTGCGCGCGGTAGAGGCCGCCGGTGCTGCCGGCGTCGGAATCCGTCGTGCTTCCGAACTCGAGGGCCTGGACGGTCTGATCATTCCCGGCGGCGAATCCACGGCGATCGATAAACTGGCTCGTGCCTTTGATCTGGCGGAGCCGCTGCGGGCCCGGATCAAGGACGGCCTGCCGGTCTACGGTTCCTGCGCCGGCATGATCCTGCTGGCGGACCACATCGCGGACCCCGCCACCGACCTTGCCGGCGAACCCCAGCAGACCTTCGGCGGCCTGGACATCACCGTGCGCCGCAACGCCTTCGGGCGCCAGCGGGAGTCGTTCGAGACCGACCTTGACTTTAAAGGGCTGGACTTCAGTGCCACCGGCGCCGGCACCCCGCCCGTCCACGCTGTCTTCATCCGCGGCCCCTGGGTGGAGCGGGTGGGCCCGGACGTGGAGGTCCTTGCCCAGGTAGAACCTGCCGACCCCGAGCACGCGTCCCACGCCGCGCCCCTGCCCGGGACGGCTAGAATTGTTGCCGTGCGCTCAGGCCAACTGCTGGCCACCTCCTTCCACCCGGAAGTGACTGGGGAAAAACGCGTACACGAACTTTTTATTCGAATGATCAGAGGAGAAGCGTAA	MTNPLSAAPARVGSGLRIGVLALQGDFREHLRAVEAAGAAGVGIRRASELEGLDGLIIPGGESTAIDKLARAFDLAEPLRARIKDGLPVYGSCAGMILLADHIADPATDLAGEPQQTFGGLDITVRRNAFGRQRESFETDLDFKGLDFSATGAGTPPVHAVFIRGPWVERVGPDVEVLAQVEPADPEHASHAAPLPGTARIVAVRSGQLLATSFHPEVTGEKRVHELFIRMIRGEA	PGPT0009185_238	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009185-pdxT|pdx2|yaaE-K08681	NA	NA
D1-29_02762	1293	murT	COG0769	Lipid II isoglutaminyl synthase (glutamine-hydrolyzing) subunit MurT	ATGCTTTACATCAGTATTCCGCTCGGCAAGCTGGTCCGTCGGGTATCCCGGCTCAGGGGCGGAGGTTCCGCCCTGCCCGGCCTGGTGGTCGAAAAAATCGATCCGGGCTTTATGCAGCGGACGCTCTCAACCCTCCCTCACGGTGTGGCTGTGGTCAGCGGAACCAACGGTAAGACCACCACCACCAAGATGGTGGTGGAACTCCTGGAAAGCCAGGGCCTGAAGGTCTTCACCAACCGCACCGGAAGCAACTTCACCCGTGGTGTGGCTGCGGCCCTGCTGGGAGAGGTGGACTGGCGTGGACGGCTCAAGGCCGACGTCGCTGTCCTGGAACTGGACGAAGCCCACGCCGTGCACTTTGTGAACAGCGTTCCGCCGCGCTACAGCCTTCTGCTGAATGTGCTGCGTGACCAGCTTGACCGGTTCGGTGAGATCGACAAGACAGCCCAGCTCCTGCAGCATGTCGCCGCCAACACCACCGGAACAGTGGTGCTGAACCGTGAAGACCCGAGGGTGGCACGCATAGCGGATACGCTCACCGGCCAGGAGGTCCGTTACTTCGGCCTGGACGACTCCCTGCTCAGCACTTTTCCCAACGACGACGACATGCGGGCTGCGCCCGGAAGCCCCGCGCCCGCGCCGCTGCCTGACAAGCCGCCGGCCGACGTCGTGCTCCGCCGGGTGGGCCCGGACAGCGCCGATTTTGAGTACGACGGCGTCACAGTCAGCACCGCAATGCGGCTCCGCGGGGTCTATAACATCTTCAATGCCGCGGCCGCACTGGCCCTGGCCCGCAGCATCTGCGGAAGCGGCGCCGCCACTGCTGACCACAACACGCTGCTGACCGCGCTGTCGCAGGTGGAACCGGCATTTGGCCGGGGCGAAAGCCTCACCGTTGACGGGCAGCCGCTGGATCTGGTCCTGGTCAAGAACCCCAGCGGATTCCGCCTTGGCCTGAAATCGTTCCCGGCAGGCGGCTACGCCACCATGATCGCCATTAACGACAACTATGCCGACGGCAGGGACATGTCCTGGCTGTGGGATGTGGAGTTCGAATCACTGCGCGACGGCGGCGTGGACCAGCTGACCGGATCCCGCGCCTATGACATGGCGTTGCGGCTGCAGTATGACGAAGTGCCGATCGGCGCCGTGGAGCCGGACATCGCACCTGCACTGGCGGACTTCATCCGGGACGCGAAGGACAGGCCAAAAAGGATATTCTGCACTTATACGGCAATGCTGGCCATCCGCCGCGAGCTGTCCAAAATCACCACAGTGGAGGTTGTCTCATGA	MLYISIPLGKLVRRVSRLRGGGSALPGLVVEKIDPGFMQRTLSTLPHGVAVVSGTNGKTTTTKMVVELLESQGLKVFTNRTGSNFTRGVAAALLGEVDWRGRLKADVAVLELDEAHAVHFVNSVPPRYSLLLNVLRDQLDRFGEIDKTAQLLQHVAANTTGTVVLNREDPRVARIADTLTGQEVRYFGLDDSLLSTFPNDDDMRAAPGSPAPAPLPDKPPADVVLRRVGPDSADFEYDGVTVSTAMRLRGVYNIFNAAAALALARSICGSGAATADHNTLLTALSQVEPAFGRGESLTVDGQPLDLVLVKNPSGFRLGLKSFPAGGYATMIAINDNYADGRDMSWLWDVEFESLRDGGVDQLTGSRAYDMALRLQYDEVPIGAVEPDIAPALADFIRDAKDRPKRIFCTYTAMLAIRRELSKITTVEVVS	PGPT0023775_799	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-LIPID_II_ISOGLUTAMINYL_SYNTHASE,PGPT0023775-murT-K23393	NA	NA
D1-29_02763	756	gatD		Lipid II isoglutaminyl synthase (glutamine-hydrolyzing) subunit GatD	ATGACTTCCGGACCCGATGGATCACAACAGGCAGGCAGCAAAGGCACTATCCGGGTTGTACTGCTGTACCCGCGTGACATGAACATTTACGGCGACTGGGGCAACGCCCTGGTTCTCCGCCAGCGCATCAGCTGGCACGGGTACACCCCCGAATTGGTGGAATACAACGTCGGGGACGAATTTCCGGATGACGTGGACATCATCGTGGGCGGCGGCGGCCAGGACAGCGGCCAGCTGGTCATCCAGGACGACCTGCAGTCCCGGGCCGGTGTCCTGACGGAACTGGCCGAGGACGGTGCACCCATGCTGGTCATCTGCGGGCTGTACCAGCTTTTCGGGCGCTTCTTCAAGACGCGCACCGGGGCAGTGATTCCGGGGATCGGGGTTCTGGACGTGGAAACGCATGGCACCGATGAACGGCTTATCGGCAACGTCAAAGTCTCCACCAGTGAGTTCGGCGAAGTGCTCGGGTACGAGAACCACAGCGGCCAGACCACCCTGGGCCCGGGCGTTCGTCCGCTGGGCACCGTGCCCAAGGGAATGGGAAACAACAGCAGCGACGGCCACGAAGGCGCCCGCTACCGCAACATTGTGGCAAGCTACCTGCACGGCTCCCTCTTGCCCAAGAACCCTGCGATCGCCGATTTCCTGATCAGGACGGCCGCCGAACGCAAGTACGGCACTTTCATCCCGGGCAACCCGGATGACCGCTACTCGGTGCTGGCCCGTGAGCACGCTGCCCGCCGGCCCCGCTGA	MTSGPDGSQQAGSKGTIRVVLLYPRDMNIYGDWGNALVLRQRISWHGYTPELVEYNVGDEFPDDVDIIVGGGGQDSGQLVIQDDLQSRAGVLTELAEDGAPMLVICGLYQLFGRFFKTRTGAVIPGIGVLDVETHGTDERLIGNVKVSTSEFGEVLGYENHSGQTTLGPGVRPLGTVPKGMGNNSSDGHEGARYRNIVASYLHGSLLPKNPAIADFLIRTAAERKYGTFIPGNPDDRYSVLAREHAARRPR	PGPT0023770_276	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-LIPID_II_ISOGLUTAMINYL_SYNTHASE,PGPT0023770-gatD-K07009	NA	NA
D1-29_02764	1251			hypothetical protein	ATGTGGCGTATGGGGAACTTGCTTGCCACTGGTGCTGTCCGCGTTCGCACCGCGGTTTTTGCTGCTGTGTTTACGGTGTTGCTGGCAGGCTGCGGCCTGGTGGCAGAGCAAAACACTCCCTCAACGTCAGCGGGCCCGGTTCCGGTCGAGGCAAGCCCCACGCCGTCACCGACGCCAACCCCTACTCCCACCCCGGGCGAAGGGCCGCCCTGCCCCACGATCCGGTGCACATCGATACTGGTCACAGGCGACATGCTGGTGCACACCCAGCTTTGGCAGCAGGCCACTGCGGATGCGGCGGCGGCAGGGAAGCCCGGCCTGGACTTCGTTCCGCTGCTGGAGGGTCAGCGCAGGTACATCCAGGCCAGCGACCTCGCCATCTGCCACCAGGAGACACCCGTGGCCGGCCCGGAGGGGCCATTCTCCGCCTACCCGTCCTTCAACGTTCCACCCCAGATCATCACCGCCGCCAAAGCTGTCGGGTACCAGGCCTGCACCACGGCCAGCAACCACACGATCGACAGGGGCACGGACGGCCTGCTCCGCACCCTTGATGCCCTGGACGCTGCGGGTTTGAAGCACACCGGTTCCTACCGCACCGAAGCGGAGTCCCAGGGAATCCTGATCATGCAGACCCAGGCCGCGAAGATCGCCATCATCGAGGCGACGTACGGGCTCAACGGCCAGTACCCGGATTACGCCTGGCAGGTGGACATGCTTGATGCACCAACCATGATCGCCAAGGCCCAAAAGGCGAGGGCAATGGGCGCGGACATTGTGCTTGGAGCCATGCACGCCGGTGATGAGTACGCCAGTGAAGCGAATGCCCAGCAACAGGAAGTTGCCCATGCGCTGGTGGACAGCGGACAGTTCACCATGATCTACGGGCACCACACACATTCCGTGCTGCCCATCGAGAATTACAAAGGCACCTGGATTGTGTACGGCCTGGGCAACGGCGTGACAGAACTCTCGCCCTGGTACGTGGTCAACAACGAAGGGCTCCTGGTTCGGGCACAATTCAGCCAGGACGAATCGGGTAAATGGTCGCCCGCAGACCTGGCCTGGGTGCCGTCAGTGATTGTCCGGGACCCCTACCGCTGGTGCCCGGTAGCCTCCGACGCGCCGCAGGGCACGTGTGCGTCACCGGAAGCAGATGCAGCCACCAGGCAGCGGACCGCCACCGTAGTGAACTCCATGGGCGCTGCCGCTGCCGGTGCACACGAACTCCTCATCACGCAGGAGCGCTAA	MWRMGNLLATGAVRVRTAVFAAVFTVLLAGCGLVAEQNTPSTSAGPVPVEASPTPSPTPTPTPTPGEGPPCPTIRCTSILVTGDMLVHTQLWQQATADAAAAGKPGLDFVPLLEGQRRYIQASDLAICHQETPVAGPEGPFSAYPSFNVPPQIITAAKAVGYQACTTASNHTIDRGTDGLLRTLDALDAAGLKHTGSYRTEAESQGILIMQTQAAKIAIIEATYGLNGQYPDYAWQVDMLDAPTMIAKAQKARAMGADIVLGAMHAGDEYASEANAQQQEVAHALVDSGQFTMIYGHHTHSVLPIENYKGTWIVYGLGNGVTELSPWYVVNNEGLLVRAQFSQDESGKWSPADLAWVPSVIVRDPYRWCPVASDAPQGTCASPEADAATRQRTATVVNSMGAAAAGAHELLITQER				NA	NA	NA	NA	NA
D1-29_02765	2013	dcp	COG0339	Dipeptidyl carboxypeptidase	ATGACAAATCCCCTCCTGAGCTCAAGCACGCTGCCCTACGGGCTGCCGCCGTTCGCCGACATCCACTCCGGGCATTATGCCGAAGCCGTCGACGCCGGCCTGGCGGAACATCTCGAAGAGATCCGGGCCATCGTGGAGAACCCGGAGCCGGCGACCTTCCGGAACACCGCCGAGGCCATGGAGCGCGCCGGACAGCTCCTCAACCGGGCGTCTGCCTCCTTTTTCACGCTTGTGTCAGCAGATGCATCCGACGAAATACGCCATCTTGAAACCGAACTGTCCCCACGCTTCTCGGCGCACCAGGACGAAGTGTTCCTCAACCGCCGGCTCTTTGACCGGTTCGCCGCGATTGACATGACGGACTGCGATCCCGAGTCCACCCGGCTGGTGGAGGATTACCTCAAGGAATTCCGGCAGTCCGGCATCCAACTGGACGGCCCGGCCCAGGAGCGGCTGAAAGCGGTGAACGCGGAGCTGTCACGCCTGGGCACCGAATTCGGCCAGCGCGTGAAGGAGGGGATGAAATCCGCGGCGCTGCTGCTGGACAGTGAAGCCGAGCTGGTCGGCCTGCCGGCTGACGATATCGCCACGGCGGCGGAAGCTGCCCGCGCCGCCGGCCATCCAGGGAAGTTCCTGCTCACACTGATCCAGCCAACTAACCAGCCGGCCATTGCCGCGCTTGAGAACCGGGACATCCGCCGTCGGCTGTTTGAGGCCTCCGTCAGCAGGGGAAGCGATGGCGGGAGCTTTGATGTCCTGGAACTGGTCAGGTCACTGGCGGAACTCCGTGCCGAAAAGGCTGCCCTGCTCGGGTTTGCCAACTACGCGGAACTGGAAGTGGACCGGCAGACCGCTCCCGACTTTGAAGCGGTACAGGCCATGCTGAACAGGCTGGCACCGGCAGCAGTGAGGAATGCCGACGCCGAAGCGGCGGCCCTTGCGGAGATCGCGGGCCATCCGTTGGAGCCGTGGGACTGGGCTTTCTACTCCGCCAGGGTCCGCCGGGAGAAATATGCTGTCGATGAGCAGGCCCTCCGCCCCTATTTTGAGCTGGACCGGGTGCTCCGGGATGGCGTGTTCCATGCGGCTACGTCGCTTTATGGGATCACGTTCCACGAACGGAAGGATCTTGCAGGCTACCACCCCGACGTCCGCGTCTGGGAGGTCCGGAACGGGGACGGCAGCGGGCTGGGGCTGTTCCTGGGTGACTACTACACCCGGGAGTCCAAGCGGGGCGGGGCGTGGATGAATTCGCTGGTTGAACAGTCCGGCCTGCTGGGCACCCAGGCTGTGGTCATCAACAACCTGAACATTTCCAAGCCGCCGGCCGGAGAACCCACGCTGCTGACGCTGGATGAGCTGCGCACCATCTTCCACGAGTTCGGCCATGCGCTGCACGGCCTGTTCTCCGACGTAACGTATCCGCGCTTCTCCGGGACTTCAGTCCCCCGCGACTTCGTGGAGTACCCTTCGCAGGTCAACGAGATGTGGATCCTCTGGCCTGACGTGCTGGCCAGCTATGCCCGGCACCACGCCACGGGCGAACGCCTGCCGCAGGACATCGTGGACAGGCTCAACGAGTCCCGGCTCTGGGGCGAAGGGTTCGCCACCACCGAATACCTGGGCGCAGCACTGTTGGATCTTGCATGGCACGTGCTGGACAGCAACGGGATCCCGGAGGACGTCCTGGCGTTCGAAGCCAAATCGCTGGCTGCAGCCGGAGTGGCCCACGCCCTGATCCCGCCACGGTACCGGTCGGGCTACTTCCAGCACATCTTCGCCGGGGCTGGCTACGCTGCAGGCTACTACTCCTATATCTGGAGCGAAGTCCTGGATGCGGAAACGGTCGATTGGTTCACGGAGAACGGCGGCCTGACACGGGCAAACGGAGAGCGGTTCCGCCAGGAGCTGCTCTCCCGCGGCAACAGCCGGGATCCACTGGAATCTTTCCGCGCCCTCCGGGGCCGCGAAGCCAACCTGGAACCCCTGCTAAGGCGCCGCGGCCTGGAGTAG	MTNPLLSSSTLPYGLPPFADIHSGHYAEAVDAGLAEHLEEIRAIVENPEPATFRNTAEAMERAGQLLNRASASFFTLVSADASDEIRHLETELSPRFSAHQDEVFLNRRLFDRFAAIDMTDCDPESTRLVEDYLKEFRQSGIQLDGPAQERLKAVNAELSRLGTEFGQRVKEGMKSAALLLDSEAELVGLPADDIATAAEAARAAGHPGKFLLTLIQPTNQPAIAALENRDIRRRLFEASVSRGSDGGSFDVLELVRSLAELRAEKAALLGFANYAELEVDRQTAPDFEAVQAMLNRLAPAAVRNADAEAAALAEIAGHPLEPWDWAFYSARVRREKYAVDEQALRPYFELDRVLRDGVFHAATSLYGITFHERKDLAGYHPDVRVWEVRNGDGSGLGLFLGDYYTRESKRGGAWMNSLVEQSGLLGTQAVVINNLNISKPPAGEPTLLTLDELRTIFHEFGHALHGLFSDVTYPRFSGTSVPRDFVEYPSQVNEMWILWPDVLASYARHHATGERLPQDIVDRLNESRLWGEGFATTEYLGAALLDLAWHVLDSNGIPEDVLAFEAKSLAAAGVAHALIPPRYRSGYFQHIFAGAGYAAGYYSYIWSEVLDAETVDWFTENGGLTRANGERFRQELLSRGNSRDPLESFRALRGREANLEPLLRRRGLE				NA	NA	NA	NA	NA
D1-29_02766	978	pdxS	COG0214	Pyridoxal 5'-phosphate synthase subunit PdxS	ATGCCGCTTTCACGCCCGGCGAAGGTCATCTATCTACCCATAGGGGTTTTTGTGTCTACACCTGATGTAAGCAGCGAAGCCGGTTCGTCCGTGAACAGCGTCACGGGCAGCAAGCGCGTCAAGCGCGGCATGGCTGAGATGCTCAAGGGCGGCGTCATCATGGACGTCGTCAACGTCGAGCAGGCCCGCATCGCCGAAGACGCCGGTGCCGTTGCAGTGATGGCGCTGGAACGCGTGCCGGCTGATATCCGCGCCCAGGGCGGCGTTTCCCGGATGTCGGATCCGGACATGATCGACAAGATCATCGAGGCCGTGTCCGTGCCGGTCATGGCCAAGGCCCGGATCGGCCACTTTGTTGAGGCCCAGATCCTGCAGTCCCTGGGCGTTGACTACATTGACGAGTCCGAGGTCCTCACCCCGGCCGACTACGCCAACCACATCGACAAGTGGGAATTCACCGTTCCCTTCGTCTGTGGTGCCACCAACCTTGGTGAGGCGCTGCGCCGGATCAACGAGGGCGCGGCGATGATCCGGTCCAAGGGCGAGGCCGGCACCGGCGATGTTTCCAACGCCACCACGCACATGCGCCAGATCCGTGCCGAGCTCCGCCGGCTCTCCTCGCTGCCCGAGGACGAGCTGTACGTTGCCGCGAAGGAACTGCAGGCGCCGTACGAATTGGTCAAGGAAGTGGCGCTCACGGGCAAGCTTCCGGTGGTGCTGTTCACCGCCGGCGGCATCGCCACCCCGGCAGATGCTGCGATGATGATGCAGCTCGGCGCCGACGGCGTGTTCGTCGGCTCGGGCATCTTCAAGTCCGGCAACCCGGCCCAACGCGCCGCCGCCGTGGTCAAGGCCACCACGTTCTTCGATGACCCGGACGTCATCGCCAAGGCCTCCCGCGGCCTGGGCGAGGCCATGGTGGGCATCAATGTTGACGAGATCCCGCAGCCACACCGCCTGGCCGAGCGCGGCTGGTAA	MPLSRPAKVIYLPIGVFVSTPDVSSEAGSSVNSVTGSKRVKRGMAEMLKGGVIMDVVNVEQARIAEDAGAVAVMALERVPADIRAQGGVSRMSDPDMIDKIIEAVSVPVMAKARIGHFVEAQILQSLGVDYIDESEVLTPADYANHIDKWEFTVPFVCGATNLGEALRRINEGAAMIRSKGEAGTGDVSNATTHMRQIRAELRRLSSLPEDELYVAAKELQAPYELVKEVALTGKLPVVLFTAGGIATPADAAMMMQLGADGVFVGSGIFKSGNPAQRAAAVVKATTFFDDPDVIAKASRGLGEAMVGINVDEIPQPHRLAERGW	PGPT0009180_166	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
D1-29_02767	624	pgsA2_2	COG0558	Phosphatidylinositol phosphate synthase	ATGCTGAATAGGCACGCGCGGGGTTTTTTTACGGCGCTGTTCACTCCGCTTGCCCGCTGGCTGCTGAAAATCGGCGTCTCTGCTGATGCCGTCACGGTGGTTGGAACGGCCGGCGTGGTGGTTGGCGCCCTGGTCTTTTACCCTCTGGGCCAGCTGTGGTGGGGGACCCTGTTCATTACCGCCTTCGTCTTTTCCGATGTGCTGGACGGCATCATGGCAAGGATGCGCGACTCCGGGGGCCGATGGGGCAACTTCCTGGACTCCACGCTGGACAGGATCGCCGACGGTGCCCTGTTTGCCGGCCTGTCCATCTGGTTCTTTACCGGTGGCGCCGATTTCGCCATTGGCGCCGCGGCCGTGATCTGCCTGGTCCTTGGCATGGTGGTTTCCTACGCCAGGGCCAAGGCAGAATCGCTGGGGTTCACGGCCAACGTGGGTATTGCCGAACGGGCTGAAAGGCTCGTCTCGGTGCTGGTTGTTACAGGGTTTACGGGCCTCGGCCTGCCAAGTGTCGTGCTGCTGGTGACACTGGGCCTGCTGGCCGTGGCCAGCCTGGTCACCGTGGTGCAGCGGATAGTGGGAGTTCACCGCCAGGCCCTGGCCGAGAGTGCCCCCTCGGATTAA	MLNRHARGFFTALFTPLARWLLKIGVSADAVTVVGTAGVVVGALVFYPLGQLWWGTLFITAFVFSDVLDGIMARMRDSGGRWGNFLDSTLDRIADGALFAGLSIWFFTGGADFAIGAAAVICLVLGMVVSYARAKAESLGFTANVGIAERAERLVSVLVVTGFTGLGLPSVVLLVTLGLLAVASLVTVVQRIVGVHRQALAESAPSD	PGPT0007705_1874	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
D1-29_02768	588		COG0537	AP-4-A phosphorylase	GTGCAGGAGAATACAGGGGCGGGGTATCCAGGGGATTCCGGCGTCACCGACGATTTTGATCTCGCCGGCGTTCCGGATGCTTTCCAGCGCCTGTGGACTCCGCACCGGATGGCCTACATCAAGGGCGGCCAGCACCAGTTCAAGGACCAGAACGACTGCCCGTTCTGCGTAGGGCCGAGCCGGACCGACGAGGAAGCCCTCATCGTTTACCGGGGGAAAACCTGCTATGTGGTACTGAACCTCTTCCCCTACAATCCCGGCCACCTGCTGGTTTGCCCCTACCGCCACGTTCCCGACTACACGGACCTTACGCTCGAAGAGACCGGGGAATTCGCCGAGCTGACCCAGACGGCCATGAAGGTCCTGCGCAAAGTGGCGAACCCCGGCGGCTTCAATATCGGCATCAACCAGGGTGTTGTGGGCGGGGCAGGAATCGCCGCCCACCTTCACCAGCACATCGTTCCGCGGTGGGGCGGGGACGGCAACTTTTTCCCCATCATCGCCCAGACCAAGGCCATCACGCAGACGCTGGATGAGGTCCGCCAGCAGGTTGCCCAGGCCTGGCCCGGGGAGACGGATGCTGAATAG	MQENTGAGYPGDSGVTDDFDLAGVPDAFQRLWTPHRMAYIKGGQHQFKDQNDCPFCVGPSRTDEEALIVYRGKTCYVVLNLFPYNPGHLLVCPYRHVPDYTDLTLEETGEFAELTQTAMKVLRKVANPGGFNIGINQGVVGGAGIAAHLHQHIVPRWGGDGNFFPIIAQTKAITQTLDEVRQQVAQAWPGETDAE	PGPT0021690_184	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021690-hit-K19710	NA	NA
D1-29_02769	2010	thrS	COG0441	Threonine--tRNA ligase	GTGTCAGATGCCCAGCAGATCACCCTCATCGTCGATGGCGAAGAGACCAAGGTGACTACCGGGACAACCGGGGCGGAACTCTTCTTTGAGCGTCGCGACGTCGTTGTAGCCCGTGTCAACGGCGAGTTGAAAGACCTGGACCAGGAACTGCCCGAAGGTGCAGACATCCAGGCCGTCACCATTGGTTCCCCCGACGGACTAAACGTGCTCCGCCACTCCACGGCCCACGTCATGGCCCAGGCTGTCCAGCAGCTGCGCCCGGATGCCAAGCTGGGCATCGGGCCCTACATCACTGACGGTTTCTACTTCGACTTTGACGTGGCCGAGCCGTTCACGCCGGAGGACCTGAAAACCCTCGAAAAGATGATGCTCAAGATCGTCAACCAGAACCAGAAATTCGTCCGCCGCGTGGTCAGCGAGGACGAGGCCCGTGAGGCCATGAAGAACGAACCTTACAAGCTGGAACTGCTGGGCAAAAAGAACGAGGCCGCTGAAGCGGGCGAAGGCGTCAACGTTGAAGTCGGCGCCGGGGACATTACCATCTACGACAACGTGGACCGGAAAAGCGGTGACAGCGTCTGGTGCGACCTCTGCCGGGGCCCGCACCTGCCCAACACCAAACTTATTTCCAACGCGTTCGCACTGACCCGTTCCTCCTCCGCCTACTGGCTGGGCAACCAGAAAAACCAGCAGCTGCAGCGGATCTACGGCACCGCCTGGCCCACCAAGGACGAGCTGAAGGCCTACCAGGAACGGATTGCCGAAGCGGAACGGCGCGATCACCGCAAGCTAGGCGTGGAGCTGGATCTGTTCTCGTTCCCGGATGAACTTGGTTCCGGCCTGCCTGTCTTCCACCCCAAGGGCGGCATCATCCGCAAGGAGATGGAGGACTACTCGCGGCAGCGCCACGTGGACGCCGGCTACGAGTTCGTCTACACGCCGCACATCACCAAGGGCCACCTGTACGAGGTATCGGGCCACCTCGACTGGTACAAGGACGGCATGTTCCCGCCCATGCGGGTGGATGAGGAACTCAACGCTGACGGAACCGTCCGCAAGCCGGCTCAGGACTACTACCTGAAGCCGATGAACTGCCCCATGCACAACCTGATCTTCCGCTCGCGTGGCCGTTCCTACCGTGAACTTCCCCTGCGGCTCTTCGAATTTGGCTCCGTCTACCGGTACGAAAAGTCCGGTGTGGTCCACGGACTCACGCGTGTGCGGGGCATGACCCAGGACGACGCCCACATCTACTGCACCCGCGAGCAGATGAAGGACGAGCTCACCAAGACCCTGAACTTTGTGCTGGGCCTGCTCCAGGACTACGGCCTGAACGACTTCTACCTCGAGCTGTCCACCAAGGACCCCGAAAAGTATGTGGGTGACGACGCCGCCTGGGAAGAAGCGACGAACACCCTCGCCGAAGTCGCGCAGGAATCAGGCCTTGAACTGGTGCCGGATCCGGGCGGAGCTGCCTTCTACGGCCCGAAAATCTCAGTGCAGGCGAAGGACGCCCTGGGCCGCACCTGGCAGATGTCCACTATCCAGCTGGACTTCAACCTCCCGGAACGGTTCGAACTGGAATTCCAGGCGGCCGACGGCACCCGCCAGCGCCCCGTGATGATCCACCGGGCCCTTTTCGGCTCGATCGAACGCTTCATGGGTGTCCTCACCGAGCACTACGCCGGAGCGTTCCCCGCCTGGCTTGCTCCCGTGCAGGTAGTGGGCATCCCGGTGGCCGAGACCTTCAATGACTACATGTTCGACGTCGTCGATCAGCTTAAGGCGGCGGGCATCCGCGCCGAGGTGGACATCTCCTCGGACAGGTTCCCCAAGAAGATCCGCACGGCAAGCAAGGACAAGATCCCGTTTGTCCTGATCGCCGGTGGTGACGACGCCGACGCCGGAGCGGTGTCCTTCCGTTTCCGCGACGGTAGCCAGGACAACGGCGTGCCGGTGGCCGAAGCGGTCAAGCGGATCACAGAAGCCGTCCGTAACCGGACCAGCTAG	MSDAQQITLIVDGEETKVTTGTTGAELFFERRDVVVARVNGELKDLDQELPEGADIQAVTIGSPDGLNVLRHSTAHVMAQAVQQLRPDAKLGIGPYITDGFYFDFDVAEPFTPEDLKTLEKMMLKIVNQNQKFVRRVVSEDEAREAMKNEPYKLELLGKKNEAAEAGEGVNVEVGAGDITIYDNVDRKSGDSVWCDLCRGPHLPNTKLISNAFALTRSSSAYWLGNQKNQQLQRIYGTAWPTKDELKAYQERIAEAERRDHRKLGVELDLFSFPDELGSGLPVFHPKGGIIRKEMEDYSRQRHVDAGYEFVYTPHITKGHLYEVSGHLDWYKDGMFPPMRVDEELNADGTVRKPAQDYYLKPMNCPMHNLIFRSRGRSYRELPLRLFEFGSVYRYEKSGVVHGLTRVRGMTQDDAHIYCTREQMKDELTKTLNFVLGLLQDYGLNDFYLELSTKDPEKYVGDDAAWEEATNTLAEVAQESGLELVPDPGGAAFYGPKISVQAKDALGRTWQMSTIQLDFNLPERFELEFQAADGTRQRPVMIHRALFGSIERFMGVLTEHYAGAFPAWLAPVQVVGIPVAETFNDYMFDVVDQLKAAGIRAEVDISSDRFPKKIRTASKDKIPFVLIAGGDDADAGAVSFRFRDGSQDNGVPVAEAVKRITEAVRNRTS				NA	NA	NA	NA	NA
D1-29_02770	3489	dnaE	COG0587	DNA polymerase III subunit alpha	ATGACTTTCACGCACCTCCACGTTTCCACCGCCTTTAGCGCCCACTACGGCGTTTCCTGGCCTGATGAACTTGCCCAGGTTGCCGCCGCAGATGGTGCCACTGCGCTCGCCTGTACTGACAGGGACGGCCTGTATGGCACCATCAAACACCTCAAAGCCTGCATGGCTGCCGGGATAGACCCCATAGTGGGTGTTGACCTTGCGGTCCTTGACGACGACGGCGACCACCGCACCCAGGTTGCTGGCCGGGTGGTGGTGCTGGCCCGCGGAAACAACCGGGGAGCGGGCTACCGGGCCTTGTGCCGGCTGGTCTCGGATGCCCATGCCCGCACTTCCGGAAAGGCCGGGGGAGTGGTGCCTGTGGCAGTCACCCGGGCAGAGCTCGCATCCCGGACCTTGGACCCACTGACCCTCAAGCCAGTACTCACGGTCCTGATCGGACCCGATTCCGACGTCGGACTGGCCATCGGCGGACGGCGTTACCTGCGTCCGCGCACCCTGTTTAAACGCTGGCTGGAAGCCATGCCGGCAGGAACAATAGTGGCCGAGGTTGTCTCCCAGCTCAGCGCCCCCGGCTCACCGTTGAGCACCGCCCATGCAGTACGAATGCTCAAACTCGCAGAGGAGCACCACGTTCCGGCGGTTATCACCAACGCTGTGCGCTACTGCGCCGAGGATGGCGCCGCCACGGCTGACGTGCTGGATTCTGCTCGGACCCTAAAGTCTCTTCCTGAGCTTGCCGCCGAACCCCTGCTCCAGCCCAACGGCCAGGGCTGGCTGAAAACGTCAGGGCAGATGCTCCTGTTGGCCAGGGAGATCATCCACGCCGCAGGGTACGGCGCTGCTGACCTCAAACAGCTGATGACGCAGACCGAGGCGCTCGCCGATCTGTGCCGGATTGACCCGGTGACGGATATGGGCTGGAAGCAGCCGGTGGTGCCCGAAACATCAATCATCGGCATAGACCAGGACCCCCAGGTTGAACTTGTCCAGCGGTGTGAGGCCGGGATCGGCAGGCGGTTCCCGGGAATTTCCGGTACTGCCGAACAGGAGATGCGCCGTCGCCTCGACCACGAACTGGGAATCATCCAGAACCTTGGTTTCTCCTCTTACTTCCTCACAGTGGCTGAGGTTTCCAGGATGATCCTGGACATGGGAGTCAGGGCTGCGGCCCGCGGGTCTGGCGCTTCAAGCCTGGTCAATTACCTGATTGATATCAGCCAGGTGAACCCCCTCCAGCACGACCTCGTCTTTGAACGGTTCCTGTCCCGTGACAGGGGTACCCTTCCTGACATCGATATCGACGTCGAAAGCGCTGAGCGGCACAACGTCTACCGGAAGATCTTTGAACGCTTTGGCTCGGAGCGCGTCACGCTCATGAGCATGCAGAACGGATACCGTGCCCGCGGTGCGGTCCGTGATGCGGGGATGGCGCTGGGCATGGACGATGGCGATGTGGGGGAGATCGCCAAACAGCTGTGGCGCTTTTCTGCCCGGAAGTTCCGCGAGGCGCTCGCCGAAAAGCCGGAACTCCGGGAGTTCGCAGGGCGGGTGGAACAACGGGGATTTGCCGAAAACCAGCAACTGGACCTGCTCGTGGACCTCACTGAGCGGCTGGACCGGCTGCCCCGCCATATTTCCATGCACCCCTGCGGAGTGATCCTGGGCGACGCCACCCTGCTTGACCGGACCCCTGTCCAGCCCAGCGGGCTGGGGCTGCCCATGAGCCAGTTCGACAAACACGACATGGATCCCATGGGCATGCTCAAGCTCGACGTCCTGGGGGTCAGGATGCAGAGTGCCATGGCCTTTGCGGTCAGGGAAGTCATCCGAATCCACCCCTCCAAGGCAGAGGTGGTCGCCGCCGGAGCCCACCCCTCCGGTCCTGATGGTTCCGGGCCTGATTACATTGCCGAGAATGGCCACATCAACCTCAACGCCGTGCCGCTTGATGATGAGCCAACGTATGAGCTGATCCGCAGCACGCACACGCTGGGCTGTTTCCAGATCGAATCCCCTGGCCAGCGTGAGCTGGTGGGCAAGATGGCGCCGCGCGACTTCAACGACCTCATCATCGATATTTCACTTTTCCGGCCCGGACCCATGAAGTCGGACATGGTGCGGCCGTTCCTGGAGCACCGGCACGGGTTCGCGCCGGAAGTCTATCCGCACCCTGACCTGAAACCCGTGCTTCAGGAAACGCACGGCGTCACCGTATTCCACGAACAGATCCTGAAGACCTTCGATGTCATGACGGGCTGCGGCCTGGCCCGGGCCGACGAATTCCGCCGCGCACTTGGCAACGAGGCCCTTGAGCCTCAAGTGGAGGAATTCTTCCGCCGGGAAGCCCGCGCCAGCGGGTATGCCCCGGAGGTCGTGGACAAAGTCTGGGGAACCCTGAAATCCTTTGGAAGTTTCGGTTTCTGCAAGGCTCACGGAGCGGCGTTCGCCGTGCCCACTTACCAGTCTGCCTGGCTAAAGGCCCACCACCCCGAGGCGTTCCTGGCCGGATTGTGGGAGCACGATCCTGGCATGTACCCCAAACGCCTCCTGGTGGCAGAGGCCCGCAGGCTGGGCATCCCCATTCTGCCGTTGGACATCAACCGCAGCCAGGCGGAATACAGGGTGGAACGGGTCACCGAGGGGCCGGACCGGGGCAAGCTGGGGATCAGGCTGAGCCTGAAAGGGATTTACGGCGTATCCGGGGCTGAACTCAAACGGATCGTTGCCGGCCAGCCCTATGATTCCCTGGCGGACCTCAGGACACGGTCCCGGCTTAGCAAACCAAGCATCAGGAGGCTCGCCCAGCTTGGGGCCTTTGATTCCCTGCACCTGGAGTCCGGTGGGAGCGCCAACCGCGCGGACCTGGTCCACCACCTCCAAAAGCTTCAATCCACTGGTGCTGCCCGGAAGGGTATCGAGGTCATCGAGGGGCAGTTGGCCCTGCCGCTGGGCGACGTGGAACTGCGGAACGTCAAACCGGGCTTGCCCGCGCCCACGCTGGTGGACAACGTACGCGCGGAACTTGATCTGATGGCTATAGATGTCAGCGGGCACCTGATGGACAGCCACCGTCCCATGCTTGACCGGCTCGGCGTCACCACCGCGGATAAACTGCTGGGCCTGCGCAATGGAACTGAAGTGCTGGTGGCCGGAGTACGCATCGCCACCCAGACACCCCCCATGCGCGGCGGCCGGCGCGTGGTTTTCATCAGTATCGACGACGGCACGGGTTGCGTTGACTCCGTCTTCTTCCATGAGGCGCAGGAACAGGCCGGACTGCTGCTGTTCGGGACCAGGCTGCTCCTCATCCGGGGAACCACCCGGCGGACTGGTCCGCGGGGAATCAGCCTGAGTGCCAGCATGGCCTGGGACCTGAGCAGGGTTGAAACCCTGCCCTTCCCGCAGTCCAGCCCGGAGACCACCGACGTCCCGCATCCGTTGGACGGAATCAACAGGAGCCTTGCCATTACGGGGATGGGCGGCTGA	MTFTHLHVSTAFSAHYGVSWPDELAQVAAADGATALACTDRDGLYGTIKHLKACMAAGIDPIVGVDLAVLDDDGDHRTQVAGRVVVLARGNNRGAGYRALCRLVSDAHARTSGKAGGVVPVAVTRAELASRTLDPLTLKPVLTVLIGPDSDVGLAIGGRRYLRPRTLFKRWLEAMPAGTIVAEVVSQLSAPGSPLSTAHAVRMLKLAEEHHVPAVITNAVRYCAEDGAATADVLDSARTLKSLPELAAEPLLQPNGQGWLKTSGQMLLLAREIIHAAGYGAADLKQLMTQTEALADLCRIDPVTDMGWKQPVVPETSIIGIDQDPQVELVQRCEAGIGRRFPGISGTAEQEMRRRLDHELGIIQNLGFSSYFLTVAEVSRMILDMGVRAAARGSGASSLVNYLIDISQVNPLQHDLVFERFLSRDRGTLPDIDIDVESAERHNVYRKIFERFGSERVTLMSMQNGYRARGAVRDAGMALGMDDGDVGEIAKQLWRFSARKFREALAEKPELREFAGRVEQRGFAENQQLDLLVDLTERLDRLPRHISMHPCGVILGDATLLDRTPVQPSGLGLPMSQFDKHDMDPMGMLKLDVLGVRMQSAMAFAVREVIRIHPSKAEVVAAGAHPSGPDGSGPDYIAENGHINLNAVPLDDEPTYELIRSTHTLGCFQIESPGQRELVGKMAPRDFNDLIIDISLFRPGPMKSDMVRPFLEHRHGFAPEVYPHPDLKPVLQETHGVTVFHEQILKTFDVMTGCGLARADEFRRALGNEALEPQVEEFFRREARASGYAPEVVDKVWGTLKSFGSFGFCKAHGAAFAVPTYQSAWLKAHHPEAFLAGLWEHDPGMYPKRLLVAEARRLGIPILPLDINRSQAEYRVERVTEGPDRGKLGIRLSLKGIYGVSGAELKRIVAGQPYDSLADLRTRSRLSKPSIRRLAQLGAFDSLHLESGGSANRADLVHHLQKLQSTGAARKGIEVIEGQLALPLGDVELRNVKPGLPAPTLVDNVRAELDLMAIDVSGHLMDSHRPMLDRLGVTTADKLLGLRNGTEVLVAGVRIATQTPPMRGGRRVVFISIDDGTGCVDSVFFHEAQEQAGLLLFGTRLLLIRGTTRRTGPRGISLSASMAWDLSRVETLPFPQSSPETTDVPHPLDGINRSLAITGMGG				NA	NA	NA	NA	NA
D1-29_02771	342			hypothetical protein	ATGGGCATGTTCAGCGAATCCGTTGACGTTACCTGCACCCCTTCCGGCCAGCCGCTGCAGCTTCAATGGGCAGGGCGCCAATATACGGTGTGCGCGGAACCTGTTCGATGGTACGAACGCAGGCAGTGGTGGGCCGAGGAAAAGCGTGCGCCGCTGGGAAGCGGGCCAGGCCTGGTGGACCATGAAATTTGGCGGGTCCAGGTTCTGGCTGCAGACAACCCAGATGCTTCGGGCGGCAGCCCTCCCGGTGAGCCCCTCACCCTTGATCTGACCAGGCACGTCGGCAGCGGCCGCTGGAGGCTGCTGCGAATCCATCACGGAATCCAGCCCAGAACAGCATGA	MGMFSESVDVTCTPSGQPLQLQWAGRQYTVCAEPVRWYERRQWWAEEKRAPLGSGPGLVDHEIWRVQVLAADNPDASGGSPPGEPLTLDLTRHVGSGRWRLLRIHHGIQPRTA				NA	NA	NA	NA	NA
D1-29_02772	390			hypothetical protein	ATGACCACCAATGACGCACTCCTCAAGCACGTAAGCATCAAGGCCCAAGACTCCACGCTTGTGGCCACTTTTGATATAGACGGCAATATCCCGGGATCGGGTGCTTATGTGGTGGGGCTCATGGCGGCCGATCCCGACTATTCATCACAAAGACGGCTCGGCATTGAGTTCATGAACGGGGAGGCTATTGCCTGCTACTCGTTCAGCCATGACCAGGGCATCGAAGAGAACTATGATCTCAGTGGTGTCACCCACTCCGGCAACACCATCACCGGCAGCTTTCCCTTGGACGTTATCCATGGGCTGGGCAAGGGCCACATTATGTCAGCCTTCAGCGAGGCCGACGGGCGGGAGTTCCAGTCCGGAGTCCCCGTTGAGGAAGCGATCTAG	MTTNDALLKHVSIKAQDSTLVATFDIDGNIPGSGAYVVGLMAADPDYSSQRRLGIEFMNGEAIACYSFSHDQGIEENYDLSGVTHSGNTITGSFPLDVIHGLGKGHIMSAFSEADGREFQSGVPVEEAI				NA	NA	NA	NA	NA
D1-29_02773	288			hypothetical protein	TTGGCCGACAAGGAACAGCTTGCGGCAGTCCGCATTGCAGTCGATGAAGTGGACGAGCAGATCGTGGGCCTGATTGCCCGTCGGGAACGCCTGATCCGGATCGCGGGAACGCTGAAGGGGGACGACGCTGAAGTGCGCGCTCCCGGCCGCGTCGAGAGGATCATCGAACACGTCCGTTTAGCCGCGGAAAAGAAGGACATCGATCCTGACATTGTGGAATCGACGTACCGTGCCATGATCACGGGCTTCATCGAACTCGAAATGAAGGTCCACAAAGGAAACAGCTGA	MADKEQLAAVRIAVDEVDEQIVGLIARRERLIRIAGTLKGDDAEVRAPGRVERIIEHVRLAAEKKDIDPDIVESTYRAMITGFIELEMKVHKGNS	PGPT0003065_151	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
D1-29_02774	423			hypothetical protein	ATGCAGCCAAGAGTCGACTTCATCTCACTGGGCGTTCGCAGCGTCGCAGAGTCCCGCCGCTTTTATGTGGAGGGACTTGGCTGGCCGGTCCGTAAGGAAATTCCAGGTGACGTGCTGTTTATCCAGGTTAACCATGGGCTGACGCTGTCCCTTTGGGATGCCGGGCAAATGCAGGCGGAGGCCGGGGTGAGTCCTCCGGGGCCGGTCCCCCACATCACCCTCAGCCACAATCTGGCCAGCCCTGAGGACGTGGACCGGGTCATGGGCGAGGCAGCCGCTGCCGGTGCCGTGATCGTTGCGGAGCCAGTCACGCAGCCCTGGGGCGGGTACAGCGGCTATTTCGCGGATCCGGACGGGTTTCGCTGGGAGGTTGCGTACAACCCCACTTGGTCAGTGGACGACGCCGGCAGCGTCACCATCTAG	MQPRVDFISLGVRSVAESRRFYVEGLGWPVRKEIPGDVLFIQVNHGLTLSLWDAGQMQAEAGVSPPGPVPHITLSHNLASPEDVDRVMGEAAAAGAVIVAEPVTQPWGGYSGYFADPDGFRWEVAYNPTWSVDDAGSVTI	PGPT0028555_840	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
D1-29_02775	732	yedK_2	COG2135	SOS response-associated protein YedK	ATGGCACGTGCGGTGGGTGACCTGCTGGCAGAGTTTGAAGCCGGGCTTGAGGAAGAGGTGCACCTTCCGCCCTCCTGGAACGTGGCGCCAACCGATGATGTGCCCATCGTCCTGGAGCGGCTTATCGACGGCGGCCCGGTGCGGCAGCTGCATGTGGCACGCTGGGGGCTGGTTCCGTCGTGGGCGAAGGATCCCGGCATCGGAGCCAGGATGATCAATGCCCGGAGCGAGACGGTGCTGGAAAAGCCGGCATTCCGCAAAGCGATGAAGTCCAGGCGCTGCGCCGTTCCTGCTGACGGCTATTACGAATGGAAGCAGGGCGCAGGCAAGGCGAAGCAACCGTATTACGTGCACCCCGGAAACAGCGCGGGACTGGTGTTTGCCGGGCTGTACGAATGGTGGAAGGATCCGTATAAGGCGGAAGGGGAGCCCGGCCAGTGGATGCTCTCTACCTCCATCCTGACCGCGGACACTCCGCCGCCCGGGGCCGAGTCAACAGTATTTGGCAAGCTCACCGCCCTGCATGACCGGGTGCCGCTGCCGATGGATAAGGCCACCATGGAGTCCTGGCTCGACCCGCACGCCCAGGACCCCGCTGGCCTGGTGGACCTGGTCCGCGCCGGGGTGAAGGGCGTCGCTGCCGACTGGCACGTGGAGTCGGTGGGCCGGGACGTGGGAAACGTGCGCAACAACTCACCGGAGCTCATCCAGCCCGTGGAGGCATTGTTTTAG	MARAVGDLLAEFEAGLEEEVHLPPSWNVAPTDDVPIVLERLIDGGPVRQLHVARWGLVPSWAKDPGIGARMINARSETVLEKPAFRKAMKSRRCAVPADGYYEWKQGAGKAKQPYYVHPGNSAGLVFAGLYEWWKDPYKAEGEPGQWMLSTSILTADTPPPGAESTVFGKLTALHDRVPLPMDKATMESWLDPHAQDPAGLVDLVRAGVKGVAADWHVESVGRDVGNVRNNSPELIQPVEALF				NA	NA	NA	NA	NA
D1-29_02776	258		COG0695	Putative glutaredoxin.1	GTGGACTTCACCCCCGAATCCGGCACCATCACCATGTTTTCCACCACCTGGTGCGGCTACTGCAACCGGCTCAAGAAGCAGCTGGACGCGCAGGGCATCGGCTACACGGAAATTAACATCGAGGAAGTCGATGGGACAGCCGAACTCGTGGAGCAGATCAACGGCGGCAACCGCACCGTACCCACCGTGCTTTTCCCGGACGGCACAGCAGCCACCAACCCGTCTGCTGCCGAAGTCAAAAGCCGTCTCGCCGCATAG	MDFTPESGTITMFSTTWCGYCNRLKKQLDAQGIGYTEINIEEVDGTAELVEQINGGNRTVPTVLFPDGTAATNPSAAEVKSRLAA				NA	NA	NA	NA	NA
D1-29_02777	2034			hypothetical protein	ATGATCGCGGACCGCATCAAGATTCCGGCGCCATACGCGCCGGCAGTGAACGAAACGACGAACACGATCTTCGTCACTAGCGAACAGTTCAACACTGTGACTGCAGTAGACATGGCCACAAAGTCAGTAAAGATAATTCCGGTCGGAACAAGGCCACGACACCTGGCAGTGAACGAGGTCACGAATAAGGTCTACGTTGCGAATTCCGGTTCTTCCTCATTGAGCGTCATCGACGCTGTCACCGGTACTACCAAGACGGTGCCCCTGCCTGGCAACCCTTCTGCCGTAGCTGTGAACGAAGTAACCAACAAGGTGTACGTCTCAAATGGCGGCCCTAACGGCCTTACTGTCATTGACGGCGCCACCGATGTCGCGACATCCTTCCCAGTGGCGGGCTCCTCTGTAGCCCTCAGCGACAAGCCTGTCGCCGTCAATGAGAAGACCAACAAAATCTACAGCGTCACACCTCTCAGCAATCAGGTGACGGTCCTGGACGGGGCTACAAACGCCATTACCACCGTCCCGGTTTGCTCGGGCACTCATGGTTTGGCAATCAACGACACCACCAACACGGTGTATGTGACCTGCGCTAAAGCGCAGACGATCGTAGCCATTGATGGCGCTACCCGGTCGACAACAAGCATCCCAACAGGCGGTGACACCAGTCCCAGGGAAGTGGTTGTAAATCGCACGAACAACAAGGTCTATGCCCTGAACAATTTCAGCATGACCATTCTGGACGCCAGCTTGAACACTTTGGTAACGGTTCCAACTGGTAATTTCCCACCCGCCCTCGCCGTAAACGAGACCACCGGCAAGGTCTACGTAGCTGAATACTACGCCGGGAGCATTAGGGTCTTCGACGGTGCAACCAACGCCTCGGGTGTCCTCCAGGAGCTCAGCATGCCCGGTCGAATGGCAGTGGATTCGAAAAGGAACAGGATCTACGTCCGCTTCTTGTCCTGGTCTGACGAGCTGTCCAGCGGGATAGTCGTTGTCGACGGCAAGAACGTGGCCCCGATACTCACGGCTTCTGTGCCACCGCCAGGTGGCAGGGTGGGCGTCCGTTATGAACACCTGTACAAGGCTACGGGTTCGCTTACTCCGAGTTTCACAGTTGCCAGTGGTTCGCTGCCGCCCGGCTTATCCCTTTTAGCGAAGGGCGTACTGGCAGGAGTCCCCACAACGTCCGGGACCTTTACGTTCCGCATCTCAGCCAGCAATGGTTACAGCCCTGACGCCATTAGCCCGACTCAAACGATCAGCATCGCCCCTCGCCAGCTCACCCATGATTTTAACGGCGATGGAAACCCTGACGTCCTTTCCCGCGATGGTGATGGTGCCTTGTGGCTGTATCCGGGCAATGGCAGCGGTGGTTGGCAAGCGCGGGTGCAAGTGGGCCAGGGCTGGAACGTCATGACCTCGGTCGTAGCTCCAGGGGACTTCAACGGTGACAGTAAGCCAGATCTGTTGGCCCGCGACTCCAACGGAAATTTGTGGTTGTACCCCGGAAACGGTAAGGGTGGCTGGATGGCCCGGTCCCAAGCTGGCTCGGGATGGAACGTCATGAAGGAGATCACCGCCATTGGCGATCTGGACCATGATGGAAGAGCCGACGTCGTGGCCCGGGACTCGGATGGTCAGCTGTTCCACTATGACGGCGATGGGCGAGGCTGGTGGCGTGGCCAGAGCATCATTGGTTCCGGCTGGAACATCATGACGGCGATGGCAGGCCCGGGCGACTTCAGCGGTGACGGCTTGGCGGATCTGCTTGCCCGCGACACTGGAGGCGCTCTTTACCTCTATGCGGGCACCGGATACTCCGTTGCCGACGCGGGTTACGCTGTCGGCTCCGGCTGGAATGTCATGACGGCGATGGTGGGGCCGGGCGACTTCAACGGGGACGGCAACGTGGACATCCTGAGCCGTGACACGGGAGGGGCCCTGTGGCTTTACCCGGGCAACGGCTCCGGCGGATGGCTACCGCGCACGTTGGTCGGCTCCGGCTGGAACGTCATGACCATGATCATTTAG	MIADRIKIPAPYAPAVNETTNTIFVTSEQFNTVTAVDMATKSVKIIPVGTRPRHLAVNEVTNKVYVANSGSSSLSVIDAVTGTTKTVPLPGNPSAVAVNEVTNKVYVSNGGPNGLTVIDGATDVATSFPVAGSSVALSDKPVAVNEKTNKIYSVTPLSNQVTVLDGATNAITTVPVCSGTHGLAINDTTNTVYVTCAKAQTIVAIDGATRSTTSIPTGGDTSPREVVVNRTNNKVYALNNFSMTILDASLNTLVTVPTGNFPPALAVNETTGKVYVAEYYAGSIRVFDGATNASGVLQELSMPGRMAVDSKRNRIYVRFLSWSDELSSGIVVVDGKNVAPILTASVPPPGGRVGVRYEHLYKATGSLTPSFTVASGSLPPGLSLLAKGVLAGVPTTSGTFTFRISASNGYSPDAISPTQTISIAPRQLTHDFNGDGNPDVLSRDGDGALWLYPGNGSGGWQARVQVGQGWNVMTSVVAPGDFNGDSKPDLLARDSNGNLWLYPGNGKGGWMARSQAGSGWNVMKEITAIGDLDHDGRADVVARDSDGQLFHYDGDGRGWWRGQSIIGSGWNIMTAMAGPGDFSGDGLADLLARDTGGALYLYAGTGYSVADAGYAVGSGWNVMTAMVGPGDFNGDGNVDILSRDTGGALWLYPGNGSGGWLPRTLVGSGWNVMTMII				NA	NA	NA	NA	NA
D1-29_02778	144			hypothetical protein	ATGGAAAGAGAAGCATCCGGTGAACTGGAGGGGCAGAGCTCGATCAACGAACTGCTCAGTGAACCGGTCGGCGTGACTCATTTCCAGATGGTCCTGCCGCTGCATGTCCAGCTCCCGTCGGGGGAGTTCCGGCGCTTGTCGTGA	MEREASGELEGQSSINELLSEPVGVTHFQMVLPLHVQLPSGEFRRLS				NA	NA	NA	NA	NA
D1-29_02779	552			hypothetical protein	ATGAAATACGCACGCACCTTAGCGGCAGTGGCGATGTTGCTCGGGTTTGCCCTGTCCGGGTGTCAGACCGCCGGAGGGTCACCTCCGGCGGGAGCTCCCGCTGCTGTGCCCAGCGGATCCCCGTCCGAGTTCGCCGTGATCATCCAGGCTGCCGTCGAGGATCGCAACGGCACCGCACTCGACACACTTCCAGCTCCGCGCCTAGCAGATGAGCAGGCCACGGACGCCTACCTCTCCAAGCGCGCACGGGATTTGCCTGCGGTGACGCGGTCGAAGGCCGGATTCAAGTCATCTGGTTTCTGGTACACGTCCTTTTCTACGAAGGTAACCGTGGACTCCATCAATGTGAGCGGATCGGAAGCGGTCATCCAATTCACGGAATTAACGGAGGAATACCTCGGATCGGCTGCGAATGGCCCGAGCAACGTCCCATCCGGCTACTCGTTACCGCAGACCGCGACGTTCCGGACATCCACGGATGGCTGGCAGCTAGACAGCATCGCCCCTTCCAAGCCCGGGTTCGGCTTGCCGATGTCCATCGTCGCAGATTGA	MKYARTLAAVAMLLGFALSGCQTAGGSPPAGAPAAVPSGSPSEFAVIIQAAVEDRNGTALDTLPAPRLADEQATDAYLSKRARDLPAVTRSKAGFKSSGFWYTSFSTKVTVDSINVSGSEAVIQFTELTEEYLGSAANGPSNVPSGYSLPQTATFRTSTDGWQLDSIAPSKPGFGLPMSIVAD				NA	NA	NA	NA	NA
D1-29_02780	213			hypothetical protein	GTGCTTACGCTCCTGGCCCAGACAGTCATCGCAAATCTGGCCCTTATGTCTCTGGTCATAGTCGTCCTGGCGAGTCAGGTGATTTCTTATGACGGAATAGGCTCATTCATTGTCTGGGGGCTTGCGGCAATGATCCTCCCCGCCATGGCAGTCTGCCTTGCCCTCGTCTTAGGGCTCCCCGTTCGGCTTATCCCACCTGTGCGCCGGTGGTGA	MLTLLAQTVIANLALMSLVIVVLASQVISYDGIGSFIVWGLAAMILPAMAVCLALVLGLPVRLIPPVRRW				NA	NA	NA	NA	NA
D1-29_02781	198			hypothetical protein	GTGGCCGGCACCCTCGCCGGCTGGGGCCTTACCGTCTATGCGTTTCTGTCTGGCAAAGAAGAGTCCGGGACCGAAGAGGGCATCCATTACACGGTCCACGTCCCTAATTGGGATGCACTCCTGTGGGGCTGTGGGCTGCTCGCGTTCTTCACAACCCACCTCTGGATTCCAGCCAGATGGCGACGACGGGCCCGCTAG	MAGTLAGWGLTVYAFLSGKEESGTEEGIHYTVHVPNWDALLWGCGLLAFFTTHLWIPARWRRRAR				NA	NA	NA	NA	NA
D1-29_02782	645			hypothetical protein	ATGGTCTCGGGCTCTTTAGGCTCCGCTGCTCTCGATGACGGCCTTAACGCGTTCGACGTACTGCTGGCAGAAAAGCTTGTGGTGGTATTCGTAGTGGCTGAGATAAGCGGCCTCTCCTGGGGGCAAGGAAAAGTGCTCCCCATGCTCAAGGATGGTTGCGCCATTGTCGGTATCCTGCAAAGTGTTACGGCCTCGCGACGTTGGATCTGTGTGCCCAATGGGCCTGGTAATCGCTATTTCATAGGGGATCTCGTGGACCACTTCAATAGCCGACACGCGCTCTACACCGTTGCGTACTTCGATGAAGACTTGAATCTCTCCGGCCCCGTTGAAAGGTGGTGTGCTGAACCCCCGCACTATTTCTGGATCAACCAGGACTCCGTTTTCCGCTGGTTTGATGAGATCCCAGACCTGTTGCCGTGGAGCGTCGATCACTGCAGACGCGGACACGTAATGAACGGAAGTTTCAGATGGGGACCGCATTGGCTGACGGCGCTTAAACAAAGGACTCATGGCGCGAGCATGGCATCCGAACAAGTCACCAGCAAACCACCACACCGCAGCAACGCGGCTCGAGTCCTGTTGTCAGGCTGGTTACCGGATGCCAATATGCGTAGGTGGACGCAGTTACAGTGTCCGGCCTGA	MVSGSLGSAALDDGLNAFDVLLAEKLVVVFVVAEISGLSWGQGKVLPMLKDGCAIVGILQSVTASRRWICVPNGPGNRYFIGDLVDHFNSRHALYTVAYFDEDLNLSGPVERWCAEPPHYFWINQDSVFRWFDEIPDLLPWSVDHCRRGHVMNGSFRWGPHWLTALKQRTHGASMASEQVTSKPPHRSNAARVLLSGWLPDANMRRWTQLQCPA				NA	NA	NA	NA	NA
D1-29_02783	228			hypothetical protein	GTGTCCGGCCTGAAAGTCACCTACCGGCGTGTGGGATCGGGCGATCCGCTCGTCCTTCTCCATGGCGGCTTTGGATTCGACAGCCGATCCTGGGGCCCGCAGCTCGACGCCCTCGATGACGAGTTCGATGTCGTCGCTTGGGACGCTCCAGGCTGCGGAGGATCCGACGATCCGCCCGAGTCCTTCTCCATGGAACACTATGCCAACAGCCTGGCCGAGTTGAGGTGA	MSGLKVTYRRVGSGDPLVLLHGGFGFDSRSWGPQLDALDDEFDVVAWDAPGCGGSDDPPESFSMEHYANSLAELR				NA	NA	NA	NA	NA
D1-29_02784	579			hypothetical protein	ATGGATCAAAAGACTGACCTACTTGGATACCTTCGCCTTCGAAGGGCGGACCTTCTCGCGAAACTTGATGGCCTTGGTGAATACGATATTCGCCGGCCTATGACGCCCACGGGCACAAATCTCCTTGGCCTGGTGAAGCACGTCGGCGGTGTGCAATTGGAATACTTCAGCGGAGTATTCGGGAGGCCGCATAACCGGGAACTGCCTTGGCTAACTGGAGACTTGGGTGTTGATGCCGATATGTGGGCCACGGCAGATGAGAGTCGGGCAGATATCCTCGACTTCTACGACTTCTCTTGCCGGCATAGCGACGCGACGATAGAGCAACTCACCTTAAATTCTTTGGGTGAAGTACTTTGGTGGGCGCCCGAACGCCGCAGCGTAACCCTGCATCAGATCCTGGTCCACATGTGCGTTGAGGCAGCGAGGCACGCCGGGCACGCCGACATCCTGCGCGAGTTGATCGACGGCTCAGTTGGCAACGGTCCCCAAGATCCCAACGTGCCGGGCCGCACCTCCGAAGAATGGGCTGCCTTTCGAAGTCAGATCGAGACGGCAGCACGCCAGACAGAAGGCTAG	MDQKTDLLGYLRLRRADLLAKLDGLGEYDIRRPMTPTGTNLLGLVKHVGGVQLEYFSGVFGRPHNRELPWLTGDLGVDADMWATADESRADILDFYDFSCRHSDATIEQLTLNSLGEVLWWAPERRSVTLHQILVHMCVEAARHAGHADILRELIDGSVGNGPQDPNVPGRTSEEWAAFRSQIETAARQTEG				NA	NA	NA	NA	NA
D1-29_02785	921	argP_3		HTH-type transcriptional regulator ArgP	ATGCATTCAACGGGCTTTTTATACGATGAACGTATGGATGTTGAACTCAGGTACCTTCGTGCTCTGGTAGCGGTAGTGGAAGCCCAAACGTTCACCGACGCCGCCATCGCCTTGGGAACGTCACAGGCCGCGGTTTCCCGGTCCGTAGCAGCACTGGAACGGGCGCTGCGTATGCGCATTCTGCAAAGGACAACGCGGAGCATCACACCCACTCCTGCCGGGGAACGGATCATTGAACATGCCCGGCGCGTCCTGGCCGAGGTCACGCTTCTTGAACGTGCGGCCAGGGATCAAAGCAGTGAACTGAAAATAGGGTATGCATGGTCGGCGCTGGGTGCCCGGACCGCAGCCCTGCAACGCGAATGGGCGCAGAGCCACCCGGACGTGAGCCTGGTGTGGGTCCAGACATATGCCGCATCGGGAGGGTTGGAGGACGGCTCTTCCGACGTTGCCATCATGCGGCGCCCGATCAGTGATAACCGCTTTGCTGCCATATTCATCGGCCAAGAAGGCCGCTATGCAGCCGTGGCCGCAGAGGATCCGCTGGCCCGGAGGCGTTTCCTCCGGATGGCAGACTTCGCCGGGCGTACGCTGGCCGTCGACCTGCGCACCGGAACTACCACGGAAGACCTCTGGACCGGATGGGCGCGGCCGGCATCGCTGCGCCAGGTGCAAGGCGTCGATGAATGGCTGATGCTCATCTCCACCGGGCAAGCCATCGGCATGTCCTCAGAGGCCACCGCTGCGCAGAATCCGCGGCCCGGCGTCGTGTACCGGCTCGTCCGTGATGCCCCGCCAATCTCGGTGTTCCTTGTCTCTCGGCGCGGGGATCCTTCGGCCCTTGCCGCGGATTTCACCAGGCTTGCCCGCAAGACGTTTGGGCCTGACGGCACTGCTGAGACGAGGCCGGGTTCGAATTAA	MHSTGFLYDERMDVELRYLRALVAVVEAQTFTDAAIALGTSQAAVSRSVAALERALRMRILQRTTRSITPTPAGERIIEHARRVLAEVTLLERAARDQSSELKIGYAWSALGARTAALQREWAQSHPDVSLVWVQTYAASGGLEDGSSDVAIMRRPISDNRFAAIFIGQEGRYAAVAAEDPLARRRFLRMADFAGRTLAVDLRTGTTTEDLWTGWARPASLRQVQGVDEWLMLISTGQAIGMSSEATAAQNPRPGVVYRLVRDAPPISVFLVSRRGDPSALAADFTRLARKTFGPDGTAETRPGSN				NA	NA	NA	NA	NA
D1-29_02786	933	rhtA	COG5006	Threonine/homoserine exporter RhtA	ATGGAAGCTCAACCGGTACAGGGTACGGCCCAGTCCCAGCAAGGCCAGGTTATTAGAGGGGCCCGCAGGTCGCTAACCCGTGGGGTCCTGGGCATGACAGGAAGCGGGCTCAGCAATCAGATTGGCGCCGGGATCGGTGCACATGCATTTCCAGTCATCGGACCGGCGGGGGTTGTGGCCGTTCGGCAGTTCGTGGCCGCCGCGGTGCTGCTCCCCGTTGCCCGCCCGGCCTTCCATCGGTTCACCTGGCAGCAGTGGTGGCCCATACTCCTGCTGGGAGCGGCCACCGCGCTGATGAACATCTGCCTGTATGTGGCCATTGACCGAATCGGGCTGGGGCTTGCCGTCACCCTGGAGTTCCTTGGACCATTGGCGGTTGCGCTTCTGTCTTCAAGGAGCCGTTGGGATCTGGCGTGCGGGCTCAGTGCCGGCTTGGGGGTATATGTTCTCGTGATGCCGGGTCCCAGCAGTGATTTCGTCGGCATTGCCATCGCCGTGGCTGCCGCGGTTTGCTGGGCAGCTTACATCCTGTTGAACAGAGTGGCCGGGCAGCGGCTGCCAGGTCTGCAGGCTCCGGCCGCGGGGACACTGGTATCCCTGGTTATCTACCTTCCCGTGGCGGGCTATCTCCTGATCCAGGGGGTGTTTACCGGTCCCGCGCTTCTGTACGCCGTCGCGGCAGGAGTCCTTTGCTCGGTCATTCCCTACGCCGCCGATCTCGTCGCCCTCCGCCACGTGCCTGCCGGATTCTTCGGCGTCTTCATGAGCATCAACCCCATCCTCGCCGCGCTCTCCGGAACGGTAATACTGGGGCAGGTCCTCCAACTCCACGAATGGCTTGGCATCGGGACGATCGTTGCCGCGAACGCCGTGGCTATCTGGTTGGCCGGGCGCAGGACCGGGACTGGCCGGCCCCCGGCTCAAGCGCCATGA	MEAQPVQGTAQSQQGQVIRGARRSLTRGVLGMTGSGLSNQIGAGIGAHAFPVIGPAGVVAVRQFVAAAVLLPVARPAFHRFTWQQWWPILLLGAATALMNICLYVAIDRIGLGLAVTLEFLGPLAVALLSSRSRWDLACGLSAGLGVYVLVMPGPSSDFVGIAIAVAAAVCWAAYILLNRVAGQRLPGLQAPAAGTLVSLVIYLPVAGYLLIQGVFTGPALLYAVAAGVLCSVIPYAADLVALRHVPAGFFGVFMSINPILAALSGTVILGQVLQLHEWLGIGTIVAANAVAIWLAGRRTGTGRPPAQAP				NA	NA	NA	NA	NA
D1-29_02787	780			hypothetical protein	ATGACCATCAGGGAGTTCCGCCCCATGCAGGACGCAGAGCCCGGACCCCTTGCCCTCACTGTGGTGCGGCAGGAGCACTCGCTCGGCGCGGCGCGGGACCTTGAATTCGGGCTTGACGTGCTGGCCATGGCAAAGACCGGTAGGATTGGGCCCACCCTGAGGCTGTACCGCCCCCAACCAACCGTGGCATTCGGTCAACGGGACGCCCGCCTGCCCGGTTTCGAAGCGGCCGCCCGGGCGTGCCGGGATCATGGGTTTGAACCGTTGGTCCGCAAAGCCGGCGGTCGTGCCGCGGCCTACCATCAGGGGACCCTTGTGGTGGATCACGTGGAGCCCCACACCGACGCGATTGCCGGTTCCAAGGGCCGGTTCAGTTTCTTTGGCGAACTGCTGGCGCAGGCTCTGCGGGACGCGGGAGTCCAAGCCGCCGTCGGCGAAATCCCGGGGGAGTACTGCCCCGGCGAGTTCAGTGTCCATGGCACCGATCCGGACGACGGCGCCCGTCAGGTGAAGCTCATTGGCACCGCTCAGCGGGTGGTGGCCGGCGGGTGGCTGTTCAGTTCGGTGATTGTGGTGGAGGATTCTGCCCCCATCCGTGCGGTTTTGACTGACAGTTACGCTGCCCTTGGCCTCGATTGGGATCCGGCAACAGCCGGGGCGGTCAACGATCTTGTCCCTGGGCTGGACGTCCCGGCCATTGAGGCCGCCGTCCTTGCCACCTATGCCCGGCACGCCTCGCTCGGGTATGCCGAGTTCGGCAGCTATTTTCATGGCGCTTGA	MTIREFRPMQDAEPGPLALTVVRQEHSLGAARDLEFGLDVLAMAKTGRIGPTLRLYRPQPTVAFGQRDARLPGFEAAARACRDHGFEPLVRKAGGRAAAYHQGTLVVDHVEPHTDAIAGSKGRFSFFGELLAQALRDAGVQAAVGEIPGEYCPGEFSVHGTDPDDGARQVKLIGTAQRVVAGGWLFSSVIVVEDSAPIRAVLTDSYAALGLDWDPATAGAVNDLVPGLDVPAIEAAVLATYARHASLGYAEFGSYFHGA	PGPT0003940_453	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
D1-29_02788	804			hypothetical protein	TTGACCAAAGAACTGCCCGAACTTGCCGAAGGCAACTTCTACTACCAGGTGCTTGGCGGCGGCCGCTTCCGCTCCACCATCCATGCCCAGGGGGCGTGGAACGAGCATGAACAGCACATGGCGCCCGCCTCGGGACTGATGGCTGATCTCCTGGAACGCCACCAACCGCGCGGGGACATGCGGCTTGCCCGGCTGAGCTACGAGATCCTTGGGCTCATTCCCGGCGGTGAATTCCAGATCGAAATCACCACGCTCCGCCCCGGACGCACCATTGAGCTACTCCAGGCTGAACTGGTCGCCGACGGCCGCGTTGCCATCCGTGCCACCGCCTGGCGGATGATCACCAGTGACACCAGCGCCGTTGCCGCCGTCGAGGATCCCGCCATCCAGGGTCCCGACGAGTGCAAGCCGTACGACGGCGCCAGCGTCTGGCCCGGCGGCTATATCCGCTCACTGGAGATGCGTGTGGCGGAAGGCCACCGGCCCGGAGCCGGCAAGGTCTGGCTGCGCACCGAACACCCGCTCACCGATCAGGACGACAGCGGTGACCTTGCCCGGCTGATGGGCATGGTGGACACCGCCAACGGTATAGCCGCCCGGGTCCCGCCCGGCAAGGACAGCTACGCCTTCCCCAACCTGGACCTGCAGATTCATATGTACCGCAGGCCCGACGGCGAGTGGCTGGGACTGGACAACGCGGTCACCTTTGGCGCGGACGGGATTGGCCTCACGTCCACGGTCCTGCACGATCTTCAAGGACCCTTTGGGCGTGCGGAACAAATTCTGACGCTGCGCAGATCGTGA	MTKELPELAEGNFYYQVLGGGRFRSTIHAQGAWNEHEQHMAPASGLMADLLERHQPRGDMRLARLSYEILGLIPGGEFQIEITTLRPGRTIELLQAELVADGRVAIRATAWRMITSDTSAVAAVEDPAIQGPDECKPYDGASVWPGGYIRSLEMRVAEGHRPGAGKVWLRTEHPLTDQDDSGDLARLMGMVDTANGIAARVPPGKDSYAFPNLDLQIHMYRRPDGEWLGLDNAVTFGADGIGLTSTVLHDLQGPFGRAEQILTLRRS				NA	NA	NA	NA	NA
D1-29_02789	678			hypothetical protein	ATGCGCGTCATCAGTTACAACCTTCGCAAGCACAAAGCGAGCGGCGAGCTTCTCGCGCTCGCCCGGAATTTCGAGATCGATGCCTTGTGCCTGCAAGAGGTGGATTCCAGCGACCTGCCGGAAACCCTCGGGCCACTGCACCTGGCTGACACCACTAAGGGAAACCGCCTTGGCCTCGCCATCTACTACCGCACCAGCCGCTTTACGGCCTTGGATACCCAGTCGTTTGCGCTGAAGAAGTCCATGCATGATCGGGTGCTTGCGCCGGCGCACGAGCGCCTCATCGGCACCAGGGTGGTGGACAACGAGACGGAGCACGAATTGGTTATCGGTTCCTTCCACGCGGCACCGCTGACCGCCTCCAATTCGCTACGGCGGAAACAAATCCACGCCGCCCATGCGGAACTCCTGACCATGGGCAGCGGCCTGATGACACTGATGGTTGGCGACTTCAACTATCCGTTCTTCACCAAGAACCTTCACGCCCACATGAAGGACTCGGGATACGCGCTGTCCCTCAGTAACCGCCGGACATACACACGCTATAAAGTGTTCCACGGCCACTTCGACTTCGCCACGTCACTGGGATTGGACATCGCAAACGTGGAAACCCTGCCCCGGGGCAAGTCCGATCACCTGCCGATTCTTGTGACGGCCGAGTACGGCAAGGACTACTGA	MRVISYNLRKHKASGELLALARNFEIDALCLQEVDSSDLPETLGPLHLADTTKGNRLGLAIYYRTSRFTALDTQSFALKKSMHDRVLAPAHERLIGTRVVDNETEHELVIGSFHAAPLTASNSLRRKQIHAAHAELLTMGSGLMTLMVGDFNYPFFTKNLHAHMKDSGYALSLSNRRTYTRYKVFHGHFDFATSLGLDIANVETLPRGKSDHLPILVTAEYGKDY				NA	NA	NA	NA	NA
D1-29_02790	708	COQ5_2		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	GTGGAGCTGTACGACACCGATAACCCTGACGGTCCCGATCACGACTTCTTTCGGGCTCTGGCAAATGAGGCCGGCGCGCAGACCGTCGTCGATCTTGGATGTGGCACCGGGATTCTGACCGTGACCTTCTGCAGGGAGGACCGTAAAGTCATCGGGATTGATCCGTCTCCGACGATGCTCCGTTATGCACGCGCGCGGCCCCGAGCCAGCCAGGTGGCCTGGATCTTGGGCGATTCCTCGGCCATTGGGGATTCAGCGGCAGACGTGGTGGTCCTGAGCGGCAATGTTGCCCAACACATCACGGGCGCGGCCTGGCGGCGTGCCTTAAATGACATCCATCGCGGACTTCGGCCCGGCGGTGTACTGGCTTTCGAGCGGCGAAACCTTCTGGCCGGTTCCTGGGAGAACTGGACCAAGGAGAAGACCCTTACTACCCGCGATTCCATCATCGGCCCGCTGATGGAATGGAAGGAGGTTTCTTCAATGGATGGCGCAGGCATCGTGACCCTCACCTGCCACAACGTCCTGATGGAAACGGGGGAGGATATCGTGGAGACGCTGTCATTGTCCTTCCTGAGCCAGGCCCAGGTAGTCAGCGATTTGGATGCCGCCGGCTTTGACGTGTCCGGCGTCTGGCGGAACTGGACCCGGGAACCGGTGGAGGAAAAGAGCCCCCTGATGGTGTTCGAAGCCACGCGGCGTCACTAG	MELYDTDNPDGPDHDFFRALANEAGAQTVVDLGCGTGILTVTFCREDRKVIGIDPSPTMLRYARARPRASQVAWILGDSSAIGDSAADVVVLSGNVAQHITGAAWRRALNDIHRGLRPGGVLAFERRNLLAGSWENWTKEKTLTTRDSIIGPLMEWKEVSSMDGAGIVTLTCHNVLMETGEDIVETLSLSFLSQAQVVSDLDAAGFDVSGVWRNWTREPVEEKSPLMVFEATRRH				NA	NA	NA	NA	NA
D1-29_02791	588			hypothetical protein	ATGGATCACTCATTGGCCGGCACGTCGCCAGCTGCGACCCCACCGAACACCGCGCTCCAGGCTTCGGACATCCAGAAGCCTGCGCTGCAGCGGCCGCCTGTGCGGACGGGCCCCCGGGACCCCGGTGATGCCTGGGTTGAGGGGGAACACGGACGTTTCTGGGGCAGGTTCGGCGCAGCCGGAGTCCTGGCGTTTGACCCCGGCAAGGGGGTGCTTCTCCAGCACAGGGCGGCCTGGAGCCACAACGGTGGAACCTGGGGGCTGCCGGGTGGAGCCCTGCACGAGGGCGAAGACGCCGTGGCGGGTGCCCTGCGGGAAGCGTATGAGGAAGCCGCGGTGCCTGCAGCGAGCGTGAGTGTCCTCTTTACCTCGGTCCTTGACCTCGGCTACTGGTCCTACACCACGGTGGTTCTGCTCGTGACGGACCCGTTTGATCCCGTGATCAGCGATCCGGAGAGCATCGAGCTGCAGTGGGTTCCGCTGGCTGAGGTGACCACAAAGGAGCTGCACCCTGGATTCGCGGCGTCCTGGCCCGCCCTGCGCCCCAGAATGCTGGACCTCACCGATGGCCGGCCGCAGCCGGAGTGA	MDHSLAGTSPAATPPNTALQASDIQKPALQRPPVRTGPRDPGDAWVEGEHGRFWGRFGAAGVLAFDPGKGVLLQHRAAWSHNGGTWGLPGGALHEGEDAVAGALREAYEEAAVPAASVSVLFTSVLDLGYWSYTTVVLLVTDPFDPVISDPESIELQWVPLAEVTTKELHPGFAASWPALRPRMLDLTDGRPQPE				NA	NA	NA	NA	NA
D1-29_02792	774			hypothetical protein	GTGGCCGCCTTCGTGAACGCGTTCGACGGCGAAATCACCGCCGGGATACATCACGGTTTCGTGTCCGTCATCAAAACGGATCAGGTACGGCGGATGACCTCCCTCCCCACGGACCTCAACGATCACCCCGTGCCGGTCAGCTGCTCCAACAGTCCGGCCCCGAACGATGATGCGGTCGCCCTGCATTGCCTCCATGGCAATCACCTCCCAGCCCTAGGTTACGACTCACGCGGACCCGCGAACAGGTCCCCGTGCGAAGATTCAGCTATGCCACTGAACCTTCTGCTGGTCTCCGATACCCACGTCCCAAACCGCGCCCGGGCGCTCCCCCGGCAGGTGTGGGCCGCCGTCGAAAATGCCGATGTGGTATTCCATGCCGGTGACTGGGTCACAGCAGCGCTCCTGGACGAATTCGAGCAGCGAAGCCGCCGGCTGGTAGGTGTTTACGGCAACAACGACGGACCGGAACTACGCGGCAGGCTTCCCGAAAGCGCAGCGGTGACCCTTGAGGGGATTAATTTCGCGGTCATCCATGAGACGGGCCCAGCGAAGGGCAGGGAAGGACGCTGCGATGAGCAGTTCCCCACGGCCGACGTCCTGGTCTTTGGACACTCGCACATCCCTTGGGACACCACCTCGCCGGGCGGGCTGCGGCTGCTGAATCCGGGTTCGCCCACGGACCGCCGCCGGCAACCGGTGTGCACCTACATGACCGCTGTGGCCGATGCCGGCAATCTGCAGGACGTCCGCCTGGTGGAGGTTAGCAGGGACTGA	MAAFVNAFDGEITAGIHHGFVSVIKTDQVRRMTSLPTDLNDHPVPVSCSNSPAPNDDAVALHCLHGNHLPALGYDSRGPANRSPCEDSAMPLNLLLVSDTHVPNRARALPRQVWAAVENADVVFHAGDWVTAALLDEFEQRSRRLVGVYGNNDGPELRGRLPESAAVTLEGINFAVIHETGPAKGREGRCDEQFPTADVLVFGHSHIPWDTTSPGGLRLLNPGSPTDRRRQPVCTYMTAVADAGNLQDVRLVEVSRD				NA	NA	NA	NA	NA
D1-29_02793	894	yghA_2		putative oxidoreductase YghA	ATGACGGACCAGTACACCTTCCGTAATCCAGTAACGGCATACGAAAAGATCTCCCCGCCGGAACAACATCAGCCAGAGCCCGGCCTGGACGCCGAGCTGCAGCCAAAAGCGGACCTGGGCGAGGAGACCTACCGCGGTACCGGACGCCTCGACGGCCGCAAGGCGATCGTCACGGGCGCTGACTCCGGGATCGGGGCTGCCGCGGCCATCGCGTTCGCCCGGGAAGGGGCCGACGTCGTTCTGTCCTATTTGCCCCAGGAGGAGACTGATGCGTCACGCATCGCCGCCCTGGTTGAGGCGGCAGGCCGCAAAGCGATTAAAGTCCCGGGTGACCTCAAGGACCCCGCCGCTTGCCGTGACTTGGTGGACACCGCCGTCGCCGTCCTGGGCAGCATAGACATCCTGGTCAACAATGCGGGAAAGCAGGTGGCCCAGGAGGACCTCACCCAGATCACCGACGAGCAGTTCGACCACACGCTGAAGACCAACGTTTATGCCATGTTCTGGCTCAGCAAGGCAGCCATCCCGCACATGCCGGCCGGGTCAACCATCATCAACACCACGTCAATCCAGGCGTACAACCCGTCGCCCACACTGGTGGACTACGCCACCACCAAAGCCAGCATTAACAACTTCACCAAGGGTCTGGCCCAGCAACTGGCTCCCAAGGGCATCCGCGTGAATGCCGTAGCCCCGGGACCTATCTGGACGCCGTTGCAGGTCAGCAGCGGCCAGCCGAAGGAAGCCCTGCCGGAGTTCGGGCAGTCCACTCCCCTGGGCCGTGCCGGTCAACCGGCCGAGCTGGCGCCGGCGTATGTATTCCTGGCATCTCCCGAGTCCAGCTTTGTGATCGGAGAAACGTTGAACGTCAACGGCGGCAATCCGACGCCGTAA	MTDQYTFRNPVTAYEKISPPEQHQPEPGLDAELQPKADLGEETYRGTGRLDGRKAIVTGADSGIGAAAAIAFAREGADVVLSYLPQEETDASRIAALVEAAGRKAIKVPGDLKDPAACRDLVDTAVAVLGSIDILVNNAGKQVAQEDLTQITDEQFDHTLKTNVYAMFWLSKAAIPHMPAGSTIINTTSIQAYNPSPTLVDYATTKASINNFTKGLAQQLAPKGIRVNAVAPGPIWTPLQVSSGQPKEALPEFGQSTPLGRAGQPAELAPAYVFLASPESSFVIGETLNVNGGNPTP	PGPT0014705_71	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
D1-29_02794	441			hypothetical protein	ATGGCTGACCCGTTTAATCTGGAACGGTTCGTCGCCGCGCAGGACAGCGGCGGAACCTACGAGCAGGCCCTGTCCGAGCTCCAACTAGGCAAGAAGACCGGGCACTGGATGTGGTTCATCTTTCCGCAGCTCGCAGGCCTTGGCCACAGCGAAATGTCGCAGCGGTACGCCATCGGCTCGCTGGCCGAAGCCCGGGCCTATCTGGAGCACAGCGTGCTGGGCCCACGGCTGCTGGATTGTGCCCAGGCCCTCACCGACTTTGCAGACAGGACGCCCGAGGAAATCCTCGGCGCCATCGACGCGCGGAAGCTCCATTCCTCCATGACGCTGTTCCTGCGCGCAGCCCCGGGGGAGACAGTGTTCAAGGCTGTGCTGGCGCAGTTCTTCGACGGCCTGCCCGACGACGCCACCGATTCGCTGCTCCGTTCGGACGAACAGTAA	MADPFNLERFVAAQDSGGTYEQALSELQLGKKTGHWMWFIFPQLAGLGHSEMSQRYAIGSLAEARAYLEHSVLGPRLLDCAQALTDFADRTPEEILGAIDARKLHSSMTLFLRAAPGETVFKAVLAQFFDGLPDDATDSLLRSDEQ				NA	NA	NA	NA	NA
D1-29_02795	420			hypothetical protein	ATGAGCGATCCAGCCGAATTCATCGACGCGGCCCTGCAGCGTGAGGGTTCCTGGCGGCGGGCGGAGGAGGCCAGGGCCCGGTGGGGCAGCGCTGTGCAATCCTACGGCTCATCTGTCGGCGCTGTCCGGGGGACTGTGCGCGACGCCCTCAGGCGCTATCCGGATCTGCAGCACGACGACGTCACTGCCCTGAGCTCGGAACTTTGGGCGGTCCCGGTGTTCGAACGCCGTCTCGCGGCAGTGGTCCTGCTGCAAACCAAGGTCCGGCTGTTGAGGAATTCCGACCTGACCAGGATCGAAGGCTTCTTCCGATCCGCTCGGCTGGAGGCTTTGGTGGACCCGCTGGCCGTGGACGTTGTTGGGCCGCTGCTTGCCAACCTGGCCGCGGCGGGAACAGGCCCGCGGCCAAGCCGTCGTTGA	MSDPAEFIDAALQREGSWRRAEEARARWGSAVQSYGSSVGAVRGTVRDALRRYPDLQHDDVTALSSELWAVPVFERRLAAVVLLQTKVRLLRNSDLTRIEGFFRSARLEALVDPLAVDVVGPLLANLAAAGTGPRPSRR				NA	NA	NA	NA	NA
D1-29_02796	363	dksA		RNA polymerase-binding transcription factor DksA	ATGGTGGATTTTGAACGGTTTCGGATCCTGCTGGAGGAGGAGCGGGAGCGCAAGCTGGCGCTGCTTCCGGCCCTCCGCGCGGATATCACTTCGGCCAACGCAGCCCGGCAGGACTCCAACGTGGATGACGAACATGACCCCGAAGGGGCAACCATCGCGTTTGAACTTTCCCAGGCCTCGGCGCTGCTGAAGCAGAGCAGCGCCGGGCTGGCCGAGATCGAAGCTGCCCTGGAAAGGATTGCCCAGGGCAGTTACGGAACATGTGCCGTCTGTGGAGAACCGATAGCAGAGGGCCGGCTGGAGGCCCGTCCCTGGACTGCTGTGTGTATCGCCCACGCGAGCGGCAAGCGGACGGCGGGATGA	MVDFERFRILLEEERERKLALLPALRADITSANAARQDSNVDDEHDPEGATIAFELSQASALLKQSSAGLAEIEAALERIAQGSYGTCAVCGEPIAEGRLEARPWTAVCIAHASGKRTAG	PGPT0014560_3231	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
D1-29_02797	387			hypothetical protein	ATGCCTGCCAATGTGGTCACGCAACTGGAAGTCAAATCCCACAATTCACCCGACGAAAAGAGGCGTCCGGACAAGACAGAAGTGGATGTTGTGACGGTCGGAGACTACACGCTGGGGCGGTTCACGTTCCCGCCGGGCTGGCGATGGTCTGAGTGCATCAAGCCCGTTGTTCACACGGAATCCTGCCAGAACAGCCATGTGGGTTTCTGCGTTTCCGGGGACCTTGTGGTCGAAACCACGGACGGCAACCGCATCAACATCAGTGCCGGTGATTCATACACCATTCCACCCGGCCACGATTCCTGGGTTGAAGGCGACCAGGACTTTGTTGCAGTTGAATTTATGAGCGCCGCCGAATTCGCCAAGGCACCCGTGGACTCCGCCTAG	MPANVVTQLEVKSHNSPDEKRRPDKTEVDVVTVGDYTLGRFTFPPGWRWSECIKPVVHTESCQNSHVGFCVSGDLVVETTDGNRINISAGDSYTIPPGHDSWVEGDQDFVAVEFMSAAEFAKAPVDSA				NA	NA	NA	NA	NA
D1-29_02798	1311			hypothetical protein	ATGTCCCGGTTTGGTAGAAAGGTGAAGCGCCGCGCTGTTGCCGGCGTGCTGGCATTTGCCCTGGTGAGCTCACTTTCACTGCTGCCTGCCCATGCCGACAACCACGTTCCGCCGGACGGATATCCCTCCTGGCAGGACGTGCAGAATGCCAAGCAGAGCGAAGCCGGCAAGGCCGCCGAGATCTCCAGGATTGGCGACCTGCTGGGCGGCTTGCAGAGCCAGGCAGAGGCTCTGGGTGCTGCCGCCGTCACCTCAGCGGCGGATTACGCTGTAGCCGAGGCTGCGCTTTCGGCAGCCACGTCACGAATGGATGTCCTGACGACACAAACCGATCAGGCAAACTCAGAACTCGGCCAGTACAAGAAGGAAATCGGAGCCCTGGCCGTACAGTCCTACAAGACCGGCGGAACCAACATGGGCTTCTTCGTGGCCCTGGACGCGCTGCAGACCAACAGCATCCACGGCCTGAACATCGTTCAGATCGTGGGTGATAAGACGGCAGCCCTTGTGAACAAAGCAGCAGCCGCAGAGAAGTCCTCCCGTGCGCTGTCCGAGCAGCAGCAGACAGCCAAAGCCGAGCGTGAACGGTTGGCGGACGGGGCAAAGGTCAAGCTGGCGGCGGCGCAGGCAGCCCAGCAGGCCATGACCGTGCAAATTGCTGAACAGCAACAGAACAGCCAGGAACTGACGGCGCAGTTGGCCTCCCTCAAAGGAACAACGGCGGCGGTGGAAGGCGAATACCGCCAGGGCCAGGCAGCGCTTGCCGCCTATGAGGCAGCCCAGGCGGCAAAGCGTGCCGCGGCGGAGGAGCAGGCGCGCCGCCAGGCTGAGGATACGGCGAAAGCCGCAGCCCGCGCTGCCGCCCAGCGTCCTGCTAATCCCGGACCCCCTCCTGCCGGTCCAGCGGCTCCCGCGCCTGCCGCCCCGGCCCCGGCGCCGCCGCCAAGCCAAACACCGGCCCCGCCGCCCGTCGTCGTGCCTTCCGTTCCGGGCGGCGCCGTTAACGATCCGGCCGGAGCCAAGAGCTATGCCTCCTCAAGGCTGGGGGCCTATGGCTGGGGCCAGGATCAGTTTCAGTGCCTGGAGCGGCTGTGGACGAAGGAATCCAACTGGCTGACAACGGCTACCAACCCGTATTCAGGTGCCTATGGCATTGCCCAGGCGTTGCCGCCCGGAAAGTATGCAACTGCCGGGAGCGACTGGCTCACGAGTTACAGGACGCAGGTGGAGTGGGGGCTGAAGTATATTGCTGACCGTTATGGTTCACCGTGCGGCGCCTGGAACCACTCGGTGGCTTACAACTGGTACTGA	MSRFGRKVKRRAVAGVLAFALVSSLSLLPAHADNHVPPDGYPSWQDVQNAKQSEAGKAAEISRIGDLLGGLQSQAEALGAAAVTSAADYAVAEAALSAATSRMDVLTTQTDQANSELGQYKKEIGALAVQSYKTGGTNMGFFVALDALQTNSIHGLNIVQIVGDKTAALVNKAAAAEKSSRALSEQQQTAKAERERLADGAKVKLAAAQAAQQAMTVQIAEQQQNSQELTAQLASLKGTTAAVEGEYRQGQAALAAYEAAQAAKRAAAEEQARRQAEDTAKAAARAAAQRPANPGPPPAGPAAPAPAAPAPAPPPSQTPAPPPVVVPSVPGGAVNDPAGAKSYASSRLGAYGWGQDQFQCLERLWTKESNWLTTATNPYSGAYGIAQALPPGKYATAGSDWLTSYRTQVEWGLKYIADRYGSPCGAWNHSVAYNWY	PGPT0023995_760	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
D1-29_02800	825			hypothetical protein	GTGTCAAAAAACTCCACCACCGCCCGTCATCGCGCGACCCCCAGCCGATCAATTGCACTCGAAGGCTTGTCAGCCACTGCCAAGTCAAATGCCATGAACATTGGAAGGTCCGGCCTGGTAGTTGCTGCCGCGTCTGGCCTCCTGTTCGGCATCGGGGCACCTGCCCAGGCCGGAACCCACGCACCAGATAACTCAGGCACTGCCAATGCTCAGGTCCAAGCACAGGCCGCAGCACCGGCCCCTGCGGCTGCGGCCCCGGCAGCAGCTGCAGCCAAGGTCCACACAGTCGTTTCCGGCGACACCCTTGGTGCAATTTCCGCCCGTTACGGAGTAAGCCTTAACTCGGTCTTCTCGGCTAACGGCATGTCCATGGCAACCATCATCTACCCGGGCAACCAGATCAAGATCCCCGGCGCCGGAACGGCTGCGCCCGCACCGGCACCTGCCCCGGCACCCGCCCCCGCCGTCCGCGTTGCGGCAGCTTCGGCACCGGCACCCGCTCCCCTGGCTGCTTCCGGCTCCAAGGGCGCTGCCATCCTGGCTTCCGCCTACTCCCAACTGGGTGTGACCCAGGACTGCACCGCCATGGTGGAGAAGGCACTGCGCTCCGTTGGCAAGAGTGTGGGCGACCTGGCCCCGGGTCAGTTCTTCCAGTACGGCAGCGTTGTGGGCACCCCCGCACCGGGTGACCTGGTCATCACTGCGGGCCACGTAGGTGTCTTCGCCGGCAACGGCCAGGTCGTCAGTGGTGGCGTGGACGGTTACAAGACCGAGGTCCACTCCCTCAGCTGGCTCTCCGGCGCTTCGTTCGTCCGAGTCGCGTAA	MSKNSTTARHRATPSRSIALEGLSATAKSNAMNIGRSGLVVAAASGLLFGIGAPAQAGTHAPDNSGTANAQVQAQAAAPAPAAAAPAAAAAKVHTVVSGDTLGAISARYGVSLNSVFSANGMSMATIIYPGNQIKIPGAGTAAPAPAPAPAPAPAVRVAAASAPAPAPLAASGSKGAAILASAYSQLGVTQDCTAMVEKALRSVGKSVGDLAPGQFFQYGSVVGTPAPGDLVITAGHVGVFAGNGQVVSGGVDGYKTEVHSLSWLSGASFVRVA	PGPT0023995_3268	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
D1-29_02801	1029			hypothetical protein	ATGATTGAACTTGGCAAGTTTGAGAGGTACCTGATCGAGGAATTCTTCGACGATTACCGAGCCGGGGCCATGACCCAACGAACGTTCACGCGGCGGGTGGCGTTCATTACGGGAAGCATGGCGGCGGCGTCCACTGCGATGCTGCTGGTCGGCTGCACCCCTGACGAGGTGCCGCGCAGCACCGACCCCATGCCGAGTCCCGAAGCGGCGACGCCGCCCCCCGAAGGGACCAGTACAGGGACGAGCACAGGGACCAGTGCAGCAACCGGAACTGGGTCAGCTGCGGCCGCGGAAGGTGCAGTACCCGGGGCGAAGAGCCCGCTGTCTGTTCCGGAGGGAGCACCGGGATTAACCACGGCGACTGTACGGTTCTCCTCCGGCGGTGCCGAAATCAGTGCCTATCTTGCCCGGCCGGAGTCGGGTGAAGCCGGACCGGCAGTGCTTATCTGCCATGAAAACCGCGGGCTGGTGCCGCATATCCAGGACGTGGCGCGCCGTTTTGCGCGGGAGGGCTATGCCGCCTTGGCCCCGGACCTCCTAAGCCGGGAGGGAGGGACTGCGAGCCTGAACGCGGATGCGGTTCCCGGCGCGCTGACGCGGGCCGGCGCCCAACGGCATGTGGCAGACTTCGCGTCGGCTTTCAGCTACCTGCAGTCCCAGGACTTCGTGGACCCTGGGCGGATCGCCATGAACGGTTATTGCTTTGGTGGCGGGATCACCTGGCAGGGGGCGACGGAGTTGCAAGGGCTGAAGGCCACCGCAGCCTTTTATGGACCTGCTCCTGATCTGGACAGGGTGTCCGCGATCAGGGCTGCGGTCTTTGGTGTGTACGCCGAACGTGATCAAAGGATCACCGGTGCCATGCCGGCTCTGAGGGACGCCCTGGAATCCCATAACATCCGCCACCAGCTAACCGTCTATCCGGGCGTCGACCATGCGTTCCACAACGATACGGGGAACCGCTACGACCAGGCGCAGGCTTCGGCGGCCTGGAACGACACACTGGCTTGGTTCCGCCAGCACGTCTGA	MIELGKFERYLIEEFFDDYRAGAMTQRTFTRRVAFITGSMAAASTAMLLVGCTPDEVPRSTDPMPSPEAATPPPEGTSTGTSTGTSAATGTGSAAAAEGAVPGAKSPLSVPEGAPGLTTATVRFSSGGAEISAYLARPESGEAGPAVLICHENRGLVPHIQDVARRFAREGYAALAPDLLSREGGTASLNADAVPGALTRAGAQRHVADFASAFSYLQSQDFVDPGRIAMNGYCFGGGITWQGATELQGLKATAAFYGPAPDLDRVSAIRAAVFGVYAERDQRITGAMPALRDALESHNIRHQLTVYPGVDHAFHNDTGNRYDQAQASAAWNDTLAWFRQHV	PGPT0005685_312	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_CHLOROBENZENE_DEGRADATION,PGPT0005685-catA-K01061	NA	NA
D1-29_02802	474			hypothetical protein	ATGGACGAAGCAGACGCATTCCTGGCAGCGGTAATGCCGGCCCTCACAGCAGCCGATACAGCCATGCACAACGGCGATGCCGGACCCCGCACCGCCCTTTGGTCCCGTACCGATCCAGTGACACTTTTCGGTGCCGCCCGGACAGTTACCGGTGCAGACGAGGTGATCCCCTTCTTCGAGGTCCTGGCCGGCCGCTTTTCAAACTGCACCTCTTTCGAATACGAGGTCACGGCCGCCGAGGTCAGCGGGGACCTGGCGTATGTCGTGGGCATCGAGCACACCACAGCATCGGTGGCAGGGGCGAACCCGCTTCCCTACTCCCTGCGGGTCACAACAATCTTCAGGCGGGAGGACGGCAAGTGGAAGGTCGTGCATCGTCACGGGGACGCCTTGCCGGAAGGCGATGTTGAACTGACGCGCACCCAGCTGGGACGCCTTAAAGTGGCAGACACGACGCCGGACAGCGCCGGATAG	MDEADAFLAAVMPALTAADTAMHNGDAGPRTALWSRTDPVTLFGAARTVTGADEVIPFFEVLAGRFSNCTSFEYEVTAAEVSGDLAYVVGIEHTTASVAGANPLPYSLRVTTIFRREDGKWKVVHRHGDALPEGDVELTRTQLGRLKVADTTPDSAG				NA	NA	NA	NA	NA
D1-29_02803	1401	selO	COG0397	Protein adenylyltransferase SelO	ATGGCCATTCCCTGGCGGGCCGAGGAGGCTCCTGACCCGCGCCTTCTTGTCCTTAACGGGCCGCTCGCAACAGAGTTGGGCCTCGATCCTGCTTTCCTGGAAACCCCGGAAGGGCTTCTTCTGCTGATTGGAAACCGTGTCCCTGCGGGTGCCACGCCGGTGGCGCAGGCCTATGCAGGCCATCAGTTCGGCTGGTATGCCCCGCGCCTGGGTGACGGGCGGGCCCTTCTGCTCGGTGAAGTGGCGCACCCGGACGGCCGGCTCCGCGACCTCCACCTCAAAGGCTCCGGGCGCACACCGTTCGCACGCGGCGGTGACGGCCTCGCCGTCGTCGGGCCCATGCTGCGTGAGTACATCGTGAGCGAAGCTATGCACGCCCTGGGCATCCCCACCACCAGATCCCTCGCCGTGGTGGCAACCGGCCGGCCGGTCCAGCGGGAAACCGTGCTGCCGGGAGCCGTGCTGGCGCGGGTGGCCAGCAGCCATCTGCGCGTCGGCAGCTTCCAGTACGCCCGGGCCGCGGATGACATCGGCCTCCTGCGCCGCCTCGCCGATCACGCAATCAGCCGCCATCACCCGGCCGCTGCTGAGGCTGAGAATCCCTACCTTGCACTGCTTCAGGCGGTCATCGCAGCCCAGGCCTCGCTGATGGCGCAGTGGATGCTGGTGGGCTTTGTCCACGGTGTGATGAATACGGACAATATGACCATTTCCGGCGAGACCATAGACTACGGCCCGTGCGCCTTCCTGGATGCGTTCAACCCGGCCGCCGTCTACAGCTCCATCGACGAGGGCGGCCGTTACGCCTACCGCAACCAGCCGCTGGTGGCTGAGTGGAACCTTTCCCGGCTCGCCGAAACGCTCCTCCCGCTTATCCACAAGGACCAGGAGGAGGCGGTGGCGCTTGCTGTTGAAGCTCTGGAAGCCTTCCGCGGGCAGTACAGTGCAGCCTGGTCTGCAGGCATGAGGGAGAAGCTGGGACTGCACCACAACGCCGACGACGACGCCGCCTCACCTCTCGTCGATGAGCTGCTGGCGCTCCTCCAGGAAAGTCCGGTGGATTACACCTTGTTCTTCCGTAACCTTGCGATGGCAGCCCGCGGCCAGGCAGAGCCCGCGCGGCGAATGATCCTGGACCTGGCGGCGTTCGATGCGTGGACGGAGCGCTGGCGCGCCTTGAACCCCGACGCCGACCTCATGGACCGGGTTAATCCCGCCTACATCCCGCGCAACCACCTCGTGGAGGAGGCCCTGGCCGCCGCTACAGACGGGGACCTGGATCCGTTCAGGCGGCTTCTTGGCGCAGTGACCTCACCCTACGAAGAGCGCCCCGGCCTGGAGCGCTATGCTGCAGGCGCGCCGGAAGACTTCGGCCCCTACCGGACCTTCTGCGGCACCTGA	MAIPWRAEEAPDPRLLVLNGPLATELGLDPAFLETPEGLLLLIGNRVPAGATPVAQAYAGHQFGWYAPRLGDGRALLLGEVAHPDGRLRDLHLKGSGRTPFARGGDGLAVVGPMLREYIVSEAMHALGIPTTRSLAVVATGRPVQRETVLPGAVLARVASSHLRVGSFQYARAADDIGLLRRLADHAISRHHPAAAEAENPYLALLQAVIAAQASLMAQWMLVGFVHGVMNTDNMTISGETIDYGPCAFLDAFNPAAVYSSIDEGGRYAYRNQPLVAEWNLSRLAETLLPLIHKDQEEAVALAVEALEAFRGQYSAAWSAGMREKLGLHHNADDDAASPLVDELLALLQESPVDYTLFFRNLAMAARGQAEPARRMILDLAAFDAWTERWRALNPDADLMDRVNPAYIPRNHLVEEALAAATDGDLDPFRRLLGAVTSPYEERPGLERYAAGAPEDFGPYRTFCGT				NA	NA	NA	NA	NA
D1-29_02804	1146	oatA		O-acetyltransferase OatA	GTGACCTTACTTATCGATAGACCCGCGGCAGTGGCTGCTCCACGAACCACGGTGCTGCCCCGGCTCGATGGCCTGGACGTTCTTCGCGGTGCCGCGGTTGGTGCCGTACTTTTGGGGCATTCCTGGCCCGGATTATTCCAGGGTGCCGGCATAGTCGGCGTCATTGCCTTCTTCGTATTGAGCGGTTACCTGATCACCGGCGTGCTGCTTAACGACGTGGAGAGGCATCGCAGGATCCGGTACGGACGCTTTTACGCCCACCGCGCCTTCCGGCTGCTCCCGGCCCTGGTGGCTTTCCTGGGCGTCTACGCCGTGGTGGAGTTGACTGCAGATGTCCTCGGGGACAGGTCAAAGGGAATCATTGGCTATACCCTGCTGGCAGGTTTCGGTTACCTGAAGGACCTGCCGTTGCCCTTCGATGTCAGCATGGCCATCGGACCGCTCTGGACCTTGGCGGTGGAAGAACAGTTCTACCTGATTTGGCCGGCGCTGCTGCTCTTCGCGATGCGGCGCCACCGCCAGGGAAGGCTGCTGGGCTGGTCTGCCGCCGTCGTCCTGTTGCTCATGACCGCGAGTGTGCTGGCGATGCTGATCCTCGCCCCGCAACTTCACTCCCTGGTCTATGCCCTGCCCACGACGTGGGGCCTGGGGCTGATCGTAGGGTCCGGCGTGCGGCTGTACCGTGTCCATGTATTCGGCTGGTTCTCCGGCCACCGTCTCCGGCAGGCGGCGCTGCTGAGCTCAGTTCTTGTCCTGGCCACGCTGATTTTCGTCCCGAAAGCCAACGAGTCGCCGGCCTTCTTCTTCCTTGGCGGGCCGCTGGCCATGGCCGCCGCCGCCATCCTGGTGGTGCTGGCAGCCTCGCGAACACAGATGATGCCGGTGTGGACCCGCGCGTTGCAGGCCCTGGGCACAATTTCGTACTCCGCGTACCTCTGGAACTACATCGTCATTCTCTGGCTCAACGGCGGCTCGACGGCGGATCTGCCGCCACTGGTGGCGGTGTCGGCCATCCTGCTGACCCTCCTGGTGGCGTTTATCAGCTGGCACACCGTTGAGAGGCTGGGACGGATGGCCCGGGCCCGCTTTGACAGCTACTACGAGGAACGATGGAACAGCTCGCATGCCGCTGAAATGCGGGGATGA	MTLLIDRPAAVAAPRTTVLPRLDGLDVLRGAAVGAVLLGHSWPGLFQGAGIVGVIAFFVLSGYLITGVLLNDVERHRRIRYGRFYAHRAFRLLPALVAFLGVYAVVELTADVLGDRSKGIIGYTLLAGFGYLKDLPLPFDVSMAIGPLWTLAVEEQFYLIWPALLLFAMRRHRQGRLLGWSAAVVLLLMTASVLAMLILAPQLHSLVYALPTTWGLGLIVGSGVRLYRVHVFGWFSGHRLRQAALLSSVLVLATLIFVPKANESPAFFFLGGPLAMAAAAILVVLAASRTQMMPVWTRALQALGTISYSAYLWNYIVILWLNGGSTADLPPLVAVSAILLTLLVAFISWHTVERLGRMARARFDSYYEERWNSSHAAEMRG				NA	NA	NA	NA	NA
D1-29_02806	1425			hypothetical protein	ATGTCCCGTTCGCTGGATCAGTCGCGCCCTTTTCGGGCCGGGCGACACCGCGCAGACGCTGCGCACGCCATCACCACTCCACTCACCCCAACGAGTTCCCAAGCGGAAAAGCCAGACGCCGGGTCCTCCCCCGCGGGACCGGCATCCGGGGCACTGCGACGAAGCAGGGACAGGCGCCCGGCCTTCGAGGTGCCGCCCACGCCGGAATCGGCACCGGAATCGGTACAGCCCTCAGCACAGGAATCAGCACCCCCAGCAGCGCCCAGGGTGGAGGCAGCACCTCCGGCAACCGAAGCATTTCCCGTCGTAGTGTCCGCGAGTCCCGTTCCGGAAAGCGGACTCACTGCGGCACCCGCAGCCATGGCTGCACCGCCGGCCACTGCTGCTCCCACGGCTGCTCCCACGACGCTCCGGCGTGGGAGGGCCCGACGCGAGGGTACTGGGAAGCCCGAGGACGTTGCATCTGGTGCAGCCGCTAAGGACGGGTCGGCCCCGGCACTGACCCCGCAGAGAGCTGCCGCCTTCAGTTCCGATCCCCAGGCCATCCTGAGGAAAGCTGCTTCGGTTCGGGTTATGGGCCACCGGATGGCAGTCGTTACCGGCGCCCTGGCCGTGGTGCTTGCCGTTGGTACGGCCAGCCAAGCCACCGAACTGCCCTTTTTCGGCAAGGAGGCGTCCGCCCAGGATGCCCCGGCTGGAAAGGACGCAACCCGAGCCACCATGGGATCGCGGCCTACTTACGTGAACGGACGCACCACCCATGCGCCGAGCAGCTCCACTCCCCCAGGCATAGCGGGCACTGGGCCCGCGAAGACTACCCCCGGCACGGATGATGTTCCGGCGGCCGGCGATTCTCTCGCCTCCTCGCTGCCAACCGTCGCCGACCTTCCCATGCCGGTTGACGCGCCCACCCTGGCGGGCATTGCAGCTGCTTCCCCCGCCGCAGTTCCACCGTCAGCAGGCCCGTCCGTGAACCTTCAGCCCCCGGCCATGGCACCGACGACCCCCGCCGCACCACCGGCAGCGCAGGCGCCGGCGGGCACACCGGCCCCGGCGACGACTGCACTACCCGCATCACCGGCGCCAGCCCCGGCAGTTCCAGCACCCGCCACACCGGCTCCGGCCACCACCGCTGCACCCGCCCCAACGACGGCATCTGCGGCTCCCTCCCCGACTGCAACCGCCGTGCCATCCGCAGCCGATGACGGCGCGGCAGAAGAAGCAGTGGACACCCGCTCCTACGCCAGCGGCCGCCTGGCATCGTATGGGTGGGGTCCGGAACAGATGAATGCCCTCAATACCCTCTGGGACACGTCAACCAAGTGGCGGCCAAGCCAGGTGGACAGAGGCTTGAGCTACATCAAACAGCGCCACGGCTCTCCCGCAAAAGCCCTTGAGTTCCGCGCCGCCAACAACTGGTACTGA	MSRSLDQSRPFRAGRHRADAAHAITTPLTPTSSQAEKPDAGSSPAGPASGALRRSRDRRPAFEVPPTPESAPESVQPSAQESAPPAAPRVEAAPPATEAFPVVVSASPVPESGLTAAPAAMAAPPATAAPTAAPTTLRRGRARREGTGKPEDVASGAAAKDGSAPALTPQRAAAFSSDPQAILRKAASVRVMGHRMAVVTGALAVVLAVGTASQATELPFFGKEASAQDAPAGKDATRATMGSRPTYVNGRTTHAPSSSTPPGIAGTGPAKTTPGTDDVPAAGDSLASSLPTVADLPMPVDAPTLAGIAAASPAAVPPSAGPSVNLQPPAMAPTTPAAPPAAQAPAGTPAPATTALPASPAPAPAVPAPATPAPATTAAPAPTTASAAPSPTATAVPSAADDGAAEEAVDTRSYASGRLASYGWGPEQMNALNTLWDTSTKWRPSQVDRGLSYIKQRHGSPAKALEFRAANNWY				NA	NA	NA	NA	NA
D1-29_02807	738			hypothetical protein	ATGGCTGAACACCGTCCTTCGGACCCCGCACTCTTCCCGGTCACTGTCGACGTCGTCGCCCTCACCGTGGCCGATAACACGCTCAAGGTCCTGCTTATTACCCGGCTTATTGAGCCCTTCCGCGGCAGGCTCGCCTTCCCTGGCGGCTTTGTGCTTGCCGGTGAGGATCTGCCAACCGCAGCCGCCCGCGAATTGGCGGAGGAAACAGGCGTCGAACAGGTCCCTGGGCATTTGGAACAGCTGGGGAGCTACGGGCCCAAGGGGCGCGACCCCCGGGGTGATGTGCTAACAGTGGCTCATTTACTGCTCGCTCCGAACTTCCCGGTGCTGTCTGCCGGAAGCGACGCCGAGCATGCGGCTTGGTATCCTGTCAGCCGCGTCCTGGACGGCGACCTGAAGCTGGCCTTCGACCATGAACGAATCCTCGCTGACGCCGTAGAACGGGCCAAGTCAAAGCTCGAATACTCACCGTTGGCGGCCGTCTTTTGCGGTGAAGAATTCACCGTCGCCCAGCTGAGGGCCGTTTATGAGGCCGTGTGGGGCAGCCGGCTGGATCCCAGGAACTTCCATCGCAAAGCCACGGGGACGCCTGGTTTTCTGGAGGATACCGGGCGGATGACCACGGGCGACGCCGGCCGTCCTGCTGCGCTTTTCCGTCTGGCCGCGCCGTCCCGGCCAGCTGCAGGGCAGCCAACGCGCGCCGTTCTCAACCCGCCCCTCATGCGGCCGCGTGACTGA	MAEHRPSDPALFPVTVDVVALTVADNTLKVLLITRLIEPFRGRLAFPGGFVLAGEDLPTAAARELAEETGVEQVPGHLEQLGSYGPKGRDPRGDVLTVAHLLLAPNFPVLSAGSDAEHAAWYPVSRVLDGDLKLAFDHERILADAVERAKSKLEYSPLAAVFCGEEFTVAQLRAVYEAVWGSRLDPRNFHRKATGTPGFLEDTGRMTTGDAGRPAALFRLAAPSRPAAGQPTRAVLNPPLMRPRD				NA	NA	NA	NA	NA
D1-29_02808	1071			hypothetical protein	ATGGCCCACATCAAGCGCTACCCCTGGATCAACCATTTCCTTGGCAGCCCCACCGGCTACGTTGTCCACCTTCAGAAGGGCTCCGTCCGGCACCAGGGAGTCGGGCAGGCTTTCTGGTACCGGCCCGCGAACTCCGTACTGAGCGAGATTCCCGTCGATGATCAGGAACTGCCCACCCTCTTCCACGCCATTACCCGGGACCACCAGGACGTCAGCATTCAGGCGAACGTGACCTACCGCTTCATAGATCCGGTGGCTGTGTCCAGCCGGCTCGACTTCGGCCTGCAGCCAGCTGGCGCTGGGCTGGCTACCGGGAGGGAACAGGTGGCCACCATCATCGGCCAGCTGTGTCAAAGCCACGCCATCGACCAGATTGCCACCACCACGCTCGCGGAGGCCCTGGAGCGTGGGGTCAGCCAACTGCGCACGGTGCTTTCCGAGGCCCTGCGGGCGGACACCCGGCTCCTGTCCACCGGCATCGAAATCCTTGGAGTCCAGGTTCTGGCGGTCAGGCCCGAGTCGGACGTCGAAAGAGCGCTTCAGACGCCAGTCCGCGAACAGCTCCAAGCGGAAGCAGACCGCGCCGTCTACGAACGCCGCGCTGTCGCCGTCGAACGTGAACGGACCATTTCCGAGAACGAGATGGCCAGCCAGATCGAACTGGCCATCCGCCGGGAGCACCTGGTGGCCCAGGAAGGCGCCAATGCCCGGCGTGCGGCAGAGGAAAAGGCTGCGGCAGGACTGATAGACACGCACGCTTTGGCCGAGCGGCAAGGCATCAGCGCAGACGCGGAAGCAAACCAGATCCGGCTAGTGGGCGATGCAGCCGCGGCCCGTGAGGCCGCCACTATGGAGGTTTACCGGGGCATGGAGCAGGCTACGCTGCTGGCTTTGGCACTGCGGGAGGCGGCGGGATCGCTGCCGAACATCGGCAATCTCACCATCACTCCGGATTTGCTGAGCGGTGCGCTGGCCGGGCTTTTCCGGGAACCAGCCGGCGGCCCCGCCCCTGTTGCTGCAGGCCCTCTGGCCGCTGGCAGCGCCGGTAGCACCCGCAGCACCCGCAAGTAG	MAHIKRYPWINHFLGSPTGYVVHLQKGSVRHQGVGQAFWYRPANSVLSEIPVDDQELPTLFHAITRDHQDVSIQANVTYRFIDPVAVSSRLDFGLQPAGAGLATGREQVATIIGQLCQSHAIDQIATTTLAEALERGVSQLRTVLSEALRADTRLLSTGIEILGVQVLAVRPESDVERALQTPVREQLQAEADRAVYERRAVAVERERTISENEMASQIELAIRREHLVAQEGANARRAAEEKAAAGLIDTHALAERQGISADAEANQIRLVGDAAAAREAATMEVYRGMEQATLLALALREAAGSLPNIGNLTITPDLLSGALAGLFREPAGGPAPVAAGPLAAGSAGSTRSTRK				NA	NA	NA	NA	NA
D1-29_02809	897	nadK		NAD kinase	ATGGCAAAACCGCGTTTAGTCATCGTCCACCGGCGGACCGAGCTCCAGGAACTTCTGGATCGGCACGCCACCCGGGGCCAGGCAGAATTCTTCCTCCGCACCCGGGGCCGCAGCCTGCAGGATGTCCAGGAGCGCCACGATCGGATCACCGCAGCCCTGGCCACGGTAAGGGCCGCGATTCCATCGGAGTGGCGCCAAGCCGAGGTAGAGCGCTCGGACCTGAGCCGGTTCCTGCTGACGCCGGAAGACATCGTCGCCGTGGTGGGTCAGGACGGACTGGTGGCAAACGCGGCGAAGTACCTCAACGGCCAGCCAGTCATCGGCATTGATCCCGAGCCGGGAGCAAATCCCGGCATCCTGGTCCGGCACACGCCGGCTGCAGCGGCAAAGCTGCTGAACAAAGCTGCCAGAGCGGACCCGGTGCCATGGAACTGTGCCGAACTCGCCACCGTGACAGCAGTCCTCGACGACGGGCAGGAACTCTCAGCCCTGAACGAGGTCTTCATCGGGCACGCCTCCCACCAGTCGGCCCGGTACCAACTCACCACCCATCACGGCCAGACGGAACGGCAGTCCTCGTCCGGGCTGATTGTCTCCACCGGCACAGGCGCCACCGGATGGTGCGCATCCATCGCCGTCGAGCGTGGAGGACGTGCCCTGCCGGCTCCTACGGACCCCCGGCTCGCGTGGTTCGTGCGCGAGGCCTGGCCCTCCCCCATCAGTGGCACGTCGCTGACCGAGGGTGTGCTGCAGGCCGGCGAAGCTCTCCGGATTACCGTGGCGTCCGATCAGCTTGTGGTGTTCGGCGACGGCATGGAAGATGACCGCCTCAGCGCTTCATGGGGGCAGGAAATCACAGTCCGCCTAGGCGAAAGGCCGCTACGGCTTGTGGGTTAA	MAKPRLVIVHRRTELQELLDRHATRGQAEFFLRTRGRSLQDVQERHDRITAALATVRAAIPSEWRQAEVERSDLSRFLLTPEDIVAVVGQDGLVANAAKYLNGQPVIGIDPEPGANPGILVRHTPAAAAKLLNKAARADPVPWNCAELATVTAVLDDGQELSALNEVFIGHASHQSARYQLTTHHGQTERQSSSGLIVSTGTGATGWCASIAVERGGRALPAPTDPRLAWFVREAWPSPISGTSLTEGVLQAGEALRITVASDQLVVFGDGMEDDRLSASWGQEITVRLGERPLRLVG				NA	NA	NA	NA	NA
D1-29_02810	822			hypothetical protein	ATGACTGAAAACCCGCAACCAAAGCTTCTGCGCGGGCGGATTCCCGCGCAGGCCGTGATCGAGGAACTACTGGACCAGCAGGGTCACGTACCGCCCCGCACCACTCTGCAGCGGATCTTTGGCGCCAGTCCGCTCAGCCCGGACACCTGGCCCTGGTACAAGGGAGCGCTGGGAGAAATCGCCGTCGGAAAGATTCTCGAACGGCTGGGTCGGGAGTGGCTGGTTCTGCATGCCGTCCCCGTAGGAACGGGTTCCTCGGACATCGACCACATTCTCGTGGGTCCGGCAGGGGTCTTTACCGTCAACACAAAAAACCACTCCGGCCAGTCCGTTTGGGTGGCCGGGCGGACCTTCATGGTGGCAGGCCAGAAGACGCGGCACCTCTATAACGCGGAGCATGAAGCCGAGCGCGCGTCCAGGCTGCTCAGCACTGCAGTGGGCACCGCCGTCGACGTCGTTGGAATTGTTGTGGTCGTGAACCCAAAGAGCCTGACCGTCAAAACGCGGCCGAAGCAGGTGGCCGTACTTACCGACACCCAGCTGCTGGGCTGGCTCAACCGGTGCAGGCGCGAGCTTCCCCCGGAAGAGGTGGCCCAGATAGCCTCCGCGGCAGTGCTGCCCGGGACGTGGCACCGGAAGCCCGCCCCGCAGGACGATCGGAGAGTTCTGGAACAGAACTTCGAGGCACTCCGGCAGCGAGTGAACCAGGCCCGACGGCGGCGGGCTGCCTGGGTGCTGGGCGTTCCGGCAGCCGGATTCGTGATGCTGGCCAACGGCACCCAGACGCTTTCAGCGATTCTGCATTCGCTGGGCGGACGGTAA	MTENPQPKLLRGRIPAQAVIEELLDQQGHVPPRTTLQRIFGASPLSPDTWPWYKGALGEIAVGKILERLGREWLVLHAVPVGTGSSDIDHILVGPAGVFTVNTKNHSGQSVWVAGRTFMVAGQKTRHLYNAEHEAERASRLLSTAVGTAVDVVGIVVVVNPKSLTVKTRPKQVAVLTDTQLLGWLNRCRRELPPEEVAQIASAAVLPGTWHRKPAPQDDRRVLEQNFEALRQRVNQARRRRAAWVLGVPAAGFVMLANGTQTLSAILHSLGGR				NA	NA	NA	NA	NA
D1-29_02811	1266			hypothetical protein	ATGACAAACCCATATCTGAAAGTCATCGCCGGGATCGACACACACGCCGACACCCATTACGTCGCAATCATCGACGAGACCGGCAGACACCTCATGGACAAAGAATTTCCCGCCGTTGGGTCCGGCTACCGGAATATTGTCGAGTTCATTACCGGGTTCGGCCCGGTGGTTGCCGCCGGAGTGGAAGGCACCGGCAGTTACGGCGCCGAACTCGCCCGTGTCCTGACCAGGGAGGGCTTCCGGGTTCTGGAAGTCATGCGCCCGAACCGGCAGGGACGCCGGCTGCGGGGCAAATCGGACGCTCTGGACGCCTACCAGGCGGCAGAAGCCGCGCTGGCCGGCCGGAACGTCGCAACACCCAAATCCCGGGACGGCACGGTGGAATCCCTGCGGGTCCTGCGCGCCGAACGGGCGACGGCCATGCGCGCCAGGGTAGCGGTCATGGCGCAGATCAAAAGCATCCTTACGGCTGCACCCGAGGCGTTACGGGCCAAATACCGGCGGCTGGCCCGCGCCCCGATGATGGCCGCCCTGGAGAAAACCCGGCCGGCCGGAAACATGTCTGACCCGTTGATCACCACCGCGGCCGTGCTTAAACGCCTCGCGATCCGTTACCGCGCCCTGGATCAGGAACTGGCGGTCATTGATGCCGAGTTAGACGCGATCGTGACAACCCACGCGCCGATGCTCCGTGACCTGCACGGGGTCGGCACCGACGTGGCAAGCCAGCTCCTGGTCACCGTGGGCGACAACCCCGGACGGATCGGCACCGAAGCGCAGTTCGCAGCCCTCGTGGGCGTCGCGCCGATCCCCGCGTCCTCGGGAAAGACCATGCGGCACCGGCTCAGCCGTGGCGGCGACCGGCGGGCCAACAAAGCCATCCACCACGTTGCCCTGGTACGGATGATGAGCGACACCCGCACCAAAAATTACGTCGCCAGACGCCGGGCCGAAGGGAAAAGCACCAAGGAAATCATCCGCTGCGTCAAACGCTACATCGCCCGCGAAGTCTACGATCAGCTGATCCATCCACAACCAGCACCAGACGCCGGAGCCCTCCGCACCCTACGCCAAACGAAGAACATCACCCTCCAGGCCGCCGCGGACAGCCTCCATGTCTGGCCCACAGCACTGTCCCGGCTCGAACGCGGACTCACCCGCCACGACGACTTCTACCAACACTACGAAACCTGGCTCAACTCTCAATCCCAAAAACCGCGAAGAGGCACCCGGGAGGTTGCAGGACTGACCGGGCAGTTTGCCTAG	MTNPYLKVIAGIDTHADTHYVAIIDETGRHLMDKEFPAVGSGYRNIVEFITGFGPVVAAGVEGTGSYGAELARVLTREGFRVLEVMRPNRQGRRLRGKSDALDAYQAAEAALAGRNVATPKSRDGTVESLRVLRAERATAMRARVAVMAQIKSILTAAPEALRAKYRRLARAPMMAALEKTRPAGNMSDPLITTAAVLKRLAIRYRALDQELAVIDAELDAIVTTHAPMLRDLHGVGTDVASQLLVTVGDNPGRIGTEAQFAALVGVAPIPASSGKTMRHRLSRGGDRRANKAIHHVALVRMMSDTRTKNYVARRRAEGKSTKEIIRCVKRYIAREVYDQLIHPQPAPDAGALRTLRQTKNITLQAAADSLHVWPTALSRLERGLTRHDDFYQHYETWLNSQSQKPRRGTREVAGLTGQFA	PGPT0030635_535	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
D1-29_02812	1110	yhcG_1	COG4804	Putative nuclease YhcG	ATGTCTTCCCCTGCGTCTTTCGAATCAACGCCAGCGGCTTCCGGAATGCCGGACTGGTACCCGGAGTTATTGCAGTCCGTTGCCCAGGAGATCAGCTCAGGCCGATACCGGGCAGTTTCGGCGGCCAACCAGGAGCTCGTGCACTCGTACTGGTCCGTTGGACGCGAGCTGCTGGAGCGTGAATCGAAAGAAGGCTGGGGTTCGAAGGTTGTCACCCGGCTGTCCGCGGACCTTCGGGCCAGGTTTCCTGACGCCCGCGGCTTCTCTCCCCGGAATCTTCGCTATATGAAGGCCTTTGCCAGCGCATGGCCGGACATCGCAATGTTGCAGATGGCGTCTGCAACATTGCCCTGGAGCCACCATGTGATGCTGCTGGAGAAGCTGGCCGTGCCTGAGGAAAGGCTCTGGTACATGGCCTGCGCCATAGAGGAAGGGTGGTCCCACAGCTTTCTGGGTCAGCAAATCGAAACGCGGCTGTATGAACGTTCCGGCAAGGCCATTACCAACTTTAAGTCAACGTTGCCGCCGTCGGACTCTCATCTGGCCCAGCAGTCGTTCAAGGACCCATACGTCTTTGACTTCGTCTCCATGACGGGCAACCGAAACGAACGCGAATTCGAGGGCCGACTTATTCTGCATGTGGAGAAATTCCTGCTGGAACTGGGCCAAGGCTTCGCGTTCGTGGGCCGGCAAGTGCGGCTGACCATTGGCGCCGACGAATTCTTCGCTGACCTGCTGTTCTACAACTTCAAGCTGCGTTGCTTCGTGGTGATCGAACTCAAAGCCACCGCATTCAAGCCCGAGTATCTGGGTCAGGTCAACATGTATATGTCGGCCGTTGATGATCTACTTGCACACGCCCAGGACCAGCCGACCATCGGGCTTTTGCTCTGCAAAACCAAGAACAATGTGGTGGCAGAGTATTCCCTGCGCGGCTTCTCCAAGCCCATTGGTATTGCCGAGTGGGAGTCCGAGATCGTGCGGGCTTTGTCTGAGGAGTTCACCGCAACACTGCCCAGCATCAGCGAACTTGAAGCGGAACTTTCGCAACAGCTATTGGGCGACGGCGGCTCCACGGTGGTCGCCCTGGGGGATGGAGCCCCAGCGTGA	MSSPASFESTPAASGMPDWYPELLQSVAQEISSGRYRAVSAANQELVHSYWSVGRELLERESKEGWGSKVVTRLSADLRARFPDARGFSPRNLRYMKAFASAWPDIAMLQMASATLPWSHHVMLLEKLAVPEERLWYMACAIEEGWSHSFLGQQIETRLYERSGKAITNFKSTLPPSDSHLAQQSFKDPYVFDFVSMTGNRNEREFEGRLILHVEKFLLELGQGFAFVGRQVRLTIGADEFFADLLFYNFKLRCFVVIELKATAFKPEYLGQVNMYMSAVDDLLAHAQDQPTIGLLLCKTKNNVVAEYSLRGFSKPIGIAEWESEIVRALSEEFTATLPSISELEAELSQQLLGDGGSTVVALGDGAPA				NA	NA	NA	NA	NA
D1-29_02813	648			hypothetical protein	ATGCTCGACGCTGAGGGACAATATTGGGGGACTATGCGAAGTGGAATCATCAGTGCGGCCGGTTTGATGTCGGCCGCGGCTATCCTCAGCGGGTGCTCAGGGCCGGTCGACGAGATGGGCTTTCAAGATGCTACGGCTGCGGAATCAAGCCTCTCGGCCCCCGCTGCTGCTGGCCCGGAGTCAAAGGCATACGCGGTAGCACCTGATGTGGATCCCTCTGCGGCCGAAGCCTGCGCTGCACTTAACGTGGGTCCCGAGGTTTATGCCGCTATCGGAAAATCCACCCTCAGCGCTGAAAGCACGACAAAGGACGTGGTCAAAGGCGTCGTCTGCTCCTTCGCCACGGTTGACCACTCCATGAGCACCCCGAACTCTCTCACAGTTGGTATGCGGAAAAACACGCGCAATTTATATAAGAAAATTGCTCCTGACTCCATCCCCGGCTGGACCAGGCGAGACATTCCCGGACTTGGCGACACGGCAAGGTTCTATGAATTCGGTCCTACCGCTGAGGACGCGAACCACATGCTGCACGTCCTCGAAGACAACCGGATAGTCGCTCTTACGGCAGTGTTCACCACCGCTCCCGACAGCGCCGACCTCTCGGCATCCCGCTATACGGCCATCGTCAAGAAAATCCTCGGCTAA	MLDAEGQYWGTMRSGIISAAGLMSAAAILSGCSGPVDEMGFQDATAAESSLSAPAAAGPESKAYAVAPDVDPSAAEACAALNVGPEVYAAIGKSTLSAESTTKDVVKGVVCSFATVDHSMSTPNSLTVGMRKNTRNLYKKIAPDSIPGWTRRDIPGLGDTARFYEFGPTAEDANHMLHVLEDNRIVALTAVFTTAPDSADLSASRYTAIVKKILG				NA	NA	NA	NA	NA
D1-29_02814	642			hypothetical protein	ATGGATAAACCTGCAGCTTCCCCGAAACGCGCGCCGGCCGACCGGCCACTGCTGGTTGCGGACCGTCCCTGGGCAAATCCGCCCTCTGTGGACCGTGTGTCTCATCACAAGCATGTTCCGGCCACCTCTGAAAAGTTGGCTGCAACAACTTCCGATCGGAGTGATGTTAGGGCTTACGGTACAAGCATGACTACTGATACCCCTAAGGCCACCGTCCGCCAACTCCGCCTCGTCGTGGAGGCCCAGGACTATGAAGAGGCCCTGATCTTCTATCGCGATGTACTGGGCCTCCCCGAGCAGGAAGCCTATGAAGGAGAGGGCGACGCGCGGGTCACAATACTTGATGCCGGGCGTGCCACCCTTGAGCTGTCCAACCCGGCCCAGGTAAAACTCATCGACCGGGTGGAAGCTGATGGCCAGCCCAGTGCCAGGCTCCGGGTGGCCTTCGAAGTGGAGGACACAGCGGCTGTAACAACTGAGCTTGTGGAAGCGGGAGCTGAATTAATCGCCACGCCGCGGGAAACCCCGTGGCGGTCGTTGAACTCCCGGCTTTCGGCGCCGGCCGGCCTTCAGGTGACGCTGTTCCAGGAACTCGAACCGGCCACCGACCGTGTCCACAACCCAGGCTTCAAAAACCCCTGA	MDKPAASPKRAPADRPLLVADRPWANPPSVDRVSHHKHVPATSEKLAATTSDRSDVRAYGTSMTTDTPKATVRQLRLVVEAQDYEEALIFYRDVLGLPEQEAYEGEGDARVTILDAGRATLELSNPAQVKLIDRVEADGQPSARLRVAFEVEDTAAVTTELVEAGAELIATPRETPWRSLNSRLSAPAGLQVTLFQELEPATDRVHNPGFKNP				NA	NA	NA	NA	NA
D1-29_02815	693	gpmB		phosphoglycerate mutase GpmB	ATGGCGACAGTTCTTCTCGTGCGGCACGGACGCACCACAGCCAATGCCACTGGACTGCTGGCCGGTCGAGCCGCCGGTGTCAGTCTGGACGAGATCGGGCGCGAGCAGGCGGCTTTGACCGGAGAGCGGGTCGCGGCAGTTCCCCTAGTTGGGGTGGTATCGAGCCCTCTGGAGCGTTGTCAGCAGACCGCCCAGATCATCGTCGATCGCCAGGCTGGAACTCCGTATGCGCCGTTGGAACCCGATCTTACCGAGTGCGATTACGGCCAGTGGCAGGGCCGCACGCTCAGTGACCTCGCAACCGAACATCTGTGGTCGGCTGTGCAATCGCAGCCGTCCGCCGTCATCTTTCCCGGCGGTGAATCCATGGCTGCCATGCAGGCCCGGGCGGTAGCAGCCATTCGACGCCATGATGCAGCCTTCGAAGCCGAGTACGGGCCAGGAGCCGTATGGATGGCGGTGAGTCACGGTGACGTCATCAAATCGATCATCGCCGACGCGCTAGGCATGCACCTCGACCTGTTCCAGCGCATTAACGTGGGCCCTGCCTCCGTATCGATCGTGCGCTACAGCGCCAGTCGGCCAAGCGTCTACGCGACCAACACCGACGCCGGGGATCTGTCCTGGCTGTCGAACGCCATCCACTCCGGCGATGCGCCGGTGGGCGGCGGTGCAGGGCAACAGGCACCGTGA	MATVLLVRHGRTTANATGLLAGRAAGVSLDEIGREQAALTGERVAAVPLVGVVSSPLERCQQTAQIIVDRQAGTPYAPLEPDLTECDYGQWQGRTLSDLATEHLWSAVQSQPSAVIFPGGESMAAMQARAVAAIRRHDAAFEAEYGPGAVWMAVSHGDVIKSIIADALGMHLDLFQRINVGPASVSIVRYSASRPSVYATNTDAGDLSWLSNAIHSGDAPVGGGAGQQAP	PGPT0018030_2398	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
D1-29_02816	555			hypothetical protein	ATGCCTACACGTGTTCATGAATTTGCCTGGCCTGATCGGGTCGTCGTTGGAACCATCGGCGTTCCGGGGTCGCGTACGTTCTACCTGCAGGTGCGGGCAGGGACCCAGATCGTAAGTATTGCCATGGAGAAGCAGCAGTCGGCTCTGCTCGCAGATAAAATCGACGAAATTCTCGACCGGCTTCTCAGCGTCGAGGGAAACCCTCACAGCGTTCCCACAAGCACTCCCATCGAACTCGTCGACAATGACCAGCTCGAGGCGGTGGAGGAGCAGTTTCGAACCGGGACCATGACCTTACGTTGGGACCCGACGACGGCTCAGGTCGTCATCGAGGCCTACCCGATCGCCGAAGTCGACGCTGATAACGACGACGAATCGCTTGATGAGGATGACGCTGATGTGCCCGAAATGCTGCTGGTGCGGATGCCGGTTGGCACCGCCCGCGCATTTGCTAAGCGCACGCGTGAGGTTGTGGGCGCTGGGCGTCCCGCGTGCCCGCTCTGCGGTTACCCGGTGGACCCAGACGGACACGTCTGCACCCTTCCCGAGGTCTGA	MPTRVHEFAWPDRVVVGTIGVPGSRTFYLQVRAGTQIVSIAMEKQQSALLADKIDEILDRLLSVEGNPHSVPTSTPIELVDNDQLEAVEEQFRTGTMTLRWDPTTAQVVIEAYPIAEVDADNDDESLDEDDADVPEMLLVRMPVGTARAFAKRTREVVGAGRPACPLCGYPVDPDGHVCTLPEV				NA	NA	NA	NA	NA
D1-29_02817	768			hypothetical protein	ATGCCGGCGCCCGACCTGCTGACTGCCGAGCTGACGCTCACCGGACGCATCACGACGGCGTCGAACGCCACCTTCCTGGGCAGCATCGGCGACACGACGGTCGTCTATAAGCCCATAGCTGGGGAAAAACCGCTTTGGGACTTTCCCGACGGCTTCCTTGCACACCGTGAGGTTGCCGCCTACCTGGTCTCGGAGGTTCTTGGCTGGAACGTGGTGCCACGCACCTGGCTGCGCGATGGTCCGTTCGGCATGGGAATGGTGCAGCTCTGGCAGGAGACAGACCCCGACCAGAACGCGGTGGACCTCATTGCGTCGGACGACGTACCGGAGACCGGTTGGAAACACGTCCTCGAGGGTCAGGATGAGAACGGACGGATGGTCGCCCTCATACACGAGGACTCTACGGCGCTCAGACGCATGGCGGTGTTCGACGTCGTCGTGAACAACGCCGACCGCAAAGGCGACCACATCCTTGCCATGACGGACGGACACCGGCACGGCGTTGACCATGGGCTTACCTTTCACCGCGACCACAAGCTGCGCACGGTGCTGTGGGGGTGGCTGGGAGACGTTCTGACCGTCGAGGAACTTGAGGGGCTCGACCGTGTCAGCGAAGGACTGGAGGGTGAGCTGGGCCGAAACCTGGCGGACCTGCTCAGCGCCGAAGAAATTGCGTCGGTCGCCGCACGCTGCGCCCGGTTGCGTTTGGCGGGTCGGTTCCCGGCTCCCAGCGGTGAAATGTCGGCGGTGCCCTGGCCGCTGTTCTGA	MPAPDLLTAELTLTGRITTASNATFLGSIGDTTVVYKPIAGEKPLWDFPDGFLAHREVAAYLVSEVLGWNVVPRTWLRDGPFGMGMVQLWQETDPDQNAVDLIASDDVPETGWKHVLEGQDENGRMVALIHEDSTALRRMAVFDVVVNNADRKGDHILAMTDGHRHGVDHGLTFHRDHKLRTVLWGWLGDVLTVEELEGLDRVSEGLEGELGRNLADLLSAEEIASVAARCARLRLAGRFPAPSGEMSAVPWPLF				NA	NA	NA	NA	NA
D1-29_02818	975	nrdF2	COG0208	Ribonucleoside-diphosphate reductase subunit beta nrdF2	ATGACCGAGAAGGTCAAGCTGCTGACGCATGTCGAAGCAATCAACTGGAACCGCATCCAGGACGACAAAGATGTGGACGTCTGGAACCGCCTGGTCAACAACTTCTGGCTGCCGGAGAAGGTGCCGCTGTCCAACGACGTCCAGTCGTGGAACACGCTGACCCCGGCTGAGCAGCAGCTCACCATGCGTGTGTTCACTGGCCTGACACTGCTGGACACCATCCAGGGCACCGTCGGCGCTGTCTCTTTGATCCCCGATGCGCTTACCCCGCACGAGGAAGCCGTCTACACGAACATCGCGTTCATGGAGTCCGTACACGCCAAGAGCTACTCCTCCATCTTCTCCACGCTGGCTTCCACCAAGGAGATCGACGAGGCGTTCCGCTGGTCCACCGAGAACGAGAACCTTCAGAAGAAGGCCCAGATCGTCATGGACTACTACCAGGGCGATGACCCCCTGAAGCGCAAGGTGGCCTCCACCCTGCTGGAGTCCTTCCTGTTCTACTCGGGCTTCTACCTGCCCATGTACTGGTCCTCACGTGCCAAGCTGACGAACACGGCTGACCTGATCCGCCTGATCATCCGCGATGAGGCTGTGCACGGCTACTACATCGGCTACAAGTTCCAGAAGGGCCTCGAAGGCCTGTCTGAGGAGCGCAAGCAGGAGATCAAGGACTACACGTTCGAGCTGCTCTTCGAGCTGTACGAGAACGAAGTCCAGTACACGCATGACCTCTACGACTCCGTTGGCCTGGCCGAGGACGTCAAGAAGTTCCTGCACTACAACGCCAACAAGGCGCTGATGAACCTGGGCTACGAGGCCATGTTCCCGGCATCGGTGACCGACGTGAACCCGGCCATCCTCTCAGCGCTGTCCCCGAACGCCGACGAGAACCACGACTTCTTCTCCGGGTCCGGTTCTTCATACGTGATCGGCAAGGCCGTCAACACTGAAGACGAGGACTGGGACTTCTAG	MTEKVKLLTHVEAINWNRIQDDKDVDVWNRLVNNFWLPEKVPLSNDVQSWNTLTPAEQQLTMRVFTGLTLLDTIQGTVGAVSLIPDALTPHEEAVYTNIAFMESVHAKSYSSIFSTLASTKEIDEAFRWSTENENLQKKAQIVMDYYQGDDPLKRKVASTLLESFLFYSGFYLPMYWSSRAKLTNTADLIRLIIRDEAVHGYYIGYKFQKGLEGLSEERKQEIKDYTFELLFELYENEVQYTHDLYDSVGLAEDVKKFLHYNANKALMNLGYEAMFPASVTDVNPAILSALSPNADENHDFFSGSGSSYVIGKAVNTEDEDWDF	PGPT0021345_3249	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526	NA	NA
D1-29_02819	2223	nrdE2	COG0209	Ribonucleoside-diphosphate reductase subunit alpha 2	TTGGACACGACTGTCTCAGACACAGAAGTAACCAGGGCCGAAGGCCAGGGCACCCGCGCCGGGGCCGAAAAAAAGCTGGGCGCCGTCGTCGAGAAGCCCGAGATGCCTGCCGCCTACAAGGGCCTGGGCTATCACGAGCTGAACGCGATGCTCAACCTGTATGGCCCTAACGGCGAGATCCAGTTTGAGGCTGACCGCGAAGCTGCGCACCAGTACTTCCTGCAGCACGTGAACAACAACACCGTGTTCTTCCATGACCTGGAGGAGAAGCTCGACTACCTGGTGAAGAACCAGTACTACGAGCGCGAGACCCTCGACCAGTACACGATGAACTTCATCCGTGAGCTTTACAACCGTGCCTACAAGAAGAAGTTCCGTTTCGAGACCTTCCTGGGCGCGTTCAAGTTCTACACGTCCTATACCTTGAAGACTTTCGACGGCAAGCGTTTCCTGGAGCGCTACGAGGACCGCGTCTGCATGGTGGCCCTGCACCTGGCCCGCGGTGACGAGCAGCTTGCCCTGCAGATGGTGGACGAGATCATCGAAGGCCGCTTCCAGCCGGCCACGCCCACCTTCTTGAACGCCGGCAAGAAGCAGCGCGGCGAGCTGGTCTCCTGCTTCCTGCTGCGCATCGAAGACAACATGGAGTCGATCGGGCGTTCCATCAACTCCGCCCTGCAGCTGTCAAAGCGCGGCGGCGGCGTGGCGTTCGCGCTGACCAATATCCGCGAGGTGGGCGCTCCGATCAAGCAGATCGAGAACCAGTCCTCCGGCGTTATCCCCGTGATGAAGCTCCTCGAGGACAGCTTCTCCTACGCCAACCAGCTTGGTGCCCGCCAGGGCGCCGGTGCCGTGTACCTGCACGCGCACCACCCGGACATCTACCGCTTCCTGGACACCAAGCGGGAGAACGCCGACGAGAAGATCCGGATCAAGACCCTCTCACTGGGCGTTGTGATCCCGGACATCACGTTCGAGCTGGCCAAGAAGGACGAGGACATGTACCTGTTCTCGCCGTATGACGTCGAGCGCGTCTACGGCATGCCTTTCTCCGACGTTTCGGTCACCGAGAAGTACTACGAGATGGTGGACGATTCCCGGATCAAGAAGACCAAGATCAAGGCGCGTGAGTTCTTCCAGACCCTCGCCGAGATCCAGTTCGAATCCGGCTACCCGTACATCATGTTCGAGGACACCGTAAACCGGGCCAACCCGATCGACGGCAAGATCATCATGTCCAACCTGTGCTCAGAAATCCTCCAGGTTTCCCAGCCCACCACGTACAACGATGACCTGTCGTACGCAGAGACCGGCAAGGACATCTCCTGCAACCTTGGCTCGCTGAACATCGCCAAGACCATGGACTCGCCTGACTTCGGCCTGACGATCGAGACGGCCATCCGGTCCCTCTCTGCCGTCTCGGACATGTCAAACATCACCTCGGTGCCGTCCATCGCCAAGGGCAACGACCAGAGCCGCGCCATCGGCCTGGGCCAGATGAACCTGCACGGTTACCTTGCACGTGAGCGGGTGCACTACGGGTCCGAAGAAGGCCTGGACTTCACCAACATCTACTTCTACTCGGTGGTTTACCACGCCATCCGCGCCTCCAATAAGCTGGCCATCCAGACCGGGCAGACCTTCGGCGGCTTTGAGAAGTCCAAGTACGCGTCGGGCGAGTTCTTCGACAAGTACACGGAGCAGGAGTGGGTGCCGCAGACCGAGAAGGTCGCGGAGCTGTTCAAGAACATCCACATCCCCACCCAGGATGATTGGCGCGAGCTGAAGGCTTCCGTCATGGAGCACGGCATCTACAACCAGAACCTGCAGGCTGTCCCGCCGACCGGTTCGATCTCCTACATCAACAACTCCACCTCCTCGATCCACCCGGTGGCATCCAAGATCGAGATCCGCAAGGAAGGCAAGCTGGGCCGTGTCTACTACCCGGCGCCGTACCTCACCAACGACAACCTGGAGTACTACCAGGACGCGTATGAGATCGGCTACGAGAAGGTCATTGACACCTACGCCGCTGCCACCCAGCACGTGGACCAGGGCCTGTCCCTGACGCTGTTCTTCAAGGACACCGCCACTACCCGTGACATCAACAAGGCCCAGATCTACGCCTGGCGCAAGGGCATCAAGACCATCTACTACATCCGTCTCCGCCAGCTCGCGCTGGAGGGAACTGAGGTGGAGGGCTGCGTCAGCTGCATGCTTTAA	MDTTVSDTEVTRAEGQGTRAGAEKKLGAVVEKPEMPAAYKGLGYHELNAMLNLYGPNGEIQFEADREAAHQYFLQHVNNNTVFFHDLEEKLDYLVKNQYYERETLDQYTMNFIRELYNRAYKKKFRFETFLGAFKFYTSYTLKTFDGKRFLERYEDRVCMVALHLARGDEQLALQMVDEIIEGRFQPATPTFLNAGKKQRGELVSCFLLRIEDNMESIGRSINSALQLSKRGGGVAFALTNIREVGAPIKQIENQSSGVIPVMKLLEDSFSYANQLGARQGAGAVYLHAHHPDIYRFLDTKRENADEKIRIKTLSLGVVIPDITFELAKKDEDMYLFSPYDVERVYGMPFSDVSVTEKYYEMVDDSRIKKTKIKAREFFQTLAEIQFESGYPYIMFEDTVNRANPIDGKIIMSNLCSEILQVSQPTTYNDDLSYAETGKDISCNLGSLNIAKTMDSPDFGLTIETAIRSLSAVSDMSNITSVPSIAKGNDQSRAIGLGQMNLHGYLARERVHYGSEEGLDFTNIYFYSVVYHAIRASNKLAIQTGQTFGGFEKSKYASGEFFDKYTEQEWVPQTEKVAELFKNIHIPTQDDWRELKASVMEHGIYNQNLQAVPPTGSISYINNSTSSIHPVASKIEIRKEGKLGRVYYPAPYLTNDNLEYYQDAYEIGYEKVIDTYAAATQHVDQGLSLTLFFKDTATTRDINKAQIYAWRKGIKTIYYIRLRQLALEGTEVEGCVSCML	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
D1-29_02820	561	nrdI		Protein NrdI	ATGGCAGCACTGGCAACAGCCGGGGCCTCCGTCAAGGAGAGGCACGCCGGCCCGGCAAACCGTACAGGCTCTGCACCGCACATTGACCCGGCGCACCGCGAGGGCAAAGTCCTGCAGGGCGGTTCACACCAGCCCGTCACAACGCAGAGCCAGCTCATCTATTTCTCCTCTACGTCCGAGAACACCAGCCGCTTTGTTGCAAAGCTTGGCCGGGACTCGGCCCGGATCCCGCTCCATTCCAAGGACGCGCCCCTCCTCGCCACCAGGCCATTTGTCCTGGTGGTGCCCACCTACGGCGGTACAGGGGGAGAAGGGTCGGTGCCCAAACAGGTCATCCGCTTCCTGAACAACCCGCAGAACAGGGAACTGATCCGCGGCGTCATCGGTGCCGGCAACACAAATTTCGGGGACAACTACTGCATGGCTGCGGACATCATCGCCGCCAAATGCCAGGTCCCGCCCCTCTATCGATTTGAACTCATGGGAACGCCGGAAGACGTTACCCGGGTCAACCAAGGATTGGATAAGTTTTGGACACGACTGTCTCAGACACAGAAGTAA	MAALATAGASVKERHAGPANRTGSAPHIDPAHREGKVLQGGSHQPVTTQSQLIYFSSTSENTSRFVAKLGRDSARIPLHSKDAPLLATRPFVLVVPTYGGTGGEGSVPKQVIRFLNNPQNRELIRGVIGAGNTNFGDNYCMAADIIAAKCQVPPLYRFELMGTPEDVTRVNQGLDKFWTRLSQTQK	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
D1-29_02821	246	nrdH	COG0695	Glutaredoxin-like protein NrdH	ATGACCGTAACGGTTTACACAAAGCCGGCTTGTGTTCAGTGCAACGCAACCTACCGTGCGCTGGACAAAAAGGGCATCAACTACCAGAGCGTTGACATCTCACAGGACGCCGATGCTTTGGAGCGCCTGAAGGCTTTGGGCTACATGCAGGCCCCTGTTGTCGTCACCGACCAGGACCACTGGTCAGGCTTCCGCCCGGACAAGATCGAGGAACTGGCACTGTCTGCTGTTCCCTCCGTGGCCTAG	MTVTVYTKPACVQCNATYRALDKKGINYQSVDISQDADALERLKALGYMQAPVVVTDQDHWSGFRPDKIEELALSAVPSVA				NA	NA	NA	NA	NA
D1-29_02822	1752			hypothetical protein	ATGGTGCTGCGCCTTCGGCTGATCGGCAGATTGAGCCTGGACCGTGATGGCCAGCCGATTCCCGGGCCCAGGGGTCAAAAGACCTGGGCTGTGCTGGGCAGGCTGGTCCGGTCGCCGCAGCCAGTTTCCCGCCAGCTTCTGGTGGACGAACTGTTCGCTGACGCCGATGATCCCATGGGGGCGCTGCGGTGGTCGCTGGCTGAGCTGCGGCGCAAGACGGGATTTCCCAACGCCTTCAGGGGCAACCCTGTGTCACTGGGTCCTGCAGCGGAGATGATGGCCGACGTACACGACCTCCAGCGGAGTATTGCGCAAGGGGACATTCCGGAAGGGCACTTCCTGGAAGGGATAGACGTCAGGGGATCTCCGGGTTTCGACTCCTGGCTCCTTGTCGAGCGCCAGAGGGTGGACAGCGAGGTACTCAACGAACTGCGGCAAGCCACGCTGCGGGCTCTGGCCGGCCGGCAGTTCGACCGTGCCGTGGCATTCTCTTCTGCAATGATTCGGCGCGCGCCTCTTGAGGAAGGTCCACACATTCTCCTGGTCAAAGCGTTGGCCTCATCCGGCAAGGCAGAAGCAGCTATCCGGCAGGCCGAGGCGAGCGAGGCGATGTTCGCCGGCGAGCTTGGAGTCAAGGCCACGCCGGCCATCCGCGCAGCCGCAAGGCCCGCCGTCGCTTCACCCGTACCCGGTGTGTCCGCGCGGGCCACCGCCGAGTCCCTGTGCGAGGCTGGTCTCGCAGCCGTATCCGCAGGGGCCGCCGACGCCGGAATCGAGTGCCTCCGCGGGGCATCCGCCGCTGCGGAGACCTCCGGCGACAAGGAACTGCTGAGCCGTTGCCTGACAGAGCTCGGTACGGCGCTCGTGCATTCGATTCGTGGATATGACGACGAAGGCGCTGTCATCCTTACAGAGGCCGCCGGCCTGGCCACTGCAGCCGGAGCGGAGTTAATCACAGCCAAAGCGTTGTCGGAACTTGCTTATGTGGACGTGCTGGCCGGGCGCCGTGCCAGCGCTGCCCACTACCTCGAAACTGCCCGTGGCCTGGCCACCGGAAATCCGTCCCTTACGGCGGCAATAGCGGGATTTGAAGCCATGAACCTCAGCGATTGGGGCCGGCTTGAAGCTGGAGCGGAGCGGTTTGGTGAAGCCGTGGAGCTGAGCCGGAGCGCCAACGCCGTCCGGCGTGAATCATGGAACCTGGGCCTTGGAGCACGCAGCCTTTTCATCCTGGGGCGCCTGGATGAGGCAGGCGAGTGGGCACATCAATCCTGCGACGTGGCCAGGAAGGATAGGTGGACGGCGTTCCGGCCCTGGCCTGAAGCCTGGCTGGGCCACATCCGCCTTGCCGGCGGAGAACCTCCGGTTGCGGTGCGCGAGCAGGCGGAAGCGACATTCGCGCTCGCCCGTCAGCTGCAGGACCCTTGTTGGGAGGGCCTGGCTGCAAAGACTATAGGCCTCACGCACTTGGCAGAAGGGAAAGCCGACGCGGCGCTGGAATGGATGAAGAACGCAGGACTCCTCTGCGGCCGTGTGACAGATTCGTACGCCTGGATGCAGGTTGAAATCCTGCTGGCGGAGGCCCAGGCCGCTTTGGAATACGGAGACACGGTCCGTGCGGAGTCCGTGGCGCGGCAGGCGGTGGCGGGAGCTGCAAGGGGAAGCATGGATGACCTCCTGGAACGTGCCGTCGGGTTGGTGGCGTCGCTCTCCGGAGCCAAGGGTTCAAGAACGGGAACCCCCAATATGTAG	MVLRLRLIGRLSLDRDGQPIPGPRGQKTWAVLGRLVRSPQPVSRQLLVDELFADADDPMGALRWSLAELRRKTGFPNAFRGNPVSLGPAAEMMADVHDLQRSIAQGDIPEGHFLEGIDVRGSPGFDSWLLVERQRVDSEVLNELRQATLRALAGRQFDRAVAFSSAMIRRAPLEEGPHILLVKALASSGKAEAAIRQAEASEAMFAGELGVKATPAIRAAARPAVASPVPGVSARATAESLCEAGLAAVSAGAADAGIECLRGASAAAETSGDKELLSRCLTELGTALVHSIRGYDDEGAVILTEAAGLATAAGAELITAKALSELAYVDVLAGRRASAAHYLETARGLATGNPSLTAAIAGFEAMNLSDWGRLEAGAERFGEAVELSRSANAVRRESWNLGLGARSLFILGRLDEAGEWAHQSCDVARKDRWTAFRPWPEAWLGHIRLAGGEPPVAVREQAEATFALARQLQDPCWEGLAAKTIGLTHLAEGKADAALEWMKNAGLLCGRVTDSYAWMQVEILLAEAQAALEYGDTVRAESVARQAVAGAARGSMDDLLERAVGLVASLSGAKGSRTGTPNM				NA	NA	NA	NA	NA
D1-29_02823	324			hypothetical protein	ATGGCGGTGGCGGAGACTCAAGTTACGGACACCAACAGGAGGGTCATCATGGAACTGAATGAGATTCTGAATCACACCGCCGATCGTGTTGTGGCGGAAGGAACATATGCCGCCGCACGGACACTTGAGGCAATGGCGTCGGCAGCCGGTACTCTCAGCCCCGGCGCTGCCGCTGCGCTGGTTGATTGGGCCGGTCCGGAAGTAGCGCGGCTGCGGGCGTTCGGCCTGGTCCATGGACTATTGCTGCGCGAACTTCCGGCGCCTGCGCAAGCCCAACTTGCCGCGCAGCTGGTGGCTCCGTCAGCACTGGTGCTGGCTGCCTGA	MAVAETQVTDTNRRVIMELNEILNHTADRVVAEGTYAAARTLEAMASAAGTLSPGAAAALVDWAGPEVARLRAFGLVHGLLLRELPAPAQAQLAAQLVAPSALVLAA				NA	NA	NA	NA	NA
D1-29_02824	918			hypothetical protein	GTGGTAAATCCCGTACATCTGAAGACACTCCTCGAGGTCACCCGGCTGGGCTCCTTCGCGGCGGCCGCCGTCCGGCTGGGCTACACCGCGTCCGCCGTGTCCCAGCAGATGACCGCCCTGGAAAGAGATACGGGAGTGGTCCTCTTCCAGCGCTCCGCCCGGAGCGTTGTACCCACGGAGGCGGCCGTGGTGATGAGCCGGCACGCAGCCAAGGTACTGACAGACATCGAGGCCCTGATGGCTGCGGCGTCCAAAGCCCAAGACGCCACCCGCCAGGAACTCCGGCTGGGCATCTTTCCCAGCCTGGCCACGTACGTCCTCCCCCGGATCCTCAAGAACCCCGCGTGGAAGGAACTCGGCATCGACCTCAGGGTTTCCGTGGCGGAACCGGCCCAGACCATCCAGGGGCTCCGGACCGGCGGGGAACTGGACGTGGCGCTGGTGTTCCAGGTGGGCCAGTCCGGACTGGCCTGGCCGCACACCATCAACCGGCAGTGGATCGGCGACGACAATTTCCGGGTGGTTCTTCCGAAGGGCTGGGGCTTCGGCACCGACGCCAAGGTCGCGGCGGACCATTTGTCCGAGATGCCCTGGATCATGCATCACCCGGGAACCAGCGATGCCGTTGTCATCGAGCGCCTGTTCGCCAGCTGCAACCTGCATCCGCGCGTGGTGGCCTACAGTGACGACTTCCACGCCAGCCTGGAAATGGCGGCCGCCGGACTCGGTGCTGCCCTTGTCCCGGAACTCGCCCTGCTTCACCGCCCGGCCGGCGTTGTGGTGCTGGACGTCCCCGAAATCCGCCTCGCCCGCAACGTTTTCGCGCTCCTGATCAACGAAACGAAAACAGCCCGCGTCCAGCTTTTTGTTGACCTGTTGGCGGAAACTCTGGCTGGTTTGGGAACTGCAGGGAAATAA	MVNPVHLKTLLEVTRLGSFAAAAVRLGYTASAVSQQMTALERDTGVVLFQRSARSVVPTEAAVVMSRHAAKVLTDIEALMAAASKAQDATRQELRLGIFPSLATYVLPRILKNPAWKELGIDLRVSVAEPAQTIQGLRTGGELDVALVFQVGQSGLAWPHTINRQWIGDDNFRVVLPKGWGFGTDAKVAADHLSEMPWIMHHPGTSDAVVIERLFASCNLHPRVVAYSDDFHASLEMAAAGLGAALVPELALLHRPAGVVVLDVPEIRLARNVFALLINETKTARVQLFVDLLAETLAGLGTAGK				NA	NA	NA	NA	NA
D1-29_02825	507			hypothetical protein	ATGAACAGGGTAGCGAGCCAGCACTTCGGCGAGATCGAGCTCAATCACGGCCGGGATCACAATATCGCCGCCAAACATGAACTGCGCGGCCATGAGCTGGAGCTCGACCTGAACATCAACGCGCATGACCACTTCGATGAAGCGGCCATGCACAAAGTGGACTACCGTCTCCGCTACCTTCCCGAGCTCGTTGACGAGGTCCGGGAAATGATTGCGGAGGAGCTGGAGCAGGAAGGCACCAGCCCGCAGGAGTACCTTCGTTTCCACTGCAACGCCCTCAAGGATGAACACCTGAAGAAGGTCTTCGGCGTCGAGGACCGCAGCCAGCTCACCAATGCTGTGTTCCTCAAAGCGCTCAAGCTTGGGCACGTGGGCATCTTCCCCGGCCAGCCCGAACGTTATTTCGTGCTTGATTTCACGCTTGGCGCGCATTTCACCGACGAGGTCCTGGTGGCCTCCGCGGATGAAGACGGCGTGGTGGACGACGAAATTCTCTGGGAGTCCTAA	MNRVASQHFGEIELNHGRDHNIAAKHELRGHELELDLNINAHDHFDEAAMHKVDYRLRYLPELVDEVREMIAEELEQEGTSPQEYLRFHCNALKDEHLKKVFGVEDRSQLTNAVFLKALKLGHVGIFPGQPERYFVLDFTLGAHFTDEVLVASADEDGVVDDEILWES				NA	NA	NA	NA	NA
D1-29_02826	2343	metE	COG0620	5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase	ATGCCTGAACAGACCATTCCCGCCACCCCTTTTCCCGCCGCATCAATCCTCGGTTACCCGCGTATTGGCCGCCGCCGCGAACTGAAGAAGGCCATCGAAGCCTATTGGGCCGGCAAGATCGACGCCGCAGCACTGGACGCGGCTGCAAAGGACATCCAGCTGGGCACGGCCAAGCGCCTCCAGAGCCTTGGCCTGACTGAGGCTGCCGCCGTTCCGGGCACCTTCTCCTACTACGACCAGGTGCTCGACGCAGTTGCCCACCTGGGCGCGGTGCCGGCACGCTTCGGCAACCTGCTCAACGCAGAGGGCCAGCTGGACATCGACGGGTACTTCACCCTGGCCCGCGGCACCAAGGACGAGCAGCCGCTGGAAATGACCAAATGGTTCGATACCAACTACCACTACCTGGTCCCGGAGATCGGCCCGGAAACCAACTTCGCGCTGACCTCCAACCGGATCGTTGAAGAGTTCGGGTACGCGCTGGCCAACGGCGTGGAGACCCGCCCATACATCGTGGGCCCGGTCACCTTCCTGCTGCTGAGCAAGGCTTCCGACGACGCCCCCGCCGGCTTCAGCCCGCTGTCCCGCCTTGAGGATGTCCTGCCGGTCTACGCCGCGCTGCTGGAGAAGCTGGCTGCCGCCGGTGCAAGCTGGGTCCAGCTGGACGAGCCTGCCCTGGTTGTTGACCAGGACACCTCCGCCGCAGACATCCAGGCCGCAGTGGCCCGCAGCTACGAGGTTCTTTCCGCTGCTGCCAGCCGCCCGCAGCTGTTCGTTTCCACGCCGTACGGTGCGCTGAACGAGCAGTTCAGCACCCTTGCCGCTACCGGCATCAACGCCCTGCACATCGACGTCTTCAAGGGTGCTGTTCCTTCCGCCGCCGAGCTGGCTGCCCTGGGCGGCAAGACCCTGGTGGCAGGTGTAGTGGATGGCCACAACATCTGGCGCAACGACCTGCTGGCATCGGCGGACAAGATCGCCGAGCTGCAGAAGTCCGTGGCCACGCTGGCCATCAGCACCTCCACCTCCACCCAGCACGTCCCGCACGACGTCGACGAAGAGGTCCAGCTGTCCGAGCAGCTCCGCAGCTGGCTGGCGTTCGCTGACCAGAAGGCTGTGGAAGTTGCCACCCTGGCAGGGCTCCTGACAGACGCGGCTGCTGTCCAGCCCGCCATCGACGAGGCCACACGCATCATTGCCTCCCGCGCCACCGCCGAAGGCGTCCAGCGCGCCGACGTCCGTGCCCGCACAGCAGCCCTGACCCCGGCCGACTTCAACCGCTCCGAGTACTCGGTCCGCGAAGCCGCCCAGGAAGAGGCGCTGCAGCTGCCGCCGCTGCCCACCACCACCATCGGCTCGTTCCCGCAGACGTCCGAAATCCGTTCCGCCCGTGCCCGCAACAACAAGGGCGATCTCACCAACGAGCAGTACGGGCAGCTCATGAAGGACGAGATCAAGCGCGTTGTGGCGCTCCAGGAAGAGTTGGGCTACGACGTCCTGGTGCACGGCGAGCCCGAGCGGAACGACATGGTCCAGTACTTCGCCGAGAACCTTGAAGGCTTCGACGTCACGGTGCACGGCTGGGTGCAGTCCTACGGCTCACGCTGCACCCGTCCGTCCATCCTCTGGGGCGACGTGACCCGCAGCGCCCCTATCACTGTGGAGTGGGCAAAGTACGCGCAGTCACTGACCAGCAAGCCCATGAAGGGCATGCTCACCGGTCCGGTAACCATCCTGGCCTGGTCCTTCGTCCGTGATGACCAGCCGCTGGGCAAGACCGCCAACCAGGTTGGCCTGGCGCTGCGCGACGAAATCGCAGACCTCGAAGCCGCCGGCATTAAGGTCATCCAGGTGGACGAGCCCGCCCTGCGCGAGCTCCTGCCGCTGCGCAAGGCCGATCAGGCTGCCTACCTGGACTGGTCCGTGAACTCGTTCCGCCTGTCCACCGCCGGTGCCGCGGATGCCACCCAGATCCACACCCACCTGTGCTACTCGGAGTTCGGCGCCATCATCGACGCCATTGACGGGCTGGACGCCGACGTCACCTCCATCGAGGCCGCACGCTCACGCATGGAGGTTGTCCACGACCTCGAGTCCCACGGCTTCGGCCGCGGCGTTGGCCCGGGCGTCTACGACATCCACTCGCCGCGCGTCCCGGGCGAGCAGGAAGTCACGGAGCTGCTCAGCACTGCCGTGAAGCACGTCCCGTCCCGCCAGCTCTGGGTCAACCCGGACTGCGGCCTGAAGACCCGTGGCTACGCCGAGACCGAAGAGTCCCTGCGCAACCTGGTCAAGGCAACCCAGACGGTTCGCGCCGAACTGCTGCAAGCAGCAAAGCAGTAG	MPEQTIPATPFPAASILGYPRIGRRRELKKAIEAYWAGKIDAAALDAAAKDIQLGTAKRLQSLGLTEAAAVPGTFSYYDQVLDAVAHLGAVPARFGNLLNAEGQLDIDGYFTLARGTKDEQPLEMTKWFDTNYHYLVPEIGPETNFALTSNRIVEEFGYALANGVETRPYIVGPVTFLLLSKASDDAPAGFSPLSRLEDVLPVYAALLEKLAAAGASWVQLDEPALVVDQDTSAADIQAAVARSYEVLSAAASRPQLFVSTPYGALNEQFSTLAATGINALHIDVFKGAVPSAAELAALGGKTLVAGVVDGHNIWRNDLLASADKIAELQKSVATLAISTSTSTQHVPHDVDEEVQLSEQLRSWLAFADQKAVEVATLAGLLTDAAAVQPAIDEATRIIASRATAEGVQRADVRARTAALTPADFNRSEYSVREAAQEEALQLPPLPTTTIGSFPQTSEIRSARARNNKGDLTNEQYGQLMKDEIKRVVALQEELGYDVLVHGEPERNDMVQYFAENLEGFDVTVHGWVQSYGSRCTRPSILWGDVTRSAPITVEWAKYAQSLTSKPMKGMLTGPVTILAWSFVRDDQPLGKTANQVGLALRDEIADLEAAGIKVIQVDEPALRELLPLRKADQAAYLDWSVNSFRLSTAGAADATQIHTHLCYSEFGAIIDAIDGLDADVTSIEAARSRMEVVHDLESHGFGRGVGPGVYDIHSPRVPGEQEVTELLSTAVKHVPSRQLWVNPDCGLKTRGYAETEESLRNLVKATQTVRAELLQAAKQ				NA	NA	NA	NA	NA
D1-29_02827	969	metF	COG0685	5,10-methylenetetrahydrofolate reductase	ATGTCACCCCCAAGCCTTATTGAAGCGCATCCAAATCTATCGGACACCACCACCCCTGTTGCGCTCTCCTACGAACTCTTTCCGCCACGCTCTCCGGCCTCGGCAGAGTCCCTCTGGAACACCATCCGGGAACTGGAGACCACGGACCCGGACTACGTCTCCGTTACGTATGGTGCCGGTGGCTCAAACCGGGACACCGCCGTCCAACTCATCCACCGGCTCCTGCTGGAAACCACGCTCCGGCCGGTGGCCCACTTGACCTGCGTGGGCAACACGCCGCAGGAACTGGCGGAGATCATCGGTGACCTGCTGGACACCGGTGTGCGCGGCATTCTGGCTCTGCGCGGCGACCGTCCGCAGGATGGCTCACCGCCAGTTATCGGCTCGCTCCGCTACGCCCAGGACCTGATCGAACTCATCCGCCGGGTGGAGCAGCGCCGTTCAGCATTGCTGTGCGCCGGCAAAATCGCCGTGGGTGTGGCTGCCTACCCCACCCGCCACCCGGAATCGCCCACCGAGGACCACGACGTGGAGGTGTTGCTTGCCAAGCAGCGCTCAGGCGCCGACTTCGCCATCACCCAGGTCTTCTTCCGTGCTGAGCAGTATGCGGACCTCCTCACCCGGGCCCGCCGTGCCGGGGTCACCATCCCGATCATCCCGGGCGTAATGCCCTTCACCAGCCTGCGTCGGGTCAACCGCCTGGCTGAACTCAGCGGCGTAGAGCCCGCACCGGAGCTCCTTGGCCGCCTCGCTTCTGCGGACACCGACGCCGAAAGGCTTAAGGTCGGCGTCCGGGCCACCGTGGATCTGGCGAAAGCCGCCCTCGATGCCGGTGCACAGGGAATCCACCTGTACACGTTCAACGAACACCAAAGCTGCTTGGAGGTGCTGGACAAGCTGGATCTTCCACGCCATTCCCGCTCCGCCAGCCGCCGAAGCGCCATCGCCCGGCGCCAGCTGGCCAGCTAA	MSPPSLIEAHPNLSDTTTPVALSYELFPPRSPASAESLWNTIRELETTDPDYVSVTYGAGGSNRDTAVQLIHRLLLETTLRPVAHLTCVGNTPQELAEIIGDLLDTGVRGILALRGDRPQDGSPPVIGSLRYAQDLIELIRRVEQRRSALLCAGKIAVGVAAYPTRHPESPTEDHDVEVLLAKQRSGADFAITQVFFRAEQYADLLTRARRAGVTIPIIPGVMPFTSLRRVNRLAELSGVEPAPELLGRLASADTDAERLKVGVRATVDLAKAALDAGAQGIHLYTFNEHQSCLEVLDKLDLPRHSRSASRRSAIARRQLAS	PGPT0008160_592	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008160-metF-K00297	NA	NA
D1-29_02828	816			hypothetical protein	ATGATCCCTGGGACTGGAACCCCTGGTGGCGAGCCGCTGGGGACTGGAAGCCCCCACGGCGAGTTGCGGCGGCGCAGGCGGCGGCTCCTGTTGTGGTCCGGATTGCCCGTTCTGTTGGGGCTGGGCCTTTCGGCCAAGCTCATTAGTGCCGGATACCTGGCCGGTGCTGCCGCCCACGATTTTGACGCCCGTGATGGCGCCGGAGTGGCGGCAGCCGCGGCAGGACTACGGACCGCCAACTTTTTTGAAACCCATAAGGCGCCCTTCGCCGAGGGTGACGCGCTTGTCCTGGCAGGGGATTACACCGGTGCACGTCAAGGCTTCGAAGAGGCCCTCGCCCAGGCGGCACCCGAGGACGAATGCGTCGTCCGGGTCAACCTCGTGCTGAGCATTGAACGGCTGGGTGATGCCCGGCTAGTGGCAGAGGATGCCAACGCGGCAGGAAAGCTGTTCGAGGAAGGACTTGCGGTAGTGGACGCTGCTCCGGAGGGCTGCTTTCCGGCCGCATCAGGGACCGGAGAAACTGGGGGAGAAGGTGCCGGGGACGCTGCCGCAGAGGCCGGGCAGAAGCTGGAACAGGCAGAGCAGCGGCTTAAACAGAAATCGGAGGAGGCGAACGCCGGGAACAGCCAGCCGCAACAGCCCGGGACGGACGCCGGCCAGCCACCGCCGGAGCCTGATGCGGGAAGCGAAACCCAACTCGAACAGCTCAAGGACAGCACCCGGGAATCCCAGCGCCAGCGCAGTGACGGCAGGGAACGGGACGAATATCTCCGCGACGATGATTACGGACCGGGACCGGACCGGCCATGGTAG	MIPGTGTPGGEPLGTGSPHGELRRRRRRLLLWSGLPVLLGLGLSAKLISAGYLAGAAAHDFDARDGAGVAAAAAGLRTANFFETHKAPFAEGDALVLAGDYTGARQGFEEALAQAAPEDECVVRVNLVLSIERLGDARLVAEDANAAGKLFEEGLAVVDAAPEGCFPAASGTGETGGEGAGDAAAEAGQKLEQAEQRLKQKSEEANAGNSQPQQPGTDAGQPPPEPDAGSETQLEQLKDSTRESQRQRSDGRERDEYLRDDDYGPGPDRPW				NA	NA	NA	NA	NA
D1-29_02829	1110			hypothetical protein	ATGACCCTGCAACCGATTTTGCCGTGGTGGATCCTGGGACCCGTTATCGCTGTGGCGTTGCTCTTCCTGGGCTGGAGGCTGGTCCTTGCCGGCAGGCAGCGGCCCGGTGCTGTCCGGGACAAACAGGCTCTCCGGGACAAACTGGCTGTCCGGGACAAACAGGCTGTCTGGGACAAACAGGCGCGCGTCCAGCTGCGCGATTGGCTGTTCAGGAGCGCCCTGGTGTTGTTGCTCCTGGCAGCTGCCCTGCGTCCCGGTGTCCCGGGCGGATCGGCAGGGGCGGCATCAACGGACGTCAACGTCTTCTTTGTTGTGGACACCACCAGCAGCATCGTGGCGGAGGACTACGGGGATTCGGCCCCGCGGCTGGACGGGGTGCGCCAGGACATCATGGCCATCGCCGAGGAACTGGCCGGGGCGCGCTTCGCCCTGATCACGTTCGACAACACCGCCACGGTCCAAATGCCGCTGACCACCGACACCACCGCCCTGGACACCCTGGTGTCTGTCCTGGAGCCGCAGGTGACTGACTATGCCAAGGGCAGCAGCGTCACGGTCGCCGGTACCCTCCTCACCGAACGGCTCCGGGCCGCCCGCGACAGCCACCCCCAGCGGCCACGGATCGTTTATTACCTGGGAGACGGCGAACAGACAAGCGCCAAGTCCCCCGCGCCCATGAGGGTGGAAGGGGGACTGATAAACGGGGGAGCGGTGCTGGGTTACGGCACACCTGAAGGAGGCCGGATGAAGGAGAACACCGGACGCGGCACCGGGCAGGACTCCGACGGCGGATCGGCCTACATCCAGGACCGCAGCGGGGACGCCAGGAAGGATGCGATGTCCATCATCGATGAGGACCGGCTGCGGGACATTGCGGGCCAGTTGGGTGTGCCGTACGTCCACCGTTCAGCAGGCGATCCTTCCGGTCCCATGATGACGGGGGCCGATCCCGGGACGCTGCAGCGGGCGCCGGAGGACGGCAGCCTGGAGGGGCGGACCGAACTCTATTGGGCCCTTGCCGCGCTCGCGGCGCTGCTGGCGCTCAGGGAGTCGGCGCTGGTGCTGCGGCAGTGGAGGCAACTGCGGCCGGCTGAGGCGGTCCGGACATGA	MTLQPILPWWILGPVIAVALLFLGWRLVLAGRQRPGAVRDKQALRDKLAVRDKQAVWDKQARVQLRDWLFRSALVLLLLAAALRPGVPGGSAGAASTDVNVFFVVDTTSSIVAEDYGDSAPRLDGVRQDIMAIAEELAGARFALITFDNTATVQMPLTTDTTALDTLVSVLEPQVTDYAKGSSVTVAGTLLTERLRAARDSHPQRPRIVYYLGDGEQTSAKSPAPMRVEGGLINGGAVLGYGTPEGGRMKENTGRGTGQDSDGGSAYIQDRSGDARKDAMSIIDEDRLRDIAGQLGVPYVHRSAGDPSGPMMTGADPGTLQRAPEDGSLEGRTELYWALAALAALLALRESALVLRQWRQLRPAEAVRT	PGPT0014015_4762	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
D1-29_02830	1038			hypothetical protein	GTGGAACTGATGTTCTGGTGGATGATCCCCATAGCGGTAGCTGCTGCCGCCGTCGGAGGCTGGCTGGCCTTCCGGGCCGGTTCAGGGGACAACGCACGACGGCGGCCTGTCGCCAACGCTGACCGCCTCACGGCACTGCCCGAGTATCAGGCCGCTCTCCGGCGGCACAGACGCTGGCTGATTGTCGCCGCCGTCGCCGGCATCACCCTGCTGGTTTCGGCCGTAACAGCAGCGGCCAGGCCGGTTGAACTGACCACCATCCGCCCGGAGCAGCGCAACCGCGACATCATGCTGTGCCTGGACGCATCAGGCTCGATGAGCAGCGCAGACGCGGCGGTGGTGGACGTCTTCGGTGAGCTGGCGCGGGAATTTGACGGCGAACGGATCGGGCTGACCATCTTTGACAGCAGCGCCATCCAGGTGTTTCCGCTGACGGACGACTACGCGTACGTCCAGGAGCAGCTGAAACTGGCCCGCGACGCCTTCGACGGCACATCCGGCAGCTCAACGTTCCTCGAGGGCACCTGGAACGGACGCGGCTCGTCGCTGATCGGGGACGGCCTGGCCTCCTGCGTCGAGAGCTTTCCCGGCGCCGGCAAGCCCGAGGATGGCACCGCGGCCAAGGATCCTGAATGGGGTTCCCAGGGGGCCCAGCAGCGCTCGCGGTCGGTGGTGCTGGCCACGGACAATTTCCTGTCCGGCGAGCCCATCTTCACCCTTGAACAGGCCGGTGCGCTGGCGCGGGAGAAAGGCGTCCGCGTGTACGCACTGAACCCCGGTGACTTCGATTACGGGACCGACCCCACACAGCCCGGTGCCCAGCTCAGGGCTGCCGCGGAGGCCAGCGGCGGCTCATATCACGCGCTGGACAGCCCCGAAGCCGTGGCGGACATCGTCCGGACAGTCCAGCAAACGGAAGCCGCAGCGATGCAGGGTGCGCCCCGTGCAGTGGTGACGGACCTGCCGGACGTTCCCCTGACGCTGGCCCTGCTGTCCGGCCTGGTGCTGGCCGGGGCATCCTGGAGGCTGAGGCCATGA	MELMFWWMIPIAVAAAAVGGWLAFRAGSGDNARRRPVANADRLTALPEYQAALRRHRRWLIVAAVAGITLLVSAVTAAARPVELTTIRPEQRNRDIMLCLDASGSMSSADAAVVDVFGELAREFDGERIGLTIFDSSAIQVFPLTDDYAYVQEQLKLARDAFDGTSGSSTFLEGTWNGRGSSLIGDGLASCVESFPGAGKPEDGTAAKDPEWGSQGAQQRSRSVVLATDNFLSGEPIFTLEQAGALAREKGVRVYALNPGDFDYGTDPTQPGAQLRAAAEASGGSYHALDSPEAVADIVRTVQQTEAAAMQGAPRAVVTDLPDVPLTLALLSGLVLAGASWRLRP	PGPT0014015_4721	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
D1-29_02831	471			hypothetical protein	GTGCAGGATGACCCCGGCTTCTATCCGCCCCTCCAGTACAGCGCGGTGTGGATGTGGCTTGGTCTTGCACTGCTGGCACTCGTTATGGGCTGGTACGCCTGGGTCTTCCTCAGCACCCGGGAACCACGCCAACAGCCCGTAGCGCCCCGGTTCACGCCGCCGTCGGATGTTGCCGGGCTCAAGGAGGCATATCTGCGGCGGATCGATGCCGTGGCCGCCGACGCCGAGGCCGGCCTGCTGACCGCCAGGGAATCGCACCAGGAGCTCAGCCTGCTCGTACGGAAATTCGTGCGGGATGTCACGGGCGTGGACGCGCCCAGGATGACCCTTGCGGAGCTCCAGCGGCACCCGCTGCCCGTGGCCGCCCACGCCGTCAGCCGGATCTATCCGGGGGAGTTCGGGCCCGGGCCGCTGCCGCCTGTTGCCCGCTCTGCCGAGTCTGCCCGCGAGGCGGTGCGGTTGTGGAACTGA	MQDDPGFYPPLQYSAVWMWLGLALLALVMGWYAWVFLSTREPRQQPVAPRFTPPSDVAGLKEAYLRRIDAVAADAEAGLLTARESHQELSLLVRKFVRDVTGVDAPRMTLAELQRHPLPVAAHAVSRIYPGEFGPGPLPPVARSAESAREAVRLWN				NA	NA	NA	NA	NA
D1-29_02832	885			hypothetical protein	GTGGCAAGCCTCCTTCAGCGCGTGAAGGCGAAGATGGCCATCTTCGCCCACCGGAAAGCCCGCGGCATGCTCGACGGCGAGTACGGCTCGGTTTTCCGCGGCCGCAGCCTCGATTTCGATGACCTCCGGGCCTACATCCCCGGGGACGAGGTACGGGACATCGACTGGAAGGCCTCCGCCCGCTACGGGTCCCCGCTGATCAAGCGGTACGTGGCCGTCCGGCGGCAGACCGTGCTGCTGATTACCGATACCGGGCGGAACATGGCCGCGGAGTCCCGTGACGGTGAGCCGAAGAAAGACATTGCCGTGATGGCCCTGGGAGTCATTGGCTACCTGGCGCACCGGCACGGTGACGTGGTGGGTCTGGTGTGTGGTGACGCCGAGAGCACGCGCTCCATCCCGGACAAGGCGGGGGAGGCCCATCTGGAACGCCTCCTGGGCATGGTCCACTCCGGCCCCGGCCTGGACTCCGGTGCCAGCCGGATCGAGGCGCAGCTGGAGTATGTTGCCCGGAACGTCAAGGGCCGGTTCCTGCTGTTTGTGGTGGCGGATGAGATCGCCGCAGGCCCTGCTACCGAGCAGCTTCTGCGCCGGCTCAGGGCACAACACGAAATCCTCTGGCTCACCATTCGCGACGCCGAACTCGCCGGACCGGACCAGTCGGCGGAGGACTCCTTCAATGTGGCCGATTCATCGGTGCTGGCAGGACACCTGGCGGACTCCCCGTCTGTGGCAACGGCCTACGCCCGGGCCTCCGCCGAGCGCGACGCCGGCCGGCACGCCATGTTCCGCCGGACCGGAATTACCGAGGGCCATGTGGCCAGCAGCCACGGGGTTATGACGGAACTCTTCGCCCTCCTGGAGAGGCACCGGCGTGCAGGATGA	MASLLQRVKAKMAIFAHRKARGMLDGEYGSVFRGRSLDFDDLRAYIPGDEVRDIDWKASARYGSPLIKRYVAVRRQTVLLITDTGRNMAAESRDGEPKKDIAVMALGVIGYLAHRHGDVVGLVCGDAESTRSIPDKAGEAHLERLLGMVHSGPGLDSGASRIEAQLEYVARNVKGRFLLFVVADEIAAGPATEQLLRRLRAQHEILWLTIRDAELAGPDQSAEDSFNVADSSVLAGHLADSPSVATAYARASAERDAGRHAMFRRTGITEGHVASSHGVMTELFALLERHRRAG				NA	NA	NA	NA	NA
D1-29_02833	1008			hypothetical protein	GTGCTTCAAACCAGCTTGTCCGCGAGAATAGAACCGGCGGCCCTGGCACGCGCACTGCAGGTCGTTGCCAACATCTCCCGCAGCTTTGAGGCCAAGATGGTGGGCCAGACCCGGCTTCGGGAATCGCTGCTGGTGGGCCTGCTGACCGGCGGGCACATCCTGCTGGAAAGCGTCCCGGGGCTCGCCAAGACCACTGCCGCGCAGACAGTGGCCGAAGCGGTCAGCGCAGAATTCCGCCGGATCCAGTGCACCCCTGACCTGCTGCCCAGCGACATCGTTGGTACGCAGATTTACGACGCGGCCAAAGGCACCTTCGTCACGCAGCTGGGGCCGGTGCACGCCAACATCGTCCTGCTCGACGAGATCAACCGGTCCAGCGCCAAAACCCAGAGCGCCATGCTGGAGGCCATGCAGGAGCGGCAGACCTCGATCGGAGGCGAGGAATACCGGCTGCCGTCCCCGTTCCTGGTGCTGGCCACGCAGAACCCGATCGAGCAGGAGGGAACCTACCAGCTGCCGGAAGCCCAGATGGACCGGTTTATGCTCAAGGACGTGTTGGACTACCCCTCCCCGGCGGAGGAAGCAGAGATCATCCGGCGAATTGACGCTGGCATCTTCACCCCCGAGCAGAAGCCGGCCGCCGCCGCCTCGCTGGAGGCCGTGACCGGGGTCCAGGACCTGGTCAAGCGGATTTACATCGACCCGGCCATTATCAACTACATCGTGGGCCTGGTGTACGTCACCCGGAACGCGGAGCAGTACATCGACCGCCGGCTGGCAGGCTTCATTGAATTTGGCGCCAGCCCGCGGGCAAGCATTGCCTTCAGCCAGGCGGCGCGGGCAGTGGCGCTGCTCAACGGACGGGACCACGTGGTCCCGGAGGACGTGAAATCCCTGGCCCACCGCGTGCTCCGGCACCGCCTCATCCTGGGCTTCGAAGCCGTGGCGGAGCAGGTGCCGGTGGAGAGCATCATCGACGCCGTCGTCGCCTCTGTCCAGACACCCTGA	MLQTSLSARIEPAALARALQVVANISRSFEAKMVGQTRLRESLLVGLLTGGHILLESVPGLAKTTAAQTVAEAVSAEFRRIQCTPDLLPSDIVGTQIYDAAKGTFVTQLGPVHANIVLLDEINRSSAKTQSAMLEAMQERQTSIGGEEYRLPSPFLVLATQNPIEQEGTYQLPEAQMDRFMLKDVLDYPSPAEEAEIIRRIDAGIFTPEQKPAAAASLEAVTGVQDLVKRIYIDPAIINYIVGLVYVTRNAEQYIDRRLAGFIEFGASPRASIAFSQAARAVALLNGRDHVVPEDVKSLAHRVLRHRLILGFEAVAEQVPVESIIDAVVASVQTP				NA	NA	NA	NA	NA
D1-29_02834	324			hypothetical protein	GTGACCGGCAGGCTTGGCCGGCCCGCATCACTCCGTCCGCCATCCTATCCAAGCCAGCTGCCGGGAAAGCGGCAATGGGCAGCCCTCCCCATTGCCGCAGGTCAGGTCTATCCTGTTGAAATGAGCGAGCTTCCAGCCAGTTACAAGAACTTCCTCAACGACAAGGACGAGATGTTCGTCCTCACGGTCAAGCCTGTTCTGCAGCAGTCAGCTGCCGACCAGCTTCATGGTGTCCGGGTCATCTACAACCCGGGGTCCACGGGCCACCAGGCCCACATTGATGAGAGCATTCCGTTTGGAGTGATCATTGAGGATATCGACTGA	MTGRLGRPASLRPPSYPSQLPGKRQWAALPIAAGQVYPVEMSELPASYKNFLNDKDEMFVLTVKPVLQQSAADQLHGVRVIYNPGSTGHQAHIDESIPFGVIIEDID				NA	NA	NA	NA	NA
D1-29_02835	882	sugB_3	COG0395	Trehalose transport system permease protein SugB	ATGACGACGGCGGCACGGGCCTTGCGTACCCGACGCCAGGGCGCCCAAGGCTACCGTTCCGTGGCGCAGCAGCGTGCCCGGGTTCCGGCCGACGCCGCCCTGTTGCTGATCGGCGTCTGCTTTGTCCTGCCCTTGCTGTGGCTGCTGCTGGCTTCCCTGGACCCCGGGGCCGGACACCAGACCCGCCTGCCCGAAGAATTCTCCCTGGCAAACTTTTCCGCGATCATGACAACAGGGCTGCTCTTCCAGCCTTTGTGGAACAGCTTTGTGCTCTCTGCCGGGACAGCGGCCGTCACCCTCGTGGCAGCTGTCCTGGCCGCCTATCCGCTGTCCCGCTACCAGTCCAGGTTCAACAGGCCGTTTATGTACACCATCCTGTTCGGGACCTGCCTGCCGATTACGGCCATCATGGTGCCGGTGTACGGGTTGTTCGTCCAGCTGCGGCTGCTGGACTCGATGCCGGCCACTATCTTCTTTCTGGCCACCACCGCGCTGCCCATGGCCATCTGGATGACCAAGAACTTCATGGACGCAGTGCCCGTGTCCCTCGAAGAGGCAGCCTGGGTTGACGGCGCCTCAGGGCTGACAGCATTGCGCACCATCGTCCTTCCCCTGATGCGCCAGGGGCTGGGCGTCGTCTTCATTTTTGTGTTCATCCAGGCCTGGGGGAACTTCTTTGTTCCCTTTGTGCTGCTCCTGTCCGAGGCGAGGCAGCCTGCGGCCGTATCCATCTTCAGCTTCTTCGGACAGCATGGAGCGGTGGCCTACGGCCAGCTGGCCGCGTTCTCCATCCTGTATTCACTCCCGGTGCTGGCCCTCTATGTCATCGTGGCAAAGGGTGCCGGCAGTTCGTTCACGATGTCCGGCGCCGTTAAGGGCTAA	MTTAARALRTRRQGAQGYRSVAQQRARVPADAALLLIGVCFVLPLLWLLLASLDPGAGHQTRLPEEFSLANFSAIMTTGLLFQPLWNSFVLSAGTAAVTLVAAVLAAYPLSRYQSRFNRPFMYTILFGTCLPITAIMVPVYGLFVQLRLLDSMPATIFFLATTALPMAIWMTKNFMDAVPVSLEEAAWVDGASGLTALRTIVLPLMRQGLGVVFIFVFIQAWGNFFVPFVLLLSEARQPAAVSIFSFFGQHGAVAYGQLAAFSILYSLPVLALYVIVAKGAGSSFTMSGAVKG	PGPT0016540_2978	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
D1-29_02836	879	melD_9	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	GTGCAGGTTCTCCGCAGCAGGGGGTGGGTCCGTCTCCTGCCGGTGGTTCCAGCGGTCCTCCTGCTGCTGGTCTTCCTGGCCGGCCCCATCCTTTGGGCGTTCCATGCGTCCTTTACCAACGCCGCCCTGACAGGACGCAACGCCCGCAGCCCGGCCTGGGTGGGACTCGAGAACTATGCGCGGCTGTTCGCGGATCCGGTCCTGCCGCTGTCCCTTGGCCTGACTGTCCTGTTCGTGGGCGGCTCTGCCATCCTCGGCCAGAACGTCCTGGGCCTGTCCCTCGCCGTGCTCATGCGGCGGGCCAGCCGGTTCGTGTCCGCCGTCGTCGGTACCGCCGTTGTGGCTGCCTGGGTGCTTCCGGAGATTGTGGCCGCCTTCGCGGCGTATGCATATTTCAGCCGCGACGGCACCCTGAACCAGCTGCTGGCCGGACTTGGAGTGGGGCAGCCGGACTGGCTCTATTCGTTCCCGATGGTGGCGATTATGCTCGCTAACGTCTGGCGCGGCACCGCGTTCTCCATGCTGGTGTACCGGGCCGCCCTTAACGATGTGCCAGGTGAGGTCACGGAAGCGGCCGTGATGGACGGCGCAGGCGGCTGGCAGCGGCTGGCCTATGTCACCCTTCCCATGATCCGCGGGAGCATAGCCACCAATCTGATGCTCGTCACGCTCCAGACCCTGGCTGTTTTCACCCTGATCTGGGTGATGACAGCCGGCGGGCCCTCCAACGCCAGCACCACCCTTCCCGTCCTGGCATACCAGGAGGCCTTCAAGTTCGGAGACATAGGCTACGGAACCGCTGTTGCCTCGGTGCTGATCCTCATCGGCGTGGTGTTCGGTGCGGCGTATATCCGGCTTCTCCGGGATCCCAAACCATGA	MQVLRSRGWVRLLPVVPAVLLLLVFLAGPILWAFHASFTNAALTGRNARSPAWVGLENYARLFADPVLPLSLGLTVLFVGGSAILGQNVLGLSLAVLMRRASRFVSAVVGTAVVAAWVLPEIVAAFAAYAYFSRDGTLNQLLAGLGVGQPDWLYSFPMVAIMLANVWRGTAFSMLVYRAALNDVPGEVTEAAVMDGAGGWQRLAYVTLPMIRGSIATNLMLVTLQTLAVFTLIWVMTAGGPSNASTTLPVLAYQEAFKFGDIGYGTAVASVLILIGVVFGAAYIRLLRDPKP	PGPT0016535_5259	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
D1-29_02837	1353			hypothetical protein	ATGCGTCGCCGGGCACTGAAAATTACCTCCCTCATCGCTTCCGCAGCCTTTGCCTTGGCTGCCTGTTCCCCAGCTTCCCCCGAATCCGAGACGAAGACCCTGAAGGTGGTTTATCAAAAAACCGATTCCTTCACCGCCCTGGACGACATGTTCAAAGCGGCCAAGGCAGAGTTTGAGGCTGCCCACCAGGGCGTCACGGTTGAACTGGAGCCCATCCAGGCAAATGACGACGACTACGGCACCAAGCTTGCCCTCGCCCTGCGTTCCCCTTCCACCGCCCCGGACGTCTTCTACGAAGACACGTTCAAGGTCCGCTCCGACGTCGACGCCGGTTACCTGCTGAAACTGGACAGCCACCTCCAGGAGTGGAAGGACTGGGACAGTTTCGACGACGGCGCGAAGGCCGCCGGGCTGGGCGACGACGGCGGCACGTACGCAGTCCCGGTCGGCACCGATACCCGCGCCATCTGGTACAACAAGAAAGTTCTTTCAGCCGCCGGCGTCAGCGTCCCGTGGGAACCGCGCAGCTGGCAGGACATCCTGGACACCGCCAGGAAGATCAAGGCAAGCGACCCCTCGGTGGTGCCGTTCAACATGTATGCGGGCAAAGCCACCGGTGAGGGCACCGTGATGCAGAGCTTCTATGAACTGCTCTACGGGACCGGGTCCGAGCTGTACGACGCCGATGCCAAAAAGTGGGTTGTGGGCTCTGCGGGCTTTACTGACTCGCTGGCGTTCCTCAAGACCCTGTACGACGAGAAACTTGCCGTCTCCCCGGCCGAGGCCCTGGATGCGAACGTCTGGAAAAAGGTGTTCGGCGAATGGCTCCCGCAGGGAAAGATGGGCGCCACGGTGGAAGGATCCTACTCGCCGTCGTTCTGGCAGAAGGGCGGAAGCTACGAATGGCCCGGATATGAGCAGGATATGGGGGTGGCCGCTTTCCCCACGCAGAACGGCCAGGCACCCGGGGGAGTCAGCATGTCCGGCGGCTGGACACTGGCCATCGGTGCGGGCACCAAGGATCCGGATCTGGCTTTTGATTTCCTGAGCACTGCCCTGAACCAGAAGAACTCCCTCGCCTTTAATATCGCCAGCTCACAGATCGCCGTCCGGAAGGATGTTGCGGCAGATTCCGGCTACCAGGCCGCCAACCCGTTTGTGAAGGACGTGTCCGAGCTGGTGTCCGTTACCCGCTACCGGCCGGCAACTGCGGATTACCCCAGGATTTCAGCTGCCGTCCAGGAGGCCACGGAAGCCGTCATTACCGGCGCGAGGTCGCCGGAACAGGCAGCCGCGGACTACGACGCCGCCGTCAAAGGCATCGTGGGCGAAGACAAAACCGTCCGGAAGTAG	MRRRALKITSLIASAAFALAACSPASPESETKTLKVVYQKTDSFTALDDMFKAAKAEFEAAHQGVTVELEPIQANDDDYGTKLALALRSPSTAPDVFYEDTFKVRSDVDAGYLLKLDSHLQEWKDWDSFDDGAKAAGLGDDGGTYAVPVGTDTRAIWYNKKVLSAAGVSVPWEPRSWQDILDTARKIKASDPSVVPFNMYAGKATGEGTVMQSFYELLYGTGSELYDADAKKWVVGSAGFTDSLAFLKTLYDEKLAVSPAEALDANVWKKVFGEWLPQGKMGATVEGSYSPSFWQKGGSYEWPGYEQDMGVAAFPTQNGQAPGGVSMSGGWTLAIGAGTKDPDLAFDFLSTALNQKNSLAFNIASSQIAVRKDVAADSGYQAANPFVKDVSELVSVTRYRPATADYPRISAAVQEATEAVITGARSPEQAAADYDAAVKGIVGEDKTVRK	PGPT0016545_2811	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
D1-29_02838	1254	nagC_3	COG1940	N-acetylglucosamine repressor	GTGTCCGAGATCCGCCAGCCCTCGCCAAGGCGCGGAACCAACCTGCCCAGGATGGGGGACTTCAACCTCACCGTCATCCTGGATGCCATCCGCCGGTCTTCCGGCGGGCTCAGCCGGGTGGAGCTCGCCCAGATCGTGGGCCTTTCACCCCAGACGATTTCCAACATCTCCCGCCGCCTGCTGGATCAGCACCTGATCATTGAAGCTGGCAAGGAAGGCAGTGGTCCGGGGAAGCCGCGCACCATCCTCCGCCTCAACCCCTCTGGCATGTACGCCATCGGTGTTCATCTGGACCCCGCCGTGACAACCTTTGTGGTCCTGGACCTGGTGGGAGCGGTGGTTCAGCACTCCAGGATCAAGACCCCCGGCGGCAACGATCCGGCCGCCGTCATCTCCACCATCGCTGCAGAAATCGGGCAGCTTGTGGCAGACTCCGGCGTGGACACCGCCAAGATCGCCGGCCTGGGGCTGGCGGCTCCCGGCCCCATAGACCTGGATAACGGAACAGTGGTGGAGCCGCCGCTCCTGCCCGGCTGGGACCGGGTGGAACTGCGCAACGCCCTGGCTGAGGCCACCGGTTATTCCGTGCTGGTGGACAAGGATGTCACCAGCGCCGCCGTCGCCGAAACCTGGGCGGGCGGCCCCAGCGGCGCCGGCAGTTTCATCTTTATGTACATGGGGACCGGCATCGGCTGCGGCATCGTGCTTAACGACGAGGTGGTCCGCGGAACGTCAGGCAACGCCGGCGAGATCGGCCACATCATCGTGGACCCGGACGGTCCCTCATGCGACTGCGGCCTGCGCGGCTGTGTGAAATCATCCTGCATCCCGCAGGTGCTGGTGGCCCAGGCAGAAGCCGCCGGAATCCTCGAGGGTACCCTGCCGGCCACCACGGGTGCCGAGGTGCAGGAGAGTTTTTCCCGGCTGTGCGACCTTGCCGATGCCGGCGACACGCGGGCGCTGGGCATCATCGACAAATCCGCCACCCTGGTGGCCCGCGCCGTCTCGGTGGTCACCAACACCCTGGACGTGGAACGGGTGGTGTTCGGCGGGCCTTTCTGGACCAGGATGTCCCAGCGCTACCTGGAGAAAGTGCCCGGCCTGCTGGACGCAAACAGTGCAGCACGCAAGATCCACACCATCGAAGTGGTTGGTACGGGGGTAGGTGAGGATGTGGGCGCCATCGGTGCAGCGTGCCTGGTCCTGGAACATATGCTGGCTCCCCGGGCCCAGCGGCTCCTTCTCGAAAGCTGA	MSEIRQPSPRRGTNLPRMGDFNLTVILDAIRRSSGGLSRVELAQIVGLSPQTISNISRRLLDQHLIIEAGKEGSGPGKPRTILRLNPSGMYAIGVHLDPAVTTFVVLDLVGAVVQHSRIKTPGGNDPAAVISTIAAEIGQLVADSGVDTAKIAGLGLAAPGPIDLDNGTVVEPPLLPGWDRVELRNALAEATGYSVLVDKDVTSAAVAETWAGGPSGAGSFIFMYMGTGIGCGIVLNDEVVRGTSGNAGEIGHIIVDPDGPSCDCGLRGCVKSSCIPQVLVAQAEAAGILEGTLPATTGAEVQESFSRLCDLADAGDTRALGIIDKSATLVARAVSVVTNTLDVERVVFGGPFWTRMSQRYLEKVPGLLDANSAARKIHTIEVVGTGVGEDVGAIGAACLVLEHMLAPRAQRLLLES				NA	NA	NA	NA	NA
D1-29_02839	1161	rlmG	COG2813	Ribosomal RNA large subunit methyltransferase G	GTGGCACAGAACAGTCTCGAGGATGTCTTCGGAGCACTCCGGCGGCGCCCGGACGTGGAAGCGCCCAACCTCCAGGCATGGGACGCCACAGACAAGCTCCTCCTGGAAGCCGCTGCCGCACTGGCTGGCGCCGACAGTAAGGTCGCGGTCATAGGCGACCGCTATGGCGCACTGGCCCTCGGCTGCCTGTCGGTACTGGGCATCCGCACTGTCAGGGTGCACCAGGACCTCATCACGGGGGAGCGTGCGCTCCGGAACAATGCCCTGGCCCTGGGAGTGGGCTCCGAGGCCGGGGGAGCCGGAGCCGGGTTTGTCCAGTTGCCGCTTGGCGAGGAGCTGCTGTCCGGCGCCGGCATTGTCCTCCTGCAGTTGCCCAGAAGCCTTGCGGAGCTTGAAGAGATTGCCGATGCCGTGGCACGTTACGCAGCACCGGACGCCGTGCTGCTGGCCGGCGGTCGCGTCAAGCACATGTCACTGGGCATGAACGCGGTTCTGGAACGGCACTTCGGCACGGTCCAGCCGCAGCTTGCCCGGCACAAGTCCCGCGTCATCCTGGCCCGTGGCCCACAGCCGCCCTCGGGGCCGGTTCCTCTTCCCCCGGTGGAGCACCTGCCGGAGCTGGGCCTTGACGTTGCTGCGCACGGAGCCGTGTTCGCCGGACCGCGGCTGGACATCGGCACGAGGTTCCTGCTCACCTTCCTGCCGGAGATGCCTGCCGCCCGGAACGCCGTCGATCTGGGTTGCGGAACCGGCATCCTGGCTGCCATGTATGCCCGGGAATACCCTGATTCCACGGTGACGGCGACTGACCAGTCGGCGGCGGCCGTCGCCTCCGCCCTGGCCACTGCCCGAGCCAACGGACTCGGCCACAGGATCAGCGTCCTGCAGGATGATGCGATGAGCACCATGGCGGACGGAAGTGCGGACCTGATCCTGCTGAACCCGCCGTTCCACCTGGGATCCAGCGTCCATGCCGGCGCCGGAATCAAGCTGTTCGAGGCGGCTGGGAGGGTCCTGGCCCCCGGCGGTGAACTCTGGACGGTGTTCAACCGTCACCTGCACTACCTGCCGGCGCTGGACCGTCTGGTTGGGCCCACCACGGTCAAGGGGCAGAACCCCAAGTTCACGGTGGCGGCCAGCCGAAAGCTGCCGCTGGGATAA	MAQNSLEDVFGALRRRPDVEAPNLQAWDATDKLLLEAAAALAGADSKVAVIGDRYGALALGCLSVLGIRTVRVHQDLITGERALRNNALALGVGSEAGGAGAGFVQLPLGEELLSGAGIVLLQLPRSLAELEEIADAVARYAAPDAVLLAGGRVKHMSLGMNAVLERHFGTVQPQLARHKSRVILARGPQPPSGPVPLPPVEHLPELGLDVAAHGAVFAGPRLDIGTRFLLTFLPEMPAARNAVDLGCGTGILAAMYAREYPDSTVTATDQSAAAVASALATARANGLGHRISVLQDDAMSTMADGSADLILLNPPFHLGSSVHAGAGIKLFEAAGRVLAPGGELWTVFNRHLHYLPALDRLVGPTTVKGQNPKFTVAASRKLPLG				NA	NA	NA	NA	NA
D1-29_02840	1101			Ferredoxin--NADP reductase	GTGAAAACTTCCTTTACTGACGTTGTGGTTGTCGGCGCCGGGCAGGCCGGGCTGTCGGCCGCCTATCACCTCCAGCGCCGGGGGCTGAAGTACATAGTGCTCGACGCCGAAGCAGGACCGGGAGGTGCCTGGCGGCACAGGTGGAAGAGCCTCCGGATGGCCACCGTTAACGGCATCAGCGACCTCCCCGGGATCGGCAAGCCTGCCGTGGATCCCGCGGAACCCAGCTCGGAGTTCCTGACCCGCTACTTTGATGCCTACGAACAGGAACTCGGGCTGGCGGTCCGGCGGCCAGTCAAAGTGGCCGCGGTTACCAGGGAGGATGCGGATCCGGCCGGCAGGCTCCGAATCAGCACCAATGCCGGTGACTGGTCGGCCAAAGCAATCATCAACGCCACCGGAACATGGACCAGGCCCTTCTGGCCCATCTATCCCGGCCAGTTCACCTTTCGTGGCAGGCAGCTCCACGTGGCTGACTACGTCTCTGCCGACGAGTTCCGCGGGCAGCACGTCATTGTGGTGGGAGGCGGGATTTCCGCCGTCGGCCTGTCGGATGAGATCTCCCAGGTCACCACCACCAGCTGGTTTACCCGGCGCGAGCCGGAGTGGCGCGACGTCGAATTCGATGCCCAGGCGGGGCACAACGCCGTCGCGCTGGTGGAAGAACGTGTCCGCCAGGGGCTTCCGCCCCAAAGCGTCGTGGCTGTCACCGGGCTGATCTGGACGCCTGCCCTGCGGGCGGCAGCACAGCGCGGCGCGCTCAACCGGCGTCCCATGTTTACCGCCATTGAGCCCGACGGCGTCCGGCTTGCGGACGGAGGCCTGGTCAAGGCGAATGTGATCCTGTGGGCCACGGGCTTCCGCGCCGAGCTGGAACACCTGGCCCCGCTTCATCTCCGCGGACCGGGCGGCGGCATTGCCATGGACGGAACCCAGGTGGCCGCCGAACCGCGGGTTCACCTTGTGGGCTATGGGCCGTCGTCGTCCACCATTGGTGCAAACAGGGCAGGCAGGGCAGCAGTGGCGGCTCTCCTGAAGCTTCCCGGCCTGCGGCCGCAGGCGGAGACGGTAGATTTGCCTGACCCCAACATTTTGGCTTGA	MKTSFTDVVVVGAGQAGLSAAYHLQRRGLKYIVLDAEAGPGGAWRHRWKSLRMATVNGISDLPGIGKPAVDPAEPSSEFLTRYFDAYEQELGLAVRRPVKVAAVTREDADPAGRLRISTNAGDWSAKAIINATGTWTRPFWPIYPGQFTFRGRQLHVADYVSADEFRGQHVIVVGGGISAVGLSDEISQVTTTSWFTRREPEWRDVEFDAQAGHNAVALVEERVRQGLPPQSVVAVTGLIWTPALRAAAQRGALNRRPMFTAIEPDGVRLADGGLVKANVILWATGFRAELEHLAPLHLRGPGGGIAMDGTQVAAEPRVHLVGYGPSSSTIGANRAGRAAVAALLKLPGLRPQAETVDLPDPNILA	PGPT0013865_1487	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013865-czcO|noxC|yrdP|trkA|hapE-K07222	NA	NA
D1-29_02841	1305		COG2230	putative fatty acid methyltransferase	ATGACGAAGACAAAGGGAGCTGCATCACGGCTGGCGAAGGCGCTTGCCATCGTACTGGGCACCGAGGAGATCCCGCTCCGGCTGCGGGCGTGGGATGGATCGGAAGCAGGCCCGCCGGATGCCCCGGTGATTGAATTCCGCTCCCGGCGTGCGCTGCGCCGGATTCTGTGGTCGCCCGGACAGCTGGGGCTGAGCCGGGCTTATGTCGCGGGGGAAGTGGATGCACCGGGCGACATTTTCGCCGCTTTCAAGGCGCTGAGCTCGGCCGGTAAATTTGCTGAACCAGGGCCATTCCGGCCCCTCACGCCGGCAGAACTCTTGACGCTTTTCAGGACAGCCGTCAGGCTCGGCGCGCTGGGGCCCAACCCGGCTCCCCCGCCGGAGGAAGCACGCATCTACCGTCAGGGCCAGCGGCATTCCAAGCGCCGGGACGCCGCCGCGATCTCACACCACTACGATGTCGGCAACGACTTTTACGCCCTGGTTCTGGGGCCGTCGATGGTCTACTCCTGCGCGGTGTGGGAAAACCCGGCCCACGACGAGGATGACCTGCCGGCAGGGCTGGACGCGGCCCAGCAGGCCAAGCTGGATCTGGTGTGCCGCAAGCTGGGCCTGAAGCCCGGGATGCGGGTACTGGACGTGGGCTGTGGCTGGGGAAGTTTCGCCCTGCATGCCGCCCAGCATTACGGCGTCACGGTGGTTGGCGTTACGCTCTCCAACGAGCAGGCGCTGCTGGCACGCAAGCGCGCAGCCGACGCCGGGCTGACGGAACACATCGACATCCGGGTCCAGGACTACCGCGATGTTGACGATGGGCCGTTCGACGCGATCAGTTCCATTGGCATGTCCGAGCACGTCGGCCGTGAACAGACGCCGCACTACGTCGCCCGGCTCCATGATCTGCTCCGCCCAGGCGGCCGGCTGCTCAACCACGCCATTTCCTGGAATGCCGGTCCCACCAGTCCTGATCCGGACTCCTTTATCCCGCGCTATGTCTTCCCGGATGGCGAAATGCTCAGCCTCGGCGAGATGGTCACGGCGCTGGAGTCCGGCGGGCTGGAGATCCTGGATGTCGAGGCATTGCGGCCGCACTATGCGCTGACACTGCGGGCCTGGGTACGGCGGCTCGAGGATCATTGGGATGAAGCCGTCAGGCTCACCAGTCTGGGCCGGGCCCGGGTCTGGAGGCTGTACATGGCATCGAGCGCCCTGGGATTTGAGGCTGGCCTGACGGGAGTGAACCAGGTGCTGGTGCAGCGGCACGGCGGAGCCCAACCTCCTCTGCGCCGGACGGAATGGGTCTGA	MTKTKGAASRLAKALAIVLGTEEIPLRLRAWDGSEAGPPDAPVIEFRSRRALRRILWSPGQLGLSRAYVAGEVDAPGDIFAAFKALSSAGKFAEPGPFRPLTPAELLTLFRTAVRLGALGPNPAPPPEEARIYRQGQRHSKRRDAAAISHHYDVGNDFYALVLGPSMVYSCAVWENPAHDEDDLPAGLDAAQQAKLDLVCRKLGLKPGMRVLDVGCGWGSFALHAAQHYGVTVVGVTLSNEQALLARKRAADAGLTEHIDIRVQDYRDVDDGPFDAISSIGMSEHVGREQTPHYVARLHDLLRPGGRLLNHAISWNAGPTSPDPDSFIPRYVFPDGEMLSLGEMVTALESGGLEILDVEALRPHYALTLRAWVRRLEDHWDEAVRLTSLGRARVWRLYMASSALGFEAGLTGVNQVLVQRHGGAQPPLRRTEWV	PGPT0007680_728	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
D1-29_02844	402	rsfS	COG0799	Ribosomal silencing factor RsfS	GTGTCTGCATCAGCTTCATCCATATCCATAGCCCGCCAAGCCGCCAAGGCCGCCGCGGACAAGATTGCCCAGGACATCGTTGCCCTGGACGTCAGCGAACGCCTGGCCCTTGCCGACGTCTTCCTGATTGCCTCCGCCCCCAGCGAACGCCAGGTCAACGCCATCGTCGACGGCATAGAAGAGGAACTTTCCAAGCAGGACCTCCGCCCTGTCCGGCGCGAGGGACGTTCCGGCGGACGCTGGGTACTCCTGGACTACTCCGACATCGTCATCCACGTCCAGCACGAGGAAGACCGTGTTTTCTATGCACTGGAGCGCCTCTGGAAGGACTGCCCCGTAGTGGACCTGCAGCTGGGAGACGACGCCTCGGCCAAGGCAACAGCCTCCACAGAATCGGAATAA	MSASASSISIARQAAKAAADKIAQDIVALDVSERLALADVFLIASAPSERQVNAIVDGIEEELSKQDLRPVRREGRSGGRWVLLDYSDIVIHVQHEEDRVFYALERLWKDCPVVDLQLGDDASAKATASTESE	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
D1-29_02845	1302			hypothetical protein	ATGAGTCAGGAACAGCCCCCCGTCCGCAGCCGCCGCGAATTGCGGCAGGCCAGAGATGAGCAAAAGGCTACCGGGTCAACAGGCCCGGGCCAGGTTTCGCCTGCCTCAAAACAACCGCCTTCAAGGCCGGCAGACTCCCATGACCAGCTTCAGGCCGAGCGTTCCTCGCAAATTCGTGCGCGTGACCGTGCAACACTCCGCACGCTCAAGGAGCTGGAGGAAAAAGAGGAACAGCTGGCAGCCGGCGGACCGCCCACCCGCAGGCAGCGGCGGCTTCAGCAGCTCAAGGAGCAGGCCGTCACGTCGGCCAACCCGATAGTTCCACCCGCTCCGGGCCAGGCTCCCGACTCCCTGCGGGGTGCCGCTGCTGAAACAGCGGCGGTGCAGGCGGCTTCGCACCAACCTGCTGCGTCCCAACCTGCTCCCTCTCCGTCTGCTCCCTCTTCGTCTGCTCCCTCTTCGTCTGCTCCCTCTCCGTCTGCTCCCTCTCCGAGGGGGACCGGCATTCCGGATGGCATCAGCGTTGAGCAGGCACTGGCCGCGCGGTCGCTGATTGCCGAACAGGCCAAGAACCAACTCGCCAAAATGGAGCACATCGCTTCCCTGGATCCCGAGGCCGTTGACCCGGACGTTCTCGCGGAGCAGATTGCATTGGCGGAACGCGCCGCGGTGCTGAACCGCCGGGCCATGGCCAAGCAGAAGCTCGCCGAGCAGGCGTCCGCACCAGCGGCCCCGCAAACATCGTCGATGCAGGCCTCCGCGCCGGGCTCCCAGCCAGCCGTCACCCGGCCGGCCCCCTCGGCAACCACCAACCTCGCGATGGTCACGCCGCTGGAGTTTGTCCAGGTCCCGGGCGTGGACCGTCCGGTCATGAAGCCGCCCGCCACCTCCTACGTGCCGGTGGTCACGAACCCCGGGCCCATCCAGCCGTCCACCGGCAAGGGCCGCAAGCCCTCCACCACGGCCAGGCCGGCGGGCACCGGCACTGCGGCTGCCGCCAGCGGCCGTTCAGGGGTTATTGCACGCGCTGAAGCAGCTGCCCGGGCCGCCCAGCCCAGGCCCGCTGTATCCGTCCCGGCCTCCCGGCCTGCCGCGCCACAGGCCGGAAACCTGGACGACCTTTTTGATGACCTTCCCCGCATCCCCGCCCGGTCCGCCCACGGGCTGGAGCCATTGGATGCGGCCACCGCAGGGCTGGGCCGAGCCAAGCGGATGCGCCTCGTGCAGTTCGGGGTCCTGGCCTTCGGGATCATCGCTCTCATATCCGGCATCATCCTGATCATCAGCGGCATCACGCGCTGA	MSQEQPPVRSRRELRQARDEQKATGSTGPGQVSPASKQPPSRPADSHDQLQAERSSQIRARDRATLRTLKELEEKEEQLAAGGPPTRRQRRLQQLKEQAVTSANPIVPPAPGQAPDSLRGAAAETAAVQAASHQPAASQPAPSPSAPSSSAPSSSAPSPSAPSPRGTGIPDGISVEQALAARSLIAEQAKNQLAKMEHIASLDPEAVDPDVLAEQIALAERAAVLNRRAMAKQKLAEQASAPAAPQTSSMQASAPGSQPAVTRPAPSATTNLAMVTPLEFVQVPGVDRPVMKPPATSYVPVVTNPGPIQPSTGKGRKPSTTARPAGTGTAAAASGRSGVIARAEAAARAAQPRPAVSVPASRPAAPQAGNLDDLFDDLPRIPARSAHGLEPLDAATAGLGRAKRMRLVQFGVLAFGIIALISGIILIISGITR				NA	NA	NA	NA	NA
D1-29_02846	726	nadD		nicotinate-nucleotide adenylyltransferase	ATGCCGATCCGCACCGCCAGCACCCGAACAAGCACGACCACGGCCAGGGCCACTAACATTTCCCGCGTCCTGCACCATAACGGTGCTAAGGGCCGGCTGCGGCTGGGCGTGATGGGCGGGACATTTGATCCCATCCATCACGGCCACTTGGTCGCGGCCAGTGAAGTGGCTGCCAAGTTCGGCCTGGACGAAGTTGTTTTTGTTCCCACCGGGCAGCCTTGGCAAAAAACGCACAAACACGTCAGCGAGCCGGAGCACCGCTACCTGATGACGGTGATCGCCACCGCGTCGAACCCCCGCTTTACGGTCAGCCGGGTGGACGTTGACCGTCCCGGCCCCACCTACACGATTGATACGTTGCGTGACCTGCGGACCCAGCGTCCGGACGCTGATCTGTTCTTCATCACCGGCGCGGATGCGCTGGCCCAGATCCTGTCGTGGAAAGACATCGACGAACTCTGGTCCTTGGCGCACTTTGTCGGCGTGACCAGGCCAGGGCACATACTTGACGGCATGGGCCGGAAGGATGTGAGCCTGCTCGAGGTGCCCGCCATGGCCATTTCGTCGACGGACTGCCGCGCCAGGGTGGCCGAGCACAACCCTGTCTGGTATCTCGTGCCGGACGGCGTCGTGCAATACATTGCAAAATATGGACTGTACTCCAAGGGGACAACACCCGCGGACGTACCTGCTTCCGAAACAGCCGAACCAGCAAGCACTGAATGA	MPIRTASTRTSTTTARATNISRVLHHNGAKGRLRLGVMGGTFDPIHHGHLVAASEVAAKFGLDEVVFVPTGQPWQKTHKHVSEPEHRYLMTVIATASNPRFTVSRVDVDRPGPTYTIDTLRDLRTQRPDADLFFITGADALAQILSWKDIDELWSLAHFVGVTRPGHILDGMGRKDVSLLEVPAMAISSTDCRARVAEHNPVWYLVPDGVVQYIAKYGLYSKGTTPADVPASETAEPASTE	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
D1-29_02847	225			hypothetical protein	ATGCTGCTCCAGCAGATAGCCACGTCCACTGCAGAACATGAGGAACTCGCCCCGCTGTGGGCCGAGCCGTGGGTGTTTGGTGCCGTGATTTTCGCCATCCTTCTGGTCATGATGTTCATCACCCTGTCCTACTCCAACCTCGGCAACCGCCACGCTGCCACGGAAGAGCATGCCGATCCGCACCGCCAGCACCCGAACAAGCACGACCACGGCCAGGGCCACTAA	MLLQQIATSTAEHEELAPLWAEPWVFGAVIFAILLVMMFITLSYSNLGNRHAATEEHADPHRQHPNKHDHGQGH				NA	NA	NA	NA	NA
D1-29_02848	1365	proA	COG0014	Gamma-glutamyl phosphate reductase	ATGACTGAGGCACTGATCCATAATTCTGCTGCGATTTCCGGGGACGACACTGCGGTCTCCGCTGCCCCGCAGACGCCGGATTCTTCTGCCGTCCCGCTGTCAGTTGAGGACGTCCAAGCGGCGGTACACGCTGTGGCTGACCGTTCCCGCCATGCGGCGCGCCGGATGGCGAGGGCCAACCGTGCCTGGAAGGACCGCGGTCTCAAGGCGATCGGTACCGCGCTGCTGGAGCGGAAGAACCTCATCCTTTCCGCGAATGCCAAGGATGTCGCCGCCGGCAAGGCAAACGGCACCTCTGCTGCCCTGCTGGACCGGCTTACGCTGACGGAAGCCAGGATCGATGGCCTCGTGTCCGCCCTGGAGAACCTGGCCACCCTGCCGGACCCGGTGGGCAACGTGGTCCGCGGCCAGACCCTTCCCAACGGGCTGCGCCTGCGCCAGGTCAACGTACCCATGGGCGTTGTGGCGGCTATTTATGAAGCCCGGCCCAACGTCACGGTGGACATCGCGGGGCTTGCCCTGAAGAGCGGCAACGCCGTTATCCTCCGGGGCGGCAGTGCCGCGGCAGCCACCAACGAGGCGTTGGTCCACGTGATCCGGGAAGCACTGGACTCCGTGGGGCTGCCGTCCGATGCCGTGCAGACCGTGGACCAGTACGGACGCGAGGGCGCCAATGCCCTGATGGGTGCCCGGGGCCGTGTGGATGTCCTGATTCCCCGGGGCGGACGCGAACTCATCCAGACTGTTGTCCAGAACTCCGCTGTGCCCGTCATCGAAACCGGTGAGGGCAACGTGCATATCTTCATCGACGAGTCGGCCACGGAGGAGATGGCGGTGGAGATCCTCCTGAACGCCAAAACACAGCGGCCCAGCGTCTGTAATACCGTGGAGACCCTGCTGGTCCATTCGCGGTCCACCGTGCTGCCCGCCGTTGCTGCTGCCTTGCGTGGCGCCAACGTCACCCTGCATGCCGACGACCGCGTCCGCGCGGCCCTGCCGGCTTCCATCGAGTCGGAGGCTGCCACCGACGAGGACTGGGCCACGGAGTACATGGACCTCGATCTCGCGGTGGCCATGGTGGACAGCCTGGATGAGGCAGTCCAGCACATCCGCACGTGGTCCACCGGCCATACCGAAGCCATCCTCACCAACGACCTCTCCAACGCCGAGCGGTTCATTGCCGAGGTGGATTCCGCGGCCGTCATCGTCAATGCCTCCACCCGCTTTACCGACGGCGGCGAGCTTGGCCTGGGTGCCGAGGTGGGTATCTCCACCCAGAAGCTGCATGCCAGGGGTCCGATGGGACTGACTGAACTGACCACCACCAAGTGGATCGTGCAGGGCGAGGGCCAAGTCCGCGGGTAG	MTEALIHNSAAISGDDTAVSAAPQTPDSSAVPLSVEDVQAAVHAVADRSRHAARRMARANRAWKDRGLKAIGTALLERKNLILSANAKDVAAGKANGTSAALLDRLTLTEARIDGLVSALENLATLPDPVGNVVRGQTLPNGLRLRQVNVPMGVVAAIYEARPNVTVDIAGLALKSGNAVILRGGSAAAATNEALVHVIREALDSVGLPSDAVQTVDQYGREGANALMGARGRVDVLIPRGGRELIQTVVQNSAVPVIETGEGNVHIFIDESATEEMAVEILLNAKTQRPSVCNTVETLLVHSRSTVLPAVAAALRGANVTLHADDRVRAALPASIESEAATDEDWATEYMDLDLAVAMVDSLDEAVQHIRTWSTGHTEAILTNDLSNAERFIAEVDSAAVIVNASTRFTDGGELGLGAEVGISTQKLHARGPMGLTELTTTKWIVQGEGQVRG	PGPT0014215_144	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014215-proA-K00147	NA	NA
D1-29_02849	1137	proB	COG0263	Glutamate 5-kinase	ATGGCCGCGGTACCGGCAGGCCGGTCCGCGGACAGAACCGTGCTTTCGGGCGCCCGCAGGATTGTTGTCAAGGTGGGCTCTTCGTCGCTGACCAGCATCAAAGGCGGCATCTCCGAAGAAGCCCTGACCGCGCTGGCGGACGCCCTGGCCGCCAAACGGAACGCCGGCACCGAGATCATCCTGGTGTCCTCCGGCGCCATTGCGGCCGGCCTTGCGCCCCTCGGACTGGCCAAACGCCCCCGCGACCTGGCCACCCAGCAGGCCGCCGCCAGCGTGGGGCAGGGCCTGCTGATGGCACGCTACACGCAGGCGTTTGGTGCCCATGGCGTAACTGTCAGCCAGGTCCTGCTCACCGCCGATGACCTGATGCGCCGAAGCCAGCACACCAACGCGTTCCGCGCCCTGGACCGCCTCCTCAACCTCGGTGTGGTGCCGGTGGTCAACGAGAACGACACCGTGGCCACCCACGAGATCCGCTTCGGTGACAACGACCGGCTGGCCGCCCTGGTCGCCCACCTCGTCAGGGCCGATGCGCTGGTACTGCTCTCCGACGTCGACTCCCTGTACGACGGCCCGCCGTCGCATGGTGCCAAGCGCATCCCCTTGGTGGAAGGCCCCCACGATCTCGACGGCGTTTCCATCGGCAAAGCCGGGAAAGCAGGTGTTGGTACCGGCGGGATGATGACCAAGGTGGAAGCCGCCACCATTGCGGCAGGCTCCGGAATCCACGCCCTGGTTACGTCGACGGCCAACGCGGCCGCCGCCCTGGCTGGCGAAGACGTGGGCACCTGGTTCACCGTCAACGGGGCGCGCAAGCCGGTCAGGCTGCTCTGGCTGGCGCACCTGGCCTCCGTGCACGGCCGGCTGATCCTCGACGACGGCGCCGTCAAGGCGGTCCGCCACCGCCGCACCTCGCTGCTCCCAGCCGGCATATCCGCCGTGGACGGGGACTTTGAAGCAGGCGACGCCGTGGAGATGGTCAGTTCCGACGGGACCGTCATAGCGCGCGGCCTTGTTAACTACTCCGCGGCCGAGCTGCCGCAGATGCTGGGCCGGTCCACCAAGGAACTGGGCAAGGCCCTGGGCCGCGGATATGACCGTGAAGTTGTTCACGTTGATGACCTGGTGCTGGTCTAA	MAAVPAGRSADRTVLSGARRIVVKVGSSSLTSIKGGISEEALTALADALAAKRNAGTEIILVSSGAIAAGLAPLGLAKRPRDLATQQAAASVGQGLLMARYTQAFGAHGVTVSQVLLTADDLMRRSQHTNAFRALDRLLNLGVVPVVNENDTVATHEIRFGDNDRLAALVAHLVRADALVLLSDVDSLYDGPPSHGAKRIPLVEGPHDLDGVSIGKAGKAGVGTGGMMTKVEAATIAAGSGIHALVTSTANAAAALAGEDVGTWFTVNGARKPVRLLWLAHLASVHGRLILDDGAVKAVRHRRTSLLPAGISAVDGDFEAGDAVEMVSSDGTVIARGLVNYSAAELPQMLGRSTKELGKALGRGYDREVVHVDDLVLV	PGPT0014220_732	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931	NA	NA
D1-29_02850	1590	obg	COG0536	GTPase Obg	GTGGCGAGCTTTGTAGACCGGGTAGTACTGCACGTATCCGGCGGTACCGGCGGTCACGGCTGTGTCTCCGTCCACCGTGAAAAGTTCAAGCCCCTGGGCGGACCCGACGGCGGCAACGGCGGCGACGGCGGCGACGTCATCCTGCGCGTTGACCACCAGACCACCACACTGCTGGACTACCACCACGCCCCGCACCGCCACGCCACCAATGGCGGCCCCGGCATGGGGGATTGGCGCGGCGGAAAGAAGGGCGAGACCCTCATCCTCCCTGTCCCTGACGGCACCGTGGTCAAGTCCAAGGACGGAACCGTCCTGGCCGACCTCGTCGGCGAAGGGACCGAGTACGTCGCGGCCGCGGGCGGACAGGGCGGGCTGGGAAACGCTTCGCTGTCATCCCAGAAGCGCCGCGCGCCGGGCTTTGCACTCCTGGGCATCGAAGGCGAATCAAGCGATGTTGTCCTGGAGCTCAAGTCCATCGCGGACATCGCCCTGGTTGGCTTCCCCTCTGCCGGGAAGTCCAGCCTTATCGCCGCTATGTCGGCCGCACGTCCCAAGATCGCCGACTACCCCTTCACCACGCTGATCCCCAACCTGGGTGTTGTCCAGGCCGGAGATGTCCGCTTCACCATTGCCGACGTCCCGGGCCTGATCGAAGGTGCCAGCGAAGGCAAGGGCCTGGGCCACAACTTCCTGCGCCATGTGGAACGCTGCGCCGCGCTGGTGCACGTGCTGGACTGCGGCACCCTGGAGTCGGACCGGGATCCGCTCTCGGACCTGGCCATCATCGAAGCGGAACTGGAGAAGTACGCCGTCGACATGAGCTACGCCGGCACCGATGGTGAGGTCGTTCCGCTGAACCACAGGCCGCGCCTGATTGCGCTGAACAAGGTGGACCTGCCGGACGGCAAGGACATGGCCGAATTCGTCCGCCCGGAACTGGAGTCACGCGGCTACCGTGTCTTCGAGATCTCGGCCACCAGCCACGCGGGCCTGCGCCAGCTCGGCTTCGCCATGGCCGAAATCGTCCAGGCGGCCCGCGACACCCTGGCTACCGCGCCGCCCAAGGTGCAGCCTCCGGTCCTCCGGCCCCGCGCCGTCAATGAGGCCGGGTTCAAGATCCGGCGCGAGGAAAAGAACCTCGAACCGCTGTTCCGCGTCCTGGGCGAAAAGCCGGTGCGCTGGGTCAAGCAGACAGACTTCACCAACGAGGAAGCCATCGGCTACCTGGCAGACCGCCTGGCAAAACTTGGCGTGGAGAACGAACTGTTCAAGCAGGGCGCCAAGCCCGGCGACACTGTGGTGATCGGCGAGGACGACGGCGTGGTCTTCGACTGGGAGCCCACCATGATGGCCGGAGCCGAGCTTCTGGCTTCCCCCCGCGGCACCGACGTCCGCTTTGCCGATATCGGCGACCGCCCCACCCGTGGCCAGAAGCGCGATGAGCAGCAGGAACGCAAGGATGCCAAGGCAGCTGCCCGGGCCGAGCTGGAAGCCGAGCGCAAGGCCGGCATCTGGACCGAATCTGTCAGCAGCCGCCGCATCGCCAAGCCTCTCAAGGAGAGTGGACTGGGCGCAGACGATGACCAGTAG	MASFVDRVVLHVSGGTGGHGCVSVHREKFKPLGGPDGGNGGDGGDVILRVDHQTTTLLDYHHAPHRHATNGGPGMGDWRGGKKGETLILPVPDGTVVKSKDGTVLADLVGEGTEYVAAAGGQGGLGNASLSSQKRRAPGFALLGIEGESSDVVLELKSIADIALVGFPSAGKSSLIAAMSAARPKIADYPFTTLIPNLGVVQAGDVRFTIADVPGLIEGASEGKGLGHNFLRHVERCAALVHVLDCGTLESDRDPLSDLAIIEAELEKYAVDMSYAGTDGEVVPLNHRPRLIALNKVDLPDGKDMAEFVRPELESRGYRVFEISATSHAGLRQLGFAMAEIVQAARDTLATAPPKVQPPVLRPRAVNEAGFKIRREEKNLEPLFRVLGEKPVRWVKQTDFTNEEAIGYLADRLAKLGVENELFKQGAKPGDTVVIGEDDGVVFDWEPTMMAGAELLASPRGTDVRFADIGDRPTRGQKRDEQQERKDAKAAARAELEAERKAGIWTESVSSRRIAKPLKESGLGADDDQ				NA	NA	NA	NA	NA
D1-29_02851	264	rpmA	COG0211	50S ribosomal protein L27	ATGGCACATAAAAAAGGCGCGAGCTCCACTCGCAACGGTCGTGACTCCAACGCCCAGTACCTTGGCGTCAAGCGCTTCGGTGGCCAGGTAGTTTCGGCAGGCGAAATCATCGTCCGCCAGCGCGGCACCCACTTCCACCCGGGCGCCGGCGTAGGCCGTGGCGGCGACGACACCCTGTTCGCACTGACCCCGGGCGCTGTCGAATTCGGCACCCGCCGCGGTCGCCGCGTAGTCAACATCGTTGCTGCTGCAGCTGCAGAGTAA	MAHKKGASSTRNGRDSNAQYLGVKRFGGQVVSAGEIIVRQRGTHFHPGAGVGRGGDDTLFALTPGAVEFGTRRGRRVVNIVAAAAAE	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
D1-29_02852	309	rplU	COG0261	50S ribosomal protein L21	GTGGTGTACGCGATTGTCCGCGCAGGCGGCCGCCAAGAGAAGGTTTCCGTTGGAGACTTCGTTACCCTGAACCGCGTCACCGGTGGAGCCGGCAGCACCATTCAGCTGCCCGCACTGCTCCTGGTGGACGGCGACAAGATCACGTCCGCCGCTGCGGACTTGGCCAAGGTAACTGTTACGGCTGAGATCCTCCAGGACCTTCGTGGTCCTAAGATCGTCATCCAGAAGTTCAAGAACAAGACCGGTTACAAGAAGCGCCAGGGTCACCGTCAGGAACTGACCAAGGTCAAGATCACTGGCATCAAGTAA	MVYAIVRAGGRQEKVSVGDFVTLNRVTGGAGSTIQLPALLLVDGDKITSAAADLAKVTVTAEILQDLRGPKIVIQKFKNKTGYKKRQGHRQELTKVKITGIK				NA	NA	NA	NA	NA
D1-29_02853	1617	pdxK		Pyridoxine/pyridoxal/pyridoxamine kinase	ATGTCTTCTTTGTCGTCAACATCAGTCCTGCCTCCAGCAGCGCCCGCATCAGCAACAACACCAACATCAACGCAATCCACACTGACGCAGCCAAAAGCGGCCGGCGTCCTGCGGGACGTCCCACGCGTCCTGTCCATCGCCGGTTCCGATCCCTCCGGCGGCGCCGGCATCCAGGCCGACCTGAAAAGCATTGCGGCCCACGGGGGCTACGGCATGGCTGCCATCACCGCCCTCACGGTCCAAAACACGCAGGGTGTCCGTGCCGTGCATGTACCGCCGGCCTCGTTTCTGGCCTGGCAGCTGGATGCCATCAGTGACGACATCACCGTCGATGCCGTCAAGATCGGCATGCTCGGTGATGCTGACGTGATGGCGGCGGTGCGTAACTGGCTGGAGAAGGTGCGCCCCGCCGTCGTCGTCCTGGATCCTGTAATGGTGGCCACCAGCGGGGACCGGCTGCTCGCCGAGTCGGCTGAGGCAGCGCTTCAGGGGCTCTTGCCACTGGCGGACCTGATCACCCCCAACCTGGCGGAACTGGCGATTCTACTTGGCGAGCCGCAGGCGGGCAGCTGGCCCGAGGCGCTGGAGCAGGGCCGCAGGCTGGCGGCCGCGACGGGTGCCACGGTCCTCGTCAAGGGCGGCCATCTCGACGGCGGCGATTGCCCGGACGCCCTGGTCAACACCGGGGGAGTGCTCTCCGAGGACGTGGTAGTAGTGCCAGGCGCAAGGATCCGCACCCGCAACAGCCACGGCACCGGCTGCTCGCTGTCCTCGGCAATGGCCACCACGCAGGCACGGCTGGGCGATTGGGAAGCCTCCCTGCGCCAGGTCAAGCCCTGGCTTGCCGCCGCGCTGCAGGCTTCCGCCGGGCTCGAGGTGGGATCGGGCAACGGCCCCATCCATCATTTCCATCATCTCCAGCCAGCACAGCCGGGGACGTCGGACGCCGGATGGACACCACTGGCGGCGGCGGACTTCGCTGACGTCCTCTGGGCAGCAGCGGCGCCGGACCTTGAGGCCATCTACGGACTGGAGTTCATCCGGGACCTTGCAGACGGCAGCCTGGCCGAAAAGCACTTCGCCTACTATCTCGCACAGGACGCCACGTACCTGAACGGCTATTCCCGGGTGCTCGCCCGGGCCAGTGCCCTGGCCCCCACCGAGGCGGAGCAGCTGTTCTGGGCCAGGTCTGCCCAGCAGTGCCTGGAGGTTGAATCGGAGTTGCACCGCAGCTGGCTCAGCACCAGGACCACGGACACGGTTCTGGGCCCCGTCACCAAGTCCTATGTCGACCATCTGCTGGCCGCCTCTGCTTCTGGCAGTTATGCGGTGCTGGTGGCGGCAGTCCTTCCGTGCTTCTGGTTGTATGCCGAGGTGGGCAAAACGCTTCACGCGGAGTTCGTGGCAGCGGGCGAACCGGCTGCCCACCCGTACGCCGCCTGGCTGCGGACCTACGCCGACGAAGACTTTGCCGCCGCCACCCGGCAGGCAATAGCCATGACGGACGACGCCGGGCGGCGGGGATCGGAGGATGAGCGCGCAGCGATGATCCTGGCATTCCGGCAATCCTGCCGTTTCGAGGTCGAATTCTTCGACGCGCCGCGGCTGCATGCCTGA	MSSLSSTSVLPPAAPASATTPTSTQSTLTQPKAAGVLRDVPRVLSIAGSDPSGGAGIQADLKSIAAHGGYGMAAITALTVQNTQGVRAVHVPPASFLAWQLDAISDDITVDAVKIGMLGDADVMAAVRNWLEKVRPAVVVLDPVMVATSGDRLLAESAEAALQGLLPLADLITPNLAELAILLGEPQAGSWPEALEQGRRLAAATGATVLVKGGHLDGGDCPDALVNTGGVLSEDVVVVPGARIRTRNSHGTGCSLSSAMATTQARLGDWEASLRQVKPWLAAALQASAGLEVGSGNGPIHHFHHLQPAQPGTSDAGWTPLAAADFADVLWAAAAPDLEAIYGLEFIRDLADGSLAEKHFAYYLAQDATYLNGYSRVLARASALAPTEAEQLFWARSAQQCLEVESELHRSWLSTRTTDTVLGPVTKSYVDHLLAASASGSYAVLVAAVLPCFWLYAEVGKTLHAEFVAAGEPAAHPYAAWLRTYADEDFAAATRQAIAMTDDAGRRGSEDERAAMILAFRQSCRFEVEFFDAPRLHA	PGPT0008915_35	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
D1-29_02855	3462	rne		Ribonuclease E	ATGGAAAATGAACAAGTACTAGCCGTTAACGACAATGCAGCTGTTAGCGACCACCCGGGAGCGCCGGAAGCCCCCAAGAAAGCCCCCAGGACCCGCCGGAAAGCAGCCCCGGCAGCAAGTGACGCCGGGGAGACCGCAGGGGCGGATGCATCCGCTGCGGACGCCCCGCCTGCGGATGCCCCGGTCGCAGATGCCCCAGTCGCAGAGGCCCCTGTTGCAGACGCCCCGGAAGCCAAGGCGCCTGTCCGCCGCACACGCGCCCGCAAGAAGGCTGACACAGCAGAGCCACTGCCGGCCTTCGCTGTAGAAGAGGCCGGCACCGTCGTGGATGATCAGCCTGCCGCCGCCCAGCCTGAGCCGGAAGCTGCCGCTGCTGGTCCCGACGCCGAGGCCGAGGCGAAGCCTGTGCGCCGCCGCCGTGTTGCCACCCGCAAGATGTCTGCCGCCGAGCCAATGTCCGCAGCCGAGCCAATGTCCGCAGCCGAGCCACTGTCCGCCCCGGTGGCCGGGCCCGCTGCCGCGGAAGTGGAAACGCCCGCCGGTCAGGAAGGGACTGCTGTGGAGGCTGCTGCCCCCACGGCCACAGAGCCTGAAGCCGCACCGGCACCTGAAGCGGCACAGGCACCCGAGCCGGCGCCTGTTGCCAAAGCCGAGGAAGCAGCACCGGCTGAACCAGCCAGCCCCTTTGGATCGCTTTTCCTGGAGCCGTCGCCCACCTCAGTGCTGTTCCAGGCCCCCGACCTGAGCACGGTGGCCCGCCAGGCGCCTCCCGCTCCGGCCGCAGCTGTGGAAGAAGCAGAGGATGACGACACCGAGGACGGCTCCGGCGACGACGCCGGTGTCCGCGGCAGGCGCCGCAGCCGTGGCCGCCGCGGGCGGAGCCGCACCGGCGGCCGTGATCTTGAGGGTGATAGCGCCGAAGGCGGCCAGGACAGCGCCGCGGACGACGCCGATGAGGAGTCTGCCGGTCAGGCTGAAGAGGGCGTGACCTCCCGCCGTCGACGCCGCCGCCGCCGGGGCGAGCAGGACCTTGAACTTACCGGGGGCGGCGATGATGACCCGCCCAACACCGTGACCCGTGTCCGTGCCCCGCGCGCCGTCACCGAGCCGATAGTCAACAACCGGGTGACCAGCGTCAAGGGCTCCACGAGGCTGGAAGCCAAGAAGCAGCGCCGCCGGGAGTCCCGCGACACGGGCCGCCGCCGCACCGTCATCACCGAGGCCGAGTTCCTTGCCCGCCGCGAGTCGGTGGACCGGCAGATGATCGTCCGCCAGCGCGACGACAGAATCCAGATCGCAGTCCTGGAGGACGGCGTCCTGGCTGAGCACTTCGTCTCCAAGACCCAGCAGGATTCCCTGATCGGCAACGTCTACCTGGGCAAGGTCCAGAACGTCCTGCCGTCCATGGAAGCAGCCTTCGTTGACATCGGACGAGGCCGCAACGCCGTGCTCTACGCCGGCGAAGTGAACTGGGAGGCCGTCAACCTCGAAGGCAAGCAGCGCCGCATCGAGAATGCGCTGAAATCCGGAGATACGGTCCTGGTCCAGGTCACCAAGGACCCCGTGGGCCACAAGGGTGCACGCCTGACCAGCCAAATTTCCCTTCCGGGCCGCTACCTCGTGTACGTGCCCGGCGGTTCCATGACCGGAATCTCACGCAAGCTGCCCGACGTCGAACGTAACCGCCTCAAGCGCATCCTGAAGGACCGGCTCCCGGAGCACGCCGGCGTTATTGTCCGCACAGCGGCCGAGGGCGCTTCCGAGGAGGAGCTTACCCACGACATCAACCGGCTGCGGGCGCAGTGGGAGGGCATCGAAGGCCAATCCACGTCCACCAAGATCCTCGCCCCGGAACTGCTGTACGGCGAACCGGACCTCACCATCAAGGTGGTCCGCGACGTCTTCAATGAGGATTTCTCCAAGCTGATCGTCTCCGGCGAGGAGGCATGGGACACCATTGAGGCCTACGTCACGTATGTTGCGCCTGACCTGGTGGCCCGGCTGGAAAAGTGGACCAAGGATCAGGACATCTTCGCGGCCTGGCGGATCGATGAGCAGATTCACAAGGCCCTGGACCGCAAGGTGTTCCTGCCGTCCGGCGGCTCCCTCGTGATCGACCGCACCGAAGCCATGACAGTGGTGGACGTCAACACCGGCAAGTTCACCGGCAGCGGCGGAAACCTTGAGGAAACCGTCACCAAGAACAACCTGGAAGCGGCCGAGGAAGTTGTCCGCCAGCTCAGGCTCCGCGACATCGGTGGCATCATCGTCATCGACTTCATCGACATGGTGCTGGAGTCCAACAGGGACCTGGTGCTGCGCCGGATGGTGGAGTGCCTGGGCCGCGACCGTACCAAGCACCAGGTGGCTGAGGTCACCTCGCTGGGCCTTGTCCAGATGACCCGCAAGCGGATGGGAACCGGGCTTCTCGAAGTCTTCGGAGAGCAGTGCGAGGTCTGCGCCGGCCGCGGCATCGTCACCCACGATGATCCCGTGGAGCACCGCCGGGCCAACATCGTTGCCGCCGAGCACCACGTGCAGCGCTCTGACACCCGCCCGGACGCCCATCGCCAGGAGCGGACAGACAGCCAGCGGACGGACAGCCAGCGGACAGAAAGCCAGCCGGGCGCACGCACCGACCGCAAACGGCGCCGCGGACGGGGAGGCCAGCCGCTGGACGTCGCTCCGGCTGCGCCCATCCAGATCCACACGGTCCACCCCGACCCCAGCGACGCCGAGCGCCATGCCAAGGCTGAGGCCACCAGGGCAGCCCTTGCCAACATTGCGGCCGCAGCACACGCCGCGCACCTGCACGACGAGGAGGCGGCTCAGGCTGCCGCCCGCGGAGTCCAGGCCCCGGCTTCCCCGGAAGCAGAGCAGGCCACGCCTGCTGCAGTGCCCGAACGGCACCAGCCTGACACGTCCGGCCGTCCAGCGGCCGTGCTGACATTCGGCGGTGAGCAGGTGGTGCTGCCGTTTGTGGAGCACGTGGAGGACCAGGCACAGAAGCCTGCACTGACGCTGGACCGCCTCGCTGAGGCATTCGCCCACCTTGGCGAGCCGGCTCCTGCAGAGGAACGCCCGCAGGTTGCCCTTCCGCAGGCGGAGCCAGGACGTGTCCAGCCGGAGCAGGCTGGGCGAGAGCAGGCCGGACGTGAGCAGATCCAAGCAGGACGTCCTGCCCGCCAGCCGGAGCCCGCGGTGGAGGAAAAGGACTACTCCGACCACACGGCTGAGCAGTCGCGCTCCCGCCGCCCGCGCCGTAACAGGAGTGCCAGCCGGGCCCAGGGTGCTGCCAACGCCACCTCGGTGGAACACCACGAAGGTACGCACGCAGCGCCGGAAGGTCACTCGCATTCGGCCAAGGCCCCGGAGCCTGCGACGGTTGCCAAGGGTGACCGGTCGGCCGGAGCCGAGGCTCCGATCATCCTGGGCGTAGGAGTGCCGGCGTCCGAACTCTAA	MENEQVLAVNDNAAVSDHPGAPEAPKKAPRTRRKAAPAASDAGETAGADASAADAPPADAPVADAPVAEAPVADAPEAKAPVRRTRARKKADTAEPLPAFAVEEAGTVVDDQPAAAQPEPEAAAAGPDAEAEAKPVRRRRVATRKMSAAEPMSAAEPMSAAEPLSAPVAGPAAAEVETPAGQEGTAVEAAAPTATEPEAAPAPEAAQAPEPAPVAKAEEAAPAEPASPFGSLFLEPSPTSVLFQAPDLSTVARQAPPAPAAAVEEAEDDDTEDGSGDDAGVRGRRRSRGRRGRSRTGGRDLEGDSAEGGQDSAADDADEESAGQAEEGVTSRRRRRRRRGEQDLELTGGGDDDPPNTVTRVRAPRAVTEPIVNNRVTSVKGSTRLEAKKQRRRESRDTGRRRTVITEAEFLARRESVDRQMIVRQRDDRIQIAVLEDGVLAEHFVSKTQQDSLIGNVYLGKVQNVLPSMEAAFVDIGRGRNAVLYAGEVNWEAVNLEGKQRRIENALKSGDTVLVQVTKDPVGHKGARLTSQISLPGRYLVYVPGGSMTGISRKLPDVERNRLKRILKDRLPEHAGVIVRTAAEGASEEELTHDINRLRAQWEGIEGQSTSTKILAPELLYGEPDLTIKVVRDVFNEDFSKLIVSGEEAWDTIEAYVTYVAPDLVARLEKWTKDQDIFAAWRIDEQIHKALDRKVFLPSGGSLVIDRTEAMTVVDVNTGKFTGSGGNLEETVTKNNLEAAEEVVRQLRLRDIGGIIVIDFIDMVLESNRDLVLRRMVECLGRDRTKHQVAEVTSLGLVQMTRKRMGTGLLEVFGEQCEVCAGRGIVTHDDPVEHRRANIVAAEHHVQRSDTRPDAHRQERTDSQRTDSQRTESQPGARTDRKRRRGRGGQPLDVAPAAPIQIHTVHPDPSDAERHAKAEATRAALANIAAAAHAAHLHDEEAAQAAARGVQAPASPEAEQATPAAVPERHQPDTSGRPAAVLTFGGEQVVLPFVEHVEDQAQKPALTLDRLAEAFAHLGEPAPAEERPQVALPQAEPGRVQPEQAGREQAGREQIQAGRPARQPEPAVEEKDYSDHTAEQSRSRRPRRNRSASRAQGAANATSVEHHEGTHAAPEGHSHSAKAPEPATVAKGDRSAGAEAPIILGVGVPASEL				NA	NA	NA	NA	NA
D1-29_02856	699			hypothetical protein	ATGCAAAGGACGCAACGAACCATGCCCAGTATCTCCCCTGCCAGGGGCGCCGGCAGCCCGGCCGCAGCCCCGGTGTCCGCGCCGGAACCCATCACGGACGCCGGCGTACCGCGCATGGCGCGGAACCGGCCCTTTGGCTGGCTTTTGGTCATCACCGGGGCCATCGGCTGGCTGGCTTCGGGCATCCTTGTGCTGGAAAAGCTTGAGGTACTCAAGGATCCGAACCACACCACCGTCTGCGACGTTAACCCTTGGATCTCGTGCGGTCAGGTAATGCAGACGCCGCAAAGCTCCGTGTTCGGGTTCCCCAACATGTTCATTGGCATCGTGGCATTCGCGGTCATCATCACCACGGGCATGGCCCTGCTGGCTGGCGCCAATTTTGCCCGCTGGTACTGGCTGGGACTCCAGGCGGGCGTGACGCTGGGCTTTGCGTTTGTGGTGTGGCTGTGGTTCCAGGCCTTGTATGAAATCCACATCCTGTGCCCGTTCTGCATGGTGGTCTGGGCTGCCATGATCCCTCTGTTCGTCTGGGTAACGGTGAGGAACGTCGCGCAGGGTGCCATTCCGGTGCCCGCCGGTGCCGCGCGCGTCCTGGGCGACTCAGGCTGGATCGTGACCGCGCTGCTTTACGTGGCTGTCATCGCCACCATCTTCTTCGCCTTCATCCAGGTGTTCGTAGGAACCTCAGGATTCTAG	MQRTQRTMPSISPARGAGSPAAAPVSAPEPITDAGVPRMARNRPFGWLLVITGAIGWLASGILVLEKLEVLKDPNHTTVCDVNPWISCGQVMQTPQSSVFGFPNMFIGIVAFAVIITTGMALLAGANFARWYWLGLQAGVTLGFAFVVWLWFQALYEIHILCPFCMVVWAAMIPLFVWVTVRNVAQGAIPVPAGAARVLGDSGWIVTALLYVAVIATIFFAFIQVFVGTSGF				NA	NA	NA	NA	NA
D1-29_02857	420	ndkA	COG0105	Nucleoside diphosphate kinase	GTGAGCATTGAGCGCACCCTGGTTTTGATTAAGCCCGACGGCGTGGCCCGCAACCTGAGCGGCGCCATCCTGAGCCGCATCGAGGCCAAGGGCTACACCCTTGCCGAGCTGAAGAAGGTGGACGCAAGCCGTGAGCTGCTGGAGCAGCACTATGAGGAACACGTGGGCAAGCCGTTCTATGAACCGCTCGTGGAGTTTATGCTCAGCGGCCCGGTTGTCGCCGCAATCTTCGAAGGCCACCGTGTGATCGAAGGCTTCCGTTCCCTCGCTGGAACGACCGACCCCACAACGGCAGCTCCCGGTACCATTCGAGGCGACTTTGGCCGCGACTGGGGCCTGAAGGTGCAGCAGAACCTTGTCCACGGATCAGATTCGGTGGACTCCGCCGAGCGCGAAATCAAGATCTGGTTCCAGGACTAG	MSIERTLVLIKPDGVARNLSGAILSRIEAKGYTLAELKKVDASRELLEQHYEEHVGKPFYEPLVEFMLSGPVVAAIFEGHRVIEGFRSLAGTTDPTTAAPGTIRGDFGRDWGLKVQQNLVHGSDSVDSAEREIKIWFQD	PGPT0021210_4975	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021210-ndk-K00940	NA	NA
D1-29_02858	498			hypothetical protein	ATGGCCAAGCTGACGAAGGCGCAGCGGGAGTGGCGCCCGGGAATGCCGAAAAAGCGCCGCTCAACCAAGGTGATGTTCGCCTCCACTGTCCTGCTGCTCGAAGCCTTTGTGGCATTCTTCGCCACACTGGCCGTCTTTGGGCTCAAGCGGGGAGAGTTTCCGCCGGCGCTGATCCTGGGTGTTGGCATCGCCCTCAGCGTGGTGATGATCCTTGCCTGTGCGGTGCTGTCAAAGCCCTGGGGGATTGCCCTGGGATGGATCCTGCAGATCGTGCTGATTCTTACCGGCATCGTGGAACCCATGATGTTCCTGGTGGGCGCGCTCTTCGGCCTGGCCTGGTGGTACGGCATCCGTACGGGCATCAGGATCGATTCCGAGGCGGCTCAACGGGAACGCGAGCAGGCGCAGTGGGATGCAGCCCACCCGGGCGGTCCCCAGCAGCCCCAGGATCAGAAACAGGATCCCAAGACTCAGGATCCCCAGACTCAGGATCCCTAA	MAKLTKAQREWRPGMPKKRRSTKVMFASTVLLLEAFVAFFATLAVFGLKRGEFPPALILGVGIALSVVMILACAVLSKPWGIALGWILQIVLILTGIVEPMMFLVGALFGLAWWYGIRTGIRIDSEAAQREREQAQWDAAHPGGPQQPQDQKQDPKTQDPQTQDP				NA	NA	NA	NA	NA
D1-29_02859	1359	folC	COG0285	Dihydrofolate synthase/folylpolyglutamate synthase	ATGACCGACGAATTCTCCGTTGAGAGCGTCTACGCCGAGCTGCTCGGCCGGGCACCGGAAAACAAGATGGAGCCCCGGCTCGCACCGCTGTTCCGCGCCATGGACGTGCTGGGGGAGCCAAACAAGGCCTTCCCGATCATCCATGTGACCGGGACCAACGGCAAGACCTCCACGGCACGGATGATCGAAGCCGGCCTCCGCGCCCACGGACTGAGTACGGGCCGCTACACCAGCCCGCACCTGTCCAAGGTCACCGAGCGGATCAGCATTGACGGCCACCCGGTATCTGATGCCACCTTTGTCCGGATCTGGGACGAAATCCGCCCTTACCTGCAGATCGTGGACGATGAGCTGACGGCGGCCGGTGAACCCCGGCTGACCTACTTCGAATGCCTCACCATCCTTGGCTTTGCCATCTTTGCCGATCAGCCGGTCAACGTCGCGGTGATTGAAGTGGGCCTGGGCGGCATCACCGATGCCACCAACGTGGGGGATGGCCAAGTATCCGTCATCACGCCCATCTCCCTGGACCACACAGACCTGCTGGGCGATACCACCGAGGACATCGCGTATGAAAAGGCCGGAATCATCAAGCCCGGCGGCTACCTGATCAGCGCAGCCCAGCCCGTGGATGCTGCCCAGGTGCTGCTCGAAAAGGCCAAGGACGTGGGTGTCCCGTTCCGGTTCGAAGGCGTGGAGTTCGGCGTCGAATCCCGGACAGTTGCCGTGGGCGGCCAGGTGGTCAGCATCCAGGGGATCGCAGGCCGGTATCCGGAAGTACTGGTACCGCTGCACGGCGCACATCAGGCCCAGAATGCCGCTGTGGCCGTGGCCGCACTGGAAGCGTTCTTCGGCGGCGAAAAGGAACTCGACGCCGAGCTGCTCCAGGAAGCGTTCGCCAGCGTCACTTCACCCGGGCGCCTTGAGGTTGTCCGGACGGCGCCCACCATCATCGTGGACGCTGCGCACAATCCCGACGGCATCCGTGTTTCCGCCGAAGCCATCCAGGAGGCCTTCAGCTTCAGCAAGCTGGTGCCGGTGGTGGGCGTGCTGAAGGAAAAGGACGCCGAGGAAATCCTTCGCCAGCTCAAGGAATCCCTGGGCGAGGTGGCGGAGGAGTACTGCTTCACCCAGTCCAACTCCCCGCGGGCGGTGCCTGCCGCCGAGCTCGCGGAGCTTGCCGTGGAAATGGGCTTCGGCGAGGACAACGTCCACATTGCCGAGAAGCTCGACGACGCCCTGGAATGGGCCGTTGAACGTGCGGAAGCCAACGATGACCTCTCCGGCGGAGTGCTGGTGACAGGCTCCATCACTCTCGTGGCTGAAGCGCGGATCCTGCTGGGAAGGACGGAGGCTTAG	MTDEFSVESVYAELLGRAPENKMEPRLAPLFRAMDVLGEPNKAFPIIHVTGTNGKTSTARMIEAGLRAHGLSTGRYTSPHLSKVTERISIDGHPVSDATFVRIWDEIRPYLQIVDDELTAAGEPRLTYFECLTILGFAIFADQPVNVAVIEVGLGGITDATNVGDGQVSVITPISLDHTDLLGDTTEDIAYEKAGIIKPGGYLISAAQPVDAAQVLLEKAKDVGVPFRFEGVEFGVESRTVAVGGQVVSIQGIAGRYPEVLVPLHGAHQAQNAAVAVAALEAFFGGEKELDAELLQEAFASVTSPGRLEVVRTAPTIIVDAAHNPDGIRVSAEAIQEAFSFSKLVPVVGVLKEKDAEEILRQLKESLGEVAEEYCFTQSNSPRAVPAAELAELAVEMGFGEDNVHIAEKLDDALEWAVERAEANDDLSGGVLVTGSITLVAEARILLGRTEA	PGPT0007975_961	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007975-folC-K11754	NA	NA
D1-29_02860	3330	ileS	COG0060	Isoleucine--tRNA ligase	ATGACGTATTACCCCAAGGCCTCAGCCTCAGCTCCCGCCAGCGCGGCGGCCACCGTGCCCGCCTCCGTGAAGTTCCCGGAGATCGAAGAGCGCATCCTGAAGTACTGGGACCAGGATGGAACCTTCCAGGCCAGCATCGACCAGCGAAGCGCCGACGCCCCCGGCGGCGAGCCCGGCAGCAACGAATTCGTCTTCTACGACGGCCCGCCGTTCGCCAACGGCCTGCCGCACTACGGCCATCTGCTCACCGGGTACGCCAAGGACCTGGTGGGGCGCTACCAGACCCAGCGCGGCAAGCGCGTCGAACGCCGGTTCGGCTGGGACACCCACGGGCTGCCCGCCGAGCTGGAGGCCATGAAGCAGCTGGGCATGACGGACAAGACCCAGATCGAGGCCATGGGCATCGACAAGTTCAACGACGCCTGCCGCGCTTCGGTGATGAAGTACGCGGATGAATGGAAGAGCTACGTCACCCGCCAGGCACGCTGGGTTGACTTCGAGAACGACTACAAGACCCTCAACGTCGAGTACATGGAGTCCGTGCTCTGGGCTTTCAAGCAGCTGCACGAAAAAGGCCTGACGTACAACGGGTACCGCGTGCTGCCGTACTGCTGGAAGGACGAGACGCCGCTGTCCAACCATGAACTGCGCATGGATGACGACGTCTACAAGAACCGGCAGGACCAGACAGTCACCGTCACCTTCCCCATCACAGCCGGAGCGTCAGCGCTCTCGCAAGAGCTGGCAGGGGTCCAGGCGCTCGCCTGGACCACCACACCCTGGACGCTGCCCACCAACCTGGCGCTCGCCGTCGGACCTGGAATCACTTATGCGGTGCTTCCTGCCGGCCCGCACGGGATCAAGGCCGCTTCGCCGGAGGCTCCCGTCACCGGAAGCTTCCTGCTGGCCGCTGATCTGCTGGGCACCTACGCCAAGGATCTCGGCTACGACGATTTCGACGCCGCCGCAGCCGCTGTCACGTCCACGCACACCGGTGCGGAGCTTGAGGGTCTGCAGTACGAGCCGCTTTGGCACGATTTCAGCGACACCGAGAAGTTCGGTACCCAGAACGCCTGGCGCATCCTGCCGGCCGACTACGTAACCACCACCGACGGCACCGGCATCGTGCACCAGGCGCCGGCCTACGGTGAAGATGACCAAAAGATCTGTGAAGAGGCCGGTATCCCGGTGGTGCTGTCGGTGGACGAAGGAGCAAAGTTCCTGCCGCTGTTCAAGCACGGCGACCTGCATGACATCGCCGGCCTCCAGGTCTTTGAGGCGAACAAGCCCATCACCCAGGTCCTTCGGGCGCAGGGAAGGCTGGTCCGGCAGGCAAGCTACGAGCACAGCTACCCGCACTGCTGGCGCTGCCGCAATCCGCTGATCTACCGTGCCGTGTCCTCCTGGTACGTGGAGGTCACCAAGTTCAAGGACCGGATGTCCGAACTGAACCAGGAAATCAACTGGATCCCCGGCAACGTCAAGGAGGGCCAGTTCGGCAAGTGGCTGGCCAACGCCCGCGACTGGTCCATCAGCCGCAACCGCTACTGGGGCAGTCCCATCCCGGTGTGGCAGTCCTCCGACCCTGAGTTCCCCCGGACCGACGTCTACGGTTCCCTTGCAGAGATCGAGGCCGATTTCGGCCGCCTGCCGCTGAACAAGGACGGCCAGGTTGACCTGCACCGGCCCTTCATCGATGAGCTGACCCGGCCCAACCCGGACGATCCGCGCACCCCCGAGGAGGGGCAATCCGTGATGCGCCGGGTCGAGGACGTGCTGGATGTCTGGTTCGACTCCGGATCGATGCCCTACGGCCAGGTTCACTACCCCTTCGAGAACGAAGCCTGGTTCGATACCCACAACCCGGCCGACTTCATCGTGGAGTACATCGGCCAGACCCGCGGCTGGTTCTACATGCTGCATATCCTCTCCACCGCGCTGTTCGACAGGCCGGCCTTCCGCAACGTCATCAGCCACGGCATTGTGCTGGGCTCTGACGGGCAGAAGATGTCCAAGAGCCTGCGCAACTACCCGGACGTCTCAGAGGTCCTGGACCGTGACGGCTCGGACGCCATGCGCTGGTTCCTGATGGCCAGCCCCATCCTGCGCGGCGGTAACCTGGTGGTCACCGAGCAGGGAATCCGCGACGGCGTCCGTCAGGTCATCCTGCCGCTCTGGAACGTTTACAGCTTCTTCACGCTGTACACGAATGCCTCCAACGGCGGTCAAGGGTACGACGCCGCCCTGCGCTACGACGGTTACCAGGACACCCTTGACCAGTACCTGCTGGCCAACACCGGCGACCTGGTCCGCAACGTCACAGCGCATTTGGACAGCTACGACATCTCGGGGGCCTGCGACGAACTCCGCAGTTACCTGGACATGCTCACCAACTGGTACGTCCGCCGCAGCCGCCAGCGCTTCTTCGACGAGAATGCTGACGCTTTCGACGCCCTCTACACGGCGCTGGAAACCGTCTCACGCGTGGCTGCCTCGCTGCTGCCCCTGGTCTCCGAGGAAATCTGGCGGGGCCTGACCGGCGGGCGTTCCGTGCACCTCGCCGACTGGCCCGATGCGGACCTGTTCCCGGCCAACCCCGCCCTGGTCGAAGCAATGGACCGGGTGCAGCAGATCTGCTCCACCGGATCTTCGCTGCGCAAGGCTGCCAACCTCCGCGTCCGCCTCCCACTGCAGGAGCTGACCGTGGTGGCACCCGGCGCTGATGCGCTGGGAGGCTTCGCCGCCGTCGTCGCCGAAGAACTGAACATCCGTTCGGTCCGGCTGCTCGACGCCGAGAACGCCTCACCCGAGGAGTTCGGCATTGAGCAGAAGCTCGTGGTGAATGCCCGGGCAGCGGGTCCGCGCCTCGGGAAAAACGTCCAGCAGGCCATCAAGGGATCCAAGTCCGGCGACTGGTCAGTCTCAGAAGCAGGCGTTGTCACGGCCGGCGGACTGGAACTGGAACCGCAGGAATACACGCTGGAGACCGTGGTGGCGGAATCCGCCGCCGGTACTGGTCCTGCCACCAGGGCTGCCGCCGTGCTTCCCGGCGGAGGTTTTGTGGTCCTCAACACCGAGGTCACCCCGGAGCTTGAGGCTGAGGGCATCGCCCGCGACATGGTCCGCGCCATCCAGCAGGCACGCAAGGACGCCGGGCTGAACGTCAGCGACCGGATCCGGACGAGTATCCAGGCACCCAGGAACATGGTGGAAGCCATCAAGGCAAACGAAAACCTGGTCGTCGCCGAAACTCTCACCGTAGAACTCCACCTGTCCTCCAGCGGGGATGACACCGAACTGCAGATCACCGTCGAAAAAGTAGAGGCCTAG	MTYYPKASASAPASAAATVPASVKFPEIEERILKYWDQDGTFQASIDQRSADAPGGEPGSNEFVFYDGPPFANGLPHYGHLLTGYAKDLVGRYQTQRGKRVERRFGWDTHGLPAELEAMKQLGMTDKTQIEAMGIDKFNDACRASVMKYADEWKSYVTRQARWVDFENDYKTLNVEYMESVLWAFKQLHEKGLTYNGYRVLPYCWKDETPLSNHELRMDDDVYKNRQDQTVTVTFPITAGASALSQELAGVQALAWTTTPWTLPTNLALAVGPGITYAVLPAGPHGIKAASPEAPVTGSFLLAADLLGTYAKDLGYDDFDAAAAAVTSTHTGAELEGLQYEPLWHDFSDTEKFGTQNAWRILPADYVTTTDGTGIVHQAPAYGEDDQKICEEAGIPVVLSVDEGAKFLPLFKHGDLHDIAGLQVFEANKPITQVLRAQGRLVRQASYEHSYPHCWRCRNPLIYRAVSSWYVEVTKFKDRMSELNQEINWIPGNVKEGQFGKWLANARDWSISRNRYWGSPIPVWQSSDPEFPRTDVYGSLAEIEADFGRLPLNKDGQVDLHRPFIDELTRPNPDDPRTPEEGQSVMRRVEDVLDVWFDSGSMPYGQVHYPFENEAWFDTHNPADFIVEYIGQTRGWFYMLHILSTALFDRPAFRNVISHGIVLGSDGQKMSKSLRNYPDVSEVLDRDGSDAMRWFLMASPILRGGNLVVTEQGIRDGVRQVILPLWNVYSFFTLYTNASNGGQGYDAALRYDGYQDTLDQYLLANTGDLVRNVTAHLDSYDISGACDELRSYLDMLTNWYVRRSRQRFFDENADAFDALYTALETVSRVAASLLPLVSEEIWRGLTGGRSVHLADWPDADLFPANPALVEAMDRVQQICSTGSSLRKAANLRVRLPLQELTVVAPGADALGGFAAVVAEELNIRSVRLLDAENASPEEFGIEQKLVVNARAAGPRLGKNVQQAIKGSKSGDWSVSEAGVVTAGGLELEPQEYTLETVVAESAAGTGPATRAAAVLPGGGFVVLNTEVTPELEAEGIARDMVRAIQQARKDAGLNVSDRIRTSIQAPRNMVEAIKANENLVVAETLTVELHLSSSGDDTELQITVEKVEA				NA	NA	NA	NA	NA
D1-29_02861	399			hypothetical protein	ATGTTCCGTTCAGGATGCGAGGACGGCCTCGGTGCTGTCCTGGGACTGCACGCTGACCGCGGTACCACCTCACTTACCGGTAACCCCCCCACGAAAGGGGACTGCCTACCGGCCGCTCATTACTGCTGTGACGGGCTTACCCGTCCGGTTCTACTGACGCTGCGGGCCAAACCGGCCCGGAACGCGTTCTTCCGGAAGCTCACCGGTGATAGCCGGGTCATAGCCAAGTTCGAGTCTACTATCGCCGGGGCGTCCACCGCCATTCCTTGGCAGGGCTCAACTGTGACCGCGGAACCGTTGGAAGTGCGGGCCGGGCCACCAATAATGGGGGGATGGAGAGCGGCGGCACTCACAGGCGGCGACAGCACCGCCGCAGCAGTGCCTTCTGCTGGTTCATAG	MFRSGCEDGLGAVLGLHADRGTTSLTGNPPTKGDCLPAAHYCCDGLTRPVLLTLRAKPARNAFFRKLTGDSRVIAKFESTIAGASTAIPWQGSTVTAEPLEVRAGPPIMGGWRAAALTGGDSTAAAVPSAGS				NA	NA	NA	NA	NA
D1-29_02862	942			hypothetical protein	ATGCGGCTGGTGCCATGGGACATCGGCACGCCATGGATCCAGCTCCTGTCCCTGCTTCCGGCAAGCGTGATGGTGACACTGACGGCCGCCATGCTCGCGCTGCTGGCCGTTTGGCTGGACTTTCGACGCAGCACGACCATTCTGGCTGCGGCGGTGGCTGGTGTGCTGGTGGTGCAGCTTGGCATGGTCCTGCCCCGGGTCCTTCCGGCGGGCGGAACAGGGGTGGAAGCGGCGGCGCAGGCTGCCAACGCGGACTCAGGCCGCGAGCTGACGGTGATGGCCCTCAATGTGGGGCCCCCGGGGGTTGACGCCAAAGGAGTCCTGGCCGAGGCCCGGGCCCGGAAAGTTGACGTGCTGGCCCTGCCCGAGCTGGCCCATGCCAGCCTTGAGGCCCTGGAACAGGCGGGCTTGGCAGCCGATTTCTCCCACCGCGCGCTGGACGTTGACTGGGCAGGCACGGGCAGCGGCATCTTCTCCCGCTTCCCATTGCAGACCGTGGAGCGTGTACCGGGCAGCGTCTTCTACCAAAGCCGGGCGGTGGCAACTGTTCCAGGTGGCGGGCAAGCCCTGCATCTCACGGCCGTGCACATCGACTCTCCGCGCCCGGGCCACACGCCCTACTGGCGCGCGGAACTGCGGCAGCTGGGCGAACTCCGGCGGGATCTGCAAGGGTCTCCGCCGATCATCCTGCTGGGTGACTTTAATGCCGGGCATGATCATCGCGAATTCCGCGAACTGCTGGATACGGGGCTGACGGACGCCGCCGCGTCCGCGGGCAAAGGACTGGCCCCCACCTGGCCGCAGAACAGCCGGGTTCCGCCGTTTGTGGCACTGGACCACGTGCTGGTCAGCCCGGGTATCTCGGTACTGTCGTTCGAGACCGTGAAGATTGCAGGAACCGATCACTCCGCTGTCGTGGCCACCTTGAGGCTCCCCCGGTGA	MRLVPWDIGTPWIQLLSLLPASVMVTLTAAMLALLAVWLDFRRSTTILAAAVAGVLVVQLGMVLPRVLPAGGTGVEAAAQAANADSGRELTVMALNVGPPGVDAKGVLAEARARKVDVLALPELAHASLEALEQAGLAADFSHRALDVDWAGTGSGIFSRFPLQTVERVPGSVFYQSRAVATVPGGGQALHLTAVHIDSPRPGHTPYWRAELRQLGELRRDLQGSPPIILLGDFNAGHDHREFRELLDTGLTDAAASAGKGLAPTWPQNSRVPPFVALDHVLVSPGISVLSFETVKIAGTDHSAVVATLRLPR				NA	NA	NA	NA	NA
D1-29_02863	1035			hypothetical protein	ATGACTGTTTCCACCCGGGTCCGGGCAAAAGCACGCCCCGCAGCGCTCTTCAGCTGGTTGTCGCTCGTGGCCGGTGTCCCCGTGGCGGTCCTCTCAGTCTTCCGGGCCGTTCCTGCCGAATGGCCGGTTCTGGTGGTCCAGGTGCTGTCCTTCACGCCCTGGCTGGCGCTTCCCGCTGCGGTATCGCTGCTCTTTGCTCTCCTGGGCAGGCGCCGCTGGCAGCAGGCGCTGGCGGCGCTGCTCCTTGGCTGCCAGGCGTTTTGGCTCTTCCCGTTGGATGCCGGCCGCCCCGCGGCCGAAGCAACCGGGGCCAGCGTTGAACTGAAGGCCATGACCATCAATTCCGAGTACGGCCAGGCCGACGCCGCCGCCATCGTGCGCCTTGTCCGGGAGCACGGCGTGGGCCTGCTGACTGTCCAGGAGCACTCCCAGGACCTGCAGGACCGGCTGTCAGCTGAGGGCCTGGACGTGCTCCTGCCGCACAGGATCAGCGACCCCACTGACGACGCAGCGGGCAGCGCGGTGTACTCGATCTTCCCCCTGGAGCAGGTGGGCCTGATTCCGGACACACCCTTCAAGATGCCAACGGTCCGCCTGACAGCCCGCAACGGCGCGTCCGTAGCGGTGCTGGAAGTGACAAATGTCCATACCCTGCCGCCGGTTGACCACCGGGTTGACCAATGGCGCAGTGATCTTGCGGCCTTGGGAAGGGCGGCGGAACGTCCCGGCAACAGGCTCCTGATCGGTGACTTCAACGCGACCTTTGACCATCCTGAGTTCCGTGAACTGCTGGCTGCCGGGCATCGCGGAAACGCCAGCCCCGGTGAAAATCAGTCCGGGCTCGTCGATGTTGGTGTCGCGGCCGGCTCAAGGCTGGTCCCCACGTGGCCCATGGACGGCCCCAAGCTTCCAGGCATCACCATCGACCACCTGGTGACCAGCCCGGGCATGGGCAGCTCCGGTTATGAGGTCCACCCGGTGGAGGGAACGGATCACGCGGCAGTCCTGGCCACTCTCGCCATCCCCGCCACCTGA	MTVSTRVRAKARPAALFSWLSLVAGVPVAVLSVFRAVPAEWPVLVVQVLSFTPWLALPAAVSLLFALLGRRRWQQALAALLLGCQAFWLFPLDAGRPAAEATGASVELKAMTINSEYGQADAAAIVRLVREHGVGLLTVQEHSQDLQDRLSAEGLDVLLPHRISDPTDDAAGSAVYSIFPLEQVGLIPDTPFKMPTVRLTARNGASVAVLEVTNVHTLPPVDHRVDQWRSDLAALGRAAERPGNRLLIGDFNATFDHPEFRELLAAGHRGNASPGENQSGLVDVGVAAGSRLVPTWPMDGPKLPGITIDHLVTSPGMGSSGYEVHPVEGTDHAAVLATLAIPAT				NA	NA	NA	NA	NA
D1-29_02864	768		COG4221	putative oxidoreductase	ATGACAGCACAGGACAGGGCAGCGCAGAACAGGGCGGCCGTAGTCACGGGCGCCAGTACCGGCATCGGCGAGGCGACAGTGCAGGCGCTCAGGGCCGACGGCTGGACGGTCTTCGCCGTGGCACGCCGCGCCGAAAGGCTTGCCGCCCTGGAAACCGAAACAGGCGCCGTCGCGATTCCTGCTGACATCACCGAAGACGGTGACGTTGCGCAGTTGCTGGCCCGCGTGACGGAGGCAGGAGGCATCGGAACGCTGATCAACATCGCCGGCGGAGCAAGGGGTGCCGATCCCGTGGGTGCGGCCAGCAGTGAGGACTGGGAGTGGATGTACCGGGTCAACGTGCTGGGCACCATGAAACTCACCCGGGCGTTCCTGCCGATGCTGCGCGCCAATGGGGAAGGAACCGTCCTGAACCTGACGTCCACCGCCGGCCTGGTGGCCTACGAGGGCGGCGCCGGCTACAACGCAGCGAAGTTTGCCCAGCACGCCATGACAGGGGCGCTCCGTCTCGAGGAAGCAGAGCACAACGTCCGCGTCATCGAGGTGGCTCCCGGCCTTGTGCAGACAGAGGAATTCGCATTGAACCGGCTCGGTGACCGGCAGGCCGCCGAAAAGGTTTACCAAGGCGTGGAGAAACCCCTGACCGCCGCGGACGTAGCGGATGTGGTGCGGTACGCCGTGAGCGCCCCGCATCACGTCAATCTCGATCAGATCGTGATCAGGCCTGTTGCCCAGGCCGCCAACCACAAAATTATCCGCAGGGGCTGA	MTAQDRAAQNRAAVVTGASTGIGEATVQALRADGWTVFAVARRAERLAALETETGAVAIPADITEDGDVAQLLARVTEAGGIGTLINIAGGARGADPVGAASSEDWEWMYRVNVLGTMKLTRAFLPMLRANGEGTVLNLTSTAGLVAYEGGAGYNAAKFAQHAMTGALRLEEAEHNVRVIEVAPGLVQTEEFALNRLGDRQAAEKVYQGVEKPLTAADVADVVRYAVSAPHHVNLDQIVIRPVAQAANHKIIRRG				NA	NA	NA	NA	NA
D1-29_02865	2619	valS	COG0525	Valine--tRNA ligase	ATGGCTGAAACACATCAGGGTACAGACACGCCCTCCACCGCCCCTATCAACGTTCCGGACAAGCCCGCCCTCGAAGGGCTCGAAGCTGCCCTCACGCAGCGCTGGCTTGCCGAAGGGACCTACAAGTTCGACCCGGACACCACCCGTGATCAGGTCTACTCCATCGACACTCCCCCGCCCACGGCGTCGGGATCGTTGCATGTAGGTCACATGTTCTCCTACACCCAGACCGACGTGCTGGCCCGTTACCAGCGGATGATCGGCAAGAACGTCTTCTACCCGATGGGCTGGGACGACAACGGCCTGCCCACGGAACGCCGTGTACAGAACTACTACGGCGTGCGGTGCGACCCAGCCATCGCCTACAACGCCGACTACCGTCCGCCGGCCCAGCCCGCCAAGAACCAGCGCGACTTCGACGTCGTCTCGCGCCGGAACTTCATCGAGCTGTGCGAGGAACTTGCCGTTGAGGACGAGAAAGTCTTCGAGAACCTGTTCCAGACGCTTGGCCTGTCCGTCGACTGGGCCCTCACGTACCGGACCATTGACGAGAACTCCCGGGCAGTCTCCCAGCGCGCCTTCCTGGCCAACCTGGCCGCCGGTGACGCCTACATGGCCGAAGCCCCCACGTTGTGGGATGTGACGTTCCGTACCGCGGTGGCCCAGGCAGAACTGGAAGACCGCGAAGTGGCCGGCGCCTACTACCGCTATCCGTTCTTCACAGAGGACGGCGAAAAGATCTACATCGAAACCACCCGCCCCGAGCTGCTGGCCGCCTGCGCCGCCCTGGTGGCCAACCCCGACGACGAACGGTACCAGGCGCTGTTCGGCAAGAAGGTCACGTCCCCAGTCTTCGGTGTTGCGGTTGAGGTCATGGCCCATCCGCTGGCCAAGGCAGACAAGGGCTCCGGCATCGCCATGGTGTGCACCTTCGGCGACCTGACCGACGTGACCTGGTGGCGTGAACTGCAACTTCCAACGCGGGCCATCGTGGGCCGCGACGGCAGGATCGTCGGCGAGACGCCTGACTGGATCACCACCGACGCCGGCCGCGAGGCCTTCGCCGCCATCGCAGGCAAGACCGCCTTCAGCGCCAAGGAAGCAGTGGTGGAGCGCCTTGCCGCGGAGGACCTGCTCGACGGCGAGCCCAAAAAGATCATGCACCCGGTGAACTTCTACGAAAAGGGCGACAAGCCCCTCGAAGTGGTCACGTCACGGCAGTGGTACATCCGCAACGGCGGCCGGGACGAAGACCGGCGCGAACGCCTGATCGCGCGTGGGCATGAGATCGACTTCCATCCTGCCTTTATGCGTTCGCGTTACGAGAACTGGATTGCAGGCCTGAACGGCGACTGGCTGGTCTCCCGCCAGCGCTTCTTTGGCGTGCCCATCCCCGTCTGGTACCCGCTGGACTCCGACGGCAACCCGAACTACGACGCCCCGATCGTGCCGTCGGACGAGCAGCTGCCGGTAGACCCGGCCGCTGATGCTGCGCCTGGCTTCGAGGAGGCGCAGCGTGATGTGCCGGGCGGCTTCACCGGCGACGCAGACATTCTGGATACCTGGGCCACGTCCTCGCTGACGCCAAAAATCGTGGGCGGCTGGAGCCGGGACGAGGAACTCTTCGCCAAGGTGTTCCCGTTCGACCTTCGTCCGCAGGGCCACGACATCATCCGCACCTGGCTGTTCTCTTCCGTGGTGCGCGCCGACGCCCTCGAGAACTCCGCGCCTTGGAAGCACGCAGCCATCTCCGGCTGGATCCTGGATCCGGACCGGAAGAAGATGTCCAAATCCAAGGGCAACGTGGTGGTACCCACCGACGTCCTGGAAGAGTACGGCTCAGATGCTGTGCGGTACTGGGCTGCCTCAGCCAAGCTTGGCGCCGACACGGCCTATGAGATTGCCCAGATGAAGATCGGCCGGCGCCTGGCCATCAAACTCCTGAACGCATCCAAGTTCGTCCTGAACCTCGGAGCCACGGAGGACTCAGTCCTCTCCGGCGACCTGTCGGTCCTGACCAACCCCCTGGACCGTGCGGTGCTGGCCCAGCTCGCGGACGTTGTGCGCCAGTCCACCAAGGCCTTTGAGAACTATGACTATGCCCGGGCCCTGCAGATCACGGAAAGCTTCTTCTGGCAGTTCACCGATGACTACGTGGAGCTCATCAAGGACCGCGCCTACGGTGCGGCGGGCGAGCAGGAGCAGGCATCAGTGCTGGCTGCCCTGGCCACCAGCCTGGACACCCTGCTCCGGCTGTTCGCCCCGTTCCTGCCCTTCGCTACAGAAGAGGTGTGGAGCTGGTGGCGCAACGGCTCCGTACACCGCGCCCAGTGGCCGGCTGCTGTGGAGATCGACGGCGACACCACCCTGCTGGCCACCGTCGGCACGGCGCTGAGCGGCGTGCGCAAGGCCAAGTCCGAGGCGAAGGTCAAGCAGCGCACGGAGGTCCTGTCGGCAACCATCACTGCCACGGAATCCCTGACCACCCAGCTCAAGGCCGGGCTGGGCGACCTGAAGGCTGCCTCCAATGCCCGCGAACTGACGCTTGTCGCCGGCGACGGGGAACTGACTGTCAGCGACGTTGTCCTGGCACCGGCCGAGGGAACCGTGCCCGCCTGA	MAETHQGTDTPSTAPINVPDKPALEGLEAALTQRWLAEGTYKFDPDTTRDQVYSIDTPPPTASGSLHVGHMFSYTQTDVLARYQRMIGKNVFYPMGWDDNGLPTERRVQNYYGVRCDPAIAYNADYRPPAQPAKNQRDFDVVSRRNFIELCEELAVEDEKVFENLFQTLGLSVDWALTYRTIDENSRAVSQRAFLANLAAGDAYMAEAPTLWDVTFRTAVAQAELEDREVAGAYYRYPFFTEDGEKIYIETTRPELLAACAALVANPDDERYQALFGKKVTSPVFGVAVEVMAHPLAKADKGSGIAMVCTFGDLTDVTWWRELQLPTRAIVGRDGRIVGETPDWITTDAGREAFAAIAGKTAFSAKEAVVERLAAEDLLDGEPKKIMHPVNFYEKGDKPLEVVTSRQWYIRNGGRDEDRRERLIARGHEIDFHPAFMRSRYENWIAGLNGDWLVSRQRFFGVPIPVWYPLDSDGNPNYDAPIVPSDEQLPVDPAADAAPGFEEAQRDVPGGFTGDADILDTWATSSLTPKIVGGWSRDEELFAKVFPFDLRPQGHDIIRTWLFSSVVRADALENSAPWKHAAISGWILDPDRKKMSKSKGNVVVPTDVLEEYGSDAVRYWAASAKLGADTAYEIAQMKIGRRLAIKLLNASKFVLNLGATEDSVLSGDLSVLTNPLDRAVLAQLADVVRQSTKAFENYDYARALQITESFFWQFTDDYVELIKDRAYGAAGEQEQASVLAALATSLDTLLRLFAPFLPFATEEVWSWWRNGSVHRAQWPAAVEIDGDTTLLATVGTALSGVRKAKSEAKVKQRTEVLSATITATESLTTQLKAGLGDLKAASNARELTLVAGDGELTVSDVVLAPAEGTVPA				NA	NA	NA	NA	NA
D1-29_02866	615			Thioredoxin-like reductase	ATGACTGAAACTGCCACCAACCAGGCTGACTTCTGGTTCGATCCGATCTGCCCCTTCGCCTGGATTACGTCCCGCTGGATCGGCGAAGTGGAAGACGTCCGCGACATCAGGACCGTCTGGCACGTCATGAGCCTTGCTGTCCTCAACGAAGGCCGCGAGCTGGACCCTGGGTACCGTGAAGCCATGGACAAGGCCTGGGGACCGGTTCGGGTCATCATCGCGGCCAAGGAACAGCACGGCGACAGCGTCATCAAAGAACTTTACGATGCCATGGGCACCCAGATCCATGAGGGTGGCGAGAAGGACTACGGCATCGTCATTAGCAAGGCGCTGGCTGAATGCGGCCTTCCCGCCGGGCTGGCCGAGGCTGCCGCGACAGATGCCTACGATGCCCAGCTCCGGGCCAGCCACGAAGAGGGCATCTCCCTGGTGGGCCAGGATGTCGGGACGCCGGTGGTGGCCTTCAACGGTACTGCCTTCTTTGGGCCGGTCCTGACCCGCATCCCGCGCGGCGAGCAAGCCGGCGGGCTGTGGGACGCCACGGTTGCCCTGGCCTCCTACCCGCATTTCTTTGAGATCAAGCGCAGCCGCACCGAGCGCCCCCAGTTCGACTGA	MTETATNQADFWFDPICPFAWITSRWIGEVEDVRDIRTVWHVMSLAVLNEGRELDPGYREAMDKAWGPVRVIIAAKEQHGDSVIKELYDAMGTQIHEGGEKDYGIVISKALAECGLPAGLAEAAATDAYDAQLRASHEEGISLVGQDVGTPVVAFNGTAFFGPVLTRIPRGEQAGGLWDATVALASYPHFFEIKRSRTERPQFD				NA	NA	NA	NA	NA
D1-29_02867	1281	clpX	COG1219	ATP-dependent Clp protease ATP-binding subunit ClpX	ATGGCTCGGATTGGCGAGAGCACGGATCTGCTGAAGTGTTCTTTCTGCGGAAAGAGCCAGAAGCAGGTGCGGAAGCTCATTGCCGGGCCCGGTGTCTACATCTGCGATGAATGCATTGAACTCTGCAACGAGATCATTGAGGAAGAACTCGCGGAAGTCGCCGATCTGGGAAGTTTTGAACTGCCCAAGCCCCGCGAGATCTTCGACTTCCTGCAGGAATACGTCATTGGCCAGGAACCTGCCAAGCGCTCCCTCGCCGTCGCCGTCTACAACCATTACAAAAGGATCCAGGCGGGCCACGCCCCGAAGAGCGGCAGCCTCGCCGACGGCGGCCACCACGACGACGTCGAAATCGCCAAATCCAACATCCTCCTGATCGGCCCCACCGGCTGCGGCAAGACGTATCTGGCGCAGACGCTTGCCCGCCGGCTCAACGTGCCGTTCGCGGTGGCCGACGCCACCGCACTGACCGAGGCCGGCTACGTGGGCGAGGATGTGGAGAACATCCTCCTCAAGCTCATCCAGGCCGCGGATTACGACGTCAAAAAGGCCGAACAGGGCATCATCTACATCGATGAGATCGACAAGATTTCCCGCAAGAGCGAAAACCCGTCCATCACCCGGGACGTTTCCGGGGAAGGCGTCCAGCAGGCGCTCCTGAAGATCCTCGAAGGCACCGTTGCGTCCGTACCGCCGCAGGGCGGCCGGAAGCATCCGCACCAGGAATTCATCCAGATCGACACCACCAACGTCCTGTTCATCGTGGCGGGAGCCTTCGCGGGCCTGGAAGAGATCATCGGATCCCGCTCCGGGCGCAAGGGCATCGGTTTCGGAGCCCCGCTCAACGATGCCAGCAACAAGGTGGACTCCTACGGTGAGGTAATGCCGGAGGACCTGCTGAAGTTCGGTCTCATTCCGGAGTTCATCGGCCGGCTGCCAGTGATCACCACGGTATCCAGCCTGGACCGCGAAGCCCTCATCCAGATCCTCTCCACACCCAAGAACGCCCTGGTCAAGCAATACCAGAAGATGTTTCAGATCGACGGCGTCGAGCTGCTATTCGACGACGACGCCCTTGACTCCATCGCCGATCAGGCCCTTGAGCGCGGCACCGGTGCCCGCGGCCTGCGTGCCATCATGGAGGAAGTCCTGCTGCCGGTCATGTTCGACCTTCCGAGCCGCGAGGACGTCGCCAGCGTCGTCATCACCGCTGACGTGGTGCTCAGCAAGGCTGAGCCCACCATGATTCCGCATGAAACGAAGCGCCGTAAATCAGCCTGA	MARIGESTDLLKCSFCGKSQKQVRKLIAGPGVYICDECIELCNEIIEEELAEVADLGSFELPKPREIFDFLQEYVIGQEPAKRSLAVAVYNHYKRIQAGHAPKSGSLADGGHHDDVEIAKSNILLIGPTGCGKTYLAQTLARRLNVPFAVADATALTEAGYVGEDVENILLKLIQAADYDVKKAEQGIIYIDEIDKISRKSENPSITRDVSGEGVQQALLKILEGTVASVPPQGGRKHPHQEFIQIDTTNVLFIVAGAFAGLEEIIGSRSGRKGIGFGAPLNDASNKVDSYGEVMPEDLLKFGLIPEFIGRLPVITTVSSLDREALIQILSTPKNALVKQYQKMFQIDGVELLFDDDALDSIADQALERGTGARGLRAIMEEVLLPVMFDLPSREDVASVVITADVVLSKAEPTMIPHETKRRKSA	PGPT0014600_2031	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544	NA	NA
D1-29_02868	660	clpP2	COG0740	ATP-dependent Clp protease proteolytic subunit 2	ATGACCTACAACTTCGGATCGACTGCCGGTAACCTTCCGACCAGCCGCTACGTACTTCCCCAGTTCGAGGAACGCACGCCCTACGGCTTCAAGCGCCAGGACCCCTACACCAAGCTCTTCGAGGACCGCATCATTTTCCTCGGTGTCCAGGTGGACGATGCCTCCGCTGACGACGTCATGGCCCAGCTGCTGGTCCTGGAGTCCACGGACCCGGACCGCGACATCACCCTCTACATCAACTCGCCGGGCGGTTCCTTCACCGCTATGACAGCGATTTACGACACCATGCAGTACATCCGCCCCGAGATCCAGACGGTCTGCCTGGGCCAGGCTGCCAGTGCTGCGGCGGTCCTCCTCGCGGCAGGAACGCCGGGCAAGCGCCTGGCCCTTCCGAACGCACGGGTGCTCATCCACCAGCCTGCCCTCTCCGGCGGCCAGGGCGGCCAGGCGTCAGACCTGGAGATCCAGGCTGCGGAAGTCATGCGGATGCGTTCCTGGCTTGAGGACACCCTGGCGCACCACTCGGGCCGGACCTCTGAGCAGGTCAACAACGACATCGAGCGCGACAAGATCCTGACGGCAGAGGAGGCCATGAACTACGGCCTGATTGACCAGGTGCTTGATTCACGCAAGATCAAGCCGCAGGCGATTACCAGGTAA	MTYNFGSTAGNLPTSRYVLPQFEERTPYGFKRQDPYTKLFEDRIIFLGVQVDDASADDVMAQLLVLESTDPDRDITLYINSPGGSFTAMTAIYDTMQYIRPEIQTVCLGQAASAAAVLLAAGTPGKRLALPNARVLIHQPALSGGQGGQASDLEIQAAEVMRMRSWLEDTLAHHSGRTSEQVNNDIERDKILTAEEAMNYGLIDQVLDSRKIKPQAITR	PGPT0014595_3122	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
D1-29_02869	651	clpP1	COG0740	ATP-dependent Clp protease proteolytic subunit 1	ATGTCACAGCACCCCGAGGCCCCACGGATGGCCACTGTCGATCCGGCAACCCAGGATAACTACATCTACAACCGCCTCCTCAAGGAACGGATCATCTGGCTTGGCTCCGAGGTGCGCGATGACAACGCAAACGCCATCTGCTCCCAGCTGCTGCTCCTGTCCGCCGAGAATCCGGAAAAGGACATCTACCTCTACATCAACTCTCCCGGCGGTTCCGTCACGGCAGGCATGGCCATTTACGACACCATGCAGTTCATTCCCAACGACGTCGTGACAGTCGCCACCGGGCTTGCCGCATCCATGGGCCAGTTCCTGCTCTCCTCCGGCACCAAGGGCAAGCGCTATGCCACACCCAACGCCCGCGTCCTGATGCACCAGCCCTCCGGCGGGATCGGCGGTACCGCGTCGGACATCAAGATCCAGGCTGAACTGATCCTCCACATGAAGAAGGTCATGGCGGACCTTACCGCCGAGCAGACCGGCCAGACCGTGGAGACCATCCTCAAGGACAACGACCGTGACAAGTGGTTCACGGCCACCGAGGCCCTCGAATACGGCTTCTTTGACAAGATTGCGGCCCACGCCGGTTCCGTCTCCGGCGGCGGCGGAACCGCCAACGGATCATCAGGTGAATCGGCATCCGAGAAATAA	MSQHPEAPRMATVDPATQDNYIYNRLLKERIIWLGSEVRDDNANAICSQLLLLSAENPEKDIYLYINSPGGSVTAGMAIYDTMQFIPNDVVTVATGLAASMGQFLLSSGTKGKRYATPNARVLMHQPSGGIGGTASDIKIQAELILHMKKVMADLTAEQTGQTVETILKDNDRDKWFTATEALEYGFFDKIAAHAGSVSGGGGTANGSSGESASEK	PGPT0014595_4922	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
D1-29_02870	1398	tig	COG0544	Trigger factor	GTGAAGAGCGCTGTCGAGAACCTCACCCCCACGCGGGTCAAGCTCAATGTTGAGGTCCCCTTTGAGGAATTGAAGCCCAGCATCGACGAGGCATACAAGACTGTTGCTTCGCAGATCCAGGTCCCTGGCTTCCGTAAGGGCAAGGTCCCCTCCAAGCTGATCGATCAGCGCGTTGGCCGCGGCTACGTCTTGGAGACCGCCATCAATGAAGGCCTCAACGGCTGGTACCAGGCCGCGGTGCAGGAATCAGGCATCCGCCCGCTGAGCCGTCCCGAGGTTGAGATCACGGAAGTACCTGACCCCACGTCCACCGACGGTGAGCTCAAGTTCCACGCCGAGGTTGACGTCCGCCCCGAGATCGAGCTGCCTGACTACGCCGGCATCAAGGTCGAGGTTGCTGCGGCTGAGTCCTCGGACGAAGACGTTGACAAGGCACTGGATGAACTGCGCGGCCGCTTTGGCACCCTCAAGTCCGTTGACCGCCCTGCAGCCGACGGCGACTTCCTGACCATCGACATCACTGCCACCGTTGACGGTGCAGAGGTTGACTCCGCTTCCGGCCTGTCCTACCAGGTAGGCGCCGGCACCATGCTCGAAGGCCTGGACGAAGCCGTCACCGGCCTCAGCGCCGACGAGGACGCCATCTTCGACACCACCCTGGTGGGCGGCGAGCATGCTGGTGAAGCCGCACAGGTCAAGGTTGTCCTGAAGGCCGTCAAGGAGCGCGAGCTCCCCGAGGCTGACGACGACTTCGCCCAGCTGGCGTCCGAATTCGACACCCTGGCCGAACTGCGCGAGGACCTGGCCAAGCAGGCCGCTGACTCCAAGATTGTTGAGCAGGGCGTCGAGGCACGTGACAAGGTCCTGGACAAGCTCGTTGAGCTGGTTGAGGTTCCGGTTCCGGACTCCGTCGTTGAAGAGCAGCTCGAGGCCCACTTCAAGGAGGGCAACGCCCACGGTGAAGGCGAGCACGACACCGAGGAGCACCGCGAAGAGGTCAAGGCCAACACGGCCCGCGCTTTCCAGAACGAAATCATCCTTGACGCCATTGCCGAAAAGGAAGAAGTCAACGTCAGCCAGAACGAGCTGATCGACTACATCGTCTCCACCGCCAGCCAGTACGGCATGGACCCGAACCAGTTTGCTCAGATCATCGACCAGAGCGGCCAGGTCCCCATGATGGTCTCTGAAGTCCGCCGCCGCAAGGCGCTGGCCGTGGTCCTGGGTCAGGCAACTGTCACCGACACCGACGGCAAGAACGTTGACCTCAGCGACTTCGTCCGCCCCGGCGGCGAGGAAGAAGCTCCTGTGGTCGAGGCTGAGGACGCCGGCGTCTCCGACGACGAGGCAAAGAGCGAAACTGTAGCAAACGACGATCCTGCTGCTGTGAAGTTCTAG	MKSAVENLTPTRVKLNVEVPFEELKPSIDEAYKTVASQIQVPGFRKGKVPSKLIDQRVGRGYVLETAINEGLNGWYQAAVQESGIRPLSRPEVEITEVPDPTSTDGELKFHAEVDVRPEIELPDYAGIKVEVAAAESSDEDVDKALDELRGRFGTLKSVDRPAADGDFLTIDITATVDGAEVDSASGLSYQVGAGTMLEGLDEAVTGLSADEDAIFDTTLVGGEHAGEAAQVKVVLKAVKERELPEADDDFAQLASEFDTLAELREDLAKQAADSKIVEQGVEARDKVLDKLVELVEVPVPDSVVEEQLEAHFKEGNAHGEGEHDTEEHREEVKANTARAFQNEIILDAIAEKEEVNVSQNELIDYIVSTASQYGMDPNQFAQIIDQSGQVPMMVSEVRRRKALAVVLGQATVTDTDGKNVDLSDFVRPGGEEEAPVVEAEDAGVSDDEAKSETVANDDPAAVKF				NA	NA	NA	NA	NA
D1-29_02873	747			hypothetical protein	GTGGCGGGGGACGCACGTAACGCACTTCGCCGGACAGAAAGGCCAGGCAACTCCGTGCCAAAACCAAGAAGGCAACCCAATCCGTTGATCCAGAAGTACTTCAAGATCAGCTCCGCGGATTCAGGGGCGGGGGGCCTGGGCGGGCTGAAGCCTGTGGAGCCGGCCTCACGGCATGACGGGGTGCCGGTCCTGGGCCGTGACCAGGCCTATGTGATGAAGCAAGGGACCACCTACCATACGGACTGGTGCCGGGCCGTGGCCGACAAATGGGACCACGCACCCAGGGGGTTGCTGGTGACACTGTTGGCGGATATCGGGGCGAGGACCCCGTGCACGGACTGCGACGAGCCCAGGAAGACACGAGGGGTGCCGTCTGCGCGGGCGGACCGGATGCAGCCCCCGCTCCCCGCGGCAGCCCCGCCGCCAGATGCTGTGATCCCCCTGAGGGTCGTCGGCGTTGCCCATGGAATCCTCTTCCTGGCGGCCGGTCTGGAGTATCAGGAGCTCCTCAGGAACACAGCTGTGGAGCCTGCCACTGTGCTGTCCGTGGACGGGCGGCGGGACGGCACGGTGGTGCGGCTGGACGCCGGTCACGGCGAACCGCGCGTGACAGTCCAATTGGACCCCCGGGCAACGTTCCGGAATGGACCGTATCAGCTGCGACTGCGTGGTCCGCTGCTCCGATCGGCCACCAAAGCCTACGCCGTGGATTCCGTTGAGCCGGCGATCCGAAGCAACTCCACCTAG	MAGDARNALRRTERPGNSVPKPRRQPNPLIQKYFKISSADSGAGGLGGLKPVEPASRHDGVPVLGRDQAYVMKQGTTYHTDWCRAVADKWDHAPRGLLVTLLADIGARTPCTDCDEPRKTRGVPSARADRMQPPLPAAAPPPDAVIPLRVVGVAHGILFLAAGLEYQELLRNTAVEPATVLSVDGRRDGTVVRLDAGHGEPRVTVQLDPRATFRNGPYQLRLRGPLLRSATKAYAVDSVEPAIRSNST				NA	NA	NA	NA	NA
D1-29_02874	891	nei1_2	COG0266	Endonuclease 8 1	GTGCCCGAAGGCCATTCCGTCCGCCGATTGGCCCGCCAGTTTGCTGACGTCTTCTGCGGTGAGCGCCTGGCCGTCAGCAGTCCGCAGGGACGCTTTGCAGCCGGAGCGGCCTTGCTGGACGGGCACACTTTGACGGATTCCCGGGCCCACGGCAAGCACCTTTTCCTGCATTTTGATCATGCAAGGGTGCTGCATGTGCATCTCGGCCTGTACGGTGCCTGGGATTTCGGCGGCGACGCCAGCTTCCGGGGCGCCTCCAGCATCGGCGCCCCCAGGAAAGTGGGGGAGCGGGAGATTTTCGACGACGGCGGCCCGGCGGAGTACTCCGGCCCGCCGGATCCCCGGGGTGCCGTGCGCGTCCGCCTGGTCAGCGCCCACGGCTGGGCGGACCTGCGCGGCGCAACCACATGCGCGGCCATCACCGAGGACGAGGCGGCCACGGTTCTGGCCAGGCTGGGGCCCGATCCGCTGCGGAACCTTCCGGCGGACAGGGAGCGCTTTGTTGCTGGCCTTCAGTCCCGTAAGGCACCCATCGCCGGACTGCTGATGGATCAAAAGGTGATCGCCGGCGTCGGAAATGTCTACCGGGCAGAGGTGCTGTTCCGCCAGCGCCTTAATCCATGGCGGGCGGGCAATGAGCTGTCCGTCCCGGCGGCGGGACAGCTGTGGGATGACACTGCCGCGGTGATGTCCGACGGCGTGCGTGACGGGCGCATCATCACCACGCCTGCGGCCTACTGGGGAGACGGTGACGGACTCCCGGCAGGCGATGCAGCGCACTACGTTTACAAACGCCAAGGGCTGCCGTGCAGGGTTTGCGGCGAGCCGGTTGCCCTCGCTGAACTGACCGGCCGCAAGCTTTATTGGTGCCCCGGCTGCCAGGTGGCCTAG	MPEGHSVRRLARQFADVFCGERLAVSSPQGRFAAGAALLDGHTLTDSRAHGKHLFLHFDHARVLHVHLGLYGAWDFGGDASFRGASSIGAPRKVGEREIFDDGGPAEYSGPPDPRGAVRVRLVSAHGWADLRGATTCAAITEDEAATVLARLGPDPLRNLPADRERFVAGLQSRKAPIAGLLMDQKVIAGVGNVYRAEVLFRQRLNPWRAGNELSVPAAGQLWDDTAAVMSDGVRDGRIITTPAAYWGDGDGLPAGDAAHYVYKRQGLPCRVCGEPVALAELTGRKLYWCPGCQVA				NA	NA	NA	NA	NA
D1-29_02875	495	rpiB	COG0698	Ribose-5-phosphate isomerase B	GTGACTTCTTCCCCTGCCTTCCCGCGGGTCCACATCGCCACCGACCACGCAGGAATGGAACTCAGCGCCCACCTGGTCAGGCACCTCACGTCCAAGGGGTACGACGTGGTGGACCACGGGCCCAAGGTCTATGACGCCCAGGATGACTACCCGTCCTTCTGCATCAACGCCGCGCTCGCAGTGGTGGCTGACCAGAAAGCAGGGGTGCATGCCCTGGGCATCGTCCTGGGTGGCTCGGGCAACGGTGAGCAGATCGCCGCCAACAAAGTCAAGGGAGTGCGCGCCGCCCTGGCGTGGAACCACTCCACCGCCACGCTGGCCCGCGAGCACAATGACGCCAATGTGGTGGCCGTGGGCGGCCGCCAGCACACGGTGGAGGAAGCCACGGAACTGATCGAGGCCTTCCTGGCCGAGCCCTTCAGCAACGACGAACGCCACATCCGCAGGATCGGCAAGATCGCCGCCTATGAAGCCACCGGCGAGGTCATCGAGTAG	MTSSPAFPRVHIATDHAGMELSAHLVRHLTSKGYDVVDHGPKVYDAQDDYPSFCINAALAVVADQKAGVHALGIVLGGSGNGEQIAANKVKGVRAALAWNHSTATLAREHNDANVVAVGGRQHTVEEATELIEAFLAEPFSNDERHIRRIGKIAAYEATGEVIE	PGPT0017395_226	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
D1-29_02876	1035			hypothetical protein	ATGGGAAAGTTCAGGGATGCGGTAGACGTAAGGGCGCTGCGGTTCGCCGTGGGTTTTCCTCTGGTACTGGCCGCCGCCTTCGTGTTTTGCGCGTTCCTGCTGCGCCCCACCCTCCCCGAACCGCTCGCCATCAGCTGGAATGACGACGGCGGCGCCTCCTTCGCACCGTTCAGCGCCTACGCGGCGGGCAGCGCCGTGATCATCGTGGCCGTGGGCTGGCTGGTCCTTTTCCAGGCGGTGCCGGTCTCCCGGCCCACCGTGGTACGCCGGGTAATGATGGGCGGCGGGCTGTTCCTGAGCCTCTTCGCCGCGAGTGTCCTGGCTGCCGGCCTGATGGGGCAGACCGGCCTGGCCGACGCGCGGGAGTCCCGCCTGGACCTCACGGTGCTCGCGCTGGGCAGCGGCGCAGCAATGTGGCTCGGTGTGATTATGGGCTTTGTGTTTAAGGTGGACAGGCAGTGGACGCCCGAGGATGACCAGGCCTTTGAGCTTGCCGTCGCCCGGGAACTGGATCCGGATCTGACCCGGGATTCCATCCGCCTGTGGGTGCACGCCCGCAGCTCAGTCTTCGTCATGATCGCCGTGGCAAGTCTGTTCCCGGCGGCGCTCATTGCGATCGTGCTGCCCTGGTTGGGGGTGCTGCTGGTGGTTCTGGCCCTTGTTGGCGCAGGTTTCCTGTTCGCCCGCGTGAAGGCGGACCGAAGCGGCCTGCGGGTCCTCGTGGCAGGTGTGGTGCCAGTGATGGAGGTACCGGCGGGGGAAATTTCTGAGGCCAGCGCCTCGGATGTGCGGGCAGCCGACTACGGCGGATGGGGTTACCGCCACCATAGCGGTACCGAGGCGATGCTGGTCAGCAGCGGTCCCGCCGTCGTCCTGCGCACCACAGACGGCCACAACATGGCTGTCAGTGGCGGCAGCCCGGCGTCGGCGGCGCGGCTCGCAGAAGTTCTCACCCGCGTGGCAGCCCGGGCGCACGGCGGTGGTGCGCCGGGCGCAGCGGCCAGCGGCCCTGGTCCTGCTCCCGGTACGGGTTGA	MGKFRDAVDVRALRFAVGFPLVLAAAFVFCAFLLRPTLPEPLAISWNDDGGASFAPFSAYAAGSAVIIVAVGWLVLFQAVPVSRPTVVRRVMMGGGLFLSLFAASVLAAGLMGQTGLADARESRLDLTVLALGSGAAMWLGVIMGFVFKVDRQWTPEDDQAFELAVARELDPDLTRDSIRLWVHARSSVFVMIAVASLFPAALIAIVLPWLGVLLVVLALVGAGFLFARVKADRSGLRVLVAGVVPVMEVPAGEISEASASDVRAADYGGWGYRHHSGTEAMLVSSGPAVVLRTTDGHNMAVSGGSPASAARLAEVLTRVAARAHGGGAPGAAASGPGPAPGTG				NA	NA	NA	NA	NA
D1-29_02877	2577	pepN_2		Aminopeptidase N	TTGCCAGGTATGAACCTGACGCGCGCCGAAGCCCGTGAGCGCGCCGAACTGATCGCCGTTGACTCCTACGATGTCAGCCTGGACCTGACCAAAGGCGACAAGGTCTTTGGGAGCACCACCACGGTAAGGTTCACGGCCCGACCGGAATCCTCCACCTTTATCGACGCCGTCACGCATGCCGTACACAGCGTGACCCTGAACGGCCGCAGCCTGGACCCGGAGGCCGTATCAGACGGGATTCGCATCCAGCTGACCGGCCTCGCCGCCGAGAATGAACTGACGGTGGTGGCCGACGCCCCGTACATGAACACCGGTGAGGGCCTGCACCGCTTTGTGGATCCCGTGGACAACGAGGTCTACCTGTACACCCAGTTTGAGGTGCCGGATTCGCGGCGGATGTTCGCAGTTTTTGAGCAGCCGGACCTCAAGGCCACATTCGCCTTCACGGTCACGGCGCCGTCGCACTGGGACCTCATCTCCAATTCCCCCACTCCGGCCGCGCAGGAAACCACTCCCGCGGCCGACGGCGGAGCCCGCTCGGTCTGGACGTTCGCGCCCACGCCGAGGCTGTCCTCCTACGTGACGGCCCTGATCGCGGGGCCGTACCAGTCGGTCCGCAGTGAGGTGGCCAGTTCCGATGGGCGGGTCATTCCGCTGGGCATCTTTGCCCGGAAGTCCCTGATGCAATACCTCGATGCAGACAACATCTTTGAATTGACCCGGCAGGGGTTCGAATTCTTCGAAGCCCAGTTCGGCTGCCCCTACCCGTTTGAGAAGTATGACCAGCTGTTTGTGCCTGAGTTCAATGCCGGCGCCATGGAAAACGCCGGCGCCGTGACCATTCTGGAAGGCTATGTGTTCCGGAGCAAGGTCACCGGGGCGCAGATCGAGCGCCGCGCCATTACTGTGCTCCACGAGCTCGCCCACATGTGGTTCGGGGACCTTGTCACCATGCGCTGGTGGAACGACCTGTGGCTCAACGAGTCCTTTGCCGAATACATGTCCCACCTGGCGGCAGTGGAGAACACGTCCTTCACAAGCGCCTGGACAACCTTCGCCTCCGTGGAGAAGTCCTGGGCGTACCGCCAGGACCAGCTGCCAACCACACATCCCATCTTTGCCGAGATCAACGACCTGCAGGATGTGGAAGTCAATTTCGACGGCATCACCTATGCCAAGGGCGCCTCGGTGCTCCGCCAGCTGGTGGCCTGGGTGGGCCCGGAGCAGTTTATGGCCGGTGTCCGCGAATACTTCGCCAAGCACGCCTGGCAAAACACCGAACTCAGTGACCTGATGGTGGAACTGGAGAAGGCCAGCGGCCGCGACCTGGACCTGTGGGGGCGGCTGTGGCTGGAGACTGCCGGAGTCAATACCCTCAAGCCGGAACTTAGCGTGGACGGAGACGGAAAACTGGCCTCCTTCGCCATTCTCCAATCCGCTGTCACGGAGTGGCCCACCATCCGTCCGCACCGGCTGGCGGTGGGGTTCTACAACCTCAACGGCGCCGGCAAGCTGGAACGGGTCCACCGTGAGGAACTTGACGTCGATGGCGAGCGTACCGAGGTTCCTGCCCTGGCCGGCATGGCGCAGCCTGACCTGATCCTGGTCAATGACGACGATCTTGCGTATGCAAAGGTCCGGCTGGATGAACGGTCGCTGGCTACCGCAACAGCCCACCTGAAGGATTTCAGCGCCAGCCTGCCCCGGACGCTGGTGTGGAACTCGGCATGGGATGCCGCCCGCGACGGGGAGACGCCGGCGCGGCGTTATGTGGAGCTGATCCTGGCCAACGTGGCGGCCGAGTCGGATTCGTCCGTGATCCTGGTGCAGTTGCGCCAGCTTGCCACCACACTGAACTTCTATGTTGCCGAGGAGCACCGCGAGGCCACCATTGTGGCCGCCGTGGACCGCCTCTGGGAGCTGGCGTCCTCCGTTCCCGGCGGGTCCGATGCACAGCTGCAGTTCATCAAGTCCTTTGCCCTGCTCGCCCGCAGCAGTTCGCAGCTGGACAAGGTGGCAGGCGTCCTGGACGGTTCCCTCATCCTGGACGGGCTGACGGTTGACCAGGATCTGCGCTGGGAGCTGCTGACGTCGCTGGTGGCGGGCGGACGGTTCGGCCAGGAACAGATCGACGCCGAGCTGGCACGGGACAACACCGCCAGCGGACAGAACGCCGCGGCCCAGGCCAAGGCAGCCATTCCCACGCCCGAAGCGAAGGCCGAGGCCTGGGAGTCGATCGTGGTCAAGGGTGAACTCTCCAACGCGCTCCAAAACTCGGCAGTTGCGGGCTTCTCCCGCGTCTTGGACCGCTCGCTGCTGGAGCCGTACTCGGAAAAGTACTTCGAGGCCGTTCCCGGGATCGTTGCCACCCGCACCCACGCGCTGGCCCAGCAAATCGTCGTCGGACTGTATCCGGCGCTCCTGACCACCCAGGCGACCATCGACCGCACCGATGGCTTCCTGGCGGCCCTGCCCGCCGAAAGCGCCGCCCTGCGGCGGATGATGCTGGAGAACCGCGACGGCGTTGCCCGGGCCCTGCGCGCACGGGCGGCAGATGTCCTGCCCGGCAGTGTCTAG	MPGMNLTRAEARERAELIAVDSYDVSLDLTKGDKVFGSTTTVRFTARPESSTFIDAVTHAVHSVTLNGRSLDPEAVSDGIRIQLTGLAAENELTVVADAPYMNTGEGLHRFVDPVDNEVYLYTQFEVPDSRRMFAVFEQPDLKATFAFTVTAPSHWDLISNSPTPAAQETTPAADGGARSVWTFAPTPRLSSYVTALIAGPYQSVRSEVASSDGRVIPLGIFARKSLMQYLDADNIFELTRQGFEFFEAQFGCPYPFEKYDQLFVPEFNAGAMENAGAVTILEGYVFRSKVTGAQIERRAITVLHELAHMWFGDLVTMRWWNDLWLNESFAEYMSHLAAVENTSFTSAWTTFASVEKSWAYRQDQLPTTHPIFAEINDLQDVEVNFDGITYAKGASVLRQLVAWVGPEQFMAGVREYFAKHAWQNTELSDLMVELEKASGRDLDLWGRLWLETAGVNTLKPELSVDGDGKLASFAILQSAVTEWPTIRPHRLAVGFYNLNGAGKLERVHREELDVDGERTEVPALAGMAQPDLILVNDDDLAYAKVRLDERSLATATAHLKDFSASLPRTLVWNSAWDAARDGETPARRYVELILANVAAESDSSVILVQLRQLATTLNFYVAEEHREATIVAAVDRLWELASSVPGGSDAQLQFIKSFALLARSSSQLDKVAGVLDGSLILDGLTVDQDLRWELLTSLVAGGRFGQEQIDAELARDNTASGQNAAAQAKAAIPTPEAKAEAWESIVVKGELSNALQNSAVAGFSRVLDRSLLEPYSEKYFEAVPGIVATRTHALAQQIVVGLYPALLTTQATIDRTDGFLAALPAESAALRRMMLENRDGVARALRARAADVLPGSV				NA	NA	NA	NA	NA
D1-29_02878	474			hypothetical protein	ATGAGCCTGGGTGAACACCATTATTCCCTGACGGTCCGGTGGACCGGCAACCTGGGAGACGGCACGTCCTCCTACCGCGGGTATTCCCGCGACCACGACGTCCAGATCCCCGGGTTGCCGGTCCTTAAGGGCTCCGCCGACCCCACCTTCCATGGGGACCGGTCACGGTATAACCCCGAGCAACTGCTGTTGGCCGCGCTGGCCCAGTGCCACATGCTGTCCTTCCTTCACGTGGCCGTGCGGCACGGCGTGGTGGTCACGGATTACCAGGACGATGCCACGGGCGTGCTGCGGCTGAACAGGGACGGCAGCGGGCAGTTCGAATCCGTCACGCTGAACCCGCGGGTGGCGGTGGCGGACACGGCCCACGTGGCCCTCGCGGAGGAGCTGCACCGCGAGGCCAACCAGGTCTGCTTCATCGCCCGCAGCGTCAACTTCCCAGTGCACCATGAACCCGTGACGCTAACGGCCTGA	MSLGEHHYSLTVRWTGNLGDGTSSYRGYSRDHDVQIPGLPVLKGSADPTFHGDRSRYNPEQLLLAALAQCHMLSFLHVAVRHGVVVTDYQDDATGVLRLNRDGSGQFESVTLNPRVAVADTAHVALAEELHREANQVCFIARSVNFPVHHEPVTLTA				NA	NA	NA	NA	NA
D1-29_02879	993			hypothetical protein	ATGCGCATCCTGGTCTTGGGCGGAACCGCCTTCCTCTCTGCAGAAATCGCCCGGCAGGCCGTCGCCGCCGGCCATCAAACAGCGTGCCTGGCCCGTGGTTCCGCGGCGGAACCGCCGGCGGGTGTCCGGTGGCTGAAGGCAGACCGTTCACTGGGCGCGAACAGCTACACGGAGGCGGCAGGAGAGTGGGACGCCGTCATAGAAGTGGCACGGGATCCTGCCAAGGCCCGGGATGCCTTGGCGGCGCTGGCCGGCCGGGCCGCGCACTGGACGTTCGTTTCCAGCTGTTCCGTCTACGCCGACCATTCTGTGCCCTCTGCGGCCGAGGAAGCGGACCTCTTGCAGCCCCTGCCGGTGGGGACGCCGTCAACGCCGGAGAACTACGGGGAATCGAAGTCGGCCATTGAGCAGGCCACCCTGGAAGCTGCCTCAGGCACAGCCCACCTCTGCCGGGCCGGGCTGATCGGCGGTCCCGGCGACGCATCCGACAGGTACGGCTACTGGCCGGCCAGGTTCGCCCGGGATAGCCAGGCCGCACTTGTGCCGGACATTGCCGGCCATGCGACTCAGGTCATCGACGTCCGGGACCTTGCCGTGTGGATTCTCGACGCCGCGGGCCGCGGTGTCACAGGGCCGCTCAACGCGGTGGGGGAGCAGGTTCCGTTCGGCGAGTATATTTCCGCGTCCCGGAGCCTTGCCGGCCACCAGGGGGAGATCCTGCCCGCCGCTGAAGACTGGCTGGTGGAACATGGTGTCGGGTATTGGTCGGGAACGGATTCCCTGCCGCTGTGGTTGCCGCCGGGCTATGACGGCTTCTCTGCGCGCAGCAACGGGGCGGCAAAAGCGGCTGGCCTCACCCTGCGCCCGTGGCAGGAAACGCTGGAGGACACGCTCGAGGACGAACGCCGTCGGGGGCTCTCCCGCGAACGGAAAGCGGGCCTCATGCCCGCCACTGAAGCACGACTGGCCACGGAGCTGCGCGGAGCCGTCTAA	MRILVLGGTAFLSAEIARQAVAAGHQTACLARGSAAEPPAGVRWLKADRSLGANSYTEAAGEWDAVIEVARDPAKARDALAALAGRAAHWTFVSSCSVYADHSVPSAAEEADLLQPLPVGTPSTPENYGESKSAIEQATLEAASGTAHLCRAGLIGGPGDASDRYGYWPARFARDSQAALVPDIAGHATQVIDVRDLAVWILDAAGRGVTGPLNAVGEQVPFGEYISASRSLAGHQGEILPAAEDWLVEHGVGYWSGTDSLPLWLPPGYDGFSARSNGAAKAAGLTLRPWQETLEDTLEDERRRGLSRERKAGLMPATEARLATELRGAV				NA	NA	NA	NA	NA
D1-29_02880	684			hypothetical protein	ATGTTCAGCACGTTGTCGATCACACCCCTTAACTCCCAATCCGATGGAATCAGCGTCCCGGGCATCGTCATCAGCCTTGGCATCGGTGTTGCCGTCTGGCTGGTGGCAACCTTTGTCATCTCCCGGATCAGCAGGCGGGTGGCCTCCGGCAGCAACCTCTTCAAGAAGCCGCACTTCAAATGGGTGGCACCGGCACTCCGGGCGCTGGACCACGAGCGTCGGGTACAGCGCGCGGAGACCATCGGCTCCCTGCTGAACAGCATCGTGGGGGTCCTGGTGGCCGTGATCACCATTATGTACGTGCTCCAGAACCTCGACATCAACATTGCACCGCTGCTGACCAGCGTAGGAATCCTGGGTGTTGCCATCGGTTTTGGTGCCCAGCAGCTCATCCGCGATTTCCTGGCCGGCATTTTTATCACCATTGAGGACCAGTACGGGATTGGTGATGTCATCGAGACCAGCGAGGTGGTGGGCGTTGTTGAATCCATGGGCCTTCGCATAACCCGGGTCCGTTCCGAGGACGGTGCCATCTGGTACCTCCGCAACGGCGAGATCCTGCGGGTCGGAAACCGTTCGCAGGGCAACTATGTCCCGCTGCCTGACGCCCCCGACGCCGGCACTGACGAGGCTGGGGCCGTGCACACCGCCGACAAAAAGTCTGAACAAAAGGCCGGAGAATAG	MFSTLSITPLNSQSDGISVPGIVISLGIGVAVWLVATFVISRISRRVASGSNLFKKPHFKWVAPALRALDHERRVQRAETIGSLLNSIVGVLVAVITIMYVLQNLDINIAPLLTSVGILGVAIGFGAQQLIRDFLAGIFITIEDQYGIGDVIETSEVVGVVESMGLRITRVRSEDGAIWYLRNGEILRVGNRSQGNYVPLPDAPDAGTDEAGAVHTADKKSEQKAGE	PGPT0013695_2843	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013695-ykuT|ybiO-K22044	NA	NA
D1-29_02881	453	glbO	COG2346	Group 2 truncated hemoglobin GlbO	ATGACCACACCTGCCGAACCGCAACAGCCGCGCCAGCTGATGCAGAACGATCCGTTCAGCCAGCCCGGGTACACGGACAACTTCTACAATGCCGTGGGCGGCCACGAGACATTCGTACGGCTCATCGACGTTTTCTACGACGGCGTGGCAACGGATCCGTTGCTGCGGCCCATGTATCCGGAAGCGGACCTGGCCCCCGCAAAACGGCGGTTCCTCATGTTCCTGGAGCAGTACTGGGGCGGCCCCACCACGTACGGCGAGGAACGCGGCCACCCGCGACTGCGGATGCGCCACATGCCGTTCCAGGTCACACCGGAGGCCAAGGACCGCTGGCTGTTCCACATGCGGGCTGCCGTTGATGCACTTGAACTGCCCCCGCTGTATGAAACAACACTCTGGGACTACATGGAACGCGCCGCGCTGTCCATGGTCAACAGCGCATCGGGGGCCTGA	MTTPAEPQQPRQLMQNDPFSQPGYTDNFYNAVGGHETFVRLIDVFYDGVATDPLLRPMYPEADLAPAKRRFLMFLEQYWGGPTTYGEERGHPRLRMRHMPFQVTPEAKDRWLFHMRAAVDALELPPLYETTLWDYMERAALSMVNSASGA	PGPT0018560_1759	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
D1-29_02882	675			hypothetical protein	GTGTCTGATCTCCTTACCCAGTCCTTCCGGTTCTCAGATCCGCGCGATCTCGCGGACCTGCGCACCTTCGCCACGCGTGCCAAAGCAATCGACGACGGCGCCATCCGGCTCCAGGCGGCGGGTTCGGTACTGGCCGCCTACGTGTGTGTGCTGAGGCCACGGTTGCTGGGTGAAGCCACCCCCACCATCCTGGGCCTGCGCACCATGGGACTGGCGGAACGGTCCGCAGTGGATGTCACCGTTCCGCTTTCTGCGGTCCTGGACCGGCTGGCCCGGGCGGGGGAAGCCGACGTCGAACTTCCGGTTCCGCCGTCCACCGTCAGCGAATCCTGGACGGGAGTCAGCGCGCCCAGGACGGGCTGGGAGCTGGTCACTTCCGTTCCCGATGCCGATCTGCGGCGGGCCGCCGAAGCGGGCATCACCGAGGTGGCCGGGATTGTGCCGGATAAACCCGGGGCCTTAATCGTCAATAACGCGCGGGCAGCGGTTTGGGGCAGGGTCCTCGATGGATCGGGAGTGCCGGCGGGAGCTGCCTTCGCCGCGCTGACCCTGGGGTTCCTCGCGGACGGGGACCAGAAGCTGTACCGGGCGGGCCGCTGGTACCGCCTGACGGGAACACGCGGGCATGTCCTGGTGCGGACCGGCAACGGCCTTGTCCTGACCTCCGGAGCCTAA	MSDLLTQSFRFSDPRDLADLRTFATRAKAIDDGAIRLQAAGSVLAAYVCVLRPRLLGEATPTILGLRTMGLAERSAVDVTVPLSAVLDRLARAGEADVELPVPPSTVSESWTGVSAPRTGWELVTSVPDADLRRAAEAGITEVAGIVPDKPGALIVNNARAAVWGRVLDGSGVPAGAAFAALTLGFLADGDQKLYRAGRWYRLTGTRGHVLVRTGNGLVLTSGA				NA	NA	NA	NA	NA
D1-29_02883	981	tesB	COG1946	Acyl-CoA thioesterase 2	ATGACTGAAGCCGAAGCCGGATTGCTGGCGCCGCCCAGCGGCGACCCCACCTCATCGCTCATCAAACTCCTGGATCTTGGCCAGCTTGAGGGCGCCCGGACGGACGAGGACATCTTTCTGGGACCGTCACAGCAGCAGCCCCATCAGCGGGTGTTCGGCGGCCAAGTGCTGGCGCAGTCCCTCATCGCCTCGATGCGGACGGTGGATGCTGACCGGTTTGTGCATTCCATGCACGGGTACTTCCTCCGGCCCGGGGATGCCAATCAGCCCATCACGTTCGGCGTCCAGCGGCTGCGCGACGGCCGTTCCTTCTCGGCACGCCGCGTCCACGCCTACCAGGACGGCGTGCCCATCCTGTCCATGATTGCTTCCTTCCAGGGCGAGGATGAAGGCATCGAGCACGAATCCACCATGCCCAAGGGCATCCCGGACCCCGAGTCGCTTCCCAGCACCGCAGACCTGCTGGGCAAGTTCGATCATCCGGTGGCACGGCACTGGTCCTACGAACGGCCGTTTGATATCCGGCATGTCGACCCGCCCCTTTACGTCTCCGCAAAGGGCAAAAAGGACGCACGGAACGCCGTCTGGATGAAAACCTTTGGCCCCATGCCCGACAATCCCAACCTCCACCGGGCGGCCCTGGCGTACGCGAGCGATTACACCATCCTGGAATCCATCCTGCGCCGGCACGGACTGAGCTGGATTACGCCGGGCATGAACGTGGCAAGCCTGGATCATGCCATGTGGTGGCACCGTCCGGCACGAGTGGACGAGTGGCTGCTCTACGTGCAGGAGTCCCCCAGCGCCCAGGGAGCCCGCGGCCTGGCAACCGGCAAAATCTTCAACCGGGACGGGCTGCATGTGGCGTCGGTGGCCCAGGAGGGGATGGTCCGGGTCCCCACGGATCTGAAGAACAAGGTGGTAGGTGCCTTCCAGTCCAAGGTTCTTGAACACCAGATCCGAAAAGCCGAGCGCGACTGA	MTEAEAGLLAPPSGDPTSSLIKLLDLGQLEGARTDEDIFLGPSQQQPHQRVFGGQVLAQSLIASMRTVDADRFVHSMHGYFLRPGDANQPITFGVQRLRDGRSFSARRVHAYQDGVPILSMIASFQGEDEGIEHESTMPKGIPDPESLPSTADLLGKFDHPVARHWSYERPFDIRHVDPPLYVSAKGKKDARNAVWMKTFGPMPDNPNLHRAALAYASDYTILESILRRHGLSWITPGMNVASLDHAMWWHRPARVDEWLLYVQESPSAQGARGLATGKIFNRDGLHVASVAQEGMVRVPTDLKNKVVGAFQSKVLEHQIRKAERD	PGPT0001835_39	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001835-tesB-K10805	NA	NA
D1-29_02884	1683	ettA_3	COG0488	Energy-dependent translational throttle protein EttA	ATGGCGGAATTTATCTACACAATGACCAAGGCCCGTAAGGCTGTTGGCGAAAAACTTATTCTTGACGACGTAAGCATGTCCTTCTTCCCCGGCGCCAAAATTGGTGTTGTTGGCCCGAATGGTGCCGGTAAGTCCACCATCCTCAAAATCATGGCCGGACTGGACACCCCCTCCAACGGCGAAGCCCGGCTCAGCCCCGGCTACTCAGTGGGGATCCTGCTTCAGGAGCCGCCGCTGAACGAGGAAAAGACGGTCCTGGGCAACGTCCAGGAAGGCGTTGGCGAGATCTACGGCAAGATCCAGCGCTTCAACGAGATCTCCGAGGAAATGGCCAGCCCGGACGCTGACTACGACACACTGCTTGAAGAAATGGGACACCTGCAGGAGGCCATTGACGCCGCTGATGCCTGGGACCTGGACTCCCAGCTGGAGCAGGCCATGGACGCCCTCAGGTGCCCGCCGGCCGATGCCGATGTCACCATGCTTTCAGGCGGTGAGCGCCGCCGAGTGGCGCTCTGCAAGCTCCTTTTGCAGAAGCCTGACCTGCTCCTGCTGGATGAGCCCACCAACCACCTTGACGCCGAAAGCGTGTTGTGGCTGGAGCAGCACCTTTCCAGCTACGCGGGTGCAGTCCTGGCCGTTACCCACGACCGGTACTTCCTTGACCACGTGGCGGAATGGATTGCCGAGGTGGACCGCGGCCACCTGTACCCCTATGAGGGCAACTACTCCACCTACCTGGAGAAGAAGCGGGCGCGCCTGGAAATCCAGGGCAAAAAGGACGCCAAGCAGGCCAAACGCCTCACCGAGGAACTGGAATGGGTCCGCTCCAACGCCAAGGGCCGCCAGACCAAGTCCAAAGCCCGCCTTGCCCGCTATGAGGAAATGGCTGCCGAAGCGGACCGCACCCGCAAGCTTGATTTCGAAGAGATCCAGATTCCGCCGGGACCGCGCCTGGGCGGGCTCGTCCTGGAAGCGAAAAATCTGCAGAAGGGCTTCGACGACAGGATCCTGATCGACGGGCTGTCCTTCAGCCTTCCGCGGAACGGCATCGTGGGTGTTATCGGGCCCAACGGTGTGGGCAAGTCCACGCTGTTCAAGACCATCGTGGGGCTGGAACCGCTCGACGGCGGCGAGCTGAAGATTGGCGACTCCGTCAAGATCTCCTATGCCGACCAGAACCGTGGCGGCATCGACCCGAACAAGTCGCTGTGGGAGGTCGTCTCGGACGGCCTGGACTACATCCAGGTAGGCCACGTCGAAATGCCGTCCCGCGCCTACGTTGCCGCCTTCGGCTTCAAGGGTCCGGACCAGCAGAAAAAGGCAGGCGTGCTTTCCGGTGGTGAGCGCAACAGGCTGAACCTGGCATTGACCCTTAAGCAGGGCGGTAACCTGCTGCTACTTGACGAACCGACCAACGACCTCGACGTCGAGACCCTCAGCAGCCTGGAGAACGCGCTGCTTGAATTCCCCGGCTGCGCCGTGGTGGTCTCGCACGACCGGTGGTTCCTGGACCGGGTGGCAACCCACATCCTCGCCTACGAAGGCGACGACGAAAACCCGTCCAAGTGGTACTGGTTTGAGGGCAACTTCGAATCCTACGAAGAAAACAAGGTAGAGCGCCTTGGACCCGATGCGGCCAAGCCTCACCGCGTCACGCACCGCCGCCTGACCCGCGACTGA	MAEFIYTMTKARKAVGEKLILDDVSMSFFPGAKIGVVGPNGAGKSTILKIMAGLDTPSNGEARLSPGYSVGILLQEPPLNEEKTVLGNVQEGVGEIYGKIQRFNEISEEMASPDADYDTLLEEMGHLQEAIDAADAWDLDSQLEQAMDALRCPPADADVTMLSGGERRRVALCKLLLQKPDLLLLDEPTNHLDAESVLWLEQHLSSYAGAVLAVTHDRYFLDHVAEWIAEVDRGHLYPYEGNYSTYLEKKRARLEIQGKKDAKQAKRLTEELEWVRSNAKGRQTKSKARLARYEEMAAEADRTRKLDFEEIQIPPGPRLGGLVLEAKNLQKGFDDRILIDGLSFSLPRNGIVGVIGPNGVGKSTLFKTIVGLEPLDGGELKIGDSVKISYADQNRGGIDPNKSLWEVVSDGLDYIQVGHVEMPSRAYVAAFGFKGPDQQKKAGVLSGGERNRLNLALTLKQGGNLLLLDEPTNDLDVETLSSLENALLEFPGCAVVVSHDRWFLDRVATHILAYEGDDENPSKWYWFEGNFESYEENKVERLGPDAAKPHRVTHRRLTRD				NA	NA	NA	NA	NA
D1-29_02885	660			hypothetical protein	ATGGTCCTGGCCATCCGTATCCTCAACGCGTGGCAGAATGGCCGCATGAAGCGCGCCACGGAACACCGCAAAAAGAATCACGTCGGTGTCCTGTTGGCAGTTCGCCAAGTCCCCACATCCTCCTTCAGCAGCGTATGGGCAGGATGCGTCCTTGTTGCGGTGTCATTGGCGGTTGCGGTGTCGCTGTCGGCCTGCACAGGCGGTGCCCAGTCCGGCGGTGACAAGCCGGGCGCGCCTGCCGCGACAACAACGCAGGCCGCGTCACCAGCAACTCCGTCATCATCCCCTTCCGAGGCTGCAAGTCCCGGCGGTGCCGCAGCAGGATCCTCCGCCGCAGCAGGGGGACGCGCTTCGGCGGAGGATCCTGCCACCGCCGCGCTCAGGCAGACCGTCACTGATGTGCTGAGCCGGCTCGCTGCCGGGACGCCGAAGCCGGCTAGTGCCCAGGTGACGGAGGCCCTGACCGGTGCCGGCATCGCGGCAGCTGCTCTGGAAGTGTCCGAAAGCAGCACGCCAACAGGGTTGGAAGCTGACGCTGTAGAAGCCGCTGTTCTGCAGGGGAGTGACTGTGTTGTGGGCCAGATTCGTGACGGTGGCGTAGCAGTGACCGTTCTTCCCGTCCTGTCCACCGGCAAGTGCTTTGTGGGCTCAGCCGTCTGA	MVLAIRILNAWQNGRMKRATEHRKKNHVGVLLAVRQVPTSSFSSVWAGCVLVAVSLAVAVSLSACTGGAQSGGDKPGAPAATTTQAASPATPSSSPSEAASPGGAAAGSSAAAGGRASAEDPATAALRQTVTDVLSRLAAGTPKPASAQVTEALTGAGIAAAALEVSESSTPTGLEADAVEAAVLQGSDCVVGQIRDGGVAVTVLPVLSTGKCFVGSAV				NA	NA	NA	NA	NA
D1-29_02886	570			Single-stranded DNA-binding protein	ATGAGTGACAACATTACGGTCCGTGGCTTCGTCGCCACGGAAATCAAAAGCTCCACAACCCCAGGCGGCGTCGGCACGGCTTCCTTCCGCCTTGGATCCACGGACCGGCACTACGACCGCGCTTCGGGCGCCTGGGTCGATGGCAACACCAACTGGTTCACGGTTCAGGGCTACCGCCAGCTCGCGGGAAACATGGGCTGCAGCATCAAGAAGGGCCAGCGCGTGATCGTTGTGGGACGTTTGAAGCTCCGGAGCTGGGAGAAGGAGGGGCGGGTTTACTATGCCACCGAAATTGACGCGGAATCCGTAGGCCACGATTTGATGTGGGGCTCAGCAAACTACATCCGCACAGCGTCCAAAGGCCCGTACTTGGTTTCGGAACAGGGTGCAGAAGCCCAGTCCGTGGGCGCGTTCCCCGCAGATTCGGAGGATGCCCGCGACGCCGGCAATGGCGAGGCCGGGGAGGACCCGGACGGCGACGGATCCACAGCGATCTACCTGGAGGACACCAACGGAGAGCTCATCCCGGTCGATCCGGAAACGGGGGAACTCGCGGACGCAACTGCCTAG	MSDNITVRGFVATEIKSSTTPGGVGTASFRLGSTDRHYDRASGAWVDGNTNWFTVQGYRQLAGNMGCSIKKGQRVIVVGRLKLRSWEKEGRVYYATEIDAESVGHDLMWGSANYIRTASKGPYLVSEQGAEAQSVGAFPADSEDARDAGNGEAGEDPDGDGSTAIYLEDTNGELIPVDPETGELADATA				NA	NA	NA	NA	NA
D1-29_02888	135			hypothetical protein	ATGCATGTCACCGTGCCTACGGGCGATGAATCAGAACCCATGGATTGCCCGCATCAGTTTGTCGGCCGCTGCGACCTGTGCTCCGCGCCGGCGGGGGAGGTAAATTCCGAAAACAAAAGCGGCTCTGACACGTAA	MHVTVPTGDESEPMDCPHQFVGRCDLCSAPAGEVNSENKSGSDT				NA	NA	NA	NA	NA
D1-29_02890	1188	xylA_1		Xylose isomerase	ATGACAGCTTTGCCCACACCCGAAGACAAATTCACTTTCGGCCTCTGGACTGTTGGCTGGACCGGCGCTGACCCCTTTGGCGTGGCAACCCGCCAGGCCCTGGATCCCGTAGAGGCCGTCCACAAGCTCAGCGAGCTGGGCGCCTATGGAATCACGTTCCACGACAACGACCTGGTCCCCTTCGACGCCACCGCCTCGGAGAGCGAACTGATCCTGAAGAACTTCCGCGCCGCCCTCACGGAGACCGGCCTCAAGGTCCCGATGGTCACCACCAACCTGTTCAGCCACCCCGTCTTCAAGGACGGCGGATTCACCTCCAATGACCGTTCCATCCGCCGCTTTGCCCTCAGCAAGGTGTTGCGCAACATCGACTCGGCCGCAGAATTCGGCGCCGAAACGTTTGTTATGTGGGGCGGCCGGGAAGGCAGCGAATACGACGGCTCCAAGGACCTCTCAGCCGCCCTGGACCGGATGAAGGAAGGCGTGGACACAGCCGCGGCCTACATCAAGGAAAAGGGCTACAACCTCCGCATCGCCCTGGAACCCAAACCGAACGAGCCCCGCGGCGACATCTTCCTCCCCACCGTCGGGCACGGCCTGGCCTTCATCGCCCAGCTCGAACACGGCGACATTGTGGGCCTGAACCCGGAAACGGGGCATGAGCAGATGGCCGGGCTGAACTTCACCCACGGCATCGCCCAGGCCCTGTGGGCGGGCAAGCTTTTCCACATCGACCTCAACGGCCAGCGCGGTATCAAGTACGACCAGGACCTCGTCTTCGGCCACGGCGACCTCACCAGCGCCTTCTTCACCGTGGACCTGCTCGAAAACGGCTTCCCCAACGGCGGACCGAAGTACAACGGCCCCCGCCACTTCGACTACAAGCCCTCACGCACTGACGGCTACGACGGCGTCTGGGAATCAGCCAAATCCAACATGTCCATGTACCTGCTGCTCAAGGAAAGGGCCCTCGCCTTCCGCGCCGACCCCCAGGTCCAGGAAGCACTCGCCGCCTCAGGCGTCTTCGAACTCGGCGAATCCACCCTGGCCGCCGGCGAATCCACGGCGGACCTCCTGGCGGACAGCAGCGCTTTCGAGGACTTCAACGCCGATAAGGCCGCCGAACGTTCCTTTGCCTTTGTGCGGCTGAACCAGCTGGCCATCGAGCACCTGCTTAACGCCCGCTGA	MTALPTPEDKFTFGLWTVGWTGADPFGVATRQALDPVEAVHKLSELGAYGITFHDNDLVPFDATASESELILKNFRAALTETGLKVPMVTTNLFSHPVFKDGGFTSNDRSIRRFALSKVLRNIDSAAEFGAETFVMWGGREGSEYDGSKDLSAALDRMKEGVDTAAAYIKEKGYNLRIALEPKPNEPRGDIFLPTVGHGLAFIAQLEHGDIVGLNPETGHEQMAGLNFTHGIAQALWAGKLFHIDLNGQRGIKYDQDLVFGHGDLTSAFFTVDLLENGFPNGGPKYNGPRHFDYKPSRTDGYDGVWESAKSNMSMYLLLKERALAFRADPQVQEALAASGVFELGESTLAAGESTADLLADSSAFEDFNADKAAERSFAFVRLNQLAIEHLLNAR	PGPT0017550_1492	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
D1-29_02891	1422	xylB_1	COG1070	Xylulose kinase	ATGGCACTCATAGCCGGCATCGACAGCTCCACCCAGTCCTGCAAGGTGGTGATCCGGGATGCGGACACCGGCCTCCTGGTCCGGCAGGGAAGGGCGGCCCACCCTGATGGCACCGAAGTCCATCCGGACGCCTGGTGGGACGCGCTGCAGCAGGCCATCGGCCAGGCCGGCGGGCTGTCCGACGTTGCCGCCGTGTCCGTGGGCGGCCAGCAGCATGGCATGGTGTGCCTGGACCGGGACGGCACCGTCATCAGGCCCGCACTGCTATGGAATGACATCCGCTCTGCCCAGGCCGCAGTGGACATCATCACCGAAGCGGGCAAGGGAGACCCCGCTGCCGGGGCAAGGCACTGGGTTGAAGCCACAGGCACCGTCCCGGTGGCTTCACTGACGCTGACCAAGCTGCGCTGGCTGGCGGAGAACGAGCCCGGAAACGCCGCCCTGGTGGCCGCCGTCTGCCTCCCCCATGACTGGCTCTCCTGGCGTCTGGCCGGGTTCGGGCCAGGAAGCGGTGAGGCAGGACTGGCCGCTCTTCGCACCGACCGCTCCGACGCTTCGGGTACCGGATACTACTCCGCTGCTGCGGGCGAGTACCTCACAGACGTCCTCGAAAAGGCGCTGGGCCACGTTCCCCGGCTTCCCGCCGTCGTTGGCCCGCTGGACATCGCCGGGAAGACGCCGGCAGGCGCGCTCATCGGTCCCGGCGCCGGGGACAACGCCGCCGCTGCCCTGGGTGTTGGCGCCGGAGTGGGTGACGTGGTGCTGTCCCTCGGCACCTCCGGGACAGTATTTGCCGTCTCCTCAACCCCGTCGGCTGATGCCTCCGGGCTGGTGGCAGGTTTCGCCGACGCCACGGGCAACTACCTGCCGCTGGCGTGCACCCTGAACGCAACGCGGATCTTCGATGCCACCGCTGCCCTGCTGGATGTCACCCTGGATGAGTTCAATGCCCTGGCACTGGCGGCCACCCCGGGAGCGGGAGGGCTCACCCTCGTTCCCTACTTCGACGGCGAGCGCACGCCGAACCTGCCCAACGCCACGGGATCGCTGCATGGCCTGACGCGTGAAAACTTTACGCCGGAGAACTTGGCCCGTGCCGCCGTCGAGGGTGTGGTCTGCTCCCTCGCCGATGGGCTTGCGGCACTGCAGGCACAAGGAGTCCAGGCCCGGCGCATCATCCTGATCGGCGGCGGGGCACAGTCGCCGGCCGTCCAGCAGGCTGCCAGCCAGCTGCTGGGCTTGCCAGGCATTGTTCCGGCACCGGGAGAATATGTTGCCGACGGCGCCGCACGCCAGGCCGCTGCTGTGCTCACCGGGGCTTTCCCCGGCTGGGGAACTAAAGCGGTGGAATTCAGCGCCCAGGCTTCCGACGGCGGCATCCTGGCCAGGTATCGCAGGCACGCCGGCGCTTACCTGGCCTAG	MALIAGIDSSTQSCKVVIRDADTGLLVRQGRAAHPDGTEVHPDAWWDALQQAIGQAGGLSDVAAVSVGGQQHGMVCLDRDGTVIRPALLWNDIRSAQAAVDIITEAGKGDPAAGARHWVEATGTVPVASLTLTKLRWLAENEPGNAALVAAVCLPHDWLSWRLAGFGPGSGEAGLAALRTDRSDASGTGYYSAAAGEYLTDVLEKALGHVPRLPAVVGPLDIAGKTPAGALIGPGAGDNAAAALGVGAGVGDVVLSLGTSGTVFAVSSTPSADASGLVAGFADATGNYLPLACTLNATRIFDATAALLDVTLDEFNALALAATPGAGGLTLVPYFDGERTPNLPNATGSLHGLTRENFTPENLARAAVEGVVCSLADGLAALQAQGVQARRIILIGGGAQSPAVQQAASQLLGLPGIVPAPGEYVADGAARQAAAVLTGAFPGWGTKAVEFSAQASDGGILARYRRHAGAYLA	PGPT0017535_3789	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
D1-29_02892	858			hypothetical protein	ATGACAGCGAACCCAGAACCGTCCCCTTTTGCACGCCTCTCCCTCAATACCGCCACCACCAAGAAGTGGACGCTCGCTGAAGCGGTGGAGGGGTGCGTCCGCGCCGGACTGCCCGCCATCGGTCCGTGGCGGGACCGCGTCGAGGAGGCAGGCCTGGACAAGGCAGCCAAGCTCATCAAGGATGCCGGCCTGCGGGTTTCTTCCCTATGCCGCGGCGGCTTCCTGACCGCTGCCGACGCGGAAGGCCAGGCCGCGGCGCTGGCGGACAACCGTGCCGCCGTCCTCGAGGCTGTTGCGCTGGACACGCAGGAACTGTTCCTGGTGGTTGGCGGGCTCGCGCCAGGGGAGAAGGATGTGGTCGCCGCCCGGCAGCGTGTGGCCGACCGCCTCGCTGACCTGGTGCCCTTCGCGGCAGGGAACGGCGTCCGCCTGGTCCTGGAGCCGCTGCATCCCATGTACGCCGCGGACCGTGCCCTGATCTCCACCCTGGGGCAGGCCCTGGACCTTGCCGCGCCGTATGACGCCAAGCATGTTGGCGTCGCCGTCGACACCTTCCACGTCTGGTGGGACCCGGAACTGAAGGCGCAGATAGAACGCGCCGGCCGGGAAAACCGGCTGGCCTCCTATCAGGTCTGCGACTTCAACATGCCCATCGCCGCGGACCCGCTGCTGTCCAGGGGCTTCATGGGCGACGGCGTCATCGACTTCGCGACAATTGGCACCTGGGTGCGCGATGCCGGGTACACCGGCGATATTGAAGTTGAAATCTTTAATCAGGAGATCTGGGATGCTGACGGCGACAGCGTCCTGCAGACCATCAAGCAGCGGTACGCAGACCTGGTGCTGCCGTACGCCTGA	MTANPEPSPFARLSLNTATTKKWTLAEAVEGCVRAGLPAIGPWRDRVEEAGLDKAAKLIKDAGLRVSSLCRGGFLTAADAEGQAAALADNRAAVLEAVALDTQELFLVVGGLAPGEKDVVAARQRVADRLADLVPFAAGNGVRLVLEPLHPMYAADRALISTLGQALDLAAPYDAKHVGVAVDTFHVWWDPELKAQIERAGRENRLASYQVCDFNMPIAADPLLSRGFMGDGVIDFATIGTWVRDAGYTGDIEVEIFNQEIWDADGDSVLQTIKQRYADLVLPYA				NA	NA	NA	NA	NA
D1-29_02893	1215			hypothetical protein	ATGACCTCACTCATTCTTCCCTCCCACGACGGCGGAACCCGGGAGTACCGGCTTCAGGGCGGTACGTCCTGGGCACGGCCCATGGTCCCGCTCACCTCGCGCCGTGCCTACGCCGCCGCGCATGTGATTCCCGAAGTCCTGGCGGACAACACCCCGGGTGCGCCGGCACGCCTCGACTGGGATGCCACCATGGCATATCGGCATGAACTCTGGTCCTACGGGCTGGGTGTGGCCGATGCCATGGACACCGCCCAGCGCGGGATGGGCCTGGACTGGCCAGCCACCCAGCAGCTCATCAAGCGGACAGGTGTCGAAGCCGCAGCAGTGGTTTCGGCCGGGAACGCCGCCACGGCCGGCAAGACCGTGCGTGACCTCGTTTCCTGCGGCGCGGGCACGGATCAGCTGGACATCGCATCGCTGCCTGCCGGTGAAGCCGGCCTGAAAGCGGTTCTGGACGCCTACCGCGAGCAGATCGAAGTAGTGACGGAGGCGGGGCCGAAGGTCATCCTGATGGCGTCGCGGGCTTTGGCGAAGGTCGCATCGGGCCCGGAAGACTACCTCAGTGTCTATTCCACGCTGCTTCAGGAAGTGGAGCAGCCCGTTATCCTGCACTGGCTGGGCACCATGTTCGATCCCGCCCTGGCCGGCTACTGGGGGAACGGCGACGTCGCTGCTGCCACCGAAACCTTCCTGGGCCTTATCCGTGACAATGCGGACAAGGTGGACGGCGTCAAGGTCTCCCTTCTCGATGCCAGCCACGAAGTGGCGCTCCGCGCGGCCCTTCCCGAAGGCGTCCGCCTCTACACAGGCGACGACTTCAACTACCCGGAACTGATCGATGGCGACGGCAGCCACCACTCAGACGCCCTGCTGGGCATCTTTGCGGCCATCTACCCGGCAGCCTCGGTGGCACTGCAGGCCTACGACGCCGGTGACGCCGCCAAGGGCCGCGCCATCCTGGATTCCACGCGGGAACTGGGCAAGCACATCTTCAGTGCGCCCACTTTCTACTACAAAACAGGCATCGCCTTTATGTCCTGGCTCAACGGCAAGCAGCCGGGCTTCCAGATGGTGGGCGGCCTGCACTCCGGGCGTTCCGTATGCCACCTGGCCAAAACCTTCGAATTGGCCGATCAGGCCGGGCTGCTGAAGGATCCGGCACTCGCAGCCTTCAGGATGTCCGATTACCTGCGGATCAACGGAGTAGGCGTATGA	MTSLILPSHDGGTREYRLQGGTSWARPMVPLTSRRAYAAAHVIPEVLADNTPGAPARLDWDATMAYRHELWSYGLGVADAMDTAQRGMGLDWPATQQLIKRTGVEAAAVVSAGNAATAGKTVRDLVSCGAGTDQLDIASLPAGEAGLKAVLDAYREQIEVVTEAGPKVILMASRALAKVASGPEDYLSVYSTLLQEVEQPVILHWLGTMFDPALAGYWGNGDVAAATETFLGLIRDNADKVDGVKVSLLDASHEVALRAALPEGVRLYTGDDFNYPELIDGDGSHHSDALLGIFAAIYPAASVALQAYDAGDAAKGRAILDSTRELGKHIFSAPTFYYKTGIAFMSWLNGKQPGFQMVGGLHSGRSVCHLAKTFELADQAGLLKDPALAAFRMSDYLRINGVGV				NA	NA	NA	NA	NA
D1-29_02894	1170	xdh		D-xylose dehydrogenase	ATGGGCTTCGAAACAAAGACGATCCGCATCGCCATGAACGGCATCACCGGACGGATGGGTTACCGGCAGCACCTGCTGCGTTCCATCCTTCCCATCCGCGACGCCGGAGGCTTCACCCTGGAGGACGGCACCAGGGTTCAGATCGAACCCATTCTGGTGGGCCGGAACGAAGCCAAGATCCGCGAGCTTGCCGAAAAGCACAAGGTGTCCGAGTGGAGTACCGACCTTGATGCTGTCATCAACGATCCCACCGTTGACATCGTGTTCGATGCCTCCATGACCAGCCTCCGGGCAGCCACCCTCAAGAAGGCCATGCTGGCCGGCAAGCACATCTTCACCGAGAAGCCCACGGCGGAAACCCTTGAGGAAGCCATCGAATTGGCCCGCATCGGCAAGGAAACCGGCGTCACGGCCGGCGTTGTCCACGACAAGCTGTACCTCCCGGGCCTGGTCAAGCTCCGCCGCCTGGTGGATGAAGGCTTCTTCGGCCGCATCCTCTCCATCCGCGGTGAGTTCGGGTACTGGGTCTTTGAAGGCGACATCCAGGCCGCCCAGCGCCCGTCCTGGAACTACCGCAAGGAAGACGGCGGCGGAATGACCACTGACATGTTCTGCCACTGGAACTACGTCCTCGAGGGCATTATCGGCAAGGTCAAGAGCGTCAACGCCAAGACCGCCACGCACATCCCGGCCCGCTGGGACGAAGCCGGCAAGGAATACAAGGCCACCGCCGACGACGCCTCCTACGGCATCTTCGAACTGGAAACCCCGGGCGGCGACGACGTCATCGGCCAGATCAACTCCTCTTGGGCCGTTCGCGTCTACCGGGACGAACTTGTGGAATTCCAGATCGACGGCACCCATGGCTCCGCCGTTGCAGGCCTGAACAAGTGTGTGGCCCAGCAGCGTGCCCACACGCCCAAGCCGGTCTGGAATCCGGACCTGCCCGTCACGGAATCCTTCCGCGACCAGTGGCAGGAAGTCCCGGCCAATGCTGAGCTGGACAACGGTTTCAAGCTGCAGTGGGAAGAGTTCCTCCGCGACGTTGTGGCAGGCCGCGAACACCGCTTTGGCCTCCTCTCAGCCGCCCGCGGCGTCCAGCTCGCCGAGCTCGGCCTGCAGTCCAACGACGAACGCCGCACCATCGACATCCCGGAGATCACGCTCTGA	MGFETKTIRIAMNGITGRMGYRQHLLRSILPIRDAGGFTLEDGTRVQIEPILVGRNEAKIRELAEKHKVSEWSTDLDAVINDPTVDIVFDASMTSLRAATLKKAMLAGKHIFTEKPTAETLEEAIELARIGKETGVTAGVVHDKLYLPGLVKLRRLVDEGFFGRILSIRGEFGYWVFEGDIQAAQRPSWNYRKEDGGGMTTDMFCHWNYVLEGIIGKVKSVNAKTATHIPARWDEAGKEYKATADDASYGIFELETPGGDDVIGQINSSWAVRVYRDELVEFQIDGTHGSAVAGLNKCVAQQRAHTPKPVWNPDLPVTESFRDQWQEVPANAELDNGFKLQWEEFLRDVVAGREHRFGLLSAARGVQLAELGLQSNDERRTIDIPEITL				NA	NA	NA	NA	NA
D1-29_02895	1095	degA_4	COG1609	HTH-type transcriptional regulator DegA	GTGGCTGCAAGTACCCTCACCGAGGTGGCCCGGCTTGCGGGCGTCTCGCCCGCCACGGCCTCCCGTGTTCTCAACGGCTCGGCACGGAAGCCGGGCAAAGACATCGCGGACCGGGTCCGGCAGGCGGCGGATTCGCTTGGCTACATTCCCAATGCCCAGGCGCAGGGCCTGGCAAAGTCAAGCTCAGGCCTGATCGGGCTCATTGTCCATGACATCGCCGATCCTTATTTTGCCGCGATTGCCCGCGGCGTGCAGGAAGCGGCGCGTGAGCAGCGAAAGATGGTGCTGCTGGCCAGCACTGAAGGCGCTCCCGCGGGTGAGAAGGAGGCGGTGGCGGCCTTCGCGGCCCGCCGGGCCGATTCCATCGTGATCGCGGGTTCGCGCTCGGCCCGGCCCGAGGACAGTGAGGGCAACGCCGAACTGGCCGCGGAACTGGACCGATACTGCCGCAACGGAGGCAGGGTGGCAGTGGTAGGCCACGCCGTGGTGGGCGCCACAGCAACCGACGGCTACCACGTGGTTCCGGTGCCGAATGAGGAACTGGCCGCCAACCTTGCCGTTGAGCTCGCCGCCTCGCAGGAAGACCACTTTGTCATCATCGGCGGCCCGGAAGGCCTTTTCACCTCCGATGACCGGGTACGCGGGTTTCAGCGAGGGCTTGCACAGGCAGGAAGGCCGGCCGCCGAAGTCCTGCGGACCGCCTTCAACCGTTCCGGGGGCTATGAAGCAGGCCTTGCACTGGCCGCCCGCATCAAGGCTGCACGGGACGGCAGCGGCACCGATCCCGGCAGCAGCCGGATGTGTATTTTCGCCGTGAACGATGTCATGGCCATCGGGGCCGCCGCGGCGCTGCGTTCCGAAGGCCTCCGCATTCCCCGCGACGCCACCATCGCCGGCTTTGACGACATCGAGACCCTGCGGGACTTCCGTCCTGCCCTTTCCACCGTGCACCTCCCCCTCGAGGAGATCGGGAGACTCGCCGCCCGCAGTGCCGCCGGCGCCCGCGCAGGCTCCGGCGCCGGAAAGGACGACGACGACGCGTGGTCCATCTCGGGCCATGTCACGCTTCGGCGCAGTACTGAAACGGCCGCCTAA	MAASTLTEVARLAGVSPATASRVLNGSARKPGKDIADRVRQAADSLGYIPNAQAQGLAKSSSGLIGLIVHDIADPYFAAIARGVQEAAREQRKMVLLASTEGAPAGEKEAVAAFAARRADSIVIAGSRSARPEDSEGNAELAAELDRYCRNGGRVAVVGHAVVGATATDGYHVVPVPNEELAANLAVELAASQEDHFVIIGGPEGLFTSDDRVRGFQRGLAQAGRPAAEVLRTAFNRSGGYEAGLALAARIKAARDGSGTDPGSSRMCIFAVNDVMAIGAAAALRSEGLRIPRDATIAGFDDIETLRDFRPALSTVHLPLEEIGRLAARSAAGARAGSGAGKDDDDAWSISGHVTLRRSTETAA	PGPT0017992_1499	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
D1-29_02896	690	axeA1	COG0657	Acetylxylan esterase	ATGCTCATCCTCCCCGGAGGAGGCTATGCGGGCCAGGCCGGCCATGAGGCGGAGCCTGTGGCGGAGTGGCTGGCATCCCTGGGAATCCATGCGTACGTGCTGCGGTACCGGGTGGCACCGCACCGTCATCCGGCGCCCTTGGAGGACGCCAAGGAGGCACTCCTCCAGATCCGCGAGGGGAGCCACGGGCTTGCGGTGGACAGCGCCCGGGTGGGCGTGCTGGGCTTTTCCGCCGGCGGCCATCTTGCCGCGACACTGTCGACGGCGGCGGCCACGGGAGATTCCACGCTGGATGTTCCGGGAGCCATACCCGACCTGACGGTACTTTGCTACCCGGTCATCTCGTACACAGATGCTGTCCATCAAGGCTCGGTGGACAACCTTCTCGGCGACTCTCCGTCGGCGGAACTGCTGGAGGCTGTCTCTGCAGACCGCCAGGTCACCTCCTCCACTCCCCCGGCCTTTCTGTGGCACACGGCGGATGACGCCGCCGTGCCGGCTCACCACAGCCTGGCCTACGCCACGGCACTGGTCCGGGCCGGCGTTCCGGCGGAGCTCCACGTCTTCCCGCACGGGCGCCATGGGCTGGGGCTTTCCCCTGATGACCGGGGGCCGGACCAGTGGACTTCCCTGTGCGCAAGCTGGCTGACGCGGTGGGGCTGGACTCAGTCCTCGCCCAACGTGATGTGA	MLILPGGGYAGQAGHEAEPVAEWLASLGIHAYVLRYRVAPHRHPAPLEDAKEALLQIREGSHGLAVDSARVGVLGFSAGGHLAATLSTAAATGDSTLDVPGAIPDLTVLCYPVISYTDAVHQGSVDNLLGDSPSAELLEAVSADRQVTSSTPPAFLWHTADDAAVPAHHSLAYATALVRAGVPAELHVFPHGRHGLGLSPDDRGPDQWTSLCASWLTRWGWTQSSPNVM				NA	NA	NA	NA	NA
D1-29_02897	795			hypothetical protein	ATGACTCCTGAAGAGCACACCGGACTGGCGGACTGGAACAGGTCCCGCCTCACCCCCGGGATATGTTCCGTGACCCTGCGCCAGAGCAGTATCCGGGAAGTGGTGGAAACTGCCGCGGATGCCGGCCTGGCCGGCATCGAGTGGGGTACGGATGTCCACATTCGTGATGCAGGATCCGCGGCCGAGGCGCGGGAGGCAACTGCGGCGGCCGGGCTGGAAGTTTTGTCGCTGGGTTCGTACTACCGCGTGGGCAGCTTCGGCGATTTCTCCCTTCCCGCCGATCTCGCCGTCAGTCTCGGTGCCCCCAGGATCAGGGTCTGGGCGGGTGGGCAGGGTTCGGCCGACGCCGGCGCGGACGTGTGGGATCAGGTGGTCCAGGACGCCCGGCGGGTAGCGGACCTTGCCGGTGAACGAGGTCTGGACATCGCTTTTGAATACCATGGCGGAACCCTCACCGACACCCCGGGCACCGCACTGCAGCTGGTGAAGCAGGTGGACCGGGACAACGTGCGGACTTATTGGCAGCCCGCCGTCGGACTCTCAGACCAGGCGGCGCTGGCCTCCCTGCACACAGTCCTCCCGTACGTCTCGGGAGTGCACTGCTTCTCCTGGTGGCCCCAGCAGGAACGGCTGCCGCTCAGCGGCCGAAAACAGCTCTGGCAGTCAGTGGCCGACATCCTGCGCGAAGCCGGACGGCCTTGTGACATGATGCTCGAGTTCGTTGCGGAGGACCTTCCGGCGAACGTGGGCCGTGACGCCGATTTCCTGAATCACATCACGTTGGGCGAGGACTGA	MTPEEHTGLADWNRSRLTPGICSVTLRQSSIREVVETAADAGLAGIEWGTDVHIRDAGSAAEAREATAAAGLEVLSLGSYYRVGSFGDFSLPADLAVSLGAPRIRVWAGGQGSADAGADVWDQVVQDARRVADLAGERGLDIAFEYHGGTLTDTPGTALQLVKQVDRDNVRTYWQPAVGLSDQAALASLHTVLPYVSGVHCFSWWPQQERLPLSGRKQLWQSVADILREAGRPCDMMLEFVAEDLPANVGRDADFLNHITLGED	PGPT0003570_123	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-PETROBACTIN_BIOSYNTHESIS,PGPT0003570-asbF-K15652	NA	NA
D1-29_02898	678			hypothetical protein	ATGAAAAATCAGCCAGCCGGACCACTGGCCACCACCGCGGCTGAGTGGGAAAGCGTGGAGCGGCTCTTCGGAACGCGCGGAGAGCCGTCCCGCTGCTGGTGCCGGTACTTCACGCTGACAGGCCCGGAATACTCGGCACTTGATCCGGCCGCCCGCAAGGCACAGTTGAAGGAGAGGTTCGACGCTGGCACCCCTGCACCAGGTGTCCTTGCCTACCGTGACGGGGAACCTGTGGGCTGGTGCGCGGTGGAACCCCGCGAATGCTACCCACGAGTCCTCAACTCGCAGTTGCTGCGGCGGGCGCACGCCGCGGCGGGCGACACCGGCGCGGACGCCGACGAAGCCACCGACGAACCCGTCACCGGCGAACAGGCCGCCGGAGGCGGGGCAGCAGCCGGGGGCCGGGTGTCCATCTGGGCCGTCACCTGCTTTGTGGTGGATCCCCGGCACCGCCGCAGCGGTGTGGCCGCCGCCCTGCTGGAGGCCGCCGTCGAGCACGCCAGGACTAACGGTGCCCGCATTCTGGAGGGCTACCCCGTGGATCCCTCGCTGAGGCCAAAGGCGGGAGCCTCGGATTTGTACCACGGAACCCTGAACCTGTTCCTGGCGGCCGGGTTCAAGGCTGTCAGCAGGGCTGTCCCGGGCCGGGCAGTGGTACGCCTCCAGCTGGATCGTTGA	MKNQPAGPLATTAAEWESVERLFGTRGEPSRCWCRYFTLTGPEYSALDPAARKAQLKERFDAGTPAPGVLAYRDGEPVGWCAVEPRECYPRVLNSQLLRRAHAAAGDTGADADEATDEPVTGEQAAGGGAAAGGRVSIWAVTCFVVDPRHRRSGVAAALLEAAVEHARTNGARILEGYPVDPSLRPKAGASDLYHGTLNLFLAAGFKAVSRAVPGRAVVRLQLDR				NA	NA	NA	NA	NA
D1-29_02899	903	yihR_2	COG2017	putative protein YihR	ATGCAGGATACGGAACACAGCATTTCATTCGGGCCGTATTCGGCCATCATCACCACCCGCGGCGGGGCGCTCCGAGAGCTCAGCCATGAAGGGCGCCACCTGGTGGTCACCTTCGGGCCGGAAGGGGCAATCCCGGACTATCGCGGCGTCGTCTGCGCGCCCTGGCCCAACCGCCTCGCTGATGGCTCCTACAGCTACGCCGGGCAGCGCTTCCAGGCAGAACTCAATGAGCCGGAACGTGGATCGGCCCTCCACGGCCTGGTCCCCGGAGCGCCTTGGGAGCTCCGGCAGAAGGACACCAGTTCGGTCACGCTCGGCTGCACGGTGGACGCCAGTGATGCCTACCCCACCGGCCTGGAGGTCACCGTCACCTACCGGCTCTCCGACGACGGACTTCGTTGCACCGTCCACACACTCAACGCGGGACTGGCTCCTGCACCCTACGGTGTTTGTCCGCACCCTTACCTGCTGGCCGGTTCCTCCCCGCTGGATGAATGGACCCTGGAGCTGCCGGCGCAGGAATTCATGGAAGTAACGCCGGACAGGCTCCTCCCGGTAGGCATCAAGGCCGTGGAAGGACACGAGTTCGATTTCCGGACCGCACGGCGCCTTGGCGCAGTAAAGATCGACCACGCCTTCACCGGCATCAGCTGGGACAACCAGGAACGCGCTGCCGTCCGCCTGCTTGATCCGGCGGGAACCGGAGTGGAGCTGGAATGGGACCGGAAATGGCCGTGGGTGCAGGTGCACACCGCAGACAAGCCGTCCGGCAAGGACAGGCTGGGCCTCGCCGTTGAACCGATGACGTGCCCGCCGGACGCCTTCAACTCGGGCACCGACGTCATCCACCTTCAGCCTGGCGAATCCCACGAAGCCAGCTGGACCATCCGGACGCTCAGCTAA	MQDTEHSISFGPYSAIITTRGGALRELSHEGRHLVVTFGPEGAIPDYRGVVCAPWPNRLADGSYSYAGQRFQAELNEPERGSALHGLVPGAPWELRQKDTSSVTLGCTVDASDAYPTGLEVTVTYRLSDDGLRCTVHTLNAGLAPAPYGVCPHPYLLAGSSPLDEWTLELPAQEFMEVTPDRLLPVGIKAVEGHEFDFRTARRLGAVKIDHAFTGISWDNQERAAVRLLDPAGTGVELEWDRKWPWVQVHTADKPSGKDRLGLAVEPMTCPPDAFNSGTDVIHLQPGESHEASWTIRTLS	PGPT0017825_5000	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
D1-29_02900	210	map-1	COG0024	Methionine aminopeptidase 1	ATGCAGTGGTGCACGGTATCCCCAACAGTCAAACTGACCGAAGGCCTGGTCATAGCCATTGAGCCCATGCTCATCCTGGGCGGCAAGGACGATTATTACCACGACGACGACGAATGGACCCTGCGCTCAGCCAACGGCCGCAGGGCGGCCCACAGTGAACACACTGTTGCCATTACGGCCGGGGGCCCGGTGGTCCTGACTCGCCCGTAG	MQWCTVSPTVKLTEGLVIAIEPMLILGGKDDYYHDDDEWTLRSANGRRAAHSEHTVAITAGGPVVLTRP	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
D1-29_02901	444			Methionine aminopeptidase 1, mitochondrial	ATGCTGCACAACCGGCCGTGGCCAGAGTGGTTACCGGGTGTTGCGGGTCCCTTGCCGCTCGCCGGCACAGTAGGCCCGGAGTACTGCAGCCTAGAGTGGGGGAAGGCAAACGCCGCGGCCCGCGCCGCCAACACCGGAGGTTTCCCCATGTCCATGATCAAAACCCCGGAGCAGATCGCCCTGATGCGTGAGGCGGGGCGCGTTGTCGCGAACGCCCTTGCGGCGGTCCGGGAGGCCGCCGGGGTCGGCGTGTCACTTGTTGACCTGGATGGGCTGGCTGCGGAAACCATCGCCAAGGCCGGGGCGAAGCCCGCGTTCCTGGGCTATCACCCGCGCTGGGCGTCCGTCCCGTTCCCAGGCGTTATCTGCACGAGCGTCAATGATGCAGTGGTGCACGGTATCCCCAACAGTCAAACTGACCGAAGGCCTGGTCATAGCCATTGA	MLHNRPWPEWLPGVAGPLPLAGTVGPEYCSLEWGKANAAARAANTGGFPMSMIKTPEQIALMREAGRVVANALAAVREAAGVGVSLVDLDGLAAETIAKAGAKPAFLGYHPRWASVPFPGVICTSVNDAVVHGIPNSQTDRRPGHSH				NA	NA	NA	NA	NA
D1-29_02902	711			hypothetical protein	ATGATGAGCACAGCGATTAACGGGAGGCTGCTGGCCACGATCCGCAAGTCACTGGTGGAGCACGCTGATCCTGTACGCGCGGCTGGAGTGCAGGCGTATATGAAGTCCGCTGTTCCGTCCTTGGGCGTCAGGGTCCCCGATGTCAGGCGGCTGACGGCGGCAGCTGCTGCCGACTGCCCTTTCGACTCCGCGGAGCAACTGCGCTCCACCGTGCTGGAACTTTGGCGCAACGCTGCCTGGCGCGAGGAGCGCTATGCGGCGATCGACCTTACGGGCCTCCGCATCGCGGCCGGAGATCCCCTGATGCTGCCTGTCTATGAGGAAATCATCCGCAGCGGCGCCTGGTGGGACTTCGTTGACGGGGTGGCCCAGCGGATCTGTGACCTGCTGCAGGCGCACCGGCCGACGATGACCGAGGTGCTGCGGAGCTGGAGCAGGGACGGGGATTTCTGGATCAGGCGGGCTTCCATCACTGCCCAGCTGAAGGCCAAGGCCGCCACCGACATCGAACTGCTGCGTGACGTCATCGAGGCGAACCTGGCGGATCCGGAGTTCTTCGTCCGGAAGGCCATTGGCTGGTCGCTGCGGGAGTATGCCAAGACCAATCCGGAGTGGGTCAGGTCCTTTGTGGCTGAACACAGCACGGAGCTCAGCCCGTTGTCCCGCCGGGAAGCGTTGCGGAACCTGGAGCCTGCCGTCCAGCCCAAGTAA	MMSTAINGRLLATIRKSLVEHADPVRAAGVQAYMKSAVPSLGVRVPDVRRLTAAAAADCPFDSAEQLRSTVLELWRNAAWREERYAAIDLTGLRIAAGDPLMLPVYEEIIRSGAWWDFVDGVAQRICDLLQAHRPTMTEVLRSWSRDGDFWIRRASITAQLKAKAATDIELLRDVIEANLADPEFFVRKAIGWSLREYAKTNPEWVRSFVAEHSTELSPLSRREALRNLEPAVQPK				NA	NA	NA	NA	NA
D1-29_02903	1557			hypothetical protein	ATGACGGCGCCCGTGCCTGCGACAGAGGAGATGGACGTCACCACGATCCCCGGGACGGCTGCGGACGAGGTGGACAACGCCCTGTCGCCGCTCATTGCCGGTTTTATCGGTTCGGTCTTCATGATGATCGGCTCACTGGGGGTCGGGTGGCTCGCGCCGGTCTCTGAGCTGCGCCGAATGCCTCTGTTTATCTGGATGCGCACCGAGGCCGTCGGGGTTGCCCTCTCGATAGTGCTCCTGGCCATCGGCGGCATGCTTCTGGTCCGCGCCTGGCTCCGCTTAGGACAGCGCGTCAGGGTCTGGGGACTCCAAGCCCGCCGGGCAACACTCCAGGCTGTGGTGGCCTGGGGCCTGCCGATGATGTTCACCGTCCCGCTGTTCAGCCGGGACGTGTACGCGTACATCGGCCAGGGCCGCCTGATGGTGGAAGGCTTCAACCCGTACGAGAACGGCGTCTCGGCCCTGTCCAACTATTTCCAGCTGGGTGCGGACAAGATGTGGACCGAAGCCCCCGTGCCGTACGGGCAGCTGTTCCTCTGGATCGAGCAGTTCGTTGTCTGGTCCACCAATGTGCACCCCGAAGCCAGCATTATGCTCTTCAGGCTGGCTGCGCTGGTCGGCATTGTGCTGTGCATCATTTATGTTCCCAAGCTGGCGGACCTTCACGGCGTCAACCCGCACCGGGCCCTCTGGCTCACCGCAGCAAATCCGCTGTTCCTTACCAACTTCATCGCCAGCGTCCACAACGACGCACTAATGATTGGCCTTGCCCTCGCCGGCCTTTACTACTGCGCCACGAGGAGGGTGGTCTTTGGCATTGTCCTGGTCACCCTGTCCATCTCGGTCAAACCGATCACGATCGTTTTCCTGCCATTCATTGGCCTCCTCTGGGCAGGCAAGGGGGCCAGTTGGCCCCGAAAGTTCCTTTACTGGGGACTTACGGCCGGGTTGTCACTGGCGCTGCTTTTCGCGATGAGCCGTGTGAACGGCTTTGGATTCGGCTGGATTAATGGACTCTCGGCGCCGGGGAGCGTCTGGATCTGGTACGCCCCCGTGGGCCTGATGGGGCTGGTGGTCGCGTCCATTGCCAATGCGTTCAGCCTGGACGGCTGGGGACTCGCCAAATGGGTATACGACGCCGGCAAGGTGCTTGCCGTGGGCATCGTCGCCTGGCAGATTTTCAAGGGTGACCACGACCGCCTGATGCGGCGGCTGACCCTGGCTTTCGCGGCGATCGTGCTGCTGGCACCCATGATCCAGTCCTGGTATGTCGTGTGGCTCATTCCGCTGTTTGCAGTCACGGGCATTCGCGATGACTGGCAGGTCAAAGCCCTCTACTTCATCGTTTCCTTCTTTATGGTCTATGCCATCTCGGACCAGCTTGAAGTCTTCCCGTACCTGCAGACAGAGGACCTGGGTCTTGCCCTGACGCTGGCGCGGAACGCAGCAGCTATCATCGCGCTGATGTTCGCGCTGTACCTGATTTTCCTTGACCCGCGCACCAAGCACCTGTTCAGCAAGTCGGATCAGCCCGTTACCACGCGCCCCATCATCTGA	MTAPVPATEEMDVTTIPGTAADEVDNALSPLIAGFIGSVFMMIGSLGVGWLAPVSELRRMPLFIWMRTEAVGVALSIVLLAIGGMLLVRAWLRLGQRVRVWGLQARRATLQAVVAWGLPMMFTVPLFSRDVYAYIGQGRLMVEGFNPYENGVSALSNYFQLGADKMWTEAPVPYGQLFLWIEQFVVWSTNVHPEASIMLFRLAALVGIVLCIIYVPKLADLHGVNPHRALWLTAANPLFLTNFIASVHNDALMIGLALAGLYYCATRRVVFGIVLVTLSISVKPITIVFLPFIGLLWAGKGASWPRKFLYWGLTAGLSLALLFAMSRVNGFGFGWINGLSAPGSVWIWYAPVGLMGLVVASIANAFSLDGWGLAKWVYDAGKVLAVGIVAWQIFKGDHDRLMRRLTLAFAAIVLLAPMIQSWYVVWLIPLFAVTGIRDDWQVKALYFIVSFFMVYAISDQLEVFPYLQTEDLGLALTLARNAAAIIALMFALYLIFLDPRTKHLFSKSDQPVTTRPII	PGPT0024280_158	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ARABINOGALACTAN|LIPOARABINOMANNAN_REMODELLING	CE-REMODELLINGMANNOSYLTRANSFERASE_ACTIVITY,PGPT0024280-mptA-K14337	NA	NA
D1-29_02904	711	orn	COG1949	Oligoribonuclease	GTGCCTATATCTAACGAACGCATCGTCTGGATCGACTGCGAAATGACCGGCTTGGACATCAAGAACGACGCCTTGATCGAGGTGGCGGCCCTGGTGACTGACTCCGAACTCAACGTCCTGGGTGAAGGAGTGGACGTGGTGATCAAGCCCGACGATGCCGCGCTGGCCCAGATGAACGACTTCGTCCGGGACATGCACACCCGCTCTGGGCTCCTGAAGGAACTGCCGTACGGCAAGACCATGGCCGAGGCCGAAGCAGCCGTGCTGGAATACATCGAAAAGTGGGTACCGGATCCCCGCAAGGCGCCGCTGGGCGGCAATTCGGTGGGAACGGACAGGGTCTTCCTCTCTCGTGACATGCCCGCGGTGGTGGAGCACCTGCACTACCGCGTGATCGATGTGAGCACCATTAAGGAGCTCTCCCGCCGCTGGTTCGCCAGGGCCTATTTCCAGTCGCCGGCCAAAAAGGGTGGCCACCGGGCGCTCGGTGACATCAAGGATTCGATCGACGAGCTGCGCTACTACCGGGAGGCAGTTTTTGTGCCTGCACCGGGTCCGGACAGCGCAACCGCCCAGCAGATTTCCAAGCGTATCGCCGCCGGCGGCGAGGCGGCCGCTCCTGTTCAAACCGCGGATGATCGCGTTGTTACAGCAGGTGAAGCAGCAGCTGAAGCCGCGTCCGGGAACATTGCAGGACTACCCGAAAGGTAA	MPISNERIVWIDCEMTGLDIKNDALIEVAALVTDSELNVLGEGVDVVIKPDDAALAQMNDFVRDMHTRSGLLKELPYGKTMAEAEAAVLEYIEKWVPDPRKAPLGGNSVGTDRVFLSRDMPAVVEHLHYRVIDVSTIKELSRRWFARAYFQSPAKKGGHRALGDIKDSIDELRYYREAVFVPAPGPDSATAQQISKRIAAGGEAAAPVQTADDRVVTAGEAAAEAASGNIAGLPER	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
D1-29_02906	573	def_3	COG0242	Peptide deformylase	ATGACAGTTCTGCCAATCACCATTTGGGGGGAACCGGTGCTGCACCGCCGGGCCGCCGAAGTGGAAGAGTTCGACGACGATCTCCGGACCCTGATTGCCGACATGTTTGAAACCAACGACGCCGCAAACGGCGTCGGCCTCGCAGCACCGCAGGTCGGAGTGGGCAAGAGGATTTTCGTGTACAAATTCGCGAACGATGACGGCGCTCCCCCCACCGGTGTCCTGGTCAACCCCGTCCTGACCCTGTCAAAAATCTCCGGCGCCCTCCCCGATCCCGACGAAGAGGAAGAGGGCTGCCTGTCATTTCCGGGCGGCCAGTACCCCCTTAAGCGCGCAGAATGGGCCCGCGTGAAGGGCTTTGACGAACACGGGAAACCTGTCGAATTCGAAGCGACGGGCTGGTTCGCTCGTGTAATCCAGCACGAATACGACCATCTGGACGGCAAGCTCTACGTCGACCGGCTTCTGGCCCGGTATCAGCGGAAGGCCCACAAACAGGCCAAGAAAAGCGGCTGGGGGGTTCCGGGGCTCACCTGGATGCCCGGAGTGGATCCGGACCCGTTCGGCCACTAG	MTVLPITIWGEPVLHRRAAEVEEFDDDLRTLIADMFETNDAANGVGLAAPQVGVGKRIFVYKFANDDGAPPTGVLVNPVLTLSKISGALPDPDEEEEGCLSFPGGQYPLKRAEWARVKGFDEHGKPVEFEATGWFARVIQHEYDHLDGKLYVDRLLARYQRKAHKQAKKSGWGVPGLTWMPGVDPDPFGH	PGPT0008125_24	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
D1-29_02907	3387			hypothetical protein	ATGGAGGTACGCGTTCTTGGAGCGCTGACGCTCGATGAGGATCGGATTCCCTTGGCACCGCGCGATCGTGTGGTGTTGGGTGCGCTCACGGTCCGCTTGGGCGCTTCACTGTCGGTCGAATCCCTCGCCGAGGCGCTCTGGGGCGATGATCTGCCGGCCTCGTGGTCGAAGGTGATTCCGGGCTGCATCATGCGCTTGCGCCGGCTCATCGGGCCTGCACGCATCGAAACAACCCCGTTCGGGTATCGGCTGTCCGCGGACCACATCGAGGTCGACGCCGACCAGTTCGAGCGGCTCGTCAGCCGGGGTACCCAACAGCTGAAGCTTGGTGAGCCGGAACGTGCCGCACACTCATATTCGGAGGCCCTCGCGCTGTGGAGGGGTGAGGCGTTCGTCGAACTCATCGACTGGGGGCCTGCTCAGATCGCGTCCGGCCGTCTTGAGGAGATCCGCCTCGCGGCCGAGGAGTTGCTCCTCGATGCACGGCTGCGAGCCGGCGAGGTTCAGGAGGTCGCCGCCTTGGCGCGCACCCGCGTAGCCGAAGCTCCGTTGCGCGAGCGGCGATGGGTCATGCTGAGCGTGGCGCAGTACCGCCAGGGCCGGCAAGCCGAGGCGATAGCCACCGTGCGCAGGGCGCGGGGACTCCTTGTTGCCGATCTTGGACTGGATCCGTGCACAGAGCTCGCTGAGCTGGAGCAGGCCATTCTCCGGCAGGATCCCTCGTTACTGTCCGACCAGGTATTCCAGACCGGGAGCTCCGAGTGTCCGTACTTTGGCCTGCCTCCCGCGGGCGTGGCGGATGCCGAGCGGTACTTCGGTCGCGAGCAGGAGCTGAGCGGAGCACTGCGCGCGCTTGAAGAACACGGCGTGCTCCTCATCGCGGGCGCATCGGGCGTCGGCAAGTCCTCATTCGTTAGGGCCGGGATAGGCGCCCAGTTCACCGCACGCGGCACGCAGGTCGTCATAGTAACGCCCGGCGAGCGTCCTCTCGAAGCCCTTCGAGACGTAGTTCGACGCCCCGGGGATTCGCTGCTCATCGTCGACCAATGCGAACAGGCGTTCGCCGCGGACGACCCCGCCGAGATCATGAAGTTCTTCGACGCTCTGTCGCGAGAGGTTTTCCGCGGGATGCTCGTCGTCACCATCCGCGCGGACCGTCTCGGAGACCTGGCTGAACACAAAGGCTTCGCCGGGATCATCCAATCGCACATGCTCATGCTCACCGCGTTCGGCTTCGACGGACTCCGTGCCGTGATCGAGAAGCCTGCACAGCAGGCTGGACTCATCCTGGAACCAGGCCTCGTCGAGATCCTGGTCCGCGACGCCGATGGGCGAAACCTTCCACTGTTGTCCCACGCCCTGCACCAGGTGTGGTCACGCCGCGAGGGCCGCGTCATGACCGTAGACGGGTATCGGGCATCCGGTGAGATCGACGGTGCTGTCGCGAAGACCGCGGAAGAGGTCTTCGCCGAGCTCTCAGGGGAGGGCAAGCAGCTGCTGCGCGACATCCTTCTCCGTCTCGTCGAAGCATCTGCAGGCGGTGTGGTGATTTCCCGTCAGATCGAGCGCACGCGGATCGCAATCGACGAGGACCATGCCAAGATCGTCGATCGACTGGTCGATGCCCGCCTGCTCACGACCGACAAGGAAACGGTTCAGCTATCCCACGAAGCGGTTGCACGGGAATGGCCACGGTTGAAGGAGTGGCTCGCCGATGATATCGAGGGTCAACGGATCATGCGGCATCTTGGTTCCGCAGCCACCGCCTGGGATGCGATGGGACGCCCAAACAGCGAGCTCTATCGCGGCGGCCGTCAAACGGCGGCTCAGCAGTGGCGGGACGCGGCCAATCCCGCGCTCACAGTGGTTGAGCGGGAGTTCCTCGAAGCCTGCGCAGCGGCTGAAACCGCAGGACTGGCGGCCACCCAGAGACAGCTCAGTAAGGAGCGCAGCATGGTGCGCCGACTGTCCTGGGTGTCGGCCGGCGCAGCCGGTCTCGCGATCGTTGCTATCACAGCGAGTCTTGTGGCAGGGTTCCAGGCAAATCTCGCCGGCGAGCGTGCAACGGTCGCAGAGGCACGGCGCGTTGCCGCGACCGCGCTGGAGGATCCGGACTTCGACCGAGCGCTGCTGCTCGCGGTGGAGGCCATCCAGATCTGGGACAGCACCGAAACACGTACTAACCTCGTGCGGGTGTTCGCGCGGGCACCCCGGATCACGAGCATCACCCGCATCCAGGAAGACGGAGTGACGCCCGCGAGCATGTCGCTCGAAAAGAACGGAACCCGAGCATCAGTGATCGACAGTGACGACGATCTACGGCTATTCGATCTCGCCAATCGCTCCCAGCTCGGCGATTACTCACCCACCGGAGGAATGATGGCGGCAACCGCCGTCGACCCTGTCTCGGGCACCGTTGCATTCAGCCAGGCATTGGGACTCTGCGAGGCCCTCCCCTGTGTTCGCGGACGAACGGGAACGCTCGATCTGGCTAATGGGGGTCGCTCCGGCTTGGAGACCTACCAGGGCCTGGCTGGGGCGGCGGCAGACGTTGAATACTCGCCCGACGGATCCTTGTTTGCTGCACTGGCGACGACACTCTGGTTCGAACCGTCCGGGAGCGTCGCCCTTTGGCGGGGCGGGGGCGACCCGATGCTGCTGGATTTGAACGCGAGCGGTTCTGATCCCGGCGGTGCATCCGAGTGGGGTGGACAGTTCGGCGCAGTAAAATTTGCCCAGGACGGCTCGCGGCTGTACGCCAGCCGGCTCGGACCGACCGTAGTGTTTGACACCTCATCGGGCACCGAGATCGATCGGATAGCCGGCAACGGGCTCCTGGCCGTCAGCCCGGATGGCCATCGGATCCTGGTTCGGGACGGCCTGCTCGCGGTCCGGATGGTCGACTCTTCCGGAACCGCTGCGCCTATGACGGTCCCGTTGTCGGTGTTTCCATCGGTGGCCGACTTCAGTCCTGACGGCCATCATTTCGCCGTCGCCTCTGGTAACCGCGTCGTGGTGGTGAACACCGAGACTGGCGATATCGCGGAGACTCTCCGCAATCACGACGGCTCGGTCACCGCAGTCGAGTTCCGGTCGACCGGTGAGCTGGTGACGGCCGGAGCAGACGGCGCTATCATCACGTGGGACCTCGGCGACTGGTCGGCGAAGTTTCGCAACGATCCGTTCTCCGGATCGGTTCCGTTCGTAGGGGAGAACGATGAGCGTACCCTCGTGCTCGAACAGTCCGATGGGAGCACGCAGGTGGTTGTCGCCGAGCCGGCGGCATGGGAGGACCGTGCCTGCCGGATCGCCGGACGAGTGTTGACGGAGCAGGAGTGGGGGGATCTGTTGGGAGCACGGCCGTACTCCCCGGCATGCCGCGATTAG	MEVRVLGALTLDEDRIPLAPRDRVVLGALTVRLGASLSVESLAEALWGDDLPASWSKVIPGCIMRLRRLIGPARIETTPFGYRLSADHIEVDADQFERLVSRGTQQLKLGEPERAAHSYSEALALWRGEAFVELIDWGPAQIASGRLEEIRLAAEELLLDARLRAGEVQEVAALARTRVAEAPLRERRWVMLSVAQYRQGRQAEAIATVRRARGLLVADLGLDPCTELAELEQAILRQDPSLLSDQVFQTGSSECPYFGLPPAGVADAERYFGREQELSGALRALEEHGVLLIAGASGVGKSSFVRAGIGAQFTARGTQVVIVTPGERPLEALRDVVRRPGDSLLIVDQCEQAFAADDPAEIMKFFDALSREVFRGMLVVTIRADRLGDLAEHKGFAGIIQSHMLMLTAFGFDGLRAVIEKPAQQAGLILEPGLVEILVRDADGRNLPLLSHALHQVWSRREGRVMTVDGYRASGEIDGAVAKTAEEVFAELSGEGKQLLRDILLRLVEASAGGVVISRQIERTRIAIDEDHAKIVDRLVDARLLTTDKETVQLSHEAVAREWPRLKEWLADDIEGQRIMRHLGSAATAWDAMGRPNSELYRGGRQTAAQQWRDAANPALTVVEREFLEACAAAETAGLAATQRQLSKERSMVRRLSWVSAGAAGLAIVAITASLVAGFQANLAGERATVAEARRVAATALEDPDFDRALLLAVEAIQIWDSTETRTNLVRVFARAPRITSITRIQEDGVTPASMSLEKNGTRASVIDSDDDLRLFDLANRSQLGDYSPTGGMMAATAVDPVSGTVAFSQALGLCEALPCVRGRTGTLDLANGGRSGLETYQGLAGAAADVEYSPDGSLFAALATTLWFEPSGSVALWRGGGDPMLLDLNASGSDPGGASEWGGQFGAVKFAQDGSRLYASRLGPTVVFDTSSGTEIDRIAGNGLLAVSPDGHRILVRDGLLAVRMVDSSGTAAPMTVPLSVFPSVADFSPDGHHFAVASGNRVVVVNTETGDIAETLRNHDGSVTAVEFRSTGELVTAGADGAIITWDLGDWSAKFRNDPFSGSVPFVGENDERTLVLEQSDGSTQVVVAEPAAWEDRACRIAGRVLTEQEWGDLLGARPYSPACRD				NA	NA	NA	NA	NA
D1-29_02908	777			hypothetical protein	ATGTGGACACCGGACCAGCGCTCGCCCACGGCTCACGCATCGCGCTCGTGGATGGCGGGTATAACCGTCGCAATGCTGGCATGTTTCGGGCTCTCGGGGTGCACCCCCACCGAAACACCATCCCCTCCACCCACGTCGGAGGCCAGCGACATCCCGCCGTTCCCGGAGAGCGGCGACATCGACGCCGGCGCATACCTCGTCACCGGCTATACGGTGCCTTTCGAGATCACCGTCCCAGACGGCTGGGAGACAGCCGACTGCGATAGCCTGGCCAAGGACGACCCGGATCACCCGGATGAAGGGGCGGTCGTCCTGATTTTTTGGCCCGCGGACTATGTGCCGACGGACGCATGCGCGTGGCGGGGCGCGCTCGTCGAGGTCGGCCCGTCGGCTGAGGCCTTCGTCGACGCGATGACGGCGCAGACGTCAACGGCGAGCACCCCTCCGGTCGAGGTCGTGGTGGGCGATTACTCCGGCTTCGAGTTCGAGCACTCCGTCGAGGGCGACGTGGACATCACAGCCTGTGACGGCGGCAAGTTTTGCGTCCGCTCAGAAATGTCGCACGAATGCACCCGCTGGTACTCGAGCGCCGCTGAGCGCGAAACCTACCGGGTGGTCGACTTGAACGGCGAACGCGCTGTGATTGCGATAACCCAATTCCACGAATCGATCAATCCGGAGCTGACGAGAGAGGCACGCGCCATCTTCGACTCAATTGCGTTCGGAACCGACCACACGGCAGATACACAGGGCTCGCCAAGCCCCGACCGCGGCTAG	MWTPDQRSPTAHASRSWMAGITVAMLACFGLSGCTPTETPSPPPTSEASDIPPFPESGDIDAGAYLVTGYTVPFEITVPDGWETADCDSLAKDDPDHPDEGAVVLIFWPADYVPTDACAWRGALVEVGPSAEAFVDAMTAQTSTASTPPVEVVVGDYSGFEFEHSVEGDVDITACDGGKFCVRSEMSHECTRWYSSAAERETYRVVDLNGERAVIAITQFHESINPELTREARAIFDSIAFGTDHTADTQGSPSPDRG				NA	NA	NA	NA	NA
D1-29_02909	801			hypothetical protein	ATGACAGTCAGCTGGTCTGCCTATCGCCGTGCCCGCCGCCGCTCCCGGCAGGCGTGGGCGCTGCTGCTGGTCCTGGCTGTTTCGGCAGTCGCCGCGGGCGTCTGGTTTTTCACCGCGGGGCAGTTCGCAGCCACCGAACCGGCCATTGCAGGTCCCAGCGAAGCCCCGGTTTTCGACCCCAGCTGGATGAAGCCCGTAGCTCCGGTCCACCTGGTACCGTCCGGCCCCGCGGTTGCCGCCTTGGAAGCTTTGCCCGTCAAGGGGCGGGCGGCCCAGAACAATTACGAACGGGAAGCGTTCGGACAGGCCTGGCTGGATGTGGACCGGAACGGCTGCGATACGCGCAATGACATCCTTCGCAGGGACCTGGTGTCCGTGGGCTTTACCGAAGGATCAAAGTGCAGGGTGGCCGCCGGCTCCTTCCATGAGCCCTACACGGGGAAAATGGCCGACTTCCGGCGGGGACCGGAGTCCAGCAAGGAAGTCCAGATCGACCATGTTGTTGCACTCGCGGATGCCTGGCAGAAGGGCGCGCAGCAACTGACAATGCAGCAGCGCCAGAGCCTCGCCAACGATCCCCTGAACCTCATAGCCGCTGACGGGCCCGCCAACCAGGAAAAGGGCGCAGGGGACGCGGCCACATGGCTGCCGAAGAACAAGGCCTTCCGCTGCCACTACGTTGCCCGGCAGATTTCGGTCAAGGCCGCCTACGGTCTTTGGGTGACGCAGGCGGAGAAAGAGGCGATGAAACAGGTCCTGGGCTCCTGTCCCGGCCAGGCCACCATCCGCCCCTCACACTAG	MTVSWSAYRRARRRSRQAWALLLVLAVSAVAAGVWFFTAGQFAATEPAIAGPSEAPVFDPSWMKPVAPVHLVPSGPAVAALEALPVKGRAAQNNYEREAFGQAWLDVDRNGCDTRNDILRRDLVSVGFTEGSKCRVAAGSFHEPYTGKMADFRRGPESSKEVQIDHVVALADAWQKGAQQLTMQQRQSLANDPLNLIAADGPANQEKGAGDAATWLPKNKAFRCHYVARQISVKAAYGLWVTQAEKEAMKQVLGSCPGQATIRPSH				NA	NA	NA	NA	NA
D1-29_02910	210			hypothetical protein	ATGGACAACGACGCAACCCTTCAGCACGAGACCACGCTCGAGCACGCCCTGGACGTGGCAAAGGCAAACCACAAGGAAGCCGCCCGGCTCCTTGAACAGGCCCGCGCAGCCTACAGTGCGGGCGATATCGGCGAGGACCGCGTGCGCCAGCTGGAAAATCTCCTGCAGTTGGCCGAGGAAGATCTCCGGCGGGTGATCCGGGAACAATAG	MDNDATLQHETTLEHALDVAKANHKEAARLLEQARAAYSAGDIGEDRVRQLENLLQLAEEDLRRVIREQ				NA	NA	NA	NA	NA
D1-29_02911	1479	gap2		Glyceraldehyde-3-phosphate dehydrogenase-like protein	GTGAGCCAGACGTCAGATTCTTGTCTTGATACATGGATGGGCCGGGAGGCCCTCGCTGAGGCCATGATTCCGGTGATCGGCCGGCTGTACCGCGAGAATAACGTGGTGACCAGCATCCACGGCCGCAGCCTGATCAACAAGTCCACCATGAACATCCTCAAGGCGCACCGCTTCGCCCGCCGCATGAGCAAGGATGAGCTGCTGCTGGAGGAAACCGCGCCGCTGCTCAACACCCTCGCTGAGCTTGAGCTCGGCGCTGCTGCCATTGACATCGCCCGCCTCAACCAGAAGTTCAAGGCAGAGGCCAACGGCGCCACGCTGGAGGAATTCCTCCGCGCTGAGCTGGCGGAGATCGTTGGCAAGCGCGGCGGCGACGACCGCACCAGCACCGACGTCGTCCTGTACGGTTTCGGCCGCATCGGCCGCCTGCTGGCGCGCCTCCTGATCGAAAAGGCAGGCGGCGGGCACGGCCTGCGCCTGCGTGCCATCGTGGTCCGCCGCGGTTCGGACAAGGACCTCTCCAAGCGCGCCAGCCTGCTGCGCCGCGACTCTGTGCACGGCTCCTTTGAAGGAACCATCCGCGTGGACGAGGACGCCAACACCATTACCGCCAACGGTGTCCAGGTACAGGTCATCTACTCGGACAACCCTGCCACGATCGATTACACGGCCTACGGCATCAAGGACGCCCTGGTGGTGGACAACACGGGACGCTGGCGTGACGCCGAGGGCCTGTCCCAGCACCTGCAGAGCAAGGGAGTGGCCCGCGTCCTCCTCACGGCTCCGGGCAAGGGCGATCTGAAGAACATCGTTCACGGCATCAACCACGGCACCATCCAGGACTCGGACACGATCGTCTCCGCAGCCTCCTGCACCACCAACGCCATCACCCCGGTCCTGAAGGCCATCAACGACAAGTTCGGTGTGATCCACGGCCACGTGGAGACCGTCCACTCCTTCACGAATGACCAGAACCTGATCGACAACTTCCACAAGGGTGACCGCCGCGGCCGCTCCGCCGCCCTGAACATGGTCATCACGGAAACCGGTGCCGCCAAAGCAGTGGCCAAGGCCCTGCCCGAACTCCTGGGCAAGCTCACCGGCAGCTCCATCCGGGTCCCCACGCCGGACGTCTCCCTGGCGATCCTGAACCTCAGCCTGGAAAAGGGCACCACCAAGGACGAAATCAACGACTACCTTCGGGAGATGTCGCTGCACTCGGAGCTGCGCAAGCAGATCGACTACATCGATTCCCCCGAGGTGGTCTCGACAGACTTCGTTGGTTCCCGCCGCGCCGGCATCGTTGATGGCCTGGCCACGATCTCCAACGACAAAAACCTGGTCCTTTACGTCTGGTACGACAACGAGTTCGGCTACAGCTGCCAGGTAGTCCGAGTCATGGAAGAGATGGCAGGGGTCAACCCGCCGGCCTTCCCCGCCAAGGAAACTGCAGCAGCCCTGGCCGCTATCGCCGTCTAG	MSQTSDSCLDTWMGREALAEAMIPVIGRLYRENNVVTSIHGRSLINKSTMNILKAHRFARRMSKDELLLEETAPLLNTLAELELGAAAIDIARLNQKFKAEANGATLEEFLRAELAEIVGKRGGDDRTSTDVVLYGFGRIGRLLARLLIEKAGGGHGLRLRAIVVRRGSDKDLSKRASLLRRDSVHGSFEGTIRVDEDANTITANGVQVQVIYSDNPATIDYTAYGIKDALVVDNTGRWRDAEGLSQHLQSKGVARVLLTAPGKGDLKNIVHGINHGTIQDSDTIVSAASCTTNAITPVLKAINDKFGVIHGHVETVHSFTNDQNLIDNFHKGDRRGRSAALNMVITETGAAKAVAKALPELLGKLTGSSIRVPTPDVSLAILNLSLEKGTTKDEINDYLREMSLHSELRKQIDYIDSPEVVSTDFVGSRRAGIVDGLATISNDKNLVLYVWYDNEFGYSCQVVRVMEEMAGVNPPAFPAKETAAALAAIAV	PGPT0018000_65	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
D1-29_02913	765			hypothetical protein	GTGCTGATTCTGCTTCCCCCCTCTGAAGGCAAGACCCCCGCGGCAGCCGGATCCGCCGTCGACTGGCCTTCCCTGAGCTTTCCTGCACTCAACAGTTACCGGGCGAAAGTCCTGGAAGCACTGGGAACGGTAAGCGCGCACGAGGACGCGCTCGCGCTGCTGGGCGTGGGTGCTTCGTTAAAGAACGATGTCGACCGCAACACCCGGCTGCACGCTGAACCGGCGGCGCCCGCCCACCAGATCTATTCCGGGGTCCTTTATGACGCCCTGGGTTACCGGAGCCTGACGCCCGTGCAGCGCCGCAAGGCGGATGAATCAGTCCTGGTGGTTTCCGCCCTCTGGGGGGCCATCCGTTTTGCCGACCGGGTGCCCGCCTACCGGCTGTCCATGGGAACGTCACTGCCCGACGTCGGACGCCTCGCCACTTTCTGGAAGCCGCAGCTTGCGGAGGCCCTCAAGCCGCTGACCGCGGGGCAACTGCTGGTGGACTGCCGCTCCAGCACCTATGCCGCTGCCTGGACGCCGCCGCCGGCCCAGACCGTGGCGGTCAACGTCTTTACTGAGGTTAATGGCGTGCGGAAAGTGGTGAGCCACTTCGCGAAACATACCCGCGGCGAGCTCGCCCGGCACCTCCTGGCAAGGCGTGGCAGCGCGCCGCAGACCCCGGCACAGCTGCTGAACGCGGCCAGCGAGAAGTGGGATGCCGAACTGGTGGAGGGATCAGCCAGGAAACCGCACGCCCTGAACATCATCCTGCCCAACTAG	MLILLPPSEGKTPAAAGSAVDWPSLSFPALNSYRAKVLEALGTVSAHEDALALLGVGASLKNDVDRNTRLHAEPAAPAHQIYSGVLYDALGYRSLTPVQRRKADESVLVVSALWGAIRFADRVPAYRLSMGTSLPDVGRLATFWKPQLAEALKPLTAGQLLVDCRSSTYAAAWTPPPAQTVAVNVFTEVNGVRKVVSHFAKHTRGELARHLLARRGSAPQTPAQLLNAASEKWDAELVEGSARKPHALNIILPN				NA	NA	NA	NA	NA
D1-29_02914	738		COG1579	putative protein	GTGGCTAAGGCAGCACCGGCAGAACAGTTGAAGTTGCTCGAACTGCAGGGCCTGGATGCCAGACTCAAGTCCTTGTCCAACCGTCGCCGTGCCCTTGAGTCCGATCCGCGGATCGAGGACCTGCAGTCTGCGCTTTCAGTAGCCAACGGCGAACTGGGCGCAGCAAAGATGGCCGTCCACGACGCCGAAGCCGAGCTCAAGCGGGCAGAGGCCGACGTCGAACAGGTGGCGTCCCGCATTGAACGCGACGAGGCCCGGCTCAACAGCGGCACCGGGCTGTCCAAGGACCTGGTGGCGCTGCAGAAGGACCTTGTCTCGCTCAACAAGCGGCGCTCCGACCTCGAGGACCTCGAACTGGAAGTGATGGAACGCCTTGATTCCCTCCGCGCCAAGCAGGCGGCCCAGCAGCTGATCGTGGACAACATCCAGGGTTCGTTCGGGGCCATCCGGGCCGAACTGGACCAGGAACTGGCCGAGGTGGAAGCCGAAGCCACCGTTCTCCGCGGCAAACGTGCCGAGTTCGCCGCCGGCCTGGACGCCGGAATGCTGGCGGTGTACGAAAAGACCCTGGCCAAGCGCGGCGTGGGCGCCGCCCGCCTGTTCCACGGAACCTCGGAGGCATCCGGGATGAAGCTGAGCCCCGGCGACCTCGCGGAAATCAAGGCAGCGGCGGAGGATGACATTGTCTTCTGCCCCGACTCCGGCTGCATCCTGGTCCGCTCCGCCGAATGGAACTGA	MAKAAPAEQLKLLELQGLDARLKSLSNRRRALESDPRIEDLQSALSVANGELGAAKMAVHDAEAELKRAEADVEQVASRIERDEARLNSGTGLSKDLVALQKDLVSLNKRRSDLEDLELEVMERLDSLRAKQAAQQLIVDNIQGSFGAIRAELDQELAEVEAEATVLRGKRAEFAAGLDAGMLAVYEKTLAKRGVGAARLFHGTSEASGMKLSPGDLAEIKAAAEDDIVFCPDSGCILVRSAEWN				NA	NA	NA	NA	NA
D1-29_02915	1002		COG0327	GTP cyclohydrolase 1 type 2	ATGATTCCCCCTCCACCTTACGAGACTGTGACGCGTGCTGGGCAGGGGGCCGGATGGGGTAAAACTGAGTCTATGGAACCTGTAAACACCGGTGTTGCAGACGCTGGGAAGCGCAACACCGATGCCCCGGCCGGGGATGCTTCTGCCGAAGACACGACCGAGGCCCCCACCCTGGGCCAGCTGCTCTTGGCGGTGGAGGAGCTTTGGCCGGAGTCGCTCGCGGAGGACTGGGATGAAGTGGGGCTCGTAGCCGGGCATCCCTCCGCCCCCGTCTCCCGGGTGATGTTCGCCGTTGACCCCACCCTGGAGGTCATCGAGGAAGCCGTGGAGTGGGGCGCTGAATTGCTCATCACCCACCATCCGCTGCTGCTCAGGGGAGTCACGTCGGTGGCGGCCACCACAGCCAAAGGCAAAGCCATCCATCGCCTCATTGAGACTGGAACCGCCCTCCTGACCGTCCACACCAACGGTGATTCCGCCGTCGGAGGTGTCTCGGATGTGCTGGCGGACGCTCTTGGATTGGAGGACGTGGCCCCGCTGACGTCAGCCGCCAATGGGTTGCCGGAAGAAGGAATCGGGCGGGTGGGAGTGCTTGCCGATGTCATGACTCTGGGGGACTTCGCCGCGCGCGTGTTTGGCATCCTTCCTTCTGTAGCCGGGGGAGTGCGGGTGTCCGGCGACAAAGACGGCCTTGTCCGCCGCGTCGCGGTATGCGGCGGGGCGGGAGACTCGCTGTTCAGCCAGGTGCGCGCGAGCAACGCGGACGTCTACGTCACCGCGGACCTGCGGCACCACCCTGCGTCCGAAGCCAGGGAAGCAGCCGTGAACGACCGGCCATACCTTATCGACGTCTCGCACTTCGCCAGCGAATGGCTGTGGTTGCCTGCAGCCGCCTCTGCGCTGGGCAACGTGCTGGCAGACCAGGGCCACGACGTGGAGATCCAGGTAAGCACCACCAACAGCGACCCCTGGGACTTCATTCTGACTCCGGGCGGGGACTAG	MIPPPPYETVTRAGQGAGWGKTESMEPVNTGVADAGKRNTDAPAGDASAEDTTEAPTLGQLLLAVEELWPESLAEDWDEVGLVAGHPSAPVSRVMFAVDPTLEVIEEAVEWGAELLITHHPLLLRGVTSVAATTAKGKAIHRLIETGTALLTVHTNGDSAVGGVSDVLADALGLEDVAPLTSAANGLPEEGIGRVGVLADVMTLGDFAARVFGILPSVAGGVRVSGDKDGLVRRVAVCGGAGDSLFSQVRASNADVYVTADLRHHPASEAREAAVNDRPYLIDVSHFASEWLWLPAAASALGNVLADQGHDVEIQVSTTNSDPWDFILTPGGD				NA	NA	NA	NA	NA
D1-29_02916	525	msrAB		Peptide methionine sulfoxide reductase MsrA/MsrB	ATGAAAACTTTTGTACTTGGCGGGGGCTGCTTCTGGTGCCTCGACGCCGTTTACCAGAAAACCAAGGGCGTCAGTTCGGTGGTGTCAGGCTACACCGGCGGCCATGACCCGCACCCGGACTACTACTCCGTCTGCAACGGAACCACCGGACATGCCGAAGTGGTGGCCGTCACCTTTGACGAAACCGTCATTCCCGCCGAAGTCATCCTGGACATGTTCTTTGCGCTGCACGATCCCACCACGCTCAACCGCCAGGGATACGACGTCGGTACGCAGTACCGCTCGTCCATGTTCTACGAGACCACTGAGGAGAAGATCCTCTTCGAGGAAGCGATTGAACGGAACCAGGCGCTGTGGTCCAATCCGATCGTGACGGAGGTCAGCCGGCTCCCCCGCTTCCACGTAGCGGAGGATTTCCATCAGGACTACTACGGCAAGCACCCCGAGCAGGGCTACTGCCAGGTGATCATCAATCCCAAGCTCGCCAAGGCGAGGAAATATTACTCTGCGTGGCTTAATGCTTAG	MKTFVLGGGCFWCLDAVYQKTKGVSSVVSGYTGGHDPHPDYYSVCNGTTGHAEVVAVTFDETVIPAEVILDMFFALHDPTTLNRQGYDVGTQYRSSMFYETTEEKILFEEAIERNQALWSNPIVTEVSRLPRFHVAEDFHQDYYGKHPEQGYCQVIINPKLAKARKYYSAWLNA	PGPT0013065_5101	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013065-msrA-K07304	NA	NA
D1-29_02917	936	cysK1	COG0031	O-acetylserine sulfhydrylase	ATGGCACGGATCTATGACGATGTAACGCAGCTTGTTGGCGGCACCCCCCTGGTCCGCCTGAACCGGCTGACCGAAGGGCTGGACGCCACCGTCGCCGTCAAGCTTGAGTTCTACAACCCTGCCAACAGCGTCAAGGACCGCATCGGCGTGGCCATCATTGACGCCGCCGAAAAGTCAGGCGCACTCAAGCCGGGCGGCACCATCGTGGAGGGCACGTCCGGCAACACCGGCATCGCCCTGGCCATGGTGGGCGCGGCCCGCGGCTACAAGGTCATCCTGACCATGCCTGAGACCATGTCCACCGAACGCCGCGTTATGCTGCGCGCTTTTGGCGCCGAGATTGTCCTCACCCCTGGCTCCGAGGGCATGCGGGGCGCCGTGGAGAAGGCCCAGGAAATCGTGGCCAACACGGAGAACTCCATTTGGGCCCAGCAGTTCGCCAATGAGGCCAACCCCCGGATCCACCGCGAAACCACCGCGGAGGAAGTCTGGAAGGACACGGACGGCAAGGTGGACATCTTTGTCTCCGGTGTGGGCACCGGCGGCACCATCACCGGCGTCGGACAGTTCCTGAAGGAGCGCAACCCGGACGTCCAGATTGTGGCTGTGGAACCCAAGGACTCCCCCATCCTGAACGGCGGCGCCCCGGGCCCGCACAAGATCCAGGGCCTGGGCGCCAACTTCATCCCCGAGCTGCTGGACACCAACATTTACGACGAGGTCCTGGACGCCACCCTGGAAGACTCCGTGGCAGTCGCCCGTGACCTGGGTATCCGCGAAGGCATCCTCGGCGGCATCTCCTCAGGCGCCATCGTCTGGGGCGCACTGGAACTGGCAAAGCGCCCGGAGAACGCGGGCAAGCTGATTGTGGCGATCGTTTGCGATTTCGGTGAGCGTTACATCTCCACCGTGCTCTATGACGACATCCGCGGCTGA	MARIYDDVTQLVGGTPLVRLNRLTEGLDATVAVKLEFYNPANSVKDRIGVAIIDAAEKSGALKPGGTIVEGTSGNTGIALAMVGAARGYKVILTMPETMSTERRVMLRAFGAEIVLTPGSEGMRGAVEKAQEIVANTENSIWAQQFANEANPRIHRETTAEEVWKDTDGKVDIFVSGVGTGGTITGVGQFLKERNPDVQIVAVEPKDSPILNGGAPGPHKIQGLGANFIPELLDTNIYDEVLDATLEDSVAVARDLGIREGILGGISSGAIVWGALELAKRPENAGKLIVAIVCDFGERYISTVLYDDIRG	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
D1-29_02918	585	cysE_1	COG1045	Serine acetyltransferase	GTGGGCTTTATTGCAAGACTAAAAGAAGACCTCGACGCCGCCCGGTCCCATGACCCGGCGGCTCGAGGTTCTTTTGAGAACTTTTTCGCTTACTCCGGCCTGCATGCCATCTGGATCCACCGGCTGACGCATCGCCTCTGGCAAAATCCCGGCCTGCGGTTCCCCGCCCGCCTGGTTTCCCAGCTGGGCCGCTTTTTGACGGGTATCGAGATCCACCCGGGAGCCACCATCGGGCGGCGCTTTTTTATCGACCACGGCATGGGTGTCGTCATCGGAGAAACCGCCGAAATTGGCGAAGACGTCATGATTTATCACGGCGTGACCCTGGGTGGACGTTCCCTTGCCAAGGTCAAGAGGCATCCTACGATCGAGGACCGCGTGACCATTGGTGCGGGTGCCAAGATCCTGGGTCCCATCACCATCGGCCGGGACAGCGCCGTGGGGGCCAACGCCGTTGTGGTGAAGGACGCCCCGCCCGAATCGATTGTTACCGGCGTTCCTGCCAAGTGGCGCCACCGGGACGCGCAGCGGGAGACCAAGCCCGCCGTGGACCCGGCTGAATACGAGATCGAATACCATCTCTGA	MGFIARLKEDLDAARSHDPAARGSFENFFAYSGLHAIWIHRLTHRLWQNPGLRFPARLVSQLGRFLTGIEIHPGATIGRRFFIDHGMGVVIGETAEIGEDVMIYHGVTLGGRSLAKVKRHPTIEDRVTIGAGAKILGPITIGRDSAVGANAVVVKDAPPESIVTGVPAKWRHRDAQRETKPAVDPAEYEIEYHL	PGPT0020265_4850	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
D1-29_02919	834		COG4221	putative oxidoreductase	ATGCCAGGCCCAGTAGCGTTCATCACCGGAGCATCCGCCGGCATCGGGTTCGAAGCGGCAAAGAAGCTCAACAGCCGCGGATTTGTGGTCTACGCCGGGGCGCGCCGGGTGGACCGGATGGAACCGCTCACGGCGATCGGCGTCCACGTCCTTCCCCTCGACGTGACGGACGAGCATTCCATGAGGGCCGCCGTCGGCCGGGTCCTGGAAGAACGGGGCCGCATCGACGTCCTCGTTAATAATGCCGGCTACGGCTCCTTCGGGGCGCTGGAAGAAGTTGACCTGGCCGAAGGCCGCCGCCAGTTCGACGTCAACGTCTTTGGACTCGCCAGGATGACCCAGCTGGTCCTGCCCGCCATGCGCAAAGCAGGACGGGGAAGGATCATCAACGTCTCATCCATCGGCGGTAAATTCTATGAACCCCTTGGCTCCTGGTACCACGCCACCAAGTTTGCAGTCGAAGGGATGAGCGATGCCCTGCGGCTCGAACTGAAGCCCCACGGCATCACGGTGTCCATCATCGAGCCGGCCAGTACCCAGACAGAATGGGGAAGGATTTCCGCTGAAGGCCTGCTCGCCACCAGCGCGGATGGACCTTACGGCGCCCAGGCCCGGCGCATGGCCGCCGTCCTGGCCTCGACCGACAGGCCGGGCACATCAACGCCGCCGGACGTGATCGCGGAGGCGGTGGTGCGTGCCGCGGAATCCAGCCGGCCGCGGACGCGTTATCCGGTGGGCAGGGGTGCCAGCACCATTCTTGGCCTCAGGCGGCTCCTGCCGGACCGGCTTTACGATGCGCTGGTTATGGCAGTGCTGAAACGGGTGGCGGGCTAG	MPGPVAFITGASAGIGFEAAKKLNSRGFVVYAGARRVDRMEPLTAIGVHVLPLDVTDEHSMRAAVGRVLEERGRIDVLVNNAGYGSFGALEEVDLAEGRRQFDVNVFGLARMTQLVLPAMRKAGRGRIINVSSIGGKFYEPLGSWYHATKFAVEGMSDALRLELKPHGITVSIIEPASTQTEWGRISAEGLLATSADGPYGAQARRMAAVLASTDRPGTSTPPDVIAEAVVRAAESSRPRTRYPVGRGASTILGLRRLLPDRLYDALVMAVLKRVAG				NA	NA	NA	NA	NA
D1-29_02920	1437	gndA	COG0362	6-phosphogluconate dehydrogenase, NADP(+)-dependent, decarboxylating	ATGTCAGCACACATCGGTGTCACCGGCCTTGCGGTGATGGGGGCCAACCTGGCCCGCAACCTGGCCCGGAACGGCTTCACCGTCGCCCTGCACAACAGGTCGGTAGAGAAGACTGATGCACTGCTCGAGAAGCACGGCACGGACGGCGACTTCGTCCGGACCGAAACCCTTGAGGAACTGGTTAATTCCCTGGAGAAGCCCCGCCGCGTGCTGATCATGGTCAAGGCCGGCAAGCCGGTTGACTCCGTGATTGAGCAGCTTGAGCCCCTCCTTGAAGCAGGCGACATCATTATCGACGCAGGCAACTCGCACTATGAGGACACCCGTCGCCGCGAAGCAGCACTGGCCAAGAAGGACCTGCACTTCGTGGGCGTCGGAGTTTCCGGTGGCGAAGAAGGCGCCCTGAACGGACCGTCCATCATGCCCGGCGGCTCCAAGGAGTCCTACGACGCACTCGGCCCGCTGCTCGAAAAGATCGCCGCCAAGGTGGACGGCGAGCCCTGCTGTGCCTGGGTGGGCACCGATGGCGCCGGCCACTTCGTCAAGATGGTCCACAACGGCATCGAATACGCCGACATGCAGGTCATCGGTGAGGCATTCGACCTCCTGCGCTCAGGCGCCGGCATCGAGCCGGCCGAACAGGCCAAGATCTTCACCGAGTGGAACAAGGGCGACCTGTCCTCCTTCCTGATCGAGATCTCCGCCGAGGTCCTGGGCCACGTTGACGCCAAGACCGGCAAGCCCTTCGTCGACGTCGTAGTTGACGCCGCCGGCCAGAAGGGTACCGGACGCTGGACGGTCATCTCAGCCCTGGAGCTCGGTTCCCCGGTCTCCGGGATCGCGGAGTCCGTTTTCGCCCGAGGCCTCTCTTCCCAGGCTGAACAGCGCAGGCTCGGACAGGAGCTGCTGGCCGGCGAGGAAATCAACGTCGAGGTTCCGGAAACCTTCGTTGAAGACGTTCGCCAGGCACTGTACGCCTCCAAGCTTGTCTCCTACGCCCAGGGCATGGACATGCTGACGTCCTCTGCCAAGGAGTACGGCTGGGACCTCAAGCTGGACGAGATCGCCTCCCTTTGGCGCGCAGGCTGCATCATCCGCGCTGAACTGCTTAAGGACATCACCAAGGCATACGCCGCTGCCGAAAAGCCCGCTAACCTGCTGTTTGCGCCAGCCTTCACCAAGGCCATTGCCGAGGCACTGCCGGCCTGGCGCCGCGTGGTGGCCACCGCAGTGCAGCTGGGCATCCCGGTGCCGGTGTTCTCCTCCTCGCTCGCGTACTACGACGGCCTGCGCCGCAAGCGCGTCGCCGCCGCCCTGATCCAGGGTCAGCGGGACCTCTTCGGAGCCCACACCTACGGCCGTGTTGACGCCGAGGGCACGTTCCACACCCTGTGGGGCGAGGACAAGTCCGAGATCGAAGCCGTGGACACGCACTAA	MSAHIGVTGLAVMGANLARNLARNGFTVALHNRSVEKTDALLEKHGTDGDFVRTETLEELVNSLEKPRRVLIMVKAGKPVDSVIEQLEPLLEAGDIIIDAGNSHYEDTRRREAALAKKDLHFVGVGVSGGEEGALNGPSIMPGGSKESYDALGPLLEKIAAKVDGEPCCAWVGTDGAGHFVKMVHNGIEYADMQVIGEAFDLLRSGAGIEPAEQAKIFTEWNKGDLSSFLIEISAEVLGHVDAKTGKPFVDVVVDAAGQKGTGRWTVISALELGSPVSGIAESVFARGLSSQAEQRRLGQELLAGEEINVEVPETFVEDVRQALYASKLVSYAQGMDMLTSSAKEYGWDLKLDEIASLWRAGCIIRAELLKDITKAYAAAEKPANLLFAPAFTKAIAEALPAWRRVVATAVQLGIPVPVFSSSLAYYDGLRRKRVAAALIQGQRDLFGAHTYGRVDAEGTFHTLWGEDKSEIEAVDTH	PGPT0017385_1900	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
D1-29_02921	732			hypothetical protein	ATGTCAAGCAGCCTCCACCACCGTGCCATCGAGAACCTTGGCACCCGGATCGTCGCCGGTGACCTTCCCACCGGACACGTGATGCTGGCGGAACAGCTTGAAGACGAACTGAAGGTTTCCCGCTCGGTCATCCGCGAGGCAGTGCGCGTGCTGCAGTCCCTGGGGCTGGTTGAAACCACCAAACGCGTGGGCATCAGGGTCCTGCCGTCAAGCAGTTGGAACCCCTTTGATGCGCAGGTGATCCGCTGGCGGCTCTCGAGTGACGCAAGGGGAGCCCAGCTGCGTTCACTGGCCGAGCTCCGCTCCGCCGTCGAACCGGCTGCCGCTGAGCTGGCCGCCCTCAATGCGCCGGAGCGCCTCCGCCGGGAGCTGGTGGACATTGCCCATGACATGCGCGACGCCGGCCTCGCCGGGGATGTGCCACGCTTCCTGGAACTCGACATCGCCTTCCACTCGGTCCTCCTGTCCGGATCAGGCAACGAGATGTTTGCCAACCTGATGGGACAGGTGGCCGAGACGCTGACCGGCCGGACAGTCCATGGCCTCATGCCGGATCATCCACACGAGGCGGCGCTGCAATGGCACGTTGATCTGGCGGAGGCGGTGGCCGCCGGGGACGCCGCTGCGGCCAGGGAAGCCTCGGAGCGGATAATGCGACGGACCATGACAAGGATGTCGGGAACCTGGACAGACCAGCCCCGGGTGTTCATCCCGGTTCGTCGCCCCACTTAA	MSSSLHHRAIENLGTRIVAGDLPTGHVMLAEQLEDELKVSRSVIREAVRVLQSLGLVETTKRVGIRVLPSSSWNPFDAQVIRWRLSSDARGAQLRSLAELRSAVEPAAAELAALNAPERLRRELVDIAHDMRDAGLAGDVPRFLELDIAFHSVLLSGSGNEMFANLMGQVAETLTGRTVHGLMPDHPHEAALQWHVDLAEAVAAGDAAAAREASERIMRRTMTRMSGTWTDQPRVFIPVRRPT				NA	NA	NA	NA	NA
D1-29_02922	1053	ghrA		Glyoxylate/hydroxypyruvate reductase A	ATGACGCTTACGACAACCGTCGCAGTCGCCGTCCCGCTCGAAGCAGAGCTGGTGGACCGCATCCGCGCCGTAGACCCTTCCATTACTGTTCTCTACGATTCGGAGCTCCTGCCCCCGGAACGCTTTCCGGCAGACCACTCCGGGGATCCCGACTTCAAGCGCACTCCTGAGCAGGAGGAACGCTACTGGGCCATGCTCAACCAGGCCCAGGTGCTGTATGGGCTGCCCAACGAAAGCCCTGCCGGCCTGGCACGGATTGCCCGTGAGAACCCGCAGCTGCAGTGGGTCCACGCCATGGCCGCCGGTGCCGGCGGCGCCGTCAAGGCCTCCGGCCTGGACCAGGAAACCCTGCAGAAGTTCAAGGTGACCACATCGGCCGGCGTCCATGCCCTGCCCCTTGCTGAGTTTGCCGCGCTGGGAATCCTCAATGGCTTCAAGCGCAGCGCGGAGCTGGCCCAGGATCAGTCCGCAAAAGTATGGCCGGAGCTGCGCACCCCCACGCGGCTGGTGAATGGTTCCACCCTGGTGGTGACAGGCCTCGGCGAAATCGGCCTTGAAACGGCGCGGATTGCCCGTGTACTGGGCATGAAGGTCAGCGGCACCAAACGCAGCGTGGAAGCGATCGAGGGAATTGAGCAGGTTGCCGGCAATGATGGCCTCGCCGGGCTGCTTTCCTCTGCCGACGCTGTAGTTAATACGCTGCCCGGCACGGAATTTACGGAAGGCCTCTTTAATCGGGAGGTCTTTGCTGCCATGAAGCCCGGGACGGTCTTTGTCAACGTCGGCCGCGGCACAGTGGTGGACGAAAGCGCCCTGCTGGAAGCGCTGGACAACGGCCAGGTCTCCTACGCGTGCCTGGACGTTTTCGCCATAGAGCCCCTCCCCCAGGACAGCCCGCTGTGGAACCACCCCAGGGTCATGGTCTCTCCCCACACCTCTGCCCTCAGCGCAGCCGAGAACCGCCTGATCGCAGAACGCTTCTGCGGCAACCTGAGGATTTTCCTCGACGGCGGGGACCTTCCCCACCTCGTGGATACTGTTCACTTCTACTAG	MTLTTTVAVAVPLEAELVDRIRAVDPSITVLYDSELLPPERFPADHSGDPDFKRTPEQEERYWAMLNQAQVLYGLPNESPAGLARIARENPQLQWVHAMAAGAGGAVKASGLDQETLQKFKVTTSAGVHALPLAEFAALGILNGFKRSAELAQDQSAKVWPELRTPTRLVNGSTLVVTGLGEIGLETARIARVLGMKVSGTKRSVEAIEGIEQVAGNDGLAGLLSSADAVVNTLPGTEFTEGLFNREVFAAMKPGTVFVNVGRGTVVDESALLEALDNGQVSYACLDVFAIEPLPQDSPLWNHPRVMVSPHTSALSAAENRLIAERFCGNLRIFLDGGDLPHLVDTVHFY	PGPT0019465_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0019465-ghrA-K12972	NA	NA
D1-29_02923	1350	abaF_2		Fosfomycin resistance protein AbaF	GTGACAACTCGTACTAAATCACCGCAGCCTGACCTGGACGGCGCCGTCGTCGAACCGGAGCAGCTGCGAAGGGCAACTCTTGCCAGCTCGGTAGGCTCCGCGCTTGAGTACTACGACTTCTATATCTATGGCCTGGCGTCCGCTCTCATCTTTGGTCCGCTTTTCTTTTCGCCCCTGGGTGAAAGCGGTGCCGTTATTGCGTCCTTCGCCACCTACGGTGTGGGCTTTGCCGCCAGGCCGTTCGGTGGTGTGGTGTTCGGCTACATCGGAGACCGCTTCGGCCGGAAGATGGTGCTGATCCTCACCATCGGCCTCATGGGAATGGCAAGTTGCGCCATCGGCCTCCTGCCCACCTTTGAGCAGGCAGGGATGCTCGGCGCCGTACTGCTGGTCGCCTTGCGCATCCTCCAGGGGCTGGGCGCCGGCGCCGAGCAGGCAGGCGCCACCACCCTGATCTCCGAGGTGGCCCCGCGCCGCCGTCGTGGTTTCTTTGCTGCCCTGCCTTTTGTCGGCATCCAGCTCGGAACCCTGCTCGGGGCCGGGACCTTCGCCCTGATGGCACTTGCCGACAAGGAAGTCCTGCAGGGCTGGCTCTGGCGGGTGCCCTTCCTGGCCAGCGTCATCCTGATCGTCATCGCCGTCTTTATCCGGCTCCGGCTCAAGGAGACTCCCGTCTTCCAGGAGCTGGAGAAGCATAAGGCCGTGGTCAAAAACCCGGTCGGCCAGATCTGGAAGCACTCCAAGAAGAACGTGCTCATCGGCATCGGCCTGCGGATGGGCGAGAACGGAAACTCCTCGATCTACTCCGCGCTCCTGGTCTCCTTTATCAGCCTGCCGGCCGGCATCTTTCCGGGCGACAAGTTCATTGGCCCCACGGGCCTCCTGATTGCCGCCGGCTGCGCAGCCGTCATGGTTGTCACGTTCGGTGCACTTTCCGACCGGTTTGGCAGGGTCCCTGTCTACCGCTATGGCGCACTTTTCCAGGCCGTCATTGCACTCCCGGCGTTCTACCTGGTCACGCTGGGCAACGTCACCCTGGTGTGGGCCGTTATGGTGGTGGGTATCGCACTCGGCGTGCAGTCAATGCTCGGCCCGCAGTGTGCCCTCTTGCCTGAACTCTTTGGCTCGCAGCACCGGTTCACCGGCGTGGCCCTGAGCCGCGAACTCTCGGCTGTTCTCGCCGGCGGCTTCGCGCCGATGATCGGTGTGGCCCTGCTGGCTGCCACCAACCACTCGTGGCTGGTGCCGGCGCTGTACTCCCTGGTCCTGGCGTCGATTTCCTTCGCCACCACGTTCTTTACTCCAGAGACCAATGGCCGCGACCTTGTCCTCGTGGAGGATGCACGATAG	MTTRTKSPQPDLDGAVVEPEQLRRATLASSVGSALEYYDFYIYGLASALIFGPLFFSPLGESGAVIASFATYGVGFAARPFGGVVFGYIGDRFGRKMVLILTIGLMGMASCAIGLLPTFEQAGMLGAVLLVALRILQGLGAGAEQAGATTLISEVAPRRRRGFFAALPFVGIQLGTLLGAGTFALMALADKEVLQGWLWRVPFLASVILIVIAVFIRLRLKETPVFQELEKHKAVVKNPVGQIWKHSKKNVLIGIGLRMGENGNSSIYSALLVSFISLPAGIFPGDKFIGPTGLLIAAGCAAVMVVTFGALSDRFGRVPVYRYGALFQAVIALPAFYLVTLGNVTLVWAVMVVGIALGVQSMLGPQCALLPELFGSQHRFTGVALSRELSAVLAGGFAPMIGVALLAATNHSWLVPALYSLVLASISFATTFFTPETNGRDLVLVEDAR	PGPT0014425_301	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014425-ydfJ-K08173	NA	NA
D1-29_02924	798	xynR_3	COG1414	HTH-type transcriptional regulator XynR	ATGGCCGATTCCCGTACCACCCGCACCTCCGAGGGATTGGGCAGCGCCTCACCCGCGCCGGCTGTCACACGTGCCGCGGCCGTGCTGGAGGCCCTTGCGGCGTCTCCCAGCGGGAGCCTGACGCTGAGTGATCTTGCCAGGGAGCTGGGGATCCCTAAATCATCGACGTCAAATCTTCTCCTGGCGCTGGAAGAGGCCCGCCTGATCAACCGCCAGGGAGCGGACTTCACGCTGGGCCGCAAGCTTGTGGAGCTCGGCGCTGCCTATCTCAGCAGGCTCGATGAGGTGCAGGAGTTCTACCGATATTGTGAACAGGCTCCCACTCTCTCTGGAGAGACAGTCAGGATAGCCATGCTTGACGGAACCAACGTGATCTACCTGGCGCGGTATGAGGGCCATCCGGCCGTTCGGCTGACGTCCAACATCGGGGACAAAATGCCGGTCTCGCTCTGTGCCGTGGGCAAGGTCCTGATCGCGCGCCTCCATGAGCACGATATTGATGCGCTGTTTCCTGACGATGCCGAACTGCCGGTGCTGACGCCCAAGTCGCTGCGCACAGGTGCAGAACTCAAAGCGGAGCTGCAGACTATCCGCGAACAGGGCTACGCGTTTGAGGACGAGGAATCCACGACGGGCGTGGTGTGTTTGGCAGTAGCCGTGCCCACCCACGGGGCGCACGGACCAAGCCTTGGGCTCTCAGTCACTGCGCTCAAGGCAACCTACTCCGACGAGCAGGGCGCCAGCATGGTCAAGGAGCTCAAGGAACTGGCCCGGTCGCTGGGCAATCCCATGGGCTGA	MADSRTTRTSEGLGSASPAPAVTRAAAVLEALAASPSGSLTLSDLARELGIPKSSTSNLLLALEEARLINRQGADFTLGRKLVELGAAYLSRLDEVQEFYRYCEQAPTLSGETVRIAMLDGTNVIYLARYEGHPAVRLTSNIGDKMPVSLCAVGKVLIARLHEHDIDALFPDDAELPVLTPKSLRTGAELKAELQTIREQGYAFEDEESTTGVVCLAVAVPTHGAHGPSLGLSVTALKATYSDEQGASMVKELKELARSLGNPMG	PGPT0025595_67	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0025595-blcR-K20539	NA	NA
D1-29_02925	366			hypothetical protein	ATGGACCGTACGGCCTTATCCGGCGTCCCCTATGGGCCCGCAACTCTGGCTGTCGGTGGCTGCCCCTACTCTTTCCCCATGGAACATGTGCTCTTAAAAAACGTGAAGGGGAAGCCGACGGCGGTGGTTGCCGGCGGCAGGGAGTGGACAGTTGGTGCCGAACCGGTCAGATGGTTTGAACGGGTCAGCTGGTGGGAGGGCCAGCGCCGCATGCCCAGGGGGCTCAGCCGGATGGACGTGGAGGTTCTGCAGTTACAGGTTCGGCTGGGAAGCAATGAGAATTCGGCCCTGACCACCATGCTGCTCGAACGGGACGGCCTGGGCGGTGGCTGGATGCTGAGGGAATCCATTGCTGATGCCGCCTGA	MDRTALSGVPYGPATLAVGGCPYSFPMEHVLLKNVKGKPTAVVAGGREWTVGAEPVRWFERVSWWEGQRRMPRGLSRMDVEVLQLQVRLGSNENSALTTMLLERDGLGGGWMLRESIADAA				NA	NA	NA	NA	NA
D1-29_02927	921	cobB	COG0846	NAD-dependent protein deacetylase	ATGGATCAGCAGCGGCGCGGGATCGGCCTGACAGGCTTCGCCAGTATGCCGGTCCTGCAGCCCACGGCTCTCTCATCAGAAGACGTCCGGGTCCTTGGCAGTATCCGCGAACTTCTGGCGGGAAGGCGGCTGGCGCTCCTGACCGGTGCGGGCCTGAGTACAGATTCGGGGATCCCGGACTACCGCGGCCCCGGCGCGCCGGTGCGGTCACCCATGACTTACCAGGAGTTCATCCGCGACGCCGCCAATCGGCAGCGTTATTGGGCGCGGAACCACATCGGCTGGTCCCACCTGCGGCATGCAGATCCCAACCAGGGGCACCATGCAGCTGCAGAAATGGAGCGGCGGGGACTGCTCACCGGTTTGATTACACAGAATGTGGACAGGCTGCACGAGGATGCCGGCAGCTTCAACGTCGTGGACCTGCATGGGCGCTATGACCAGGTGGTGTGCCTGGACTGCGGGCGCAAGTATTCGCGGCGCCTCCTGGCCGCGGTGTTGGAGGAGCTCAACCCGGGCTTCCTGGAAAAGGCCACCGAATCCGGCCTCGTCGAGATGGCTCCCGATGCAGACGCCACGATGGACGACCAGGCCCTGATCAGCAGCTTTGTGGTAGCTGTCTGCCTGGCCTGCGGCGGAACCCTAAAACCGGATTTTGTGTATTTCGGCGAGAACGTCCCCAAGGAACGGGTGGAGCGGTCCTACTCCATGGTGGACGAGGCCGGCGCCCTCTTGGTGGCAGGATCTTCCCTCTCCGTGATGAGTGGACTGAGGTTCGTCCGGCACGCGTCCAAGAGCGGGAAGCCGGTGGTCATTATCAACCGGGGGCCAACCCGTGGGGATGAGTTGGCCACGATCAAACTTGTTGCCGGGGTCAGCGAATCACTGACGTGGCTTGCGGCCGAGCTGCCCCCGCTGTAA	MDQQRRGIGLTGFASMPVLQPTALSSEDVRVLGSIRELLAGRRLALLTGAGLSTDSGIPDYRGPGAPVRSPMTYQEFIRDAANRQRYWARNHIGWSHLRHADPNQGHHAAAEMERRGLLTGLITQNVDRLHEDAGSFNVVDLHGRYDQVVCLDCGRKYSRRLLAAVLEELNPGFLEKATESGLVEMAPDADATMDDQALISSFVVAVCLACGGTLKPDFVYFGENVPKERVERSYSMVDEAGALLVAGSSLSVMSGLRFVRHASKSGKPVVIINRGPTRGDELATIKLVAGVSESLTWLAAELPPL				NA	NA	NA	NA	NA
D1-29_02928	504	ahpE	COG1225	Alkyl hydroperoxide reductase E	GTGACAGCATCCCTTGCCGGGACGGATGCCGGCCCCGAGGCCGTCCCTGCGATCGGTGCGGCCGCGCCTGACTTTGAGCTTCCCAACCAGTTCGGTGAGCCTGTCAGGCTGTCATCGTTCCGTGGGAAAAACGTGGTGCTGGTTTTCTACCCCTTCGCGTTCTCCGGCATTTGCACGGGTGAACTGTGTGAAATCCGGGACAACCTTGCCTCGTTCGAGGACAGCAATGCCATAGTCCTCGCCATCTCGGTGGACAGTAAGTTCAGTCTGAGGGCTTATGCGGAGAAGGAAGGATACGGCTTCGACCTGCTGGCAGACTTTTGGCCGCACGGGGCCGTGGCCGATGCCTATGGCGTCTTCGACCAGCAGAGCGGAATGGCGCGGCGGGGGACTTTCATCATCGACCCTGCCGGAATCATCCGGTACGTCGTGGTTAATCCACGCGGCCAGGCCCGTGAGCTGGCTGAGTACCGGGAAGCTTTGGCGGGCCTGGCCCAGGCCTGA	MTASLAGTDAGPEAVPAIGAAAPDFELPNQFGEPVRLSSFRGKNVVLVFYPFAFSGICTGELCEIRDNLASFEDSNAIVLAISVDSKFSLRAYAEKEGYGFDLLADFWPHGAVADAYGVFDQQSGMARRGTFIIDPAGIIRYVVVNPRGQARELAEYREALAGLAQA	PGPT0013145_37	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013145-ahpE-K24120	NA	NA
D1-29_02929	420			putative protein	GTGAGCGAGGCCGACGCCGCCACTTCGGTAAATGTGGCGGAAAAATTGGGTTTCAAAAATGGGGATCTGATTCAGGAGTTCGGTTACGACGATGACGTCGATTTCGACTTACGTGACGATATTGAGGACCTCACGGGATCCGAACTCCTTGATGAGGACGACCACGACGTCGTAGACGCCGCCATCCTGTGGTGGCGGGCCGACGACGGCGACCTCGTGGATACGCTCGTGGAACCCCTGACCACCCTGCGAGAGGGCGGCGTCATCTGGGTCCTCACGCCAAAGTCCGGACGGCCAGGCTACGTGTCGCCGGCGGACATCCAGGACGCAGCCCCTACGGCCGGTCTTCACGTCACCACGTCGGCGGGTGTCTCCAAGGATTGGAGCGCAACGCGGTTGGTGCTCCGGAAGAACAAGTGA	MSEADAATSVNVAEKLGFKNGDLIQEFGYDDDVDFDLRDDIEDLTGSELLDEDDHDVVDAAILWWRADDGDLVDTLVEPLTTLREGGVIWVLTPKSGRPGYVSPADIQDAAPTAGLHVTTSAGVSKDWSATRLVLRKNK				NA	NA	NA	NA	NA
D1-29_02930	2769	aceE	COG2609	Pyruvate dehydrogenase E1 component	ATGCATGCGCGCAAAGAGAGGTTGGACGTGGCTGCAGGAGAAGATACCTCCCATATCCTCAGTGGGTTGACTAACCAGCTGCCTGATCGTGATCCGGAAGAGACCGCCGAATGGGTTGAGTCCCTGGATTCACTGATCAGGGAACAGGGCACCGAGCGTGCCCAATACATCATGCGGAGCCTGTTGCAGCGCGCCGGCGCGCAGAGCGTCGGGGTGCCGATGGTGACCACCACGGACTACGTGAACACCATCCCGGTGGATCAGGAAGCCGAATTCCCGGGCAATGAGGAGTTCGAGCGCCGCTACCGGGCATACATGCGCTGGAACGCGGCCGTGATGGTGCACCGGTCCCAGCGCCCGAACATCGGAGTGGGCGGGCACATCTCCACCTACGCCGGCGCCGCCACACTGTATGAAGTGGGCTTCAACCACTTCTTCCGTGGCAAGGACCACCCCGGCGGCGGCGACCAGGTCTTCTTCCAGGGCCACGCCTCCCCCGGCATGTACGCCCGTGCCTTTATGGAAGGACGCCTGTCCGAGGAGGACCTGGACGGGTTCCGGCAGGAAAAGTCCCGGGAGGGCCATGCCCTGTCCTCCTACCCGCACCCGCGGCTGATGCCGCACTTCTGGGAATTCCCCACTGTGTCCATGGGCATCGGTCCCATGAACGCCATTTACCAGGCCCAGTCCAACCGGTACCTGCATAACCGGGGCCTGAAAGATACCTCGGACCAGCAAGTCTGGGCCTTCCTGGGCGACGGCGAGATGGACGAGCCCGAATCCCGCGGCCTGCTGCAGCTCGCCGCGAACGAAAACCTCGACAACCTCAACTTCGTGATCAACTGCAACCTCCAGCGCCTTGATGGCCCGGTCCGCGGCAACGGCAAGATCATGCAGGAACTGGAGGCGTTCTTCCGCGGCGCGGGCTGGAACGTCATCAAGGTGGTCTGGGGCCGGGAGTGGGATGACCTGCTCACCAAGGACACCGACGGCTCGCTCGTGAAGATCATGAACGAAACGCCCGACGGCGACTACCAGACGTTTAAGGCCGAATCGGGCGGGTTCGTCCGCGAGCACTTCTTCGGCCGGACTCCGCGGACCAAGGACATGGTCGCAGACCTGACGGACGACCAGATCTGGAACCTCAAGCGGGGTGGCCACGATTACCGCAAGGTCTACGCGGCGTACAAGGCAGCCACCGAGTTCAAGGGCAAGCCAACCGTGATCCTGGCCAAAACGGTCAAGGGCTACGGGCTCGGTCCCCACTTCGAGGGCCGCAACGCCACGCACCAGATGAAGAAACTTACGCTGGATGACCTGAAGAAGTTCCGCGACCACCTGCGGATCCCTGTCACCGACGAGCAGCTGGAGAAGGATCCGTACCAGCCGCCGTACTACCACCCGGGTACTGATGCGCCGGAGATCCAGTACATGATGGAACGCCGCGCAGCCCTCGGCGGGGCCGTGCCGGAACGCCGTTCCAAGCACGCCGAGATCGCGTTGCCGGACGCGAGCACGTACGAGGTGGCCAAGCGCGGTTCCGGCAAGCAGCAGGCCGCCACCACCATGGCATTCGTCCGGCTGCTCAAGGACCTGATGCGGGACAAGAACTTCGGCAAGCACATCGCGCCGATCATTCCCGATGAAGCCCGGACCTTCGGCATGGACGCGTTCTTCCCCACGGCCAAGATCTACAACCCCAAGGGCCAGAACTACCTGTCCGTGGACCGGGACCTTGTCCTGGCGTACAAGGAATCCGCGCAGGGACAGCTCATCCACCCGGGCATCAACGAAGCCGGGGCTGTGGCAGCATTCACCGCCGCAGGCACAGCGTACGCAACCCATGGCGTACCGCTGGTTCCGGTGTACGTGTTCTATTCCATGTTCGGCTTCCAGCGCACCGGTGATGCCTTCTGGGCAGCCGCGGACCAGATGACCCGTGGCTTCATCATCGGCGCCACCGCAGGACGGACCACCCTCACCGGTGAAGGACTGCAGCACGCCGACGGGCACTCCCCGCTGCTTGCGTCAACGAACCCGGCCGTGGTCACCTACGACCCCGCGTACGGGTACGAAATGGGCCACATCATCCGCGACGGCATCGAACGGATGTACGGACCGGACTCGACGGACCGGAACCTGATGTATTACATCACCGTCTACAACGAGCCCATCAGCCAGCCCGCCGAACCTGACGAGCTGGACGTTGAAGGTGTCCTGAAGGGCATCTACCTGCTGGCACCGGCAAAGATCGACGGCCCGCGGACCCAGATCCTGGCTTCCGGCGTCTCCGTCCCTTGGGCTATCGAGGCCCAGCGGCTCCTCGCCGACGACTGGGGCGTCTCAGCCGACGTCTGGTCCGTCACGTCCTGGAACGAACTGCGCCGCGACGCCATGGCTGCAGAGGAAGAGGCCTTCCTCAACCCCGGACAGCCCGGACGCGTTCCGTTCGTCACCCAGCAGCTGGCCGGCGCCACCGGACCCATCGTGGCGGTTTCGGACTACATGAAGGCCATTCCGGACCAGATCCGCCAGTTCCTGCCGAACGAGTTCGCTTCGCTCGGTGCCGACGGGTTCGGGTTCTCCGATACCCGCGCCGCAGCGCGACGCTTCTTCAAGAACGACATCCACTCCATCGTGGTCCGTTCCCTCGAGATGCTCGCACGCCGTGGCGAGGTGGACGCCCAGGCTCCGATCAAGGCCATCGAAAAGTACCGGCTGCACAATGTGAATGCCGGTTCCACCGGCAACGCCGGCGGCGAGTCGTAA	MHARKERLDVAAGEDTSHILSGLTNQLPDRDPEETAEWVESLDSLIREQGTERAQYIMRSLLQRAGAQSVGVPMVTTTDYVNTIPVDQEAEFPGNEEFERRYRAYMRWNAAVMVHRSQRPNIGVGGHISTYAGAATLYEVGFNHFFRGKDHPGGGDQVFFQGHASPGMYARAFMEGRLSEEDLDGFRQEKSREGHALSSYPHPRLMPHFWEFPTVSMGIGPMNAIYQAQSNRYLHNRGLKDTSDQQVWAFLGDGEMDEPESRGLLQLAANENLDNLNFVINCNLQRLDGPVRGNGKIMQELEAFFRGAGWNVIKVVWGREWDDLLTKDTDGSLVKIMNETPDGDYQTFKAESGGFVREHFFGRTPRTKDMVADLTDDQIWNLKRGGHDYRKVYAAYKAATEFKGKPTVILAKTVKGYGLGPHFEGRNATHQMKKLTLDDLKKFRDHLRIPVTDEQLEKDPYQPPYYHPGTDAPEIQYMMERRAALGGAVPERRSKHAEIALPDASTYEVAKRGSGKQQAATTMAFVRLLKDLMRDKNFGKHIAPIIPDEARTFGMDAFFPTAKIYNPKGQNYLSVDRDLVLAYKESAQGQLIHPGINEAGAVAAFTAAGTAYATHGVPLVPVYVFYSMFGFQRTGDAFWAAADQMTRGFIIGATAGRTTLTGEGLQHADGHSPLLASTNPAVVTYDPAYGYEMGHIIRDGIERMYGPDSTDRNLMYYITVYNEPISQPAEPDELDVEGVLKGIYLLAPAKIDGPRTQILASGVSVPWAIEAQRLLADDWGVSADVWSVTSWNELRRDAMAAEEEAFLNPGQPGRVPFVTQQLAGATGPIVAVSDYMKAIPDQIRQFLPNEFASLGADGFGFSDTRAAARRFFKNDIHSIVVRSLEMLARRGEVDAQAPIKAIEKYRLHNVNAGSTGNAGGES	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
D1-29_02931	1245		COG2508	putative protein	ATGCCAGAGCCAACCACCCCGTCTGCGAAGCGCAAGCCGTCCTCGCGCAGCATGACACCGGAGAAATCCGAAACCCTGAAAAAGCTGCGGGCGAGTGTGGGCCAACTGTCCACCACCACCCTGCGCCAGCTGGAAAAATCACTGCCGTGGTACAGCCGGCTGAGCTCCGACGAACGCTCTGCGCTGGGCATGGTGGCTCAGAACGGCATCGCTGCCTTCGTCACCTGGTATGAGCGCCCCAGCTCGCCGTCGTGGATCCTGACAGATGTCTTCGGCACTGCTCCCACAGAGCTGACCCGGTCCATTAGCCTGCAGAAAGCCCTCCAGCTGATCCGCATTGTCGTCGAGGTGGTTGAGGACCAGGTTCCTGTCATCGCCCCTGAGGCCGACCAGCCTTCGCTCCGGGAGGCTGTACTGCGCTACTCCCGGGAAGTGGCCTTCGCCGCAGCCGATGTCTACGCGAGGGCTGCAGAATCCCGTGGGTCATGGGACACGAGGCTTGAAGCACTGATCGTCGACGCCATCCTCCGCGGGGAGAACACCGACGCGCTGCGCTCCAGGATCGCCGCCCTTGGCTGGAAAGCCCAGGAACGGTTCACCGTTATGGTGGGAAATTCGCCGTCGGAGCCCAGCGCGAGCTACGTCAGCGAGCTGCGGCGCACCGCCGGGCGTTATGCCGAGGACGCCTTGGTGGGGATTCAGGGTGACCGCTTGATCCTGATCCTCGGCGGCGTGCAGGACCGTGAAACTGCCTACCTGAAGCTCAGCGAGATGTTCGCCCCCGGTCCCGTCGTCTACGGCCCGGAGGCAGGCTCGCTACTGGAAGCCAGTGGGTCAGCCCAGTCCGCTTTTGCCGGGCTGACAGCTGCCCGGGCCTGGCCGTCGGCTCCCCGGCCGGTGGCAGCGGACGACCTTCTGCCCGAACGCGTTATCTCCGGCGACGAAGCTGCCCGCCGTTCCCTGGTTAAGAACATTTACCGCCCGCTTGTGGCGGCCTCGAACGGGCTCGTTGAAACGCTCGGCACCTACCTTGAGCTGGGGCATTCCCTCGAGGCAACTGCGCGCGAACTCTTCGTCCATGCCAACACCGTCAGGTACCGCCTGAAGCGCGTCTGTGACGTCACCGGCTGGGATCCGCTCCTTCCCCGCGAGGCGTTTGTGCTGCAGGCAGCGCTGGTTGTGGGCCGGCTTTCGGCACCCCCGAAAGCTCCCGTGGAGCGTCATCCGGCGCGGAATCAGAGCTGA	MPEPTTPSAKRKPSSRSMTPEKSETLKKLRASVGQLSTTTLRQLEKSLPWYSRLSSDERSALGMVAQNGIAAFVTWYERPSSPSWILTDVFGTAPTELTRSISLQKALQLIRIVVEVVEDQVPVIAPEADQPSLREAVLRYSREVAFAAADVYARAAESRGSWDTRLEALIVDAILRGENTDALRSRIAALGWKAQERFTVMVGNSPSEPSASYVSELRRTAGRYAEDALVGIQGDRLILILGGVQDRETAYLKLSEMFAPGPVVYGPEAGSLLEASGSAQSAFAGLTAARAWPSAPRPVAADDLLPERVISGDEAARRSLVKNIYRPLVAASNGLVETLGTYLELGHSLEATARELFVHANTVRYRLKRVCDVTGWDPLLPREAFVLQAALVVGRLSAPPKAPVERHPARNQS				NA	NA	NA	NA	NA
D1-29_02932	930	fabD	COG0331	Malonyl CoA-acyl carrier protein transacylase	GTGCTTGCAATAGTCTGCCCTGGACAGGGCTCACAGACCCCCGGATTTCTGGCCCCTTGGCTGGAACTTCCTTCGGTAGCAGGCCAGTTGGCCTCCCTCAGCGAGATCGCAGGCATCGACCTGACGGCTCATGGGACCACCTCTGACGAGGAAACCATCAAGGACACCGCGGTGGCGCAGCCCCTGATTGTCGCGGCAGGCCTGGTTGCTGCCAGCTCGCTGTTCGACGTCGAGCTCAGCTCGCTGCCCGTAATCCTGGCCGGCCACTCTGTCGGTGAGATCACGGCTTCCGCACTTGCGGGGGTACTTACCGAGCAGGAAGCCATGACCTTTGTTCGTGAGCGTGCCAACAGCATGGCCGCCGCCGCTGCTGTGACGCCCACCGGCATGAGTGCTGTGGTGGGCGGGGACCCGGCGGAGGTCCTCGCGGCAATCGAGGCCTCCGGGGCCACCCCGGCCAATGTCAACGGTGCTGGGCAGACCGTCGCCGCGGGAACCTTTGAGCAGCTTCAGTCCCTGGCTGACAACCCGCCGGCGAAAGCCCGCGTCATTCCGCTCAAGGTGGCCGGAGCCTTCCACACCAGCCACATGTCCCCCGCCGTCAGCGCGCTGGAAGCCCTCAAGCCGGAGCTCAAGCCGCAGAAACCGCAGGTTCCCCTGCTCTCCAACTTTGACGGCCGCGAAGTCACCGACGGCGACGCCGCCGTGGACAGCCTGATCGCCCAGGTATCCCGCCCCGTCCGCTGGGACCTGTGCATGGAATCATTGGTGGAGCGCGGCGTCACGGGTGTCATTGAACTGGCCCCCGCCGGAACCCTGGCCGGCCTTGCCAAGCGAGGGATGCCTGGCGTCAAAACAGTCGCCGTCAAAACCCCGGACGACCTCTCTGCCGCCCTGGCACTCTTCGCAGAATTGGAGGGAAAGGCATGA	MLAIVCPGQGSQTPGFLAPWLELPSVAGQLASLSEIAGIDLTAHGTTSDEETIKDTAVAQPLIVAAGLVAASSLFDVELSSLPVILAGHSVGEITASALAGVLTEQEAMTFVRERANSMAAAAAVTPTGMSAVVGGDPAEVLAAIEASGATPANVNGAGQTVAAGTFEQLQSLADNPPAKARVIPLKVAGAFHTSHMSPAVSALEALKPELKPQKPQVPLLSNFDGREVTDGDAAVDSLIAQVSRPVRWDLCMESLVERGVTGVIELAPAGTLAGLAKRGMPGVKTVAVKTPDDLSAALALFAELEGKA	PGPT0008350_1073	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
D1-29_02933	1062	fabH		3-oxoacyl-[acyl-carrier-protein] synthase 3	ATGAGCGTTCCCACACTGAAACAGGCCCCGGTCAACGAGAACACCCGGGTCCTTGGAATTGGTGCCTACCGCCCGGACATCATCGTCACCAACGACGACGTATGCCAGTGGATCGATTCCTCCGATGAGTGGATCCGCCAGCGCACCGGCATTGTCACGCGGCACCGTGCGGCAGCCGACGTCAGCGTCATCGACATGGCAGAAGGCGCCGCGCGTGAGGCCCTGCAGCACGCCGGCATAGAGGCGTCCCAGCTGGGCGCGGTGATCGTGTCCACTGTTACGCACCCGTACGCCACGCCGTCGGCCGCCGCGAGCCTGGCCGACCGCCTGGGTGCCACCCCGGCGCCCGCCTTCGATATCTCGGCGGCATGCGCAGGGTACTGCTACGGAATCGCACAGGGCGATGCGCTGGTCCGTTCCGGGGCGGCCAACTACGTCCTGGTGGTGGGAGCCGAAAAGCTCTCCGACGTGATCGACAACCATGAGCGGACCATTTCGTTCCTGCTCGGCGACGGAGCCGGCGCAGTAGTGATCGGCCCCTCTGACACTCCCGGCATCGGTCCCTCCGTTTGGGGCTCTGACGGCAGCAAGTGGGATGCGATCGGCATGACACGCTCCATGCTGGACGTCCGCGACCTCAGCGCCTCCGCCCGCCAGGCGGACGAATCCGACGACCTCGCGATCATTTCCGCCGCGCAGGACCTCTGGCCCACGCTCCGCCAGGACGGGCAGACCGTCTTCCGCTGGGCAGTATGGGAAATGGCGAAAGTGGCCCAGCAGGCCCTGGACGCCGCCGGAATCAGGTCTGAGGACCTGGTGGCCTTCATCCCCCACCAGGCCAACATGCGCATCATCGACGAAATGGTGAAAAAGCTTCAGTTGCCCGAAACGGTCACCGTTGCCCGCGACATTGCTGACGCCGGAAACACCTCGGCCGCCTCCATCCCCCTGGCCACCCACCGCCTGCTCCAGGAGAACCCCGAGCTCAGCGGCGGACTTGCGCTCCAAATCGGCTTCGGCGCCGGTCTGGTCTTCGGCGCCCAGGTCATCGTCCTCCCCTAG	MSVPTLKQAPVNENTRVLGIGAYRPDIIVTNDDVCQWIDSSDEWIRQRTGIVTRHRAAADVSVIDMAEGAAREALQHAGIEASQLGAVIVSTVTHPYATPSAAASLADRLGATPAPAFDISAACAGYCYGIAQGDALVRSGAANYVLVVGAEKLSDVIDNHERTISFLLGDGAGAVVIGPSDTPGIGPSVWGSDGSKWDAIGMTRSMLDVRDLSASARQADESDDLAIISAAQDLWPTLRQDGQTVFRWAVWEMAKVAQQALDAAGIRSEDLVAFIPHQANMRIIDEMVKKLQLPETVTVARDIADAGNTSAASIPLATHRLLQENPELSGGLALQIGFGAGLVFGAQVIVLP	PGPT0008355_1100	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
D1-29_02934	246	acpP		Acyl carrier protein	ATGGCTAGCAACGAAGAGATCCTGGCCGGCTTGGCTGAAATCGTCAACGAAGAGACCGGCCTGGCCCCTGAGGCTGTGGAGCTGGACAAGTCCTTCACCGAGGACCTGGACATCGACTCCATCTCGATGATGACCATTGTGGTCAACGCTGAAGAGAAGTTCGGCGTGCGCATTCCGGACGAAGAGGTCAAGAACCTCAAGACCGTCGGTGACGCCGTGAGCTTCATCTCCGGCGCACAGGCCTAG	MASNEEILAGLAEIVNEETGLAPEAVELDKSFTEDLDIDSISMMTIVVNAEEKFGVRIPDEEVKNLKTVGDAVSFISGAQA	PGPT0011375_4456	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
D1-29_02935	1236	fabF		3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGACACGCAAAGTAGTCATTACCGGTCTGGGTGCCACCACGCCCATCGGCGGCGACGTACCCACAATGTGGAAGAACGCGCTGAAAGGGGTCTCAGGTGCCCGCACCCTGGAGGACGACTGGGTTTCCAAGTATGAACTTCCTGTCCACTTTGCCGCGCGCTGCAGCACTCCTGCCCTGGAGGTCCTGAGCCGCGTCGAAGCGAAACGGATGGATCCTTCCACGCAGTTCGGCGTGATCGCCTCCCGCGAGGCGTGGGCGGACTCGGGCATCACCGAAGTGGACCACGACCGCCTGGCGGTGGCCTTCGCCACCGGCATCGGCGGCGTCTGGACGCTCCTGGATGCCTGGGACACCCTGAAGGAAAAGGGACCCCGCCGCGTCCTGCCCATGACCGTGCCCATGCTGATGCCTAATGGCGTCGCCGCGGCCGTCAGCCTGGACCTGGGCGCCCGCGCCGGAGCCCACACCCCTGTATCGGCCTGCGCCTCCGGCACCGAAGCCCTGCACCTTGGCCTGGACCTGATCCGTTCCGGCAAGGCCGATGTAGTCATGTGTGGAGGCGCCGAGGCAGCAATCCACCCCATGCCACTGGCAGCATTCTCATCCATGCAGGCACTCTCCCGCCGCAACGACGAGCCCGAGCGCGCCTCCCGTCCCTACGATCTTGGCCGCGACGGCTTTGTCATGGGCGAAGGCGCCGGTGCCCTGGTCCTCGAAGCCGAGGAGCATGCCCTCGCCCGCGGTGCGCGCATCTACGGCGAGCTGGCCGGCACGTCCGTCACGGCGGACGCTTACCACATCACCGCCCCGGACCCCGAGGGCCTGGGTGCCACCCGCGCCCTTAAGGCAGCTATGTTCGACGGCCGGATCCAGGCCGAAGACGTGGTCCACGTTAATGCCCACGCCACGTCCACTCCCGTGGGTGACAAGCCGGAGTACACCGCCCTGCGCGCTGCCCTCGGCAACCACATCGACCGCGTGGCGGTCTCCGCCACCAAATCGCAGATGGGGCACCTCCTGGGCGCATCCGGCGCCGTGGAGGCCGTGCTCACGGTGCTGGCTGTTTACGAACGCAAGGCGCCGGTAACCATCAACCTGGAAAACCAGGACCCGGAGATCCCTCTCGACGTCGTCACCTCTGCCCGTGACCTGCCCGCGGGCAGCATTGTGGCACTGAGCAACTCCTTCGGCTTCGGCGGGCACAACGCCGTGATCGCGGTACGCAGCGTTTAG	MTRKVVITGLGATTPIGGDVPTMWKNALKGVSGARTLEDDWVSKYELPVHFAARCSTPALEVLSRVEAKRMDPSTQFGVIASREAWADSGITEVDHDRLAVAFATGIGGVWTLLDAWDTLKEKGPRRVLPMTVPMLMPNGVAAAVSLDLGARAGAHTPVSACASGTEALHLGLDLIRSGKADVVMCGGAEAAIHPMPLAAFSSMQALSRRNDEPERASRPYDLGRDGFVMGEGAGALVLEAEEHALARGARIYGELAGTSVTADAYHITAPDPEGLGATRALKAAMFDGRIQAEDVVHVNAHATSTPVGDKPEYTALRAALGNHIDRVAVSATKSQMGHLLGASGAVEAVLTVLAVYERKAPVTINLENQDPEIPLDVVTSARDLPAGSIVALSNSFGFGGHNAVIAVRSV	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
D1-29_02936	504			hypothetical protein	ATGTCTGTTGCAATGACCCGCGGTGTGCTGTTCGTTCACTCGGCCCCTACTGCACTGTGCCCGCATGTCGAGTGGGCCATCGGATCCGTCGTGGATAAGCGGACGGACCTTGAGTGGACCCCTCAGCCCGCTGCGCCCGGAATGTTCCGCGCCGAGCTCTCCTGGACGGGAACGCCCGGAACGGGAGCGCAGCTTGCCTCGGCCCTCCGCGGTTGGGCCCACCTCCGCTATGAGGTCACCGAGGAACCAAGCCAGGGGGTGGACGGCGGCCGCTGGTCCCATACTCCCGAGTTGGGTATCTTCCACGCTGTGACTGACGTGCACGGCAACATCATGGTCTCCGAGGACAGGATCCGTTACGCCTACGAGTCCGGCGCAGGCGACCCGTCAGCCGTTTACCATGAGCTCTCCCTCGCGCTCGGTGAGGCGTGGGACGAAGAGCTCGAACCCTTCCGCCACGCAGCCGAGGGTGCTCCTGTCCGCTGGCTGCACCAGGTGGGCTGA	MSVAMTRGVLFVHSAPTALCPHVEWAIGSVVDKRTDLEWTPQPAAPGMFRAELSWTGTPGTGAQLASALRGWAHLRYEVTEEPSQGVDGGRWSHTPELGIFHAVTDVHGNIMVSEDRIRYAYESGAGDPSAVYHELSLALGEAWDEELEPFRHAAEGAPVRWLHQVG				NA	NA	NA	NA	NA
D1-29_02937	972	xerC_3	COG0582	Tyrosine recombinase XerC	GTGTCCGTACCCTGGTTTGGCGCCAAAGACTGGGAAAGTAGGAAGGTGGAGACTCAGGAACTGCCCCCCGCGCTCGAGCAGGCAATTGATGATTTTGCCAGGTATCTGGCGGGAGAGCGCGCCAGGTCCGCCCACACCCTTCGGGCTTACCTCTCGGATCTCCGAAGCCTGCTCCAGTATGCCGCGTCCGAAGGCGTGACCGACCTCCCCGGCCTCGAACTGGGAACACTCAGGCGGTGGCTGGGAGTCCAGAGCCAGGCCGGGATGTCCCGGTCCACCCTGGCCCGGAGATCGGCCACGGCCAGGTCCTTCACTACCTGGGCCATGCGGGAAGAGCTGATGGAAACAGATCCGGCGCTGCGCCTCAGGGCTCCGAAAACCGGAAAGTCCCTGCCCGGGGTGCTGCAGTCCCAACAGCTGGGGAGGCTGCTGGGCAACCTGGAGGAAGCCGCGTCCGGCGGTTCGCCCCTGGCTGTCCGCAACCGGGCCATGGTGGAGCTCCTGTATGCCACCGGGCTTCGGGTGGGGGAGCTCGCCGGCATGGACGTGGATGATCTCAACCCGGACCGCCGCACGCTGCGGGTGATCGGCAAAGGCAACAAGGAACGGACAGTCCCGTACGGCGTCCCTGCCGCAGTGGCCGTCGACGACTGGCTCCGCAGGGGCAGGCCCGTGCTGGCCAAGCCGCACAGCGGGCCGGCGCTCTTCCTCGGATCACGCGGCAACAGGGTGGACCAGCGCCAGGTCAGGGCAGTCGTGAAGGAGCTCTTTGAAGCGCTGGGGGACACCTCGGCCACCGGGCCTCACGCCCTGCGGCACACGGCCGCCACGCACCTGCTGGACGGGGGTGCGGATCTCCGCGCCGTCCAGGAGATCCTGGGGCACAGCAGCCTCGCCACCACGCAGATCTACACCCACGTCTCCGTGGACAGGCTGAGGAAGAGTTACCAGCAGGCACACCCAAGGGCGTAA	MSVPWFGAKDWESRKVETQELPPALEQAIDDFARYLAGERARSAHTLRAYLSDLRSLLQYAASEGVTDLPGLELGTLRRWLGVQSQAGMSRSTLARRSATARSFTTWAMREELMETDPALRLRAPKTGKSLPGVLQSQQLGRLLGNLEEAASGGSPLAVRNRAMVELLYATGLRVGELAGMDVDDLNPDRRTLRVIGKGNKERTVPYGVPAAVAVDDWLRRGRPVLAKPHSGPALFLGSRGNRVDQRQVRAVVKELFEALGDTSATGPHALRHTAATHLLDGGADLRAVQEILGHSSLATTQIYTHVSVDRLRKSYQQAHPRA	PGPT0021995_2086	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733	NA	NA
D1-29_02938	1185	dprA	COG0758	Putative DNA processing protein DprA	ATGGACAACGAACGGATCGCCCGCGCAGCGCTGTCGAGGCTTATGGAGCCCCAGGACGCGGCCGGCCTCGCGCTGGTGCGGGCTGCTGGAGCCACCGATTCGCTGAAGATCGCGACAGGCCAGCTGAAGGCAGGGCCGGCCTTGGAACAGGAAATTACGGGGCTGCTGGCGGACAACGGTGGCGGCCCCGGCTGGGGAGGCATGGCTGCAGCGCTCAAACGGTGGGCGCCGCGCATCCCCGATCTGGCACCCGAACGGGACCTTGCCACCATGGCACGCCTGGGTGGCCGGCTGATCATCCCCTCGGACCCACTGTGGCCTGCCCAGCTTGCCGATCTTGGCATCCACGAGCCTCTGTGCCTGTGGTGGCGGGGCCTGGAGCAGCCGTTGCCCGCCGCAGCACAATGTGTGGCTCTGGTGGGTTCCCGGGACAGTACCAGCTACGGTGCCTCCGTGACAGGAGACCTCGCCTATTCGCTGGCTCAGCGCGGCTTCACGGTGGTCTCCGGCGGTGCCTACGGTATTGATGCCCACGCCCACAGGGCAGCCCTGGCCGGCGGTGCAGGGCCGTTGCCCACCATCGCTGTTATGGCAGGCGGCGTGGACCGCTTCTATCCGTCCGGCAACGAGGACCTCCTGCGTGCGGTCTGCAACCAGGGCGCCGTCATAGCCGAGGTGCCGCCGGGGTCGGCACCAACCCGTTACCGCTTCCTGCAGCGGAACAGGCTTATCGCCGCCATGGCAGCCGTCACCGTGGTGGTGGAGGCGCGCTGGCGTTCAGGTGCACTCAACACCGCCCATCATGCCGAAACCCTGGGCCGAGCGGTGGGTGCTGTCCCTGGGTCCGTGCACAGTGCCAACTCGGCGGGGTGCCACAGGCTGCTCCGGGATGGAGGCGCAGTCTGTGTCACGGACGCCGCCGAGATCGCCGAACTGGCTGCACCCAGCGGTGAATCACTTATTGAGCCCAGGGCAGGCCAAGCGGCCGTCCACGATGGACTGACCTTGGAGGACCTCATCCTCCTGGATGCCCTTCCCCTGAGATCCACCAGTTCGGTGGACAAACTCAGTGCGGTGGCCGGACTCAGCCAGGACTCCGTGCGGGCAGGGCTTGGCCGCCTCGGCCTGCTGGGGCTTGCATTGTCGGAGAGGGGAGGCTGGAAACGGGCCAAGGAATCAGGCTAA	MDNERIARAALSRLMEPQDAAGLALVRAAGATDSLKIATGQLKAGPALEQEITGLLADNGGGPGWGGMAAALKRWAPRIPDLAPERDLATMARLGGRLIIPSDPLWPAQLADLGIHEPLCLWWRGLEQPLPAAAQCVALVGSRDSTSYGASVTGDLAYSLAQRGFTVVSGGAYGIDAHAHRAALAGGAGPLPTIAVMAGGVDRFYPSGNEDLLRAVCNQGAVIAEVPPGSAPTRYRFLQRNRLIAAMAAVTVVVEARWRSGALNTAHHAETLGRAVGAVPGSVHSANSAGCHRLLRDGGAVCVTDAAEIAELAAPSGESLIEPRAGQAAVHDGLTLEDLILLDALPLRSTSSVDKLSAVAGLSQDSVRAGLGRLGLLGLALSERGGWKRAKESG				NA	NA	NA	NA	NA
D1-29_02939	1545	comM	COG0606	Competence protein ComM	ATGGCGTTGGGCCGGACCTACTCGGTGGCGCTGGTGGGGCTGAACGGCTACATCGTCGAGGTTGAGGCGGACATCGGCCAGACGCTGCCGGCATTTGTGATCCTGGGCCTCCCGGATGCGGCGCTAAATGAAGCGAAGGAACGCATCCGCTCCGCTGCGAAGAACTCGGGGATTCCGCTGAGCCGGCGGAAAATCACCGCCAACCTGATTCCGGCCTCCCTCCCCAAGCGGGGTTCCGGGTTCGACCTTGCGGTGACAATGGCTGTCCTGCGGGCGGCGAATGACATTAAGCCCACCGGGCGGACCGTCTTTATGGCCGAATTGGGGCTGGATGGCCGGCTTCGGCCGGTGCGGGGCATTCTTCCTGCCGTGATGGCGGCAGTGCAGGCCGGATATCCAGAGATTGTGGTGGCACAGGCCAATCTGGCTGAGGCTTCACTGGTTCCGGGTGCAAGGGTCAGGGGCTACCGCACGCTGGCCCGGCTTGCCCTCGACTTTGGTGCGGACCCTCAAGAGCTCGCGCTGGACTTCGAGCCCCAGGACGAGGCCAGCCAGGGGGATGCCCCGGGCAGCATGCAGGCAGTGCCGGATATGGCAGACGTGTCCGGCCAGGGCGATGCCCGGCGTGCCCTGGAGGTGGCTGCGGCCGGCGCCCACCACCTCCTGCTCACCGGCCCTCCGGGCGCAGGCAAGACCATGCTGGCGGAAAGGCTGCCCGGCCTGCTCCCGGACTTGGCCGACAACGAGGCCATGGAGGTCACGGCCATCCACTCGCTCTGTGGCCTGCCGTCCTCGGCCGTCCAGCTCCTGCGGCGGCCGCCTTTTGAAAACCCCCATCACTCGGCCACAGCAGCCGCCATCATCGGCGGCGGCTCAGGGCTGCCGCGTCCGGGCGCGGCGTCCCGGGCACACCGCGGCGTGCTGTTCCTGGACGAGGCGCCGGAATATGAACGCCGGGTGCTGGATGCCCTCCGCCAGCCCCTGGAGAGCGGGGAACTGGTGATTCACCGGTCAGCCGGCACGGCGGCCTATCCGGCGCGGTTCCAACTGGTTCTCGCCGCCAACCCGTGTCCCTGCGGGAAGGCCTCCGGGAAAGGACTGGACTGCATCTGCACTCCCATGATGCGGCGGCGCTACCTCGCCCGGATGTCCGGCCCGCTCCTGGACCGGGTGGATATCCAGTTGCAGGTGGAGCGGGTTTCGCTGGCCGACTTCGGCCAGGCAGGCTGTGAAGAGGATACGGCTTCCGTGGCGCAGCGGGTGGATGACGCCCGCCGCCGCCAGGCCGACAGGCTGCAAGGCCTCGGACTGGAAACGAATTCCCAGGTTCCCGGGCGGATCCTTCGCGGCGGACTCCGCCTCCCGGCCGCGTCCACTCGGATTCTGGACCACTCACTGGAGCGGGGAGTCCTGACGGCCCGGGGCTACGACAGGGTGCTGCGGCTGGCGTGGACCTTGGCCGACCTGGCACACCGCGACAAACCCGACACCAACGACATCGGCCAGGCACTGGGCCTCCGGCAGGCTGCCTCGGCAGCCGCGTGA	MALGRTYSVALVGLNGYIVEVEADIGQTLPAFVILGLPDAALNEAKERIRSAAKNSGIPLSRRKITANLIPASLPKRGSGFDLAVTMAVLRAANDIKPTGRTVFMAELGLDGRLRPVRGILPAVMAAVQAGYPEIVVAQANLAEASLVPGARVRGYRTLARLALDFGADPQELALDFEPQDEASQGDAPGSMQAVPDMADVSGQGDARRALEVAAAGAHHLLLTGPPGAGKTMLAERLPGLLPDLADNEAMEVTAIHSLCGLPSSAVQLLRRPPFENPHHSATAAAIIGGGSGLPRPGAASRAHRGVLFLDEAPEYERRVLDALRQPLESGELVIHRSAGTAAYPARFQLVLAANPCPCGKASGKGLDCICTPMMRRRYLARMSGPLLDRVDIQLQVERVSLADFGQAGCEEDTASVAQRVDDARRRQADRLQGLGLETNSQVPGRILRGGLRLPAASTRILDHSLERGVLTARGYDRVLRLAWTLADLAHRDKPDTNDIGQALGLRQAASAAA				NA	NA	NA	NA	NA
D1-29_02940	357			hypothetical protein	ATGAAATCCAAAGACCTGTTGGGCCGGCGCGGCGAAGAGCTCGCTGCCGGATATCTTGAGTCAGTTGGCATGCTGGTGGTGGAGCGCAACTGGCGCTGCCCGGACGGCGAAATCGACATCGTGGCCTTGGACGCCGATGCCCTGGTCATAGCGGAGGTTAAAACCCGCCGCTCCCTGGACTACGGCCATCCCTTTGAAGCCGTGGGCCCGGAAAAACTCGCGCGCCTGCACCGGCTCGGTTCAGCATGGTGCCGGGACCGGGAGCTCCACATGCCGCTGCGCCGAGTGGATGTCATCTCGGTGCTGGACGACGGCGTTGCCGAACCGCTGGTGGAACACCTCAAAGGGGTGGGGTAG	MKSKDLLGRRGEELAAGYLESVGMLVVERNWRCPDGEIDIVALDADALVIAEVKTRRSLDYGHPFEAVGPEKLARLHRLGSAWCRDRELHMPLRRVDVISVLDDGVAEPLVEHLKGVG				NA	NA	NA	NA	NA
D1-29_02941	327			putative protein	ATGAGCGCTGAGGATCTTGAAAACTATGAAACCGACATGGAGCTGCAGCTCTATCGTGAATACCGCGATGTCGTCGGGCTCTTTAGCTACGTTGTCGAGACAGAACGCCGCTTTTACCTGGCCAACCATGTTGACCTCCAGGCCCGCAGTGCCGACGGCGAGGTCTACTTCGACCTGACGCTGCAGGACGCGTGGGTTTGGGACGTCTACCGCTCGGCGAGGTTCGTGAAGAATGTCCGCGTCCTCACCTTCAAGGACGTCAACGTCGAAGAGCTTCCGCGTAATGAAGAACTTGCGATGCCCAAGGACGTTGACCTCGGCAACTGA	MSAEDLENYETDMELQLYREYRDVVGLFSYVVETERRFYLANHVDLQARSADGEVYFDLTLQDAWVWDVYRSARFVKNVRVLTFKDVNVEELPRNEELAMPKDVDLGN				NA	NA	NA	NA	NA
D1-29_02942	747	rnhB	COG0164	Ribonuclease HII	ATGTCCAGTGCTCTGCCTGCGACGTCCGCCAAGGCGACTCTCCGGCCCGCGACGGGCATCCACTCCAAAGCCCCCACGCTGCGTCATGAGCGGTCCTTCAAAGCGCAGGGAGTCCGCTACCTCGCCGGTGTTGACGAAGTGGGCCGCGGTGCGCTGGCAGGACCCGTGAGCGTCGGTATTGCCGTCGTGGACTTGGAAACGCAGAAGTCACTGCCCGGGGTCCGTGACAGCAAGCTGCTCAACCCGGCGGAGCGGGAACGCCTGGAACCACTGGTCCGCAAATGGAGCCTCGCGTCGGCGGTGGGACATGCCTCAGCAGCCGAAATCGACGCGCTTGGCATTATCGCTGCCCTGCGCCTGGCAGGAACCCGGGCCTGGTTTGAGGTCCTCGCCGCCGGGGTCACGCCGGATCTGGTGCTCCTGGACGGGAGCCATAACTGGCTGTCGCCCGCCGAGCAGCCCTCCCTGTTCGACGAGATGACGGTCGACGGGTCGGACCTGCGGTGCGACGCTCCGGTCCACACCCGCATCAAGGCTGACATGCAGTGCCTGAGTGTTGCGGCCGCCAGCGTGATCGCCAAGGTGGAACGTGACCAGCAGATGTGCGGGCTGCATGCTGAATACCCGGATTTTGGCTGGAACGAAAACAAGGGATACGCCACTCCCTTCCACCGGGACGTGCTGAGGGCCGCCGGACCCACGCCGTACCACCGCGTGAGCTGGAACCTCCTGGGTGGGGAACTCTGA	MSSALPATSAKATLRPATGIHSKAPTLRHERSFKAQGVRYLAGVDEVGRGALAGPVSVGIAVVDLETQKSLPGVRDSKLLNPAERERLEPLVRKWSLASAVGHASAAEIDALGIIAALRLAGTRAWFEVLAAGVTPDLVLLDGSHNWLSPAEQPSLFDEMTVDGSDLRCDAPVHTRIKADMQCLSVAAASVIAKVERDQQMCGLHAEYPDFGWNENKGYATPFHRDVLRAAGPTPYHRVSWNLLGGEL				NA	NA	NA	NA	NA
D1-29_02943	837			hypothetical protein	ATGCCCGAGAACCACCCACGGACACCTGAGCCGGGCCCTGACGGAGCCAGCCAGGCAAGTGCGGCCGGCGCTGCCCGTGCAGCTGACGCGACGGCGCCTGAGGAAGCCCCGGAGGCCCCGGTTTCCGGAAGGCGTTCTTCCGCCGCCCCGCAGCCGGAGGCCCCACGTCCCAGCCCGGTGTTCGTCTGGCTCAAAGAAGTTGCCACGGTGGTGGTCATCGCCGTGGTCCTGTCCTTCCTGATCAAAACCTTCCTGTTCCGGGCCTTCTGGATACCGTCAGAGTCGATGGTCAGCACCCTCGACATCGATGACCGCATCTTCGTCAACCTCCTTGTCCCGGAACCCTTTGCGCTTTCCCGCGGTGACGTCGTGGTGTTCCGGGATACAAAGGGCTGGCTGCCGCCGGTCCCGGAGAAGACCGATGGCCCGTTCACCTGGGTCCAGGACGGCCTGATCTTTGTTGGCCTCCTGCCGGACAATTCCCAGCAGCACCTCGTCAAGCGTGTCATTGGACTCCCGGGCGACCACGTGATCTGCTGCGACGCCGGCGGTAAACTGGCCATCAACGGATCAGCAATTGACGAACGCTACGTCAACAGCGCCGAGACCCCACAGATCCGCAACTTCGACGTTGTTGTTCCGGAAGGGAAGGTCTGGGTTATGGGAGACAACCGAAACCACTCCGCCGATTCCCGTGCCCATGTGGACTCCAACGGTGGCTTCATTGATCTCACAGACATCGAGGGCAAAGCCGCCGTCATTGCCTGGCCGCTGAACAGGATCACTGCCCTTGATAACTACCCGGACGTGTTCCGGAACGTGCCGCCGGCAGGCTAG	MPENHPRTPEPGPDGASQASAAGAARAADATAPEEAPEAPVSGRRSSAAPQPEAPRPSPVFVWLKEVATVVVIAVVLSFLIKTFLFRAFWIPSESMVSTLDIDDRIFVNLLVPEPFALSRGDVVVFRDTKGWLPPVPEKTDGPFTWVQDGLIFVGLLPDNSQQHLVKRVIGLPGDHVICCDAGGKLAINGSAIDERYVNSAETPQIRNFDVVVPEGKVWVMGDNRNHSADSRAHVDSNGGFIDLTDIEGKAAVIAWPLNRITALDNYPDVFRNVPPAG	PGPT0030468_59	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
D1-29_02944	678	lepB	COG0681	Signal peptidase I	ATGGACCAGACAAAACGCCAGCCCAGAAGAATGGGCTGGCGTTTTGCGTTCCTGGCTCTGGTCCTGGCGGTGGCCATCAGCGGACTGGTCCGCTCCCTGTGGCTGGATGTCTTCTTCATCCCGTCTGAGTCCATGGAACCTGTCCTGGAGGGCGGGGACCGGATCCTGGTGTCCAGAACAGCCTTTGACAGGGAGGCAATCCGTCGCGGCGACATTGTGGTCTTTGACGGCCGGGGTTCGTTCGCTCCGCTCAACAGCGGAAAAGGTCCGCTGGCCGATTCTCTGGCAGCTGCCGGACAATGGCTCGGGCTGGCCGGCTCTGACACCACGTTCGTCAAGCGGGTCATCGGTCTTCCCGGGGACGCTGTGGCCTGCTGTGACGCGGCAGGAAAAGTCACCGTGAACGGTCAGGCCATTGTTGAGCCTTACGTTTTCGACGGCGACAAACCCAGTACCCAGGCCTTCAACGTGATTGTGCCCGACGGAAGGCTGTGGCTGCTCGGCGACCACCGTTCGGCGTCGGCGGATTCACGCAGCCTGCTCGGCGCACCGGGCGGCGGAATGGTTCCGCTGGACCGGGTGTTTGGCAGACCCGTCCAGATCATCTGGCCGCTTGATAGATTTGCAGCAGTACCACGGCCGCCAGCGGCAGGACCAACAACAGAGGACGGACAGTAG	MDQTKRQPRRMGWRFAFLALVLAVAISGLVRSLWLDVFFIPSESMEPVLEGGDRILVSRTAFDREAIRRGDIVVFDGRGSFAPLNSGKGPLADSLAAAGQWLGLAGSDTTFVKRVIGLPGDAVACCDAAGKVTVNGQAIVEPYVFDGDKPSTQAFNVIVPDGRLWLLGDHRSASADSRSLLGAPGGGMVPLDRVFGRPVQIIWPLDRFAAVPRPPAAGPTTEDGQ				NA	NA	NA	NA	NA
D1-29_02945	360	rplS	COG0335	50S ribosomal protein L19	ATGCATATTCTCGATTCCGTAGACTCAGCCTCGCTGCGCACCGATGTTCCTGAGTTCCGCGCGGGCGACACCCTCAAGGTCCACGTGAACATCATCGAAGGCAAGAACTCCCGTGTCCAGGTTTTCCAGGGCTTCGTCCTGGGCCGCCAGGGTGACGGCATCCGCGAGACCTTCACGGTCCGCAAGGTCTCCTTCGGCGTCGGTGTGGAGCGTACCTTCCCGGTTCACTCCCCGATCATCGACAAGATCGAAGTAGTCACCAAGGGTGACGTCCGCCGCGCCAAGCTCTACTACATGCGTGCACTGCGCGGTAAGGCTGCCAAGATCAAGGAAAAGCGGGACTTCAGCACCGCCAAGTAG	MHILDSVDSASLRTDVPEFRAGDTLKVHVNIIEGKNSRVQVFQGFVLGRQGDGIRETFTVRKVSFGVGVERTFPVHSPIIDKIEVVTKGDVRRAKLYYMRALRGKAAKIKEKRDFSTAK				NA	NA	NA	NA	NA
D1-29_02946	804	trmD	COG0336	tRNA (guanine-N(1)-)-methyltransferase	ATGCGCATCGACGTCGTCAGCATTTTTCCGGAGTATCTGGCGCCCCTGGAACTGTCCCTTATCGGAAAGGCCCGGCAGGACGGCCTGCTGGACCTTCATGTCCATGACCTGCGGAACTTCACCACGGACAAGCACCGGTCGGTGGATGACACGCCCTACGGCGGCGGCGCCGGCATGGTGATGAAGGCAGAACCGTGGGCCCAGGCGCTGGCATCGGTGGCGGAAGCACGGCCGGCAGAGGGAGTGGGCAAGCCTGTCCTTATCGTGCCGTCCCCGGCCGGGGAACGTTTTACCCAGGCGCTGGCCCACGAGCTCGCGGGGGAGGACCAGTTGATCTTCGCCTGCGGCCGTTACGAAGGGATTGACGAGCGGGTTATCGAGTGGGCCGAGGAGCATTTTACAGTCCGGCCCATGAGCCTCGGTGACTACGTCCTGAACGGCGGCGAGGTCGCGGTGCTGGCCATGGTCGAAGCCATCGGCAGGCTGCTGCCGGGCGTTGTCGGCAACCCCGACTCCCTGGTGGAGGAATCCCATTCTGATGGTCTCCTCGAATACCCCGTGTACACGAAGCCGGCCAGCTGGCGCGAACGGGACGTTCCGGCCATCCTGCTGAGCGGCAATCACGGCAAAATCGCCCAATGGCGCCGCCACGAACAATACCGTCGGACGGCGGAACGCCGCCCGGACCTCCTGGAGACGTTCGACGCCGGAAAGCTGCCCCGCGCAGACCGGATATTTCTCGCTGAGCTGGGTTACGACGTCGTGGACGGACGCCTCCGTCCCCGCCCTGGCTCCGGCAGTTAA	MRIDVVSIFPEYLAPLELSLIGKARQDGLLDLHVHDLRNFTTDKHRSVDDTPYGGGAGMVMKAEPWAQALASVAEARPAEGVGKPVLIVPSPAGERFTQALAHELAGEDQLIFACGRYEGIDERVIEWAEEHFTVRPMSLGDYVLNGGEVAVLAMVEAIGRLLPGVVGNPDSLVEESHSDGLLEYPVYTKPASWRERDVPAILLSGNHGKIAQWRRHEQYRRTAERRPDLLETFDAGKLPRADRIFLAELGYDVVDGRLRPRPGSGS	PGPT0007595_13	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
D1-29_02947	546	rimM	COG0806	Ribosome maturation factor RimM	ATGCAGCTTCAGGTGGCACGAATCGGCAAACCCCACGGCATCCGTGGGGAAGTGACGGTCCAGGTCTTGACTGACGCCCCGGCTGACCGGTTCGTGCCGGGAACCGAGTTCGTCGTGGAGCCCGCCTCCGTGGGCACGCTCACGGTGGAGAGCGCGCGCTGGAACAAGGACATCCTGCTGCTGGCATTCGACGGGATCGAAACCCGGAACCAGGCGGAAACCCTCCGCGGCGCCAAGCTCTTCATCGAGACCGAAGAATTGGACGAGGACGACGACGAAGGCTGGTACGAGCATGAACTTGTCGGACTGGAAGCGCGTGTAGGCTCCCGCGTGGTGGGAAAGGTCTCCGGCCTGCACACCATGCCCGTGCAGGATCTTCTGGTGGTCGAAACACCCGACGGCAAGGAGGTCCTCATCCCGTTTGTTGAGCAGATTGTCCCCGAGGTCAACGTCACCGAAGGATTCGTCCTGGTGACTCCGCCGGAAGGGCTCTTCGACGTCAACGCCGAGGACACCGAAGGCCGCGCGCCGGGGGAAAACGGCTAG	MQLQVARIGKPHGIRGEVTVQVLTDAPADRFVPGTEFVVEPASVGTLTVESARWNKDILLLAFDGIETRNQAETLRGAKLFIETEELDEDDDEGWYEHELVGLEARVGSRVVGKVSGLHTMPVQDLLVVETPDGKEVLIPFVEQIVPEVNVTEGFVLVTPPEGLFDVNAEDTEGRAPGENG				NA	NA	NA	NA	NA
D1-29_02948	243			hypothetical protein	TTGCTGGCAGAAGCGCTCGAACACCTGGTCCGCGGAATCGTTGATTCCCCGGAGGACGTCAAGGTCAGCTCGAAGAACAACCGCCGCGGGGACACCCTCGAGGTACGCGTTCATCAGGATGACCTCGGACGGGTGATCGGCCGCCAGGGCCGCACGGCACGCGCATTGCGCACCGTCGTGGCGGCATTGGCAGGCGGCGAACCGGTCAGGGTCGACGTCGTCGATACCGACCGCCGCCGCTAG	MLAEALEHLVRGIVDSPEDVKVSSKNNRRGDTLEVRVHQDDLGRVIGRQGRTARALRTVVAALAGGEPVRVDVVDTDRRR				NA	NA	NA	NA	NA
D1-29_02949	414			hypothetical protein	GTGGCCGTAAAGATTCGCCTTAAGCGCTTTGGCAAAATGCGCGCACCGTACTACCGCATCGTCGTCATGGACGCACGCTCCAAGCGTGATGGACGTGCCATCGAAGAAATCGGCAAGTACCACCCCACCGAAGAGCCCTCATACATCGAGGTCGACACGGACCGTGCCCAGTACTGGCTCGGCGTCGGCGCACAGCCGTCCGAGCAGGTTGCCGCGATCCTCAAGATCACCGGTGACTGGCAGAAGTTCAAGGGCCTGCCGGGCCAGGAGGGCACCTTGAAGACCAAGGTCGCCAAGCCTGCCTTCGTTACCCCTGAAAAGGGTTCTGTGATCATCCCGGAAGCCATCACCAAGAAGGCTAAGAAGGACGAAGCCCCGGCCGAGGCCGAAGCAGAGACCACCGAGGCTGAGTAG	MAVKIRLKRFGKMRAPYYRIVVMDARSKRDGRAIEEIGKYHPTEEPSYIEVDTDRAQYWLGVGAQPSEQVAAILKITGDWQKFKGLPGQEGTLKTKVAKPAFVTPEKGSVIIPEAITKKAKKDEAPAEAEAETTEAE				NA	NA	NA	NA	NA
D1-29_02950	450			hypothetical protein	ATGGGCTTTACCGAACTGTTTGTGGCAACCCACGACGCCGCGCTTAAGCGCGCGCGCGACCTGGACGAGCGGGGCGCCTCCACGGGTTCGCCCTCCGGGCAGGGCCTGCGGATTCCCGACATCAGCGATTTCGAAATCGAACAGCTGGGCGATCTCGCCGGAGCCGCCGTGCATGCCGGAGGGGCGGACTACGAACTGGCCATGGTGGACGTAGCCAGTGACTCGCTGCTGGGGGTTCCGCCGGCGATGGTACGGGCGCTCGCGGATCTGCTTAGTTACGAGACCGAAGGCGAGGGCAACGTCCTGGACGACGTCGCCGAAAAATGGGCGGCCCAGGACGACATGCCGTTCGGGGCCGACGACGCCCGCAAGTACGTTCAGCAGCTTGCCGAGCTGGCCAGCGGAATCGACGACACGGACCGCACCGGACTGTACGTCTGGTCCTCCTGA	MGFTELFVATHDAALKRARDLDERGASTGSPSGQGLRIPDISDFEIEQLGDLAGAAVHAGGADYELAMVDVASDSLLGVPPAMVRALADLLSYETEGEGNVLDDVAEKWAAQDDMPFGADDARKYVQQLAELASGIDDTDRTGLYVWSS				NA	NA	NA	NA	NA
D1-29_02951	876	catE	COG2514	Catechol-2,3-dioxygenase	ATGACTGCAGAAGCCGCCAGCCAGGATCTTCTTCCTGCCAGCCTCACCATGGGCACCGTGATGCTCAAAGTGGGCGACATGAAACTCATGACCGACTACTACCAGCGTGCCCTCGGGCTTGAGGTGGTGGCCGAACAGGACGGCGGCCTTTACCTGGGCCGGCTCGGCAAGCCGCTGGTGCACCTCGCCCCCGCACCAGGCTTGAATCTTCCGGGCAGGGGAGAGGCCGGCCTGTTCCACACAGCGCTGCTCTTCGATGACCAGCCTTCGCTCGCTGCCACCGTGGCCACGGTGGCGCAGTATGACCCCCGGTCCTTCACCGGCAGCGCCGACCACCTGGTCAGTGAGGCCTTCTACTTCAACGACCCCGAAGGCAACGGCATCGAGCTTTACTGGGACCGCCCGCGTGAGCGGTGGTCCTGGAACGGCAAGGACGTGGTGATGGACAGCCTCGCCCTGCCGCCGCAGCGGTACCTGCAGGAGCACCTGACCCAGGAGTCAGTGGACAGCCAGCTGGGCGCCGCGGCGGGCGTGGGCCATGTCCACCTCCAGGTGGGGGACGTCCAGACGGCCCACAACTTCTACGTTGGTACCCTCGGATTTGAAAAGACCGCGGGCTGGCACGGCCAGGCACTGTTTGTCTCCGCCGGCCGCTACCACCATCACATGGCCATGAACGTGTGGAACAGCCGTGGCGCCGGTCCCCGGCGGGACACGCTGGGCCTGGGCGAAGTGCTGATCGAAGTCCCCGCAGGTGACGACGTCGGCGCCCTCGCCGACCGTCTCAAGGTTGCCGGAGTCGCCGCCCACCACACGGGCGCGGAGCTGCGCTTTGAGGACCCGTGGCGCAACAGGATCCGCGTCGGCGTCCGCTGA	MTAEAASQDLLPASLTMGTVMLKVGDMKLMTDYYQRALGLEVVAEQDGGLYLGRLGKPLVHLAPAPGLNLPGRGEAGLFHTALLFDDQPSLAATVATVAQYDPRSFTGSADHLVSEAFYFNDPEGNGIELYWDRPRERWSWNGKDVVMDSLALPPQRYLQEHLTQESVDSQLGAAAGVGHVHLQVGDVQTAHNFYVGTLGFEKTAGWHGQALFVSAGRYHHHMAMNVWNSRGAGPRRDTLGLGEVLIEVPAGDDVGALADRLKVAGVAAHHTGAELRFEDPWRNRIRVGVR	PGPT0005050_292	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
D1-29_02952	1083		COG1228	putative protein	ATGGCCGGAGTCATTGAATTCAGTGGAACCGTTCTCACCGGACCGCACCAGGAACGCCACGGATTGTGGTCGGTGGATGGCAGGCTGACCTTCCACCGTCCCCAGAGAGTTCCGGACACGGTCCGGCCAGGCTGGGTGCTTCCAGGGTTTGTGGACGCGCACTGCCATATCGGCTTGGGCGGGGGCGGTGCCGTGGCGGACGAAGTTGCCGAAGAACAGGCCCGCACCGACCGCGACGCCGGGACACTCCTGCTGAGGGATGCCGGCACCGTCAGTGATACGCGCTGGCTGCAGGGAAAGCCCGGCATGCCCAGGATTGTCCGGGCGGGCCGCCACATCGCACGGACAGGCCGCTATCTGCGGAACTTCGCCGTCGAAGTGGAGCCAGAAGGGCTTGCAGAGGCGGTCCGCAAGCAGGCCCGTGCCGGCGATGGCTGGGTCAAGCTGGTGGCGGACTGGATCGACCGTGGTGCAGGTGACCTGGCGGCGTCGTTCCCTCCCGCCGTCGTCAAACTTGCCGTTCAGGCGGCGCACGAGGAGGGCGCCCGGGTGACAGCACACTGCTTCGCGGAAGAGACCCTGGACCACCTGCTGGATGCAGGGATCGACTGCATCGAGCATGCCACCGGGCTCCTGCCAAGGCACCTCCCCAGGTTGGTTGAACAGGGCGTCCCCATCGTGCCGACGCTCATCAACATCGCCACCTTCCCGGGGATCGCTGACCAGGCTGAAGCAAAGTTTCCGCAGTATTCCGCCCACATGCGGGCCCTCTGGGAGCGAAGGGCAGAACGGGTCCTTGAAGCGTTCGAGGCCGGGGTCCGGATTTATGCGGGCACGGACGCCGGAAGCGTCATCAGGCACGGACGGATCGCGGACGAGATCCTGGCGCTCCATGCAGCGGGACTTCCCATGGCTTCCGCCCTCGACGCCGCCTGCTGGAGTGCCCGGACCTGGCTGGGGGCGAACGGTATTTCGGAGGGCGCGCCTGCGGACGTTGTGCTCTGCCGGGAGGATCCGCGGACCATGCCGGAAACTGTTGCCAGGCTCCAGAATGTGGTGCTGGGCGGGCATCTTATCCGCTGA	MAGVIEFSGTVLTGPHQERHGLWSVDGRLTFHRPQRVPDTVRPGWVLPGFVDAHCHIGLGGGGAVADEVAEEQARTDRDAGTLLLRDAGTVSDTRWLQGKPGMPRIVRAGRHIARTGRYLRNFAVEVEPEGLAEAVRKQARAGDGWVKLVADWIDRGAGDLAASFPPAVVKLAVQAAHEEGARVTAHCFAEETLDHLLDAGIDCIEHATGLLPRHLPRLVEQGVPIVPTLINIATFPGIADQAEAKFPQYSAHMRALWERRAERVLEAFEAGVRIYAGTDAGSVIRHGRIADEILALHAAGLPMASALDAACWSARTWLGANGISEGAPADVVLCREDPRTMPETVARLQNVVLGGHLIR				NA	NA	NA	NA	NA
D1-29_02953	501			hypothetical protein	GTGACTGACTCGAATGAGGCACACCGGATCAGGCCTGCGGAGCCAGATGATCTGGGTTGCTTGCCACAGCTGGAAGCCGCGGCCGATGCACAGCTTCAGGACGCGCTGGGCGGAGTTCTGCTTCCGGCGCCGCAGCCAACCCCGGCCGTTGTTTCGCTGTTTGTCCTAGTAGCGGGACGTCCGCCGGTTGGATTTGCCCGCATCGATATGGTGGATGGCCTGGCTCATCTCGAGCAGCTTTCGGTCCACCCGGCGGCTGGCAGGCGGGGCCTCGGCAGGGCATTGCTTGAAGCCGCCGCGGCTGAAGCACGGCGCCGGGGGTTCACGGCGATGACGCTGTGTACCTTCACTGACGTTCCCTTCAATGCCCCGTTCTACGCCAAGTGCGGCTTCATCGAATATCCTGCTCCAGGGCCCGGCCTTGCCGCTCTCCGGGCCCACGAAAAGCGACTCGGGCTTGACGCCCTGGGTCCGCGGCTCACCATGAGGAGGGAACTCTAG	MTDSNEAHRIRPAEPDDLGCLPQLEAAADAQLQDALGGVLLPAPQPTPAVVSLFVLVAGRPPVGFARIDMVDGLAHLEQLSVHPAAGRRGLGRALLEAAAAEARRRGFTAMTLCTFTDVPFNAPFYAKCGFIEYPAPGPGLAALRAHEKRLGLDALGPRLTMRREL				NA	NA	NA	NA	NA
D1-29_02955	1899	thiC	COG0422	Phosphomethylpyrimidine synthase	ATGCCGGCGAAGGAAGTGAGTATTCCCGTGAATACGCAAGAAAAACTGCTGCCCCCTGCCCAAAACGAAACGGCCGGCCCCAAAACCGGCACGAAAGAGGGAGACCAATCCCGGCACGCTGACACGCAGTCGCTGAAGTCGCATTCGCTGGCTTTCATCAAGGACGAAGCCTCGGGAATCCAGGTTCCCGTGACGGAGATTGCCTTGGAGCCCTCCCCTAACGGCCAGGCGAACAGTCCGTTCAGGATCTACCGGACCGCCGGCCCGGGCAGCGATCCGGTGGTTGGCCTGGCGCCGTTCCGCTCCCCCTGGATCAGCGAACGGGGCGACACCGAGCCGTACAGCGGCCGGGAGCGGAACCTGCTCGACGACGGCCGTTCAGCCGTCCGCCGCGGAGCAGCTTCAGCGGAGTGGAAGGGAGCGCAGCCCGAGCCCCGCCGCGCCGTCGCCGGCCGGACGGTGACCCAGATGCATTATGCAAAACAGGGCACCATCACTCCGGAGATGCGGTTCATCGCCCTCCGCGAGAACTGCGATGTGGAGCTGGTGCGCAGCGAGGTTGCGGCCGGACGCGCGATTATCCCGAACAACATCAACCATCCGGAGTCCGAGCCGATGATCATCGGCAAGGCCTTCCTGGTGAAAATCAACGCCAACATCGGCAATTCCGCTGTCACCAGTTCCATCGCTGAGGAGGTGGACAAGCTGCAATGGGCCACCCAGTGGGGCGCAGACACCGTGATGGACCTGTCCACCGGGGATGACATCCACACCACCCGTGAATGGATCATCCGCAACTCTCCGGTTCCGATCGGCACGGTGCCGATTTACCAGGCGCTGGAGAAGGTCAACGGTGAAGCGAATGCACTGACGTGGGAGATCTTCCGCGACACCGTCATCGAGCAGTGCGAACAGGGGGTGGACTACATGACCATCCACGCCGGGGTTCTGCTGCGGTACGTTCCCCTGACCGCCAACCGCGTGACAGGGATTGTGTCCCGCGGCGGTGCCATCATGGCGGGCTGGTGCCTGGCACACCATCAGGAGAACTTCCTCTACACCCACTTTGACGAGCTCTGTGAGATTTTCGCGAAGTACGACGTCGCGTTCTCCCTGGGCGACGGCCTGCGGCCGGGAGCGACGGCGGACGCCAACGACGCGGCGCAGTTTGCCGAACTGGACACCCTGGCGGAGCTGACCCAGCGGGCCTGGGAGTTCGATGTGCAGGTGATGGTGGAGGGCCCCGGCCACGTGCCGTTCCACCTGGTCCGCGAGAACGTGGAACGCCAGCAGGAACTCTGCAACGGTGCGCCGTTCTATACCCTTGGCCCCTTGGTCACTGACGTTGCCCCGGGCTATGACCACATCACCTCAGCCATCGGGGCCACGGAAATTGCCCGCTACGGAACGGCAATGCTCTGCTACGTCACACCCAAGGAGCACCTGGGACTGCCGAACAAGGACGACGTCAAGACCGGCGTGATCACCTACAAGATCGCCGCCCACGCGGCAGACCTCGCCAAAGGGCACCCCGGCGCCCACGAACGGGACGATGCCCTGTCCAAAGCCAGGTTCGAGTTCCGTTGGCGTGATCAGTTTGCACTGTCGCTGGACCCCGTCACGGCGGAGGCTTTCCATGACGAGACCCTGCCGGCTGAACCGGCCAAAACGGCACACTTCTGCTCCATGTGCGGCCCCAAGTTCTGTTCCATGAGGATCAGCCAGGACATTCGGGATGAATACGGCAGCAGTGACTATGCTTCCGGCGACTCCCCGGACACCCCGCAGGCGGAGGCCGCGATTGCTGCCGGAATGCGGGAAAAGAGCCAGGAGCTCCTCGCCGCCGGAGGCAAGGTGTACCTGCCTGAGCTGCGGCTCCCCGAAAGCGCCCGCCACTAG	MPAKEVSIPVNTQEKLLPPAQNETAGPKTGTKEGDQSRHADTQSLKSHSLAFIKDEASGIQVPVTEIALEPSPNGQANSPFRIYRTAGPGSDPVVGLAPFRSPWISERGDTEPYSGRERNLLDDGRSAVRRGAASAEWKGAQPEPRRAVAGRTVTQMHYAKQGTITPEMRFIALRENCDVELVRSEVAAGRAIIPNNINHPESEPMIIGKAFLVKINANIGNSAVTSSIAEEVDKLQWATQWGADTVMDLSTGDDIHTTREWIIRNSPVPIGTVPIYQALEKVNGEANALTWEIFRDTVIEQCEQGVDYMTIHAGVLLRYVPLTANRVTGIVSRGGAIMAGWCLAHHQENFLYTHFDELCEIFAKYDVAFSLGDGLRPGATADANDAAQFAELDTLAELTQRAWEFDVQVMVEGPGHVPFHLVRENVERQQELCNGAPFYTLGPLVTDVAPGYDHITSAIGATEIARYGTAMLCYVTPKEHLGLPNKDDVKTGVITYKIAAHAADLAKGHPGAHERDDALSKARFEFRWRDQFALSLDPVTAEAFHDETLPAEPAKTAHFCSMCGPKFCSMRISQDIRDEYGSSDYASGDSPDTPQAEAAIAAGMREKSQELLAAGGKVYLPELRLPESARH	PGPT0008905_1943	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
D1-29_02956	735			hypothetical protein	ATGTTCAAGCAGAGGGTAGTGTTCGTCCACGGCGCCGGAAGCTTCGGCGCGGCGGCATGGCCCCGCCAGCACGGCATGGCACTGACCTATGACGCCCTGTTCCTCCGCCGGCACGGATTCGATCCCGTGGCCGAACCTGTTGAATCGTCCTTCACAGCCGATGCCGCCATTGTCCTGCGCTCCCTGGCTGATGACGGCCGGGGCGCTGCCGGCGGCCACGTTGTGGCGCATGCCCAGGGCGCCATTTCAGCCATGCTGGCCGCCGTCGAACGCCCGGACCTGGTGTTATCGCTGACCCTCGTGGAGCCCGCCTGCCTGTCCCTCACCGCCGAACTGCCCGCCACTGCGGCACACCGCGAACTGATGCAGCCGCTCTTTGATGTCCGCCACCAGCTTGGGGATGAGGACTTCCAGCGGGAGTTCGTCCGGCGGGTGTACGCGGCGGATCTGCAGGAGCCTGCCACCGTGGAGGAAAAACGGTCGGCGCGCCGGCTCCGGCTGCAGGCCCCGGCCTGGGAAGCTCCGCTGCAGATTGTTCCCGGTGTTCCCACGCTGGTCCTGACCGGCGGCTGGGAACCCCTCTACGAAGAAATCGCCAGGTACCTCAGGGAGACCGGCGCCCTGCACCGCCATGCCGCGGGCGGGCACCGGCCACAGGATTCCGCCGAGGGTGACCACTGCATCCGTTCGTTCATTGCCGAGGCGAGCCGGCGCCTGCAGCCCCGGGCGTCTTAA	MFKQRVVFVHGAGSFGAAAWPRQHGMALTYDALFLRRHGFDPVAEPVESSFTADAAIVLRSLADDGRGAAGGHVVAHAQGAISAMLAAVERPDLVLSLTLVEPACLSLTAELPATAAHRELMQPLFDVRHQLGDEDFQREFVRRVYAADLQEPATVEEKRSARRLRLQAPAWEAPLQIVPGVPTLVLTGGWEPLYEEIARYLRETGALHRHAAGGHRPQDSAEGDHCIRSFIAEASRRLQPRAS				NA	NA	NA	NA	NA
D1-29_02957	1581	ffh	COG0541	Signal recognition particle protein	GTGTTCAATTCACTCTCTGACCGGTTGACAGCAACCTTCAAGAATCTCCGTGGCAAGGGCCGCCTCACCGAGGCCGATGTCGACGCCACAGTTCGCGAGATCCGCCGCGCCCTCCTGGATGCCGACGTTGCCGTTCCGGTGGTGCGTGAATTCACCGGCCGGGTACGGGAACGCGCCCTGGGTGCAGAGGTTTCCGGGGCCCTGAACCCCAGCCAGCAGATCGTCAAGATCGTTAATGAGGAACTCGTTGAGATCCTCGGCGGCGAGACCCGCCGCATCCGGCTGGCCAAGAACGGGCCCACCATCATCATGCTCGCCGGCCTCCAGGGCGCCGGCAAGACCACCCTTGCCGGCAAGCTGTCCAAGTGGCTGAAGTCCCAGGGACACAGCCCCATCCTCGTGGCCTGCGACCTCCAGCGCCCCAATGCCGTCACCCAGCTCCAGGTAGTGGGCAAGCGCGCCGGCGTGCCGGTCTTCGCCCCGCACCCCGGCGCCACGTCCGAACTCGAGCATCCCGCGGGCGATCCTGTCGCCGTCGCCCGTGCAGGTGTTGAGGAAGCACGCCAGAAGCTGCACGACGTCGTGATCGTGGACACCGCCGGCCGTCTCGGTGTGGATGCCGAGATGATGGAGCAGGCGCGCCAGATCCGCAAGGCAATCGTCCCCAACGAAGTACTCTTCGTCATCGACGCCATGATCGGCCAGGACGCGGTCAACACCGCGATGGCCTTCGATGAAGGCGTCAACTTCACCGGCGTTGTGCTGTCAAAGCTCGACGGCGACGCCCGCGGCGGTGCCGCGCTCTCCGTTGCGTCCGTGACCGGCAAGCCCGTGATGTTTGCGTCCACCGGCGAAGGCGTGGACGACTTCGAACTCTTCCACCCGGACCGGATGGCCTCACGCATCCTGGACATGGGCGACGTCCTGACGCTCATCGAGCAGGCCGAGAAGTCCTGGGACAAGGACGAAGCCGCCCGGATGGCGAAGAAGTTCGCCGACCAGGAGGACTTCACCCTTGATGACTTCCTGGCCCAGATGCAGCAGATCCGCAACATGGGCTCCATGAAGAAGATGCTGATGATGATGCCTGGTGCGCAGAACATCCGCCAGCAGCTTGAGCAGTTCGACGAACGCGAGATCGACCGGGTCGAGGCCATCGTCCGCTCCATGACGCCGCACGAGCGCGTCGCCCCGAAGATCATCAACGGCTCCCGCCGCGCCCGCATCGCCCGCGGTTCGGGTGTGCATGTTTCAGAGGTCAACGGCCTCCTGGAACGCTTCGCCCAGGCCCAGAAGATGATGAAGAAGATGGCACAGGGCGGCGGCATGCCCGGAATGCCCGGTATGCCGGGAATGGGCGGTCCGGGCGGCGGCAAGAAGGCTGTCAAGAACGCACCGAAGAAGAAAGCCCGCTCCGGAAACCCGGCCAAGGCAGCCCAGGAACTCCGGGAAGCTGAAGCACGCCGGGCAGGTGCGGCGAAGGCGCTTCCCACCGGTGCGGCGTTCGGCCAGCAGTCCGGGGACTTCGATCCGTCCCAGCTCAACCTGCCCAAGGGCTTCGACAAGTTCCTCGGCAAGTAA	MFNSLSDRLTATFKNLRGKGRLTEADVDATVREIRRALLDADVAVPVVREFTGRVRERALGAEVSGALNPSQQIVKIVNEELVEILGGETRRIRLAKNGPTIIMLAGLQGAGKTTLAGKLSKWLKSQGHSPILVACDLQRPNAVTQLQVVGKRAGVPVFAPHPGATSELEHPAGDPVAVARAGVEEARQKLHDVVIVDTAGRLGVDAEMMEQARQIRKAIVPNEVLFVIDAMIGQDAVNTAMAFDEGVNFTGVVLSKLDGDARGGAALSVASVTGKPVMFASTGEGVDDFELFHPDRMASRILDMGDVLTLIEQAEKSWDKDEAARMAKKFADQEDFTLDDFLAQMQQIRNMGSMKKMLMMMPGAQNIRQQLEQFDEREIDRVEAIVRSMTPHERVAPKIINGSRRARIARGSGVHVSEVNGLLERFAQAQKMMKKMAQGGGMPGMPGMPGMGGPGGGKKAVKNAPKKKARSGNPAKAAQELREAEARRAGAAKALPTGAAFGQQSGDFDPSQLNLPKGFDKFLGK	PGPT0025750_564	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025750-ffh-K03106	NA	NA
D1-29_02958	1407	zwf	COG0364	Glucose-6-phosphate 1-dehydrogenase	GTGACGAGCCAAACAACTGTAAAAACCCTGCTCATCCTCGGCGCTTCAGGCGACCTGACCGGAAGGCTGCTCCTGCCCGGCCTCGCCCGCCTGCTGGCGAGCGGCCGTGCCGGAGGCCTGAACCTGGTGGGGGCCGGCTCCGACCCCTGGACTCCGGAACAGTGGCGGGACCGGGTCCACAACGCCTTCGCGGAGGCAGCGGGGTCCGCGGACGAGGCGGGGCAGAGGGCCCTGGCGGCCATCGAGAAAGAAACCACCTACCACCAGGTGGACGTCACCGCGGAGGGTCCGCTGGCCTCGCTGGTGGCGGGCCTGGACGGTCCCGCCGCAGTTTACTTCGCCCTGCCGCCGCGGGTCAGCCAGCTTGCCTGCGAGGCGCTGCGGCGCGGCGGCCGGCTGCCGGCAGGCACGCGCCTGGTCATGGAGAAGCCCTTCGGATCGGGTGAGGCATCGGCCCGTTCCCTCAACGAGACCCTGGCGTCCCTGGTGCCTGAAGACCACATCCACCGGGTGGACCACTTCCTGGGCAAAGCCACGGTGCTCAACATTCTGGGCCTTCGGTTTGCCAACAACTTCCTGGAGCCGGTCTGGAACAGGGAGCACGTAGAGAAGGTGGAAATCATCTTCGACGAAGACCTGGCCCTCGAAGGACGCGCCCGTTACTACGACGGCGCCGGGGCCTTGAGGGACATGATCCAGAGCCATCTCCTGCAAATCATGGCACTGATGGCCATTGAACCGCCGGCCACCATCGGCGAGCGGGACCTGCGGGACGCCATCTCCACCGTGCTCCGCGCCAGCAGTATCAGCGCCCCCTACGCAAAATCCACCCGCCGGGCAAGGTACACGGCGGGCACTGTCTCGGGGCGGAAAATCCCCGATTACGCCGACGAAGAGGGTGTGGACGCGGCCAGGGGCACCGAGACCCTGGCCGAAGTCCAGGTGGAAATCAACAACTGGCGCTGGAAAGGCGTTTCCTTCATCCTGCGCTCCGGGAAAGCCCTGGGCCGGAAGCGCAAGGAGGCAGTGGTCACCTTCCGCCCGGTCCCCCACCTGCCGGCCGGGTTCACGGGCGTGGACTCGCCCAACCAGCTGCGAATCGGCTTCGGCCCGGACACGCTGCAGTTCGACGTCGATGTGAACGGCCCCGGCGACATTTTCAGCCTGGGCCGCACCACCCTCAATGCCGAGCTCAGCGCCTCCGATCTCCTCCCCTATGGCGAAGTGCTGGAGGGCGTGCTGAGTGGAGACCCGCTGCTGTCCGTCCGCGGTGACACCGCAGAGGACTGCTGGCGGATCGTTGAGCCCGTCCTGAAGGCCTGGTCGCGGGGCACGGTACCGCTGGAGGAGTACGACGCCGGGTCCGCGGGGCCGGCGGGCTGGTCAGGTTCAGCAGAACAGGACTGA	MTSQTTVKTLLILGASGDLTGRLLLPGLARLLASGRAGGLNLVGAGSDPWTPEQWRDRVHNAFAEAAGSADEAGQRALAAIEKETTYHQVDVTAEGPLASLVAGLDGPAAVYFALPPRVSQLACEALRRGGRLPAGTRLVMEKPFGSGEASARSLNETLASLVPEDHIHRVDHFLGKATVLNILGLRFANNFLEPVWNREHVEKVEIIFDEDLALEGRARYYDGAGALRDMIQSHLLQIMALMAIEPPATIGERDLRDAISTVLRASSISAPYAKSTRRARYTAGTVSGRKIPDYADEEGVDAARGTETLAEVQVEINNWRWKGVSFILRSGKALGRKRKEAVVTFRPVPHLPAGFTGVDSPNQLRIGFGPDTLQFDVDVNGPGDIFSLGRTTLNAELSASDLLPYGEVLEGVLSGDPLLSVRGDTAEDCWRIVEPVLKAWSRGTVPLEEYDAGSAGPAGWSGSAEQD	PGPT0017380_5264	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
D1-29_02959	339	glnB	COG0347	Nitrogen regulatory protein P-II	ATGAAACTGATCACAGCAATCGTCAGGCCGGAGAAGCTCGAAGCCATCCGGGAAGGCCTGGAGGCATACGGCGTCCAGGGACTGACGGTCAGCGCGGCCAGCGGCTACGGCAGGCAGCGCGGCTACACGGAGGTTTACCGTGGAGCTGAATACAACGTGGACCTCCTGCCCAAGATCCGGGTCGAGGTGCTGGCCACCGACGAGCAGGCCGATGACATCCTGGATGTGATTATCGCCAGCTCCAACACCGGGCGTGCCGGCGACGGCAAGGTCTGGACCGTGGATGTTTTCGAAGCAGTGAGGGTGCGTACGGGAGAACGCGGCACCGCCGCCATCTAG	MKLITAIVRPEKLEAIREGLEAYGVQGLTVSAASGYGRQRGYTEVYRGAEYNVDLLPKIRVEVLATDEQADDILDVIIASSNTGRAGDGKVWTVDVFEAVRVRTGERGTAAI	PGPT0000650_716	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000650-glnB|glnY-K04751	NA	NA
D1-29_02960	1365	amt_1		Ammonia channel	ATGGAACTTACCGCAGGTCACGTATGGCTCATGGTGGCGGCGGCACTCGTGCTGTTCATGACACCGGGTCTGGCATTTTTCTACGGCGGCATGACGCGCGCCAAAGCGGCACTGAACATGATGATGATGAGCTTCATCTCCATCGGCATCGTGAGTGTTGTCTGGGTGCTCTGGGGTTACTCCATGACTGGCGGTGAAGGCTTCCTGCAGATGGTCGGGAACCCCTTCGCGAGCTTCGGCCTTGAGGGCGTCAACACGGCAGAGTCGCCGGAAGGCCTCATCCTTGTGGGCTACGGCGCAACCTTCGCCATCATCACCGTGGCCCTCATCAGCGGTGCCATCGCGGACCGCGCCAAGTTCGGCGCCTGGACCGTGTTCGTGCCGGTATGGGTAACACTTGTCTACTGCCCGCTGGCCTACATGGTCTGGGGCGGCGGCCTCTTCGGTGCGGAAGGCGCTATCGGCCAGGCCCTCGGCCCGGCCATCGACTTCGCCGGCGGTACCGTGGTCCACATCAACGCTGGTGTGGCCGCGCTGATCCTCGTCCTGATCATTGGCAACCGTAAGGGCTTCGGCAAGGACCCGAACCACCGCCCGCACAACATCCCGTTCGTCATGCTCGGCGCGGCCATCCTCTGGTTCGGCTGGTTCGGCTTCAACGGCGGCCTGGCCGCTACCGCTGAGCAGGGTGGCCTGATCTGGGTCAACACCCTCGCAGCACCTGCCGCAGCCATGATCGGCTGGCTCATTACCGAACGAATCCGCGACGGCCACCCGACGTCCCTGGGCGCAGCCTCAGGTGTGGTCGCCGGTTTGGTTGCCATCACCCCCGCCTGTGCAAACGTCAGCCCCCTGGGTGCCCTCGGTCTGGGCCTCATCGCCGGTGCAGCATCGGCCCTCGCAGTCGGACTCAAGTTCCGCTGGGGCTTCGATGACTCCCTGGACGTTGTGGGTGTCCACCTTGTGTCCGGCATCATCGGCACCGTAGCCCTTGGCTTCATCGCACTGCCTGAGGAAGGCGTCGGCGGCGGCCTCTTCTACGGCGGCGGCTTCACCCAGCTCTGGGCCCAGCTCGCAGCAGCCGGCATCGCCATCGCGTACTCTGCGATCCTGACGGCCCTGATCGCCTACGCCATCCACAAGACCATGGGCTTCCGCGTTTCGCAGGAGCAGGAAGCGGTTGGCGTTGACCTTAGCCTGCACGCAGAGACCGCCTACGAGTTTGGTGTTGGCGGCCACGGCGGAAGCTTCCAGCCGCTGCACGAACTGATCACCGGCAAGGCACAAGAGGCCGCACCGTCTGAGGCCAAGACTGACGCCAACAAGACGGAGCCGGCAGCAGGCAAGGAAAGCGTGGGGGCATGA	MELTAGHVWLMVAAALVLFMTPGLAFFYGGMTRAKAALNMMMMSFISIGIVSVVWVLWGYSMTGGEGFLQMVGNPFASFGLEGVNTAESPEGLILVGYGATFAIITVALISGAIADRAKFGAWTVFVPVWVTLVYCPLAYMVWGGGLFGAEGAIGQALGPAIDFAGGTVVHINAGVAALILVLIIGNRKGFGKDPNHRPHNIPFVMLGAAILWFGWFGFNGGLAATAEQGGLIWVNTLAAPAAAMIGWLITERIRDGHPTSLGAASGVVAGLVAITPACANVSPLGALGLGLIAGAASALAVGLKFRWGFDDSLDVVGVHLVSGIIGTVALGFIALPEEGVGGGLFYGGGFTQLWAQLAAAGIAIAYSAILTALIAYAIHKTMGFRVSQEQEAVGVDLSLHAETAYEFGVGGHGGSFQPLHELITGKAQEAAPSEAKTDANKTEPAAGKESVGA	PGPT0000840_3203	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
D1-29_02961	1239	tetA		Tetracycline resistance protein, class B	ATGACTGCCACAGCCCGTGTGAGCGGCGCCACAGCGCGGATTTTCGCCATCCTGCGCCCGCAGCGGGCAAAGCTGCCGCGCGACATCAAGGTGATGCTGGTTGCAGCGTTCCTGATTGCCCTTGGATTCGGGCTTGTTGCACCCGTGTTGCCGCAATTCGCCACAACCTTTGATGTGGGTGCCACCGCAGCGGCGGTCATCGTGAGCATCTTTGCCATGATGCGCCTGGTGTTCGCGCCGGCCGGCGGGGCCCTGATCGGCCGGCTTGGCGAAAGGCCGGTCTACGTGGGCGGGCTGCTGATTGTGGCGGCTTCAACCGCGGCGTGCGCCTTTGCCCAGGACTACTGGCAGCTGCTGGTCTTCCGTGGCCTTGGCGGAGTGGGCTCGGTGATGTTTACCGTGGCCTCCATGGCGCTGGTGGTCCGGCTGGCTCCGCCTGAAAGCCGCGGCAGGGTGTCCGGGGCGTATGCGAGCGCCTTCCTGATCGGCAACGTGTGCGGTCCTATCGTGGGCGGCATGCTGGCAGGATTCGGCCTGCGCGTGCCTTTCCTGGCTTACGCGGCGGCCCTGGTGCTGGCGGCAGCCGTGGTCCAGACCCAGCTCAGCCACCGGCCCGCAGGTACCGGGGCTTCCGGGACCGGGGCGCCGGAGATGCGGTTCGGCGAGGCCCTGAGGGTGGGCGCCTACCGCTCGTCGCTGATCTCCAGCTTCGCCAACGGCTGGGCCACTTTTGGCGTGCGGATGGCCACGGTTCCGCTGTTTGCCGTTGCGGCGCTGGGGTCCGGCCCTGAAGCCGCCGGCCTGGCGCTGGCTGTGTTCGCGGCCGGCAACGCGGTAGCCCTGACGTTCTCCGGACGCCTGGCGGACAGCATGGGCCGCCGCCCCATGATGGTGTCAGGGCTGCTGGTCACCGGAATCTCCACAGCAGCCATCGGATTCACCTCTGACCTGGCGTACTTCCTGGCGGCCTCGGCTGTGGCCGGAATTGGCGCCGGCATCCTGGGTCCGGCGCAGCAGGCTGCCGTGGCCGACATCATCGGCTCCGAACGCTCGGGCGGGCGGGTGCTCGCTGCCTACCAGATGACTTCCGACATCGGCGCTATTGCCGGCCCTGTCCTGGCCGGCATTCTCGCGGACCAGTTGGGATACGGCTGGGCGTTCGGGGTGACCGGCGGCGTGCTGGTCCTTGCCGCTGCGGCGTGGACCGCCACACCGGAGACGCTGAAGCCCAAGCGCTGA	MTATARVSGATARIFAILRPQRAKLPRDIKVMLVAAFLIALGFGLVAPVLPQFATTFDVGATAAAVIVSIFAMMRLVFAPAGGALIGRLGERPVYVGGLLIVAASTAACAFAQDYWQLLVFRGLGGVGSVMFTVASMALVVRLAPPESRGRVSGAYASAFLIGNVCGPIVGGMLAGFGLRVPFLAYAAALVLAAAVVQTQLSHRPAGTGASGTGAPEMRFGEALRVGAYRSSLISSFANGWATFGVRMATVPLFAVAALGSGPEAAGLALAVFAAGNAVALTFSGRLADSMGRRPMMVSGLLVTGISTAAIGFTSDLAYFLAASAVAGIGAGILGPAQQAAVADIIGSERSGGRVLAAYQMTSDIGAIAGPVLAGILADQLGYGWAFGVTGGVLVLAAAAWTATPETLKPKR	PGPT0003185_140	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
D1-29_02962	1209	ftsY	COG0552	Signal recognition particle receptor FtsY	GTGAATGACATCCTCCCTATTATTCTGTCCATTGTTGCTGCCCTGGCGGTTCTTGGCGGGCTGATTCCTGTCCTGATGAAGACACGGAAGAACATCACCCAGTACCCCGGCACGCGCGACGCCAATGATCCCGCGACCCAGCAGGGCGGCGGCACGCTGCTGGAGGACGCGCCGCCGGCGACTGTCGAGCGCAAGGCGCCTGCCGGCGTCGACATTGAGGACCTGGAGACTGCTGACGTACCGGATGATGCAGCGGGCCTGGAAACCATCCAGGTTGAAACCCCCCTTCCGGTGGCCGGCCGGCTCACCCGCCTGCGCGAGCGGCTGGTCCGCTCCAACAACATCCTGGGCAAGGGACTCCTGGCCCTGCTGTCGAGCGACAAAATTGATGAAGACGTCTGGGACGAGGTGGAGGAGACGCTGCTGCTGGCGGATCTGGGAACCGAACCCACCATGCAGCTGGTCGACGCCCTGCGGGAGCGCGTGAAGGTGCTGGGCACCCGGACCCCCGAGCAGGTCAAGGCGCTGCTTCGAGAAGAGCTGATCAAGCTCGTGGATCCCACCATGGACCGCCGGCTGCACATTGACCGGCACGCCGCGACGCCCGCAGTCATGATGGTGGTGGGTGTTAACGGGGTTGGCAAAACAACCACCGTAGGCAAGCTCGCCCGCGTCCTGGTGGCTGAGGACAAGGACGTCCTCCTGGGCGCGGCGGACACCTTCCGCGCCGCCGCCGCCGAACAGTTGGCAACGTGGGGCCAGCGCGTCGGGGTCCCGACGGTGAAGTCCGACGTCGATGGCGCCGATCCGGCCTCTGTCGCCTATGAGGCTGTTAAGGCAGGCATCGAGCAGGAAGTCGACGTGGTGATGATCGACACCGCCGGCCGCCTGCAGAACAAGGTGGGCCTGATGGACGAGCTTGGCAAGGTCAAGCGGGTCATCGAAAAGCTCGCCGAAGTGGACGAGGTGCTGCTCGTTCTGGACGCCACCACAGGCCAGAACGGACTGAACCAGGCGCGTGTGTTCTCCGAGGTGGTCAACATCACTGGCATTGTGCTGACCAAGCTGGATGGCACGGCCAAGGGCGGAATCGTTGTTGCCATCCAGAACTCGCTGGGCGTTCCGGTGAAGCTGATTGGCCTGGGCGAGGGCGCCGACGACCTCGCTCCCTTCGAGGCGGAAAGCTTTGTGGACGCGCTGCTGAACTGA	MNDILPIILSIVAALAVLGGLIPVLMKTRKNITQYPGTRDANDPATQQGGGTLLEDAPPATVERKAPAGVDIEDLETADVPDDAAGLETIQVETPLPVAGRLTRLRERLVRSNNILGKGLLALLSSDKIDEDVWDEVEETLLLADLGTEPTMQLVDALRERVKVLGTRTPEQVKALLREELIKLVDPTMDRRLHIDRHAATPAVMMVVGVNGVGKTTTVGKLARVLVAEDKDVLLGAADTFRAAAAEQLATWGQRVGVPTVKSDVDGADPASVAYEAVKAGIEQEVDVVMIDTAGRLQNKVGLMDELGKVKRVIEKLAEVDEVLLVLDATTGQNGLNQARVFSEVVNITGIVLTKLDGTAKGGIVVAIQNSLGVPVKLIGLGEGADDLAPFEAESFVDALLN	PGPT0025740_2269	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110	NA	NA
D1-29_02963	3621	smc_2	COG1196	Chromosome partition protein Smc	TTGCACCTCAAAAGCCTGACTGTCCGGGGGTTCAAGTCGTTTGCGTCCGCCACGACCTTCGACTTCGAACCCGGCGTCACCGCTGTGGTGGGACCCAACGGCTCAGGGAAGTCCAATGTAGTGGACGCCCTGTCCTGGGTGATGGGGGAGCAGGGGGCAAAGACTCTCCGCGGCGGCAAGATGGAAGACGTCATTTTCGCCGGGACGTCCGGACGCCCGCCCCTTGGCCGGGCCCATGTCTCGCTGACCATCGACAACACCGACGGCGCGCTTCCCATCGAATACAGCGAGGTCACCATCTCGCGCACCCTCTTCCGCACCGGCGGCTCGGAATACGCCATCAACGGGGCCAGCTGCCGGCTGCTGGATATCCAGGAACTGTTGTCCGATTCGGGGCTGGGCCGGGAGATGCACGTCATTGTTGGCCAGGGCCAGCTGGACAAGGTGCTCCATGCCACTCCGGAGGACCGCCGCGGATTCATCGAGGAAGCCGCCGGGATCCTCAAGCACCGGCGGCGCAAGGAAAAGACCGTCCGGAAACTGGAGGCGATGCAGGCCAACCTGCAGCGGCTCAGCGATCTCACCGGGGAAATCAGGCGCCAGCTCACTCCACTGGGAAAACAGGCGGAGGTGGCGCGCCGCGCCCAGCGGGTGCAGTTCGACGTGCGGGATGCCCGGGCCCGGCTTTTGGCCGATGACCTTGTCCAGCTGCAGGGTGCCCTTGACCAGGACGTGGCGGATGAGGCTGCGCTAAAGGCGCGCCGGGGTGTGGTGGAGCAGGAACTTGAGGCAGGGCGCAGGCGGCAAGCGGTCCTGGAACAGCTGGCAGCTGAGGCGACGCCGAGACTCAACGCTGCGCGGGACACCTGGTACCGGTTGTCTGCAGGCCGTGAACGGCTCCGATCCCTGGGTTCCCTTGCCCAGGAGCGGAGCAGATTGCTCGGCTCCGTCAACTCCGAACCCTACTCGGGCCGGGATCCGGAGCAGCTTGAACGGCAGGCTGCCCAGGTGCGGGCAGAATTGGCGGAACTCGAACGCCACATCCTGGACAAACGCAGCGCCCTTGATACGGCAACGGCAGCAAAAATGGAGGCGGAGCAGGCCGCCGTCGCGGAGGAGAAACGCCTCACTGCGGTCCTGCGCGCAGCGGCCGACCGCAGGGAAGGGCTCGCCCGGCTCGCAGGGCAGGTCGGTGCGGCAAGGTCACGGGTGGAATCCGCGCAGGCCGAGCTTGGCAGGTTGAGGGAATCCCTGGCGGCCGGAACCGAGCGCCGCCGGCGGGCGCAGGAGGAGTTCACGGCACTGGAGAGCCAGGTCGCAGGGGTCGAGGAAGGCGAGGAAACCCTCGACGCCGACTACGAGGACGCCAGTGAGGAACTCGACGCCGTGCTCCAGGAGATGAAGGACGCTGCCTCCGCCACGGCTGAGGACGTCCGCGAACGCGATGCCTTGGTGGCACGCAGGGACGCACTGCAGCTTGGACTAAGCCGGAAGGATGGTGCGGAGCATGCGTTGAACTCCGGGCTGTCGGGTGTCGCCGGAACGCTCGCCTCACGGCTCAGCGTTGAGCCGGGATTCGAAACTGCCATTGCTGCCGCACTCGGCGACGCCTCCGAGGCGATAGTGGTGAGGGACCCGGCGGCCGCCGCCGCCGTCGTTCAGCTCCTGAAGGACGACGACGCCGGACGCGCCTCGCTGCTGCTGGAATCGGCAGTTTCGTCCCCAGGACAGAGTGCGGCAGGACAGCGCGCTGAGCAGGAGAACGGCGCGGAGAACGGACCGTTGCCCGCTGGAGCCCAGTGGGCCCTCGACCTCGTCTCAATCTCCGGGGGCGGCGGCAACCCCATCGCTGCCCTGCTCACCGGCGTTGCCGTCGTCGAGGACCTCCAGGCGGCCGGGGCGCTGATTGAAGCCAGGCCGGCACTGACCGCAGTCACCATGGCCGGTGATATTTTCACCGCCCTCACCGTCACTGGTGGTTCCGCGAAGGCGCCCTCGCTCCTGGAGGTGCAGGCCGCCGTCGACGACGCCGAGACCCGGCTGGCCGACGTGACGGCCCGGATTGAACGGAACAGGTTCGCCCTGGCCGGTGCCGAGGCCAGGAAGGCCGCAGCGCAGGAGCGGACGGACGCCGCGCTGGACAGGCTGCACGAATCAGATGCCCGGCTCGCTGCGGTCGCTGAACGGCTCGGTCATCTGAATTCCGTCCTGCGCAGCGCCGTGGGCGAAAGTGACAGGCTGGCCGCCTCCCTGGCCAAGGCGGAGGCCAACGTGGCCACCGAGGAAGAGGCGCTCGCGGCCATCGCAGCGCGGCTCGCAGCCGCGCAGGAGGCTCCCCTGGAGGAGGAACCCTCCACCGGGCACAGGGATGCCCTGGCTGCAGCTGCCGCCCTGGCCCGCTCGGCCGAGATGGAGGAACGGCTGGCGCTGCGGAGCGCGGAGGAGCAGCTGACGGCCACCAGGAACCGGGCCGCCTCCCTGGAACGCGCGGCTGCCACCGAACGCCGCGCCCGGGAGGAGGCAGCAGAGCGGGCGCGCCGCCGCCAGGTCCAGGCGCGGCGGGCAGCGGCAGTGTCGGCTGCTGTCGGGCGAAGCCTCCGGTTCATCGACGTGTCTGTGGAGCTGGCCCGGCATGAACGCGACCTGGCAGAAGAGAACCGGGAAGAGCGGGACCGCGGGCTGGTGGAAACACGGACAGCCAATGACGCCCTCGCCGGCGAACTCGCGGAGCTGACCGACTCGGTCCACCGCGATGAACTTGCCCGTGCCCAACAGCGGGCCCGGATCGAAGCCCTGGAAACCCGCTCCGTCGAGGAACTGGGCATCACCCCGGACATGTTGGTGGCCGACTACGGACCAGACGTACCCGTGCCTGTTCCGGCGGAAGAAAACGCAGACAAGTGGGCGGCCCTCCGGGCGCCGGTTGACGACAGCGGCGCGCCCGTGGTTGAGGGCAGGCCCTTCGTCCGTGAGGAGCAGGAGAAGCGGCTCCGGAAGGCCGAGCGTGACCTCGCCAGCCTTGGCCGCGTGAATCCCCTGGCTCTGGAAGAATTTGCCGCCCTCGAGGAGAGGCACCAGTTCCTCAGCACCCAGCTGGAAGACCTGAAGGCCAGCCGCAAGGACCTGCTGGACATCATCAGGGAAGTTGATGACCGCGTCCAACGGGTCTTCGCCGAGGCGTTCGAGGACACCCAGACGCAGTTCGTCCGGGTCTTCGCGAGGCTCTTCCCCGGCGGGGAGGGCCGCCTTGTCCTGACTGACCCGTCGGATATGCTCACCACCGGCATCGAGGTGGAGGCGCGGCCCGCCGGCAAGAAGATCAAGCGGCTTTCACTGCTGTCCGGCGGGGAACGCTCCCTCACCGCCGTCGCGCTGCTGGTTGCCATTTTCAAGGCGAGACCCTCGCCTTTCTACGTCATGGACGAGGTAGAGGCTGCCCTTGACGACACCAATCTTGGCCGGCTGATCACCATCTTCGAGGAACTCAGGGAATCAAGCCAGCTGATTGTCATTACCCATCAGAAGCGGACCATGGAAGTCGCTGACGCGCTGTACGGCGTCACCATGCGCGGAGACGGTGTCTCCACGGTCATCAGCCAGCGGCTGGGCGCGGACGTGTAG	MHLKSLTVRGFKSFASATTFDFEPGVTAVVGPNGSGKSNVVDALSWVMGEQGAKTLRGGKMEDVIFAGTSGRPPLGRAHVSLTIDNTDGALPIEYSEVTISRTLFRTGGSEYAINGASCRLLDIQELLSDSGLGREMHVIVGQGQLDKVLHATPEDRRGFIEEAAGILKHRRRKEKTVRKLEAMQANLQRLSDLTGEIRRQLTPLGKQAEVARRAQRVQFDVRDARARLLADDLVQLQGALDQDVADEAALKARRGVVEQELEAGRRRQAVLEQLAAEATPRLNAARDTWYRLSAGRERLRSLGSLAQERSRLLGSVNSEPYSGRDPEQLERQAAQVRAELAELERHILDKRSALDTATAAKMEAEQAAVAEEKRLTAVLRAAADRREGLARLAGQVGAARSRVESAQAELGRLRESLAAGTERRRRAQEEFTALESQVAGVEEGEETLDADYEDASEELDAVLQEMKDAASATAEDVRERDALVARRDALQLGLSRKDGAEHALNSGLSGVAGTLASRLSVEPGFETAIAAALGDASEAIVVRDPAAAAAVVQLLKDDDAGRASLLLESAVSSPGQSAAGQRAEQENGAENGPLPAGAQWALDLVSISGGGGNPIAALLTGVAVVEDLQAAGALIEARPALTAVTMAGDIFTALTVTGGSAKAPSLLEVQAAVDDAETRLADVTARIERNRFALAGAEARKAAAQERTDAALDRLHESDARLAAVAERLGHLNSVLRSAVGESDRLAASLAKAEANVATEEEALAAIAARLAAAQEAPLEEEPSTGHRDALAAAAALARSAEMEERLALRSAEEQLTATRNRAASLERAAATERRAREEAAERARRRQVQARRAAAVSAAVGRSLRFIDVSVELARHERDLAEENREERDRGLVETRTANDALAGELAELTDSVHRDELARAQQRARIEALETRSVEELGITPDMLVADYGPDVPVPVPAEENADKWAALRAPVDDSGAPVVEGRPFVREEQEKRLRKAERDLASLGRVNPLALEEFAALEERHQFLSTQLEDLKASRKDLLDIIREVDDRVQRVFAEAFEDTQTQFVRVFARLFPGGEGRLVLTDPSDMLTTGIEVEARPAGKKIKRLSLLSGGERSLTAVALLVAIFKARPSPFYVMDEVEAALDDTNLGRLITIFEELRESSQLIVITHQKRTMEVADALYGVTMRGDGVSTVISQRLGADV				NA	NA	NA	NA	NA
D1-29_02964	1089			hypothetical protein	ATGAGCCGCAGTGCAGCGCCGCCTCAGGCAACAGCGGCCCCACCGGGTGAGCCCGCCGTCGCCCCTGCCGGCATGCGGCGGCAATGGCTGATTCTCCTGGCTGTGGTGCTGCTGGCACTTGGAGGTGCCGGTGTCTACGCTGTGTCGGCGCTCCAGGAAGCGAGGACCAGCCAGGACGCGGCGCCGGCCGTGGAAGTGGTCGCCGCCGACGCCCTTCCGGCTGAGCCGTTTGTGATGTTCCGCAACACGGCTGCGGGCCAGGGCTACGGGCAGGCTGCAACTGTCCTGCTGTCAGACCCGTCAGGCCGCCGGGCCCTCAGCGGACACAGTTGCGACAGGGTGTACGCCACCCGGGACCTGGTGAGCTGCCTGCGCACCAGGAACGAAGTGCCCACAAACTTTGAAGCCACCACGTACGACACCTCGTTGGACTCCATGGACTCCTGGGCACTGCCCGGCATCCCCAGCAGGACAAGGATCAGCCCGGATGGCTCCCTGCTCGCTTCCACCGTTTTCGTCACCGGGCATTCCTACGCTTCGGCAGGGTTTTCAACCGAAACCGTGATCCATGGGATGGACGACGGCACTCTCCATGGAAACCTTGAAGAATTCGCACTCATTTCCGGTGGCACGCAAATCAAGGCATCGGACCGCAACATTTGGGGCGTCACCTTTGTCCCTCTTCAGCCTGACGCCTTCTATGCCACAGCCTCCTCACAGGGCAAGATCTGGCTCGTGCGGGGAAGCCTGAAGGACAGGACGCTGATGGTCACCGCCTCAGGCATCGAATGTCCTTCTGTCTCGCCGGACGGTACGCGGATCGCTTACAAAAAAAGCGAGACCGGAACCCTCATGGGCCACCGCAACATAGCCATTCTGGACATTGCCACGGGCGCGGAAACGGTCCTCGCAGAACAACGGGACATCGACGACCAGCTGGAATGGCTCGATGAAAATACTGTTGCCTACGGGGTTCCGCGCGATGGCACAGGCCAGGACAGCGATATCTGGTCCCTTGCCATCGAACCAGGGGGGCAGCCAGCAGTGTTCATCGAACACGCTTGGTCACCGGCCGTGGTCCGCCAATAG	MSRSAAPPQATAAPPGEPAVAPAGMRRQWLILLAVVLLALGGAGVYAVSALQEARTSQDAAPAVEVVAADALPAEPFVMFRNTAAGQGYGQAATVLLSDPSGRRALSGHSCDRVYATRDLVSCLRTRNEVPTNFEATTYDTSLDSMDSWALPGIPSRTRISPDGSLLASTVFVTGHSYASAGFSTETVIHGMDDGTLHGNLEEFALISGGTQIKASDRNIWGVTFVPLQPDAFYATASSQGKIWLVRGSLKDRTLMVTASGIECPSVSPDGTRIAYKKSETGTLMGHRNIAILDIATGAETVLAEQRDIDDQLEWLDENTVAYGVPRDGTGQDSDIWSLAIEPGGQPAVFIEHAWSPAVVRQ				NA	NA	NA	NA	NA
D1-29_02965	1317			hypothetical protein	ATGTCGGACCGCACCGGCGGCCAGAAGGACCGGCAGGACAGTGCGCCGCCCGCCGGGCCGAACGCCATGTTCCGGCTGTCCCCGGTAATCATCTGGCTGGGCATCGTCAGCATGGTGACGGACATTTCCTCCGAGTCTGTCTCAGCCATCCTGCCCCTCTACATCACCGGTTTCCTGGGACTGTCCACCATCGCCTTTGGCATTATCGATGGCATCAACCAAGGAGCCAGCGCCATTGTCCGGATCGGGGCGGGGTGGGTATCGGACCGGACAGGGCATCCCAAACGTGTTGCCGTGGCCGGCTACGGACTGTCCATGCTTGCCCGTATCGGGTTCCTCTTCGCGGGCGGGTTCTGGGCGATCGCCGGGATTGTCACAGGGGACAGGATCGGCAAGGGCATCAGGACGGCACCACGTGACGCCATGATCTCCGAAGCCGCACAATCGGACTACCTGGCACGGTCCTTTGGCGTCCATCGAATGCTGGACAACATCGGCGCGGCCGCCGGGCCCCTGATTGCTTTTCTGGTGCTTTTGGCCATTCCCAACGGCTTCAGCACCGTTTTTGTCGTTTCCCTGGCTTTTTCCGTGATCGGCGTTGCCATCCTGGTGCTGATGGTTCCAGGCCGGGAGCGGCGGGACCGGCGACGCGCCCAGGCCGGCGCCGGACGCCCGCCGCACTCTTTCCACAGGTCAGGACTCCGTTGGCCGGCGCTCCACTGGTCAGGGCTTCGGTGGTCACGGCTGAAGGAGCAGGGGCTGGCCCGGCTCCTGGTCACTGCGGGACTGCTGGGCATCCTGACCATCGGGGACGGCTTCATCTACCTGATCCTGCAGGACAGGGAGTCTTTCGCGGTGCAGTGGTTTCCGCTCCTCTATGTGGGGACCAACGCAGCCTTCCTGCTGTTTGCCGTGCCGCTGGGCAGGCTGGCTGACCGCTGGGGCCGCGTACCAGTGTTCCTGGCCGGCCATCTGGCCCTCCTGGCCTGCTACCTGCTGGCGGCGGTGCCTTTCGGCGGACTGGGGGCCACCGTGGGCTGCCTGATTCTGCTTGGTGTCTTTTACGCAGCGACGGACGGGGTCCTGGCCGCACTGGTCAGCCAGCTTTCTCCGCCTGAAAAGGTAGGCACTGCCCTGGGTGCGGCACAAACAGTGGTGGCATTGAGCCGAATGGCAGCAGCTGCAGGTTTCGGTGTGCTGTGGTTTGCCGTTGGACCGGTGACCGCCGTGGTGTGCGTGGCCGTCCTGCTGGTGGCGGCCTTGGGCGCGGCTGCGGTGCTGATGCGCGGGATGGTCAGGCAGGCTCCAGCATCATGA	MSDRTGGQKDRQDSAPPAGPNAMFRLSPVIIWLGIVSMVTDISSESVSAILPLYITGFLGLSTIAFGIIDGINQGASAIVRIGAGWVSDRTGHPKRVAVAGYGLSMLARIGFLFAGGFWAIAGIVTGDRIGKGIRTAPRDAMISEAAQSDYLARSFGVHRMLDNIGAAAGPLIAFLVLLAIPNGFSTVFVVSLAFSVIGVAILVLMVPGRERRDRRRAQAGAGRPPHSFHRSGLRWPALHWSGLRWSRLKEQGLARLLVTAGLLGILTIGDGFIYLILQDRESFAVQWFPLLYVGTNAAFLLFAVPLGRLADRWGRVPVFLAGHLALLACYLLAAVPFGGLGATVGCLILLGVFYAATDGVLAALVSQLSPPEKVGTALGAAQTVVALSRMAAAAGFGVLWFAVGPVTAVVCVAVLLVAALGAAAVLMRGMVRQAPAS				NA	NA	NA	NA	NA
D1-29_02966	990	fpg1	COG0266	Formamidopyrimidine-DNA glycosylase 1	GTGCCCGAACTGCCGGAGGTGGAAGTTGTCCGCCGCGGACTCGTGAACTGGGTCAGCGGCCGGACCATCACCGCAGTGGACGTTGTGGACCAGCGGTCCATCCGGCGGCACGCCCTCGGCCCGGAAGACTTTGCCGGCAATCTGGCGGGGGCCACTGTCCTGGACGTAGTGCGCCGCGGGAAATTCCTGTGGATGCCGCTCATCGACCCTGAATCGGCTCCCGCCGCTGCGGCTTCCCCGCATGCGGAGAGCGCACCTTCCGGCCCGCGTCCCGCCGTCGCCCTGATGGCACACCTGGGCATGAGCGGCCAGCTCCTGATGCAGGACAGCACGGTTCCTGACGAGAAGCACCTTAAGGTCAGGCTGCACCTCAGCCCGCGGGATGGCATGCCGGACCAGCTCCGGTTCGTGGACCAGCGCATTTTTGGCGGCCTGTTTGTCACGTCCATGATTCCCACGGATGACGGCGGCCCCGGAGGCCTCGCGGAATCCCCTCTTCCGCTGATTGCGGAGGAAGCCGCCCATATCGCCCGGGACCCGCTGGATCCGGCGTTCTCCTTCGACCTGTTCTACAGCAGGCTCAGGAAGCGGAAGACCGGGCTCAAACGTGCCATGCTGGATCAGGGCCTGGTGTCAGGCATTGGGAACATCTACGCCGATGAAGCGCTGTGGCGGGCAAAACTGCATTATGCCCGGCCCACTGACACCCTGCGGCGGGCCGAAGCCGAAAGAGTTCTCGCCTGCGCCCGGGAGGTCATGCTGGACGCCCTGGCCGCCGGCGGGACGAGCTTCGATTCGCTGTACGTCAACGTCAACGGCGCGTCGGGATACTTCGAACGTTCGCTGAATGCCTATGGCAGGGAAGGGCAGCCCTGTCCCCGCTGTGCGGCTTCGGGAATCAGGTCGACCATCCGCCGCGAACAGTTCATGAACCGCTCCTCCTATACATGTCCCGTGTGCCAGCCGCGCCCGCGGAACGGCCGCTGGTAG	MPELPEVEVVRRGLVNWVSGRTITAVDVVDQRSIRRHALGPEDFAGNLAGATVLDVVRRGKFLWMPLIDPESAPAAAASPHAESAPSGPRPAVALMAHLGMSGQLLMQDSTVPDEKHLKVRLHLSPRDGMPDQLRFVDQRIFGGLFVTSMIPTDDGGPGGLAESPLPLIAEEAAHIARDPLDPAFSFDLFYSRLRKRKTGLKRAMLDQGLVSGIGNIYADEALWRAKLHYARPTDTLRRAEAERVLACAREVMLDALAAGGTSFDSLYVNVNGASGYFERSLNAYGREGQPCPRCAASGIRSTIRREQFMNRSSYTCPVCQPRPRNGRW				NA	NA	NA	NA	NA
D1-29_02967	741	rnc	COG0571	Ribonuclease 3	ATGATGTCTTCAACTGAAGAGCTTCTGAAGCGTCTCGGTGTCTCCATTGACGCCGGGACGCTTCGTCTTGCGCTCACACACCGTTCCTACGCCTACGAAAACGGCGGCATCCCCACCAATGAGCGCCTCGAATTCCTGGGCGACTCCATCCTGGGGTTCTCCGTCACGGATGCCCTGTACCGGGATAATCCAACGCTGCCCGAAGGTGACCTGGCAAAGCGTCGTTCCGCCGTGGTCAGCACCCGCGCCCTGGCCGGCATTGGCCGCAGCCTCGGCATCGGCGACTACATCTACCTCGGGCAGGGCGAAAAGCTCACTGAAGGCAAGAACAAGGCCTCGATCCTGGCAGACACCATGGAGGCGCTCATCGGCGCCACCTATGTCTCCAATGACATCGAAACCGCACGCCAGCTGGTGATGCGCCTGATCGGCCCGCTCCTGAAGGATGCCGGAGCCCTCGGCGCCGGGACGGACTGGAAGACCAGCATCCAGGAGCTGGCAGCCAGCCGGCAGCTTGGCAGCATCCACTATGGAGTGGAGGGATCCGGGCCGGACCACGCCCGCATCTTCACGGCAGTGCTGTCCATTGGGGGCACGGCGTACGGCAGGGGATCCGGCCATTCCAAGAAGGAAGCCGAACAGGTGGCTGCCGCCGACGCGTGGCAGACCCTTACCGGGGCTCCCGGTGCCGTGGTTTCAGGCGATTCCGCCGATTCCGCCGATTCCGCCGCCAGCGTCTAG	MMSSTEELLKRLGVSIDAGTLRLALTHRSYAYENGGIPTNERLEFLGDSILGFSVTDALYRDNPTLPEGDLAKRRSAVVSTRALAGIGRSLGIGDYIYLGQGEKLTEGKNKASILADTMEALIGATYVSNDIETARQLVMRLIGPLLKDAGALGAGTDWKTSIQELAASRQLGSIHYGVEGSGPDHARIFTAVLSIGGTAYGRGSGHSKKEAEQVAAADAWQTLTGAPGAVVSGDSADSADSAASV				NA	NA	NA	NA	NA
D1-29_02968	204			hypothetical protein	GTGGCTGTTCCCAAGCGGAAAATGTCTCGCTCGAATACCCGCGCCCGCCGCTCCCAGTGGAAGGCAACTGCCCCCCACCTGGTGAAGACCATTGAGAACGGCCAGGTTACCTACAGCCTGCCGCACCAGGCAAAGGTCGTTACCGACTCGGCTGGCACTGCGCTGTTCCTTGAGTACAAGGGCCGCAAGGTCGCGGACGTCTAA	MAVPKRKMSRSNTRARRSQWKATAPHLVKTIENGQVTYSLPHQAKVVTDSAGTALFLEYKGRKVADV				NA	NA	NA	NA	NA
D1-29_02969	294			hypothetical protein	GTGGTGGTGCCCCGGCTCGTCTTCCAGGCGAACTCCACATTCGGAGCAAAGGCCCTGGCAGTCTTCCCGGCACACCGGCTGGAACGGCAGCATGGTTATGACTGCGTCCCGCAACACCGGTTCAAGATCGATTACATCGTGCTCGACTCGACGTTGCTCTTCATCATCTTCTTCATCCGAAAGCAGGACGCCTTCATAGAAGAAAAGTTCTTGCACATTGACCTCAAGGTCATACGCAAGGGGATCCAGGCATCGTCCGCATTCGCCGGTTACATGGGCAATCACGGTTCCTGA	MVVPRLVFQANSTFGAKALAVFPAHRLERQHGYDCVPQHRFKIDYIVLDSTLLFIIFFIRKQDAFIEEKFLHIDLKVIRKGIQASSAFAGYMGNHGS				NA	NA	NA	NA	NA
D1-29_02970	501	coaD	COG0669	Phosphopantetheine adenylyltransferase	ATGAGACGTGCTGTCTGCCCCGGATCCTTTGACCCCATCCACAACGGCCATCTCGAGGTTATTGCGCGTGCCGCAGGCCTTTTCGATGAAGTCATCGTTGCCGTGTCCACCAATATTGCGAAGAAATACAGGTTCAGCCTGGAGGACCGGATCGACATGGCACGCGAAACGCTGGCGTCGCTGAAGGGCATCGTGGTGGAGCCCGTAGGGGAGGGGCTCCTGGCGGAATACTGCCGGCAGCGGGGTGTTTCCGCCATCGTAAAGGGACTGCGGTCATCTTCGGATTTCGATTATGAACTTCCCATGGCCACCATGAACCGCCAGCTCAGCGGAGTGGAAACTGTCTTCCTGCCGGCCGAATCCCACTACCTGCATCTGTCATCAACGCTGATCAAGGAAGTGGCGGGCCTGGGCGGCAGCGTGTCCGATTACGTGCCCCGCTCCGTACAAAAGAGGCTGCTGGGTGGCGAGTCGGCGCCCGATCAGCGGGCGAGAGGGTAG	MRRAVCPGSFDPIHNGHLEVIARAAGLFDEVIVAVSTNIAKKYRFSLEDRIDMARETLASLKGIVVEPVGEGLLAEYCRQRGVSAIVKGLRSSSDFDYELPMATMNRQLSGVETVFLPAESHYLHLSSTLIKEVAGLGGSVSDYVPRSVQKRLLGGESAPDQRARG	PGPT0008825_1105	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
D1-29_02971	1230	dapC	COG0436	putative N-succinyldiaminopimelate aminotransferase DapC	ATGCACGCACCAAGGGAAGTGTTCACCGCGACAGCCATGGCCCCCTGGCGGCGTGCTGCCGTGGGCGCCAACCTGCTGGGGCCGGACGGCGGGCTGGGCGTCACCATCTTTGAAGAGATGACCACGCTGGCCGTGCAGACGGGAGCCATCAACCTGGGCCAGGGCTTTCCGGACGAGGACGGCCCTGCGGAAATCAAGGCGGCGGTGCAGGCTGCCGTGGCCGCCGGCGCCAACCAGTACGCGCCCGGCAAGGGCCTGCTGGAACTCCGGGAGGCTGTGTCCGCGCATCAGCAGCGTTTCTACGGGCTGTCCCCGGACCCGCAGTCCGAGGTCATCATCACCACCGGCGCCACCGAAGGCATTGCGGCGTCCCTGCTGGCCTTTGCCGGGCCCGGCGACGAAGTACTGACCTTCGAACCCTTTTACGATTCGTACGGTGCCGTCATCGGGCTAACGGGCGCCACCCATGTCACCGCGCCGTTGCTGGCTCCGGAGTTCTTTCCCGACATGGACGCCCTTGAGGCGGCCTTCAGTGACCGCACCAAGGTGGTTTTGCTGAACAATCCACATAACCCCACCGGCGCGGTGTTCCCGCGCGAGGTCCTGCAGCGGGTGGTCGACCTTGCCCGGAAGCATGACTGCCTCATCGTCACCGATGAAGTGTATGAGCATCTCACTTTCGGCGTCAGCCATATACCGGTGGCAGGCCTGCCCGGCGCTGCGGACCGGACGGTGACCATTTCCTCGGCAGGGAAAACCTTCTCCTTCACCGGATGGAAGATCGGCTGGCTCAGCGGCCCTGAAGAGCTCGTCTCGGCGATCCGCACCGTAAAGCAATTCCTCACCTACAGCTCCGGGACGCCCTTCCAGGCAGCCATCGCCACCGGCCTGAACCTGCCTGACGAGTTCTATCACGGCATCTGGACCACACTCCGGCACAAGCGCGACATCCTCAGCGAAGGCCTGCGCGCCGCCGGTTTTGACGTATTTACACCGCAAGGGACGTACTTCGTCAACGTGGACACAGCACCCCTGGGCATCCATGACTCCGTTGACCTGGCCCGCAGGCTGCCGTCGCTGGTGGGGGTGGCCGCCATCCCGGTGCCCGTGTTCTGCCACCCGCAAGGCGCTGAACGCACCCGCAGCCTGCTCAGGTTCGCCTTCTGCAAAAAAGTGGAGGTGCTGGAGGAGGCAGCCGCCCGGCTGTCTACCCTGAGCGGAAAACTGTGA	MHAPREVFTATAMAPWRRAAVGANLLGPDGGLGVTIFEEMTTLAVQTGAINLGQGFPDEDGPAEIKAAVQAAVAAGANQYAPGKGLLELREAVSAHQQRFYGLSPDPQSEVIITTGATEGIAASLLAFAGPGDEVLTFEPFYDSYGAVIGLTGATHVTAPLLAPEFFPDMDALEAAFSDRTKVVLLNNPHNPTGAVFPREVLQRVVDLARKHDCLIVTDEVYEHLTFGVSHIPVAGLPGAADRTVTISSAGKTFSFTGWKIGWLSGPEELVSAIRTVKQFLTYSSGTPFQAAIATGLNLPDEFYHGIWTTLRHKRDILSEGLRAAGFDVFTPQGTYFVNVDTAPLGIHDSVDLARRLPSLVGVAAIPVPVFCHPQGAERTRSLLRFAFCKKVEVLEEAAARLSTLSGKL	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
D1-29_02972	795			hypothetical protein	ATGGCGGGCATCTTGGGACAGTCCAGACGGTCCACACGGTTCCTGCGGACCACGGGCCAGCACGCCACTATTGAGCCTGATGCCCTGGTGGAGGGTGCGTACATCCTCAGCATCGGAGGCGCAGAGCAGTCCCACGTGAACGTTGCCCGTCCCGAAGAAATTTTTTACGAGTACCTGCGCCGGATCGGCCATCTGGTGGACTTGGCAGCTCCGGAGGGGCAGCCAATCACCGCCCTGCACCTCGGGGCGGGCGCATTGACCCTGGCCCGCTACATCCAGGCCACCCGGCCCGGATCGCTCCAGTATGCGGTGGAGCTTGAGCGGGAACTGCTGGATTTTGTCCTGCAGCAGCTCCCCCTGCCGGAGGGAACGGTCCTGCACACCATCATCGGAGACGCCCGCGATGCCTTGACGGAACTGGAGCCGGGACTGCTCTTCGACGTCGTCATCCTGGATATCTTCTCTGGGCCGGAGGCGCCGGAACATATCGCCTGCATGGAATTTTACCTGGAGGCCCGTGCGCGGCTTGCTCCGCACGGACTGCTCATCGTGAACGTAGGCGACGAACCGGGGCTCACCCTGGTGCGGAGCCAGGTGGCCGCACTGCGCCTCGCCATGGCCGATGTTGCGGCCTTCGCCGAAGCCGGCATGTTTGCCGGCCGCCATCCCGGCAGCATCATCCTTGCCGGAACCCAGGAATCCTGGCCCGGCGCTTGGACCTCCGAACTGGCAGCCCGTGGCCCGCACCCGGGACGGGTCCTTGCCGGGGTGGACCTGGACGTTTTAGCCGGTTGA	MAGILGQSRRSTRFLRTTGQHATIEPDALVEGAYILSIGGAEQSHVNVARPEEIFYEYLRRIGHLVDLAAPEGQPITALHLGAGALTLARYIQATRPGSLQYAVELERELLDFVLQQLPLPEGTVLHTIIGDARDALTELEPGLLFDVVILDIFSGPEAPEHIACMEFYLEARARLAPHGLLIVNVGDEPGLTLVRSQVAALRLAMADVAAFAEAGMFAGRHPGSIILAGTQESWPGAWTSELAARGPHPGRVLAGVDLDVLAG				NA	NA	NA	NA	NA
D1-29_02973	630			hypothetical protein	GTGAGCCGGATCATCGCAGGCGCGGCCGGCGGAACACCGCTGGTGAATGTTCCAGGTTCGCTCACACGTCCCACCACGGACCGTGTGAAGGAGGCGCTGTTTTCCCGGCTTGACGCTTTCGGAATCATTGCCGGTTCCCGCGTCCTGGACCTTTACGCGGGGTCCGGGTCACTCGGCGTGGAAAGCGGCAGCAGGGGTGCCGCCGCGGTTGACCTGGTGGAGTTCGATGCCAAGGCCAGTTCCGTCTGCCAGCGCAATGCTGACCTGATCAACGGTGTGCTCGGGCGGAAGGCTGTGACGGTACACCGGTCCCGGGTTGAGTCCTTCCTCGAACGCGCCACACCTGACATGCATTGGGACCTCGTGTTCCTGGATCCCCCCTACCCGCTGGACGAAGCTGCCCTCTCAGGAGTCCTTGACAAGCTCTCCGTCCACCTGGCGCCGTCCGCCGTGGTGGTGGTGGAGCGGTCCTCCCGTTCGCCGGAACCAGGCTGGCCGGACGGCATGGAACGCTTTGCCGAGAAGAAGTACGGGGAGACCAGGCTTTGGTATGCCGAGCCCTCCGTGCCTGACGTTATTGAGCTGGACGAGCCCTTTGACGAGCTGAGGTCAGCAGACGGGGAAGGTTGA	MSRIIAGAAGGTPLVNVPGSLTRPTTDRVKEALFSRLDAFGIIAGSRVLDLYAGSGSLGVESGSRGAAAVDLVEFDAKASSVCQRNADLINGVLGRKAVTVHRSRVESFLERATPDMHWDLVFLDPPYPLDEAALSGVLDKLSVHLAPSAVVVVERSSRSPEPGWPDGMERFAEKKYGETRLWYAEPSVPDVIELDEPFDELRSADGEG				NA	NA	NA	NA	NA
D1-29_02974	2286	recG	COG1200	ATP-dependent DNA helicase RecG	ATGGGCATGAGCGCTGAACTTGACCTGGGCCTTGAACGCCGGATCGGGAAGCGGTCCGCTGCCGTCATAGAGAAGCATCTTGGCCTGACCACTGTGGGCGAGCTCCTGAACTACTTCCCGCGCCGCTACCTGAGCCGGGGTGAACTGACACCCATCAACGAGGTTCCGCTGGACGAGGAGGTCACGCTGATCGCCCGCGTGCTCTCCAACACCACCCGCTCCATGCGGGCACGGCGGGGAACAATTACCGACGTCGTTATTTCCGACGACGACGGTAAGGGAGGCCTCCGGCTGGTGGGAGGCAGTGACTACCGCGGCAAAGTCCCCGGAACCCTTAAGGTCAGCTTCTTCAACGGATACCGTGCCAAGGCTGAGCTCCTGCAGGGACGCCGGGCCTTGTTCTCCGGCAAGGTCACCCGGTTTGGGGGCTCCCTGGGGCTGACCAACCCCGATTTCCTCCTCCTGGACGAGGACCCTTTCACTCAGGGAAAGAATCCGGAGCAACTGGCGGCCATGCCCATCCCGATCTACCCGGCCACGGCAAAGCTAACCAGCTGGTCCATCCAAAAGGTCATTTCCACCCTGCTCGAAACAGTGGACCTGGGCACCCTCCCTGATCCCATCCCCTCCGCTGTTTCGGCCCGGGAGAAATTCCTGCCGGTGGCCGAGGCCTATCGGCTCATCCACGCACCAGAGACGGACAACGACTGGCAGCGGGCCCGGGACCGCTTCCGGTACCAGGAAGCCCTGGTCCTGCAGTCTGCCCTGGCCCGGCGGCGCGCGCAATGGGCAGCCGAGGAAGCCACAGCGAGGCGTCCCGTTCCCAACGGGTTGCTCACGGCGTTCGATGCCCAGCTGCCCTTTACCCTGACAGCAGGGCAGGCAGCCGTGGGAAAAACCCTCTCAGCTGAACTGGCGCAGGACCATCCCATGAACCGCCTGCTGCAGGGCGAAGTGGGTTCGGGAAAAACCATCGTGGCGCTCCGGGGCATGCTGCAGGTGGTGGATGCCGGCGGGCAAACAGCCCTGCTTGCACCCACTGAGGTGCTCGCGGCCCAGCACTTCGAATCGATCCGCCGCATCCTGGGCCCCCTGTCCCGGGACGGTCTGCTGGGTGGCTCCGGTACAGGTTCAGCCGGTGAGGCCGTGCAGGTCACACTGCTCACCGGGTCCCTCCCCACCGCACCCCGCAAGCAGGCCTTGCTGGACGCCGCCTCGGGCACGGCCGGGATTGTGATCGGAACCCACGCGCTGCTCAGCGACAACGTCTCCTTCTATGACCTGGGCCTGATTGTGGTGGACGAGCAGCACCGTTTCGGCGTGGAGCAGCGCGACGTCCTGCGGTCCAAGGCCAGCAAACCGCCGCACCTTCTGGTCATGACAGCCACCCCTATTCCGCGGACGGTGGCCATGACGGTCTTCGGCGACCTCGAAACGTCGGTGCTGGATGAGCTTCCGGCCGGCCGGGCGCCCATTTCCACCCATGTGGTGGGGCTCGCCGAAAATCCCGGCTGGGCGGGCCGTATCTGGTCCCGCTCCCGTGAAGAGATAGACGCCGGGCACCAGGTTTATGTGGTGTGCCCCAAGATCGGAACGGACGACGACGGCGACTTCAGCCCGGGGGAGGCCGAACCTTCCGCCGCTGACCTGGCCGGCGACGGAGCCGGGCGTGAACTCGCGTCGGTGACGTCCGTCGTCGAGCATCTCCTCCAGGAACCGTCCCTTGCAGGGGTGCCGGTGGCAGCGCTTCACGGCCGGCAGGACCCGGCGGTCAAATCGGCTGCCATGGCCGATTTCGCGGCGGATCGGACCAAACTGCTGGTGTCCACCACAGTGATCGAAGTGGGAGTTGACGTCCACAACGCCACCTTGATGGTCATTCTCGACGCCGACCGCTTTGGCATCTCCCAGCTGCACCAGCTGCGTGGCCGGGTTGGCCGCGGCGGCCTGCCTGGAACGTGCCTCCTGGTCACAACACTTGAACCCGGCCACCCGAGCCGGCGCAGGCTGGACGCCGTAGCGGCCACCACCGACGGGTTCGAGCTCTCGCAGGAAGACCTGAAACTCCGGCGCGAGGGCGACATCCTCGGCGCGTCGCAGTCAGGTGGCCGTTCCACGCTGAAACTGCTCCGGGTGCTCGAACATGAGGACATCATTGCCCGCGCCAGGGAGGACGCCCAGGAGATTGTGCGCTACGATCCGGCACTGTCACTTCACCTGCGGCTGGCCCAGGCCATCGACGAGTATTTGAACCCCGAGAAGGAGGCGTTCCTTGAACGTGGTTAG	MGMSAELDLGLERRIGKRSAAVIEKHLGLTTVGELLNYFPRRYLSRGELTPINEVPLDEEVTLIARVLSNTTRSMRARRGTITDVVISDDDGKGGLRLVGGSDYRGKVPGTLKVSFFNGYRAKAELLQGRRALFSGKVTRFGGSLGLTNPDFLLLDEDPFTQGKNPEQLAAMPIPIYPATAKLTSWSIQKVISTLLETVDLGTLPDPIPSAVSAREKFLPVAEAYRLIHAPETDNDWQRARDRFRYQEALVLQSALARRRAQWAAEEATARRPVPNGLLTAFDAQLPFTLTAGQAAVGKTLSAELAQDHPMNRLLQGEVGSGKTIVALRGMLQVVDAGGQTALLAPTEVLAAQHFESIRRILGPLSRDGLLGGSGTGSAGEAVQVTLLTGSLPTAPRKQALLDAASGTAGIVIGTHALLSDNVSFYDLGLIVVDEQHRFGVEQRDVLRSKASKPPHLLVMTATPIPRTVAMTVFGDLETSVLDELPAGRAPISTHVVGLAENPGWAGRIWSRSREEIDAGHQVYVVCPKIGTDDDGDFSPGEAEPSAADLAGDGAGRELASVTSVVEHLLQEPSLAGVPVAALHGRQDPAVKSAAMADFAADRTKLLVSTTVIEVGVDVHNATLMVILDADRFGISQLHQLRGRVGRGGLPGTCLLVTTLEPGHPSRRRLDAVAATTDGFELSQEDLKLRREGDILGASQSGGRSTLKLLRVLEHEDIIARAREDAQEIVRYDPALSLHLRLAQAIDEYLNPEKEAFLERG				NA	NA	NA	NA	NA
D1-29_02975	1074			putative protein	TTGCAGACTAAGGTTGCAGCCAACGCCCAAGCGATGAAGCGGTGGTTGGGAAAGTCCGAAACAGCCATCGGCAACCACAGCGACCGCCTGAATGCCATCAATATTTTCCCTGTTGCCGACGGCGATACCGGTACCAATCTCTACCTCACCGTTCGGGCAGCAGCCCAGGCCGTCCATGCGTCTGGCGCTGGGCACGCCAGTGCCGGACAATCCGCCGCCGGGCACGCCAGTGCCGGGCAAGCTGCCGCCGGGCAGGCCGACGTCGGGGCTGTCCTTGCAGCGGCCGGGCAGGCTGCCATGGAGCAGGCCCGGGGAAACTCCGGCACGCTGTTCTCGGTTTTCCTGTGCGCCGCGGCTGAGCCGTTGGCAGGCCATACCCGGCTCACGTCCACCCTGCTCGCCGCAGCCCTGAACCGCGCACAGATCCGCGCCTGGTCCGCCCTCAGCGATCCCGTTCCCGGCACCATGCTCTCCGTGATGGAGGCGGCGGCCCGCGCCGCAGCCTCCGTCGATGCCGGTCAGAACGGCGACGACAGCAACCACGCCCTTGGCCTGGCGCTCGATGCCGCGGTTGAAGGGGCCCTGGCCGCGGTAATCCGCACTGAAGGGCAGCTGGACGCCCTGCAGGCCGCGCACGTTGTGGACGCCGGCGGGGTGGGCATGCTCCTGATCCTGGACTGCCTCCGGTCGGCTGTGCTGGGGGAGGAGCTGCAAAGCGAACTCCTGGACGGCCTGCACGGCTACGACGTCCAGGATCCGCACATCCACAATGACATGCCGGACGACGACGGCGTGGAAGTCATGTGCACCATCAGCCTCTCGCCCCTCAATGCGGCCACACTCCGGCAGCGCCTGGACGAGATCGGCGAGTCCGTCATCATGAGCCAGGTTGGCACTGCCGCTGATGCCGAGGGCAACTACCGCTGGCGGGTCCATGTCCACGTTCCGGACCCCGACCCTGCGGTCCGGCTCATCCGCTCCCTCGGGGACCCCAGCCACATCACGGTCAGCGAACTCGCCCTGCCCCGCGACTCCCAAGCAGACCCGGTGGACATCAATGGGCATGAGCGCTGA	MQTKVAANAQAMKRWLGKSETAIGNHSDRLNAINIFPVADGDTGTNLYLTVRAAAQAVHASGAGHASAGQSAAGHASAGQAAAGQADVGAVLAAAGQAAMEQARGNSGTLFSVFLCAAAEPLAGHTRLTSTLLAAALNRAQIRAWSALSDPVPGTMLSVMEAAARAAASVDAGQNGDDSNHALGLALDAAVEGALAAVIRTEGQLDALQAAHVVDAGGVGMLLILDCLRSAVLGEELQSELLDGLHGYDVQDPHIHNDMPDDDGVEVMCTISLSPLNAATLRQRLDEIGESVIMSQVGTAADAEGNYRWRVHVHVPDPDPAVRLIRSLGDPSHITVSELALPRDSQADPVDINGHER				NA	NA	NA	NA	NA
D1-29_02976	1029	thiL	COG0611	Thiamine-monophosphate kinase	GTGCCCGCAGAACATTTGACAGTCGCCGCGCTCTCCGAGTCCGAACTCCTTGCCCGGATCTTCCCACGTCTAAAAGTCGAGGGCGGCCATTCCAAAGCCATGATGCTTTTGGGACCAGGTGATGACGCCGCCATCATCGCTTCTCCGGACGGCAGGACGGTCATCAGCATAGACACGCAGGTACAGGACCAGGATTTCCGGCTGCTCTGGCCCAACGGGTACCGCACAACAGGCTACGACGTCGGCTGGAAGGCTGCGGCGCAGAACCTCAGCGACATCAACGCCATGGGAGCCACTGCCACGTCCATGGTGGTCAGCCTGACCCTGCCTCCGGAAACCCCGGTCGGCTGGGTGGAGGACCTGGCAGACGGCCTGACGGCGGGAATCCGCGAGCTGGGTGCGGTGGACTGCTCCGTGGCCGGCGGCGACCTGGGCCGCGGCCGGGAAATCTCCGTCTCCGTCGCCGTCCTTGGCACACTCGCAGGTGGAGACGCGGTGCTGCGTTCCGGTGCACGCCCGGGAGATGTCCTGGCATTTGCCGGCACAGCTGGCCGGGCAGCCGCTGGATTGGCGCTGCTGGAATCCGGCCGGGACGTCAGCACCATCAGCCCGGAACAGCGGGTACTCCTGGATGTCCAGTGCAGGCCCCTGCCGCCGTTGTCGGCCGGACCGACGGCCCGGCTGGCCGGCGCCACCGCCATGCTGGACGTTTCGGACGGGCTCGTCCGAGATGGCGCACGCCTGGCCAGCGCCAGCGGCGTTGTCCTGGACCTGGATCCGCAGGAGCTGAAGCGGCTGGCGGAGTGCCTGGTGCCGGCGTCGGACCTTCTGGGCACGGACCCGCTGGCCTGGGTCCTGGGTGGCGGAGAGGACCACGGACTCCTGGCCACATTTCCGCCGGACATACAGCTGCCTCCCGTATTCACTGCGATAGGCTCAGTACAAGCCTTGGGGATGAACGAAAGCCCGGGCGTCAAAATTTCAGGCCACACCGCTGACACCGGGGGATGGGATCACTTTGCAGACTAA	MPAEHLTVAALSESELLARIFPRLKVEGGHSKAMMLLGPGDDAAIIASPDGRTVISIDTQVQDQDFRLLWPNGYRTTGYDVGWKAAAQNLSDINAMGATATSMVVSLTLPPETPVGWVEDLADGLTAGIRELGAVDCSVAGGDLGRGREISVSVAVLGTLAGGDAVLRSGARPGDVLAFAGTAGRAAAGLALLESGRDVSTISPEQRVLLDVQCRPLPPLSAGPTARLAGATAMLDVSDGLVRDGARLASASGVVLDLDPQELKRLAECLVPASDLLGTDPLAWVLGGGEDHGLLATFPPDIQLPPVFTAIGSVQALGMNESPGVKISGHTADTGGWDHFAD	PGPT0009010_643	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
D1-29_02977	546			hypothetical protein	ATGGCTGCGAAGATCGCTACCTTCACCCTTCTCGTAGTCTTCGGTCTGTGGTTCACCGCATGTCTGCTGCTGTTCTGCCTCAACTCGCCGGCTTCGCCGACATCTCCCGTGGATGCTGTGATCGTTCTGGGCGGCAGCAGCGAAGAACGGTTGCCTGTTGCCCAGCGTTTTGCGGACGAAGGGGCCGCAGTACTGGTGGTGTCCTGGACGGACACGCCGGGAAACGCAACCGCGGACGCGCTCTGCCGTGGAGCTTCCCGCCCCAGTCCGTCGTTGATCTGTTTCCGGCCTACGGGCCTGGATACGCGTAGCGAGGCAGAGGTTATCGGTGATTTAGTCAAGACCAACGGCTGGACCTCCATAGCCGTGGTCACGTCCTCCTATCATGTGCCCAGGTCAGAAACCCTGATCCAGCAGTGCACGGACGCCACAGTGAACATGGTGGCGTCCAAACCCGACCTCGATTCAGTGGAGTGGCTGCGGCGGTTTGTCATCGAGACGGGCGGCCTGATTGACGTGAATCTGCACCCGGAATGTGGCTCATAG	MAAKIATFTLLVVFGLWFTACLLLFCLNSPASPTSPVDAVIVLGGSSEERLPVAQRFADEGAAVLVVSWTDTPGNATADALCRGASRPSPSLICFRPTGLDTRSEAEVIGDLVKTNGWTSIAVVTSSYHVPRSETLIQQCTDATVNMVASKPDLDSVEWLRRFVIETGGLIDVNLHPECGS				NA	NA	NA	NA	NA
D1-29_02978	276			hypothetical protein	ATGGAGGAATCAGAGGACACTCCGCAGCTGATCGCCGCTCCGCGCCACCTGAGACGACGGGTCTTTCACCCCGAAATACCTGACAACCTCCTGGTCAGCGGTCTGGATCCACTGCCGCAACAAGCACCACGCGCCCTCCAACCCGAGCGACAGGGCGGAGTCGCGTCGGCTCGAGTCCGGGCATTCGGACGCAAACGGGCCGTCGCATTGTTAGTAGTGATATTTGTCACGATCAGCATTCCTGTGCTGGTTCTTGCTTTGATTTTTGCGGGCTAA	MEESEDTPQLIAAPRHLRRRVFHPEIPDNLLVSGLDPLPQQAPRALQPERQGGVASARVRAFGRKRAVALLVVIFVTISIPVLVLALIFAG				NA	NA	NA	NA	NA
D1-29_02979	1143	wecB	COG0381	UDP-N-acetylglucosamine 2-epimerase	ATGCCCAGCATCATGCCTATCTTTGGCACACGACCGGAGGCCATCAAGATGGCTCCTATCGTCGCCGCGCTCCACGAGTCAGAGCTCTTTGACTGCGTTGTGACCGTCACCGGCCAGCACCGCGAAATGCTGGACCAGGTCAACGAACTCTTCGGTATTGTGCCGGATCATGACCTCAACATCCTTCAGCAGCGTCAAACACTCTCGGCGATCATGACGCGGACCATCGACGGCTTGGACAAGCTGTTCAGCAATAAGAAGCCTGACGCCGTCATTGTGCAAGGCGATACGACGACGTCGACAGCGGGTGCCATCGCGGCCTTCTATCACGGTATCCCGGTTGTGCACGTCGAAGCAGGGCTTCGCAGTGGCGATCTTTTCTCTCCATTCCCGGAGGAGGCCAACCGCAAGATAACGAGCCAAATTGCAAGCCTGCATCTTGCTCCTACAAGTGTCAGCCGTGCAAACCTCCTCGCCGAGGGCATCAACGCCAGCGACATAGTAGTCACCGGCAATTCGGTCATTGATGCACTCCTCACGACCGTCGGCAAGCAGATTCCCTTTACGGACCCTCAGCTCGAAGAACTCGCCGCCAGCGGCCGCAAGATTCTACTTGTGACCACTCACCGGCGTGAGAATCAAGGGGATGCGATGCGTGGGGTGGGCCGGGCCCTGGCACGAATTGCGGACGCCGAACCTGACATGATGATCGTTTTGCCGGCGCACAAGAATCCCGTTGTCCGTGAAGCCGTGCTGCCCGCGCTAGAAGGCAAGCCGAATGTTATTGTCACCGAGCCTCTGGCTTATGGAGAATTTACCCGTATGCTCTCTCTGGCACACATCGTCCTTACAGATTCGGGCGGAGTGCAGGAAGAGGCACCGAGCCTGGGCAAGCCTGTTCTTGTGATGCGCGATAACACTGAACGTCCAGAGGCGGTCGACGCCGGAACGGTGACTCTGATCGGAACCGACGAAGAGCGTATCTTTAAGGAGGTTGACCGGCTCCTGCATGACCAGGCGCACTTCGATTCCATGGCGAACGCTGTCAATCCCTATGGGGACGGCAAGGCCTCCGAACGCACCATAGCGGCGGTGGCGCACCTGCTGAAGGTCGGAGACAGAATCGCCGAATTCGGGCTGTGA	MPSIMPIFGTRPEAIKMAPIVAALHESELFDCVVTVTGQHREMLDQVNELFGIVPDHDLNILQQRQTLSAIMTRTIDGLDKLFSNKKPDAVIVQGDTTTSTAGAIAAFYHGIPVVHVEAGLRSGDLFSPFPEEANRKITSQIASLHLAPTSVSRANLLAEGINASDIVVTGNSVIDALLTTVGKQIPFTDPQLEELAASGRKILLVTTHRRENQGDAMRGVGRALARIADAEPDMMIVLPAHKNPVVREAVLPALEGKPNVIVTEPLAYGEFTRMLSLAHIVLTDSGGVQEEAPSLGKPVLVMRDNTERPEAVDAGTVTLIGTDEERIFKEVDRLLHDQAHFDSMANAVNPYGDGKASERTIAAVAHLLKVGDRIAEFGL	PGPT0018905_961	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
D1-29_02980	2673			hypothetical protein	GTGCCGATTGATTTTGACCTCATGCGGGAGGCTGTAGCACGCCAGCTCCCCGTCGCAGCAGATGAAACTGCCCGATCGCGCGCGGAAACGTTCCTTATAGACGGAAAAATCGTCAGCCCCAGATTTGGGAACCTAGCCTTCAATGGCGGCGAGATCTGGGCAGATACAACCCAACGTTCACAGGCGCGATTTGTTCACGGCTTCCTATTCTTTTCTGACTGGCACGGGACTGTACTCAATGACCCGCACTCGTCGCCGGAGTACGCCGCTTTCGCGATAGGGGTGGCCCGCAACTGGGCTGCAAACTACGCAGACGGCACACGGATCCCCGAAGTCTCGCACCATGACGAGACCACCGCCCAGCGACTTATCCAGCTGACGGCGCTGCTCGTGCGGCTGAAAGACGTCGTATCCTCCGACGATTACAATTGGCTGGCTGGCTTGGCACTGGACACAGCTCGGCTGTTGGCGACAAACGAATTTCATGCCACGGGCAACAACCACGGAATGTTCCAGGACATCTCCCTTGTCTATTTTTCGGTTATGTGTGACTTCGTCTCGCCGCACGAGCGCGAAGGGTTCTTTGAGACAGCCACGGCACGGCTGTATTCATACTTTTCGACATCGTTCACTTCCGACGGTGTTCATATCGAAAATACTCCGACATATCACCTCATGGTGTCCAAGTACGTCCACGGGGTATTGGAAATCCTGTCTCAGACAGGGCACGGCCATGCTGATTATTACAGGTCGCTGCTTCGGAATGCAGCCATGTATGCAACACATGCCGTCATGCCGAATGGAATGTACCCACCCATTAGCGACACGACCCAACAATTGGAAACTCGCGCCGCCCGCCAAAACATCTTTGGCAGTGCGGAATTTGCTTATGCTGCGTCCGCTGGACGCATGGGCTCAAAGCCCTTACAGAGAACATTGGTTTTGCCCGAATCGGGATATGCAATCTATCGAAGCGAATGGGGAAATCCCAAAGCAACCTTCGCCTTCTTCAGCGCGGCCTACAACGCGAACTACCACAAACATTCCGATGACCTGAGTCTGTTTTTGCGCAGCGGTGGCATCGATTTGCTGTCTGAGGCCGGCCCCTATGGATACGACTATAATGATCCACTGACGAAGTACGGCTATTCGTCCTATGCGCACAACTGCATCGTTGTCGACGGCATCTCCCTGCCGCGTACCGACGGATCGGCTCATTTGACCACCCTCGAGGCGCATGAGGTGCGCGAGGACGGCTACAGCGTGACTGGCCGCACTCAGCGCTGGAAGGATACATCTCACTCCAGAACCGTAAGCATTCAGGAGAGAGCAGGAATTCCCTACATTGATGTTTCGGACACCGTCGAAAGCCAGGAAGAACACACCTACGAATTGCTGTGGAACCTCGGCACGGATGTTGAAGCCGTTGTCCACGGGCAGGGCTTCGAGCTGTTCCATGGTGGCCGGAAGGTCATGGATTTGCACTTTGATGCGAATGTCGCCACCAAAGTCTCACTCCACAAAGGAGAGGAACGGCCTAAGCCCCTCGGCTGGCGCTTTCCTCGCTTCGGCGAAGCAATGCCTGCTCCGGTCGTAAAAATCTCATTTCAAGGAAGCCACGCTCAGCTTCGCACGCGCATCCGATTGGCAGAGTTCAACTATCTCGACCGCGGACTGAACGATAAATCGAATGGCTGGCTTCGCAGCAGTGGAAGCGTCAGTTTGAACTACCTCCAGGTACCGGCCAGCTCAGCGATGGGACAAAGCAAGCTTGCCGTCGTTTTTACTGCCATCCACCAGCCGGGCGACTTCACGTTCAACTACAAGAAGTCCGTTGATACAACCGGTGTTCATGCCCTGTATATCCTTGATGACTTCGGGGACCAGGGATCCTACTACTTGAGCGACCATGGCGACCTGTCCATTTTTGACGCTACACAAGCGCTCATTGCACGCGAGTTGGACCGCCTCGGCCTCACTGCCAGCGACCTCATTACGGCAGGTTCCTCGAAAGGCGGGACCGCAGCCATACTCCACGGCATCGCCGCCGGGGCCGGACACATTATCGTCGGAGCACCACAGGTCAAAATCGGTTCATTCCTGCAGGTCCCGCACCCCAACATGCTCGAATTCATGATGGGCGACACCAGCGACAGATCGGTGAACGTCCTCGATGCGGTCGTTTTCGAAGCCATCGACGATATGCTCGACAGCACCCGGCTATCGATATTGGTGGGCGAGGCAGACCACCACTACAAGAACCACGTCCTCCCGTTGAAATCCCACGCTGAGAACTGCCAAAAACAACTCGACCTCACAGTTCTGCCTGGGCTTCCCCACGCCGAGATCGGAGCTGTATATCGACAATTCCTCACCTCGAAGATTGAGCAAGAGATCTCTGAATCAGGCGAAGAGACAGTCCCGTTCACATTCCAAAAATCAGGCGGAGATCCGGCGGCAATAAGTCTTGACGTCTTTATGCCGGCCGGCTGGCAACTTGCATCGCGTCTGTACTGTGGCACGGAGTCCGTCGCCAGAAAGCCGTATAGCTCGGACAGCACCGCCCTATGGAGGGAGATGCCCGCAGGACGCTACCGGGCAAGGGTATTCGTGAGAAACCCCGAGGACGATGATGTCCGAGCTTTCACCACGCCCTGGGTGACGCTTCCGTGA	MPIDFDLMREAVARQLPVAADETARSRAETFLIDGKIVSPRFGNLAFNGGEIWADTTQRSQARFVHGFLFFSDWHGTVLNDPHSSPEYAAFAIGVARNWAANYADGTRIPEVSHHDETTAQRLIQLTALLVRLKDVVSSDDYNWLAGLALDTARLLATNEFHATGNNHGMFQDISLVYFSVMCDFVSPHEREGFFETATARLYSYFSTSFTSDGVHIENTPTYHLMVSKYVHGVLEILSQTGHGHADYYRSLLRNAAMYATHAVMPNGMYPPISDTTQQLETRAARQNIFGSAEFAYAASAGRMGSKPLQRTLVLPESGYAIYRSEWGNPKATFAFFSAAYNANYHKHSDDLSLFLRSGGIDLLSEAGPYGYDYNDPLTKYGYSSYAHNCIVVDGISLPRTDGSAHLTTLEAHEVREDGYSVTGRTQRWKDTSHSRTVSIQERAGIPYIDVSDTVESQEEHTYELLWNLGTDVEAVVHGQGFELFHGGRKVMDLHFDANVATKVSLHKGEERPKPLGWRFPRFGEAMPAPVVKISFQGSHAQLRTRIRLAEFNYLDRGLNDKSNGWLRSSGSVSLNYLQVPASSAMGQSKLAVVFTAIHQPGDFTFNYKKSVDTTGVHALYILDDFGDQGSYYLSDHGDLSIFDATQALIARELDRLGLTASDLITAGSSKGGTAAILHGIAAGAGHIIVGAPQVKIGSFLQVPHPNMLEFMMGDTSDRSVNVLDAVVFEAIDDMLDSTRLSILVGEADHHYKNHVLPLKSHAENCQKQLDLTVLPGLPHAEIGAVYRQFLTSKIEQEISESGEETVPFTFQKSGGDPAAISLDVFMPAGWQLASRLYCGTESVARKPYSSDSTALWREMPAGRYRARVFVRNPEDDDVRAFTTPWVTLP				NA	NA	NA	NA	NA
D1-29_02981	2298			hypothetical protein	ATGGAATCTCCGAACAAGCCGTTCTTGTTCCGTATGCTCCGTCGTGCTCCGAAGGGGTGGTTGAGGGCTGCGCTAAGCCCCGCTGCGACGGGCACGGCGCTAGCTATCCTGGCAAGTACGTTAGTTGCAGGCCCTGCAGCGGCTGCTACTTTGAGCGAGCAGCGTGCTGCCCTGCGCCAGATCACTTACGCTGCGGGCACGGACTACGCGAACGCCCGCCCGTTTGTGGCGGAGCTGGCCAGGAGGAATGCACTGACGGTCAAGGATGCAATAGCAGCAGGCACTGCATCCCTTAAGGCTGCTGGTGATGAGCTGACGTTGGCGAAGACTCAAGAGGCGATGGATGCAGTGGCCTCACGGATCAGGGAAGAGGCAACGAGGGCGGGGACAGTTCGGAAGGTTGCTGAACAGCTCTCCATTTTGGTTGATCTTCGAAGTGCCCAACAAGCCGTTGCCACAAAGGCCCTAAACGACTTATCGGCCGCCCGAATAACGCTCAGCACCTATGGGGGATCAAAGGACAGAACCAGCGCCTTCACCACGCAACTCGCGGCGGATCTCACCATCCAGTTAGGTGTTATCGGCAAACCCGTCCCGGCACCGGACCTGAAATCCGGGGCCTGGCTCTCGACGCTACAGAATGGGACAGGCCCAATCCCGGCCGTTCCAGGCTGGGTTGGATTCCCGGGCGGGTGCGCTTTGCCTTCTGCCAGCAGCACATTCGTCCCCGTTCTTCCGACAGATGGTCCTGGCGTTGGCACGTCGAAGCAACTGGTAGCCGATGCGAAATCCCGCCAGGGGGCAGACACCGCACTGGCGTCGGTCCATGCCCAGATGCTTCGGTCCGCGTCCGCGGAATCGGCCCGGACCATGCCATTGGCGGAACTTCGTGAGGCCTACGTTCCCCGCGTGGCCCGGTTGGGATATGGCTGGCTGTCCGGCGCCGACAGCGTATCCCGAAGCGTCCTTGCCGCGGAAGCCAACCAAATACTCGCAGCCGGCCCCGAGGACATGGACACTCTGTCGTCTTCCCATTTGCTGCTCGCTGCGGCGACAGCGACGGATTGGGCCAAGGCGAGCGGCATGGAGGAGAATGTACTCGTCCGATGGCTCGGGCCGCAGACTTGTCTGCAGGCCGACGGTGAAAACTTCGTGGATGCCGCAACTAACATCGCCGCGATCCATAACGCTGCTAATTTTGTAGCCGCGGCGGTTTTTCTCAAGAAGTCTCCGGCACGAGCTGCTGCGCTGGCTAAGGAGTCCCTTAGTTCAATCCAGCCGGCCCTTGGAATGATTACCACGGACGGTGGTACCCAGGAAGGCCCGGGGTATTGGACTTACCAAAGTCGGGCAATATCCGTGCTGTACTCCACATTGCCCAATGCATATTCAGCAATTCCAGTCTCGATGCCAACACTCGCCAGGGTTTCAGGCTACGCGATGAACAGCACGGATCCTGACAACCGGCCAACGCCATTCGCCGACGCTAGTCCAGCCGAACTGAGTCCGCTGATGCCCGCCTGGGATGCCCATGTTCGGAAGGACCCTGCGGTTGCGGCGTGGGTTGCCGAAAGGTTTAAGCAGAAGCCTGATGCCTATCTTATGTGGTGGAGTTCGCCGGCAGGTGTGCTGCCTGCAAAGAAGTCGTCGGTCTACCCGCAGACGGGACTGGCTGCCCTCCATCTGCCGGCAAGCACAGCGACGCTCAAGGGTGGTGTGAACAGCGCCAACCATGCTCATCTTGATCTGGGAACAGTTTCCTTCTATCGCCGCGGGGTTCAGTGGTCGGTGGATCCTGGCACTCCGGAAGGAGCTGCGCCGGGCTACTACTCGGACCCGACGCGCTGGACCTATTGGAAGCCAGGTACATCCGCCCACTCGACCTTGATGGTACAAGGCACAAACCAGCCAACAACTGCAACTGCGCCCGTGACTATGCCCACTACGTCCAGCGCTCTAGTGGACCTGCGGAAGGCGTTCCCGGGATCGACCCTGGCAACCCGCTCAGTTGACCACGGACAGTCCGCGATGGTGATCAAAGACACCATTCGATCGGACAAACCTGTGGACCTTGTTTGGCAGTGGGTGACTGATGCCTCGGTAAGTTTGGGCTCTGATCGCGCAGTTCTTCGGCGCAGCGGACAGACTCTGGTCCTCCGATTTGCTGGTATTCCTGCTGGCGCCTCACTCACTGCGGTACCTGCCCCGGAGAACGGACCGGGCGGTCAACCATTGACCATCGTCAAGCTAACCATGCCGCAGGTACAGAACCTGGCCCTTACCACCTCGGCATATTAG	MESPNKPFLFRMLRRAPKGWLRAALSPAATGTALAILASTLVAGPAAAATLSEQRAALRQITYAAGTDYANARPFVAELARRNALTVKDAIAAGTASLKAAGDELTLAKTQEAMDAVASRIREEATRAGTVRKVAEQLSILVDLRSAQQAVATKALNDLSAARITLSTYGGSKDRTSAFTTQLAADLTIQLGVIGKPVPAPDLKSGAWLSTLQNGTGPIPAVPGWVGFPGGCALPSASSTFVPVLPTDGPGVGTSKQLVADAKSRQGADTALASVHAQMLRSASAESARTMPLAELREAYVPRVARLGYGWLSGADSVSRSVLAAEANQILAAGPEDMDTLSSSHLLLAAATATDWAKASGMEENVLVRWLGPQTCLQADGENFVDAATNIAAIHNAANFVAAAVFLKKSPARAAALAKESLSSIQPALGMITTDGGTQEGPGYWTYQSRAISVLYSTLPNAYSAIPVSMPTLARVSGYAMNSTDPDNRPTPFADASPAELSPLMPAWDAHVRKDPAVAAWVAERFKQKPDAYLMWWSSPAGVLPAKKSSVYPQTGLAALHLPASTATLKGGVNSANHAHLDLGTVSFYRRGVQWSVDPGTPEGAAPGYYSDPTRWTYWKPGTSAHSTLMVQGTNQPTTATAPVTMPTTSSALVDLRKAFPGSTLATRSVDHGQSAMVIKDTIRSDKPVDLVWQWVTDASVSLGSDRAVLRRSGQTLVLRFAGIPAGASLTAVPAPENGPGGQPLTIVKLTMPQVQNLALTTSAY				NA	NA	NA	NA	NA
D1-29_02982	1011	dapH		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	ATGAGAACATTGCAAAATACAGAAATTGAACTCAAAAATTTTTTTCAATTACAGGTAAAAGTAAATTTCAACGCGAGACTGTATGCTTTCTATCTATTCCGGAACGATGAAGTGATTGAGCGAACACCTTACACCGTTCAGCCCACTCATACTTTCCCGCTGGACAAAGCAGGAGTCTATCGCGTAAAGTCCTATGCCAAATCTGATTCCGGTGAGATCATCTCCGAGATATCAGAGCGCTTTCGTTTTGAAGGCTTCAGCGATGTTCCCCGGTTACCGGATACAAAAAATGTTGCAGTCTTCGGCGTAAACCGAACTTCCGGATTTGCTGCCCATGTTTTTGCAGCAAGAAATAACGTCCTCTGTTTCGTCGACCCAGTCGGGGAATACATCGGAGCAGATTTTTTTGGTCGCACAGTCGTCGGGATCGATGAGATGCCGGCGGAGGCCATCGCAGTCGGCCATGAGATGTATGAGCCTGAATACGCCGGACTGCACGATTTCACACTCGCCAATGGCGCTGTTGATATTCTATCCAAAGAGCTTCATCGGTTCAGCGTCATGGATTTATACCGATTGTCTCGCTCGGCTTATCTCGAAGGATTTAAGGAGGGTGCAATGCATATTCAGACGTTTATCTTCAATAAGTTCAATTGCCGCGTACCCTTTCTGGCCACCATTGGGGAAGGAACTCGGCTGGGGATAGGTGGTATCGGGACCGTAATCCACCCAGATTCAGTGATAGGCCGGGACTGCGTCATTGCGCAGAATGTGACGTTGGGTGGCCGAGTCCGAGGGAATGGGACGCCCATCATTGGCAACAATGTATTTATTGCCCCTGGCGCCAAGTGCTTCGGAGGGAAAATCGGTAATAACGTGGTTATCGGAGCCAATGCCGTAGTGCTGGATGAGGTTCCGGATAACTGCGTGGTCGCCGGCGTTCCTGCCCGGATAATCAGCAGGGACATGTCGCGCTACACGGATTACACCGCACGCCCCAGCCGGGCATGA	MRTLQNTEIELKNFFQLQVKVNFNARLYAFYLFRNDEVIERTPYTVQPTHTFPLDKAGVYRVKSYAKSDSGEIISEISERFRFEGFSDVPRLPDTKNVAVFGVNRTSGFAAHVFAARNNVLCFVDPVGEYIGADFFGRTVVGIDEMPAEAIAVGHEMYEPEYAGLHDFTLANGAVDILSKELHRFSVMDLYRLSRSAYLEGFKEGAMHIQTFIFNKFNCRVPFLATIGEGTRLGIGGIGTVIHPDSVIGRDCVIAQNVTLGGRVRGNGTPIIGNNVFIAPGAKCFGGKIGNNVVIGANAVVLDEVPDNCVVAGVPARIISRDMSRYTDYTARPSRA				NA	NA	NA	NA	NA
D1-29_02983	4437	mshA_3		D-inositol-3-phosphate glycosyltransferase	TTGAAGTATGCAGATGAAGTTGCCCAGCTGGCAACGGTGAAATTGGCCAAACGTAAGAGGTATCTGCGGGATATTGACGCCGTCATCCAGGACTATGAGCGACTCTTGGCCCATGAAGCAAAAAGTCGACGACGGGTTGAAGTCCTTGAAAAGGACCTTCGGGCCATGCGACGGGCCCGGGACAACGCCATGGCTGAGCTGAAATCGGCGAACGATGACCGAAACAAACTCAAATCAACGCTAAAAGCCCTTCGCTCTTCCAAGAGCCTTCGATTGGGGCAGGCAATCCTTGCCCCCGCACGGAGTCTCTCGCGCGTCTTAAGTGACAAAGGAACGTCGGCTCAGATTAGTCCAAATTTGCCGGTGCGCTCGACAGCAGGAGGGCCCGTCCAGCCTGCGAAGCAGCCAGGCGGCTCTAAGGCGCCGCAAGCCGTTTCCAGACCCGTCAAGACCGCGGCACCTACCCCTGTCAGGCGCGAAGACCTCATCAGTGAGGTTGAGGCGAATCCGTCTAAGGCGGCCGCTCTGAAGCTGATTTCACACGACTACTTCACCAGGGGAGCGATCCTGGAACCCGCGGAGTTCATTCTGGAGAACTCCGCACTGCTGACAGACCTGACTGGTTCCGACCTCGCGCTTGTACAAAATGTTCTTGGGCAGCGCGAACTGCTGACCCGGGAGCAGTTTCTCTCCCCTCGGCAACCCAATGCAGGATACTTGGCGGAGCGCAACCGGATCATGTACTGCGCTCACAGCACCGGCCACTACAACAGCAACGGCTATGCGACACGAACCGGGGGTGTCGTCGCCGGGCTCAAAGCAAATGGCGAAGACGTGTTGGTCGTGGCGCGTCCCGGGTACCCCTGGGATTCGAAAGTCGATGTTGAGGTTTCATCCAAGGAACGCTTTGAACGTGAGATCAGTGGTGTCGCGCATATCTTTAATCCTGGACCAAGTTGGACCGCCGACCGTCTCGACTATTATCTGGCTGAGTCCGTCGACGTCTACGTTCGCGAAGCCCAGCGCAATCGGGTCTCGCTTATCCAATCTGCATCTAACTATGTGACGGCCCTCCCGGCTCTTATGGCGGCTCGAAGGCTTGGCATCCCATTCGCCTATGAAGTGCGCGGTCTTTGGGAGATCACACAGCTATCAAACAACCCCCTCTGGGCTGAAACAGACCGCTACAAGCTTGCCCTCAAACTTGAAACCCTCGTGGCCAGGGAAGCCGATCTCGTCCTGGCAATAACCAGCCAGGTGCGGGATGAACTGGTGGTGCGCGGGGTTGATTCAACCGCTATCAGCTTGATGCCTAATTCGGTCGACACGGACACGTTTGCTCCGATGCCTGCTCTTAAGTCGCTTCGTCGAGAACTTGGACTTGCGGAGACGACAACTGTCGTCGGCTACGCCGGGAGCCTCGTCGCCTATGAGGGCCTCGAGGATCTCCTGGAGGCGGCCCGGATAGTCCTGGCTGGCGGGCTTGATGTCACGTTTGTGATCGTGGGAGACGGCGTTCAGTTGCGTGAACTGAAACGGTTGGCCGTTGAACTCGGAATCGCTGAAAGCGTCAAGTTCACCGGTAGAGTGCCGGCCGGAGAAATTCCGAATTATGTCAGTCTTTTTGACATCATGCCTTGCCCCCGGAGGAGGTTGCCGGTTACCGAAATGGTTTCACCGCTAAAACCCCTCGAGGCCATGGCAAGCGCCAAGGCTTTGATTCTCAGCGACCTCGCACCTTTGCGCGATCTGGCCGGACCCGGGCAGGATCGAGCTTTGCTCTCCGAAGCCGGGAATCCGAGCTCTCTCGCTGAGGCCATCCAAGTTTTGGCCCGGGATCCCGAACGTCGGGCTGTCATGGGCAGACGGGCGCGCCTATGGGCTATCGACGAACGAACATGGAGGTTTACCGGCAGCAAGGCAGTTGAAGCCCACGTGCGTGCCGGCAAGCGCACGGCACCGCCCAAAGGACGGCGCTTGTCGGAGCTGACCGTCGGCATCATTGCCGATGAATTCACTCTGGAGGGGATGCGAGGCGAATCCAAAATGGTGGAGCTCCGTCCGGACTCTTGGCGCCAGCAGGTGGATGCGCAGCCGCTGGATGCTCTGCTGGTAGAGTCCGCGTGGGAGGGCATCGACGGCGAGTGGAAGCAAAAGGTCGGCTACTATGACGACGAGCGATTCTCCGCCCTGAGAGCTATCCTGGAACACTGCAATGCCGCGGGAGTCCCTACGATCTTCTGGAATAAGGAAGATCCTGTCCACTTCAACAGATTCAGCCATACCGCGTACCATTTTGACCACGTGTTCACGACAGATTCGGACTGCATCCGTCGGTACATGGCTCATGGCGGTCCCCGACAGCGAACGGTGGCCTCGCTTTCCTTCTATGCCCAGTCCCGGCTACATAATATCGTGCCATCTGGCCGGCCATATGATCACTCCGTCGCCTACGCCGGTTCGTTCTATGGCGAGAGGTATAAGGCACGGTCAGAAGAACTAGCCATGATCCTTGACGTTGCCAAAAACCACGGGTTGTCGATTTACGACAGGCAGCACCTAAACCCGGACAGTCCCTACCGGTTCCCTGAACATCTCGCCCGATACGTGCGTGGCGGTCTGACCTACGCCGAAATGGTTGATGCGTATAAAACGCATCCTGTGCACGTGAATGTGAACTCTGTCGACGGTTCACCGACCATGTTCTCGAGGCGCGTCATGGAGGTAGCGGCGTCCGGCTCGGCGGTCTTGAGCGGGAAAGGCATTGGTGTTAACCAGGTCATGAATGGACTTGTGCCGGTCATCGACGGCGCAGAAGACTTGGAGCTGCTTATTGGCGAATGGATGAATAATGAGTCAGCGCGGATAAGGGACGCTTGGCTCGCATACAGGCATGTCCACCGGGGGCATACCGCGGCTCATCGGTTGGCGTACATACTTCGAACTGCCGGGCTGGTCATTGAAGCACCAGAGATCCCCAGTTATTCGGTATTCGTTGATACCTATACCCCGGAAATTGCCTCGGTGATCGCTATGCAGACCGTGCAACCAGTCCGGATCTACTGCATCGAAAACAGAATGGTCCCGGAATTAGCCATAGAGATCGTGGCTAGTTTCGCCGAGGCCGCCGACATGGCGATGGCTGAGGGGGTCCAATTTATAGGTTCACCTGGAACAGGACATGGCGATCGAACGGTATTCGAGGACATGCTCACCGCCACCACGTTTGGTACGTGGAGTGCGGTCGGGATTGAGAGAGACAACCTGGACACGCCAGGTCTTGGGCTGGCCCGTCATGGTTCAGCGGCATCGGGCGGGCCGGTGCTCACGGCCCTCGTGGACCGGCAAAATGACGGCCCTCTCTGTCTCCGGCGTGAACTCGTACCCCAGGAGCACTTGTCCTCGGTGCGTTTGGTTAGCAAACCAAGAAGCGTACTGATTGCAGGGCACGACCTAAAATTCGCCGCGGGCATCGTTTCGGAGCTTGAGGCGTTGGGGCATAGCGTCATGATCGACAAATGGTCGGATCATAACAAACACGATGAAAGTGAAAGCCAGCGCATGCTGGCCCAGGCTGATGTTATTTTTTGTGAATGGACACTCGGGAATGCCGTTTGGTATTCAAAGAATAAGTCTTCGAATCAGCGTCTGGTCACTAGGCTTCATCTTCAAGAGATCTTTCGGCCCTTTGTTAAGGATGTTTCCTACGCGAGTGTGGATGACGTGGTCTTTGTTGGAAAGCATCTCCTCGAGGTGGCCGTCAGGGACCACGGTGTTCCGCGAAGTATCAGTCGTGTGATTCCGAACGCAGTAGACACGGTGGGGCTTCGCCAGGATAAAGTGGCCGACGCCAGGTTCAATCTCGGCTTTGTTGGAATTGTTCCTGCCCGCAAACGGCTGGATAAGGCCTTGGACGTTCTACGGCTTCTCCGCATGCAGGACGATCGTTACCAGCTTTTCATCAAGGGTAAGCGGCCGGAAGAGTTCGATTGGATGGCGAATCGACCGGAGGAGATGTCGTTTTACGATGAGCAGTACCGGCGTATCGAAACCGATCCGCTTCTTGTGGGCGCTGTCACATTTGATGGCCAGGGCGACGACATGGCAGCCTGGTACCGCAAGATCGGAGTGGTTCTGTCCCTGAGCGACTTCGAATCATTCCACCTCACCCTTCCCGATGGCGCTGCCTCCGGCGCGCTGCCTGCAAGCCTGGCATGGCCGGGCGCTGACCAGATTTACCCGACAAGCTGGCTTCATGCAGATGCGGGCGAACTCGCTGAGTTCCTCGGATCGTTGGACGACAGTTCGTGGGCCCATGCTTCGGCAATGGCACAGGACTACGTTGTCTCCCGATTCGACTCCAAAGATGTGCTTGCTGCGATGACTGGCGTCATCCTCGGTGAAAACTCGTCAGTGCCCGGCCGACCGCAGGGGTAA	MKYADEVAQLATVKLAKRKRYLRDIDAVIQDYERLLAHEAKSRRRVEVLEKDLRAMRRARDNAMAELKSANDDRNKLKSTLKALRSSKSLRLGQAILAPARSLSRVLSDKGTSAQISPNLPVRSTAGGPVQPAKQPGGSKAPQAVSRPVKTAAPTPVRREDLISEVEANPSKAAALKLISHDYFTRGAILEPAEFILENSALLTDLTGSDLALVQNVLGQRELLTREQFLSPRQPNAGYLAERNRIMYCAHSTGHYNSNGYATRTGGVVAGLKANGEDVLVVARPGYPWDSKVDVEVSSKERFEREISGVAHIFNPGPSWTADRLDYYLAESVDVYVREAQRNRVSLIQSASNYVTALPALMAARRLGIPFAYEVRGLWEITQLSNNPLWAETDRYKLALKLETLVAREADLVLAITSQVRDELVVRGVDSTAISLMPNSVDTDTFAPMPALKSLRRELGLAETTTVVGYAGSLVAYEGLEDLLEAARIVLAGGLDVTFVIVGDGVQLRELKRLAVELGIAESVKFTGRVPAGEIPNYVSLFDIMPCPRRRLPVTEMVSPLKPLEAMASAKALILSDLAPLRDLAGPGQDRALLSEAGNPSSLAEAIQVLARDPERRAVMGRRARLWAIDERTWRFTGSKAVEAHVRAGKRTAPPKGRRLSELTVGIIADEFTLEGMRGESKMVELRPDSWRQQVDAQPLDALLVESAWEGIDGEWKQKVGYYDDERFSALRAILEHCNAAGVPTIFWNKEDPVHFNRFSHTAYHFDHVFTTDSDCIRRYMAHGGPRQRTVASLSFYAQSRLHNIVPSGRPYDHSVAYAGSFYGERYKARSEELAMILDVAKNHGLSIYDRQHLNPDSPYRFPEHLARYVRGGLTYAEMVDAYKTHPVHVNVNSVDGSPTMFSRRVMEVAASGSAVLSGKGIGVNQVMNGLVPVIDGAEDLELLIGEWMNNESARIRDAWLAYRHVHRGHTAAHRLAYILRTAGLVIEAPEIPSYSVFVDTYTPEIASVIAMQTVQPVRIYCIENRMVPELAIEIVASFAEAADMAMAEGVQFIGSPGTGHGDRTVFEDMLTATTFGTWSAVGIERDNLDTPGLGLARHGSAASGGPVLTALVDRQNDGPLCLRRELVPQEHLSSVRLVSKPRSVLIAGHDLKFAAGIVSELEALGHSVMIDKWSDHNKHDESESQRMLAQADVIFCEWTLGNAVWYSKNKSSNQRLVTRLHLQEIFRPFVKDVSYASVDDVVFVGKHLLEVAVRDHGVPRSISRVIPNAVDTVGLRQDKVADARFNLGFVGIVPARKRLDKALDVLRLLRMQDDRYQLFIKGKRPEEFDWMANRPEEMSFYDEQYRRIETDPLLVGAVTFDGQGDDMAAWYRKIGVVLSLSDFESFHLTLPDGAASGALPASLAWPGADQIYPTSWLHADAGELAEFLGSLDDSSWAHASAMAQDYVVSRFDSKDVLAAMTGVILGENSSVPGRPQG				NA	NA	NA	NA	NA
D1-29_02984	1248	wecC	COG0677	UDP-N-acetyl-D-mannosamine dehydrogenase	TTGAATACGATTGAAACAGTAGCTGTCATTGGTTTGGGCTATATCGGTCTGCCGACGGCGGCGATCCTTGCCGGCAACGGCATCCACGTTATCGGGGTGGACGTCAACGCCAACACGGTCGAGTCCGTCAACCGAGGCGAAGTTCCTTTTGTAGAGCCAGACTTGGCTTCCTATGTCGCCGGCGCGGTGAGCCAGCACAAGCTGAGCGCGTCCACTGAAACGCCGGTTGCCCAAGCGTACATCGTTGCGGTGCCCACGCCATTCAACCCGGACCACACGGCAGACGTGACCTACATCAAGGCGGCCGCACGTGGTATCGCGCCGCAGCTTGTGGGCGGGGAACTAGTCATACTGGAGTCCACTTCGCCTCCGGGAACCACCCAGCTTCTGGGTGATTACCTCATCAGTCTCCGGCCGGACCTCAGCCTCGACGGAGCTGACGGCAGGCCGTCCATCCATGTGGCCCATTGTCCAGAGCGCGTCCTGCCTGGCCGAATCATGATTGAGCTTGTCACGAACGACCGAATCGTGGGTGGCCTCACCCCCGAAGCTGCCCAACTTGCCAAAGCACTCTACGCAGTCTTCTGCCAGGGAGAAATCCTGGTAACCGATGCGGCCACCGCGGAAATGGCAAAGCTGGTGGAGAATTCATATCGGGACGTCAATATCGCCTTTGCGAACGAGCTCTCGGTGATCAGCGACAAACTTGGTATTAACGTTTGGGAACTCATTAGGCTTGCCAACCACCATCCTCGCGTCAATATCCTGCAGCCAGGGCCGGGTGTTGGCGGTCACTGCATCGCCGTGGACCCCTGGTTCATTGTCGCTGCGGCCCCGGAGGAGGCGCAGCTCATCCGGCAGGCACGGGAGACAAACGACTCGAAGCCCGATTGGGTCGTACGAAAAGTGCAAGAGGCAGTAGGCGGTGTCGTCTCGCCAAAGATTGCTGTCCTCGGACTGGCGTTCAAAGCCAACATCGATGACCTCCGCGAGTCGCCGGCCGTTGCCATCGTCGAAAAGCTCAGCCTGAAGCTCGATGGCGCTGAACTCCTGGTTGTGGAACCTCATGTGGACCGCCTGCCGAAGCAGCTTTCCGGTCTGAACAATGTAATGCTGCAGGACTTGGACATGGCCGTTGGTGCGGCCGACGCAGTCGTGCTCCTCGTGGATCACGACGCATTTAGAGAAATGGACCGGCAGGTCATGCGCGGAAAGCCATTCTTGGACACGCGGGGAATCTGGCAGTAA	MNTIETVAVIGLGYIGLPTAAILAGNGIHVIGVDVNANTVESVNRGEVPFVEPDLASYVAGAVSQHKLSASTETPVAQAYIVAVPTPFNPDHTADVTYIKAAARGIAPQLVGGELVILESTSPPGTTQLLGDYLISLRPDLSLDGADGRPSIHVAHCPERVLPGRIMIELVTNDRIVGGLTPEAAQLAKALYAVFCQGEILVTDAATAEMAKLVENSYRDVNIAFANELSVISDKLGINVWELIRLANHHPRVNILQPGPGVGGHCIAVDPWFIVAAAPEEAQLIRQARETNDSKPDWVVRKVQEAVGGVVSPKIAVLGLAFKANIDDLRESPAVAIVEKLSLKLDGAELLVVEPHVDRLPKQLSGLNNVMLQDLDMAVGAADAVVLLVDHDAFREMDRQVMRGKPFLDTRGIWQ	PGPT0022670_253	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-UDP-N-ACETYL-D-MANNOSAMINE_METABOLISM	CE-EPS-UDP-N_ACETYL_D_MANNOSAMINE_MODIFICATION,PGPT0022670-wecC-K02472	NA	NA
D1-29_02985	1860			hypothetical protein	TTGCGGCAGGTCCGGACGTGGCGGGAGCGTGAAGCCTTCGAGGCCGGCCACCGTAAACTGGCGACCGTTCGCGGCGCTGAGGGTGTATGGGTTGGCCGCGGCAGAAAAAAGCAGCTGAAATTCCGGCCGTCTGTGGTGCCGCCCGCCCGCCTGAGTTCCCCGAAGATGGCTCGTGTAGGTGTGGTTTTCGATGATTTTTCTGCACTCGGCTTCGGCCTCGAGTGGGATTGCGTGCATCTCTCCCCAAAGACTTGGCGCGAGCAACTCTCCGAGCAAGATGTGGACATGGTGTTCATTGAGTCGGCTTGGAAGGGGCTACAAGGGCTGTGGGCAGGAAAGATTGCCCGTCAGGACCATATGGGACAATCACCATTGCGGGAGTTGACCGATTGGTGCCGGGAGCGATCTATTCCCACAGCATTCTGGAACAAGGAGGATCCTCCGCACTACGACGACTTTCTCGCGTCGGCAAAATTGTTCGACTTCGTGTTCACGAGCGACACCAACAGGGTTGAAGCGTACATTCGGGATCTGGGGCACGACCGGGTGGACGTGTTGTCCTTCGCAGCCCAGCCTGTCATTCACAATCCCGTTCGCCCCAAACACGGCTGGCACGAACGAGATGTGGCCTTCGGAGGGATGTATTTCACGGCGAAGTACCCAGACCGCCGCCGGCAGTTGGATACCTTGCTAAGTGCAGCTGATGCAGCCTCACCTGCGATGGAAACCGGGTTGGAGATCTTCTCGCGGCAGCTGGGCGGAGACCCTAGATACCAGTTCCCGGCTCCGTTCGATGCCAGGGTTGTGGGCAAGCTGGACTACTTGGAGATGGTTACGGCCTACAAGGCCTACAAAACTTTCCTCAACGTGAACTCGGTGGTGGACTCTCCCACCATGTGTTCCCGCCGGGTTTTTGAGATCATTGCCTCAGGATCAAACCTGTTGACGACCCCCAGCGCTGCCATAAACACTCACTTCTCCCCGGATGAAATCTTCACTGTTGACACCGAGGCTGAAGCCGAACACCTCCTGCGGGCCTTGCATCGAAATCCGGAATTGGGTGAGCGCCAACTGCACAAGGGTCAGCGGAGGATCTGGCGGGAACACACTTACCAGGCGAGGAGCAACCAAATACTGGCAGCCGTGGCACCGAAGCTGTTGGTTGAGGCCCGGCGCCCGACCGTATCCGTTCTTGTATCGACCATTCGTCCTTGGCAGCTTGAACACGTTTTCCAAACCGTTGGAAGCCAGCGCGGCGTCGACGCAGAGCTGGTGTTGTTGACGCACGGATTCACGGCCGACGCACTGACGATCCGTAATCTGAAAGATCAATACGGAGTTTCAGCTATAACACTGCTTGCAGCGGACGCTCAGGTTCCCTTGGGGGAGTGCCTCAATATGTGTGTATCGGCGGCCTCCGGAGAGGTCCTGACGAAGATGGATGACGACGACTTTTACGCCCCGGAATATCTCAGTGACCAGCTCTATTCGCTCGCCTTTTCCGGTTCGGATGTGGTCGGTAAACAGGCGCACTACATGTTTCTTGTGGACCGGAATGCAACGCTGCTTCGCTTTCCCGAGTGGGAACACCGATATACTCGGACGGTCATGGGTCCCACAATCATGGGCGCCGCGGACGTTTTCCGCAGCAGCCCTTTTGCCGCGGTGGGCAGCGGAGAAGATACACGTTTCCTCCGCCGTGTGGTTGGCGACGGTGGCGTGGTCTATGCATCTGACAGGTTTAATTACTGCCAGCAGCGGTCGTCAACAGGGCACACCTGGAAGGTCGGCGAGAACGAGCTGCTGGCCAGCAGTGCTTTGAAGTTTTTTGGAAATTACAGAGATCAAGTCTCTGTCTGA	MRQVRTWREREAFEAGHRKLATVRGAEGVWVGRGRKKQLKFRPSVVPPARLSSPKMARVGVVFDDFSALGFGLEWDCVHLSPKTWREQLSEQDVDMVFIESAWKGLQGLWAGKIARQDHMGQSPLRELTDWCRERSIPTAFWNKEDPPHYDDFLASAKLFDFVFTSDTNRVEAYIRDLGHDRVDVLSFAAQPVIHNPVRPKHGWHERDVAFGGMYFTAKYPDRRRQLDTLLSAADAASPAMETGLEIFSRQLGGDPRYQFPAPFDARVVGKLDYLEMVTAYKAYKTFLNVNSVVDSPTMCSRRVFEIIASGSNLLTTPSAAINTHFSPDEIFTVDTEAEAEHLLRALHRNPELGERQLHKGQRRIWREHTYQARSNQILAAVAPKLLVEARRPTVSVLVSTIRPWQLEHVFQTVGSQRGVDAELVLLTHGFTADALTIRNLKDQYGVSAITLLAADAQVPLGECLNMCVSAASGEVLTKMDDDDFYAPEYLSDQLYSLAFSGSDVVGKQAHYMFLVDRNATLLRFPEWEHRYTRTVMGPTIMGAADVFRSSPFAAVGSGEDTRFLRRVVGDGGVVYASDRFNYCQQRSSTGHTWKVGENELLASSALKFFGNYRDQVSV				NA	NA	NA	NA	NA
D1-29_02986	891	btuD_12		Vitamin B12 import ATP-binding protein BtuD	ATGGGCGAGAACTCTGAGCTGAATTTTGTCGAAGGGACGCCGTCCGTCGTCATCGACAAGGTCAGCATGACCTACAAAACCACTTCCCGGTCCCGCGTTGAGGCCTCTTCTGCCGGCTCTACCTGGCAGATGATCAAACAGAACGTGGGGAAGACTACGGCTGTCAGTGTCACGGCACTAAAGGAGTTGTCCCTTGTCGTCGAGCACGGGGAGTCTGTCGGGATTATTGGCCGTAATGGTTCGGGCAAAAGTACCTTGCTCAAAGTGGTGGGCGGGCAGATTCCTCCGACATCCGGTGCGGTTTACGCCACATCCACGCCAGTTATGCTGGGCGTCAACGCAGCACTGATACCCGGATTGTCAGGCGACCAGAACATAGTTCTGGGCTGTCTGGCTATGGGCATGTCCCGGCATCAGATCGATGACAAGTACTCAGCGATTGTCGAGTTATCCGGGTTGGACGAAGCAATCCATATGCCGATGAAATCCTATTCCGCTGGCATGGCTTCCCGGCTCCGCTTTGCAATTGCTGCGGCAATCGATCCGGAAATTCTGATAATTGATGAAGCACTGAACACGGGCGATGCACAATTCAAGGACCGAACGCGCAAACGTATGTTGGAACTGCTTGGCCAGGCTGGCACGGTCTTCCTGGTCAGCCACAGCATGTCCACTGTGCTCGACTTGTGCAATAGAGCCATTTGGATCGATCAGGGAGAGTTGCTTGCTGACGGCACACCGGCGGACGTGGTCAAGTCGTACCGCCTGTTTACCCAGCGAATGGCCGACGGCGACCGGGTTGGCGCCCTCAAACTCCGCCGACGGATGATTAACGACCTCCAAGTAGCTGACGTAAGCGACCGCAATTCATTGAGGCGGTCCAGATCTTGA	MGENSELNFVEGTPSVVIDKVSMTYKTTSRSRVEASSAGSTWQMIKQNVGKTTAVSVTALKELSLVVEHGESVGIIGRNGSGKSTLLKVVGGQIPPTSGAVYATSTPVMLGVNAALIPGLSGDQNIVLGCLAMGMSRHQIDDKYSAIVELSGLDEAIHMPMKSYSAGMASRLRFAIAAAIDPEILIIDEALNTGDAQFKDRTRKRMLELLGQAGTVFLVSHSMSTVLDLCNRAIWIDQGELLADGTPADVVKSYRLFTQRMADGDRVGALKLRRRMINDLQVADVSDRNSLRRSRS	PGPT0023470_407	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_TRANSPORT,PGPT0023470-tagH-K09693	NA	NA
D1-29_02987	900			hypothetical protein	TTGTTGAGCTCGAATACCACGCAGGCCTCCCGGGGGCCTCAGCCAACTCCGATAACAACTTCCGTCAACCTGCGCGGACTCCGCCGCGTGGGTGCCCGGCCCCCCTTCCTCGATTATCTTGTGTCGCTCTGGGACTACAGGCACTTCATCTTTTTCGATGCTCAGGCTCGTGTTCAGACCGGAAACGAACAGGACCATCTTGGCAGGGCTTGGCTGGTGTTGGGTCCCCTCTTGAACGGTCTGATGTTCTACCTGATCATGGGCGTCATATTGAAGTCAGGAAGCGGGATCGAGAACTTCGTTTCTTTTTTGATCATCGGCGTTTTCCTCTTTCAGATGTCGACCCGTGCCATCACGTCGTCGTCGCGCGTCATAACTGCGAACAAGAACGTAATCCATGCATTTCAGTTTCCGCGAGCCAGCCTGGTCCTTGCGGCCAACTTGCGGGAGCTTCTCTCCAATGTTCCGGTCCTGATCACGATGCTCATTCTGATCATTGTTCTGCCGCCCGCAGAAGAGATTACTTGGCGCTGGCTGCTGATCATACCGGTGGTGGCCCTGCAGTTCGTTTTCAACCTCGGCGTCGGCCTGATCCTTGCCCGGGTGGTGGCAGTGTTCAACGATGCGAGCCAGCTGATCTCCTATGCAATGCGCCTGTGGATGTACGGCTCCTGCATGTTTTACTCGATTGAAAGGTTCGACGATATGCCCGTCGTGAAGACGATCATGGAGTACAACCCTCTGTACAACGTCCTCGACTTGGCTAGGGAAACGTTGCTGTACGGAAATATCGGGGAATGGCGGTCTTGGGCAATCCTTGCGCTTTGGTCCATTTCGGCGCTGGCTATTGGAACCGTGGTCTTCTGGCGGGGGGAGGAGACGTATGGGCGAGAACTCTGA	MLSSNTTQASRGPQPTPITTSVNLRGLRRVGARPPFLDYLVSLWDYRHFIFFDAQARVQTGNEQDHLGRAWLVLGPLLNGLMFYLIMGVILKSGSGIENFVSFLIIGVFLFQMSTRAITSSSRVITANKNVIHAFQFPRASLVLAANLRELLSNVPVLITMLILIIVLPPAEEITWRWLLIIPVVALQFVFNLGVGLILARVVAVFNDASQLISYAMRLWMYGSCMFYSIERFDDMPVVKTIMEYNPLYNVLDLARETLLYGNIGEWRSWAILALWSISALAIGTVVFWRGEETYGREL	PGPT0023465_264	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_TRANSPORT,PGPT0023465-tagG-K09692	NA	NA
D1-29_02988	1743	mshA_4		D-inositol-3-phosphate glycosyltransferase	ATGTTTCAGCTCTTGAAGAACGTGCTGCTCGGCTTCACTACAGTTTGGCACCACCTGGGCGATGACCCGGTGGTGCTTTGCCTTCAGGTTTCGCGACGGCTCCCGATGCCTGCTGTTCTGTACGTTGCCCGCTGGACGTGCGCGGCCGCACCCCGCAACTCGGCGGCAGTGATCGTGCTCCTTGCAGCCCTTATTCTGGGTGACCATGCCGATGTTGCCAGGCGCTTGAATCTTGCTTTGGATGGCAAGGTTTCGGGAGTCAGAGCGCGACGACTGGCCGACATTGCCATCGCCGCCAGCCAGAGTGACCTGTCAGACCGCTTGCTGGATGCAGCAAAAAATGCATCGGGCGTCTACTCCACACAAGCTCGACGGCTTTGGCACCGGGGCCTGATGACTGATGCAGTTGCGGCCTTGGACACGGCTGGGGCGTCGCGGATGCACCGTGAACGGCTCTCCGGGGAACTCAGGGTGTTCCAGGGCTTTGCGCCAGCACTGCCCAACCAACCCGGCTACGTGCCGACCCCTGGTCGAGTGCTCCACCTCCTCACCAATTCCCTCCCTCATACGAGTAGCGGTTATGCCCAGCGTTCACATTCGATGCTGCTGGCCCAGCAAGAAGTTGGCTGGGACGTCTTAGCGGTCACAAGGCTGGGTTATCCCGTCCAAGTGGGGAAATTGCTGGCGCGGACCAGCGATATTGTTGATGGCGTTCGATATCGCCGGCTGCTTCCGGCCATCTTGGCTCCGTCAATGGACGCACGCTTGCAGCAGCAGGCAAATGAGCTTCTCCGAGTCGCTCTGGAGTTTAAGCCCGCGGTACTCCACACCACTACGCACTACGTCAACGGAATCGTAGTTCGTGCCGTCGCCGAGGCCTTGGGAATCCCTTGGGTTTATGAAGTCCGTGGACAACTCGCAGACACATGGGCGTCGGCGCGAGGTCCAGCTGCCCGCGACAGCGAGCGGTATCATTTGTTTCACAAGCGTGAAACCCAAATGATGCGGGACGCGGATCTAGTCGTCACGCTAGGTTCAGCCATGAAGGCGAACATTGTTTGCGGCGGTGTCCCGCCGGAAAAGGTGATTATCGCCCCAAACGCCGTCGGCGGGGTGTTCCTGAACGAGCCTGTGGATTCTGCTGCGGCCCGGCATAAGTTAGGGCTGCCGACCAATGGTCAATACATCGGCACTGTCAGTAGTCTCGTTCCGTATGAAGGACTAGACGACCTGATCGGAGCCTTCGAACTCCTGGCCCCCAAGCATCCTGACCTGCGGCTCCTGGTAGTCGGCGACGGTCAGTCGCTGCCATCGCTAAAGGGACAAGCCGAACGCACTGGCTTTATTGATCGCATAATCTTTACAGGCCGTGTGTCCAGAGACCAGGCAGCTTTGTACCACCAGGCCCTGGATGTCTTCGTTGTTCCCCGTAAGGATCTTGCGGTCACTCGATCCGTAACACCTTTGAAGCCGGTGGAGGCTCTGGCCTGCGGCAGACCTGTCGTCGCCAGCCGACTCGCCGCACTCGAAGAGATAGTCACCGACGGCAAAAACGGTCTCCTCGCGGTTCCCGAGGATCGACATGACTTCGCGGCTAAACTCGAACGGTTACTCAACTCCCAGGATCTCAGGATCCGTTTGGGGAACGCGGGACGACGGGAAGTGCTTGACTCTCGTACTTGGCGAGCGAACGCGGCTACTCTCAACACGGCATACAAGCAACTGATGGAGGCTCCTTGTTGA	MFQLLKNVLLGFTTVWHHLGDDPVVLCLQVSRRLPMPAVLYVARWTCAAAPRNSAAVIVLLAALILGDHADVARRLNLALDGKVSGVRARRLADIAIAASQSDLSDRLLDAAKNASGVYSTQARRLWHRGLMTDAVAALDTAGASRMHRERLSGELRVFQGFAPALPNQPGYVPTPGRVLHLLTNSLPHTSSGYAQRSHSMLLAQQEVGWDVLAVTRLGYPVQVGKLLARTSDIVDGVRYRRLLPAILAPSMDARLQQQANELLRVALEFKPAVLHTTTHYVNGIVVRAVAEALGIPWVYEVRGQLADTWASARGPAARDSERYHLFHKRETQMMRDADLVVTLGSAMKANIVCGGVPPEKVIIAPNAVGGVFLNEPVDSAAARHKLGLPTNGQYIGTVSSLVPYEGLDDLIGAFELLAPKHPDLRLLVVGDGQSLPSLKGQAERTGFIDRIIFTGRVSRDQAALYHQALDVFVVPRKDLAVTRSVTPLKPVEALACGRPVVASRLAALEEIVTDGKNGLLAVPEDRHDFAAKLERLLNSQDLRIRLGNAGRREVLDSRTWRANAATLNTAYKQLMEAPC	PGPT0024580_39	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_GLYCOSYLTRANSFERASE_ACTIVITY,PGPT0024580-mshA-K15521	NA	NA
D1-29_02989	1251			hypothetical protein	ATGAAATACGGATCGCCGATAGATGGCGGGGCCTTGAACGAGGCTCCGCAGATCACCCTCATCACCCATTCGTACTGGCCTGAGCACAGCCCGCCTCAGCGCCGCTGGACAGCCATGATAAAGGAGTTTTCCCGCGCCGGGTGGGGGATTGACGTGGTCGCGCCAGTGGCTCATTATCCCTTCGGCAGGAGAAACCTGCCGCGCCTTACTGCCGGCCGCGGATTCCGTGTCCTCAACGGGCAGTTCACCGAAAAGATCATGCATGTGCCGTATTTGCGTCACGGTACATCGCGCGTTGCACGCTTATTGGATCAATGCTATTCCGCGGCGCTGTCTGTTCCGGCGGGCCTGCTCGTGAGGAAGCCTGACGTCGTAATTGTGACAGCCCCGGCTCTCCCCTCCCTGGCCGCTGGCTACCTCTTGGCAAAACTACGCAGGGTGCCGCTTATCGTTGAAATGCGGGATGCTTGGCCGGACCTGGCCCGGGATGCACGGATTGTTAAGGGCAAGGTCAAAGGCGTCATCGAGCACCTGGTGGACTTCGTCCAGCACCGTGCCGACCTCGTGATCACAGTGACCGAGGGATTTGCTGCAACCCTTCGGGCACGCGGTGTCCGGAATGTAGCCACCGTCAGTAACGGTGTTCATCTGGAGTCGATTCCAGTCATGAAACCACCGGATCTCATCCGCCCCATTTTTGAAGCCCTGTACCTCGGAAACCATGGCGAGAGTCAGAAGCTGGATGTTGCCATACGCGCCAGCGCACTTGTGGGCGAATCAATGCACCTGCATATGGTGGGTCATGGGACCCAGCGGCCGGCTCTGGAGAAGCTTGCACGACTTTTGAATGCCCCAGTTACTTTCCATGCGCCCCTGCACGCTGAAGCAGTTCTCGAGCGTTACGCATCGGCCGATACATGCTTGGTATCCCTTCGTGATGATTGGAAGTCCTTTGAAACGACGGTCCCGTCCAAGACCTACGAGGTACTGGCCGTAGGCCGCCACGTCACAGCGATCGTCCGTGGGGAGGCCGCCCGGATTATCAGGGAGGCTGAAGCGGGTGACATTGTGGAGAGCGATCCGAACAAACTTGCTGCCCTCTGGCGAGAACTTGCGGCGGACCGCGGGCGGCTCGTGCGGAACGGAACCAGCAGGGAGTGGGTGAAGGCCCACGCCGAATACGAACCATTGGCCAGCCAGTACATGGACCTCATATGTTCGCTTCTCGGCAAAGGATCCACCAGAATCTAA	MKYGSPIDGGALNEAPQITLITHSYWPEHSPPQRRWTAMIKEFSRAGWGIDVVAPVAHYPFGRRNLPRLTAGRGFRVLNGQFTEKIMHVPYLRHGTSRVARLLDQCYSAALSVPAGLLVRKPDVVIVTAPALPSLAAGYLLAKLRRVPLIVEMRDAWPDLARDARIVKGKVKGVIEHLVDFVQHRADLVITVTEGFAATLRARGVRNVATVSNGVHLESIPVMKPPDLIRPIFEALYLGNHGESQKLDVAIRASALVGESMHLHMVGHGTQRPALEKLARLLNAPVTFHAPLHAEAVLERYASADTCLVSLRDDWKSFETTVPSKTYEVLAVGRHVTAIVRGEAARIIREAEAGDIVESDPNKLAALWRELAADRGRLVRNGTSREWVKAHAEYEPLASQYMDLICSLLGKGSTRI	PGPT0023340_154	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_BIOSYNTHESIS,PGPT0023340-wcaI-K03208	NA	NA
D1-29_02990	648			hypothetical protein	GTGATCGATCGCGGCTGGAGACATAAGTTTGCCAACATGGTTCTCAGTGCTGCGGTGACGTCCGCGCTGGTGCTCTGTCCGGTCGGGGTAGCCTTCGCCACGGAGACTCCTCCCATTAGTCCTCCGCCCCTGACAGTGCTTGAACCGGGGCCGACTGAATCACAAACACCACCACCAGCGGAACCCACAGAACCGGTCACCGATCCGGCGCCGGATCCGGATCCGGGTACGGTGCCTAACCAGCCATCGGATCCATTCCCCGGCACGCAGAACCCGGCGGCTCCGCCTTTGGTGGCCGAAGAGCCAGCCTTCAATCCGCCGGGATATGCTGCCCCTGTCGTCCTTCCTCCTGCACTGCCCATAGAGGTAACCGAGGAAACGGTCCCCCATACCGTGGCTACGGAGCCTGCCCCGGAGCCAGCAGTTATGACCCCAGCCCCTTTTGAATCTACCGCTGCCGCAGCGCCACCTGAAAAGCCCGCCGCCGTGGTTGAGTCCACGGTTCAGGCGGCAGTTGCGGCGGCGTCTGGCAGCCCCCTATGGCTACAGGCTGCTGTCGTTTGCGCCCTCTTGGGCCTGGGCTACGGTTACTTTCGCTTTCTTCGGTCGGCAAGGATGACAATTTCAGCCAGGGCGGGCAAGTCCTGA	MIDRGWRHKFANMVLSAAVTSALVLCPVGVAFATETPPISPPPLTVLEPGPTESQTPPPAEPTEPVTDPAPDPDPGTVPNQPSDPFPGTQNPAAPPLVAEEPAFNPPGYAAPVVLPPALPIEVTEETVPHTVATEPAPEPAVMTPAPFESTAAAAPPEKPAAVVESTVQAAVAAASGSPLWLQAAVVCALLGLGYGYFRFLRSARMTISARAGKS				NA	NA	NA	NA	NA
D1-29_02991	507			hypothetical protein	ATGCATCCAGTTGTTCCCTTCGAGTCCACGCTTCGGCTCATTGCCCTCGCCGTTACGACTGGAGCCGCGTTCCTAGGACTGACTGCCTGCTCGCCCGTTGTGGACGTGGCTGCCGCAAAAGACGCCGCGAATCCAGCCTGCGCCCCGATGATGTTGGCGCTGCCGGACTCCATCGGTGACGCCAGGCTGCGGAAGACGAACAGCCAGGCCACTGCAGCCTGGGGGGATCCCTCCCTGGTGGTCCTGCGATGCGGCGTCAACGTGCCGGGGCCGACGACGGACCGTTGCGTTAGCGTGAACGGCATTGATTGGGTCATCAAGGAGGGCGACCCCATCTACACGCTGACCACGTTCGGGCGCGAGCCTGCCACCGAAATCCTGCTGGACCCGGAAAAGATCCCTTCCGCCACTGTCCTGGCCGATCTTTCCGGCGCGGCAGCGAAAATCCCCGCCACCCGAAACTGCGTGGGCCAGCAGGAGCTGCAGGACCTGCCCAAAAGCCAATAG	MHPVVPFESTLRLIALAVTTGAAFLGLTACSPVVDVAAAKDAANPACAPMMLALPDSIGDARLRKTNSQATAAWGDPSLVVLRCGVNVPGPTTDRCVSVNGIDWVIKEGDPIYTLTTFGREPATEILLDPEKIPSATVLADLSGAAAKIPATRNCVGQQELQDLPKSQ				NA	NA	NA	NA	NA
D1-29_02992	1152	ddl	COG1181	D-alanine--D-alanine ligase	ATGTCCGGTGAAGACAAACTGGCTGCAGAAGCTTCAGCCGCTCAACGGAAACCAAGAGTGGCGGTGCTGTTTGGCGGCCGTTCCAGCGAACATGCCGTGAGCTGTGTAACCGCCGCCGGCGTTCTCGGCGCCATCAACAAGGACAAGTACGACGTCATCCCCATCGGGATTGCCAAGTCGGGGCAATGGGTGCTCGCTGCCGCGGACACTGCCCAATGGTCCCTGTCCTCGGAGTCGCTGCCGGAGGTGCCGCCGTCGTCGAAAACAGTGACACTCGCCGAAATTGGTGGTGACCACCAGTTGATTGTCGCTTCCCCCAATGAAGTGCCGCAGGAACTAGGAACCGTTGATGTGGTCTTTCCCCTTCTCCATGGTCCCTTTGGTGAGGATGGCACCATCCAGGGGCTCCTGGAACTTTCTGACACCCGGTATGTGGGCGCCGGGGTCCTGGCGTCGGCGGTAGGCATGGACAAGCACTACATGAAGGTGGTGTTTGAGGCAGCCGGGCTCCATGTGGGGCCCTACGTTGCCGTTACTGACCGGCAATGGCTTAAGGACCCGGAAGCGGTCCGGAAGCAGGTGGACCTGCTTGGTTTTCCGGTGTTCGTCAAACCGGCCCGGGCCGGATCATCCATGGGGATTTCCAAGGTGGATTCCATGGAGGGGCTGGATGCCGCCGTCGAAGAAGCACGCAGGCACGACCTCAAGCTTGTTATCGAGGCAGGCATTACCGGCCGTGAAATCGAGTGCGCCGTATTGGAAGGCCGTGGAACGGATGCCCCACGCACCTCCATGCCGGGTGAAATCTCGGTAGCAGGCGGCAGCCACGAGTTCTACGATTTCAACGCCAAGTACGTCGAGGATGACGCCGCCGCCCTGAGCTGCCCGGCAGACATCCCGGAAGAAGCCATCGCCCGGGTGCGGGATCTGGCGGCTGCCGCCTTTGATGCGGTGGGGGCCGAAGGGCTCAGCCGCGTTGACTTCTTCTACACCCCCGACGGCGACGTGATCATTAACGAGATCAACACCATGCCGGGATTCACGCCCAAGAGCATGTATCCCCAGATGTGGGCGGCGTCCGGGCTGAGCTATGCGGAACTGATTGATGAACTGATCTACCTCGCGCTGAACCGGAAGACGGGGTTGCGCTAG	MSGEDKLAAEASAAQRKPRVAVLFGGRSSEHAVSCVTAAGVLGAINKDKYDVIPIGIAKSGQWVLAAADTAQWSLSSESLPEVPPSSKTVTLAEIGGDHQLIVASPNEVPQELGTVDVVFPLLHGPFGEDGTIQGLLELSDTRYVGAGVLASAVGMDKHYMKVVFEAAGLHVGPYVAVTDRQWLKDPEAVRKQVDLLGFPVFVKPARAGSSMGISKVDSMEGLDAAVEEARRHDLKLVIEAGITGREIECAVLEGRGTDAPRTSMPGEISVAGGSHEFYDFNAKYVEDDAAALSCPADIPEEAIARVRDLAAAAFDAVGAEGLSRVDFFYTPDGDVIINEINTMPGFTPKSMYPQMWAASGLSYAELIDELIYLALNRKTGLR	PGPT0020050_479	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
D1-29_02993	1053	gpsA	COG0240	Glycerol-3-phosphate dehydrogenase [NAD(P)+]	ATGAGGCCTGACGGAAGCCACCCGGGCGCTGCGAAGTCTGTCGCTGTCCTTGGCGCAGGCTCGTGGGGGACCACCTTCGCCAAAATCCTCGCCGATGCTGCCACCGCTGCCGGACACCACCGGAGCATCAGGTTATGGGGCAGGCGCAGCGAAGTGGTGGAGCAGATTAACAGCAGCCACCGCAACTTTCAGTACCTGAAAGACATCCCCTTGCCGGACGTCATCGTGGCGTCCACGAACGTCCGTGAAGTCCTTAATGGCGCAGACCTTGTTGTCCTGGCCGTGCCGGCACAATCGCTCCGGCTCCAGCTTCGCGAGTGGAAGTCCATGATTGCTCCGGACGCCATGGTGGTGTCCCTGATGAAGGGACTGGAACTAGGCACCGACGCTCGCATGAGCGAGGTCATCGGCGAAGAACTGGGAATCCCCGGCAGCCGCATTGCCGTGGTGTCCGGCCCCAACCTTGCCATGGAAATTGCCCGCGAAGAACCCACAGCTTCCGTGGTGGCATGCACGGACGCCGCAGCAGCCGGCTGGATCGCACGAAGCTGCACCGCTCCGTACTTCCGCCCCTACACCACCACAGATGTTGTGGGTGTGGAAATCGGCGGCATCGTCAAGAACGTCATCGCGCTTGCCGTGGGCATCTGCGAAGGAAAGCAGATGGGGGACAACACCAAGGCCTCAGTCATCACCCGCGGGCTGGCGGAAACCTCAAGGCTGGCGCTTGCCCTGGGCGGCGAGGCACAAACCATGGCGGGACTGGCGGGGCTGGGCGATCTTGTGGCCACGTGCTCGTCGCCGCTGTCCAGGAACCATACAGCGGGCCGGCTCCTGGGCCAGGGGCTCACGCTGGACGAAGTGGCCCAGAAGATGACCCAAACCGCGGAAGGCATCAAGTCCGGCCAGGCCGTGCACGAGCTCGCCGGAAAGCTGGGCGTGGAAATGCCCATTACTGCCGCCGTGGTTGCCGTCCTGGCGGGCAAACTGTCCGTTGACCAACTGGGGCCGCTGTTGCTGGCCCGGGACCTGAAACCCGAAGGCGATTATTGA	MRPDGSHPGAAKSVAVLGAGSWGTTFAKILADAATAAGHHRSIRLWGRRSEVVEQINSSHRNFQYLKDIPLPDVIVASTNVREVLNGADLVVLAVPAQSLRLQLREWKSMIAPDAMVVSLMKGLELGTDARMSEVIGEELGIPGSRIAVVSGPNLAMEIAREEPTASVVACTDAAAAGWIARSCTAPYFRPYTTTDVVGVEIGGIVKNVIALAVGICEGKQMGDNTKASVITRGLAETSRLALALGGEAQTMAGLAGLGDLVATCSSPLSRNHTAGRLLGQGLTLDEVAQKMTQTAEGIKSGQAVHELAGKLGVEMPITAAVVAVLAGKLSVDQLGPLLLARDLKPEGDY	PGPT0024330_498	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057	NA	NA
D1-29_02994	804			hypothetical protein	GTGAAGGAAACGGCCAAAAGCCAGGCCACGTTTGTGGTCATCGCCGCGATAGCGCGCACCCTGCTGAACCTTATGATGGCCAAAAAATGGGAGGGCACCGAGAAGCTGCCACCCGGCGGCTTCATCGCCGCGCCCAACCACTGCACCGAAATCGATCCCCTTATCGTGGGGCACCTGCTCTACAACCAGAAGCGCGCGCCGCACTTCCTGGCGAAGGCCACCCTCTTTAGGGTCCCCGCGCTGGGCTGGATCCTGCGGGCCACCAAGCAGATCCCGGTGGAACGCTCGACGGCGGGAGCCAACCGGTCGCTCCAGCTCGCCCAGGAGATCGTGGCCGAGGGCGGTGCGATCATCATTTATCCAGAGGGCACGCTGACCCGCGACCCCGACCTGTGGCCCATGAAGGGCCACACCGGCGCAGCCAGGCTGGCTTTGGAAGCTGGAATCCCCGTGGTGCCCATAGCCCACTGGGGTGCCCACGAAGTGTTTCCCCGCTATGCCAAGGGGTTCCACCTGTTCCCGCGCAAAACGTCGCGGGTTGTGGTGGGTGACCCGGTGGACCTCAGCGCCTTTTCCGGCCGCCCGCTGGATAAGGCCACACTGACAGCTGCAACGGACGCCATTATGGATGCCGTGACGGCGCTGCTGGCCGGAATCAGGGGAGAGGAAGCTCCCGCCGAGCGCTGGGACCCCTCCAAGCACAACCAGGCCAAGCACGGGCGGTTTGTGGAAGGCGGCCCCCGGACAGGCGGCTCTGATAAACCTTCGGCTACCGGGACTGGCCGCGAGGCGGACGGCTCATGA	MKETAKSQATFVVIAAIARTLLNLMMAKKWEGTEKLPPGGFIAAPNHCTEIDPLIVGHLLYNQKRAPHFLAKATLFRVPALGWILRATKQIPVERSTAGANRSLQLAQEIVAEGGAIIIYPEGTLTRDPDLWPMKGHTGAARLALEAGIPVVPIAHWGAHEVFPRYAKGFHLFPRKTSRVVVGDPVDLSAFSGRPLDKATLTAATDAIMDAVTALLAGIRGEEAPAERWDPSKHNQAKHGRFVEGGPRTGGSDKPSATGTGREADGS	PGPT0024380_1497	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
D1-29_02995	1326	murAA	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase 1	ATGAGTAGTGTTCTGACAATCCGCGGCGGCGTCCCGCTGACAGGCCGCGTCACCGTCCGCGGGGCCAAGAATTTGGTCCCCAAGGCAATGGTGGCAGCGTTGCTGGGAAACGAACCGTCGGTGTTGCGGAACGTTCCGGAGATCAAGGACGTGGAGGTTGTCACCTCGCTCCTGCAGCTGCACGGAGTAACTGTGGTGAAGGATCCCGTCACCGGAGACCTCACCCTTGACCCGAAGGCTGCCAAGACTGCTCCCAGTACTGCCATCGACGCGCATGCAGGCGATTCCAGGATTCCCATCCTGCTGTGCGGGCCCCTCATCCACGCGATCGGGGAGGCTTTCATCCCTGATCTGGGCGGCTGCAAGATCGGCGACCGGCCCATCGACTACCACCTCAACGTCCTGCGCCAGTTCGGTGCCGTGGTCGAAAAGCGGCCTGGCGGCATCCACATCTCCGCGCCCAAAGGCCTGCACGGGGCAAAAATCTCCCTTCCCTACCCCTCCGTCGGCGCTACCGAACAGGTGCTGCTCAGCGCCACCCGTGCGGAAGGCATCACGGAACTCGAGGGCGCAGCCACCGAGCCGGAGATCATCGACCTCATCGCGGTGCTGCAGAAAATGGGCGCCATCATCAGCGTCCAGACGGACCGGACCATCCGCATCGAAGGCGTCAGGGACCTGGGCGGCTATAACCACCGTGCCCTCTCAGACCGCAACGAATCGGCTTCGTGGGCATCAGCTGCCCTGGTGACGCGCGGGGACATCTTTGTGGAAGGAGCTTCCCAGCGGGACATGATGACGTTCCTGAACACCTACCGCAAGGTGGGTGGCGGCATGGACATCGGTGAGGACGGCATTCGTTTCTACCACCGGGGCGGGAAGCTCAATCCACTGGTGCTGGAGACCGACGTACACCCGGGCTTCATGACCGACTGGCAGCAGCCGCTGGTGGTGGCCCTGACCCAGGCCGAGGGCGTCTCGATCGTGCACGAGACCGTCTATGAAAATCGCTTTGGGTTCACCGACGCCCTGATCAGGATGGGCGCCAGCATCCAGGTGCACCGCGAATGCCTGGGAAGCGTGCCCTGCAGGTTCGGCCAGCGCAACTTCCTCCACTCCGCTGTCATTTCCGGACCGATGCAGCTCAAGGGCACCGATATCGATGTCCCGGACCTGCGCGGCGGCTTCAGCCACCTGATTGCCGCCCTGGCGGCCACCGGCACCTCACGGGTCACCGGGATCGACATCATCAACCGGGGCTATGAGCGGTTCACGGAAAAGCTTGCCGGCCTCGGGGCCGATTTCGACATCACCTCAGCAAAGTAG	MSSVLTIRGGVPLTGRVTVRGAKNLVPKAMVAALLGNEPSVLRNVPEIKDVEVVTSLLQLHGVTVVKDPVTGDLTLDPKAAKTAPSTAIDAHAGDSRIPILLCGPLIHAIGEAFIPDLGGCKIGDRPIDYHLNVLRQFGAVVEKRPGGIHISAPKGLHGAKISLPYPSVGATEQVLLSATRAEGITELEGAATEPEIIDLIAVLQKMGAIISVQTDRTIRIEGVRDLGGYNHRALSDRNESASWASAALVTRGDIFVEGASQRDMMTFLNTYRKVGGGMDIGEDGIRFYHRGGKLNPLVLETDVHPGFMTDWQQPLVVALTQAEGVSIVHETVYENRFGFTDALIRMGASIQVHRECLGSVPCRFGQRNFLHSAVISGPMQLKGTDIDVPDLRGGFSHLIAALAATGTSRVTGIDIINRGYERFTEKLAGLGADFDITSAK	PGPT0024090_832	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
D1-29_02996	132			hypothetical protein	ATGGGGATAGCCGATCATATGAGGGACGCTGTTACCGCAACCTCCGACGCCCAGGGAGGCCAGGAGGGGCGCCATGGTATTGGCCTCGTGGCCTCTGTATTTCGGTTCGGTAAAGCGACCTCCTATGCTTAG	MGIADHMRDAVTATSDAQGGQEGRHGIGLVASVFRFGKATSYA				NA	NA	NA	NA	NA
D1-29_02997	639			hypothetical protein	ATGCAGAAAAACGTGATGATCTATGGCAGTGACGTGTCAAGGCACACGTTCGATGGGCTCGGAACAGGGTACAAACTGCTGGCTCATGTGAGGCGTCAGTCGATGATCAGCGCGTTGTCCCGGCCTACAGATCTCCTCCAAATGGACGCAAATGAACGAACCTTTCAAGACCGTTCCCTGGAGGGCGATTTGAAATCGCACTTGTTGCCGACGCTGCGGAGGTTCGCGGCGAACATCGACCTACTTTTCATAGACCTGAGGGATGAACGGCTGGGCGTGATTCGGCTACCGGACGGCTGCTACGTCACACAGTCAAAGGAGCTGGAACGATCAGGGCGGCTGGAAAATGTGCAGGGAACTCAACGCCACATTGGCCCTGCCACGGAAGACCACTGGCGATTATGGGAGTCGGCGGCCACCAGGCTGTTCGGGGCGTTGACCACTATGGGCCTGCGTGAGAAGACCCTGGTGCTGAGTACGCCATTGAACCAGCTCCCCAAATCCGGAGAGCCCCTGGACAGCACCCACGTAACCAGTGATGCGGAGCTGAACGCCTACTTCGCCGAGTGCTGCGCGCACATTAAGAGTCTTGGCTACAAAGTGCTGACGGTGCCCGAGCAACTCTCCGTTGCATGCTGA	MQKNVMIYGSDVSRHTFDGLGTGYKLLAHVRRQSMISALSRPTDLLQMDANERTFQDRSLEGDLKSHLLPTLRRFAANIDLLFIDLRDERLGVIRLPDGCYVTQSKELERSGRLENVQGTQRHIGPATEDHWRLWESAATRLFGALTTMGLREKTLVLSTPLNQLPKSGEPLDSTHVTSDAELNAYFAECCAHIKSLGYKVLTVPEQLSVAC				NA	NA	NA	NA	NA
D1-29_02998	1626			hypothetical protein	TTGAGTTTTGGTAATAGGAAGTCGAATAACTTCAACATCTTCGCCGCTTTTTGCCTTGTAGTCATTCTGATGCCCCTACCGATCGTCATGGGGCCGGCGGCTTTGGCGGCCTCTGATGTGGCCGGGCCGGTGCTGGTTTCGTCCACGGTGACACCTCTTGACCTGAACATCGCCGCGGGCCCGGCCACCACCACAGTCACGGTACAAATCACTGACGCCACCGGCACAGCCGCCCCCACCCTGACCGTCGGCCATGACGCAACCGGGCAAAGCCAGGGATTCGGCAGCATGGCCCTAGTGTCCGGCACCCCCCAAGATGGCACCTGGGAACGATCCATAACCATCCCCCAAGGCGCCGCAACCGGCGCCTGGACGGTGACCCTCTATCCCCTCCGTGACACCATCGGCAACAACGGCACCGGCTTCCAAACCCTTGCCACCCTCAACGTCACAGGAACGGCCTCTGATGTGGCCGGGCCGGTGCTGGTTTCGTCCACGGTGACACCTCTTGACCTGAACATCGCCGCGGGCCCGGCCACCACCACAGTCACGGTACAAATCACTGACGCCACCGGCACAGCCGCCCCCACCCTGACCGTCGGCCATGACGCAACCGGGCAAAGCCAGGGATTCGGCAGCATGGCCCTAGTGTCCGGCACCCCCCAAGATGGCACCTGGGAACGATCCATAACCATCCCCCAAGGCGCCGCAACCGGCGCCTGGACGGTGACCCTCTATCCCCTCCGTGACACCATCGGCAACAACGGCACCGGCTTCCAAACCCTTGCCACCCTCAACGTCATGGCAAGCACCAGCCCTGCCACTTTGATCCCAGGGGTGCCGGTAATCAGCGGTAGCCCCAGAGCCGGGTACACCCTCACTGCCGCACCAGGGACCTGGTCCCCCGCGCCCGTCACGCTCAGCTACCAGTGGTATCGCACCGGAATCGCCATCCCAGGCGCCACCGCCAGCACCTACAAATTGACAACATCAGACATCGGCAAAACCATCACCGTTCGCGTCATCGGGCGCAAGACCGGCTACACAGCACTCGGAAAAACGTCCACCCCCACCGCAGCCATCACGGGCACACTGACTGCGCCGGTACCCACAATCACAGGCACCACCAAAGTCGGCTACACACTCACCGCCACCCCAGGAACATGGTCCCCAGCGCCCGTAACACTGACCTACCAGTGGTACCGCGCAGGAATCGCCATCACCGGGGCCGCCACAACCACCCATAAGCTGACGGCAACCGACGCCGGAAAACCCATCACCGTCCGCGTCATCGGGCGCAAGACCGGCTACACAGCACTCGGAAAAACCTCCACCCCCACCGCAGCCATCACGGGCACACTGACTGCGCCGGTACCCACAATCACAGGCACCACCAAAGTCGGCTACACACTCACCGCGACCCCAGGAACATGGTCCCCAGCGCCCGTAACACTGACCTACCAGTGGTACCGCGCAGGAATCGCCATCACCGGGGCCGCCACAACCACCCATAAGCTGACGGCAACCGACGCCGGAAAACCCATCACCGTCCGCGTCATCGGGCGCAAGACCGGCTACACAGCACTCGGAAAAACCTCCACCCCCAGCGCATCCGTGTCACCATAG	MSFGNRKSNNFNIFAAFCLVVILMPLPIVMGPAALAASDVAGPVLVSSTVTPLDLNIAAGPATTTVTVQITDATGTAAPTLTVGHDATGQSQGFGSMALVSGTPQDGTWERSITIPQGAATGAWTVTLYPLRDTIGNNGTGFQTLATLNVTGTASDVAGPVLVSSTVTPLDLNIAAGPATTTVTVQITDATGTAAPTLTVGHDATGQSQGFGSMALVSGTPQDGTWERSITIPQGAATGAWTVTLYPLRDTIGNNGTGFQTLATLNVMASTSPATLIPGVPVISGSPRAGYTLTAAPGTWSPAPVTLSYQWYRTGIAIPGATASTYKLTTSDIGKTITVRVIGRKTGYTALGKTSTPTAAITGTLTAPVPTITGTTKVGYTLTATPGTWSPAPVTLTYQWYRAGIAITGAATTTHKLTATDAGKPITVRVIGRKTGYTALGKTSTPTAAITGTLTAPVPTITGTTKVGYTLTATPGTWSPAPVTLTYQWYRAGIAITGAATTTHKLTATDAGKPITVRVIGRKTGYTALGKTSTPSASVSP				NA	NA	NA	NA	NA
D1-29_02999	150			hypothetical protein	ATGGTTAAGTACAAGGTGGAGCCGAGTGCATTGGAGCACCGCTGCCAGTGCTGCGGCGAGATCACGGAAACGGTCTTCTGCGAGGACTGCCAGCAACACATGCGCTCCGACGCTTTGGCCACAAAAGCTGAAGACGGCGAGCCCACTTAG	MVKYKVEPSALEHRCQCCGEITETVFCEDCQQHMRSDALATKAEDGEPT				NA	NA	NA	NA	NA
D1-29_03000	603	leuD	COG0066	3-isopropylmalate dehydratase small subunit	ATGGAAAAGTTCACCACGCACACCGGAATCGGCGTCCCGCTGCGCCAAAGCAACGTTGACACGGACCAGATCATCCCTGCCGTCTACCTCAAGCGGATCACCCGCACCGGCTTTGAAGACGCACTGTTCTCGGCCTGGCGCAAAGACCCGTCCTTCATCCTGAACCAGGCGCCCTTCAATACCGGCTCCGTACTGGTTGCAGGACCGGACTTCGGCACAGGCTCGTCCCGTGAACACGCAGTCTGGGCGTTGAAGGACTACGGCTTCAAGACCGTCCTGTCCTCCCGGTTCGCAGACATCTTCCGCGGCAACTCGGGCAAACAGGGGCTGCTGGCCGCCGAGCTCGCCCAGGATGACATCGAGCTGATCTGGAAAGAGCTGGAGAACGCCCCCGGCACCGAAGTCACTGTTGACCTGGTGTCCAAGACAGTCATCTGCGGCAACATCGTGGCTCCGTTCGACATCGATGATTACACCCGCTGGCGCCTCCTCGAGGGCCTGGATGACATCGGGCTCACCCTTCAGCACGAAGCCGACATCACCGCCTACGAGGCCACCAGGCCGGCGTTCAAACCCACCACGTTGCCCGCGCGCCTTTCCTAG	MEKFTTHTGIGVPLRQSNVDTDQIIPAVYLKRITRTGFEDALFSAWRKDPSFILNQAPFNTGSVLVAGPDFGTGSSREHAVWALKDYGFKTVLSSRFADIFRGNSGKQGLLAAELAQDDIELIWKELENAPGTEVTVDLVSKTVICGNIVAPFDIDDYTRWRLLEGLDDIGLTLQHEADITAYEATRPAFKPTTLPARLS	PGPT0001443_2714	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704	NA	NA
D1-29_03001	1461	leuC	COG0065	3-isopropylmalate dehydratase large subunit	ATGGCCGTGGCAAAGACACTGGCCGAGAAAGTCTGGGACGCACATGTGGTGCGCAAAGGCGACGGCGAAGGAGTCAACGCCCAGCCAGACCTTCTCTTCATCGACCTGCACCTGGTGCACGAGGTCACGTCACCGCAGGCATTTGAAGGCCTGCGCCTGGCTGGCCGGAAGCTGCGGCGGCCGGACCTGACAATCGCCACCGAGGATCACAACACACCCACGCTGGACATCGACAAGCCCATTGCCGACCTGACCAGCCGCACCCAGATCCAGACCCTGCGCAACAACTGCGCCGAGTTCGGCGTCCGGCTGCACTCACTCGGCGACGCCGAGCAGGGGATTGTGCACGTTGTCGGCCCGCAGCTCGGCCTGACGCAGCCGGGCATGACAGTTGTCTGCGGTGATTCCCACACGTCCACGCACGGCGCATTCGGGGCGCTGGCCATGGGGATCGGCACGTCCGAAGTTGAGCATGTCATGGCCACGCAGACCCTGTCCCTCAAGCCATTCAAGACCATGGCGATCAACGTCGAGGGCACACTGCGCCCGGGTGTCAGCGCCAAGGACATCATCCTGGCCGTGATTGCCAAGATCGGCACCGGCGGCGGCCAGGGCTACGTCCTGGAGTACCGCGGTTCCGCCATCCGTGCATTGTCCATGGAAGCCCGGATGACCATCTGCAACATGTCCATTGAGGCGGGCGCCCGTGCGGGCCTCGTCGCGCCGGACCAGACCACCTACGATTACATGTTTGGCCGCCCGCATGCGCCCCAGGGCGCAGAGTGGGACGCCGCCGTCGAGTACTGGAACACGCTGCGGACCGACGACGAGGCAACGTTTGACGTTGAGGTGGACCTCGACGCCGATACCCTGGAGCCGTTCGTCACGTGGGGGACCAACCCGGGACAGGGTGTTTCGCTGTCCTCGAAAGTTCCCTCGCCGGAGGACTTCGGTGACGAAAACGCCAAGGCCGCCGCAGAGCGCGCCCTGCAGTACATGGGCTTGGAAGCCGGAACGCCCATGAAGGACATCCGCGTGGACACCGTGTTCCTGGGCTCGTGCACCAACTCCCGTATGGAGGACCTCCGGGCCGCCGCGGACATCATCCGCGGACGGCAGAAGGACCCGAACATCAGGATGCTGGTGGTTCCCGGTTCGGCCCGTGTGCGGCTCGAAGCCGAAGCTGAAGGCCTGGACAAGGTCTTCACGGACTTCGGCGCCGAATGGCGTTTCGCCGGGTGCTCCATGTGCCTTGGCATGAACCCGGACCAGCTTGAAGTGGGAGAGCGCTGCGCGTCCACCTCCAACCGCAACTTCGAGGGCCGCCAGGGCAAGGGCGGCCGCACCCACCTCGTTTCTCCGGTGGTGGCAGCAGCCACAGCTGTCCGCGGCACGCTGAGCTCGCCGTCGGATCTTGATCCCGCCCCGGAATCTGCCGCCATCCGCACCAACGCAGCCTAG	MAVAKTLAEKVWDAHVVRKGDGEGVNAQPDLLFIDLHLVHEVTSPQAFEGLRLAGRKLRRPDLTIATEDHNTPTLDIDKPIADLTSRTQIQTLRNNCAEFGVRLHSLGDAEQGIVHVVGPQLGLTQPGMTVVCGDSHTSTHGAFGALAMGIGTSEVEHVMATQTLSLKPFKTMAINVEGTLRPGVSAKDIILAVIAKIGTGGGQGYVLEYRGSAIRALSMEARMTICNMSIEAGARAGLVAPDQTTYDYMFGRPHAPQGAEWDAAVEYWNTLRTDDEATFDVEVDLDADTLEPFVTWGTNPGQGVSLSSKVPSPEDFGDENAKAAAERALQYMGLEAGTPMKDIRVDTVFLGSCTNSRMEDLRAAADIIRGRQKDPNIRMLVVPGSARVRLEAEAEGLDKVFTDFGAEWRFAGCSMCLGMNPDQLEVGERCASTSNRNFEGRQGKGGRTHLVSPVVAAATAVRGTLSSPSDLDPAPESAAIRTNAA	PGPT0001442_421	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703	NA	NA
D1-29_03002	720	rhmR	COG1414	putative HTH-type transcriptional regulator RhmR	ATGGACAATTCTAGTGGAGTCGGAGTCATTGATAAAGCGGCCCATGTGCTTGATGCACTTGAGGCGGGCCCCACCACCCTGGCACAGCTGGTGGCGGCGACAGGACTGGCCCGGCCAACCGTCCACAGGCTTGCCCTGGCTCTGGTCCATCACCGGCTGGTAAGCCGCGATATTCAGGGGCGTTTTGTGCTGGGCAGCAGGCTTGTGGAACTGGCATCCGCTGCCGGAGAGGACCGCCTGATCGCCTCCGCAGGCCCCGTCCTGATGCAGTTGCGCGACGCCACCGGTGAAAGCGCGCAAATCTTCCGCCGGCAGGGGGACTGGCGTGTATGCGTCGCCTCGGCCGAACGGCCCATTGGCCTGCGTGACACCATCCCCGTTGGTACCCAGCTGTCCATGAAGGCAGGATCTGCCGCGCAGGTCCTGCTGGCCTGGGAAGACCATGACCGCCTCCTGGAAGGCCTTCAGTCCGCAAGGTTCACGCCTACTGTGCTGGCAGGAGTACGACGGCGGGGTTGGGGCCAGAGCCTTGGCGAGCGTGAGCCGGGGGTCGCCTCCGTTTCAGCGCCGGTCCGTGGACCCTCCGGCCGCGTAATCGCTGCGGTCTCCATTTCCGGCCCTATCGAGCGCCTCACCCGCCAGCCTGGCAGGCTACACGCCGAAGTGGTCTGCAACGCCGGCAGGATTCTTACCGAAGCCCTGCGCAAGAACAACGACTGA	MDNSSGVGVIDKAAHVLDALEAGPTTLAQLVAATGLARPTVHRLALALVHHRLVSRDIQGRFVLGSRLVELASAAGEDRLIASAGPVLMQLRDATGESAQIFRRQGDWRVCVASAERPIGLRDTIPVGTQLSMKAGSAAQVLLAWEDHDRLLEGLQSARFTPTVLAGVRRRGWGQSLGEREPGVASVSAPVRGPSGRVIAAVSISGPIERLTRQPGRLHAEVVCNAGRILTEALRKNND	PGPT0031315_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ERYTHROCHELIN_METABOLISM,PGPT0031315-etcH-NA	NA	NA
D1-29_03003	540			hypothetical protein	ATGAGCGGTTACGCAGTGTTTCTCCATGGCATCAACGTGGGCGGAATCAACATCAGGATGGCAGACCTGAGGGACGCCCTCACGTCCTGCGGGTTCACGGACGTCAAGACCCTGCTGGCCAGCGGAAATGTGGTGCTCGCCAGTGAGCATGGCGCCGCCGCCGTCAAGCAGCAGATCGAGGACTGCCTTCGCGCCTCGTTTGGTTACGATGCCTGGGTGGTTGTCCTGGCCGCCGGGCGGGTGGCCGAGTTAGTGGACGCCTGCCCCTACCCGGAGGATGACAGGAAAACCCACACCTACATCACGCTGGCCTCCGACGCCGCCATGCTGGACGAGCTCGATGCCGCCGGCGCCGCCCTTGAGGGCTCGGAGCAGAAACGGCTTGGACCGGAGGCCCTGGCCTGGCTCGCCCCCGCGGGCGGGACACTGGACAGCCCCTTCAGCAAGATATCGTCCAAGGCACGATTCAAGGCAACCACCACCACCCGGAACCTCAGGACACTGATCAAGGTCCGTGACGCGGCCGCCGCGCTCGCATAG	MSGYAVFLHGINVGGINIRMADLRDALTSCGFTDVKTLLASGNVVLASEHGAAAVKQQIEDCLRASFGYDAWVVVLAAGRVAELVDACPYPEDDRKTHTYITLASDAAMLDELDAAGAALEGSEQKRLGPEALAWLAPAGGTLDSPFSKISSKARFKATTTTRNLRTLIKVRDAAAALA				NA	NA	NA	NA	NA
D1-29_03004	1617	era_2		GTPase Era	ATGAGCCGCCACGGTGATGCCCGCGAATCGTTGCAGCTGGACCGCCGGCTTGATGCCTTGAACGATGCCCGCCAACTCGCGGACGGGGTGCTGCCTGATGAACCGCTTGAGGAAGTGCTCCAGCTCCTGGAGCGCGCGAGTTCCAGGCGTTCACTGTCCGCGGACCACACCGTGGTGGGGTTTTTCGGTGCCACAGGCAGCGGGAAGTCAACGCTTTTCAACACCGTCAGCGGCGCCGAAATCGCGACGGCGGCGGCGCGGCGGCCCACCACATCGGAACCTTTGGCAGGCGTATGGGGAGTGGAGGGCAGTGAACCGCTGCTGGACTGGCTGGAAGTCCGCAGCCGGCACCATGCCGCCCCCGTTGACGGATTCGCGGACGAAGGCACGGGCCTGATCCTGCTGGACCTCCCGGACTTCGATTCCACCAGGGCAGCTAACCGCGAGATCGTGCAGCGCATGGTGGGGCTGGTGGATGTCCTGGTCTGGGTGCTTGACCCGCAGAAGTACGCCGACGCCGCCGTCCACAATGACTTCCTGGCGCCCCTGGCCGCCCATGGTGCCGTGACCCTGGTGGTGCTTAACCAGGTGGACCGGCTGCCTGAAAAGGACGTGGGACCGGTCCTGGAATCACTGAAGGGGATCCTGGCCCGGGACGGGCTGGGCAACGTCCAGGTCCTGGCTGCGTCGGCGCTGCTCGGTACCGGAGTGGACAGGGTGCGCAGCGCCATCCGGAAGGTTGCGGTGCAGCGCCAGGCGTTGTCTCAACGGCTGGCCGCCGACGTGGGGAAGGCTGCCCGCCTGGTTCGGGAGGCGTCCGGCGACGGCGAAGCTGCCGGAGTCAGGCCAGCCACCACCTCACGCCTTACCGATGAGCTGGCTACCGCTGCCAATGTGCCCCTCGTGGTGCGGGCCGTGGCACGTTCCTACCGGCTGGAATCCACCCGCCGCACCGGGTGGCCGGTGACACGCTGGCTCTCGCGGTTCAGGCCCGATCCGCTGCGGCGGCTCAACCTCCGCAGCGACTCTCCGGCGGAATTGAGCCGGACCTCCCTGCCGCCGGCAGGGGCACCGGAAAGGGCCAGAACCGATGCGGCGGTCCGTGAATTCGCAGACCACGCCAGCGCGGGCGCCCCTGGCCCCTGGCGGGCGGCTATCCGGGGTGCAGCCCGGGAGGGGAGGGAACGTCTGCCGGACGCCCTGGACCAGGCCATCGCGGGCACCGACCTCCTGGCATCCCGGAAGTCATGGTGGTGGGGAGTGTTCAATGTTGTCCAATGGCTGGCGCTGCTGACTGTCCTGGGCGGCCTCGGCTGGCTCGGAGTGCTTGCCGCGCTGGGGTACTTCCAGATGCCGGTCCCGGAGGTCCCGCGCGTGGAGGGCTGGCCGGTTCCCACCCTGATGATTGCCGGCGGAGTGGTCCTTGGCATCTTCCTGGCCGTGACCGGGAAGTTTATTGCCGCGGCTGCAGCGAATGCCCGGTCTGGGAAGGCCCGGAAGCGCCTCAGGAATGCCGTGGCGGAGGTAGCGCAGGAACTGGTGGTGGAGCCGGTAGAAGTGGAGATCAGCCGGCTCAACGCGTTCAACGCGGCGCTCAAGACGGCCTTCGGCAAGTGA	MSRHGDARESLQLDRRLDALNDARQLADGVLPDEPLEEVLQLLERASSRRSLSADHTVVGFFGATGSGKSTLFNTVSGAEIATAAARRPTTSEPLAGVWGVEGSEPLLDWLEVRSRHHAAPVDGFADEGTGLILLDLPDFDSTRAANREIVQRMVGLVDVLVWVLDPQKYADAAVHNDFLAPLAAHGAVTLVVLNQVDRLPEKDVGPVLESLKGILARDGLGNVQVLAASALLGTGVDRVRSAIRKVAVQRQALSQRLAADVGKAARLVREASGDGEAAGVRPATTSRLTDELATAANVPLVVRAVARSYRLESTRRTGWPVTRWLSRFRPDPLRRLNLRSDSPAELSRTSLPPAGAPERARTDAAVREFADHASAGAPGPWRAAIRGAAREGRERLPDALDQAIAGTDLLASRKSWWWGVFNVVQWLALLTVLGGLGWLGVLAALGYFQMPVPEVPRVEGWPVPTLMIAGGVVLGIFLAVTGKFIAAAAANARSGKARKRLRNAVAEVAQELVVEPVEVEISRLNAFNAALKTAFGK				NA	NA	NA	NA	NA
D1-29_03005	1857			hypothetical protein	ATGGCTGGTGATCTCCACGGGGATATCGTGGTTGGTTGCGTTCCCGAAGTTTGTTACTGGCATGATGATGCTGTGAGCTCCAATGACCATCCTCCCGCCAGGGCTCCCGCCCAAGGCCCGGGCCAACCGGCGGCGGCTGCCCTCGCGCTGCTGGAAGCCGTGCGGCGGGACCTGTCGCACGTTTCCCTTCCGCTTGCCCTCCCGGCGGCCGGGCGCGCCCGGCAAGAGGCCCGGAATGCACTCGCACAGCTGGACGACTACATCCTGCCGCGTTACCGCAGCCTGGACGCACCGCTGCTTGCCGTCGTCGGAGGTTCCACTGGTGCAGGCAAATCGACCCTCGTCAACGCCCTGGTAGGCCATCCGGTTACGCGTTCCGGGGCCATCAGGCCAACCACGCGCCAGCCCATCCTGCTCCACCACCCTGCGGACGCGGGGTGGTTCGAAGACCAGCGCGTCCTGCCCACGCTGAGTCGGATCAGGGGCACGCTTGCCACTGATCCTGTCCCTGCCAGCCGCGCCGGAGTGACCCCGGACGCCGCCGCCATCTCCTCGCTGGTGCTGGTGGCGGACCGGGCCGTCCCGCAGGGAATTGCGGTGCTGGACGCTCCCGACGTCGACTCCATCTCCGACGACAACCGCAGACTCGCCGGTCAGCTGCTGGCTGCCGCTGACCTCTGGATCTTCGTGACCACGGCCAACCGCTATGCCGACGCCGTTCCCTGGCGGCTCCTGCTGGACGCGGCCTCGCGGGACATCATGGTGGCCGTGGTACTGGACCGGGTTCCGCCGGCAGCTGAGGCTGAAGTGAGTGCTGACCTCCTGGCTTTGCTGGACAAGGAAGGCCTCGGCGGAGCAGGACTGTTTATCGTGCAGGAGACGGAGCTAGATCCACTGGGGATGCTTCCTCCGCACGCGGTGGAGCCGCTGCGGCTGTGGCTTCAGGAGCTCGCTGCCGACGCGGCACGCCGCTCGGAGATCGCCCGCAGGACGCTCAATGGAACCGTCAGGGCACTGGCGGGACGCGTGGCCGGTGTCGCCGAAGCGCTGCAGGATCAGCAGCGCGCCGCGGCGACCCTTGAGTCAGACGCCCAGGGCGCCTACCGCGATGCTGCCGCACGCATCCTGGACGCCACCAAGGACGGCGCCCTGCTTCGCGGAGAAGTGCTTGCCCGCTGGCAGGACTTCGTGGGGACCGGCGAGTTCTTCCGGAACCTGGAACAGAACATTGGCCGTTTCCGGGACCGGGTGGGAGCATTCTTCCGGGGTGAGCCTGCTCCCGCCGTCCAGGTCGAAGTGGCCATTGAGACCGGGCTGCAGGCCGTCATCCTGGACGAGGCAGCCAACGCGGCGGAGCAAACCGACCAACGGTGGCGGGCAGACCCGGCCGGCCGGGAACTGCTCGGAACTGATGATCTTTCCGGGACCAGTCCCGGATTTGCGGACAGGACCGCCGAAGAGATCAGGGCCTGGCAGGCCAGCCTGATGGAACTGATCCGGACCGAGGGCCAAGGCAAACGGACGCAGGCCAGGTTGCTGTCCTTTGGCATCAACGGGCTGGGCGCCGCGCTGATGATTGTGGTGTTCTCCATGACGGCCGGCCTGACCGGGTTGGAGATCGGTGTGGCTGGAGGTACCGCCGTTGTAGGCCAGAAGCTGCTGGAGGCCGTTTTCGGTGAGGATGCCGTCCGCAGGCTCGCCCAGACGGCGCGCGAGGACCTCCACATCCGCTGCCAGCAGCTGCTCCGGGTGGAGCAACAGAAGTTCCTTGACCGGCTCCCGGAGTCAGACCCGGACGCTGCGCGTGTGCTGACAGGCCATTCCACCGCCTTGGCACAGCTGGCGGACTACGCATGA	MAGDLHGDIVVGCVPEVCYWHDDAVSSNDHPPARAPAQGPGQPAAAALALLEAVRRDLSHVSLPLALPAAGRARQEARNALAQLDDYILPRYRSLDAPLLAVVGGSTGAGKSTLVNALVGHPVTRSGAIRPTTRQPILLHHPADAGWFEDQRVLPTLSRIRGTLATDPVPASRAGVTPDAAAISSLVLVADRAVPQGIAVLDAPDVDSISDDNRRLAGQLLAAADLWIFVTTANRYADAVPWRLLLDAASRDIMVAVVLDRVPPAAEAEVSADLLALLDKEGLGGAGLFIVQETELDPLGMLPPHAVEPLRLWLQELAADAARRSEIARRTLNGTVRALAGRVAGVAEALQDQQRAAATLESDAQGAYRDAAARILDATKDGALLRGEVLARWQDFVGTGEFFRNLEQNIGRFRDRVGAFFRGEPAPAVQVEVAIETGLQAVILDEAANAAEQTDQRWRADPAGRELLGTDDLSGTSPGFADRTAEEIRAWQASLMELIRTEGQGKRTQARLLSFGINGLGAALMIVVFSMTAGLTGLEIGVAGGTAVVGQKLLEAVFGEDAVRRLAQTAREDLHIRCQQLLRVEQQKFLDRLPESDPDAARVLTGHSTALAQLADYA				NA	NA	NA	NA	NA
D1-29_03006	1020			hypothetical protein	GTGCAGAACAATCCAGGTTTTCTAAGCTTCGTCGTGGCTACTGCTCATGGAAAAAGCATAAAAATAGCAACGTCTTCTGAGGACGACCACATCAGCGCATCGATAAAGAACACCGGAAACTTTTACGAAAGCCAGTTCCTCGATGCGCTTGCCTCGATCCTCAAACCCGGTGATCTAGTGATCGATGTAGGTGCAAACGTAGGAAATCACACCCTGTACTTTTCTCAAGTTCTGGGCTGTCACGTCGTCGCCTATGAGCCGGTAGAAGAAGCGCTGCGATGCCTTCTCCATAGTGTTGAGCTCAACTTCGCAGACGAGCGGGTCGAGGTCCGCCCATTTGCCGTTGGGAGAACTTCCGGTCGAGCGCACGTACACTCCGTAAACAAGGGAAACCTCGGCGCAACTTCACTCATGCCCTCCATGAACGGCGATATTGTCCTGACTTCGCTCGACGAACAGGACATTGAAGGAAAGGTGGCGTTCATCAAGATTGATGTCGAGGGGATGGATTTAGATGTCATCTGTGGCGCAAAGACGCTGATCGAGCGTGATCGCCCGTTCATCTCTTGTGAAATTAACGACGGCAAGGACCTCGACAGACTCAGCGCAATTCTCGAAGAACTGGACTATGCTTCTCTCGGCCGTTTCAATGCTTCACCCACGTTCGTATTGGCTCCAGTCAGGACACACCAGGAACAAACCTCAATCATTAAGTTTCAGATGCAGCAAATGCAAACGCTGAGAGAGGCTCAAACTGAGTTAAACAACCGCTTGCTACGCTCCAACAGGTACACCGAGCGATTGCACCGGGAGGCTCTGCAGAAGATCGCGGCAGAGTGCTCCCTTGTGGACATCAATGCTGATGCGGACGGCTCCACCAACCGGGAAGACGCAATGGCTCAGCGAGTGAAGGAACTCTACTCGATGATGAAGAGTTCGAGAGCGGCCCAGGAGAAGAGCCAGTTGGCCATTGAAAGCCTTGAGAGGGAAGTTCGCTTGCTGAGGGGGGACGAGGCATGA	MQNNPGFLSFVVATAHGKSIKIATSSEDDHISASIKNTGNFYESQFLDALASILKPGDLVIDVGANVGNHTLYFSQVLGCHVVAYEPVEEALRCLLHSVELNFADERVEVRPFAVGRTSGRAHVHSVNKGNLGATSLMPSMNGDIVLTSLDEQDIEGKVAFIKIDVEGMDLDVICGAKTLIERDRPFISCEINDGKDLDRLSAILEELDYASLGRFNASPTFVLAPVRTHQEQTSIIKFQMQQMQTLREAQTELNNRLLRSNRYTERLHREALQKIAAECSLVDINADADGSTNREDAMAQRVKELYSMMKSSRAAQEKSQLAIESLEREVRLLRGDEA				NA	NA	NA	NA	NA
D1-29_03007	2025			hypothetical protein	ATGAACGTGGTCCGCGATCGGGACTACTCGGCATGGCCCGATACTCACTTCCAGTGGAATTCGATCGAGGCGTACAGCAACGAAAGTAAGTGGCAGGACGGCGTCCATACAATCTCCCTAGATTCTGGGCCGAGCCTGGATCTTATTATCAGTGGCAGCCCGCTATACAGCGATAACAAGATCATTCCAATTTTCCTGTCAGGTGCCGTTCAATCACGTGAATTGAAAGCTGGGCCGTTCTTTTCTGGCAGCAACGTCTCTGCAAAAGGCGGCTTCCCGTACATCTCAATTTCTGACCCATCGCTGGAATTAGACCCAACCTTAGGTCTTGCTTGGTACGCCGGAAACGAACAACAGGACCTAACTCAAGGCCTGCTGAAGGTACTGAGGAACCTAATCGCCGCTTCAGGGAAAGAACTCCTTCTTATCGGAGGCTCAGGAGGAGGTTTCGCCGCCCTGCGGTTGGGGCAGAAGCTGGGGAATGCCGCTTCTGTATTTGTCTGGAATGCGCAAACAGATATTCTCGAATATAATGAGAAATTTGTTCGTAATTATTTGCGAGCCGCCTACCCGACCCTAACTGCGAATTTGCTGGAGTCGGCAGGTTGGAAGGAGGCAGTACGTCGCAAATTCGATGCTGCTGGTGTTGAACTGTCCCTTCTTCCAGACGCAAGGGCTGGCAGGAGTCCTCGCCGCCTCCTTTTTGTACAAAATGCAACCGATTGGCATGTGCCGATCCATACCGCTCCGTTTATTGAAGCCTTTAATCTCAAACACTTAGGCCGAGGAGTTTACTGGGCCAACCCCGACCAACTGCTTTGGGTCACGCAATTTGGCACGGATCATCAGCCACTGCATGCGGACGCCGTAACCCTAATAATCAAAGAGATGCTAGATCCGGTGAGGGCTGTGAGTGATATAGTTGCCAGCCTCAAACAATCCAAACTGGTTCCCCATCAGCAGCCGGGAACGGAGCCTCGCGACCTGAGGCACATCGAGTCCCTAATTGCGTTGAATTTATCACTCGAACTTGAGTTTCGTAAGAATGGGCAGTTATATGCGCAAGTGAATCTCGGAGACGTACCCGCCTCTTATGGTGGCATCACATTCGGTTTCTTTACAGTTGACAAAGGTGGCGGCGTCAGTAACGTCCGCTGGTTCTCTTCTGATACGGAGTGCCTCATGGAGGTAGACACCGAATCAACAGGAGCCGTGCAAGTTCGTGTTCGTGATGGATTCAACAATGAACTAACGACGCTTTCCAAGAAGATTACTCCTAAAACTGCCGTAGAGCATTTACCCTTACGCGTCTTCATATACGGGAGTTGCGTTTCCAGAGATGCCTTCCAATTCCCACACGCCTTGCACCTCGTGGACTATGTCGCGCGGTCGCCACTGGGGAGTGCCTTCGCGGAGATTCCATCCACAACTGACTTCCGCACTGCTGCTATCTCAAGCTCATTCCAGAGGCGCATGGTGGAAATCGACTTGAAAAAGGAGCTTTCGTCCATTCTTCGTCACTCGGAATATGACCTTCTGCTTTTGGATCTCATTGATGAAAGAATACCTCTAATGAACTATGGGCATTCCGTCGTGGCGTATTCATCCGAGCTTCAAAGCACTGGTCTCACCGTGGAAGAAAAGTCGCTAATTGGAATGGGAACCGACGAATATTTTGCTCGCTGGCTGGAAGGCCTGTCGAAACTGTTAGCAATCTGTCCAGCTTCGAAAATTGTCGTAAACAAGGTTTGGTGGGCGGTCACCGACAGCGCCGGCGCACTTCTTCCAAACCAAGGATATATCAAGACCAATAACGAAATTCTGGAACGCCTTTATGCCGAGCTCGGCCGGTACCCAGAGATTCGCTTCATTGAGTACCCGGCAAATGTTCTGGTTGCTGATGCTCGCCACAAATGGGGCGCAGCACCATACCACTTTATTACCAGGGCGTCTACGCACCTGCTCGGCATACTGGCTGAGTATTGCCCGCCTGCTGAAGTTCAGTCCACAACCTCAGACAACTGA	MNVVRDRDYSAWPDTHFQWNSIEAYSNESKWQDGVHTISLDSGPSLDLIISGSPLYSDNKIIPIFLSGAVQSRELKAGPFFSGSNVSAKGGFPYISISDPSLELDPTLGLAWYAGNEQQDLTQGLLKVLRNLIAASGKELLLIGGSGGGFAALRLGQKLGNAASVFVWNAQTDILEYNEKFVRNYLRAAYPTLTANLLESAGWKEAVRRKFDAAGVELSLLPDARAGRSPRRLLFVQNATDWHVPIHTAPFIEAFNLKHLGRGVYWANPDQLLWVTQFGTDHQPLHADAVTLIIKEMLDPVRAVSDIVASLKQSKLVPHQQPGTEPRDLRHIESLIALNLSLELEFRKNGQLYAQVNLGDVPASYGGITFGFFTVDKGGGVSNVRWFSSDTECLMEVDTESTGAVQVRVRDGFNNELTTLSKKITPKTAVEHLPLRVFIYGSCVSRDAFQFPHALHLVDYVARSPLGSAFAEIPSTTDFRTAAISSSFQRRMVEIDLKKELSSILRHSEYDLLLLDLIDERIPLMNYGHSVVAYSSELQSTGLTVEEKSLIGMGTDEYFARWLEGLSKLLAICPASKIVVNKVWWAVTDSAGALLPNQGYIKTNNEILERLYAELGRYPEIRFIEYPANVLVADARHKWGAAPYHFITRASTHLLGILAEYCPPAEVQSTTSDN				NA	NA	NA	NA	NA
D1-29_03008	990			hypothetical protein	GTGCCAGAGTTTGACGAGTTTTATAAAGCCCCAGTTGTCACCCTGAGTGAGCTGGATGCCTTCACTCCCAGTCTGGGTGATGACGAGACCATCTACGAGCTAGAAATCGGCGATGGCATGTTGCTGTCGTTTCTCGTAAATTGTCGTCCCAGCATCAGGGGGGAAATAAGGACCGGGTTTCATGCAGCAAAAGGACCGATAACCCCTGATGGCAGGTACTTCGCGCCGGTAGCACTCTCTCGGGCGTCAAATGCGCCCTTCGTGTTATTCTCTGATCCCACATTGTCACTGGCGCCAAAGAATCGACTGTCTTGGTATCTTGGTACCCCGGATGTTGACCCAGACAACTGGATGGAAGCGATCATCAGGAAGTTGATGGGCGTTGTAGGTGCTCGATACTTGATCCTTGAGGGCTCTTCGGCGGGCGGTTTCGTCGCCATGCGCCTAGGGGCAAGATTCGCAAACTCGGTCGCGATACCACGCATTCCGCAGACGGACATCTTCCGATATTCAATACGTCAGCCGGTGCGTGAAAGCCTCAACACGGCTTGGTCAGGGCTCTCGTACGTCGAGATTATGAAAGACTACTCACACAGATTTCGTATTGCCGACCTATATACGGACCCGTGTTGGAACCGTGGGAATCTCATATCCTATGTGCACAACGCGGGCGATACGTGGCATACGGAAGAGCATCTGAACCCCTTTCTCGAAGAAATCGGCGAGTCAGTCCATGCTTTTGTTGCACTCGAAGACAGAATGACCGTCTCAAGGCCGTACGTCGGGGTCGGCCATGTCGGCATTCCATCGTCCTTCTGGCCAGCGGAGACGGAGATGGCTTTTACGAGATTGAGAACCTGCAGGCCACTTGAAACTAACCACTCCGATGAGCCGATGTTCTCGTCACCGCGTGAAATGCGGCGTAGCTCTGCCGCAAACGAAGCGCGGCAGAGATCCATTTCACAGCATTGGGCGTCCATTCCTGGTTAG	MPEFDEFYKAPVVTLSELDAFTPSLGDDETIYELEIGDGMLLSFLVNCRPSIRGEIRTGFHAAKGPITPDGRYFAPVALSRASNAPFVLFSDPTLSLAPKNRLSWYLGTPDVDPDNWMEAIIRKLMGVVGARYLILEGSSAGGFVAMRLGARFANSVAIPRIPQTDIFRYSIRQPVRESLNTAWSGLSYVEIMKDYSHRFRIADLYTDPCWNRGNLISYVHNAGDTWHTEEHLNPFLEEIGESVHAFVALEDRMTVSRPYVGVGHVGIPSSFWPAETEMAFTRLRTCRPLETNHSDEPMFSSPREMRRSSAANEARQRSISQHWASIPG				NA	NA	NA	NA	NA
D1-29_03009	4380			hypothetical protein	GTGAAAGTGCTTTTTTGTCGCATCAACCAAGCTATCGAGGACGTATATGCAGACCAGATCTACGCAGTCCTACGGTCAAATTATGATGTCGATGTGGTAACAGCCGCGACCGACGCTGCGGACAGGCCGACTCCAAATCCATACCCGTCGACCAATTTTGACTTTAGCCCCGTCGAAAACAGCGCGATAGTGGGTGCTGATGTGGTCACTTTTGCGGAAAAGATCGAACGCATCGTTCAGAACGAGGGTTATGACCTCGTCATCGCACTGGGTCTGGATTTGATTGCTCAACTAATCCAGCAGAACTCACTTAGGGGACGGGTTTGGTCTGTCCTATCCGAATCCGATTTTTCAATAATCGAAGCTCAAACTAGTTTTACTCCATCTCTCGATCAGGTGGTCGAGGAATCTGCGAGGACAGTAGTCTCGCACCCAAAACGGCAAAACCAGGTTCGCCTTGCCAAGCCGCGCTTTATTCACAGAATCATTACAGTTGATGACTGCAAGTCTGTCAGTACCTTCAACCTTGCCACCGCTCAGCGTCGTGTAATGATTTATCTTCGTCCCCATTCAAACGATCCTCGCTGGGCAGACCGCGGGTATGAAATGGCCGAGTCCCTGGCTTCCTCACGAGTCCACGTAGTCGTGCTGTGCCACAATGCGCATTCAGCTTTAGGGTCGGTTCTCAGACACGACAGCCCGTATACGACTGTGATCGAACCAGCAAGTGCGGCACATCAGCTCGTCGACGGTGAGCTGATGTCCAGGTTCGCAGCGTGGCATATCTTCGTTGCCGCAGCGGATCTGGACTGCTCAGTCGTTCTTACCGATGATCTCGAAGCTGTGGAGCACGGTTTCACGAATAGCGAGCTGAAACGGAAGCTATGGCCAATCATCGACTTCCCCAGCTATGACGAATATAGGTCAGCACTCTCGAGCTATGAGCGCATAGCTGAGGCGCTGCCTCGTTTGGTCTACTTGAATGATGAGTGCCGTGCCGTCGTAGAATCTCGAATTCCAGCGTCCACATCGAAAGGGGTTCTCTTGGCTGATCCCATTTCTCCGGGTCTAGCTGGAGCAACAAAGCCCAATGCAGATGTCTTTGAAGGCTATCTCGACAGGTTCGTGGCCGACTACAGGGCCGTCCCGTGCAACTCTACTAATCGCAAGATTCTGCTGGCTGGACATGACTTTAAGTTTGCTGGTGAGTTGATTGATGTCCTACAACAAAGAGTCGACGTTGAGCTTCGAGTTGATCACTGGAAAGCGCAAAACGTACAAGATGAGGATAAAAGTCAAAGCCTTCGGGATTGGGCCGATATCGTTCTCTGCGAATTCGCATCACACAATTCCGTTTGGTATTCATGGAACAAAAAGCCTAATCAGGTGCTAGTAATTCGGTTCCACGGATATGAACTACTTTCCCCTTGGATTCAAGATATCAATCTGAACAATGTCGACAAAGTTGTTTTTGTCTCGAATTTTTACATGGAGAAAGTCTGTAACGAACTCGGATGGTCTCGTGATAAAGCGGTCGTACTGCCAAATGTTGTAGACATTCTGGATCTCAAACGTCCAAAGAATGATGGTGCTCGTTTTCATCTTGGTATCGCTGGTATTGTGCCGATTTTGAAGCGGCCAGACCGAGCATTAGATATTCTTGAGCGGCTACTTGATCTTGACAACCGCTATGTTTTGCACATCCGAGGAAGAGCGCCGTGGGAATATGGCTGGATGTGGGAAAATGAGGAAATCCGAGAAGCCTATGATGCCTTTTACGAACGCATTTCGACCAACCCACTATTGAGGCGGAGAATAGCGTTCGATGAGTTCGGTCCGGACATGGGTCGGTGGTTCCAGAACGTCGGTTGGATGTTATCGCCGAGTTACCGCGAGACGTTCCATCTTGCGCCGGTGGAAGGTATGGCGTCTGGAGCAATCCCTGTTGTGTGGGAACGCGAAGGTGCCGTGGAGATTTTTGGCGACGAGTGGGTCCATGCCAATTTGGATGCAGCGGTTGAATATATTGCAAACGTGAACCGCAACGCAGATACGTATACCGAAGTTTCGTGTGCGGCGTCAAACTACGCAGCAAGATATGATCTTCTGGTCAATGGGCAACGGTGGCTGAAGATGTTGTTCTCAACAGAGGCAGAGCACTCTGACGCGCCGAGTACAAACATTTCAGTCGATGCAATGGAAGAGCGGTTCGTCCAAAAGCCAACTTCTGAGACACTGACAAGGCTCCTCAGCGTTTTACACCGAGAGGGAGATTTAGCGCGCATCGGAGAGCTGGCCGAAGGTCACCCTCAGCTTGTTGTCGGATCAGCTCTGAAGTACGTGGCGGCTCAGAGATGGGCAGCAGGTGTTGAACGTTTAAGGGCCGCGCCCCCTCTGGTGCCCAGAAGGTCTGAGGGAGCTGCATACCTCATCGAACATGGCAGTGTCCTGTTCGCAATAAATGAGTTCTGCGAGGCGTCCCTTCAACGTGCCTGGACAGCTCCACTACTGGAAAGCGTCCAAGACGGGAAGGTCAGTATTGTTAGTGTCACGTCCGCAACAATCAACACCGTATTCCTCGATTCAGACCAGAGCCGCGAAACCATCCATGTGCAAGAATTGCCGGTCACAAGGCTTCCACTCCGCAATTCTGATGACCTTCTCCTGCCCCAGTTCATAATTGCTGCCGCCGACGCCATTGTCAGAGAAGCAAGGGCGGTCCGGCCAGCAGGAATAGCCGCTCACTCGGACTTCTGGGTCGGGCTTCCCGCACTTCTTGCGGCGCGACGACTCGGTGTGCCCTTTATGCTTGCAGACTCACCTGGTGCGGTAGATGAGGAGCTTTCTCTGATTTGCCTGGAGCAAGCTGACGCGGTTTTCGCCGGGACACCCGTTGACTGTCTGGCGGATGCCACAAATTCCTACAGGGAAGCCACAAACCAGGATGAGCAAAAAAACCTGGCGGATTTACGCGTTGGTATCATCGCAGACAACTTCACCAGTACAACCATTGCGCATTCGTTTCACACATTCCCGCTCTCGCGAAATGAAGGCTACGTCGAAGTGGCTTCGCTAGACTTGGACGCAATTTTCGTTGAGTCGGCCTGGGAGGGCGCGCAAAATCAGTGGCGCCGAGGGGTTGCTTACTATCCAGATGAGATCAAAGACCTCGAAAAGATTATTAAGGTCGCTAGAGCGCGTGGTATCCCAGTGATCTTTTGGAATAAAGAAGACCCCGTGCACTTCCGAGCCTTTGAACGAACGGCTCGGATGATGGATCACGTCTTCACCACCGACGCTGATATGGTCGGAAGATACCTGCAGAGTGCAGATTCTGCAAACCAGAGCGTTTCGTCGCTGCCCTTCTACGCTGAACCGGTAATTCATAATCCACTGCCGACAGAGCGAAAGTATATGCACACAGTGAGCTATGCGGGGACATACTACGGCGATCGTTTCAGAGAACGCTCTGAAGAATTACATAGAATTCTTGATGCTGCCAAGGTTCATGGGCTCACTATCTATGACCGTCAAGTAAATGTTCCCAACTCGCCCTATCATTTCCCTGAGGAACTCGTTCCTTATGTTCGCGAAGGTGTTCCTTACAAAGAGGTTCTCGAGGTGTACAAAGCACACCCAGTCAACATCAATGTGAATTCAGCAAATGATTCACCCACCATGTTTTCGCGCCGAGTCGTAGAAATCGCAGCGAGCGGATCCTTGGTATTAAGTGGCCGTGGACGAGGCATTACTGAGCAAATCCGAGGGATTGAAGCCACCAACTCCGACTCGAGGTGGGCAGAACTGCTTTCCACCTGGATGTCTGACGAAACGGGGCGGGTGGCAGCCGTTTGGAGACAGATGCGCACCATCACGAGGTCCCATCTGGCGGAACACGCGCTGGCTATTGTCATGCGTACCGCTGGAATACCCGTCATGGCCAGGCCTCTTCCCTCCTATGCTCTAGCGAGGAAAGGAATTGACTCTGATCAAGTGGCTGCAATTCTGCGTCAAACGTGGCGGCCAGCTGTTGTCTTCACGGATATCATTAGTGCACCGAACCGCGCAGCGCTGGAAGAGGGAGGGATCTCTGTAGCACCCGCATCACAGATTGGCCAAGTAGAGCAAAGCTGGATCGCCTCTTGGGGCAAGGTTCCCACGGATTCATATTTTGAAGATCTTCTACACGCCACACGGTTCGGAACTTACAGTGTGCTGTCAGGTCGCATGTACAGGGCCGGCGATGGCGTTGGCAATCCAATCATCGAGCTGGGAAAAAACGGAGAATTTGCTGAGCTTCACCGCGTGCCCAACGGTATGCCGACTGAGGATTCTCCACTCACATGGATCCTACCGCGTGCGGATTTCGATGAATGCTAG	MKVLFCRINQAIEDVYADQIYAVLRSNYDVDVVTAATDAADRPTPNPYPSTNFDFSPVENSAIVGADVVTFAEKIERIVQNEGYDLVIALGLDLIAQLIQQNSLRGRVWSVLSESDFSIIEAQTSFTPSLDQVVEESARTVVSHPKRQNQVRLAKPRFIHRIITVDDCKSVSTFNLATAQRRVMIYLRPHSNDPRWADRGYEMAESLASSRVHVVVLCHNAHSALGSVLRHDSPYTTVIEPASAAHQLVDGELMSRFAAWHIFVAAADLDCSVVLTDDLEAVEHGFTNSELKRKLWPIIDFPSYDEYRSALSSYERIAEALPRLVYLNDECRAVVESRIPASTSKGVLLADPISPGLAGATKPNADVFEGYLDRFVADYRAVPCNSTNRKILLAGHDFKFAGELIDVLQQRVDVELRVDHWKAQNVQDEDKSQSLRDWADIVLCEFASHNSVWYSWNKKPNQVLVIRFHGYELLSPWIQDINLNNVDKVVFVSNFYMEKVCNELGWSRDKAVVLPNVVDILDLKRPKNDGARFHLGIAGIVPILKRPDRALDILERLLDLDNRYVLHIRGRAPWEYGWMWENEEIREAYDAFYERISTNPLLRRRIAFDEFGPDMGRWFQNVGWMLSPSYRETFHLAPVEGMASGAIPVVWEREGAVEIFGDEWVHANLDAAVEYIANVNRNADTYTEVSCAASNYAARYDLLVNGQRWLKMLFSTEAEHSDAPSTNISVDAMEERFVQKPTSETLTRLLSVLHREGDLARIGELAEGHPQLVVGSALKYVAAQRWAAGVERLRAAPPLVPRRSEGAAYLIEHGSVLFAINEFCEASLQRAWTAPLLESVQDGKVSIVSVTSATINTVFLDSDQSRETIHVQELPVTRLPLRNSDDLLLPQFIIAAADAIVREARAVRPAGIAAHSDFWVGLPALLAARRLGVPFMLADSPGAVDEELSLICLEQADAVFAGTPVDCLADATNSYREATNQDEQKNLADLRVGIIADNFTSTTIAHSFHTFPLSRNEGYVEVASLDLDAIFVESAWEGAQNQWRRGVAYYPDEIKDLEKIIKVARARGIPVIFWNKEDPVHFRAFERTARMMDHVFTTDADMVGRYLQSADSANQSVSSLPFYAEPVIHNPLPTERKYMHTVSYAGTYYGDRFRERSEELHRILDAAKVHGLTIYDRQVNVPNSPYHFPEELVPYVREGVPYKEVLEVYKAHPVNINVNSANDSPTMFSRRVVEIAASGSLVLSGRGRGITEQIRGIEATNSDSRWAELLSTWMSDETGRVAAVWRQMRTITRSHLAEHALAIVMRTAGIPVMARPLPSYALARKGIDSDQVAAILRQTWRPAVVFTDIISAPNRAALEEGGISVAPASQIGQVEQSWIASWGKVPTDSYFEDLLHATRFGTYSVLSGRMYRAGDGVGNPIIELGKNGEFAELHRVPNGMPTEDSPLTWILPRADFDEC				NA	NA	NA	NA	NA
D1-29_03010	648			hypothetical protein	ATGCTATGGAGTATGAGCATTAGTCGAAGTCTGGATAGGGGAAGCGTGAGCACCACAAAGCGAGTAGATCTCGACCCGAGCATCGGGAACATTAGCAGCCTTCTAGCCGCTCGCGGTCGATCGTCCACGCCCCCTCCGCCGAATCTTTCCAAGACCAAATTGGCGGACACCATCGGCATCGGGTATAAGTCGGCCACGGCACACCATCCCCAGTTGAAGATTGCCACAATAGTCCACGACGAACTATATGACGAACTTGAGAAATCGTACCTCCTTATGCCGCTTATGCCCTCGTGCTTGGTCAATTCTGTGGACGATGGACAGCCAAAAATGATCATCATCCATCGTTCGGCATTTGAAAGCGGTCCATGGTTCGGTGCTGAATACGCAACAGGTGGCGTAGCCGCAGATACAATTTCCCGTCTGCTCCCGTGGAGTCGGAAACGATCCGTCCCCGTTCTTTTCATAGAGAACGGCAAGCCTGATCTGTACTTCACGGCGCGACTCCGGAGGATTGGCACTGAAATTGTGCCGTCAGAAAATACTCTTAGTCGGGTTCCTGAACAAGCGCCACGCCCTCGGGTATTTTACATCGCACATAAGTTTTCGACCGCACCGCATGTATCGACTCAAGACGGAGACATCTGA	MLWSMSISRSLDRGSVSTTKRVDLDPSIGNISSLLAARGRSSTPPPPNLSKTKLADTIGIGYKSATAHHPQLKIATIVHDELYDELEKSYLLMPLMPSCLVNSVDDGQPKMIIIHRSAFESGPWFGAEYATGGVAADTISRLLPWSRKRSVPVLFIENGKPDLYFTARLRRIGTEIVPSENTLSRVPEQAPRPRVFYIAHKFSTAPHVSTQDGDI				NA	NA	NA	NA	NA
D1-29_03013	2328			hypothetical protein	ATGTACGAGCAGTCATCCACCGAACAGCGAAAGAGCAGGGCCGCAAGGGGCGGCCGACGCGTTGCCCTCCTTTCCGCCGGAACGATTGCAAGCCTGGGCTTAAAATCCTGCCTGGCAGCGGGCACCGTCCTGATTATCATCCTGAGCAGCCTTCTGGCTCCGCCTGCATTGGCTGCCACGCTAAGCGAGCAAAGGGCGTTATTGCGGCAAGCCCAGTATTCTGCGGCACAGGATTATGTTGCATCGCGTGACTATGTTCCTATGTTGGCCCGGGCCAACGGGCTTGTGATCAAGGGAGCTATTGCGTCCGGGCTGGAGATGCTCAAAGTTGTGGGCGGCGAGCTGACGGCGGCGTCGACGCAAAGTTCAATGGATGCGGTAGCCGCGAAGATGAAGGCTGAGGTGCTCCGTGCTGCAACGGTAAAGAAAGGCGGATACCAGCTCACTTTGCTGAAAGACTTGCGCGGAAAGCAGCAGCAGGTAGCAACTACTGCTCTCGGGGATCTGATGGCCGGGAAGATCACGGCGTCAACGTATGAGGCGCAAAAAGCCCGCACCGCTGGTTTCAGCACACAGCTTTCGGCGGACACATCCAGGCAACTCGGAGCCGTGGGGCACGCTGTGCCCGCTCCGGCACTTGCGTCTCCGACCTACGTGGCAGCTTTGGAACAGGGGACTGGGAGCATTCCGACGGTATCGGGCCTGGTCGGATTTGCTGGTGGCTGTGCATTACCAGCGGCACCGCCTGCCTTCAGGCCCGCGCTCCCCACTGACGGTCCAGGGGTCGCAACGAACCGGCAGATCTTGCGGGATTCCCTCGCTGGCGCTTCAGCGGACACAGCTACCGGGGCAGTTCACAGGCAGCTCCTTCGTGCCGCAGTGAACGAGTCGGCAATTGAGATGAGCCTGGAGCAACTGCGATCGTCTTATGTGGTGCGTACTCCCAGACTTGCGTACGGATGGTTGTCAGGAAGTGATGGCAAAGCCCGGGATGTGCTGGCAGCAGACACTCAGCGCATCCTGCTGGCCGGGCCGGAAGGAATGAGTACCTTGGCGTCGTCGCATCTGTTGCTGGCAGCGTCGAGCGCCGCTGACTGGGTGAAGCTGCCGGCCTTGGACGAAACGGTCCTCGTGCGGTGGCTGGGACCGCAGACGTGCCTGCACGAGGACCGCGACACTTTTGTAAAAGGGCCCACGAACTTGGGGGCGATACACAACGCTGCTAATTTCACGGCTGCAGCGGTCTTCTTGAAGTCCTGGCCGGAGCTGGCGGCCTCCCTGGCGCAGGAATCCCTGAAGTCCGTCCAGCCGGCCCTGAGCATGATTACCACGGACGGAGGCACGCAGGAAGGGCCGGGGTACTGGACGTACCAAAGCCGGGCGATCGCGGTGCTCTATTCAACGCTTCCTAACGCTTACGCCACTCTGCCGGTGACCCTTCCGTCTCTGGAGAGCGTGTCCCATTATGCGATGAACAGCACGGGTCCGGACGGCCGGCCGAGTCCGTTTGCGGATGCCGAACCGAAGGAGCTCAGTGGACTGATGCCTGCTTGGGACGCTAAGGTGCGCGGTGATTCTACGGTCGCGGCATGGGTTGCTGGCCGCTTCGCGCAGAAGCCGGATGCATATCTGATGTGGTGGCGGATCCCACCTGGGACGCTTCCCGCCAAGCAGTCAACTGTCTATCCACAGACCGGACTTGCGGCGCTCCATGTCGTTGGCAGCACGGCGACCTTGAAGGGTGGCTCAAACGCGGCGAACCACGCACACCTGGACCTGGGTACTATCTCATTTTTCAGGAAAGGCATTGAATGGGCTGTTGACCCCGGACCGATGCCGCCGCTGACTCCTGGCTACTATTCTGAGAGTCAACGCCTTTCCTATTGGAATCCCAGCACTTCGGCCCATTCCACGATTGCCTACACGGACCTGAATCAGCCCACTAATGCGACGGCTCCGGTCCGTAGGGTCTCGTCTACTACAGCGATGGTGGATCTGCGACAGGCGCTTCCGGGCACGTCAACCGCAACCCGAACTGTTGCTCATGGGCCCACCAGTATGATCATCAAAGATGTGGTTCGTTCCTCCGTGGCAAAAGACTTCACCTGGCAGTGGGTCACTGATGCCACTGTCAGTCTCGGAACAAACAGGGCCGTGTTGCGGCGGGATGGACAGGCGATCACCATCGCTCTGACTGGAGTTCCAACGGGAGCTGTGCTGAGCGCGGAACCGGCGTCGGGAACCACGACGGACGGCAGGGCATTGACGGTCCTTAAGCTCACGATGCCCCGCGTCACCAGTTTGGATCTGACCACAACGGCGTACTGA	MYEQSSTEQRKSRAARGGRRVALLSAGTIASLGLKSCLAAGTVLIIILSSLLAPPALAATLSEQRALLRQAQYSAAQDYVASRDYVPMLARANGLVIKGAIASGLEMLKVVGGELTAASTQSSMDAVAAKMKAEVLRAATVKKGGYQLTLLKDLRGKQQQVATTALGDLMAGKITASTYEAQKARTAGFSTQLSADTSRQLGAVGHAVPAPALASPTYVAALEQGTGSIPTVSGLVGFAGGCALPAAPPAFRPALPTDGPGVATNRQILRDSLAGASADTATGAVHRQLLRAAVNESAIEMSLEQLRSSYVVRTPRLAYGWLSGSDGKARDVLAADTQRILLAGPEGMSTLASSHLLLAASSAADWVKLPALDETVLVRWLGPQTCLHEDRDTFVKGPTNLGAIHNAANFTAAAVFLKSWPELAASLAQESLKSVQPALSMITTDGGTQEGPGYWTYQSRAIAVLYSTLPNAYATLPVTLPSLESVSHYAMNSTGPDGRPSPFADAEPKELSGLMPAWDAKVRGDSTVAAWVAGRFAQKPDAYLMWWRIPPGTLPAKQSTVYPQTGLAALHVVGSTATLKGGSNAANHAHLDLGTISFFRKGIEWAVDPGPMPPLTPGYYSESQRLSYWNPSTSAHSTIAYTDLNQPTNATAPVRRVSSTTAMVDLRQALPGTSTATRTVAHGPTSMIIKDVVRSSVAKDFTWQWVTDATVSLGTNRAVLRRDGQAITIALTGVPTGAVLSAEPASGTTTDGRALTVLKLTMPRVTSLDLTTTAY				NA	NA	NA	NA	NA
D1-29_03014	738	hadL		(S)-2-haloacid dehalogenase	ATGAACGCAACCAATACGGCCGCCCAGGGAGTCTTGGCGACACGCTTCGGTACCATCCGGGGAGTCCTCTTCGACATCGATGACACCCTGGTTGACCTTGAATACTCCATGACCACCGCACTGCGCGAGGTCAGCGAACACCTCCTTCCCGGCCTGGACCAGGCCGGATGGGCGAGGTTCGGCAGGATCTTCACCCATGAAACCACGCACTACTACGACAGGTACCTGGCGGGGGAGCTGACCTTCAATGACCAGCGGCTGCTGCGTGGACGGGCCGCGCTGGGGCATTTCGGCGTGGAACTCGCTGACGGTGAGGAAGCGCACCAGTGGGTGAGCGCGTACGCCCGGTTGCAGCCGGGCTACGTCAGGGCCTTTGACGACGTTGCGCCGCTGCTGGATCTCCTGGATGAGGCAGGTATCCCCTACGGAGCCGTGAGCAACAACGTGCACGATTATCAGCGGGCCAAACTGGACGGCGCCGGTCTGGAACGCATCACGAGGCTCGTGGGCACCGATACCGTCGGTGTAGCCAAACCCCAGCCGGCGATTTACCTCGAGGGCGTGCGGCTCCTGGGTGTTGAACCGGGGGACACGTTATTTGTCGGCGATAATCGGCTGCTCGACGCCGAAGGGGCGACGGCGGCCGGTCTGCTGGGCGTTTGGCTCAACAGGGTGGGTGAACCGTCTCAGGGGTTCGAAGGCGACATGATCTCGTCATTGGAACAGATCAGGAGATAG	MNATNTAAQGVLATRFGTIRGVLFDIDDTLVDLEYSMTTALREVSEHLLPGLDQAGWARFGRIFTHETTHYYDRYLAGELTFNDQRLLRGRAALGHFGVELADGEEAHQWVSAYARLQPGYVRAFDDVAPLLDLLDEAGIPYGAVSNNVHDYQRAKLDGAGLERITRLVGTDTVGVAKPQPAIYLEGVRLLGVEPGDTLFVGDNRLLDAEGATAAGLLGVWLNRVGEPSQGFEGDMISSLEQIRR				NA	NA	NA	NA	NA
D1-29_03015	1536	gltX	COG0008	Glutamate--tRNA ligase	ATGACTACTCCTTCTGCGCCCGACGCCGTTTCCAGCTCCGCTCTCCCTGAAGTCACCGGTGAAGTTACCGCCGATACCCCTGTCCGGGTCCGGTTCTGCCCGTCGCCCACAGGCACCCCCCACGTTGGCCTGATCCGTACCGCCCTCTTCAACTGGGCCTACGCCAAGCACACCAAGGGCACCTTTGTGTTCCGCATTGAGGACACGGACGCTGCGCGCGACTCGGAGGAGAGCTACCAGCAGCTGCTCGAGGCGCTGAAGTGGCTCGGCATCACGTGGGAAGAAGGCGTGGAAGTGGGCGGCCCGCACGAACCGTACCGCCAGTCGCAGCGGCTGGACCTGTACAAGGACGTCGTCGCGAAGCTGCTGGATGCAGGCTATGCCTACGAGTGCTATTCCTCCCCGGAGGAAGTGGAGGCCAGGCACCGGGCCGCAGGCCGGGACCCCAAGCTGGGCTATGACAACTTTGACCGCGAACTCACGGCGGAGCAGCTGGCCGCCTTCAAGGCCGAGGGCCGGCAGCCGGTGCTGCGCGTGCGGATGCCTGATGAGGATGTCACGTTCAACGACGTTGTCCGCGGCGAGATTACCTTCAAAGCCGGCAGCATCCCCGACTACGTGATCGTCCGCGCAGACGGCTCGCCGCTGTACACCCTGGTGAACCCGGTGGATGACGCCCTGATGGGAATCACTCACGTTCTGCGCGGCGAGGATCTGCTGTCCTCCACCCCGCGCCAGGTTGTCCTGATCCGCGCGCTGATGGAGATCGGCGTCGCCACCTACATGCCGGTCTTTGGCCACCTTCCGTACGTTATGGGCGAAGGCAACAAGAAGCTGTCCAAGCGCGATCCGCAGTCCAACCTCTTCCTGCTCCGTGACCGGGGCTTCATCCCGGAAGGGCTGCTGAACTACCTGTCGCTGCTCGGCTGGAGCCTGTCCGCCGACGAAGACATTTTCACGGTGGATCAGCTCATCGAGAACTTCGATGTCCATGACGTGCTGGCCAATCCTGCCCGCTTTGACATCAAGAAGGCCGAGGCCATCAACGGCACGCACATCCGTATGCTCGCCCCCGAGGATTTCCGGGCCCGGCTGGTTCCCTATCTGCGCGCGGCAGGCCTGGTGGGGGAGACCCTGACGGACCGCGAGGAGGATATCCTCTCGGAGGCCGCTCCGCTGGTCCAGGAACGGATCGCGCTCCTGGGGGAAGCGCCGGAGATGCTCGCGTTCCTCTTCAAGGCCGACGACGCCATCGACGTCGCGGACGACGCCCGCAAGGGGCTGCCGGAGAACCTCACCGAGGTCCTCGATGCCGCCATTGCCGCCCTGGAGCCGATCGAGGACTGGCAGCCGGAAAACATCCAGACCGCCCTCAAGCAGGCACTTGTGGAGGACCTCGGCATCAAGCCCCGGCTCGCCTTCGGTCCCGTCCGCACAGCAGTCTCAGGGCGCCGGATCTCCCCGCCGCTGTTCGAGTCCATGGTCATCCTGGGCAAGGGCCCGTCCCTGACCCGGCTCCGTTCCTTCCGCGGCTGA	MTTPSAPDAVSSSALPEVTGEVTADTPVRVRFCPSPTGTPHVGLIRTALFNWAYAKHTKGTFVFRIEDTDAARDSEESYQQLLEALKWLGITWEEGVEVGGPHEPYRQSQRLDLYKDVVAKLLDAGYAYECYSSPEEVEARHRAAGRDPKLGYDNFDRELTAEQLAAFKAEGRQPVLRVRMPDEDVTFNDVVRGEITFKAGSIPDYVIVRADGSPLYTLVNPVDDALMGITHVLRGEDLLSSTPRQVVLIRALMEIGVATYMPVFGHLPYVMGEGNKKLSKRDPQSNLFLLRDRGFIPEGLLNYLSLLGWSLSADEDIFTVDQLIENFDVHDVLANPARFDIKKAEAINGTHIRMLAPEDFRARLVPYLRAAGLVGETLTDREEDILSEAAPLVQERIALLGEAPEMLAFLFKADDAIDVADDARKGLPENLTEVLDAAIAALEPIEDWQPENIQTALKQALVEDLGIKPRLAFGPVRTAVSGRRISPPLFESMVILGKGPSLTRLRSFRG	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
D1-29_03016	777	yisK	COG0179	putative protein YisK	ATGCGTATTGCCCGGTTTGTAGTCGATTCTGATCCCCTCTACGGCGTGGTTGAAGGCCAGCCCGGCAGTGAAGAAATCACTGTCATCAACGGCGACCCCTTCTTCAACGGAGTGGAGCGCACCGCTGTCCGCCACAAGCTGGAAGACGTGCGGCTCCTCGCTCCGATCATTCCCCGCAGCAAGGTCATCGGCGTCGGCCGGAACTTCGTGGAGCACGCCCGCGAGCTGGGCAACGAGGTACCCGCCCAGCCGTTGCTGTTCCTGAAGCCGAACACTTCAGTGGTGGGCCCGAACGACCCCATCGTGCTGCCTGAATTTTCCGAGGAGGTCTCCTTCGAGGCCGAACTGTGTGTGGTCATCGGCCGCATCTGCAAGGACGTTCCGGAGGAACGGGTGGATGACGTCATCTTCGGCTACACCTGCGGCAATGACCTCACCGCCCGGGACGTGCAGAAAACAGATCTGCAGTGGGCCAGGGCCAAGGGCTTTGACACCTCAGCACCGCTGGGGCCGTGGATCGAAACGGAGCTGGACACCGAGGACCTCCAGATCCAGGGCAGGCTGAACGGGGAGCTCCGCCAGGACGGGAGCACCAGCCAGATGATCCGCGGCGTCCGTGAGCTGGTATCCATCGTGTCGCAGGCCTTCACGCTGCTGCCCGGGGACGTCATCATGACCGGAACACCCGCCGGTGTGGGCCTGGTTGAGGCCGGAGACCGCTACGAGGTGGAAATCGAGGGCATCGGGCGCCTCTCCAACCCCGTGGTCCGCCGCTAA	MRIARFVVDSDPLYGVVEGQPGSEEITVINGDPFFNGVERTAVRHKLEDVRLLAPIIPRSKVIGVGRNFVEHARELGNEVPAQPLLFLKPNTSVVGPNDPIVLPEFSEEVSFEAELCVVIGRICKDVPEERVDDVIFGYTCGNDLTARDVQKTDLQWARAKGFDTSAPLGPWIETELDTEDLQIQGRLNGELRQDGSTSQMIRGVRELVSIVSQAFTLLPGDVIMTGTPAGVGLVEAGDRYEVEIEGIGRLSNPVVRR	PGPT0001625_429	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001625-ycgM-K01557	NA	NA
D1-29_03017	804	gloB_4		Hydroxyacylglutathione hydrolase	ATGGTGACTTCAGCTTCCGGCCCTATCCTGCAGCGCAGCTCAGCCCTGACGCGGTTCATCCTGGCCCCCAATCCGGGACCCATGAGCCTGGAGGGAACCAACTCCTACGTCTTACGCGCGGCGGGCCAGGCCGGCGCGGTCGTCGTGGATCCCGGGCCGGCAGATGAAGCCCATCTTCTGGCGCTGGCCGCCGCCGGACCCGTTGAACTCGTCCTGGTCACCCACCGGCACGCCGATCACACGGCCGGCTCGGCGCGGTTGTCTGAACTGACGGGCGCCCCTGTTCGGGCGGCAGACCCGCGGCATTGCCACGGCGGTGGGCTGCCGCTGCAGGACGGTGAGGCCATCCGGGCGGCCGGGCTGGATATCCGGGTCCTGGCCACGCCCGGCCACACCTCAGATTCTGTGTGTTTCCAGCTCCCGGAGGACGGCCCAAACGGTAGTGTGCTGACCGGCGACACCATCCTGGGCCGCGGCACCACTATGCTGGACTACCCCGACGGAACGCTGGGAGACTATCTTGCCTCACTGGACAGGCTGGAGGCGCTGGGGGCAGCCGCGGTCCTTCCCGCCCACGGCCCCGTCCTTTCTTCCCTCGAAACGATCACCCGCGCTTACCGTGACCACCGCCAGGAACGGCTGGCGCAGATCCGCGCCGCATTGGACCGGCTGGGCCGGGACGCCGCCGTCGGTGCCGTGACCGACGCGGTGTATTCCGACGTCGAACCGTCCGTCCGGCGGGCAGCGGAAATGTCCGTTGCGGCGCAGCTGGACTACCTGCGGGGAGAATCCGGGCTCCTGTGA	MVTSASGPILQRSSALTRFILAPNPGPMSLEGTNSYVLRAAGQAGAVVVDPGPADEAHLLALAAAGPVELVLVTHRHADHTAGSARLSELTGAPVRAADPRHCHGGGLPLQDGEAIRAAGLDIRVLATPGHTSDSVCFQLPEDGPNGSVLTGDTILGRGTTMLDYPDGTLGDYLASLDRLEALGAAAVLPAHGPVLSSLETITRAYRDHRQERLAQIRAALDRLGRDAAVGAVTDAVYSDVEPSVRRAAEMSVAAQLDYLRGESGLL				NA	NA	NA	NA	NA
D1-29_03018	600			hypothetical protein	ATGAGCGACACAACCCCCACCCTTGCAGATCTCCTCGCCGAAGCTGACTCGGCCGGCCATGACCACGCTGCGACGGAGAAGAGCAGCGGCCTGCAGCACATCCACAACCACGCGACCGGCGCCGTTGTGTGGTTCCCCACGTGGCGGAAGTTCCGCGAGACCTCCGATTGGCGCGAGGATGTGGATGCCTTCGCCGCGGACCTCAGGTCGGGTTCACAGTTGGTGGAAGAAGTGGCAGCCCGCTCCGTGGCCGAAGAGCTGGAGTCACTCCTGAAGCGCGCAGCTGCAGCGAATGATGCGAATGTCTTTGTCCAGGAAAACCTGACCAGGCATCTGACCCGGACCTGGGCCATTGCCGACGCTGTCGCCGAGGTAACAGGGAAAGATCTGCCCACCGGCAACACCACGCCGACCGTTTTTGCTGATTACCCGTATGACGTCTACGCACAGGACGGCGGCGCCTTTGCCACCACGCTGTGGAATGACATTATCGATGCCCGCCGCAACAGTGTCCTGGCCGAAGAAGCGGCACGGAAGGCGTTGAAACCCGTTTCCCGGAAGGCAATGAAAAATGCCGCCCGGAAGGCCGCCCGGCGCTGA	MSDTTPTLADLLAEADSAGHDHAATEKSSGLQHIHNHATGAVVWFPTWRKFRETSDWREDVDAFAADLRSGSQLVEEVAARSVAEELESLLKRAAAANDANVFVQENLTRHLTRTWAIADAVAEVTGKDLPTGNTTPTVFADYPYDVYAQDGGAFATTLWNDIIDARRNSVLAEEAARKALKPVSRKAMKNAARKAARR				NA	NA	NA	NA	NA
D1-29_03019	1113	ilvE	COG0115	Branched-chain-amino-acid aminotransferase	ATGACTCAGACTGCCCCTGGCGTCGAATTCACCCAGCAGCTCTCGGCAACCCCGAAGTCCGCTGAAGAGCGTAATGCCATCCTGGCCAACCCGGGATTTGGCGATTACTTCACCGACCACACCGCCATCGTCGACTACAGCGTGGACGCGGACGGCAACGGCGGCTGGCACAACCCACGCATCGAGGCGTATGGCCCGATCTCCCTGGACCCGTCGGCTGCTGTGTTCCACTACGGCCAGGAAATCTTCGAGGGGCTCAAGGCCTACCGGCATGCCGACGGCTCCGTCTGGACCTTCCGCCCGGAAGCCAACGCGGCACGCCTGAACAAATCCGCCCGCAGGCTTGCCCTTCCGGAACTGCCCGCGGATTACTTCCTGGGAGCCATCCGGGAGCTGGTGGCGGCCGACAAGGAATGGGTCCCCTCCGGTGACGGCGAGGCCCTCTACCTGCGTCCGTTCATGATCGCCACCGAAGCCTTCCTGGGTGTACGTGCGGCCCGCGAAGTCTCCTTCCGGGTGATCGCTTCCCCTGCGGGCAACTACTTCGGCCGGGAACTGAAGCCTGTCTCCATCTGGATCTCCCGCGAGTATGCCCGCGCCGGACGGGGCGGCACCGGTGACGCCAAATGCGGCGGCAACTACGCGGCTTCCCTCATCGCACAGCAGCAGGCCGAGGCCAACGGCTGCAAGCAGGTCCTCTTCCTGGACCAGTTCAATGACAATGCCATCGAGGAACTTGGCGGCATGAACGTTTTCTTCGTGCTGAAGGACGGCTCCCTCGTGACGCCGGCCCTGACCGGAACCATCCTGGAAGGCATCACCCGCATGTCAGTCATCCAGGTGGCCAAGGACATGGGCCGGGAAGTCACCGAGCGCAAGATCACGCTGGATGAATGGCGCGATGGTGTGGCAAGCGGTGAGATCGCCGAGGTCTTCGCATGCGGTACGGCAGCTGTCATCACTCCCATCGGGGTGCTGAAGGACGACACCGAGTTCATCGGTTCAGAGGACGCCAAGGCAGGGGAGACCACCATGGTCATCCGCGAGCAACTCCTGGGCATCCAGACAGGCACGGTTCCCGACACTCACGGCTGGCTGACGCGCCTGGCTTAG	MTQTAPGVEFTQQLSATPKSAEERNAILANPGFGDYFTDHTAIVDYSVDADGNGGWHNPRIEAYGPISLDPSAAVFHYGQEIFEGLKAYRHADGSVWTFRPEANAARLNKSARRLALPELPADYFLGAIRELVAADKEWVPSGDGEALYLRPFMIATEAFLGVRAAREVSFRVIASPAGNYFGRELKPVSIWISREYARAGRGGTGDAKCGGNYAASLIAQQQAEANGCKQVLFLDQFNDNAIEELGGMNVFFVLKDGSLVTPALTGTILEGITRMSVIQVAKDMGREVTERKITLDEWRDGVASGEIAEVFACGTAAVITPIGVLKDDTEFIGSEDAKAGETTMVIREQLLGIQTGTVPDTHGWLTRLA	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
D1-29_03020	1101	leuB	COG0473	3-isopropylmalate dehydrogenase	GTGAGACAGCTTGACCAGAATGTGGATGACTTGGCTACCCTAAAATACATGAGCGCATCCACTATTGATCTGGCTGTCATCCCGGGTGACGGCATCGGCCCCGAGGTCATTGCCGAGGCACTGAAGGTCCTCGAAAAGGCCGTGGCCGCAGAGGGCGTGGCCCTCCGGCAGACCCACTACAAGCTGGGCGCCGAGCACTGGCTGGCCACGGGTGAAACGCTGCCGGATGAAGTCCTTGCCGACCTCCGCACCAGGGATGCCATTCTCTTCGGCGCAGTGGGTGCCGCTCCCGGTGACACCAGGATTCCGTCCGGCATCATCGAACGCGAGATGCTCCTCAAGCTGCGCTTTAGCCTGGACCACTACGTCAACCTCCGGCCATCCAAGCTCTTCGGCACGGTGGGAAGCCCGCTGGCCAACCCGGGCGTCATCGATTTTATTGTGGTGCGTGAGGGGACCGAGGGCCCCTACGTCGGCAACGGAGGTACGCTGCGCGCCGGCACTCCCCATGAAGTAGCCACCGAGGTCTCGCTCAACACCGCCCACGGAGTTGAGCGGCTTGTCCGCGATGCCTTCCGGCGAGCCAGCGCCCGTGAGCGAAAGCATGTCACCCTGGTCCACAAGCACAATGTGCTTGTCTATGCGGGCCACCTGTGGAAGCGCACTGTTGAGGCCGTAGCGCAGGACTTCCCTGAGGTCACCCACGATTACCTGCATGTTGATGCCGCGACCATTTTTATGGTTACCAACCCCTCGCGCTTTGACGTCATTGTCACCGACAACCTCTTCGGCGATATCCTGACGGACCTCGCCGCTGCCGTCACCGGCGGCATCGGGCTGGCCGCGTCGGGCAACATCAACATGGACCGCACCGCTCCGTCCATGTTCGAACCGGTCCACGGCTCCGCCCCGGATATCGCGGGACAGCAGAAGGCGGATCCCACAGCCGCGATCCTCTCGGCTGCGCTCCTGCTGGACCACCTTGGCTACACTGCGGCGGCGCGGAAAATTGAAGCTGCCGTCACTGCCGACGTCGAAAACCGCGACGGCGGCGCCCGCAGTACCAGCGCCGTCGGGGATGCCATCACGGCAGCCCTCTAG	MRQLDQNVDDLATLKYMSASTIDLAVIPGDGIGPEVIAEALKVLEKAVAAEGVALRQTHYKLGAEHWLATGETLPDEVLADLRTRDAILFGAVGAAPGDTRIPSGIIEREMLLKLRFSLDHYVNLRPSKLFGTVGSPLANPGVIDFIVVREGTEGPYVGNGGTLRAGTPHEVATEVSLNTAHGVERLVRDAFRRASARERKHVTLVHKHNVLVYAGHLWKRTVEAVAQDFPEVTHDYLHVDAATIFMVTNPSRFDVIVTDNLFGDILTDLAAAVTGGIGLAASGNINMDRTAPSMFEPVHGSAPDIAGQQKADPTAAILSAALLLDHLGYTAAARKIEAAVTADVENRDGGARSTSAVGDAITAAL	PGPT0001441_4009	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052	NA	NA
D1-29_03021	1182			hypothetical protein	GTGGATAAACGTCACGCCCTCTACAGCTGGATCCGCAGCAACCCCTGGAAAATGGACCTTGTGGCCACGGGGCTGCTGTTTGTGGCCTTTGGGCCGGTGTACCTCCTCGCGGGCCGCCTGGAACTCTTTGTGCTCTCCTGCGCGCTCCTGGTCCCGTTGGCCTGGCGCCGCGTCCGGCCGGCGGCTGCCGCTGCAGCCATCGCTTCGGTGTGCCTGGTGCAATGGGGCCTGGCCATCGAGCCGGTAGTGGGCCAGTTGGCCGTGCCGCTCATTATCTACGCCGTTGCCGCCTACGGGTCTCCGTGGGCCAGCCGGTCCGTGCTGATTCTGGGGCTTGTGGGCGGGGTGCTGCTGACCACCCGCTACTTCACCGGCCCGGCGGAATCCGGTGTGCTGGGGCTGACCACCGGGGCTGTCTACACGGTCCTCACCTGGTTGCTGGTTCTGTTCAGCTGGACGCTGGGTGACCTCACCAGGGTCAGGCGCCTCCAGCTGCAGACCCTGTCCGACCGGGCCCGGCGGCTGGAAGTCGAGCACCAGCAGGAAAGGTCCCTGGCGGCAGCTGACGAACGTTCCCACATTGCCCGCGAGATGCATGACATCGTGGCCCATTCACTCTCCGTGATCATCACGCAGGCCGACGGTGCACGGTACGCGGCTGCAGCCAGCCCGGAACTGGCTCCCCAGGCGCTGGAAACCATCGCCGCCGCGGGACGCAGCTCCCTGGCAGAGATGCGCAGGCTCCTGGGCGTCCTCCGGCGCGAGGATATGGCCTCCACCCGCCCCCTGCCGGGCCTGAATGACCTGGACGAGCTGTTTCTCAGTTTCCGGGCCGCCAGCCTGCAGCTGCGGTTTGAAGAGGCCGGGACAGCCCGGCGGCTGCTCCCGCCGGGAGCCGAGCTCACCGCCTATCGCGTCTTCCAGGAAGCCCTGACCAATGTGCTCAAGCACGCCGGGCCGCAGGCCCGGGCAAGGGCCACCATCGAGTGGCAGCCCCGTGGGCTCCGGATTGGCGTGCACGACGACGGCAGGGGCGCCAGCGCGGATCCCGTCCAGGGCGGGGGCAATGGGCTTCGTGGCATGGCCGAGCGCATCAGGCTTTACGATGGTTCGTTGACGGCCGGACCGGCCAGCGGCGGGGGCTTCCAGGTCTCGGCTTTTATCCCCTATACGGAAGCCTGA	MDKRHALYSWIRSNPWKMDLVATGLLFVAFGPVYLLAGRLELFVLSCALLVPLAWRRVRPAAAAAAIASVCLVQWGLAIEPVVGQLAVPLIIYAVAAYGSPWASRSVLILGLVGGVLLTTRYFTGPAESGVLGLTTGAVYTVLTWLLVLFSWTLGDLTRVRRLQLQTLSDRARRLEVEHQQERSLAAADERSHIAREMHDIVAHSLSVIITQADGARYAAAASPELAPQALETIAAAGRSSLAEMRRLLGVLRREDMASTRPLPGLNDLDELFLSFRAASLQLRFEEAGTARRLLPPGAELTAYRVFQEALTNVLKHAGPQARARATIEWQPRGLRIGVHDDGRGASADPVQGGGNGLRGMAERIRLYDGSLTAGPASGGGFQVSAFIPYTEA				NA	NA	NA	NA	NA
D1-29_03022	735	nreC_2	COG2197	Oxygen regulatory protein NreC	ATGAGAACGCCAACAGTGGAACAGATCCGGGCAATTGAAACCATCAGGGTGGCCCTGGTGGACGACCAAAGGCTGGTCCGCTCCGGCTTCGGAATGCTGATCAACTCCCAGCCGGACCTTGACGTGGTGGTTGAGGCGGGAAACGGGCTCGAGGCCATCCAGGCGTTGAACGGAACCTCCGCCGACGTGGTGCTGATGGACGTCAGGATGCCCGGCATGGACGGGATCGAAGCCACCACGCGGCTGTTGGAGAGCGCCGCTGCCGCCCCTGCCGGCTCCCGCCGCGCTGACATCAAAATCATCGTGCTGACCACTTTCGACCTGGACGAATACGCCTTGGCTGCCATCCAGGCCGGTGCCAGTGGATTCCTCCTCAAGGATGCCCCGCCGGAGGAGCTGCTGGAGGCCATCCGCACCGTACACCGCGGTGATGCCGTGATCGCCCCCTCCACCACCAGGCGGCTCCTGGACCACGTCGCTCCGCTGCTTCGTGCCCAGGCTCCGGCCAGGCAGGAACACAGCGACGCCGTCGGACGCCTGACTGCCCGCGAGCGCCAAGTCTTCGAACTGATCGCCCAGGGTTGGTCCAATCCCGAGATCGCGGCCGGCCTGTTCGTGTCCGAGGCAACGGTGAAGACCCATGTAGGGCACATCCTGGCCAAGCTTGGCGCGCGGGACAGGGTGCACGCCGTAGTCATCGCCTACGAAACGGGCGTGGTTTCGCCCGGCACCTGA	MRTPTVEQIRAIETIRVALVDDQRLVRSGFGMLINSQPDLDVVVEAGNGLEAIQALNGTSADVVLMDVRMPGMDGIEATTRLLESAAAAPAGSRRADIKIIVLTTFDLDEYALAAIQAGASGFLLKDAPPEELLEAIRTVHRGDAVIAPSTTRRLLDHVAPLLRAQAPARQEHSDAVGRLTARERQVFELIAQGWSNPEIAAGLFVSEATVKTHVGHILAKLGARDRVHAVVIAYETGVVSPGT	PGPT0014870_122	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0014870-liaR-K11618	NA	NA
D1-29_03023	780	bceA	COG1136	Bacitracin export ATP-binding protein BceA	ATGACAACTTCGGTACACCATCAGCACTCCCCGGATGACCGCAGCGCGGCTGCCGGGAACCTCGCCGTCCAGGCGACGTCACTGACCAAAAGTTATGGGCGGGGCGATACCCGCGTCACAGCGCTCAGGGACTTCAGCGTCGCCTTCGAGACCGGCCGCTTCACAGCCATCATGGGCCCCTCCGGCTCCGGCAAATCCACGTTGATGCACTGCCTGGCCGGTCTCGATTCCGCAGATTCAGGACGCATCCTGGTTGGCGGAACGGAGATCACCTCTCTCTCGGACAAACAGCTGACCGCACTCCGGCGCGAGCGCATTGGATTTGTGTTCCAGGCATTCAACCTGGTGCCCACACTGACGGCTGAACAGAACATCACCCTGCCGCTCGCCCTGGCGGGCACGAAGACTGACGCTGACTGGTTCGGCTTCATCGTGGCCACGCTGGGCCTCAAGGACCGCCTCAAACACCGCCCCCATGAGCTGTCCGGCGGACAGCAGCAGCGGGTGGCAGTGGCCAGGGCATTGCTGACCCGGCCCGACGTCATCTTCGGCGATGAGCCCACGGGCAACCTGGACTCCACCTCCGGCGGCGAGGTCCTCTCCTTACTGCGCCGGAGCAGTCAGGAGATGGGCCAGACCATCATCATGGTGACCCACGATCCCGTTGCCGCCAGCTATGCGGACCGTGTGGTGCTGATGAGCGACGGAAACCTCGTGGGCGAAATCATGGACCCCAGCGTTGATTCCGTGCTGGCCGCCCTCGGCAAGCTGGGAGGCTAG	MTTSVHHQHSPDDRSAAAGNLAVQATSLTKSYGRGDTRVTALRDFSVAFETGRFTAIMGPSGSGKSTLMHCLAGLDSADSGRILVGGTEITSLSDKQLTALRRERIGFVFQAFNLVPTLTAEQNITLPLALAGTKTDADWFGFIVATLGLKDRLKHRPHELSGGQQQRVAVARALLTRPDVIFGDEPTGNLDSTSGGEVLSLLRRSSQEMGQTIIMVTHDPVAASYADRVVLMSDGNLVGEIMDPSVDSVLAALGKLGG	PGPT0013345_2411	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-29_03024	2565			hypothetical protein	GTGCTGCAGGTTGCCCTGTCCCAATTCCGGGTCCACAGCCGCCGGTTCATCGCAGTGGGGCTCGCCGTGATGCTGTCTGTGGCCTTCCTGGCGACCACGCTGATGGTGAGCGCCAGCACTCAGGCGTCGCTGGAAGCCAGCCTTGGCGAGGCCTACAGCAGGGCCGGCATTATCGCCACGCCTGCCGGGCAGGCCTTCGACGAGGCCGCCCTTAAAGCAGTGGCCGCAACCCCGGGAATTAAGGAAGTTTACGGACAGCAGTCCGCTGCCACCGTCTTTGGCGTCCGCGGCGAGCAGGTTTTCGGCAGGGTACGGAACCTGGCACCGGCAGGACTGGAACCATCCAGCATGGAGAGCGGGACGGTGCCGGCGCACCCCGGCGAGGTGGCGCTCGATGCCACGACGGCGGCCCGCTATGGGCTCTCAGCCGGAGACTCCCTGACGATCGCTTCCAGCGACGGCGGCACAAGCGTCACCATGACCGTTTCCGGGGTCATGGGCAGCAGTAATGACCCATTCGCCGCCGCCGTCCCGCAGCTCCTGGCCCTGGCTCCGGCGGTCAGTGCCCTGGCCGGCCAGGGCACCGGTTCATCCCTCGCGGGCGGATACGAGAGCATTCAGGTGGCCCTGGCCCCGGGGACGGATGGCGCCAAGGCCAAGCAGGACCTTGCGGCCGCGTTGTCGGAGTCTGGAGCCGGGAATGCTTACCTGAGGACGTCCACCGAGCAGGTGACAAGCCAGGTGGCCCTGATGACGGGGGGCCGGGATGAGCTCACCATCGTCCTGCTGGCCTTTGCCGGCGTGGCGCTGGTGGTGTCGGGGCTGGTCGTGTCGAACACCTTTCCAGTGCTTGTGGCCCAGCGAACCCGCGAACTTGCCTTGTTGCGGTGCCTGGGCGCTGGACGGAGCCAGGTCCGGAACTCGGTCCTGGCTGAGGCGCTGGTGGTTGGACTGGCTTCGTCGGTGCTCGGCGTCCTGGCCGGAACCGGCCTTATGGCGGCGCTCATCGGCTGGGCCAGGACCCAGCCGGACATGACGTTCACCACCCTCGCCGTACCGCCGTCGGCCCTTGCTGCGGGACTGGCAGTGGGGACGTTGCTCACGGTCATTGCTGCGCTGGTGCCCGCGCGGGCAGCTACCGCGGTGGCACCGCTGGCAGCGCTGCGCCCGTCGGACGACGCCAGCATCGGCAATGCCAAGGGCCGGCTCCGGCTGGTCCTGGGCCTCCTGGCTCTGGTGGCGGGTGTTCCACTGCTGGTGGTGGGCGCCCTGGGCGTGCAGTTGGTCATCGCGTTTGCCGGGGGCATGATCTCTTTCATCGGTGTGCTGCTGTGCTCCACGCTGTTCATTCCTCGGCTGGTAGCCCTGTTCGGAAAGCTCGCGGCGCCGGCCGGAGTGCCCGGAAGGCTGGCAGCGGTCAACGCCCTCAGAAACCCGGCGCGCACGTCCGTCACTGCCGCAGCCCTCCTGATCGGTGTCACCTTGGTGGCGCTGATGATGACAGGTGCCTCCACCGCCCGGCTGGCTTTCGACGACGCATTGGCGCAAAACTACCCGGTGGACATGGGCGTGATGGCCGGAACGCCTGGAGGGTCCGGGGCGTTGGGGGTTTCCGCGAAGGCGGATGTTACAGGAGTGCCGGAGGTTCCCGGGCTTGCCCAGGAATCCGTCCTGACAAAGGAGCAACGCCAGGCCGTACTGCAGATCGGCGGCGTGTCGGCGGCTGTCCTGGTTCCCATCAGTGGCCACGTTGATTTGGCCGGGGTGAACACCCCTGTCTTTGCCCTTACCGCGGCTGAAGCGCGGGAGGTGCTGCGGGACGATGCACTCAGGCTGGAACCGGGGAAAATCTATCTCCCGGAGGGGTCGGCTTCAGGTGCTGCCACCGTCAGTGGAAATGCCGGCGTACGTGAGCTGGATGCCGTGGTCCTGAAGACGCGGAACATGCCCCCGCTGGTCAGCAGTGAAACCGCGCAGTCCCTGGGTGTTCCTGCCGAAGGTGCCGCTTTGTGGGTCCGCCTTGCTGACGGGCCCCGCGGAGCCCAGCTGTCAGCCGACCAAATTCATGACATCCAGCGCTCGATCGCCGACGTACTGGACGTCGGGGAAAGCGCAGTCAGCGGCGCCGCGATTGAGCGTGTCGCTTTCAACGATGTCATTGACGTGCTGTTGCTGGTTGTCACGGGACTGCTGGGAGTGGCAGTACTGATTGCCCTGATAGGAGTGGCCAATACGCTGTCCCTGTCTGTCCTGGAACGGACGCAGGAGAACTCCCTCCTGCGTGCCCTTGGCCTGACCAGGGGCCAGCTCCGAGGCATGCTTGCGCTGGAGGCAGTCCTGGTGGCCGGGGTTGCGGCGTTGCTGGGGGCAGCGCTGGGAAGCATCTACGGCTGGCTGGGCGCGAAGTCCGCGCTGGGAAGCCTCGCTGAGGTGACACCCTCAATTCCCTGGCTGCAGCTCCTGGGCGTCCTGGCGGTAGCCATCCTGGCCGGACTGTTGGCCTCGGTGGTGCCGGCCAGGCGCGCGGCCCGGCTCTCGCCGGTGGAAGGGCTGGCAACGAGCTAA	MLQVALSQFRVHSRRFIAVGLAVMLSVAFLATTLMVSASTQASLEASLGEAYSRAGIIATPAGQAFDEAALKAVAATPGIKEVYGQQSAATVFGVRGEQVFGRVRNLAPAGLEPSSMESGTVPAHPGEVALDATTAARYGLSAGDSLTIASSDGGTSVTMTVSGVMGSSNDPFAAAVPQLLALAPAVSALAGQGTGSSLAGGYESIQVALAPGTDGAKAKQDLAAALSESGAGNAYLRTSTEQVTSQVALMTGGRDELTIVLLAFAGVALVVSGLVVSNTFPVLVAQRTRELALLRCLGAGRSQVRNSVLAEALVVGLASSVLGVLAGTGLMAALIGWARTQPDMTFTTLAVPPSALAAGLAVGTLLTVIAALVPARAATAVAPLAALRPSDDASIGNAKGRLRLVLGLLALVAGVPLLVVGALGVQLVIAFAGGMISFIGVLLCSTLFIPRLVALFGKLAAPAGVPGRLAAVNALRNPARTSVTAAALLIGVTLVALMMTGASTARLAFDDALAQNYPVDMGVMAGTPGGSGALGVSAKADVTGVPEVPGLAQESVLTKEQRQAVLQIGGVSAAVLVPISGHVDLAGVNTPVFALTAAEAREVLRDDALRLEPGKIYLPEGSASGAATVSGNAGVRELDAVVLKTRNMPPLVSSETAQSLGVPAEGAALWVRLADGPRGAQLSADQIHDIQRSIADVLDVGESAVSGAAIERVAFNDVIDVLLLVVTGLLGVAVLIALIGVANTLSLSVLERTQENSLLRALGLTRGQLRGMLALEAVLVAGVAALLGAALGSIYGWLGAKSALGSLAEVTPSIPWLQLLGVLAVAILAGLLASVVPARRAARLSPVEGLATS	PGPT0013350_3307	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
D1-29_03025	783			hypothetical protein	ATGGATACTGATCACCAGGCTGGAATTTCCAACGGGGATCCACCCGCCACAGTTCCGTCGGCCACTGTTCCGCCTGCCGCGCAAACGTCGACAGCTGCACGCAGCGGCCGTTGGCGCCGGGCGATGATCTTTGTGGTGCTGTGCGGTGTCCTGGGTTACCTGGTGGTGGCCCTCATCCCCCTTCTGGCCGGCGGCGGAGGCGGAACTGACCCGGCCACTGACCCGGCGCCGGCATCAGCCCCAGCCGCGGGCCAATGGACAGAAAGCCCCACTGCCTCCGGTCCGGCCCCTTCCAACCCGGTGCCTGCCAATCCGCCGGTGGCGCCCATCCCGGCTGGTCCCGCCGCGGCCCCGCCGCAACGGCTGGTCTACGCGGCGGCAGGGATTGATGTGGCCGTTCATCCCTTGGATCCAAATGGCGCGGACGTTGCTACCAGGACCATCATTCCGCCTTCCACGATCGACGGGTACTGGCTGACGCCGTTTGGCATGCCGGGGGAGGGGTCCGTCAACACCACCTACATCGTCGGCCACAGCTGGGCGGACAGGGAGGCACCCTTCAACAGGCTCAGCACCATGGCGGCGGCGGGGGACCGGTTGACGGTGGCCACCTCCACGGGCGAGGTGATGTACCAGGTGGATGAGGTCACCACGTACGTTAAGGACGGCCTCAAGGACAGTCCCGTGTGGGACGTGGCGCCCCACCGGCTGGTGCTGATTTCCTGTTACACCGATGACCTGTGGGGCACCAACGTTGTTGTTGTGGCTTCTCCCGTCGGATGA	MDTDHQAGISNGDPPATVPSATVPPAAQTSTAARSGRWRRAMIFVVLCGVLGYLVVALIPLLAGGGGGTDPATDPAPASAPAAGQWTESPTASGPAPSNPVPANPPVAPIPAGPAAAPPQRLVYAAAGIDVAVHPLDPNGADVATRTIIPPSTIDGYWLTPFGMPGEGSVNTTYIVGHSWADREAPFNRLSTMAAAGDRLTVATSTGEVMYQVDEVTTYVKDGLKDSPVWDVAPHRLVLISCYTDDLWGTNVVVVASPVG				NA	NA	NA	NA	NA
D1-29_03026	819			hypothetical protein	ATGAAACGGATCCTTGCCGCACTAGGAGTCACAGGCCTTGCATTGCTGGGCGCCACCGCACCGGCAACCGCGTCGGATGACACCAAGGATGGTGGAGCCAAGATCACCATCTGCCACGCCACCGGGTCAGCGACGAACCCCTACGTGCCGATAACCATCAGCCTCAGCGGACTTAACGGGCACGTGGGCCACCAGCACAGCGAGGACATCATCCCCGCCAACTCCGGGAGCGTCCTGCCTGGCGGCCAGAACCTTCACAAGGTGGATTGGTGGAACGCGGGTTGCGTGAAACCGGGGGGAGCGGTCACACCGCCCAAAGGCAATGGCGACCACAAGATCACCATCTGCCACGCCACCGGCTCGGCGTCCAATCCGTTTGTGGTCATCACCATCTCCCTGAACGGCCTGAATGGACACGCAGGCGCGGGGCACCAGAACGGTGAGGACATCATCCCGCCGAACAGCGGCAACATTGTTCCTGGTGGACAGAACTGGACCGCTGAAGGGCAGGCAACGTTCAACAACGGCTGTGTTCCCGTCAAGCGGCCTGTTGTTCCTGAGGTGGTGCCTCCGGCAGGCAAAACGGTGGTGCCAGGTGCCGTTGTTCCCCGCGGGGCGGCAGCCGGACAGCCCGCCGGAGCAGGAGCAGTGGCGACTAACCAGGGGTTCAACGTCCAGACTGCCGTGACAGGCTCACCGGACACTGCCCTCGCCCCATGGTTGGGCGGCGTCGTGGCGATGTTGCTCGCTGCTGCCGGCGTGGCAGTTCACAGGAAACTGGCCATCAGTGCAGGCTCGGGAGGCCAGCGCCAGAAGTGA	MKRILAALGVTGLALLGATAPATASDDTKDGGAKITICHATGSATNPYVPITISLSGLNGHVGHQHSEDIIPANSGSVLPGGQNLHKVDWWNAGCVKPGGAVTPPKGNGDHKITICHATGSASNPFVVITISLNGLNGHAGAGHQNGEDIIPPNSGNIVPGGQNWTAEGQATFNNGCVPVKRPVVPEVVPPAGKTVVPGAVVPRGAAAGQPAGAGAVATNQGFNVQTAVTGSPDTALAPWLGGVVAMLLAAAGVAVHRKLAISAGSGGQRQK				NA	NA	NA	NA	NA
D1-29_03027	1560	metG		Methionine--tRNA ligase	GTGACTGCAACAGAAAAACCTCCGTTCTACATCACCACGGCCATCACCTACCCGAACGGTGTGCCGCACATCGGGCATGCGTATGAGTACATCGCCACTGATGCCATGGCGCGCTTCAAGCGGCTGGACGGCTATGACGTGATGTTCCTGACCGGCACGGACGAGCACGGCATGAAGATTGCCCAGACAGCCGAAAAGGAAGGCATCAGCCCCAAGGAGCTGGTGGACCGCAATGCTGAGGTCTACAAGGCTGCGCATTCCGCCCTGGGAATCACGTACAACCGGTTCATCCGCACCACGGACGCTGACCACTACGCGGCATCGCAGGCCATTTGGAAAAAGCTGGAAGCCAACGGCGATATCTATCTGTCGAAGTACGAAGGCTGGTATTCCGTCCGGGATGAAGCCTTCTACGTCGAGGACGACACGCTGGTTAAGGACGACGGCGTACGTTACTCCAAGGAGACGGACACCGAGGTGACCTGGACTGCCGAGGAGAGCTACTTCTTCAGGCTGTCCCAGTACCAGGACCGGCTCCTTGCCCTCTATGAGGCACAGCCGGAATTCGGTGCCCCGCAGTCCCGGTTCAACGAGGTCATCAGCTTCGTCAGGCGTGGCCTGGAGGACCTCTCCATCAGCCGCACCACCTTTGACTGGGGTGTTCCGGTTCCCGGCAATCCCAAGCACGTGATGTACGTCTGGGTTGATGCACTGACGAACTACCTCACGGGGGTTGGCTACCCGGACGTGGATTCGGCTTCATTCCGCAAGTTCTGGCCTGCCGACGTCCACATCATCGGCAAGGATATTTCCCGCTTCCACGCCATCTACTGGCCGGCTTTCCTGATGAGTGCCGGACTGGAACTGCCCAAGCGCGTAATGATCCATGGCTTCCTGCACAACAATGGCGTCAAGATGTCCAAGTCGCTGGGCAACGTGGTGGCCCCCGCGGACTTTGTGGCCCAGTACGGCCTTGACCAGGTGCGGTTCTTCTTCCTTCGTGAAGTTCCGTTTGGTGCCGACGGCAGCTACAACCACGAGGCCATTGTGGGACGCATGAACTCGGACCTGGCCAACAACTTCGGCAACCTGGCCCAGCGTTCGCTGTCCATGGTCGCCAAGAACTGTGCAGGCGTTGTTCCGGCACCGGGGGATTTCTCCGCCGCGGACTCCGCTCTGCTGGACCAGGCCAACGGGCTTCTTGAGACCGCGCGGACCGCTTTCGAAAAGCAGGAATTCAGCCGCGCCCTCGAAGCGATCTGGGGCGTACTGGGGGATACCAACGCCTACTTTGCAGACCAGGCGCCATGGGTGCTGCGGAAGACCGACGTCGAACGGATGAACACCGTCCTGTACGTCACGCTGGAGGTGCTGCGGATCGTGGCCATCCTTGCCCAGCCGGTGATGCCCACCGCAACCGCAAAACTCCTGGACACCCTTGGCCAGCGGGAAGGCCAGGCCCGGCAGTTTGCTGCGCTCACCACACCGATTGCCGCAGGGACCGCATTGCCGGCGCCGGCCCCCGTCTTCCCCAAGTACGAGGAACCTGCCGAGGCCTAG	MTATEKPPFYITTAITYPNGVPHIGHAYEYIATDAMARFKRLDGYDVMFLTGTDEHGMKIAQTAEKEGISPKELVDRNAEVYKAAHSALGITYNRFIRTTDADHYAASQAIWKKLEANGDIYLSKYEGWYSVRDEAFYVEDDTLVKDDGVRYSKETDTEVTWTAEESYFFRLSQYQDRLLALYEAQPEFGAPQSRFNEVISFVRRGLEDLSISRTTFDWGVPVPGNPKHVMYVWVDALTNYLTGVGYPDVDSASFRKFWPADVHIIGKDISRFHAIYWPAFLMSAGLELPKRVMIHGFLHNNGVKMSKSLGNVVAPADFVAQYGLDQVRFFFLREVPFGADGSYNHEAIVGRMNSDLANNFGNLAQRSLSMVAKNCAGVVPAPGDFSAADSALLDQANGLLETARTAFEKQEFSRALEAIWGVLGDTNAYFADQAPWVLRKTDVERMNTVLYVTLEVLRIVAILAQPVMPTATAKLLDTLGQREGQARQFAALTTPIAAGTALPAPAPVFPKYEEPAEA				NA	NA	NA	NA	NA
D1-29_03028	756	ytrE_2	COG1136	ABC transporter ATP-binding protein YtrE	ATGACAAACCAGACGAACGTTCAACGGAGCCGCAGGGCCGACTCCGGTGGAGACCCTCTCCAGACGCGCGCCAATACCATCGTCAAGGCTGCAGACCACGGGACACCGCTGGAGCTCAGCGATGTCACCATCCGCTACGGCGGTGGCAAGGGCGGCGCCGAGGCAGTCAGCGTCGTGGAGGGCTTTGACCTCACCCTGCACGCCGGCGAGATGCACTGCGTTGCCGGCCGAAGCGGTTCCGGCAAGACCAGCATCCTGACAGTGGGCGCGGGACTGACACTGCCGACGTCGGGCCGTGTCTTCTGGGAGGGCGACTCCCTCGAAAGCATGGGCGACGACGAAATCGCTGACCGCCGTCGGGCCCTGATCGGCTACGTTGACCAGGGCGGCGCCCTGATTGACGGCATGAGCGCACTTGAGAACGTGCTCCTGCCGGCCGTCCCGGACGGCGAAGTGGACCAGCGCCGGGACATGGCAAAGGACCTGCTCGACCTTGTGGGGCTGGGCCGCCGGATGCGCCACCGTCCCGCCCAGCTGTCCGGTGGTGAACGCCAGCGCGTGGCCATTGCGCGTGCGCTGATCCTGGGCACCCGCGTGCTGGTGGTGGATGAGCCAACCGCAAGCCTGGACCGGGCCTCAGCGAACCGCATCATCAGCATCCTCAAGGACACCACCAACGACGGGATCGCCGTGCTGGTCGCTTCCCACGACCACGAACTGGTCCGTCTTAGCGATACGCTGACTGAACTCATCTAG	MTNQTNVQRSRRADSGGDPLQTRANTIVKAADHGTPLELSDVTIRYGGGKGGAEAVSVVEGFDLTLHAGEMHCVAGRSGSGKTSILTVGAGLTLPTSGRVFWEGDSLESMGDDEIADRRRALIGYVDQGGALIDGMSALENVLLPAVPDGEVDQRRDMAKDLLDLVGLGRRMRHRPAQLSGGERQRVAIARALILGTRVLVVDEPTASLDRASANRIISILKDTTNDGIAVLVASHDHELVRLSDTLTELI	PGPT0024515_150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_TRANSPORT,PGPT0024515-lolD-K09810	NA	NA
D1-29_03029	2796			hypothetical protein	ATGAACGCCGTCCAGAGGTTCATCAGAAGCAAAGTGCTGCTGCTGACCGCGGCCATCTTGATCGCAGCCATGTGCTTGTCGGTCCTCGTCCAAGGCCAGTCGCAGGCCGCGCTCAACCGGACCGTGGATGAGAATTCACGCGGACTTTATGACGTCCTGGTCCAGGCCAAGGCAGGATCCGGGGCGCTGATGCAGCCGGAAATCGCCAACGGCGGCGGCGGAATCAGTTTTGACCAGCTGGAGGGCATCCGCGACCTCACCGGCACGTCAGTGGCAGCTCCCATCAGCCTGGTCTCCCGTGTGACGCAGAACCTCGAGGCGCCCCGGCTTGATGCCATGGACTACCTCGGCTACAACGCAGGACTGGCAGGCACTGCCACAGCCGACCAGGCCGCGGGTGCCACCGAGCCCAGCAAGTGGCCGGCTGCGGAGTCCGTCCTGAGCGACACTCCCAAGACCTACCGGCTGACAGCCAGCGCTGTCAGCTCCGACGGCGTTTCTGAACAGACACTCTTCAAGTCCACCGCCGAAGGCACCCTGGGCAAAGGCAAGCTCGTGGAGGAGAAGGCCGCCGGCGGCAGCAGCATCCGGATTGCCCCGCCGGCCGGGGAAACCGGCATCAAGTTCCCAGCGCCTGCCGGCGGTTCGGAGCACAACCTCTTCAACCTTTCAGTCTCCCTGCCGCTGTCACCGGAGGTGACGGAGTCGGTGGTCGCTGTTGATCCCGTGGCAGAACGTGCGCTGCTCGGCTCCGCTGGCGACTTCCTGGCGCCGCTGGAAAAGGCGCCGCCGGCTGATGCCCGCAACGCCGGCGCCATCGGACGGCACTTTGAAACTCTCTTCACCAACGGCATCAGCATGCAGGAGCTGGCAGACGGTCCCGATTTCCTGGGCGTCAAGCTCAAGCACTGGGCACCGCTGATGACCCAGTACCAGCAGGCCAAACGCAACGGCCTGCTCACCGCGGATTCCCAGGCCATTCCCCTGATTGTGCGTTCAGGCACGTCCCTTGACCTGAAGTACAACGTCAAGATCGAGGAAATCGACGCGTCCGGCAAGGTGGTCAAGGACGTCGGCACAGCGACGCGTTCCCTGGACAAGGACTACCTGCCGTTCGTTTCCAAGGATCCCTTCGCACTGTCCTGGCCCGGCTCCAAGGACCACTCCGACCTGCTGGGCAACACCGGAAACTTCAACCAGGGCCTGTACACCCCTGCAGCCTGGAGCACCGACTTTGCGTCTGCCCCGAAGTACACGGATGGCAGCACGGCCGGCAACGGCGCAGTTGAAAAGTCAGCCGTTCCCGGCGACTGGGTCACCGTCAACCGGCTGCCCGAAAAGAGTGCCAGCGGTGCTTCGGTGGACCAGACCCAGCGCGATCCCGTAGATGAGCGTTCCTACCGTGAAAACCTGGCAACAGGGGAGAAGCTCGCGGCACCGCTTGCCATGGTCTACGGAACGTTTGACCCTTCCGCCGTCGAAAAGGCCGCCGGCGACGTCAACAGGCTGCCCCTGGGCGGCTATGACCCCACCCCGTTGACGCTGACCAAGGACGCCGAAGGAAAGGCCGTCACCGAAACCGAACTCAAGCCCTCGCTGAGCGCGACCGGGCTCGCCAGCCAGTCCGCCGGCGCCATCACCGACTACTACGGCCTGGCCGCCGCCCGAGGTTACAAGGACAACGCTGCGGTGATCGATGCCGTACGAGTCCGCGCCAAGGCCCCCGGCAGCTGGAAGCAGGCCCAGCCGGACGTCGAAAAGCTGGCGGGCGAGATCCGTGCCATGGGCTTGGAAGCCACCGTCGTGGCCGGTTCCGCCCGTGAGGACGCCAGCATCTTTGTTCCCGGCTACTCCAAGGACGACGCCGGCAAGGAATCCGACCTGGGCACAGTCCAGCAGTCATGGGTCCGGCAAAACGCCGCCGATGCCGTCTCCGGATCCCTCACCGGCACCAACGTCACACTGCTCTTCCTGACTCTGTGTGGGGCTGCACTGCTCACCGGGGCGTCCACTGTCAGCTACATCCGGAAACGCAAGCAGGAAGCCGGCACCCTCCGGGCCATGGGCTGGACGCAGGGCCGGATCCGGAACTGGGTCCTTGAGGAGTTCGCGGTGGGTGCTGCCCTGCTGGCAGTGGCGGGAATTGCCCTGAGCCTGCTCAGCTGGAGCCTGGCGACCGTGATCGTCTCGGCGTCGGTCCTGGTCCTGTATGCCGCAGCGGCGTTCTTCGCTGCCCAGCAGCTGCGCCACCGTGACGAGGTGGACCAGGAACCGCAGCACGACGAACGGCTGATCGCCGTTGACTCGCCGCTGACGTTCGCCAACCGGCAGCTGAGCACCAACAAGTTCAACACCCTGTCACTGGCGGTGGCGGTTGGAGTGTTTGGAGCAGCTGTCGGCGGGCTGGTTGCGCTGCTGATCGATATTCCCCGCGCGGCCGGGGCCAGTGCACTCAGCGGACTGGCGGCAGCCAGCATCGCTTTGCCCAGCATCCTCCTGGCGCTGGCCGGAGTGACGGTTGGCCTGGTGCTGACCCTGGTGACGGGCAGGTTTGAGCTCACCGCCAAACGCCAGTACCTTGGCATCCTCGAGGCCATGGGCTGGAACCCGGACATGCTCCGCCAGGTCCGTTTCTTCGAGAACGCGCTCGTGGGAACAGTGGCCCTGCCGCTGGGAGTCCTGGGCGCACTGGGCATAGGAATGCTCCTGGCCCCGTACGCCGCACTGTGGGCCGGAGTGGCCGGCCTTGTGGCTGTGATTTGCTGGATACCGATTGCAACGAAAGTGGTCCAATGA	MNAVQRFIRSKVLLLTAAILIAAMCLSVLVQGQSQAALNRTVDENSRGLYDVLVQAKAGSGALMQPEIANGGGGISFDQLEGIRDLTGTSVAAPISLVSRVTQNLEAPRLDAMDYLGYNAGLAGTATADQAAGATEPSKWPAAESVLSDTPKTYRLTASAVSSDGVSEQTLFKSTAEGTLGKGKLVEEKAAGGSSIRIAPPAGETGIKFPAPAGGSEHNLFNLSVSLPLSPEVTESVVAVDPVAERALLGSAGDFLAPLEKAPPADARNAGAIGRHFETLFTNGISMQELADGPDFLGVKLKHWAPLMTQYQQAKRNGLLTADSQAIPLIVRSGTSLDLKYNVKIEEIDASGKVVKDVGTATRSLDKDYLPFVSKDPFALSWPGSKDHSDLLGNTGNFNQGLYTPAAWSTDFASAPKYTDGSTAGNGAVEKSAVPGDWVTVNRLPEKSASGASVDQTQRDPVDERSYRENLATGEKLAAPLAMVYGTFDPSAVEKAAGDVNRLPLGGYDPTPLTLTKDAEGKAVTETELKPSLSATGLASQSAGAITDYYGLAAARGYKDNAAVIDAVRVRAKAPGSWKQAQPDVEKLAGEIRAMGLEATVVAGSAREDASIFVPGYSKDDAGKESDLGTVQQSWVRQNAADAVSGSLTGTNVTLLFLTLCGAALLTGASTVSYIRKRKQEAGTLRAMGWTQGRIRNWVLEEFAVGAALLAVAGIALSLLSWSLATVIVSASVLVLYAAAAFFAAQQLRHRDEVDQEPQHDERLIAVDSPLTFANRQLSTNKFNTLSLAVAVGVFGAAVGGLVALLIDIPRAAGASALSGLAAASIALPSILLALAGVTVGLVLTLVTGRFELTAKRQYLGILEAMGWNPDMLRQVRFFENALVGTVALPLGVLGALGIGMLLAPYAALWAGVAGLVAVICWIPIATKVVQ				NA	NA	NA	NA	NA
D1-29_03030	1590	serA	COG0111	D-3-phosphoglycerate dehydrogenase	GTGTCAAAACCCGTAGTACTGCTCGCCGAAGAACTTTCGCCCGCCACCGTCGAGGCCCTCGGCCCGGACTTTGAAATCCGCCAGACCGACGGCGCCGACCGTTCCCAGCTGCTGTCTGCGATCGCCGACGTCGACGCCATCCTGGTCCGCTCCGCCACACAGGTGGACGCCGAAGCCATTGCCGCGGCCAAGAACCTCAAGGTCATCGCCCGTGCCGGCGTGGGACTGGACAACGTGGACATCAAGGCCGCCACCCAGGCCGGGGTCATGGTGGTCAACGCCCCGACGTCGAACATTGTCTCTGCCGCGGAACTCACAGTTGGGCACATCCTCAGCCTGGCCCGCCACATCCCGCAGGCCAGCGCGGCACTGAAAAACGGTGAGTGGAAGCGCTCCAAGTACACCGGAATCGAACTCTTCGAAAAGAAGGTCGGCATCATCGGCCTGGGCCGGATCGGCGCCCTGGTGGCCGCCCGCCTGCAGGGTTTCGAAACCGAGATCCTCGCGTACGACCCCTACATCACGTCGGCCCGCGCTGCGCAGCTCGGCGTCAGGCTCGTCACCCTGGATGAACTCCTGAGCCAGGCTGACTTCGTCACCATCCACATGCCCAAGACGCCGGAGACAGTAGGCATGCTCGGGGCAGATGCATTCACCAAGATGAAGTCCACCGCCTACGTGGTCAACGTGGCCCGCGGTGGCCTTATCGATGAGGAAGCCCTCTACGCTGCCCTCCAGGACCGGCAGATCGCCGGTGCCGCGGTGGACGTTTTTGTCAAGGAGCCCAGCACGGACCTGCCGTTCTTCGCCCTCGACAACGTTGTGGTTACCCCGCACCTCGGTGCCTCCACCGATGAGGCCCAGGAAAAGGCAGGCGTCTCGGTGGCCAGGTCCGTACGCCTGGCCCTGGCCGGCGAGCTGGTTCCGGACGCGGTCAACGTCGCCGGTGGCGTGATCGCCCCCGACGTCAGGCCGGGCATCCCGCTGATCGAAAAGCTGGGCCGCATCTTCACCGCCCTGACGCACGCCTCCCTGACCCAGATCGATGTTGAAGTAGCCGGAGAGATCGCCGCCCTGGACGTCAAGGTCCTGGAACTGGCAGCCCTCAAGGGCATCTTCGCCGACGTTGTCACCGAGCAGGTTTCCTACGTCAACGCCCCCGTCATCGCGGAACAGCGCGGCATCAATGTCCGCCTGATCACGACGCCGGAGGCCGAGGACTACCGCAACGTCCTGACCATCCGGGGTGCTTTGAGCGACGGCTCCCAGATCTCAGTGGCCGGCACCCTGACGGGGCCCAAGCAGGTGGAGAAGCTGGTGGGCCTCAACGGCTATGACGTGGAGATCCCCATCAGCGAGCACCTTGTGGTGGTGGCCTACGCCGACCGACCCGGAGTGATCGGCACCATCGGCCACATCCTGGGCATGAACAACATCAACATCGCCGGAATGCAGGTGGCGCGGCAGGCTGAGGGCGGACAGGTACTGGCGCTGCTCACCATCGACAGCTCCGTTCCGCAGCAGGTCCTGGACGCCATCAAGGCGGGAATCGGCGCCGAGATGGTCCGCGAAGTGGACCTCGAGGACTAA	MSKPVVLLAEELSPATVEALGPDFEIRQTDGADRSQLLSAIADVDAILVRSATQVDAEAIAAAKNLKVIARAGVGLDNVDIKAATQAGVMVVNAPTSNIVSAAELTVGHILSLARHIPQASAALKNGEWKRSKYTGIELFEKKVGIIGLGRIGALVAARLQGFETEILAYDPYITSARAAQLGVRLVTLDELLSQADFVTIHMPKTPETVGMLGADAFTKMKSTAYVVNVARGGLIDEEALYAALQDRQIAGAAVDVFVKEPSTDLPFFALDNVVVTPHLGASTDEAQEKAGVSVARSVRLALAGELVPDAVNVAGGVIAPDVRPGIPLIEKLGRIFTALTHASLTQIDVEVAGEIAALDVKVLELAALKGIFADVVTEQVSYVNAPVIAEQRGINVRLITTPEAEDYRNVLTIRGALSDGSQISVAGTLTGPKQVEKLVGLNGYDVEIPISEHLVVVAYADRPGVIGTIGHILGMNNINIAGMQVARQAEGGQVLALLTIDSSVPQQVLDAIKAGIGAEMVREVDLED	PGPT0009155_1556	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
D1-29_03031	1026	ilvC	COG0059	Ketol-acid reductoisomerase (NADP(+))	GTGACTGAAATGTTCTACGACGACGACGCCGACCTGTCGATCATCCAGGGCCGCACCGTTGCCGTCATCGGTTACGGATCCCAGGGCCACGCGCACGCCCTCAGCCTGCGCGATTCCGGCGTCGACGTCCGCGTTGGCCTGAAGGAAGGCTCCAAGTCCCGCGCCAAGGCCGAGGCCGAGGGCCTGCGGGTCCTGAACGTTGCCGACGCCGTTGCCGAGGCCGACCTCATCATGGTCCTCACCCCGGACCAGGTTCAGCGCCACGTGTACGCCGAAGACATCGCCCCCAACCTGCAGGCCGGCGACGCCCTGTTCTTCGGCCACGGCTTCAACATCCGCTATGGCTACATCAAGCCGCCGGCTGACGTTGACGTCGCCCTGGTTGCACCGAAGGGCCCGGGCCACATCGTGCGCCGCGAATTCGAGGCCGGCCGCGGCGTTCCCGACCTGATTGCCGTGGAGCAGAACGCTTCGGGCAAGGCCAAGGAACTGGCACTGTCCTACGCCAAGGCTATCGGCGGCACCCGTGCGGGCGTCATCGAGACCACCTTCACCGAAGAGACCGAAACGGACCTGTTCGGCGAGCAGGCTGTCCTTTGCGGCGGCGCCTCGCAGCTCATCCAGTACGGCTTCGAAACCCTCACCGAGGCCGGCTACAAGCCGGAGGTCGCCTACTTCGAGGTCCTCCACGAGCTCAAGCTCATCGTTGACCTGATGGTCGAGGGCGGCATCGCCAAGCAGCGCTGGAGCGTCTCCGACACCGCCGAATATGGCGACTACGTCTCCGGCCCGCGCGTCATCACCCCCGAGGTGAAGGAAAACATGAAGGCTGTCCTCGCGGACATCCAGAGCGGTGCCTTCGCCAAGCGCTTCATCGACGACCAGGATGCCGGAGCTCCGGAGTTCGCCGAGCTGCGCAAGAAGGGTGAGGACCACCCCATCGAGGCCACCGGCCGTGAACTGCGCAAGCTCTTCTCCTGGATCAAGACCAGCGACGACTACACCGAGGGCTCCGTAGCCCGCTAG	MTEMFYDDDADLSIIQGRTVAVIGYGSQGHAHALSLRDSGVDVRVGLKEGSKSRAKAEAEGLRVLNVADAVAEADLIMVLTPDQVQRHVYAEDIAPNLQAGDALFFGHGFNIRYGYIKPPADVDVALVAPKGPGHIVRREFEAGRGVPDLIAVEQNASGKAKELALSYAKAIGGTRAGVIETTFTEETETDLFGEQAVLCGGASQLIQYGFETLTEAGYKPEVAYFEVLHELKLIVDLMVEGGIAKQRWSVSDTAEYGDYVSGPRVITPEVKENMKAVLADIQSGAFAKRFIDDQDAGAPEFAELRKKGEDHPIEATGRELRKLFSWIKTSDDYTEGSVAR	PGPT0008735_1725	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
D1-29_03032	513	ilvH	COG0440	Acetolactate synthase small subunit	ATGAGCCGCCACACACTGTCCGTTCTGGTCGAAGACAAACCCGGTGTACTGACCCGCGTTGCGAGCCTTTTCGCCCGCCGTGCCTTTAACATCAACTCCCTGGCCGTTGGACCGACGGAAGTTCCGGGCATGTCCCGGATGACCGTCGTCGTCGACGCCGATGGTGACCTGATTGAACAGATCACCAAGCAGCTCAACAAACTGGTCAACGTGATCAAGATCGTTGAGCTGACCTCCGAATCTTCCGTACAGCGAGACCACATCCTGGTCAAGGTACGTGCGGATGCCGCAACTCGTCTGCAGGTGACCCAGGCTGCAGACCTGTTCCGTGCTTCAGTGGTTGACGTCTCCACAGACTCCGTAGTCATTGAAGCAACAGGCCACCCCGAAAAGCTCACGGCGCTGCTCTCAGTGCTCGAGCCCTTCGGCATCCGCGAAATTGTGCAGTCCGGCACCTTGGCCGTTGGACGGGGATCCCGCTCCATGAGTGACAGGGCATTGCGCTCCGCGTAG	MSRHTLSVLVEDKPGVLTRVASLFARRAFNINSLAVGPTEVPGMSRMTVVVDADGDLIEQITKQLNKLVNVIKIVELTSESSVQRDHILVKVRADAATRLQVTQAADLFRASVVDVSTDSVVIEATGHPEKLTALLSVLEPFGIREIVQSGTLAVGRGSRSMSDRALRSA	PGPT0008205_1915	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
D1-29_03033	1908	ilvB1	COG0028	Acetolactate synthase large subunit IlvB1	ATGAGCAAAGGATCGCCGATCAGCCCCTCGCTGATGGCTACTAAGTCCGCTGGAGCCCACAAGGCTCCGGAACGTGCCGACCGATCGGCTGACGCCGTCGCTGTCGTCACCGACCTTGCTGCAGTCTCTCCTGTCCTTGGGCCGAACAACGTTGTACCCCCAACGGTGATGACCGGCTCAGAAGCTATTGTCCGCTCGCTCGAAGAACTCGGCGTCGACGATATTTTTGGTTTGCCCGGTGGCGCGATCCTGCCTACCTACGACCCCTTGATGGCCTCCAGTATGAATCACGTTCTGGTCCGTCACGAACAGGGAGCCGGCCACGCCGCGCAAGGCTACGCCATGGTCACGGGGAGGGTAGGTGTGTGCATTGCCACCTCCGGTCCCGGTGCCACCAACCTCGTTACCGCCATCATGGACGCCCACATGGACTCCGTGCCGCTCGTGGCCATCACCGGCCAGGTGTCCAGTGGCGTCATTGGCACTGACGCCTTCCAGGAAGCGGACATCGTCGGCATCACCATGCCGATCACGAAGCATTCCTTCCTGGTGACCAACCCCAACGACATCCCGCATGTGATGGCCGAGGCCTTCCACCTGGCTTCCAGCGGCCGGCCTGGCCCGGTACTGGTGGACGTTGCCAAGGACGCCCAGCAGGGACAGATGACGTTCTCCTGGCCCCCTAAGGTGGATCTGCCGGGCTACCGTCCCGTCACCCGCGGCCACAACAAGCAGGTCCGTGAAGCGGCAAAGCTGATCGCGGCGGCCACCAAGCCTGTCCTGTACGTGGGCGGCGGCGTGGTCAAGGCGCACGCTTCAGCGGAGCTGCGTGAACTGGCCGAACTGACCGGAGCGCCGGTGGTCACCACCCTGATGGCCCGGGGCGTGTTCCCCGACTCCCACCCGCAGCACGTGGGCATGCCGGGCATGCACGGCACCGTGTCCGCCGTGACCGCCCTGCAGCAGTCCGACCTCCTCATCACCTTGGGCGCCCGCTTTGACGACCGCGTGACAGGCATCCTGAAGACCTTCGCTCCGAACGCCAAGGTGATCCATGCCGATATCGATCCGGCGGAGATCTCCAAGAACCGTACGGCGGACGTGCCCATTGTGGGCTCGGTCAAGGAAATCATCCCCGAACTCACGGAAGCTGTCCGCACCCAGTTCGACACGTCAGGCGTCCCCGACCTCACCACCTGGTGGGCTTTCCTGAACAACCTCAAGGAAACCTATCCGCTGGGCTGGACGGAACCGGACGACGGACTGAGCGCCCCGCAGCGGGTCATCGAGCGGATCGGAGCCCTGACCGGGCCCGAGGGCATCTACGTTGCCGGCGTTGGCCAGCACCAGATGTGGGCTGCCCAGTTCATCAAGTACGAGCGTCCGCACGCGTGGCTCAACTCCGGCGGGGCCGGCACCATGGGCTATGCCGTTCCGGCCGCCATGGGTGCCAAGGTGGGGGACCCGGACCGGGTGGTGTGGGCAATCGACGGTGACGGCTGCTTCCAGATGACCAACCAGGAACTTGCCACGTGCGCGATCAACAAGATCCCGATCAAGGTCGCCATCATCAACAACTCGTCCCTGGGCATGGTCCGACAGTGGCAGACGCTCTTCTATGAAGGCCGCTACTCCAACACCGACCTGAACACAGGGCACGACACCGTCCGCATCCCGGACTTCGTCAAGCTGGCTGACGCCTACGGCTGCGCTTCCTTCCGCTGCGAACGCGACGAGGACATCGACGCCACCATCCAGAAGGCACTCGAGATCAACGACCGACCCGTGGTCATCGATTTTGTGGTGAGCCCCAACTCCATGGTGTGGCCGATGGTGCCCGCCGGAGTAAGCAACGACCAAATCCAGGTCGCCCGCAACATGACCCCGGAATGGGAAGAGGAGGACTGA	MSKGSPISPSLMATKSAGAHKAPERADRSADAVAVVTDLAAVSPVLGPNNVVPPTVMTGSEAIVRSLEELGVDDIFGLPGGAILPTYDPLMASSMNHVLVRHEQGAGHAAQGYAMVTGRVGVCIATSGPGATNLVTAIMDAHMDSVPLVAITGQVSSGVIGTDAFQEADIVGITMPITKHSFLVTNPNDIPHVMAEAFHLASSGRPGPVLVDVAKDAQQGQMTFSWPPKVDLPGYRPVTRGHNKQVREAAKLIAAATKPVLYVGGGVVKAHASAELRELAELTGAPVVTTLMARGVFPDSHPQHVGMPGMHGTVSAVTALQQSDLLITLGARFDDRVTGILKTFAPNAKVIHADIDPAEISKNRTADVPIVGSVKEIIPELTEAVRTQFDTSGVPDLTTWWAFLNNLKETYPLGWTEPDDGLSAPQRVIERIGALTGPEGIYVAGVGQHQMWAAQFIKYERPHAWLNSGGAGTMGYAVPAAMGAKVGDPDRVVWAIDGDGCFQMTNQELATCAINKIPIKVAIINNSSLGMVRQWQTLFYEGRYSNTDLNTGHDTVRIPDFVKLADAYGCASFRCERDEDIDATIQKALEINDRPVVIDFVVSPNSMVWPMVPAGVSNDQIQVARNMTPEWEEED	PGPT0008185_474	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
D1-29_03034	1722	ilvD	COG0129	Dihydroxy-acid dehydratase	ATGAGTGAGGACACCCAGATCGCGACCCAGAACAAGCCAGATATCAAGCCCCGCAGCCGTGTGGTTACCGACGGAATCCACGCAGCGCCCGCGCGTGGCATGTTCCGCGCCGTGGGCATGGGTGACGATGACTTTGCCAAGCCGCAGATCGGCGTCGCGAGTTCCTGGAACGAAATTACTCCTTGCAACCTTTCCCTGAACCGGTTGGCCCAGGGCGCCAAGGAAGGCGTCCACGCCGGCGGCGGGTTCCCCATGCAGTTTGGCACCATCTCCGTTTCCGACGGCATCTCCATGGGCCATGAGGGCATGCACTTCTCCCTGGTGTCCCGCGAGGTCATCGCCGACTCAGTGGAAACCGTGATGCAGGCTGAGCGGATCGACGGCTCGGTGCTTCTGGCCGGCTGCGACAAGTCCCTGCCGGGCATGCTGATGGCGGCGGCCCGCCTGGACCTGGCCAGCGTCTTCCTTTACGCCGGCTCCATCATGCCGGGCTGGGTCAAGCTGGAGGACGGCTCCGAGAAGGAAGTCACGCTCATCGACGCCTTCGAGGCCGTGGGCGCCTGCGCTGCGGGCAAGATGAGCCTGGGCGACCTGGAGCGCATCGAAAAGGCCATCTGTCCGGGCGAGGGTGCCTGTGGCGGCATGTACACGGCCAACACCATGGCCTGCATCGGCGAAGCCCTGGGCATGTCCCTTCCCGGCTCCGCCGCGCCGCCCTCGGCAGACCGCCGTCGTGATGAATTCGCGCGTAAGTCCGGCGAGGCTGTGGTGAACCTGCTCCGCCTGGGCATCACCGCGCGGGACATCATGACCAAGAAGGCCTTCGAAAACGCCATCGCCGTGACCATGGCCTTCGGCGGCTCCACCAACGCCGTCCTGCACCTGCTGGCCATCGCCCGCGAGGCCGAGGTGGAGCTGAGCCTGGAGGACTTCAACCGCATCGGCGACAAGATCCCGCACCTGGGTGACCTGAAGCCGTTCGGGCGCTACGTCATGACCGACGTCGACAAGATCGGCGGCGTGCCGGTCATCATGCGTGCACTGCTCGACGCCGGCCTGCTGCACGGAGACTGCCTCACCGTCACCGGCAAAACCGTCGCCGAAAACCTCGAAGCGATCAACCCGCCGGACCTGGACGGCAAGATCCTGCGTGCACTGGACAACCCGATCCACAAGACCGGCGGCATCACCATCCTGCACGGCACCATGGCACCTGAAGGTGCGGTTGTGAAGAGCGCAGGCTTTGACGCCGACGTCTTCGAAGGCAGGGCGCGGGTGTTCGAGCGCGAGCAGGGCGCGCTGGATGCGCTGGACAAGGGCGACATCCAGAAGGGTGACGTTGTGGTCATCCGCTATGAAGGCCCCAAGGGCGGCCCGGGCATGCGCGAAATGCTCGCCATCACGGGTGCCATTAAGGGCGCGGGGCTGGGCAAGGACGTCCTGCTCCTTACCGACGGCCGGTTCTCCGGCGGCACTACCGGCCTGTGCATCGGCCACGTCGCCCCGGAAGCCGTCGACGGCGGCCCCATCGCCTTCGTCGAGGACGGGGACCGGATCCGCGTTGACATCGCGGCCCGCAGCTTCGACCTCCTCGTTGATGAGGCGGAACTGGTATCCCGGCGCGTCGGCTGGGAGCCGCTGCCGGCCAGGTACACCAAGGGCGTCCTGGCCAAGTATGCCAAGCTGGTGCACAGCGCCTCCACCGGCGCATACTGCGGGTAG	MSEDTQIATQNKPDIKPRSRVVTDGIHAAPARGMFRAVGMGDDDFAKPQIGVASSWNEITPCNLSLNRLAQGAKEGVHAGGGFPMQFGTISVSDGISMGHEGMHFSLVSREVIADSVETVMQAERIDGSVLLAGCDKSLPGMLMAAARLDLASVFLYAGSIMPGWVKLEDGSEKEVTLIDAFEAVGACAAGKMSLGDLERIEKAICPGEGACGGMYTANTMACIGEALGMSLPGSAAPPSADRRRDEFARKSGEAVVNLLRLGITARDIMTKKAFENAIAVTMAFGGSTNAVLHLLAIAREAEVELSLEDFNRIGDKIPHLGDLKPFGRYVMTDVDKIGGVPVIMRALLDAGLLHGDCLTVTGKTVAENLEAINPPDLDGKILRALDNPIHKTGGITILHGTMAPEGAVVKSAGFDADVFEGRARVFEREQGALDALDKGDIQKGDVVVIRYEGPKGGPGMREMLAITGAIKGAGLGKDVLLLTDGRFSGGTTGLCIGHVAPEAVDGGPIAFVEDGDRIRVDIAARSFDLLVDEAELVSRRVGWEPLPARYTKGVLAKYAKLVHSASTGAYCG	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
D1-29_03035	927	gltC_1		HTH-type transcriptional regulator GltC	ATGGACTTTAAACGGCTCCGGATCCTGCGTGAACTTGCCGACCGGGGTTCGGTGGGCGCCACAGCGGAAGCCATGCATGTCACCCCGTCCGCCGTGTCGCAACAACTCAGGACCCTGCAGGACGAACTCGGCGTGGTCCTGATGGAAAAGTCCGGCAGGGGAGTACGGCTGACCGAGGCCGGCCAGGCGATGGCAACCGCGGCCGCAGACGTCTCCACCGCCATGGCCAGGGCCGAAGCCACCATCGACACCTACAGGCAGGGCTGGCAGGCCCACATCAGGGCAGCCTTTTTCCCCAGTGCTGCTGAAATGTTCCTTCCCGGCCTCCTGCACCGGGTGAAGGCCATCGAGGGGATGCACTTTGAGGCCCATTTTGAGGATCCCGGAGTTGCCGGTTTTGCCGGCTTGGCAGCGGACTACGACATTGTCCTGGCCCACAGCGTGGACGGGCCAGAGGTCTTTTCCAGGCATGGGCTGGTGGTTGTTCCGCTGCTCAATGAACCGCTAGACGTTGCCATGCAGGCCGGCCATCCATTGGCGGGCAGGCCGCGGGTGACGGCCCGGGACGTGGTGGGTTACCCCTGGATGGGTGTCCCGGACGGCTTCCCGTTCGACGCTGTTCTTCGCCAGATCGAAAAACAGGCAGGCTCAACCGTTGTCAGGGCCCAGCTGTTCCCGGACCTCAGGGTTCTTGAAGCCCTCGTCAGCGCAGGCCATGGGCTCTCGCTCCTGCCGAGGTACACCTCCGCAGCCAATCAGGGCAGGGGCTTTGTGCTCCGTCCGTTGGTGGGCGTCCCCGCCAGGCGCACCATCGTGGCGCTTGCCCGCCCCGACGTTGCTGCCAGGACCACTGTCCGGGAGGTGCTGGAAATGCTCAAGCTTGAAGCGGCATCAGTGGCCGACGGCGCTGCCCCGGGTGATTCCTGA	MDFKRLRILRELADRGSVGATAEAMHVTPSAVSQQLRTLQDELGVVLMEKSGRGVRLTEAGQAMATAAADVSTAMARAEATIDTYRQGWQAHIRAAFFPSAAEMFLPGLLHRVKAIEGMHFEAHFEDPGVAGFAGLAADYDIVLAHSVDGPEVFSRHGLVVVPLLNEPLDVAMQAGHPLAGRPRVTARDVVGYPWMGVPDGFPFDAVLRQIEKQAGSTVVRAQLFPDLRVLEALVSAGHGLSLLPRYTSAANQGRGFVLRPLVGVPARRTIVALARPDVAARTTVREVLEMLKLEAASVADGAAPGDS				NA	NA	NA	NA	NA
D1-29_03036	1239			hypothetical protein	ATGGATTTTGTCTTCTGGATTATTCTCATTGTGCTGATCGTCGGTGTTGTCTGGTGGCTGCTGAACCGCAGCAGTTCCGCGAATACCAGTGACGCCGGGAGCCGTGCCGGAGGAATGCGGACCGACGGCGCCCTTGAGGGCGGCAGCGCCGCGGCCTCCGCCGACGCTGCAGCCACCACCGGAATCGCCGGCGCAGCCGGTTTTGGCCGGCCTGCGGAACCCACTCCCCCGACGACGGCGGATGAGGCGCCTGAACTGTCCACGTCCCCCGGTTGGAGCATGCGGGACGCGGAGCCCGTCCCGCATGCTCCAACCGGGGGACCCGCCGACTCCCCTTCCCACAGCCCGACAGTCCGCGGCAACGAGGAGACCGACGGCGGCAACGAGGAGATCGACGGCGGCACGCGCACCACCGGCGCCACCCCTGACGCTGAAGGTGAAACCTGGGCTGAAGCAGAAACCGGCAGCCCCGCCCAGGAGACCGGTCCCGGACTGGAGGATGCGCGCGTCGAGGAGGATGCGGGCCTCGAGGAAGATGCGCGGCTCCAGGAGGAGGCACGCCGGCAGGCTGAGAAACGCCGGGAGGAAGATGCTGCCGAGTGGGAGACCCAGTGGTCCGAGGCCAGCGGATCCACCGCAGTGCCGCGGACAGAGGCTCCGCAGGGAGATCTGTCCCCGGGAAGCGATGGAGAACCGTCAGGCGCCGCAGCCCCCGTCCATAACCCGGAATACACGGGCCCGCATTCCCCCACCCTTCCGGGTGCTGAAACTGCAGCCCTCGAGGATGCCGACGCCGGTGCCATGCCGGCTGAAAAGGCAGGCGCCGGCGTCGAAGGGCGCCGTGGCGAGGACACCGCCACGGCAGGGAGCATGGCACAACCGGAGGTGCCGGACAACGCAGCCGCGACGGAGACACTGGACCGGACGCAGTCCTCTGCAGCTGTTGAAACCTCAGCAAGCCACACAGCAGAACCGCCGGAGGCCGACGCCGAACGTGCACCAGGTTCTGAGCCTTCCAGCCATCTGGACGCGGAGGAGCCGTACGGCCAGGGTTCGGCATCACCGGCCCCCGACGGCAGTGGTCCAGCGGACTACACGGTCAAAGGGGACGCCGCGACCATGACCTACTACGAGGAGGGGCATCCGGACTATGAGCAAACCCGGGCCGGAGTCTGGTTCGAATCGCCGGCACATGCCGAGGCCGCCGGCTTCCGGGCTCCGCGGAGGAAACGGCTTTAG	MDFVFWIILIVLIVGVVWWLLNRSSSANTSDAGSRAGGMRTDGALEGGSAAASADAAATTGIAGAAGFGRPAEPTPPTTADEAPELSTSPGWSMRDAEPVPHAPTGGPADSPSHSPTVRGNEETDGGNEEIDGGTRTTGATPDAEGETWAEAETGSPAQETGPGLEDARVEEDAGLEEDARLQEEARRQAEKRREEDAAEWETQWSEASGSTAVPRTEAPQGDLSPGSDGEPSGAAAPVHNPEYTGPHSPTLPGAETAALEDADAGAMPAEKAGAGVEGRRGEDTATAGSMAQPEVPDNAAATETLDRTQSSAAVETSASHTAEPPEADAERAPGSEPSSHLDAEEPYGQGSASPAPDGSGPADYTVKGDAATMTYYEEGHPDYEQTRAGVWFESPAHAEAAGFRAPRRKRL				NA	NA	NA	NA	NA
D1-29_03037	1029	yliI	COG2133	Aldose sugar dehydrogenase YliI	ATGCCCACCGGCAGCACCAGTACCAGCACAGGGACAGGCACCAGCACCAGCACAGGCGCAGGCACTCAGTCAGCACCGCGGATAGTTGAACAACTGGACCTCCAACTTGAGATCCCGTGGGCTGCGGTCTTTTTACCAAACGGAACAGCGGTCATTTCGGAGCGGGACTCAGCCCTACTGAAGGCTGTCCGTGAAGGCAGCGCGACCAGCATCGGGCAGGTCCCTGGCGTGGTGCCGGGCGGCGAGGGCGGCCTCCTGGGGCTCGCGGTGTCGCCCGCGTTCGCCACGGACAATTACCTTTACGTATATTTCACCGCCGACCAGGACAACCGGATTGCCCGCGTGGACCTCCGGGAAGAGACCGACGGAACCCTGGCGCTGGGCGAAACGGAGGTCATCTTTACCGGGATCCCCAAGGCCTCCACCCACAACGGTGGCAGGATCAGGTTTGGCCCCGATGGTTTCCTGTACGTGGGGACGGGTGACTCGCAGCGGCGGAATCAACCCCAGGACTCCAACGCCCTGGGCGGCAAGATCCTGAGGTTGACGCCCGACGGGGACCCCGCCCCCGGAAACCCGTTCGGCAACGCCGTCTACAGCCTGGGGCACCGGAACGTTCAGGGCTTGGCATGGGACAGTGCAGGGCGGTTCTGGGCCAGTGAATTTGGGCCGGACGTCAATGATGAACTCAACCTGATCCAGCCAGGTGGCAACTATGGATGGCCGGCGGTGACCGGCGCGCCGGGCAGGGAAGGCTTCATCGACGCAAAAGTTGTGTGGCCCTCCACGTCGGATTCCTCCCCCAGTGGCCTTGAGATTGTTGGTTCAACTGCCTACCTCGGGGCACTCCGGGGCCAGCGGCTCTGGACGGTTCCCCTGGACGGCGAGGACGCCGGCACACCTGTGGCCTACTTCACGCGCGAATATGGGCGGATCAGGGACGTCGTAAGGTCGCCGGAGGGTGGATTTTGGCTCCTGAGCAACAACCAAAACCCTGATTTTGTGCTGGTTGTGGCTCCTCCCGGGTGA	MPTGSTSTSTGTGTSTSTGAGTQSAPRIVEQLDLQLEIPWAAVFLPNGTAVISERDSALLKAVREGSATSIGQVPGVVPGGEGGLLGLAVSPAFATDNYLYVYFTADQDNRIARVDLREETDGTLALGETEVIFTGIPKASTHNGGRIRFGPDGFLYVGTGDSQRRNQPQDSNALGGKILRLTPDGDPAPGNPFGNAVYSLGHRNVQGLAWDSAGRFWASEFGPDVNDELNLIQPGGNYGWPAVTGAPGREGFIDAKVVWPSTSDSSPSGLEIVGSTAYLGALRGQRLWTVPLDGEDAGTPVAYFTREYGRIRDVVRSPEGGFWLLSNNQNPDFVLVVAPPG	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
D1-29_03039	1263			hypothetical protein	ATGAAGAAACTTGTAGTCTTGCTTGCCGTGTCGGCGCTCGCACTGGTTGGATGTCAGGCCCCGACAAATCCTGGGAGCTCGGTCCCGGACCTCCCTCGGGTGCCATGGGAGGGCGCGTCAGCGTTCTACGGGAAATATCCGATCACAAAAGCGGCCGGATGGGCTGACCCCAGCTTCTTCCCCATAGGAAGTTGGTGGAATAACTTCAGCACCGACGAGAACGTAAAGTTCGACAAGGCGCAGGGCCTGAACACGTATTTCGAAGTCAATCCGGACTCGGACCCCGACCTCCTGGCAGCGAACGGGATGACGTACATAGGCCACCTGAAAAGCGCTAAAGCCACGGCGGAAAGCACCAAGTCTGCCGACATGCTCCCCGACGAGATTGACGGCCGCTTCGACCCGCCGTCAGTTGGCATCGCTGAACTGCAACGGATCATAGACGAATACGGAGATACCGGAAGGATGAAGTACAACAACTTCACAGCCGTCGTCGCCAGCAACTACAACGGGGACCAGGTCACTGCCGGAAACACCTACGTGAATATGGTGGACGGGCCTGTTTCCGTTGACGGGTACTGGTACACCGACACGCATTGCAGCGACAGGCCGTACGTAGACTGGTCATTCGTTCCGGTCAATGAATCCCACTGCCGCACCGCCTCCAGCTACGGGAAAATGGTCAAATCAGTACGTGAGCGAGTCGCGTCGGACGGCATCCTTCAGCCGGTGTACGTCTTCGTTGAACTCATGGGCGGGGGCACGGAATCAACAGCCTCCAACGAGTACATCTCCCCGGGCGAGATCCAGGGCGCCGTCATGAACGGCATCATTAATGAGGCCCGTGGCGTCGTCTACTTTAACCAGTCATTCAACGGCCCCTGCACCGGGGGTAACCTCATCCGTCAGGTTCAGGTCGACCCCAACCACTGCATGGCGGACAACATCGCGGGCATGAGGGAAATAAACCTGAAAATCAAGTCCCTTGCACCCATCTTGAACACGCAATCGTATGTGCATACGTTCGGGCCAAACCTGGACACCATGCTGAAAACCCATGACGGCTCGGCCTACATTTTCGCGATGCCAAGTGGCGAGGAAACCTCAGTACCGGGCGACCGGACCTTCACCCTGCCGAAGGGTGTTACCGGGACATCGGCGGAGGTAGTGGGGGAAGGCCGCACATTGCCTGTAGTGGACGGCAGGTTCTCTGACAGCTTCTCAGCCGAATACACTCACCACGTCTATCGCGTCACGCTCTAA	MKKLVVLLAVSALALVGCQAPTNPGSSVPDLPRVPWEGASAFYGKYPITKAAGWADPSFFPIGSWWNNFSTDENVKFDKAQGLNTYFEVNPDSDPDLLAANGMTYIGHLKSAKATAESTKSADMLPDEIDGRFDPPSVGIAELQRIIDEYGDTGRMKYNNFTAVVASNYNGDQVTAGNTYVNMVDGPVSVDGYWYTDTHCSDRPYVDWSFVPVNESHCRTASSYGKMVKSVRERVASDGILQPVYVFVELMGGGTESTASNEYISPGEIQGAVMNGIINEARGVVYFNQSFNGPCTGGNLIRQVQVDPNHCMADNIAGMREINLKIKSLAPILNTQSYVHTFGPNLDTMLKTHDGSAYIFAMPSGEETSVPGDRTFTLPKGVTGTSAEVVGEGRTLPVVDGRFSDSFSAEYTHHVYRVTL				NA	NA	NA	NA	NA
D1-29_03040	222			hypothetical protein	ATGCCTGCTGACGATGTTTCAGCCATTCATTGCAGGCTCGATGAATTGCTGGCCGAACGGGGGGTGACACTGACGGAACTAAGCAAGCGGGTAGGCGTGAGCCTCGTGAACCTTTCCATCCTCAAGAACGATCACGCCAAAGCCATCCGGTTTTCAACCCTGACTGCAATCTGTGAAGCGCTGGATTGCGAGGTGGGGGACCTGCTGGTCTGCCGGCGCTGA	MPADDVSAIHCRLDELLAERGVTLTELSKRVGVSLVNLSILKNDHAKAIRFSTLTAICEALDCEVGDLLVCRR	PGPT0014940_584	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014940-yozG-K07727	NA	NA
D1-29_03041	636			hypothetical protein	ATGAAAGCCAGCAGCCGCGCCGACCGTCCAGTGCGGACCAGGAGGATCGTGTCCAGGGCGGATGCGCTCTTCCTGATGACCGCCTCAGCAACTGCCGCCCTTGGTACCACTTTTTACACCGTAACAGGCATTGTGGGCCTGGGATCCGGCCCGGCAACCCTGACCGTTCCACTGGCTGCTGCCCGTCAGGACCCCGTGGGGCTGGTTCCAGGAGCGGAAGGCCGGTATACGGAAATGGAAGTAACGATTCCTGCCGTTCCGGTTGATGAGGCCGTGCTCCTGATGTGGTCTGCTGCGTTGAACCAGGTAGGCATCCTTGCCGTGGCGTTGCTGGTGTTTCTTCTTGCCATCCGGTTCCTGAAGGAGAATCTTTTCACCGCGGGCTCCGTCCTGGTGGTAGGCATTTCGGGATTGGCACTTGCCTTGGCCGGTACAGCAGGCCAGGTGCTCGGCTCCGCCGCCAGGCACCGGCTAGCGGAAGTTGTCGGCGCAAATCAACGAACGCCTGACGAGGCGATCGTGTTCATCGCTGAAATCAATCTGCTTCCTTCCGCGGCGGGCCTGATGTTGCTGGTGATCGCCGGGGTGTTCCAATTTGGCCGCCGCCTCCAAAAAGACACCGAGGGTTTGGTCTGA	MKASSRADRPVRTRRIVSRADALFLMTASATAALGTTFYTVTGIVGLGSGPATLTVPLAAARQDPVGLVPGAEGRYTEMEVTIPAVPVDEAVLLMWSAALNQVGILAVALLVFLLAIRFLKENLFTAGSVLVVGISGLALALAGTAGQVLGSAARHRLAEVVGANQRTPDEAIVFIAEINLLPSAAGLMLLVIAGVFQFGRRLQKDTEGLV				NA	NA	NA	NA	NA
D1-29_03042	603	cysE_2	COG1045	Serine acetyltransferase	GTGAAGATCATGCTGCTTCTGCGGGAGGACCTGCAGGCAGCCAAAGACCAGGATCCAGCGGCGTCGAGCCTCTTGGCAATGGCTTTCGTATATTCGGGTGTCCACGCTGTCTGGAGTCACCGCGTGGCGCATGCACTGTGGCAGCACCGGAAGCTCAAAGGAGCGGCCCGCCTCCTCTCCCAGCTATCGAGATCCCTCACAGGGATTGAGATCCATCCGGGCGCCACCATCGGCAGGCGGCTGTTCATCGACCATGGAACCGGCATAGTGGTGGGCGAAACCGCCGAAATAGGTGACGACGTCCTGATGTACCAGGGTGTGACCCTGGGTGGCCGGGCACTGAACAGGACGAAGCGGCACCCAACCATCGGCAACCGCGTCATGCTGGGTGCCGGAGCAAAGATCCTTGGCCCTGTGGTGGTGGGAGACGATGCCGCGGTCGGTGCCAACGCCGTCGTCGTGCGGGATGTCCCGGCGCAATCTGTTGCTGTGGGTATCCCGGCTGTGACGCGTCCGAAGGATCCTGCCGCGCCGGCTGAACCGCGCACGGACTTCCTTGATCCCGCACTGTTGATCGCGGCGGGATCACCTGCCGCTTCTTGA	MKIMLLLREDLQAAKDQDPAASSLLAMAFVYSGVHAVWSHRVAHALWQHRKLKGAARLLSQLSRSLTGIEIHPGATIGRRLFIDHGTGIVVGETAEIGDDVLMYQGVTLGGRALNRTKRHPTIGNRVMLGAGAKILGPVVVGDDAAVGANAVVVRDVPAQSVAVGIPAVTRPKDPAAPAEPRTDFLDPALLIAAGSPAAS	PGPT0020265_4748	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
D1-29_03043	318			hypothetical protein	ATGACCCAGGCACAGCTGGCCCAATATGTCCGCGTTCAGGCCCAAACTATGGGCAAAACCCTCAGCAGGCTGGAAGCTCACGGCCACATTGCCCGGGTCCGGAGCACTTCGGACCGCCGGAGCCACGTTGTTTCGCTGACTGAACGCGGCAAGGAGGCGGTAGCGGCGGCCGTGGAAATGGAGCGTTCCGTGCTTGCTGCCGCATCCATTGATCCCGATGCACTGCGCCAGGAGCTTAAGGCAGTAGTCCGTGAGCTGGCGAGTCAATTCGCTTCCCCCGCCACCAGGGCACTGGTGGACGGCGCACCGCTCGCGTAG	MTQAQLAQYVRVQAQTMGKTLSRLEAHGHIARVRSTSDRRSHVVSLTERGKEAVAAAVEMERSVLAAASIDPDALRQELKAVVRELASQFASPATRALVDGAPLA	PGPT0013155_2814	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-29_03044	474	bcp_1	COG1225	Putative peroxiredoxin	TTGGCAGACAAACTTATGACCGGTGCTGAAGCACCCGGCTTCACCTTGAAGGACTCCTCCGGACAGGACGTCAGCCTTTCCTCGCGGCTCGGGCGCAACACCATCGTTTACTTCTATCCGGCCGCCTCCACGCCGGGGTGCACCAAGCAGGCCTGCGACTTCCGCGACAACCTGGCATCGTTCCAGTCTGCCGGTTACGAGGTCCTGGGAATCTCACCCGACCCCGTTGCCAAGCTGGCTGCCTTCGCCGCCAAGGAGACCCTCAGCTTCCCGGTGCTCTCGGATGAGGACCATATGGTGGCGGAGGCATACGGTGCGTGGGGTGAAAAGAAGAACTACGGCAGGACCTACCAGGGCCTCATCCGCTCCACGATCGTTGTCGATCCTGAGGGCAAGGTGAAGGTGGCGCAGTACAACGTCCGGGCTACCGGGCATGTCGCCAAACTGCGCCGCGACCTCAAGCTTGATGCGTAG	MADKLMTGAEAPGFTLKDSSGQDVSLSSRLGRNTIVYFYPAASTPGCTKQACDFRDNLASFQSAGYEVLGISPDPVAKLAAFAAKETLSFPVLSDEDHMVAEAYGAWGEKKNYGRTYQGLIRSTIVVDPEGKVKVAQYNVRATGHVAKLRRDLKLDA	PGPT0013120_2628	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564	NA	NA
D1-29_03046	675		COG2335	Cell surface glycolipoprotein MPT83	ATGCAGTCATTCAAGCGCACAACCTTCACCGTCGCAGGCGTTGCAACTGCAGCCCTGCTCAGCCTGACCGCCTGTGGCGGAACTGCGGCAACGGCGCCGAACTCCTCGGCTCCCGCAGCCGCACCGTCAGAGTCCAGCATGGCGCCGTCTCCGTCGGCCAGTTCCTCAGCGGCCATGGATCCGGCAGCAAACCTGGTTGGTCCCGGTTGTGCAGGCTACGCGGAAAAGGTCCCCACCGGAGCAGGGTCGGTAGCCGGAATGGCTCTGGACCCCGTTGCGGTGGCTGCTTCAAACAACCCCATCCTGACCACCCTCACAGCTGCCGTCTCCGGCAAGCTGAACCCCAAGGTGGATCTGGTGGACACACTCAACGGCAGTGAATTCACGGTCTTCGCTCCCGTTGACGACGCCTTCGCTAAGATCGATGCAGCCACCATCGAAACGCTCAAGACTGATGACGCCCTCCTGAGCAAAATCCTGACCTACCACGTGGTCCCGGGCCAGATCACCCCTGACAAGATCGCTGGCACCCACGCCACGGTCCAGGGCGGAAGCGTCACCGTAACAGGCAGCAAGGACGCCCTGATGGTGGACGGTGCGAACGTGATCTGCGGCGGAGTCCAGACCGCCAACGCCACGGTCTACCTGATCGACTCTGTACTGATGCCCAAGTAA	MQSFKRTTFTVAGVATAALLSLTACGGTAATAPNSSAPAAAPSESSMAPSPSASSSAAMDPAANLVGPGCAGYAEKVPTGAGSVAGMALDPVAVAASNNPILTTLTAAVSGKLNPKVDLVDTLNGSEFTVFAPVDDAFAKIDAATIETLKTDDALLSKILTYHVVPGQITPDKIAGTHATVQGGSVTVTGSKDALMVDGANVICGGVQTANATVYLIDSVLMPK				NA	NA	NA	NA	NA
D1-29_03047	1674	hbpA_1	COG0747	Heme-binding protein A	GTGCCCAGCAGTACATCGCGGCGAACGGTGATCAAGACCGGCGCCGTTCTCCTGGCGTTGACCGTAACGTCATGCACGGGAGGCCCCGGGCCCGCTCCTTCGCCGACGTCTCCTACAGCCACCACCGGAGCTTCGGATCCTTCGGAGATTTTCAACTTTGGTACGGCATCGCAGCCGCTGGGCCTGGACCCCGCGCTCTCCAACGATGTGGAGTCCCACCGCATCACCCGGCAGATCCTGGAAGGCCTGGTCGGTGTGGACCAAACCACCGGCAAGCCCACACCGCTGCTCGCCACTGAGTGGAATGAATCCGACGAAGGCCGCAGTTACACGTTCAAGCTCCGAAGCGGCGTCACATTCCAGGACGGCACCCCCTTCAACGCCGACGCCGTCTGCGCCAACTTCAACCGGTGGTTCGCGTTCTCTGAAGGACTTCGGAAACAGGCGCCGGGAAGTTCCTTCAAAGGCGTCTTCAAGGCCCACTCCGATGAGGCATCACTGTCCATCTTCAAAAGCTGCACCGCGCTGTCCGCCGACACTGTACGCATCGATCTCACGCAGCGCTTCACGGCTTTCCTCCAGGCCCTGACGCTCCCCGCCTTTGCCATGGCTTCCCCGGCTGCCCTTGTGGCCGGCACCGCCGACGTCCTGGACCGGACCAAGGGCGGACAAGCCCTGTCCGCCTTCGCCACCAACCCGGTGGGAACAGGGCCGTTCAGCCTGGCAGCCTGGGATGAAGCCAGCGTCACGCTCATCAACAACCCAAACTATTGGGGGGACAAGGGCCAGATTGCCACCCTCAAATTTGTCACGTACGACCATCCGCAAACACGGCTCCAGGCACTCCTGGACGGCGCAATAGACGGATACGACGCCGTCACCGTGGGCAACTTCGATCAGCTGGTCAAACGTGGAAAGCAGATTGTCCAGCGGGACCCGTTCTCCGTGATGTATCTGGGCATGAACCAGGAGGTGCCTATCCTGCAGAACACCAAGATCAGGCAGGCCATCGAAATGGCGATCGACAAAGACACGCTGATCCGCAGGTTTTTCATCGACAACACAGCCCAGGCCACCCAGTTTGTTCCGCCCAAGATCAGCGGCTTCAACAACAATGCTCCGTCGCTGGGCCATGACCCTGTCAAGGCAAAGGCCTATCTGGCCGAGGCAGGCTACAACGGCGAGGAGCTGCGGTTCTACTACCCGCTCAACGCCACACGGCCGTACCTGCCCACGCCCGAAAAGGTTTATGCCGAAATCAGCCGCCAGCTGACCGCCGTCGGGCTGAACATCAAGCCGGTACCGGTGGAGTGGTCAGACGGGTATCTCCAGAAAGTCCAGTCCCCCGGCGACCACGCCCTCCACCTGCTCGGCTGGAACGGCGCGTACTCGGATGCCGACAACTTTGTGGGCCCGCTCTTCGGCGAGAAGAATGGCGAGTTCGGATACCAGGACGCCCAGGTCTTCTCCAAGATCAACAGGGCTCGCGGAATGCCGGAAGGCAAGGAACGCGACGAGCAGTACCACACCATCAACGCCCAGATAGCGGCCTCCGTCCCCGCTGTCCCCATCGCCTTCCCCATTTCGGCGCTGGCACTCTCGGACCGGGTGATCAGTTACCCTGCGTCCCCTGTCTTAAACGAAGTTTTCACGAAGGTGCAGCTAAAGCCTTGA	MPSSTSRRTVIKTGAVLLALTVTSCTGGPGPAPSPTSPTATTGASDPSEIFNFGTASQPLGLDPALSNDVESHRITRQILEGLVGVDQTTGKPTPLLATEWNESDEGRSYTFKLRSGVTFQDGTPFNADAVCANFNRWFAFSEGLRKQAPGSSFKGVFKAHSDEASLSIFKSCTALSADTVRIDLTQRFTAFLQALTLPAFAMASPAALVAGTADVLDRTKGGQALSAFATNPVGTGPFSLAAWDEASVTLINNPNYWGDKGQIATLKFVTYDHPQTRLQALLDGAIDGYDAVTVGNFDQLVKRGKQIVQRDPFSVMYLGMNQEVPILQNTKIRQAIEMAIDKDTLIRRFFIDNTAQATQFVPPKISGFNNNAPSLGHDPVKAKAYLAEAGYNGEELRFYYPLNATRPYLPTPEKVYAEISRQLTAVGLNIKPVPVEWSDGYLQKVQSPGDHALHLLGWNGAYSDADNFVGPLFGEKNGEFGYQDAQVFSKINRARGMPEGKERDEQYHTINAQIAASVPAVPIAFPISALALSDRVISYPASPVLNEVFTKVQLKP	PGPT0004430_8977	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
D1-29_03048	1503	mqo	COG0579	Malate:quinone oxidoreductase	GTGACCTTCATTTCCAAGACCAAACATGCCGACGTTGTCCTGATTGGCGGCGGCATCATGAGCGCCACGCTGGGGGCGTTCATCAAGCAGCTTGAACCTGACTGGACGATTTCCCTCTTCGAGCGGCTGGACCAGCCCGGGCTGGAGAGCTCGGATCCGTGGAACAACGCCGGAACGGGGCATGCCGCCCTATGCGAGCTCAACTACTCCCCCGCAGCCAAAGACGGCTCGGTGGACCCTTCCAAGGCACTGCTGATCAATGAGCAGTTCCAGCTCTCCCGTCAGTTCTGGGCCCATCTTGTGGAACGGTCGCTGATCGGCTCACCCAAGGGCTTCATCAACACCGTCCCCCACATGAGCTTTGTCATCGGGGATGACAACACCAAATTCCTGCGGACACGCTATGAGGCACTGAAGTCCCATACCCTGTTCCGGGGCATGGAATATTCCGAGGACCAGGCCCAGATTGCCAAGTGGGCGCCGCTGATAGTCAAGGGCCGGGATCCGCGGCAGCGCGTCGCCGCCACCCGGGCAGCGGAAGGAACAGACGTCGACTTCGGTGCCCTCACCCGCGAGCTCGTCACGTACCTGGGAAACAACGGCGTCGAGACCAACTACGGCCACGAGGTCACCGGAATCTCCAAAGCGTCCGACGGCGGCTGGAACCTTTCGCTCAAGTACCCGGCTTCCGGGGAACACGGGAAGATTCACGCGAAGTTCGTCTTTGTGGGCGCCGGCGGCGGGGCACTGCATCTCCTCCAGGCCTCCGGCATCCCGGAAAGCAAGGGCTACGGCGGCTTCCCTGTTTCCGGACAGTTCTTCCGCTGCACCGATGAGAAGCTCGCGGCGCAGCACAGCGCCAAGGTCTACGGCCAGGCCTCCGTGGGCGCCCCGCCCATGTCCGTGCCGCACCTGGATACCCGCTACGTCCACGGGAAACGTTCCCTCCTGTTCGGACCGTATGCCGGCTTCTCCACCAACTTCCTGAAGAACGGCTCGTACCTGGACCTTCCGCTGTCCATCCGCCCCAGCAATGTCATCCCCATGCTGGCCGTGGCCAAGGACAACATGGACCTGACGGCGTACCTGATCAAGGAAGTGGCGAAGAACCACGGAGACAAGGTCGAAGCGCTCCGGGAGTACTACCCGGAGGCCAAGGACAGCGACTGGGAACTCATCACCGCCGGCCAGCGTGTACAGATCATCAAGAAAGACCCGAAGAAGGGCGGCGTGCTTCAGTTCGGTACCGAAGTAATTGCCGGCCGCGACGGTTCCATCGGTGCCCTCCTGGGGGCATCGCCCGGAGCTTCCACCGCGGTGCCCATCATGATCGAACTGCTGCAGAAGGCGTTCCCCAAGAACTTCAAGGGGTGGCAGTCCAAGCTCAAAGACATGATGCCCGGCTACGGCGTCAAGCTCGATGACAACCCGGAACTGGCGGAGGAGCTCGAGAGGGCAACGGCCAAGGCTCTTCAGCTGGAAGGCGTCTCGGCCTCACGCTGA	MTFISKTKHADVVLIGGGIMSATLGAFIKQLEPDWTISLFERLDQPGLESSDPWNNAGTGHAALCELNYSPAAKDGSVDPSKALLINEQFQLSRQFWAHLVERSLIGSPKGFINTVPHMSFVIGDDNTKFLRTRYEALKSHTLFRGMEYSEDQAQIAKWAPLIVKGRDPRQRVAATRAAEGTDVDFGALTRELVTYLGNNGVETNYGHEVTGISKASDGGWNLSLKYPASGEHGKIHAKFVFVGAGGGALHLLQASGIPESKGYGGFPVSGQFFRCTDEKLAAQHSAKVYGQASVGAPPMSVPHLDTRYVHGKRSLLFGPYAGFSTNFLKNGSYLDLPLSIRPSNVIPMLAVAKDNMDLTAYLIKEVAKNHGDKVEALREYYPEAKDSDWELITAGQRVQIIKKDPKKGGVLQFGTEVIAGRDGSIGALLGASPGASTAVPIMIELLQKAFPKNFKGWQSKLKDMMPGYGVKLDDNPELAEELERATAKALQLEGVSASR	PGPT0001440_1054	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
D1-29_03049	3228	swrC	COG0841	Swarming motility protein SwrC	ATGTTCCGGCTGGCACAACTCTCACTGGGGAACCGGGCCCTGATCGCTCTGGTCACAGTGTTCGCGTCCGTGTTCGGGGTGATCACCATGTCATCGCTGAAACAGGAACTCATACCCTCCATCGAGTTCCCCCAGATCACTGTCCTGACGGCCATGCCCGGCGCGTCCCCCGAAGTGGTGGACAAGCAGGTAAGCGCGCCGCTGGAGACTGCGCTGAACGGCGTCGAAGGCCTTGAGTCCACCTCCTCCACTTCACGCAACGGCGTTTCGCAGATCACCATGGTCTTCACCTACGGGTCCAACCTTGACCGGGCCCGGAACCAGATCGACCGCGCCATTTCAAATGCCAAGCGCACCCTGCCAGAGGACGTGCAGCCGCGGCCCATCGCCGGCAGCATCAGTGACTTCCCCATCGTGTTCCTGGCCGTGTCATCGGATAAACCGCTCAGCGACCTGAACGCCGATCTGCAGCGCCTCAGCGTTCCCGCGCTCCAGAAGATCGACGGCGTCCGGGGTGCCGATGTGACAGGCGGCGCCACCCAGCACATCGAAATCCTTCCCCGTGCTGACGCCATGGCGGCAAAAGGCGCCACCATCCAGTCCATCCGGGATGCGCTGGGCAATAACGGGGCATTGATCCCAGCGGGCACCATAGAAGAGCAGGGCAAAACGCTTTCGCTGCAGATTGGCAGCCCCGTGGATTCACTGGACGCCATCAAAGCCCTTCCCCTGGGCGGCGCCAAGGACTCCGCCACCATCGGCACGGTGGCAGAGGTCAGCCTCAAGGACGATCCACAGACATCCATCACGCGGACCAACGGCGAGGAAACCCTGGCTGTCTCCGTCACCAAAAAGCCCGAAGGCGACACTGTAGGGATCTCCCACTCGGTGAAGGACTCCCTGGCCCAGCTGGAAGCCGAACTCGGCTCGAACGCCAAGTTCACGGCAGTGTTCGACCAGGCGCCCTTTGTCGAGAAATCCATCAAGGACCTCACCACTGAGGGGCTGCTGGGACTGGGCTTCGCCGTCGGCGTGATCCTGGTGTTCCTGATGTCCGCCCGCTCCACCATGGTCACAGCAATCTCTATCCCGCTCTCGCTCCTGATCACCTTCATTGGGTTGTCTGCCACAGGTTATTCGTTAAATATCCTCACGCTGGGCGCACTCACCATTGCGATCGGGCGGGTGGTGGACGACTCGATTGTGGTGATCGAGAACATCAAGCGCCACCTCAGCTACGGCGAGGAAAAGGTGACCGCGATCCTGACGGCCATCCGCGAAGTCGCCGGCGCCATCACGGCCTCGACCCTGACCACGGTGGCAGTTTTCCTGCCGATTGCGTTTGTCGGGGAATTGGCAGGCGAGCTCTTCCGCCCGTTCGCCCTGACCGTCACCATGGCGCTCCTCGCTTCGCTGCTTGTGTCCCTGACGATCGTCCCTGTTCTCGCCTACTGGTTCCTGAAGTCCCCCACACGTGCAGGATCATCAAGGGACGGTGAAACGGCCAGCCGGGAAGCGGCGGCTGCCCGTGCCAAGGCGCAGGAAGCCGAACAGAGGAGTCTGCTGCAGCGTGGTTACCTGCCGATCCTCACCAAGACCCAGAAGCATCCTGTCGTGACCCTGGTGGCCGCTGCCCTGGTGCTGGGGGGCACCGCCGCCATGACACCCCTGATGGCAACCAACCTTTTGGGCGATTCCGGCCAGAACAGCATGACCGTCCGCCAAGTGCTGCCGGCCGGAACAAGCCTGGCAGACACGAGTGCTGCCGCCATCAGGCTTGAGGAAGTGATCCGCAGGATCGACGGCGTCAAAAACGTCCAGGTCACCTCAGGCAACGCGCAAACAGGCTTCGCTGCCCTGACATCATCCGGGGCGTCCAACTCCACCTTCACTGTGGTCACGGATGAGAAGGTCAACCAGGCCCGGCTGCAGCAGACTGTCCGGAATGAGTTGGCTAAGGTGCCGGACTCGGGGAAGGTTTCGGTGGGAACGCAGCAGGGCGGCTTCGGCACGTCCTCGACTGTTGATATCACTCTGAAAGCGGCAACGTCCGCGGATCTCCGGACAGCGAGCGATGCAATGGTTCAGGCCATGATGGGCGTGCCGGGAACCAGCGAAGTCACCACCAACCTTTCGGCCTCTCAGCCTGTTGTCCAGGTCAAGGTGGACCGCGGCAGGGCGGTAGCGGCCGGGCTCAACGAGGAGCAGGTTGCGGGTGTCCTGGCCTCAACCATCAGCCCCGTCCCTGCCGGCACTCTCCGGATCGAAACCAATGACTTTCCGGTGCAGATCGGGCAGGGTACGAAGTTCGCCAGCATAGATGCCGTGCGGGCCATCCCGCTTCCCGCCGCCGCAGGCCCCGTGACCCTGGGCAGCATCGCCTCCGTGGAGCAGGTGGATGTTCCGGTCTCCATCACCGCCAGCAATGGGCAGCGAACCGCCAAAGTGTCAGTGACGCCGTCGGGCTCCAATCTCGGCGCCGTCAACGCGGAGGTGCAGAAACGGCTCACGTCGGTGGCTCTGCCTCCCGGAGTCACGGCTGAGATCGGCGGCGCCACTACCCAGCAGGCGGAGTCCTTCCAGCAGCTGGGCCTGGCTCTGCTGGCAGCGATAGCGATCGTCTACGTCATCATGGTGGCGACGTTCAAGTCCCTTGTTCAGCCGCTGATCCTGCTGGTGTCCGTCCCGTTCGCGGCAACCGGTGCGGTTGCCCTTTTGCTCGTGACCGGTGTTCCCCTGGGACTGCCTTCCCTCATCGGCATGCTGATGCTGGTGGGAATCGTGGTGACGAACGCCATTGTGCTCATTGACCTCATCAACCAGTACCGCCAACCGCGCAACGGCCAGCCCGGCATGGGCGTGGCGGATGCCATTACGCATGGGGCACGCCAGCGCCTCCGGCCCATCCTGATGACTGCGCTCGCCACGGTCTTTGCCCTCACGCCCATGGCACTCGGCCTGACCGGGGGCGGCGGTTTCATCTCCCAGCCGCTGGCCGTAGTGGTGATCGGCGGCCTGATTTCCTCCACCGCCCTGACACTGGTGCTGGTTCCTGTGCTGTACCGGCTCGTGGAAGGGCGGCGCGAAAAGAAAGCACTGCTCAGCGCGATGCTCGGACGGCCGGAGTTTGCGCAGGCGAACGACGTCGACGCCGAGTTTCGTGACTGGACCACCGGGATGATCCCCAAGGCATCCGGCCGCCGCGCGGCTCCCGGGGAACCTGAATAG	MFRLAQLSLGNRALIALVTVFASVFGVITMSSLKQELIPSIEFPQITVLTAMPGASPEVVDKQVSAPLETALNGVEGLESTSSTSRNGVSQITMVFTYGSNLDRARNQIDRAISNAKRTLPEDVQPRPIAGSISDFPIVFLAVSSDKPLSDLNADLQRLSVPALQKIDGVRGADVTGGATQHIEILPRADAMAAKGATIQSIRDALGNNGALIPAGTIEEQGKTLSLQIGSPVDSLDAIKALPLGGAKDSATIGTVAEVSLKDDPQTSITRTNGEETLAVSVTKKPEGDTVGISHSVKDSLAQLEAELGSNAKFTAVFDQAPFVEKSIKDLTTEGLLGLGFAVGVILVFLMSARSTMVTAISIPLSLLITFIGLSATGYSLNILTLGALTIAIGRVVDDSIVVIENIKRHLSYGEEKVTAILTAIREVAGAITASTLTTVAVFLPIAFVGELAGELFRPFALTVTMALLASLLVSLTIVPVLAYWFLKSPTRAGSSRDGETASREAAAARAKAQEAEQRSLLQRGYLPILTKTQKHPVVTLVAAALVLGGTAAMTPLMATNLLGDSGQNSMTVRQVLPAGTSLADTSAAAIRLEEVIRRIDGVKNVQVTSGNAQTGFAALTSSGASNSTFTVVTDEKVNQARLQQTVRNELAKVPDSGKVSVGTQQGGFGTSSTVDITLKAATSADLRTASDAMVQAMMGVPGTSEVTTNLSASQPVVQVKVDRGRAVAAGLNEEQVAGVLASTISPVPAGTLRIETNDFPVQIGQGTKFASIDAVRAIPLPAAAGPVTLGSIASVEQVDVPVSITASNGQRTAKVSVTPSGSNLGAVNAEVQKRLTSVALPPGVTAEIGGATTQQAESFQQLGLALLAAIAIVYVIMVATFKSLVQPLILLVSVPFAATGAVALLLVTGVPLGLPSLIGMLMLVGIVVTNAIVLIDLINQYRQPRNGQPGMGVADAITHGARQRLRPILMTALATVFALTPMALGLTGGGGFISQPLAVVVIGGLISSTALTLVLVPVLYRLVEGRREKKALLSAMLGRPEFAQANDVDAEFRDWTTGMIPKASGRRAAPGEPE	PGPT0016195_233	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
D1-29_03050	1446			hypothetical protein	ATGGTTGACGAAACCAACAATCTGAAACCCGCAGACGCGGCCGCGCTGGAGGCACATTTCCTGGACCCCGAGGCACCCGCCCCTGCCCGCGGAGTCGCGGCCGGGGAACTCGTGCCGTCCCGGTTCCGCGCCAAGGCCCGCACCTGGCGCGAACGCCACCACCCCGTCTCCATCGAGAAACGCCACGCCAAGGGCGTCCAGGACCGGCGGCTGGAGTACCAGCCGGACCGCGACGGCATGGCCTGGCTCGCCGCGTACCTCCCGGCCGACCAAGCCTCCGGGATCTGGGACCGGACCACCACCGCCGCCCGCGCCCTGCAGGGCCCGCACGAAAGCAGGACCCTCACCCAACTCCGCGCCGACCTGACCGCCACCTGGCTGCTCACCAACAACACCAGCGGCAGCCTCACCGCGCCTATGGCTGGTGGAGGAACCGATCGCAGACGAATTGCCGGCGATACTGGCGACCGCACGATGGGCGCCACCAGCACTAATAGCAGCATCGGCGGCACCGGAACGGGCAACGGCACCAGGCTCGAGACCGGCATCGCCGGTGCTGTGCCGTCGCCAACGGCGCAGGTCCTCATCACCGTGCCGGTCATGGCCCTCCTGGGCGCCACCGACGAACCAGCCACCCTGGACGGGTACGGGCCCATCCCGCCGTCCATGGCCCGCCGCCTCGTCAGCGACGGCGCCACCTCGTTCATGCGGGTCCTGACAGACCCCCGCGACGGCGCACCTCTGGAAATCGGCCGGACCAGCTACCGCATCACCAAAGCGATGCGCCAATGGCTGCGGCTCCGGGACGGCAAATGCCCCTTCCCCGGCTGCAACAACCACTCCCTGGACAACGAAGCAGACCACATCCTCGCCTGGGCCCGCGGCGGCACCACCGGCATAGCCAACCTGGGACAGCCCTGCCCCAAACACCACCGACTCAGACACACCACACCCTGGACCCCAACCGGCGCCACCAAAAACAAACCACCCGGCTGGACCTCACCAACAGGACGAAGCTACCCCAGCGAACAACCCGACTGGGAACCACCCCGCTGGCCGGAGGAAATCACGGATACGCAGGCTGACCTGGACCTGATCGACGGAGTTGGTTCATTCCTCGATCTCGTTGGCGCCGGCCCGGCCTTCTTTAAGCCGGCTGGCCCATCCCTGCCCGACACTGATCCGCCCGACACTGATCCGCCGGGCACTGATCCGCCCGGCACCGATCCGCCCGGCACCGATCCGCCCGATACTCATCTGCCGGATACTCGTCCACCAGATACTCATCCGCCGCACGCTGACTCGAGGAATGCTGACCTGTTTGAAGGTTGTGGGCCAGACAGTGACGTGGACGACGCCCACCTGCCTATGGATCCGTTCCCGGAGTGGTACTCGTTCGTGGCCGCGGACGCCAGGTGCCTGACAGGTTTCGGTTTTGCCGGATGA	MVDETNNLKPADAAALEAHFLDPEAPAPARGVAAGELVPSRFRAKARTWRERHHPVSIEKRHAKGVQDRRLEYQPDRDGMAWLAAYLPADQASGIWDRTTTAARALQGPHESRTLTQLRADLTATWLLTNNTSGSLTAPMAGGGTDRRRIAGDTGDRTMGATSTNSSIGGTGTGNGTRLETGIAGAVPSPTAQVLITVPVMALLGATDEPATLDGYGPIPPSMARRLVSDGATSFMRVLTDPRDGAPLEIGRTSYRITKAMRQWLRLRDGKCPFPGCNNHSLDNEADHILAWARGGTTGIANLGQPCPKHHRLRHTTPWTPTGATKNKPPGWTSPTGRSYPSEQPDWEPPRWPEEITDTQADLDLIDGVGSFLDLVGAGPAFFKPAGPSLPDTDPPDTDPPGTDPPGTDPPGTDPPDTHLPDTRPPDTHPPHADSRNADLFEGCGPDSDVDDAHLPMDPFPEWYSFVAADARCLTGFGFAG				NA	NA	NA	NA	NA
D1-29_03051	1377			IS256 family transposase ISAar6	GTGGCTATGACTAGACCCCGTGAGGTGTCCCCGGAGGAGTTGGCCCGCAGGGCTGCGGCGGCCGGCAGCATGGAGGCGTTGAAGGCTTCGGGCGCGTTCGATGAGCTGATGAACCAGATCGATTCCGGACAGCTGGAACTCGACGGCAAGGACGGTTTCATCCAGCAGCTGATCAAGGCCTCGCTGGAACGCGGGCTCCAGGCCGAGCTGTCGGGGCATCTGGGCTATGACAAGGGCGATCCGATCGGGCGTTTCCTGCCTAACGCCCGCAATGGGTCTTATCCGAAGACGCTCGGGACCTCCGCGGGGGACGTGGATCTGGCCGTGCCTCGTGACCGTGCTGGGTCATTCACCCCGCATCTGGTCCCGAAGGGTGCGCGCCGGACAGGTGGCCTGGATGACATGATTATCAGCCTTTACGCCGGCGGGATGACGGTCCGGGACATCGCCCACCATCTGGAATCCACGCTGGGCACGGAGCTGTCCCACGAGACGATTTCCAAGATCACCGATGAGGTCCTGGACGAGGTGATGGAGTGGCAGAAACGCCCACTGGAGCCGCTGTATCCGATCCTGTATCTGGATGCGATCATCATCAAGGTCCGTGACGGGCACCAAGTGCAGAACCGTGCCGCGCACATTGCCGTGGGCGTGGACATGGACGGGATCAAGCACGTTCTGGGGATCTGGGTCGAAGCTACCGAGGGTGCGAAGTTCTGGGCAGGGGTCTGCGCCGAGCTCGCCAACCGCGGCGTGAAGGACGTTCTGATCGTCTGTTGCGACGGGCTCACCGGCTTCCCTGAGGCGATCGCCGCGACCTGGCCGGCCGCGACCGTCCAGACCTGTGTCGTGCACCTGATCCGTGCCTCGATGCGCTTCATCGGCTACCAGGACCGGAAGAAGGTCGCGTCCGCTCTGAGGCCGGTTTACACCGCCCCGACGGCCGACGCCGCGCAGGAGGCACTCGATGCATTCGAGGCCTCCGATCTGGGACGGAAGTATCCCGCAACTGTACGAACCTGGCGCAACGGTTGGGAGAGATTCATCCCCTTCCTGGCGTTCCCACCGCCGGTCAGACGGATTATTTACACCACGAACGCGATCGAGTCGCTGAATTACCAGCTGCGCAAGATCATCAAGAACCGCGGGCATTTCCCCAACGACCAGGCGGCCGTGAAGCTACTCTGGCTGGCGATCTGCAACATCGAGGACAAACGCACCAGTGCCCGGACCAAGCTTGAAGGCAGAGCCCGGGAAAACCGTGCCAAGACGGTGAACAAACTCATCGAGGGAACCTTCACACCTGGATGGAGCGAAGCCCTTGGCGTCCTCCTCCTGAACTATCCCGACAGACTCGGACCTTACCTAAACCGATGA	MAMTRPREVSPEELARRAAAAGSMEALKASGAFDELMNQIDSGQLELDGKDGFIQQLIKASLERGLQAELSGHLGYDKGDPIGRFLPNARNGSYPKTLGTSAGDVDLAVPRDRAGSFTPHLVPKGARRTGGLDDMIISLYAGGMTVRDIAHHLESTLGTELSHETISKITDEVLDEVMEWQKRPLEPLYPILYLDAIIIKVRDGHQVQNRAAHIAVGVDMDGIKHVLGIWVEATEGAKFWAGVCAELANRGVKDVLIVCCDGLTGFPEAIAATWPAATVQTCVVHLIRASMRFIGYQDRKKVASALRPVYTAPTADAAQEALDAFEASDLGRKYPATVRTWRNGWERFIPFLAFPPPVRRIIYTTNAIESLNYQLRKIIKNRGHFPNDQAAVKLLWLAICNIEDKRTSARTKLEGRARENRAKTVNKLIEGTFTPGWSEALGVLLLNYPDRLGPYLNR	PGPT0030665_23	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030665-putative_transposase-K07493	NA	NA
D1-29_03052	579			hypothetical protein	ATGGACAGCACGGGGGCTTGGACGGCGGGGAGCGGGGCGGGCTTGGAGGCTGCCACCGGTGGTGGGATCGCGGGTGCCCTGGCTGCTGTTGAAGCCTCCACGGCTGCCTTTGGCCGAATCATCCGGCCCCATTTGGATGACAGCACGGCTGGCCCTGGCGCCGCTGGTGAGGTGGACGCCGATCCTGTTTCGGTGCTGGACGCCGATCCGATGCAGGATTCTGATCCGTTGCGCCGACGGCTGGACGCTTACCTGAATGCGCTGGCCGAGGTTGGCCGCGCTGAGGCAAAACATGCGGCGCTGAAGGTACATCTGGCCGCCGGAATCGCCGAGCTGGCAGAGGCCGTCGCCGCCCCGGCGGTGACCGCGCAGGACGCCACGGCGCAGGAAATGTCGGTGATCGCGGAGGTCGCGTGCGCCCTGACAGTCAGCGAACGCACCGCGGGTGCGCTGATCTCTGAATCCCAGGCCCTGACCAGAGGCCTGCCGCAGACCTTGTCTGCGCTGCAGGAAGGCAGCATTTCCTGGCAGCAGGGGGTGTCAGATTGTTTGTGTAGGAGGGCTGTAGTCGCTGGGTGA	MDSTGAWTAGSGAGLEAATGGGIAGALAAVEASTAAFGRIIRPHLDDSTAGPGAAGEVDADPVSVLDADPMQDSDPLRRRLDAYLNALAEVGRAEAKHAALKVHLAAGIAELAEAVAAPAVTAQDATAQEMSVIAEVACALTVSERTAGALISESQALTRGLPQTLSALQEGSISWQQGVSDCLCRRAVVAG				NA	NA	NA	NA	NA
D1-29_03053	1110	fgd		F420-dependent glucose-6-phosphate dehydrogenase	ATGCAGATCGGCGTATTCAGCGTCAGCGACATCACCACTGACCCCACCACAGGCCGCACCCCCAGTGAGAATGAGCGCATCAAAGCCTCGGTGGCCATCGCCAAGAAGGTCGAAGAAATCGGCATGGATGTCTACGCCATCGGCGAGCACCACAACCGCCCCTTCTTCTCCTCCTCCCCCACCACGACGCTCGCCTACATCGCGGCGCAGACCGAGCGGATCATCCTGTCCACGGCCACCACGCTCATCACCACCAACGACCCCGTCAAAATCGCCGAAGACTTCGCGATGCTCCAGCACCTCGCGGACGGACGCGTGGACCTCGTCCTGGGCCGCGGCAACACCGCGCCGGTCTACCCCTGGTTTGGCAAGAACATCCAGGACGGCGTGGAACTGGCCATCGAGAACTACAGCCTGCTGCGCCGGCTCTGGGACGAAGACACCGTGAACTGGTCGGGGAAGTTCCGCACGCCGCTCCAGAACTTCACGTCCACGCCGCGGCCTCTCGACGGCGTCGCCCCCTTTGTCTGGCACGGTTCGATCCGCACACCTCAGATCGCGGAAGTGGCTGCTTACTACGGTGACGGGTTCTTCGCGAACAACATCTTCTGGCCCAAGGAGCACTACCAGCAGCTGATCGGCCTTTACCGTGAACGCTACGAACACTACGGACACGGCAAGGCAGACCAGGCAATTGTGGGCCTTGGTGGCCAGTTCTTCATGCGGAAGAACTCGCAGGATGCCGTGAAGGAGTTCCGTCCCTACTTCGACAACGCTCCTGTTTACGGCCACGGCCCATCGCTGGAGGATTTTACGTCACAGACACCGCTTACGGTGGGCAGCCCGCAGGAAGTCATCGAAAAGACCCTGACATTCCGGGAGTACTTCGGCGACTACCAGCGCCAGCTGTTCCTGATCGACCACGCGGGCCTGCCCTTGAAGACAGTCCTTGAGCAACTCGACCTGTTCGGCGAGGAAGTCCTCCCGGTGCTCCGCAAGGAATACGCAGCGCTGAAGCCGGCGCACGTTCCGGATCCGCCCACCCACGCGGGCCGGGTTGCCACCCTGATGGCTGCCCAGAGCGCCGAACCGGCACCGTCGGAGGCGTGA	MQIGVFSVSDITTDPTTGRTPSENERIKASVAIAKKVEEIGMDVYAIGEHHNRPFFSSSPTTTLAYIAAQTERIILSTATTLITTNDPVKIAEDFAMLQHLADGRVDLVLGRGNTAPVYPWFGKNIQDGVELAIENYSLLRRLWDEDTVNWSGKFRTPLQNFTSTPRPLDGVAPFVWHGSIRTPQIAEVAAYYGDGFFANNIFWPKEHYQQLIGLYRERYEHYGHGKADQAIVGLGGQFFMRKNSQDAVKEFRPYFDNAPVYGHGPSLEDFTSQTPLTVGSPQEVIEKTLTFREYFGDYQRQLFLIDHAGLPLKTVLEQLDLFGEEVLPVLRKEYAALKPAHVPDPPTHAGRVATLMAAQSAEPAPSEA				NA	NA	NA	NA	NA
D1-29_03054	483			hypothetical protein	ATGAGCCCCGGAGGATCTGAATCCCCTGTGCGCCTGGCCGCAGAAACATGGGAGTCCCTGTTCCGGGCGCAGGTAGCGGTGATGCGGAAGCTTCAGTCGGGTCCGGCTTTTCGAAAGCTGGCGCTCAATGAGTACGACGTCCTCTTCACGCTCTCCAGATGTCCTTCCGGCTGGCTCCGGCTCAACGAACTAAACGACCATGTCCTGCTGAGCCAGTCGAGCCTCAGCCGGCTGGTGGAGAGGCTGGAGAAGCGCGGGCTTGTGGCGCGGACACCTGCTCCCGACGACGGCCGCGGCGTGCTGCTGAAGCTGACCGAGGCGGGGGTGGAGTTGCAGAAGGAGATAGGCCGCGAGCACGTCCGCGACATCGCCGGCCTGATGGGGCCCGCCCTGACCCCTGCCGAGCAGAAGGAACTGAAGCGCCTCACCGAGAAGCTCAGGAATTCAGTGGGTGCGCGGCCGGCAAAACAGCCGGTGAAGTAG	MSPGGSESPVRLAAETWESLFRAQVAVMRKLQSGPAFRKLALNEYDVLFTLSRCPSGWLRLNELNDHVLLSQSSLSRLVERLEKRGLVARTPAPDDGRGVLLKLTEAGVELQKEIGREHVRDIAGLMGPALTPAEQKELKRLTEKLRNSVGARPAKQPVK	PGPT0013155_4520	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
D1-29_03055	807			hypothetical protein	ATGGAACGCACTGTTGCAGCACGCCTGGTATTCAAGACAGCGGCCGACACAAAGGCTGCCCTGGCCGTTGCCGTGGCCAAAAACCCCGGCTACTCGTCCTTTCAGGAATCCCTGGCCGTCACGGTGGCCGGCGAGGAGGTGCCGGTGACGGAGGTTCCGGACCACCATGGGGGCCGCATGCACTACATGGAGTTCGCCGACCCCTCTGAAGTAACCGTTGACTATTCAGCAACGGTGACAGGACAGGCCCTCCCGGAGGAAGCCTCACTGGCGGACCTTATCCGCTACGTCCGGCCCAGCCGGTATGCGGAATCGGACAAGCTCCTGCCTACGGCCTATGCGGAATTTGGCGGCCTGCACGGTGAGGAACTGCTGCACGGTGTCAGGAACTGGGTTTATGGCGAGCTGAGGTACATCAGCGGCTCCTCCAGGGGGACGGACGGGGCGGTGGAGACGCTCCTGAACCGCCGCGGGGTGTGCCGGGACTTCGCCCACCTGGCCATTGCGTTGCTCCGCTCGAAGGACATCCCGGCCCGGCTCGCGGCCGTGTACGCCCCGGGACTGAGCCCCATGGATTTCCATGCCGTGGCTGAAGCGCACGTGAATGGAGCCTGGCACATCATTGACCCCACTGGCCTGGCCCCCAGGGAGTCAATGCTGAGGATCACGGCGGGAAGGGATTCCTCCGACACCGCATTCCTGTCCACCATCGGCGGCAGCCTGACCCTGAACCAGATGCGTATCACCGCTGTGGTCAACGGAAACCTGCCGGTGGAAGACCCTGCCAGGCTGGTTGTGCTGGCCTGA	MERTVAARLVFKTAADTKAALAVAVAKNPGYSSFQESLAVTVAGEEVPVTEVPDHHGGRMHYMEFADPSEVTVDYSATVTGQALPEEASLADLIRYVRPSRYAESDKLLPTAYAEFGGLHGEELLHGVRNWVYGELRYISGSSRGTDGAVETLLNRRGVCRDFAHLAIALLRSKDIPARLAAVYAPGLSPMDFHAVAEAHVNGAWHIIDPTGLAPRESMLRITAGRDSSDTAFLSTIGGSLTLNQMRITAVVNGNLPVEDPARLVVLA				NA	NA	NA	NA	NA
D1-29_03056	834			hypothetical protein	ATGACAGGCAAGGCAACGATGGTCGGGCTGCGGATCGCGGCAGTACTGCTGGCAGGGGGCATCCTTGCCGGCTGCGGCGGGCAAGGCCAATCGGCGCCCTCCTGGACGGCTCAGCCGGACGCTTCCTCCACCGCCGGTTCTTCCGACGCCGGCACAGCCAGCCCTGCGGCCACAGAACCGGTGCCTGGTTCAGGTTCTTCGGCAGTAGGTTCAGCATCCCCGGACGCAGCGTCCCCCGATGCAGCAGCCCCGGCGACGGCGTCCGCGTGGAAGTCCTTCTCGGATCCAGGTAAGACGGTCAGCTTCGAGCTGCCGGAGGAATGGATCGCCCAGTCGGTTGCTCCTGAGGAAGGAACCCAGGCCGGAGCGCTGAAGATTGAGGTGAAAAAGCAGGACGGCACAGTGGTCGCCGTCCTGAAGACCGGGCTCCCGCCGTCGGCGCCCGATTGCCCGGAAGCGGCGCGCAGGCCGTACACCGTGATCAGCAGCCTTCCGGTGGACCTCCCGGCACTGGCCGGGGAAGGCACCATTGCTCCGCATGTGGTGTTCCGTGTCATCCAGGGCTACCGGTACTTCGGCTCGTACGGCATCACCAACATCGTGGGCGGAGCCGACGGGCAGGCCTGCGAGCTGCGGAACGTTGTCCGTGGACCAGCCGGGAAGGGCGACTATTCCTTCGGTGACCTGGGAACGCTCAAGGCTTTTGCCCCGGACGAAAAGGTGGCTCCCGCCAAGGCGTTTGACACTCTAGGGCAGGCGGCAAAATATGCCAAGGAGAGCCCTGAATTTGCCAATGTCCAACGGATGCTAATGTCTCTGGAGATCAAGAACTAA	MTGKATMVGLRIAAVLLAGGILAGCGGQGQSAPSWTAQPDASSTAGSSDAGTASPAATEPVPGSGSSAVGSASPDAASPDAAAPATASAWKSFSDPGKTVSFELPEEWIAQSVAPEEGTQAGALKIEVKKQDGTVVAVLKTGLPPSAPDCPEAARRPYTVISSLPVDLPALAGEGTIAPHVVFRVIQGYRYFGSYGITNIVGGADGQACELRNVVRGPAGKGDYSFGDLGTLKAFAPDEKVAPAKAFDTLGQAAKYAKESPEFANVQRMLMSLEIKN				NA	NA	NA	NA	NA
D1-29_03057	660			hypothetical protein	ATGGCGGATCAGCAGTACGGCACGGCCGAAGGCAGCCTGGCGGACATCTCCGCCATCGATAGTGCAGACTGGCGGCTGCGGACCTTTGCCCTCTATGACACGGTACGGAAAATAGCCGTGGAAAACCCCGCCGAGGCGCACAGCTACTGGCGGCAGGAACGCGACCGCATGTTTGCGACCCACCCGGCATCAGCCTTGACTGAGCGGGACAAGGCACGCTTCTCCGGCCTGAAGACCGCCGACTACGATCCCATTTACCGCTTCCATGTGCCCCTGACCAAAGAGGGTGCGGGGCGGGAGCTGACAGTGGAAACCACCGAGGGAACAGCCAGTTTTGTCCGCCTGGGCACATTTGATCTTCCGGAGATGGGCCAGCTCGCAGTCTGGAAGCTGCACGGCTATGGCGGTGGCATCTTTGTCCCCTTCCGGGACGCCACGTCAGGCCAGCCCCGCGGCAGTTACGGCGAAGGTCGGTACCTCCTGGATACCAGCAAGGGTGCGTTTCTTGGCGTCCGCGGCTCGGGTTCGGGGGCCGAATTCATCCTGGACTTCAATTTCGCCTACAACCCGTCCTCCGCCTACAACGATGCCTGGACCTGCCCGCTCCCGGGGCCTTCCAACAGGCTTGCCGTGGACATCCCGGTGGGCGAGCTGTCCTGA	MADQQYGTAEGSLADISAIDSADWRLRTFALYDTVRKIAVENPAEAHSYWRQERDRMFATHPASALTERDKARFSGLKTADYDPIYRFHVPLTKEGAGRELTVETTEGTASFVRLGTFDLPEMGQLAVWKLHGYGGGIFVPFRDATSGQPRGSYGEGRYLLDTSKGAFLGVRGSGSGAEFILDFNFAYNPSSAYNDAWTCPLPGPSNRLAVDIPVGELS				NA	NA	NA	NA	NA
D1-29_03058	852			hypothetical protein	ATGCCACTGACCACTGCCCCGCGCCGTCTGGCCCGGGTCCGTCCGCTCCCGGAAGCATCAGCCGGCGAACAGTTCTTTGTCACCAACGGCGAGACTGATTTCGCCAGCCCCGCAGGCACGGTCTGGACGGTGGCGGTCACCCCCTTTCCGGGTTCACCGGCCAACGCCGGCAGTGCCCCGCGTCCAGGGTGGGAACCTGGCGACGACGTGACCGAGGCGTCTTTTACCTTTCTGGCACCCTGCCTTCCGGCCAATGTCCTGGGCATGGCGCACAACACGGGCCAGGCCGGGCGCGACGTGCCGCCCCAGGCCTTTCACAAGGCCGCCACGAGCGTCATTGGCCCCGGCGAGGCCATTGAGCTGCCTGCCGGGTCCGGCCACGTGGACCCCGAGGCGGAACTGGCCATCGTTGTGGGCACAAAGGCCAAAGGCCTGACTCCCGCGAATGCGCGCAGCGCGGTCCTGGGGTTTACCATCGCCAACGATGTGACCTCCCGTGACCGGCAGAAAACGGATGAGCTGTGGATCAGCGCGAAGAGCCAGGACACTTTCACACCGGCCGGGCCATGGATTGTCACCGGCCTGGACGATTCAGACCTTGCCATCAGCATTGTCCATAACGGCACGCACCTGAAAGCGGCAAGCACAGCTGACCTGGGCTGGAAAGTGGATGAAATCCTGGTCTACCTGACATCGTTTATGACGCTCCATCCCGGCGACCTCGTCCTCACCGGCTTCCCGGCGGAGAGCGCCCCGATAGCTCCCGGTGACACCGTGACGTGCCGCGTGGAAGGAATAGGCCAACTCTCAAACCCGGTTAAGGCAGGTTCCGGGGAGGGTTTCAGCGCCTGA	MPLTTAPRRLARVRPLPEASAGEQFFVTNGETDFASPAGTVWTVAVTPFPGSPANAGSAPRPGWEPGDDVTEASFTFLAPCLPANVLGMAHNTGQAGRDVPPQAFHKAATSVIGPGEAIELPAGSGHVDPEAELAIVVGTKAKGLTPANARSAVLGFTIANDVTSRDRQKTDELWISAKSQDTFTPAGPWIVTGLDDSDLAISIVHNGTHLKAASTADLGWKVDEILVYLTSFMTLHPGDLVLTGFPAESAPIAPGDTVTCRVEGIGQLSNPVKAGSGEGFSA				NA	NA	NA	NA	NA
D1-29_03059	504			hypothetical protein	ATGGATTCCCCTGCTGCGCCCGCCCAACTGACGCAGCAGCCCGGCAGCCAACCCGCAGCCCGGCGGGCACCAGCCACGAGGCACTACCGCGGAATGCTGCGGTTTCCCGTGCTCCGACAGCTCATCCGCTTCACCGGCGTGGGCATCATCTGCACGGCCACGTCCCTGGGTTTGTACGCGATACTGCGTCCCTGGCTGGGTCCCCAGCTGGCCAACGCTGCCGCCCTTGTCCTGACGTCCATGATGAACACGGCCTTGAACCGGAGATTCACCTTCAAGATCGAGGGGCAGGGCCGGATGGCACGCGACCACCTGAGCGGCCTGCTGGTGATTGCCGTTGCCCTGGTCATCACCGGGGGAAGCCTGGGCGTCCTGCACTGGCTGCGCCCGGAAGCCACAGTGTCCGATGAACTCCTGATCACCACGCTGTCAGGTTTCCTGGCCACAGCAGTCCGCTTCACCATGTTGCGGCACTGGATCTTTCGCCGGGCCCGCCACCGCTAA	MDSPAAPAQLTQQPGSQPAARRAPATRHYRGMLRFPVLRQLIRFTGVGIICTATSLGLYAILRPWLGPQLANAAALVLTSMMNTALNRRFTFKIEGQGRMARDHLSGLLVIAVALVITGGSLGVLHWLRPEATVSDELLITTLSGFLATAVRFTMLRHWIFRRARHR				NA	NA	NA	NA	NA
D1-29_03060	1158	iscS_1		Cysteine desulfurase IscS	ATGATCTTCCTTGACGCGGCCGCCACCACCCCCGTGCGGCGCGAGGTACTGGATGCGATGTGGCCGTATCTCACCGGTGAGTTCGGCAACCCGTCCAGCCATCATTCTCTGGGGGAAACGGCCGCGGCCGCGCTCTCGGAGGCCCGGGCAGCCGTTGCCGGTGTGCTCGGCTGCAGGTCCGGCGAGGTGACGTTCACGTCCGGCGGCACCGAGGCGGACAACTTGGCCGTCAAAGGAATCGCCCTGGCCCGGCAGGCCGCAGATCGGGTGCTGAATCGGGTGGTGATCAGCGCCGTCGAACATCCTGCCGTGGAGGAATCGGCACGGTACCTGGAGCGGTTCCACGGTTTCGCCGTGGACGTGGTTCCCGTTGACGAGACAGGGCTGGTGAGCCCCGAAGCGCTCGAGTCGGTGCTCCGGCCGGAAACTGCCCTGGTCAGCGTGATGTACGCCAACAACGAAGTGGGGACTGTCCAGCCCATCACCGAGCTCGCTGCGCTGGTGCGTTCACACGGCATCCCGTTCCACACTGACGCGGTTCAGGCCGCCGGGTGGCTGTCAGTTGACGTCAAGGCGCTCGGTGTGGATGCCCTGAGCATCTCCGGCCACAAACTCGGTGCGCCCAAGGGGTGCGGTGTGCTCTACGTCCGGGGCCGCACGCGGATTGAGCCACTGGTCCACGGCGGCGGCCAGGAACGCGGGCGCCGCTCGGGGACCGAAAACGTCGCGGGCGCTGTGGGGCTTGCCACTGCCCTCACCATGGCGCAGGCCCAGCAGCTGCAGGCAGCGGGGCGGGTGGCGGCCCTCCGCGACGCCTTCATCGCTTCCGTGCTGGCCGGCGTTCCGGAGGCTGTCCTGACGGGCCACGCAACAGAGCGCCTTCCCTCCGTGGCCTCCTTTTGCTTCCCCGGTACCAGTGGTGAGTCGGTTCTGTTGGAGCTGGAGCGGCGGGGTGTTGTGTGTTCAAGCGGCTCGGCCTGCGCCGCCGGTTCCGATGCGCCGTCGCCTGTGCTGACGGCTCTGGGCATTGAGGCCGAGGTGGCACAGACAGCGGTACGGTTCAGTTTTGACTCGTCGGTGACCGCCCTGGACCTGGAGACTGCAGCGCAGGGCATCCGGGACGCCGTCGCAAGCGTCCGTTCCCTTGGCTTGGCCTGA	MIFLDAAATTPVRREVLDAMWPYLTGEFGNPSSHHSLGETAAAALSEARAAVAGVLGCRSGEVTFTSGGTEADNLAVKGIALARQAADRVLNRVVISAVEHPAVEESARYLERFHGFAVDVVPVDETGLVSPEALESVLRPETALVSVMYANNEVGTVQPITELAALVRSHGIPFHTDAVQAAGWLSVDVKALGVDALSISGHKLGAPKGCGVLYVRGRTRIEPLVHGGGQERGRRSGTENVAGAVGLATALTMAQAQQLQAAGRVAALRDAFIASVLAGVPEAVLTGHATERLPSVASFCFPGTSGESVLLELERRGVVCSSGSACAAGSDAPSPVLTALGIEAEVAQTAVRFSFDSSVTALDLETAAQGIRDAVASVRSLGLA	PGPT0000065_5347	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
D1-29_03061	888	nadC	COG0157	putative nicotinate-nucleotide pyrophosphorylase [carboxylating]	ATGACTAACGCCTCCCTGTTTGACCTGGCCCTCCCGGCGGCACCGGTGCGGGAGATCCTGGAGCGGGCTTTCGCGGAGGATGCCCCCGCAGGGGATATCACCTCACAGCTGCTGATTCCGGCAGAAGCCCGGGCCACGGCTGTGCTGAACGCCCGCGTCCCCGGCGTGCTCAGCGGCGCCACCGTGTTCCGGGATGCCATGCTGCTGGTCGATCCGGAGACCGAGGTGGAACTGCTGCTCACCGACGGTGAAACGTTCGACGCCGGTACCCCCCTTGCACGGGTCAGCGGCAACGCACGCTCTGTGCTGCTTGCCGAACGCGTGGCACTGAACCTGGTGCAGCGGATGTCTGCCATCGCCACGAAAACAGCCGAGTACGTCAAGCTGGCCGAAGGCACCGACGCCAGGATCACAGACACGCGAAAGACCACCCCGGGCCTGCGGATCCTGGAACGGTTCGCTGTCCGCTGCGGCGGCGGGGCCAACCACCGGTACAGCCTCTCCGACGCCGTGCTTGCCAAGGACAACCACCTTGCCGTGATGACCGGCGGGGACCCGGGCAGGCTCACCGGGCTGCTGGCGGCGGCAAAGGCCCGGCTCGGCCACACCACGCACTTCGAAGTTGAAGTGGACCGGATGGACCAGATCGAACCGGTCCTGGCGGCTGGGGTGGACACCATCATGCTGGACAACTTCACCCTGGATGAGCTCAAGGCAGGAGTGGCGCTTGTAGACGGCCGCGCAACGGTGGAGGCCAGCGGCAACGTCAACCTCCAGACGGTGGCCGGGATCGCAGATGCAGGTGTTGACGTCATCTCCGTCGGTGCCCTCACCCACAGCGTGGCCGCCCTGGACCTGGGCCTCGATGTGGAACTGACGGTGGGGTAA	MTNASLFDLALPAAPVREILERAFAEDAPAGDITSQLLIPAEARATAVLNARVPGVLSGATVFRDAMLLVDPETEVELLLTDGETFDAGTPLARVSGNARSVLLAERVALNLVQRMSAIATKTAEYVKLAEGTDARITDTRKTTPGLRILERFAVRCGGGANHRYSLSDAVLAKDNHLAVMTGGDPGRLTGLLAAAKARLGHTTHFEVEVDRMDQIEPVLAAGVDTIMLDNFTLDELKAGVALVDGRATVEASGNVNLQTVAGIADAGVDVISVGALTHSVAALDLGLDVELTVG	PGPT0013370_527	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767	NA	NA
D1-29_03062	1770	nadB	COG0029	L-aspartate oxidase	ATGACCAGGGCCTCCGTGCACGGGACTTCGGAGCCCCAGCGGCTCATCGTCGTCGGAAGCGGCATCGCCGGGCTCTACGCCGCCCTCCTGGCCGCAGATGCGGGCGTGGAGGTTGTGCTGCTCACCAAGGGCGAGCTCGCTGAAAGCAATACCTACTACGCCCAGGGCGGCATCTCGGCAGTGCTTGCCGACCCGGCGCCGGGCGACACCGTGGCGGCCCACATCGCCGACACGCTCAATGCGGGTGCCGGCCACTGCAATACGGAGGCGGTGCGCGTCCTTTGCTCGGAAGCGCGGGAGGACATTGCAGGGCTGGGCCGTTTCGGCGTGCGTTTCGACCTGGCCCACGACGGCGGCCCCGCCCTGGGTCTTGAGGCTGCCCACTCCGCGCCGCGGATCCTGCACGCCGGCGGGGACGCCACGGGAGCCGGGGTTGCGAATGCCCTCATCCGAGCCGTGCTGTCACGCCGGGCCGACGCGAAGATCCAGCTGTACGGCCGAGCCCACGCCACAGCCCTGCACCAGGCCAATGGCAGGGTTTCAGGAGTTGAGTTCAGCCAGGGTGGCCGGAGCCTGAGCGTGACGGGCGACGCCGTGCTGCTGGCCACCGGCGGTGCCGGCCAGCTCTTCGCCCAGACCACCAACCCTGCCGTTGCCACGGCCGATGGACTGTCCCTTGCCTGGCGGGCCGGGGCTGCCGTGTCCGATCTGGAGTTCTTCCAGTTCCACCCCACCTGCCTCGTGCGCACAGGGGCCACAACGGATCCGGAAGTGGACCAGGACCCGTTGCTCATCTCTGAAGCGGTCCGTGGTGAAGGTGCCGTCCTGCTGGACACACGCGGCCTCAGGTTCATGCCGGACTATCATCCTGATGCCGAACTGGCACCCCGGGATGTGGTGTCCCGCAGCATTGCCCTCCACCTGGCAAAACTGGGCGACCCCAACGGCCATGTGTACCTTGACGCCCGCCTCGTTGAGGCCGCCAAGGGCCCCGGGTTTCTCGAACGGCGGTTCCCAACCCTCAGCCGAAAGACCCGCGAAGCCGGCCTCGACTGGACCCGCGAGCTTGTTCCGGTGGCACCTGCCGCGCACTACTGGATGGGCGGCGTCACCACCGACCTGCACGGCCGGACCAGTGTGCCCGGGCTCCTGGCCGCCGGCGAGGTTGCCTGCACGGGAGTTCAGGGCGCCAATCGGCTTGCAAGCAACTCGCTCCTCGAAGGTCTCGTCTTTGGCCGCCGCGCCGTTGAAGGGTTCCTGGCTGACTCACTGGTTGGCGCGTCGCTCGACGCTGTTCCTCCGCTCGCTGTCTCGGCCGCTGGCGGCCTCCCCTTGACGCTCGCTTCCGGAACAGCCTCGAACGACGAACGGAAGTGTGGCCTAGGTGTCTCCGCGGAGATGCCATCGGGGGAGACCAGGTTCTCGTTCGCTCCGGTTCCAGGACAGCCGTTCTCCCGGTCTGCTTTGCGCAGGCTGATGACTGCCAACGCCGGGGTGCTGCGGAATGGGGTGCTTTTGCGGGAGGCGGCGGAGACATTGGCGGGGTGGGCCGCCGTCATGCGTCCTGAAATGGTTCCTTTGTCCGCGGATCCGCGGGTGCATGAGGATGCCAGCCTCCTGCTCGCCGCGCAGCTGCTGGTGCGCGCTGCCGGGGAACGGCGGGCGTCCTTGGGGGCGCACTACCGGAGCGACAGCATTGAGGGCGCCGCCATCCATGAACTTGAAGAGACCTACCAGATGCGCCCGAAAGCGAGCCTTGTCCATGACTAA	MTRASVHGTSEPQRLIVVGSGIAGLYAALLAADAGVEVVLLTKGELAESNTYYAQGGISAVLADPAPGDTVAAHIADTLNAGAGHCNTEAVRVLCSEAREDIAGLGRFGVRFDLAHDGGPALGLEAAHSAPRILHAGGDATGAGVANALIRAVLSRRADAKIQLYGRAHATALHQANGRVSGVEFSQGGRSLSVTGDAVLLATGGAGQLFAQTTNPAVATADGLSLAWRAGAAVSDLEFFQFHPTCLVRTGATTDPEVDQDPLLISEAVRGEGAVLLDTRGLRFMPDYHPDAELAPRDVVSRSIALHLAKLGDPNGHVYLDARLVEAAKGPGFLERRFPTLSRKTREAGLDWTRELVPVAPAAHYWMGGVTTDLHGRTSVPGLLAAGEVACTGVQGANRLASNSLLEGLVFGRRAVEGFLADSLVGASLDAVPPLAVSAAGGLPLTLASGTASNDERKCGLGVSAEMPSGETRFSFAPVPGQPFSRSALRRLMTANAGVLRNGVLLREAAETLAGWAAVMRPEMVPLSADPRVHEDASLLLAAQLLVRAAGERRASLGAHYRSDSIEGAAIHELEETYQMRPKASLVHD	PGPT0013355_172	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278	NA	NA
D1-29_03063	1314	nadA		Quinolinate synthase A	ATGAGCAGCGTCAACACAGCAATCCAGCTCATCACGCGGGAACAGGCCGAAAAGGCCGCCAGCGGCGCGGCCGGCAAGAGTACGTGCAGCCCCGCACTTGCCAAGGGTCCCTGGGACTATGACCTGGCCGAGGCGCTGGCGGGTATTCCCGCCTACGGCCCCGGCGCATCCAGTGCCGATGTTGCCCCGGCTGCCACCCCCCGCCAGGGCCAGCTTCCCGAACAGTACAAGCTGGCCAGCGACGCTGAACTGGACAGCCGGATCCGCGCGGCCAAGGCCGCCCTGGGTGACCGGGCCGTGATCCTGGGGCATTTCTACCAGCGTGACGAAGTAATCCAGTACGCGGACTTCGTGGGGGATTCGTTCCAGCTGGCCAATGCTGCCCTGACCAAACCCGACGCCGAAGCCATCATCTTCTGCGGTGTGCACTTCATGGCCGAGACGGCGGACATCCTCTCCACGCCGGAGCAGGCAGTCATCCTGCCCAACCTGGCGGCCGGCTGCTCCATGGCGGACATGGCGGACACGGACTCCGTGGAAGAGTGCTGGGAGCAGCTCGAAGAGATCTTCGGGACCGAGCCCGACGCCGACGGCCGGGTCCCGGTCATCCCGGTCACCTACATGAATTCCTCCGCCGCGCTGAAGGCCTTCTGCGGTGAACACGGGGGAATCGTCTGCACGTCGTCGAACGCCAAAACTGTCCTTGAATGGGCCTTCGAGCGCGGGCAGCGCGTTCTCTTCTTCCCGGACCAGCACCTGGGCCGCAACACCGCCAAGGCCATGGGCGTGCCGCTGGAGCAGATGCCCATGTGGAACCCGCGCAAGGAACTGGGCGGCAATGACGAGCAGGCGCTCCTGGATTCCCGGGTGATCCTGTGGCACGGTTTCTGCTCCGTCCACAAGCGCTTCAACGTGGCCCAGATCGAGAAGGCGCGGGCGGACTTTCGCGGCGTCCAGGTCATCGTCCACCCGGAATGCCCCATGGAGGTGGTGGACGCAGCCGATTCAGCAGGATCCACTGACTTCATCAAAAAGGCAATCGCTGCCGCCACCGAGCCCACGACGTTCGCGATCGGCACCGAGGTCAACATGGTGAACCGGCTGGCCGCGGAATACCCGCAGCACACCATCTTCTGCCTGGACCCGGTCATCTGCCCCTGCTCCACGATGTACCGGATCCACCCCGGATACCTCGCCTGGGTCCTTGAGGAACTCGTGGAAGGCCGCATCGTCAACCGCATCACCGTGGCAGACGCAGTCCAGTCGAACGCCAGGACCGCGCTCGAGCGCATGCTGGCCGCCAGGCCATCATGA	MSSVNTAIQLITREQAEKAASGAAGKSTCSPALAKGPWDYDLAEALAGIPAYGPGASSADVAPAATPRQGQLPEQYKLASDAELDSRIRAAKAALGDRAVILGHFYQRDEVIQYADFVGDSFQLANAALTKPDAEAIIFCGVHFMAETADILSTPEQAVILPNLAAGCSMADMADTDSVEECWEQLEEIFGTEPDADGRVPVIPVTYMNSSAALKAFCGEHGGIVCTSSNAKTVLEWAFERGQRVLFFPDQHLGRNTAKAMGVPLEQMPMWNPRKELGGNDEQALLDSRVILWHGFCSVHKRFNVAQIEKARADFRGVQVIVHPECPMEVVDAADSAGSTDFIKKAIAAATEPTTFAIGTEVNMVNRLAAEYPQHTIFCLDPVICPCSTMYRIHPGYLAWVLEELVEGRIVNRITVADAVQSNARTALERMLAARPS	PGPT0013365_224	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013365-nadA-K03517	NA	NA
D1-29_03064	711			hypothetical protein	ATGTACGCCAGTTCAGCCAACGTCGCAGAGCGGCAGGCGGCGCCCCCTTCGCTCGCCATCTCCACTGTCATCTTCGCCCTTCGGCCCAGCGAAGCCTCGGGCCGGCCCACGCTCTGGATCCCGCTGGTCCGGAGGATCCGGGAGCCCTTCAAAGGGCTCTGGGCACTCCCAGGCGGACCGTTGTCGCACTCGGAGTCCCTGCAGGACGCGGCCTCAAGGAACCTGCAGGAGACCACCGGCCTGGCCCCCACCTACCTTGAGCAGCTCTACGCTTTTGGCGGCCTGCACCGCTCGCCCACCCAGCGCGTCGTCTCGATCGTCTACTGGGCGCTCGTGCAGCCCACGGAAGCGGCGCTCGCGGACGAATCCGAGAACGTCAAATGGTTCCGCGCAGACCGGCCCGGCGACCTTGCCTTTGATCACAACGCCATTGTCGAATACGCCCTGTGGCGCCTGCGCAACAAGCTTGCCTACGGCTCCGTCGCCTACCACCTGCTGGGGGAGTACTTCACCCTGGCGCAGGTCCGCGAAGTCTACGAGGCGGTGCTGGACCGTCAACTGGATCCGGCCAACTTCCGCCGGCAGCTCAAGTCCACACCGGAGATCGAAGACACCGGTGAATACCTCCAGGGCGGCAAACACCGCCCGCCACGCCTCTACCGCTTCACCGGCCGCCCCGGCCTTGACCCAGACAACAGGAGTACTCCATGA	MYASSANVAERQAAPPSLAISTVIFALRPSEASGRPTLWIPLVRRIREPFKGLWALPGGPLSHSESLQDAASRNLQETTGLAPTYLEQLYAFGGLHRSPTQRVVSIVYWALVQPTEAALADESENVKWFRADRPGDLAFDHNAIVEYALWRLRNKLAYGSVAYHLLGEYFTLAQVREVYEAVLDRQLDPANFRRQLKSTPEIEDTGEYLQGGKHRPPRLYRFTGRPGLDPDNRSTP				NA	NA	NA	NA	NA
D1-29_03065	1380	gabP_4	COG1113	GABA permease	ATGACGATGAAGTCCACCCAGGTGCTTCCGCAGATCCAGCTGGGCCATAGCATGAAACCGCGCCAGCTGACCATGATGGGCCTGGGCAGTGCGATCGGCGCCGGACTGTTCCTTGGGTCCGGCGCCGGAGTCCAGGCAGCCGGCCCGGCAGTTCTCGTCTCCTACCTGGTGGCGGGCACCCTCATCATCCTGGTGATGTGGGCACTCGGCGAAATGGCCGCCGCCAACCCCACCAGCGGCGCTTTCTCGGTGTATGCCGAGCGGGCACTGGGAAAAACAGCAGGCGCAACCGTGGGCTGGCTGTGGTGGCTCCAGCTGGTGGTGGTGATCGCGGCCGAAGCCCTGGGCGCGGCCGGCCTGCTGTTCTCGGTCTGGCCGGTCGTACCCGTCTGGGCACTTGCCCTGATCTTTATGGTGGTGTTCACGGCCATCAACCTTGCCGGGGTACGCAACTTCGGCGAGTTCGAGTTTTGGTTCGCCATCCTCAAGGTTGCCGCCATCGTTCTCTTCCTCGCCGTCGGGCTTGCCCTTCTGCTCGGCCTCCTGCCAGACGTGGCATCGCCGGGGCTGGGGAACATCACCTCCGACTTCGCCCCGGCGGGACTGGGCGGCATCGCCACTGCACTCTTTGTGGTGATCTTTGCCTTCGGGGGAACAGAGATCGTTTCCGTGGCGGCCGCCGAAACCGAGGATCCTGAGCACAGCGTGGGCAAGGCGATCCGCACCGTGGTGTGGCGCATCCTGGTGTTCTACATCGGCTCCGTCTTTGTGATAGCAGCGGTCCTCCCGGCCACATCCGAAAGCCTTGCCTCCCCGTTTGCGGGGGTGCTCAACACCGCCCGCATACCCGGCGCCGGCACGGCGATCACCCTGGTGGCCGTCGTCGCACTCCTCTCGGCACTGAACGCAAACCTGTACGGTGCCTCACGGATGGTGTATTCGCTCTCCCAGCGTGGCGAAGCGCCCGCATTCCTGTCCCGGCTCAGCGGCGCCAGTGTGCCAATGCTGGCGGTAGGCATATCAGTGGCCTTCGGCTTTGTCGCCACCGTCCTGGAACTGATGTTCCCGGAGCGGATCCTGCCTGCCCTCTTCCAGCTGGTTGGCTCCACCTGCCTGGTGGTCTGGGGCACGGCGCTGGTTTCACAGCTGATTCTTCGGCGGCGCGCGGACAGCAGTGGCACTCCCCTCCCGCTGCGGATGAAGGGATTTCCGCGGCTCACGATTTTTGGCCTGGTGCTCCTGGGCCTCATCTTTGCAGTGGGCTTCAGTGCCGAAAGCAGCCGCGGCCAGCTGTTCAGCACGTTTGCCCTGGTTGCCGCGCTGGCAGCGGCGTGCTGGCTGGGAGCGCGCGTCACGTCCCGGGCCCGGCAGCCCAAGTAG	MTMKSTQVLPQIQLGHSMKPRQLTMMGLGSAIGAGLFLGSGAGVQAAGPAVLVSYLVAGTLIILVMWALGEMAAANPTSGAFSVYAERALGKTAGATVGWLWWLQLVVVIAAEALGAAGLLFSVWPVVPVWALALIFMVVFTAINLAGVRNFGEFEFWFAILKVAAIVLFLAVGLALLLGLLPDVASPGLGNITSDFAPAGLGGIATALFVVIFAFGGTEIVSVAAAETEDPEHSVGKAIRTVVWRILVFYIGSVFVIAAVLPATSESLASPFAGVLNTARIPGAGTAITLVAVVALLSALNANLYGASRMVYSLSQRGEAPAFLSRLSGASVPMLAVGISVAFGFVATVLELMFPERILPALFQLVGSTCLVVWGTALVSQLILRRRADSSGTPLPLRMKGFPRLTIFGLVLLGLIFAVGFSAESSRGQLFSTFALVAALAAACWLGARVTSRARQPK	PGPT0000815_1742	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
D1-29_03066	222			hypothetical protein	GTGGAGGGGGAAACCAGCAAATCCGCTGTTGAACTGCCCGGTCCACAGGCAGGTAAAGTGGTGCGTACCTTCGGTGGGCCCGGTGACAGGATCAATGTTGGCGACGCCCTGATTGTGTTCGAGGTGCCGGGCGATACCGCCGGAATCGTGGGCACTGTGCCGAAGGACGAGGCACCGAAGCGCCGGGTCCGCCTGAGCGCCGTACTTGATGATGAGGACTGA	MEGETSKSAVELPGPQAGKVVRTFGGPGDRINVGDALIVFEVPGDTAGIVGTVPKDEAPKRRVRLSAVLDDED				NA	NA	NA	NA	NA
D1-29_03067	828	menH_5		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGAGCGGCAGGCATACCGGGGCAATGCATTCCCACACAGTGGAAGGAACGGATCCGCAGCTTTACGTCGGGGTGCATGATCCGGAGCAGGACGCCGGGCTCAGGCCTGTACTGCTGCTGCATGGCTTCTCCTCGTCCAGCAAACTCAATTGGGAAGACACCGGCTGGCTGGCGGCCCTCCTTGAAGCCGGCAGGCGCGTCATCACCGTGGATCTGCCGGGCCACGGCCGCAGCGGCGCGCCGGAGGACCGGGATTCCTACTCCCCCAGCCGGATCCGGGCGGATCTTCTCCAGATAGCGTTCGACGCCGGTGTGCGGCCTTTGCAGGAAGGTGACCCTTCCAGCGGGCTGGATATCATTGGCTACTCCCTTGGTTCTCGGCTCGCCTGGGAGTTCGGGGCCACCCAGCCGGAGATTGTCCACCGGCTGGTTCTGGGCGGGCCCAATATCGCGGATCCCCTGGCCGCCTTCGACCTTGTGGCTGCGCAGCGTTACCTTGCAGATGGCACACCCATCGAGGACGAGTCCACGGCAGGCCTGCTGAAGATGGCCATGCTGTTGCCGAGCAACAATATCTTTGCGCTGCTTTCACTCGTCGAGGCGATCAAGGCCGAGCCGTATGATCCTGCCGAAGCCGTGCCGCACATGCCCATGCTCCTGGTGGCCGGGGACCAGGATGAGCGCGCCACCACCATGCCGCAGCTCGCTGAGCTGGGGATCAAGGCGGGATCAATGGCCGAGCAGCTGGTGCTGCCGGGCCGCACCCACACCAACGCCATCACCAGCAGGGCTTTCAAGCAGGGTGCCATAGACTTCCTCGGCGTTTAG	MSGRHTGAMHSHTVEGTDPQLYVGVHDPEQDAGLRPVLLLHGFSSSSKLNWEDTGWLAALLEAGRRVITVDLPGHGRSGAPEDRDSYSPSRIRADLLQIAFDAGVRPLQEGDPSSGLDIIGYSLGSRLAWEFGATQPEIVHRLVLGGPNIADPLAAFDLVAAQRYLADGTPIEDESTAGLLKMAMLLPSNNIFALLSLVEAIKAEPYDPAEAVPHMPMLLVAGDQDERATTMPQLAELGIKAGSMAEQLVLPGRTHTNAITSRAFKQGAIDFLGV				NA	NA	NA	NA	NA
D1-29_03068	648		COG1926	putative protein	ATGACCATGCGTTTTGAAGACCGCACAGATGCCGGCGAGCGCCTGGCGGCGGTGCTGACGCAGTTCAGGGAGCGTCCCGACGCAATCGTCCTGGGACTTGCGCGCGGCGGCATCCCTGTGGCGGCGGCGGCGGCCAAAGCCCTCTACCTGCCCCTGGGTGCCGTGCTGGTCCGCAAGCTCGGCATACCGGGTCATGACGAAACAGCCTACGGAGCCCTTTCCTGGTCCCGGGGCCGCATTGTCCGGCTCGTCAACAAACCACTCGTGGAACGCATCCTGGAGCACGGCGTCCGGCAGGAGTGGCTTGATGAAGTAGAGGGGCGGCAGCGGGCCGAGTTGGTCCGCCGCGCCGAAACCTATCCCGGAACGGATCAGGACCTCACTGGCAAGACTGTCCTGCTGGTTGATGACGGCCTGGCGACCGGCGCCACCATGCGGGCCGCCGTCGAAGCCGTCCGCGCGGCAGGTGCCTCCCACGTAGTGGCCGCCGCGCCGGTGGGTTCATTGGAGGCGGAGGCCTCCGTGTCGCGTGTGTGCGATGCCGTCCTGTGCCTGCACCTGCCGGGAAAGTTCCGCGCTGTGGGAAGCTTCTACCGGCATTTCGAGCAACTCACAGATGAGGACACCATCAGCCTGCTGAAGCAGTAG	MTMRFEDRTDAGERLAAVLTQFRERPDAIVLGLARGGIPVAAAAAKALYLPLGAVLVRKLGIPGHDETAYGALSWSRGRIVRLVNKPLVERILEHGVRQEWLDEVEGRQRAELVRRAETYPGTDQDLTGKTVLLVDDGLATGATMRAAVEAVRAAGASHVVAAAPVGSLEAEASVSRVCDAVLCLHLPGKFRAVGSFYRHFEQLTDEDTISLLKQ				NA	NA	NA	NA	NA
D1-29_03069	1332	abaF_3		Fosfomycin resistance protein AbaF	ATGACCACACCATCCAAGGTGGACACCCTTGCCGGTCCCAGCACCCGGCAGGAGGAACGCAAGGTCCTGGCCGGCACCCTCGTCGGCACCACCATCGAGTGGTACGACTTCTTCATCTTCGCCCAGCTGACCGCAACGCTGCTGTCACCCCTTTTCCTGGCGCCGCTGAACGAGTCCAACCCCGGCCTGGCGCGGATCCTCTCCTTTGCGCTGATCGGCATCAGCTTCCTGTTCCGCCCGCTGGGCGCAGTGGTTGCCGGCCACCTCGGCGACCGGCTGGGACGCAAGGCAATGCTTGTCTTCACCCTGGTGATGATGGGGGCCGCAACCGCTCTGATCGGCATGCTGCCCACCTACGCGCAGATCGGCGCCTGGGCGCCCATCCTCCTGATCCTCCTGCGGATTGTCCAGGGCTTCTCCGCTGGAGGCGAATGGGGCGGAGCGGCGCTGATGGCGGTAGAACACGCGCCACTGAACAAGCGCGGCCTCTTCGGCGCCTACCCGCAAATCGGCGTACCGATCGGCATGATCCTCGCCACCGGCCTGCTGTTCTTCCTCAACAGCAACATGTCCAGGGAGGACTTCGCCGCCTGGGGCTGGCGCGTGCCGTTCCTGCTGTCCATTGTGCTGATCATTGTCGGTTACCTCATCCGCCGCGCCGTGGCCGAAAGCCCGGTCTTCCAGGAAATGGCTGCACGGAAGAAGGAAAGCAAGGCGCCGCTGGGCGAGCTGATCCGCAGCCACAAGAAGCCGGTTCTGTACTCCACCATGATCTTCATCGCGAACAACGCGGCGGGGTACCTGCTGATCGCCTTCTTCATCGCCTATGCCACCAGGACCCTGCAGATGCCCACGCCCCAAGTGCTCCTGGCCACCACCCTGGCATCCTTCGGCTGGCTGATCTTCACACTTGCCGGTGGCTGGCTCTCGGACCGAATTGGGCGGGTCAAGACCTTCCTGACAGGCTACGCGATCATCTTCGCCTGGATGATTCCGATGTTCGCTCTGATCGACACCAAGGACATTTGGCTCTACGGCCTGGCCCTCTTTGTCCTCACGATCGGCCTGGGCCTGTCCTACGGTCCGATGTCCGCGATGTACGCCGAGATGTTCCCGGCTAATGTCCGCTACTCGGGCATCTCCATCGGATACGCCTTTGGCGCCATCCTGGGCGGCGCCTTCGCCGCAACCATCGCCGAAACACTGCTGCAGGCAACCAGGTGGACCGGGTCCATTGGCATCTACATCATGATCCTGTGCGTGATCTCGGCAGTTGGCGTCCTGCTGGCCAAGGAAACCAAGGGCCGGCCGCTGGGGGTAAGCCACCACTAG	MTTPSKVDTLAGPSTRQEERKVLAGTLVGTTIEWYDFFIFAQLTATLLSPLFLAPLNESNPGLARILSFALIGISFLFRPLGAVVAGHLGDRLGRKAMLVFTLVMMGAATALIGMLPTYAQIGAWAPILLILLRIVQGFSAGGEWGGAALMAVEHAPLNKRGLFGAYPQIGVPIGMILATGLLFFLNSNMSREDFAAWGWRVPFLLSIVLIIVGYLIRRAVAESPVFQEMAARKKESKAPLGELIRSHKKPVLYSTMIFIANNAAGYLLIAFFIAYATRTLQMPTPQVLLATTLASFGWLIFTLAGGWLSDRIGRVKTFLTGYAIIFAWMIPMFALIDTKDIWLYGLALFVLTIGLGLSYGPMSAMYAEMFPANVRYSGISIGYAFGAILGGAFAATIAETLLQATRWTGSIGIYIMILCVISAVGVLLAKETKGRPLGVSHH	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
D1-29_03070	1455		COG2368	4-hydroxyphenylacetate 3-monooxygenase oxygenase component	ATGGGCATCCGCACCGGCCAGCAATACCTGGACAAGCTCAATTCCATGAAGCCCCACGTAGTGATCGGGGGCGAGGTGGTCACCGAAAACATCGCGGAGCACCCTGCCTTCGCCAACGTGGCGCGCACCTATGCGCGGCTCTTTGATATGCAGCACGAGCCCGAATATGCACCGGCCCTGACCTATGAATCGCCCAGCACAGGGGATCAGGTCAGTGCCTCCTTCCTGATTCCGCGGACCAGGGAGGACCTAGCCCACCGCAGGGCGGCCATCCGGACCTGGGCGGAATACTCCAACGGCTTCCTGGGCCGCACCGGGGACTACATGAACAGCGCACTCACCGCCCTGGCCGGAGCTGAAAAATGGTTCGCGCAGGCGGATCCGATGTTTGGCGAAAACATCCGCGCGTACTACGAACAGTGCCGCGAGAATGACTTGCTGGCCACCCATACCCTCATTCCGCCGCAGGCCAACCGGTCCGTCTCCGGATCGGAACAAATGGGCGGCCAGCTTTCCGCTCGGGTGGTGGAGGAGCACGACGACGGCATTGTGGTCAAGGGCGCCAGGATGCTGGCAACCATAGGCCCGATCGCCGATGAACTGCTGGTGTTCCCGTCCACGCTTCTGCGGGCCACACCGGAGGACGCCCCCTACTCGTACGCCTTTGCAGTTCCCAATGATGCCGACGGCGTGCGCTACCTCTGCAGGGCATCGCTCCATCACGGCGGAAGCACGCACGATGAACCGCTGGCCAGCCGGTTCGAGGAAATGGACGCCGTGGTGGTTTTTGACAACGTCTTTATCCCCAGCGAGCGGATCTTTATGCTCGGCCACCCCGAACTCTGTAACGGGTTTTACTCCGAAACCGGCGCGGGGGCCCTGATGACGCACCAGGTGGTCACCCGGACCATCGCCAAGAGTGAGTTTTATCTGGGCCTGGCCTCCGAAATTGCTGATTCGATCGGCATTGACGGTTTCCAGCACATCCAGGAGGACCTTGCCGAGCTGATCCAAACCGTTGAGATCGGCAAGGCGCTGATGACGGCGTCCGAAGCTGAAGCAGCAGTGAACGACGACGGCGTGATGCTGCCCAGGTGGGCCACGCTCAACGCTGCCCGCAACTGGTACCCCAAGGTGGCCCAGCGGTTCCCGCAGATCATCCGAAAGTTCTGCGCCTCCGGGCTGATGGCCCTTCCCGGTGAGGCGGATGTGGCCAGCGAAGCCCTTCCGGACATCGAAATGTACCTGCAGGCCAAAACACTCACCGGCCCGGAACGTATCCGGCTGTTCAAACTGGCATTCGACGCCTGCATCTCATCGTTCTCGGGCCGGCAGGGGCTCTACGAGTACTTCTTCTTTGGTGACCCAGTCCGCATGGCCGGAGCGCTGGTGAACTCCTATGACCGGGATCCTGCCCGCGCCAGGGTCCGAGAGTTCCTGGCCCGCACTGAATGA	MGIRTGQQYLDKLNSMKPHVVIGGEVVTENIAEHPAFANVARTYARLFDMQHEPEYAPALTYESPSTGDQVSASFLIPRTREDLAHRRAAIRTWAEYSNGFLGRTGDYMNSALTALAGAEKWFAQADPMFGENIRAYYEQCRENDLLATHTLIPPQANRSVSGSEQMGGQLSARVVEEHDDGIVVKGARMLATIGPIADELLVFPSTLLRATPEDAPYSYAFAVPNDADGVRYLCRASLHHGGSTHDEPLASRFEEMDAVVVFDNVFIPSERIFMLGHPELCNGFYSETGAGALMTHQVVTRTIAKSEFYLGLASEIADSIGIDGFQHIQEDLAELIQTVEIGKALMTASEAEAAVNDDGVMLPRWATLNAARNWYPKVAQRFPQIIRKFCASGLMALPGEADVASEALPDIEMYLQAKTLTGPERIRLFKLAFDACISSFSGRQGLYEYFFFGDPVRMAGALVNSYDRDPARARVREFLARTE	PGPT0020455_583	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020455-hpaB-K00483	NA	NA
D1-29_03071	537	nphA2		NADH-dependent flavin reductase	ATGATGTCCAAGCCGCGGAGCCAGCCGGAGCGTCCCGTCGCAGGCCGTGCCTCAGCGCCGCGGTTCCATCACTTCCGGGGCAGCCTGGGCCGGTTCGCCACCGGTGTAGCCATTGTGACTTTCGATGGTGCCACCAAACGCCACGGCATAACGGTCAATTCCTTCACCTCAGTTTCCATGGAACCGCCCCTGGTGCTGGTGGGCATCGCGCGAAGCGCCAAGGCCCATGATGAACTTGCAGGCCGGCCGTTTGCCGTGAACATCCTGGGCGCCGAACAACGCCAGCTTGCCATGCACTTCGCTGGCTGGCCAGGAGCGGAGCCCGTGTGGGTGGAAGGCGGAACCGCGCCGCGGCTCGCCGGGGTCCTGGCTTACTTCGAATGCACACCTTGGGCCGCATACGACGGCGGCGACCACACGCTCTACGTGGGGGAGGTGTCCGACTTCAACTACCGCAGGGGCGATGCCCTGGCCTTCGCCAACAGCGGGTTCACCACCATTCCTGAGAGCCAGCTTGGGATCGAGGAGCTCCTCTGA	MMSKPRSQPERPVAGRASAPRFHHFRGSLGRFATGVAIVTFDGATKRHGITVNSFTSVSMEPPLVLVGIARSAKAHDELAGRPFAVNILGAEQRQLAMHFAGWPGAEPVWVEGGTAPRLAGVLAYFECTPWAAYDGGDHTLYVGEVSDFNYRRGDALAFANSGFTTIPESQLGIEELL	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
D1-29_03072	735			hypothetical protein	ATGAACCCCACAGCCGCCGCTTCTGCCGGGACAGCGCCCCCGCCGGCCTCGCCCTCGCAGACCCTTTCCCGGGGTATTCGCGCCCTTGAAATCCTGGCTGCTGCCCAGAACCCGTTGACCATTGCGGAGCTGGCAGATGCCATGGGGGTGCATCGTTCGGTGGCCTACCGGATTCTGCGCACCCTGGAGGACCACTCACTGCTGGTGCGCGACGACGCCGGACGGGTGCAGCCCGGCCCGGGACTTGCCGTGTTGGCGAGGGGTGTTTCCCGGAACCTTCAGGCTGCGGCGTTGCCTGAACTCACCCACCTGGCCAACACCCTTGACATGACAGCCTTCGTCACGGTTTGGGACCATCACGAATGCATCACCCTGGTGACGGTTGAACCACGGCATTCAGGGGCAACGGTGGCCCAGCACCCAGGCACGCGGCACCCCATCAATGCAGGGGCCCCCGGCATCGCCATCCAGTCTGCGCTGACCGAAACGGAATGGAATCAGCTCTCAACGGGCATTCCCTACAGGCCCGAGGCCGCGGAAGCCCGGCTGGCTGGGTATTCGACGAGCCACGATGAAGTCATTGCCGGCGTGTCATCGCTGGCGGCCCCTGTCCGGGTTCCGGGCGGCCGGCCGGCTGCGCTCGCCGTCGTCTACATCCGCTCCGCCCATGATCCCGCCACACTAGGCAAGGCACTCGCCGAAAGCGCGGCCAGGATCGAACGCCAGCTGGCATAG	MNPTAAASAGTAPPPASPSQTLSRGIRALEILAAAQNPLTIAELADAMGVHRSVAYRILRTLEDHSLLVRDDAGRVQPGPGLAVLARGVSRNLQAAALPELTHLANTLDMTAFVTVWDHHECITLVTVEPRHSGATVAQHPGTRHPINAGAPGIAIQSALTETEWNQLSTGIPYRPEAAEARLAGYSTSHDEVIAGVSSLAAPVRVPGGRPAALAVVYIRSAHDPATLGKALAESAARIERQLA				NA	NA	NA	NA	NA
D1-29_03073	1386			hypothetical protein	TTGAACTCTTCAACCCTCCCTTCCCAGACCTCCTCCACGGCCGTCGCGGAGACTCACGTCCCCACGGCCCGCCGAAGCAATCGGTTTGCCAGGCTGCCGCTCCTCGCCGGCCGCAGCTTCATACCACTCGGTTTGTTTGCCCGGCTGCCTCTGGCCATGCTCACTGTGGGTGCCCTCACCCTCACCACCTCTGTCTCCGGCTCCTACGCACTGGGCGGCATCGTTGCTGGTGCTGTCGGAATCGGCTCAGCACTGGGTGCACCGTTGCTCGGGGCGCTCGCGGACCGGCGAGGCCAGCGCCCCGTCCTCCTGGCCGCCGCAGTACTTAACGCGCTCGCTGTTACGGCGCTCATTGCGGTGGCCTCCGCCCTGGGTGCAGCCGGGTCTTTTCCCCTGGGAGTGTTTGCTGCGGCCTTCCTTGCAGGTGCAAGCTGTCCGCAGGTGGGTCCATTGGCCCGCGTGCGGTGGATGGCACTCACCTCCGGCGGCGCCCGGGCGGGGAACACCGCTGATCTGGATACGGCACTGTCCTACGAGAGCACGGCAGACGAGCTCACTTTCGTTTTGGGGCCGGCGCTGGTGGGAATCCTTGCCAGCCTGGTGGCGCCGTGGCTCCCGCTGGCCGTCGCCGCTGCCCTGACCATTACCCTGGTCCCGGCCTTCGCTGTCCACAGGACGCACAATGCGGTTCCAGGGAGCAGGGCGGTTGCACGTGGCAGTGAAGTTTCAGGAAACAGGGCGGTTCCACCTAGCAGTACAGATTCAGGAAACAGGGCCGTTCCACGTGGCAGTGCAGTTTCAGCCGCAGGCACTACGTTCCCGGCAGTTGCTGCCTTGCCCGTTCTGGCCATGGTCTGCATGGGGACCTTCTTCGGATCCACCCAGACAGCACTCAGCGCGTTCGGGGCCAGCTTCGCCAGTTCTGAGGCGGCCGGGCTGCTGTATGCAGTGATGGGGCTGAGTTCAGCGGCAACGGCCTTGTCGGTGGCCTACTGGCCGCGCGGGTTTGCAGTCTCCGTGCGCTGGCTCGTGTCTGCTGCGCTGATGACAGCGCTGTCCTTCCTGCTGCTGGTGCCGGCATCCGCAGGCGGCATGGTGGCGGTCCTGCTCATCCTGGGGCTTCCAGTCGGACCGCTGATGGTCACGGTCTTTTCCATCGGTGGACTGGTGGCCCCGGTGGGGCGCCTTGGAACCGTGATGACCGCCCTTGCCAGCGGAATCGTTGCCGGTACTGCCCTGGGATCGTCGCTGGCCGGCCAGCTCGCGCAGGTGCACGGATATGCTGCTGCTTTTCTGGTGACTGTGGGCGCCGCAATGGCGCTGTTGCTCCTCGGCCTGGCCACCGCCGTCGTACTCCGACGCAGGGATGCCAGAAGCAGCGGCTGA	MNSSTLPSQTSSTAVAETHVPTARRSNRFARLPLLAGRSFIPLGLFARLPLAMLTVGALTLTTSVSGSYALGGIVAGAVGIGSALGAPLLGALADRRGQRPVLLAAAVLNALAVTALIAVASALGAAGSFPLGVFAAAFLAGASCPQVGPLARVRWMALTSGGARAGNTADLDTALSYESTADELTFVLGPALVGILASLVAPWLPLAVAAALTITLVPAFAVHRTHNAVPGSRAVARGSEVSGNRAVPPSSTDSGNRAVPRGSAVSAAGTTFPAVAALPVLAMVCMGTFFGSTQTALSAFGASFASSEAAGLLYAVMGLSSAATALSVAYWPRGFAVSVRWLVSAALMTALSFLLLVPASAGGMVAVLLILGLPVGPLMVTVFSIGGLVAPVGRLGTVMTALASGIVAGTALGSSLAGQLAQVHGYAAAFLVTVGAAMALLLLGLATAVVLRRRDARSSG				NA	NA	NA	NA	NA
D1-29_03074	3039			hypothetical protein	GTGAGGATTCATCGCCTGACGGTGGCCGCATTCGGTCCCTTCGCCGGCACAGAGGAAGTCGACTTCGACAGGCTCAGCGGGCACGGCCTGTTCCTGCTCAACGGACCCACCGGTGCCGGCAAGACCAGCGTGCTGGATGCCATTTGCTTCGCCCTCTACGGATCGGTGCCCGGCACACGGCAGGACGGCAAACGCCTCCGGAGTGATCACGCGGAACCAACCCGGGAGCCGGCGGTCACCTGCGAGTTTTCCGCGCAGGGCCGTCACTTCGAGGTCACCCGGTCCCCGGCCTGGGACAAGCCCAGCGCCCGCGGAAAAAACGGCTTCACCACCCAACAGGCCAAGACCCTCCTGCGGGAGAAGGTAGGCGGAGCCTGGACGGAAAAGTCAGGGCGGAACGATGAAGCCGGCGCGGAAATCACAGCCCTCCTGGGGATGGACCGGGATCAATTCACGCGCGTAGTGATGCTGCCCCAGGGCGACTTCGCGGCCTTCCTCCGATCCAAGGCCACCGACCGGCTGGAGCTGCTGCAGAAGCTCTTCGGCACCCAACGCTTTGAAGCCGTCGAGCAGGAGCTGGTGCACCAGGCGCAGGCCTCAAGGAACGACGTCGCCCGTCACAACGGGGAACTGGATCTGCTGGCATCCCGTGCCTGGTCTGAGGCAGCCGCCGTTGGCATTGACACCTCTTCGGCGCCGCCAGCTGAAGACGCAACCGCCAGGTTGGGTTGGCTCCACGCAGCTGTCGCCGAACGCGCCACGGCACTCTCCGGGGTGGCGGAGGACGCGGAAGCTACAAGCCGGCTGAAGGCCGCGGAACTGGAGACTGAGGCCGCGCGGACGGAGCGGCAGCGACGGCTCGCTGCCGCGTCGGCCCGGAAAGCCGCAGCAGAGTCCGCCCTTGCCCGGCTGCAGGACCAGGCGGCCCGCCTTGAACGGCACCGCCAGGCAGAAGTCCTCAGCGGGCACTTCCAGGCAGTGGACAGCAGCGAGGCCCAGCTGCGCCATGCCACCGGTGCCATGGAGTCTGCTTTCACCCTGCTGCGCATGGCAGCCGAAGAGGACGCGGAGCTCTCTGCTGCGGGTACATGGACTGCCAATGCCCCCGACGCTGCAGCCGAACTCAGCCGCCTGCGTTCCCTCCTGGCAGTTGTCGAAGGCCGGCTTCCTGATGAAGAGCGGCTCCACTCCCTCTCGGCGAGAAGTGCTGCGCTGAAGAAACGGCAGGCGGAACTTGCCGTTGAAGCAGCTGAGCTCAGCACCCTCCTGGGATCGCTCCGGACCGAACATGCAGGACTGTCCGCAGTCCTTGAGCCGCTGGAGGAGGCGGCTTCAGGTGCCGTCCTTCATTCCAAGGAAGCAACCGCAGCTGACGAATTGCTTGACGTAGTACGCCGTTATGGCTCCGCCGTCGAAGCGAAGGACCTGGCGAAGGATCGCCACGAGGAATTCCGCGGTGTCCTCCTGGAGAAGAAGAGCCGTTGGCTTGACCTTCGGGAGGAAAGATTGGCGAACGCTGCGGCGGAACTCGCGGCCGGGCTGACTGAGGGAAAGCCCTGCGCTGTCTGCGGAAGCCTGACCCATCCGGACCCGGCGGAGGCTGCCGCCTCAGCCTTGGGACTGGGGCAGGCGGAAGAAGACGCCCGCCTGGCCGTGGAGGCCGCGGAAACACGTCTCGCCGGCCTTGCCGCCAAGCTGGGGGAGGCCAGTCAACTGGTGGCGGTGCTGGCCAGCCAGGGCGGGAACACGCCGGAAGACCAGGCCGTGCAGGCGGCAGACACGGCGCGCCGGGCCGCCGCTGCCTCGCAGGACGCCGCGGACAAGGTCGCCGCCATCCGCGGGCAGCTGGAGGCGCTCGAGGCAAGAATGGCAGCCACCGAATCGGCACGCACCAAAGCAGAATCAGAACGTGCACAGGGGGCGTCCACGTTGTCCGAGGTGCTGGACCAGATGGCCTCCCTGGACCAGGCGCTCGCAGGCCTGCGCTCGGGTCACCGAAGCCTGGGCCACCGCCTGCGCTCCCTGCAGGATGCTGCCCGCACGCTTGAGAAAGCCGTGGACGCCCAGGTTCAGCTGGACAAGGCCAAGGCAAGGGTGGCCGACGCGGGCCGGCAGCTGGAACTTGCCTTGCCGGATGCCGGATTCAGCAGCGCCGACGAGGCGCGCTCCCAGCTGTTGCCAGGCGGCCAGGCAGCGTCGCTGCAGGCCGAGGTACGGGCAGGCCACGATGAACAGGCACGGATCGCCGAGCTTTTCGCCTCCGAAGACCTGGTGCTGGCCGCGGAGGAACAGTCGGCAGGCATCACAGTGGACGGGGCACGGTTGGCAGAGCTCCGCGCCCAGGCTTTGCAGGCCGAACAGGGAGCCCGTGAGGCCCATCTTGCTGCCGGGTTGGCGCTCCGGTCCCTGGAGTCACTGACGGCCATCCGGCAGGAATACGAGGACCTTGCCAGCTCCGGATGCGGCCCCAGGGAGCGTGCAGAGCTTCTGACTTCGCTGGCAGAAACCGCAACTGGCCGCGGCGACAACAGTTACCGCATGAGCCTGAACAGCTACGTCCTTGCCGCCCGCCTGGAGCAGGTGGCTTTGGCGGCATCAGAGCGGCTCGTAGCCATGAGCGACGGCCGCTACCTGCTGCAGCACACAGATGCGAAGGCCGCCCGCGGCGCCAAGTCCGGGCTGGGCCTGGAAGTGGTGGACCAATGGACAGGGCACCGCCGGGACACTTCAACGTTGTCCGGCGGGGAATCATTTATGGCGTCCCTTTCGTTAGCGCTCGGGCTGGCCGACGTCGTCCAGCAGGAAGCGGGCGGCATCCAGATTGAAACACTGTTCGTGGATGAGGGTTTCGGCAGCCTGGACGAGCAGTCTTTGGAACAAGTGATGGACGCCCTGGAAGGGCTTCGCGACGGCGGACGGGTTGTAGGTCTGGTCAGCCATGTCGCCGAAATGAAGCAGCGTATTGGAACGCAGCTGCAGGTGGTCAAGGGCCGCAACGGGTCCACCCTTCGCATCTCGGACGCCGCGGAGCTGCCCTGA	MRIHRLTVAAFGPFAGTEEVDFDRLSGHGLFLLNGPTGAGKTSVLDAICFALYGSVPGTRQDGKRLRSDHAEPTREPAVTCEFSAQGRHFEVTRSPAWDKPSARGKNGFTTQQAKTLLREKVGGAWTEKSGRNDEAGAEITALLGMDRDQFTRVVMLPQGDFAAFLRSKATDRLELLQKLFGTQRFEAVEQELVHQAQASRNDVARHNGELDLLASRAWSEAAAVGIDTSSAPPAEDATARLGWLHAAVAERATALSGVAEDAEATSRLKAAELETEAARTERQRRLAAASARKAAAESALARLQDQAARLERHRQAEVLSGHFQAVDSSEAQLRHATGAMESAFTLLRMAAEEDAELSAAGTWTANAPDAAAELSRLRSLLAVVEGRLPDEERLHSLSARSAALKKRQAELAVEAAELSTLLGSLRTEHAGLSAVLEPLEEAASGAVLHSKEATAADELLDVVRRYGSAVEAKDLAKDRHEEFRGVLLEKKSRWLDLREERLANAAAELAAGLTEGKPCAVCGSLTHPDPAEAAASALGLGQAEEDARLAVEAAETRLAGLAAKLGEASQLVAVLASQGGNTPEDQAVQAADTARRAAAASQDAADKVAAIRGQLEALEARMAATESARTKAESERAQGASTLSEVLDQMASLDQALAGLRSGHRSLGHRLRSLQDAARTLEKAVDAQVQLDKAKARVADAGRQLELALPDAGFSSADEARSQLLPGGQAASLQAEVRAGHDEQARIAELFASEDLVLAAEEQSAGITVDGARLAELRAQALQAEQGAREAHLAAGLALRSLESLTAIRQEYEDLASSGCGPRERAELLTSLAETATGRGDNSYRMSLNSYVLAARLEQVALAASERLVAMSDGRYLLQHTDAKAARGAKSGLGLEVVDQWTGHRRDTSTLSGGESFMASLSLALGLADVVQQEAGGIQIETLFVDEGFGSLDEQSLEQVMDALEGLRDGGRVVGLVSHVAEMKQRIGTQLQVVKGRNGSTLRISDAAELP				NA	NA	NA	NA	NA
D1-29_03075	1209	sbcD		Nuclease SbcCD subunit D	ATGCGGTTATTGCACACATCCGACTGGCACCTTGGCCGGTCCTTCTACGGGGTTGGAATGCTGGACGCCCAGCGGTCGTTCGTTGATCAGCTCGTCAGCGCTGTCTCGGAACAGGGCGTTGACGTCGTCCTGATTGCCGGCGATGTGTATGACCGCGCCCTCCCCGGCGTGGATGTGGTTGACCTGCTGGATGATGCCCTGGTGCGGATAGCCTCAGCAGGGGCCAAGGTAGTGCTTACCAGCGGCAACCATGACTCCGCCATCAGGCTGGGGTTTGCCTCACGGCTCCTGGAACAGGGCGGTGTGCACCTTCGGACCCGGCTGGCCGATCTTGACCAGCCGCTGCTGCTGCCGCTTGATGACCGCGCCCAGTTTGATAGCCGCGCCCAGTTTGATGACCATGCCCAGGGAGCCGTGCTTGCCATCTATGGCATCCCCTGGCTGGAGCCCCGGCTTGTTGCCGAACAGCTGGGTGTGGACACAGCCACCCATTTTGAGGTCACCAGGGCAGCCACCGCGCTGGTCCGCCAGGACCTTGAACGGCGGAGGTCAGGCGGCACGGTCCATGCAGTGGTCCTGGCGCATACGTTTGCCAGCGGCGGCATCAGCTCGGACAGCGAACGCGATCTCAGCATTGGGGGAGTGGGTGCCGTTCCGCTGGATCTGTTCGACGGCTTCAGCTACACGGCCCTGGGCCACCTGCATGGCCGGCAGTGCCTTTCGCCGGAAGTGCGGTATTCGGGGTCTCCGCTGGCCTACTCCTTCTCGGAGGCCCGGCACACCAAAGGGGCCTGGCTTATCGACGTCGGCCCTGAGGGCGTGACGGACGTCACCGAACTTCTGTGGGAAGCGCCGCGGAAGCTGGCGGTGCTGCGCGGGGAGCTGTCAGACCTGCTGGAATCCGCAGAACATGCCTGGGCGGAGGATGCCTACTGCCAGATCACCCTGACCGACGCCCATCGGCCGGCCCAGGCCATGGAGCGCCTCCGCGCCCGTTTTCCGGACACGCTGGTTCTGGGATTCGATCCACAGGGCGGGGCGGCCAAAGTTCCCGCAAGCTACAGCAGCAGGCTGGCGCAGGCCCAGGATGACCTGTCCGTCTGCTGCGGCTTCCTGGAGCACGTGCGCGGACGCGATGCCACGGAGCCCGAGCGCCAGGCGCTGACCTCCGCACTGGACAACGTGCGGCTCCAGGAGGCATCGCTGTGA	MRLLHTSDWHLGRSFYGVGMLDAQRSFVDQLVSAVSEQGVDVVLIAGDVYDRALPGVDVVDLLDDALVRIASAGAKVVLTSGNHDSAIRLGFASRLLEQGGVHLRTRLADLDQPLLLPLDDRAQFDSRAQFDDHAQGAVLAIYGIPWLEPRLVAEQLGVDTATHFEVTRAATALVRQDLERRRSGGTVHAVVLAHTFASGGISSDSERDLSIGGVGAVPLDLFDGFSYTALGHLHGRQCLSPEVRYSGSPLAYSFSEARHTKGAWLIDVGPEGVTDVTELLWEAPRKLAVLRGELSDLLESAEHAWAEDAYCQITLTDAHRPAQAMERLRARFPDTLVLGFDPQGGAAKVPASYSSRLAQAQDDLSVCCGFLEHVRGRDATEPERQALTSALDNVRLQEASL				NA	NA	NA	NA	NA
D1-29_03076	1104	aqpZ_2		Aquaporin Z	ATGACCATGCCTGTTCGCGCCCATCATGCTCCTGACACCGGCCTGCCAGGTGTCGGCGCTGCCGAAGGCCGGCACGGACTGCCGGCGAGGCTGTCGGCGGAGGCGTTCGGGAGTCTTTTCGTGGTGGTGGCCGGCCTGGGCGTACCGCTGTTTTCAATCCCGCAGTCCAGCCCCTTGCCGGCCGCGCTGGCGGCAGGCCTTGCCATCACCGCCGCCATGCTTGCCTTTGGCTATGTGTCGGGCGGGCATTTCAATCCTGCAGTGACAGTGGGCAACGCAATTGCAGGCCGGATCAGCCTTGGCGAGGCGGCAGCCTACGTCGGTGCCCAGCTGATGGGCGGCCTGGTTGGCGCCCTGGCCCTTTTCGGCATCCTCCGCACGCTTCCCGGGATCCAGGACAGCCGGACAGCGTTCGACACCGTCACAGCGGGATTTGGTGAGCATTCCATCGTCCAGGCCCCGCTGGCCGGAGTCCTGCTGCTCGAAGTTGTCGGCAGTGCCCTCCTTGTTGCCGTTTTCCTGAGCGCCACAGCCCGGAACAACCTGAACAAGGCCGCCGCCCCGGTTGCCGTGGGCCTCGCCTTCGCGGTGCTGCTGCAGCTGGGCCAGGCCGTGGGCAATGCCCCTTTCAACCCCGCCCGCGCCACTGCATCGGCGCTGTTCAGTTCAAGCTGGTCGCTCGAGCAGCTGTGGGTGTTCTGGGTTGCCCCGCTGGTGGGAGCTGCCATTGCCGGGCTTGCCTTCCGCGGGTTTGGCGCATCCCCGGATTCTGCAGCAGGGTTGGCCGGCGCATCCGCCTTTGGGGATCACCACGCCGGGGATGGGCAGGACGCTGATGATGACGACCTGGATGACGATGACACGGACGACGACGACACGGACGACGTGACCCCCGGGGGCCGGGAGGACCTGACTTCTGCGGCAGAAGACGGGCAAGCAGGGTCTGTTACGCGGGCTCCCGCAACGCCGGCTGTCGCAACGCCGTCTGCCGGGCAGGTTCCGCCTCAGAAAGATGGCACGGCAGACGCCACGCGTGCCGAAGCCGACGGCGGCCGCAACGGCCGGGATGAGGCGCAGGACTTCTTTGAGGGAAAGAGCAGCTAG	MTMPVRAHHAPDTGLPGVGAAEGRHGLPARLSAEAFGSLFVVVAGLGVPLFSIPQSSPLPAALAAGLAITAAMLAFGYVSGGHFNPAVTVGNAIAGRISLGEAAAYVGAQLMGGLVGALALFGILRTLPGIQDSRTAFDTVTAGFGEHSIVQAPLAGVLLLEVVGSALLVAVFLSATARNNLNKAAAPVAVGLAFAVLLQLGQAVGNAPFNPARATASALFSSSWSLEQLWVFWVAPLVGAAIAGLAFRGFGASPDSAAGLAGASAFGDHHAGDGQDADDDDLDDDDTDDDDTDDVTPGGREDLTSAAEDGQAGSVTRAPATPAVATPSAGQVPPQKDGTADATRAEADGGRNGRDEAQDFFEGKSS				NA	NA	NA	NA	NA
D1-29_03077	1218			hypothetical protein	ATGTTGGCTGGGTCCACACTGGGCGCCGGTTCGGGCGGTGCTCACCGCCACGGTAAATTTACTGTCATGAGCACAGATCCCGGCCCCTTTGGCGTGCCCCAGCTGGCCTCCCGCATCCATGGCTGTCTCCTGGGTGGAGCCCTGGGTGATTCCTTGGGCTACGCCGTCGAGTTCGACTCGATCGAAACGATCCGCCGCCGCTTTGGTGCGGACGGGCTCACGGACTTTTCAGCGCTCGACGGCAGCAGCCACTTTTCGGACGACACCCAAATGACGCTTTACACCGTGGACGGACTGGTGGAGGCCATCGAATGGGCCAACTCCGGGGTGGGTGCGGACGTCAACGCCTGCCTGTGGCTGGCCTATCTCCGCTGGCTGGCCACGCAGGGCGAGGCTGCTCCGCTGTCCGCCCCGGTCCCCCAGCCGCGGTGGATTGACGCGCAGGAGGCGCTCAAGCACCGCCGCGCCCCGGGGAACGCCTGCCTCACCGGACTGGCAACAGGGGAAATGGGAACAACTTTCCGTCCCGTGAATCCACAGTCAAAAGGTTGCGGCACGGTGATGCGGTCTGCACCGTTTGGGCTGATCCCGCACATCACCCCCGACGCCGTCTACAAACTCAGTGCCGACGCCGCCTGCCTGACCCACGGACATCCCTCAGCCCGGCAGAGTGCGGGCAGTTTCAGCCTTTTGATCCACCGGCTGGTTTCCGGCGACAGCCTTCGCGCGGCGGCCGACGCGGTCCTCGCCGGGGTACACAGCATTGACGGAGTGGCCCCCGAACTGGTGCAGAGGCTGGAGGCAGCTGTGCGCCTTGGCCGCTCGGCGGTACTGTCCCCCGAGGACCTGGTGATGGAACTGGGCGAAGGCTGGGTCGCCGAGGAGGCACTCGCCGTCGGGCTTTACGCCGTACTGGTGACCGACCCAGCGCGGGATGCCGGGCCTGCCAACGAGGCTGGCACGGGGAACAATACGGACACTGCGAACAATTCGGACTCTGTCCTCCCCACTGCCGATCCCCGGGAGCATTTCCGGGCCGCCATGGCGGTAGCCATCAACCACAGCGGGGACAGCGACTCCACGGGATCCATCGCCGGAAATATCCTGGGAGCGTACTACGGCGAGCCGTGCCTGCCGGCGCCGTGGCTGGACGCACTTGAGGCCCAGGACGTCATCCGCGGAATGGCTGATTTGCTGGCAGGGGTTACGACCGCCTGA	MLAGSTLGAGSGGAHRHGKFTVMSTDPGPFGVPQLASRIHGCLLGGALGDSLGYAVEFDSIETIRRRFGADGLTDFSALDGSSHFSDDTQMTLYTVDGLVEAIEWANSGVGADVNACLWLAYLRWLATQGEAAPLSAPVPQPRWIDAQEALKHRRAPGNACLTGLATGEMGTTFRPVNPQSKGCGTVMRSAPFGLIPHITPDAVYKLSADAACLTHGHPSARQSAGSFSLLIHRLVSGDSLRAAADAVLAGVHSIDGVAPELVQRLEAAVRLGRSAVLSPEDLVMELGEGWVAEEALAVGLYAVLVTDPARDAGPANEAGTGNNTDTANNSDSVLPTADPREHFRAAMAVAINHSGDSDSTGSIAGNILGAYYGEPCLPAPWLDALEAQDVIRGMADLLAGVTTA	PGPT0001065_95	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001065-draG-K05521	NA	NA
D1-29_03078	471			hypothetical protein	GTGTTTGCGTTCCCCAACCCGGTCAACGAATACGCTGCCCGGATCACGGCAGGGCTGGTGGTGCTGCTCGCTGTCGCTACGCTGCTGGCAGGCTCTGGCTGGGGCCTGCTGGTGATCGCCGCGGGATTCTGGCTGCGGGTGCTGTTTGGGCCACGGATATCGCCGCTGGCGCTGCTTTCGGTCAAAGTCCTGGCTCCCCGCCTGGGGCCGGCAAAGCTTGTTCCCGGACCGCCCAAGCGCTTCGCCCAGGGATTGGGCGCTTTTGTTTCCACCACCGCCCTGGTTCTGTTCCTTGCCGGCGCCGCTCCTGCGGCGTGGGCCGTCCTGGCTGTGCTGGTCGCGGCGGCATCACTGGAGGCGTTTGCCGGATTCTGCCTGGGCTGCGTCATCTTCGGGTTGCTTCAGCGCCGCGGCCTCATTCCTGAGGACATTTGCGAGGCATGCAACAACATTCCGCTCAGGCGGTCGTAA	MFAFPNPVNEYAARITAGLVVLLAVATLLAGSGWGLLVIAAGFWLRVLFGPRISPLALLSVKVLAPRLGPAKLVPGPPKRFAQGLGAFVSTTALVLFLAGAAPAAWAVLAVLVAAASLEAFAGFCLGCVIFGLLQRRGLIPEDICEACNNIPLRRS				NA	NA	NA	NA	NA
D1-29_03079	1029	dinG_2		3'-5' exonuclease DinG	GTGTGGCGCGTGAGTTTGGACTTTACGGCGATCGACTTCGAGACTGCCAACGGCTTCCGAGGTTCGCCGTGCGCGGTGGGCCTTACAAAGGTACGTGGCGGGCAGGTGGTGGAGGAGGCGTCCTGGCTGATGCGCCCGCCCCGTAACCATGATCACTTTGACCACCACAACGTGAGGATCCACGGCATCCGTGCCCTGGATGTTGCAGGGCTTCCCCGATTCGGCGAGCTTTTTCCCGAAATCGGCGCCTTCATCGGTGATGACATCCTGGCCGCCCACAATGCCGCTTTTGACATGGGTGTCATCCGCTCCGGCCTTGAAGTTTCCGGCCTGCCCGGCCCGGCCTACGACTACGTCTGTACCGTGATGCTTTCCCGGCGCTGCTATTCCCTGGTTTCCAATTCCTTACCGTTTGCGGCAGAGGAAGCGGGAGTCCCGCTGGTCAACCATCACGATGCCGCCGAGGACGCGCGCGCCTGTGCCGGCATCCTGATCGACATCGCGTCGCGCAACGGCGCCAACAGCATCGCGGAGCTCTACCTGTCGCTGGGACTCTCCTTGCCCCATCAGCAGGCGTTCGATCCGGCAACGGAACCCCTGTCCAAATCAAGCCTCACAGCCATCGCCGGTGCCTCTCTTTCCGGCGGGTCCGGTGGGGCGTTGGTCCAGGGCTTCCGCTCCGGCTGGCCCGAGGAGGGAGCCAATCCCGTTCCCAATGCTGATGCCGAACCGGACCACCCGCTGTACGGCCAGACCGTCGTCTTCACGGGCCAGCTCGCCATGGGGCGGCCGCAGGCAAAGGTCCTCTCGGCGGAATTGGGCGCCCGGCCTGAAAGCCGGGTGACAGCCCGCACTACGGTGCTGGTGGTCGGAGACGGCTTTGTGGCATCTGACCTCCGCTCCGGCAGGCTGACAGGTAAGGCGCGGCGCGTCCTGGAGCTCCATGACCGCGGCCAGCTGATCGAGGTGCTGTCCGAAGGGGAGTTCCTGCAGATGGTGGGCGGTTACACGGCAGCGGCCAGTGCCTAG	MWRVSLDFTAIDFETANGFRGSPCAVGLTKVRGGQVVEEASWLMRPPRNHDHFDHHNVRIHGIRALDVAGLPRFGELFPEIGAFIGDDILAAHNAAFDMGVIRSGLEVSGLPGPAYDYVCTVMLSRRCYSLVSNSLPFAAEEAGVPLVNHHDAAEDARACAGILIDIASRNGANSIAELYLSLGLSLPHQQAFDPATEPLSKSSLTAIAGASLSGGSGGALVQGFRSGWPEEGANPVPNADAEPDHPLYGQTVVFTGQLAMGRPQAKVLSAELGARPESRVTARTTVLVVGDGFVASDLRSGRLTGKARRVLELHDRGQLIEVLSEGEFLQMVGGYTAAASA				NA	NA	NA	NA	NA
D1-29_03080	792		COG0586	putative membrane protein	GTGAACCTTCTTGCGATCAGTGACTTTGCCGTGCCCATGCTGGGCGGTGCGGGACCGGTCCAGCCACCGCTGGCCTCCTTCCTGCCCGACTGGCTGAACCCTCAAATTTTCCTTGCTGACCCAGCATTGGCCCCCTGGGTTGTGCTGCTGGTCTGCGGCATCGTCTTTGCCGAAACAGGCCTGCTGGTGGGCTTCTTCCTGCCGGGCGATTCGATGCTGTTCACGGCAGGACTGCTGGTTGCCACCGACACCATCAAGTTCAATGTCTGGCTGTTCTCGCTGCTGATTATTGTCGCGGCTATCATCGGCAACCAGACCGGCTACCTGATCGGGTCCAAGGCCGGCCCGGCCATCTTCAACAAGCCGAATTCCCGGCTGTTCAAGCGGGAAAACGTTGAAAATGCCCATGCTTTCTTCGAAAAGCACGGCGGCAAGGCGCTGATCCTCGCCCGCTTCGTCCCCATCATCCGCACGTTTGTGCCGGTCATCGTGGGCGTTGCCCAGATGAACAAGAAGAAGTTCTTCCTCTTCAACGTGATCGGCGCAGTCCTCTGGGGCGGCGGCGTCACGCTCCTCGGTTACCTTTTGGGCGACAGGATTCCCTGGGTCCGCGAGAACCTGGACATCATCTTCATCGTCATCGTGCTGGTCTCGGTGATTCCCATCGGCATTGAAGTGCTCCGGGGAATCTCGGCCAAGCGCCAGGCGACTGCCTTTGGAACCGATCCCGTTGATGAGTTCATCGAGGAACATGCTCCTGAGGACGAGCGGAAGACGAACCCCAAGCACTAA	MNLLAISDFAVPMLGGAGPVQPPLASFLPDWLNPQIFLADPALAPWVVLLVCGIVFAETGLLVGFFLPGDSMLFTAGLLVATDTIKFNVWLFSLLIIVAAIIGNQTGYLIGSKAGPAIFNKPNSRLFKRENVENAHAFFEKHGGKALILARFVPIIRTFVPVIVGVAQMNKKKFFLFNVIGAVLWGGGVTLLGYLLGDRIPWVRENLDIIFIVIVLVSVIPIGIEVLRGISAKRQATAFGTDPVDEFIEEHAPEDERKTNPKH	PGPT0004890_147	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975	NA	NA
D1-29_03081	678		COG0127	dITP/XTP pyrophosphatase	GTGAGCCTGCCGGATCCCGGAACCGCTGGGCAGGGCGGGGCGGCTCCCCGTCTGGTCCTGGCAACCCACAACAAGGGCAAACTGAAGGAGCTGCGGGAGATCCTCCGCGGGCAGGTCCCCGGACTCGACGTAGACACCCAGGTGGTGGATGCCGCCGCGGCGGGTGCGCCGGACGTCGTCGAGACAGGAATCACCTTCGCCGAGAATTCGCTGTTAAAGGCACGCGCGGTTGCCGCCGCCACCGGACTGGTGGCCATCGCTGACGATTCAGGGCTGGCCGTGGACGTCCTGGGCGGCGCCCCGGGCATTTTCTCCGCAAGATGGGCCGGAAGGCACGGTGATGACGCAGCCAACCTCAGGCTCCTGCTGGACCAGCTCTCCGATGTGCCGGATGAGCACCGCGGTGCCGCCTTTGTCTGCGCCGCGGCGCTCGCCGTTCCAGGGGAGGTGGATGGCGGGGAACGCCGTGAAGTGGTGGAGTACGGCCAGCTTGAAGGCGTCCTCCTGCGCGAACCGCGGGGCGACGGCGGTTTTGGCTACGACCCCGTGCTGCAGCCGGCAGGTGAGGCCCGCAGTTGCGCCGAACTGTCGCCCGCTGAGAAGAACGCCATCAGCCACCGTGGAAAGGCCTTCAGGGCGCTGCTCCCGGCGATCGTCGAGGCACTGGGCGGGCGCTGA	MSLPDPGTAGQGGAAPRLVLATHNKGKLKELREILRGQVPGLDVDTQVVDAAAAGAPDVVETGITFAENSLLKARAVAAATGLVAIADDSGLAVDVLGGAPGIFSARWAGRHGDDAANLRLLLDQLSDVPDEHRGAAFVCAAALAVPGEVDGGERREVVEYGQLEGVLLREPRGDGGFGYDPVLQPAGEARSCAELSPAEKNAISHRGKAFRALLPAIVEALGGR	PGPT0021590_1201	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
D1-29_03082	759	rph	COG0689	Ribonuclease PH	ATGACTTCTGAAGCAACCGCAGTTCCTGTCGTGCGCGCGGACGGCCGCGCTCCCGACCAGCTCCGTCCCATCAGCATCACCCGCGGATGGTCCAAGCAGGCCGAAGGATCGGCCCTGATCGAGTTCGGCAACACCCGGGTGCTGTGCACGGCTTCCCTCACCGCGGGTGTGCCCCGCTGGCTCAAAGGCGAAGGCCGCGGCTGGGTCACAGCTGAATACGCCATGCTGCCGCGTGCCACCAACACCCGTTCGGACCGTGAATCAGTCAAGGGGAAAATCGGCGGCCGCACCCATGAGATCTCCCGGCTGATCGGCCGTTCGCTGCGCTCCATTATTGACACCAAGGCCTTGGGCGAGAACACGATAGTGCTGGACTGCGATGTCCTCCAGGCCGACGGCGGTACGCGCACAGCCGCGATCACCGGGGCCTACGTTGCCCTCGCCGACGCCATCCGGTTTGCCCGGGACAACAAGCTGATCGCCAAGAACGCCCAGCCCCTGGTGGACACCATTGCCGCCGTATCGGTGGGCATCATCGACGGCATCCCCATGCTGGACCTGCCGTATGTTGAGGACGTCCGGGCCGAGACCGACATGAACGTCGTCGTCACGGGGTCGGGGAAGTTCGTGGAGGTCCAGGGCACCGCCGAGGGCGCACCGTTCGACCGTGATGAACTGAATAAGCTGCTGGATCTTGCGCTGCTGGGAACCACCCAGCTGGCCGCCATTCAGCGTGAGACGCTCGCGGACGCCCTGTGA	MTSEATAVPVVRADGRAPDQLRPISITRGWSKQAEGSALIEFGNTRVLCTASLTAGVPRWLKGEGRGWVTAEYAMLPRATNTRSDRESVKGKIGGRTHEISRLIGRSLRSIIDTKALGENTIVLDCDVLQADGGTRTAAITGAYVALADAIRFARDNKLIAKNAQPLVDTIAAVSVGIIDGIPMLDLPYVEDVRAETDMNVVVTGSGKFVEVQGTAEGAPFDRDELNKLLDLALLGTTQLAAIQRETLADAL	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
D1-29_03083	798		COG1234	putative protein	GTGAAGCTCACCATCGTCGGCTGTACAGGTTCCTTCCCCGGCCCCGGCTCGCCGGCGTCGTGCTACCTCCTGACGGCCCACGACGGCGAGCGGACCTGGAAGATCGTGATGGACCTCGGCAGCGGTGCGCTGGGCGCGATCCAGCGCTACACCGATCTTGAAGACATCGACGCCATCTTCCTGACTCACCTGCATCCGGACCACTGCATGGACCTGTGCGGGCTCCACGTTGCGGTGCGCTGGAAGCCCGGCGGATGGGGCCGCGGCCGAATCCCGGTCTGGGGACCGGCGGCGACGGCAGACCGGATGGCAACGGCGTACGGACTGGAACTGGATCCGGGCATGCATGAGGAATTCGACTTCACCAACTGGACCGAGAGGGAGTCCGTGAAGCTGGGACCGTTCACCGTGACTCCGTTTGCCGTCAACCATCCGGTGGAGGAGGCCTATGCCCTCCGGGTGGAGGCCACCGAACCGGATAAGGAGGGCAACCTGGTCTCACGGGTCCTGACGTACTCAGGGGACACTGACTCCTGTGCCGGGCTGGAGGAAGCCGCCAAGGACGCGGACCTGTTCCTCTGTGAAGCTGCCTTTGAGGAAGGCCGGGACGACGGCATCAAGGACGTGCACCTGACCGGAAAAAGGGCCGGTGAGGCGGCTGCCGTGGCCGGAGCCCGGCGGCTTCTGCTGACCCACATTCCCGTCTGGACTTCCCAGACAAAAGTCATGGCCGAGGCGAGGCCGGTTTTCGGCGGCGACGTGGCGGTCGCCGTGGCCGGGGTGCATTACACCATTTAG	MKLTIVGCTGSFPGPGSPASCYLLTAHDGERTWKIVMDLGSGALGAIQRYTDLEDIDAIFLTHLHPDHCMDLCGLHVAVRWKPGGWGRGRIPVWGPAATADRMATAYGLELDPGMHEEFDFTNWTERESVKLGPFTVTPFAVNHPVEEAYALRVEATEPDKEGNLVSRVLTYSGDTDSCAGLEEAAKDADLFLCEAAFEEGRDDGIKDVHLTGKRAGEAAAVAGARRLLLTHIPVWTSQTKVMAEARPVFGGDVAVAVAGVHYTI				NA	NA	NA	NA	NA
D1-29_03084	1068	murI		Glutamate racemase	ATGGCTGAGGGGTCCGGGAAGACCTATCCTCGAATAATCATGACAACAGCCTCGAGCATGGACCCGTCAGCAGCAGCTGCATCCGGGTCCCCAGCCAGCACCACCCCCGGCGGTCTCCTGGGATCCCGGCCCATCGGCGTCTTTGATTCCGGCGTGGGCGGACTGACAGTGGCACGGTCCATCATCGACCAGCTCCCCAACGAGTCCATCCTGTACGTCGGGGATACGGCGCACGGGCCGTACGGACCGCTGCCGATCGCCGAAGTCCGGGCGAACGCCCTTGGTGTGATGGACGAACTCGTGGATTCCGGCGTTAAGCTGCTCACCATAGCCTGCAATTCGGCGTCGGCCGCTGTCCTCCGTGATGCCCGCGAGCGGTATACGGCACGGTACGGAATTCCTGTCATCGAGGTGATCCAGCCAGCCGTCAGGCGTGCCGTGGCGGCCACACGCAGCGGCAGGATCGGCGTCATAGGCACGTCCGCGACGGTGGGCTCCCGGGCCTATGAGGATACTTTCGCGGCCGCGCCTGACCTGGACATCACCTCCGTTGCCTGTCCTGAATTCGTCAGCTATGTGGAGGCCGGCATCACCACGGGGCCGGCGCTGCTGGCTGTCGCGGAGGAATACCTGGCCCCGCTGAAGACTGCGGGGGTGGATACTCTGGTGCTGGGCTGCACACACTATCCATTGCTCACCGGTGTCATCTCCTACGTCATGGGCGAGGACGTCACCCTGGTTTCGAGCGCCGAGGAAACGGCCAAGGATGTGTACCGTGCCCTGGCCACCCACGATCTTCAGCGGACAACGCCAACACCGCCGGAGCACCACTTCATCGCTACCGGTGACGCCGGCCAATTCGAGGCATTGGCCCGCCGTTTCCTGGGACCTGAGGTCCTGTCTGTGCGCCACGTTGATCATGTGGCCGCGCAGTACCCCACTGGCAGCCTGGCCAGGATCACCCCCGAGATGATTGCCGCCGCGCAGGGGGCCTCGGCGGCACGCGCCACGCCGCGGCCCCGGATCTCCAATTTTGTGGGCAACGGAACCGGAGGTTCCGGCCTGTGA	MAEGSGKTYPRIIMTTASSMDPSAAAASGSPASTTPGGLLGSRPIGVFDSGVGGLTVARSIIDQLPNESILYVGDTAHGPYGPLPIAEVRANALGVMDELVDSGVKLLTIACNSASAAVLRDARERYTARYGIPVIEVIQPAVRRAVAATRSGRIGVIGTSATVGSRAYEDTFAAAPDLDITSVACPEFVSYVEAGITTGPALLAVAEEYLAPLKTAGVDTLVLGCTHYPLLTGVISYVMGEDVTLVSSAEETAKDVYRALATHDLQRTTPTPPEHHFIATGDAGQFEALARRFLGPEVLSVRHVDHVAAQYPTGSLARITPEMIAAAQGASAARATPRPRISNFVGNGTGGSGL	PGPT0020200_24	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020200-murI-K01776	NA	NA
D1-29_03085	567			hypothetical protein	GTGGCTAAGGCATTCAAGTACGGACTCAAAGGCATCACAGGGTTCCTGGAGCCAGCCGAGCGCGAACTCCTCCGCAGCCTGATTGATGACGTCATCTCCATGCTTGAGCCGGAGGAACGGGCCAACCAGGATCCGCTGGCGGCAATGATCGGGCTGGACATGGACGTCCGTGAGCCCACGGACCGCGCCGTGAAGCGGCTCCTGCCCAACGTCATGAAAAACGACGACGGCGCGTCGCTGGAGTTCCGCCAGCTCACCGAGCGAGCGCTGCGCGAGACAAAGATCGGCGCCCTGCGGGCGGCCGCACTGGATCTTGACAAGGACGAAATCGTGCTGACTCCGGAAGGCGCCCGGCACTGGTCCATGGCGCTGAACGACGTCCGCCTGGTGCTGGCCGAGCGGCTGGACATCCGGGACGAGGAGGACGCCGAACACGTCCACCTGATGCAGGACTGGTCCCAGGCGGAGGACGTGGAGAGCTACCTCGCCCTGGTCTACAACTTCGCCACGTGGCTGCAGGAATCGCTGGTCCAGGCGATGCTCACGTCCATGGACGCCAGGGCGTAA	MAKAFKYGLKGITGFLEPAERELLRSLIDDVISMLEPEERANQDPLAAMIGLDMDVREPTDRAVKRLLPNVMKNDDGASLEFRQLTERALRETKIGALRAAALDLDKDEIVLTPEGARHWSMALNDVRLVLAERLDIRDEEDAEHVHLMQDWSQAEDVESYLALVYNFATWLQESLVQAMLTSMDARA				NA	NA	NA	NA	NA
D1-29_03086	384	clpS		ATP-dependent Clp protease adapter protein ClpS	ATGACTTCAAGCGTTGCGCTCGGCCCTGAGACCCAGGAGGGCACCCGGACCGGAACAGAAACGTCCCAGGGTTCCCTGACCGCACCGGACATCCCGTGGAACCTGGTGATCTGGAACGATCCCGTAAACCTGATGAGTTACGTCAGCTACGTGTTCCAAAGCTATTTTGGCTACCCGGAGAGCAAGGCCAACAAGCTCATGATGGAAGTCCACAAGAAAGGCCGCTCCATTGTTGCCCACGGCAGCAAGGAGCAGGTTGAGCGGCACGCTGTCGCCATGCACGGCTTTGGCCTGTGGGCCACCGTTGAACAGGCAAGCGGCGGACGCGGCGGCAACCCGGGGAAACCGGGCGGCTCCGGGCAGGGCAAGGGAAAACGTGGCTAA	MTSSVALGPETQEGTRTGTETSQGSLTAPDIPWNLVIWNDPVNLMSYVSYVFQSYFGYPESKANKLMMEVHKKGRSIVAHGSKEQVERHAVAMHGFGLWATVEQASGGRGGNPGKPGGSGQGKGKRG				NA	NA	NA	NA	NA
D1-29_03087	1263	pncB1	COG1488	Nicotinate phosphoribosyltransferase pncB1	ATGCTGCAGGCGTCGCTTCATTCGGGCGCGGCGCACCGGAAATCCGTCTTCGAAGCTTTCACCCGGCGGCTGCCGGACGGGCGGCGGTATGGGATTGTTGCCGGAACGGGACGGCTGCTGGAAGGCATCGCCAGTTTCCGTTTTGGTGACAGCGAGCTGGAATTCCTTGAGCGGACCGGCGTAGTCAACCAGGACACGCTGGACTATCTGGCCGGTTACAGGTTCTCGGGGGACATCTGGGGATACCCCGAAGGCGAGGCGTACTTCCCCCACTCCCCCATCCTGATTGTGGAGTCGACGTTCGCCGAGGCCTGCATCCTGGAGACCTATCTGCTCTCGGTCCTGAACCATGACAGCGCCATCGCCTCGGCAGCCTCCCGGATGATTTCCGCAGCCGGCAACCGGCCATGTATTGAAATGGGTTCCCGCCGGACCCATGAGGAGGCGGCCCCGGCCGCCGCCCGCGCCGCTTTTATCGCCGGCTTCGACAGTACGTCCAACCTTGAGGCCGGCTTCCGGTATGGCATCAGGACAGTGGGCACGGCGGCGCACTCCTTCACGCTCCTGCACGACAGTGAGCAGGATGCCTTTGAGGCCCAGGTGGCCTCACTGGGCGCCGGGACGTCCCTCCTCGTGGACACGTACGACGTCGAAACGGCGGTCCGCGCGGCTGTGGACCTGGCAGGACCCAAGCTGGGGGCAGTACGCCTCGATTCCGGGGATCTCGTGGCGCAGGCCCAATGGGTCCGCCAACTGCTGGACGACCTGGGCAACGTGAACACCAAGATCGTCGTGACGTCTGACCTTGATGAATTCGCCATCGCAGCGCTGCAGTCCGCGCCCGTGGACTCCTACGGGGTGGGAACATCACTGGTGACCGGGTCCGGGGCACCCACCGCCAGTATGGTCTACAAGCTGGTCAGCCGCACCGACGGCGCCGGCAACTTCGTTTCGGTGGCGAAATCCGCCAAGAACAAGGCCAGCAAGGGCGGGCGCAAGTACGCCCTGCGCAGGCTCAATGAACACGGCATCGCAAGTGAGGAAATCGTAGGGATTGGGCACCGGCCCGAGGACGACGGCAACGACCGCCCGCTGCTGGAGCAATTCATGAAGAACGGCGAGCTGCTGCCGGGCTGGACCGGCCACGAGGGTGTGCTCCGCGCCCGTCAGCGGCACGCCGACACCATGGCCGAACTGCCGCCGGTGGTCAACCGGCTCCAGCGCGGCGAGCCCGCCATCCCCACCACTTATGAGGAGAACTAA	MLQASLHSGAAHRKSVFEAFTRRLPDGRRYGIVAGTGRLLEGIASFRFGDSELEFLERTGVVNQDTLDYLAGYRFSGDIWGYPEGEAYFPHSPILIVESTFAEACILETYLLSVLNHDSAIASAASRMISAAGNRPCIEMGSRRTHEEAAPAAARAAFIAGFDSTSNLEAGFRYGIRTVGTAAHSFTLLHDSEQDAFEAQVASLGAGTSLLVDTYDVETAVRAAVDLAGPKLGAVRLDSGDLVAQAQWVRQLLDDLGNVNTKIVVTSDLDEFAIAALQSAPVDSYGVGTSLVTGSGAPTASMVYKLVSRTDGAGNFVSVAKSAKNKASKGGRKYALRRLNEHGIASEEIVGIGHRPEDDGNDRPLLEQFMKNGELLPGWTGHEGVLRARQRHADTMAELPPVVNRLQRGEPAIPTTYEEN	PGPT0013375_2379	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763	NA	NA
D1-29_03088	639	pncA	COG1335	Nicotinamidase/pyrazinamidase	ATGTCCCGGGCCCTGATCATCGTTGACGTCCAGAACGACTTTTGCGAAGGCGGTTCCCTTGCCGTTGCCGGCGGCGCCCACGTCGCCGGGGCAATCAGCGACTACGTCGACGCCCACCATCTTGAATTCGACCACATTGTTGCCACCCAGGACTGGCACATTGATCCCGGTGCGCACTTCTCGGACTTCCCCGACTTCAAGGACAGCTGGCCCCCGCACTGCGTGGCCGGAACCCGTGGCGCTGAACTCCATCCGGACCTGGACACCGAATACATCCAGGCCTATTTCCAGAAGGGACAGTTCGCGGCAGCCTACTCTGGATTCGAAGGCCTTCTGGCCCCTGAGGACGCCGTTCCCACCGGAGAGCGCCAGCCTGCGGCGGTCGCTGACGATATCAGCCCCGATAATTTCCCGCCCTCGGACGAAGCGATCGGCCTTGATGACTGGCTCCAGAGCCACGACGTCGAGGACGTTGTGGTGGTGGGGATCGCCACGGACTACTGCGTGATGGCCACATCCCTGGACGCCGTGCAGGCGGGCTACTCCGTCACTGTCATCCGCTCGCTCACCGCCGGAATCGCGGACGACCTGGAAGACGCTGTTGCCGAGATGGAGCTGGGCGGAGTCGACGTCCTCTGA	MSRALIIVDVQNDFCEGGSLAVAGGAHVAGAISDYVDAHHLEFDHIVATQDWHIDPGAHFSDFPDFKDSWPPHCVAGTRGAELHPDLDTEYIQAYFQKGQFAAAYSGFEGLLAPEDAVPTGERQPAAVADDISPDNFPPSDEAIGLDDWLQSHDVEDVVVVGIATDYCVMATSLDAVQAGYSVTVIRSLTAGIADDLEDAVAEMELGGVDVL	PGPT0013470_612	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013470-pncA-K08281	NA	NA
D1-29_03089	1794			hypothetical protein	GTGACGGAAACACTCTTTGGCGGTCCCACCCTGCCTCCGGCCTATCCGGAACGCGCAGCCTGGGGAACCGCCCAGAAACTCCGTGCCTGGCAGCAGCAAGCGCTTGACCTCTACTTCCGGACCAGTCCCAGGGATTTCCTTGCAGTGGCGACGCCCGGGGCCGGCAAGACCACCTTCGCGTTGCGTGTTGCCTCCATGCTCATCGAATCCGGTGCCGTCAACAGGGTGACCATCGTCGCCCCCACCGATCACCTCAAAAGGCAATGGGCAGACGCTGCGGCCCGTGTGGGAATCGCCATCGATCCCAACTTCAAGAACTCCGACGGGCAGCACGGCCGCGGGTTTGTGGGAGTTGCTGTGACGTACGCGCAGGTTGCAAGCAAACCCCTGCTGCACCGTGCCAAGACTGAAGCTGCCCGCACCCTGGTGATCCTTGACGAGATCCATCACGGCGGCGAGGCACTGTCCTGGGGCGACGGACTTCGCGAGGCCTTCGATCCGGCCATTCGGCGCCTGTCCCTGACAGGTACCCCGTTCCGCTCTGATACCTCACCCATTCCCTTTGTGGAGTACGCGGAGGACCGGGACGGCATCCGGCGCTCCAAAGCCGATTACACCTACGGCTACGGCAACGCCCTCCGGGACCACGTGGTGCGTCCGGTGATGTTTATGGCTTATTCGGGCCAGATGCGCTGGCGTACCAGTGCTGGGGAGGAGATGGCGGCATCCCTCGGTGAAGCCGCGGTGACCAAGGACGTCACGTCGCAGGCGTGGCGGACGGCCCTGAATCCTACCGGAGAGTGGATTCCCGCTGTCCTGGCCGGTGCCGACAAGCGTCTCAGTGAGGTCCGCCGGACCGTCCCCGACGCCGGCGGCCTGGTCATCGCCACGGACCACGATGATGCCAGGGCCTACGCGGGCCAGCTGAAAAGGATCACCGGTGAATCACCCACCGTCATCCTTTCCGATGACGCGAAAGCCTCCAGCAAGATCGAGGAGTTCACGGCAAGCGAGAAACGCTGGATGGTGGCCGTCCGGATGGTGTCCGAAGGCGTCGACGTTCCCCGGCTGTCCGTGGGCGTCTATGCCACCTCCACCTCCACGCCGCTGTTCTTCGCCCAGGCAGTGGGCCGCTTTGTGCGTGCCCGCAAGCGGGGTGAAACGGCGTCTGTCTTCCTGCCGTCGGTGCCGCAGCTGATGGCTTTGGCCAACTCCATGGAGGCCGAGCGGGACCACGCATTGGACCGGCCGGAGAAAGAGGACGGCGACGGCCTTTTCAACCCCGAAGACTCGCTGATGGCCGAGGCCAACCGCGAAGACAAGGCCTCGGACAGCCTCACCAAGGGAAAATTCGAGGCCCTGGATTCGCAGGCATCGTTCGACCGGGTACTTTTCGACGGCGGCGAGTTCGGCACCGGGGGAGAAGTGGGCTCAGAGGATGAGCTGGATTTCCTCGGGATCCCCGGCCTGCTTGACGCCGAACAGGTGGGAACCCTCCTTCGCCAGCGCCAGCACGAGCAGCTGAACAGGAAGAACCGCAGGACACCACCGGCCTCGGCTGACGCTGCCCCCGGTGCAGCACCTGGCATACCCGACCACCGGATGCTGATGGACCTGCGCAATGAGCTGGCCAAGAATGTTGCGGCCTGGTCCGCCCGGACAGGAACCCCGCATGGCGTCGTCCACACGAAGCTCAGGACGGTCTGCGGCGGCCCCCCGGTGGCACAGGCAAACGAGGAGCAGCTGCAGTCCAGGCTGCGCAAGCTGCAGGACTGGTTTATCGGGCGGAAGTAA	MTETLFGGPTLPPAYPERAAWGTAQKLRAWQQQALDLYFRTSPRDFLAVATPGAGKTTFALRVASMLIESGAVNRVTIVAPTDHLKRQWADAAARVGIAIDPNFKNSDGQHGRGFVGVAVTYAQVASKPLLHRAKTEAARTLVILDEIHHGGEALSWGDGLREAFDPAIRRLSLTGTPFRSDTSPIPFVEYAEDRDGIRRSKADYTYGYGNALRDHVVRPVMFMAYSGQMRWRTSAGEEMAASLGEAAVTKDVTSQAWRTALNPTGEWIPAVLAGADKRLSEVRRTVPDAGGLVIATDHDDARAYAGQLKRITGESPTVILSDDAKASSKIEEFTASEKRWMVAVRMVSEGVDVPRLSVGVYATSTSTPLFFAQAVGRFVRARKRGETASVFLPSVPQLMALANSMEAERDHALDRPEKEDGDGLFNPEDSLMAEANREDKASDSLTKGKFEALDSQASFDRVLFDGGEFGTGGEVGSEDELDFLGIPGLLDAEQVGTLLRQRQHEQLNRKNRRTPPASADAAPGAAPGIPDHRMLMDLRNELAKNVAAWSARTGTPHGVVHTKLRTVCGGPPVAQANEEQLQSRLRKLQDWFIGRK				NA	NA	NA	NA	NA
D1-29_03090	342			hypothetical protein	ATGGATGCCATGACTAGCATGACGGACCCTCTCGAAAACGACCCAATGCGCGAGCTTTCCGGGGCTGGAACGTCCACGGCCACCATTGAGCGCGAGGAACTGCGCCAGGAAGTGGAGCCCGGCGACCGGGAACGCTTCTCGCACTACGTTCGCAAAGAAAAGATCATGGAATCCGCGCTGACGGGCGAGCCTGTCATTGCCCTGTGTGGCAAAGTGTGGACGCCGGGCCGGGATCCGCAGAAGTTCCCGGTCTGCCCGATGTGCAAAGAGGTTTATGACGGCCTCCGCCCGGGCAACGACGGCGGCAAGGGTCCCGGAGGGGACTCGGGCAACAACAAGTAG	MDAMTSMTDPLENDPMRELSGAGTSTATIEREELRQEVEPGDRERFSHYVRKEKIMESALTGEPVIALCGKVWTPGRDPQKFPVCPMCKEVYDGLRPGNDGGKGPGGDSGNNK				NA	NA	NA	NA	NA
D1-29_03091	783	nagB_2	COG0363	Glucosamine-6-phosphate deaminase	ATGGAAGTAGTTATCCTCCCTGGCGCCAGGCAGATCGGTCAGCTGGCAGCCGGGGCGATCGATGACCTGCTGCGGCGCAAGCCGCACGCGGTTTTGGGACTCGCCACCGGATCATCGCCGCTGCCCATCTACGACGAGCTGGCGGCGAGGCACGAACAGGACGGGCTGGATTTCGGCCAGGCGCACGCCTTTGCACTGGACGAATATGTCGGCCTGGAACCTGGCCACCCGGAATCCTATCGGGAGGTGATCCGCCGCGAGTTCACCAGCCGGGTCAACATTGCCCCGGAAAATGTCCACAGCCCGGACGGGACCGCCACGGACATCCTGGCAGCATGCAGCGCTTATGAGGAATCGATACAGGCCCTGGACGGCGTGGATCTCCAGATCCTGGGCGTCGGAACCGATGGCCACATCGGTTTCAACGAGCCTGGTTCGTCCTTGGCTTCCCGGACCCGCATCAAGAGCCTGATCGAGCAGACCCGGCGGGACAACGCCCGCTTCTTCAAGAGCATCGCCGACGTCCCACACCACGTGGTGACCCAGGGCCTGGGAACCATCATGGAGGCCAGGCACGTGGTCCTTGTGGCTACCGGGGCGCAGAAGGCGCAGGCAGTCCGCGACTTCGTGGAAGGACCGGTGTCAGCCATCTGCCCGGCTTCGGTCCTGCAGTTCCATCCGCACGCCACCGTCCTGCTTGATGAGGCGGCGGCGTCGTCCCTAAAACTGGCGGACTTTTACCGCCACACGTACGACAACAAACCGTCCTGGCAAGGGCTTTAG	MEVVILPGARQIGQLAAGAIDDLLRRKPHAVLGLATGSSPLPIYDELAARHEQDGLDFGQAHAFALDEYVGLEPGHPESYREVIRREFTSRVNIAPENVHSPDGTATDILAACSAYEESIQALDGVDLQILGVGTDGHIGFNEPGSSLASRTRIKSLIEQTRRDNARFFKSIADVPHHVVTQGLGTIMEARHVVLVATGAQKAQAVRDFVEGPVSAICPASVLQFHPHATVLLDEAAASSLKLADFYRHTYDNKPSWQGL	PGPT0018865_1739	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
D1-29_03092	1572			hypothetical protein	ATGGTTGCGCACCTTCTAAGGCTCAAGCTGACCCTGCTCCATAACGGACTGAGGCGCAGTCCCTGGCAGCTGGTGGGCATGGCCTTCGGCGGGCTCTACGCGCTGGGACTGGTGGCCGCGCTGGTGGTGGCCCTGGTGGTGCTCCGCGGCGAAGACCCCGGGCTCGCCCACACCATCGTGGTGCTGGGCGGTTCGGCGGCGGTCCTGGGCTGGGGCATCATCCCGCTTGTAGCCTCGGCGGCGGACATGACTTTGGACCCGGCCCGTTTTACCACCTCAGCCATCCCGATGCGGGAGCTTTTGGCCGGCCTGGCCCTCGGAGGTCTGATAGGCATCCCCGGGCTGGCCACGGCGCTGGTGGCGCTTGCCACCGTGTGGACCTGGTCCCGCGGCCCCCTGCCCGCCATTGCGGCACTGGTGGGTGCCGCAGCCGGCGTCCTCACCTGCATCGTCCTGTCTAAGGTGGTGACCACAGCAACAGCCAGCCTTGCCGCCTCCCGCCGCTTCAAAGACGTCAGCGCCATCGTCTTTATGGTTCCGCTGGTCCTGATGGGCCCCATCGTGGCAGGAGTAACGCAGGGGATCGCCGCCTCTGCAGGCTTCCTTCAGGAGCTCGCCGGGACCCTGTCGTGGTCACCTCTCGGCGCGGCCTGGTCCCTGGGTGGAGACGTTGCCCTGGGACGGCCGGCTGATGCTGTGGCCAAGCTGTTCATCGCCGCTGCCACCCTGGCCGGGCTTTCCCTGTGCTGGAAACTCCTCCTGGAGCGGGCCCTTGTCAACCCGTCCTACTCCGGAAGCGGAAGCCGGAAGGGCGGGAAAATGGGGCTGTTCGCCCTCCTCCCCGCTACCCCTGCCGGGGCAGTGACCGCCAGGTGCCTCACCTATTGGATCCGGGATCCGCGGTACGCAGGGTCCCTGGTGGTCATCCCGTTGCTGCCCGTCCTGCTGTTGTTCCAGGGAAGCCAAACCGGTGACTACGGGAGCCTGGCCTTTGCAGCTCCCTTGGCTGCCTTCCTGCTTGCCTGGTCCATTTCGGCCGATGTCTCTTACGACAGCACGGCCTTTGCCCTGCACGTGGCCACGGGAGTGCGTGGCGTGCACGACAGGCTTGGCCGGGCCTTGGCCTGCCTGGCTTTCGCGCTGCCAGTGGTACTGATTTTCGCCGTCGGCCAGTTTGCGTTCACCGGCGCGTGGGAGGGACTGCCAGGACAGCTGGGCATGAGCCTGGGAATCCTGTTTACCGGGCTCGGCCTCTCATCAGTGGTATCTGCCCGCTACACCGTGGCGGTTCCGTTGCCAGGGGACAGCCCTTTCAAGAAGCCGCCGGGCAGCGTGGGGCAGACCATGGCCGTTCAGTTTGCCGGGATGGGAATCCTGGCACTCCTGGTCCTGCCGGAAGCTGCGCTCCTTGTCGCCCAATGGGTGACCGGCAACCCCCTGTTCGGATGGATCAACCTTGCAGCGGGCCTGATCCTCGGACTGGTGATTTTTGTGGCCGGCGTCAGGGTTGGGGGAAGATGGCTTGACGCCCGCGGGCCTGAGCTGCTGGCCCAGCTTGTTGTTAACCGCTGA	MVAHLLRLKLTLLHNGLRRSPWQLVGMAFGGLYALGLVAALVVALVVLRGEDPGLAHTIVVLGGSAAVLGWGIIPLVASAADMTLDPARFTTSAIPMRELLAGLALGGLIGIPGLATALVALATVWTWSRGPLPAIAALVGAAAGVLTCIVLSKVVTTATASLAASRRFKDVSAIVFMVPLVLMGPIVAGVTQGIAASAGFLQELAGTLSWSPLGAAWSLGGDVALGRPADAVAKLFIAAATLAGLSLCWKLLLERALVNPSYSGSGSRKGGKMGLFALLPATPAGAVTARCLTYWIRDPRYAGSLVVIPLLPVLLLFQGSQTGDYGSLAFAAPLAAFLLAWSISADVSYDSTAFALHVATGVRGVHDRLGRALACLAFALPVVLIFAVGQFAFTGAWEGLPGQLGMSLGILFTGLGLSSVVSARYTVAVPLPGDSPFKKPPGSVGQTMAVQFAGMGILALLVLPEAALLVAQWVTGNPLFGWINLAAGLILGLVIFVAGVRVGGRWLDARGPELLAQLVVNR	PGPT0006730_1530	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-29_03093	795	drrA_2		Daunorubicin/doxorubicin resistance ATP-binding protein DrrA	ATGACTGCTCCGCATCCTGATCCGGTGGTGGGCGCCGGCCCTGTTCCCGCCCTCTCCATCCGTGGCCTCGCCAAAAGATTCGGCGGAAAGATCGCCGTCGACGGCCTCAGCCTGGACGTGCCTTCGGGATCCTTTTATGGAATCGTGGGCCCCAACGGCGCCGGCAAGACCACCACCCTCTCCATGGCAACCGGGCTGCTGCGTCCGGACTTCGGCACCGCCGTCGTTCACGGCGTGGATGTCTGGGCCCGGCCGCTGGAAGCCAAGAAGCTCATGGGCATCCTCCCTGACGGGGTCCGGCTCTTTGACCGGCTGACCGGGGAACAGCTGGTGACCTATGCTGGGCTGCTCCGCGGGATGGACAAGGACGTTGTGTCTGCCCGTGTGCCGGAACTCCTGGCGGCGCTGGATCTGGGCAAGGATGCGGGCACGCTCGTGGTGGACTACTCGGCAGGCATGACCAAAAAGATCGCGCTCGCGTCGGCCCTGATCCACGCTCCCCGCGTCCTGGTTCTGGATGAGCCCTTCGAATCGGTGGACCCCGTGTCGGCCTCGAATATCCGTGCCATCCTGGAGCGGTATGTGGCATCGGGCGGCACCGTCATAGTCTCCAGCCACGTCATGGACCTTGTCCAGCGTATGTGCGACCATGTGGCAGTAGTGGCTTCCGGACGGCTGCTGGCCGCCGGGACCGTGGATGAAGTGCGGGCGGGGGCCTCCCTTGAGGACAGGTTCGTCCAGCTTGTCGGCGGACGGACTGACGCGGAAGGCCTGGAATGGTTGCGCACCTTCTAA	MTAPHPDPVVGAGPVPALSIRGLAKRFGGKIAVDGLSLDVPSGSFYGIVGPNGAGKTTTLSMATGLLRPDFGTAVVHGVDVWARPLEAKKLMGILPDGVRLFDRLTGEQLVTYAGLLRGMDKDVVSARVPELLAALDLGKDAGTLVVDYSAGMTKKIALASALIHAPRVLVLDEPFESVDPVSASNIRAILERYVASGGTVIVSSHVMDLVQRMCDHVAVVASGRLLAAGTVDEVRAGASLEDRFVQLVGGRTDAEGLEWLRTF	PGPT0006725_21164	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-29_03094	1098	namA	COG1902	NADPH dehydrogenase	GTGCCGGCGCTTTTCCAGCCGCTGAAGCTCCGGCAGCTGGAGCTCCCGCACCGCGGATGGGTCTCACCCATGTGCCAGTACAGCTGCGACCCCGACGACGGCCCCGGGGTGCCCAACGACTGGCACCTGATGCATTTGGGATCCTTCGCCGTGGGCGGTGCCGCCCTGATCCTGACCGAAGCGGCAGCCGTGAATGCCGAAGGACGGATCAGTCCCCGCGACGCGGGCCTCTACAGTGATGAACAGGCCGAGGCCTGGCAACGGATCACCTCATTCGTGCATAAGCACGGCGCCGTTAACGTGAGCATTGGTGCCCAGCTGGCCCACGCCGGCCGCAAAGCCTCCACGTACTGGCCATTTTCCGGGAAACGCGGCAGCGTGCCGGCGGCCGACGGCGGCTGGTCCACGGTGGGGCCGGTGCCCGCAGCATTTGACGGGTATGCCGAGCCCCAGGCAATGACCGAGGAACAGATCGGCAGTGTGATTTCTGATTTTGCTGCTGCCGCCGTCCGTGCGGTTGACGCAGGGTTCGACACCGTCGAGATCCATGGCGCCCACGGCTACCTGCTTCACCAGTTCCAGAGCCCGCTGATCAACACCCGGACAGATGGGTGGGGCGGGGACGAGGCTGGACGGAACCGCCTGATGCTGGCCGTGATCGACGCCGTCCGTGGGGTCATCCCGGATTCCATGCCGCTGTTGCTGAGGATATCGGCCACCGACTGGGCCCCTGGAGGGATCGACGTCGAGGCTTCTGTCCGGCTGGCCACGCTGGCAGCCGAGCACGGCGTGGACCTCGTGGACGTCTCCAGCGGTGGGGCCGTAGCCCACCAGCAGATCAAACCTGGCCCTGGCTACCAAAGCGGTTTTTCCGAACGGATCCGGCGGGAAGCGGGTGTGCCCACCGGGACCGTGGGACTGCTTACCTCCCCGGGGCAGGCGGAACATGCCGTGGCAACGGGGCAGGCGGACGGCGTCTTTATCGCCCGCGCAGCCCTGCGCGACCCGCACTGGTGGCTGCGGGCAGCCTTCGAGCTTGGCCACAACATCACGTGGCCGCCCCAGTACGAACGGGCGTTCCCCAAGCATTCGTTTTAG	MPALFQPLKLRQLELPHRGWVSPMCQYSCDPDDGPGVPNDWHLMHLGSFAVGGAALILTEAAAVNAEGRISPRDAGLYSDEQAEAWQRITSFVHKHGAVNVSIGAQLAHAGRKASTYWPFSGKRGSVPAADGGWSTVGPVPAAFDGYAEPQAMTEEQIGSVISDFAAAAVRAVDAGFDTVEIHGAHGYLLHQFQSPLINTRTDGWGGDEAGRNRLMLAVIDAVRGVIPDSMPLLLRISATDWAPGGIDVEASVRLATLAAEHGVDLVDVSSGGAVAHQQIKPGPGYQSGFSERIRREAGVPTGTVGLLTSPGQAEHAVATGQADGVFIARAALRDPHWWLRAAFELGHNITWPPQYERAFPKHSF	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
D1-29_03095	1032		COG3118	putative protein	ATGAGTTCGCCTGCTTCCCGTCCCGTCCCTCCGGCCGCTGCCAACCCGCTTAACCTGCGGGGCGCCGTCGATCTTTCCTCGCTGAAACAGCGCTCCGCCCCTCCTGCCTCCGCCCCTCCTGCCTCCGCTCCTCCCGCCGTCGCGGCGCAGCGTCCAGGTGCTGCTGCCTCCGGAGGTGGCGCCGCAGGCTCCGGCACCTCCGACGCCGGCCAACGCCCCCTGCGGGTCGATGTCACGGAGGGAAATTTCCAGGACCTGGTGGAGCTCTCCGCCCAGGTGCCGGTTGTGATCGCCCTGTGGGCCACCTATTCACCTGAGTCCGTGCAGATGCTGGAATCCCTTGAGCGGCTGGTGGATACGTACGCCGGCCGCCTGGTGCTGGGCGCAGCCGACATCGACGTTTTTCCGCAGCTGGCACAGGCCTTCCAGGTGCAGGCGGTACCCACCGCCGTGGCCGTCGTGAAAGGCCAGCCGGTGCCTTTGTTCCAGGGCGGCGCTGACGAAGCCCAGGTACGCAGCCTGCTGGACGAACTGCTGAAGGTGGCCGCGGCCAACGGGGTCACCGGCAGCCTGGGCGGCGCGGCCGCAGAGGAGGCCGGGCCGGCGCCGCTGCCCCCGCTGCACCAGGCAGCCTACGACGCCATCGAAGCCGGCGACTACGACGCCGCCGCAGCCGCATACCGCCAGGCGCTGAACGAAATGCCGTCCGACTCCCTGGCCAAGGCCGGCCTGTCGCAGGTGGAACTGATGGCCCGCCTGCAGAAGCTGTCGGCACAGGACAGCGAGGCGCTGCGCACCCTGGCGGCCGATGAACCGGACAACCTCGACGCGCAGCTCGGCGTCGCTGACCTGGACGTTGCGGGCGGCCATGTGGAAGACGGCCTGGCCCGCCTGGTCAGCTTTATCGGCCGGAATTTCGGACCGGAACGGGAAACCGCCCGCATCCGGCTCCTGGAACTCTTCGACGTCGTCGGGACCGGCGACGAACGAGTATCAAAAGCCCGGCAGGCCCTGGCCAGGGTCCTGTTCTAG	MSSPASRPVPPAAANPLNLRGAVDLSSLKQRSAPPASAPPASAPPAVAAQRPGAAASGGGAAGSGTSDAGQRPLRVDVTEGNFQDLVELSAQVPVVIALWATYSPESVQMLESLERLVDTYAGRLVLGAADIDVFPQLAQAFQVQAVPTAVAVVKGQPVPLFQGGADEAQVRSLLDELLKVAAANGVTGSLGGAAAEEAGPAPLPPLHQAAYDAIEAGDYDAAAAAYRQALNEMPSDSLAKAGLSQVELMARLQKLSAQDSEALRTLAADEPDNLDAQLGVADLDVAGGHVEDGLARLVSFIGRNFGPERETARIRLLELFDVVGTGDERVSKARQALARVLF				NA	NA	NA	NA	NA
D1-29_03096	1794			hypothetical protein	TTGCGTTTCAAGACTGCAGTCGCACTCGTGCTGCTCGGCCTGCTGACCCTTTTGGCCGGCATCGGCCAGAAGACCATCTGGGCTCCGTCCGAGACTTTTACAGCCTCGGTTCCCACGGATGCCGCCCAGGCTCCACTGACCGTCATTGACCAGAACCTTCGCACGCTCCACGGCGGAACCGTCACGATCAATATCCAGGGTGAAGGCAACTTCACCCTCGCGGCAGGACGGCCGGACGATGTGGCCGCATGGGTGGGCCCCACAGCCCACAACACCATCACGGGGGTATCCGACGACGGGAAGTCCCTCCAGCTCGAACACGCCGACGGCGAAGCCACCGCGCCCAGCCCGGCCGGCTCGGATTTGTGGGTTGCCAGCGAAGACGCTAGCGGTGAACTTGACTATTCCTGGACTCCGCCTGCAGATGGCGACTGGTCGCTGCTGCTGGCCTCGGACGGAACCAAGGCTGCCCCGTCCTCCATCTCCATGACGTTCCCGAATGATACCTCCACCCCGTGGGCCGTTCCGCTGATGGTCATCGGCTCGCTGCTGGTTCTCGCAGGAATCGTCGTCGCGGCGCTGTTCTCCGGCGGCACCCCCCGCGGGTCCAAGGGCGGGAACGGAAGCGGTGGCGGCAGCATGTTCGCCCAGCGCGCCCGGGCCAAGGCGGAGGCACGGTCCTCCGCTTCCCTCAGCAGGATGGCCGTGGGACCTGCCGGTTCCCCCTCCCCGTCTCCGTCTATGTCTCCCTCTCCGGCCAGGTCCGCCGTCATGACGGCTGTAGCAGCCATTGTTGCGGCTGTCCTGGTGGCCGGAACCGGCGCGGCCGCCAGTGCCACCTCAGGGCCTGCCCCGGCGCCGTCCCCGGAACCCACCGGAAACGCCTCCGAGACCGCTGAGGAAGCACCCGTATCCCCGGTGCTCCTCGATGCCCAGTTCCGCCGGATCCTGGAGCAGGTGTCCAGTGCCACCGACGCCGCCGACGCCGCAAAGGACGCCGGACAGCTGGCCACGCGCGTGGCCGGAACCGAGCTTGAGGTCCGCACGCAGAACTACAAGATCCGTTCGCAGGTGGGCGCATACGAGGCGAGGATGCCCGTGCGCTCAACGAAGCTCCTGACCACAGTCGTCACGAGCAAGCGTGACTGGCCCAGGTCTGTCCTTGCCGTCACCCAGGGCGAGGGCAACGTTGTTCCCCAATTGCTGACACTGGTTCAGCTGACGCCGCGTGATAACTACAAGCTCGTCGAAACCACCCCTCTCCAGCCGGGCACCACATTCCCTTCGATTGCACGGGGCGGAACCGAAACGCTGGCCGCGAATGACAAGTCGGGCCTGCTTTACAGCGGCGAGGAGGCCCTGGCCGGCCTCGCGGACCGCCTCACAACACCTGATTCGAGCTTCAAGGACAAGCTGGTGGAAGGCGAGTCCTCGCCCTACATCGCCGATACCCTCTCCTACCAGGCTGAAGTTGTGAAGTCCGGCGAGAACGGCAACTTTGCCTTCACCCACAATGTTGTTCCGGAAAGCGTTGTGGTGTTCCGGACGGCGGACGGCGGGGCCCTGGTCCTGGGCCGAATCAACTTCGGATTTGATGGCACGCCCAAGGCGGCAGGAGACAAGCTGACCATCGGCGACGACGCCGCGGCGCTCGCCGGCGGCAAGGAAACCACCACCGGAATGGTCCTCAGTTTCGCCGAGTCGACGGCGGTCTACATCCCGCCGGCAGGATCCACCGATCCCATGAAGCTCGTCGCCGCAACGCGTGGCCTGGTGGGTGCCAGCTTCAAGTAG	MRFKTAVALVLLGLLTLLAGIGQKTIWAPSETFTASVPTDAAQAPLTVIDQNLRTLHGGTVTINIQGEGNFTLAAGRPDDVAAWVGPTAHNTITGVSDDGKSLQLEHADGEATAPSPAGSDLWVASEDASGELDYSWTPPADGDWSLLLASDGTKAAPSSISMTFPNDTSTPWAVPLMVIGSLLVLAGIVVAALFSGGTPRGSKGGNGSGGGSMFAQRARAKAEARSSASLSRMAVGPAGSPSPSPSMSPSPARSAVMTAVAAIVAAVLVAGTGAAASATSGPAPAPSPEPTGNASETAEEAPVSPVLLDAQFRRILEQVSSATDAADAAKDAGQLATRVAGTELEVRTQNYKIRSQVGAYEARMPVRSTKLLTTVVTSKRDWPRSVLAVTQGEGNVVPQLLTLVQLTPRDNYKLVETTPLQPGTTFPSIARGGTETLAANDKSGLLYSGEEALAGLADRLTTPDSSFKDKLVEGESSPYIADTLSYQAEVVKSGENGNFAFTHNVVPESVVVFRTADGGALVLGRINFGFDGTPKAAGDKLTIGDDAAALAGGKETTTGMVLSFAESTAVYIPPAGSTDPMKLVAATRGLVGASFK				NA	NA	NA	NA	NA
D1-29_03097	1374			hypothetical protein	GTGACTGACAAGACGGAAGAGTCCCCCGCTGGACAGGACAATCCAGCCGCCGGTGACTCCCTGCAGCCCAGCCCTGAACGGCCGGCCAATCCGGAAAGGCAGCACAAACCGGAACGGCAGGCGAAACCGGAAGGGCAGGCAAAACCGGCTCGCGCCAATTGGCGCGCGGGATCGGCCGCCGCGCTTGGCTCTGTGGTGCGCCGGCTGCGGCAGCCGCTGCCGGGCGCGCAGCCGCGCCTCCGTTTTGAGATGCCGCCGGAATATGCACACCATGAAGAGCCGGAGGAGGCCGCTGCCACCCAGGTGACGCCCCAGTTCGGCAATCCCGGGCCAAGGATGTCCACCCAGCATCCCCTGTATCTGGGATTCATGGGCACGGTGGGAGTCGGGCTGGCGCTGCTGGTGTACTGGATCGGCTCCAACAACACCCAGCTCCTGCTGTGGATCGTAACCGCCCTGTTCATTGCCCTGGGCCTGGAACCAGTGGTGGGATGGCTGGAGAACCGGAGGATCCCGCGCCCGGCCGGAATCCTTGTGGCGGTAACGGTGCTGGTGACGGCAGTGGTGGGGTTCTTTGCCACCCTGATCCCAACCATCGTTGAACAGGTCACCGAGATCGTGGAGCAGGCGCCCACCTGGATCCGCGACTTCATCGATTCCGAGTTCTTCCGCAGCCTGGATGACCAGTTTGGCGTCCGCGACCGCATCTCTGAAGAACTCGATAAATTCGTCAACGACCCCCAGGCCATGAGCGGCATCTTCGGCGGCGTGGTGGGCTTCGGCTCCACGCTGGCCAACGGGCTGTTTGGCACCCTGATCGTCCTGGTGTTGAGCCTTTACTTCCTCGCAGCCCTGCCCGCCATGAAGAAATGGGGCTACCGCCTGGCACCACGGTCACGCCGCGCCCGGGTGGAGGCACTCTCAGAGGAGATCACCCGGTCCGTGGGCAACTACGTGATTGGACAGGCCTGCGTGGCCCTGCTGAACGCCACCTTCGCTTTTATCGTGATGTCCATCCTGGGCATCCCCTTCGCAGTACTGCTGGCGTTTGTGGTTGCGCTTCTCGCGTTCATCCCACTGGTTGGCGGCCTGATCGCTGCCGTAGTGGTGCTGCTGGTCTCCCTGACCGAAGGCTGGCAGACGGCTGCCATCTACGCCATCTGCTACTTCGCCTACCTGCAGTTCGAGGCTTACTTCATTTCACCGCGCATTATGCAGAAGGCTGTCGCGGTGCCCGGTGCCGTGGCTGTTATTTCGGTCATCGCCGGCGGCAGCCTGCTGGGTGTCCTGGGTGCCCTGATCGCCATTCCCACAGCCGCTGCCATCCTCCTGCTGGTGAAGGAGATCTATATCGTCCGGCAGGACAAACACTAG	MTDKTEESPAGQDNPAAGDSLQPSPERPANPERQHKPERQAKPEGQAKPARANWRAGSAAALGSVVRRLRQPLPGAQPRLRFEMPPEYAHHEEPEEAAATQVTPQFGNPGPRMSTQHPLYLGFMGTVGVGLALLVYWIGSNNTQLLLWIVTALFIALGLEPVVGWLENRRIPRPAGILVAVTVLVTAVVGFFATLIPTIVEQVTEIVEQAPTWIRDFIDSEFFRSLDDQFGVRDRISEELDKFVNDPQAMSGIFGGVVGFGSTLANGLFGTLIVLVLSLYFLAALPAMKKWGYRLAPRSRRARVEALSEEITRSVGNYVIGQACVALLNATFAFIVMSILGIPFAVLLAFVVALLAFIPLVGGLIAAVVVLLVSLTEGWQTAAIYAICYFAYLQFEAYFISPRIMQKAVAVPGAVAVISVIAGGSLLGVLGALIAIPTAAAILLLVKEIYIVRQDKH				NA	NA	NA	NA	NA
D1-29_03098	801			hypothetical protein	ATGACTTTTGATCCGGCGTCGTACGAATTCAACCAGCCTGATGGCCCTTCAGCCATCCGCGCATCCACCGTCCTTCCCGCCAGGCGCGAAAACGTGGAACTCCATACGGAGGACGGCCACACGCTGGTGGGCGAGCTGGCGTTGCCGGAATCCGGCCCGATCAATGCCACCCTGATCACCCTGCACCCGCTGCCCACCCACGGCGGCTTTATGGATTCACACGTGTACCGCAAGGCGTCATACCGGCTGCCTGCACTCGCCGGCGTCGCTGTCCTGAGGTTCAATACGCGCGGAACCGCCTCGCCCCGCGGTACCAGCGATGGCTCCTTCGAAGAAGGGATCGGCGAGCGGTTCGACGTCGAGGCAGCAGTCAGGTTTGCCGCCGACAGGCAATTGCCCAACCGCTGGCTGGTGGGTTGGTCCTTTGGAACGGAGCTCGCCCTCATGTACGGGGCCACGGAGCCCGTTGCGTCCAGCATCGAGGGCGCCGTGCTGCTTTCGCCGCCGCTTCACCGGGCAACTGATCAGCACCTGCGGTTGTGGGCCGAGAGCGGCAAGCCCCTGACGGTCCTGGTGCCCGAGCATGATGACTACCTCCGGCCCGCGGAGGCAGCGCAGCGCTTCAGCCTGATACCCCAGGCCCGCGTCGTGGGCGTGGACGGGGCCAAGCATCTTTGGGTGGGCGAGAAGTACGCAGCCCGGGTCCTGAACGAAATTGTTGATGAAGTGACAGAGGCCGGGTCCGGACCCGGCGGCCTTCCGCAGGAGTGGGACGGCCCCGTGGCCGCGGCTGCCGCCTAG	MTFDPASYEFNQPDGPSAIRASTVLPARRENVELHTEDGHTLVGELALPESGPINATLITLHPLPTHGGFMDSHVYRKASYRLPALAGVAVLRFNTRGTASPRGTSDGSFEEGIGERFDVEAAVRFAADRQLPNRWLVGWSFGTELALMYGATEPVASSIEGAVLLSPPLHRATDQHLRLWAESGKPLTVLVPEHDDYLRPAEAAQRFSLIPQARVVGVDGAKHLWVGEKYAARVLNEIVDEVTEAGSGPGGLPQEWDGPVAAAAA				NA	NA	NA	NA	NA
D1-29_03099	477			hypothetical protein	ATGACAAGTCGCACGCCGTACAGACTACCGTCTCACCGGATGCCTCAAATCCATGGCTACCGGGACTGGCCTGTCACCAGGATGCCGGTGCTGGGGCAGAATGGAGGCATGCCGCGTTCCAACCGACCCCGCCGTCCTGCCTCCGGAAAAGGCGGCGGAGCTGCAGGCAGGAGCACAGCAAAAGGCGCCGGCAGGAAGGGTGGCGGCGACGTGCCGGAACTTGACCTCGAACGGGCCCGTTCAGGTATTGCCCGCCGGGAAACTGCGCCCGACGGCGACTGGATGGTCAGGTCCATCACCGCCAAGAAGGCCGAGAAGACCTATATTTGTCCCGGCTGCTCCACGGCTGTTCCGCCGGGAATCGCCCACCTCGTGGTGTGGAAGGATGACCATCTGTTTGGTGCGGCCGCCGGACTCGCTGAGCGCCGTCATTGGCACAGCAACTGCTGGGTCTCACGGAGTTACCGCTACCGCTAG	MTSRTPYRLPSHRMPQIHGYRDWPVTRMPVLGQNGGMPRSNRPRRPASGKGGGAAGRSTAKGAGRKGGGDVPELDLERARSGIARRETAPDGDWMVRSITAKKAEKTYICPGCSTAVPPGIAHLVVWKDDHLFGAAAGLAERRHWHSNCWVSRSYRYR				NA	NA	NA	NA	NA
D1-29_03100	594	nucS	COG1637	Endonuclease NucS	GTGCTGGTCCATTCCGACGGCGGTTCCTACAAGCCGCTGAACTGGATGAGTCCGCCGGCCACCCTCCGTGTGTCGTCCCCGGATGACGTTGACCTGGAGCTGGGGGTCCTTGAGCAGTGGACCGTGCAGTCGGCCAAGACCGACGATCGCCTGATTATCAACATCCATGAACACCTCCACGAGTCCTCGCACGATCTTGGCGTTGACCCAGGCCTCATCAAGGACGGTGTGGAAGCGGACCTCCAGAGGCTGCTGGCGGAGCAGATCGAGACACTTGGCTCGGGCTTCTCCCTGATCCGCCGGGAGTATTTCACCGCGATTGGCCCCGTGGACATCCTCGCCCGTGACGCCGACGGAGCCACTGTTGCCATAGAACTGAAGCGCCGGGGCGACATCGACGGCGTAGAGCAGCTGACCCGGTACCTTGAGCTTCTGAACAGGGACCCCTTGCTTGCTCCCGTGCGCGGGATCTTTGCCGCCCAGCAGATCAAACCGCAGGCCAAGGTTCTGGCGAATGACCGCGGAATTGACTGCATCACCCTGGACTACGACGCCATGCGCGGGGTTGACGACACCGAATCACGGCTTTTCTGA	MLVHSDGGSYKPLNWMSPPATLRVSSPDDVDLELGVLEQWTVQSAKTDDRLIINIHEHLHESSHDLGVDPGLIKDGVEADLQRLLAEQIETLGSGFSLIRREYFTAIGPVDILARDADGATVAIELKRRGDIDGVEQLTRYLELLNRDPLLAPVRGIFAAQQIKPQAKVLANDRGIDCITLDYDAMRGVDDTESRLF				NA	NA	NA	NA	NA
D1-29_03101	204	csp		Cold shock protein	ATGGCACAGGGAACCGTCAAGTGGTTCAACGCTGAAAAGGGCTTCGGCTTCATCACCCCGGATGACTCCGATGGCGATGTCTTCGTTCACTACTCCGAGATCCAGACCGGTGGCTTCAAGACCCTCGACGAGAACCAGCGCGTTCAGTTCGAAATCGGTCAGGGCGCCAAGGGTCCCCAGGCTACCGGCGTGACGCTGGTCTAG	MAQGTVKWFNAEKGFGFITPDDSDGDVFVHYSEIQTGGFKTLDENQRVQFEIGQGAKGPQATGVTLV	PGPT0014675_6602	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
D1-29_03102	2607			hypothetical protein	ATGAGCGCGGAGCCGGAGATTAGAACTGCCGCGCTGGCCTGGCATACGGTAGGACGCCCCACCTGGAGGATGGCGGTAGCCCGCCTCCGTTCAGCGCCGTTTACCCTGGCGGTTCTGGGCATTTTCCTGCTGACTGGCGCCTTCAGCGGAAGCTTCCTGAGCGGACCGGCCGAGTCACTGCTGGATCTTGCGGGGGTAAGCGGGCCAGGACTGAAATCCGGCAGTTGGTGGACGCTCTTTACCTCGCTGTTCTTTGCCACCAACCCGCTGGCCTACGTGGTGGCATCCCTGATGATTCTGCTGCTGCTGGGCCTGGCTGAGAGCAGGATCGGCACGCTACCCACCGTCGCCTTATTCTTTGGCGGCCAGTTTGCCTGCGTCACCTTGTTTCTGCTGATTACCCAGCTGGCACGGTATGCGGGGGACGGCTGGCTGGGCCTGATGGCTGACAGCATGCTCATCGGACCGTACGCCGCGGTCCTGACCGTTTCCATGGCGGCGAGCGGCAGGCTGCCGGTCCTCTGGCAGCGCAGGCTTCCCACCATCCTGCTGTCCGTTTCCCTCCTGCTGGTTCTCTACGTCGGACACCCCGAGACTGTCATCGGACTCCTGGGCGCTCTCCTGGGACTGTCGGTCCGCTGGTGGGTCCGCGCTGACCAGGGCCCATTCCGCCGGCACCGGTCCACAGGCCGTGAGACAAGGAACCTTCTGGCCCTGACCGTTGCGGTTTTTGCCGTCGGCCCCATCCTGACCGCCGTCGCCAGGACGCCCACCGGTCCGCTGGCCCTCCTGCGTGACATCGTCCTCAACCCCTTGCCCACACTCAACCAACTTGAGTTGTACTGCGGCGCCACAGTGCAAGCATCGTGCCTGGAGGCGGGCCGCCAGGGCATCGCTGGCCCCTTCGGCTTGGCGCTGGGCGTGGTTCCCGTGGCCCTGCTGCTCATCTGTGCCGACGGGATGCGGCGGGGCCGCCGGATGGCGCTTCGCATCGCGCTGGCCCTCCAGCTGGCCGTCACGGCATTGGCAGCCGTCTACCTTGCGTTGTTTGCCCTGATCCCGCATTATCCGTCGGGCCGGCACACTGCCGCCATGGGATCCGGATTCGCACACATCCTGCCGCTCGTGACAGTACCCCTGCTGTTGACGCTCCTTCTATGGTTCAACAGACGCCAGTTCAGGGTTGAAACTCCTCCCTCCTACAGGCGTGCCCTGGTGGCCGTGGTGGGTGGAGTGTGGATTGCCCTGGCAGGTGCCTACAGCCTGGCGTGGTGGGGAGCAGGCGGAATGGCGCGGGACGGAGGACTGCTTGGCCTGCTCGCCGAGCTGGCACGGCAGTACCTTCCCGTTCCGGTCCCCAACCTGTATCACCGTGTGTTCTCGGAACGGGACGGCCTGGAGTCGTTCATCTTCGCCTACGCGGGACCGGCGTTCTGGCTTGTCGCCCTCGCGGGAGTCTGGGCAGTCCTGATGGGACGGCACCACAGCAGCGATCCCGGCAGCAACAACAAAGCCCGGGTGCGCGGCCTCCTGCAGCAGGGCGGCGATTCCTTGTCCTGGATGGCCACCTGGGATCCCAACAGCTATTGGTTCAGCCCGGACCACCAGGGTGCCGTGGCATACCAGCAGCATGGCAGCGTTGCGCTAACCCTTGCTGGTCCTTTCGGCGCCGCAGACGGGCATCACGGGGTGGCTGAAGGATTCCTGGGGCATTGCAGCAGCAGGGCACTGATTCCGGCCTTCTACTCCTGTGATGACAGGCTGTGGCCGCTTCTTCGGGACCGGGGGTTCCACCGGGTGCCGGTGGCCCAGGAGACCAGGCTTGCGGTCAGGGAGCTCGAATTCAAGGGCAAGGAATGGCAGAACGTGCGGACCGCCCTGAACAGGGCTGGCAAGATCGGAGTCAAGGCTGTGTGGGGAACGTACGAAGGGCTGCCCGCGGCCCTTCGCGCCCGCCTCAGTGAGGTCTCAGAGGAGTGGGCGGCCGGGAAAACGGTGCCGGAAATGGGATTCACCCTGGGTGGCATGGATGAGCTGATGGATAAAGAGGTCCTGTGCTGCCTCGCCGTGGACGCGGAAGGCAACGTGCACGGCGTCACCAGCTGGCTTCCCGTTTACGACGGCGGGAGGCTGGTCAGCCGGACCCTGGACGTTATGCGGCGGGGTGCCGGGGGATTCCCGGGAGTCATGGAGTTCCTCATCGCCTCGGCAGTGCTGGAACTTCGGAAATCAGTGGAGGTCATCTCCCTGTCCGGTTCCCCGCTGGCACGGGGGCCGGCGGACAGCAATACAGCCACAGTCCCGGACGGAGACCGGGTTCCCGATGGAGACCCCGTACATGAGGGAGAACCCGTCCCGGAGGAGCCTGTGGTGGCCGAGAACCTCGTGCGCATCCTGGATGTCGTGGGGCATGCCCTGGAACCTGTCTACGGCTTCCGGTCGTTGGCCGCCTTTAAGTCCCGGTTCAAGCCTGACTACCGCACGTTGTATCTGTACTATCAGGATCCGCTTCATCTGCCGGCGATCGGCAGGGCCCTGACACGTGCCTATTTACCCGGCCTTTCGCTCCGTCAGGGTGCACGCTTGCTTCGGGAAATTGTGACTTGA	MSAEPEIRTAALAWHTVGRPTWRMAVARLRSAPFTLAVLGIFLLTGAFSGSFLSGPAESLLDLAGVSGPGLKSGSWWTLFTSLFFATNPLAYVVASLMILLLLGLAESRIGTLPTVALFFGGQFACVTLFLLITQLARYAGDGWLGLMADSMLIGPYAAVLTVSMAASGRLPVLWQRRLPTILLSVSLLLVLYVGHPETVIGLLGALLGLSVRWWVRADQGPFRRHRSTGRETRNLLALTVAVFAVGPILTAVARTPTGPLALLRDIVLNPLPTLNQLELYCGATVQASCLEAGRQGIAGPFGLALGVVPVALLLICADGMRRGRRMALRIALALQLAVTALAAVYLALFALIPHYPSGRHTAAMGSGFAHILPLVTVPLLLTLLLWFNRRQFRVETPPSYRRALVAVVGGVWIALAGAYSLAWWGAGGMARDGGLLGLLAELARQYLPVPVPNLYHRVFSERDGLESFIFAYAGPAFWLVALAGVWAVLMGRHHSSDPGSNNKARVRGLLQQGGDSLSWMATWDPNSYWFSPDHQGAVAYQQHGSVALTLAGPFGAADGHHGVAEGFLGHCSSRALIPAFYSCDDRLWPLLRDRGFHRVPVAQETRLAVRELEFKGKEWQNVRTALNRAGKIGVKAVWGTYEGLPAALRARLSEVSEEWAAGKTVPEMGFTLGGMDELMDKEVLCCLAVDAEGNVHGVTSWLPVYDGGRLVSRTLDVMRRGAGGFPGVMEFLIASAVLELRKSVEVISLSGSPLARGPADSNTATVPDGDRVPDGDPVHEGEPVPEEPVVAENLVRILDVVGHALEPVYGFRSLAAFKSRFKPDYRTLYLYYQDPLHLPAIGRALTRAYLPGLSLRQGARLLREIVT	PGPT0024390_855	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLGLYCEROL_LYSYLTRANSFERASE,PGPT0024390-mprF|fmtC-K14205	NA	NA
D1-29_03103	1311			hypothetical protein	GTGGATTTTGTTGCTGACATCCGCCTGACCGACGGACCGGTTTTCTGGGCTGCCTGGATCCTCGGGGTTGCAGCGACCGCCTATCTTGCCTGGCGCCCGGCCCCTTTCCGTCCCCGCCGTTGGCTTCTGGCAGTTGGCCTGGCCATTGCTGGCGCCGCCGCCCTGGTGGCCGCGGTGCACTGGGCCCTGATCTACGTTTTTTCCACCTTCCCGGAAGATCTCCCGGACGACGTACTGTTCTGGAGCGTCCCACCCCTGGCCGCGCTGATCGTGGTGCTCGTGCGCCTGCCGGGCGGGTCCTGGCGTCAGCGGAGCACCGCCTGCGCAGGTCTGCTCCTGGTGTTGCTGCTGTCAGGGGTGCAAATCAACGCCTACTTTGGCCTCAACCGCACGGTCAGCGATCTGGCGGGCACGGCTGTAGCGCGGATTCCCACCCTTGAACCTGACTTGATGCGGCACGCGGATGCGGCTGCCCTGGTGCCCCTTGAAGGATGGCAACCCCAGGAAGAATTGCCCGGCGAGGGAGTGCTGCGCAAGGCTTCGATCCCTGGCGAAGCTTCCGGGATGGACACCAGGGAGGCCTACGTTTACCTGCCGCCGGCCTACTTCGCCCCAAACCGGCCTGCCCTTCCCGTCCTGCTCCTTTTTTCCGGCCAGCCCGGCGGGCCCGCGGATTGGCTGACGGGAGGAGCTCTGCGCGCACACCTGGACACCTTCGCGGCCGGCCATGGCGGAGTGGCGCCGGTGGTGGTGGTGGCGGACCCCAACGGTTCCCAGTCTGCGAATACGCTCTGCATGGACAGCCGCATTGCAGCGGCCGATACGTATTTGTCCAAGGACGTTCCACGCTGGATCAGCGACAGCCTCAGCGTGGATCCGGACCGCCGGCACTGGGCGGTGGGAGGGTTCTCCTTCGGCGCAACGTGCGCTCTGCAGATGGGCACCCGGCATCCTGACATCTTCAGCTCCGTGCTTGCATTCTCCAGTGAAGTGGAGCCTGCCCTGGCCAAGGAGCGGCAAAAGACCATAGACGCCTCCTTCCCCGGCGACACCGCCGGCTTCGAGAGCCTGACGCCGCTGTCCATCATGGGACGGACACGTTTCGATTCCTCCGGGGCCTATTTTGCGGCAGGGGAGCGGGACCCCGAATTCGTGGGTTACATGGACACGCTGGCAGACGCAGCCCGTAAGGCAGGCTTCACAGTTGACGCCAGGCAGGTGGGAAAGGCCGGGCATTCCTGGGACACCCCGTCGAAGGGAATGGCAGGCGGGCTGGCCTTCCTGGCCGGCCGGTGGGGCCTGCCGCAATGA	MDFVADIRLTDGPVFWAAWILGVAATAYLAWRPAPFRPRRWLLAVGLAIAGAAALVAAVHWALIYVFSTFPEDLPDDVLFWSVPPLAALIVVLVRLPGGSWRQRSTACAGLLLVLLLSGVQINAYFGLNRTVSDLAGTAVARIPTLEPDLMRHADAAALVPLEGWQPQEELPGEGVLRKASIPGEASGMDTREAYVYLPPAYFAPNRPALPVLLLFSGQPGGPADWLTGGALRAHLDTFAAGHGGVAPVVVVADPNGSQSANTLCMDSRIAAADTYLSKDVPRWISDSLSVDPDRRHWAVGGFSFGATCALQMGTRHPDIFSSVLAFSSEVEPALAKERQKTIDASFPGDTAGFESLTPLSIMGRTRFDSSGAYFAAGERDPEFVGYMDTLADAARKAGFTVDARQVGKAGHSWDTPSKGMAGGLAFLAGRWGLPQ				NA	NA	NA	NA	NA
D1-29_03104	432			putative protein	ATGGACGCACCGAGTCTTCCGTTCATCGCCATGGCAATCATTTTTGGATTGCTGATATTTGCACTGTGCCTTTTTGGGGTGCGCCGCTTCAATCTGCGGCGCGCCCTGGGCACGGTGGACGCCTCCATTTGCATGGCTGGAAACAGCTGGCAGATGGGGGTTTGTCGTTATCAGGACAACGACCTCGAATGGTTCCGGCTGCTCTCGCTCAGTGTCCGTCCCAAACACAAGTTCAAGCGAAGTTCCCTCGAGCTCCTTGGACGCCGAAAACCCACCGAGTCCGAGGCCGTCAAGGTCCAGCCCGACGTCGTGATCGTTGAACTGCGGTACGAAGGCCAGGACCTGCGGCTCGCCATGAAGTTCGATGCCTACACCGGGCTGTCGTCCTGGCTTGAAGCCGGACCCGTTATCGGCGTCGGCACCTGGCGTTAG	MDAPSLPFIAMAIIFGLLIFALCLFGVRRFNLRRALGTVDASICMAGNSWQMGVCRYQDNDLEWFRLLSLSVRPKHKFKRSSLELLGRRKPTESEAVKVQPDVVIVELRYEGQDLRLAMKFDAYTGLSSWLEAGPVIGVGTWR				NA	NA	NA	NA	NA
D1-29_03105	285	atpC	COG0355	ATP synthase epsilon chain	ATGGCTGAGCTTGAGGTTGAGATTGTCGCAGCGGACCACTTCGTGTGGTCCGGAGCGGCCAAGATGGTCAAGGCCCGCACCAGCGATGGTGAAATCGGAATCCTGCCCGGCCACTCGCCCCTGCTGGCGATCCTGGCCGAAGGTGAACTGGCGATTCAGCCTGTTTCCGGTGACCGCATTGCCGTAGTTGTTGATGGCGGATTCTTCTCCGTCGACAACAACCGCGTGGTTATTGTTGCTGACAACGCCCAGCTGGGCGACGCGGCTACTGCTGGGATCCGCTAG	MAELEVEIVAADHFVWSGAAKMVKARTSDGEIGILPGHSPLLAILAEGELAIQPVSGDRIAVVVDGGFFSVDNNRVVIVADNAQLGDAATAGIR	PGPT0014295_3946	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114	NA	NA
D1-29_03106	1455	atpD	COG0055	ATP synthase subunit beta	ATGACTGCCACTGCTACCGAACACGTAGCCGCAACGTCCGGTGCCACCGGCCGTATTGCTCGTGTCATTGGCCCGGTTGTCGACGTCGAATTCCCGGCTGACGCAATCCCCTCGATTTACAACGCCCTCACCGCTGAAATTACCCTCAACGGTGTGACCCGGCCCATCACGTTCGAGACCTCCCAGCACCTGGGTGACAACCTCGTCCGCGCCATCGCCCTGCAGGCCACCGACGGACTTGTCCGCGGCACGTCTGTGGTGGACAGCGGTTCCCCTATCTCGGTTCCCGTCGGCGACGGCGTCAAGGGACACATCTTCAACGTCCTGGGCCAGCCCCTGGACATTGCCGAGTCGGAGCTGGAGACCACCGAGCGCTGGCCGATCCACCGCAAGGCACCGTCTTTCGCCTCGCTTGAAGGCCAGACCGAAATGCTTGAAACCGGCATTAAGGTCATCGACCTCCTCACCCCGTACATCAAGGGTGGAAAGATCGGCCTCTTCGGTGGCGCCGGCGTCGGCAAGACCGTTCTGATCCAGGAAATGATCACCCGTGTGGCCCGCAACTTCGGTGGTACTTCGGTATTCGCCGGTGTTGGCGAGCGTACCCGTGAAGGTAACGACCTCTGGGTTGAAATGGAAGAGGCAGGCGTCCTGAAGGACACCGCCCTTGTGTTCGGCCAGATGGACGAACCGCCTGGAACGCGTCTGCGCGTGGCACTGTCCGCCCTCACCATGGCGGAGTACTTCCGCGATGTGCAGAAGCAGGACGTGTTGCTCTTCATCGACAACATCTTCCGCTTCACGCAGGCAGGTTCCGAGGTTTCCACCCTCCTCGGCCGCATGCCGTCGGCCGTGGGCTACCAGCCCAACCTTGCAGACGAGATGGGCCTCCTGCAGGAGCGCATTACGTCCACCAAGGGCCACTCCATCACCTCGATGCAGGCCATCTACGTCCCCGCAGATGACTACACCGACCCGGCCCCGGCCACCACGTTCGCGCACCTGGATGCCACCACGGAACTTTCCCGTGAAATTGCATCGCGTGGCCTGTACCCCGCCGTGGACCCGCTGACGTCCACCTCCCGAATCCTGGACCCCCAGTACATCGGCAAGGATCACTACAACACGGCTGTCCGTGTCAAGCAGATCCTGCAGAAGAACAAGGAACTCCAGGACATCATCGCCATCCTCGGCGTTGACGAGCTCTCGGAAGAGGACAAGATCGTCGTGTCGCGTGCACGCCGCATCCAGCAGTTCCTTTCCCAGAACACCTACACCGCCAAGCAGTTCACCGGCGTCGAAGGCTCCACGGTTTCCATCAAGGACACCATCGAAGGCTTCACCGCGATCTGCGACGGCGACCTCGACCACATTGCAGAGCAGGCGTTCTTCAACGTCGGCGGCCTGGATGACGTTGAGCGCCAGTGGGCCAAGATCCAGGAACAGACCAAGTAA	MTATATEHVAATSGATGRIARVIGPVVDVEFPADAIPSIYNALTAEITLNGVTRPITFETSQHLGDNLVRAIALQATDGLVRGTSVVDSGSPISVPVGDGVKGHIFNVLGQPLDIAESELETTERWPIHRKAPSFASLEGQTEMLETGIKVIDLLTPYIKGGKIGLFGGAGVGKTVLIQEMITRVARNFGGTSVFAGVGERTREGNDLWVEMEEAGVLKDTALVFGQMDEPPGTRLRVALSALTMAEYFRDVQKQDVLLFIDNIFRFTQAGSEVSTLLGRMPSAVGYQPNLADEMGLLQERITSTKGHSITSMQAIYVPADDYTDPAPATTFAHLDATTELSREIASRGLYPAVDPLTSTSRILDPQYIGKDHYNTAVRVKQILQKNKELQDIIAILGVDELSEEDKIVVSRARRIQQFLSQNTYTAKQFTGVEGSTVSIKDTIEGFTAICDGDLDHIAEQAFFNVGGLDDVERQWAKIQEQTK	PGPT0014296_1088	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112	NA	NA
D1-29_03107	891	atpG		ATP synthase gamma chain	ATGGGAGCCCAGATTCGGGTCTACCGCCAGAAGATCAGCTCGACGACGTCGATGCGCAAGATCTTCAAGGCGATGGAACTGATCGCTACCTCGCGCATCGGCAAGGCCCGCGCACGCGTAGCAGCTTCACTGCCTTACGCGAACGCGATAACCCGCGCCGTTTCTGCTGTCGCAAGCCAGAGCGAAATCGACCACCCGCTGACCACCGAGCCGGAGCAGATCCGTCGCGCAGCAGTCCTGGTAATCACCTCGGACCGCGGCCTGGCAGGGTCATACTCCGCGAGTGTGCTCAAGCAGGCGGAAGGTCTTAACGAACTGCTTCACGCCGAAGGCAAGGAAGTAAAGACGTACCTCGTCGGCCGTAAGGCACAGGCGTACTTCGAGTTCCGGGGCCGGGAGTACGCCCGCGTATGGACCGGCGGCACTGACGCACCTGAATTCGAAACGGCGCGCGAAGTTGGCGAGGCACTCCTTGCGGATTTTGCCACGGACTACGAAGAGGGCGGTGTGGACGAGATCCACGTTGTCTACACCCGTTTCAAGTCCATGGTGACGCAGGAACCCACTGTGGTCCGCCTGCTTCCGCTCGAAGTTGTTGAAGAGCAGGCTGCATCGGAATCCGAACTCCTGCCGCTGTATGAGTTTGAGCCGGAAACCGAGCGGGTGCTTGACGCTCTGCTGCCGCGCTACATCGAATCGCGCCTCTTTGCGGCGATGCTGCAGGCGGCGGCTTCCGAGCTCGCGGCCCGCCAGCGGGCGATGAAGTCTGCAGGCGACAACGCTACAGACCTCATCAAGAAGTACACGCGTCTGCGCAACACTGCCCGCCAGGCTGAGATTACGCAGGAGCTTTCAGAGATTGTGGCCGGTGCCGACGCACTCGCGTCCTAG	MGAQIRVYRQKISSTTSMRKIFKAMELIATSRIGKARARVAASLPYANAITRAVSAVASQSEIDHPLTTEPEQIRRAAVLVITSDRGLAGSYSASVLKQAEGLNELLHAEGKEVKTYLVGRKAQAYFEFRGREYARVWTGGTDAPEFETAREVGEALLADFATDYEEGGVDEIHVVYTRFKSMVTQEPTVVRLLPLEVVEEQAASESELLPLYEFEPETERVLDALLPRYIESRLFAAMLQAAASELAARQRAMKSAGDNATDLIKKYTRLRNTARQAEITQELSEIVAGADALAS	PGPT0014297_1661	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014297-atpG-K02115	NA	NA
D1-29_03108	1671	atpA		ATP synthase subunit alpha	ATGATCACGAAAACAGGAGAGCAGGGACTGCAGATGGCCGAATTGACCATCAACGCCGACGACGTCCGTAATGCGCTGAACGAGTTCGCGGCGTCCTACGAACCCGGAAACGCAGAACGCGTAGAGGTCGGCCGCGTTACCACCGCAAGTGACGGCATCGCCCGTGTTGAGGGCCTTCCCTCGGTCATGGCGAACGAGCTGCTTCGCTTCGAAGACGGCACTCTGGGCCTGGCCCAGAACCTCGACGTCCGCGAGATCGGTGTCATTGTCCTCGGTGACTTCACCGGGATTGAAGAAGGCCAGGAAGTTCACCGCACGGGTCAGGTTCTGTCCGTACCCGTCGGCGACGCATTCCTCGGCCGCGTGGTGGACCCCCTCGGTGTCCCCATCGACGACCTCGGCGAAATCAAGGCTGAGACCACCCGCGCCCTGGAACTCCAGGCTCCGGGCGTCACCCAGCGCAAGTCTGTGCACGAACCGATGCAGACCGGCCTGAAGGCTATCGACGCCATGATCCCGATCGGCCGCGGCCAGCGCCAGCTGATCATTGGTGACCGCCAGACGGGCAAGTCGGCCATCGCCATTGACACGATCATCAACCAGAAGGCCAACTGGGCTTCCGGTGATGTGACCAAGCAGGTCCGCTGCATCTACGTCGCCATTGGCCAGAAGGCGTCGACGATCGCTGCCATCCGCCAGACCCTCGAGGACAACGGCGCACTGGAGTACACCACCATCGTGGCGTCCCCGGCTTCTGACCCCGCTGGCTTCAAGTACCTGGCACCGTATGCAGGTTCTGCCATCGGCCAGCACTGGATGTACGGCGGCAAGCACGTCCTGATCGTGTTTGATGACCTGTCCAAGCAGGCTGAGGCCTACCGTGCAGTATCGCTGCTGCTCCGCCGTCCGCCGGGACGCGAAGCCTACCCGGGCGACGTCTTCTACCTGCACTCCCGCCTCCTGGAGCGTTGTGCCAAGCTCTCCGACGAGCTGGGCGCCGGCTCGATGACCGGCCTGCCGCTCATCGAGACCAAGGCAAACGACGTCTCGGCCTACATTCCGACCAACGTCATCTCCATCACTGACGGCCAGATCTTCCTCCAGTCGGATCTCTTCAACGCCAACCAGCGCCCCGCTGTTGACGTGGGTGTCTCTGTGTCCCGCGTTGGCGGTGCCGCACAGGTCAAGTCCATGAAGAAGGTCTCCGGTACCTTGAAGCTGGACCTGGCCCAGTACCGCGACATGCAGGCATTCGCCATGTTCGCCTCGGATCTGGATGCTGCCTCACGCCAGCAGCTGACCCGTGGTGCACGCCTGATGGAACTGCTCAAGCAGGGACAGTACGCGCCGTTCCCGGTCGAGGACCAGGTTGTCTCGATTTGGGCCGGCACCAACGGTTACCTCGACGACGTTCCTGTAGAGGACATCAACCGCTTCGAGGCAGGCTTCCTGGAGCACCTCAAGCACCGGTCCTCCATCCTGACCACGCTCGCGCAGACCAACGTCCTCGACGATGACACCGCTGCCGCACTGAAGACCGCCATCGTGGACTTCAAGCAGGGCTTCTTCGGGGAGGGCGACAACCACCTCGTTGGCGCCGGCCACGAGGAGCACCAGGCCATCGATGAGGCCCAGGTCGACCAGGAAAAAATCGTCAGGCAGAAGCGCTAG	MITKTGEQGLQMAELTINADDVRNALNEFAASYEPGNAERVEVGRVTTASDGIARVEGLPSVMANELLRFEDGTLGLAQNLDVREIGVIVLGDFTGIEEGQEVHRTGQVLSVPVGDAFLGRVVDPLGVPIDDLGEIKAETTRALELQAPGVTQRKSVHEPMQTGLKAIDAMIPIGRGQRQLIIGDRQTGKSAIAIDTIINQKANWASGDVTKQVRCIYVAIGQKASTIAAIRQTLEDNGALEYTTIVASPASDPAGFKYLAPYAGSAIGQHWMYGGKHVLIVFDDLSKQAEAYRAVSLLLRRPPGREAYPGDVFYLHSRLLERCAKLSDELGAGSMTGLPLIETKANDVSAYIPTNVISITDGQIFLQSDLFNANQRPAVDVGVSVSRVGGAAQVKSMKKVSGTLKLDLAQYRDMQAFAMFASDLDAASRQQLTRGARLMELLKQGQYAPFPVEDQVVSIWAGTNGYLDDVPVEDINRFEAGFLEHLKHRSSILTTLAQTNVLDDDTAAALKTAIVDFKQGFFGEGDNHLVGAGHEEHQAIDEAQVDQEKIVRQKR	PGPT0014298_72	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014298-atpA-K02111	NA	NA
D1-29_03109	828	atpH_1		ATP synthase subunit delta	ATGGCAGGTGTATCGAGCGAATCGCTGACCAAGGCTCTGGCTGAATTGGAAGCCAAGCTTCCTACGGCTTCGCTGCAGTTGGCTAAGGAACTCTTCGGCATTCTGGGAACGGTGGACACGTCGGCTGGACTGCGGCGTGCGCTTACTGATCCCTCCCGTAACGGCGAAGAAAAGGCGGCGCTGGTCCGGCAGTTGTTTGGCGGAAAAGTTTCCGCCGATGCTGTTGAAATTGCGAGCGGACTGGCCGGCTCACGCTGGGCATCTGCACGCGATATCGGCGATGCACTCGAGACCCTTGCCGCTTCGGTGGTTATCGCCGTCGCTGAAAACAAGTCGGCCGTCTCAGCCTCTGGAATCAGCGGGCTGGAAGAGCTGGAGAACGATCTGTTCTCCTTCAACCAGGCCGTTGCCTCCAACCACGAGGTACAGCGTGCTCTGTCCGAGCCGCAAGCAAGCGCGGCAGCGAAGACAGCCTTGGCCGAAAAGCTTGTTCCAGGAGCAAGCGAGGAAGCAAAGGTCCTGATTGGCCAGGCAGTGTCCCAGCCCCGCGGCATCAAGCCCACCCGGCTTGTGGCGCGGTTTGCAGAGCTGGCAGCAAAGCGCCAGCTCCGCTGGATTGCAACGGTCAGCGTTACCCGTCCCTTGACGGAGACGCAGGCCAGCCGGCTCCAGGCCGGGCTGAACGCCCTTTACGGGCGTGAGCTGAAGGTCAACATCAACGTTGACCCGACGCTCATCGGCGGTATCCGGATCCAGGTGGGCGACGAAGTGGTTGACGCTTCCGTTGTTACCCGTCTGGGCCAGCTCCACCGTCAGCTCGCCGGCTAA	MAGVSSESLTKALAELEAKLPTASLQLAKELFGILGTVDTSAGLRRALTDPSRNGEEKAALVRQLFGGKVSADAVEIASGLAGSRWASARDIGDALETLAASVVIAVAENKSAVSASGISGLEELENDLFSFNQAVASNHEVQRALSEPQASAAAKTALAEKLVPGASEEAKVLIGQAVSQPRGIKPTRLVARFAELAAKRQLRWIATVSVTRPLTETQASRLQAGLNALYGRELKVNINVDPTLIGGIRIQVGDEVVDASVVTRLGQLHRQLAG	PGPT0014299_178	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113	NA	NA
D1-29_03110	552	atpF	COG0711	ATP synthase subunit b	ATGAACCAGGTGATCATCTCAGCCGCCACAGAGGGCGAGACTAACCCACTGGTACCCAACGTCTGGGAAATGGGCGTTGTCCTCGTCGGCTTTGCTGTCCTCATGTTCATCGTGGTCAAGTTCGTTGTCCCGATGTTCGAGAAGACATTCGCAGAGCGCGCTGAGGCAATTGAGGGCGGCATCGCCAAGGCCGAGAAGGCCCAGGCGGAAGCTTCTGCAGCCCTCGAAGAATACAAGCAGCAGCTCACGGACGCCCGTGCAGAGGCCAACCGCATCCGCGAGGAAGCCCGTGCCGAAGGCGCCCAGATCCTCGCCGATCTGAAGGAAAAGGCTGCCGCAGAGTCCGCGCGTATCACCGCGCAGGCGCACGTGCAGATCGAATCAGAGCGCCAGGCGGCAGTTGTCTCCCTGCGCTCCGAGGTCGGTTCACTTGCTACCACTCTTGCCGGCCGCATTGTGGGCGAAGCCCTCAATGACGACGACCGCGCAAGCCGTGTTGTTGACCGCTTCCTGGCAGATCTGGAGAGCCAGAACGCAGGTGCAGCTAAGTAA	MNQVIISAATEGETNPLVPNVWEMGVVLVGFAVLMFIVVKFVVPMFEKTFAERAEAIEGGIAKAEKAQAEASAALEEYKQQLTDARAEANRIREEARAEGAQILADLKEKAAAESARITAQAHVQIESERQAAVVSLRSEVGSLATTLAGRIVGEALNDDDRASRVVDRFLADLESQNAGAAK	PGPT0014301_1690	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109	NA	NA
D1-29_03111	204	atpH_2		ATP synthase subunit c	ATGGAAGGCAATCTCAACCTCGTAGGTTACGGTCTGTCCGCAATCGGAGGTGGTATCGGTGTTGGTCTCGTGTTCGCCGCTTACATCAACGGTGTGGCACGCCAGCCGGAAGCCCAGCGCGTCCTGCAGCCGATCGCGTTCCTCGGCCTCGCGCTGACTGAAGCCCTCGCCATCCTCGGCCTGGTCTTCGCCTTCGTTCTCTAG	MEGNLNLVGYGLSAIGGGIGVGLVFAAYINGVARQPEAQRVLQPIAFLGLALTEALAILGLVFAFVL	PGPT0014302_3201	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110	NA	NA
D1-29_03112	738	atpB	COG0356	ATP synthase subunit a	ATGCATTTGCCGGCAATCCTGCCGTGGGGTGCCGCAGAGGGATTCTCCAAGCAGATGCTGCTTGTCCTGCTCTCTGTTGCCTTTATCGCCGTCTTCTTCGTGCTTGCCGCACGCAAGCAGCAGCTGGTACCAGGCAAGCTCCAGTTCGCCGGCGAGGCCGCCTACGGCTTCGTCCGCAACGGAATCGCCAAGGACATCATCGGCGGCAGGGACTTCATGAAGTATGTCCCGCTGCTGTTCAGCCTGTTCTTCTTCATCCTGGTGAACAACATCTACGGGGCCATCCCGTTCTTTCAGCTCCCCACGTTCTCACACGTCGGCGGCGCCTATGTCCTGGCGGGCATCGTTTACTTCACCTGGATCGCCATCGGCATCAAGAAGAACGGCCTGCGCTACTTCAAGCTGGCCACGGTGCCCTCCGGCGTTCCCTGGTACATCCTTCCGATCGTTATCCCGATCGAGATTATCTCCAACTTCCTGGTCCGGCCCGTCACGCACAGCCTCCGTCTGTTCGCGACCATGCTCGCCGGGCACCTCATCGTGATGATCGCCGGCTACGGCATCGAGTTCCTCATCATGCAGGAGAACGTCCTGCTGAAGGGCACCTCCCTCCTGGTCCTTGGCGGCGCGATCGCCATGTACATGCTTGAAGCACTGATCATGGTCCTGCAGGCCTATGTATTCACCCTGCTGACCGCGATCTACATCGAAGGCGCACTTCACGCCGACAGCCACTAG	MHLPAILPWGAAEGFSKQMLLVLLSVAFIAVFFVLAARKQQLVPGKLQFAGEAAYGFVRNGIAKDIIGGRDFMKYVPLLFSLFFFILVNNIYGAIPFFQLPTFSHVGGAYVLAGIVYFTWIAIGIKKNGLRYFKLATVPSGVPWYILPIVIPIEIISNFLVRPVTHSLRLFATMLAGHLIVMIAGYGIEFLIMQENVLLKGTSLLVLGGAIAMYMLEALIMVLQAYVFTLLTAIYIEGALHADSH	PGPT0014303_1975	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108	NA	NA
D1-29_03113	330			hypothetical protein	ATGTCTGACCGGAAGCGAGTGGGAGGCAGCGGCGCCTCCAAGCACCAGGTAACCGGTTCCGCACCTGGTGTTTCGGCTGAGAATAACGACGGCGGATACAACGCCGGAATAGCCGTCTTTAGCTACATAATTGGCGGAATCATCGTCTGGAGTTTGATAGGGTGGGGTCTGGATTATCTGTGGGGAACGCGCTGGTTCGTGCTCGCAGGCGCTCTGCTTGGAGCCGTCGGAGGTTTTTACCTTTCCCACATGCATGGCCTCACCAGTACTCGAAAAAATGCGGGGGATCGCCCTGCTGCCAGCGGGCCGTCCAAGGACGGCAAACACTAA	MSDRKRVGGSGASKHQVTGSAPGVSAENNDGGYNAGIAVFSYIIGGIIVWSLIGWGLDYLWGTRWFVLAGALLGAVGGFYLSHMHGLTSTRKNAGDRPAASGPSKDGKH	PGPT0030480_2325	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
D1-29_03114	483			hypothetical protein	ATGACCTCCAACGCCGAGTCCGGACATGCGTCCGGCTCCGGACCCGTTGGCGTTTCAGGTTCCACCGCGTCGCTGTGGCTGGGGCTCCTGCGGCTCAGTTCGCTGGCAGCCGCGGCCGGCTTGGCCCTGTGCTCCGTAGCCGCCGCGCTTCTGGACGGCGTCAACGGCGCCTTCTCGGTTGCTTTGGGCGGACTGCTGGTTATGGCATTCTTCGGAATCAGCCTCCTGGTAGGCCATTTCGTGGGGCGCAGCAACCCCTCGGGTGCCATTGGGGTGTTCGTTGCGACGTACTTCATCAAGGTGGTCGGGTTCGCCGTTGTCCTGTTCCTTATCGGGGCTCCGGAATGGCTGCATGGCCGTTGGTTCCTGATCGGTGCCGTCGTCGCAGTGCTGCTGTGGCAGGCCGCGGAGCTTTACGGCTTCAGCAAGGCACGGCTGCAGATCTATAACGACCCCGAAACCAAGGAACCGCGAGATGTCTGA	MTSNAESGHASGSGPVGVSGSTASLWLGLLRLSSLAAAAGLALCSVAAALLDGVNGAFSVALGGLLVMAFFGISLLVGHFVGRSNPSGAIGVFVATYFIKVVGFAVVLFLIGAPEWLHGRWFLIGAVVAVLLWQAAELYGFSKARLQIYNDPETKEPRDV	PGPT0030480_309	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
D1-29_03115	1113	wecA	COG0472	Decaprenyl-phosphate N-acetylglucosaminephosphotransferase	ATGATTATGTACCTGCTCATGGGCTTGACGGCTGCCGTCGTGTCCTATTCGATGACCTGGCTTGCCCGGGTGATCGGCAACAGGCTCGAACTGCACCTGCCCATCCGCAGCCGGGATATGCATTCCACCCCGGTATCACGGCTCGGCGGGGTGGCGATCTTCCTGGGGGTGATGGTTGCGCTCATTGTGGCAAGCCAGTCCTTTTTTGTGAAGGACATTTACCGGAACAACTTTTCCCCGTGGGGAATCCTCGCCGGAGCCGCGCTGATCGTGCTGGTGGGCGTAGCCGATGACCTGCTGGACATCCGTTGGTGGGTAAAGCTCATCGGACAAAGTGCCGCAGCCCTGGTGGTGGCCATCTGGGGAGTCCAGATGACCATTGTCCCCTGGGTACCGGAACCGATCACTTTGGACAATGAGATGCTCCGGGTGGTGCTGACTGCCGGGCTGATCGTCACCACCATGAACGCCTTCAACTTCATCGATGGGCTGGACGGGCTGGCTGCCGGTGTGGCCATCATCGGCGGCACAGCATTCTTTTTCACCGCCTACTGGGTGCACCGAAACGCCGTACTCCTGGACTATTCGGACCTGGCGACGCTGATCACCGCTGTTTTGGTGGGCAGCTGCATCGGATTCCTGCCGCACAACTGGTTCCCGTCCAAGATCTTCATGGGTGATTCCGGGGCCATGCTGATCGGCCTGCTGATGTCCGCGGCCGGTATCGTCTCCACCGGCCAGATCACTTCGGGCCTGTATGACCGCGCCAACGGCATTTCCACCGTCATTCCCATCCTCCTGCCGTTCGCCGTGCTCTTCCTGCCGCTGCTTGACTTGGGCCTGGCCGTAATTCGCCGCACAGCCCGCGGCCGGTCACCATGGTCTGCGGACCGCGGCCATCTCCACCACAAGCTGCTGGACATCGGCTATTCGCACCGGACCGTGGTGATCCTGATGTACCTCTGGACCGCCATCCTGTCTTTCGGAGGACTGGCTTTTGCAGTGTTCCCCTGGCAGATCGTGCTCTCCGCTGACCTCTTCGCCACGCTGGTCATGGGCCTGATCACCGCGTGGCCCTACCTCAGCCGCCGGAACGACCAGGCACCGGCGTAA	MIMYLLMGLTAAVVSYSMTWLARVIGNRLELHLPIRSRDMHSTPVSRLGGVAIFLGVMVALIVASQSFFVKDIYRNNFSPWGILAGAALIVLVGVADDLLDIRWWVKLIGQSAAALVVAIWGVQMTIVPWVPEPITLDNEMLRVVLTAGLIVTTMNAFNFIDGLDGLAAGVAIIGGTAFFFTAYWVHRNAVLLDYSDLATLITAVLVGSCIGFLPHNWFPSKIFMGDSGAMLIGLLMSAAGIVSTGQITSGLYDRANGISTVIPILLPFAVLFLPLLDLGLAVIRRTARGRSPWSADRGHLHHKLLDIGYSHRTVVILMYLWTAILSFGGLAFAVFPWQIVLSADLFATLVMGLITAWPYLSRRNDQAPA	PGPT0015240_1203	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
D1-29_03116	897	glfT1	COG1216	Galactofuranosyltransferase GlfT1	ATGCCCGTTCGGGTTGCTGTCGCCGCCGTGACATTTAACCGTCACAAAGAGCTGGCTGTCCTGTTGGACGCCATCAACGCCCAGTCCGCCACGGTGGACACCATTTGCCTCATTGACAGCGGCACCGAACCGGCCCGGGACGTGGCCGCCAAACATTCCAACGTCGATTACGTCCGCTCTGAGGCCAACCTCGGCGGCGCCGGAGGTTTTGCCCTCGCCGCCCTCAAGGCCGTTGCCAGCGGTGCGAAATGGATCTGGATGATGGACGACGACGCCGAGCCGGCGGACGCCGAATGCCTCGCCACGCTGTTGCGCGAGGCCGAGGCACGCGACCTTGAGGCGGTGGTCCCGCTGGTGACGGCGCCGGGCCATCCGGACCGGCTGTCCTTTTTCTTCCGCCTGGACGGCAAGGTCACCCACGACCGGGCAGAGGTGGAAAAGCTTGGCTTCCTGCCGGATGACGGCCACTTCTTCAACGGCGCACTGATCCGCTCTGACGTCTTTTTCAAAGTGGGCCTGCCGGACATGCGCCTCTTCATCCGCGGCGACGAAGTGGACTTCACCATCCGCCTGCGGAAGGCGGGCATCCGCTTTGGCACTGTCACCACCACTGCCATCACTCATCCGCATGCCTTCACCGAAACCAAGCACGTCTACGGCGCCGGCTGGCATGTGATTGTGCCGGAGTCGGCCTTCAAGCGGTACTACTACTACCGCAATCGCGGTTACCTGATCAGGCGCTACTTCCGCGTCAAATCGTTAGTGGCCGACGTCGGCGGTTATGTTGGATATTTTGCCCAGCGCCGGGACCTGCCCGGGTTCCTGGACTGGGCCAGGTCGTTCAGCACCGGTTTGCGGGCCAAGGGCTTCGCTCCCCTGGAGGACCAGAAGTTCTAG	MPVRVAVAAVTFNRHKELAVLLDAINAQSATVDTICLIDSGTEPARDVAAKHSNVDYVRSEANLGGAGGFALAALKAVASGAKWIWMMDDDAEPADAECLATLLREAEARDLEAVVPLVTAPGHPDRLSFFFRLDGKVTHDRAEVEKLGFLPDDGHFFNGALIRSDVFFKVGLPDMRLFIRGDEVDFTIRLRKAGIRFGTVTTTAITHPHAFTETKHVYGAGWHVIVPESAFKRYYYYRNRGYLIRRYFRVKSLVADVGGYVGYFAQRRDLPGFLDWARSFSTGLRAKGFAPLEDQKF	PGPT0024210_457	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ARABINOGALACTAN|LIPOARABINOMANNAN_REMODELLING	CE-REMODELLINGGALACTOFURANOSYLTRANSFERASE_ACTIVITY,PGPT0024210-glft1-K16649	NA	NA
D1-29_03117	759			N-acetylglucosaminyldiphosphoundecaprenol N-acetyl-beta-D-mannosaminyltransferase	ATGACGCTCGCTCGGCAGCAGATTCCTGTCCTGGGCATAGACGCCACACCACTGAAGGTAGCCGAACTCATGGCTGTCCTTGAGGGTTTTGTGGCCGACGGGACCACCAGGACCGTCCTGGGACACAACCTGCACAGCGTTACGCTCACTCATTCCGACGCGGCATTCCGTGCACTGTACGAGGACAGCGACGTCGTACTTCTCGACGGCGCACCCGTCCTGTGGTTGTGGAGCAGGTCCCGCACGGCCTCAGGGGCCGTGATGGATTATCGCCTGGGCTCCACCGACTGGATCCCTGCCCTTGGCCAGGTTGCCGGTCTTGAGCGGATCGCAGTCATCGGGGCAGGACCTGAAGCAAACGCCAAGGCAGTCCTGCGGCTCGAGGGTATTGTGCCGTCGGCCACGGTGGTGGGTATGCCGGGCGAAGGCTGGAATGACAGCGCCGAAGAAGCCGCAGCCGCGTGGCTCGAGGAGCAGCGTCCCCAGCTTGTCCTGCTCGGATTGGGCATGCCGCTGCAGGAGTCCGTGCTACAGCGCCGGATTGGTTCACTGCCGCCGGCGATCTATTGCACCGTTGGCGGAGCCATCGAACAACTGGCGGGAATCCAGAAGCTCGCACCCCGATGGCTGGGCAGGCTCGGCCTGGAGTGGGCATGGCGGCTCATCCTGCACCCCCGGCGGGTTGCCTACCGGGTTTTCGGTGAGCCGTGGGTCCTGCTCTGGCTCCTGGCCCGCCGCCGCCTCCGGCGCAACCCCTAG	MTLARQQIPVLGIDATPLKVAELMAVLEGFVADGTTRTVLGHNLHSVTLTHSDAAFRALYEDSDVVLLDGAPVLWLWSRSRTASGAVMDYRLGSTDWIPALGQVAGLERIAVIGAGPEANAKAVLRLEGIVPSATVVGMPGEGWNDSAEEAAAAWLEEQRPQLVLLGLGMPLQESVLQRRIGSLPPAIYCTVGGAIEQLAGIQKLAPRWLGRLGLEWAWRLILHPRRVAYRVFGEPWVLLWLLARRRLRRNP	PGPT0023455_1081	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
D1-29_03118	912	tsaC		Threonylcarbamoyl-AMP synthase	GTGACCATAACCTACGACTGCACGTCCGATGATCAGCGCGCCCTGGGACTGGAGCATGCCCAGCGTGCCATCAGCGAAAAAAAGTGCGTGGTATTGCCCACCGACACGGTATACGGGATCGCCGCGGACGCCTTCTCACCGCACGCAGTCACCATGCTGCTGGTCTCCAAGGGCCGCAGCCGGACCATGCCTCCGCCCGTCCTGATTCCTCGCCTTAACGCGCTGGACGGCCTGGCGACAGATGTTTCGGCGGACGCCCGCAAGCTGGCCGAGGCTTTCTGGCCCGGCGGACTCACCCTGATCCTGCATGCCCAGCCGTCACTGGACTGGGACCTGGGGGAGACCAAAGGAACCGTCGCCCTGAGGATGCCAGCAGACGAGGTTGCCCAGGAACTCCTCACGCTCACCGGGCCCCTGGCCGTATCGTCGGCTAACCGTACCGGCCAGGCCCCGGCGCAGACGGCCGCCGAGGCACGTGCCCAGCTCGCCGACTCCGTGGAGGTCTATCTCGAGGGCGGTGTCCGCCCGCTCAACACTGCTGAAGCCTTGCCTTCCACCATCGTGGACGCCACGGGCCCCCTCCTGCGTGTAGTGCGCAATGGCGCCGTGACGCTGGCGCAGTTGCGGGAACACGTGCCGGGGGTCCTGGGCCTGGGAGAAGTTCCGATGGCCGAGGAACCTGCAGCGGAAGAAGCCACGGAAGTCGAGGCGGCACCTGCAGCGGAAGAGGCCCCGGCGGCACCCGCAGCGGAAGAAGCCACGGCGGCACCTGAGGCAAAGCCCGTAGCTGACAAAGCCCAGGGAGTTCCTGCAGACGCAGCCCCTGCAGACGCAGCGGGACCGGAGCAGGCCACAACCCAGCCTGCTGCGGCGGAGCGCGCCGCCGGACCGCGGGAATCCGACGCCGGATGA	MTITYDCTSDDQRALGLEHAQRAISEKKCVVLPTDTVYGIAADAFSPHAVTMLLVSKGRSRTMPPPVLIPRLNALDGLATDVSADARKLAEAFWPGGLTLILHAQPSLDWDLGETKGTVALRMPADEVAQELLTLTGPLAVSSANRTGQAPAQTAAEARAQLADSVEVYLEGGVRPLNTAEALPSTIVDATGPLLRVVRNGAVTLAQLREHVPGVLGLGEVPMAEEPAAEEATEVEAAPAAEEAPAAPAAEEATAAPEAKPVADKAQGVPADAAPADAAGPEQATTQPAAAERAAGPRESDAG				NA	NA	NA	NA	NA
D1-29_03119	870	prmC_3	COG2890	Release factor glutamine methyltransferase	ATGACCACCAGCTCCGGGCAGTCCCTCGCCGCTGCCGTCAGCGAAGCAACGGCCGTACTCCAGGACGCCGGCGTTCCCAGTCCCCGAGTGGACGCGGAATTGCTGGCGGACCATCTGCTGGGTGTCGGACTGGGACGGTTGCGGGCCATGATGCTCGGTGACGCACCCGCGCCTGAAGGCTACGCCGAGCTTGTTGCCGAGCGGGCGCGACGGATTCCGCTGCAGCACATCACGGGAGTGGCCCATTTCAGGTACTTGGAGCTCGCCGTCGGACCCGGCGTGTTTATCCCGCGTCCCGAAACCGAATCGGTGGTGCAGCTGGTGATTGACCACGTCAAGGACATGCCACACCCGAGGATTGTTGATCTGGGAACGGGTTCCGGCGCGATTGCCGGTTCCATTGCCCACGAGATCCCCGGCGCTGATGTCCACGCCGTGGAGTACAGCGCCTTCGCCCACGCCTGGGCAGCCAGGAACCTGGCGCCCCTGGGCGTCAAACTAGTCCTGGGGGATCTGCGGAACGCGCTGCCCGACCACAACGGAACCTTCGACGTCGTGGTGTCCAACCCGCCGTACATCCCCGCCGAAGCCGTCCCGAACGAACCGGAAGTGGCACTGCACGATCCCCCGGAAGCGCTTTACGGCGGGGGAGCGGACGGCATGGAACTTCCGACGGCGGCAGCGGCCTCCGCAGCGCGGTTGCTGGTTCCGGGCGGCTACTTTGTGATGGAGCACGCCGAAGTGCAGGCGGCCTGGGTGGCCGCCCTGATGAAGCGGGCCGGCGTCTGGGCCGGGATTACAACGCATCTGGATCTCAACGGCAAGGAACGCGCCACCAGCGCCACACTGGCCGGTCCGCCTCCTGAGTGA	MTTSSGQSLAAAVSEATAVLQDAGVPSPRVDAELLADHLLGVGLGRLRAMMLGDAPAPEGYAELVAERARRIPLQHITGVAHFRYLELAVGPGVFIPRPETESVVQLVIDHVKDMPHPRIVDLGTGSGAIAGSIAHEIPGADVHAVEYSAFAHAWAARNLAPLGVKLVLGDLRNALPDHNGTFDVVVSNPPYIPAEAVPNEPEVALHDPPEALYGGGADGMELPTAAAASAARLLVPGGYFVMEHAEVQAAWVAALMKRAGVWAGITTHLDLNGKERATSATLAGPPPE				NA	NA	NA	NA	NA
D1-29_03120	1074	prfA	COG0216	Peptide chain release factor 1	ATGTTTGAGTCCGTACAGGGCCTGCTTGATGAGCATGATGCTATCCAGGCGCAGCTGGGGGATCCTGCTGTTTATGCTGACCAGCGGCTTGCCCGGAAGCTGGGGCGGCGTTCCGCTCAGTTGAACGGCATTGTGGAGGCTTACAACAAGTGGCATGCCATTGAGGATGACCTTGCCGCGGCGAAGGAGATGGCGGCGGAGGATCCTGAGTTTGCTGCCGAGGTGCCGGTGCTGGAGGCTGCCCTGGAGGAGGCTGCGGCCAAGCTGCGGCGCTTGCTCATTCCGCGCGATCCTGATGATGCCCGCAACGTGATCCTGGAGGTCAAGGGTGGCGAGGGCGGCGACGAGGCTGCACTGTTCGCCGGCGACCTGCTGCGGATGTACACCCGGTACGCGGAATCGCGCGGCTGGAAGACTGAGCTCATCTCGGCCACCGAATCCGATCTTGGCGGGTACAAGGACGTCCAGATGGCCGTCAAAGGCAACTCCAACGATCCGGCCGAGGGCGTCTATGCCCGGCTGAAGTTCGAGGGTGGAGTGCACCGCGTCCAGCGTGTTCCCGTGACTGAGTCGCAGGGCCGGATCCATACCTCAGCTGCGGGCGTGCTGGTCCTGCCCGAGGTTGACGAGCCGGAAGAGCTCGAAATCAACCAGAACGATCTCAAAATCGATGTCTACCGGTCTTCAGGCCCCGGTGGCCAGTCCGTGAATACCACTGACTCGGCTGTCCGCATCACGCACCTTCCCACCGGGATTGTGGTGGCCATGCAGAACGAAAAGTCGCAGCTGCAGAACCGCGAAGCCGGCATGCGCGTCCTGCGTGCCCGCATCCTGGCGCACCAGCAGGAGCAGATCGACGCAGAGAACTCGGCCCAGCGGAAGTCCCAGATCCGCACCATGGACCGTTCCGAACGCATCCGCACCTACAACTACCCGGAAAACCGGATTGCCGACCACCGCACCGGTTACAAGGCGTACAACCTGGATCAGGTCATGAACGGGGACCTGGAACCGGTGATTCAGTCAGCCATCGAGATGGACGAACAGGCACGCCTGGACGCCATCGGGGAATAA	MFESVQGLLDEHDAIQAQLGDPAVYADQRLARKLGRRSAQLNGIVEAYNKWHAIEDDLAAAKEMAAEDPEFAAEVPVLEAALEEAAAKLRRLLIPRDPDDARNVILEVKGGEGGDEAALFAGDLLRMYTRYAESRGWKTELISATESDLGGYKDVQMAVKGNSNDPAEGVYARLKFEGGVHRVQRVPVTESQGRIHTSAAGVLVLPEVDEPEELEINQNDLKIDVYRSSGPGGQSVNTTDSAVRITHLPTGIVVAMQNEKSQLQNREAGMRVLRARILAHQQEQIDAENSAQRKSQIRTMDRSERIRTYNYPENRIADHRTGYKAYNLDQVMNGDLEPVIQSAIEMDEQARLDAIGE				NA	NA	NA	NA	NA
D1-29_03121	2235	rho		Transcription termination factor Rho	GTGACCGAAACCACTGAGCTGTCTTCAGCTGTGGAACTATCATCTTCTGCTGCCGGATCATCAACGGCCGCGCCCGCAAAGAGCAGCGGCCTTGCCGGCCTGAAGCTCGCCCAACTGCAGGCACTTGCCAGCCAGTTGGGTATTTCCGGCGGATCCCGCATGCGCAAGGGGGACCTGGTCACGGCCATTTCCGCCCATCGCTCGGGCACGCCGGTCACCAAGGCCCAGGTCAAGGGCACAGAGAAGGCGAGCGAGACCAAGACCGCTCCCGCTGCGGCAGCACCGGTTGAGGCGCCCGCCGAAGCTACGGAGGCCCCGGCCGCCGAGGGAACCCGGGCACGTGGCCGCGGCCGCAGCCGCCGGGCCGGAAGCGACGGCGTCGTTGCCGCTCCCGCCTCAGAGTCTCCTGCCGCTGAAGCTCCCGCCGCATCGGTAGCTCCCGCCGCCGTCGAAACGCCTGCCGCCGAAGCAGGCGAGACAGCGGCCGAAGGCGCCGGCGAGCGTCGCCAGCCCCGCACCCGTAACCGCCGCCGTGGGGAAGCCGTTGCCGCTGCTCCGCTGGCTGCTGAAACCGTTGAAGCGGCTGCAGACCAGCCTGCTGCCGAGCAGCGCACGGCAGAGCGCACCGAGTCGCAGCCCGTCGAGTCCGGTGACGGCGCACGGGCGGACCGAAGCAGCCGCACCCGCGGTGCCAGGGACGGTGCCCGGGAAACTGCCCGCGACACCGCAGCCCGCGAAACCCCGGCACGGGACACCTCAGCCCGTGAGGCTGCCGACGGCGGCCGCGATAACGCAGGCAGCCGTGACGGCGGCCAGCGTGACGGCAATCGCCGGGAAGACACCCGGGAACTCGGCCGCGACAGCCGCGACAGCGACGATTCAGACGGCGGCAGCCGCCGGAACCGCCGGAACCGCCGCGACAGGAATGACCGCAGCGACCGTTCAGGCGGACAGGACAGCCGGGACAGCCGGGACAACAATTCCCGCAATGACCGTTTCCGTGACCGCAATGACCGCCGTCGCGGACGTGCCCAGGGCCCTGACGTCGACGACGTCGAGGTCACCGAGGACGACGTCCTGCTGCCGGTGGCGGGCATCCTTGACGTCCTGGAGAACTACGCGTTCATCCGTACGTCCGGCTACCTGCCCGGCCCGAACGACGTCTATGTGTCCCTGGCACAGGTCAAGAAGTACAACCTGCGTAAGGGCGATGCAGTGGTTGGCGCCATCCGCGCTCCCCGCGACGGCGAAGACCGCAGCCAGCAGTCGGCACGCCAGAAGTTCAACGCCCTGGTCCGCGTCACGTCAGTGAACGGCAAGACGTCCGAAGAGCTGAAGGACCGCGTCGAATTCGCCAAGCTGGTCCCGCTGTACCCGTCCGAGCGCCTGCGCCTCGAGACGGACCCCAAAAAGATCGGTCCGCGTGTCATCGACCTCGTGGCGCCCATCGGCAAGGGCCAGCGTGGCCTGATCGTCTCCCCGCCCAAGGCTGGCAAGACGCTCATCCTGCAGTCCATCGCGAACGCCATCACCACCAACAATCCTGAGGTCCACCTCATGATGGTGCTGGTTGACGAACGGCCCGAAGAAGTCACGGACATGCAGCGCACCGTCAAGGGTGAGGTCATTGCCTCCACCTTCGACCGTCCCGCCGATGACCACACCACCGTTGCTGAACTCTCCATCGAACGCGCCAAGCGCCTCGTAGAGATGGGCATGGACGTGGTGGTCCTGCTGGACTCCATGACCCGCCTGGGCCGCGCCTACAACCTGGCAGCACCGGCCTCCGGCCGCATCCTGTCCGGTGGTGTCGATTCCGCAGCGCTGTACCCACCGAAGCGCTTCTTCGGTGCAGCCCGCAACATCGAAAACGGCGGCTCGCTCACCATCCTGGCCACCGCGCTCGTGGAGACCGGTTCCAAGATGGACGAGGTCATCTTCGAAGAGTTCAAGGGCACCGGCAACATGGAGCTCCGCCTCTCCCGCCAGCTGGCAGACAAGCGCATCTTCCCGGCCGTGGACGTCAACGCGTCCGGCACCCGCCGCGAAGAGAACCTGCTTTCCCCCGAGGAAGTCAAGATCATGTGGAAGCTGCGCCGCGTCCTCTCCGGGCTCGAGACCCAGCAGAGCCTTGAGCTGCTGACCAACAAGATCCGGGAGACCCAAAGCAACGTCGAGTTCCTGATGCAGGTCCAGAAGACGACGCTTGGTGCAAAGTCCGATAACGACAAATAG	MTETTELSSAVELSSSAAGSSTAAPAKSSGLAGLKLAQLQALASQLGISGGSRMRKGDLVTAISAHRSGTPVTKAQVKGTEKASETKTAPAAAAPVEAPAEATEAPAAEGTRARGRGRSRRAGSDGVVAAPASESPAAEAPAASVAPAAVETPAAEAGETAAEGAGERRQPRTRNRRRGEAVAAAPLAAETVEAAADQPAAEQRTAERTESQPVESGDGARADRSSRTRGARDGARETARDTAARETPARDTSAREAADGGRDNAGSRDGGQRDGNRREDTRELGRDSRDSDDSDGGSRRNRRNRRDRNDRSDRSGGQDSRDSRDNNSRNDRFRDRNDRRRGRAQGPDVDDVEVTEDDVLLPVAGILDVLENYAFIRTSGYLPGPNDVYVSLAQVKKYNLRKGDAVVGAIRAPRDGEDRSQQSARQKFNALVRVTSVNGKTSEELKDRVEFAKLVPLYPSERLRLETDPKKIGPRVIDLVAPIGKGQRGLIVSPPKAGKTLILQSIANAITTNNPEVHLMMVLVDERPEEVTDMQRTVKGEVIASTFDRPADDHTTVAELSIERAKRLVEMGMDVVVLLDSMTRLGRAYNLAAPASGRILSGGVDSAALYPPKRFFGAARNIENGGSLTILATALVETGSKMDEVIFEEFKGTGNMELRLSRQLADKRIFPAVDVNASGTRREENLLSPEEVKIMWKLRRVLSGLETQQSLELLTNKIRETQSNVEFLMQVQKTTLGAKSDNDK				NA	NA	NA	NA	NA
D1-29_03122	975	thrB_1	COG0083	Homoserine kinase	GTGGACGCCACCTCGCAGACCACTGTTGGGCTGCCACTCATCGACGCCGGACAGCGGGTAACGGTCCGGGTCCCGGCCACCAGCGCGAACCTCGGACCGGGCTATGACAGCCTGGGACTGGCGCTGGCGCTTTATGACACCCTGACCGTGGAGAGCCTGGAGACGGACGAACTCGTCTTTGAGCTCAGCGGCGAGGGGGCGGATACGCTTCCGCGGGATTCCAGCCATCTGGTGATCAAAGCCATGGAGGCCGCTTTCGCGCGTCTCGGTTACCGCCACGGCGGCTTGAAGGTCACGGCGGAAAACGTGAACCCGCACGGCCGCGGGTTGGGATCCTCGGCATGTGCCGTGGTGGCCGCCGTGTCCGCCGCCAATGCTTTGGTCCCGGTGCAAAGCGGGCGCGACCGGGATTGGGTCCTCCAACTCACCAGTGAGCTGGAAGGACACCCGGACAACGTAGCACCGGCTATTTTCGGCGGACTGGCGCTGTCCTGGCAGGACAGTGACCGGTACAGCAGTACCTGTGCAACCGTGGCCGAGTCCGTGGTTCCCATAGTTGCCGTGCCTGACTACGAGCTTTCCACCGAGGCGGCGAGGGCCCTGCTGCCTGCCTCAGTGGCTCATCACGCAGCAGCCATGAACTCAGGCCGCGCCGCGCTGCTGATCCACGCGCTGACGCAAAAACCGGAATTCCTCCACCCCGGAACTGAGGACTACCTCCACCAGAGCTACCGCGCCGCAGCCATGCGGCCCAGCGCAGCACTCATCACGGCCCTCCGCGCAACAGGGCGGGCGGCCGTTGTTTCCGGCGCCGGACCCACGGTGCTGGTACTGGCCAACGGCGGGGCCGAAGCCTCCGACGTGGTCAGGTTCATCGAAGAGTTCACCCAAGCCAACACGCCTGACATTGCCTGGCGCGTGATGAAGCTGGCAGTGGACGTCGAAGGTGCTAAGGTGGACTTGCACCGGCGGTAA	MDATSQTTVGLPLIDAGQRVTVRVPATSANLGPGYDSLGLALALYDTLTVESLETDELVFELSGEGADTLPRDSSHLVIKAMEAAFARLGYRHGGLKVTAENVNPHGRGLGSSACAVVAAVSAANALVPVQSGRDRDWVLQLTSELEGHPDNVAPAIFGGLALSWQDSDRYSSTCATVAESVVPIVAVPDYELSTEAARALLPASVAHHAAAMNSGRAALLIHALTQKPEFLHPGTEDYLHQSYRAAAMRPSAALITALRATGRAAVVSGAGPTVLVLANGGAEASDVVRFIEEFTQANTPDIAWRVMKLAVDVEGAKVDLHRR	PGPT0020275_519	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020275-thrB-K00872	NA	NA
D1-29_03123	1107	thrC	COG0498	Threonine synthase	GTGGCTCACCAATGGCGCGGCGTTATCCGCGAATACGCTGACCGTCTGCCCGTGACGGAATCCACCCGGGTCATCAGCCTGGGCGAGGGCGGCACTCCGCTGGTCCACGCGCAGAAGCTCTCCGAACTGACAGGTTCCACCGTGTACCTGAAGGTCGAGGGGATGAACCCCACCGGCTCGTTCAAGGACCGCGGCATGACCATGGCCATGACGGCAGCAGTTGCGTCCGGCGCCCAGGCTGTGGTCTGTGCCTCCACCGGCAACACCTCCGCCTCCGCAGCCGCCTACGCCACGGCCGCGGGGCTGAAATGCGCAGTCCTGGTGCCCGAAGGCAAGATCTCCATGGGCAAGCTCAGCCAGGCGATCGCCCACGGCGCCACGCTGCTCCAGGTTGACGGCAACTTCGACAACTGCCTGGACATTGCCCGGAAGCTGGGGGAGTCCTACCCGGTTTTCCTGGTCAACTCCGTCAACCCGGCCCGCATCCAGGGCCAGAAGACAGGGGCCTTCGAGATCGTTGATGCCCTCGGTGACGCCCCGGACATCCATGTGCTCCCCGTCGGCAACGCCGGCAACATCACGGCGTACTGGAAGGGGTACAAGGAATACTCGGCCCCGTTCGAATCCGAGACCGCCGGGACCCTGCCTGCCGTGTCCACCAGGACGCCGCAGATGTGGGGCTTCCAGGCTGCCGGCGCGGCCCCCTTTGTAGCCGGCCACCCCATCACCGAACCTGACACCATCGCCACCGCCATCCGGATCGGCAATCCCGCCTCCTGGGACGGTGCGATCGAAGCCCGGGATGAGTCCGGCGGATTCATCGATGCCGTAACAGATGAGGAGATCCTGGACGCCCACCGCTGGCTCTCCGCCCGCGAAGGTGTCTTTGTGGAGCCCGGCTCCGCAGCCGGTGTCGCCGGCCTGCTCAAGAAGCACGCCGCAGGTGAGGTTCCTGCAGGCAAAACCATCGTCATCACGGTCACCGGCCACGGCCTCAAGGACCCCCAGTGGGCCCTGCGCACCGAAGACGGCAGTGACGTACAGCCCGTCAAGGTCTCCAACGACGTCGTGACGGTTGCGGCCGAATTGGGACTGGAAGAAAAATAG	MAHQWRGVIREYADRLPVTESTRVISLGEGGTPLVHAQKLSELTGSTVYLKVEGMNPTGSFKDRGMTMAMTAAVASGAQAVVCASTGNTSASAAAYATAAGLKCAVLVPEGKISMGKLSQAIAHGATLLQVDGNFDNCLDIARKLGESYPVFLVNSVNPARIQGQKTGAFEIVDALGDAPDIHVLPVGNAGNITAYWKGYKEYSAPFESETAGTLPAVSTRTPQMWGFQAAGAAPFVAGHPITEPDTIATAIRIGNPASWDGAIEARDESGGFIDAVTDEEILDAHRWLSAREGVFVEPGSAAGVAGLLKKHAAGEVPAGKTIVITVTGHGLKDPQWALRTEDGSDVQPVKVSNDVVTVAAELGLEEK	PGPT0009175_5380	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733	NA	NA
D1-29_03124	1329	hom	COG0460	Homoserine dehydrogenase	ATGACGGAAATGCGAACCCTGAAAGTAGCCCTGCTGGGCTGTGGCAACGTTGGGGCCCAGGTTGCGCGGATTCTCATTGAGGACGCCGACGCCCTTGCCTCCAGGACCGGTGCAAGGCTGGAGCTCAGTGGCATTGCCGTCCGAAACGTCAATGCCCGCCGCGATGTTGACCTGCCGCAGGAACTGTTCACCACCGACGCCGACACCCTGGTCAAGGATGCCGACCTCGTGATCGAGCTGCTGGGCGGGATTGAACCTGCCCGCTCGCTGATCGTTTCGGCACTCCGCAACGGCGCCGGCGTGGTTACCGGCAACAAGGCGCTGCTGGCCCAGGATGGCCCCACCCTTTATGAAGAGGCCGACAAGGCAGGCGTCCAGCTTTCCTACGAAGCCGCCGTGGCCGGCGCCATCCCCATCCTGCGGCCCATCCGCGACAGCCTGGCGGGGGACCGGATCACCCGCGTCCTGGGCATCGTCAACGGCACCACCAACTTCATCCTGGACCAGATGGACACCACTGGCGCGCAGTTCGCCGACGCCCTGGCAGAAGCCCAGCGCCTCGGTTACGCGGAGGCGGACCCCACCGCCGACGTCGAGGGGCACGATGCCGCCGCCAAGGCAGCCATTCTCGCCTCGCTGTCCTTCCACACGCGTTTCGCCCTGGAGGATGTGCACTGTGAAGGCATCACCTCGGTGAGCGCGGCGGACATCGCCGCAGCCAAGGACGCCGGCTTTGTCATCAAACTGCTGGCAATCGCCGAAAAATTGACCCCCGCAGGCACGGAAACAGACGGCATCGAAGGCGTATCAGTAAGGGTGCACCCCACCCTGCTTCCGCGCGAACATCCGCTCGCCGCGGTGCACGGGGCCTTCAACGCGGTCTTTATCGAGGCTGAGAACGCCGGCGAACTGATGTTCTACGGCCAGGGCGCGGGAGGAACCCCGACGGCGTCTGCCGTCCTGGGTGACCTCGTCTCGGCAGCCCGCCGGATCGTGCTGGGCGGCCCCGGACGCACCGAGACCACTACCGGACACGTTCCGGCCCTAGGCATCCAGTCCTCCACCACCAGTTACTACATCGGGCTCGACGTGGCAGATCAGCCGGGCGTGCTGGCCCGCATCGCGCAGCTCTTTGCCGAGCACGGCGTCTCCATCGAAATCATGCGGCAGACCATCCACAAGGACGCAGCTTCCAACGTGGAATCGGCCGAATTGCGGATTGTCACGCACCGCGCATCCGAGGCTGCCCTCGCGGCCACCGTCGAGGCCGTGAAGGGCCTGGACGTTATCAATTCAGTTACATCCGTTCTGCGGGTAGAAGGAGTCTAA	MTEMRTLKVALLGCGNVGAQVARILIEDADALASRTGARLELSGIAVRNVNARRDVDLPQELFTTDADTLVKDADLVIELLGGIEPARSLIVSALRNGAGVVTGNKALLAQDGPTLYEEADKAGVQLSYEAAVAGAIPILRPIRDSLAGDRITRVLGIVNGTTNFILDQMDTTGAQFADALAEAQRLGYAEADPTADVEGHDAAAKAAILASLSFHTRFALEDVHCEGITSVSAADIAAAKDAGFVIKLLAIAEKLTPAGTETDGIEGVSVRVHPTLLPREHPLAAVHGAFNAVFIEAENAGELMFYGQGAGGTPTASAVLGDLVSAARRIVLGGPGRTETTTGHVPALGIQSSTTSYYIGLDVADQPGVLARIAQLFAEHGVSIEIMRQTIHKDAASNVESAELRIVTHRASEAALAATVEAVKGLDVINSVTSVLRVEGV	PGPT0020155_900	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003	NA	NA
D1-29_03125	1476	lysA	COG0019	Diaminopimelate decarboxylase	GTGAACCCCGTGTCAGTAGAGGCCCGGAGCGAAGCCTCCCCCCTTGCCCCGGACTGGTTGGCGGTGCCGGCTGACCTGAACGCCCTCCAGGAACCCATGTGGGCGGGCAGCGTGAAGCGGAACAACGACGGCGTCCTGACGGTGGGAGGACGCGACGTCGCCGCCCTGAAGGAACAGTTCGGAACACCGCTTTTTGTGATGGACGAGGCCGACTTCCGTGCCCGGGCACGCGCGTTCAAAGACTCCTTCGACGCAGCTTTCCAGGACATTTGCGGGGGAGTGGACGTCTACTACGCCGGCAAGTCCTTCCTCTGTACCTCCGTGGTCAAGTGGGTTGAGGAAGAGGGTCTGCGCCTGGACACAGCTTCCGGCGGCGAACTGGCGGTAGCCGCGCGCGCCGGCATTCCCGGTGACCGCGTAGCGTTGCACGGTAACAACAAGTCCGACGCGGAGATCAACCGGGCGCTGGACATGGGCCTGGGCCGGATCGTGGTGGACAGCCTCGATGAACTCGTCCGCCTCGGCGCCATCGCCCAGCACCGCGGTGAGCAGGCCAAGGTCATGCTCCGCCTGACGCCTGGTGTCCATGCCCACACTCATGAATTCATCGCCACTGCCCATGAGGACCAGAAGTTCGGCCTGTCCATGGCCGGAGACTCCACCGACAAGGCAGGCCTGTCCGCAGCCGAGGAAGCCGTTGCAGCAGCCTCGGCGCATCCGGGCATTGAACTGCTGGGCCTGCACTGCCACATCGGGTCCCAGATCTTTGAGCCGGACGGCTTTGCGCTGGCAGCCGAGAAACTTCTGCGGTTCCTCGCCGCCATGCAAGAGAAATACTCCGTCCAGATGCCGGAACTGGACCTTGGCGGTGGCTACGGAATTGCCTACACACCCGTTGACACCCCCCGCCCCGCAGCTGACATCGCGACGGCGATGGCCGCCGTCGTACGTTCCACCTGTGCCGAACTGGGCATCACGGCACCCCGAATTTCCATCGAACCAGGCCGGGCCATCGTTGGCACCACCACCTTCACGCTGTACGAGGTGGGCACGCTAAAGACCGTCCGCGTCGACGCGCCCGCCGAGGCAGAAGGGCCCGAGAACGTTACGCATCCGCGTCGCTATGTGTCGGTGGACGGCGGCATGAGCGATAACGCCCGCCCGGTGCTCTATGACGCGGATTATTCGGCGATTCTTGCCTCCCGCACGTCCGCGGCGGCTCCGCAGCTGTCCCGCGTGGTGGGCAAACATTGCGAGAGCGGCGACATAGTTGTTAGAGATGTATATCTGCCCGAGGACGTGGCAGCCGGTGATCTGCTTGCTGTACCGGGTACCGGCGCCTACTGCTGGGCCCTGTCGAGTAACTACAACTATCTGGCCCGGCCGGGCGTTGTCGCGGTGCGCGACGGATCTGCCCGGCTGATTGTCCGCGGGGAAACCGAAGAAGATTTGCTCAACCGCGACATGGGAGTCTGA	MNPVSVEARSEASPLAPDWLAVPADLNALQEPMWAGSVKRNNDGVLTVGGRDVAALKEQFGTPLFVMDEADFRARARAFKDSFDAAFQDICGGVDVYYAGKSFLCTSVVKWVEEEGLRLDTASGGELAVAARAGIPGDRVALHGNNKSDAEINRALDMGLGRIVVDSLDELVRLGAIAQHRGEQAKVMLRLTPGVHAHTHEFIATAHEDQKFGLSMAGDSTDKAGLSAAEEAVAAASAHPGIELLGLHCHIGSQIFEPDGFALAAEKLLRFLAAMQEKYSVQMPELDLGGGYGIAYTPVDTPRPAADIATAMAAVVRSTCAELGITAPRISIEPGRAIVGTTTFTLYEVGTLKTVRVDAPAEAEGPENVTHPRRYVSVDGGMSDNARPVLYDADYSAILASRTSAAAPQLSRVVGKHCESGDIVVRDVYLPEDVAAGDLLAVPGTGAYCWALSSNYNYLARPGVVAVRDGSARLIVRGETEEDLLNRDMGV				NA	NA	NA	NA	NA
D1-29_03126	1650	argS	COG0018	Arginine--tRNA ligase	GTGACTCCCGAAGAACTCTCCCTCGCCATCTCCACCTGCCTGAAGGAAGCCGTCGCCGCAGGCGAAATCGCCCTTTCTGCATCAGCCGTGCCTGCCGAGGTGCGAGTGGAGCGTCCAAAGAACCGGGAACACGGAGACTGGGCCACCAACATTGCCCTGCAGCTGGCCAAGCAGGCCGGGACCAATCCCCGGGAGTTCGCCACCATCCTTAGTGCCCGGCTGAAGACGATCGACGGCGTTTCGGCCGTGGATATTGCAGGGCCGGGATTCCTGAATATCACCGTTGACGCGGCGGCAGCAGGCGCTTTGGCCAAGGCCATCGTGGAAGCCGGACCTGCCTACGGAACCACTACCGTGCTGGCCGGCCACGTGGTCAACATGGAGTTCGTCTCGGCAAACCCCACCGGTCCGCTGCATATCGGCCATACCCGCTGGGCCGCCCTGGGCGACTCCATCGCCCGTGTGCTGCGCGCCTCTGGTGCCGAAGTCACGGCCGAGTACTACATCAACGACGCCGGTACGCAGATGAACGTTTTTGCCCAGTCGGTGTACTCACGGCTCCACGGACTGCCCGTTCCCGACGGCGGCTATCCCGGACAGTACATTGCCGACCTCGGCCACGAGGTGCTCACAGAACACCCGGATATCCGCGAACTCACCAAGGTGGCCGCGATTCCTGTCATTCGGGCCGCCGCCTACAAGGCACAGATGAAGGACATCAGGTCCACGCTCGCGGACTTCGGCGTCCACTTCGACGTCTACTTCTCGGAACAGGAACTGCACGACGCCGGGGCGATCGAAAGTGCCGTCGCCCGCCTCCGTGAACAGGGACATGTTTACGACGACGGCGGTGCCGTCTGGCTGCGCACCACCGACTTCGGGGACGACAAGGACCGGGTGATGATCCGGGCCAATGGCGAGCCAACGTACTTCGCTGCCGATGCTGCCTACTACCTGTCCAAGAAGGACCGGGGCTTCACCGAGAAGATCTACCTGCTGGGCGCAGATCACCACGGGTACATCAACCGGCTCAAGGCCATCGCAGCCTGTGCGGGCGATGACCCGGAGACAAACATCGAGGTGCTGATCGGCCAGCTGGTCTCCGTCAACGGAGCCAAACTGTCCAAGCGCGCCGGCAACATCATCGAGCTCAAGGACCTGATCGATTGGCTGGGCAAGGACGCCGTGCGGTATTCACTGGCCCGTTTCCCTGCCGACTCCCCGCTGACGCTGGATCCGGACCTCCTCAAGAAGCACAGCAACGAGAACCCCGTGTTCTACGTGCAGTACGCTCACGCGCGCTCACGGGGCACCGCCAGGAACGCCGTTGCCGCCGGCGTGGACCGCAGCGCCTTCGACGCGTCTGTGCTGGACCACGCCACGGAAAACGAGCTGCTCTCCTACCTGGGCAGCTACCCGTCAATTGTGGCCATGGCCGCTGAGCTGCGTGAGCCGCACCGCGTGGCCCGCCACCTTGAGATTATCGCCGGCGCCTACCACCGCTGGTATGACGCCTGCCGCGTGGCTCCCCTGGGCGACGAACCTGTCACCGACGTCAACCGCACCAGGCTGTGGCTCAACGATGCCACCAGCCAGGTGCTGGCCAATGGCCTTGACCTCCTTGGCGTCTCTGCGCCGGAACGGATGTGA	MTPEELSLAISTCLKEAVAAGEIALSASAVPAEVRVERPKNREHGDWATNIALQLAKQAGTNPREFATILSARLKTIDGVSAVDIAGPGFLNITVDAAAAGALAKAIVEAGPAYGTTTVLAGHVVNMEFVSANPTGPLHIGHTRWAALGDSIARVLRASGAEVTAEYYINDAGTQMNVFAQSVYSRLHGLPVPDGGYPGQYIADLGHEVLTEHPDIRELTKVAAIPVIRAAAYKAQMKDIRSTLADFGVHFDVYFSEQELHDAGAIESAVARLREQGHVYDDGGAVWLRTTDFGDDKDRVMIRANGEPTYFAADAAYYLSKKDRGFTEKIYLLGADHHGYINRLKAIAACAGDDPETNIEVLIGQLVSVNGAKLSKRAGNIIELKDLIDWLGKDAVRYSLARFPADSPLTLDPDLLKKHSNENPVFYVQYAHARSRGTARNAVAAGVDRSAFDASVLDHATENELLSYLGSYPSIVAMAAELREPHRVARHLEIIAGAYHRWYDACRVAPLGDEPVTDVNRTRLWLNDATSQVLANGLDLLGVSAPERM				NA	NA	NA	NA	NA
D1-29_03127	468			hypothetical protein	ATGAGACCGTCAGTCCGCAAGAGTGTTTTCGCCGGGATCGCCGGCATATCCCTTATTGGAACAGTGGCCGGCTGCGCGCCCTCTGCCACTCAGGACACGCCTGCAACCTCCGCCGGCGGCACGTCCAGCAGCGCGCCCGCGGCGACATCGTCCTCCTTGGCCACCAGCGGCTCCAGCTACAAGGACGGAACGTACAGCGCCGACGGGAACTATGTCTCGCCCAACGGCACCGAAACAGTTGGCGTGGAACTGACACTCGCCTCAGGCAAGGTCACCGCCGTCGAGATCACTCAGCACCCGTCCAATCCGAACACGCGAAAGTTCCAAGGGGAGTTCGCGGGCGGCATCGCGGCCCAGGTGGTCGGCAAGAGCATTGACGAACTCAAGGTCTCCAAGGTGGCCGGGTCATCGCTAACCAGCGGCGGCTTTAACGACGCGGTGGAAAAGATCAAGTCGGAGGCCAAGTAG	MRPSVRKSVFAGIAGISLIGTVAGCAPSATQDTPATSAGGTSSSAPAATSSSLATSGSSYKDGTYSADGNYVSPNGTETVGVELTLASGKVTAVEITQHPSNPNTRKFQGEFAGGIAAQVVGKSIDELKVSKVAGSSLTSGGFNDAVEKIKSEAK				NA	NA	NA	NA	NA
D1-29_03128	876			hypothetical protein	GTGCCGCACACGCACTGGGAAGACTTCAGCTTTGACGGTATCGGCACGCGCTGGGACGTCTCCACGCCGATACCGCTGAATCCTTCCGTGCGTGTGCGGCTGCTTGCCCTCGTGGAGCGTTACGACGGCGACTGGTCCCGTTTCCGGGACGACTCCACTGTGGGGGCCATGGCCCGGCGGCCCGGACGCTATGAACTGCCGGGCGAAGCCATTGCCCTGGGCGGCCTGTACAGCTCCCTCTATGGGATCACGGACGGCGCCATGACTCCCCTGATCGGAGGCAGTCTCGAACGCCTGGGCTACGACGCCGGGTACACCCTCCGCCCTGCCGGGGAAGCCTTGCCCGCACCGCGCTGGGAGGACGTCCTGGACTGGGACGGCCGCGTGCTGACCACCTCCGCCCCGCTGGTCCTGGACATCGGTGCTGCCGGCAAGGGCATGCTGGTGGACCTCCTGGCTGACGAACTGCGGTCCTGCGGAGTGGACACGTTCCTGGTCGATGCGAGCGGGGACCTCCTGAACAGCAGTTCCGAACCGCTCTCCGTGGCCCTCGAACACCCTTACGACACCAGCAAAGCCATCGGGACCATGCAGTTGCCTGGCGGCATGTCCTTGTGCGCCTCAGCATCCAACCGGCGGTCCTGGGGTGACGGCCTCCACCACGTGCTGGATGGCACCACGGGCCGGCCGGTCAGGACAGCAGTGGCAACGTGGGCCATGGCCGAGAGCACGCTGCTGGCCGACGGGCTGGCCACCGCGCTGTTTTTTGTTCCCGGGGCTGATCTGGAGAAGACCTTCGACTTTTCCTGGCTCACTGTTTTTTCCGATGGTAGCGCTGCCTACTCGGCAGGATTTGAAGGGACACTGTTCACATGA	MPHTHWEDFSFDGIGTRWDVSTPIPLNPSVRVRLLALVERYDGDWSRFRDDSTVGAMARRPGRYELPGEAIALGGLYSSLYGITDGAMTPLIGGSLERLGYDAGYTLRPAGEALPAPRWEDVLDWDGRVLTTSAPLVLDIGAAGKGMLVDLLADELRSCGVDTFLVDASGDLLNSSSEPLSVALEHPYDTSKAIGTMQLPGGMSLCASASNRRSWGDGLHHVLDGTTGRPVRTAVATWAMAESTLLADGLATALFFVPGADLEKTFDFSWLTVFSDGSAAYSAGFEGTLFT	PGPT0000430_3955	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
D1-29_03129	1671	hmp_1		Flavohemoprotein	ATGAGCTCCGTTGATGCCCCCAAAACCGGCGCAGCCCTCTCCCCCGCCGCGCGGCTGGATACGGTGCTCGGCAGATTCACCATGTACCGGCTCATTCTCCTGGTGCTCGCCGCGCTGGCCGCCTACAGCCTGCTGCTCAACGCGCTCGGCTGGCTCACGTTTGGCATCCCGGAAATGCTGGTTCACCTGGCTTTGTGCCTTGGCCTGACGTATTCCTCGAACCGCGGGCTTGCGGTCCTGTTCCACGTCCGCCCGCATTCGGAATCTTCACTGATTACCGGGTTGCTCCTCTATTTCCTGTTCTGGCCGACGCTTGTGCCCGTGGATATGGCTGGCGTGGCATTGGCCTGTGTTCTTGCCTCGGCCTCCAAGTACGCGCTGGCCTGGCGCGGCCGCCACATCTTCAACCCGGCAGCGTTGGGCGCTTTTGTCACCGGCCTCACAGGGCTCAACATCGCCACCTGGTGGGCGGCAACTCCGGCAATGCTGTGGCTGTTGGTGCCCGGCATACTCCTGGTCCTGTACCGCACGCGGAAGTTCCTGATGGCGGCGGTGTTCACCGTTGTGGCCACGTCGATCGTCGCCGTGGAGCTGCTCCAGTCAGGTATGACCGCGGCCATGGCGTTGTGGCAGCCGCTGGCCCAGCGCCCCGTGCTGTTCTTTGTCGGTTTTATGCTGACTGAGCCGCTCACGTTGCCACCACGCCGATGGCAGCAGCTAGTACTGGCGGCAGGGGTTGGGGTGCTGTTTGCGGTGCCCTACAACTTCGGCTTTGTGGCCAACTCTCCCGAACTCGCCCTGCTGGTGGGCAACCTTTTGGCATTCATGGTGGGCCAGCGGGGTGGCTTGCGGCTGCGGTTTATGGGCGCCCGGCCGTTGACACCCACCACCACCGAATTCGCCTTCGAGCCCTCCCGCCCTGTCCGCTTTCGTCCCGGTCAGTACATGGAACTGGACCTTCCGCATGCTAAGTCCGATGGTAAGGGCCGACGCCGGGTGTTCAGCCTGACCAGCGCGCCCGACGCCGGAGCGGTCAAGTTCGGAGTCCGGACCGCCGAGCCGCTGTCTGCAGCCAAGAAGGTACTGCTGGAGTTGGAGCCGGGCGACACAGTGACAGCCACGTCCGTCGGAGGCGACTTTGTCCTTCCGCGTGATCCCCGAACTCCTGTTTTGCTGATTGCCGCCGGCATTGGCATCACGCCATATCTGGCGCATCTTGCGTCCGGAGCTGCCCAACAACGTGACATTGTCCTGCTGCTTTTGGCCAGGAATGCCGAAGAGATTGCCTATGCGGAGGAACTGAAAAACTCCGGAGCCAGGATCCTTGCCCGACTCGCAGATGGTTCGGCCCCTCCCGCGTTCATTACTGACGCAGGCACGATCACTGCGCCTGGGGCGGACGGTCGGTCTGGGGCGCGTGACAGCTCTGCCACTGACGCCTTGTCTCGTCCGGACGCCTTGGCCCGTCCGGACGCCGGGAACGGGGCGGGCGATGGAACCTCGGCCCGCGGCGCCAGGCTGGATGCCGCATCCCTCCGGGCTCTGGTGCCGGACATTGGCGAACGCGAGGTGTACGTTTCCGGTTCACCGACCAGCGTCGCCTCCCTGCGGCGCGCTGCGAAGAAGGCTGGAGCACGGAGGGTGCACGTGGACTCTTTCGCGGGCTACTGA	MSSVDAPKTGAALSPAARLDTVLGRFTMYRLILLVLAALAAYSLLLNALGWLTFGIPEMLVHLALCLGLTYSSNRGLAVLFHVRPHSESSLITGLLLYFLFWPTLVPVDMAGVALACVLASASKYALAWRGRHIFNPAALGAFVTGLTGLNIATWWAATPAMLWLLVPGILLVLYRTRKFLMAAVFTVVATSIVAVELLQSGMTAAMALWQPLAQRPVLFFVGFMLTEPLTLPPRRWQQLVLAAGVGVLFAVPYNFGFVANSPELALLVGNLLAFMVGQRGGLRLRFMGARPLTPTTTEFAFEPSRPVRFRPGQYMELDLPHAKSDGKGRRRVFSLTSAPDAGAVKFGVRTAEPLSAAKKVLLELEPGDTVTATSVGGDFVLPRDPRTPVLLIAAGIGITPYLAHLASGAAQQRDIVLLLLARNAEEIAYAEELKNSGARILARLADGSAPPAFITDAGTITAPGADGRSGARDSSATDALSRPDALARPDAGNGAGDGTSARGARLDAASLRALVPDIGEREVYVSGSPTSVASLRRAAKKAGARRVHVDSFAGY	PGPT0013685_27	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013685-gbcB-K21832	NA	NA
D1-29_03131	1665			hypothetical protein	ATGGACAACGGGGAAGTCTTGGAGGCAGTCGAAGCACCTGGTGCTGCCCTTGTCCTGATCGAAGCGGCCTCCTCCGCTGCTGCCGCAGGTTCTGATTCTGCTTCTGATTCAGTAGCCGAAATTGATACTGGTTCTGATCCGTTGCGGGATTTGGCGGAGGAGTGCCTGGCCGTCATGGCGGAGGCTGCCCGTGACGAGGCGCGGGCGGCTGCGCGGAAGGCCCGGGCTGCTGCCACGTACGCGGACATCTGCCGGCGCCTGCTTCCCCCGTCGGCGTCGCTGCACGAACAGTCCGTGGCGGAGATGGGCATGGTCGCGGAGGTGGCCTGTGTCCTGACCATCAGTGTAGGCGCCGCCTCGGCGTTCCTGGTCCAGTCCCGCCAGCTGAACACCGAACTGCCCCGCACCCTTGCTGCCCTGCAGGCCGGGGCCGTGTCCTGGCAGCACGCCCGGATCCTCTGCGATGAAACCGCCGGCCTGGGCCCCGCCGGTGCGGCAGCCCTGGAAACGCATTTCCTGGACCCCGACGCCGCCAAGGCTTCCCGCGCCTGCCTGGCCGGGGACCTTACACCCTCCCGGTTCCGTGCCAGGGCCCGGACCTGGCGCGAACGCCACCACCCCGTCTCGATCGAAACCCGCCACGCCAAATGCGTCCTGGACCGCCGCCTCGAGTACACCCCGGACCGCGACGGGATGGCCTGGCTCTCCGCCTACCTCCCCGCAGACCAGGCCGCCGGCATCTGGGAACACACCACCGCCGCAGCCCGGGCACTCCAAGGCCCCACCGAGCCCCGCACCCTCACCCAGCTCCGCGCCGACACCCTCGCCGCCGCACTCCTCTGCCGAGAGATCAGCAACCCCGGCAGCGACAGAGCCGGAGGCACCAGCGGCGCACTCCTTGATAGTGGGACTAACAGCGGCACTCTCATAGGCGCCGGAAGCACCAGCGGCCAAACCACCAGCTGGCGTAGCAGCAGCGGAGGGATCAACGGCGGCGGAAGCGCCAGCGAAGGTATCAACGGCGGCGGAATCAAGGGCGCAAATAGCCTTGCCAGTCGCGACGCAGAGCGCACTGCCGGGCAGGTCCCGCCGCCGCGGGCCCAAGTGCTGGTCACCGTGCCCGTGTTCTCGCTCCTGGGCCTCACCGACGAACCTGCCACCCTGGACGGCCACGGCCCCATCCCGGCCTCCATGGCAAGGAACCTGGTCGCCAACGGAGCCGACTCCTTCCACCGCGTCCTGACCGACCCCCGCGACGGCGCACCACTGGAAATCGGCCGAACCAGCTACCGGCTCACCACAGCCATGCGCCGCTGGCTCAGACTCCGCGACGCCAAATGCCCCTTCCCCGGCTGCAACAACCACTCCCTCGACAACGAAGCAGACCACCTCCTCGCCTGGGCAGACGGCGGCACCACCGGCATCAGCAACCTCGGCCAGCCTTGCCCCAAACACCACCACCTCAAACACAACACCACCTGGCAACCAACCCAGGCCAGCAAAAACGAACCACCCGGCTGGACCTCACCCACCGGCCGAGAGTACAAAAGCGAACACCAAGACTGGGAACCACCCCAGTGGCCGGACCAGATGGCAGAGATTTCCCGTGCACGCGACACAGAACACCGTCCGGAGCTGAAGCCGGCCCGTAATCCCGAACAATGA	MDNGEVLEAVEAPGAALVLIEAASSAAAAGSDSASDSVAEIDTGSDPLRDLAEECLAVMAEAARDEARAAARKARAAATYADICRRLLPPSASLHEQSVAEMGMVAEVACVLTISVGAASAFLVQSRQLNTELPRTLAALQAGAVSWQHARILCDETAGLGPAGAAALETHFLDPDAAKASRACLAGDLTPSRFRARARTWRERHHPVSIETRHAKCVLDRRLEYTPDRDGMAWLSAYLPADQAAGIWEHTTAAARALQGPTEPRTLTQLRADTLAAALLCREISNPGSDRAGGTSGALLDSGTNSGTLIGAGSTSGQTTSWRSSSGGINGGGSASEGINGGGIKGANSLASRDAERTAGQVPPPRAQVLVTVPVFSLLGLTDEPATLDGHGPIPASMARNLVANGADSFHRVLTDPRDGAPLEIGRTSYRLTTAMRRWLRLRDAKCPFPGCNNHSLDNEADHLLAWADGGTTGISNLGQPCPKHHHLKHNTTWQPTQASKNEPPGWTSPTGREYKSEHQDWEPPQWPDQMAEISRARDTEHRPELKPARNPEQ				NA	NA	NA	NA	NA
D1-29_03132	1092	prtS		Protease PrtS	ATGCAATTGTCAGCACAGAACGCTTCACCAGCACAGAACATTTCAACCGTGCGCTGTTCAATCATTCCGCCCTATCTGCTGCGGCGGCTGGCCCGTCAGGATGCACCTCAGTTCTCGGCCGCGGCCCGGGCTGCCAAGGAAGCGCTGGTTCACGTCAGGTCGTTCCAAGCGACGCGTACGCAGCCTGCACCTGCTGTTCCCCTGACGGTACGGCATGCGCGGCCAGGCCAACCACAACGTAGCGTCTATGATGCGGGCGGCACCGAAATCCTCCCCGGCAAACTGGTGCGAAAGGAAGGCGAGCCCGCATCCGGGGACGCGTCAACCGATGAAGCGTACGACGGACTGGGCCACACCCACCGCCTCTATGCCGACGTCTTTGGCCGTAATTCAATAGATGGCGAGGGGCTTCCGCTCGATGCCACCGTGCATTTCGGCAAGCTATATGACAACGCCTTCTGGGACGGAAGCCAGATGGTCTTTGGCGATGGTGACGGTGAGGTGTTTCAGCGCTTCACGCGGTCATTGAGCGTCATAGGGCATGAGCTTGCCCACGGTGTGACCCAGTACTCCGCTGGGCTGGCCTACCGCAATCAGGCTGGTGCCATCAACGAATCCATGTCAGATGTTTTTGGGGCCCTCGTGGAGCAGTATGTGAACAGGCAGTCCGTCAAGGAAGCCAGCTGGCTGATCGGCGAGGGACTCTTTACTCCTCAGGTGGAAGGCGCGGCCCTCCGTTCTCTTAAGGCCCCCGGAACAGCCTATGACGACGACGTTCTGGGCAAGGATCCGCAGCCCGACTCGATGGATTCATACGTTCGGACCAGCGCGGACAACGGCGGCGTCCACATCAACTCAGGCATCCCCAACCGCGCCTTCTACCTTGTGGCCGAAGCCCTGGACTCCAATGCATGGGAGGCCCCGGGGCAAATCTGGTACGACACCCTGACCTCAGGCTCGTTGCCTGTGACAGCAACCTTCAGCATCTTTGCAAGGGCCACGGCGTCCTCGGCAGTGGAACTCTTCGGCTCCGGCTCACCAGAGCATGACGCCGTGCTGCAGGCATGGGAAACTGTGAAGGTCAAGGTTTAG	MQLSAQNASPAQNISTVRCSIIPPYLLRRLARQDAPQFSAAARAAKEALVHVRSFQATRTQPAPAVPLTVRHARPGQPQRSVYDAGGTEILPGKLVRKEGEPASGDASTDEAYDGLGHTHRLYADVFGRNSIDGEGLPLDATVHFGKLYDNAFWDGSQMVFGDGDGEVFQRFTRSLSVIGHELAHGVTQYSAGLAYRNQAGAINESMSDVFGALVEQYVNRQSVKEASWLIGEGLFTPQVEGAALRSLKAPGTAYDDDVLGKDPQPDSMDSYVRTSADNGGVHINSGIPNRAFYLVAEALDSNAWEAPGQIWYDTLTSGSLPVTATFSIFARATASSAVELFGSGSPEHDAVLQAWETVKVKV	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
D1-29_03133	363			hypothetical protein	ATGAAAATCAGCGTGGAGCGCAGCGGCGGCATCGCCGCCTTCACCAGGGTGTGGACCGTAAACGCGGAAACCGAGAGCGCCAAGAGCCAGTGGCAGCCGATTGTCGAGGCCTGCCCCTGGGATGCCGTGCCCAGGACGCCACGGGCAGCGGCTGAAAGCACAGGAACCCAACCTGACCGCTTTATCTACTCCATCCAAGCCGGTCAGCGCCGGGCGGCGCTGCCGGAGCAGGCCGTCACCGGACCCTGGCGCGTCCTGGTGGACACCGCCCGTGCGGCGGCAGAAGATGCCAAGCCGCAACAGGAACAGCAACAGGAACAGGGACCCAACCAAGAACAGGGACCCAACCAGCGTCAGGCCTAA	MKISVERSGGIAAFTRVWTVNAETESAKSQWQPIVEACPWDAVPRTPRAAAESTGTQPDRFIYSIQAGQRRAALPEQAVTGPWRVLVDTARAAAEDAKPQQEQQQEQGPNQEQGPNQRQA				NA	NA	NA	NA	NA
D1-29_03134	969	cdhR	COG4977	HTH-type transcriptional regulator CdhR	ATGCTTAAAAAAGTGGCAGTCATCGTGGTTTCCAACTTTTCCATCTTCGAATTCGGCACTGCCTTTGAGGTGTTCGGGATAGACCGGTCCGCGCGCGGCACAGGTGTCCCGGCCTTCGATTTCCGTGTTTGTACGCCGGTACCCGGGAGCATAAAGCTCAAATCCGGTCTCTCCATGGACGTCAAGCTGGGCCTGGAGGCAACAGAGGATGCCGACCTGGTGATCATGACCCCTTATGGGCGGGACGAGGATGTTCCGGAGTCCGTGTTGGAAGCCTTGAGGGCTGCCGACGCCAGTGGAGCCTGGGTGATGTCCATCTGCTCCGGAGCCTTCGCCCTGGCCCGCGCCGGACTGCTGAACGGGAGGCGGTGCACCACCCATTGGCATTACTCCGCTGAACTTGCCAGCCGTTATCCGGACGTGCAGGTGGATGAGAACGTACTCTACGTGCAGGACGGCAACGTGATCACAAGCGCCGGCACGGCCGCAGGAATTGACGCATGCCTCCACTTGGTCCGGGTGGAGCTTGGGGCGAATGTGGCCACCGCGATTGCGCGTGACATGGTGGTGCCGCCCCACCGCGACGGCGGCCAGGCCCAATTCATTGAGCGGCCCATGCCCACCTGTGGCTCCGCCCCCATGGAGGAGCTGCTGCGCTGGATGGTGAAAAACCTGGAGACCGAGCACACCGTTGGTGAGCTCGCGGCCCGGGTGCACATGTCGCCGAGGACTTTCGCCCGCCGCTTCCGGTCCGAAACGGGGGCAACACCTGCTGCCTGGCTCAACTCACAGCGGGTCCTGCGAGCCCAGGAACTGCTTGAATCCACTGACCTGAATATCGATGAGGTGGCACGGGAGTCCGGCTTTGGCCATACCGTGCTGCTGCGGCACCACTTCGCCAAGGTGTTGGACACAAGCCCCCAGTCGTACCGGCGCGCCTTCCGGGGCCAGCTGGCGGAAGCGATTTAG	MLKKVAVIVVSNFSIFEFGTAFEVFGIDRSARGTGVPAFDFRVCTPVPGSIKLKSGLSMDVKLGLEATEDADLVIMTPYGRDEDVPESVLEALRAADASGAWVMSICSGAFALARAGLLNGRRCTTHWHYSAELASRYPDVQVDENVLYVQDGNVITSAGTAAGIDACLHLVRVELGANVATAIARDMVVPPHRDGGQAQFIERPMPTCGSAPMEELLRWMVKNLETEHTVGELAARVHMSPRTFARRFRSETGATPAAWLNSQRVLRAQELLESTDLNIDEVARESGFGHTVLLRHHFAKVLDTSPQSYRRAFRGQLAEAI	PGPT0014658_5	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014658-ypdC-NA	NA	NA
D1-29_03135	168			hypothetical protein	ATGGAAATCTTCGGACTCATCATCGTCATCCTGCTCCTCCTCATCCTGGCAGCCACCTTCTCAGCGCTCCTGCGCGATGGCGGTGGACATACTCCCCCCGTCGCCTCCCACCATGAGTGGTCTGCCCTGGATCTGCCCAGCAGCAGCTACACCCTGCGGATCTTCTGA	MEIFGLIIVILLLLILAATFSALLRDGGGHTPPVASHHEWSALDLPSSSYTLRIF				NA	NA	NA	NA	NA
D1-29_03136	4056			hypothetical protein	ATGACATTTCATATCTCCTACCCTGCCGAGCTGCCGGTCTCCGAGCGCCGCGAGGACCTGATGGCGGCCATCGCCGCCAACCAGGTAACCATCATCGCCGGGGAGACCGGCTCCGGTAAGACCACCCAGATCCCCAAGATGTGCCTCGAACTCGGCCTTGGTGAAAACGGGTTGATCGGTCATACCCAGCCCCGACGGCTGGCTGCCCGCACCGTAGCCGAGCGCATCGCTGAGGAACTTGGCGTCGAAATTGGCCAGGAGGTGGGCTTCCAGGTCCGGTTCACCGGGGAAGTCAGCCGCGCCACCAAGGTCAAGCTCATGACCGACGGCATCCTGCTGGCTGAAATCCAGCGGGACAGGCTGCTGCGCAAGTACAACGCAATCATCATTGACGAAGCCCATGAGCGCAGCCTGAACATTGACTTCATCCTGGGCTACCTCAAGCGCATCCTGCCTCAGCGGCCGGATCTGAAAGTCATCATCACCTCAGCCACCATCGACCCTGAACGCTTCGCCAAGCACTTCGGCAGTGACGAGGCGCCCTCCCCCATCGTCGAGGTTTCCGGCCGTACTTTCCCTGTGGAGATACGCTACCGGCCGCTGTCCCAGCCAGCGGGCGGAGCGGATGAGGAAAGCGCCTCCGACGACGAACTGGAGGAAGACCGGGACCCCCTTGACGCCGTCTGCGACGCCGTAGACGAGTTAGCCACCGAGGCACCGGGCGACATCCTGGTCTTCTTCTCGGGCGAACGCGAGATCCGCGATGCGGCAGAGGCCTTGAATGCACGGATCCAGTCCAACCGCAGGCTCTCCGGCACCGAGGTGCTCCCGCTCTTTGCCCGCCTCAGCCTCCAGGAGCAGCACAAGGTTTTTCATCCTGGAAGCAAGCGCCGCATTGTCCTGGCCACCAACGTGGCCGAGACGTCCCTGACGGTTCCCGGGATCAAGTACGTCATCGACACGGGCACGGCACGCATCTCGCGCTATTCCCACCGCACCAAGGTCCAGCGCCTGCCCATTGAGCGCGTGTCGCAGGCGTCGGCGAACCAACGCTCCGGGCGCTGCGGACGCGTGTCGGATGGAATCGCCATTCGGCTCTACTCCGAGGAGGACTTCGAGTCCCGCCCGTTGTTCACCGATCCTGAAATCCTGCGGACAAACCTCGCCGCCGTCATCCTCCAGATGACAGCCATGGGCGTCGCCCGCGGCCCCAAGGACATCGAAAAGTTCCCGTTTGTGGAACCTCCGGATTCGCGCGCAATCAACGACGGCGTCACCCTCCTTCGCGAACTCGGCGCCCTTAGCGCTGTCCGCTTGGAAGAGGGCAACGGAAACGGCAACGGCGACGGCGACCGCAACAGAGGTGACAACACCAGAAACGGTGCCGGCAAAAACAAGAGCGGCCTGACCGCCGTCGGACAGCAGCTTGCCCAGCTGCCCGTGGACCCAAGGCTCGGCCGGATGATCGTGGAATCAGGCAGACGCGGCTGTGTCCGCGAAGTGATGATCCTCGCTGCTGCCCTGACCATCCAGGATCCGCGCGAGCGCCCAACGGACAAGCAGCAGCTGGCCGCCGAAAAGCACGCCCGCTTCCGTGATGAGAACTCCGACTTCACCGGATTCCTCAACCTGTGGAACTACCTGCAGGAGAAGCAGCAGGAACTGTCCTCCACCCAGTTCCGACGGCTCTGCCGCAACGAGTTCATCAACTACCTGCGGGTCCGTGAGTGGCAGGACCTTTTTGCCCAGCTCCGCCAGCTCGCCAGGCCCCTGGGGATCAGCCTGGACAATAAGCGCCTTGCCGATCCGGTGGGCAACCACGACGGTATCCACATCAGCCTGCTATCCGGGCTGCTGAGCCACATCGGCATCCTGGACGAGCGTAAACGCGAGTACGCCGGGGCCAGGGGCAGCCGCTTCGCCATCTTCCCGGGTTCGGCCCTGTTCAAGAAGTCGCCCACCTTTGTCATGGCGGCCGAGCTGGTGGAAACCAGCCGCCTGTGGGCGCGCGTGGCGGCCAAATTCGATCCCGTATGGGCCGAGCAGGTTGCCCCGGACCTCGTCAAGCGCAGCTACAGCGAACCCCACTGGTCCACGAAAATGGGCGCCGTGATGGCGTATGAAAAGGTCACGCTATACGGCGTGCCCATCATCCCGCAGCGGAGGGTCAACTATAGCCGAGTAGACCCGGTTCTGGCCCGCGAACTCTTCATCAGGCACGCCCTGGTGGAAGGCGACTGGAAGACCCACCACAAGTTCTTCCACCGCAACCGAGCCCTCCTGCTGGAGGTTGAGGAGCTCGAGGCCCGAATGCGCCGCCGCGACCTGTTGGTGGATGACGAGACACTCTTTGAGTTCTACGACGCGCGGATCGGACCCGACGTGGTGTCCGAGCGGCACTTCGACAAGTGGTGGAAGGAGGCCCGGCAGAAGAATCCGGACCTCCTGGACTACGACAAGTCCCTCCTCATCAATGAGGATGCCGACGAACTGGATGATTCGGCCTACCCCAAGAGCTGGTACCACAAGGGCTTTGAGCTGCCGCTGACCTACGAATTCCACCCTGTAGCGCCCGGCTCACCTCCTAATCCGTCCGACGGCGTCACAGCTGAAGTGCCGGTGCTATTCCTGAACCAGCTGGATGACGCCCCGTTCCGCTGGCTGATTCCCGGGCAGCGCGTTGAGCTGGTGACGGCCCTGATCAAGTCGCTGCCCAAACAGATCCGCAAGAACTTCGTACCCGCCCCTGACATTGCCCGGCAAGCTGTGGCGGCCCTCGAAGCCGATTTTGATCCCGCCACCGACGAACTGGAAGCATCACTTGAACTGGCCCTACGCCGGATCCGCGGACACGTTATCCCGCCAGGATCCTGGAATTGGGACGCCGTACCGCCGCACCTCCGCGTGAGCTTCAAGGTTGTGGACAGCAAGGGCAAGGTTCTGGATGAGGGCAAGGACCTTGGAGTTCTTCAGGAGCGCTTGGCACCCGCAACCCGCCGTGCCATCGCCGAATCCCTCGGAGCAACCCCCGGGACCACTGGTCCAGGCGCTCAGGGGAACGGTACCAAAGGCGGAGCCTCTGGCGGAGGCGCAGGCCGGGCGGGCGGCGTCGGACGCGGCGGCCAGGCCGCAGGCCACGGTGAAGTCGAGACCGATGCAGCCGGGCAAACCGGGTCCGCCTTGTTCAGGGAGCTCAGCGGCCTGACCGCCTGGACCTTCGGCACCCTTCAGCGCCAGGTCAGCAACACCGTCAAGGGACACACCGTTACCGGTTACCCTGCCTTGGTGGACGAGGGCACGTCGGTGGCGCTCCGGGTTTTCCAGACGCCCTCAGAACAGCTGGAGTCCATGCGTGGCGGCGTCATCAGGCTCCTCGCGCTCAGGGTGCCCGCGCCGGACCGCTATGTGCTGGAGCACCTGAACAACATTGAGAAACTGACCTTCAGCCAGAATCCGCACGGCTCAGTGTCCGCGCTGATAGCGGACTGCGCCCTCGCTGCGATCGACAAGCTGACGCCGGTGGAGCTGCCTTGGGACCGCGAAGCCTTTGACGCCCTCTATGAGCAGGTCCGGGCTGAACTGATCGATACCGTTTTCGGCGTGACCGCCGTGGTGGAGCGCATTCTCTCCAGCACCCGTCGGATCGAGAAGCAGCTCCGGGGAACCACCAGCCTGGCCCTGATCAGCGCCCTGAATGATGTGAAAAGCCAGTTGGAACAGCTGGTGTATCCGGGTTTTGTGGCCAAAACCGGGTACGCCCAGCTGAGTCAACTCCCCCGCTACCTCGCCGCCATCGAAAAACGGCTCGAACGTCTGCCAGGCAATGTCCAGCGCGATGCGCTTCACATGGCCGCCATCCAGCGGCTGGAGGACGACTACGACGACGCCGTCTCCGCCCTTCTCCCGGGGCGGCAGGCTGGTTCCGAACTGAAGCAGGTCCGCTGGATGATCGAGGAACTCAGGGTGAGCCTCTTCGCCGTCGAACTCGGCACGGCCTACTCCGTGTCGGAGAAACGGATCCGGGCCGTGCTGAATAAGGCTCTGGCCCCTGCCTAA	MTFHISYPAELPVSERREDLMAAIAANQVTIIAGETGSGKTTQIPKMCLELGLGENGLIGHTQPRRLAARTVAERIAEELGVEIGQEVGFQVRFTGEVSRATKVKLMTDGILLAEIQRDRLLRKYNAIIIDEAHERSLNIDFILGYLKRILPQRPDLKVIITSATIDPERFAKHFGSDEAPSPIVEVSGRTFPVEIRYRPLSQPAGGADEESASDDELEEDRDPLDAVCDAVDELATEAPGDILVFFSGEREIRDAAEALNARIQSNRRLSGTEVLPLFARLSLQEQHKVFHPGSKRRIVLATNVAETSLTVPGIKYVIDTGTARISRYSHRTKVQRLPIERVSQASANQRSGRCGRVSDGIAIRLYSEEDFESRPLFTDPEILRTNLAAVILQMTAMGVARGPKDIEKFPFVEPPDSRAINDGVTLLRELGALSAVRLEEGNGNGNGDGDRNRGDNTRNGAGKNKSGLTAVGQQLAQLPVDPRLGRMIVESGRRGCVREVMILAAALTIQDPRERPTDKQQLAAEKHARFRDENSDFTGFLNLWNYLQEKQQELSSTQFRRLCRNEFINYLRVREWQDLFAQLRQLARPLGISLDNKRLADPVGNHDGIHISLLSGLLSHIGILDERKREYAGARGSRFAIFPGSALFKKSPTFVMAAELVETSRLWARVAAKFDPVWAEQVAPDLVKRSYSEPHWSTKMGAVMAYEKVTLYGVPIIPQRRVNYSRVDPVLARELFIRHALVEGDWKTHHKFFHRNRALLLEVEELEARMRRRDLLVDDETLFEFYDARIGPDVVSERHFDKWWKEARQKNPDLLDYDKSLLINEDADELDDSAYPKSWYHKGFELPLTYEFHPVAPGSPPNPSDGVTAEVPVLFLNQLDDAPFRWLIPGQRVELVTALIKSLPKQIRKNFVPAPDIARQAVAALEADFDPATDELEASLELALRRIRGHVIPPGSWNWDAVPPHLRVSFKVVDSKGKVLDEGKDLGVLQERLAPATRRAIAESLGATPGTTGPGAQGNGTKGGASGGGAGRAGGVGRGGQAAGHGEVETDAAGQTGSALFRELSGLTAWTFGTLQRQVSNTVKGHTVTGYPALVDEGTSVALRVFQTPSEQLESMRGGVIRLLALRVPAPDRYVLEHLNNIEKLTFSQNPHGSVSALIADCALAAIDKLTPVELPWDREAFDALYEQVRAELIDTVFGVTAVVERILSSTRRIEKQLRGTTSLALISALNDVKSQLEQLVYPGFVAKTGYAQLSQLPRYLAAIEKRLERLPGNVQRDALHMAAIQRLEDDYDDAVSALLPGRQAGSELKQVRWMIEELRVSLFAVELGTAYSVSEKRIRAVLNKALAPA				NA	NA	NA	NA	NA
D1-29_03137	429		COG0537	putative HIT-like protein	ATGAGTACCCTGTTCACCAGGATCCTGAACGGCGAAATTCCGGGCCGCTTCGTTTGGCGTGAACCAGACGTTGCGGCGTTCCTGACCACCGGCCCGCTGGCTGATGGGCACACCCTGGTTGTCCCTACCGAAGAGGTGGACCGCTGGACCGATGCCTCACCGGAAACGCTGGCGAAGGTGATGGAAGTGGCACGGCGGATTGGCGCTGTCCAGGTGGAGCTTTTCAACGCCCAGCGTGCCGGACTCATCGTGGCAGGCTACGAAATCAACCACTTCCACGTCCACGTCTGGCCATCCCAGAGCATGGCAGACTTCGACTTCGCCTCGGCTGACCAGAATCCGGACCCTGCCGTACTGGACGCAAACGCCGAGAAGCTGCGTGAGGGATTGAGGGCAGCCGGCTACGCGGAGTTCGTGCCGGAAAGCTGA	MSTLFTRILNGEIPGRFVWREPDVAAFLTTGPLADGHTLVVPTEEVDRWTDASPETLAKVMEVARRIGAVQVELFNAQRAGLIVAGYEINHFHVHVWPSQSMADFDFASADQNPDPAVLDANAEKLREGLRAAGYAEFVPES				NA	NA	NA	NA	NA
D1-29_03138	1176	yahK	COG1064	Aldehyde reductase YahK	ATGACTCCTGGACGACCCGTACCGCCTCCTCTCGCCCAAACTATTTCTCCCGTCACCGGCCCTGCTTCTCCTGCGAACAGCGATGACCTCCTGGCCGGTAACCGCCTCGCGGCGGCTTATGGCGCCGTCTCCGACAACAGCGGCTTGGTGCCCCTGACGCTGGCACGGCGCGTGCCCAAGGAGGATGACGTCGAGATTGCGATTGACTTTTGCGGCCTGTGCCACTCCGACGTCCACGCAACGCGGGGCGAGTGGGGATCACAGCACTATCCGCTGGTGCCGGGCCACGAAATCGTTGGAACTGTCAGCCGCGTGGGGTCAGCCGTCGATGATTTCTCCCCGGGCGACCTGGTGGGTGTCGGCTGCATGGTGGACTCCTGCCGTGAGTGCGACAGCTGCCTGGAAGGACTGGAACAGTACTGCGAGAACGGTATGACCGGGACCTATGGGGCCCAAGATGCCCGCAACGGCGGCTCCGTCACCCAAGGCGGCTACTCGTCCTCTGTGGTGGTTGACCGGCGCTATGTGGTCCACGTTCCCGGGAACCTGGACCCGGCTGCCGTGGCCCCGCTGCTCTGTGCCGGCGTCACCACTTTCTCTCCGCTGCGTCACTTCAATGTGGAGGAAGGCGACGTGGTGGGCGTGGTGGGCCTGGGCGGTCTGGGGCACATGGCCGTCAAGCTTGCCAAGGCCATGGGAGCAGTGGTGAAAGTTTTCACGACCTCTGAGTCGAAGGTCCCGGCAGCGCTTGAGCTGGGAGCGGATGAAGTCATCCTTTCGGCGGACAAGGACGCCATGGCTGCTGCTGGCCGGAGCATCGATGTCATCATTGACACCGTGGCGGCACCGCACGATCTGAACCCGTTTTTCCGCACCCTGCGCCGTGACGGCGCTTTGTTCCAGCTGGGATTGCCGTCCGAGGCCATGCCTCCGGTTAATCCCGGCGCGCTGATCCGCCGTCGGATAGCTTATGCGGGTTCGCTTATTGGCGGGATCGCCGAAACCCAGGAGATGCTCGACTTCTGCGCCGAACACGGCGTGGTTGCGGACATCGAAATAGTCCGCGCGGACCAGCTGAATGATGCCTATGACCGTATGGTGGCAGGCGACGTTAAATATCGGTTTGTGCTGGACACCAGCACACTGCAGGCTCCGGCCAAGGAGGCAAACGCATGA	MTPGRPVPPPLAQTISPVTGPASPANSDDLLAGNRLAAAYGAVSDNSGLVPLTLARRVPKEDDVEIAIDFCGLCHSDVHATRGEWGSQHYPLVPGHEIVGTVSRVGSAVDDFSPGDLVGVGCMVDSCRECDSCLEGLEQYCENGMTGTYGAQDARNGGSVTQGGYSSSVVVDRRYVVHVPGNLDPAAVAPLLCAGVTTFSPLRHFNVEEGDVVGVVGLGGLGHMAVKLAKAMGAVVKVFTTSESKVPAALELGADEVILSADKDAMAAAGRSIDVIIDTVAAPHDLNPFFRTLRRDGALFQLGLPSEAMPPVNPGALIRRRIAYAGSLIGGIAETQEMLDFCAEHGVVADIEIVRADQLNDAYDRMVAGDVKYRFVLDTSTLQAPAKEANA	PGPT0024430_29	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
D1-29_03139	879	sseB	COG2897	Putative thiosulfate sulfurtransferase SseB	ATGGGCCCCCTGATGGATGTAGCCACCCTGGAAGCCCGGCGGGCTGCCGGCCAGCGGACTGTCCTGCTGGATGTTCGCTGGGCCCTGGGGGATCCGCACGGCCGGGACCACTACCTCGCCTCCCATCTGCCAGGCGCCGTATACGTGAATCTCCCCACCGAGCTCGCCGCGCCTGCCGTCCCTGCCCGCGGCAGGCATCCGCTTCCAGCTGCTGCCGATTTCCAGGCCGCAGCCAGGCGTTGGGGGATCAACGACGGCGACGTTGTGGTGGCCTACGACAACAGCGGCAACATGGCCGCGGCCCGGCTCTGGTGGATGCTCCGAAATGCGGGCCTCCAGGAGGTCTACCTGCTCGACGGCGGCCTGGCCGCCTGGCAGAATGCCGGGCTCCCTCTAGAGGAGGGACCGGTGGAGTCCCTTCCCGGCGACGTTTCTTTTAGCGATGTCTCTGCCGATGACTCCAATAAGGCAGGCGGGATGCCGGCTATTGATGCGGCCACCGCAGGAAGCTGGGCGGGAAAAGGCGTGCTCCTGGATGCCCGGGCAGGGGAAAGATACCGGGGCGAGTTCGAACCTGTTGATCCGCGCGCCGGCCACATTCCCGGCGCCGTCAGCGCACCGACGTCGGATAATGTGGACGAGTCCGGCCGTTTCCTGCCGGCGGCGGAGCTCCGGCGGCGCTTCGAAGAGCTCGGAATCAGGGACGACGTCCCGGTGGCGGTGTACTGCGGCTCCGGGGTGACTGCCGCCCATGAGGTGGCAGCGCTGGAAATAGCGGGAATACCGGCTTCGCTTTATCCAGGTTCCTTCTCGGAGTGGTCCAATAATCCGTCGCTGCCAGTCGTCACCGGGAAGGAGCCCGGCGGCGATCAACCTTGA	MGPLMDVATLEARRAAGQRTVLLDVRWALGDPHGRDHYLASHLPGAVYVNLPTELAAPAVPARGRHPLPAAADFQAAARRWGINDGDVVVAYDNSGNMAAARLWWMLRNAGLQEVYLLDGGLAAWQNAGLPLEEGPVESLPGDVSFSDVSADDSNKAGGMPAIDAATAGSWAGKGVLLDARAGERYRGEFEPVDPRAGHIPGAVSAPTSDNVDESGRFLPAAELRRRFEELGIRDDVPVAVYCGSGVTAAHEVAALEIAGIPASLYPGSFSEWSNNPSLPVVTGKEPGGDQP	PGPT0002045_1711	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
D1-29_03140	1083	sbnA		N-(2-amino-2-carboxyethyl)-L-glutamate synthase	GTGAATAGGGCAAGCAGCACCGACCGCTCCTGGGCAGACCAGGCAGTCCGCAAGATCAGCGCAGAAAACAACCGCTCCGCCGACACCCATCTCTACTCGGTCCCCCTTCCACAACACTGGGGTGTCCAGCTCTATCTCAAGGACGAATCGACCCACCGCTCCGGAAGCCTCAAGCACAGGCTGGCCCGTTCCCTCTTCCTGTTCGGCCTGGTGAACGGTTGGATCAGGGAAGACACCACTATCGTGGAGGCCTCCAGCGGCAGCACAGCGGTCTCGGAGGCGTACTTCGCGCAGCTGTTAGGGCTTCCTTTTGTGGCAGTAATGACCCGGACTACCAGCCCTGAGAAAATCGCCCTGATTGAACAGTTCGGCGGCTCCTGCCTGCTGGTGGACCATGCATCAGAGGTGTACGCCGTGGCCAGGGAAGTAGCAGAAACCAGCCGCGGTCACTACATGGACCAGTTCACGTACGCCGAGCGGGCCACAGACTGGCGGGGCAACAACAACATTGCCGAATCCATCTTCCAGCAGCTGGAGCTGGAAGAGCACCCGGTGCCTGACTGGGTGGTTGTTGGCGCGGGCACAGGCGGCACCAGCGCCACCATAGGCCGGTACCTCCGCTACCACTGCCATCAGACCCGGCTGGCTGTGGTGGATCCCGAAAACTCAGCTTTCTATCCAGGCTGGCGTGACGGTGTGCCGGACTACAGCACCGGGATGCCGTCGCGGATCGAAGGCATCGGCCGGCCCAGGATGGAACCCAGCTTCGTCCCTTCTGTGATCGACCGTATGATTCAGGTCCCGGACGCCGCCTCCGTGGCCGCCATGCGGCATCTGAGGACTGTTGCTGACCTGCACGCCGGGCCCTCAACGGGCACCAACCTGTGGGGCGTCTGGCAGCTGGTAGCGGAGATGATCGCCGAGGGACGGCGTGGCAGTATTGTGTCGCTCATGTGCGACGGCGGCGAACGCTACGCGGGGAACTACTACAACCCTGCCTGGCTGGCCAGCCAGAATATGGATCCTGAGCCACACGAAGCGGTGCTCAAAAAGTTCTTCGACACGGGTGTTTGGGAGGGCTAG	MNRASSTDRSWADQAVRKISAENNRSADTHLYSVPLPQHWGVQLYLKDESTHRSGSLKHRLARSLFLFGLVNGWIREDTTIVEASSGSTAVSEAYFAQLLGLPFVAVMTRTTSPEKIALIEQFGGSCLLVDHASEVYAVAREVAETSRGHYMDQFTYAERATDWRGNNNIAESIFQQLELEEHPVPDWVVVGAGTGGTSATIGRYLRYHCHQTRLAVVDPENSAFYPGWRDGVPDYSTGMPSRIEGIGRPRMEPSFVPSVIDRMIQVPDAASVAAMRHLRTVADLHAGPSTGTNLWGVWQLVAEMIAEGRRGSIVSLMCDGGERYAGNYYNPAWLASQNMDPEPHEAVLKKFFDTGVWEG	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
D1-29_03141	657			hypothetical protein	ATGAAGCTGACAAAATACACCCACGCCTGCGTCCGGCTCGAAAAGGACGGCCGGGTGCTGGTGCTGGACCCAGGGACGTTCTCGGAGACGAAGGAAGCCCTGGCCGGTGCGGAGGCGGTGCTCGTCACGCACGAGCACGGTGACCATATCGACGTGCCCGCCATGGTGAATGCCCTGCGCGGGAATGACAGCCTGGCGGTGTTCGGCCCCGCCGGTGTGGCGGCCCACCTGCGTGAAGAGGCACCGGAAGCGGCAGGCCGGATCCATACGGTGGAGCCCGGCAGTTCATTCGAGGCGGCAGGCTTCAGCATCCGCAGTTACGGCGGCCAGCATGCCCTGATCCATCCCCAGATCCCGGTGGTCGTCAACATCGGCTACCTCGTGGACGGGAATGTCTACCATCCGGGTGACTCCTTTATCATCCCTGACGGAATGAGCGTTCAGACCCTCCTGGTTCCCCTCCACGCGCCGTGGAACAAGGTCAGCGAGGTGATCGATTTTGTGATCGGAGTACGGGCCGCACGTGCGTTTCAGATCCATGATGGGCTGCTGAATGAGATGGGCCTCAAAATGGTGGAATCGCATGTGGCCTGGCTGGGTGGCAAGTACGGAACGGAGTTCGTGCACCTTGCCCCCGGCGAATCGGTGGAGGTGTAG	MKLTKYTHACVRLEKDGRVLVLDPGTFSETKEALAGAEAVLVTHEHGDHIDVPAMVNALRGNDSLAVFGPAGVAAHLREEAPEAAGRIHTVEPGSSFEAAGFSIRSYGGQHALIHPQIPVVVNIGYLVDGNVYHPGDSFIIPDGMSVQTLLVPLHAPWNKVSEVIDFVIGVRAARAFQIHDGLLNEMGLKMVESHVAWLGGKYGTEFVHLAPGESVEV				NA	NA	NA	NA	NA
D1-29_03142	501			hypothetical protein	ATGCCGTTCGGCACCAAGGCTGACGAAACCACGCCGTCCACCTCTGCCCCTTCACCCGCCACGGGCGCGGGCATCGGAGCAACGGGAGCCGGAAAGGAACAGCGCGTCACTAAGCAGCGCCTGGCCATCAGCGCCGCGCTGGATGACCTGAATGACTTCGTGAGCACGCAGGAGCTTTACCGGATCCTCCAGAACCAGGGCGTTTCTGTATCACTCGCTACGGCCTACCGCATTTTGCAATCCCTCGCCGATGAGGGACTTGTCGATGTGCTCCGCAACGGTGAAGGCGAGGCCGTCTACCGCCGCTGCGCAGTCACTGAACACCATCACCATCTCCTGTGCCGCAACTGCGGCAAGGCCGTGGAAGTCGAAGCCCCTGCAGTGGAAACGTGGGCTGCCCGGACGGCGAAAGACCACGGCTACACCGACGTTGCACATACCGTGGAGATCTTCGGTTTTTGCCCGGACTGCACCGTCCGCAAGGCGGCCGGCGAGCTCTGA	MPFGTKADETTPSTSAPSPATGAGIGATGAGKEQRVTKQRLAISAALDDLNDFVSTQELYRILQNQGVSVSLATAYRILQSLADEGLVDVLRNGEGEAVYRRCAVTEHHHHLLCRNCGKAVEVEAPAVETWAARTAKDHGYTDVAHTVEIFGFCPDCTVRKAAGEL	PGPT0003880_1245	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711	NA	NA
D1-29_03143	876	znuB	COG1108	High-affinity zinc uptake system membrane protein ZnuB	ATGGATCCGGACAGCATTATCGGATCGATCTTCAGCTTCGAGAACTACGGCGAGCTGCTGGTCCTGGTCCAAAACTCCATCTGGGCCGGAGCCGTGCTGGGCCTGCTGGGCGGACTCGTTGGCACTTTTGTGATGAAGCGGGATCTCGCCTTTGCTGTTCACGGCATCTCTGAATTGTCATTCGCCGGGGCGGCCTTTGCCCTTCTGATCGGGGCGGACATCGTTTTCGGCTCGCTGATCGGTTCGGTGGCGGCGGCGCTGCTGCTGGGACTGATGGGAGTCAGGGCCAGGGACAAAAACTCGATCATTGGCGTGATCATGCCCTTCGGGCTGGGCCTGGGCATTCTTTTCCTGTCCCTTTATGAGGGCCGGGCCGCCAACAAGTTTGGCCTGTTGACCGGGCAGATCGTCTCGGTCGATACCGTGCAGCTGCAGGCACTCGCCGGGACAGCCGTGGTGGTCATGGTGGCCCTGGTGGCCATCTGGAGGCCGCTTAACTTCGCCAGCGTTGATCCGGAGCTTGCCGAAGCGCGCGGCGTTCCCGTGCGGACCCTGGCGCTCGTCTTTATGGTGCTGTTGGGGGTCAGTGTGGCGCTGTCCATCCAGGTGGTGGGAGCACTCCTGGTGCTGGCTCTGCTGATCACCCCGGCGGCGGCGGCCCTGCGGGTTACGTCCTCGCCGGTGGCGGTGGTGGTGCTGAGCGTGGCGTTCGCCATGACGGCCACAGTGGGCGGGATCCTCCTGGCTCTGGGCGGCCGTATACCCATCAGCCCCTACGTCACAACGCTCTCATTCCTGATTTACGTCGTGTGCCGGGTGATCGGGACTGTCCGGGCGAAGAAGGGGCTCAACGGGCGCGTCATGCTTGCGCGCTGA	MDPDSIIGSIFSFENYGELLVLVQNSIWAGAVLGLLGGLVGTFVMKRDLAFAVHGISELSFAGAAFALLIGADIVFGSLIGSVAAALLLGLMGVRARDKNSIIGVIMPFGLGLGILFLSLYEGRAANKFGLLTGQIVSVDTVQLQALAGTAVVVMVALVAIWRPLNFASVDPELAEARGVPVRTLALVFMVLLGVSVALSIQVVGALLVLALLITPAAAALRVTSSPVAVVVLSVAFAMTATVGGILLALGGRIPISPYVTTLSFLIYVVCRVIGTVRAKKGLNGRVMLAR	PGPT0004270_421	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004270-ABC_ZM_P-K02075	NA	NA
D1-29_03144	804	mntB_2	COG1121	Manganese transport system ATP-binding protein MntB	GTGAGCCTCCGCGGGGCGTCCCTGAAGTTCGGTAAACGGGCGCTCTGGGAGGATCTCAACCTGGACATCAGGCCAGGCGAATTCTTCGCCGTGCTTGGACCTAACGGCAGCGGAAAGACAAGTTTCCTCAAGGTCCTCCTTGGCCTCCAGGACCTCCATGCCGGGAACGCCACGCTGGGCGGCCATCCGGTGGAGCGCGGAAGTAACCTTATTGGCTATATCCCCCAGCAGAAGTCCTTTTCCCCTGATACCCCCATGCGCGCCCGGGATCTGGTGGGGCTGGGGGTGGACGGCCACCGCTGGGGACTGCGCCTTGCAGCCTCAAAGGCGAACAGCAGGATAGATGAACTCCTGGAACTCGTTGGGGCAAGCGACTACGCCAGGGTTCCGGTGGGCCAACTCTCCGGCGGCGAACAGCAGCGGCTCCGCGTTGCCCAGGCCCTTGCCACGGATCCCAAGGTCCTGCTCTGCGACGAGCCCCTGTTGTCCCTTGACCTGCATCACCAGCAGGCGGTGAGCGCGCTGATCAACAAACAGTGCCACAACCAAAACAGTGCAGTGGTGTTCGTCACGCACGAAATCAACCCCATCATCGACTACGTGGACCGGGTGCTCTACCTCGCCGGAGGCCGGTTCAAAGTGGGGACACCGGAGGAGGTCATGACCACCGAGGTGCTGTCGGATCTCTATGGCAGCCATGTTGAGGTTATCCACGCCAACGGACGCATCGTGGTGGTCGGGCTGCCGGATGCAACCACCCACCATCATGCCGAAGTCCATGCCACGGCAGCGGAGATGGCCTGA	MSLRGASLKFGKRALWEDLNLDIRPGEFFAVLGPNGSGKTSFLKVLLGLQDLHAGNATLGGHPVERGSNLIGYIPQQKSFSPDTPMRARDLVGLGVDGHRWGLRLAASKANSRIDELLELVGASDYARVPVGQLSGGEQQRLRVAQALATDPKVLLCDEPLLSLDLHHQQAVSALINKQCHNQNSAVVFVTHEINPIIDYVDRVLYLAGGRFKVGTPEEVMTTEVLSDLYGSHVEVIHANGRIVVVGLPDATTHHHAEVHATAAEMA	PGPT0004265_497	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004265-ABC_ZM_A-K02074	NA	NA
D1-29_03145	1041	scaA	COG0803	Manganese ABC transporter substrate-binding lipoprotein	GTGCGCCGTTCTGCCGCCACCCGCACATCCGTGGCCGCCCTCGCAGGCTTGAGCCTTTTGCTGACCGCCTGCGGTCCTGGCGGTGAAGCAACGTCCGTCTCCTCCGCTTCGCCTTCTGAAGGCGGCCTGGTGGACATCGTCGCGTCCACCAACGTCTATGGAGACATCGCGCGCTCTGTCGGCGGGGACAAAGTCAACGTCTCCGCCATCATCACCAAGACCAGCCAGGACCCGCACTCCTACGAGGCAACTGCGCAGGACCGGTTGGTTGTCTCGAAGGCAGATCTGGTGATTGAAAATGGTGGCGGCTACGACGCTTTCGTCGAAAAGATGGCCGAGGACAGCAACATTCCCCACGAGAGCATCCTGAGCGCGGTCGAAATCTCGGGCCTGGCACCGGAGGAAGAGGCTGATCATGCCCCAGCCAGTGATGCCCCAACCACCGACGCCACTGCCAGCGAGCCTGCCGATGAGCACGGGCACGACGAGCACGGGCACGACGAGCACGGTGAATTCAACGAACACGTCTGGTACAGCCTGGAGGCAATGGGCAAGCTGGCCGATGCCCTTGCAGCCAAGCTCGGCGAACTCGAGCCCGGATCCGCAGCCACGTTCACGGCCAATGCCGACACCTTCAAGTCAAGCCTGGATGGACTTGCTGCCAAGCTCGCAGCACTCAAGGCTGCCGGGGGAGCAGGGGCACCAGTAGCAGTTACTGAACCTGTCCCGCTGTACCTGCTGGAGGCGGCAGGGCTGGAGAACCAGACGCCGGCCGATTACACTGCCGCTATCGAGGAAGGAACCGACGTCCCGCCGGCCGTTCTGAAGGCAGCGACGGACCTGGCCGGTTCGGAGGACATTCGATTCCTCGCATACAACGATCAGACAGAGGGCCCGCAGACTGAAGCCCTCAAGAACGCGGCCGAAGCGGCCGGCGTTCCCGTGATCGACTTCAGCGAAACACTGCCCGAGGGCAAGACGTACCTGCAGTGGATGACGGACAATGTTGACAACGTCAGCAAAGTTTTGGAGAAAAAATAG	MRRSAATRTSVAALAGLSLLLTACGPGGEATSVSSASPSEGGLVDIVASTNVYGDIARSVGGDKVNVSAIITKTSQDPHSYEATAQDRLVVSKADLVIENGGGYDAFVEKMAEDSNIPHESILSAVEISGLAPEEEADHAPASDAPTTDATASEPADEHGHDEHGHDEHGEFNEHVWYSLEAMGKLADALAAKLGELEPGSAATFTANADTFKSSLDGLAAKLAALKAAGGAGAPVAVTEPVPLYLLEAAGLENQTPADYTAAIEEGTDVPPAVLKAATDLAGSEDIRFLAYNDQTEGPQTEALKNAAEAAGVPVIDFSETLPEGKTYLQWMTDNVDNVSKVLEKK	PGPT0004275_315	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MANGANESE_TRANSPORT,PGPT0004275-ABC_ZM_S-K02077	NA	NA
D1-29_03146	1071		COG1253	putative protein	ATGAGCGACTGGGAAGGAATTTTCTGGCTGGTTATCCTCCTGCTCGGCAACGCGTTTTTTGTTGCTGCCGAGTTCGCGGTGATGTCCGCACGGCGCAGCCAGATCGAACCCCTGGCCGAGGCAGGCTCCAAGCGCGCCCAGACCACTCTTCGTGCCATGGAGAATGTGTCACTGATGCTCGCCTGTGCCCAGCTGGGTATTACTGTTTGCTCACTGCTGATCCTCCAGGTCGCAGAGCCCGCCATTCATCACCTGATGGCCGCACCGCTGGAAATGGTGGGGCTGCCCGTGGAGATGGCGGACGTGGTGGCCTTCGCCATCGCCTTGATGCTGGTGACGTTCCTGCACGTGACCTTCGGCGAGATGGTTCCGAAGAACATCTCGGTGTCAGTTGCAGATAAGGCTGCACTGTTCCTGGCCCCGCCGCTGATGTTCGTTGCCCGTCTGGTCAGGCCCGCAATTGTGGCCCTTAACTGGTCCGCCAACCACATCCTGAAGCTCATGCGGATTGAGCCCAAGGATGAGGTGAACTCGTCCTTCACGCTTGAAGAAGTCCAGTCGATTGTGCAGGAGTCCACACGCCACGGGCTGGTGGACGATGACGCCGGGCTCATTACCGGTGCGTTGGAGTTCTCCGAGCACACGGCCTCAGACATCATGGTGCCGCTGGACAACCTGGTGATGCTGAAGGCGGCCACTACTCCGGTGGAGTTCGAGAAGGCAGTCAGCAGGACAGGCTTCTCCAGGTTCCCCATGCTTGATGACGACAGCATGCTGGCCGGCTACCTCCATGTGAAGGATGTGCTGTCCATTCCTGAAGCGGATTATCAGCACCCTATTGCTGAAAGCCGGATCCGCTCATTGGCGAACCTCGCGCTGGATGACGAGATCGAACAGGCGATGTCCGTCATGCAGCGAACGGGCTCACATCTCGCCCGGGTCATAGGCCACGACGGTCAGACCCAGGGCGTGCTGTTCCTCGAAGACATCATTGAGCAGCTGGTGGGTGAGATCCGTGATGCAACCCAGGCAACGGGAATCAGGAGGCTCGGCCAGCCCAACGGTGAATGA	MSDWEGIFWLVILLLGNAFFVAAEFAVMSARRSQIEPLAEAGSKRAQTTLRAMENVSLMLACAQLGITVCSLLILQVAEPAIHHLMAAPLEMVGLPVEMADVVAFAIALMLVTFLHVTFGEMVPKNISVSVADKAALFLAPPLMFVARLVRPAIVALNWSANHILKLMRIEPKDEVNSSFTLEEVQSIVQESTRHGLVDDDAGLITGALEFSEHTASDIMVPLDNLVMLKAATTPVEFEKAVSRTGFSRFPMLDDDSMLAGYLHVKDVLSIPEADYQHPIAESRIRSLANLALDDEIEQAMSVMQRTGSHLARVIGHDGQTQGVLFLEDIIEQLVGEIRDATQATGIRRLGQPNGE				NA	NA	NA	NA	NA
D1-29_03147	1332			hypothetical protein	ATGGAATGGCTTCTCCTTGCAGCAGGCTTCCTGCTGATCGCCGGCACCGGCTTCTTTGTCGCCGTCGAATTTTCCCTCATTGCTTTGGACCAGGCAACGGTCCAGCGCGCCATCGACAACGGTGACACCGGTGCCGTTCCGCTGCTCAAATGCCTCAAGTCCCTTTCCACCCAACTCTCCAGCTGCCAGCTTGGCATCACCCTCACCACGCTGCTGACCGGCTACGTGATGGAACCGTCCGTCGGCCGGCTGCTGGAAGGCCCGCTGGTTGTCGTCGGCATTCCCGACGTCGCAGCGGCATCCATTTCCCTGGTGATCGCCATGGCGCTGGCAACCCTGCTCTCCATGTTGCTGGGCGAACTGGTGCCCAAAAACATGGCCATCGCGCTGTCGTTTCCCGTGGGCAAGGCGCTGGCCAGGCCGCAGCTTGTTTTCACTGCCCTTTTCAAGCCTGCCATCCTGGTGCTGAACGGCTTTTCCAATAAGGTCCTGAACGTGTTCGGGCTTGAAGCCAAGGAAGAAATTTCAGGGGCCAGGACGCCCGCCGAGCTTGCCTCCCTGGTACGGCGTTCCGCCGCCATGGGAACGCTCGACGCCGGCACGGCCAACTTTGTGGCCAGGACGCTGAATTTCTCTGCCCGGACAGCTGCCGACGTCATGACGCCCCGGATCCGAGTAGAGACCATCGACGCCGACCAGCCGATCTCGGACATCCTGGACGCTGCGCGGCGCACGGGGTATTCCCGGTTCCCGGTCATTGGAGAGTCGGCCGACGACATCAGGGGACTGGTTCACGTTAAAAAGGCTGTGGCAGTGCCATGGGACCGGCGGCCCAACCTGGAAGCCGGCGCCATCATGACAGACGTCCTCAGGGTGCCGGAAACCATTCATCTGGATGCCCTCCTCGCGGAACTCCGCGAGGGAAACCTGCAGCTCGCCGTCGTGCTTGACGAGTACGGCGGAACGGCGGGCATCGCCACCCTCGAGGACCTTGTTGAGGAAATCGTCGGTGAAGTTGCTGACGAGCACGACAAAGTCCGGCCCGGCCTCCTCCAGAGTGCCTCCGGCGACTGGTACTTTCCTGGGCTGCTGCGCCCGGATGAACTGTCCGAGCAGATTCCCGGACTGAGCGTTCCTGATGAATCCGCCTATGAAACGGTGGGCGGTTATGTAATGAGCGAACTTGGCCGCATCGCCACTGTCGGTGACACCGTCCCTGTTGGCGGCGGAACATTGAGCGTGACCAGGATGGACGGACGACGCATCGACAGAATCTGCTTCCAGCCCGCCGCACCGGACGCTGAAGAGGCCCCGGACAGGACCGCATCATGA	MEWLLLAAGFLLIAGTGFFVAVEFSLIALDQATVQRAIDNGDTGAVPLLKCLKSLSTQLSSCQLGITLTTLLTGYVMEPSVGRLLEGPLVVVGIPDVAAASISLVIAMALATLLSMLLGELVPKNMAIALSFPVGKALARPQLVFTALFKPAILVLNGFSNKVLNVFGLEAKEEISGARTPAELASLVRRSAAMGTLDAGTANFVARTLNFSARTAADVMTPRIRVETIDADQPISDILDAARRTGYSRFPVIGESADDIRGLVHVKKAVAVPWDRRPNLEAGAIMTDVLRVPETIHLDALLAELREGNLQLAVVLDEYGGTAGIATLEDLVEEIVGEVADEHDKVRPGLLQSASGDWYFPGLLRPDELSEQIPGLSVPDESAYETVGGYVMSELGRIATVGDTVPVGGGTLSVTRMDGRRIDRICFQPAAPDAEEAPDRTAS				NA	NA	NA	NA	NA
D1-29_03148	132			hypothetical protein	ATGGCCCCCGCGTGCTGTGCAATCGCGCTCTGCGGCGTCGGCGGATTCTTCCCGCGCGGACAGCTTCAGGCACGCCATATTCCACTTTCTTGGCGTCACTTCATGATTTGGGTCACCCTTATTGGCAGTTAG	MAPACCAIALCGVGGFFPRGQLQARHIPLSWRHFMIWVTLIGS				NA	NA	NA	NA	NA
D1-29_03149	3816	kgd	COG0508	Multifunctional 2-oxoglutarate metabolism enzyme	GTGCCAGAGCAGCCTAGCCACCGTCTACCAGAGGAATTTGGCGGAAATGAGTGGCTCGTTGACGAACTGTACGAGCAGTACCAAAAGGACAAGAACGCTGTGGACGCCAAATGGTGGCCGCTGTTTGAATCCTTCGACTCGGGCAGCGATTCTTCTTCCAACGGGAATTCGCCCCTCGCCGTCGCCCACCCCCCTACCCGTGAAATGCCTGCCGTAGCTCCGGCCCAGGCCCCAGCAGCTCCGGCACCGGCGCCGGCAGCGCAGCCTGAGGCATCCGCTCCCGCGGCAGCTCCGGCCCCTGCACCTGCAGCTGCACCGGCAAAGAAGGCCCCGGCAACTGTTGCCCGGGACGGCGCAAAGATGACCGAGCCTGGAACCGGATCACAGCCGATCCCCGCACAGCTCCCCAAAAACGTCAAAGCGCCCACGGCTCCCGAAGAGGACGTTGTCTCAGTCCTCCGCGGCCCGGCCAAGGCCATCGCCTCGAACATGATCACCAGCCTGGAGGTTCCCACCGCCACAAGCGTCAGGGCCATCCCTGCCAAGCTGCTGATCGACAACCGTGTTGTCATCAACTCCAACCTGGCCCGCGCACGCGGCGGCAAGGTCTCTTTCACCCACCTCATCGGTTACGCCGTCATCCGGGCCCTGTCCCAGTTCCCGTCCATGAACGTCTACTACGACGAAGTGGACGGCAAGCCCGTTGCCGTCCAGCCTGCACACGTCAACTTCGGCATCGCCATTGACATGCCCAAGCCTGATGGAACGCGCCTGCTGATGGTGCCGAACATCAAGAAGGCCGAGACCCTTAACTTCTCTGAGTTCTGGCACACCTATGAAGACCTCATCAAGCGCGCCCGCGCCGGCAAACTGACAGCGGACGACCACTCCGGCACCACGGTGTCCCTGACCAACCCGGGCGGCATCGGCACAGTACACTCAGTGCCCCGGCTTTCCAAGGGACAGGCCGCCATCATCGGCGTCGGTGCACTGGACTACCCTGCCGAATTCCAGGGTGCCAGCGAAAAGATCATTGCGCATAACGCCATCAGCAAGGTCCTCACCCTGACGTCAACCTATGACCACCGTGTCATCCAGGGAGCCGGCAGCGGCGAGTTCCTCAAGCTGGTGCACCAGCTGCTGCTCGGCGCGCAGAACTTCTATGACGAGATCTTCGAATCCCTGCGCATTCCGTACGAACCCGTGCGCTGGAGCCCGGACCTGCAGGTGGACCCGTCAGACCAGATCAACAAGGTCGCCCGCATCCAGCAGCTCATCCACTCCTACCGTGTGCGTGGGCACCTGATGGCGGACACCGACCCGCTGGAGTATGTCCAGCGCAAGCACCCGGACCTTGATGTCCTGACCTATGGCTTGACCCTGTGGGACCTGGACCGCGAGTGGCCCACCGGCGGCTTCGGCGGCAAGCCCGTGCTTAAGTTCCGTGACATCCTGGCGGTGCTGCGCGACGCTTACTGCCGCACCACCGGCATCGAATACATGCACATCCAGGAGCCGGAGGAACGCACATGGTTCCAGGACCAGCTGGAGCACCCCTACTCCAAGCCCACCCGTGAAGAGCAGCTGCGCATCGTCTCCAAGCTGAACGCTGCTGAGGCCTTCGAAACGTTCCTGCAGACCAAGTTCGTGGGCCAGAAGCGCTTCTCGCTCGAAGGCGGCGAGTCCCTGATTCCGCTGCTGGATGCCATCATGTCCGACGCCGCGGATGACGGCCTGGATGAAGTGGCTATCGGCATGGCCCACCGCGGCCGTCTGAACGTACTCACTAATATCGCCGGCAAGACCTACGCCCAGGTTTTCCGTGAATTCGAAGGCACCCAGGATCCGCGCTCCGTCCAGGGCTCGGGTGACGTGAAGTACCACCTCGGCACTGAAGGCACGTTCACCTCGGACAACGGCAACGAAACCAAGGTCTACCTGGCCGCCAACCCGTCCCACCTTGAAGCCGTGGACCCAGTGCTGGAAGGCATCGTCCGCGCCAAGCAGGACCGCCTGGACCAGGGCGAGGCGTTCCCCGTGCTGCCCATTATGGTCCACGGTGACGCCGCCTTCGCCGGCCAGGGTGTCGTAGCCGAGACGCTGAACCTTTCCCAGCTGCGCGGCTACCGTACCGGCGGCACCATCCACGTGGTGGTCAACAACCAGGTCGGCTTTACCACCGCACCTTCCTCGTCCAGGTCCTCCACGTACTCCACGGACGTCGCCAAGATGATCCAGGCCCCCGTGTTCCACGTGAACGGTGACGACCCCGAAGCGGTGGTGCGCATCGGCCAGCTCGCATACGAGTTCCGCCAGCGTTTCCACAAGGACGTTGTCATCGACATGGTGTGCTACCGCCGCCGTGGCCACAACGAGGGTGATGACCCCTCGATGACCCAGCCCCTGATGTACAACCTGATCGAAGCCAAGCGTTCCGTGCGGAAGCTGTACACGGAGTCGCTGATCGGTCGCGGCGACATCACCGAAGAGGAAGCCGAACAGCTGCTCCGCGACTACCAGGAGCGGCTGGAGCGGGTCTTTGCCGAGACCCATGCCGCCCAGACCTCGCCCATCCCGATCATCACGGCGGACTCCGCCGCGGTATCGGACATCGAGCGTCCCATCGCCCAGCAGTCCGACTCCGGGTCCAATGCGCCTGCGTCCACCGCCATCACACCCGAGACCCTGGCCCGCATCGGCAAGGCGCACATTGAAATCCCCGAGGGCTTCACGGTCCACGCAAAGCTCAAGCAGCTGCTCGAGAAGCGCGAGCAGATGTCACGCGAAGGTGGCATCGACTGGGGCTTTGGCGAGATTGCGGCTTTCGGATCGCTCATCATGGAAGGCGTCCCCGTGCGCCTGGCCGGCCAGGACTCCCGCCGGGGAACGTTCGTTCAGCGCCACGCTGTCTTCCATGACCGCGCCAACGGCAACGAATGGCTGCCCCTCGGCCACCTCTCGGACAACCAGGCCAAGCTCTGGATCTACGATTCCCTGCTGTCCGAATATGCGGCAATGGGCTTCGAATACGGCTACTCCGTCGAGCGTCCCGATGCGCTCGTCCTGTGGGAGGCGCAGTTCGGTGACTTTGTGAACGGCGCGCAGACCATCATCGATGAGTTCATCTCCTCCGCAGAACAGAAGTGGGGCCAGCGGTCCTCCCTGGTGCTGATGCTTCCGCACGGCTACGAAGGCCAGGGCCCGGACCACTCCTCCGCGCGGATCGAACGCTTCCTGCAGATGTGTGCTGAAGAAAACATGATCGTCGCCAACCCCACGACGGCGGCATCCCACTTCCACCTGCTGCGCCGCCAGGCGTACAGCCGCCCCCGCAAGCCGCTGATCATCTTCACTCCGAAGCAGTTGCTCCGCCTCAAGGGCGCGGCTTCCTCGGTGGAGGACTTCACCACGGGCAGCTTCCGCACCGTCATCGGTGACCATGAGCAGCTGGCGGCAGACGCCGTCGAACGCGTCCTTCTGGTGTCCGGCCGCCTGTACTACGATCTCCTGTCCACCCGGCAGAAGACGGAGGACAAGACGACGGCGATCGTCCGCGTGGAGCAGCTCTACCCGCTGCCGCATGCAGAGATCGCGGCGGAGCTGGCCAAGTACCCGAACGCCGAAGTGGTGTGGGCACAGGACGAGCCTGCCAACCAGGGTCCGTGGCCATTCGTTGGGCTCAACCTCCCGGGCGCGCTTGACCGTGCCGTCCGCCTGGTGTCCCGTCCGGCCTCGGCCTCCACGGCTGCCGGCTCCATGAAGCGGCACGCTGCCGAGCAGGATTCGCTCCTGAAGCAGGCATTTGCACGAAAGTAG	MPEQPSHRLPEEFGGNEWLVDELYEQYQKDKNAVDAKWWPLFESFDSGSDSSSNGNSPLAVAHPPTREMPAVAPAQAPAAPAPAPAAQPEASAPAAAPAPAPAAAPAKKAPATVARDGAKMTEPGTGSQPIPAQLPKNVKAPTAPEEDVVSVLRGPAKAIASNMITSLEVPTATSVRAIPAKLLIDNRVVINSNLARARGGKVSFTHLIGYAVIRALSQFPSMNVYYDEVDGKPVAVQPAHVNFGIAIDMPKPDGTRLLMVPNIKKAETLNFSEFWHTYEDLIKRARAGKLTADDHSGTTVSLTNPGGIGTVHSVPRLSKGQAAIIGVGALDYPAEFQGASEKIIAHNAISKVLTLTSTYDHRVIQGAGSGEFLKLVHQLLLGAQNFYDEIFESLRIPYEPVRWSPDLQVDPSDQINKVARIQQLIHSYRVRGHLMADTDPLEYVQRKHPDLDVLTYGLTLWDLDREWPTGGFGGKPVLKFRDILAVLRDAYCRTTGIEYMHIQEPEERTWFQDQLEHPYSKPTREEQLRIVSKLNAAEAFETFLQTKFVGQKRFSLEGGESLIPLLDAIMSDAADDGLDEVAIGMAHRGRLNVLTNIAGKTYAQVFREFEGTQDPRSVQGSGDVKYHLGTEGTFTSDNGNETKVYLAANPSHLEAVDPVLEGIVRAKQDRLDQGEAFPVLPIMVHGDAAFAGQGVVAETLNLSQLRGYRTGGTIHVVVNNQVGFTTAPSSSRSSTYSTDVAKMIQAPVFHVNGDDPEAVVRIGQLAYEFRQRFHKDVVIDMVCYRRRGHNEGDDPSMTQPLMYNLIEAKRSVRKLYTESLIGRGDITEEEAEQLLRDYQERLERVFAETHAAQTSPIPIITADSAAVSDIERPIAQQSDSGSNAPASTAITPETLARIGKAHIEIPEGFTVHAKLKQLLEKREQMSREGGIDWGFGEIAAFGSLIMEGVPVRLAGQDSRRGTFVQRHAVFHDRANGNEWLPLGHLSDNQAKLWIYDSLLSEYAAMGFEYGYSVERPDALVLWEAQFGDFVNGAQTIIDEFISSAEQKWGQRSSLVLMLPHGYEGQGPDHSSARIERFLQMCAEENMIVANPTTAASHFHLLRRQAYSRPRKPLIIFTPKQLLRLKGAASSVEDFTTGSFRTVIGDHEQLAADAVERVLLVSGRLYYDLLSTRQKTEDKTTAIVRVEQLYPLPHAEIAAELAKYPNAEVVWAQDEPANQGPWPFVGLNLPGALDRAVRLVSRPASASTAAGSMKRHAAEQDSLLKQAFARK				NA	NA	NA	NA	NA
D1-29_03150	600			hypothetical protein	GTGGAAGACAGGAAGCTGCGCATCGCAGCTGTTGGAGATGAACTGCTGGCCGGGCTTGGGGATCCCAGGGCACTCGGCTGGCTGGGCCGCGTTTTGGCCCGCACTCCCCAGGATGGCGTGGAACTGGAAAGCTATGCCCTCCCCTGCCCGCAGGAGGGAACGGAAGGGTTGGCTGCCCGCTGGCTGGAGGAGGCCGGACGCCGGTTCGGTGACCACCACGAAAACCGGCTCGTGATCGGCCTGTCCGGCCGGGACATCGAGTTCGGCCTTTCCACTGCGCGCAGCCGGCTTAATCTGGCCAATATCCTGGATTCGGCATCGCAAAACAGGATTGAGGTTTTTGTGGTGGGCCCGCCCCCCACCCTGGACCCGGCACATAACCGGCGCCTTGGCGAGCTCAATACGGCCTTCGCCGATGTGACCACACGCCGCAAACACCTTTACGTGGACACGTTTTCTCCACTGGTCAACCATGAGCAGTGGCGCCAGGACCTCGCCGCAAACAGCGGAACCCCGGGGCAGGCTGGGTATGGCCTCATGGCATGGCTGGTCCTGCATCGCGGCTGGTTCCAGTGGCTGAAAATGGACGCCCCGGCCTAA	MEDRKLRIAAVGDELLAGLGDPRALGWLGRVLARTPQDGVELESYALPCPQEGTEGLAARWLEEAGRRFGDHHENRLVIGLSGRDIEFGLSTARSRLNLANILDSASQNRIEVFVVGPPPTLDPAHNRRLGELNTAFADVTTRRKHLYVDTFSPLVNHEQWRQDLAANSGTPGQAGYGLMAWLVLHRGWFQWLKMDAPA	PGPT0001840_2531	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
D1-29_03151	858			hypothetical protein	ATGACCGAGGACAGCTGGACCGTCACCGATCCGCAAACCATCGATGTTGACAATGTCACCTCGCTCAAGCTGGGCATGGTGCGCGGAAGGTTTGACGTCGTTACTCACGCCGACCCCGTCGTCCGGGTGGAGATCACAGAAGTGCAGGGCGACCCCGTGGCCGTGTCATTCGTCGACGGCCGGCTCGAGGTCCGCCATCAGCTTCACGGACCGCAGGGCTGGTTCAAGAACCTGATGGGAACCGTCAACCACAACAGCAATAATTCGGCCGTCATCAGCATCGCCCTTCCGGCCGGCGTCGAAGTGGAAGCGGGCACCGTCAGTGGTGACGGACTGGTGTCCGGGATCAGCGGGCACACCAGGCTCAATACCGTCTCCGGTTCGGTAATGGCAGATGGCACCAGCGGCAACCTCCACATCAACACCATCAGCGGGGACGTGGTTGCCCGCAACCACGACGGCGTCCTGACCGCCAAAAGCGTCTCGGGCGAGGTTACGGCCTCCGGCCGGTTCAGCAATATCCGCGCCAACACTGTCAGCGGCGACATGAGCTTTGACCTGTGGGGCTTTACGCATGACTTCGGCGCCAATTCAGTCTCCGGGGACCTGACCATCCGGCTCCCGCACGACGTCGGGGTGGACATCGTGGCGAAATCCGCCAGCGGGACGGTGGTCATCGACGACCAGCACTACGCCCAGCCCGGGGGCAAGGTGGAAACCATCGCAGGTCCGGACCGCAAGCTCATGCTGGTGCGGACCAACTCCGTGTCCGGCAAGACGTCCATCTTCCATGGCCTTGCTCCGGATAGCGGGGAAGCGTCGGACGGCGAAACAAGGAACCCGGAAGCGGCAGGCTGA	MTEDSWTVTDPQTIDVDNVTSLKLGMVRGRFDVVTHADPVVRVEITEVQGDPVAVSFVDGRLEVRHQLHGPQGWFKNLMGTVNHNSNNSAVISIALPAGVEVEAGTVSGDGLVSGISGHTRLNTVSGSVMADGTSGNLHINTISGDVVARNHDGVLTAKSVSGEVTASGRFSNIRANTVSGDMSFDLWGFTHDFGANSVSGDLTIRLPHDVGVDIVAKSASGTVVIDDQHYAQPGGKVETIAGPDRKLMLVRTNSVSGKTSIFHGLAPDSGEASDGETRNPEAAG				NA	NA	NA	NA	NA
D1-29_03152	615			hypothetical protein	ATGCCTCCGGTCTTTGCCCATGGTGCCCTCCGGTTATACCTTCTGGCCCTCCTGGAGTCCGGCCCCAAACACGGCTACGAGCTCATCAAGGCCCTCAAGGAGAGGTTCGGCGGAACGTATTCCCCCAGCGCGGGAACCATCTACCCGCGACTGGGAAAGCTGGAGGAAGAGGGACTGGTAGCTACGGAGTCCGTGGGCAGGCGCACCAACTATTTCATCACCGCGGCGGGGCTGGCGGAACTGAACAGCCGCCGGGACGAACTGGCCGGCGTCGAAAACGACATCTCCGCCTCCGTCCGCCGCCTGGCGGACAGCCTCCGCGAGGACATCCGGAGCAACATGCGCGGGCTGCGCGCAGATCTCGCAGCGACCGCCGAGGCGGCGCGTTCCGCGGCCCGCTCCGCAGACTTCAGGATGGCAGGTACCCGGCAGTCGCAGGACGGGAACCGGACGCTGAAAGAGGCCGAGCTGCTCCTTCAGGCATTCCGGGACGACCTGCGGATCGAACTTCGACTGGAGGCGAGCCGGCAGCCGCTCAGCCCGCTGGCACTTGAAACCGTCAAGACCGTCCTGGACCAGGCCCGCATCTCCATCAGGAATTCGCTGCACGGCTGA	MPPVFAHGALRLYLLALLESGPKHGYELIKALKERFGGTYSPSAGTIYPRLGKLEEEGLVATESVGRRTNYFITAAGLAELNSRRDELAGVENDISASVRRLADSLREDIRSNMRGLRADLAATAEAARSAARSADFRMAGTRQSQDGNRTLKEAELLLQAFRDDLRIELRLEASRQPLSPLALETVKTVLDQARISIRNSLHG				NA	NA	NA	NA	NA
D1-29_03153	261			hypothetical protein	ATGAGCGACTGCCAGGGATTAGGCGACTGCGACGACGCCAGGATGCAACGCATCTATGAGTACCTTGACGGGGCACTGACCCGTGAGGACATCACGGAGATCAAGCACCACCTTGATGACTGCCCTGAATGCACTCAGCAGTACGACCTCGAATGCGTGATCCGGAACATGGTGAAACGCTCCTGTACCGAGGCCGCACCGGAGAACCTCAAGAACGCCATTCTGGATCGGATACATTCCATCCGCCCGGTGGACGCTTAG	MSDCQGLGDCDDARMQRIYEYLDGALTREDITEIKHHLDDCPECTQQYDLECVIRNMVKRSCTEAAPENLKNAILDRIHSIRPVDA				NA	NA	NA	NA	NA
D1-29_03154	888			hypothetical protein	TTGGCGTTGGTGAAGGACGAAACGGAAGTAGCGGGCCCCGTGGTTTTGGAGACTCTGGAATCAGATCCTCCGGAGTACGGTTCGCTGCGCGCCCAGAGCGTGACAGTAGACTTGAAGGCAATGAGCACCCTGGATCCGGCCCTTGAGGCCATGTATGAGGCCTCCGGAAGCGAAGCCAAGAGCCGTAACGACGCACAGCCCGCCGCCGGAGAATCAGCAGAGCCTGAAACCCTCAGCGGCGAGCCTGCAGAGCCCGCCGTTGACTTGGCCAAGGAATCGCCGGAAGAGCGTCGCATCCGCTTCGAGCGGGACGCAATGCAATACGTGGACCAGCTTTATTCCGCTGCCATGCGCATGGCCCGGAACCCGGCTGATGCCGAGGACCTTGTCCAGGAGGCCTACACCAAGGCATTTTCGGCGTTCCATCAGTACAAGCCGGGCACCAACCTCAAAGCATGGTTGTACCGGATCCTGACCAACACCTACATTAACCTGTACCGAAAACGGCAGCGGGAGCCTTTGCAGTCCAATTCGGACACGATTGAGGACTGGCAGCTGGCAAGGGCGGAATCCCACACGTCCAGCGGGCTCAGGTCGGCGGAGGCAGAGGCACTGGATCACCTGCCTGATTCAGATGTAAAACGCGCGCTCCAGGCGATTCCGGAGGAGTTCCGGCTGGCCGTTTACTTCGCGGACGTCGAAGGCTTCGCCTACAAGGAAATTTCGGACATCATGAACACGCCCATCGGCACCGTGATGTCCCGGCTGCACCGCGGCCGGAAAATGTTGCGGGACATGCTGGCGGACTATGCCGCCGATCGGGGATTCAAAGGCGCCGTCGAAACCCAGGAAGCGGCCGAAAGCACACAACAGGAGAACAGGAAATGA	MALVKDETEVAGPVVLETLESDPPEYGSLRAQSVTVDLKAMSTLDPALEAMYEASGSEAKSRNDAQPAAGESAEPETLSGEPAEPAVDLAKESPEERRIRFERDAMQYVDQLYSAAMRMARNPADAEDLVQEAYTKAFSAFHQYKPGTNLKAWLYRILTNTYINLYRKRQREPLQSNSDTIEDWQLARAESHTSSGLRSAEAEALDHLPDSDVKRALQAIPEEFRLAVYFADVEGFAYKEISDIMNTPIGTVMSRLHRGRKMLRDMLADYAADRGFKGAVETQEAAESTQQENRK	PGPT0014960_2090	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-29_03155	549			hypothetical protein	ATGTCCTTTGTCCGTACTCTCGCCCGGCCCATGCTGGCATCCAGTTTCGTCCTTGCCGGTCTGGACAAGTTCAGGAACGCTGATGATACCGCTCAGCAACTCTCGCCCCTTCTGCGCAAGGCAGCAGCCTCGTTGCCCTTCCAGACCAGCGAGAAGACACTGGCCAAGGTGATTGGCGGAACGCAGGTAGGTGCCGGCGTGTTGTTCGGACTGGGCAAGTTCGCACGGCTGTCAGCAACGCTGCTCACGGTTATTTCGGTCCTGAACACTTTTGTGGAGTGGCGAAGCGCTGACATCAGTTCCAAGGAAGGCCGGGATGCCCGGCGCAAGCAGCTCCTCAAAAATCTCTCCCTCAGCGGCGGCGCCTTGCTTGCCTCCGTGGATACAGCAGGCAAGCCCGGACTGGCCTGGCGCGCAGAGCACCTGGCTGCCGACGTGAAAAAGGGCGCTTCCCACCTCGCTGCGGACACCAAAAAGACCACCGGCAAGCAGCTCCACAAGGCTGACAAGGCTGTCCGGCGCGCCGTGGATCAGGCAACGGGGGCCTAA	MSFVRTLARPMLASSFVLAGLDKFRNADDTAQQLSPLLRKAAASLPFQTSEKTLAKVIGGTQVGAGVLFGLGKFARLSATLLTVISVLNTFVEWRSADISSKEGRDARRKQLLKNLSLSGGALLASVDTAGKPGLAWRAEHLAADVKKGASHLAADTKKTTGKQLHKADKAVRRAVDQATGA	PGPT0028505_736	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
D1-29_03156	1395	aroA	COG0128	3-phosphoshikimate 1-carboxyvinyltransferase	ATGACCGGATCCATTGCCGCCCCTGCCCGTGACTCTTCCGAAGCTGTGTCCCACTGGCCCGCACCGTTTGCCGCCAGGCCGGTCAATGCCACGGTTACGGTGCCGGGTTCCAAGTCCCTGACCAACAGGTTCCTGGTCCTGGCGGCACTGGCTGACGGCCCTTCCAGGCTGCGGGCCCCGCTGCACTCGAGGGACTCAGCGCTGATGATTGAGGCCCTGCGCCAACTGGGTGCCGGCATCACCGAGGTACCGGGAGACGGCGCCTTCGGGCCGGACCTCGAAGTGATTCCGCTGAGCCGGGACGCTTCCCCGGCGCGGACGCAGATCGATTGCGGCCTCGCCGGAACAGTGATGCGGTTCGTTCCTCCGCTCGCCGCGCTTCGAAACGGCGAGAGCGTTTTCGACGGCGATCCGCACGCCAGGAACCGCCCGATGGGAACCATTATCGAAGCGCTGAAAGCCCTCGGCGTTGCGGTAGCCGCGGAGGACGGCAGCACTCCTGCCTCGTTGCCTTTCGTGGTCGAGGGCACCGGCGAAGTCCGCGGCGGACACCTGGTGATCGATGCCAGCGCGTCGTCGCAGTTCGTCTCGGCTCTGCTTCTCGTGGGAGCACGGTTTACTGAAGGCCTGCATCTGGAGCACGTTGGCAAGCCAGTGCCAAGCCTTGACCACATCAATATGACGGTGGCCGTGCTGCGGGGCCTGGGGGTTTCGGTGGATGATTCCGTTCCCAACCACTGGGTTGTCGCCCCGGGCCATATTCGGGCTTTCGACCAGCGCATCGAGCAGGACCTGTCCAATGCGGGCCCCTTCCTGGCCGCTGCCCTGGCATCACGCGGAACGGTCCGCATCCCGAACTGGCCGGCGGAAACCACCCAGGTGGGAGACAAATGGCGCAGCATCCTGTCGGCAATGGGTGCCGACGTCAGCCTCGCTGACGGCGTCCTGACCGTTACCGGCGGGGCTGGGATCCAGGGTGGCGACTTCGATGAAACCAGCGAACTTGCCCCTACTGTCGCCGCTCTGTGCGCCCTCGCCAGCGTCCCTTCCCGGCTCACGGGAATAGCACACCTGCGCGGGCATGAGACGGACCGGCTGGCCGGGCTCGTCACCGAAATCAACCGCCTCGGCGGCGATGCAGAAGAGACCAGCGACGGATTGGTGATCCGCCCGGCGAAGCTGCACGGCGGCGTCGTACATAGTTACGCAGATCACCGAATGGCCACCGCCGGTGCCATCCTTGGCCTGGCCGTGCAGGGCATTGAGGTGGAGGACATCGCCACCACGGCCAAGACCATGCCGGACTTTCCTGCCTTGTGGGCGGACATGCTCGCCCAGGGCCAGTCAACCCAGCCTGAGGGGCCGGAGGGTTCCGTCGGTGGCACGCAGCACTGA	MTGSIAAPARDSSEAVSHWPAPFAARPVNATVTVPGSKSLTNRFLVLAALADGPSRLRAPLHSRDSALMIEALRQLGAGITEVPGDGAFGPDLEVIPLSRDASPARTQIDCGLAGTVMRFVPPLAALRNGESVFDGDPHARNRPMGTIIEALKALGVAVAAEDGSTPASLPFVVEGTGEVRGGHLVIDASASSQFVSALLLVGARFTEGLHLEHVGKPVPSLDHINMTVAVLRGLGVSVDDSVPNHWVVAPGHIRAFDQRIEQDLSNAGPFLAAALASRGTVRIPNWPAETTQVGDKWRSILSAMGADVSLADGVLTVTGGAGIQGGDFDETSELAPTVAALCALASVPSRLTGIAHLRGHETDRLAGLVTEINRLGGDAEETSDGLVIRPAKLHGGVVHSYADHRMATAGAILGLAVQGIEVEDIATTAKTMPDFPALWADMLAQGQSTQPEGPEGSVGGTQH	PGPT0012850_410	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800	NA	NA
D1-29_03157	1116	rsgA_2	COG1162	Small ribosomal subunit biogenesis GTPase RsgA	GTGGCACGCAGCACTGATTCATGGGACGAGTCCGATGTCCGGATCCGTCCCAGCAAAAAGGGGTCACGCCCGCGTACCAAGGACCGTCCCAGTCACGATGACGCTGTCACGGGACGCATCATCACGGTGGACCGCGGCCGGTATACGGCAGTGGTCGGTGAGGATTCGGGCGACGAGCGCGTGATCATCGCGGCAAGGGCCCGGGAATTGCGCCGCTCCCCCGTGGTCGCCGGAGATTTCGTCTCGCTCGTGGGGGATGTATCGGGCGAACCTGACACCCTGGCCCGCCTGGTCAAGATCCAGGAGCGCAGGACACTCCTGCGCCGCAGCGCGGATGACACTGATCCCGTGGAGCGCGCAGTGGTAGCCAACGCCGATCAGCTCGTGGTCGTGGTGGCTGCCGCCAACCCGGAACCCCGGACCGGCTTTATCGACCGCGCCTTGGTAGCAGCCTACGACGCCGGGATTGACCCGCTGCTGCTGGTCACCAAGGCGGACGTCAAGGATCCCTCGGAGCTGTTGTCCAACTACGAGCACCTTGATTTCCCGGTCATCATCAGCCGCACGGCCGATTCCGCGGCGTCCGGAATCGATGCACGTTCCGATGACGGCCTGTCTGCCCGGCTGGACAGTAATGCCGTTTCCCAGCTCCGTGAACACCTCGATGGCAAGGTCACGGTGATGCTGGGGCATTCGGGCGTGGGCAAATCCACCATGGTGAACGCGCTGACAGGTGCCGAACGTGCCACGGGCGGCGTCAACGCGGTGACGGGGAGGGGGCGGCACACGTCCTCGTCTGCCCTTGCCCTCAAACTGACTGACTCGCCGGCGGGGAGCTGGATCATTGATACTCCCGGGATCCGGTCCTTCGGCCTGGCACATGTGGACCCGGATCGCATCCTCCGGTCCTTCCCGGATCTCGAGCCGGGAACGGACGCATGTGAACGTGGCTGCAAGCACAACGCCGCCGCGGTCAACTGCGGGCTGGACGCCTGGGTGGCCGAGGGCCACGCCGGCCCGACGGGTGCAGCCCGGCTTGCGTCACTGCGGCGTTTGCTTGGCACCGATCCGCGGATGGAAGGTCAGGAAACCAAGGAACTCGGCAGCATGGGCTGA	MARSTDSWDESDVRIRPSKKGSRPRTKDRPSHDDAVTGRIITVDRGRYTAVVGEDSGDERVIIAARARELRRSPVVAGDFVSLVGDVSGEPDTLARLVKIQERRTLLRRSADDTDPVERAVVANADQLVVVVAAANPEPRTGFIDRALVAAYDAGIDPLLLVTKADVKDPSELLSNYEHLDFPVIISRTADSAASGIDARSDDGLSARLDSNAVSQLREHLDGKVTVMLGHSGVGKSTMVNALTGAERATGGVNAVTGRGRHTSSSALALKLTDSPAGSWIIDTPGIRSFGLAHVDPDRILRSFPDLEPGTDACERGCKHNAAAVNCGLDAWVAEGHAGPTGAARLASLRRLLGTDPRMEGQETKELGSMG	PGPT0009020_386	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
D1-29_03158	819	hisN	COG0483	Histidinol-phosphatase	ATGATCCAACCCGCTTCGAGCTACAACGATGACTTGCGCCTGGCCCACGTGCTGGCCGATTCCGTGGACGACCAGACCATGAGCCGCTTCAAGGCCCTGGACCTCCACATCGAAACCAAGCCGGACCTGACGCCGGTCACAGATGCTGACAAGGCCGCTGAGGAAGCCATCCGGGGCCAACTCTCCCGCTCCCGTCCCCGTGATGCCGTGCTCGGTGAGGAGTTCGGCAGCAGCGGACATGGTTCCCGCCGCTGGATCATCGACCCCATTGACGGCACCAAGAACTTTGTTCGCGGCGTCCCCGTCTGGGCCACACTCATCGCACTCGTTGACGAGGGCGAACCGGTGGTCGGCGTGGTCAGTGCCCCGGCGCTCGGTAAGCGCTGGTGGGCGGCCAAGGGCGCTGGAGCCTACATGGGCCGTTCCCTTGCCGCCGCCACCAGGCTGCGGGTTTCGGACGTCTCAAAGCTGTCCGACGCGTCGCTGTCCTATTCCAGCCTGGGTGGGTGGAAGGAACGGGGCAATCTTGACGAGTTCCTGGAGCTCACCGAGGATGTGTGGCGGACGCGGGCATACGGCGACTTCTGGTCCTACTGCATGGTGGCCGAAGGCTCTGTGGACATCGCGTGTGAACCCGAGCTGAACCTTTACGACATGGCGGCGCTGGTGCCCATTGTGGTTGAGGCCGGGGGCCGGTTTACCTCCCTTGAGGGAGAAGACGGGCCCTTCGGAGGCAATGCCCTGGCCACCAATTCCATCCTGCACTCGGAGGTCCTGAAGAGACTAAATCCGAGCCTGGACGATCTTCTCTCGTCCTGA	MIQPASSYNDDLRLAHVLADSVDDQTMSRFKALDLHIETKPDLTPVTDADKAAEEAIRGQLSRSRPRDAVLGEEFGSSGHGSRRWIIDPIDGTKNFVRGVPVWATLIALVDEGEPVVGVVSAPALGKRWWAAKGAGAYMGRSLAAATRLRVSDVSKLSDASLSYSSLGGWKERGNLDEFLELTEDVWRTRAYGDFWSYCMVAEGSVDIACEPELNLYDMAALVPIVVEAGGRFTSLEGEDGPFGGNALATNSILHSEVLKRLNPSLDDLLSS	PGPT0012270_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-PUROMYCIN_METABOLISM,PGPT0012270-pur3-K12634	NA	NA
D1-29_03160	1434	csd_2		putative cysteine desulfurase	GTGACAACTGCCACCGTCTCCCCCAATACCGCTGCCCAGGCATTTCCCGGCACGTCCCCAGCACTGTCCGCCGATCGCATTTCCATCGCCGGGCGTCCCCTCTCCGCCGTCACCGGCGCGGAGATCCAGGCTCCCCTGATCCAGGGCGGACATGTCAGGTACGCCAACCTTGACTATGGTGCTTCGGCGCCTGCCCTCTCCGTGGTTTCTGCCTACCTCAACGAGATCCTGCCGTTTTACGCGAGCGTCCACCGTGGTGCCGGCTATGCATCCCAGATCAGCACTTCGGTTTATGAGAACTCACGCAGCATAGTCCGGGAGTTTGTTGGTGGCCGCCCCGATGACTCCGTTATCTTCACCCGTAACACCACTGATTCCCTGAACCTGCTGGCCGGCTGCCTGCCGTCCACGGACGGGCGCAACCAGGGCGACGTCCTCTATCTCGACATCGAACACCATGCCAACCTCCTGCCGTGGCAAGGAGTGCCGCACCGCAGTGTGGTCGCCGCCAACACCCTTGCCGGTACCGTCGAGGCTATCCGTGCCGAGTTGGAACAGGGCGGGGTGAGCCTGCTGGCCGTCACCGGCGCGTCCAACGTCACCGGCGAGATCCTGCCCGTCCGGGCACTGGCGGCACTGGCCCACGAGCACGGCGCCCGCATCGTGGTCGATGCCGCACAGCTTGCGCCGCACCGGCGTATCGACATCGCCGCTGACGACGTCGACTACCTGGCCTTCTCCGGCCACAAGCTCTATGCGCCCTTTGGGTCAGGTGTCCTGGTGGGCCGGCCGGACTGGCTCGACGCCGGCACTCCCCACCTGGCCGGCGGCGGCGCTGTCCGGGAAGCCAGGCTGGACGGCGTGAGCTGGGCAACCGGGCCCGCCAGGCACGAAGGCGGCTCGCCCAACGTCCTGGGCGCAGCCACCCTCGCCCGCGCCACGCAGGTCATCGCCGCCTTGGACCAGACCCGCTGGCATGCCCACGAGTCAGCCATCAGGTCCTTCCTGGTGGAAGGCCTCGAGAAGATCGACGGCGTCACCGTGCACCAGATCTTCAAGGACACCAACCCCGAAACGGACACCATCGGCGTGGTTAACTTCTCCGTGGCGGGCTACGACGCTGGACTGGTGGCTGCCTATCTCTCCGCAGAGCACGGCGTAGGCCTCCGTGACGGCCGTTTCTGCGCCCATCCCTTGCTCAAGCGCCTGGGTCTTCCTTCCGGCTCCCTCCGGGCGAGCTTCGGAGTAGGTTCCCGGCTCGAAGACGCCCAACGGCTGCTGGCCGGCATCGAGGAACTGCGCCGCACCGGATTGGGATGGGACTACGTCGTGGATGCCGGCCGCTGGGTTCCCGCCAATGACACCCGGACTTACCCGTCGTGGGCGCCGAACACTCCCGGTACCGCAGGCGCAGCTCCCTGCATCGAAGACTGA	MTTATVSPNTAAQAFPGTSPALSADRISIAGRPLSAVTGAEIQAPLIQGGHVRYANLDYGASAPALSVVSAYLNEILPFYASVHRGAGYASQISTSVYENSRSIVREFVGGRPDDSVIFTRNTTDSLNLLAGCLPSTDGRNQGDVLYLDIEHHANLLPWQGVPHRSVVAANTLAGTVEAIRAELEQGGVSLLAVTGASNVTGEILPVRALAALAHEHGARIVVDAAQLAPHRRIDIAADDVDYLAFSGHKLYAPFGSGVLVGRPDWLDAGTPHLAGGGAVREARLDGVSWATGPARHEGGSPNVLGAATLARATQVIAALDQTRWHAHESAIRSFLVEGLEKIDGVTVHQIFKDTNPETDTIGVVNFSVAGYDAGLVAAYLSAEHGVGLRDGRFCAHPLLKRLGLPSGSLRASFGVGSRLEDAQRLLAGIEELRRTGLGWDYVVDAGRWVPANDTRTYPSWAPNTPGTAGAAPCIED				NA	NA	NA	NA	NA
D1-29_03161	759		COG0500	putative methyltransferase	GTGGCACGGGGTGGCCCCAAACTTGACCACGGACGCCGTCGGGAACTCGGACAGAGCTTCCAGGACGGCGGCGAGCACTACCAACGCGTCCGGCCCGGATATCCCGCGGACTCAGCTGACTGGCTTGTTCCCGCCGGAGCCCGTGATGCCGTGGACGTCGGTGCAGGGACTGGCAAGTTCACGGCCCTGCTGCTCGAGCGCGGACTGGCGGTTTCAGCCGTGGACCCTTCCGCGGACATGCTCAAGCAGCTCGGGATCCACTATCCACAAGTGACAGCAAGGCAGGGCACAGCCGAGGCAACCGGGCTGGCGAGCGGCTCATTCGACGTCGTCAGCGTTGCCCAGGCCTGGCATTGGTGTGACCCGCTGCAGGCAAGCACAGAACTTGCCAGGATTCTTCGCCCAGGCGGCACACTCGGCCTTATCTGGAACCAGCTGGACACATCCGTACCGTGGGTCCACCGGCTCTCACGGATTATGCACGCCGGGGACGTCTACAAGCCGGGGTTTCGTCCTGTGGTGGGGCCTGAGTTCCAGGGGCTCGAAAGCCATGTGACACGGTGGGAAGACCGGCTAAGCACGGCCGACATCATTGAGCTGGCCAAATCCCGGAGCTACTTCCTGAGGGCGGGTGAAGCCACGCGGACCAAGGTCCTCGCCAATCTCGACTGGTATCTGCACCAGCATTTGGATCACGCTGCCGGTGCTGAACTGGGACTGCCCTACCTGACGCTGACCTGGCGGGCCATCAAGGCATGA	MARGGPKLDHGRRRELGQSFQDGGEHYQRVRPGYPADSADWLVPAGARDAVDVGAGTGKFTALLLERGLAVSAVDPSADMLKQLGIHYPQVTARQGTAEATGLASGSFDVVSVAQAWHWCDPLQASTELARILRPGGTLGLIWNQLDTSVPWVHRLSRIMHAGDVYKPGFRPVVGPEFQGLESHVTRWEDRLSTADIIELAKSRSYFLRAGEATRTKVLANLDWYLHQHLDHAAGAELGLPYLTLTWRAIKA				NA	NA	NA	NA	NA
D1-29_03162	714	mntR		HTH-type transcriptional regulator MntR	GTGAAGACCAGCGCGCCCTCCTCCTCGATCGAGGACTACGTCAAGGTCATATACTCCTTCACTGAGTGGCAGGACAAGCCCATTACGTCCTCCCAGCTGGCCCAGCGCCTGGGCGTGGCAAATTCCTCGGTTTCGGAAATGGTCCGCAAACTCAAGGACCAGGGCCTGGTGGACCACAAACCGTACAGTGCCATCACGCTGACACAGGACGGAGTGCGGCTGGCCCTGTCCATGGTGAGGCGGCACCGACTGATTGAGACCTATCTCGTCCAACAGCTGGGGTACAGCTGGGATGAGGTCCACGACGAAGCCGAACTGCTGGAGCACGCAGTCTCGGACACTTTCATTGAACGCATGGCGGCCAAGCTGGGAAATCCCCAACGCGATCCCCACGGGGACCCCATTCCTACCGCGGACGGAACCGTGCTGATGCCTCCCGCCCGCCTGATGAGCGAGCTGGATCAGGGCCACACCGGCAGGATCACCAGGATCAGCGATGAGAACCCCGACCTCCTGCGGTACCTCTCCGCACAGGAAATCGACCTGGACGCCGATGTTGAGGTGGTCGGCCGGAAACCCTTCGGCGGCGCCCTTGTGGTGCGGATCCGCTCGGCGGGCAGGAAACAGGAATACGATCTTACTGACGAAGTGACGTCTGCCCTCTGGGTCCACAGCGACCACCCCCACCCTGGCTGCGTCCTCGAGGATCGCTGA	MKTSAPSSSIEDYVKVIYSFTEWQDKPITSSQLAQRLGVANSSVSEMVRKLKDQGLVDHKPYSAITLTQDGVRLALSMVRRHRLIETYLVQQLGYSWDEVHDEAELLEHAVSDTFIERMAAKLGNPQRDPHGDPIPTADGTVLMPPARLMSELDQGHTGRITRISDENPDLLRYLSAQEIDLDADVEVVGRKPFGGALVVRIRSAGRKQEYDLTDEVTSALWVHSDHPHPGCVLEDR	PGPT0003890_151	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003890-troR-K03709	NA	NA
D1-29_03163	426	crcB_1		Putative fluoride ion transporter CrcB	GTGAAACAGGCCGCCGGCAGCATGCCGAACTGGCGCGCCTGGCTGGCAGTGGCAGCGGGTGGCCTGGTGGGAACGGAACTTCGCTACGGCCTGGGCCTTGCCTGCCCTGACGCTCCCGGAACCATTCCCTGGGCCACGCTCTTGATCAATGTGTCCGGGAGCTTTGTGCTCGCCGCACTGACTACCTTCTGGATTGCCCGCCCTCACACTGCCTTCTGGCTCAGGGCCGGCATGGGCCCCGGGCTCCTGGGTTCCTTCACTACCTTCTCCGCCGTGGTGTTCACCATCGACCAACTGGCACGGGCCGGCCAGCACCCCGTGTGGATTGCCTACCTGGCCCTTTCCCTCATGCTTGGACTGGGCGCCGCAGCGGCAGGGTGGCGCACAGGAAAGGTTCTTGCCGACCGGACGGGGCCGGTCGCATGA	MKQAAGSMPNWRAWLAVAAGGLVGTELRYGLGLACPDAPGTIPWATLLINVSGSFVLAALTTFWIARPHTAFWLRAGMGPGLLGSFTTFSAVVFTIDQLARAGQHPVWIAYLALSLMLGLGAAAAGWRTGKVLADRTGPVA	PGPT0004985_838	DIRECT EFFECT	BIO-REMEDIATION	FLUORIDE_DETOXIFICATION	FLUORIDE_RESISTANCE	FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199	NA	NA
D1-29_03164	405	crcB_2		Putative fluoride ion transporter CrcB	ATGATCGCCGCAGGACTCGTCGGACTGTTTGGCGTCCTGGGCGCGCTGTTGCGCTTCGCCGCCGATAGCTGGTTCGCACACCGTGCCGCCCGCCGCCCTGTCACCAAGGTGGGCGGAACGCCACGCCACTGGCCGTGGGCAACGTTGCTGGTCAATGTCACAGGCTGCCTCATTATCGGGCTGTCCATCGGTATCACCGGAGGGCTGGGACTTCCATCCGATTGGCACACCGCCGTGGCCACAGGTCTGGCGGGAGGCCTCACAACCTTCAGTTCCTGGACCACGGCCACTGTCCGGCTCCTGAGCGAATCGCGGTTTACGGCGGCCGGGCTGAACCTGGGCGGCAACCTCGTTGCCGGCTTCGCCGCCGCGGCGCTGGGCATTGCCCTGGTAGCCGGGCGCTGA	MIAAGLVGLFGVLGALLRFAADSWFAHRAARRPVTKVGGTPRHWPWATLLVNVTGCLIIGLSIGITGGLGLPSDWHTAVATGLAGGLTTFSSWTTATVRLLSESRFTAAGLNLGGNLVAGFAAAALGIALVAGR	PGPT0004985_1612	DIRECT EFFECT	BIO-REMEDIATION	FLUORIDE_DETOXIFICATION	FLUORIDE_RESISTANCE	FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199	NA	NA
D1-29_03165	327			hypothetical protein	ATGGAAATGGCCCAGCGGCACGGAATCCCGAAGTGGCTGTCCGAAGCGGACCTGGGTGAGATCTTGGACAACCCACCACCGTGGCTTGTCCAGTCACGAGCCAACCGAACTGGCAAGCGTCCGGTCTGGGTTCATTTGGAGTGCGCCGTCTGCGGATATGAGGAAGCAGCGCGGCCCAAGAAATGGTGGCCCGACTTCACCTACGTCACCTGCGGCCACCATGCTCCCAGCGAGCTGCCGCCCCCTCGTCCTGGCTTCGTCCGTAGCGAGTTCGACGGCGTCGGGACCCGTTTTGTGGGCATCGCTGACGTTTCCGTTCCTGACTAA	MEMAQRHGIPKWLSEADLGEILDNPPPWLVQSRANRTGKRPVWVHLECAVCGYEEAARPKKWWPDFTYVTCGHHAPSELPPPRPGFVRSEFDGVGTRFVGIADVSVPD				NA	NA	NA	NA	NA
D1-29_03166	1041			hypothetical protein	ATGGACCCGGCGCGGGAGCCCAACCCTATAGAGCCCAATCCAGCAGAGCCCAACCCAGCAGTGCCCGATTCAGCAGTGCCCAATCCGGCAGAGTCCGACGACGGTCTCCTGGACTCTTACTCAAAGACCGTGATGCGAGTGGCCGAAACTGTCACTCCGCACGTTGCCGCCATCGAAATGACCGGCAACCGCCGGAACGGCAGATTTAGGTTCGGAGCGGGATCAGCCGTGCTCTTCACTGAGGACGGCTACCTCCTCACAAACTCCCATGTTGTGGCCGGAACACACCATGGGCACGCAGTCTTCGCGGATGGCAGCCGGACCGAACTTGAGCTCGTGGGGGTGGATCCCTTGTCCGACCTTGCAGTGATCCGCGGCCGCGCGCCGAAAGTAGCACCGGCAGAGTTTGGTGATGCCGAGTCCCTGCGTGTCGGGCAGTTGGTGGTGGCCGTGGGCAATCCGCTCGGATTGGCTGGGTCAGTGACAGCCGGTGTGGTCAGCGGGCTGGGCCGGGCAATTCCGGTGTGGTCAGGCGGCAACCGGCGTGTCATCGAAGATGTCATCCAAACCGACGCTGCCCTGAATTCAGGCAGTTCGGGAGGCGCGCTGGCAGACACGCATAGCCGAATCGTGGGAATCAACACTGCTGTGGCGGGCGCAGGGTTGGGCCTGGCTGTTCCGATCAATGCCACCACCCGCCGCATCATCTCCGCCCTCCTGACTGACGGGCGTGTGCGGCGGGCCTACCTGGGCGTGGTCAGCACACCTATCCGGCTCAACGCCAGTGCAGTGGTGAGGACTGGGCAACGCGACGGTCTGAGGGTAGTTGAGGTACTGGCAGGTTCTCCCTCGGATACCGCAGGCATCCAGGCCGGCGACATAATCCTGACCGCGGGAAACCGTGCAGTCAGCAATGCCGAAAGCCTTCAAAAACTGCTCTTCGCGGATGCCATCGGCCAGCCTCTTCAGATCGCAGTACTCCGGGACGGCAAGGAACTGGATCTCGTGGCCGTCCCCGAGGAAATGGCCACGAACGGGTAA	MDPAREPNPIEPNPAEPNPAVPDSAVPNPAESDDGLLDSYSKTVMRVAETVTPHVAAIEMTGNRRNGRFRFGAGSAVLFTEDGYLLTNSHVVAGTHHGHAVFADGSRTELELVGVDPLSDLAVIRGRAPKVAPAEFGDAESLRVGQLVVAVGNPLGLAGSVTAGVVSGLGRAIPVWSGGNRRVIEDVIQTDAALNSGSSGGALADTHSRIVGINTAVAGAGLGLAVPINATTRRIISALLTDGRVRRAYLGVVSTPIRLNASAVVRTGQRDGLRVVEVLAGSPSDTAGIQAGDIILTAGNRAVSNAESLQKLLFADAIGQPLQIAVLRDGKELDLVAVPEEMATNG	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
D1-29_03168	471	smpB	COG0691	SsrA-binding protein	GTGCCCAAAGAAAGTGGCCGAAAAGTAGTGGCCACCAACCGCAAGGCCCGGCATGACTATCACGTGCTGGACACTTATGAGGCCGGCATCGCCCTGATGGGCACCGAAGTGAAGTCGCTGAGGGAAGGCCACGCCTCCATGGTGGATGGCTTCTGCACTTTCTATAATGATGAGCTGTGGATGGAGGGCATTCACATCCCGGAGTACAACCAGGGCAGCTGGACCAACCACTCGGCACGCCGGCGGCGCAAACTGCTGCTCCACCGGGAGGAGCTCATTAAGATCTCCCACAAAATCCGCGAATCGGGCTTTACCATAGTGCCGCTGCAGCTGTACTTCCTGGACGGCAGGGCAAAGGTGGAGATCGGCGTCGCTCGAGGTAAGAAGGAGTACGACAAGCGCCAAAGCCTGCGCGAGCAGCAGGATAACCGCGAAGCCTTGCGGGAAATCAGGGAACGCAACCGCCGCTAG	MPKESGRKVVATNRKARHDYHVLDTYEAGIALMGTEVKSLREGHASMVDGFCTFYNDELWMEGIHIPEYNQGSWTNHSARRRRKLLLHREELIKISHKIRESGFTIVPLQLYFLDGRAKVEIGVARGKKEYDKRQSLREQQDNREALREIRERNRR	PGPT0014355_2418	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
D1-29_03169	1407			hypothetical protein	ATGAACGCAATGCACCGAACCTTGCCCCGGCACCGCCGGGACAGCCCCCGCCCTTCAGCGCGCCGCAGCGGTGTCATTAGTGCTGTCCTGGCACTGATCCTCACTGCCAGCCTTGCCTCTGCCGCCCCCACTGCGTTCGCCGATGAACTTGAAGACAAAAAGGCGGCCCTTGAAGCCGAGGCAGCCCGCGTCCAGCAGTCCCTTGAATTTGTGGACTCCCGGATCGCTAAGGCAGCCGGCGACCTGGTGATCTACCAGGGTCAACTGCCCGGTGCGCAGCAGGCGCTCCTGGAAGCCCAAGGCCGGGTGGCCAGCGCGGTCAAAGAAGTGGAAGCACTCGCGGCCCGAGTCGACCTGGCGCAACAGAACAAGGCCAAGATCACCCAGCAGCTTGAGACAGACAAGCAGAAGATTGCCGAAACCAAGAAACTTATCGGCCAGATCGCAACCCAGGCTTACAAGTCCGGAGGGGTCCCGTCGAACCTGACGCTCTTTTTCGGGTCCAACACTGGCGGAAGCCTGACCGACACGATGGATCTCGCGGATCAGGCCATGCGCAGCCAGAACTCGGCCATGGACAAACTCACGCAGCAGAGCGCCACCAACGTGAACTCGCAGGCGCGCCTTGAAGCTGTTGAGGCGGAGATCCAGGACCTGAAGGCAAAAGCTGATGCCGCGCTGGAACGGGAAAAAGTTGCCCGGGACGAGGCGGAGGCAAAGAAGGCCCAGGTTGACCAGCTGATCGCTGATACCCAGCGGCTGGACGCTGAGCTGCAGGCCGCGAAGCCCGGAATCCAGAGTCAGCTGGCCTCTGTCCAGGCGAGCCAAAATGCTATCGCCGCCGAGATCGCCGAGCGGGACAGAAAGCTCCGTGAAGCCTGGGAGGCTGAACAGCGGCGCCTTGCTGCGGCTGCTGCTGCGGCGGCAGCAGCGGCAGGCCAGGCTGCGAAGCCGTACGTTCCGGTGACCGGTTCGCCGTCGGCCTTTGGCCTGCGGCATCCGTTCGATGGCAGTGTCCCCATCACATCCGGCTTCGGCTGGCGGGCCACGCCTCCGGGCACCATCGACTTTTACGGCACAGGCGGCTACCTGCACACAGGCATCGACTTTGGCGCTGCCTGCGGCACGCCCGTTTATGCGGCGGCTGCGGGGGAGGTATTTTCCTCCGGCTGGAACTCCGGCGACGGCGGCGGGTGGCGGGTAAAGCTCTCCCACGGTGTAGTGCAGGGCAACTCCCTGACAACCATTTACTACCACAACAGCAGCATTGTGGTTTCCAACGGACAGAAGGTCTCGCAGGGACAGCTGATCGCGTATTCCGGAAACACCGGCAACTCCACAGGATGCCATGCGCACTTTGAAACATGGCTTAACGGCGCGGCCGTGGACCCGATGCGCCTGCTCTAG	MNAMHRTLPRHRRDSPRPSARRSGVISAVLALILTASLASAAPTAFADELEDKKAALEAEAARVQQSLEFVDSRIAKAAGDLVIYQGQLPGAQQALLEAQGRVASAVKEVEALAARVDLAQQNKAKITQQLETDKQKIAETKKLIGQIATQAYKSGGVPSNLTLFFGSNTGGSLTDTMDLADQAMRSQNSAMDKLTQQSATNVNSQARLEAVEAEIQDLKAKADAALEREKVARDEAEAKKAQVDQLIADTQRLDAELQAAKPGIQSQLASVQASQNAIAAEIAERDRKLREAWEAEQRRLAAAAAAAAAAAGQAAKPYVPVTGSPSAFGLRHPFDGSVPITSGFGWRATPPGTIDFYGTGGYLHTGIDFGAACGTPVYAAAAGEVFSSGWNSGDGGGWRVKLSHGVVQGNSLTTIYYHNSSIVVSNGQKVSQGQLIAYSGNTGNSTGCHAHFETWLNGAAVDPMRLL				NA	NA	NA	NA	NA
D1-29_03170	915	ftsX	COG2177	Cell division protein FtsX	ATGAGGCTTGCATTTATCCTGGGCGAGATCGGCAGCGGGCTTCGCCGCAACATCTCCATGGTTGTTTCGGTCATCCTGGTTACCTTTGTCTCCCTGACGTTCGTGGGCGCCGCCGGCATGCTCCAGCTTCAGATCAACCAGATGAAGGGCTACTGGTACGACAAAGTCCAGGTAGCGATCTTCCTGTGCAGTGATGGTTCGACGGCGGCAGGCTGCGCTACGGGGCCGGTCACCCCTGAGCAGCAGGAGAACCTGAAAAGCCTCCTGGAGTCGCCCGCCGTTTCGCAGTACATCAACGACTTCCAATACGAATCCAAGGAAGACGCCTACAAGCACTTCAAGGAACAGTTCTCCAATTCGCCGATTGTGGACTCCGTCACTCCCGACCAGCTGCCGGCCTCCTTCCGGATCAACATGAAGGACCCGCAAAAATACCAGATCATCAGCGAGACGTTTTCGTCCCAGCCCGGTGTCGAGAGTGTTATCGACCAGCGGCAGCTGCTGGAGCGTTTGTTTACTGTCATGAACGGCGCTTCGCTGGTGGCGGTGCTGATCGCCGGCGTCATGATTGTTTGCGCCATCCTCCTCATCGCCACCACCATCCGCTTGTCAGCGTTCAGCCGCCGCCGCGAAACCGGCATCATGCGCCTGGTCGGAGCTTCCAAGACCGTCATCCAGCTTCCATTCATTCTGGAGGGTGTGATTGCGGCGGTGATTGGAGCAGCTCTTGCTTCCGGCACCCTCTGGGCGGTAGCGCACTTCTTCCTGGGCGAGTTCCTGTCCAAGCAGTATCCGGACACCGCCTTCATCTCCCCGGGACAGACGCTTATCCTTGCGCCGGCGCTGCTAATCCTTGGCGGATCCTTGGCAGGAATTTCGTCTCTCTTGACCTTACGTAGATATTTGAGGGTTTAG	MRLAFILGEIGSGLRRNISMVVSVILVTFVSLTFVGAAGMLQLQINQMKGYWYDKVQVAIFLCSDGSTAAGCATGPVTPEQQENLKSLLESPAVSQYINDFQYESKEDAYKHFKEQFSNSPIVDSVTPDQLPASFRINMKDPQKYQIISETFSSQPGVESVIDQRQLLERLFTVMNGASLVAVLIAGVMIVCAILLIATTIRLSAFSRRRETGIMRLVGASKTVIQLPFILEGVIAAVIGAALASGTLWAVAHFFLGEFLSKQYPDTAFISPGQTLILAPALLILGGSLAGISSLLTLRRYLRV				NA	NA	NA	NA	NA
D1-29_03171	795	ftsE	COG2884	Cell division ATP-binding protein FtsE	ATGATCCGATTCGAAAATGTCACCAAGGTCTACGACCAGACAGCCCGGCCGGCGCTGGACGCCGTCAGCCTCGAGATTGACCGTGGTGAATTCGCGTTCCTCGTTGGTGCTTCCGGGTCCGGCAAGTCCACCTTCCTCAGGCTTGTCCTTAAGGAAGACCGGGCATCGTCAGGTGCCGTCTACGTGGCTGGCCAGAATGTAGCCAAGATTTCAAGCTGGCGCGTGCCCAAGCTGCGCCGTGGAATCGGTGTGGTCTTCCAGGATTTCAGGCTCCTTCCGCAGAAGAACGTCTTTGCGAACGTTGCCTTTGCGATGCAGGTGATTGGCAAGAGCCGCAGCGTTATCCGCGATACTGTTCCCGAGGTGCTCAAGACTGTGGGGCTTGAGGGCAAGGAGCACCGGATGCCGCATGAACTTTCCGGTGGAGAGCAGCAGCGCGTGGCCATTGCCCGGGCCGTGGTAAACCGCCCAGGCATCCTCCTCGCCGACGAACCGACCGGAAACCTTGATCCCACCACGTCCATGGGCATCATGGGCGTGCTGGACAAGATCAACCAGAACGGCACCACCGTGGTCATGGCCACCCACGACGACGACATCGTTAACGAAATGCGCAAACGGGTGGTGGAGCTGAAGAACGGCGTCGTTATCCGTGACGAAGCGAGGGCCCTCTACACCTCGATGATTCCCGTGGTGGGCCAGTCCCGACGGCTCAAGGATGCCAGCGGACGGGAAGAGATACCTCCTGCCGTCCCGCTCGAATACCGTACCGATGCCGGGGAGGAGCAGCGATGA	MIRFENVTKVYDQTARPALDAVSLEIDRGEFAFLVGASGSGKSTFLRLVLKEDRASSGAVYVAGQNVAKISSWRVPKLRRGIGVVFQDFRLLPQKNVFANVAFAMQVIGKSRSVIRDTVPEVLKTVGLEGKEHRMPHELSGGEQQRVAIARAVVNRPGILLADEPTGNLDPTTSMGIMGVLDKINQNGTTVVMATHDDDIVNEMRKRVVELKNGVVIRDEARALYTSMIPVVGQSRRLKDASGREEIPPAVPLEYRTDAGEEQR	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
D1-29_03172	1116	prfB	COG1186	Peptide chain release factor 2	ATGGCCAATATTGATTTTTCCGCAGAAATCCGCGCTCTTCGCGCCACCTACACCTCCATCGAGCGAGTGACAGATGTTGAGGCGTTGAAGGAAGACATCGCTGAATTAAGCGAGCGGGCGGGCGAGCCTGACCTGTGGGATGACCCGGCGGCAGCCCAAAAAATCACCTCACGGCTGTCCCACCGCCAGTCCGAGCTGGAACGGCTCAACACGCTGGCATCGCGGATTGATGACCTGGAGGTCCTGGTGGAGCTGGGCCAGGACGAGGACGACGCCGACTCCATGGGCGAGGCGGCCGCTGAACTTGAATCCATCAGGAAGTCACTGAAGGAACTTGAAGTTGTAACCCTGCTCTCGGGCGAGTACGACGAACGTGAGGCAGTAGTCTCCATCCGCGCGGGGGCGGGGGGCGTAGATGCCGCAGACTTCGCGGAGATGCTGATGCGCATGTATCTGCGCTGGGCCGAACGCCACGGTTATCCGACCACCGTCATGGACACGTCCTACGCCGAAGAGGCAGGGCTTAAGTCGGCCACGTTTGAAGTCAAGGCTCCCTACGCCTTCGGTACCCTCAGCGTTGAGGCCGGCACCCACCGGCTCGTCAGGATCAGTCCCTTCGACAACCAGGGCCGGCGACAGACGTCCTTCGCCGCCGTAGAGGTCATCCCGCTGATTGAACAGACCGACTCCATCGATATTCCGGACAACGAGATCCGCGTGGATGTCTTCAGGTCCTCGGGGCCCGGCGGCCAGTCAGTCAACACCACCGACTCCGCGGTACGCCTCACGCACATCCCGACTGGCACCGTGGTCTCAATGCAGAACGAAAAGTCCCAGCTGCAGAACCGCGCGGCTGCCATGCGTGTACTCCAGTCGCGCCTCCTTCTCCTCAAGAAAGAGCAGGAGGATGCAGAAAAGAAGGCTTTCGCCGGCGACGTGAAGGCCTCGTGGGGCGACCAGATGAGGTCCTACGTGCTTAACCCCTACCAAATGGTCAAGGATCTGCGCACCGAACATGAAGTAGGGAACACCTCGGCCGTTTTTGACGGCGAGATCGACGACTTTATCGATGCCGGCATCCGTTGGCGCACTGATAACCGCAACGCTGACAAGTAG	MANIDFSAEIRALRATYTSIERVTDVEALKEDIAELSERAGEPDLWDDPAAAQKITSRLSHRQSELERLNTLASRIDDLEVLVELGQDEDDADSMGEAAAELESIRKSLKELEVVTLLSGEYDEREAVVSIRAGAGGVDAADFAEMLMRMYLRWAERHGYPTTVMDTSYAEEAGLKSATFEVKAPYAFGTLSVEAGTHRLVRISPFDNQGRRQTSFAAVEVIPLIEQTDSIDIPDNEIRVDVFRSSGPGGQSVNTTDSAVRLTHIPTGTVVSMQNEKSQLQNRAAAMRVLQSRLLLLKKEQEDAEKKAFAGDVKASWGDQMRSYVLNPYQMVKDLRTEHEVGNTSAVFDGEIDDFIDAGIRWRTDNRNADK				NA	NA	NA	NA	NA
D1-29_03173	414			hypothetical protein	ATGATCGTGCTCATCATCGGTTACGTCTTGCTGGCGCTGCTTGTGACCACCGTGGTAGTCGGCATCTCCAGTGTCTACCTTGAACATAAGAGGCTGCTTTCCCTTGCCGACGGAGCATCGCTCGCAGCTGCTGACAGCTACAAACTGGGCCAAGTAGGAACCGAGGGCGGCGTTCCTTCGGCCGTCCTGGACTCTGAACGCGTTCGGAACGTAGCCGGCGAGTTCGTCTCAAGGTCGCCCGCCTCGCAGCGCTTTGATGAACTGCAGGTGGCAGCGGAGACCGGAAGTCCCGACGGTTCAACCGCCGTCGTGGTTCTCAGCGCCGCAGTCCACCCGCCGGTGGTGAATTTCCTGGTCCCGGACGGCATCAGGATAGAAGCAACCTCCACTGCGCGTTCCCGGCTGACCCGGTGA	MIVLIIGYVLLALLVTTVVVGISSVYLEHKRLLSLADGASLAAADSYKLGQVGTEGGVPSAVLDSERVRNVAGEFVSRSPASQRFDELQVAAETGSPDGSTAVVVLSAAVHPPVVNFLVPDGIRIEATSTARSRLTR				NA	NA	NA	NA	NA
D1-29_03174	393			hypothetical protein	GTGGTTGAATTCACTTTCCTGGCGCTGCTCCTGATGGTCCCCCTGGTGTACTTCATCATCACCATGGGCCAACTTCAGGGTGGTTCTTTTGCGGTGGTGGGTGCCGCCGACCAGGCAGCCAAGGTTTTTGTGGCACAGCCAGACGCGCGTTCTGCTCAGACAGCCGCGGAGCAGGCAGCCCTCATCGCCCTGGCCGACTACGGTCACCCTGCCGAAGCGGCACACGTCTCGACCCTTTGCGAGCCTTCTGATTGTCAGGCCGCGGGAACAGCTGTCACTGTCACGGTCAGCCTGACCGTTCAGTTGCCCTTTATCCCCTTCAGCGACGCCTTCAGCCTTAACGCCAGCGAAGTCGAGGCCTCCTCAACCCAAGTGGTTGGCAAGTTTCGATGA	MVEFTFLALLLMVPLVYFIITMGQLQGGSFAVVGAADQAAKVFVAQPDARSAQTAAEQAALIALADYGHPAEAAHVSTLCEPSDCQAAGTAVTVTVSLTVQLPFIPFSDAFSLNASEVEASSTQVVGKFR				NA	NA	NA	NA	NA
D1-29_03175	417			hypothetical protein	GTGCCCCGGCAAGGCCAGAGCGGACTTTCTTCCGCGACTGGTTGGCGCCGCGAAGAGCGCGGCTCGGCGGTGGTGGACTTCATCCTGGTGGGCGGCCTGCTCACGGTGTTCTTCCTCGCCATCATCCAGCTCGCGTTGGTCCTGCACGTCCGGAACACATTGATCGATGCCGCTGCCTCGGGTGCGCGTTATGGAACGCTGGCTGATCGCGGTGCCTCCGACGCTACGGAACGTGCAGCGGACTTGATTGGGTCAGCTTTAAATCCCGAATATGCCCGGGATATCAGCACGTCCGAGGTGACGTTACAAGGGCTTAGAACGCTGCAGGTAACGGTCCGGGCGCCCATGCCGGTCATTGGCCTCATCGGACCCCGGGAGATGCTGGAGGTCAGAGGTCATGCCGCAATCCAGCCCTGA	MPRQGQSGLSSATGWRREERGSAVVDFILVGGLLTVFFLAIIQLALVLHVRNTLIDAAASGARYGTLADRGASDATERAADLIGSALNPEYARDISTSEVTLQGLRTLQVTVRAPMPVIGLIGPREMLEVRGHAAIQP				NA	NA	NA	NA	NA
D1-29_03176	264			hypothetical protein	ATGAAAAACCTGGGACTTTGGAGCGGATTGCTGTTCCTGGCGTTTCTGGCCGGTCTCTGGACCGTGGCAACCGGGGCCGGAGCCAGGTCATTGGCTGACGCATCAGAGCAGGCCGGACGGGCTGACCATCCGGAGCGGGGTGACGTCCCTGGTTGGGTCATGATCACCTTGATGTCCGCAGTCCTGGTGGCTGCGCTGCTTGCGCTCGCAGGCCCGGCACTTGAAGCGATGTTTAACCAGGCCATGGACAAGGTCGGAAGCTAG	MKNLGLWSGLLFLAFLAGLWTVATGAGARSLADASEQAGRADHPERGDVPGWVMITLMSAVLVAALLALAGPALEAMFNQAMDKVGS				NA	NA	NA	NA	NA
D1-29_03177	942			hypothetical protein	ATGACCGGCACCTCCGCCGCTGCCATCGTCTGTGGTGTCGTTTTGGGTGGAGGCCTCTGGCTGTTGCTGGTCAGGCTGCCGTTCATGCGCGCCACCACGTTCACCGAGCGGATTGAACCGCAGCTTAGGTCCCAAAACCTTGAGTCCAGGCTTTTGCGCTCGAGCGAACGGAATATCACTCCCTTTGGGCCAATGGAAAGGATACTCCGCCCGGTAGTACGGGATGGCCTCTCGAGGCTTGGGAAACTGAATCTGGGTTCCAAGGCGCTGGTCCGCAGGCTCGCCCAGGCCGGGATCAGCAAATCACCTGTGGACTTCAGGGCAGAACAGCTCCTGTGGGCGGCGGCAGGATTTGTTGTCTCACTGGCGGGAGTTGTCCTTGGCGCCGTCGCCGGGCGCTTCAGCCCGGTCCTGGCTGTTATTGCCGTGCTGGGCAGCGCCCTTGGCGGCTTTATGCTCCGGGATTACTGGCTTGGCGTCCAGATCAGCAAACGGGAATCCCGGATGATGGCGGAGTTTCCCAGTCTCGCCGAGCTGATGGCGCTGGCAGTCAGCGCTGGTGAGAGCGCCACCGGTGCTTTGGACAGGGTATGCCGCAGCGCCAGAGGAGAGCTGGCAGGAGAATTCGCCAAGATTCTTTCGGAGACCAGGGCAGGGAAGCCCTTGGTTGTGGCGCTGCAGGAATTCTCCGCACGCACTGACTTGGGGCCGCTGGTCAGGTTTGTGGACGGCGTCATCGTGGCCGTTGAGCGCGGCACACCTCTGGCAGATGTGCTGCGGGCCCAAGCACAGGACGTCCGGGACTACGCCAAGCGGGAACTTATGGAATCCGCGGGTCGGAAGGAGATTGCGATGATGGTCCCACTGGTGTTTGGAGTTCTTCCCTTGACGGTGGTCTTCGCCGTGTTTCCAGGAATAGCCGCGATCAGCCTGGGTCTCTAA	MTGTSAAAIVCGVVLGGGLWLLLVRLPFMRATTFTERIEPQLRSQNLESRLLRSSERNITPFGPMERILRPVVRDGLSRLGKLNLGSKALVRRLAQAGISKSPVDFRAEQLLWAAAGFVVSLAGVVLGAVAGRFSPVLAVIAVLGSALGGFMLRDYWLGVQISKRESRMMAEFPSLAELMALAVSAGESATGALDRVCRSARGELAGEFAKILSETRAGKPLVVALQEFSARTDLGPLVRFVDGVIVAVERGTPLADVLRAQAQDVRDYAKRELMESAGRKEIAMMVPLVFGVLPLTVVFAVFPGIAAISLGL	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
D1-29_03178	855			hypothetical protein	ATGGCGCCGCTAATTGGGGTACTGGCCGGGACAGGGCTGTTTCTGATCTGGTTGTCCTGCTGGGAGCAACTGGCGCCCGTTGATCGTCCCCGAAGGGTCAACCGGCTGGAGGACATGCTGGCTTCTGCCGGGATCGAAAAAGTTACCGGAAGCGGCCTCATTGCCACGTGCGTTGGCCTGGGCGTCTTTGTTGGACTTGCCTTCTTCGCTGTCAGCGGGTCTTGGCCTATTTCTGCCTGCTTTGGGTTATTCGGTGCGTGGCTTCCCATCAGCCTGGTCCGGTGGCGGGCCAGAAAGAGGACGTCGGTGCTGCGTCAGCTTTGGCCCGATGTTGTCGATCATCTTCGTTCCGCCATCCGGGCCGGTTTGTCGCTGCCGGAAGCCCTCATCCAACTGGGAGACAAAGGTCCCGAGGAGCTTCGCCCGGTGTTTCGCGACTTCGGCGGGGACTATCGCGCCGGTGGCCAGTTTAATGCTGCGCTGAACAAGCTCAAGGATCGGTTGGCTGATCCGGTGGCAGACCGGATAGTCGAGGCACTGCGGCTGACCCGGGAAGTTGGCGGTTCCGACCTCGGGAAACTTTTAGGGACTCTGGCTGAGTTTCTCCGTGAAAGTGCCAGGACGCGAAGTGAACTGGAGGCCAGGCAGTCATGGACCATCAGTGCGGCCAGGCTGGCGGTCGCTGCGCCGTGGATTGTCATGGTCCTCCTGGCCACCAGGCCTGAAGCGGTGCAGGCCTACAATACGCCGGCAGGGGCCGGTGTGCTCCTCGGCGGGCTGGTGGTGTCATTGATCTGTTATTCCATCATGCTGCGCATTGGGGCCCTTCCGCAGGACGAGAGGGTGCTCCGATGA	MAPLIGVLAGTGLFLIWLSCWEQLAPVDRPRRVNRLEDMLASAGIEKVTGSGLIATCVGLGVFVGLAFFAVSGSWPISACFGLFGAWLPISLVRWRARKRTSVLRQLWPDVVDHLRSAIRAGLSLPEALIQLGDKGPEELRPVFRDFGGDYRAGGQFNAALNKLKDRLADPVADRIVEALRLTREVGGSDLGKLLGTLAEFLRESARTRSELEARQSWTISAARLAVAAPWIVMVLLATRPEAVQAYNTPAGAGVLLGGLVVSLICYSIMLRIGALPQDERVLR	PGPT0022290_2197	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510	NA	NA
D1-29_03179	1224			hypothetical protein	ATGGACGCTGTACGAATCGTGGAGGACGAAGTCCGCGAGCTGATCCGTAGACGGGGGCTTGACCCGTTGCGGCAGCCGGGCGAGGTCCGTCGGCTGGTTGAAGCCGCTGTCAGTGACTATGACGAGCGTGCCCTGATGGGACCACTCCCGCCCATTGGTCCGCTGGAGGCTGCGCAGAGGTTTGTCTTCGATGCAGTAGCAGGTTTCGGTGTGCTCCAGCCGTTGTTGGACGACTCCTCCATCGAGGAAATCTGGCTGAATGCACCCAACGAGATCTACGTGGCCCGGAACGGCGAGTCCGAGCTCACGTCCCTGAGCCTGACGGCCCAGCAGGTGCGCGACCTGGTGGAACGAATGCTGAAGAGTTCAGGCCGGCGACTCGATATGTCTTCCCCATTTGTCGATGCTGCTTTGCCGGACGGCTCAAGGCTTCACGTAGTCATCCCTGACGTCACCCGTCGGCATTGGGCGGTGAACATCCGGAAGTTTGTGGTCAAAGCAAGCCGGCTGGAGCATCTGGTGGAGTTGGGGACGCTGACGCCCCAGGCCGCCCGGTTCCTGGGGGCAGCGGTGGCCAGCGGACTGAATATTCTCGTCTCCGGCGCCACTCAAGCAGGCAAAACAACCATGCTCAACTGTCTTGCGGCAGGTATCGGCAGCCGGGAACGGGTCATCACCGTCGAAGAGATCTTTGAGCTGCAGTTTCCTTTGAGGGACGTGGTCGGCCTGCAATGCCGCCAACCCAACCTGGAGGGTGAAGGCGAGATCCCTTTGCGCAGGCTGGTGAAGGAAGCTTTGCGCATGCGCCCCGACCGGTTGGTGGTGGGCGAAGTCAGGGAGGCCGAAAGTCTGGACATGCTGATTGCCCTGAATTCGGGCCTCCCCGGTATGTGCAGCGTGCATGCCAACTCGGCGCACGATGCTGTGACCAAGATCTGCACGCTCCCGCTGTTGGCCGGTGAAAATATTTCCAGCGCCTTCGTGGTACCCACTGTTGCATCCTGCATAGACCTGGTGGTGCACTGCAGCCGCCAGGCCAACGGCCGCCGTCAGGTGACAGAAATTCTTTCCCTTGGCCGGCGCGTGGAGAACGGCATCATCGAGTCGTCGATGGTGTTCGCCATGGTAGATGGCCAGTTGCAGCCCAGGCCAAGTTCGATGCCCGCCACTGAGAAATTTGCCCGCGCCGGTTACGACGTCGCGGCGCTGCTGGAGCCGCGCTAA	MDAVRIVEDEVRELIRRRGLDPLRQPGEVRRLVEAAVSDYDERALMGPLPPIGPLEAAQRFVFDAVAGFGVLQPLLDDSSIEEIWLNAPNEIYVARNGESELTSLSLTAQQVRDLVERMLKSSGRRLDMSSPFVDAALPDGSRLHVVIPDVTRRHWAVNIRKFVVKASRLEHLVELGTLTPQAARFLGAAVASGLNILVSGATQAGKTTMLNCLAAGIGSRERVITVEEIFELQFPLRDVVGLQCRQPNLEGEGEIPLRRLVKEALRMRPDRLVVGEVREAESLDMLIALNSGLPGMCSVHANSAHDAVTKICTLPLLAGENISSAFVVPTVASCIDLVVHCSRQANGRRQVTEILSLGRRVENGIIESSMVFAMVDGQLQPRPSSMPATEKFARAGYDVAALLEPR	PGPT0016025_2608	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283	NA	NA
D1-29_03180	1347			hypothetical protein	ATGGCGTTCAGCGTTGCAACAGCCAGGGTCGACATCACGCCGACTCTCAGCACGAATCCTTACATGGCCGGCTACGGAACAGTAGACGGAGGACGGATCGCAACCAGCAGCACGCCGTACCAGCCGTTGTATGCGCGGGCCATCGTCCTTTGGGAAGACACATACCCCCACCTCATATTGAGCGCGGATGTCCTTGCGTTCCCCCGTGCGATGCACCAGAGACTCCGCGCCCGCATTCTGGCTCTCGCTGGCTGGCACAGCAGTGAGATTCTTATGCAGGCAACGCATACCCACAACGGCCCCGCACTCATCGACTCCCTTCAGCCTTACATTTCCTATGGCATGTCAGACCTCACGTTGATCAAGAGCTACTGTGCCGCCCTGGAGGACAAGATCGTGTCTCTGGTCCAGACAGCCCTGGCGGCTCCGCGGACAGCCGTCACCCTTGACTACAAAGTTGCAAGCCAGAATTTTGCGGCTAACAGAGTTGGATTGCCATACACGGAGACTGCCGTTCCGATCCTTGTAGCCCGGCGCAGCAATGGGGTTCCGCGCGCTGTCATTTTCAGTTATGCATGCCATCCCGTAAGCGCCGGATGGCGCACGCTGTTCGACGGCGACTTTCCGTCCGCCGCATGCAATTACCTCGAAAATCAAACAGCAGGCTGCTTCGCCCTCTTCCTTCAGGGTGCATCAGGGGATCAGGATCCACTTGGAGCCCGCGGCTGGGCACTACGGGACCAGCAGGGGAACGCTTTGGGGGCCACGGTAAGTTCGGCCATGTCCAGCCCAGGCCGAACGATAGCTGGCCCCCTGCTGACCTATTATCAGGAAGTACAGCTCCCCCTCGACATCACTCTTACCGCGGCAAATCTCGCCGGCGTCCGTGCAGCGTTCGTTGCACGGCTTGGCAATCCCGAAGGGCAGCCAAGCTGGTACCAAAGACACGCGCAGGGAATGATCGCAAGGATCGACAGCAACAACCTCCCCACCTCCGTCCCTTCGCCCTTCCAGGTGTGGAAGCTATCGGGTAACCCCCAATTGAAGATCGCAATGATTGGCGGGGAGCTTGTCAGTGGTTATGGTGCCTACTTCCGAGCAGGGCATGGCGGCGCGAACGGCATCATAGTTGGGGGCTATGCCAACGAATCCTGCTGTTATATACCCAGCAATGAGTTCTTTCCCCCCTATATGCCTTATGGGAGCTACGAAGGCGGATGGGATCCAGATCACCCGGGCATTGCTGGCGGGTCGATGACTGTTTACGGGCACCTGGCCCATTTCAAGGGCGGCAGCAATGGGGTGGAAGCCACCGTGATCAACGCAATGAACGCCATGCTGGGCTAG	MAFSVATARVDITPTLSTNPYMAGYGTVDGGRIATSSTPYQPLYARAIVLWEDTYPHLILSADVLAFPRAMHQRLRARILALAGWHSSEILMQATHTHNGPALIDSLQPYISYGMSDLTLIKSYCAALEDKIVSLVQTALAAPRTAVTLDYKVASQNFAANRVGLPYTETAVPILVARRSNGVPRAVIFSYACHPVSAGWRTLFDGDFPSAACNYLENQTAGCFALFLQGASGDQDPLGARGWALRDQQGNALGATVSSAMSSPGRTIAGPLLTYYQEVQLPLDITLTAANLAGVRAAFVARLGNPEGQPSWYQRHAQGMIARIDSNNLPTSVPSPFQVWKLSGNPQLKIAMIGGELVSGYGAYFRAGHGGANGIIVGGYANESCCYIPSNEFFPPYMPYGSYEGGWDPDHPGIAGGSMTVYGHLAHFKGGSNGVEATVINAMNAMLG				NA	NA	NA	NA	NA
D1-29_03181	207			hypothetical protein	GTGCAAGTGGCACTTGCGGCCGGAGCGCCGGCTGAAGATAAACCTGCATTATTCCTGCGCATTTTGAAGGCGTCTACTCGAACGAACCCAAGGGAGTTGGAGGCCCGTTTGCCAGAGATCGGAGTTCCAGTCGTCAAGGGTGCGCTGGCGTTTGCCCCCCTGGCGCCGCAAGCCATCCTGCTGGAGCGGTGGCTCCAAAAAGCCTGA	MQVALAAGAPAEDKPALFLRILKASTRTNPRELEARLPEIGVPVVKGALAFAPLAPQAILLERWLQKA				NA	NA	NA	NA	NA
D1-29_03182	729			hypothetical protein	GTGAAAAAGTTCTTGTTAATGGGGACGTTGGGGCTTCTCCTCATTGGTTGCTCCGTGAACCCGCCATCCATCCAGCCAGAAAGCTCGCCCGCGCCGGCTAAAACGCCCGATGGACTTTCCAGTGAACCGGAACAGCGGCTGGCTTTCTTTTGCACGAGTCTTGATAACTCGCCGGATGTTCAGCTCTCAAGCCTTGAAGAGGTGTGGGCGGCAAGCAACTACTTGCGGATGGAGTCGTGTGACGTCACCTACGTGGGCCCGCAACCCTTCCAGCCCACGGCCGACGAAGCAGCTGCCATCGAGATCGCGAATTCAGGTAGCACTGACGGTTCGGACGGGCTGGAAGCCTATTTGACCGCCGTCGAACTCTGCACCCGGGTCAGCGATGAAACAGCTCCAGGCGGCTTTGCCGACAGCCCGAAAGAAATTGTGCGGGCGGCCGCGCGGATTTGTCCTGATGGCCCGCAAGGGAAAATCATCCAGGCGTGGGCCGACGGCACCCGCATAGGTGATGGCCGGCATGTCGTGGGGGAGTCCATGGAGCCAGGAACCTATGTCCTCCAGAAGAGGAAAACGGCTGCTGACGGAGAGTGCACCTGGACTGTTGCCGGAGCGGACGGGGCCGTTATCGATCAGGGAGGGACTTCGTCGGAGCCAGATGAAGTGAGCTTGGAAAATCGAGTAGTACTTACTAGTGACAATTGCGGAATTTGGGAGAAAATTGACTAA	MKKFLLMGTLGLLLIGCSVNPPSIQPESSPAPAKTPDGLSSEPEQRLAFFCTSLDNSPDVQLSSLEEVWAASNYLRMESCDVTYVGPQPFQPTADEAAAIEIANSGSTDGSDGLEAYLTAVELCTRVSDETAPGGFADSPKEIVRAAARICPDGPQGKIIQAWADGTRIGDGRHVVGESMEPGTYVLQKRKTAADGECTWTVAGADGAVIDQGGTSSEPDEVSLENRVVLTSDNCGIWEKID				NA	NA	NA	NA	NA
D1-29_03183	2796			hypothetical protein	TTGCCCGAGCGTGGAAAAGGGCCAGCGCTGGCAGGGAGTCCGGCTCTACTCGACCCAACACCCAAGTCCCCGGGAAGCGGAGATGAAATCGCGTTCATTCCGGACGCCGCCCCGGGTAGCGCCGAACTGATCCGCGCCAAGTGGAATCCAGCCACGGGCAAGTTCGAATACTTCAACCAGCTCACTGTATTCGACGGCGATCTGAGGCCGAATGCTGCGAGCGCGGGTCCGGACAACAACATTTACCTCTCGTTCGCGAGGGCGCGGTCGATTGTTAAGATCACCAGACCGGCCGGGAATCAACCAAGTATCGAATCGATTGCTTCGGTCAACTCAGCCGCCTTGGGTCTGTCCGCTGCTACTTTCAATAGCCAGGGAAGAGTCACCGTCTTTGTGGCCGAGACCACAGGACTGACTACTTTTACAGCTCCACCGGACGGAAGCCTTACTGACTACGTTCCCTTTGCCTCCTACAACGTTGGGAAGCCAGCGCGAGTCCATTTCGATAGTGCTACCAAGATGCTCTATACGGGAACTGCCGGAGGCACATCTGCGGCAAGCGCAGGCGGCGACACAGTTGCCCGTATCAATCTGCAGACGGGTGTCGTTGAATCACAATGGGCGTTGGGATTCAGCATGGTGGGCGGCCTCGGCATGAAAGCCGGGAAACTCCTGGTCATGGACGACTCCGGCCAGTTGGACGCGAGTAAGCCTGCAGGTCAGGGAAAGCTCTACCTCTTGTCAAATACGGCGGCCCAGATCCTCACAGGCCCCACCGCGGCAGATGGCACGCAGGCCGCAGACCCCGGGTTCACCAACGATCCGACACCAACCTTCACGGTAGGAACTGTTCCGGCAGGTAGCCAGATGGAATGCAGCCTAACGGCAGCAGGTCAGATTCCCGCGTGGCAGGATTGCACTTCCGGAAGCTACACCCCTTCGTCATCCCAGGCGGATGGCTCTTATTCCTTCGCTGTTCGTCCCATTCCTGGCATCGCCGCGACCCGTGAGTTCCGGATCGACACCGTTCCTCCTGCCATACCAGCCATTACCGCCCCAACCGCAGGCCAGGTCGTTACCGGCAATCCCATACTCGCCGCCACATTCGAAACTGGAAGTTCGCTGCGTTGCTCTGTGGATTCAACGGCGGACTCCAGCTTCCTGGCTTGTGCCTCAGGCCAGCCGTTCGCTTTGACGAAGGAGGGGCCAGCGACACTCCACGTGAAGGCTGTTGACGCGGCTGGGAACGTGAGCGCGGCCGCGACTGTCAATGTCACCGTCGACCTGACGCCCCCGGTTGTCACCATCACGGAGCCTGCCGAAGGGGCAACTGTCACGGATTCAATGTCCGTGCAGTTCTCGTCGACATCAGCTGACGTCGCAGCATTCAGGTGCAGTCTGGATGGCAGCGCTTTGTCAGCCTGCACTTCCCCCAAGGCGTATAGCGGCCTGGCGAACGGGCAGCACCAAGTTGATGTGGAGGTGTCGGACGTCGCGGGAAACAAGAGCCTAGCCACGCGTAAGTTCACAGTCCAGGCCGCTGACACCGTTCCGCCTCTGGTGACGGCCTCGCCGCAGGCTGGGACCTACGGACCCGGTACGACTATAACCCTGTCGGCGAACGAGCCTGCATCCATTTACTACACAACTGACGGATCCACACCCACGGCCGCCAGCACCCGTTATGCAGACCCCATTCTGCTCGGAACGTCAATGACGATCAAGTATCTGGGGGTCGACTCGGCATCGAACGTCTCTGGCGTGGGGCAGCAGACCTACGTGCTTGATGCGACGCCCCCTGAGGTGACGGTCTCGCCGGCCGCCGGTACCTACCCGTCCGGGCAGCAGATCACACTGACTGCCAATGAGGCCTCAACGATCTACTACACAACGAATGGTTCTACGCCGTCGACCGGCAGCACGAAGTACACCAGCCCTATTACCCTCACCGGCTCGATGACGCTCAAATACCTTGCGGTTGATGCCTCCAACAATGCGTCACTGGTAGGAACCCAGGCGTATACGGTTATTCCTCCCGTTTCCGGACTTTGGAAGGACTACAACAGCGACACCAAGGCGGATGTCATTGCCCGGGACAGCGGGGGTACCCTGTGGATCTATCCTGGCACTGGGTCAAGCGGTTTCCTTAACCGCATCTCCACCGGCACTGGCTGGAACGCCATGTCGGCCATAGTGCCGACTCCCGATTTCAACGGTGACGGCCGCAGTGACGTGCTGGCCCGGGACACCAGCGGAGTTTTGTGGCTGTACGGCGGCAACGGCGCAGGCGGTTGGCAGCCCAGGGTCAAGAACGGTGAAGGGTGGAATGGGATGTCCGTAATTCTCTCGCCCGGCGACTTTGACGGCAACGGCAAGGCAGACGTCCTGGCACGGGACGGTGGCGGTGCCCTTTGGCTTTATCCCGGAAACGGCTCTGGAGGTTTCCTGAACCGCATTCAAGTGGGTAACGGCTGGAACGTCATGACCTTCGTCTTTAGCCCGGGTGACTTTAATGGTGACGGCTTCAACGATGTACTGGCGCGGGAATCCGGAGGGAACCTCTATCTTTACGCGGGCAATGGAAGGGGTGGCTGGCTCGCCCGGCAACAAGTGGGCAACGGATGGAACGCCATGAGCGCCATCCTGGGCCCCGGCGACTTCAGCGGCGATGGAAAACCTGACGTTTTGGCACGCGATTCAGCTGGCCGGCTGTGGCTCTACCCCGGAAACGGTGCGGCGGGATGGTTGTCCAGGAGCCAAATCGGTTCAGGCTGGAATGGCTACCTGATCCCTTAG	MPERGKGPALAGSPALLDPTPKSPGSGDEIAFIPDAAPGSAELIRAKWNPATGKFEYFNQLTVFDGDLRPNAASAGPDNNIYLSFARARSIVKITRPAGNQPSIESIASVNSAALGLSAATFNSQGRVTVFVAETTGLTTFTAPPDGSLTDYVPFASYNVGKPARVHFDSATKMLYTGTAGGTSAASAGGDTVARINLQTGVVESQWALGFSMVGGLGMKAGKLLVMDDSGQLDASKPAGQGKLYLLSNTAAQILTGPTAADGTQAADPGFTNDPTPTFTVGTVPAGSQMECSLTAAGQIPAWQDCTSGSYTPSSSQADGSYSFAVRPIPGIAATREFRIDTVPPAIPAITAPTAGQVVTGNPILAATFETGSSLRCSVDSTADSSFLACASGQPFALTKEGPATLHVKAVDAAGNVSAAATVNVTVDLTPPVVTITEPAEGATVTDSMSVQFSSTSADVAAFRCSLDGSALSACTSPKAYSGLANGQHQVDVEVSDVAGNKSLATRKFTVQAADTVPPLVTASPQAGTYGPGTTITLSANEPASIYYTTDGSTPTAASTRYADPILLGTSMTIKYLGVDSASNVSGVGQQTYVLDATPPEVTVSPAAGTYPSGQQITLTANEASTIYYTTNGSTPSTGSTKYTSPITLTGSMTLKYLAVDASNNASLVGTQAYTVIPPVSGLWKDYNSDTKADVIARDSGGTLWIYPGTGSSGFLNRISTGTGWNAMSAIVPTPDFNGDGRSDVLARDTSGVLWLYGGNGAGGWQPRVKNGEGWNGMSVILSPGDFDGNGKADVLARDGGGALWLYPGNGSGGFLNRIQVGNGWNVMTFVFSPGDFNGDGFNDVLARESGGNLYLYAGNGRGGWLARQQVGNGWNAMSAILGPGDFSGDGKPDVLARDSAGRLWLYPGNGAAGWLSRSQIGSGWNGYLIP				NA	NA	NA	NA	NA
D1-29_03184	2598			hypothetical protein	ATGATGCGGAACCACTCGATCAGCCATCGTCCCCTTCTGCGGCTTCTGGGGACCGCCGCCTTGGCCGTGTCCCTTGCGGCAGGACCCGGACTGGCAGGAACTGCGCTCGCCGTCGTGCCCAGTCCGACACCAACAGCCACCCCGGCGTCCACGGCGGATCCCGGTCCTACGCCCTCTTCAGTCCCGTCGGCATCGGCGCCGGCCACAATCCCTCCGACACTGCCGAAGGAGCAGCCGGCAACGGCTGCCACACAGGCTGCTCCCATCTCAACACCCACGAAGGAATCGATGGCTGAAGCTGTCGGCGAGGGTGGAGCGGAGATGGGCCAACGCTCCGCCAGGGTGACCGCGTCCGATCCCTCTGGCTCCTCGAGGAAACTCAGCACCGAATCCCTGTCAACCGAAGGTACCTGGATGCCCACCTTTGGCGTCCAGGGACTGGACGTAAGCGGCCACCAGCCCAGCGTGGACTGGCAGCATCAGTGGAATATGGGCGCAAGGTTCGCCTACGTCAAAGCCACCGAAGGAAGCTACTTCACCAACGACTACTTCAACTCCCAGTATCAAGGATCGCGCAATGTCGGGATGATCCGTGGCGCCTACCATTTTGCCATCCCGAACGGTTCCTCGGCTTCAGACCAGGCCCGCTTCTTCGTGCAGAACGGCGGCGGATGGTCCCCAGACGGTTACACCATGCCTCCGGTACTCGACTTTGAGTTCAACCCCTATGCGGGCAGAACCATCAACGGGTTCTACTTCGGCAACACCTGCTATGACATGTCTCCAACACAGCTGGTCTCTTGGGTCCGCGAATTCGGCAGCACCATGCTGTCACTGACAGGCCGCCTGCCGGTTATCTACACCAACACAAACTGGTGGAAGCAGTGCCTCGGCGATCCTGCCGGTTTCGGCGACTACCCGTTATGGGTGGCAGCCTACCCGTCGGCGCCAACCAACAATGCCGGCGCCATTCCCTCAAGCTGGAGCACCTACAGCATCTGGCAATACAGCAGCACCGGGCCGTTCGCCGGCGATTCGAACGTCTGGAATGGCAGCATGACCCAACTGAGGGAATTCGCTGCCATAGGTGACTCCTGGCCAAGCGGACCGTCGATAAAGTCCGACGCGGACGTTCTCGCCGCTGACGCATCAGGCAACCTGTTGAACTATGTTTCGAATGGCGCAGGCGGCCTCCGTTCACCACGAACCATCGGCACGGGCTGGACTAATCTGAGGTCTGCCACGACCACCGACTGGGATGGCGACGGCATCCGCGACATCTTTTCGCAATGGAATAGCGGGGACCTCCTCGTCTACAAGGGGCTGGCCGCTGGAGGGTTTTCGTCTCCAATCCGGGTTGGCCAGGGCTTTCAAGAAAACGTCATCACTCTCGGCGCTTGGCGGACGACCGACTCCCGTCCCGGTGTCATGGCACGGAGACCCACGGGAGAACTTCTCTATTACCCGAGGTCGGGTGACGCGTTGCAGGCTGGAGTCGTTTCCGGGACTGGCTGGGGAAACATCAACATCACCATGCTGGACTTCGATGGCGACGGCAAGCAGGACATCCTGGCCCAGACCGGTGCCGGTGAAATGAAGCTCTATCGCTCAAACGGCGGCGGTGCGTTCATTGCCGAATCACGGGCTGTGGTGGGAACGGGGTGGAAGGCCATCACTGCGGTTTCGCTAAGTAGCGGCTTCACCGGAAATGGATCACGTGGCCTCGTCGTACGCCGCGACGGAGGAGCCCTGCAGTATTTTCCGTTCGGACAAGGGGCCTGGGGACAGGCTTCTACTATCGGCACCGGATGGAACCCCCTGCTGATCTTTGGCTCGGGTGACCAGACCGGACCTCTTCCATGGGCCACACCTGCCGACACAATGGGCATCACGGCTGAAGGAAAGCTGATGCTCTATCCTGCCGACGGCGGCGCGCTCATTTCCGGGCGGACGGCCGGCACCGGGTGGACAAACGTTCAAGCCATTTTCAGCACTGATTGGGACATGGACGGGAAACTGGACCTGTTGGCCCAATGGAAAAACGGCAACGTCACTCTGTATAAGGGACTGGCAGGAGGCGGATACTCAACACCTGTCGGACTGGCCACTGGCCTCCAGGACAAGACTCTGACAGTCGGCCCCTGGAACAGCAAGGATCGCAGGCCCGTCATAGTCGCAAAATCGGGAAACGGCGACCTTCTGCTGTATGCCCGCGGGAGCGCGGATGCCCTGAAGGCCGCAGTTCCCATTGGCTGGGGTTGGAGCGGGCTCGACATCACCATGTTCGACTTTGACGGCGACGGCAACCAAGACCTAATTGCCCGAAACTCCAACGGGCAACTGCTCCTCTACCGCACGGATGGAGCCTCCAACTTTCTGAACGAAAACCGGAGGCAAGTGGGCAGCGGTTGGGACGCTGTGGACGCCGCCACGTCAACTCTGGGGTTCAAGGGTGCGGGCACCGCCGGTCTCACCGTCAGATTCAAAAACGGCATACTCGCCTATTATCCTGTCGTCGGCGGCACGTGGCGGTCACCGGTCACAATCGGTTCCGGCTGGACGCCTTTGACTATTGCCGGATCTGCACGCTGGCCCTAA	MMRNHSISHRPLLRLLGTAALAVSLAAGPGLAGTALAVVPSPTPTATPASTADPGPTPSSVPSASAPATIPPTLPKEQPATAATQAAPISTPTKESMAEAVGEGGAEMGQRSARVTASDPSGSSRKLSTESLSTEGTWMPTFGVQGLDVSGHQPSVDWQHQWNMGARFAYVKATEGSYFTNDYFNSQYQGSRNVGMIRGAYHFAIPNGSSASDQARFFVQNGGGWSPDGYTMPPVLDFEFNPYAGRTINGFYFGNTCYDMSPTQLVSWVREFGSTMLSLTGRLPVIYTNTNWWKQCLGDPAGFGDYPLWVAAYPSAPTNNAGAIPSSWSTYSIWQYSSTGPFAGDSNVWNGSMTQLREFAAIGDSWPSGPSIKSDADVLAADASGNLLNYVSNGAGGLRSPRTIGTGWTNLRSATTTDWDGDGIRDIFSQWNSGDLLVYKGLAAGGFSSPIRVGQGFQENVITLGAWRTTDSRPGVMARRPTGELLYYPRSGDALQAGVVSGTGWGNINITMLDFDGDGKQDILAQTGAGEMKLYRSNGGGAFIAESRAVVGTGWKAITAVSLSSGFTGNGSRGLVVRRDGGALQYFPFGQGAWGQASTIGTGWNPLLIFGSGDQTGPLPWATPADTMGITAEGKLMLYPADGGALISGRTAGTGWTNVQAIFSTDWDMDGKLDLLAQWKNGNVTLYKGLAGGGYSTPVGLATGLQDKTLTVGPWNSKDRRPVIVAKSGNGDLLLYARGSADALKAAVPIGWGWSGLDITMFDFDGDGNQDLIARNSNGQLLLYRTDGASNFLNENRRQVGSGWDAVDAATSTLGFKGAGTAGLTVRFKNGILAYYPVVGGTWRSPVTIGSGWTPLTIAGSARWP				NA	NA	NA	NA	NA
D1-29_03185	1650			hypothetical protein	GTGATCTCTGCCCGGATGACCCGTTTCCGCGCGGCCCAAGGCAGATCCTGGTTTTTGCCGTCTTTCCTGGTCTTGCTCTTCTTGAGCTGGTCGTGGGCCTTCGCTTCGCCCATTGCTTCGGTCCCGGACGAGCCGGCCCATATCACCAAAGCTGCCGCCGTCGCCCGCGGCCAATTGGGTGGCATACAAATCGGCACCGATGGGCCGCTGCTGGCTGTCGACGTTCCGCGTTACATCCGATACGTAGACGCCATGTCCTGTTTCGCGAGGGACTTGACCAGCACGCCGACCTGTGCGCCGCCCCTCGACGGAGGACACGACGATACGGTCCAGGCGCTCACCACTGCGGGACTCTATAACCCCGTTTACTACGCAATAGTCGGATTGCCATCGCTGGCCACGTCAGGATTTCCTGGGGTCTATGTGATGCGTTTCGTCAGCGCCCTCTTGAGCTGTTTCTTTCTTGCAGCAGCATTTGGTGCGGTAAGCCAATTGCGTCGCAATAAGTGGGCACTTATCACGCTGTCGGCCGCGATTACCCCAATGATCCTATTTCTCAATGGATCGGTTAACCCGAATAGCCTCGAATATGCGACAACCGCTGCCATAGCTGCGAATCTGCTCCTGCTTCTGGAGAAGTCTTCATCGGGGAGGCTGCCAATTCTGCCAATAGCAGTCACCACGGCTGCCGCTTCGCTGCTTGCCAATACCAAGGCACTTTCCATGCTTTGGCTATTAATAGTTGTCGTAGCAGTGATGCTCACTGCAACAGCCGTCCAACTGAAACATTTGGTCAAGACCCCCGCAGTCCTCGCCGGTGCCGGAGTCATTGCTCTCGCGTGCGCGTTCGCTGTTCGATGGATCATCCGGCATGACAGCCTCAGCAGCAAACCATTTGAGGGCGCCGGTATGGAGCCAGCAGACGGCGCAGAAATAATGTTCGATAAAATTTTCAACCACATGATCGGATGGATCGGTCAATTCGGTTGGCTGGAACTCGACGCTCCCCTAGCCGTCCTTGCCCTGTGGATGGCGATCATTTTCGTTGTCACTCTCGCTGTCCTGTTGTATACCCGGGGACGCGCTCGGGTAGCCGCCCTGCTGTTGGCATTCAGTCTGATTGCGCTTCCCATAGTGCTTCAAGCCCAAATCATTTCCGAGCAGGGAATCATCTGGCAGGGGCGCTACATCCTGGCCATCTTCGTTCCGTTTATGCTATTCGCCGGTGTGGCAATGGACAGGTCGCTGACCGGCGCTATCCCGGCACCAGGCCGACAGGCCCTCAACACTCTTATCAACATCGCCATATTTGCGCAAATATTCACCTTTGTATGGGTGCTCCGCCGGTACACGACCGGCCTTTCACTCGACATTCGCTGGGCTGAAATGCTTGAAGCCCCCAAATGGCAACCGCCGCTTGGAATCGTCGCAGTGGTGCTTATTTTCTCCGCTACGTCGGTCATTGCCGCGGCGCTTCTCAAGCGCCACATTAATAGCGTGGATGACCTGCCAGTTGCAGGTAGCACCACTGAACCAGTCGCGGGTACTAGTGAGCCACTCGCGGGTAAACCTCACCCAGTCGCGGGTACCACGGAGCCAGTCCCCGAAACAAGACGGGGTCTGCGCGTATCACGCGGACAGGACGCCTAG	MISARMTRFRAAQGRSWFLPSFLVLLFLSWSWAFASPIASVPDEPAHITKAAAVARGQLGGIQIGTDGPLLAVDVPRYIRYVDAMSCFARDLTSTPTCAPPLDGGHDDTVQALTTAGLYNPVYYAIVGLPSLATSGFPGVYVMRFVSALLSCFFLAAAFGAVSQLRRNKWALITLSAAITPMILFLNGSVNPNSLEYATTAAIAANLLLLLEKSSSGRLPILPIAVTTAAASLLANTKALSMLWLLIVVVAVMLTATAVQLKHLVKTPAVLAGAGVIALACAFAVRWIIRHDSLSSKPFEGAGMEPADGAEIMFDKIFNHMIGWIGQFGWLELDAPLAVLALWMAIIFVVTLAVLLYTRGRARVAALLLAFSLIALPIVLQAQIISEQGIIWQGRYILAIFVPFMLFAGVAMDRSLTGAIPAPGRQALNTLINIAIFAQIFTFVWVLRRYTTGLSLDIRWAEMLEAPKWQPPLGIVAVVLIFSATSVIAAALLKRHINSVDDLPVAGSTTEPVAGTSEPLAGKPHPVAGTTEPVPETRRGLRVSRGQDA				NA	NA	NA	NA	NA
D1-29_03186	495			hypothetical protein	ATGCACAACCATCAACAGGACAGAACCGTTGCGCAGCCAAAGACGACCCACCCCGTGCGGCTGGCCATCAATCACAGTGCCTTCAGATACCTGTTTTTTGGCGGCCTGTCATTTCTTGTCGATTTTGGTCTGCTTGTTCTCTTCCGGGAAGTCTTCCAGTGGAACCTCGCGGTGGCCGCGGCCACCGCGTTTCTGCTCAGCTTCGCCTTCAGCTACACAGTACAAAAACTCTTTGCCTTTGATTCAGCCCACCGAACACACGTCAGCCTCGGCCGTTATACCCTCCTGGTAGGCGCCAACACGGTAGCAACCGTCATCATCGTGCAACTTTTGTCCCTTACCGGCCTGGGTTATGGCGGCGCAAAAGTGGTTTCCACTGCGGCGACCACTGTATGGAACTATTTCCTCTACAAGCATTGGGTATTCGGAGGCAAGCAGCCGTCGGGGGACCATGTCGAGGAAGACAATCGAAAGGATCCCATCAACAATGTATAA	MHNHQQDRTVAQPKTTHPVRLAINHSAFRYLFFGGLSFLVDFGLLVLFREVFQWNLAVAAATAFLLSFAFSYTVQKLFAFDSAHRTHVSLGRYTLLVGANTVATVIIVQLLSLTGLGYGGAKVVSTAATTVWNYFLYKHWVFGGKQPSGDHVEEDNRKDPINNV				NA	NA	NA	NA	NA
D1-29_03187	978			hypothetical protein	ATGTATAACGGCGCCCGAATCGCTGCAGTCGTTCCTGCTTATAAAGAGGAGAGAATGATCGGGCAAGTCATTGAAACCATGCCCGACTATGTGGACCACATTGTCATCGTTGACGATTGCAGCCCGGATAACACTTCCCATGCAGTGCGTGCAATGGCAGACCCGCGGGTGGAGCTCATTCGTCACGACGTCAACCAGGGTGTTGGAGGTGCCATTATTACCGGTCACCGAAAAGCCATGGAGCTCGGCGCCGATGTAAACGTCGTCATGGCCGGCGATGCCCAGATGGACCCCGCCTACCTTCCGGATCTCCTGGAGAAGGTCGTGGACGACGGCTACGGATTCGCCAAGGCGAATCGGTTTTTTTCAGCAGGCTCTTTCTCAGGGATGCCCCGGTACCGTATTTTTGGCAACATCCTCCTGTCTTTCATGACCAAACTTGCCTCGGGTTACTGGCACCTTTTTGATCCGCAAAACGGTTATACAGCGGTGCGGACGGAGATTCTGCAACGTTTGCCGTTGGAGACCATTTCCAAGCGCTACAGCTTCGAGAACGACATGCTCCTGAACCTGAACATCCTGCAGGTTCCCGCCATCGATGTTCCCATCCCTGCGGTGTACGGCGAGGAAGTGTCCAGCATCAGGCTGAGCAAAGTTGTGCCGGAACTGCTGCATATGCTGGGGACCGGATTCTGGAAGCGGATTTGGTACCGGTATGTTCTGTGGTCCTTCTCCCCTGTTGCACTCATGCTCTTCCTGGGAATGGCTCTGTTTGGAGTGGGAGCCATCATCAGCATTTGGGTCTGCTTCCAGATTCTTTCCAGCACAGTGGCAACAGCGGCCACCGTGATGCTTGCCGCTTTGCCGTTGATGCTTGGAACTCAACTGCTGATTAGTGCACTGCAGCTCGACATACAAGCCAGCCCCTCTGCGCCAAGTCTCCCCCACATTCGAAAGCACGGCAGGACAAGCCGCTAA	MYNGARIAAVVPAYKEERMIGQVIETMPDYVDHIVIVDDCSPDNTSHAVRAMADPRVELIRHDVNQGVGGAIITGHRKAMELGADVNVVMAGDAQMDPAYLPDLLEKVVDDGYGFAKANRFFSAGSFSGMPRYRIFGNILLSFMTKLASGYWHLFDPQNGYTAVRTEILQRLPLETISKRYSFENDMLLNLNILQVPAIDVPIPAVYGEEVSSIRLSKVVPELLHMLGTGFWKRIWYRYVLWSFSPVALMLFLGMALFGVGAIISIWVCFQILSSTVATAATVMLAALPLMLGTQLLISALQLDIQASPSAPSLPHIRKHGRTSR	PGPT0017834_715	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
D1-29_03188	1404			hypothetical protein	ATGGAGTTCCAGAAGAAGCTCGCAGCCACGGAAACACCCATTCCCGGCATGATGCTTTTCGATCTCCCGGTACACGGTGATAACCGTGGCTGGTTCAAGGAGAACTGGCAGCGGGAGAAGATGATGGCGCTCGGGTTGCCGGACTTCAGCCCTGTCCAGAACAACATCTCATACAACGACAAAGCCGGTACCACCCGGGGAATCCACGCAGAACCATGGGACAAATTTGTGTCCGTGGCGGCCGGCCGCATTTTCGGCGCCTGGGTGGATCTGCGGGAAGGACCGACGTTCGGCTCTGTCTTTACCGCCGAGCTCGATGCGGGAAGGGCGATCTTCATTCCCCGCGGCGTCGCAAACTCCTACCAGACGCTCGAGGACAATACGTCGTACGTGTACCTGGTGAATGACCATTGGTCGGCCGATGCCGAGTACACCTTCGTGAACCTCGCTGACGAAACTGTGGGAATCGCATGGCCGATCCCGCTTGAGCAGGCGGAAGTGTCCGACAAGGACATGGCGCACCCCCGCTTGGCAGATGTCACTCCAATGGCGCCCAAGAAGACGCTCGTGCTGGGGGCCGATGGTCAGCTTGGGAAGGCCCTTCGTACGGCGTACGCGGGTGATTCGAGTGTGGAGTTTACTGACCGGAACACCTTTGACCTCCTCGATCCTGCTTCGTTTGGCAGCCGCAATTGGCGGAAGTATTCCACCATCATCAATGCTGCGGCGTTCACTGCAGTTGACGCCGCAGAGACCGAAGAAGGCCGCCAGGCTGCCTGGGCCCTCAACGTTACCGCCGTTGCCGAACTGGCAAAGGTCGCAGTTGCCAACAGTTTGGTGATGGTGCAGGTCTCAAGCGACTACGTCTTTGACGGTCTACGTCCGTCACATGATGAGACCGAGGGCCCGACTCCGCTGGGAGTCTATGCACAGACCAAGGCTGCAGGGGACGCCGCCGTCAGTGTGGTTCCCCGGCATTACATCATCCGGACCAGCTGGGTCATAGGTGACGGGCCGAACTTTGTCCGCACCATGGCGTCCCTTGCAGAAAAGGGCGTTTCACCCGCCGTCGTCAACGACCAGATTGGCCGCCTCACCTTCTCGGAAGATCTTGCAGCCGGAATCAAGCACCTTTTGGACGTCGGGGCACCATTTGGTACCTATAACCTGACGAACGACGGCGAGCCTCAGTCATGGGCTGATATTGCGGCTGACGTTTTCGAACTTTCGGGACGCCCGCGTGGCAGCGTCACCGGCGTCTCTACGTCGGAATATTTCCGCGGAAAGACGGCAGCACCCCGGCCCTTGAACAGCGTGCTGGACTTGACCAAGATCACCGACGCCGGCTTCCGTCCTGAACTGGCCGTTACGAGGCTCAAAGGCTATCTGGAGAACACCAAGTAG	MEFQKKLAATETPIPGMMLFDLPVHGDNRGWFKENWQREKMMALGLPDFSPVQNNISYNDKAGTTRGIHAEPWDKFVSVAAGRIFGAWVDLREGPTFGSVFTAELDAGRAIFIPRGVANSYQTLEDNTSYVYLVNDHWSADAEYTFVNLADETVGIAWPIPLEQAEVSDKDMAHPRLADVTPMAPKKTLVLGADGQLGKALRTAYAGDSSVEFTDRNTFDLLDPASFGSRNWRKYSTIINAAAFTAVDAAETEEGRQAAWALNVTAVAELAKVAVANSLVMVQVSSDYVFDGLRPSHDETEGPTPLGVYAQTKAAGDAAVSVVPRHYIIRTSWVIGDGPNFVRTMASLAEKGVSPAVVNDQIGRLTFSEDLAAGIKHLLDVGAPFGTYNLTNDGEPQSWADIAADVFELSGRPRGSVTGVSTSEYFRGKTAAPRPLNSVLDLTKITDAGFRPELAVTRLKGYLENTK	PGPT0022635_153	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PUTATIVE_TRYLOSE_DERIVATES_MODIFICATION,PGPT0022635-rfbCD|rmlCD-K23987	NA	NA
D1-29_03189	999	rmlB	COG1088	dTDP-glucose 4,6-dehydratase	ATGCAGCGACTTTTAGTAACCGGCGGCGCCGGCTTCATTGGCTCCAATTTTGTCCACTACGTCCTGTCCTCAACGGACAACCACGTGACAGTCCTCGACAAGATGACGTACGCAGGCAACCAGGAGTCGCTGGCGAACCTTCCGGCCGAGCGGTTCCAGTTCGTCAAGGGTGATATCTGCGACCAGCCCCTCGTGGACGAGCTGGTCGCAGCTCATGACGTCGTTGTTCACTATGCCGCCGAATCGCACAATGACAACTCCCTGCATGATCCGCGTCCGTTCCTGGACACGAACATCATTGGCACCTACACCCTTATTGAAGCGGCCCGCAAACACAACAAGCGCTTTCATCACATCTCTACGGACGAGGTCTACGGCGACCTGGAGCTCGATGACCCGGAACGGTTTACGGAAAACACGCCGTATAACCCGTCCAGTCCCTACTCATCCACGAAGGCCGGCTCAGACCTGCTGGTCCGTGCCTGGGTGCGTTCTTTCGGGCTGCAGGCAACCATCAGCAACTGCTCGAATAACTACGGCCCGTACCAGCACGTGGAGAAATTCATCCCGCGCCAAATCACGAACGTGATCGACGGCATCCGCCCGAAACTGTATGGCAAGGGGGAGAACGTCCGGGACTGGATCCATGCCAACGACCACTCGTCCGCCGTTCTGGCAATCATCGCCAAGGGCAAGATCGGTGAGACCTACCTGATCGGAGCCGACGGCGAAAAGAACAACAAGGACGTTGTGGAACTGATCCTCAAGCACATGGGTCAGTCCACTGACGCCTACGATCATGTCGTGGACCGTCCCGGCCACGACCTGCGCTACGCGATTGACTCCACAAAGCTCCGGGATGAGCTTGGCTGGGAACCGCAGTTTTCCAATTTCGACGCCGGCATCGAGGACACCATTGCCTGGTACCGGAACAACGAGGACTGGTGGCGTCCGCAGAAGGCCGCGACCGAAGCAAAATACAAAGTGCAGGGCCAATAG	MQRLLVTGGAGFIGSNFVHYVLSSTDNHVTVLDKMTYAGNQESLANLPAERFQFVKGDICDQPLVDELVAAHDVVVHYAAESHNDNSLHDPRPFLDTNIIGTYTLIEAARKHNKRFHHISTDEVYGDLELDDPERFTENTPYNPSSPYSSTKAGSDLLVRAWVRSFGLQATISNCSNNYGPYQHVEKFIPRQITNVIDGIRPKLYGKGENVRDWIHANDHSSAVLAIIAKGKIGETYLIGADGEKNNKDVVELILKHMGQSTDAYDHVVDRPGHDLRYAIDSTKLRDELGWEPQFSNFDAGIEDTIAWYRNNEDWWRPQKAATEAKYKVQGQ	PGPT0022625_4122	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
D1-29_03190	879	rmlA	COG1209	Glucose-1-phosphate thymidylyltransferase	ATGTACTGTATGCGCGGAATCATTCTGGCCGGCGGTACCGGCTCACGGCTCCATCCGATTACCCTTGGCGTCAGCAAGCAACTGATGCCGGTCTTCGACAAGCCGATGATCTACTACCCGCTTTCCACCCTGATTCTGGCAGGCATCCGGGACATCCTCATTATCACTACGCCCCATGACGCCGAGCAGTTTCAGCGCCTGCTGGGAGACGGCTCGCAGTTCGGTATCAACCTGAGCTATCTCCAACAGCCGTCCCCGGACGGACTGGCCCAGGCATTCATCCTGGGAGCCGAGCACATTGGCAATGAGCCGGTGGCACTGGTCCTCGGCGACAACATCTTTTACGGGCAGGGCATGGGAACCCAGCTTCGCCGTTTTGAGGACATCGACGGCGGGGCGGTCTTCGGCTATTGGGTTGCGGACCCGAAGTCTTATGGTGTGGTCGAATTCGACGACACCGGCAAGGCCATCTCCCTGGAGGAGAAGCCCGAGAAACCCAAGAGCCACTACGCCGTCCCGGGACTGTACTTCTACGACAATGACGTCGTTGACATTGCGCGGAACCTGAAGCCATCCCCCCGTGGCGAGCTGGAGATCACGGACGTAAACCGGACGTATCTGGAAAAAGGAAAGCTTCAGGTTGAGATTCTTCCCCGCGGGACGGCCTGGCTGGACACGGGAACTTTCAACGACCTTAACGATGCATCCAATTTTGTCCGTACAACCGAGAACCGCCAGGGCCTGAAGATTGGGGCCCCCGAAGAGATCGCCTGGCGCTTGGGCTTCCTTAGCGACGACGATCTTCGGCGACGCGCTGAGCCTCTGCTCAAGAGTGGCTACGGAACCTACCTGCTGGGACTCCTGGAAAACGGTCGTTGA	MYCMRGIILAGGTGSRLHPITLGVSKQLMPVFDKPMIYYPLSTLILAGIRDILIITTPHDAEQFQRLLGDGSQFGINLSYLQQPSPDGLAQAFILGAEHIGNEPVALVLGDNIFYGQGMGTQLRRFEDIDGGAVFGYWVADPKSYGVVEFDDTGKAISLEEKPEKPKSHYAVPGLYFYDNDVVDIARNLKPSPRGELEITDVNRTYLEKGKLQVEILPRGTAWLDTGTFNDLNDASNFVRTTENRQGLKIGAPEEIAWRLGFLSDDDLRRRAEPLLKSGYGTYLLGLLENGR	PGPT0022600_4016	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0022600-rfbA|rmlA|rffH-K00973	NA	NA
D1-29_03191	1572			hypothetical protein	ATGCGACTCGGCAACCGGCCGAATGTGTTCCTTATAGATCGAACCGGTGTCGACGAGCTTGCCGACGGCCGAGCGCAAAAATCCGGGCGAAGAACGTTCTGGTGGGTTTTCCTGCTGCTGATGGGACTCTCCACGGCATGGACTGTGGCCACGCCGCTGATGGGAGTTCCCGATGAACCTGCCCACGTCATCAAGGCAGCCTCCGTCGTCCGAGGCGAGCTGACTGGACGCGAAATGGCTGGCGGAGGCGGCTTCCACCTTGTGAAAGTCCCAGCCGGAATCGCCTACTACGACAGCTTTGGCTGCTTTGCACAGCAGAAGGAAATCACGCCTGCATGTGTCCCACCGTTTGATGGTGACATCAACGCTCTGGTCGATGCACGCACGTCTGCGGGCAACTACAATCCGATCTATTACACCGTGGTCGGACTCCCCTCGCTGGTGAACAGTGGCGCCGGCGCAGTTTATGGAATGCGGCTTATCAATGCCGTCTTGAGCTGCCTTTTCCTCTCCTTTGCCTTTTCGGCTCTCTCGAAAATGCGCCAACGCAAATGGGCCATGGTCGCCGCTGCTGTCTCTGTTACCCCGATGGTCCTCTTCCTCAACGGGGCCGTAAACCCAAACTCACTTGAATACGCCACGTCAGCCGCCCTGCTGGCAAATCTGGTTCTCCTCCTGGAGCGTTCCGCGGAACCGGACGCGTATCGGCGTTATGTTCCCTCTATAACGGCAGCTGCCTGTCTGTTGGCCAACACGAAAGGCTTGTCCCTTCTCTGGCTGGCACTCATGGTCATGACAGCTTGCATTCTGGGAACCTGGTCGCAAATAAGGGAGTTATGCCGCAACGCTTGGGTATGGTCAGGGACCGCAGCGATCAGTCTTGCATGTGCCTTCGCGCTCTACTGGCTTATCCGTCACGACAGCCTGGAAAGTAACCCCTTCGAAGCCGCCGGCTACTCCCCCTGGGCCGGCGCCGAGATAATGATGGACCGAACCTTTGACTACGCCACTGGCTATGTCGGCCAGTTCGGCTGGCTGGAAGTACCTGCCCCGCTGGGCGCTTTTGTACTCTGGCTAGGGCTTGCCGGGGCCCTGGTCATGGGTGCCGTCGTATTGTCCAAGGGACGCACGCGTGCCGCCACAGTCTTCCTGCTCACAGCACTTCTCCTGCTGCCGCCACTACTTCAGGCACAGGCCGTTGAGACGATTGGGATCGTTTGGCAGGGCCGCTACGTCCTCGCACTGTTCCTCCCGCTGCTGTTGGTTTGCGGAATAGCTTTGGATCGCACCAATCCCGGCTCTTTTTCCCAGCAGACAGCATCGATCCTGTACGCTGCCGCCGTGCTCGTTGCATTCTTCCAGTTATGGACGTTCCTCCACACGCTCCGACGCTATGTCACTGGATGGGCAGTGGACCGGCGCTGGAGTGAGATGATTACCAACCCATCCTGGCAGCCGCCAAGCGGCACCCTGCTGTGTGTTGCATTCTTCATACTCATGCTGGTCCTCGCCCTGTGGCTGATCCGGCGCGGTATCAACGCGGAACGCGGTCAGCCTCAGCTGACCGCGTAA	MRLGNRPNVFLIDRTGVDELADGRAQKSGRRTFWWVFLLLMGLSTAWTVATPLMGVPDEPAHVIKAASVVRGELTGREMAGGGGFHLVKVPAGIAYYDSFGCFAQQKEITPACVPPFDGDINALVDARTSAGNYNPIYYTVVGLPSLVNSGAGAVYGMRLINAVLSCLFLSFAFSALSKMRQRKWAMVAAAVSVTPMVLFLNGAVNPNSLEYATSAALLANLVLLLERSAEPDAYRRYVPSITAAACLLANTKGLSLLWLALMVMTACILGTWSQIRELCRNAWVWSGTAAISLACAFALYWLIRHDSLESNPFEAAGYSPWAGAEIMMDRTFDYATGYVGQFGWLEVPAPLGAFVLWLGLAGALVMGAVVLSKGRTRAATVFLLTALLLLPPLLQAQAVETIGIVWQGRYVLALFLPLLLVCGIALDRTNPGSFSQQTASILYAAAVLVAFFQLWTFLHTLRRYVTGWAVDRRWSEMITNPSWQPPSGTLLCVAFFILMLVLALWLIRRGINAERGQPQLTA				NA	NA	NA	NA	NA
D1-29_03192	2013			hypothetical protein	GTGAAGGTCGGCGCGGCAGGTGCCATGGAGGCTTCCGTGGCCTCTGGAGGAAATAAGTTGAATAGGAAACTTCCCGAGCCCCTCGCCCGGACCACTAGCCGCTTTATGCAATGGGTCTGCGTCAACGACCGGGCTGCACGTGTGATCACTATTGTGGTCTTCGCCGTCCTCGTCCTCCTCGGGATCACCACATCGTCGATTGGCATTGCAGACCTCCGACAGGACCCGGCGAACCCGCTGGGCTGGCAATTCGGTAATTCACGGCCCATCCGGTCGGATGAGATCCATGCCTATTCAGCGATTGTGATCTCCATCCTCGCTACCCATGGCGCTCCGAGCCTGAGCCCACTGGCCGCTCGAGCCGATCTGATCCATAGGTTCCCGACCGACGGCTTTTTTGAGCAGTTCGTATTCTTCGATTCCACTATGCTCCGCGCCTCCGTGATCCTTCCTGAAAACATGCTCTTCGCGGCGCACTGGTGGCTGCCTTCCTTGATCCTGCTGCTGGCGCTGCCTACGTGGTTCCATCAGCTTGGACGCTCCCGCCGGTATGGGTGGTTGGCAGCAATCCTGATTGTCTTGTCTCCGTCGAGCGCGTGGTGGTCTTTGATGCCCGTTGCACTCATCGCCTACACGGTCGGTGGCAGCGTGCTGATGATCGCCGCCTTCCAAAGGTTCAGCCGCGGGCAGCGCCTCCTTCCGGTCACCATGGGCCTGGTCGGCGGAATCTTGATCGCCGGTCTTCCCTCGTTCTATGCACCCTGGTCCCTGATGCTCGGACTGCCGGTTCTGGGCGCCTCCACTCTGTGGATTTTGCTTCAGCGCGGCGACTGGGGACCTCGCCTGAAATCGGTGCTTGTCACGGGAGGAACGGCGCTGGTTTTCGGGGCGGGCACGCTGCTGGAAAACCGCGAGGGTCTCCAAGCCCTCTTGGGTACTGTCTATCCTGGTTCAAGGCGGGTGGGGGCAGACCCCCAGCCTTTCGGTCGCATCTTCGGCGCGCCGGCGCTCGGGCCGCTGCAGTTCAGCGAGCCTGTCGGTATTAACGCCAGCGAGCTCTCGTCATCGTTTACAGTCTTCTTTGTATGGGTCCTGGTCCTGCTGCTTGCGGCACGTTGGCGGCCGACATTCCGCGACAATGTGCCTGAATGGATCTTTGGAGCCTGGTCGGCGCTGTGGATCTTATGGATCAGCCTGGATCTGGGTGCCGCCGCCCGGATGATTCCGTTGTTCAACATGGTGACCCCTCCCCGGGCTACCCAGGTGGTGGGAGTGCTGGCCGTCGTACTCCTTTGCCTGTTGATCAGCAGATGGTCTCCGCCTGCCTCGTGGAGGGTGCCTCTCCTGTCCGGCGCCGCATGCGCCCTTCCGACTGGATACGCGGCCTGGCTCCTGAAGGCCACGGATTTGCCGGATATATCCACAGGGCTCATTTTTCTGGCCTCAGGCGTGGTGGGCATGACTGTTGCCGTCATCACAAAGTATCCCCAGCGTTCCTGGCCCTTGATGTTCTGCGCCCTCTTCGCTGCGCTGCCAATTGCCCGCGCAAATCCTTTCCTAGCGGGTACGGGAGATCTGCGTGCATCGGAGACAGCCAAAACCGTGGCCGCACAGGTCCCAGCGGCGCAGGCGGGGGGAAAGCTGTGGGCAGCTGACAACCCTTCCATGAGCACCCTGCTCCTGGCTAACGGCATGCCTTCGCTGTCTGGACTCCAGCGCTCAGGGCCTGACGCGGAGGCATGGCAGAAGCTGGATCCCGGCTCGGCCTTCTCAGACAAGTGGAACCGCGGTGGCGGCTATATCTTCTTTGCCTGGGCGCCTGGGCAGCCCACCACCTTCCAGACAAACGATTTCGACGCCGTCGGAGTGGTGATTGATCCCTGTGTTCTCAAGGGCTCCTGGCCGAACCTCGACCGGATCGTGGCGTCACAGCCGCTGGAAGCCCCGTGCCTCACCCTGGATTCCGAGCTGCAGTGGCAGGGCAAACCAGCCTACATTTACGCGGTCAGCTGA	MKVGAAGAMEASVASGGNKLNRKLPEPLARTTSRFMQWVCVNDRAARVITIVVFAVLVLLGITTSSIGIADLRQDPANPLGWQFGNSRPIRSDEIHAYSAIVISILATHGAPSLSPLAARADLIHRFPTDGFFEQFVFFDSTMLRASVILPENMLFAAHWWLPSLILLLALPTWFHQLGRSRRYGWLAAILIVLSPSSAWWSLMPVALIAYTVGGSVLMIAAFQRFSRGQRLLPVTMGLVGGILIAGLPSFYAPWSLMLGLPVLGASTLWILLQRGDWGPRLKSVLVTGGTALVFGAGTLLENREGLQALLGTVYPGSRRVGADPQPFGRIFGAPALGPLQFSEPVGINASELSSSFTVFFVWVLVLLLAARWRPTFRDNVPEWIFGAWSALWILWISLDLGAAARMIPLFNMVTPPRATQVVGVLAVVLLCLLISRWSPPASWRVPLLSGAACALPTGYAAWLLKATDLPDISTGLIFLASGVVGMTVAVITKYPQRSWPLMFCALFAALPIARANPFLAGTGDLRASETAKTVAAQVPAAQAGGKLWAADNPSMSTLLLANGMPSLSGLQRSGPDAEAWQKLDPGSAFSDKWNRGGGYIFFAWAPGQPTTFQTNDFDAVGVVIDPCVLKGSWPNLDRIVASQPLEAPCLTLDSELQWQGKPAYIYAVS				NA	NA	NA	NA	NA
D1-29_03193	2238			hypothetical protein	GTGCTGAGCCTGATCCCGCTCATCTTCTACGGCCGGTATTACTTCCAGGATGATACCGAAAACGGCGCATATGGAGTGTGGTACCACCTTGGCGAGAGTCTGTTCCAAGGGAAGGTTCCTGTTCTAAATCCTTCAGTTTGGACCAGCGGCAACTATATTGCCGAGGGTCAATGGGGTACCTGGAACCCCTTGGTCATGTTGTTCGGTGTGCTCGCGTACATAAGCCCCAATGCCATTATCCTCACGACTGTTTTGAAGGTAGCCATGCTGGTTGTTGCCGGCGTTGGCACCTTCGTCCTTGCCCGGAGCTATGCTGTCGCGCCGGAATGGGCGTTCATTGCAGGGATCGCCGTTCCGCTGAACGGCTTTACGATGTACTTTGATGCACCCTCGTGGGTCACGGGCGCGCTTGTCTGGGCAATATTCCCCTTCTTCTGGGCTGAGCTGCGCAAGCTCATGGCAGGCAAACGAAACCCCTTTTGGGCCTTTATCACGGGGTACTTGATTGTCACCGTCGGGTATGTGGCAGGAACCGTCGCCATCGGCTTCATCCTCCTGGCAGTTGGTATTGAGACCTTGATCCGCAGGGCCTGGCGGCCTGCAGCGAGGATCGCGATCACAGGCCTTTCCATCGGGTTCGTCGCCGTCGTCGTCTTCCTTCCCGGTGTCCTGACAGCGGCCGTTACCACGCGCGGAACCACGGGCATCTGGAACGACGACTACATGAGCATCGATTTCACGAGCTTGCTCATGGCCCCGATTGCCACCGCCTATCCGCAGCTTCTCTCCTGGTGGTGGTCGGGAACGGCGTCAACGAGCCCGGCCGCCTACATCGCGTGGTTCCTGCCCGCCATTGCCTTCGTCAGCTGGAGTGTCTTCACGAGACTGTCGGCTGAGCTGCGGGACCTGTTTTTCTTCCTGGCTGCGTCTGCCGCCTTTGTCCTGCTGCCGACGACGATCGGCCCGTTGCGGTATCCGGCCCGCTTTATGCCGTACGTCGCGCTGGCCGCAGTTCTGTTTGTCGTTATCGCACTGGCGCGCGCCAGGCGGCCGTCGATCAGCCGTCCCTCGCTCTACGTGGCACTGGGCCTCGTTGGCGTTGCTGCGTATCTCGCATGGGCCCAGGTTCCTGCCCGGTTCCTTACCATCACGGTGTGTGCCGCTCTTGTCGCCGCAGCGCTGGTGGCCATGTGGTGGCTCCTGAACCATCCGGAAGTGAAGGGCCATCGCTGGAACAGGTTTGGGCTGAGGGCACTGTCCCTGCTCGCCATCGGTGTGCTGCTCGCGACGACGGCGACCACCCTTCTCCAGCATCGGACGTCGGCTCGAAGCGGCCTGTCGATCGCAAACCAGCCTGAAGATGTCTCTACCTACAAGGGCGTCCTTCAAGGTGTGAAGAACGACGTGATTGTTGTTGGTGACCCTTTGGATTACCCCCAGGAGAAGAAGACCTGGGAACAGACGCTCATGGCGAACGCTTGGTATTTGAGCGACGCCAGCGTGGTGAATCGCTACCAGTTGGTCGGATTCTCCAGGCTGAATCAGCTTCTTTGCCTCCGATATCTGGGAGGAACCTGTCCTGAACTTGCGGACAAGCTTTTTGATCGCCGCGTCCAGACCGGATTGTTGCTGGTTGACGAACTGCAGATCGATAACATTCAGATCCTGAAGGAATCCTTCAACAAGCCCCAGGTGCCCATGGCATCGAATAACTACGTGTCCCGCGACGAGGAAGTGGAGATCCCAGCGGTTCCGGAAGGCTGGCACGTCGCAGCCGAGACTGAAGAGACAGTACTGTGGAGCCGCGATGTGCCGCTGGGTCCTGCCGGAGGCGTGACATGGACCGACTCGGGAACCCGCCTTAGTGAAGTCTCCAGGGACGACACCAAGGTAGTGCTGAAGGTCGAAGAGGTACCGGCAGATGGCGGCCGTGCGGCTCTGAGCAGGCTTCCCTGGCCGGGATACAGCGTGGAGGGCGCCAGCTTGACGCAGCGCCCGATCGGCGGGTACCTCCTTGGTTTATCAATTCCTTCGGATGCCCAGGGAAAGTTGATCACCATCAGCTTCGAACCTCCGGGCTGGCGGGTCGGCATCCCTCTTTGGGGCGCAGCGGTAACGGGGATGCTCATCTGGAGCCTGGTGGCGGTACGGAGGCGACGGACGGATGGTCTTGTGGTGCCTGAGATTACACGCGACGAGACCGAGCAGCGGGCTCCGGTCTACGACGGCATAAAGTGA	MLSLIPLIFYGRYYFQDDTENGAYGVWYHLGESLFQGKVPVLNPSVWTSGNYIAEGQWGTWNPLVMLFGVLAYISPNAIILTTVLKVAMLVVAGVGTFVLARSYAVAPEWAFIAGIAVPLNGFTMYFDAPSWVTGALVWAIFPFFWAELRKLMAGKRNPFWAFITGYLIVTVGYVAGTVAIGFILLAVGIETLIRRAWRPAARIAITGLSIGFVAVVVFLPGVLTAAVTTRGTTGIWNDDYMSIDFTSLLMAPIATAYPQLLSWWWSGTASTSPAAYIAWFLPAIAFVSWSVFTRLSAELRDLFFFLAASAAFVLLPTTIGPLRYPARFMPYVALAAVLFVVIALARARRPSISRPSLYVALGLVGVAAYLAWAQVPARFLTITVCAALVAAALVAMWWLLNHPEVKGHRWNRFGLRALSLLAIGVLLATTATTLLQHRTSARSGLSIANQPEDVSTYKGVLQGVKNDVIVVGDPLDYPQEKKTWEQTLMANAWYLSDASVVNRYQLVGFSRLNQLLCLRYLGGTCPELADKLFDRRVQTGLLLVDELQIDNIQILKESFNKPQVPMASNNYVSRDEEVEIPAVPEGWHVAAETEETVLWSRDVPLGPAGGVTWTDSGTRLSEVSRDDTKVVLKVEEVPADGGRAALSRLPWPGYSVEGASLTQRPIGGYLLGLSIPSDAQGKLITISFEPPGWRVGIPLWGAAVTGMLIWSLVAVRRRRTDGLVVPEITRDETEQRAPVYDGIK				NA	NA	NA	NA	NA
D1-29_03194	1056	arnC_2	COG0463	Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	ATGACACTGGCTCAACCCGAGACAAGCTCGACGCCCCACCGCATTTCTGTCGTCATACCCGTCTACCAGGGTGAGAAGACGCTTGTTGGCGTGGTCAACGAGCTCCTCCCTTATCGGCAAACGTCCATGAGCGCGGGTGGCCACAATTTTGTCGTCTCGGAAGTGCTCCTGGTCTTCGACCATGGCCCAGACAACTCCGCTGCGGTGATCCGGTCGTTGACGCAATCCATCGATATCGTCCGCGGTGTCTGGTTGAGCCGAAACTTTGGACAGCACGCGGCCACGCTCGCTGGGATGGCTTCCGCCGGGGGCGACTGGATTGTCACCATGGACGAGGACGGGCAACATGACCCCGCCGCCATTGGAGATATGTTGGATACGGCTATGGCGCAGAATGCGTCCGTTACCTATGCAATGCCCAGCAACCCGGCACCGCACGGCTTCCTGCGGAACATGGCGTCCAAGAGTGCGAAACGTGCCGTGAGATTCGTCCTGTCCAGCGACGACGCGACCAGCTACCAGAGCTTCAGGCTGGTGACAGGCGAAGTAGCCCGTTCAGTGGCAGCCTACGCCGGCCATGGCGTCTACCTCGACGTCGCGATGGGCTGGATCGCTGACAGAACCGCCACCTGCCCCGTTGTGCTCCGCGAAGAAGGTGACCGCCGGTCCGGCTACGGGCTCCGTTCACTCCTCTCCCATTTCTGGCGGATGGTGATCTCCAGCGGCACCCGCGCCCTTCGAATGGTCAGCCTTATCGGCGCTGTTTTTGCTCTGGCGGGAATCGGTTTGGCCATTTACTTCGTTATCGCGTACTTGACCGGTCATGGAGCGGGGCAGCAGGGCTGGACGTCGACGATGGTGGTACTTCTTGTCAGTACGGGCGCCATACTTTTCGCCCTGGGGGTGATAGCGGAGTACGTGGGGGTCAACGTCAACATGGCAATGGGCAAGCCGGCCTACCTCATTGTGAGTGACCCTGCGCTGGGGCCCTTAGGTAAGAGTCCACAGAAGGCGCCTGTCCAGTCGCCCGCCGGCCCGGTGGCTGATGCAGGTTAG	MTLAQPETSSTPHRISVVIPVYQGEKTLVGVVNELLPYRQTSMSAGGHNFVVSEVLLVFDHGPDNSAAVIRSLTQSIDIVRGVWLSRNFGQHAATLAGMASAGGDWIVTMDEDGQHDPAAIGDMLDTAMAQNASVTYAMPSNPAPHGFLRNMASKSAKRAVRFVLSSDDATSYQSFRLVTGEVARSVAAYAGHGVYLDVAMGWIADRTATCPVVLREEGDRRSGYGLRSLLSHFWRMVISSGTRALRMVSLIGAVFALAGIGLAIYFVIAYLTGHGAGQQGWTSTMVVLLVSTGAILFALGVIAEYVGVNVNMAMGKPAYLIVSDPALGPLGKSPQKAPVQSPAGPVADAG	PGPT0014540_791	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0014540-csbB|gtrB|yfdH-K20534	NA	NA
D1-29_03195	957	fcf1		dTDP-4-dehydro-6-deoxyglucose reductase	ATGCAGGTTAGGCCTACCTGGGTCATCGGCGCCGGTGGCCTCCTCGGGCGGGCAGTCGTGCGAGAACTCGAGTCCCGCCACATCCCTGTTTTGACAAGCAAGATTCAGTGGAACGATCCGGAAGTCGCCATCAAGGAGTTCAGGCGCAGTGCTGAGCGGCTGCGTGACGCAGCCGATTCCGGCCCGTGGACCATTGCCTGGTGTGCGGGCGCTGGCGTCACCGGGACTTCCCAGGATGCTTTGGACGAGGAACTGTCCCTGCTCACCCAAGCGCTGGCAGCTTTCGAAGAGATCCTGTGCAACGACGGCGGGCAGATGGGGGCGCTCTTCCTCGCTTCTTCGGCCGGCGGGGTGTATGCCGGCTCAAGCACGCCTCCATTCACCGAGGAAAGTCCGGTGCAGCCCTTGGCGCCGTACGGTTTTGCCAAGCTCCGTGCTGAGGCAGCTGTCACGGAGTTTGCCACGAGGACAGGGGTTCGAAGCCTCATTGGCAGGGTGAGCAACCTGTATGGGCCGGGGCAGAACCTCCAAAAACCCCAAGGCCTCATTTCCGTGTTCGCCAAGGCTCACCTCACGGGCGCGCCTGTTTCCGTCTACGTCTCCCTGGATACCTTGCGGGATTACCTGTTCGTGGATGACGCCAGCCGGCTTGTCACCGATGCACTTAGCCGGCTCGTCCACCCGGATGTCCTGCCGGGCGAGACTGTGGTGAAGATCCTCGCTTCGCAGAGGGCGGACACCATTGGCAACCTCATTGGAGCCTGCCGAGCCATCTTCAAGCGCCGGCCGTTGATCATCCTCGGCGCCTCCCCGTTTGCGAAGGCCCAGGCCCACGATCTCCGGCTGCGCTCCGTTGTGTGGCCTGAGCTTGACGAGCACCCCGTGACTCCCTTGGCTGTGGGCATCAACAACACGGTGCAGGAAGTCCAGAGGCTGGCTTTGTCAGGTCAGCTCTGA	MQVRPTWVIGAGGLLGRAVVRELESRHIPVLTSKIQWNDPEVAIKEFRRSAERLRDAADSGPWTIAWCAGAGVTGTSQDALDEELSLLTQALAAFEEILCNDGGQMGALFLASSAGGVYAGSSTPPFTEESPVQPLAPYGFAKLRAEAAVTEFATRTGVRSLIGRVSNLYGPGQNLQKPQGLISVFAKAHLTGAPVSVYVSLDTLRDYLFVDDASRLVTDALSRLVHPDVLPGETVVKILASQRADTIGNLIGACRAIFKRRPLIILGASPFAKAQAHDLRLRSVVWPELDEHPVTPLAVGINNTVQEVQRLALSGQL				NA	NA	NA	NA	NA
D1-29_03196	507			hypothetical protein	GTGGCTTCCACCCAACAACCCGATTCCCCAGCGGAAGCTGTTAAGGGTATCCATAACGGTCCGCCTGGTCCCCTCCTGAAAATCATTAAGGACCAGCGCGTCGCTTTCCTGTTGGTGGGTGGCATCAACACTGCATTCAGCACCGCATTGTTTGTAGCGATCGCATGGATCTACCCGGAGCTTCCGTCGCCGGTTGTCCTCAGCATTGCGTTCGTCATTTCACTTGTGGCGGTGTTTTTTGTCTACCGGAAGCTTGTCTTCCGCGTGAAGGGCCACTTCTGGCTGGACCTCGGCCGTTTCACCCTGGTCAATCTGACGATGTTCTTCGTCAACATGGTGCTGCTCTTTGCAGCACATGAAGTTCTTGGCTATCCGAAAATACCAGCCCAGATCACGATCACCTGCGTGACGGTTGTCATCAACTACTTCGGCCACAAGTATTTCTCCTTCCGCCGGCGCCCTGAAGCCGCATCGCCCACCACTGCCACCGAGGAAAGTGCCCCATGA	MASTQQPDSPAEAVKGIHNGPPGPLLKIIKDQRVAFLLVGGINTAFSTALFVAIAWIYPELPSPVVLSIAFVISLVAVFFVYRKLVFRVKGHFWLDLGRFTLVNLTMFFVNMVLLFAAHEVLGYPKIPAQITITCVTVVINYFGHKYFSFRRRPEAASPTTATEESAP				NA	NA	NA	NA	NA
D1-29_03197	861			hypothetical protein	ATGAGTCCAAAAGTCTCTATCGTCATTCCTGCCTACAACAACGTCCAGTACATCGAAGAGACTCTGCAGTCCGTACTCAACCAGACCTTCGACGACTACGAGGTGGTGATCGCTGACCACTCCTCGATCGATGGCACGGCTGAAGTCATCGCCCGGTATGCAGATCATCCCAAGGTCCGGTTTTTGAGCCCGACACCAACAGGCGGCGGGGCTCAAGCCAACTGGAACCGCGTCAGCCAGGAGGCTAAGGGGGAATACCTCAAGCTTGTTTGCGGCGACGACCTGATCGTCCCCGAGGCGCTCGAACTGCAGGTAAAGGCCTTGGAAGACAACCCGGGTGCTGTTATCGTCTCCTCACGCCGAGACCTGGTGGACGCTAACGGAGGGATCTTCCTAAAGGGCCGGGGACTGCAAGGCGTTCAGGGCCGCGTCAGCGGTCGCGAGGCCATCCGGGCTACGGTGCGGGCAGGTTCCAACATCTTCGGCGAGCCGGCGTGCTCCCTGTTCAAGCGGGAGCTTCTGGCTGCGGAAGGCTGGTGGGATAACACCCATCCGTATCTCATCGATGAAGCCACCCTGGTGCGCATTTGCCGCCACGGCGACTTTGTAGCGCTGCGGGAAACCCTGGCGTCCTTCCGGATTAGCGCCAGCCAATGGAGCGTCCGCCTCGCCCGCCAACAGTCCGACCAGGCCATTGCTTTCCATAACCAGCTTCGGAAGGACGACCCGTCGCTGCTGAGCCGGGTGGACGTCCTTGTGGGCAATGGCAAGGCAATTGCCATGTCATACGCCCGGCGCCTCGCTTACCTGCGGCTGAACCGGCGCATGGGTCATCAGCACGCCGTTCAGAGCACGGTCTGA	MSPKVSIVIPAYNNVQYIEETLQSVLNQTFDDYEVVIADHSSIDGTAEVIARYADHPKVRFLSPTPTGGGAQANWNRVSQEAKGEYLKLVCGDDLIVPEALELQVKALEDNPGAVIVSSRRDLVDANGGIFLKGRGLQGVQGRVSGREAIRATVRAGSNIFGEPACSLFKRELLAAEGWWDNTHPYLIDEATLVRICRHGDFVALRETLASFRISASQWSVRLARQQSDQAIAFHNQLRKDDPSLLSRVDVLVGNGKAIAMSYARRLAYLRLNRRMGHQHAVQSTV				NA	NA	NA	NA	NA
D1-29_03198	2238			hypothetical protein	GTGAGTGCTTTGCGTCCCCGCAGCGACGTCACGTGGCTGATTGGGACAGTGGTTGCCGCCCTCGTTGGGTCCCTGATTCCGCTCATCACCAACAACAGGTTCTACTACTATGACGATACCCAGGCCGGGGCCTTCGGTATCTGGTTCGAAATTGGCACCAAACTCAGTGCGGGAGAGTGGCCTGTCTTCAGCGACAGTGCCTGGGGGGCAGGAAATTACGCTGCTGAAGGCCAGTGGGGGATCTGGAATCCCCTTATTCTTCTGATCGGTTGGTTGGCGAGCCGCTCGGCCAATATTGTTGTCTTTTCAACAATCCTCAAGATCGCCTTTCTCTGCCTCCTTGCTGCCGGCACCTTCCTGCTGGCAAGGAGCTACAAGGCCAGGCCTGAGTGGGCGGCCATCGCCGGGGTTGCGGTGACGCTGACCGGATTCACCGTGTACATCGACGCAGCCTCCTGGGTCACCGGGCTCATGGTGTTCAGCCTTTTGCCCCTCACCTGGTACGGGCTGCGCCGGATGGCATTCAAGGAGGGCAATCCTCTGCTTGCACTGGCTTCGGCCTACGTGCTGATAACCATTGGCTACGTTCACGGTACGATCATGCTCGCCATCGTCTTTATGGGTCTGCTGGTGGAGGCATCACTGCAAGGAAGCCGCAGGGGAGCCTTCCGCCTGCTCCTCGCCGGCCTGGTGTGCGGGCTCATCGCGTTGGCGGTGTACCTCCCGGGGGTCCTCACCGCGCCGGTGACAGCCCGCACCGGGGGAATTGTGAACAGTGGGTTCCTGACGCCCGACCTCACCGGTCTGTTCACTGCCTGGGTCCCCGGCACCCTGCCTCAAGTCACTGGATGGTGGGGCGGGTTTGCAACGGTACCCCTGCTGTACGTGGCGTGGTTTCTCCCGATCCTCTCGATAGTGGACTACCACAGGGTGAAGCGGGCAGGCAGGGAGCTTTCAGGACTCTGGTTTCTTGGACTAATGTCGTTGGCCTTGACGTTGGCCCCCAGCGATCTGGGGCCTCTTCGATTTCCGATCAGGGTCATGCCCTACGTTGCCCTGGCTGTCCTGCTGACACTGTCGGTGCTGGTCTCACGCTTCAGGGTGCCCGTGCTCAGCCGTGGACGCGTGATCGTCACTGCGGCGACGGTGCTCGCCGGACTCTACCTCGGCTGGAGCCAGTTCCCGTCCTTCCGCGTGGCGGCCATCTTCGGGCTGCTGGCAATCGGGGGTATCGCCGGACTCCTCTTTTTCCTGTACGCTCCACATCGGTGGCCCCGGCTCAAAGGGCCAGTGGTTTTGGCCGGGGGAGTGGTACTGCTGAGCATGGCCATTGCCGGGGGACAGCACGTGGCCTTTAAATCGTCGCCGCTGCCTGACTACAGGATGCCGGACACCCCGGCAAGCTACTCCTCTCAGCTCCCGGAAGCACAAGGTGGCACCTTCATCGTGGGCGATCCCACTAAATTGGGACCACAGATCTGGGAGGAAACACTGGCCTCTAACGCGTGGTATTTGAACTCCGCCGAAGTCCAGAACCTCTACACGCCGATCATGTTCGCCAAATACGCTGAGGATCTGTGCATCTCAAGCCACGGCTGGACCTGCCCGGCGGCCGCCGGGAAGCTCTTTGAGACGGACACTGCCACGGGTAAGGTTCTGGCGGATCTGCTGTCCATCGACACCATCCAGCTACTTCGCGATCCAGAGGCCCCGTCCGGAGATCGCTTTGGCGGCGCACCTCCAAACGGCTGGCATGAAGCCGACCGCAGCACCGACTCGGTGGTCTGGGTCCGGGACAAACCGCTGCTGAATACCGGCCAGCCCGTCTGGACCTCAGAGGGGACCACCATTTCCCTGGTCTCGGAAACCAGCCGCGAGGTTCGGATCCGCGTGGACGGGATGGAAGATTCGGCGGTCAAGGCCGTACTCAGCCGGCTGGCGTGGCCCGGATACAAAGCCGAGGGGGCAACTGTCTCAGCACCCCTGCGCGGGTACCTTCTCGCCGTCGACATTCCCGCGGGCTCTGTCGGAAAAACCCTCACCATAAGCTTTGAACCCCCGGGCTGGCCGGTGGTTGTGGGCAGCATTATCCTGGCCGTCGGCGTGGCCGGGGCGTGGACTGTGGCGGAACTGATGCTGCGCCGCCGCCGGAGGCGCACCACCGAGCCGGTCAGCTCCGAAGGAGCGGCCGGCCCAACTGCGGTGGGTCAGGACGTTGGTATGAGAGTGAAACAGTGA	MSALRPRSDVTWLIGTVVAALVGSLIPLITNNRFYYYDDTQAGAFGIWFEIGTKLSAGEWPVFSDSAWGAGNYAAEGQWGIWNPLILLIGWLASRSANIVVFSTILKIAFLCLLAAGTFLLARSYKARPEWAAIAGVAVTLTGFTVYIDAASWVTGLMVFSLLPLTWYGLRRMAFKEGNPLLALASAYVLITIGYVHGTIMLAIVFMGLLVEASLQGSRRGAFRLLLAGLVCGLIALAVYLPGVLTAPVTARTGGIVNSGFLTPDLTGLFTAWVPGTLPQVTGWWGGFATVPLLYVAWFLPILSIVDYHRVKRAGRELSGLWFLGLMSLALTLAPSDLGPLRFPIRVMPYVALAVLLTLSVLVSRFRVPVLSRGRVIVTAATVLAGLYLGWSQFPSFRVAAIFGLLAIGGIAGLLFFLYAPHRWPRLKGPVVLAGGVVLLSMAIAGGQHVAFKSSPLPDYRMPDTPASYSSQLPEAQGGTFIVGDPTKLGPQIWEETLASNAWYLNSAEVQNLYTPIMFAKYAEDLCISSHGWTCPAAAGKLFETDTATGKVLADLLSIDTIQLLRDPEAPSGDRFGGAPPNGWHEADRSTDSVVWVRDKPLLNTGQPVWTSEGTTISLVSETSREVRIRVDGMEDSAVKAVLSRLAWPGYKAEGATVSAPLRGYLLAVDIPAGSVGKTLTISFEPPGWPVVVGSIILAVGVAGAWTVAELMLRRRRRRTTEPVSSEGAAGPTAVGQDVGMRVKQ				NA	NA	NA	NA	NA
D1-29_03199	771	tagH	COG1134	Teichoic acids export ATP-binding protein TagH	ATGACGAAGCATGGCCATGTAGCCATCAGCTGCATCGACCTGCGGAAGCAGTTCGTCCTGCGACACACCCGTTCCCTCAAGGAAGCCCTGGTCTGGCTGGTCAAGGGCCGCAAGGGTGATCTGTCGAAAAAGTTCCTGGCACTTAACCACGTCTCCCTCGAAGTCAGACAGGGCGAGACAGTTGCTCTCATGGGGCTCAACGGCTCGGGGAAATCGACGCTGCTGAAGCTGATATCCGGAGTTCTGCAGCCCGACGGCGGAACGGTCCGCACGCGGGGCCGTGTAGCCGGCCTGATCGAAGTGGGCGCAGGGTTCCATCATGACCTCAGCGGCCGGGACAATGTGTACCTCAACGGAGCCATCCTGGGGATGACCGAGAAACAGATCGACGAGATGTTTGATTCCATTGTCGAATTCTCCGAAATTGGAGAGTTCATCGACACGGAAGTGAAGTTCTATTCGTCGGGCATGTACCTCCGGCTCGCGTTCTCCATCGCCGTACACACGGATCCGGAAGTGTTCCTGATCGATGAAATCCTTGCGGTGGGAGACGAACCTTTCCAGCGCAAGTGCATTGCCAAGATCAAGGAGCTCTCAGAACTGGGAAAGACCCTGTTTGTTGTGAGCCATGACCTGGATTTGGTTGCCACAGTCTGTGAACGCGGCGTACTTCTGGAACACGGCGAGGTGATCATGGATGGCGAGGTGCATTCCGTTGTGGCAGAACTGAGGCGGCGTTCCGCGCAAACGGAATCCGAGGATAGTTTGTGA	MTKHGHVAISCIDLRKQFVLRHTRSLKEALVWLVKGRKGDLSKKFLALNHVSLEVRQGETVALMGLNGSGKSTLLKLISGVLQPDGGTVRTRGRVAGLIEVGAGFHHDLSGRDNVYLNGAILGMTEKQIDEMFDSIVEFSEIGEFIDTEVKFYSSGMYLRLAFSIAVHTDPEVFLIDEILAVGDEPFQRKCIAKIKELSELGKTLFVVSHDLDLVATVCERGVLLEHGEVIMDGEVHSVVAELRRRSAQTESEDSL	PGPT0006725_22433	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-29_03200	870			hypothetical protein	ATGGCGGGTCAGTCCGACCAGCTGGTCAGGCCCGGAAGCGGACGGGGCCTCCTGGATGTTTACGGCGACCGGTTCCTCCTGAAGCTGCTGGTGCGCAAGGAAATCAAGGTGCGCTACCGGGGTTCTGTGCTGGGCCTGATGTGGTCTTACGTCAAGCCGCTGGTCCAGTTCCTCATTTACTTTGTGGCGCTCGGCATTTTCCTGAACCTCCAGCGCGGTACGCCCAATTACGCGATTTACCTCTTTGCGGGAATTGTCTTGGTCAACTTCTTCACGGAGTCGCTGTCCAATGCCACCCGTTCCATTGTGGACAACCGCGACCTCATCCGAAAGATCTACCTGCCGCGGGAGCTTTTTCCTGTGTCTACGGTATGGGTTTCGGCGGCACATTTTCTCCCGCAGCTTCTGGTCCTGATTGGCGCCTGCCTGGTGGTGGGATGGACGCCGTCGATCCTCCAACTGGCGGCTGTCGGACTGATATTCCTGATGGTCGCGGTTCTCGCCACGGGTCTGGGCCTGATATTTGGTGCCATCAATGTCTACTTTCGCGATTCCGAGAACATCGTCGACATGATCGTTATGGTGGTCACCTGGGCTTCCCCCGTGCTCTACGTCTGGTCGATGGTTGAGCGTGTCATGGGGCCATGGTTCTGGGTGTACCAGCTAAACCCCATGACAGTCGCCGTCGAGGTCTTCCATTGGGCCTTCTGGGAACCCACGCTCAAGGCCGATCAACTGGTGGGCGACGTCATGCCGCCGGATCTTTTCACGCTGTGGCTTCCCGTTGCCATGGTGATCACGCTGATCGTTTTGTTCCTCGGCCAGTTTACGTTCCGGCGCCTCGCCGTTCACTTCGCTCAGGAGCTCTGA	MAGQSDQLVRPGSGRGLLDVYGDRFLLKLLVRKEIKVRYRGSVLGLMWSYVKPLVQFLIYFVALGIFLNLQRGTPNYAIYLFAGIVLVNFFTESLSNATRSIVDNRDLIRKIYLPRELFPVSTVWVSAAHFLPQLLVLIGACLVVGWTPSILQLAAVGLIFLMVAVLATGLGLIFGAINVYFRDSENIVDMIVMVVTWASPVLYVWSMVERVMGPWFWVYQLNPMTVAVEVFHWAFWEPTLKADQLVGDVMPPDLFTLWLPVAMVITLIVLFLGQFTFRRLAVHFAQEL	PGPT0006730_10545	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-29_03201	1992	glfT2	COG1216	Galactofuranosyltransferase GlfT2	ATGAGTGCCCAAGCAGGAACCATCGACTGGGCAGCAATCCAGCGCATCATCCTCCCTTCACCGGACCAGCCGGACACAGTGTCGCTGTATGTGGACGCCGGAACGGCGAGTGGCATCCGGCTCCGTGAGAATGACGAATTCGCCCGGACGCCGAAGCTGTTGGAAGACAAGCTTCACCTATCCAGTTCGGAGAGCCGGGAGGCGCATTTCGAAGACCTGCTGTCACGGCACTCCATGCGTGTCCGTTCAGGTGAGCAGATCTCGTTCGGTACGTATTTCAACGCCTTTCCGGCGAGTTACTGGCGGCGCTGGACTTCGGTTCGGGAGATCAGGCTGGTGGTCCGGACCAGGGGCACCGGAACCGTAACGGTCTACAAGTCCAATGCCCGCGGATCTGTACAGCGTGTTGACGGCAGGCACGTCGACGGCGATTCCACGTCCGCTTTCGAACTGACGCTTAAGCCCTTTGGTGACGGAGGCTGGTACTGGTTCGACCTGGCAGCAAGTTCCGGCGATCTGGTCCTTGAGGACGGCCAATGGGAGGCGGAAGGCATTTCCCGGCCGAGCGGCCAGGTGACCCTTCAGATCACCACCATGAACAAACCCGACTTTTGCCTCAACAACGCCAGGATCCTGGCTGACAACCCGGAGGTGCTCCGGAACGTCAAGGAGATCCTGATCGTAGACCAGGGCACCCAGAAAGTTCAGGACCAGGGCGATTTTGCTGCCGTCAGCACATCACTTGACGGAAAACTCCGGATCATCAATCAGGCAAACCTGGGCGGATCGGGTGGCTTTGCCCGCGGAATGTATGAGTCCATAGAGAACGGCAGCGACTATGTCCTGCTGTTGGATGACGACATCGTGGTTGAACCCGAGAGCATCACCCGGCTTCTGACGTTTGCGGACTATTGCCGTAAGCCGACGATTGTCGGAGGCCATATGTTCGACCTCTACAACCGAAGCGTCCTGCACACCTTTGGTGAGGTTGTTGACCCGTTCCGGATCGTTCCGGCCGCGCCGCATGCTGACATGGAAACCCGGCACGACTTCAGTGTCTCCAACCTGCGCCAAACTCCCTGGCTTCACCGCCGCGTGGACGTGGACTACAACGGCTGGTGGATGTGCCTTATTCCAACAGCGGTGATCAAGGAAATCGGGCTTTCCCTTCCGCTCTTCATCAAATGGGACGACGCCGAGTATGGACTTCGCGCGAGGGAAGCAGGTTACGCGACAGTATCTCTCCCAGGTGCGGCTGTTTGGCATGTTTCCTGGATTGATAAGGATGATCTGGTGGGCTGGCAAGCCTACTTCCACGCCAGAAACCGGCTCATTACAACCCTGATTCACAGCCCGTACCCAAAGGGTGGCCGGGTGTTGCGTGAGTCTGTCCAGGCCGATGTAAAGCACCTGGTGTCCATGCAGTACTTCACCGAACACGGGAGGATTGAAGCTCTTAAGGACCTTTTCAAGGGGCCGGACGCCCTCCATCAGGTCCTGGCCACGAAGCTTCCGGAGATCAACGCGCTCAAGTCCTCATACCCGGACGCCCAGCTGAAGGACGACGTGGACGACTTCCCTGCGCCGAAGATCGGCCGCGGCCCCATGGGCGGCATCGTCGTCGGGATGCCCAGCAAGAAGGATCTGATCCCGTGGGGGATCAAGACCGTTGCACGGCAGCTGATCAAGACGCCGGGACCCGAGAGCTCCGAGCGGCCCCAGGGCTACCTTGCCCACCGTGATAACCGCTGGTATCGAGTGGCCCACTATGACAGTGTTGTGGTTTCCAACGCCGAAGGCACGGGCGCATCCTGGTACCAGAGGGACCCGAAGAAGCTCAAATCCATGCTTGCGGAAGCGACAGTGCTGCACGCGAAGTTATTCCGCGAATGGGACAAACTCGCCCACGAGTACAGGTCCGCCGTAGCCGAGATCAGCTCCATCGACGCGTGGAAAAAAACGTTCGAGGCGAACACCAAGGACGGGAACTAG	MSAQAGTIDWAAIQRIILPSPDQPDTVSLYVDAGTASGIRLRENDEFARTPKLLEDKLHLSSSESREAHFEDLLSRHSMRVRSGEQISFGTYFNAFPASYWRRWTSVREIRLVVRTRGTGTVTVYKSNARGSVQRVDGRHVDGDSTSAFELTLKPFGDGGWYWFDLAASSGDLVLEDGQWEAEGISRPSGQVTLQITTMNKPDFCLNNARILADNPEVLRNVKEILIVDQGTQKVQDQGDFAAVSTSLDGKLRIINQANLGGSGGFARGMYESIENGSDYVLLLDDDIVVEPESITRLLTFADYCRKPTIVGGHMFDLYNRSVLHTFGEVVDPFRIVPAAPHADMETRHDFSVSNLRQTPWLHRRVDVDYNGWWMCLIPTAVIKEIGLSLPLFIKWDDAEYGLRAREAGYATVSLPGAAVWHVSWIDKDDLVGWQAYFHARNRLITTLIHSPYPKGGRVLRESVQADVKHLVSMQYFTEHGRIEALKDLFKGPDALHQVLATKLPEINALKSSYPDAQLKDDVDDFPAPKIGRGPMGGIVVGMPSKKDLIPWGIKTVARQLIKTPGPESSERPQGYLAHRDNRWYRVAHYDSVVVSNAEGTGASWYQRDPKKLKSMLAEATVLHAKLFREWDKLAHEYRSAVAEISSIDAWKKTFEANTKDGN	PGPT0024215_127	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ARABINOGALACTAN|LIPOARABINOMANNAN_REMODELLING	CE-REMODELLINGGALACTOFURANOSYLTRANSFERASE_ACTIVITY,PGPT0024215-glft2-K16650	NA	NA
D1-29_03202	1188	glf	COG0562	UDP-galactopyranose mutase	GTGAACGCTGACCTCGTCATTGTAGGGTCAGGCTTTTTCGGCCTGACAATAGCAGAACAGGCCGCCACTGAGCTCGGCTTGAAGGTAGTCGTCCTCGACCGCCGCCACCACATCGGTGGTAACGCCTACAGCGAGAATGAGGAGCAGACAGGAATCGAAGTGCACCGCTATGGGGCGCATCTTTTCCACACATCCAACGAGCGCGTTTGGGAGTATGTCAATCGGTTTACCACGTTCACCAACTATGTACATAAGGTCTATGGAGTCCATAAGGGCGAGGTGTATTCGCTGCCCATCAACCTGGCCACGATCAACCAGTTCTTTCGTGCGAACCTGACTCCGGGCCAGGCCCAGGCACTGATTCAGGAGCAGGCAGGGGAGCTTGCGGGTACCGACCCGCAGAACCTCAATGACAAGGGCATCCAGCTGATTGGCCGCCCGCTGTACGAGGCCTTCATCAAGCACTACACGGGCAAGCAGTGGCAGACCGACCCTAAAGACCTGCCCGCGGGCATCATTTCCCGGCTGCCGGTGCGCTACAACTACGACAATCGGTACTTCAACGACAAGTACGAGGGCCTGCCCACGAACGGATACACCGCCTGGATCGAAAAGATGGCAGAGCACCCGAACATCGAAGTCCGGCTCAACACCGACTTCTTTGACGAGTCGCACGAGTACAGCAAGGACAAGGTAGTGGGAAACATACCGGTGATCTACACCGGACCCGTGGACCGGTACTTCGACTTTGCCGAGGGCAAGCTTTCCTGGCGCACCATCGATTTCGAGGAGGAAGTCCTCGACGTCGGCGATTTCCAAGGAACCTCGGTGGTCAACTACAACGACGCCGATGTTGCCTACACCCGCATCATCGAACCTCGCCACTTCCATCCGGAGCGCAATTACCAAACGGAGAAGACCGTCATCATGCGCGAGTTCTCCCGTGCGGCAGAGAATGGCGATGAACCGTATTACCCCATCAACACGGCATTGGACCGGGAGCGTTTGCTGAAGTACCGCGACCTGGCCGCTGCCGAGTCCGATGTGCTCTTCGGCGGGCGTCTGGGCACCTACAAGTACCTGGACATGCACATGGCCATCGGCTCAGCCCTGACCATGTTCGAAAACCAGATTCGCCCGCATTTTGCCGACGGAGCGAAGTTTGAAAGTGGAGGAGTAGAAGCATGA	MNADLVIVGSGFFGLTIAEQAATELGLKVVVLDRRHHIGGNAYSENEEQTGIEVHRYGAHLFHTSNERVWEYVNRFTTFTNYVHKVYGVHKGEVYSLPINLATINQFFRANLTPGQAQALIQEQAGELAGTDPQNLNDKGIQLIGRPLYEAFIKHYTGKQWQTDPKDLPAGIISRLPVRYNYDNRYFNDKYEGLPTNGYTAWIEKMAEHPNIEVRLNTDFFDESHEYSKDKVVGNIPVIYTGPVDRYFDFAEGKLSWRTIDFEEEVLDVGDFQGTSVVNYNDADVAYTRIIEPRHFHPERNYQTEKTVIMREFSRAAENGDEPYYPINTALDRERLLKYRDLAAAESDVLFGGRLGTYKYLDMHMAIGSALTMFENQIRPHFADGAKFESGGVEA	PGPT0022675_433	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0022675-glf-K01854	NA	NA
D1-29_03203	987	iolX	COG0673	scyllo-inositol 2-dehydrogenase (NAD(+))	GTGGCAAACTTACGTGCCGGACTTATCGGCCTCGGAATGATGGGCAGGCACCATGCCCGCGTGCTGCGGGAGCTCGACGGCGTGGAGCTGGTCGCCATGGCTGATTCCTTCGGTGACTCGCATGGTGTTGCCAATGGCTTGACGGTCCACGACAAAGTCGAGGACATGATTGCCCAGGGCATCGACTGTGCCGTAGTGGCAGTACCCACTGTCCTGCACGAGGAAGTGGCCATGCAATTGGCCGAGGCGGGCATCCACTGCCTCGTCGAAAAACCGATTGCCAATGATTCCGAGTCGGGCCGTCGGATCGCAGCTGCCTTCGAAAGGAAGGGGCTGATCGGAGCCGTGGGCCACATCGAACGCTTCAACCCGTCCCTGCAGAGCCTGCGGGCGCGGCTTGAAGCCGGGGATCTTGGCGACGTGTACCAGATCTCCACGCGCCGGCAGGGTCCTTTTCCTGCTCGGATCGCAGATGTGGGAGTGGTCAAGGACCTTGCGACGCATGACATCGACCTGACAGCGTGGCTTGCCCAGAGCAACTACGTCGACGTGGTGGCCCACACCACATCGCGCAGCGGGCGGGAGCACGAGGACATGGTCACAGCCATCGGTCACCTGGGTGATGGCATCGTCACCAACCACATCGTGAACTGGCTTTCACCGATGAAGGAGCGCACCGCCGTCGTCCTGGGCGAGCGGGGTGCCTTCATAGCAGACACCATCTCCGCCGACCTGACGTTCGTGGAGAACGGAACGCTCCAGACGGAATGGGAATCGATGGCGGCATTCCGTGGTGTATCGGAGGGATCCAGCACGCGGTTCGCCCTTGCGAAGCGGGAACCGCTGAAAATGGAGCACGAAGCGTTCCGGGATGCCATCCTCGGAAAATCCATGAACGTGGTCACGATGGCCGAAGGACTGGAAACTCTCCGCGTCGCAGAAGCCGTGCTGGAATCCGCGAGGACCGGCGGCGTCGTCGCCCTCTGA	MANLRAGLIGLGMMGRHHARVLRELDGVELVAMADSFGDSHGVANGLTVHDKVEDMIAQGIDCAVVAVPTVLHEEVAMQLAEAGIHCLVEKPIANDSESGRRIAAAFERKGLIGAVGHIERFNPSLQSLRARLEAGDLGDVYQISTRRQGPFPARIADVGVVKDLATHDIDLTAWLAQSNYVDVVAHTTSRSGREHEDMVTAIGHLGDGIVTNHIVNWLSPMKERTAVVLGERGAFIADTISADLTFVENGTLQTEWESMAAFRGVSEGSSTRFALAKREPLKMEHEAFRDAILGKSMNVVTMAEGLETLRVAEAVLESARTGGVVAL				NA	NA	NA	NA	NA
D1-29_03204	1092	per	COG0399	GDP-perosamine synthase	ATGAGCCACGAGTTTATCCCGCCCGCCAAGCCGATCATCGGCGATGACGAGCGCGCGGCCGTTGATGCAGTACTGGCATCGGGGCAGTTGGCGCAAGGGGCGGAGGTCGCGTCGTTCGAGCAGGAGTTCTCCGACGTCCTGCTCGACGGGCGCGCCGCGGTGGCCGTCAACTCCGGAACTTCAGGCCTCCATCTCGGGCTTCTTGCTGCCGGGATCGGGCCGGGGGACGAAGTGATTGTCCCTTCCTTCACGTTTGCCGCCACCGCCAACTCAGTGGCTTTGACCGGGGCAACTCCTGTGTTCGCGGACATTGAGCCGACGTACTTCACCCTTGACCCGTCCTCCGTCGAATCCAGGATTACGGATAAGACGGCTGCCATCATGCCCGTGCACCTGTATGGCCACCCCTTTGACGTCGACGCTATCGGCTCCCTTGCGTCCAAGCATGGACTCAAGGTATTTGAGGATGCAGCCCAGGCGCACGGGGCAGCGGTCAACGGCCGGAAGGTGGGAACCTTCGGCGACTTCGCCATGTTCAGCCTGTATCCGACGAAGAACATGACCTCCGGTGAGGGTGGAATGGTCAGCACCGGCCTGGCGGATGTCGAACGCCGCCTACGCCTCCTCCGGAACCAGGGGATGGAACGCCAGTACGAAAACGAACTGGTCGGCTTTAATGCACGGATGACCAACATTCATGCTGCCATCGGCCGTGTGCAGCTCACAAAGGTGCTGGGCTGGACCAGGACCCGGCAGGAGAATGCCGCTTTCCTGGACGAAAATATTGAGGGTGTCACTACCCCAACAGTTGCTGCGGGGTGCGAGCACGTGTACCACCAGTACACGATCAGGGTCGATGATGACAGGGACGGCTTCGCGAAGGCTCTGCGTGAGGAGTACAACGTGGGTTGCGGGGTTTACTACCCGATACCAAATAACCAGCTGGCTCCGTTCCGGACCCAGGACGACCTGCCGGCCACCGATGAGGCCGCCAGAACGGTTCTTTCCCTCCCAGTTCACCCGTCCCTGAGCCAGAACGACCTGGAGCGGATTGTCGCTGCGGTGAACGCACTCGCGAAGGCTGGCAGCTAG	MSHEFIPPAKPIIGDDERAAVDAVLASGQLAQGAEVASFEQEFSDVLLDGRAAVAVNSGTSGLHLGLLAAGIGPGDEVIVPSFTFAATANSVALTGATPVFADIEPTYFTLDPSSVESRITDKTAAIMPVHLYGHPFDVDAIGSLASKHGLKVFEDAAQAHGAAVNGRKVGTFGDFAMFSLYPTKNMTSGEGGMVSTGLADVERRLRLLRNQGMERQYENELVGFNARMTNIHAAIGRVQLTKVLGWTRTRQENAAFLDENIEGVTTPTVAAGCEHVYHQYTIRVDDDRDGFAKALREEYNVGCGVYYPIPNNQLAPFRTQDDLPATDEAARTVLSLPVHPSLSQNDLERIVAAVNALAKAGS	PGPT0022785_1466	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
D1-29_03205	588	wbpD	COG0110	UDP-2-acetamido-3-amino-2,3-dideoxy-D-glucuronate N-acetyltransferase	GTGATAGAGGTTGCGGACAACGCCGACGTGTCAGCTGAGGCGGTCATTGGTGAAGGTTCCAAAATTTGGCATCTGGCCCAGATACGCGATGGGGCACATCTGGGCGTAAATTGCGTCGTTGGCCGAGGCGCCTACATCGGGACCGGTGTCACGATGGGGGACAATTGCAAAGTCCAAAACTATGCGCTCGTGTATGAACCGGCAGAACTGGAAGACGGCGTCTTCATCGGGCCTGCTGTTGTCCTGACAAACGACACGTATCCCCGGGCCATCACCCCGGATGGCGTGCTTAAGAGCGCCCACGACTGGGTGCCGGTAGGTGTCAGCATCAAACGGGGAGCGTCCATCGGTGCCAGGGCTGTTTGCGTGGCTCCCGTGACGATTGGCCGGTGGGCAACAATTGCCGCCGGTGCTGTCGTTACCAAGGACGTGCCTGACTTTGCCCTCATGGCCGGAGTTCCAGCCAAACGACTCGGCTGGGTTGGAAAGGCAGGGTTTCCACTGAAGCAACGAGGCGATCAGTGGGAATGCCCGGAAACCGGCACCATGTATGTCGAAAACGACGAAATTCTTCGAGAGGTTGATTAA	MIEVADNADVSAEAVIGEGSKIWHLAQIRDGAHLGVNCVVGRGAYIGTGVTMGDNCKVQNYALVYEPAELEDGVFIGPAVVLTNDTYPRAITPDGVLKSAHDWVPVGVSIKRGASIGARAVCVAPVTIGRWATIAAGAVVTKDVPDFALMAGVPAKRLGWVGKAGFPLKQRGDQWECPETGTMYVENDEILREVD	PGPT0022705_159	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0022705-wbpD|wlbB-K13018	NA	NA
D1-29_03206	4113			hypothetical protein	ATGAGGTTTCACTGCACTCTGGCGGGCAGCCCGGGGTCCGTACTGCATGGTCCGCCTTATGAACTGACTATTGAGGCACCCGCCGGCACAACCGGAGCCGAACTTGAGGCCCGGATCGCGGACAGGTTTGGCACGGGCCAGCTCGTCGTTGAGGGCGTGGGCATAGGCCTGATGACGCTTGGAAAACCGCCTCTGGTCCCCGGCGCTGTCCTCGTTGATAAACCCGCTAACGCGCCTTCACTGAGGCCACGCCGGCCCAGCTCCCAGCCGCCCCCTTCCCTGGCACTTGCTGTTCATAGTGGCGCCGGAGCAGGGACGGTGGTGCCGCTGCAGCGGGGCACCTACACCATTGGCCGTGGGAACGCAGACATACTCATACCCGACACAGAGCTTTCCAGGGAACACGCCCGCCTGGTGGTCACAGATACCGTCATAACGATCGTGGATCTCGACAGTGTCAACGGTACTGAGGTGGATGGGGAGCGCATCAGGAACGCCGCCATCACCACCGAATCGGTTATTCATTGCGGAAATTCGACCATGTCCCTGGTCGTTCTGGCCCAGCCTGGGCCCGGCCTGGGCGAGGCAGGAGCCTCGGTGGAGGAGCCTCTCGTTGTCAGCCAGCGCGTTGAAGCCACCAATCGTACAGCGCTTCTGCTCACCGCTGTGCTCCCCCTCGCCATCGGCGTAGGGCTTGCCGTTGTCACGGGAATGTGGATCTTCCTGGCTTTCACTGCAGTCTCGGCAGTATCCATCATCGTGCCTGTGTTTTCCGGTCGGCGTCAGCGGCGTGCGCTGGCCGCTGCAGTCATGGCAGCGATCCGGGAAGACAAGGATCGACGACGGCGGTCCGCCCCGCCGCTTTCCGTCCTGGTTATCGCCACCCAGCATTCGGAGCAGGGGACGGCAGCACCTGGAGCCCCTGCTGACCCTATCTGGCTGCGGCTGGGCCTTGCTGTCCAGCCGGCCAATCTACGCTTTGAGCCTGCGGATCCCGACAAGGCCATTCCCACTGCAGGCCTGATGCCCTTAACTCTCGATCCTGCCCGGTTGGTGGCGACAGTCCGGGGTTCGCGCCAGGCAGTAGACGGCCTGGTACGGTCAGCCGTGATGCAGCTGGCCGGCTACTCCCGGGCCCGCGCTTCCCGCATCCTGGTACACGGCGCTGCCCAATGCCTGCCGCTCAGCGCACGCTATCTGCCCGCCGTCACACTTTGCAGCAATACGTCCTCGGTGACAACACTCCTCGAATGTGGCTGGGGGCCTGCCTTCAGCCATGGTGTCCTGATCCTTTCAGGTGCCGCGGACACCGCGGAGACCCTGGCCGCGATTATCGCGAAAGCAAAGCAATTCAACTGGCAGGTAATTCATTTCTCGTTCGGGGATAGCTCTCCCGTGCTTGCGGATATGGATCTCCATGAGCAGGGCACGCCGCGTCGAATGCCAGCCGGGAACATTCCGTTTCTGCCGGATCTGGCGCCTGTGCCCGTCTTTGACCGTTTCTGCAGGGAATTGGCGGGGACCGTTGCCAGTTCCGGCAGGGCTGAAAGGACAGTCCCGTCGAGATGCTCGTTGGCTGAACTGATTCCCTCCTCATCGCTTGAAGTATCTTCGCGCTGGACCAATGGCCACTTGAGGCCCGGCCTTGTTGTGCCCCTGGGCCGTAGCGCCGAGGGAAGCCGCCTGCTGGATCTCCAGACCGATGGGCCGCATCTTCTGGTTGCAGGCACCACCGGGTCAGGCAAATCCGAACTCCTGCGCACCCTGACCTTGGGCCTATCACTCACCTACCCCCCGGACCGAATCAATTTCCTGTTCGTCGATTTCAAGGGAGGTTCGGGGCTTGGACCCCTGACAGGGCTTCCCCACTGTGTAGGAATTCTTACCGACCTGAGTACTCACGAACTTGAGCGTTGGTTGGCCTCACTTCGCGCCGAGGTCCGGGTCAGGGAAGAGATGCTCGCTTCGGTCCAGGCACCCGATCTCATGTCATACACGGCAAGCCAGGCGGGCAAGGATTCGCCACTTCCCCATCTCATCGTGGTCATCGATGAATTCCGCATGCTCGTGGACGATGCCCCGAATGCTCTGCAGGAACTGATGCGGATCGCCGCGATAGGACGCTCTCTCGGAATCCACCTGATCATGGCCACGCAACGTCCCCAGGGTGCACTCACGGCCGACATCCGGGCCAACGTGACAACCAGCATTGCGCTGCGGGTCCAGTCGGAGATGGAGTCGGTGGACATCATCAACTCCAAGGCCGCGGCAGCAATCAGCGTGGATACGCCGGGGAGGGCCTTCCTTGCCCGGGGCACGGAAGCGCCTCAGGAATTCCAGGCGGCCTCGATAGGGAGCGGGGCTTTAGTGGCCGAAGAGCCAGACATCACCATCCGGCTGGCCAGCGAGGCGCTTCAGGCCACCATAAACCCCGACCTTCCAGCGTCGGACCCAATTCCCGTAACACCCGTGCAGGCAGCGGCCCCGCATGTGAAGGCCACAACGGATGTCTGGAATGCCCTGGGTGGGCAACCCGTCCGGCGTCCTGTCGCCGCTGCACTTCCCCGCGTTCTGGCCGAAGACGGCACCCCGGTCCAGGTCCTTGCCGAGGCCACGCTCCCGGCATGGCTCCAGGAACACACCGGGCGCGGGTGGTCGATCAATCTGGGATTGATGGATCTGCCTAACGAACAAAGGATTGCCCCGGTCATCTGGCAGCCGGCCCGCCACGGGCATCTGGCCCTTATCGGCGGACCCGAGTCAGGTGCGGCAGAGGCCCTGGTTTTTGCAGTGCAGCAGCTTGTTTCCGACGCCGCAGAGTCTCACCTTTATGTACTGGACGCCGGCACTACCCTCAGCGCCGTCGCCTCCCATCACCGAACTGGTGCCCTGGCTGGTTTGGGCGAACTGCGGCGCGCCGTGCGCATCCTGGAACGACTGGCCAGCGAGCAGTCCCAGCGACTCAGCCGAGCCTCCAAAGACGACGAGACGCCCTTGATCCTGGTGATCGCCGGCTGGGGCTCGTGGGCCTCGGCACTCCGGGCCGGCCCCTTGGCCTGGGCCGAAGACCTGGTACACGATCTTGTCCGGGATGGCGGAAGTGCCGGCTTAACAGTGATCCTCTCAGGCGAACGAGAACTGGTGACTGCCAGATTCTTCGCATCAGTTCCCAGCCGGGTGTATTTTCCGGCAGGTTCCAGCGAGGACAGCCGTCTTGCCTGGCCAAGACTCCCAGCTACCGAAATGCTCCGGGGAAGGGCAGTGGCTTTCGGCGCTCTTTCGGGCGGGGAGCCCGCAGTCTGCCAGTTCTACACCCCTTCCCACAGCGGGTCGGAGCCGGCCTCTGAGGAACGAAAGCCCGGGCAACATGCACTGCAGGCGACCCCCTTCCGGGTGGAAGCGTTGCCGGTGATGCTCCCCGCCCACGAGATTCCGAGACAACCGGTGAGGGAGGCACCCGCCGATCGGGCCTTTGCGAGGCACCAGCCGAGGCCCGTGTCTGAGCGCTACCGGCGCCTTCTGATTGGAGTGGGCGGTGACGAATTGGCGCCGGTGTCCGTGACGGTCCCTGCCGGCAGTGTATTTGCGGTGCTTGGTGGCCCCGCTTCCGGAAAAACGAACTTCGTGCAGCTGCTTCCCGCCCTTAACGGCGATGCCGGCCACTGGCTCGAACCTGGCGAGGGGACAAACCCCATCGACTACTGGTCGGATATCCTACGCAAGGCTTCGGCGGGCGAGGTGGACCGGAGATCGACAGCGCTGGTTGATGATGCAGATCTACTGCCCGCGGTCACGCACCAGGAGTTGGCGGACCTCAATGCGATGGGCCATACAGTGGTCGTGACTGCACGCTTCAGTTCAATGCTTCTTCAGAGGGTTCCTATAATGCTGGCCGCCCGTGGCCTTGGAAGCGGGTTGCTGATCGCTCCCCGCAGTCTGCTCGACGGGGATTTCTTCGGCACGCGGTTCGACGTGGAACCACATCCCCCGCCGGGAAGGGCAGTCCTCATCTCAGACGGCCGGTCAATGCCTGTCCAGCTGGGCTGGGTCCCCCGGAAGGCTCAGACGCAGCATCAGCACGGCCAGGTTCCTCCACCCACTACTGACACTTAG	MRFHCTLAGSPGSVLHGPPYELTIEAPAGTTGAELEARIADRFGTGQLVVEGVGIGLMTLGKPPLVPGAVLVDKPANAPSLRPRRPSSQPPPSLALAVHSGAGAGTVVPLQRGTYTIGRGNADILIPDTELSREHARLVVTDTVITIVDLDSVNGTEVDGERIRNAAITTESVIHCGNSTMSLVVLAQPGPGLGEAGASVEEPLVVSQRVEATNRTALLLTAVLPLAIGVGLAVVTGMWIFLAFTAVSAVSIIVPVFSGRRQRRALAAAVMAAIREDKDRRRRSAPPLSVLVIATQHSEQGTAAPGAPADPIWLRLGLAVQPANLRFEPADPDKAIPTAGLMPLTLDPARLVATVRGSRQAVDGLVRSAVMQLAGYSRARASRILVHGAAQCLPLSARYLPAVTLCSNTSSVTTLLECGWGPAFSHGVLILSGAADTAETLAAIIAKAKQFNWQVIHFSFGDSSPVLADMDLHEQGTPRRMPAGNIPFLPDLAPVPVFDRFCRELAGTVASSGRAERTVPSRCSLAELIPSSSLEVSSRWTNGHLRPGLVVPLGRSAEGSRLLDLQTDGPHLLVAGTTGSGKSELLRTLTLGLSLTYPPDRINFLFVDFKGGSGLGPLTGLPHCVGILTDLSTHELERWLASLRAEVRVREEMLASVQAPDLMSYTASQAGKDSPLPHLIVVIDEFRMLVDDAPNALQELMRIAAIGRSLGIHLIMATQRPQGALTADIRANVTTSIALRVQSEMESVDIINSKAAAAISVDTPGRAFLARGTEAPQEFQAASIGSGALVAEEPDITIRLASEALQATINPDLPASDPIPVTPVQAAAPHVKATTDVWNALGGQPVRRPVAAALPRVLAEDGTPVQVLAEATLPAWLQEHTGRGWSINLGLMDLPNEQRIAPVIWQPARHGHLALIGGPESGAAEALVFAVQQLVSDAAESHLYVLDAGTTLSAVASHHRTGALAGLGELRRAVRILERLASEQSQRLSRASKDDETPLILVIAGWGSWASALRAGPLAWAEDLVHDLVRDGGSAGLTVILSGERELVTARFFASVPSRVYFPAGSSEDSRLAWPRLPATEMLRGRAVAFGALSGGEPAVCQFYTPSHSGSEPASEERKPGQHALQATPFRVEALPVMLPAHEIPRQPVREAPADRAFARHQPRPVSERYRRLLIGVGGDELAPVSVTVPAGSVFAVLGGPASGKTNFVQLLPALNGDAGHWLEPGEGTNPIDYWSDILRKASAGEVDRRSTALVDDADLLPAVTHQELADLNAMGHTVVVTARFSSMLLQRVPIMLAARGLGSGLLIAPRSLLDGDFFGTRFDVEPHPPPGRAVLISDGRSMPVQLGWVPRKAQTQHQHGQVPPPTTDT	PGPT0030468_799	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
D1-29_03207	498			hypothetical protein	GTGTCAAGACCCCCGGTGAACCCTGAAAATCCGTCGTCCGACCCGTCCCCGTACGGTTCTGGTTCCCACGGCGGGGAAGAACCAAAAGCTCCGTCGGCACCGGTTCGGCCGCGCCCCATACTGGTCATAGCGCTCATCGTTGCAGCAGAAGCCACCGCCCTGCTTGTTGCTGCCGGCTGGTACGGGTTCGAGCTTGCAACGGCTGCACCTGTCCGGTCCTTCTGGGGCGCCGTGTTCACGCTTGCGCTGCTGCTTGCATTCTCCGCATGGCTGTATTCCGTTGCCGCCTTTCTGATCCGCGGTTACCGCTGGACCAGGGCAGCGGCCCTGGTTGCGCAGCTGTTTGTTCTGACCATAGGCGTTCCGACGCTGAGCGGCGGAGTTGTGTGGGCAGGGATTGCCATGGTGGTGCCGGCGTTGGTGGCCATCGTGCTTCTTTTCGACCGGCGCGTCATCACCTATGCTTCCCGGACAGGCGGAGCACCTCCGGCTTTATGA	MSRPPVNPENPSSDPSPYGSGSHGGEEPKAPSAPVRPRPILVIALIVAAEATALLVAAGWYGFELATAAPVRSFWGAVFTLALLLAFSAWLYSVAAFLIRGYRWTRAAALVAQLFVLTIGVPTLSGGVVWAGIAMVVPALVAIVLLFDRRVITYASRTGGAPPAL				NA	NA	NA	NA	NA
D1-29_03208	267	whiB1		Transcriptional regulator WhiB1	ATGGAGCAACTGATCAGCATGGATTGGCGTAACCGCGCAGCGTGCCTTGACAAGGACCCGGAACTGTTTTTCCCCGTCGGAAATACGGGCCCTGCCCTCCTCCAAATCGAGGAAGCCAAGAGCGTCTGCCGCCGGTGCCCGGTTGTTGACACCTGCCTGCAGTGGGCTCTCGAATCGGGACAGGATGCAGGCGTGTGGGGTGGCATGAGCGAGGACGAGCGCCGTGCCCTGAAGCGCCGGGCAGCACGGGCCCGCCGCGCCTCCTAA	MEQLISMDWRNRAACLDKDPELFFPVGNTGPALLQIEEAKSVCRRCPVVDTCLQWALESGQDAGVWGGMSEDERRALKRRAARARRAS				NA	NA	NA	NA	NA
D1-29_03209	1470	pdtaS	COG3920	putative sensor histidine kinase pdtaS	GTGGCAATCTTTACGGACCCTATCAGGGAGCATGCTGATTTTGGGCCGGGCGATGCCGAATGGCTGCACCTCCTGGTGGGCGACTGGCAGATGGTTGCTGACCTTGCCTTTGCCGACTTGGCGCTGTGGTTTCCGCACCCTGAATACGGCTATGTTGCCCTTGCCCACGTCCGGCCCTCAACCACGCATACCGTTTTCCACGGGGACTTTGTGGGTGAGGGCATCCGCTCCGATCTGCAGCCACTGGTTGACAAAGCCTGGGAAAGCCGCGCCATAGAACGGTCCAGTGAAACCAACTGGAACAGCGACATGGCTCTGCGGGTGGAAGCAGTACCCATGGTCCGGAACGGCCGCACCCTTGCTGTTGTCACCACCCACATGGACCTGTCCAGCTCCCGGATGCCGTCCCGCCTTGAGCTCACCTACCGGCAGTGCGCCTATGACCTGCTCCGGATGGGGACGCTGGGTTTGTGGCCCGACTTTGCATCCCCGACAGGCTCCCGGCGCGGTGCTCCGCGTGTGGGGGATGGCCTCATCAGGCTGGACGCAGAGGGCATCGTGCAATATGCGAGCCCCAACGGCGTATCGGCGTTTCGACGGCTGGGTGACGGCGAATCGCTCGAAGGCCGCTCCCTGGCCGAAGTCACTGCCAGCCTGCTCAAGGACCGCCGGATGGTGGACGAGACCCTGCCCTTGGTGGTGACGGGCCGGATGCCATGGCGGAGTGAAATTGAATCCCGCGGCGTGAGCCTTTCGCTCCGGGCCATCCCGCTCCGGGACGAACAGCAGCGTTTTGGCGCGTTGGTGCTCTGCCGAGACGTTTCTGAGCTGCGGCGCCGGGAGATGGAACTGGTGACTAAGGACGCCACCATCCGCGAAATCCATCACAGGGTGAAGAACAACCTGCAGACCGTGGCTGCGCTGCTGCGTATGCAGTCCCGCCGCATGGTCAGCGACGAGGCCAAACAGGGCCTCGAGCAGGCGATGCGCCGTGTTGCCACCATCGCTCTTGTCCATGAGACCCTGTCCCAGGGGTTGGCGCAGAGTGTTGATTTTGATGAGCTGATCGGCCGGCAGTTCAGGCTTTCAGCAGAGGTTGCCTCTCCATCCCAACAGGTGAGGACCGAACGGGCAGGCCTTTTTGGAGAACTGCCGAGCGACTTCGCCACCCCCCTGGCTCTCGTGATCAACGAACTGGTGACCAACGCCGTCGAGCATGGCCTTGAAGGACGCGCGGGAACGGTCTGGCTCCTGGCTGATCGTTCCGAAGAGGAGGACGGCGAGGAACTTCTGACCGTTACTGTGGCCGATGACGGTGTGGGGCTGCCTGATACACCCCATGTGGAAGGCCTTGGTCTGCAGATCGTCCGGACCCTTGTGACCAGTGAACTGGGAGGCTCGATCCAATGGCAGCCGCGGGAAGGCGGCGGGACCGCTGTCCAGATCCGGCTAATCCTGGCCTCAAAGTGA	MAIFTDPIREHADFGPGDAEWLHLLVGDWQMVADLAFADLALWFPHPEYGYVALAHVRPSTTHTVFHGDFVGEGIRSDLQPLVDKAWESRAIERSSETNWNSDMALRVEAVPMVRNGRTLAVVTTHMDLSSSRMPSRLELTYRQCAYDLLRMGTLGLWPDFASPTGSRRGAPRVGDGLIRLDAEGIVQYASPNGVSAFRRLGDGESLEGRSLAEVTASLLKDRRMVDETLPLVVTGRMPWRSEIESRGVSLSLRAIPLRDEQQRFGALVLCRDVSELRRREMELVTKDATIREIHHRVKNNLQTVAALLRMQSRRMVSDEAKQGLEQAMRRVATIALVHETLSQGLAQSVDFDELIGRQFRLSAEVASPSQQVRTERAGLFGELPSDFATPLALVINELVTNAVEHGLEGRAGTVWLLADRSEEEDGEELLTVTVADDGVGLPDTPHVEGLGLQIVRTLVTSELGGSIQWQPREGGGTAVQIRLILASK				NA	NA	NA	NA	NA
D1-29_03210	4854	gdh	COG2902	NAD-specific glutamate dehydrogenase	ATGTCGTCTGGATCCAGCGTGGAGGATCAGCCCCTTTCCATTGGAGACCGTGAGGGTTTCCTCGGGGACTACTACCAGCACCTAGCCGAAGAGGACGCCCGGAGCTATTCGGCGGAAGTATTGGCCAACCGCGCCGAAACCCACCGCGAGGTCGCCGCAGTTCGATCGCCGGGGCAGGCCAAGATATCGGTCATCAACGAGGAAGACAGCAGTGTTGTCTACGTTGTGACGGACGACATGCCTTTTCTGGTCGACTCTGTTAATGCTGAACTGGTGCGCCAGAATGCAGCCATTCGCCTGGTGGTCCATCCGCTGTTCATCGTGACCCGAAACCGGGACACGGCGGAGCTTGTCAAGGTGGACAGGGTTCCTTCCAGCGTTGGCATTTCCAGTGGTGACACCGCCACGATGCCGAGCCTGTCGCACCTGATCGCCCAAGGTGAAAACGCCTCGCACATGGAGTCGTGGATTGCCGTCGAAATCGACCGCGTCTCCGACGACGTCCGGGCATCCTTGATCGCGGGTCTGGAACGCGTGCTGGGGGACGTACGGGCCGCCGTTGAAGACTGGCCGAAGATGCGAAACAAGGCCCTGCAGATTGCTGAAAGCCTGGACAAGGTCGCCAATCAGGCACAGATCGCGGAGCTGCGGCAGGCAAAGGATCTCCTCCGCTGGCTCGACGACGGAAACTTCACCTTTCTGGGGTACCGCGAGTACGACCTGGTCAACGTCGATGGCGAAGACGTCCTGGAACTGCGCGAGGGCAGTGGGCTTGGCCTGCTTCGGGCCGGCGAGGACTCCCATCATGTGCAGCACCTGACAGAAGCCGGCCGGAAGAAGGCAAGGGAAAAGCGGGCCCTGGTCATTACCAAGGCGAACTCGCGGTCCACTGTCCACCGCCCTGCCTACCTTGACTACATCGGTGTGAAAAGCTTCGACGCTGCCGGCAATGTCAACGGTGAGCGGCGCTTTATCGGGCTCTTCGCCACCAGTGCCTACGCCGGCTCCGTCAGGAACATACCCATCGTCCGCGAGAAGGTGGACGCTGTGCTGCGGAGCGCAGGGTTCCCGCCCGATTCGCACTCGGGCAAGGACCTCCTGGGAATCCTGGAAACGTACCCCAGGGACGAACTGTTCCAGATCGAAACAGAGGACCTGGCCGCGATTGCCACCGGCATCCAAAAGCTGCAGGAGCGCCGGCGGACCCGGCTGTTCCTCAGGCCGGACATCTACGGCAGGTTTATGTCCGCCGTCGTCTATCTTCCCCGGGACCGTTACACCACCAACGTCCGGCTCCGTATCGAGGAGGAGCTGAGGGAGACCTTCCAGGCGGAGTCCATTGATTACGAGGCGCGGATGACGGAATCCGCGCTTGCCCGCCTGTTCTTCCGGATCCGGCTGGCTAAAGGCGCGGTTGTCAACCACGTCAACGCCGAAGAACTGGAACGGCGGCTGGTCCGTGCGACGCGCTCGTGGAGCGAAGGAATCGCCGAAATTCTGCGCGAAAGGGGCCCCGAGGAAAACACCTCCGAGCTGGCGGCCATCTGGGCCGAGGCGTTTCCTGCCGGGTACCGTGTCGACTACGAAGTTGAGGATGCGCTGGAGGACATTCTGCGCTTCGAGAAATACGGTGCGGAAGCGGAGCGGAAAGCCGGAGCCAAGCAGGAGCGGCCAGGGGTCCATGTCTACCTTCCCGAGGGCGCAGGTGCCACGCTGGAGGAAGACGCACGCGTCAAGCTCTACATGCTGGAACCGAAGAGCCTCAGCCAGATATTGCCGTACTTCCACAATCTCGGGCTTGAAGTGCTTGATGAGCGGCCCTTCGAAATCGAGACCGCGGACGGACGCGATTTCTTCCTCTATGACCTTGGTCTGAAATACCCTTCAGCGGTCAACCCGGTGTCCACCGGTGAGCTGCTCGCCGACTCGTTCGGCGCTGCAGTGTCCGGTGCCATTGAATCAGACAGCTTTGACCGGCTTGTTCTCCGGGAAGGAATGCAATGGCGCCAAATCACGGTCCTGAGGGCATATGCCAGGTACATGCGGCAAATGGGAAACACCAACTCCTTTGAGTTCATGGCTGACACCCTGCTGGCCAATCCAAAGGTTACAAAGGGCCTCAGCGCGCTTTTCGAGGCCCGCTTCGATCCCTCACTGAATGACGGGGAACGGACGGCCGCCCAGCAAGCAGTGCGGGCCGAACTCGCGGACTCGATCGAGCAGGTTGCAACGCTCGACGCCGACAGGGTCCTGCGCACATTTGTGAACCTGATCGAATCCACCCTGCGCACGAATTACTTCCAGTACAAGCCGCACCTGAGTTTCAAACTGGATCCCACTGCACTCGAAGGGCTTCCGTTCCCACGGCCAATGTATGAGATCTGGGTGTATTCGCCCCGGGTGGAAGGCGTCCACCTCCGCTTCGGCAAGGTGGCACGCGGCGGGCTGCGGTGGTCCGACCGCCGGGAGGACTTCCGGACAGAGATCCTGGGCCTCGTGAAGGCGCAGACCGTGAAAAACGCGGTCATCGTTCCCACGGGGGCCAAGGGAGGCTTCTTTGCGAAACAGCTGCCGAACCCGGCCGCCGACCGGGCTGCCTGGATGGCCGAAGGCGTTGAAAGTTACAAGACCTTCATTCGTGGGCTCCTGGACCTGACCGACAACCTCGTTACCCGGCCTGACGGCGAAACCCTCGTCCCGCCGTCGGACGTTGTCCGCCACGACGACGACGATTCCTACCTTGTGGTGGCGGCAGACAAGGGGACGGCGACGTTCTCTGACATTGCCAACGGGCTGGCGGCCGAATACGGCTTCTGGCTGGGTGATGCCTTCGCCTCCGGCGGGTCCGTCGGCTACGACCACAAAGCCATGGGCATCACGGCCCGCGGTGCCTGGGAGTCCGTCAAACGCCACTTCAGCGAACTTGACCTGGACACCCAAACCCAGCCATTCACTGTGGTGGGCGTGGGAGACATGTCAGGCGACGTCTTCGGCAATGGCATGCTGCTGTCCCGGCACATCAGGTTGCAGGCCGCTTTCGACCACCGGCATATTTTCCTTGACCCGACCCCCGACGAGGAATCCTCGTTCGCAGAGCGGCAGCGGCTCTTTGAACTGCCGCGGTCCTCATGGGATGACTACGACAAGTCCCTTATCAGCGAAGGCGGCGGCGTTTTTGCCCGTCAGGCCAAGGCCATTCCGGTGTCGCCGGAGGTCCGGGCAGCGCTGGGACTGCCGGATGCAACCACGGAACTGAGTCCTCCCGAACTCCTTCGCGCAATCCTCCTCGCCCCGGCAGATCTGCTGTACAACGGCGGGATCGGGACTTATGTCAAGGCGAGCACCGAGACCAACGCGTCTGTGGGTGACAAAGCCAATGACGCGATCCGCGTCGACGGCAAGGACCTGCGGGTCAAGGTGGTGGGTGAAGGCGGAAACCTGGGCATGACCCAGCGCGGCCGGATTGAAGCTGCGTTGCAAGGTGTCATCCTCAATACCGATGCCATAGACAACTCCGCCGGCGTGGACTGCTCCGACCATGAGGTGAACATCAAGATCTTTGTGGACCGGATGGTGGCTGCAGGCAAACTCTCACCGGAGGAACGCGCAGGCTTCCTGGCCTCCATGACAGAGGAAGTGGGCAGGCTGGTCCTGGAGGACAACGTGGACCAGAACATCCTGCTCCTCAACGACCGGATGAAGGTCGCTGAATGGAGCCCCAGCTATGAGCGCCTGATGGACTGGCTGGAAAAGTCGGCGGACCTCAAGCGCGAGCTCGAAGCCCTGCCCACTACTGACACCCTGCATGAACGACTGGCGCAGGGCCAGGGCCTGACTTCTCCAGAGCTCTCGGTACTGTCCGCATACGCGAAGATCGAGCTGACGTCGGCACTGCTCGAGAGTAACCTGGCCGATGATCCCTGGTTCCGCAGGACACTTCGCGAGTACTTCCCGCAGCAGCTGAGGGAGCGCTTCGACGCGGAGCTGGATACCCATCCGCTGCGACGCGAGATAATCGCCACGGTAGTCGCCAACGACATGATCAACATGGGCGGGATCACCTTCGCCTTCCGCACCATGGAGGAGACATCAGCCACGGAAGTGGCGGTGGCCAAGGCGTTCGTGGCACTTCGGGAAATCTATGAGCTTGACGCCATGGTGGGTGAACTGAACAGCCTCCCGGCATCATTCCCCACAGAAAACTGGAGCACCATCCACCTGGACATCCGGCGCTTGCTGGACCGCGCCGTCCGCTGGCTTCTTAGCCAAGGCGGGGCTTCACGGCCCATTGCCGACATCGTGGCCGAATTCAAGCCGCTCATGGATCCTATGCGTGCGCGCCTCCTGGAATACCTGCGCGGGGAGGATCGTGAGAGGGTTGCCGGCTGGCTCGAGACAGGCCGCGAGTGGGGGCTTCCGGAAAATCTCGCCCTGCGTTGGGCGGAGCTTTTCGAGAGTTTCGTGCTGCTCGACATCGCCAAGATCGCACATGTCCGCAAGGACCCGGTCGAGGAGATCGCGGCCGTCTACTACACAGTGTTCAACCGCTTCCACGCTGACTCCCTGCTCGAACGGATCAGCAGCCTGCCACGGAATGACCGGTGGCAGGCCCTGGCCCGGGCCGCGCTCCGGGATGATCTGTACTCCACCATTTCGGACATGACGACGGCGGTGCTCGAGTCAACCGTGGCGGTGACCTCTGCTGAGGACAGGCTGAAGGCCTGGGAAGCGCATAACGCTGAGCAGTTGGGCCGTGCCAAGAGCATGTTTGACGAGGTGAACTCGCTCGAAGCCGACGATATGGCTTCACTGTCGGTAGCATTGAGGCTCTTGAGGTCAATCGTCCGGCGCTAG	MSSGSSVEDQPLSIGDREGFLGDYYQHLAEEDARSYSAEVLANRAETHREVAAVRSPGQAKISVINEEDSSVVYVVTDDMPFLVDSVNAELVRQNAAIRLVVHPLFIVTRNRDTAELVKVDRVPSSVGISSGDTATMPSLSHLIAQGENASHMESWIAVEIDRVSDDVRASLIAGLERVLGDVRAAVEDWPKMRNKALQIAESLDKVANQAQIAELRQAKDLLRWLDDGNFTFLGYREYDLVNVDGEDVLELREGSGLGLLRAGEDSHHVQHLTEAGRKKAREKRALVITKANSRSTVHRPAYLDYIGVKSFDAAGNVNGERRFIGLFATSAYAGSVRNIPIVREKVDAVLRSAGFPPDSHSGKDLLGILETYPRDELFQIETEDLAAIATGIQKLQERRRTRLFLRPDIYGRFMSAVVYLPRDRYTTNVRLRIEEELRETFQAESIDYEARMTESALARLFFRIRLAKGAVVNHVNAEELERRLVRATRSWSEGIAEILRERGPEENTSELAAIWAEAFPAGYRVDYEVEDALEDILRFEKYGAEAERKAGAKQERPGVHVYLPEGAGATLEEDARVKLYMLEPKSLSQILPYFHNLGLEVLDERPFEIETADGRDFFLYDLGLKYPSAVNPVSTGELLADSFGAAVSGAIESDSFDRLVLREGMQWRQITVLRAYARYMRQMGNTNSFEFMADTLLANPKVTKGLSALFEARFDPSLNDGERTAAQQAVRAELADSIEQVATLDADRVLRTFVNLIESTLRTNYFQYKPHLSFKLDPTALEGLPFPRPMYEIWVYSPRVEGVHLRFGKVARGGLRWSDRREDFRTEILGLVKAQTVKNAVIVPTGAKGGFFAKQLPNPAADRAAWMAEGVESYKTFIRGLLDLTDNLVTRPDGETLVPPSDVVRHDDDDSYLVVAADKGTATFSDIANGLAAEYGFWLGDAFASGGSVGYDHKAMGITARGAWESVKRHFSELDLDTQTQPFTVVGVGDMSGDVFGNGMLLSRHIRLQAAFDHRHIFLDPTPDEESSFAERQRLFELPRSSWDDYDKSLISEGGGVFARQAKAIPVSPEVRAALGLPDATTELSPPELLRAILLAPADLLYNGGIGTYVKASTETNASVGDKANDAIRVDGKDLRVKVVGEGGNLGMTQRGRIEAALQGVILNTDAIDNSAGVDCSDHEVNIKIFVDRMVAAGKLSPEERAGFLASMTEEVGRLVLEDNVDQNILLLNDRMKVAEWSPSYERLMDWLEKSADLKRELEALPTTDTLHERLAQGQGLTSPELSVLSAYAKIELTSALLESNLADDPWFRRTLREYFPQQLRERFDAELDTHPLRREIIATVVANDMINMGGITFAFRTMEETSATEVAVAKAFVALREIYELDAMVGELNSLPASFPTENWSTIHLDIRRLLDRAVRWLLSQGGASRPIADIVAEFKPLMDPMRARLLEYLRGEDRERVAGWLETGREWGLPENLALRWAELFESFVLLDIAKIAHVRKDPVEEIAAVYYTVFNRFHADSLLERISSLPRNDRWQALARAALRDDLYSTISDMTTAVLESTVAVTSAEDRLKAWEAHNAEQLGRAKSMFDEVNSLEADDMASLSVALRLLRSIVRR	PGPT0014290_698	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014290-gdhB-K15371	NA	NA
D1-29_03211	1308			hypothetical protein	ATGAGCATCCCGGTAGTGACAGTCGGGCAGACATCGGAGGATCTGGTCGGCGGCTTGGAGAGGCTGCACGGTCCGGTGACTGTTGTCCGCCGGTGTTCTGAGCTGACTGAACTGCTGGCCGCCTGCCAGAGCGGCCTCGCGCGGGCGGCGGTGGTGGCTGATGGCTGTGAGGAGCTGACAGCTTCACTGGTGGACCGGCTCGGTGCGGTCGGCGTGGCGGTCATTGCCCTGACGGACAGCCCTGACGAAGCAGCCAGGCTCCGGGGGATAGGAGTGGCATCGGCCCTGTCCGGCGTCGAGTCCGCAGCCCTCGCAGGCAGAATCGCCGACGCCGTGTCCCTCCTGTCAGGGTCAGGACAGGAGGCTGTCCCGCGAAGCGGAATGGCCGATCCCGCTGCTGCACTGAGGCCAACTCCAGCATCGCCGGCTGACGTACCGCCAGCTGCCGGCGCCGGCAAGATCATCGCCGTCTGGGGGCCGTCCGGATCCCCCGGCCGGACCTTCGTCGCGGCCAACATGGCGGGGGAGTTGGCAGCGGAAGGGAAATCCGTGCTGCTGATTGATGCGGACAGCTACGGGGCCAGTATCGCGGCCGTTCTTGGCCTGTTGGATGAGTCGGCGGGCTTGGCGCAGGCGTGCAGGCTGGCCGATCAGGGGCTGCTGGATACGGAGGCGCTGCTCCGGGTTGCCACTCCTGTGGCAACAAAGCTGGGCACATTCCGGGTCCTCACAGGAATAACACGTGCCGACCGCTGGACTGAACTGCGTCCGGCAGCCCTGTCCCTGGTCATGGAGCGGGCCAGGGATGTTGCCGACATTGTGGTCGTAGACACTGGATTCTGCCTTGAGTCGGACGAAGAACTCAGCTTCGACACCATGGCCCCGAGGAGGAACGCGGCTACCCTGCGCAGTTTGGAAGTCGCGGACTCCGTCTTTGCCATCGGCGCGGCGGATCCCGTGGGTGTGCCGCGGCTGGTTCGCGGGCTGGTCGACCTTCAGGCAGCCGTTCCCCATGTGTCCCCTGTGGTGGTGATGAACAAGGTCCGCGCCACCGCCGTGGGCAGGGCTCCGGAGCGGCAATTGCGTGATGCCTGGGAACGCTATGGTCCGGAATCGTCGCTGACGGCGTTCCTTCCCGCAGATCCCGCTTCCGCCGATGCCGCACTGCTGGGTGGGTCGTTGCTCCTTGAAACCGCACCTGAATCAAAGCTGCGCAGGGCGATCGCTGATTTGGTTTGTGCACCTGCCCAGCAGAATTCTAAATCCTCTGTGTTTTCTTCCACAGCAAGGCGTCGCGTAAAGGGTTAG	MSIPVVTVGQTSEDLVGGLERLHGPVTVVRRCSELTELLAACQSGLARAAVVADGCEELTASLVDRLGAVGVAVIALTDSPDEAARLRGIGVASALSGVESAALAGRIADAVSLLSGSGQEAVPRSGMADPAAALRPTPASPADVPPAAGAGKIIAVWGPSGSPGRTFVAANMAGELAAEGKSVLLIDADSYGASIAAVLGLLDESAGLAQACRLADQGLLDTEALLRVATPVATKLGTFRVLTGITRADRWTELRPAALSLVMERARDVADIVVVDTGFCLESDEELSFDTMAPRRNAATLRSLEVADSVFAIGAADPVGVPRLVRGLVDLQAAVPHVSPVVVMNKVRATAVGRAPERQLRDAWERYGPESSLTAFLPADPASADAALLGGSLLLETAPESKLRRAIADLVCAPAQQNSKSSVFSSTARRRVKG				NA	NA	NA	NA	NA
D1-29_03212	645			hypothetical protein	ATGAGTCCTGAAGATGCAGTCACCGGCCAACGGCTGAAGCGGCCATCGTGGAAGGACCCCAGGCTGCTGGTGGGCGTTCTTCTGGTCCTGTCATCAGTGGTGGGCGTCATCTCCCTTGTTGGCAGTGCCGATCGGACCACCGAGGTCTACGCAGCCAAGGACTCCATCTCAGTGGGCGAAAAGCTGACCCCGGATAACGTCGTCCGGGCCAAAGTCCGGCTGGGGGACAGTGAGCAGCACTACATCACCGTCGAGTCGGGGTTGCCCGAAGGGGTGGTCGCCGTCCAGAGGGTTGGAAGGGACCAGCTGATTCCCAGGGAAAGCCTCGGTGAGGTGGATGCTTTGGACCGAAAACCCGTAGCACTGACCATTGAGGAAACCCTTCCTGCGCAGGCGGTGGCCGGCACCAGGGTTGACGTTTGGGTTGCCTTGCCGGACGCACGCAACGGGTTCAGCGAGCCGCAGCTTCTCCTCCCCGGTGCTGAGATAGCACAAGTCACCGCCGGATCCACAGCTCTCGGTTCGTCCAGGAATACAGTCCTGATGGTCCTGGTGGCCGACGGTCAAATGCCCGCGTTATTGGGAGCACAGGCAAACGAAGCCAAGATCGCCGTTGTCTGGAATCCAGGCGGAGGAGCTTCATGA	MSPEDAVTGQRLKRPSWKDPRLLVGVLLVLSSVVGVISLVGSADRTTEVYAAKDSISVGEKLTPDNVVRAKVRLGDSEQHYITVESGLPEGVVAVQRVGRDQLIPRESLGEVDALDRKPVALTIEETLPAQAVAGTRVDVWVALPDARNGFSEPQLLLPGAEIAQVTAGSTALGSSRNTVLMVLVADGQMPALLGAQANEAKIAVVWNPGGGAS				NA	NA	NA	NA	NA
D1-29_03213	216			hypothetical protein	ATGCCTCGATTTCTCACGCTCGCAGATGTTGCAGAACAGCTTCAGATCAACTCACCCGCGGCGTACGCGCTGGTGAGGAGCGGAGAGCTGAAGGCCATCCAGGTGGGCGGCCGCGGCCAGTGGCGCGTGGAGGAGAAGATGCTTGAGCAGTACATCGAGGAGCGGTACGCCGAGGCCAGCAGGATGATCCAGGAAGCAAAATCAAAATCGGTCTGA	MPRFLTLADVAEQLQINSPAAYALVRSGELKAIQVGGRGQWRVEEKMLEQYIEERYAEASRMIQEAKSKSV				NA	NA	NA	NA	NA
D1-29_03214	570			hypothetical protein	ATGCGTTGGGATGCACTTTTCAGTGACATTGAGTCTCAGTTTGCCGAGAACTCCAGGCTGTCGCTCGAGGCGGAGATTACAGAGCGTTCACGGGTTGAGACGGCTTCCATTGAGCTCGTGGACCGTCTGCGTGGCTCGCTGGGAGCCCAGGTTGCGGTACACGCTAGGTCCGGAACTGTTTTCGAGGGGACGCTTGCGCATGCCGGCGCAGACGCCTTGGTGCTCCACGAGGCTCGCCACCAGGTGCTCATTCCGTACCGGGCCGTCGAACGGTACGTGGGACTCGGGAGACTGTCATGGGGCGAGCCCTCGCAGGTCAGGGGCAGGATCGGACTAGCGAGTGCGCTGCGTGGTATGTCGCGGGACCGGTCGGAACTGGTGGTGATCCTCACGCAAGGTGATGGTCAGAACAGATTGGCGGGGGTGATTGACAGGGTTGGCAAGGATTTCCTTGACCTTGCCATCATGAGTCCTGGTGAAGCCCGCCGCGTGTCGCACGTTAATCAGGTATCGACCATTCCCTTTGCGTCACTGAGTGCGATCCGGTCTCCGCGGCCCGGGGAGGTATAA	MRWDALFSDIESQFAENSRLSLEAEITERSRVETASIELVDRLRGSLGAQVAVHARSGTVFEGTLAHAGADALVLHEARHQVLIPYRAVERYVGLGRLSWGEPSQVRGRIGLASALRGMSRDRSELVVILTQGDGQNRLAGVIDRVGKDFLDLAIMSPGEARRVSHVNQVSTIPFASLSAIRSPRPGEV				NA	NA	NA	NA	NA
D1-29_03215	771			hypothetical protein	GTGAACGCAGCGAAACCCCCCGGAATTTATGCCGACGCTGTCATGGCGGCATCAATTCTGCTGCTCGGCGTATTTCTCGCCCTGACCGGTGCCGGAATTTTGGAGCGGTGGCGCTCTTCTGCGACCCACCGGCAGGCACCGGACGTTGACGACCTGATGGGAGTGTTGGCAACTGCAGCAGGATTGGGCATCGTTTGCTGGTGGTTGCTGTCGATACTGATGGCAACAACAGCTGCCATCCTGGAGAGGCTTGGACGAAGAGGCGCCGCGGCAGCCGCGGACAGGTTTTGTCCAGCCTTTATGCGGCGCCTGACTGTGGCAGTGTTTTCCGTCCAACTCGTCGCGGTTCCGCTGGCCCATGCGGCGGATTCTCCGGCGGGACCAGCCTGGGTCCCCACACAGGAACTAACGGTGGCGGCGGATCCAACGGCCTCAGTGGCGTGGAGTCCCACCAAGGAAACCGACGGACCTTCGCCGGCGCCGGATCTTCAACCTGACTGGCGGCCCCATGCCCCGGTCACCGAGCCTGGCCTTCTCGCAGCGCCTCCGGTGCGCGCCGTGCAAGTGGCAGCCGGAGCTGCAAACGAGGTGGCGGTACTTTCCGGCGACACCCTCTGGGATATTGCTGCCCGTGAACTCGGGCCGGCGGCCACGGACGTCGAAGTGGCCCTGCAATGGCCACGCTGGTACCTGGCAAACAGGGCCGTTATCGGCGAAAACCCGGATGTCCTGTTGCCAGGCCAAATTCTAAAATCACCTTCCGCTGCCTAG	MNAAKPPGIYADAVMAASILLLGVFLALTGAGILERWRSSATHRQAPDVDDLMGVLATAAGLGIVCWWLLSILMATTAAILERLGRRGAAAAADRFCPAFMRRLTVAVFSVQLVAVPLAHAADSPAGPAWVPTQELTVAADPTASVAWSPTKETDGPSPAPDLQPDWRPHAPVTEPGLLAAPPVRAVQVAAGAANEVAVLSGDTLWDIAARELGPAATDVEVALQWPRWYLANRAVIGENPDVLLPGQILKSPSAA				NA	NA	NA	NA	NA
D1-29_03216	465			hypothetical protein	ATGACTGCAGTAACACCGATCCGCGCCAGGCTGGCCACAGAGACACGGGCCGAACCCTACCGGCAGCTTCCTGGCCGGCCGGGTGCTCCTCAGCGCCCGCTCGGCCCAGTGGACGAGAATGCCGAGGTGAGAGCCATTGCGCGCAGCACGGTCCAGGCGGCGATGGAGGTTCTGGCGGGTATCAGACCTGCCCAGCAGCTGGCGCGAAGGCTGGATCCGCGCTGTCTTGCCGCCCTGCAGCACCGTGCCTCGCTCATCCGCCGGGAACTGGCGCGCTCACCGTCCCCGTCGCTGGCACGGCTCCATCAGAACTCGCTGGTTCGGTCCGTCCGTGTCTGCGAGGTCGCAACCGGTATCTATGAGGCCAGCGCCGTGGTGGTTGACGATGTCCGGGCACGGGCGGTGGCCGTCCGGCTGGAACGGAGCAAGCAAGTTTGGCGAGTGACGGAGCTCGTCGTTGGCTGA	MTAVTPIRARLATETRAEPYRQLPGRPGAPQRPLGPVDENAEVRAIARSTVQAAMEVLAGIRPAQQLARRLDPRCLAALQHRASLIRRELARSPSPSLARLHQNSLVRSVRVCEVATGIYEASAVVVDDVRARAVAVRLERSKQVWRVTELVVG				NA	NA	NA	NA	NA
D1-29_03217	2739	secA		Protein translocase subunit SecA	GTGGCATCACTTATCGAAAAACTTCTCCGCACGGGAGACAAAAAAACCCTGCGGCAACTCCGGAACTATGCCGACTCCATCAATGCTCTCGAAGACTCGCTCAAGACGTTCAGCGACGCCGAACTCCGCGAAGAAACGGACCGCCTCCGTGAACGGCACCGCGACGGCGAGAAGCTCGACGACCTCCTGCCGGAAGCCTTTGCAGCTGTACGTGAAGCGTCATCCCGAACCCTTGGCATGCGCCACTTCGACGTTCAGCTGATGGGTGGCGCGGCCCTTCACCTGGGCAACATTGCCGAGATGAAGACCGGTGAAGGCAAGACGCTTGTCGCAACGGCTCCCGCTTACCTCAACGCCCTGACCGGAAACGGCGTCCATGTGGTGACGGTGAACGACTACCTGGCCGAATACCAGTCCGATCTCATGGGCCGCGTCTATCGCTTCCTGGGGCTCACCAGCGGCTGCATCCTCTCCAACCAGGACCCCTCAGTCCGCCGGGAGCAGTACGCGGCCGACATCACCTACGGCACCAACAACGAGTTCGGTTTTGACTACCTCCGCGACAACATGGCGTGGGACCAGTCCGAGCTCGTCCAGCGCGGACACCACTTTGCCATCGTGGACGAGGTGGACTCCATCCTGATTGATGAGGCCCGCACGCCGCTGATCATCTCCGGGCCCGCCCAGGGGGACACCAACCGCTGGTACAGCGAATTCGCCAAGGTAGTGCTGCGGCTGCAGGCCGGCCAGGACTACGAGGTCGACGAAAAGAAGCGCACGGTGGGCGTTCTTGAAAGCGGCATTGAAAAAGTCGAGGACTACCTGGGCATCCAGAACCTGTACGAGTCGGCGAACACCCCGCTCATTGGATTCCTGAACAACGCCATCAAGGCGAAGGAACTCTTCAAGCGGGACAAGGACTACGTCATCCTGGATGGCGAAGTCCTGATCGTGGACGAACACACGGGCCGCATCCTTGCCGGCCGGCGGTATAACGAGGGCATGCACCAGGCGATCGAGGCCAAGGAAGGCGTCGAGATCAAGGCCGAAAACCAGACCTTGGCCACGGTAACGCTGCAGAACTACTTCCGCATGTACGACAAACTCGCAGGCATGACCGGTACAGCCGAAACCGAGGCCGCCGAGTTCATGGGTACGTACAAGCTTGGGGTTGTGGCTATCCCCACCAACCGTGACATGCAGCGGATTGACAAGTCAGACCTCGTGTTCAAGAACGAAACGGTAAAGTTCGACGCCGTTGTTAAGGACATTGCCGAACGCCACGAAAAGGGGCAGCCGGTCCTGGTGGGCACCACGAGCGTTGAGAAGAGCGAGTACCTCTCCAAGCTGCTCTCCAAGGAAGGCATCCGGCACGAGGTACTGAACGCCAAGAACCATGCCCGTGAGGCGGCCATCGTGGCGCAAGCTGGGCGGAAGGGCGCAGTCACCGTCGCCACCAACATGGCCGGGCGAGGCACGGACATCATGCTTGGCGGCAACGCGGAATTTACGGCCGTTGCCGAACTCGCCAAGCGCGGGCTGGATCCTGAGGAAAACTCGGAGGAATATGAGGCCGCGTGGCCTGCCGCCCTGGAAGTTGCCAAGCAGTCGGTCAAGGACGAGCATGAGGAAGTTCTGGACCTGGGCGGCCTTTACGTCCTGGGTACCGAGCGGCACGAGTCCCGCCGTATCGATAACCAGCTTCGGGGCCGTTCGGGACGTCAGGGTGACCCGGGAGAATCCCGTTTCTACCTCTCCCTGACTGATGACCTGATGCGGCTCTTCAACTCCGGCGCCGCCGAACGTCTGATGAACAGCTCAGTGCCTGATGATGTTGCGCTTGAATCCAAGCTTGTTTCCCGGGCCATCGCATCGGCGCAGGGGCAGGTCGAGGGCCGCAACGCCGAGCAGCGCAAGAATGTCCTGAAGTACGACGACGTCCTGAACCGCCAGCGCGAAGCCATTTACGGAGACCGCCGCCGGATTCTTGAGGGCGATGACCTGCACGAGAAGGTGCAGTTCTTTGTGGAAGACACCATCACCGCCCTCATTGATGCTGCCACCGCTGAGGGCAACGGCGATGACTGGGACTACAACCAGCTGTGGACGAACCTCAAGACGCTCTACCCGGTGAGCGTTACGCCCGAGGAGATCATTGAAGAGGCCGGCGGAAAGTCGCGTCTCACCGTGGAGTTGCTCAAGGAGGAACTGCTCTCCGACGCGCGTTTGGTCTACCAGTCGCGTGAGGAAGCCATCGGCTCGGAAAGCATGCGGGAGCTTGAGCGTCGTGTTGTGCTGTCCGTCATCGGCCGCAAATGGCAGGAACATCTCTACGAGATGGACTACCTCAAGGAAGGCATTGGCCTGCGTGCCATGGCCCAGCGCGACCCGCTGGTTGAGTACCAGCGTGAAGGCTTCACCATGTTCCAGAGCATGATGGAGGCCATCCGCGAGGAAAGTGTTGGCTTCCTGTTCAACCTTGAAGTGGAGGTCACTCCTGCCCAGGATGTTGTGGTGGCCGATGCCGCCGGCGGACACACCGAGCATGTTGAGCCGCAGATCCGGGCGGCGGGCCTGGAAGCTCCGGAAAAGCCGGCGCAGCTGCAGTACACCGCACCCGGCGAGGACGGCGCCACCCACACCAGGGTGGAGAGCCGCTCATCATCGCGTTCCGGGAACCCGGCAAAGGCGGCCACCCAGGATGCCCCCAAACGCACCGCCAAGAAAAAGCGCCGCTGA	MASLIEKLLRTGDKKTLRQLRNYADSINALEDSLKTFSDAELREETDRLRERHRDGEKLDDLLPEAFAAVREASSRTLGMRHFDVQLMGGAALHLGNIAEMKTGEGKTLVATAPAYLNALTGNGVHVVTVNDYLAEYQSDLMGRVYRFLGLTSGCILSNQDPSVRREQYAADITYGTNNEFGFDYLRDNMAWDQSELVQRGHHFAIVDEVDSILIDEARTPLIISGPAQGDTNRWYSEFAKVVLRLQAGQDYEVDEKKRTVGVLESGIEKVEDYLGIQNLYESANTPLIGFLNNAIKAKELFKRDKDYVILDGEVLIVDEHTGRILAGRRYNEGMHQAIEAKEGVEIKAENQTLATVTLQNYFRMYDKLAGMTGTAETEAAEFMGTYKLGVVAIPTNRDMQRIDKSDLVFKNETVKFDAVVKDIAERHEKGQPVLVGTTSVEKSEYLSKLLSKEGIRHEVLNAKNHAREAAIVAQAGRKGAVTVATNMAGRGTDIMLGGNAEFTAVAELAKRGLDPEENSEEYEAAWPAALEVAKQSVKDEHEEVLDLGGLYVLGTERHESRRIDNQLRGRSGRQGDPGESRFYLSLTDDLMRLFNSGAAERLMNSSVPDDVALESKLVSRAIASAQGQVEGRNAEQRKNVLKYDDVLNRQREAIYGDRRRILEGDDLHEKVQFFVEDTITALIDAATAEGNGDDWDYNQLWTNLKTLYPVSVTPEEIIEEAGGKSRLTVELLKEELLSDARLVYQSREEAIGSESMRELERRVVLSVIGRKWQEHLYEMDYLKEGIGLRAMAQRDPLVEYQREGFTMFQSMMEAIREESVGFLFNLEVEVTPAQDVVVADAAGGHTEHVEPQIRAAGLEAPEKPAQLQYTAPGEDGATHTRVESRSSSRSGNPAKAATQDAPKRTAKKKRR	PGPT0025735_2391	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025735-secA-K03070	NA	NA
D1-29_03218	1269			hypothetical protein	GTGGGAGCGACGCTGAGCCTTGACCAGGCCCGGCGGATCGCTTTGGCAGCCCAGGGACTCGACAAAGGACGGCCCGCCGGACCCGTGACTTCACGGACGGTGGGCCGAACCTTTGCCAAGCTTCAGCTGGTCCAGATCGATTCCGTCAATGTGTTGTCCCGAAGCCACTTCCTTCCCTTTTTTTCGCGGCTGGGCAACTACGACCGCGATATTCTGCAGCGGATGTCAGCCACCCCTCCCCGCCGGATGATGGAGTACTGGGCACACGAAGCCAGCTACATCCGCCCGGACCATTTCCAGGATCTGGTTCTCTGGCAGAAGCGCAAGTGGGTGGGCGCCTCGGGCATGGAACAGGAACTGCGCGAAGGCGTGGCGGGGAAGATCCTTCAGGCCCTGTCCAGCGGCCGGCCCATGACGGCCAGTGAACTGACCGCCAGGATCGGACACGTGGAGGACAGGAAGAACGATAACTGGGGATGGAATTGGAACGCCGTCAAACGGGTCCTTGAGCATCTCTTTGAGCAGGGCCTGGTATCCGCGGCTTCCAGAACCGACCAGTTTGAGCGGCGTTACACGCTGACCGAGCGGGTGTTGCCGGCACTGACGGGCGGCGACAACGAGTCGCCTGACCCGGTTGCCGCCATGCACCGGCTGATCGATGCCGCCGCCCAGGCGCACGGTATCGGGACGGTACGCTGCTTCGCCGACTACTTCCGTGTCCCGGCGAAGGCTGCTGCAGGGTCGGTGGAGCGCCTCGTGCAAACCGGGCGGCTCGAGCCGGTCAAAGTGGCTGGCTGGAACAGGGATGTGTTCCTGCATGCGGAGGCAAGGCTTCCACGGAGGGCCTCAGGACGGGCACTGTTGAGTCCCTTCGATTCACTGGTCTTTGAGCGGCGCAGGCTTGAGGAGTTGTTCGGTTTCCACTACCGCATCGAGATTTACACCCCGGAACACAAAAGGCGCTTCGGCTACTACGTTCTTCCTTTCCTTCTGCGCGACAGGTTGGTTGCCCGGGTTGACCTGAAGGCGGACCGGGCTTCGGGACACCTGCTTGCCAAGTCCGCTTATGCTGAGCCGGACGCCCCTGCGGATACCGCCGTCGAACTTGCCGCCGAACTGCACCTGATGGCCGAATGGCTGGGCCTCCAGAAGGTGGTGGTGTACCCCAAAGGGGACCTTGCGGCGGGCCTGGCCCTGGCAGTCCGAAGGGATGAAGAGGGTATCCGCTGTGAGGGAAAACAGACACCGTGGGCTGCGTCTCTCCCGTAG	MGATLSLDQARRIALAAQGLDKGRPAGPVTSRTVGRTFAKLQLVQIDSVNVLSRSHFLPFFSRLGNYDRDILQRMSATPPRRMMEYWAHEASYIRPDHFQDLVLWQKRKWVGASGMEQELREGVAGKILQALSSGRPMTASELTARIGHVEDRKNDNWGWNWNAVKRVLEHLFEQGLVSAASRTDQFERRYTLTERVLPALTGGDNESPDPVAAMHRLIDAAAQAHGIGTVRCFADYFRVPAKAAAGSVERLVQTGRLEPVKVAGWNRDVFLHAEARLPRRASGRALLSPFDSLVFERRRLEELFGFHYRIEIYTPEHKRRFGYYVLPFLLRDRLVARVDLKADRASGHLLAKSAYAEPDAPADTAVELAAELHLMAEWLGLQKVVVYPKGDLAAGLALAVRRDEEGIRCEGKQTPWAASLP				NA	NA	NA	NA	NA
D1-29_03219	726	hpf	COG1544	Ribosome hibernation promotion factor	ATGGAGTTTATGATCAGCGGACGAAATCTGACGGTCTCAGACCGCTTCCGCGAATACGCCGGCGAGAAGATCTCAAAGATCGAATCGCTGGGCGACAAGGTCCAGCGGGTGGACGCTAAGGTTTCCAAGGAAACGAATGCGCGCCAGACCGGGGACCAGCTCACCGTCGAAGTGACTGTCCTGGGACGGGGACCGGTAATCCGCGCGGAAGCCAGCGCCGCAGATAAATTCGCTGCGTTCGATCTTGCCTACAACAAGCTGCTTGAGCGGCTTCGCCGCGCGAAGGACCGCAAGAAGGTCCACCACGGACGGCATACTCCCAAGGCGGTGCGCGAAGCCACTGCATCCCTGGAACCCGCGAGCGCCCACGAACCCATTTATGCAGAGGCCAGCCACCGGAACGAACCGGCGGCCGCGCCGGCCGAGCGCTCGCCCTATGACGTTGAGAATGACATTCCGGCTGGGGACTCTCCCGTACTTATCAGGCGCAAGGTCTTTCCCGCCGCATCCCTGACCCTGGATGACGCCGTGGACAACATGGAATTGGTTGGCCACGACTTCTACCTGTTTGTGGACAAGGAAACCAACACACCCTCCGTTGTCTACCGGCGCCGTGGCTGGACTTACGGGGTTATCACCCTGGACCACGAATGCGAACCGGGCGAAACCCCGATTGAAGAGAAGGTTATTGCCTACCGTTCCAAGGATGAGGCAGCAAACGTTTAG	MEFMISGRNLTVSDRFREYAGEKISKIESLGDKVQRVDAKVSKETNARQTGDQLTVEVTVLGRGPVIRAEASAADKFAAFDLAYNKLLERLRRAKDRKKVHHGRHTPKAVREATASLEPASAHEPIYAEASHRNEPAAAPAERSPYDVENDIPAGDSPVLIRRKVFPAASLTLDDAVDNMELVGHDFYLFVDKETNTPSVVYRRRGWTYGVITLDHECEPGETPIEEKVIAYRSKDEAANV				NA	NA	NA	NA	NA
D1-29_03220	960			hypothetical protein	GTGCAGCGCGGCAAGCATGGGGGTGTGACTTCCGCACAATCCAGCAGCCGTCCCCGCGCGCGCCGGGCTTCGGCCGATCCGGACCTCCTCCCGGCTCCGCAATGGTCAGCAAAGCACCGCGGAGGGTATCAACGCCTGCTGCCGAGGATTGCTGACCAACTCGGCAGCGCCGCAGCGGAGCTGCTGGCCCTTGCCGTCCCCGTGGACTGTGTTTGCTGCGGTGCTGAAGATCTGGCCCTCTGCGTTGCCTGCGAACGGCAGGTCAGGACACTGACCGGGAGCCCGTTCCGGGCCGAGGGCCAGGCGCCGGCGCTGATGGACGTCGACGGCGGGATCCGGCTTCCGGTGGTGGCAGCGGGGGTATACCGCGATGAGCTTGCCCAGGCCGTCCTTTCCTTCAAGAGCCATGGACAGCGCCAGCTCAAGCATGTGCTGGCAAAGGGCCTGGGAGACGCTGTGGTGTCAGCAGCCGGTGGTCTCGATGGGGTCTTCCTGGTGCCCGTGCCAAGCAGTGCCGGGGCGTTTGTGAAGCGCGGCTTCAGTCCTGTGCATCTGCTCCTTGGCGCCCTGATGGCAGGACGCGCCACCGCCGGAACTCCGGTTCTTGACGTACTGAGGAAGTCAAGGCGCCCGGTCACCCTGGAGCAGCTTCCAGGTGGCCAAAAAGGACTGGGCCGGGGGGCCCGGGCGAGGCGTGTGCGGGGATCAATGCAGGTCAGCGGACGGCAACGGCGCCGGGTAGCCGGACGCCGCTGCATCATCGTTGATGACGTCCTGACCACAGGTGCGACGCTCGCTGAAGCAGCCCGCGCATTGCACCTGGCAGGGGCACTGGTGGCAGGGGCGGTGGTCCTCGCGGCGACACGCCCGCCCGATTCCGGCAGCACCACCGAACCCTCCGCGAACACAGGCCTGGCGGCTGACGTCTTAGAAAAAAATAAACCAAGAAAAGATGAATAA	MQRGKHGGVTSAQSSSRPRARRASADPDLLPAPQWSAKHRGGYQRLLPRIADQLGSAAAELLALAVPVDCVCCGAEDLALCVACERQVRTLTGSPFRAEGQAPALMDVDGGIRLPVVAAGVYRDELAQAVLSFKSHGQRQLKHVLAKGLGDAVVSAAGGLDGVFLVPVPSSAGAFVKRGFSPVHLLLGALMAGRATAGTPVLDVLRKSRRPVTLEQLPGGQKGLGRGARARRVRGSMQVSGRQRRRVAGRRCIIVDDVLTTGATLAEAARALHLAGALVAGAVVLAATRPPDSGSTTEPSANTGLAADVLEKNKPRKDE				NA	NA	NA	NA	NA
D1-29_03221	1737	lpqB		Lipoprotein LpqB	ATGACAGCAACCCCCACCATGCATGCCAAACACGGGGTCAAGCGGTACCAGGCCCTGGTGGCCCTGCTGGTCCTGGTGCTCCTGCTGGGCTCTTGCGCCCGAATACCCACTTCCGGTCCGGTGGGAAAAAGCAGCGAGGGAAGCGCGGGGAACCTGAATGCCCCGGTTTTCCTTCCGGCCGCACCGCAGCCCGGGGCCGCGCCCGAGACCATCATCGAGGATTTTTACCGCGCCGGGAGCGGCTATGAGGACGACTATGCGGTGGCCCGTGAGTACCTCACGCAGGCATCCTCCGTGGCATGGAAACCCGACCAGCGTGCCCTCGTATACCGGGCAGCCAGGGTAGTGCCCACCGGCGTCGAAAACGTCTACAACTACGAACTCGACGTGGCCTACACCGTCGACGCGGACGGCATTGCTACCCAGACCCCGGAAGGCACCAAGGAGAACATACCGGCAGCGGTCACCCAGGTTGACGGTGAATGGCGGATCTCAGCCATTCCTGACGGCACCGCCATTCCCGAGGAAACGTTCAAGGTCATTTACGGCGCCTACCCCATCTACTTCTACGATCCCAGCTTCACCTACGCGGTTCCCGATGTCCGCTGGTTCATCAAGAACAAAACCGTCAAGGCCATGACCAGCGCCCTCCTTGCCGGCCCGGCTCCCTATCTCCGGGGCGCCGTCGTGAGTGCTTTCCCGTCAGGCATTAAACTTGCCCGGGAGTCGGTGCCGGTGGTCTCCGGGGCCGCGCAGGTGGACCTCAGCCCCAAGGAGCTCACGGAGGCGTCCACAGAGGACAGGCTCCGGATGCAGACTCAGCTCGCCCTGACATTCCGGACCCAGCCTGATGTGGTCAACGTTGAGCTGCGTGCCAACCAGGACCTCGTCCGGGTGGAGGACAACGGCTCCGTGCTGCCACCCGTGCAGAACAAGAATGTGCCTGCCCGCCAGATTGCCATCAGCGGGAACGAGTTGGTCCGCTATGAGAACAACCGCGTCTCCCCACTGCCGGATATGCAAACGGTGTCCGCCCTCGGACCCCGTTTCCCGGCGGAATCCCCGGTTTCGCAGACAGTGGCGTTTTTGAATGAAAGCCGGACCACGCTCTACAGCATGGTTCCCGGACAGCCTGCCAGGGCACTGACCACCCGCAGCACGCTGACTCACCCGTCGTTCAGTCTCCACGACTGGGTGTTCTCCGCCGGGCCTGGGGCCGTGGGCGGGACTGAAATTGTGGCTTACCGTCCGACGGGTGTGGCCGAGGGGGCTGATGTCCCAACCGTCACCCTGGCCCCTTCCTGGCTGGCCGGACGGACGGTAAAAGACTTCAGGGTGTCCCGGGAGGGCGTACGGGCACTGGTAATCTCCGAGCAGAACGGCAAGACCCGTGTGCAGGTTGCCGGGATCATTCGCAATGCCGACGGAACACCACGGGAACTGACCTCGCCGATCACCCTCGCCGCGGGGAGCGAGCCGGACCAGGGGGTCTGGGTCAGTGACACCATGGTGGCCGTGATGAAGGGGTCGGCCGCTGCCAACGTTTCCCCGGAGCTGCTGTCCCTGATGTCGGGACAGCCGCAGCAGCTGGCCCCCTGGCCCGGGCTGGTAGGCCTGAGCGCCGGGAACGGACCCGAGGAGATCTATGGTCAGTCCGCCGAAGGAATATTCCAGCGGCTGGGCAACGGCTGGTCGCCGCAGCTGAAGGGGCCCGTGGACCCATCCTTCCCGGGTTAG	MTATPTMHAKHGVKRYQALVALLVLVLLLGSCARIPTSGPVGKSSEGSAGNLNAPVFLPAAPQPGAAPETIIEDFYRAGSGYEDDYAVAREYLTQASSVAWKPDQRALVYRAARVVPTGVENVYNYELDVAYTVDADGIATQTPEGTKENIPAAVTQVDGEWRISAIPDGTAIPEETFKVIYGAYPIYFYDPSFTYAVPDVRWFIKNKTVKAMTSALLAGPAPYLRGAVVSAFPSGIKLARESVPVVSGAAQVDLSPKELTEASTEDRLRMQTQLALTFRTQPDVVNVELRANQDLVRVEDNGSVLPPVQNKNVPARQIAISGNELVRYENNRVSPLPDMQTVSALGPRFPAESPVSQTVAFLNESRTTLYSMVPGQPARALTTRSTLTHPSFSLHDWVFSAGPGAVGGTEIVAYRPTGVAEGADVPTVTLAPSWLAGRTVKDFRVSREGVRALVISEQNGKTRVQVAGIIRNADGTPRELTSPITLAAGSEPDQGVWVSDTMVAVMKGSAAANVSPELLSLMSGQPQQLAPWPGLVGLSAGNGPEEIYGQSAEGIFQRLGNGWSPQLKGPVDPSFPG				NA	NA	NA	NA	NA
D1-29_03222	2025	sasA_7		Adaptive-response sensory-kinase SasA	GTGGTGTCGGCTACAAAGCAGGTTCCTGACCCCTCGGGGGCAGAGAACGGACGTGCGCCGGACGCGTCCGCCGCCCAGCAGGCCGGGCATGTTCCGGAGCACCATTCTGCTCCGGAACACACTGATGCCCTGGCCGCCGCGGGGCTGTCCGAACTGCCTTTCCGCGCCCGCATTTGGAAGCGCCGAACGCTCATCGTCAGCCTTCGGGTAGCGCGCCTCGTCCGGATTGGCCTCAGCCGCGTGTTTCCCGCCATCCGTTACCTGGCGAGATCACTTCACCGCCGCTGGCGCCGGTCACTGCAGTTCCGCACCGTTCTGACCACGCTGTTGCTGGCCGTCACGTCATTCGCTGTAGTGGGCGCTTACCTGTCCAACCAGATTGCCAACAACCTCTTCCAGGAGCGCCTGACCCAGGCCGAGTCTGAGACCCGATATAACGTCAAGCAGGTCCAGGACACTTTCGACGGCGCCCAGGTCACCGACCAGTCCAGTGTGATCACCCTGGTCTACGACACCCTGACCGCCGTTGAGGGACGCGGCGATGTCATCCAGCGGCGGTATGTCTTCGAGGCCATGCCGCAGCAGACCAAGCCGCGGAACCGCTGGGTTGAATCCAGGGCCTCCGATCAGCTGACGGTCAGCGTCATCCCGCCCGAACTGCGGAAGGCGGTCCAGGAGTCAGGGAAAGACCAGTACTGGGCATCCACCGTCATCCCGGTCGGCGCCGAGGACCGGCCCGGCATCGCTGTGGGAAACAAAGTCACCTTCAACGGCACGGTCTATGAGCTCTACCTGATTTACGATCTCAACACCGCCCAGCAGACCCTCGACGAAATCCAGAGTGTGCTGTGGGCCGGCGGCGCCGTGCTGGTGCTCATGATCGGCGCCATCGCCTGGTATGTCACACGAAATGTGGTCAGCCCGGTCAGCCACGCTGCCCTGGTGTCGGAAAAGCTCGCCGCCGGGCAGCTCCAGGAGCGAATGGTGGTCAAGGGCGAAGATGAAGTGGCCCGCCTGGGAGCGTCGTTCAACCATATGGCAGCCAGCCTCCAGGAGCAGATCACCCAGCTGGCCACACTGTCCCAGATGCAACAGCGCTTCGTGTCGGACGTATCCCACGAGCTGCGTACTCCGCTGACCACTGTGAGGATGGCCGCCGAGGTCCTGTACGACGCCCGCCACGATTTCGACCCCATCAACAAGCGCTCCGCTGAACTCCTCTATAACCAGGTCGAACGGTTCCAGTCCCTCCTTTCGGACCTGCTTGAGATCTCGCGCTTTGATGCCGGCGTGGCCATGCTCGACGCTGAACCGGAGGACATCCTGCAGGTCGTTGCCCACGTTATTGAAGGAGCCGCACCGGTGGCGGCTCAATACGGTTCCGAAATTACTCTCAGTGCACCCGCCGGAGGCATCGTCGTGGAAATGGACGCCCGCCGGATCGACAGGATCCTGCGCAACCTGATCCTCAACGCTGTGGAGCACGGTGAGGGCAGACCCGTCAACGTCACTGTCGCAGCCAACCAGACCGCCGTCGGAATTGCCGTCCGGGACCACGGCATCGGCATGGCTCCGGCCGAGGCAGCCCGCGTTTTCGACAGGTTCTGGCGGGCGGATCCGGCCCGCGCCCGGACCACGGGAGGAAGCGGCCTTGGCCTGTCCATTGCCATGGAGGATACGAAACTCCATAACGGCTGGTTGCAGGCCTGGGGCAATAAGGGCAAGGGAGCCAACTTCCGGCTCACGGTTCCCCTCCGGCAAGGCGAGGAAATCGACAAGTCTCCCGTGCAGCTGGAACCGGAAGACATAGTCCTGCCGGGTGTGCCCCAAGAGAGGGACGTGCTGGTCCTGGGTCCAGCACCTACTGCTGCTTCTTCTGCCAAAGGTGACGCACCAGCCCCTGACGGTGTCCCGGGATCCATGCATGCCCCCGATGACTCCCACGCTGAAACCCAGCGCGGAGTCGGCCATGAACCGGCCACACAGCGCCCGGCGCTCACTGCCGGCCCCAAGGACAAGCCATGA	MVSATKQVPDPSGAENGRAPDASAAQQAGHVPEHHSAPEHTDALAAAGLSELPFRARIWKRRTLIVSLRVARLVRIGLSRVFPAIRYLARSLHRRWRRSLQFRTVLTTLLLAVTSFAVVGAYLSNQIANNLFQERLTQAESETRYNVKQVQDTFDGAQVTDQSSVITLVYDTLTAVEGRGDVIQRRYVFEAMPQQTKPRNRWVESRASDQLTVSVIPPELRKAVQESGKDQYWASTVIPVGAEDRPGIAVGNKVTFNGTVYELYLIYDLNTAQQTLDEIQSVLWAGGAVLVLMIGAIAWYVTRNVVSPVSHAALVSEKLAAGQLQERMVVKGEDEVARLGASFNHMAASLQEQITQLATLSQMQQRFVSDVSHELRTPLTTVRMAAEVLYDARHDFDPINKRSAELLYNQVERFQSLLSDLLEISRFDAGVAMLDAEPEDILQVVAHVIEGAAPVAAQYGSEITLSAPAGGIVVEMDARRIDRILRNLILNAVEHGEGRPVNVTVAANQTAVGIAVRDHGIGMAPAEAARVFDRFWRADPARARTTGGSGLGLSIAMEDTKLHNGWLQAWGNKGKGANFRLTVPLRQGEEIDKSPVQLEPEDIVLPGVPQERDVLVLGPAPTAASSAKGDAPAPDGVPGSMHAPDDSHAETQRGVGHEPATQRPALTAGPKDKP				NA	NA	NA	NA	NA
D1-29_03223	675	mtrA	COG0745	DNA-binding response regulator MtrA	ATGAAGGCACGCATCCTGGTAGTTGACGACGACGAAGCGCTGGCCGAAATGATTGGAATTGTCCTCCGTAACGATGGCTTCGAGCCGGTGTTCTGCGCCGACGGCGGCCAGGCGCTTGACATCTTCCGTTCATCCAAGCCGGACCTCGTACTGCTTGACCTCATGCTTCCTGGTGTGGACGGCATTGAGGTCTGCCGGCAGATCCGTTCCGAATCAGACGTGCCCATCGTCATGCTCACTGCCAAGGCGGACACGTCCGACGTCGTCCGCGGCCTGGAATCCGGGGCTGACGATTACGTACCCAAACCGTTCAAGCCGGCCGAGCTTGTCGCCCGCGTCCGCGCACGGCTGCGTCCAGGAGACCAGAAAGCTCCTGAAACACTTCGGATCGCGGACATCACCATTGACGTGGCCGGCCACACGGTAAGCCGCGGTGACGAGCGCATCTCCCTGACTCCGCTTGAATTCGACCTCCTCGTTGCCCTTGCCCGCAAACCCTGGCAGGTGTTCACCAGGGAACTGCTGCTTGAGCAGGTGTGGGGATACCGCCATGCCGCGGATACGCGGCTGGTCAACGTCCATGTCCAGCGCCTCCGGTCAAAGATTGAACGGGATCCGGAAGCCCCGGAAGTAGTATTGACGGTTCGTGGTGTCGGCTACAAAGCAGGTTCCTGA	MKARILVVDDDEALAEMIGIVLRNDGFEPVFCADGGQALDIFRSSKPDLVLLDLMLPGVDGIEVCRQIRSESDVPIVMLTAKADTSDVVRGLESGADDYVPKPFKPAELVARVRARLRPGDQKAPETLRIADITIDVAGHTVSRGDERISLTPLEFDLLVALARKPWQVFTRELLLEQVWGYRHAADTRLVNVHVQRLRSKIERDPEAPEVVLTVRGVGYKAGS	PGPT0002675_778	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776	NA	NA
D1-29_03224	1320			hypothetical protein	ATGCAGAGGCCGCGCCAGCCCAGTGCCGATCAGCAGCCCTGGGGGCAGCCAGCCGATTCCGGCCAGCCCGGCGCCGCCCAGCAGCCATGGGCTCCGGGGCCTGGTCCGGCAGTACCCGGGTGGGCGGCCGGCCCGGCAGCACCCGGTTCGCAGCAGCCGTGGAGCGGACAACCGGTCTGGGGTCCCCCGCCCGGTTCCCAAGATGCCCCGTGGGGCGCCCCCCAGCCTGGCCACTACGGCGGCCCGTCTCCTTATCGGCAGCACTATGTCGCCCCTCCCAAGCCCGGCATCATTCCCTTGCGTCCCCTGATGTTCGGCGAAATTCTGGACGGCTCTTTCCAAACGATCAGGCGCAACGCCAAGGCAATGCTGGGAGCTTCCCTGCTGGCGCAGTCCCTTGCCGCCGTGCTGACAGCCGTTCTTACCGCACTGTCCGCCACCTCCGGCGGATTTTTGCAAACGTGGGCTGAGGGCCTCAGCCGGGAGCAAATGCTTTCCATCGGGATCGGCTCGGCAGCCGGGTTACTCCTTTTCAGCGTCCTGACGGTGCTCATTTCCGCTGTACTCCAGGGTGCCATGGTGGTACCCGTGGCGCGGTCCGTCCTGAACAGACGCACCGGATTCCGGCAGATGTGGGCCCTCGCGAAGTCCCGCGCCGGTGCACTTATCCGGCTTGCGTTCCTGCTCCTTCTGGGCGCATTGACCGTTTTACTGATTTTCGCGGCCTTCGCCGTGGGGCTGATCAGCTCCGTGGGTCCCGCCGGAGGCCTGATTCTGTTCCCGCTCGGCCTTGCGCTCTTTGTGCTCCTGATGTGGGTGTACATCAAGCTGATGGTGGCGCCGGCAGCAATTGTCATCGAAGAGCTCGGGGCCAGGGAAGGTTTGCGCCGGTCCTGGGAACTGACGCGGGGAAACTGGTGGCGGATCCTCGGAATCACACTGGTAGTGGGGTTTATGGTCGGGATCATCGCCCAGGTGGTGATGATCCCGGTCAGCCTGCTTTCAACCTTTTTCACGAGCGTAGTTTCTCCTCACGGCGGCCCCGGGCAGGCGATCTCAGCGGCAGTGACAGTGGGGGTTGTGACGGCCATCATTGGTGCGCTGGTAGGTGCCGTGGGCTACGCCTTCCAGACCTCGGTCATGGCTCTGCTCTATCTGGATCTCAGGATGCGCAAGGACGGCCTGGACATTTCGCTGCTCCGGCTGCTGGAGTCGGGCGCCGACGCTGATGGTGTTCCCGGCCGCGGTGTTCCGGTGTACAGGAATGCACCCGGTTACGGTGCACCATCTGCCTACGGGACCCCGCCGGATGTCCGCTGA	MQRPRQPSADQQPWGQPADSGQPGAAQQPWAPGPGPAVPGWAAGPAAPGSQQPWSGQPVWGPPPGSQDAPWGAPQPGHYGGPSPYRQHYVAPPKPGIIPLRPLMFGEILDGSFQTIRRNAKAMLGASLLAQSLAAVLTAVLTALSATSGGFLQTWAEGLSREQMLSIGIGSAAGLLLFSVLTVLISAVLQGAMVVPVARSVLNRRTGFRQMWALAKSRAGALIRLAFLLLLGALTVLLIFAAFAVGLISSVGPAGGLILFPLGLALFVLLMWVYIKLMVAPAAIVIEELGAREGLRRSWELTRGNWWRILGITLVVGFMVGIIAQVVMIPVSLLSTFFTSVVSPHGGPGQAISAAVTVGVVTAIIGALVGAVGYAFQTSVMALLYLDLRMRKDGLDISLLRLLESGADADGVPGRGVPVYRNAPGYGAPSAYGTPPDVR				NA	NA	NA	NA	NA
D1-29_03225	660			hypothetical protein	ATGTCCGCTGAACCTCCGGTGCTTCCAGGCCGTGATGAAGCCCGGCGCTGGGCGACAGAAGAACTTGCCAAGCCCGAGTACCGCGGCGCGGAGCCGGGGTGGCTGGATAGCGTTTGGGAAGCCATTCTTGACTGGTTGCAGTCCTTGGACGGCTCCTCCTCCGGCGCAGACAACACTCCGGTGGCTCCACTGATCGGAGTGGGGATTGCCGTGATGATAGCGGTCGCCATCATCCTCGCCCGTCCCCGCCTCAACGCCAGGTCAAAGGCCGAAAAGGACATGTTCGACGCCGACACCACCGTGAGCGCGTCGGAGTACCGCTCGCGCGCAGCGGCGGCAGCGGCCGCGGGCGACTGGAGCGCCGCCGTCGTTGACTCTTTCCGCGCGCTGGTGCGCACCGCGGAGGAGAGAAACATCGTGGACGCCCGGCCCGGCCGAACCGCGGACGAAGTGGCGGGCGAACTGGCTGTTGCCTTCGGGGCCGAAGCGCAGCGCCTCGCCTGGGCTGCCCGCACCTTCGACGGGATCCGGTACGGCAAGGAAGCCGGAGAGCCCGGCGCCAATGCCGGAATGATGGCCTTGGACTCTGCCCTGCAATCGCTCAAACCTGCCAGGACTGACGCTTCGACGGATCAGACGGATCCGGCGGTCATGCTGTGA	MSAEPPVLPGRDEARRWATEELAKPEYRGAEPGWLDSVWEAILDWLQSLDGSSSGADNTPVAPLIGVGIAVMIAVAIILARPRLNARSKAEKDMFDADTTVSASEYRSRAAAAAAAGDWSAAVVDSFRALVRTAEERNIVDARPGRTADEVAGELAVAFGAEAQRLAWAARTFDGIRYGKEAGEPGANAGMMALDSALQSLKPARTDASTDQTDPAVML				NA	NA	NA	NA	NA
D1-29_03226	1212			putative membrane protein	GTGACTGAAGACCTGAAGACTCAGCACCTGGCTGCCAGTGAATTAACGGCCAGTCCGGCAGTAAACCCGACCCTCCGCGGAAAGGCCGGTTCATGGATCCGGCGGCACCGCGGCTGGGCAGCGATCGGTGCCGTGTTCGCCGTCGGGCTGGCGGTTGTCATCTCTGCACAGCTTGCGCCAAAAGGTGACACGGTCCCCTTATCTGTCCACAACGTGGGGCCAAACGGAGCCCGGGCAGTCAGCGAAATCCTAGGCCGGCATGGGGTGACGGTCAGGGACGCCCGGTCCTATACCTCCGCCCTGGACTCCTTGGCCGCGAACCCCGGGGCAACGCTCCTGCTGTACGACCGGAGCGGCCTCCTGGACGAGGAACAGCTCAAGAGGCTCACTGGAGAAGCCCGGCGGGTGGTGGTAGTTACGCCGCGGCTCAACACACTCTCCGCCCTGGACAGCGGAATCAACCAGGCCGGTGTGGTCCCGGAGGCTGCCCCCACGCTGGAGCCCGGCTGCCCGCAGGCGGACGCGGAAACGGCAGGCACGGTATCCGGTGAAGACGGGTTCCTGTACGACGGCGATGAAGTCTGCTACCGCCCGCCAGGATCGGCCGCGGGGATGCTCGCCTCCACCCGGGACGGGGCCCTGACAGTCCTGGGCAACACCGCCCTGATCAATAATCAAGGGCTGGATGAGTACGGCCACGCCGCCCTTGCCCTCCGGACAGTGGGAGGCTCCAAGGACCTGGTCTGGTACCTTCCCGGGTTGGCCGACGCCAACGGCGCGGACTCGCCGGCCACGCTCGATGACCTCGCTCCGGAGTGGGTTCGGTTCCTGGGGCCTTGGCTGGCCTTTATCGCCATCCTGGCCATCATCTGGCGTGGACGCCGCCTTGGCCCGCTCGTCTTTGAGCCGTTGCCGGTTGTGGTTAAGGCGGTAGAAACGGCGGAGGGCCGCGCCCGGCTTTACCACGACTCCCACGCCATAGACCGGGCACGGGATAACCTGCGGGCCGGGACTCTTGTGAGGCTGGCCAAGGACCTTCGATTGGGCTCAGACGCGAGCGCCGAAGACGTCGCCGGGGCCGCGGCCCGGCACCTGGGCCGTCCCGACACCGGGATCAGGGAACTGTTGCAGGAACATCCAAGGAATGAAGCCAGACTGGTGCAATGGTCCCAGGAGCTGGAGAAATTAGAGAACGAGGTGAGGACCCGATGA	MTEDLKTQHLAASELTASPAVNPTLRGKAGSWIRRHRGWAAIGAVFAVGLAVVISAQLAPKGDTVPLSVHNVGPNGARAVSEILGRHGVTVRDARSYTSALDSLAANPGATLLLYDRSGLLDEEQLKRLTGEARRVVVVTPRLNTLSALDSGINQAGVVPEAAPTLEPGCPQADAETAGTVSGEDGFLYDGDEVCYRPPGSAAGMLASTRDGALTVLGNTALINNQGLDEYGHAALALRTVGGSKDLVWYLPGLADANGADSPATLDDLAPEWVRFLGPWLAFIAILAIIWRGRRLGPLVFEPLPVVVKAVETAEGRARLYHDSHAIDRARDNLRAGTLVRLAKDLRLGSDASAEDVAGAAARHLGRPDTGIRELLQEHPRNEARLVQWSQELEKLENEVRTR				NA	NA	NA	NA	NA
D1-29_03227	996			hypothetical protein	ATGAACGAACACAGCAGCGGCCAGCAAATCCTGGATTCCCTGCAGCATGATCCCGCCCGCCAGGCACTCCTTGACGTCCGTAATGAGGTGGCCAAAGCCGTGGTGGGTCAGGACCCCACGGTCACGGGACTGCTCATTGCACTGCTCTCGCAGGGCCATGTGCTCCTGGAGGGCGTGCCCGGCGTGGCCAAGACACTGTTGGTGCGTGCCCTGTCCGCCGCGCTGAGCCTTGACACCAAACGCGTCCAGTTCACTCCTGACCTGATGCCGGGCGACGTGACGGGCTCACTGGTCTATGACGCGCATACGTCCGAGTTCAGCTTCCGGGAGGGTCCTGTCTTTACCAACATCCTGCTGGCTGACGAGATCAACCGCACTCCACCTAAAACCCAGGCATCCCTGCTGGAGGCGATGGAAGAGCGGCAGGTTTCAGTGGACGGCGTCTCGCGCCCGCTGCCGGCGCCTTTCCTGGTCGCGGCAACCCAGAACCCGGTGGAATACGAAGGAACCTATCCCCTGCCCGAAGCGCAACTGGACCGCTTCCTGCTCAAGCTCACCATGCCGCTGCCCAACCGGAACGACGAGATGGAAGTGATCCGGCGGCATGCTTCCGGGTTTAATCCCCGCGACCTCGCGGCAGCGGGGGTCCGGGCGGTGGCAGGAGCCGACGACCTGGACCGTGCGCGGCAAGCCGTGGCGAGAGTGGCCGTGGAGCCGGAAATCATTGGCTACATCGTGGACCTGGTCCGGGCAACGCGGGCCGCGCCGTCGTTCCAGCTGGGGGTCTCGCCCCGCGGAGCAACTGCACTGCTTAATACATCCCGGGCCTGGGCCTGGCTCTCCGGCCGGAGCTTTGTCACTCCCGACGACGTCAAAGCCCTCGCGCTGCCCTGCCTGCGGCACCGGGTGGCATTGCATCCGGAAGCCCAGATGGACGGAGTCCGGGTGGACGATGTGCTGGGGAGCATCCTCGCCTCCGTTCCGGTCCCCCGCTGA	MNEHSSGQQILDSLQHDPARQALLDVRNEVAKAVVGQDPTVTGLLIALLSQGHVLLEGVPGVAKTLLVRALSAALSLDTKRVQFTPDLMPGDVTGSLVYDAHTSEFSFREGPVFTNILLADEINRTPPKTQASLLEAMEERQVSVDGVSRPLPAPFLVAATQNPVEYEGTYPLPEAQLDRFLLKLTMPLPNRNDEMEVIRRHASGFNPRDLAAAGVRAVAGADDLDRARQAVARVAVEPEIIGYIVDLVRATRAAPSFQLGVSPRGATALLNTSRAWAWLSGRSFVTPDDVKALALPCLRHRVALHPEAQMDGVRVDDVLGSILASVPVPR				NA	NA	NA	NA	NA
D1-29_03228	1293			hypothetical protein	ATGGCGATCTCCGGACGCTTTGTACTGCTGGCACTGCTTGGCCTGGCGCCGGTGCTTCTGATGCCCGGTTGGGGAACTGTCCTGGCCGTGGTCCTGGTCCTCGCCGCGCTGCTGGCTCTGGAACTCGGCCTTGCCGCTTCCCTCCGCAGCATCGACGTGCAGCGCTCTGAACCCGGAAATGTGGCCCTGCACGGCACCGCAGTATCCAGCCTCACCGTCCGCAATAACGGCCGGCGCCTCCTCCGTGCCAGGGTCCGCGACGCCTGGCAGCCCTCCGCCGGCGCACAGAACCCCGTGCAGGAGATCGACGTTCCGGCCGGCGAAAGCCGCAAGTTGGCGGTGCGGCTGAGGCCGGTCCGCCGCGGGGACCTGCGTGCCCCGCACGTGACGTTGCGGTCGCAAGGTCCGCTTCGGTTGGCGGCCAGGCAGCGCACGGTTGAATGTCCCGGCTCCATCAGGGTCCTTCCGCCGTTCAACTCCCGCCGGCATCTCCCGTCCAAGCTCCGGAAGCTGCGTGAACTGGACGGCAAGGCCGCGGTGCAGATCCGGGGCGCAGGCACGGAATTCGATTCCCTGCGTGACTACGTCCGCGGGGACGACGTGCGTTCCATTGATTGGAGGGCAACAGCACGCCGCTCTGCCGTCGTCGTCCGCACGTGGCGGCCGGAGCGCGACCGGCGGGTGGTGATCATCCTGGACACCTCCCGGACATCAGCGGCCCGGATCGAGGACGAGCCACGGCTGGATACCGGTATGGAAGCGGCCCTCTTACTGGCGGTGCTGGCCGAACGTGGCGGTGACAGGGTTGATTTCCTCGCCTTCGACCGCCGCCCGCGGGCCAGGGCAGGATCGGCCACCACCGGCAATCTCCTGGGCCAGCTGGTGCAGGCCATGGCCCCGCTGGATGCGGAACTGATCGAGCTGGACTGGTCAAGCATCCCGGGCCAGGTCCGTGGGGTCTCGGCGCACCGTTCCTTGGTGGTGTTGCTGACATCGCTGGATGGCGGAGCGCCGGAGGAAGGGCTCATTCCCGTGGCTGCACAGCTGGCGCAGCAGCACGTGGTGGTGGTGGCGTCCGTCCGGGATCCGCTGCTCGGCCTGATGTTGCGGGAACGGCACAACGCGTCCAGCGTTTTTCGTGCGGCAGCGGCGGAACGCACCCTGCTGGAGCGTGAGGCCGTCAGCAGCCAGCTGCGCCACCAAGGGGTGGAGGTGGTGGATGCTGAACCGCATCAGTTGCCGCCGCAATTGGCCGACATGTACATCCGCCTCAAGGCTGCCGGTAGATTGTGA	MAISGRFVLLALLGLAPVLLMPGWGTVLAVVLVLAALLALELGLAASLRSIDVQRSEPGNVALHGTAVSSLTVRNNGRRLLRARVRDAWQPSAGAQNPVQEIDVPAGESRKLAVRLRPVRRGDLRAPHVTLRSQGPLRLAARQRTVECPGSIRVLPPFNSRRHLPSKLRKLRELDGKAAVQIRGAGTEFDSLRDYVRGDDVRSIDWRATARRSAVVVRTWRPERDRRVVIILDTSRTSAARIEDEPRLDTGMEAALLLAVLAERGGDRVDFLAFDRRPRARAGSATTGNLLGQLVQAMAPLDAELIELDWSSIPGQVRGVSAHRSLVVLLTSLDGGAPEEGLIPVAAQLAQQHVVVVASVRDPLLGLMLRERHNASSVFRAAAAERTLLEREAVSSQLRHQGVEVVDAEPHQLPPQLADMYIRLKAAGRL				NA	NA	NA	NA	NA
D1-29_03229	714			hypothetical protein	GTGAACGTTCCCATCTATCAGCAGGCCCTGGGCCAAGACTTCAACAGGCTGCAGCCCGAGCTCCAGGACTACTTTTCCCTTGTGCCGGGCTCGGGCCAGTACGGAGTAGGCGAGGGTGTTTTTGACGTGGTGGGTTGCCGGCAGCGCTGGCTGAGACCCCTGTTACGGCTCACGTCCCCGGAGGAGGCGTTCTTCCCGGAATATGGTGAGGGCATTCCATTCAGGATCGAAAACCATGCGCATCTGGATCCTTTCGGACGCTCCAGCCTTACGGCCAGGCGGGAGATCAGGTTTCCCTCCCGGACCCGCATTTTCCAGGACACCACCAGTGTGGACCAGGGTGAAGGCGTTCCGCGGCTGGTGGATTATGTGGGCCGCTACCGGCGTTTGGTCACCGACCTTAACCTCAGCGTCACGGCTGAAGGCCGGCTGCGTGGCATCTCGGATGCCTCCCGGTTATTCCTCGGACCCCTCCGCCTGCCCCTGCCGCCGTCGTTTGATGCGAAGGCGTACGCGGAGCAGTGGTGGGACGCCTCGGAGGGGGCCCACGGAAAGCACCGGATCCAGGTTAAGGTCATCCAGCCGCAGATCGGGCTGGTCCTGGTCTATGCGGGAAGCTTCGACTACCGGTTGCGCCCGTACTCCGGTGGCAGCTCCGCCCTGAGCTTCCTGCCCCGCTATGCCCAGCCGGACCGTTGGGAGCGCCGGACCTAG	MNVPIYQQALGQDFNRLQPELQDYFSLVPGSGQYGVGEGVFDVVGCRQRWLRPLLRLTSPEEAFFPEYGEGIPFRIENHAHLDPFGRSSLTARREIRFPSRTRIFQDTTSVDQGEGVPRLVDYVGRYRRLVTDLNLSVTAEGRLRGISDASRLFLGPLRLPLPPSFDAKAYAEQWWDASEGAHGKHRIQVKVIQPQIGLVLVYAGSFDYRLRPYSGGSSALSFLPRYAQPDRWERRT				NA	NA	NA	NA	NA
D1-29_03230	1074			hypothetical protein	GTGAGGGTGAACAGCCGCCAGGAGCCGGAGCGGGACCTGCCACATGATCTGAAGGCGCCGCCGTCGGAGGTCACTGCCACCGGCTTGGGCTCCTGGCCGGGGGAGGACCCCTTAGAAGCCGCCCGTATCATCCGTGGTGAACTCGGCAGCCCGCACATGCCCTACCTCGCCGAACTGCCGGACCGCGGCGTGGGTTCCGATGCTGTGGGGCGGACGGCTTCACTCCTGGTGGAGATGGCGGTTGACGTCCAACCTAATGGCTGGCGCCTCGTTGACCGCCCCGGCAAGGACTATCGGCGCGCTGCATCCGCGCTGTCCACAGACATCAATGTCCTGGCGGACGTTGCCGGCGCCGAGGAAAGGCCAGCATCGGAAATCAAGGTGCAGTTGCTGGGGCCCCTTAGCCTCGCCGCCGGACTGCACCTCCACAACGGAGAACGGGCCCTCATCGATTATGGGGCCCGCCGTGACGTGGCGGAGTCACTGGCTGCCGGGGTCGGATCGTACCTGGCACGTGTTTCATCGGCAGTCCCCGGTGCCCGACTGGTGGTCCAGGTGGACGAGCCGGACATCGCCGCCGTCCTCGCCGGCACCATTCCGACATCAAGCGGTTACCGCACGCTGCGCGCGGTAGGAGGACAGGAAGCCATTGAATCCTGGCGCGTGGTGATTGAGTCGCTTCGTGCAGCCGGAGCCGCTGAAATCGCCGTTGCAGTTCCCGAAATTGAGGCACCGTTCGAACGGATCCTTGCTGCCGGGGCTGACGCCATAGCCGTCCCCCTCAAGGCCCTGACCTCCCGCCAGTGGGAGCAGCTTGCCGAAGCCCTGGAAGGCGGAACCCGGCTCTGGGCCGGCGTATTGGATGTTGGCGTGGGCACACTACCCAAGGTGGCCGGCGCAGTGGACTCGGTCTGGCGGCCATGGCACGAACTGGGCCTGCCGGCGTCGACACTCAGTACATTGCGGGTGACACCCTCGGCAGGGCTCGCAGGCCTGACACCGTCAACGGCAACCGCGGTGCTTACCCGATTGACCCAGGTGGTTGACGGGCTGAACCAGGTGGCGCAGGGCTAA	MRVNSRQEPERDLPHDLKAPPSEVTATGLGSWPGEDPLEAARIIRGELGSPHMPYLAELPDRGVGSDAVGRTASLLVEMAVDVQPNGWRLVDRPGKDYRRAASALSTDINVLADVAGAEERPASEIKVQLLGPLSLAAGLHLHNGERALIDYGARRDVAESLAAGVGSYLARVSSAVPGARLVVQVDEPDIAAVLAGTIPTSSGYRTLRAVGGQEAIESWRVVIESLRAAGAAEIAVAVPEIEAPFERILAAGADAIAVPLKALTSRQWEQLAEALEGGTRLWAGVLDVGVGTLPKVAGAVDSVWRPWHELGLPASTLSTLRVTPSAGLAGLTPSTATAVLTRLTQVVDGLNQVAQG				NA	NA	NA	NA	NA
D1-29_03231	462			hypothetical protein	ATGACGCAGCACAACCATGACGTTCCTGACACCGAAGCCTACGACGCCGGGGCCAGCTCGCTGGCAGGCCAGGTGGATAATTCGGTAATGGCGGAACTGCTGTCCATCCGCTCCAGCATCGACAACATCGATGCCACCTTGGTGTTCCTCCTGGCGGAACGGTTCAAGGCCACCCAAAAAGTGGGCTTCCTGAAGGCAGCCCACCGCCTTCCTGCAGGAGACCCTGGCCGTGAAACCGCGCAAATAGCCAGGCTCCGCCGGCTTGCTGAGGAAGCACACCTTGACCCGGCGTTTGCCGAGAAATTCCTGAACTTCATCATCGGCGAGGTCATTCGCCATCATGAAGCCATCGCCGAAGACCATGAGGCCGCCGCGGGGAGGCAGGACGCAGAACAGGACGCGTCCCAGGCATCCCAGGGCTCGGCAGTATCTCCCGGCCCGCAAGCCTCCGCCGTAGCGTGA	MTQHNHDVPDTEAYDAGASSLAGQVDNSVMAELLSIRSSIDNIDATLVFLLAERFKATQKVGFLKAAHRLPAGDPGRETAQIARLRRLAEEAHLDPAFAEKFLNFIIGEVIRHHEAIAEDHEAAAGRQDAEQDASQASQGSAVSPGPQASAVA				NA	NA	NA	NA	NA
D1-29_03232	1131	mnmA	COG0482	tRNA-specific 2-thiouridylase MnmA	ATGAGCGGCGGAGTCGATTCCGCCGTAGCCGCAGCACGTGCCGTTGAAGCCGGACACGACGTCGTCGGCGTTCACCTTGCGTTGTCACGGATGCCTGGCACCCTCCGGACAGGCAGCCGCGGCTGCTGCACCATCGAGGATTCACGGGATGCCTGGCGCGCCTGCGACGTCTTGGGAATCCCCTACTACGTCTGGGATTTCTCCGAGCGGTTCAAGGAAGACGTAGTCCAGGACTTCATTGACGAGTACGCCGCTGGCCGTACTCCCAACCCCTGCATGCGCTGCAACGAGCGGATCAAGTTCGCCGCGCTGCTGGAAAAGGCCATAGCACTCGGATTTGATGCCGTCTGCACGGGCCACTATGCCAAGGTGATCACGGACGGGGCAGGAAACCCCGAGCTGCACCGTGCCGCCGACTGGGCAAAGGACCAGAGCTACGTCCTGGGAGTACTCACCCACGAACAGCTCAGACATTCAATGTTCCCGCTGGCAGACACCCCGTCCAAGGCAGAGGTTCGAGCCGAAGCCGAGCGCCGTGGCCTCTCCGTGGCCAACAAGCCTGACAGCCACGACATCTGCTTCATCCCGGATGGCGACACCGCCGGTTGGCTGGCCGAGAAGATCGACATGACCACCGGTGACATCGTGGATGAGACCGGCACGAAAGTGGGAGAGCATCCGGGGGCAAACGCCTTTACTGTTGGCCAGCGCCGCGGCCTGAAGCTCGGAACGCCTGCCTCTGACGGCAAGCCCCGATTTGTGCTGGAGATCCGGCCGAAGGAAAACAAGGTTGTGGTGGGGCCCGAAGCCCTGCTGGCCATTGACGAGATCCGTGGGATCAAGGTGTCCTGGGCCGGACTGCCCATCGCCGAGGTGGAAACGGGCGCAGAGTTCGACTGCCATGCCCAGGTGCGTGCGCACGGCGACCCCGTTCCGGCCACGGCACGAATGGTGCCTCCAGCAGACTCAGGAGCAGCAACAGAAGGTGTGGCGAAGCAGCTGCTGGTTACGCTGACCAACCCGCTCCGGGGCGTGGCTCCCGGACAGACTGTGGTCCTCTACCAGGGCACCCGGGTGCTGGGACAGGCAACCATCGACGCCGCCCGCTCATTGCAGCGCGCTGAGCTCTAA	MSGGVDSAVAAARAVEAGHDVVGVHLALSRMPGTLRTGSRGCCTIEDSRDAWRACDVLGIPYYVWDFSERFKEDVVQDFIDEYAAGRTPNPCMRCNERIKFAALLEKAIALGFDAVCTGHYAKVITDGAGNPELHRAADWAKDQSYVLGVLTHEQLRHSMFPLADTPSKAEVRAEAERRGLSVANKPDSHDICFIPDGDTAGWLAEKIDMTTGDIVDETGTKVGEHPGANAFTVGQRRGLKLGTPASDGKPRFVLEIRPKENKVVVGPEALLAIDEIRGIKVSWAGLPIAEVETGAEFDCHAQVRAHGDPVPATARMVPPADSGAATEGVAKQLLVTLTNPLRGVAPGQTVVLYQGTRVLGQATIDAARSLQRAEL				NA	NA	NA	NA	NA
D1-29_03233	1239	andAa		Anthranilate 1,2-dioxygenase system ferredoxin--NAD(+) reductase component	ATGGTGATCGTTGGTGCCGGGCTTGCCGGTGCCACGGCAGCACGGACCCTGCGTTCCGAAGGTCACACGGGCCCGGTCATCCTGGTTGGCAGCGAGCGCCACAACCCCTACATCCGCCCGCCGCTGTCGAAGGACTACCTGCTGGGCAAGGAAGGCGAAGACAAAGCTGCTGTGGTGCCGCCGGGCTGGTACGCGGAGAACGACGTCGACCTGCGCCTTGGCGTGTCAGTCACCGGCATACGTCCGGACGCAGGCACGGTGCAGCTTAACGACGGAACATCACTGCCGTACCAGTCTCTGCTGCTCGCCACCGGTGCGGTCCCCCGCACCATTCCGCTGCCGGGGAGCGAGTTCTCAGGGGTCACCACGTTCCGCACCCTCGATGACAGCCGCCGGCTGCGGCAGCTCCTGGACCAGGGCGGAAAAAACGTGGTGATGATCGGCTCCGGCTGGATAGGCATGGAACTGGCAGCCGCCGCGGCGACTTATGGCAACAACGTCACGCTGCTCGGCCGGGAAGACGTTCCGCTGGCCGCCGCCATTGGCCCCGAGTTGGGCGGCTTCTTCCGCTCCCTCCACCAAGCCCATGGCGTGAACTTCAGGCTTCCGGCATCAGCCCATGAACTCACGGGCACTGACGGCGCCGTCTCGGCAGTGGTCACCGACAGCGGTGAAGTCCTCCCCGCCGATGTTGTGGTGATTGCAGTGGGGGTTGTACCCGACGTCGGACTCGCGCACACCGCGGGGCTGAAAGTGGAGAACGGCATACTCACCGATGAGTCCCTGCGGACCAGCGTGACCGGCATTTTCGCGGCGGGCGATGTTGCCAACGCCCTGCATCCTTTCACTGGCCAGCACTACCGCAGCGAGCATTGGTCCAATGCCCTGACCGGCGGCAAGGTGGCAGCCCGGGCGATGCTGGGCCTGGATGCGGTTCACAGCGCCATCCCCTATTTCTATACTGACCAGTTCGACGTCAGCATGGAGTACTCGGGATTCCCCGATCTGGCCACCGGCACGAAACCGGTGATCCGGGGTTCGCTGGAGGCCAAGGAATTCATCGCGTTCTGGCAGCGAGACTCCCGGGTGGTAGCCGGAATGAGTGTCAACTGGCCCCGCACGTCAGGCCCGGCGCAGAAGGTCATCAAGGCCCTCATCACGGGCCGCCTCCAGGTGGCTCGGGAACGGCTGGCGGACGCCTCGGTGGGCTTGGATCAGATGCTGCTGCCGGAGGCCTGA	MVIVGAGLAGATAARTLRSEGHTGPVILVGSERHNPYIRPPLSKDYLLGKEGEDKAAVVPPGWYAENDVDLRLGVSVTGIRPDAGTVQLNDGTSLPYQSLLLATGAVPRTIPLPGSEFSGVTTFRTLDDSRRLRQLLDQGGKNVVMIGSGWIGMELAAAAATYGNNVTLLGREDVPLAAAIGPELGGFFRSLHQAHGVNFRLPASAHELTGTDGAVSAVVTDSGEVLPADVVVIAVGVVPDVGLAHTAGLKVENGILTDESLRTSVTGIFAAGDVANALHPFTGQHYRSEHWSNALTGGKVAARAMLGLDAVHSAIPYFYTDQFDVSMEYSGFPDLATGTKPVIRGSLEAKEFIAFWQRDSRVVAGMSVNWPRTSGPAQKVIKALITGRLQVARERLADASVGLDQMLLPEA	PGPT0019730_231	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
D1-29_03234	1233	iscS_2	COG1104	IscS-like cysteine desulfurase	GTGCCCGTCTACCTGGATCATGCAGCAACCACGCCTCTCTCCGCCGAGGCGCTGGCAGCTCTAACGCGGGAACTCGCCCGCACGGGCAACCCATCCTCACTCCACGGCTCGGGCCGCCGGGCGCGCCGTTCCGTCGAGGACGCCCGGGAAACCATTGCCGCGGCCGCCGGCGCCCACCCCTCAGAAGTCATCTTCACTTCCGGCGGAACCGAAGCGGACAACCTTGCCGTCAAGGGCCTCTTCTGGTCCAGGTCCGGTGAAGATTCCTCCCGGCGCCGCATCCTCTGCTCCGCCATCGAACACCCGGCCGTGCTGGATACGGTGGAATGGCTGGAGCGCCATGAGGGCGCCGTGGTCACCTGGCTGCCTGTGGACGCCGACGGCGTGGTGGACCTGGAAGTTCTCAGGTCCGAGCTGGAAAGGGAACCGGGAACGGTCGCTCTCGTGACGGTCATGTGGGCAAATAACGAAGTGGGCACCATCCAGCCGGTGCACAGGATCGTGGAGCTGGCCCACGTGGCGGGGGTGCCCGTCCATTCGGACGCGGTGCAGGCTTTCGGTTCCTTGCCCGTTGACTTCAAGGGCTCGGGCCTTGACGCCATGTCCATTTCCGGACACAAGATTGGCGGCCCTGTGGGGGTCGGCGCCCTGCTGCTGGGACGTGCGGTGAAACTCACCCCGGTGCAACACGGCGGGGGCCAGGAGCGGGATGTGCGTTCCGGGACACTGGACACCGCATCCATTGCCGCCTTTGCAGCGGCGGCGCAGACAGTCACCGCGAACCTGGCAACAGAGTCGGCCCGGATCTCCAAACTGCGGGACAGCCTGATTGAGGGTGTCCGGGGCAGCATCCCGGAGGTGGTCCTGCGCGGGGCCCCGGCGGAGGGGCGGCTTCCCGGCAATGCACACTTCACGTTCCCGGGCTGTGAAGGGGATTCACTGCTGTTCCTGCTGGACCTGGCAGGAGTGGAATCGTCCACCGGATCTGCCTGCACAGCCGGAGTTCCACGGCCATCCCACGTTCTGCTGGCCATGGGTTTGGATGAAGAGACGGCCCGCGGCGCCCAGAGGTTCACCCTCGGTCATGCATCAACCCCGGCGGATGTCGACGCCCTGCTGGCAGCCCTTCCCAACGCTTATGAGCGGGCGCAGCAGGCGGGCATGGCGGGGCGCGAATCCTCGATCCAGACGGCAGGTACGGTGGCCCGTCAGGCCTCCGGCAGCAGCATCTGA	MPVYLDHAATTPLSAEALAALTRELARTGNPSSLHGSGRRARRSVEDARETIAAAAGAHPSEVIFTSGGTEADNLAVKGLFWSRSGEDSSRRRILCSAIEHPAVLDTVEWLERHEGAVVTWLPVDADGVVDLEVLRSELEREPGTVALVTVMWANNEVGTIQPVHRIVELAHVAGVPVHSDAVQAFGSLPVDFKGSGLDAMSISGHKIGGPVGVGALLLGRAVKLTPVQHGGGQERDVRSGTLDTASIAAFAAAAQTVTANLATESARISKLRDSLIEGVRGSIPEVVLRGAPAEGRLPGNAHFTFPGCEGDSLLFLLDLAGVESSTGSACTAGVPRPSHVLLAMGLDEETARGAQRFTLGHASTPADVDALLAALPNAYERAQQAGMAGRESSIQTAGTVARQASGSSI	PGPT0000065_1125	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
D1-29_03235	663			hypothetical protein	ATGGGCAGACTTTCGTGGATGCGCCGTATGGCGGCAGTTGCATCGCTGGGCGATGACAAACGCCGGCAGCTGTTTGAATTAGTGGCTTCCTCCGCCGGGGCCGTGGGGCGCGATGAAGCCGCACTTGCCCTCGGACTGCCCCGAAGTACGGCGTCCTTCCATCTGGACCGGCTGGTCCAGGACGGGCTGTTGTCTGTCGAGTTCCAGAAGCCGGCAGGAAAAGCAGGCCCGGGCTCCGGCCGCCCGGCGAAAATGTATCGGACGGCTGCGCGGGAGGTAGGGGCCTTCGTCCCGGACCGCAACTACGACCTCGCGGGGGAGTTAATGGCCACCGCCATCGAGGAGTCTGTCGCAGCCGGGAGCTCCGTCCACGATTCGCTGGTGGCCACTTCCTACCGCAAGGGCAAGGCAATGGCGGAGGGCAGCGGAAGCCTGGAAGAGTTCCTCGCGGGGGAGGGCTATCAGCCTGCACCTGACGGAGAAGGCGGCTTCGTCCTGGTCAACTGCCCGTTCCATCGGCTCTCCGAGGGCCATGCCGCGGTGGTCTGTGCCATGAACGGAGCCTTCCTGACCGGCGCAGCTGCAGGCTGCGGGGATTCGGAGGAACGTGTGACGGCAAATAGCGTGCCCGGCCAATGCTGCGCCAGGATTACCCCGCCGTGA	MGRLSWMRRMAAVASLGDDKRRQLFELVASSAGAVGRDEAALALGLPRSTASFHLDRLVQDGLLSVEFQKPAGKAGPGSGRPAKMYRTAAREVGAFVPDRNYDLAGELMATAIEESVAAGSSVHDSLVATSYRKGKAMAEGSGSLEEFLAGEGYQPAPDGEGGFVLVNCPFHRLSEGHAAVVCAMNGAFLTGAAAGCGDSEERVTANSVPGQCCARITPP				NA	NA	NA	NA	NA
D1-29_03236	441			hypothetical protein	ATGAAAACCAACCCTGCAGCACGGACAGTCAGCCAAACGCCGGCGATGGAACCGGCACGGCAAGCCTTCCTGCTGCTGCGTACCGTTTTTACCGTCGCGCCCATACTTTTTGGGCTGGACAAGTTCACCAACCTCCTCACCGACTGGACTATGTACCTCGCCCCCGTGGCGACGTCAGTGGTGCCGCTGCCTGCGCAGACGTTCATGTACGTCGTCGGGGTTGTGGAAATCATCGCCGGCATCGCGGTGGCGGTCCGCCCGCGGTTCGGTTCCCTCTTGGTGGCCGTCTGGCTGCTCGGCATCATCGTTAACCTGCTGATCCTGGGCAGCTTCTACGATGTGGCGCTTCGGGACTTCGGTCTGCTCGTTGGAGCATTGGCCCTGAACCGGCTGTCCCCCGCCGGCACCCGCGGCCAGGGCCGCAAGCTCTGGCGCCGCTGA	MKTNPAARTVSQTPAMEPARQAFLLLRTVFTVAPILFGLDKFTNLLTDWTMYLAPVATSVVPLPAQTFMYVVGVVEIIAGIAVAVRPRFGSLLVAVWLLGIIVNLLILGSFYDVALRDFGLLVGALALNRLSPAGTRGQGRKLWRR				NA	NA	NA	NA	NA
D1-29_03237	675			hypothetical protein	GTGGAAGTGAAGGCACGGTCTGCAGCTGTGGTGGTGGTTGGTTCGCTGTTTTCGGCAGCAGCATTGACGGGGTGCAGCATTGACGTCCCCGATCCGGCCGCCCCGAAGACGGAGCAGACGGCGCCGGCCCTGGCCACTCCCACCATCACTCCTGGCCACGACGCGGCGGCGGTAGCGGCCAAAGACATGACGTTTGCTGCGGGCACCACGCTGGCGAAGGGTGTTCCGGTGGGGATCTCTGACGGACTGAAGGAAGCGCCGGGCTGGACGCAGGTCAAGGAAAACGCGGCTGGTGAGAGCCAGTACCTCAAGGCCGATGGCTGCCTCGTGGCCACCAAGGTCCGTATCGACCAGACGCCGCTGGTCCTGGCTGATGACCGGGCCTCCACCGCAGGCCTCTTCGAGTACTTGGACCCAAGCATCCTGCCCGAATACCTCAAGACAGAAACCCTCCGCTGGGGCGGTGAACCTGACAAACAAGGACCAAAGGTGGAGGTGCTGGCCCTTGAACAGCCAGCACCTCCGGGGGGAAAAGCCACAGCCATCATGGCAAGGCTCTTCGGCACTGCCGGTTCCTCCGTCTACCTTTCGGTCTCATGCCCCGACGCCGCGGCGCTCGCGGCTGCCCGTGCAGAGGCCTCCCAGCGGCTACTGATCGTCCCGCCGTCAAACTAG	MEVKARSAAVVVVGSLFSAAALTGCSIDVPDPAAPKTEQTAPALATPTITPGHDAAAVAAKDMTFAAGTTLAKGVPVGISDGLKEAPGWTQVKENAAGESQYLKADGCLVATKVRIDQTPLVLADDRASTAGLFEYLDPSILPEYLKTETLRWGGEPDKQGPKVEVLALEQPAPPGGKATAIMARLFGTAGSSVYLSVSCPDAAALAAARAEASQRLLIVPPSN				NA	NA	NA	NA	NA
D1-29_03238	966	dnaJ_1		Chaperone protein DnaJ	TTGACCGAGAGCAGCAGCTCCCACTACCAGGTGCTCCGCGTCGCCGTGACAGCCACCGACAAGGAGATCAAGGTGGCCTACCGCCGGGCGGCCCGCAAGGCCCATCCCGATCATGGCGGCGACGCCGCCGCCTTCCGCCGCGTGACGGCAGCGTATGAAACCCTTATCGACCCCAAACGCAGAAGTGCCTACGACCGCTCCTATGCCGCGGGAACAGCCGGCAACGGTTCCGGCGGCGAGGGTTCGGGGCCGCACTTCGACGCCCCGGCGGCAGGCAGTCATGCCTCGGCCACCGTCCACCGTCCCAATACTCCGCGCAACACCGCCGGTGATGCACCGGTCTACGTCCCGCCCTTTGACGCGGCGGCGTTTGATGCTGCGGGAACCGTCCCGCTGATACCCCTCAGCCAGGCAAGCCAGCAGGTCCATGGGATTCCGCGAAAACGGGGCATCTTTGGGGCCGAGGCACGGATCCAGCGTGAGATGCGCACCGTGCAGCTCATCAGCCGGCAGGTTCTGCCCGCAATTCCAGCGGCACGCCTGATCAACGGGCTGCAGTCACCGGCGGACAACAGCCACATCGACCACGCCCTCCTTTCCGGCTACCGGCTTGCCATCATCGGTTCCATGCTCCTGCCCAAGGGCGCCTACGCCTGGGACGGGCAGGCCCTGCACCACGGCGGACGCTCCATCGCCCCGCCGCAACTGGCCCACGTGGTGCGGGCCATGCAGGAGATCTTTCCAGAGTTGAACGTCACCGGCTGGACAGTCATCCACAGCCCCGACGGGAACCTGCATGAGCCCGTCATCGATCGCCACCGGCGTTCCGGCAGCAGCCACGAGATCGTCCAGGTGGTCAACGCGGCCGGACTGGTCCGCGGCCTCAAGCAGTTCCTTTCCTCCGGTCCCGCGCCGAACACCGTCAACGTGCCCGTATTGGCTCGGCTTTTGCGGGGCATGCACTGA	MTESSSSHYQVLRVAVTATDKEIKVAYRRAARKAHPDHGGDAAAFRRVTAAYETLIDPKRRSAYDRSYAAGTAGNGSGGEGSGPHFDAPAAGSHASATVHRPNTPRNTAGDAPVYVPPFDAAAFDAAGTVPLIPLSQASQQVHGIPRKRGIFGAEARIQREMRTVQLISRQVLPAIPAARLINGLQSPADNSHIDHALLSGYRLAIIGSMLLPKGAYAWDGQALHHGGRSIAPPQLAHVVRAMQEIFPELNVTGWTVIHSPDGNLHEPVIDRHRRSGSSHEIVQVVNAAGLVRGLKQFLSSGPAPNTVNVPVLARLLRGMH				NA	NA	NA	NA	NA
D1-29_03239	468	trmL	COG0219	tRNA (cytidine(34)-2'-O)-methyltransferase	GTGTTCCGTATCCTCTTCCATGCACCCGAAATCCCCGGCAACACCGGCAACGCCATCCGGCTGGCGGCCATCACCGGCGCCGAGCTGCACCTGGTGGAACCCCTTGGCTTTGATTTTTCAGATGCCAAACTCCGCCGGGCTGGTCTCGATTACCACGACCTTGCCGTGGTCACCGTCCACAAAACGATCGAGGATGCCTGGCGGCACCTAGACCCGGACCGCGTGTACGCGTTTACGTCCGACGGGCAGGCGAGCTACACGGACATAGAATACCGTCCCGGCGATGTCCTCATGTTCGGCCAGGAGTCCGTGGGGCTCCCGGAGCACCTCAAGCGGGATTCGCATGTCACCGCCACTGTCCGGCTCCCGATGCTCCCGTCACTGCGGTCGCTGAATCTTGCCAATGCCGCTTCCATCGCGGTCTACGAAGCCTGGCGCCAGCAGGGTTTCGCGGGCGCGCAGACCTGA	MFRILFHAPEIPGNTGNAIRLAAITGAELHLVEPLGFDFSDAKLRRAGLDYHDLAVVTVHKTIEDAWRHLDPDRVYAFTSDGQASYTDIEYRPGDVLMFGQESVGLPEHLKRDSHVTATVRLPMLPSLRSLNLANAASIAVYEAWRQQGFAGAQT				NA	NA	NA	NA	NA
D1-29_03240	723			hypothetical protein	GTGACCCCACTGGAGGCGGGACGGGGCACAGGCCCCCAGGGATTCACAGCTGTGGGCGGCGATACCGGCCAGGGCGCCATTGCGTCGCCGTCCCGAGACCTATGCTTGTTAGTGATGGAAACTCCCAACGCACCAAACTTCGAGGCTCCGGCCGCCGTCACCGAATCGCCGGCTGACGTCAGCCAGCGCCTCGCCGGGCTGATCGGACGTATCGCCGAGGGAGACCAGCAGGCGTTCGCGGACTTCTACCAGCTGACGTCGCGCCGGGTCTTCGGTATGGCCCGGCGGGTCCTGATCGATGCCGAACTCAGCGAGGACACCACACAGGAGGTCTTCATCCAGGTCTGGCAAAACGCGGCAAAGTTTAATGCGGAGGCCGGGAGTCCGCTCTCGTGGCTGATGACCATCGCGCATAGGCGGGCTGTGGATAAAGTGCGCTCGTCGCAGTCGGCAACAGACCGGGAGGCCCGGTATGGGGCCAGTACTCAGGACATCGATCACGACTCCGTCTCTGATGAAGTGGGCAGCAAACTGGAAGCCGAGGCGGTGGTCCGATGCCTCGAAACGCTTACCGATACACAGCAGGAATCCGTCCGGCTCGCCTACTACGGCGGCCTCACATACCGGGAGGTCGCGGAGCGCCTGAACGCCGCAGTGCCTACCATCAAGTCCCGCATCCGCGATGGACTGATCCGCTTGAAGACATGTCTGGGGGTGAGTTGA	MTPLEAGRGTGPQGFTAVGGDTGQGAIASPSRDLCLLVMETPNAPNFEAPAAVTESPADVSQRLAGLIGRIAEGDQQAFADFYQLTSRRVFGMARRVLIDAELSEDTTQEVFIQVWQNAAKFNAEAGSPLSWLMTIAHRRAVDKVRSSQSATDREARYGASTQDIDHDSVSDEVGSKLEAEAVVRCLETLTDTQQESVRLAYYGGLTYREVAERLNAAVPTIKSRIRDGLIRLKTCLGVS	PGPT0014960_5062	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
D1-29_03241	861	rskA		Anti-sigma-K factor RskA	ATGAACAATCACGACGGCGCCCGGCGCCCGGGCTCGTTCGGGGATACCGTTGCCACTGACCTGGCCTCGGGGCGGGCGGTGGATTTGGCCGAGTTGTATGCGCTGGACGCCCTGACCCAGGACGAACGCTCAGCCATTGAGCAGTACATCGACGCCGCCCCCGAGGATGAGCGCAGCGCCTTCCAGGAACGGGTCCGCCAAGCCAGGGAAGCCCTGGCGGTCACCTTTACGGCCGAGGAGGACCCTCCCGCGGATCTCTTCACGCGCATCGTTTCGCAGTTGCCGGCCCAGCAACAGCCGGCGCAAACACCCGCCCCTTTTGGCATTAGTGCTCCGCCGCCGCCCGCGGTGGCGGACGGCGCCGCGGTTAGCGATGAACTGTCTGCTGCAAGGCAACGCCGGGAAGAACGACGCCGGATGGCCGGGCCACGCCGCTGGCTTGCGGGCATTGCCGCCGCGGCGTTCCTGGCGCTGGGCGGGGTGGGCGTCGGTGCGTACATTGCCGACCAAAATGATCCGCTGAACCAGGTGGTCCGGGCTGAGGATGTCCGCGAAGCCTCCGTTGACGTTTCCGGCGGTGGGACGGCCACACTGTTGATCTCGTCCTCCAAGGATGCAGCTGTAGTCAAGATGAACGGCGTACCGGCACCTCCGGCAGGCAAGGTGTACCAGATGTGGCTGATTCCCAAAGACGGCTCGGCACCCGTCTCCCAGGGCCTGATGGACGAAGAGGCACTGTCCAAGCCCGCAGTCGTGAAGGGAATCACGTCCGCCACGGCACTGGGCATTACGGTGGAACCCGCCGGCGGCTCAGGCGTCCCGACCTCCCCCACAGTGGCCACTGCCGAGCTGGGCGCCTGA	MNNHDGARRPGSFGDTVATDLASGRAVDLAELYALDALTQDERSAIEQYIDAAPEDERSAFQERVRQAREALAVTFTAEEDPPADLFTRIVSQLPAQQQPAQTPAPFGISAPPPPAVADGAAVSDELSAARQRREERRRMAGPRRWLAGIAAAAFLALGGVGVGAYIADQNDPLNQVVRAEDVREASVDVSGGGTATLLISSSKDAAVVKMNGVPAPPAGKVYQMWLIPKDGSAPVSQGLMDEEALSKPAVVKGITSATALGITVEPAGGSGVPTSPTVATAELGA				NA	NA	NA	NA	NA
D1-29_03242	777	bshB2	COG2120	putative N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 2	TTGACTGATCGCAAGGCTTCGCAGAGCCCGTTCAACCCGGCAATTCACCGGGTTGGGCGGGTGCTCTGTTTCGCGGCCCATCCTGACGACATCGACTTTGGCGCCGCTGGCACCATCGCTGCCTGGACGGCGGCCGGTGTACAGGTCAGCTACTGCATCATGACCGACGGCGACGCCGGCGGCTTCGATCCTGACCACCGGGCCCGGATCATCGCCATGAGGGCCTCCGAACAGGAGCGCGCCGCAGCATTGGTTGGTGTCACGGACATCCACTATTTGCACGAACGCGACGGGTACCTGGAGCCGAACCACCAGGTGATGCGTGGTGTCGTGAAGCTGATCCGCGAAATCCGGCCGGACGTTGTGCTTTCCATGCACCCCGAGCGGAACTGGAACCGGATCCAGAAGAGCCACCCGGACCATCTCGCGGTGGGGGAGGCCGTCACCCGCGCCGTCTACCCCGCCGTGGAAAACCCTTTCGCCTACCCTGAGCTTGCGGAAAGCGGACTGGCAGCCTATAAGTTGCCCTGGCTCTGGCTGTATGCAGGGCCGGAGGAACGGGAAAACCACTTTGTTGATGTCACGGACCATGTGGGCAGCAAGCTTGAGGCCATCCACGTGCACGTCAGCCAGCATCCGGATGTGGCTGCCATGGAAGCGGCCGTCAAGGATGGGATGATCGCCGGTGCCAGGCGCGCCGGCCTGCCCGATGGCCGAAGTGCTGAGGCCTTCCACGTCGTGGCGGTCAACGGTCCGGGGACCATCGCCGGCTTCTAG	MTDRKASQSPFNPAIHRVGRVLCFAAHPDDIDFGAAGTIAAWTAAGVQVSYCIMTDGDAGGFDPDHRARIIAMRASEQERAAALVGVTDIHYLHERDGYLEPNHQVMRGVVKLIREIRPDVVLSMHPERNWNRIQKSHPDHLAVGEAVTRAVYPAVENPFAYPELAESGLAAYKLPWLWLYAGPEERENHFVDVTDHVGSKLEAIHVHVSQHPDVAAMEAAVKDGMIAGARRAGLPDGRSAEAFHVVAVNGPGTIAGF				NA	NA	NA	NA	NA
D1-29_03243	954	etfA_3	COG2025	Electron transfer flavoprotein subunit alpha	ATGGCAAACGTACTTGTATTCATTGACAACCCGGGCGATGCCCTGAAGAAGAGCAGCCTGGAACTCCTGACGCTTGGGCGCTCCCTCGGGGAGACCATAGTCGCGTTGAACGGCGAGCTTCACGATGGCGTCGCCGCCACGCTCGCCGAGTATGGGGCAGCCAAAATTCTGCGGCCATCCGCCCAGGACCTTGACGACTACCTCGTGGCTCCCAAGGCTGCCTACCTTGCGGCCGCCGTCGCTGAAACGGGTGCCGGCACCGTCCTCCTGGACAACTCGCCGGAGGGCAAGGAAATTGCCGCCCGGCTGGGAATCCGGCTGAATGCAGGCGTTATCACCGATGTTGTGGCAGTTGACGCCGACGGGACCGCTCATAAATCCGTGCTGGCAGGCTCCTACAACACGGCAGCGAAGGTTACCACCGCCGTGTCGGTGCTGACGGTGAAAGCCAACAATGTGACACCCGAACCGGCGCCCGCTCCCACTGCCCCGGAAACCGTCATCGTTGAGGTTCCGGCTGACAGCACTGCTGCAGCGGCCCGCGTCACCGAACGCCGGCAGAAGGTTGCCAGCGGCCGCCCGGACCTGACTGATGCGCGGATCGTGGTGGCCGGCGGACGTGGCCTGGACGGCGATTTCGGTCCTGTGGAACAGCTGGCCGATGCCCTGGGCGCTGCCGTGGGAGCTTCCCGTGCGGCCACCGATGCAGGCTGGATCAGCCATGACGCCCAGGTGGGCCAGACGGGCAAGACTGTCTCGCCCCAGCTCTACATTTCCGCCGGCATTTCCGGAGCGATCCAGCAGAAGGCCGGCATGCAGACGGCCAAGGTCATCGTGGCGGTGAACAAGGATGCAGAATCACCGGTCTTCGAGATCGCCGATTTTGGCATTATCGGGGATCTGTTTGACGTCCTTCCCCAGGCCACGGAAGAGATCAAACGGCGAAAAGGCTGA	MANVLVFIDNPGDALKKSSLELLTLGRSLGETIVALNGELHDGVAATLAEYGAAKILRPSAQDLDDYLVAPKAAYLAAAVAETGAGTVLLDNSPEGKEIAARLGIRLNAGVITDVVAVDADGTAHKSVLAGSYNTAAKVTTAVSVLTVKANNVTPEPAPAPTAPETVIVEVPADSTAAAARVTERRQKVASGRPDLTDARIVVAGGRGLDGDFGPVEQLADALGAAVGASRAATDAGWISHDAQVGQTGKTVSPQLYISAGISGAIQQKAGMQTAKVIVAVNKDAESPVFEIADFGIIGDLFDVLPQATEEIKRRKG	PGPT0001040_2961	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
D1-29_03244	801	etfB_3	COG2086	Electron transfer flavoprotein subunit beta	TTGAAGATCATCGTCCTGGTCAAGCATGTACCGGACGCCCAGTTTGACCGTCACCTCAACGGGGAGGGCTACACCACCGACCGTGACGAAAGCATCCTGTCCGAGCTGGACGAGTACGCCCTCGAGGCTGCACTGCAGCTGGCCGAAGCCCGCGGCGGAGGCAAGGCCGGCAATCAGGTCATCGCCCTCAGCATGGGACCGTCGGGGGCAGTGAACGCCGTAAAGAAGTCACTGCAGATGGGCGCCACCGAAGGCGTGCACCTCACAGACGACGCGCTCGCCGGCTCGGATGCCGCAGCCACATCGCTGGCGATCGCCGCCGCAATCCGCCACCTAAGCGCTGACGCACCCGTTGACCTTGTCCTCACGGGCATGGCTTCCACCGATGGTGAAACGTCGCTGGTGCCCGCACAGCTGGCAGAGCGCCTGGGCCTTCCCCAGGTGACCTTCGCATCTTCCCTTGAGGTCGACGGCGGCCGGCTCACCGCCCGCCGCGACGCCGATACCTACTCGGAGACCGTAGAGGCACCGCTGCCTGCCGTGGTGTCCGTAACCGACCAGATCAACGAGCCCCGTTACCCCAACTTCAAGGGCATCATCGCCGCCAAACGCAAGACCATCACCACCCTCTCGCTGTCGGACATCGGAGTGGATCCCGCGCAGGTGGGCCACTCCGGGTCATGGACCAGAGTGACGTCTGCGGAGGAACGCCCGCCGCGCACCGCAGGAACCATCATCACGGACGAGGGCGACGCCGGCATCAAGCTCGTCGACTTCCTGGCCGCCCAGAAGCTGCTCTAA	MKIIVLVKHVPDAQFDRHLNGEGYTTDRDESILSELDEYALEAALQLAEARGGGKAGNQVIALSMGPSGAVNAVKKSLQMGATEGVHLTDDALAGSDAAATSLAIAAAIRHLSADAPVDLVLTGMASTDGETSLVPAQLAERLGLPQVTFASSLEVDGGRLTARRDADTYSETVEAPLPAVVSVTDQINEPRYPNFKGIIAAKRKTITTLSLSDIGVDPAQVGHSGSWTRVTSAEERPPRTAGTIITDEGDAGIKLVDFLAAQKLL	PGPT0001035_731	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
D1-29_03245	1788			hypothetical protein	ATGACTGAGAACCCAACACCGGGTGCAGCGCCTGAGAACCGGAATCCGGGCAGGCACGACGCACCGGAGCAGCCGGAGGCCCGGGACGGGAACAACGCTGAGCCGTCGACTGAACCAACCTTGACTGATCCCACCCTGACTGATCCCACCCCGGGAACTGCGGCAGACAACGGGCCCAAGCTGCAGGACACGGCGATGCGCTCCAACGGGAACCAGCCCCATGACGACCTTCCTGCAGGTCAGGACAGACGCAGCGATTCGACCGAGAGGCTTGACCGGCCCCAGGACGGCTGGAACTCCACTCAGCCGCTGGCCTCTGCCCCCCAGCCTCAGTACCCTCCCCGTCAGCCGTTCTATGGCCAACAGAACCCCGGCCAAGAGAAGCCTGGCCAGCCGAATTACGGCCAGCACAGTCAGGGCGGGCAGAACACGGGTCAACAGCCTTACGTCCAGCAGCATGCGGGCCAGTACCACGCCGGCCAGCAGTACGCACAGCATGCTGCGCACTCGGCCGGACCTGGCGGCTTTGCCGGCGGCCCGGGCGGCATCGCCAGCGCGTCCAATCCGGCCAATGCGCCGCGCCGGAAGGCCAGCTTCGGCGTCGGCACCCTGGTTGCCAGCATCCTGGCGGCAGGCCTGGTGGGCGGCGGCGTAGCCACTGTTGGGTCAAGCAGCCTCTTCAATCCGGGCTCGTCGTCGGGAGTGAGCAACAGCAGCCAGGCTGCGCCGGTCATCGTGAACAACAGGGACGACGTGAACGCCATCACGGCAGCGGCCTTGAAGGCTACTCCCAGCGTGGTAACCATCAGCGCCAGCAGTGGCAGTGCCGGCGGTACGGGATCGGGCATCATCCTTGATGATGAGGGCCACATTTTGACGAACACCCATGTGGTCACCCTGGATGGACAGACAGCTGATGCAGCTCTGGAGATCCGCACCAGCGACGGCAGGGTCCTCAGCGCCAAGCTGGTTGGTACAGACCCGCTGTCCGACCTTGCGGTCATCAAGGTTGACGACGCCTCGGGCCTGACTGCCGCCACCCTGGGAGATTCCTCCAAGCTAAATGTTGGAGATACGGCGATCGCCATCGGTTCTCCGCTGGGGCTCACCGGGACAGTGACTGACGGCATCGTGTCAACGCTCAACCGGACCATCAGCGTTGCATCTTCCGCAGCCCCAAAAAACGGCGACGATTCCCAGAGCGACGACGAGGGCGGATTCCAGTTCGCGCCGCCGGACGGCGGGCAGGGCCAGGCCAGGCCAGGCCAGGGCTCCATCTCCATCAACGTCATCCAGACTGACGCGGCAATCAATCCCGGCAACTCCGGCGGCGCCCTGGTCAACACCAAGGGCGAGATCATCGGCGTGAACGTGGCAATCGCCTCGGCAGGCTCCTCAGCGTCATCCACAAGCGGCAACATCGGAGTAGGCTTCAGCATCCCGATCAACCACGCCAAGCGGGTGGCCCAGGAGATCATCGATACAGGCAAGGCCTCCCATGGCCAGTTGGGCGTCAGTGTGAAGGACAAGTCCTCGTCCGGCTCCGCTTCCGGTTTCTCGGTGGGCGCAGACGTGGCAACCGTTGAAGCGGGTTCCCCTGCAGCCAACGCGGGGATCAAAGTGGGGGACGTGGTCACCAAGTTCAATGATCTGGCCATCAGCGACCCCAACCAGTTGACGGCAGCCGTGCGTGAGCAGGCGGCCGGCGCCAAGGTGAAAATCACCATCCTCCGGAACGGCCAGGAACAGACGCTGGACGTCACGCTGGGTACGGCGGCCGAGCAGTAA	MTENPTPGAAPENRNPGRHDAPEQPEARDGNNAEPSTEPTLTDPTLTDPTPGTAADNGPKLQDTAMRSNGNQPHDDLPAGQDRRSDSTERLDRPQDGWNSTQPLASAPQPQYPPRQPFYGQQNPGQEKPGQPNYGQHSQGGQNTGQQPYVQQHAGQYHAGQQYAQHAAHSAGPGGFAGGPGGIASASNPANAPRRKASFGVGTLVASILAAGLVGGGVATVGSSSLFNPGSSSGVSNSSQAAPVIVNNRDDVNAITAAALKATPSVVTISASSGSAGGTGSGIILDDEGHILTNTHVVTLDGQTADAALEIRTSDGRVLSAKLVGTDPLSDLAVIKVDDASGLTAATLGDSSKLNVGDTAIAIGSPLGLTGTVTDGIVSTLNRTISVASSAAPKNGDDSQSDDEGGFQFAPPDGGQGQARPGQGSISINVIQTDAAINPGNSGGALVNTKGEIIGVNVAIASAGSSASSTSGNIGVGFSIPINHAKRVAQEIIDTGKASHGQLGVSVKDKSSSGSASGFSVGADVATVEAGSPAANAGIKVGDVVTKFNDLAISDPNQLTAAVREQAAGAKVKITILRNGQEQTLDVTLGTAAEQ	PGPT0021000_295	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
D1-29_03246	2052			hypothetical protein	ATGCTGTCAAAGTTCAAACGTACACTCGCCGTTATTGGCCTGACAGGGTTGTTGGCGGCCCCCGCGGCCGCGGCCTGGGCTGAGCCACCGGTGACCATCCCCTCCGGAACGAACGTCGTAGATAACGCCAACGTTCTGGGCTCCCGCAAGGGCGAGGTTCAGGAGGCAGTGCAGAAGCTTCTCAAGGATCACAAGTACAACTTGTACGTCGTGACTGTGGACTCCTTTACAGATCCTGCCGACCCCAAAGAATGGTCGCAAACCGTCGCCACGACCAAGGGCATGGGCCGGGCAGACGTGATCCTCGCGATGTCCGACGACGGCAAGTACTATTTTTCCCCTAACTCAGCCAGCCCGATTTCTTCGAAGACCGCCGCTATCAGCCAAAATGCCGTTGTCGCTAACTTGGGGGGCGGCAAGAGGGATTTTGCCCAAGCAGCCATTGACACCGCACTGGCGGTCGGGGATGCGGCCTCCGGCGGCAGCGGCAATGTTTCTTCCGGGGATGGTGCGGGCACCGCAGTCCTCGTCGGTGCCGGAGTAGTAGCCGCGGGAGGGGCCGGAGCCTACCTGTACTTCCGCAACAAGCGGAAGAAAGCCGGCCAGGCTTCCAGCGCCAGCTACGGCCCGCAGGGTGCTGAACTGGACCCACTCGCTTCGCTCAGCGTGGAGGAGCTCCGCCGCAAGAGCGGCTCCCTGCTCATCGAAGCCGATGATGCGATCAAGTCCAGCGAGCAGGAGCTGATGTTCGCCCAGGCCCAGTACGGCGATTCCGCCGTCGGAAACTTCACCAAGGCGCTGGCGGAAGCCAAGGGACACATGTCCGAGTCCTTCAAACTGCAGCAGCAGCTGGACGACCACATTCCCGACACAGAAGAGCAGCAGCGCAGCTGGCTGGGTGAAATCATCCGCCGGTCGGAGGCCGCCCTGGCCTCGCTCCAGGAGCAGAAGGCTGACTTCGATTCCCTTCGGGAACTGGAGAAAAACGCCCCGCAGGCCCTGGCCGCCGTTAACGGAGGAGCGCGTGAAGCTGATGCCAAGATCGCCAGCGCCGAGCAGTCGCTGACGATGCTCCGCTCCAAGTACGCGGACAGCGCCCTTGCCCAAGTGTCGGACAACATCACGCAGGCTAAGGAACGTTTGGCCTTTGTGCAGAATGCCACGGCCGCGGCTCAGGAGAAACTCGCCGAGGGCGAGGCCAGCCTTGCAGCTGTCGCAGTCCGCGCGTCCGAGGAGAGCCTGCACCAGACGAACGTCCTGCTGGACGCCATCGCCAAAGTCTCGGCAAGCCTGGATGAGGCACGCAGCGGCCTTGAGGCTGCCGTCGTCGAGACATCCCAGGACCTTGCGCAGGCCAAGGCGATGATCCAGTCCGGCGCCCACCCCGAACTGGCCGGCCCGGTGGCACGGGTTGAAACTGCCCTGAGCCAGGTAAAGGCTGAGATCCAGGGCGGCAAGATCGATCCACTCGCTACCTTGGACCGTGTGGAAACAGCCCACCAGGCCCTGGACCAGGCCCTGACCGGAATCCGGGACCAGCAGGAACAGGCCAGGCGGGCCCAGGCCGCGCTGCAGCAGACCATCATGGCGGCGCAGGCACAGATCAGCGCAACCTCAGATTACATCACGGCGCGCCGTGGCGGGGTGGGGACGGAAGCCCGAACCCGCCTGGCCGAATCGCAGCGCAACCTCGACTACGCTCTGTCCATCTCACGCAACGACCCCGTGACCGCACTCACTTATGCACAGCAGGCCCACGCCCTTGCAGCGCAGGCCGCGCAGCTTGCCCAGGCCGACGTTGATAACTTTGGTGGCTACGCCAACCAGGGCTACGGCGGCGGTGGCATGTTCGGCGGTGGCGGAGGCGGCGGCCTGGGCGGTGCCATCCTTGGCGGCATCCTGATCAACTCCATCCTCAACGGCGGCGGCGGTGGCGGATGGGGCGGTGGCCACAGCGACGGCGGTGGCTGGGGCGGAGACTCCGGCGGCGGCTTCGGTGGAGGTGACTTCGGCGGGGGCGACTTCGGCGGCGGCGACTCGGGAAGTTTCTGA	MLSKFKRTLAVIGLTGLLAAPAAAAWAEPPVTIPSGTNVVDNANVLGSRKGEVQEAVQKLLKDHKYNLYVVTVDSFTDPADPKEWSQTVATTKGMGRADVILAMSDDGKYYFSPNSASPISSKTAAISQNAVVANLGGGKRDFAQAAIDTALAVGDAASGGSGNVSSGDGAGTAVLVGAGVVAAGGAGAYLYFRNKRKKAGQASSASYGPQGAELDPLASLSVEELRRKSGSLLIEADDAIKSSEQELMFAQAQYGDSAVGNFTKALAEAKGHMSESFKLQQQLDDHIPDTEEQQRSWLGEIIRRSEAALASLQEQKADFDSLRELEKNAPQALAAVNGGAREADAKIASAEQSLTMLRSKYADSALAQVSDNITQAKERLAFVQNATAAAQEKLAEGEASLAAVAVRASEESLHQTNVLLDAIAKVSASLDEARSGLEAAVVETSQDLAQAKAMIQSGAHPELAGPVARVETALSQVKAEIQGGKIDPLATLDRVETAHQALDQALTGIRDQQEQARRAQAALQQTIMAAQAQISATSDYITARRGGVGTEARTRLAESQRNLDYALSISRNDPVTALTYAQQAHALAAQAAQLAQADVDNFGGYANQGYGGGGMFGGGGGGGLGGAILGGILINSILNGGGGGGWGGGHSDGGGWGGDSGGGFGGGDFGGGDFGGGDSGSF				NA	NA	NA	NA	NA
D1-29_03247	795		COG1842	Phage shock protein A	ATGGTTAAGCAGTCCATTTTCGGCCGCATCGCGCAGCTTGCAAAGGCAAACATCAACTCTGTGCTGGACAATGCTGAGGATCCACAGAAGATGCTGGATCAGATGGTCCGGGACTACACCAACAACATCGCGGAGGCTGAATCCGCCGTCGCGCAGACCATCGGCAACCTGCGCATGCTTGAGGATGACTACAACGAGGACATCAAGAACGCGCGCGACTGGGGCAACAAGGCCCTCGCAGCCTCGCGTAAGGCTGACGAGTACCGCAGTACAGGGCATACTGCCGACGCCGAGAAGTTCGACAACCTTGCCAAGGTGGCACTCCAGCGTCAGATGTCTGCCGAGAACGAGGCAAAGGGTGCCGAGCCGAGCATCTCCTCGCAGCGGGAGGTAGTGGACAAGCTGAAAACCGGCCTGGACCAGATGAAGGGCAAGCTCAACGAGCTCACCAGCAAGCGAAATGAACTTGTGGCCCGTTCCAAGACTGCCGCAGCCCAGTCGCAGGTCCACGATGCGATTAAGAGCATCGACTTTATGGATCCCACCAGCGAGGTAGGCCGCTTCGAAGAGAAGATCCGCCGCGAAGAGGCGAAGGTGCGGGGTCAGCAGGAACTTGCTGCGTCAAGCCTGGACGCCCAGTTCAACCAGCTCGAGGACCTTGGCGAGCAGGTTGAGATTGAAGCCCGCCTGGCCGCGCTGAAGTCCGGCGGCACCTCCAAGCCCGCCATTGGCGCTTCCAGTGCTGCAGCAGGTTCAGAATCAACAGTGGAGGAAGCGGACTTCGACAAGCTCTAA	MVKQSIFGRIAQLAKANINSVLDNAEDPQKMLDQMVRDYTNNIAEAESAVAQTIGNLRMLEDDYNEDIKNARDWGNKALAASRKADEYRSTGHTADAEKFDNLAKVALQRQMSAENEAKGAEPSISSQREVVDKLKTGLDQMKGKLNELTSKRNELVARSKTAAAQSQVHDAIKSIDFMDPTSEVGRFEEKIRREEAKVRGQQELAASSLDAQFNQLEDLGEQVEIEARLAALKSGGTSKPAIGASSAAAGSESTVEEADFDKL	PGPT0014646_398	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
D1-29_03248	933			hypothetical protein	ATGTCCACACCCACGAAGAAGTCCGGTCCCGCGACTGGCAAGCGGTCAAGGCTCTACTGGGGTGTGCCCGCTGCTTTCGTGGCATTGGTGCTGGTGGTCCTGCTTGCCAGGTGGATAACCGGGCTGGCTCCTGTCGCTTCCTTTATCGCTGACTATCCCGGGCATTCCAATCTTCCTGAGGGTGCACCTGTGGGCTTTCCCGCCTGGCTGGCATGGCAACACTTCCTCAACGCCTTCTTCCTGCTGCTGATCATCCGCACTGGCTGGCAGGTGCGCACCACCACGCGCCCCAGCGGCCACTGGACGCGCAATAACAAGGGCCTGATCAAGACCAAGAACCCGCCGACCAAGATCACACTTGAACTCTGGTTCCACCTGACGCTGGATGCGCTGTGGATCCTTAACGGAATTGTCTTCGCGATCCTGCTTTTCGCGACCGGACAGTGGATGCGAATCGTGCCCACCAGCTGGGATGTCTTCCCGAATGCCCTGTCGGCAGCCCTTCAGTACGCCTCCCTGAACTGGCCCACGGAGAACGGCTGGGTGAACTACAACGCACTCCAGCTGCTCACCTATTTCGCCACGGTCTTCATCGCCGCACCGCTTGCCTTTATCTCCGGCATCCGGACGTCCTCTGCGTGGCCCAAAAAGGCCACTGCCCTGAACAAGGCCTATCCGATCGAGCTGGCGCGTGCCATCCATTTCCCGGTCATGATCTACTTTGCGGCGTTCATCGTCGTGCATGTGTTCCTGGTGCTGGCAACGGGGGCCCTGCGCAACCTGAACCACATGTACGGCGGAAGCGACGACGCCGGCTGGGTTGGGTTCTGGGTGTTTGTCGCCTCGGTGGCAGTCATGGTGGCCGCTTGGTTCCTGGCCCGGCCCATTTTCCTTCGCCCCATCGCTTCGCTGATGGGCAAAGTCAGCCGCTGA	MSTPTKKSGPATGKRSRLYWGVPAAFVALVLVVLLARWITGLAPVASFIADYPGHSNLPEGAPVGFPAWLAWQHFLNAFFLLLIIRTGWQVRTTTRPSGHWTRNNKGLIKTKNPPTKITLELWFHLTLDALWILNGIVFAILLFATGQWMRIVPTSWDVFPNALSAALQYASLNWPTENGWVNYNALQLLTYFATVFIAAPLAFISGIRTSSAWPKKATALNKAYPIELARAIHFPVMIYFAAFIVVHVFLVLATGALRNLNHMYGGSDDAGWVGFWVFVASVAVMVAAWFLARPIFLRPIASLMGKVSR	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
D1-29_03251	3015			hypothetical protein	TTGTCCCGTCCCACCAGCCCCATCCCTCCCGGCAGACCTTCCACCAGGCGCGGCGCCCTGACGCCCACACTGATAGTCGTTGCGCTTGTCGTGGTGGGGTTTATTTTCTTCGCCAACGTATGGACTGACGTCCTCTGGTACAGGCAACTCGGATTCTTCGAAGTGTTCCTGACCGAAAACCTGGCACGCATTGGGATCTTCGTGGCCGGCTTCACCATCATGTTCCTTGCCGTCTTTTTCGCCGTGCGGATCGCCTACCATGCCCGGCCCGTCTACGCGCCCGATTCAGAAATCCGCGACAACCTGAACAGGTATCAGGCGCAGCTTGAACCGGTTCGTCGGGTGGTTATGATTGGCCTGCCCCTGGTGTTCGGGCTGTTCGCCGGCAGTGCCGCCGCGAGCCAGTGGCAGCGCGTCATGCTGTTCTTTAACCAGGAGCAGTTTGGCCAGAATGATCCAGTCTTCGACCTGGACATCAGTTTTTACCTGATGACGCTTCCGTTCCTTGGGTTCATCACAGGTTTCCTGATCAGTGTGGTGGTGATCGCCGGCATCGCCGGGATCCTGACCCACTACCTGTACGGCAGCATCCGGCTCATGGAACGGGGCATCTTCACCAGCCGGGCGGCCCAGATCCACCTCGCAGTCACCGGCGCCGCTTTCCTTATCCTCCTGGGTGCCAACTTCTGGCTGGACAGGTTCTCATCCGTGCAGAACAACGGAGGCCGCTGGGCGGGTGCCCTCTACACGGATGTGAACGCGGTCATCCCCACCAAGGCCATTCTGGCTGTCGCGGCCGTGCTGGTGGCCATCCTGTTCATCGTCGCAGCGGTCATTGGCCGCTGGCGGCTGCCGGTCATTGGAACGGCAATGCTGATCATCACCTCCATCCTTGCCGGAGGTGTATATCCGTGGGTCATCCAGCAGTTCCAGGTGCGGCCTTCGGAGGAGACCCTGGAAAAGGAGTACATCAAGCGGAACATCGACATGACGCGTGCGGCCTACGGCTTGGACCAGATCCAGGTTGACCGGTATGACGCCACCAACACCGCCACCACTGGCGCCCTGGCCCCGGACGCGCAAACTACCGCCAATATCAGGCTGCTGGATCCAAACCTGATCTCCGACGCGTTCTCGCAGCTGGAGCAGTACCGCCCTTACTACCAGTTCCCGGAGGCGCTGAATGTAGATCGGTACGAGGTGGACGGCAAGGTCCAAGACACAGTCATCGCCGTTCGTGAGCTAAACCCCCAGAATGTGGCCACCAACCAACAAGGCTGGCTGAACCAGCATGTTGTGTACACACACGGCTATGGCGTTGTGGCGGCAAAAGGAAATAAGTTCACAGTCGACGGCAAGCCCGAGTTCCTGCAGTCGGGCATTCCGTCCACCGGCGTCCTTGGCGATGACTCCACGTATCAACCAAGGATTTACTTTGGCGAAACCTCCCCGGACTACTCCATCGTCGGCGCCCCGGATGGCGCTACCCCGCGTGAGCAGGACAGGCCGGCTGGCGAGGGAGAGACACAGTACACGTTTGAGGGCAACGGCGGGCCTAATGTGGGCAGCTTCTTCAACAAGGTCCTCTACTCCATCAAGTTCCAGTCCTCCGATCTGCTCTTGTCCGATGGCGTCAATGAAGAGTCGCAGATTCTCTATGACCGGGATCCGCGCGAGCGGGTCCGGAAGGCGGCCCCATATCTGACAGTGGATGGGAACGTCTATCCAGCCGTAGTGGATGGCCGGGTTAAGTGGATCGTGGACGGCTATACCACCAGCCAGTACTATCCGTACTCGCAGCAGGAACAGCTGTCCGAAGCCACCGCTGACTCCCAGACCACTGCCGGGCGTGCCGTTGCGCTGCCCAACAGTTCCGTCAACTACATCAGGAACTCCGTCAAGGCCACCGTTGACGCCTACGATGGATCGGTGTCCCTGTACGCGTGGGACGATCAGGATCCCGTGCTGAAGGCCTGGCAGAAGGTTTTTCCGACGTCACTGAAGCCGTACTCCGAGATGTCGGCCGACGTCATGAGCCACGTGCGTTACCCTGAGGACCTCTTCAAGGTCCAGCGTCAGCTTTTGGGCCGCTACCACGTGACTGATCCTGCCAGCTTCTACCAGACGAAGGACGCCTGGAGCGTCCCCAACGATCCAACCGTGGACACGGCAGGGGTCAAGCAACCGCCGTTCTACATGTCACTGCAGATGCCGGACCAGGAAGAACCGGCCTTCCAGTTGACCACCTCCTTCATTCCCGAGATCGTGAACGGCAACGCGCGCAACGTCCTGTACGGCTTCCTGGCGGCAGACTCAGATGCCGGCAACGAGAAGGGCGTGAAGGCGGAGACCTACGGCAAGTTGAGGCTCCTCCAGATTCCGCCCGAAATTCAGGTTCCCGGACCCGGGCAGGCACAGAACAAGTTCAACTCTGACCCCACGGTCTCACAGGCGCTGAACCTGCTGCGTCAGGGCGCCTCGGATGTGCTGAACGGCAACCTCCTCACCCTCCCGGTGGGCGGCGGCATCCTTTACGTCCAGCCCGTCTACCTCAAGTCCACGGGGGAGACGTCGTATCCCACCCTCCAGCGTGTGCTGGTGGCATTCGGTGACAAGGTTGGCTTCGCGCCCACCCTGGACGAAGCCCTCAAGCAGCTGTTCGGCGGGGATTCAGGGGCGGCAGCCGGTGATTCCGACAACAACGGCCAGGCCCCCGCTGATCCTGGTGGCACTCCACCTGTTGTAGGGGCGGACGCCAAGGCTGAGCTGAAGGCCGCACTGGACGAAGCGAACGCCGCAATCCAGGCCGGCCAGGCGGCACTCGCGGCGGGAGACTTCGCTGCCTATGGAGAACAGCAAAAGAAGATCGCGGCCGCGCTCCAGAGGGCCATGGAGGCCGAAGGAAGGATTGTGGTGACCGCTCCCGAGGCTGCCCCCTCGCCGGCGGCTGCCACTCCCACGGAAAGCCCCGATCCAACGGGCACGGCAACGCCGTCGCCTTCTCCAAGCAACTGA	MSRPTSPIPPGRPSTRRGALTPTLIVVALVVVGFIFFANVWTDVLWYRQLGFFEVFLTENLARIGIFVAGFTIMFLAVFFAVRIAYHARPVYAPDSEIRDNLNRYQAQLEPVRRVVMIGLPLVFGLFAGSAAASQWQRVMLFFNQEQFGQNDPVFDLDISFYLMTLPFLGFITGFLISVVVIAGIAGILTHYLYGSIRLMERGIFTSRAAQIHLAVTGAAFLILLGANFWLDRFSSVQNNGGRWAGALYTDVNAVIPTKAILAVAAVLVAILFIVAAVIGRWRLPVIGTAMLIITSILAGGVYPWVIQQFQVRPSEETLEKEYIKRNIDMTRAAYGLDQIQVDRYDATNTATTGALAPDAQTTANIRLLDPNLISDAFSQLEQYRPYYQFPEALNVDRYEVDGKVQDTVIAVRELNPQNVATNQQGWLNQHVVYTHGYGVVAAKGNKFTVDGKPEFLQSGIPSTGVLGDDSTYQPRIYFGETSPDYSIVGAPDGATPREQDRPAGEGETQYTFEGNGGPNVGSFFNKVLYSIKFQSSDLLLSDGVNEESQILYDRDPRERVRKAAPYLTVDGNVYPAVVDGRVKWIVDGYTTSQYYPYSQQEQLSEATADSQTTAGRAVALPNSSVNYIRNSVKATVDAYDGSVSLYAWDDQDPVLKAWQKVFPTSLKPYSEMSADVMSHVRYPEDLFKVQRQLLGRYHVTDPASFYQTKDAWSVPNDPTVDTAGVKQPPFYMSLQMPDQEEPAFQLTTSFIPEIVNGNARNVLYGFLAADSDAGNEKGVKAETYGKLRLLQIPPEIQVPGPGQAQNKFNSDPTVSQALNLLRQGASDVLNGNLLTLPVGGGILYVQPVYLKSTGETSYPTLQRVLVAFGDKVGFAPTLDEALKQLFGGDSGAAAGDSDNNGQAPADPGGTPPVVGADAKAELKAALDEANAAIQAGQAALAAGDFAAYGEQQKKIAAALQRAMEAEGRIVVTAPEAAPSPAAATPTESPDPTGTATPSPSPSN				NA	NA	NA	NA	NA
D1-29_03252	1029	ylbL	COG3480	putative protein YlbL	ATGACCCTCTCTGGATTGCTGGCTCTGGGACTTGGAATCGCAGCTGGGACTGTCCCGGTGCCTTATGTTGTGGAGTCACCCGGCCCAACTTTCAACACGCTGGGCCAGGCGCAGGGGAGCCCTGTTATTAGCGTTTCGGGCCACGAAACCTATCCCGCCAGCGGGCACCTGGACCTGACTACTGTCTATGTCGACGGCGGGCCTAACGGCCCAGTCAGCATTCTGGGCGCCTTTGCCGGATGGCTTGACAGGACAAAGGCCGTATATCCCGAGGAACTGATCTATCCCAGCGGAACCAGCAAGGAAGAGGCTGACGAGCAAGGAGAGGTGGCCATGACCACCTCCCAGGAGAACGCCGTCGCTTCCGCCCTAAAGGAACTGGAGATCCCCTTCGGCCAGCAGCTCCAGTCCGCCGGCCTCTCAGACGGGTCACCTTCCGAGGGCAAAATCGAAGAGGGCGACCTCTTCAAGTCCATCAATGGCAAGCCGGTCACGTCCCTTGCCGTCATCCAGGAAGAGCTGGCGGCAGGCAAGGGAGCGCCCGCCACAGTTGTTGTGGAGCGTGCCGGCGGGGACGTGGCGCACACCATCACACCTGTGGACAACGGTGCGGGCCGGTACATTCTGGGAGTCATGCTCCAGTATCGGTTTACGTTCCCTTTTGACGTAAAGATTTCCCTCGACAAGGTGGTCGGTCCCAGTGCCGGACTGATGTTCTCACTCGGCATTATCGACACTGTGACGCCGGGAGACCTGACCGGAGGCAAACATATCGCCGGGACCGGCTCCATCACCCCGGACGGCGTGGTGGGACCAATCGGCGGCATCCGCCAAAAAATGGAGGGCGCACGGGCTGGGGGAGCCACTTTGTTCCTTGCCCCCGCCGCCAACTGTGGGGCGGTCGCAGGGAATATTCCGGACGGGCTGCAAGTGGTCAAGGTGGAGAATCTGGCAGAGGCGCGCCGCGCAGTCGAAACCGCCGCTTCCGGCCAGGACACGTCAGCCCTACCGACCTGCTCCAGCAACTAG	MTLSGLLALGLGIAAGTVPVPYVVESPGPTFNTLGQAQGSPVISVSGHETYPASGHLDLTTVYVDGGPNGPVSILGAFAGWLDRTKAVYPEELIYPSGTSKEEADEQGEVAMTTSQENAVASALKELEIPFGQQLQSAGLSDGSPSEGKIEEGDLFKSINGKPVTSLAVIQEELAAGKGAPATVVVERAGGDVAHTITPVDNGAGRYILGVMLQYRFTFPFDVKISLDKVVGPSAGLMFSLGIIDTVTPGDLTGGKHIAGTGSITPDGVVGPIGGIRQKMEGARAGGATLFLAPAANCGAVAGNIPDGLQVVKVENLAEARRAVETAASGQDTSALPTCSSN				NA	NA	NA	NA	NA
D1-29_03253	1464			hypothetical protein	ATGACCTCCAACCCACTCAATCCGTCCAATGGCGACGATGCGCCAAAGGATCCGTTGACAGAAATGCTGCAGAACCTGATGGGCGGCAAAGGCATGGAAAACATCGACCCCGCCGAGCTCGCGAAGGCAGCCGGACTGCCGGACGACCCCAATCTCCTGGCCCAGATGTTCTCCCAGGTGCAGGCCATGATGAGCGCACCGTCTGAAGGTCCCGTGAACTGGCAGCTCGCCCACGAGAATGCGCGCAGGGTTGCGGCCAGCAGCGCCGATCCGTCCGTGACGTCCCAGCAGTCCCGTGAAGTAGACGAGGCGTTGCGTCTGGCCGAGCTGTGGCTCGATCCCGTCACAGATCTTCCGGCCACCGGCCTGATCGGCCGCGCCTGGTCCAGGGCGGAATGGGTGGAGGCAACACTCGGCACCTGGAAGCGGCTCACCGAACCGGTGGCGAACAGCATCGCCAACGCGCTCTCCACCGCCATGACTGAGCAGATGCCCGAGGAAATGAAATCCATGATGGGCGGCGCCTCTTCGATGCTGCAGAACATGGGCGGGGCGATCTTTGGGATGCAGCTTGGACAGGCGATCGGCGCACTGTCGGCTGAGGTGGTCAGCTCCACGGACATCGGCGTTCCGCTGGCAGACCTGGAAATGGCCCTGTTGCCTGCGAACGTCGCAAAATTCGGTGAAGGCCTGAGCGTGCCGGAGAATGACATCCGCCTGTTCCTCGCCGTCCGTGAGGCAGCTCATGCACGGCTGTTCGTGCAGGTTCCGTGGCTTCGTGGCCACCTGCTGAGTGCCATCGAGGCCTACGCGCGCGGCATACACATCGATACATCCAGAATTGAAGAGCTGGCCCGGGATCTTGACCCCAGCAACCCGGAAGGCATCCAGGAGGCCCTGTCCCAGGGAGTCTTCATGCCGCAGCGCACGCCGGCCCAGGACCAGGCCCTCGAAAAACTGGAGACTGCGCTCGCCTTGGTTGAGGGATGGGTGGACGAACTGACCGCCGCGGCCACCGAGAACGTTCTTCCGTCGGCAGGTGCCCTCCGCGAGACCGTCCGCAGGCGCCGTGCCACCGGAGGTCCGGCCGAGCACGCCTTCTCTTCGCTGGTGGGGCTGGAGCTGCGTCCCCGCCGGCTGCGGGAGGCCGCCACCCTCTGGGCGAACCTCAAGGACGAGCGGGGCATCGAAGGCCGGGACGCCATCTGGCACCACCCCGACCTGCTGCCCACCGCCGAGGATCTGGATGACCCCAAGGGGTTCGGCGGCCGCCGCAAGCTGGCCGAGGCCAGCGACAGCGAGGTTGATGATGCGCTCCAGAAGCTTCTGAACGGCGGTTTCGATGCGGCTCCGGATCCCGACGCGGCGGGAACATCCGCGGTGGAGGAAGAGGCCGGGAAAGATCCCGACAAACCCGACGATTCGGGCGAGGGTTCAGGCGAAGGCGGCCAGCCCGGGAAGTAG	MTSNPLNPSNGDDAPKDPLTEMLQNLMGGKGMENIDPAELAKAAGLPDDPNLLAQMFSQVQAMMSAPSEGPVNWQLAHENARRVAASSADPSVTSQQSREVDEALRLAELWLDPVTDLPATGLIGRAWSRAEWVEATLGTWKRLTEPVANSIANALSTAMTEQMPEEMKSMMGGASSMLQNMGGAIFGMQLGQAIGALSAEVVSSTDIGVPLADLEMALLPANVAKFGEGLSVPENDIRLFLAVREAAHARLFVQVPWLRGHLLSAIEAYARGIHIDTSRIEELARDLDPSNPEGIQEALSQGVFMPQRTPAQDQALEKLETALALVEGWVDELTAAATENVLPSAGALRETVRRRRATGGPAEHAFSSLVGLELRPRRLREAATLWANLKDERGIEGRDAIWHHPDLLPTAEDLDDPKGFGGRRKLAEASDSEVDDALQKLLNGGFDAAPDPDAAGTSAVEEEAGKDPDKPDDSGEGSGEGGQPGK				NA	NA	NA	NA	NA
D1-29_03254	606			hypothetical protein	GTGACGCAACGGAGTGAGCTGGCCACCCGGGCGCCCAGGCTGACGGCGGACGGGGCTCCTGTTGAGGTGCGGCGTTCTGCCCGCCGGACAAGGACAGTGGCGGCTTTTTGGGAGAACGGAACGGCGGTGGTGGCCATCCCTGCCCGGTTCACAGCCGCCCAGGAATCCGAATGGGTGCACCGCATGCTGGAAAAGCTGCACCGGCAAGGAGAAAGGCGCACCCGCAAGGGAAAGAGGCAATCCGCTACAGACGCGGCTTTGGCTGCACACGCCGCGGACCTTTCCGCACAGTACTTCGGCGGCCGTGCCGTTCCGACGTCGGTCCGCTGGGTCAGCAACCAGAACTCGCGCTGGGGTTCGGCCACACCTTCAGAGGGCAGCATCCGGCTCTCGGACAAGCTCAAGGCCATGCCCCAGTGGGTCGTTGACTACGTGCTTCTGCACGAGCTTGCCCACCTGCTGGTGGCCGGCCACAATGCGGCCTTTTGGAAGCTGTTGGAGGGCTACCCGGAGACGGAACGGGCCAAGGCCTTCCTGGAGGGAGTCTCATTTGCCACGTCCCGCGGCCTGGCACCAGATGCGGTTCCCGCTGCGGACGCGGACTAG	MTQRSELATRAPRLTADGAPVEVRRSARRTRTVAAFWENGTAVVAIPARFTAAQESEWVHRMLEKLHRQGERRTRKGKRQSATDAALAAHAADLSAQYFGGRAVPTSVRWVSNQNSRWGSATPSEGSIRLSDKLKAMPQWVVDYVLLHELAHLLVAGHNAAFWKLLEGYPETERAKAFLEGVSFATSRGLAPDAVPAADAD				NA	NA	NA	NA	NA
D1-29_03255	2136	uvrD2	COG0210	ATP-dependent DNA helicase UvrD2	GTGACAACAGAGAATGTAGACAGCCCAGAATCCCTTGAAGAACGGATCCTCGGTGGCCTGGACGCCGAACAGCGGGAAGTCGCCAGTACGCTGAACGGTCCGCTATGTGTCCTGGCCGGGGCAGGCACAGGGAAAACCCGAGCCATCACCCACCGCATCGCTTATGGCGTCCACTCCGGCGTATACAGTGCCCAGCGGCTCCTCGCCGTCACGTTCACGGCGCGGGCAGCCGCGGAAATGCGCAGCAGGCTGCGGGACCTGGGAGTCGGAAACGTCCAGGCCAGGACGTTTCACGCAGCAGCCCTCAGGCAGCTCCAGTTTTTCTGGCCGCAGGCGGTGGGGGGCACTTTGCCCAACCTCCTGGACCACAAAGCCCAGATGATCGCCGAGGCAGCGCGGCGTCTGAGGCTCAGCACAGACCGTGCCTCCATCAGGGACCTGGCATCCGAGATCGAGTGGGCGAAGGTTTCCATGTTGACTCCTGCCAACTACCTCGAAAATGCCCAGGGGAGGGGAACGCCGGGAGGATTCGACCTCACCGCCGTCGCCCGGGTTTTCCAGTCATACGAGGATGTCAAAACGGACCGCAACGTCATTGACTTCGAGGACGTGCTGCTGATCACCGTCGGAATCCTCCAGGAGGACCAGAAAGTCGCGGCCACGGTCCGTGAACAGTACCGGCATTTTGTGGTGGACGAGTACCAGGACGTCTCGCCGCTGCAGCAGCGCCTCCTGGAGCTGTGGCTGGGGGGCCGGGACGAGCTGTGCGTCGTGGGCGACGCGAGCCAGACCATCTACTCATTCACCGGTGCCTCACCCCAGCACCTGCTGGGGTTCAAGGCCCGGTATCCCGAGGCCAATGTGGTTAAGCTGATCCGCGACTACCGCTCCACGCCCCAGGTGGTGAAGCTGGCGAATGATCTCCTTGCCGGACGGCGCAGTGGCGGAACGGTAGCTGATGCGGCATGGGCTGCACCCCTGCAGCTGGTGGCCCAGCGCCCGGCCGGACCCGTTCCGCAGTTTACCGAGTGCACCGACGATGAGGCGGAAGCAGCTACGGTGGCGCTCAAAATCCAGAAACTGCTCGACGCCGGCACGCCGGCAAGCCAGGTGGCTATCCTCTTCCGCACGAACGGACAGTCCGAAGCCTATGAGCAGGCGCTCGCGGCGGCGGGGATCGGATACCAGCTTCGGGGTGGCGAAAGATTTTTCGCCCGCAAGGAGGTCAGGGATGCCATCCTGCAGCTCCGGGCCGCCACCAGGGCGGTTTCCGAATCAGCGACGCCGGAACCTCTCGGTCAGCTGGTCCGCGATATCGTCGCATCCCTGGGCTACACCCACTCCGCGCCACATAACGGCGGAGCACTCCGGGAGCGCTGGGAATCCCTGGCCGCACTCGTGGCCCTGGCCGACGAACTGGTCCAGGTCCGTGGCGAGCAGTTCGGTCTCGCGGACTTCGTCAACGAACTCCAGGAACGCTCACTGGCCCAGCATGCTCCCACCGTCCAGGGCGTCACGCTGGCTTCGCTGCACGCCGCCAAGGGCCTTGAGTGGGACGCAGTTTTCCTGGTGGGCCTCAGCGAAGGCCTGATGCCCATTTCCTTTGCGGACACCCCTGAAGCTGTGGACGAGGAACGCCGCCTCCTCTACGTCGGAATCACCCGCGCCCGGGAGCACCTTTCACTGTCCTGGTCCACCGCCCGCACCCCGGGTGGCCGTGCCAACAGGAAACCCTCGAGGTTCCTGGACGGACTCAGGCCTGATTCGGTAGCCAGTTCCACCACCCGCGGAAAAGGTCCGGCGGCCCGACGGAAAGCCGCCGCGCCGGCCGTGTGCCGCGTCTGTGGAAGCATGCTCTCAAGCGGTGCCGAGCGAAAAGTGGGGCGCTGCAACGATTGCCCTCCCAGCTATGAGGAACAGACGTTCGAGGCCCTGCGGCAATGGCGCAAGGAAGTTGCGCTTTCCGCCGAAGTGCCTGCCTTTGTGGTCTTCACTGACGCCACACTCACTGCCATCGCAGAAGCCAAGCCGGCCTCGCTTGAGGAACTGGCCGCCCTCGCCGGGGTGGGGCCCTCTAAGTTGGAACGCTATGGTGAGGACGTCCTCCGCGTGCTTGTAGAGAGTTCCGTCCTGTGA	MTTENVDSPESLEERILGGLDAEQREVASTLNGPLCVLAGAGTGKTRAITHRIAYGVHSGVYSAQRLLAVTFTARAAAEMRSRLRDLGVGNVQARTFHAAALRQLQFFWPQAVGGTLPNLLDHKAQMIAEAARRLRLSTDRASIRDLASEIEWAKVSMLTPANYLENAQGRGTPGGFDLTAVARVFQSYEDVKTDRNVIDFEDVLLITVGILQEDQKVAATVREQYRHFVVDEYQDVSPLQQRLLELWLGGRDELCVVGDASQTIYSFTGASPQHLLGFKARYPEANVVKLIRDYRSTPQVVKLANDLLAGRRSGGTVADAAWAAPLQLVAQRPAGPVPQFTECTDDEAEAATVALKIQKLLDAGTPASQVAILFRTNGQSEAYEQALAAAGIGYQLRGGERFFARKEVRDAILQLRAATRAVSESATPEPLGQLVRDIVASLGYTHSAPHNGGALRERWESLAALVALADELVQVRGEQFGLADFVNELQERSLAQHAPTVQGVTLASLHAAKGLEWDAVFLVGLSEGLMPISFADTPEAVDEERRLLYVGITRAREHLSLSWSTARTPGGRANRKPSRFLDGLRPDSVASSTTRGKGPAARRKAAAPAVCRVCGSMLSSGAERKVGRCNDCPPSYEEQTFEALRQWRKEVALSAEVPAFVVFTDATLTAIAEAKPASLEELAALAGVGPSKLERYGEDVLRVLVESSVL				NA	NA	NA	NA	NA
D1-29_03256	1023	nudC_2		NADH pyrophosphatase	ATGAGTCATGCGGAGTCCGTTACGCCGGCCTACCAGACGCAGGCCCCCCGGCTGCCGGCGAACCATCTTTTCGATACCGTGCTTCCCATCCGGCCGGCAATGGTTGACCGCGGCTCCGCAGAGCGGATCAGGCCCGGGATGGTGGAAGAACTGCTGGAACGCGAGGGCACTTTGGCGGCAGTACTGACAGGCAGGCAGGCGCTGGTGCAAGGGGACCGGCTGGTCCTGACCGAAGCCGCCACGGTGCTGGCCGGACTGCGTGGGCTGGGATCCGTGCCCGTCCAGATCATTTACCTTGGAGCTGCCCTTCCAGGCTCGGACCTGCCGGCCGGCACCGAACTTCTCCTCTTTGTCCTGCCCGCGCCCGTTGAGGCGGGAACCGGCGGTATTCCGGCGGACGCGTTCTGGGCAGGTTTCCGCGATGTTGCCGGGCAGTTGGGCCCCACTGACACCGCATTGTTTGTTGAGGCGAGCGCCATAGCCAACTGGCATTCCAGCCATACGCACTGCCCCCGCTGCGGGGCGCCCACCGTGGTCGAGGCCGCAGGCTGGGTCCGCCGCTGCCCCGAGGACGGCTCAGAGCACTACCCGCGCACCGATCCTGCAATTATCGTCACCGTGGTGGGGCCGGACGGCCGGCTGCTGCTCGGTGGTGGGGGACCAGCCGACGCCAGGAACTATTCCACGCTCGCCGGATTCGTGGAACCCGGCGAGTCCCTTGAGCAGGCCGTGGTCCGCGAAATATACGAGGAAGTGGGTGTCCAGATCACCGGCTGCCAGTACCTGGGTTCTCAGTCGTGGCCGTTCCCGGCCTCCCTTATGCTTGGATTTACCGCCATCACCCCGGATACCGAGGCAACGCCCGACGGCGTCGAGGTCACCCGTGCGCGCTGGTTCAGCAGGGAGGAACTCCAGCAGGCAGTGCTCGACGGCGACATCACCATCTCGAGCAGGCTTTCGATCGCCCGCTCGCTGATCGAGCACTGGTATGGCGGGCGCATCGCGGACCGCACGGACGCGTAA	MSHAESVTPAYQTQAPRLPANHLFDTVLPIRPAMVDRGSAERIRPGMVEELLEREGTLAAVLTGRQALVQGDRLVLTEAATVLAGLRGLGSVPVQIIYLGAALPGSDLPAGTELLLFVLPAPVEAGTGGIPADAFWAGFRDVAGQLGPTDTALFVEASAIANWHSSHTHCPRCGAPTVVEAAGWVRRCPEDGSEHYPRTDPAIIVTVVGPDGRLLLGGGGPADARNYSTLAGFVEPGESLEQAVVREIYEEVGVQITGCQYLGSQSWPFPASLMLGFTAITPDTEATPDGVEVTRARWFSREELQQAVLDGDITISSRLSIARSLIEHWYGGRIADRTDA	PGPT0013440_553	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013440-nudC-K03426	NA	NA
D1-29_03257	1353			hypothetical protein	GTGAGAAGAAAACCGATCGAACTGGCAGCCGTGGCAACCGCGGCAGTCCCCGGGCTGACCCCGACCGCCGTTAGTGCTGCTCCGGACGATCCTGCGGATTTCGACTCCGCGCTGCTCCTGGACTCCGAAGGCAAGCGTTGGAGGGTACGGTCCCCGCAGCACGCCGAGGCCAGCGCGAGGCTGGAAACGGAGTTCCTGGTTCTCCGTGCCTTTGCGCCCGGGATCCGCGCCGAACTGCCCTTCCTGATGCCCACAGTGGCCGGCAGCGTCCGGGTTGGAAGCCTCAGTACCTTCGTCTACTCACATCTCGCCGGAAGCAACCGGAGTGTGGAAGAACTCACCGCCGGGACGGACTCCCTTGCCAAGGAAATAGGCGTGGCCCTTGCAGCGATCCATGACCTCCCTCACGCCCTGGTCAGCAATGCCGACCTCCCCAGCTACACCCCCAATGAATTCCGTCAACGGAGGCTGAACGAGCTGGATCAGGCTGCCACGACAGGAAAGATTCCCCCCTCACTCCTCCTGCGGTGGGAACACGCCCTGGAGGATGTTTCCCTCTGGCGGTTCAACCCCTGCGTGGTCCACGGAGACCTGCATGAGGACAACCTGCTGGTCGAAGGCGACCGCGTCACAGCAGTCACCGGATGGACGGACCTGAGAATTGGCGATCCCGCCGATGACTTCGCATGGCTGGTGGCCTCCAACGAGCAGGCCTTTGTGGACAGCGTGCTCACCAGCTACACCGGCAGCCGCAGGGACGTGCCGGACAAACACCTGCTCCGGAGGGCCGCGCTTTCCGCCGAGTTCGCGCTGGCGCAATACCTGGTCAAGGGCATCGCCGCCGGGGATCCGGCCATGGTGTCCGAGGCGGAAGGCATGCTGGAAACCCTCGCAGGCGACATCGCCGAGCATGGCGGGCAGGCCATCAGCGTGGAACCACTTCCCTCGCCGCCTGAAACGGGCGCCGACGCGCCGCCCAAGGCTGGAGCGGAAGCGAATGGTGGCCAGCAGGCAAATGCCGGCTCGCATGGCAGTGCCGGAGCAGCCGGCACCGGACAGTCAAGTCCGGCAACCCGGCAGGCGGAAGATACCCCCGCTGTGTCTTCGCGGACCCCGGCGGTGACGGTTGTGCCGCTGCCCGTGGGGCCCGAAACGCTGCCTCCCCCTCTGGTGATGCCCGCGCCTGCCCTGCCCGCGGTCCAGGTGGCGCCTATTCCGGCGCACCAGCATGCTTCGCCAGCGGAAGGACACGGTCAGGAAGCTACCGCGGCTGAAGTCTCCGGCTCCAAGTCTCCCTCAGCGGACGACACCTCCACCGCCGCCATCACTATCATTGCCGGGCAGAAGGACTGA	MRRKPIELAAVATAAVPGLTPTAVSAAPDDPADFDSALLLDSEGKRWRVRSPQHAEASARLETEFLVLRAFAPGIRAELPFLMPTVAGSVRVGSLSTFVYSHLAGSNRSVEELTAGTDSLAKEIGVALAAIHDLPHALVSNADLPSYTPNEFRQRRLNELDQAATTGKIPPSLLLRWEHALEDVSLWRFNPCVVHGDLHEDNLLVEGDRVTAVTGWTDLRIGDPADDFAWLVASNEQAFVDSVLTSYTGSRRDVPDKHLLRRAALSAEFALAQYLVKGIAAGDPAMVSEAEGMLETLAGDIAEHGGQAISVEPLPSPPETGADAPPKAGAEANGGQQANAGSHGSAGAAGTGQSSPATRQAEDTPAVSSRTPAVTVVPLPVGPETLPPPLVMPAPALPAVQVAPIPAHQHASPAEGHGQEATAAEVSGSKSPSADDTSTAAITIIAGQKD	PGPT0028010_45	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
D1-29_03258	3525	rep_1		ATP-dependent DNA helicase Rep	ATGAGCAGCCTGCCCCAGGGTGGCCCTCCCCGTTTCAGCCCGGAGGAACTGGCGGGGATGCTGGGGGAAAAGAACACGCCCACGCCCGAACAGTCCGCCATAATTTCCTCACCGCTGGCCCCGAGGCTCGTAATAGCAGGTGCCGGTTCCGGCAAGACCGCCACGATGGCCGACCGTGTGGTGTGGCTGGTCGCCAACGGGTGGGTCAGGCCCGAGGAAGTCCTTGGCGTCACGTTCACCAGGAAGGCTGCCGGTGAGCTTGCCACCCGGATCAGGGCCAAACTGGCGGCACTGCAGCGCATTGCGGCGCAGGACACCGGGAACCAGGTATTCCCGCCAGGACTGCTGAGCACCGACGCGTTGGAGCCGAAAGTCTCCACGTACCATTCGTTCGCCAGCGGAATTGTGTCTGACTACGGGCTGCGGCTCGGAGTGGAACGCGATGTTGTGCTTCTGGGCGGAGCACAGACGTGGCAGCTGGCCACCGAGGTCGTTGAGGCCTTCGACGGCGAATACGGCCATTTCAATGCCGCAAAGTCCACGCTGGTGAAGGCGGTCATCCAGCTGGCGGGGGAATGCGCCGAACACCTTCAGGAGCCGGCCGATGTGGAGGCGTGGCTGATGGCCAGGCTCGCGGAATACGAGGGCCTGCCGTATGTGGCGGGGGTGAAGAAGAACCGTTCGCAGGCTGCGGCGGATCTTGCGGCCATGCTGCGGACCAGGGCAAGTGTCGCTGAGATGGTCAGCCGTTATTCCGCTGCGAAGCGCTCCCGGGGATCCCTTGATTTCGGTGACCTCGTCGCCTTGGCCGCCAGGGTGGCAAGGCAGGTTCCGCTGGCTGCCGAGATGGAACGGCAGCGCTACAAGGTTATTCTCCTGGATGAGTTCCAGGACACCTCCTATGCCCAGCTGGTCCTGTTTTCGAGGCTCTTTGGCGGCGGCCACGCGGTCACCGCGGTGGGCGATCCAAACCAGTCCATCTATGGCTTCCGCGGTGCTTCCGCGGGGCAGCTGTTCCACTTTGTCCGCGAGTTCCCTGTCCACCTGCCCGGTCCGGACGGGCAAGGGAAATTTGTACCGGCACCAACGTCCTATCTGACCACGGCATGGCGCAACGGCCGTTCTATCCTGGCTGCGGCCAATGTCATGTCCGAGGCACTGGGCAGGGAAGCGGGGGCAAAAGTACCGGCCGGTTCCGGCGCCGGCAACCATGCCGCTGCCAACGTTCCGCCCCTGCAGCCCAGCCCGTTCGCGGTGGAAGGACGCGTGGTGCTCGGCCGTTTCGGGACGGATGTGGAGGAAGCATCGGCACTGGCCCACGATGTCCTGCAGTATCGCGTCACCGACTTCGAGCACCAGGCCGACGGCACTCCCGTGCCTCCTGCCCTGGCCGTCCTGTGCCGGCGCCGTGCCCAGATGGAGCCCATCCGGAAGGAGTTTGAGGCCCGGGGGATCGCCTACGAGATCATCGGCCTGGGCGGCTTGCTGGACACTCCCGAAATCGTTGACCTGGTTGCCACGCTGCGGGTCCTGGCAGATCCCGGTCGTTCGGATGCGCTGATGCGCCTCCTCGCCGGAGCGCGCTGGCGGATTGGTCCTGCCGACCTTATGGCCTTCCGCGACTGGTCCAGCCAGCTGGCATGCAGGCGGGCGCAGGGCGTCGGCGGGGACGGCCCGCCCGAAGGCGACACGGCAGCATCCGAAGAAGCCGTGATTGAAAGCGACCTGACCGACGCCGCCAGCCTCGTGGAAGCCCTGGACTGGCTGCCCCGCGAGGACTGGACGTCCTCCCATGGCACGTCCCTGACAGGGGAGGCACGGCACCGGCTGGGCCGCCTTTCCCTCGAGCTGAGGCAGCTGCGGGGTTACCTCGGGGACGACCTGACCACGCTGCTGGGTGAAGTGGAACGTGCCATGCTGCTGGACATTGAGGTCGCGGCCCGTCCGGGGATCAGCATCCACCAGGCCCGCAGAAACCTGGACGCTTTCCAGGATGCGGCAGCGGGCTTCCTCCGGACGTCCCAACGCGTGGACATCCTGGCGTTCCTCTCCTGGCTTGAGGCAGCGGCCGCGGAGGAGAATGGCCTGGACGTGCCTGCCTCGGAAGTAAACCGCGAAGCTGTGCAGCTCCTGACTGTCCACGCCTCGAAGGGGCTGGAGTGGGACGTGGTCTTTGTGCCCGGTTTGAACGCCGGCGCATTTCCCAGCAACCGGGATTCCCGGTGGAGCAGCGGATCAGCGGCGCTGCCTTGGCCGTTGCGGGGGGACAGGGAAGACCTGCCGCAATGGGATACTGACCAGCCGGATCAGAAAGGCTGGCTGGACGCGGAGAAGGACTTCAAGTCAGAGGTACTGTGCCATGGCGAGGGTGAGGAACGCCGCCTCGCCTATGTCGCTTATACGCGGGCCAAACATGTGCTGTGGGTTTCAAGTGCAGCCTGGGTCGGCTCCAGGGCGGGACGGGCAGAGATGTCACCGTTCCTCGCCGAGCTGGAGCCGCTCCTCAGCCGGCAGCAGGAGGGGACAGGCGACAGCCCCGCCATGGTTCATCCCGCTTCCGTTGCTGAGGACTCCCTGCCGGAAAAGAGCCCGCTCACCTTGGAAACAGAAGCCGCGCGGTGGCCCTACGATCCCCTCGAAGGCCCCGTGGATGCCAGAACGGGGGAACGGCTGCGGCTTCTTCCCGGCCGCAGGGCAGCCATGGAAACTGCGGCGTCACAGATCATTGCCCTCTTGGCAGATGATTCCGGCGATGCAACGCAGGGATTGAATGCGGCTGCCGGCAGATTTGGCGGCGACGGACAGCGGCGCGGTGCCGACTCACAGCGCCTCCGGGCGAACGCCGCCAACTGGGCCTCCGAGGCGGCCCTGTTGCTGGAACGGCGCTCCAGGCGCTCCGGCGGCCAGGACGTGCACCTCCCCGGCCATATTTCGGCGTCGACCCTTGTGGATCTGGGGGAGGACCCCCTGGCTGTCCTGGGTCGGCTCCGGAGGCCGGTCCCTCGCGAGCCCGGCATGTCAGCCCGGAAGGGAACTGCCTTCCATTCCTGGGTGGAGGAGTACTTCGGCGCCGCCGGCATGCTGGATTTCGGCGACACGTCTGGGGCGGATGACCACATCGATGCCGCCTACGACCTCGATGCCATGGTGGCTACCTTCAAGGCATCCGAGTGGGCCAACCGCTCGCCCGCTTTCGTTGAAGTTCCCGTGGAGACCCGGGTGGGTGAAGTCGTGGTGCGCGGCCGCATCGACGCCGTGTTCCGTGACGCGGACGGCCGCTGGGACCTGGTGGATTGGAAAACGGGACGCCGGCCGGCGGCTTCCCACCTCAAGGCCAAATCGGTGCAGTTGGCCGTCTACCGGTTGGCCTGGGCACGGCTGAAAGGAGTCCCGGTCGAGGACGTCCGGGCGGCGTTCTTTTATGTGGCTGACAACCAGGTGGTGCGTCCCCACGACCTCGGTTCCGCGGTGGAACTGGAGCAGATAGTGGCTGGCGCCCTGGTCAGTCCTTCTGCCCGGCAATGA	MSSLPQGGPPRFSPEELAGMLGEKNTPTPEQSAIISSPLAPRLVIAGAGSGKTATMADRVVWLVANGWVRPEEVLGVTFTRKAAGELATRIRAKLAALQRIAAQDTGNQVFPPGLLSTDALEPKVSTYHSFASGIVSDYGLRLGVERDVVLLGGAQTWQLATEVVEAFDGEYGHFNAAKSTLVKAVIQLAGECAEHLQEPADVEAWLMARLAEYEGLPYVAGVKKNRSQAAADLAAMLRTRASVAEMVSRYSAAKRSRGSLDFGDLVALAARVARQVPLAAEMERQRYKVILLDEFQDTSYAQLVLFSRLFGGGHAVTAVGDPNQSIYGFRGASAGQLFHFVREFPVHLPGPDGQGKFVPAPTSYLTTAWRNGRSILAAANVMSEALGREAGAKVPAGSGAGNHAAANVPPLQPSPFAVEGRVVLGRFGTDVEEASALAHDVLQYRVTDFEHQADGTPVPPALAVLCRRRAQMEPIRKEFEARGIAYEIIGLGGLLDTPEIVDLVATLRVLADPGRSDALMRLLAGARWRIGPADLMAFRDWSSQLACRRAQGVGGDGPPEGDTAASEEAVIESDLTDAASLVEALDWLPREDWTSSHGTSLTGEARHRLGRLSLELRQLRGYLGDDLTTLLGEVERAMLLDIEVAARPGISIHQARRNLDAFQDAAAGFLRTSQRVDILAFLSWLEAAAAEENGLDVPASEVNREAVQLLTVHASKGLEWDVVFVPGLNAGAFPSNRDSRWSSGSAALPWPLRGDREDLPQWDTDQPDQKGWLDAEKDFKSEVLCHGEGEERRLAYVAYTRAKHVLWVSSAAWVGSRAGRAEMSPFLAELEPLLSRQQEGTGDSPAMVHPASVAEDSLPEKSPLTLETEAARWPYDPLEGPVDARTGERLRLLPGRRAAMETAASQIIALLADDSGDATQGLNAAAGRFGGDGQRRGADSQRLRANAANWASEAALLLERRSRRSGGQDVHLPGHISASTLVDLGEDPLAVLGRLRRPVPREPGMSARKGTAFHSWVEEYFGAAGMLDFGDTSGADDHIDAAYDLDAMVATFKASEWANRSPAFVEVPVETRVGEVVVRGRIDAVFRDADGRWDLVDWKTGRRPAASHLKAKSVQLAVYRLAWARLKGVPVEDVRAAFFYVADNQVVRPHDLGSAVELEQIVAGALVSPSARQ				NA	NA	NA	NA	NA
D1-29_03259	3504	rep_2		ATP-dependent DNA helicase Rep	GTGACGGTAACAATCCCCCAGACCGACCCCTCCCTTGATTCAAACGCTAAATCAAGCGCTGATTCAAGCGCTGATTCGGACGCTGTATCAGACGCTGTTGTTGAGTCTGACACCGCCTCTGCCGGCGTCGCCGCCGGAGGCTTCCATACTGACACTGAGGCAGGTGGTTCCGCCGCAAGGCGCCCAGGGACAGGGCTGCGGCTCCTTCCGCCACGCAAGATCCACGCGGACGTACCGGTGCTGTCACCGGACCAGCGGGACGCCGTCGAGGTCCCACACGGTTCGGGACCCATCCTGGTGCCTGGGGCCCCCGGGACCGGAAAATCGACTGTCCTGATTGAAGCTGCGGTGCGCAGGGCCCGCCACGATGGCGTGGATCCGGAACGGATCCTGATCCTCGCCCCTGGCCGGCTGGCGGCGGATTCGCTCCGTGACCGGTTCACGGCACGGCTGGACAGAAGCCTGAGTACAACGCCCGCGCGGACGTGGGCATCCTACGCCTTTGACCTGATTCGCCGTGCGAAGGCGGAAGGAGTCCTGCCACTTCCGCGCCCGCCCCGTCTCCTCTCCGGCCCCGAACAGGATCTCATCATCAAGGAATTGTTGGAGGGCCACGCCATGCCGGGACTGGAGTTGCCCTGGCCCGCGGACCTTGAAGCGGCCCTCGAAACCCGCGGATTCCGCCACGAAGTGCGGCAACTCTTTGACCGCATTATCGAATCAGGCAGGACTGCGGAGGATCTGGAGGACCTCGGAAGGCAGTGCGGCCGGCCGGACTGGGTGGCTGCAGCGTCGTTGTACGCCGAGTACAGGGACGTCCTTGACCTTCGCATGCCTGAAGCCTTCGACCCAGCCGGAATCATTACCGCCGCGCGGCAGATCTTCGAGGATTCGCCCGGATTCCTGGCCGCCGAGCGGGAGCGCCTGCAACTGATCCTGGTAGACGACATCCAGGAAGCAAACCCGGCAATATTTGAACTCCTCGCCGACATTGCCGCGGGGAAGGACTGTTACGTGGCGTCCTCGCCGGACACCGTGGTGCAGGGATTCCGGGGGGCCCGTCCAGATCTTGTCGCGGAGCTCCCGCGGCTCCTGTCCGGCGGCGAAGGTGTGCTGGAGCGGCCGTTGTGGCACAGCCACCGGCATGCGCCCGCCATTGCCAAGGCGTGGCTTGGCGTGGCCGGCCGGATCTCGCAACGGGCCGGAGGCCGGCTGGCCCGGCGGCTCGAGCAGCCTGAATCCGGCCGCACCGAGGGCCATGCCTCTGCGGCAAGTCACCAGAAGCTGACCGACGGCGCGGTGGAGGCCCACCTTGTCCCTTCGGCCGTCCATGAGCTGAGATACGTAGTCCAGCGCATCCTGGACCAGCACATCCGCCATCACCGGGACCTCGGCGACATCGCCGTTATCGTTCGTAACGGCGGGCAGCTGAGTGAGCTCCAGCGCTATTTGTCGGGCCAGGGAATCCCGGTGCGGGTGCCGGTAGCTGAATCCGCCGTACGCGATGAAGTGGCTGTGCGGCCGCTGCTGGATGCTTATGCGATCGCCCTGGATCCAACGCTGCTAACGCCCGAGGCCGCCGTTTCACTGCTTACCTCCCGGATCGGCGGAGCCACGTCCCTGGAACTGCGCAGGCTAAGACAGGCCCTCCGGCGCGAAGAACTGCTGGGCGGCGGCGGGCGGACCAGCGACGCCCTCCTCGTCGAAGCACTTTTGGAGCCGGGTGCCCTGGCCACCCTCGGCATGGAAGGCCGGGCTGCCCGGCGGACTGCACGCATGATCCAGGCTGGCCGGGCCGCCATGTCAGAAGCCGGAGCCAATGCCGAAACAGTCCTGTGGGCGCTCTGGCATTCCACCGGCCTGGCAAACGCCTGGACAGAAACCGCTTTGGCGGGCGGCAACCACGGGGCCAGGGCTGACCGCGACCTTGATGCCATGATGGCACTGTTCCACACCGCGGAACGCTACGTGGACCAAATGCCGGGTGCGGGGCCGGAACAGTTCCTTGAATACCTGCTGAACCAGGAACTGCCCATGGATACGCTTGCCGCCAGGGCACAGCTGGACGACGCCGTCGAACTGATGACACCGGCAAGCGCCGCCGGACGGGAGTGGCCCGTTGTCATTGTGGCGGGGCTGCAGGAAGGGGTCTGGCCCAATACACGGCTCCGGGGTGAACTGCTGGGCAGCACCCTGTATGCCGACGCCGTGGAGCACGGCGTTGGTTATGCGCTGCAGTTGGACCCGCTGAGCCGGCTGCGGGAGATCCGCTACGACGAACTGCGCAGTTTCTCCACAGCCGTCTCCCGGGCACGCGAACTCCTGATCTGCACCGCGGTGTCCTCCGAGGATGATCAGCCCTCTTCTTTTCTCGATTACGTGGCGCCGCTGGGGCCCGGGGAAGAAGGACGGGGCTTTACCCCGGTGGAGCGGCCGCTGACACTTCGCGCCCTGGTGGCCGAGCTTCGGCAGTACGCCCAACTGGGCGGAAAATATGCGCCGGAAGCAGCTGAGGCCACCAGGGTGCTGGCCGGACTCGCCGCGGCGGAACCTCCAGTTCCGGGTGCCCACCCGGACAGCTGGTGGGGACTGGCGCCCCTGACCACCGAGGCGGCGGTGGTGCCTCCCGGGGGGACTGTGTACGTTTCGCCCTCCAAGGTGGAATCAGTGCATAAATCGCCCCTGGACTGGTTCGTCCAGGCGGCAGGAGGCGAGGCCGCCACTGACTTTGCCCGCAGCCTCGGGACCCTGGTCCATGCCATCGCCCAGGACCTGCCGGATGCTTCCGGTTCCGAGTACGTCGCCGAACTGGTCCGCCGGTGGCCGGCACTGGGTATGAAGGACACCTGGGAAAGTAAACTCGATTTCCGCCGCGCCGAGACCATGGTCCGTAAGCTGGCCCAATACATTCTGGTGATGAGGAGCGAGGGCCGAAGCCTGCTTGGAGTGGAGCAGGACTTTGACGTTGAACTCCCTGACGTGGCGGTAGACGGTTTCACTTCGGAACCGGAAGCTGGAGACCCTGGCCTGCTGCCAGACCCGGATGGTTGCCCAGGCAACTCCCGTTCCGCTGTCCTGCGTGGCCAGGTGGACCGGCTTGAGATCGACGCTGAAGGCAGGCTGGTCATCGTGGACCTTAAAACTGGCAAACGCCAGCCGGGCAAGACTGATCTGGCCCGGCACCCGCAGCTTGGCGCTTACCAGGCGGCTGTCCTCGCTGGAGGATTCAAGGATGCAGCAGGCAGGCCACTGGCTGCCAGTCCCGGCGGTGCCGTGTTGGCACAGCTCGGCACCGGTACAAAGAGTCCCGGGGTTCAGCAACAGGAACCCCTGGACCCCCGGGAAAACTGGGCGCTGGAGATGGTCACCGACGCTGCCGCCATTATGGCAGGCAGCAACTTCGAGGCCCGGCACGATCCCTCCAAGGGAAGCCATGGCGGCCACGGCTGCCGGCTGCCGGAAGTTTGTCCGTTGTGTGTCCGGGGAAAACAGGTGACCGAATGA	MTVTIPQTDPSLDSNAKSSADSSADSDAVSDAVVESDTASAGVAAGGFHTDTEAGGSAARRPGTGLRLLPPRKIHADVPVLSPDQRDAVEVPHGSGPILVPGAPGTGKSTVLIEAAVRRARHDGVDPERILILAPGRLAADSLRDRFTARLDRSLSTTPARTWASYAFDLIRRAKAEGVLPLPRPPRLLSGPEQDLIIKELLEGHAMPGLELPWPADLEAALETRGFRHEVRQLFDRIIESGRTAEDLEDLGRQCGRPDWVAAASLYAEYRDVLDLRMPEAFDPAGIITAARQIFEDSPGFLAAERERLQLILVDDIQEANPAIFELLADIAAGKDCYVASSPDTVVQGFRGARPDLVAELPRLLSGGEGVLERPLWHSHRHAPAIAKAWLGVAGRISQRAGGRLARRLEQPESGRTEGHASAASHQKLTDGAVEAHLVPSAVHELRYVVQRILDQHIRHHRDLGDIAVIVRNGGQLSELQRYLSGQGIPVRVPVAESAVRDEVAVRPLLDAYAIALDPTLLTPEAAVSLLTSRIGGATSLELRRLRQALRREELLGGGGRTSDALLVEALLEPGALATLGMEGRAARRTARMIQAGRAAMSEAGANAETVLWALWHSTGLANAWTETALAGGNHGARADRDLDAMMALFHTAERYVDQMPGAGPEQFLEYLLNQELPMDTLAARAQLDDAVELMTPASAAGREWPVVIVAGLQEGVWPNTRLRGELLGSTLYADAVEHGVGYALQLDPLSRLREIRYDELRSFSTAVSRARELLICTAVSSEDDQPSSFLDYVAPLGPGEEGRGFTPVERPLTLRALVAELRQYAQLGGKYAPEAAEATRVLAGLAAAEPPVPGAHPDSWWGLAPLTTEAAVVPPGGTVYVSPSKVESVHKSPLDWFVQAAGGEAATDFARSLGTLVHAIAQDLPDASGSEYVAELVRRWPALGMKDTWESKLDFRRAETMVRKLAQYILVMRSEGRSLLGVEQDFDVELPDVAVDGFTSEPEAGDPGLLPDPDGCPGNSRSAVLRGQVDRLEIDAEGRLVIVDLKTGKRQPGKTDLARHPQLGAYQAAVLAGGFKDAAGRPLAASPGGAVLAQLGTGTKSPGVQQQEPLDPRENWALEMVTDAAAIMAGSNFEARHDPSKGSHGGHGCRLPEVCPLCVRGKQVTE				NA	NA	NA	NA	NA
D1-29_03260	417			hypothetical protein	ATGCGGATTGAGTATGTCGAGGCGGTGCTGGCCATTGTTGAGCTGGTGCCACCCGGTGCCGCAGTTGCTTATGGCGATGTGGCGGAACTTCTCGGATCCGGCGGTCCACGGCAGGTTGGCTCCGTGATGAGCCACTACGGGAGCGGTGTGCCCTGGTGGCGCGTCCTCAAAGCCAGCGGTTATGCCCCTGAAGGCCACGAGGCCCAGGCTCTCCGCCACTATCTGAACGAAGGGACGCCATTGGCCGGCCACTGGCTTGAATTCCTTCGCACCGGCGAAGGCAGATGGCGGGTGGACCTGATGGCAGCACGATGGGCTCCCGGGGACGAACAGTTCGACAGGATAGACGCCATCGCAGAGCAGCTGGAACGGCGGCTGCAAAGATTGTCGGTGGCTGATGATGGAATGTCTGTGTGA	MRIEYVEAVLAIVELVPPGAAVAYGDVAELLGSGGPRQVGSVMSHYGSGVPWWRVLKASGYAPEGHEAQALRHYLNEGTPLAGHWLEFLRTGEGRWRVDLMAARWAPGDEQFDRIDAIAEQLERRLQRLSVADDGMSV				NA	NA	NA	NA	NA
D1-29_03261	711	dinG_3		3'-5' exonuclease DinG	ATGAGTACTTGGAACACCCTCCCCCGGGCCGCTTTTGACCTCGAAACCACAGGCCGGAACTCCCGCGCGGCACGGATCGTCACGGCGTCCGTGACTGTTGTTGACCACAAAGGTGATGTCATCAAGGAACATGAATGGCTGGCAGATCCGGGGATTGAAATTCCCACCGAAGCCAGCGACGTCCACGGCGTCACCACGGAACAGGCCCGGCGGGACGGCAGGCCTGCCCACGAGGTGACGCGGGAGCTTGCCACTGTGCTCCAGGAACTTTTTGATGCGGGCGTCCCCGTGATTGCCTTCAACGCCAGCTACGACTTCACCGTCCTTGCGGCGGAATCAGCCCGCCACGGGGTGCGGCAACTGAGCCGGTTTCCTGTCCTTGACCCCTACATCATGAACAAGCAGGTGGACAGGTACCGCAAAGGCAAGCGCACCCTCACCGCACTCTGCGAGGAGTACGGGGTGAACCTGGACAATGCCCACACATCCGCCGCTGACGCCCTCGCCACCCTGAAGATGCTGGACGCCATGGCCATCAAATTCCCCAAACTCAGGATGCCGGCGAGCCAGCTTCACCAACTCCAGGTGGACTGGGCTGTGAGCCAGGCGGCGGACTTCCAGGGCTACCTCCGCAAAACCAAGCCGGCAGCTGTTATCGAAGGTGACTGGCCCGTCCTTCCCCCCGAGGATGCCAGCCGGGGCGACTTCTAG	MSTWNTLPRAAFDLETTGRNSRAARIVTASVTVVDHKGDVIKEHEWLADPGIEIPTEASDVHGVTTEQARRDGRPAHEVTRELATVLQELFDAGVPVIAFNASYDFTVLAAESARHGVRQLSRFPVLDPYIMNKQVDRYRKGKRTLTALCEEYGVNLDNAHTSAADALATLKMLDAMAIKFPKLRMPASQLHQLQVDWAVSQAADFQGYLRKTKPAAVIEGDWPVLPPEDASRGDF				NA	NA	NA	NA	NA
D1-29_03262	936	mltF		Membrane-bound lytic murein transglycosylase F	ATGAAAAGCAAAGCCCTGAAGTGGCTGACCAGCGTTCCCGTGGCGATCACCGTGGCCGCCTCCCTGGCTGCCTGCGGCGGCGGGACAGCAGGTCCGGCCGGCAGCCCCACTGATGCCCTGGCGGGAAGTGACCAGCAGACGCTGGACAAGTACACCACCGCTGACGTCACCCCGATCGACCAGATCGACAAGACCAAGCTTGGCCTGAACACCGAGGGCAAGCTTGAGGTGGGCACGCTTTCTGACGCCCCGCCCAACATCTTTATCGATCCCTCGGGCAAGTTCACCGGCTACGACAACGAGCTCCTGCGCGCCATTGCCGGCAAGCTCGGCCTCGAGGTCGAATTTGTCGCCACTGACTTCTCGGCCCTCCTCTCCCAGGTCCAGACCCAGCAGTTCGACGTCGGTTCCTCCTCCATTTCCACTACGGAGGCGCGCCGCCAGAATGTGGGCTTCACCAACGGTTACGACTTCGGCTTCATGGCCGTCGTGGCCAAGACCGACGGCGACGTCAAGGGCTTCGATGACCTGACCGCCGACCTGCGCATCGGCGTGGTCCAGGGCACCGTCCAGGACGACTACGTCACCAACACGCTGAAAATGGAACCGATCCGTTTCCCGGACTACGCCACCGTTTACGCCAACGTACGCAACGGCCAGGTGGATGCCTGGGTGGCTCCGTCCCAGCAGGCTGAGGGCCAGGTCAAGGAGGGCGACGGCACCAAGATCGTTGAGTCCAAGGTCAACACGGAGAACTTCACCGCCTACGCCGTGGCCAAGGACAACCAGCCTCTGATTGACGCCCTCAACGCCGGCCTTGACGCCGTTATCGAGGACGGGACCTGGTCCAAGCTGACCAAGGAGTGGTACCCGACACGGGAAATGCCGAGTGACTGGAAGCCGGGCAGCAAGGCCGCCACGGTTCCCCAAAGCTGA	MKSKALKWLTSVPVAITVAASLAACGGGTAGPAGSPTDALAGSDQQTLDKYTTADVTPIDQIDKTKLGLNTEGKLEVGTLSDAPPNIFIDPSGKFTGYDNELLRAIAGKLGLEVEFVATDFSALLSQVQTQQFDVGSSSISTTEARRQNVGFTNGYDFGFMAVVAKTDGDVKGFDDLTADLRIGVVQGTVQDDYVTNTLKMEPIRFPDYATVYANVRNGQVDAWVAPSQQAEGQVKEGDGTKIVESKVNTENFTAYAVAKDNQPLIDALNAGLDAVIEDGTWSKLTKEWYPTREMPSDWKPGSKAATVPQS	PGPT0020800_2162	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
D1-29_03263	765	artQ	COG0765	Arginine transport system permease protein ArtQ	ATGGATCTCCTGGACCAGCTGGCTGACACGTTCTTCAACTGGGAGGAAATGGCAAAAGTCATTCCTGCCCTGCTTATGGTGGGCCTGCCCAACACACTGATTCTGGCAGTAACTTCCGGCATCCTCGGTTCCCTGTTGGGGCTGCTGCTGGCCATGATGGCAATCTCCCGGAACGCGGGAGCGCGCTGGGCAGCCCGCATCTACACCGACATTTTCCGTGGCCTCCCCGCTATCCTGGTGATCCTGGTCATCGGCATCGGTTTGAGCCCGATAGCCCGGGAAATCACAGGCAACAGGAACCCCTACCCCCTGGGGATCCTGGCCTTGACGCTGATCGCGGCCGCCTACATCGGCGAGATCTTCCGGTCAGGCATCCAGAGCGTTGAGAAGGGCCAGCTGGAGGCCTCCAGGGCGCTCGGATTCAGCTACGGCAGTTCCATGCGCCTGGTAGTGGTTCCGCAAGGCATCCGCCGGGTGCTGCCCGCGCTGGTGAACCAGTTCATTTCCCTGCTCAAGGATTCCTCGCTGGTGTTCATGCTGGGTCTGGCAGCCTCCGACCGGGAAATATTCCGGATCGGAAACGACGCCATGGCCAACACGGGAAACCTTTCTCCGTTGGTGGCGGCCGGCATTCTGTACCTGGTCCTCACCGTGCCACTGACGCACTTCGTGAACTTCATCGATAACCGGCTCCGGACCGGCAAGCCGGAGAAAAAGGAACCCGACGAATTGGCTGCACCTATCGGCAAGGGGGCACAGGCATGA	MDLLDQLADTFFNWEEMAKVIPALLMVGLPNTLILAVTSGILGSLLGLLLAMMAISRNAGARWAARIYTDIFRGLPAILVILVIGIGLSPIAREITGNRNPYPLGILALTLIAAAYIGEIFRSGIQSVEKGQLEASRALGFSYGSSMRLVVVPQGIRRVLPALVNQFISLLKDSSLVFMLGLAASDREIFRIGNDAMANTGNLSPLVAAGILYLVLTVPLTHFVNFIDNRLRTGKPEKKEPDELAAPIGKGAQA	PGPT0020795_3877	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
D1-29_03264	738	tcyC_2	COG1126	L-cystine import ATP-binding protein TcyC	ATGACGGAATTTACCTCCGGCACCCTGACCGGCAAGAACCTCCACCTCTCGTTCGGCCACAATCATGTGCTCCGCGGCATCGATCTCCATGTGGAGAAAGGCACCACGGCTTCGGTGATCGGCCCCTCGGGCTCCGGGAAGTCCACTCTGCTGCGGGTCATGAACCGGCTGATCGAACCCGATCAGGGAGACATCCTGCTGGACGGCCGGTCTGTCCTTAAGGACAACCCCGATGAGCTCCGCCAGCGGATCGGCATGGTGTTCCAGCAGTTCAACCTGTTCCCGCACAAGACAGTGGTGGAGAACGTTTCGCTGGCGCTGCGGAAACTGCGGAAGCTTCCTGCGGAGCAGGCCCGCACTGAAGCCCTTGACCAGTTGGACCTCGTGGGACTCAAGCACAAGGCTGACGTACGCCCGGCCAACCTCTCCGGCGGCCAGCAGCAGCGTGTAGCGATCGCCCGCGCGCTTGCCATGAAGCCCGAGGTCATGTTCTTCGATGAGGCCACGTCGGCCTTGGACCCTGAGCTTGTCAAAGGTGTCCTGGCGCTGATGGCTGACCTGGCGAGGGGCGGGATGACCATGGTGGTGGTGACCCACGAAATGGGCTTCTCCCGCAATGTCTCGGACACCGTGACGTTTATGGACGCCGGCGTGGTGGTCGAATCCGGCCATCCCGACCAGATCTTCACCGCGCCGCAGACGGATCGCCTCAAGGGCTTCCTCTCCGACGTGCTGTAA	MTEFTSGTLTGKNLHLSFGHNHVLRGIDLHVEKGTTASVIGPSGSGKSTLLRVMNRLIEPDQGDILLDGRSVLKDNPDELRQRIGMVFQQFNLFPHKTVVENVSLALRKLRKLPAEQARTEALDQLDLVGLKHKADVRPANLSGGQQQRVAIARALAMKPEVMFFDEATSALDPELVKGVLALMADLARGGMTMVVVTHEMGFSRNVSDTVTFMDAGVVVESGHPDQIFTAPQTDRLKGFLSDVL	PGPT0020790_4218	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
D1-29_03265	1428	hemL	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase	GTGTCGCCGACCTCTTGGCCGGGGCTTCCCGGCCCGTTGAAAGCAACTGAAAGAATAGGAACCATGACCTCCAGCAACCCTCGTAACGAGGCACTCTTTGACCGTGCCCGCCAGCTGATGCCGGGCGGCGTCAACTCTCCTGTCCGCGCCTTCGGATCAGTGGGCGGAACCCCGCGCTTTATGGTCGCAGCCAACGGTCCGTACCTGACTGATGCCGACGGCCAGGAATACGTTGACCTCGTTTGCTCCTGGGGCCCGGCGCTCCTGGGACACGCCCACCCCGCCGTCCTCGATGCTGTCCACGCCGCTGTGGACCGTGGACTCTCCTTCGGCGCCTCAACCCCCGATGAGGCCAACCTCGCCGCCATCGTCCAGGAGCGGGTTCCCGCAGCGGAGCGCGTCCGTATGGTTTCCACCGGCACCGAAGCCACCATGACGGCCGTCAGGCTGGCCCGCGGCTTCACCGGCCGCAACCTCATCATCAAGTTCGCCGGCTGCTACCACGGCCACCTGGACGGCCTGCTCGCCGCCGCCGGATCCGGCGTGGCCACACTGGCCTTGCCGGGATCGGCCGGTGTCACCGAAGCCACGGCCGCCGAAACCCTGGTGCTTCCGTACAACGACCTCGCCGCCGTCGAGGCCGCTTTTGCCACGCACGGTACCAACATCGCAGCGGTCATTACCGAGGCAGCCCCGGCCAACATGGGCGTTGTAACGCCCGGCGAGGGCTTCAACCTGGGCCTGTCCAGGATCACCAGGCAGTACGGTGCCCTGCTGATCGTGGATGAAGTCCTCACCGGCTTCCGCACGGGCTACTCCGGCTACTGGGGACTGACCGGCGGAGCGCCGGACGCTGCTGAACCGTGGACCCCGGACCTGCTCACCTTTGGAAAAGTCATCGGCGGCGGAATGCCGACGGCGGCCCTCGGCGGACGTGCCGACGTGATGGATTACCTCGCCCCGCTGGGCCCGGTGTACCAGGCGGGGACGCTGTCCGGAAACCCGGTGGCCATGGCAGCGGGCGTGGCGACCCTGACGCACGCCACCCGCGACGTGTACTCCTTTATTGATGCGAGGTCGCTGGAGTTGTCCTCCGCGTTGTCCTCGGCACTGGACGCCGCGGGAGTGGACCACTCCATCCAGTTCGCCGGAAACCTCTTCTCCGTTGCCTTTGGAACCTCTGCCACCGGGGTCCACAACTACGCTGACGCGCAGGGCCAGGAAACGTTCCGCTATGCGCCGTTCTTCCATTCCATGCTCGACGCCGGTGTGTACCTGCCGCCGTCGGTCTTTGAAGCGTGGTTCCTGTCGGCAGCCCATGACGACGCCGCCATGAACCGGATCTTTGATGCCCTGCCAGCCGCAGCGCAGGCTGCTGCGGCGGCGACGGTGAGCCCCGTCGTCGGGCGTTCCGCTGCGGTCAGCTGA	MSPTSWPGLPGPLKATERIGTMTSSNPRNEALFDRARQLMPGGVNSPVRAFGSVGGTPRFMVAANGPYLTDADGQEYVDLVCSWGPALLGHAHPAVLDAVHAAVDRGLSFGASTPDEANLAAIVQERVPAAERVRMVSTGTEATMTAVRLARGFTGRNLIIKFAGCYHGHLDGLLAAAGSGVATLALPGSAGVTEATAAETLVLPYNDLAAVEAAFATHGTNIAAVITEAAPANMGVVTPGEGFNLGLSRITRQYGALLIVDEVLTGFRTGYSGYWGLTGGAPDAAEPWTPDLLTFGKVIGGGMPTAALGGRADVMDYLAPLGPVYQAGTLSGNPVAMAAGVATLTHATRDVYSFIDARSLELSSALSSALDAAGVDHSIQFAGNLFSVAFGTSATGVHNYADAQGQETFRYAPFFHSMLDAGVYLPPSVFEAWFLSAAHDDAAMNRIFDALPAAAQAAAAATVSPVVGRSAAVS	PGPT0003680_1393	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
D1-29_03266	1119			hypothetical protein	ATGAACCCCGCGTCCGTGCCCGATCCGGCGTCAGCGGCGAACCCGACAACACCGGTTGGCGCGGACCGTATCCTGCTGGGACTGAACTCCTTCGGCGACGTCGGCGTCTTTCCTGACGGGCACCCCGTCCCGCACGCCCAGGTGCTGCGCCAGCTCCTTGAGCAGGCTGAACTCGCAGACGAGGTAGGGCTTCATGCCTTTGCCGTGGGAGAACACCACCGCCGTGACTTCGCGGTATCGGCCCCGGAGGTTTTCCTTGCCGCCGCTGCAGCACGGACCAAGAACATCCGGCTCGGCTCGGCCGTGACGGTGCTCAGCTCCGATGACCCCATCCGGGTGTTCCAGCGCTTCGCCACAGTGGATGCCATCGCCAACGGACGCGCGGAGGTCATGCTGGGGCGCGGGTCCTTCATCGAGTCCTTTCCGCTCTTCGGCCTGGACCTGGCCGACTATGACCTCCTGTTTGAGGAGAAGCTCGAGCTCTTCGACAAGGTCCGCCGGCAACAACCTGTGCACTGGGAGGGCCGGACCCGGCCCGCGATCCACGGGCTGAGCGTCTATCCGCCGTTGGAACACCACCTGCTGCCGGCCTGGATAGGCGTCGGCGGAACCCCGGAATCCGTGCTGCGCTGTGCCCAGTACGGATACCCCATCATTTTCGCCATCATCGGCGGACAGCCCCGCTCGTTCGCGCCTCTCGCCAATCTCTACCGCGAAGCGATGGCCAAATACGGCCATCCAATGCAGCAGATCGCCACGCATTCGCCCGGCCATGTTGCGGCAACCGATGAGGAGGCGCGGGACGAGTTCTTCCCGCACTGGCTGGAGCAGCGGAACCGCATTGGCTCCGAGCGCGGCTGGGGACCGGCCAGCCGGGGCGAATTCGAGGCAATGTGCACCCCGGAGGGCGCCCTCTACGTCGGTTCACCGGAAACCGTCGCCGCCAAGATCGCGCTGCTCAAGAAGAACCTGGGCGTGGACAGGTTTGACCTCAAATACAGCAACGGCACCCTGCCGCACGCCGCCATGATGCGCTCGATCGAACTGTTCGGCACCGAGGTGGCGCCACGTGTCGCCGACCTCTTGGCCGGGGCTTCCCGGCCCGTTGAAAGCAACTGA	MNPASVPDPASAANPTTPVGADRILLGLNSFGDVGVFPDGHPVPHAQVLRQLLEQAELADEVGLHAFAVGEHHRRDFAVSAPEVFLAAAAARTKNIRLGSAVTVLSSDDPIRVFQRFATVDAIANGRAEVMLGRGSFIESFPLFGLDLADYDLLFEEKLELFDKVRRQQPVHWEGRTRPAIHGLSVYPPLEHHLLPAWIGVGGTPESVLRCAQYGYPIIFAIIGGQPRSFAPLANLYREAMAKYGHPMQQIATHSPGHVAATDEEARDEFFPHWLEQRNRIGSERGWGPASRGEFEAMCTPEGALYVGSPETVAAKIALLKKNLGVDRFDLKYSNGTLPHAAMMRSIELFGTEVAPRVADLLAGASRPVESN				NA	NA	NA	NA	NA
D1-29_03267	984	hemB	COG0113	Delta-aminolevulinic acid dehydratase	ATGAGTTTTCCGAACCAACGCCCGCGCCGCCTCCGCACCACGGCGGCCATGCGGCGGCTCACTGCCGAAACCAGGCTGGCGCCGCCGGAGCTGATCCTGCCGGCGTTCATCAGGGAGGGCCTCTCGGAGCCACATCCGATCACCTCCATGCCCGGGGTGGTGCAGCACACCACTGACACGCTCAAAAAGGCGGCAGCGGAGGCAGTCGACCTGGGCATCGGCGGCATCATGCTCTTCGGCATCCCCGCCGTCCGGGACGCCGAAGGCACTGCATCGCTGGATCCGGACGGTGTGCTTAACAGGGCAATCCGTGATGTCCGGTCCGAGGTGGGCGATGAGCTGGTCATCATGAGTGACGTCTGCCTGGACGAATTCACGGACCACGGACACTGCGGGGTCCTGAATGCTGACGGCTATGTGGACAACGACCGCACCGTGGAAATTTACGCCAGGATGGCCGTGGCCCAGGCCGACGCCGGGGCCCACATGCTGGGCCCGTCCGGCATGATGGACGGCCAGGTGCGCGCCATCCGGCAAGCCCTCGACGAGGCCGGACACACCGAAACCTCGGTGGTGGCCTATGCGGCCAAGTACGCCTCCGCGTTCTACGGCCCGTTCCGGGAGGCAGTGGATTCGCAGCTGACGGGCGACCGCCGGACGTATCAGATGGACGCCGGAAACCGGACGGAGGCCATACGCGAGGTGGAGCTGGACCTGGCGGAAGGCGCCGACGTCGTGATGGTCAAGCCGGCCATGAGCTACCTGGACATTCTGGCTGACGTTGCCGCGATGAGCCCGGTCCCGGTTGCCGCCTACCAGATTTCGGGCGAGTACGCGATGATCGAAGCCGCCGCCGCCAACGGGTGGATCGACCGCCGCGCAGCAATTACCGAGTCTGTGCTTGGCATCAGGAGGGCAGGGGCGGACATGGTGCTGACGTATTGGGCGGCGGAGCTGGCCGGCTGGCTGAGGGAATCGCGATGA	MSFPNQRPRRLRTTAAMRRLTAETRLAPPELILPAFIREGLSEPHPITSMPGVVQHTTDTLKKAAAEAVDLGIGGIMLFGIPAVRDAEGTASLDPDGVLNRAIRDVRSEVGDELVIMSDVCLDEFTDHGHCGVLNADGYVDNDRTVEIYARMAVAQADAGAHMLGPSGMMDGQVRAIRQALDEAGHTETSVVAYAAKYASAFYGPFREAVDSQLTGDRRTYQMDAGNRTEAIREVELDLAEGADVVMVKPAMSYLDILADVAAMSPVPVAAYQISGEYAMIEAAAANGWIDRRAAITESVLGIRRAGADMVLTYWAAELAGWLRESR	PGPT0003655_3440	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
D1-29_03268	912			hypothetical protein	ATGGGGCAGTTTGAGATGGGGCGGCCTGAAAAGGACAGCGGAGACGGCACGCCGCCATCCGGCAGGCAGCCGCTGGCCCGTGCGCGCGTCCTGATTACGCGCAATCCCGAGCGCTCCGTTTCCCTGCTCTCTGCGCTGGAGAGGGCAGGTGCAGAAGCCCTGCTGCTTCCGCTCATCGACTTTGAACGGGCCGCGGACCAGCACGCCCTGGATGTGGCCTGCGATGCCCTGGGCGCGGGTGCCTTCGACTGGCTTGTTGTCAGCAGCGCCACCACCGTCCATGTCCTCAGGGACAAGGCCGCAGAACGCGGCCTGACCCTCGGCGGCTGGGTGCCTGCGTCTACCCGGGTGGCCGCCATTGGTCCTGCCTGCAGGGAGCTGCTTGAAGCAGAAGGCCTCACCGTGGCGCTGACCCCCCGGGACTCGCAGTCCGCCGCAGGCCTGCTGGCCGTCTGGCCGGAAGGATCCGCAAGGGTGTTCCTGCCGCAGGCTGACATTGCCGCTCCCCGCCTCGCTGACGGGCTGGCCGCCTCCGGGGCATCGGTGACTGCCGTTCCGGCTTACCGGACAGTGGATTATCCGGCGGATGAGGAACACAGGCTGTCCCTTGAAACGGCGGCCACCGCGCCGCCGTCGTACAGGATGGTGAGTCCTGAAGCCGCCCGGGCAGAGCTGACGGGAGGCCGGCTGCACGCGGTGGTAGCCGCCTCGCCCAGCGCCGTACGGCGCATCCACAGCAAACTCTCGCCACTGGGCAGCTGCCGCCTGGTAGCGATCGGACGTTCGACGGCGGAAGAGGCTGCGGCGCTCGGCCTGGTGGTGGCGGCCGTCGCGGCAGAACCCACACCGGAAGGGCTGGTCGCGGCAGTTTCCGAAGCCCTCAAATCCCAGGACGGGAAGGCTCCGCCGTGA	MGQFEMGRPEKDSGDGTPPSGRQPLARARVLITRNPERSVSLLSALERAGAEALLLPLIDFERAADQHALDVACDALGAGAFDWLVVSSATTVHVLRDKAAERGLTLGGWVPASTRVAAIGPACRELLEAEGLTVALTPRDSQSAAGLLAVWPEGSARVFLPQADIAAPRLADGLAASGASVTAVPAYRTVDYPADEEHRLSLETAATAPPSYRMVSPEAARAELTGGRLHAVVAASPSAVRRIHSKLSPLGSCRLVAIGRSTAEEAAALGLVVAAVAAEPTPEGLVAAVSEALKSQDGKAPP	PGPT0003665_758	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
D1-29_03269	999	hemC	COG0181	Porphobilinogen deaminase	GTGACCGTCCGGATCGGAACCAGGGCCAGCAAGCTCGCCCTCACGCAGACACAACAGACCGCGGACCAGCTGGCCGCCGTCGGAGGCTTTCCCGTTGAGCTGGTGCGTATCCGCACGGACGGCGACGTCCTGACCGGTTCACTGTCCCAAATGGGCGGCACGGGAGTTTTTGTGACCGCCCTGCGCGATGCGCTGCTGCGGAACGAGTGCGACGTCGCCGTTCATTCGCTCAAGGACCTCCCGACGGGCGCGCCGGTTGGCTTGGCCCTGGCCGCCACCCCGCGGCGCGTCGACGTGCGCGACGTCCTCTGCGCACGGGACGGCCTGAAGCTGGCTGACCTGCCCTCCAGGGCAACTGTCGGAACGGGATCGCCCCGGCGTGCGGCACAGCTGCGCGCAGCCCGGCCGGACCTCCAGATCGTCGACATCCGCGGCAACGTGGATACCCGCCTTGGCAGGGTCCCCGGGCTGCCGGGTAACACTACTGACCAGGTTGTTCCCGGCAAATCCTGCGATCTTGACGCCGTAGTCCTCGCAGCGGCGGGGCTGGAGCGGATCAGCAGGCTGGATGCCGTCAGCGAATTCCTGGAGACTGACGTGATGCTTCCTGCCGCCGGGCAGGGGTCATTGGCGATTGAATGCCGGACCGCCGACGCGCCACGCAAGGCGGGGTCCACCGAGGGCTCCCAGGGTGTCCTTGCCCAGGCACTCGCCGCACTGGACGATCCGGACACCAGGCTCGCCGTCACCGCGGAGCGTGCGCTCCTGGCGCGGCTCGAAGCCGGCTGCGCGGCCCCGGTGGGCGCCTACGCCTACCGCAAGGGCAGCCTGCTTCACCTCGAAGCAGTGGTTTGTGCCGTGGACGGGACGGCCTCTGTCCGTGACAGGCGGGCCACCGACGGATTGACCGAGGTAGGCGCCACGCTGCTGGGCATCGAACTGGCCGAGGTACTCCTTGCCGGCGGGGCCGCCGACATCGCAGACCTCCAGGCTTCCTGA	MTVRIGTRASKLALTQTQQTADQLAAVGGFPVELVRIRTDGDVLTGSLSQMGGTGVFVTALRDALLRNECDVAVHSLKDLPTGAPVGLALAATPRRVDVRDVLCARDGLKLADLPSRATVGTGSPRRAAQLRAARPDLQIVDIRGNVDTRLGRVPGLPGNTTDQVVPGKSCDLDAVVLAAAGLERISRLDAVSEFLETDVMLPAAGQGSLAIECRTADAPRKAGSTEGSQGVLAQALAALDDPDTRLAVTAERALLARLEAGCAAPVGAYAYRKGSLLHLEAVVCAVDGTASVRDRRATDGLTEVGATLLGIELAEVLLAGGAADIADLQAS	PGPT0003660_1063	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749	NA	NA
D1-29_03270	1263	hemH	COG0276	Ferrochelatase	ATGAGCCCACTGGACCGCCAGGAATACCTGGCAGCAGGAACCATGAATCCCGTTACCGAAGCCGGCCGGATGGCGCCCAAGAATTACGACGGCGTCCTCCTCGCCTCCTTCGGCGGGCCTGAGGGCCAGGAGGACGTCATTCCGTTCCTCCGAAACGTCACGCGGGGCCGCGGGATCCCGGACGAGCGGCTGGAAGAGGTCTCCCACCACTACCGCGCCAACGGCGGCATCAGCCCCATCAACCGGCAGAACCGCGAGCTCAAGGCGGCCCTGGAAGCGGAACTTGAGGCGCGGGGCATTGAGCTGCCAGTGCTGTGGGGAAACCGCAACTGGGCCCCGTACATCCCGCAGACCCTGCAGGACGCGTACGACGCCGGCCACCGCAGCCTGCTGATGATCACCACCAGCGCCTACTCGTGCTACTCCAGCTGCCGCCAATACCGCGAGGACATCGGCATGGCGCTGACCGAGACCGGCCTGGACGGACGGCTTGAGGTGGACAAGGTGCGTCAGTATTTCGACCACCCTGGTTTTGTGGAGCCCTTTATCGAAGGCACAGCGGCGGGCCTGGCCGACGTCCGGGCGCGGCTGGCAGCTGCCGGAACCCCGGATGCGCCGGTGCACATCCTGTTCGCAACCCACTCCATCCCCACCCGGGATGCCGAGGCCGCCGGACGCTCCGAGGCAGAGCCCCGCGAGTTTGAGGAAGGCTCGGCGTACGTTGCCCAGCACCTCGCCACCGGTGCAGCGGTCATGGACCGCGTCGAGGCAGAATCAGGGCAGACTGCTCCCTGGTCACTGGTTTACCAGTCCCGCTCGGGGGCCCCGCACGTGCCGTGGCTTGAACCTGACATCAACGATGCCATCGAGGAACTGGCCGGCCAGGGTGTCAAGGGAATCGTGATTGTGCCACTGGGATTTGTCAGCGACCACATGGAGGTTGTCTGGGACCTGGACACCGAGGCGCTGGAGACCTGCCGCAGCCTTGGCCTCACCGCCACCCGGGTGCCCACACCTGGAACGCACCGCACCTTTGTGAAGGGGCTGGTGGACCTGATCCTGGAGCGGACACTGACCGGCAACATCGCTGACCGTCCGGCAGTGACCGGCCTGGGGCCTTGGTACGACGTCTGCCGGCCGGGATGCTGCGCGAACTTCCGCGGCGAGAAGCCCACCGTCGCAGGGGCTGACACCACCGTCGGCACCGGTCATGACCCTTATCCGGAGTCCGGTGTACGGGCCGGGGGAGAGGGCATCCAGTGA	MSPLDRQEYLAAGTMNPVTEAGRMAPKNYDGVLLASFGGPEGQEDVIPFLRNVTRGRGIPDERLEEVSHHYRANGGISPINRQNRELKAALEAELEARGIELPVLWGNRNWAPYIPQTLQDAYDAGHRSLLMITTSAYSCYSSCRQYREDIGMALTETGLDGRLEVDKVRQYFDHPGFVEPFIEGTAAGLADVRARLAAAGTPDAPVHILFATHSIPTRDAEAAGRSEAEPREFEEGSAYVAQHLATGAAVMDRVEAESGQTAPWSLVYQSRSGAPHVPWLEPDINDAIEELAGQGVKGIVIVPLGFVSDHMEVVWDLDTEALETCRSLGLTATRVPTPGTHRTFVKGLVDLILERTLTGNIADRPAVTGLGPWYDVCRPGCCANFRGEKPTVAGADTTVGTGHDPYPESGVRAGGEGIQ	PGPT0008485_419	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
D1-29_03271	702		COG3253	putative protein/MSMEI_2713	ATGAGCCACACTTCTGCCGAATCTGTCACTAAAACCGAAGAATCAGCCGAGCAGTTTTTTACTCTCTGGACTGTTTTCAAGCGGTCTGCAGAGATCCTGCGCAGCCCTGACGCCGCCGAGGACTTCGACGCGCTGCTGTTCCGCCTTGCCGAGGCAGGTGTCACCCACCGTGGAAGCTATGACGTCTCCGCCATGCGCGCGGATGCTGACGTGATGGTGTGGCTCCACGGGCCCAAGCCGGAGGCCTTGCAGCAGGCCATCCGCGATATCCGCCGCAGCAAGCTCTTCGCTGGAACAGAGATCGTCTGGTCGGCCATGGGCGTACACCGCGAGGCAGAATTCGCCAAGAACCACACGCCGGCATACTCCCGCGGCGTGGAACCGGCCGACTGGCTGTGCGTCTACCCGTTCGTGCGCTCCTACGAGTGGTACATCCTGCCCGAGGCCGAACGCGGGAAGATGCTGCGCGACCACGGCATGCTGGGCCGCGACTTTCCCCAGGTCATTTCCAACACGGTGTCTTCCTTCGCATTGGGGGACTGGGAATGGATCCTTGGCCTGGAAGCTCCCGACCTGGTTGACCTGGTGGACCTGATGCGCCACCTGCGCGCCACGGAAGCACGCAACCACGTCCGGGAGGAAATCCCGTTCTTTACCGGCCGCCGCATCTCGGCTGCGGAGATAGCAGAGGTCCTCGCATGA	MSHTSAESVTKTEESAEQFFTLWTVFKRSAEILRSPDAAEDFDALLFRLAEAGVTHRGSYDVSAMRADADVMVWLHGPKPEALQQAIRDIRRSKLFAGTEIVWSAMGVHREAEFAKNHTPAYSRGVEPADWLCVYPFVRSYEWYILPEAERGKMLRDHGMLGRDFPQVISNTVSSFALGDWEWILGLEAPDLVDLVDLMRHLRATEARNHVREEIPFFTGRRISAAEIAEVLA	PGPT0008490_515	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0008490-hemQ-K00435	NA	NA
D1-29_03272	378			hypothetical protein	TTGTCGTCGGGGGCACAGCAAGGCGCCGCTGCAGGGACGGGGGCCACCACCGGGGCAGGCCTGCAATCGGCGCTTCCACAGCCGGCAGCTGAGGGCTCCCAGCCCGAACAGGCGCCTGTCCAGCCGGAGGCGACCCAGCCCGAAGCAGTCCAGCCGGAAGCCGGGGCCGGCCAAAGCTCAAGCGTGCCGTCACCCAGTGCCGGACAGGCGTTCCGCAGCGGCACCCTGCAGGCCGCAGGCTCACCCGCTGTCAGCCGGCAGGGAATGACCCAGGCGCCGGAGAACCTGCCCGAGACAGCCAAGGTGTTGCTCGGACTTGGCCTGGTAGTCTCCGCGGGTGCCGCGGGACTCGTCTTCGCCAAAATCCGGCGGCTCTGA	MSSGAQQGAAAGTGATTGAGLQSALPQPAAEGSQPEQAPVQPEATQPEAVQPEAGAGQSSSVPSPSAGQAFRSGTLQAAGSPAVSRQGMTQAPENLPETAKVLLGLGLVVSAGAAGLVFAKIRRL				NA	NA	NA	NA	NA
D1-29_03273	1458	hemY	COG1232	Protoporphyrinogen oxidase	GTGACGGAGGGCAGAACCGCCGTGGTGGTGGGCGGCGGGATTTCCGGCCTGCTGGCTGCGCGCGAGCTGTCCGCGGCCGGATACACGGTTACTGTTCTGGAGGCCGGCGGCACCTGGGGCGGCTGCGTTGGCAGCCACGTGGTGGCCGGGCTCACGCTGGACAGCGGCGCGGAATCCTTTGCCACGCGTTCCACCGCGGTGGCTGACCTTGCCGGGGAGCTGGGCCTGGCCGGCAAGATTGTTGCGCCGCGGCCGGGCGGTGCCTGGGTCCAGCTTCCGGACGGCCCCCGTGAACTGCCGAAGACCGGCGTCCTGGGTATTCCTGCCAATCCGTGGGATCCGGAAGTGCGGCGCTCCCTGGGGTTCCTCGGCTCGCTGCGGGCGTCGCTGGATAAGGTCCTCCCCGCTGCTGTGGGGTCCTCTGCTGCCGTCACCAGCGTGTCATCCCTGGTGCGCCTACGGATGGGCCGCCGGGTGCTTGAAAGGCTGGTGGCGCCGGTGGTGGGGGGAGTGCACTCCGCCGATCCGGGCCTCCTGGATGTGGACATGGTGGCGCCGGGCTTACGCGCGGGCCTGCGCGCACACGGTTCACTGGCCGCTGCCGTCACCGCGCAACGTGGAGGCGCACGGCCGCAGGGCGCTGTATCGCCCGCCGCCGCGGATCCGCCCGCTTCCGCGCCGCCGGCCAAGGCGGGGTCCGCCGTTGCCGGGCTCGAGGGCGGCATGCACACGCTGATCGCCGCGCTGGTCAGCGATCTTACGGACCGCGGCGTGAACCTGCTGACCGCTTCCCGGGCCAGGAGCGTCACGCGTACGGACGCCGGCTGGCGGGTTGCGGCCGGGGAGAAAGAGTACGACGCCGGCCTGCTGGTGGTGGCGCTGGACGGTCCGGCCGCCGTCGGACTGCTGGAGCAGTCCGTTCCGGAACTGGCTGGCAAAAGCCCGGAAAGCGGACCTGACGTCAAACTGGTCACCCTGGTGGTGGACCGTCCGGAACTGGACAGCAGGCCACGCGGCACCGGCGTCCTGGTAGCCCCGCAGACCCCGGGCATCGAGGCAAAAGCGCTCACCCACGCGACAGCCAAATGGGACTGGCTCGCAGCCGCCGCCGGACCCGGCACCCACGTCCTCCGGCTCTCCTACGGGCGGATCGATGGTTCACCCTCGGGCGGTGCCGGGCCAACGAGTGACAGCGAGCTCCTGGCTGCCTCGCTCCGGGACGCGTCGGCATTGCTGGATGTACCTCTCGAACGGGAGGACGTCATCGGTTGGGATGTGGTCAGGTGGCAGGGCGCCTTGCCGTTCGCCGCCGTCGGCCACAAAGCCAGGGTGGCCGAGATCAGGAGCCTTTGCGCCCGGGAGGGTGGCCTGTCGGTGGTGGGCGGCTGGGTGGCGGGCAACGGACTGGCCGCCGTGGTGGCGGACACTCGCCAGCAGGTCCGCGGCATCCTGGGCTGA	MTEGRTAVVVGGGISGLLAARELSAAGYTVTVLEAGGTWGGCVGSHVVAGLTLDSGAESFATRSTAVADLAGELGLAGKIVAPRPGGAWVQLPDGPRELPKTGVLGIPANPWDPEVRRSLGFLGSLRASLDKVLPAAVGSSAAVTSVSSLVRLRMGRRVLERLVAPVVGGVHSADPGLLDVDMVAPGLRAGLRAHGSLAAAVTAQRGGARPQGAVSPAAADPPASAPPAKAGSAVAGLEGGMHTLIAALVSDLTDRGVNLLTASRARSVTRTDAGWRVAAGEKEYDAGLLVVALDGPAAVGLLEQSVPELAGKSPESGPDVKLVTLVVDRPELDSRPRGTGVLVAPQTPGIEAKALTHATAKWDWLAAAAGPGTHVLRLSYGRIDGSPSGGAGPTSDSELLAASLRDASALLDVPLEREDVIGWDVVRWQGALPFAAVGHKARVAEIRSLCAREGGLSVVGGWVAGNGLAAVVADTRQQVRGILG	PGPT0008475_817	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008475-hemY-K00231	NA	NA
D1-29_03274	1194	hemE	COG0407	Uroporphyrinogen decarboxylase	GTGATTTGCGCCACGGCGTCCACTTGGCCGCGTGGGATGACAGGCTGTCGTTATCTTTTGCGCCGGATTTTGGGCACAATCAAAAGCATGACTCCTAGCCCCGCCGTGTCCAAAGCCATGTCCAGTGACGGCGCCCTTGCTGCAGACCATCCGCTGATGGATGGCCGCACCGCAGATTCCCCGCTGATCACGGCCTACCGCGGCGGCAAGCCCTCCCGCCGCCCGGTGTGGTTCATGCGGCAGGCCGGGCGTTCCCTGCCGGAGTACCTGAAAGTCCGCGAAGGCGTGGCCATGCTGGACTCCTGCCTGCGCCCCGACCTTGCCTCCGAAATCACCCTTCAGCCGGTGCGGCGCCATGACGTGGATGCTGCCATTTTCTTCTCGGACATTGTGATTCCGCTTAAGCTCGCAGGCGTGGGCGTGGATATCGTCCCGGGGGTTGGTCCTGTGCTGGACAAGCCGGTACGTACCGCCGCTGATGTTGCCGCCTTGCCCGAGCTCACGTGGGAGGCCCTGGAGCCGATCAGGGAAGCGGTTCGGCTGACGGTGGCCGAGTTGGGCAAGACCCCGCTGATCGGCTTCGCCGGCGCGCCGTTTACGTTGGCCGCCTACATGGTTGAAGGCAAGCCGTCGCGGGACCACCTGGGTCCGCGGACGATGATGCACGCCGACCCGGAAACCTGGACGGCGCTGGCCAACTGGGCAGCCGATGCCTCCGGACTCTTCCTCCGGGCCCAGCTCGAAGCGGGAGCCTCCGCCGGGCAGCTCTTTGATTCCTGGGCGGGCTCTCTGGGGCTGGCCGACTACACCAGGTACGTTGCGCCGGCGTCGGCCCGCGCCCTGGACCATGTGCGGCATCTTGGCGCACCCCTCATCCACTTCGGCACCGGGACGTCGGAGCTGCTGGTAGCCATGCGCGACGTCGGCGTCGACGTGGTGGGCGTGGACTACCGCCTGCCGCTCGATGAGGCGAACCGGCGGCTTGGCGGGACGGTGCCGCTGCAGGGAAATATCGATCCCGCGCTGCTGTCAGCGCCCTGGGACGTCCTCGAGGCCCACGTGCGGGAGGTGATCGCCGCCGGTTCGGCCGCCCCCGGTCACGTGCTCAACCTCGGCCACGGCGTCCCGCCGGAGACTGATCCTGCCGTTCTCACCCGGGTTGTTCAGCTCATCCACTCCATCTCCCCGGAGTAG	MICATASTWPRGMTGCRYLLRRILGTIKSMTPSPAVSKAMSSDGALAADHPLMDGRTADSPLITAYRGGKPSRRPVWFMRQAGRSLPEYLKVREGVAMLDSCLRPDLASEITLQPVRRHDVDAAIFFSDIVIPLKLAGVGVDIVPGVGPVLDKPVRTAADVAALPELTWEALEPIREAVRLTVAELGKTPLIGFAGAPFTLAAYMVEGKPSRDHLGPRTMMHADPETWTALANWAADASGLFLRAQLEAGASAGQLFDSWAGSLGLADYTRYVAPASARALDHVRHLGAPLIHFGTGTSELLVAMRDVGVDVVGVDYRLPLDEANRRLGGTVPLQGNIDPALLSAPWDVLEAHVREVIAAGSAAPGHVLNLGHGVPPETDPAVLTRVVQLIHSISPE	PGPT0008465_487	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599	NA	NA
D1-29_03275	1314	hemA	COG0373	Glutamyl-tRNA reductase	GTGGTTCTTTTTTCATTGGTGGCTACACACGCCGACATCGACCTTGAGACCGTTGCTCAATTGAGCAACGGTTCTTCCGGGGTTGCCACATCCGCACTCTCCGGATCGCCGGCAGTGACGGGTGCGGTGGTGCTTGCCACCTGCAACCGCTACGAAATCTATGGAGAAGCGCCCCATGCTGATGACGTCGAGGCTGCACGCGCCGCCCTGGTGTCCCAGATCAGCGGCCTCAGCGGCCTGAACGAACAGCTGGTCTCCCGGTCCTTCAGCACCAGGACGGGACCTGAAGTCAGCCAGCACCTTTTCGCCGTCAGCGCCGGCCTCGATTCCGCGGTGGTGGGCGAACGTGAAATCGCCGGCCAGGTGCGGCGGGCCCTCATCACGGCCCAGCATGAAGGCACGGCCAGCTCCGGCCTGGTCCGGCTGTTCCAGGCCGCTTCAAAAACTGCCAAGGACGTAGGCGCCCAGACCGCCCTCGGTTCCCGCGGCCTGTCCATCGTGTCAGTAGCCCTGGACCTTGCCACCGACCTGTCCGAGAACCAGGACTGGTCCACCAAGAAAGTCGTGGTGTTCGGCACGGGCGCCTACGCCGGCGCCACCATGGCGCTGCTGCGTGAACGCGGCTGCACTGACATCTCTGTTTTCTCGTCCTCCGGCCGCGCCGAAGCTTTTGTCGCCACCCGTGGCGGCACCGCACTGGACAGCGAATCACTCCGTCCCGCCGTCGCCGCGGCCGATGTCATGATCGGCTGCAGCGGTTCGGACATCAGGGTGGAGGCCGATGAACTGGCAGAAGTCAGGGCGGAGTCGCCACAGCCGCTGATTGCCATCGACCTCGCGCTCACCCACGACTTTGACCCGGAAGTGGGACAGCTCGACGGCGTTGAGCTGCTCACGCTGGAATCGGTACGCCTGGCAGCGCCCCAGGAACAGGCCGAGTCCCTGATCCAGGCCAGCGGCATCGTTTCCGGTGCTGCCCAGGCCTTCGAGCAGGAGCGTGAGGCCCGTTCCATGGACTCCGCGATTGTTGCCCTGCGCCGGCACACCATGAACGTCCTCGACGCCGAAATGGAAAAAGTGCGCGCCCGCCACGGCTGCACCGCAGCGGCCGAGGAAGTGGAGTTTGCCCTCCGCCGGATGGTGAAGCAGCTGCTGCACGTGCCCACGGTCCGTGCCCGTGAACTTGCCGCCAACGGCCAGCAGGACGACTACGTTGCGGCCCTCGAAACCCTGTACGGCATTACCGTGGAGCAGCCTGCCGCCGCCGCGCAGGCCGAATGCCCCGTGGACCACAAGGGCCTCGAAAGCGCCTGA	MVLFSLVATHADIDLETVAQLSNGSSGVATSALSGSPAVTGAVVLATCNRYEIYGEAPHADDVEAARAALVSQISGLSGLNEQLVSRSFSTRTGPEVSQHLFAVSAGLDSAVVGEREIAGQVRRALITAQHEGTASSGLVRLFQAASKTAKDVGAQTALGSRGLSIVSVALDLATDLSENQDWSTKKVVVFGTGAYAGATMALLRERGCTDISVFSSSGRAEAFVATRGGTALDSESLRPAVAAADVMIGCSGSDIRVEADELAEVRAESPQPLIAIDLALTHDFDPEVGQLDGVELLTLESVRLAAPQEQAESLIQASGIVSGAAQAFEQEREARSMDSAIVALRRHTMNVLDAEMEKVRARHGCTAAAEEVEFALRRMVKQLLHVPTVRARELAANGQQDDYVAALETLYGITVEQPAAAAQAECPVDHKGLESA	PGPT0003650_1558	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492	NA	NA
D1-29_03276	1200	moeZ	COG0476	putative adenylyltransferase/sulfurtransferase MoeZ	ATGGCTTCGACATTCACCGCAAATGCTCCGTCTGTTTCGCTGGAACCCTTGGTGGAGCCCGCAGGCGATTTGACTCCGGCAGAGGTTGAGCGCTATTCACGGCACCTCATCATTCCCGAGATCGGCGCCCTGGGGCAGCGCCGGCTCAAGAACGCCAAGGTGTTGGTGATAGGCGCCGGAGGGCTCGGATCGCCGGCGCTGCTGTACCTCGCGGCCGCGGGTGTTGGCACCCTAGGCATCATTGACGATGACGCAGTGGACCTCAGCAACCTGCAGCGGCAGGTGATCCATGGCGTCGCAGATGTGGGACGGCCAAAGATTGAATCCGCCCGCGACGCCATCGCCGCGCTCAATCCGCTGGTGGACGTCAGGCTGCACCACGTCAGGCTGGATGAGACAAACGCCCTCGAACTTTTCGCAGAGTACGATCTCATCCTCGACGGCGCGGACAACTTCGCCACCCGCTACCTCGTCAACGACGCCGCCGCGATCCTGGGCAAACCGTATGTCTGGGGCTCTATTTTCCGTTTCGACGGCCAGGTCAGCGTCTTCTGGGAGAAGCATGGCCCCACCTACCGCGATCTTTACCCGGAGGCTCCGCCGGCAGGGTCGGTGCCTTCCTGTGGGGAGGGCGGGGTGTTTGGGATGCTCTGCGCGGCGGTTGGTTCGCTGATGGTGACGGAAGCAGTGAAGCTGATTACCGGCGTCGGGTGTTCACTCCTGGGCCGGGTGGCCCTGTTTGATGCCTTGGGCGGCAGCTGGCGCGAGATCCGGGTGTCCAAGGATCCGGCGGCGGCGCCCATCACTGAACTCACCGACTATGACGCTTTCTGCGGCATCGAGCCCGCGCAGCCGGCCGACATCGAACACACGGTGACGGCAACACAGCTGGCCACCATGCTGGCGTCCCGGAAGGCCGGGCTGAAGGATTTCGACCTCGTGGACGTCCGGGAATCCGGTGAGCATGACATTGTCAGGATTGAGGGATCGGTGCTGATCCCGCAGGGACGGATCCTGGCGGGGGAGGCGTGGGCCGAGCTTCCCCAGGACAAGGACATCGTGTTCCACTGCAAGGCGGGAACCCGATCGGCCACTGTCCTTGAGGCGGCCCGGAAGGCCGGCTACCAGCGGGTCAGCCACCTCGACGGCGGGATCCTCGCCTGGGTCCGGGACGTGGAGCCGCAGAAACCCGTCTACTGA	MASTFTANAPSVSLEPLVEPAGDLTPAEVERYSRHLIIPEIGALGQRRLKNAKVLVIGAGGLGSPALLYLAAAGVGTLGIIDDDAVDLSNLQRQVIHGVADVGRPKIESARDAIAALNPLVDVRLHHVRLDETNALELFAEYDLILDGADNFATRYLVNDAAAILGKPYVWGSIFRFDGQVSVFWEKHGPTYRDLYPEAPPAGSVPSCGEGGVFGMLCAAVGSLMVTEAVKLITGVGCSLLGRVALFDALGGSWREIRVSKDPAAAPITELTDYDAFCGIEPAQPADIEHTVTATQLATMLASRKAGLKDFDLVDVRESGEHDIVRIEGSVLIPQGRILAGEAWAELPQDKDIVFHCKAGTRSATVLEAARKAGYQRVSHLDGGILAWVRDVEPQKPVY				NA	NA	NA	NA	NA
D1-29_03277	684	betI_6		HTH-type transcriptional regulator BetI	ATGGAAAGTAGGACAACTGTGGTCCCTGAAGCACGGGCTGACCGATCGCCCGGCGCCGAACCGTCCGTCCCGATCCGAAGCGCCGGTCAGCGGTCCGCCAGGCTTCCCCGTGATGAGCGCCGCGCACAGCTCCTGACAGCCGCCCAGGAAGTCTTTGTGGCCAACGGCTACCACGGCGCTGCAATGGACGAGATAGCCGAGACGGCCCACGTCAGCAAACCGGTGCTTTATCAGCACTTTCCGTCGAAACGCGAACTGTACCTGGCGCTCCTGGACAGCCACTTATCGGCCCTGACCGACCTCATGCTGGGAGCCCTCAACTCCACCACGGACAACGACGAACGTGTGCAGGCCGTGATGCGGGCGTACTACCGCTTCATCGCCAGCGATGACCAGGCTCACCGCCTGGTCTTTGAATCGGACCTCATCAACGACCCCGATGTCAGCTCCAGGCTGGAGACTTTCAACAAAACGTTCGCGGACGCCGTGGCCCGAGTCATCGCCGAGGACACCAAACTGCCTCATCTGGAAGCGCAGCTGCTGGGCCGTGGCCTGGCCGGCATGGCCCAGGTGAGTGCCCGTTATTGGCTGGAAACGAACGGAAACCTTGACCTCGACGTCGCCAGTGACCTCATCTACCGTTTAGCTTGGCGCGGAATCTCTCGCTTCCCCAAGGAAACCTAG	MESRTTVVPEARADRSPGAEPSVPIRSAGQRSARLPRDERRAQLLTAAQEVFVANGYHGAAMDEIAETAHVSKPVLYQHFPSKRELYLALLDSHLSALTDLMLGALNSTTDNDERVQAVMRAYYRFIASDDQAHRLVFESDLINDPDVSSRLETFNKTFADAVARVIAEDTKLPHLEAQLLGRGLAGMAQVSARYWLETNGNLDLDVASDLIYRLAWRGISRFPKET				NA	NA	NA	NA	NA
D1-29_03278	225			hypothetical protein	TTGGAAATTAAGATCGGCGTTCAGAACATTGGCCGCGAAATTGTGCTTGAGTCAGCCCAGGATGCTGATGCGGTCGCCAAGGTCGTCGAAGACGCCATCAGCAAGGGCAGCGAGCTTCGCCTCAAGGATGACAAGGGGCGCGTCATCATCGTCCCCGGCAATGCCCTCGGGTATGTGGAGATCGGCGCTGAAGAGTCCCGCCGGGTGGGCTTCGGCCAGTTCTAG	MEIKIGVQNIGREIVLESAQDADAVAKVVEDAISKGSELRLKDDKGRVIIVPGNALGYVEIGAEESRRVGFGQF				NA	NA	NA	NA	NA
D1-29_03279	303			hypothetical protein	ATGCTTTCGCTCACCATCGTTGTCCTGGCCACCACGGCCGCAGGCTTTATTGTCTGGGCCAATGACAAGCGCCATGCCAAGTACGGGATGGGGCTGCCCGCCGGGGTTGCCGTTACCGTTGGTGCCCTGAGTTGGATCATCTTCATAACAGCGGGCTTTGGCTACCAGCCGGGCCTGACCTGGATCCCCTGGGTCATGCCCATAGTGCTTGGTACCGCAGCAGCAGCAGCGGCGGCTGTGTACCTCGGCAGGACCCGCGCCCGGTATGACACCGTGCGGCTGACAGCGGCGCTCAAGCTGTAA	MLSLTIVVLATTAAGFIVWANDKRHAKYGMGLPAGVAVTVGALSWIIFITAGFGYQPGLTWIPWVMPIVLGTAAAAAAAVYLGRTRARYDTVRLTAALKL				NA	NA	NA	NA	NA
D1-29_03280	690			Putative pterin-4-alpha-carbinolamine dehydratase	GTGGCCGGCAAGGAAGACATACTCACCAGGGCGCAGGTTGATGAGGCCCTTACAGGGCTCACGGACTGGCGGTACTGCCAGGGCGCACTGGTCACCGTCTACAAAGCGCCGACGGCGGCCGCCGCACTAGAGCTGATTGCCGCCGTCGGACGCCTTGCCGAGGAGCAGAACCATCATCCGGACCTTGACTGGCGCTACAACAGGGTCTTCATCCGCTTCACGTCCCACGATGCCGGTGGAGACGTGACAGCGCGTGACACCACCGCGGCCGCGGCCGTGAGTACGGCGGCCACGAACGTGGGGGCAGCGGCGGAGCCAGGCCTGTACAGGACGGTGGAACTGGCGATCGACACCGTGGACGCAGCAGAAATCTCTGAGGTGTGGCGGGTGGCCCTGGGCTACAAAAAAACCCCAGGCAACGATTTGGTTGATCCCTACGGGCGCGGGCCCAGTGTGTGGTTCCAGGAGACTCCCACCCCCAACAGCAGCCGGATCCACGTTGACGTTTACCGGAGCAAGGCCGAATCGGGACAAGTCCTGGAGAAGACCGCAGCCACGGGAGCCTTAATGAACCGTGACTACGCACCCGAATGGGTGGTAGTCACGGACATGCAGGGAAACCGGCTGTGCCTGTGCACGGAGGAAGGCTACCAGCCCGACATCCCGGCTGAGGTTCCAGGCCAGGCCTGA	MAGKEDILTRAQVDEALTGLTDWRYCQGALVTVYKAPTAAAALELIAAVGRLAEEQNHHPDLDWRYNRVFIRFTSHDAGGDVTARDTTAAAAVSTAATNVGAAAEPGLYRTVELAIDTVDAAEISEVWRVALGYKKTPGNDLVDPYGRGPSVWFQETPTPNSSRIHVDVYRSKAESGQVLEKTAATGALMNRDYAPEWVVVTDMQGNRLCLCTEEGYQPDIPAEVPGQA				NA	NA	NA	NA	NA
D1-29_03281	816	thiG	COG2022	Thiazole synthase	ATGACCGAAACCAGCAGCATCAGCACGCTAAACGAGCCAGGGCAGGCGGACAGACTGATCATCGACGGCGTCGCGCTGGGATCCCGCCTCATCATGGGAACCGGCGGCGCGCCCAGCCTGGACGGGCTTGGCGCCGCCCTGCTGGCGTCCGGGACCGAGCTGACTACCGTCGCGATGCGCCGCTATTCACCTGCCGAGTCGGGATCGCTGTTCCAGCTGCTGGTGGACCACGGCATCCGTGTCCTGCCCAACACGGCTGGCTGCTTCACTGCGCGCGATGCAGTCATGACCGCCGAACTGGCCCGCGAGGCCCTGGAGACGGACTGGGTCAAGCTGGAAGTCATTGCCGACGAACAGACCCTCCTCCCTGATGCCGTTGAACTGGTGGACGCCACGGAGCAGCTCGTCAGCCGGGGGTTTAAAGTGTTCGCGTACACCAACGACGACCCCGTGCTGGCACTGCGCCTCGAGAACCTGGGAGCTACAGCCGTTATGCCGCTGGGAGCGCCGATCGGCACCGGCCTGGGGATCCTGAATCCGCACAACATCGAGCTGATTGTTTCCCGCGCGTCGGTTCCTGTGGTGCTGGACGCCGGCATCGGTACCGCTTCGGACGCGGCGCTCGCGATGGAGCTGGGCTGTGACGCCGTGCTGCTGGCCACTGCAGTGACACGGGCGCAGAACCCCGCGCTGATGGGCGAGGCCTTCAAACACGCCGTTATCGCCGGTAGGCTGGCCAAAGCGGCCGGCAGGATTCCGCGCCGTGAGCACGCCCTGGCGTCGTCGGCCATGGAAGGCCGGGCAGAGTTCCTCTAG	MTETSSISTLNEPGQADRLIIDGVALGSRLIMGTGGAPSLDGLGAALLASGTELTTVAMRRYSPAESGSLFQLLVDHGIRVLPNTAGCFTARDAVMTAELAREALETDWVKLEVIADEQTLLPDAVELVDATEQLVSRGFKVFAYTNDDPVLALRLENLGATAVMPLGAPIGTGLGILNPHNIELIVSRASVPVVLDAGIGTASDAALAMELGCDAVLLATAVTRAQNPALMGEAFKHAVIAGRLAKAAGRIPRREHALASSAMEGRAEFL	PGPT0008965_589	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008965-thiG-K03149	NA	NA
D1-29_03282	237			hypothetical protein	ATGAACATCACCCTCAATGGTTTGCATCACGCCGTGTCCGACGGCGCATCCATAACCACCCTTGTCAGCCAAATCACCGGCCGGCCGCTGGCAGCTGACGGCCAGGCGACTGACGGCAAGAAGCTCGGCGTGGCCGTGGCACACAATTCCGAAGTAGTACCCCGAAGCCAGTGGTACGTCACGGCGCTCGCCGACGGTGACGACGTGGAACTGGTCACAGCAGTCCAGGGAGGCTGA	MNITLNGLHHAVSDGASITTLVSQITGRPLAADGQATDGKKLGVAVAHNSEVVPRSQWYVTALADGDDVELVTAVQGG	PGPT0008970_193	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
D1-29_03283	1335	hcnC_3	COG0665	Hydrogen cyanide synthase subunit HcnC	ATGATCCCCCCATCCCGGAATGCGCGGGGCCCCGCCCCGACTGCAGCCGCGGCTGTTTTGCGTGCAGATGTTGCAGTGATCGGTGGCGGAGTCATAGGCCACGGCATCGCGTGGGAAGCGAGGCGCTCCGGCCGGTCCGTGGTGGTCATCGACGATGCCCCCGGTGCGGGGGCCAGCTGGGCGGCCGCAGGCATGCTGGCGCCTGTAAGCGAACTGCACTACCAGGAGGAGGACCTCCTGGAGCTGATGCTTGAGTCGTCAGCTCTGTGGCCCGCCTTTGCGGCCGACCTCGCCCGGCTGGCGGCACTGGATCCGGGCTACCTGCCGACGCCGACCATCGCCGTCGGGGCGGATGCGGCGGACCGCCGGGCCCTGATGGACCTCCGGACGGTCCAGCAGGCCAGCGGACTGCAGGTGGAACCGCTCACCATCCGGGAGGCGCGGACCCGGGAGGCCTTCCTTAGTCCGGCCATCTCCTGCGCACTGGACATCCCCGCCGACCACCAGGTCGATCCGCGGAAGCTCCTGGCGTGCCTGCGGCTTGCCCTGGCTAAACACCAGCCAGGTTCCGGAACCGCCGTCGAAGGTGCCGGCGAAGGGTTCGCCGTCGCCCAAAGGGCCACATCGCTCCTCTGGGAGGACGGCAAGGTCAGCGGCGTGCTGCTGACAGACGGCGGCAAGGTGCTGGCCGGCGAAACCGTGGTGGCGAACGGGCTGCAGGCAGCGTCCCTGTCTGGCCTGCCGCACGGCCTGCGCCTGCCTCTTCGGCCGGTGTACGGAGACATCCTCAGGCTTGCCGTCCCCCCGCATGTCCGGCCGCTGGTTACATCCACCATCCGCGGACTGGTACGGGGAGTGCCCGTGTACATCGTCCCGCGCCAGGATGGAACAGTGGTGATCGGGGCAACCCAGCGCGAGGATTCCCTGTCCGATGCCGGGGATGGCGCTGTGTCCGCCGGCGGCGTGTACCAGCTGCTGCGTGATGCCCAGGTCCTGGTCCCGGCGGTGGCAGAGCTGGAGCTTGTGGAAATAACAGCGAGGGCGCGCCCGGCGACACCGGACAATGCTCCGCTGCTGGGCCGGGTCAACGTTCCGGGAAGCGCAGAACACGTTGCCGGGCTGATCATCGCCACCGGCTTCTTCCGTCACGGCGTACTCCTCGCCCCCGCCGCTGCCGTGATCTGCCGGAACCTGATGGACGGCACGCCGGATCCGCGCTGGCTGCCCTTCAGCCCGGCCAGGTTTTCCGCGCTCGTTTCCGTTGCCGCGCCTGTTCATGCGGATGCCGCGATCGGCCCAGAAGCTGCCATCGACCCAGAAAAGGAATCAGTATGA	MIPPSRNARGPAPTAAAAVLRADVAVIGGGVIGHGIAWEARRSGRSVVVIDDAPGAGASWAAAGMLAPVSELHYQEEDLLELMLESSALWPAFAADLARLAALDPGYLPTPTIAVGADAADRRALMDLRTVQQASGLQVEPLTIREARTREAFLSPAISCALDIPADHQVDPRKLLACLRLALAKHQPGSGTAVEGAGEGFAVAQRATSLLWEDGKVSGVLLTDGGKVLAGETVVANGLQAASLSGLPHGLRLPLRPVYGDILRLAVPPHVRPLVTSTIRGLVRGVPVYIVPRQDGTVVIGATQREDSLSDAGDGAVSAGGVYQLLRDAQVLVPAVAELELVEITARARPATPDNAPLLGRVNVPGSAEHVAGLIIATGFFRHGVLLAPAAAVICRNLMDGTPDPRWLPFSPARFSALVSVAAPVHADAAIGPEAAIDPEKESV	PGPT0008955_69	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008955-thiO-K03153	NA	NA
D1-29_03285	801	thiE	COG0352	Thiamine-phosphate synthase	ATGAATACCGCCCTTTCCAACAGCACGGCCTCCAACAGCAGCCCCATCTCCACCGCACCAGACACCGCACCCGCCGCAGACATCACCGGCAGCTTCAGCAGCGCGCGGCTGTACCTGTGCACGGACGCACGCCGGGAGAAGGGCGATTTCGGCGACTTTGTGGATGCGGCCTTTTCCGGCGGCGTGGACATCATCCAGCTTCGCGACAAGTCCATCGAGGCGGCGGAGGAACTGGAACTCCTGGAAGTACTGAAAGCGGCGGCCCGGCGCCACGGCCGGCTGTGGGCAGTCAACGACCGTGCCGACGTCGCCCTGCTCTCCGAAGCCCCCGTTTTCCATGTCGGCCAGAAGGACCTCCCGCTGGCATCCGCACGCCTGCTCCTCGGGGACCGGGTCATAGGCCTGTCCACCCACAGCACCGGGCAGATCGACGCCGCCATCAGCGCTGGGACCGCCGCGAACAAGGCAGTCCCGCGGGCAGGCACCGAAGGCGCCCTTGCGGCCGGGCTTGATTATTTCTGCGTTGGACCCGTCTGGGCCACTCCCACCAAACCCGGCAGGGCCGCCGTCGGCCTGGACCTTGTGTCCTATGCAGCGCGCGCCGTCAGCGAAGCAGGCTCGGTCCCCGGCGCCCAGGCAGTCCCGTGGTTCGCCATCGGCGGCATTGACCTGGGCAACATTGAGCAGGTAGTCGAAGCTGGCGCCAGCAGGGTGGTGGTGGTCCGGGCCATCACCGAGGCCCCGGACCCCGCTGAGGCTGCGGCCGCCATGATTCAGGCATTGCAGGCCGGGGCGTCCTGA	MNTALSNSTASNSSPISTAPDTAPAADITGSFSSARLYLCTDARREKGDFGDFVDAAFSGGVDIIQLRDKSIEAAEELELLEVLKAAARRHGRLWAVNDRADVALLSEAPVFHVGQKDLPLASARLLLGDRVIGLSTHSTGQIDAAISAGTAANKAVPRAGTEGALAAGLDYFCVGPVWATPTKPGRAAVGLDLVSYAARAVSEAGSVPGAQAVPWFAIGGIDLGNIEQVVEAGASRVVVVRAITEAPDPAEAAAAMIQALQAGAS	PGPT0008995_805	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
D1-29_03286	1512	rnr	COG0557	Ribonuclease R	GTGTCACATCATCGCCTGGCTCCCAACGTCCACGAGCTGACAAACGCCCTCGCGGAGGCCCTGAGCGCGCTGCGGACCGAGCTGGAATTGCCTGGGCCCTACCCCGAGGAAGCTGTGCGGGACGCGGAGGCGGCAGTGGCGGCACTGGAGCTGCCGGCAGTTGACCTGACCGACGTTGAGTTCCTGACCGTTGACCCGGAGTCGTCCACGGACCTTGACCAGGCACTGTTCATCGAGCGCGCCGGCGATGGCTACCGGGTCCTGTATGCGATTGCCGATGTCCCTGCCTTTGTGATCCCGGGCGGACCCCTGGATGCCGAAACCCGCCGTCGGGGGCAAACGTTCTACGCCCCGGACGGCCGGATTCCGCTGCACCCGGAGATCATCAGCGAACAGGCCGGCAGCCTCCTCGCGGGCCAACTGTGTGCGGCCTTCGTGTGGGACTTCGAGCTCGATGACGCGGCTAACGTGGTTTCGGTGGGTTTGCGCCGGGCCCGGATGCGCAGCCGCGCCAAGCTCAGCTACAAAGGCGCCCAGGCGGAGATCGACGCCGGAACGGCCTCCCCCGTCCTGCGGCTCCTCAAGGAAGTGGGTCTCAAGCGGGTTGAGTTGGAGCGCATGCGCGGCGGAGCGAGCCTGAACATGCCGGAGCAGGAAATCGTGCAGTTGCCCGACGGCGGCTACCGGATTGCCGCTGCGCCGCAGCTTCCCGTGGAGGATTGGAACGCCCAGATTTCCCTCATGACAGGAATGGCCGCCGCCGCTCTGATGCTCGAAGGGAAGGTGGGCATCCTGCGCACCATGGCGGCCCCGGATGAGCGCTCCCTGAACCATTTCAAACTCCAGACGGAAGCGTTGGGAAGGCCCTGGGATGGAGAAATCACCTACGGCGAATTCCTCCGCACCCTGGACCCTATGGAGCCGCGACAGCTTGCAATCCTGCATTCTGCGGGCATGCTCTTCCGCGGCGCCAGCTATACGGCGTTCGACGGCAACGTTCCGGAAGACGCCATCCAGGCCGCCATCGGAGCGGCGTATGCCCACACCACCGCTCCGCTGCGGCGGCTGATCGACCGCTTTGTCCTGGTGATCTGCGAAGCCCTGAGCAACGGAAGGCCTGTGCCGGACTGGGCACGGGAGGCACTGCCGTCCCTGCCGGTCATCATGGCGGGGTCCGACCAGTTGGCTTCGCGGATGGAGCGCATGGCGTTGGACACGGTGGAGGCCGCCCTGCTGGTCAACCACGTCGGCCAGGAATTCGATGCCATTGTGATCTCCGGATCCAAGCCCCGCAACGGCAACGACCGCAACGGCAACGACTCCGCCGGCAACGGTAACGGCCGCAACGGCAACGGAAAGAACGGGAACGGCGCCTCCGGGATCATCCAGATCGCAGAACCCGCTGTGACGGCCCGGTGCGGCGGCGACCTCGAATCGGGCACAAAAGTCAGGGTCCGGCTGATCTCCTCGGACATTGCCAGCAGGGAAGTCCACTTCGAACTGGTGGGGTAA	MSHHRLAPNVHELTNALAEALSALRTELELPGPYPEEAVRDAEAAVAALELPAVDLTDVEFLTVDPESSTDLDQALFIERAGDGYRVLYAIADVPAFVIPGGPLDAETRRRGQTFYAPDGRIPLHPEIISEQAGSLLAGQLCAAFVWDFELDDAANVVSVGLRRARMRSRAKLSYKGAQAEIDAGTASPVLRLLKEVGLKRVELERMRGGASLNMPEQEIVQLPDGGYRIAAAPQLPVEDWNAQISLMTGMAAAALMLEGKVGILRTMAAPDERSLNHFKLQTEALGRPWDGEITYGEFLRTLDPMEPRQLAILHSAGMLFRGASYTAFDGNVPEDAIQAAIGAAYAHTTAPLRRLIDRFVLVICEALSNGRPVPDWAREALPSLPVIMAGSDQLASRMERMALDTVEAALLVNHVGQEFDAIVISGSKPRNGNDRNGNDSAGNGNGRNGNGKNGNGASGIIQIAEPAVTARCGGDLESGTKVRVRLISSDIASREVHFELVG				NA	NA	NA	NA	NA
D1-29_03287	1692	cshA		DEAD-box ATP-dependent RNA helicase CshA	GTGAGTGAATTGCATACCCACCAGCTTCTGATCGACGATTCCGGCCTTGAGATCCTTGAGCCGGAAGAAACCATCATCTCCGATGAGAAGCCGCACGAAATCGAGGAGAAATCCTTCGCGGACTACAACGTCCGGGCGGACATCGTCGAGTCCCTGGCCGATGCCGGGATCACGCATCCGTTCCCCATCCAGGCCATGACACTTCCGGTTGCCCTCTCAGGCCACGACATCATCGGCCAGGCCAAGACAGGCACCGGCAAAACGCTGGGCTTCGGCATCCCCGCGCTGCAGCGCGTGGTGGGACCGGACGACGCCGGATTCGACAAGCTCGCCGTACCCGGCGCGCCGCAGGCCCTGGTCATCGTGCCCACCCGTGAGCTGGCCGTCCAGGTAGCCAATGACCTGCAGAATGCCTCGCGCAAGCGCAATGCCCGCATCACCACCATCTACGGCGGCCGCGCTTACGAGCCCCAGGTGGAAGCCCTCCAGAAGGGCGTTGAGATCGTGGTGGGAACTCCCGGCCGGCTCATCGACCTTTACAAGCAAAAGCACCTCAGCCTGAAGAACGTGAAAATCGTCATTCTTGACGAGGCCGATGAAATGCTGGACCTTGGGTTCCTCCCGGACGTGGAAACCCTTATCGCGGGCACCCCGCCGGTCCGCCAGACGCTGCTCTTTTCGGCCACCATGCCGGGCCCGGTCATCGCCATGGCACGCCGCTACATGACGCAGCCCACGCACATCCGCGCCGCCGATCCCGACGACGAGGGCCTCACCAAGCGTGACATCCGCCAGCTCATCTACCGTGCCCACAGCATGGACAAGATCGAGGTGGTTGCGCGCATCCTGCAGGCACGCGGCCGCGGCCGGACCATCATCTTCACCAAGACCAAACGGACGGCCGCCAAGGTTGCCGAGGAACTCGTGGACCGTGGCTTCGCCGCCGCCGCCATCCACGGGGACCTGGGCCAGGGCGCCCGCGAGCAGGCCCTCCGCGCCTTCCGTAACAACAAGGTGGATGTTCTGGTGGCCACTGATGTTGCTGCCCGCGGCATCGACGTGGACGACGTCACCCACGTCATCAACTACCAGTGTGTCGAAGACGAAAAGATCTACCTACACCGCGTCGGCCGGACCGGCCGTGCCGGAAACAAGGGCACCGCTGTCACCTTTGTGGACTGGGACGACATGCCCCGCTGGGGCCTGATCAACAAGGCCCTGGGCCTGAGCGTGCCGGAGCCGGTGGAAACCTACTCCTCCTCGCCGCACCTGTTTGAGGATCTGGACATCCCGGAAGGCACCAAGGGCCGGCTTCCCCGCAACAAGCGCACGCTGGCCGGGGTTGACGCCGAAGTCCTCGAGGACCTCGGCGAAACCGGCAAGAAGAACTCCCGCAGCAGCAGTGGACGGGACTCTGCCCGGGACAGCGCGAAGGACAGCAGCCGCGACCGCACACGGTCATCCAGCCGCCGCAGCGGGACTGAAACAGCCGGCCGCTCAGGTGAGCGCCGCCGTCGTACGTCAGATGCGGCGACAGCCGGCACGGGTCCCGCCGCTGAACCGGCGGCTTCCGCTCCGGCTGATGGAGACCAGTCCCGGACGCGCCGCAGCCGGACCCGCACCCGCCGCCGCAACGGCGAAGTGGTTGCCGGTGGCGACACCGCCGCCCAGCCGGGCAGCACCGAGGCCTAA	MSELHTHQLLIDDSGLEILEPEETIISDEKPHEIEEKSFADYNVRADIVESLADAGITHPFPIQAMTLPVALSGHDIIGQAKTGTGKTLGFGIPALQRVVGPDDAGFDKLAVPGAPQALVIVPTRELAVQVANDLQNASRKRNARITTIYGGRAYEPQVEALQKGVEIVVGTPGRLIDLYKQKHLSLKNVKIVILDEADEMLDLGFLPDVETLIAGTPPVRQTLLFSATMPGPVIAMARRYMTQPTHIRAADPDDEGLTKRDIRQLIYRAHSMDKIEVVARILQARGRGRTIIFTKTKRTAAKVAEELVDRGFAAAAIHGDLGQGAREQALRAFRNNKVDVLVATDVAARGIDVDDVTHVINYQCVEDEKIYLHRVGRTGRAGNKGTAVTFVDWDDMPRWGLINKALGLSVPEPVETYSSSPHLFEDLDIPEGTKGRLPRNKRTLAGVDAEVLEDLGETGKKNSRSSSGRDSARDSAKDSSRDRTRSSSRRSGTETAGRSGERRRRTSDAATAGTGPAAEPAASAPADGDQSRTRRSRTRTRRRNGEVVAGGDTAAQPGSTEA				NA	NA	NA	NA	NA
D1-29_03288	873	rsrIM		Modification methylase RsrI	ATGACTGACATTGTCTGGGCGCCGGACGGCAGCAACCTGGTGGTTCACGCGGATAACGCGGATTTCCTCCCCTCGCTGCCGGACGGCGCCTTCACACTCATTTATGTGGACCCGCCGTTCAACACCGGCCGGGTCCAGCGGCGCCAGGAAACCAGGATGGTGGCCAACGCCGACGGCGCCGGAGACCGTGTGGGCTTCAAGGGACGCTCCTACGACACCATCAAGGGCGCCCTGCACCGGTACGACGACGCCTTCAGCGATTACTGGTCCTTCCTGGAACCCCGGCTCGTCGAGGCGTGGCGGCTGCTGGCCGACGACGGAACGCTGTACCTGCACCTTGATTACCGGGAAGTCCACTACGCCAAGGTGATGCTTGATGCCATCTTCGGCCGTGAGTGCTTCCTGAACGAGATCATCTGGGCCTACGACTACGGCGCCCGGGCCAAATTCCGCTGGCCCACCAAGCACGACAACATCCTTGTGTACGTCAAAAATCCGGTGAAGTACCACTTCGACAGTGCCGAAGTGGACCGCGAACCGTACATGGCACCGGGGCTTGTCACTCCCGCCAAACGTGAGCTCGGGAAGCTGCCCACCGACGTGTGGTGGCACACCATCGTCTCCCCCACCGGCAAGGAAAAAACCGGCTACCCCACGCAGAAGCCCGAGGGGCTCATCCGGCGTGTCGTGGCCGCCTCCAGCCGCCCGGGCGACTGGTGCCTGGACTTCTTTGCCGGTTCAGGAACCCTGGGTGCCGTCGCCGCGAAGCTGGACCGGAAGTTCGTGTGCGTGGACCAGAACCAGCCCGCCATCGACGTGATGGCCAAGCGGCTTGGCACGCACGCGACCCTCACGTCCTTCCCGCCCAACTAG	MTDIVWAPDGSNLVVHADNADFLPSLPDGAFTLIYVDPPFNTGRVQRRQETRMVANADGAGDRVGFKGRSYDTIKGALHRYDDAFSDYWSFLEPRLVEAWRLLADDGTLYLHLDYREVHYAKVMLDAIFGRECFLNEIIWAYDYGARAKFRWPTKHDNILVYVKNPVKYHFDSAEVDREPYMAPGLVTPAKRELGKLPTDVWWHTIVSPTGKEKTGYPTQKPEGLIRRVVAASSRPGDWCLDFFAGSGTLGAVAAKLDRKFVCVDQNQPAIDVMAKRLGTHATLTSFPPN	PGPT0027215_961	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
D1-29_03289	849		COG0613	3',5'-nucleoside bisphosphate phosphatase	GTGAGGATTGACCTGCATACCCACTCCAATGTTTCTGACGGCACGGAAACGCCAGCCGATGTCATCGGCTCTGCTGCCCGCGCGGGCCTGGATGTGGTGGCACTGACGGACCACGATTCCACCGACGGCTGGGCGGAGGCCGCACGCGCCACTCTGGACACAGGAGTGGCCCTGGTGCCCGGCATGGAGGTCTCCTGCCGGACAGAGCAGGGCATCAGTGTGCACCTCCTGAGCTACCTTCATGATCCTGCCCACCCTGGCCTGCTGAAGGAGATCACCAAGGCCAAGGACGCCCGCCTCACCCGTGCCGAACGGATGGTCACCCTGCTGGCGGAGGACTACCCGCTGACATGGGACGATGTGATCCACCATGTGGCCCCGGGCGCCACCCTGGGACGCCCGCACATCGCCGACGCCCTGGTGGCTGCCGGTGTGGTGTCGGACCGGTCCGAGGCGTTCACCTCAATCCTGACCTCACACTCGCGCTACTTCGTCCAGCACTACGCGCCGGACCCGGCAGCCGCCGTCGAACTTGTCCGTGCCGCCGGCGGCGTCCCCGTTTTCGCCCATCCGGTGGCTTCGGCGCGTGGCCGGATTGTGGGGGAGCGGACCTACCGGGAAATGATCGACGCCGGGCTGGCGGGCCTGGAGATCGACCACCGCGACAACCCGGAGGAGGGCCGGGAGTTCCTTCGCGGGCTTGCGGCCAAGCATGGACTGCTGGTCACCGGATCCTCGGATTACCACGGGACCGGCAAGCCGAACCTGCTGGGTGAGAACCTCACTGCTCCCGAAGTGCTTGCCCGGATCGAGGAGCTGGCCACCGGCACCGTCGTCGTCCGCCCCTAA	MRIDLHTHSNVSDGTETPADVIGSAARAGLDVVALTDHDSTDGWAEAARATLDTGVALVPGMEVSCRTEQGISVHLLSYLHDPAHPGLLKEITKAKDARLTRAERMVTLLAEDYPLTWDDVIHHVAPGATLGRPHIADALVAAGVVSDRSEAFTSILTSHSRYFVQHYAPDPAAAVELVRAAGGVPVFAHPVASARGRIVGERTYREMIDAGLAGLEIDHRDNPEEGREFLRGLAAKHGLLVTGSSDYHGTGKPNLLGENLTAPEVLARIEELATGTVVVRP				NA	NA	NA	NA	NA
D1-29_03290	1593	pepPI		Xaa-Pro aminopeptidase 1	GTGAACGATGCCGAAAACACCCCAAACGCCGACAACACACCTTCCCAGCCCCTCGACGAGCGCGTGAACAACCGCTCGCAGCGGCCAAGTTCGGACGCCTTCAAGGCCTTTATGGCCAGCAACTGGGCGCCCTCCAGCGAAGAGCTTCCCGCACGCGACGACGTTGCCGGACAAGCAGCCCACCGGCGAAAGGCCATTTCGGACCAGTTCAAGGGCGAACGCCTGGTCATCCCCGCAGGTCCGCTGAAAGTGCGCTCCAACGACTGTGACTACCGCTTCCGGCCGCACTCCGGCTTCGCGCACCTCACCGGCCTGGGCCTGGACCATGAGCCCGATGCCGTCCTGATCCTGGAACCGGTAACTGAAGGAACGGGCGACGACGGCGGCCATCACCGCGCCACGCTCTACTTCCGCCCGTTGGCCGGGCGGGACACTGAACGCTTCTACGCCGACTCGCGGTCAGGCGAGTTCTGGATTGGCGCCCGCCCCACCCTTGCGGAGTTCGAAGCCCGCCTGGGCCTGGCCACCGCGCACATCGATCAGCTCGAAGCGGCCATCACCAAGAATGTGGGAGCCCCCGAGATTGGCGGCATCTCTATTCGCCTGGTCCGAAAAGTTGATGAGAACATCGACGCCCTGGTGGACACCGCCCGCTACAACACGGCCAAGGACCCGGAGAACCTGGACCTTGCCGTACTGGACGCCCTCGACGAGAAACTCACCGAAGCACTTTCCGAGCTCAGGCTCCTCAAGGATGAGTGGGAGATCGAGCAGATGAAGATCGCGGTGGCCGCCACCGTTGAGGGCTTCACCGAAGTGGTAAAGGCCCTCCCCCGTGCCCTGACTCACGCGCGTGGGGAACGGGTTGTGGAAGGCGCCTTTTTTGCCCGCGCCCGTGAAGTGGGCAACGAACTGGGCTACGACACCATCGCGGCCTCCGGCAACAACGCCACCGTGCTGCACTGGACCCGCAACACCGGGAAAATCAACGCCGGCGAACTGCTCCTGCTGGACGCCGGCGTGGAAGTTGACTCCCTGTACACCGCCGACATCACCCGGACGCTCCCTGCCAACGGCCTGTTCTCCGAGGTCCAGCGCAAAGTCTATGAAGCGGTTTTGGACGCGGCGGACGCCGGATTCGCTGCCGCCCAGCCCGGCGCCAAGTTCCGGGATATCCACACCGCCGCCACAACGGTGCTGGCCGAACGCCTTGCCGACTGGGGCATCCTCCCGGTCAGCGTGGGGGAAGCCATCAGCCCGGAAGGCCAGCAGCACCGGCGCTGGATGCCCCACGGCACCAGCCACCACCTTGGCTTGGACGTCCACGACTGTGCCCAGGCAAGGCGTGAGCTGTACCTGGACGGCGTGCTGACGGCGGGGATGGTGTTCACCATCGAACCAGGCCTCTACTTCAAGAACGAAGATCTCGCCATCCCGGAGGAATACCGCGGCATCGGCGTCCGGATCGAGGACGACATCCTGATGACAGCCGATGGCCCCGTCAACCTGAGCGCAGCACTGCCCCGCAAGGCGGCCGACGTCGAGTCCTGGATGGCCGGCATCTACCGCGAGGCCGACGCCGAGGCCTCCTAG	MNDAENTPNADNTPSQPLDERVNNRSQRPSSDAFKAFMASNWAPSSEELPARDDVAGQAAHRRKAISDQFKGERLVIPAGPLKVRSNDCDYRFRPHSGFAHLTGLGLDHEPDAVLILEPVTEGTGDDGGHHRATLYFRPLAGRDTERFYADSRSGEFWIGARPTLAEFEARLGLATAHIDQLEAAITKNVGAPEIGGISIRLVRKVDENIDALVDTARYNTAKDPENLDLAVLDALDEKLTEALSELRLLKDEWEIEQMKIAVAATVEGFTEVVKALPRALTHARGERVVEGAFFARAREVGNELGYDTIAASGNNATVLHWTRNTGKINAGELLLLDAGVEVDSLYTADITRTLPANGLFSEVQRKVYEAVLDAADAGFAAAQPGAKFRDIHTAATTVLAERLADWGILPVSVGEAISPEGQQHRRWMPHGTSHHLGLDVHDCAQARRELYLDGVLTAGMVFTIEPGLYFKNEDLAIPEEYRGIGVRIEDDILMTADGPVNLSAALPRKAADVESWMAGIYREADAEAS	PGPT0006770_2683	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
D1-29_03291	945			hypothetical protein	ATGCTGATGGGCAAGAATGGAGGTATGTCAAACATTTTTGGTGCTCCCAGGGCCGGCGGCCCCAACGGGGCGGACGAGGCCCGCACCGTCCCCACCGGTGACACCGTCGGTTCATACACCTCCTATCTGGATGCCCAGAAGGCGGTGGACTACCTCGCTGACCAGCAATTTCCGGTTCATATGGTGTCCATCGTTGGCAACGAACTGAAAATGGTGGAGCGGGTGACCGGCCGCCTCAGCTACCCGCGGGTGGCACTGTCCGGGGCACTCAGCGGCATGTGGTTCGGCCTGTTTGTCGGCGTGCTGTTGTCCTTCTTTGCGCCGTCCCCGGGTTACTTCTCCATCCTCACCTCTGTGCTGATGGGTGCTGCGTTCTTTATGCTCTTTGGCATTGTCACGTACGCGATGCAGCGGGGAAAGCGCGACTTCACGTCCACGAGCCAGGTGGTTGCCACCACCTACGATGTGGTGGTCTCCGTGGAAGCGGCCCACGAGGCACGCCGGCTGCTCCAGCAACTGCCGATGACCCGCACAGACGCTGCCGCGGGGGCCTATACCCAGCGCGACTACCAGAACCAGCCCTACAACCAGCCGGGGCAGGGTCCTGCCCGTCCTTCCGGCTGGAGTGACCCCTACGGCCAGCAAGGCTCAGGGCCATCCGGGCAGGGCGAACCCGCCGCGGCCCAGCCCGGCCAGCAGCCGGAGGGAGCGGCTCAGCAGGCTGCAGCACCGGTGGCAGCGGTACGGTATCCGGATCTGCCCGACGGCCGTCCGCAGTATGGGGTCCGCGTTTCAAGCAGTCCGGCTCCGGGTGGTGCACCCGTCACAGGCCAGTCGAACCAGGTCCAGGGCGCTCCGCGCCAAGACAGCCCTGCCGCTGACAGCGGAAGCCCGGACAAGACTCAGGCGGCCCCACCGAAGGACCGGGACGAACCCCAGCCCTAG	MLMGKNGGMSNIFGAPRAGGPNGADEARTVPTGDTVGSYTSYLDAQKAVDYLADQQFPVHMVSIVGNELKMVERVTGRLSYPRVALSGALSGMWFGLFVGVLLSFFAPSPGYFSILTSVLMGAAFFMLFGIVTYAMQRGKRDFTSTSQVVATTYDVVVSVEAAHEARRLLQQLPMTRTDAAAGAYTQRDYQNQPYNQPGQGPARPSGWSDPYGQQGSGPSGQGEPAAAQPGQQPEGAAQQAAAPVAAVRYPDLPDGRPQYGVRVSSSPAPGGAPVTGQSNQVQGAPRQDSPAADSGSPDKTQAAPPKDRDEPQP				NA	NA	NA	NA	NA
D1-29_03292	1284			hypothetical protein	GTGAGCACAAACGTTACGCGCGTCTTCGTGGCGCGCCTTCTGGGTCTTGACGTCTTCGACCCGCTGGGCGACCGGCTGGGCCGGTTGCGTGATGTTGTGGTGCTCTCCCGCGGAAGCCGGGGCGCCCCACACGTGGTGGGTATCGTCGTCGAGGTTCCCGGGAAGAAGCGGGTCTTTGTACCCATGACGCGCATCACCTCGATCGACCAGACGCAGATCATCTGCACCGGCCTGGTCAACCTCCGCCGCTTTGAACAGCGCGGGGCCGAGACCCTGGTGGTCGCTGAAATGTTTGACCGCCGCGTTACCCTCCGTGACGGCAGCGGTGACGCCACAATCGAAGACATCGCCATGGACCAGCACCGTTCCGGCGACTGGTTCGTGAGCAAACTGTTTGTCCGCCGTGGCCATTCGCTGTCGCCCCTGAGCCGGCTCCGCCGCAACGAAACCCTGATCATCGACTGGGCAGACGCGCTCCAGGGCGCCCGGACAGAACCGCAGGCAGCCACCCAGTTCGTGGCCAACCACGAGGACCTCAAGCCCGCCGACTTCGCAGAAGCCCTCCAGGAGATGAGCGACAAACGCCGCTTTGAGGTGGCCAGTGAACTTCAGGATGAACGGCTCGCCGACGTCCTGCAGGAACTCCCCGAGGATGACCAGGTGGAAATCCTCTCCGCCCTGGACGTTCAACGGGCCGCCGACGTCCTGGAAGAAATGGATCCCGACGACGCCGCAGACCTCCTGGGCGAGCTTCCCTCCGCGCAGGCTGAGGAACTGCTGCAACTGATGGAGCCCGAAGGCGCCGAGGACGTCCGCCGACTCCTGGAATACGACGCCGACACCGCAGGCGGCCTCATGACGCCAGTTCCCGTGATCCTGCCCCCGGAAGCCACGGTCGCCGAGGCCCTGGCGCATGTCCGGCGTGAGGAACTCTCTCCCGCCCTCGCCTCCTCGATCTTTATCACCAGGCCACCGCTGGAGACCCCTACCGGCCGTTTCCTCGGTGTGGTCCACATCCAGCAACTGCTGCGGTTCCCCCCGTTTGAGCCGCTCGGGAACCTGGTGGACAAGAATCTTGAGCCACTGTCCGACCAAGCCCACATCAGTGAAGTGGCCCGGACGCTGGCAACCTACAACCTGAACTCCCTTCCGGTAGTCAATGAGGCCGGCCGGCTTGTGGGGGCGGTGACTGTTGATGACGTTTTGGATCATCTGTTGCCGGATGATTGGCGCGCCCACGATGGCGAAGCCCCGATAAGAAGGCTCGGAGGCCGCATTGGCTGA	MSTNVTRVFVARLLGLDVFDPLGDRLGRLRDVVVLSRGSRGAPHVVGIVVEVPGKKRVFVPMTRITSIDQTQIICTGLVNLRRFEQRGAETLVVAEMFDRRVTLRDGSGDATIEDIAMDQHRSGDWFVSKLFVRRGHSLSPLSRLRRNETLIIDWADALQGARTEPQAATQFVANHEDLKPADFAEALQEMSDKRRFEVASELQDERLADVLQELPEDDQVEILSALDVQRAADVLEEMDPDDAADLLGELPSAQAEELLQLMEPEGAEDVRRLLEYDADTAGGLMTPVPVILPPEATVAEALAHVRREELSPALASSIFITRPPLETPTGRFLGVVHIQQLLRFPPFEPLGNLVDKNLEPLSDQAHISEVARTLATYNLNSLPVVNEAGRLVGAVTVDDVLDHLLPDDWRAHDGEAPIRRLGGRIG				NA	NA	NA	NA	NA
D1-29_03293	723			hypothetical protein	TTGGCTGACAACAGCGCCCCTAAGAACCCCTCCCACCGGACCTCGTCCAAGGCCGCAGCCACAGGCAGCCTTGACACGCCTTTGAGCGGCCGCCAACGCATCCTGCCAAAGTTCTCACCGGATCCGGATGCCTTTGGCCACGCCACCGAAGGTTTCGCCCGCTTTATGGGTACACCGCAGTTCCTCGTCTACATGACGGTGTTCGTTGTCATCTGGCTGGCCTGGAACACCTGGGCGCCGATGGAATGGCAGTTCGATTCCCGGGCGCTTGGCTACACACTGCTGACCCTGATGCTCTCGCTGCAGGCGTCCTACGCCGCGCCTCTGCTGCTTCTTGCCCAGAACCGGCAGGACGACCGTGACCGCGTGTCACTCCAGCAGGACCGCCAGCGGGCAGAACGGAACCTGTCCGACACTGAGTACCTGACCCGCGAACTGGCCTCGCTCCGGATTGCGCTTCGCGAGGTTGCCACCCGCGACTACGTCAGGGCTGAGCTGCGCTCCCTGCTGGAGGACATGCTTGAAGCGCAGGAGGAACTGCGCACTCATGACCCCTCCGGAACCGGCAGCCATGAATCCCCGCGTGACAAGGTGAAGGAAAGGCTCAAGGAAAAGCGCGACCGGCAACGCAGCCCCCGAACGCAGCAGATCCCCCGGGTCAAACCCGGGCACTCCGTCAAGGACCCCGCCGTCCCCCCGAAGCCCCCGACCCCCGAAAGCTGA	MADNSAPKNPSHRTSSKAAATGSLDTPLSGRQRILPKFSPDPDAFGHATEGFARFMGTPQFLVYMTVFVVIWLAWNTWAPMEWQFDSRALGYTLLTLMLSLQASYAAPLLLLAQNRQDDRDRVSLQQDRQRAERNLSDTEYLTRELASLRIALREVATRDYVRAELRSLLEDMLEAQEELRTHDPSGTGSHESPRDKVKERLKEKRDRQRSPRTQQIPRVKPGHSVKDPAVPPKPPTPES				NA	NA	NA	NA	NA
D1-29_03294	1128	mrp	COG0489	Iron-sulfur cluster carrier protein	ATGAATGACTCCCTGGACCAGGCAGTCCATGCTGCGCTGGCCACCGTTATCGATCCTGAGCTCCGCCGTCCCATCACCGAGCTGGGCATGGTGGAATCCGTGGAAATCTCCGACGACGGCCGCGTCCGGCTGGCAGTGCTCCTCACCATCGCCGGGTGTCCCCTGCGTGAAACCATCACCGCCGACTCGGAAGCGGCCTTATCCGCAGTCCATGGGGTCACCGCGGTGGAGGTTGAACTCAAGGTGATGAACCAATCCCAGCGGGACGCCCTGAAAGAGCAGCTCCGCGGCGCCGGCGCCCAGCGCGGAATTCCCTTTAATCAGCCTGGCTCACTGACCAAGGTCTTCGCAGTCGCCAGCGGCAAGGGCGGCGTCGGGAAGTCCTCAGTGACCGTTAATCTTGCGTGCTCGCTGGCCGCACAGGGGCTGCGGGTGGGCATTGTTGACGCTGACGTCTATGGCTTCTCTGTCCCGGCACTGATGGGCATCACCCAGGCCCCCACCCGGGTGGACGACATGATCCTGCCTCCCGTTGCTTACGGCGTAAAAGTCATCTCCATCGGCATGTTCGTGTCGGCCAACCAGCCGGTGGCCTGGCGGGGACCCATGCTGCACCGCGCCCTGGAGCAGTTCCTGACCGACGTGTACTTTGGCGACCTTGACGCCCTGTTCCTTGACCTGCCGCCAGGAACGGGGGATATTGCCATCTCGGTGGCCCAGCTGCTGCCCAAGGCAGAGATCCTGGTAGTGACCACCCCACAGGCCGCGGCAACCGACGTCGCGGAACGGGCCGGGGCGATTGCCACCCAGACGGGCCAGTCGGTGGCGGGTGTTATCGAAAACATGTCCTACCTGGAAATGCCCGACGGCGGGCGGATGGAGCTTTTCGGAAGCGGCGGCGGGGCGGTGCTGGCCCACCGCCTGACAACGACAGTAGGCACTGACGTGCCTCTGTTGGGGCAGATTCCCTTGGACATCCTGCTGCGTGAGGGCGGCGACGCCGGTTCCCCGATTGTCCTTGGCCGGCCGGAAACACCGGCAGCGGTTGCACTCACGGCGATTGCCGGTAAATTGGCAGCCAAACCACGGGGCCTGACGGAGATGAAGCTGGGGCTGCAGCCGCGCTGA	MNDSLDQAVHAALATVIDPELRRPITELGMVESVEISDDGRVRLAVLLTIAGCPLRETITADSEAALSAVHGVTAVEVELKVMNQSQRDALKEQLRGAGAQRGIPFNQPGSLTKVFAVASGKGGVGKSSVTVNLACSLAAQGLRVGIVDADVYGFSVPALMGITQAPTRVDDMILPPVAYGVKVISIGMFVSANQPVAWRGPMLHRALEQFLTDVYFGDLDALFLDLPPGTGDIAISVAQLLPKAEILVVTTPQAAATDVAERAGAIATQTGQSVAGVIENMSYLEMPDGGRMELFGSGGGAVLAHRLTTTVGTDVPLLGQIPLDILLREGGDAGSPIVLGRPETPAAVALTAIAGKLAAKPRGLTEMKLGLQPR	PGPT0013215_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
D1-29_03295	414	tatB		Sec-independent protein translocase protein TatB	GTGTTTGGAATCAACGGCCCGGAATTCTTCCTTCTGCTGATCATCGGCATCATGGTGATCGGCCCCAAACGCCTGCCCGAATACACCCAGAAACTGGCGAATCTGGTGAAGGAAGTCCGGCGCATGGCTTCTGGCGCGCGCGAGCAGATCAAGGAGGAAGTGGGGATCGATATCGACGACGTCGATTGGAAGAAATACGATCCCCGCCAGTACGATCCCCGACGCATCATCAAGGAAGCGCTGCTCGACGACGACTCCAAGCCTGTCAGCCCCGGTGCTCCTGCCGCCGTCGCCGCCGCTTCAGGTGCCGCGGCGGTTGCCGCCGGTGCGTCTGCCGGTTCGTCCCGGCCCGTGCGGACCGTCGAACGCCTTCCGGCCGGCGAAGTGGCACCCTTCGATACCGAAGCGACGTAA	MFGINGPEFFLLLIIGIMVIGPKRLPEYTQKLANLVKEVRRMASGAREQIKEEVGIDIDDVDWKKYDPRQYDPRRIIKEALLDDDSKPVSPGAPAAVAAASGAAAVAAGASAGSSRPVRTVERLPAGEVAPFDTEAT	PGPT0014360_2107	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
D1-29_03296	882			hypothetical protein	ATGTCGCCCCAGAGCCTCTTTGGCCGCCGGCATCACCGCGGCGGCAACCACGTGAATTCATGCGCCCAATGTGCCGCCGCTGTGCACCGGGAACGTCAATACATTGAACGGTTGCGTCAGTCAGCGGTACCTCCGGCAAGCCAAGACCTCACGGCGCGGTTGCTGGCACAAACCCAGCTCTTGGCCGCAGCCCCTCCGGAGCCCCCGCCGGGGCAGCACCTGGCAACAAAAGTCCTTGCCTTCACCGCAGGCGGAACAGCCGCGGCAGCCGGTGTGCTGGCTGTCAGCGCCTTTGCCATGGCAGGAGACACCTTCCCGGCGGCCGGAGACGCCCTGGAGGGCAGCCTGGCGCAGCACACTGCCCAGCTTCCTGCCGACGGCCGCCAGCTGAGTGAGGCGCAATTGGCGCAGCTTCGTACCGAAGGCTGGGTCTGTCCTGAGCTCGAGTCGCTCGGTTTCCACCTCCAGTCCGCAAGGGCAACCACGCTGGACGGCCACCCGGCCGTGGAGATACAGCTCTGGGACGGCAAGCATTACGCCCGGATAGTTGAACAGCATGATGCAGCTGAACAGTCGGGAGCGGTCAGCCCGCACACTGTGGCTGACCACGATCCGGCTCAGCTGCGGGCCGGCGGTACTTCGCCCTGGACGTTTACATACCAGACCCCGGCAGGCAGATTCACCTATGAGTCCGACCTCCCCGCGGACCAGGCGGACGACGCCCTCCCCGTGCTGCAGAGGCTCAGCGCCGCCGCTGCGGCGGGGATCAATGTCCGGGCTGCGCGGGAACCTGCGACCGCCGATGGCGGCAGCCGGGACGAATCCATCAGCGACAGGCTGCAGCGGGGATTCCGCAAAATAATGGAAATGCTCACGCCTTGA	MSPQSLFGRRHHRGGNHVNSCAQCAAAVHRERQYIERLRQSAVPPASQDLTARLLAQTQLLAAAPPEPPPGQHLATKVLAFTAGGTAAAAGVLAVSAFAMAGDTFPAAGDALEGSLAQHTAQLPADGRQLSEAQLAQLRTEGWVCPELESLGFHLQSARATTLDGHPAVEIQLWDGKHYARIVEQHDAAEQSGAVSPHTVADHDPAQLRAGGTSPWTFTYQTPAGRFTYESDLPADQADDALPVLQRLSAAAAAGINVRAAREPATADGGSRDESISDRLQRGFRKIMEMLTP				NA	NA	NA	NA	NA
D1-29_03297	618	sigE	COG1595	ECF RNA polymerase sigma factor SigE	ATGTCATCATCAGTTGTGGCACCTGTCCCTGCAGTAGAAGATTCCACGGTTGAATGGGTCAGGCCCACGTGGGAAGAGGTCGTGTCCAACCACTCGGCCAAGGTCTACCGGCTTGCCTACCGTCTCACGGGTAACAAGTTCGACGCTGAGGACCTCACGCAGGAAGTCTTTGTTCGCGTTTTCCGGTCGCTTGAGAACTTTAAGCCGGGGACCCTGGACGGCTGGCTGCACCGGATCACCACCAACCTGTTCCTGGACCAGGCCCGGCGCAAGAGCCGGATCCGGTTTGATGCGCTGGCAGAGGATGCAGAGTCCCGGATCCCGGGACGGGAACCCGGCCCCGAGCAAAGCTTTGAGTTCAACAACCTTGATCTCGACGTCCAGGCTGCCCTTGAGGAACTTCCGCCGGACTTCCGGGCAGCCGTGGTGCTGTGTGACCTGGAGGGCCTGTCCTACGATGAGGTGGCAGCCGCCTTAGGCGTCAAGCTGGGAACGGTGAGGTCACGCATCCATCGCGGGCGGACCATGCTGCGCGAAAAGCTTGCCCATCGGGATCCCCGGCCCCAGCAGTCGCGGAAACCAAAGCTTTCCATGCCCCGCATCGCCGGCATCCTCTGA	MSSSVVAPVPAVEDSTVEWVRPTWEEVVSNHSAKVYRLAYRLTGNKFDAEDLTQEVFVRVFRSLENFKPGTLDGWLHRITTNLFLDQARRKSRIRFDALAEDAESRIPGREPGPEQSFEFNNLDLDVQAALEELPPDFRAAVVLCDLEGLSYDEVAAALGVKLGTVRSRIHRGRTMLREKLAHRDPRPQQSRKPKLSMPRIAGIL	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
D1-29_03298	633		COG4122	Putative O-methyltransferase	ATGAGCGCCGACAAGTCCACGAGCTGGTCCTATGCAGAAGATCTGCCCGCAGAGGATGAAGTTATGCTGCGGGCGCGCGAGCGCTCCTTCGAGCTCGGCGTGACGCCTGTCGGTCCCGGCGTCGGTGCAGTCCTGACCGTCCTGGCGGCGGCATCGAAGGCCCAGACCGCCGTCGAAATCGGAACAGGAGCGGGGGTCTCCGGCGTCTGCATCCTTCGCGGCCTGGGCACGCAGGCTGTACTGACCACCATCGACGTGGACGTCGAGCACCTCAAGGCCGCCCGCGAAGCGTTTTCAGAGGCAGGAAGTCCGGCCAACCGCACCCGGACCATTTCCGGCCGGGCCGGCGATGTCCTGCCCCGCCTCACGGACGCGGCCTATGACCTGGTGTTCATCGATGCCGACAAGCCTGGTTTGCCTGGCTACGTGGAACAGGCCATCCGGCTCCTCAAGGCCGGCGGCCTGCTCATCATCAACGACGCCCTGGACAAGGACCGGGTGGCCAACCCTGCGGACAGGGAAGCCAGTACGGTGGTGCTCCGCCAGGTCGGCAAGACCATCCGCGACGACGACCGGCTGGCCTCAGCCATGCTTCCCACCGGTGACGGCCTCCTGGTAGCCGTCAAGAAATAG	MSADKSTSWSYAEDLPAEDEVMLRARERSFELGVTPVGPGVGAVLTVLAAASKAQTAVEIGTGAGVSGVCILRGLGTQAVLTTIDVDVEHLKAAREAFSEAGSPANRTRTISGRAGDVLPRLTDAAYDLVFIDADKPGLPGYVEQAIRLLKAGGLLIINDALDKDRVANPADREASTVVLRQVGKTIRDDDRLASAMLPTGDGLLVAVKK				NA	NA	NA	NA	NA
D1-29_03299	168			hypothetical protein	ATGGCGGCTATGAAACCACGCACCGGCGACGGCCCTATGGAAGTCACCAAAGAGGGCCGCAGCCTGATCATGCGTGTGCCGCTCGAAGGCGGCGGACGGCTTGTGGTCGAACTCAATGCTGCGGAGGCGGCCAACCTCAAGGAATGCCTCGTCGGCGTTACCGAATAA	MAAMKPRTGDGPMEVTKEGRSLIMRVPLEGGGRLVVELNAAEAANLKECLVGVTE				NA	NA	NA	NA	NA
D1-29_03300	1263			hypothetical protein	TTGAGTGCAGGCACGGGTACCCGGGCGGGCCTGACAACAAGGATTGGCCAGGCGGCGGGGCGCGCAGGCGATGCATTCCGCGGATGGCCCTGGTGGCTGCAGGTTATTGCGCTCTATTGCGGCTCACGGCTGGCGGGCGCGTTCATCTTTATGGCGGCGGCCCTGCACCAGGGGCCAAACCCCTGGTTCCCGGCCAAGCCCGACTACTGGAACTTCATCAACATCTGGGACGCCCGCTGGTACGGCGAAATCGTCACCAATGGCTACCCCTCCGTGCTTCCCACTGATGACACCGGCAACGTGCAGGAGAACGCCTGGGCGTTCTATCCCTTGTTTCCCGCCTTGGCGCGTGGACTCGGGGCAATAACAGGCCTCAACCCCGCAGCTTCGCTCACCCTGGTTGCCATGCTGTCCGGTGTGGGGGCGGCCCTGGTCACCTACGCCCTCTTTAGGTACAAAGCTGCGCACTCCACTGCACTGTGGGGTGTGGTCTTCTTCGCGACTTTTCCTGTTTCGGCGATTCTCCAGGTTCCGTACGCGGAGCCTCTGACCCTCCTGCTCCTGGCGGCAGCCTTGCTGCTGGTGATCCGCCGCCGCTACCTTTGGGCGATTCCGGTGGTTCTGCTGATGTGCCTTTCCCGGCCTGTTGGTGTTCCGTTTGCCGCCATGGTGGGACTGCTTCTCCTTTACCGGCTGATCCAACGCTTCCGCCGGGCCGCCAGCATGGCAAGCTCTCCCGGTAGCCACACGCCAGGAGAGCTTGCCCGCCTGGCAGCCCTGGCAGCCGTCAGCGGCGCCTCCGCCCTCATCTGGCCGGCTGCGGCCTGGGCAACCACCGGAGACATTCAGGCGTACACCAAAACGGAGACCGTCTGGAGGGGGCATGACCTGGTGCCGTTCAAGCCATGGTTCGACACCGGCATCCAACTCTTTGGTCCAGTACTCGGAGTGATGGCCCCGTTCATCTTCGCCGGCCTTTTTGCGCTGCTGCTGTTCTCGCCGCCGGTGGTGCAGCTTGGCGTTGAGCTTCGTCTGTGGTGCGCCTGCTACATGGGCTATCTCCTGATCTTCCTGCACCCGCAGACCAGCACGTTCCGTATGCTGCTCCCGCTCTTTCCGCTGGCGCTCAGCGCCGCACTCCTGTCCCGGTCACGGGCCTATCGCGGGACAGTTCTGGTGATGTTTGTCCTGCTCCAGATCGTCTGGGTCGTCTGGCTCTGGGCCTGGGCCCAGCTGCCCGGCGGAGGGGATTACCCACCGTAA	MSAGTGTRAGLTTRIGQAAGRAGDAFRGWPWWLQVIALYCGSRLAGAFIFMAAALHQGPNPWFPAKPDYWNFINIWDARWYGEIVTNGYPSVLPTDDTGNVQENAWAFYPLFPALARGLGAITGLNPAASLTLVAMLSGVGAALVTYALFRYKAAHSTALWGVVFFATFPVSAILQVPYAEPLTLLLLAAALLLVIRRRYLWAIPVVLLMCLSRPVGVPFAAMVGLLLLYRLIQRFRRAASMASSPGSHTPGELARLAALAAVSGASALIWPAAAWATTGDIQAYTKTETVWRGHDLVPFKPWFDTGIQLFGPVLGVMAPFIFAGLFALLLFSPPVVQLGVELRLWCACYMGYLLIFLHPQTSTFRMLLPLFPLALSAALLSRSRAYRGTVLVMFVLLQIVWVVWLWAWAQLPGGGDYPP				NA	NA	NA	NA	NA
D1-29_03301	510			hypothetical protein	ATGGGTGATGTGAGCTATTTTCTGGTTTTTCTTGCCATCCTGCTGATCGGTGTGGCCGCCTGGGCCGGGGCCGGTGGCAAGTCCGGCACTTTGTTCAGGCGCAGCGGGACCGGGACGGGTGGAAGTACCGGGCTGCCTGACAAAGAGTTTTCTGCCGCTGGACTTCTCGATGGAGGGTTCGAACAGCCGGTGGCGAACCTTCCGCCGGTGCTGTTGCCGGCAGAAGCAAGCCCGGCCGACGTCGACAAGGTTCGGTTTTCCCTTGGCCTGCGGGGCTACCGCATGGACCAGGTGGACCAGGTGCTGGACGAGTTGAGGGACCAGCTGGCCGCCAAGGATGCGGAACTGGAACGGCTCCGGATGCGGCTGCTCGAGGCCGAGCAGTCCCAGCAGGCCTCCACGGGGACGCAGGCAGCTGATAAGGCCGGAACCGTGGCGGTGGAAGCTCAGCAGGATCGGCCAACAACCACGTCCCGGCCTGAGCGGGAAAAGGCTGAGGGCACACTTTGA	MGDVSYFLVFLAILLIGVAAWAGAGGKSGTLFRRSGTGTGGSTGLPDKEFSAAGLLDGGFEQPVANLPPVLLPAEASPADVDKVRFSLGLRGYRMDQVDQVLDELRDQLAAKDAELERLRMRLLEAEQSQQASTGTQAADKAGTVAVEAQQDRPTTTSRPEREKAEGTL				NA	NA	NA	NA	NA
D1-29_03302	786			hypothetical protein	ATGAGCATCAACGCAGACCCGGCCAAAACCGCCCAGCCACGCCGCAAAGGGCCCCTTGAACTTCGCCGCAAACAGGCAGCGGTGGAAATGTCGGACCAGCATTTGCTGGACAGCAAGGGTCCCGGGCAGTTCGTCCATACGGATCCCTGGCGCGTGATGCGGATCCAGAGCGAATTCGTTGAAGGATTCGGGGCGCTCGCGGACCTGGGACCGGCGGTCAGCGTTTTCGGTTCAGCAAGAACCAAACCCGGCAGCCCGTACTACGAAATGGGTGTCGAGGTGGGCCGGAAACTGGCAGCTGCCGGCGTAGCCGTGATCACGGGCGGCGGTCCGGGTTCCATGGAGGCAGCCAACAGGGGCACCGTGGAAGGCAACGGCGTATCTGTGGGCCTGGGCATTGAATTGCCCTTCGAGCAGGGGCTCAACCAATGGGTGGACCTGGGCATCAACTTCCGGTACTTTTTCGCCCGCAAGACCATGTTCGTCAAATACGCCCAAGGGTTCATCGTCCTCCCCGGAGGCCTGGGCACGCTGGACGAACTCTTTGAAGCCATGGTGCTCGTCCAGACCCGGAAAGTGACCTCGTTCCCGATTGTCCTCCTCGGCGTCGCATTTTGGGGGCCGATGATCGAGTGGATCAGGGGCACCCTGGTGGCCGAGGGAATGGTTTCCGAGAAGGACCTGGACCTGATCCAGGTCGTTGATGATCCGGCCGAGGCAGTGGACCTGGTGTTGCACGGCACCGTCATCGCGCCGTCAACCAACGGGGAGCAGCGGCCCGAATAA	MSINADPAKTAQPRRKGPLELRRKQAAVEMSDQHLLDSKGPGQFVHTDPWRVMRIQSEFVEGFGALADLGPAVSVFGSARTKPGSPYYEMGVEVGRKLAAAGVAVITGGGPGSMEAANRGTVEGNGVSVGLGIELPFEQGLNQWVDLGINFRYFFARKTMFVKYAQGFIVLPGGLGTLDELFEAMVLVQTRKVTSFPIVLLGVAFWGPMIEWIRGTLVAEGMVSEKDLDLIQVVDDPAEAVDLVLHGTVIAPSTNGEQRPE				NA	NA	NA	NA	NA
D1-29_03303	756	glnQ_3		Glutamine transport ATP-binding protein GlnQ	ATGACTACTCATGTGCCCGGCGATGCGCTCGTCTCCCTGAATGGTGTCAACAAACATTACGGTCAGCTTCACGTGTTGAAGGACATCGACCTCCACGTCCGCAAGGGCGAAGTGGTTGTTGTTATTGGCCCTTCCGGTTCGGGCAAGTCGACTCTGTGCCGCGCCATCAACCGCCTCGAAACGATTGAAGGCGGAACCATCAGTATTGATGGAAAAGTCCTGCCGGAGGAAGGAAAGGAACTCGCCCGCCTCCGGGCCGACGTCGGCATGGTGTTCCAGTCGTTCAACCTGTTTGCCCATAAGACCATCCTGGAAAACGTGACCCTAGGCCCTATCAAGGTCAAGGGTGTTCCCAAGGCGCAGGCTGACAAGGAAGCCATGGCTCTCCTTGAACGGGTGGGCGTAGGCCACCAGGCCCCCAAGCTTCCCGCCCAGCTTTCCGGCGGACAGCAGCAGCGTGTTGCCATTGCCCGGGCACTGGCCATGAAGCCGAAGGTCATGCTTTTTGACGAGCCCACCTCCGCCCTTGACCCGGAAATGATCAATGAAGTGCTTGACGTCATGATCCAGCTGGCCAAGGAGGGCATGACCATGATTGTGGTCACCCACGAGATGGGCTTCGCCCGCAAGGCCGCTGACCGCGTGGTGTTTATGGCAGACGGCCAGATCGTCGAGGACGCAACGCCCGAAGAGTTCTTCACCAATCCCCAGAGCAGCCGGGCCAAGGACTTCCTGTCCAAGCTTCTTACGCACTGA	MTTHVPGDALVSLNGVNKHYGQLHVLKDIDLHVRKGEVVVVIGPSGSGKSTLCRAINRLETIEGGTISIDGKVLPEEGKELARLRADVGMVFQSFNLFAHKTILENVTLGPIKVKGVPKAQADKEAMALLERVGVGHQAPKLPAQLSGGQQQRVAIARALAMKPKVMLFDEPTSALDPEMINEVLDVMIQLAKEGMTMIVVTHEMGFARKAADRVVFMADGQIVEDATPEEFFTNPQSSRAKDFLSKLLTH	PGPT0000785_350	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000785-gluA-K10008	NA	NA
D1-29_03304	885	glnH	COG0834	ABC transporter glutamine-binding protein GlnH	ATGAAGGCATTTTTGACCCGGAGGAAATCCCTCCTGGTAGCAGCATCCGCAGCCCTGGCGCTGTCACTGAGCGCATGCGGCGGCGGTACCGGCACCACCAGCGACCCCACCGTTGCCGAGACTCCGACTTTCGCGGCAGGGAGCACGATGGAAAAGCTCTCCAAGGCCGGAACCATCAAGATCGGCACCAAGTACGACCAGCCGCTGTTTGGCCAGGTGGGCCTGGACGGAAAGCCCATCGGCTTTGACGTCGAGATCGGAAAGCTGATCGCTGCAAAGCTCGGAATTGCCGCCGACAAGATTGAATGGTCCGAAACAGTATCAGCCAACCGCGAACCGTTTATCCAGCAGGGCCGCGTTGACCTGGTCATTGCCACGTACACCATCAATGACAGGCGCAAGGAAGTCGTCAGCTTCGCCGGCCCGTACTACGAAGCCGGCCAGGCCCTGATGGTCAACAAGGACAACGACTCCATCACAAAGCCGGAGGACGTCAAGGGCAAGAAGGTTTGCTCGGTGACCGGCTCCACCCCGGCTGCCACCATTGTTGAGAAGTATGGAGCAGAGCTTGTTCCGGCCGCCACCTACTCAGCTTGCCTGGAGCCCCTCCGCAACAAGCAGGTCGAGGCCATCACCACTGACAACGTGATCCTGGCCGGGTTTGTGGACAAGGAGCCCGAGGCGTTCAAGCTTGCCTCGGATGAGACGTTCACCAAGGAGCCCTACGGCATTGGCCTGAAGAAGGAAGACACCGAGTTCCGCAACTGGATCAACGACCAGCTGGAGGAATTCGAAAAGGACGGATCCTACAAGAAGGCCTGGGAAGCAACTGCCGGCACGGTCATCAAGACTGCCCCGGAGCTCCCTGAGATCGACCGCTACTAA	MKAFLTRRKSLLVAASAALALSLSACGGGTGTTSDPTVAETPTFAAGSTMEKLSKAGTIKIGTKYDQPLFGQVGLDGKPIGFDVEIGKLIAAKLGIAADKIEWSETVSANREPFIQQGRVDLVIATYTINDRRKEVVSFAGPYYEAGQALMVNKDNDSITKPEDVKGKKVCSVTGSTPAATIVEKYGAELVPAATYSACLEPLRNKQVEAITTDNVILAGFVDKEPEAFKLASDETFTKEPYGIGLKKEDTEFRNWINDQLEEFEKDGSYKKAWEATAGTVIKTAPELPEIDRY	PGPT0000770_293	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000770-gluB-K10005	NA	NA
D1-29_03305	651	glnM	COG0765	putative glutamine ABC transporter permease protein GlnM	ATGGACGCTATTCTCGAAAACCTGCCGCTTTACTGGGAGGGCCTTCTCCGGACCCTGTTCCTGTCTACTGTGTCCGGGGTGATCGCCCTCGTGTTGGGGACGTTGCTGGCCGCAGCCAGGGTTTCTCCTGTTGCCGCCCTGCGCGGCTTCAGCATGACTTATGTTGAAGTCCTCCGAAACACCCCCCTGACCATTGCCTTTTTCTTTGCCGCTGTAGTGCTCCCCCGTCTTGGGGTAACGTTCGAGCAATTTGAAGTGGCAGCAATCATTGCCCTCAGTGCCTACACCGCAGCCTTCATCGCTGAAGCTGTCCGCTCCGGTGTTAACAGCGTTCCCGTTGGGCAGGCCGAGGCTGCCCGCAGCATCGGAATGAAGTTCAGCCAGGTGCTGTCCCTCATCATCCTGCCGCAGGCACTTCGCACCGTCATTCCACCATTGATCAACATCCTGATCGCCCTCGTAAAAAACTCGTCCGTCGCCGGTGCCTTCTTTGTGCTGGAGCTGTTCGGCTACGGCAGGCAGCTTGCCAACACCTATGGTGACCAGGTGCTGGCCGTACTGCTCGGCGTTGCGTTCTTCTACCTCCTGCTTACCGTTCCGCTCGGTATCCTGGCCAGCACCGTCGAAAAAAAGGTGGCGATTTCCCGATGA	MDAILENLPLYWEGLLRTLFLSTVSGVIALVLGTLLAAARVSPVAALRGFSMTYVEVLRNTPLTIAFFFAAVVLPRLGVTFEQFEVAAIIALSAYTAAFIAEAVRSGVNSVPVGQAEAARSIGMKFSQVLSLIILPQALRTVIPPLINILIALVKNSSVAGAFFVLELFGYGRQLANTYGDQVLAVLLGVAFFYLLLTVPLGILASTVEKKVAISR	PGPT0000775_461	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000775-gluC-K10006	NA	NA
D1-29_03306	840			hypothetical protein	ATGAGCTCAGTTCTTTATGACGTCCCGGGCCCCAAGGCACGCAGGGTTTCCCTCATTGGGTCGGTAGTGGGCTCCCTGCTGATCCTTGGCCTGCTCGCCTTGATCATCACCACCCTCGCCCAGCAAGGGATCTTCGAAGGCCGGCGTTGGGCAATTTTCACCCGGGCCGATGTCTGGATGTTGCTCGGGAACGGCATCGGAGCAACTCTTAGCGCCGCTGCCATCGCAGCGATCATCGCCTTCCCGCTGGGTCTGATGCTCTGCCTCCTGCGGATCTCGGACGCCGCTGCTGTCCGCATCCCCACACGGGTTGTGCTGGAGTTCCTGCGCGGTATGCCCGTTGTCCTGATGATGTTCTTCGTTTTGCTGGTCTTTGGCACCAACCCGTTCATCGCTGTAGTGGCCGGCCTGGTCCTCTACAACGCGGCCGTCTTCTCGGAGATCATCCGTGCCGGCATTCAGTCACTGCCGAGGGGCCAGCGTGAGGCGGGCCTGACCATTGGACTGACCAGCTTCCAGTCCCGCATGCTCATCGAACTGCCGCAGGCTATCCGCCGGATGATGCCATCGTTGGTTGCCCAGTTGGTGGTGCTCCTGAAGGACACGTCCCTGGGTTACATCGTGGCTTACGGCGAGCTGCTCCGGGCTGTGCAGGTCATGGCGGACTTCCTGGGAACGGCGTTCCTGTTCCCGATCTTCTTCGTGGCAGCAGCCATCTACATCGCGATCAACATCTGCGTTTCACGGATCGCCGTGTGGATCGAACACCGTGGCACCAAGAAGGCAGCCGGCGGCGTGGCAAAGGCTGAGCCTGAGCCCATCGAAGCCGCAGTTCCGTAG	MSSVLYDVPGPKARRVSLIGSVVGSLLILGLLALIITTLAQQGIFEGRRWAIFTRADVWMLLGNGIGATLSAAAIAAIIAFPLGLMLCLLRISDAAAVRIPTRVVLEFLRGMPVVLMMFFVLLVFGTNPFIAVVAGLVLYNAAVFSEIIRAGIQSLPRGQREAGLTIGLTSFQSRMLIELPQAIRRMMPSLVAQLVVLLKDTSLGYIVAYGELLRAVQVMADFLGTAFLFPIFFVAAAIYIAINICVSRIAVWIEHRGTKKAAGGVAKAEPEPIEAAVP	PGPT0000780_618	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000780-gluD-K10007	NA	NA
D1-29_03307	1140	dapE_3	COG0624	Putative succinyl-diaminopimelate desuccinylase DapE	ATGGTGACTGCTGAAACCGCCTCTGAGCCCGCCACCAAGCCCCTGGACCTCCGGCAGGATGTTGCGCTGCTGACCGCAGCCGTAATGGACATCAACAGTGTGTCTGGAAACGAGACTGAGCTGGCCGACGCCGTCGAAACTGCACTGCGGGGCATCCCCCAACTGCACGTGGTGCGTGATGGTGATTCGCTGATCGCGCGGACGGAGCTGGGCAGGACCGAACGGGTCATCCTTGCCGGCCACCTGGACACGGTGCCCTTGCCGGTCACATTCGGGGCCCGGGGCACGGTTCCCTCCACCTGGGACTCCGGCATTCCCGGCGAGGGCGTCCTGTACGGACGTGGGGCCACCGACATGAAGGGCGGTGTTGCGGTGCAGTTGGCGCTGGCTGCCACCATGTTCGACGCCGGGGCGGAACCGAAACGCGATGTCACCTTTGTTTTTTATGACCACGAGGAAGTGGAAGCGGTCAAGAGCGGGCTGGGCCGCCTGGTCCGCAACCACGGCGCGCTGCTGAACGGCGACTTCGCCATTCTGTTGGAGCCCACCGACGGCACAGTGGAGGGCGGGTGTAACGGCACCATGCGGCTGGAAGCAACCACCATCGGCGAGGCCGCACATTCTGCCCGGGCCTGGATGGGAAGCAATGCGATCCATGCAGCGGCGCCCATCCTTGCCCGGTTGGCTGCATACCAGCCGGCCACCGTCAACGTTGACGGGCTCGACTACCGTGAAAGCCTTAATGCGGTGAAGATTCATGGCGGCACGGCGGGCAACGTGATTCCGGACCGCTGCGTTGTGGTGATCAACTACCGCTTCGCCCCGGACAAATCGCCGGAGCAGGCTGAAGCCCATGTACGTGCCCTCCTCCAAGGTTTCGACGTGGTCCGGACGGACAGTGCCGCAGGCGCCCGTCCCGGGCTGAACCATCCGGCAGCTGCATCCTTCGTGGCCGCGGTTGGAGCCGAGCCGAAACCGAAATACGGCTGGACCGACGTCGCGCGGTTCAGTGAACTGGGCATTCCCGCGGTGAACTTCGGTCCAGGTGACCCGCTGCTGGCCCACAAGGACAACGAGCACGTGGACGCGGACGCAATCCGTCAATGCCTGCGTGCATTGCGGACGTGGCTTTCCGAGTAA	MVTAETASEPATKPLDLRQDVALLTAAVMDINSVSGNETELADAVETALRGIPQLHVVRDGDSLIARTELGRTERVILAGHLDTVPLPVTFGARGTVPSTWDSGIPGEGVLYGRGATDMKGGVAVQLALAATMFDAGAEPKRDVTFVFYDHEEVEAVKSGLGRLVRNHGALLNGDFAILLEPTDGTVEGGCNGTMRLEATTIGEAAHSARAWMGSNAIHAAAPILARLAAYQPATVNVDGLDYRESLNAVKIHGGTAGNVIPDRCVVVINYRFAPDKSPEQAEAHVRALLQGFDVVRTDSAAGARPGLNHPAAASFVAAVGAEPKPKYGWTDVARFSELGIPAVNFGPGDPLLAHKDNEHVDADAIRQCLRALRTWLSE				NA	NA	NA	NA	NA
D1-29_03308	1041	dapD	COG2171	2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase	ATGACTGAGACCGCTACCTCCGCTGTGCCCGAAAACCAGAACTCAACCATTGAGGCCCGTTCCGCCTATGGCTTCGGGCTGGCCACCATCGCCACCGCCACAGGCAAAGAAAATAGCCAGGCCACTGTCCTTGATGTTTGGTTCCCGGCACCTGCCCTTGGGGTTGCCGCAGAAAAGCTGCGCGCCGTTGAGAACGCAGATGAAAACCTGGCCCAGCTTGCGGAGAGCAGCGCTGACCCGGACCGCGGCACCGAGCAGAAAGTGGTCTTCGTCCAGATCAACCTCGACGAAGCCCCGGCCGACACCGCGGATGCCTACCTCAGGCTGCACCTTCTCTCCCACCGCCTGGTCCGGCCCAACAGCATCAACCTTGACGGCGTGTTCGGCAAGCTCCCCAACGTGGTGTGGACCAACTTCGGCCCGGCAGCTGTGGAGGGCTTTGAGCTTACCCGTGCGCGCTTGCGCCGCCGTGGCGCTGTCACCGTCTACGGCATCGACAAATTCCCCCGCATGGTGGACTACGTTGTCCCGTCAGGTGTGCGGATCGCCGACGCCGACCGTGTCCGGCTTGGCGCGCACCTCGCCGACGGGACCACCGTCATGCACGAAGGGTTTGTGAACTTCAACGCCGGCACCCTGGGGACCTCCATGGTGGAAGGCCGCATCTCCGCAGGAGTAGTGGCCGGTGACGGCAGCGATGTGGGCGGCGGCGCCTCGATCATGGGCACTCTTTCCGGCGGCGGCAAGGAGAAAATCGCCATCGGTGAGCGCGTCCTCCTGGGTGCCAACTCCGGCGTGGGCATCAGCATCGGCGATGACTCGGTGGTCGAGGCCGGACTCTACGTCACGGCAGGAACGCGCGTTCGTGTGCCGGGCCCCAAGGACGAGGTAGGCGAGGACACCACCAAAATCGTCAAAGCCATCGAGCTCTCCGGGGTCCCCAACCTGCTGTTCCGCCGCAACTCCACCACCGGCGCTGTGGAGGCCCTGCCGCGCAAGGGCCAGACGGTGGAACTCAACACCGCCCTGCACGCCAACTGA	MTETATSAVPENQNSTIEARSAYGFGLATIATATGKENSQATVLDVWFPAPALGVAAEKLRAVENADENLAQLAESSADPDRGTEQKVVFVQINLDEAPADTADAYLRLHLLSHRLVRPNSINLDGVFGKLPNVVWTNFGPAAVEGFELTRARLRRRGAVTVYGIDKFPRMVDYVVPSGVRIADADRVRLGAHLADGTTVMHEGFVNFNAGTLGTSMVEGRISAGVVAGDGSDVGGGASIMGTLSGGGKEKIAIGERVLLGANSGVGISIGDDSVVEAGLYVTAGTRVRVPGPKDEVGEDTTKIVKAIELSGVPNLLFRRNSTTGAVEALPRKGQTVELNTALHAN				NA	NA	NA	NA	NA
D1-29_03309	825			hypothetical protein	GTGCTGCTCCTCACCCTGGCCCTGATGGGCGGAGGAGTGTACACAGCTGTCACTTTCCTGCAGCGCTCCGAGACCCTGGTTTCGGAGCGCTGCACGGCGGTGGTGGGTTCACAGTCCGCGGAACTGGCCACGGACCAGGCCGTCAACGCCTCGCTCATTACTGCCGTTGCCGTCCAACGGGGCCTTCCGCCGCGCGCCGCCAGCATCGCCCTGGCTACGGCCATGCAGGAGTCGAAGCTGCGAAACATCAACCACGGCGACCAGGCCGGGCCGGATTCCCGGGGACTGTTCCAGCAGCGGCCATCCCAAGGGTGGGGAACTGAAGCCCAGGTCATGGATCCCTACTATGCAGCCAACGCTTTCTACGACGCGCTGGAAAAGATCCCGGACTATGAGTCACTGGAAATTACCGATGCCGCCCAGCGGGTACAGCGCTCCGCCTACCCGCTGGCCTATGCAGAACATGAAGGCATGGGCCGCTCGTTCGCCTCTGGCTTCACCGGCCAGACGCCTGGCGCTGTGCAATGCACACTGCGGGCGCCCCTCGATGCAGGCAACCCGGCCGCAGTGGCTTCGGAGCTGGAACTGGCCTACGGGACGCTGGGGACAGCCACGGAGGGGCAGAGCCTGCTGGTGGAAGCCAGCGGCAGCCACGCCTGGTCTCTGGCGCAATGGGCTGTGGCCAATGCCAAGGACTTTGAGGTAACCCAGGTGGACGTCGAGGGGCAAAGCTGGAACCGGAATGCCAAGGACGGCTGGCAGGATTCGGACGCGGCGCCCGGCCAGGTCCGGATCACTGTCTCGCCGGTGGCATCCGAAAACTGA	MLLLTLALMGGGVYTAVTFLQRSETLVSERCTAVVGSQSAELATDQAVNASLITAVAVQRGLPPRAASIALATAMQESKLRNINHGDQAGPDSRGLFQQRPSQGWGTEAQVMDPYYAANAFYDALEKIPDYESLEITDAAQRVQRSAYPLAYAEHEGMGRSFASGFTGQTPGAVQCTLRAPLDAGNPAAVASELELAYGTLGTATEGQSLLVEASGSHAWSLAQWAVANAKDFEVTQVDVEGQSWNRNAKDGWQDSDAAPGQVRITVSPVASEN				NA	NA	NA	NA	NA
D1-29_03310	612			hypothetical protein	ATGCATCAAGCAGGCGGTTCAGGCTGGAAGATCACCATGGACACATCCGGCCCGATGATGATCGCGCTGTACGTGCGCGACGCCGCCGGTCTCGACGGCGCCGGCCGTCCGGCGCTCTCACACGCCGCTCCGAAAGTACACCACGCTGACCATAGCCATCTCACCGCCGAAGTGGGCGGACTCGGCGCCCTGAAGACCGAGTGGGAAGCCTGGTGGGATCAACTGCTCAAGGCCCATCCAAAGATGTCCCCCGAGTTGTCCCCGCCGGAATTTGCCGCGTTCGGAAATTCCCCTGCACTGCAGAGGGTCCTGCAGGCGCATTTCGGTTCTGCCCTGACATGGGTGCGGGAGCGCCGCAGTGAATATGCGGAGCTGGAAGCGGAGCGTGTTGCCAGTGGATCGGATCTGCTGCTGGATGACCTGGTGGATGACCGGCTGATGGAGGTGGGGCGGAGTTCCCGGGACTTCAGCCTGACCATCATCGAACTGCCGCTCAACGAACAGCGGGCCTGGTACCTGGAACCGGACAAGATCATTATGAGCCATGACCTGATCTCACAGCCCGATCTTTTCCGCAGCTATGTCCAGCCCGTTGTGGAGATGTTGGTCTAG	MHQAGGSGWKITMDTSGPMMIALYVRDAAGLDGAGRPALSHAAPKVHHADHSHLTAEVGGLGALKTEWEAWWDQLLKAHPKMSPELSPPEFAAFGNSPALQRVLQAHFGSALTWVRERRSEYAELEAERVASGSDLLLDDLVDDRLMEVGRSSRDFSLTIIELPLNEQRAWYLEPDKIIMSHDLISQPDLFRSYVQPVVEMLV				NA	NA	NA	NA	NA
D1-29_03311	660	betI_7		HTH-type transcriptional regulator BetI	GTGCTAAAAAAGGGGGTGCCAAAAATCGTAGATGCCGAAGCCCGGCGCAATGAAGTAGTGGAGGCAGTCTTCAGGATCATCGCAGTGGACGGACTGGAGCGTGTTTCCCTCCGTGAGGTGGCGGACGAGGCAGGACTGGCGGTGGGATCGGTCAGGCACTACTTTGCCGGCAGCGAAGAGCTCCTCACCCACTCGTTCGCGACAGTGGTGGACCGCATCCTGTTCCGCTTGGCGGAAGCCCTGCCGGCCGTCCAGGCGAGTGTTCCCGGAACGGCGCAGCAGGGCGACGCTGTTTTAACCCTGCTGGGTGAATTGCTGCCGATCGATGAAAGGCGGGCGGTTGAGGCGTGCGTCTGGATGGCGTTCAAGAACGCAGCCAGAATCCGGCCCTTCCTCGCGGCGGAAGCGGACCGAAGCCACCGGGAGGTCGCGGCCATCATCGGCCAGGTGATTATCGCCTTGATGGCGGACGACGGCGGCGGGCAGCAGAGCCTCGTTGTGGAGGCCGAGCGGCTCCTGGCAATCCTGGACGGCCTGTGCATGCACGCCCTGCTTCAGCCCGAGTGGATGAATGCCGGAATGTGCCGGGACGTTCTGGAGCGGCACCTTGAGGCACTCGCTGCCACTCCGGCCATTACCGTCCGGGGGCTTCGGGAATAG	MLKKGVPKIVDAEARRNEVVEAVFRIIAVDGLERVSLREVADEAGLAVGSVRHYFAGSEELLTHSFATVVDRILFRLAEALPAVQASVPGTAQQGDAVLTLLGELLPIDERRAVEACVWMAFKNAARIRPFLAAEADRSHREVAAIIGQVIIALMADDGGGQQSLVVEAERLLAILDGLCMHALLQPEWMNAGMCRDVLERHLEALAATPAITVRGLRE				NA	NA	NA	NA	NA
D1-29_03312	1014	galE_1	COG1087	UDP-glucose 4-epimerase	ATGAAAATTCTGGTCACAGGTGGCACCGGGTACATCGGCTCCCACACAGTCTTGTCCCTGCAGGAAGCCGGCCATGAAGTGGTGGTCATCGATAACCTGGTGAACTCGAGCGTGGAGTCGCTGCGGCGCGTTGCCGAGCTCACCGGGAAGACCGCCCAATTCCACAACGTGGACCTCCTGGACGAAGCGGCGGTGGACGGAGTTTTTTCGGCCAACGCCATTGACGCGGTCATCCACTTTGCCGGCCTGAAAGCGGTGGGCGAGTCGGTCCGTGAGCCGCTGAAGTACTACTACAACAACCTGGTGGGCACCCTGAACCTGATCCGGGTCATGGACCGCCACGACGTCCGCTCGATCGTCTTCAGCTCCTCCGCCACGGTTTACGGCGAACACAACCCGATCCCCTACGTCGAGAAGATGGAAATCGGCGCCAACAACCCGTACGGCCGGACCAAGGAACAGATCGAAGACATCCTCTCGGACCTTGGCGCCGCGGACACCCGCTGGCACATCGCCCTGCTCAGGTACTTCAACCCGGTCGGCGCCCACCCCTCCGGCAGGATCGGCGAGGACCCCCAGGGCATCCCCAACAACCTGGTGCCGTTCATCGCCCAGGTCGCCGTGGGACGCCGCGAAAAACTCATGGTCTTCGGCGGCGACTACGACACTCCGGACGGCACCTGCCTGCGCGACTACATCCACGTCGTGGACCTCGCCGACGGCCACGTCGCCGCCCTGAACCATGTGGCCGGCCGGAGCGGTGTGTTCCGCTGGAACCTTGGCTCAGGCAAGGGCTCCTCCGTACTGGAGGTGCTGCACTCCTTCGAGAAAGCCGTCGGAAAGCCCATCCCCTATGAGATCACGGGGCGCCGCGCCGGCGACCTTCCCGCATTCTGGGCCGACGCCGCCTCCGCCCTGGCCGACCTGAGCTGGTCCACCACCAAAACAGTGGACCAGATGTGCGAGGACCACTGGCGCTGGCAGAAGAACAACCCCCTCGGCTATGGCTCCTGA	MKILVTGGTGYIGSHTVLSLQEAGHEVVVIDNLVNSSVESLRRVAELTGKTAQFHNVDLLDEAAVDGVFSANAIDAVIHFAGLKAVGESVREPLKYYYNNLVGTLNLIRVMDRHDVRSIVFSSSATVYGEHNPIPYVEKMEIGANNPYGRTKEQIEDILSDLGAADTRWHIALLRYFNPVGAHPSGRIGEDPQGIPNNLVPFIAQVAVGRREKLMVFGGDYDTPDGTCLRDYIHVVDLADGHVAALNHVAGRSGVFRWNLGSGKGSSVLEVLHSFEKAVGKPIPYEITGRRAGDLPAFWADAASALADLSWSTTKTVDQMCEDHWRWQKNNPLGYGS	PGPT0017825_29	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
D1-29_03313	1410	gltA2	COG0372	Citrate synthase 1	ATGGTGGCTTTCTACAAGAAGGCAGCCCGGGTGTTGGAATCCTGTGCTTGCAGGGTCAGTGCGCGGCTCACCGGATGTTGGATCAAGCTTTCGACAGAGGCCCAGACGCCTCATGAAGGGGACTCCATGACTGAGACCAACAGCGCAACCCTGCTCCATGCAGGAGGCGAGCTCAAGCTCCCGCGCATCCAGGTTATTGAAGGAAACGAAGGTTACGACGTTTCCAAGCTGCTGAAGCAGACGGGTGCAGTCACCTTTGACCCCGGCTTTATGAACACAGCGGCAACAACCTCTGCAATCACCTACATCGACGGCGATGCGGGCATCCTGCGTTACCGGGGATACCCCATCGAGCAGTTGGCGCAGCACTCCAGCTTCCTCGAAGTTTCCTACCTGCTGATCTACGGCAACCTGCCCACCACCGTGGAACTGGAAGCGTTCGACCAAAAGATCCGCCGTCACACGCTGCTGCACGAAGAGCTCAAGGGCTTCTTCGGCGGGTTCCCGCGCGATGCCCACCCCATGCCTGTCCTTTCGTCGGCTGTATCGGCGCTGTCCACGTTCTACCAGGACTCGCTTGACCCCTTCAACGCCGAGCAGGTGGAGGTTTCCACCATCCGCCTGATGGCCAAGATGCCGGTCATCGCTGCCTACGCGCTCAAGAAGAGCATCGGCCAGCCCATGCTGTACCCGGACAACTCCCACAACCTCGTGGAAAACTTCCTGCGCCTGAGCTTCGGCCTCCCGGCAGAGCAGTACGAGGTTGATCCGGTCATCGCGAAGGCGCTGGATCTCCTGCTGATCCTGCACGCTGACCACGAACAGAACTGTTCCACCTCCACGGTGCGCCTGGTGGGCTCCTCAAACGCCAACCTGTTTGCCTCGGTGTCGGCCGGCATCAACGCGCTCTTCGGTCCCGCCCACGGCGGCGCGAACGAGGCTGTGCTCAAGATGCTCCGCCAGATCCAGGCCGACGGCACCAGGCCGGAGGACTACATGGAGAAGGTCAAGAACAAGGAAGACGGCGTCCGCCTGATGGGCTTCGGACACCGCGTGTACAAGAACTACGATCCGCGGGCCAAGATCGTCAAGGCCACGGCCCACGAAATCCTCACGAAGCTCGGCGGCAACGACGAACTCCTGGACATCGCCATGCGGCTTGAGGAGAAGGCGCTGAATGACGACTACTTCATCCAGCGCAAGCTTTACCCCAACGTGGACTTCTACACAGGGCTCATCTACAAGGCCATGGGCTTCCCGGAGAAGATGTTCACCGTCCTGTTCGCCATCGGCCGCCTGCCGGGCTGGATCGCCCAGTGGCGTGAAATGATCAGCGATCCCAACACCAAGATCGGCCGCCCGCGCCAGCTGTACATCGGCGAGCCGGAGCGCGACTACCCCGTCCGCTAA	MVAFYKKAARVLESCACRVSARLTGCWIKLSTEAQTPHEGDSMTETNSATLLHAGGELKLPRIQVIEGNEGYDVSKLLKQTGAVTFDPGFMNTAATTSAITYIDGDAGILRYRGYPIEQLAQHSSFLEVSYLLIYGNLPTTVELEAFDQKIRRHTLLHEELKGFFGGFPRDAHPMPVLSSAVSALSTFYQDSLDPFNAEQVEVSTIRLMAKMPVIAAYALKKSIGQPMLYPDNSHNLVENFLRLSFGLPAEQYEVDPVIAKALDLLLILHADHEQNCSTSTVRLVGSSNANLFASVSAGINALFGPAHGGANEAVLKMLRQIQADGTRPEDYMEKVKNKEDGVRLMGFGHRVYKNYDPRAKIVKATAHEILTKLGGNDELLDIAMRLEEKALNDDYFIQRKLYPNVDFYTGLIYKAMGFPEKMFTVLFAIGRLPGWIAQWREMISDPNTKIGRPRQLYIGEPERDYPVR	PGPT0001455_620	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
D1-29_03314	1149	dapL	COG0436	LL-diaminopimelate aminotransferase	GTGACCGCCGCGTTGAGTAGTTTTGGCCTCAGCCTGCCCGATTACCCTTGGGAGGCACTGGCGCCCTATCTGGCCAAGGCTTCGGAACACCCGGGCGGGGCAGTGAACCTGTCCATCGGTACGCCCGTTGACCCCACGCCCACCGTTATCCAGGACGCGCTCCAGGCCGCGGCCAACGCTCCCGGATACCCCACGGTCCACGGCACTGCAGCATTGCGGGAAGCCATCGCGGCCTGGTTTGGGCGCCGGCGTGGCGTTCCTGGGCTGGATCCAAAAAACGTTATGCCAACCGTGGGTTCGAAGGAACTGGTTGCCTGGCTGCCGCTCCTGCTGGGGCTGAAGCCGGGCGACGTCGTTGTACGCCCCCAGGTTGCCTACCCCACCTACGACATCGGAGCCACCCTTGCCGGGGTCACCTCCGTGGCTACGGACAACCTTGACGAGCTCGACGCAGCCACCCGCTCCCGGGTCCGTCTGATTTGGGTCAATTCGCCCGGCAACCCGACCGGAAGCGTCAGGGATGTGGAGTCCTTGAGGTTGTTGGTGGCACAGGCGCGGGAGCTGGGCGCCGTGGTGGCCTCTGACGAGTGCTATGCCGAACTGGGTTGGGGCGCGTGGGATGTCCAGCGCGGTGGGGAGCCGGTACCCAGCATCCTGGATCCGCGGATTGCCGGCGGCTCCCATGAAGGACTTCTGGCCGTCTATTCGCTGAGCAAACAGTCCAATCTGGCAGGGTACCGTGCGGCCTTCGTCGCCGGCGATCCGGCCATCATGGCCAACCTGGTCAACAGCCGAAAGCATGCCGGCATGATTGTCCCCTACCCCGTCCAGGAAGCGATGCGGGTGGCAGTGGGCGACGACCTCCATGTCCAGGTGCAGAAGGACCTCTACAGGGGCCGCAGGGAGCGGCTCCTGCCCGCGCTGCGGAATTTTGGACTGGAGATCAAAGACTCCGACGCCGGCCTTTACCTCTGGTCCACCGCCGGCGAGGATACGTGGGACACCGTGGGCCGCCTTGCCGGGCGTGGCGTCGTGGTGGGGCCCGGCGTCTTTTACGGCGAGGCAGGCAACGGATTCATCCGGGTGGCATTGACCGGTTCGGATGAACGGATCGACGCAGCGGTGGCCCGGCTGGCAACGGCACCGTAA	MTAALSSFGLSLPDYPWEALAPYLAKASEHPGGAVNLSIGTPVDPTPTVIQDALQAAANAPGYPTVHGTAALREAIAAWFGRRRGVPGLDPKNVMPTVGSKELVAWLPLLLGLKPGDVVVRPQVAYPTYDIGATLAGVTSVATDNLDELDAATRSRVRLIWVNSPGNPTGSVRDVESLRLLVAQARELGAVVASDECYAELGWGAWDVQRGGEPVPSILDPRIAGGSHEGLLAVYSLSKQSNLAGYRAAFVAGDPAIMANLVNSRKHAGMIVPYPVQEAMRVAVGDDLHVQVQKDLYRGRRERLLPALRNFGLEIKDSDAGLYLWSTAGEDTWDTVGRLAGRGVVVGPGVFYGEAGNGFIRVALTGSDERIDAAVARLATAP	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
D1-29_03315	327		COG1146	Ferredoxin	GTGACGTACGTAATCGCGCAGCCGTGTGTAGATGTCAAGGACAAGGCATGTATTGAAGAGTGCCCGGTCGACTGCATCTACGAGGGTGAGCGTTCGCTGTACATCCATCCGGATGAGTGCGTCGACTGCGGTGCCTGTGAACCGGTGTGCCCGGTGGAGGCTATCTACTACGAGGACGACACCCCCGACGAGTGGGCCGACTACTACAAAGCCAACGTGGAATTCTTCGACGATCTCGGATCCCCGGGCGGTGCCGCCAAGGTGGGCAACACGGGTAAGGACCACCCGATGATTGCCGCCCTGCCGCCCCAGAACCAAGACCACTGA	MTYVIAQPCVDVKDKACIEECPVDCIYEGERSLYIHPDECVDCGACEPVCPVEAIYYEDDTPDEWADYYKANVEFFDDLGSPGGAAKVGNTGKDHPMIAALPPQNQDH	PGPT0030810_836	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524
D1-29_03316	240			hypothetical protein	GTGAGTCTGACCACGCCTTCGCCCCGGGAGTTCCTGGCAGCGGCCGCACCCGGTACGCGGGTGGTGGTCCGCTACCGAATCGATGGCGGACTGACCGACGCGCTGGGTTACCTGCTGCGCACCGCCGACGGCGACTGCACCGTCCGCACCCGGAAGGCCGACGTCGTTATTCCGCTCGATCTGGTGACCGCAGCAAAGGAAGTGCCGCCCGCTCCGGAGCGCCGCCGCCCTGCGCACTGA	MSLTTPSPREFLAAAAPGTRVVVRYRIDGGLTDALGYLLRTADGDCTVRTRKADVVIPLDLVTAAKEVPPAPERRRPAH				NA	NA	NA	NA	NA
D1-29_03317	810			hypothetical protein	ATGCGAACAGTTACTGACGTGCTGACCCATCTGGATGGCGTTGCCAGCACCAACTCCCTCAGGCAGGCGGGAGTATCCCGACGGTTGATTGAAGCCGGCCTGTTGGACGCTTCCATTCAGAGGGTGGCAAGGGGCGTTTATGCGTTGCCCGGTGCCGAGCCGTTGGTGGTCCATGCCGGCCGCCATCATGCCGTGCGTGGTTGCGTCACGGCCGCCGCAGCAGCGGGGCTATGGGTGGTGAAGAGGCCCGACAAGCCCCATCTTGCCGCCAGGCATGGCAGGCCAATCGAGGGTTGTGTGGTGCATCGAAGCCACGTACCGCTGACCCATCTGGACATCGTGTGCCAATCGCTGCGCTGCCTGCCGCCGCTCGAGGGCCTGACCATTGCAGAATCTGCAGTCAAGCAGGGCCTGGTGCAACTTTCGGATCTGCGTATCCGGTTTCCTGCCGCACGGGAAAAGGCCCTGCAGGCCCTGGTGGCAAGGATCCGGCCACAATCCGGTTCCGTCATTGAGACCATGGCCCGATACTTGCTGGAAGAGGCCGGGCTGACGGTCGAGCTGCAGGTCAACGTTCCAGGAATGGGGCATCTGGACCTCCTGGTTGACGGCTTGCTGGGCATTGAGACGGACGGCTACTCCCACCACAGCAGCCGGCAGGCGTACAGGGAGGACAGGCGGCGGTGGAACATTACCGTCGTTCGGGGCGTTCCCACCCTCCGTGTGACTTTCGAAATGCTCCTCAGGGAGCCGGCAGAGTTTGTGAGGATGGTCCACCAGGCCCTTGGCACGTACCGGACTGCCCAGTGA	MRTVTDVLTHLDGVASTNSLRQAGVSRRLIEAGLLDASIQRVARGVYALPGAEPLVVHAGRHHAVRGCVTAAAAAGLWVVKRPDKPHLAARHGRPIEGCVVHRSHVPLTHLDIVCQSLRCLPPLEGLTIAESAVKQGLVQLSDLRIRFPAAREKALQALVARIRPQSGSVIETMARYLLEEAGLTVELQVNVPGMGHLDLLVDGLLGIETDGYSHHSSRQAYREDRRRWNITVVRGVPTLRVTFEMLLREPAEFVRMVHQALGTYRTAQ				NA	NA	NA	NA	NA
D1-29_03318	1929	typA	COG1217	GTP-binding protein TypA/BipA	ATGTCTGAAACCACCACCAACACCGCGGTAGCCACTGCATCGCGCAGTGACCTGCGCAACGTCGCGATCGTGGCCCACGTTGACCACGGCAAGACCACCCTGGTCGACGCCATGCTCAAGCAGACCAACTCCTTTGCCGAGCACAACCACCTCGAGGACCGCGTGATGGACTCCGGTGACCTGGAGCGCGAAAAGGGCATCACCATCCTGGCCAAGAACACCACCGTGGCCTACAACGGACCGTCCTCCAAGGGCGAGACCATCACCATCAACGTGATCGACACCCCCGGCCACGCCGACTTCGGCGGCGAGGTGGAGCGCGGCCTGTCCATGGTGGACGGCGTTGTGCTGCTGGTTGACGCTTCCGAGGGTCCCCTGCCGCAGACCCGTTTTGTGCTGCGCAAGGCCCTGGCCGCGCACCTGCCCGTCATCCTGCTGGTCAACAAAACCGACCGCCCTGACGCCCGCATCGAAGAAGTTGTCCACGAATCGATGGACCTCCTCCTCGGCCTCGCCTCAGACCTCGCGGATGAGGTTCCGGACCTTGACCTGGACAAGATCCTCGAAGTTCCTGTTGTATACGCCGCCGCCAAGGTTGGCCGTGCCTCCCTCGAGCAGCCCGCCGATGGCACCGCCCCGGAGAATGAGGACCTGGAACCGCTGTTCCAGACCATCATCGAGCACATCCCGGCGCCGACCTACAACCCGAACGGCGTCCTCCAGGCGCACGTCACCAACCTGGACGCGTCCCCGTTCCTGGGCCGCCTCGCCCTGCTCCGCATCTACAACGGCACCCTGCGCAAGGGCCAGACCGTTGCCTGGGCGCGCGCCAACGGTGAGCTCAAGAACGTCAAGATCACCGAACTCCTGGCCACCAAGGCACTGGACCGCGTTCCGGCCGAGTCTGCCGGCCCCGGCGAGATCGTGGCTGTTGCCGGTATCGAGGAAATCACCATCGGTGAGACCCTGACCGACGCCGAGAACCCGCAGCCGCTGCCGCTCATTACCGTGGACGATCCCGCGATCTCCATGACCATCGGTATCAACACCTCGCCGCTGGCCGGCAAGGTCAAGGGTGCCAAGGTCACGGCCCGCCAGGTGAAGGACCGCCTGGACAAGGAACTGATCGGTAACGTCTCCATCAAGGTTCTGCCCACCGAGCGTCCCGACGCCTGGGAAGTCCAGGGCCGTGGCGAGCTCGCCCTGGCCATCCTGGTTGAGCAGATGCGCCGTGAAGGCTTCGAGCTGACCGTGGGCAAGCCGCAGGTTGTTACCAAGACCATCGATGGCAAGGTCCACGAGCCGATGGAGCACATGACCATCGATGTACCGGAAGAATACCTTGGCGCCGTCACCCAACTGATGGCTGCCCGCAAGGGCCGCATGACCAACATGGCCAACCACGGCACCGGCTGGTGCCGGATGGAATTCATCGTTCCGGCCCGCGGCCTGATCGGTTTCCGCACCAAGTTCCTCACCGACACCCGTGGCGCGGGCATCGCAGCTTCCATCTCCGAGGGCTACGAGCCGTGGGCCGGTCCCATCGAGTACCGCACCAACGGCTCCATGATTGCTGACCGCGCCGGTGTTGTCACGCCGTTCGCCATGATCAACCTGCAGGAGCGCGGTTCCTTCTTCGTGAAGCCTACCTCTGAGGTCTACGAAGGCATGATCGTCGGCGAGAACTCCCGCGCCGACGACATGGACGTGAACATCACGAAGGAAAAGAAGCTCACCAACATGCGTGCCGCTTCCTCCGACACCTTCGAGAACCTGACGCCGCCGCGCGACCTCACGCTCGAAGAGTCCCTCGAATTCGCCCGCGAGGACGAGTGCGTCGAGGTGACCCCTGAGTCGATCCGTATCCGCAAGCTCATCCTTGACACGAACGAGCGCGCCAAGGCCAACCGCGCACGCGCCAAGGTCTAG	MSETTTNTAVATASRSDLRNVAIVAHVDHGKTTLVDAMLKQTNSFAEHNHLEDRVMDSGDLEREKGITILAKNTTVAYNGPSSKGETITINVIDTPGHADFGGEVERGLSMVDGVVLLVDASEGPLPQTRFVLRKALAAHLPVILLVNKTDRPDARIEEVVHESMDLLLGLASDLADEVPDLDLDKILEVPVVYAAAKVGRASLEQPADGTAPENEDLEPLFQTIIEHIPAPTYNPNGVLQAHVTNLDASPFLGRLALLRIYNGTLRKGQTVAWARANGELKNVKITELLATKALDRVPAESAGPGEIVAVAGIEEITIGETLTDAENPQPLPLITVDDPAISMTIGINTSPLAGKVKGAKVTARQVKDRLDKELIGNVSIKVLPTERPDAWEVQGRGELALAILVEQMRREGFELTVGKPQVVTKTIDGKVHEPMEHMTIDVPEEYLGAVTQLMAARKGRMTNMANHGTGWCRMEFIVPARGLIGFRTKFLTDTRGAGIAASISEGYEPWAGPIEYRTNGSMIADRAGVVTPFAMINLQERGSFFVKPTSEVYEGMIVGENSRADDMDVNITKEKKLTNMRAASSDTFENLTPPRDLTLEESLEFAREDECVEVTPESIRIRKLILDTNERAKANRARAKV	PGPT0023720_296	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207	NA	NA
D1-29_03319	855			hypothetical protein	ATGCGAAAAGCCTCGGCTGTGGCCTGCTTTGTTGCATCCGGAATCGCCGCCGGCGCCATCTTCAGCGGCTACGGACAGCCCCCGGAACCACTCGCCGCCGGGGCCGTAGAGATGCACGCGCCCGTACAGGGGAAGTACTCTGCGCCGGAGGCCAACACTGGAACGCTCCCCGTTGGCTCCGTCTACCGAAATCCGTTAACCGGGCGTGACGAGGTGGTGGTTCCGGACATCGCCAACACCGCCCTCCTCATTGGTGACTCCCAGTCGGAGCCGGCTGACGGCTGGCCGCGCCTGGGCCTGGCCGCGGTTGGATACAAGGTCCATTTTTGCGGACGGGGCGGAACAGGCTTTGCAACCTCCAACGGCAAGACCGGGAACTACGTCCAGGCTCTGCTCAGGGGCGACTGGAAGCTTCCCTATGGCTCTCCCCCGCTGATCATTCTGCAAGGCGGCGGAAATGACGCGGCGCGGGGAGCCACTGATGCCCAGATCGTGGCAAATGCCGACCGTCTGATAGCAATCCTGCGCGAACGGTACCCCGAAGCCCGGATGGCGATGATCGGGACCTTGGCCAGGGATGCCCGCGATGGCGGCGGCCGCCGTCACGAGGTGGACACCCTTCTGGGAACCGTGGCGGCCAGGCATGGGATGCCGTTTTTGTCGGTGGGCGATTGGCTCACCAGGCATGGCCTCGCCAAGGACCTCGCGGACGCCGTCCACATGAATGCAGCGGGCCGGAAATCCCTCGGCGCTTTGCTGGAAGCCCGGCTGCGGGAGCTGCGGCTCGAAGCCCGGCCGAATGGCAATTCCGGATCGCTGCAGGCGGCGGCCCCGGAATCCTCCTGGACTGAATAG	MRKASAVACFVASGIAAGAIFSGYGQPPEPLAAGAVEMHAPVQGKYSAPEANTGTLPVGSVYRNPLTGRDEVVVPDIANTALLIGDSQSEPADGWPRLGLAAVGYKVHFCGRGGTGFATSNGKTGNYVQALLRGDWKLPYGSPPLIILQGGGNDAARGATDAQIVANADRLIAILRERYPEARMAMIGTLARDARDGGGRRHEVDTLLGTVAARHGMPFLSVGDWLTRHGLAKDLADAVHMNAAGRKSLGALLEARLRELRLEARPNGNSGSLQAAAPESSWTE	PGPT0001840_112	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
D1-29_03320	1707	gsiA_1	COG1123	Glutathione import ATP-binding protein GsiA	ATGACAACTCCAGATATTCGCATCGATGAGGCAGACCGCACGGAACCGACGCCGCTCCTGGAAATCCGCGACCTGGCCATCACCTTCAAAACCGGCAGCGGGGAGGTTCGGGCTGTCCGGAACGCGCACCTCACCATCATGGCCGGCGAGACAGTTGCCATCGTCGGCGAGTCGGGCTCGGGAAAGTCGACCACGGCCCTCGCAGCCATCGGCCTCCTGCCACCGAACGGACGGGTAGCGGGGGGACAAATCCTGCTCGACGGCGAGGACATCGCCCATGCGGCCGAGCAGCGGATGATTGAACTTCGCGGGAACACCATTGGCATGGTTCCGCAGGATCCAATGTCCAACCTGAACCCCGTATGGAAGATCGGCTACCAGGTCAAAGAGACCCTCCGGGCAAATGGCCGCCCCAGCGGCCCCGAAGATATTGCCAGGGTCCTGGCCCAAGCCGGGCTGCCGGACGCGCACCGGCGGGCAAAGCAGTATCCGCATGAGTTTTCCGGCGGAATGCGCCAGCGTGCCCTGATCGCCATCGGGCTGTCCTGCCAGCCGCGGCTGCTGATTGCGGATGAGCCGACGTCGGCCCTTGACGTGACAGTACAGCGGCAGATTCTGGATCACCTGGACACGATGACATCTGACCTCGGCACGGCCGTGCTGCTTATTACCCATGACCTGGGACTTGCAGCGGAGCGTGCTGACAAGGTGGTGGTCATGTACCAGGGGCAGGTGGTGGAGTCCGGCCCATCGCTGGCACTGCTGCAAAATCCGCAGCATCCCTACACCAAACGCCTGGTCGAATCCGCGCCCTCCCTTGCCAGCAGGCGTATCCAGGCGGCGAAGGAACTCGGGGTGGAGGCCACTGACCTCCTTGCACCGGCGGCAGAAGCGGCGGCAAAGGACCATATCCTGCAGATCAGGGACCTTCGCAAGGTCTACAAGCTGCGTCAGGGGCTGGGCAAGACTTCAGACTTTGCCGCCGTCGACGGCGTGAGCTTTGACGTCACGAGGGGCACCACAACGGCGATTGTGGGGGAATCCGGTTCGGGCAAATCGACCGTAGCCAAGATGGTGTTGCAGCTTGAAAAGCCGACTGATGGCGCCATCCTTTTCGACGGCGTCGACACCTCATTGTTGAAGGGCACGGAACTTTTCAAGTTCCGCCGGCGGGTGCAGCCCATCTTCCAGGATCCGTATGGTTCGCTCGATCCGATGTACAACATCTTCCGCACCATCGAAGAACCATTACGGATCCATAAGATCGGGGACAAGGCCAGCCGGGAGAAGAAGGTCCGTGAGCTCCTGGACCAGGTGGCGCTGCCGCAGTCCAGCATGCAGCGTTTTCCGAATGAGCTCTCGGGCGGCCAGAGGCAGCGTGTAGCCATTGCACGCGCGCTCGCCTTGGATCCCGAGGTCATCATTTGTGACGAGGCGGTGTCAGCGCTGGATGTTTTGGTCCAGGCACAGGTGCTTAATCTCCTGGCCGACCTGCAGTCCAACCTGGGTCTCACGTATCTTTTCATTACCCACGACCTGGCAGTTGTCCGGCAGATTGCCGATCACGTGTGCGTGATGGAGAAGGGGCTTTTGGTGGAGACCGGTTCCACGGATGAAGTCTTCGATTCGCCGAAGCAGGAATACACCAGGGCCCTGCTCAATGCCATCCCCGGAGCTCGTCTGATGCTTCCGCCGGAAGTCGCCTGA	MTTPDIRIDEADRTEPTPLLEIRDLAITFKTGSGEVRAVRNAHLTIMAGETVAIVGESGSGKSTTALAAIGLLPPNGRVAGGQILLDGEDIAHAAEQRMIELRGNTIGMVPQDPMSNLNPVWKIGYQVKETLRANGRPSGPEDIARVLAQAGLPDAHRRAKQYPHEFSGGMRQRALIAIGLSCQPRLLIADEPTSALDVTVQRQILDHLDTMTSDLGTAVLLITHDLGLAAERADKVVVMYQGQVVESGPSLALLQNPQHPYTKRLVESAPSLASRRIQAAKELGVEATDLLAPAAEAAAKDHILQIRDLRKVYKLRQGLGKTSDFAAVDGVSFDVTRGTTTAIVGESGSGKSTVAKMVLQLEKPTDGAILFDGVDTSLLKGTELFKFRRRVQPIFQDPYGSLDPMYNIFRTIEEPLRIHKIGDKASREKKVRELLDQVALPQSSMQRFPNELSGGQRQRVAIARALALDPEVIICDEAVSALDVLVQAQVLNLLADLQSNLGLTYLFITHDLAVVRQIADHVCVMEKGLLVETGSTDEVFDSPKQEYTRALLNAIPGARLMLPPEVA	PGPT0004435_3232	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
D1-29_03321	945	gsiD_2	COG1173	Glutathione transport system permease protein GsiD	ATGACCAGTAAAACCAATCACTTCGTAGCTCCCGTTGACGAGACGCCGCTGCTGGCAACAGATACCCTGAAAACGGATCAGGCGCCTCTCAGTCTGTGGGCGGATGCCTGGCGCAAACTTCGTCGCCGTCCCCTGTTTATTATTTCGTCGCTTTTGATCCTGGCCTTGATCGTCATCGCGTTGTTCCCTGGGTTGATTTCAACGGTCCCGCCAAATGATGACTGCCAACTGGCCAATTCGGAAGGTGGCCCCACCGCCGGGCATCCGTTCGGCTTCACGTTCCAAGGCTGCGACATCTATTCGCGCGTGGTCCACGGAACGCAGGCCTCGCTCTCCGTCGGTGTGTTGTCCGTGCTCTGCGTCCTGATCATTGGGGTGACCCTCGGCGCGCTCGCGGGCTACTACGGCGGATGGGTGGACTCGGTCCTCGCCCGGCTCGGCGACATTTTCTTTGCCCTGCCCCTGGTCCTTGGCGCGCTGGTCATCACCCAGCTGCCGGCACTACGCGAAAACAAGAGTGTGTGGACTGTAGTCCTGGTCATTTCCCTGCTGGCGTGGCCACAAATGGCACGCATTACCCGCGGCGCCGTAATAGAGGTTCGGAACGCGGATTTCGTCACGGCTGCCCGCGCCTTGGGCGTTTCAAGGTTCGGTGCGCTGGTTAAGCACGTCCTCCCCAATGCCTTGGCTCCCATTATTGTGCTCGCAACCTTGAACCTGGGCATTTTCATTGTGGCCGAGGCCACACTGTCATTCCTTGGCATCGGCTTACCGCCCAGCATCATGTCCTGGGGCAATGACATCGCTGGAGCGCAGGCGTCGATTCGGACCAAGCCGGAAATTTTGCTCTATCCCGCGGCGGCATTGTCCATCACCGTCCTGAGTTTCATCATGCTCGGCGATGCAGTGCGTGATGCCCTTGATCCGAAGAGCCGTCAGCGATGA	MTSKTNHFVAPVDETPLLATDTLKTDQAPLSLWADAWRKLRRRPLFIISSLLILALIVIALFPGLISTVPPNDDCQLANSEGGPTAGHPFGFTFQGCDIYSRVVHGTQASLSVGVLSVLCVLIIGVTLGALAGYYGGWVDSVLARLGDIFFALPLVLGALVITQLPALRENKSVWTVVLVISLLAWPQMARITRGAVIEVRNADFVTAARALGVSRFGALVKHVLPNALAPIIVLATLNLGIFIVAEATLSFLGIGLPPSIMSWGNDIAGAQASIRTKPEILLYPAAALSITVLSFIMLGDAVRDALDPKSRQR	PGPT0021025_1389	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021025-oppC-K15582	NA	NA
D1-29_03322	930	gsiC_6	COG0601	Glutathione transport system permease protein GsiC	TTGGTCCGCTTTATTTTGCGCCGCCTCCTTCAAGTGATCCCCGTCTTCCTTGGCACCACGCTCCTGGTCTATTACATGGTGTTCGCCCTTCCGGGGGATCCCATTGCGGCGCTTTTCGGCGACCGGCAGCCCCCGCAGGCAGTGATCGACACCCTGCGCAGCCAGTACCACCTCGATGAACCCTTCTGGGTCCAGTACGGACTCTTCCTGAAGAACCTGTTCACCTTTAATCTGGGGAACGACTTTACAGGCCAACCCATCGCCGCTTCTTTGGCCCGGATCTTTCCCGTGACGGCAATGCTCGCTGTCGAAGCGCTCGTTATTGAAGCGGTTTTCGGGATAGCTTTCGGCGTCTTCGCTGGCCTCCGCCGCGGCAAGTGGTTTGATTCCGCCGTGCTGGTTGCCTCCCTGGTGGTCATCGCGGTGCCCACCTTCGTTCTCGGCTTCGTTTTCCAGCTGATTTTCGGCGTCCAGCTGGGGTGGGCTAAACCCACCGTGGGGGCAAACGCTGACTGGGGCAACCTGCTGCTGCCGGCGACAGTCCTTGGTTTGGTGTCGTTTGCATATGTGCTCCGACTGACCCGTGCCTCCGTCAGCGAGAGCATGAATGCTGACTATGTGCGCACCGCCACCGCCAAGGGCCTTTCCCGGCCACGGGTTGTCATGACGCACATCCTCCGCAACTCGCTCATCCCGGTGGTGACGTTCCTGGGTGCAGACCTTGGCGGCCTGATGGGCGGTGCCATTGTCACGGAAGGCATCTTTAACGTTCCTGGCGTAGGGAACAAGCTTTACCAGGCAACCTTGCGAAGCGAGGGCCCAACCGTTGTTGCCATCGTCAGCGTGCTGGTGCTGGTCTTTGTGGTGGCCAACCTGCTCGTTGATCTCCTGTACGCCTGGCTGGACCCGAGGATTCGCTATGACCAGTAA	MVRFILRRLLQVIPVFLGTTLLVYYMVFALPGDPIAALFGDRQPPQAVIDTLRSQYHLDEPFWVQYGLFLKNLFTFNLGNDFTGQPIAASLARIFPVTAMLAVEALVIEAVFGIAFGVFAGLRRGKWFDSAVLVASLVVIAVPTFVLGFVFQLIFGVQLGWAKPTVGANADWGNLLLPATVLGLVSFAYVLRLTRASVSESMNADYVRTATAKGLSRPRVVMTHILRNSLIPVVTFLGADLGGLMGGAIVTEGIFNVPGVGNKLYQATLRSEGPTVVAIVSVLVLVFVVANLLVDLLYAWLDPRIRYDQ	PGPT0021020_986	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021020-oppB-K15581	NA	NA
D1-29_03323	1686	oppA	COG4166	Oligopeptide-binding protein OppA	ATGCGTTTCACGCGCACTTCCAAAGCACTGGGCATCGTGGCTATCGCTGCGCTCGCCCTCACCGGGTGCGGCGCTGGAGGCGGCACCGACGACGGTGGCACCCAGGCTGGCGGCGACCCGAACAAGGTCATCACCGCGTACAGCAACGAACCACAGAATCCGTTGCTCCCGGCAAACACTAACGAAGTGTATGGCGGCCGTGTTGTCGAGTTGCTGTTCGAAGGTCTTCGGGCCTACGACGCCGACGGCAAGCCGGTCAATGCCCTCGCCGAGTCGATCGAAACGACGGATTCCCAGAACTGGACCATTAAGGTCAAGCAGGGCCAGAAGTTCACGAACGGCGAAGAGATTACGGCCAAGACTTTCGTTGACTCTTGGAACTTCGCTGCGAACTCGAAGAACCTGCAGAACAACGGCTTCTTCTTCGAGTCCATCGCGGGCTACGAGGAAGTCTCTGCTGTGACCACCGAGAAGTCGGCCGACGGCAAGACGACTTCAACTCCTGCCCCTACCGCGGAAACCATGTCCGGTCTGGTGGCCAAGGACGACTCCACGATCACCGTCGAACTCGCCCAGCCTGAGGCTGACTGGTCGCTGCGCCTCGGCTATTCCGCGTTCTTCCCGATTCCGTCCGCGGCGATTGCGGATCCGAAGGCCTTCGGCGAGAACCCGGTCGGCAACGGCCCGTACAAGATGGAAAAAGAGGGCGCCTGGGTTCATGACCAGTCAATCTCACTTGTGAAGAACCCTGACTACAGCGGGCCCCGCGAATCACAGAACGGCGGCGTGACCTTCAAGTTCTACACCGACCCGGGCCCCGCTTACACGGACCTGCAGTCCGACAACCTTGACGTCACCGATGTCCTGCCGTCGAACGCACTGAAGACCTATGTCACGGATTTCCCGGACCGTAACGCAACGAAGCCCGTAGCCACCAACTCCACCCTGAACATCCCGGGTTACAACCCGAACTTCCATGGTGAAGCAGGCAAGCTCCGCCGCCAGGCGCTCTCGTACGCGATCAACCGCGAGGAAATCTGCAAGGTCATCTTCAGCGGAACCCGCACTCCGGCCAAGGCGTACGCCCCGCCGGTGATTGATGGCTTCAAGGAAGGCCTCAAGGGTAGCGAAACCCTGAAGTTTGACGCAGCAAAGGCCAAGGACCTCTGGGCACAGGCCGACGCCATCACACCGTATGACAGTTCCAAGCCGCTCCTGATTGCCTCCAACACAGATGGCGGCAACAAGGAATGGATTGACGCCGTAGCCAACGGCTTCAAGAACAACCTGGGGATCCAGGCGGAAATCCAGCCCTTCGCCAAGTTCGCGGAAGTCCTGGACCTGCGCAAGTCCCAGTCCCTGCCGGGCCTGTCCCGCGCCGGCTGGCAGGGCGACTACCCGTCCCTGTACAACTTCCTCGGGCCTGTCTGGGCAACCGGTGCATCCTCCAACTACGAGAAGTACTCGAACCCCGAGTTCGACAAGCTCCTCAAGGAGGGCCTGGCAGCCAAGACCACCGAAGAAGCAAACGCCAAGTTCAACTCGGCACAGGAGATCCTTTTCGAGGACCTCCCCGGCTTGGCTCTCTGGGATCAGGCAAAGCCGATTGTGTGGAGCAACAACGTTGTGAAGGCCGAAACCGGCTGGAATGGCGGCATCCGCTACTTCGACATCACGGCCAAGTAG	MRFTRTSKALGIVAIAALALTGCGAGGGTDDGGTQAGGDPNKVITAYSNEPQNPLLPANTNEVYGGRVVELLFEGLRAYDADGKPVNALAESIETTDSQNWTIKVKQGQKFTNGEEITAKTFVDSWNFAANSKNLQNNGFFFESIAGYEEVSAVTTEKSADGKTTSTPAPTAETMSGLVAKDDSTITVELAQPEADWSLRLGYSAFFPIPSAAIADPKAFGENPVGNGPYKMEKEGAWVHDQSISLVKNPDYSGPRESQNGGVTFKFYTDPGPAYTDLQSDNLDVTDVLPSNALKTYVTDFPDRNATKPVATNSTLNIPGYNPNFHGEAGKLRRQALSYAINREEICKVIFSGTRTPAKAYAPPVIDGFKEGLKGSETLKFDAAKAKDLWAQADAITPYDSSKPLLIASNTDGGNKEWIDAVANGFKNNLGIQAEIQPFAKFAEVLDLRKSQSLPGLSRAGWQGDYPSLYNFLGPVWATGASSNYEKYSNPEFDKLLKEGLAAKTTEEANAKFNSAQEILFEDLPGLALWDQAKPIVWSNNVVKAETGWNGGIRYFDITAK	PGPT0021015_933	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021015-oppA|mppA-K15580	NA	NA
D1-29_03324	1764		COG0747	putative lipoprotein	ATGCCTCTCAGGCGCCTGATTCAGATCATCACCGGGGCTCTGGCTGCAGCCCTGGTTGTTTCCGGTTGCTCGGGCACCGGGGGAACGGCTCCAGTCACGCTGGGCCAGGCCAAGCGTGGCGGCAGCGCCGTCGTCGCGGAGGTCAATGCCCTTTCATCCTTTAATCCGTTCAGCACCAACGGAAATACGGACATCAACTCCAAAGTCGGCTACATTACCCATTCAGGGTTCTATTACGTGGACGACACCGCCCGGGTGGTCCGCAACGAGAAGTTCGGCAGGTACGAGAAGGTTTCGGACCAGCCCCTGAAGGTAAAGTACACCGTCAACGAAGGCGTCAAATGGTCAGACGGCGAGGCCATTGACGCCGGCGACCTCCTGCTGGCCTGGGCGGCAGGCTCCGGATACTTCGACGACGCCGATCCAATGACCGGCTTAGGCACCAAGTATTTCGCTGTGGCGTCGGATACAAGTGGCCTCGCGACCACGGTTTTTCCAGAAGTGGGCGCGGACGGACGTTCCATCACCCTGGAGTACGCAGCACCGTACGCCGACTGGGAAGTTGCGTTCGACGTCGGGCTTCCCGCTCATGTGGTGGCAGCAAAAAGCGGGCTAAACGACGAGGAAGACCTCATCGAGTTACTCACGGACGCACCCCGCGGCGACAGGGAAAAGCCAGTCCTAAACACCGCGCTTAAGGCCGTCAGCGACTTCTGGAACTCGGGCTTCGATTCCACCGCCCTGCCTGATGACCCGGCGATCTACCTTTCCAGCGGGCCCTACATAGTCAATAACATCGTTCCCGGCGCCTCCGTCCGGCTCGTCAGGAACCGCGACTACGTCTGGGGACCTGAGCCCCACCTTGACGAAATCACCATCCGCTTTACTGGGGCAATGCAGGCAGCCGTTGAGGCTCTGCGCAACGGCCAGGCCGATATCATCTCGCCCCAGCCCTCGGCTGGCACGGAGGCGCTTTTCAGCGGGCTGGAGAGCCAGGGGGCCACCGTGCAGCGGTACAGCCAGTCCGGATACGACCACCTTGACCTGAACTTTTCCGGCCCCTTTGCTGAGGAGAACGTCCGGCGGGCCTTCCTCAAGACAGTGCCACGGCAGGCCATTGTTGACGCGATCGTCGGGTCTCTCATCCCTGACGCAAAGCCCCTGGATTCCCACGTGTTCCTGCCGTCGCAGCCCAAATACCAGGACACGGTGAAGGACAACGGCTCATCCGAATACTCCAAGGTTGACATTGAGGGCGCCAAATCACTGTTGGCCGGAACCACCCCGACCGTGCGGATTCTGTACAACCGCGACAACCCCAACCGTGCAAGGACCTTCACCCTGATCCGTGACTCAGCCGGTCTTGCCGGCTTCCAGGTTATGGACGGCGGGCTCGGCAACGCCGAGTGGGCCAGGGCGCTGGGTGGCGGAGCCCACGACGCAGCGATTCTCGGCTGGATCAGCACCGGAGTGGGAGTCAGCCGCGTTCCGCAGATTTTCCGGACGGCTGCCGGCAGCAACTTCAACGGGTTCTCCGACGGCGATGCGGACAAAGTGATGGAGCAGCTGGCCATCACAACTGACCTCGCCAAGCAGGATGAGCTGATGGCGGAGATTGACAAGCAGGTGTGGGAGAGCGCGTATGGCCTTCCCCTGTATCAGACCACAGGAACCACGGCGTTCAACAGCCGGATCGCTGGTGTGAGGTCCAGCCCAGGCCCGCTGGGCGTCTGGTGGAGTGTCTGGGATTGGCACGCTCTTTAG	MPLRRLIQIITGALAAALVVSGCSGTGGTAPVTLGQAKRGGSAVVAEVNALSSFNPFSTNGNTDINSKVGYITHSGFYYVDDTARVVRNEKFGRYEKVSDQPLKVKYTVNEGVKWSDGEAIDAGDLLLAWAAGSGYFDDADPMTGLGTKYFAVASDTSGLATTVFPEVGADGRSITLEYAAPYADWEVAFDVGLPAHVVAAKSGLNDEEDLIELLTDAPRGDREKPVLNTALKAVSDFWNSGFDSTALPDDPAIYLSSGPYIVNNIVPGASVRLVRNRDYVWGPEPHLDEITIRFTGAMQAAVEALRNGQADIISPQPSAGTEALFSGLESQGATVQRYSQSGYDHLDLNFSGPFAEENVRRAFLKTVPRQAIVDAIVGSLIPDAKPLDSHVFLPSQPKYQDTVKDNGSSEYSKVDIEGAKSLLAGTTPTVRILYNRDNPNRARTFTLIRDSAGLAGFQVMDGGLGNAEWARALGGGAHDAAILGWISTGVGVSRVPQIFRTAAGSNFNGFSDGDADKVMEQLAITTDLAKQDELMAEIDKQVWESAYGLPLYQTTGTTAFNSRIAGVRSSPGPLGVWWSVWDWHAL	PGPT0004430_2836	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
D1-29_03325	1380	ntaA_2		Nitrilotriacetate monooxygenase component A	ATGACTTCCGCCACTTCCGGATCCGGCCGCAAACTCCACCTCAACGCCTTCCTGATGAGCACCGGCCACCACGAGGCCTCCTGGCGTCTGCCCGAAAGCGATCCGCAGTCAAGCACCAACGTGGAGCACTATCAGCACCTGGCACGAACAGCCGAACACGGCAAGCTGGACTCCATCTTCTTCGCCGACTCCCCCGTGCTCTTCGGCGAGGTGGGCCGCCGCCCCGCCGGGAAGCTTGAGCCCACCGTGCTCCTGACCGCCATCGCCGGCGCAACGGAATGCATCGGCCTCATCGCCACTGCCTCCACCACCTACAACGAACCGTTCAACCTTGCCCGCCGCTTCTCATCAGTGGACTGGGTCAGCGGCGGCCGCGCCGGCTGGAACGTGGTCACCACCGCCGGTCCGGACGCCGCCCGCAACTTTGGCGTGGACGACCAGCCCGCCCACGCGGTCCGGTATGAGCGCGCCGCCGAGTTCATCGAAGTGGCACAGAAGCTGTGGGACAGCTGGGATGACGACGCCGTGCTCGCGGACAAGGCCGACGGCGTCTGGGCAGACTCATCGCGGATCCGCACAGTTGACCATGAAGGCAAGCACTTCAAGGTCCGCGGCCCGCTCAACGTCCCCCGTTCACCGCAGGGGCACCCGCTCATCGTCCAGGCAGGTTCCTCCGAGGACGGCAAGGACCTCGCCGCCCGGTACGCGGACGCCGTCTTCACCGCGCACCAGACCCTCGCAGACGCGCAGGACTTCTACCGCGACCTCAAAGCCCGCACCGCCGCCGCCGGCCGGGACCCGGAAACCATCAAGATCCTGCCCGGCATCGTTCCAGTCATCGGCGCCACGGAAGCGGAAGCCCAGGCGCTGGAACGGGAACTGGACCGGCTGATCAAGCCGGAGTACGCGCGGATCCAGCTCGCGAAGACCCTGCGCGTTGCCCCCGAGGACCTGCCCCTGGACCGCCAACTGCCGGACAACCTGCCCAGCGAGGACGAGATCGAGGGCGCCAAGAGCCGGTACACACTGATCGTCCAGCTCGCCCGCCGCGAGCAGCTCACGGTCCGGGAACTGATCGGACGGCTGGGCGGCGGCCGAGGGCACCGCACCTTTACCGGCACGCCCGTGCAGGTGGCGGATGCCATCCAGGAATGGTTCGACGGCGGCGCGGCGGACGGCTTCAACATCATGCCGCCGGTGGTGCCCTCGGGCCTGGAGGCCTTCGTAGACCAGGTGGTGCCCATCCTGCAGGACCGTGGCCTGTTCCGGACCGAATACAGCGGGCGCACGCTGCGTGAGCACTACGGCCTGGAGCGCCCCGGGAACAGTTACGCCGGATCCGACACCCCCGAACGGGCGTCGATCGGATCAGCGTTCTGA	MTSATSGSGRKLHLNAFLMSTGHHEASWRLPESDPQSSTNVEHYQHLARTAEHGKLDSIFFADSPVLFGEVGRRPAGKLEPTVLLTAIAGATECIGLIATASTTYNEPFNLARRFSSVDWVSGGRAGWNVVTTAGPDAARNFGVDDQPAHAVRYERAAEFIEVAQKLWDSWDDDAVLADKADGVWADSSRIRTVDHEGKHFKVRGPLNVPRSPQGHPLIVQAGSSEDGKDLAARYADAVFTAHQTLADAQDFYRDLKARTAAAGRDPETIKILPGIVPVIGATEAEAQALERELDRLIKPEYARIQLAKTLRVAPEDLPLDRQLPDNLPSEDEIEGAKSRYTLIVQLARREQLTVRELIGRLGGGRGHRTFTGTPVQVADAIQEWFDGGAADGFNIMPPVVPSGLEAFVDQVVPILQDRGLFRTEYSGRTLREHYGLERPGNSYAGSDTPERASIGSAF	PGPT0003040_16	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
D1-29_03326	576			hypothetical protein	GTGAAGGCCCGGTATGTTGCCCGCGAACGGTACCGTGAGCGGCCCGTGACGGAACAGCCGCCGTACTCGATCCTGGCGCGCGGGGTGGAACGCGAAGTGCTGCCGTTGGCCCAGCGCCACAGGCCGGGGGTGCTGCCGTGTAGTCCGTCCCGTCAGCCGGAACGGCACGATCCGTCGTCGGCAGAAAATGCCCGCAAGACGCAGGCGGTTCTGGAACTGACGGAGCTTGCGGAGCAAGCCGGACTGTCACTCATCCATCTGGCCCTCGGCTTCGTGCTGGAGCACCCGGCGGTCACCTCCGCGATCATTGGTCCGCGGACGCTGGAGCAGCTGGAGGGGGCGCTGGGCGCGGACAAAGTGGGCCGGTCAAAGGACGTGCTGGACCGGATCGCCGAGATCGTCCCGCCCGGCACCACCCTGAACCAGGCCGACGCCGGCTATCGGCCGCCGTCGTTGACTGACCCGTTGCTGCGCCGCCGCAGCCGCCGAACCTGGCGGCGCTGGGCCGGGCGGCGGGGGAAGCTCCCGCCGTCGTCCGCCCTGCTGGCTGAACCGGGCAATTGCCGCCTCCTGTGA	MKARYVARERYRERPVTEQPPYSILARGVEREVLPLAQRHRPGVLPCSPSRQPERHDPSSAENARKTQAVLELTELAEQAGLSLIHLALGFVLEHPAVTSAIIGPRTLEQLEGALGADKVGRSKDVLDRIAEIVPPGTTLNQADAGYRPPSLTDPLLRRRSRRTWRRWAGRRGKLPPSSALLAEPGNCRLL				NA	NA	NA	NA	NA
D1-29_03327	342			hypothetical protein	ATGAGAAAAATCTTGCAAGTCATGGTTTTCGGGGGCGGACTCATACTTGCCCTCGGGGCCTGCACTCCAACTGAACTGTCGGTGGAGGACACCTGCGCCAAGGTCAAGTCAATCCTCGAAAGCGCGCCCGAAAGCATGGACGACGCGGCTAGGGAGAGAATCGGGGAAGAGTTCAAGAAACTCTCTGAATCGGCTCCGGAGGGCTTCGACGAGCAGCTTAAGATGGTCGGCATTTTCAAAACCTTCGAGATGAGCGACAAGAGCGCAATGATGGGAGAGCCGGGGTTCAATCAGCCCTGGGAGGTGCCTTCCACAAACATCGTCAAGACTTGCGAGCTTTAG	MRKILQVMVFGGGLILALGACTPTELSVEDTCAKVKSILESAPESMDDAARERIGEEFKKLSESAPEGFDEQLKMVGIFKTFEMSDKSAMMGEPGFNQPWEVPSTNIVKTCEL				NA	NA	NA	NA	NA
D1-29_03328	651			hypothetical protein	TTGGAGAGTCGATTCCCGGGCAACAAAGAAGCCAGCGAGAAGGGGATCGCGTTCGGGCTCGAACTGGCCCGGCTCTGCAATTTGCAAACGATCGAATCTCTCGAAGCGGCACTTGAAGTTGTGGATGGTGAACAAGTCCTCGCGCTGATGGATGCCAGTGGTCCAGTCACCAGGGTGAGACGGCTCGACGATGAACTTCTTGCACGATTCGGCGAGGATTACATCCGCTTGACGGGAACGGCGGGATCAGTGAGCACCAGAGCCCAACAGTTGGAGTGGAGGTTTGATCGTCTCCGCGGAAAGGCGCGCTACAAGGCCTACTTCATTCATGGGAGCGATCGTCCGGAGGATCTAGAGTCAGGTCCTCACACGGCCGCCCGAGCAGTGCGTGCACTCGCTATTCTTGTTGCACAGGAAAAGGGAGTCGACACAGTGATCAATGTAGAAGGGGTCAGCCGCGCCGACGATTTGCCGAAAGGTGCGCGGGCAAAGGAGGCTCCGGTGAATGCGAATGAATCGATCTGGGTGATCACCAACCTGAACCGTGGGTATTCGGAATTCCTGATGAAAGAACTTCTGGATCGGGTTCCCGACCTGGACCTCGAGGTCGTGAGAGATGACACCGTTGTGGCAGGCAATTCGGGACGGTGA	MESRFPGNKEASEKGIAFGLELARLCNLQTIESLEAALEVVDGEQVLALMDASGPVTRVRRLDDELLARFGEDYIRLTGTAGSVSTRAQQLEWRFDRLRGKARYKAYFIHGSDRPEDLESGPHTAARAVRALAILVAQEKGVDTVINVEGVSRADDLPKGARAKEAPVNANESIWVITNLNRGYSEFLMKELLDRVPDLDLEVVRDDTVVAGNSGR				NA	NA	NA	NA	NA
D1-29_03329	405			hypothetical protein	GTGGCGATTGATTACACCACATGGGATTGGCTGCCCAATGCGGCCGCTGAAATGGAAGCGTATGTTGTCAGGCTTCTTGAAGAGTCCGGAATTAAACCACACGACGTGTCAGCCCGGGCCAAGTCGATCGCATCATTCCAGCGGAAGCAGCAGGCCAAGCGGTATACCGATCCCGTCCAACAAGTAACCGACACTGTCGCGATTCGAATAATCACGTATTCAAATACAGATCGCGAACGGACCAGTGAGCTGATTCGTGGTCGATTTGTCGTCAAAGATGGCGAAGACAGAAATCCAGGCGATGAGAAGCCAGTCCGGCTTCGGGGTACGACTGTCGGCACATTGTCATTTCAGGTGAGGATCCTGGGGCTGAGGCAGATTGGCTGGTATCTGGAGGAAAGCTAG	MAIDYTTWDWLPNAAAEMEAYVVRLLEESGIKPHDVSARAKSIASFQRKQQAKRYTDPVQQVTDTVAIRIITYSNTDRERTSELIRGRFVVKDGEDRNPGDEKPVRLRGTTVGTLSFQVRILGLRQIGWYLEES				NA	NA	NA	NA	NA
D1-29_03330	1092	ychF	COG0012	Ribosome-binding ATPase YchF	ATGCTCGTGGCTCTTACTATTGGCATCGTCGGCCTGCCCAACGTCGGCAAATCAACACTCTTCAACGCACTGACCCGGAACCAGGTCCTGGCGGCGAACTATCCGTTCGCCACCATTGAACCAAATATCGGCGTCGTGAACCTTCCGGATCCCCGGCTGAAGCAGCTCGCGGAGATCTTCGGCTCCCAGAGGCTGCTGCCTGCGCCGGTGTCCTTCGTGGACATCGCCGGCATCGTCAAGGGCGCCAGCGAAGGTGAGGGCCTGGGCAACAAGTTCCTCGCCAACATCCGCGAGGCAGAGGCCATCGCCCAGGTTGTCCGCGTGTTCGATGACCCCGATGTCATCCACGTCGACGGCAAGGTTGATCCGCGCTCGGACATGGAAACTATCAACACCGAGCTGATCCTGGCTGACCTTCAGACCATCGAAAACGCCATTCCGCGCATCGAAAAAGAAGTCAAGATCAAAAAGCGTGAGGCCGCCGAATTGGCAGCGATCAAGGCGGCCCAAGCGGTGCTGGAACGTGGCGACACCATCTTTGCATCGATCAAGAGCGACAAGCTGGAGATGGAGCACCTCAAGGAGCTCAGCCTCCTGACGGCCAAGCCGTTCATCTACGTCTTCAATGCGGACGAAGGCATCCTGGGTAGCCCGGACAAGCAGGATGAGCTGCGGGCCATGGTCGCCCCGGCGGATGCCATCTTCCTCGATGCAAAGCTTGAGTCCGACCTCGTGGAGCTGGACGAGGAGGAGGCCCGGGAAATGCTTGAGATGAACGGCCAGGACGAATCCGGCCTCGACCAGCTGGCGCGAGTCGGGTTCCATACCCTCGGTCTGCAGACCTACCTCACCGCGGGGCCCAAGGAAACACGCGCGTGGACCATCCACCGTGGGGACACCGCACCGCAGGCTGCCGGCGTTATCCATACCGACTTCCAGCGCGGCTTTATCAAGGCCGAGGTGGTGTCCTTCACCGACCTCATCGAAGCAGGATCAATGGCGGAGGCGAAGTCCCGAGGCAAGGTCCGTATCGAAGGCAAAGAATACGTCATGGCCGACGGCGACGTGGTGGAGTTCCGCTTCAACGTCTAG	MLVALTIGIVGLPNVGKSTLFNALTRNQVLAANYPFATIEPNIGVVNLPDPRLKQLAEIFGSQRLLPAPVSFVDIAGIVKGASEGEGLGNKFLANIREAEAIAQVVRVFDDPDVIHVDGKVDPRSDMETINTELILADLQTIENAIPRIEKEVKIKKREAAELAAIKAAQAVLERGDTIFASIKSDKLEMEHLKELSLLTAKPFIYVFNADEGILGSPDKQDELRAMVAPADAIFLDAKLESDLVELDEEEAREMLEMNGQDESGLDQLARVGFHTLGLQTYLTAGPKETRAWTIHRGDTAPQAAGVIHTDFQRGFIKAEVVSFTDLIEAGSMAEAKSRGKVRIEGKEYVMADGDVVEFRFNV				NA	NA	NA	NA	NA
D1-29_03331	1215			hypothetical protein	ATGGATGCATTCGCCCTGATTCTTGCCCTGTTCATGCTGCTGCTTGGCGCGCTGGCCGGCGCCGCCGCTGCCTATCTTTCCTTGCGCCGGCGCAGTTCCGCCCTGGAAGAAGATTTCGACGCCGTCTCGTCGCGCCTTTCGGAGGTGAGCGCCCAGTTTGCAGCCGCTGACGCGGAGCGGCGGCTCCTGTCCTTGCAGAATCGGGAGCTCGGTGAAGCGCGCAGCCAGGACGGGAGCGTGCTCAGGGCCTTGGCGCCCGTCGCGGAGAAGCTGACAGCGGTACAGCAGCAGGTCGCTTTGCTGGAACGGGACAGGCTGGAACAGTACGGGCAGCTTGCCCAGCAATTGCAGGAAGCCAGGTTGTCCGACGAGCAGCTGATCCGCTCCACACATGCCCTGGAATCCGCGCTGCGCTCCAACAGCGCCCGCGGGCAGTGGGGTGAGGTCCAGCTCCGACGGGTGGTTGAGGCCTCGGGCATGCTCCGGCACGTGGACTTCCTCGAGCAGGTTCACAGCGCCGGTGGAGATTCAACAGTCCGTCCCGACCTGGTGGTGCAGCTTCCTGGGGAAAAGCAGCTGGTGGTGGATGCCAAGGTGCCGTTGTCCTCGTACCTTGAAGCGCAGGAACTCGGAGCAGTGACCGGTTCCCCCACGGATCAGGGGCCGAACCACCGGTCCCAGCAGACGCTGCTGGCTGCCCATGCCAAAGCGCTGCGTTCCCACGTGGACGCGCTCAGCACCAAGAAGTACTGGGACATTCCCGGCAACTCCCCCGAGCTGGTGATCTGCTTTATCCCGGCCGAATCAATTTTGGCGGCCGCCCTGATGGCCGATGCAACCCTGCTGGACCATGCATTGTCCCGGAATGTTGTGCTGGCATCTCCCAGCACTTTGCTCGCCGTGCTCAAGTCCGTGGCGTTCACATGGCGCCAGGATGTTCTGACGGACAGCGCCCGGGAGCTCTTTGACCTTGCCCGGCAGCTCTATGAGCGCATGGGAACCCTCGGCGAGAACGTCAGCAAGCTGGGGTCGTCCCTGAAGTCCTCGGTGGATCGCTACAACTCAATGATCGGCACCCTTGAGGCCCGGGTGCTGCCGACGGCACGGAAACTCAACGCGCTTGATGAAACGGGTTTGCTGACACCCGCGGCGCTGGAGGTGACACCGCGGTCCGTTGCTGCTCCGGAGCTCCAGCTGCGCGATACCGCCGCATAG	MDAFALILALFMLLLGALAGAAAAYLSLRRRSSALEEDFDAVSSRLSEVSAQFAAADAERRLLSLQNRELGEARSQDGSVLRALAPVAEKLTAVQQQVALLERDRLEQYGQLAQQLQEARLSDEQLIRSTHALESALRSNSARGQWGEVQLRRVVEASGMLRHVDFLEQVHSAGGDSTVRPDLVVQLPGEKQLVVDAKVPLSSYLEAQELGAVTGSPTDQGPNHRSQQTLLAAHAKALRSHVDALSTKKYWDIPGNSPELVICFIPAESILAAALMADATLLDHALSRNVVLASPSTLLAVLKSVAFTWRQDVLTDSARELFDLARQLYERMGTLGENVSKLGSSLKSSVDRYNSMIGTLEARVLPTARKLNALDETGLLTPAALEVTPRSVAAPELQLRDTAA				NA	NA	NA	NA	NA
D1-29_03332	1086	ispH2	COG0761	4-hydroxy-3-methylbut-2-enyl diphosphate reductase 2	ATGACCTCCACAGCAGTTTCCCTCTCGATGCCGACCGTCCCACGAAGGCGGCGCACCCCCGAGGAAGTATTCGCCGCGGCACCGGTAACCGGTCCCAAGAAGGTCCTGCTGGCCGCGCCCCGCGGGTATTGCGCGGGTGTGGACAGGGCCGTGATCGCCGTGGAAAAGGCGCTGGAGCACTACGGCCCCCCGGTGTACGTCCGGAAACAGATCGTGCACAACGTCCACGTGGTCAGCTCACTCGAGGCCCAGGGTGCCATCTTCGTTGATGAAACCGACGAAGTTCCTGAGGGCGCACTGGTGATCTTCTCCGCGCACGGTGTATCGCCTGCAGTAGTTCAGTCAGCAGAGGATCGCGGGCTGCGGACCATTGACGCCACATGCCCCCTGGTCACCAAAGTGCACAAGGAAGCAGTGCGGTTCGCGAAGGACGACTTCGACATCCTGCTGATCGGCCATGACGGCCACGAGGAAGTTGAAGGAACCGCCGGCGAAGCCCCGGAACACATCCAGATTATTAATGGCCCTCACGAAGTGGACAAAGTCACCGTCAGGGACCCGGAAAAGGTCATCTGGCTCTCGCAGACCACCCTCAGTGTGGACGAAACCATGGAAACAGTCCGGTTGCTTAAGGAACGCTTTCCTACCCTGCAGGATCCGCCCAGCGACGACATCTGCTACGCCACCACTAACCGGCAGGTGGCTATCAAGAAGATCTCGCCGCAGGCTGACCTGGTTATTGTGGTGGGTTCAGCCAATTCCTCGAACTCTGTCCGGCTTGTGGAAGTTGCACTCGAGTACGGCGCCAAAGCCTCGTACCGCGTGGACTTCGCCAACGAGGTGGATGAGGCCTGGTTCGAAGGCGTTGGCACCGTGGGCGTGACGTCTGGGGCATCCGTTCCCGAGGTCCTGGTCAAGGACGTGCTGCGACTCCTGGCCGACTACGGCTACGGTTCCGTGGAAGAAGTTGTCACGGCCGAAGAGGACCTTCTCTTCTCGCTGCCCAAGGAGCTTCGGGCAACGCTGAAAGAGGCCGGCGACGTCAGCCGCGCCCTCGGCGGCCGCCGGTCCCGCGACCAGTCCTAA	MTSTAVSLSMPTVPRRRRTPEEVFAAAPVTGPKKVLLAAPRGYCAGVDRAVIAVEKALEHYGPPVYVRKQIVHNVHVVSSLEAQGAIFVDETDEVPEGALVIFSAHGVSPAVVQSAEDRGLRTIDATCPLVTKVHKEAVRFAKDDFDILLIGHDGHEEVEGTAGEAPEHIQIINGPHEVDKVTVRDPEKVIWLSQTTLSVDETMETVRLLKERFPTLQDPPSDDICYATTNRQVAIKKISPQADLVIVVGSANSSNSVRLVEVALEYGAKASYRVDFANEVDEAWFEGVGTVGVTSGASVPEVLVKDVLRLLADYGYGSVEEVVTAEEDLLFSLPKELRATLKEAGDVSRALGGRRSRDQS	PGPT0007615_303	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
D1-29_03333	852			hypothetical protein	TTGCGTACGTTTGTTTCCGCCATTGCCGTTATCCTGGGCGCGCTGTTGTCTGCCGTGGCAGTGCCGTCTATTTGGCTTGACCGCAACATCGTCCAGGAGGATGGCTTTGTGGCGCTGGCCGCTCCGCTCGGCAGGGACGAAGCGTTCCAGCAACGGCTGGCTGCCGCCGCCGTTGGGGCCCTGGATACCAGCAGCATTCCGGATGCGCTGGCCGACGCCGTCCAGCCGGTGCTCGAATCGGCCGCCACGTCTTTGGCCGGGCTGCCCGGTTACCCGGCAGCGTGGGAGGAGACGCTGCGCAGGAGCCATCGCCTGAGCTTCTCGACCGGCGGTTCCCCGATGCCCGAGGCGGGCGCCGCAGCATCCCTTACGCTCGACGTGGCACCCCTGGTGGCGCTGGGAATTGAAGAAATCTCAAGCACCTCCGGATTGCCGTTGGAAGCGCCCGCGGAGACACTGATCGACGTCGGACAGCCCAGCCAGCGCCAGCTGGTGGACGCCCTGCGGGGCTATGCTCCCATGGGGTACGGGCTGGCGGTAGGTGCCGGCATCGCATTTCTGCTGGCGTTGGTGGCCGCCCGACGCCGCGGGGCCGTGATCTTCTCGATGGGCGTTGCCGGCCTGCTGCTGGCCGGACTGTGGACGGCAGGATTGCAGGTGGGCGTCGACGCTGTGCTTAGCACCGGGAGCGGCAATGAACTTGCGGACATGTTCCGGAACGAGCTGGTCGCCGCGTCAGCCGGTGACTTCCGGGCCTGGATTCTGGGGACCGCCATCGCCGGAAGCGCCCTGCTGGTAGCAGGACTTGTGATCCGGATCGCCTCGCCGGGGCGCCGGCCCGCAACCCGGTAG	MRTFVSAIAVILGALLSAVAVPSIWLDRNIVQEDGFVALAAPLGRDEAFQQRLAAAAVGALDTSSIPDALADAVQPVLESAATSLAGLPGYPAAWEETLRRSHRLSFSTGGSPMPEAGAAASLTLDVAPLVALGIEEISSTSGLPLEAPAETLIDVGQPSQRQLVDALRGYAPMGYGLAVGAGIAFLLALVAARRRGAVIFSMGVAGLLLAGLWTAGLQVGVDAVLSTGSGNELADMFRNELVAASAGDFRAWILGTAIAGSALLVAGLVIRIASPGRRPATR				NA	NA	NA	NA	NA
D1-29_03334	1326	xseA	COG1570	Exodeoxyribonuclease 7 large subunit	ATGTCTGACCCCGCAGCCTTGCCGGGCATGGCGGCCACCACGCTGCCTGCCACGGCCGCCGAAACAAGCCCGGACAATCCCTGGCCTTTGCAGCTGCTGTCCCAGAAGCTGAAAGCCCACATCGACCGGACTCCTTCGGCTTGGGTGGAAGGCCAAGTCATCGAACTGAGCCGGCGCGGCACAAACGCCTATCTGACGCTGCGGGATGTGGACGCAGAAGTTTCGCTGCCTGCATCGGTATGGTCCAAGATCCTTGACCGGCAGAACATGCCCCTGGAGCGCGGTTCCCGCGTTGTCGCCTTGCTCAAACCGGAGTTTTGGCTGAAAACAGGCCGCCTGAACATGCTGGTCCGGGACATCAGGCCCGTGGGATTGGGTGACCTCCTGGCACGGATTGAGCGGCTTCGCCAGGCCCTCTCCGCCGAAGGTCTCTTTGCCGATTCCCGCAAGAAGCCGCTCCCGCTGCTCCCCCACCGCATTGGGCTGATCACCGGACGTGATTCGGACGCGAAAAAGGACATCCTCCGCAACGCTGCGCTGCGCTGGCCCGCCGTCGAATTCGAGCTGCGCGAAGTTGCCGTCCAAGGCAACGCGGCGGTATCGCAGATTATCAGGGCTCTTCGGGACCTTGACGGGCGCCCCGATGTTGATGTCATCGTCATAGCCCGCGGCGGCGGCGCCCTGGAGGACCTGCTGCCGTTCAACAGCGAAGAATTGATCCGGGCGGTTGCCGCGGCGGCCACTCCGGTTGTCAGCGCGATCGGGCATGAAGCAGACCGTCCGCTGCTTGATGATGTAGCGGACCTGAGGGCCTCCACCCCCACCGACGCCGCCAAGCGGATCGTACCGGACGTGGCGGAGGAGCTGGCCGGCGTGCGCCAGGCCCGGGATCATTTGCGCCGATCAATCGGCCGGCTGGTGGACAGGGAGACGGACCGGTTGTCCTCGCTTCATTCGCGACCGGTCATGGCTGCACCCGAGGGGATGATCACGCTCCGTGCCGAAGAGGTGGAACGGCTCTTGCGGCGGGCATCCGCCGCAGTAAGTTCCACAGTGGTCAGGGCGGCAGACCAACTGGTCCACCTGCAGGCCCAGGTGCGGTCACTGTCACCGCAAAATACCCTGGACCGGGGTTATGCGGTGGTGGAGCTGGCCGGCCGGCGCGCGGCAACCGAAGACAACCCTTCCGGCCATTCGGTGGTCCGGGACCCCTCCGAGGCGCCCACCGGAACGCCGCTCAAGGTACGCGTTGCCCTCGGACAATTTGGGGCTGCATCCACGGGCCCCATTCAGCAAGGAATTAAACAAGGAGAAGCACATGACTGA	MSDPAALPGMAATTLPATAAETSPDNPWPLQLLSQKLKAHIDRTPSAWVEGQVIELSRRGTNAYLTLRDVDAEVSLPASVWSKILDRQNMPLERGSRVVALLKPEFWLKTGRLNMLVRDIRPVGLGDLLARIERLRQALSAEGLFADSRKKPLPLLPHRIGLITGRDSDAKKDILRNAALRWPAVEFELREVAVQGNAAVSQIIRALRDLDGRPDVDVIVIARGGGALEDLLPFNSEELIRAVAAAATPVVSAIGHEADRPLLDDVADLRASTPTDAAKRIVPDVAEELAGVRQARDHLRRSIGRLVDRETDRLSSLHSRPVMAAPEGMITLRAEEVERLLRRASAAVSSTVVRAADQLVHLQAQVRSLSPQNTLDRGYAVVELAGRRAATEDNPSGHSVVRDPSEAPTGTPLKVRVALGQFGAASTGPIQQGIKQGEAHD				NA	NA	NA	NA	NA
D1-29_03335	219	xseB		Exodeoxyribonuclease 7 small subunit	ATGACTGAAGCAACCCCGGGTTCCGATATTGATGGCCTGAGCTATGAGGAAGCCAGGGAGCGGCTGATTGAAGTAGTCGCCAAGCTTGAGGCCGGCGGCGCCAGCCTGGAAGAATCCCTGGCCCTGTGGGAACGGGGAGAAGCACTTGCCAAACGCTGCGAGGAGTGGCTCGAGGGAGCCCGGAAGCGCCTGGCAGCTGCCCGCGACCAGCCGCTGTAG	MTEATPGSDIDGLSYEEARERLIEVVAKLEAGGASLEESLALWERGEALAKRCEEWLEGARKRLAAARDQPL				NA	NA	NA	NA	NA
D1-29_03336	855		COG2326	Polyphosphate:AMP/ADP phosphotransferase	ATGGCCCGCGTGGTTGACTTCACCAAACACCCTTCCAAGACGCTGAAGGTTGGTAACGGATTTGCCCTTGCGGACATGGACCCCGATGCCACACCCGGGTTCAGCGGGCTGAAGGCGGACGGGAAGGCTCTCCTGGCCGATCTGGACGGAAAACTGGCCGAGTACCAGGAGAAGCTGTTTGCGGAATCAAGGTTCGGCGGGACCAAGCGGCTGCTGCTGATCCTGCAGGGAATGGATACTGCCGGCAAGGGCGGCATCGTCAATCATGTGATGGCTCCGATGGATCCGCAGGGCGTCCAGTTCAAGGCTTTCAAGGCCCCCACCCCGGAAGAGAAGTCCTATGACTTCCTCTGGCGGATAGAGAAGGAGGTGCCGGCAGCCGGAATGGTGGGCATCTTCGACCGTTCCCAGTATGAGGACGTCCTGATTCACCGGGTCCATGGCTGGACACCTCCTGAAGAGCTGAAGCGCCGGTATGTAGCCATCAACGAATTCGAGGCCCGGCTGACCGATTCGGGAACGAAGATTGTTAAGGTCATGCTCTACATCAGCCGGGATGAGCAGAAGGCGCGCCTCCTGGCCCGGCTGGACAACCCGGCCAAGCATTGGAAGTACAGCCGCGGTGACCTCGACGAGCGAGCTTTTTGGGCCGACTACATGGCGGCGTACCAGGCCGCCATCGACGAGACAAACACCGAGGTGGCGCCGTGGCACGTGGTGCCGGCCAACAAAAAATGGTTTGCCCGGATCGCCGTTCAGCAATTGGTGCTCGGCGCGTTCGCAGACCTGCACCTGGAGTGGCCCAAGGCGGATTTCGACGTCGCGGTGGAGCGGGAGATCGTGGAAAGGTCCTGA	MARVVDFTKHPSKTLKVGNGFALADMDPDATPGFSGLKADGKALLADLDGKLAEYQEKLFAESRFGGTKRLLLILQGMDTAGKGGIVNHVMAPMDPQGVQFKAFKAPTPEEKSYDFLWRIEKEVPAAGMVGIFDRSQYEDVLIHRVHGWTPPEELKRRYVAINEFEARLTDSGTKIVKVMLYISRDEQKARLLARLDNPAKHWKYSRGDLDERAFWADYMAAYQAAIDETNTEVAPWHVVPANKKWFARIAVQQLVLGAFADLHLEWPKADFDVAVEREIVERS	PGPT0002695_494	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002695-ppk2-K23753	NA	NA
D1-29_03337	1221	aspC_1	COG0436	putative aspartate aminotransferase	ATGGCAGAATTCAAGCAGTCCACCAAGCTTCATAACGTCCTTTACGACATTCGTGGACCGATTCTTCAGGCAGCCCAGCAAATGGAGGCGGAGGGTCACCGGATCCTCAAACTGAACATCGGAAATCCCGCGCCGTTTGGGTTTGAAGCGCCGGACGCAATCCTGGTGGACATGATCCGCCATCTGCCGCACGCCCAGGGCTACAGCGACTCCCGGGGAATCTTCTCCGCACGCACCGCTGTCTCGCAGTACTACCAGACCCGCGGAATCCAGAACATCCATGTCGATGACGTGTACCTCGGCAACGGGGTGAGTGAACTCATCACCATGTCCCTGATGGCCTTGCTGGACGACGGCGACGAGGTCCTGATCCCTACGCCTGACTACCCCCTGTGGACGGCGTCGGTTGCACTCGCCACCGGCAAGCCGGTGCATTACCTCTGTGACGAAGAATCCGGCTGGCAGCCGGACCTTGAAGACCTGGAAGCCAAGATCACGCCGCGCACCAAGGGAATCGTGGTCATCAACCCGAACAACCCCACCGGGGCGGTGTACCCCGAGCAGACCCTGAAAAAGATCGTAGCGCTGGCTGAGAAGCACGGGCTGGTGCTTTTCGCCGACGAAATCTACGAAAAGATCCTCTACGAGGACGCCCAGCACATCAACCTCGCGTCGCTGACGGGTGACCACGTGCTCTGCCTGACGTTCAGCGGACTGTCGAAGGCGTACCGGGTGTGCGGGTACCGCGCTGGCTGGATGGCCATTTCGGGCCCGAAGAAGGACGCAGCCGATTATCTGGAGGGCATCAGCCTCCTCGCCAACATGCGGCTCTGCGCCAACGTCCCCGCCCAGCACGCCATCCAGACGGCGCTGGGCGGCTACCAGAGCATCAACGACCTCATCCTGCCCGGCGGACGGCTGCTTGAACAGCGCAACAAGGCGTACGACATGCTCAACGCCATCCCGGGTGTGAGCACCCAGCAGGCCAGGGGCGCACTGTATCTGTTCCCTCGCCTTGATCCTGAGGTTTTCCATATCCGGGATGACGAGAAATTTGTCCTGGACCTGCTCAGGGAACAGAAAATCCTGGTCTCGCACGGCCGGGCCTTCAACTGGGTGCGTCCGGACCACTTCCGGATGGTCACCCTGCCCAACGTCAAGGACATTGAAGAAGCTGTGGGGCGCATGGGGGACTTCCTTAGCAGGTATCAGGGGAACTAG	MAEFKQSTKLHNVLYDIRGPILQAAQQMEAEGHRILKLNIGNPAPFGFEAPDAILVDMIRHLPHAQGYSDSRGIFSARTAVSQYYQTRGIQNIHVDDVYLGNGVSELITMSLMALLDDGDEVLIPTPDYPLWTASVALATGKPVHYLCDEESGWQPDLEDLEAKITPRTKGIVVINPNNPTGAVYPEQTLKKIVALAEKHGLVLFADEIYEKILYEDAQHINLASLTGDHVLCLTFSGLSKAYRVCGYRAGWMAISGPKKDAADYLEGISLLANMRLCANVPAQHAIQTALGGYQSINDLILPGGRLLEQRNKAYDMLNAIPGVSTQQARGALYLFPRLDPEVFHIRDDEKFVLDLLREQKILVSHGRAFNWVRPDHFRMVTLPNVKDIEEAVGRMGDFLSRYQGN	PGPT0001880_947	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0001880-alaA-K14260	NA	NA
D1-29_03338	933			hypothetical protein	ATGCGAAAACCCCTCTGGGCCGGACTGGCCGCCGCAACGCTGCTGCTCTCGGCAGCGTGCACAGGAGCGCCTGAAGAAACCCCCACCGGCAGCAGCAGCTCGCCTGCTGCTGCCCTGACAGTGGGCAGCCCCACCCTGGACACGGCCACGTCGGCGGAAACCCAGATCGTCGCGGAAATTTATGCCGGCGCCCTGGTGGCCGCCGGCGTTCCTGCCACAACCGCGCCGGACGTCGGACCCCGGGAAACGTATCTTAAGGGACTCAAAGACGGCACCGTTGATGTGGTGCCTGACTATTCAGGAAGCCTGCTCGCGCATGTGGACCCGCAGGCGTCAGAAGATTCAGCTGATGACATCTACAAGGCACTGACGGGCACGCTGCCGGAGGGGCTGGCCGTCCTGGAAGCGTCCAAGGCGGAGTCGAAAGACGCCATGGTGGTCACCAAGCTCACGGCCGAGAAGTACCAGCTGAAGTCAATCGAGGATCTGGCCAAGGTATGCAAGGACCTGGCCATGGCCGCACCAACCACCTTCGATGCACGCCCCGATGGCCTTCCCGGGCTCAAAGCGGACTACGGTTGTGAATTCAAGGCCTTCAAGCCCTCTCTTGACGGTGGCGGCAATCAAACGCTGCTCGCGCTGCTCACCGACGACGTCCAGGTTGCCGACATTTACACCACCATGCCCTCCATCGCGGACAATGACCTGGTGGTGCTGGAGGATCCTAAAAACAACTTCAAAGCGCAGCAGGTCCTGCCGGTTTATAACAAGGAAAAGCTGACAGACAAGGCGAAAGATGCGCTCAATGCGGTCTCCCGGCTCCTGACCACGGAGGACCTCGTGGATCTCAACAGGGCAGTCAGCGGCAGCCAGAAACAAAACCCGAAGGACGCTGCCGCCGCGTGGCTGAAGGACGAAGGAATCGTCAAGTAA	MRKPLWAGLAAATLLLSAACTGAPEETPTGSSSSPAAALTVGSPTLDTATSAETQIVAEIYAGALVAAGVPATTAPDVGPRETYLKGLKDGTVDVVPDYSGSLLAHVDPQASEDSADDIYKALTGTLPEGLAVLEASKAESKDAMVVTKLTAEKYQLKSIEDLAKVCKDLAMAAPTTFDARPDGLPGLKADYGCEFKAFKPSLDGGGNQTLLALLTDDVQVADIYTTMPSIADNDLVVLEDPKNNFKAQQVLPVYNKEKLTDKAKDALNAVSRLLTTEDLVDLNRAVSGSQKQNPKDAAAAWLKDEGIVK	PGPT0013595_1599	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013595-opuC|yehZ-K05845	NA	NA
D1-29_03339	900			hypothetical protein	ATGAACGTGCAGCGTACGCTTCCGCAGCGCGGCCTGCCCACAGTGGGTGCCTGGTGCTTCCTGGACAACTTCGGCCCGGACCGGACGGCCATGTCCGTACTTCCGCACCCGCACATCGGGCTGCAGACCGTCACCTGGCCCCTGGCCGGGAACATCCGGCACCGGGACAGTGTGGGCAGCGACGTCGTAGTCCGTCCGGGTGAGCTGAACATCATGACGGCAGGCAACGGAGTCTCCCACTCAGAGTTCGCCGTCCTGGCAGATCCTGACGGCCAGCTTCCCATCCAGCGCGGCCTGCAGTTATGGGTGGCGCTTCCCGACGGGCAACGGCACAGGGAACCGGCCTTTGAGCAGTACCGGGAGCTGCCTTCCGTCACGGGCGAGGGGTTCACCGCCACCGTGATGGTGGGCGAATTCGCCGGCGCGGTTTCCCCCGCCACGATGTACTCACCCATTGTGGGCGCTGACGTCTCGTGTGCCGGGCGTGCCGTCTTGCCGCTCAATGCGGACTACGAACATGCCCTTTTAGTGCTCGACGGCGGTCTGACGCTGGACGGCCAGGAGATCCTGCCCGGGCCCCTGGGCTACCTTGGCACTGGCCGTCCGGCGCTTGAGGTGCAGGCGCTGCCCGGCACGCGGTTCCTGCTCATCGGCGGGGAACCCTTCCAGGAAGAGCTCCTGATGTGGTGGAACTTTGTGGGCCGTGCCCACGACGAAGTGGAACGGGCACGTGAAGACTGGGAGGCCCAGGGGCAGCTCCCTGACGGCCAGGCCCGCGGCTCCCGGTTTGGATTGGTCGAAGGACATGGTCCGGAGGCGGGGGCGGAGGCAGGCCGTATTCCTGCTCCCCCGCTGCCGGCGATTAGGCTGACCCCTCGAAAGCGTGCCGCCCGGCCCTGA	MNVQRTLPQRGLPTVGAWCFLDNFGPDRTAMSVLPHPHIGLQTVTWPLAGNIRHRDSVGSDVVVRPGELNIMTAGNGVSHSEFAVLADPDGQLPIQRGLQLWVALPDGQRHREPAFEQYRELPSVTGEGFTATVMVGEFAGAVSPATMYSPIVGADVSCAGRAVLPLNADYEHALLVLDGGLTLDGQEILPGPLGYLGTGRPALEVQALPGTRFLLIGGEPFQEELLMWWNFVGRAHDEVERAREDWEAQGQLPDGQARGSRFGLVEGHGPEAGAEAGRIPAPPLPAIRLTPRKRAARP	PGPT0019980_288	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
D1-29_03340	969	murK	COG2971	N-acetylmuramic acid/N-acetylglucosamine kinase	GTGACTGACACCCAACTTCCCAGCTCCTCTGCCGCAGCAAGTTTCCCTGAAGAGCGGATACAGCCAGCGATTGCTCCGGGCCCGTTGGTGGGAACAATCATTGGCCTTGATATTGGCGGGACCAAAACCCATGGTGTCCGGTTTGAGGATGCCATTGCCGTGGCCGATGCGTCTGCCGGTAGCTCGAATGTCCAGAACGTCAGCCGTGAAGCGGCGGCCGTCAATCTCGCCGAGCTGTTTGCGAAAATAGGCGGCGGCCACGTGTCCCAGGTTTATGCGGGTGCCGGCGGGATAGACACAGACGACGACGCCGCGGCGCTCGCCGCGCTGATCGAACCGCACGTTCCCGGTGCGAGGATCCGCGTGGTTCACGACTCGCGGCTGCTGCTGGCCGCAGGCCGTGTCAGCACCGGAGTGGCCGTGATAGCTGGAACGGGATCGGCTGCCTGGGGTAAGAACGCGGCCGGGGACGAGGCCAGGGCCGGCGGCTGGGGGTATCTGCTGGGCGACGAGGGCAGCGGTTATTGGCTGGGACGGGAAGCCGTCCGGCACAGCCTGCGCAGGATGAACCAGGGGCTGCCTGCCGATCAGCTCACCGAAGCCTTGCTGGAGTCATGCGGTATTGATGATGCCAACCGGCTGATCGCCATGTTCCATTCTCCTGATACCGGCCGCCGCTTCTGGGCCCAGCAGGCGCGTCTCGTAGTGGAAGGCGCTGCGGCGGGGCACGCGGTGAGCCAGCAGTTGCTCGACCAGACGGGCAGCGACCTTGCTGCGCTGGCTGCCCAGGCACTCCGGAAGCTAGGCATTGATGGCCCTGTCATTCTTGGCGGTGGCCTTGGAATGAACGTAGCCGCACTCCAGGACGCCTTCCGTAAGCATCTTGCCGCCGCCGGAATTACCGATGTCCGTGTGCTGGACCAGGAGCCGGTGTTCGGCGTCCTGCAGCTTGTGGCGGAGGACGAGTAG	MTDTQLPSSSAAASFPEERIQPAIAPGPLVGTIIGLDIGGTKTHGVRFEDAIAVADASAGSSNVQNVSREAAAVNLAELFAKIGGGHVSQVYAGAGGIDTDDDAAALAALIEPHVPGARIRVVHDSRLLLAAGRVSTGVAVIAGTGSAAWGKNAAGDEARAGGWGYLLGDEGSGYWLGREAVRHSLRRMNQGLPADQLTEALLESCGIDDANRLIAMFHSPDTGRRFWAQQARLVVEGAAAGHAVSQQLLDQTGSDLAALAAQALRKLGIDGPVILGGGLGMNVAALQDAFRKHLAAAGITDVRVLDQEPVFGVLQLVAEDE	PGPT0018875_273	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
D1-29_03341	987	gltC_2		HTH-type transcriptional regulator GltC	ATGGATGCCGATCACAAGCAACTGGTGCAACTGCTCCCGCTGTTGCCCTTGCTCGCCGAACTGGGCCGCACACAGCACGTCACTGAAACTGCTGAACTTCTGGGGGTACCCCAGTCCACGGTCAGCAGGGCACTCAACCGGGCCAGCGCCGTGGTTGGAACCGAACTGCTGATCCGGGATGGAAGGGGTGTCCGCCTCACCACCGCGGCGAGGACATTGCTGCCGTACATCGAGTCGGCCCTCGCCGAGTTCCAGGCGGGACTGGACCTGGTCCGGCACGAGTCTGACGTGGTGCGTGGGAAGGTTGCCGTCTCCTTCCAGCACACCTTCGGCGAGGCCGCCCTGCCCCTGCTGATCAGTGCTTTCCGAAGCCGCCACCCGGAGGCAGGTTTTACCTTGAGCCAGGGATCACGCGACGGTTGCCTGGCAGAGCTGGCAACAGGCCAGGCGGATCTGGCACTCACGGCTCCGGTGGCCATGGCAACAGGCACCGTCTCATCGGCTGCCCTGTACCGTGAACCGCTCCGCCTGGTGGTGCACCATCAGCATCCGCTGGCGGGCAGTCGCAGCGCAGGACTGCAGGATATCCGCAGAGACCCCTTTGTTGCACTTGGCCCCGGCTATGGCCTGCGGTCACTAACAGATGCAATATTCCGCGACGCCGGTTTCCGGCCACGGATCGCCTTCGAAAGCCAGGATTCCCACACAGTCCGCGGGCTGGTGTCTGCAGGGCTGGGCGTCAGTATCCTGCCGCCGGGCGGGAACGCACCCGGACGGCACGTGAGCCCGGAAACGGGCGATCTGGGATGGGTTGAACTTGCCCTTGAATCCGCTCTCGCCTATCGGGAGATCGGGCTGGCATGGCGGCGCCGCAAGCCCGGTCCCGGCGCTGAATCTGATCCTGTCCGGCTTTTCCGGGAGATGGTGCTTGAAGACGGCCCGCGGCTGCTCGCCGGGCTGGTCAGGGAACGTTCACAAAGCGACTGA	MDADHKQLVQLLPLLPLLAELGRTQHVTETAELLGVPQSTVSRALNRASAVVGTELLIRDGRGVRLTTAARTLLPYIESALAEFQAGLDLVRHESDVVRGKVAVSFQHTFGEAALPLLISAFRSRHPEAGFTLSQGSRDGCLAELATGQADLALTAPVAMATGTVSSAALYREPLRLVVHHQHPLAGSRSAGLQDIRRDPFVALGPGYGLRSLTDAIFRDAGFRPRIAFESQDSHTVRGLVSAGLGVSILPPGGNAPGRHVSPETGDLGWVELALESALAYREIGLAWRRRKPGPGAESDPVRLFREMVLEDGPRLLAGLVRERSQSD				NA	NA	NA	NA	NA
D1-29_03342	1317	ynfM		Inner membrane transport protein YnfM	ATGTCAAAGAATCCGCCACTCCCGGGGTTGCCGGCCACGGCAGATCCATCCTGGACGGGCCACCCGAAGGGCTCACGGGCGTACGGAAGGATCATCGCCGGGCTGGGCTTTGCCGGTGTGGCAACATTTGCCCAGCTGTACTCAACCCAGGCAGTCCTGCCCCTCATGGCAGCGGATCTGCAGATCACCCCGGCCGAAGCGGCGCTGACCATTTCGCTGGCAACCGTGGGGCTGGCCGCTACCGTCCTCCCGTGGTCCTTCCTGGCTGACCGCATCGGCAGGGTGCGGGCCATGGCCCTGGCGATTTCAGCAGCCACCGCCCTGGGCCTCATCGTGCCACTGGCCAGCAGCTTCGGAATGCTGCTGGGCCTCCGGCTTCTGGAAGGCATGGCACTGGGCGGTATCCCAGCCATCGCCATTGCCTACCTTAATGAGGAGGTTAATAGGGCGCACACCGCCCTGGCCGCCGGCGGCTACATTGCCGGCACCACCCTGGGCGGTCTCGCAGGCCGGCTGGTGGCCGGGCCGGCAGGCGAGCTGTGGGGATGGCGCGCCGCCGCCCTGGCCGTATCCTTGCTGGCGACCACAGCAGCGGTGCTGTTCCTCATACTGGTGCCCAAGGCCAGAGGCTTCACCCCTGCAAAAGCCACGGGACTGCGCGGTGCCGTTGCAATCATTGCCGGCCATGTGCGGACGCCAAAGCTGCTGGCACTCTACGTCCAGGCCTTCCTGCTGATGGGCGGCTTTGTGGCTGTCTACAACTACCTTGGTTTCCACCTCTCCAGTGAGCCCTTCAGTTTGCCTGCCACGATTATCAGCCTGATCTTCCTGGCTTACCTTTCCGGAACCGTCTCCTCGCGCTGGGCGGCTGGACTGACACAGCGTTTTGGCCGGCGGAACGTCCTGCTGGCAGGAATCCTCCTGATGGTCTTGGGGCTCGCCCTGACGCTGACCCAACTGCTGGCACTAGTCCTGGCCGGCCTGTTGGTTTTCACCGCGGGCTTCTTTGCCGCCCACAGCATCGGCGCCGGCTGGACGGGCAACATTCCCACGACAGGCAGGGCCCAGGCGGCGTCGCTGTACAACCTGGCCTACTACGTCGGTTCAAGCGTTATCGGCTGGGCAGGGGGCCTGGTGTTCCAGTCCCTTGGCTGGACGACGATGGCCGTGGCCGTCATGGTGCTGGCCTGCCTGGCTGCGGTGATCGTCGCCGTCGTCCATCCACGGCAGGAGGGACAGCGTGGGTTTGGCCGATGGCGCACCAGGAAGCGGCGGTATGGAGAGTTGAACGATCTGCCCGCAAAGGGCTGCATCTGA	MSKNPPLPGLPATADPSWTGHPKGSRAYGRIIAGLGFAGVATFAQLYSTQAVLPLMAADLQITPAEAALTISLATVGLAATVLPWSFLADRIGRVRAMALAISAATALGLIVPLASSFGMLLGLRLLEGMALGGIPAIAIAYLNEEVNRAHTALAAGGYIAGTTLGGLAGRLVAGPAGELWGWRAAALAVSLLATTAAVLFLILVPKARGFTPAKATGLRGAVAIIAGHVRTPKLLALYVQAFLLMGGFVAVYNYLGFHLSSEPFSLPATIISLIFLAYLSGTVSSRWAAGLTQRFGRRNVLLAGILLMVLGLALTLTQLLALVLAGLLVFTAGFFAAHSIGAGWTGNIPTTGRAQAASLYNLAYYVGSSVIGWAGGLVFQSLGWTTMAVAVMVLACLAAVIVAVVHPRQEGQRGFGRWRTRKRRYGELNDLPAKGCI	PGPT0017201_239	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
D1-29_03343	504	lrp_1	COG1522	Leucine-responsive regulatory protein	ATGAGCACCAACGCGAAGAACATCCGGCCGGGGACGCACCTTGAGCCCCTGGATGCCATTGACGAGCGGCTCCTGGCAGCTCTCGTGGACGACGCCAGGATCTCCAACAAGCAGCTGGCCGAACTCGTTGGCATCGCCCCGTCCACGGCACTGATGCGGACCAGGGCGCTGTCCGAACGCGGGATTGTCCAGGGCTTCGAAGCCAAACTCAGCCTCTCGGCGATTGGCAGGTCGGTCCAGGCGCTGGTCGCTGTCCGGCTCAGGGCCCATGACCGCGACCAGATCGACCGCTTCACCGCACGCGTCCCACACCTGCCGGCTGTACTGTCCACTTTCCACACATCCGGCTCTGTTGATTACCTCCTGCACATCGCCGTGGCCAGCACCGAGGACCTGCGGGACTGGGTCCTGGACAACCTGGCGACAGACCCTGTGGTGGGTCACACGGAGACCACCCTCGTCTTCGACCATATCCAGGGAAACCACGGCCCCCTGCCGGACTAA	MSTNAKNIRPGTHLEPLDAIDERLLAALVDDARISNKQLAELVGIAPSTALMRTRALSERGIVQGFEAKLSLSAIGRSVQALVAVRLRAHDRDQIDRFTARVPHLPAVLSTFHTSGSVDYLLHIAVASTEDLRDWVLDNLATDPVVGHTETTLVFDHIQGNHGPLPD				NA	NA	NA	NA	NA
D1-29_03344	1248			hypothetical protein	ATGACCGTCTTCAGTGAGCTCCGCATGCGCCCGGCTACAGCCGCGCGCTGGGGCTGGGATGCCTCCATTACGTCACGCCTGGTGATGGCGGGATCAGTCATCTTCACTTTGCTCGTGGGAGCAAACCTCGCCACACCCCTGTATCCGCTGCTGCAGGCAAACCTTGGGCTCTCGCCAGTAGCCATCACCACTGTTTTTGCCAGCTACGTCCTGGCTCTCGTGACAACGTTGATGGTCGCCGGACACTGGTCGGACCACATCGGCCGGAGGGCCGCCCTCATTCTCGCAGTCCTCGCCGGGCTGGCCGGAGGCTGGGTCTTTGCCCAGGCTGACAGCCTTGCCGCTCTGTCCGCTGGCCGGGCCCTGCAGGGCGTGGCCGTGGCCCTGGCCACGGGAGCAAGTGCTGCGGCGCTGCGTGAGCTGCTCCCGTCCCGCCCCGAGTGGGCGTCCCGTTTCACGTTGCTCGCCTCGGCCGGTGGGGTTGCTTTAGGGCCCGTTATCGGCGGCTTCCTGTCCATGCTGCCAGGCCCCACCACCGCACCGTACTTTGTGCATTCAGCAGTCCTTGCCGGGATGCTCGTTCCGCTGTACCTCCTCCGTGCCCGCCCTGCCATCCACCCACCGTCCGGACGGAGGCCGATCACGGCCCTGGCGCCACGCAGGCCGACGGTATCCGTTGAAGCGAGGGGCGCCTTCTGGCTGGCGTCCGCCGTCGGCTTCCTCAGTTTTGCCGTTTTCGGCTTTTGCCTGTCCCTGGCACCTGGATATTTTGCCCAAGTCGTGCAGGCTGACTCCCGCCCGGTGCTCGGTGCCCTTGCAGGTCTTACCCTGGGCGCCTCGGCCCTCAGCCAGTTGTTTGCTGTACGGGGGCGCTATGTGGCCCCGGCCGGCCTCGCCGTACTGGGTGTGTCCCTGCTGTTTCTGGCGGCCGCAGCGGCATGGAACAGCCCCCTGTTGCTTGTTGCGGCCAGTATCTTTGCAGGCTTCGGCCAGGGAGTGGCCTTCAACAAAGTCTTCAACGACCTTGCCGGCAAGGTGGAATCTTCCCGGCATGCCCAGATCATCAGCACCGTGTACATGATCACGTACCTCGGGAGCGCCGTGCCGGTACTTGGCTTGGGATGGGCCACAGCTGCGTTCGGCTTCCAAACCCCGGCCACCGCTTTTGTGCTGCTGTGCAGCGCTTCAGCCCTGGTGCTCTCCGCCGTGACGCTTCGGACCGCTATTCGGTGTCGGACCGCCATTTGA	MTVFSELRMRPATAARWGWDASITSRLVMAGSVIFTLLVGANLATPLYPLLQANLGLSPVAITTVFASYVLALVTTLMVAGHWSDHIGRRAALILAVLAGLAGGWVFAQADSLAALSAGRALQGVAVALATGASAAALRELLPSRPEWASRFTLLASAGGVALGPVIGGFLSMLPGPTTAPYFVHSAVLAGMLVPLYLLRARPAIHPPSGRRPITALAPRRPTVSVEARGAFWLASAVGFLSFAVFGFCLSLAPGYFAQVVQADSRPVLGALAGLTLGASALSQLFAVRGRYVAPAGLAVLGVSLLFLAAAAAWNSPLLLVAASIFAGFGQGVAFNKVFNDLAGKVESSRHAQIISTVYMITYLGSAVPVLGLGWATAAFGFQTPATAFVLLCSASALVLSAVTLRTAIRCRTAI				NA	NA	NA	NA	NA
D1-29_03345	498			hypothetical protein	TTGAACAACCTGGACCCCACCGATCTGAAAATCCTGCTGGAACTTATCCGCGATCCCCGTATCCAGATCGGTGAGCTCAGCGAGGCATTGGGGATAGCCCGGAACACAGCACAGTCGCGGGTTCGGCGGATGCTCCGCACCGGCATTCTGCACGACGGCGGCAGGGAGATCGACCTCGAGGCCGTCGGCTACGACGTGGTGGCCTTCGTGACGATCAAAGTGACACACCGTGAGCTGGACGGTGTGGTGGGCGCACTCCGGCTCCTGCCCCAGGTCCTGGAGGTGCATGAGATCTCGGGCCGCGGAGACGTCTGGTGCCGCGTGGTGGCCATGGATACCCACAACCTTCAGGCTGCCCTGCGGCAGATTCTTCGCATCAAGGGCGTCATTCGGACAGAAACAGTCCTGGCCCTGCATACTCATATTCCATACCGGACCGAACCGCTCATCAGCCGTCTTGCACAGACGGGGGCAAGCCAGCCAACACGGGCACAATGA	MNNLDPTDLKILLELIRDPRIQIGELSEALGIARNTAQSRVRRMLRTGILHDGGREIDLEAVGYDVVAFVTIKVTHRELDGVVGALRLLPQVLEVHEISGRGDVWCRVVAMDTHNLQAALRQILRIKGVIRTETVLALHTHIPYRTEPLISRLAQTGASQPTRAQ				NA	NA	NA	NA	NA
D1-29_03346	426			hypothetical protein	ATGGACTGGCTCTCATACATATCGCAGATCAACTGGCTGGCCGTGCTGCTGGCCTTCATCGCCAGCATGGCCATCGGCTTTGTCTGGTACATGCCCGCCGTGCTTGGCAACAGGTGGATGGCGGCGATCGGAAAGACTGAAGAGGACCTAAAGAACATCAGCGGCGGCGCCGGGATCTGGGTTCCGATGATGGTTGCCGCTGCTCTTACTGCCATCCTGCTCGCCGTCCTGATCAGCAAACTCGGCCTGGACAACGCCTTGGCCGGCGGCTGGTTCGCACTGGTCCTGGCCCTCGTATTCCGCGCCGGCGGCCACGTGATCCACAACGGCTTCGCAGGACGTCCCGCAGCTGTGACGCTCATCGATTCCGGCCACGATCTTGTTGCCATGACGGTAGCCGGCGCAATCATCGGGGCCATGTCCTGA	MDWLSYISQINWLAVLLAFIASMAIGFVWYMPAVLGNRWMAAIGKTEEDLKNISGGAGIWVPMMVAAALTAILLAVLISKLGLDNALAGGWFALVLALVFRAGGHVIHNGFAGRPAAVTLIDSGHDLVAMTVAGAIIGAMS				NA	NA	NA	NA	NA
D1-29_03347	996	corA	COG0598	Cobalt/magnesium transport protein CorA	GTGACGATCATCGACAACGCCGTGTACGTTGACGGTGTCCGCAGCGCCGAGCCCGAAAGCCTGGAGCAGACCTTTGAGACCCTGGCCGAGCACGGCGGCATGGCCTGGATCGGGCTGTACCGGCCAACGGAAGCAGAGATGTCGGCCGTGGCCAGCGAATTCGGGCTCCATGCCCTGGCCGTGGAGGATGCCATCTCGGCCCACCAGCGGCCCAAGCTGGAGCGCTACGACGACAACCTCTTTACTGTGCTTCGTCCGGCCAGGTACCTCGACGCCACCGAAACCGTTGAATTCGGTGAGCTCCACATCTTCACCGGCAGCAACTTTGTTGTTACCGTCCGCCATGCGGAGATGGCCGGCGTTGCCCGGGTCCGCAACCGGCTTGAGGCACGCCCGGACCTGCTCCGACACGGCCCGGAGGCAGTTCTGTACGCCCTCCTGGATCGCGTCGTGGACGATTATGCGCCGGTGGTGGCAGGACTTGAAAACGACATTGACGAGATCGAGGACCAGCTCTTCGGCGGGGACACCACGGTCTCACGCCGGATCTATGAGCTCGCCCGCGAAGTGATTCAGTTCCAGCGCGCCATCCACCCGCTGCCGGGCATGATGCAGCAGCTCAAGCGTGGATTCGAGAAATACGGCGTGGAAACCGAACTTCAGCACAGCCTGCGCGACGTGGAGGACCATGTTGAGCGGGTCATTTCCCGCGCAGACTCGTTCCGGGACCTGCTGCAGAACGCCCTCACCCTGGACGGGACGCTGACCGCAAACCGCCAGAACGAGGCCAGCGCAGAGCAGAACGAACAGGTGAAGAAAATTTCCTCCTGGGCCGCAATCTTCTTTGCGCCCTCTATTGTGGCGGGCGTCTACGGGATGAACTTTGACCACATGCCCGAGCTTCACTGGACCTTTGGCTATCCGTTGGCGATTGCCCTGATGGGCGGCACGGCAGGCCTCATGTACGGCATTTTCAAAAAGAAGGGCTGGCTCTAA	MTIIDNAVYVDGVRSAEPESLEQTFETLAEHGGMAWIGLYRPTEAEMSAVASEFGLHALAVEDAISAHQRPKLERYDDNLFTVLRPARYLDATETVEFGELHIFTGSNFVVTVRHAEMAGVARVRNRLEARPDLLRHGPEAVLYALLDRVVDDYAPVVAGLENDIDEIEDQLFGGDTTVSRRIYELAREVIQFQRAIHPLPGMMQQLKRGFEKYGVETELQHSLRDVEDHVERVISRADSFRDLLQNALTLDGTLTANRQNEASAEQNEQVKKISSWAAIFFAPSIVAGVYGMNFDHMPELHWTFGYPLAIALMGGTAGLMYGIFKKKGWL	PGPT0014010_2133	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
D1-29_03348	489	zapE_2		Cell division protein ZapE	ATGGACAATACAAATGATCAGGTGGCCGGGGCGGAATTTTCCAGGGGACGCATCATCACGCCCGGCACAGAGCACCAGCTGGGCACCTATGGCCTGTTCCCGCCGTCGTCAGCGCAGCATCGCACGCTGATGACCGCCGGAGGACCGCTCACCGCCAAGAATGCGGAACCCGATCTGCTGTGGACCAGCTTTGCCGAGCTATGCTCCGGGGCGCTGTCCGAGGCCGATTACCACGCCCTGGCCGGCCAACACACTACCTGGGTCATCGACGGCGTTCCCGCCCCGGACGCGGATCGATCAGCACAAAAAACCGCGGCATGGGATCGCTTCGGCGCCTTGGTGGGAATTCTCTATGAACGGGACGTCACCCTGTTTTTGCTCGGTACCCGGCTGCCGGCGGACATGGCCAAAATTGCCCCACCCCTCTCCTTCCTGGAATATGTGGAGTCCGCTGCAGACACCACGGCTGAGGAAATTTCCGGAAGCTAG	MDNTNDQVAGAEFSRGRIITPGTEHQLGTYGLFPPSSAQHRTLMTAGGPLTAKNAEPDLLWTSFAELCSGALSEADYHALAGQHTTWVIDGVPAPDADRSAQKTAAWDRFGALVGILYERDVTLFLLGTRLPADMAKIAPPLSFLEYVESAADTTAEEISGS				NA	NA	NA	NA	NA
D1-29_03349	1200			Aspartate aminotransferase	ATGCAGCAACTCGCGCACCGGCTCGAACGGCTGGGCACCGAAACCGCCTTCAGCGTCGCCCAAGCCGCGGCCGCCTGGAAGGCGAAGGGGAACCAGGTGTACCCCTTCCACCTCGGCGACATCAACATCCCGACGGCCCCTCATATCGTCGAGGCGATGACCCGGGCAATCGCCGACGGCTACACCGGCTACTGCCCCGGCCCTGGCATCCCGCAGTTGCGCGAGGCCCTCGCCGAGGATCTCGGGGCCCGCCGGGGTATCGAATTTTCCCCCGACAACGTCGTGGTGATGACGGGCGGCAAGCCCGTCATCACCAAGTTCCTGCAGGCGGTCATGAACCCCGGCCAGGAAGTGCTCTATCCGAACCCCGGCTTCCCGATCTATGAATCGCAAATCGAATACCTCGGCGGCACTGCTGTTCCATACAGCTACGTCCCCACCAGCACGGGCTTCGCGATCGACATCGACCAGGTGCGCGCCTCGATCACCCCGAATACCGTCGCAATCATCTACAACGACCTGCAGAACCCCATCTCGGCCGAGTCGACTGCGTCCGAGCGGGAGGCCATCGCGCAGCTCGCGCAGGAGCACGACCTCTGGGTACTGTCCGATGAGGCGTACTTCGAGACGCGCTATGAGGGTGTCTCGAGCTCGATCGCGTCGCTCCCCGGCATGGCGGAGCGCACCGTGATCCTCTACACCTTCAGCAAGAAGTTCGCCATGACCGGATCCCGCCTGGGCTGCGCCGTCGCGCCGATCGAAATCGCCAAAATTCTCAGTACACTCAACACCAACGATGAGTCATGCACCACGCACTACGTGCAATGGGCCGGCATCGCAGCGCTCCGTGGAACCCAGGAGCCCGTACAGCAGATGCTGGATATCCTGCGCGTCCGCCGGGATGCCGCGTGCGAACTCGTGAACGACATCGCCGGCATGCACGTCGCCGTGCCCAAGTCGACGTTCTACCTTTTCCCTGACGTCACCGAGGTCATGGAGCGCATGGGTTACAAAGCCGTTGGCGATTTCGCCTCCGCAGCCCTCTACGAAACCGGCGTCTCCTTCTGCACACGTGAGCACTTCGGCCGCCGCCAGCCCGGCGAAGAGCGGCAGTACATCCGCCTCGCATACTCGGGCATCGACGTTGCCGACATCAACGACGGCCTCGGCCGCCTGCGCAAGTGGATCGAGACGGCATGA	MQQLAHRLERLGTETAFSVAQAAAAWKAKGNQVYPFHLGDINIPTAPHIVEAMTRAIADGYTGYCPGPGIPQLREALAEDLGARRGIEFSPDNVVVMTGGKPVITKFLQAVMNPGQEVLYPNPGFPIYESQIEYLGGTAVPYSYVPTSTGFAIDIDQVRASITPNTVAIIYNDLQNPISAESTASEREAIAQLAQEHDLWVLSDEAYFETRYEGVSSSIASLPGMAERTVILYTFSKKFAMTGSRLGCAVAPIEIAKILSTLNTNDESCTTHYVQWAGIAALRGTQEPVQQMLDILRVRRDAACELVNDIAGMHVAVPKSTFYLFPDVTEVMERMGYKAVGDFASAALYETGVSFCTREHFGRRQPGEERQYIRLAYSGIDVADINDGLGRLRKWIETA	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
D1-29_03350	960			Putative 2-hydroxyacid dehydrogenase	ATGAGCCGGGTCGTCGTCACGGGACGTATACCCGAAACCGCACTCGAGAAACTGCGCGCCGAGCACGAAGTCGATGCCTGGTCCGGTCCGGAGTCGATTGGCCGCGAGGAGCTCCTGCGCCGGGTAGCCGGCGCAGATGCCGTAGTAAGCCTGCTCACCGAACGTATCGACGCCGAGCTGCTCGATGCAGCGGGCCCGCAGCTCAAAGTGGTCGCGAACGTCGCCGTCGGCTATGACAATATCGACGTGCCCGCCTGCACGGAACGGGGCGTGGTGGCCACCAACACTCCCGGCGTGCTCACGGAGGCCACAGCCGATATCGCGCTCGGCCTCATCCTCACGGCCACCCGACGGCTCGGCGAGGGGGAACGGCTCATCCGCTCTGGCCAGGCCTGGAAGTGGGGCATGTTCTTCCTGCTCGGCAGCAGCCTGCAAGGCAAGACCCTCGGCGTCGTCGGCATGGGCGGCATCGGCCAGGCAACCGCGCGCCGCGCCAAGGCCTTCGGCATGGAGATCGTCTACCAGTCGCGCAGTGAAATCGATCCCGCCGTCGCAGCCGAGCTGGGCGCCCGCCGGGTCGAGCTCGATGAGCTGCTGGCCATCTCCGACATCGTCTCGTTGCACTGCCCCTACGGGCCCGCCACCCATCATCTGATCAGCGCCGAGCAACTCGCCGCCATGAAGGGCTCGGCGTACCTCATCAACACCGCGCGCGGACCGATTGTCGACGAAGCAGCGCTCGCGTCTGCGCTTCGCGAAGGGCAGATCGCGGGCGCCGGGCTCGACGTTTTTGAGAACGAGCCCACCGTACACCCAGGATTGCTCGAGCTCGACAATGTGGTGCTCGTGCCGCACCTCGGTTCCGCCACCGTTGAGACGCGCACGGCGATGGCGATGCTTGCCGCCGATAATGCGCTCGCCGTGCTCTGCGGGGAACGGCCGCCAGCACCGATCAAGTAG	MSRVVVTGRIPETALEKLRAEHEVDAWSGPESIGREELLRRVAGADAVVSLLTERIDAELLDAAGPQLKVVANVAVGYDNIDVPACTERGVVATNTPGVLTEATADIALGLILTATRRLGEGERLIRSGQAWKWGMFFLLGSSLQGKTLGVVGMGGIGQATARRAKAFGMEIVYQSRSEIDPAVAAELGARRVELDELLAISDIVSLHCPYGPATHHLISAEQLAAMKGSAYLINTARGPIVDEAALASALREGQIAGAGLDVFENEPTVHPGLLELDNVVLVPHLGSATVETRTAMAMLAADNALAVLCGERPPAPIK	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
D1-29_03351	1572	pntA_2	COG3288	NAD(P) transhydrogenase subunit alpha	GTGACACGTATTGGCATCGTGGCCGAATTGGGCCGTGAGACGAGGGTGGCGGCGACGCCTGTCACCGTGAAGCAGTTGCTGGGGTTGGGCTACGAGGTTGTGGTCGAGAAGGGTGCGGGTGAGTCGGCATCCTTCCGTGATGAGGCTTATGCCGAATCGGGTGCCCTGATTGTGGGCGCCGATGAGGCGTGGGGCAGCGAGGTGGTGTTGCGGATCAATCCGCCCACTGAGGATGAGATCGCCCGTCTCACTGAGGGTGCGACGCTGATCGGGTCGTTGAGCCCAGGATTGCGGCCTGAGTTGGTGGAGGCGCTGGCTTCGCGTCCGATCACGGCGCTGGCGTTGGATGCGGTGCCGCGGATCTCGCGGGCCCAGTCGATGGATGTGCTCAGTTCGATGGCGAACATTGCTGGGTACCGTGCCGTGATCGAGGCGGCTCACGAGTTCGGGCGGTTTTTCACGGGTCAGGTGACCGCTGCGGGGAAGGTCCCGCCCGCGAAGGTCCTGGTGGCGGGCGCCGGTGTTGCCGGGTTGGCGGCGATCGGTGCGGCGTCGAGTCTGGGTGCGATTGTGCGGGCGACGGACCCGCGGCCGGAGGTCGCAGACCAGGTGAAATCCATCGGTGGAACCTACCTCAAGGTCGAGGTCGCCGAAGAGATGAAGTCCTCCGACGGATATGCGAGGGCGACCTCCGAGTCGTATAACGCCCGGGCTGCGGAGATTTACTCGGAGCAGGCAGCGGATGTGGACATCATCATCACCACCGCCCTGATTCCGGGGCGCCCGGCGCCGAAGCTGCTCACGGCCGAAGATGTGGCCAGCATGAAGTCGGGCAGTGTGATCGTGGACATGGCCGCGGGCCAGGGCGGGAACGTCGAAGGCTCGGTCGCCGGGGAAAGGATCGTGACGGACAACGGGGTGGTGATCCTGGGTTACACGGATCTTCCGGCCCGTTTGCCGGCCCAGGCCTCCCAGCTGTACGGGACGAACATGGTGAACCTGCTCAAGCTCCTGACCCCGGACAAGGACGGGGTCCTGCGGATCGATTTCGACGACGTCGTGCAGAGGTCGGTGACTGTGGTGCGTGAGGGGGAGACGACGTGGCCGCCGCCCCCGGTCCAGGTCTCCGCCGCACCGGCAGCCCAGGCTCCAACCATTGTTGCAGTTGATGAGGGAGAAACCGGTGCCGCTGGCACTAAGAAGACTGGCCTCAGCCGTGCTGGCAAGGCCGGTCTTTTTGCGGCGGGTATCGCGGTGTTGTTCGGGATCAACGCTGTTGCCCCGGCGCCGTTGCCGCAGCATTTCACGGTGCTGATGCTCTCGGTCGTGGTCGGGTTCTATGTAATCGGGAAGGTCCACCACGCCCTGCATACCCCGCTGATGTCCGTGACGAACGCGATTTCCGGGATTATCGTCGTCGGCGCCCTGCTGCAGGTCACCTCCGACAACATCGTGATGCAGGTCCTCGCCGCCGTCGCGGTGCTGCTCGCCAGCATCAACATTTTCGGCGGCTTCGCCGTCACCCGGCGCATGCTCGCCATGTTCTCCCGTGGTGGGAAGGCCCGTTCATGA	MTRIGIVAELGRETRVAATPVTVKQLLGLGYEVVVEKGAGESASFRDEAYAESGALIVGADEAWGSEVVLRINPPTEDEIARLTEGATLIGSLSPGLRPELVEALASRPITALALDAVPRISRAQSMDVLSSMANIAGYRAVIEAAHEFGRFFTGQVTAAGKVPPAKVLVAGAGVAGLAAIGAASSLGAIVRATDPRPEVADQVKSIGGTYLKVEVAEEMKSSDGYARATSESYNARAAEIYSEQAADVDIIITTALIPGRPAPKLLTAEDVASMKSGSVIVDMAAGQGGNVEGSVAGERIVTDNGVVILGYTDLPARLPAQASQLYGTNMVNLLKLLTPDKDGVLRIDFDDVVQRSVTVVREGETTWPPPPVQVSAAPAAQAPTIVAVDEGETGAAGTKKTGLSRAGKAGLFAAGIAVLFGINAVAPAPLPQHFTVLMLSVVVGFYVIGKVHHALHTPLMSVTNAISGIIVVGALLQVTSDNIVMQVLAAVAVLLASINIFGGFAVTRRMLAMFSRGGKARS	PGPT0013500_342	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
D1-29_03352	1479	pntB_2	COG1282	NAD(P) transhydrogenase subunit beta	ATGAGCGCCGCCACCGAAACTGCAGCAGCAATTATTACGAGGAGCTTTACCGTGACTGACGCCGTCTCCGGTCCATTGACCGCCGACTCCATTGCGGGGGCGGCCTACATCGTCGCGGCCCTGCTGTTTATCCTCAGCCTCGCCGGGCTGAGCAAGCACGAGAAAGCCCGCGCCGGGGTCGTCTACGGCATCACGGGCATGGTCATCGCCCTCGCGGCCACGATCTGGCTGACCCTGCAGGATGCCTGGGGCACGGGCCACGCACTGACCGGACTGGGACTGCTGGTCGCAGCGGTGCTGGTCGGCGGGGCCATTGGACTTTGGCGCGCCCGGGTGGTGGAAATGACGGGCATGCCCGAGCTCATCGCCCTGCTGCACAGCTTCGTGGGCCTCGCTGCAGTGCTCGTGGGCTGGAACGGGCACCTCGAAGCCCCGGCCCTGTCCCCGGACCTGACAGCGATCCACCACGCCGAAGTCTTCATTGGCGTCTTCATCGGCGCGGTCACCTTCACCGGCTCGATCGTGGCGTTCCTGAAACTCTCGGCCCGGATGAAATCCTCACCGCTGATGCTGCCGGGTAAAAACGCGATCAACCTCGGCGCCCTCGCCGCGTTCGTGGCCCTGACCGTCTGGTACGTCAACGATTCCCAGCTTTGGCTCCTCGTCGTCGTCACCCTCCTGGCTCTGGGGCTGGGCTGGCACCTGGTCGCCTCTATCGGCGGCGGCGACATGCCCGTGGTGGTGTCCATGCTGAACAGCTACTCCGGCTGGGCCGCCGCCGCGGCGGGCTTCCTGCTGAACAATGACCTGCTGATCATCACCGGGGCCCTGGTGGGCTCCTCGGGTGCGTACCTGTCCTACATCATGTGCAAGGCCATGAACCGTTCCTTTATCTCCGTTATCGCCGGTGGCTTCGGCATCGCCGCACCCACCAGCACGGGCGACGCAGACCAGGGCGAGCACCGGGAAATCACCGCCGAAGCGACAGCGGAAATGTTGACCAACGCCTCCAGCGTCGTGATCACCCCCGGCTACGGCATGGCCGTGGCCCAGGCCCAATACCCCGTCGCCGAACTCGCCCACCAACTGCGCGAACGCGGCGTGGACGTCCGGTTCGGCATCCACCCCGTCGCCGGACGCCTCCCAGGGCACATGAACGTGCTCCTCGCCGAGGCCAAAGTCCCCTACGACATCGTCCTCGAAATGGACGAGATCAACGACGACCTCGGCGGCACCTCCGTGGTCCTGGTTATTGGTGCCAACGACACTGTCAATCCCTCCGCCGCGGAAGACCCGGGAAGTCCCATCGCCGGGATGCCCGTCCTAAGGGTCTGGGAGGCCGAGAATGTGGTGGTATTCAAACGCTCCATGGCGGCCGGCTACGCCGGCGTCCAGAACCCGCTCTTCTACCGCGACAACTCCCAAATGCTCTTCGGCGACGCCAAACAATGCGTCGAAGACATCCTCCGCGCCTTCTAA	MSAATETAAAIITRSFTVTDAVSGPLTADSIAGAAYIVAALLFILSLAGLSKHEKARAGVVYGITGMVIALAATIWLTLQDAWGTGHALTGLGLLVAAVLVGGAIGLWRARVVEMTGMPELIALLHSFVGLAAVLVGWNGHLEAPALSPDLTAIHHAEVFIGVFIGAVTFTGSIVAFLKLSARMKSSPLMLPGKNAINLGALAAFVALTVWYVNDSQLWLLVVVTLLALGLGWHLVASIGGGDMPVVVSMLNSYSGWAAAAAGFLLNNDLLIITGALVGSSGAYLSYIMCKAMNRSFISVIAGGFGIAAPTSTGDADQGEHREITAEATAEMLTNASSVVITPGYGMAVAQAQYPVAELAHQLRERGVDVRFGIHPVAGRLPGHMNVLLAEAKVPYDIVLEMDEINDDLGGTSVVLVIGANDTVNPSAAEDPGSPIAGMPVLRVWEAENVVVFKRSMAAGYAGVQNPLFYRDNSQMLFGDAKQCVEDILRAF	PGPT0013505_159	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013505-pntB-K00325	NA	NA
D1-29_03354	900			hypothetical protein	GTGATCCTGGTGGTCGCCGTTGTGCTCTGGATTGTGTGGGTTGCCCCTTACGTTCTCCGGAACCGCAGGCCCCAGTTCCAGGTTGCCGGCGAGATTCCGGCGGAAACACCAGCCACTGAATCATTGGACCCGAGAGCCGGGATGCTCATGAACATCAGCGCCCCTCAGGAGAAAGCCATGGACATCAGGAAGAGCCCCGTATCCGAACGGGACGCAACCCGAACCACGACGCCGGGTGCTTTCCGGATCCGCTACGGCAGGACGGGCCTTGCCCTCCTCGGGCTCGCGGCGCTGCTGACTGGTTTTGTTTCCGGGGCGCTGCTGCTGTTCGGGCGGGGTACGCCCCTGCTGCCGGTGTGGTGCCTGGCGGCGTTTGTGACGTCCGTTGTGGTGCTGCGGTGGCTCGCTGTCCGGGATCGGAAAGCGAAAGTCAACGCTGCCTTCTCCGCGGCCATGGCTGCACCTTCGCGCCGGCCGGAACCAGTCCCAGCTACTCCGGCCCGGCCACCGTTCCCGGCCCATCAGCCCGAAAGTCCTCTGTTTGATGCGGAAGCACACCGGCCCAAGGTCAAGCCCTTAACTGCCGTGGAGCTGCGGGAGGCTGCCCTTGCTGTGGCGGTGGCGGCAGGAGACACCAGTGTCAGGTCCACTGCTGTACCCCAGCCCGGCGAAACCTGGCAACCGGTGGATGTACCGAAGCCGGTCTACGTTGAAGCTGCAAAGGCTGAGCGGCCCGCGCCGGAGCCCCTCGACCTGCCCGAAGCCCCCAAAGCCGTCGGGAAACCGTCCCTTAAGCAGGGTGTTCCGGCTGCTCCTGCTGCCGCCCCGGCAAAGCCGCTCACAAAGGCCCAGAGTGCGCTGAGCAACCTCGATGATGTCCTGCAGCGTCGTCGGGCGTGA	MILVVAVVLWIVWVAPYVLRNRRPQFQVAGEIPAETPATESLDPRAGMLMNISAPQEKAMDIRKSPVSERDATRTTTPGAFRIRYGRTGLALLGLAALLTGFVSGALLLFGRGTPLLPVWCLAAFVTSVVVLRWLAVRDRKAKVNAAFSAAMAAPSRRPEPVPATPARPPFPAHQPESPLFDAEAHRPKVKPLTAVELREAALAVAVAAGDTSVRSTAVPQPGETWQPVDVPKPVYVEAAKAERPAPEPLDLPEAPKAVGKPSLKQGVPAAPAAAPAKPLTKAQSALSNLDDVLQRRRA				NA	NA	NA	NA	NA
D1-29_03355	618	rimJ_1	COG1670	[Ribosomal protein S5]-alanine N-acetyltransferase	ATGCGCGCCGGTCCAATCTGGCCCGTCACCCTTGAGTGCGGCGACCTGGTCCTGCGCCCGATCCGCTACCGGGACAAAAAGGAGTGGACAGCGGTCCGGGCCCGCAACAGCCAATGGCTGGCGCCATGGGAAGCCTCCAACCCCGTCCCGGGAGGAGGCCTGCCCGATTACCGGCACATGGTGCGGTCCCTCAACATCCAGGCCGCCCAGGCAACCGCCTTGCCCTTCCTGATCACTGAACGCACGCCCGGCGCCCGCTCCCCGGTTATCGTAGGCCAGCTCACGGTCTCCTCCATAGTGTGGGGATCGGCACTCATGGCCACGCTCGGCTACTGGGTTGACCAGGCCAGGGCCGGACACGGGATTGCCCCTACGGCAGTGGCGATGGCAACTGACCATTGTTTCCAAACACTGGGGCTCCACCGCATGGAGATCAATATCCGGCCGGAGAATGGCCCCAGCCTGCGTGTCGTTGAAAAGTTGGGCTTCAGGGATGAGGGGTTCCGGCCGCGGTACCTGCATATCAACGGCGAGTGGGCAGACCACCGGACGTTCGCGCTGACGTCGGAAGAAGTTCCGGACGGACTGCTTCGCCGCTGGCTGGCGTCCCGTCCGTAA	MRAGPIWPVTLECGDLVLRPIRYRDKKEWTAVRARNSQWLAPWEASNPVPGGGLPDYRHMVRSLNIQAAQATALPFLITERTPGARSPVIVGQLTVSSIVWGSALMATLGYWVDQARAGHGIAPTAVAMATDHCFQTLGLHRMEINIRPENGPSLRVVEKLGFRDEGFRPRYLHINGEWADHRTFALTSEEVPDGLLRRWLASRP				NA	NA	NA	NA	NA
D1-29_03356	906	gtaB_1	COG1210	UTP--glucose-1-phosphate uridylyltransferase	GTGACTACCACTCATCAGACAGTTCGCAAGGCCGTTATTCCCGCTGCGGGACTCGGCACCAGGTTCCTGCCTGCCACGAAGGCCATGCCGAAGGAAATGCTTCCGGTGGTGGATAAGCCCGCCATCCAGTACGTGGTTGAGGAAGCCGTCAAGGTGGGCCTTAACGACGTACTGATGATTACCGGCCGCAACAAGCGGGCGCTGGAAGACCACTTTGACCGGGTCCCGGCCCTGGAAGCCACATTGGCGGCCAAAGGCGATACCGCCAAGCTTGAGTCCATCCAGGCCGCGAGCAACCTGGGCGACATCCACTATGTCAGGCAGGGCGACCCCAACGGCCTGGGCCACGCGGTCCTGCGTGCAAGGCAGCACGTAGGCAACGAGCCATTTGCCGTCCTCCTTGGGGACGATCTGATCGATGCCCGGGACGAACTGCTCAGCACCATGATTGAGGTTCAGGCCAAGACCGGAGGGTCGGTAGTAGCCCTGATCGAGGTAGAACCGGACCAGATCAGCGCCTACGGCTGCGCCGACGTCGAGGAAATCGATGGCGAGGCCTACGTCCGGATCAAAAAACTGGTGGAGAAGCCTGATATCGATGAGGCACCCTCCAATCTTGCGGTGATCGGACGGTACGTGCTTAACCCGGCGGTCTTTGACGTGCTGGAACGCACAGGCCCGGGCCGCGGAGGCGAAATCCAGCTCACGGATGCGCTTCAGGATCTGGCAGCCGGAGACGGGGCCGGCGACGGCGTTTATGGAGTCGTCTTCCGCGGGCGGCGCTACGACACCGGTGACAAGCTCAGCTACCTCAAGGCCTGCGTCCAGCTGGCCATCGACAGCGATGACCTGGGTCCCGGTTTGCGGGAATGGCTGCCAGGCTTCACCGCCGGTCTTTCCAGGTAA	MTTTHQTVRKAVIPAAGLGTRFLPATKAMPKEMLPVVDKPAIQYVVEEAVKVGLNDVLMITGRNKRALEDHFDRVPALEATLAAKGDTAKLESIQAASNLGDIHYVRQGDPNGLGHAVLRARQHVGNEPFAVLLGDDLIDARDELLSTMIEVQAKTGGSVVALIEVEPDQISAYGCADVEEIDGEAYVRIKKLVEKPDIDEAPSNLAVIGRYVLNPAVFDVLERTGPGRGGEIQLTDALQDLAAGDGAGDGVYGVVFRGRRYDTGDKLSYLKACVQLAIDSDDLGPGLREWLPGFTAGLSR	PGPT0014875_2084	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
D1-29_03357	624	ygfA	COG0212	5-formyltetrahydrofolate cyclo-ligase	GTGCCTGGAGAGAGCAAGGAAGCAAAGGAAATCATCCGTGCACGTCACCGCCAGCGGCGGGCCCAGATGGCTCCCGGTGAGCGTGAAGCGGCTGGCGGCCGCCTGGCTGTCAACGGCCTCGAATGGGCCCAAGGAATGGCGGCAGAAGAGGCATCAACGTTTGGTGTGTACCTGGGGGTTGGCTCCGAACCGCCCACTGTGCCCCTCATCAACGCCCTCCACGGGCAGGGCCACAAGATCCTGCTCCCTGTCTGTGAACCTGACCGCCACCTGAGCTGGGTCTACTGGTCTCCCGAGGTGAACTTTGTGCGGAGCCGGTATGCCCCCATCCTGGAACCCGACGGCGTCCGGCACGGCCTTGACGTTATGGAAGGGGTGGCGGCCCTCGTCATTCCTGCCACAGCCCTGGACAAGAGCGGAAACAGGATTGGCCAAGGCGGCGGTTACTACGACGTCTTCCTGGCCTCCCTCGCTACCAGAGTTCCGCAACTGCCACTGGCAGCCATGATTTACGACGAGGAACTGCTCCCGGCAGGCACCATTCCCAGCGAGGAGTTCGACAGGAAAGTGCCGGCAGCCCTCATGCCCTCCGGCGTGGTCAGGCTGGCCGACACAGCATCCTGA	MPGESKEAKEIIRARHRQRRAQMAPGEREAAGGRLAVNGLEWAQGMAAEEASTFGVYLGVGSEPPTVPLINALHGQGHKILLPVCEPDRHLSWVYWSPEVNFVRSRYAPILEPDGVRHGLDVMEGVAALVIPATALDKSGNRIGQGGGYYDVFLASLATRVPQLPLAAMIYDEELLPAGTIPSEEFDRKVPAALMPSGVVRLADTAS	PGPT0008170_1616	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
D1-29_03358	267			hypothetical protein	GTGCCAACGTATGCCTACGCCTGCAAGGATTGCGGCCACGCCTTTGACATCGTCCAGTCATTCACGGACAGCACTCTGACGTCCTGCCCTGAGTGCCAGGGGACCTTGCGCAAGAAGTTCAACAGCGTGGGCGTTGTTTTTAAGGGCTCAGGTTTCTACCGGACGGATTCCCGGGATGCCAAGGGCAACACGGTGACGGCTGCTCCTGCGGCTCCCGCCACTCCGGCTCCTGCCCCGGCGCCTGCTCCCGCAGCCGCAGCCAGCTGA	MPTYAYACKDCGHAFDIVQSFTDSTLTSCPECQGTLRKKFNSVGVVFKGSGFYRTDSRDAKGNTVTAAPAAPATPAPAPAPAPAAAAS				NA	NA	NA	NA	NA
D1-29_03359	630			hypothetical protein	ATGGCTGCCTGGCTCAGCCGTAACCGCCGCCTGGCCGTTGCCCTCCTGCTCTGTCTTTCCGCTGGAATCGCCGTCAATCAGCTCACCCCGGCGCCTGCTGATTCCGTCACCGCACTGGCCGCCGCACGGGACCTCCCCGCGGGCATGGCATTAACACTTCCTGATCTGGAGGAAGTGCAGATACCGCCCCGGCTGGCGATTTCCGGCGCCCCGCAAAAAAGCATTGACCTTGAAGGCAAGCAACTGGCAGCGCCCCTGCGGAAGGGGCAACTGGTGGCGGACTCCCAGCTTCTGGGACCCGGCCTGCTGGCCGGGACTCCCCCGGGCTCAGCGGCCGTACCGCTGAGGATGGCGGATCCGTCGTCCATCCAGCTCGTATCTCCGGGACAGCTCGTCAATGTGGTGCTGACCGGTGCCAACGGCCATGACCAGAGATCTCCTCCGGAGGTGCTTGCGTCGGCCGTGCCGGTGCTTTGGACATCGGGACAGGGCGGCAAGACGGGCGAGTGGTTGGGTACAGGTGAGACCGACGGGCTGATCGTGGTGGCGGCAAGTCCGGACCAGGCAGCGCGGCTGGCCGGGGCCTCCACGCAGGGCAAGCTGTTCTTTGTCCTCGTGGGCGCTAACTAG	MAAWLSRNRRLAVALLLCLSAGIAVNQLTPAPADSVTALAAARDLPAGMALTLPDLEEVQIPPRLAISGAPQKSIDLEGKQLAAPLRKGQLVADSQLLGPGLLAGTPPGSAAVPLRMADPSSIQLVSPGQLVNVVLTGANGHDQRSPPEVLASAVPVLWTSGQGGKTGEWLGTGETDGLIVVAASPDQAARLAGASTQGKLFFVLVGAN	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
D1-29_03360	4200			hypothetical protein	ATGCCGGTATGGTCCAAGGCGTCACGTGCAAACGCAGAAAAGAAGGCAGTAGTGTCAGTTGGTCAAGGCCACCCCGAGGGCTCGGAGGAGCTCAGGAAATGGCTGTCCGGGCTTAAACCCGTTACCGGGGCAGACACCATGCTGCGTTTCACCAAGACCCCGGAAGGCTCCATTGACCTGACCCACGCACACCCTTCGGGCCTGGCCCAGCTGATGGCCGGCCGCAGGACACGCCTCTCCACCCTGATTCGTGACCACCAGCAATACCTGGTTGCAGCCCGGGCATCACGCAACATCCGCTCCAAGATCTTCGAGCTTGCCAATGACCGCGGCATTGACGCCGGATACCTGTCCGCAGGAACCGTCGTGTGGACCTCCGCCGTCGGAGGCAAGCCACAGCGGATTTCGGCCCCCGTGATGCTGACGGCCATTTCGTTGACTGTCCGTCCGGGCGAGGACGACTATGAACTCCAGCTCACCGAACAGGCGCACATCAACCCGGCGCTGGTCCGGCACCTGAAGAACATCCACGGCATTATCTTTGACGTCAACGCCGTGACCCGGCTGGCCTACAGCACGGCCAGGTTCGATCCCCAACCCGTCCTGGACCGGCTGGCCGCCCTGATCAGGCCCATCCACGGTGCAGAGGCGCAGCACAACCTGCTGGTGTCCACCTTTGCCGATCTCTCCGGGAACCTCGATGACCCCTGGATCAATGATGGCAGTCCGCTGGTGGCTGCCCTGGCCCGCGCCGGGGGCGGCGAAGTGGTGGACGTTGAGGAACCGGACCCCTCACGCTTTCCCAGCGTGGACAAGCGACATCCCGCCGATGAACTGCTCCTGCTGGACGCGGACTCAGACCAGCAGTACGTCATTGACGCCGCCCGCGCCGGTGAATCACTCGTGGTGAGCAGCCCCCCTGGCACAGGGCAAACGCAGACGGCCATCAACACCATCGGTGCGCTGGTGGATGCGGGCAAAACAGTGCTGGTGGTCGGCGACCGCCGGGCCAGCCTGAATGAAGTGTCCGGCCAGCTTGAATCGTTGGGCCTGGAGTCCATGCTGTTCCAGCTCTCCGGCGCGGCCACCCCGCAGCAGCTGAAGGCCCAACTGGTCCGGGCCATCATCCGGAACGAAAAATCCCTCGAACCGCAGTTGGGTAACCTTCATAAGACCCTCACGGAACATCGCCACGCACTGACGGATCACGTTGCTTCGCTGCATAACGTGCGCAAGCGATGGGGGTGCTCGCCATACCAGGCCATGCAGTCACTAGCTTCGCTGACCTCCATCCAGCCGGCCCCCGCCACCACCGTCCGCCTCAAACGAAGTGTGCTGGACAACATTCGGGACCGCAACGAGCTCGCAGGCAGGCTTCGCCGTGCCGCCGAACTTGGCAGCTTCAGCCGGGCGTCCACAACCAGCCCCTGGCACGGGGCAAGGCTGCTGACGCGCAAGGAGACCGAAGAAGCCCAGGAACTGGCCCGTTCCGTGGCGAAGAACCTGCCGCTTTTGCGGGAACGGATGAGCGGCGTTGCCGAGCACGCCGAGATCCGCCTGGGTTCATCCTTCGAAGAGTGGGGCGCGCAGCTTGAACTGCTGATGGCGGTCCGGGGAAGCCTGGACAAGTTCACACCCGACATCTTTGACCGTCCCGTGCACGATCTCATCTCTGCCACCGCATCCTCCGCCTGGCGCCGCGAGCGGAACATCGACATGGCCTCCATGCAGCGGTCACGTCTCCGCCGTGTAGCCAAGGAGTACGTCCGCCCCGGTGTGCATATCGCCGATCTGCACAGTTCCCTGGTGCTTGTCCAGGAGCAGCGGGCTCTGTGGTCCGGCTACGCAACCACTCAGCGCCATCCGGCCGTACCCTCCGGCCTCGCGGAGATGAACGTGATGTACCGGTCCCTGGACCGGGAGCTCACACAGCTGGGGGAGGCTCTGCGGTACACCGAAGCGGGCGGATCCCTGGCCACTTCGCCCTATCCGGAACTGATGGAACGCCTCGAGCGGCTGGTCGCGGACACCCATACCCTGAAAACTCTGCCCGAACGCACCTTGCTTGTGGAAAACATGCGCGAGCACGGGTTGGGGGAACTCCTTGCTGACCTCGCTGAGCGCGAGGTCCCTGCGGATTCGGTGGCGGCCGAACTCGAGCTGGCATGGTGGCAGTCCGCCCTCGAAGCGATGATCAGCGGGGACGATTACCTCGCGATGTCCGACGGCGACGCCCTGCGGCAGCTCGAAGCCGAATACCGGCTGGCAGACAACGCCCATATCGCAAGCGGCGCAGCACGCTTGCGGTGGGATCTTTCCGAGAGGTGGCGCGCAGCCATCGGCCAGCACCCGCGCCAGGCGGACCTCCTCCGCAGCCTGCTGAAGGACGGCAGGGTTTCCCTTGCGGCGCTGACGGCCCAGGCCCCGGAACTCGTCCCCATGCTTGTGCCGGTCTGGTCCGTGAGCCCCTACCTGATGACGGGTCTCCTTCCGGCCGAAAAGCGCTTTGATGCCGTGGTCATCCTGGACGCCGAAGCGACCTCGCTGCAGGCAGTCCTGCCATCCATCGCCCGTGCCCAACAGGTCATAGCATTTGGGGACTCCAAAATTGCCAGCCCCCGCACCTTCACTGTCGGCGTCGAGCGCCTGGCTGTCGGTGAATCGGCGCATCAGCGTGTGGACAGCGCCTTTTCCGCGCTGTCCTCCGTCCTCCCTGTCTGGCGGTTAAACTTTGTCTACCGGGCGGTGGATGAGGACCTGGTGCTGCAGCTCAGCAAGAACTTTTACGACGGCGGCCTGCGCCGGCTGCCGGAGGGCCAGTCAGCAACGGGGCTGGACCGGGCGTTGCTGGTTGAATACCTGCCGGACGGAACAGGCCTGCCCAGCGCCGATCACGAGGGTGTGGAATCCGTGGTGGCGGAAGTCAACCGTGTGGTCCAGCTGGTCTTTGAACATGCCCGGCAACGTCCGCGGACCTCGCTTGCTGTGGTAACCGCCAGCCTTCGGCATGCTGCCCGGATCGGTGAGTCCATCCGGCTTCAGCTGCCCAACCATCCTGGACTGGCGGGGTTCTTTAGCGCGGGGCCTGAGTCGTTCCGTGTGGTGGACCTTGAGCGGGCCCAGGGCCTGGTCAGGGATCACGTGATATTTTCGCCCGGCTTCGGACGCACTCCGCATGGCCGTGCCCTGCACAACTTTGGCCCCCTTTCCGCTGAGGGCGGGAGGGAGAAGTTCGCGCTGGCGATGTCCCGTGCACGCAGATCCCTGCACGTACTGACCTGCTTCCGCCCGGAGGACCTGGATCACACCCGCCTGGCCCACGGCGCCGTGGACCTCTATGAACTGCTGGACCGGGAGATTTCGGGCAACACCAACCTTGGTACTCCGGCATCCCGCGCGGCTGCCAGTGAACAGGCGCTCGGAGCAGACCCCCTGGTGGCTGACCTGGGGGACCGGCTCCGCGCCCGTGGAGCCCGCGTCTGGCACCAGTACGACGGCGTTATCGACGTTGTTGCTGCGGCGGACCCCCTGAGCACCATGGGGCAGGACGACGCCGAGATTCCCCGCCCCGTGGCCATCGAGTCGGACGGCACCGAGCAGTACCGGACCATGAGCGTCCGCGAGCGGAGCAGGCTCCGTCCGCAGTTGCTTGAACGTCTGGGCTGGCGGTACATGCCCTTGTGGACCATTGAAGTATTCACCGACCCTTCAGCCTGCGCCGACCGCATTGCCGGCTACCTGGGCCTTGAGAACGTTGTGTTGCCCGGACGGGCCACGGCGTCTGCCGGTTTCTTTGACGACGACGTGGACCCGCTGACCCTCGCTGGCCTAGAAAACCAGGGCCAGGACCGGCAACGGGACTACGCCGGGGACCAGGAACCCGAACGCGGTTACGCGGAGGACCGGGAGCAGGAACCCGGCTACGCTGAAGTTCATGATCCGGTAGGGGGGAACCACCACAACCACAGCCGGACCGGAGCCCGGGAGGGCCAGGAGGCGACAGGCATGACCACAAACAACCCTGCCAAGGGGCCGGCTGGCAACGAAAGCCCTGCCGAAGATCAGCCTGGGGAGAAAAGCGGAACGGCCGCAATTCTTCCCAACAAGGCTTCCGAAGATGACCCGCGGCGCTGGGGCGACGGGCCCGATGATGACCATGATGCCTGGCTGAAGGAACAGAAGCCCCCTCACTGGGGGTAA	MPVWSKASRANAEKKAVVSVGQGHPEGSEELRKWLSGLKPVTGADTMLRFTKTPEGSIDLTHAHPSGLAQLMAGRRTRLSTLIRDHQQYLVAARASRNIRSKIFELANDRGIDAGYLSAGTVVWTSAVGGKPQRISAPVMLTAISLTVRPGEDDYELQLTEQAHINPALVRHLKNIHGIIFDVNAVTRLAYSTARFDPQPVLDRLAALIRPIHGAEAQHNLLVSTFADLSGNLDDPWINDGSPLVAALARAGGGEVVDVEEPDPSRFPSVDKRHPADELLLLDADSDQQYVIDAARAGESLVVSSPPGTGQTQTAINTIGALVDAGKTVLVVGDRRASLNEVSGQLESLGLESMLFQLSGAATPQQLKAQLVRAIIRNEKSLEPQLGNLHKTLTEHRHALTDHVASLHNVRKRWGCSPYQAMQSLASLTSIQPAPATTVRLKRSVLDNIRDRNELAGRLRRAAELGSFSRASTTSPWHGARLLTRKETEEAQELARSVAKNLPLLRERMSGVAEHAEIRLGSSFEEWGAQLELLMAVRGSLDKFTPDIFDRPVHDLISATASSAWRRERNIDMASMQRSRLRRVAKEYVRPGVHIADLHSSLVLVQEQRALWSGYATTQRHPAVPSGLAEMNVMYRSLDRELTQLGEALRYTEAGGSLATSPYPELMERLERLVADTHTLKTLPERTLLVENMREHGLGELLADLAEREVPADSVAAELELAWWQSALEAMISGDDYLAMSDGDALRQLEAEYRLADNAHIASGAARLRWDLSERWRAAIGQHPRQADLLRSLLKDGRVSLAALTAQAPELVPMLVPVWSVSPYLMTGLLPAEKRFDAVVILDAEATSLQAVLPSIARAQQVIAFGDSKIASPRTFTVGVERLAVGESAHQRVDSAFSALSSVLPVWRLNFVYRAVDEDLVLQLSKNFYDGGLRRLPEGQSATGLDRALLVEYLPDGTGLPSADHEGVESVVAEVNRVVQLVFEHARQRPRTSLAVVTASLRHAARIGESIRLQLPNHPGLAGFFSAGPESFRVVDLERAQGLVRDHVIFSPGFGRTPHGRALHNFGPLSAEGGREKFALAMSRARRSLHVLTCFRPEDLDHTRLAHGAVDLYELLDREISGNTNLGTPASRAAASEQALGADPLVADLGDRLRARGARVWHQYDGVIDVVAAADPLSTMGQDDAEIPRPVAIESDGTEQYRTMSVRERSRLRPQLLERLGWRYMPLWTIEVFTDPSACADRIAGYLGLENVVLPGRATASAGFFDDDVDPLTLAGLENQGQDRQRDYAGDQEPERGYAEDREQEPGYAEVHDPVGGNHHNHSRTGAREGQEATGMTTNNPAKGPAGNESPAEDQPGEKSGTAAILPNKASEDDPRRWGDGPDDDHDAWLKEQKPPHWG				NA	NA	NA	NA	NA
D1-29_03361	1590	guaA	COG0518	GMP synthase [glutamine-hydrolyzing]	GTGACTACTCCCACTGCATCCCAAACTTCCCAGAAGCCGGTGCTGGTTGTTGACTACGGTGCCCAGTACGCGCAGCTGATTGCCCGCCGCGTCCGGGAAGCGAACGTGTATTCGGAAGTGGTTCCGCATACCTACAGCACCGAGCAGCTCCTGGCCAGGAACCCCGCCGCCATCATCCTTTCCGGCGGCCCGTCCAGCGTCTACGCTGACGGTGCACCCTCCGTCGGGGCCGACCTCTTTGAAGCCGGGATCCCGGTCTTCGGCATCTGCTACGGCTTCCAGGCCATGGCCAATGCCCTGGGCGGGAAAGTGGACAAGACCGGCCTGCGCGAGTACGGCTCTACCCAGACCACCATCCTCGGCGAGGGCCGTTCTGTGCTCGAGGGGATGCCGCAGCACCAGAACACGTGGATGAGCCACGGCGACTCAGTCCACGAGGCCCCCGAAGGCTTCGAGGTGCTGGCCACCACCGCCGGCGCTGAAGTTGCCGCCTTCGCCAATGAAGAGAAGTGCCTGTACGGCGTGCAGTGGCATCCCGAGGTGAAGCACTCCGCCTACGGCCAGCAGGTCCTGGAAAACTTCCTGTTCAAGGGCGCCAAGCTGGAACCGAACTGGACCACCGGCAACATCCTTGAGGAGCAGGTGGAACGCATCCGCCAGCAGGTGGGCGATGCGAAGGTCATCTGTGGCCTGTCCGGCGGCGTTGATTCCGCCGTCGCAGCAGCACTTGTCCAGCGCGCCGTCGGCGATCAGCTGACCTGTGTGTTCGTGGACCACGGGCTGCTGCGTGAAGGCGAGGCCGAGCAGGTGGAGCGCGACTTCGTCGCCGCCACCGGTGTCAAGCTTTACGTCGCCAACGAGCAGGAGCGGTTCCAGGCCGCCCTGGCCGGGGTCAGCGATCCCGAAACGAAACGCAAGATCATCGGCCGCGAATTCATCCGCGCGTTCGAGGAAGCCGAACTCGCCATCATCGCCGAGGCAGCCGCCCATGGCGAAAAGATCAAGTTCCTGGTCCAGGGCACCCTGTACCCGGACGTCGTCGAGTCCGGCGGCGGCGAAGGCGCTGCCAACATCAAGAGCCACCACAACGTGGGCGGGCTTCCCGAGGACCTGCAGTTTGAACTTGTGGAGCCGCTGCGCGCGCTCTTCAAGGACGAAGTCCGTGCCGTGGGCGCCCAGCTGGGACTGCCTCAGGAAATCGTGGGCCGCCAGCCGTTCCCCGGCCCCGGCCTCGGCATCCGCATCGTCGGCGAGGTCACCAAGGAACGCCTGGACCTGCTGCGCAAGGCGGACGCCATTGCCCGCGCCGAGCTCACCGCCGCCGGCCTGGACAACGATGTATGGCAGATGCCGGTTGTCCTGCTGGCCGACGTCCGCAGCGTTGGCGTTATGGGCGACGGACGCACGTACGGCCACCCGATCGTCCTCCGTCCGGTTTCCTCCGAAGACGCCATGACCGCGGACTGGTCACGGCTGCCCTACGATCTCCTGGCCCGGATCTCCAACCGGATCACCAACGAGGTGGAGGGTGTCAACAGGGTGGTCCTGGACGTCACGAGCAAGCCGCCTGGAACCATTGAATGGGAATAG	MTTPTASQTSQKPVLVVDYGAQYAQLIARRVREANVYSEVVPHTYSTEQLLARNPAAIILSGGPSSVYADGAPSVGADLFEAGIPVFGICYGFQAMANALGGKVDKTGLREYGSTQTTILGEGRSVLEGMPQHQNTWMSHGDSVHEAPEGFEVLATTAGAEVAAFANEEKCLYGVQWHPEVKHSAYGQQVLENFLFKGAKLEPNWTTGNILEEQVERIRQQVGDAKVICGLSGGVDSAVAAALVQRAVGDQLTCVFVDHGLLREGEAEQVERDFVAATGVKLYVANEQERFQAALAGVSDPETKRKIIGREFIRAFEEAELAIIAEAAAHGEKIKFLVQGTLYPDVVESGGGEGAANIKSHHNVGGLPEDLQFELVEPLRALFKDEVRAVGAQLGLPQEIVGRQPFPGPGLGIRIVGEVTKERLDLLRKADAIARAELTAAGLDNDVWQMPVVLLADVRSVGVMGDGRTYGHPIVLRPVSSEDAMTADWSRLPYDLLARISNRITNEVEGVNRVVLDVTSKPPGTIEWE	PGPT0021580_1226	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
D1-29_03362	552			hypothetical protein	ATGATTGAACCCAAACCGGCCAGGCAGGCACAGCCGTCCGAAGGAACCAGCAGCGGCCAGAACAGCAGTGGCCAGAACGGCGGCGCAGCCGGGAAAACCGGCAGGAAGCGCCGCTTCGGCGGTACCGAACCGCAGATCCGCTCCGCACTGAAGTTCTACAAGGTGCTGGCGTACCTCACGGGTGCCATGCTCCTGCTGCTCTGTGCCGAGCTCATTGCCCGCTATGCGTTCGGCCAGTACCTGTTTGCCGGGGGAACCAATGCCGTGACGGGGGAGCCGTTTGGCCTGGGTTTTGCGGACGCCGAGCCCAAGGGTGTGGTGGGCGGTGTCAACATCTCCGTCACCGTGCTGATCGTCCACGGCTGGATGTACGTGGTGTACCTGATGTCCAACTTCCGCCTCTGGTCGCTGATGCGCTGGCCGTTCGCCAAGCTCATCCTGCTGGCCCTGGGCGGTGTTGTTCCCTTCCTGTCCTTCATCGTGGAGAAGAAGTTCCACGCCGAGGTCGAGGCGGAACTCGCGGACAACCCGCAGGCGCCACAGCGGTACTAG	MIEPKPARQAQPSEGTSSGQNSSGQNGGAAGKTGRKRRFGGTEPQIRSALKFYKVLAYLTGAMLLLLCAELIARYAFGQYLFAGGTNAVTGEPFGLGFADAEPKGVVGGVNISVTVLIVHGWMYVVYLMSNFRLWSLMRWPFAKLILLALGGVVPFLSFIVEKKFHAEVEAELADNPQAPQRY				NA	NA	NA	NA	NA
D1-29_03363	840			hypothetical protein	GTGTGGAAAACTGCCCTTAAGCCCCGATGGATCGCCGGCCTGATCTTCGCGATCGCCGTTTCCGGGGTGTTCGTCCTGCTGAGCCAATGGCAGTTCGGACGATCCACGCAGCCGGAAGTCCCCGTCAACCCTGCCACGGAGAACGCGAAGGCCCTCACGGAGACGCTTCAGCCGGGTACTTTCTTCCACGGCTCGGTGGCGGACCAGATGGTCACGGCAGTAGGAACCTACGATCCGGCCAAACAGGTCCTGGTTCCCGGGCGGCTGTACAACGGGGAACCCGGCTATTGGGTGGTGTCGGCCTTCGCCGTCAACGGCGCCCCCGCACTGACCGGGGTAGCCGCTTCCCCGCAGACCTGGATCCCGGTTGCCCGGGGATGGGTGGCGGATCCGGCGGACGCCGCGGCGCCGCCGTCGGGAACCCTGGAACTGACCGGACGGCTGCTGCCCTCCGAAGCGCCACTGCCGGAAACAGCCCCCGGTCCCGGGCGGGCCACCGCCGTATCGGTGGCCGAACTCATCAATTACTGGGACGTCAGCAGCTATCCCGGTTTTGTCGCCGCGACGGCGGAAATCGCCAACGGCTCGGACGTCAGTCCGGCGGCGGTACCAGGGCCGCTCAAGCCCCTGCGCATCGGGCCGCAGCCGCCGGCCCAGCAGATCAACTGGCTCAACCTCTTCTACTCCCTGGAGTGGGTTGTCTTTGCCGGCTTCGCCATCTTCATCTGGTGGCGTTTGGTCAAAGATGACCACCGCCGGGATCTCGAAGACGAATTCGACGACGGCCACCACCATTCGCCAGCATCTTCTGATCAGCCCCAACAAAAGGTACAGCCATGA	MWKTALKPRWIAGLIFAIAVSGVFVLLSQWQFGRSTQPEVPVNPATENAKALTETLQPGTFFHGSVADQMVTAVGTYDPAKQVLVPGRLYNGEPGYWVVSAFAVNGAPALTGVAASPQTWIPVARGWVADPADAAAPPSGTLELTGRLLPSEAPLPETAPGPGRATAVSVAELINYWDVSSYPGFVAATAEIANGSDVSPAAVPGPLKPLRIGPQPPAQQINWLNLFYSLEWVVFAGFAIFIWWRLVKDDHRRDLEDEFDDGHHHSPASSDQPQQKVQP				NA	NA	NA	NA	NA
D1-29_03364	489	fruA_2	COG1299	PTS system fructose-specific EIIABC component	TTGGCGGAACCACTTGACCGGTACGATGCCGAACTCACCACGCCGGACATGGTGATCCTGGAGCTGGAGGCAACGGACAAGGAAGACGCTGCCTCACAGCTTGCGGAGCGGCTTTTTTCCGCCGGCCGAGTCACCGACCTTCCGGGGTTCCTCCAGCATGTGAACGCCCGGGAACACCAGCTGGCCACGGGCCTGCCGGGCGGCGTCGGTCTCCCGCACGCCCGGAGCGAATTCGTGTCCCGCACCTCAATCGCCGTAGGCATCACCAAATACGGCCACGCCCTGGATTTCGGAGCGACGGACGGTCCCGCAACCGTCATCCTCCTGATCGCCACGCCGGCCAGCTCATTCTCTGACCACCTGGAAGTCCTGGCCACGCTGGCGCGCTCGCTCTCAAAAGAGTCTTTCCGGGAGTCATTGCGGCGTGCCTACGATCCCGAGGTGATCGCTGAACTCATCAACTCCAGCCTGGTGTTCTTTGACCACTGA	MAEPLDRYDAELTTPDMVILELEATDKEDAASQLAERLFSAGRVTDLPGFLQHVNAREHQLATGLPGGVGLPHARSEFVSRTSIAVGITKYGHALDFGATDGPATVILLIATPASSFSDHLEVLATLARSLSKESFRESLRRAYDPEVIAELINSSLVFFDH	PGPT0017130_54	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
D1-29_03365	1740	glpD2	COG0578	Glycerol-3-phosphate dehydrogenase 2	ATGAAGAGTGTTCCCAACAACAACGGAGCCCTGGGACCCGCAGCCAGGGAAGCATCGATCGAACAGCTCAGGGCAACCTCCCAGCCCGGCCGCGAACTGGACATCCTGATCGTGGGTGGCGGGATCGTTGGCACGGGCGCCGCCCTGGACGCCGTAACCCGGGGCCTCACAGTAGGCATCGTGGAGGCCAATGACTGGGCAGCAGGTACGTCCTCCCGGTCTTCGAAGCTGATCCACGGGGGCCTGCGCTACCTCGAAATGCTGGACTTCGCCCTGGTCAAGGAAGCGCTTCACGAACGTGGCCTGCTGTTGACCGAGCTCGCACCGCACCTCGCCCGTCCAGTCCCGTTCCTGTACCCGCTGACCAGGCCCTTTTTGGAACGGCCCTACGTGGGTGCCGGCATCGCACTGTACGACGCCATGTCTATTTCCGGCGGCCACAGCCGGGGCGTTCCGTTCCACAAGCACCTCACGCGGCGCGGCACGCTCAGGGCTGCCCCCAGCCTCAAAGATGATGCGTTCGTCGGTTCCATCCGCTACTACGACGGCCAGGTCGACGACGCCAAATACGTGGCCAACCTGATCCGGACCGCCGCCCATTACGGCGCCCATGCCGTGAATCAGATGGCTGTGGTGGATTTCCTGCGTGAAGGCGAACGCGTCGTTGGGGCCAAGGTGGTCAACCACGAAGACAACTCACAGTTCAACGTCCGCGCCAAACAGGTTATCAATGCCACGGGCGTATGGACCGATGAGACCCAGGCCATGGTGACTGAACGCGGACAGCTTAAGGTCCGGGCCTCCAAGGGCATCCATCTGGTGGTTCCCCGCGACCGCTTCCAGTCCACCGTGGGGCTGATCCTGCGAACGGAGAAGTCCGTGCTTTTTGTCATCCCCTGGGGGCGGCACTGGATCATCGGCACCACGGACACGGACTGGAACCTGGACAAGGCCCATCCGGCGGCCTCCAGCAAGGACATCGACTACATCCTGGAACATGTCAACCGGGTACTGAAACGGCCGCTGACCCGGGAGGACGTTGAAGGCGTCTATGCCGGGCTCCGCCCCCTGCTGGCAGGGGAAAACGACACGACGGCCAAGCTGTCCCGCGAACACATCGTGGCCCACCCCGTGCCCGGGCTTGTTGTGGTGGCCGGCGGCAAATGGACCACCTACCGGGTGATGGCCAAAGACGCGGTTGACGAGGCCACCCGCACCATGGATGAGCGCGTCCCGCCCAGCTGCACCGAAACTATTCCGCTCCTGGGAGCCAACGGTTTCAAAGCCGCCTGGAACCGCAGGAACCGTACGGCCGAGGAATCCGGGGTGCACGTTGCCCGCGTGGAGCACCTGCTAAACCGGTACGGATCCATGACCCCCGAGGTGCTGGCCATCATCGAGGCAAACCCTGTCCTGGCTGAGCCGCTTCCCGGCGCTGACGACTACCTGCAGGCGGAAGCTGTGTACGCCGCCACCCATGAGGGAGCCCGCCATGTCCATGATGTCCTGACACGCAGGACCAGGATTTCCATTGAGTCCTGGGACCGCGGTGTTTCAGCCGTTCCGGTAGTCGCTAAACTGATGGGCGAAGTCCTTGGCTGGAGCGATGCGCAGCGTGAAAACGAAATCAAGAACTATATTGCACGGGTTGAAGCCGAACGCCTGAGCCAGCAGCAGCCGGACGATATTTCCGCCGACGCCGCCCGCCTGGGTGTGGAGGACATCGTTCCGTTGCGCTGA	MKSVPNNNGALGPAAREASIEQLRATSQPGRELDILIVGGGIVGTGAALDAVTRGLTVGIVEANDWAAGTSSRSSKLIHGGLRYLEMLDFALVKEALHERGLLLTELAPHLARPVPFLYPLTRPFLERPYVGAGIALYDAMSISGGHSRGVPFHKHLTRRGTLRAAPSLKDDAFVGSIRYYDGQVDDAKYVANLIRTAAHYGAHAVNQMAVVDFLREGERVVGAKVVNHEDNSQFNVRAKQVINATGVWTDETQAMVTERGQLKVRASKGIHLVVPRDRFQSTVGLILRTEKSVLFVIPWGRHWIIGTTDTDWNLDKAHPAASSKDIDYILEHVNRVLKRPLTREDVEGVYAGLRPLLAGENDTTAKLSREHIVAHPVPGLVVVAGGKWTTYRVMAKDAVDEATRTMDERVPPSCTETIPLLGANGFKAAWNRRNRTAEESGVHVARVEHLLNRYGSMTPEVLAIIEANPVLAEPLPGADDYLQAEAVYAATHEGARHVHDVLTRRTRISIESWDRGVSAVPVVAKLMGEVLGWSDAQRENEIKNYIARVEAERLSQQQPDDISADAARLGVEDIVPLR	PGPT0006775_1053	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
D1-29_03366	1137		COG0516	putative oxidoreductase/MSMEI_1564	GTGACTTACGAGATTGAGATCGGCCGTGGCAAGCGTGGGCGTCGTGCCTACTCCCTGGATGACATTGCGATTGTCCCTAACCGTCGTACCCGCGATCCCAAGGACGTTTCCGTCTCGTGGCAGATCGATGCCTACAAGTTCGATATGCCGGTCATCGCCGCCCCCATGGACTCAGCCATGTCGCCGCAAACAGCCATCGCCCTTGGCCGGCTGGGCGGACTGGGCGTGCTGGACCTTGAGGGCCTGTGGACCCGCTACGAGGACCCGCAGCCGGTCCTGGATGAGATCGGCGCCCTGGAGGACGAGACCAACAGCCCCGCTGTGACGGGTCGGATGCAGGAGCTTTACCGCGCCCCCATCCAGCCTGAGCTCATCACCTCGCGCCTCGCTGAGATGAGGGCTGCAGGGGTGACGGTGGCGGGATCACTGACCCCGCAGCGCACCCAGGAGCACTACAAGACAGTAGTGGCTGCCGGCGTCGACATCTTTGTGATCCGCGGAACCACCGTCTCTGCCGAGCACGTTTCAAAGGACCACGAACCCCTGAACCTGAAGCAGTTCATCTATGAGCTGGACGTTCCGGTAATTGTGGGCGGCGCAGCCGGCTACACACCGGCGCTGCACCTCATGCGGACCGGCGCGGCCGGAGTCCTGGTGGGCTTCGGCGGGGGAGCCACCAGCACCACACGGCGGGCCCTGGGTATCCATTCGCCCATGGCCTCCGCCATCTCCGATGTCGCGGCCGCCCGCCGCGACTACATGGATGAGTCCGGCGGGCGCTACGTCCACGTGATCGCCGACGGCGGAATGGGCAGCTCCGGCGCGATCGTCAAGGCCATCGCCATGGGCGCCGACGCCGTGATGCTGGGCAGCGCACTGGCCCGGGCAGAAGAGGCTCCGGGCAAGGGCTGGCACTGGGGCCAGGAAGCCCACCACCTCGAACTCCCGCGCGGGGACCGGGCGAACGTAGGCACCGTGGGCCCCCTCGAGGAGGTTCTCTTCGGGCCCGGCCACCACACCAACGGAACCTCCAACCTGATCGGTGCGCTGCGCCGTTCCATGGCCACCACCGGCTATTCGGACCTGAAGGAATTCCAGCGGGTCGACGTCGTGGTGTCCCCGTACGCCGGCAACTGA	MTYEIEIGRGKRGRRAYSLDDIAIVPNRRTRDPKDVSVSWQIDAYKFDMPVIAAPMDSAMSPQTAIALGRLGGLGVLDLEGLWTRYEDPQPVLDEIGALEDETNSPAVTGRMQELYRAPIQPELITSRLAEMRAAGVTVAGSLTPQRTQEHYKTVVAAGVDIFVIRGTTVSAEHVSKDHEPLNLKQFIYELDVPVIVGGAAGYTPALHLMRTGAAGVLVGFGGGATSTTRRALGIHSPMASAISDVAAARRDYMDESGGRYVHVIADGGMGSSGAIVKAIAMGADAVMLGSALARAEEAPGKGWHWGQEAHHLELPRGDRANVGTVGPLEEVLFGPGHHTNGTSNLIGALRRSMATTGYSDLKEFQRVDVVVSPYAGN	PGPT0021445_6234	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
D1-29_03367	891			hypothetical protein	ATGGCGCCAGGCCTCTACGGTGCGGACATCGAGCAGCTCCGAACACTATCGAAAACCATGGGTCAGTCCGGGTCGCGTCTAAAGACGGTGGAATCCACGGTGAACTCGCTGGTGCAGTCCGCTGCCTGGAAAGGCGCGGACGGGGACAGATTCCGCAGCGAATGGACCTCGTCCCTGCGTCCGATGCTCAGCAGGACCTCCGAGTCACTGGAAAGCCAGTCCCAATTGCTGCTAAAGCACGCGGACGAGCAGGACCAGGCCAGCAACTCGGGCAGGGGCGCCGCGTCCTCCCCCGCCCCGTCCGGCGCCGGCGATCCGGGCAACGGCTCCGGGCCCGAGCGGAACTGGGGCGATGCCTTCACCGATCCAGACTACGAGCACGCGCCCGGCGGCATCCAGTGGCTCCTGGAGAAGGCTGGTGTCAACGATGGCAGCGCGGCATCAAGCATCGCCAACGCCCTCAAATTCGCTGCCGACAAATTCAGCTGGAACCTCGAACTTGCCCAGGTAGAGGCGGGCGTCAGCAAGTTCTTTGGTTTTATGGGTCACGCCGGCAAGGTTCTCGGCGTGTTGGGAGGCGCCATCGGCGTCCTGGATGTGCTCTCGGGGATTGACAACAAGGACCCCTTTAGAATTGCCGACGGCGTCATTGGCGGCGGCCTGTCCGTGGCTGCGGTTCTGGCCACGGGAACCATCGTAGGAGCGCCTGCCGGCGTCGTGCTGGGTGGGCTTGCCCTCGGCTGGGGACTTCTGGGCATGATGTCAGGCGATGTCCCCGTCACGAAGAGAATCTGGGACTTCGGGGCAGGTGTTGTGGGCGGCGTCAAGGATCTTTCGGACGGCGCCGGGGATGCCTTGGGCTGGGTGGGCGGCAAGCTCGGATTCGGCTGA	MAPGLYGADIEQLRTLSKTMGQSGSRLKTVESTVNSLVQSAAWKGADGDRFRSEWTSSLRPMLSRTSESLESQSQLLLKHADEQDQASNSGRGAASSPAPSGAGDPGNGSGPERNWGDAFTDPDYEHAPGGIQWLLEKAGVNDGSAASSIANALKFAADKFSWNLELAQVEAGVSKFFGFMGHAGKVLGVLGGAIGVLDVLSGIDNKDPFRIADGVIGGGLSVAAVLATGTIVGAPAGVVLGGLALGWGLLGMMSGDVPVTKRIWDFGAGVVGGVKDLSDGAGDALGWVGGKLGFG				NA	NA	NA	NA	NA
D1-29_03368	684			hypothetical protein	ATGACTGAAGCCACCACCCTGACCGGTAATGAACCCGACGCAGCCATGCCCGCCGCGGCCTATCGGATGACGAGCCACGAGATACTGGCACTGCTGGCTTTCCAACCGGGACCCGGAACAGCCCTGACGCGTCAGGTGCTGGGTCTCGCCGAACTCCCGGACGATGACGATCTGGTGCGGGCTGGCGTCGGCACGTTGAACATCAGGGACACCGTGGAAGTCAACGGCGAAGAAGTAACGCTGTTGGCCCAGGCGAGAATACTCGCCAGGATTTTCAGCACCTCTTCAGAGTGGTACGACATCACCCGGATCGGCTCCGAGGCTGTCTCCCCCAGCTATTTGGTGGACTCCCCTGCCGGACGCGCTGCCATCTTCCTTAGGCCCCTGAGCGAGTACGTGTGCCTCCCACTCCGCGATGACGTGAACCTGCTCGACTTTGTGCAGCTCACAGTTGATGAAGCCGTGGCGGCTTTGGGCACGGAAGGTGGGGGGATAGTCAGCGCCCGGCGATACCGTGTCGAAGCGGACAAGCCAGTGGTCGCAAACATTAAGGTCCGTGACGCAGGCTCCCTGCAACTTGCATCGGCCCCCTTGGATGACGACGGACAACTGGGTGTGCGCGACCTGGCCGCCGGTGAGCAACCGGGCCTGACAGTCCGTACCCTGTTGGCTGCCGCATCGTGA	MTEATTLTGNEPDAAMPAAAYRMTSHEILALLAFQPGPGTALTRQVLGLAELPDDDDLVRAGVGTLNIRDTVEVNGEEVTLLAQARILARIFSTSSEWYDITRIGSEAVSPSYLVDSPAGRAAIFLRPLSEYVCLPLRDDVNLLDFVQLTVDEAVAALGTEGGGIVSARRYRVEADKPVVANIKVRDAGSLQLASAPLDDDGQLGVRDLAAGEQPGLTVRTLLAAAS				NA	NA	NA	NA	NA
D1-29_03369	414			hypothetical protein	ATGATCTTCGCCATCCCCGGCGTGGCGCAGGCAGCCACTTTGGCGGCGACTGATCAGAGTCCGGAGGACGGCTTGGTGCTGACAGGACTTGGGCTGCTGATATCCGCAGTCGGCTGGCTGGCAGCCATAGCACCGAGGTTTACACGCGCAGCTCCAAGCCCCGCAGGTGACGTCGCCCGCACGGCACGCTACGTCCGGTTGGCACCTGGCGTGTTCATTAGCGTGGTGGCCGCCATGCTGGTGATCGTGGTGATTTTTATGGCCGTGACCCCAAGGGGAACATCGCCGGAGGTCCTGCCAATCATGGCGTTCCTGGCTGCTTTTCCGCTCCCCATTGGGGCTGGAATGCTCTACTCCAGGCACCTTCACCTGAACCGGGACCGCCTGTACGCTCAGTGGCTTGGACGCCGCTAG	MIFAIPGVAQAATLAATDQSPEDGLVLTGLGLLISAVGWLAAIAPRFTRAAPSPAGDVARTARYVRLAPGVFISVVAAMLVIVVIFMAVTPRGTSPEVLPIMAFLAAFPLPIGAGMLYSRHLHLNRDRLYAQWLGRR				NA	NA	NA	NA	NA
D1-29_03370	648			hypothetical protein	ATGACGGTTCCAATTCCTTTCCCCGCGGTCCAGCCCGCGCATCCTCTCGATTACTGGCTCTCCCCGGAACTGGCACGGATCAGTCCGCCGAATGCCCCTTCCCGGTTGCGGCAACTGGCCGACGCCCAAGGCGCCTTGGCTGCCGCCTGGGGCAGCGCGATCGGTGGCGGACCTGTACTGGTTCTGGCTGGCGGCATCGTCTCCGTCATGTCAGTCAACCCTGCCGGGGTCCTCGTCCTCGGCCTGCTGGGCCTTGCCCTATCCCTGCTGGGCCTGTTTTTCTGGACGCGGGTCCGTAGCACATTGCCGAACACAGACAGGCTCCTGATCAGCCGTGGCCCGGGATCGGCCCGCGGCGGCATCACGATGGTGGCCGGACTGGCCATCGTCATAGGTGCGATCCTGGCCTCGACCTTGCCCGGGATTGCTGCCCGGGGAGCCGCCACTCTCATCGCGGTGATCGGCGCCTATCTGCTCATCGTGATGCTCCTGCTGGCCTGCATCCTCGTTCCTTCGGTGGTCATGGGCCGTGCCCGGCAGTCCTTCAGACGAAGGGTCCGGTCCGATCCGGTTCTCCGGGCGGCGGTGGAAGAGGATCTGGCCACGTGGCGGGCCCCCTACGGGAACGCGGCTTATGGCCCGCTCTGA	MTVPIPFPAVQPAHPLDYWLSPELARISPPNAPSRLRQLADAQGALAAAWGSAIGGGPVLVLAGGIVSVMSVNPAGVLVLGLLGLALSLLGLFFWTRVRSTLPNTDRLLISRGPGSARGGITMVAGLAIVIGAILASTLPGIAARGAATLIAVIGAYLLIVMLLLACILVPSVVMGRARQSFRRRVRSDPVLRAAVEEDLATWRAPYGNAAYGPL				NA	NA	NA	NA	NA
D1-29_03371	1860	btuD_13		Vitamin B12 import ATP-binding protein BtuD	ATGTCTGAACCACGCCATCCGGCAGTTTTGGGGCCCAAAAAGGAACCCGTAAGGAAGCTTGCACTGCGGCCCTACGCGCGTGCGGTGGCGCAGGTTCTTCGGGTCAGTTTCCGCGCCTCGCCCGCGGCGGTGGTGATGAAGGTACTGGGTTCGCTGATCTCGGCGCTCCTGCCGCTTGTTACCACGTACTTTGCCGCGCTGACCACCACGGCGCTGGCTGCTGCGTATGCCGGTGACTCCGCTGCAGGCCAGCAGGCCATTGTCTACGTCATCATCACGGCGGCCCTGGGGCTGTTCTGGGGTGCGTTCAGCAGCGTGGACCGCTACATCCAGCAGCTCATGAGCTTTAAGGTGGGCGCCATTGTCGGCGACCAGATGTACGAGCGGTTCCTGGCCCTGGAGTTCTGGCGCTACGACGACAAGGAAACCGTTGACCTGTACGACCGCGCCAAGCGGTTCTCGGATTCCTATGCCCGCGTGCTGGACCGTATCGCGGCAATCTTCACCCAGTTCGTGTCCGTGATACTGGCAGTGGGTGCGCTCCTGCTGGTCAGCTGGTGGATCGCGGTAATTGTCCTCGTGGCGATTGTGCCCAGCGTGTACCTGCAGTTCAAACTCTCCAGGGAACAGATCGCCCACTGGAATACCCAAGTGGATTCGCGCCGCCAGCGGCGCATGATTGAAACCAACCTCCTGCGGCCGCAGCACATCGCCGAAATGCGCCTCTACGGCATTGTGGGGTACCTGATGGAGTTCCGGTCACGGCTCCGTGACGCGGACGAGCGCCGCCGGCTGGACTTCCAGAAGCGCTACATTCCCAAGCAGCTGATGGCTGACACCCTGCAGTACGGGGCTGAAGTTGTCTCACTGATCTGGGTGGTGGGCCAGATCATCGCCCGCGCCCAGCCAGTGGGGCAGTTCCTGTACGTCCAACAGATCGTCAGCCGGGCGCTGTCCACGGCCAATAACCTGGTCACCTCGCTCAGCTCGATCGACGAAGACCTCGCCAACCTGAAGGACTATGAGCTGTTCATGGCCCTGCCGGTCCATTCGGACCACTCCCCGCCACTGCTCCAGGCGCCCAGGACGGTGGAGCTGCGCGATATCCGCTTCACGTACACCGGAAGTGACATCGAGGTGATACGCGGCATCAGCCTGACCATCCGCGAGGGCCAGCACATCGCCATCGTGGGGGAAAACGGCGCCGGAAAGTCGACCCTGATCCGCATCCTCGCCGGGCTCTACCGGCCGGACACCGGGCAGGTAATGCTCGACGGCGTCGACCTCGCCGCCGTCGACGTCAAGTCCTGGCACCGCCACCTGGCGGTGTTGAGCCAGGAATTCCTGAAGTATGAGTTCGCCACGGCTGCGGAGAATATCTACTTTGGCGACGTCGATTCACCCCGGGACGACGAGCGGATCCGAAGGGCAGCGGGTGACGCCGAGGCCCTGGACTTCATCAACAAGCTGCCCAACGGACTGGATAACCACGTCAGCAACTGGATGGAAGATCCGCGCGGGCGCAAGGGCAGCGGGCTGTCCGGCGGCCAGTGGCAGCGGCTCGCCATGGCCCGCAACTTCTACCGCAAGGCTTCGTTTATGGTGATGGACGAACCCACCTCCGCCATCGACGCCCTGGCGGAGCACCGGATCTTCACCCGGCTCTTCGCTGACTGCAGCACCACGATCATTGCCATCAGCCACCGGCTCGCCACGATTGAGAAGGCTGACATTGTGTACATGCTGGAAGACGGCGAGATCGTGGAGCAAGGTACGCATAAGGAGTTGGTGGCACTGCGCGGCCGCTACTTCAGGATGTTTGAATCCCAGCTGAGCCTTGACGCTCAGAGCGGGCCATAA	MSEPRHPAVLGPKKEPVRKLALRPYARAVAQVLRVSFRASPAAVVMKVLGSLISALLPLVTTYFAALTTTALAAAYAGDSAAGQQAIVYVIITAALGLFWGAFSSVDRYIQQLMSFKVGAIVGDQMYERFLALEFWRYDDKETVDLYDRAKRFSDSYARVLDRIAAIFTQFVSVILAVGALLLVSWWIAVIVLVAIVPSVYLQFKLSREQIAHWNTQVDSRRQRRMIETNLLRPQHIAEMRLYGIVGYLMEFRSRLRDADERRRLDFQKRYIPKQLMADTLQYGAEVVSLIWVVGQIIARAQPVGQFLYVQQIVSRALSTANNLVTSLSSIDEDLANLKDYELFMALPVHSDHSPPLLQAPRTVELRDIRFTYTGSDIEVIRGISLTIREGQHIAIVGENGAGKSTLIRILAGLYRPDTGQVMLDGVDLAAVDVKSWHRHLAVLSQEFLKYEFATAAENIYFGDVDSPRDDERIRRAAGDAEALDFINKLPNGLDNHVSNWMEDPRGRKGSGLSGGQWQRLAMARNFYRKASFMVMDEPTSAIDALAEHRIFTRLFADCSTTIIAISHRLATIEKADIVYMLEDGEIVEQGTHKELVALRGRYFRMFESQLSLDAQSGP				NA	NA	NA	NA	NA
D1-29_03372	1512	guaB	COG0516	Inosine-5'-monophosphate dehydrogenase	ATGACCCAGCCTGAACACGATCCTTTCGGCTTTGTCGGCCTGACCTACGATGACGTCCTCCTCCTTCCGGGCCACACCGAGGTCATCCCCTCCGACGCCGACACGTCCTCCCGGATTTCCAAGCGCATCACGGTCCAGACCCCGCTGCTGTCCGCTGCGATGGACACTGTCACGGAGTCCCGAATGGCCATCGCCATGGCCCGCCAAGGTGGCCTGGGCGTGGTTCACCGCAACCTCTCCATCCAGGACCAGGCGGACCAGGTGGACCGCGTGAAGCGCAGCGAATCGGGGATGATCACCAACCCGTTGACCATTGGCCCTGAAGCAACACTGGCGGAACTGGATGAGATCTGCTCGCAGTACCGGGTCTCCGGTCTCCCCGTCGTGGACGATGGCATGCGGCTCCTGGGCATCGTCACCAACCGCGATACGCGCTTTGTGCCGGAGGCGGATTTCCCGCTGCGGCTAGTCAGCGACGTTATGACCAAGATGCCGCTGGTGACAGGGCATGTGGGAATCAGCCGGGAAGAAGCCTCCCATAAGCTGGCCACCAACAAGATCGAAAAGCTCCCGCTCGTTGACGAGCAGGGCCGGCTCAAGGGCCTCATCACCACCAAGGACTTCACCAAGGCCGAGCAGTACCCGCTGGCCACCAAGGACGAAGAGGGCCGCCTGCGAGTAGGCGCAGCCATCGGCTTTTTTGGTGATGGCTGGGAGCGCGCCATGGCCCTGGTGGACGCCGGAGTGGACGCATTGTTCGTGGACACCGCCAACGGGCATTCCCAGGGTGTGCTGGACATGATCCGCCGGCTGAAGTCAGATCCGGTTGCGGCGCATGTTGACATCATCGGCGGCCAGGCCGCTACCCGTGAAGGTGCCCAGGCGCTGATCGACGCCGGTGCCGACGGAATCAAGGTGGGCGTGGGCCCCGGCTCCATCTGCACCACCCGCGTGGTGGCCGGCGTTGGTGTCCCGCAGATCACGGCCATCTACGAATCCGCCAAGGCAGCCATCCCGGCCGGTGTTCCGCTGATCGCCGACGGCGGGCTGCAGTACTCGGGCGACATCGGCAAGGCCCTGGTCGCCGGAGCCGACACCGTGATGCTGGGCTCCCTCCTGGCCGGCTGCGACGAATCGCCGGGCGAGCTGATTTTCGTGAACGGCAAGCAGTTCAAGAGCTACCGCGGCATGGGCTCGCTGGGCGCGATGCAGTCCCGCGGAAAGAACACGTCCTACTCCAAGGACCGCTACTTCCAGGCCGACGTCTCCGGGGACGACAAGCTGATCCCCGAAGGCATCGAAGGCCGGGTGGCCTACCGCGGGCCGCTGGCTTCCGTGGCGTACCAGTTGGTGGGCGGCCTGCGCCAGACCATGTTCTACGTCGGTTCCCCCACCATCCCGGAGCTGAAAGCGCGTGGCAAGTTTGTCCGCATCACCCCGGCTGGGCTCAAGGAATCGCACCCGCACGACATCCAGATGACGGTGGAAGCACCCAACTACGGTTCACGCTGA	MTQPEHDPFGFVGLTYDDVLLLPGHTEVIPSDADTSSRISKRITVQTPLLSAAMDTVTESRMAIAMARQGGLGVVHRNLSIQDQADQVDRVKRSESGMITNPLTIGPEATLAELDEICSQYRVSGLPVVDDGMRLLGIVTNRDTRFVPEADFPLRLVSDVMTKMPLVTGHVGISREEASHKLATNKIEKLPLVDEQGRLKGLITTKDFTKAEQYPLATKDEEGRLRVGAAIGFFGDGWERAMALVDAGVDALFVDTANGHSQGVLDMIRRLKSDPVAAHVDIIGGQAATREGAQALIDAGADGIKVGVGPGSICTTRVVAGVGVPQITAIYESAKAAIPAGVPLIADGGLQYSGDIGKALVAGADTVMLGSLLAGCDESPGELIFVNGKQFKSYRGMGSLGAMQSRGKNTSYSKDRYFQADVSGDDKLIPEGIEGRVAYRGPLASVAYQLVGGLRQTMFYVGSPTIPELKARGKFVRITPAGLKESHPHDIQMTVEAPNYGSR	PGPT0021445_1147	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
D1-29_03373	2082			hypothetical protein	GTGTCGATTGCGAGAACCACGGCCGACTCCGGCGGCATTCGTGACGCCATCTCCAACGGGCGGAAATCAACGTTCCGCCCCGAGGTCCAGGGGCTCCGCGCGCTCGCTGTCCTGATGGTGGTGACCTACCATGTGTGGCTGGGGCGGGTCTCCGGCGGCGTGGATATCTTCCTGCTGATCTCCGCCTTCCTCTTGACGCTTTCGTTCGTGCGGAAGGTTGAAGCGGGCAAACCCATGAACCTCATCCGGCACTGGCTGCACCTCTTTAAGCGGCTGCTGCCTGCCGCCGTCGTGGTCCTGCTTGGCATCCTGGCCGGCACCTGGCTGATCTTGCCGCAAAGCCGCTGGCCCGATGTCCTGGACCAGGCGTGGGCCTCCCTGCTCTACCGGCAGAACTGGCTCCTGGCCGACACCGCCGTCGATTACTACGCGCAGGACCACTCAGGCGCCAGCCCACTGCAGCACTTCTGGTCGCTGTCCATCCAGGGCCAGGTCTTCATCCTCTGGCCGCTTATCTTCGCCGGTGCGGCATTGGTGTGGAAGCTGCTGACACGGTTCCCGGTCAAAGGGATAAGCCCCAGCTACAGGCATGTCCTGTTGGTGGCTTTCGGTGGCATTTTTGCAGCCTCCCTCCTCTTCTCGATCGACCAGACTGCCAGCAACCAGGCCTACGCCTACTTCGACACGCGTACGCGACTGTGGGAGTTCGCCCTCGGCTCGCTCCTGGCTCTGGGACTTCCGTACCTCAAGCCTGGCAAGGCACTCCGGGTTGTCCTCGGCTGGGCCGGCCTTGCAGCCATGGTGTCAGTTGGCCTCGTCCTGACGGTGGACCGTTCCTTTCCAGGGTCCATCGCGCTCTGGCCCACCCTGGCTGCAGCCGCCACCATTGTGGCCGGGCAGAGTGGAAGCCGGTTCGGGGCGGACCGGCTCCTCGCCTGGAAGCCTTTGGTTGCCCTGGGTGACAACTCCTATGCCCTGTACCTGTGGCACTGGCCTGTGCTTGTCCTGGCACTGGCCTCCGCCGGCATTGAGGCGCCAAGCCTGGGCCAGGGCCTGGGTGTTGTTGCGGTTTCCATCGCGCTGGCTGTGCTGACCACCCGCTTTGTGGAAAAGCCGCTGCGCGAATGGCACTGGCCGCAAAAGCGTTCCTGGCGGACCGCCGTCGTGATTGCTGCCTGCTGCACCCTGCTGGCCGGCCCGGTGGCTGTCTGGCAGACCAGCCTGACGGCCGAGGAAGCTGCGGTTGCTGCCCAGCCGCGGGAGCTGACTCCCGGTGCGGCGTCCCTGGCGCCCGAAAATGCGGGCAAGCCGACGCCAGAGGCCCGGATCATTCCCGCGCCGGCGGCCATGAAGAACGAGTGGGCCGACATCGACGGCTTGTGCACGGACGCCAACGTGCCCTCGGATCCTTTGCTGGCCGGCTGCCTGCAAAACAACTCGCCCGAGACCGTGACCAAGCGGATTGTTGTGCTGGGGGATTCCCATGCCCAGCAGTACATGGCGGCCCTGGGTCCCATTGCCAGGGAACACGGCTGGGAGGTGGTGACCCTGCTCAAGGGTGACTGCCGCTTCGGCGCCGAATCACCGGAACGGACTGAGGACTGTAATGCCTTCAACAGGGCCAGCGCCGCCTACGTCATGGAGCGCAGGCCGGACGCCGTGTTCACCGTCGCCTCGCTGACGCACGTTCAGGCTCCCTTCGAAACGGAGGTTCCCGGCTACCTCGACGGCATCCGGCCGTTCACCGACGCCGGCATTGAGGTGGTGGGCGTGCGTGACAACCCGCGGTTCCCCATCAACATGCCCGAGTGCGTCCAGAAAAATGGGGCGGCGGCCCCTGAATGCAACGTCCCGCTGAACGAATCCCTGGCCGAGTCCTCCCCGCTGGACAGTTACCGCGGCAAAGTGGACGGGCTCCACCTCATGGACCTGAGCGACTTCTTCTGTGCCGGCGGCAGTTGCCCGGCCGTGGTGGGCAATGTATATGTGTACAAGGACGATAACCACCTCACTAAGACCTACGTCCAAAGCATGATTCCCATGTTCGAACGGCGCCTTCTGGCCGCTACTGGCTGGACCTGA	MSIARTTADSGGIRDAISNGRKSTFRPEVQGLRALAVLMVVTYHVWLGRVSGGVDIFLLISAFLLTLSFVRKVEAGKPMNLIRHWLHLFKRLLPAAVVVLLGILAGTWLILPQSRWPDVLDQAWASLLYRQNWLLADTAVDYYAQDHSGASPLQHFWSLSIQGQVFILWPLIFAGAALVWKLLTRFPVKGISPSYRHVLLVAFGGIFAASLLFSIDQTASNQAYAYFDTRTRLWEFALGSLLALGLPYLKPGKALRVVLGWAGLAAMVSVGLVLTVDRSFPGSIALWPTLAAAATIVAGQSGSRFGADRLLAWKPLVALGDNSYALYLWHWPVLVLALASAGIEAPSLGQGLGVVAVSIALAVLTTRFVEKPLREWHWPQKRSWRTAVVIAACCTLLAGPVAVWQTSLTAEEAAVAAQPRELTPGAASLAPENAGKPTPEARIIPAPAAMKNEWADIDGLCTDANVPSDPLLAGCLQNNSPETVTKRIVVLGDSHAQQYMAALGPIAREHGWEVVTLLKGDCRFGAESPERTEDCNAFNRASAAYVMERRPDAVFTVASLTHVQAPFETEVPGYLDGIRPFTDAGIEVVGVRDNPRFPINMPECVQKNGAAAPECNVPLNESLAESSPLDSYRGKVDGLHLMDLSDFFCAGGSCPAVVGNVYVYKDDNHLTKTYVQSMIPMFERRLLAATGWT				NA	NA	NA	NA	NA
D1-29_03374	1161	czcO	COG2072	putative oxidoreductase CzcO	ATGAGCAACGACGAGATGACGGAAACAGTGCTGGACACGCTGGTTATTGGCGGTGGCCAGGCAGGCCTGGCCCTGGGTCACTACCTGACGGACCAGGGGCGGAAGTTCCTGATTCTGGACGAAAATACCAGGGTGGGTGACGCCTGGAGGCAGCGGTGGGATTCACTTCGGCTCTTCACCCCAGCCAAGTATGACGGTCTTCCCGGGGAACCTTTCCCGGCTGACCCCCTGTCCTTCCCCACCAAGGACGAAGTTGCGGACTACCTTGAAACCTACGCGGCCCGGCTCAGCCTGCCGGTGCGCACCGGGGTCAGGGTAGAGCGCCTGTCGCGGGAAGGTGACAGGTACGTTGCCGTTTCCGATGGACACCGCTGGGAGGCGCGCAATGTTGTGGTGGCCACGGGGTCTGCCCGGCTCCCGAAGGTGCCGGACTTCGCGGCGGAACTCCCTCCCTCGGTTGTCCAGCTCCATTCCAGTGCATACCGGAATCCCGGACAACTCCAGGACGGGCCGGTGCTGGTGGTCGGATTGGGCAACTCGGGCGCCGAAATCGCCCTTGAAGTAAGCCGTACCCACGCGACAATCATCGCCGGCAAACCCGGCGGGGAGCTTCCGGTGAAGCACGGCCGGGCGGCAGCACGTTTTGTCCTGCCGGTGATCCGGTTTCTTGGACTCCATGTCCTGACTCTCGGCACCCCGATCGGCCGCAAAGCTGCGCCGTCCCTCAAGGCCCAGGCCGACCCGTTGATCAGGACCAAATCCAAGGACCTTGCCGCGGCCGGTGTCACCGTCGTCCCCCGGGTCAGTGGAGCGGAGAACGGCGGCCCGGTCCTGGCTGACGGCAGCCGGCCGGAGGTGGCCAACGTGATCTGGTGCACCGGATACCGCGAGGACTTCGGCTGGATCGACCCGGCCGTGTTCAGGCCGGCATCGCCCGAAGCTCCAGCACGTCAACCCGAGGTACCCGGCCAGTCCCTGTATGACGACGACGGACGGCCCCGCCAGCACCGCGGCGTGGCGCTGGACGCGCCGGGTCTGTTCTTCCTCGGGCAGGAATTCCTGTACGCGGCGGCGTCGGCCACCCTGCCTGGCTCCTGTCGCGACGCCCGTTACCTGGCCCGCAAAATCCCCGTGCACTCCCGGGCCCGGCAGTACGCTTAG	MSNDEMTETVLDTLVIGGGQAGLALGHYLTDQGRKFLILDENTRVGDAWRQRWDSLRLFTPAKYDGLPGEPFPADPLSFPTKDEVADYLETYAARLSLPVRTGVRVERLSREGDRYVAVSDGHRWEARNVVVATGSARLPKVPDFAAELPPSVVQLHSSAYRNPGQLQDGPVLVVGLGNSGAEIALEVSRTHATIIAGKPGGELPVKHGRAAARFVLPVIRFLGLHVLTLGTPIGRKAAPSLKAQADPLIRTKSKDLAAAGVTVVPRVSGAENGGPVLADGSRPEVANVIWCTGYREDFGWIDPAVFRPASPEAPARQPEVPGQSLYDDDGRPRQHRGVALDAPGLFFLGQEFLYAAASATLPGSCRDARYLARKIPVHSRARQYA	PGPT0013865_1265	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013865-czcO|noxC|yrdP|trkA|hapE-K07222	NA	NA
D1-29_03375	1635	malT		HTH-type transcriptional regulator MalT	ATGACAGCTGAGACGGGCATCGACCAGGGCCGGTCGGCGTTCCGCGAGAACCGCTGGACTGAAGCCTTTGAGAACCTCCGTGACGCCGACCAGCACGGCGGGCTGCCGGCGCCGGATCTCGAGCGGCTTGCCACGGCCGAAATTCTGACCGGCAGCATCACCGCCGGCGTGGACACCCTCACCCGCGCCCATGAGGAGTTCCTGGTGGTTGGCGACGTCGAAGGTGCCGTGCGCTGCGCCGGCTGGCTCGCTGTGCACCTGATGAACATCCGGCAAGCGGCGCGCAGCGGCGGCTGGTTGGCGCGGGGCCAACGGCTTGTGAAGGAACTGGATGAACCGTCCGCCGTCGAGGGTCTCCTGCTGCTTCCGGTGGCGCTGGGCAAGCTGTTCGGCGGGGACCCCGCGGGCGCGTTCCAGGTTTTCTCCGAGATCGCGGCGTACGGACAGAGATTCCAGGACAACGACCTTGCCGCGCTGTCGCTGCTTGGCCAGGGCCAGTCAACCATCATGCTCGGCAATGTTGATGAGGGACTCCGGATGCTGGACGAAGTGATGGTGGCAGTGACCGCTGGGGAAGTCTCGCCCGTTCCCTCCGGCATCAGCTACTGCGCTGTGGTGGGGTACTGCCACCTGACTTTTGATCTGCCACGGGCGCTGGAATGGACCGGGGCGCTGGACCACTGGTGCCGCGGACGTCCTGACATGGTGGCCTTCAGTGGACAGTGCCAGTCCTACCGGGCCGAACTGTTTCAATTGCATGGAGCCTGGGCTGAAGCCCTGAAAGCAGCGACGGCAGCGCAGGACTACGCAGTCAAAGGTGATGCTGAAGCCCTCTATGGCGGCTATTACCAGCAGGGCGAAATGAAGCGGCTCACCGGCAAGCTGGATGCCGCTGACGCCTCCTACCGGTTGGCTGCCAAAAGCGGCCACTCTGCCCAACCTGGCCTTGCCCTTCTCTGCCTGGCCAAGGGAGACGCTGAACAGGCTCAGACCCTGATCCGAAGTGCAGTTGCGGCCTCGCGTCCGGCAATGCGCCAGCGCCTCCTGCCTGCGCTGGTGGAGATCGAGCTTGCAGTCCCGGACCTGTTGGCTGCGCGGAGCGCCGCCGACGAGCTGGAAGCCTTTTCCCTGGAGTGCCCTAAGCCGATGGTCCGCGCCCTCTCCTGGCAGGCCGACGGCGCCGTGTGCCTGGCCGAGGGCAACGCTGAGGGGGCGCTGGTTTCGCTCAGGCAGGCCTGGATGGTGTGGCAGGAGTTGGGTGTTCCGTATGAAGCCGCGCGCTGCCGGGTTCTTGCCGCCTCTGCCTGCCGTGCCCTCGGGGACGAGGCATCCGCCCTGATGGATCTGGAGGCGGCGCATGCGGAATTCCTTGAACTTGGGGCGGCTCCTGCGGCAGCCCGGGCAGCATCCCTCATCCGCGCGATCAACCAGGCAGAGCCGAGCCCGCTGACCCAGCGCGAAGTTGAAGTGCTCCGCCTTGTGGCATCGGGAAAAGGGAACCGTGCCATCGCCGCTGAACTCTTTCTGAGCGAGAAAACAGTGGCCAGGCACCTGAGCAACATTTTCCTGAAGCTGGGACTGTCCTCCAGGACGGCCGCCACCAGGTACGCGTACGAGCACCGGCTCGTCGGCTGA	MTAETGIDQGRSAFRENRWTEAFENLRDADQHGGLPAPDLERLATAEILTGSITAGVDTLTRAHEEFLVVGDVEGAVRCAGWLAVHLMNIRQAARSGGWLARGQRLVKELDEPSAVEGLLLLPVALGKLFGGDPAGAFQVFSEIAAYGQRFQDNDLAALSLLGQGQSTIMLGNVDEGLRMLDEVMVAVTAGEVSPVPSGISYCAVVGYCHLTFDLPRALEWTGALDHWCRGRPDMVAFSGQCQSYRAELFQLHGAWAEALKAATAAQDYAVKGDAEALYGGYYQQGEMKRLTGKLDAADASYRLAAKSGHSAQPGLALLCLAKGDAEQAQTLIRSAVAASRPAMRQRLLPALVEIELAVPDLLAARSAADELEAFSLECPKPMVRALSWQADGAVCLAEGNAEGALVSLRQAWMVWQELGVPYEAARCRVLAASACRALGDEASALMDLEAAHAEFLELGAAPAAARAASLIRAINQAEPSPLTQREVEVLRLVASGKGNRAIAAELFLSEKTVARHLSNIFLKLGLSSRTAATRYAYEHRLVG				NA	NA	NA	NA	NA
D1-29_03376	1524	ligB	COG1793	DNA ligase B	ATGTTGCTCGAAGAGCTCGTGAGGACCACGGATGCTGTCGCGTCGACGCGCTCACGGCTTGCGAAGGTGGAAGCCCTGTCCGACCTGCTGGGCCGGCTCGAACCGACGGAAATTGCTGCAGCCGTGGGCTTGCTCATCGCCAGGCCGCGCCAGGGCCGGGTGGGGATCGGCTGGCGCGGGATGACGGCAGCCATGGGGGACCCCGCTTCTGAACCGAGCCTTACCGTCGCCGACCTCGATGCTGCGTTGGACAGGCTGCTCATCACAGCAGGTGCCGGATCGGCCGCTGATCGCGCGGCAACACTCCGCACTCTCACGGCAGCAGCCACTGAGCGTGAGCAGGCCTTCATCGCCGGCGTGCTGCTCGGTGAACTGCGTACCGGCGCGCTCGAGGGGGTGTTGACGGACGCCATTGCCCGCGCGGCGGGGCGGCCCGTCGACGCCGTGCGCCGCGCGGCGATGCTTTCCGGTGACCTCGGCGGGACCGCGCTCCTGGCGATCACCGGCACGGCAGCCGAGCTTGACGCCGTCGGCCTCGTCGTCGGACGTCCCGTGCAGCCGATGCTTGCCGCCACGGCGCCCAGTGCCGCTGCGGCACTGAAGGCCACCGGAGAGGCATCCGTGGAATACAAGCTCGACGGCGCCCGCATCCAGGTGCACCGCGCCGGCGATGAGGTGCGCATCTACACCCGCACCCTGGCTGACGTGACCCACCGCCTGCCCGAGGTGGTGGACGTGGTGCGCGGACTGCCGGTGGGCGATGTGATCCTCGACGGCGAGACCCTCGCGCTGGATGAGGACGGCGGCCCGCGGCCGTTCCAGGAGACTATGTCCCGGTTCGGGGCGGATGCCGTGCGCACCACATTGCTGCATCCGTGGTTCTTCGACGTGCTGCACATCGACGGACGCGACCTGCTCGAGGAGCCGCTGGCAACTCGTATCAACGTGCTTGAGCGGATCGCGCCGGGCTACCGGATCCCGGGGGAAATCACGGCAGATGCTGCTGTTGCCGAGAGAGTGTCCCGTGATGCGCTCGCCGCGGGCCACGAAGGCGTGGTGGTAAAGGCCGTCGGATCCGCCTATGCGGCCGGCCGGCGCGGCTCAAACTGGATCAAGGTCAAGCCGGTGCTCACCTACGACCTGGTGGTCCTCGCCTGCGAATGGGGTTCGGGACGGCGCACCGGGCTCCTCTCGAACCTGCACCTCGGAGCCCTGGACCCCGCCGGTGAGTTCGGCGAACCCGGCGGCTACGTGATGGTGGGAAAAACGTTCAAGGGACTCACTGACGAGCTGCTGCGCTGGCAGACCGAAAAGTTCCAGGAGCTTGAAGTGCGGCGCACGTCTGGCACTGTGTGGGTGGAGCCCGTCACCGTGGTGGAGATCGCGATTGACGGCGTGCAGAGTTCCTCGCGCTATCCAGGTGGAATCGCCCTTCGGTTCGCCCGCGTCAAGCGTTACCGCGACGACAAGACCGCGGCCGAGGCGGACACCATTCAGACACTGCGGGCACTCCTGCGTCCGTAG	MLLEELVRTTDAVASTRSRLAKVEALSDLLGRLEPTEIAAAVGLLIARPRQGRVGIGWRGMTAAMGDPASEPSLTVADLDAALDRLLITAGAGSAADRAATLRTLTAAATEREQAFIAGVLLGELRTGALEGVLTDAIARAAGRPVDAVRRAAMLSGDLGGTALLAITGTAAELDAVGLVVGRPVQPMLAATAPSAAAALKATGEASVEYKLDGARIQVHRAGDEVRIYTRTLADVTHRLPEVVDVVRGLPVGDVILDGETLALDEDGGPRPFQETMSRFGADAVRTTLLHPWFFDVLHIDGRDLLEEPLATRINVLERIAPGYRIPGEITADAAVAERVSRDALAAGHEGVVVKAVGSAYAAGRRGSNWIKVKPVLTYDLVVLACEWGSGRRTGLLSNLHLGALDPAGEFGEPGGYVMVGKTFKGLTDELLRWQTEKFQELEVRRTSGTVWVEPVTVVEIAIDGVQSSSRYPGGIALRFARVKRYRDDKTAAEADTIQTLRALLRP				NA	NA	NA	NA	NA
D1-29_03377	603	yyaP_5	COG0262	putative protein YyaP	ATGGGAATCATCGTCGCGAACCTGTTCATTACCCTCGACGGCGTCTACCAAGGGCCGGGCGGCCGCGACGAGGACGCTGAGGGCGGCTTCGCCTACGGCGGCTGGCAGGCGCCGGTGAACGACGACGAGGCCGACGCAGCTATCGAAGCCGAGATCGATCGGATTGACGCGCTGCTTCTCGGCCGGAAGACCTACGACATCTTCGCGAGCTACTGGCCGCACCAGTCCGACAAGGTTGGCGGCACGCTCAACCGCGTGCCCAAGTTCGTGGTCTCCAGCACGCTGTCCGCTGCCGACTGGGCCGGCACCACGGTGTTGCCGGATGCGGCGGCAGCGGGCCGGCTCCGTGAGGAGTTCGATGAAGTGCACATGTTCGGCAGCGGCGTCCTGATCCGTTCGCTGCTCGCCGCGGACGTGATTGACCGCCTCCACCTCTGGCTTTACCCGGTCACTTTAGGGCAGGGAAAGCGCCTCTTCGACGCCGGGACTATCCCCACCACTTTCCGCCTCGCCGAGCCGGCACGGACCTTTCCAAAGGGGTCGGTGTCGCTGGTATACGAGCGCGCGGGCGCCGTCGAGACGCAGGACATAGCGGCCGCGTAG	MGIIVANLFITLDGVYQGPGGRDEDAEGGFAYGGWQAPVNDDEADAAIEAEIDRIDALLLGRKTYDIFASYWPHQSDKVGGTLNRVPKFVVSSTLSAADWAGTTVLPDAAAAGRLREEFDEVHMFGSGVLIRSLLAADVIDRLHLWLYPVTLGQGKRLFDAGTIPTTFRLAEPARTFPKGSVSLVYERAGAVETQDIAAA				NA	NA	NA	NA	NA
D1-29_03378	1611	groL1_2		60 kDa chaperonin 1	ATGGCAAAGCAGCTTGCGTTTAACGACGCTGCCCGCCGGTCGCTCGAAGCCGGCATCGATAAGCTCGCCAACACTGTCAAGGTGACGCTCGGCCCCCGCGGCCGCAACGTTGTCCTCGACAAAAAGTGGGGAGCACCCACCATCACCAACGACGGCGTCACCATCGCACGTGAAGTCGAACTGGACGACCCCTACGAGAACCTTGGCGCCCAGCTGGCCAAGGAAGTAGCCACCAAGACCAACGATGTTGCCGGCGACGGCACCACCACCGCCACGGTGCTGGCACAGGCACTGGTCAAGGAAGGCCTGCGCAACGTTGCAGCCGGCGCAGCTCCCGGCCAGATCAAGCGCGGCATTGAGGTTTCTGTTGAGGCCGTTGCCGCCCGCCTGCTCGAGAATGCCCGCCCCGTTGAAGGCACCCAGGTGGCCAGCGTTGCTGCCATCTCGGCTCAGAGCGACGAAATCGGCGAGCTCCTCGCCGAGGCGTTCGGCAAGGTCGGCAAGGATGGTGTGATCACCATTGAGGAATCCTCCACCACGCAGACTGAGCTGGTCCTCACCGAGGGCATGCAGTTCGACAAGGGCTACCTCTCCCCGTACTTCGTCACCGACGCAGAGCGCCAGGAAGCCGTCCTTGAGGACGCCCTCATCCTGATCAACCAGGGCAAGATCTCCAACGTCCAGGAATTCCTGCCGCTGCTGGAAAAGGCACTGCAGAGCTCCAAGCCGCTCTTCATCATCGCTGAAGACGTGGATGGGGAGGCACTGTCCACCCTGATCGTGAACCGCATCCGCGGCACGCTGAACGTGGTTGCCGTCAAGGCTCCGGGCTTCGGCGACCGCCGCAAGGCAATGCTGCAGGACATCGCCACCCTGACGGGTGCCCAGGTTGTTTCTCCGGAGCTGGGCCTGAGCCTGGACACCGTTGGCCTTGAGGTGCTGGGTACCGCCCGCCGCATCACGGTCACCAAGGACAACACCACCATCGTTGACGGCGCCGGTTCCGCAGAAGACGTCGCAGCCCGGGTTTCCCAGCTGCGCGCCGAGTTGACCCGCACCGACTCCGACTGGGACAAAGAAAAGCTTCAGGAGCGCCTGGCCAAGCTGGCCGGCGGCATCGGTGTAATTAAGGTTGGCGCAGCCACCGAGGTTGAGCTGAAGGAAAAGAAGCACCGCATCGAGGACGCAGTGTCCTCCACCCGCGCAGCCCTCGAAGAAGGCATCGTCGCGGGCGGCGGTTCAGCCCTGATCCACGCCCTCAAGGCACTGGACGAGGATCCTGCAGTCCAGGCGCTGGAAGGCGACGCAGCTGCCGCAGTGGGCATCGTCCGCCGTGCACTTGTCCAGCCGCTCCGCTGGATCGCCCAGAACGCCGGGTTCGACGGCTACGTTGTCACCGCCCGGGTTGCCGATCTGGAAACCAACAACGGCTTCAACGCCAAGTCCGGCGAGTACGAGGACCTGATCGGCGCCGGTGTCATCGACCCCGTCAAGGTCACCCGTGCTGCCCTGCGCAACGCGGCTTCAATCGCGGCACTGGTTCTCACCACCGAAACCCTCGTGGTGGAGAAGCCTGCCGAAGAAGAAGAGCACGCAGGCCACAGCCACTAA	MAKQLAFNDAARRSLEAGIDKLANTVKVTLGPRGRNVVLDKKWGAPTITNDGVTIAREVELDDPYENLGAQLAKEVATKTNDVAGDGTTTATVLAQALVKEGLRNVAAGAAPGQIKRGIEVSVEAVAARLLENARPVEGTQVASVAAISAQSDEIGELLAEAFGKVGKDGVITIEESSTTQTELVLTEGMQFDKGYLSPYFVTDAERQEAVLEDALILINQGKISNVQEFLPLLEKALQSSKPLFIIAEDVDGEALSTLIVNRIRGTLNVVAVKAPGFGDRRKAMLQDIATLTGAQVVSPELGLSLDTVGLEVLGTARRITVTKDNTTIVDGAGSAEDVAARVSQLRAELTRTDSDWDKEKLQERLAKLAGGIGVIKVGAATEVELKEKKHRIEDAVSSTRAALEEGIVAGGGSALIHALKALDEDPAVQALEGDAAAAVGIVRRALVQPLRWIAQNAGFDGYVVTARVADLETNNGFNAKSGEYEDLIGAGVIDPVKVTRAALRNAASIAALVLTTETLVVEKPAEEEEHAGHSH	PGPT0014570_7035	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077	NA	NA
D1-29_03379	297	groS	COG0234	10 kDa chaperonin	GTGTCGGTCTCTATTAAGCCTCTTGAGGATCGTATTGTTGTCCGCCCGCTCGAAGCCGAGCAGACCACGGCTTCCGGCCTGGTAATCCCGGACTCCGCACAGGAGAAGCCGCAGGAAGGCGAAGTTGTCGCAGTAGGCCCCGGCCGCTTTGACGACAACGGCAACCGCGTTCCGCTCGACGTTGCCGAAGGCGACGTTGTTATCTACTCGAAGTACGGCGGAACCGAAGTCAAGCACAACGGCACCGAGTACCTCGTGCTCTCCGCCCGCGACGTTCTGGCGATCGTCGTAAAGTAA	MSVSIKPLEDRIVVRPLEAEQTTASGLVIPDSAQEKPQEGEVVAVGPGRFDDNGNRVPLDVAEGDVVIYSKYGGTEVKHNGTEYLVLSARDVLAIVVK	PGPT0014565_2092	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078	NA	NA
D1-29_03380	381			hypothetical protein	ATGGAAGACAGTGCAGGCACCCAGCCGTCCGAACAGCCCCGATCCAGCAACCTGGGCCTGGTGAAGTACGCGCGGCCGGCACTGATAGCCGGGGCCGCAGTGGCCATTGTGTGTATCGCGCTGCTGGTGATCATCTTCTTCCTGGACACCTTCAACGCCACCGTCTATTCCGTGGGCGGCAAGGACATTCAGGACGCCACGGACGAGGCACGGGACATCAGGGGCCTCCATAACGGTGCCAGGTTTGGCGGCTTTATTGTCCTGGTGATCTCCTTGCTCGCCTTCGTTGGCGGCGCCGTGGTTCTGTACCTTAAGCGCGGCACCGGCCCCGACACCAGCGGCGACGAGGACGTGGATTTCGACGACCTCGCCGGCCGGTAA	MEDSAGTQPSEQPRSSNLGLVKYARPALIAGAAVAIVCIALLVIIFFLDTFNATVYSVGGKDIQDATDEARDIRGLHNGARFGGFIVLVISLLAFVGGAVVLYLKRGTGPDTSGDEDVDFDDLAGR				NA	NA	NA	NA	NA
D1-29_03381	1242			hypothetical protein	ATGCCCCAAGCACCGCAGGACCAGATTGCCCCACTGCTCACGAGCGAAGGTTGGGAGCTGCTGGCGTCCCTGGGACCGTACCAGGAGGACAAGGCCTTTGAGCTGAATTCCGCCCTGCGCAAGGCCGGCCACTCCCCCGAACTCGTCTCTGCCGTCCTGACCCAGTCCCGGCTGCGTACCAAGGCTGAATCCAAGTTCGGCGAGTTCGCCCGGAGCATGCTTTTCACCCAGGCAGGCCTTGAACAGGCCACCCGTCTCAACGTTGCCGCCCGGCATGCCGAGCGGTTTGCCCAGGCCGGCATCCGCCACGTGGCCGACCTTGGCTGCGGACTCGCCGCGGACTCCCTGGCGTTGGCATCCATGGACATCACCGTCACGGCAGTGGAGATGGATGAGACCACCGCGGCCTGCGCCACGGTCAACCTCATTCCTTTTTCCAACGCCACCGTGGTCCACTCGGACGCCATGTCACTACCCTTGGACGGGATCGACGGCGTGTGGCTGGATCCCGCGCGCCGTGTGACCTCCAGCTCCGGTACCAAGCGGATCTGGGATCCGGAGGCCTTTTCCCCGCCGCTTTCCTTTGTGGAAGCCGTGGCTGCAACCGGCCGGGCAGTGGGTGTAAAGATGGGCCCGGGCATGCCGCACGATGCCGTCCCCGCCGGGTGCGAAGCGCAATGGGTTTCCGTCGCCGGGGATGTCACGGAAGTGACGCTGTGGTTCAACTCGGTGAGCAGGCCCGGAATCCGCCGTGCCGCCTTGCTGCTGGGCGCGCAGGGTGCCGCTGAATTGACCAGTGCTGAGGACTTCGGTGGCGGTCCCACCGCCCCGGTCGGTGCAGCGGAGGGTTACCTTTATGAGCCCGACGGCGCCGTCATCCGCGCAGGACTGGTGGCCGACGTCGCCCTTCAACTGGGCGGGCACCTGCTGGATGAGCACATCGCCTATATTTGCGCCCCGGACCTGGTGGACACACCTTTCGCTCGGGCCTACCAGATCCTGGAAGTAATGCCGTACAACGTCAAGGCGCTCAAGGCCTGGGTGAAGGAGAAAAGCATCGGCGTGCTGGACATCAAAAAGCGCGGGACCTCCGTGACACCTGAGGAACTGCGCAAGCAGCTGCTTCCTGCAGGGAAAACGGGGGGCAAGGGCTCGGGGAAGAAGGCAGGAAACAGGACAGCCACCCTGATCCTGACCCGGATCGGTGAGGAGAGGGTGGCCATCTCGGTTGAGCCGGTGTGA	MPQAPQDQIAPLLTSEGWELLASLGPYQEDKAFELNSALRKAGHSPELVSAVLTQSRLRTKAESKFGEFARSMLFTQAGLEQATRLNVAARHAERFAQAGIRHVADLGCGLAADSLALASMDITVTAVEMDETTAACATVNLIPFSNATVVHSDAMSLPLDGIDGVWLDPARRVTSSSGTKRIWDPEAFSPPLSFVEAVAATGRAVGVKMGPGMPHDAVPAGCEAQWVSVAGDVTEVTLWFNSVSRPGIRRAALLLGAQGAAELTSAEDFGGGPTAPVGAAEGYLYEPDGAVIRAGLVADVALQLGGHLLDEHIAYICAPDLVDTPFARAYQILEVMPYNVKALKAWVKEKSIGVLDIKKRGTSVTPEELRKQLLPAGKTGGKGSGKKAGNRTATLILTRIGEERVAISVEPV				NA	NA	NA	NA	NA
D1-29_03382	798	sdhL	COG0169	Shikimate dehydrogenase-like protein	ATGACCGTCTGCATTTCACTCTCGGCCCGGCCCAGCAACAACGGGACCCGCTTCCACAACCACCTGTATGGGCAACTGGGGCTGAACTGGATCTACAAGGCCTTCGCGCCCACCGACCTGGTCCAGGCGATCGCCGGCGTCCGCGGGCTGGGAATCCGTGGCTGCGCCGTGTCCATGCCATACAAGGAGGACGTGATTGCCCTCGTGGATGAGCTGGATCCCTCGGCCAAGGCAATCGACTCGGTGAACACAGTGGTGAACACGGACGGGCGCCTCGTCGCCTACAACACGGACTACACAGCGATCGAACGGTTGCTGGAGCGCAACGCCGTACCCACCGGCTACTCCGTACTTGTGCAGGGATCAGGCGGCATGGCCAAGGCCACCGTCGCGGCCTTGCGGGACGCCGGTTTTACCGACGTGACGGTCATCGCCCGGAACGAAAAAACCGGCCGCGCCCTGGCAGAACAGTATGGGTTCCGCTGGAGGGGAGAGCTCGACGGCGGGACTGCGGACATGATTGTTAACGTCACGCCCCTTGGGATGGCGGGAGGCAAGGGCGCAGACGCGCTGTCCTTCCCCCAGGATGCCATCGACGCCGCCAAGGTGGTGTTCGACGTGGTGGCACTGCCCGCGGAGACGCCCCTGATCCAAGCCGCACGTGCGGCCGGGAAACCCGTCATCACCGGAGCCGAGGTGGCCACTATCCAGGCTTTGGAACAGTTCGTGCTCTACACGGGCATCCGTCCCACTGACGAGCAGGTGCGCGCCGCCGAAGAATTCATGCGCGACCAATAG	MTVCISLSARPSNNGTRFHNHLYGQLGLNWIYKAFAPTDLVQAIAGVRGLGIRGCAVSMPYKEDVIALVDELDPSAKAIDSVNTVVNTDGRLVAYNTDYTAIERLLERNAVPTGYSVLVQGSGGMAKATVAALRDAGFTDVTVIARNEKTGRALAEQYGFRWRGELDGGTADMIVNVTPLGMAGGKGADALSFPQDAIDAAKVVFDVVALPAETPLIQAARAAGKPVITGAEVATIQALEQFVLYTGIRPTDEQVRAAEEFMRDQ	PGPT0012890_3478	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
D1-29_03383	1716	nagZ_2		Beta-hexosaminidase	ATGGCCTCGTTCCCCCGGACCCGTAACAGTACTCACCAATCCACCCTCGCCGTGGCCGCCGTGGCGGCTGTCGCGGCGCTCGCCTCCTGCAGCGTGCCGCCCGCACCGGCACCCGCCTCCACCAGCCCGGCCGCCAGTGCAGCCCCGTCAGCGGAGAGCCCGACGCCGGTGCCTCCCGCCGAATCCGCCTCGCCTGACGCTGCAGCAGATAAAGTCAGCCAGCCCTTGGGCTGGGGCCCTGAGCAAAGGGACCAGGACGCGGCTGCTGCTGCCGTGGCGGCCATGACGGTGGAGGAAAAGGCAGGGCAGGTCCTGATGCCCTCCTACACCGGAACCGACGCCGAATCCCATGCCGCCACGATTGAACGCCTCCACCTGGCGGGCTCCATCATCATGGGTGACAACGTACCCCTGGACCCCCAGAACCAGGTGGATACGGCGGCAATGACAGCCATAACCACACGGCTGGCGCAGGCTGCCCGGGCGGATGGCAGGACCTGGCCCGGACTCATTGGCGTGGACCAGGAGGGTGGGATCGTTTCACGGCTGGGGGCGCCCCTGACCGAATGGCCGGCGCCCATGAGCTACGGCGCCACAGCCAGCGCACCCCTGACCCAGGACTCCGGCCGGGCCCTGGCCTCCGAACTGGCCCCGCTGGGCTTCAACGTTGACTTCGCGCCGGACGTCGACGTCACCATCGGCCCGGCGGATCCCACCATCGGGGCACGTTCGCTGTCCGGGGATCCGGAGCTAGCGGCCCGGCTGGGAGTCGCCTTTTCCCACGGCATCCAGGATGCCGGACTCCTGCCTGCCGTCAAGCACTTTCCCGGACACGGCTCGGTCACCGTGGACTCGCACCAGAGCCTTCCGGTTCAGCCGGCCAGTGTCGCTGAGCTCAACGCGCGCGACTGGAAGCCCTTCAAAGCGGCCATCGATGCCGGCACGCCGATGGTGATGACCGGACACATCGCCGTCCCGGCGCTGGAACCCGGCGTTCCGGCGTCGTTGTCGAAGCCGACGTATGCGGCGCTCCGCGCGATGGGTTTCAACGGAGTGGCCGTGACGGACGCCCTCAACATGGGTGCCATCCAGCAGCAGTTCCCCGGCGGCGGTGCAGCCCCCGCGGCGCTTGCGGCCGGAGCGGACCTGCTCCTGATGCCCACGGATGTGGGGCAGGCGCACGCGGCCATTGTCAGTGCAGTGGCCTCCGGCAGCCTGCCCGGCGCCAGGCTGGATGAAGCTGCCCGCCGGGTGGCTACCATGATGATTTGGCGGGGCCGGAGCACCCCGGCGCCCGCGCAGGCGCCGGGAAGCGGCAACGGGCTGTCCGCGCAGGTCTCAGCCGCTGCCATCACGGTGCTGTCCGGGCAGTGCGCCGGGCCTCTGGTTCAGGGGAGCGTGCAAGTGGCTGGCGGTTCGCCGCAGGACAGGGCCCGGTTCGAGGCCGCAGTGTCGCGGGTAGGACTGTCAGTGGGGGCAGGGCCAGTGGTCAGCCTCATCGGTTACGGGGGCCAGCCTGCCGGGGGCGACATCGCGGTTGCGCTGGATGCTCCCTGGCCGTTGCAGGGTTCGGCCGCGCCGGTCAAGGTGGCTTTGTATGGAAGGACCCCGGGAGCCTTTGATGCTTTGGCTGCCGTATTGGCCGGAAAGGCGAAGGCGCCGGGAAAGCTGCCTGCCGCCGTCGGAAGCTTTCCTGCCGGCACCGGCTGCCCCTAG	MASFPRTRNSTHQSTLAVAAVAAVAALASCSVPPAPAPASTSPAASAAPSAESPTPVPPAESASPDAAADKVSQPLGWGPEQRDQDAAAAAVAAMTVEEKAGQVLMPSYTGTDAESHAATIERLHLAGSIIMGDNVPLDPQNQVDTAAMTAITTRLAQAARADGRTWPGLIGVDQEGGIVSRLGAPLTEWPAPMSYGATASAPLTQDSGRALASELAPLGFNVDFAPDVDVTIGPADPTIGARSLSGDPELAARLGVAFSHGIQDAGLLPAVKHFPGHGSVTVDSHQSLPVQPASVAELNARDWKPFKAAIDAGTPMVMTGHIAVPALEPGVPASLSKPTYAALRAMGFNGVAVTDALNMGAIQQQFPGGGAAPAALAAGADLLLMPTDVGQAHAAIVSAVASGSLPGARLDEAARRVATMMIWRGRSTPAPAQAPGSGNGLSAQVSAAAITVLSGQCAGPLVQGSVQVAGGSPQDRARFEAAVSRVGLSVGAGPVVSLIGYGGQPAGGDIAVALDAPWPLQGSAAPVKVALYGRTPGAFDALAAVLAGKAKAPGKLPAAVGSFPAGTGCP	PGPT0012175_1837	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
D1-29_03384	1152		COG2170	Putative glutamate--cysteine ligase 2	GTGAAGATTGATTTCGCTTCATCGAGGCAATCAACTCTTGGTGTGGAATGGGAACTGGCGCTCGTGAACGGCCAAACAGGTGAACTCGCCTCGGTCGCGAACGAGGTGTTGCGCGGAGTGGCTTCCAAGCACCCTGAGCTCAATGAGGATGACGAGCACCCGCACATCAAGCAGGAACTGCTGCTGAACACTGTGGAACTCGTCACCGGGATCTGCGAGACGGCAGCCGAAGCCAAGGAAGACCTGAGCCGCTCCCTGGCCGCGGTCCGCGAAATCACCGATCCCATGGGCGTGGAAGTCTTCTGCGCCGGCAGCCATCCCTTCAGCCCGCCGCAGCTCCAGCCGGTGACTGACAAGGCCCGCTACGCCAAGCTGATCGACCGGACCCAGTGGTGGGGCCGGCAGATGGTGATCTACGGTGTCCACGTCCACGTGGGCCTGGACCGCCGCGAGAAGGCGCTGCCGGTGCTGGATGGGCTGGTCAATTACTTCCCCCATTTCCAGTCCCTTTCCGCCTCCAGCCCGTTCTGGGGCGGCGAAGACACCGGCTACGCCTCACAGCGGGCCCTGATGTTCCAGCAGCTTCCCACGGCAGGCCTGCCCTTCCAGTTCCGGTCCTGGGAGGAGTATGAGTCGTACGTCCAGGACATGTTCATCACCGGGGTCATTGACACCCTGTCTGAAATTCGGTGGGACATCCGGCCGGTACCAAACCTGGGCACCATAGAAATGCGCATTTGCGACGGCCTGGCCACGCTGGAGGAAGTGGGCGCCATCGCTGCCCTCACCCAGTGCCTTGTTGACGAGTTTTCCACCACGTTGGACAACGGCGGCACCATTCCCACCATGCCGCCCTGGCACATCCAGGAAAACAAGTGGCGTGCCGCGCGCTATGGCATGGATGCCATCATCATCCTGGATGCGGCGGGCAAGGAGCAGCTGGTGACCGAACACCTGCTCGAAACCCTCAACAGGCTTGAACCCGTGGCGGCAAAGCTGGGCTGCGCGGACGAGCTGGCCGACGTCGAAAAGATCATCAGCCGCGGCGCCGGTTACCAGCGTCAGCGCCGCGTCGCAGCCGAACACGGCGGAGACCTGCAGGCGGTAGTACTGGACCTGGTCAAGCAGATGCGCAACGGTCCCACGGCCTAG	MKIDFASSRQSTLGVEWELALVNGQTGELASVANEVLRGVASKHPELNEDDEHPHIKQELLLNTVELVTGICETAAEAKEDLSRSLAAVREITDPMGVEVFCAGSHPFSPPQLQPVTDKARYAKLIDRTQWWGRQMVIYGVHVHVGLDRREKALPVLDGLVNYFPHFQSLSASSPFWGGEDTGYASQRALMFQQLPTAGLPFQFRSWEEYESYVQDMFITGVIDTLSEIRWDIRPVPNLGTIEMRICDGLATLEEVGAIAALTQCLVDEFSTTLDNGGTIPTMPPWHIQENKWRAARYGMDAIIILDAAGKEQLVTEHLLETLNRLEPVAAKLGCADELADVEKIISRGAGYQRQRRVAAEHGGDLQAVVLDLVKQMRNGPTA	PGPT0026300_492	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
D1-29_03385	1125	tsaD	COG0533	tRNA N6-adenosine threonylcarbamoyltransferase	ATGAACCGCACACAGCCGCTCGTGCTGGGCATCGAATCTTCCTGCGACGAGACCGGCGTCGGGATCGTACGGGGCACCAAGCTCCTCACCAACACGGTGTCATCGTCGATGGACGAGCACGTCCGTTTTGGCGGAGTGATCCCGGAGATCGCCTCGCGGGCCCACCTTGATGCCTTTGTTCCCACCCTCCGCCAGGCGTTGTCCGACTCCGGTGTGGAACTGGACGATATTGACGCCATCGCCGTGACGTCGGGCCCCGGCCTCGCCGGAGCGCTGATGGTGGGAGTCTGTGCCGCTAAGGCACTGGCCGTGGCCACCGGAAAGCCCCTCTACGCCATCAACCACCTGGTGGCGCACGTTGGCGTGGGGCTTCTGGACGGGGGAGTGGCGGGGCCCGGACGGGCTGGCGAGGCCGGCGCCGCCGAAGCCGCACCCCGGCTCCCGGAAAACGTCGGCGCCCTGCTGGTATCCGGCGGACACACCGAGATCCTGAAGATCAACAGCATTACCGATGACGTGCAGCTCCTTGGCTCCACGATCGACGACGCAGCCGGCGAGGCCTATGACAAGGTGGCGCGCATCCTTGGCCTTGGCTATCCGGGCGGCCCTGCCATCGACAAACTGGCACGAACAGGCAATGCAAGGGCCATCCGCTTCCCGCGCGGGCTTTCCCAGCCCAAGTACATGGGTACAGCCGAGGAGCCGGGGCCGCACCGCTACGACTGGTCCTTCAGCGGACTGAAGACGGCGGTGGCACGCTGCGTGGAGCAGTTCGAGGCCCGCGGGGAAGACGTCCCGGTAGCCGACATCGCCGCCGCCTTCCAGGAGGCCGTGGTGGACGTCATCACCTCCAAGGCCGTCCTGGCCTGCCGCGAGAACGGCATCAAGGACGTCCTGCTGGGCGGGGGAGTGGCGGCGAACTCCCGGCTGCGTGAGCTCACCGGCCAGCGCTGCGCATCTGCGGGGATCAGGCTGCACGTGCCCCCATTGGACCTCTGCACGGACAATGGAGCCATGGTGGCCGCACTCGGCGCCCAGCTGGTCATGGCCGGGATCGCACCCAGCGGCATCCGCTTCGCGCCGGACTCCTCGATGCCTGTCACCGAAGTTTCGCTTCCCGCCTAA	MNRTQPLVLGIESSCDETGVGIVRGTKLLTNTVSSSMDEHVRFGGVIPEIASRAHLDAFVPTLRQALSDSGVELDDIDAIAVTSGPGLAGALMVGVCAAKALAVATGKPLYAINHLVAHVGVGLLDGGVAGPGRAGEAGAAEAAPRLPENVGALLVSGGHTEILKINSITDDVQLLGSTIDDAAGEAYDKVARILGLGYPGGPAIDKLARTGNARAIRFPRGLSQPKYMGTAEEPGPHRYDWSFSGLKTAVARCVEQFEARGEDVPVADIAAAFQEAVVDVITSKAVLACRENGIKDVLLGGGVAANSRLRELTGQRCASAGIRLHVPPLDLCTDNGAMVAALGAQLVMAGIAPSGIRFAPDSSMPVTEVSLPA				NA	NA	NA	NA	NA
D1-29_03386	513	rimI	COG0456	N-alpha-acetyltransferase RimI	GTGAATGCCCGCGCGGGGCACCCCGCTGAAGATGTCATCCTCCGCGACATGACCCTCGATGACGTGCCCACCGTCAACGCCCTGGAACAGCGGCTGTTCCCGAACGACGCCTGGCCGCTGCAAATGTTCTTCGACGAGCTGTCCCAGACAGCAACCCGGCGGTACCTCGTGGCTGAAACCACCACCGGAATCGTGGGCTACGCAGGCCTGATGTGCATTGAGCCCATCGCGGACGTGCAAACGATCGCCGTCGTCCCTGAGTTTGAGGGTCGGGGGATCGGCTCGGCGCTGCTGACCCAGCTCATCGACGAAGCGCGGCGCCGCGGTGCCGCTGACGTCCTGCTGGAGGTCAGATCCGACAACCCACGCGCCCAGCAGCTGTACCTGCGGTTCGGTTTTGAGGAGATTCATCTCCGCCGGAAGTATTACCGGGACGGCGTCGACGCCTTGATCATGCGGCTCCAGCTCACCGAACCCGGGAACCACCGGTCAACGGAAGCAGGCCAGCCATGA	MNARAGHPAEDVILRDMTLDDVPTVNALEQRLFPNDAWPLQMFFDELSQTATRRYLVAETTTGIVGYAGLMCIEPIADVQTIAVVPEFEGRGIGSALLTQLIDEARRRGAADVLLEVRSDNPRAQQLYLRFGFEEIHLRRKYYRDGVDALIMRLQLTEPGNHRSTEAGQP				NA	NA	NA	NA	NA
D1-29_03387	672		COG1214	putative protein	ATGCTTCTTCTCGCCATCGACACCTCGGCCGTGGCAAGCGCAGCCCTTGTCTCGGACGACGCCCTGGAAGGGGTGGTGGCCAGCTTCTCCACCGAGGACACCCGCAGCCATGCAGAAGTGCTGGCCCCGGGGATCGAGGAGCTCCTCAGCTCGGCCGGCGTTGCCGGCACTGACATCGACGCGATCGTTGCCGGGGTAGGTCCAGGCCCGTTCACCGGCCTGCGGTCAGGCATTGCCACTGCCCGCACCCTCGCCTTCGTGTGGGACAAACCGCTGTACGGCCTGATGAGCCTGGATGCTGTTGCCCTCGAAGTAGCGGAATCCATTGACGCTGCTGCTGATTTCCTTGTGGTGACAGATGCCCGGCGGAAAGAGGTCTACTGGGCCCGCTACAGCCTGGCGGCAGGACAGCTGCCCCAGCTGGAAGACGGCCCCCACGTGGGCTTCGCTGCCGACTTGCCTGACCTGCCTGCCTATGGGGCAGGGGCTGGCCTGTACGCCGACGTCCTGCGCGCCGACCCTGACTTCATCACAGAGCAGCCTGATGCCCTGTACCTTGGCCAGTTTGCCCTGGCACGGCTGGCAGCGGGCGGGCACCTGCTCGATTCAACACCTCTGTACCTGAGGGAATCCGATGCCCAGGTGCCCGGACCACGGAAGCGGGCGCTGTGA	MLLLAIDTSAVASAALVSDDALEGVVASFSTEDTRSHAEVLAPGIEELLSSAGVAGTDIDAIVAGVGPGPFTGLRSGIATARTLAFVWDKPLYGLMSLDAVALEVAESIDAAADFLVVTDARRKEVYWARYSLAAGQLPQLEDGPHVGFAADLPDLPAYGAGAGLYADVLRADPDFITEQPDALYLGQFALARLAAGGHLLDSTPLYLRESDAQVPGPRKRAL				NA	NA	NA	NA	NA
D1-29_03388	606			hypothetical protein	ATGAGCGTGGCGGCGGCCCCTGACCAGCCCAACTGGGAACTGACGCTGACCGTGACGACGGCGGACCAGACACATGCGCTCGGTGCAGCCTTGGCCACCGAGCTGGAAGCCGGGGACCTGCTGGTCCTGTCCGGCGAACTGGGTGCGGGCAAGACCACCTTCACGCAGGGGCTGGGAGAAGGGCTGGGGGTGCGTGCCGGAATCATTTCGCCCACCTTTGTCCTGGTTCGCATCCATCCGAACCTGCCTGACGGGCCGCGGCCTGGCGGCCCGGACCTGGTCCATGTTGACGCCTACCGGCTGGGGTCCGCCTCAGAGATTGATGACATTGACCTGGAGAACACCATGGATTCGGCCGTGACGGTGGTGGAGTGGGGACGGGGCCGGGTGGAGCACCTCAGCGACAACCGGCTGGAGATCGATCTCCAGCGGGCCATTGGCCTGCCCTCCCGGGCCGGCGCCGCCCACCCCACGGTCACCGGCACCCGCACTTTGGACTTTGACACCGACGATAACGACGAGCCACGCACCATTGTGCTGCGCGGATTCGGCGAACGCTGGAGTACCGCGCCGGCCCTCGGCGGAGCCCTGGAAGGGACAGCCTGA	MSVAAAPDQPNWELTLTVTTADQTHALGAALATELEAGDLLVLSGELGAGKTTFTQGLGEGLGVRAGIISPTFVLVRIHPNLPDGPRPGGPDLVHVDAYRLGSASEIDDIDLENTMDSAVTVVEWGRGRVEHLSDNRLEIDLQRAIGLPSRAGAAHPTVTGTRTLDFDTDDNDEPRTIVLRGFGERWSTAPALGGALEGTA	PGPT0020040_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
D1-29_03389	1308	alr	COG0787	Alanine racemase	GTGATTTGCGGCGGGGCGGCCAGCACTAGAATCACTAGGGTGACTTACCCCGTAACAACCGGTGACTTCAGCGCGGCCCCAGGATCGGATCCCCTGTCTGAGCGGTCCGCCGTCGTGGATCTGGAAGCCATCCGGCACAATGTCCGCCGGCTGGCCGCTGCCGCCTCGCCCGCCAAGGTCATGGCCGTGGTGAAGGCGGATGCCTACGGGCACGGCGCGGTGCCTGTGGCCAGGGCAGCCCTGGAAGCCGGCGCGTCGTGGCTGGGGGTAGCCCACATCTCTGAGGCCCTTGCGCTCCGGGCGGCGGGAATCGACGCCCCCCTGCTGGCCTGGCTGCACACCACGGAAAGCAACTTTGGCGCCGCGGTGGCGGCCGGCGTCGATATCGGGTGTTCCGGCTGGGAGCTGGACAGGATTGTGGCGGCCGCCCGCGAGCAGGAGCGTCCCGCGCGGGTTCATTTGAAGGTGGACACGGGACTGGGACGGAACGGCGCCACCCTTGATTCCTGGGACCACCTCGTGGGAGAAGCCATGGAGTACCAGGACCAGGGGCTCCTGCGCGTCGTGGGAATCTTCTCCCACCTGTCGGTCGCCGATGAACCTGAGCGTCCCGAAACGGATCAGCAGCTCGCCGCGTTCCGTGACGTGCTGGCTGTGGCGGAAGACGCGGGGGTGGACCCTGAAGTACGCCATCTCGCCAACACACCGGCCACCCTGTCCCGGCCCGATACACACTTTGACCTGGTCCGCGTCGGACTGGGCATTTACGGCCTCTCGCCCTTCGAAGGCCAGACGTCCGCCGAACTGGGCCTTCGCCCGGCCATGACACTGCGGACCAGGGTGTCCCAATGCAAGGACGTGCCGAAGGGGCAGGGTGTTTCCTACGGGCTCCGGTACCACACCAGCGCCCCCAGCACCCTGGCCCTGATTCCCATGGGCTACGCGGACGGCGTCCCCCGCGTGGCAACGGGAGGTCCGGTGCGGGTGGCGGGCAGGACCTACCCCGTTGTGGGCCGCATCGCTATGGACCAGATGGTTATCGACCTCGGCAACATCGGCCCGGTGGGGGCGGCGCTCCTGGGTGCCGAAGTAGAACTGTTCGGTAACGGTGCCGACGGCGGTCCAACGGCCGACGACTGGGCGCGGGCAGCAGGCACCAACAACTACGAAATTGTGACCAGGATCGGGCCCCGGGTGCCGCGGCGCTTCATCAACGAACGCGCTGCCATGGAGCCTGCCAATGGCCAGATTAACGGCCAGGCCACCGTGAACGGGCAGGCCACCGTGAATGGGCAGGCCAAGCCATGA	MICGGAASTRITRVTYPVTTGDFSAAPGSDPLSERSAVVDLEAIRHNVRRLAAAASPAKVMAVVKADAYGHGAVPVARAALEAGASWLGVAHISEALALRAAGIDAPLLAWLHTTESNFGAAVAAGVDIGCSGWELDRIVAAAREQERPARVHLKVDTGLGRNGATLDSWDHLVGEAMEYQDQGLLRVVGIFSHLSVADEPERPETDQQLAAFRDVLAVAEDAGVDPEVRHLANTPATLSRPDTHFDLVRVGLGIYGLSPFEGQTSAELGLRPAMTLRTRVSQCKDVPKGQGVSYGLRYHTSAPSTLALIPMGYADGVPRVATGGPVRVAGRTYPVVGRIAMDQMVIDLGNIGPVGAALLGAEVELFGNGADGGPTADDWARAAGTNNYEIVTRIGPRVPRRFINERAAMEPANGQINGQATVNGQATVNGQAKP	PGPT0020040_194	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
D1-29_03390	1101	RBKS_3		Ribokinase	GTGCCGGACATGGACGCGATCCCCGCCCGCAGATTCGATCCGCTCTCAGCCGTCCGCACGCCCTCGGACGGGCAGTTCGACCTGATCCTGGCCGGCACCGTCTTCCAGGACATCATCTTCACGGGATTGCCGCACGCTCCGGAACCGGGCACCGAAATCTGGAGCGAGGGCATGGGCAGCTGCCCCGGCGGGGTAGCGAACCAGGCCATTGCCGCGGCCCGCCTGGGCCTCCGGACCGGCTTGGCGGCAGCCTTCGGGGACGACGGCTACGGCGATTACAACTGGAAAATCCTGGCCGGACAGGAACACGTGGATCTCAGCCTTTCCCGCCGCATCCCGGGCTGGCACTCGCCGGTCACCGTGTCCCTCAGCGTCGAAAAGGACCGCTCGCTGGTGACGCACGGACACCCCGCCCCCATCACTGCCTCGGACCTGATTGGTGTGCCGCCGCCGGCGCTCGCGGGCATCGCCGAGCTGGGGCTCGAGATTGAGCCCTGGGCCAAGGAGGCGTACCAGGCCGGCGTCAAGCTCTTCGGCGACGTGGGCTGGGACCCCAGCGGCGAATGGTCACCGGTCAGGCTGGAGAACCTGCAGTACTTCCACGCCTTCCTGCCCAACCAGCGCGAGGCCATGGCGTTCACGGGAAAGGACGACCCCTGGGCCGCGCTGTATTCCCTCGCGGACCGGGTGCCCGTGGCAGTGGTGACCCTCGGCGCCCAAGGGGCTATGGCCGTGGACTCGGAGACAGGGGAGGAAGAGTGGGTGCCGTCGCTGCCTGTGACCGCCTACGACCCCACCGGCGCCGGTGACTGCTTCGACGCCGCGTTCATCGTGGGCAGCCTCGCCGGCTGGCCGCTGGGCAACAGGCTTCGTTTTGCCAACCTTTGCGCCTCGCTGGCAGTGCAGGAAGTGGGCGGCTCGTTGGCGGCGCCGGGATGGGGTGACATTGCCGACTGGTGGCAACGCGCCAACGCCCGGCGCGAACGCCAGAGCAGCCAGTGGCTCCGCCGTTTCGGCTTCCTCGCCGAGATCATCCAGGACGTGCCGCTCGCTGCCCAGCGCCGGGCCACAGCCACCATCGCGCATCTCTCCGACGCCTGA	MPDMDAIPARRFDPLSAVRTPSDGQFDLILAGTVFQDIIFTGLPHAPEPGTEIWSEGMGSCPGGVANQAIAAARLGLRTGLAAAFGDDGYGDYNWKILAGQEHVDLSLSRRIPGWHSPVTVSLSVEKDRSLVTHGHPAPITASDLIGVPPPALAGIAELGLEIEPWAKEAYQAGVKLFGDVGWDPSGEWSPVRLENLQYFHAFLPNQREAMAFTGKDDPWAALYSLADRVPVAVVTLGAQGAMAVDSETGEEEWVPSLPVTAYDPTGAGDCFDAAFIVGSLAGWPLGNRLRFANLCASLAVQEVGGSLAAPGWGDIADWWQRANARRERQSSQWLRRFGFLAEIIQDVPLAAQRRATATIAHLSDA	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
D1-29_03391	1431	chbF	COG1486	6-phospho-beta-glucosidase	ATGCGGCTTATGATTGCCGGCGGCGGCGGATTCCGCGTCCCGCTGGTCTACCGGGCGCTGGCGTCCCCCGCATTTGCGGGCACGGTCAGCGAACTGGTGCTGTTCGACGTCGATTCCGCCCGGCTAAGTGCCATCACAGCGGTGCTGAAGGCGATGCCCGCCCCTGTCAGCGGGGCCCTGAGGCCCAGCGTCCGCACAACGTCATCCCTCCCAGAGGCACTCTCCGGAGCGCAGATGGTCTTCGCGGCGATCCGTCCCGGCGGCACTGCAGGACGGGTTGCCGATGAGCGCGTGGCCCAGGACCTTGGCCTGCTGGGGCAGGAGACCACCGGCGCGGGCGGCATCTCTTACGCCCTGCGCACCATTCCGGAGATGCTCAGCCTCGCCCGGGAGATGCAGGAACATTGCCCGGACGCCTGGCTCATCAACTTCACCAACCCGGCCGGTATGGTCACCGAGGCCCTTCTGCCGGTCCTCGGCCAAAGAGTCATTGGGATCTGCGACTCTGCGGGCGGGCTAGTCCACCGCGCGGCCCGTGCGGCCGGCATCACCCTGCAGGAGGGAAATCTCGACGGCGTGGGCTACTACGGGCTGAACCACCTGGGCTGGCTCTACCGGCTGGAGTCCGGCGGGCGCGATGTGCTTCCGGAGCTGTTGTCCGACGCGGGCGCCCTCGCATCGTTCGAGGAAGGCCGCCTCTTCCCGCAGCCGTTCCTGGCCAGGCTGGGTGCCCTCCCCAACGAGTACCTCTTTTACTACTACCAGCGTGAGAGCGCCACCGCCGCCATGCGCGCCATGCCCCAGACCCGCGGCCAGTCCATCCATGACCAGCAGTCCGAGCTTTACCCCCGGCTCGCCGCCGCCGGCTCCGACGCCTACCGTCTGTGGGACGACGCCCGCCGGTCCCGCGAGGAAGGGTACCTGGCCGAGGCCCGCACGCACGGCGAGCAGCGCGACGAGGATGACCTTGCCGGCGGAGGGTATGAACGAGTGGCGCTGGCGGTCATGCGGGCGTTGGCCGGTGGCCCGCCCGCCGCGGACCAGGCCCAGCTGATCCTCAACACACGCAACTCGCTGCCGCCCGGTCCGGAAGGAACTGGCCCGGCCGCTCCGGAACCGGCCATTCCGGGACTGCCTGCCGACGCCGTCGTCGAGGTCCCCTGCACCATAACGCCCGACGGCGCGGTGCCGCTTCCGCAGTCCGCCCCGCCGGAGGAGCAACTCGCCCTGCTCCGGCGGGTCAAGGAGGTGGAACGGCTCACTGTCCGTGCCGCGACGGACGGCGACCGGGCGGCCGCCGTCGAGGCTTTTGCCCGGCATCCCTTGGTGGATTCACCGGCACGGGGAGCAGCCCTGTTGGCTGGCTATGAACGGGAATTCCCGGCGCTGCTGCGGCTCTGGCGCGACGGTACTGCCGCGAAGTCAGGCTAA	MRLMIAGGGGFRVPLVYRALASPAFAGTVSELVLFDVDSARLSAITAVLKAMPAPVSGALRPSVRTTSSLPEALSGAQMVFAAIRPGGTAGRVADERVAQDLGLLGQETTGAGGISYALRTIPEMLSLAREMQEHCPDAWLINFTNPAGMVTEALLPVLGQRVIGICDSAGGLVHRAARAAGITLQEGNLDGVGYYGLNHLGWLYRLESGGRDVLPELLSDAGALASFEEGRLFPQPFLARLGALPNEYLFYYYQRESATAAMRAMPQTRGQSIHDQQSELYPRLAAAGSDAYRLWDDARRSREEGYLAEARTHGEQRDEDDLAGGGYERVALAVMRALAGGPPAADQAQLILNTRNSLPPGPEGTGPAAPEPAIPGLPADAVVEVPCTITPDGAVPLPQSAPPEEQLALLRRVKEVERLTVRAATDGDRAAAVEAFARHPLVDSPARGAALLAGYEREFPALLRLWRDGTAAKSG	PGPT0019105_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CARRAGEENASE,PGPT0019105-celF|licH|chbF-K01222	NA	NA
D1-29_03392	450			hypothetical protein	ATGTGGGCCGTGCTGGAGCCGATAATCAGGGCCGGCGAGACCTTCACCTGGGACCGGGACACGGTAGAGGATGACGCCAGGGAGCGCTGGTTTAAGGAACCGCCCGGCCAGGCCTTTGTGGCCGTAACCCCCGGCGGCGAGGTGATCGGCACCGGCGAGCTCCACCCCAACCAGGGCGGCCCCGGAAGCCATGTGGCCAATGCCGGGTACATGGTCCATGGCGATCACGGCGGCAAGGGGGTTGCGCGGGCTCTGTGCTCCTACTCCCTGGAAGCAGCGCGGAGTGCTGGCTTCCGTGCCATGCAGTTCAACGCCGTGGTGGAAAGCAACGTCAGGGCCGTGGCTGCCTGGCAGGGAATGGGCTTCGAAATCCTGGCCACCATCCCCGAAGCCTTCAACCACCCCACCTTGGGATACGTCGGGCTCCACGTGATGTATCGGAAGCTTTAG	MWAVLEPIIRAGETFTWDRDTVEDDARERWFKEPPGQAFVAVTPGGEVIGTGELHPNQGGPGSHVANAGYMVHGDHGGKGVARALCSYSLEAARSAGFRAMQFNAVVESNVRAVAAWQGMGFEILATIPEAFNHPTLGYVGLHVMYRKL				NA	NA	NA	NA	NA
D1-29_03393	1266	mshA_5	COG0438	D-inositol 3-phosphate glycosyltransferase	ATGACACTCATCCGCAGGGTCGCGATGCTCTCCCTCCACACGTCCCCCATGGAGCAGCCGGGTTCAGGGGATGCGGGTGGAATGAACGTCTATGTCCGGGAGCTGGCGTCAGCGCTTGCCGAGATCGGTGTGGAGGTGGAAATCTTCACCCGCTCCACGTCAGCCCGGCAGCCCGCCGTCGAACATCCCGCCCCCGGCGTATGCGTCCACAACGTTCTGGCCGGGCCGCGGCGGAAGATCCCGAAGGAGGAGCTCCCCGCGCTGCTGCACAATTTCGTTGCAGAGATTGAGCAGATCCGCCAGAGCCAGCTGCACGGCCGGTACGACATCATCCACTCCCATTATTGGGTGTCCGGAATCGCGGGCCTGGAGCTGTCCGAGCTCTGGGGCGTGCCGCTGGTCCACACCATGCACACCATGGCCAAGGTCAAGAATCTGCTGCTCGAGTCGGGGGAACAGCCGGAGCCGCGGCGCCGTGAGGTAGGCGAGCAGCGGATCGTGGACGGTTCCGAACGGCTGATCGCCAACACCAGCGCCGAGGCAGCCGAGCTGGTGTCCCATTACAACGCGGATTTCGAGCAGATCGACATCGCGCCGCCAGGTGTGGATTTGAGCACCTTCACGCCTGCATTCCGTTCGCGGTCGCGGGCAGAACGCGGTGTGCCGAAGGAAACGTTCCACCTGGTTTTCGCCGGCCGCATCCAGAGGCTGAAGGGCCCGCAGATACTGCTCAAGGCAGCTGCCCTGCTGCGGTCCCGGCGCCCCGGTATCGATCTTCGGCTCACCATCCTTGGCGCGCTGAGCGGCAACAAGGATTTCAACCTCCGGCACCTGATCGCGGACGCGGGAATGGAGGATGTTGTGACGCATCTTCCGCCCGTGGGGGCAGCCGAGCTGGCGGCCTGGTTCAGGTCAGCGGACGTAGTGGTCATGCCGTCCTACAGCGAGTCATTCGGGCTGGTCGCGCTGGAAGCCCAGGCCTGCGGGACGCCCGTTGTGGCCACCCGGGTGGGAGGGCTTTCGCGGGCCATCTGCCACGGCCGGACCGGGCTGCTGGTGAAGGGCCACCACGCCGCGGACTGGGCCGATGCGCTCGAAGCCCTGTACGACGACCCGGCCACCCGTGAAGACATGGGGCGGGCGGCCGCCATCAGGGCGGAGAACTCAGGCTGGCAGCGCACCGCCGCCATTACGCTCGAAAGCTACCATGCCGCCGTCGACAACCATCTGGGGCGCCGGCTGATCCCGGCGGTCCAGGCCCCCTGA	MTLIRRVAMLSLHTSPMEQPGSGDAGGMNVYVRELASALAEIGVEVEIFTRSTSARQPAVEHPAPGVCVHNVLAGPRRKIPKEELPALLHNFVAEIEQIRQSQLHGRYDIIHSHYWVSGIAGLELSELWGVPLVHTMHTMAKVKNLLLESGEQPEPRRREVGEQRIVDGSERLIANTSAEAAELVSHYNADFEQIDIAPPGVDLSTFTPAFRSRSRAERGVPKETFHLVFAGRIQRLKGPQILLKAAALLRSRRPGIDLRLTILGALSGNKDFNLRHLIADAGMEDVVTHLPPVGAAELAAWFRSADVVVMPSYSESFGLVALEAQACGTPVVATRVGGLSRAICHGRTGLLVKGHHAADWADALEALYDDPATREDMGRAAAIRAENSGWQRTAAITLESYHAAVDNHLGRRLIPAVQAP	PGPT0024580_692	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_GLYCOSYLTRANSFERASE_ACTIVITY,PGPT0024580-mshA-K15521	NA	NA
D1-29_03394	1683	fhs		Formate--tetrahydrofolate ligase	ATGTCTGAACGGATGACCCTCAGCGACCTTGACATCGCCAGACGGGCCAGCATCAGGCCCATCGAAGACATCGCGGCTGCCGCCGGCATCAACTCCGGGGCTCTTGAACTGTATGGGAGGTTTAAGGCAAAGATTGATCCTGCACGGCTGGACGCCCCGGTCCCCGCAGGGAAGGTGGTGCTGGTTTCGGCCATGTCCCCCACGCCCGCCGGTGAAGGGAAATCCACTACAACGGTCGGACTGGCTGATTCACTGGCACGGGCCGGCCATAAGGTGATGATTGCGCTGCGGGAACCGTCTCTGGGGCCGATCCTGGGCATGAAGGGCGGTGCCACCGGCGGCGGCTATTCCCAGGTTCTTCCCATGGATGAGATCAACCTGCACTTCACGGGCGACTTCCACGCCGTGACCTCCGCCAACAATGCACTGATGGCACTCGTGGACAACCACATCTACCAAGGCAACGAGCTGAACATTGATCCGCGGCGGATGACCTTCAAGCGGGTCCTGGACATGAACGACAGGGCACTGCGGGAAATCATCATCGGGCTGGGCGGGCCAACCCAGGGTGTCCCCCGGCAGGACGGTTTCGACATCACGGTGGCCTCGGAGATCATGGCGGTCTTCTGTCTGGCCACCGATCTGGCGGACCTCCGCAGGCGCCTGGGCCTGATCACGTTCGGCTACACCTACGACCGTTCGCCCGTCACCGTAGCCGACCTGGGCGTCGAGGGTGCGCTGGCCCTGCTCCTCAAGGAAGCCATCAAGCCCAACCTGGTGCAGACCATCGCGGGTACCCCGGCCCTGGTCCACGGCGGGCCGTTCGCCAACATCGCGCACGGCTGCAATTCCCTCGTTGCCACCCAGACAGCAAGGCGGCTTGCAGACATTGTGGTGACGGAGGCCGGGTTTGGTGCTGACCTGGGTGCGGAGAAGTACATGGACATCAAGGCGCGCGTGGCGGACGTGGCACCGTCCGCCGTCGTGGTGGTGGCCACCGTCCGGGCCCTGAAAATGCACGGCGGCGTGGCCGCCGAGAAGCTCAAGGAACCGAACCTGGAAGCGCTCCTCGCCGGCGTCGACAATCTCCGGCGGCACGTCCACAACGTGGCCAAGTTCGGAGTGACGCCCGTGGTGGCCATCAACAGGTTCGCCACCGACACCCAGGAGGAGCTGGACTGGCTTCTTGAGTGGTGCGCTGCCGAGGGTGTCCTGGCGGCGGTTGCGGATGTGTGGGGACGGGGCGGCGGCGGGGACGGCGGGGATGAACTGGCAGCCATAGTGGCCAAGGTGGTTGCCGAACCCAGCAGCTTCACACACCTGTACCCCCTGGACCTGCCGGTGGAGGACAAGATCAACAGCATTGCCCGGGAGGTCTACGGTGCGGACGGGGTGGAGTTCTCCGTCCCGGCCCAGAAACGGCTGGCCGACATCCGGAAGAACGGCTGGGGCGGACTGCCCGTCTGCATGGCCAAGACCCAGTATTCCTTCAGCGACGACGCTTCCCGGCTTGGTGCGCCCAGCGGCTTCACCATCCATGTGCGCGATCTCATCCCCAAGACCGGCGCCGGGTTCATTGTGGCCCTGACCGGAGCGGTGATGACCATGCCAGGCCTGCCGGCTGTTCCGGCAGCAATGCGGATGGACGTGGACGACGCCGGCAACCCCATCGGCCTCTCCTGA	MSERMTLSDLDIARRASIRPIEDIAAAAGINSGALELYGRFKAKIDPARLDAPVPAGKVVLVSAMSPTPAGEGKSTTTVGLADSLARAGHKVMIALREPSLGPILGMKGGATGGGYSQVLPMDEINLHFTGDFHAVTSANNALMALVDNHIYQGNELNIDPRRMTFKRVLDMNDRALREIIIGLGGPTQGVPRQDGFDITVASEIMAVFCLATDLADLRRRLGLITFGYTYDRSPVTVADLGVEGALALLLKEAIKPNLVQTIAGTPALVHGGPFANIAHGCNSLVATQTARRLADIVVTEAGFGADLGAEKYMDIKARVADVAPSAVVVVATVRALKMHGGVAAEKLKEPNLEALLAGVDNLRRHVHNVAKFGVTPVVAINRFATDTQEELDWLLEWCAAEGVLAAVADVWGRGGGGDGGDELAAIVAKVVAEPSSFTHLYPLDLPVEDKINSIAREVYGADGVEFSVPAQKRLADIRKNGWGGLPVCMAKTQYSFSDDASRLGAPSGFTIHVRDLIPKTGAGFIVALTGAVMTMPGLPAVPAAMRMDVDDAGNPIGLS	PGPT0008065_581	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008065-fhs-K01938	NA	NA
D1-29_03395	615			hypothetical protein	ATGGACGACGAGACCGAATTGGTGGACGGCATCAGGATGAGCACACGGTCTCGGACTTGGCTCGACTTGGCCCGGACCCTGCAGCTCCATGACCTAGTGAGCATGGGCGACGAGCTGATCCGCATCCCGCGGCTGGACTTCGAAGGACGCTCACAGCCTCACGACACGGTCGCGGGTCTACGCACGCTGGTGGGCCGACACCCGAATCTTCAGGGGATCGTCCGGGCGCGTGAAGCACTGGATCTGATGCGCGTAGGTGCGGATTCCGCGCCCGAGTCGCTGCTCCGGCTGGCCATTGGCAGCGCCGGGCTTTCCGAGCCCGAACTTCAGGTGCCGTTGCGCACTGGAGACCCGCGGTCGCCGTCGGCCGATCTCGCGTACCGTCATCGGAGGCTCGCTATCCAGTACGACGGCGGGCACCACCTTGGCGAGGCGCAGATCCTCAGCGACCGGAGACGGAATAGGGCTTTCGAGTCAGCTGGCTGGACGGTTCTGGTTTTCGACAAGAGCGATCTTGCGGACGATTTCACGGGTGCGGTTGTGAAGATCAAGCGGGCACTGCGCACGGGCTGGCTTGACCATCCTCAGGCCTCCGGATTCGCCAGCATCGACTGA	MDDETELVDGIRMSTRSRTWLDLARTLQLHDLVSMGDELIRIPRLDFEGRSQPHDTVAGLRTLVGRHPNLQGIVRAREALDLMRVGADSAPESLLRLAIGSAGLSEPELQVPLRTGDPRSPSADLAYRHRRLAIQYDGGHHLGEAQILSDRRRNRAFESAGWTVLVFDKSDLADDFTGAVVKIKRALRTGWLDHPQASGFASID				NA	NA	NA	NA	NA
D1-29_03396	1086	ino1	COG1260	Inositol-3-phosphate synthase	GTGTCTTCAAATCCGATTCGTGTTGCAATCGTCGGTGTGGGTAACTGCGCCGCCTCGCTCGTGCAGGGTGTGCACTACTACCGTGACGCCGATCCAAAGGCCACCATCCCGGGTCTGATGCACGTGGAGTTCGGCAAGTACCACGTTAAAGACGTTCAGTTCGTTGCAGCGTTTGACGTTGATGGCAAGAAGGTCGGCGTTGACCTCGCGGATGCCATCCTCGCCAGCGAAAACAACACCATCAAGATCGCCGACGTTCCACCCACCGGTGTCACCGTCCAGCGCGGCCACACCCTTGACGGGCTTGGCAAGTACTACCTGGAGACCATCGAGCAGTCTCCGGTGGAGCCGGTGGACGTTGTCCAGGCCCTCAAGGACGCCAAAGCTGACGTCATGGTCTGCTACCTCCCTGTCGGGTCCCAGGAAGCCGCCGAGTTCTACGCCCAGGCAGCCATCGACGCCGGAGTCGCCTTCGTCAACGCCCTGCCCGTTTTCATCGCTGGCACCAAGGCGTGGGCTGACAAGTTCACCGCCGCCGGTGTGCCGATCGTGGGCGATGACATCAAGAGCCAGATCGGTGCCACCATCACGCACCGGGTCATGGCCAAGCTCTTCGAGGACCGCGGCGTCACCCTTGACCGCACGTACCAGCTGAACGTCGGCGGCAACATGGACTTCAAGAACATGCTTGAGCGGGACCGCCTCGAGTCCAAGAAGATTTCCAAGACGCAGGCCGTGACCTCCAATGTTGAGGCCGAGCTCGCCGCCAAGGATGTCCACATCGGCCCCTCCGACTACGTCCAGTGGCTCGACGACCGCAAATGGGCATTTGTGCGCCTCGAGGGCCGCAACTTCGGTGACGCCCCGGTGTCGCTGGAATACAAGCTGGAAGTCTGGGACTCACCCAACTCAGCCGGCGTGATCATCGACGCCATCCGTGCCGCCAAGATCGGCCTGGACCGCGGCGTCGGCGGCCTATTGCTCTCTGCTTCAAGCTATTTCATGAAGTCCCCGCCGGAGCAGTTCAACGACGACCTCGCCCGTGAAAAGGTCGAGGCCTTCATCCGCGGCGACCTGGAGCGCTAG	MSSNPIRVAIVGVGNCAASLVQGVHYYRDADPKATIPGLMHVEFGKYHVKDVQFVAAFDVDGKKVGVDLADAILASENNTIKIADVPPTGVTVQRGHTLDGLGKYYLETIEQSPVEPVDVVQALKDAKADVMVCYLPVGSQEAAEFYAQAAIDAGVAFVNALPVFIAGTKAWADKFTAAGVPIVGDDIKSQIGATITHRVMAKLFEDRGVTLDRTYQLNVGGNMDFKNMLERDRLESKKISKTQAVTSNVEAELAAKDVHIGPSDYVQWLDDRKWAFVRLEGRNFGDAPVSLEYKLEVWDSPNSAGVIIDAIRAAKIGLDRGVGGLLLSASSYFMKSPPEQFNDDLAREKVEAFIRGDLER				NA	NA	NA	NA	NA
D1-29_03397	1041	gpr_2	COG0667	L-glyceraldehyde 3-phosphate reductase	ATGACTTATTCTGCTGCGGAGAACCGCTATGAATCCATGCCCTACCGCCGCGTTGGCCGCAGCGGATTGAAGCTCCCGGCCATTTCGCTGGGCCTGTGGCACAACTTCGGTGATGACAAGCGCTTTGACGAACAGCGCGCCATCCTTCGCCGCGCCTTCGACCTGGGCGTCAACCACTTCGACCTTGCCAACAACTATGGTCCGCCGGACGGCTCCGCCGAGACCAACTTCGGCCGCCACCTCGCCGACGACTTCAAGTCCTACCGCGACGAACTGGTCATCTCCACGAAGGCCGGCTATTACATGTGGCCGGGACCGTACGGAGAATGGGGCTCACGGAAGTACCTGATATCAAGCCTGGACCAGTCCCTGCAGCGGATGGGCCTGGACTACGTGGACATCTTCTACAGCCACCGGCCGGATCCGGAAACGCCTATGGAGGAGACCATGGGAGCGCTGGACTACGCCGTGCGCTCCGGCAAGGCCCTGTACGCAGGCATCTCGTCCTACACACCTGAACAGACCCTCGAGGCCGCCCGGATCCTGAAGGAACTCGGCACCCCGCTGCTGATCCACCAGCCCAGCTACTCCATGCTGAACCGGTGGACGGAGAACGGAACCCCCAACCTCTACGAAGCACTGGAGCAGGTGGGCGCCGGTTCCATCGCGTTCTCGCCGCTCGCGCAGGGGATGCTCACGGACCGGTACCTGAACGGCATTCCCGCAGATTCCAGGGCAGCGAAGGCCCGTTTTCTCTCCGAAGACGCCATCACGGACGAGAAGCTGGACCGGATCCGTGGACTGAACAAAATCGCGGCTGACCGCGGGCAGACGCTCGCCCAGATGGCCATCGCCTGGATCCTGCGCGACCAGCCGAAGGGCACTCCGGTTACGTCAGCACTGGTGGGCGCTTCGAGCGTCCGGCAGTTGGAAGACAGCCTGTCCGCCATCAACAACCTGGCATTCACGGCTGAGGAACTGACGGCCATCGACGAGTTTGCGGTGGAGTCGGACATCAACCTCTGGGCGCAGGAGCCGTAA	MTYSAAENRYESMPYRRVGRSGLKLPAISLGLWHNFGDDKRFDEQRAILRRAFDLGVNHFDLANNYGPPDGSAETNFGRHLADDFKSYRDELVISTKAGYYMWPGPYGEWGSRKYLISSLDQSLQRMGLDYVDIFYSHRPDPETPMEETMGALDYAVRSGKALYAGISSYTPEQTLEAARILKELGTPLLIHQPSYSMLNRWTENGTPNLYEALEQVGAGSIAFSPLAQGMLTDRYLNGIPADSRAAKARFLSEDAITDEKLDRIRGLNKIAADRGQTLAQMAIAWILRDQPKGTPVTSALVGASSVRQLEDSLSAINNLAFTAEELTAIDEFAVESDINLWAQEP	PGPT0008285_485	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-HYDROXYACETONE_VOLATILE_BIOSYNTHESIS,PGPT0008285-yghZ-K19265	NA	NA
D1-29_03398	1770	treZ	COG0296	Malto-oligosyltrehalose trehalohydrolase	ATGAGTATTGTTCACAATGGCCCCGGCCGGTTTGACCTCTGGGCGCCCAGAGCGGACTCAGTCACCCTGCTGGCCGGCGGGCAGCACTATCCGATGGCGAGGGTGGAGCGTGGTCCCGGAGCTGACGGCTGGTGGGCGGCCGAGTCCGCTCCCGTGGAGGGGGATGTTGACTACGGCTACCTGCTGGATGACGATCCTAAGCCGTTGCCGGACCCGCGCTCACGCCGCCTGCCGGACGGTGTCCATGCGTTGGCCCGGACCTATTCACCCGCTGCACACGTGTGGCAGGATGCCGGCTGGCAGGGCAAGGAGCTGCGCGGAGCCGTCATCTACGAGCTACATGTAGGTACTTTCACCCCGGAAGGCACCCTGGACGCCGCCGCCGAAAGGCTCAGCTACCTGGCAGAGCTGGGCGTCGATTTTGTTGAACTTCTGCCTGTCAACGGTTTCAACGGAACGCACAACTGGGGCTACGACGGCGTTCAGTGGTTTGCAGTCCACGAAGGCTACGGCGGTCCGGCTGCCTACCAGAGGTTTGTCGACGCCACCCACGCGGCCGGTATGGGCGTTATCCAGGACGTTGTTTATAACCACCTCGGGCCCAGCGGCAACTACTTGTCCAGATTTGGCCCGTACCTCAAACAGGGTGATGCCAACACCTGGGGCGACTCCGTTAACCTGGACGGCCCCGGCTCTGACGTGGTCCGTGAATACATCCTGGACAACGCGGCGCTTTGGCTGCGGGATTACCACGTGGATGGACTGCGCCTGGATGCTGTCCATGCCCTGCGGGACGAGCGCGCTGTGCACCTCCTCGAGGAACTCGGCGCCCTGGGGGATGCCATCTCAGCGGAAACAGGCCTGGCCAAGACATTGATCGCTGAATCGGACCTGAACAATCCGCGCCTGATCTACCCGCGCAACGTCAACGGCTACGGCTTGGCAGGACAGTGGAGCGATGACTTCCACCATGCCGTCCACGTTAATGTCAGTGGCGAAACCACCGGGTACTACGGCGATTTCACGTCCCTGGGGGTCCTCGCCAAGGTCCTCAAGGACGGGTTCCTGCACGATGGCAGCTACTCCAGTTTCCGCGGGCGCCACCACGGACGGCCCATCAACACCGCACTTGTTCACCCCGAAGCGCTGGTGGTCTGCAACCAGAACCACGACCAAATTGGCAACAGGGCCACAGGGGACAGGCTTTCCCAGTCGCTGCACTACGGCCAGTTGGCTGTCGCCGCGGTGCTGACCCTGACCTCGCCCTTTACTCCAATGCTGTTTATGGGCGAGGAATTCGGCGCCTCCACACCGTGGCAGTTCTTCACCTCGCACCCTGAACCGGAGCTCGGCAAGGCGACGGCGGAAGGCAGGATCCGTGAGTTCGAACGGATGGGGTGGGACCCCGCCGTCGTGCCCGATCCGCAGGATCCGGAAACCTTCCGGCGCTCAAAGCTGAACTGGGAGGAAGTTTCCCAGGGCCGGCACGCTCAGCTTTTGGAGCTCTACCGCTCCCTCACTGCCTTACGCCGGGGGCACCCGGAGCTGGCAGGGCTGGGGTTCACCGACACCGAGGTGCGGTTCAATGACGACGACGGCTGGCTGCGTTTTCGGCGCGGGGCCCTGGAGGTGCTGCTGAACTTCTCCGAGGAGGAGATCCGGCTGGAGGATGCATCGGGATTGATGCTCCTCTCGACGGACGACGCCACGAAACTGGAGGGCGGGGCCCTGACACTGCCTGCGTGGAGTGCCGCCATCCTGAAGGGCTAG	MSIVHNGPGRFDLWAPRADSVTLLAGGQHYPMARVERGPGADGWWAAESAPVEGDVDYGYLLDDDPKPLPDPRSRRLPDGVHALARTYSPAAHVWQDAGWQGKELRGAVIYELHVGTFTPEGTLDAAAERLSYLAELGVDFVELLPVNGFNGTHNWGYDGVQWFAVHEGYGGPAAYQRFVDATHAAGMGVIQDVVYNHLGPSGNYLSRFGPYLKQGDANTWGDSVNLDGPGSDVVREYILDNAALWLRDYHVDGLRLDAVHALRDERAVHLLEELGALGDAISAETGLAKTLIAESDLNNPRLIYPRNVNGYGLAGQWSDDFHHAVHVNVSGETTGYYGDFTSLGVLAKVLKDGFLHDGSYSSFRGRHHGRPINTALVHPEALVVCNQNHDQIGNRATGDRLSQSLHYGQLAVAAVLTLTSPFTPMLFMGEEFGASTPWQFFTSHPEPELGKATAEGRIREFERMGWDPAVVPDPQDPETFRRSKLNWEEVSQGRHAQLLELYRSLTALRRGHPELAGLGFTDTEVRFNDDDGWLRFRRGALEVLLNFSEEEIRLEDASGLMLLSTDDATKLEGGALTLPAWSAAILKG	PGPT0014130_666	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
D1-29_03399	2325	treY		Maltooligosyl trehalose synthase	ATGAGGGTACCGGCTTCGACGTACCGGCTGCAGATCCGCCGCAGCTTCACGCTCTTTGACGCTGCGGACAGGGTGCCGTACCTGAAATCACTCGGGGCTGACTGGCTTTACCTGTCTCCCATCCTGACGGCCGAGCAGGGGTCCGACCACGGCTACGACGTCACCGACCCGTCCGCGGTGGACCCGGAGCGCGGCGGGCCGGAGGGCCTCGCCGCACTCTCAAAAGCCGCACGCGAGCACGGCATGGGCGTCCTCGTGGACATCGTCCCCAACCATGTGGGGGTGGCGTCCCCGCCGCAGAACCCCTGGTGGTGGTCGCTGCTGAAGGAAGGCCGCGGCTCCCGCTACGCAGAGGCGTTCGACGTCGATTGGGACTTCGGCGGCGGGAAGATCCGGCTTCCCGTGCTGGGCTCGGATGACGACCTGGACAAGCTCGAGGTCAAGGACGGCGAGCTGCGTTACTACGACCACCGCTTTCCGCTCGCCGAAGGAACCTACGCCGAAGGGGATTCGCCGGCCGTAGTGCACGCCCGGCAGCATTACCAGTTGATGGACTGGCGTCGCGCGAATGCCGAACTCAACTACCGGCGCTTCTTCGCGGTCACCACTCTTGCCGGGATACGCGTAGAAGTCCCGCAGGTCTTCGATGAAGCGCATGCCGAGGTTGCCCGCTGGTTCCGCGAGGGGCTGGTGGACGGACTCCGCGTGGACCATCCGGACGGCCTGGCGGATCCCGCCGGCTACCTGCGCTGGCTCAAGGACCTCACCGGCGGCGCCTACATCCTCGTGGAAAAGATCCTCGAGCCCGGTGAAGTCCTTCCTGGCGACTTTGCGTGTGAAGGAACCACGGGCTATGACGCCCTGGCAGACGTGGACCGCATCCTGATCGACCCGGGCGGCCAGCCGGCACTTGACGCCCTGGATGCCAGCCTCCGCGGCAGCGACCGCCCAGCCGACTACGCCACCATGATCCACGGCACCAAACGGATGATTGCCGACGGCATCCTGCGCGCCGAAGTGCTCCGGCTGGCTCGGCTGGTTCCGCCGTCGTACGGGCTGGCGGAAGACCAGGCAGCTGACGCCCTTGCGGAAATCATCGCCGCGTTCCCCGTCTACCGGACCTACCTGCCTACTGGCGCCGAAGTGCTCAAGGAAGCCTGCGAGCTGGCGGCTGCACGCCGGCCGGATCTGGAGGTCGCAGTCGGAACACTGCTGCCCCTCCTCCTGGACCCCAGCCTGCCCATAGCCGTGCGCTTTCAGCAGACCTCCGGCATGGTGATGGCGAAGGGCGTGGAGGACACAGCGTTCTACCGCTATACGCGGCTGGGCACCCTGACTGAGGTAGGGGCGGAGCCCACTGAGTTTTCCGTAACTCCGGCCGAATTCCATCAGCGGATGCGCCGGCGTGCCGAACAGTTGCCGGAATCCATGACCACACTGTCCACCCACGACACCAAACGGAGTGAGGACGCCCGGGCCCGGATCTCGGTAATCGCCGAGGTGCCTGACGAGTGGACGGCGGCCGTCAAAACGCTTCAGGAACTCGCGCCGGTTTCCGACGCCCCTTTTGCCAACCTTCTGTGGCAGGCGGTGATCGGCGCCTGGCCCGCCAGCAGGGAACGGTTACAGTCCTATGCGCAAAAGGCTGCCCGGGAGGCCGGTAACTCCACTACCTGGACGGACCCGGACGAGCACTTCGAATCAACCGTCAGCGCGGCTGTGGACGCCGCCTTTGACGATCCACGCGTAGCCGCAGTGATTGAGGGGTTCGTGGCAAACACGGATTCCTTTGCCGCCTCCAACTCGCTGTCCGCCAAACTGATCCAGCTGACCATGCCCGGTGTTCCTGACGTTTACCAAGGCACGGAGTTCTGGGACCGGTCACTGACCGACCCCGACAACCGGCGCACCGTCGACTTCGAAAAGCGTGAAGGTGCCCTTGCCCAGCTCGACAACGGCGTGCTTCCGGAAAGCTTCCGGTCGGAAACCAGCAAACTCCTTGTCACTTCCCGGGCGCTGCGCCTGCGTCGTGACCGGCCTGAGCTGTTCCAGGGCTATCGTTCCGTGCCGGCCTCCGGGGCAGCGGCAGAACACTTGGTGGCGTTCGAGCGAGGTGCAGGGACAGGCGCCGTTACCCTGGCCACACGGCTTCCCTTAGGACTGAAACAGGCCGGCGGGTGGCGGGATACCGCCGTCGAACTCGGCGCAGCCATGCACGATGAGCTGACGGGCAAGAGGTTTGGCCCCGGATCCATTCCGGTGGCGGACATCCTCCAAACCTACCCCGTGGCGTTGCTTGTACCCGTGAAGGGAGCCGAATCATGA	MRVPASTYRLQIRRSFTLFDAADRVPYLKSLGADWLYLSPILTAEQGSDHGYDVTDPSAVDPERGGPEGLAALSKAAREHGMGVLVDIVPNHVGVASPPQNPWWWSLLKEGRGSRYAEAFDVDWDFGGGKIRLPVLGSDDDLDKLEVKDGELRYYDHRFPLAEGTYAEGDSPAVVHARQHYQLMDWRRANAELNYRRFFAVTTLAGIRVEVPQVFDEAHAEVARWFREGLVDGLRVDHPDGLADPAGYLRWLKDLTGGAYILVEKILEPGEVLPGDFACEGTTGYDALADVDRILIDPGGQPALDALDASLRGSDRPADYATMIHGTKRMIADGILRAEVLRLARLVPPSYGLAEDQAADALAEIIAAFPVYRTYLPTGAEVLKEACELAAARRPDLEVAVGTLLPLLLDPSLPIAVRFQQTSGMVMAKGVEDTAFYRYTRLGTLTEVGAEPTEFSVTPAEFHQRMRRRAEQLPESMTTLSTHDTKRSEDARARISVIAEVPDEWTAAVKTLQELAPVSDAPFANLLWQAVIGAWPASRERLQSYAQKAAREAGNSTTWTDPDEHFESTVSAAVDAAFDDPRVAAVIEGFVANTDSFAASNSLSAKLIQLTMPGVPDVYQGTEFWDRSLTDPDNRRTVDFEKREGALAQLDNGVLPESFRSETSKLLVTSRALRLRRDRPELFQGYRSVPASGAAAEHLVAFERGAGTGAVTLATRLPLGLKQAGGWRDTAVELGAAMHDELTGKRFGPGSIPVADILQTYPVALLVPVKGAES	PGPT0014125_1137	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
D1-29_03400	2256	glgX_2	COG1523	Glycogen operon protein GlgX	ATGGAAATCTGGCCCGGATCGGCTTATCCGCTTGGCGCCACTTTTGACGGAACGGGCACCAACTTCGCCCTGTTCAGCGAACGCGCCGAAAAGGTGGAACTGTGCCTCTTTGACGACGACGGAGTGGAGACGCGCTACGAGCTGGATGAAGTGGACGGCTACGTGTGGCACTGCTACATCCCGCAGGTCCAGCCCGGCCAGAAGTACGGCTACCGCGTCCACGGCCCGTACGACCCCTCCTCTGGCAACAGGTTCAACCCCAACAAACTCCTCCTGGATCCCTACGCCAAGGCAGTTCATGGACAGGTTGACTGGGATCCGTCACTCTTCTCCTACAACCTTGGCGAACCGGACTCCATCAACAATGAGGACTCCGCCCCGCATATGATGCTGGGCGTGGTCATCAACCCGTTCTTCGACTGGGACGGCGACCACAACCTGCGGGTTCCGTACCACAAGTCCGTCATCTACGAGGCCCACGTCAAGGGCCTGACGCAGCTGCACCCCGAAATTCCGGAGGAGCAGCGCGGAACCTACGCCGGGGTGGCGCACCCCTCCGTCATTTCGCACCTGCAGAAGCTGGGCATTACCGCCATCGAACTGATGCCGGTGCACCAGTTCGTCAATGACGGAACACTTCAGGACAAAGGCCTGAACAACTATTGGGGCTACAACACCATCGGCTTTTTCGCGCCGCAGAACACCTACAGCTCCACCGGTGACACCGGCCAGCAGGTCCAGGACTTCAAAGCCATGGTCCGTTCGCTGCACCGCGCCGGCATCGAGGTCATCCTGGACGTGGTGTACAACCACACGGCCGAAGGGAACCACCTCGGCCCCACTCTCTCTTTCAAGGGCATCGACAACGCGGCCTACTATCGGCTGATGGAGGGGGACCGTAAGCACTACATGGACTACACGGGCACCGGCAACTCTCTCAACGTCCGCCAGCCGCACTCACTCCAGCTCCTGATGGACTCGCTGCGCTACTGGGTCACGGAAATGCATGTGGACGGCTTCCGCTTCGACCTCGCCTCCACGCTGGCCCGGGAATTCTACGACGTCGACAAACTGTCCACGTTCTTTGAACTTATCCAGCAGGATCCGGTGGTTTCCCAGGTCAAGCTCATTGCCGAGCCCTGGGATGTTGGCCCCGGCGGCTACCAGGTGGGCAACTTCCCGCCGCAGTGGACCGAATGGAACGGCAAGTACCGCGATACGGTCCGGGACTTCTGGCGCGGGGAACCTGCCACGCTGGGCGAATTCGCTTCCCGCATTACGGGATCCGCGGATCTGTATGAACACTCCGGGCGCCGTCCCGTGGCATCCATCAACTTTGTCACCGCCCATGACGGCTTCACGCTGGCAGACCTCGTCTCTTACAACGAGAAGCACAATGAGGCGAACGGCGAGGGCAACAACGACGGCGAATCCCACAACCGGTCGTGGAACTGCGGAGTGGAAGGACCCACTGACGATCCCGCAGTCCTTGGCCTGCGCGCCCGCCAGCAGAGGAACTTCATCGCGTCCCTGCTGCTCTCCCAGGGTGTGCCCATGCTGCTGCACGGCGACGAGCTTGGCCGCACCCAGCAGGGCAACAACAACGGCTACTGCCAGGACTCGGAGCTGACCTGGGTCAACTGGGACAACATCGACCAGCCGCTTGTTGAATTCACGGCCGCCGTCAACGCCCTCCGCGCGAAGCACCCCACCTTCCGCCGGAGCCGCTTCTTCGACGGCCGCCCTGTCCTGAGAGGCGAAGGCGAGCGGCTGCCGGACATCGTCTGGCTGGACCTCGACGGCGAAACCATGAAACCGGAGGACTGGCATAGCGGTTTTGGACGCTCGGTGGGCGTCTTCCTGAATGGCAACGGAATCCAGGGCAAGGACACCCGCGGCCGCAGGATTACCGATGTCAACTTCCTGTTGTACTTCAACGCCCACGACGACATGGTCAAGTTCACGCTCCCGGCTGACGAGTACGCGCCGGCCTGGGACATCATCATTGACACTGCCGGGCACCACGCTGACACCGATCCCGTGAACGCCGGCCAGTCGCTGCGCGTGGACGCAAAATCCCTCGTTGTCCTCCGCGCCCACAGCGTGCCGGAAACCGAGCCGGACCACTCGGTGGCCGCATCGCTCGCGGCGTTGACGCAGACATCCACCAGTGAGACCGAGGCTTTCAGCACACCCATGGTGGCTGAGCCGGCGAAGACCACGAAAGTGGGTCCACGAAGGGAATCGGCAAAATGA	MEIWPGSAYPLGATFDGTGTNFALFSERAEKVELCLFDDDGVETRYELDEVDGYVWHCYIPQVQPGQKYGYRVHGPYDPSSGNRFNPNKLLLDPYAKAVHGQVDWDPSLFSYNLGEPDSINNEDSAPHMMLGVVINPFFDWDGDHNLRVPYHKSVIYEAHVKGLTQLHPEIPEEQRGTYAGVAHPSVISHLQKLGITAIELMPVHQFVNDGTLQDKGLNNYWGYNTIGFFAPQNTYSSTGDTGQQVQDFKAMVRSLHRAGIEVILDVVYNHTAEGNHLGPTLSFKGIDNAAYYRLMEGDRKHYMDYTGTGNSLNVRQPHSLQLLMDSLRYWVTEMHVDGFRFDLASTLAREFYDVDKLSTFFELIQQDPVVSQVKLIAEPWDVGPGGYQVGNFPPQWTEWNGKYRDTVRDFWRGEPATLGEFASRITGSADLYEHSGRRPVASINFVTAHDGFTLADLVSYNEKHNEANGEGNNDGESHNRSWNCGVEGPTDDPAVLGLRARQQRNFIASLLLSQGVPMLLHGDELGRTQQGNNNGYCQDSELTWVNWDNIDQPLVEFTAAVNALRAKHPTFRRSRFFDGRPVLRGEGERLPDIVWLDLDGETMKPEDWHSGFGRSVGVFLNGNGIQGKDTRGRRITDVNFLLYFNAHDDMVKFTLPADEYAPAWDIIIDTAGHHADTDPVNAGQSLRVDAKSLVVLRAHSVPETEPDHSVAASLAALTQTSTSETEAFSTPMVAEPAKTTKVGPRRESAK	PGPT0019225_700	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ISOAMYLASE,PGPT0019225-ISA|treX-K01214	NA	NA
D1-29_03401	1584	nnr_1	COG0062	Bifunctional NAD(P)H-hydrate repair enzyme Nnr	ATGATCAGCGCCTACACCGGAACCCAGATCAGGACGGCCGAAGAGCCCCTCCTCGCTGCCGGCATGGGCGCTGTCCTGATGCAGCGGGCTTCCCACGGGCTTGCCAACGCGGTGGTCCGTGAGTTGCAGGGCAGGCGGCGGAGGTTGTACGGCTGCCATGTCGCCGTGCTGGCCGGCAAGGGCAACAACGGCGGAGACGGCCTTTTTGCGGCCGCCTTCCTAGCCGCGCGTGGAATGCGTACGACGGCGGTGCTCGCCTCAGCAACAGCACACCCTGAGGCGCTTGCTGCCTTTCAACGCGCGGGCGGCAGGGTGCACCTGCTTGCTGACTCCAGCGTTGGCCGGTTGGCCGAGGAGGTGGCGCGTGCCGACGTCGTGATTGATGCCGTGCTGGGAACTGGCGCTAAAGGCGGCCTGCGCGGACCCGCAGCGGCCCTGGTGGAGGCTCTTCTGGCGGAAGGACTGCCGGGCAGAACCGAACAGCTGGTGGTTGCCTGTGATGTTCCCAGCGGAGTGGATGCGGACACCGGGGAAGTCCACGCACCCGTCCTGCCTGCTGATGTGACGGTGACCTTCGGCGGCGCCAAGGCCGGACTGCTGGCCGACCCCGGAGCGGGCCACTCAGGCCGCGTGCAAGTGGTGCAGATCGGCATAGAGGAGAACCTGCCATGGCCTGCCCTGCGCAGGTTCGATGCCACGGACCTCTCCCGTTTGCTGCCGCAGCCGGGGAGGCGATCGCACAAGTATTCCCGGGGTGTGCTGGGTGTGGTGGCAGGATCGGCTGACTATCCCGGGGCGGCGGTGCTCGCGTGCCGCGGAGCCCTGGCCGCAGGAGTGGGCATGGTCCGCTACCTGGGCCCGCCCGAGGTGGCTGACCTCGTCCGGCAGTCCTGCCCCGAGGTAGTGTGTGGCACCGGATCGGTGGCCGAGACCCACGTCCAGGCCTGGCTGGTGGGCTCAGGAATGGGCCCCGGCGACGCCGAACAGCTTCAGCGCGCCCGCGATGCAGTGGACTCGGGATTGCCCACGATTGCGGACGCCGGCGCGCTTCCGGTCCTGCCTGACGTGATGGCTCCCCAGGTGGTGCTGACCCCGCATGCGGGTGAACTGGCGGCACTGCTGCACCGGCTGCATGACCATACTGAAGGCTCCGCGGCTCCCTTTCCCGACCGGGCCGCCGTCGAATCCCGCACCTTGGATGCGGTCCGCCACGCCGCGGTGCTAACCGAGGCCACAGTCCTCCTCAAAGGCGCGGCGACACTGGTTGCGTCCCCCTTCCAGGACGCCTACAGCCAGGCAGAAGGTACGCCTTGGCTCGCCACCGCCGGCAGCGGCGATGTCCTGGCCGGAGTCATTGGCGCGCTGCTCGCCCAGGCGGGTTCCGACGTCGGGCGCTTCAGTGATGCGGGCATCGATCCGGAGGAACGGTGGGCGGCCATTGCCGCCCTCGCCGCCAGCCTCCATGGACTCGCGGGAGCGGCCGCATCTGCCGGCGGACCGCTGACTGCAGGCCGGATTGCGGACGCCCTGCCGGAGGTTTGGGGTAAAGTAAGTAGGCTTAGCAATTCGGTGGTGAAATCGTAA	MISAYTGTQIRTAEEPLLAAGMGAVLMQRASHGLANAVVRELQGRRRRLYGCHVAVLAGKGNNGGDGLFAAAFLAARGMRTTAVLASATAHPEALAAFQRAGGRVHLLADSSVGRLAEEVARADVVIDAVLGTGAKGGLRGPAAALVEALLAEGLPGRTEQLVVACDVPSGVDADTGEVHAPVLPADVTVTFGGAKAGLLADPGAGHSGRVQVVQIGIEENLPWPALRRFDATDLSRLLPQPGRRSHKYSRGVLGVVAGSADYPGAAVLACRGALAAGVGMVRYLGPPEVADLVRQSCPEVVCGTGSVAETHVQAWLVGSGMGPGDAEQLQRARDAVDSGLPTIADAGALPVLPDVMAPQVVLTPHAGELAALLHRLHDHTEGSAAPFPDRAAVESRTLDAVRHAAVLTEATVLLKGAATLVASPFQDAYSQAEGTPWLATAGSGDVLAGVIGALLAQAGSDVGRFSDAGIDPEERWAAIAALAASLHGLAGAAASAGGPLTAGRIADALPEVWGKVSRLSNSVVKS				NA	NA	NA	NA	NA
D1-29_03402	348	acpS		Holo-[acyl-carrier-protein] synthase	ATGATTGTTGGCATTGGCGTAGACGTTGTAGATATCGAGCGGTTTGGCCGCCAGCTTGAGCGGACCCCGGGGCTCCGGGACAGGCTGTTTGTACCCGCCGAGCGGGAGCTGAACACCCGGTCCCTGGCCGCGCGGTTTGCTGCCAAGGAAGCGGTGGCCAAGGTTTTGGGCGCGCCTGCCGGCATGAACTGGCAGGACTGCTGGATCGGCCTTGACCACAACGGGCCCACTGTCCAGGTCAAGGGCACCGTCCTGGCCGTAGCCGAGGCCAAGGGCGTCAAGCGCTGGCACCTGTCCATGAGCCACGACGGCGGAGTTGCTACTGCCACGGTTCTGGCCGAGGGCTGA	MIVGIGVDVVDIERFGRQLERTPGLRDRLFVPAERELNTRSLAARFAAKEAVAKVLGAPAGMNWQDCWIGLDHNGPTVQVKGTVLAVAEAKGVKRWHLSMSHDGGVATATVLAEG	PGPT0008840_3627	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0008840-acpS-K00997	NA	NA
D1-29_03403	1893	glmS_2	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGTGTGGAATCGTGGGATATGTAGGCTCTTCAAACGGCCGCGGGAATGCCGGTCACAATGCGCTGGATGTGGTCCTTGAAGGACTGCGCCGCCTCGAGTACCGGGGCTATGACTCGGCCGGCGTCGCCGTGGTGTCCATGGGCGCCATCGAAGCCCGGAAGAAGTCGGGCAAACTGAGCAACCTGCTCACCGAACTGGACGAGCGCCCGCTGCCGGAGACGCTGACCGGTATCGGCCACACCCGCTGGGCCACCCACGGAGGCCCGACGGACCGCAACGCCCACCCGCACCTGGCTGACGACGGCAAGCTGGCCGTCATCCACAACGGCATCATCGAAAACTTCGCCGAGCTCAAGCTCGAGCTGCTGGAAAAGGGCATTACGTTCCTGTCCGAAACCGACACCGAGGTGGCCGCGGCGTTGCTGGCCGACATCTTTCGCAACAAGCTCGGCGGGGACGTAACTGACGGCGCCCTGACCCGGGCCATGGAGCTGGCCTGCCAGCGCCTGGAGGGTGCGTTTACGCTGCTCGCGGTCCACGCTGACCAGCCCGACGTCGTCGTGGCCGCCCGCCGCAACTCACCCTTGGTGGTTGGCCTGGGCGAGGGCGAGAACTTCCTGGGCTCGGACGTTTCCGGGTTCATTGACTACACCCGCCGTGCGGTGGAGCTGGGCCAGGACCAGATTGTCACCATCACCGCGGACACTGTGGACATCACCGATTTCTTCGGCAACCCCGCCGCGGGTAAGGAATACCACGTGGACTGGGACCCGGCCTCGGCTGAAAAGGGCGGCTTCAGTTCGTTCATGGAGAAAGAAATCCATGACCAGCCCGACGCCGTGGCGCAGACCCTGCTGGGCCGGTCGGACCTGGACGGGAAGCTGACCCTGGATGAGATCCGGATCGATCCTGAACTCCTGAAGCAGGTCAACAAGATCATTGTGCTTGCCTGCGGCACCGCCGCCTATGCGGGCACGGTGGCAAAGTACGCGATCGAAAACTGGTGCCGGATCCCCACGGAAGTGGAGCTGGCGCACGAGTTCCGCTACCGCGACCCGATCCTGGACGCCAACACCCTGGTGGTCTCGATCAGCCAGTCCGGCGAAACCATGGACACCCTGATGGCCGTACGGTACGCCCGCGAGCAGGGCGCCAAGACCATCTCCATCTGCAACACCAACGGCTCCACCATCCCGCGCGAATCCGATGCCGTGCTGTACACCCACGCCGGCCCGGAAATCGCGGTGGCCTCCACCAAGGCTTTCCTGGCACAGATCACCGCGGCGTACCTGCTGGGAATGTACCTGGCACAGCTTCGCGGCAACATCTTCTCCGGCCAGATCAAGGATGTCCTGGCGGACCTGAACAAGATTCCGGCCAAGATCCAGACCATCCTGGACAATGCCGGCCCGTTGCGTGAGCTGGCCCGAAGCATGGCCGACGAAACATCGGTGCTGTTCCTGGGCCGGCACGTTGGCTACCCGGTGGCGCTTGAGGGTGCCCTGAAGCTCAAGGAAATCGCCTACATCCACGCCGAGGGCTTCGCCGCCGGCGAGCTCAAGCACGGCCCCATCGCCCTGATCGATGAAGGCAAGCCGGTTTTCGTGATTGTTCCGTCCCCGCGCGGCCGCGAATCGCTGCATGCCAAGGTGATCAGCAACATCCAGGAAATCCGTGCCCGCGGCGCCCGCACGCTGGTGATCGCCGAGGAAGGCGACGAAGCCGTGAAGGCCTACGCTGAGCACGTCTTCTACGTCCCGGAAACGCCCACGCTGCTGATGCCACTGCTGACCACCGTCCCGCTGCAGATCTTCGCCGCCGAATTGGCCGCCGCGAAGGGCTACGACGTGGACCAGCCTCGCAACCTGGCCAAGAGCGTGACCGTAGAATAG	MCGIVGYVGSSNGRGNAGHNALDVVLEGLRRLEYRGYDSAGVAVVSMGAIEARKKSGKLSNLLTELDERPLPETLTGIGHTRWATHGGPTDRNAHPHLADDGKLAVIHNGIIENFAELKLELLEKGITFLSETDTEVAAALLADIFRNKLGGDVTDGALTRAMELACQRLEGAFTLLAVHADQPDVVVAARRNSPLVVGLGEGENFLGSDVSGFIDYTRRAVELGQDQIVTITADTVDITDFFGNPAAGKEYHVDWDPASAEKGGFSSFMEKEIHDQPDAVAQTLLGRSDLDGKLTLDEIRIDPELLKQVNKIIVLACGTAAYAGTVAKYAIENWCRIPTEVELAHEFRYRDPILDANTLVVSISQSGETMDTLMAVRYAREQGAKTISICNTNGSTIPRESDAVLYTHAGPEIAVASTKAFLAQITAAYLLGMYLAQLRGNIFSGQIKDVLADLNKIPAKIQTILDNAGPLRELARSMADETSVLFLGRHVGYPVALEGALKLKEIAYIHAEGFAAGELKHGPIALIDEGKPVFVIVPSPRGRESLHAKVISNIQEIRARGARTLVIAEEGDEAVKAYAEHVFYVPETPTLLMPLLTTVPLQIFAAELAAAKGYDVDQPRNLAKSVTVE	PGPT0017630_965	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
D1-29_03404	987	coaA	COG1072	Pantothenate kinase	GTGAAGGGCAGAATCTCTAAAGTGACTTTGCAACGCAATGAAGCGAACGGCGAGGGTGTCTCCCCGTTCGTCGAGCTGGACCGGCAGACGTGGTCCCGGCTCGCAGCCCAGATGGAACAGCCTCTTAACGAAGAGGACATTGTCCGTCTGCGCGGCCTCGGCGATCCCCTGGACATGACCGAGATCCGTGAGGTCTATCTGCCGCTCTCCAGGCTCCTCCATCTTTATGTCGAGGCCTCCCATCAGCTTCATTCCGCCACCACTACCTTCCTGGGCGAAAAGACGCAGCGCACACCCTTTGTGATCGGTGTGGCCGGATCCGTGGCGGTGGGAAAGTCCACCATTGCCCGCGTTCTCCGGGAGATGCTGCGCCGCTGGCCCGGCACGCCCAACGTGGAACTGATCACAACTGACGGTTTCCTTTATCCGCTGGCTGAGCTTAAGCGGCGCCAGCTGCTGGAACGCAAAGGGTTCCCGGAGTCCTATGACCGCCGGGCGCTGCTGCGGTTTGTGAGCGAGATCAAGAGTGGGGCCGAAGAAGTGCGGGCGCCATGGTACTCCCACGTCACCTACGACATCGTTCCCGGCAAGGAAGTGGTGGTCCGACGCCCTGATGTCCTGATCGTGGAAGGCCTGAACGTGCTGGCTCCTGCGCGTCCGCGCCATGACGGCAAACAGGGTTTGGCGCTGAGCGACTTCTTCGACTTCTCCATCTACGTGGATGCCCCGACGTCCTACATTGAGGAGTGGTACGTGGACCGCTTCCGCAAGCTCCGCAGCACCGCGTTTGCGCAGCCCGAGTCCTATTTCCACCGCTACGCCACCTTGTCGGATGAGGAGGCGGAGACCACCGCCCGCGACATTTGGAAGCGCATCAACGAGCCCAACCTGGAGGAGAACGTGCTGCCCACCCGTGGACGCGCCCAGCTGGTGCTGTCCAAGGATGCCGACCACTCCATCCGCCGCATGCTGCTGCGGAAGGTCTAG	MKGRISKVTLQRNEANGEGVSPFVELDRQTWSRLAAQMEQPLNEEDIVRLRGLGDPLDMTEIREVYLPLSRLLHLYVEASHQLHSATTTFLGEKTQRTPFVIGVAGSVAVGKSTIARVLREMLRRWPGTPNVELITTDGFLYPLAELKRRQLLERKGFPESYDRRALLRFVSEIKSGAEEVRAPWYSHVTYDIVPGKEVVVRRPDVLIVEGLNVLAPARPRHDGKQGLALSDFFDFSIYVDAPTSYIEEWYVDRFRKLRSTAFAQPESYFHRYATLSDEEAETTARDIWKRINEPNLEENVLPTRGRAQLVLSKDADHSIRRMLLRKV	PGPT0008770_155	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
D1-29_03405	906			hypothetical protein	ATGTGCCACGACTGCGTTTCGGACAACGGAACTAGCGGGCCCCACACGCCGGCTGTCAGCAGCCGGCGCAGCTTTACGCGCTTTCTCGCCGCCGGAGCAGGGCTGACTGTCCTGGCAGCCTGCACGCCGGATCCCGTTGGGCCGGTCACGCCGTCGTCGTCCGCTTCTTTGGCATCAGCCCCGCCTCCCTCCCCCTCGTCCCCCTCCCCCGTAGCTCTTGCAACGGTGGAAAGTCCGACGCCGGTTGAGCCGGTCCCGACGCAGGCTCCCGTACCGCCGTCGCCGGCTGCCGCCCTGCCCCGCCAGTTTTCGCTGACCGATCCGGCCAGTCCCTGGCTGGTGGTGAACAAGCACCGCCCACTGAGTCCGCCCGACTACGTTCCGGCGGACCTGGTGCAGCCCAATGTCGCCCTGGCAGTAACCGGTGAAGCTGCTTTGCTGAACAGCACGACGGCGGCCGCCGCGGAGGCGATGTTCGCCGCGGCAGCGAGGGAAGGGGTGGTCTTGACGCTAGCGAGCGGTTACCGCTCCTACGGCACGCAGGTGGCCACCTACAACGGCTACGTGGCGTCCCGGGGCCAGGCGGATGCGGACACCGCGAGCGCCCGGCCGGGCTACTCGGAGCACCAGACCGGGTGGTCCTTTGACATCGGCGACGGCGGCGGCGTGTGCGGCTTCCAGCCCTGCTTTGCCGATCAGCCGGCCGCGGTGTGGGCCAAGGCGAACGGTTACCGCTTCGGTTTTGTGGTCCGGTACCCCTGGATGTTCCACCCGATCACCGGCTATTACTACGAGCCCTGGCACCTGCGGTACATCGGTGTGGAGGCTGCCACTGATATGGCGAACAGGGGCATCAGCACAGTAGAAGAGTATTTCGGCCTGGAAGCGGCGCCGGGGTATCCCTAG	MCHDCVSDNGTSGPHTPAVSSRRSFTRFLAAGAGLTVLAACTPDPVGPVTPSSSASLASAPPPSPSSPSPVALATVESPTPVEPVPTQAPVPPSPAAALPRQFSLTDPASPWLVVNKHRPLSPPDYVPADLVQPNVALAVTGEAALLNSTTAAAAEAMFAAAAREGVVLTLASGYRSYGTQVATYNGYVASRGQADADTASARPGYSEHQTGWSFDIGDGGGVCGFQPCFADQPAAVWAKANGYRFGFVVRYPWMFHPITGYYYEPWHLRYIGVEAATDMANRGISTVEEYFGLEAAPGYP	PGPT0024055_433	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
D1-29_03406	393	mscL	COG1970	Large-conductance mechanosensitive channel	ATGCTGACTGGATTCAAGAATTTCATTATGAAGGGCAACGTCGTTGACCTTGCCGTAGCTGTTGTGATGGGCGCCGCATTCAGTGCCGTTGTCACCTCTATTGTCGAGGGGCTGCTCACCCCCCTGATTGGTCGCCTTTTCAGCGCCAAGGGCATGGAGGAAATGCAGTGGGAGGGATTCATGTACGGGTCCGTCATCTCCTCCATCATTTCCTTCCTGCTGGTGGCAGCGTCCATCTACTTCGTGGTGGTGCTGCCGATGAACCACATGATCGAGCTGCGTAACCGCAAGCTGGGGATCAACAAGGACGTCAAGGAAGAAGCGGCGGAAGACCCGCAGATCGCCCTGCTCACCGAAATCCGGGATGCCCTGCAGCGCACTCCCTCTTCCTAA	MLTGFKNFIMKGNVVDLAVAVVMGAAFSAVVTSIVEGLLTPLIGRLFSAKGMEEMQWEGFMYGSVISSIISFLLVAASIYFVVVLPMNHMIELRNRKLGINKDVKEEAAEDPQIALLTEIRDALQRTPSS	PGPT0013771_2540	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282	NA	NA
D1-29_03407	1293	glmM	COG1109	Phosphoglucosamine mutase	ATGCGGCTGGCCCAGGCGGCCGCCGTCGTGCTCGGCCATGACCGCAACATCGGCGGCGCGCGCCCCCGTGCGGTTGTTGCGCGGGACCCCCGTGCCAGCGGTGAATTCATAGCCGCCGCCGTCGAAGCAGGGCTCTCAAGCTCAGGGATCGACGTCTATGACGCCGGCGTCCTCCCCACTCCGGCAGCGGCTTACCTCGTGGCAGACCTCGACGCCGATTTCGGCGTGATGATCTCCGCTTCACACAACCCCGCTCCAGACAACGGCATTAAGTTCTTCGCCCGTGGCGGCCAGAAGCTCCCTGACGACGTGGAAGACGCCATCGAGGAGCAGATGGCTAAGGAGCCGGTCCGGCCTGTGGGAGGCGATGTAGGCCGCATCCAGCGCTTCTCAGACGCGGAAGACCGCTACGTCCTCCACCTGCTGAGCACCCTCCCGCATCGCCTGGAGGGGCTGAAGGTGGTTCTGGATTGCGCTCACGGTGCAGCCAGCGGATGTTCTCCCCAGGTCTTCACCGATGCCGGCGCCCAGGTGGTAGTCATTGGGGCGGATCCTGATGGACACAACATCAACGACGGCGTGGGGTCCACCCACTTAGGACCTCTTAAGGCTGCCGTTGTGGAGCACGGTGCAGACCTTGGCATCGCCCATGACGGGGATGCGGACCGCTGCCTCGCTGTGGACCACGAAGGCAATGAGGTGGACGGCGACCAGATCATGGCCATCCTCGCCGTGGCCTTGAAAGCCTCGGGGAAGCTCACCGACGACGTCCTGGTAGCCACAGTGATGAGCAACCTCGGCCTGAAAATCGCCCTTCGTGCGGCAGGCATCAGCATCCGCGAAACTGCGGTGGGGGACCGCTACGTTTTGGAGGAGATGCGCAGCGGTGGCTTCAACCTTGGCGGCGAACAGTCCGGTCACGTAATTTTTGCCGACCATGCCACTACCGGCGACGGGGTCCTCACCGGCCTTCAGTTGGCGGCGCAGATCGCCCTGACAGGCCGTCCGCTCAAGCAGTTGGCCACCGTCATGACCAAGCTCCCGCAGGTGCTGATCAACGTCCGGGGAGTGGACCGAACCCGGGTGCACACCACTGAAGCGCTGGCGCAGGCCGTGGCCGCCGCTGAAGCCGAACTGGGGGAGACGGGGCGGGTCCTGCTGCGCCCATCGGGCACTGAGCCGGTTGTACGCGTCATGGTGGAGGCCGGTGACGAATCGACTGCCGAAGCCATCGCCGAACGCCTTGCGGAGATCGTCCGGACGGAGCTCGCGCTGGAGCTTGTCACCGACTAA	MRLAQAAAVVLGHDRNIGGARPRAVVARDPRASGEFIAAAVEAGLSSSGIDVYDAGVLPTPAAAYLVADLDADFGVMISASHNPAPDNGIKFFARGGQKLPDDVEDAIEEQMAKEPVRPVGGDVGRIQRFSDAEDRYVLHLLSTLPHRLEGLKVVLDCAHGAASGCSPQVFTDAGAQVVVIGADPDGHNINDGVGSTHLGPLKAAVVEHGADLGIAHDGDADRCLAVDHEGNEVDGDQIMAILAVALKASGKLTDDVLVATVMSNLGLKIALRAAGISIRETAVGDRYVLEEMRSGGFNLGGEQSGHVIFADHATTGDGVLTGLQLAAQIALTGRPLKQLATVMTKLPQVLINVRGVDRTRVHTTEALAQAVAAAEAELGETGRVLLRPSGTEPVVRVMVEAGDESTAEAIAERLAEIVRTELALELVTD	PGPT0018950_661	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
D1-29_03408	1830			hypothetical protein	TTGAAACGAGGAGATGCAATCGGGGTTGCGGCACTGGGCGGTGCCGCAGCTGTTATGTATTTGTGGGGTCTCAATGCCAACGGCTGGGGCAATGGCTACTATGCGGCAGCTGCACAAGCTGGAGCTGAAGACTGGAAAGCATTCTTCTTCGGATCCTCGGACAGCGGCAACAGCATCACAGTGGACAAACTGCCCGCCAGCATGTGGGTCACTGCACTGTCCGTACGGCTGTTTGGCCTGAGTTCGTGGAGCCTGCTGGTGCCGCAGGCACTTCTTGGTATCGCCACAGTGGTTCTTACGTATTTCACAGTCCGCCGCCACTTCCGGCACAGTTCCGCCATGATAGCCGGAATCGTTTTGCTGCTTACTCCTGCGGCCGCCGTGATGTTTCGTTACAACAATCCGGATGCGCTCCTGACGTTCCTGCTGACCCTGGCGATGTATCTCATGATCCGGGCGACCGACGATGGACGCTGGCGCTGGGTGCTGGCAACCGGAGCGGTTATCGGGGCAGCATTCCTTACCAAGTCTGCGCAGGCCCTGTTGCTGCTTCCAGCTCTGGGGGGAGTCTATCTGTACGCCGGCCCAGGCAGGCTCCAGCGGCGATTTCTTCAGTTGCTAGCTGGCGTGGGCACCGTAGCCCTCACAGCCGGATGGTGGCTGGTGATTGCGGAAATGACACCTCCGGAAACGAGACCCTATGCAGGAGGTTCGTTCAGCAACAGCTTTGTCGAAGTGCTCCTGCGCCAGAACGGCCTCGGGCGGATCCTCGGAGCCGCAGGGGGCGGGACGCCCGGGCAGGAAGCCGCGCCTCCCGGGCCTCTCAGGCTCATAACATACTCGTCATATGGCAGCCAAGGGGCGTGGCTGTTGCCGGCAGCAGGCATCCTCGTTATTGCCACGTTGATCCTGTTGCGGCGGCAGCCGCGGACAGACCCCAGGCGCGCAACTCTGCTCCTTTCAGGGGGATGGCTGCTAAGCTACTGGGCTGTTTTCAGTTTCATGGGCGGCGTCATCCATCCCTATTACCTGATAGCTCTCGCGCCTCCGACTGCGATGCTTATCGGTGCTACCTGGGGATTGCTCCAGCCAGCCCAGAGGTGGGTCCCATACCGGCTGGTTGTGGCCCTGGCAGTCCTCATATCCGGAATCATTGCTTTTGGCTATTTAACAAATGCGTCCGATTCTGGTCCGATTTTCGCTATTGCTGTTCTCGCCTTCTGCCTCGTGGCATGCGAATTGGTTGTATTTCGGATCCGGAAACGAACGGCCAGACGCATCACTGTTGTCTCCCTTGCGGCAACCTGCGGCCTAGGACCCTTGTTGTTTTCGGCCTCGGCCATAGTCAGCCCGCACACAGGAGTCTCGCCGGCTGCATCCATATTGGGAAGCCATGCCATCCTTGATTCGCCGGATCCATCCCTCTGGCCGGAGGGCAACAGCCAAAGCATCAGGGGATCAGCCCTCGGCCACCCCGCAGACGCTGATGTCCTAGCCTTCCTCCGCAACGGAAATGATCCAGCATCGCGCTGGGCTGCGGCATCTCCGGGCGCCCTGAACGCTGCCCAGTACCAGCTCAACCTGCAGTTGCCCGTAATACCAGTCGGAGGATTCAACGGCGGCACACCGTACCCCACCATTAGACAGTTCAGTGAGTATGTGGAATCGGGCCAAATCAGGTACTACGTTGTGCGGCACGATTCTCAGGACATCGAGGCCGAGGCCGAGTTTGCCACCGAACTGACCGAGTGGGTCCGGGCAAACTTCGTCGCCCAGCAAATGGGTCAGATGGAGGTCTTCGACCTGAGCAGGCGGCTGCCAACCTCCTGA	MKRGDAIGVAALGGAAAVMYLWGLNANGWGNGYYAAAAQAGAEDWKAFFFGSSDSGNSITVDKLPASMWVTALSVRLFGLSSWSLLVPQALLGIATVVLTYFTVRRHFRHSSAMIAGIVLLLTPAAAVMFRYNNPDALLTFLLTLAMYLMIRATDDGRWRWVLATGAVIGAAFLTKSAQALLLLPALGGVYLYAGPGRLQRRFLQLLAGVGTVALTAGWWLVIAEMTPPETRPYAGGSFSNSFVEVLLRQNGLGRILGAAGGGTPGQEAAPPGPLRLITYSSYGSQGAWLLPAAGILVIATLILLRRQPRTDPRRATLLLSGGWLLSYWAVFSFMGGVIHPYYLIALAPPTAMLIGATWGLLQPAQRWVPYRLVVALAVLISGIIAFGYLTNASDSGPIFAIAVLAFCLVACELVVFRIRKRTARRITVVSLAATCGLGPLLFSASAIVSPHTGVSPAASILGSHAILDSPDPSLWPEGNSQSIRGSALGHPADADVLAFLRNGNDPASRWAAASPGALNAAQYQLNLQLPVIPVGGFNGGTPYPTIRQFSEYVESGQIRYYVVRHDSQDIEAEAEFATELTEWVRANFVAQQMGQMEVFDLSRRLPTS				NA	NA	NA	NA	NA
D1-29_03409	507	rpsI	COG0103	30S ribosomal protein S9	GTGGCTCAGAACGAAGAGACCACCGAGGCCGTTGAGGCTGAGGAAACCCTGACCAGCTACACGTCGGAAAGCGGAGCTGCCGAGGCAGCTGCGCCGAAGAAGGAGCGTCCGGCCCTGACAGTTGCCGGCGCAGCTGTTGGCCGCCGCAAGGAAGCCGTTGCCCGTGTCCGCGTTGTGCCGGGCTCCGGCAAGTGGACCATCAACGGCCGTGCGCTGGACAACTACTTCCCGAACAAGCTGCACCAGCAGGACGTCAACGAGCCCTTCAAGATCCTCGATCTTGACGGCGCCTACGACGTCATCGCCCGTATTCACGGTGGCGGGATCTCCGGCCAGGCCGGTGCCCTGCGCCTCGGCATTGCCCGTTCATTGAACGAGATCGACGTCGAGAACAACCGCGCCATCCTGAAGAAGGCCGGATACCTCTCCCGCGACGCCCGCGTCATCGAGCGTAAGAAGGCCGGTCTCAAGAAGGCCCGCAAGGCTCAGCAGTACTCCAAGCGCTAA	MAQNEETTEAVEAEETLTSYTSESGAAEAAAPKKERPALTVAGAAVGRRKEAVARVRVVPGSGKWTINGRALDNYFPNKLHQQDVNEPFKILDLDGAYDVIARIHGGGISGQAGALRLGIARSLNEIDVENNRAILKKAGYLSRDARVIERKKAGLKKARKAQQYSKR				NA	NA	NA	NA	NA
D1-29_03410	444	rplM	COG0102	50S ribosomal protein L13	GTGCGTACGTACACCCCGAAGCCCGGCGATATCAACCGCCAGTGGCACGTCATTGACGCCACAGACGTTGTCCTTGGTCGTCTCGCGAGCCAGACCGCAATCCTGCTGCGCGGCAAGCACAAGGCCACCTTTGCATCCCACATGGACATGGGCGATTTCGTCATCATCATCAATGCTGAAAAGGTTGCCCTGACCGGCGCCAAGCTGGAGCAGAAGCGGGCATACCGCCACTCCGGTTATCCGGGAGGCCTGACCTCCGTCAACTATGCGGAACTGCTGGAATCAAACCCGGTCCGCGCCGTTGAGAAGGCCATCAAGGGCATGCTCCCCAAGAACTCCCTCGCTGCACAGCAACTGGGCAAGCTGAAGGTGTACCGCGGTGCTGAGCACCCGCACGCCGCACAGCAGCCCAAGACTTTCGAAATCACCCAGGTCGCCCAGTAG	MRTYTPKPGDINRQWHVIDATDVVLGRLASQTAILLRGKHKATFASHMDMGDFVIIINAEKVALTGAKLEQKRAYRHSGYPGGLTSVNYAELLESNPVRAVEKAIKGMLPKNSLAAQQLGKLKVYRGAEHPHAAQQPKTFEITQVAQ				NA	NA	NA	NA	NA
D1-29_03411	666			hypothetical protein	GTGATTTCTTTGGCCAATGCCAGTCCCACAGATCCCTTGCTTGTGGCTGGGTTCGCGCTCCTGGGACTCATTCTTTCACCCTTGACCGAGCTGCTGATCGCCCAACTGCTCCCCCGCCTCGGCGACCTGCCCGCCACCCGCACCAGAATCACGACGGCGGCTGTTACCGCCCTTGCCTGCGCCGCCTTTGCGCTGAGGTTTGGGGAAGAACCCATACTGCCAGCCTTTGTCCTTCTTGCCGTATTGGGCGTACAGCTGGCCAGAATTGATATTTCGCTGCATCTGCTGCCGAATCCGCTGGTTCTATTCCTGCTAGTGGGCGGGATGTCGCTATTCCTGGTCTCCCTTTTTGCCGAAATACAGTGGACCGGCATCCTCAGAGCAGCGGCCGGCGCCGTAATTTTGTTCGCGATTTACCTGATTCTGGCGATTATTTCCCCCGGCGGCGTCGGAATGGGTGACGTCAAGCTCGCAGGACCGATTGGCCTCTACTTAGGGTACCTAGGCTGGAGCCAACTGCTGTATGGAGGCCTCTTGGGCTTTGTCCTGAACGGTTTTGTCACCCTGGTGGTAATGCGAAGGAACCGCACCGAACGTGCGTCGGAGGTGGCACACGGCCCCTCCATGCTTGCTGCGGCGGTTGGTGCCGCACTTTTTATGCAGTAG	MISLANASPTDPLLVAGFALLGLILSPLTELLIAQLLPRLGDLPATRTRITTAAVTALACAAFALRFGEEPILPAFVLLAVLGVQLARIDISLHLLPNPLVLFLLVGGMSLFLVSLFAEIQWTGILRAAAGAVILFAIYLILAIISPGGVGMGDVKLAGPIGLYLGYLGWSQLLYGGLLGFVLNGFVTLVVMRRNRTERASEVAHGPSMLAAAVGAALFMQ	PGPT0015925_2438	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
D1-29_03412	192			hypothetical protein	ATGACTTCTCTTATGGTCTCTATGATCGCATTCGTTGCCGGCGTAAAGGATCGTTTCGCTTCGGAGAAAGGCGCGACTGCGGTCGAGTATGGCCTCCTCGTGGCCCTGATCGCCGCCGTTATTGTCGCCATCGTCGCTACTCTGGGCGGCCAGATCAACACGGCGTTCACCACCATTTCCAACAAGCTCTAA	MTSLMVSMIAFVAGVKDRFASEKGATAVEYGLLVALIAAVIVAIVATLGGQINTAFTTISNKL	PGPT0015910_722	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0015910-flp|pilA-K02651	NA	NA
D1-29_03413	192			hypothetical protein	ATGAATTTGGTACTGCTTTCAATTCTGGGGTTTATTACGAAAGCCAAGGCTCAACTGGGTTCAGAAAAGGGGGCTACGGCAGTTGAATACGGCCTCCTCGTTGCTCTGATCGCGGCGGTAATCATCACCATCGTCGCTACCCTCGGAGGCCAGGTCAACACGGCCTTCACCACGGTGTCCAACGCACTGTAG	MNLVLLSILGFITKAKAQLGSEKGATAVEYGLLVALIAAVIITIVATLGGQVNTAFTTVSNAL	PGPT0015910_723	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0015910-flp|pilA-K02651	NA	NA
D1-29_03414	498			hypothetical protein	ATGCGACTAAAACTTGCCCGGATTCACTCCGGGCTTCCTAGAATCCGGTCAAATCTTATGAAGACATGTGTTAACTCAAGGCGGCGTAGAGGCGCACGGGAGAGAGGCGCGGTCGCCGTTGAGTTTGCCCTCGTGCTCCCAATCTTCTTGGGACTGGTCTTGGGCATCGCCGAGTTCGGCAGGTCATTCAACATCCAGGTTTCGCTCAGCGAAGCCGGCCGTGAAGCAGCGCGTTATGCAGCCATTCACTGTGCGGAAACCGGATACACCGACTCGCATGCGCAAGATGCCGGAGTAGCCGCGGCCCCGTCCGTCTCCTTGAGCGCATCTGACATCGGCATCAGCTATTCAGGTACGGGAACATGTTCGGCAGGCAACAATGCCGTAGTCACGGTGAGCTACACGACTCCATGGCTGACAGGTTTCCCTCAGCTAATTCCAGGCATGCCTGCCAATCTCACAATTCAAGGAAAAGGTGTCATGCGATGCGGCGGATGA	MRLKLARIHSGLPRIRSNLMKTCVNSRRRRGARERGAVAVEFALVLPIFLGLVLGIAEFGRSFNIQVSLSEAGREAARYAAIHCAETGYTDSHAQDAGVAAAPSVSLSASDIGISYSGTGTCSAGNNAVVTVSYTTPWLTGFPQLIPGMPANLTIQGKGVMRCGG				NA	NA	NA	NA	NA
D1-29_03415	1032			hypothetical protein	ATGCGGCGGATGAAGGTCCAGGGTTCTGAACGCGGGGTCGTGGCCCCATTGACTGCCCTCATCATGGTTTTCCTCTTAGGCATGGCTGCCTTCGCCGTGGACGTGGCGACGATGTATTCCGAACACGCGCAGCTACAAAACGGGGCCGACTCTTCGGCTCTGGCCATAGCGCAGGCGTGCGCGGCGACTCCAGCCGGGCCTGCTTGTGCAGCTCCCGTAGCTGCCGCGGCCGGCCTGGCCAACGACAATGCGCTGGACGCCCACAGCAACGTTGTCAGCGCAACCGTAGGCTCGGGGGTCGTCAATGTAACTACCCAGGCACAGGACACCTCCGGCAACAACCATTTCTCTTTGGCTTTCGCGCGGGCCCTGGGGATTGAAACATCAGACATCAAAGCGTCCGCGCAAGCGAAGTTCGGCGGGTATTCCTCGGCCAACGTCGTTCCTTTGGCCTTCTCCAAGTGCGAGTCGGATCCCTTCTTTACGAAGGACCTGCAGTTCTTTCCTTCTCATGGGGACAGCCTGGCTGACGACCCGGCCTACGAATGCGTCACATCATCGTCGTCGGGGCATGAAGTTCCTGGAGGCTTCGGATGGCTGGATTCACCAGGATCCTGCAGTGCGAAAGTCAGCATCACCGATCCTTGGGTTGGAACGGATACTGGACAAAATTATGATGCCGACTGCGCCACCAGAATGAATGAATGGGGTGCCATCCTGGCTGATCCTTCTAAGACAGTGGAAATCCTCGTTCCCATTTTCGACGACCGTCGCGGAACAGGCAGTAATGCCGAGTTTCATATCGAGGCTTTCGCCCAAATCTCGCTGCGTGGCTGGAATCTTGCAGGCGGGACAAAGCTGCCTGAAGATTTCATGACACCTGAGGCCACCACTCTTTCCAAGTCATTGAAGCTCAAAAATAGCGATAACGGTATCTTCGGTCGCTTCATCAAGAAGGTTTCGCTGGCGGAGGCAGCCACACTCGGTGGACCAACCACCTACGGCGCCACGGGCGCGCAGCTAAGCCAGTAA	MRRMKVQGSERGVVAPLTALIMVFLLGMAAFAVDVATMYSEHAQLQNGADSSALAIAQACAATPAGPACAAPVAAAAGLANDNALDAHSNVVSATVGSGVVNVTTQAQDTSGNNHFSLAFARALGIETSDIKASAQAKFGGYSSANVVPLAFSKCESDPFFTKDLQFFPSHGDSLADDPAYECVTSSSSGHEVPGGFGWLDSPGSCSAKVSITDPWVGTDTGQNYDADCATRMNEWGAILADPSKTVEILVPIFDDRRGTGSNAEFHIEAFAQISLRGWNLAGGTKLPEDFMTPEATTLSKSLKLKNSDNGIFGRFIKKVSLAEAATLGGPTTYGATGAQLSQ				NA	NA	NA	NA	NA
D1-29_03416	750			hypothetical protein	GTGAAAACTCGCCTTCTGGGAGGCATCGTAGCGCTTGTGCTCGCAGTAGTTGGCACATTGCTTCTGGTCTCATACGTTCAAGGTTCTGAAGCCAGAGCCCAAGAAGATCTTCAGCCCATTGATGTACTCGTTGTTGAAAAACAGGTTTCCGAAGGTGCAACGCTTGACCAGATCAGGGAATCCGTCAGGCTCGCTTCCCTTCCGGCTGCGTCAGTACCCAATGGCGCGCTCAAGAGCCTGGACGGTCTGGAGGGCAAGGTGGCTTCTGCAGACCTAGTGCCGGGAGAAGCTCTCCTGGGTGTCAGGCTCGTCGATCCGACCAGTTTGGCTGCACCAGGATCGGTTCCCGTCCCTGCAGGAATGCAGGAAATCTCAGTACAGCTGGAAGCGCAGCGCGTTGTTGGAGGTCGAATCGCCGCCGGGGACACCGTGGGAATCGTTGCCCTCTTCGAGGACGGAGCGAACGCGGGTGGAGGAGAGTCTGCGCAGCAGATTTTTCACAAGGTCCTGGTCACCAGCGTTCAGCGGTCCACTGCTCAGACCTCTACAAACGGTCAGACGGACCCAGCCGAACAGGCAAACACGCAGTTGCCTACAGGTCAACTCCTGGTGACCTTTGCAAGGGGTGACACAGATGCAACAAAAATCGCATTCGCAGCAACATTTGGACAGCTGTGGCTGACAAAAGAACCAGATTCAGCAACCGAAAGCGCCCCGTTGACCGTGAAGAAGATGGAGCTGTTCCGATGA	MKTRLLGGIVALVLAVVGTLLLVSYVQGSEARAQEDLQPIDVLVVEKQVSEGATLDQIRESVRLASLPAASVPNGALKSLDGLEGKVASADLVPGEALLGVRLVDPTSLAAPGSVPVPAGMQEISVQLEAQRVVGGRIAAGDTVGIVALFEDGANAGGGESAQQIFHKVLVTSVQRSTAQTSTNGQTDPAEQANTQLPTGQLLVTFARGDTDATKIAFAATFGQLWLTKEPDSATESAPLTVKKMELFR	PGPT0016005_1650	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016005-cpaB-K02279	NA	NA
D1-29_03417	1194			Iron-sulfur cluster carrier protein	ATGAGCAGATTCGTGCTGATTACAGCTGACACCAACTTCTCTCATCGGGCGCAACAAGCCGTCGCCGGCCTGCACGGGACTTTGCAGACTCTGGCGGCCGACTACCTCCCCCCTAGCCCCGACGACATCCTGCGGGTGTTGAGCGGCGAACTGGCAGAGGTGATACTCCTGGGTCCCGGTCTGCCCACAGATGACTCAATCCGATTGGCGAGTTTGTTCGATCTCCAATACCCGGAAATCAGTGTCGTTCTAGTCACCGAGAGTGAATCTAACGTGGCCCTTGCTGCCATGCGGGCCGGCATCCGTGACCTTCTGAGCCCCCTGGCGACCTCCGAAGACATACGGAGCATGCTGGAACGAGCAAGCCTTGCGGCTGCCGGAAGGCGACGCGGGCTGGGAGCGTCGGTCGAGGACGGTGTTTCGGGAGGACGCATCATTGCCGTCATGTCACCAAAGGGGGGGGTGGGAAAGACGACTGTTACAACGAACTTGGCAGTCGGCCTCGGCAAAATTGCCCCAATGAGCGTCGTGGTGCTGGATCTGGATCTACAGTTTGGCGACGTAGCCTCCGGGTTGATGCTGGAGCCGGAGCGAACTTTGGCGGACGCGGTGACCGGGGCAGCTACCCAGGACACGATGGTTCTGAAGTCATACCTGACCCTCCATCCGTCCGGCGTGTACGCCTTGTGCGCTCCTCTCAACCCTGCCCACGCTGACAAAATCAGCGGTGAACAGGTGGGGCACCTCATCGGTCAGCTTGCCGCTGAATTCCAGTACGTCGTGGTCGATACTGCCCCAGGCTTAGGGGAGCATGTCTTGGCTACCTTGGATCAAGCGACAGACGCCGTCTGGATTTGTGGCATGGACATACCAAGTATTCGAGGCCTCAGGACGGGCTTCAGCATTCTTACCGAGCTTGATCTCCTTCCAGGAAATCGGCATGTAGTGCTCAACTTCGCTGACCGAAAGAGCGGTCTGACTTTGCAGGATGTAGAGGCAACCATTGGATGCCCCGTTGACATTGTCCTCCCGCGTTCCCGGGCAGTTCCGTTCTCGACAAATAAGGGTATGCCGCTCCTGCAGGAAGGCAGCCGGGATGCAGCCGCCCGAGGCATGGGGCAACTGGTGGATAGGTTCAAGCCCAACTGGGAACAACGGCCCCATAAGAAACTGCACAGAAGGGTAATAGTCTGA	MSRFVLITADTNFSHRAQQAVAGLHGTLQTLAADYLPPSPDDILRVLSGELAEVILLGPGLPTDDSIRLASLFDLQYPEISVVLVTESESNVALAAMRAGIRDLLSPLATSEDIRSMLERASLAAAGRRRGLGASVEDGVSGGRIIAVMSPKGGVGKTTVTTNLAVGLGKIAPMSVVVLDLDLQFGDVASGLMLEPERTLADAVTGAATQDTMVLKSYLTLHPSGVYALCAPLNPAHADKISGEQVGHLIGQLAAEFQYVVVDTAPGLGEHVLATLDQATDAVWICGMDIPSIRGLRTGFSILTELDLLPGNRHVVLNFADRKSGLTLQDVEATIGCPVDIVLPRSRAVPFSTNKGMPLLQEGSRDAAARGMGQLVDRFKPNWEQRPHKKLHRRVIV	PGPT0016020_1226	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016020-cpaE-K02282	NA	NA
D1-29_03418	1443			hypothetical protein	ATGAGCCTGGCCAGAAGATTAGAGGTCGCTCGTGGCCTCGACGGCAACAAGGATGCTATTGCCGAGCCGGCGAGCGGACAGTGGAAGGCAACCCCCTCTCCAGCAGACCAAGGAGCGAACCCCTTCGAGTCTGTAAGCTACGTCAGCGAGCCGAACGAGGCCCTGAGCGCTGTCAAAGAACGTGCAGGGACAGCCCTCTATGAGCGTATGGGAAGCCGAATCACCGATTCCTCAATTGAAGAGTCGGAGCTCCAGCAATACGTAAAAGACGAATTGCGCAGCATCATTGAAGACGACGAAATCCCCCTCACAGTCGGCGAGCGCCAGCGGCTGGTCCAGGAGATTATTGACGATGTTCTGGGATTGGGTCCGCTTGAGAAGTTTCTGAGCGACGGCGAGATTACGGAGGTCATGGTCAACGGTCCGGACAAAGTCTATGTCGAGCGAAATGGAAAGCTCACCCTCACGGGCGCCCGATTTAACGGCGAGGAGCACTTGAGGAAAGTCATCGAACGGATTGTCACCAAGGTGGGAAGGCGTATCGACGAGTCTTCCCCTCTAGTGGATGCCAGGCTGGCCGACGGTTCCCGTGTCAACGCAATCATTCCGCCCCTCGCAGTCAGCGGTTCGTCTCTAACCATCCGCAAATTTGGGCAAGTGCCCCTAACCGTCCAGAACCTCATTTCATTGGGGTCCATGTCTCCGGAAATCGCGGAGCTGCTGCAGGCCTGCGTCAGGGCTCGATTGAATGTCATCGTTTCCGGAGGAACTGGCACCGGTAAGACAACCCTTCTTAACGTCTTGTCATCCTTTATTCCAGCAGCAGAGCGAATCGTCACCATCGAAGACGCCGTGGAACTCCAGCTCCAGCAGGAGCACGTCGTTAGGTTGGAAAGTCGGCCCAGGAACATTGAAGGCCGGGGGGAGATCACTATCCGTGATCTCGTTCGAAATTCCCTCCGAATGCGTCCTGACAGAATAGTGATCGGTGAGGTCCGGGGCGGGGAATCCTTGGACATGCTGCAGGCTATGAACACCGGACACGATGGTTCGATCTCCACCGTTCATGCCAACTCGCCCAGGGATGCCATCTCACGTCTGGAGACGTTGGTCCTAATGGCAGGAATGGACTTGCCTCTTCGTGCGATCCGGGAACAGATAGCGTCTGCCGTGAACTTGATCGTACACATTTCCAGGCTGCGTGATGGCAGCCGTCGAGTGACCCATGTCACTGAGGTTCAGGGCATGGAGGGTGACGTGGTCACTCTGCAAGACGCTTTCGTCTTTGACTACAGCGCGGGAGTCGACGCCCACGGAAGGTTCCTAGGACGGCCTGTGCCGACCGGAGTTCGTCCACGATTCGTCGACCACTTCGCCGACCTAGGAATTCCACTATCTCCCACCGTGTTTGGCAGCGTGTCTACAGGAGGTGCGTTCCGTTGA	MSLARRLEVARGLDGNKDAIAEPASGQWKATPSPADQGANPFESVSYVSEPNEALSAVKERAGTALYERMGSRITDSSIEESELQQYVKDELRSIIEDDEIPLTVGERQRLVQEIIDDVLGLGPLEKFLSDGEITEVMVNGPDKVYVERNGKLTLTGARFNGEEHLRKVIERIVTKVGRRIDESSPLVDARLADGSRVNAIIPPLAVSGSSLTIRKFGQVPLTVQNLISLGSMSPEIAELLQACVRARLNVIVSGGTGTGKTTLLNVLSSFIPAAERIVTIEDAVELQLQQEHVVRLESRPRNIEGRGEITIRDLVRNSLRMRPDRIVIGEVRGGESLDMLQAMNTGHDGSISTVHANSPRDAISRLETLVLMAGMDLPLRAIREQIASAVNLIVHISRLRDGSRRVTHVTEVQGMEGDVVTLQDAFVFDYSAGVDAHGRFLGRPVPTGVRPRFVDHFADLGIPLSPTVFGSVSTGGAFR	PGPT0016025_861	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283	NA	NA
D1-29_03419	696			hypothetical protein	ATGAGGCAGGCTGACTTCATCTTGCTCATTGCGTGCGTTTCTGTCACGGCCGGAGTAGTAGGTTTTATTTTGGCCGGAACCCTCACATGCGTACTCTTCATATGCGCAACCCCACTCGCTGGGAAGCTGTTTTTGGGCATTCTATCCGCTCGTCGTCGCAGCAAGTTCGACTCACAGCTGGGCGATACGCTCCAAATGCTCGCGGGAGGGTTGCGCGCCGGCCATAGCCTCCTGCGTTCGATAGATGCCGTTTCGCAGGAAGCCGAGGCACCAACATCCGAGGAGTTCGCCCGACTCATCAACGAGTCGCGGCTTGGTCGGGATTTGAGAGAATCGATGGCTGACGCCGCGAGGCGACTACGCAGCGAAGACTTCGACTGGATAAGCCAGGCGATTGAAATACATCGCGAAGTGGGAGGGGACCTCGCAGAAGTGCTGGATCACGTTGGTGAAACTATACGCGAGCGGGCGCAGATTAAGGGGCAGGTAAAGGCCCTAAGCGCCGAAGGCCGTCTTTCCGCCTACATTCTGGTCGCGCTCCCAGTTGGAATGTTTTTCTATATGAGCGTGGTTAACGCCGCCTATATTGCAACGCTTTATACCAACGTACTTGGTTGGTTCATGTTGGCTACGGCTGGAGTCTTGCTGGCCGTTGGCAGCTTCTGGCTAAGCCGCGTAGTGCAGATCAAGTTCTAG	MRQADFILLIACVSVTAGVVGFILAGTLTCVLFICATPLAGKLFLGILSARRRSKFDSQLGDTLQMLAGGLRAGHSLLRSIDAVSQEAEAPTSEEFARLINESRLGRDLRESMADAARRLRSEDFDWISQAIEIHREVGGDLAEVLDHVGETIRERAQIKGQVKALSAEGRLSAYILVALPVGMFFYMSVVNAAYIATLYTNVLGWFMLATAGVLLAVGSFWLSRVVQIKF	PGPT0022290_1179	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510	NA	NA
D1-29_03420	909			hypothetical protein	ATGACGACAATGGCATGGGTAATCGTGGGGCTGATCATAATCCCTTGTTCATTCCTGGTTTGGTCACTGGTTTCTGTGGACAGGAGGGGGTTTGCAGCCGTTCGCAGTAACCTCGGACGAGGACTTCGCTTGAGTGAAGGAATAGTTGTGGCTGGGGGATCTGCACCGTCGGTGGACTCCAAACCGTCTGTCCCTCTGGGGATGCGCATGACTCCGAAGGGTTATACCGGATGGCTCGACAAGCTACTCGCGCGTGCTGGAAGGCCTGCTCGGCTTCCTCTGGACCGCTTGCTAATCGCTAAGCCCGCCCTGGCATTGGTGGCGGCCGTTCTTGGCATCATTTCCATCATCAAGAATCCGACCGGGCCTGCCGTTCTTTCTGTAGTGTTCCTGGCCGCGCTTGCGTACTTCGCACCAGACATCCTGATTCATGGACGTGGAGCCAAGCGACAAAAAGAGATAGAACTCGAGCTTCCGAACACCCTCGATCAGATGCTGATCTCGGTGGAAGCTGGACTCGGTTTTGAAACTGCAATGGCCCGTGCCGCCCAGAACGGAAAAGGTGCTCTCGCTGCCGAACTCATGAGGACTTTACAGGATATGCAAGTCGGACGAAGTCGACGGGATGCTTATACCTCCATGGCGACGAGAACCGATGTACCTGATTTGCGAAGTTTCGTGCGGGCTGTTGTCCAGGCAGACATCTATGGAATTGCGATAGCAAATGTCCTCCGTATTCAAGCTAAGCAGATGCGTGTAAAGCGGCGTCAGCGTGCAGAGGAAAAGGCTATGAAGCTGCCGGTTAAAGTACTCTTCCCTCTCATGTTCTGCATCCTTCCTGTTCTATTCATCGTGATCATCGGACCGGCTGTCATCAACGTCATGAAAAATTTCGTAGGCGCCTTCTGA	MTTMAWVIVGLIIIPCSFLVWSLVSVDRRGFAAVRSNLGRGLRLSEGIVVAGGSAPSVDSKPSVPLGMRMTPKGYTGWLDKLLARAGRPARLPLDRLLIAKPALALVAAVLGIISIIKNPTGPAVLSVVFLAALAYFAPDILIHGRGAKRQKEIELELPNTLDQMLISVEAGLGFETAMARAAQNGKGALAAELMRTLQDMQVGRSRRDAYTSMATRTDVPDLRSFVRAVVQADIYGIAIANVLRIQAKQMRVKRRQRAEEKAMKLPVKVLFPLMFCILPVLFIVIIGPAVINVMKNFVGAF	PGPT0022295_1445	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022295-tadC-K12511	NA	NA
D1-29_03421	192			hypothetical protein	ATGCTTTCACTTATCGCTACTCTTCAGACCCTCGGCTTCGCTCTCAAGGACCGTCTCCAGGGAGAAAAAGGCGCCACCGCTGTTGAATACGGCATCATGGTCGGCCTTATCGCGGTTGTCATCATCGTCGCTGTCAGCACCTTGGGCGGCAAGCTGAACGGCTTCTTCGCCAACATAAACACTGCGCTCTAG	MLSLIATLQTLGFALKDRLQGEKGATAVEYGIMVGLIAVVIIVAVSTLGGKLNGFFANINTAL	PGPT0015910_766	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0015910-flp|pilA-K02651	NA	NA
D1-29_03422	375			hypothetical protein	ATGCGTGAACAGTCAGAACGCGGCGCAGTCGCCGTTGAGTTCGCGATCTTGCTCCCCCTGCTTCTCATGCTGGTTTTGGGAACCATCGAATTCGGCCGGGCCTACAACGCCCAGATCACACTTACAAATGCCGCCCGGGAGGGGGTCAGGGTCATGGCTATCGCCAAGGACCAGGCCGGCGCCAGGACCGCTGCCAAGAATGCGGCAGCTGCGGTCAGCTCCGGCATCCCCGATTCCGATATCACCCTCAGCACCACCATCTGCAGCACCGGGGACCAGGTGACCCTCACCATCAATTACAACCTTTCAACCATCACCGGCATCGCTGGCCCCTTTGCAATGACAGGCAAAGGAGTCATGCTGTGCGGCGGCTGA	MREQSERGAVAVEFAILLPLLLMLVLGTIEFGRAYNAQITLTNAAREGVRVMAIAKDQAGARTAAKNAAAAVSSGIPDSDITLSTTICSTGDQVTLTINYNLSTITGIAGPFAMTGKGVMLCGG				NA	NA	NA	NA	NA
D1-29_03423	1044			hypothetical protein	GTGCGGCGGCTGACAGCAACGCGTCAACCGCCCCAGGAACGCGGCAGCATCACCGTCATCGTGGCATTGCTGATGGTGGCCATGCTGGGTTTTGTGGCAATCGCCATCGACGTCGGCAAGATCTATTCGGAACGTTCCGAACTGCAAAACGGTGCCGACGCAGCCGCTGTTGCCACCGCCCAAAAATGCGCACGCGATGCCAGCGATGCATTGTGTTCAACGACGTCCACCCTCGCGGCCAGCCTCGCCAACCAAAATGCCCTCGACGGCTCCAGTAACGTCTTTTCCATTCAACTGGATAAGACAGCTCGAACGGTGATGGTCACCACGTCTGCCAAGGAGTCCGGCAGCCCCGACAATTCCGTTTCCCTCTTCTTTGCAGACATTCTGGGTATCCCCACCAAAGAAGTGGGTGCCCTCGCGTCCGCAACCTGGGGCAGCCCGCTCTCAGGACGCACGGCTTTTCCACTCGCCTTCTCCATCTGCCAGGTGAAGGACAACGTAGGCGGCGCTCTCCAACTCCTCCAGGAACATGGCAAGAATGCCAACTTGGACTGCAACTACGGCCCATCAGGCGCCGCTGTTCAGGGTGGTTTTGGTTGGCTAACCCAGGACCCGGGCGTTTGCGGGGGGACCATCGACCTCACAGTCAGTGAGGGCGGAAGCGATCCAGGCAACGACGCCCCCAGTAACTGCTCTACAGAACTAAACCGCTGGGCCAGCGAAATCGCTGCCGGCCGTGAAGCCGTTGTATTGCTGCCCGTCTTCAACAAAGTCACGGGCACTGGCTCGGGAGCCGTGTACAGCATGGTGTACTTTGCCGCGTTCAAGGTCACTGGCTGGAAGTTCAGCGGAGGCACCGGCCTCCCCTACGAATTCCGCAGCGCAGCGTCGACGGCCACCGGAGTTACCGCTGCGACAGAATGCACGGGAAACTGCCGCGGCGTCATCGGCAGCTTTGTCAAATACGTGTCCCTCGCGGACGGATACGCCCTCGGCCCGGTGGACGCTTCCGGCACCACCATCGTCCGAATGACCCCCTAA	MRRLTATRQPPQERGSITVIVALLMVAMLGFVAIAIDVGKIYSERSELQNGADAAAVATAQKCARDASDALCSTTSTLAASLANQNALDGSSNVFSIQLDKTARTVMVTTSAKESGSPDNSVSLFFADILGIPTKEVGALASATWGSPLSGRTAFPLAFSICQVKDNVGGALQLLQEHGKNANLDCNYGPSGAAVQGGFGWLTQDPGVCGGTIDLTVSEGGSDPGNDAPSNCSTELNRWASEIAAGREAVVLLPVFNKVTGTGSGAVYSMVYFAAFKVTGWKFSGGTGLPYEFRSAASTATGVTAATECTGNCRGVIGSFVKYVSLADGYALGPVDASGTTIVRMTP				NA	NA	NA	NA	NA
D1-29_03424	759			hypothetical protein	GTGAAGTCTCGCCTGCTGGCAGGAACGGCTGCGATTGCGTTGGCGATTGTTGGAGCTCTCCTCATCATCTTTTACGCTCAAGGAGCAGACCAGCGCGCCATGGCGAACATGGAGCCCGTGGACGTCCTGGTGGTCAAGACCGCGATCCCGGCAGGCACCACAGTTGATGCCATGGCCGCAGCCCTGGTCACTGAGAAGGTTCCGGCCTCGGGCGTGGCCGACACCGCGCTTAGCACCCTGGCCAACTCGGGAGGCACGGTCAGCGCTGTTGATCTTGTCCCCGGCGAACAGCTCCTGGCCGAACGCCTGGTGGCACCGGACGCCGTCAAGGCCACGGGCGCTGTAAAGGTGCCGGCAGGCCTGCAGGAAGTCTCCTTCCAGCTGGAACCGCAACGGGTAGTAGGCGGCCGGATTAACGTTGGCGACCATGTGGGCATCTCCCTCAACTTCGAGAACGGCGCCTACAAGGCCAAGGGAGAGGACGCCACCACCCAGCTCACTCTCCGCAAAGTCCTGGTCACGGCGGTGCAGCGCGCTCCCCTGGCGGCGAGCGCAGAGAAGCCTGCCGAGGACGGAACAAACTCCCAGGACACCACCCTCCCTGAAGGTTCCCTTATGCTTACCGTCGCCGTCACGGACACCGACGCCGGCAAGATCATCTTCACGTCAATCAACGGCAGCCTCTGGCTCACCAAGGAACCCCTCGACGCCCAGGACAACGGTCCCCGGGTTGAGCGGAAGGAAGTGGTCTACAAATGA	MKSRLLAGTAAIALAIVGALLIIFYAQGADQRAMANMEPVDVLVVKTAIPAGTTVDAMAAALVTEKVPASGVADTALSTLANSGGTVSAVDLVPGEQLLAERLVAPDAVKATGAVKVPAGLQEVSFQLEPQRVVGGRINVGDHVGISLNFENGAYKAKGEDATTQLTLRKVLVTAVQRAPLAASAEKPAEDGTNSQDTTLPEGSLMLTVAVTDTDAGKIIFTSINGSLWLTKEPLDAQDNGPRVERKEVVYK	PGPT0016005_1597	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016005-cpaB-K02279	NA	NA
D1-29_03425	1197			Iron-sulfur cluster carrier protein	ATGAGCCGCTTCGTCCTCCTCTCCCCCAACGTCGAGTTCGATCAGAGACTGCGTGCAGCCGTGGCGAACGGGCTCAGGGGCACGGTCCAGACCATCGCTTCGGACATCCTTCCCGCCGGACCCCAGCAGCTGTTTGCGCTCCTTAACCAGGAGCAGCCGGAGGTACTCATCATCGGACCGGATGTTCCTATTGAAGAGGCGCTGCGCTTTGCCAAAGTCTTCGATGTCCAGCTCCCGGGACTCAGCCTGGTTCTGGTCAGCGACGCCGACCCCTCTGCCCTCCTGCTGGCCATGCGGGCCGGGATCAGGGACATCCTCAGCCCCAACGCCGATCCCGCGGAGATCCGGGTGCTGCTGGAACACGCCTGCCAGTCCTTTGCGACGCGTCACCGCAGCCACGAGTCAGCCCCGGCAGAAAACGGCGGCAAGGGTCTGGTGATTGGTGTCTTTTCCCCCAAAGGAGGTGTTGGGAAGACCACCCTGGCCACCAACATCGCCATCGGCCTGGGCCAGATCGCACCCATGAGTGTGGTCATCGTGGATCTTGACCTGCAGTTTGGCGACGTTGCCTCGGGTCTGTACCTCAACCCCGAGCACACCGTCACTGACGCCGTTTCCTCAGCCGCACACCAGGATTCATTGGTCCTTAAGGCGTTCCTCACGGTGCACCCCGCAGGAATCTACGCCCTCTGCGCACCGCCAACTCCCGTGGAAGCGGACCACATCACTCCTGATCAGGTCACCCGCCTGCTTGAGCAGCTGTCCAAGGAATTCCAGTACGTTGTGGTGGATACCGCGCCGGGCCTGCCCGAAATAGGCCTCGCTGCCATGGAGCAGTGCACCGACGTCGTATGGGTCAGCGCCATGGACATACCAAGCCTAAGGGGCCTGCGGTCAGGCCTGGAAGTACTCCGCCAGCTTGAGATCATGCCGGAATCACGGCACGTGGTTCTCAATATGGCAGACGCCAAGGCCGGCCTCAACGTTCAGGACGTCGAGTCCACCATTGGGGCACCGGTTGACGTCAGCATTCCCCGCTCCAAGGCGGTAGCCCTTTCCACCAACCGGGGGATACCTGTCCTTCAGGAGTCGAAAAGGGACCCGGCTGTGAAAAGCCTCAAACAGCTTGTTGAACGCTTCAACCCCGTCTGGCGCACGCAAGCCCAGCGCAAAGTTCACCGAAGGGTGGTCATCTGA	MSRFVLLSPNVEFDQRLRAAVANGLRGTVQTIASDILPAGPQQLFALLNQEQPEVLIIGPDVPIEEALRFAKVFDVQLPGLSLVLVSDADPSALLLAMRAGIRDILSPNADPAEIRVLLEHACQSFATRHRSHESAPAENGGKGLVIGVFSPKGGVGKTTLATNIAIGLGQIAPMSVVIVDLDLQFGDVASGLYLNPEHTVTDAVSSAAHQDSLVLKAFLTVHPAGIYALCAPPTPVEADHITPDQVTRLLEQLSKEFQYVVVDTAPGLPEIGLAAMEQCTDVVWVSAMDIPSLRGLRSGLEVLRQLEIMPESRHVVLNMADAKAGLNVQDVESTIGAPVDVSIPRSKAVALSTNRGIPVLQESKRDPAVKSLKQLVERFNPVWRTQAQRKVHRRVVI	PGPT0016020_1162	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016020-cpaE-K02282	NA	NA
D1-29_03426	1491			hypothetical protein	ATGAAACTCTCCGAGCGGATTACAGCCGTCCAGGACAGGCACCAAGCCGCGGGGCATTCAGTGGCGGTATTGGAACAGCCCCGTCCGGTGGCTCACCATGCTCCGGTCCGGGAGGAAACCGCAGGCCCGCAACAGCCTGCCGCACGGGCGCCCAAAGTATCGTCGCCTGACGTTCCCGCCCCTGCAGCCGCGAAAGCACAGCCGGTGGACGTCTTTGCCGCGATGAAACTGCGGGCAGCCACAGCCCTCTTTGAAAGGATGGGCACCCGCTTCAACGACGCATCGGTAACTGAGCAGGAACTGCGCGCCACGGCCAAAGAAGAGCTCACCCGGATCATCGACGCCGAACAGGTTCCACTTTCGTCCGAGGAACGGACCCGCCTGGTCCGTGACGTCGCTGATGACGTGTTGGGCTACGGCCCCCTCCAGCGGCTGCTGGACGACCCAGCCGTCACCGAAATTATGGTCAACCGTATGGACCAGATCTACGTCGAACGCAAAGGAAAGCTGACACTCACCGAATCCCGTTTCAGTTCAGAGGAACACCTGCGGAAGGTCATTGAACGGATCGTCTCCAAGGTAGGACGCCGGATTGACGAGTCTTCGCCCCTGGTGGACGCCCGCCTGGAAGACGGTTCCCGCGTCAATGCGGTCATCCCGCCCCTTGCCGTAGGCGGGTCCTCCCTGACAATCAGGAAATTCAGCAAGGTCCCGCTGACTGTCCGCAACCTGATCGACTACGGAACCCTGACACCCGAGATGGCTGAGCTGCTGGACGCCTGCGTAAAAGCCAAGCTCAATATCATCGTCTCCGGCGGCACGGGCACCGGCAAAACCACCCTCCTCAACGTCCTCTCCTCCTTTCTTCCGGGAGACGAAAGAATCGTGACGATTGAAGACGCCGTGGAACTGCAGATCCAGCAGCAGCACGTTGTCCGTCTCGAAAGCCGGCCTCCCAATACAGAGGGCAAGGGCGAAGTGACCATCCGTGAACTCCTGCGGAACTCGCTGCGCATGCGGCCGGACCGGATCGTTGTAGGTGAGGTCCGTGGCGGCGAATCATTGGACATGCTGCAGGCCATGAACACCGGCCACGACGGTTCGCTGTCAACGGTGCACTCCAACTCCCCGCGCGACGCGGTGGCGCGTCTGGAAACCTTGGTCCTGATGGCCGGTATGGACCTGCCCCTGCGGGCAATCCGCGAGCAGATTGCCTCCGCCGTAAACCTCATCGTCCAAATCTCCCGCCTGCGTGATGGCTCCCGCCGGATCACCCATGTCACTGAGGTGCAGGGCATGGAGGGTGACATTGTCACCCTCCAGGATGCCTTCGTCTTCGATTACTCAGCCGGAGTGGATGCGCATGGCCGTTTCCTCGGCAAGCCCGTGGCCACCGGCATCAGGCCGAGGTTTATTGACAGGTTCGAGGACCTGGGCATTCACGTCTCGCCGGCGGTCTTCGCCGGTACAGTCACTCCGATAACGAAATGA	MKLSERITAVQDRHQAAGHSVAVLEQPRPVAHHAPVREETAGPQQPAARAPKVSSPDVPAPAAAKAQPVDVFAAMKLRAATALFERMGTRFNDASVTEQELRATAKEELTRIIDAEQVPLSSEERTRLVRDVADDVLGYGPLQRLLDDPAVTEIMVNRMDQIYVERKGKLTLTESRFSSEEHLRKVIERIVSKVGRRIDESSPLVDARLEDGSRVNAVIPPLAVGGSSLTIRKFSKVPLTVRNLIDYGTLTPEMAELLDACVKAKLNIIVSGGTGTGKTTLLNVLSSFLPGDERIVTIEDAVELQIQQQHVVRLESRPPNTEGKGEVTIRELLRNSLRMRPDRIVVGEVRGGESLDMLQAMNTGHDGSLSTVHSNSPRDAVARLETLVLMAGMDLPLRAIREQIASAVNLIVQISRLRDGSRRITHVTEVQGMEGDIVTLQDAFVFDYSAGVDAHGRFLGKPVATGIRPRFIDRFEDLGIHVSPAVFAGTVTPITK	PGPT0016025_592	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283	NA	NA
D1-29_03427	933			hypothetical protein	ATGATGCTTACCGTTGGGGCAGCCATCCTCCTGGTTGCAGTCAGTCTCCTGGGCATCGCGATCGCCGTGCCCAGCGCGCCGGAAGTTCCGCTGGACCGCCGGCGGCCTTTTGAAGCCAATCCGCCCACCAGCCTGGCCCGCCTGGCGGCCTCGGCAGTGCGTTCCTTTGAACGGGTCCTTGCCGGCAAGAGCATCAGCTGGTTCTCCCGCAGTGAACTCGAAAATGCAGGCCTTCGCCTGAGCCAGGCGGAGTTCTTCATCCTGGTCGCAGTAGGATCCTGCGTGGGGATCCTGATTGGGCTTGTAGCCCTCGGTCCACTCGTTGGCCTGCTCCTCGCGCTTCTGGCGCCGTTTGTTGGACGGATGGTGGTGGGCTATTTGGCCGGGAAGCGCCGTTCGAAGTTTGATGGCCAGCTGGGCGACACGCTGCAGCTCCTGTCGGGAGGTTTGCGGGCCGGCCATAGCATCCTTCGGGCCATCGACGCCGCAGCCAGCGAATCCCAGAAACCCACCTCAGAGGAGATGCGGCGCGTGATCACTGAAACGAGCCTTGGGCGCGATCTCCTGGCAGCCCTCAATGACACGGCCGTTCGAATGAAAAACGAGGACTTCGTCTGGATATCCCAGGCCATTCAGATCAACCGCGAGGTGGGCGGCAACCTTGCCGACGTCCTTGACCAGGTCAATGAAACCATCAGGGAACGCAGTGAGATCAAAGGCCACATCAAGGGACTGGCGGCCGAGGGCAAGTTCTCCGCATACATCCTCATCGCCATGCCCTTTGGCATCGTGGGCATGTTGCTGACCGTAAATCCCGGATACATGAACTCGATGTTCACCCATCCCCTGGGCTGGGCCATGATCGGGGCATCATTCGTCCTGATGGCCATCGGCGCATTGTGGATGCGCAAGATTATCGACCTGAAGTTCTGA	MMLTVGAAILLVAVSLLGIAIAVPSAPEVPLDRRRPFEANPPTSLARLAASAVRSFERVLAGKSISWFSRSELENAGLRLSQAEFFILVAVGSCVGILIGLVALGPLVGLLLALLAPFVGRMVVGYLAGKRRSKFDGQLGDTLQLLSGGLRAGHSILRAIDAAASESQKPTSEEMRRVITETSLGRDLLAALNDTAVRMKNEDFVWISQAIQINREVGGNLADVLDQVNETIRERSEIKGHIKGLAAEGKFSAYILIAMPFGIVGMLLTVNPGYMNSMFTHPLGWAMIGASFVLMAIGALWMRKIIDLKF	PGPT0022290_1345	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510	NA	NA
D1-29_03428	885			hypothetical protein	ATGAGCCCCCTTATTCTTCTCGCAGTCCTGATGGTTTGCGTCCCCTTGGCGGGGATTACCTGGTCCGTGCTGACCACTGACAAGCAGGGACGCACCGCCGCCGTCGAAATCCTTGGCCGCGGCACAGTCCTGGCAGACAACGTTGCCCCAGTACGTCGCAGCGCGCTGGAAACCATCGGCCGCCGCCTGACACCGGCAGGATACGTCGCTTTCCTCGACCGCCTGCTTGCGTTGGCAGGCCGGCCGGAAACGATGCCGCTGGGACGCACGTTGGGATCAAAACTGGCCCTTGGCGCCGCCGGCATAACTCTCGGAGTTTATCTCACCTCCGTTGGAACCACTCCCGTGATGAAATTGGCCGGGCTTTTCCTTGTCTTTCTGGGTTATTTCATTCCGGATTTGCTGCTCTATAGCAAAGGGAAGGAACGTCAAAAAGTCATCCAGTTGGAATTGGCTAATACCTTGGATCAAATGCTGATTTCCGTAGAGGCAGGACTGGGATTTGAGGGGGCCATGGCCCGTGCCGGTGCCAACGGCAAAGGCCCGTTGGCCGAGGAGTTGGTCCGCACGCTGCAGGACATGCAGGTGGGGCGCAGCCGCCGGGAGTCCTATTTGGCACTGGCAGAACGCACAAACCTGGCCGAACTGAAGAGCTTTGTCCAGGCCGTGGTCCAAGCGGATACCTATGGCATCGCTATTAGCCGGGTGCTCCGCGTGCAGGCGAAAGCTATGCGTGTAAAGCGACGCCAACGGGCCGAGGAAAAAGCCATGAAGCTTCCCGTGATGATTTTGTTTCCCCTTTTGTTCTTCATATTTCCCGTGCTTTTTATTGCAATTCTTGGCCCCGCCGTTGTAAACACCGTTGTCACGTTCAGTGGCCAGTGA	MSPLILLAVLMVCVPLAGITWSVLTTDKQGRTAAVEILGRGTVLADNVAPVRRSALETIGRRLTPAGYVAFLDRLLALAGRPETMPLGRTLGSKLALGAAGITLGVYLTSVGTTPVMKLAGLFLVFLGYFIPDLLLYSKGKERQKVIQLELANTLDQMLISVEAGLGFEGAMARAGANGKGPLAEELVRTLQDMQVGRSRRESYLALAERTNLAELKSFVQAVVQADTYGIAISRVLRVQAKAMRVKRRQRAEEKAMKLPVMILFPLLFFIFPVLFIAILGPAVVNTVVTFSGQ	PGPT0022295_1791	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022295-tadC-K12511	NA	NA
D1-29_03429	462			hypothetical protein	ATGCACATTCCAGATCCCACTTCCGGCCACAGAGGCGTCTCATCCGACGCCCTGCCGGCAGGGTCTGGAGCTGGCGTGGGTTCACGGCAGCCATTTGAAGGAGAAGAGCTCTTGCCCCTGGTTGATTCCGCTGTCCTCGAAGACCTGGAAGAACAGCTCAATGGTTCAGAACTGGCAGTCCGCTTCGCACGGGACTACACCACCATGTGGGACCACCGGTACAGCCGTCTGGCAGCCGCAGTGCTCAGCGAGGACCGTGCATCTGCCCTCGACGCGGCTATCAGCCTGAAGATAACGTCGGCCATGGTGGGCGGCCTCCGGCTCGCACGGCTGGCAGAACTCCTGGAAAAAGTGATCCGTCAGGGCGACTTTAGCCAAGGCCAGGCGCTCATGGAACAAGTCGCCGAGGACGGCGGCCAGACGGTCTCAGAGCTCCAGGCCAACTACATTCTGAAGAACTGA	MHIPDPTSGHRGVSSDALPAGSGAGVGSRQPFEGEELLPLVDSAVLEDLEEQLNGSELAVRFARDYTTMWDHRYSRLAAAVLSEDRASALDAAISLKITSAMVGGLRLARLAELLEKVIRQGDFSQGQALMEQVAEDGGQTVSELQANYILKN				NA	NA	NA	NA	NA
D1-29_03430	798	walR_2	COG0745	Transcriptional regulatory protein WalR	ATGGACGATCTTGGAGTAGCTGTAGTAATCGAAGATGACGTGGATATCCGCAACCTCCTTGAGGGAGTGCTGACTCAGGCAGGGTTTGAGGTACACACGGCCGCTGACGGACGCGAAGGTGTTGAAGTCGTGCGGCACAAGCAGGCCAGCGTGGTGACGTTGGACATCGGCCTGCCGGACATTGACGGGTTCGAGGTGCTCCGGCGAATCCGCTATTTCAGCGATGCCTACGTGGTGATGCTGACCGGCAGAACCGAAGAACCGGATCTGCTCTCGGCACTCAACGCCGGGGCAGATGACTACATCGCCAAGCCGTTCAGGCCGCGGGAACTACGCGCGCGGCTTGCGGCCATGATGCGAAGGCCGCGGCACGAGGTCAACGGGGGAAACACGCCGCGGACGGTGACGTCGGCACCGGCACCTTCAACTTCGGCCGCGGCACCCCCGGCAGAGACGGGAGTGTTGCATCACAACGGCCTGGCCCTGAACCACAGGACGAGGACCGTCACCATGCGGGGAGAACAGTTGGCGCTCACACGCAGCGAGTTTGACCTCCTGCACGAGCTGTTGCGTACCGGCGGCGCAGTGTGTACGAGGGCCGACCTGGTCCGTGCAGTGCGGGGGGAATTCTACGCGGATGACACTTACATCAGCGAAGCGGATGAGCGGGCGGTGGAGGTTCACATCGGCAACCTCCGGCGGAAACTCCAGGAGGATCCCCTGGCACCGCGTTGGCTGCAGACTGTGCGGGGTGTGGGGTACAGGCTGGCCCCAAAGCGCCCCGGTAATTCAACATAA	MDDLGVAVVIEDDVDIRNLLEGVLTQAGFEVHTAADGREGVEVVRHKQASVVTLDIGLPDIDGFEVLRRIRYFSDAYVVMLTGRTEEPDLLSALNAGADDYIAKPFRPRELRARLAAMMRRPRHEVNGGNTPRTVTSAPAPSTSAAAPPAETGVLHHNGLALNHRTRTVTMRGEQLALTRSEFDLLHELLRTGGAVCTRADLVRAVRGEFYADDTYISEADERAVEVHIGNLRRKLQEDPLAPRWLQTVRGVGYRLAPKRPGNST	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
D1-29_03431	1671	sasA_8		Adaptive-response sensory-kinase SasA	ATGGCTGAGAGGCTGGTTCAGCGTGGAATAGGCCGCTATTTCCGGACTTTGGGCCCGCGTACGCAGGTGGCATTGTGCCAGCTTCCGCTAACCCTGATCGTCTTGGCAATAGGGATCGCGACTCCCTTTGCCTGGCCCGCCCTGTTGAACAGTCCGCTTTATATTGTGGGAATGGTCCTGCACGGCCTACTGTTTGCCTGTTGTTTCCTCGTCCCTTGGGAGCGGCTGAACAGAAACGCATACCTGCTCATTCCGGTTCTTGATCTTCTTGCCATTGGACTTTCACGCAACGGTGCCGGACAGGTTGTTCCCGGGCTGGTTATCCTGACCATCTTCCCAATCATCTGGCTGTCCGCCTCGGGAATGCTCGCCAAAACAAGCATCCTTTTGAGTATTGTTGGGCCGTTCCTCATTATGCTGCCCACAGTAATGGCGAAGCTTCCACACGTTACGGCTTCGGATTTCACCTCGCTTCTGCTGTTCCCACTCATGATGCTTGCCGTCTCGCTGGCCATCCGCTTTGCCAGCGTCAATATGAGGATGCAACAGCGCCAGCTCCAGGAGAAGGATAAGGAGCTCCGGGACTTGCTTGCCGAGAGCAGGGAACGCGAAAGGCTCCTCAAGACAATTCTGGACGCTACCGACGTCGGGATTGTTGCGGTTAATTCAAACGGCGAGCACCTGCTGACGAACAACCAGCAGCGGGTCTTCGAGCAGAATGCCAGCAATTCAGACGTGCGCTCGTCGGACGAAAAAGATCAGCTGATCTTTGCGCAGGACAAACTGACTCCCCTGCCGGCCGAAAAGCGGCCTATTCGGCGAGCCATCCAAGGTGAGTCTTTTGCGGATTACCTTGTGTGGATTGGCAAGGGATCAAAACAGCGCGCTGTTTCCACAGCGGCGAGGTCGATGGTGAGCGATGGCGGTGAATTCACGGGAGCTGTGGTTGTCTACAACGACGTCACCGGACTCGTCGAGGCTTTGGCAGCAAATGAGGAACTTGTCTCTAATGTCTCCCACGAATTCAGGACACCGCTGAATTCCATCCTCGGGAATATCGATCTGGTTCTCGAGGATGAAGAGGGAACCTCCAAGCTGTCCGCCCAGCGCCTTGAAGTTGTCCAGCGCAACTCAGAGAGGCTGCTGGCCCTGGTATCGGACCTGACCCTGTCAGCTTCGTCCGCGCTCAGGGTTCATCCAAAGCGGACGGACCTCGCGAGCCTTGTGGCCACCAGCATCGGCTCAGCCATGGCGCAGGCTGACCAGTCGAACATCGCCTTCGTGGCTGACGTTCCCTCACCACTCTGGGCCTACGCTGATCCCCTGAGGATCGGACAGGCCCTGGACAACCTGGTGTCGAATGCCATCAAGTACTCCCCCGGGGGCGGCGTGGTGAGTATCAGCGCGCAAGGCGCCGGCGGGTGGGTTCGGCTCTCCGTTAAGGACACCGGTATGGGCATGACGTCGGAGGACTCCGAGCGGGTTTTCAAGCGGTTCTTCCGCACGGACTCAGCCCGGCAGGCCTCCATCGCCGGAGCCGGTCTGGGCCTGTCCATCACCAAAACAATCATTGAGCGCCACGGCGGAGACATTTCCTGTGAGAGCCGCCCTGGCGAAGGCACCACCTTCACCCTTACGCTGCCGGCAGACGGGCCCCCGCCGTCGTTCTAG	MAERLVQRGIGRYFRTLGPRTQVALCQLPLTLIVLAIGIATPFAWPALLNSPLYIVGMVLHGLLFACCFLVPWERLNRNAYLLIPVLDLLAIGLSRNGAGQVVPGLVILTIFPIIWLSASGMLAKTSILLSIVGPFLIMLPTVMAKLPHVTASDFTSLLLFPLMMLAVSLAIRFASVNMRMQQRQLQEKDKELRDLLAESRERERLLKTILDATDVGIVAVNSNGEHLLTNNQQRVFEQNASNSDVRSSDEKDQLIFAQDKLTPLPAEKRPIRRAIQGESFADYLVWIGKGSKQRAVSTAARSMVSDGGEFTGAVVVYNDVTGLVEALAANEELVSNVSHEFRTPLNSILGNIDLVLEDEEGTSKLSAQRLEVVQRNSERLLALVSDLTLSASSALRVHPKRTDLASLVATSIGSAMAQADQSNIAFVADVPSPLWAYADPLRIGQALDNLVSNAIKYSPGGGVVSISAQGAGGWVRLSVKDTGMGMTSEDSERVFKRFFRTDSARQASIAGAGLGLSITKTIIERHGGDISCESRPGEGTTFTLTLPADGPPPSF	PGPT0002705_934	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
D1-29_03432	894	truA	COG0101	tRNA pseudouridine synthase A	ATGAACGACCAAAAACCCGCGGCCCCCGTTTCAGGGGGCGGCGGGTTTTTGCGTGTCCGCCTTGATCTGTCCTACGACGGCGGCCCCTTCAGCGGGTGGGCACTCCAGCCCGGCATGCGCACCGTCCAGGGGGTCCTGGAGGAGGCACTGGCGTTGCTGGTGCGCCGCCCGGTCCGTGTCACTGTGGCCGGCCGTACCGACGCCGGAGTGCACGCCCGCGGCCAGGTGGTCCACCTCGACCTGACAGAAGCCGAGTGGCTGGGACTCAACAGGGGAGCGGAACTGGATCCCGCCGTCGCCCTCCTGCGGCGCCTCCGGGGCGCCCTCAGCAGGGGCCTGGGCGATCTGACCGGGGCCATCGAGGTCCACCGGGTGTCATTGGCGCCGGAAGGCTTTGACGCCCGGTTCTCCGCGCTGTGGCGGCGCTACAGCTACCGCATCGCGGACGGGCCGGCGCTGTGGGATCCGCTAGAGCGCTACTTCACGCTGTGGCACAAGAATCAGCTGGACGTGTCACTGCTGAACCAGGGAGCGTCCAAGCTGCTGGGGCTGCAGAACTTCCTGTCGTACTGCAAGCCACGGGAGGGAGCCACCACCATCCGTGAGCTCCAGCGCTTCGAGTTCCGTCGTGGCGAGGACGGCGTCATTGTTGCTACCGTCCAGGCGGATGCCTTCTGCCACAACATGGTCCGTGCCCTGGTCGGTTCCGCCCTCTACGTCGGCGAGGGCGTGGAGGAACCGGGTTGGCTCTACGAGAGGCTCCTGGCCAAGAAGCGTGATGCCAGGTCCATCCTGGCCGCGCCCCATCCGCTGGTACTCGAGGAAGTGGCCTACCCTTCCGACGACGAGATGCTCGCGAGGGCCGAACTCACGCGGGCAGTGCGCAGCACTTGA	MNDQKPAAPVSGGGGFLRVRLDLSYDGGPFSGWALQPGMRTVQGVLEEALALLVRRPVRVTVAGRTDAGVHARGQVVHLDLTEAEWLGLNRGAELDPAVALLRRLRGALSRGLGDLTGAIEVHRVSLAPEGFDARFSALWRRYSYRIADGPALWDPLERYFTLWHKNQLDVSLLNQGASKLLGLQNFLSYCKPREGATTIRELQRFEFRRGEDGVIVATVQADAFCHNMVRALVGSALYVGEGVEEPGWLYERLLAKKRDARSILAAPHPLVLEEVAYPSDDEMLARAELTRAVRST				NA	NA	NA	NA	NA
D1-29_03433	609			hypothetical protein	ATGCCTACCCCCACTAAGGGTCCGCGCCTCGGAGGCGGCCCGGCTCACGAGCGTCTTATGCTCGCGAACCTGGCAGCAGCACTGTTCGAGCACAAGCGGATCACCACCACGGTGACCAAGGCCAAGCGGCTCAAGCCGTACGCCGAGCGTCTTGTCACTTTCGCCAAGCGCGGCGACCTGGCTTCCCGCCGTCGCGTGCTCGGCCTGATCAGCAACAAGGGCGTCGTCCACGAGCTGTTCACCGACATTGCCTCGGCAGTGGAGAACCGCGACGGCGGCTACACCCGCATCACCAAGATCGGCAACCGGAAGGGCGACAACGCTCCCATGGCTGTCATCGAACTGGTTCTTGAGCCGGTTTCCGCGAAGCAGGCCGTTGTAGCCGAGGCTACCTCTGCTGCGAAGCGCGACGCCGACAAGAAGGAAGCTGCTGCTTCTGCTCCCGTTGCTGAAGAAGCTGCCGAGGAAGCTACTGAAGCTCCCGAGGCCGAGGCTGTTGAGACCGAAGCCACCGAAGAAGCTGCAACCGAAGAGGCCGTTTCTGAAGAAGCAGTGGCCGCTGAGGAAGCGCCTGAAGAGCCTGCCGCTGAGGAAAAGGACGCGAAGTAA	MPTPTKGPRLGGGPAHERLMLANLAAALFEHKRITTTVTKAKRLKPYAERLVTFAKRGDLASRRRVLGLISNKGVVHELFTDIASAVENRDGGYTRITKIGNRKGDNAPMAVIELVLEPVSAKQAVVAEATSAAKRDADKKEAAASAPVAEEAAEEATEAPEAEAVETEATEEAATEEAVSEEAVAAEEAPEEPAAEEKDAK				NA	NA	NA	NA	NA
D1-29_03434	1011	rpoA		DNA-directed RNA polymerase subunit alpha	GTGCTCATTGCACAGCGCCCCACCCTCTCCGAAGAGGTAGTCTCCGAAAACCGTTCGCGTTTCATCATTGAGCCGCTTGAACCGGGCTTCGGCTACACCCTCGGAAACTCCCTCCGCCGTACCCTGCTCTCCTCCATCCCCGGTGCCGCTGTAACCAGCATCCGGATCGATGGCGTGCTGCACGAGTTCACCACGGTTCCGGGTGTCAAGGAAGATGTCACTGAGATCATCCTGAACATCAAGAGCCTGTCGGTCTCCTCCGAGCACGACGAGCCGGTTGTTGCCTACCTGCGCAAGCAGGGCCCGGGAGTCGTCACGGCCGCGGACATCGCTCCGCCGGCCGGCGTCGAATTCCACAACCCGGATCTGCACATTGCCACGCTGAACTCGAAGGGCAAGTTCGAACTCGAACTGACCATCGAGCGCGGCCGCGGCTACGTTTCGGCAGCTCAGAACAAGTCCGGCGATTCCGAGATCGGCCGCATCCCGGTCGACTCGATCTACTCGCCGGTGCTGAAGGTTACTTTCCGCGTGGAAGCAACCCGTGTTGAGCAGCGCACCGACTTCGACAAGCTGATTGTCGACGTCGAGACCAAGCAGGCCATCGCCCCGCGCGATGCTGTTGCTTCCGCAGGTACCACCCTGGTGGAACTCTTCGGTCTGGCCCGCGAGCTGAACACCGCAGCTGAAGGTATCGAGATTGGCCCGTCGCCGACGGATGCTGCCCTGGCAGCAGACATGGCCCTGCCGATCGAGGATCTGGACCTCACCGTCCGTTCCTACAACTGCCTCAAGCGTGAGGGCATCCACACCGTGGGTGAACTCGTAGCCCGCTCCGAGGCTGACCTGATGGACATCCGTAACTTCGGTGCGAAGTCCATTGACGAGGTCAAGGCAAAGCTGGTTGAACTGGGCCTGTCCCTCAAGGACTCGCCTCCCGGTTTTGACCTCGCAGCACGCGCCGCAGCAATTGAAGAGGACGACGCCGCCTTCGGCGACGACGAACTCTAA	MLIAQRPTLSEEVVSENRSRFIIEPLEPGFGYTLGNSLRRTLLSSIPGAAVTSIRIDGVLHEFTTVPGVKEDVTEIILNIKSLSVSSEHDEPVVAYLRKQGPGVVTAADIAPPAGVEFHNPDLHIATLNSKGKFELELTIERGRGYVSAAQNKSGDSEIGRIPVDSIYSPVLKVTFRVEATRVEQRTDFDKLIVDVETKQAIAPRDAVASAGTTLVELFGLARELNTAAEGIEIGPSPTDAALAADMALPIEDLDLTVRSYNCLKREGIHTVGELVARSEADLMDIRNFGAKSIDEVKAKLVELGLSLKDSPPGFDLAARAAAIEEDDAAFGDDEL				NA	NA	NA	NA	NA
D1-29_03435	402	rpsK	COG0100	30S ribosomal protein S11	ATGCCCCCGAAGACTCGTGGCGCGGTTCGCAAGCCGCGTAAGAAGGACAAGAAGAATATCGCGCTTGGCCAGGCGCACATCAAGAGCACTTTTAACAACACCATCGTGTCCATCACGGACCCGAACGGCGCTGTTATCTCTTGGGCTTCCTCAGGTGAGGTTGGCTTCAAGGGCTCACGCAAGTCCACCCCGTTCGCTGCCCAGATGGCTGCCGAAGCCGCTGCCAAGCGTGCGCAGGAGCACGGCATGCGCAAGGTTGACGTTTTCGTCAAGGGACCGGGATCCGGACGCGAAACCGCAATCCGCTCGCTGCAGGCCGCTGGCCTGGAGGTTGGCTCCATCCAGGACGTCACCCCCGCAGCGCACAACGGCTGCCGTCCGCCGAAGCGCCGCCGCGTCTAA	MPPKTRGAVRKPRKKDKKNIALGQAHIKSTFNNTIVSITDPNGAVISWASSGEVGFKGSRKSTPFAAQMAAEAAAKRAQEHGMRKVDVFVKGPGSGRETAIRSLQAAGLEVGSIQDVTPAAHNGCRPPKRRRV				NA	NA	NA	NA	NA
D1-29_03436	375	rpsM	COG0099	30S ribosomal protein S13	ATGGCTCGTCTCGCTGGCGTAGACATTCCCCGCGAAAAGCGGCTGGAAATTGCGCTTACTTACATCTACGGCGTGGGCAAGACCCGTGCACACGAAACCCTGGCTGCCACTGGCATCAGCGCTGACGTTCGCGTCAAGGACCTGACTGATACCCAGCTGGTTGAGCTGCGTGACTACATTGAAGGCAACTACAAGGTTGAGGGTGACCTTCGCCGCGAAGTAGCAGCAGATATCCGCCGCAAGGTTGAAATCGGCAGCTACGAAGGCCTGCGCCACCGCAAGGGCCTGCCCGTACGCGGACAGCGTACGAAGACCAACGCACGTACCCGCAAGGGTCCGAAGCGTACCGTCGCCGGCAAGAAGAAGGCCCGTTAA	MARLAGVDIPREKRLEIALTYIYGVGKTRAHETLAATGISADVRVKDLTDTQLVELRDYIEGNYKVEGDLRREVAADIRRKVEIGSYEGLRHRKGLPVRGQRTKTNARTRKGPKRTVAGKKKAR				NA	NA	NA	NA	NA
D1-29_03437	114	rpmJ		50S ribosomal protein L36	ATGAAGGTCAAGCCGAGCGTCAAGCAGATCTGCGAAAAGTGCAAAGTGATCCGCCGTAATGGCCGGGTCATGGTGATCTGCGAGAACCCGCGCCACAAGCAGCGCCAGGGCTAA	MKVKPSVKQICEKCKVIRRNGRVMVICENPRHKQRQG				NA	NA	NA	NA	NA
D1-29_03438	222	infA	COG0361	Translation initiation factor IF-1	ATGGCCAAGAAGGACGGGGTCATTGAGATCGAGGGCGTTGTGACTGAGGCGCTGCCTAACGCGATGTTTCGCGTTGAGCTCACCAACAAGCACATCGTTCTGGCACACATCTCAGGCAAGATGCGCCAGCACTACATCAGGATTCTCCCTGAGGACCGGGTAGTGGTGGAACTGAGCCCATATGACCTCACTCGGGGTCGTATCGTCTACCGCTACAAGTAA	MAKKDGVIEIEGVVTEALPNAMFRVELTNKHIVLAHISGKMRQHYIRILPEDRVVVELSPYDLTRGRIVYRYK				NA	NA	NA	NA	NA
D1-29_03439	954		COG3191	putative aminopeptidase	ATGAACGGCATGGGAGCCATTACTGACGTGCCCGGGATCCGTGTGGGCCACAATCAGAAGTCCGACGACGGCTGGTTGAGTGGCGTGACTGTGATCCTGCCGCCGCCGGGAACCACCGGCTCAGTGGACGTGGGCGGGGGAGGCCCCGCAACCCACGAGACGGACGCACTGGACCCGACCACGCTGACTTCTGCCGTAGATGCCGTGGTCCTGACGGGCGGCAGCGCCTACGGACTGGTGACGGCCCACGGCGTCCAGCGGTGGTGCGAAGAGCACGGCCGGGGATTCCCGGTCCCCGGCGGCGTGGTGCCGATCGTTCCGGCGGCCGCCATCTTTGACCTGGGCCGCGGCGGCGAGTTCTTAGCGCGTCCGACGGCGGAAATGGGCTATGCGGCAACTGCCGCCGCCGCCGCTGAAAAGGACGGGCACGACGTCGAACGCGGCAATGTTGGCGCCGGCACCGGAGCGCTGATGGCCCGGACCTACAAAGGGGGAGTAGGCACGGCATCGGTCACCCTCGAGAACGGCATTGTCCTGGGTGCCCTGGCTGTGGTGAACGCACTGGGCCTGCCGGTTGGGTCCCGCCCGGCAGCTGTTGCCGCGACTGCGGCGCCTGAACCGCCGGGGCCCAACACAACCCTCGTTGTTGTCGCCACCAACGCCGTCCTGGACAAGACCGAGTGCAAACGGACGGCTTCGGCTGCCCAGGCCGGGATCGCAAGGGCCCTTGACCCAAGCCACACCCTGGCGGACGGAGATACCGTTTTCTGCCTTGCCACCGGGGACTTGCCGCTGGACCGGGGTACGGAAGTTGCCCGGCAGGTAAGTCTGATTACCCTGCAAAGCACGGCGGCCGACGTCGTACGCCTGGCCATCCTGGATGGGGTCTCCAGTGCGGCAGCGGTGAGGACTCCTGCCGGTGAATATGATGCGTACGGGAGCACATTGCGCTAA	MNGMGAITDVPGIRVGHNQKSDDGWLSGVTVILPPPGTTGSVDVGGGGPATHETDALDPTTLTSAVDAVVLTGGSAYGLVTAHGVQRWCEEHGRGFPVPGGVVPIVPAAAIFDLGRGGEFLARPTAEMGYAATAAAAAEKDGHDVERGNVGAGTGALMARTYKGGVGTASVTLENGIVLGALAVVNALGLPVGSRPAAVAATAAPEPPGPNTTLVVVATNAVLDKTECKRTASAAQAGIARALDPSHTLADGDTVFCLATGDLPLDRGTEVARQVSLITLQSTAADVVRLAILDGVSSAAAVRTPAGEYDAYGSTLR	PGPT0010110_4	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-AMYCIN_DERIVATE_BIOSYNTHESIS,PGPT0010110-thnT|cmmT-K18572	NA	NA
D1-29_03440	1230			IS481 family transposase ISArsp2	GTGGCGACATGGCCCGAAGACGCTCCCCGTGGTGCCGTGACGGCGTTCTGCCGGAAGCACAACGTCTCGAGGGCGTGGTTCTATCGAGTCCGTGCGGCGGCCGGTGCGGTGGGGCCGGTGCAAGCGTTGGTGAAGAAATCCACGGTTCCGGGGACCTCGCCCACTGCCACCGAGCCTGGCATGATCGATCTCCTGCTTGCCACTCGGACTGATCTGGAGAAACAAGGTCTGGATCACGGCCCTTTGTCGGTCCTGTCTACGCTGTCCAGGCAGGGCTATCGTCCCCCGTCGCGGGCGACCGTGGCCAGGATCTTTGCCCGGTCCGGGGTAGTGGTGCCGGAGCCGCGGAAGAAGCCGCGCAGCGCCTACAAGCGATTCGTCTATCCGCAGCCGAACGCGTGCTGGCAGATCGACTCGACCGAGTGGGTCCTCGCCGACCGGACGAAAGTGGCAGTTTTCCAGCTCATAGACGATCATTCCCGGCTTGCTCTGGCATCTCTCGTGGCCCCGGGCGAAACCAGTGCCGCTGCGATCGCGGTCGTGACGCTGGCCATCCAAAGACATGGCGTGCCGCAGAAGTTCCTCTCCGACAATGGCGCAGCGCTGAACCCGACCCGCCGCGGACGCACCGGTGCGCTGGTCGAATTCCTCAAAGCCAAAGGCGTGGAGCCGATCACCGGTAAGCCCTACAAACCCACCACCCAGGGCAAGAACGAACGCTTCCACCAGACCCTGCACAAATACCTCCACCGTCAGCCGCCGGCCGCATCAATGACTCTCCTGCAAGCCCAAGTCGACGCTTTCGATCTGTACTACAACACCCAACGCGAACATCAGGGCCTGGCACCGGGAATGACCCCAAGCGAGGCCTGGCACGCCACTCCAAAAGCCCCGGCACCGGTTCCGCCAGATCAACCAACACCGGAATCAGAGCGACGCAGCCTTCGCCGAACGGTCCGGAAGGACGGCTGCATTACCGTCCTGGGCACCCATTTCATGATGGGCAAGGAACACATCGGACAAACCGTCCACGTCATCTACGACGCCGCCACCATCATGTTCTTCGGACCCCAAGGCACCGAAATCATCAGCCACGTCAGGCCACCCAAAGGCACGCCCTACGTCGGCAACGGCAAGCCCTCCGGCGTCGCCGCAGACCCTGTAGGAGCCCGCAAAAAGCGAACCCATTACCCACGCCGACGTCAGCAGCCAAACGCCACGCAACCATGA	MATWPEDAPRGAVTAFCRKHNVSRAWFYRVRAAAGAVGPVQALVKKSTVPGTSPTATEPGMIDLLLATRTDLEKQGLDHGPLSVLSTLSRQGYRPPSRATVARIFARSGVVVPEPRKKPRSAYKRFVYPQPNACWQIDSTEWVLADRTKVAVFQLIDDHSRLALASLVAPGETSAAAIAVVTLAIQRHGVPQKFLSDNGAALNPTRRGRTGALVEFLKAKGVEPITGKPYKPTTQGKNERFHQTLHKYLHRQPPAASMTLLQAQVDAFDLYYNTQREHQGLAPGMTPSEAWHATPKAPAPVPPDQPTPESERRSLRRTVRKDGCITVLGTHFMMGKEHIGQTVHVIYDAATIMFFGPQGTEIISHVRPPKGTPYVGNGKPSGVAADPVGARKKRTHYPRRRQQPNATQP				NA	NA	NA	NA	NA
D1-29_03441	828	map_2	COG0024	Methionine aminopeptidase 1	ATGGCATTCGGACAGCCCCGCATCGAATACAAGACCAACGCCCAGATGCGCACCATGCATGAGGCAGGCCTTGTCCTGACCCGCGCCTTGGATGCCGCCGTAGCCGCCGCCGTGCCGGGCGTCACCACCAAGCACCTGGACGACGTTTTCGCCGCCGTCCTGAATGAGGCCGGGGCGAAATCCAACTTCCTCGGCTACCACGGCTTCCCGGCCTCCATCTGCACCTCCGTCAATGAGGAGGTGGTGCACGGCATCCCGGGAAGCCGCACGCTCAATGATGGCGACATCATCTCGATCGACGGCGGCGCGATCGTGGACGGCTGGCACTCAGACTCGGCACGGACCGTCATTGTGGGCACCGCCGATCCCGAAGACCAGCGGCTCTCCGACGTGACACAGGCGGCCATGTGGCGGGGCATAGCGGCACTGGCAACGGGAAGCCATGTGGGGGATATCGGCGCGGCCATTGACGACTATGTGTCCTCTGTTCCCGGGAAGCCGCTGGGCATTTTGGAGGACTACGTCGGCCATGGCATCGGCTCCGAGATGCATATGGCGCCGGACGTGCTCAACTACCGCACCAGCCACCGCGGGCCCAAGATCCGGCCGGGGCTGTGCCTTGCGATCGAACCCATGCTGGTCCGTGGCGGCATCGAGACTGCAGTCCTGGAAGACGACTGGACCGTGGTGACCACAGACGGCAAGCGCTCCTGCCAGTGGGAGCACTCCGTGGCGGTCCACGAAAAGGGCATCTGGGTGCTCTCGGCCCCCGACGGCGGTGCCGAGCATCTGGTGCCCCTCGGCGTCGTGCCCGTTCCCGTCCCCTAA	MAFGQPRIEYKTNAQMRTMHEAGLVLTRALDAAVAAAVPGVTTKHLDDVFAAVLNEAGAKSNFLGYHGFPASICTSVNEEVVHGIPGSRTLNDGDIISIDGGAIVDGWHSDSARTVIVGTADPEDQRLSDVTQAAMWRGIAALATGSHVGDIGAAIDDYVSSVPGKPLGILEDYVGHGIGSEMHMAPDVLNYRTSHRGPKIRPGLCLAIEPMLVRGGIETAVLEDDWTVVTTDGKRSCQWEHSVAVHEKGIWVLSAPDGGAEHLVPLGVVPVPVP	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
D1-29_03442	942	oleD	COG0451	2-alkyl-3-oxoalkanoate reductase	ATGAGGATCGCTGTCACCGGTGCCACGGGGTTTGTCGGTGCCGCGGTGGCGGCGGCCGCCGAACACCGCGGCTGGGAGGTTTACCGCTATGGCAGGCGGCAGCTCCCAGGAATTACCGTGTGGGATCTGGCCGAGGGGAAGCTTTCGAGCCCGCCGGAGGTGGACGCGGTGGTGCATGCCGGTGCCCAGGTTGGCGACTGGGGGCCGCCGCAATTGTTCCACCGTGTCAACGTCCTCGGCACCGAAGCCGTCGCGGCCACCTTCCCCCGCGCCAGGCTGGTCCACATCTCCAGCTCGAGCGTCAATCCCTGGTGGCAGCCGTGTGTGGACCGGCAGGAGGAAGCCCCGTCCGGGCGCTACCTGAATGCCTACTCCCGCTCCAAGGCCCTGGCGGAGGCAGCCGCGTCAAAGCACCCCAATGCAGTGATCCTCCGGCCGCACGGAGTGTACGGGCCTGGTGACAGGACCCTGCTGCCGCGCCTCATCCGCAATGTAAAGCGCGGCAGGCTGCTATGCGTTGGAGGCCCGGACGTGCGCCACCAGCTGACGTCAATCGGGAACCTGACCGAAGCAGCGCTCGCCGCGTGCGCCTCAGACGTAACCGGGCCCGTCAACGTGGCCGACCACCAGCCCGTGGAACTGGGCGGAGTCCTGCGGGAAGTCCTGGACGAAACTGGCCGCACCGACGTCGAACTCCGCTTTATCCCGCTGCGGGCGGCGATGGCGCTGGCGGTTTCGCTTGAGGCGCTGGGCCGCGTAACGCGCACGGCGCCCGCCCTCACACGCTACGCCGTCTCCCAGCTTGGCTTTGAACGGACGTACAGCACCCGCCGGCTGCGCAAGGAGCTGGGGGTGGAGCCTGTCCCCAGCAGCTTCTCAGGTGCGGGAGAATGGATCAGAGCCCTGGGATCATCGCATCCCGCCCAAGAGACCAATCACTGA	MRIAVTGATGFVGAAVAAAAEHRGWEVYRYGRRQLPGITVWDLAEGKLSSPPEVDAVVHAGAQVGDWGPPQLFHRVNVLGTEAVAATFPRARLVHISSSSVNPWWQPCVDRQEEAPSGRYLNAYSRSKALAEAAASKHPNAVILRPHGVYGPGDRTLLPRLIRNVKRGRLLCVGGPDVRHQLTSIGNLTEAALAACASDVTGPVNVADHQPVELGGVLREVLDETGRTDVELRFIPLRAAMALAVSLEALGRVTRTAPALTRYAVSQLGFERTYSTRRLRKELGVEPVPSSFSGAGEWIRALGSSHPAQETNH				NA	NA	NA	NA	NA
D1-29_03443	1812	oleC	COG0318	Olefin beta-lactone synthetase	GTGGACACTAAGAGCCAGCCGGACCTCATCACAGCCGTTTACGACGCCGCATCGCGGTACCCGGACCACCCGGCCATCACCGGGCCGGGAAATCGGAACGGCCGGCCCGGCAGGACCATCAGCTACCGGGACCTTGCCGCCGGAATCGAATCCACCGCCGCCGGACTGCGGCGCGACGGATTCGGCCCGGGCGAGCGCCTGCTGTTCTCGGTCAGGCCCGGTCCCTCGGCCTTCACACTGGCGCTGGCCGCTGTACGGGCCGGCGGTTCCATCGTTTTTATCGATCCCGGCGTAGGCCCCGAACTGTTCCGCAACAGGGCCGCGCTGGCCTCGCCACAGTGGGCGGCCGCTGAATCCCTGCTCTACGCACTCAGTACCAGGGGCCCCCTGCGGCCCCTTGCCCGGCGCCGCGGCCTGCTGCTGCCGGACTATGCGGCCATGAAGGTCCGCCACTACCATTCCGGCCCCTGGCTGCCAGGCGTTCCCTTGAGGTCTACCAACATCCGCCAGCTGACCCGTATGCCTTCCCACTGGGGAGCGGCCGATTCTTCCGGACGGGCAAAGGGTGCGGTGCCGCCGGTGGAGGCTGCGCCAGGGCAGGAAGCGGTCATTATCTTCACCTCGGGCACCACGGGCCATCCCAAGGGCGTGGTGCACACCCGCGGCACCCTTGCTGCGGCTTTCACCCAACTCAGCACCCGCTGCACCTTCGCTGCAGGCGACCGCATCCACTCGGAACAGTTCATGATGGGGCTGCCCGCGCTGATCGAGGGAGCCCATTGGACCATGCCGTCCTACGGGCTCTCCGCCACGATCGACCCGCTCCAGTTCGCCGCAGCGCTGGGCTCCTCCCCGGGGCGGGCAGCGGCGACCCACGTTTTCCTGGTGCCCTCGCAGCTGGCACCCATCCTGGACGCCGTCGAAACCGCCAGGATCGCCTGGCCGGAAACGCTGCAAACCGTCATGCTGGGAGCCGCGCCCGTCCTGGCCTCCTTCCTGGAGCGGGCCGCCCGGCTGCTGCCGGCAGTCCGCTTTCATTGCATCTACGGCATGACCGAGGTACTTCCCATCGCGATCGCGTCGGGACAGGAGAAACTGGACTTCGCCTCCGGGCGCACGGCCGAATACCGGGCAGCCGACGGCTCCGGGGAAGGGGACTTCCTCGGGGAACCGCTGCCGGGTATGACCGTGCGGGTGGCCGAGGACCACGAACTGATGGTCTCCGGGCCGAACATGTGCCTTGGCTACCTCGGCGACGACGCAATGGACGAACATGCAACCGGCGACCTCGTCCGGTTGGATCACGGCAGGTTGGATCACGGCCGACTGGATCACGGCCCGGGGGGAACCGGCGGGGCGGGTGGCGGGCCGGGAGCGGCCAGACTGGTCCTGCTGGGGCGGAAGAAGGACATGATCATCCGCGGGAAAACCAACATCTATCCGGGCTTGTACGAGCCGCTCATCGCCGGGATTGCGGGGGTCGCCCAGGCCGTCATGGTGGGTGTTCCCAACGGCATCGGCGACGAAGCCGTCTGGCTGGCCGTCGAGCCCCGGCCCGGCCAGGCACACGAAGCTCTGCTTCGCACGCTCCAAAGGGAGCTGCCGAAGCTCATCGACGAATCGGCCCTGCCGGACAGCATAGAGATCATGCCCCACCTGCCTACTTCCGGCAGGCACCGCAAGCCGGACCGCATCGCCCTGCGGACGCTTTTCTCGGACCGGACCGTGACTACGGACGGCTCCACACGTTTGGACCCGGCCGTGGTTTCCGCCGGCTCGGTATTTTCCGACGGCAGGGGCGGCCACGGATGA	MDTKSQPDLITAVYDAASRYPDHPAITGPGNRNGRPGRTISYRDLAAGIESTAAGLRRDGFGPGERLLFSVRPGPSAFTLALAAVRAGGSIVFIDPGVGPELFRNRAALASPQWAAAESLLYALSTRGPLRPLARRRGLLLPDYAAMKVRHYHSGPWLPGVPLRSTNIRQLTRMPSHWGAADSSGRAKGAVPPVEAAPGQEAVIIFTSGTTGHPKGVVHTRGTLAAAFTQLSTRCTFAAGDRIHSEQFMMGLPALIEGAHWTMPSYGLSATIDPLQFAAALGSSPGRAAATHVFLVPSQLAPILDAVETARIAWPETLQTVMLGAAPVLASFLERAARLLPAVRFHCIYGMTEVLPIAIASGQEKLDFASGRTAEYRAADGSGEGDFLGEPLPGMTVRVAEDHELMVSGPNMCLGYLGDDAMDEHATGDLVRLDHGRLDHGRLDHGPGGTGGAGGGPGAARLVLLGRKKDMIIRGKTNIYPGLYEPLIAGIAGVAQAVMVGVPNGIGDEAVWLAVEPRPGQAHEALLRTLQRELPKLIDESALPDSIEIMPHLPTSGRHRKPDRIALRTLFSDRTVTTDGSTRLDPAVVSAGSVFSDGRGGHG				NA	NA	NA	NA	NA
D1-29_03444	1203			hypothetical protein	GTGATCTCCCGGGAAATTTCGGGCCTGAGGACCGGCCGCATGGCAGGCTGGGAACGGCGCCTCCACACCGCAGCACACCCCTTCGCCTACCCGCTCATCCGCGGACTCGGGAAACTCCGCCCCGTGGTCAGGCTGCCCGGCCTGGGTGTCCTGGTGAGCGACGCCTCGCTGCTCCGGGAAGTACTTATGGATGCCAGCTACTCAAAAACCGGTGCCGGGGCCTCCGGCGCGCTCTGGACCCCGGTGGTTGGCCCGCGCGCCCTGCTGAACATGGACGGCGAAGCGCACCTTGAGCTGCGGCGCAGGCTCAACGGACTGTTCACGCCCCGGGCCGTGGAGTCCATTGTTGCCCCTGCCGTGGAGCGGATGCGCGGGCGCCTGTCTGCCGGACTTGAGAACGGGCAGGGCGTGGAGTTCGTGAGTCTGGTCAAGGAACTGTCCGGCGGAGTGATCAGCCGCCTGCTCGGGGTTCCTGACCAAGCACCCGGACGCCTGCCGGATACCGAACTCTTCAGCCTTGGTACGTCCATCACCGGCCTCGTCCGGCTGGGCCGGCCACAACTGACCCCGCCCCAGGTGGTGAAGGCGAAGGCCGCCGTCGAAATTCTTGCCGGGCCCGTGCGGGAGGCTTACCGCCGCGATGACCCCAGCACCTTCCCCGGCCGCCTGCGTGAGCTTGGCCTGAGTGAGGATGAGGCTGTGGGGATTGTCAGCGCCTTTGTCATCGCCGGGACTGAGACGTTGGTGTCCTATGTTCCGCGGCTGGCCGCCCTGCTGTTCGACGACGGCAGGCTGCCAGTGCTGGCGGCCGACCGGACCGGCCTGCCGGACGCCGTCAATGAAGGACTGCGCTTCACCGCACCCTCGCCGATGATGCTCCGGGAAGCGACGGCGGAAAAACAGCTTGGAGGTGTCAGGATCAGGCCTGGTGACCGCATCCTGCTCTCCACTGTCCATGCGGTGAAGAGCTTGGGCGGCTTCGACCCGGCGGTGCCTGTTCCTGCTCCGGCCCGCCAGCTCTGGTTCGGGGCAGGGGCGCATTTCTGCATCGGAATGCCGCTGGCCATGGCCGAAATCAACGGGGCCCTGAACGTGCTGCTGGACGAATACGCCCGGAAGCCATGGCACATCCGTCAACGGGCTGTCAGCCGGAACGTCCTCATACCCCACTACAAGTCAATGGAGCTGGCCCGTGGACACTAA	MISREISGLRTGRMAGWERRLHTAAHPFAYPLIRGLGKLRPVVRLPGLGVLVSDASLLREVLMDASYSKTGAGASGALWTPVVGPRALLNMDGEAHLELRRRLNGLFTPRAVESIVAPAVERMRGRLSAGLENGQGVEFVSLVKELSGGVISRLLGVPDQAPGRLPDTELFSLGTSITGLVRLGRPQLTPPQVVKAKAAVEILAGPVREAYRRDDPSTFPGRLRELGLSEDEAVGIVSAFVIAGTETLVSYVPRLAALLFDDGRLPVLAADRTGLPDAVNEGLRFTAPSPMMLREATAEKQLGGVRIRPGDRILLSTVHAVKSLGGFDPAVPVPAPARQLWFGAGAHFCIGMPLAMAEINGALNVLLDEYARKPWHIRQRAVSRNVLIPHYKSMELARGH				NA	NA	NA	NA	NA
D1-29_03445	786			hypothetical protein	GTGACCGGGACTTTAGCGGCCAGCGTTCCTCCCGTGCGGCCCCTGTGCGTTGCCATGCCGGTGCTGAATGAAGAGAAGCTGATCCTGGAAACGTTGCAGGCACTCGCTGCCCAGCTTCAGCCTGATTTCACCTTGGTAATCGTGGACAACGGTTCCACAGACGCCAGCCAGGCCATCGTGGCGGAATTCGCCGCGCTGAACCCTGGCATGGACATCCGGTTGATTACTGAGCCGGAGAAGGGGACCGGCGCCGCAGCGGACACCGGAATGCGCTTTGGTGCATTGAACGGCGCCCGCTGGCTGGCACGAACCGATGCGGATTGCCTCCCGGCGCCGGACTGGACGCTGCGGATCATGGAGGCCTTCGACGACGGCCTGGAGATGATCGCCGGGCAGTTGAACCCCCGCCTGGACGAGGGCCTGGGCCGCCGGCAGCGGTGGCTGATGCTGGGGGCAGTGGAGGTGGCATCCTTCTTTGGCCGGATCCGCCCAGGCAACAAAGGGGAAGGCTATCTGGGTCCGTACCAGATGCTGCCCGGCTGCAATATGGCCATCACGGCGGATCTCTACCTCCGCTCGGGAGGGTTTCCCCGCACCAGCATCGAGGAGCTCCACGAGGACCGGGCGCTGTCCAACCGCGTACGCAGGCTGACGCGGGCGTATGCGCTCCGGCGGAACGTGGTGGTGTACGGTTCCTCACGCCGGGTGAAGGCCTGGGGCCTGCCCAACACCCTTGCCTGGTACGCGGACCACCGCTACCGGCCAGAACACGTGGACATCCGGTGA	MTGTLAASVPPVRPLCVAMPVLNEEKLILETLQALAAQLQPDFTLVIVDNGSTDASQAIVAEFAALNPGMDIRLITEPEKGTGAAADTGMRFGALNGARWLARTDADCLPAPDWTLRIMEAFDDGLEMIAGQLNPRLDEGLGRRQRWLMLGAVEVASFFGRIRPGNKGEGYLGPYQMLPGCNMAITADLYLRSGGFPRTSIEELHEDRALSNRVRRLTRAYALRRNVVVYGSSRRVKAWGLPNTLAWYADHRYRPEHVDIR				NA	NA	NA	NA	NA
D1-29_03446	1035	oleA	COG0332	Acyl-CoA:acyl-CoA alkyltransferase	ATGCACCAACCTGTTCCGGGCGCGGCGAGGATAGCCGGCCTCGAAGTCTACGTGCCGCCAGGCCGCCTGAGCACCAACGACCTGGAGCTACAGCTTGCTGCGGCCAGTCCCGGCTTCCGTGTTCCCAAGGGCCTCATCGGCCGGCTGACCGGAATCCGGACCAGGTCCGTGATGGCCGCGGCCGAGCAGGCCTCAGACCTTGCGGCTGTAGCCGCCGGAAAACTGCTGGCTGACCTCGGTCTCGAGCCCGCCGACGTCGGCCTCCTTATTTTTGCCTCCGCGAGCCAGGACATGGTGGAGCCGGCCACGGGGCATATGGTGGCGGCGAAACTAGGGGTGACGTGTCCCGTTATGGACGTCAAGAACGCCTGTAACAGCCTGCTGAACGGGCTGGAGGTAGCGGACGCCCTGATCGGGACCGGCCGGTACCGCCGGGTGCTTCTGGTCAGCGGTGAATCGCCGTCCCGAGCGGTGCGATGGGCCGTTCCGGACCAGGAAACTTTCGCCGCGGCGTTTCCCGGCTACACCATGAGCGACGCCGGCTGTGCGCTGCTGCTGGAACCTGCCGACCCCCACGACGAATCAGGACCGCGCGTGCTGGGGACGGGATTCACGGCGAAAAGCAGCCACTGGGCGGTGGGGACACTGGGCACTGGCGGATCCGTTGCCCCAAGGGATCCCGAGGCGACCTATTTCACCATGGACGGCGAGAAACTCAAGGACGCGTTCCTGGACCTTGGCCGCGGCATCCTGGATGAAACACTGGCCCGGCTTGAACTGGCCTGGTCCGATTTCGCCGTCGTCTGCGTGCACCAGGTCAGCGCACCGTACCGGGACGTCTTCGCCCGTGGCGCCGGGGTGCCACAGGAGAAACTCGTCAAGACCGTGGAGGAGTTCGGCAACATGGCCTCCGTCAGCCTGGCCCTTCAATTGAAGCTGGCTCAGGACCTGGGCCGTTGCGGTCCGGGCGATCTGGTGGCGCTGGTGGGGCTGGCCGGCGGCGTCAGCCTGGGGATCGCCGTGGTCAGGCTGTGA	MHQPVPGAARIAGLEVYVPPGRLSTNDLELQLAAASPGFRVPKGLIGRLTGIRTRSVMAAAEQASDLAAVAAGKLLADLGLEPADVGLLIFASASQDMVEPATGHMVAAKLGVTCPVMDVKNACNSLLNGLEVADALIGTGRYRRVLLVSGESPSRAVRWAVPDQETFAAAFPGYTMSDAGCALLLEPADPHDESGPRVLGTGFTAKSSHWAVGTLGTGGSVAPRDPEATYFTMDGEKLKDAFLDLGRGILDETLARLELAWSDFAVVCVHQVSAPYRDVFARGAGVPQEKLVKTVEEFGNMASVSLALQLKLAQDLGRCGPGDLVALVGLAGGVSLGIAVVRL				NA	NA	NA	NA	NA
D1-29_03447	579	adk_2	COG0563	Adenylate kinase	ATGACGAGAATGTTAATTATTGGACCACCCGGCTCCGGAAAAGGGACGCAGGCGGAACGCATATCGGAGCGCCTCGGCGTTGTGGCGATCTCCACCGGCGACATCTTCCGTGCCAACGTCAAGGGTGAGACCCCGCTTGGCATCGAAGCCAAGAAGTACATGGACAACGGAGACTTCGTTCCGGACAGCGTGACCAACAAGATGGTCCGGGACCGCCTCAGCGAGCCCGACGTCGAAAGCGGATTCCTGCTCGACGGCTACCCGCGCACCACGGCACAGGTGGACTACCTCGACGAGATTCTCGCCAACGGCGAAGAGAAGCTCGACGTCGTCCTGCAGCTGACCGCCGACGATGAGGAATTGGTGACCCGCCTCCTGGGCCGTGCCAAGGAAACCGGCCGGAGCGACGACAATGAAGCCGTCATCCGCCACCGCCTTGACCTCTACCACGAGCAGACCGAGGCAGTTGTTGCCAAATATGCGGAGCGCGGCATCCTGACCCAGGTTGACGGCATCGGCGCCATCGACGAAGTGACGGACCGTGTAATGCAGGCCATCAAGGCCGCACAAGCAGCCTGA	MTRMLIIGPPGSGKGTQAERISERLGVVAISTGDIFRANVKGETPLGIEAKKYMDNGDFVPDSVTNKMVRDRLSEPDVESGFLLDGYPRTTAQVDYLDEILANGEEKLDVVLQLTADDEELVTRLLGRAKETGRSDDNEAVIRHRLDLYHEQTEAVVAKYAERGILTQVDGIGAIDEVTDRVMQAIKAAQAA	PGPT0009040_6883	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939	NA	NA
D1-29_03448	1311	secY	COG0201	Protein translocase subunit SecY	TTGCTTAGCGCATTTGGCCGGGCCTTTCGCACGCCTGATCTGCGACGCAAGTTGTTGTTCACGCTGGGAATCATCACAATCTTCCGCTTGGGTGCCTTCATCCCCTCGCCTGGTGTGAACTACCAGAATGTCCAGCAATGCTTGTCGAACGGTCAGACCGCAGAGGGGCTCTATCAGCTCGTCAACCTGTTCAGCGGCGGTGCATTGCTCCAGGTGTCCATCTTCGCACTGGGCATCATGCCGTACATCACCGCCAGCATCATTGTGCAGCTGCTCCGGGTGGTTATTCCCCGTTTCCAGGAGCTCTATGAAGAAGGTGCTTCCGGGCAGTCAAAGCTGACGCAGTACACACGGTACCTGACCATTGCCCTGGGCCTCCTGAACGCGACAACGCTTGTTTCCCTGGCACGCTCAGGCCAGCTGCTCCCCGGCTGTAATCTCCCGATCATCCCTGACGACAGCGTGATCACCACCATCCTCCTCATCATCACCCTGACGGCCGGCACCGGCCTCATCATGTGGATGGGCGAGCTGGTCACCGAAAAGGGTGTGGGCAACGGCATGTCGCTGCTCATCTTTACTTCCATCGCAGCAACATTCCCCACCTCCCTTGGCGCCATCTGGTCCTCCCAGGGCCCGGGCACCTTCTTTATGGTCCTGGCCATCGGCCTGGTGACTGTTGGCCTGGTGGTCTTTGTGGAGCAGTCCCAGCGGCGGGTCCCGGTCCAGTACGCCAAGCGGATGATCGGGCGACGCACCGTGGGCGGCACCAGCACCTACATCCCCATCAAGGTGAACATGGCCGGCGTGATCCCTGTGATCTTTGCTTCGTCCATGCTCTACCTGCCTGGTCTGATCTCACAGTTCAACCAGCCCAAACCGGGCGAGCAGCTGCAACCTTGGGTTGAGTGGATCAACAACAACCTGACCCGTGGCGACCACCCGATCTACATGGCGCTCTACTTCGCCATGATTGTATTTTTCACCTACTTCTATGTCGCGATCACCTTCAACCCTGAAGAGGTCTCAGACAACATGAAGAAGTACGGCGGCTTCATTCCCGGTATCCGTGCGGGCAAGCCGACGGCGGATTACCTCCAGTACGTGCTCTCCCGGATCACCTTGCCCGGCGCCCTGTACCTGGGCTTCGTGGCACTGATTCCGCTGGTGGCACTTGTACTGATCAACGCCAACCAGAACTTCCCGTTCGGTGGTACCTCCATCCTGATCATGGTGGGCGTTGGCCTTGAAACCGTCAAACAGATAGACGCGCAACTACAGCAACGTCACTACGAAGGGCTCTTGCGATGA	MLSAFGRAFRTPDLRRKLLFTLGIITIFRLGAFIPSPGVNYQNVQQCLSNGQTAEGLYQLVNLFSGGALLQVSIFALGIMPYITASIIVQLLRVVIPRFQELYEEGASGQSKLTQYTRYLTIALGLLNATTLVSLARSGQLLPGCNLPIIPDDSVITTILLIITLTAGTGLIMWMGELVTEKGVGNGMSLLIFTSIAATFPTSLGAIWSSQGPGTFFMVLAIGLVTVGLVVFVEQSQRRVPVQYAKRMIGRRTVGGTSTYIPIKVNMAGVIPVIFASSMLYLPGLISQFNQPKPGEQLQPWVEWINNNLTRGDHPIYMALYFAMIVFFTYFYVAITFNPEEVSDNMKKYGGFIPGIRAGKPTADYLQYVLSRITLPGALYLGFVALIPLVALVLINANQNFPFGGTSILIMVGVGLETVKQIDAQLQQRHYEGLLR	PGPT0025725_3392	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076	NA	NA
D1-29_03449	495	rplO	COG0200	50S ribosomal protein L15	ATGGCAGAGAAAAACACTGCTGAGAAGGCACAGAGCGCTACTGCTGAGAAGCAGAACGCTCTGAAGGTCCACCACCTGCGTCCCGCCCCGGGTGCCAAGACCGCCAAGACCCGTGTTGGTCGTGGTGAAGGTTCCAAGGGTAAGACCGCTGGTCGCGGTACCAAGGGTACGAAGGCCCGCTACCAGATCAAGGCTGGCTTTGCCGGCGGCCAGCTGCCGCTGCACATGCGCCTGCCGAAGCTGCGCGGCTTCAAGAACCCGTTCCGGGTTGAGTTCCAGGTTGTCAACCTGGACAAGCTCAACGAGCTGTTCCCGGAAGGTGGCGCAGTGACCGTGGAGAACCTGGTCGAAAAGGGTGCCGTTCGCAAGAACCAGCCCGTCAAGGTGCTGGGCACCGGTGACATCACCGTGAAGGTTGACGTCACCGCCCACGCATTCTCGGCCAGCGCTGCTGAAAAGATTGCTGCAGCAGGCGGAAGCACCACCGCGCTCTAG	MAEKNTAEKAQSATAEKQNALKVHHLRPAPGAKTAKTRVGRGEGSKGKTAGRGTKGTKARYQIKAGFAGGQLPLHMRLPKLRGFKNPFRVEFQVVNLDKLNELFPEGGAVTVENLVEKGAVRKNQPVKVLGTGDITVKVDVTAHAFSASAAEKIAAAGGSTTAL				NA	NA	NA	NA	NA
D1-29_03450	207	rpmD	COG1841	50S ribosomal protein L30	ATGGCTAAGAACCTGATTCCCTCCGACGCTCAGTTGGAGATCACTCAGATCAAGTCCGTCATTGGCGGCAAGCAGAACCAGCGCGACACCCTTCGGTCCCTCGGCCTGAAGCGGATCGGACACACCGTTGTCCGCACCGCCGACGCCGTGACCGTTGGAATGCTCAACACGGTTCCGCACCTGGTAAAGGTAGAGGAGGCGAAGTAA	MAKNLIPSDAQLEITQIKSVIGGKQNQRDTLRSLGLKRIGHTVVRTADAVTVGMLNTVPHLVKVEEAK				NA	NA	NA	NA	NA
D1-29_03451	729			hypothetical protein	GTGACGGAAGCAAACAAGGAAAAGGACACTGTGTCTGCAGATCAGAAGGCTACTGAAGCCGTAGCTGCTCCGGCCACTGAGACCACTGCCGCCGCTGCTGCCGATGACCGCCGTGGTGGCGCTCGTCGTGGCGAGCGTGGCGACCGTGGCCAGGGCCGCGGCGACCGTGGTGGCCGTGGTGGCCGCGATGGCGGCCGTGAAGCCGAGAAGAGCCAGTTCATCGAGCGCGTTGTCACCATTAACCGCGTTTCCAAGGTGGTCAAGGGTGGTCGTCGCTTCAGCTTCACCGCCCTGGTCGTCGTTGGTGACGGCAACGGTATGGTCGGCGTGGGCTATGGCAAGGCTAAGGAAGTTCCCGCCGCAATCGCGAAGGGCGTTGAAGAGGCTAAGAAGTCCTTCTTCCGCGTTCCCCGCATTGGCAACACCATCCCGCACCGCGTTCAGGGTGAGGCTGCTGCCGGCGTCGTAATGCTGCGTCCGGCTTCCGCCGGTACCGGTGTTATCGCCGGTGGTCCGGTCCGTGCAGTACTGGAGTGCGTGGGCATCCACGACATCCTCTCCAAGTCGCTCGGTTCCTCCAACGCCATCAACATCGTGCATGCCACCGTTGATGCGCTGAAGCGCCTCGAAGAGCCGGCAGCTGTGGCAGCACGCCGCGGCCTGCCGCTGGATGAAGTTGCTACCCCGGCTATGGTCAAGGCCCTCCTGAACCAGAAGGTGGGTGTCTAA	MTEANKEKDTVSADQKATEAVAAPATETTAAAAADDRRGGARRGERGDRGQGRGDRGGRGGRDGGREAEKSQFIERVVTINRVSKVVKGGRRFSFTALVVVGDGNGMVGVGYGKAKEVPAAIAKGVEEAKKSFFRVPRIGNTIPHRVQGEAAAGVVMLRPASAGTGVIAGGPVRAVLECVGIHDILSKSLGSSNAINIVHATVDALKRLEEPAAVAARRGLPLDEVATPAMVKALLNQKVGV				NA	NA	NA	NA	NA
D1-29_03452	384	rplR	COG0256	50S ribosomal protein L18	ATGGCCATCTCAATCAATAAGAAGCGTACGAACAAGAGCAAGTCTGCTTCACGCAGCCGCCGCCAGCTTCGTATCCGCAAGCGCATCTCCGGAACGGCTGTACGTCCTCGTCTGGTCGTCAACCGCTCCGCACGCCACGTATTCGTCCAGGTTGTCGATGACACCAAGGGCCTGACCGTAGCGAGCGCGTCCACACTGGAAGCCGACCTTCGTGCATTCGACGGTGACAAGACTGCCAAGGCCAAGCGCGTTGGCGAGCTCGTTGCCGAGCGTGCGAAGGCTGCCGGCGTCGAAGCTGTTGTCTTCGACCGCGGTGGTAACAAGTACCACGGCCGGATCGCCGCCGTCGCTGACGGTGCACGTGAAGGTGGGCTGTCACTGTGA	MAISINKKRTNKSKSASRSRRQLRIRKRISGTAVRPRLVVNRSARHVFVQVVDDTKGLTVASASTLEADLRAFDGDKTAKAKRVGELVAERAKAAGVEAVVFDRGGNKYHGRIAAVADGAREGGLSL				NA	NA	NA	NA	NA
D1-29_03453	537	rplF	COG0097	50S ribosomal protein L6	ATGTCACGTATTGGACGTCTCCCCATCACCGTTCCTGCCGGCGTTGAGGTCAAGGTTGACGGCTCTGTCGTCAGCGTCAAGGGTGCCAAAGGCGAGCTGAACCACACTGTGGCCAGCCCGATCGAGGTTTCCCTGGAAGCAGAGACCCTGACTGTCGCCCGCCCGAACGACGAGCGCGCCTCCCGTTCACTCCACGGCCTGACCCGCACCCTGATCTCCAACATGATCGAGGGCGTAACCAAGGGCTACGAGAAGAAGCTTGAAATCGTTGGTACTGGTTACCGCGTTCAGGCCAAGGGATCTGACCTTGAGTTCGCTCTCGGCTACAGCCACCCGGTAAATGTTTCGGCACCGGACGGCATCACCTTTGCAGTTGAGACCCCGACCAAGCTCTCTGTTTCAGGTATCAACAAGCAGCAGGTCGGCGAGGTTGCTGCCAACATTCGCAAGCTTCGGAAGCCGGACCCCTATAAGGGCAAGGGCATCCGTTACGCAGGCGAAGTCATCCGCCGCAAGGTCGGAAAGGCTGGTAAGTAA	MSRIGRLPITVPAGVEVKVDGSVVSVKGAKGELNHTVASPIEVSLEAETLTVARPNDERASRSLHGLTRTLISNMIEGVTKGYEKKLEIVGTGYRVQAKGSDLEFALGYSHPVNVSAPDGITFAVETPTKLSVSGINKQQVGEVAANIRKLRKPDPYKGKGIRYAGEVIRRKVGKAGK				NA	NA	NA	NA	NA
D1-29_03454	399	rpsH	COG0096	30S ribosomal protein S8	ATGACAATGACAGATCCTGTCGCAGACATGCTTACGCGTCTGCGCAATGCAAACTCGGCATACCACGACTCCGTGACTATGCCGTACAGCAAGCTCAAGGCACGCGTTGCCGACATCCTGAAGGCTGAAGGTTACATCGCCTCCTGGAAAGAAGAAGACGCTGAGGTTGGCAAGAAGCTGACCCTCGAGCTCAAGTTCGGCCCGAACCGTGAGCGTTCCATCGCTGGCGTTCGTCGTATTTCCAAGCCGGGACTGCGCGTTTACGCAAAGTCCACCAACCTGCCGCACGTGCTCGGTGGCCTGGGTGTCGCAATCCTGTCCACCTCTTCCGGCCTCTTGACTGACAAGCAGGCCGGCAAGAAGGGCGTGGGCGGCGAAGTCCTCGCTTACGTCTGGTAA	MTMTDPVADMLTRLRNANSAYHDSVTMPYSKLKARVADILKAEGYIASWKEEDAEVGKKLTLELKFGPNRERSIAGVRRISKPGLRVYAKSTNLPHVLGGLGVAILSTSSGLLTDKQAGKKGVGGEVLAYVW				NA	NA	NA	NA	NA
D1-29_03455	582	rplE	COG0094	50S ribosomal protein L5	ATGACTGAGACTCTCGAGACTCCGGCAACGAAGATCGTTCCTCGTCTGAAGACCAAGTACGCCGATTCCATCAAGAGCACGCTCATTGAGGAATTCAAGTACGAGAACGTCAACCAGGTTCCCCGCCTGGTGAAGGTCGTTGTGAACATGGGTGTTGGAGATGCCGCCAAGGACTCCAAGCTGATCGACGGCGCTGTCCGCGATCTGACCCTGATCACCGGCCAGAAGCCGCAGGTAACCAAGGCCCGCAAGTCAATCGCACAGTTCAAGCTGCGCGAAGGCATGCCCATCGGTGCACACGCAACCCTGCGTGGCGACCGCATGTGGGAATTCCTGGACCGCCTTGTCACGCTGGCCCTGCCCCGTATCCGCGACTTCCGCGGCCTCAGTGGCAAGCAGTTCGATGGCAACGGCAACTACACCTTCGGTCTGACCGAGCAGGTTATGTTCCACGAAATCGACCAGGATTCCATCGACCGCACCCGCGGCATGGACATCACTGTGGTCACCACTGCCAAGACCGATGACGAAGGCCGCGCGCTGCTGAAGGCGCTTGGTTTCCCGTTCAAGGCCGAAGACTAA	MTETLETPATKIVPRLKTKYADSIKSTLIEEFKYENVNQVPRLVKVVVNMGVGDAAKDSKLIDGAVRDLTLITGQKPQVTKARKSIAQFKLREGMPIGAHATLRGDRMWEFLDRLVTLALPRIRDFRGLSGKQFDGNGNYTFGLTEQVMFHEIDQDSIDRTRGMDITVVTTAKTDDEGRALLKALGFPFKAED				NA	NA	NA	NA	NA
D1-29_03456	360	rplX	COG0198	50S ribosomal protein L24	ATGGCTAAGATCAAAAAGGGTGACCTGGTTCAGGTCATCACTGGCGCCAAGGCTGAGCGCGGCGGCGACCGTGGCAAGCAGGGCAAGGTTCTGCGCGTATTCCCGGAGACCAACCGCGTGTTGGTTGAAGGCATTAACCGCGTAACCAAGCACACCAAGGTCGGTCAGTCGCAGCGCGGCACCAAGACCGGTGGCATCGAGGTCGTTGAAGCTTCGATCCACATCTCCAACGTGGCTCTGGTTGACCCGTCCACCAAGAAGCCCACCCGCGTTGGTTTCCGCACCGAGACCGTGGAGCGCAATGGCGTGAAGCGTGAAGTGCGTGTACGCGTGGCCAAGAGCTCCGGGAAGGACATCTAA	MAKIKKGDLVQVITGAKAERGGDRGKQGKVLRVFPETNRVLVEGINRVTKHTKVGQSQRGTKTGGIEVVEASIHISNVALVDPSTKKPTRVGFRTETVERNGVKREVRVRVAKSSGKDI				NA	NA	NA	NA	NA
D1-29_03457	369	rplN	COG0093	50S ribosomal protein L14	GTGATTCAGCAGGAGTCGCGACTCAAGGTCGCCGACAACACGGGTGCTAAGGAAATCCTTACCATTCGCGTTCTCGGTGGATCTGGCCGTCGCTACGCAGGCATTGGCGACGTCATCGTCGCTACCGTCAAGGACGCAATTCCGGGCGGCAACGTAAAGAAGGGCGATGTTGTCAAGGCAGTCATCGTCCGTACCAAGAAGGAACGCCGCCGTGCGGATGGTTCCTACATCAAGTTTGACGAGAACGCAGCTGTGATCCTGAAGGCTGACGGTGACCCCCGCGGTACCCGCATCTTCGGACCGGTTGGTCGTGAACTCCGTGACAAGAAGTTCATGAAGATCGTTTCTCTGGCTCCGGAGGTGCTCTAG	MIQQESRLKVADNTGAKEILTIRVLGGSGRRYAGIGDVIVATVKDAIPGGNVKKGDVVKAVIVRTKKERRRADGSYIKFDENAAVILKADGDPRGTRIFGPVGRELRDKKFMKIVSLAPEVL				NA	NA	NA	NA	NA
D1-29_03458	306	rpsQ	COG0186	30S ribosomal protein S17	GTGAGTGAAAAGGACGAGAACGTGACGGAAACTGCTACCGCAGCCACGGCTGAGCAGCGCGGTTACCGCAAGACGCGTCGCGGCTACGTTGTCTCTGACAAGATGGAAAAGACCATCGTTGTTCAGGTTGAAGACCGCGTGAAGCACGCTCTTTACGGCAAGGTCATCCGCCGTACCTCCAAGGTCAAGGCACACGACGAAGAGAACACCGCCGGCATCGGCGACCTCGTTGTCATCGCCGAGACCCGCCCGCTGTCCGCCACGAAGAACTGGCGGCTCGTGGAGATCCTCGAGAAGGCCAAGTAA	MSEKDENVTETATAATAEQRGYRKTRRGYVVSDKMEKTIVVQVEDRVKHALYGKVIRRTSKVKAHDEENTAGIGDLVVIAETRPLSATKNWRLVEILEKAK				NA	NA	NA	NA	NA
D1-29_03459	330			hypothetical protein	ATGGCAGTAGGATCCAAGGAACTTGCATCCGCACAGCTGGACACGTTCGACAACGAGCGCCTCGTTGAAGAACTCCGTAAGGCTAAGGAAGAGCTGTTCAACCTGCGTTTCCAGTCCGCCACCGGTCAGCTGGAGAACCACGGTCGTCTGCGCGCGGTAAAGAAGGACATCGCACGCATCTACACCGTTCTCCGTGAGCGCGAGCTGGGCATTCGTGCCGAGGTTGCCGCACCGGTTGTGGAAGCCAAGGAAGAAAAGAAGTCCAAGAAGTCAGCAACCAAGAAGGCCGAGACGGCTGAAACGGTTGAGACCGAGGAGGACGCCAAGTGA	MAVGSKELASAQLDTFDNERLVEELRKAKEELFNLRFQSATGQLENHGRLRAVKKDIARIYTVLRERELGIRAEVAAPVVEAKEEKKSKKSATKKAETAETVETEEDAK				NA	NA	NA	NA	NA
D1-29_03460	417	rplP	COG0197	50S ribosomal protein L16	ATGCTTATCCCACGTCGAGTCAAGCACCGTAAGCAGCACCACCCGGGTCGTTCCGGCGCTGCTACGGGCGGCACCAAGGTCTCCTTCGGTGAGTACGGCATCCAGGCCCTGAGCCCGGCATACGTTACCAACCGTCAGATCGAGTCTGCACGTATCGCGATGACCCGCCACATCAAGCGTGGCGGTAAGGTCTGGATCAACATCTACCCGGACCGTCCCCTGACGAAGAAGCCTGCCGAAACCCGTATGGGTTCCGGTAAGGGTTCGCCGGAATGGTGGGTCGCCAACGTCAAGCCGGGCCGGGTTCTCTTTGAGATCTCCGGCGTCGAAGAATCGGTAGCTCGCGAGGCACTGCGCCTGGCAATCCACAAGCTCCCGTTGAAGGCACGCATTTTGCGTCGCGAAGGTGGTGAATAG	MLIPRRVKHRKQHHPGRSGAATGGTKVSFGEYGIQALSPAYVTNRQIESARIAMTRHIKRGGKVWINIYPDRPLTKKPAETRMGSGKGSPEWWVANVKPGRVLFEISGVEESVAREALRLAIHKLPLKARILRREGGE				NA	NA	NA	NA	NA
D1-29_03461	834	rpsC	COG0092	30S ribosomal protein S3	GTGGGACAGAAAGTAAACCCGCACGGGTTCCGACTCGGCATCACCACCGATCACGTATCGCACTGGTTCGCTGACAGCACCAAGGCCGGACAGCGGTACAAGGACTTCGTTCGCGAAGACATCCGTATCCGCCAGCTCATGTCTGTCGGCATGGAGCGCGCCGGTATCGCCAAGGTTGAGATCGAGCGCACCCGTGACCGTGTCCGCGTGGATATCCACACGGCACGTCCCGGCATCGTTATCGGCCGCCGTGGCGCAGAAGCAGACCGCATCCGCGGCGAGCTCGAAAAGCTCACGGGCAAGCAGGTCCAGCTGAACATCCTCGAGGTCAAGAACCCCGAGATGGAAGCACAGCTTGTTGCCCAGGGTGTTGCCGAGCAGCTGACTTCCCGCGTGGCTTTCCGCCGTGCGATGAAGAAGGCCATGCAGTCCGCGCAGCGTGCAGGTGCCAAGGGCATCCGTATCGCCTGCTCCGGTCGACTGGGCGGCGCCGAAATGTCCCGCTCGGAGTTCTACCGCGAAGGCCGCGTGCCCCTGCACACCCTCCGCGCGAACATCGACTACGGCTTCTACGAAGCCAAGACCACCTTCGGCCGCATTGGCGTGAAGGTCTGGATCTACAAGGGTGACATCACCGCCAAGGAACTGGCTCAGCAGGCAGCTGCTGCTCCGTCCCGTGGCCGCGGTGCCAGCGACCGTCCGGGACGTCCCGGTGGCGCTGACCGTGGTGACCGCCGCCGTCGTACCGACCGTCCGGCCGCCGAAGCAGCTCCTGCTGCAGAGGCTCCGGCAGTTGAGGCTGCACCCGTTGCAGTAGAAGGAGGACAGGCTTAA	MGQKVNPHGFRLGITTDHVSHWFADSTKAGQRYKDFVREDIRIRQLMSVGMERAGIAKVEIERTRDRVRVDIHTARPGIVIGRRGAEADRIRGELEKLTGKQVQLNILEVKNPEMEAQLVAQGVAEQLTSRVAFRRAMKKAMQSAQRAGAKGIRIACSGRLGGAEMSRSEFYREGRVPLHTLRANIDYGFYEAKTTFGRIGVKVWIYKGDITAKELAQQAAAAPSRGRGASDRPGRPGGADRGDRRRRTDRPAAEAAPAAEAPAVEAAPVAVEGGQA				NA	NA	NA	NA	NA
D1-29_03462	366	rplV	COG0091	50S ribosomal protein L22	ATGGAAGCCAAGGCAATTGCGCGTCACATCCGCGTAACGCCTATGAAGGCCCGGCGCGTCGTCAACCTTGTTCGTGGTAAGCAAGCGAATGAGGCTCTGGCAATTCTGAAGTTTGCCCCGCAGGCAGCTTCGGAGCCGGTATTCAAGGTAGTTCAGTCGGCAATCTCCAACGCCCGGGTCCTCGCGGACCGCGACGGCGTGGCGTTTGACGAAGGTGACCTCATCATCAGCGAAGCGTTTGTTGATGAAGGCCCGACCATGAAGCGGTTCCAGCCGCGTGCCCAGGGTCGTGCATTTCAGATCAAGAAGCGCACCAGCCACATCACCGTGGTAGTCGCTACCCCGGAGAAAGAGGAGGCTCGCTAA	MEAKAIARHIRVTPMKARRVVNLVRGKQANEALAILKFAPQAASEPVFKVVQSAISNARVLADRDGVAFDEGDLIISEAFVDEGPTMKRFQPRAQGRAFQIKKRTSHITVVVATPEKEEAR				NA	NA	NA	NA	NA
D1-29_03463	282	rpsS	COG0185	30S ribosomal protein S19	ATGCCACGCAGCCTGAAAAAAGGTCCTTTCGTTGACCAGCACCTCTTTGTGAAGGTAGCCAGGGAAAACGAAAAGGGCACCAAGAACGTCATCAAGACCTGGTCCCGCCGTTCGATGATCATCCCCGACATGCTCGGGCACACGATCGCCGTGCACGACGGACGCAAGCACATCCCGGTGTTTGTCACTGAGTCGATGGTCGGGCACAAGCTCGGCGAATTCGCTCCCACGCGGACATTCCGCGGCCATGTCAAGGACGACCGTAAGGGCAAGCGCCGCTAG	MPRSLKKGPFVDQHLFVKVARENEKGTKNVIKTWSRRSMIIPDMLGHTIAVHDGRKHIPVFVTESMVGHKLGEFAPTRTFRGHVKDDRKGKRR				NA	NA	NA	NA	NA
D1-29_03464	840	rplB	COG0090	50S ribosomal protein L2	ATGGGAATCCGTAAATACAAGCCGACTACCCCGGGCCGTCGTGGCTCGAGCGTAGCGGACTTCACCGAAATCACGCGGTCGACGCCGGAAAAGTCGTTGGTACGTCCGCTGCCCAAAAAGGGCGGCCGTAACAACACCGGTAAGATCACAACCCGTCACAAAGGTGGTGGACACAAGCGCCAGTACCGTCTGATCGACTTCCGTCGCCACGACAAGGACGGCGTTGACGCCCGCGTTGCCGAAATCGAGTACGATCCGAACCGCACGGCTCGCATCGCCCTCCTGCACTACGTTGATGGCACCAAGCGTTACATCATCGCCCCGAACAAGCTGTCCCAGGGTGACTTCGTAGAAGCAGGTGCCAACGCTGACATCAAGCCTGGCAACAACCTGCCCCTGCGCAACATCCCGGTAGGTACCGTTATCCACGCAGTTGAACTGCGTCCGGGTGGCGGCGCCAAGATGGGCCGCTCCGCCGGCGCATCGATCCAGCTCGTAGCCAAGGAAGGCCGCTTCGCCCAGCTGCGTCTGCCTTCCGGCGAAATCCGCAACGTTGACGTGCGCTGCCGCGCTACCGTCGGCGAGGTCGGCAACGCCGAGCAGTCGAACATCAACTGGGGTAAGGCCGGCCGCATGCGCTGGAAGGGCGTTCGCCCGACTGTCCGTGGTGTCGCGATGAACCCGGTTGACCACCCGCACGGTGGTGGCGAGGGTAAGACGTCCGGTGGACGTCACCCCGTCAACCCGAACGGTAAGCGGGAAGGCCGCACCCGGCGTCCCAACAAAGAGAGCGACAAGCTTATTGTTCGTCGCCGTCGTACTGGCAAGAACAAGCGATAG	MGIRKYKPTTPGRRGSSVADFTEITRSTPEKSLVRPLPKKGGRNNTGKITTRHKGGGHKRQYRLIDFRRHDKDGVDARVAEIEYDPNRTARIALLHYVDGTKRYIIAPNKLSQGDFVEAGANADIKPGNNLPLRNIPVGTVIHAVELRPGGGAKMGRSAGASIQLVAKEGRFAQLRLPSGEIRNVDVRCRATVGEVGNAEQSNINWGKAGRMRWKGVRPTVRGVAMNPVDHPHGGGEGKTSGGRHPVNPNGKREGRTRRPNKESDKLIVRRRRTGKNKR				NA	NA	NA	NA	NA
D1-29_03465	306	rplW	COG0089	50S ribosomal protein L23	GTGAGTGCAGCCACCATCAAAGACCCGCGCGACGTCGTGCTTGCACCCGTCGTATCGGAAAAGAGCTACGGCCTGATCGATGAGGGAAAGTACACCTTCCTGGTGGACCCCCGCTCGAACAAGACCGAGATCAAGCTGGCCGTGGAGAAGATTTTCTCCGTCAAGGTCGAATCGATCAACACCATCAACCGTGCCGGTAAGCGCAAGCGCACCAAATTCGGATGGGGTACCCGCAAGAACACCAAGCGTGCCATTGTGACCCTCAAAGAAGGCACTATCGACATCTTCGGCGGTCCGCTCGCGTAG	MSAATIKDPRDVVLAPVVSEKSYGLIDEGKYTFLVDPRSNKTEIKLAVEKIFSVKVESINTINRAGKRKRTKFGWGTRKNTKRAIVTLKEGTIDIFGGPLA				NA	NA	NA	NA	NA
D1-29_03466	624	rplD	COG0088	50S ribosomal protein L4	ATGACTAGCACTGTCAAGGTTGACCTGCCTGCAGAGATCTTCGACGTTCAGACCAACGTGCCGCTGCTGCACCAGGTCGTCGTTGCCCAGCTCGCTGCTGCCCGCCAGGGAACCCACAAGACCAAGACCCGCGCCGAAGTTTCCGGTGCAGGCCGCAAGCCGTTCAAGCAGAAGGGCACCGGCCGCGCCCGTCAGGGTTCAATCCGTGCACCTCACATGACCGGTGGTGGCGTTGTCCACGGTCCCACACCGCGTGACTACAGCCAGCGCACCCCCAAGAAGATGATTGCTGCTGCCCTGCGCGGCGCACTGTCTGACCGGGCACGCAACGGCCGCATCCACGTTGTTGCCGAACTGGTGGAGGGCACCAAGCCGTCCGTCAAGAACGCACTGGCAACGCTGCGCGGAGTTTCCGAGCGCAAGAACCTGCTGGTTGTCATCGAGCGCGCCAACGACGTTGCAGCACTGTCCGTGCGCAACCTCGCCGGTGTTCACGTTCTGTACGCAGACCAGCTGAACACCTACGACGTTCTCGTCTCTGACGACGTTGTCTTCACCAAGGCTGCCTACGAAGCATTCGTTGCTGACAAGGCAGTGGCAAAGAACGAGGAGGATGCCAAGTGA	MTSTVKVDLPAEIFDVQTNVPLLHQVVVAQLAAARQGTHKTKTRAEVSGAGRKPFKQKGTGRARQGSIRAPHMTGGGVVHGPTPRDYSQRTPKKMIAAALRGALSDRARNGRIHVVAELVEGTKPSVKNALATLRGVSERKNLLVVIERANDVAALSVRNLAGVHVLYADQLNTYDVLVSDDVVFTKAAYEAFVADKAVAKNEEDAK				NA	NA	NA	NA	NA
D1-29_03467	651	rplC	COG0087	50S ribosomal protein L3	ATGACCGCAACCCGTAATGTAAAGGGCCTGCTGGGCACGAAGCTCGGCATGACCCAGGTCTGGGACGAGAACAACAAGCTCATCCCCGTCACTGTGGTCCAGGCAGATTCGAACGTCATCACCCAGCTGCGCAACGCAGACACCGATGGCTACGTCGCCGTTCAGATCGGCTACGGCCAGATCGATCCCCGCAAGGTCACCAAGCCGCTGGCTGGTCACTTTGAAAAGGCAGGCGTCACTCCTCGCCGCCACGTCGTCGAACTGCGCACTGCAGATGCCGACTCTTACGAGCTGGGCCAGGAGCTTTCTGTTGAGCTCTTCGAAGCCGGCCAGAAGATCGACGTTATTGGCACCACCAAGGGTAAGGGCTTCGCCGGCGTTATGAAGCGTCACGGCTTCCACGGCGTTGGAGCTTCCCACGGTGCCCACAAGAACCACCGTAAGCCCGGTTCAATCGGTGGCGCATCCACCCCGAGCCGCGTCTTCAAGGGCATGAAAATGGCCGGCCGCATGGGCGCCGTTCGTCACACCACGCTGAACCTCACGGTCCACGCGGTTGACGTTGAGAAGTCGCTGCTCCTGATCAAGGGTGCCGTTCCCGGCGCCCGCGGCCAGGTCGTACTCGTACGCACCGCAGTGAAGGGAGCCTAG	MTATRNVKGLLGTKLGMTQVWDENNKLIPVTVVQADSNVITQLRNADTDGYVAVQIGYGQIDPRKVTKPLAGHFEKAGVTPRRHVVELRTADADSYELGQELSVELFEAGQKIDVIGTTKGKGFAGVMKRHGFHGVGASHGAHKNHRKPGSIGGASTPSRVFKGMKMAGRMGAVRHTTLNLTVHAVDVEKSLLLIKGAVPGARGQVVLVRTAVKGA				NA	NA	NA	NA	NA
D1-29_03468	309	rpsJ	COG0051	30S ribosomal protein S10	ATGGCGGGACAAAAAATCCGCATCCGGCTGAAGTCATACGACCACGAGGTCATTGACGTTTCAGCACGGAAGATCGTTGAGACGGTCACGCGCGCAGGCGCAACGGTAGTGGGCCCCGTGCCGCTGCCGACGGAGAAGAACGTTTACTGCGTAATCCGCTCTCCGCACAAGTACAAGGACAGCCGCGAGCACTTTGAAATGCGCACGCACAAGCGTCTTATCGACATCATCGATCCCACGCCCAAGGCTGTTGACTCGCTCATGCGTCTCGACCTGCCGGCAGACGTGAACATCGAAATCAAGCTGTAG	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
D1-29_03469	1437	bglA_1		Beta-glucosidase	ATGACAGTGGAAAATGCTGTTTCCGTCACCGAACTGGCAGGGCGGATCCCGCCCTCCTTCACCCTTGGCGTGGCCGCTGCGGCCTTCCAGATTGAGGGCGCGCTGGCCGCGGACGGACGTGGCCCGTCGGGCTGGGACGCCTTCGTCGAGAAGCCTGGTGTCATTGTTGATGGACATTCGCCGGCGGTTGCCTGCGACCATTACAACCGCTCCCACGAAGATGTGGCCCTGATGCGCGAGCTGGGCATTGATTCCTACCGCTTCTCCATCTCGTGGCCAAGGATCCAGCCTGACGGCCATGGCGCATTCAACGAACAGGGCCTGGACTTTTACGACCGCCTCATCGACCAGCTCCTTGAAGCAGGCATCTCCCCCATGGCTACGCTGTACCACTGGGACACCCCCCTGCCCCTGGAGCATCGTGGCGGGTGGATGAACCGGGCCACAGCGGAGAGGTTTGCCGACTATGCCGCCGCTGCCGGCCGGCGTTTTGGCGACCGCGTAGACCAATGGGTCACCCTCAACGAGCCTGCCTCGGTGGTGCTCAATGGCTACGCCCTGGGCGTTCACGCTCCCGGGCGCTACCTGCTGTTCGACGCTTTTCCCGCCGTCCACCACCAACTCCTGGCACACGGTCTTGCTGTGCAGGCGCTCCGCTCCGAAGGTGTCAGCGGCGGCATCGGCGTGACCAACCTGCACTCCCCCGTCCGGCCGGCCTCACGGAACATTGCCGACAGGGTGGCAGCAAAAGTCTTCGACCTTATGCTGAACCGGGTCTATGCCGACCCCATCCTGCTGGGCCGCTACCCGCGCTCCCTGCTGTTTGCCAAGCCGTGGATGCGCTCGTTCGGCAAGATACCCGAGGACGATCTTCGCACCATCCATCAGCCCGTGGACTTCTACGGCGTGAACTACTACCAGCCTGTGAAGGTAGCGGCCGGGCAGGGTACCGGTGAGGACCTCACCGTGCCGGCGGAAGCTATGGTTCGGATACCCGCCCACCAGGTGCCGTTCGACGAGTACGAGACAACGGGGTTCGGTTGGCCGGTGGCTCCAGAACATCTGGGGATCCTGCTGCGTGAGCTGAAGGACCGCTACCGGGATGCCCTGCCGCCCATCTACATCACGGAAAGTGGCGCCAGTTTCCCTGAACCCGAGCACGTCACTGGCCCTGTCCAGGACCAGCAGAGGATCGATTATCTTGCGCACCACATACGCAACGCACTGGAAGCGACGGCTCCCGGTGGAATTGCCGCAGACGTGGATCTGCGCGGCTATTACGTCTGGACGCTGATGGACAATTTTGAGTGGGCTGCAGGATACTCCCAGCGCTTTGGCCTGGTGCACATGGATTTCGACAGCCTGGAGCGCACCCCCAAGGAATCGTTCTACTGGTACCAGGCGCTCTGCCTTGCACGGAGGTCCGTGGCTGACTGA	MTVENAVSVTELAGRIPPSFTLGVAAAAFQIEGALAADGRGPSGWDAFVEKPGVIVDGHSPAVACDHYNRSHEDVALMRELGIDSYRFSISWPRIQPDGHGAFNEQGLDFYDRLIDQLLEAGISPMATLYHWDTPLPLEHRGGWMNRATAERFADYAAAAGRRFGDRVDQWVTLNEPASVVLNGYALGVHAPGRYLLFDAFPAVHHQLLAHGLAVQALRSEGVSGGIGVTNLHSPVRPASRNIADRVAAKVFDLMLNRVYADPILLGRYPRSLLFAKPWMRSFGKIPEDDLRTIHQPVDFYGVNYYQPVKVAAGQGTGEDLTVPAEAMVRIPAHQVPFDEYETTGFGWPVAPEHLGILLRELKDRYRDALPPIYITESGASFPEPEHVTGPVQDQQRIDYLAHHIRNALEATAPGGIAADVDLRGYYVWTLMDNFEWAAGYSQRFGLVHMDFDSLERTPKESFYWYQALCLARRSVAD	PGPT0019165_875	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019165-bglB-K05350	NA	NA
D1-29_03470	126			hypothetical protein	ATGGGATGGCTTATTTTTCTGATTGTGGCAGTGGCAGTAGTGGCCGGTGTGTTCTGGGCCAAGAAGCATTTCCGCAACGAGATTGACCGCGCCAAGCGCATCAACCGGGCGAACAAAAACCAATAG	MGWLIFLIVAVAVVAGVFWAKKHFRNEIDRAKRINRANKNQ				NA	NA	NA	NA	NA
D1-29_03471	4380			hypothetical protein	ATGAGGGACGAATCGTACGAGGCAGGCTATCGCGCCGGGCACTTGCAAGGCTGGGTGGATGCCATGGCTACAGTTATCCCCGCCCGCCCGCCGGCATTTCATCCGGCCGCTGCTGCCCAACCCACTTCCGAACCAACTGCCCAACCCGCTGCGACGCCCCCGGCGGTTCCATGGCCATCCCCAGGACAGCGTGCAGTGCGGCAAGAGACCATTCGTCCCGCCGTCGCAGTACCGCCTTTGCCCTTCCAACCTCCGGCAGGCCAGGTTGGCACATTGCCAGTACCGGCTTTCGCGCCGCCTCCGGTAGAGACGCCCGCCGAGCGCCAGGCGCGTCGGGAAAGGCGGGACCGCCAGAACATCAATATCACCCTGTATGTGGCCAGCCTCCTCTTGGTGGCTGCCGCCGCGCTTTTCATCGGAGCCAACCTTCCGCCCATGTTCCGTTTCCTGGGCGTTTGCACGGTTACTGCCATGTTCTACGTAGCCGGCTTCGTTCTCCATGCACGGGTGGCGCGGCTCAAGCCTGCAGCCATTGCCTTCGCGGGGACCGGCTTGGCGCTGATTCCTGTGACAGGACTGGCGCTTTACAACTTCGTCCTGCAACAGGGGCCGATCGCCTGGCTTATCACCTCCCTGATCGGGACCGCAGCCTACGTGGTGGCAGCCGTCAGACTCGAGAGCCGGGTACTGGTCTATCTTTCCCTCACCTTTGCCGGCTCCTTGGCCTGGTCCGGCGTCAGTGTCCTCGGCGGCGCGTTGGCTTGGTACTTCGGGGCCATGATTGCAGTGGCGGTGCTGCTGACCGTCCTGGCGCTGTCACGCCCAGGCTGGCTTCCACCGGTATACGTCAGGCCCTTGGCGGTTCTCCACCCGCTTGTGGTTCCCACGGTGGCCCTGGCTGTGAATTGCGTCCCTCTGCTCCTGGGGGCAGCCGGGTATGCCTATATCATGGCTCTCTGCGGCGTCTACTTCGCCCTCATGGCTGCTGTGCCCGGGCGGCTGCGGCTGGCCAATGTCTACGCCGCGAGAATTTCCCTGACCCTCGCCGCCGCCGTTGGGGTCTGGCATCTGACCGGTCGCGGCTCTGATGCCTTGCTGACTGCCGCCGGCCTGCTCGCTGTCCAGGCAATGGCCGTAGCGCTCGCCCAGGTGCGGCTCGGGGCCTGGTTTCCCGCAGGGGCCCACGCAAGGGCTCACACAGGGGCTCACGCAGGGAATCACGTAAGGGATCAGGCAGCGCTGCAGGCAGGGGAGAACGGAACAGCCGGCGAGGCAAGGCGGGAAGACGGCCGCTGGTCCCTGGACGCTTTGTTGACTTTCGGAGGTCAACTGCTGGTGACGATGGGACTTGCCGTCCATGGCATCACTTCTGGACTTCTTGGCTATGGCGGTACAGCAGCGGGCGGCTCCCTTCCCTTGTGGGTACCGATGCTGCTGGCGCTTGGCACCAGCATGGTGCTGGCATGGCGGCTGGCCGGGCGGGCAGAGGGGGCTCCCGTTGCTGCCCTTGCCACGGCGGGGCTGTCGGGTTTCATCCTGGGCGCCTGGCCGCTGGCCGCAATGCTTGTCCTCGTGTCGGCGTTCTGGGCGGTCCGAGCAATCCCTGCTGCAGGCAGGGTGCGCGGGAGACTGGTGCTCTCCGCCCGTACTGCATTCACCCTGGCTGTGCCCTTTGCCGTTGCGGCCTTGACAGCAGACGTCCCGGAGCGGAGCGCGGGTATTCTCTTCGGGCTGCTGGTTGCACTGGTATGCCAGCAGTTGCTGACGGCACTCCTGCAGAGAAGGGGGGTGCGGACCTTGGCGCCGGAAGCGAGCCTTGCCGTTCTCGCCGCCGCAGGGTCGCTGTCTTTAGCCGGCCTTGCCTTGGCTGATTCAGCTCCGGACACCGGCCTGGCGGCATCCGGGATCGTGATCCAGCTGCTTGCCGCTCTGGCCATCGGCTGGCTGCTGATGCCGCGGCCTGCCTCCGAGCCTGACCGGAAACCCACGGCTTGGGAGGCTGTGCCCTTGGCGGTATCCGCCGTGGCCGTGAGTCTCGGTTTCCTGACCGTCTCCCACGTGGCCGGAAATGCTGCGCTGGTGCTGGTGGGTGGCTATTTGTTTGCCACAGCCCTTCGGCTACGCCAGCGTCAGCACCGCTGGGCGTACTTTTGGCTGGGACGCGGGGCAGCAACGCTCCTTGCTCTCACCGCCTTTGGTCAGCTGCAGCAGGAGGGCGTAGTGGTCACCGTTGCCGGGGAAGTGATCCGCCCTGCGTCGGTGATGATTGCCGTGCTGGCCCTGCAGCTGGCAATGCCCCTGATTGCGGTTGCCCGGCGACATGCCCCGCGATGGATCCTTGCAGATGCCGGTGCCGTCCTGTCCGTGCAGGTGCTGGCCTGTGGAAGCTTGGCGCTGCAGGATCCCGCTGGAGTACAGGCTATTTCCGGGGCAATTCTGGTGGCATTGTGCGCCGCTGGCTCCGCGTACGTCCTCAGGGCCGAAGCCGGGGCCGTCTGGATCGCACCCGTTGCCTTCGGCTCGCTGCTGGCCGTTACCGGAGGAGAGCTGCTGCAGGTTGAACTGCTGCTGTTCATTTTCGCTGTCTTCAGCACAGTGATGGTGGTGGCCGAACACCAGCGGGCGTACAAAGGGTGGTACTTCGTTGCGGCCAGAGTGCTGACGGCGGGCCTGGCGGTGCTGCTGAGTTACGACCTCACGGCTTCCCTCACCGCCGTTTCCCTGACCTTCGCGCTGGTCCTTGCCGCCCAGCACGTGATCCGCTGGTTCATGAGGAAACGGCTGGCCGACGTTCCGTTCCAGCAGGCCGCAGTGTGGATTACGTTGGCAGGACAGACCTTGCTGCCGCTGGCCTACGTCATCCAGGCCGCCCCTGCCCGGGCACTGACCCAGGACGACGACGGCGGCCGTTGGCTCGTTCTCCTGGAGCTGTTGCTGCTTCTGGTCTCCGCCCTTGGCGCACGGATCTTCTTCGCTGCGCGTGGTTCCGTATATTTCGGCCTTTACGCGGCATTGTTCGGCGTTCTCACGCTGGGCCCGCTGTTCAGCTTTGGTGGAAGGCCGCCCGCGTCACCGGTACTGGACCACACAGGGACGGCGCTGGTCCTGCTTTCGGGGGCGCTGCTGGCAACTTGTGCCGGTGTTGCAAGCCGCCGGCGAAACCTTACGCTTCCCGGCGCGGAACAATGGCTGTGGCTTTGGACCGCCGGCTCGTTCACACTTTCCGGTCTGGCTGTATCAACCGTGGCAGCAGACTGGCTGCCTGGTACGGCGTTGCTGGTTCTTGCGGCCGTGTGCTTTGCTGCCTCGCATCTGGAGGGGTATCCGTTCCTCTATCCACCCGCCGCGGCAGCGGGACTCGGCGGTGGTGTCGCCCTGGCCACGGCGGCCCTCCAAGGAACCTCCGGAGAGTGGGGCACGTTCCTGCCCTGGCTGGCCGGGGCAGGAACAGCCGCTGCCGCCTCGTACCTTGTAAGGCTCTACCGGCAGGACCAATTGCAGGGTGACCCCGTACGTCGTTGGTCCCTGGCCGGTACCGCGCTACTGGCTCTGTGCCTCGTTGCCGCGGCCGGCGCACCCGGCGACATCACGTCCTGGGCCAGCGCAGCCGCGCTGGCTGCCGCCGTCGGAATCTCCTGCTACGAAGCGCCGCCAAGGGCGCGGAGGATAACCGCGGAGGTGGGCGCGCTGGTGGTGACGGCTGCCCTGCAGCGCGCTGCGATCTTTGAGCTGGACGCTCAACCGGGCTATGACCGCCTCGCCGGGGGCATGCCCAACGCGTTCTGGGCGGCGCAGTGGTATGTGCTGTTGGCGTCGGGCCTGGGCGCCCTCCGCTACGGCGCGGGTCATCGGACCGCTGGGCGAATGCTGGTGGCTGCGGGTGCAGGACTTCTCTCGCTGAGCGGCCTTGGCGTGATTTTCGGCGGCACCGGCGGACAACAGTTGTGGGTCCTGGTCCTTCTGGCCATTCTCCTGATGGTGGGTCTTGGGCTGGGGGAGCGGCTGTTCGTCTGGTGGGGTGCTGCAGGAGTGGCCGTGTGTATCCTGTGGGCGATGCGCCATTACACCTTTGCGCTCCTGGCGCTCATCGCCGTCGGCCTGATTGCCTTTGCGGTGTGGCGACTGAACAGGGGAAGCGTCGCCAGCCAAGGCGAAGCCATGGGAAGCGGCTCCGGAGTAGACGGCGGCTGGCCTGAGCAGCCGGGGCCTGAGCGGCCGAGGCCTCAGCAGTCCGGCCCTCAGCCATCAGGACCAGTGCAGCCCGGTCCTCAGCTGCCCGCTCCTCAGCTGCACGCTCCTCAGCTGCCCGCTCCTCAGCAGCCGGATCAACAGCAGTCCCCGCCTCGGCTGCCGGACGGCGGGCCGTTCAGCCGGCCCTGA	MRDESYEAGYRAGHLQGWVDAMATVIPARPPAFHPAAAAQPTSEPTAQPAATPPAVPWPSPGQRAVRQETIRPAVAVPPLPFQPPAGQVGTLPVPAFAPPPVETPAERQARRERRDRQNINITLYVASLLLVAAAALFIGANLPPMFRFLGVCTVTAMFYVAGFVLHARVARLKPAAIAFAGTGLALIPVTGLALYNFVLQQGPIAWLITSLIGTAAYVVAAVRLESRVLVYLSLTFAGSLAWSGVSVLGGALAWYFGAMIAVAVLLTVLALSRPGWLPPVYVRPLAVLHPLVVPTVALAVNCVPLLLGAAGYAYIMALCGVYFALMAAVPGRLRLANVYAARISLTLAAAVGVWHLTGRGSDALLTAAGLLAVQAMAVALAQVRLGAWFPAGAHARAHTGAHAGNHVRDQAALQAGENGTAGEARREDGRWSLDALLTFGGQLLVTMGLAVHGITSGLLGYGGTAAGGSLPLWVPMLLALGTSMVLAWRLAGRAEGAPVAALATAGLSGFILGAWPLAAMLVLVSAFWAVRAIPAAGRVRGRLVLSARTAFTLAVPFAVAALTADVPERSAGILFGLLVALVCQQLLTALLQRRGVRTLAPEASLAVLAAAGSLSLAGLALADSAPDTGLAASGIVIQLLAALAIGWLLMPRPASEPDRKPTAWEAVPLAVSAVAVSLGFLTVSHVAGNAALVLVGGYLFATALRLRQRQHRWAYFWLGRGAATLLALTAFGQLQQEGVVVTVAGEVIRPASVMIAVLALQLAMPLIAVARRHAPRWILADAGAVLSVQVLACGSLALQDPAGVQAISGAILVALCAAGSAYVLRAEAGAVWIAPVAFGSLLAVTGGELLQVELLLFIFAVFSTVMVVAEHQRAYKGWYFVAARVLTAGLAVLLSYDLTASLTAVSLTFALVLAAQHVIRWFMRKRLADVPFQQAAVWITLAGQTLLPLAYVIQAAPARALTQDDDGGRWLVLLELLLLLVSALGARIFFAARGSVYFGLYAALFGVLTLGPLFSFGGRPPASPVLDHTGTALVLLSGALLATCAGVASRRRNLTLPGAEQWLWLWTAGSFTLSGLAVSTVAADWLPGTALLVLAAVCFAASHLEGYPFLYPPAAAAGLGGGVALATAALQGTSGEWGTFLPWLAGAGTAAAASYLVRLYRQDQLQGDPVRRWSLAGTALLALCLVAAAGAPGDITSWASAAALAAAVGISCYEAPPRARRITAEVGALVVTAALQRAAIFELDAQPGYDRLAGGMPNAFWAAQWYVLLASGLGALRYGAGHRTAGRMLVAAGAGLLSLSGLGVIFGGTGGQQLWVLVLLAILLMVGLGLGERLFVWWGAAGVAVCILWAMRHYTFALLALIAVGLIAFAVWRLNRGSVASQGEAMGSGSGVDGGWPEQPGPERPRPQQSGPQPSGPVQPGPQLPAPQLHAPQLPAPQQPDQQQSPPRLPDGGPFSRP				NA	NA	NA	NA	NA
D1-29_03472	1191	tuf	COG0050	Elongation factor Tu	GTGGCAAAGGCAAAGTTCGAGCGGACTAAGCCGCACGTTAACATCGGCACCATTGGTCACGTTGACCACGGTAAGACGACGTTGACGGCCGCCATTTCCAAGGTGCTGTACGACAAGTACCCGACTCTCAACGAGCAGCGCGACTTCGCGTCTATTGACTCTGCTCCCGAAGAGCGTCAGCGCGGCATTACCATCAACATCTCCCACGTTGAGTACCAGACCGAGAAGCGCCACTACGCACACGTAGACGCTCCGGGTCACGCTGACTACATCAAGAACATGATCACCGGTGCTGCACAGATGGACGGTGCAATCCTCGTGGTTGCCGCCACTGACGGCCCGATGGCTCAGACCCGCGAGCACGTTCTGCTCGCCCGCCAGGTTGGTGTTCCCTACCTGCTGGTTGCTCTGAACAAGTCGGACATGGTTGACGACGAAGAGCTCCTGGACCTCGTTGAAATGGAAGTTCGTGAGCTCCTCAGCGCACAGGGCTTCGATGGCGACGACGCTCCGGTTGTTCGCGTTTCCGGCCTGAAGGCACTCGAAGGCGACCCCGTTTGGGTCAAGTCCGTCGAGGACCTCATGGAAGCTGTTGACAACTCGGTTCCGGACCCCGTTCGTGACCGCGACAAGCCCTTCCTGATGCCGATCGAAGACGTCTTCACCATCACTGGCCGTGGCACCGTTGTAACGGGCCGCGCCGAGCGTGGAACCCTCGCCATCAACTCCGAGGTCGAGATCGTCGGCATCCGCCCGGTCCAGAAGACCACGGTTACCGGTATCGAGATGTTCCACAAGCAGCTCGACGAAGCATGGGCCGGCGAGAACTGTGGCCTCCTGCTCCGCGGTCTGAAGCGTGATGACGTAGAGCGTGGCCAGGTTGTCGTCAAGCCGGGTTCCATCACCCCGCACACTGACTTCGAGGCTAACGTCTACATCCTCTCCAAGGACGAAGGCGGACGTCACAACCCGTTCTACTCCAACTACCGCCCGCAGTTCTACTTCCGCACCACGGACGTAACCGGCGTTATCACCCTGCCGGAAGGCACGGAAATGGTTATGCCTGGCGATAACACTGAGATGACCGTTGCGCTCATCCAGCCCATCGCCATGGAAGAGGGCCTCGGCTTCGCTATCCGCGAAGGCGGCCGCACGGTTGGTTCAGGACGCGTTACCAAGATCATCAAGTAG	MAKAKFERTKPHVNIGTIGHVDHGKTTLTAAISKVLYDKYPTLNEQRDFASIDSAPEERQRGITINISHVEYQTEKRHYAHVDAPGHADYIKNMITGAAQMDGAILVVAATDGPMAQTREHVLLARQVGVPYLLVALNKSDMVDDEELLDLVEMEVRELLSAQGFDGDDAPVVRVSGLKALEGDPVWVKSVEDLMEAVDNSVPDPVRDRDKPFLMPIEDVFTITGRGTVVTGRAERGTLAINSEVEIVGIRPVQKTTVTGIEMFHKQLDEAWAGENCGLLLRGLKRDDVERGQVVVKPGSITPHTDFEANVYILSKDEGGRHNPFYSNYRPQFYFRTTDVTGVITLPEGTEMVMPGDNTEMTVALIQPIAMEEGLGFAIREGGRTVGSGRVTKIIK	PGPT0015245_3423	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
D1-29_03473	2142	fusA	COG0480	Elongation factor G	GTGCAGTCCATCCGAAAGGGAGACACCGTGGCACAGGACGTGCTTACCGACCTTAGTAAGGTCCGCAACATCGGCATCATGGCCCACATTGATGCCGGCAAGACCACCACCACCGAGCGCATTCTGTTCTACACAGGTGTGAACCACAAGATTGGCGAAACGCACGACGGCGCTTCGACCACCGACTGGATGGAACAGGAAAAGGAACGCGGCATCACCATCACGTCTGCCGCCGTGACCTGCTTCTGGGAAAACAACCAGATCAACATCATCGACACCCCCGGCCACGTTGACTTCACCGTTGAGGTTGAGCGCTCCCTGCGCGTCCTCGACGGCGCTGTCGCTGTTTTCGATGGCAAGGAAGGCGTTGAGCCGCAGTCTGAGACCGTTTGGCGTCAGGCTGACAAGTACAACGTCCCCCGCATCTGCTTCGTCAACAAGATGGACAAGCTGGGTGCTGACTTCTACTTCACCGTAGACACCATCATCAGCCGCCTGGGCGCCAAGCCGCTCGTTATGCAGTTGCCCATCGGTGCGGAGAACGACTTTATCGGCGTCGTCGACCTGCTCTACATGCGTGCGCTCGTTTGGCCTGGCGACTCCAAGGGTGACGTCACCATGGGGGCCAAGTACGAAATCCAGGAGATCCCCGCGGACCTTCGCGAGAAGGCCGAGGAGTACCGCGCAACGCTCGTTGAGACCGTTGCCGAGGCTACCGAGGACCTCATGGAGAAGTACCTTGAGGGCGAAGAGCTGAGCATCGATGAGCTCAAGGCTGGCATCCGCAAGATGACCATCAACTCCGAGCTCTACCCGGTCTTCTGTGGCTCCGCCTTCAAGAACCGCGGCGTTCAGCCGATGCTGGACGCGGTTATTGACTACCTGCCGAACCCGCTTGACGTCCCGCCGATGATCGGTCACGATCCCCGCGACGAAGAGAAGGAACTGACGCGCAAGCCGTCTTCCGATGAGCCGTTCTCAGCTCTCGCGTTCAAGATCGCTGCACACCCGTTCTTCGGCCAGCTCACCTTCATCCGCGTGTACTCCGGTCACATTGAAGCGGGCGCCCAGGTGGTCAACTCCACCAAGGGCAAGAAGGAGCGCATCGGCAAGCTGTTCCAGATGCACGCCAACAAGGAAATGCCCGTTGAGGGCGCTACCGCCGGCCACATCTACGCAGCCATCGGGCTCAAGGACACCACCACGGGTGACACCCTGTGCGATTCCAGCAACCAGATCGTGCTCGAGTCCATGAGCTTCCCGGAGCCCGTGATCTTCGTTGCCATCGAACCGAACACCAAGGGTGACCAGGAGAAGCTCTCCACGGCCATCCAGAAGCTCTCCGCCGAGGACCCGACCTTCCAGGTCTCCCTTGACGAAGACACCGGACAGACCATCATCGCAGGTATGGGCGAGCTCCACCTGGACATCCTGGTGGACCGCATGCGCCGCGAATTCAAGGTCGAGGCAAACGTCGGCAAGCCGCAGGTGGCTTACCGCGAAACCATCAAGCGCACTGTAGAGCGTCACGACTACACGCACAAGAAGCAGACCGGTGGTTCCGGCCAGTTCGCAAAGATCCAGATCGCAATTGCGCCCCTGGACACCGCGGACGGCGAGCTCTACGAGTTCGAAAACAAGGTCACCGGTGGCCGTATTCCGCGCGAATACATCCCGTCCGTTGACGCTGGCATCCAGGATGCATTGAACGACGGCGTCCTGGCCGGCTACCCGGTTGTTGGCATCAAGGCCACGCTGATTGACGGCGCGTACCACGATGTTGACTCCTCGGAAATGGCGTTCAAGATCGCCGGGCGTATGGCTTTCAAGGAAGCCGCACGCAAGGCGAACCCTGTCCTGCTCGAACCGCTGATGGATGTCGAGGTCCGCACCCCTGAGGAATACATGGGTGAAGTTATCGGTGACCTCAACTCCCGCCGTGGCCAGATGCAGTCCATGGAAGATGCACAGGGTGTCAAGGTCATCCGTGCGCACGTCCCGCTGTCCGGCATGTTCGGCTACATCGGTGACCTGCGCTCCAAGACCCAGGGCCGTGCTGTTTTCTCCATGACCTTCAGCAGCTACGCCGAGGTCCCGAAGGCAGTTGCCGACGAGATCATCCAGAAGAACCGCGGCGAATAG	MQSIRKGDTVAQDVLTDLSKVRNIGIMAHIDAGKTTTTERILFYTGVNHKIGETHDGASTTDWMEQEKERGITITSAAVTCFWENNQINIIDTPGHVDFTVEVERSLRVLDGAVAVFDGKEGVEPQSETVWRQADKYNVPRICFVNKMDKLGADFYFTVDTIISRLGAKPLVMQLPIGAENDFIGVVDLLYMRALVWPGDSKGDVTMGAKYEIQEIPADLREKAEEYRATLVETVAEATEDLMEKYLEGEELSIDELKAGIRKMTINSELYPVFCGSAFKNRGVQPMLDAVIDYLPNPLDVPPMIGHDPRDEEKELTRKPSSDEPFSALAFKIAAHPFFGQLTFIRVYSGHIEAGAQVVNSTKGKKERIGKLFQMHANKEMPVEGATAGHIYAAIGLKDTTTGDTLCDSSNQIVLESMSFPEPVIFVAIEPNTKGDQEKLSTAIQKLSAEDPTFQVSLDEDTGQTIIAGMGELHLDILVDRMRREFKVEANVGKPQVAYRETIKRTVERHDYTHKKQTGGSGQFAKIQIAIAPLDTADGELYEFENKVTGGRIPREYIPSVDAGIQDALNDGVLAGYPVVGIKATLIDGAYHDVDSSEMAFKIAGRMAFKEAARKANPVLLEPLMDVEVRTPEEYMGEVIGDLNSRRGQMQSMEDAQGVKVIRAHVPLSGMFGYIGDLRSKTQGRAVFSMTFSSYAEVPKAVADEIIQKNRGE				NA	NA	NA	NA	NA
D1-29_03474	471	rpsG	COG0049	30S ribosomal protein S7	ATGCCTCGCAAGGGTCCGGCCCCCAAGCGGCCGCTCGTACTAGATCCCGTTTACGGCTCCCCGCTGGTCACCCAGCTCATCAACAAGGTGCTGGTTGACGGCAAGAAGTCCACTGCCGAGCGTATCGTTTACGGTGCACTCGAAGGCGCCCGCGCCAAGTCCGGCGGCGATCCCGTTGCCGCCCTCAAGAAGGCCATGGAGAACGTCAAGCCTTCCCTCGAGGTCCGCTCCCGCCGTGTTGGTGGCGCAACCTACCAGGTTCCGGTTGAGGTCAAGCCGGGCCGCTCCACCGCCCTCGCACTGCGCTGGCTGGTTGGCTACTCCAAGGCCCGCCGCGAGAAGACCATGACCGAGCGCCTCCAGAACGAAATCCTGGATGCCTCCAACGGTCTCGGAGCCGCTGTGAAGCGTCGCGAAGATACCCACAAGATGGCCGAGTCCAACAAGGCCTTCGCACACTACCGCTGGTAA	MPRKGPAPKRPLVLDPVYGSPLVTQLINKVLVDGKKSTAERIVYGALEGARAKSGGDPVAALKKAMENVKPSLEVRSRRVGGATYQVPVEVKPGRSTALALRWLVGYSKARREKTMTERLQNEILDASNGLGAAVKRREDTHKMAESNKAFAHYRW				NA	NA	NA	NA	NA
D1-29_03475	375	rpsL		30S ribosomal protein S12	GTGCCTACGATTAACCAGCTGGTCCGCAAGGGCCGCACGCCTAAGGTCAAGAAGACCAAGGCTCCCGCGCTTAACGGCAGCCCGATGCGCCGCGGTGTCTGCACCCGCGTTTACACCACCACCCCGAAGAAGCCGAACTCGGCTCTCCGTAAGGTGGCCCGTGTGCGCCTCAACGGTGGCGTTGAAGTCACCGCTTACATCCCCGGTGTAGGCCACAACCTGCAGGAGCACTCCATTGTGCTCGTTCGCGGTGGCCGCGTGAAGGACCTTCCGGGTGTCCGCTACAAGATCGTCCGTGGCGCCCTTGATACCCAGGGTGTAAAGAACCGTAAGCAGGCCCGCAGCCGCTACGGCGCAAAGATGGAGAAGAAGTAA	MPTINQLVRKGRTPKVKKTKAPALNGSPMRRGVCTRVYTTTPKKPNSALRKVARVRLNGGVEVTAYIPGVGHNLQEHSIVLVRGGRVKDLPGVRYKIVRGALDTQGVKNRKQARSRYGAKMEKK				NA	NA	NA	NA	NA
D1-29_03476	3900	rpoC	COG0086	DNA-directed RNA polymerase subunit beta'	ATGTCCAGCGAATCCTCCTTCGGCCTCATGCAGATCGGCCTCGCCACCGCGGAAGACATCCGTGGCTGGTCTTACGGCGAGGTTAAGAAGCCGGAAACCATCAACTACCGCACGCTCAAGCCCGAGAAGGACGGCCTCTTCTGCGAGAAGATCTTCGGCCCTTCCCGTGACTGGGAATGCTACTGCGGTAAGTACAAGCGCGTGCGCTTCAAGGGCATCATTTGCGAGCGGTGTGGCGTTGAGGTCACCCGTGCAAAGGTCCGCCGTGAGCGCATGGGCCACATCGAGCTGGCCGCCCCGGTCACTCACATCTGGTACTTCAAGGGTGTTCCTTCCCGTCTGGGCTACCTCCTTGACCTGGCGCCGAAGGACCTCGAAAAGGTTATCTACTTCGCTGCCTACATGATCACCAGCGTCGACGCCGACAGCCGCCACGAGGAACTGCCCAACCTGCAGGTTGAGCACGACATCGAGAAGAAGCAGCTGATCGACAACCGCGACTCCGACATCGCCACGATCGCCCGTGACCTCGAAAATGAGATCGCGCGCCTCGAGGGTGAAGGTGCCAAGGCTGCCGACAAGAAGAAGGCCCGCGACTCCGCTGACCGCCAGATGGCCAACGTGCGCAAGCGTGCCGACGCCGAGATCGAGCGCCTCGAGCAGGTCTGGGACCGCTTCAAGAACCTCAAGGTCGCCGACCTTGAAGGCGACGAAGGCCTGTACCGCGAGCTGCGTGACCGTTACGGCATGTACTTCGAAGGCTCCATGGGTGCCGAGGCCATCAAGAAGCGCCTTGAGAGCTTCGACATGCAGGCCGAGTCTGACCTGCTCCGCGACATCATCGCCAACGGCAAGGGCCAGCGCAAGACCCGCGCCCTGAAGCGCCTGAAGGTGGTCAACGCGTTCCTGACCACCAACAACAGCCCGCTCGGCATGGTACTTGACGCCGTCCCGGTGATCCCGCCGGAACTGCGCCCGATGGTCCAGCTGGACGGTGGCCGGTTCGCGACCTCCGACCTCAACGACCTCTACCGTCGCGTGATCAACCGCAACAACCGCCTCAAGCGCCTGCTTGACCTCGGTGCTCCGGAGATCATCGTCAACAACGAGAAGCGCATGCTTCAGGAAGCTGTTGACAGCCTCTTCGACAACGGCCGCCGCGGCCGTCCGGTCACCGGGCCCGGCAACCGTCCGCTGAAGTCCCTGAGCGACATGCTCAAGGGCAAGCAGGGCCGTTTCCGCCAGAACCTCCTTGGCAAGCGCGTTGACTACTCCGGCCGTTCGGTCATCGTCGTCGGCCCGCAGCTGAAGCTGCACCAGTGTGGTCTGCCCAAGCAGATGGCGCTGGAGCTCTTCAAGCCGTTCGTGATGAAGCGCCTGGTTGACCTCAACCACGCGCAGAACATCAAGTCGGCCAAGCGCATGGTCGAGCGCTACCGTCCGCAGGTTTGGGACGTGCTCGAGGAAATCATCACCGAACACCCGGTGCTGCTGAACCGTGCACCTACCCTGCACCGCCTCGGCATCCAGGCGTTCGAACCGCAGCTTGTTGAAGGCAAGGCAATCCAGCTTCACCCGCTGGTTTGTGGCGCGTTCAACGCAGACTTCGACGGCGACCAGATGGCAGTCCACCTGCCGCTGAGCCCCGAAGCCCAGGCTGAGGCACGCATCCTGATGCTCTCCTCGAACAACATCCTGAAGCCGTCCGATGGCCGCCCGGTGACCCTGCCTTCGCAGGATATGATCATCGGCCTCTACCACCTGACCACCAAGCGTGTCGGTTCAGCCGGTGAGGGCCGCGTGTTCGGTTCTGTCGCGGAAGCCATCATGGCTTACGACCTGCACGAACTGCACCTGAACTCCAAGGTCAAGATCCGGCTTGAGGGCTTTGTCCCTTACCCCGGCTGGGAAGCTCCGGAGGACTGGGAGCAGGGTCAGCCTGCCCTCGTTGAAACCTCCCTGGGCCAGGTCCTCTTCAACGAGACCCTGCCCGAGGACTACCCGTGGGTTGAGGACGTTGCCGACAAGGGCGAACTGTCCCGCATCGTCAACGACCTTGCCGAGCGCTACCCGAAGGTTGTTACGGCCGCAACGCTGGACAACCTAAAGGATGCCGGTTTCTACTGGGCCACCCGCTCGGGCGTGACCGTTGCCATCTCGGACATCGAGGTACCCAAGGACAAGCCGGCCATCCTCGCCGGTTACGAGACCATGGCTGCCAAGATCCAGGGCCAGTACGACAAGGGCCTGATCGACGACGACGAGCGTCGCCAGGAACTGATCGAGATCTGGAACAAGGCAACCAACGAGATCGCCCAGGCGATGCGCGACAGCCTGTCGCCGATGAACACCATCAACCGCATGGTGTCCTCGGGTGCACGTGGTAACTGGATGCAGGTCCGTCAGATCGCGGGTATCCGTGGCCTGGTGGCCAACCCCAAGGGTGAAATTATCCCGCGTCCCATCAAGTCCTCCTACCGTGAGGGCCTGTCGGTGCTGGAATACTTCATCGCCACGCACGGTGCCCGTAAGGGTCTGGCTGACACCGCCCTGCGTACCGCCAACTCGGGTTACCTGACCCGTCGTCTGGTGGACGTGTCCCAGGACGTCATCGTCCGTGAAGAGGACTGCGGTACGGAGCGTGGGCTGGTGACGGCCATCGCCGTCGCTGACTCCAACGGTGAACTCGTCCTGGACGAGAACGTCGAGAACAGCGCTTACGCCCGTACGCTCGCCGTTGATGTTGTTGACTCCAAGGGCAATGTCCTTGCAGCCGGCGGCACCGACTGCGGCGACGTCGTGATCGACGAGCTCTTCAAGGCAGGCATCACCGAGGTCAAGGTCCGCTCCGTACTCACCTGTGAGTCCAGCGTCGGCACCTGCGCCCTCTGCTACGGCCGTTCGCTGGCAACAGGCAAGACCGTGGACATCGGTGAGGCAGTCGGCATTATTGCTGCACAGTCCATCGGTGAGCCGGGTACCCAGCTGACCATGCGTACGTTCCACACCGGTGGTGCTGTTTCCGCCAGCGGTGGCGACGACATCACCCAGGGTCTGCCCCGTATCCAGGAGCTCTTCGAAGCCCGTACTCCGAAGGGTGTTGCACCGATTGCTGAAGCAGCCGGCCGCATCGCCATCGAAGAGTCCGAGCGCCAGATGCGCCTGGTCATCACTCCGGATGACGGATCAGAAGAGATCGCTTACCCGGTACTGCGGCGTTCACGCCTCCTCATCGAGGATGGCGATCACGTCACGGTGGGCCAGAAGCTCATCAACGGTCCGGTGGATCCCAAGCAGGTTCTGCGCATCATGGGTCCCCGTGCCGCGCAGAAGTTCCTGGTGGACGAGGTCCAGGGCGTGTACCGCAGCCAGGGCATCGGTATCCACGACAAGCACGTCGAGGTTATCGTCCGCCAGATGCTGCGCCGCGTCACGGTCATCGAGTCCGGCGAATCGGATCTGCTGCCCGGCGAGCTCGCCGAGCGCAGCCGCTTCGAGGATGCCAACCGCCGCGTTGTGTCCGAGGGCAAGACTCCGGCTTCCGGGCGTCCTGAACTCATGGGCATCACCAAGGCTTCCCTGGCCACCGAGTCCTGGCTGTCGGCAGCTTCCTTCCAGGAGACCACCCGCGTCCTGACGCAGGCGGCCATGGAAGGCAAGAGCGATCCGCTGCTCGGCCTCAAGGAGAACGTCATCATCGGTAAGCTGATCCCGGCCGGCACGGGTCTCCCGCGCTACACCGAGGTCACCGTGGAGCCCACTGAAGAAGCAAAGGCCAACCTGTTCACCGGCCCCAGCGCATTCAGTGACTTCTCGTACGACACCCTCGGAGGTGACGGAGCTCCCGAGTTCCACGCCATCCCGTTGGATGACTACGATCTGGGCAGCGACTTCCGCTAG	MSSESSFGLMQIGLATAEDIRGWSYGEVKKPETINYRTLKPEKDGLFCEKIFGPSRDWECYCGKYKRVRFKGIICERCGVEVTRAKVRRERMGHIELAAPVTHIWYFKGVPSRLGYLLDLAPKDLEKVIYFAAYMITSVDADSRHEELPNLQVEHDIEKKQLIDNRDSDIATIARDLENEIARLEGEGAKAADKKKARDSADRQMANVRKRADAEIERLEQVWDRFKNLKVADLEGDEGLYRELRDRYGMYFEGSMGAEAIKKRLESFDMQAESDLLRDIIANGKGQRKTRALKRLKVVNAFLTTNNSPLGMVLDAVPVIPPELRPMVQLDGGRFATSDLNDLYRRVINRNNRLKRLLDLGAPEIIVNNEKRMLQEAVDSLFDNGRRGRPVTGPGNRPLKSLSDMLKGKQGRFRQNLLGKRVDYSGRSVIVVGPQLKLHQCGLPKQMALELFKPFVMKRLVDLNHAQNIKSAKRMVERYRPQVWDVLEEIITEHPVLLNRAPTLHRLGIQAFEPQLVEGKAIQLHPLVCGAFNADFDGDQMAVHLPLSPEAQAEARILMLSSNNILKPSDGRPVTLPSQDMIIGLYHLTTKRVGSAGEGRVFGSVAEAIMAYDLHELHLNSKVKIRLEGFVPYPGWEAPEDWEQGQPALVETSLGQVLFNETLPEDYPWVEDVADKGELSRIVNDLAERYPKVVTAATLDNLKDAGFYWATRSGVTVAISDIEVPKDKPAILAGYETMAAKIQGQYDKGLIDDDERRQELIEIWNKATNEIAQAMRDSLSPMNTINRMVSSGARGNWMQVRQIAGIRGLVANPKGEIIPRPIKSSYREGLSVLEYFIATHGARKGLADTALRTANSGYLTRRLVDVSQDVIVREEDCGTERGLVTAIAVADSNGELVLDENVENSAYARTLAVDVVDSKGNVLAAGGTDCGDVVIDELFKAGITEVKVRSVLTCESSVGTCALCYGRSLATGKTVDIGEAVGIIAAQSIGEPGTQLTMRTFHTGGAVSASGGDDITQGLPRIQELFEARTPKGVAPIAEAAGRIAIEESERQMRLVITPDDGSEEIAYPVLRRSRLLIEDGDHVTVGQKLINGPVDPKQVLRIMGPRAAQKFLVDEVQGVYRSQGIGIHDKHVEVIVRQMLRRVTVIESGESDLLPGELAERSRFEDANRRVVSEGKTPASGRPELMGITKASLATESWLSAASFQETTRVLTQAAMEGKSDPLLGLKENVIIGKLIPAGTGLPRYTEVTVEPTEEAKANLFTGPSAFSDFSYDTLGGDGAPEFHAIPLDDYDLGSDFR				NA	NA	NA	NA	NA
D1-29_03477	3519	rpoB	COG0085	DNA-directed RNA polymerase subunit beta	TTGGTCGCCTCGAGCACCTCTAATGTAAACAACACTTCAACCGCTATCGCATCAGACACCACTGATGGTGCCACTCGCCGGCTCTCATTCGCAAAGATTCACGAACCTCTTGACGTTCCGAATCTTCTTGCCCTGCAGACGGACAGCTTCGACTGGCTCGTCGGAAACGAACGCTGGCAGGCGCGCGTAGCGAAGGCCGTCGAAGAAAACGATCTCAGCGTCGCCACCACGTCCGGACTGTCGGACATCTTCGAAGAGATCTCCCCGATTGAGGACTTCCAGGGCACCATGTCCCTGAGCTTCTCTGATCCGGAGTTCGCTGACCCGAAGTACACCATGGCCGAGTGCAAGGACCGGGACGCAACGTACTCGGCTCCGCTGTACGTCAAGGCCGAGTTCATGAACAACAACACGGGCGAAATCAAGCAGCAGACCGTGTTCATGGGCGACTTCCCGCTGATGACCGAGAAGGGCACCTTCGTCGTCAACGGCACCGAGCGTGTTGTCGTCTCCCAGCTGGTCCGTTCACCGGGCGCGTATTTCGAGCGCACCGCTGACAAGACCAGCGACAAGGACATCTTCACTGCCAAGATCATCCCGTCCCGCGGTGCATGGTTTGAGCTTGAAATCGACAAGCGCGACCAGGTCGGCGTCCGCCTCGACCGCAAGCGCAAGCAGTCCGTCACGGTCCTGCTGAAGGCCCTCGGCTGGACCGAAGGCCAGATCCTGGAAGAGTTCGGCCAGTACGACTCCATGCGCGCAACGCTGGAGAAGGACGCCACCGAAACCCGCGAAGACGCCTTGCTGGACATCTACCGGAAGCTTCGACCGGGCGAGCCGCCCACAGTCGAGGCTGCCCAGTCCCTGCTGGACAACCTGTACTTCAACTCCAAGCGCTACGATCTGGCCAAGGTCGGCCGTTACAAGATCAACCGCAAGCTTGGCATCGACCGCTCCCTTGGTGACAAGGAAGCTTCGGTCCTGCACGTTGAAGACATCGTCGCCATGATCAAGTTCCTGGTTGCCCTGCACGCCGGCGAGAAGACCCTCACGGGTAAGCGCGACGGCCAGGACCACGAGCTGCGCGTCGAGATCGATGACATCGACCACTTCGGCAACCGCCGCATCCGCGCCGTCGGCGAGCTCATCGAGAACCAGGTCCGCACCGGCCTGTCCCGTATGGAGCGCGTTGTCCGCGAGCGTATGACCACCCAGGACGTCGAGGCCATCACGCCGCAGACCCTGATCAACATCCGCCCCGTGGTTGCAGCGATCAAGGAGTTCTTCGGAACATCCCAGCTGTCACAGTTCATGGACCAGAACAACCCGCTGTCGGGTCTGACCCACAAGCGCCGTCTGTCCGCGCTTGGTCCGGGTGGTCTGTCCCGTGACCGCGCAGGCATGGAAGTTCGAGACGTTCACCCGTCCCACTACGGACGTATGTGCCCCATCGAAACCCCTGAAGGCCCGAACATTGGTCTGATCGGTTCGCTGGCATCCTACGGACGCATCAACCCCTTCGGCTTCATCGAGACGCCGTACCGCCTTGTGTCCGAGGGCGTTGTCTCTGACGAGGTCCAGTACCTCACGGCCGACGACGAAGCAGAGGTCCTGATCGCACAGGCCAACGCTCCGCTGGACGAGAACAAGAAGTTCGCCGAAGAGACCGTCCTGGTCCGTGCCCGTGGTGGTGGAGGCGAGCCCGTTCTGGTTCCCGCCGCCGACGTCGAGTTCATGGACGTTTCCCCGCGCCAGATGGTGTCCGTGGCTACCGCCCTGATCCCGTTCCTTGAGCATGACGATGCAAACCGCGCACTCATGGGTGCCAACATGCAGCGCCAGGCCGTGCCGCTGGTCCGTTCCGAGGCTCCGTTCGTGGGCACCGGCATGGAGCGCGCAGCCGCCGTCGACGCCGGTGACGTTGTCATCGCGAAGAAGCCGGGTGTAGTCACCGAGGTCTCCGCTGAGCTGGTCATCATGCTCAACGACGACGGCACGGAAACCAACTACCGCATCAACAAGTTCGCCCGTTCCAACCAGGGCAACTGCTACAACCACCGCGTACTGGTGAGCGAAGGCCAGCGCCTCGAGGTCGGCGGCATCATCGCTGACGGCCCGGCAACGGACCAGGGCGAACTCGCCCTTGGTAAGAACCTGCTCGTGGCATTCATGTCATGGGAAGGCCACAACTTCGAGGACGCCATCATCCTCTCGCAGCGCATCGTTGCCGAGGACGTCCTTTCCTCCATCCACATCGAGGAGCACGAGATCGATGCCCGCGACACCAAGCTTGGTGCCGAGGAAATCACCCGTGACATCCCCAACGTGTCCGAGGAAGTCCTTGCAGGCCTGGACGAGCGCGGCATCATCCACATCGGTGCTGAGGTTGAAGCCGGCGACATCCTGGTCGGAAAGGTCACCCCTAAGGGTGAAACCGAACTGACCCCGGAAGAGCGCCTGCTGCGTGCCATCTTCGGTGAGAAGTCCCGCGAAGTGCGTGACACCTCGCTGAAGGTTCCGCACGGCGAGTCCGGCACCGTCATCGGCGTCCGGGTCTTTGACCGCGACAACGACGACGAACTGCCCCCGGGCGTCAACCAGCTGGTCCGCGTCTACGTGGCCGCCAAGCGCAAGATCACCGACGGCGACAAGCTCGCCGGCCGCCACGGCAACAAGGGTGTTATCTCCAAGATCCTGCCGATCGAGGACATGCCCTTCCTTGCCGACGGTACCCCCGTTGACATTGTCCTGAACCCGCTGGGTGTTCCGGGCCGTATGAACGTCGGCCAGGTGCTGGAAACGCACCTTGGCTGGGTTGCCAAGACCGGCTGGAAGATCGAAGGCGAGCCCGAGTGGGTCAAGCAGCTGCCGAACCTGCCGCGCGAGAGTGGCCAGACCACTGTTGCAACGCCGGTGTTCGACGGTGCCCGTGAAGAAGAAATCACTGGCCTGCTGGACTCCACCAACGTGACCCGTGACGGTGACCGCCTGATCAACTCCTCAGGCAAGACGCGCCTGTTCGACGGCCGCTCCGGCGAGCCGTTCCCGGATCCGATCTCGGTCGGCTACATGTACATCCTGAAGCTCCACCACCTGGTGGACGACAAGATCCACGCCCGCTCCACCGGCCCGTACTCCATGATTACCCAGCAGCCGCTGGGTGGTAAGGCACAGTTCGGTGGCCAGCGCTTCGGTGAAATGGAAGTGTGGGCGCTCGAAGCTTACGGCGCCGCCTACACGCTCCAGGAACTCCTCACGATCAAGTCCGATGACATCCATGGTCGCGTGAAGGTCTATGAAGCAATCGTCAAGGGCGAGAACATCCCCGAGCCGGGCGTTCCTGAGTCCTTCAAGGTCTTGATCAAGGAAATGCAGTCGCTGTGCCTGAACGTGGAAGTACTTTCCACGGACGGAACCACAATTGAAATGCGTGACTCTGATGACGCAGTCTTCACGGCTGCGGAAGAACTGGGCATCGATCTGTCTCGTGCAGAGCCCAGTTCCGTAGAAGAGGTCTAG	MVASSTSNVNNTSTAIASDTTDGATRRLSFAKIHEPLDVPNLLALQTDSFDWLVGNERWQARVAKAVEENDLSVATTSGLSDIFEEISPIEDFQGTMSLSFSDPEFADPKYTMAECKDRDATYSAPLYVKAEFMNNNTGEIKQQTVFMGDFPLMTEKGTFVVNGTERVVVSQLVRSPGAYFERTADKTSDKDIFTAKIIPSRGAWFELEIDKRDQVGVRLDRKRKQSVTVLLKALGWTEGQILEEFGQYDSMRATLEKDATETREDALLDIYRKLRPGEPPTVEAAQSLLDNLYFNSKRYDLAKVGRYKINRKLGIDRSLGDKEASVLHVEDIVAMIKFLVALHAGEKTLTGKRDGQDHELRVEIDDIDHFGNRRIRAVGELIENQVRTGLSRMERVVRERMTTQDVEAITPQTLINIRPVVAAIKEFFGTSQLSQFMDQNNPLSGLTHKRRLSALGPGGLSRDRAGMEVRDVHPSHYGRMCPIETPEGPNIGLIGSLASYGRINPFGFIETPYRLVSEGVVSDEVQYLTADDEAEVLIAQANAPLDENKKFAEETVLVRARGGGGEPVLVPAADVEFMDVSPRQMVSVATALIPFLEHDDANRALMGANMQRQAVPLVRSEAPFVGTGMERAAAVDAGDVVIAKKPGVVTEVSAELVIMLNDDGTETNYRINKFARSNQGNCYNHRVLVSEGQRLEVGGIIADGPATDQGELALGKNLLVAFMSWEGHNFEDAIILSQRIVAEDVLSSIHIEEHEIDARDTKLGAEEITRDIPNVSEEVLAGLDERGIIHIGAEVEAGDILVGKVTPKGETELTPEERLLRAIFGEKSREVRDTSLKVPHGESGTVIGVRVFDRDNDDELPPGVNQLVRVYVAAKRKITDGDKLAGRHGNKGVISKILPIEDMPFLADGTPVDIVLNPLGVPGRMNVGQVLETHLGWVAKTGWKIEGEPEWVKQLPNLPRESGQTTVATPVFDGAREEEITGLLDSTNVTRDGDRLINSSGKTRLFDGRSGEPFPDPISVGYMYILKLHHLVDDKIHARSTGPYSMITQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQELLTIKSDDIHGRVKVYEAIVKGENIPEPGVPESFKVLIKEMQSLCLNVEVLSTDGTTIEMRDSDDAVFTAAEELGIDLSRAEPSSVEEV				NA	NA	NA	NA	NA
D1-29_03478	447			hypothetical protein	TTGAAACGAATCCTCGCCGCCGCGGCCGTTGCCGGCGTCGCAGCCCTGATCGCGTGTTCCGTCTCCACCCCCGTCCCGGAAACCACCACATCTGCCGCTGAAGCAACGCCGTCGAAATCCTCCGGACCAAGGACGACGACGGCGGGAGGCGGGGGCGTTAAGGCCGCCTGTGAGCTGTTCAACATGCTCCATAGCGACTACAAGGCTGTGCCAAAAAACGACGTGAAGGGGTACCAGGGCATCTATCTCGAATCGGAGGAGGCAAAGGAGACGGTCCCGAAAGACGTCTACGGTCTTTTTGCTGCCCTAAGCCTTATCGCCATAGACCATGCGTCGGCCGCGGGACAGGGCGGCGGGCCGAAGCAGACATCCAAGGATGCCGTCGCGGACGCCGTTGACGCTTACTCCGGACCCTGTACGGCCGCGGGTGTCGCACTTAAACTCTGA	MKRILAAAAVAGVAALIACSVSTPVPETTTSAAEATPSKSSGPRTTTAGGGGVKAACELFNMLHSDYKAVPKNDVKGYQGIYLESEEAKETVPKDVYGLFAALSLIAIDHASAAGQGGGPKQTSKDAVADAVDAYSGPCTAAGVALKL				NA	NA	NA	NA	NA
D1-29_03479	1200		COG0183	putative acetyl-CoA acetyltransferase	ATGGGCAACTTCGCAGACAACACTGACGTTGTCATCCTGGCAGCAGCGCGCACACCGCAGGGCCGTCTGAACGGGCAACTGGCGAGTTTCACCGCCGTCGAACTCGGTGCGCACGCCATCAAGGCTGCCCTTGCAGCAAGTGGAGTGGATGCCGGCCGCGTTGATGCCGTCATCATGGGACAGGTGCTCCAGGCCGGGGCCGGCCAGAACCCGGCCCGGCAAAGCGCCATCGGCGCGGGCATCGGCTGGAATGTTCCCACGGTCACCATCAATAAGGTCTGCCTCTCCGGCCTGACCGCGGTGATCGACGCCGCCAGGATGATTCGCAGTGGCGACGCCACCGTGGTGGTGGCGGGCGGCCAGGAATCCATGACCAGGGCACCACATCTGCTCCCGGGTTCCCGGCAGGGCTGGACGTACGGTGCGATCCAGGCGCTTGACGTCGCCGCCCATGACGGCCTCACCGACGCCTTCGACGGGCAGTCCATGGGCCTGTCCACCGAGACGAAGAACCTGACACTGGGCATTGACCGAACTGCCCAGGACAACGTGGCAGCCCACTCCCACCAGCGCGCTGCCATAGCGTCAAAGAACGGCGTGTTCGACGACGAGATCTCGCCCATCAGTGTTAAGCAGCGCAAAGGCGACCCCCTGCTGGTTTCCACTGACGAGGGCGTGCGGCCTGATACCACGGTGGAATCCCTCGCCGGACTGCGCGCAGCCTTTGTCAGTGACGGAACCATCACCGCGGGCAATTCCTCTCCCCTGTCCGACGGCGCCTCCGCCCTGGTGCTGACCAGCCGCGCCTTCGCGGAGGAGAATGGCCTCGAATACCTCGCGGTGGTCGGCAAGCCCGGGCAGGTTGCAGGCCCTGACAACTCCCTTCACTCCCAGCCATCGAACGCGATCAAAAACGCGCTGGCACGGGCCGGCTGGAGTATGGCCGACCTTGACTTCATCGAAATCAACGAAGCGTTCGGTTCTGTTGCCGTGCAGTCCCTCAAAGACCTGGACTACCCACTGGAGCAGTGCAACATCCATGGCGGAGCAATCGCCCTCGGCCACCCGATTGGGGCGTCCGGTGCCCGGCTGGCCCTGCATGCCGCCCATGAACTGAAACGGCGGGGCAGCGGCAAAGCCGCCGTGTCGCTCTGCGGTGGCGGCGGGCAGGGCGAAGCGCTCCTGCTGTACCGGGACTAA	MGNFADNTDVVILAAARTPQGRLNGQLASFTAVELGAHAIKAALAASGVDAGRVDAVIMGQVLQAGAGQNPARQSAIGAGIGWNVPTVTINKVCLSGLTAVIDAARMIRSGDATVVVAGGQESMTRAPHLLPGSRQGWTYGAIQALDVAAHDGLTDAFDGQSMGLSTETKNLTLGIDRTAQDNVAAHSHQRAAIASKNGVFDDEISPISVKQRKGDPLLVSTDEGVRPDTTVESLAGLRAAFVSDGTITAGNSSPLSDGASALVLTSRAFAEENGLEYLAVVGKPGQVAGPDNSLHSQPSNAIKNALARAGWSMADLDFIEINEAFGSVAVQSLKDLDYPLEQCNIHGGAIALGHPIGASGARLALHAAHELKRRGSGKAAVSLCGGGGQGEALLLYRD	PGPT0008320_5262	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-29_03480	495			hypothetical protein	GTGGGTGAAGCAGCAAGCCCACGCGACGGCGTCGGACGCGGGCGTTTCCTTGCAGACGCCCGCGCCCGTGGGCTGGAGGTCCGGCTGGTGGAGCGCCTGGCGGCCAACAGCCTTGAGGAAGCAGCACGCATTCTGGGCATCACGCCTGCCGACATCGTGAAGTCCCTGGTGGTCAAGCACAAGGACGGCAGCTTCCTGTTCGCCCTCATTCCGGGCGACCGGCAGATCTCCTGGCCCAAGCTGAGGAACCTGCTGGGCGTCAACAAGCTGTCGCTGCCGCCAGCGGATGTGGCACTGGAGGCCACCGGGTATGAACGCGGCACCATCACGCCGCTGGGCAGCACCACCGCCTGGCCCGTCTACGCGGACGCCGCGATCACGGGCCGGCGGATTTCAATGGGCGCCGGTGAACACGGCTACAGTGCCTTTGTGGATGCCGACGAGCTGACCGCGGCCCTGGGCGCAACCGTCGCCGATATCAGCGAACCCTCCTGA	MGEAASPRDGVGRGRFLADARARGLEVRLVERLAANSLEEAARILGITPADIVKSLVVKHKDGSFLFALIPGDRQISWPKLRNLLGVNKLSLPPADVALEATGYERGTITPLGSTTAWPVYADAAITGRRISMGAGEHGYSAFVDADELTAALGATVADISEPS				NA	NA	NA	NA	NA
D1-29_03481	378	rplL	COG0222	50S ribosomal protein L7/L12	ATGGCGAAGCTCACCAACGAAGAGCTCATTGAAGCTTTCAAGGAATTGACCATCATCGAGCTCTCCGAGTTCGTCAAGCTCTTCGAAGAGACCTTCGAAGTTACCGCAGCTGCTGTTGCTGTTGCAGGCCCCGCCGGTGGCGGCGCCGCTGAGGAAGCTGAAGAGAAGACTGAGTTCGACGTCATCCTCGAAGCTGCCGGCGACAAGAAGATCGCAGTGATCAAGGAAGTTCGCGCCATCACTTCCCTGGGCCTGAAGGAAGCAAAGGACCTGGTCGACAGCGCTCCCAAGGCTGTCCTCGAGGGCGTCACCAAGGAAGCTGCCGAGAAGGCTATCGCACAGCTCGAAGAAGCCGGCGCACGCGTTACCCTCAAGTAA	MAKLTNEELIEAFKELTIIELSEFVKLFEETFEVTAAAVAVAGPAGGGAAEEAEEKTEFDVILEAAGDKKIAVIKEVRAITSLGLKEAKDLVDSAPKAVLEGVTKEAAEKAIAQLEEAGARVTLK				NA	NA	NA	NA	NA
D1-29_03482	621			hypothetical protein	ATGGCAACGCCTACCAAGGTTTCAGCAGTAGCTGAGATCACTAACGATTTCAAGGAATCGAACGCCGCTGTCCTGACCGAATACCGCGGGCTCACTGTTGCACAGCTCAAGCAGCTGCGTGTTTCTCTCGGCCAGGAGACCAAGTTCTCGGTCGTCAAGAACACCCTGACCGCCATTGCAGCCAAGGAAGCCGGTGTCGAAGCATTCGACGGCGAGCTTTCCGGCCCTACTGCAATCGCGTTCATCAAGGGTGACGCAGTTGCGGCTGCCAAGAGCCTGACGGATTTTGCAAAAGCCCACAAGCAGCTGGTCATCAAGACCGGTTACTTCGAAGGCAAGGCACTGAACGCCAGCGAAGTCATCGCACTGGCAGCGCTCGAGTCCCGTGAGCTGCAGCTTGCACGGGTTGCAGGTGTCCTCAAGGCTCCTGCTGCCGCCGCTGCCCGCACCATTGACGCACTGCGCCTCAAGCTTGAAGAAGAGGGTGGCGCTCCGGCAGTTGCTGAAGCTCCCGCCGCTGACGAAGCCCCCGCCGCTGAAGCAGAAGCTCCGGCTGACGCTCCCGCAGCAGATGCAGCAGCAGAGGCAGAAGCCCCCGCCGCCGCAGCCGAAGAGAACTAA	MATPTKVSAVAEITNDFKESNAAVLTEYRGLTVAQLKQLRVSLGQETKFSVVKNTLTAIAAKEAGVEAFDGELSGPTAIAFIKGDAVAAAKSLTDFAKAHKQLVIKTGYFEGKALNASEVIALAALESRELQLARVAGVLKAPAAAAARTIDALRLKLEEEGGAPAVAEAPAADEAPAAEAEAPADAPAADAAAEAEAPAAAAEEN				NA	NA	NA	NA	NA
D1-29_03483	1131			hypothetical protein	ATGATGCCCCTTATGGCAAAAAACGTACAGATCGAGCAGCTTTGGATCCCGGATTCACTGGACGCACCGGACGCCGCGGACTTCCTCGCTGCCGTCGAAGTGGGGCGCAAAGTACGGATGCAGACCTGGGGGAGCGACGACCTGGCCTACGCTCCGCTTGAGAAGCTTCTCGAACTGGCTGACCCATACGAACGGCAGATCATCCTGGTGGCAAAGGTGGGTGATGACATCGTGGGGACGGTGGATATTGCCCTTCCAATGACAGACAACCTGGAACTCGCGGAATTCACACTGGACATCCTGCCCGAATTCCAGCGTCAGGGCGTGGGCCGGAAACTGCTTCTGGCGGCGGAACAGATGGCGCGCGGCGAAGGCCGCACCATGATCCTGGTGGACACCAATCACCCCGGGGCTTCACTGCACGAGTTCGAGGAAGCGCAGCTTGTTCCTGGCTCCGGGCAGGGCTTTGTGCCGCTGGCCAGCCGGGAGGTCGAATTTGCCCGCAAGACGGGATATACGCTGCAGCACATCGAGCAGTTCAGTTCATGCGCCCTTCCGCTGGACACAAAACTTGTCGCCGATCTGCAGGCGGAAGCCGATGAAGCGAACCACGGCCGCTACCGGCTGCACCACTGGACTGACCGCTGCCCGGACCAATGGCTGGAAGCGGTGGCCACCCTGGAAAACCAGGCGGGTGCCGACGTCGACCCGTCGTTGGAGACCCCTGTCCAGCAGGACATGGTGTTCGACGGCGACATCCTCCGTGAAGCGGAGGAGGCCACCATCGCGCAGGGGCGCCGGACGGTGGTGACGGCGGTGGAGCACCTGGCCAGCGGAGCGCTGGTAGGCCTGACCACCATCAGCGTCCTCGCGCATCGGGCGGACGTGGTGTTCCAGGACGACACCCTGGTGCTGCAGGAGCACCGCGGAAACAAGCTGGGGCTGCTGATCAAAGTGGCCAATATGGAACGGCTCACCGAGCAGTTCCCTGACGCGCGGGTCATCTACACCTGGAACGCGCCGGAGAACAGGTACCTCCTGACCGTAAATAAGCAGTTGGGCTTCACCACCGCGGGCGTGACGGGGATTTGGCAGAAGGAGCTGCCCCATCTGGGGGCAAGCAACAGCTGA	MMPLMAKNVQIEQLWIPDSLDAPDAADFLAAVEVGRKVRMQTWGSDDLAYAPLEKLLELADPYERQIILVAKVGDDIVGTVDIALPMTDNLELAEFTLDILPEFQRQGVGRKLLLAAEQMARGEGRTMILVDTNHPGASLHEFEEAQLVPGSGQGFVPLASREVEFARKTGYTLQHIEQFSSCALPLDTKLVADLQAEADEANHGRYRLHHWTDRCPDQWLEAVATLENQAGADVDPSLETPVQQDMVFDGDILREAEEATIAQGRRTVVTAVEHLASGALVGLTTISVLAHRADVVFQDDTLVLQEHRGNKLGLLIKVANMERLTEQFPDARVIYTWNAPENRYLLTVNKQLGFTTAGVTGIWQKELPHLGASNS				NA	NA	NA	NA	NA
D1-29_03484	1074			hypothetical protein	ATGGTCCCTCCGCTGGGCGGCAGCGGCGCCACATCCAATGTGGATCAATTGCCGAAGGAGCTCCTGTTCTGCCATGCCATGCGCCAGGAGCATGAACTCTCACTCTGGGGCAACCTGGACCGATGCCCCACCCTCCCGGAGGCGCTTGAGTATTGGCGCGGCAACGGCTACGAGGAGCGCCATGTCTACGTCGCCAGGCTGGACGGGGAGGTCATCGGGATGAGCACAGTGGAACTTTCGTTGAGCGAGAATACCCATACCGCCGGCATAGATGTCCTGATTGCTCCGGCCCATCGACGGCAAGGCCTGGGCCGGGCACTGTTGGAGCATGCCGAAGGGGTTGCCAGGGAAGGGGGCAGAACGTCCCTTTATGGTTACCACGAGGTTCCACCCAGGGCTCCAGGCGGATCCACGGTCCCGGCCAAGTCCGGCGCCGGCGCGCTGCCGCTGGATGAGCCTGCCGTGGCGTTTGCCGTGGCTGCCGGATATGAGCTGGAGCAGGTGGAGCGGTCCAGCCGCCTTACACTTCCCGTGCCGCCGCATCTGCTCGCCCAGCTGGAGACCGAAGCCGGTGCCCGGGCCAGGGAGTACGTACTCATAGGGTGGGATGACAGTTGCCCTGAGGAACTGGTGAACGGCTATGCCCGCCTCAAAGCCACGATGAGTACGGATGTTCCCATCGCCGGGCTCGACTGGGAGGGCGAGGATTGGGACTCGGCGCGGGTACGGGAGGATGAACGGGCCCTGATCCGAAGTGGTGTGCAATCTGCGGTCACCGCAGCCCTGCACCGCTCCACCGGGGAACTGGTGGCCTACACGGTCCTGAACTGGCGTCCCGGCGTCCCTGACACCATTTCCCAGCAGGACACCCTGGTAGCCGGGGCGCACCGGGGGCACCGCCTGGGAATGCTGATCAAGATCGCGAATCTTCGAAGCGCCCAGCGCCGGTGGCCCGCTGCGAAGTCGGTTCTTACGTGGAACGCCAGCGAAAACCAGCATATGCTGGCGATAAATATTTCGCTTGGATTCAAGCCTGACGGCTATGAAGGTGAGTGGCAGAAACGGCTGGGATGA	MVPPLGGSGATSNVDQLPKELLFCHAMRQEHELSLWGNLDRCPTLPEALEYWRGNGYEERHVYVARLDGEVIGMSTVELSLSENTHTAGIDVLIAPAHRRQGLGRALLEHAEGVAREGGRTSLYGYHEVPPRAPGGSTVPAKSGAGALPLDEPAVAFAVAAGYELEQVERSSRLTLPVPPHLLAQLETEAGARAREYVLIGWDDSCPEELVNGYARLKATMSTDVPIAGLDWEGEDWDSARVREDERALIRSGVQSAVTAALHRSTGELVAYTVLNWRPGVPDTISQQDTLVAGAHRGHRLGMLIKIANLRSAQRRWPAAKSVLTWNASENQHMLAINISLGFKPDGYEGEWQKRLG				NA	NA	NA	NA	NA
D1-29_03485	708	rplA	COG0081	50S ribosomal protein L1	ATGGCAAAGCGCAGCAAAGCATATGAGGCAGCAGCCGCCAAGATCGACGCGGAGAAGTTCTACGCGCCGTTCGAGGCAGTAACGCTCGCCAAGGACACCAACCCGTCCAAGTTCGACGCAACCGTTGAGGTGGCCTTCCGCCTCGGCGTTGACCCCCGTAAGGCCGACCAGATGGTCCGCGGCACGGTCAACCTGCCCCACGGCACCGGTAAGGTCTCGCGCGTTCTCGTTTTCGCAACCGGTGACAAGGCTGAAGCAGCAATCGCTGCAGGCGCCGACTTCGTTGGTTCCGATGACCTGATCGAAAAGATCGCCGGCGGCTGGACCGACTTCGACGCAGCCGTAGCCACCCCTGACCTCATGGGCAAGGTTGGCCGTCTTGGTAAGGTGCTGGGTCCCCGTAACCTGATGCCGAACCCGAAGACCGGCACCGTCACGGCAGATGTCACCAAGGCTGTCAACGACATCAAGGGCGGCAAGATCGACTTCCGCGTCGACAAGCACTCCAACCTGCACTTCATCATTGGCAAGGTTTCCTTCGACGCCGTCAAGCTGGCCGAGAACTACGCCGCAGCACTGGAAGAGGTCCTTCGCCTGAAGCCGTCCGCTTCCAAGGGCCGCTACATCCAGAAGGCCACTGTGGCCACCACGTTCGGTCCCGGCATCTCCGTTGACCCCAACGTCACCAAGGTTCTGACTGAGGTCTAA	MAKRSKAYEAAAAKIDAEKFYAPFEAVTLAKDTNPSKFDATVEVAFRLGVDPRKADQMVRGTVNLPHGTGKVSRVLVFATGDKAEAAIAAGADFVGSDDLIEKIAGGWTDFDAAVATPDLMGKVGRLGKVLGPRNLMPNPKTGTVTADVTKAVNDIKGGKIDFRVDKHSNLHFIIGKVSFDAVKLAENYAAALEEVLRLKPSASKGRYIQKATVATTFGPGISVDPNVTKVLTEV				NA	NA	NA	NA	NA
D1-29_03486	429	rplK	COG0080	50S ribosomal protein L11	TTGGCTCCCAAGAAGAAGGTCACCGGCCTCATCAAGCTGCAGATCCAGGCAGGTGCCGCTAACCCGGCTCCGCCCATCGGTCCTGCCCTTGGCCAGCACGGTGTCAACATCATGGAATTCTGCAAGGCGTACAACGCTGCCACAGAAGCCCAGCGCGGAAACGTCATCCCCGTGGAAATCACGGTTTACGAAGACCGTTCATTCACGTTCATCACCAAGACCCCGCCGGCTGCAGAGCTCATCAAAAAGGCTGCAGGCGTCGCCAAGGGTTCGCCCACGCCGCACACCGTCAAGGTTGCCAAGCTGACCCAGGCCCAGGTTAACGAGATCGCCACCACCAAGATGGAAGACCTCAACGCCACCAGCCTCGAAGGCGCAGCGAAGATCATCGCCGGCACCGCCCGTTCCATGGGCATCACCGTCGAATAG	MAPKKKVTGLIKLQIQAGAANPAPPIGPALGQHGVNIMEFCKAYNAATEAQRGNVIPVEITVYEDRSFTFITKTPPAAELIKKAAGVAKGSPTPHTVKVAKLTQAQVNEIATTKMEDLNATSLEGAAKIIAGTARSMGITVE				NA	NA	NA	NA	NA
D1-29_03487	846	nusG	COG0250	Transcription termination/antitermination protein NusG	GTGTCTGAGCAGGAGCTCGAGGTAACCGAGACTGAGCTGGAAGAGTCTACGGACATCACGTCAGCCCCCACGGCGGAAGCCGGTGAAGAGTCTGAGGTTGAGTCCGCTGCGCCCGAATCCGCCGACGCTGATGCTGACGCCTTTGAGGACGAAGGTTCTGAGGACGACGATTCCGAGGATGCCGACTCCGAGGACGCCGACTCCGACGAGTCTGACGCCCTCGCCGCCGCGGCCGCCAAGGCCGAGGTGGACCCCGCCGAGGAATTCAAGGCCAAGCTGCGCCGCCAGGAGGGTGACTGGTACGTCATCCACTCCTACGCCGGTTACGAGAACCGCGTGAAGGCAAACCTTGAGACCCGCATCCAGACCCTGGACATGGAAGATTACATCTTCGAAATCCAGGTGCCCATGGAGGAAGTCGTTGAGATCAAGAACGCTCAGCGCAAGGTCATCAACCGCGTCCGGATCCCCGGCTACGTCCTGGTCCGCATGGACCTGACCGATGCCTCCTGGGGCGCGGTGCGCCACACTCCCGGCGTCACCGGCTTCGTGGGCAACGCCCACAACCCGGTACCCCTGCGCTTGGACGAGGTCTTCTCCATGCTCGCCCCGGTCTTCGAAGAAGAGCAGGCCGAGAAGGGCAAGCCCGTCAAGCACGCTGCCGCCCCTGTTGACGTTGACTTCGAAGTTGGCGAGTCCGTCATCGTCAAGGAAGGTCCGTTCGAGACCCTCCCGGCCACGATCTCCGAAATCAAGGTGGAATCCCAGACCCTCGTGGTGCTGGTCTCCATCTTTGAGCGCGAAACGCCTGTCACGCTGGCGTTCAACCAGGTCACCAAGATCTAG	MSEQELEVTETELEESTDITSAPTAEAGEESEVESAAPESADADADAFEDEGSEDDDSEDADSEDADSDESDALAAAAAKAEVDPAEEFKAKLRRQEGDWYVIHSYAGYENRVKANLETRIQTLDMEDYIFEIQVPMEEVVEIKNAQRKVINRVRIPGYVLVRMDLTDASWGAVRHTPGVTGFVGNAHNPVPLRLDEVFSMLAPVFEEEQAEKGKPVKHAAAPVDVDFEVGESVIVKEGPFETLPATISEIKVESQTLVVLVSIFERETPVTLAFNQVTKI				NA	NA	NA	NA	NA
D1-29_03488	270	secE		Protein translocase subunit SecE	GTGACCGAAACAGCTGCCAGCAGCTCCAAGGGCCGCCCAGCTAAGAAGGACGCCAAGGCAAACTTCTTCGCTCGCATTGCACTTTTCGTCCGCCAGGTCATCGGCGAACTGAAGAAGGTTGTTGCACCAACCCGCAAGGAACTGATCAATTACACGGCCGTGGTGCTGGTGTTCGTGGCCATCATGATGGTCATCGTCAGCCTGCTGGACCTCGGATTTGGATCCGCGGTCGGCTGGGTCTTCGCCGGGATCGCTCCCGGGGACCGCTAA	MTETAASSSKGRPAKKDAKANFFARIALFVRQVIGELKKVVAPTRKELINYTAVVLVFVAIMMVIVSLLDLGFGSAVGWVFAGIAPGDR	PGPT0025715_1758	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025715-secE-K03073	NA	NA
D1-29_03490	1218	aspC1	COG0436	Aspartate aminotransferase	ATGTCTGCCGCCCGCGTTTCCCAGCGCATTTCCGCCATTGCCGAATCCGCAACCCTGGCCGTTGATGCCAAGGCCAAGGCGCTCAAGGCAGCAGGCCGGCCGGTCATTGGTTTCGGTGCCGGCGAACCGGACTTCCCCACGCCGGACTACATTGTCCAGGCTGCCATCGAAGCCGCCGGCCAGCCCAAGTACCACCGCTACTCCCCTGCCGCCGGCCTGCCCGAGCTGAAGAAAGCCATTGCGGAGAAGACCCTGCGCGATTCCGGCTATGCCGTGGACGCATCCCAGGTGCTGGTGACCAATGGCGGCAAGCAGGCGGTCTACAACACGTTCGCCACGCTGGTGGATCCGGGTGACGAAGTGATTGTTCCTACCCCGTTCTGGACCACGTACCCCGAGGCCATCCGGCTCGCCGGCGGCGTCCCGGTGGAGGTTTTCGCCGGCCCGGACCAGGACTACCTGGTGACCGTCGAGCAGCTTGAGGCAGCCGTCACTGACAAGACCAAAATCCTGCTGTTCGTCTCGCCGTCCAATCCCACAGGTTCTGTCTACTCGCCGGAACAGGTGGCGGAGATCGGCAAGTGGGCCGCGGCCAAAGGCCTCTGGGTGGTCACAGATGAAATCTATGAGCACCTGACCTACGACGGCGTGCCCTTCACCTCGATCGCTACGGCCGCCCCCGAACTTGGCGACAAAGTGGTCATCCTCAACGGCGTGGCCAAGACCTATGCGATGACCGGCTGGCGCGTGGGCTGGATGATTGGCCCGGCCGACGTCATCAAGGCCGCCACCAACCTGCAGTCCCACGCCACCTCCAACGTCTCCAACATCATGCAGATCGCTGCCCTCGCGGCCGTCTCCGGGCCGCTGACCGCAGTCGATGAAATGAAAGTCAGTTTTGACCGCCGTCGGAAGGCGATCGTTGCGGGCCTGAACGCCATCGAGGGGGTGGAATGCCCGACGCCGAAGGGCGCCTTCTACGTCTACGCGGACGTCCGTGCCCTGCTGGGTAAGGAATTCCCGACGTCGACCGGCACCGCCACGCCGTCGACCTCCGCCGAACTGGCTGCGCTGATCCTGGACGAGGTTGAAGTGGCAGTGGTGCCCGGTGAGGCTTTTGGCCCGTCCGGCTACCTGCGGCTCTCCTACGCCCTGGGCGACGACGACCTCGCCACCGGCGTTGCCCGCCTGCAGGATTTCCTGGGCAAAGCGCAGTAA	MSAARVSQRISAIAESATLAVDAKAKALKAAGRPVIGFGAGEPDFPTPDYIVQAAIEAAGQPKYHRYSPAAGLPELKKAIAEKTLRDSGYAVDASQVLVTNGGKQAVYNTFATLVDPGDEVIVPTPFWTTYPEAIRLAGGVPVEVFAGPDQDYLVTVEQLEAAVTDKTKILLFVSPSNPTGSVYSPEQVAEIGKWAAAKGLWVVTDEIYEHLTYDGVPFTSIATAAPELGDKVVILNGVAKTYAMTGWRVGWMIGPADVIKAATNLQSHATSNVSNIMQIAALAAVSGPLTAVDEMKVSFDRRRKAIVAGLNAIEGVECPTPKGAFYVYADVRALLGKEFPTSTGTATPSTSAELAALILDEVEVAVVPGEAFGPSGYLRLSYALGDDDLATGVARLQDFLGKAQ	PGPT0020110_844	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
D1-29_03491	684	nreC_3	COG2197	Oxygen regulatory protein NreC	ATGAACAACCTGCAGGGGACAGGACCTGTCCGCCCCGCCCAGCCTGTACGGGTGGTGATCGTGGATGACCACGCTATTTTCCGCTCGGGCCTTAAGGCAGACCTCGATGCTGGCATCCAGGTGGTTGGTGAAGCCGCCACCGTGGAGCAGGCCATCGCCGTGATCGCCCGGGAACGTCCCGAGGTGGTCCTCCTGGACGTACACCTGCCGGGCGGCCTCGGCGGCGGCGGGCGCGAAGTCATTGCAGGCTCTGCAGCACTCCTGGGCACCACCAAATTCCTGGCGCTGAGCGTCTCCGACGCTGCCGAGGACGTGGTGGCGGTCATCCGTGCCGGGGCGCGCGGGTATGTCACCAAAACGATCTCCGGTGCCGAGATCACCGATGCCGTGTTCCGGGTAGCGGGCGGGGACGCCGTTTTCTCGCCCCGGCTGGCGGGGTTTGTCCTGGATGCCTTCGGCACTGCCCCGGCGGACATAGCGGACGACGAACTGGACAGGCTCTCCGCACGCGAACTGGAGGTGATGCGCCTGATCGCGAGGGGCTACAGCTACAAGGAAGTTGCCAAGGAGCTCTTCATCAGCATCAAGACCGTGGAAACGCACGTGTCCGCGGTGCTGCGCAAACTCCAGCTCTCCAGCCGGCACGAGCTGACAAAATGGGCCGCCGAGCGGCGCCTCCTCTAA	MNNLQGTGPVRPAQPVRVVIVDDHAIFRSGLKADLDAGIQVVGEAATVEQAIAVIARERPEVVLLDVHLPGGLGGGGREVIAGSAALLGTTKFLALSVSDAAEDVVAVIRAGARGYVTKTISGAEITDAVFRVAGGDAVFSPRLAGFVLDAFGTAPADIADDELDRLSARELEVMRLIARGYSYKEVAKELFISIKTVETHVSAVLRKLQLSSRHELTKWAAERRLL	PGPT0000550_317	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000550-narL-K07684	NA	NA
D1-29_03492	1410			hypothetical protein	ATGAGCACAACCTTTACCCGCCCACCGCTGGTCCGCAGCAGCGACCGCGTGATTGCGGGCGTGTGCTCAGGGCTCGCGGCGCATCTTGGCTGGCCGGTGAAGAACGTCAGGATCGGCATGGCGCTCGCAACGCTCGCCGGCGGTGCCGGCCTGGCCTTCTACGCCTGGCTGTGGATCATGGTTCCCACCGCTGACGAAAGTGCCCGGCGCAACGCCAGGCGGCCGGCGTCGCCCATTGCCCCTGCCGTCAGCATGGATCCGGCATTCGGCGCTGCCCCGCCCCCTGCTTTGGTGCCCCCTCCGGCGCCCCCGACGACGCCGACTGAAAACGGCCCAGGGACGGCAGGTTACGCTCCTGCCGCCACCGGTTATGGTCCGCCCCCGGCCGGCTATGAGGCTGCTGTCCGGCCGCCATGGTTCCGGGTCCGCACAATGCGGTACGGCAAGGAAATCCTGCTGGGTGCCGGCCTCCTCCTGGTGGCGGGAATCCTGATCGCCCAGCTCCTGGGCGTTGATGTGCCGCTGGGCACCTTGATTCCGGCGGCCGCCGTGCTGGGCGGTGCCTCCATTGCCTGGATGCAGCTGGATGAGACCCGCCGCGCGGGACTGCTGGATAAGACCAAGGCAGACCAGGCGGGCGGCTGGGCCCGCCTTGCCGCAGGCCTGGCCCTGGTGGTGGCGGGTGTGCTGGTGATGGTGTCCGGCTCGGGTTCCTGGGAACAGACGTGGCTTGCCCTGCTGGCGTCGGTGGCGGTCCTGGGCGGAGTGATCCTGGTGCTGCTCCCGTGGGCCCTGAAGTTCTGGCGGGACCTTGAATCCGAACGCGCCGGCAGGATCCGGGAGACGGAACGGGCGGAGATCGCCGCCCATCTTCACGATTCCGTGTTGCAGACCCTCGCCCTGATCCAGCGGCGCGCAGGCAGCGAGCACGACGTCGTCCGGCTGGCACGGGCCCAGGAGCGTGAGCTTCGGAACTGGCTGTTCCAGGACCCCGGGAAGGACGCGGGCCAGCTCTCGGACCGGATCAAGGCGACGGCCGCTGAGGTGGAGGATCTGCTGGGCAACGCCGTGGAAGTGGTGAGTGTGGGGGACACCGCCATGACTGAAGCTCACGAGGCCCTGGTGCAGGCAAGCCGTGAGGCGATGCTGAACGCCTCCAGGCACGGGGGCGGGTCCGTGTCCGTGTACCTGGAAGTCTCCAATGGCCGCGCGGAGGTCTTCGTCAAGGACCGGGGGCCGGGCTTCGAACTCAATGACGTGCCGGAGGACAGGCTTGGTGTCCGGGAATCGATCATCGGACGCATGAAGCGCCATGGCGGGACAGCGTCCATCACCAGCACCGCCGATGGCACTGAGGTGCGGCTGGGCCTCCCGGCCCTCTCAACGGAGAATTTGGAAGGAAGATCATGA	MSTTFTRPPLVRSSDRVIAGVCSGLAAHLGWPVKNVRIGMALATLAGGAGLAFYAWLWIMVPTADESARRNARRPASPIAPAVSMDPAFGAAPPPALVPPPAPPTTPTENGPGTAGYAPAATGYGPPPAGYEAAVRPPWFRVRTMRYGKEILLGAGLLLVAGILIAQLLGVDVPLGTLIPAAAVLGGASIAWMQLDETRRAGLLDKTKADQAGGWARLAAGLALVVAGVLVMVSGSGSWEQTWLALLASVAVLGGVILVLLPWALKFWRDLESERAGRIRETERAEIAAHLHDSVLQTLALIQRRAGSEHDVVRLARAQERELRNWLFQDPGKDAGQLSDRIKATAAEVEDLLGNAVEVVSVGDTAMTEAHEALVQASREAMLNASRHGGGSVSVYLEVSNGRAEVFVKDRGPGFELNDVPEDRLGVRESIIGRMKRHGGTASITSTADGTEVRLGLPALSTENLEGRS				NA	NA	NA	NA	NA
D1-29_03493	1662			hypothetical protein	ATGAACTCGCAGACCCCCACCCCAGATGACGAACACCCCACCGAACCACTGCCGCCACGCGGAACCGAGCAGCCCACGGAACCGCTGACGTCCGGCCCGGCATCACCGCAGGACACTCCATCGTCCGCGCCGCGGGATGCAGCGGACCAGTCCCCTTCCGGCGAGCCATCCGCACAGGACGAGCCGTCCGGACAGGACACGGGACAGAACACGGGGCCGTACCCGGGGCCGTACGCAGGCGCCTACACAGGTCCGTCGTCGGGCCAGTACGCCGCCGCCAAAGCACCCGGCCAATCCACTGACTTCTTCACCTGGATCCGGAGCCACGGCATCCAACGGGGACGTGACCGCTGGATAGGCGGCGTCTCCAGCGGCATTGCCTACCGGATGGGCATCGATCCGCTGATTGTCCGCGGCATCTTCATTGTCCTCACCCTCTTCGCCGGAATCGGCGTGCTGCTCTACGGCCTGGCCTGGGCGTTCCTGCCCGAGCCGGACGGCCGCATCCACGTCCAGGAAGCTGGCGCTGGCCGGTGGTCCACGGGCATGACAGGTGCCCTGATCACCACCATAGTGGGCCTCACCGGGCTCGGCGGCGGCTTCTGGGGCTGGAGCCGCAACGGCTTCGGCGGATTCCTCTGGACCGTCTTCTGGGTGGGCGCCACCATCTACCTCATCTACTACCTGGCCCAACGCAGCAAGGCCCGGAATGGAGCACCCATGAACGCCACCCCGCAGCCAGCCGGCGCTGGCGGAAACGCAGCCTTCGCGGCCGCCTACCCTGCCTCCCCCTACACAGCCCCGTACTCCACAACCGACTCGGCAACCAATACCGGTTCCGGTTCTGGCTCTACAGGGACCCCTCCTTACTCGCCAACCCGGCCCGCCGGCCCCCTCCCGCCCTACGGCAGCGGCGGATTCCCGGGTGGCGGCAATTACAGCGGGGGCAGCTACGGCGGCGGAAACTACGGCGGAACCAGCTACGGCGGCGGCTACCAGCCGCCGCAGGGCCCGCCGCGCCCACCCAAGGTCCGCCCTGCCGGCCCGGGAACCCCTGCGGTGGCAATCACCGCCGGAACTGCCCTGCTTGTGGGCGGCGGGCTGAAAGCCCTGGACGCCGGAAACGTGATCAACCTCGGCGACTCCGCAAACGCCATTGTCTGGGCCAGCGCCGCAGCCGTCCTGGGCCTCGGCATCCTGATCTCCGGACTGCGCGGCAGGTCCTCAGGAATCCTGGGCTTCTTCGCCGTGGTGGCCCTGATTATCGGCGGGATCTTCAACGTCGTCGGTGACGGCGACAGGGTCCGCTTCACGCAAGTGGACTGGACGCCGGCCGGCATTGAACAGGCCCGGAACGGCTTCGACGTAACGGCGGGCCGCGGAACTGTTGACCTCACGGAACTCGGGGTGGCCGCCCCGCTGACGTCCGACGTCGTGGTTCCCCTGGACATCACCGCGAGCAACGTCAAGGTGGTCATCCCGGACAACGTCCCCGTGGACATCAAGGCCGACATGACCATGGGCAACATCCATGAAGGCGCCAACCACCGCAGCGGCATCTCCACCCGGGAAAGCAGCTACAACACCGAACTGCCCGGCGCCCGCCTGGTGGTCGAGATAGACGGCACCTTCAGCAACGTCACCATCCAGGAAGGGAACTGA	MNSQTPTPDDEHPTEPLPPRGTEQPTEPLTSGPASPQDTPSSAPRDAADQSPSGEPSAQDEPSGQDTGQNTGPYPGPYAGAYTGPSSGQYAAAKAPGQSTDFFTWIRSHGIQRGRDRWIGGVSSGIAYRMGIDPLIVRGIFIVLTLFAGIGVLLYGLAWAFLPEPDGRIHVQEAGAGRWSTGMTGALITTIVGLTGLGGGFWGWSRNGFGGFLWTVFWVGATIYLIYYLAQRSKARNGAPMNATPQPAGAGGNAAFAAAYPASPYTAPYSTTDSATNTGSGSGSTGTPPYSPTRPAGPLPPYGSGGFPGGGNYSGGSYGGGNYGGTSYGGGYQPPQGPPRPPKVRPAGPGTPAVAITAGTALLVGGGLKALDAGNVINLGDSANAIVWASAAAVLGLGILISGLRGRSSGILGFFAVVALIIGGIFNVVGDGDRVRFTQVDWTPAGIEQARNGFDVTAGRGTVDLTELGVAAPLTSDVVVPLDITASNVKVVIPDNVPVDIKADMTMGNIHEGANHRSGISTRESSYNTELPGARLVVEIDGTFSNVTIQEGN				NA	NA	NA	NA	NA
D1-29_03494	294			hypothetical protein	ATGAGCAACGTTGATCCGGCACCGGATTCAGACACCAAAGAAACGCCGACGGCGGGATCCTCCGAGTGGACAGAACCCACCGGCCCCGCGCCCACCCGGGTGGGAACCGTGGTCTGGGGCCTCGTGGTCCTGGCCCTCGCCGCCCTGATCATCATCGCCCAGCTTGGCATCGTGACCCTGAACGGCACCTATGTGCTCATTGGCCTGATGATCGGAGCCGGGGCCGCGCTGGTGGTCGGCGGGCTCCTGTCGGCACGGAAACGTGACAACGGGCCCACAACAGGGAAGTCTTGA	MSNVDPAPDSDTKETPTAGSSEWTEPTGPAPTRVGTVVWGLVVLALAALIIIAQLGIVTLNGTYVLIGLMIGAGAALVVGGLLSARKRDNGPTTGKS				NA	NA	NA	NA	NA
D1-29_03495	258			hypothetical protein	ATGGACAAGTTTTTCAGCATCGTCAGGGGCTTCGGCCTGCAACGGGGACCCCAGCGCTGGCTGGGCGGTGTATGCGGAGGGATCGCTGCCAAGCTCAACGTGGATGTGGCCTTCGTCCGGATCGCCTTCCTGATCTTCTGCCTTCTGCCCGGACCCGCAGTGGTGTTCTATATCGCAGCCTGGCTGATCCTTCCGGACCAGCGGAACGTCATCCCGCTGCAGTCCTTTTTGGATAGGCGGTCCATCAACGGATCCTGA	MDKFFSIVRGFGLQRGPQRWLGGVCGGIAAKLNVDVAFVRIAFLIFCLLPGPAVVFYIAAWLILPDQRNVIPLQSFLDRRSINGS	PGPT0027520_1221	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
D1-29_03496	966	btuD_14		Vitamin B12 import ATP-binding protein BtuD	ATGAAGCCTTCAGCCAGGCCCGGACCCGGGCCCACAGACGCGGCCATCTCTGTCCGCGGCCTCAGCAAAACGTACCAACTGCCCAAAGGCCAGGCGCTCACAGCGGTGGACCAGCTCGAACTGAGCATCAGGGCAGGTGAAACGTATGCGCTGCTGGGGCCCAACGGGGCCGGAAAATCTACCACCATCGAAATCCTCGAAGGGCACCGGAAACCGGACAGCGGTGATGTCCGCGTGCTTGGCACCAACCCATGGAAGGCCGCGCCGTCCTTCCGCGCAAGGATCGGCATCGTCCTGCAGGAAGCCACTGATTCAGGCGAACTCAGGGTATCGGAGGCCCTGAGGTCCCTTGCCTCCTGCTTTCCAAGGCCACATGGTGTGGACGAAGTGATCGAGGCGGTAGGACTCGGCGGCAAAGGCGGCGTCCGGATCTCCACCCTCTCCGGAGGCCAGCGACGGCGGCTTGACGTCGCGCTGGGGATCATCGGGCGCCCCGAGGTCCTCTTCCTGGACGAACCCACCACGGGCTTTGACCCGGAAGCCAGGCGCCAGTTCTGGGAGCTCATCCGGCAACTGAGCAGCGGTGGCACCACCATCGTGCTCACCACGCATTACCTGGATGAGGCCGAACAGCTCGCGGACAGGATCGGCGTGATCAACCACGGGCGCCTCATTGCGGAAGGCAGGCCCCAGGAAATCGGAGGGCCGGGCCTCCGGGTTCCCCGGGTCAGATGGCGGGACGCCATCGGTCCGCGCGAGGTGGTGACGGAGCATCCGGCAGCCCTGGTCCATTCACTGTCCGACGGCGGAGCTACCGAGCCGGCGGAGCTTGCCGTCGTCCGTCCAAGCCTTGAGGACATTTACCTCCAGCTGATCGGTTCCGCCAACACCGCTGCTTTTGAAGCTGAACCGGCCATAACCGGTTCCGGTCGGGCAGCATCCTCAACACCAGGAGTCCTCTCATGA	MKPSARPGPGPTDAAISVRGLSKTYQLPKGQALTAVDQLELSIRAGETYALLGPNGAGKSTTIEILEGHRKPDSGDVRVLGTNPWKAAPSFRARIGIVLQEATDSGELRVSEALRSLASCFPRPHGVDEVIEAVGLGGKGGVRISTLSGGQRRRLDVALGIIGRPEVLFLDEPTTGFDPEARRQFWELIRQLSSGGTTIVLTTHYLDEAEQLADRIGVINHGRLIAEGRPQEIGGPGLRVPRVRWRDAIGPREVVTEHPAALVHSLSDGGATEPAELAVVRPSLEDIYLQLIGSANTAAFEAEPAITGSGRAASSTPGVLS	PGPT0006725_5288	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-29_03497	864			hypothetical protein	ATGAACGTCACCCTCCCCGCGCCCAGCCAGCCGGCCGCTGGATCCGCCTGGAAGCCTTCCGCGTTCCGGCTCGGGATGGGCCGGGTGCTCCTTGAGGTCAAACTCTTTAACAGGGATGTGCTCTCGCTGGTCCTTGTCCTGTTCTTTCCCATCCTGATGATGTCCTTGTTCGGAACCGTCTTTGGCGACGAGCCCAACTTCGGAACGGACCCCAACGGCAACGGCGGCATCACCCCTGCGCACTATTACCTCCCCGGCATGCTGGCCCTGAGCACCATTCTCAGTGGCTTCCAGAACCTCAGCAGCTACGTGGCCACGGAACGGTTCAACGGCACAGTCAAACGCCTGGCCGGGACCCCGCTGCCCGCGGCGTCATACTTCATCGGCAAAACGGGGCAGACGCTGTACCTGATCGTGGCCCAGACGGTCCTGCTGCTCCTCGCGGCAAGGTTCCTCTTTGATGTGCCGCTTCCAACGGAGGCCGGGCAATGGCTCCTCATCACCGTGCTGATGATCCTGTCCACTGCGGCATGGGCAACTGTGGCCATCGCCTTCACCGCCCTGCCCAAGTCGGCGCAAAGCGCGTCCACGCTGGCGGTGCTCCCGGTGCTCCTCCTGTCCTTTACGTCGGGCGTCTACTTCCCCTTTTCCCAGCTCCCGGCCTGGTTGCAGTCAGTGGCCAACCTGTTTCCCCTCCGCTGGACGGCCAGCGCACTGCGGTCCGTTTTCCTCCCGGCTGGATTTGAAGCCGTTGAACCTGGCCAGAGCTATGACCTGCCCCTGACGTTCCTGGTGCTCGCCGTCTGGGCCGTCGCCGGTGCCATACTGGCGAAGCTGGTCTTCACGTGGCCACCGCAGAAGTAA	MNVTLPAPSQPAAGSAWKPSAFRLGMGRVLLEVKLFNRDVLSLVLVLFFPILMMSLFGTVFGDEPNFGTDPNGNGGITPAHYYLPGMLALSTILSGFQNLSSYVATERFNGTVKRLAGTPLPAASYFIGKTGQTLYLIVAQTVLLLLAARFLFDVPLPTEAGQWLLITVLMILSTAAWATVAIAFTALPKSAQSASTLAVLPVLLLSFTSGVYFPFSQLPAWLQSVANLFPLRWTASALRSVFLPAGFEAVEPGQSYDLPLTFLVLAVWAVAGAILAKLVFTWPPQK	PGPT0006730_10660	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-29_03498	1320			hypothetical protein	ATGAGCAACATCGGCGGGCGGACGGAGCGGCTGCTTCCGTCCCGTTCCGTCTGGACCACCTCCATGGTCTGGTGGCATGCAGGTTTCTACGCGGCGCTGGCCAGTGTGTCGTACCTCGCCATCTTCAGCCAGGAGCCGGAGCCCAATACGCCACTCGCCGTAGCCGCGCTGCTGCTGCTGGCGGTCGCCTACCCCTTCCTCACGCGCACCCGGGACCTCAGAACAGCAAAGCCCACGGTGTACGTAGCGCTGTTGGTGGCCGTGGTGGTGTTCCTCTCCTTCGTCTATGACGGAGCCGGCGTCCTGCTGTTCGTCGCCTTCCCGCAGGTGTGGATGTTCACTGCCTCCCAGCGCCAGGGCGTGGTGGCCACAGCGGTGCTGTGTGTGGGCGTGGCCGCCGGGCAGATCAGCCGCTGGGGATTGGAGGGCACGGAGGTTTACGGCATCTCTGCGCAGCTCGTGACCTCCTTTGTGGCCAGCTGCATGATCGGGCTGTGGATCTCCAAGGTCATCGAACAAAGTGAGCAGCGGGCCGAGCTGCTGGCAGAGCTGGAGGCGACGCGCAAGGAGCTCAGTGAAGCGGAGCAGGCCCGGGGAGCCCTCGCAGAGCGTGAACGGATGGCCAGGGAAATCCATGACACCCTGGCCCAGGGGTTCACGTCCATTGCCATGCTCTCCGAAGCGGCGCAGGCACAACTCAGGACCCGGCCAGCCGTTTCCGCCACTGCCCCTTCCGCCAATGCACAGACGGGCAACCCCCGGGCAGCCGTGGAAGCGCCAGATGACAGGGACCTGGGATTGATGGACAGCCTCACCGCAATCGCCCAAACGGCACGGGACAATCTTGCTGAAGCACGTTCGCTGGTGGCCTCCGGGGTGCCGTCCGATGTTCAGGGCGGCGACCTCATCGCGGCACTGAGGCGCCTGCCCGACAGTATGCACCTGGAAGGAATCCTGCTGACCGTGGAGGTGCCGGACACCGTCCAGCCGCTTTCGTCGACCCAGCAGGTGGCGCTGCTCCGGACGGTCCAGGAAGCCCTGAATAATGTCCGGAAGCACTCGGGCGCAACGGCCGCCAGAGTGCTGGTGGAAGTCAGGAACAACGCGTCCCAACAGCAGCTCCGGCTGACTGTCACCGACAACGGATGCGGCTTCGACCCCTCCGCCGTGCACAGCGGCTTTGGCCTGAAGTCCATGGCGGCCCGGCTTCAGGAAATCCACGGCGATCTGACGGTCACCTCCTCCGGCGCCGGGACCACCCTGACCGCCGTCGTTCCCATCGCCCGCGCCACAACCACAGAAACGGGAGATGCCCTGTGA	MSNIGGRTERLLPSRSVWTTSMVWWHAGFYAALASVSYLAIFSQEPEPNTPLAVAALLLLAVAYPFLTRTRDLRTAKPTVYVALLVAVVVFLSFVYDGAGVLLFVAFPQVWMFTASQRQGVVATAVLCVGVAAGQISRWGLEGTEVYGISAQLVTSFVASCMIGLWISKVIEQSEQRAELLAELEATRKELSEAEQARGALAERERMAREIHDTLAQGFTSIAMLSEAAQAQLRTRPAVSATAPSANAQTGNPRAAVEAPDDRDLGLMDSLTAIAQTARDNLAEARSLVASGVPSDVQGGDLIAALRRLPDSMHLEGILLTVEVPDTVQPLSSTQQVALLRTVQEALNNVRKHSGATAARVLVEVRNNASQQQLRLTVTDNGCGFDPSAVHSGFGLKSMAARLQEIHGDLTVTSSGAGTTLTAVVPIARATTTETGDAL				NA	NA	NA	NA	NA
D1-29_03499	633	lnrK_1	COG2197	Transcriptional regulatory protein LnrK	GTGAGCGGCCCAACCCAGGTCAGGGTCATTCTTGCCGACGACCACCCTGTGGTCCGCGGCGGCCTCGCTGCCCTGCTGGGCACCGCCGAGGGGATCGACGTGGTGGCCGATGCTGGAAACGGCCAGGAGGCGGTGGCAGCCGTTGAGCTGCACCGGCCCGATGTGGTGCTGATGGACCTGCGAATGCCGGTGCTCGACGGCGCCGGCGCAACAGCGCAGATCCGCGACCGGTTCCCGGCCACCAAAGTGCTGGTGCTGACCACCTACGACGGCGACGCGGACATCGTCAGGGCGGTGGAGTCCGGTGCTGTCGGATATCTGCTCAAGGATTCCCCCGGAGACACCATCATCGATGCGGTTTTCGCCGCGGCCCGGGGTGAGACCGTCCTGGCGCCGCCGGTAGCGGCGCGGCTCGTCTCGCGCCTGCGCGCTCCGGAGAGGCCGCAGCTCACTGCCCGTGAGGTGGAGGTCCTGCGCTGGGTGTCCCACGGCTTGAGCAATCCGGAGGTCGCGGCCCGGCTGCACATCGCCGAAGCCACCGTGAAAACACACCTTCTGCGGGTCTTCAACAAGCTGGACGTGGATGACAGGACCAGGGCAGTGGTCATCGCAATGGAACGGGGCCTTTTGTAA	MSGPTQVRVILADDHPVVRGGLAALLGTAEGIDVVADAGNGQEAVAAVELHRPDVVLMDLRMPVLDGAGATAQIRDRFPATKVLVLTTYDGDADIVRAVESGAVGYLLKDSPGDTIIDAVFAAARGETVLAPPVAARLVSRLRAPERPQLTAREVEVLRWVSHGLSNPEVAARLHIAEATVKTHLLRVFNKLDVDDRTRAVVIAMERGLL	PGPT0014870_151	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
D1-29_03500	1026	pfp		Pyrophosphate--fructose 6-phosphate 1-phosphotransferase	ATGAAAATTGGAATTCTCACCAGCGGTGGCGACTGCCCCGGACTGAACGCAGTCATCCGCGGAGCGGTCCTCAAAGGCATCGCAATCCACGGCCACGAATTTGTGGGATTCCTTGACGGCTGGCGCGGCGTCGTCGAAGGCGACATCATCGACATCCCCAGAACCATGGTCCGGGGCATCGCCAAGCAGGGCGGCACCATCCTGGGCACCTCCCGGACCAACCCGTTCGAGAACGGCGGCGGCCCCGAGGTCATCAAAGCCCACATGGAGCGGCTTGGAATCGACGCCATCATCGCCATCGGAGGCGAGGGCACGCTCGCTGCAGCCAAGCGCCTCACCGACGCCGGCCTGAAGATCGTGGGCGTCCCCAAGACCGTTGACAACGACCTGGACGCTACGGACTACACCTTCGGTTTTGACACGGCAGTCCAGATCGCCACCGAGGCCATCGACCGGCTGCGCACCACCGGCGAATCCCACCACCGGTGCATGATCGCGGAAGTAATGGGCCGGCACGTGGGCTGGATCGCCCTGCACGCCGGCATGGCCGCCGGAGCCCATGCCATCCTCATTCCTGAGCAGAAGGTCAGCATCGAGCAGATCACCGAATGGGTGCAGGAAGCCCACGACCGTGGCCGTGCGCCGCTGGTGGTGGTTGCGGAAGGCTTTGTCCCGGACCACATGGAATCCCCGCATTCCGAACGCGGCCTTGACACCTTCGGCAGGCCCAGGCTTGGCGGCATTGCCGACCAGCTTGCTCCCGAGCTTGAAGCCCGTACCGGCATTGAAACCCGTGCCACCATCCTGGGACACATTCAGCGTGGCGGTGTTCCCTCCGCCTTCGACCGGGTCTTGGCGACCCGGCTGGGTATGGCCGCCATCGACTCCGTGGTGGAGGGCTACTGGGGAACCATGGTGGCGCTCAAGGGCACTGACATTGAGCATGTGGGCTTCCAGGAGGCCCTGGGCAAGCTGAAAACCGTGCCGCAGAGGCGTTACGACGAAGCGGCCGTCCTGTTCGGCTGA	MKIGILTSGGDCPGLNAVIRGAVLKGIAIHGHEFVGFLDGWRGVVEGDIIDIPRTMVRGIAKQGGTILGTSRTNPFENGGGPEVIKAHMERLGIDAIIAIGGEGTLAAAKRLTDAGLKIVGVPKTVDNDLDATDYTFGFDTAVQIATEAIDRLRTTGESHHRCMIAEVMGRHVGWIALHAGMAAGAHAILIPEQKVSIEQITEWVQEAHDRGRAPLVVVAEGFVPDHMESPHSERGLDTFGRPRLGGIADQLAPELEARTGIETRATILGHIQRGGVPSAFDRVLATRLGMAAIDSVVEGYWGTMVALKGTDIEHVGFQEALGKLKTVPQRRYDEAAVLFG	PGPT0017605_1793	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
D1-29_03501	717			hypothetical protein	ATGACTCTTGACCCGGGAACCGCCGCCATCATCCAGCTCGCATGGGCAAGGCGGCTGGGGCTCGACGACGATGCTTTTGCTGAATCGCTCAGGTCCGGCGAACGCATCGTCCGGGTAGATGATGCGGCGCGGACAGTTGAGTTCGTGCGGCTGTTCGGAAGTTCCGCCCTGGTGGGCCCCGAGTGGATCATTGACGCCGCTGCCGGGATTCCGGACGAGGAGATGGCCCATCACGTCACGCTGCTGACCCTGACACGGACGCACGGCGGACACGGACTGGGGTCCGCTGCGCTGTTCTTTGCCGACGATCTGCCCCTGCGGCAGCCCTCCCAGGAGCTGACCGTCTCCCATGGAAATCCGGAGGCGATCGAACTGGAGGGGCTCTGCCCGCCAGACGACGTCAATGAGGTGGGCCTGTCAGACCTGGAAAACCGCTACACCATTATCCGTGAGGTGGAAGGCCGAAGAGTGCCCATAGCCTGCGGCGCCTACACGGAATGGGAAGGGCTGCTCGCCCAAATGGGTGTCCTGGTGGACCCCGAATGGCGGCGGCAAGGAATGGGCTCCCTGGCGGCGTCCATCGCCGCCCATGAGGCGCTGGCTGCCGGCCTCACGGTGCAGTGGCGGGCGGAAGTCAGCAACACAGGTTCACTGGCCCTGGCCCGGAAGCTCGGGCTGTCCACGGGCGGCATCCAGACGAGCGTGCACCTGGGCTGA	MTLDPGTAAIIQLAWARRLGLDDDAFAESLRSGERIVRVDDAARTVEFVRLFGSSALVGPEWIIDAAAGIPDEEMAHHVTLLTLTRTHGGHGLGSAALFFADDLPLRQPSQELTVSHGNPEAIELEGLCPPDDVNEVGLSDLENRYTIIREVEGRRVPIACGAYTEWEGLLAQMGVLVDPEWRRQGMGSLAASIAAHEALAAGLTVQWRAEVSNTGSLALARKLGLSTGGIQTSVHLG				NA	NA	NA	NA	NA
D1-29_03502	501			hypothetical protein	ATGACTGAACCTGCCGCCTCCGGGCCATCACTTTCCGGCGCGTCACCGCAGCCAGGCACTGAGGGCGCCGGCCCTGCCGGCTACGGCGCCGGGCCTGCCGCCCCAGACGGGGCCGCGCCGGAGCCGGATGAGGCGGCAGTAGCTCTTGCCCATAGGCTGTTCCAGGCGGCGAGGGACGGCGATTCCGCACTCCTGGGCAGTTACCTGGACGCGGGCGCGCCTGCCACCATGACCAACGCCGCCGGAGATTCCCTGCTGATGCTGGCTGCGTATCACGGCCATGCCGAAACGGTGCAGCTGCTGCTCCAGCATGGCGGAGAAGCCAACACAGCAAATGACCGCGGGCAGACGCCGTTGGCCGGGGCCGCCTTCAAGGGGTATGCGGACGTGGCCAAGGTGCTGCTGCAAGCCGGCGCTGATCCTGATGCAGGTTCTCCGTCAGCGCGCGCAGCCGCCCAGATGTTCGCGCGCGCGGAGATCCTGGACCTGTTCGGCCAGTAG	MTEPAASGPSLSGASPQPGTEGAGPAGYGAGPAAPDGAAPEPDEAAVALAHRLFQAARDGDSALLGSYLDAGAPATMTNAAGDSLLMLAAYHGHAETVQLLLQHGGEANTANDRGQTPLAGAAFKGYADVAKVLLQAGADPDAGSPSARAAAQMFARAEILDLFGQ				NA	NA	NA	NA	NA
D1-29_03503	1083	gcvT_2		Aminomethyltransferase	ATGACTACTCAAAGCCCCCTGTTGTCGCGCCCTGGCGCGGTTGAAGCCGCCGGTCCGGACGCCGGCGTCGCCGCGCATTACGGTGAGCCGCTCCGGGAGCAGCGCGCCCTCGCGGCAGGTACGGCCGTCGTCGATCTTTCCCACCGCGGTGTAGTCACCGTCACCGGACCGGACCGGCTGAGCTGGCTGAACACGTTGTCCTCACAACAGCTCACTGCCCTGCAGCCGGGCGAATCGAGCGAACTGCTCCTGCTGACTGTCCAGGGCCGGATCGAATTTGACGCCCGTGTTGTAGACGACGGCGGGACCACCTGGCTGATCGTGGAGGCTGCCGAAGCGGCGCCGCTGGCCGAATGGCTGACCCGGATGAAGTTCATGCTGCGGGTCGAGATCCAGGATGTCTCGGGGGAGTGGGCCGTCATTGGCTCCACCAAACCTGTGGAGGAATGGGCAGGGCTGCTGTCCTGGCGGGATCCCTGGCCGCACGTTGGCGCCGGCGGGTATTCGTATGCTGTGGTGGCGGAGGCTGACCACCCGGGAGTGGACCGGCCGTGGATCGAGTACCTGGTTCCTGCTGCCGAGCTTGCCGAAACTGTGGGCGACCGCCCGCTGGCCGGGATCCTCGCTGCAGAGGCCCTCCGCATCGCCGCCTGGCGGCCGCGGCTGGGCGCTGAAACCGATGACAAGACCATTCCGCACGAGCTCGATCTGCTGCGCACGGCAGTGCACCTGAGCAAAGGCTGCTACAAGGGCCAGGAGACGGTTGCCCGCGTGCACAACCTCGGCCATCCGCCGCGGCGGCTGGTGTTCCTTCAACTGGACGGGTCCCAGCACACCATGCCGGCTCCGGGCAGCCAGGTGCTGCTGGGGGAGCGCAAGGTTGGTGTGGTTACCTCGGTAGCCCAGCATTACGAGATGGGATCGGTTGCCTTGGCCGTGATCAAGCGGTCCGTGGGGCCGGATGAAATACTGACAGTCATGGACGGCGAGGAACCATACGTCGCCGCCCAGGAAGTGATCGTTGCGCCAGACGCCGGCCAAGTGGTGGGGCGCCCAACCGGATTCCTCAGGGGGACCCACTGA	MTTQSPLLSRPGAVEAAGPDAGVAAHYGEPLREQRALAAGTAVVDLSHRGVVTVTGPDRLSWLNTLSSQQLTALQPGESSELLLLTVQGRIEFDARVVDDGGTTWLIVEAAEAAPLAEWLTRMKFMLRVEIQDVSGEWAVIGSTKPVEEWAGLLSWRDPWPHVGAGGYSYAVVAEADHPGVDRPWIEYLVPAAELAETVGDRPLAGILAAEALRIAAWRPRLGAETDDKTIPHELDLLRTAVHLSKGCYKGQETVARVHNLGHPPRRLVFLQLDGSQHTMPAPGSQVLLGERKVGVVTSVAQHYEMGSVALAVIKRSVGPDEILTVMDGEEPYVAAQEVIVAPDAGQVVGRPTGFLRGTH				NA	NA	NA	NA	NA
D1-29_03504	615			hypothetical protein	GTGCCGATTGAGATACCAACTGATCTGACACCAGAACTTGTTCCGCTTTCCTGGCTCATTGGAGAGTGGGAAGGCCGCGGCCGGCTTGGAACTGGTGATGAGGACTCCGAGCACTTTCTCCAGCACGTATCGTTCACGCATAACGGGCTGCCCTACCTGCAGTACCGTGCCGAAAGCTGGCTGACCGACGACGACGGCACGCGGCTCCGGCCCCTCACCGTGGAAACCGGCTTTTGGGCGCTGGAGCGCAAACAGCTGGATGCCGACGGCGGCCCCGGCCTGGTACCTGCCGATATTGTCCCAGCCCTGAAAAGCGCCGACGAAGTCGAGGCCCTGCGCAACAAGGACGGCGGGTTCGACATCTCTGTCTCCATCTCGCACCCGGGAGGAATCTCGGAGCTGTACTACGGCCAGATCAAGGGCCCGCAGATCCAGCTCACCACCGACATGGTGATGCGGGGCAGCCACTCCAAGGATTACAGCGCGGCCACGCGGATCTTCGGCCTCGTGGACGGCAACCTGCTCTGGCGGTGGGACGTTGCCACCGGCGGAACCACAGAGCCGGGCAAGGGGCTGGAGGCTCATGCTTCCGCCTTCCTTAAAAGGGTGTCCTGA	MPIEIPTDLTPELVPLSWLIGEWEGRGRLGTGDEDSEHFLQHVSFTHNGLPYLQYRAESWLTDDDGTRLRPLTVETGFWALERKQLDADGGPGLVPADIVPALKSADEVEALRNKDGGFDISVSISHPGGISELYYGQIKGPQIQLTTDMVMRGSHSKDYSAATRIFGLVDGNLLWRWDVATGGTTEPGKGLEAHASAFLKRVS				NA	NA	NA	NA	NA
D1-29_03505	114			hypothetical protein	ATGTCCGTACTTGCATTCGAAATTTTCTTCCTTGTCCTGCTCGGTATCGCCGGCCTGGCCATGGCCTGGTTCGCCGGCTTTGTGGTTTACCGGCTCTTCAAAGGCCAGAAGTAG	MSVLAFEIFFLVLLGIAGLAMAWFAGFVVYRLFKGQK				NA	NA	NA	NA	NA
D1-29_03506	828			hypothetical protein	ATGGGATCACAGAGAATTGAGTGCAGAATCGACGCCGGGCACGTCAGGGCCAGGTACTTTATGACGGCCGAGCTGCAGGCCCCGGTACGCTCCCTGGGATCCTGGACCATCGGCGTTGTGGGCGTGGCCGGGCTGGCTGCGGTCATCGCCGGTGTGTACAGCTCCCGTGAGGCATTGGTGGCAGTGGCAGCCGCTATTGCCCTTGCCGTAGGCATCGGCTGGCCGCACTTCCTGCGCATTCCCGCGAAGAAAACCCTCGCCGCTGTTATTGGCCTCTCCGGAGCGGGATCGGCTATTGCCGCCGGCTTCGCCCCGGCGCCGGGGTTCCTGGACTGGACCCCCGCCTTCATCGCGCTGGGAATGATGGCCGTGTTCGTGGTGGAGCTGATCCGCGGGACGGGCCAGGCCCAGCGGCTGGAGTCCACCCTTGGCTGTTGCGTCGGCGTGCTCCTGTCCTGCCTCGGCGCGGGCTGGATCGCCGGTGCCCGTTTCAACGGGGTGCGGGAAATGCTGCTGGTGGCGGCCATCAGCGCGGCGGTTGCGTTGCTTGCCGGGCTGATCCGATGGCCCGACAGTATTGTGGCGCCCCTCGGGATCGTGCTGGCAGGTCTTGCCGGTCCGTTGGCCGGCCTTATTTTCTCCGATATCGCGGTGTTGCCGGCCGCCATCTTCGGTGTGGTGGTGGGGGCAGTGCTGGTCAGCTTTCGCCGGCTTGTCACAGTCCGCGGCGCTCCACTTAATTTTCCGGCGGCCCTTAGCATGGGTCTTGCGCCGGTCTCAGCGGTGGGTTCCCTGGCCTACTTCATAGACAAACTACTCATCTACTAA	MGSQRIECRIDAGHVRARYFMTAELQAPVRSLGSWTIGVVGVAGLAAVIAGVYSSREALVAVAAAIALAVGIGWPHFLRIPAKKTLAAVIGLSGAGSAIAAGFAPAPGFLDWTPAFIALGMMAVFVVELIRGTGQAQRLESTLGCCVGVLLSCLGAGWIAGARFNGVREMLLVAAISAAVALLAGLIRWPDSIVAPLGIVLAGLAGPLAGLIFSDIAVLPAAIFGVVVGAVLVSFRRLVTVRGAPLNFPAALSMGLAPVSAVGSLAYFIDKLLIY				NA	NA	NA	NA	NA
D1-29_03507	699	regX3_3	COG0745	Sensory transduction protein regX3	ATGTCGCACATCCTGTTACTGACGAACAGCACCGGCTCATCGGTGGACATCCTGCCTGCCCTGGAATTGCTGAACCACCGTGTACACATCCTCGCTGCAGAGCCGACTGCCCTGCTCGAAACAGACCCGTGCGACATCGTGCTTTTGGACGCCCGCAAGGACCTCGTTGGCGCCCGCTCCCTGACGCAGCTGCTGAAGGCAACCGGCCTGAGCGCACCGCTGGTCCTCATCCTCACCGAAGGCGGAATGGCTGCCGTCTCCTCAGCCTGGGCTGTGGATGACATCGTGCTGGATTCCGCCGGGCCCGCCGAAGTGGAGGCCCGAATCCGGCTCTCCGTGGCCAGGGCCGTACCCGACAAAGAGGACGTACCCACCGAAATCCGGGCCGCCGGCGTCGTTATCGATGAAGCGAGCTATACCGCCCGGGTCAACGGTGCTGCACTGAACCTGACCTTCAAGGAGTTTGAACTCCTCAAATACCTGGCGCAGCACCCCGGGCGTGTCTTTACCCGCCAGCAGTTGCTGACAGAAGTGTGGGGCTACGACTACTACGGCGGCACCCGCACCGTGGACGTCCACGTCCGGCGCCTGCGGGCAAAGCTCGGGGCCGACCACGAAAACCTGATCAGCACTGTCCGCAACGTGGGCTACCGCCTGACCCTGGTCCGTCAGCAGGAAGACGAACTGACCGAGGCCTGA	MSHILLLTNSTGSSVDILPALELLNHRVHILAAEPTALLETDPCDIVLLDARKDLVGARSLTQLLKATGLSAPLVLILTEGGMAAVSSAWAVDDIVLDSAGPAEVEARIRLSVARAVPDKEDVPTEIRAAGVVIDEASYTARVNGAALNLTFKEFELLKYLAQHPGRVFTRQQLLTEVWGYDYYGGTRTVDVHVRRLRAKLGADHENLISTVRNVGYRLTLVRQQEDELTEA	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
D1-29_03508	972	mshD	COG0456	Mycothiol acetyltransferase	ATGAGTCCTGCGCACCCCGAGAAATGGCCTGTCCTTGTTGTCAAGGGCGGGCTCGACAACCAGTTGCTCAAGGATTGCAGGGCCCTTCTCGCTGCAGCCGAGGAATCGGACGGCAACCCCTCACTGTCGGAGCAGACAGTGGTGACGCTCCGGGCCGGCGACCTGGCCGAACACGGTCTCCTGACGCTGGCCCTCTACGCACCGGACGAGGATGACGATCCCGCCTCCGGCCAGGACCTCGCAGGCATCGCAGTGGTGGTGGAGGAAGCGGACGGCAGCGGCGTGCTGGAAATCGCCGTCCATCCGAGTTACCGCAATCAGGGCGTGGCGGACCGCCTCGTCGGCGCCCTGAAGTCAAGCCGCGGGTTCGACGGCCTGAAGGCATGGTCCCACGGCAACCATGAGGCAGCAGCGGACCTCGCGGCCAAATACGGGTACGGCCCCGTCCGCGAACTCTGGAAGATGAGGCTGGCCACCGGGACTGCAGAACTTCCCGACGCCGGCCTTCCGGACGGCGTGACGCTGCGCGCCTTTGTCCCTGGCCGGGACGAAGAGCCGTGGCTTGCCGCCAACCGTGCCGCCTTTGCCGACCACCCTGAGCAAGGCGCGATGAGCCGGGCGGACCTGGATGCCCGGATTGCCGAAGACTGGTTCGATCCCGCCGGTTTCCTGCTGGCGGTTGACGGCGATGGCGGCCTGCTCGGTTTCCTGTGGACAAAGGTGCATCCCCGGCACGGCGGGCACCCCGCGATCGGTGAGGTGTACGCCGTGGGCGTCACCCCGGCCGCACGGGGTATGGGCCTGGGAAAGGCCCTCACCGTGGCCGGCATCAGGTATCTGCAGCAGCTCGGGCTTTCCGCCGTCATGCTTTACACCGATGCCGACAACGCCCCGGCGGTTTCCCTGTACCGGGGACTGGGCTTCACGCGCTGGGACATGGACGTGATGTACGGGCCGGTTGCGGCGCGCTAA	MSPAHPEKWPVLVVKGGLDNQLLKDCRALLAAAEESDGNPSLSEQTVVTLRAGDLAEHGLLTLALYAPDEDDDPASGQDLAGIAVVVEEADGSGVLEIAVHPSYRNQGVADRLVGALKSSRGFDGLKAWSHGNHEAAADLAAKYGYGPVRELWKMRLATGTAELPDAGLPDGVTLRAFVPGRDEEPWLAANRAAFADHPEQGAMSRADLDARIAEDWFDPAGFLLAVDGDGGLLGFLWTKVHPRHGGHPAIGEVYAVGVTPAARGMGLGKALTVAGIRYLQQLGLSAVMLYTDADNAPAVSLYRGLGFTRWDMDVMYGPVAAR	PGPT0002685_5	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937	NA	NA
D1-29_03509	2250	ppk	COG0855	Polyphosphate kinase	ATGAAACCGGAACCCGCCGGAACAGTCACGTCCGAAGGTGCTGCAGTGCCAGTCCGCGCACGGTTCGGCTCGTCGGAGGTGCCAGCCTCCCGGGCGACACAGGACCGGATCGACATTCCTGAGTTCGCGCCCAACCTTGCACCTGAAGGGGACATCCGGCCGGACCGGTTCCTGGACCGCGAATTGAGCTGGCTGGCATTCAACTCCCGGGTCCTGGAACTCGCTGAGGACCCCACCCTCCACCTGCTGGAGCGGGTCAGCTTCCTGTCCATCTTCGCGTCCAACCTGGACGAATTCTTTATGGTCCGTGTTGCCGGCCTGAAGCGCCGCATTGCAACCGGGCTGGCCGTGCCCTCCCCCGCAGGCCTCAGCCCCGTTGAAGTCCTGGAAAAAATTGGTGATGAAGCGCACCGGCTCCAGCAGCGCCACGCCCAGGTCTTCTCCGAACAGATCCGCCCTGCCTTGGCGTATGAACACATCCACCTGATGCATTGGGATGAACTCGATGACGCCGCCAAGCAGCAGCTCAGCGCAATGTTCGCCGAAAAGGTCTTCCCGATTCTGACGCCCTTGGCCGTGGATCCTGCACACCCCTTCCCCTACATCTCCGGCCTCTCGCTGAACCTGGCCGTGGTGGTCCGGAACCCGGTGAGCGACAAGGAACTCTTTGCCCGCGTGAAGGTGCCGGACCAGCTGCCGCGCCTCATATCCATTGACGGACCCAGGGCCGGTGCGGTGGCAGGGCGGGTTGCCCGCTTTATCGCGCTCGAAGAAGTTATCGCCGTCCACCTGGACAAGCTCTTTGCCGGCATGGAAGTCCTGGAGCACCACATCTTCCGTGTCACCCGCAACGAGGACGTGGAAGTGGAAGAGGACGACGCCGAGAACCTGCTCCAGGCCCTCGAAAAGGAACTGTTGCGCCGCCGGTTTGGCCCTCCCGTCCGGCTGGAGGTCACGCACGACATCAACCCCAACATCCGCGCGCTTCTGATCCGCGAACTGGGCGTTGAAGAGTCCGAGGTCTATTCAGTCCCGGCGCCGCTGGACCTCCGCGGACTGTCCGTTATCGCGGCGATCGACCGCGCGGATCTCCACTACCCCAAACACGTCCCGCACACCTCCAGGTACCTCAACGAATCCGAGACGTCCAAGGCAGCGAACGTCTTCGCCGCCATGCGCCGCCGCGATATCCTTCTGCACCACCCGTACGACTCCTTCTCAACGTCCGTACAGGCTTTCCTTGAGCAGGCCGCCGCTGACCCGAAGGTCCAGGCCATCAAGCAGACCCTGTACCGCACCTCGGGCGACTCCCCCATTGTGGATGCCCTGATCGATGCGGCCGAGGCAGGCAAGCAGGTCCTGGCCCTTGTGGAGATCAAGGCCCGCTTTGACGAGCAGGCCAACATTTCCTGGGCCCGCAAACTTGAGCAGGCGGGCGTGCATGTGGTCTACGGAATCGTGGGCCTGAAAACGCACTGCAAGCTGTCCCTGGTGGTCCGGCAGGAAGTGGACGGGCTGCGCCGCTACTGCCACATCGGAACCGGCAACTACCACCCACGCACCGCGCGCTATTACGAGGACCTGGGCCTCCTGACCGCCAACGACCAGGTGGGCGAAGACCTTTCCAAGCTCTTCAACCAGCTTTCCGGCTATGCACCCAAATCAACGTTCAAGCGCCTCCTCGTGGCACCAAGGTCCGTCCGGTCCGGGCTGATCGACAGGATCGAAACCGAGATCCGTAACGCCCGCGCGGGACTTTCCGCCAGGGTTCAGATCAAGGTGAACTCGATTGTGGACGAGGCCATCATCGACTCGCTGTACCGGGCATCGCAGTCGGGCGTCAAGGTGGATGTAATCGTCCGCGGTATCTGTTCACTGCGCCCGGGCGTCCCCGGCCTCAGCGAAAACATCACTGTCCGCTCAGTGCTGGGCCGCTTCCTTGAACACTCACGGGTCTTCGCGTTCGCCAACGGGGGCGACCCCGTGGTGTACATCGGCTCGGCTGACATGATGCACCGCAACCTGGACCGCCGGGTTGAGGCCCTGGTCCAGCTGGCCAGTTCGGATGATGTCACATACGTCCTTGACCTGCTGCGCCGCTACATGGATCCCGAAACGGCCAGCTGGCACCTGGACAACCAGGGCGACTGGTCGCGTTACCATATCGCCGACGACGGCACGCGCCTTGACGACGTCCAGTCGTGGCTGCTCGCATCGAGGCCGCGCCAGCGCAGCCTGAGCCGGCGGTAG	MKPEPAGTVTSEGAAVPVRARFGSSEVPASRATQDRIDIPEFAPNLAPEGDIRPDRFLDRELSWLAFNSRVLELAEDPTLHLLERVSFLSIFASNLDEFFMVRVAGLKRRIATGLAVPSPAGLSPVEVLEKIGDEAHRLQQRHAQVFSEQIRPALAYEHIHLMHWDELDDAAKQQLSAMFAEKVFPILTPLAVDPAHPFPYISGLSLNLAVVVRNPVSDKELFARVKVPDQLPRLISIDGPRAGAVAGRVARFIALEEVIAVHLDKLFAGMEVLEHHIFRVTRNEDVEVEEDDAENLLQALEKELLRRRFGPPVRLEVTHDINPNIRALLIRELGVEESEVYSVPAPLDLRGLSVIAAIDRADLHYPKHVPHTSRYLNESETSKAANVFAAMRRRDILLHHPYDSFSTSVQAFLEQAAADPKVQAIKQTLYRTSGDSPIVDALIDAAEAGKQVLALVEIKARFDEQANISWARKLEQAGVHVVYGIVGLKTHCKLSLVVRQEVDGLRRYCHIGTGNYHPRTARYYEDLGLLTANDQVGEDLSKLFNQLSGYAPKSTFKRLLVAPRSVRSGLIDRIETEIRNARAGLSARVQIKVNSIVDEAIIDSLYRASQSGVKVDVIVRGICSLRPGVPGLSENITVRSVLGRFLEHSRVFAFANGGDPVVYIGSADMMHRNLDRRVEALVQLASSDDVTYVLDLLRRYMDPETASWHLDNQGDWSRYHIADDGTRLDDVQSWLLASRPRQRSLSRR	PGPT0002685_412	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937	NA	NA
D1-29_03510	969			hypothetical protein	TTGTCGAGCGACGCACTCGTAGCAGATCAGACAGACCATCCGGGCGAGCCGGTAGCGGTCACAGCCGCCGGAGCCCTGCCGTGGCGCATCAACAAGGACCAGCTGGAGGTACTGCTGATCCACCGGCCACGCTACGACGACTGGTCCTGGCCCAAGGGAAAAATCGACGCCGGTGAAACCATTCCCGAGTGTGCCGTCCGCGAGATACAGGAAGAAATCGGCCTGACGGCACAGCTGGGCATCCCCCTGCCCCCCATCCACTACCATGTGGCCTCCGGCCTGAAAGTGGTTCATTACTGGGCCGTCCGCGTCAACGGGGACCGGCTCCTGCCGGACGGCAAGGAGGTGGACAGTGTGATGTGGTGCTCCCCTGCGAAGGCCGCCACGCTGCTGTCCAACCCTTCCGACGTCGTCCCTCTGGACTTCCTCCAGGCCGCCTATGACCGTGGGGAACTGAACACCTGGCCCATGGTGGTGCTCCGCCATGCCAAGGCCAAGCCCCGTTCCTCCTGGACCAAAGCAGAGGGTGAACGCCCCCTGGCCGCCACCGGACTGAGGCAGGCCCAGGCCGTGGGACGACTCCTGCATACGTGGAAGCCCCTGCGGGTTGTTACCAGTCCGTGGCTGCGCTGCGTGGCCACCGTAATGCCGTATGCCAACGCCGCCGGGGCGAAGGTGAAGCTGGTGGAGGCCCTGACGGAACACAGGCATGCCCGCAATCCCAAGAAGACAGCTGCGGTCATCGAGGCCCTGTTCGACAAGCAGCGCCCGGTAGTTGTCTGCACCCATCGCCCGGCCCTCCCTACTGTGATGGACCAGCTGGCCAAGCACATGCCCTCGGCACTGAGCGCCCTGCTGCCGTCCTCCGAGCCGTACCTCTCACCGGGGGAAGTAGTGGTGTGCCATGTTGCCCCCGGCAGCAAGAACCGAATCGTCGCGGTGGAACAGTTCAAACCGTTTGACGACTAG	MSSDALVADQTDHPGEPVAVTAAGALPWRINKDQLEVLLIHRPRYDDWSWPKGKIDAGETIPECAVREIQEEIGLTAQLGIPLPPIHYHVASGLKVVHYWAVRVNGDRLLPDGKEVDSVMWCSPAKAATLLSNPSDVVPLDFLQAAYDRGELNTWPMVVLRHAKAKPRSSWTKAEGERPLAATGLRQAQAVGRLLHTWKPLRVVTSPWLRCVATVMPYANAAGAKVKLVEALTEHRHARNPKKTAAVIEALFDKQRPVVVCTHRPALPTVMDQLAKHMPSALSALLPSSEPYLSPGEVVVCHVAPGSKNRIVAVEQFKPFDD				NA	NA	NA	NA	NA
D1-29_03511	1659			hypothetical protein	GTGCCTGGCACCAATGGATTTGAACTGGCGTTCCAGAATGTAGCGCCCATGGTCCTGCTGTGGCCCTTCCTCTTGGCCGCCGGGCTGTACGTCCTCCTCCGCTGGGTGATCTCGGCACCGGATGGTGGAACATCCAGGGTCACGGTGGCCCAGCATGCCCTCTGGGTGGGTGTCATCGGCTGGCTGGGCAGCTCCCTTCAGCCGGCCTCGAATGCCGGGATCCTGCCCGAGAACCCGGGTACGGCAGCACTGGCCTCCCCCGGGGCCATCCTCACCGCCCTCGCCTGGCCCATCCTGGGATGCCTCGGGGTCCATGCAATCGGACAGCTGAGCTATCCCGGGCCCCGGCGCCCCCGCAGGCTGGCTACCCTTGGCGTCCGGCGGGTCCGGGATTTCCTCCCGCGCCCCCTCGCGTGGACTGTTGCCGCCATTTTCGTGGCAGCGGCTGTGCAGATCGCCTGGACGGCCACCCTTCCGGGATTCACTCGGGTCCCCTACAACACGTTGAACGTGAACCCCCAGGATGCTGTCCAGGCAGGCGGCGACGGGCGCATTCCGGGTGTTGAACTGGCTGCGTACCTCGGTGCCGGGCTGATGGTGCTGGCCATCGGTACGGGCCTTGTCCTGATGCTCATTGCCAAGCGACGGCAGCTGGAGGCGCTGGACGCGGACGAGAATGACCTGCTGCGGACCATCGCGATGAACAGGCTGCTCCGCACGGTGGCCACGATTGCCGCGGGATTGGCCGCCATCGCCGGGAACTTCGCGGCACGGCCGGACGCTTTGGTCCCCTCAAACGGCTGGTTCAATCCCATGGGCCTGGTTTCGCTCGCAGTGCTGCTGGCCATGTGGTGGTGGGCCCCGCCCAAGCTCGCCAGTGCCCAGGTTGGCCGCAAGGGTTCCGCGCACCCCACATCGGCTGCCGGCACACAGCCAGCCACCCGGCTATCCGTCTCGCTGGGCGCCGCTCTCGGGCTCGCCCCGCTGATACCCGCCGTTGCTGGCCTCTTCTTTCCCGGAACGCTGATCTGGGGACAACCGACTGTGTTCACCGCCCTGGCGGCGGCAGCAGCACTGGCCGTCATCGCCGCCGGGGAGCTCCTGATGCACCGCAACCACGGAGCCCTATCCGCACCGAGGACGTGGCCGCGGCAGCCGGTGAGCCCGGCGCTGCTGTCCACCGCCATCGTGACCCTCACCCTTCTCACCGCCGTGGCCGCGGTTACGGCCGCCGGTGAGGCGATGCTGGCCGCACCGCCAAGCTGGACCACAACGGCACTGGCCACGGCCGCCGTCGTGATCCTTTCGGCACTCCCCCTTGCCGCCGCCCGGAAACGGCGCGGCATCGCGGCGGTTGTCCCCGGCCTGGACGCGGCGCTGCGCGCGATCACGGTGCACAGGGTGGTCCGCACCCTGGCAGCCTGCTTCGCGGTCCAGGCCGGCGTGCTGCTCATCACGGCCAGCCGGGCGTGGCCTCCGGTCCTTGGACTGCCGGAGGCTGCGTGGCCGTCCTTCTGGCAGCCCCCTGTCACCGTGGGTTCGCTGGTGGTGGCAGCAGGAGTGGTCATCGCGGTGATTCCGGTCAGAGGCTTTGCGCGCACTGCCTCCCCGCGACAGCCCCAAGCGGATCCGGCAAACCAAGCCGAAGCGCTGAAATGA	MPGTNGFELAFQNVAPMVLLWPFLLAAGLYVLLRWVISAPDGGTSRVTVAQHALWVGVIGWLGSSLQPASNAGILPENPGTAALASPGAILTALAWPILGCLGVHAIGQLSYPGPRRPRRLATLGVRRVRDFLPRPLAWTVAAIFVAAAVQIAWTATLPGFTRVPYNTLNVNPQDAVQAGGDGRIPGVELAAYLGAGLMVLAIGTGLVLMLIAKRRQLEALDADENDLLRTIAMNRLLRTVATIAAGLAAIAGNFAARPDALVPSNGWFNPMGLVSLAVLLAMWWWAPPKLASAQVGRKGSAHPTSAAGTQPATRLSVSLGAALGLAPLIPAVAGLFFPGTLIWGQPTVFTALAAAAALAVIAAGELLMHRNHGALSAPRTWPRQPVSPALLSTAIVTLTLLTAVAAVTAAGEAMLAAPPSWTTTALATAAVVILSALPLAAARKRRGIAAVVPGLDAALRAITVHRVVRTLAACFAVQAGVLLITASRAWPPVLGLPEAAWPSFWQPPVTVGSLVVAAGVVIAVIPVRGFARTASPRQPQADPANQAEALK				NA	NA	NA	NA	NA
D1-29_03512	387			hypothetical protein	ATGAACGCCGGGATCTCCATCGATTTAAGGTCAGCGACGCCGCCGTACGAGCAAATCCGTTCACAGATTGCCTCTTTGATAGCCATCGGCTCCCTCAGCCCCGGCAGCCGCCTGCCCACCGTCCGCAGCCTCGCGGCCGATCTGGGCATCGCCGCCGGCACGGTGGCCCGGGCCTATAAGGAGCTGGAGGCGTCAGGCCTTATTGAATCCCGACGCCGGTTGGGTACCGTGGTTGCGCCTGGCATCCGGGGAGGGGCCGGCGGCGCGGAAGCCGTTCCCGAATCGGTGACTGCCGCCGTCGGCCTCCTGGTCAACACCGGCCGCGATGCAGGGTTGAGTGATGAACTCCTGCTTGACCTGGTGCGTGGGAAACTCAGAAATGGCTGA	MNAGISIDLRSATPPYEQIRSQIASLIAIGSLSPGSRLPTVRSLAADLGIAAGTVARAYKELEASGLIESRRRLGTVVAPGIRGGAGGAEAVPESVTAAVGLLVNTGRDAGLSDELLLDLVRGKLRNG	PGPT0016790_1400	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0016790-mocR-K00375	NA	NA
D1-29_03513	762	thyA	COG0207	Thymidylate synthase	ATGGCCCATGGCACGCACAAATCCGACCGCACCGGGACCGGCACTACCAGTGTGTTTGGCCGGCAGATCCGGTTTGACCTGTCCAAAAGCTTCCCGCTGATCACTACCAAGCGCGTTCATTTCAAGTCCGTGGCGGTGGAGCTGCTGTGGTTCCTGCGCGGCGAATCGAACGTGAAATGGATGCAGGACCAGGGCGTTACCATCTGGAATGAATGGGCAGATGCCGACGGCGAGCTGGGTCCGGTTTACGGTGTGCAGTGGCGGAGCTGGCCCACCCCGGACGGTGGCCACATCGACCAAATCGCCGAGCTGGTGGAGAACCTCAGATCCAACCCGGACTCGCGGCGGCATATTGTCTCGGCCTGGAATGTCTCCGAACTCAAGGACATGGCGCTGCCGCCGTGCCACGCGTTCTTCCAGTTCTATGTGGCCAACGGCAAACTCTCCTGCCAGCTTTACCAGCGGTCCGCGGACATGTTCCTGGGCGTACCGTTCAATATCGCCTCGTACGCCCTGCTCACGTGCATGATCGCCCAGCAGGTGGGGCTGGAGCCCGGAGAGTTTGTCTGGACCGGCGGCGATGTACACATCTACGAGAACCACATGGACCAGGTCCTCAAGCAGCTGGACCGGGAGCCGTACGAGTACCCGCAGCTGGTGATCACCCGGAAGCCGGCCTCCATCTTCGACTACACCCTCGAGGACTTCGACGTGGTGGGCTACCAGCACCACCCCACTATTAAGGCTCCGATCGCCGTATGA	MAHGTHKSDRTGTGTTSVFGRQIRFDLSKSFPLITTKRVHFKSVAVELLWFLRGESNVKWMQDQGVTIWNEWADADGELGPVYGVQWRSWPTPDGGHIDQIAELVENLRSNPDSRRHIVSAWNVSELKDMALPPCHAFFQFYVANGKLSCQLYQRSADMFLGVPFNIASYALLTCMIAQQVGLEPGEFVWTGGDVHIYENHMDQVLKQLDREPYEYPQLVITRKPASIFDYTLEDFDVVGYQHHPTIKAPIAV	PGPT0008145_2697	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
D1-29_03514	585	folA	COG0262	Dihydrofolate reductase	ATGAGCACCGAAAATTCCGCAGACCCCCAAGACTTCACCCAGGAGATCGCTGACTCCGTCACCGGAGTGGGCCTGGTGTGGGCGCAAACTGCCGACGGCGTCATTGGCAAGGGCGGCGACATGCCGTGGCACCTGCCCGAGGACCTCAAACACTTCAACCGGCTGACCATGGGCCATCCCGTGATCATGGGCCGCAAGACCTGGCTGTCCTTTCAGGACAAGTACCGTCCCCTCCCCGGCCGGACCAACATCGTCATCACCCGGCAGAAAAGCTGGGCGGACTCGCCCGAGGCGGAGGGCGCCGTCGTGGTTCCGTCCTTGGATGACGCGCTGCTGGAATCCCAGTTCGTCGACGGCGGCGAGACGGTATGGATCCTGGGCGGCGGTGAGGTCTTCCGGCAGTCCACGGACCTCGCCAACGTTGCGGTGGTCACCACCATCGATGTGGAAGCCGACGGCGACACCTTCGCTCCCGAGCTGGGCGCCACCTGGGAGGCGGCCGCGGCTGTTCCGCCCGATGGCTGGCTGACGGCGGCCAACGGGACACGCTACCGATTCACCAAATGGGTACGGACAGAGGGCTGA	MSTENSADPQDFTQEIADSVTGVGLVWAQTADGVIGKGGDMPWHLPEDLKHFNRLTMGHPVIMGRKTWLSFQDKYRPLPGRTNIVITRQKSWADSPEAEGAVVVPSLDDALLESQFVDGGETVWILGGGEVFRQSTDLANVAVVTTIDVEADGDTFAPELGATWEAAAAVPPDGWLTAANGTRYRFTKWVRTEG	PGPT0007945_385	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287	NA	NA
D1-29_03515	219			hypothetical protein	GTGCTGAAAAAACCCGAAACCCTGTTTGTACTGGGCTACATGCTGCTGCCGCTCCTGGCCCTGCTGTCCGCCATCGTTGGCCTGACCATGATCCTGGGCGGCAACAAGATCCCCGGGATCATCGTGCTGGTGGTGGTCACCCAGGTCTTTGCCTTCGGCGCTTTCTTTGCCCTCCGGGCCCGCAAGAATGCGGTGCCGGAGGAAACCGGCCGGCGCTAG	MLKKPETLFVLGYMLLPLLALLSAIVGLTMILGGNKIPGIIVLVVVTQVFAFGAFFALRARKNAVPEETGRR				NA	NA	NA	NA	NA
D1-29_03516	1008			hypothetical protein	GTGGCAGGTAATTTGTGGGGCGCGGACGTCGCCCAGCTGCGCACGCTGGCACAGCAGTTCGGAACGGCATCCGAAAGCCTGATGCAGCAGTCGTCGTCGCTCACCGGTGTGATCAACAATGGCAGCGGGTCCTGGAAGGGTGCCGACAGTGAACGCTTCAGGTCCGAGTGGAATGGAAGCCACCGGGCACTGATCCAGCAGACGGCCCATGCGCTGAAGCAGGAATCCAAGAGACTGCTGGCGAACGCCGACGAACAGGAGAAGGCCAGCAATGCTGCGCCCGGCTCAGGCGGCGGAGGGCCTTTTGGCGGCCGCGGCCATGCAGGCCGTCCGGCCAACCCGTTCAGTCCTTGGGGCCCAGATTGGATCTCGGACGGAGATTCTCCTTTCCGCACGGGCTGGGACGCCTATAACGGCGTCCTCGGCCTGAAAACAGTTCCCTTGGGGATCCGGGATTTCCAGCAGTTCCTCGCGCGGCACGGCAGGGAAGTCGATGCTTTGCTCGCAGCCGGGCACGACTGGGCCGCAGTGAAGCGGACCTTCAATAAGGACCTCTGGGAAGCAGCGGCACGTTCAGACAGTTTGCGCGGTGCATTCTCCGGGACGGCGGACCTGCTGAGCGGCAAATTCGGTGACTTCGCCGAGATGGCCCGTGGTGCCGGGGCAGCTGACCTTGGTCCCTGGGCAAAGTTTGGCCTGAACTCGGCCGGGCATGCCATTGGCGGAATAAGTGTTGGCCTGGATGGCCTGGACACGGTCAACGCAATCCGAGACGGCGAAACCGGGGATGCCCTGAAGTCGGGCCTCAAAACTGCACTCGGTGTTGGGTCCTTCTTCCCGCCGCCCGTTGGTGTCACCTGCATGGTGATTGGCGGCGCATGGGCGGCCGTCGAACTGATCCCGGGAGCTAAGGATTCCATTGATAATGCCTTTGACGCCATCGGTGACTTCACCGAAGATGCCACAGAAAATATCGGCGAGGGCGTCAAGGACTTCTTCGGTTTCTAG	MAGNLWGADVAQLRTLAQQFGTASESLMQQSSSLTGVINNGSGSWKGADSERFRSEWNGSHRALIQQTAHALKQESKRLLANADEQEKASNAAPGSGGGGPFGGRGHAGRPANPFSPWGPDWISDGDSPFRTGWDAYNGVLGLKTVPLGIRDFQQFLARHGREVDALLAAGHDWAAVKRTFNKDLWEAAARSDSLRGAFSGTADLLSGKFGDFAEMARGAGAADLGPWAKFGLNSAGHAIGGISVGLDGLDTVNAIRDGETGDALKSGLKTALGVGSFFPPPVGVTCMVIGGAWAAVELIPGAKDSIDNAFDAIGDFTEDATENIGEGVKDFFGF				NA	NA	NA	NA	NA
D1-29_03517	651			hypothetical protein	ATGACTGCGACAAAGACCCCGGCAGACACGTCTGTAGGATTTGGCCTGGCCGAAATGGCCTACCTAGTGCATCTGCAGGCGACGCCGGGATCCCAGGCCAGCGCTTCGTGGCTACGGCTCACCGAGGAATCTGAAAACCAGGAACTGATCGGCGCCGGCCTTTCCTCGCTCATCGCCCGAGGCCTGGCCACCGTCAATGGTTCAGATGTGGACTTCGATATGCGTGTCGATGTTGTCGCCTACACACTTGCCAACGCCCTCAGATGGACACAATTGGATCTGCTTCTGAATGCCGAACAAGGCGATTCGGTCCTGCATGCCGAGTCGGACCGGACAACGCTGATATTCCAGCCGAGAACCATGATGAGTTGGTTCGCCCTTCCCCAGGACCCAAACATCTCAGCAGCAGCCGCTGAGGCCTTCATCGTCCGGGAACATTTGGGCCAGAACACGGAAGGTGGCGTCAGGATAAGGTCCGGATTGCGCCCCGGTGCCCGGCAGTTACTCATCCGCAAAGACAATGAAGGGTGGGTCCACGCCGTAGCCGTGAATGACGTGGTGGGAGCTGAAACGTTGGCGGAGACCAACGACGACCTGGTTGCCGCGCTGAGTACGTTCAGGTCCGAAGGTGGATCTGCTGATGGCATCTGA	MTATKTPADTSVGFGLAEMAYLVHLQATPGSQASASWLRLTEESENQELIGAGLSSLIARGLATVNGSDVDFDMRVDVVAYTLANALRWTQLDLLLNAEQGDSVLHAESDRTTLIFQPRTMMSWFALPQDPNISAAAAEAFIVREHLGQNTEGGVRIRSGLRPGARQLLIRKDNEGWVHAVAVNDVVGAETLAETNDDLVAALSTFRSEGGSADGI				NA	NA	NA	NA	NA
D1-29_03518	492			hypothetical protein	ATGGCATCTGAGCCATCGGTGGAAAGCCTCATTGCCGACCGCCCCTACTACTACGCCACCGGGATGGACAGAACCGTCTACGCCTATACCCGGGACGAATGGGGCATTGGTGGATCGCAGCCGTCCGGCAATTACTCGGTCCACAGCGCAACAGGCCTGTACATCGTCACGATCCTGATGACCATCCCCGCCATATTTGCGCCCCTGCTTTTGATCGTCGCCGTAGCCAGCCTCAACCTCATTGTTGGCCTGCTCGCGCTGGTTTGCACCGCGCTCTTTACAGGGGGCTGGCTGTTCGGCATCCATAACCTCCGGAGGGAGCGGCAAGCGTCGAAGCTGCGCCGCCTCAGAGGGTTGCCGAAGCCCCGCTTCGCTCTCGACGACGACAAGGCCCGCAGCTGGTTCGAGGCCAACCCGTCCGGGATTCCGATCACCCGCGAAAACTTCCCGGACAGCACGCGGCCATTCCCCGGCGAATCCCACCCAGGCTGA	MASEPSVESLIADRPYYYATGMDRTVYAYTRDEWGIGGSQPSGNYSVHSATGLYIVTILMTIPAIFAPLLLIVAVASLNLIVGLLALVCTALFTGGWLFGIHNLRRERQASKLRRLRGLPKPRFALDDDKARSWFEANPSGIPITRENFPDSTRPFPGESHPG				NA	NA	NA	NA	NA
D1-29_03519	405			hypothetical protein	ATGGTTTACGACGCTGCCCGCTTCCAGCGGGATGATGAGACGACGGCGTGGCACCAGGCCACCGTCGCGGCCGGTGACAAGCGCAACCTGATGCGCACCAAGAAGGGTGAGCTTTACAGCTACGCCGCCGACGAAATCGGATTTGCAAGGGGATCCGGCGTGCAATTCACCACGTGGTGGGGCATGCTGATCGGCGCCTCGATGATGCTGGGCATTGGTTTGATCGTCACCTGGGGTGTGCTGATCCTGCCCGCCGTTCGGGGAGGCGAGCCCTATTGGGGTGGACTGTTCCTTGTTCTTTTTTCTGCCGGCGGGTGTTGGCTTTTTCTCCACTATGCGGTGGCCGAGTACAAGGCCCGTCAGCTGCGCCGGGCCAGAGGCGTTCCCGAGCCAGGTTCCAGATGA	MVYDAARFQRDDETTAWHQATVAAGDKRNLMRTKKGELYSYAADEIGFARGSGVQFTTWWGMLIGASMMLGIGLIVTWGVLILPAVRGGEPYWGGLFLVLFSAGGCWLFLHYAVAEYKARQLRRARGVPEPGSR				NA	NA	NA	NA	NA
D1-29_03520	1131	asd	COG0136	Aspartate-semialdehyde dehydrogenase	ATGACTACAGCAGCTACTCCGTCCGTTGGACTGGTCGGTTGGCGTGGCATGGTCGGTTCCGTCCTGATGCAGCGTATGCAGGACGAAGGCGACTTCGCCAACATCAACCCGGTATTTTTCTCCACCTCAAACGCGGGAGGTGCCGCCCCCGTTTTTGCTGACGGGGCAGGCAAGCTCGAGGACGCGTTCGACGTCGAGACGCTGGCGAAGCTGCCGATTATTGTTACCGCCCAGGGCGGGGATTACACCAAGCGTGTCCACACCGAACTGCGCAGCCGGGGCTGGGATGGCCTCTGGATCGACGCCGCCTCCACCCTGCGCATGACCGATGACTCCATCATTGTGCTGGACCCGATCAACCGGGATGTCATCGACAAGGGCCTGGTCAACGGCACCAAGGACTTCATCGGCGGGAACTGCACCGTGTCCTGCATGCTGATGGGCCTGGGCGGGCTCTTCAAGAACAACCTTGTCGAGTGGGGCACGTCCATGACCTACCAGGCTGCCTCCGGCGGCGGCGCGCGGCACATGCGCGAGCTGCTCAGCCAGTTCGGGACTCTGAACGCAGAGGTCAGCAGTGAACTGGACGATCCGGCGTCGGCCATCCTGGACATCGACCGCAAGGTCCTGGCCCACCAGCGCACGGGCATCGACGCCAGCCAGTTCGGTGTGCCACTGGCCGGATCCCTGATCCCCTGGATCGACGCGGACCTCGGCAACGGGCAGTCCAAGGAAGAGTGGAAGGCCGGGGTGGAGACCAACAAGATCCTGGGCACCACGGATGAAAACCGGGTCATCATGGACGGACTCTGCATCCGGATCGGTGCCATGCGCTCCCACTCCCAAGCTCTTACCCTCAAGCTCCGCGAGGACCTTTCCGTGGCCGAGATCGAGAAGATCGTGGCCGAGGACAACGAGTGGGCCAAGGTCATTCCGAACTCCAAGGAAGCCTCGATGACGGGCCTGACTCCGGTTGCCGCCTCCGGCACGCTGGACATCCCGGTGGGCCGCATCCGCAAGCTTGAAATGGGCCCGGAGTACATCAGCGCCTTCACCGTAGGCGACCAGCTGCTGTGGGGCGCCGCCGAGCCGCTGCGCCGCATGCTCAACATCGCCACGGGTACGCTCTAG	MTTAATPSVGLVGWRGMVGSVLMQRMQDEGDFANINPVFFSTSNAGGAAPVFADGAGKLEDAFDVETLAKLPIIVTAQGGDYTKRVHTELRSRGWDGLWIDAASTLRMTDDSIIVLDPINRDVIDKGLVNGTKDFIGGNCTVSCMLMGLGGLFKNNLVEWGTSMTYQAASGGGARHMRELLSQFGTLNAEVSSELDDPASAILDIDRKVLAHQRTGIDASQFGVPLAGSLIPWIDADLGNGQSKEEWKAGVETNKILGTTDENRVIMDGLCIRIGAMRSHSQALTLKLREDLSVAEIEKIVAEDNEWAKVIPNSKEASMTGLTPVAASGTLDIPVGRIRKLEMGPEYISAFTVGDQLLWGAAEPLRRMLNIATGTL	PGPT0014045_300	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
D1-29_03521	963			hypothetical protein	ATGAACTCTGACAAGATACTTGACCTGGTGGATGCCCGCTGGCCCGCTTTTCGCGTTGCCTCGACACGGCAGTTGGCCACGGCAGGTTTAGAGGAACGGGTGTTGACGGCGGCAGTCCGGAGTGGGGTGCTTCTGAGGCTCAGGCGCGGCGCCTACGTGAGGGCCGGGCATTGGGCTGAAAGCAAGCCGTGGACACGGGATGTGCTGCGCATCCAGGCGCACTACGAATCAACCGGCGGCCTCTCGCGCTACAGTCATGTGAGTGCCGCAAGACTGTACGGGTGTCAGGTATGGGGCGTGGGTCCCCAGGTTCACGTCACCACTGGGCACGCGAACTCGTCCAAAAGCGCCGGGAGCGACGTCAGGACGCACAGGATGGAATTCGACGTCGGGGACCTCGCCTCGTTGCGGACCGGGGACGGCCGTTTGTTCAAGGTGACCAGTCTTGAGAGGACTGTCGTGGACTGCGCCCGGATCCTCACGCTGGAACAGGCAGCAGTGATCGGAGACCATGCGCTGAGAAAAGGCGCCGGCCTCGACAGCATGCGCGAACTCCTGGCCCAAAGCCCAGTGAAGCGGGGCGGACGGCGTGCGCTCAACCTGCTTGACGCCTTGGACGGGCGGTCTGAATCAGCGGGGGAAACCAGGACCCGGCTGCTGCTTCACTCCCTGGGGATGCACAGCTTCGTCCCGCAGGTGGAGATTGCCACAGGGAGCGGACTCTTCCGCGCCGATTTTGCGGACGCACTGACCAGAATTGTGATCGAGTTTGATGGCAGGTCCAAGTACTTCGACTACAAACCCACCGACGAAGTGATTCTGGCCGAACGCCAGCGCGAGATTGCGCTGGTGGAGGAGGGCTGGCTGGTCCTCCGGCTTAAATGGCAGGACCTGGACCGTCCGGCTGAGCTGAGGCGGCGGCTGCTCGCCATGGCTCAGCGCTCACGAAGACTGTCCGCCTGA	MNSDKILDLVDARWPAFRVASTRQLATAGLEERVLTAAVRSGVLLRLRRGAYVRAGHWAESKPWTRDVLRIQAHYESTGGLSRYSHVSAARLYGCQVWGVGPQVHVTTGHANSSKSAGSDVRTHRMEFDVGDLASLRTGDGRLFKVTSLERTVVDCARILTLEQAAVIGDHALRKGAGLDSMRELLAQSPVKRGGRRALNLLDALDGRSESAGETRTRLLLHSLGMHSFVPQVEIATGSGLFRADFADALTRIVIEFDGRSKYFDYKPTDEVILAERQREIALVEEGWLVLRLKWQDLDRPAELRRRLLAMAQRSRRLSA				NA	NA	NA	NA	NA
D1-29_03522	1107			hypothetical protein	ATGGGGATGACGGCAGGAAACAGGATTACGCCCAAGATCATGGGAAGGCTGCGGCTGGCCTCGCAGGGATTGCAGGGCGAAGGATTCGGCTCGGTTGCTGAGGCCGTTCGCTGGATGACGGCAAGCCAGGCACAGGACCTGCAGGCGGCCATGTGGGCCGTGGGAGTGAGGGTCCCCGGCGCCGGGCTGACGGATGTAAGGGCGGCGATTGATGGCGGCAGCGTGGTCCGGTCCTGGCCCATGCGCGGAACCCTGCATTTTGTGGCTCCCGAGGATCTGCGGTGGATGCTGGAAGTCACTGCCGACCGTCTCAACAAGAGCATCTCAGCACGGCATCGGGAACTGGACATCACTCGCGCGGACATCGAGAAATGCCGCGACATAGCCTTGGAGCGTATTGCCGGCGGCGGACCCGTCAGCCGGAACGAGCTGTTCGCGGTGTTTGATGCAGCCGGGCAGCCCACTAAGGGGCAGCGGGGAGTCCATATTTTGGGAACCCTTTGCCGCCACGCATGGCTGGTGCAGGGGCCGCTTGCAGGCAATCAGCAGTTGCTGGTGGCCTTCGACGACTGGATCCCGGTTTCGCGGAGCCTGGAGCGGCAGGAGGCCATCGCTGAGTTCATGCTGAGATACTTCACCAGCCACGGCCCGGCCACGTTGCGCGATTTCTCCTGGTGGACACAGATTCCCCTGACGGAGGTCCGGGCCGTGTTTGAGGCAGTCCGTGGGAGCCTGCTGGAGCTGGAATACGGCGGCACCAGCTGTTGGCTCTCGCCGGAGACCGCGTCGTTGCTCGACGCCGGTGTTCCCGGCCAGCGCTCGGTGCTGCTCCTTCCGGGCTTTGATGAGTTCCTGCTTGGCTACCAGGACCGGAGCCTGGTCCTGGCTCCTGAGCACGCCGGCAAGATCGTCCCGGGAGGCAACGGTGTCTTCAAAAAGACCGTCGTCGCAGGGGGAGAGGTGGTTGGCACGTGGGCGCGTGAGGGCAAAGGGGCGACCGGCGCCGTCGTGCCCGAACTGTTCGACGAGACCAAACCACTCGGCTCCGGGGCGCAGGCCGCCTTAGCCGAGGCATCGGAGAGGTACCTGTCGTTCCTAGCGAGCTGA	MGMTAGNRITPKIMGRLRLASQGLQGEGFGSVAEAVRWMTASQAQDLQAAMWAVGVRVPGAGLTDVRAAIDGGSVVRSWPMRGTLHFVAPEDLRWMLEVTADRLNKSISARHRELDITRADIEKCRDIALERIAGGGPVSRNELFAVFDAAGQPTKGQRGVHILGTLCRHAWLVQGPLAGNQQLLVAFDDWIPVSRSLERQEAIAEFMLRYFTSHGPATLRDFSWWTQIPLTEVRAVFEAVRGSLLELEYGGTSCWLSPETASLLDAGVPGQRSVLLLPGFDEFLLGYQDRSLVLAPEHAGKIVPGGNGVFKKTVVAGGEVVGTWAREGKGATGAVVPELFDETKPLGSGAQAALAEASERYLSFLAS				NA	NA	NA	NA	NA
D1-29_03523	477			hypothetical protein	TTGTTCGCGCGCGAAACAAAACTGTGGATGACGGGCGGATCGGTGTCGGTCCTGGCGGGTGTAGTGCTGGGACTGCTCGCCATACCTGCCTTCCAGGCATCGCGAACACCCGAACTCGGTCTGCAGCTCCCGTCCCTGGTGCTGAGCCTCGGCGGAGGGTACGCCGTGGTGTTTCCCGGCCTCAGGGTGGCCCGCACCAAGGTCAGCATCTACCGCGGCTGGCGGCAGCACCCAGCCAGCGCCAAAGCCCTCTGGATTCTTTCCTACGCCGTGGGCATCATCGGCCTGGTGACCTGCATCCTGGCAGGCGGGATCAGTCCGTCCCTGCCCGGGCTCCTGGTATGGGTCTTTATGGGTCCGTACCTCGCGCTCTCCGGCTGGGCCTCGGCTTTGCTCGGAATGGCGGCGAACGTCCGGCTCATGACTGGCACCGTGGACGCAGGGGATCCAGCTCCCGCTAGAGGTCCAGCCCAATAA	MFARETKLWMTGGSVSVLAGVVLGLLAIPAFQASRTPELGLQLPSLVLSLGGGYAVVFPGLRVARTKVSIYRGWRQHPASAKALWILSYAVGIIGLVTCILAGGISPSLPGLLVWVFMGPYLALSGWASALLGMAANVRLMTGTVDAGDPAPARGPAQ				NA	NA	NA	NA	NA
D1-29_03524	1068	murB	COG0812	UDP-N-acetylenolpyruvoylglucosamine reductase	GTGACCCAGACACTGCTTTCAGAATTGACCACCGCTGCCGTCGGAGGCCCGGCAGGCAAGTTCATCGAGGCCAGGACCGAGGCTGAGATCATCGAAGCTGTCAGCTCGGCTGATGAACAGGGCGAGCAGCTGCTGCTCATCGGCGGCGGCTCCAACCTCCTGATTTCCGACGACGGATTCCCCGGGACGGTCCTTAGGATCGCTTCCGAGGGGTTCACCGTCAATGCCGAGGACTCCTGCGGCGGGGTCTCCGTGGTGGTCCAGGCAGGACACAACTGGGACGCCCTGGTGGAGCATGCGGTGCTTCACGCCTGGTCAGGCATTGAGGCACTTTCGGGGATTCCTGGTGCCAGTGGCGCCACGCCCGTCCAGAACGTGGGCGCCTATGGCTCTGATGTTTCCCAGACCATCGCCGCGGTGCGGACCTGGGACCGGACCAAGAATGCCGTCCGGACGTTCACCAACTCGGAACTGAAGTTCGGCTACCGGGATTCCATCCTGAAGCAGACTACCGTGAACGGTTCGCCCCGTTACGTGGTGCTTACTGTGGAGTTCCAACTACCCCTCGGACGGATGAGCGCCCCCATCCGCTATGCCGAGCTGGCCCGCTCCCTGGGTGTGGAGCCCGGAAAACGGGCCTATTCCAACGACGTCCGCCGCGAGGTGCTGCGGCTGCGGGCGTCCAAGGGAATGGTGCTGGACCCCGCGGACCGGGACACCTACTCCACCGGTTCGTTTTTCACCAACCCCGTCGTTCCTGCGGCCGAGACTGCCGTCCTCCCGGATTCTGCCCCGCAGTACCCCGCGGGCCGTGACGGCCTGGTGAAGCTGTCCGCGGCCTGGCTGATTGATCAGGCAGGCTTCGGCAAGGGGTATGGCTTGGAGGAAGGAAGCGTCTCCGGCGGCCGGGCGTCGCTCTCCACCAAGCACACACTGGCCATCACCAACCGTGGCTCGGCGCAAGCCAAAGATATGGTGGCCATCGCGCGCGAGGTGCGTGCCGGCGTCGTAGAACGTTTTGGCATCGAACTGCATCCGGAACCGCTGCTTATTGGGCTGGACCTCTAG	MTQTLLSELTTAAVGGPAGKFIEARTEAEIIEAVSSADEQGEQLLLIGGGSNLLISDDGFPGTVLRIASEGFTVNAEDSCGGVSVVVQAGHNWDALVEHAVLHAWSGIEALSGIPGASGATPVQNVGAYGSDVSQTIAAVRTWDRTKNAVRTFTNSELKFGYRDSILKQTTVNGSPRYVVLTVEFQLPLGRMSAPIRYAELARSLGVEPGKRAYSNDVRREVLRLRASKGMVLDPADRDTYSTGSFFTNPVVPAAETAVLPDSAPQYPAGRDGLVKLSAAWLIDQAGFGKGYGLEEGSVSGGRASLSTKHTLAITNRGSAQAKDMVAIAREVRAGVVERFGIELHPEPLLIGLDL	PGPT0024115_653	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075	NA	NA
D1-29_03525	438			hypothetical protein	ATGAGCCCCAGTTTCCACGAACTCAGTGCCGGCCAGGAGATCGGCAACCGCACCATCGAAGTCACCCGCACTGACCTGGTCAAGTACGCTGGTGCCTCCGGCGACTTCAACCCCATCCACTGGAACGAGGCCTTCGCCACCAGCGTGGGACTCCCCGGCGTCATCGCCCATGGCATGTTCACCATGGGGGCGGCCGTGCAGTTGGTGACCGACTGGGCAGGGGACCCTGCCGCCGTCGTCGATTTCCAGACGCGTTTCACCAAACCGGTCCCGGTAGCGGACACAACCGGCGCGGCGGAGCCGGGGGCCACTATTGAGGTCAGCGGCGCCATTGGAAAGCTCGACGCCGATGCCGGCACCGCCCGCGTGGACCTCACCGTGGTCTCTGCCGGCCAGAAAGTGCTGATGAAGGCCCAGGCCATCGTGAGGCTGAGCTGA	MSPSFHELSAGQEIGNRTIEVTRTDLVKYAGASGDFNPIHWNEAFATSVGLPGVIAHGMFTMGAAVQLVTDWAGDPAAVVDFQTRFTKPVPVADTTGAAEPGATIEVSGAIGKLDADAGTARVDLTVVSAGQKVLMKAQAIVRLS				NA	NA	NA	NA	NA
D1-29_03526	468			hypothetical protein	ATGACTATCAATCCGGACCTGCAGGGCCGCAGCTACCCTGCCGCAGAGGTATACGACGTCGGCCGCGAGAAAATCCGCGAGTTCGCACGCGCGGTTAAGGCCACCCACCCAGCCCACTTTGATGTCGAAGCCGCCAAAGCCCTGGGGCACAGCGACCTGGTGGCTCCGCCGACGTTCGCGATCATCGTCGCCCAGCGCGCCGACGCACAGCTGATCGAGGATCCGGAGTCCGGCATCGACTTTTCCCGTGTGGTCCATGCGGACCAGCGCTTCACACATCACCGCCCTATCCTCGCCGGCGACCGGCTGGTGGCCGAGCTGCACGTTGACGGCGTCCGCGCTATGGGAGGCGGGGCCATGATTACCACCCGCTCGGAGATTTTCGCCCTCACAGCCTCAAACGGTGACGCCCGCGAGAGCGTTGCTACTGCCACATCGTCCATTCTGGTCCGCGGAGAGGGACAGTAA	MTINPDLQGRSYPAAEVYDVGREKIREFARAVKATHPAHFDVEAAKALGHSDLVAPPTFAIIVAQRADAQLIEDPESGIDFSRVVHADQRFTHHRPILAGDRLVAELHVDGVRAMGGGAMITTRSEIFALTASNGDARESVATATSSILVRGEGQ				NA	NA	NA	NA	NA
D1-29_03527	228			hypothetical protein	GTGCTGAAAGAATTCTGGGCCACGTCGCCCACGTCCTACAAAGCCCTGGTGATAACGGCCATTGGCCTCCTCGCCGTCGGACTTATCCTCAACATCGCGGGCAACAGCTCCGAAAACCCTGGGCTGGTGACGGCATCGCTTCCGGTGATAGGGCTGGGCCTGGTCCTGCACCTGGTGGGCGTCGGATACCGCTCGCGTGAAATCCGCAAGACCCTTCGCCGCAAGTAG	MLKEFWATSPTSYKALVITAIGLLAVGLILNIAGNSSENPGLVTASLPVIGLGLVLHLVGVGYRSREIRKTLRRK				NA	NA	NA	NA	NA
D1-29_03528	942			hypothetical protein	GTGACAGATCCCCGCTATCTGGTCCACGGGGTCTTTTGGGATGGGCCCCCCGCTGCTGCCCCCGGGCACGACGGCGGCAGCCCGGTTTTGCGCTTGCAGTCACCCTCCGGGACCATGCAGGCGGTCAGCCTCCAGCCTGGTACGCCGCTCGGGTTCCGGCTGGCGTCCGGCAGCAGGTTCTGCCTCGGGCACCACAAGGTTTTTTCGGCATCGGACCGCCGGCACGTCCTCTGCCCGGCCCAGGCTCCGGCAACCAGGGGAAAGCAATGTGAGCGCTGTTTTGTGCTGGATGATTCCCGGCTTATCCACGATTTCCACCGCGGCGGGCGCGTCCCCGAGGGGCTGCGAACCTACCTGATGCAGCAACACTGGCTGTATGTGGCCACGTTCGCCGGCGGCGCGAGCAAGGTGGGCACTGCGTCCAACCTCCGGAAGTGGAACCGGCTGGCCGAACAGGGAGCCGTGGTGGCCAGGTATGTGGCCAGGGCACAGGACGGCAGTGTGGTGCGGATCCTGGAGGACATGGTCACCAGGGAAACCGGGCTGGCCCAGCAGGTCCGGTCGGCCGCCAAGGCCGAAGCCCTGGCGGAGCCGCTTCCGGCAGCCAGAGTGGACTCGATCAACCAGGGCGCCGCGGCAGGTGTACGGGCGGCGCTGTCGCAGGCCGCCGTCGACGGTTTTGAGGTGGTGGACGAGCTGTGGGTCCGGCCTGCCCAGGCCGCAGTGCTGTGCGGCCCGGCAGCCCGGCACGCGTACCCCCACCCCCTGGACTCCGGGCAGCACGGGTTCCGCGTGGCGGCGCTCTGCGGTCCCCAAGCGCTGGCCTCGCTCCAGGGCACGGACGCCCAGTTTGTGGTCAACCTTGCCCAGCTCAGCGCACGGACGATTGTCCTGGGTGACTTTGCCTCCGAAGTGCCTGCCGTGCAGGAAGCCCTGTTCTAA	MTDPRYLVHGVFWDGPPAAAPGHDGGSPVLRLQSPSGTMQAVSLQPGTPLGFRLASGSRFCLGHHKVFSASDRRHVLCPAQAPATRGKQCERCFVLDDSRLIHDFHRGGRVPEGLRTYLMQQHWLYVATFAGGASKVGTASNLRKWNRLAEQGAVVARYVARAQDGSVVRILEDMVTRETGLAQQVRSAAKAEALAEPLPAARVDSINQGAAAGVRAALSQAAVDGFEVVDELWVRPAQAAVLCGPAARHAYPHPLDSGQHGFRVAALCGPQALASLQGTDAQFVVNLAQLSARTIVLGDFASEVPAVQEALF				NA	NA	NA	NA	NA
D1-29_03529	864	mcl1	COG2301	L-malyl-CoA/beta-methylmalyl-CoA lyase	ATGACGTCTACCACCGCCACCGAGATCTTACGGCCTGAGCGCCACATCCCCGCAGAGATAGCCCGCTCATGGCTTCTGGTTAACGCGATGAAAACAGAGCTTTTTGACCAGTCCGCCGTTTCCCGGGCAGACTCGATCATCCTCGACATCGAAGACGCCGTGGACCCGTCGCAGAAGGACCACGCCCGCGGCAATGTTGTGGATTGGCTTTCTGCCGGCGGCAAGGCCTGGGTCCGGATCAACGACGCCACCAGCCGGTTCTGGGCCGATGACCTCGCCGGACTGCGGGGAACTCCCGGTCTTCTCGGCGTGATGCTCGCCAAGACCGAGTCCGCTGATCAGGTGACCGAGAGCTACCACCGCATGGACGGCAAGACCCCCGTGATTGCCCTGGTGGAATCAGCCGTGGGCATCGAGGAAGCCAACAACATCGCCAAGGCCCAGGGTGCATTCCGTCTCGCCTTCGGCTCCGGTGACTTCCGCCGCGACACCGGCATGGCCGCAACCGCCGAAGCCATGGCATACCCGCGGGCCAAGCTGGTGGTAGCCAGCCGGGTCGGCAACCTGCCGGGACCCATCGACGGCCCCACCGTCGGCACCAACCACCCCATCCTGCGCGAGCAGACCGCCATCACAGTCATGATGGGCATGACCGGCAAGCTCTGCCTGGCGATCGACCAGACGGCAATCATCAACGAGGTCATCAGCCCAACGCCGTCCGACGTTGCCTGGGCCACGGACTTCATGGCCGACTTCGAAGCCAACGGCCGCGTCATCCGCGACGGCTCCGACCTTCCCCGCCTGGGCCGCGCGGAGAAGATCATGAAGCTCGCCGTGGCGTTCGGCGTGCAGCCCGCCCTGTAG	MTSTTATEILRPERHIPAEIARSWLLVNAMKTELFDQSAVSRADSIILDIEDAVDPSQKDHARGNVVDWLSAGGKAWVRINDATSRFWADDLAGLRGTPGLLGVMLAKTESADQVTESYHRMDGKTPVIALVESAVGIEEANNIAKAQGAFRLAFGSGDFRRDTGMAATAEAMAYPRAKLVVASRVGNLPGPIDGPTVGTNHPILREQTAITVMMGMTGKLCLAIDQTAIINEVISPTPSDVAWATDFMADFEANGRVIRDGSDLPRLGRAEKIMKLAVAFGVQPAL	PGPT0019480_2300	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
D1-29_03530	942	ydhF	COG4989	Oxidoreductase YdhF	ATGCAGGAACTCATTTACGGCTGCATGGGCCTGGGCGGCAGCTGGACCGACGAGCCGCACGGTACCGGCCACGTGGAGGAGGCGGATGCCGCCGTCGAAGCCGCGCTGGATGCAGGGATCACGCTGTTCGATCACGCCGACATCTACCGCAGCGGGAAGTCGGAGGCTGTGTTCGGTGAGGTGCTGGCGGCAACGCCGGGCCTGCGCGAACGCATCCGGCTGCAGACCAAATGCGGGATCCGGCTCAATGAGCGTGGGCTCGACACCCACTATGACCTCAGCCGGGAGTCCATCATCGAGCGGGTGGACGGCAGCCTGAAGCGGTTGCGCACCGACTATGTTGATGTGCTCCTGCTGCACCGCCCGGACCCGCTGACGGACCCGGCGGAGGTGGCGTCCGCCGTCGGGCAGTTGCTGGCCGACGGCAAGGTGCGTGCGCTCGGCGTGTCCAACATGTCCGGATCCCAGATCGAGGCGCTGCAGGACCGGCTCGAGGTGCCCGTGGTGGCCAACCAGCTCGAAATGAGCCTGCTGAAGCGGGCCTGGCTGGAGAGCCAGGTGCTGGCGAACCATCAGGAGTCGCTGGATCACGGCTTTCCCGAGGGAACGGTGGAGTACTGCAGCCGGAACGGTGTGACCCTGCAGGCGTATGGCGCGCTGGCCCGCGGGCTCTACACCGGCGGCGGACCGGAAAGCCCGACGGCGGCTGAGACTGCCGCCGCTGGGCTGGTGGCGGAGCTGGCCGGGCGGTACAGCACGTCGGGGGAGGCGGTCCTGCTGGGCTGGCTGATGAAGCATCCTGCCGGGATCGCGCCGGTCATCGGATCGGTCAACCCCGCCAGGATCAGGGCCTGTGCCGATGCCGGCCGGGTGGCTTCGGCCATGACCCGCGCGGAGTGGTACGGGCTGTGGATCGCAGCGCGGGGCAGCAAGCTCCCCTGA	MQELIYGCMGLGGSWTDEPHGTGHVEEADAAVEAALDAGITLFDHADIYRSGKSEAVFGEVLAATPGLRERIRLQTKCGIRLNERGLDTHYDLSRESIIERVDGSLKRLRTDYVDVLLLHRPDPLTDPAEVASAVGQLLADGKVRALGVSNMSGSQIEALQDRLEVPVVANQLEMSLLKRAWLESQVLANHQESLDHGFPEGTVEYCSRNGVTLQAYGALARGLYTGGGPESPTAAETAAAGLVAELAGRYSTSGEAVLLGWLMKHPAGIAPVIGSVNPARIRACADAGRVASAMTRAEWYGLWIAARGSKLP				NA	NA	NA	NA	NA
D1-29_03531	1725	malL_4	COG0366	Oligo-1,6-glucosidase	TTGTCCACCACTGCCACTCTGGCAACCGTGTCCGATTCTGACCGCCTCGCCGACCCGAACTGGTGGCGCCAGGCCTCTGTCTACCAGATCTATCCGCGCAGCTTCGCCGACTCAAACGGCGACGGCCTGGGGGATATCAAAGGCATTACAGCCAAGGTCCCGTACCTGAAATCGCTGGGAATCGACGCCGTCTGGCTGAGCCCGTTCTACCCGTCCGCCCTGGCCGACGGCGGCTACGACGTGGACGATTACCGCGAGGTTGACCCCAAGCTTGGCACCCTCGCCGACTTCGACGAGATGGCCGCTGCACTTCACGCCGCCGGCATCAAACTGATTGCCGACATCGTCCCCAACCATTCCTCGAACAGGCACGAGTGGTTCAAGGAAGCCCTGGCCTCGCCCAAGGGTTCCGCAGCCCGTGACCGCTACATCTTCCGCGACGGAAAGGGCCCGGACGGCGAGTTCCCGCCGTCGGACTGGGACTCCGTCTTCGGCGGTCCTGCCTGGGAGCGCATCACCGAGCCGGACGGCACCCCCGGCCAGTGGTACATGCACATCTTCGCCAAGGAGCAGCCGGACCTGAACTGGGCCAACCGGGAGATCCGGGACGACTTCCTCAAGACCCTGCGCTTTTGGTCGGACCGCGGTGTGGACGGCTTCCGCGTGGACGTGGCCCATGCCCTCACGAAAGACCTCACCGAGCCGCTGCTGTCCAAGGTGGAGCTGACCGCGGCAAACACCGGTACCGACGGGTTCGCCGACGGCTCACACCCGTTCTGGGACCGCGACGACGTCCACGAGATCTACACGGAGTGGCGCGAAGTCTTCAACGAGTACAACCCGCCGCGCACTGCCGTGGCCGAGGCCTGGGTGCACGCAACCCGTCGTCCCCGCTACGCCAGCCCCGCGGGCCTGGGACAGGCCTTCAACTTCGACCTTCTGCAGGCCGACTTTGACGCTGAGGATTTCCGCGAAATCATCACCCGCAACCTGGCCGAGGCTGCCGCCACCGGAGCATCGTCCACGTGGGTCTTCTCCAACCACGACGTCGTCCGGCACGCCACCCGCTACGGCCTGCCCCGGTTCTCCGCGGACAAGGGAGCCAAGGGAAAGCACGCCAAGGGCCAGGACGGGAAGTCATGGCTCCTGGCCGGCGGTCCCCGGGAGGAACTGGACATGGAGCTCGGCGAGCGCCGTGCCCGGGCGGCCACCCTGCTGATGCTCGCGGTCCCGGGATCCGCGTACCTGTACCAGGGTGAGGAACTGGGCCTGCAGGAGGTTGCCGAGATTCCGGAGTCCCAGCGCCAGGACCCTACCTTCTTCCGCAACAAGGGCGTGGACATCGGACGGGACGGCTGCCGTGTTCCGCTGCCGTGGAAGGCTGAAGGAAGCTCCTTCGGCTTTGGCGACGGCGTGGCCCACCTGCCGCAGCCGGCGTGGTTCAGCAAGTACGCTGTCGAGGCGCAGGAAGGCACCCCAGGCTCCACCCTTGAGCTGTACCGTTCCGCGCTGAAGCTGCGCCGCGAACTCCAGGCGGAGGAGCAGCTGGAATGGATCGAGACGGGCAATCCGGAGGTCTTGCACTTCAGCCGCCCTGGCGGCTGGCAGTCCGTCACCAACTTCGGGGACACCGCCGTCGATCTTCCTGCCGGTACCGTGCTGGTGACCAGCGCGCCGCTGGAAGCGGGCAAGCTGGGGGCGAACAGCACCGCATGGCTTCGCTGA	MSTTATLATVSDSDRLADPNWWRQASVYQIYPRSFADSNGDGLGDIKGITAKVPYLKSLGIDAVWLSPFYPSALADGGYDVDDYREVDPKLGTLADFDEMAAALHAAGIKLIADIVPNHSSNRHEWFKEALASPKGSAARDRYIFRDGKGPDGEFPPSDWDSVFGGPAWERITEPDGTPGQWYMHIFAKEQPDLNWANREIRDDFLKTLRFWSDRGVDGFRVDVAHALTKDLTEPLLSKVELTAANTGTDGFADGSHPFWDRDDVHEIYTEWREVFNEYNPPRTAVAEAWVHATRRPRYASPAGLGQAFNFDLLQADFDAEDFREIITRNLAEAAATGASSTWVFSNHDVVRHATRYGLPRFSADKGAKGKHAKGQDGKSWLLAGGPREELDMELGERRARAATLLMLAVPGSAYLYQGEELGLQEVAEIPESQRQDPTFFRNKGVDIGRDGCRVPLPWKAEGSSFGFGDGVAHLPQPAWFSKYAVEAQEGTPGSTLELYRSALKLRRELQAEEQLEWIETGNPEVLHFSRPGGWQSVTNFGDTAVDLPAGTVLVTSAPLEAGKLGANSTAWLR	PGPT0018560_3279	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
D1-29_03532	1167	nanK_2		N-acetylmannosamine kinase	ATGAAGGAAGCTGGCGCCGCTACCCCGCAACTGCTGCGACGGGTCAATGCCAACGCCGTCCTGGCCTTCCTCCGAAGCACGGAGGTGGCCACCGGAACTGACCTGATGGCATCGACCGGACTGACCCGGGCCTCCGTCATAGCCGTGTGTGAGGACCTGCTCCGGCGCGGCTGGATCACCGAAACCGGAGTCTCCCGCGAAGCCTCTTCCCAGAAGGGCCGTCCTGCCCGGCGGTTCGAACTGAACCCGCGGGCCGGCTTTGTCCTGGGAATCGATATCGGCGCCGGCACCACCACCGCTGCCGTGGCCGATTTGCGCGGAACCATTGTGGGGAAAGCGAGCCGGAGCTTCCGCAGCGCCGCGATTCCGGCCGACGAGCGGATCAACGTTGTTGACCAGGCCTGCCGTGCCGCGCTGCAGGATGCCGGCACCACGCCGGGAACAGTGCTGGCCGTGACAGCGGGACTTGCCGCCCCTGTGGACCGCGAAGGCAATGTCCTGGTGACCCAGCATTTCTGGCGGCTGTTCGACGTCGGCCTTCGGTCTGCGCTCAAGGAACTGCACGGGTGGACCGTGCTCCTGGAGAACGACGCCAACCTGGCGGCCCTCGGCGAGCGCTGGCGCGGCTCCGGCGTGGGAGTTGATGACCTGGTGGTCCTCCTCGCCAGCGAGCGGATGGGCGCCGGAATCATCGAATCAGGCCGGCTGCTGCACGGCCACTGCGGAGCCGCCGGCGAAATGGGCTACCTCGACACGGTTGACGGCGTGGGAAGTTCAGCCGGTATTGCACTGCTGGCACGGGAATGGTTCGCGGAGCACCAGGGCACTCCTGCACTGGAGGCGCGGGAGGTCTTCGCGGCCGCCGCGGCCGGCGAAGATGCCGCCCTGGCGGTCCTGGACAGACTCTCGGAACGGCTGGCCCGGATCATCGCCACGGTTGCCATCCTGGTCAACCCGGAACAGGTGGTGATCGGGGGCGCCGTGGCAGAATCGGCCGGGGCGCTGCTCCCCCGGGTCGAAGCCTTGCTGCCGCGCTTCACGGCCACGGTCCCGCGGGTCACGGCGTCGCCCCTGGGGGACTCGATCGTGACCATGGGCGCCGTGCGTTGCGCCCTGGACTACGTGGAGGCCAACGCCCTGGACCTGGAACTCGCGGCGCCTGCCTGA	MKEAGAATPQLLRRVNANAVLAFLRSTEVATGTDLMASTGLTRASVIAVCEDLLRRGWITETGVSREASSQKGRPARRFELNPRAGFVLGIDIGAGTTTAAVADLRGTIVGKASRSFRSAAIPADERINVVDQACRAALQDAGTTPGTVLAVTAGLAAPVDREGNVLVTQHFWRLFDVGLRSALKELHGWTVLLENDANLAALGERWRGSGVGVDDLVVLLASERMGAGIIESGRLLHGHCGAAGEMGYLDTVDGVGSSAGIALLAREWFAEHQGTPALEAREVFAAAAAGEDAALAVLDRLSERLARIIATVAILVNPEQVVIGGAVAESAGALLPRVEALLPRFTATVPRVTASPLGDSIVTMGAVRCALDYVEANALDLELAAPA				NA	NA	NA	NA	NA
D1-29_03533	654	yhfK	COG0702	putative sugar epimerase YhfK	ATGACCCGGATCGCAATCATCGGCGGCCACGGAAAAGTGGCCCTTCTTCTGTCAACCCTCCTCACCGATGAAGGCCACAGCGTGACGTCCTTCATCCGCAACCCGGACCATGCCGCCGATGTGGCGGCAACGGGCGCAACGCCGTCGGTACTGGATGTTGAAAACGCGACGACGGCGGAAATCGCCGAGGCGCTCCGGAACCACGACGCCGTGGTCTGGTCCGCCGGCGCGGGGGGAGGGAACCCCGAACGCACCTATGCCGTGGACCGGGACGCCGCGATCCGCTCGATGGATGCGGCGGCGGAGGCCGGCGTCGGGCGGTACGTCATGGTGTCCTATCTGGGGGCAGGCCCGGACCACGGCGTCCCGGCCGATAACAGCTTCCACCCCTACGCCGAGGCCAAGGCCGCGGCCGATGAGTACCTGCGCGGCACGCAGTTGGCGTGGACCATCCTGGGCCCCGGCTCGCTGACGGATAAGCCGGGGACCGGCCGGATCGACGTCGACCCATCAGGGCGGGGGAGCCGGGAAACCTCCCGTGGCAATACGGCAATCGTGGCGGCGGCAGTGCTGGACCTGCCGGACACCGCGGGCCGGACTATCGAGTTCCGGGACGGAACCCTGCCGGTGGCCGCCGCCCTCCAGCCGAGCTAG	MTRIAIIGGHGKVALLLSTLLTDEGHSVTSFIRNPDHAADVAATGATPSVLDVENATTAEIAEALRNHDAVVWSAGAGGGNPERTYAVDRDAAIRSMDAAAEAGVGRYVMVSYLGAGPDHGVPADNSFHPYAEAKAAADEYLRGTQLAWTILGPGSLTDKPGTGRIDVDPSGRGSRETSRGNTAIVAAAVLDLPDTAGRTIEFRDGTLPVAAALQPS				NA	NA	NA	NA	NA
D1-29_03534	561	yyaP_6	COG0262	putative protein YyaP	ATGGCAATGCTGACCTACACAGGCATCACCTCGCTGGACGGATACACCGCGGACCGCGAGGGCAACTTCAGCTGGAGTGAACCGGACGAAGAGGTCCACGCGTTCGTCAATGAGTTGGAGCGCGAGGTGGGCACCTACCTTCTGGGACGCCGCATGTATGAAGTCATGTCCGTGTGGGACACCCTCGGCAGCAACGGCGACGAGCCGGACGTTATCCAGGACTATGCCCGCATCTGGCAGGCGGCGGACAAGATCGTCTATTCCACCACCCTCGCCAGCGCCTCCACCGCCCGCACCAGGATTGAGCCCGTCTTCAACCCGGACCACATCCGGCAGCTCAAGGAGACCAGCAGCCGCGAGATCGGCGTGGGCGGGGCCAACCTTGCCGCCTCGGCACTGTCCGCCGGGCTCGTTGACGAATGCCGGCTCCTTGTCAGTCCCGTGGTGGTGGGCGGCGGCAAGAAATACCTGCCCGACGGCCTGGCCCTCAGGCTGGAGCTCCTCGAAGAGCGCAGGTTCGGCAACGGCGTGGTCTACCTCCGGTACCGCACCCTCCCGTGA	MAMLTYTGITSLDGYTADREGNFSWSEPDEEVHAFVNELEREVGTYLLGRRMYEVMSVWDTLGSNGDEPDVIQDYARIWQAADKIVYSTTLASASTARTRIEPVFNPDHIRQLKETSSREIGVGGANLAASALSAGLVDECRLLVSPVVVGGGKKYLPDGLALRLELLEERRFGNGVVYLRYRTLP				NA	NA	NA	NA	NA
D1-29_03535	1323			hypothetical protein	ATGGCCATCACCTCGGAAGCACAGCGCACCGCACCGCGCCAAATGTGGAAACTGTTTGTGTACAGCGGAATAGGGGCGTTCATGTTCTTCGTTCCGCTGACGATCGCCGGCAGGAACACCATCATGCTGGACCATATCGTTACCTTCCTGCAGGCGGGCATCGGCCCGGTTCTGCCCTACTACGCACTCGCTGTCATCGTGGCGGGAGCCGTGTATCCGTTCGCCACAGGCAATTGGAAGAAGTCCGCTGTCGAGATCGTTTTCTCGATGCTCAAAGTGGTGGGCATGGTTGTCGGGTTCATGATGGTGTTCCGGGTGGGTCCCGCATGGCTGTTCGAGCCGGGCATGGGGCCTTTCCTCTTCGAGAAGCTCGTCATCCCGGTGGGCCTGCTCGTCCCCATCGGAGCAGTTTTCCTGGCGCTGCTGGTCAGCTACGGCCTCCTGGAGTTCATCGGAGTAATGGTCCAGCGGGTCATGCGCCCCATCTGGCGCACCCCGGGACGCTCCGCGATCGACGCCGTCGCCTCCTTCGTGGGCAGCTATTCCCTTGGCCTGCTCATCACCAACCGGGTCTACAAGGAGGGCAAATACACCGCCCGTGAGTCAGCCATCATCGCCACCGGATTCTCCACCGTATCCGCCACCTTTATGGTTATCGTGGCCAAGACCCTGGACCTGATGGGCCAGTGGACCGCGTATTTCTGGGTCACTTTCCTTGTCACTTTTCTCGTCACAGCCATTACCGTCAGAATCTGGCCGCTCAACAGCATCCCTGACGAATACCACCCTGAGGCCACGCCGCAGCCGGAGGAAGTCGTCACTGGCCGCCGCTTTTCCGTGGCCTGGCGCGAAGCACGTGAGACGGTGGCGTCCGCCCCTTCACTTGCCGTCAATATCTGGACCAACGTCCGGGACGGCGTGCTGATGGCCATGGCCATCCTGCCGTCCATCCTCTCAATCGGTCTGCTGGGCCTTGTACTCGCAACGTATACGCCGGTTTTCGACTGGCTGGGTTACCTCTTTTATCCCTTCACTTGGGCGCTGCAGCTTCCCGAACCCATGCTCGTGGCCAAGGCCAGTGCGGTAGGCATTGCAGAGATGTTCCTGCCGGCACTCCTCGCAGTGGATTCCGTCCCCGTAGTCAAATTTGTGGTCGGCGTCGTGTCTGTCTCCGGCATCATCTTCTTCTCGGCTCTGGTGCCCTGCATCATGGCAACTGACATCCCGATTCCTTTGTGGAAGATGGTGGTCATCTGGTTCCAGCGCGTGGTCCTGACCCTGATCCTGGTGACCCCGATCGCCTTCCTCCTGTTCCCTGCCTAG	MAITSEAQRTAPRQMWKLFVYSGIGAFMFFVPLTIAGRNTIMLDHIVTFLQAGIGPVLPYYALAVIVAGAVYPFATGNWKKSAVEIVFSMLKVVGMVVGFMMVFRVGPAWLFEPGMGPFLFEKLVIPVGLLVPIGAVFLALLVSYGLLEFIGVMVQRVMRPIWRTPGRSAIDAVASFVGSYSLGLLITNRVYKEGKYTARESAIIATGFSTVSATFMVIVAKTLDLMGQWTAYFWVTFLVTFLVTAITVRIWPLNSIPDEYHPEATPQPEEVVTGRRFSVAWREARETVASAPSLAVNIWTNVRDGVLMAMAILPSILSIGLLGLVLATYTPVFDWLGYLFYPFTWALQLPEPMLVAKASAVGIAEMFLPALLAVDSVPVVKFVVGVVSVSGIIFFSALVPCIMATDIPIPLWKMVVIWFQRVVLTLILVTPIAFLLFPA				NA	NA	NA	NA	NA
D1-29_03536	813			hypothetical protein	ATGGGCAGCGAAACTGACAGTTCCCTGCGTTCCCTCCGCATCCTGAGTTACCTTGCCACGCAGGCGACCCCTGTTCCTGCTGCCCGGATCGCCGAGGCCGTAGGCGCCCCCAGATCCTCAACGTTCCGGTTGCTCCGGGGAATGCAGTCGCTGGGATATGTCACCCACATACCGGAGGAGCAGGCATACGCGCTGGGAATCGCCGCCTTGGAGATCGGCCAGGCGTTTGGCATCCAGGCGCCTTTGGCACGGTACGGTCGCCCGGTACTGGAGCGGTTGGTCCTCAAACTCGGCGAAACCGCCCATCTGGCGGTCCTCCACGGTCACGAAACGCTCTACATCCATGAGCAGACCGCCCCCATGCGGGCACCGCTCGTGACCGCCAAGGACGTGCGCCTCCCCGCCCATCTGACGGCGTCCGGGAGGGTGATTCTTGCGGGTCTAAGGGATGAGCAACTGCGGGCTCTCTTCCCGCCGAACTTCGCATTCGTCCGAAGGACCGGCCGGGGACCGGACACGTACGCCGAGCTGATGCGGCAGCTGGACGTTGCACGGCGGCAGGGCTTTGCCCGCGAGTTCAGCGAAGTGACAGAAGGCCTGACTTCCATTGCCAAGCCGGTCCGGGACAGGAGCGGCAGGACTGTTGCCTCCATCGCCGTGACAGTCGCCTACAGTACCCAGGCCCCTGTTGCTCCCCCGGCTAATGCCCTCCCCGCGGCGTCGACCATGCAGGACACCATCCTGGCGGCTCTTGAACGGGCTACGAGGGAACTTAGCCGCAGGCTTGGCTGGGATCCGCAGCAGTCGGGGTGA	MGSETDSSLRSLRILSYLATQATPVPAARIAEAVGAPRSSTFRLLRGMQSLGYVTHIPEEQAYALGIAALEIGQAFGIQAPLARYGRPVLERLVLKLGETAHLAVLHGHETLYIHEQTAPMRAPLVTAKDVRLPAHLTASGRVILAGLRDEQLRALFPPNFAFVRRTGRGPDTYAELMRQLDVARRQGFAREFSEVTEGLTSIAKPVRDRSGRTVASIAVTVAYSTQAPVAPPANALPAASTMQDTILAALERATRELSRRLGWDPQQSG				NA	NA	NA	NA	NA
D1-29_03537	843	yidC_1	COG0706	Membrane protein insertase YidC	GTGGACCTATTTGAAACAATCATGTATCCGTTCAAGTGGCTTGTGTCCGTCATCATGGTCGGTTTTCATGGAGGCCTGAGTTCCATCGGCATGCCTGAAGCGTCCGGCTGGACCTGGACGCTGTCCATCATCGGGCTGGTGCTTGTGATCCGGGCCGCGCTGATTCCGGTTTTCATGAAGCAGATCAACGCCCAGCGCCGGATGCAACTGCTGCAGCCGGACCTGCAGAAGCTCCAGGAAAAGTACAAAGGCAAGACCGACCAGCTCTCCCGCCAGGCCATGGTGCAGGAGCAGATGGCGCTGTACAGGAAACATGGCACCAACCCGTTCTCGGCCTGCCTTCCGATCCTGATCCAGATGCCATTCTTCTTTGCGCTGTTCCAGGTCCTCGCGGGCATCGGCACCAGCGCCAGCGAGGGGCAGGGTATCGGCGCGATGAGCCACGAGCAGGTAGTGCAGTTCGATCAGTCCAGCATCTTCGGCGCCCCGCTCTCCGCGTCCCTGCTCCACCTCGGCGGTGATCCCATCGCGGTCGCGGTGCTGGCCATCCTGATGATCCTTGCCATGTCCGTTGCGCAGTTCATCACCCAGAAGCAGATCATGGCCAGGAACGTCTCCTCGGCGGCGCCGGAAACTGCCCCGGAAAACCCGTTCGTGCGACAGCAGAAGATGATGCTGTACGCCCTCCCGGTGGTGTTCGGCGTGGGCGGCATCATCTTCCCCATCGGAGTGCTGATCTACTGGACCACCACCAACCTCTGGACCATGGTGCAGCAGTTCTTTGTCATGAGAAGGCCGGCGCCAGGTCACGACTCAGCCGAGGGGCGGGGTGGCGGCGCCTAG	MDLFETIMYPFKWLVSVIMVGFHGGLSSIGMPEASGWTWTLSIIGLVLVIRAALIPVFMKQINAQRRMQLLQPDLQKLQEKYKGKTDQLSRQAMVQEQMALYRKHGTNPFSACLPILIQMPFFFALFQVLAGIGTSASEGQGIGAMSHEQVVQFDQSSIFGAPLSASLLHLGGDPIAVAVLAILMILAMSVAQFITQKQIMARNVSSAAPETAPENPFVRQQKMMLYALPVVFGVGGIIFPIGVLIYWTTTNLWTMVQQFFVMRRPAPGHDSAEGRGGGA	PGPT0024530_4851	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
D1-29_03538	210			hypothetical protein	ATGAAGTATGTCGTCCTGCAGGTGATCCTCAAAGAGAAACTGTGGGGAACCGGTTCAGGCAACCTGACCGCCCTGGAGAAGGCCATCAACGATCAGGCCGCGAGGGGCTACCGGCTCCACACCATAACCACCGCGAGCAGCGGGAGCAAGGGAATGATGGGCGGCGGAGACCGCATCCAGGCAACGCTGGTGTTCGAGAGCCTCGTATAA	MKYVVLQVILKEKLWGTGSGNLTALEKAINDQAARGYRLHTITTASSGSKGMMGGGDRIQATLVFESLV				NA	NA	NA	NA	NA
D1-29_03539	339			hypothetical protein	ATGTTCACGAAGAAGGGTGACGCGGCCGTTCTCTCCAAACTCAGCGAAGCCCCCGCCCAGTACAGGGAGATCGGGGAAGGCCTGCATCGCATCATCCGTGAGAGCGCGCCCTCGTTGGAGCCGATCGTCCGCTGGGGACTCCCGTTTTATGTGAAGGACGGCAAGGACGTCTGCTACATCAAACCGGATAAGGACTTCATCGCGTTCGGCTTCGGCGAAGTTGTCAACCCCGCACGTGAAGAGGGCGCCCATATGCACCCGGTCGCGTGGATCATCACCTCGCTGGATGCAGCGACGGAGGCCAGGATTCGCGCGTTGGTCGAGAAAGCAGTTGCCTGA	MFTKKGDAAVLSKLSEAPAQYREIGEGLHRIIRESAPSLEPIVRWGLPFYVKDGKDVCYIKPDKDFIAFGFGEVVNPAREEGAHMHPVAWIITSLDAATEARIRALVEKAVA				NA	NA	NA	NA	NA
D1-29_03540	513			hypothetical protein	ATGACCATCAACTTTGACGTGCGCCGCGCTGAGCCGGCGGACGCACCAGGCATGGCGAGAGTTCACGTGGACACCTGGCGCGAGACCTACCGTGGACTGATGAGCGATGCTGTGCTTGACGATCCCACGCTCCTGAGCTGGCGCCAGAAATTCTGGACCGCGGCCCTGACCGATCCGAAGTACAGCCAGAACACCGTGGCCGTCGCTTCGCACGAAGGGATGCTGATCGGCATTGCAATGTCTGGCCCCTCCCTTGATGGCGCGAAAGAGCCGCGGCAGTTGTATCTCCTTTACGCCTACACGGAGTTCCACGGTTCCGGGGTGGGTGCGGCGCTCCTCAATGCAGTCCTCAACCCCACCGCGCCTGCTGCGCTCTGGGTCGCGGAGCCTAACCCGCGGGCCCAGGCCTTCTACCAAAAGAACGGCTTCGTCACCGACGGGGCGGTGAAAACCGAAGACGGTGTGCTGTCCGTTCGAATGGTCCGAAGACCCCAAGCCGTAAACCACAGCTAA	MTINFDVRRAEPADAPGMARVHVDTWRETYRGLMSDAVLDDPTLLSWRQKFWTAALTDPKYSQNTVAVASHEGMLIGIAMSGPSLDGAKEPRQLYLLYAYTEFHGSGVGAALLNAVLNPTAPAALWVAEPNPRAQAFYQKNGFVTDGAVKTEDGVLSVRMVRRPQAVNHS				NA	NA	NA	NA	NA
D1-29_03541	1230			hypothetical protein	ATGGAGAAACCGAGAGTCAGCACAAATCCCGCACCTCCGGCGGCCACCCCTGGACGCGTTGCAGGACCTGGACGTGTTGCCGGACCCAGCCATGTCACCACAGACCATGCCGCCCCAGGCCATCCCCAGCCCGAGGCTTCGGGGCGAGACCGGTATTTGGACCTGCTGCGGGCGATCGCCCTGGTCCGGATAATGGCTTATCATACCTTCACCGGTGTAGCCTGGCTGACTCTGATCTTCCCTTCCATGGGCGTCATGTTCGCCCTCGCAGGATCCCTCATGGCGCGGTCCCTCGAGCGGCCTGCCTTCGGTGTTCTGAAAAACCGGGCACGCCGCCTGTTGCTGCCTCTGTGGATTTACAGCGCCACAGTTCTGCTGCTGCTGCTCTGGCAGGGCTGGAGTCCAGACCAGGACGAGGGCCGCTCCTGGCCCGAAATCATTTTCTGGTTCATCCCGCTCGGCGACGCGCCGTACCCAGGCAGCAGTGGTTCCGACGAAGGCCTGGATGACACCTTCTGGGCTCACGAGGCCGGAGTCATCCTCTGGTACATCCGCGCCTACTTCTGGTTCATGCTTTTGTCTCCCCTGCTGCTCGCGGCGTTCCGCCGGCTGCCATGGGTTACGCTGGCGGCGCCCCTCGGGATCCTGGTGCCCATCGTCTTCGGTTGGGTGACGCTTCCGGCCTGGGCGGAGAGCGGCGTCAGCGACTTCGCCACCTACGGCTCCTGCTGGGTTCTCGGCTTCGCCCGCTACTCCGGCATGCTGCGCAGGATCCCGCGATGGGTCGTTTTCTCAGCCGGGCCGGCGATGATGGCCCTCGGCCTCCTCTGGGCCGCACCCCACCTTGAGGAGGAGGCCTGGGACCTGAACAACATTTGGGGGGCAAATGGCCTGTATGCCCTCGGCTTCTGCGCGATGCTCCTGCGGATCTCGCCATCCTGGAAGTCGATGCCCCGGCCGATCAGGCTCCTCGACCGGCCAGTCACGCTCATCAACAACAGGGCAGTCACCGTCTACCTCTGGCATACCCTGCTGCTGTCGGCCATGTACGTCATCGTCGACACGCTCTACGCCAACAGCCAGATTGGCGACGCCATACCCTGGCTGCTGGAAAGCGAGTGGACCCTGTTCGCCGGCATCTGGCTGCTCCTTGCCGTCGTGTTCCTCATGATCGGCTGGATCGAGGACGTGGCCGCCAGGCGGGCTCCGCGGCTCTGGCCGGACAAATAG	MEKPRVSTNPAPPAATPGRVAGPGRVAGPSHVTTDHAAPGHPQPEASGRDRYLDLLRAIALVRIMAYHTFTGVAWLTLIFPSMGVMFALAGSLMARSLERPAFGVLKNRARRLLLPLWIYSATVLLLLLWQGWSPDQDEGRSWPEIIFWFIPLGDAPYPGSSGSDEGLDDTFWAHEAGVILWYIRAYFWFMLLSPLLLAAFRRLPWVTLAAPLGILVPIVFGWVTLPAWAESGVSDFATYGSCWVLGFARYSGMLRRIPRWVVFSAGPAMMALGLLWAAPHLEEEAWDLNNIWGANGLYALGFCAMLLRISPSWKSMPRPIRLLDRPVTLINNRAVTVYLWHTLLLSAMYVIVDTLYANSQIGDAIPWLLESEWTLFAGIWLLLAVVFLMIGWIEDVAARRAPRLWPDK	PGPT0026580_485	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026580-exoZ-K16568	NA	NA
D1-29_03542	627			hypothetical protein	ATGAATCGTTTTACCGCCATGTTGCCCGTTATTGCGCTCCTAGCCATTGTCGGGTGCGCGTCGTCGTCTCCGCATTTAGAACCGACCGATATACCGCCGTTGCCCTCGACTACTCCCTCACCCGCGGGTCCGTTCAAACTCACGACAGCGTCCGGAGCAGAAATCGCATTTACACTCCCAACCCCCGCTTCAGATCCTGCAGTGGCTGCGATCGAGGCTTACCGAGTGAAGGCCGGCGGGGCGCCCGTCTCCTACCTCGTGGCCGACGTGGACAACCGAAAGGGAACGTCCGCCATTGACATGTTCATGGTGTCCGCTTTGAACAAGGAAGGCCGCCAGTACACCTTCAGCAGTGTCACGGACGCCCTCGACGTCTGGGCGCCCAGTTATGGATCCGACCTGTTGTGGAAGAACAGTCGTGGCGAGGTCCTGGACGAGGCGACAGGGGATGATCTTGAGCGTGAAGGCGTCGCGCTCAAGAATGCGAACATCAATCAGTCGAACGTAGGCGAGCGGGCGACGATCATTCTCGCCTCCACGGACGCGGAACTTCCCCCGCAGTTCAGGCGCGTAACAGTCCAGCCGTCGGCGACGGGCGAAGAGGAAGAAGCCAAACCGGCCAGTTAA	MNRFTAMLPVIALLAIVGCASSSPHLEPTDIPPLPSTTPSPAGPFKLTTASGAEIAFTLPTPASDPAVAAIEAYRVKAGGAPVSYLVADVDNRKGTSAIDMFMVSALNKEGRQYTFSSVTDALDVWAPSYGSDLLWKNSRGEVLDEATGDDLEREGVALKNANINQSNVGERATIILASTDAELPPQFRRVTVQPSATGEEEEAKPAS				NA	NA	NA	NA	NA
D1-29_03545	591			hypothetical protein	ATGGGATTTCTGGATGACCTGAAGAAGAACCTGGGCTTGGGGGATAAGGAAGCGGAGAGCCAGCCTCAGGCCGTTCCAGAGGCTGAGGCCAATGTCACAGGCACTGCCAACAGCGCTGAAGGGACGGGGGCTGGTCCAGTTGAGACGGCTGCCGAGGCGCCAGCAGAGACGTCGGTGACTGAAACTGTGCCCCAGCAGGACGCTGCAGCCCATGTAGCTGAGCAGCGGCAGGCGGCCGATGAATCAGCTGCCGCCCAGCAGGCAGCCGCGGCCCAGGCCGCTGCTGACGCCGTGGCGAACCGGCAGCCTGACTCCCAGCCCATGGATGTGCCCCCGGTTGCCGAAGCCGTCGTGGAACCGGTGGCCGAACCCGAGTTGGCTGAGCCGGTTCTGGCCGAACCGGTGCTGACTGAGCCTGTTGGCCTGGACGAGGCAACAGGCGTCTCCGAGGTGGTGGTAGAGCCCGGAGATACCCTGCACGGCATCGCCAGGCAGTACGGCGTGGACGTGGATGAGCTGATCGCCGCCAACACGGACACGGTCCCGAATCCGGACCATATCTACCCCGGACAGGTGCTAAGGCTGCCCTAG	MGFLDDLKKNLGLGDKEAESQPQAVPEAEANVTGTANSAEGTGAGPVETAAEAPAETSVTETVPQQDAAAHVAEQRQAADESAAAQQAAAAQAAADAVANRQPDSQPMDVPPVAEAVVEPVAEPELAEPVLAEPVLTEPVGLDEATGVSEVVVEPGDTLHGIARQYGVDVDELIAANTDTVPNPDHIYPGQVLRLP				NA	NA	NA	NA	NA
D1-29_03546	2181	deaD_3		ATP-dependent RNA helicase DeaD	ATGCCCGAAAATCAGAACGACCCTTTCGATACCGAGAACATCGTAATCGACGCCGAGACGGCAGCTCCGGCCGCCGAAGAAGCTCCCGCCGCTGAGGCAGCCCCCGAGGCTCCCGCCGGCGAAGAGACCCCCGCCGCTGAAGAGACTCCCAAATCTGAAGAGGCTGCCAAGGCTGACAACAGCCGCGGCGAGGCAGATACCGAAGCTGAGGGCATCCGCTTTGTGGATCTCGGGATCGACCCCCGCGTCCTCGCCGCCCTGCAGGACGTCGGCTATGAAAAGCCTTCCCCCATCCAGGCAGCAACCATCCCGCTGCTGCTCGAAGGCCGCGATGTCGTGGGTCTTGCCCAGACGGGCACCGGTAAGACTGCAGCATTCGCAGTACCGGCACTGTCCCGCCTGGCTGAGCTCCACGACCTCAACGGTCCCTCCCGCAAGACGCAGGCGCTGGTCCTCGCTCCCACCCGCGAGCTTGCCCTCCAGGTCGCTGAGGCCTTCACGTCCTACGCCAAGCACATCGATGACTTCACCGTCCTCCCGGTTTACGGCGGCTCCGCCTACGGTCCCCAGCTGGCCGGCCTGCGCCGCGGCGCCCAGGTTGTTGTGGGCACCCCCGGCCGTGTGATCGACCACATCGCCAAGGGTTCCCTGGACCTGTCCGAGCTCCAGTACCTGGTGCTGGATGAGGCCGACGAAATGCTTCGCATGGGCTTCGCTGAAGACGTGGAGCAGATCTTCCAGCAGACCCCGTCGGACCGCCAGGTTGCCCTGTTCTCTGCCACCATGCCGAGCCAGATCCGCCGCATGTCCAAGCAGTACCTGAACAACCCGGCCGAGATCTCCGTCAAGTCCAAAACCACCACCGGCGCCAACACCCGCCAGCGGTACCTGCAGGTCATGGGCCCGCACAAGCTCGACGCGCTGACCCGCATCCTTGAGGTTGAAGAGTTCGACGGCGTTATCGCCTTCGTGCGCACCAAAATGGCTACCGAGGACCTCGCCGACAAGCTGAAGTCACGCGGCTTCCAGGCTGCCGCCATCAACGGCGACATCCCGCAGCAGCAGCGCGAACGCACCGTCGACGCCCTGAAGGAAGGCCGCATCGACATCCTGGTGGCCACCGACGTCGCGGCCCGTGGCCTTGACGTTGAGCGCATCAGCCACGTGATCAACTACGACATCCCGCATGACACCGAGTCCTACGTCCACCGCATCGGCCGGACCGGCCGTGCAGGCCGCAGCGGCGACGCCGTCCTGTTCATGACCCCTCGGGAAAAGTACCTGCTGCGTTCCATCGAAAAGGCCACCCGCCAGCCTGTGGAGCAGATGCACCTGCCCACTGCCGAGACGGTGAACACGCTGCGCCTGGGCAAGTTCGCAGAGAAGATCACGGAGACCCTGGCGTCTGAAGACGTCTCGGCCTTCCGCGACCTCATCGCCTCCTACGAGGAAGAGCACAACGTTCCTGCCGCCGAGATCGCTGCAGCACTTGCAGTGATGGCACAGGGCGGACAGCCGCTCCTGGTCAAGGAACTGCCTGCTGCTCCCGAGTTCCAGAAGCGCGAACGCGCCAAGGACGGCTTCGGCTCACGTGGCCCCACACGCACCCTCACCGAGGGCAACGCTACCTACCGGATCGCCGTCGGACGCCGCCAACGCGTTATGCCGGGCTCCATCGTTGGCGCCATTGCCAACGAAGGCGGCATTTCCTCGGCCCAGATCGGCGGCATCGACATCCGCTCGGACCACTCCCTGGTGGAGCTTCCGGCAGACCTGAGCCCCGAGCAGCTGCGCGCCCTCTCCCGCACCCGGATCGGCGGCGAGCTGATCCACCTTGAGCTGGACAACGGCCGCAAGCCCTCCGGCGGCGGCGAGCGTGGCGGCTACCAGGGCAACCGTGGCGGCGATCGCGGCGGTTACTCAGGCGGCGGCGACCGCGGCGGCAACTTCAAGGGCAGCGGAGGATTCAAGAAGGAATTCCGCAAGTCCGAAGGCGGTGCTGCTGACCGCGGCGGACGTTCCTACAGCGAGCGTTCGGAGCGCAGCGTTGGCGCCGACAGCGGAGCCACCCGCGGCCAGGCCAGCGATTCCCGCTTCGGCGGCCACGGTGACGGTTCACGCAAGCCCCGCCACGGCAACGAAGGCGGACAGCGCGACTTCAACCGCAAGGGCAAGTGGTAA	MPENQNDPFDTENIVIDAETAAPAAEEAPAAEAAPEAPAGEETPAAEETPKSEEAAKADNSRGEADTEAEGIRFVDLGIDPRVLAALQDVGYEKPSPIQAATIPLLLEGRDVVGLAQTGTGKTAAFAVPALSRLAELHDLNGPSRKTQALVLAPTRELALQVAEAFTSYAKHIDDFTVLPVYGGSAYGPQLAGLRRGAQVVVGTPGRVIDHIAKGSLDLSELQYLVLDEADEMLRMGFAEDVEQIFQQTPSDRQVALFSATMPSQIRRMSKQYLNNPAEISVKSKTTTGANTRQRYLQVMGPHKLDALTRILEVEEFDGVIAFVRTKMATEDLADKLKSRGFQAAAINGDIPQQQRERTVDALKEGRIDILVATDVAARGLDVERISHVINYDIPHDTESYVHRIGRTGRAGRSGDAVLFMTPREKYLLRSIEKATRQPVEQMHLPTAETVNTLRLGKFAEKITETLASEDVSAFRDLIASYEEEHNVPAAEIAAALAVMAQGGQPLLVKELPAAPEFQKRERAKDGFGSRGPTRTLTEGNATYRIAVGRRQRVMPGSIVGAIANEGGISSAQIGGIDIRSDHSLVELPADLSPEQLRALSRTRIGGELIHLELDNGRKPSGGGERGGYQGNRGGDRGGYSGGGDRGGNFKGSGGFKKEFRKSEGGAADRGGRSYSERSERSVGADSGATRGQASDSRFGGHGDGSRKPRHGNEGGQRDFNRKGKW				NA	NA	NA	NA	NA
D1-29_03547	642			hypothetical protein	GTGCTTGCCGTCTGCTGTGTCCACCAGCTGCTTCCGGATACGTCCAGCGTGGGGGTGACCGCCATCGACAAGCGTCCTGTTGAGGGGCCGGTCAGGGTCCACAAGCTGGGCCTCCAGGGTGACATTCAGGCCAACCGGGTGCATCACGGCGGAGTGGATCAGGCGATTTACGCCTACTCCCAGGCAGATGCGGACTACTGGGAGGGGGAGCTCCAACGCGACTTCCCACCAGGTTCCTTTGGCGAAAACCTCCGGGTCGCCGGCATCGATGCCACCGGTGCCGTGATCGGCGAACGCTGGAAGATAGGCCTCGACGTGGAGGTGGAGGTGACGTCCCCGCGCACACCCTGCGCAACCTTCCAACGGCGGATAGGGGAGCCCGCTTTTACCCGGCGTTTCACGGAGGAAGGGCGCGTGGGCGCGTACCTCCGGGTGATCCGCACCGGCATTATCCAGGCCGGTGACCATATCCATCGGCTGTACGTGCCCAAGCACGGCATCACGGTGGGCAAATGGTTCAGCGAGCCCGACCTCGAGTCGATGGAAGCCCTGCGGGATGCCGACGCCGACGGGGAGATCCGCCTCCAGCAGCCCGAGTTCAACCAGAAGTTTGAGGCGCTGCTGCGCCGTATCGGCAGTTAG	MLAVCCVHQLLPDTSSVGVTAIDKRPVEGPVRVHKLGLQGDIQANRVHHGGVDQAIYAYSQADADYWEGELQRDFPPGSFGENLRVAGIDATGAVIGERWKIGLDVEVEVTSPRTPCATFQRRIGEPAFTRRFTEEGRVGAYLRVIRTGIIQAGDHIHRLYVPKHGITVGKWFSEPDLESMEALRDADADGEIRLQQPEFNQKFEALLRRIGS				NA	NA	NA	NA	NA
D1-29_03548	669			hypothetical protein	GTGGACCCGGGCAAGGATTCCGAAATGGATCGGGAACACGATCCAAAAAAGGACGGGACCGGCAGCCGCCAGGACGCCACCGGAGAAGGCCGGCACCCCGCTGCAGCAAGCGGAGATGCGTCTGCCCCCGCGCCGGATGCGCCCAAGCCGCCGCCATGGCAGGTACCCAAGCCCGAACTGCGCCCCGAACTCCTGAATGAACCGCCGGCCGTGGTGGACCCGTTCGCGCTGGACCGCGAGCGCCAGCTCCAGGAGGCGGCCGCACACAGGAAGCGTTCCCAGCGGCGCACCGTGGTGGTGGGCCTCGGCGTCACCGCACTCCTCGCGGGCACCCTCACCGCTGTGGTGGCCAGCAACCAGGACGAGCCCGACTACGCGCAGGTCTGTTTTAACGACGAAACCGGCGAGCGCGTGGAAGACGCCAACTGCAACAGTTCGGCGGGGAGGGGCGGCGGGCTCTATGCCTGGTACTTCTTCTCCCGCGGCGCCTATGTCCCGCCGGTGGGGCAGAACCGGTCCACCGCCCCAAATTTCACCCGGACTATACCCAGCGATGCCAAAGCATCCACCGGCTACAGCACCCAGGGCGGCACAGTCAGCCGCGGCGGTTTCGGCACCAGCGCCAAAAGCGGGACCAGCGGTGGCGGCGGCAAGGTCTCCGGAGGTTAG	MDPGKDSEMDREHDPKKDGTGSRQDATGEGRHPAAASGDASAPAPDAPKPPPWQVPKPELRPELLNEPPAVVDPFALDRERQLQEAAAHRKRSQRRTVVVGLGVTALLAGTLTAVVASNQDEPDYAQVCFNDETGERVEDANCNSSAGRGGGLYAWYFFSRGAYVPPVGQNRSTAPNFTRTIPSDAKASTGYSTQGGTVSRGGFGTSAKSGTSGGGGKVSGG				NA	NA	NA	NA	NA
D1-29_03549	1236	ygiC	COG0754	Putative acid--amine ligase YgiC	GTGAAGCGGTTGTTATCGGAGCCCAGGCCTGACTGGAAGCAGAAGATCGAAGAGCAGGGCCTGGTGTTCTCCACCACCACCATGCCCGATGGCCGGAAGATCGAATACTGGCATGAGGCCGCCCACTACGAGTTCACCATGGACGAGGTGGAGGCCCTTGAGGTTACCGCCGAGGACATGCACAAGATGTGCCTGGAAGCGGCAAAATTCCTTGCCACAGGGGCCATGGGAACAATCGGCATTGGGGCCCAGGCCCTGGAACTGGCTGCGGACTCCCTCCAGGCCAGCGACCTTGACGTCTACGGCCGGTTCGACTTCATCTACGACGGGCAGGGCGGCCCTGCCAAGATGCTGGAGTACAACGCGGACACGCCCACCGGACTGATCGAGGCCGCCGTGGCACAGTGGTTCTGGCTGCAGGACGTCTTCCCCGGCAAGGACCAGTGGAACGGCATCCATGAGGCCCTGATCAGGCAATGGAAGAAATTCCAGTACCGCACCGGCATGAGCACGCTGCACATTGCCCACTCCGAGGCCGAGGAGTCCGGCGAAGACTGGATGACCGCGGCCTACATGCGGGACGTTGCCAGCCAGGCCGGCTGGACCACCATCGGCATCAACATGTCGGATATCGGCTGGGACCCCAACCTGAACCGGTTTGTGGACCTGGACAATTTCATGATCAGCACCATCTTCAAGCTGTACCCATGGGAGCTGATGATGAAGGAACCGTTCGGGCCCCGGCTCCTGGAACGCGCGCACAATCCCCGCTGGGTGGAGCCCGCCTGGAAAATGCTGCTCTCCAACAAGGCCCTCCTCGCCGCCCTGTGGCATCTGTACCCCAACCATCCCAACCTGCTGCCGGCCTACCTGAACGAACCGGGTCCGCTGAAGGAATGGGTGGCCAAGCCGCTGCATGGCCGCGAAGGCGACAACATCAGAATCAATGCGCAGGGCATCAACCTGGAACAGCCCGGCGGCTACGGCAGGGAAGGCTGGTGCTACCAGCAATTCCATCCGCTGCCCGATTTCGACGGCAACCACCCGGTACTGGGACTCTGGGTGGTGGACGGCGAATCCGTGGGCTGCGGCATCCGGGAGTCGGACGGCCCCATCACCGACTACTTCTGCCGTTTTGTGCCCAACACCATTGACGCCCCTGCTCCGCTTTCAGTCCAGGCCCAATCCAGCACATCCAGCACCTCCACATTCAACAAGGCAGGTATTGCCCTATGA	MKRLLSEPRPDWKQKIEEQGLVFSTTTMPDGRKIEYWHEAAHYEFTMDEVEALEVTAEDMHKMCLEAAKFLATGAMGTIGIGAQALELAADSLQASDLDVYGRFDFIYDGQGGPAKMLEYNADTPTGLIEAAVAQWFWLQDVFPGKDQWNGIHEALIRQWKKFQYRTGMSTLHIAHSEAEESGEDWMTAAYMRDVASQAGWTTIGINMSDIGWDPNLNRFVDLDNFMISTIFKLYPWELMMKEPFGPRLLERAHNPRWVEPAWKMLLSNKALLAALWHLYPNHPNLLPAYLNEPGPLKEWVAKPLHGREGDNIRINAQGINLEQPGGYGREGWCYQQFHPLPDFDGNHPVLGLWVVDGESVGCGIRESDGPITDYFCRFVPNTIDAPAPLSVQAQSSTSSTSTFNKAGIAL				NA	NA	NA	NA	NA
D1-29_03550	1578	puuP_2	COG0531	Putrescine importer PuuP	TTGCCCTATGAGCCCCCTGACCCTCCTCCGCGTGACATCCCCATGAGCACAGAGACGACGACGGCGGGAAGTCCCGGAGGACCGTCCGGCGGCGCTGTTCCGGCGAAAGGCCTTCGCGCCGGAATCCTGGACCTCGGCGATTCGGTCATGCTGGGCCTGGCCTCCACCGCCCCGGTGTATTCGCTGGCCGCGACCCTTGGCCTGATCGTGGCGGTGAACGGCAATTACACGCCCCTGATTCTGGTGCTGGGATTCATTCCCGTGCTGTTCATCGCGTATGCGTTCCGGGAGCTCAACAGTGCCATGCCGGACTGCGGCACCACGTTCATCTGGGCCCGGCGCGCGTTTGGTCCGTGGGCCGGCTGGCTGGGCGGATGGGGTGTTGCGCTCGCCGGCGTTGTGGTGCTTGCCAACCTTGCCCAGGTGGCAGGACAGTACTTATGGCTCCTGGTGGGCGACGGCTCTTTGGCAGAGAACACTCTCCTGGTCACCGCCACCGGCGTGGCGTTCATCGCGCTGATGACGCTGGTGAACTACCGCGGGATCAGGCTGGGTGAGCACGTCCAGCGGGTCCTGACATACATCCAGTACATCTCGCTGGGGATTTTTGCGCTTGCATTGATTATCAGGATTGCCAGCGGCGCACCGGAGGGCCAGGCGTTTGATCTTGAATGGTTCAACCCCGTTGGAGCCTTTGCCGATCCGAGCGCGGTGGTGCACGGCGCCCTGCTGGCCCTGTTCATCTACTGGGGCTGGGACACCTGCCTGGCAGTCAACGAGGAGACTGAGAACCCCGCCAAAACGCCGGGCCGGGGCGCCGTCATCTCCGCGTTTGTCCTGCTGGCCATCTATGTCTCCGTGGCGCTCCTGGTCATGATGTATGCCACCGTGGGCACAGAAGGGATCGGCCTGGGCAACAGCGAGAACCAGGACGACGTCTTCGTGGCCATGAAGGACGTTGTGCTGGGCCCCTGGGGCTGGCTGATCGTGGTGGCCGTGCTGGCATCGGTGCTGTCCTCCACCCAGACCACCATCCTTCCCACCGCCCGGGGCACGCTGTCCATGGGCGTCCACGGCGCGCTTCCCGCCAGGTTCGGCAAGGTGCACCCCCGCAACCAGACACCGGGATTTTCCACCCAGGTGATGGGTGCCGCGGCGATCGGCTATTACGTGGCCATGAGTTTCCTGAGCGAGAACCTGCTCTCGGATTCCATCAGCTCCATCAGCCTGTTCATCGCGTTCTACTTCTCCCTGACCGGCTTCGCCTGCGTCTGGTATTTCCGCCGCACGCTGCGTGAATCGGCCCGCAATCTGTGGTTCCGGGGAATCCTCCCCCTGCTCGGTGCCGTGATGCTGACCGCCGCGTTCTTCATTTCCGCCGTGGAGATGTGGGATCCGGCCTATGGTGACACCCAGATCTTCGGCATCGGCGGGGCCTTTGTCAGCGGTGTAATCCTGCTGTCCCTGGGCGTGGTGCTTGCCGTTGTCTGCCGCTTCCTGCCTTCAACCCGTGCATACTTCACGGCGCCGGGAACCAACCGGGCCAGCAGTGCCGCCAGCCGCACAACGCGCCTATGA	MPYEPPDPPPRDIPMSTETTTAGSPGGPSGGAVPAKGLRAGILDLGDSVMLGLASTAPVYSLAATLGLIVAVNGNYTPLILVLGFIPVLFIAYAFRELNSAMPDCGTTFIWARRAFGPWAGWLGGWGVALAGVVVLANLAQVAGQYLWLLVGDGSLAENTLLVTATGVAFIALMTLVNYRGIRLGEHVQRVLTYIQYISLGIFALALIIRIASGAPEGQAFDLEWFNPVGAFADPSAVVHGALLALFIYWGWDTCLAVNEETENPAKTPGRGAVISAFVLLAIYVSVALLVMMYATVGTEGIGLGNSENQDDVFVAMKDVVLGPWGWLIVVAVLASVLSSTQTTILPTARGTLSMGVHGALPARFGKVHPRNQTPGFSTQVMGAAAIGYYVAMSFLSENLLSDSISSISLFIAFYFSLTGFACVWYFRRTLRESARNLWFRGILPLLGAVMLTAAFFISAVEMWDPAYGDTQIFGIGGAFVSGVILLSLGVVLAVVCRFLPSTRAYFTAPGTNRASSAASRTTRL				NA	NA	NA	NA	NA
D1-29_03551	1224	mmgC_4	COG1960	Acyl-CoA dehydrogenase	ATGAGCAGCGCTGCCGTTCCCGGCCCATCAGAGGTTCCCGGCATACCGCAGGTTCCGGATCCCTCTGACATCCTTGCCCTCGACTCCCTCCTTAGCCCCGACGAGCTGGCCTTGCGGGAACGGATCCGGGATTTCACGGAACAGCGGATCAAACCGGACATCGCCCGCTGGTACGACGACGCCGTGTTTCCGCTGGAGCTTGCCCCGGAACTTGGCGAGCTCGGGGTTCTGGGGATGCACCTTGAGGGGTACGGCTGCCCTGGCCGGTCCGCCGTCGAATACGGCCTGGCCGCAATGGAACTGGAGGCCGGTGATTCCGGCATCCGAACTTTCGTCTCGGTACAGGGATCGCTGGCCATGACGGCCATCCACAAATGGGGTTCCGAGGAACAGAGGCAGGAGTGGCTTCCCCGGATGGCCGCCGGCGAACTGATTGGGTGCTTCGCCCTGACCGAGCCATCCGCCGGTTCCGATCCATCCTCAATGACCACGGTGGCCCGCAGGGAGGGGACCGGAGACGGTGCGGGCTGGGTCCTGGACGGCGCCAAGCGGTGGATCGGGCTCGCGTCGGTGGCCGGCGTGATGGTGGTCTGGGCCATGACCGACGACGGCATCCGCGGCTTCCTGGTGCCGGCCGGGACAGCGGGAGTCACGGCCACGCCTATCGGGCGGAAGTTGTCGATGCGTGCGTCCATCCAGTGCGATGTGCTGTTCGACGGCGTCAGGCTGGGCCCGGAGGCCCTGCTTCCGGGTGCCCGCGGTCTGCGCGGCCCCTTCACCTGCCTGAATGAGGCGCGGTACGGCATCGCCTGGGGTGCCATGGGCGCTGCGCGCGATTCGTATGAGGCGGCCCTGAAGTACTCACAGGACCGGCTCCAGTTCGGCAAGCCGCTGGCCGGCTACCAGCTGACGCAGGAAAAGCTGGTGAACATGCTGGTGGAGATACAGAAAGGCACCATGCTGGCCATCCACCTGGGCCGCCTCAAGGACGCCGGGACGCTCCGTCCGGAGCAAATTTCACTGGGCAAGCTGAATAACGTCCGTGAGGCGATCGCCATCGCACGGGAGGCCCGCACAATCCTGGGCGGAAATGGCATCACCCTGGACTATTCGCCGCTGCGGCACGCCGCCAATCTGGAGTCGGTGCGCACGTACGAAGGCACCGACGAGGTCCATACGCTGGTGCTGGGCCAGCACATCACCGGGCTCGGCGCGTTCCGCTGA	MSSAAVPGPSEVPGIPQVPDPSDILALDSLLSPDELALRERIRDFTEQRIKPDIARWYDDAVFPLELAPELGELGVLGMHLEGYGCPGRSAVEYGLAAMELEAGDSGIRTFVSVQGSLAMTAIHKWGSEEQRQEWLPRMAAGELIGCFALTEPSAGSDPSSMTTVARREGTGDGAGWVLDGAKRWIGLASVAGVMVVWAMTDDGIRGFLVPAGTAGVTATPIGRKLSMRASIQCDVLFDGVRLGPEALLPGARGLRGPFTCLNEARYGIAWGAMGAARDSYEAALKYSQDRLQFGKPLAGYQLTQEKLVNMLVEIQKGTMLAIHLGRLKDAGTLRPEQISLGKLNNVREAIAIAREARTILGGNGITLDYSPLRHAANLESVRTYEGTDEVHTLVLGQHITGLGAFR	PGPT0021815_1147	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
D1-29_03552	1017	galE_2	COG1087	UDP-glucose 4-epimerase	ATGAAGGTTCTGGTTACCGGCGGCGCCGGGTACATCGGGTCGCACACCACGCTGTCTCTTGTGGAGAAGGGGCATGAGGTGGTTGTCCTGGACAATCTGAGCAACTCAAATCCGGAGGCCCTGCGGCGGGTCGAGGAGATCTCAGGCAAGCCGGTCCAGTTTCGAAGAGCTGACTTGCTGGACCGGGACGCACTCGACGCCGTGCTGGCAGAGTTCAGCTTCAACGCCGTGATCCATTTCGCTGGTCTCAAGGCAGTGGGGGAGTCGGTAGAGAAACCGCTGATGTACTACCAGAACAACGTGGCCGGTACATTGAATCTGTTGCACAGCATGGGCCAGGCAGGGGTGTTCACGCTCGTGTTCAGTTCCTCTGCCACTGTCTACGGCGATTCCGAAGACGTCCCGTTGCGGGAAAACGTGCCTTTGAATGCCGGGAATCCCTATGGCAGGACCAAGGAACAGATTGAGGACATCCTCTCTGACGTGGCTGCCGCCGACCCGCGCTGGCGGTTCGCGTTGCTCCGCTACTTCAATCCCGCCGGGGCGCACGAATCCGGCCGGATTGGTGAGGATCCCCAAGGGACGCCGAATAACCTTTTGCCATTTGTTGCGCAGGTGGCGGTGGGACGCCGCGAGAAGGTCTCGGTTTACGGAAACGACTATCCAACGCCTGACGGCACCGGTATCCGGGACTACATTCATGTGATGGATCTCGCCGAAGGCCACTTGGCTGCCCTGGAATTCCTGCAGGAGAAGGCGGGGGTTTTCCGGTGGAACCTGGGGACGGGCAAGGGCTGGTCGGTGCTTGAGGTGATCAGGGCGTTTGGGGAGGCCGCAGGCTTTCCCATTCCCCACGAGTTTGTATCACGGAGACCAGGGGACGCTGCCGTCAGTTATGCCGATCCCTCGGCTGCGCGGGCAGACCTGGGCTGGTCCGCTACACGTGACCTGGCGAAAATGTGCGAGGACCATTGGCGGTGGCAGCGGAGCAATCCCCTTGGATATGCGAACGCCTGA	MKVLVTGGAGYIGSHTTLSLVEKGHEVVVLDNLSNSNPEALRRVEEISGKPVQFRRADLLDRDALDAVLAEFSFNAVIHFAGLKAVGESVEKPLMYYQNNVAGTLNLLHSMGQAGVFTLVFSSSATVYGDSEDVPLRENVPLNAGNPYGRTKEQIEDILSDVAAADPRWRFALLRYFNPAGAHESGRIGEDPQGTPNNLLPFVAQVAVGRREKVSVYGNDYPTPDGTGIRDYIHVMDLAEGHLAALEFLQEKAGVFRWNLGTGKGWSVLEVIRAFGEAAGFPIPHEFVSRRPGDAAVSYADPSAARADLGWSATRDLAKMCEDHWRWQRSNPLGYANA	PGPT0017825_46	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
D1-29_03553	774	fabG1		3-oxoacyl-[acyl-carrier-protein] reductase FabG1	ATGGGATCCACACCTGCCGAAGTAACCGCCCGCAAGACTGTCCTGATTACGGGCGTCGGCAGGCTCGCCGGCATCGGAGCCGGAATTGCCCGCCAGTTGGCCGCCGAAGGCTGGGACCTCGTCCTGAACTACTGGCAGGAATACGATGCCCGGATGCCGTGGGGAATCCAGCCCGACGACGTTGGGCGCCTGACGGCAGAACTGGAAGCCATCGGTGCGCGCGTTGTGGCGCTGCCTGCTGACCTCGAGGATCCCGCCGCTGCTGACCGGCTAATCGCGGCCGCAAATGAGCAGGCGGGGCCGTTGCATGCCATGGTGCTCAGCCATGCCGAATCAGTCGATTCCGGCATCCTGGACACCACGCTGGAGGCCTTTGACCGTCATTTTGCCGTGAATACGAGGGCCAGCTGGCAGCTTATTGCCGCGTTCGCCCGGCAGGCAACGGCCGACGGCGGCGCGATCGTTGCGCTGACCAGTGACCACACAGCGTTCAACCTTCCGTACGGCGCATCAAAAGGCGCACTGGACCGAATTGTCATTGCAGCTGCCCGGGAGCTGGGCCCCTTGGGGATCTCTGCCAATGTTCTCAACCCGGGACCGATCGACACCGGCTGGATGGATCACCAGACCCGGGAAATGGGGACACGCCGGCAGCCGGGCGGACGCCTCGGAACCCCCGCCGACGTCGCCGGCACGGTGGCCTTCCTGCTGTCACCGGCAGGCCGTTGGGTGTCTGGCCAGCTGATCAAGTCCGACGGCGGCTTCTCGGCCTAG	MGSTPAEVTARKTVLITGVGRLAGIGAGIARQLAAEGWDLVLNYWQEYDARMPWGIQPDDVGRLTAELEAIGARVVALPADLEDPAAADRLIAAANEQAGPLHAMVLSHAESVDSGILDTTLEAFDRHFAVNTRASWQLIAAFARQATADGGAIVALTSDHTAFNLPYGASKGALDRIVIAAARELGPLGISANVLNPGPIDTGWMDHQTREMGTRRQPGGRLGTPADVAGTVAFLLSPAGRWVSGQLIKSDGGFSA	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
D1-29_03554	1443			hypothetical protein	ATGGCACAGCGCGACGCGGATTTATCGGCCATCAGCAGCAGTCCCAGCGCGAGCCCGGGCGCAATGTCCGTTCTCCGCCTGTGGAAGAGGCTTGCCCTGTGGCTCCCCGCCCTGGCCGTGGCCGTCCCGGTATGGTTCCTGCTGAACGGCTGGAACAAGGAAGGCCTGGACTTCAGCGTCTACTGGCACGGCGGAAAAATCCTGAACGACGCCGGCTGGAACGTCTCGCACCTCTACAGTCCCACCGTTGAGTGGGCGGGCGGGCCAGCCCTGCCGTTCACCTATCCGCCCTTCGCGGCACTGCTCTTCGGACTCCTGGCGCTGCTCCCGCAACCGTTAGCCCTCCAACTGTTTAACGCTGCAGGCGTGGCCGTGGCCGTCTGGCTGTCAGCCCTGGCTGTCCGCTACTGGAACTCCCAGTCCAGCTGGCGGACTGCGTTTCAGACTCCGCGGAGCCGCTGGATCGCTGCAGCTTCACTCTTTGCCATGCTGACCCTGGGTCCCTGGCGGGAGACCCTCGCCTTCGGGCAGATCAACATTTTGCTGATGGGACTGATGGCGGCGGATCTGCTGTCCCGGAACCAGCGCTGGCGCCGGGGCATCCCGGGCACGGGTTTCCTGGTGGGCGTCGCCGCCGGCATCAAGCTCACGCCCCTGGTATTTGGCCTCTACTTCCTGGTCCGGAAGGACTGGCGCGGGCTGATGAATATGGGCGCCGGGTTTGCCTCCACCGTGCTGCTGGGGTTCCTGCTCAGGCCAGCCGAGTCCCTGCAGTTCTGGTTGGAGATTCTCCCTGACACGTCCCGTATAGGCGGAGCGGGCTATGTGGACAATTTGTCCATCAAGGGTGCGCTCCTGCACTTCGGCGTCCCTGCCTCCGGGGTGACCGTGCCGTGGATCCTCCTGAGCCTGCTGGCGGTGGCGTTGGCTGCAGCTGTGGTGAAGCTGGCCAGCGACCAAGGGGCCCGGGTAGTGGCAATGTCCGCCACGGCCCTGGCCATGCTCCTGATCAGCCCCGTGTCCTGGTCCCACCATTGGGTCTGGGTTGCCGCTGTACTGCCTGCCTTTGCCTGGACACTGCGTGACATCCCGGACCGGCACCGGCTGCTGCGTGGGGTGATGACCGCGGTGTTTGCCCTCTCGGTCCTGGCATTCTGCTTCTCGCCGAAGTCCATCGGGCTGGCATTTGGCGCCAAAAACCTGGACATCCAGACGCCCGGGTTGTGGATCATGGCGTCCAGCGCCGGAGTGTTCTGCGCGGCGGCCATCCTGCTGTGCTGGCTGGCGGCATTGCGCCGGGGAGCGCTGGCCAGGAACGAGCCTGTCGTTGCCGGGCCTCACTCCGCTGCTCCAACTCCAGCTTCAACGTCCGCTTCCACATCCGCTTCAACCGCCACGCCAACGTCCGCTGAGGGAGCCCGCCCCCAGCCGCTACTAGGCTGA	MAQRDADLSAISSSPSASPGAMSVLRLWKRLALWLPALAVAVPVWFLLNGWNKEGLDFSVYWHGGKILNDAGWNVSHLYSPTVEWAGGPALPFTYPPFAALLFGLLALLPQPLALQLFNAAGVAVAVWLSALAVRYWNSQSSWRTAFQTPRSRWIAAASLFAMLTLGPWRETLAFGQINILLMGLMAADLLSRNQRWRRGIPGTGFLVGVAAGIKLTPLVFGLYFLVRKDWRGLMNMGAGFASTVLLGFLLRPAESLQFWLEILPDTSRIGGAGYVDNLSIKGALLHFGVPASGVTVPWILLSLLAVALAAAVVKLASDQGARVVAMSATALAMLLISPVSWSHHWVWVAAVLPAFAWTLRDIPDRHRLLRGVMTAVFALSVLAFCFSPKSIGLAFGAKNLDIQTPGLWIMASSAGVFCAAAILLCWLAALRRGALARNEPVVAGPHSAAPTPASTSASTSASTATPTSAEGARPQPLLG	PGPT0024275_44	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PHOSPHATIDYLINOSITOL_MANNOSIDE_REMODELLING	CE-REMODELLINGPHOSPHATIDYLINOSITOL_MANNOSIDE_BIOSYNTHESIS,PGPT0024275-pimE-K13671	NA	NA
D1-29_03555	1293			hypothetical protein	GTGACGGCATCTTCCACAGCGGTGGCGGCCCGGGCCACGCAGGGTTGGATCACGACGGCGGCCGGTGCGGCCGCCGTCGTCATTGCCCTTGTGGTGCTGTACTCCTCCTACATCCCGCTGATGAACGACTTCGAGGTCTACTACTACGGCGGCAGCCGGGTACTCCAGACGGGGGAGTCAGGCGTCAACGAGCTCTACGCGCCGCGCGACGGCCTGCCGTTCACCTACCCGCCGTTCGCGGCACTGCTGTTCGCCGGCCTGGCGCTCCTGCCCATCGGCACCAGCAGCCTGATCTTTATTACGACGGCGCTGGTGGGGGCTGCCGTAGTGGCCGCCTGGCTGGCGCGGCACTACTTCGGTTTCCGCAGTTGGCGGCAGTCCTTCGCCGACTTGCGGTTCCGGGCTATTGCGCTCGCAGGGACAGCGGCAATCCTGCTGCTGGGGCCGTGGCGGGACACGTTCGATTTCGGCCAGATCAACATCATCCTGATGGGCCTGATCCTTGCCGATTTCGCGCTGTACGGGAAGGACCGGGCGGGCGAGATCCGCTGGCCGGCGGGGCTGTTGATCGGCATCGCGGCAGGTATCAAGCTCACACCGCTGGCGTTTGGGCTGTATTTCCTGGTCAGGCGGGACTTCAGGGCGCTGGGCTGGATGGCGGCGGGGTTCTTTGGCTCCATCGCGCTGGCGTGGGCTGTACTCCCGAACGCCTCACTGACCTTCTGGACCAAGATCCTTCCCGACACCGGGCGGATTGGCGGTCCCGCATACCTGGACAATTTGTCCGTCAAGGGGCTTCTCCTCCATGTCGGACTGCCGGATTCGGCCGTCACCAGCGTGCTCTGGCTGGTGTTGTCCCTGGCACTGGCTGGGGTGGCGGCGCTGGTGATCAAGTGGACGGTGGCCGCCGAGGAAAACTTCGTGGCCGTCTCAGCCACCGCGGTGCTGATGCTCCTGATCAGCCCCGTCTCCTGGTCACACCACTGGGTGTGGATGGCGGTGGCGCTGCCCTCCATGGCCTTCGCGATGCACCGGGTGCCCTCCCGCCGCGGGAAAACGAGGTTGGCGGGCTGGATCATTGTGGCCGTCACGGCGGTGGCCTTCTATCTCACGCCCAAGTACCTGGCCATGATGGCGGGCGCGCAGGAATGGGGCAAGGACCCCCAGACCCAGTGGCAGCTGATGGTCACCAGCCTCGGAGTTCTGTGCGGCGTGGCTCTGCTGGTGTACTGGGCCGTTGCTTACCGGCCGTCCCGGACGGCACTGCGGCGAGTGGCAGCTCCGTTGAAGTGA	MTASSTAVAARATQGWITTAAGAAAVVIALVVLYSSYIPLMNDFEVYYYGGSRVLQTGESGVNELYAPRDGLPFTYPPFAALLFAGLALLPIGTSSLIFITTALVGAAVVAAWLARHYFGFRSWRQSFADLRFRAIALAGTAAILLLGPWRDTFDFGQINIILMGLILADFALYGKDRAGEIRWPAGLLIGIAAGIKLTPLAFGLYFLVRRDFRALGWMAAGFFGSIALAWAVLPNASLTFWTKILPDTGRIGGPAYLDNLSVKGLLLHVGLPDSAVTSVLWLVLSLALAGVAALVIKWTVAAEENFVAVSATAVLMLLISPVSWSHHWVWMAVALPSMAFAMHRVPSRRGKTRLAGWIIVAVTAVAFYLTPKYLAMMAGAQEWGKDPQTQWQLMVTSLGVLCGVALLVYWAVAYRPSRTALRRVAAPLK	PGPT0024275_474	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PHOSPHATIDYLINOSITOL_MANNOSIDE_REMODELLING	CE-REMODELLINGPHOSPHATIDYLINOSITOL_MANNOSIDE_BIOSYNTHESIS,PGPT0024275-pimE-K13671	NA	NA
D1-29_03556	1164	metB_2	COG0626	Cystathionine gamma-synthase	ATGTCTGTCCCCGAAAACCAAGGCTTCAACACCCGCGCCGTCCATGCCGGCCAGGCCTTCGAGCCCCGCACCGGCGCCGTTGTCCCGCCGCTGCACTTCAGTTCCACCTACGCCCAGGACGGCATCGGCGGCCTCCGCGACGGTTACGAGTATGGCCGCGGCACTAACCCCACGCGTGATTCCCTGCAGGAGCAGCTCGCCGCGCTGGAAGGCGGCAGCCATGCGTTCTCGTTCAGCTCCGGCCTGGCCGCTGAGGATTCCCTCATTCGTGCGCTCACCCGTCCCGGGGACCACATCGTGCTCGGCAACGATGCCTACGGCGGCACGTACCGGCTCATCAACGGGATCCTGGGCGAATGGGGCATCGGAAACACCCCGGTGGACATGTCGGACCTGGACGCTGTGCGCGAAACAGTGGCTGCCAACAAAACCCGCTTCCTGTGGGTGGAGACCCCTTCCAACCCGCTGATGAAAATCACCGACATGGCGGCCCTGGCCGCCGTGGCGCACGACGCCGGTGCCCTCCTGGTGGTGGACAACACCTTCGCGTCCCCATACCTGCAGAACCCCCTCGCCTTCGGTGCCGATGTGGTGGTCCACTCCACCACCAAGTACATCGGCGGCCACTCGGACGTTATAGGCGGTGCGCTGGTGGTCAACGACGCCGGGCTCGCCGAAAAGATCGGGTTTGTGCAGTTCGCCGTGGGTGCGGTGTCCGGGCCGATGGATGCCTTCCTGACCACCCGTGGCCTGAAGACCCTGGGCGTGCGCATGGACAGGCACTGCGAGAACGCGCAGGCCGTGGCGGAGTGGCTGCTGGAGCGCCCCGAGGTGGAGGCTGTCCTCTATCCGGGCCTGCCGGACCACCCAGGCCACGAGCTGGCCCGGAAGCAGATGAAGAAGTTCGGCGGCATGGTTTCCGTACAGTTCAAGGGCGGCGAGGCGGCGGCCCGCAAGGTTGCTGAATCCACCTCGGTGTTTACGCTGGCGGAGTCCCTGGGCGGCATTGAATCACTGATGAACTACCCCTCCGAGATGACGCATGCCTCGGTCAAGGGCACGGAGCTGGCGGTGCCCGTGAACCTGCTCCGGCTCTCCTGCGGCATCGAGGATGTGGAGGATCTCATCGCGGATCTCGAGCAAGCCTTCACCTTCATCCCGTGA	MSVPENQGFNTRAVHAGQAFEPRTGAVVPPLHFSSTYAQDGIGGLRDGYEYGRGTNPTRDSLQEQLAALEGGSHAFSFSSGLAAEDSLIRALTRPGDHIVLGNDAYGGTYRLINGILGEWGIGNTPVDMSDLDAVRETVAANKTRFLWVETPSNPLMKITDMAALAAVAHDAGALLVVDNTFASPYLQNPLAFGADVVVHSTTKYIGGHSDVIGGALVVNDAGLAEKIGFVQFAVGAVSGPMDAFLTTRGLKTLGVRMDRHCENAQAVAEWLLERPEVEAVLYPGLPDHPGHELARKQMKKFGGMVSVQFKGGEAAARKVAESTSVFTLAESLGGIESLMNYPSEMTHASVKGTELAVPVNLLRLSCGIEDVEDLIADLEQAFTFIP	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
D1-29_03557	1386	cbs	COG0031	Putative cystathionine beta-synthase	ATGAAGTACGCCCAGTCCATTCTGGACCTCATCGGCAATACCCCGCTCATCAAGCTCAACCATGTGACAGACGGCATTAAGGCCACCGTTCTGGTCAAGCTGGAGTACCTGAACCCCGGCGGATCCATCAAGGACCGGATCGCCGCCAAGATGATCGAGGAAGCCGAACGGGAAGGCAAGCTCCTGCCGGGCGGAACCATTGTGGAACCGACGTCGGGCAACACCGGCGTCGGGCTTGCCCTTGTTGCCCAGCAAAAGGGGTACAAGTGCATCTTTGTGGTGCCTGACAAAGTGGGGGAGGACAAGCGCGCCGTCCTCCAGGCGTACGGTGCCGAGGTGGTGGTGACGCCCACTGCCGTCGCTCCTGACAGCCCGCAGAGCTACTACAGCGTGTCGGACCGGATCGTCGCGGAGACCCCTGGCGCCTACAAACCGGACCAGTTCTCCAACCCTGCCGCCCCAGGCAGCCATTACGAGTCCACCGGACCCGAGATCTGGCGCGATACCGACGGCCGGGTCACCCACTGCGTGATCGGTGCCGGCACCGGCGGAACCATCACCGGCACCGGCCGCTACCTCAAGGAAGTTTCCGCGAACCGTCCGGAGGCCGACAGCGGCCGGGTCCGGATCATCGGGGCCGATCCCGCGGGCTCTGTCTACTCAGGCGGCACCGGCCGGCCCTACTTCGTCGAGGGCGTGGGCGAGGACATGTGGCCGGCGAACTACGACAAGTCCGTCCCGGACACCGTCATCGCTGTCAGTGACGGGGATTCCTTCGCCATGACCCGCCGGCTGGCCCGGGAGGAAGGGCTGCTGGTGGGCGGCTCGTCAGGCATGGCCGTCGTGGCCGCGCTGCAGACCGCCCGCGACCTTCCCGAAAGTGCGGTGGTGGTGGTTATCCTGCCCGACTCCGGGCGCGGCTACCTGGCCAAGATCTTCAATGACCAGTGGATGCGCTCCTACGGATTCCTCTCCGGCGGCGAGGAATCCTCGGTGGGCGAGGTGATCAAGTTCAAGACAGGCGAACTTCCCGATCTGGTGCACATCCACCCGAACGAGACAGTCCGTGATGTCATCACCATCATGAACGAGTTCGGCGTCAGCCACATCCCGGTGCTCTCCCAGGAGCCTCCCGTGGTGATGGGCGAGGTCCTGGGCGCGGTGGACGAACGGACGCTGACGGCCAAGCTTTTCCGCGGCGAGGCGAAACTGACGGACAAGATCTCCGAGCACATGGGTCCGAAGCTGCCGGTGATCGGCTCGCTGGAAACCATTTCCGCGGCCCGGGAACTGCTCTCCGATGTGGACACCGTGATGGTGACATTCGTCGGCGCCCCGGTGGGCATCCTCACCCGCCACGACCTCCTCGCGTACCTCAGCAACTGA	MKYAQSILDLIGNTPLIKLNHVTDGIKATVLVKLEYLNPGGSIKDRIAAKMIEEAEREGKLLPGGTIVEPTSGNTGVGLALVAQQKGYKCIFVVPDKVGEDKRAVLQAYGAEVVVTPTAVAPDSPQSYYSVSDRIVAETPGAYKPDQFSNPAAPGSHYESTGPEIWRDTDGRVTHCVIGAGTGGTITGTGRYLKEVSANRPEADSGRVRIIGADPAGSVYSGGTGRPYFVEGVGEDMWPANYDKSVPDTVIAVSDGDSFAMTRRLAREEGLLVGGSSGMAVVAALQTARDLPESAVVVVILPDSGRGYLAKIFNDQWMRSYGFLSGGEESSVGEVIKFKTGELPDLVHIHPNETVRDVITIMNEFGVSHIPVLSQEPPVVMGEVLGAVDERTLTAKLFRGEAKLTDKISEHMGPKLPVIGSLETISAARELLSDVDTVMVTFVGAPVGILTRHDLLAYLSN	PGPT0020005_778	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020005-cbs-K01697	NA	NA
D1-29_03558	435			hypothetical protein	ATGGGTGGAGTGGTGCATTTCGAAATCCCCGCGGACGACCAGGAGCGGGCCAGGAACTTCTATACACAGGCCTTCGGCTGGAAGATCGACCCCATGCCGGAACTGAACTACAACATCGTCTCCACCACGCCCACCGATGAAACCGGCCGGCCCAACGAGCCCGGAGCCATCAACGGCGGGCTCATGGCCAGGGAAGGCGACCTGAAAACCCCTGTCATCACGGTGGACGTGGAGGACATCAATGCCACGCTGAAGACGGTGGAGCAGCTCGGCGGATCGGTGGTGATGCCCAAGGACACCGTTCCGGGCATGGGCTACTTTGCCTACTTCAAGGACAGCGAGGGCAACATCATGGGGCTCTGGGAGAACCTCCCCGCAGATCAGGGCGATGGCCAGGGCGCGGCCCAGGGAGACGTGGAGGGCGCCGCCGGCTGA	MGGVVHFEIPADDQERARNFYTQAFGWKIDPMPELNYNIVSTTPTDETGRPNEPGAINGGLMAREGDLKTPVITVDVEDINATLKTVEQLGGSVVMPKDTVPGMGYFAYFKDSEGNIMGLWENLPADQGDGQGAAQGDVEGAAG				NA	NA	NA	NA	NA
D1-29_03559	1005			hypothetical protein	ATGACCATCGCTGACGCACCTGCCCGGCTGGCCGCTGCGTCGGACGCCTCGCTGCGGTGGCATCCCGGCAGGCCCTACAGCCTGGACCAGACGCTCGGCATCCTGCCCAGGGGCAACGGGGACCCGTCCTACTCTTCCCGGCCGGATGGGCTGTGGACCGCATTTACGACGCCGGACGGGCCGGTTACCCTGCGCCTCACCGGTGCACGCGGCCAGGACGGCCTGACGCCCGCTGCCGCTGCAGAATGCCATGTCGATGTCCAGGCGTGGGGCCCTGGCTCCGCTGCGGCGCTGGAGGCAGTGCCGCGCCTGCTGGGCGACGCTGATGACTGGCGGGCGTTCGACGAGCCGCTTTTCCACGCCACGCTCCCCCGAATGGTCCGGGACGCCCGGCGCCGGAACCCCCTGGTCCGATTGCCCTCCACCGGCCGCATCATCGACTCCCTGGTGCCCACCATCCTTGAGCAGAAGGTCACCGTCATCGAGGCCCGGCGCGGCTACCGCTACCTCATGTACCGCTTCGGCTCACCCGCCCCGGTGGCAGGACCGGCTTCTCCGGCCGGGCTCCTGGTCCAGCCCACCCCGGGCCAGTGGCTGCGGATCCCGTCCTGGGAGTGGCACCAGGCAGGCGTTGGCCCGCAGCGTTCGGCAACCGTCATGCGGGCGCTGCGTTCCGCCGTCGCGCTTGAACGGCTTGCCGTGCTGCCTGCGGCGGAAGCTGCGGCCAAAATGCAGACCATCCCCGGCATTGGCGTGTGGACCGCTGCGGAAGTGGTGCAGCGGACGCATGGCTGCCCGGATTCCATCGCCGTGGGTGACTACCACCTGGCGGCGTACGTGGGCGCGGCGCTGACCGGGCGGCGGACCGATGACGCAGGCATGCTGGCCCTGCTGGAACCGTGGAAAGGGCACCGGCAGCGCGTGGTCCGCATGCTGGGGCTGAGCGGCTTCCGCAAACCCACATTCGGCCCGCGCATGACCATCCAGGACCACCGCCGGCACTGA	MTIADAPARLAAASDASLRWHPGRPYSLDQTLGILPRGNGDPSYSSRPDGLWTAFTTPDGPVTLRLTGARGQDGLTPAAAAECHVDVQAWGPGSAAALEAVPRLLGDADDWRAFDEPLFHATLPRMVRDARRRNPLVRLPSTGRIIDSLVPTILEQKVTVIEARRGYRYLMYRFGSPAPVAGPASPAGLLVQPTPGQWLRIPSWEWHQAGVGPQRSATVMRALRSAVALERLAVLPAAEAAAKMQTIPGIGVWTAAEVVQRTHGCPDSIAVGDYHLAAYVGAALTGRRTDDAGMLALLEPWKGHRQRVVRMLGLSGFRKPTFGPRMTIQDHRRH				NA	NA	NA	NA	NA
D1-29_03560	969	drrA_3		Daunorubicin/doxorubicin resistance ATP-binding protein DrrA	ATGATCCACACTGACAAACTGACCAAGACCTTCACCGTCAAGAAGGAAACGGTAGAAGCCGTCAGGGGCGTGGACATTGATGTCGCCCCGGGTGAACTGGTGGCTTTCCTCGGCCCGAACGGTGCTGGCAAGTCCACCACGCTCAGGATGCTGACAACCCTGCTGAGGCCCACCTCGGGAACGGCAACCGTTGCGGGCGTGGACGTTTTGGCCGACCCTGCCGGCGTACGGGCCCGGATCGGCTACATCGGCCAGGGCAACGGCGGCGGCCACAGCTTCCGGGTCATCGACGAACTGGTGATGCAGGGCCGCTTCTACGGCATGAACACCACGGACGCCACCAACCGGGCGCAGGAACTCCTGAAGTCCCTGGACCTCACCGACCTGGCGAAGCGCACCGTCATCAAGCTGTCGGGTGGCCAGCGGCGGAGAATGGATGTGGCGCTGGGGCTGATGCATTCGCCGCGGCTGCTGTTCCTCGACGAACCCTCCACCGGCATGGACCCGCAGAACCGGGCCAACCTGTGGGAGCACATCATGCGGATGCGCGCGGAGCACGGGACCACCATCGTCCTGACCACGCATTACATGGACGAGGCGGATCTGATGTCAGAACGCGTGATCGTGATCGACCACGGCCAGATCATCGCCGACGATACCCCGGCCCGGCTCAAGGCCAACCTGGCCGGTGACCTGCTGGCTGTGGAGGTGGCGGCGGACTCGGCCCCCGGCGTGCGCGGGCTGCTGGGGCGCGCCGCCGCGGGCGGTGAGGTCAAGGAAAACACGTACGACGGCGTGGTCCGCTTCCGTCTCCGGCTCACCGAAGGCGCCCGGCTGGCACCCGTGCTGCTTCAGGAGATGAACGACGCCGGCGCTCCCGCCCAGTCCTTGGAGCTGAAGCCTCCCACTTTGGACGACGTATTCCTGGAGCTGACCGGCCGCAACCTGCGGGAAGGAGCGAACCGCTGA	MIHTDKLTKTFTVKKETVEAVRGVDIDVAPGELVAFLGPNGAGKSTTLRMLTTLLRPTSGTATVAGVDVLADPAGVRARIGYIGQGNGGGHSFRVIDELVMQGRFYGMNTTDATNRAQELLKSLDLTDLAKRTVIKLSGGQRRRMDVALGLMHSPRLLFLDEPSTGMDPQNRANLWEHIMRMRAEHGTTIVLTTHYMDEADLMSERVIVIDHGQIIADDTPARLKANLAGDLLAVEVAADSAPGVRGLLGRAAAGGEVKENTYDGVVRFRLRLTEGARLAPVLLQEMNDAGAPAQSLELKPPTLDDVFLELTGRNLREGANR	PGPT0006725_4914	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-29_03561	807	drrB_2		Daunorubicin/doxorubicin resistance ABC transporter permease protein DrrB	ATGACTGTCCAGGCAAGCCAGGACTTCGTGGAAAAACCGGGCCTCCTCCAGGTCCTGCGCGACACGAAGTATGTGTTCTGGCGGGAGATGCTGCTGCCGCTGCGGGACCCGTTCTCGCTGATCTTTTCCCTGATCCAGCCGCTCGTGTTCCTGGGTCTCTTCGGCCCGCTGCTCGGCGCGGCAGTGGGAGCGCCGGCCTTTGGCGGCCAGTCCACGCTCCAGTGGTTCCTGCCAGGGGTGGTGGTGATGATCGCCCTGTTCGGAACATCAATGACAGGTTCCAACCTGCAATACGAGCTCATGACCGGTTCCTACGAGCGGATCCTGGCCACGCCGCTGTCCCGTTCTTCCCTGATGATCGGGCGGGCCCTGAAGGAGTGGGCACCCCTGGTGGTGCAGGGTTTGCTGATTGCCCTCGTGTGCATTCCGTTCGGTTTTGTTTTCTACCCGGTGCACGTGCTGCTGGGCCTGATCATCCTGGGGATCTTCGGGATTGGGCTCGGTGCGCTCTCGTATGCTCTGGCGCTCGTGTCGCAGAGTAAGGAGTGGATCTTCTGGGCTGTGCAACAGACGTTGCTTTTTCCGCTGATGATCCTGTCCGGAATCATGCTGCCCATCGAAGCGGGCCCGGAGTGGATGAAAACGGCCAGCCTCTTCAACCCCCTAACCTACCTGGTCAACGCCGAGCGGCAACTTTTCGCCGGCACCGCCGGAACCGACACCCTCCTGGGCCTGCTGGCCGCATTGGCGACGGCCGCCGTCGGGCTGGTGGTGGGCGTCCGGACAATCGGCCGGAACATCAAGTGA	MTVQASQDFVEKPGLLQVLRDTKYVFWREMLLPLRDPFSLIFSLIQPLVFLGLFGPLLGAAVGAPAFGGQSTLQWFLPGVVVMIALFGTSMTGSNLQYELMTGSYERILATPLSRSSLMIGRALKEWAPLVVQGLLIALVCIPFGFVFYPVHVLLGLIILGIFGIGLGALSYALALVSQSKEWIFWAVQQTLLFPLMILSGIMLPIEAGPEWMKTASLFNPLTYLVNAERQLFAGTAGTDTLLGLLAALATAAVGLVVGVRTIGRNIK	PGPT0006730_14845	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-29_03562	702	degU	COG2197	Transcriptional regulatory protein DegU	ATGAATGAGTCAGGCGTGCTCAGGGTTGTGATCGCGGAAGACAACTACCTTGTACGCGAGGGGCTTCGCCGTTTGCTGGAGGACTCAGGTGAAATTGACGTCGTCGCCTCTACCGGCAATGCCATCGAGTTGCTTGATGCTGTACGCCGTTTCTCTCCGGATGGGGTGCTCACCGACATCCGGATGCCGCCTGGCCATCATATGGAGGGAATCGAGGCTGCGCGCGCCATCCGTGCTTCACATCCGGATACCGGAGTGGTGGTGCTGTCACAGCACGCCGACCAGAGCTATGCGCTGGCGCTGTTCGCGGACGGCTCGGCGGGCCTCGGCTACCTGCTGAAGGACCGTATTGGCGACCTTGAGGACCTCGTGCATGCGATCCGTGAAGTGCATGTTGGCGGTTCTGTGATCGACCCGGAGATCGTGGACACCCTGGTGCGCCGGCGCAGCACAGGCCCGGCCAGCCCGCTCTCCGACTTGTCGCCCCGTGAGCTGGACGTGCTGCGGGAGATGGCCCGGGGAAGGACAAACGCCGGCATCGAGCAGGCGCTCTACCTGTCGTCCTCCACCGTGGAGAAACATGTCAACGCCATCTTCACCAAGCTGCACATCCCCGCGACGGGCGTGCACCGGCGGGTTGCGGCTGTGCTCGCATTCCTGCAGAACGACGGCACCGAGGCGGTCGCCAAGGGCCACCCGTAG	MNESGVLRVVIAEDNYLVREGLRRLLEDSGEIDVVASTGNAIELLDAVRRFSPDGVLTDIRMPPGHHMEGIEAARAIRASHPDTGVVVLSQHADQSYALALFADGSAGLGYLLKDRIGDLEDLVHAIREVHVGGSVIDPEIVDTLVRRRSTGPASPLSDLSPRELDVLREMARGRTNAGIEQALYLSSSTVEKHVNAIFTKLHIPATGVHRRVAAVLAFLQNDGTEAVAKGHP				NA	NA	NA	NA	NA
D1-29_03563	2103			hypothetical protein	ATGACGTGTAGGGAGGACCCCCTCCCAAGAACCGCGGCGGAGGCGGATCATAGGACTGTGCTCCGGAGATGGGGATTGCTCGCAGCGCTGGCTCCAATCGGGGTGGCGTCGCTGCTCTACGTCGTCATAGTCCGCGGATTCGTCCACTCCGCCGGGGACCACCACCTTGGCTGGCCTTTGCTCGGCGTGCTGCCGACGCTCGTGTTCGGCTTGTGGCTGCTCACCGTTTCGTCCGCCCGGTCCGCTGTCTTCATCGCGGTGGCAGCCACGTCCATGGCGGTAGGCTCGGCGTACGAAACCTTAGTCCTTACCAACGTCGGGTTGATCCAGGAGCCGTGGTTCCCGCTCTTCAACATGATCGGCCTGACCGCGGATGCTGTATCCACCGCGGCCTTCCTGGCCATGTTCGCCACCTACCCCACCGGAACCCTGGAGCGGAGATGGCAACGGATCGCCGTCGCCCTGATCTGGGTGCCTGTGGCAGTGGGCCCGCTGACCCTGCTCACGACCTCCCATGTCCTTATGCAGCCATACATCGGCGTCAGCGGCGAGGCCCTTCCGAATCCGTATGCGGTGCCCTGGCTCGAATGGGCTGCCCCGGCGGTGCATTACCTCATCTACCAGCCGTGGCCCAGCGTTGTGCTCGGGCTCGGCGTGCTCTACTCCCGAGCGATCTTCGGCGCTGCGGAGGTACGTGCACGCATGCGGGTCATGACCTGGGTGGTCACCGTGTCACTGGTCGGCTTCGTCCTGTGGACCCTCACGCCGCCGATGTGGATCACCTCCGTCGTCGTCTTCGCCTCGCTCATCGCGATGCCCCTGGCGGCTATCCACGGAATCTTCCGCTATGGCGCCTTCGATATTGCCCCGGGTGACCGTGCACGGTTTGTTGCACGCTCATCCAGCCTGCTGATCACCGTGCTTTACGGGATCGGAGTGGCCACGCCTGCCGTGCTCCTCGCCGACCGGCTGCCCATCGTCGGCGCAGTCCTCCTGACCACGTTGCTCGCCGTCTGCCTGCTGCCCGTGCGGGAGTGGCTGCAGCGGTGGATCCACCGCACTGTTTTCGGAGACCGTGACCGCCAGCTGTCGCTGCTCAGCGAGCTGGGCTCCCGATTGGAGCAGTCCGTCGAGCCGGGCGATCTGCTCACCCGGCTGGCAACAGCCGTCCGGGATGGCCTCGATGCCACCTGGGTAAGGATCTTCCTGGCCGGACCCGACGGCACGCTTGCTGCATCACCCACCGGTGTGGCGGGGGACGTCAAAGGAGAGGCCGCCGCGTCCTGCGACCTGGACCGGGCGGATGAGAAGCTCGGCCGCATTGAGGTGGGCCCGCGCCGGCGGGGGGATTACAGCGAAGCCGAGAATGCGTTGCTCCGCACGGTGGCCGGCCAGGCCGCGGCCGCTGTCGCCAACGTGCGCCTCAGCGCCCAGCTGGCCCAGCAGCTGGACGATCTCACCGAGTCCCGGGAGCGTCTTGTCGCCGCGCAGGACGACGAACGCAAGCGCCTGGAGCGGGATCTGCACGATGGGATCCAACAGAACGTGGTGGCCCAAATCGCCGGCCTGCGCCTGGCACGCAACCGGCTGCACCGGGGCGAGCTCACCACGGACGAACTCGCCGAGTTGCAGGACCAGGCCCGGGAGACACTGACCGACCTTCGGGAGCTCGCACACGGCATCCACCCGCCCGTGCTGAGCGACAACGGCCTGGTAGCGGCCATCGAGTCAAGCGTGTCAAGGTTCCCGATCCCGCTGAAAATGAAAGCTGAAGAGGCAATACGGGCCGAACGGTTCCCCGAGGACGTGGAGACAACGGCGTACTACGTGGTGCGGGAGGCGCTGGCAAACACCGCGAAGCATGCCGGTGCAGCGCACGCCTCTGTCGAGCTGGCACGCAACAACGGCAGCCTGCGCATCGCCATCAGCGACGACGGCTGCGGCATCGGCACCCTCGTGCCCCGCCCGCGCGGCGGCCTGGCGAACATCCGGGACCGCGTGGCGGCATTGCGGGGTACCGTGGACGTCTTCGGCAACGAGCCTTCCGGGACCACAGTGCTGGTCCAGCTCCCGGTCGAGCGGAAGGGGACGGGCCATGAATGA	MTCREDPLPRTAAEADHRTVLRRWGLLAALAPIGVASLLYVVIVRGFVHSAGDHHLGWPLLGVLPTLVFGLWLLTVSSARSAVFIAVAATSMAVGSAYETLVLTNVGLIQEPWFPLFNMIGLTADAVSTAAFLAMFATYPTGTLERRWQRIAVALIWVPVAVGPLTLLTTSHVLMQPYIGVSGEALPNPYAVPWLEWAAPAVHYLIYQPWPSVVLGLGVLYSRAIFGAAEVRARMRVMTWVVTVSLVGFVLWTLTPPMWITSVVVFASLIAMPLAAIHGIFRYGAFDIAPGDRARFVARSSSLLITVLYGIGVATPAVLLADRLPIVGAVLLTTLLAVCLLPVREWLQRWIHRTVFGDRDRQLSLLSELGSRLEQSVEPGDLLTRLATAVRDGLDATWVRIFLAGPDGTLAASPTGVAGDVKGEAAASCDLDRADEKLGRIEVGPRRRGDYSEAENALLRTVAGQAAAAVANVRLSAQLAQQLDDLTESRERLVAAQDDERKRLERDLHDGIQQNVVAQIAGLRLARNRLHRGELTTDELAELQDQARETLTDLRELAHGIHPPVLSDNGLVAAIESSVSRFPIPLKMKAEEAIRAERFPEDVETTAYYVVREALANTAKHAGAAHASVELARNNGSLRIAISDDGCGIGTLVPRPRGGLANIRDRVAALRGTVDVFGNEPSGTTVLVQLPVERKGTGHE				NA	NA	NA	NA	NA
D1-29_03564	468			hypothetical protein	ATGCGCAGGATCTACTCGGTCATCGCCTGGATCATCGCCGGGGCAGTCGTCGTGCAAGCCGCTTCGATCGCCTTTGCCATGGGAGGGATGGCGCACTTCATCCAGGAAGGAGGCGTCATCGACAAGGCCCTTGTCGAGAGCCGCCAGGCGACGTTCACCGGTGACCTTGGATTCCCGATCCACGGCATCGTCGGCGGGATGGTCATTCCGGTCGCTGCCCTCCTGCTGCTCATCGTCGCGTTCTTCGTTAAGGCGCGGGGTGCCCGCATGTGGGCAGCCATCGTGCTCGCAGTGGTGGCGCTGCAGATCACCCTCGGGTACTCCATTAGCGACATGCCCTACCTCGGCCTGATCCATGGTGCGAACGCGTTGGCCGTGCTGCTCACCGCCACCTACGCGGCCTTGCGGATCAGAAGGGGCAACGTCATCGGTGCCGAGGCACCGGCGTCCAATGCCGTCGCGACGTGA	MRRIYSVIAWIIAGAVVVQAASIAFAMGGMAHFIQEGGVIDKALVESRQATFTGDLGFPIHGIVGGMVIPVAALLLLIVAFFVKARGARMWAAIVLAVVALQITLGYSISDMPYLGLIHGANALAVLLTATYAALRIRRGNVIGAEAPASNAVAT				NA	NA	NA	NA	NA
D1-29_03565	1548	mmcO	COG2132	Multicopper oxidase MmcO	ATGCCGTCGCGACGTGACCGCTACCGCCGGGTCGCCGTCGGCCTTGGAGTGACCCTCGCGGTTGGCCTCGGCGCGCTCGGCTGGAGCTCAACGTTGCTTGGCGAATACTCGGTCATGGATATGGGAGGCAAGGACATGGCAGGCGGGCAAGCCGGCCATGTCCATGGCTCCGCAGCCGGGGCTGCTCCCGACGACGGCGCCGTCAGCGTGAGCGAGCTGATCGCCGACGCGCTTCGGCCCCCTGATGTGCGCTTCGAACTCGTCGCGCGCCGGCAGACGGTCGATCTGCCCGGAGGGCGGGCCGTCGAGGGCTACACCGTGAACGGCACATCTCCGGGTCCAACCATTCGCGCGCGGCAGGGCGACCTCGTTGAGGTGGTCTTCCTGAACGAGTCAGTCGCCGCCGGAGCCACCCTGCATTGGCATGGCATCGACGTGCCGAACGAGGCTGACGGGGTTGCGGGCATCACCCAGGATGCGGTTCCGCCCGGCGGCCGTTATGTCTACCGGTTTATTGCGGCCGACGCCGGCACGTACTGGTATCACTCGCATCAGGTCTCGCATGAGCAGGTGGAGCGCGGGCTGCTGGGTGCGGTGGTCATTGATCCTGCTGTACCAGCGGCTGCTGTGCCAGCGGCCGGTTCACCAGTGGCTGGGCAGCCTGCGGGCGGGCCACCGCCGGCCGGCATCACAACAGACGTCGTCGCCCTGCTGCATGTCTACGGCGGCCAGCACACACTGAACGGGCGGGTACAGGACGAACACGTGGCGGCCCAACCTGGCACCCCAGCGCGGGTCCGCATCATCAACACTGACCAGGGCACCGCCGCCGTCTGGTCAGCCGCTCCTTTCCGGGTGGTTGCGACCGACGGGCAAGAGGTAAATGCCCCCGGCGCCGTGGAAGGAAAATCGGTGCTCATTCCGGCGGGCGGCCGGCTGGATGTCATTTTGGAGGCGCCTGCGCACGGCTCGGTGCGCCTCCATGTCGGCGGAGCCCGCAGCATCTCCATCGGTGATCCGGCGGCGGCAGCGCCGTCAGTACGGCAGCCCGCCGAGACACTCGACCTGCTGGCGTACGGGGAACCTGCCGCGCTTGAATTCGACCCGGGGTTGCCGGATCAAAGGTTCGACTACGTCATCGGACGCCGGCCGGGCCTCATCGACGGGCGCCCCGGCAACTTCTGGACGATCAATGGCCGGCTCTTCCCGGACGTACCGATGTTCCACGTGAACAAGGACGACGTGGTGGTGATGCGCATCGTGAACGAGACGGGTGAAGTGCATCCGATGCACCTGCATGGCCACCACGTCCTGGTGCTCTCGCGCGACGGTGAGCCGGCGTCGGGGAGCCCGTGGCGGGTCGACTCGCTCGACGTCCACCCGGGAGAGTCGTACGAGATCGCCTTCGTCGCCGACAACCCGGGCATCTGGAGCGGCCATTGCCATACGCTCCCGCACGCCGTCGACGGCCTCGTGGCGCACATCATGTACAACGGAGTCTCGACGCCATTCACCATCAACGGCGCCGCAGGCAACCATCCCGAGTGA	MPSRRDRYRRVAVGLGVTLAVGLGALGWSSTLLGEYSVMDMGGKDMAGGQAGHVHGSAAGAAPDDGAVSVSELIADALRPPDVRFELVARRQTVDLPGGRAVEGYTVNGTSPGPTIRARQGDLVEVVFLNESVAAGATLHWHGIDVPNEADGVAGITQDAVPPGGRYVYRFIAADAGTYWYHSHQVSHEQVERGLLGAVVIDPAVPAAAVPAAGSPVAGQPAGGPPPAGITTDVVALLHVYGGQHTLNGRVQDEHVAAQPGTPARVRIINTDQGTAAVWSAAPFRVVATDGQEVNAPGAVEGKSVLIPAGGRLDVILEAPAHGSVRLHVGGARSISIGDPAAAAPSVRQPAETLDLLAYGEPAALEFDPGLPDQRFDYVIGRRPGLIDGRPGNFWTINGRLFPDVPMFHVNKDDVVVMRIVNETGEVHPMHLHGHHVLVLSRDGEPASGSPWRVDSLDVHPGESYEIAFVADNPGIWSGHCHTLPHAVDGLVAHIMYNGVSTPFTINGAAGNHPE				NA	NA	NA	NA	NA
D1-29_03566	1677	fadD3	COG0318	3-[(3aS,4S,7aS)-7a-methyl-1,5-dioxo-octahydro-1H-inden-4-yl]propanoyl:CoA ligase	ATGCGCGCATACACAGCCGGGGACGCTGACGTCCCGCTGCTCGGGGAGACCATCGGCCAAAACTTTGAAAGCGTGGTGGCCAGGTTTCCGTTCCACGATGCGCTGATTGAGGCCGCACCGGTTCCGGGCGCTGACGCCCGCCGCTGGAGTTATACAAAGATGAACGACGACGTCGACAGGCTTGCGCGCGGGCTCCTCGCCCTGGGCGTTGCCCGGGGGGACCGGGTGGGCATCTGGAGCCCGAACTGCGCCGAATGGACGCTCCTGCAGTACGCCACCGCCAAGGCGGGGGCAATCCTGGTCAACGTCAATCCCGCGTACCGCAGCCACGAACTGGAATTCGTGCTCAGGCAGAACGGCATGCGCATGCTGGTCACGGCTCCCTCTGACCGCAGCAGCGATTACGTGGGGATGGCACGCGGGGCGCTCGCTGCCTGCCTGGAGCTGCGGGAGCTGGTGTTCCTTCCGGACTTGGGTATGGAAGGGCTCGACGCCGGCGTCCCCCAAAGCGACGCAGAGCTGACGTACGCCGAGCTGCTCAAGCGGGCTGACGACGTCGGGCATTCCGGACTGAAGGCGCGCATGGCTGAACTGGACCGGCACGATCCGGTCAATCTTCAGTACACCTCGGGGACCACAGGTTTTCCCAAGGGTGCCATGCTGACGCACCACAACATCCTCAACAACGGCTACGCCATCGGGGAGCTGCTGGGTTACACGGAGCGCAGCCGGGTGGTGATCCCGGTGCCGTTCTATCACTGCTTCGGCATGGTGATCGGCAATCTGAACGCGCTCAGCCATGGTGCCGCCACCATCATCCCCGGCCGGGGCTTCAACCCGGCCGCCGCCCTGGAAGCAGTTCAGGACTTCGGCGGGACATCCCTGTACGGCGTGCCCACGATGTTCATCGCCGAACTGGCCCTGCCTGACTTCGCGTCCTACGACCTGTCCACCCTCCGTACCGGTGTGATGGCCGGCTCGCCGTGCCCCGTCGAGGTGATGAAGCGGGTCATCACGGAGATGAACATGGTGGATGTGGCCATCTGCTACGGCATGACCGAAACGTCGCCGGTGTCCACCATGACCCGCATGGGGGACACCCTGGACCATCGCACCCAGACTGTCGGCCGGACCATGCCGGGGCTGGAAAGCAAGATTGTGGACCCGGCAACGGGCGAGGTGCTGGAGCGTGGCCAGGTTGGCGAATTGTGCACGCGTGGCTACGCCGTGATGAAGGGCTACTGGAATGAGCCGGACAAAACGGCCGAAGCCATCGACGCTGACGGCTGGATGCATACCGGCGACCTCGCCAAGATGGACGACGACGGCTACGTGGTGATTGAGGGCCGGATCAAGGACATGGTGATCCGCGGCGGCGAGAACATCTACCCGCGCGAAATCGAGGAGTTCCTCTACACGCACCCGTCCATCCAGGACGTGCAGGTCATCGGCGTCCCGGACCCCAAGTACGGCGAGGAGCTGATGGCCTGCATTATCCTCAAACCGGGCGCTGATCCGCTGGACGCCCCGGCTGTTGCGGAATTCTGCCGGGGACGCCTGGCCCATTACAAGATCCCGCGCTACGTCGACGTGCGGGAGAGCTTCCCCATGACGGTGTCCGGCAAGATCCGCAAGGTGGAAATGCGTGAGGAAGCGGTAGCCCGGCTGGGCCTCTAA	MRAYTAGDADVPLLGETIGQNFESVVARFPFHDALIEAAPVPGADARRWSYTKMNDDVDRLARGLLALGVARGDRVGIWSPNCAEWTLLQYATAKAGAILVNVNPAYRSHELEFVLRQNGMRMLVTAPSDRSSDYVGMARGALAACLELRELVFLPDLGMEGLDAGVPQSDAELTYAELLKRADDVGHSGLKARMAELDRHDPVNLQYTSGTTGFPKGAMLTHHNILNNGYAIGELLGYTERSRVVIPVPFYHCFGMVIGNLNALSHGAATIIPGRGFNPAAALEAVQDFGGTSLYGVPTMFIAELALPDFASYDLSTLRTGVMAGSPCPVEVMKRVITEMNMVDVAICYGMTETSPVSTMTRMGDTLDHRTQTVGRTMPGLESKIVDPATGEVLERGQVGELCTRGYAVMKGYWNEPDKTAEAIDADGWMHTGDLAKMDDDGYVVIEGRIKDMVIRGGENIYPREIEEFLYTHPSIQDVQVIGVPDPKYGEELMACIILKPGADPLDAPAVAEFCRGRLAHYKIPRYVDVRESFPMTVSGKIRKVEMREEAVARLGL	PGPT0008380_11925	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
D1-29_03567	279			hypothetical protein	ATGAGTGCACCCATTGACCTGCAGGCAACGTTCATCCCTAACGAAGGCGAGTTTTTCCGTGTGAAGCTCGCGCTTGAAATCGCCATCGACGAAGTGGTGAATGAGCCCGGCTGCATCCGCTACGAATTGACGGAGGCCAGCGAAGAGAAGTTGGTCGTGACGGAGCGCTGGGCGTCCGAGGAGGATCTCGAAAAGCATTCCAAGGGCACTGCCGTCCAGGACCTGAACGAGTCCTTGAGCGCCCTGCTGGCCGAACCCGTCAAGCTCGAGCGCCTGTAG	MSAPIDLQATFIPNEGEFFRVKLALEIAIDEVVNEPGCIRYELTEASEEKLVVTERWASEEDLEKHSKGTAVQDLNESLSALLAEPVKLERL				NA	NA	NA	NA	NA
D1-29_03568	450			hypothetical protein	ATGGCTACCGTTGACATCACAGGTGAAGAGTTCGCATCAACCATCGAAGGCAACGACATTGTCCTGGTTGATTTCTGGGCCGAATGGTGTGGGCCCTGCAAGCAGTTTGGGCCCACCTACAGTGCTGTTTCCGAGAAGCACTCCGACGTCCTGTTCACGAAGGTGGACACCGAAGCCGAGCAGCAGCTCGCCGCCGAGGCCGGGATTACGTCCATCCCCACGCTGATGGCTTTCCGTGAAAAGGTGCTGGTGTTCTCCCAGCCCGGCGCCCTGAACGCCCAGCAGCTGGAACAGGTGGTTGACGCCGTGAAGGCACTGGACATGGAGGAAGTGCATGCCCATGTGGCGCGCTCGCGGGCGGAAGCCGAGGCCGCAGCAAGCACGGGCACAAACGCAGGGAACGCCGGCACCCCGGGTCCGCAGGACGGCTCACAAATCCCCGGCGCCTGA	MATVDITGEEFASTIEGNDIVLVDFWAEWCGPCKQFGPTYSAVSEKHSDVLFTKVDTEAEQQLAAEAGITSIPTLMAFREKVLVFSQPGALNAQQLEQVVDAVKALDMEEVHAHVARSRAEAEAAASTGTNAGNAGTPGPQDGSQIPGA	PGPT0013055_1554	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
D1-29_03569	555			hypothetical protein	ATGCACCTGCTTTTGCGAACCCTCCTGATGCTGTTCACCTCCGCGCGCCGTTCCAAGCTGGCGGTCTGGGATGCCTCGTCCCTGCCACTCAAGGTTCTGCCAACGGACATAGACATTGCCATGCACGTCAACAACGGGATGTACTTTTCGCTGATGGACCTGGGGCGGTTCGATCTGATGGTGCGCAGTGGGGTGTGGAAGAGAATGCGGCAGCGCGGCTGGACCCCGGTGGCGGCAGGGGAAACCATTGCGTTTCGCAAGTCCCTCCAGCTGTGGCAGCGGTACACCATCGAGTCCAGGATCATCGGACTGGACGCCAAGGCGATTTACTTCGAGCAGCGCATGGTGGCCGACGGCGAGATTTACGCCCGCGCCCACATCGCCACCCGCCTGGTGAGCAAGGGAAAGCCTGTCAGGCAGGAGGAGATCCTCCAAGAGTTCGGTGAGCCACCGGCGGACCTGGTGCTCCCCGAGTGGATCCATGAATGGCGTGAGAACAACGCCCTGCCAGGCAGCCGCGCCACAGCACCACATCAGTGGGAAGCAACTTCCTGA	MHLLLRTLLMLFTSARRSKLAVWDASSLPLKVLPTDIDIAMHVNNGMYFSLMDLGRFDLMVRSGVWKRMRQRGWTPVAAGETIAFRKSLQLWQRYTIESRIIGLDAKAIYFEQRMVADGEIYARAHIATRLVSKGKPVRQEEILQEFGEPPADLVLPEWIHEWRENNALPGSRATAPHQWEATS				NA	NA	NA	NA	NA
D1-29_03570	2004	nagJ		O-GlcNAcase NagJ	ATGGCGTCAGGGTGGAGGCCTCCGAAGGGGCGCATCAGGACGGATGGCCCCAGGCTCCTGACATCATTGCTCGTTGGTGGCTTGGTCCTGCTGGGCTTCGCCGCAGACCAAGCCACGGATCTCCCTGTCCCTCCGCTCACCGCCGAAACCGTGCGCGTATTTCCAACGCCGCAGAGCACTGACGCCGCCCGGACCGCCGTCCCGCTGCGGGGGCGTGTAGTGATCGACCAGGGACCAGGGACCGACGCCGCCGCGTTGGAGATCGTGAGGCAGGCAATTGACGCTGCCGGCGGCACCGTTGAAGCGCCAGGTGCCGCCGTTTCCACCACAAGACAAACCGTGGTCTACATCGGCACCCCTGCTGACAACCCACACATCGGCCCAGCCTTGGCCGCTATGGATGTTGACGGCTCGGAAGCCTTGGATAAGGCGGAGGGTTACGTTCTGGCCGCTGGTTTGCACGGCCGCCAACGGGCTCTCGTCCTGGCCGGGCATGACCAGGATGGCGTTTACCACGCGGCCCAGACCCTGCGGCAGGTCACGGAAGGCTCGGGCGAAGTGGCCGTGGTCATCAAGGACTGGCCCCTCATGGGCATTCGCGGTGTGGTGGAGGGTTTTTACGGTTTTCCGTGGACGCACCAGGCCCGGCTGGATCAGCTGGAATTCTATGGCCGGCAAAAGCTGAACACCTACATGTACTCACCGAAGAACGATCCCCTGCTTCGCCATGAGTGGCGGCAGCAATACAGCGGGCCCCAGTTGGCGGAGTTGTCGGAGCTTATTCAAAGCGCCACCCGGAACCACGTCCGCTTTGTTTACGCCCTGTCACCCGGCCTGGACATCTGCTATTCGGACAGGGCGGACCTGGAGTCGGCGGTGGTGAAGTTGCAGTCCCTGCACCAACTGGGGGTCAGGACGTTCAACATTGCATTGGATGACATTGAGTTGGTCCTGAAATGCCCGGGGGACGTCGCCGCAAACGCGGAGGGCGAACGCGGACTCGCCGCAGCACAGGCTGGCTTCCTGAACAGCCTTAACCGTGAATTCGTTCAGGCAAATCCAGATGTCAACCCACTGGAGATGGTTCCTACCAAGTTCCATGGGGTGGAGGCTGACCCCTACAGAGAGGAACTCAGCGCCAAGCTGGACACCGGCATCCTGGTGCAATGGACGGGCCTGAACATCGTGTCCCCGGCCATCACATCCGACTCTGCGGCAGCGGCCCGGACGGCATATGGCACTCCGGAACAACCTCGGATAATTTTTCTGTGGGACAACTACCCGGTCAATGACTTTGCCCCTGACCGGCTGTTCCTGGGACCCGTGGTGGGCCGGAACCGGGATTTGCATACAGTGATTCAGGGAATCACGGCCAACCCCATGGTCCAGTCCTATGCGTCCATGCCGGCGCTTGCCAGCTTTGCCGACTACATGTGGAATGGTCCCGGATCCGACGCCGACGTTTCGCTTGACGCTGCCCTTGAGGAGATTGCCGGACCGGACAAGGAGGTCCAGGCCGCGCTTAAGACGTTCGCAGATCTGAGCAGGCACTGGCCGATCGATGAGCAGACGGCGAAGTCCCCGCTGCTCACGGCAGACATGGAGGAGTTCTGGCGGTCCTACGAGGATGGCACGTTTGATGACTCCTTGCTGGAACGGCGGGCGGCAATTCTCAGCAGCCTTCCCGAGGTTTTGCAGCGCCTGTCAGTGAAAGGGTTTTATGACGATGCCATTAACTGGATCGACTCCGGAGCGAGTTACGGTAACGCAGTCCAAGGCGCCATCACCATGCTGGCAGCCGTAGAGCGAGGCGATGATGCGGCAGTGGCAGAGGCCCGCTCGGTGCTGAGCGCCGCCGTCGACCGGGCGAATCAGGCCACCCAGTCGGCGATCGATCATCCGGACGTCAAGGCCAGGGTGGGGGATGGCTTGTTCGAGGCCTTCCTTGACCGGGCAATCCAGGAATCCGACCGCCGTCTGGAGGAGAAAAAGTCCGGAAGTTGA	MASGWRPPKGRIRTDGPRLLTSLLVGGLVLLGFAADQATDLPVPPLTAETVRVFPTPQSTDAARTAVPLRGRVVIDQGPGTDAAALEIVRQAIDAAGGTVEAPGAAVSTTRQTVVYIGTPADNPHIGPALAAMDVDGSEALDKAEGYVLAAGLHGRQRALVLAGHDQDGVYHAAQTLRQVTEGSGEVAVVIKDWPLMGIRGVVEGFYGFPWTHQARLDQLEFYGRQKLNTYMYSPKNDPLLRHEWRQQYSGPQLAELSELIQSATRNHVRFVYALSPGLDICYSDRADLESAVVKLQSLHQLGVRTFNIALDDIELVLKCPGDVAANAEGERGLAAAQAGFLNSLNREFVQANPDVNPLEMVPTKFHGVEADPYREELSAKLDTGILVQWTGLNIVSPAITSDSAAAARTAYGTPEQPRIIFLWDNYPVNDFAPDRLFLGPVVGRNRDLHTVIQGITANPMVQSYASMPALASFADYMWNGPGSDADVSLDAALEEIAGPDKEVQAALKTFADLSRHWPIDEQTAKSPLLTADMEEFWRSYEDGTFDDSLLERRAAILSSLPEVLQRLSVKGFYDDAINWIDSGASYGNAVQGAITMLAAVERGDDAAVAEARSVLSAAVDRANQATQSAIDHPDVKARVGDGLFEAFLDRAIQESDRRLEEKKSGS	PGPT0019175_206	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0019175-hya-K01197	NA	NA
D1-29_03571	843			hypothetical protein	ATGGCGGCGGCCGCTGTGGTGGCTGCAGTCAGCGTGGGCGCGCTGTCAGCTTCCGTCAGTCCGCCGGCAGCAGAAAGCACGACGGCGGCCGCCCCCGTGGTACGGGCTGATACAGCTTTGCCGGTGGACCCGGCTACAGCCGCCGCCGGCTCCCCGGACGCCGGCACGGCAGGCGTGAATCCGGCCGGAACGGTTCCGGTGGACGCAGCCCCGGCTGCTGCCGCTCCCCCGGAGGCGCCGCCCGCAGAGGCACCGCCGGCCCCCGCGCCTCCCGCCCCAACGAGCGATTCGAATCTCTACACAGTGGTCCCGGGCGACACCGTCGGCGCCATTGCGGCGCGGTTCGGGGTGGACCTGAACGGCATGCTCGCCGCCAATGGTCTGAGCGCCTACAGCATCATCGTTCCCGGGCAGACACTGAAGCTGAGCGGTCCCGCCGTCGCAGCGCCCGCGGCCCCCGCCGCTGCTCCCGCTCCGCCGGCCCAGGTCACTGCCCTTGTTCCGGCAGCGCCGGCAGTACGGACCATTTACGTTGCGGGAGCAGGCGGCCAATCGATGCTGGATGCCTGCATCGGCCCTATCCACTACACCCCGAATGACGGCTATTCGCTCTTCATCACGGAACACGATTTCTGCGGCGGGTGGGCGCGCTTCTCGGGCATCAGCGTGGGCGAAACAGTCAGCATTCCGGGCTACGGGACATATACGGCCACAGCACGGGGGCAGGTGCCCAATCCCGGCACCACCAACGACGTGATCAATGTCTTCGGCGGATTCCCCCGGGCTATCCTGCAGACGTGCATCCCGGGCACCAGCCAGATGTTGCTGATCGCCCTGAACTGA	MAAAAVVAAVSVGALSASVSPPAAESTTAAAPVVRADTALPVDPATAAAGSPDAGTAGVNPAGTVPVDAAPAAAAPPEAPPAEAPPAPAPPAPTSDSNLYTVVPGDTVGAIAARFGVDLNGMLAANGLSAYSIIVPGQTLKLSGPAVAAPAAPAAAPAPPAQVTALVPAAPAVRTIYVAGAGGQSMLDACIGPIHYTPNDGYSLFITEHDFCGGWARFSGISVGETVSIPGYGTYTATARGQVPNPGTTNDVINVFGGFPRAILQTCIPGTSQMLLIALN				NA	NA	NA	NA	NA
D1-29_03572	441	hrp1_1	COG0517	Hypoxic response protein 1	ATGAGTGCTGTACGTGAATTCATGACGACGGATGCGCGCTGTATCCCGGAGAACCAGACCCTTGCAGATGCTGCCCGGATGATGATGGATCTGGACTGCGGATCGCTGCCGATCTGTGGCGACGACGGCAAATTGAAGGGCATGATTACCGACCGCGACATCGTGATTAAGTGCATTGCCATGGGCCGTGATCCGCGCGAGATGATGGCCCGCGACCTCGCCACGGGAACGCCCCACTGGATCGACGCCGACGCCAACGTTGACGAAGCCATCGAAATGATGGAGAGGTTCCAGATCAGGCGGCTTCCGGTCATCGCAGACCACAAGCTGGTTGGCATCATCAGCCAGGGTGACATCGCACGCAACTACGACGAGGAGCGTGTGGGCGAACTCGTGGAGCACATTTCCGAACGCAAGAGGATGCAGTCGAGCAGCCCGTAA	MSAVREFMTTDARCIPENQTLADAARMMMDLDCGSLPICGDDGKLKGMITDRDIVIKCIAMGRDPREMMARDLATGTPHWIDADANVDEAIEMMERFQIRRLPVIADHKLVGIISQGDIARNYDEERVGELVEHISERKRMQSSSP				NA	NA	NA	NA	NA
D1-29_03573	261			hypothetical protein	ATGCGTTCAGGGGCGGTCTACAATCGCGCCTGGCGCCCGGCTTGGGAGAATACTGGGGTCCCGAAGGATAGGTGGGCCCGAATCCACGACCTCAGGCACACGAACGCATCATGGATGATTGCTGGAGGCATGGATCTCTTCCAACTTTCCCATCGCCTCGGGCATCAGTCCACAGCCACCACAGATGGGCGCTACGCCCACCTCATGCCCTCGTTACGGACCGCTGGCGCCAAGCTCGCAACCGCTGCCTTGGCGCGGTAA	MRSGAVYNRAWRPAWENTGVPKDRWARIHDLRHTNASWMIAGGMDLFQLSHRLGHQSTATTDGRYAHLMPSLRTAGAKLATAALAR	PGPT0021996_535	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
D1-29_03574	243			hypothetical protein	ATGGGGGAGGAACAGACGATGGCAAGAAATTCAGGGTTTGATGACCTGATCAAGGACCTGGGCAAATTGGTGGACAACGCCAGTAAGCTCGACGGGCTGACCGTCAGTATCGCGGCGACGGACACCGTGGCCGACGTCGAGAAAAAGTTGCGCGCTGAAGCGAGCCGCAGGGGAGTAACCAATCTATCTGCCTCTGAGCTACGTGGAATGGCTCAGGACATGCACTGGAGCGCTCGAAGGTAG	MGEEQTMARNSGFDDLIKDLGKLVDNASKLDGLTVSIAATDTVADVEKKLRAEASRRGVTNLSASELRGMAQDMHWSARR				NA	NA	NA	NA	NA
D1-29_03575	462			hypothetical protein	ATGGACAATCACCAATCAGATTTGCCAGGCAGGATCCTGGAGCGCATCTCGACAGACAAGGCCGTGCACGAAGCGATGCAGCGGTTCTGGGAAGAGATACAGGGCTTCCGTGCCGACATCAACGGGCTCCGTCAGGAGGTGGCTAATCCGAGCCCTGCCAGATACCTGACTACCTCGGAAGTCGTGGAGATGTTCGGCATCAGCACCGAAACGGTCCGGCGCCGAGTCAAGGACGGTGTGTGGCCGGCATGGCGTAACGGCCGCCAGATCCGCTTCGGGCGGGATGAGATACGGCCATCGCGGAGTGGGGGAGACCGCTGGCCCCCGATCGGCTCCCGACTGGCCGGGAGCGACGGCAACGGAACAAGTAGCTTGGCGCCCTCTGGCCCAACGCAGTGTGATCACGTGTGCTCACTGCCGGAATTGCCCAGCCGGAGCAAAGGATCCGGCGCTGCCAACTGA	MDNHQSDLPGRILERISTDKAVHEAMQRFWEEIQGFRADINGLRQEVANPSPARYLTTSEVVEMFGISTETVRRRVKDGVWPAWRNGRQIRFGRDEIRPSRSGGDRWPPIGSRLAGSDGNGTSSLAPSGPTQCDHVCSLPELPSRSKGSGAAN				NA	NA	NA	NA	NA
D1-29_03576	504			hypothetical protein	GTGGCCACAAAAAAGGTAGTACGGCCTCCCATCTCCGAAACACGGGAGAAAGTTGCTTGGGTTGATAAGCGCGGGCAGCCGAAAAGCAAGAAGGCCCCACCAAGCGCTACGCGCCCTATTGCGATAGACGAGCTGTCGTTCCAGTGGACCGCTCAGGAAGTCGACCACGAACATAATGGGCTCTGGGACTGGGATCTCACTCCCAAGGAGACGGCTGACCTGCTGGACTTGCTGTCTGGGATCACCAAACTATCCTGGCGTGAGGTGAAAGAGCTCAAGTTCAATAGCAGCAGGCGCAGTCGGGCCCTTCATCATTCTCAGCCTGTTGACTCCATCTGTAGTGAGGCACGTCAGCGCCTGGATGAGATCGGCCGGGGTGATCAGGAAGAAGTGTTTCGGCTGCGTCATGGCAACACCATCCGCGTCTGGGGAGTCTTGGAGGGTCCCGTCTTTTCCATCCTCTGGTTTGACCGGAACCATCAGGTTTGCCCTACGGAGAGTTAG	MATKKVVRPPISETREKVAWVDKRGQPKSKKAPPSATRPIAIDELSFQWTAQEVDHEHNGLWDWDLTPKETADLLDLLSGITKLSWREVKELKFNSSRRSRALHHSQPVDSICSEARQRLDEIGRGDQEEVFRLRHGNTIRVWGVLEGPVFSILWFDRNHQVCPTES				NA	NA	NA	NA	NA
D1-29_03577	462			hypothetical protein	ATGGTCACTGTTCACGACGTAGCCGCGTACATTCTCGAAAAGTGCGGCCCAATGAGCACGATGAAACTGCAAAAGCTGTGCTACTACAGCCAAGGCTGGGCTTTGGCGTGGGATGAGCGCCCCCTTTTCGATTCGCGTATTGAAGCTTGGGCCAATGGTCCCGTTATCTACGATTTGTACCGCCAACACCGTGGTCGCTTCACAGTTAGTGATTGGCCCAGTGGGGACGCGGCAGCCGTCACAGGCGAGGATAAGGACACCATCGACGCGGTTCTATCCGGCTACGGCGACCTCACCGGGCAGCAGCTCAGTGACATGACCCACGCTGAGCGTCCGTGGCTTGCCGCTCGTGGAGCACTGCCGAATGGCGCTCGTTGCAACGTGGGCATCTCCCAAGACGTTATGCAGGATTATTTCGGCGGGCTGGACGCGGAACAATCCGAAGATCCCACCCATCTGTAA	MVTVHDVAAYILEKCGPMSTMKLQKLCYYSQGWALAWDERPLFDSRIEAWANGPVIYDLYRQHRGRFTVSDWPSGDAAAVTGEDKDTIDAVLSGYGDLTGQQLSDMTHAERPWLAARGALPNGARCNVGISQDVMQDYFGGLDAEQSEDPTHL				NA	NA	NA	NA	NA
D1-29_03578	228			hypothetical protein	GTGGCGCGCAAGAAGAAAAGCGGTAATGGCAAGTTCCTCTCCCGGAAGATGCGGAGGAGGCTGACGGAGTGGCTCCTGATCGGACTGCTGATCAACAGTGCTTCCGGTCCCGTGCCCCTGGCACCCACACTTCCGGGTCCCATCCTCCCGGGTAGTCAGGGCGGTGCACCTCTCCCGTCCGTGATAGTGCCCGCACCCGGCACAGTGCCACCTCACTGCGGACCCTGA	MARKKKSGNGKFLSRKMRRRLTEWLLIGLLINSASGPVPLAPTLPGPILPGSQGGAPLPSVIVPAPGTVPPHCGP				NA	NA	NA	NA	NA
D1-29_03580	231			hypothetical protein	GTGTTGGAAGCCTCGAAGGGAAAGACCATGCACCGCACAGCCGTCCGTTACGTCACCAAGACCACTTCCGCCGCCGGCGGTGCACTTGCCACCGCAGCCACGTCCGTGGCGGCAGCCGCCGTCGCAGCGTCCATTATTTTCAGTCCCGTCGCAGATGCTTCAGCCCGGATGGACGGAGTCAGCGAGGACCTGCTCCGGGCGGTGCAGCTCAACCAGATCACCGAGGAGTAG	MLEASKGKTMHRTAVRYVTKTTSAAGGALATAATSVAAAAVAASIIFSPVADASARMDGVSEDLLRAVQLNQITEE				NA	NA	NA	NA	NA
D1-29_03581	492			hypothetical protein	ATGGCAGGCGAGTCAACGTTCGATGTCGTAAGCAAAGTAGACAAGCAGGAAGTGGCCAACGCGCTGAACCAGGCGCAGAAGGAAATCGCCCAGCGCTACGACTTCAAAGGCGTCGGCGCCGAGGTTGATTTCAGCGGCGAGAAGATCCTGATGAAGGCGAACTCCGAGGAACGCGTGTTGGCCGTACTGGACGTCCTCCAGTCCAAGCTCATCCGCCGCGGCATCTCGCTCAAGTCGCTGGACACCGGCGAGCCGTACGCCTCCGGCAAGGAGTTCCGCCTGGAAGCCTCCATCAAGGAGGGCATCGCCCAGGATCTGGCCAAGAAGATCAACAAGCTCATCCGCGACGAGGCCCCCAAGTCGGTCAAGTCCCAGATCCAGGGCGATGAGCTCCGGGTGACGTCAAAGTCCCGCGACGATCTCCAGGCAACCATGGCACTGCTGAAGGACTTTGACGAAGCCGATCTCCAGTTCGTCAACTTCCGCAGCTAG	MAGESTFDVVSKVDKQEVANALNQAQKEIAQRYDFKGVGAEVDFSGEKILMKANSEERVLAVLDVLQSKLIRRGISLKSLDTGEPYASGKEFRLEASIKEGIAQDLAKKINKLIRDEAPKSVKSQIQGDELRVTSKSRDDLQATMALLKDFDEADLQFVNFRS	PGPT0012210_1089	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0012210-yajQ-K09767	NA	NA
D1-29_03582	867	htpX	COG0501	Protease HtpX	GTGCACAAGCATTACAACGGCCTGAAGACCGCGGCGCTTTTCGGTGTGCTTTGGGCGGTGCTGCTGGGACTGGGCGCCCTGATCGGGTTGAACACCCGGAGTTCCGCGCCCATCTGGATCATGGCCGTCATTGGTGTGGCCACCACGTTCTACGGCTACTGGAACAGCGACAAGATAGCCATCCGCTCTATGGCGGCCTACCCCGTCACCGAAGCGCAGGCACCCTACCTCTATCAGATAGTCCGCGAGTTGTCGGTGCGGGCCAACCAGCCCATGCCGCGCATCTATCTCTCACCCACCATGAATCCGAATGCCTTTGCCACCGGCCGGAATCCTAAAAACGCGGCGGTCTGCTGCACGGAAGGGATCCTGCAATTGCTGGATGCCCGTGAACTTCGCGGTGTCCTGGGACACGAACTCATGCACGTTTACAACCGGGACATTCTCACGTCTTCCGTGGCGGCCGCCGTCGCCGGCGTGATCACGTCCGTGGGCCAGATGCTGTTGTTCTTCGGCGGTGACCGCCGGAATGCCAACCCGCTCGCCATGCTGGCCATGGCTTTGCTTGCGCCCTTTGCGGCGTCGCTGATCCAGCTGGCCATCTCCCGCACCCGGGAGTACGACGCCGACGAGGACGGTTCGGAGCTCACCGGCGATCCGCTGGCACTCGCCTCAGCCCTGCGCAAGATTGAGCAGGGGGTCAAGATGGTGCCGCTGCCGCAGGACCAGAAGCTGGTGAACGCTTCGCACCTGATGATCGCCAACCCGTTCCGCGGCGGCGCCATGACCAAGCTCTTCGCCACCCATCCGCCCATGAGTGACCGGATTTCCCGGCTCGAGCGGATGGCAGGCCGGCCGCTGCGCTAA	MHKHYNGLKTAALFGVLWAVLLGLGALIGLNTRSSAPIWIMAVIGVATTFYGYWNSDKIAIRSMAAYPVTEAQAPYLYQIVRELSVRANQPMPRIYLSPTMNPNAFATGRNPKNAAVCCTEGILQLLDARELRGVLGHELMHVYNRDILTSSVAAAVAGVITSVGQMLLFFGGDRRNANPLAMLAMALLAPFAASLIQLAISRTREYDADEDGSELTGDPLALASALRKIEQGVKMVPLPQDQKLVNASHLMIANPFRGGAMTKLFATHPPMSDRISRLERMAGRPLR	PGPT0014605_3233	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014605-htpX|ykrL-K03799	NA	NA
D1-29_03583	804			hypothetical protein	ATGAGTCTGTCCAGGCGGCTTCTTTTTGCATCGGCGGTCTGGGAAGTGGCCCGCCCGCGGACCGCGTTGACGGCCGGCCACCTCCTCATCCGGCTGAGCAACCCCGCTGTTGCATTCGATCTCCACTCCGCTGCCGACTGGCTAGTGTGCCATCGTGCTGCCCGTGAGGCCCTCGGCGAGGTGCTGGACGCGCGGACCTGCACCGTGGTGTTCGCCCACCAATGGCATCCCATCGGGGCAGCCATTGGAGAGCCGGAGGTGGAATCTTCCACACCCACTTTCCATATGTTCGGACGCTGGGAGGGCGAGACGGCCAGCCCCGGCGAGCAATTCAGGCTTCCCGCCCAGCGCCGCGTCCCGGTCCCCGCGGAGGAACTGGCCACGTACGACGACGGCTTCCGGGCTACCCTGCGGCGCTCGGCAAAGGAGCTCGGCAAGACAGCCCCTGCCGCCGAAGATTGGGGCCGGGCAGGCGGGCCTCTTCCCGCCATCCGGTCGTGGTCCCCCCGGGTGAAGGCCGGGAATCATCACACTGTCCTGTCCGCGGAAGCCCTTGACCCGGAGAGCCCGCCATCGGGCCGCAGCCCCGGAACCTTCGGTGTTTCGGCGCCTGCACTGCTGGCCATGGCCGCGGAGCTCCAGGTGCTCACTGGCCGACGCGGTGTCAGCGGGCTCAGCTGTGTGGTTCCCGACAACGGCAGCGGCCCGCTGGAAGTCCACGCCCTGGGCCGGGCAGCAGGTGAACCCGTCAACCCCATGGAACGGCTGCTGGACCTGCCCAAGGTTAGCCAAGCCTTATTGTGA	MSLSRRLLFASAVWEVARPRTALTAGHLLIRLSNPAVAFDLHSAADWLVCHRAAREALGEVLDARTCTVVFAHQWHPIGAAIGEPEVESSTPTFHMFGRWEGETASPGEQFRLPAQRRVPVPAEELATYDDGFRATLRRSAKELGKTAPAAEDWGRAGGPLPAIRSWSPRVKAGNHHTVLSAEALDPESPPSGRSPGTFGVSAPALLAMAAELQVLTGRRGVSGLSCVVPDNGSGPLEVHALGRAAGEPVNPMERLLDLPKVSQALL				NA	NA	NA	NA	NA
D1-29_03584	486	furA	COG0735	Transcriptional regulator FurA	ATGACGGAAGACTTTGGAGGCCATGAAGCCTGGGCTGCCGCCCTGCGCGCCCACGGCCGCCGGGTGACGAAGCAGCGGCTTGCCGTGTTGGCCGCCGTCGAACACCACCCCCATTCCCCCGCGGAAAGCATCCTGGCCGCCGCCCGCGCCGAGCTGCCCGAGCTCACCGCCCAGTCCGTCTACGTGGTCCTGGGAGACCTGACCGATCTGCAGATGCTGCGCCGCTTCGAGCCGCCGCACTCCCCCGCGCTTTATGAAACCCGGGTCGGCGACAACCACCACCACGCCATCTGCGTCAGCTGCGGCCGCGTGGAGGATGTGGAATGCGCCGTAGGCCACGCACCCTGCCTCACGCCGCACTGGGACGAAAACTCCCGGCCAATGACCATCCAGATCGCCGATGTCCTCTACCAGGGCATCTGCGAAGACTGCCAGCGGTCCCAAAAACTTCCTTCTGAACGTCCCTCACAAGTAATCGAGAAATAG	MTEDFGGHEAWAAALRAHGRRVTKQRLAVLAAVEHHPHSPAESILAAARAELPELTAQSVYVVLGDLTDLQMLRRFEPPHSPALYETRVGDNHHHAICVSCGRVEDVECAVGHAPCLTPHWDENSRPMTIQIADVLYQGICEDCQRSQKLPSERPSQVIEK	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
D1-29_03585	1488	katA	COG0753	Catalase	ATGACTGCCATTTCAACCACACAGTCAGGTGCGCCGGTCACGTCCGACGCGCATTCGAAGTCAGTTGGTGCCGACGGTGCCATCATCCTGACTGACCACTACCTGGTGGAAAAGCTCGCCCAGTTCAACCGCGAGCGGGTGCCGGAGCGCGTAGTGCACGCCAAGGGCGGCGGCGCATTCGGTACGTTCAAGGCCACCGAGGACATCTCGGCCTACACCAAGGCCGCGTTCCTGCAGCCGGGTGTTGAGACCGAGATGCTGATCCGTTTCTCCTCCGTCGCCGGCGAGAACGGCTCCCCCGACACCTGGCGCGACCCCCGCGGGTTCGCCGTGAAGTTCTACACCTCCGAGGGCAACTACGACCTCGTGGGCAACAACACCCCCGTCTTCTTCATCCGCGACGGCATCAAGTTCCCGGACTTCATCCACTCCCAGAAGCGCCTCCCGGGTACCCACCTGCGGGACGCCGACATGCAGTGGGACTTCTGGACCCTCTCCCCCGAGTCCGCACACCAGGTCACCTGGCTCATGGGCGACCGCGGCCTGCCGGCTTCCTGGCGTGAAATGCAGGGCTATGGCTCGCACACCTACCAGTGGATCAACGCCGCGGGCGAGCGTTTCTGGGTCAAGTACCACTTCAAGTCCAACCAGGGCGTCAAGACCATCACGGGTGACCAGGCAGAAGAGCTGGCCGGCTCGGACGCGGACTTCTACATCCGCGACCTGTCCGAAAACATCGAAGCCGGCAATTTCCCGTCCTGGGACCTGCACGTGCAGGTCATGCCCTACGAGGACGCCAAGACCTACCGCTTCAACCCGTTCGACCTGACCAAGGTCTGGCCGCACGCTGACTACCCGCTGATCAAGGTGGGCACCATGGAGCTGAACAAGAACCCGGAGAACTACTTCGCGCAGATCGAGCAGGCCACCTTCGCGCCGTCGAACTTCGTGCCGGGCATCGCCGCTTCCCCGGACAAGATGCTGCAGGCCCGCATCTTCTCCTACGCAGACGCGCACCGCTACCGCGTGGGCACCAACCACGCCCAGATCCCGGTCAACCAGCCCAAGAACCAGGTGAACAACTACAGCCAGGACGGCTCAGGACGTTACCTGTTCAACGCGCCGTCCGTGCCGGTTTACGCACCGAACACCTTCGGTGGCCCGGCTGCGCTTGAGCCTCAGAACCCGGCCGGCGGGTGGGAGAACGACGGCGAGCTTACCCTCGCTGCGCACACCCTGCACGCTGAGGACAGCGACTTCGGCCAGGCCGGCACGCTCTACCGCGAGGTCTACGACGATGCCGCCAAGGCCCGCTTCCTGGACACCATCACCGGTGCCGTAGGCGGCGTCAAGCGCTCCGACATCAAGGAACGCGCCATCCAGTACTGGACCAATGTTGACGCCGAGCTCGGCGCCAAGCTGCGGGCCAACCTGGGCGCCGCTTCCGCCGCAGGTTCCGACGCTGAGGCCGCCAACAAGATCGGCTAG	MTAISTTQSGAPVTSDAHSKSVGADGAIILTDHYLVEKLAQFNRERVPERVVHAKGGGAFGTFKATEDISAYTKAAFLQPGVETEMLIRFSSVAGENGSPDTWRDPRGFAVKFYTSEGNYDLVGNNTPVFFIRDGIKFPDFIHSQKRLPGTHLRDADMQWDFWTLSPESAHQVTWLMGDRGLPASWREMQGYGSHTYQWINAAGERFWVKYHFKSNQGVKTITGDQAEELAGSDADFYIRDLSENIEAGNFPSWDLHVQVMPYEDAKTYRFNPFDLTKVWPHADYPLIKVGTMELNKNPENYFAQIEQATFAPSNFVPGIAASPDKMLQARIFSYADAHRYRVGTNHAQIPVNQPKNQVNNYSQDGSGRYLFNAPSVPVYAPNTFGGPAALEPQNPAGGWENDGELTLAAHTLHAEDSDFGQAGTLYREVYDDAAKARFLDTITGAVGGVKRSDIKERAIQYWTNVDAELGAKLRANLGAASAAGSDAEAANKIG	PGPT0014380_3456	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
D1-29_03586	636			hypothetical protein	ATGAGCACATTTCAGGGCATTCCGGCGGAGGCCTTCGCGTTCTACGCGGAGCTTGAAAACAACAACAACCGCGAGTGGTGGCTTGAGCATAAGGACAGCTACAACAGCCTGGTCCGCGAACCGCTCACGGCGCTTCTCTCGGAGCTGGAACCCACCTTTGGCCCAGCCAAGATCTTCCGGCCTAACAGGGACATCAGGTTCTCCCAGGATAAGTCGCCCTACAAAACCGCCCAGGGCGCCTTCGCCTCCGCCCAGGAAGGTGTGGGCTACTACCTGCAGATTAGTGCCGACGGCCTGCTGGTTGGTGGCGGCTACCATTCCCACTCCCCTGCCCAGCTGGTCCGCTTCCGGAACTCTGTTGACGCTTCCGGGACAGGCGAGTCCCTCCGTCGGATCGTTGAAGCCGTCGCTGCAGACGGCTTCGCGGTGGAAGGCGAGAAACTCAAAACCGTTCCCCGGGGTTACGCCCGCGACCATCCCCGGGGCGAGCTCCTCAAGCACAAGTCACTCTCCGCCAGCGTGAACCTCGGACAGCCGGATTGGTCCGCCACGCCGGGCGCCGTGCAGGAAGTCGCCAGGCGGTGGGAACGTCTGCGGCCACTCGTGGACTGGGTGGGACGCCACGCCGCTCCCTGA	MSTFQGIPAEAFAFYAELENNNNREWWLEHKDSYNSLVREPLTALLSELEPTFGPAKIFRPNRDIRFSQDKSPYKTAQGAFASAQEGVGYYLQISADGLLVGGGYHSHSPAQLVRFRNSVDASGTGESLRRIVEAVAADGFAVEGEKLKTVPRGYARDHPRGELLKHKSLSASVNLGQPDWSATPGAVQEVARRWERLRPLVDWVGRHAAP				NA	NA	NA	NA	NA
D1-29_03587	606			hypothetical protein	ATGGCCCGCCCCGCGAAACCGGAACGCAAAGCAGAGCTGCTGTGCGAGATCCTTGACTACCTGATGGACAAAACCCTGGCTGAACTGACCTTCCGCAGCCTGGCCGAAGGACTTGGCATCAGTGCCTACGTGCTGGTCTACCACTTCGGCAGCCGGGAGCAGCTGGTTAACGAAATCATCCGCTCCATTGAATCCAGGCTGGACAGCATGCGCAGCACGGACGTCCAGGACATTGACCGCGAAGCCTGGCGGAGCTACCTGCTGGAGTCCTGGCAGTGGACCATGGCGCAACGCAACCGGCACCTGGCCAGGCTGGAATTCGAGGCCACCGCACAGGACATCGTGGCGGCCGAGCCGCGTGGAACGTCCCAGGAGCATTTCCGCATGCTGCACCACAAGACGAGGGACTGGCTGGTGGTGCAGGGGATTCCCGAGGAGTTTGCCGACACCGACGCACGTCTGTTCACCTCCACCTTCTACGGCCTGCAGTTCGACTTTGTGGTGATGAACCAGCCTGAGGCGGCAACCAAGGCCTTTGAACTGATGCTGACCGTCTTCTTCAGCAACCTGGAAAGCCGGCTGGCCGCCGTAGCCCAAGAGGCCTGA	MARPAKPERKAELLCEILDYLMDKTLAELTFRSLAEGLGISAYVLVYHFGSREQLVNEIIRSIESRLDSMRSTDVQDIDREAWRSYLLESWQWTMAQRNRHLARLEFEATAQDIVAAEPRGTSQEHFRMLHHKTRDWLVVQGIPEEFADTDARLFTSTFYGLQFDFVVMNQPEAATKAFELMLTVFFSNLESRLAAVAQEA				NA	NA	NA	NA	NA
D1-29_03588	1413	hisC_3		Histidinol-phosphate aminotransferase	ATGAACAACGATAGCAGTTCGCGGATAGCCACGCGACTCAGGGAGTGGATCGCCGGCGCCGGACCAGGCGCAAAGCTGCCGTCCACCCGTTCACTGGTTGCCGAGTACCAGGCCAGTCCGGTGACGGTGCAAAAGGCGCTCCAGACCCTGACGGGGCAAGGCCTGATAGAGAGCAGGCCCGGCGTCGGGACCTTTGTGCGCGCGGTGCGCACCGCCCGCCCGTCTGACTACGGCTGGCAGACCGCTGCCCTTCGGTCGCCCCAGGCGCCGCTTCCGCCGGCGTCGGCCACGATGCGCGGGGCGTCCAACGATGCCATCGCCTTCCACTCCGGCTACCCCGACCGGGAACTCCTGCCCGAGCGCCTGGTCCGGACGGCGCTCATCCGCGCGGCCCGGGGTGACGCGGCCCTTTCCCGTCCGCCGGCAGCCGGGCTTCCCGAGCTGCAGTCCTGGTTCGCGCAGGAACTCAGTGCCTCCACGCCGGTTGGCATCACCCCACCCAACCCCAGCGATGTCATTGTGCTGCCGGGAAGCCAGAGCGGACTCAGCTCCATCTTCAGTGCCCTGGCCGGCAGCGGGCAGCCGCTGCTGATGGAGTCGCCAACCTATTGGGGTGCCATCCTGGCGGCGGCCCAGGCAGGTGTCCGCGTAGTCCCGCTGCCCAGCGGACCGGACGGTCCCGATCCGGAGGACCTGACCCGCGCGTTTGAGGAGACAGGGGCGCGCCTGTTTTATGCCCAACCCAACTACGCCAATCCCACCGGCGCGCAGTGGGCCGCGGGGCGGGGCGAGAAGATCCTTGACGTGGTGCGTAAGTACGGCGCCTTCCTGGTGGAGGATGACTGGGCGCATGACTTTGGCATCACCACCACTCCAGTGCCGGTTGCCGCCCAGGATGATTCGGGGCACGTCATCTACCTCCGCTCCCTGACCAAGAGCGTCTCCTCGGCCATCCGCATCGCCGGCGTCATCGCCCGCGGACCGGCGAGGGAACGCATCCTTGCCGACAGGGCAGCCGAATCGATGTACGTCAGTGGCCTGCTCCAGGCGGCAGCGCTCGATGTGGTGACTCAGCCGGGCTGGCAGACGCACCTGCGGAGCCTCCGCCATCAGCTCCAGTCCCGCCGTGACCTGCTGGTTGCCAGCGTGCGCGGTCATATCCCGCAGGCCCACCTGGAGCACGTGCCCAAGGGAGGGCTGAACCTCTGGCTGCGCCTGCCTGACGGGACCGACCTTGAGCGGCTGACGCTCGACTGTGAAAGGGCCGGGGTGATGATCGCGGCGGGCACAGACTGGTTCCCGGCTGAACCTGCCGGTGCGTTCATTCGGCTTAACTACTCGGGACCAAACCCGGGTGCCTTTCCTGAGGGTGCCCGGATCATCGGCCAATGCATCGGGCACACCGGGTCATAG	MNNDSSSRIATRLREWIAGAGPGAKLPSTRSLVAEYQASPVTVQKALQTLTGQGLIESRPGVGTFVRAVRTARPSDYGWQTAALRSPQAPLPPASATMRGASNDAIAFHSGYPDRELLPERLVRTALIRAARGDAALSRPPAAGLPELQSWFAQELSASTPVGITPPNPSDVIVLPGSQSGLSSIFSALAGSGQPLLMESPTYWGAILAAAQAGVRVVPLPSGPDGPDPEDLTRAFEETGARLFYAQPNYANPTGAQWAAGRGEKILDVVRKYGAFLVEDDWAHDFGITTTPVPVAAQDDSGHVIYLRSLTKSVSSAIRIAGVIARGPARERILADRAAESMYVSGLLQAAALDVVTQPGWQTHLRSLRHQLQSRRDLLVASVRGHIPQAHLEHVPKGGLNLWLRLPDGTDLERLTLDCERAGVMIAAGTDWFPAEPAGAFIRLNYSGPNPGAFPEGARIIGQCIGHTGS				NA	NA	NA	NA	NA
D1-29_03589	957			hypothetical protein	TTGGGAGTAGCGGCCTTCTCGCTCACGATACCGTTGACACGGATTGCGGTCGTAGGCCTGGCTCCGCTTTTTATTGGGTCTGCCCGTGCTGTGCTGGCCGCGTTCCTGGCAGCTGCCGCCCTTGCACTCGCCCGGCAGCGCCTTCCCCAGGGTGTGCAGTGGTTGCGCCTGATGGTGGTGGCCCTTGGCGTCGTGGTGGGTTTCCCGCTGCTGACCACCTTCGCGCTGACTGCCGTGCCCGCCAGCCACGGCGCCGTCGTCGTCGGACTGCTGCCCGCCGCCACGGCGACAGCGGCGGTACTCCGTGGACGTGAACGGCCCCCGCCGGCCTTCTGGGCAGTCGCCTTGGCCGGGGCGCTGGCTGCCATTGGGTTTGCCTTCACCCAGTCAGGCAGTTTCGGCCAGCTGCACTGGGCGGACCTGCTCATCCTCGGGGCGGTGGTGGCTGCGGCGGTGGGCTACGCCGAAGGCGGGCTTCTTGCCCGCGAGCTGGGCTCATGGCAGACCATATCCTGGGCGCTCGTCCTCGCCTCGCCGCTGATGGCCGGCCTCACAGCCCTGTCCGTCTCGCAGCAGCCGCCGGCCGGCACGTTCTGGCAATGGTCCGCTTTTGCCTACCTTGGTGTGGTCAGCATGTTCCTCGGCTTCTTTGCGTGGTACCGCGGCCTGGCCATTGGCCCCATCTCCCACGTCAGCCAGATCCAGCTCATCCAGCCCGTGCTCAGCATCTGCTGGGCCGCGCTGCTGCTGGGCGAGGTCCTCTCCCTGACAACCCTCATCGGCGGCCTCGCCGTCATCCTCTGCGCCGGCGCCGCCGTCCGCGTCCGACTCCGTCCGGCGCCTGCTGCCTGCGTGGCTCCACCCTCCACAGAATTACTAGAAACAGCCACAGAAGCACTAGATCCAGCAAAGGAAATCCACGATGTACATCCCAGCCCACTTCACAGCAGGCCCTGA	MGVAAFSLTIPLTRIAVVGLAPLFIGSARAVLAAFLAAAALALARQRLPQGVQWLRLMVVALGVVVGFPLLTTFALTAVPASHGAVVVGLLPAATATAAVLRGRERPPPAFWAVALAGALAAIGFAFTQSGSFGQLHWADLLILGAVVAAAVGYAEGGLLARELGSWQTISWALVLASPLMAGLTALSVSQQPPAGTFWQWSAFAYLGVVSMFLGFFAWYRGLAIGPISHVSQIQLIQPVLSICWAALLLGEVLSLTTLIGGLAVILCAGAAVRVRLRPAPAACVAPPSTELLETATEALDPAKEIHDVHPSPLHSRP				NA	NA	NA	NA	NA
D1-29_03590	624	paiB	COG2808	Protease synthase and sporulation protein PAI 2	ATGTACATCCCAGCCCACTTCACAGCAGGCCCTGAAGCACTCCACGCGCTCCTCACCCGCCCGGCCGCGGCCAACCTGGTCACCACGACCGGGAACGGCATGCTCGCAACGCTGCTGCCTTTTGTCTACGATCCGTCTGTGGGCGAACACGGTGCCCTGCAGGCGCACGTGGCCCGGAACAACACGCAGTGGTCTGAACCTGCTGTCGGCGAGTCCCTCGTGATCATCCAGGGTGCCGACGCCTACATTTCGCCCTCGTGGTACGCATCAAAGGCCGAGCACGGACGCGTTGTCCCCACCTGGAACTACTCCACCGCGCATGTCTACGGAAAGCTCGTCATCCACGATGACGCTGCTTGGCTGGACAGCCTTGTCAGGCGGCTCACAGATCGCCACGAAGCCGCGTCCGAGAAGCCCTGGTCTGTGGATGATGCACCGGAGCGGTACATCTCCGGCCAGCTGCGGGCGATTGTCGGCGTCGAACTGCTCATCACCAGGATCGAAGCCAAAACCAAACTCAGCCAAAACCGGCCCGAGGCCGACATCGACGGCGTGGTGGCCGGACTTCAGGCGAGCGGGCAGACAGAGAGCGCTGCCGACGTCGAGCGGGCCCAGGGCCGCTAG	MYIPAHFTAGPEALHALLTRPAAANLVTTTGNGMLATLLPFVYDPSVGEHGALQAHVARNNTQWSEPAVGESLVIIQGADAYISPSWYASKAEHGRVVPTWNYSTAHVYGKLVIHDDAAWLDSLVRRLTDRHEAASEKPWSVDDAPERYISGQLRAIVGVELLITRIEAKTKLSQNRPEADIDGVVAGLQASGQTESAADVERAQGR	PGPT0014760_928	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014760-paiB|yumE-K07734	NA	NA
D1-29_03591	1533	yhdG_4	COG0531	putative amino acid permease YhdG	ATGAATCTTCTCCGGACCAAATCCATCGAGCAGTCAATGGCCGACGCCGATGAACCCGGACGCAAGCTCAAGCGTTCGCTCAGCACTTGGGACCTCATGATTATGGGCGTCGCCGTTGCTGTCGGCGCCGGCATCTTTTCCGTGGGTGCCAAGGCCGCAGCCAACTTCTCCGGCCCCGCGGTGACAGTGTCCTTCGCCATCGCAGCCGTCACGTGTGCGCTGGCCATCATGTGCTACGCCGAGTTCGCCACCGCCATCCCCGTTGCAGGTTCGGCATACGTCTTCACGTACGCCACCATGGGGGAGCTGCTGGCCTGGATTATCGGCTGGAACCTGATCCTGGAGCTTTTCACCGCCGCCGCCGTGATCGCCAAGTACTGGGGCATCTACCTCAGCAAGGTGTTCGCGCTGATGGGCGCAGATGTTCCGCCGGCCCTCTCCCTTGGCGGCGTTGACCTCTACTGGGGCGCGTTCCTGATCGTTGCCGTGTTCACCGTGCTCCTGGTCCTGGGCACCAAGCTCTCCGCCCGCGTTGGCAACATCTTCACACTGATCAAGATCGCCGTGGTCCTCTTTGTGATCGTGGTGGGCTTCACGTACGTGAAGTTCGAAAACTACACTCCCTTCATCCCCGCGGCCGAACCCACTGGCGGGAGCGGTGCCGCCGACGTGCTCAAGCAGTCGTTCTTCGGCTTCCTCACCGGTGCCGCACCTGCCCAGTACGGAACGCTGGGCATCTTCGCCGGGGCAGCCCTGGTGTTCTTCGCCTTTATCGGGTTCGACGTGGTGGCCACCTCGGCCGAGGAAGTCAAGAACCCCCAGAAGACCCTGCCGCGCGGCATCTTCGGTGGCCTCGCCGTCGTGACCCTGCTCTATATCCTGGTATCCCTGGCACTGACCGGCATGGTGTCCTACACGGAGCTTGCCGAGGCCGAAAGCCCCACGCTCACCACGGCCTTTGAAGCGGTAGGCGACACCTCCGCCGCGAAGGTCATCGCCTTCGGATCCCTGGTGGGCCTGACCACCGTGATTATGGTCCTCCTGATGGGCCTGTCCCGGGTTGTGCTGGCCATGAGCCGCGACGGGCTGCTGCCGCGCTCACTGTCCAAGACCAGTGAAAAACGTTCGACGCCGGTGCGCCTCCAGGTGATCTGCGGCGCCGCCGTCGCACTGGTTGCCGGGCTGACCAACGTGGACCTGCTGGAAGAAATGATCAACATCGGCACATTGTCGGCGTTTGTCATGGTGAGCCTGGGTATCCTGGTGCTGCGCAAGAAGCGCCCGGACCTCAAGCCTGCATTCCGGGTGCCGTTCGGCAAGGTCCTTCCGGTGCTTTCCGCGGCGCTCTGCCTATACCTGATGACAAACCTGGCCGTGGAAACCTGGATCTTCTTCGCCATCTGGCTGGTCATCGGCATCATCATCTACTTCTCCTATGGCCAACGCCACTCACGCCTCAATGAGCGTTTCACCGAGGCGAAGGAAGCGGTCAACGGCCCGGCCGCCAGCGAGGACGAGTTCTCCCGCGCCTGA	MNLLRTKSIEQSMADADEPGRKLKRSLSTWDLMIMGVAVAVGAGIFSVGAKAAANFSGPAVTVSFAIAAVTCALAIMCYAEFATAIPVAGSAYVFTYATMGELLAWIIGWNLILELFTAAAVIAKYWGIYLSKVFALMGADVPPALSLGGVDLYWGAFLIVAVFTVLLVLGTKLSARVGNIFTLIKIAVVLFVIVVGFTYVKFENYTPFIPAAEPTGGSGAADVLKQSFFGFLTGAAPAQYGTLGIFAGAALVFFAFIGFDVVATSAEEVKNPQKTLPRGIFGGLAVVTLLYILVSLALTGMVSYTELAEAESPTLTTAFEAVGDTSAAKVIAFGSLVGLTTVIMVLLMGLSRVVLAMSRDGLLPRSLSKTSEKRSTPVRLQVICGAAVALVAGLTNVDLLEEMINIGTLSAFVMVSLGILVLRKKRPDLKPAFRVPFGKVLPVLSAALCLYLMTNLAVETWIFFAIWLVIGIIIYFSYGQRHSRLNERFTEAKEAVNGPAASEDEFSRA	PGPT0020810_1063	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
D1-29_03592	246			hypothetical protein	ATGTGTTATCCGGCGGGCGAGTTCATCACCGGCGACTCGGACGTCCTGCTGGGCCTTTTCGACCTCTCCGACGGGGCGGAGCCGCAGCCGCTCGAGTTCTGGATGTCCCGCGAGCAGTTCAACTATTGGAGCCACACCCACCTGTCCGTTGACGTGGTTCCCGGGCGGGGGAGCGGATTTTCGGTGGAAGCGCCTGAAGGTGTGCGCTTCCTGATCCGGTCCACCGTGATGGACTGGCTTGACTAA	MCYPAGEFITGDSDVLLGLFDLSDGAEPQPLEFWMSREQFNYWSHTHLSVDVVPGRGSGFSVEAPEGVRFLIRSTVMDWLD				NA	NA	NA	NA	NA
D1-29_03593	1524	thcA	COG1012	EPTC-inducible aldehyde dehydrogenase	ATGACTGTTTATGCACAGCCCGGCACTGAGGGCTCAAAGGTCACTTTCAAGGACCGGTACGATAACTGGATCGGCGGCGAATGGGTTGCCCCGGTCAAGGGCCAGTACTTCGAGAACATCACCCCTGTTACTGGCAAGGCCTTCTGCGAGGTGGCCCGCGGGACGGCCGAGGACATCGAACTGGCACTCGACGCGGCGCACAAGGTTGCGCCGTCCTGGGGCAGGACCTCGGTGGCCGAGCGCGCGGCCATCCTGAACAAGATCGCGGACCGGATCGATGAGAACCTCGAAATGCTGGCTGTCGCCGAGTCCTGGGACAACGGCAAGCCCATCCGCGAGACCCTGAACGCAGACATCCCGCTCGCGGCTGACCACTTCCGCTACTTCGCCTCGGCCGTCCGTGCCCAGGAAGGCCGGCTGTCCCAGCTGGACGACGACACCACCGCCTACCACTACCACGAGCCCCTCGGCGTGGTGGGCCAGATCATCCCCTGGAACTTCCCCATCCTGATGGCCGTCTGGAAGCTCGCTCCCGCGCTCGCCGCCGGCAACGCCGTGGTCCTCAAGCCGGCCGAGCAGACGCCGTCGTCGATTCTGGTGCTGATGGAGCTGATTGGTGACCTGCTCCCCGCCGGTGTGCTCAATGTGGTCAACGGTTTCGGCCTGGAGGCCGGCAAGCCGCTGGCGTCCAGTCCTAGAATCCGCAAGATCGCCTTCACCGGCGAGACCACCACCGGGCGGCTGATCAGCCAGTACGCCAGCCAGAACCTGATCCCGGTCACCCTGGAGCTTGGCGGCAAGAGCCCCAACATCTTCTTCAACGACGTGGCCGAGTCCAACGACGCGTTCTACGACAAGGCGCAGGAAGGCTTCGCGCTGTTTGCCTTCAACCAGGGCGAGGTCTGCACCTGCCCGTCCCGCGCCCTGGTTCAGGAGGACATTTACGAGTCCTTCATGGCGGATGCTGTTGCCCGGGTGAAGAAGATGGTGCAGGGAAACCCGCTGGACACCGAGACTCAGGTGGGCGCCCAGGCCTCGAACGACCAGCTGGAAAAGATCCTTTCCTACATTGACATCGGCAAGCAGGAGGGCGCCAAGCTGCTGACCGGCGGTGCAAGGGCCCAATTGCCCGGCGACCTCGCCGGCGGCTACTATGTCCAGCCGACAGTTTTTGAAGGCCATAACAAGATGCGGATCTTCCAGGAGGAGATCTTCGGTCCGGTGGTGTCCGTGGCAAAGTTCAGCGACTACAACGATGCCATGGGCATCGCCAACGACACCCTCTACGGCCTCGGCGCCGGGGTCTGGTCCCGCAACGGCAACGTGGCCTACCGCGCCGGCCGTGAAATCCAGGCGGGCCGCGTTTGGGTCAACAACTACCACGCCTACCCGGCCGGTGCCGCGTTTGGCGGCTACAAGTCGTCCGGCATCGGACGTGAAAACCACTCCATGATGCTGGATCACTACCAGCAGACCAAGAACCTGCTGGTCAGCTACAACGAGAACAAACTGGGATTCTTCTAA	MTVYAQPGTEGSKVTFKDRYDNWIGGEWVAPVKGQYFENITPVTGKAFCEVARGTAEDIELALDAAHKVAPSWGRTSVAERAAILNKIADRIDENLEMLAVAESWDNGKPIRETLNADIPLAADHFRYFASAVRAQEGRLSQLDDDTTAYHYHEPLGVVGQIIPWNFPILMAVWKLAPALAAGNAVVLKPAEQTPSSILVLMELIGDLLPAGVLNVVNGFGLEAGKPLASSPRIRKIAFTGETTTGRLISQYASQNLIPVTLELGGKSPNIFFNDVAESNDAFYDKAQEGFALFAFNQGEVCTCPSRALVQEDIYESFMADAVARVKKMVQGNPLDTETQVGAQASNDQLEKILSYIDIGKQEGAKLLTGGARAQLPGDLAGGYYVQPTVFEGHNKMRIFQEEIFGPVVSVAKFSDYNDAMGIANDTLYGLGAGVWSRNGNVAYRAGREIQAGRVWVNNYHAYPAGAAFGGYKSSGIGRENHSMMLDHYQQTKNLLVSYNENKLGFF	PGPT0007176_691	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138	NA	NA
D1-29_03594	1362			hypothetical protein	ATGCGAGCGCTCGGCAAGAATGCACTGGAACTTCGGCACAAGCATGCCTCGGCAGAGCACGAACACATCAGTGCACAGGGACTCGTTTTCCCCGAGACAGATGAAGTCCCTGGCCTGCGTCAACTCATCCGGGAATCCTGGCAACGGTCCGCCAGCTTCAAGGCCAACCCTGATAACCCCGAGGCCCCGCTGGTCATGGACACGGACGAGCTGGAGGAATATCGCAGCCAGCACCCGCTGGCCAGCATTATGCCCGTGATCCATAAGCTCCTGGTCCAGCCGAGCCATGACGCCGGCCTGCTGGTGGCCGTGGGCGACGACGTCGGGCGCCTGCTGTGGGTGGAAGGCGATCCCGCCCTGCAGAGCCGTGCTGAAGGCATGATGTTCGTTCCCGGTGCCGACTGGTCCGAAGCCACAGTGGGTACCAGTGCGCCCGGCACGGCCCTGGCTCTGGGCCGGGGGATCCAGATTTCCGGGGCCGAGCACTACCAGCGTTCTGTCCACCCTTGGAGCTGCACTGCCGTACCGTTCCATGATCCCGATTCCGGGGCCCTCCTGGGCGTTGTGGATATCACCGGCGGTGCCACGGCGGTGGCACCGCACACCCTGTCCCTTGTTGAAGCCACCGTGGCGGCGGCGCAGGCACAATTGCGCATTGAGCGGCTTCAGTTCGCGGCATCACTTGCGGACCGGCCCGTCCGACGGCGGAACACCGGCAGCGCCGCCGAGGCAGCGAAGGAGGGTAACCTTTATCGGAACAGCCTGCAGCTCCTGGGCCGCGACCAGGCGCTGCTGAGCATTGAAGGAAAAACAGTGGCGCTCTCCGCCCGGCACAGCGAGATCCTGGCCCTGCTGAGCGCCCATCCCGACGGGCTGAGCGCGGAGGAGCTCTGTGCACTGCTCTACCCGGGTGATGCCTCCACCATGACTCTCCGCGCGGAAATGGTCCGGCTGCGAAAAATCCTCCAGCAGCTCAGCCCCGCCGCTGTTCCCGGATCGCGCCCGTACAAGCTCACCATGGATCTGGTGCCCGACTCCGGCCAGGTGCTGAGCTGTCTCCAACGCGGCGCTCACCGCATTGCCCTGGAAATTTACCGTGGTGCGGTGCTGCCGAAGTCTGAGGCGCCGGGTGTGGCAGTCCTCCGGGACAGGGTTTCTTCGCTGATGCGCGAGGCCGTGCTGACGGACGGCAGTGCCGAAACCCTGCTCAAGTATGCGGGGCTCCCGGAGGCAAGGGACGACGTCGGCGTCCGGATTGCCGCCCTCAAACTGCTGCCGCCGCGCTCGCCCAAGCGGGCCGCCGTCGTCGCCGATCTTGAGCGGCTTGAAACCGAACTGAGCGCCTCCCCGCCTGCCTCCTGA	MRALGKNALELRHKHASAEHEHISAQGLVFPETDEVPGLRQLIRESWQRSASFKANPDNPEAPLVMDTDELEEYRSQHPLASIMPVIHKLLVQPSHDAGLLVAVGDDVGRLLWVEGDPALQSRAEGMMFVPGADWSEATVGTSAPGTALALGRGIQISGAEHYQRSVHPWSCTAVPFHDPDSGALLGVVDITGGATAVAPHTLSLVEATVAAAQAQLRIERLQFAASLADRPVRRRNTGSAAEAAKEGNLYRNSLQLLGRDQALLSIEGKTVALSARHSEILALLSAHPDGLSAEELCALLYPGDASTMTLRAEMVRLRKILQQLSPAAVPGSRPYKLTMDLVPDSGQVLSCLQRGAHRIALEIYRGAVLPKSEAPGVAVLRDRVSSLMREAVLTDGSAETLLKYAGLPEARDDVGVRIAALKLLPPRSPKRAAVVADLERLETELSASPPAS				NA	NA	NA	NA	NA
D1-29_03595	1995			hypothetical protein	ATGTCCTCGGCCATGGTGACGGCCGCCGGGCTCCCTGCCCTGGCCGTTTCACCTGCCCCGGACCCGGCGCCGCCATCGGCCGAAGCCAGTTCCGAAGCTGTTACCGAAGCTGCTGCCGGTGCCGACCGCGGCCATGAAGCCGGTGCCGGTGACACCGAAGAAAGTGCCGACGGCGGCCAATACCTGGTCACGTATGCTCCGGGAACTGACGTTGCGGCGGAGGCGAAGTCGCTGCGGGCCAAGAACATCGGCGTCGGACGGACGTTTTCCCATGCCTTGCGCGGCGCCGTGGTGAAGGCCAATCCGGCGCAAGCTGCGGCGCTGGCCCGCTCTCCCCGGGTTTTGTCCGTAGAGGCAGACACTCCTGTTTCAATCGACGAGGTGCAGCAGCCGGCAACGTGGGGCCTGGACAGGACTGACCAGCGCACGCTCCCGCTCTCCAACTCCTACAGTTACAGCTCCGCGGGAAGCGGGGTGGCTGTGTACGTGGTGGACACCGGTGTCCTGGCGGCACATGCCGATTTTGGCGGCCGGGTAGCCGCAGGCTGGACTGCCCTCAACGACGGACTGAACTCAGGTGACTGCAACGGGCACGGCACCCACGTCGCCGGCACTGCCGCAGGCAAAACCTACGGAGTGGCAAAGGCTGCGACGATCATCCCCGTGCGCGCCCTCTATTGCGACGGCTCCGGCCTCTCGTCCGACATCATCGCGGGACTTGACTGGGTGGCCGCACACCACCAGCCCGGATGGCCCGCAGTAGTCAACCTCAGCATCGGCGGCTTCTCCAACTACACGATGGACGCCGCAGTCATGGGCGTCATCAACGACGGCATCACCGTGGTCACCGCCGCAGGCAACACAGCCACCAACGCCTGCGAGCGCTCCCCGGCCCGCGTGCCGGCGGCGCTGACCATTGCCGCAACCGACATATCAGACCGGCAGGCATCGTTCTCCAACTACGGCAACTGCGTGGACCTCTACGCCCCGGGAGTCAGCATAATCTCCGCGGGACATACTTCCACCACGGCCATCAAGAGCCTCTCGGGTACCTCAATGTCAGTCCCGCACGCGGCAGGCGCTGCCGCCGTGTTGCTCGCGGCCAGCCCTGGCCTGAGCCCTGCAGAGGTCAATGCAAAAATCATCGACAACGCCACCACAGGGGTGGTTGTGTCAGCCACCCCCGGCACCCCCAACCGCCTGCTGTACGTGAACCCTGCCACTGGGAACGCGGATTCAGAACCCAGCCCTGCTCCCACCCCGGACCTGACACGGGCGGCACTCCACAGCGCCGCGGACACGGTCGCGGCCGGTCCGGACGGGGTCCTCTGGAACTACCCGGCCAACGGAAGCGGCGGGTTTCGGCCACGGGAAGCAATCGGCGGAGGCTGGCAGGGCCTGGACACCGGCTTCGTCACGGACTGGAACCGGGACGGCGTGTTCGACCTCATAGCCCAGTGGACAGACGGTCGCCTGACCTACTACCCGGGGCTCCAAACCGGCGGCTTCAGTTCTCCCAAAACCATCGGCAGCGGCTGGGGCGGCTACGAGGTCACCATCGGCCACTGGAGCAGCACGAATCCGTATCCCGGGATTGTTGCCTATGACCCGGCAGGCACGTTGTGGCACTACCCCAACAACGCCTCCGGTACCCTCACCGGCCGAAGCATGATTGGTTCCGGGTGGGGCGGCCTCTACATCACCATGGCCGATTTTGACCGGGACGCCAAGCAGGACCTGCTCTCAAAACGACGCGACGGGTCACTGATCCTCTACCGGGGCAGCCTTCAGCTCGCAGATCCGCTCCTCATAGGTACCGGCTGGAATGTCATTGACGCCATCACAGAGGTGGAAGGCTTCCAGGGCAAGGGAAGCTACGGGCTGACCGCCCGGATGACCGATGGCCGCCTGGCCTACTACCCCATCAACAACGGGACCTGGGGCACGCCCACCATCGTTGGGTCCGGCTGGAACGGCTACTCCATCTTCCGCTAG	MSSAMVTAAGLPALAVSPAPDPAPPSAEASSEAVTEAAAGADRGHEAGAGDTEESADGGQYLVTYAPGTDVAAEAKSLRAKNIGVGRTFSHALRGAVVKANPAQAAALARSPRVLSVEADTPVSIDEVQQPATWGLDRTDQRTLPLSNSYSYSSAGSGVAVYVVDTGVLAAHADFGGRVAAGWTALNDGLNSGDCNGHGTHVAGTAAGKTYGVAKAATIIPVRALYCDGSGLSSDIIAGLDWVAAHHQPGWPAVVNLSIGGFSNYTMDAAVMGVINDGITVVTAAGNTATNACERSPARVPAALTIAATDISDRQASFSNYGNCVDLYAPGVSIISAGHTSTTAIKSLSGTSMSVPHAAGAAAVLLAASPGLSPAEVNAKIIDNATTGVVVSATPGTPNRLLYVNPATGNADSEPSPAPTPDLTRAALHSAADTVAAGPDGVLWNYPANGSGGFRPREAIGGGWQGLDTGFVTDWNRDGVFDLIAQWTDGRLTYYPGLQTGGFSSPKTIGSGWGGYEVTIGHWSSTNPYPGIVAYDPAGTLWHYPNNASGTLTGRSMIGSGWGGLYITMADFDRDAKQDLLSKRRDGSLILYRGSLQLADPLLIGTGWNVIDAITEVEGFQGKGSYGLTARMTDGRLAYYPINNGTWGTPTIVGSGWNGYSIFR				NA	NA	NA	NA	NA
D1-29_03596	1488	fprA_1	COG0493	NADPH-ferredoxin reductase FprA	GTGTCCAACCCAGGCGAAACCAGCACCAAACGTCCACTCCGCGTTGCCATCGTGGGCGCGGGACCGGCGGGTGTCTACGCCGCGGATATCCTTACCAAGTCCAACGAGGTCAAGGGCGGTGACGTGGAGGTCAGCATTGACCTCTTCGAGGCCTACCCCGCACCCTACGGCCTGATCCGTTACGGCGTGGCCCCGGATCACCCGCGTATCAAGGGCATCGTGAACGCGCTGCACAAGGTCCTCGACCGCGGCGACATCCGGTTCCTCGGCAACGTGACCTACGGCCGTGACCTGACCCTGCACGACTTCCGCGCCTTCTATGACGCCGTGATCTTCTCCACCGGCGCCATCAAGGACGCGGACCTGAACATTCCCGGCGTGGACCTGGACGGCTCCTTTGGCGGGGCGGACTTCGTCTCGTGGTACGACGGACACCCGGACGTCCCGCGTGACTGGCCGCTGGACGCCAAGGAAATCGCCGTGATCGGAAACGGCAACGTTGCCCTGGACGTGGCCCGGATGCTGGTCAAGCACGCAGACGAACTGCTCTCCACAGAAATCCCTGACAACGTCTACCAGGGCCTGAGGAACTCCCCGGTGACGGACGTGCACGTGTTCGGCCGCCGGGGCCCGGCCCAAGTGAAGTTCACCCCGCTGGAACTGCGCGAGCTGAGCCACATGAAGGACGTGGACATTGTGCTGTACCCGGAGGACTTCGAATTCGACGAAGCCTCCGACGAAGCAATCCGCAGCAACAACCAGATCAAGACCATGGTGAACACGCTGACTAACTGGCTGGTGGAGGAACATGCGGAATCGGACCAGCCGTCGTCGCGGCGGCTGCACCTGCACTTCCTGCACAGCCCCGTCGAAATCTACGAAGACAGCACCAGTGCCGACGGTAGCAGCACCAGTGGCGGCAGCGGCGGCGGGTCCGGCAAAGTGGCCGGCATCAAGTTTGAGCGGATGCAGCTTGACGGTACCGGCAACGTCAAGGGCACCGGCGAGATTATTGACTACCCCGTGCAGGCTGTTTACCGCGCCATCGGGTACCACGGCTCGCCGCTGGACGAACTGGAATACGACGCCAAACGCGGAGTGGTTCCCAACGAGGGCGGACGGGTCCTGGACGCCGAGGGAAAGCCTGTCCCGGGCATCTACGCCACGGGCTGGATCAAGCGCGGTCCGGTGGGCCTGATTGGCCACACCAAGGGCGACGCCCTGGAGACCATCGGGATGCTGCTGGAGGACCGTCCTGCCCTGCCTCCAGCCCAGAACCCGGACCCGCAGGCCATCATCCGGCTTTTGGAGGAGCGCGGCATTGAATACACCACGTGGGAAGGCTGGATCAAACTGGACGCCCACGAGGCAGCACTCGGCGCCGAGTGGACAGGGCAGGAAGACGCCGACGACGTGGTGCGTGAACGCATCAAGGTGGTACCGCGCGAGGAAATGATCAAAATCTCCCGGGCCCAGCGGACTGCTTAG	MSNPGETSTKRPLRVAIVGAGPAGVYAADILTKSNEVKGGDVEVSIDLFEAYPAPYGLIRYGVAPDHPRIKGIVNALHKVLDRGDIRFLGNVTYGRDLTLHDFRAFYDAVIFSTGAIKDADLNIPGVDLDGSFGGADFVSWYDGHPDVPRDWPLDAKEIAVIGNGNVALDVARMLVKHADELLSTEIPDNVYQGLRNSPVTDVHVFGRRGPAQVKFTPLELRELSHMKDVDIVLYPEDFEFDEASDEAIRSNNQIKTMVNTLTNWLVEEHAESDQPSSRRLHLHFLHSPVEIYEDSTSADGSSTSGGSGGGSGKVAGIKFERMQLDGTGNVKGTGEIIDYPVQAVYRAIGYHGSPLDELEYDAKRGVVPNEGGRVLDAEGKPVPGIYATGWIKRGPVGLIGHTKGDALETIGMLLEDRPALPPAQNPDPQAIIRLLEERGIEYTTWEGWIKLDAHEAALGAEWTGQEDADDVVRERIKVVPREEMIKISRAQRTA	PGPT0013215_420	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
D1-29_03597	999			hypothetical protein	GTGAGGCTCCGCCGCAGCAATGCCTCCGGCCGGGGGTACCGCCGGGTGCGTGTCGGCAAGGGTTTCAGCTACCGCGACCTGGACGGCTCCACCTTGCCCCCGGGGCCCGTCCGCGAGCGCCTGGAAAGCCTTGGGATTCCGCCGGCCTGGACGGACGTCTGGATTGCGCCCTTCGAAAACGGGCACATCCAGGCGACGGGCGTTGACGCCGTGGGGCGCCGGCAGTACATCTACCACCCCGAATGGCGCGAGCGGAAGGACCGTTTGAAGTTCGACCGTGCCCTCCAGCTGGCCGAGTCCCTGCCCTCCGCCCGGCGGCTGGTCACCCTGGATCTGCGCAGCGAAGGCCTCTCGCGGGAGCGTGTGCTGGCCGCGGCCTTCAGGATGCTGGACAGCGCGTCCCTGCGGGTCGGATCCGAACGCTACACCAACGAGAACGGCAGCCGCGGGCTGGCCACCCTGCTGTGCGCCCACGTCCAGGTGCGGAAGGACTACCTGTTCTTGAGCTTTCCGGCGAAGAGCGGAAAGGACTGGGAGTCGGTCATCCGCGACGCCGATCTCGCCCCGCTGGTGCGTGTGCTCAAACGCCGTGGAGGCAACGCCCGGCTCCTTGCCTACAAGGATGGCCGCCGCTGGAAGCCAGTCACCAGCGCTGACATCAACGCCTACGTCAAGGAGCGGACCGGCTCGGACTTCACGGCGAAGGATTTCCGGACGCTGCGCGGCACTGTGGCCGCGGCAGTCAGCCTGGCCCGGAGCGGCCCCCAGAAAACTGTGGCCGCGCGGAAGAGCGCCATCAGCCTGGCCATGCAGGAGGCCGCAGCTGTCCTGGGGAACACGCCGTCAATCGCCCGCAAAAGCTATGTGGATCCCAGGCTCCTGGACCATTTTGCCAATGGCGCCACCATTGATCCCAAACGGCTGGACTCGGCCGAGGCGGAGCTCCGGGCACTGCTGTACCGCGAAGGCGACATTGTTCCGCTGCGGAAAAGCGGCTGA	MRLRRSNASGRGYRRVRVGKGFSYRDLDGSTLPPGPVRERLESLGIPPAWTDVWIAPFENGHIQATGVDAVGRRQYIYHPEWRERKDRLKFDRALQLAESLPSARRLVTLDLRSEGLSRERVLAAAFRMLDSASLRVGSERYTNENGSRGLATLLCAHVQVRKDYLFLSFPAKSGKDWESVIRDADLAPLVRVLKRRGGNARLLAYKDGRRWKPVTSADINAYVKERTGSDFTAKDFRTLRGTVAAAVSLARSGPQKTVAARKSAISLAMQEAAAVLGNTPSIARKSYVDPRLLDHFANGATIDPKRLDSAEAELRALLYREGDIVPLRKSG				NA	NA	NA	NA	NA
D1-29_03598	1068	rarD	COG2962	Protein RarD	ATGCCGGAGTGGAATATATGTCCTTCGACTGGTGTTAATGGGAGCGTGCCTACTCCCCATGGATCAGCCTCCACCCCCGCGGCCAGCGCACCCGTCCAGAATCCCGGGACGGGCCCCGGAAGGGCTGCAAAATCAGTAACACCCGGCCTCAAGGCGGTGGACAAGGAGACGACGGCGGGAGTCCTGTACGGCATCGCCGCTTATGGGGCGTGGGGGCTGCTCCCGTTGTACTTCCTTGCGCTGATGCCCGCCAACGCCGTCGAAATTGTGGCCAACCGCGTCGTTTGGTCGTTGCTGTTCTGTGTACTCCTGATCGCCGTCACCCGCTCCTGGGCAGCGCTCAGGGGAGCCTTCAGGGACCGGTCCGTTTTCGGCACGCTTGCCATCGCGGCCGCCCTTATTGCGGTGAACTGGCTGACCTATACCTACGGGGTGACCACGGGGCAGGCGGTTGAAGCCTCCCTGGGATACTTCATCAACCCCCTGGTGTCCGTCCTGCTCGGTGTGTTCGTCCTCAAGGAAAAGCTGCGTCCGCTCCAGTGGGCCGCCGTCGGCATCGGTTTTGTGGCGGTTGTGGTGCTGACCGTGTCCTACGGCAAGCTCCCCTGGATCGCGCTGACCCTGGCCGTCAGCTTTGGCCTGTATGGCTTCGTGAAGAAGCGGGTAGGTCCCCGCGTGGATGCGGTGACTAGTCTCAGCGTCGAGACCATGGTGCTCGCTCCGCTCGCGGCGGCTACCATGATTTTCCTGGCCGTCAGCGGCTCGGCCACTCTCGCCAGCGAGGGCGCCGGCCACTTCTGGCTCCTGGTGGCGTCCGGTGTTATTACCGCTGTACCGCTGCTGTTCTTTGGCGCATCGGCCCGCCGGCTGCCTATGACCACCATCGGGCTGCTTCAGTACTTCGCCCCGGTCCTCCAGTTCGTCGTCGCCGTCGCGGTGTTCCAGGAGGCCATGACGCTGGACCGGTGGATCGGGTTCGGTGTGGTGTGGCTCGCGTTGCTGGTCCTCACGGTGGACATGCTGAGCGCAGCGCGGAAGAACTCAGTGGCCAGGAAGCTGGCGCGGTGA	MPEWNICPSTGVNGSVPTPHGSASTPAASAPVQNPGTGPGRAAKSVTPGLKAVDKETTAGVLYGIAAYGAWGLLPLYFLALMPANAVEIVANRVVWSLLFCVLLIAVTRSWAALRGAFRDRSVFGTLAIAAALIAVNWLTYTYGVTTGQAVEASLGYFINPLVSVLLGVFVLKEKLRPLQWAAVGIGFVAVVVLTVSYGKLPWIALTLAVSFGLYGFVKKRVGPRVDAVTSLSVETMVLAPLAAATMIFLAVSGSATLASEGAGHFWLLVASGVITAVPLLFFGASARRLPMTTIGLLQYFAPVLQFVVAVAVFQEAMTLDRWIGFGVVWLALLVLTVDMLSAARKNSVARKLAR	PGPT0003906_1034	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786	NA	NA
D1-29_03599	798			hypothetical protein	GTGACAGCTGCGGGGCTCCGTCTCAGGCGCACGGCTGCTGCCGCCCTGGCGCCCGCCCTGCTCTGCCTGGCCGCCGGATGCGGGCTAGCCGACCCTTTTCCGGACCCCCCGCCAGCGGAGGCCGGGGAGCTCTACATTGCCGTCCCCGGCTACGTCGGTCCGCCCAACTCGGCTTACTGGCAAGCCGTGATCGACGCGGCTCCCCGGGTCCGGGAGGTCATTGTTAACCCGATGAACGGACCCGGGCCTGAGAGGTCCGAAGCGTATGTCCGGCTGATCGGGACCCTGCGCGATGCGGGCATCAGAGTGCTTGGCTACGTGGAGACCGGCTACGGCGACAGGGATCCGGACGTGGTGACCCAGGACATCGACCATTGGCGGGACTGGTACGGCGTTGACAACGTCTTCCTTGACGAAGTGACGACGCGTGCGGCAGACATGGACACCTATGCCGATTACGCCGCAACCGTGCACGACGCCGGGGGCATCGTGGTGCTTAACCCGGGCTTGCCCCCTGACCCTGGCTACTTTGAGTTTGCCGATGCCATTGTCACGTTCGAGGATCCGGTGGACGCCTACTTCAACGGCCGAGACCCTCCAGAGTGGCTCCGAACGGAGACGCGCGGCGAACTGTGGCACATCGTCATCGGTGCTCCACCGGACAGGCTCACTGACATAGTGGACCGCGCCCGGCAGCTCGGCGTGGACCAGATCTACGTGACCGACGACACGGAACCGAATCCGTACGACACCCTCCCCGGGTTTTGGCCGGCCAAGCTGGATGCCATCCGCGACTAG	MTAAGLRLRRTAAAALAPALLCLAAGCGLADPFPDPPPAEAGELYIAVPGYVGPPNSAYWQAVIDAAPRVREVIVNPMNGPGPERSEAYVRLIGTLRDAGIRVLGYVETGYGDRDPDVVTQDIDHWRDWYGVDNVFLDEVTTRAADMDTYADYAATVHDAGGIVVLNPGLPPDPGYFEFADAIVTFEDPVDAYFNGRDPPEWLRTETRGELWHIVIGAPPDRLTDIVDRARQLGVDQIYVTDDTEPNPYDTLPGFWPAKLDAIRD				NA	NA	NA	NA	NA
D1-29_03600	816			hypothetical protein	ATGAGGGCCTGGAAGTTCGGTGTGCGTCATGCCGCACTCCCGACGCCTGGGCCAGGCACCGCGGGCCACCCTGAGCAGGCCGCCATCCGTCCATTTGCGATCTATTACGGCTGGCCGAGCTATGCCAACGGTGCCCGCGGTAACGTGGCACGGGCCGTCGCCGCCTTCGACGGCTATGGTGTGGTGGTTTTTGGTGACGACACCGCCACCGAGGAAGGCGATCCCCTGTCAGCCCCCATTATGGCGGGGGTCGCCGCCCGCGGCGGAGTTCCATACGGGTACGTCACCCTCGGCGTCAGCGACGGCGAACCCCACCACTCCCTGGGCGAGCTGCGCGAACGCATAGATGCCTGGCGCCGGCTCGGCGCCCGTGGAATGCTCCTGGACTGTGCCGGCGCTGACTACGGGGTGACCCGCGCCCGGTTCGACACGGTGGTGCAGTATGTGCACTCCCTGGGGTTGCACGTGCTGGCGAACGCCTGGGATCCCGACGACGTCCTGGCCCGCTCCGCGACAATGGGCCACGGCGACAGCTACCTGGGGGAGAATGACGTGCTCTCGGACGGCCGGTTCCTGGCACCGGCCATCTACCGGCCGAAGCTGGCAAAGATGGCGGCGTACAAAGCGAAGCTGGGGATCACCCTCTATGAGACAGCCACCAGCAGGGACCTACAGTATGCCGGCACGCTGGCGGAACAGGTGCTGGCAGTATTGCAGCGCTACAGCATCGACGCCTTCCACCTCACCGACCCCGTCTACAGCTCTGCGGACAACATCCTGATCAGGCCGCCGGGAGTGCTGGCGGGCCGGGGGTGA	MRAWKFGVRHAALPTPGPGTAGHPEQAAIRPFAIYYGWPSYANGARGNVARAVAAFDGYGVVVFGDDTATEEGDPLSAPIMAGVAARGGVPYGYVTLGVSDGEPHHSLGELRERIDAWRRLGARGMLLDCAGADYGVTRARFDTVVQYVHSLGLHVLANAWDPDDVLARSATMGHGDSYLGENDVLSDGRFLAPAIYRPKLAKMAAYKAKLGITLYETATSRDLQYAGTLAEQVLAVLQRYSIDAFHLTDPVYSSADNILIRPPGVLAGRG				NA	NA	NA	NA	NA
D1-29_03601	1014			hypothetical protein	ATGAAGTATTCCAAGACCATTCTTGCCGTTGCCGCAGCCCTCGCGCTGACAGGCGGAGCCATCACTGTCGCGAGGACAATGGAGGAGGGCCCCGCACCCATCGCAGCCTCCGGCCAATGGCAGTTGCTGCGGACAGCCCAAGGCACCCTTATCCATGATCCCTTCAACAAGGCCATCCCCACCCGGGAGGTGCAGGACAGATACGAGTTCAATGGGGACACCGACCCTGCCCTCGCGTTCGTACGCGCCACCGACGGCGGCCTCCAAGTAGGAGTGGACCCGCCCCCGGATGCCGAGGCCCACAGCGGCTACTTTGCGGTGACCCACGACGCCTATCCGCAATCCAGCATCTTCCATGTGCGGATGTCGAAACAACCCGGACAGGTTCAGTCGCCCGCGGAGGTTGGACAAGCCGTCTTCGCCGTCCAGACGGCCTCCACCAAGGTCACAGGACTGATTAACTTCATCGTGGTGTCGGCTGACAGTACAGCCGGGCTGACGTCCTGGAGGGTGGGGTACATGGAAGGGCACCTGAGGAACGCGTCATTCATCTACTACTGGGGCACCGAACCGGCACCGGAAGAGCCTGACACCCGGGACATCACCCTCCGCACGGACGGCCGGCGCACGCTGACACTCTGGTTCGGCACCGAACAGGTGTTCCATTCGGACCAGCTCCAGATGAACATCCAGGCCCCGTACCAGCCGTACCTCGAGGTACAGGCCGTGCAGACGCCCTTTTACTCCTCCTTCCAGGACTTCTGGGTGGTGGAGGACGACCACCTGCAACTGACCGGTGTACCCGCCGGCGCCGACGTGAAGCTCGTCGACAACGGCGGCGGCGTCCTGGGAACGGCCATCGGCAGCGATGGAGGCACCGCTACCGTTGAACTGCCCCCATACGCCGCCAAGGGCAGCGGCACGTTGGAGATCACAGAGCCGGGCCGCGAGCCAGTCCGGCTTGGGGCCTTCGACTACGCTGGCGGCGACGACTATAAGCTGGCATCAAAATGA	MKYSKTILAVAAALALTGGAITVARTMEEGPAPIAASGQWQLLRTAQGTLIHDPFNKAIPTREVQDRYEFNGDTDPALAFVRATDGGLQVGVDPPPDAEAHSGYFAVTHDAYPQSSIFHVRMSKQPGQVQSPAEVGQAVFAVQTASTKVTGLINFIVVSADSTAGLTSWRVGYMEGHLRNASFIYYWGTEPAPEEPDTRDITLRTDGRRTLTLWFGTEQVFHSDQLQMNIQAPYQPYLEVQAVQTPFYSSFQDFWVVEDDHLQLTGVPAGADVKLVDNGGGVLGTAIGSDGGTATVELPPYAAKGSGTLEITEPGREPVRLGAFDYAGGDDYKLASK				NA	NA	NA	NA	NA
D1-29_03602	1659			hypothetical protein	GTGACTACGTTGCCTGAGGACTCCGTCCTCGCCGACTTCACCATGGATCTGGAGGAGCTGGGCCCGGACCTGCACGCCGAGGCACGGTCAGTTGCGGGCCGCACCCGCCAGGCACAAGACGCCTTCGAAGTGGCTGTGATCCTGGCCACCCTGGGCTATGGCGACCAGCGGGCGCGTGAGCTGGGCTGCCGAAACGTTTTTGAGCTCGCGGAGAAGGTGACGTCACTTTTGCCGCTCTTCGGCGGGCCGGTGGATGAGCCCCCGGTAGGAACAGTCGAACAGCCCCCCGAGCCGTCGCCCGGGCCGGACCGGATGAGCCTGGGACTGCTCGCGAAGTCGCTGCTCTACTCGGCGCCATGGATTGTGGCAGTGCTCGCGCTGGTCATAGGCCGGGTGTCCTTCTGGTCCACCATCACGCCCCAAATGTTTTCCACCACCGTCAGCCTGGCCTTGTTCGCAGCGCTGATCGTGACCGGCGGGTTTATGCAGGCATTTGCGCGGAGGGGGCTGTTCTATTCACTGCAGCACAGCGAACCCCTGCTGCGCTGGGCGTTGCGTTGGACGTTGGGAGGCGGGTTGGTGGTACTGCTCCTGGTCATGGGTGGCAGCTACCTGATCCTGGAGTACGTGGTGCAGGCCTACACGCCTGCCGCGAACCGGTCGTTCCTGCTCTTCGGAATCTCCATTGGCGTCCTGCTCCTGGCCTTCTCGCCGTTGTACCTGGCCAAAGCATTGCCTGAGGTGGTGATCGCAGCCTCTGCCGGCGGCCTGATTGCCGTGCTCGGTGGTTTGTATATCACCAGTGGAGACTACATCAACCTCTACACGGCCCAATGGGTGCAGTTCGCCGCCTTGTGGACGACGGTAATTGTGGCCGTGCTGTTTGACATCCGCATCGTCCGGCGGCTGGCCGCACCGCCGGCAGGAGTCGAGGCCACATCAACGGACAACCGGCACGTCCTTCCACCGCGGCTTGGCCCGGTGGCGCGCTCCGTCCGTGCCTACTGGGCCTACGGGACAGGCTTCTTTGTGCTCCTGGTGATCGACCAGCTGGTCGCAGGAGGCTTATGGATGGGGGTGTTCCACTACAACGGGCTCTACCAGGTGGGTGTGGGGACCGGCCTTCTCATCCTTATTCCCACACTCACCTACGCGATTGCTGCCGGGTACCTTCTCCCGGCGACTGTGCGCCGTGAGATGAGGGGGCACCGGGTCTCCGGGAGCGCGGGAATCAACCGCGTGCTGTTCAGGTTCTACCTCCGGCACCTGGTGACTACCCTGCTTGTTGGGCTGGTGAGTGGTGCCCTGCTGCTGGCTGCGGCTGAGTGGCTCTCCACGGCGAGCCTGCTCACCGTACACCTCCAGCTTGCCAGCGGCGTCTACACCGGCTCCTTGGTTGGCTACCTGTTGTTGGGCATTGGGGCCTTTAACTCCGGTCAGCTGTTCAGCCTGGGCAGGGCCGCGTTGCCTGCAGCTGTCGTCTGGCTCGCGGCGGCGGTGTCGCTGGCCACCGGAATGGCACTTTCCTATCAGTTCGAGCCTCTGTTTGGTTCCATCACCGGGCTGGTGACCGGTGCCGCGGTGTTCGCCGTGGCGACTACGGTGGCCGCTTTCCGCATGTTCCGTCAATTCGACCTTAGCTATTTCAGGGCGTTCTGA	MTTLPEDSVLADFTMDLEELGPDLHAEARSVAGRTRQAQDAFEVAVILATLGYGDQRARELGCRNVFELAEKVTSLLPLFGGPVDEPPVGTVEQPPEPSPGPDRMSLGLLAKSLLYSAPWIVAVLALVIGRVSFWSTITPQMFSTTVSLALFAALIVTGGFMQAFARRGLFYSLQHSEPLLRWALRWTLGGGLVVLLLVMGGSYLILEYVVQAYTPAANRSFLLFGISIGVLLLAFSPLYLAKALPEVVIAASAGGLIAVLGGLYITSGDYINLYTAQWVQFAALWTTVIVAVLFDIRIVRRLAAPPAGVEATSTDNRHVLPPRLGPVARSVRAYWAYGTGFFVLLVIDQLVAGGLWMGVFHYNGLYQVGVGTGLLILIPTLTYAIAAGYLLPATVRREMRGHRVSGSAGINRVLFRFYLRHLVTTLLVGLVSGALLLAAAEWLSTASLLTVHLQLASGVYTGSLVGYLLLGIGAFNSGQLFSLGRAALPAAVVWLAAAVSLATGMALSYQFEPLFGSITGLVTGAAVFAVATTVAAFRMFRQFDLSYFRAF				NA	NA	NA	NA	NA
D1-29_03603	1452	mshA_6		D-inositol-3-phosphate glycosyltransferase	ATGAGGATCCTGCTCACGACTGAGGGCACCTACCCTTACTTCCAGGGCGGCGTGTCCACCTGGGCTCATGAGCTGGTCAATGGCCTGCCCGAGCACGAGTTCGTGGTGGGTGCCGTCATCGGCAGCCCTGATGTCGCTCCCGCCTTCAGCGTCCCGGCCAACACGCGGGTGGTGCCCATCCCGCTGTGGGGAACGGAGAAGGTGGACGAGTACGTCCAGCGGCAGGCGCGCATTCGGCCATGGGGGCCCCGGAAAGGAAGGTCACCGGAGCGGGCCTTCGTGGAGCTGCTGCTGCCGGCCTACGAGGAGGTTGTCCGGAACCTGCTGGAAACTCGCGAACCGCGGGAACTTGGTGCTGCCATCGCCGACATTGCGGAGTACTGCGAGACCAACGATCTGCATAAGGGGTTGCGTGACCCCCGGTGCTGGCAGCTGGTGCGCACCCGGCTCAGTGAGCACGCGCAACTCCGCGGGATCTCGATGGCCGACGCCATCGACTTCGCACGCTCCCTGTACCGTTACCTGACGCCTTTGGCGGTTCCCCTCCCCGACGTCGATGTGGCGCACTCCTCCGGTGCCGCCCTCTGCGCGCTGCCCGCTCTCGCCGCCAAACTGCACAAGGGCGTCCCGCTGCTCCTGACCGAGCACGGGGTTTACGTGCGCGAACGTGTTCTTCACCTGGTCCGGAACGACACCCCGCTCCTGCGGAAGGTGCTGCTCGGCAATCTGTACCGGGCCATAGCGCGGTGTGCCTATGCGCACGCCGACATCGTCCTGCCGGTTTGTGCGTATAACACCAATTGGGAGTACCAGCTGGGTGCAGATCCCGCCCGCATGCAGGTGGTGTACAACGGCGTCAACCCGAACGAGTTCGCCCCCCGGGCTGTTGAATTGGACAGGCCCACCATCGCCTACGTCGGACGCATCGAACCTCTCAAGGACGTGATGGGGCTCATCACGGCCCTCAACATGGTCCGCCGCGAAGTCCCCGACGTGCTCCTGCGTATTCACGGCCCTGACGATGACCGCCGCTATGCGGAGCGTTGCAGGATGGCAGTGACAACAATGCAGCTTGAGGACAACGTCGTCTTCGAGGGGGCCACGAAGGACCCGGTCCTGGCCTATCAGGAGTCCGACGTCGTTGTGCTCTGCTCGGTGTCTGAGGGCTTTCCCTACACCGTTGTTGAGGCGATGGCCACAGGCCGTCCGGTCGTCGCGACGGCCGTCGGCGGCGTTCCCGAGGCATTGAACCGGCCAGAATTGCTCGTGGAGCCGCAGAATCCGCAGGCGCTGGCGGACGCACTGGTGGCGCTCTTCCGGAAGACCCGCGAAGAACGTGAGGCCATCGGCAGGGAGTTCCGCGAGCGCGCTGTCAGTCTGTTCTCCCAGGAGCGGTTCCTCGAGGCGTACCGCTCTCTCTATGAAGGAGTTGTCAGTGACTACGTTGCCTGA	MRILLTTEGTYPYFQGGVSTWAHELVNGLPEHEFVVGAVIGSPDVAPAFSVPANTRVVPIPLWGTEKVDEYVQRQARIRPWGPRKGRSPERAFVELLLPAYEEVVRNLLETREPRELGAAIADIAEYCETNDLHKGLRDPRCWQLVRTRLSEHAQLRGISMADAIDFARSLYRYLTPLAVPLPDVDVAHSSGAALCALPALAAKLHKGVPLLLTEHGVYVRERVLHLVRNDTPLLRKVLLGNLYRAIARCAYAHADIVLPVCAYNTNWEYQLGADPARMQVVYNGVNPNEFAPRAVELDRPTIAYVGRIEPLKDVMGLITALNMVRREVPDVLLRIHGPDDDRRYAERCRMAVTTMQLEDNVVFEGATKDPVLAYQESDVVVLCSVSEGFPYTVVEAMATGRPVVATAVGGVPEALNRPELLVEPQNPQALADALVALFRKTREEREAIGREFRERAVSLFSQERFLEAYRSLYEGVVSDYVA				NA	NA	NA	NA	NA
D1-29_03604	585			hypothetical protein	ATGACTCAGGTGTCAACAGGAACCGAGGACCGGAAGGCCCACACTGCAGCCGCCAGGTCAACGTTTCTTGATAAACCCCGCCGCCCCGGTCATGGCCCGTCCGGCAACGGCGAACGCCCCGGTGCGCGTCCTGACTTAGCCCACGAGCAGAGTGTTCCTGCGGTCAGCCCGGAAGTTCCCGGGGTCAGTCCGGACGCCGACATGTGGGAAGAGGGCCGTGCCGCGGCCCGGTCAGGTACCCACGAGAGGGCCATGGCCTGCTTCCTGCGCGAGGCGGAGGCGCGGACCATGCAGGGCAGCTATGGCCGGGCAGCCATCGCGTTTCGCACGGCCGCCGAACAGGCCCGGCTGCAGGGCCTGGCAGAGCAGTGCGAGGACTTGCTCTACCGGGCCGCGGCAGCCTACAACCATGCGGCGGAGCGCGACGAGCTTAGCCCGGGCGCGGCCCACCAGGCTTGGATCTCGGCAGCCAAGTGCTTCCTCCAGCTGCAGGAGCTCGACCAGGCTGCCCGGTGCATCGAGGCGGCCCGGCACGTCGCCGACCAGAGCCAAGCAAAAGCCGAGAGCGCCCAGACGGCATCATGA	MTQVSTGTEDRKAHTAAARSTFLDKPRRPGHGPSGNGERPGARPDLAHEQSVPAVSPEVPGVSPDADMWEEGRAAARSGTHERAMACFLREAEARTMQGSYGRAAIAFRTAAEQARLQGLAEQCEDLLYRAAAAYNHAAERDELSPGAAHQAWISAAKCFLQLQELDQAARCIEAARHVADQSQAKAESAQTAS				NA	NA	NA	NA	NA
D1-29_03605	1371	gabT	COG0160	4-aminobutyrate aminotransferase	ATGACCACCACCGCAAGCGAAATCACCTACCGCCTTGAGCAGAAGCGCCGCGTCCATGCGGACTTCCCGGGGCCCAAGTCCGTGGCCTTGACCGAACGCCGCAAGGCAGTGGTCGCTGCCGGCGTCGCCTCCGCAGTCCCTGTTTACGTTTCGGACGCCGACGGCGGCATCATTCACGACGTCGACGGCAACTCCTTTGTTGACCTCGGCTCGGGCATCGCGGTGACCAGCGTCGGGGCGTCCGATCCCGCCGTCGTCGGGGCCGTGAAGGAGGCCGTTGAGCACTTCACCCACACCTGTTTTATGGTCACGCCGTACGAAAGCTACGTCGCGCTCGCAGAGCAGCTCAACCGCCTGACTCCGGGCGACCACGAGAAGCGCACCGTGCTGTTCAACTCCGGCGCGGAGGCAGTTGAGAACGCCGTTAAGGTGGCCCGCCTGGCTACCGGCCGGGACGCCGTCGTCGCCTTTGACCACGCCTACCACGGCCGCACCAACTTGACCATGGCACTCACCGCCAAGGCCATGCCGTACAAAACCAACTTTGGCCCCCTCGCGCCCGAGGTCTATCGCATGCCCATGAGCTACCCGTACCGCGAGGAGAACCCCTCCATCACGGGTGCCGAGGCCGCCAAGCGCGCCATCACCATGATCGAGAAGCAGATCGGCGGCGACCAGGTTGCTGCGATCATCATCGAGCCGATCCAGGGCGAAGGCGGGTTCATCGTTCCGGCCGAGGGCTTCCTGCCGGCGCTGGCCGAATGGGCAAAGGAGAAGGGCGTCGTCTTCATCGCCGACGAGGTCCAGTCCGGCTTCTGCCGCACCGGCGAATGGTTCGCCGTCAACCACGAAGGCGTGGTGCCGGACATCATCACCATGGCCAAGGGCATCGCCGGCGGCATGCCGCTGTCTGCCATCACCGGCCGCGCCGACCTGCTCGACGCCGTCCACCCGGGCGGCCTGGGCGGCACCTACGGCGGCAATCCGGTTGCCTGCGCGGCCGCACTTGCCGCCATCGGTTCCATGGAGGAGTACGACCTTGCTGGCCGGGCCCGCCACATCGAATCCCTTGCCACAGCACGGCTGCGCGGATTGCAGGATGACCTTGCCGGTTCCGGCGCCGCCGTCATAGGCGACATCCGCGGACGCGGGGCCATGCTGGCGATCGAGCTGGTCCAGGCAGGATCGAAGGAACCCAACCCGGAGCTGACCAAGGCCGTGGCTGCCGCCTGCCTCAAGGAGGGTGTCATCATCCTGACCTGCGGCACGTATGGCAACGTCATCCGCCTGCTTCCGCCGCTGGTCATCACGGACGAACTCCTGAACGACGGCCTGGACGTCCTGGCCGCCGCCATCAAGGCCCACGCGTAA	MTTTASEITYRLEQKRRVHADFPGPKSVALTERRKAVVAAGVASAVPVYVSDADGGIIHDVDGNSFVDLGSGIAVTSVGASDPAVVGAVKEAVEHFTHTCFMVTPYESYVALAEQLNRLTPGDHEKRTVLFNSGAEAVENAVKVARLATGRDAVVAFDHAYHGRTNLTMALTAKAMPYKTNFGPLAPEVYRMPMSYPYREENPSITGAEAAKRAITMIEKQIGGDQVAAIIIEPIQGEGGFIVPAEGFLPALAEWAKEKGVVFIADEVQSGFCRTGEWFAVNHEGVVPDIITMAKGIAGGMPLSAITGRADLLDAVHPGGLGGTYGGNPVACAAALAAIGSMEEYDLAGRARHIESLATARLRGLQDDLAGSGAAVIGDIRGRGAMLAIELVQAGSKEPNPELTKAVAAACLKEGVIILTCGTYGNVIRLLPPLVITDELLNDGLDVLAAAIKAHA	PGPT0007660_253	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007660-gabT-K07250	NA	NA
D1-29_03606	1431	prr_2	COG1012	Gamma-aminobutyraldehyde dehydrogenase	GTGGTTCAAACCTTGCAGAACTTCATTAACGGTGAGTTCGTCACACCCGCCGGCAGCGGCCTGCTGGACATCGTCAATCCCACCAACGGTGAGATCGTGGCGCAGTCGCCCATCTCCGGGCAGGCCGATGTTGATGCTGCCATGTCCGCCGCCAAGGATGCCTTCCGGACCTGGAAGCACGTCACTCCGGGCCAGCGCCAGCTGATGCTGCTCAAGCTCGCCAACGCCGTTGAGGCCAACAGCGACGAACTGGTGGAGGCGCAGCACCGCAACACCGGCCAGGTGCGCTCACTCATCGCGTCCGAGGAAGTGGCGGCCGGCGCCGATCAGCTTCGCTTCTTCGCCGGCGCCGCCCGCATTCTTGAAGGCAAGTCCGCCGGGGAATACTTTGAGGGCCACACCTCCTACGTCCGCCGTGAACCCATTGGTGTGGTGGCCCAGGTGGCCCCGTGGAACTACCCCTTCCTGATGGCTATCTGGAAGATCGGCCCCGCTCTCGCCGCGGGGAACACCGTGGTCCTCAAGCCGTCGGACACCACCCCCGAATCCACCCTGGTCTTGGCGCGCCTGGCAGGGGAAATCTTTCCCGCCGGCGTGCTGAACGTTGTGCTGGGCACGGGCGAAACCGGCGCCATGATGGTGGAGCACAAGGTTCCGGGCCTGGTATCCATCACCGGTTCTGTCCGGGCCGGTATCGCCGTCGCGTCCGGTGCTGCCAAGGGCCTCAAGCGCGCCCACCTGGAACTCGGCGGCAAGGCGCCCGCCATCGTGTTCAAGGACGCGGACATCAAGAAGAGCGCGGCGGCCATCGCGGAGTTCGCCTTCTTCAACGCCGGTCAGGACTGCACGGCCATCACGCGCGTGCTGGTGGAGGACTCAGTCCACGACGACGTTGTGGCGGCCATGGTGGAACACACCAAGACCCTGCACACCGGTTCGCAGAACGACGAGGACAACTACTTCGGCCCGCTGAACAACGTGAACCACTTCAACCAGGTGAGTTCCGTCGTCGAGCACCTGCCTGATAACTGCAGGATCGAAATTGGCGGCCACCGTGCGGGGGAGAAGGGCTTCTTCTTCGAGCCCACCATCGTCACCGGCGCGAAGCAGACGGATGACATCGTCCAGAAGGAAACGTTCGGCCCGGTCATCACGGTGCAGAAGTTCAGCACCGAGGAAGAGGCAGTGGAGCTCGCGAACGACGTCGACTACGCCCTGGCCTCCAGCGTCTGGACCAGCAACCACGGCACGGCCATGCGCCTCAGCCGCGACCTGGACTTCGGTGCCGTCTGGATCAACACGCACATCCTCCTCACCGCCGAAATGCCCCACGGCGGCTTCAAGCAGTCCGGCTACGGCAAGGATCTGTCCATGTACGGGGTTGAGGACTACACGCGGATCAAGCACGTGATGTCCGCACTTGATGCATAA	MVQTLQNFINGEFVTPAGSGLLDIVNPTNGEIVAQSPISGQADVDAAMSAAKDAFRTWKHVTPGQRQLMLLKLANAVEANSDELVEAQHRNTGQVRSLIASEEVAAGADQLRFFAGAARILEGKSAGEYFEGHTSYVRREPIGVVAQVAPWNYPFLMAIWKIGPALAAGNTVVLKPSDTTPESTLVLARLAGEIFPAGVLNVVLGTGETGAMMVEHKVPGLVSITGSVRAGIAVASGAAKGLKRAHLELGGKAPAIVFKDADIKKSAAAIAEFAFFNAGQDCTAITRVLVEDSVHDDVVAAMVEHTKTLHTGSQNDEDNYFGPLNNVNHFNQVSSVVEHLPDNCRIEIGGHRAGEKGFFFEPTIVTGAKQTDDIVQKETFGPVITVQKFSTEEEAVELANDVDYALASSVWTSNHGTAMRLSRDLDFGAVWINTHILLTAEMPHGGFKQSGYGKDLSMYGVEDYTRIKHVMSALDA	PGPT0007165_3048	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130	NA	NA
D1-29_03607	1437			hypothetical protein	ATGGCCATTTCCCTTTCTGCCCTCCTGGGTGTGAACTCCCTGAACCTGACCAAAGCAGGCACCGCCGAGACCACGTGGCACCAGGACATCAACTGGGTGGCGGTCACCGAACTGGAAGACCCCCAGCGCTTCATCAACGGCGGCGAACTGGTGCTCACCACGGGGCTGCGCCTGCGGTCAGCCCCGGAACAGCGGCGCTTTGTCCGCCAGGTCCAGCGCGCCGGGGCTGTGGGCATCGGGTTCGGCATTGGCCTCTCGCACGACGTCGTCCCGTCGGCCATGGTTGCCGAGGCCAACCGGTGGGGGCTGCCGATGGTGGAGGTGCCCTACGAGACACCGTTCATCGCCATCGGCAAGCTGGTGGCCGACGCCCAGTCTGCGGACCACTACGCCAAACTGGAGCGGCTGATTGCCGGGCACCAGGTCCTGGCCCGCGCGCTCCTCACCGGCGGCGGACTCTCCGAACTGCTGAAGCACCTGGGCGGCATGCTGCGGACCGATATCGCCCTCACCCAGTTCACGGCACAGCTGTACAACAGCAGCAAGAGCAACCCCTCCGCTGACACGTGGGGGTCCTTCCCCATCCCCACGGGGCGGCGGGACGCCTGCACGCTTTGGGTCAGGCAGCCCTTTGAGGACTCGGGCATCATCGGCTACGCGCAGAACCTCATCAGCGTGGAGCTGAACAACATGGTCAAGCAGCGCCAGGCACAGCGGGCCCTGTGCGGGCAGGTGCTGGAGGACGTCATCCACGGCGCCTTGGAAACCAGCGAGGCCCAGCGCCGGCTCGCGGGCATCGGCGTCAACAGCACCCGTAAGAACGTGGTGTTGCTGGCGGTTTCCGCCGCCCACCACAAAGCGCTGGTGAGCACCTCCGTGCCGCAGCAGCTGGAGAATGTGGTGACAGCCGTCGTCGGGAAGGACCTGGTGCTTGTTGTCAACGACGACGGCAGCGGCGCGGCTGCGCTCGCCCGGAAGCTCAGCGACCATCTGGCCGAGGCCGGGATCCACGCAACCACGGGCATCGGCGGGGCGTACACCAAACCGAACGGCCTCCGGTGGAGTTACTTCGAGGCCCGGGACGCGGCGAGCCATGGGCTGCCCGTCAACGAACCGGAACGGCTGAGCCTCACCTCTCTACTGCTGGCGAGCGAGGACGTTCCGCTGGCCGACATGGCCAACGAATCCCTGAATCCGCTCCGCGCGTTCGATACCGCCCACAGCGCGGAACTGATGGCCACGTTGGAAAGCTACCTGAACAACAACGGCTCGGTTGCCGCCGTCGCCGAAGCCCTGACCCTGCACCGCAACACCGTCCGCTACCGCCTCGCCCAGATCACCGAGCTCACCGGCTACGACCCTGCCGTCACAGCCGACCGCGTGCAGTTGTGGCTTGCCTTGGCGGTCGCCAAACTGGGGGCGCGCCAGGGGAAGTAG	MAISLSALLGVNSLNLTKAGTAETTWHQDINWVAVTELEDPQRFINGGELVLTTGLRLRSAPEQRRFVRQVQRAGAVGIGFGIGLSHDVVPSAMVAEANRWGLPMVEVPYETPFIAIGKLVADAQSADHYAKLERLIAGHQVLARALLTGGGLSELLKHLGGMLRTDIALTQFTAQLYNSSKSNPSADTWGSFPIPTGRRDACTLWVRQPFEDSGIIGYAQNLISVELNNMVKQRQAQRALCGQVLEDVIHGALETSEAQRRLAGIGVNSTRKNVVLLAVSAAHHKALVSTSVPQQLENVVTAVVGKDLVLVVNDDGSGAAALARKLSDHLAEAGIHATTGIGGAYTKPNGLRWSYFEARDAASHGLPVNEPERLSLTSLLLASEDVPLADMANESLNPLRAFDTAHSAELMATLESYLNNNGSVAAVAEALTLHRNTVRYRLAQITELTGYDPAVTADRVQLWLALAVAKLGARQGK				NA	NA	NA	NA	NA
D1-29_03608	1725			putative protein	ATGGCCCTGCAGGGTGTGGAAATCGAGAAGAAGTACGAGGTGGGCGACGAGGCCGTGGTGCCCCCGCTGGCCGGCCTCCCCGGCGTGGCCCGCGTGGGCGACCCGCACGTGGCCACTCTGGAAGCTGTCTATTTCGACACGGAGAGCTACGTCCTGGCTTCCCGGCGCATCACCCTGCGGCGGCGGACCGGTGGGGCCGACGCCGGCTGGCACCTGAAGCTTCCGCCGGAGACCCCCGGCTCCGCTGGTTCCGTTTCCGGCGGTTCGGATTCTGGCGGTTCGGGGGCCGGTTCGGGGGCCGGTTCCGGGTCTGATGCCGGTCCGGTACCCCAGCAGCGCCGCGAGCTGCACGCCCCGCTGGGCCAGCCCGACGTCGTTCCTGACACACTCCTCGCGCACCTGCAGGCTTACCTGCGTGGCGCGGAGCTGGTGCCGGTTGCCAGGCTGGAAACGCTGCGAACCACCCATGCCCTCTACGACGCCGACGGCGTGCACCTGGCCGACCTGGCCGACGACAAAGTGCACGCCCAGCCCCTGCTCACGAGGAAGCCGGCAGGAGGGGACTCCGAAGGGGGCTCGGGAGGAGAGGCGCAGGCAGGGTACCGGAGCCAACACTGGCGCGAATGGGAACTGGAACTTGTCCACGGCAGCGCGGACATTTTCCCGGCCGCCGAAGAAGTCCTGGCCGCCGCGGGAGCGCGCCCGGCAGGGCACGCGTCCAAGCTGGGCCGGACGCTTCAGGAGGCAATCCGCGAAACCGGCGGCCCGGAACCACAGGGTAAAGAGCCGCAGGGGATAGAACCCCAGGGTACGGAACCAGAGGCCTCAGAGCCGCCCGGCAAGAAGAGCCCGGCGTCCGCCGTCGTGACTGCTTACCTCGGCGCGCAGATCCGCGAAATCCTTGCCCACGATCCCGGTGTCAGGCTGGAGGAGCCGGAGGCGGTGCACAACCTGAGGGCTGCAGCGCGCAGGGCGCGCTCCGCGCTGGCTGCCTACCGCCGGCACTACAGTGCGGTGGCCGTGCGGCGGCTGCAGGAAGAGCTCAAGTGGCTCGGCCGGACACTGGGCGTGCCGCGGGACGCCGAAGTGATGCTGGAGCGGCTGAGGGGTCACCTTGCGGAATTGCCCGAGGGCCCGGCCGCAACGGCGGTCAAGGACCGGGTGGAGCAGGAGCTCGGTGGAACGTTCGACGACGGATACCGAAAAGTGATGGAAGTGCTTGCCTCGGAGCGCTACTTCCGGCTGCTCGATGATCTTGAAGCCTTCCGGGACCGTCCTCCTCTGCGGCCGGAGGGGTCGGTTTCAGGCCGCAAGGCGGGCGTCAAGCTCGTGGCCAAGGCGGTCAAACGGCTCGGGCGATCGCAGAAGGCGGCCAAGCGTTCCCGGCGGGGAGCGCAGCATGAAAGCGCCCTGCATCGGGTCCGTAAGGACGCCAAACGGCTTCGGCACGTGGCAGAGTCGGTGCGCCCGGTCAGCGGCAAGCGTGCTGCCAAAGTCGCCAAGGCCGCGCACCGGCAGCAGAAAATTCTGGGCGAGTTCCGCGACAGCATCCTGGCCCGGGACCTGCTGGGCAAGCTGGGTGGAGTCCCGGATCTTCCCGAAGCCGTGGCCTCGCTCTTCGTCGAGCTCCGCACCCGGCAGGTGCAGCTCGCGGCCGACGCCGAATCAAAGTACCGGAAGGCCCGGAAGAAGTCGCAGAAGCGGCTCAAGGCCGGCGTGCACTAG	MALQGVEIEKKYEVGDEAVVPPLAGLPGVARVGDPHVATLEAVYFDTESYVLASRRITLRRRTGGADAGWHLKLPPETPGSAGSVSGGSDSGGSGAGSGAGSGSDAGPVPQQRRELHAPLGQPDVVPDTLLAHLQAYLRGAELVPVARLETLRTTHALYDADGVHLADLADDKVHAQPLLTRKPAGGDSEGGSGGEAQAGYRSQHWREWELELVHGSADIFPAAEEVLAAAGARPAGHASKLGRTLQEAIRETGGPEPQGKEPQGIEPQGTEPEASEPPGKKSPASAVVTAYLGAQIREILAHDPGVRLEEPEAVHNLRAAARRARSALAAYRRHYSAVAVRRLQEELKWLGRTLGVPRDAEVMLERLRGHLAELPEGPAATAVKDRVEQELGGTFDDGYRKVMEVLASERYFRLLDDLEAFRDRPPLRPEGSVSGRKAGVKLVAKAVKRLGRSQKAAKRSRRGAQHESALHRVRKDAKRLRHVAESVRPVSGKRAAKVAKAAHRQQKILGEFRDSILARDLLGKLGGVPDLPEAVASLFVELRTRQVQLAADAESKYRKARKKSQKRLKAGVH				NA	NA	NA	NA	NA
D1-29_03609	1233	yycB_2	COG2807	putative transporter YycB	ATGGCCGCCATCTCTCCAGCTCCCCCCGCAGCGGATACCGCCCTGCCCAAGCCCCGCACCGCCGTCGTACTTTCCGTCATTGCGCTGGTGCTGATCGGCCTTAACCTGCGGGCCGGGATCACCGGAGCATCGGCCCTGCTGCACGATCTGCAGCTGGTCCTAGGCTACGGGCCGCTGGTGGCGGCGATCATTCCGTCCATTCCCACCCTCTGTTTTGCGGTGGCCGGCGCGGCGACTTCATGGCTTAGCGGAAGGCTAGGCGTCGAAAAGTCAATCCTGCTGTCGCTGGGGATGCTGGCGGCGGGGCTGCTGCTGCGGGGCATTCCGGCCACCGGCATGCTGGTGGTTGGCACCGTCCTGGGAATGTCCGGCCTGGCCGTCTGCAATGTGGCCATGCCGTCCTTCATCCGCGAGCATTTCGCCGGACGCACCTCCCTGATGACCGGGCTGTACACGGTTACCATGACCACCGGTGCCACAGCCACAGCAGTGGTGGTGGTCCCGCTGGCCCAGGCCCTCGGTTCGCCGTCCGCGGCTGTGGGCGCCATCGGAATCATGGCCATCGCCGCGTTCCTGGGTTTCCTGCCCGTTGCCCTGCACGCGCACCGCAACAGTGTTCGCACCACCACCGGCGGCATCTCGCCCTGGCCGTTGCTGAGGACCCGCAAGGGCCTGCTGCTGACCGCCATCTTTACCGTCCAGGCCCTGCTGGCGTACGCCCTGCTGAGCTGGTTCCCGTACATGCTGACCACCATGGGGCTCAGCGCCTCGGACAGCGGCCTGATGTACGGGCTGATGCAGCTGGTTTCGGTGCCGGCCGGCATGTTGCTGATTGCCATTGGTTCCCGCCGCCGGATGCAGCGGCCCGCGTTTTACCTCGTCTCTGTGACCATGGCTCTGGGTGTTGCCGCGCTGCTGTTCCTCCCGGTGGGCCTGGCCGTTATCCCTGCCGTCCTGCTGGGATTCGGCCTGGGCATCTTTCCCCTGGTCATGGTGATGATCAGCCGCAGCGGCACGAACACGGCGGAAACTACGGCGCTTTCCACTCTGGCCCAGTCCACGGGTTACCTGTTGGCCACGGTGGGGCCCTTTGGCGCCGGGCTCCTCCACAGTGCCACCGGTGGCTGGATCCTGCCGCTTTCCCTGCTGCTGGTCCTCGCCCTGGTCCAGATCGTGGTGGCCCACCTGCTCACGGGCAGCCCTTCCGCCGGCAACACCTCAAAGAAGAAGTAG	MAAISPAPPAADTALPKPRTAVVLSVIALVLIGLNLRAGITGASALLHDLQLVLGYGPLVAAIIPSIPTLCFAVAGAATSWLSGRLGVEKSILLSLGMLAAGLLLRGIPATGMLVVGTVLGMSGLAVCNVAMPSFIREHFAGRTSLMTGLYTVTMTTGATATAVVVVPLAQALGSPSAAVGAIGIMAIAAFLGFLPVALHAHRNSVRTTTGGISPWPLLRTRKGLLLTAIFTVQALLAYALLSWFPYMLTTMGLSASDSGLMYGLMQLVSVPAGMLLIAIGSRRRMQRPAFYLVSVTMALGVAALLFLPVGLAVIPAVLLGFGLGIFPLVMVMISRSGTNTAETTALSTLAQSTGYLLATVGPFGAGLLHSATGGWILPLSLLLVLALVQIVVAHLLTGSPSAGNTSKKK	PGPT0005211_201	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
D1-29_03610	681	nanR_2	COG2186	HTH-type transcriptional repressor NanR	ATGACCCTCAGCACCTCGCACCGGCAGCCCCTCGCGGAAGAGATCACCGCCAAACTGCGGGCCATGATCCAGACAGGCGAATGGCCCCTGCAACAGCGGATCCCGCCGGAGCCCGAGCTGATGGCACGGCTTGGCGTCTCCCGCGGGACGCTCCGGGAGGCCGTCAAGGCCCTGGCTCACAGTGGAATGCTGGAGGTGCGGCGGGGCGACGGCACATACGTCCGTGCCACCAATGAGATGTACGGCGCCGCCCGCCGGATGTACCAGGACCACACCGGTGAGCACATCCTGGAAGTCAGGGCTGGCCTGGATACCCAGGCGGCGCGGCTCGCGGCGAAGAATGCAACGCCCGACGACGTCACCGCCTTGCGCGCGCTCCTCGCCGACCGCGACCACGCCTGGCATGCTGCCGACTATGCCGCGTGGGCCCGGGCCGACTGGGCCTTCCACGAGCGGGTGGCCCAGTCATCCGGGAACCCCCTGCTGCACGAGCTGTATGTCAGTTTCGGCGGCGTCTTCCACCAGGACCTGCTCAAACAGCCAGCCAGGGCGGGGTTCGACGGGATTCCACACGCAGGCCACGGTGAGCTGGTGGACGCCATCGAGGCACACGATCCCGACGCCGCCGTGGCCAGCGTCAACCGGAACCTGAACTGGTGCGCGGAATGGATCCGGGCCTAG	MTLSTSHRQPLAEEITAKLRAMIQTGEWPLQQRIPPEPELMARLGVSRGTLREAVKALAHSGMLEVRRGDGTYVRATNEMYGAARRMYQDHTGEHILEVRAGLDTQAARLAAKNATPDDVTALRALLADRDHAWHAADYAAWARADWAFHERVAQSSGNPLLHELYVSFGGVFHQDLLKQPARAGFDGIPHAGHGELVDAIEAHDPDAAVASVNRNLNWCAEWIRA				NA	NA	NA	NA	NA
D1-29_03611	387			hypothetical protein	ATGAAAGCCGATGAGATCATTTCCGCCGTCCGTTCCTCTGCCGGGATCGATTCCTATGGTCACGCTGAAAAGGCCGTCAAGGCCACGCTCACGGTGCTCGGGCAGCGGCTCTCTACCGAAGCCAAGGACCTGGCGGCCCAACTTCCGCCGGAGCTGGGCGAGCGCCTGACCCAGCAACCTGACGTTGAACGCTTCGGCCTGGAGGAGTTCTACCGCCGGGTGGCCGAGGAAGAGGGAGAAGGCTGCACGCCCCAGGTGGCCCGCAGGCATGCCCGCGCCGTTACGGCAGGGCTGCGCGAAGCCGTCGGCGCCGAATATCTCCACGTCCTTGACCAGTTGCCTGATGACTGGGCCGACCTGCTGCATTCCGATCAGGGGCAATACTGA	MKADEIISAVRSSAGIDSYGHAEKAVKATLTVLGQRLSTEAKDLAAQLPPELGERLTQQPDVERFGLEEFYRRVAEEEGEGCTPQVARRHARAVTAGLREAVGAEYLHVLDQLPDDWADLLHSDQGQY				NA	NA	NA	NA	NA
D1-29_03612	690		COG1926	Putative phosphoribosyl transferase	ATGAGCAGCAGCCAGATCAGGGTCAGCTCTGGAAGTGTGGACCTCGATGGCGACCTGACCATCCCTCCGCATGGCACCGGCGTCGTTGTGTTCGCCCATGGCAGCGGAAGCAGCCGTCACAGTCCGCGGAACCTGAAAGTGGCGGCTGCCCTGCACTCCGAGGGATTGGGGACGTTGCTTTTTGACCTCCTGACCGCCCCCGAGGAACGCAAAGACGCCCAGGATGCTGCACTGCGCTTCGACATCGGCCTGCTGACCGGACGGCTCACGGCGGCCATCGACGACGTTGCCGGACGGCCGGAGACAGGCAACCTGCCGATCGGCCTGTTCGGGGCAAGCACCGGAGCGGCCGCAGCCCTGGCTGCCGCCGCCAACCGTCCCGGCAAAGTCCGGTCCGTGGTTTCCCGGGGAGGCCGGCCGGACCTGGCCCGGCAGCATCTGGACGCGGTGCGGGCGCCCGTCCTGCTGTTGGTGGGAGAACTGGACCAGGAAGTGATAGAGCTGAACCGGCAGGCAGCAGCCCTGCTGGCCGTCGAACACGAGCTTTCCATTGTTCCGGGAGCCACACACCTTTTCGAGGAACGCGGCACGCTCGAGGAGGTTGCCCGGCAGGCGGCCGCCTGGTTCACCAGGACGATGGCGCCCTGGAGTCCCGCAAACAAGACTCCGCCCGAAGGAGCGGCATCATGA	MSSSQIRVSSGSVDLDGDLTIPPHGTGVVVFAHGSGSSRHSPRNLKVAAALHSEGLGTLLFDLLTAPEERKDAQDAALRFDIGLLTGRLTAAIDDVAGRPETGNLPIGLFGASTGAAAALAAAANRPGKVRSVVSRGGRPDLARQHLDAVRAPVLLLVGELDQEVIELNRQAAALLAVEHELSIVPGATHLFEERGTLEEVARQAAAWFTRTMAPWSPANKTPPEGAAS				NA	NA	NA	NA	NA
D1-29_03613	237			hypothetical protein	ATGGCAATCTGCGATACCTGCGGGAACGACTACGACAAGACCTTCACTGTCACCAGGGGAGGGCAGACCGGAACGTTTGACAGCTTTGAGTGTGCGGTTCACGCGATGGCCCCGGTTTGCGGGCATTGCGGCTGCCGCATCCTGGGACACGGCGTGGAAACAGAGCAGGGTATGTACTGCTGTGCGCACTGCGCCCGGGGATCAGGGGAGCATGGCGTGTCCGACCGGTCGGACTAA	MAICDTCGNDYDKTFTVTRGGQTGTFDSFECAVHAMAPVCGHCGCRILGHGVETEQGMYCCAHCARGSGEHGVSDRSD				NA	NA	NA	NA	NA
D1-29_03614	1188		COG0628	Putative transport protein	ATGGCCCGAGCAACAGACCTGTCCGAGCATGAACGCGCCCCCGAACCTGAACAAGCCCAGAACGCCGCAGCAGAAAAACGGCACGCCGAACGAAAGCCGCCCCGTGCCCTGTGGTCCGACGGCCTGGGGCGTGTGGGTATCCGGTCCGCCCAGATCCTACTGATCCTCGGCGTGGCGGTGGCCTCGGTCTACGCCCTGATGCAGGTCAAGCTCCTGGTCATCCCCGTCCTGATTGCACTGATCCTCGCCGCGGCGATCGGCCCCTTTGTGAACACGCTCCGCCGCCGGGGCCTGCCGGGCGGAGCAGCCACCGGCCTGGCTTTTGTGGCGCTGCTCCTCCTGCTGGCGGGCGTCTCCACGGTGATCTATTTTTCCGTCCGGAGCCAGTGGGGCGAACTGGTGCAGCAGGCTTCCTCCGGGCTGGACGAGCTGGAGCAATTCCTGCTGACCGGCCCCATACCCGTGGACCAGGAGCAGCTGAACCAGGCGCGCGAAGGAATTATCCAGTTCGCCACCAGCAGCCAGTTCCGTTCCGGCGCCATCACCGGGCTCTCCGTGGTGACGGAGTTCCTTGCCGGAACGGGCCTGATGATTATCTTCCTGTTCTTTTTCCTCAAGGACGGGGCCAAGATCTGGAGCTTCTTCCTGCGGCCCTTCAGCGGGCAGCGGGAAGCGAAACTGCGCCGGGTGGGCAGCCGGACTTTGGAAGTCCTGGGCGGGTATGTCCGGGGAACCGCCGTGGTGGCCCTCGTGGACGCCGTGGCCATCGGCGCGGCGCTGTTTATCCTCCAGGTTCCCCTCGCGTTCGCGCTGGCCATCATCGTGTTTATGACAGCCTTTATCCCGCTGGTGGGCGCCACCGTGGCCGGCATCCTGGCCGCCCTGGTGGCCCTGGTGGCCAACGGCCCGGTGGTGGCCCTGATTGTGGTGGCGGTGGTGATTGCCGTGAACCAACTGGAGGGCGACCTCCTGCAGCCAATCGTGATGGGCAAATCACTTCAGCTCCATGCCCTGGTGATCCTGATGGCATTGACAGCAGGCACCATCCTGGCGGGCATCGTCGGCGCCGTACTCTCCGTTCCGCTGGCCGCCGTGGCCTGGGCAATCATCCAGGTCTGGACTGCCGAGGACCCCAAGCTTGAGCCGATGAATCCAGACCTGCCGCCGGCCAACAGCCAGCCAACCTAG	MARATDLSEHERAPEPEQAQNAAAEKRHAERKPPRALWSDGLGRVGIRSAQILLILGVAVASVYALMQVKLLVIPVLIALILAAAIGPFVNTLRRRGLPGGAATGLAFVALLLLLAGVSTVIYFSVRSQWGELVQQASSGLDELEQFLLTGPIPVDQEQLNQAREGIIQFATSSQFRSGAITGLSVVTEFLAGTGLMIIFLFFFLKDGAKIWSFFLRPFSGQREAKLRRVGSRTLEVLGGYVRGTAVVALVDAVAIGAALFILQVPLAFALAIIVFMTAFIPLVGATVAGILAALVALVANGPVVALIVVAVVIAVNQLEGDLLQPIVMGKSLQLHALVILMALTAGTILAGIVGAVLSVPLAAVAWAIIQVWTAEDPKLEPMNPDLPPANSQPT				NA	NA	NA	NA	NA
D1-29_03615	537			hypothetical protein	ATGGCAGGAAATCTCATTGCACGGACAGTCCACGATCTCACGGCTGCGGCCTGGTTCGGCGGATCATTGATGGGTGCCATCGGACTGAATGGTGCAGCAGCGGAAGCCAGGGATCCTTCGGAGCGGACCCGGCTCTCCAGCGCGGGCTGGATGAAGTGGGCGCCGATCCAGACGGCAGCCTTCGCCTCGCATCTTGTGGCTGACCTGGCCATCGCCTGGGAGAACAAGGACCGCATCGCCAAGCAGGAAGGCGTTGCCCGGGACACCGCCATCAAGACTGCCGTGACGGTGGCCGGAGCGGCCGTAACTCTCTACGCGGGCATCCTGGGCAAGAAGGTGGAGAAGCTCGCGGACCAAGGGGCGCTGGGCGCAACCGAGCCTACGCCTGAAGCTTCCGAGGAACTCAAAACCGCACAGGAGCAGCTGAAGATGCTGCAGTGGGCTGTTCCGGTGTTCGCAGGCCTGGTGGTCTTCCTGGGCGCCAAGCACGGCGAGATGCAGCGGCCCAAGAACGTGTTCGCGGGCCTGCGCTCCTAG	MAGNLIARTVHDLTAAAWFGGSLMGAIGLNGAAAEARDPSERTRLSSAGWMKWAPIQTAAFASHLVADLAIAWENKDRIAKQEGVARDTAIKTAVTVAGAAVTLYAGILGKKVEKLADQGALGATEPTPEASEELKTAQEQLKMLQWAVPVFAGLVVFLGAKHGEMQRPKNVFAGLRS				NA	NA	NA	NA	NA
D1-29_03616	321			hypothetical protein	ATGCAGCCGCACACGCGTAATATCGCAGCCATGGAGAACAAGGGAACCCTGTTCGGGTGGGCATTCGGCGACGCCGCCCGTGAGGCTGAGAGCGGATATCTTGAGAAGCTTCAGCATGAAGCGTTCGAGAACGCGCGGCGGACGGCAGAGGCCAGGGGTTTCACAGTCCTGGCCGGTTCCGAGGCCTTCACCATCCTGAATGCCCGCGAAACACTGGTGGAGGTTGATACAGCCCCCAACAGCCTGGTGGTCCGCTGCACCGTCACAGTGGAAGGACCGGGAGCCGAGAAGCTGCACGCCGAAGGCCCCATGAACGGATAG	MQPHTRNIAAMENKGTLFGWAFGDAAREAESGYLEKLQHEAFENARRTAEARGFTVLAGSEAFTILNARETLVEVDTAPNSLVVRCTVTVEGPGAEKLHAEGPMNG				NA	NA	NA	NA	NA
D1-29_03617	828			hypothetical protein	ATGTCAGACGGGGACTCCACCATGAGCGACGCGGCCGACGCTGTCGAGGAGGCATCAAACGCCAAGGCGCTGGATGTCGTGGCGCGTTCCGGCTTCGCCGTGGTGGCCCTGCTGCATGTGATTGTTGGCGCCATAGCCATCGCTGTTGCCTTCGGGCAGCCCGGCGAGGCCGAAGCGACCGGCGCCATTGAACAACTGGCTGCCAACCCCTGGGGCCCCGCCGTGATGTGGTCCTGCCTGATCGCCTGTACGGGGCTGGCGCTCTGGCAACTGAGCGAGGCCACGCTCCGCGCCCGGCACCTGCCACGGAAGGAACGCCTGGCCAAAGTGGTCTCGTCCGGGTTCCTGGCGTTGGCGTACGGCAGCGTGGGCCTGAGCTTTGCCGGCTTCGCCGTGGGGCTGCGCGCTGATTCCAGCCGAGTTACCCGTGACTTCAGCGCTGCACTCCTGGGAGCCCCCTTCGGGGTGTGGGTCCTGATAGCCCTGGGGCTGACCATCATGGGAGTGGGGATCTATTTTGTGGCGAAGGGGTTGCGCCGCGGCTTCAAGGACGAGCTCTTCCATTTCGACGGCTCCCGCCGCGGCAAGCTCATCGATGCGCTGGGGCTCACGGGCCACGTGGCCAAAGGTATCGCCCTGACCCTGACCGGGCTGCTCTTTGTCATCGCGGGCGGAAAGCAGAATCCGGACGAAGCCACCGGACTGGACGGCAGCCTGAAGGCACTCCGGGAACACCCCTTCGGCCCTTCCCTCCTGGTGGCGATTGGCGCAGGCTTCATTTGCTACGGCATTTTCGCGCTGGTCCGGGCACGCTTCGGCAGGATGTAG	MSDGDSTMSDAADAVEEASNAKALDVVARSGFAVVALLHVIVGAIAIAVAFGQPGEAEATGAIEQLAANPWGPAVMWSCLIACTGLALWQLSEATLRARHLPRKERLAKVVSSGFLALAYGSVGLSFAGFAVGLRADSSRVTRDFSAALLGAPFGVWVLIALGLTIMGVGIYFVAKGLRRGFKDELFHFDGSRRGKLIDALGLTGHVAKGIALTLTGLLFVIAGGKQNPDEATGLDGSLKALREHPFGPSLLVAIGAGFICYGIFALVRARFGRM				NA	NA	NA	NA	NA
D1-29_03618	1191			hypothetical protein	ATGAGAGCTGAGGGACTCAACACCCGCGGGCCGGATCCCGGAGCGCCCGCTACAGAACTGGCCGGGTGGACGTTCGCCGGCTTGTTCCGGGCCATCAAGGTGGTCCGACCCGACAGGCCCATCCATCCCCACGGCGTCAGCCTTGACGGTGAGCTGATCAGGCACGGCGGCGGGCGGGACGTGAGCGGCCTCGACTGGCTCGATTCACCCGGTGTTGAACCGGTTAAGGCGCGTTTCTCACGGTCGGTGGGATTGCCGCCGTCGTTCCCTGACATCCTGGGCCTGGCACTACGGATCAACCCATCCGGCGAGGCCGCGGACGTCTTGTTCGCGTCCACCGGCTGGAGGTTTCCCGCCCGGTTTGCCCTTATACCCAGGCGCAGTGTTTCCGGCGCCGCGTTTACCACCCTCATGCCATACCAGGGGCGGTACGGTCCCGTGCTTCTGGGCCTGCGGACACGGCAACTGCCGGACGGGTCAGCCGGGGATTGGGTCCTGGAACTGCACTTCGCCAAGCCCGCCGGGCAGTGGGTCCGGGCCGGCGAACTTCGGCTGCGGGAATCTCCAGTCGCCACCGATACTCCGCTCCGCTTCAATCCCGTGGAACATCCGCTGCCGGACGCGGGGACGTACCCGTGGACCCGGCGGCTGCGGGAGCGCTCGTACCGGGCGGCTCAGCAACCCTCCCCTCGTTCTCCCCGTAATTCATCCTATACGGGGGAGTCCTCCGCCCCGACCGAAAGGAAGCCCATGGCAACAGTGAACAAGGTCTTCAACTCCCCGGCGGAGGAAGTGTGGAAAGTCATCGCAGACGGCTGGCTTTACTCGGGCTGGGTGGTGGGTGCGTCGCGGATTCGTGCCGTCGACGCACAATGGCCGGACGAAGGATCCAGGCTCCACCATTCCGTGGGCGCCTGGCCGCTGGTGATCAACGACAGCACAAGTGTGGCCAGTGTGGATCCAGGACGTTCGCTGGAGCTGGTGGCGCGTGTATGGCCGGCGGGCGAGGCCCGAGTGCTCATCACCATCGAGGACCAGGGAATGCAGTGCCGCGTGACCATGGCCGAAGACGCTGTCCGGGGCCCCGGGAGGTTCGTGCCGAAGCCATTGCGGGATGCCCTGATCCGTGCCCGTAACCGCGAAACACTCAACCGGCTCGAACTGATGGCTGCGGGCGGAGCTGGGAGTTAG	MRAEGLNTRGPDPGAPATELAGWTFAGLFRAIKVVRPDRPIHPHGVSLDGELIRHGGGRDVSGLDWLDSPGVEPVKARFSRSVGLPPSFPDILGLALRINPSGEAADVLFASTGWRFPARFALIPRRSVSGAAFTTLMPYQGRYGPVLLGLRTRQLPDGSAGDWVLELHFAKPAGQWVRAGELRLRESPVATDTPLRFNPVEHPLPDAGTYPWTRRLRERSYRAAQQPSPRSPRNSSYTGESSAPTERKPMATVNKVFNSPAEEVWKVIADGWLYSGWVVGASRIRAVDAQWPDEGSRLHHSVGAWPLVINDSTSVASVDPGRSLELVARVWPAGEARVLITIEDQGMQCRVTMAEDAVRGPGRFVPKPLRDALIRARNRETLNRLELMAAGGAGS				NA	NA	NA	NA	NA
D1-29_03619	1467	fprA_2	COG0493	NADPH-ferredoxin reductase FprA	GTGTCATCAAGCACCACCGTAGGCTCTGCCGATCGTCCGCTGCGCGTCGCCGTCGTGGGCTCCGGCCCGGCAGGGGTCTACGCCGCGGACATCCTCACCAAGAGCGAGGCCGTCAAGAGCGGCGAGCTGACCGTGAGCATCGACCTCTTCGACCGCTACCCGGCACCCTACGGCCTGATCCGCTACGGCGTTGCCCCGGACCACCCGCGCATCAAGGGCATCGTTAACGCCCTGCACAAGGTCCTGGACCGTGGCGACATCCGCTTCTTCGGCAACGTGGACTACGGCACCGACCTCTCCATCGAGGACCTGCGCACCCACTACGACGCCGTCATCTTCGCCACCGGGGCCATCAAGGACGCGGACCTGAACATTCCGGGCATCGAGCTGGACGGCTCCTTCGGCGGCGCGGACTTTGTCTCCTGGTACGACGGACACCCGGACGTTTCCCGCGAATGGCCGCTGGACGCCAAGGAAATCGCCGTGATCGGCAACGGCAACGTGGCGCTGGACGTGGCCCGCGTCCTCTCCAAGCACGCCGATGACCTGCTGGTCTCCGAAATCCCGGACAACGTCTACGCCGGCTTGAAGGCCTCCCCGGTCACCGATGTGCACGTCTTCGGCCGCCGCGGCCCCGCTCAGGTGAAGTTCACCCCGCTGGAGCTGCGCGAGCTGTCCCACTCCAAGGACGTGGACATCATCCTGTACGCCGAGGACTTCGAGTTCGACGAGGAGTCGGACCGCCTGATCCAGAGCAACAACCAGGTCAAGACCATGGTGGGCACGCTCACCAACTGGATCGCCGAGCAGCCCGAGGACCTCTCCGAGCTCACCGCATCCCGCCGCCTGCACCTGCACTTCCTGCACAGCCCGGTGGAAATCTACGACGACGCCGAGACGCCGGGCAAGGTGGCCGGCATGAAGTTCGAGCGCACCGAGCTGGACGGCACCGGCAACGCCCGTGGCACCGGCGAGTTTGTGGACTACCCGGTCCAGGCCGTCTACCGCGCCATCGGCTACTTCGGTTCCGCGCTGCCGGAGATCGAGTTCGACCACAAGAAGGGCGTAGTGCCGAACGACGGCGGACGCGTCCTGGACGCCGCCGGCACCCACGTGCCGGGCATCTACGCCACCGGCTGGATCAAGCGCGGCCCGGTGGGCCTGATCGGTCACACCAAGGGCGACGCCTTGGAGACCGTGACATACCTGCTGGAGGACCGGGAAAACCTGCCGGTCGCCGCCGTTCCTGAAGCGGACGCGATCGTCGATCTCCTGGATTCCCGCGATGTGAAGTTCACCAGCTGGGAAGGCTGGCTGGCCCTGGACGCCCACGAGCTCGCCCTGGGCGCTGCAGCCACCGAAGCCGGCGGATCGCATGGCGTTGAGGTCAAGCGTGAGCGCATCAAGGTGGTGCCGCGCGAGGACATGGTTGCCATCTCCCGCGACGGTGTGGCCGCCCAGGTCTGA	MSSSTTVGSADRPLRVAVVGSGPAGVYAADILTKSEAVKSGELTVSIDLFDRYPAPYGLIRYGVAPDHPRIKGIVNALHKVLDRGDIRFFGNVDYGTDLSIEDLRTHYDAVIFATGAIKDADLNIPGIELDGSFGGADFVSWYDGHPDVSREWPLDAKEIAVIGNGNVALDVARVLSKHADDLLVSEIPDNVYAGLKASPVTDVHVFGRRGPAQVKFTPLELRELSHSKDVDIILYAEDFEFDEESDRLIQSNNQVKTMVGTLTNWIAEQPEDLSELTASRRLHLHFLHSPVEIYDDAETPGKVAGMKFERTELDGTGNARGTGEFVDYPVQAVYRAIGYFGSALPEIEFDHKKGVVPNDGGRVLDAAGTHVPGIYATGWIKRGPVGLIGHTKGDALETVTYLLEDRENLPVAAVPEADAIVDLLDSRDVKFTSWEGWLALDAHELALGAAATEAGGSHGVEVKRERIKVVPREDMVAISRDGVAAQV	PGPT0013215_389	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013215-fpr-K00528	NA	NA
D1-29_03620	1272	cysG_2	COG0007	Siroheme synthase	ATGGCAATTCAGGATATTTACCCCACAGCACTGCGGCTGCTCGGCCGCCCCGTGCTGGTGGTGGGTGGCGGACCCGTGGCTGCGCGCCGCGCCAAGGGCCTGCTCGACGCCGGTGCACGGGTCACCGTCGTGGCGCCCGTTGCCTCCGCTGCGCTCCGTGAACTCGCCGACGCCGGCCTGCTCGCCTGGGAGCCGCGCACCTATCGCACGGAAGACGTCGACGGCGTCTGGTTCGTCCAGACCGCCACCGGCGATTCCGCCGTGGACACCCAGGTTTCGAAGGACGCCGAGGCGCAGCGCATCTGGTGCGTCAACGCCTCCGATCATGAAGCCTCCGCCGCCTGGACTCCCGCCGTTGCCGTGGTGGACGATGTCAAGATCGCCATCAACGCCGGGGGAGACCCGCGCCGGGCCATGGCATTGCGCGACGCCGTTGCTACCGCCCTGGAAACCGGCGACCTCCCGCTGCGCCGCCGCCGCGTTTCGAAGAACACGGCGTCTGCCGGCTCCGTGGCCCTCGTGGGTGGCGGCCCTGGCGATACCGGCCTCATCACTGTCCGTGGCCGCCGGCTCCTGGGCCAGGCCGACGTCGTGGTGGCAGACCGCCTCGGCCCCCGCGAACTCCTCAACGAACTTGCCCCCGACGTCCGTGTCATCGAGGTGGGCAAGACCCCAGGGAATCATCCGGTGCCGCAGTCCGAGATCAACAGGATCCTCATAGACGAAGCACTCAAAGGCAACCGCGTAGTCCGGCTGAAGGGCGGCGATCCCTACGTCCTGGGCCGCGGGGGCGAGGAAGCCGAATACTGCCGGCAGCATGGTGTCGAGGTTGAAGTGGTTTCCGGCGTCACATCCGCGATCTCAGTTCCCGCCGCCGCAGGCATCCCCGTGACCCACCGCGGCCTGGCCAAGGGCTTCAGCGTGGTCACAGGACACGAGGAACTTTCCGAGGTCCCGGCCCGGGCGGATCACACCATCGTCCTGCTGATGGGCGTGGGCCAGCTGCGCGAATCTGCGGCCGCCCTCCGCGCAGCCGGTTTGCCTCAGGACACTCCAGTTGGCATCGTTGAGAACGGCTATCTGCCCAATCAGCGCGTGACGATCGGCACGCTCGGTTCCATCGCCGACCAGGCGGAAGCCACCGGCGTAGCAAATCCGGCGGTGATCGTCATTGGTGACGTGGTGCGCGTGAGCCCGTTCGCGCCGTCGCACTTCAAAACCGCAGACTATGGCACCACCACCCCGAACAAGCCCCGAGTCCTCACCACCTAG	MAIQDIYPTALRLLGRPVLVVGGGPVAARRAKGLLDAGARVTVVAPVASAALRELADAGLLAWEPRTYRTEDVDGVWFVQTATGDSAVDTQVSKDAEAQRIWCVNASDHEASAAWTPAVAVVDDVKIAINAGGDPRRAMALRDAVATALETGDLPLRRRRVSKNTASAGSVALVGGGPGDTGLITVRGRRLLGQADVVVADRLGPRELLNELAPDVRVIEVGKTPGNHPVPQSEINRILIDEALKGNRVVRLKGGDPYVLGRGGEEAEYCRQHGVEVEVVSGVTSAISVPAAAGIPVTHRGLAKGFSVVTGHEELSEVPARADHTIVLLMGVGQLRESAAALRAAGLPQDTPVGIVENGYLPNQRVTIGTLGSIADQAEATGVANPAVIVIGDVVRVSPFAPSHFKTADYGTTTPNKPRVLTT	PGPT0003690_1585	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302	NA	NA
D1-29_03621	942	cysK		Cysteine synthase	ATGGAACGTGCGGCGGGAGCAGACGGTGGTGTTCTGGCAGGCATCGGTTCAACGCCGCTGATCGAACTGGGAAAAGTGGTGCCGCCGGGGTCTGCCAGGGTGCTCGCGAAGCTCGAATTCGCCAACCCGACGGGGAGCATGAAGGACCGCATGGCGCTGGCAGCGATAGCGGGAGCCGAAGCACGCGGTGAGATCACCCCCGGCGACACTGTCGTCGAGTACACGGCAGGGACTACAGGCATCTCCCTCGCCTTGGTCTGTGCGGCTAAAGGTTACCGGCTCCACGTCGTATTTTCGGATGCGTTCAGCGATGAGAAACGCCGGACAATGGAGGCCCTCGGGGCAGTTGTTGAGGACGTCCCCAGCGACCACGGACGGATTACGGAGCAACTCATCAAAGCGATGATTGCCAGGGCCGGAGAACTGAGCGTTCAACCAAGTCACTGGGCGTGCGACCAACTCAACAACAAGGACGCTGTCACTGGCTATCTGGCGCTCGGAGATGAAATCTGGCAGCAATCGCACGGCCGGGTGGACGCCCTGGTCCAGTCCGTCGGCACAGCCCACTCCATTCACGGCGCTGCCCGTGCCCTGCGGCAGCACCTGCCCGGGCTGAGCGTCATCGCCGTCGAGCCGGCCGAGTCTTCCGTACTTTCCGGAGGCCCTACTGGCTCCCACCGGATAGAAGGCATCGGGATCGGGTTTATACCGCCACTCTGGGAACCGGAGGCCGTGGATGCCATAGAACTGGTGTCCTCCGAGGACGCGATGGCGATGAGCCGCCGTCTCGCCCGGGAGGAAGGCATCTTCGCCGGCACCTCCTCAGGAGGAAATGTTGTTGCCGCCCTGCGTGTAGCCGAGCAGCTTGGCCCGGACGCGACTGTCGTCACCATCATGGTTGACTCCGGGTTCCGGTACCTCAGCACTGGGCTGTACGGATAG	MERAAGADGGVLAGIGSTPLIELGKVVPPGSARVLAKLEFANPTGSMKDRMALAAIAGAEARGEITPGDTVVEYTAGTTGISLALVCAAKGYRLHVVFSDAFSDEKRRTMEALGAVVEDVPSDHGRITEQLIKAMIARAGELSVQPSHWACDQLNNKDAVTGYLALGDEIWQQSHGRVDALVQSVGTAHSIHGAARALRQHLPGLSVIAVEPAESSVLSGGPTGSHRIEGIGIGFIPPLWEPEAVDAIELVSSEDAMAMSRRLAREEGIFAGTSSGGNVVAALRVAEQLGPDATVVTIMVDSGFRYLSTGLYG	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
D1-29_03622	969	cmpB_2	COG0600	Bicarbonate transport system permease protein CmpB	ATGCCAAGTAACCCCACTCCGCTCGCTGAATCCGTCTCTTCGGAACCAACAGCACCTGCAGAACCGAACGAAACCCGGCACATCACCGCGGCCCTGACCCGGTCCTCCACCGGCTCTGAGGACCTGCGCGAGCTGGAATCCGGCCTTGACTCCCTCCAATCCGACGCCGCCCGCAAGGCTCGGATCGACTGGAGCCGGGTGCTCCTGCCGATCGCCGCCCTGGTGGTGCTGATCCTCGTCTGGCAGTTCTACGTGTCGCTCGGCGTCAAGCGGCGGGACCTCGTTCCCGGTCCGCTTGATGTGCTGGGGCAGGTTGGCGTGCTATGGGGTGAGGGGAAGCTGCAGGAGGCTGTCTGGACCTCACTTCAGCGCGGCCTCGTCGGCTTCCTGATCAGTGTCGCCGTCGCCACGCCGGTGGGGCTGCTGTTGTCCCAGGTGGCTCCGCTGCGGCGCGCGTTCGGGCCGCTGATTTCCGGACTGCAGGTACTGCCGTCCGTGGCGTGGGTGCCGGCCGCCATCATCTGGTTTGGCCTGACGGATGCCACCGTGTACTTCGTGGTGCTGATGGGTGCCATCCCGTCCATCATCAACGGCCTGATTTCCGGTGTGGACCAGATCCCGCCGCAGTACCGCCGCGTGGGCACAGTCCTGGGCGCATCACGGCTCCAGATGGCACTGCAGATTATCCTTCCCGCGGCGCTGCCCGGCTACCTGGGCGGGCTCAAGCAGGGCTGGGCGTTCTCCTGGCGCTCGCTCATGGCCGCTGAAATCATCGCTGTGGGCGGGACCATCGGCTTCGGCCTGGGCTCGCTGCTGGACCAGGGCCGCCTGCTGTCCGACATGACCGTGGTGATGTCCGCGATCCTGCTGATCCTCGCGGTCGGCATCCTGATCGAACTGCTGGTCTTCGCGCCGATCGAGAAGCGCCTGCTCCGGAGCCGCGGCCTGCTCTCGGGCAGCACCCGCTAA	MPSNPTPLAESVSSEPTAPAEPNETRHITAALTRSSTGSEDLRELESGLDSLQSDAARKARIDWSRVLLPIAALVVLILVWQFYVSLGVKRRDLVPGPLDVLGQVGVLWGEGKLQEAVWTSLQRGLVGFLISVAVATPVGLLLSQVAPLRRAFGPLISGLQVLPSVAWVPAAIIWFGLTDATVYFVVLMGAIPSIINGLISGVDQIPPQYRRVGTVLGASRLQMALQIILPAALPGYLGGLKQGWAFSWRSLMAAEIIAVGGTIGFGLGSLLDQGRLLSDMTVVMSAILLILAVGILIELLVFAPIEKRLLRSRGLLSGSTR	PGPT0001145_1337	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
D1-29_03623	726	cmpC	COG0715	Bicarbonate transport ATP-binding protein CmpC	ATGCCAGTCGTACTGGAAAACCTGGGCAAGCGCTTCGGCGACGGCGCCCCGGTGCTGGACGACGTCAACGCCAACATCGGGAAGGGCGAGTTCGTGGCCCTCCTCGGAGCCTCCGGCTGCGGCAAGTCCACCCTGCTGAACATCATGGCGGGACTGGAGGTCCCGACGTCGGGCGCTCTTGAAGTGCCCAGCGACGGCGCGGCCTTTATGTTCCAGGACGCCGCCCTCTTCCCCTGGCTGACGGCCCGGGAGAACATCGAGCTGGCGCTGAGGCTGCGCGGCGTGGGCAAGGCAGACCGGCGCGTCAAAGCGCAGGAACTCCTGGAGCTGGTGCACCTCGGTACTGCCGGTGACAAGCGGCCGCACGAGCTGTCCGGCGGCATGCGGCAGCGCGTGTCCCTGGCCCGTTCCCTGGCGCAGGACCGGCAGCTGCTGCTTATGGACGAGCCGTTCGCGGCCCTGGACGCCATCACCCGCGACCTCCTCCACGACGAGCTGGAGCGCATCTGGAAGGAAACCGGGCGCACCATCGTTTTTGTCACCCACAACGTCCGCGAGGCCGTCCGGCTGGGCCAGCGCGTGCTGCTGCTGTCCTCCCGTCCGGGCCGCGTGGTCCAGGAATGGGCCGTGACCGAGGAACACCGAACCGACGCCGGGCTTGCCGGACAGCTGACCGGGGTCATCACAGCCCGGCTGCGGGAGGAGATTCGCCGCCATGCCAAGTAA	MPVVLENLGKRFGDGAPVLDDVNANIGKGEFVALLGASGCGKSTLLNIMAGLEVPTSGALEVPSDGAAFMFQDAALFPWLTARENIELALRLRGVGKADRRVKAQELLELVHLGTAGDKRPHELSGGMRQRVSLARSLAQDRQLLLMDEPFAALDAITRDLLHDELERIWKETGRTIVFVTHNVREAVRLGQRVLLLSSRPGRVVQEWAVTEEHRTDAGLAGQLTGVITARLREEIRRHAK	PGPT0001140_8366	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
D1-29_03624	1146			hypothetical protein	ATGACTAGTTCCAAGCCCGGGATGATTCGCATCGTGGCAGGCGAAAGCGCGGTGCCCAAGCGCAAGCGTGCCATCGAGGCTGCCCTCGCCATCGGACTGGTCCTCCTGATCGCTGCAGGTGCCGTGGTGGCTTCCACAGTCTCCCGCAATGCCGCCGCTGCCTCCCCGCCGCCCACGCCGGCAGCCGAGCTCAAGCTGGGCTACTTCGGAAACCTGACCCACGCTCCCGCCCTGGTGGGCCTCAAGCAGGGCTTCCTGGCCAGGAACCTGGGCAGCACCAAACTCAGCACGGAGACCTTCAACGCCGGACCTGCCGCCATCGAAGCCCTGAACGCGGGCGCCATTGACGCTGCCTACATCGGCCCCAATCCGGCCATCAATTCCTTTGTCAAGAGCAAGGGTGAATCCGTGAGCATCATCGCCGGCGCCGCCGCCGGTGGTGCCCAGCTGGTGGTCCGGCCTGAGATCAACTCGGCGTCGGACCTCAAGGGCAAGACCCTCGCCTCCCCGCAGCTCGGCGGCACCCAGGACGTGGCGCTGCGCGCCTGGCTGGGCTCACAGGGCTACAAGACCAACGTGGACGGCAGCGGTGATGTCCTGATCAACCCCACCGAGAACGCCCAGACGCTCAAGCTGTTCCAGGACGGAAAGCTCGACGGCGCTTGGCTGCCTGAACCGTGGGCGTCCCGGCTGGTGCTCCAGGCCGGAGCCAAGGTCCTGGTGGACGAAAAGGACCTCTGGGACGGTTCGGCCTCCGGCAAGCCCGGCGAGTTTCCCACCACCATCCTGATCGTTAACAAGACGTTCGCGGCCGAGCACCCGGACACAGTGAAGGCCCTGCTGAAAGGCCATGCAGAATCGGTGGCATGGCTCAACGACGCCCCCGCCGCCGAGAAGTCCGCTGTCATCAACGCCGCGCTGCAGGAGTCGGCCGGAGCCGCGCTCCCGGCCGACGTCATCGAAAGGTCCTTGGGCAACATCGTGTTCACCGTGGATCCGCTGGCCGGAACCTACCCCAGGCTGCTCAAGGACGGCGTGGAGGCCGGCACCACCAAACAGGCGGACATCAAGGGCCTGTTCGACCTCAAAGCCTTGAACGAAGTGACCGGTGAGTCCATACCGGCCGCCGGCCTCGGGGACGACTAA	MTSSKPGMIRIVAGESAVPKRKRAIEAALAIGLVLLIAAGAVVASTVSRNAAAASPPPTPAAELKLGYFGNLTHAPALVGLKQGFLARNLGSTKLSTETFNAGPAAIEALNAGAIDAAYIGPNPAINSFVKSKGESVSIIAGAAAGGAQLVVRPEINSASDLKGKTLASPQLGGTQDVALRAWLGSQGYKTNVDGSGDVLINPTENAQTLKLFQDGKLDGAWLPEPWASRLVLQAGAKVLVDEKDLWDGSASGKPGEFPTTILIVNKTFAAEHPDTVKALLKGHAESVAWLNDAPAAEKSAVINAALQESAGAALPADVIERSLGNIVFTVDPLAGTYPRLLKDGVEAGTTKQADIKGLFDLKALNEVTGESIPAAGLGDD	PGPT0001135_844	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
D1-29_03625	1167	rtcB	COG1690	RNA-splicing ligase RtcB	GTGGAACAGATCAACAGCAAACTCATCAACTGGGCCTCGATCCTGGATGACAAGACGCGTGAGCAGGCCCTGGCAACATCCCGGCTGCCGTTCATCTACCCGCACCTGGCGCTGATGCCGGACGCGCACCTGGGCAAGGGCGCCACCGTGGGGTCCGTGATTCCCACCGAACGTGCCATCATCCCGGCCGCCGTGGGGGTGGACATCGGCTGCGGGATGATCGCCGTCCGGACCCAGTACTCGCTGAAGGACCTGCCGAAGGACAGGAAGCGGTTGCGGGAGAACATCGAACGCGCCATCCCTCTCTCCGCCGGACACAACAACCGCAAGGTCCAGGCAACTGCCGAACCCCGCGTTGCCCAACTGTCCAGGATGGCCGCCAAGGCCGGGTTCAGCCCTGCGCAGTATGTGGCCAACTGGGAGCTGCAGCTTGGCTCGCTGGGATCCGGAAACCACTTCATCGAGGTGTGCGCCGACGAAACCGACGGCGTCTGGCTGTTCCTGCACTCCGGCTCGCGGGGCGTGGGCAACAAGATCGCGCAGCACCATATCGGCGTCGCGCAGAACCTGACCCGGAAGAGGCAGATCACGCTTCCCGATCCGGACCTTGCCTACCTTGAGGAGGGCACGCCGCAGTTCAGCCGCTATATGGAGGAGCTGCGCTGGGCCCAGCATTTCGCCCTGCTGAACCGCGAGGAAATGATGGACCGCGTGATCACCCAGTTCAGCACCTGGGTGGGCGGGCCGGTGAAGGAGCAGGAGCGGATCAACTGCCACCACAACTTCACCCAGCAGGAAACGCACTATGGAAAAACCGTCTGGGTGTCGCGCAAGGGCGCCATCAAAGCCGAGCACGGCGATCCGGGACTGATTCCCGGTTCCATGGGGACGGCGTCGTACGTGGTGGAGGGCCTGGGCAATCCAGTGTCGCTGAACTCCTCACCGCACGGGGCTGGGCGCGAGTACTCACGTAACGCTGCCCGCAAAACGTTCTCGCTGGCGGAGCTGAAAACGGCCATGCACGGGATCGAATTCCGCGCTACGGAGGCCTTCATCGACGAAATCCCCGCGGCCTACAAACCCATCGACGTGGTGATGAGGGACGCGGCGGACCTCGTCACAATCCGGCATAAGCTCCGCCAGCTGGTCAACGTCAAGGGCAACTGA	MEQINSKLINWASILDDKTREQALATSRLPFIYPHLALMPDAHLGKGATVGSVIPTERAIIPAAVGVDIGCGMIAVRTQYSLKDLPKDRKRLRENIERAIPLSAGHNNRKVQATAEPRVAQLSRMAAKAGFSPAQYVANWELQLGSLGSGNHFIEVCADETDGVWLFLHSGSRGVGNKIAQHHIGVAQNLTRKRQITLPDPDLAYLEEGTPQFSRYMEELRWAQHFALLNREEMMDRVITQFSTWVGGPVKEQERINCHHNFTQQETHYGKTVWVSRKGAIKAEHGDPGLIPGSMGTASYVVEGLGNPVSLNSSPHGAGREYSRNAARKTFSLAELKTAMHGIEFRATEAFIDEIPAAYKPIDVVMRDAADLVTIRHKLRQLVNVKGN				NA	NA	NA	NA	NA
D1-29_03626	1440	cysNC	COG0529	Bifunctional enzyme CysN/CysC	ATGAGCACCGAGACTTCACTCCTGGCCGCCGAGCTGGAAACAGCCCTGCCCACCACCCTGTTCCGCTTCGCCACCGCCGGATCGGTCGACGACGGCAAGTCCACTCTGGTGGGCCGCCTCCTGCACGACTCCAAGGCGATCCTGGCAGACCAGCTCGACGCCGTCGCCCGCACCTCAGCGGACCGCGGCTTCGGCGGTGCCGGCGCCACTGGCACCCAGGCGATCGACCTCGCCCTCCTGACGGACGGCCTCCGCGCCGAGCGCGAGCAGGGCATCACCATCGACGTGGCCTACCGCTACTTCGCCACCGACCAGCGCAGCTTCATCCTGGCCGACTGCCCCGGTCACGTGCAGTACACCAAAAACACGGTGACCGGCGCGTCCACCGCGGATGCCGTCGTCGTACTCATTGACGCCCGCAAGGGTGTCCTGGAGCAGACGCGCCGGCACCTGTCCGTGCTGCAGCTGCTGCGGGTGGCGCACGTGATTGTGGCCGTGAACAAGATCGACCTGGTGGACTTCAGCGAGTCGGTGTTCCGCGAGATCCAGGCTGACGTGCAGCGGGTTGCCCGCGAACTGGGCATCGGTTCCGCCGAGCTGGGCACCGCGGACCACATCGATGACCTGCTGGTCATCCCCGTGTCCGCGCTCGACGGCGACAACGTGGTGGAGCGCTCCGAGCGCACTGCCTGGTATGACGGTCCTGCCCTGCTGGAGGTCCTGGAGACCCTGCCGGCCGCCGACGAAATCGACACCCAGCTGGAAAGCTTCCGCTTCCCGGTGCAGCTGGTGGTCCGGCCGCAGGGTGCGCTGGCTCCCGACGCCGTGGCTGCCGGCCTGGACGTTGAGGCCTACCGCGACTACCGTGCGTACGCAGGCCAGATCACCGAGGGTTCCGTCAAGGTGGGGGACAAGGTTTCTGTGCTGACCCCCGGCCAGGGCCCCCGCACCACCACCGTGGTGGGCATCGACTTCGCCGGAGCCTCGCTCCAGGAAGCCGCCGCTCCGCAGTCTGTGGCGATCCGCCTGGCTGACGAGTTCGACGTCGCCCGCGGTGACACCATTGCCGCCGCCGGAACTGTCCGTGAATCGTCGGCTGACCTGTACGCTGCCCTGTGCTGGCTCTCACCCAAGCCGCTGCGTGAAGGCGCCAAGGTGCTGGTCAAGCACGGCACCCGCACCGTCCAGGCCTTGGTCCGCAACGTCAGCGGCAAGCTTGACCTGGCCTCCTTCAAGCTCGAAGCCACATCAAGCCTTGAGCTGAACGACATCGGCCACGCGCAGCTCCGGCTCTCCGCGCCGCTGCCGCTGGAGAATTACACGCACCACCGCCGCACCGGAGCGTTCCTGGTGATCGATCCGCTGGACGGCAACACGCTGGCCGCAGGCCTGATCAAGGACCACCCGGGCGACCACGAGGACGAGCGCTACTCCATCTGA	MSTETSLLAAELETALPTTLFRFATAGSVDDGKSTLVGRLLHDSKAILADQLDAVARTSADRGFGGAGATGTQAIDLALLTDGLRAEREQGITIDVAYRYFATDQRSFILADCPGHVQYTKNTVTGASTADAVVVLIDARKGVLEQTRRHLSVLQLLRVAHVIVAVNKIDLVDFSESVFREIQADVQRVARELGIGSAELGTADHIDDLLVIPVSALDGDNVVERSERTAWYDGPALLEVLETLPAADEIDTQLESFRFPVQLVVRPQGALAPDAVAAGLDVEAYRDYRAYAGQITEGSVKVGDKVSVLTPGQGPRTTTVVGIDFAGASLQEAAAPQSVAIRLADEFDVARGDTIAAAGTVRESSADLYAALCWLSPKPLREGAKVLVKHGTRTVQALVRNVSGKLDLASFKLEATSSLELNDIGHAQLRLSAPLPLENYTHHRRTGAFLVIDPLDGNTLAAGLIKDHPGDHEDERYSI	PGPT0002400_265	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002400-cysN-K00956	NA	NA
D1-29_03627	1065	cysD	COG0175	Sulfate adenylyltransferase subunit 2	ATGAGCACCCAAACCACCAACGAGGACCTGGAGTTGTCTGTGCTGGAAACCGACGCTACTGAGACGCCGAATGCCGCCCAGGGAGTGGCATCGGGCCTGTCGGAGCCGCGCGCAGGACTGATCGAAGATCAGTCGCGCGGCGAAGGGGCGGGGGCGGCATTCGGCGTCGCAACGCGCCTCTCCAGCCTGGACACGCTTGAGTCCGAGGCCATCCACATCATCCGCGAGGTTGTTGCCGAGTTCGAGAAGCCCGCGCTGCTGTTCTCCGGCGGCAAGGACTCCGTGGTCATGCTGCACCTGGCCACCAAGGCGTTCTGGCCGGGCAAGGTCCCGTTCCCGGTGCTGCACGTGGACACCGGCCACAACTTCCCCGAGGTCATCGACTTCCGCGACCGGACGGTGGAACGGCTGGGACTGAAGCTCGTCGTCGGAAGTGTCCAGGAGTTCATTGACCGCGGCGAGCTGGCCGAGCGTGCCGACGGCACCCGCAACCCGCTGCAGACCGTTCCGCTGCTGGACGCCATCCAGCAGAACAAGTTCGACGCCGTCTTCGGCGGCGGCCGCCGTGACGAGGACAAGGCCCGCGCCAAGGAGCGCATCCTGAGCCTCCGCGACGAGTTTGGCCAGTGGGACCCGCGCAACCAGCGCCCCGAGCTGTGGAACCTGTACAACGGCCGCCACACCGTGGGCCAGCACGTCCGCGCCTTCCCCATCAGCAACTGGACCGAGCTGGACATCTGGCGCTACATCGAACGCGAGAACATCGAGCTGCCGGGCCTCTACTACGCCCACGACCGCGAAGTGTTTGCCCGCGACGGCATGTGGCGTGCCGTGGGCGAGGTTTCCCAGCCGCTGCCGCACGAGGAAGTCATCATCAAGACGGTCCGCTACCGCACCGTGGGCGACATGTCCTGCACCGGTGCCGTTGAATCGGCCGCAGCCACCGTGAGCGACGTTGTGATCGAAGTTGCCGCCTCCACCATCACCGAACGTGGTGCCACCCGTGCAGATGACCGCATCTCCGAGGCAGCCATGGAAGACCGCAAGAAGGATGGTTACTTCTAA	MSTQTTNEDLELSVLETDATETPNAAQGVASGLSEPRAGLIEDQSRGEGAGAAFGVATRLSSLDTLESEAIHIIREVVAEFEKPALLFSGGKDSVVMLHLATKAFWPGKVPFPVLHVDTGHNFPEVIDFRDRTVERLGLKLVVGSVQEFIDRGELAERADGTRNPLQTVPLLDAIQQNKFDAVFGGGRRDEDKARAKERILSLRDEFGQWDPRNQRPELWNLYNGRHTVGQHVRAFPISNWTELDIWRYIERENIELPGLYYAHDREVFARDGMWRAVGEVSQPLPHEEVIIKTVRYRTVGDMSCTGAVESAAATVSDVVIEVAASTITERGATRADDRISEAAMEDRKKDGYF	PGPT0002405_456	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002405-cysD-K00957	NA	NA
D1-29_03628	729	cysH	COG0175	putative phosphoadenosine phosphosulfate reductase	GTGAGCAACGACCAGTCAACGGCACCGGCCCTCCGCAGCCACGACGAACTCAAGGCGCTGGCCGAATCCGGCGCTGCCGAACTCGGCTGGGACGCACCCGCCCGCGACGTCATCGCCTGGGTGGAGCGCAACTTCGACCTGCCCGCAGTAGCTGTCGCCTGCTCCATGGCCGACTCCGTGCTGCCTGCCCTGGTGGCTGACCAGATGCCCGGCGTCGACGTCCTGTTCCTGGAAACCGGCTACCACTTCCCGGAGACCTACGCCACGCGGGATGAGGTGGCAGCAAACCTTCGCGTCAACGTGGTGGACGTGCTTCCGGAGAACACTGTGGAACAGCAGGACCGGCTCCTGGGCAAGGACCTCTTTGCCCGCGACGCCGCCCAGTGCTGCGCCCTCCGCAAGGTGGCCCCGCTGCGCCGCACCCTGGCCGGCTACGAGCTGTGGTTCACCGGCGTCCGCCGCGACGAGTCACCCACCCGCACCAACACGCCGCTGGTCACCTGGGACGAGGCTAACGGCCTGGTCAAGGTCAACCCGGTGGCCGCCTGGACGTTCGACCAGCTGGTGCAGTACTCCGATGACAACCTCCTGCCCGTGAACCCGCTGCTTTCCCAGGGTTACCCCTCCATTGGCTGCCAGCCCTGCACCCGGAAGGTGGCGCCGGGCGACGACCCCCGCGCCGGCCGCTGGGCAGGGACCGACAAGACAGAATGCGGACTACACGTATGA	MSNDQSTAPALRSHDELKALAESGAAELGWDAPARDVIAWVERNFDLPAVAVACSMADSVLPALVADQMPGVDVLFLETGYHFPETYATRDEVAANLRVNVVDVLPENTVEQQDRLLGKDLFARDAAQCCALRKVAPLRRTLAGYELWFTGVRRDESPTRTNTPLVTWDEANGLVKVNPVAAWTFDQLVQYSDDNLLPVNPLLSQGYPSIGCQPCTRKVAPGDDPRAGRWAGTDKTECGLHV	PGPT0002785_715	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
D1-29_03629	1749	sir	COG0155	Sulfite reductase [ferredoxin]	ATGACTGATACAGCTCTAGCCGGAGCGTCCGCGGACTCCGCTGCCTCCAAGCGCCCCGCACGCACCTCTTCCCGCCCAGCCGCCAAGCCGCACGGGCAGTGGAAAGTGGACGGCAAAACTCCGCTGAACGCCAACGAAACCTGGAAACAGGAAGACGACGGCCTTAACGTGCGCGAGCGTATCGAGTCCATCTACTCCAAAGAAGGCTTCGACTCCATCCCCGGCCAGGACCTGCACGGCCGCTTCCGCTGGTGGGGCCTGTACACCCAGCGCAAGCCCGGGATCGACGGCGGCAAGACCGCCACGCTTGAGCCGCACGAGCTTGAGGACAAGTACTTCATGCTCCGGGTCAGGATCGACGGCGGTGCGCTCACCACCGAGCAGCTGCGCGTCATCGGCCAGATCTCCGTTGACTTCGCGCGGGACTCGGCCGACCTCACCGACCGCCAGAACATTCAGCTGCACTGGATCCGGGTGGAAGACATCCCGGAAATCTGGACCCGCCTGGAAGGCGTTGGCCTGTCCACCACCGAGGCCTGCGGCGACGTTCCGCGCGTCATCCTGGGCTCCCCGGTGGCCGGCATCGCCAAGGACGAGATCATCGACCCCACGCCGCTGATCGCTGAACTGGGCGAACGCTTCATCGGCAACCCGCTGCTCTCCAACCTGCCGCGCAAGTACAAGACCGCCATCACCGGCCACCCCAGCCAGGACGTGGTCCACGAGATCAACGACTTCGCCCTCGTGGGAGTCAAACACCCCGAGCTGGGCGTGGGCTACGACCTCTGGGCCGGCGGCGCCCTGTCCACCAACCCGATGCTCGGCAAGCGCCTGGGTGCCTTCGTGAAGCCTGAGGAAGCCGCCGAAGTATGGCTCGGCGTCACCAGCATCTTCCGCGACTACGGTTACCGCCGCATGCGCACCAAGGCCCGCCTGAAGTTCCTGATGGCCGACTGGGGCCCGGAGAAGTTCCGCCAGATCCTCGAGGACGAATACCTGGGCTACAAGCTGGCCGACGGTCCCGCCGCGCCCAAGCCCACCTCGCCGGGCGACCACATCGGCGTGCACGAGCAGAAGGACGGCAAGTTCTTCATCGGCGCCACCCCGCTGGCCGGCCGCCTCTCCGGCGCTGCGCTGGTCAAGCTCGCTGACACCCTCGAGGCCCGCGGCTCCTACCGGCTGCGCACCACCCCGCACCAGAAGCTCGTGGTGCTGGACGTCGCCAAGGACCAGGTTGAGCCGCTGGTGGCCGAGCTGGACGCCCTGGGCCTCTCCGCCCGGCCGTCCGTGTTCCGCCGCGGCACCATCGCCTGCACCGGCATCGAATACTGCAAGCTGGCCATCGTGGAAACCAAGGTCACCGCCGCAACCGCCGTCGCCGAGCTGGAACGCCGCCTGGCGGACCTCGCCGCGTCCGGCGAACTGCCGCACGCGCTGTCCCTGCACATCAACGGCTGCCCCAACTCCTGCGCCCGCATCCAGACCGCGGACATCGGCCTCAAGGGCATGATGCTGCCAACGCCCGACGGCGACCCCACCCCCGGCTTCCAGGTCCACCTGGGCGGCGGGCTGGCTTCCACCGACCGGGAAGAGGCCGGCCTGGGACGCACCGTCCGCGGGCTCAAGGTCTACGTCGAGGACCTGCCGGACTACGTGGAGCGGGTTGTCCGCTCCTTCGTGGCGAAGCGCTCCGAGAACCAGACGTTTGCCGAATGGGCACACGCAGCTGATGAGGGGGACCTGCAGTGA	MTDTALAGASADSAASKRPARTSSRPAAKPHGQWKVDGKTPLNANETWKQEDDGLNVRERIESIYSKEGFDSIPGQDLHGRFRWWGLYTQRKPGIDGGKTATLEPHELEDKYFMLRVRIDGGALTTEQLRVIGQISVDFARDSADLTDRQNIQLHWIRVEDIPEIWTRLEGVGLSTTEACGDVPRVILGSPVAGIAKDEIIDPTPLIAELGERFIGNPLLSNLPRKYKTAITGHPSQDVVHEINDFALVGVKHPELGVGYDLWAGGALSTNPMLGKRLGAFVKPEEAAEVWLGVTSIFRDYGYRRMRTKARLKFLMADWGPEKFRQILEDEYLGYKLADGPAAPKPTSPGDHIGVHEQKDGKFFIGATPLAGRLSGAALVKLADTLEARGSYRLRTTPHQKLVVLDVAKDQVEPLVAELDALGLSARPSVFRRGTIACTGIEYCKLAIVETKVTAATAVAELERRLADLAASGELPHALSLHINGCPNSCARIQTADIGLKGMMLPTPDGDPTPGFQVHLGGGLASTDREEAGLGRTVRGLKVYVEDLPDYVERVVRSFVAKRSENQTFAEWAHAADEGDLQ	PGPT0002825_578	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002825-sir-K00392	NA	NA
D1-29_03630	735			hypothetical protein	ATGAACAGCCCCATCATGATCGCCTGCGCCCACGGGACGTCCAACCCCCAGGGCGCCGCGGAGGTCAACGCCCTGCGCGATGCCATCGCGGCCCTGCGCCCCGGACTCGACGTGCGCGAGGCCTATGTGGACGTCCAGCAGCCGGATCTTGTGGACGTGATGGCGTCGCTCCCCGAAGGCGAGACGGCTGTGGTGGTGCCGCTGCTGCTAAGCGTGGGCTACCACGTCAAGGTGGACATCGCCCGGGCCGTCAAGAGCCGGCCGGGAAGCCTCGCCGCCGCGCCGTTGGGCCCGGACCCCAGGCTGGCAGCCCTGCTGGACCAGCGCCTGCGTGAGGCGGGCGTCACCGACCGCGACGCCGTCGTCCTGGCCGCTGCCGGGTCTTCCAACCCCAACGCAGCCGTCAGCGTCGAGGAACTCCTGGGGCACCTGAGCGAGCTGCGGTCCAACAGGATCGTCGCCGCCTACGGAGCGTCCGCCAAACCCTCGGTGCCCGACGCCGTCGCCATGCTCCGCGAGGAAGCCGAGGGCGGTGCCGGCGCGGGGGAGTCCGCCGGCGGTGTTGACCTGGGCGGCCGCGTGGTGATCGCCTCCTACCTCCTGGCGCCGGGCTACTTCCATGACCAGCTTGCGAAGGCCGGGGCCGACCTCGTGACTGCGCCGTTGCTGCCGTCGCCCGTGCTGGCCGAGATTGCGCTGGAACGCTACGACGCCGCCGTCGCAGCCGGTCGCTAA	MNSPIMIACAHGTSNPQGAAEVNALRDAIAALRPGLDVREAYVDVQQPDLVDVMASLPEGETAVVVPLLLSVGYHVKVDIARAVKSRPGSLAAAPLGPDPRLAALLDQRLREAGVTDRDAVVLAAAGSSNPNAAVSVEELLGHLSELRSNRIVAAYGASAKPSVPDAVAMLREEAEGGAGAGESAGGVDLGGRVVIASYLLAPGYFHDQLAKAGADLVTAPLLPSPVLAEIALERYDAAVAAGR	PGPT0003690_20	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003690-cysG-K02302	NA	NA
D1-29_03631	669			hypothetical protein	ATGACATTCCCTTTTGACATCGCCCTGGTATGGCTGGACCTGGCCGGTGTCTTCTTCTTCGCCGTATCCGGATCCCTCCTGGCGGCCCGGAAGCAGTTCGACGTGGTGGGCTCGCTGCTGCTGGCCTCCCTCGTCTCCCTGGGTGGCGGCATCATCCGCGACATCATCCTCAACACCACTCCGGCCGCCTTCACCAATCCGGCCTACCTGGCTCCCCCGGTCCTGGCCACCGTGCTGGTCTACTTCCTCTTCTCCAGCGTCCAGCGCTTCACCTCGCTGCTGACCCTGTTCGACGCCGGCGGGCTGGCCCTGTTCTGCATCACCGGAACCCTCAAGGCACTTGCACTGGGCATCAACCCGGTGGCGGCCGTGCTTTTGGGAGTTACGACGGCGGTGGGCGGCGGCCTGCTGCGCGACATCACCGCCAATGAGGTACCGCAGCTGTTCGATCCCAGGGACCTCTATGCACTGCCGGCCTTCAGCGGCGCGGTGTTAACCGCAGTGCTGTGGGTTCTGGGCGGCTTCACTGCAGTGAGTGCGTGCGGGGTGGCGGCTGTGGTTTTCGCCTTCCGTGTGGTGGCCTGGCGCCGGTCCTGGCGTATTCCTTTGGCTGTTCGCGGCTGGCAACGGCTTGGCGTTGACGAGGGCAAGTTGAGGGACGGAAATTAG	MTFPFDIALVWLDLAGVFFFAVSGSLLAARKQFDVVGSLLLASLVSLGGGIIRDIILNTTPAAFTNPAYLAPPVLATVLVYFLFSSVQRFTSLLTLFDAGGLALFCITGTLKALALGINPVAAVLLGVTTAVGGGLLRDITANEVPQLFDPRDLYALPAFSGAVLTAVLWVLGGFTAVSACGVAAVVFAFRVVAWRRSWRIPLAVRGWQRLGVDEGKLRDGN				NA	NA	NA	NA	NA
D1-29_03632	423			hypothetical protein	ATGACTGACATGTTCCTCGAGAAATTCCGCGCGCTTGTTCCGAAGTATCTCGAAGACGAATGGCAGGAAGAGGACGGGCTGCCCACGGATGAGCTTGATGCCGCCCTCGCCGAACACCAATTCCAGGTTCCCCTGGTCCTGCGCGAGTTCTACCAGGCCCTCGGCGGCTGCGAGGACCTCATGGAGGCCTACCACTACTTCTGGGATCCCGAAGAGCTGGAAGTCGATGACGAAGGCTTCCTGATGTTCATGGAGGACGAGGAAGAGCAGTTCACCTGGGGCTTCCGCGTAGGCGACCTCAGCGTTCCCGATCCCATTGTGTGGCGCCGCAACAACGCCCGAGGCCAGTGGAAGAACGAAGAAGGAACCTTCTCTGAGTTCGTCTTCGACATGTTCGAGTGGGCGTTCAACGACGAAGACTAG	MTDMFLEKFRALVPKYLEDEWQEEDGLPTDELDAALAEHQFQVPLVLREFYQALGGCEDLMEAYHYFWDPEELEVDDEGFLMFMEDEEEQFTWGFRVGDLSVPDPIVWRRNNARGQWKNEEGTFSEFVFDMFEWAFNDED				NA	NA	NA	NA	NA
D1-29_03633	435			hypothetical protein	ATGGTGCAATCAGCGGTGGGACGCGGAGACATAGCGCTGGACTTCCTCTACTCAAAGTCACCTGGGCGGCGGAACGGCAAGGTGCGGGACGTGCTCGACCTGCTGATTCCCAGAGCGGACTCACTTCTGGAAGTCTTGGCAAACACCCATTTTGAGCGGGCCGGCCTCCGCGTCCGCAGGCACGTATTCATCCCTGGAGTGGGCGAAGTGGATTTCCTGGTTGAGGACTGCCTGGTTGTCGAACTCGACGGGTCCACACACTTTGAACCAAAGGCTGTGAAGAGGGACCAGCGGCGGAACAACAGGAGCGTTCTGGGTGGCTACCTCGTATTGCGGTACTACTACGCAGACGTTGTTCACTCCCCGGACGATATGGTGGCCGAAGTGCTGGCAGTTCTTGAGCTGAGGCGTCAGGGCAGGTTCCATGGAGCCTGA	MVQSAVGRGDIALDFLYSKSPGRRNGKVRDVLDLLIPRADSLLEVLANTHFERAGLRVRRHVFIPGVGEVDFLVEDCLVVELDGSTHFEPKAVKRDQRRNNRSVLGGYLVLRYYYADVVHSPDDMVAEVLAVLELRRQGRFHGA				NA	NA	NA	NA	NA
D1-29_03634	1101	hepT	COG0142	Heptaprenyl diphosphate synthase component 2	GTGACCAACTCCGCAGACCACAGCTGGACGCACGCCGGGCACGGCCTGCCGGACTCCGAACCCAGCCTCAACACCACCGCCATTGCCACGGGACTTCAGCTGCCCGCAGGCTTCGCGGCCATCGCGGAGGATGCCGAGCTGGGCCCCGCCATCACCACCAACCTGGCGCGGGTGGAGAAAAAGCTGCGCGAAGCCATTGCCAACTCCGATCCTCTGGCTGATGCAACGTCGCGTCATCTGGTGGAGGCCGGCGGCAAGCGTATCCGTCCCCTCCTGACGCTGCTGTGCGCGCACCTTGGCGACGCCTCGCTGCCCGCTGTGGTCCAGGCCGCGGTGGTGGTGGAACTGACACACCTGGCCACGCTCTACCACGATGACGTGATGGACTCGGCTCCCTTCCGCCGCGGCGCCCCCACGGCCCACGAGGTCTGGGGAAACTCCGTGGCTGTGCTCACCGGCGACCTCATCTTTGCCCGCGCCTCCATTCTGGTGTCCGAGCTGGGCTCCCGCGCCCTGGGCATCCAGGCCCGTACATTCGAGCGGCTCTGCCTGGGCCAGCTCCACGAAACCGTGGGGCCGGGTCCGGACGAGGACCCGGTGGAGCACTACCTCTCCGTTATCGCGGACAAGACCGGCTCCCTGGTGGCTGCCTCCGGCCAGCTTGGCGCCATCTTCGCCGGCGCCGATCCTGCCTACGAGGACCTGCTGGTGGAGTACGGCGAAAAGGTGGGTGTGGCCTTCCAGCTCGCCGACGACGTCATTGATGTCACCGGTGTCAAGGTCAAGTCCGGCAAGTCCCCGGGCACGGACCTGCGCGAAGGTGTACCCACGCTTCCGGTCCTGTTCCTGCGCCGGGATGCGGCGTCCGGTGACCAGTCCGCCGTCGAACTTTTGAAGCTTATCGACGGCGACCTCACGTCAGATTCTGCCCTGGCTGCCGCGGTGGCCGGGCTGCGCGAACACCCCGTCACGGCCGAGTCGTGGGTTGTGGCGCGTGGCTGGGCTGACGAAGCAATTGCTGCCCTGGCGCCGCTGCCGGAGGGTGTGGTGAAGGCCTCGCTGTCCAACTTTGCCCTGGCAGTGGTGGACCGGGCCAGCTAG	MTNSADHSWTHAGHGLPDSEPSLNTTAIATGLQLPAGFAAIAEDAELGPAITTNLARVEKKLREAIANSDPLADATSRHLVEAGGKRIRPLLTLLCAHLGDASLPAVVQAAVVVELTHLATLYHDDVMDSAPFRRGAPTAHEVWGNSVAVLTGDLIFARASILVSELGSRALGIQARTFERLCLGQLHETVGPGPDEDPVEHYLSVIADKTGSLVAASGQLGAIFAGADPAYEDLLVEYGEKVGVAFQLADDVIDVTGVKVKSGKSPGTDLREGVPTLPVLFLRRDAASGDQSAVELLKLIDGDLTSDSALAAAVAGLREHPVTAESWVVARGWADEAIAALAPLPEGVVKASLSNFALAVVDRAS				NA	NA	NA	NA	NA
D1-29_03635	1344	menJ	COG0644	Menaquinone reductase	GTGAATGTTCTGATTGTCGGCGCGGGGCCGGCCGGGTCCACCGCTGCGTACTACCTTGCCCGGGCCGGCGTGCCCGTGACCGTCCTGGAGAAGACCAGCTTCCCGCGCGAGAAAGTCTGCGGCGACGGCCTCACCCCGCGCGCCGTGCGTGAGATCCAGAAGCTCGGCCTGCCGCACCCTGAGTCCGATGGCTGGCGCCGCAACAAGGGCCTGCGCCTGATTGCGGGCGGGCGGACCATCGAGCTTCCCTGGCCCGAGGTCAGCGACTTTCCCCAGTACGGCCTGATCCGCACGCGCCTGGGCTTTGACGAGGAACTGGCCCGCCATGCCCAGGCTGCCGGCGCCGAGATCCTCGAGCGGCACAGCGTCACGGAAGCCCTGCGCAACGAGGACGGCCGCGTGACCGGTGTCCGCGCAGCGCTGCTGGATGAGTCCGGACGCAAGACGGGGGAGACGCGCGAGTTCAGTGCCGACGTCGTCCTCGCCGCGGACGGCAACTCAACCCGCACAGCGGTGTCGTTGGGAATCCAAAAGCGCGACGACCGTCCCCTGGGTGTGGCCGTGCGCACCTACTTCACCTCCCCGCGCCACGACGACGACTGGATGGAAGGCTGGCTGGAACTCCCGGGCCGCGACGGCAGCCTGCTCCCCGGCTACGGCTGGGTGTTCGGCGTGGGCGACGGCACCTCCAACGTGGGCCTGGGCATCCTGAACTCGTCCAAGGAATTCGGCCAGCTGGACTACAAGCAGGTCCTGCGCGATTGGACCGCCGGCATGCCCGCCGAGTGGGGCTTCACGCCGGACAACGAGGTGGGGGACATCCGCGGCGCCGCGCTCCCCATGGGCTTCAACCGCACTCCGCATTACTCGCCCGGCCTCTTGCTCTTGGGCGACGCCGGCGGCATGGTGTCCCCCTTCAACGGCGAGGGCATCTCCTACGCCATGGAGTCCGCGCGCTTTGCGGCCGAGTTCATCATTGACGCCTCCTCACGCTCTCTGGCGGCCGCCGGAACGTACGACGCCGACGCGCACCTTGCGGGGTACGCCGGCTACGTGCGGAACCAGTGGGGCTCGCACTTCACGCTTGGCAGGGCCTTCGCCGCGCTGATCGGGAAGCCCGCCGTGATGAAACTCGCGCTGCGGACTGGAATGCCCGTCCCGGTCCTGATGAGGTTTGTGGTGCGGCTGCTGGCCAACCTCACAGACCCTGCCGCCAAGGGCTTCGAGGACAGGGCCATCCGCGTCCTGGAGTCGCTGGTTCCTGCCACAGCCAATACAGCGACGCGCACCCCAACGCACGCCAATCAGCGGTATCCGCAACAAAAAGTTAGGGTTAACCCGTGA	MNVLIVGAGPAGSTAAYYLARAGVPVTVLEKTSFPREKVCGDGLTPRAVREIQKLGLPHPESDGWRRNKGLRLIAGGRTIELPWPEVSDFPQYGLIRTRLGFDEELARHAQAAGAEILERHSVTEALRNEDGRVTGVRAALLDESGRKTGETREFSADVVLAADGNSTRTAVSLGIQKRDDRPLGVAVRTYFTSPRHDDDWMEGWLELPGRDGSLLPGYGWVFGVGDGTSNVGLGILNSSKEFGQLDYKQVLRDWTAGMPAEWGFTPDNEVGDIRGAALPMGFNRTPHYSPGLLLLGDAGGMVSPFNGEGISYAMESARFAAEFIIDASSRSLAAAGTYDADAHLAGYAGYVRNQWGSHFTLGRAFAALIGKPAVMKLALRTGMPVPVLMRFVVRLLANLTDPAAKGFEDRAIRVLESLVPATANTATRTPTHANQRYPQQKVRVNP				NA	NA	NA	NA	NA
D1-29_03636	801	menG	COG2226	Demethylmenaquinone methyltransferase	ATGGTGAACCGAGCATCCTTGGATAAGCGTCCGGACGAAGTAGCCACGATGTTTGACGACGTCGCACCTAAATACGACGTCGTCAACGATGTCCTCTCCATGGGGCAGACCCGCCGCTGGCGCAAGGTCGTGGTGGAAGCGATGGAAGTCTCGCGGGGCCAACGGGTGCTTGACCTGGCTGCCGGAACGGGCACCTCCAGCGAGCCATATGCCGACGCCGGCATAGACGTGGTGGCCTGCGACTTCTCGCTCGGAATGCTCAAGGTGGGCAAGCGCCGCCGCCCGGACATCGACTTCATCGCCGGCGACGCCACCAACCTCCCCTTCGCGGACAACACCTTTGACGCCAGCACCATCTCGTTCGGGCTGCGCAACGTCAACGAGCCCAAGAAGGCCCTTGCCGAGATGCTCCGCGTCACCAAGCCCGGCGGCAAGCTGGTCATCGCCGAGTTCTCCCAGCCCGTGGTGCCGCTCTGGCGCAACCTGTACACCGAGTACCTGATGCGGGCGCTGCCTGCCATCGCCGTCAAGGTTGCCTCCAACCCGGACGCCTACGTTTACCTCGCCGAGTCCATCCGCGCCTGGCCGGACCAGGACCACCTGGCCGCCTGGCTGCAGGAGAGCGGCTGGGAAAACGTGACCTACCGCAACCTCACCGGCGGAATCGTGGCCGTACACCGCGCGTTCAAGCCGGCATCGCCGGACACGGCAGGCGGGCCCGACGCCGCTGCTGCCGCCATCGCCGCGAACAAGGGCCCAGTCGCCAAGCTCCGCCGCAACATCACGCGCATCCCACGCTGA	MVNRASLDKRPDEVATMFDDVAPKYDVVNDVLSMGQTRRWRKVVVEAMEVSRGQRVLDLAAGTGTSSEPYADAGIDVVACDFSLGMLKVGKRRRPDIDFIAGDATNLPFADNTFDASTISFGLRNVNEPKKALAEMLRVTKPGGKLVIAEFSQPVVPLWRNLYTEYLMRALPAIAVKVASNPDAYVYLAESIRAWPDQDHLAAWLQESGWENVTYRNLTGGIVAVHRAFKPASPDTAGGPDAAAAAIAANKGPVAKLRRNITRIPR	PGPT0009535_540	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009535-ubiE-K03183	NA	NA
D1-29_03637	1428	menF_2		Isochorismate synthase MenF	ATGACGAGCACGTTCCGCACCGGCGTTATCAAGACCTTGACAGTCCCCCTGGATGGCACAGCATCTCCCGGGGGCCTGCCGCAGTTTCTGGTCCGGGACGACGTCCTCTGCTGGACCCGGCGCGAAGCCGGACTGGTGGGATTCGGCGAAATCACCCGGTTTACGGCCAGCGGCCCGGACCGCTTCCTCGAGGCCGACATTTGGTGGCGCCACCTGGTTTTGGAAGCCGACATCACCGACGCCGTTGAGCTCCCCGGCACGGGCCCTGTCGCCTTCGGATCCTTCGCCTTTTCCAAGAAATCGGCCCACGAGTCACGCTTGATTGTGCCGGAGATTGTGGTGGGTGTCCGCGACGGCAGTTACTGGCTCACCCAGTTAACGTTCGACGACGGCGAGCTCACCGAGGCGGGCGCCCTCGCCGCCCTGGAACGCTGGCTGAGCGGCAGCACCTCTGCCGCTTCCCTCGCCTCCTCCACTCCTGGGGATGTGCCGGCTGGTGACGTTCCCTCTGGGGATGCCCCCGGCGGTGACGTCCCCGCAAAGGCGGGTGGCGCCGTCGTACGTCCTTTGCCTTTGGCTGCCGGCGCAACGCTGCACACGGGTTCGCTCAGCGAGGAAGCCTGGATGGCCGCCGTCGCTGCCGGGGTGGCCGAAATCCAGACCGGAGCCCTGGAAAAACTGGTGCTGGCCCGCGACATTGTGGCCACTGTTCCGTCCGGTGTGAATGCCGCGCAGGTGCTGCGCGAGCTGGCCGTGCGGTACCGCGAATGCTGGACGTACGGCGTGGACGGGCTGGTGGGGGCCACGCCGGAGATGCTGATCCAGGTGGAGGGCCGGACCGCCCAGGCGCGCGTGCTGGCGGGGACACTGGACCGCCGCGACGCGCATGGTGAGGCGGGAATTCCCATGGATTACGCCGAACGGGTCCTGGCCGGGTCGGAGAAGCAGCGGCACGAGCACGAGATCGCCATCCAGTCGCTGACGTCCCAGCTGGCGCCGTTCTCCGAGGCTATGAACGCGCACGACGAACCGTTCATTCTGGAGCTGCCCAACGTGTGGCACCTGGCGTCGGACGTGAAGGCTGAGCTGACCGAGGTGGAGGGCCACGTGCCTACGTGCCTGGCCCTGATCAACGCGCTGCACCCCACGGCTGCCGTCTGCGGAACCCCCACGCTGGTTGCCGGCGCGCTCATCCGCAAACTCGAACATCTGGACCGGGGACCGTATGCCGGCCCCGTGGGGTGGCTGGACGCGGCGGGCAACGGCGAGTGGGGCATTGCGCTGCGCGGCGCCGTCATCGAGGATCCGCATACGGTGCGGCTGTACGCCGGCTGCGGAATCGTGGACGGCTCCCAGCCCGAGGCGGAGCTCTCTGAAACGTGGGCCAAGTTCCGGCCGATGCTCGAGGCTTTGGGCATCAGCAGCTAA	MTSTFRTGVIKTLTVPLDGTASPGGLPQFLVRDDVLCWTRREAGLVGFGEITRFTASGPDRFLEADIWWRHLVLEADITDAVELPGTGPVAFGSFAFSKKSAHESRLIVPEIVVGVRDGSYWLTQLTFDDGELTEAGALAALERWLSGSTSAASLASSTPGDVPAGDVPSGDAPGGDVPAKAGGAVVRPLPLAAGATLHTGSLSEEAWMAAVAAGVAEIQTGALEKLVLARDIVATVPSGVNAAQVLRELAVRYRECWTYGVDGLVGATPEMLIQVEGRTAQARVLAGTLDRRDAHGEAGIPMDYAERVLAGSEKQRHEHEIAIQSLTSQLAPFSEAMNAHDEPFILELPNVWHLASDVKAELTEVEGHVPTCLALINALHPTAAVCGTPTLVAGALIRKLEHLDRGPYAGPVGWLDAAGNGEWGIALRGAVIEDPHTVRLYAGCGIVDGSQPEAELSETWAKFRPMLEALGISS	PGPT0009360_756	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009360-menF-K02552	NA	NA
D1-29_03638	804	fliY	COG0834	L-cystine-binding protein FliY	ATGCAGCTCAAGTCCCTGGCCACGGCCAAAATTGCCGCCAAGGCAGCAGCAATCCTCGCCGCCGGTGCCCTCACCCTCACGGCATGCGGCGGCGGAACCACCACACCGGCAGCCACCGAGGGCGGGGTCCAGCTCATCAACCCCGGCAAACTCACGGTCTGCTCCGACATCCCCTACGAGCCCTTCGAATTCGAGAAGGACGGCGAGACGGTGGGCTTTGACATCGACATCGCCAAGGAAATTGCCAAGGACCTCGACGCCGAACTGAGCATCGTGGACAGCTCCTTCGAAGCGATCGAAACCGGCACCGCCCTCACCCAGTGCGACGTGTCCATCTCCTCGATCTCCATCACGGATACCCGCAAGGCAGTGATGGACTTCTCCACGCCGTACCTTGATGATGACCTTGCCCTCGTGGCCAGCAACAAGTCGGGCATCAACAGCCTGGACGATGCCAAAGGTAAGAAGGTAGGCGTGCAGCAGGCCACCACCGGAGCGGATTACGCCACCGAGAAGGGGATCGACGCCCAGCAGTTCGAGGACACCGGCCTCCTGATCCAGGCACTCAAGGCCGGAACCATCGACGCCGCCCTGGGTAACCAGTCTGTCCTCGGCTACGCCATCAAGGACGACAACGATTTCGAGAGCGTGGAGAAGTTTGCCACCGGCGAGCAGCTTGGAGTCGCCATCAAGAAGGGCGACAAGCTCATGGCCGAGAGCGTCAACGTCACGCTGGAGCGCCTCACGGACGACGGCACGCTGGATAAGCTCAAGACCACCTGGTTCGGCGACACCGCCAAGTAA	MQLKSLATAKIAAKAAAILAAGALTLTACGGGTTTPAATEGGVQLINPGKLTVCSDIPYEPFEFEKDGETVGFDIDIAKEIAKDLDAELSIVDSSFEAIETGTALTQCDVSISSISITDTRKAVMDFSTPYLDDDLALVASNKSGINSLDDAKGKKVGVQQATTGADYATEKGIDAQQFEDTGLLIQALKAGTIDAALGNQSVLGYAIKDDNDFESVEKFATGEQLGVAIKKGDKLMAESVNVTLERLTDDGTLDKLKTTWFGDTAK	PGPT0020800_9902	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
D1-29_03639	786			hypothetical protein	ATGACCGCACGTGAACGGGCCAGAGTGAGCCTGTACGTCCAGGCCGGAATCTTTATTGTGGCCGTGGCCGCGCTGATTCTGGCCACCGACTGGGAGACGATCGGAAACAGCGTCTTCAACTTCGGCAAGATCGACCCGATGTTCCCCAACATCTTCATCATCGGCCTGAAAAACACCCTGATCTACACGTTCCTGGGCTTCATCGTGGGCCTCTCCGGCGGCCTCGTCCTGGCGCTGATGAAGCTCTCCAGCTTCCCGGTGTACCGCTGGATCGCCACCGGCTACATCGAGTTCTTCCGCGGCATCCCGGCCCTGCTGGTGTTTATCGCGTTCGGTTATGGTGTCCCGTTGGCGTTCGGCGTCTCCTGGAACGTCACCATCATCGTGATGATCTCGCTGGGCATGGTGGCCTCGGCATACATCGCCGAAACCCTCCGCGCCGGACTGCAGGCTGTGCCCAAGGGCCAGCTGGAAGCCGCCCGCTCCCTCGGCATGCCGCAGTGGCGCGCCATGGTCTCCATCGTCATCCCCCAAGCCTTCAAGATTGTGCTGCCGCCGCTGACCAACGAGGTCATCCTGCTGACCAAGGATTCCTCGCTGATCTACGTCCTGGGCCTGACCGCCTCGCAGTACGAGCTCACCAAGTTCGGCCGCGACGGCATCTCCAGCCTGGGTGCCGGACTGACGCCGCTCCTGGTGGCCGGCGCCTTCTACCTGGTCATCACCATCCCGCTGAGCCTCCTGGCCCGGAAGTTCGAAAGCCGCTCCGCGCGGACCAAGCGATAG	MTARERARVSLYVQAGIFIVAVAALILATDWETIGNSVFNFGKIDPMFPNIFIIGLKNTLIYTFLGFIVGLSGGLVLALMKLSSFPVYRWIATGYIEFFRGIPALLVFIAFGYGVPLAFGVSWNVTIIVMISLGMVASAYIAETLRAGLQAVPKGQLEAARSLGMPQWRAMVSIVIPQAFKIVLPPLTNEVILLTKDSSLIYVLGLTASQYELTKFGRDGISSLGAGLTPLLVAGAFYLVITIPLSLLARKFESRSARTKR	PGPT0020795_3383	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
D1-29_03640	804	glnQ_4		Glutamine transport ATP-binding protein GlnQ	ATGAACGACGTCGTACATTCCTCCGGCGGGGGAACCGCAACAATCCACGCAGCCGGCGTGTCCATCCAGAACCTGCGCAAGTCCTACGGCACCAATGAGGTCCTCAAGGGCATCAGCCTGGACGTGGCACCGGGTGAGGTGGTGTGCCTGATCGGCCCCTCCGGCTCCGGCAAGTCCACCCTGCTGCGCTGCGTCAACCTGCTGGAGCAGCCCAACGAGGGCACCATCCAGGTGGGCGGCTTCGAAGCCACCGATCCCGATGTGGACATCGACAAGATGCGCCGCAAGGTGGGCATGGTCTTCCAGCAGTTCAACCTCTTCCCGCACCTGGACGCGAAGCGAAACTGCTCCATCGCCCAGACCAAGGTGCTCAAGCGCTCCCAGGCCGAGGCGGACAAGGTGTCCATGCACAACCTCGAGCGCGTGGGGCTGGGTCACCTGGCGGACCGCTTCCCTGACCAGCTCTCCGGTGGCCAGCAGCAGCGCGTTGCCATTGCCCGGGCCCTGAGCATGGACCCCGAGCTGATGCTCTTTGATGAGCCGACCTCGGCCCTGGATCCGGAAACCGTGGGCGATGTCCTGTCCGTCATGCGGAACCTCGCCAAGGAGGGCATGACCATGCTGGTGGTGACCCACGAGATGGGCTTCGCCCGCGAAGTGGCGGACCGCGTGGTGTTCATGGACGGCGGCGTGGTGGTGGAGGAAGGCGCGGCTGAGCAAGTTGTCGGCGCACCAACGCAGGCCCGCACCAAGGAATTCCTGCGCCGCGTCCTGGACCCGACGCACATCGAAATCGAAGAGTAG	MNDVVHSSGGGTATIHAAGVSIQNLRKSYGTNEVLKGISLDVAPGEVVCLIGPSGSGKSTLLRCVNLLEQPNEGTIQVGGFEATDPDVDIDKMRRKVGMVFQQFNLFPHLDAKRNCSIAQTKVLKRSQAEADKVSMHNLERVGLGHLADRFPDQLSGGQQQRVAIARALSMDPELMLFDEPTSALDPETVGDVLSVMRNLAKEGMTMLVVTHEMGFAREVADRVVFMDGGVVVEEGAAEQVVGAPTQARTKEFLRRVLDPTHIEIEE	PGPT0020790_1080	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
D1-29_03641	951			hypothetical protein	ATGACAGACCTACCGCTCCTTCTCCTGGCCCGTGACCGCATCCTGCACGGGCTGCGGCCCAACGAATTGGCCAGGCGGGTGAAAGCCGGTTCGCTCGTAAGGGTCCGGCACGGCGTCTACACCGACGGCGCGGCGTGGCGGGAGCTTTACCCCTGGGAGCAGTACCGGCTCCGCGTTCAGGCCGCAGCCGAAACCTTCGAAGGCCCCACCGTATTCGCCCGGCACTCCGCAGCCAGTGTTTGGGGGATCCCCACCATTGGCCTGCACCACCCCGTTCAGGCTCTGGCACTGAAGAACGACGGCGGCCGCTCCCGTGCCGGAGTCAGCCGCCACTATGCGGATCCCTCAACACTGACGGTGGTCCGGCGGGAGGGCCTGCTGGTCACTGGGCGCATACGCACCGTCCTGGACCTTGCAGCGTTCACGCCGTTTACGTCCGCGGCCGCGCCCCTGGATCATGTGCTGAAGCCGGACCGGACCCTGCGACTGCGTGCCCTCAGCAAGGATGAGCTGGAGGCCGGCATCGTATCGGCCTACAGTTCCGCGGCCCAGGGGAGGATCCGGGCGGCCATTGCCTTCGCTGATCCCTTATCCGGTTCAGCAGGGGAGTCCTACAGCCGCGCCCTGATGCATGTTGCCGGATTCGAGCCTCCGGTCCTGCAGCATGCCATTAGCGACGCTGACGGACTGGTGGGCTACACCGACTTCTACTGGAAGCAGGCCAAGGTGGTTGGCGAATTCGATGGCGTGGCCAAGTACAGCAAACCCGAGTTCCTCAAGGGACGCACCCCATCCCAAGCAGTGGTGGACGAGAAGAACCGCGAGAATCGTGTGCGGGCGCTGGGGTTCAACGTGGTGCGGTGGGATTGGTCTGAGCTGATGGAGCCCGGGGGGGCTGGAACGCAAGCTGGCGGCGGGTGGCGTGCCCCGCCGTCGTACGCGTTCTGCTAA	MTDLPLLLLARDRILHGLRPNELARRVKAGSLVRVRHGVYTDGAAWRELYPWEQYRLRVQAAAETFEGPTVFARHSAASVWGIPTIGLHHPVQALALKNDGGRSRAGVSRHYADPSTLTVVRREGLLVTGRIRTVLDLAAFTPFTSAAAPLDHVLKPDRTLRLRALSKDELEAGIVSAYSSAAQGRIRAAIAFADPLSGSAGESYSRALMHVAGFEPPVLQHAISDADGLVGYTDFYWKQAKVVGEFDGVAKYSKPEFLKGRTPSQAVVDEKNRENRVRALGFNVVRWDWSELMEPGGAGTQAGGGWRAPPSYAFC				NA	NA	NA	NA	NA
D1-29_03642	1872	menD	COG1165	2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate synthase	GTGGGAGCGCGTTGGGGGTGGCAGACTGGTTTGGTGACTTCGCTCAACGAACCAGCCCCCGACGCCCCAGCCGACGAGGAGACTCCGGCCGTGCTTCCTGCGACTCCGTTGGGGTCGCTGGCGGCAGCGCGGATCGCCGTCGACGCCCTGATCGACGGCGGCGTCCAGCACGTGGTGGTGGCCCCGGGATCCCGCTCCGCACCAATGGCTTATGCCCTGGCCGAGGCTTCCGCGGCCGGCCGGGTTGAGCTGCTGGTCCGGATCGACGAGCGCAGCGCAGGCTTCACAGCCTTGGGCCTGGCACTGTCCACGGGCTCCCCGGCGGCCGTGCTCACGACGTCCGGTACCGCCGTCGGGAATCTCCTGCCGTCCGTGATGGAGGCCAACCACGCCGCCGTTCCGCTGGTGGTGATGTCCGCCGACCGGCCCGAGGAGCTTCGCGGCACCGGTGCCAACCAGACCACCATTCAGCTGGATCTGTTCGGCGAGCACGTCCGCTTCGCCGCGGACGTCGCCGCCGGCAGCAGCCCGCTCCGCGCGGTGGAGACTGCGCTCGCCGCTGCCACCGGCGCGTTCTCGGACCTCGCACCGGGCCCGGTCCAGCTGAACCTCGCCTTCCGGGACCCGCTGGTTCCTTCGCCGGAGGAGACGCTCCCGACGGCGGCCGGTCGGCAACGTTTCCGGATCGGCACCGAACCCCTCACCATGAGCCTGCCGCCTGCTGCCGAAACCCTGCCGGAGCGCCGCACCGTGGTGCTTGCGGGGCACGACGCCGGTCCGGTCGCCGAGGCGTTCGCGCGCGCCCACGGGCTTCCGCTGCTTGCGGAACCGTCCTCCAATGCGCGCTTCGGGCCGAATGCCGTGGGGCCTTACCGGCTGCTGCTGGAACACTTCGGTCCCACTGCTGCCCTCCCGATCGAGCGGGTGGTGGTGTTCGGCAGGCCCACCCTTTCCCGGCCCGTTGCTGCTTTGCTGGCCCGGGCCGATGTGCCTTCCGCGCTGTACCAGCCGGTTCCGGTGGCCTGGTACGAGCCCGGGCGCCGCACGGAACTTCCGCTGGAGAGCCTCACCGACCTTGCCGACTTTGCCGGCCGCGGCCCGTCCGCCTGGCTTGATGCCTGGCTCCTGGCCGGATCCGCCGCGCAGCACGCACTGGATGGTGTGCTGGCCGGTGCGTCTCCTTCAGGCGTCTCCAGTGGTGATTCCGCTAGTGCCTCCAGTGGCGCCTCCGGTGACGCGGTAGAAGGGTCGAGTCCCGCCACCGGGCCCTCCGTCGGATCGTTGGTGTGGAAGCACACCCGGGGGCAGCTTCTGCTGGGTTCCTCCAACGGGATCCGCGACGTTGACCTGGCCGGCCTCCCCGCGCCCGAGCCCTCCGCCACCGTGTACGCCAACCGCGGCTTGGCCGGGATCGACGGCACCATCTCCACCGCCACCGGAATTGCCCTGGGGGGCCAGCAGGAAACCACCGTCCTGCTGGGTGACGTCACCTTCCTGCATGACGCCGGCGGCCTGCTCCTGGGCTCCGGCGAGGAAGAACCCCAGTTGCGGATAGTGGTGCTCAACGACTCCGGCGGTGCCATTTTCGGACTGCTGGAACACGGCGCGGTGGATGAAGCCGGCCGGTACGGGGACACCGTCGAACGGCTCTTCGGCACCCCCCACAGCGTGGACATCGCGGCACTCGCCGCAGCGTACGGCGTCGCGCATTGCTCGGTCAGCACCACCGCGGCCCTTGGCGAAGCGCTGGCCCAGCCGATCAAGGGCCGCAGCATCATCGAGGTGCGCACCGACCGCCACTCCCTGAGGCAGCTGCACGCGACCATCAAGGCTACGGTGTCTGCCGCCGTCGCAGGAGTCCTCGCCAGGTAG	MGARWGWQTGLVTSLNEPAPDAPADEETPAVLPATPLGSLAAARIAVDALIDGGVQHVVVAPGSRSAPMAYALAEASAAGRVELLVRIDERSAGFTALGLALSTGSPAAVLTTSGTAVGNLLPSVMEANHAAVPLVVMSADRPEELRGTGANQTTIQLDLFGEHVRFAADVAAGSSPLRAVETALAAATGAFSDLAPGPVQLNLAFRDPLVPSPEETLPTAAGRQRFRIGTEPLTMSLPPAAETLPERRTVVLAGHDAGPVAEAFARAHGLPLLAEPSSNARFGPNAVGPYRLLLEHFGPTAALPIERVVVFGRPTLSRPVAALLARADVPSALYQPVPVAWYEPGRRTELPLESLTDLADFAGRGPSAWLDAWLLAGSAAQHALDGVLAGASPSGVSSGDSASASSGASGDAVEGSSPATGPSVGSLVWKHTRGQLLLGSSNGIRDVDLAGLPAPEPSATVYANRGLAGIDGTISTATGIALGGQQETTVLLGDVTFLHDAGGLLLGSGEEEPQLRIVVLNDSGGAIFGLLEHGAVDEAGRYGDTVERLFGTPHSVDIAALAAAYGVAHCSVSTTAALGEALAQPIKGRSIIEVRTDRHSLRQLHATIKATVSAAVAGVLAR	PGPT0009365_1058	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009365-menD-K02551	NA	NA
D1-29_03643	2076			hypothetical protein	ATGTCTGAAACGACAGCCCGCAAGTTCACCCTGCTGCCCATGCTTGGCCATACGAAGGGCAAGCGCAGCGCCGTCACCTGCGCCCTCAAGTGCGACAACGCCTGCGCCGGCGACGTCTGCAACACGAGCTCCAACAGCTACTTCCGCGACATCGCCTCCGCCACCATGTCCCGCCGCGCCGCCCTGGGCTTCGGGGCCGCCGGTGCGCTCGCCGTCGTACTCGGTGGAAACCTGGCCTCCGCGGAACCGGCGGCTGCCGGCGGGCTGGCGCCCGCGGCCAAGGAAGGCTTTGCAAAGTCCAAGCTCCAGTTCACGGCCATCGCGCCGGTTGATGCCGCCGTCGACTCCGTCACTGTGCCGGAGGGCTTCACCTGGAAGCCGGTGATCCGCTGGGGCGATCCGATCTTCAACGGCGCGCCGGCCTTTGACCTGAACAACCAGACGGCTGCCGCACAGGAGCAGCAGTTCGGCTACAACAACGACTACACGGACATCCTGGAGATTCCGGGCAGCAAGGGACGTCGGGCGGTGCTGTTCGCGAACCACGAGTACACCAACGAGAACATCATGTTCCCGGCCACCATGCCGGCAGACCAGATGCGCGCTGTGGGGGCTGCCGCGCACGGGCTCTCCGTGGTGGAGCTGGAGCGGAAGAACAAGAACACGCCGTGGACGTACGTCAAGGGCGCCGGGCTGAACCGCCGCTACCTGAACTCCACCGTTTACGAACTGACAGGTCCGGCCGCCGGCTCGTCGCTGGTCAAGACCGTTGAGGACCCGGACGGCCGCTTCATCAAGGGAACCCTGGGCAACTGCGCCGGCGGCACCACCCCGTGGGGCACCATCCTGTCCGGCGAGGAAAACTTCCAGGGCTACTTCGCCGGCAACGGCACCTCCGCCGGTGACAAGCGCTACGGCATCACCTCCAAGCCCACCGCCCGCCAGTGGGAGCTCGACGAACCGCGGTGGGACACCCGCAACGCCGGCTACGAAAATGAGGCCAACCGCTTCGGCTGGATCGTGGAAGTTGACCCGTTCGACCCCACCTCCATGCCGAAGAAGCACTCGATGCTGGGCCGCTTCAAGCACGAAGGTGCCAACGTCATCATCGCCGGGTCCGGGCATGTGGTGGCCTACTCCGGGGACGACGAGCGCTTCGACTACCTCTACAAGTTCGTCTCGAAGGACAAGTACCGCGAAGGCGACCGGGCGCACAACATGACCCTCCTGTCCGCCGGCAGCCTGTACGTGGCAAAGTTCACGGGCAACTCACCGGCCGCCGAAATCACCGGCACCGGCGCTGTTCCCGCCGACGGCGCCTTTGACGGCACCGGCGAGTGGCTGCCTCTGGTGGTGGACGGGGTCTCCGCGGTGCCGGGCATGTCCGTCGAGGAAGTGCTGGTGTACACCCGCCTCGCCGCGGACAAGGTGGGCCCCACCAAGATGGACCGCTGTGAGGACGTGGAGCCGAACCCCTTCACCGGAAAGGTCTACGTGGCCTGCACCAACAACTCCAACCGCGGTGTTGGGTCCAACGAGGGCGCCACCGAGGTCAACCCGCGCAACCAGAACCGCGACGGCCACATCGTGGAAATCATCGAAACCGGGGACCAGACCTCCACCACCTTCACCTGGAACCTGCTGATGGTCTGCGGCGATCCGGCCCAGGGCGACGTCACCTACTTCTCCGGCTTCCCCGTGGACAAGGTCTCGCCCATCTCCTGCCCGGACAACCTCGCCTTCGACTCCGTGGGCAACCTCTGGATCTCCACCGACGGCGCCCCTTCCGGCATCGGCAAGGCGGACGGCCTGTTCAAGGTCACCCTGGACGGCACCGAGCGCGGCAGGGTGGAACAGTTCCTGGCCGTCCCGCGCGATGGCGAAACCTGCGGGCCCATCATCCACGACGCCGAACGCACCGTTTTCGTCTCCGTGCAGCACCCGGGGGAGGACGGCTCGTTCGACCAGCAGGTCTCGTTCTTCCCGGACTACGTGGCCGTTGGTGCGACGCCGGCAGCCGGCCAGGCGCGCGCGCCGCGTCCGTCGGTGATCCAGGTGTTCCGCACGGACGCCTAG	MSETTARKFTLLPMLGHTKGKRSAVTCALKCDNACAGDVCNTSSNSYFRDIASATMSRRAALGFGAAGALAVVLGGNLASAEPAAAGGLAPAAKEGFAKSKLQFTAIAPVDAAVDSVTVPEGFTWKPVIRWGDPIFNGAPAFDLNNQTAAAQEQQFGYNNDYTDILEIPGSKGRRAVLFANHEYTNENIMFPATMPADQMRAVGAAAHGLSVVELERKNKNTPWTYVKGAGLNRRYLNSTVYELTGPAAGSSLVKTVEDPDGRFIKGTLGNCAGGTTPWGTILSGEENFQGYFAGNGTSAGDKRYGITSKPTARQWELDEPRWDTRNAGYENEANRFGWIVEVDPFDPTSMPKKHSMLGRFKHEGANVIIAGSGHVVAYSGDDERFDYLYKFVSKDKYREGDRAHNMTLLSAGSLYVAKFTGNSPAAEITGTGAVPADGAFDGTGEWLPLVVDGVSAVPGMSVEEVLVYTRLAADKVGPTKMDRCEDVEPNPFTGKVYVACTNNSNRGVGSNEGATEVNPRNQNRDGHIVEIIETGDQTSTTFTWNLLMVCGDPAQGDVTYFSGFPVDKVSPISCPDNLAFDSVGNLWISTDGAPSGIGKADGLFKVTLDGTERGRVEQFLAVPRDGETCGPIIHDAERTVFVSVQHPGEDGSFDQQVSFFPDYVAVGATPAAGQARAPRPSVIQVFRTDA				NA	NA	NA	NA	NA
D1-29_03644	1074	menC	COG4948	o-succinylbenzoate synthase	ATGGATATGCGTTCCATAGGCAGGGCAAAGAGTTCTGTCCGCCACCGCTTGTACAGTGAACAGATGCCTACCCCGACTGTCCCGAACGGCGTCCCTCCGCTGGAGGAGCTGCTGGCCTCCGCGCACGTGGTGAGCCTGCCCATGCGGGTGAAGTTCCGCGGCATCATGGAGCGCGAAGCCCTGCTCCTTCGCGGGCCCCACGGGTGGGGGGAGTTTGGCCCGTTCCCGGAATACGGGGACGAAGAAGCTTCCCGCTGGCTTGCCGCCGCTGTTGAGGCCGGGTGGCAGGGCTTCCCGCCTCCCCTTCGGTCCGTGGTCCCGGTGAATGCCACCGTGCCCGCCGTCTCCGCGGACCGGGTCCCGGACGTCCTGGCCCGCTTCGGCCGGGTGGACGCCGTGAAGGTCAAGGTGGCCGAGCGCGGCCAAACGCTCGACGACGACGCCGCCCGCCTCGCCGCCGTCCGCTCCGCCCTCCCGCAGGCGGCCATCCGCATTGACGCCAATGGCGGCTGGGACGTGTCTATGGCGGTGTCGGCCCTGACCCGTCTGGCCGGGGTCGGGCTTGAATACGCGGAGCAGCCGGTGCCTACAATCGACGGGCTCGCGGAAGTGCGCTCGCAGTTGCGGGCGGCCGGAACTCCCGTGCTGATCGCCGCCGACGAAAGCGTCCGCAAGGAATCTGACCCCCTCCGCGTGGCCCGGGCCGGGGCTGCGGACCTGATTGTGGTGAAGGTGGCACCGCTGGGGGGAGTGCGGCGCGCGCTGGAGATCGTGGCTCAGGCCGGGCTCCCCGCCGTCGTGAGTTCCGCCCTGGACACCTCTGTGGGGATCCGGGCCGGTCTTGCCCTGGCCGCATCCCTGCCGGAGCTTCCCTTTGCGTGCGGGCTGGGGACCGTCTCGCTGTTTGAGTCCGACATCAGCACCGATCCGCTGGTGGCCGACGACGGCGCCATCCGCCTCCGCGATGTCTCCGCCGACGCCGGGCTGCTCGCGCAGTTCGCGGCTTCCCGGGAACGCCGGGACTGGTGGCTGGCCCGCCTCCGCCGAGTCCACACCCTCCTTGCCCCTTCCTGA	MDMRSIGRAKSSVRHRLYSEQMPTPTVPNGVPPLEELLASAHVVSLPMRVKFRGIMEREALLLRGPHGWGEFGPFPEYGDEEASRWLAAAVEAGWQGFPPPLRSVVPVNATVPAVSADRVPDVLARFGRVDAVKVKVAERGQTLDDDAARLAAVRSALPQAAIRIDANGGWDVSMAVSALTRLAGVGLEYAEQPVPTIDGLAEVRSQLRAAGTPVLIAADESVRKESDPLRVARAGAADLIVVKVAPLGGVRRALEIVAQAGLPAVVSSALDTSVGIRAGLALAASLPELPFACGLGTVSLFESDISTDPLVADDGAIRLRDVSADAGLLAQFAASRERRDWWLARLRRVHTLLAPS	PGPT0009375_958	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009375-menC-K02549	NA	NA
D1-29_03645	354			hypothetical protein	ATGGCACGGGCAGCAACAACCGCAGATGCGTTCAACGCGGTGGCTGAGCCCCGCCGTCGGGAAATCCTGGACGCCCTGACCGGAGGCGAGCGCCCCGTCAATGAACTGGTGGACCTGCTGGGCCTGGCTCAGCCGCACGTCTCCCGGCACTTGCGGGTGCTGCGCGAGGTGGGCGCCGTGGATGTGCGGGATGAGGGCAGGCAGCGGCTGTACCGGCTCAACCCCGAGGCCCTGAAGCCCATCCACGACTGGGTTGCCGGCTACCAGCACCTCTGGGAGGAGCGTTTCGAACTCCTGGAGGGTGTGCTGGAGGACCTCAAGGACCCAGAAGACAAAGAAGACTCAAACGCCTAA	MARAATTADAFNAVAEPRRREILDALTGGERPVNELVDLLGLAQPHVSRHLRVLREVGAVDVRDEGRQRLYRLNPEALKPIHDWVAGYQHLWEERFELLEGVLEDLKDPEDKEDSNA				NA	NA	NA	NA	NA
D1-29_03646	507			hypothetical protein	ATGGCACAGACACACAGCGGCAGCGGCACTATGGAAGTTACCTTCCCCAGCGACGAGCAAATCCTGATCACCCGCACCGTCAACGCGCCCCGGCACCTGGTCTACCGCGCCTGGACCACTCCGGAACTCGTCAGGAAGTGGTGGGCCGGCCGGCGGGGCGAGATGACAGTGGCCGACATGGATTTCAGGGTGGGCGGCGCATGGCGGTACGTCATGGTGGCGCACGGCGAATTCGAGGTGGCCTTCCACGGAACGTACCGCGAGATTGTGCCCAACGAGAGGATCGTCCAGACCGAGGTGATGGAGATGCCCGGCGAGGAATCCGGCGGGGAGGGTGTGGTCAACACCGTCACCTTCCGGGATGCCGACGGCGGCGCCACCACCGTGAGCATCCTCACCGACGCGGGCAGCAAGGAAGTCCGGGACATGATTGCGCAGTCCGGCATGGAAGGCGGCGTGCGCGAGCAGTTCGAACTCATCGAGGAGCTGGCGGGGTCACTCACCTGA	MAQTHSGSGTMEVTFPSDEQILITRTVNAPRHLVYRAWTTPELVRKWWAGRRGEMTVADMDFRVGGAWRYVMVAHGEFEVAFHGTYREIVPNERIVQTEVMEMPGEESGGEGVVNTVTFRDADGGATTVSILTDAGSKEVRDMIAQSGMEGGVREQFELIEELAGSLT				NA	NA	NA	NA	NA
D1-29_03647	909			hypothetical protein	ATGACCGTTTCACGACAGGCGCCGGCCCGCGCTCCTTTGCGCCCCGCCCCCGGCTCAGGCTTTATGTTCGCCTTCGCCACGCTCGCCTGCATCGTGGGGCTGATCGCCACGTACTACTACTTCGTGCAGACCACCACGGGCCAGTTCATCGACGAATCCGCCCTGGTGGAAGCCGTGGATGTGCACGGGCCCGCGGGCAAGGCAGCCACGGAGTTCCTGGACTGGCTGCCCACCATTTCGCTGGTGATGGCCGCCGTGGTGGTTCTCTTCGTCACGGTGATCCGCCGCCGCTGGACCGCCGCGGGCATCGCCGTGTCCGCGTGCATCGGCGCCAACATTGCCACCCAGATCCTCAAAGATGTGCTGCCCGCCCGCCCTGACAAGGGTGTGGTCACGCTGGAGCTGAACTCCCTTCCGTCCGGGCACACCACGCTGGCGGCGTCGGCGGCGGCCGCCGTGTTCCTGATGGCCTCGCCGCGCTGGCGCCCGATGGCCGGCTTCGTGGGCGGCACGTTCGCCATCGCGTCCGGCGTGTCCACCCTGATCAACCAGTGGCACCGACCGGCGGACGTGGTGGCGGCGTTCCTGCTGGTGGGCGCCTTCATGATCCCCGCCGGCTGGCTTATCCTGCGCCACGGCGGGGCCTGGAATGTGTGGGACGGCTTCGGCAGGCATTGGGGTTCCGCCAAGATCTGGCTGACGCTGCCGGTGATGATCGGGCTGGCCTCGGCCGCGGTGGCGGTGTACTCGCTGGCCAGGATCGCCCCGGGCCCCAGCCAGGAAGCCAGCACCACCAACTACTTCTGGGCCGGCATTTCCCTCATGGTGATCGCCGGGTACCTGGCCACCGTTGCCACCACTTCGCTATTCGCCTATGCTGCCCGACGGCGGGTCCCGGCTTCCCGCTGA	MTVSRQAPARAPLRPAPGSGFMFAFATLACIVGLIATYYYFVQTTTGQFIDESALVEAVDVHGPAGKAATEFLDWLPTISLVMAAVVVLFVTVIRRRWTAAGIAVSACIGANIATQILKDVLPARPDKGVVTLELNSLPSGHTTLAASAAAAVFLMASPRWRPMAGFVGGTFAIASGVSTLINQWHRPADVVAAFLLVGAFMIPAGWLILRHGGAWNVWDGFGRHWGSAKIWLTLPVMIGLASAAVAVYSLARIAPGPSQEASTTNYFWAGISLMVIAGYLATVATTSLFAYAARRRVPASR				NA	NA	NA	NA	NA
D1-29_03648	519			hypothetical protein	GTGAAGCTCTCTCGGGTACCCGGATCCGCACTGGCAATTGGCGCTTTCGTCCTGACTGTGCTGCTTGGTGTTGGCTGCGCTTCGGCGTCGGCCCTGTGGGAACAGTCCGCCACCGCCACCATGACGGTGACCGCCAACGGCGCATGGCCCGGCCCGGCGCTGGCCGGGCTGACCTGCACCAACGACAGCCCGCACAAGGTGGCCACTCTCGCCGTCACTGTCTCGGCGGCGCCGGCCACCATCACGTACGCGGCCCTGCAGGCCAACGGGAACTACGGCACGAGCTACCCGGGGTCGACCATCCTGCTCCCGAACGGCTCCGCAAACATCGTCCTGACGGCAAGCCCGCATGCGCAGAGGTCCCAGATCCTCAAGGACAATGCCGCCGGCCCTTTGACGGTGCGGGTGACTGCCACCTACCTGGACCAAACGGCCGCCTCTATGGACATCACCCTGGACAACGCCACCGCCAACGGCAAGGTCAGCTGCCCGCTGGCTCCGGTGCCGGTCCGGGGCTAG	MKLSRVPGSALAIGAFVLTVLLGVGCASASALWEQSATATMTVTANGAWPGPALAGLTCTNDSPHKVATLAVTVSAAPATITYAALQANGNYGTSYPGSTILLPNGSANIVLTASPHAQRSQILKDNAAGPLTVRVTATYLDQTAASMDITLDNATANGKVSCPLAPVPVRG				NA	NA	NA	NA	NA
D1-29_03649	678			hypothetical protein	ATGTCCCGCGAGCTGGCTTTGGGCCGGGCCCTTGGCAGTCGTGCCGAAGCGGGCAGCAACCGCGCGAAGGCAACCAGCCGTGTGAAGGCCGACGCCCCAGAGAACGCCGACGCCGGCACGGAGCCAAAGCGCCGGGCCTATTTCGCCGCCGCAGGCAAGGTCGTGAACCTGGTTGTCCTGATGATCCTCGTTTTCGCGGCATTGGTGCTGATTGTGGTTCCGAGGGCTACCGGGTCCGAGGCCTACACGGTGCTGACCAACTCCATGGCCCCCAAGTTCCCGCCGGGAACCTTCCTGGTGATCAAGCCTGCCGACTTCAGCGAACTCAAGTACGGCGATGTGGTCACCTTCCAGATGTATTCCGGGCGCCCCGACGTCGAAACCCACCGCATTGTGGGCTTCGGTGCCACGCAGGAGGGGGAGAAGACCCTCATCACCAAGGGCGACAACAACGGCGTGAACGACGCTGATCCGGTCCGTGAACTGCAGGTCAAAGGCAAACTGTTCTACGCCGTTCCGTACGTGGGCTACGCCGCCAACGCGCTGGGCAATGCCGACCGCACCACCTGGAGCATGGTGGCCGCTGCCGGCCTGATCGGGTACGGGGCGCTGCAGCTGGTCAAGGGAATCCGCAGCCGCAGGCGCACCCAGCAGGCCGATGCCGGGGCGTTCGCGTGA	MSRELALGRALGSRAEAGSNRAKATSRVKADAPENADAGTEPKRRAYFAAAGKVVNLVVLMILVFAALVLIVVPRATGSEAYTVLTNSMAPKFPPGTFLVIKPADFSELKYGDVVTFQMYSGRPDVETHRIVGFGATQEGEKTLITKGDNNGVNDADPVRELQVKGKLFYAVPYVGYAANALGNADRTTWSMVAAAGLIGYGALQLVKGIRSRRRTQQADAGAFA	PGPT0026405_594	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
D1-29_03650	612			hypothetical protein	ATGCGGATGCCGCGGATGCTGCGCACCGGTGCACTCATCGCAGCAGCGGTAGTCCTGGGACTGTTGACGGTGCAGGGCTCGTACGCCCTGTGGAACGCCGCCACCGCGGCGGCGCCGGGGACCGTCACCGCCGCATCGTTCGACGTTAGCCTCACTGCAAGTCCGTCCGGGCAGGCCACCAACATGAGCCTCTCCGGAGGGACCCCGGCAACCATCAACCTCACCCAGGCCACCTCGCTCGCTCCGGGAACACCGGTGTACGCAAGCGTTGTAATCGGCAATAACTCCAACGCCGGCGGAACGTTCAGCACCAGCATTACGGCGGGCCAGGCCACTGTTTCCAACACTGGGTTCGGCAGCCTTGCGCAGTATGTGACCGTATCTGCAAAGTTCGCCTCGGCCGTCGCGGAATGCAGCAGTTCCACCGGCTACACCGCGCTCACCGCAGCTGGACTCACGTCCGCGGCCGTCCCGAAGGCGGCAAGCACGGTTCTCTGCTTCCAGGTCAGCCTCAGTTCCTCCACCTCCATCCTCCTGAAAGGTCAAACGGTGAACATCAGTCTTCCCATCACCGCCCGCCAGCTCTGCGGGGTGCCAAGTGGCTGCGCCTGA	MRMPRMLRTGALIAAAVVLGLLTVQGSYALWNAATAAAPGTVTAASFDVSLTASPSGQATNMSLSGGTPATINLTQATSLAPGTPVYASVVIGNNSNAGGTFSTSITAGQATVSNTGFGSLAQYVTVSAKFASAVAECSSSTGYTALTAAGLTSAAVPKAASTVLCFQVSLSSSTSILLKGQTVNISLPITARQLCGVPSGCA				NA	NA	NA	NA	NA
D1-29_03651	558			hypothetical protein	ATGAAGAACAGCACACTCATCAAGGGATCTGCAGCAATCGCACTGGGCGCAGCACTGCTGGTAGGTGGCGGCGGCACACTGGCCAACTGGAACGCAGCGGCCTCGCAGACGCCGGGCACCATCGTTGCCGGCGACCTGAACGTGGTCAATGCCACGAGCGCCGGCACCTGGAAGGACCGGAACGAAGCAACTATCGACATCGCCACCTACAAAGTGGTCCCGGGTGACAAGCTCACTTACACGCAGGACCTGACGGTTACGCTCGTGGGAGACAAGATGGCCGCGACCATCGCCGCTGCCGGAATTACCCCCACCAACGGATTCACTGCCGCGAACGTCACCGTCACCAGCACCCCGGTCCTCACTGTCGGCGGCCAGCCTGTTTCCAACCCGCTACTGGCCTCCTCCGGAGCAACCCAGACCGTCACGGCGACCATCACCTTTGAATTCAAGGGAGCCACCGGCGCCCGCGACAACGTGAACGCCAGCTACAACTTCAACAATGTTGGCTTCACCCTGACGCAGGTCACTCAGTCCGGGCTCTCCGGCCTGTCCTAG	MKNSTLIKGSAAIALGAALLVGGGGTLANWNAAASQTPGTIVAGDLNVVNATSAGTWKDRNEATIDIATYKVVPGDKLTYTQDLTVTLVGDKMAATIAAAGITPTNGFTAANVTVTSTPVLTVGGQPVSNPLLASSGATQTVTATITFEFKGATGARDNVNASYNFNNVGFTLTQVTQSGLSGLS				NA	NA	NA	NA	NA
D1-29_03652	1218			hypothetical protein	ATGACTTCGCCAGACAGCCCGCCGCCGTTCAACTTCCGGAGCATCGCGATACCTGCGTTCGGCCCGGCACTGCTGTTCTGTATCGGCGAAGGAGCTGTCCTGCCCGTAGTGGTCCTTTCGGCCCGCGACCTCGGCGCATCCGTGGCCGTGTCAGCATTGATCGTCACGCTGATCGGGCTGGGCTCCTGGTTTTTCAACCTGCCCGCTTCCCTCATCACGCTCAAATTCGGCGAACGCTGGTCCATCGTTGGTGCGGCCGCGGTGGGCGCCATTGCCCTCGCCGCGGCCGCGGTGTCCTCCCTGATCCCCAACGGACTGTGGCTGCTCGCCGGGGCGATGGCCGTCGTCGGGATGACCGCCAGCGTCTTCAACCTGGCACGGCAGAAGTACCTCACCGAGGCAGTGCCCCTCGAGTTCCGTGCGCGGGCGCTGTCCACCCTGGGCGGCGTGACCAGGATCGGCATCTTCATCGGGCCGTTTGTGGGCGCAGCCGTGATGCAGTTCGAGGGGATCAGCGGTGCCTACTGGGTGGGGGTGGCAGGCATGGCGGCCGCCGCGGTGCTCGCCGTCACCATCCCGGACCTGGTAGTTCCGCCAGCCCCCGACGGCGGACACAAGGGCCCCGAACCCACCCTGCGGAATGTGGCGGTCTCCCATTCAGGCGTGTTCCTGACGCTGGGCCTGGGCATCCTGCTGCTCAGCGCCCTCCGCGCCTCCCGTCAGGTGGTCATCCCGCTCTGGGCGGACCACCTGGGCATGGACGCCACCCAGGCGTCGCTGATCTATGGGCTCTCCGGAGCGATCGACATGCTGGTGTTCTACCCGGCCGGCAAGCTCATGGACCGCCGGGGCCGGCAGTTTGTGGCCATCCCCTCTACCGTCATCATGGGAATAGCCATGCTGCTGATCCCCCTGACCGCTTCGTTCGCCGGGCTGCTGCTTGCCGCGCTGCTGATCGGCTTCGGCAACGGCATCAGTTCAGGCCTGATCATGACGCTGGGTGCCGACTTCTCACCGGACCGAGGGCGCGGCCAGTTCCTGGGCCTGTGGCGTTTTATCGCCGACGCCGGATCAACCGGCGGACCCGTGCTGCTCTCCGTGGTGACGGCGCTGGCATCCCTGGGCGCGGGGGTCTCAGCCACCGGAATACTGGGGTTTGCCGCGGCAGCCGTGTTCGCCGTCGTACTTCCCCGGCTCAAGCACCGGCGGAACTACTGA	MTSPDSPPPFNFRSIAIPAFGPALLFCIGEGAVLPVVVLSARDLGASVAVSALIVTLIGLGSWFFNLPASLITLKFGERWSIVGAAAVGAIALAAAAVSSLIPNGLWLLAGAMAVVGMTASVFNLARQKYLTEAVPLEFRARALSTLGGVTRIGIFIGPFVGAAVMQFEGISGAYWVGVAGMAAAAVLAVTIPDLVVPPAPDGGHKGPEPTLRNVAVSHSGVFLTLGLGILLLSALRASRQVVIPLWADHLGMDATQASLIYGLSGAIDMLVFYPAGKLMDRRGRQFVAIPSTVIMGIAMLLIPLTASFAGLLLAALLIGFGNGISSGLIMTLGADFSPDRGRGQFLGLWRFIADAGSTGGPVLLSVVTALASLGAGVSATGILGFAAAAVFAVVLPRLKHRRNY				NA	NA	NA	NA	NA
D1-29_03653	369			hypothetical protein	ATGGGGGAATTGTGGATCCGCACCATCAGCAACGGCCTGGTCCGTGCGGACAGAGTTACCGAAATTTCATCGACCCGCGGCTCACTGCAGGAGGACCAGGGTTATTCGCTCAAAGTCATCGTGGACGGCAAGGCCCACGTACTGATTGATGACAGCGAAATCCAGGGCACGCTGGCCGAACGGCTGGAATATGCAAGGCATGTAGAGGATGCCCTGCTGCTCGCCATGGATGAAGCAAAGGGCTCGCATGTGGCCATGGTGGTCTGCTACGAGCACGAGAACGAGCGCTGGTCCGTGGCTGCGGCGGCAGAATTGGTGGGCGCCCTTCCCGCCCATGCTCCACCGCGGGAGATGACCGGCGCCTCCTAA	MGELWIRTISNGLVRADRVTEISSTRGSLQEDQGYSLKVIVDGKAHVLIDDSEIQGTLAERLEYARHVEDALLLAMDEAKGSHVAMVVCYEHENERWSVAAAAELVGALPAHAPPREMTGAS				NA	NA	NA	NA	NA
D1-29_03654	834			hypothetical protein	GTGCCGAAAGTTGCGCGCTTCCTGCTCCTGTCGTTTGTCATGCTCGCGGCGTTCACGGCCGCACAACCGACAATGACCGCGCCTCCTCCCACCTCCTCGCCGCCGCCCACCTCCATGGCAGCCCTGGGCGACTCCATTACCCGGGCCCTCGCCGTCTGTTGTTCGAACGGTGACAACTCGCTCCACTCATGGTCCACCGGGCGCGGTCCCGGCGACGGAGTCAGCAGTCACCATGAGCGGCTAACACGTCTGGACTCGGCTATCACTGACCGCAACCACAACAACGCCATCAGCGGCTCCAGAGCCAGGCATCTTCCGGACCAGGCCGAGATGGCCGTCGAACAGAATGTGGAATACGTGACCATCCTGATCGGAGCAAACGACCTTTGCGCCTCATCTGTATCCACGATGACATCCGAGGCGGAATTCGCTTTGCACATTCAAACAGCCTTGGCGACACTCGACCGCGGCCTACCGAGGGCACGCATCCTCGTTGCCAGCATCCCGGACCTCTACCAACTCTGGAAGGCCTTGGAAAGCAACGCCGAGGCACGCGAGGCATGGTCCGGCGGCACCTGCCAATCGATGCTTGCCGCCCACAACACCGAGGAGCAACGGCAGTCGGTCATCATGCGGGAGCTCGCGTTCAACAGGATCCTTGCCCAGGCGTGCTCCCAGTACAAGAACTGCCGCTGGGACAACAACACCGTGCATAACTTCAAGTTCTCGGCAAGCGACGTTAGCGTGCTTGATTACTTCCATCCAAGCCTGGAAGGCCAGGCCCGTCTGGCTGAGCTCACTTGGCGGGCGTCATGGTGGGGAGACCAGCAGTAG	MPKVARFLLLSFVMLAAFTAAQPTMTAPPPTSSPPPTSMAALGDSITRALAVCCSNGDNSLHSWSTGRGPGDGVSSHHERLTRLDSAITDRNHNNAISGSRARHLPDQAEMAVEQNVEYVTILIGANDLCASSVSTMTSEAEFALHIQTALATLDRGLPRARILVASIPDLYQLWKALESNAEAREAWSGGTCQSMLAAHNTEEQRQSVIMRELAFNRILAQACSQYKNCRWDNNTVHNFKFSASDVSVLDYFHPSLEGQARLAELTWRASWWGDQQ				NA	NA	NA	NA	NA
D1-29_03655	387			hypothetical protein	ATGGCCGCAGGCCCGTGGGTCACCGCACCTTGGTGCTTACTCGCGATAGTTGCATCCATGGTCCTCTTACTGGCTCCGATGTACACACAGGTAAAAGTAACGTCTGGTGGGCCAGAGCAGGTCAGTCATCCGGCCCTACTTGAGACAGTCGGGCCGTCTATCTTCGTGCCGTTGCTCATCCCAGTGGCCCTGACCGCGCTACCTCTCCTGATACGAGGACGGGCGCAGACTCCTGCATCGGTCGCGGAAACTGTCGCTCTTGTGATCTTCGTAGTCATCGACTCCGCAAGCATCGGTTGGTTCTACATCCCAGCCCTGGCCGCCGCCGTAGCCGCCGTTGATTCCTCGCTGGACGGCAACCCAGGACTCCAAGCCCGCCCTAACTAA	MAAGPWVTAPWCLLAIVASMVLLLAPMYTQVKVTSGGPEQVSHPALLETVGPSIFVPLLIPVALTALPLLIRGRAQTPASVAETVALVIFVVIDSASIGWFYIPALAAAVAAVDSSLDGNPGLQARPN				NA	NA	NA	NA	NA
D1-29_03656	339			hypothetical protein	ATGACCATCCAGACACTCGGCGCGACGCGCTCACCTGTAGTCGCAGCTTGCACCGTGCTTCTGGGCTTGCTGGTCCTCTGGATGGCGCAGCCGGTTCTGCCTGGTTGGGGATGTGCGACCAGTTTTCCGGCGATGTGCCCTCCGCACTTGCTGCCTGTTCGTGCATCACTGATCGGCGCAGGCATCCTCTTCGCACTGCTCGGGGCTGTCATCGTCGGGCTACTGCTTCGGTCACGAGACAACGGCTGGCTGGGCCGTATGTCCCGGAGTGTTGTCTTAGCCGTGCCGGTAATCCTGGTCCTGACGGTCATAGCGCACTTCGTGATACCGCAGCCCTGA	MTIQTLGATRSPVVAACTVLLGLLVLWMAQPVLPGWGCATSFPAMCPPHLLPVRASLIGAGILFALLGAVIVGLLLRSRDNGWLGRMSRSVVLAVPVILVLTVIAHFVIPQP				NA	NA	NA	NA	NA
D1-29_03657	2025	yesX		Rhamnogalacturonan exolyase YesX	TTGAATTATCTTGCGAATCAACTCCGGAGTAGCAGGGCCAGCAAGGCTTTGCGTTCCAGCCCTATGGTGGCAACCGCATCCCTTGCTGCCGCGGCTATCGCACTGACGGGGCTGCCGTTGGCAAGCGCCCAAGCTGCCCAGGAGCCGGGTGGAACCAAGAATCCGCAGGTGACGCTGCCGGAACAGTCTGGCAAGGGCACACCGAAGCGCCAGATGGAAAAGCTGGACCGGGCTCCGGTGGCTGTCTTGACCGATCAAGGTGTCAGCTTGAGTTGGCGAATGCTTGGGCTGGACCTGGAGAGCGTGGGCTTCCATGTCATCCGGGACGGCGTTCAGCTCACAGTCGATCCCATCCGCAACAGCACCACGTACGTTGATACGAGCGGCACGGCCACGTCCACGTACGTTATCAAGGCGGTAGGCAGCGGGGCGGACCAGCTCACTGGCGAGTTCGCTCCCATGGCCCAGAACTACCTGGCGGTCAAGCTGGATAAGCCTTCTGATGGCGTCGCGAAAGACGGCGTTCCCTACACCTACTCCGCTGGTGACGCCAGCGTGGCGGATGTGGACGGCGACGGCCAGTACGAAGTCATACAGATGTGGTCCCCGTCCAACGCCAAGGACAACTCCCGCCCGGGTTACACCGGCATCGTCTATGTGGATGCCTACAAGATGGACGGCACCAAGCTGTGGCGCATCGATCTGGGCCACAATATCCGTGCAGGCGCGCACTACACCCAGCTGCTCGCCTATGACTTCGACGGCGACGGCAAGGCCGAGGTCTCGATGAAGACGGCTGACGGCACCCGCGACGCGGCAGGAACTGTCATCGGCGATCCCACCTTGGACCACCGCAACAGTAGCGGCTATGTCCTGGCCGGCGACGAGTTTCTTACCGTCTTCCACGGCCAGACCGGCACAGTCATGGACACAGTCCGGTACGAACCGCCGCGCGGGAACGTCGCTGCCTGGGGTGACGGTTACGGCAACCGGGTGGACCGCTTCCTGGCCGCTGTAGCCTACCTTGACGGAGAGCGTCCGTCGATGATGTTCAGCCGCGGCTACTACACCCGAACCGTGCTCGCGACCTATGACCTGGTGGACGGAAAGCTGGTCAAACGCTGGATCTTTGACTCCAATGTGGCCGGTGCAGAGTATGCCGGCCAAGGCAACCACAACATGTCCGTCGCAGACGTCGACGCCGACGGCAAGGACGAGTTCGTCTTCGGATCCATGACCATCGACGACGACGGCAAAGCCCTCTACAACACCAGACTGGGCCATGGCGACGCCATTCATACCAGCGACTTCGATCCGTCCCGCCCTGGCCTGGAAACCTTCGCCGTGCACGAGAGCATGAGTGCCAGCGGAAACATTGGAGCAACCTTCCGGGATTCCCGGACCGGCGAAGTGCTCTGGAGCATTCCCGCAGCCAGGGACACCGGACGAGGCGCTGCCGGCGACCTTGATCCGCGCCATGCCGGTGCCGAAGCCTGGGCTATTGGAGGTACCTACGCCTGGAACTCCACTGTCGGGGAGATGCGTTCGGCTAATGGTGAGGTTCTGTCCACGAAGATACCTGCCGCCAACTTCCTGGCCTGGTGGGACGGTGACCTGCTCCGCGAAATCGTTGACCACGATTTTGATGACGCCACTCAAACCGGCGTTCCGACCATTGCCAAGTGGAACTGGGAAACCCAGGCCAGCGACAAGCTGCTTACGGCAGCCGGCGCCAAGACGAATAACGGCACCAAGGGCAACCCTGCGGTCCAGGCAGACCTCATGGGCGACTGGCGGGAAGAAATCGCCTGGCCGTCCGCGGACAGCACAGAACTCCGCATCTACACCACCAGCGCCCCCACGGAAGTCAGGCTCCGCACCCTGATGCATGACCCCGTCTACCGTGCCGACGTGGCGCGGGAGAATGTCTCCTACAATCAGCCGCCGCACACCAGTTTCTACATTGGCGAGGGCATGAAAACCCCGGAAATGCCCGCCATTACCTACACAGGCAGCCGACGGTAG	MNYLANQLRSSRASKALRSSPMVATASLAAAAIALTGLPLASAQAAQEPGGTKNPQVTLPEQSGKGTPKRQMEKLDRAPVAVLTDQGVSLSWRMLGLDLESVGFHVIRDGVQLTVDPIRNSTTYVDTSGTATSTYVIKAVGSGADQLTGEFAPMAQNYLAVKLDKPSDGVAKDGVPYTYSAGDASVADVDGDGQYEVIQMWSPSNAKDNSRPGYTGIVYVDAYKMDGTKLWRIDLGHNIRAGAHYTQLLAYDFDGDGKAEVSMKTADGTRDAAGTVIGDPTLDHRNSSGYVLAGDEFLTVFHGQTGTVMDTVRYEPPRGNVAAWGDGYGNRVDRFLAAVAYLDGERPSMMFSRGYYTRTVLATYDLVDGKLVKRWIFDSNVAGAEYAGQGNHNMSVADVDADGKDEFVFGSMTIDDDGKALYNTRLGHGDAIHTSDFDPSRPGLETFAVHESMSASGNIGATFRDSRTGEVLWSIPAARDTGRGAAGDLDPRHAGAEAWAIGGTYAWNSTVGEMRSANGEVLSTKIPAANFLAWWDGDLLREIVDHDFDDATQTGVPTIAKWNWETQASDKLLTAAGAKTNNGTKGNPAVQADLMGDWREEIAWPSADSTELRIYTTSAPTEVRLRTLMHDPVYRADVARENVSYNQPPHTSFYIGEGMKTPEMPAITYTGSRR	PGPT0018715_163	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_POLYSACCHARIDE_DEGRADING_FUNCTIONS	PLANT_MEMBRANE_RHAMNOGALACTURONAN_ENDOLYASE,PGPT0018715-yesW-K18197	NA	NA
D1-29_03658	114			hypothetical protein	ATGGTCGACGCCGTGGGGAACGTCGTGAGCCTGGGCGGCGGCCTGCTGCCGGTCATCTTCCCCCTGCTGCCGCACCGCCGGCAGCCCACCCACCAGAAGGAAGTGCAAGCATGA	MVDAVGNVVSLGGGLLPVIFPLLPHRRQPTHQKEVQA				NA	NA	NA	NA	NA
D1-29_03659	756			hypothetical protein	ATGAACATCGCAGTCGCCGGCGGAACCGGGAAAGTGGGCCGCCACGTGGTCAGCATCGCCAGGGAGCGGGGGCATGCGGTGAAAATCCTTGCCCGCTCCGAGGGCGTGGACCTCGTCAGCGGCCAGGGCCTTGCCGGAGCGCTGGAGGGTGTGGACACCCTTATTGACGTTGTCAGCATCCAGACCCTGTCCGCCAAAGTATCCGTGAAGTTTTTCAGCGCCACCACCACCCACCTGCTGGAGGAGGCCAAGGCTGCCGGTGTGCGGCACTACCTGGCGCTGTCCATCGTGGGCGCGGACAAAGCTGCCGCCGGCATCTACGCCGGCAAGCTGGTCCAGGAAGAGCTGGTCAGCGGCGGGGACGTGCCCTGGACCATCCTGCGCGCCACCCAGTTCCACGAGTTCGCCGGGCAGGTCCTGGGCCGCAGCTCGGTTGGCCCGCTGGCTGTCGTACCCCGCATGGCCACCCAGCCCATCGCCGCACGGGAGGTAGCCGTGGCCCTGGTGGATGCTGCAGAAGCAGGCCCACAGGGACGGATTCCGGACCTGGGCGGGCCTCGAGTAGAGCAGCTGGTGGACATGGTCCGCGCGTATGCCGAAAAATCGGGGCAGCGGAAGCTGGTTATTGGCGCCACTGCGCCGGGCCGGCTGTGGAAGGCGATGCGCAACGGGACCTTGCTGCCGGAGGCGGGCGCCGCCGTCGGACGCCAGACGTTCCAGGACTGGCTGGCAACCCTGAAGCAGCAGCAGGCCTAA	MNIAVAGGTGKVGRHVVSIARERGHAVKILARSEGVDLVSGQGLAGALEGVDTLIDVVSIQTLSAKVSVKFFSATTTHLLEEAKAAGVRHYLALSIVGADKAAAGIYAGKLVQEELVSGGDVPWTILRATQFHEFAGQVLGRSSVGPLAVVPRMATQPIAAREVAVALVDAAEAGPQGRIPDLGGPRVEQLVDMVRAYAEKSGQRKLVIGATAPGRLWKAMRNGTLLPEAGAAVGRQTFQDWLATLKQQQA				NA	NA	NA	NA	NA
D1-29_03660	432			hypothetical protein	ATGTCTATTCATCCCCTGGGCCCGAACAGGCATTCTTTTGAAGAAGGCACCGAAGATCGTCCGCTGACGTGCGTAAACTGCGGGACGGACCAGAACTTGGCGGTGCACTCCATCGAAACCCTGAGCCCGTCCTCCGATGTCCTGGTGGAGGTGGGCTATTCCTGCGGCGCGTGCGGGAGTCACTACCTGGACCATGCCGGCGTCACAGCCGTTGCTGCAGTCTTGAACCGGACCGGGAGCTTCAGGAATGTGCTTGCCTTCGGCGGCCACTACATCCACTGCGGCCAGCCAATGCAGAAGGCCGGGTCGGAACTCCGCCGGCTCAGCGCTCCAGTCTTCACCGACAGTGCCTCTGAGGACGGACTGGATGTCTATATGACGACGCGTGTACTGCGCTGTCCATGCGGCTTCCAGATGGAGCTGCCCGAATAG	MSIHPLGPNRHSFEEGTEDRPLTCVNCGTDQNLAVHSIETLSPSSDVLVEVGYSCGACGSHYLDHAGVTAVAAVLNRTGSFRNVLAFGGHYIHCGQPMQKAGSELRRLSAPVFTDSASEDGLDVYMTTRVLRCPCGFQMELPE				NA	NA	NA	NA	NA
D1-29_03661	267			hypothetical protein	ATGACCATCACGAGCCGGACCACCGGACACAAGACCAGACTCCAAGCTGCATCCCAAGCCGTAGGGGCAGTGTTCCTGCTGGTCGGCGTCCTCGGATTCATTCCGGGCATCACCAGCAATTATGACTCCCTGGGATTGGCCGGGCATGGGTCCGGTGCCCTTCTGCTGGGGATCTTCCAGGTCTCCGTGCTGCACAATATGGTCCATCTGCTTTTCGGCGCCGCAGGCATCCTCCTGTCCCGCAGCCACGGCCAGGCCCCGCGCTAA	MTITSRTTGHKTRLQAASQAVGAVFLLVGVLGFIPGITSNYDSLGLAGHGSGALLLGIFQVSVLHNMVHLLFGAAGILLSRSHGQAPR				NA	NA	NA	NA	NA
D1-29_03662	231			hypothetical protein	ATGCTCCTTATTTTTGGACTCAGCACCAAGCTCAAAGCGCTGCCGCCCCGGCCTGCAACCTGCCAATACTGCAGGTCTTTCGTTCAGCACTACCTGGAAGAGCGGGCCACAAAGCTCACGATCTTCTTCATACCCGTCCTCACAACGTCCAGGAAGTACGGCATCACCTGCTCAAACTGCGGTCAGCACTCCATCATCAACAAACGACAAAGAAACGCCCTGACCCGGTGA	MLLIFGLSTKLKALPPRPATCQYCRSFVQHYLEERATKLTIFFIPVLTTSRKYGITCSNCGQHSIINKRQRNALTR				NA	NA	NA	NA	NA
D1-29_03663	210			hypothetical protein	ATGTATCTGACGTACAGCAAGCGCCGGCGTCCGGGGCGTCCCGGCGGGCCTGGTGGGGTTCTGCGGGATGCGGGCTGGACCGGCCTGTCCATCGCAGCCGCCGTCATCCTGCTTCCCGCCATCGGCACCAGCGCGCTGGCCCGTGCCATCCTCCGCAAAGGCCCTTCCCCCGACGCGGAAACTGACCGGACCCACTACCTGATCACCTGA	MYLTYSKRRRPGRPGGPGGVLRDAGWTGLSIAAAVILLPAIGTSALARAILRKGPSPDAETDRTHYLIT				NA	NA	NA	NA	NA
D1-29_03664	1497			hypothetical protein	ATGCCTGATCCGGCGGATCAAAACGCTCGCGCCCTCGCACCTGATGCAGATAAAGGGCAGCCGCAGTTGCGCCGACGCCGCGACCTCCGTCGCGCCGACGGCGACCTGACAGACGCCCGGACAGGAACCATGCCAGCCATCACACCCAACCCCTCCAGCCCGTCAGAAGCAGGCCAGCCGCCTATCCGCCGAAGCTCCTGGGCTGAGGCCGCCGCCGCTGCGGACGCAGCAAAAACCACGGGTCACGTCCCCGCCCCCAGCCGGCAGCCGGCATCCTTCGCGCCTGCCGGCCGCCAGCCGGAAGCCGGCCTGCCCGCTTTTAATGCACCGGGGTCTGAAGCAACAGGGCCCGATGCACCTGCGTCTGAAGCGGCGGCTTTTGCCGGTCCCGGCTTTGAGACGCCGGCAGCTGCCGGTCCGGCGGCTGGTGACCAGGACACCAGCACCTCCACCTCCGCCGACAGCGCTGCGGACGCCGTGCCGCCGTCGTCGGACGCTTCTACCAGTACCGAACCGGTGCGCCGAAGCAAGCGGCCCAGCACCGCGGACGTTATTGCCGACACCCCGATGCCGGACTTCACCAGCTCGCCGGGCCTGTTTGTCCGTGAGCAGAAGCCCCGGCCGGTGGGCGGATTCCGCGGCGCCATGTACTCGCTGACCGGTGGGGCCTGGAACCTCGGACCCGGCGCCAAGCAGCGCGCGGAGGACGAGCTGCGCCTCCGGATCGCGCGCCAGCTGCAGGGCAGCTTCAACACGGCGGTCCTGAGCCTGAAGGGCGGCATCGGCAAGACCTCCACCACGGTGGGCGTGGGCCTGACCCTGGCCGAATTCCGCGGCGATCCGCCCTGCGCCATCGATGCCAACCCGGACTCCGGCGACCTGGTGGAGCGCGCCCTGGGCGAGGGCATTTACCAGCAGGCCAGCCCGCGCACCATCACGGACCTGCTCAAGAACATCGACTCCGTGGATTCGCTCACCGCGCTGTCCCGCTACATGCACCACGCCGGCCGGCTGCACCTGATCGCGGGGGAGCAGGACCCGGAGGTCTCGGACTCGCTCACGGCCGCCGAGTACCTGCGGATCCGCAAGCTCATCTCCAGCTACTACTCCATCGCCCTGACCGACTGCGGCACCGGCGTGACACACAACGCCATGAGCGGCATCCTGCAGTCCGCTGACAACCTGATCATCGCCGCCGGGTATGCGGTGAGCGGCGCCAAGCGTGCCCGCAGCACCCTGCACTGGCTGGCGAGCCACGGCTACGAGGACCTGGCCCGGAACGCCATTGTGGTCATCACGGACAAGGACGAAGTCTCCTCCCGGGTGGACAAGGACGCCATCGAGGAACACCTCGCCGGCATCTGCCGCCAGCTCATCGCCGTCCCGCACGACCGCGGCGTGGCCGACGGCGACCTGGTCACCCTGGATGTCCTCAAGCCTGAAACCCGGCGTGCCTACAAGGAAATCGCCGCCGCGATGGTGGACGGGTACCGCTAG	MPDPADQNARALAPDADKGQPQLRRRRDLRRADGDLTDARTGTMPAITPNPSSPSEAGQPPIRRSSWAEAAAAADAAKTTGHVPAPSRQPASFAPAGRQPEAGLPAFNAPGSEATGPDAPASEAAAFAGPGFETPAAAGPAAGDQDTSTSTSADSAADAVPPSSDASTSTEPVRRSKRPSTADVIADTPMPDFTSSPGLFVREQKPRPVGGFRGAMYSLTGGAWNLGPGAKQRAEDELRLRIARQLQGSFNTAVLSLKGGIGKTSTTVGVGLTLAEFRGDPPCAIDANPDSGDLVERALGEGIYQQASPRTITDLLKNIDSVDSLTALSRYMHHAGRLHLIAGEQDPEVSDSLTAAEYLRIRKLISSYYSIALTDCGTGVTHNAMSGILQSADNLIIAAGYAVSGAKRARSTLHWLASHGYEDLARNAIVVITDKDEVSSRVDKDAIEEHLAGICRQLIAVPHDRGVADGDLVTLDVLKPETRRAYKEIAAAMVDGYR				NA	NA	NA	NA	NA
D1-29_03665	120			hypothetical protein	ATGCCATACGTAGACATCAACCCTCACAAGGGCCGCCCCAAATGGCAGGCCTACGCGGTCCTTGCGCTCCTCCTGGTGGCCACCTCCGCCGTGGTGGCGCTTGCCCTTTCGCGGGTCTGA	MPYVDINPHKGRPKWQAYAVLALLLVATSAVVALALSRV				NA	NA	NA	NA	NA
D1-29_03666	138			hypothetical protein	GTGGCTCTCGCCGACTTTGCCCTGGCGCTGTGCGCGCTGCTGGGCACGCTGTTGATTCCCTTTCTGGTGATGTACCAGGTGCTAAGACTCAAGCGCCGCGCCGTGCGGGTTGCCGCCATCCGGGAGGGAAGCCGCTAG	MALADFALALCALLGTLLIPFLVMYQVLRLKRRAVRVAAIREGSR				NA	NA	NA	NA	NA
D1-29_03667	1236	rebG_2		4'-demethylrebeccamycin synthase	ATGTCCACCATCCTCGCCTACACTTCGCCCGCGCTGGGGCATCTCCTTCCCATGACGCCCCTGCTGCTGGAGCTGCGCCGCCGCGGCCATGACGTGCACGTGCGCACCCTTGCCAGTCACGTGGGGCTGATGCGGAGCCTCGGACTAGCGGCAGAGCCCATCGACCCACGCATCGAATCCGTCGCCATGGACGACTATTTGGCTCGGGGGCCCAAGCGTGCCTTGGAATCCGGGGCAGCCGTTTTCGCCGCCCGCGGCACGTATGACGCTCCGGACTTCCGGACGGCAATTGACGGGATCCACCCGGACGCTGCCATCGTGGACATCAATACCTGGGGCGCCGGCTTCGCGGCGGAGGCCTGGGGCGGCCCCTGGGTGTCCTTCTCGCCCTACACTCCCGCGCTCAACTCTCCGGGTACGCCGCCGTTCGGTCCTGGACTGCCGCCCATGAGCGGCTTCCTGGGGCGGGCCCGGGATGCCCTGGTGGGCAGGGCCGTCATCGGAGCGGTGGAGCAGTCCCTGCTGCCGCGGCTCAACGCCTTGCGGGAACAGCTGGGGCTTCCGCCAGTGGCATCGGCCGATGAGTTCCTCCGCAAGGCCCCGTTGATGCTTGTCACCACCGCCAAGCCGTTCGAGTACGCCGTCACGGACTGGGGGCAGGAGGTCCTGATGGTGGGCGCCTCCACGTGGGAGCCTCCGCAGGACATCCCGGAATGGCTGAACGCCATCGGCAAGCCAATAGTCCTTGTCACCACGTCCTCAGAGTTCCAGGACGACGGCGTGCTGGTCCGGACTGCCCTGGGCGCGTTCCGGGACGAGCCGGTGCACGTTGTTGCCACCATGCCTGCGGGCATCCCTGACGGGCTGGACGTGCCGGCCAATGCGACCGTTGTGGACTTTGTTCCCCATAACGCCATCCTTGACCGTGCAGCCGTTGCGGTCACCCACGGCGGCATGGGCTCCACCCAGAAGGCGCTGGCGCACGGCGTGCCGGTGTGCGTGGTGCCTTTTGGCCGGGACCAGCTGGAGGTGGCCAGGCGGGTGGAGGTCAGCGGGTCAGGGATCCGGCTCCCGCGCAGGAAGCTCTCGCCGGAGCGGCTTCGGCGGGCTGTGAAGGACGCCATGGCCAGGCGGGCCGGGGCCACGCGGGTGGCTGAAGGCTACGCCGCTGCCGGCGGAGCGTCCGCCGCGGCGGATGCCATCGAGGCCTGGCTGCTTCAGTCACACACCGCTTGA	MSTILAYTSPALGHLLPMTPLLLELRRRGHDVHVRTLASHVGLMRSLGLAAEPIDPRIESVAMDDYLARGPKRALESGAAVFAARGTYDAPDFRTAIDGIHPDAAIVDINTWGAGFAAEAWGGPWVSFSPYTPALNSPGTPPFGPGLPPMSGFLGRARDALVGRAVIGAVEQSLLPRLNALREQLGLPPVASADEFLRKAPLMLVTTAKPFEYAVTDWGQEVLMVGASTWEPPQDIPEWLNAIGKPIVLVTTSSEFQDDGVLVRTALGAFRDEPVHVVATMPAGIPDGLDVPANATVVDFVPHNAILDRAAVAVTHGGMGSTQKALAHGVPVCVVPFGRDQLEVARRVEVSGSGIRLPRRKLSPERLRRAVKDAMARRAGATRVAEGYAAAGGASAAADAIEAWLLQSHTA				NA	NA	NA	NA	NA
D1-29_03668	606			hypothetical protein	ATGAAATTGGCGGAAGAGGCCAAGCGGCCTTACCGGATGGCAGCCCGTTCCGATGCTGCCGCGGCCACGGCTGAAGCAATTCTCGACGCCGTGACGGAGCTCTTCTGGGAGCAGCCATCCGATCAGATCCGCCTCGATGAAGTGGCCGCAAGGTCCGGCGTCACCGTCCAGACCGTCATCCGCCGCTTCGGAAACAAGGACAAGCTGTTCGCCGCGGCCGCGGAACGCCAGTCGGAGCGGGTGGTGCAGGCCCGCTCACGGGTGGTGCCGGGGGATGTCCCGGGCGCGGTGGCCAACCTGATGGAGCACTACGAGCTCATGGGCGACCGTGTGCTGCGGATGCTTGCAGAAGAGGGCCGCATTCCGGCGATCAAGGTGCTTGCCGACCAGGGCCGCCTCCTGCACCGGCAGTGGTGCGAGCACGCCTTCGCCCCGTTCCTCCCTGACCAGCCGGCGGCCGTCCGTAAGCGGCGGCTTGCCCAGCTGGTAACCATCTGTGATGTCTACACCTGGAAGCTGCTGCGCCGCGACAGCGCACTCACCCGCCGTCAAACTGAGCAGGCCCTCGCGGAGATGCTTGCCCCCTTCACCAAGGACGTGACCTGA	MKLAEEAKRPYRMAARSDAAAATAEAILDAVTELFWEQPSDQIRLDEVAARSGVTVQTVIRRFGNKDKLFAAAAERQSERVVQARSRVVPGDVPGAVANLMEHYELMGDRVLRMLAEEGRIPAIKVLADQGRLLHRQWCEHAFAPFLPDQPAAVRKRRLAQLVTICDVYTWKLLRRDSALTRRQTEQALAEMLAPFTKDVT				NA	NA	NA	NA	NA
D1-29_03669	528			hypothetical protein	ATGAAGACCCTCTTCAATGGTCGATTGTGGGTGCACTACGGCCAGGCCTATGTCGTGTCCGGGCCCGTCTTCGACTCTGACTTAGAGGCATCTTTTCGAGGTCAGTCCAACGGCCTGTGCGGTGCTTCCAGCCCCAACCTCCTATTTCTCATCACGGGTCTGCACACCGGCCATGTCAATTTCAGCGTCGGGTTCTCCGATGCAGAACCGCCACTGGATCGGGCATGGGAGGACATCGTCGAAGTCTCATTCACAGTGGTTCACCGTCCCTTCCTAGAGGAGTGGGGAGGCCAGGTCTTGTATCCAATAGACCTGGCTCCTGGCACCTACCGCGTCCGGTACGCGGCAAGGGGAATGGACTCTGCCCGCGCAGTCGACACAATCGTTGAAACAGAGGAGCCGGTCGACACCTATCAGCTCTGCTTCTGGCCCGCTAAGGGCGATGCGCCTGACCGCGTGGTTCGCCAGGAGAGCCAAACCGCAACGTACTGGAATGGCTGGGCCAACTCGCTCCACCCCGCAAGTTGA	MKTLFNGRLWVHYGQAYVVSGPVFDSDLEASFRGQSNGLCGASSPNLLFLITGLHTGHVNFSVGFSDAEPPLDRAWEDIVEVSFTVVHRPFLEEWGGQVLYPIDLAPGTYRVRYAARGMDSARAVDTIVETEEPVDTYQLCFWPAKGDAPDRVVRQESQTATYWNGWANSLHPAS				NA	NA	NA	NA	NA
D1-29_03670	816			hypothetical protein	ATGTCAGAATGGCTCGAAGTGGGCGCGGACAACTATGTGCTCGTCACCGAAGGTTCACTCCTGAACACCGGCCTGATTGTCGGCTCCGAGCGGGCCATGGTGATCGATACGGGCTGCGGTCCGCGGCAGGGACGCGAGATCCTGGACGCAGTGCGCGAGAAGACCCAGCTGCCGCTGGTGGTGGTCAACACCCACGCCCACTACGATCACTTCTTCGGCAACGCAGTCTTCGCGGAGGACGGCACTGACGAATTCTGGGCCCATGAAAACTGCGCCGCCGAAATCGACGAGCGCGGGGACCTGCAGCGCCGTTTTGTTGGCACCCTGGAGCCGGAAATGTCCACCGGCGAAGGTGACAATGTTGAACTGGTGGTGCCCAACGCCATCGTGAAGGACCAGCCCGTGCTGGTGGACCTCGGCGGGCTGACCGCCACCCTGTTCTACCTGGGCCGCGGCCATACCGACGGCGACCTCCTGGTGGGCACCTCCACCACCCTCTACGTGGGCGACCTCGTGGAACAGGGCGCACACCCGTCCTTTGAAGATTCCTACCCGGAGGAATGGGCCGACGCCCTGCGGCACATTTCCGCACTGCGCCACCGCTACGAGTTCCTGATCCCGGGCCACGGCAAACCCTGCAGCGATCAGTTCGTGAAGACCATGGCGGACACCATGACCACCGCCGTCCGCCAGGCCAGGCAGTCCATCCGCGATACCCCGACGGACGCCACCAAGGCCATCCCCGTGCTGCCTTACGGCCCCGAGCAGTCCCGCTGGTTCATCAAGCGGCTGCAGGAGACCCGCCGGGAGCACTAA	MSEWLEVGADNYVLVTEGSLLNTGLIVGSERAMVIDTGCGPRQGREILDAVREKTQLPLVVVNTHAHYDHFFGNAVFAEDGTDEFWAHENCAAEIDERGDLQRRFVGTLEPEMSTGEGDNVELVVPNAIVKDQPVLVDLGGLTATLFYLGRGHTDGDLLVGTSTTLYVGDLVEQGAHPSFEDSYPEEWADALRHISALRHRYEFLIPGHGKPCSDQFVKTMADTMTTAVRQARQSIRDTPTDATKAIPVLPYGPEQSRWFIKRLQETRREH				NA	NA	NA	NA	NA
D1-29_03671	1167			hypothetical protein	TTGAGCAACAACCAGCAGCCCGGTTGGCCGCACCAGCCCAACCAACAGCAGCCTAGTTCGCAGCAGCCACATCAACAGCAACCACAGCCTGAGCACGGCCGGGAATACCCGGCTGTCCTGCAGGCGCCGGGCCAGGACGGGCAGCAGACCCAGCAGTTCCCGCCCTACAACCCGCAGCAGCCGGGCCAGGAGGGGCAGCAGACCCAGCAGTTTCCGCCCTACAACCCGCAGCCGGGCCAGGACGGGCAGTACAGCCAGCAGCCACAGCCTGAGTACGGCGGCGATTACCCGACTGTCCGCCGTTACCCTAGCCAGGACGGACAGCAGACCGGGCAGTACCCGCCCTACAACGTGCAGCAGCCAGGCCAGGCAGGGCAGCCGTTTTATGGAGATCCCGCGCAGCAGTACCCCGCACAGCAAAACGGTGCCCCTTACGGGCAGCCGGGCTCCCCGATGTATCCGCAGCCTGCACAGAAAAGCGGCATGCCGGTGTGGGGCTGGGTCGCCAGTGGCGCCGGCGCCTTGGCTGTAATCGCAGTGGCAGGCGTGATGGTGTTCAACGGCCTCGCCGGCGGCAAGCAGCAGCCTGTAGTGGCTGACCCGACCGCCAGTGAGTCGGCAGCACCGGAGGAATCAGCGGCACCGGTGGAAACGGAGGCGGCGGAGATCGTTTCCCTCTATGACGAAACAGACTTTGCCAGCGCACCGGTGTGGTCGGTCCAGGCACCAGAGGGCTGGACCATGGAGCAAGTCCGCGAGGGCACCATGGAGTACACAAACGCGGACCTGCAGTGCGTTTTTACCACCCATCAGGCCATCCTCCCTCCCATCAGCGAAACCGAGGAATTGGGCGCCACTAAACTGGCCATGGCGGCTGAGATCGATGCTGTGAAAAAGTCCGTTGAGAGTTCCGTAGAGGTCGTGGAAGAAGACGGTTCCGCCTACATCAAGCTGCGGGATGACAGTACGGAAATCGAACTTCAGAAAGCGGAGCTCCGCTTCAAGAACAAGAACAACTCCGATGTGGTCTACCTGATGGCCGTGCGCGCCACCCCATCCAGTGACGGGCTGATGGAAGTGGGCCTCGCCTGCCCCGGCGGAATGACCGGAGCGTCTTCGCTCTGGTACGAACTCGTTGAGCGGGTAACCATGACGGACGCGCCGTAG	MSNNQQPGWPHQPNQQQPSSQQPHQQQPQPEHGREYPAVLQAPGQDGQQTQQFPPYNPQQPGQEGQQTQQFPPYNPQPGQDGQYSQQPQPEYGGDYPTVRRYPSQDGQQTGQYPPYNVQQPGQAGQPFYGDPAQQYPAQQNGAPYGQPGSPMYPQPAQKSGMPVWGWVASGAGALAVIAVAGVMVFNGLAGGKQQPVVADPTASESAAPEESAAPVETEAAEIVSLYDETDFASAPVWSVQAPEGWTMEQVREGTMEYTNADLQCVFTTHQAILPPISETEELGATKLAMAAEIDAVKKSVESSVEVVEEDGSAYIKLRDDSTEIELQKAELRFKNKNNSDVVYLMAVRATPSSDGLMEVGLACPGGMTGASSLWYELVERVTMTDAP				NA	NA	NA	NA	NA
D1-29_03672	1893	glmS_3	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGTGTGGAATCGTGGGATATGTGGGCCATTCGAACGGCCGCGGGAATGCCGGTCATGATGCGCTGGAAGTGGTCTTTGAAGGATTGCGCCGCCTGGAGTACCGGGGCTATGACTCCGCGGGTGTTGCGGTGATCTCGGATGGGATGATTTCCTCCCGGAAGAAGTCGGGCAAGCTCAGCAACCTGCTCACGGAACTGCAAGAGCGCCCGCTGCCTGAGACCTCCACCGGCATAGGCCACACTCGCTGGGCAACGCACGGCGGACCCACGGACGAGAACGCGCACCCCCATCTGTCCGACGGCGGCAAGCTGGCCCTGATCCACAACGGCATCATTGAGAACTTCGCCGAGCTCAAGAACGAGCTGCTAGCCAGTGGCGTCACGTTCGGTTCCGAGACGGACACCGAGGTCGCTGCGGCGCTGCTGGGCGATATTTTCCGCACCAAGCTCAACGGAGCCGTGAGCGACGGGGGCCTGACGAAAGCCATGCAGCTGGCCTGCCAACGCCTTGAGGGCGCCTTTACCCTGCTGGCCGTGCATGCCGACCAGCCCGACGTGGTGGTTGCCGCCCGCCGCAACTCGCCCCTGGTGGTTGGCTTGGGTGAGGGAGAAAACTTCCTGGGCTCGGACGTTTCCGGCTTCATTGACTACACCCGCCGGGCCGTGGAGCTGGGCCAGGACCAGATTGTCACCATCACGGCAGACGAGGTGGACATCACTGACTTCTACGGTGCCCCCGCCAAAGGCAAGGAATACTTCGTTGACTGGGATCCGGAATCGGCAGAAAAGGGTGGCTATGGCTCTTTCATGGAGAAGGAAATCCATGACCAGCCCGATGCCGTGGGGCAGACACTGCTGGGGCGCTCGGATATCAACGGAAAGCTGACCCTGGACGAGCTCCGGATCGACCCCGCAGAGCTCAAGAACGTCAACAAAATCATTGTGCTGGCCTGCGGCACGTCAGCGTACGCTGGCCAGGTGGCTAAGTACGCCATCGAACGCTGGTGCCGGATCGCCACTGAGGTAGAGCTCTCCCACGAGTTCCGTTACCGGGACCCGATCGTGGACGCCCACACCCTGGTGGTTTCCATCTCCCAGTCCGGGGAGACCATGGACACTCTGATGGCCGTCCGCTACGCGAAGGAACAGGGCGCCAAGACCCTCTCCATCTGCAACACCAACGGCTCTACCATTCCGCGTGAATCGGACGCCGTGCTGTACACCCACGCCGGTCCGGAGATCGCGGTCGCGTCCACGAAGGCGTTCTTGGCGCAAATTACTGCTGCGTACCTGCTCGGGTTGTACCTTGCCCAGCTGCGCGGCAACCTGTTCCAAGGGGAAATCAAGGACATCCTGGCAGACCTGGGCAAGATCCCGGCCAAGATCCAAACCATCCTGGATAACGCCGGCCCGATCAAGGAATTGGGTAAGTCCATGGCCGATGCCAAGTCGGTGCTATTCCTGGGCCGCCACGTTGGCTTCCCGGTAGCCATGGAAGGAGCTTTGAAGCTCAAGGAGCTCGCTTACATCCATGCCGAAGGATTTGCGGCCGGCGAGCTGAAGCACGGACCCATTGCGCTGATCGAGGAAGGCCAGCCCGTGTTCGTGGTGGTCCCCTCCCCGCGCGGCCGCGATTCCCTGCACGCCAAGGTGGTCTCCAACATCCAGGAAGTCCGCGCCCGCGGTGCCAAGACCATCGTCATTGCGGAAGAGGGGGACGAAGCGGTTAAGGCCTATGCCGAGCACGTCTTCTACATTCCGGACACGCCCACGCTGCTCGCACCGCTGCTGGCCACCGTGCCGCTGCAGATCTTCGCCCTGGAACTCGCCTCGGCCAAGGGCTACGACGTGGACCAGCCTCGTAACTTGGCCAAGAGCGTCACCGTAGAATAG	MCGIVGYVGHSNGRGNAGHDALEVVFEGLRRLEYRGYDSAGVAVISDGMISSRKKSGKLSNLLTELQERPLPETSTGIGHTRWATHGGPTDENAHPHLSDGGKLALIHNGIIENFAELKNELLASGVTFGSETDTEVAAALLGDIFRTKLNGAVSDGGLTKAMQLACQRLEGAFTLLAVHADQPDVVVAARRNSPLVVGLGEGENFLGSDVSGFIDYTRRAVELGQDQIVTITADEVDITDFYGAPAKGKEYFVDWDPESAEKGGYGSFMEKEIHDQPDAVGQTLLGRSDINGKLTLDELRIDPAELKNVNKIIVLACGTSAYAGQVAKYAIERWCRIATEVELSHEFRYRDPIVDAHTLVVSISQSGETMDTLMAVRYAKEQGAKTLSICNTNGSTIPRESDAVLYTHAGPEIAVASTKAFLAQITAAYLLGLYLAQLRGNLFQGEIKDILADLGKIPAKIQTILDNAGPIKELGKSMADAKSVLFLGRHVGFPVAMEGALKLKELAYIHAEGFAAGELKHGPIALIEEGQPVFVVVPSPRGRDSLHAKVVSNIQEVRARGAKTIVIAEEGDEAVKAYAEHVFYIPDTPTLLAPLLATVPLQIFALELASAKGYDVDQPRNLAKSVTVE	PGPT0017630_991	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
D1-29_03673	141			hypothetical protein	ATGGTCCAGTGGACTGTCCCCATCAGTTCGTGGGAGTCTGCGCAGCATGTCAAGGTTCTGAAACGTATCGAATACCGGGTTCCGTATTCGAACTACAAATCGACGACTCCTGTTACTAATTCCTTCCTTGTTCCGTCCTAG	MVQWTVPISSWESAQHVKVLKRIEYRVPYSNYKSTTPVTNSFLVPS				NA	NA	NA	NA	NA
D1-29_03674	1407	pdhC_2	COG0508	Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	ATGACTGAGACAAAAGTATTCCTTCTTCCGGACCTCGGCGAAGGGCTGACAGAAGCCGAACTGGTTAACTGGCTGGTTTCTGTGGGTGATCAGATCCGAGTGGATCAGCCGATCGCCGAGGTGGAGACGGCGAAGTCGATGGTGGAGGTGCCGTCGCCTTATGCGGGGACAGTGACCGAGCTGCACGGCGAGCAGGGCCAGACGCTTGAGGTTGGGAAGCCGCTGATCTCGGTGGCTCCCGCCGGGGCTCCTGTGGTTGAGCCTGTCGAAGTGGCAGCCGACATATACCGCGAAGAGGAGAAAGCCGGCTCTGGGAACGTGCTGATCGGTTACGGCACTCGGGGCGGCAGCGGGTCTGTGCGTCGAACCAGAGCCCGAAGGCATGACAGCGGATCGACGGGTGCCGGTGTCTCGGTGGGCGCTTCGCCGGGCAGTTCCGTCTCCGATGCTGAAAAGGCTGCTGACGAGCTTCTGCTGATGCTGACACGGGTCCCGGGCAAGTTGGGTGCCGTCATTTCACCGCTGGTGCGCCGGATGGCCCGGGAGCATGGCGTTGACCTCGGCGAGATCCATGGATCCGGCGAAAGCGGCCTGATCATGCGGCGTGACGTTGAGGCCGCGATCTCGGCCCCGAATGTGACGGAACAGGACAGCCAGCCTCCAACTCCAGCGGCACAGGGCTCAACCGATTCCCGGACCGGCTTGGGCATCGCTTCCCGCACACCAGTTAAGGGTGTGCGCAAAGCCGTTGCTGCGAACATGGCCCGCAGCCGCGCGGAAATCCCGGAAGCCACAGTGTGGGTGGACGTTGATGCCACTGCTCTTGTGGAGCTCCGGGCGGGCCTGAAAAAGGACGCTGGTCCCGCCCCAGGCTTGCTTGCCTTTATTGCCCGCTTTGTGACCGCGGGACTGAAGAAGTATCCGGAACTGAACACCAGGATCGAAACAGCTTCAGACGGTACACAGGAGATCGTTGCCTTCGAGGGCATCAACCTTGGCTTTGCCGCTCAAACGGACCGCGGGCTGGTGGTGCCGTCCATCCGGTCAGCGGAGAAGCTGAGCGCCCGGGAGCTGGATGGGGAGATCCGCCGGCTCACGATTGTGGCCCGTGAGGGTAAAGCATCTCCGGCCGAACTTGGCAGCGGGACGTTCACCCTCAATAACTACGGTGTCTTTGGGGTGGATGGGTCGGCAGCCATCATCAATTATCCGGAAGTGGCCATACTCGGCGTTGGCAGAATTATTGATAAGCCGTGGGTGGTGGACGGTTCCTTGGCCGTCCGCAAGGTTACTGAGCTGACGCTCACGTTCGATCACCGGGTTTGTGACGGTGGAACGGCGGCTGGGTTCCTTCGGTTTGTTGCTGATGCTATGGAGAACCCGGGGCCTGTGATTGCGGAGTTTTGA	MTETKVFLLPDLGEGLTEAELVNWLVSVGDQIRVDQPIAEVETAKSMVEVPSPYAGTVTELHGEQGQTLEVGKPLISVAPAGAPVVEPVEVAADIYREEEKAGSGNVLIGYGTRGGSGSVRRTRARRHDSGSTGAGVSVGASPGSSVSDAEKAADELLLMLTRVPGKLGAVISPLVRRMAREHGVDLGEIHGSGESGLIMRRDVEAAISAPNVTEQDSQPPTPAAQGSTDSRTGLGIASRTPVKGVRKAVAANMARSRAEIPEATVWVDVDATALVELRAGLKKDAGPAPGLLAFIARFVTAGLKKYPELNTRIETASDGTQEIVAFEGINLGFAAQTDRGLVVPSIRSAEKLSARELDGEIRRLTIVAREGKASPAELGSGTFTLNNYGVFGVDGSAAIINYPEVAILGVGRIIDKPWVVDGSLAVRKVTELTLTFDHRVCDGGTAAGFLRFVADAMENPGPVIAEF				NA	NA	NA	NA	NA
D1-29_03675	1113	bkdB_2	COG0022	3-methyl-2-oxobutanoate dehydrogenase subunit beta	GTGAGCCCCACAGTCACCACCTCATCCGAGGCGAACGGCAATGTCAGCGCGGCAACTGCCAGGGCCGCCGCGTCCGCTGCAGCCACCGCCGAAGCGGCCGGTCCGCAGTCCGTCACCATGGCCAAAGCCCTCAACACAGCCTTGGCAGACGCAATGCATGACGATCCGTCCGTCCTGGTCTTCGGTGAAGATGTGGGCATGCTGGGAGGGGTCTTCCGCATCACAGACGGACTCACCAAGACTTTCGGCGAAAAGCGCTGCTTCGACACTCCTCTCGCGGAGTCCGGCATTGTCGGCATGGCAGTGGGCATGGCCATAAACGGCATGCGCCCCGTGATTGAAATGCAGTTTGATGCCTTTGCGTATCCGGCGTTTGAGCAGATAGTCAGCCATGTGGCCAAGATGCACAACCGAACCAAGGGGGCCATCAAGCTGCCCATTGTCATACGCGTTCCCTACGCAGGCGGGATCGGGGGAGTGGAGCACCACTGCGATTCCTCTGAGTCGTACTACGCCCACACCGCCGGCCTGAAGGTATTCACTCCTGCCAGCGTTGCCGACGCCTATGTAATGCTGCGCGAGGCCATCGACTCCGATGACCCCATCATGTTTATGGAGCCGAAGAAGCTCTACTGGTCCAAGGACATGGTGGACCTGGAGACGCTGCGGGAGCAGCACTCGGCAAATACAAAGGGTGGCAAGTCCTCGGAAGGCCGTGCCGCCGTCGCCCGTCCTGGCACTGATGCAACATTGATTGCCTACGGACCGTCGGTGCCGACAGCGCTGGCGGCGGCCGCGGCGGCCGCTGAGGAAGGGCGGTCGTTGGAAGTCATCGACGTGCGCTCAATCGTCCCCTTCGACGATGAAACCGTATGTGCCTCCGTCCGTAAGACTGGCCGGGCTGTAGTGATCGCGGAAGCGCATGGCTTTGCATCCGTCTCCTCCGAGATCGTGGCCAGGGTGCAGGAACGATGCTTCCACTACCTTGCAGCGCCGATCCACCGCGTGACGGGTTTCGACGTCCCGTACCCGGCGCCGAAGCTTGAGCACTACTACCTCCCCGGCGTGGACCGCATCCTTGACGCCGTAGACGACCTCCAGTGGGAAGACTGA	MSPTVTTSSEANGNVSAATARAAASAAATAEAAGPQSVTMAKALNTALADAMHDDPSVLVFGEDVGMLGGVFRITDGLTKTFGEKRCFDTPLAESGIVGMAVGMAINGMRPVIEMQFDAFAYPAFEQIVSHVAKMHNRTKGAIKLPIVIRVPYAGGIGGVEHHCDSSESYYAHTAGLKVFTPASVADAYVMLREAIDSDDPIMFMEPKKLYWSKDMVDLETLREQHSANTKGGKSSEGRAAVARPGTDATLIAYGPSVPTALAAAAAAAEEGRSLEVIDVRSIVPFDDETVCASVRKTGRAVVIAEAHGFASVSSEIVARVQERCFHYLAAPIHRVTGFDVPYPAPKLEHYYLPGVDRILDAVDDLQWED	PGPT0008862_273	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
D1-29_03676	1215	bkdA_2	COG1071	3-methyl-2-oxobutanoate dehydrogenase subunit alpha	ATGACGATCTCCGCAGACCACACGGCGCACGACCAGGGGCAGCCCCTGAGCGCGGACCCGGTTGCCGAAGCCGTACGCAAATTTGGGATTACCGCTGAAGATTACATGCTGCCGGCCCGCCATCAGATCCAGATGGTGGACCAGAATGGCCGGCTCAAAGCAGAGGATGAACAAGGCACAGAACCCGGCCACGAGTATCCGCTGCCCGGTGATGAGGAGCTGATGGCCGCCTACGAGCAGCTCGTGATCGGACGCCGCGTCAACGATCAGAACTCTTCTCTCGTCCGGCAGGGCCGTATGGCGGTTTATCCCTCAAGCCACGGACAGGAAGCCTGCCAGGTGGCTGCTGCCCTTTGCCTCTCAGAGGGCGACTGGATGTTCCCCACTTATCGGGACTCGGTCGCCGTGATGGCACGCGGAGTGGATCCGGTCCAGGCCATGACCCTTTTCCGCGGCGACTGGCACAGTGGCTTCAACCCGCTGAAGCACAAGGTTGGTCCCCAATGCACTCCTCTGACCACCCAGCTGCTGCATGCCGTCGGCGTGGCCCACGCTGCAAAGCTCCGCGGCGAGAACATCGTGGTCCTGGCCATGTGCGGCGACGGGGCCACCAGCGAAGGCGACTTCCATGAGGCGCTGAACTTCGCTGCTGTCTTCCACCTGCCAGTGATCTTTTTCGTCCAGAACAACAAATACGCCATTTCGGTGCCGCTGGCACATCAGTCTGTGGCGCCGTCGCTCGCACACAAGGCAGTGGGCTACGGGATGGCCGGAGAACGCGTGGACGGGAACGACGTCGTGGCACTCCTTGCCGTCCTGGACCGCGCCGTCAAACTGGCCAGGGAGGGCTCCGGCCCATTGCTCGTTGAAGCGAACACCTACCGCATGCAGGCCCACACCAATGCCGACGATGCCACACGCTACCGCCAGGACAGCGAGGTGGCTGAGTGGCAGGCCAAGGACCCGGTGAGCCGGATGAAGACATACCTTACGGACAAGGGGCTGCTGGACGGTGCCGCTGAAACCCGGATCGCAGCCAAGGCGGAGGCTGTGGCCACCCAGCTGCGGGACGGCCTCAGCGAAGAAGTTCCCGTGGACCCACAGGAACTCTTCCGCTATGTCTTTGAAGTCCCCACCCCGCAGCTGAAAGAACAGTCCGCCATGCTCGCCGACGAACTCGCCCGCGAAGCAACCTTCGAGGAGGACGCAAAGTGA	MTISADHTAHDQGQPLSADPVAEAVRKFGITAEDYMLPARHQIQMVDQNGRLKAEDEQGTEPGHEYPLPGDEELMAAYEQLVIGRRVNDQNSSLVRQGRMAVYPSSHGQEACQVAAALCLSEGDWMFPTYRDSVAVMARGVDPVQAMTLFRGDWHSGFNPLKHKVGPQCTPLTTQLLHAVGVAHAAKLRGENIVVLAMCGDGATSEGDFHEALNFAAVFHLPVIFFVQNNKYAISVPLAHQSVAPSLAHKAVGYGMAGERVDGNDVVALLAVLDRAVKLAREGSGPLLVEANTYRMQAHTNADDATRYRQDSEVAEWQAKDPVSRMKTYLTDKGLLDGAAETRIAAKAEAVATQLRDGLSEEVPVDPQELFRYVFEVPTPQLKEQSAMLADELAREATFEEDAK	PGPT0008861_1067	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
D1-29_03677	465	lrp_2	COG1522	Leucine-responsive regulatory protein	TTGGCAAGACCCGAGGCTGAGGGCGACCCGGCGCCGCTGGATGATGTGGACCGGAAAATCATTGCCGAGCTCACCCGTGATGGCCGAATGTCCGTCACCCAGGTGGCAGAGAATGTCCACATCTCGCGGGCGCACGCTTACACACGGATAGCGAGGCTGACAGGGGACGGAGTGCTGACCAAGTTCACTGCCTTGGTTGACCCCATCAAGGCCGGGCTCAAGTCCTCTGCCTACGTGACGCTAAAGGTCAGCCAGCATTCATGGCGCGAACTGCGCGAACAGCTACGCAACATCCCTGAGGTGCATCACATTGCCCTGGTGGGCGGCGACTTTGATGTCATCCTGCTGGTCCGCGCCATCGACAACATCGACCTGCGTCGGGTCATCTTTGACCAGCTTCAGTCCATGCCTGGGGTACTTGATACACAGACGTTTCTGGTGTTTGAGGATGTGGATACACGCTAG	MARPEAEGDPAPLDDVDRKIIAELTRDGRMSVTQVAENVHISRAHAYTRIARLTGDGVLTKFTALVDPIKAGLKSSAYVTLKVSQHSWRELREQLRNIPEVHHIALVGGDFDVILLVRAIDNIDLRRVIFDQLQSMPGVLDTQTFLVFEDVDTR				NA	NA	NA	NA	NA
D1-29_03678	156			hypothetical protein	GTGAACTTCGACGCCGAGACCTACAAAGGCCGCAACACGGTGGAGAGATCCACCAGCCGCTTCAAACAATGGCGTGCCATCGCCACCCGCTACGACAAACTCGCACTGACCTACCAAGCCGGTGTCGGCCTCTATGCCGTCGTCATCTGGCTATGA	MNFDAETYKGRNTVERSTSRFKQWRAIATRYDKLALTYQAGVGLYAVVIWL	PGPT0030660_93	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030660-putative_transposase-K07492	NA	NA
D1-29_03679	678			hypothetical protein	ATGCCTCTTCCAGATGCTTCAAGCAGGCCTCAGGAGGCCTTCAGATGGGATAGCACTGCCATTGAGTCAGCGGCGGCTATGGCAAGGAGCACCAGAAAGATGTGGGGCATCGTCTGGGGGAGGGTAAGGGAGAGGATGGACTGCCAGGGTCTAGGCAAATGTCTCCCCATAGCCCTAATGAATACCAAAGGCCTGGTTTTCCGCACTGTGGCTTGGGACTTAAAGCTGGGGGTGGGTGGTTCTCGGTTTCCCGAGAACCACCGACCCTCAGTTCCTGAAAAAGGGAATACGCCCAACTGTGTTCGTTGGCGTTCCAATAAGCGCATAGAGGTCGGTCGAAAGAACCTGTCGAACCGATGGCAGAGATTCGTGATGAGGCCTCTTCGCCGGGATCGGGATTCTGTGTGGTGCCGGATCGATACCTTGCTGCCGAGTACCGACGGGCGGCGTGGACGCCCGTACGGGGGCCACCGCCAGGTCGTTGAAGCCATCGTTTACTGGTACCCCGGTGCGGCATTGCCTGGCGGAACCCTCCCGCGAGTTCGGTCCGTGGCAGACAGTCTGGAAGCGGCACCGCCGTTACGCGTCCGAGGGGACGCGGGACCAGAGCCACCGAAGGCTTCTGGCCGAATCGGACGCCGGGCTGATCGATTGGGCAGTTTCGGTGGACTCGACTAG	MPLPDASSRPQEAFRWDSTAIESAAAMARSTRKMWGIVWGRVRERMDCQGLGKCLPIALMNTKGLVFRTVAWDLKLGVGGSRFPENHRPSVPEKGNTPNCVRWRSNKRIEVGRKNLSNRWQRFVMRPLRRDRDSVWCRIDTLLPSTDGRRGRPYGGHRQVVEAIVYWYPGAALPGGTLPRVRSVADSLEAAPPLRVRGDAGPEPPKASGRIGRRADRLGSFGGLD				NA	NA	NA	NA	NA
D1-29_03680	420			hypothetical protein	ATGCTTGTCCCGCTCGCACTGGTGGCCTTCTCGTCAAGCCCCATTGACCAATCCGTGTCAGGGGACCTGGCCGGAGTCCTGAAATTTTTCTCCATGCCCACGGAACCCCGCCTGGTTAATTACGAATTTGTCGAATCCGCAGCGAACGTGGTGCTATTTAGCCCGTTGGGGCACGCGGCAGCACTGGCATGTGCAGAAAAGCGATGGTGGCAAATAGGCATCTTAGGCACGCCAGTGTCCGGCGGCATCGAACTCGGACAGCTGAGGTTTATTCAAAAACGGTTCGCGAGTGCGCAGGATCATGTCACAAATACCACAGGGGCAGTCATAGGGGCGCTGCTGGCCGTTGCGGCCCTTAAACGGCCAGGCCAGGCCCTCTGCGGCGGGCATGCAGCAGCAGTAGCTGCGGGGACTAGCTGA	MLVPLALVAFSSSPIDQSVSGDLAGVLKFFSMPTEPRLVNYEFVESAANVVLFSPLGHAAALACAEKRWWQIGILGTPVSGGIELGQLRFIQKRFASAQDHVTNTTGAVIGALLAVAALKRPGQALCGGHAAAVAAGTS				NA	NA	NA	NA	NA
D1-29_03681	885	gtaB_2	COG1210	UTP--glucose-1-phosphate uridylyltransferase	ATGGGGAAAGCTATAACCAAAGCCGTCATTCCTGCTGCCGGATTGGGAACTCGCTTCCTGCCCGCCACTAAGGCGATGCCGAAGGAAATGTTGCCGGTGGTTGACCGGCCGGCCATCGAGTACGTGGTGGAGGAAGCCGTTCAGGCAGGCCTCACCGACCTGCTGATGATCACGGGGCGGAACAAGCGCTCCCTGGAAGATCACTTTGACCGGGAACCCGGCCTGGAGCGTGCCCTGGAGCTGAAGGGCGACAAGAGCCGCCTGGAGGCCGTGCAGCACGCTTCCCAGTTGGGGCCCATCCACTATGTCCGCCAGGGCGAGGCCAAGGGGCTTGGCCACGCGGTGCTGTGCGCCAGCCAGCACGTGGGGAACGAGCCGTTCGCCGTGTTGCTGGGTGATGACCTGATTGATGAGAACGACTGCCTGCTCAGCACCATGATGGAGGTGCAACAGAAGACCGGCGGTTCCGTCATCGCCATGATCGAGGTGGATCCGTCCCAGATCAGCGCCTACGGATGTGCGGACATCACGGCCATTGACGGCGAGGACTACGTCCGCGTCAACAGCCTGGTGGAGAAGCCGGCTCCTGGTGAGGCGCCGTCCAACCTGGCGGTGATCGGGCGCTACGTGCTGCACCCGTCCGTCTTCGGCATCCTGGAGAAAACCGGTCCGGGCCGTGGCGGCGAAATCCAACTGACGGACGCGCTGCAGACACTCGCTGCTGGCGAGGGCGAGGGCTCAGGCGTGTACGGAGTGGTATTCAAGGGCCGCCGGTTCGATACCGGAGACAAGCTGAGCTACCTCAAGGCTGTCATCACGCTTGCCTCCGAGCGTGTGGAGTTTGGCGAGGATCTGAAGACCTGGATGAAGGGCTTCGTCAGCTAG	MGKAITKAVIPAAGLGTRFLPATKAMPKEMLPVVDRPAIEYVVEEAVQAGLTDLLMITGRNKRSLEDHFDREPGLERALELKGDKSRLEAVQHASQLGPIHYVRQGEAKGLGHAVLCASQHVGNEPFAVLLGDDLIDENDCLLSTMMEVQQKTGGSVIAMIEVDPSQISAYGCADITAIDGEDYVRVNSLVEKPAPGEAPSNLAVIGRYVLHPSVFGILEKTGPGRGGEIQLTDALQTLAAGEGEGSGVYGVVFKGRRFDTGDKLSYLKAVITLASERVEFGEDLKTWMKGFVS	PGPT0014875_3255	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
D1-29_03682	1668			hypothetical protein	ATGCGCACGCCTGAAACCAAACGCACTGATCGGAACCCTAATCAACGTTTCTCACAGAGGGATGCAAGGAAGACAACGAAGATCGCTTTGGTGGTTGCTGCGATGGTAGCGGCAGTGATCGCGCTCGTCATGGTATTCACGGGGCTAACCCCATCGAATTCGAACTCTCTGGTCCAGCCTATTCCAACCACAAACAGCTCTCTGCCACCGGCACCGACAGTTTCCTACTACGACCAGCCTGGCCCACCGGCTAATTCGCCATTGGAAGCAGTTGAACCACTGAAGGTTAAGGTCACGGGAAATGAGCTCGGTACGGTCCTGAACCAGGGTATGACAGGCATTTCACTAGAAGCGACCGATCTGGGGGATGCTGCCTTGAGCAGCTCAAACACCTCCCTCGCAAAGCTTCTGACTGAAGTTGACGAACCCGTGTTGCGTTTCGGAGGCAACGCCGTGGACCGTCGCTTCTTCTGGACCTCGTCGGGCGAGGCGCTCCCAGCCACGTACAAGGGGGACAAAGCGCATCCCGCCCGGGCTGTCGGCCCGCAGGACCTGGCCCGCGTCAATGGCTTGCTTGAAGCTGTAAACGCGAAGCTGAGCCTTACCGTCGATCTTGGCCACTTCGATCCGGCACGGGCCGCCGACATGGTGAAGCACGCTTCCACCATCTTCGGGGATCGACTCATCAGTGTGACGATCGGCAACGAGCCCAATGGCTTCGGCGCCAATGGTGTGCGTCCCGGAGGTTACACCACCGATGACTACGTTAGAGAGCTAAAGGCATATGCCACGGCGATTTACGCTGCGGCACCCAGCGTCGCTATCTCCGGCCCAGGAACCTACAGCAAGGAATGGTGGCAGCCCTTCATCGATGCCGACATTCCTCAGAAAAAGATCCTTTCCTTCCACAATTATCCCCTCCATAGTTGCAACGGCGACGACCCCAAATCGTCGCCAACAATTGGAAACCTCATGACCCCGCTCATGCACCAGCGTGCCGCTGACTATCAGAAGGCCGCCATTGAGGCAGGGAAATCAGCCGGACTGGAAACATGGCTCCCCGAAACGGGTATCGCAGCATGTCCCGGTTCGAACGAGACCTCCCGTACGCACGCGTCAGCCTTGTGGACGGCGGACTACTTCCTCAACGCTGCGCAGCTGGGAATTGCCCGCATCGGTTTCCACAGTTCATTGCTGACGTGCGCAGGGGGGCCACCCATGTCCGTACTGTGCAGTGGCGGCCCCTACCTCAAGCCGGATGGACAGTTTTCGGGCAGGGCAAACTTCTTTGGGCTGGCCATGGTGGCTGAACTTGAAGGCGGAAAGTTCCTTGAACTTGAGAGCTCGGGCGGTGGCCTGGCCTACAGCTATGCCCTCCGGAACCCGGACGGCAGTACCACTGTGGTTCTGGTAAATCAGAACGATCCCGAAAAGGCCGCTCAGACGGAAGTAACCCTCTCCCTGCCAGGACAGCCTCTGACCGGAACCATGACCCAGCTAACCGGGCCCAGCTACAAGGCCGAAGACCAGACAATCATTGACGGCGCAAAGGCAGGACCTAAGCCTGTGGCCGAACGGCTGACTGTCCCTGGCTTTGCCTACGGCTCCACTACACAAACGTTTCCGCTGACTGCCGGCACCGTGACGGTACTGAACTTTACGTACTAG	MRTPETKRTDRNPNQRFSQRDARKTTKIALVVAAMVAAVIALVMVFTGLTPSNSNSLVQPIPTTNSSLPPAPTVSYYDQPGPPANSPLEAVEPLKVKVTGNELGTVLNQGMTGISLEATDLGDAALSSSNTSLAKLLTEVDEPVLRFGGNAVDRRFFWTSSGEALPATYKGDKAHPARAVGPQDLARVNGLLEAVNAKLSLTVDLGHFDPARAADMVKHASTIFGDRLISVTIGNEPNGFGANGVRPGGYTTDDYVRELKAYATAIYAAAPSVAISGPGTYSKEWWQPFIDADIPQKKILSFHNYPLHSCNGDDPKSSPTIGNLMTPLMHQRAADYQKAAIEAGKSAGLETWLPETGIAACPGSNETSRTHASALWTADYFLNAAQLGIARIGFHSSLLTCAGGPPMSVLCSGGPYLKPDGQFSGRANFFGLAMVAELEGGKFLELESSGGGLAYSYALRNPDGSTTVVLVNQNDPEKAAQTEVTLSLPGQPLTGTMTQLTGPSYKAEDQTIIDGAKAGPKPVAERLTVPGFAYGSTTQTFPLTAGTVTVLNFTY				NA	NA	NA	NA	NA
D1-29_03683	780	echA8_3	COG1024	putative enoyl-CoA hydratase echA8	ATGATTTCCCTCTCCATCAACAATGGTGTTGCCGAGGTGGTGCTGGACGCGCCGCACAAGCTGAATTCGCTGGACGAGCAGGCGCTGGCGGAACTGGCCAACGCGTACGACGCCGCTGCTGACGCCGCCTCACGCGGTGAGGTGCGGGCGCTGCTGCTCCGGGGAGAGGGCCGCGCCTTCTGCGCGGGACGGGACATCTCACACGTGAGGCCGGAGAGCGACGACGCCGCCGCTTACCTGGGCGGTTTGGTCCAGCCGCTGCTGAAGAAGATGAGCTCCTTTCCGGCGCCCACGTTTGCTGCGGCCCAGGGTGCGTGCCTGGGCGTGGGGCTGGGCCTGCTGCTGGCCACGGATGTGGTGTACGTGGCGGAGAACGCCAAGTTCGGCTCCCCGTTCGCCAAGCTGGGCGCCACGCTGGATTCCGGCGGGCACTGGTACTTCACTGAGCGCCTGGGCATGCACCGGACGCTGGACCTGATCTATACGGCGGAGCTGATGTCGGGGGCGGAAGCCGTGGCGCAGGGTATGTTCAGCCGGGCAATGCCGGCGAATGAACTCCTGGACAACACGCGGGCGGTGGTGGCCAAGGTGGCCATGGGTGCCACCGGTGCATTCACCGCGAGCAAGGAGCTGGTGGCGCACATCCGGGACCAGCGCCTGGGCCTGTGGGAGGCCATGGAAGAGGAGAATTCGGAGCAGGCGCGGCTTTGTAAAAGCGACGATTATGCCGAAGGTTTCCTGGCCTTTCAGGAGAAGCGTGAGCCGAGGTTTACCGGCTAG	MISLSINNGVAEVVLDAPHKLNSLDEQALAELANAYDAAADAASRGEVRALLLRGEGRAFCAGRDISHVRPESDDAAAYLGGLVQPLLKKMSSFPAPTFAAAQGACLGVGLGLLLATDVVYVAENAKFGSPFAKLGATLDSGGHWYFTERLGMHRTLDLIYTAELMSGAEAVAQGMFSRAMPANELLDNTRAVVAKVAMGATGAFTASKELVAHIRDQRLGLWEAMEEENSEQARLCKSDDYAEGFLAFQEKREPRFTG	PGPT0006070_2359	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866	NA	NA
D1-29_03684	1227	paaE	COG1018	1,2-phenylacetyl-CoA epoxidase, subunit E	ATGCCTGTTGTCCGCCAGACCGCCGCCGAATCGGCGCAGGCCACCGGCCGCCGTCGTCCGTCCTTCCACACGCTCGCCGTCAAGGAGGTGCGCCGGCTCACCGAGGACGCCATCGAGGTGGCCTTCCACGTGCCCAGGGAGCTGGCCGGCCAGTTCGACTACCTGCCCGGCCAGTATGTTGCCCTGCGCACCACGCTGCCGGATGAGAACGGCGAGCCGAAGGAGATCCGCCGCAGCTACTCCATCTGCGCGGAGCCGCGCACGTTTGAGGACGGCAGCAGCGAGATCCGGGTGGCCGTGAAGAAGGACCTGGGCGGGCTGTTCTCCACCTGGGCCAATGCGGAGCTGAAGGCGGGGGACACGCTGGACGTCATGAGCCCCATGGGCGCGTTCGTGTCCAAGCACGGCCGCGACGGCAACCTCGTGGACCAGAACGTCATGAACTCGATGAACCATCCGGAGGACCTGGCGGGGGAGCCCGGCAGCTTTGTGGCCATCGCCGCGGGGTCCGGAATCACCCCGGTGATCGCCATCGCCCGGACGCTGCTGGCCGCCAACCCGGAGACCCGCTTTGACCTGATCTACGCCAACAAGGCCGCCATGGACGTGATGTTCCTGGAGGAGCTGGCGGACCTGAAGGACAAGTACCCGCAGCGGCTGGCCATCCACCACGTGCTGTCCCGGGAGCAGCGGATCGCGCCTCTGCTCAGCGGCAGGATCGACGCCGAGAAGCTGCAGCAGCTGCTGGGCACCGCCATCCACGCGGACGATGTGGACGAGTGGTTCCTGTGCGGGCCGTTCGAGCTGGTGCAGCTGTGCCGGGACACCCTGGCCGAGCGCGGCGTGCAGCCGGAGCACATCCGCTTTGAGCTGTTCACGTCGGGCAAGCCGGATCGGCCGGAGGGCCACGCCGGCCGGCCGATCCTGGTGGACGAGTCCAAGGAGACGTACAAGATCACGTTCAAGCTGGACGGCCTCCAGGGTGAGGTGGCCAGCCCCACGCATGCCCGGGAGTCCATCCTCAACGCGGCCCTGCGCGTCCGCCCGGATGTACCGTTCGCGTGTGCCGGGGGAGTGTGCGGCACGTGCCGGGCCAAGGTGGTCACCGGCAGCGTGGCCATGGACGAAAACTATGCGCTGGAGCAGGATGAACTGGACAGGGGCTACGTGCTCACCTGCCAGAGCCACCCCACCACCCCGGAAGTCACCGTCGACTTCGACGTCTAG	MPVVRQTAAESAQATGRRRPSFHTLAVKEVRRLTEDAIEVAFHVPRELAGQFDYLPGQYVALRTTLPDENGEPKEIRRSYSICAEPRTFEDGSSEIRVAVKKDLGGLFSTWANAELKAGDTLDVMSPMGAFVSKHGRDGNLVDQNVMNSMNHPEDLAGEPGSFVAIAAGSGITPVIAIARTLLAANPETRFDLIYANKAAMDVMFLEELADLKDKYPQRLAIHHVLSREQRIAPLLSGRIDAEKLQQLLGTAIHADDVDEWFLCGPFELVQLCRDTLAERGVQPEHIRFELFTSGKPDRPEGHAGRPILVDESKETYKITFKLDGLQGEVASPTHARESILNAALRVRPDVPFACAGGVCGTCRAKVVTGSVAMDENYALEQDELDRGYVLTCQSHPTTPEVTVDFDV	PGPT0006065_22	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006065-paaE-K02613	NA	NA
D1-29_03685	651	paaD	COG2151	Putative 1,2-phenylacetyl-CoA epoxidase, subunit D	GTGACAACCATGTACATCTCCGATTTTGAGACCAGGACCAGGACGCCGCGGCCGAAGACGCCGCGTCAGACGGCGTGGGAGATCGCCGCCACTGTGGTCGACCCCGAAATCCCGGTGCTCACCATCGAGGACCTGGGCATCCTGCGCCGGGTGGAGATCGTGGACCAGCACGACGGCGGCACCACCCACCCAACTGACTCGCAGTTAACGCTGCGAAAAGGCGAAATGACGACGTTAACTGCGAGTCAGTTGGGCAAGCCCGTCGCGCAACCCGCCGTCAGGGTCACCATCACGCCCACCTACTCGGGCTGCCCGGCGATGGATGCCATCCGCGACGACGTCAAGGCAGCCTTCGCCAAAGAGGGCTACAGCAACGTCCAGGTGGACCTGGTGCTCGCCCCGGCCTGGACCACGGACTGGATGACCGAGGCAGGAAAACAGAAGCTGCAGGAGTACGGCATCGCGCCCCCAACAGGGCGAAGCGATGCAGCACGCCACGCAGGCCCCATCCGCCTGACCCTGGCCGTCAAGTGCCCCCAGTGCAGCAGCCTGAACACCAGGGAACTCACCCGCTTCGGTTCCACCTCCTGCAAGGCGCTGTACGTGTGCCAGGACTGCAAGGAACCGTTCGACTACTTCAAAGTCCTGTAA	MTTMYISDFETRTRTPRPKTPRQTAWEIAATVVDPEIPVLTIEDLGILRRVEIVDQHDGGTTHPTDSQLTLRKGEMTTLTASQLGKPVAQPAVRVTITPTYSGCPAMDAIRDDVKAAFAKEGYSNVQVDLVLAPAWTTDWMTEAGKQKLQEYGIAPPTGRSDAARHAGPIRLTLAVKCPQCSSLNTRELTRFGSTSCKALYVCQDCKEPFDYFKVL	PGPT0006060_291	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006060-paaD-K02612	NA	NA
D1-29_03686	936			hypothetical protein	GTGAGCAGCCCCGAAACCAAGGCAGAAACAGCAAGCGGCCACGGCGACATCTCCACCGGCGTGGCGGCACCATCAGGCAGCGGGGACAGCAACGCCTCCGCCACCCGCATCACGCCGGGAAACGCACTGCGCCCGGAGGACATCGCGCTGGAGGTCCGCACCGGCCTGGCCCGTCCGGACCAGGACGTTGCCGAGTACGCGCTGCGCCTGGGCGACGACGCCCTGATCCTGGCCCAGCGGCTGGGCCACTGGATCTCCCGGGGGCCTGAGCTGGAGGAGGACGTGGCCCTGGGCAACATCGCCCTTGACCAGCTGGGCCACGCCCGCTCCTTCCTCAGCTATGCCGGCGGAGCGCTGGGAGAAAACGGCGCGGCCAAGACCGAGGACGATCTGGCCTACTTCCGCCGCGAGCACGAGTTCCGCTCGGCCCACCTCTTTGAACAGCCCAACGGGGACTTCGCGGCCACCATCGCGCGGCAGTTCATCGTGAGCTACTACCAGTTCGAGTTGTACCGCCGCCTCACCGAATCCACCGATGAAACCCTGGCCGCCATCGCAGCCAAGGCCGTCAAGGAAGTGGACTACCACCGGGACCACAGCGCTCAGTGGATCCTCCGCCTGGCCGGAGGCACGGACGAGTCCCGCCAAAGGATGATTCACGGCCTCAAGCTGATGTGGCCCTACGTCGCCGAGCTCTTCGAAGATGACGACCTGGCCACCCGCCTGGCTGAAACCGGTGCCGCCGTCGCGCCTTCCAGCCTCAGGGAAGATTTTGACCGGCTGACCGGTGACGTCTTCAAAGAAGCGGAGCTGGACGTGCCGGACGTTCCCGCTGCCCCCGGCGGCGGCCGCCGCGGCCGGCACTCAGAGTACCTGGGCTACATCCTCGCCGAGATGCAGGTCCTGGCCCGGGAATACCCCGGAGCGACGTGGTGA	MSSPETKAETASGHGDISTGVAAPSGSGDSNASATRITPGNALRPEDIALEVRTGLARPDQDVAEYALRLGDDALILAQRLGHWISRGPELEEDVALGNIALDQLGHARSFLSYAGGALGENGAAKTEDDLAYFRREHEFRSAHLFEQPNGDFAATIARQFIVSYYQFELYRRLTESTDETLAAIAAKAVKEVDYHRDHSAQWILRLAGGTDESRQRMIHGLKLMWPYVAELFEDDDLATRLAETGAAVAPSSLREDFDRLTGDVFKEAELDVPDVPAAPGGGRRGRHSEYLGYILAEMQVLAREYPGATW	PGPT0006055_22	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006055-paaC-K02611	NA	NA
D1-29_03687	402			hypothetical protein	ATGAGCCCGCACGGCAACCCTGAAGAGCCAGCCAACTCGGCCGCCGAAATCAAGCGCGAGGCACCGAAGGCCAGCCCGGAGGTTTCGGAAGGGACAGCCGCGGAAGGCACAGCTGTGGACCGCAACGCCTGGGGCCTCTGGGAGGTTTTTGTCCGGTCCAGCCGCGGCCTCAGCCATGTGCACGCTGGATCGTTGCACGCACCGGATGCCGCCATGGCCCTGCGCAACGCCCGTGACCTGTACACCCGCCGCAACGAAGGCGTGTCCATCTGGGTGGTCCCGGCCGATGCCATCGCCGCGAGTGATCCTGACGCGAAGGGCTCCTTCTTCGAGTCCCCGCAGGGCAAGGATTACCGGCATGCGACGTACTACACCAAGAGCGAAGGCGTGAAGCACCTGTGA	MSPHGNPEEPANSAAEIKREAPKASPEVSEGTAAEGTAVDRNAWGLWEVFVRSSRGLSHVHAGSLHAPDAAMALRNARDLYTRRNEGVSIWVVPADAIAASDPDAKGSFFESPQGKDYRHATYYTKSEGVKHL	PGPT0006050_68	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006050-paaB-K02610	NA	NA
D1-29_03688	1038	paaA	COG3396	1,2-phenylacetyl-CoA epoxidase, subunit A	ATGGCAGCGCATGATCTGCAGTCAGTGCCCGCTGGGCTATCCCCGGACGAACAGCAGGCCGCCGAACAGCGGGAGGCTGACGGCCGGGCCAACTTTGACCGCGTCATGGCGGAGGATTCGCGGATCGAGCCCAAGGACTGGATGCCGGACGCGTACCGCAAAACCCTCCTGCGGCAGATCTCCCAGCACGCGCACTCGGAGATCATTGGCATGCAGCCCGAAGCGAACTGGATCTCAAGGGCCCCCAGCCTGAAGCGCAAAGCTATCCTGATGGCCAAGGTCCAGGACGAGGCCGGCCACGGCCTGTACCTGTACTCGGCTGCCGAAACCCTCGGTCAAACAAGGGACAAGATGATGGCTGACCTCATCGCCGGCAAGGCCCGCTACTCGAGCATCTTCAACTACCCGGCGCTGACCTGGGCGGACATGGGTGCCATCGGCTGGCTGGTGGACGGCGCCGCCATCTGCAACCAAGTGCCGCTCTGCCGGGCCAGTTACGGTCCCTACGGCCGTGCGATGGTGCGGATCTGCAAGGAGGAGTCCTTCCACCAGCGGCAGGGCTTCGAGATCCTGCTGGAACTCGCCAACGGCACCCCCGAGCAGAAGCAGATGGCCCAGGACGCCGTGAACCGCTGGTACGCGCCGGCGCTGATGATGTTCGGCCCGCCGGACGATGATTCGCCCAACTCGCGCCAGTCCATGGCCTGGAACATCAAGCGCTTCAGCAACGACGAACTCCGCAGCCGGTTCGTGGGAATGATGGTGGAGCAGGTCCGCGTGCTGGGCCTCACCCTCCCGGACAGTGAGGTCCGTTTCAACGAAGACACCAAAAAGTGGGAACACGGCCCGCTGGACTGGAACGAGTTCAAGGAAGTCCTCTCCGGCCGTGGGCCCTGCAACGCCCAGCGGCTGGAACGCCGGCGGGAAGCGCACGACGACGGCGCCTGGGTCCGTGAGGCGGCCGCCGCTTATGCGGCGAAACAGCATCAAAGAGAGCTAGTAAAACAGTCCGCAAAGCAGAAGGAATTCGCAGCATGA	MAAHDLQSVPAGLSPDEQQAAEQREADGRANFDRVMAEDSRIEPKDWMPDAYRKTLLRQISQHAHSEIIGMQPEANWISRAPSLKRKAILMAKVQDEAGHGLYLYSAAETLGQTRDKMMADLIAGKARYSSIFNYPALTWADMGAIGWLVDGAAICNQVPLCRASYGPYGRAMVRICKEESFHQRQGFEILLELANGTPEQKQMAQDAVNRWYAPALMMFGPPDDDSPNSRQSMAWNIKRFSNDELRSRFVGMMVEQVRVLGLTLPDSEVRFNEDTKKWEHGPLDWNEFKEVLSGRGPCNAQRLERRREAHDDGAWVREAAAAYAAKQHQRELVKQSAKQKEFAA	PGPT0006045_456	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006045-paaA-K02609	NA	NA
D1-29_03689	1578			hypothetical protein	GTGGCGAAAGCCTACAAGGACATCAACGCTGCTTTTGATGTCCTTACCGCCGAATTAAACGAGACCCTCCCCTGCGCGGCGGCTGATGGCGATCCATTGGCCGTCCTTGCGGATACTTGCCTGGACATTCTCACCGGAACAGCAGGTACAGAGGCTCGGATGGCTGCCTTGAAGGCCCAGGCTGCCGCGAAGTTCGCGGATAGGGCGAGGTCGGCCGCACCTCCAGATGAGCCCATCATGGCGCAGGAGGCGGCTGTGGCTGCGGAGATCGCCTGCGCGCTGACCATCGGCCCGCGCGCGGCGGGTTCCCTGCTGGCCCAGGCCCACGAACTCACCACCACCTTGCCGCTGACCCTGTCCGCCCTGCAGTCCGGCACCATCTCCTGGCAGCATGCTCGGGTCATGGTCGACGAAACAGCCACCCTTGATCCCGCAGGCGCTGCGGCATTGGAGGCGCACTTCCTGGGCCGTGAGGCACCGATTCCGGCCAGCGCCTGTGCCGCCGGGGAAATGCCGGCGTCCCGGTTCCGCCACAAGGCCCGCATCTGGCGCGAACGCCATCAGCCGGAAAGTATCGAGAAGCGGCATGCCAAAGGTGTCCTGGACCGGAGGGTCGAATACACACCGGACAAAGACGGCATGGCCTGGCTTTCCGCCTACCTGCCCGCGGTGACAGCAGTCGCGATCTGGAACCGGACCACCGCCGTCGCCCGCGGCCTCCAGGGCATTGACGAAACCCGGAACCTGCCCCAACTCCGGGCTGACGCCTTCGCCACCGCACTCCTCGGCGGAAATGGCGGCAGTGTCGGTGACGGCGGGGAAGCCGGGAACTCAGGAAGAGTCCCCACCCCACGGGCCGAGGTCCTGGTGACGGTCCCAGTATTTGCCCTGCTCGGCGCCACGGATGAACCGGCCGTTCTAGACGGGTACGGGCCCATCCCCGCGTCGATGGCCAGGGACGTGGTCGCCAACGGGGCTGACTCGTTCCACCGGGTCCTGGTTGACCCCCGTGACGGCGCGCCGCTGGAAATCGGACGGAAGAGCTACAGGCTTACCAAAGCGATGCGGACGTGGCTGCGGATGCGAGACGGCAGATGCCCCTTCCCCGGTTGCAGCAACCACTCTCTGGACAATGAGGCAGACCACCTCCTCGCCTGGCAGAAGGGCGGAACCACCGGCGTATCGAATTTAGGACAGCCGTGTCCCCGGCATCACCGCCTCAGACATACCAGCGCCTGGACGCCAAAACCGGCCCGCAAGAATGAACCACCTGGCTGGATATCGCCTTCCGGCCGCCACTACAAGAGCGAACACCAGGACTGGGAACCACCGCACTGGCCCCAGGACCTGGAATGGCAGCTGAATCCGGGCCTGAATCCGGGCCTGAATCCGAGCCCGAAACTTCCGCTGCAGCCAGGGCTGAAACTGCACCTGCAACCGGAACTGAAACCAGGCCTGACGTCCAACGGGCATCTTCCCCCAGCGCCGCGTGACTCTTCCTGCATCTCGCCGGATTTCATCCACGTCGGGCTGTCCATGGGAGAGGGCAGCATAGAGCGGTTCCTGCATGGCGCCTGA	MAKAYKDINAAFDVLTAELNETLPCAAADGDPLAVLADTCLDILTGTAGTEARMAALKAQAAAKFADRARSAAPPDEPIMAQEAAVAAEIACALTIGPRAAGSLLAQAHELTTTLPLTLSALQSGTISWQHARVMVDETATLDPAGAAALEAHFLGREAPIPASACAAGEMPASRFRHKARIWRERHQPESIEKRHAKGVLDRRVEYTPDKDGMAWLSAYLPAVTAVAIWNRTTAVARGLQGIDETRNLPQLRADAFATALLGGNGGSVGDGGEAGNSGRVPTPRAEVLVTVPVFALLGATDEPAVLDGYGPIPASMARDVVANGADSFHRVLVDPRDGAPLEIGRKSYRLTKAMRTWLRMRDGRCPFPGCSNHSLDNEADHLLAWQKGGTTGVSNLGQPCPRHHRLRHTSAWTPKPARKNEPPGWISPSGRHYKSEHQDWEPPHWPQDLEWQLNPGLNPGLNPSPKLPLQPGLKLHLQPELKPGLTSNGHLPPAPRDSSCISPDFIHVGLSMGEGSIERFLHGA				NA	NA	NA	NA	NA
D1-29_03690	996			hypothetical protein	ATGGGCAGCGTGAAGATTGGGACCGCGGCCGCGTGGATGGAGAGGCACCAGATCGGGTTGTATCTCGCCGCGATCATCGGCGGCGGTGCAGCGGGATGGCTGGCGCCCCAATCCGCCGGAGCCCTGGAGCTAGCGATCAATCCAGTCCTTGGCGTGCTGCTCTACGCCACGTTCCTGGGGATTCCCTTTGCCGCTATCGGCACTGCCATCCGGGATCTGCGGTTCATGGCCACGGTGCTGATACTCAACTTCGCCGTGGTGCCGGTGGTGGTTTTTGCGCTCACCCGGTTCATCGCCGGCGATCAGGCATTGCTGATTGGCGTTCTCCTGGTCCTCCTGACACCTTGCATCGACTACGTCATCGTGTTCACCGGCCTGGCCGGCGGGGCAAGTGACCGCCTGCTGGCTGCAGCACCGGTGCTGATGCTGGTGCAGATGATCCTGCTGCCTCTGTACCTGCTGGTTTTCGTAGGCCCTGGAATCGTGTCAACGATCCACCCCGCACCTTTCGTTCAGGCGCTGGTGGGGTTCATCCTGGTTCCTTTGGCCCTGGCCGCGCTGACCCAGTCATTGGCTCGCCGGGCGAAAGCGGGACGGGTCATCATGGCGCTCATGCACACCCTGATGGTTCCGCTGATGATGGCAACCCTGGCAGTTGTTGTGGGTTCGCAGATTGTGGGAGTCCGGCAGGAGCTGGGCGCGCTCCTGGCAGTGGTTCCGCTGTATGCCGCGTTCCTGCTGGTGATGGTGCCCTTGGGAATGCTCGCGGCCAGGCAGGCACGCCTGGACATTCCCGCCACCCGCGCCGTGGTGTTCAGCGGGGCCACCCGCAATTCCCTGGTGATCCTTCCGCTTGCACTGGCCTTGCCCGAGCCCCTGGCCCTGGCCGCACTGGTGGTGGTCACCCAGACTCTCGTGGAACTTATCGGCATGCTCCTCTACGTCCGGTTCGTGCCTGTCCTCGTCCCCGCGGGTCAGCGCCAACAGCTCACGTGA	MGSVKIGTAAAWMERHQIGLYLAAIIGGGAAGWLAPQSAGALELAINPVLGVLLYATFLGIPFAAIGTAIRDLRFMATVLILNFAVVPVVVFALTRFIAGDQALLIGVLLVLLTPCIDYVIVFTGLAGGASDRLLAAAPVLMLVQMILLPLYLLVFVGPGIVSTIHPAPFVQALVGFILVPLALAALTQSLARRAKAGRVIMALMHTLMVPLMMATLAVVVGSQIVGVRQELGALLAVVPLYAAFLLVMVPLGMLAARQARLDIPATRAVVFSGATRNSLVILPLALALPEPLALAALVVVTQTLVELIGMLLYVRFVPVLVPAGQRQQLT	PGPT0004705_3123	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325	NA	NA
D1-29_03691	153			hypothetical protein	ATGGAGTCGCCAGTGCCCGGACAAAGGGCGATGGACAGGCCGGGGATGCCGGGGCCAGTTCGGACGTGGACGACTTTCTATCAGGAGCACCGCACCGACGGAAGCCACTCCAACTTCTTCCGGCTGGAGAATCCGGAGCGCGAAGACGCCTAG	MESPVPGQRAMDRPGMPGPVRTWTTFYQEHRTDGSHSNFFRLENPEREDA				NA	NA	NA	NA	NA
D1-29_03692	153			hypothetical protein	ATGGCTCTCCGTTTCCCCCGCGCCTCCGCGTGGCAGTACCTTCTGGACCCGCCCCTTGCCGCCCTGCTCCCTGATGGTGGGTGCATTGCTTCAAACTTGGTTTTCCCGCCGGCCTACTTGATTACGGGACCCGAAGGCGTCAGTGGGAAGTGA	MALRFPRASAWQYLLDPPLAALLPDGGCIASNLVFPPAYLITGPEGVSGK				NA	NA	NA	NA	NA
D1-29_03693	747			hypothetical protein	ATGGACGCTTTACCCATCCCTGCAGAGCTTGACGGAGTCGTTTCCCATCTCCAGGACCTGGTTCTGGAAACCTCTGATGCGGAGGAATTCTTCCAGGAATTCGCCGTTTTTTCTGCCTCACTCCTCTCACCGCCCGGGTCCGATATCTCCTGCAACGTCACTGTGGTGCGTCGGAAAAAGCCTGTCACGGTCGCGTGCAGCAGCCCCCGCGCCCGGGTGATGGATGAAATGCAATACGCCTACGGTGACGGGCCATGCTTGTCTGCGATGCGGACCGGAACCACTATGCATGTCCCTGATGTGGCCAGCCAGCTGCGCTGGCCCCCGTACATCCAAGCGGTCGCCGCCGAAGGAGTGCGCTCAATCCTTGGTGTTCCGCTGCCCTTGGAGGGAGAGTCCTCCGCGGCTTTGAACATCTACTCTTCACGGCCACATGCATTCACAGAAGAGGAGATCGCACGCGCAGAGCTGTTCGGTGAGCAGTCCGCGAAAACGCTGAGGCTCGAGTTGCGCCTAACGAGGCTGCGGGACGCGAAGGATAACTTGGAAGCGGCCATGAAGAGCCGTACCGCCATCGATGTTGCTACCGGCGTGATCATGGCGCAGAACCGGTGCAGCCAGGAGGCTGCGATGACAATCCTGGTGAAGGCTTCCAGCTCGCGGAACGTCAAATTGCGCGACGTTGCGGCAGGAGTCATCGAATCAGTTTCACCCAATACCGCGGTGCATACATACTTCGATGAATGA	MDALPIPAELDGVVSHLQDLVLETSDAEEFFQEFAVFSASLLSPPGSDISCNVTVVRRKKPVTVACSSPRARVMDEMQYAYGDGPCLSAMRTGTTMHVPDVASQLRWPPYIQAVAAEGVRSILGVPLPLEGESSAALNIYSSRPHAFTEEEIARAELFGEQSAKTLRLELRLTRLRDAKDNLEAAMKSRTAIDVATGVIMAQNRCSQEAAMTILVKASSSRNVKLRDVAAGVIESVSPNTAVHTYFDE				NA	NA	NA	NA	NA
D1-29_03694	744			hypothetical protein	ATGGCCCAGGAACCCAACCTCCTGCCCCAGGCAGTCGTCGCCGAGCACCTCCAGGACCTCGTGCTCCAGTGCGCCGATGTGGAGCAAATGCTCAACGAGCTGGCTGCATTCTCCGCCACCAGCCTTTCCACCCACAACGAAGTCTTTTGCGGTGTCACGTTGATGCGGAAGAAGAAGGCAAACACTGTGGCCGCCAGCGACGACAGGGTCCTTCCCTTGGACGAGCTACAGTACGGCTTCGGCGACGGGCCCTGCCTCACCGCTATCCGGGAGCTGGCCACAATGCACGTCCCGGAACTGCGGGAGGAACACCGCTGGCCCGCCTACACCACCGCCGCATGGAAACAGGGAATCGGTTCAATCCTCTCCGTCCCCCTCCCACTCGAAGGTCAAGCGAACGCGGCCCTGAACATCTACTCGACTCAGACGCACGCCTTCAGCGGCGAGGACATCGACAAGGCCGAAGCCTACGCCGAACAGGCCTCCAAAGCCCTGCGCCTGGCTGTCCGGATCGCCAGGCTCACCGACGCCCGGAAGAACCTGACGGCTGCGATGGAGTCCCGCACTGCGATCGACCTTGCCGTCGGCGCGATCATGGCGCAGAACCGTTGCAGCCAGGAAGCAGCCTTCCAGATCCTCAGAATCGCTTCGAGTACCCGAAATCTGAAACTCCGAGAGGTCGCCTCCTCTGTCATCAAATCGGTGTCCCAGAACCCGAACGTCCTCACCCATTTCGACCCGTAA	MAQEPNLLPQAVVAEHLQDLVLQCADVEQMLNELAAFSATSLSTHNEVFCGVTLMRKKKANTVAASDDRVLPLDELQYGFGDGPCLTAIRELATMHVPELREEHRWPAYTTAAWKQGIGSILSVPLPLEGQANAALNIYSTQTHAFSGEDIDKAEAYAEQASKALRLAVRIARLTDARKNLTAAMESRTAIDLAVGAIMAQNRCSQEAAFQILRIASSTRNLKLREVASSVIKSVSQNPNVLTHFDP				NA	NA	NA	NA	NA
D1-29_03695	201			hypothetical protein	ATGGAGGATGTGCAGCTGGCGGCGCAGACCCTTATGCGTGAACAAGAAATGGATCCCTGGGAGCTCTGGGTCGTGTTCTGGGGCCACGGCGGGAACCTCGATGCGCTTTCCTTCGAGGCATTCATCCAGGGCCTCATGCCCGGAGACAACCACGATTTGGAAACATTGCGCTGGACGTTGAAGGACCTCCGCATCCAGTAA	MEDVQLAAQTLMREQEMDPWELWVVFWGHGGNLDALSFEAFIQGLMPGDNHDLETLRWTLKDLRIQ				NA	NA	NA	NA	NA
D1-29_03696	219			hypothetical protein	ATGGAAGTACAAGCAGCACAATCTGTCCAAACCGAGTCAAGCGACATCAGGACTGGCGATCAGATCGAGGCGTGGCACAACGGCAAGCTTTTTCACCAGGGCCGGGTCACCGCCGTCGTACCTGTTTTGAATCTGTTCTGGATCCTTGACGCGAGGACCGGAACCCGCAGGCTCCTGGATCCGGAAGCGCTGGAAATCGTCCGCGTGGAGCCGGGCTGA	MEVQAAQSVQTESSDIRTGDQIEAWHNGKLFHQGRVTAVVPVLNLFWILDARTGTRRLLDPEALEIVRVEPG				NA	NA	NA	NA	NA
D1-29_03697	876			hypothetical protein	GTGAACCCGGATCAGACAGCTGCCGGTCCCGGCGGACCGGAGGCACCGTTCGACGGCGACCCCGGGTTTCCCGACGACCCCGCCGAGGGCGCCCGGCGGCTCCAGGAATTTGTGATGGACAGCCCCGACGTGGGTCTTTTCCTCACGGAACTGGCAACCATGGCCGCATCCGCCCTCACCACCCAGGACAATCCGGTGGTGTGTGGTGTTACGGTCATCCGGCAGCGGAAGCCCAAGGTGGCGGCCAGCAGTGATGCCCGGGCGCAGTCGCTTGATGAGACGCAGAACGGCTTTGGCGACGGCCCCTGCCTGACAGCCCTGCGGCAGGAAAGCAGCGTCCTGGTTCCCGAGCTCCTGGCTGAGACGCGCTGGCCCGAGTACACACGGACCGCCGTGCAGCAGGGAATCCGGTCCATCCTTGCCGTGCCGCTCGAGCTGGCCAGCGAGGCAGAAGGCGTGGTGAACCTCTACTCCGGCCAACCCGGCGGCTTCTCGGAGGAAGACGTGCGGACAGCCGCCAACTTCGTGGCCAACGCATCACGCTCGCTGCGCCTGGCCCTGCGGATGGCACGCCTGCGCGATGTCCGCGACGACCTCATGGCAGCAGTCCAGACCAGGACCGCGATCGACATGGCGGTGGGCGCCATCATGGCGCAGAACCACTGCAGCCAGGCGGAGGCCTTCCAGATCCTCAATAGGGCCTCCAACACCCGCAACATCAAACTGCGCGATGTTGCGTCCACTGTCATCTCGTCCATTGGCAGGAAGTCCGACGGCGGCTCCTCCAACGGCGGGTCACCTACGGGCGGTCCGGTCAACGGTAAGCCATCGAACGGCAGCCCGTCTAACGGCGGCCCCGGGGCGAAGACGCGCTGA	MNPDQTAAGPGGPEAPFDGDPGFPDDPAEGARRLQEFVMDSPDVGLFLTELATMAASALTTQDNPVVCGVTVIRQRKPKVAASSDARAQSLDETQNGFGDGPCLTALRQESSVLVPELLAETRWPEYTRTAVQQGIRSILAVPLELASEAEGVVNLYSGQPGGFSEEDVRTAANFVANASRSLRLALRMARLRDVRDDLMAAVQTRTAIDMAVGAIMAQNHCSQAEAFQILNRASNTRNIKLRDVASTVISSIGRKSDGGSSNGGSPTGGPVNGKPSNGSPSNGGPGAKTR				NA	NA	NA	NA	NA
D1-29_03698	1110		COG0053	putative cation efflux system protein	ATGAGTAAGCAGGCACCTTCCGCCGGCGGCGGCCATGATAACGCGGACGACGGCGATACTCACCACGCGCACGACGCCGACGCTCACAGTCACGACGGCGATAATCACCACGCGCAGGACAGCGGCGCTCACAGTCACGCTCACCACCCGCATGACCACGGCCATCAGCACTCCACCGGGCTGAAGGGCTGGCTGCGCGAGCTGTTCGTCCCGCATTCCCACGACTCAGCAGATTCCCTGGATGACGCCCTGGAGAGCAGTGCCATGGGGATCCGCGCTGTGAAGGTGTCGCTCCTGGGCCTCGGCGCCACGTCAGTCTTCCAGCTGGCCATTGTGCTTGTCAGCGGATCGGTGGCCCTGCTCGCCGACACCGTCCACAACTTCTCCGATGCGCTGACCGCCGTCCCGCTGTGGATCGCGTTCCTGCTCGGACGCAGGCCCGCCACGCGCACGTACCCGTATGGCTTCGGCAAGGCCGAGGATCTGGCGGGGCTGTTCATTGTGGCAATGATCGCCCTCTCGGCCGTCGTGGCCGGCGTCGAATCCATCAGGCGGTTCTTTGAGCCCCAGCCCGTCCAGAATCTTGGCTGGGTCCTGGCCGCCGGGCTGGTGGGCTTTGCAGGCAACGAGCTGGTGGCCATGTACCGGATCAGGGTTGGCCGGAGGATTGGCTCAGCGGCGTTGGTGGCCGATGGCGTCCATGCACGGACCGACGGTTTCACTTCGCTGGCCGTGGTGGCAGGGGTGATCGGCATCTGGCTGGGATTCCCCCTGGCTGACCCGATCGTTGGCCTGCTGATCTCCGCTGCGATAGCAGTGCTCCTGTGGGGGACGGTCCGGGACGTGGGGCGCCGGTTGATGGACGGCGTCGATCCCGCGCTCTCTGACAGCCTTGAACGCCTGGTCCATGACCTTGCACCTCAAGGCAGCTCCGCCAGGCTGCGCTGGAGCGGGCACCGGCTGCACGCTGAAATCACCGTTCCGGCAGATAATGCCGTGCTGCTGGAGGACTTCGCGGACTCCGCGTCCAGGCTGGAGAAGGCTGCCCGCAGCAGCCTGCCGAACCTGGGATCGGTCACGGTGGTGCCGGCGCTCAGGCCCGTTTCCTGA	MSKQAPSAGGGHDNADDGDTHHAHDADAHSHDGDNHHAQDSGAHSHAHHPHDHGHQHSTGLKGWLRELFVPHSHDSADSLDDALESSAMGIRAVKVSLLGLGATSVFQLAIVLVSGSVALLADTVHNFSDALTAVPLWIAFLLGRRPATRTYPYGFGKAEDLAGLFIVAMIALSAVVAGVESIRRFFEPQPVQNLGWVLAAGLVGFAGNELVAMYRIRVGRRIGSAALVADGVHARTDGFTSLAVVAGVIGIWLGFPLADPIVGLLISAAIAVLLWGTVRDVGRRLMDGVDPALSDSLERLVHDLAPQGSSARLRWSGHRLHAEITVPADNAVLLEDFADSASRLEKAARSSLPNLGSVTVVPALRPVS				NA	NA	NA	NA	NA
D1-29_03699	390	kmtR	COG0640	HTH-type transcriptional regulator KmtR	ATGAATGCAGATACGAAGGCATGCGGACTGACTCCGGACAGCCAATACGTCGAACTTGCGGTGGAAGTGTTCGCGATGCTGGCGGACGCCACCCGGGTCCGGCTGATTCTGGCACTCCGGCAAGGCGGCGAGTTGCCCGTCAACACGCTGGCTGAAAAGGCAGGCAAATCTGCCGCAGCCGTATCGCAGCATCTGGCCAAGATGCGCCTGGCCCGGATGGTTTCCACGCGCCAGGAAGGAACCAAGGTGTACTACCGGCTGCAGGACGGTCATGCCTGGCAGCTCGTCGCCGACGCCATCCACCAGGCCGAACACGCCCTGGGCACGGCGCCGCACCACGGCACGGCGCCTCATCACGGGACTGCCTTATCCAAAGGAGGCCGGGCATGA	MNADTKACGLTPDSQYVELAVEVFAMLADATRVRLILALRQGGELPVNTLAEKAGKSAAAVSQHLAKMRLARMVSTRQEGTKVYYRLQDGHAWQLVADAIHQAEHALGTAPHHGTAPHHGTALSKGGRA	PGPT0004305_26	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004305-czrA|yozA-K22043	NA	NA
D1-29_03700	1137			hypothetical protein	GTGACGCTAAGCCTCACGCAATACGCTGACCTCTACCGACAGCCCGGGCCGTGGTGCGTCGCCTACGTCAATGCCGGCACAGGAACCGTGGACACACTGGAAGCCGCCGACGTGACGCCGGGCAACGTCCGGACCGCGTTGGAGGGGGAAGGCGCGTCCAAGCAGGATCTTGATGCGATGGAGGAGGCGTTGCGCCCGGCCGAGGGCCAGCCTTCCCCCTTGGCAAGGTTCGTTCTTGTCCGGGACGGAAAGACTGAGATTAACGAGCTCCTGCCGGGCCCGCTGGCGCTGCCGCCAAGAGTCGCTGTTGAGCCGATTCCGGATCTGCTGCCCCTGGTAAAGCACCGGCCCGAGGAGTTCCCGTATGTGGTTGCCGAAGTGGGACGCGACGACGGCGAGATCCGCCTGCATTACGCCGGGCGTCCGGGGGCAGCCAGCACAACGGATGTGCAGGGATCCAGCGAAAATCTCAGCAAGGTCCCGGGAGGAGGTTGGTCGCAAGGCAAATACCAACACCGCACGGAGGAGATCTGGCGCCGGAATGCCAACGAGGTTGCCAACGAGATCGATCGGGTCATTCGCACCAGCGGTGCGCGTTTACTGGTGCTTGCCGGTGATATCAGGGCCCGCGGACTGGTGGAGGAGCAGCTCTCTGACGCCAGCCGTGCCCTGCTGACGGTTATCGAATCGCATACCCACACGGGCGGGGCGGACCGGGATGCCTTCAATGACCAGGTGGATGAGCGCGTCGCGCAGCAGTGGGCCCAGGAGCAGCAGGGAGTGATGGAACGCCTGGCGGTCCAGGAAGGGCAGCCCAATCCGGAGTCAGCCACCGGGATTGGAGCGGTGGTTCACGCCCTCCAGCAGGCTCAGGTGGAAACGCTGGTTCTGAATGACGCTGCGTTCGCCGAGCGGACTCTCCTGGCCCTGGACGCCGAGCCCTGGGTGGCCAATGCGGAAGAGGAAGCACTCGGAGCAGGCATCGTGGGCAAGGTGCCGGCGCCTGCAGCCCTCCTGCGCGCTGCTGCCCTCACAGATGCAAACGTCCTGTTGGTTCCAGGAGGCGTATTGCCGGAGGGCGCAGAGATCGCGGCACTGCTTAGATGGTCCACGGGTCCAACCGTCCCATCTGCGTAA	MTLSLTQYADLYRQPGPWCVAYVNAGTGTVDTLEAADVTPGNVRTALEGEGASKQDLDAMEEALRPAEGQPSPLARFVLVRDGKTEINELLPGPLALPPRVAVEPIPDLLPLVKHRPEEFPYVVAEVGRDDGEIRLHYAGRPGAASTTDVQGSSENLSKVPGGGWSQGKYQHRTEEIWRRNANEVANEIDRVIRTSGARLLVLAGDIRARGLVEEQLSDASRALLTVIESHTHTGGADRDAFNDQVDERVAQQWAQEQQGVMERLAVQEGQPNPESATGIGAVVHALQQAQVETLVLNDAAFAERTLLALDAEPWVANAEEEALGAGIVGKVPAPAALLRAAALTDANVLLVPGGVLPEGAEIAALLRWSTGPTVPSA				NA	NA	NA	NA	NA
D1-29_03701	243			hypothetical protein	ATGGCCGAACGCGGAAACACCACGCATGGACCGGGCCTGGACGACAAGATGAAGCAGGAAACCGACGGGATGGTCAAGGGAAACAAGCCAGCCCACGCCGAAGAATTTCGGGAGACCGAGCCGTTTCCGGACGACACCGATCCAGACGACGTCCGGGATGCCCTTGACCCAACGAAGCGCGTCCCGGCTGACGCCGAAGAATACATCGAGGACCAGGACGACGACGAGGAGGGACCACAGTGA	MAERGNTTHGPGLDDKMKQETDGMVKGNKPAHAEEFRETEPFPDDTDPDDVRDALDPTKRVPADAEEYIEDQDDDEEGPQ				NA	NA	NA	NA	NA
D1-29_03702	615			hypothetical protein	ATGAACAGCATCATCCGCCGGGCAGGCTCTGACATTACCGAACCGCTGCGCCGGTTCCTGGAGGGGGACATGGGTCCCTGGCTCCGGGTGGAGGAATACCGCGACGGCGGGGACATGGTTGTCAAAGCCGAAGTTCCCGGCATCGATCCAGAGAAGGACGTTGACATCACGCTTGTAGGCAGTGACCTGCGGATCGAAGTGCGGCACGAGGAGAAATCCGAGCACAGGGATAAGCGGGGATACCGCTCCGAGTTCCGCTACGGCACTTTCTCCCGCACAGTGGCCCTCCCCGGCCCGGTTAACGAGAGCGACATCCACGCTTCCTATACCGACGGCGTCCTTGAAGTCCGGGTTCCTGTACCGGACGAGTCCACCACTGCATCGCGGAAAATCCCCGTTTCGCGCGCAGGCGCAGCGACCTCGAACGCAGGTACCTCAAGCGCAGGGACCTCTAGCGGAATGGGTAGCGCAGGCGGCATGGGTGCCGCTTCCGGCGCAGGCACCAGCGGCACGGGCACCACGGGCACGGGCACCACTGGGATGGGAAATGCAACTGGCACGGGCACCACGTCTGGAATGGGCACCACGTCCGGCACCACCACAGACCCCATGTAG	MNSIIRRAGSDITEPLRRFLEGDMGPWLRVEEYRDGGDMVVKAEVPGIDPEKDVDITLVGSDLRIEVRHEEKSEHRDKRGYRSEFRYGTFSRTVALPGPVNESDIHASYTDGVLEVRVPVPDESTTASRKIPVSRAGAATSNAGTSSAGTSSGMGSAGGMGAASGAGTSGTGTTGTGTTGMGNATGTGTTSGMGTTSGTTTDPM				NA	NA	NA	NA	NA
D1-29_03703	300			hypothetical protein	ATGTCAGTCGACTACGATGCTCCGCGCTTGGCGCCCGAGGATGAGTCGAACGAGCCACTGGATGTGCTGAAGACCGAGAAGAGTGCCACTCGAGGCGCTGTACCGGACTTGGACGAGGCGGACCTGGCGGACAGCTTTGAGCTGCCCGGTGCTGATCTTTCCAACGAGGAACTCCTGGTCCAGGTCATCCCGGTCCAGTCCGACGAGTTCACCTGTATGTCGTGCTTCCTGGTCCACCACCGCAGCCAGCTGGCCCGCGAGAAGGACGGCAAGAAGTACTGCAAGGAGTGCGAGGGCTAG	MSVDYDAPRLAPEDESNEPLDVLKTEKSATRGAVPDLDEADLADSFELPGADLSNEELLVQVIPVQSDEFTCMSCFLVHHRSQLAREKDGKKYCKECEG				NA	NA	NA	NA	NA
D1-29_03704	747			hypothetical protein	GTGGCCGCTGAAACCTCAGAAGAATTTTTTCCTGACGTTGCTCCGCATCTTCAGGACCTGGTGCTGGACAGCCCCGACGTGGAGCAGTTCCTGCAGGACCTGGCCGTTTACTCCGGCGAGCGGCTCAGTGTTCCGGACCATGAAGTCTTCTGTGGGATCACCCTCATCAGAAGGAAGAAGGCCACCACGGTGGCCAGCAGTAATCCCTGCGCCCGGCTAATGGACGAGCTGCAGAACAAATATGGTGATGGGCCGTGCCTCACAGCCATGCGCGAGATGACCACCGTCCATGTTCCGGACCTCAGCCTTGAGACCCGGTGGCCGGGCTATGTCCGGACTGTGGCCGGCCAAGGAACTGAGTCGCTGCTGAGTGTTCCGCTTCCGCTGGAGGGCGAGACCCGGGGTGCCCTGAACCTCTACAGCCAGCGGACCCATGCTTTTACGGGCGAGAGCATCGCGGCCGTGGAAGCATTTTGTGAACAGGCGTCCAAGGGCCTGCGCCTCGCCCTGCGGATGGGCCAGTTGCAGGACACCAAGGAAAACATGACTGCAGCCATGAGGTCCCGCACTGTGATTGACCTGGCGACTGGCGCCATCATGGCCCAAAACAGATGCAGCCAGGATGCGGCATTCAAGGTGCTGATCCGTGCATCCAGCACCCGCAACATAAAACTGCACGACGTCGCTGCTGGCGTCATTGCCTCCATCAGCCAGGATCCAGAGGTTGTCACCTTCTTTGACGAATAG	MAAETSEEFFPDVAPHLQDLVLDSPDVEQFLQDLAVYSGERLSVPDHEVFCGITLIRRKKATTVASSNPCARLMDELQNKYGDGPCLTAMREMTTVHVPDLSLETRWPGYVRTVAGQGTESLLSVPLPLEGETRGALNLYSQRTHAFTGESIAAVEAFCEQASKGLRLALRMGQLQDTKENMTAAMRSRTVIDLATGAIMAQNRCSQDAAFKVLIRASSTRNIKLHDVAAGVIASISQDPEVVTFFDE				NA	NA	NA	NA	NA
D1-29_03705	384			hypothetical protein	ATGGCACCTGCGACTCCTGCCTTGACGCAAGGGAGCTTCAACCTGATTACAGGGCTCTGGCCCCTGATTCACATGCGCAGCTTTGAAGCCGTGAGCGGGCCCAAGACTGACAAGTGGCTGGTACGCACTGTTTCCGGTTTGCTCGTCACCATTGGAATTGTCCAGTTGGGAAGTTCCAACAGTCCCGACGGCGTCAAGCAGGCCAGGCGCCTGGGCATCGGCACAGCTGCCACGCTTGCCGCCATCGACCTTATCTATGGGGGAACAGGCAGAATCAGCAGGATCTACCTGCTGGATGCCGCCGTCGAACTGATGTGGATCCGCCGCTGGGAGCGGCACCGGCAACTGCTCGGGCATCGAGTCGGGCATCGACCAAAGCAGTAA	MAPATPALTQGSFNLITGLWPLIHMRSFEAVSGPKTDKWLVRTVSGLLVTIGIVQLGSSNSPDGVKQARRLGIGTAATLAAIDLIYGGTGRISRIYLLDAAVELMWIRRWERHRQLLGHRVGHRPKQ				NA	NA	NA	NA	NA
D1-29_03706	237			hypothetical protein	ATGTCCGGATCTTTCGAACTTTTTTGTGACCACCGCACGCTGTCCTTCGGGTTCAGGCTCAAAGCTGCCGACGGTTCAGTGGTGGCCGTGTCAGCGCCGTTTCCGGACAAGGCATCCGCCGTGCAGGGGATCCGTGACGTACGGGAGTGCGCCGGCATGGGTTTGATCACGGATCTTTGTGGCCCTGCCGGGGCAACTTCGGCGGAGCCGGGGACTCGCCGGGCGGGCCCTGCCTGA	MSGSFELFCDHRTLSFGFRLKAADGSVVAVSAPFPDKASAVQGIRDVRECAGMGLITDLCGPAGATSAEPGTRRAGPA				NA	NA	NA	NA	NA
D1-29_03707	639	rhtB_1	COG1280	Homoserine/homoserine lactone efflux protein	ATGCTTCCCGCAGCCAATGCCGGTGCTTTCGCACTTGCTGCTTTTGCCCTGATTGTGATCCCTGGGCCCAGCGTGCTGTTTGTCATTGGCCGCTCACTTTCGCTGGGTCGAAAGGGCGGGTTTCTGAGCGTGCTGGGCAATGCCTTGGGAATGATTCCGGCCATCGCGGCCGTGTCCCTGGGGGTGGGGGCAGTGGTGGCAGAATCCCTGCTGGTCTTCACAGTGATTAAGTTCGCTGGGGCTGCGTATCTGATCTATCTTGGCGTGCAGGCGATCCGGCACCGCCACGGCCACAGGCCGGACGTCCCCGCCGCGGCAGCTCCGCCGTCGTCCTTCCGGCTGCTCCGCGAGGGATTCTTCGTCGGAATCTCCAACCCGAAGACGATTGTGTTCTTCGTGGCTGTGTTGCCGCAGTTCGTCAGTTACGGGGCCGGGGCCATTCCGCTCCAGCTTGCCCTGCTCGGCCTGATCTTCTTCGCCATCGCCCTGGCCAGCGACAGTATCTGGGCGCTCACTGCCGGCACGGCCAGGTCCTGGTTCGCGCGCAACCCGAAACGGCTCTCACACATGGGTGCGGCGGGCGGCGCAGTCATGATCGGGCTCGGTGGCACGCTGGCTCTGGCCGGCAACAAGCACTGA	MLPAANAGAFALAAFALIVIPGPSVLFVIGRSLSLGRKGGFLSVLGNALGMIPAIAAVSLGVGAVVAESLLVFTVIKFAGAAYLIYLGVQAIRHRHGHRPDVPAAAAPPSSFRLLREGFFVGISNPKTIVFFVAVLPQFVSYGAGAIPLQLALLGLIFFAIALASDSIWALTAGTARSWFARNPKRLSHMGAAGGAVMIGLGGTLALAGNKH				NA	NA	NA	NA	NA
D1-29_03708	381			hypothetical protein	GTGAAAAGGTTTATCGGCGGCTTTTTATTGTTGCTGGTTCTTGCCGGCTGCGCTCCAGACGGGACCGGCGCCTCCACCGCGGCCGAGGAGTTCCACCAGGCCCTCGCGTCAGGTGATGAAGAGCAGGCTTGCTCCATGCTGAGCCAGTCCGCCAAGGACAAAGCAGAATCAGACGGCGGCTGCGAAAACCAGTTGGAGGAACTGCAACTGGCCGACGCCGGGACGCCTGGGCAAACCGAAGTTTACGGCCGAAACGCAATGGTCGAGTTCGAGAACGACACCGTTTTCCTGGCCGCGGCGAGCTCGGGCTGGCAAATTACAGGTGCCGGGTGCACGTCCCAGGGCGAAAACGGGTACATGTGCGAAGTAGGAGGGAAGTAG	MKRFIGGFLLLLVLAGCAPDGTGASTAAEEFHQALASGDEEQACSMLSQSAKDKAESDGGCENQLEELQLADAGTPGQTEVYGRNAMVEFENDTVFLAAASSGWQITGAGCTSQGENGYMCEVGGK				NA	NA	NA	NA	NA
D1-29_03709	675			hypothetical protein	ATGAAAACCGCACTGAAAAACAACGGCCTCAGCCTGTTCTTCGGACTCATCTTCCTCCTGGCCGTAACAGGACAGGGCATCTCCGGCCACGCAATGTACAACGAGGAACAGCTATCGGCCGGGCAGGAAGAAATAACCCTGGCGCAGTACCTGGCATCGTCGGACTTCGCCGTTAACGTCTCGGAGAACTGGCAGTCTGAATACCTTCAGTTCCTGCTCTACATCCTGGCCACGATCTGGCTGGTCCAGAAAGGCTCCCCCGAGTCCAAGGAGCTGGACCAGTCCGGGCTGGAGTCCGACAAGGATCAACTGGTGGGCGAATATGCCAACGAAAAATCACCGGCCTGGGCTAAGGTTGGCGGCTGGCGCCGTACGCTCTTTGCCAACTCGCTGGGACTGACGATGGGACTGATCTTCCTCCTCTCGTGGCTGGTGCAGTCCATCTCGGGGAACAGCACCTATAACGAGGAACAGCTGCGCAACTTCCAGGACCCAGCACCGTGGGCCGAGTACCTCGCCTCACCCGAATTCTGGAACAGGACGCTGCAGAACTGGCAGTCGGAGTTCCTGGCGGTGGGCTCCATGGTGGTGCTGGCGATCTATCTCCGCCAGCACAGTTCGCCGGAATCCAAGCCGGTGGGTGCCGCCCATGACGACACCGCCTCAACGGGGTAA	MKTALKNNGLSLFFGLIFLLAVTGQGISGHAMYNEEQLSAGQEEITLAQYLASSDFAVNVSENWQSEYLQFLLYILATIWLVQKGSPESKELDQSGLESDKDQLVGEYANEKSPAWAKVGGWRRTLFANSLGLTMGLIFLLSWLVQSISGNSTYNEEQLRNFQDPAPWAEYLASPEFWNRTLQNWQSEFLAVGSMVVLAIYLRQHSSPESKPVGAAHDDTASTG				NA	NA	NA	NA	NA
D1-29_03710	285			hypothetical protein	ATGACCACGCACGTAGCCGACTGCAGCGTAACCAATTGTTCCTTCAACGATCATTCCGAATGTAATGCCGCCGCCATTACCGTTGGCGGCTCTGAAGACCACGCCGCATGCGCCACGTTCATCGACATCGGTACCCACGGGGGCCTGCCCAAGGTCCTGGCCGGCGTCGGAGCCTGCCAGCGCACGGAATGCGCCTACAACGACCACCTGATGTGCAACGCGTCCGAGGTGCATGTGGGGCCAGGTGCGGACAACGCCGACTGCCTCACCTACACCCACGCCTAG	MTTHVADCSVTNCSFNDHSECNAAAITVGGSEDHAACATFIDIGTHGGLPKVLAGVGACQRTECAYNDHLMCNASEVHVGPGADNADCLTYTHA				NA	NA	NA	NA	NA
D1-29_03711	960		COG2375	putative protein	ATGGGCTCAACAACCTATCCTCTCCGCGCGTTTGATGCGGCGGTCCTGCGCGTCCAGCAACTGGGCCCGCATTTCCGCCGCATCACCTTCACCGGACCGGAGCTGGCGACCTTCGGCGTCCCCGGTCCCACCGTGGACCTGCGGATCAAGCTCCTCCTGCCAGCGCCGGGGCATCCTCTTGCCCGGCTGGGTGAGCCTGGCGGATACCTGCAGGAGGGCTGGTACCAGGAGTGGCTCCGCCGCGAACAGCCAGGCCGTGGTTTCATCCGCAGCTACACCATCCGGGCAATCCGGAACACGCCGGGCAGGCGGGAGCTGGACGTCGACTTCGTCGTCCACCCCGTTGCCCCCGGCCACACCGCTCCCGCCTCCGAGTGGGCGGGAGCTGCCGCGCCAGGTGCCCGGGTGGTCATTATTGGCCCCGACCTCAACGCCGTCACCGAGGCCACGCCCCGGACTGAAACCGGGATCAGATGGGATCCGCAGGGTGCCCGGCACGTGCTGCTGGCCGGTGATGAAACGGCCGTCCCGGCCATCAGCTCCATCCTCAAAAGCCTCCCGCCCGACATCACCGGCGAGGCATTCCTGGAGGTTCCGGACACGTACGACGTCGGTACGGTCACCTCCGCTTCGTCAGTCCGGGTCACGTGGCTGGTCCGGAACGCTTCGGGTGCTGCCCGCGGGGACCTGCTAAATGGGGCGGTGCGGGCTCTCACCGAAACCACGTTGCCACCAGGCCCGGAGACATATGCGTGGGTGGCAGCCGAAGCGGCAAGCGTGAAAAACCTGCGGCGGCTGCTGGTTACCCAGGCGGGCCTGGACCCGAAGCGGTCCGAGTTCAGGGCCTATTGGAGCCTGGGCAAAGCCGGCTCGGGGGCCAACGGGACCCCGCTGGTTCCGCAGCCTGGTGCGCAGGCGGTTCCGCCGTCGGAATTAAGTCACACGATTGGGTCTTTTTGA	MGSTTYPLRAFDAAVLRVQQLGPHFRRITFTGPELATFGVPGPTVDLRIKLLLPAPGHPLARLGEPGGYLQEGWYQEWLRREQPGRGFIRSYTIRAIRNTPGRRELDVDFVVHPVAPGHTAPASEWAGAAAPGARVVIIGPDLNAVTEATPRTETGIRWDPQGARHVLLAGDETAVPAISSILKSLPPDITGEAFLEVPDTYDVGTVTSASSVRVTWLVRNASGAARGDLLNGAVRALTETTLPPGPETYAWVAAEAASVKNLRRLLVTQAGLDPKRSEFRAYWSLGKAGSGANGTPLVPQPGAQAVPPSELSHTIGSF	PGPT0003760_110	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
D1-29_03712	1008	yfiY	COG0614	putative siderophore-binding lipoprotein YfiY	GTGAAAACACGCATCCTCAAGCAGCTCAGTGCTGTCACCGCCGGCATGGCCCTTCTGGCCACCGCGGCCTGCGGCGCCCCGGCCGCCTCCACAGAAACCACTGAAACAACAGCCGCAGAGTCAGCAGGCTTCCCGCTGACCATGGAGCACACCATGGGCTCCACCACCATTGACACCGTGCCCAAGCGCGTCGTTGCGCTGGATCCGAGCTACATCGATGCCGCACTCCTGCTGGGGGCCGACCTGGTGGGCTACGTCCAGTACCGCCAGGACCCTAATGCCCCGTTCGCCCCGTACCTCGGGGACGTCAAGGATGCCACCAAGGACTCCGTCAACGTGGGTACCCTGGCCGAGCCCAACTTGGAAAAGATCCTTGAGCTGGAGCCGGACCTAATCGTTTCGGCGAAGGTCCGCCACGAGGCGCTCTACCCGCAGCTGTCCAAGATTGCCCCCACCATCTTCTCGGTCAGCACCGGCCCCACCTGGAAAGAGAACGTGGTCTTCCTGGGCGAGGCCTTGGGCAAGAAGGCCAAGGCCGAGGAACTGGTCAAGGCCTACGAGGAGCGCGCCGAGAAGGTGGGAGCCGAAATCCTCAAGAAGAAGCCGGACGCCACGTACTCCCTGGTTCGCTTCACCGGCGGGGATACAGCACGCCTCTACTCCTCAAACTCCTTCATCGGCGAGATCATGACCGACATGAAGATCCCGCGGCCCCAGGACGCCCCGGACAGCGAGAAGGAAATCTTCGTGCCGCTCTCGGCCGAGCAGATCCTCCAGGGCGACGCCGGCCTGGTGATGGTCAGCGCATTCACGCCTCCCGGCGCCGAAGGCGACAAAACCCGGGCGCAGCAGGAAAAGTTCCAGTCCAACCCGCTTTGGCAGCGCCTCACCGGTGAAGTCAAAAACGTCGACGACGGAACCTTCCTTGCGTCCGTCAGCATCCAGGGTGCCCACTCGGTCATCACGGACCTGGCGAAGCACTACGGCGTGGATCCGCAGCTGCCGTAG	MKTRILKQLSAVTAGMALLATAACGAPAASTETTETTAAESAGFPLTMEHTMGSTTIDTVPKRVVALDPSYIDAALLLGADLVGYVQYRQDPNAPFAPYLGDVKDATKDSVNVGTLAEPNLEKILELEPDLIVSAKVRHEALYPQLSKIAPTIFSVSTGPTWKENVVFLGEALGKKAKAEELVKAYEERAEKVGAEILKKKPDATYSLVRFTGGDTARLYSSNSFIGEIMTDMKIPRPQDAPDSEKEIFVPLSAEQILQGDAGLVMVSAFTPPGAEGDKTRAQQEKFQSNPLWQRLTGEVKNVDDGTFLASVSIQGAHSVITDLAKHYGVDPQLP	PGPT0003765_5728	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
D1-29_03713	978	yfiZ_1	COG0609	putative siderophore transport system permease protein YfiZ	ATGCGGTGGCTGGCAGTTTCAGTTGCGGCCATGCTAGCGGCGGCCTGCCTAAGCATCTGCATCGGCGGCCAGCCCTCCTCCCTGCAGGACGTCTGGCATGCCGTCTTCACTCCCGATGGCAACGTCATGGACGTCACCATCCGCGAACTGCGCTGGCCGCGCACCGTGCTGGCCGTGTGCGCAGGAATCTGCCTGGGCCTGGCCGGAACCCTGGTCCAGGGACACACCCGAAACCCGGTTGCTGATCCCGGCCTTCTGGGCATCAACCAGGGCGCGGCCCTCGCCATCGTCGCGGTCACCGCCCTGGCCGGCGAGCAGCCGGGACTGACGCAGGCATTGCTGGCGTTCACGGGTGCCCTGGCCGCCAGCGTCCTGGTGTTTATGATCGGCTCCGCGGCCCGCCATGGCTCCACCCCCGTGACCCTGGTGCTGGCCGGAGCCGCCGTGACAGCGCTCTGCTCCGGGCTGGTGGCGGGCATCGTCCTGCTGAACGACCAGGCCCTGGACACGCTGCGGTTCTGGCAGGTAGGTTCTCTGGCCGGCCGCAGCGACATTCTTTCCATGATCTGGCCCTTTGTGGCCGCCGGAGTGGTGATGTCGTTGCTGAACATCCGGCCCCTGAACGCGCTGGCCCTGGGAGCAGACACCGCCACGTCACTGGGCATCTCGGTTTTCCGGGCACGGGCGGCAGGCATAGCCGCCATCACGCTGCTGGCAGGTTCCGCGGTGACCATGGCCGGGCCCATTGCCTTCGCCGGACTCCTGGTTCCGCACATCACCCGGGCCATGACAGGTCCTGACTACCGTTGGCTGATCCCGCTCTCTGCCATAACGGGCGCCACCGTGCTGCTCCTTGCGGATACGGCGGGCCGCGTGATCTCGCGCCCCGGAGAGCTGTCGGTCGGCGTGGTCCTGGCCGTGGTGGGTGCCCCCTTCTTTGTCCATCTGGCCCGCCGGCGCAGGCTGGCCACCCTGTGA	MRWLAVSVAAMLAAACLSICIGGQPSSLQDVWHAVFTPDGNVMDVTIRELRWPRTVLAVCAGICLGLAGTLVQGHTRNPVADPGLLGINQGAALAIVAVTALAGEQPGLTQALLAFTGALAASVLVFMIGSAARHGSTPVTLVLAGAAVTALCSGLVAGIVLLNDQALDTLRFWQVGSLAGRSDILSMIWPFVAAGVVMSLLNIRPLNALALGADTATSLGISVFRARAAGIAAITLLAGSAVTMAGPIAFAGLLVPHITRAMTGPDYRWLIPLSAITGATVLLLADTAGRVISRPGELSVGVVLAVVGAPFFVHLARRRRLATL	PGPT0003770_2119	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
D1-29_03714	1122	yfhA	COG0609	putative siderophore transport system permease protein YfhA	GTGACCGCCCTCCAGCAGAAGCCGCGGCAACAGCAGAAACCGCTGCAACAGCCCAGGACAGGTGCTGCCACCATTCGCGCCCTGCGCCTTGGCCCGGTATCCATCCGCCTGAACTTCCGCGTGATGGTTGTCGCCGCCGTCCTGGCCGCCGCCCTGGTGGCCGCGATGGCCCTCCACATAGCCTTCGGCGGAACCCCGCTGGCTTACCCGGACGTTCTCCGTGCGCTCCTGGGTGACGCCTCCAGCCCGCGGATCCACCTCGCCGTTACCGAGTTCCGGGCCCCGCGCATGGTTGCCGCCGTGGTAGTCGGTGCGGCGCTGGCCGCTGCCGGAGCCATCACCCAGACGGTGGCACGGAACCCCCTGGCCAGCCCCGACCTGCTGGGCGTCACCACCGGCGCGTCCCTGGGCGCCGTCACCGTACTGGTGGTGGCCGGCGGCGGCCACGCCGGACTCAGCGGCCTGGCCGCGACGGTGGGAATGCCCGTGGCCGCGTTCGCCGCGGGAATCATCAGCGGCGTGGCCGTCTACCTGCTGGCCTACCGGCGCGGGCTGGACAGCTACCGGCTGGTCCTGGCGGGCCTGGGTATCTCCGGCCTGGCCGCGAGCCTCACCACCTGGATCCTCACGCTGGGGGACGTCACCAGCGCCGCCCAGGCCCTGACCTGGATGATGGGATCACTGAACGGCAAGGACTGGGCCACCGTCCAGCCCATGGCCGTCAGCGCTGCCGTCCTCCTGGTTGCCGCGGTGCTGAGCGGGCGCTGGCTGCTGCTGACCAGCCTCGGCGAGGACACCGCCGTCGGGCTCGGAGCGCGCATTGGCGCGGTGCGCCTGACTGCCCTGACCATCGCGGTGCTGCTCGCGTCGGTGGCCACTGTCACCGCGGGCCCTGTGGCGTTCGTTGCCCTGGCCAGCCCGCAGATCGCACGGTCCCTGACCTCCAACGTGGTTCCCCCCGTGGGAGTCTCGGCGCTGGTGGGTGCGGTGTTTGTCCTGCTTGCGGACACCGTCTCAGCCAATGTGCTCAGCGCGCCGCTGCCCGTGGGAGTGGCCACCGCCGTCGTCGGCGCGCCGTTCCTGATCCATCTGATCCTGAAGTACCAGCGGAGGCTGAGTTGA	MTALQQKPRQQQKPLQQPRTGAATIRALRLGPVSIRLNFRVMVVAAVLAAALVAAMALHIAFGGTPLAYPDVLRALLGDASSPRIHLAVTEFRAPRMVAAVVVGAALAAAGAITQTVARNPLASPDLLGVTTGASLGAVTVLVVAGGGHAGLSGLAATVGMPVAAFAAGIISGVAVYLLAYRRGLDSYRLVLAGLGISGLAASLTTWILTLGDVTSAAQALTWMMGSLNGKDWATVQPMAVSAAVLLVAAVLSGRWLLLTSLGEDTAVGLGARIGAVRLTALTIAVLLASVATVTAGPVAFVALASPQIARSLTSNVVPPVGVSALVGAVFVLLADTVSANVLSAPLPVGVATAVVGAPFLIHLILKYQRRLS	PGPT0003770_1076	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
D1-29_03715	822	yusV	COG1120	putative siderophore transport system ATP-binding protein YusV	TTGAACACCACCACAGAACGGCACGAGGGGCTGAGGGCGGAAAACCTGACGCTGGGCTACGACGGCCGGGACATCATCAAGGACCTGTCCCTCACCGTCCCGGAGGCCCGGGTGACCTCGATCATCGGCCCGAACGGCTGCGGCAAGTCCACGCTGCTCCGCGGCCTGGGCCGGCTGCTCGCTCCGCGCTCCGGCGCTGTTTTCCTGGATGGCGCCGCACTGTCCACCCAGTCCAGCCGCCAGATAGCCACCAGGATCAGCATCCTGCCGCAAACGCCCACCGCGCCTTCCGGGCTCACCGTGGCGGATCTCGTCTCGCGCGGCCGGCACCCCCGGCAGAAGTGGTACCAGCAGTTCTCCCCCGCCGATCAATCCGTCGTCGAGGACGCACTCGTGGCCACCGACATCGCCGACCTGGCCGACAGTCCGCTCGAGGACCTCTCCGGCGGGCAGCGGCAGCGCGCCTGGATTTCCATGACGCTGGCCCAGGAAACGGGCATCCTGCTCCTTGATGAGCCCACCACCTACCTGGACCTCGCGCACCAGGTGGACGTCCTGGAACTGGTGCGCAGGCTGAACCGCGAGCATCACCGGACCGTGGTGATGGTGCTGCACGACATCTCCCTGGCGGCCCGCTACTCCGACCACATAGTTGCCATGAAGGACGGCAGCATCATCACCCAGGGGACGCCGGCGCAGGTGGTGACTCCCGGGCTGCTCAAGGACGTGTTCGGCCTGGACGCCCACGTGGTTGCCGAGCCCACCGACGGCCGGCCCCACGTCATCCCGCTGGGCACCCCGGCCACGGCTGCCGCCTCCTAA	MNTTTERHEGLRAENLTLGYDGRDIIKDLSLTVPEARVTSIIGPNGCGKSTLLRGLGRLLAPRSGAVFLDGAALSTQSSRQIATRISILPQTPTAPSGLTVADLVSRGRHPRQKWYQQFSPADQSVVEDALVATDIADLADSPLEDLSGGQRQRAWISMTLAQETGILLLDEPTTYLDLAHQVDVLELVRRLNREHHRTVVMVLHDISLAARYSDHIVAMKDGSIITQGTPAQVVTPGLLKDVFGLDAHVVAEPTDGRPHVIPLGTPATAAAS	PGPT0003760_1252	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
D1-29_03716	627			hypothetical protein	TTGGAATCGCCTTCCCCCGTCCCCGAGCACGTAAGAATCCTGACCGTCTGCACGGGCAACATCTGCCGCTCCCCCGTGGCTGAACGGCTGCTCCAGGCAGGACTGGACCAGGTGCTGCCCGGCGGCTTTGTGGTGGCCAGCGCCGGAACCCGCGCCATGGTGGGCGACCCCATGCAGCCGCCGTCAGCGGACATGGTGCGCATGTTCGGCGGCGACCCCCAGGAGTTTGCCGCACGGCAGCTGACCGGCAAGATCCTGCGCAGTGTGGACCTGGTGCTCACCATGACGTCCGGCCACCGCGGCGAGGTTCTCCAGCTGGACGCGTCGCTCCTGAAGCGCACTTTTACCATCCGTGAATTCGCGCGCATGCTGGACGTCCTGGATGAGCGGGATCCCGCGCCTCAGGGTCCGGCCGGTGATCCCCTGGCAGCCAACACAGCCTTCTGGCGGGGCCTTCCGGCCCGCGCGGCAGCGGTCCGGCACCTGTCCCTGCCAGCCGACTCCTCCGAAAACGACATCATCGACCCCTACCGCCGCGGGCCCGAAACCTACCGTCAGATGGAAGACGAACTGGCCCCCGCGATCATCTCCATCCTGCGTCATGCGAGGCTGAACGCTCCCTCCTGA	MESPSPVPEHVRILTVCTGNICRSPVAERLLQAGLDQVLPGGFVVASAGTRAMVGDPMQPPSADMVRMFGGDPQEFAARQLTGKILRSVDLVLTMTSGHRGEVLQLDASLLKRTFTIREFARMLDVLDERDPAPQGPAGDPLAANTAFWRGLPARAAAVRHLSLPADSSENDIIDPYRRGPETYRQMEDELAPAIISILRHARLNAPS	PGPT0014530_3606	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
D1-29_03717	1191	tagU_3		Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGGCCACCGCGTCCGAGCATCCTGCCGCTGTCTTTACCGGCTCAGCCTCCTCCGGCACAGCTGTTTCGGGCGCGGCTCCCGGCCCGGCTTCCGGCGCGTCTCCCCGCGTTCCGGCTGGCCGGCGCCGGCGCCCCCTCCGCACCTTCCTTCTGTTCCTGCTCGCCCTGGTGATCCTGATTCCAGCTTCGGCCGGGGTGTACCTGATGAACCTCGGCCGGATTTACGATTCCGAAGTCACGACGATCGAGAACCCCTTCCCGGACGAAGCAACCCGGCCCAACCCATCCGTCGCGAATGGCGCGGCCCCCGGTGCGGCCGGCGTTCCGGGAACTGCTGAGGGCGGCACAAACAACGCCGGAGGCGGGACCGGGTCCGTGAATATCCTGGTGATGGGCAGCGACAGCCGCGGCGCCACCAGCGAAGAAGCTGCGGCCGGCGCGGGATCCAACCAGCGGGCGGACACGCTCATGCTGGTGCACGTCCCCGCCGACCGCGCCAAGATCTACTCCATCTCACTCATGCGGGACCTCTGGGTGGGCATCCCGGACCGCGGGGAGGCCAAGATCAACGCAGCACTGGCCTACGGCGGCATCCCACTGATGGTGCAGACCGTGGAATCGATTTTTGGCCAGCGGATCGACCACGTGGCCATGGTGGACTTCGAAGGTTTTGTTGGACTCACGGACGCCCTGGGCGGAGTGGAAGTGGATATCCCCGCCGGGTTCGTTTCGTATCACGACCAGTCTGTCTTCCAGGCCGGGAAGAACACCCTGGACGGCGAGCGTGCCCTGAAGTTCGTCCGCGAGCGCTACGCGTTCGCGGATGGTGACTACCAGAGGGTCCGCAACCAACAGGCGTTCGTGCGGGCGCTTCTGACCAAGAACCTCAGCGCCGACACCCTCCTGAATCCGCTGAAGGTCCAGGGTGTGGTCAGCGCCATCGCGCCGTTCATCAGCGTGGATGAAGGGCTGAACGCCGCGGCCCTGGCGGGGCTGGCTGTGGAGCTCAAGGACGTACGGCCGAGCGACATGGTGATGTTCACCCTCCCGACGCTGGGCACGGGAACGTCAGCGGACGGGCAATCCATCGTCATCCCGGATACCGCTGCCATCGCCGCAATCGCCACATCGCTTTCCGATAACACCCTTGGCAACTATGTAGCCGGAAAGGGTCTGGAAGGCGGAAACTGA	MATASEHPAAVFTGSASSGTAVSGAAPGPASGASPRVPAGRRRRPLRTFLLFLLALVILIPASAGVYLMNLGRIYDSEVTTIENPFPDEATRPNPSVANGAAPGAAGVPGTAEGGTNNAGGGTGSVNILVMGSDSRGATSEEAAAGAGSNQRADTLMLVHVPADRAKIYSISLMRDLWVGIPDRGEAKINAALAYGGIPLMVQTVESIFGQRIDHVAMVDFEGFVGLTDALGGVEVDIPAGFVSYHDQSVFQAGKNTLDGERALKFVRERYAFADGDYQRVRNQQAFVRALLTKNLSADTLLNPLKVQGVVSAIAPFISVDEGLNAAALAGLAVELKDVRPSDMVMFTLPTLGTGTSADGQSIVIPDTAAIAAIATSLSDNTLGNYVAGKGLEGGN	PGPT0023440_1641	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
D1-29_03718	1146	tagU_4		Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGAGCGTCCCAGGTGCTTCCGAGCCCATCGGTCCTGATTCATCCGGTTCCGGCCCCGCTAGTCCTGGCGGGGCCGGTTCCGGTCCTTCCGCACCCGGTACAGGGACAGCACGACGGCGGCGCATCATTGCCGCGCTGCTGACCGTAGTGCTGGTGGCCGGCATCGCCGTCGCCGCCTTGCTGTTCAGCCGCCCGGCAGATACGTCCGCCACATCGGCCACGCAAAGCGCCCAGCCGACGGAAACCCCGACTGCCACGGAGACCACCCCTCCGCCGGTCCCGGCCCCCGCTCCTCCGCCGCCGCCCGAGCCCATCCCGGAGCTGCAGCCCGTTCCCATGAACATCCTCATCATCGGCAGCGACAGCCGCGGGAATGCGAGGGATCAGGCAGGCCATACCCTGGCCACCGGCCAACAGTCCGATCAGCGGGCGGACACCATCATGGTGGCCCACGTTCCGGCTGACCGGCGCAGCGTCCAGGTGGTCTCCATCATGCGGGACACGTGGGTGAACATCCCCAGCTATGGCGGTTCCAAGGTGAACACCAGCCTCCAGGTGGGCGGCACGCCCCTGGTGAAGCAGACTGTGGAGTCCCTGCTGGGACTTCACATCGACCATACGCTCATGCTGGATTTCAACGGGTTCAGGGCCCTGATTGACGCCATGGGCGGGATCGACGTGCAGGTCAACCTGCCGTTTCAGTCCACGCACGACACCGGGCACGTCTTCTCGCAGGGCCTGAACAGGCTTAACGGGCAGGCTTCGCTGGAGTTCGTCCGGGAGCGGTACGCGTTCATCGACGGCGACTACCAAAGGGTGCGCAACCAGCAGGCTTTCCTGCAGGCACTGTTGGCGAAGCTGACCCACGGCGGCGCCTTGAACGATCCCAACGTGGTCCGGCACCTGGTGGCTCTTTCCGGGCCCTGGCTGACCCTCAACCAGGGCCATGACGCCTTGTCCGTGGCGATCCTCGCCTACGGCCTTCGAAACCTCGACTACAACGCCTGCACCTTCGTTACGCTGCCAACGGCCGGGGTGGGCACCATCGGCGGGGCATCCGTGGTGCTGCCAGACTATGGCGGGATTAATGCCGTGGCCGCCGCCCTGAGGGAAGGGCGCCTGGCCCAGTACGCGGCTGGGCGCTGA	MSVPGASEPIGPDSSGSGPASPGGAGSGPSAPGTGTARRRRIIAALLTVVLVAGIAVAALLFSRPADTSATSATQSAQPTETPTATETTPPPVPAPAPPPPPEPIPELQPVPMNILIIGSDSRGNARDQAGHTLATGQQSDQRADTIMVAHVPADRRSVQVVSIMRDTWVNIPSYGGSKVNTSLQVGGTPLVKQTVESLLGLHIDHTLMLDFNGFRALIDAMGGIDVQVNLPFQSTHDTGHVFSQGLNRLNGQASLEFVRERYAFIDGDYQRVRNQQAFLQALLAKLTHGGALNDPNVVRHLVALSGPWLTLNQGHDALSVAILAYGLRNLDYNACTFVTLPTAGVGTIGGASVVLPDYGGINAVAAALREGRLAQYAAGR	PGPT0023440_1625	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
D1-29_03719	2616	menE_2		2-succinylbenzoate--CoA ligase	GTGAACTCGTCCCTGGAAGTTGCGCGGGTAGCCTTTGCCGCTGATCTGGCCCGCCACGGAGACCGTCCCGCCCTCCTCACCGGCGGCCGGACCATCTCCTACCTGGAACTCGCCCACCGGGTGGGTTCCTTTGCCGAGCGGCTCGGCCCCGTCCGCCGCCTTGTGGTGCTCGCGGCGGACAACAGCGTGGGGTCGTTGGTGGCGTACCTGGCTGCCCTGGCCTGCGGGCACCCGCTGATCCTGGCGCCTGCAGGAAATGACGCCGCCATGGCATCCCTGGTGGCAGCCTACGATCCGGATGCCATCGTCCGGACGGGGCCAACGGAAGCCGGTGCCAGTGAGCCGCTGCTGGAGGAAGTGCGGCCCGGAACCCGGCACCAGCTGCACCCGGATCTTGCCCTATTGCTCAGCACGTCGGGTTCCACGGGCTCGCCCAAACTCGTCCGGCTCTCCCAGCAGAATGTGCAGTCAAACGCCGAATCCATTGCCGAATACCTGAACATCGGTGAAGACGACCGTGCCATGACCACGCTGCCCATGTACTACTGCTACGGGCTCTCGGTGCTCAACAGCCACCTGCTCCGCGGCGCCGGGATTGTGCTCTCGGATCTGTCGGTGGTGGATCCGTGCTTCTGGGAACTGTTCCGCAACCGCCGAGCCACGTCCTTCGCCGCCGTCCCCTACACTTTTGAGCTCCTGGACCGCGTGAGGTTCACGGAGATGGAGCTCCCTCACCTGCGGTACATCACACAGGCCGGGGGCCGGCTGGATCCCGGAACCGTGGTCCGCTACGCCGAGGCCGGACGCGGGCGCGGCTGGGACCTGTACGTGATGTACGGCCAGACGGAGGCCACCGCACGGATGGCCTACCTTCCGCCGCACCTCGCCGCGGAGCATCCGGGAAGCATCGGCGTTCCGGTCCCGGGCGGGGATTTCCGCATTGATCCGGTGCCGGGCCTGGAGGACGGCGAGCTGGTGTACACCGGGCCGAACGTGATGCTGGGCTATGCCGAGAAACCGGAGGACCTGGCGGCCGGGCGCACCATCAGCGAGCTGCGCACGGGGGACCTGGCCCGCCAGTCGGACGCCGGCCTGTACGAGGTGGTGGGCAGGAGAAGCCGGTTCGTCAAGATTGTGGGCCTGCGCATTGACCTTGGCCAGGTGGAAAAGATGCTGCAGAAGATGGGCCTGAACGCGGCCTGCGCCGGCACAGACCACAGGCTGGTGGCAGCGGTCGAGGGCAGCCACGACACCCGACTCCTGGCCAAGACCCTCGCCCAGGACCTGGGCCTGCCCCGTGCCGCCGTGCAGGTCCGCGCCGTCGAAAGCCTGCCGCGCCTGGCCACCGGCAAAACCGACTACCCGTCAATCCTGGCGCTTGCCGACACGGACACCACGAACAACACGGACGAAACGGAAAACGCTGCCGGGAGGCCCGGGCAGGAAGAGGCCGACGGCGGTGCTGCCGCCTCCGCTGCGGCAGCACCGCCGTCGGACGTCCGCAGGATTTTTGCGGATGCGCTTGAGATCGAGGACATCGGCGACGATGACACATTCGTCTCGCTTGGCGGCGACTCGCTGTCCTACGTTGCGGCATCGGTAAGCCTGGAGAAGGTTCTTGGCCACCTGCCCCCGGACTGGCACGTCACCCCCGTCCGGGAACTGCAGGCCCTTGCGCGGCCACGGCGCAGCCCCTGGCGGATCTTCGCGCCGCTGGAGACAGGCATTCTGCTGCGTGCGGCGGCCATTGTAATGATCATCAGCACGCACGTGGACCTCATCAGGTGGCCGGGCACAGCGCATGTGCTGATGGCCCTGGCCGGCTACAACTTTGCCCGCTTTCAGCTGGGCGGTGACAGGATCCCGCGGCTCCGGCGCCAGGTACGCAGCCTGGCCAGGCTGGTGGTGCCCACAGTGGCCTTTATCGGGGCGGTCATGCTGCTGACGGATAAATTCCACTACACGCCGGCCAACCTGCTGCTGCTGAACACGATGATCGGGCCGGCCGGCTGGACCGATGCCTGGCACTTCTGGTTCATCGAGGTGCTGGTGTACGTGCTGGTGGGCGTGATGGCGCTCCTGGCCATCCCCTGGGTGCACCGGACAGAGCGGCGCTTTCCCCTGGCGTTCCCCGTGGCGCTTGTTGCTGCCGGGCTGCTGGCCCGTTATGACCTGATTGGCGTGGACATCCTGCACACCCGGCCGGTCCTCTGGCTGTTTGCCCTGGGCTGGGCCCTGGCGCGGGCGAGGACTGCTGGCCAGCGGCTGGCGCTGTCCGCGCTGGGGGCACTGGCCCTGTACGGCTACTTCGACAACCCCTGGCGGGAGGGCACCATCCTGGCGGGGATCCTGCTGCTCGCATGGATTCCGGCCATCCCGCTGCCGTCGGTGCTCCACCGCCTCTTCGGCGTCCTGGCCAGCGCGTCACTGTACGCCTACGTCACGCACTGGGTGGTGTTCCCCGACCTGAAGGACAGCCAGCCTGTTTTGGCAGTTGCCCTGTCCTTGGCTGTCGGCGTCGCCTACTGGGCCGTGGCCATGAAACTGATGGGCGCGGCGGGCCGCCTGAAGGTCAGGACAATGCGGAGGCTGCGCCGCCGGAGTGCTCTGGCATAA	MNSSLEVARVAFAADLARHGDRPALLTGGRTISYLELAHRVGSFAERLGPVRRLVVLAADNSVGSLVAYLAALACGHPLILAPAGNDAAMASLVAAYDPDAIVRTGPTEAGASEPLLEEVRPGTRHQLHPDLALLLSTSGSTGSPKLVRLSQQNVQSNAESIAEYLNIGEDDRAMTTLPMYYCYGLSVLNSHLLRGAGIVLSDLSVVDPCFWELFRNRRATSFAAVPYTFELLDRVRFTEMELPHLRYITQAGGRLDPGTVVRYAEAGRGRGWDLYVMYGQTEATARMAYLPPHLAAEHPGSIGVPVPGGDFRIDPVPGLEDGELVYTGPNVMLGYAEKPEDLAAGRTISELRTGDLARQSDAGLYEVVGRRSRFVKIVGLRIDLGQVEKMLQKMGLNAACAGTDHRLVAAVEGSHDTRLLAKTLAQDLGLPRAAVQVRAVESLPRLATGKTDYPSILALADTDTTNNTDETENAAGRPGQEEADGGAAASAAAAPPSDVRRIFADALEIEDIGDDDTFVSLGGDSLSYVAASVSLEKVLGHLPPDWHVTPVRELQALARPRRSPWRIFAPLETGILLRAAAIVMIISTHVDLIRWPGTAHVLMALAGYNFARFQLGGDRIPRLRRQVRSLARLVVPTVAFIGAVMLLTDKFHYTPANLLLLNTMIGPAGWTDAWHFWFIEVLVYVLVGVMALLAIPWVHRTERRFPLAFPVALVAAGLLARYDLIGVDILHTRPVLWLFALGWALARARTAGQRLALSALGALALYGYFDNPWREGTILAGILLLAWIPAIPLPSVLHRLFGVLASASLYAYVTHWVVFPDLKDSQPVLAVALSLAVGVAYWAVAMKLMGAAGRLKVRTMRRLRRRSALA				NA	NA	NA	NA	NA
D1-29_03720	831	gpmA_4		2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	GTGCCGAAAAGCGGCAGCCGCACAACGGGCAACATGGCGATGGGGCAGGTCTTTGTGGAAAATCAGGGAATGACGCAGGCAGTCCGGGAAGCCGGGGCGGTGGAGCTCATCCTGATCCGCCACGGCCAAAGCGAAGGCAATGTTGCGGCGTCGGAGGCACAGCTGGCAGGCGTTGAGGTGATCGACGTCCCGGCACGCGACGCCGACGTCATATTGTCCCCTACCGGGCAGGACCAGGCGGTGGCCGTCGGAAAGGCGCTTGCTGCCATCCCGGAAGACCGCCGGCCGGATGCAGTGGTGTCCTCCCCGTATGCCCGCGCGCATCAGACCGCCGAAATCGCCGTGGAAACTGCGGGCTGGCCCGTCCGCGTGCGCATCGATGAACGGCTGCGGGACCGGGAGCTGGGCGTCCTGGACATGCTGACGTGGCAGGGCGTGGAGAAGCGCTTCCCCGAGGAGGCCGAACGGCGGCGCTGGCTGGGCAAGTTCTACTACCGTCCGCCCGGCGGTGAATCCTGGACCGATGTGGCGCTCCGGCTGCGCTCGGTGCTTGACGAGCTGAACGGCCTGGGCATGGGGCACCGCGTGATGGTGGTGTGCCACGACGCCGTGATCCTGCTCTTCCGGTACATCCTGGAGGGGATGACGGAGCGGGAGATCCTGGACCTCGCCGCCGGCACCTCCGTTCTGAACGGTTCCATCACCCGGTTTGTCCGCCCCGAGGGGAAGGGGCCATGGACGCTGGAGGAGTTCAACCAGGCGGACCATCTCAGGGAGCAGGGTGTGGAAGTGACCGAGCACGCCGGGGACGCCAGTGTCCACCCGCAATGA	MPKSGSRTTGNMAMGQVFVENQGMTQAVREAGAVELILIRHGQSEGNVAASEAQLAGVEVIDVPARDADVILSPTGQDQAVAVGKALAAIPEDRRPDAVVSSPYARAHQTAEIAVETAGWPVRVRIDERLRDRELGVLDMLTWQGVEKRFPEEAERRRWLGKFYYRPPGGESWTDVALRLRSVLDELNGLGMGHRVMVVCHDAVILLFRYILEGMTEREILDLAAGTSVLNGSITRFVRPEGKGPWTLEEFNQADHLREQGVEVTEHAGDASVHPQ	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
D1-29_03721	960	nnr_2	COG0062	Bifunctional NAD(P)H-hydrate repair enzyme Nnr	GTGTCCACCCGCAATGAGGCCCCTGCCGCCCAGGTGACGCCCTCACTGCTGCGCGACTGGCCGCTGCCCGCCGCCGGTGAGGACAAGTATTCGCGTGGTGCTGTGCTGGTGATTGGTGGTGCCCGGAGTACGCCCGGGGCGGCCCTCCTGGCTGGCCGCGCCGCACTCCGGGCCGGGGCGGGAAAGCTCACGCTTGCTGTGGCCGAATCAGTGGCTGTGCAGCTGGCCGTGGCGCTCCCGGAGGCAGGTGTTACGGGACTTGCTGAGACTGCCGAGGGGTCCATGCAGGCCTCCGGCCTTCAACGCATCGCGCCCGCCCTGGAAACCGCCGACGTTCTGCTGATCGGCCCCGGGCTTGACGATGTGGACCTCGCTGTCGAGCTGCTCCGCGCGCTTTTGGGGAGCCAGGCAGCGGGCGGAACCGACGGCGACGGTTCCGGAAGTTCCGACGGCGAAGGTTCCGACGGCGGCCGGGGAGCCACCATCGTGCTGGACGCCTACGCCCTGGGCGCCCTGCCTAAAATCCAGGAGGAGCTGACCCCCTGGCGGGGACGGCTGATCCTCACGCCGAACCCCACTGAGGCGGAAATCCTGTTGGGCCGGGACCTGGCAGACCTGGAAGATGACGTGGCAGAGATCGCTGACCGGTACCAGGCAGTGGTCAGCTGCCAGGGTTTCATCGCGCGGCCAGCCGGCACCAAGGCGCCGGAGGAACCTGAACGTTGGCAAATCACCACCGGGTTCGGCGGACTGGGAACCTCCGGCAGCGGCGACATCCTGGCCGGGGCCATTGCCGGGCTCCGTGCCCGTGGGACCACCGATGCTCAGGCAGCCTGCTGGGGCACCCACCTCCATGCCGCGGCGGCGGACCGCTTGGCCAGCAGGATGGGACCCCTGGGATTCCTGGCCCACGAACTGGCCGACGAACTGCCGGCCCTCATGATGGAGCTCAACACCTGA	MSTRNEAPAAQVTPSLLRDWPLPAAGEDKYSRGAVLVIGGARSTPGAALLAGRAALRAGAGKLTLAVAESVAVQLAVALPEAGVTGLAETAEGSMQASGLQRIAPALETADVLLIGPGLDDVDLAVELLRALLGSQAAGGTDGDGSGSSDGEGSDGGRGATIVLDAYALGALPKIQEELTPWRGRLILTPNPTEAEILLGRDLADLEDDVAEIADRYQAVVSCQGFIARPAGTKAPEEPERWQITTGFGGLGTSGSGDILAGAIAGLRARGTTDAQAACWGTHLHAAAADRLASRMGPLGFLAHELADELPALMMELNT				NA	NA	NA	NA	NA
D1-29_03722	423			18 kDa heat shock protein	ATGTTGATGCGAACCGATCCGTTCCGTGAGCTGGACAGGCTGGCCCAGCAGGTCCTCGGCACGGCGGCGCGTCCGGCTGCGATGCCCTTGGACGCGTGGCGGGAGGACCAGGAATTCGTGGTGGCCTTTGATCTGCCCGGTGTAAATGCGGATTCAGTTGATCTGGATGTGGAACGGAACGTCCTGACGGTGAAGGTTGAGAGGCCGGATCCCGTGGGCAAGGACACCGAGATGATCGCATCGGAGCGGCCGCGCGGCGTCTTTAGCCGCCAGCTGATCCTGGGTGAGGCCCTGGATGCCGAAAACGTCAAGGCAACATACGACGCCGGTGTCCTGACTCTGCGGATTCCTGTCGTCGAGAAGGCCAAGCCGCGCAAGATCGAGATTGAAACGAAGGGGGCACATCATCAGATTGCCGCCTAG	MLMRTDPFRELDRLAQQVLGTAARPAAMPLDAWREDQEFVVAFDLPGVNADSVDLDVERNVLTVKVERPDPVGKDTEMIASERPRGVFSRQLILGEALDAENVKATYDAGVLTLRIPVVEKAKPRKIEIETKGAHHQIAA	PGPT0014635_7466	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
D1-29_03723	417	hrp1_2	COG0517	Hypoxic response protein 1	ATGTCCATCAAGGCACGCGACATCATGAGTGGCGGCGTGGAATGCGTCGGTGAGAACGAAACGCTGGAGCAGGCAGCGCGGAAAATGAAGGACCTCGACGTCGGTTCGCTGCCGATCTGCGGTGAGGACAACAGGCTGAAGGGGATGATCACAGACCGCGACATTGTGATCAAGTGCCTCGCCGACGGCGGTGATCCCCGCACTGCCACGGCCGGACAGTTCGGCCAAGGCAAACCGGTGACCATCGGTGCGGATGACTCCATCGAAGAAGCCATCCGCACCATGCAGGAGCACCAGGTCCGCCGCCTGCCCGTGATCGATGGCCACGACCTGGTGGGCATCCTGAGCCAGGGTGACATCGCGCGCAACTACCCGGAGGACCGGGTGGGCGAACTGGTGGAGTTTATTTCGTACTGA	MSIKARDIMSGGVECVGENETLEQAARKMKDLDVGSLPICGEDNRLKGMITDRDIVIKCLADGGDPRTATAGQFGQGKPVTIGADDSIEEAIRTMQEHQVRRLPVIDGHDLVGILSQGDIARNYPEDRVGELVEFISY				NA	NA	NA	NA	NA
D1-29_03724	2337	dapb1		Dipeptidyl aminopeptidase BI	GTGATAGAGCAACGGGGGCGGGGGTGCTCTCCCCCGGTAGCGAACGCCGCCCTGATTGTCTGCCCGGGTCTATATATTGAGGGGATGACCCAGACTCCGCTGCAGGATTCCGCCAACGCGTCCGCTGCCACTGTTTCCGCCGATTCTGCCCTGCCGCCCGTCGCCCGGAAGGTCCCGGCCGAGCGCATCCACCACGGCGAGACCTTCGTGGACAACTATGAATGGCTGCGGGAGAAGGAGTCCCCGCAGGTGGTGGAGCACCTCAAGGCAGAGAACGCCTACCAGGAGGCCGTCACAGCCCACCAGGAACCGTTGCGCGGGGCCATTTTCCAGGAGATCAAGGGCCGCACCCAGGAAACTGACTTGTCTGTTCCCAGCCGGAAAGACGGCTGGTGGTACTTCAGCCGTTCCGCCGAAGGCAAGGAGTACGGAATCCAGTGCCGCGTCCGCGCCCAGGACACCGGAAACCCCGTGGCTGACTGGACTCCGCCGGCAGTGGAGGCCGGCGTCGAAATCCCTGGCGAGGAAGTGCTGCTGGACGGGAACGTTGAGGCCGAAGGCAAGCCATTCTTCTCCGTGGGCGGCTCCGCAGTCACCGTAGACGGAAACCTGTACGCGTACGCCGTGGACAACGCCGGCGATGAACGCTTCACGCTCCGGATCAAGGACCTCCGCACAGGGGAACTGCTGCCGGACGTCATCGAGAACATCTTCTACGGCGTCTCCTTCTCCCCTGACGGCACGCGCATTTTCTACACGGTGGTGGACGATTCGTGGCGGCCGTACCAGGTCAAGTCCCACGTCCTGGGCACACCCGTCGCCGACGACGTGGTGATCTACCAGGAGGACGACGTCGCCATGTGGCTGGGCTTTGAACTCTCCGGTGACCGGCGCCACCTGGTCCTGGGCATCGGCTGCTCCGAATACAGCGAAACCCGCCTGATGCGGTTCGACGACCCCGCCGGGGCCCTCACCACCGTGATTTCGCGGGACCAGCGGGTCCTTTATGAGGCCGAGCCTTTCCTGCTGACCGGCCCCGACGGCGAAAAATCCGAACGTATCCTGCTCACCCACAACCGGGGTGCCATCAACTCCATGGTGTCCCTGGTGGACCCGGCCGAACTCACCAAGCCGCTGGCGGAGCAGCACTGGGATACCGTCGTCGCGCATTCCGATGATGTCCGCGTGAACGGCGCGGGCGTCACGTCCACGCACGTGGTGGTGTCCATCCGGAAGGACACCATCGAGCGGGTTCAGGTACTGGGCCTGAACGGACTGGGCACTGCCGCGCAGGAGGCCCCGGTGGAACCGGCATTCGACGAGGAGCTATACACAGCAGGAGTTGGCGGCTCCGATTACGAGGCCCCGGTGATCCGGCTCGGGTACACCTCCTACTTCACGCCTTCCCGCGTGTACGACTTTGTGCTGCCCACGCCGGAACAGCCCGCCGGCGAACTGCTGCTGCGCAAGGAAAGCCCTGTGCTGGGCGGCTACGACGGCAACGACTACGTGGCCACCCGGGAATGGGCCGACGCCCCCGACGGCACCAGGATCCCGCTCTCGGTGCTGCGGCACAAGGCGGTCAAACAGGATTCGACGGCGGCCGGCCTGGTGTACGGGTACGGCTCCTACGAGCTGAGCATGGATCCCGGCTTCGGGATCGCCAGGCTGTCGCTTTTGGACCGCGGAGTGGTTTTTGTCATCGCCCACATCCGCGGCGGCGGCGAGCTGGGGCGGCACTGGTACGAGGACGGCAAGAAGCTCAGCAAAAAGAACACGTTCACCGATTTTGTGGCCGCAACCGACTGGCTGGCCGGCTCAGGCTGGGTGGACCCGGCCAGGATCGCCGCAATGGGTGGCTCCGCAGGCGGCCTGCTGGTGGGAGCCGTGGCCAACCTCGCCCCGGAAAAGTACGCCGCCGTCCTGGCACAGGTCCCGTTCGTGGATCCGCTCACCACCATCCTGGATCCGGACCTTCCGCTGTCCGCACTGGAGTGGGAGGAATGGGGCAACCCCATCACGGACCCTGCGGTTTATGCCTACATGAAGTCCTACTCGCCCTATGAGAATGTCCGCGACGTGGCCTACCCCAAGATCGCCGCGGTGACGTCCTTCAACGACACCCGGGTGCTCTATGTGGAGCCGGCCAAGTGGGTCCAGGAACTCCGCAACAAAACCACCGGGAACCAGCCCGTCCTGATGAAGATCGAGATGGACGGCGGCCACGGCGGAGCCTCCGGCCGGTACGTCCAGTGGCGCGAACGGGCCTGGGACTACGCGTTCATCGCTGATTCCGTGGGCGCCACCGAACTGCTGCCAGGAGCGGGCCTGAAGTAA	MIEQRGRGCSPPVANAALIVCPGLYIEGMTQTPLQDSANASAATVSADSALPPVARKVPAERIHHGETFVDNYEWLREKESPQVVEHLKAENAYQEAVTAHQEPLRGAIFQEIKGRTQETDLSVPSRKDGWWYFSRSAEGKEYGIQCRVRAQDTGNPVADWTPPAVEAGVEIPGEEVLLDGNVEAEGKPFFSVGGSAVTVDGNLYAYAVDNAGDERFTLRIKDLRTGELLPDVIENIFYGVSFSPDGTRIFYTVVDDSWRPYQVKSHVLGTPVADDVVIYQEDDVAMWLGFELSGDRRHLVLGIGCSEYSETRLMRFDDPAGALTTVISRDQRVLYEAEPFLLTGPDGEKSERILLTHNRGAINSMVSLVDPAELTKPLAEQHWDTVVAHSDDVRVNGAGVTSTHVVVSIRKDTIERVQVLGLNGLGTAAQEAPVEPAFDEELYTAGVGGSDYEAPVIRLGYTSYFTPSRVYDFVLPTPEQPAGELLLRKESPVLGGYDGNDYVATREWADAPDGTRIPLSVLRHKAVKQDSTAAGLVYGYGSYELSMDPGFGIARLSLLDRGVVFVIAHIRGGGELGRHWYEDGKKLSKKNTFTDFVAATDWLAGSGWVDPARIAAMGGSAGGLLVGAVANLAPEKYAAVLAQVPFVDPLTTILDPDLPLSALEWEEWGNPITDPAVYAYMKSYSPYENVRDVAYPKIAAVTSFNDTRVLYVEPAKWVQELRNKTTGNQPVLMKIEMDGGHGGASGRYVQWRERAWDYAFIADSVGATELLPGAGLK	PGPT0020980_205	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
D1-29_03725	468			hypothetical protein	ATGCCCGTCATAGAAGAAAGTGTCTTCATCGCCCGTCCGCCGCAGGAGGTTTTTGATTTCCTGGTCAGGAGCGAGAACATCCCGGTCTGGGATTCTTCGGTGATCCGGACCGAACAGATCACCGAGGGTCCGCCAGGGCCCGGCACCAAGGTGCGCGGCACCAGCAAGGTCATGGGACGGCATTTTGACTGGGTTGCTGAAAACATTGACTTCGATCCGCCGCGGAAGACAGTGGCCCGCTCGGTTGAAGGCAAGATGAATTTCACCATCACCAACGCCTTGGAACCGGAGGGCAACGGTACCCGCCTGACCTTCCGCATTGATGCCGATTCCGGGCTCGGCGGGATCTTCGGGAAGCTGGCTGACCCCCTTGTGGAGAAGGCACAGGCCCGGACGGTCCGCGCCAACCTAGAGACGCTGGCCGAGCTGCTGGCGGAGCACCCCGAGTACGGAAGGGACGCCGGTTGA	MPVIEESVFIARPPQEVFDFLVRSENIPVWDSSVIRTEQITEGPPGPGTKVRGTSKVMGRHFDWVAENIDFDPPRKTVARSVEGKMNFTITNALEPEGNGTRLTFRIDADSGLGGIFGKLADPLVEKAQARTVRANLETLAELLAEHPEYGRDAG				NA	NA	NA	NA	NA
D1-29_03726	567			hypothetical protein	ATGCCGGACATCATCCTGCCCGTCCGCACGGAACGGCTTGCCCTCCGCCGGTTTGAAGGACGGGACCTGGAGGCCTTCCACGCTTACCACGCGCTGCCGGAGACGGCGCGGTTCCTGCCAGGCCTGGCCAAAACCTACACGCAGTGCATGGAGCGGGTGGGAATGTATGCCAACTTTGTCTTCCAAAAGGAAGGCGACTGGGTCAGCCTGGCCATTGAAGCCAAGGACTCGCCCGGCCTGCTGGGCGAGGTGGTGCTCAAGTGGCTCCCCGGCCGCGGACAGGCCGAAATCGGCTGGACCCTGGCGCCGGGGGCGCGCGGCAAGGGCTACGCCACCGAGGCTGCGGCAGCCATGCTGGGCCTGGGCTTTGGCGAACTCGGGTTCCACCGGATCGAGGCGCGGCTGGACGCGCTCAACACCCCGTCGGCTGGGTTGTGCGAACGGCTGGGCATGCGGCTCGAGGCCAGGCTCGTGGACAAATGGCACTACAAGGGCCAGTGGGCAACAGAGCTGGTCTACTCCATGCTGGAGCGGGAATGGAAGGCTGCCGCGCCGTCCCGGCGTTGA	MPDIILPVRTERLALRRFEGRDLEAFHAYHALPETARFLPGLAKTYTQCMERVGMYANFVFQKEGDWVSLAIEAKDSPGLLGEVVLKWLPGRGQAEIGWTLAPGARGKGYATEAAAAMLGLGFGELGFHRIEARLDALNTPSAGLCERLGMRLEARLVDKWHYKGQWATELVYSMLEREWKAAAPSRR				NA	NA	NA	NA	NA
D1-29_03727	1167	ackA	COG0282	Acetate kinase	ATGCTTGTGCTAGTCATCAATTCCGGCTCGTCATCGCTCAAGTACCAGGTGCGTGATGTTGCCGCCGGAAGTGTGCTGACCGAAGGCCTGATCGAAAAGATCGGCATGGGTAACGGCGGTGACGGGGATGGCGAGATCGAGGGCCCGCGTGACCATGCGGAGGCGCTGGAGCAGGTGGACGCGGCCATTCATGCGGAACTCGGTGATCTTGAACTCGCTGCCGTTGGCCACCGGGTGGTGCATGGCGGCGAGCGCTTCGCCGAACCCGTGCTGATCGATCACGAGATCACCCGGGCCATCGAACGCCTCAACCCGCTGGCGCCGCTGCACAACCCGGCCAACGTGCTGGGGATCCGAGCCATCACCAAAAAATGGCCTGACATGCCGCAGGTGGCCGTTTTTGATACCGCCTTCCACCGCACGCTGCCCGAGCACGCCTGGCGCTACGCCGTGCCGGATGAGCTCTACACCAGCCACGGCATCCGCCGTTATGGCTTCCACGGCACCTCGCACGAGTATGTGACCCAGCGTGCCGCCGCGCTCCTGGGCATTCCGGTGGAAGAGTTCGACGGCGTGATCGCCCACCTCGGGAACGGCGCCTCTGTCACGGCCGTCCGGGGCGGCAAGTCCGTGGACACGTCCATGGGCTTCACCCCGCTGGAGGGCCTGGTGATGGGCACCCGGTCCGGCGACCTGGACCCGTCCATCCTGGTCTTCCTGGGCAGGGCCGGCTGGACCCCGGAGGACATCGACACCATGCTCAACCGCGAGTCCGGCCTGAAGGGGCTGGCCGGGAACAATGACATGCGCTCGGTGGTGGAAGCTTCCGAGGCCGGCGACGCCAGGGCCGCCATGGCGCTCGCCGTGGCGTCCTACCGCCTGGCCAAGTACATCGGCGGCTACCACGTGGCGGTGGGCGGCGCCAAGGCGCTGGTTTTCACCGCGGGCATCGGAGAAAACTCCTCCCAGTTCCGTGCGCTGGTGGCGGACCGCCTGGGTGCCTTGGGCATAGAGCTCGACGCCGGCCTCAACAGCCAGCGGTCCAAGGAACCACGGGTTATTACCACCACGCAGTCCGCCATCCCGGTCTTGGTAGTCCCCACGGACGAAGAACAGGCGATCGCGGAGGCCACAGCCGCCGTCGTCCATTCAACGGCGATCGCCTAG	MLVLVINSGSSSLKYQVRDVAAGSVLTEGLIEKIGMGNGGDGDGEIEGPRDHAEALEQVDAAIHAELGDLELAAVGHRVVHGGERFAEPVLIDHEITRAIERLNPLAPLHNPANVLGIRAITKKWPDMPQVAVFDTAFHRTLPEHAWRYAVPDELYTSHGIRRYGFHGTSHEYVTQRAAALLGIPVEEFDGVIAHLGNGASVTAVRGGKSVDTSMGFTPLEGLVMGTRSGDLDPSILVFLGRAGWTPEDIDTMLNRESGLKGLAGNNDMRSVVEASEAGDARAAMALAVASYRLAKYIGGYHVAVGGAKALVFTAGIGENSSQFRALVADRLGALGIELDAGLNSQRSKEPRVITTTQSAIPVLVVPTDEEQAIAEATAAVVHSTAIA	PGPT0001360_4099	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0001360-ackA-K00925	NA	NA
D1-29_03728	240			hypothetical protein	ATGACGAACGACCCCACTCAGCCGGACTACACCACTCCCGAGAACGTCGAAGCCCATACCGAAACCGCCCAGCCGCCCACCGGCACCGAAGGCGACACGTCGTCGAAAGATACGGAGTCGGCTGCTACGGGATCCGATGGCAAGGATGCCGAAGGCATGGACCTCACACCCGAAGGCCTTTCAGACGAACCGGCCAAGCAGGAGGACCCGGCCAGCCTGGCGAAGCCCGAAAACAGCTGA	MTNDPTQPDYTTPENVEAHTETAQPPTGTEGDTSSKDTESAATGSDGKDAEGMDLTPEGLSDEPAKQEDPASLAKPENS				NA	NA	NA	NA	NA
D1-29_03729	2094	pta	COG0280	Phosphate acetyltransferase	ATGGCCAGAGGCATCTATGTCAGCGCAACTACCCCCGGCTCGGGCAAGTCGCTCGTGGCCCTGGGCCTTGCGGACACACTGCACCGGCATGCCGACAGGATCGGCTTCTTCAAGCCAGTGGTCCTTGGCACCGACGCTGCGGATGACCCCATGGTGGCGCTGATGAAGTCCCGCTTTGCACTGGACGATGACCGCTGCCGGGGCGGCCTGACCTTCGCCGAGGTCCGCGCCTTGCTGGCCGAAGGAAACCGCGCCGAAATCGACGCCCGCTGTGTGGACATCTTCGCCGAAATGTCCCGGCACTGCGATGTGGTGATTGTGGAGGGCACGGACCTCACAGGCCAGGACGCCGCCGTCGAGTTTGACCTCAACGCCCGCCTCGCCAACAACCTGGCCGCACCGGTGGTGGCAGTGGTGGGTGCGAAGGGGCGCACCGTCGCAGAGGCAACCGCCGCCGTCGAGGTGGCCCGCAAGGAACTTTCAGCAGGAAAGTGCGCCCTGCTGGCCATCATGGTCAACCGCGCCGATCCCGATGACGTCGAGGCCATCGCTGCCGCGGTGAAGCGGGGAGCATCCGGGCGTCCGGTGTACGTCCTGCCTGAACTGGAGGAGATCGCCAGGCCCACCACCGGCGAGGTTGCCGCCGCCCTGGGCGTCCGCCAGATTGCCGGCCGCCCGGACATGGAGCGGGATGTCCGTGACATTAAGGTGGCGGCAATGAACGTGGGCAACTTCCTGAACGTCCTGGACGAGGGTGCCCTGGTGATTGTGCCCGGGGACCGCGCGGACGTGATGGTGGCTTGCCTGGCGTCGTCGTTCTCGCCGGAATTCCCGGTGCCCTCGGCCCTGGTCCTGACCGGCGGCCTTGCCCCGGACGCCAACATCTATCCGCTGCTGGCCCAGGCCCCCTTCCCCGTGTTCGCCTCCCACGAAGACACGTACACCACGGCCCGCCGGGTCTCGGAGGTCCGGAGCGAGATCTGGTCCGGGCACCGGCGCAAAGTGGCGTCCGCCCTGGGGCTGTGGTCCAGGAGTGTGGACGAGGCGGAGCTGATGGAGCGCCTCCACCTGCCGCGGCCCGAGCGGATGACGCCCCTGCGGTTCCTGCACGACCTCATTGAACGGGCTCGGGCACAGCGCAGGCACGTGGTCCTCCCGGAGGGGACAGACGTCCGGATTCTCAGGGCCGCCGAGATCCTGCACCGCCGCGACGTGTGTGACCTGACCCTTCTGGGCCCTGAGTCCGACGTCCGCGAGCTGGCAGCCGCCCGCGGCATCGACCTGTCCGGAATCAACATCGTTAACCCGGCGACGTCCGAACTCCGGCAAAGCTTCGCGGAAAAGTATGCGGAGCTGCGCGCGCACAAGGGTGTGGACGTGGCCAAGGCGCTCGAGATCATGCAGGACGGCAGCTACTTTGGCACCATGATGGTCCACCTGGGCGTGGTGGACGGCATGGTGTCCGGCGCCGCACACACCACGGCCCACACCATCCGGCCCGCGCTGGAGTTCGTGAAGACGCGCGACGGCGTAAACATCGTCTCCTCGGTGTTCCTGATGCTGATGCCGGACCGGGTGCTGGTTTATGGCGACTGTGCAGTGAACCCGGACCCCAACGTGGAGCAGCTGGCGGACATTGCCCTGGCCTCGGCCGAAACCGCTGCCCAGTTCGGTGTGGAGCCACGGGTGGCCATGCTGTCCTACTCCACCGGCGGCTCCGGCTCCGGCGAGGCGGTGGACGAGGTCCGGCAGGCCACCGCACTGGTGCGCGAACGCCGGCCCGACCTCGCCGTCGAAGGCCCCATCCAGTACGACGCCGCCGTGGACGCGTCCATTGCCGAGTCTAAAATGCCGGGCTCGTCCGTGGCCGGGCAGGCGACCGTCTTCATCTTCCCCGACCTCAACACCGGCAACAACACGTATAAGGCGGTGCAGCAGAGCTCGGGGGCAGTCGCCGTCGGGCCCGTTCTGCAGGGGCTGCGCAAACCGGTCAACGACCTCTCCCGCGGCTGCACCGTGGAGGACATCGTCAACACCGTGGCCATCACCGCCATCCAGGCGCAGGTGCCGGTGAGGGTCTCGGCCGGGGACTGA	MARGIYVSATTPGSGKSLVALGLADTLHRHADRIGFFKPVVLGTDAADDPMVALMKSRFALDDDRCRGGLTFAEVRALLAEGNRAEIDARCVDIFAEMSRHCDVVIVEGTDLTGQDAAVEFDLNARLANNLAAPVVAVVGAKGRTVAEATAAVEVARKELSAGKCALLAIMVNRADPDDVEAIAAAVKRGASGRPVYVLPELEEIARPTTGEVAAALGVRQIAGRPDMERDVRDIKVAAMNVGNFLNVLDEGALVIVPGDRADVMVACLASSFSPEFPVPSALVLTGGLAPDANIYPLLAQAPFPVFASHEDTYTTARRVSEVRSEIWSGHRRKVASALGLWSRSVDEAELMERLHLPRPERMTPLRFLHDLIERARAQRRHVVLPEGTDVRILRAAEILHRRDVCDLTLLGPESDVRELAAARGIDLSGINIVNPATSELRQSFAEKYAELRAHKGVDVAKALEIMQDGSYFGTMMVHLGVVDGMVSGAAHTTAHTIRPALEFVKTRDGVNIVSSVFLMLMPDRVLVYGDCAVNPDPNVEQLADIALASAETAAQFGVEPRVAMLSYSTGGSGSGEAVDEVRQATALVRERRPDLAVEGPIQYDAAVDASIAESKMPGSSVAGQATVFIFPDLNTGNNTYKAVQQSSGAVAVGPVLQGLRKPVNDLSRGCTVEDIVNTVAITAIQAQVPVRVSAGD	PGPT0001370_1364	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0001370-pta-K13788	NA	NA
D1-29_03730	2121			hypothetical protein	ATGACGCATGTGGAAAATTTGAGGCGGACAACCCGCGGGATGGGCCGGTCACTGCGAAGCCGGGCATTTCTCCTGACCTGGGTGCTGCCGCTGGCAGCCATCCTGGGGATCCTGGTCCTGTACGTCGCGAGCGAGCAGCGGATTTATTTCTACGACCCGCGCGGCTATCAGGAAGTGGCCATCAACACTTCCGATGCGCTCCGTAAAGGGCCGCACGCGCTCTACCTGTACCTGAAGGCGCAGTCGCTGAGCGAGTATCCCCCATACTGGGCCCTGCCGCTGGCTGTCCTGCCGCCCGAACTCCTCAACCTCCGCGTGCCTTATGAGGCTGCCATGGGTTTGTTCGGCCTGCTGCCGATGACCGTGCTGACCACCAAGATCGCCTGCCGCACTTTGGGGCTCCGGGTCTCACCCTGGATAGTCCTGGCGGCAGGCCTCAACCCGCTGACGTTCCTGGTATGCGTTCAGGGGGTCCCCGACCTGATCGGGATGTCCCTGATTCTTGCTGCGGTCTGGATTCTGATGTCACGCCCGCTGCATCGGTGGACCCTGTTCTGGGCACTGCTGATCGGAGCGGGCTCGTTGTTGGTCAAGAAGAACTTCCTCTTTGACCTGGCAGCCGTCGTTGCGTGTTACCTGCTCGCCTACACGGTGGCCGCGCTCCGCTACCGGCGCCCGCCCGAACGGTGGCGGAGCCTTCTGAAGGAGACGCTGAGCCTGCCTGTCCTTCTGGCTGGGGCCGCAGTGATTGGCGGCGCAACCGTCCTCACACCGGGTACCCTCACCTCCATCTTCTCGCGTGACAACTCCCTGTTCTACATCAGCTACCAGACCTCGCTGACGGACGCGCTCACCGCCAACCTCTCCTACGCCGGAGGCTTCGTGGCGCTGATCATTGCCATCGCAGCCGTGGTTGCGCTGGCGGTAGTCATTGCCCGGAGGACCTCGACGTCGGTGACGCGCAACGCCGTGTTCGTGGCTTCCTTCCTGGTGGTCTCCGAGGTGGTATGGGCCATCATCCAGAAGCAGTCCGGAATCATCCACCAGGTGCATGTGTGGCCGCTGCTCATGACTGTTGGTTTCGTGGGGCTGGTTCGTTTGCTGCCCCGGCCGCGCCCGCTGGCCCGCCAGATAGTGGCAGCGGGGCTTGCCACCGCCCTGTTTGCCTTTATGTTCGCGCAGACACCGGCCCTGGCCGGGATTCGCTTCGCAGCCTCGCAGCTGCCAGGCGGGCTGTACCCCAACGTGACGGAACCTTTCGTCCAGTCAAACCTGCCGAACATGGTGGAGGTCGCCTCCACCGTCCGGACGCTCTCCCAAACCAACGGGCCCGTGATGGTGCCCATTGCGTCCACCTCGTTCAACTCCAGCCTCCTGTACCAGACGTACGTCCAACAAGCCGGTGCCCCGATCCCGGATATCTACCAGCTGCCGCAGGTTGACCTGCGGGATGCCCAGCCCTGGTCCGGGCTCATCGGCGACGACGGACGCACCGTGCTGGTTTCCCAGCAATGGCTCCCCGACCTGCCTGAGGGCCACCACAACCTGCAGGCGGTCAACGAGTTCCTGGATTCACCCGCCGCGCAGCCGTGGATCAAGTCCTCCCAGCCCCTGGATGCCGGCGTTCCCGGGCAGCTGGCGGACCTCAGGGCAGTCCATCTGCTGATTCCGGAGTCCGATGCGCTCGCCTTCGCGGCCGCCATCAGGCCCTACCTGCCCGTCAACGCGGACCACGGACTGCAGGGAGCAGTGGCGCTCCTGACCGATCAGGGACTGCGCACGGAAGGACCCAGCGCGAAGACACCGACGGCCTGGACCATCACGGCGGGCTCCCCCGCTGCTCCCACCCGGCTGCTGGTTGATGCCACGGCCGCGCAGTCCATCAAGCTCAGCATGCCGAACGCCGGCTGCAGCGGTGTCCAGTATCAGTGGACCTCCCTCGAAACCCCCACCGGGAGCGCTCCGGCAGCCGCGTCAGATGCCGGCCAGGGAACGCTGCCTGCGGGTGCCGCCCAGACCGTCCCTGTCCCGGAGACCGGCACCGCCGCGTGGAGCCAGGTGCTGACACTCTCCACCGATAGCGCCGACCCGAACGCCTGCCAGGTGGTTGTCGGCGTCTAA	MTHVENLRRTTRGMGRSLRSRAFLLTWVLPLAAILGILVLYVASEQRIYFYDPRGYQEVAINTSDALRKGPHALYLYLKAQSLSEYPPYWALPLAVLPPELLNLRVPYEAAMGLFGLLPMTVLTTKIACRTLGLRVSPWIVLAAGLNPLTFLVCVQGVPDLIGMSLILAAVWILMSRPLHRWTLFWALLIGAGSLLVKKNFLFDLAAVVACYLLAYTVAALRYRRPPERWRSLLKETLSLPVLLAGAAVIGGATVLTPGTLTSIFSRDNSLFYISYQTSLTDALTANLSYAGGFVALIIAIAAVVALAVVIARRTSTSVTRNAVFVASFLVVSEVVWAIIQKQSGIIHQVHVWPLLMTVGFVGLVRLLPRPRPLARQIVAAGLATALFAFMFAQTPALAGIRFAASQLPGGLYPNVTEPFVQSNLPNMVEVASTVRTLSQTNGPVMVPIASTSFNSSLLYQTYVQQAGAPIPDIYQLPQVDLRDAQPWSGLIGDDGRTVLVSQQWLPDLPEGHHNLQAVNEFLDSPAAQPWIKSSQPLDAGVPGQLADLRAVHLLIPESDALAFAAAIRPYLPVNADHGLQGAVALLTDQGLRTEGPSAKTPTAWTITAGSPAAPTRLLVDATAAQSIKLSMPNAGCSGVQYQWTSLETPTGSAPAAASDAGQGTLPAGAAQTVPVPETGTAAWSQVLTLSTDSADPNACQVVVGV				NA	NA	NA	NA	NA
D1-29_03731	474	paaI	COG2050	Acyl-coenzyme A thioesterase PaaI	ATGGCTGAAGCAGCACTCTCCGGGGCCACACACCCCATCCTCGAAAACGACTATGCCTCCGAATGGATGGGTATAGAGGTCGTGGCCGTCAGCGACGGGCACGCCACCATCCGCATGAAGCTCCGCCAGGAAATGCTCAACGGCTTCGGCATGGCGCACGGCGGAATGATCTTCGCCTTCGCGGACACCGCCTTCGCCCTGGCCTGCAATCCCATCACCCCGGCCCCCGGCGAGGAAAACAGCATCACCGTTGCGGCCGGCGTCGACATCAATTTCCTCAAGCCCGCCTACCGTGGCCAGGTGATCACCGCCGTCGCCGACCGCCGCTCAAGTGCAGGACGCAGCGGACTGTACGACATCCAGATTTTCGCCGCCGACCCCGAAGCGCAGCCCGATTCACCCCTCAGCTCCGGCCAACCCGGTGAACTCATTGCCGAGTTCCGCGGACGCAGCCGGACCATCCCCAAGAAGTAG	MAEAALSGATHPILENDYASEWMGIEVVAVSDGHATIRMKLRQEMLNGFGMAHGGMIFAFADTAFALACNPITPAPGEENSITVAAGVDINFLKPAYRGQVITAVADRRSSAGRSGLYDIQIFAADPEAQPDSPLSSGQPGELIAEFRGRSRTIPKK	PGPT0006080_119	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006080-paaI-K02614	NA	NA
D1-29_03732	1395	paaK		Phenylacetate-coenzyme A ligase	ATGACGCTTCACGCCCCCGAAACCCCGGCTCATCACAACCCCGCCCCACAGGGAACCGCAGCGCAGGGAACAGCGCTGCCTGCAGATGCCGTCCTGGACCGCGAGGAAACCATGTCCCGGGACGAGCTGGAAGCCCTCCAGCTCAGCCGCCTGCAGCACACGGTGGCGTACGCGTATGACCGCGTGCCGTTGTACAAGCGCAAGTTCGACGAAGCCGGCATCCACCCCTCGGACCTCCGGGAACTCAGCGACCTGGGCAACTTCCCGTTCACCACCAAGGAGGACCTGCGCGCCGAATACCCGTTCGGCATGTTCGCCGTGCCGCAGCACGAGGTGGCCCGCGTCCATGCGAGCTCCGGTACCACCGGCCGGCCCACCGTTGTTGGCTACACCAAGCAGGACCTTGCCGACTGGGCAAAGCTCGTGGCCCGCTGCTTCCGCGCCTCCGGGATCCGCCCAGGCATGAAGGTCCACAACGCCTACGGCTACGGACTTTTCACCGGCGGCCTGGGCGCGCATGCGGGTGCCGAGGCGCTGGGCTGCACCGTCATCCCCATGTCAGGCGGCCAGACCGAACGCCAGATCCAGCTCATCCACGACTTCCAGCCGGACGCGATCCTGTGCACCCCCACCTACCTGCTGACCATCGCCGACGCCATGGCGCACATGGGAATCGACCCCACCTCCACATCGCTGAAATACGCGGTGCTGGGCGCCGAGCCGTGGACCCAGGAGATGCGGCACGAACTCGAAGTCACCATGAACATCAAGGCCTGCGACATCTATGGCCTGTCCGAGGTGATGGGTCCGGGCGTCGCCGGGGAGGCAGTGGAGACGCAGGACGGCAGCCACATCTGGGAGGACCACTTCCGGCCCGAAATCATTGACGCGTTCAACCCTGTGGCGGGCAAGGAAAACGTCCTGGGCGACGGCGAACACGGCGAGCTGGTCTTCACCTCGCTCACCAAGGAAGCGCTGCCCATCATCCGCTACCGCACCAAGGACCTCACCCGCCTGCTGCCCGGCACCGCCCGGCCGGCACACCGCAGGATGGGCCGGATCACGGGGCGCAGCGATGACATGATCATCCTCCGCGGCGTGAATCTCTTCCCGTCCCAGATCGAGGAAATCGCCCTGCGCATCGCCGAGCTCAGCCCGCATTTCCAGCTGGAACTGACCCGCCCGGAGGGCCAGCGGATGGACCAGCTAACCGTCCGCATCGAGCGGCGGGACAACGTGACACCTGAGCAGAGTTCGACGGCGGCGCGCACCTTGAAGGAGCAGATCAAGATCCACGTGGGTTCTTCATGCACGGTGGATGTGGTGGAGCCAGGTTCGCTGGAGCGGTCCAACGGCAAGCTGCGCCGGATTTACGACCTGCGCCCGAGGGCGTGA	MTLHAPETPAHHNPAPQGTAAQGTALPADAVLDREETMSRDELEALQLSRLQHTVAYAYDRVPLYKRKFDEAGIHPSDLRELSDLGNFPFTTKEDLRAEYPFGMFAVPQHEVARVHASSGTTGRPTVVGYTKQDLADWAKLVARCFRASGIRPGMKVHNAYGYGLFTGGLGAHAGAEALGCTVIPMSGGQTERQIQLIHDFQPDAILCTPTYLLTIADAMAHMGIDPTSTSLKYAVLGAEPWTQEMRHELEVTMNIKACDIYGLSEVMGPGVAGEAVETQDGSHIWEDHFRPEIIDAFNPVAGKENVLGDGEHGELVFTSLTKEALPIIRYRTKDLTRLLPGTARPAHRRMGRITGRSDDMIILRGVNLFPSQIEEIALRIAELSPHFQLELTRPEGQRMDQLTVRIERRDNVTPEQSSTAARTLKEQIKIHVGSSCTVDVVEPGSLERSNGKLRRIYDLRPRA	PGPT0026240_673	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
D1-29_03733	624	fadR		Fatty acid metabolism regulator protein	ATGTCCAGCACCAGCGAAATCTCCAGCACAACAGCACCTCTGAAGCGCGGCCGCCCCGGTTACGACCAGCAGTCGGTGCTGCTGATCGCGGTGGACGTTTTCAACCGGCATGGCTATGACGCCACGTCCATGGGCATCCTCGCCGAGAACCTGGGCATCTCCAAGTCAGCGATCTACCATCACGTCCCGTCAAAGGGCGATCTCCTGAAGCTGGCCCTGGAGCATGCACTGGGCGGCCTGGAAGCCATCCTGGACCAGCCGGAGGCTACCTCGGGCGCGGCTGACGCACGGCTGGAGTACGTGCTGCGGCAGACCGTGGCCGTGCTGGTGGAACGGCTCCCGTTCGTTACGCTGCTGCTCCGGCTCCGGGGCAACACCGAAATTGAACGCGACGCGCTGGAACGGCGGCGCTCATTTGACCACAAGGTGGCCGGGCTGATTTCCGCCGCCCGCGACGAGGGGTCCCTGCGCCAGGACATCGACCCCCGTACCGTCACGCGGCTCCTGTTCGGCATGATCAACTCGATAGTGGAATGGTACAAACCGGGCGGTTCACTCTCCCCCGAGAGACTGGCCGACGACGTCATCACCATGGCGTTCGACGGTCTCCACTCACAGGCCTAA	MSSTSEISSTTAPLKRGRPGYDQQSVLLIAVDVFNRHGYDATSMGILAENLGISKSAIYHHVPSKGDLLKLALEHALGGLEAILDQPEATSGAADARLEYVLRQTVAVLVERLPFVTLLLRLRGNTEIERDALERRRSFDHKVAGLISAARDEGSLRQDIDPRTVTRLLFGMINSIVEWYKPGGSLSPERLADDVITMAFDGLHSQA				NA	NA	NA	NA	NA
D1-29_03734	1110			hypothetical protein	ATGAGCCCCAGCAACGGCCAGGAACCGTGCCGCGCAAGCCGCTTCCGGACAACCCTTGGGGCCGTGCTGCTGGCCGCCGCGGTGTCCGTCTCCGGCTGCACGGACTCACCCACTCCCCCCGGTCCCACCGTATCGTCACCCACAGCGCCTCCTGCCGGCACCATGCAAACCCCCCGGCCAGGGCCCGGCCCTGATAATTCCGCCCCTGCCGCGGCCGGCGACATCCCGCAGCTGGTGGAGAACCTGGCACCATCCGTGGTGACCATCTTTACCGAGGGCGGACTGGGCAGCGGCGTGGTGTACTCCGAGGACGGCCTCATCCTCACCAACGAACACGTCATCCGGGGTGAAACCACCGTTCAAGTTGCCTTCGCTGACGGCCAGAGGGTGGAAGGGACAGTGCGGGCAACCGACCCCGTCACAGACCTCGCCCTGGTCCAGGTGAACCGCACCGGGCTCCCCAAGCCGACCTACCAGACAACGCTGCCCAAGGTAGGGGAAGGTGCCATCGTGCTGGGCTCCCCGCTGGGCTTTGAGAACACGGCCACCGCCGGCATCATTTCCGGCCTGCACCGGGCCATCCCCGGCTCCGCCTCCAACAGCCTGTCCCTGGTGGACCTCATCCAGACAGACGCTCCCATCAGCCCCGGCAACTCCGGGGGCGCGGTGCTCAACATGCGCGGGGAGGTGATCGGCATCAGCGAGGCGTACATCCCGCCACAGGCAGGGGCTGTTTCGCTGGGCTTCGCCATTCCCGCGGCCACGGCCGTGGAAGTGGCCGAAGAGCTGTTGGCAGACGGCACGGCGGAGCATGCCTACCTCGGCCTGACACCGGGCGAGCTGACACCACAGATCGCCGGGCAGTTGGGGATCGAGGCCTACAGCGGCGTCCTGGCATTGTCTGTTGACCAGGACAGCCCGGCGGGTAAGGCAGGTATCCGCCCCGGTGACGTCCTGGAATCCATGGAGGCCGTGGACCTGACCACTCCCGAACGGCTCCTGTCCGAGCTCCGCAAACGCAACCCGGGAGATACCGTTGGGTTCAAGGTCAAGCGGGACGACCAGAGCGTGGACATCAAGGTGGAACTCACCGAAAGGCCTGCGGGATAA	MSPSNGQEPCRASRFRTTLGAVLLAAAVSVSGCTDSPTPPGPTVSSPTAPPAGTMQTPRPGPGPDNSAPAAAGDIPQLVENLAPSVVTIFTEGGLGSGVVYSEDGLILTNEHVIRGETTVQVAFADGQRVEGTVRATDPVTDLALVQVNRTGLPKPTYQTTLPKVGEGAIVLGSPLGFENTATAGIISGLHRAIPGSASNSLSLVDLIQTDAPISPGNSGGAVLNMRGEVIGISEAYIPPQAGAVSLGFAIPAATAVEVAEELLADGTAEHAYLGLTPGELTPQIAGQLGIEAYSGVLALSVDQDSPAGKAGIRPGDVLESMEAVDLTTPERLLSELRKRNPGDTVGFKVKRDDQSVDIKVELTERPAG	PGPT0014286_981	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS_SIGNALLING,PGPT0014286-degQ|hhoA-K04772	NA	NA
D1-29_03735	294			hypothetical protein	ATGACCCACCCGAAGGATGAAGCAGACCAGGGATTCATCGTCCCGGACCCGTCAACTGTCCGGGAGGACGTCCCCGGCGACGCAGGCGATGAAGGCAACGTGATCCGCTTCAGCGAAGAACAGGCGCTGATCGAGGAACAGGCAAAAGGCATCCGCCCGGACACGTACAGCGTTCCGTCCGGCGGGCCCACCATGGAGGAGGCCCGCGGCAACATGGACCTTTCGGACCAAACCGGGACGGAACCGGCTGACGACAGCAGTGATGACGGACTGCACGGAGGCGCCCAAAGCTGA	MTHPKDEADQGFIVPDPSTVREDVPGDAGDEGNVIRFSEEQALIEEQAKGIRPDTYSVPSGGPTMEEARGNMDLSDQTGTEPADDSSDDGLHGGAQS				NA	NA	NA	NA	NA
D1-29_03736	408			hypothetical protein	ATGACCCTAGCCCTGAACACAGCCACAACCATCCTGCCAGTGGATGATCCAGCCCGCGCCCGGAGTTTCTACACAGAAAAACTCGGGCTACCGCACCGCGGCAGGACGGATGATGGCAGCGAACTGCTCGGCAATCCCGGCGGCCCCATGCTGCAGCTGATGCCGGTCCCGGACGGCAGGCACTCCGAGCACACCGCCCTGACCTTCGAAGTGGAGGACATCGAGCGGACAGTCCGGGACATGGAAGCCAAGGGCGTCCGGTTCCAGGATTACGACCTGCCCCATCTCAGGACAGAGAACCACATCTGCACTACCGACTCGGAGAAGTGCGCGTGGTTCATGGACACAGAACACAACATCCTGTGCATCCACGAAACCCTGGGTAAGCAGGCCGAGTACCAGCTCTGA	MTLALNTATTILPVDDPARARSFYTEKLGLPHRGRTDDGSELLGNPGGPMLQLMPVPDGRHSEHTALTFEVEDIERTVRDMEAKGVRFQDYDLPHLRTENHICTTDSEKCAWFMDTEHNILCIHETLGKQAEYQL				NA	NA	NA	NA	NA
D1-29_03737	2109	paaZ_3	COG2030	Bifunctional protein PaaZ	ATGACCACCACTGCCACAGCCGAAGCCACAGTCGACACCGTAGAGACAGTCCCCAGTTTTGTGCAGGATGCCTGGTGGACGCCCGACGCCGGCTCCACGGCCAACGCTGTCCCTGTGCGAGATGCAAGCACGGGCGAAATCCTGGCCAAGGTCAGCACGGACGGCCTGGACCTGGCCGCCGTGGTTGAATACGGCCGCACCACGGGCCAGGCGGAACTGGGCCAGTTCACCTTCCACCAGCGCGCCCTCAAGCTCAAGGAGCTGGCGCAGTATCTTCATGCGCGGCGTGAACACTTCTACGCCTTCTCGGCCCAGACCGGTGCCACCAAGGTGGACAACCTGATCGACATCGACGGCGGCATCGGCGTCCTGTTCACCTTCGGGTCCAAGGGTCGGCGTGAACTGCCCAACTCGCAGGTGGTGGTGGACGGGCCGCTGGAGGTGCTGTCCAAGGACGGCTCCTTCGCCGGTGAGCACATCTACACCCGCATCCCGGGTGTGGCCGTGCAGATCAACGCCTTCAACTTCCCGGTCTGGGGCATGCTCGAAAAGTTCGCACCTGCTTTCATCGCCGGCGTTCCCACCATCGTCAAACCGGCCACCCCCACCGGATACGTGGCTGCCGCCGTGGTCAAGGCGATCGTCGAATCCAACATCCTGCCGAAGGGCTCGCTGCAGCTCATTTCCGGCTCGGTCCGCGGGCTCCTGGACGTGCTGGACTACCGCGACCTGGTGGCCTTCACAGGCTCGGCCTCCACCGCCCTGTCCCTGAAATCGCACCCGAACGTGGTCCAGGGCGGCGTCCGCTTCACCTCCGAAACGGACTCCCTGAACGCCGCCATCCTGGGCCCGGACGCAGTGGAGGGCACGCCGGAGTTCGACGCGTTCGTCAAGTCAGTCGTGACCGAAATGACGGCCAAGGCCGGGCAGAAGTGCACTGCCATCCGCCGCGCCATCGTGCCGCAGGAGCTGGTTCCAGCGGTGTCCGCGGCCATCGGCCGGCGCCTCTCCGAACGTGTTGTCCTGGGCGACCCCCGGGCTGACGGCGTCACCATGGGCGCCCTCGCCTCGGTCGAACAGCTCGCGGACGTCCGTGCCGCCGTCCAGTCAATGCTCGACGCCGGCGGTGAGCTTGCGTACGGAACCCTTGATTCGCCGTCGGTCACCACTGCCAACGGTGATACCGGGGTTGTGGAGGGCGGCGCCTTTATGGCGCCGGTCCTGCTCAACTGGCCGGACTCCGAGGCGGAAGAAGTCCACTCGCTGGAGGCGTTCGGCCCGGTTTCGTCGGTCATTGGGTACAAGGACATTCCCGACGCCGTCCGCCTCGCCGCCCGCGGCAGCGGCTCGCTCGTGGCCTCTGTATGCACCAACGATCCTAAGGTGGCCCAGGAACTGGTGATGGGCATCGCGGCCCACCACGGCCGGGTCCTCATGCTCAACCGTGAGGACGCCCGCAGCTCCACCGGCCACGGCTCACCGGTCCCGCACCTGGTCCACGGTGGCCCCGGCCGGGCAGGGGGCGGCGAGGAACTGGGCGGCATCCGCTCGGTCATGCACCACATGCAGCGCACAGCAATCCAGGGCTCACCCAACATGCTCACCGCCGTCACGGGTGTCTGGCACGCCGGGGCCGACCGGAATTTCACGGTTGAGACGGAAGGGACTCACCCGTTCCGGAAGTCGCTGGAAACCCTGCTCATTGGTGATGCCATCCGCTCGGATCTGCGCCAGGTCACCCTGGAGGACATCACTGCCTTCGCCAACTCCACCGGCGACACCTTCTACGCCCACACCAACCAGGAGGCCGCGGAAGCCAACCCGTTCTTCCCCGGCATTGTGGCGCACGGCTACCTGTTGCTGGCCTGGGGTGCCGGACTGTTCGTGGAGCCGGCGCCGGGTCCTGTCCTGGCCAACTATGGGCTGGAGAACCTGCGCTTCATCACGCCTGTGGCTGCGGGGGATTCCATCCGGGTGACCCTGACGGCCAAGAAGATCACACCCCGTGAGACCGACGAGTACGGCGAGGTGGCCTGGGATGCGGTGCTCACCAACCAGAACGACGAGATCGTCGCAACGTACGATGTCCTGACCCTCGTGGAGAAGTAA	MTTTATAEATVDTVETVPSFVQDAWWTPDAGSTANAVPVRDASTGEILAKVSTDGLDLAAVVEYGRTTGQAELGQFTFHQRALKLKELAQYLHARREHFYAFSAQTGATKVDNLIDIDGGIGVLFTFGSKGRRELPNSQVVVDGPLEVLSKDGSFAGEHIYTRIPGVAVQINAFNFPVWGMLEKFAPAFIAGVPTIVKPATPTGYVAAAVVKAIVESNILPKGSLQLISGSVRGLLDVLDYRDLVAFTGSASTALSLKSHPNVVQGGVRFTSETDSLNAAILGPDAVEGTPEFDAFVKSVVTEMTAKAGQKCTAIRRAIVPQELVPAVSAAIGRRLSERVVLGDPRADGVTMGALASVEQLADVRAAVQSMLDAGGELAYGTLDSPSVTTANGDTGVVEGGAFMAPVLLNWPDSEAEEVHSLEAFGPVSSVIGYKDIPDAVRLAARGSGSLVASVCTNDPKVAQELVMGIAAHHGRVLMLNREDARSSTGHGSPVPHLVHGGPGRAGGGEELGGIRSVMHHMQRTAIQGSPNMLTAVTGVWHAGADRNFTVETEGTHPFRKSLETLLIGDAIRSDLRQVTLEDITAFANSTGDTFYAHTNQEAAEANPFFPGIVAHGYLLLAWGAGLFVEPAPGPVLANYGLENLRFITPVAAGDSIRVTLTAKKITPRETDEYGEVAWDAVLTNQNDEIVATYDVLTLVEK	PGPT0006100_105	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006100-paaZ-K02618	NA	NA
D1-29_03738	444		COG2050	Putative esterase	ATGACCGCCGAGCCCACAGATACCGCCCCCTCCCAGAATTCTGCCGACGCCGACCTGTGGAAAATCACCCTCGGCGAACTGGACGAAAAAATGGGCGTCAAGATCGTGGAGGAGTCCATCCAGCGCGTGGTGGCCACCATGCCGGTGGAGGGCAACAGACAGTCGTTCGGGCTGTTGCATGGCGGTGCATCCCTGGCGGTGGGAGAGGCCGTGGGTTCGTGGGCTGCCGTCATCCACGCGGGCACGCTGGGCAAGACCGCCGTGGGCGTGGACGTTTCGGCAACCCATCATCGGTCCGCGAGGGAAGGCACGATCACCATCACGGCCACACCGATCTACCTTGGCGGGACCCTCACCACGCACGAGGTCCTGATCACCAACGAGGCCGGCGAGCGTCTCTGCACGCTTCGCATCACCAACCTGCTCCTCGACCGGAAGGTCTAG	MTAEPTDTAPSQNSADADLWKITLGELDEKMGVKIVEESIQRVVATMPVEGNRQSFGLLHGGASLAVGEAVGSWAAVIHAGTLGKTAVGVDVSATHHRSAREGTITITATPIYLGGTLTTHEVLITNEAGERLCTLRITNLLLDRKV	PGPT0001845_1610	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
D1-29_03739	2037			hypothetical protein	ATGGCTGCGACGTTCGGGGCGGTTCCCGCGGTCGCCACTACTTTGCCGCCTGATCCGGTGCCGGCAGCTTCGGCTCCCGCGAGGACTGAGAGCCCGACGGCGGCAGGCACGGGAATCAGCGAGGACGGCCTCGCCGAGGCCGTCCTGCGCGACCTTGGCCTCAGTCCTGAGCAGTTCAACGCTGCCGGAGAGCTGGGCAAGCAGGCGGCCCAAGCGGCTTCGGCACTCCGGGACGTCCCCGGGTACGTTGGAATCCGGCTGCAGGACACCCGGATCCTGGTTACAGGCCAGGGCCCGGAGCTGGAGGCGAAGGTGGCCGGGCTGTCCGGAAGCATCCCTGCCCTGCTGCTCGAGACGCCTGCCGCAGGGGAGCCGGCCACGGCACACCAGGCCACCGCAGACCAGGCCACCCCAAACCAGACTGCCGCTTCCCGTGAGAGTGAGGCCGCCGCTCCTGTCCGCGGGAGTGAGCTTGCCGCCAGCACCCAGCAGCTGTTCCAGGCCTATGTCAGTGAGGTGGGGCCGGAGGACCTCCAAGCTGTGGCCTACTCCCGCGGCAGGTTTGTCATCCGTACAGGGGGAGCCACCGCCTCCGAATCTGTTGAGCAGGAATTACAGGCCGCCAGGGGGCCTGCTGCCCAACGCGGCGGGACGAAGATGTCCGCGGAGGCATTCGTGGCCAGGTATGCGAATGTGGAGCTCGACGCCGGTGCGGAGCTGGTTCCCGAGGCGGCGGAGGTTCTGGGCGGCCAGGGCTACTTCGCGGACAACGGGCAGATATGCTCCACCGGGTTTTCGGCTTTTGACCCCGCCGGCCTTCCAGCGGTCCTCACTGCCGGGCACTGCTCGGACGACGGCTCCGTAGACAAAGCCACCCTGGAATACCAGGCGAATCCCATCGGCCTGCTGGGGACCTTCGGATTCAACCAGTTCGGCGGTCCCGGCAACAGCGCCATAACCGGGATTGACGGCAACACTGCCGATCCGGACAAGCCAGGGAATGTGGGAACGGACATTGCGGTCATCGAGTCCATCCGCCCTGGCCTGGACCCCGCACCCGCCGCCAGTACGTGGGGACATTCTTCCGAACCCGGACCGGACGTGAAAATCATCGGCACGGCGGCGCCTGTGGAAGGCCAGCCGGTCTGCCGGTCGGGACGGTCATCGGCCTGGTCCTGCGGAACCATCGACGAAGTGGGCATCTATGTGGTGCCCGGGCCGGGATTCGCTGCGGACCCTACGGACCTTCGGGCCTTCAACGGCTTCCTCTCTTTTGGTGTCCAGTCCAGCGGCGGCGACTCCGGCGGACCCTGGGTCAGCGGCAACTACGCCGTAGGCACGCACAGCGCCGGAGACGTTCCGGACGAGTTCGGCAACGTGCAGAACTTCGCCGTGGCGGCCACCCTGGATGACGCCCTGGCCGTGCTGCCCGGCTACCAGCTGGAGCTTTTCCTCAACAAGCCGCTGGTGGTTTCCCCCGCGCCCGGTGGAACAGTCAAGCCTGGCCAGACAGTGACCGGGCAGGTATCCGCGGCCCCTGCCTCCGCTGTCGCAGCAGGGTCCACTGTCAGGATCACGCTCCCCGGACAAGCCCCGTTCGACGTCCCGCTGGACGCGGCCGGTCACTGGACTTTCACCGCACCTGACACGGCCGGCCCCTTGCGCTTCACAGCAGAGACAAGGAACGGCTACAGCGCCTCGGGAGCCGGCAGCTTTGAGTTCGCGGCCCCCACACCGGTCGCTCCCACACCGGTCGCTCCCGCGCCGGCCCCACCGCCGGCCGCTGCCCCCGGTCCGGCCCCCGCGCCGGCACCAAGTCCGGCCAAGCCAACGGCCTCCGCGTCTCCACCTCCCAACGATGCCGTTCTCCCCGCAGGTGACCGCACCGCCGTCGGAGGCTACGCAAACCTGGCTGATACCGGGGCGGATGGAATCATCGCCGCAGCAAGCGTCGCTGCTGGTGCCATCGCCGTCGGCAGCCTTTTCCTTGTCCTCGGCATGCGGCGAAAGAAGCAGCGCCCTCCCGCCACCCGTTGA	MAATFGAVPAVATTLPPDPVPAASAPARTESPTAAGTGISEDGLAEAVLRDLGLSPEQFNAAGELGKQAAQAASALRDVPGYVGIRLQDTRILVTGQGPELEAKVAGLSGSIPALLLETPAAGEPATAHQATADQATPNQTAASRESEAAAPVRGSELAASTQQLFQAYVSEVGPEDLQAVAYSRGRFVIRTGGATASESVEQELQAARGPAAQRGGTKMSAEAFVARYANVELDAGAELVPEAAEVLGGQGYFADNGQICSTGFSAFDPAGLPAVLTAGHCSDDGSVDKATLEYQANPIGLLGTFGFNQFGGPGNSAITGIDGNTADPDKPGNVGTDIAVIESIRPGLDPAPAASTWGHSSEPGPDVKIIGTAAPVEGQPVCRSGRSSAWSCGTIDEVGIYVVPGPGFAADPTDLRAFNGFLSFGVQSSGGDSGGPWVSGNYAVGTHSAGDVPDEFGNVQNFAVAATLDDALAVLPGYQLELFLNKPLVVSPAPGGTVKPGQTVTGQVSAAPASAVAAGSTVRITLPGQAPFDVPLDAAGHWTFTAPDTAGPLRFTAETRNGYSASGAGSFEFAAPTPVAPTPVAPAPAPPPAAAPGPAPAPAPSPAKPTASASPPPNDAVLPAGDRTAVGGYANLADTGADGIIAAASVAAGAIAVGSLFLVLGMRRKKQRPPATR				NA	NA	NA	NA	NA
D1-29_03740	720			hypothetical protein	ATGGAGAAACCTGGCGGGGCGGTGGACTGGGACGGCGCCGTGAATGCCTGGCACGTGGCGGGCAGCGTTTACCGGATGGGCCGCCGCGAATGGCTCACGGAGGCGGGTTGGCGGCAGGCGTACGACGAAGGCGTCCGCACGGTCATTGACCTCCGGAACTCCCATGAAGCGCGCCGCCGGGACACCGACCCCGTGATAGCTGAAACTGCCTGGTCCGGACTCGCCGTGGTGTCCACCCCCACTGAGGATCCGGACGATCCGCGGCTGACTTCAGTGTGCGGACCTTACATCAAGGATCCTGCGCACTACCTCCACAACGTTCGCCTCTATCCGGAGAAGTTTGTGGCCATCTTCCGCGCCATTGCCACATCCGCGCCAGCGGGCGGTGTGGTGATCCATTGTGCTGCCGGGCGGGACCGCAGCGGAATGGTGGCGGCCATGCTGCAGGATCTGGCCGGGGACTCGGACAAGCAGATCGCCGGCGGCTACGAGCAGGCTGCGCGGGGCATCAATGAGCGCTACCGCACGCACGGGCCGCCGCATGACAGGGAGCGCTATATCGAGGAGGCCGAGCTGGCGCCGATACTCTCGGAGCGTGGCCGAGCGGTTGTGGACGTTGTGCGTACCCTCGAGACCTCGTCCTTCCTGCTCCGACACGGCCTGACCCCGGCTGAACTGGCCGCGGTCCGGTCTGTGTTGGGCAGCCGGGTGGCGCTGTGA	MEKPGGAVDWDGAVNAWHVAGSVYRMGRREWLTEAGWRQAYDEGVRTVIDLRNSHEARRRDTDPVIAETAWSGLAVVSTPTEDPDDPRLTSVCGPYIKDPAHYLHNVRLYPEKFVAIFRAIATSAPAGGVVIHCAAGRDRSGMVAAMLQDLAGDSDKQIAGGYEQAARGINERYRTHGPPHDRERYIEEAELAPILSERGRAVVDVVRTLETSSFLLRHGLTPAELAAVRSVLGSRVAL	PGPT0014530_3262	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
D1-29_03741	900			Lipase	ATGGCACACTCAACAGGACGACGGCGGCTCCCGGCTTTTGCCGCTGGCCTCGCCACCGCGGCCATGGCACTAGGCTTCACGGCCATTCCTGCGGGCGCAGCGCCGCCGGTTCCGGATGTCGACCTCGTGGCGGTCGGCGACTCTTACACGGCCGGTGTTGGGGCCGGGGACTACACACGGCCTTTCCCTTGCCCCCAGACAAGCACCGGCTATGTAGATCTGCTGAGAGCTCTGCCCATTATTGACGACGTTGCCAGCAATGAAGCGTGCGGTGGAGCGCTCCTGGTCGACAGTCCATCCGTCGTACCCAGCGTAATGGAGCAGATCGCGGCCCTCGCCGCCGCCGAAGGACTGTCCGGCCGGACCGAACTGGTCACATTGACTGCGGGGGCGAATGACCTTGACTTCACCACACCCTTGGCTATCTGCGCAACGTCCACGCTCTTTGACTGCGCCCAGGCTGTACAAGCAGCTCGCACCAAGTTTCCTGTCATTCAAGCCAACCTTGTGGAAGCGCTGATCGCAATCCATAAGGCCGCCCCGCGCGCCAAAATTGTGGTGTTTGGTTACCCGCTCCTTTTTGATCCCGAAGGCGGGCTGACGCTGCTGCCCCCAGAGGCACAAATGCTGGTCAACGCAGGCACGGCAGCCCTTAACGAGGCGATCTCCGACGCTGTGGCTATCGCCAACGCTGAGGCAAAGGCTAACGCTGTGTACGTCGACGTCACGGAGGAGTTCGCCGATCACGCCATTAACTCCCTCACCGCAGAATCGTGGATCAACTTCAATCCTCAGGTCCCATTTGCCCCGGAGAATTTCCACCCCAACCCGGCCGGACACGACGCTTACGCCGACGCCCTTGTCGCTGCGGTAAACCTCCAGGCGCTCGCCCGGCGTTAA	MAHSTGRRRLPAFAAGLATAAMALGFTAIPAGAAPPVPDVDLVAVGDSYTAGVGAGDYTRPFPCPQTSTGYVDLLRALPIIDDVASNEACGGALLVDSPSVVPSVMEQIAALAAAEGLSGRTELVTLTAGANDLDFTTPLAICATSTLFDCAQAVQAARTKFPVIQANLVEALIAIHKAAPRAKIVVFGYPLLFDPEGGLTLLPPEAQMLVNAGTAALNEAISDAVAIANAEAKANAVYVDVTEEFADHAINSLTAESWINFNPQVPFAPENFHPNPAGHDAYADALVAAVNLQALARR				NA	NA	NA	NA	NA
D1-29_03742	609			hypothetical protein	GTGACCTCCATCGAACCCATCACCTTGACCGGGCAGTACGTCATCCTGGAACCCCTCAACCACGCGCATCACGACGGCCTCGTGGCGGCAGCGCGGGACGGCGAGCTCTGGAAGCTCTGGTACACCTCGGTCCCCACGCCCGACGGGATGGCGGCGGAGATCAGCCGGCGCCTCGGGCTTCAGGACCAGGGATCCATGTTGCCGTTCACCACGCGGCTGATCGATCCTGCTACGGGCGGCCCTGGCAGGATCATCGGCATGACCACCTACATGAACATCGACGCCGGTACGCCCCGGGTGGAGATCGGCTCCACCTGGAACGCGGCGTCGGTCCAGGGCACCGGTACCAACCCGGACTCCAAGCTGCTGCTCCTGCGCCACGCCTTCGAGGTGCTGGGCTGCCCAGCGGTTGAATTCCGGACGCACTGGCTCAACCACCAGTCCCGGGACGCCATTGCCCGGCTGGGCGCAAAGCAGGACGGTGTGCTGCGCAACCATTCGCGGACCACGGACGGCGTGCTCCGGGACACCGTGGTGTTTTCAATCCTGGAGCACGAGTGGCCCATGGTCCGCGCCGGGTTGGAGTTCCGGCTCGCCAGGCAGCGGTAG	MTSIEPITLTGQYVILEPLNHAHHDGLVAAARDGELWKLWYTSVPTPDGMAAEISRRLGLQDQGSMLPFTTRLIDPATGGPGRIIGMTTYMNIDAGTPRVEIGSTWNAASVQGTGTNPDSKLLLLRHAFEVLGCPAVEFRTHWLNHQSRDAIARLGAKQDGVLRNHSRTTDGVLRDTVVFSILEHEWPMVRAGLEFRLARQR	PGPT0017630_53	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
D1-29_03743	243			hypothetical protein	ATGACAGGGCCAAATCCGGACCCACTGGAAAACAACATCTCCGGCCTGGAGCCCGGCGGCGGCGTTCCCCCGGGAGAAACCCCGCCCGGCGAGTCTTCCACCGCCGGCCCTCAGGGCCACGACGAACACGGCACCCGGAAAGTCACGCAGTACTTTTGGATCGGCGTCATCGCAGTGGTGGTCCTGCTGGCCCTGCTGTTTTTCGTCGGCTACCTTGTGGGGCTGCTCCCCCGCCTGACGTGA	MTGPNPDPLENNISGLEPGGGVPPGETPPGESSTAGPQGHDEHGTRKVTQYFWIGVIAVVVLLALLFFVGYLVGLLPRLT				NA	NA	NA	NA	NA
D1-29_03744	873	hbd	COG1250	3-hydroxybutyryl-CoA dehydrogenase	ATGGCCAACTCTGAACTTGCCCCAGGTTTACCCGCGTCCGTGGGCGTGCTGGGCGGCGGCCGCATGGGCGCCGGCATCGCGCACGCCTTCCTGATCAAGGGTGCCAACGTGGTGGTGGTGGAGCGCGACGAAGAGTCAGCCCAGGCCGCACAGGAGAGGGTGGAAGCGGCGGCTGCCGCAAGCATCGAACGCGGAACCACGGACGGCAACCTGGAGGAGATGGCTTCCCGGCTTGCGGTCACGGTGGACTATGACGATTTCGCTGACCGCCAGTTAGTGGTGGAGGCCGTACCTGAGGACTGGGACCTTAAGGTCACCTCGCTGCGGGGGATTGAGGAGCGGCTCGGTGAAGATGCCTACCTCGCTTCCAACACGTCCTCGCTGTCCGTCAACGGCCTGGCCGGCGAGCTGAAGCGGCCGCGGAATTTCCTCGGCCTGCACTTCTTCAACCCGGTGCCCGCCTCCACCCTGATTGAGGTGGTGCTGGGCGAGCAGACGTCCCCGGACTTGGCGGCTGCGGCAAAAAAGTGGGTTGAGGCACTCGGCAAGACCGCCGTCGTCGTCAATGACGCCCCGGGGTTCGCGTCCTCCCGTCTGGGCGTGGCCATCGCGCTGGAGGCCATGCGCATGGTGGAGGAGGGGGTGGCGTCCGCTGAGGACATCGACGCTGCGATGGTCCTGGGCTACAAGCACCCCACCGGCCCGCTGAGGACCACGGATATTGTGGGCCTGGATGTGCGCCTGGGCATCGCCGAGTACCTGCACTCCACCCTCGGTGAGCGGTTTGCCCCGCCGCAGATTCTCCGGGACAAGGTGGCCAGGGGCGAACTGGGCCGCAAGAGCGGCAAGGGCTTCTTCGACTGGACCGGGTAG	MANSELAPGLPASVGVLGGGRMGAGIAHAFLIKGANVVVVERDEESAQAAQERVEAAAAASIERGTTDGNLEEMASRLAVTVDYDDFADRQLVVEAVPEDWDLKVTSLRGIEERLGEDAYLASNTSSLSVNGLAGELKRPRNFLGLHFFNPVPASTLIEVVLGEQTSPDLAAAAKKWVEALGKTAVVVNDAPGFASSRLGVAIALEAMRMVEEGVASAEDIDAAMVLGYKHPTGPLRTTDIVGLDVRLGIAEYLHSTLGERFAPPQILRDKVARGELGRKSGKGFFDWTG	PGPT0006075_3619	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074	NA	NA
D1-29_03745	813	crt_2	COG1024	Short-chain-enoyl-CoA hydratase	ATGGCGGACGCGCGGGACCTCGCGAATGAACACTTCAGCACCCTGCTGGTCGAGGAGCGGGATGACCGGGTGGTGGTGCTGCTCAACCGCCCGGACGTCAGGAACGCCATCGACCAGCAGATGGTGGATGAGCTGCACGTGGTCTGCGCGGCGCTGGAGCAGAATCCCCGGGTGCTCATCATCGCCGGCGTGGACGGTGTATTTGCCTCGGGCGCGGACATCTCCCAGCTGCGCGAACGGCGCCGGGACGACGCCCTCCAGGGCATCAACTCCACGCTTTTTGTGCGGATCGCCAAGCTTCCCATGCCTGTCATCGCCGCGCTTGACGGCTACTGCCTGGGCGGCGGCGCCGAGCTCGCCTACGCTGCTGATTTCCGGATCGGCACCCCCAGCGTCCGGATCGGCAACCCGGAAACGGGACTGGGGATCCTGGCCGCGGCAGGTGCAAGCTGGCGGCTCAGGGAACTGGTGGGGGAGCCGGTGGCCAAGCAGATCCTGTTGGCTGGGCTGGTGCTCCGTGCCGAGGAGGCGCTGGCGCTTCACCTGATCACGGAGATCCACGAGGCGCCCCTCCTGATGGAGGCTGCGCACAACCTTGCGGACAGGATTGGCCGCCAGGATCCGCTCGCGGTGCGCATCACCAAGACAGTGTTCCATGCACCGGCCGAGGCGCACCCGCTGGTGGATCAGCTGGCGCAGGGAATCCTGTTTGAATCCCCGGCGAAGTTTGACCGGATGCAGGCTTTCCTGGACCGGAAGGCTGACAAGAAAGCCCAGGAAGCCGCGAACCAGGCTGACGGAAAGAAGAACTGA	MADARDLANEHFSTLLVEERDDRVVVLLNRPDVRNAIDQQMVDELHVVCAALEQNPRVLIIAGVDGVFASGADISQLRERRRDDALQGINSTLFVRIAKLPMPVIAALDGYCLGGGAELAYAADFRIGTPSVRIGNPETGLGILAAAGASWRLRELVGEPVAKQILLAGLVLRAEEALALHLITEIHEAPLLMEAAHNLADRIGRQDPLAVRITKTVFHAPAEAHPLVDQLAQGILFESPAKFDRMQAFLDRKADKKAQEAANQADGKKN				NA	NA	NA	NA	NA
D1-29_03746	1230	paaJ_3	COG0183	3-oxoadipyl-CoA/3-oxo-5,6-dehydrosuberyl-CoA thiolase	ATGGCTGCAGGTACCGCAGGACCACAGGCTTTTCTTGTTGGCGGTGTCCGGACACCGGTGGGCCGTTACGGGGGCGCCCTCTCGTCGGTCCGCCCCGATGACCTCGCCGCCCTGGTCATCCGGGAGGCAGTGGCGCGCGCCGGGCTCGATCCGGACAGCATCGACGAGGTCATCCTCGGCAACGCCAACGGGGCCGGGGAGGAAAACCGGAACGTGGCCCGGATGGCCACGCTCCTGGCAGGGTTGCCCGTCCATATTCCCGGCATCACGGTGAACAGGCTGTGCGCGTCCGGCCTCAGCGCCATTATTCAGGCCAGCCAGATGATCAAAGCAGGCGCCGCGGACGTTGTCATCGCAGGGGGCGTCGAGTCCATGAGCCGTGCGCCCTGGGTGCAGGAAAAGCCAACAAGCGCCTTCGCCAAGCCGGGCCAGATCTTCGACACTTCCATTGGCTGGCGCTTCGCCAACCCGCAGTTCCAGCACGGCGAGCTGTCCCGGGACGGGAAAATGACTTACTCCATGCCGGAAACCGCGGAGGAAGTGGCCCGAGTGGACAGCATCTCCCGGGACGACGCAGACGCCTTCGCCGTCCGCTCCCACGAACGTTCCCTCGCCGCCATCGAGGCTGGCCGGTTTAAGGATGAGATCGTCCCGGTCACGGTCAAGAGCCGCAAGTCCGAACACGTGGTGGACACGGACGAAGGGCCCAGGGCCGGAACCACCATGGACGTCTTGGCAAACCTTAAACCGGTAGCGAACGGCGGCTCCGTGGTGACCGCAGGCAACTCCTCCAGCCTCAACGACGGCGCCTCCGCCATCATCGTCGCGTCCGAGGCCGCCATCGAACGGCTGGGGCTGACGCCCCGGGCCCGCATCATCGACGGCGCCTCCGCGGGCTGCGAACCGGAAATCATGGGCATCGGCCCGGTCCCGGCAACCCAGAAGGTACTCAAGCGCACGGGCATCAGCGTCGGTGACCTCGGCGCCGTCGAGCTTAATGAAGCCTTTGCCACCCAGTCGCTGGCCTGCATCCGCCGGCTGGGCCTGGACCCGGACATGGTGAATAACGACGGCGGGGCCATCGCTTTGGGCCATCCGCTGGGTTCGAGCGGATCCAGGATCGCCATTACCCTGCTGGGCCGGATGGAACGCGAGGATGCCGGGATCGGACTGGCCACCATGTGCATCGGCGTGGGGCAAGGCACCGCAATGCTGCTGGAGCGGGTCTGA	MAAGTAGPQAFLVGGVRTPVGRYGGALSSVRPDDLAALVIREAVARAGLDPDSIDEVILGNANGAGEENRNVARMATLLAGLPVHIPGITVNRLCASGLSAIIQASQMIKAGAADVVIAGGVESMSRAPWVQEKPTSAFAKPGQIFDTSIGWRFANPQFQHGELSRDGKMTYSMPETAEEVARVDSISRDDADAFAVRSHERSLAAIEAGRFKDEIVPVTVKSRKSEHVVDTDEGPRAGTTMDVLANLKPVANGGSVVTAGNSSSLNDGASAIIVASEAAIERLGLTPRARIIDGASAGCEPEIMGIGPVPATQKVLKRTGISVGDLGAVELNEAFATQSLACIRRLGLDPDMVNNDGGAIALGHPLGSSGSRIAITLLGRMEREDAGIGLATMCIGVGQGTAMLLERV	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
D1-29_03747	663			hypothetical protein	GTGGCGGCCAAAGCGCCCAAGGTAACACCTCCACGGCTTTCGGAAATCCACCTCGAAGGGCTGGCGGAGGACCCCGCGCCGGACTTCCAGCGGGGCGAAAGGTACGACGGCGTCCGGTACAGCCGCGCCGCGGCTGACGGTTTGGAACTGAGCGGCACTGACTTCGCCGAATGTGAGTTCCAGGGCGTCTCCTTCAATGACGCGCAGCTCCGCGGGGCCACCTTCAAGGACTGCCTCCTGGCCGAGCTCTACGCGCCGGTGTTCAAGGCGGCCCGCTCCACCTGGCGGGACGTGCAGATCACCAACCCCCGCCTGGGTTCCGCTGAGATGTATGAGAGCGGCTGGCAGTCCGTCCGGATCGACGGCGGCAAGCTGGACTTCCTGAACCTCCGGGGCTCCAAATTGATGGATGTCCTGATTACGGGCTGCATCATCAATGAGCTTGATCTCGGCTCAGCCTCCGCCACCAGGGTGGTGCTCAAGGACTGCACTATCGGCACATTGGATATAGGCGGAGCCAAGCTCAAGGACGTGGACCTTCGCGGCACGGATTTCCGCACAGTCAACGGCCTGGGGAGCATGGCCGGCATGGTGATCGACGACTACCAGCTCAGCCTTCTTGCCCCGCTTCTGGCCGGCCACCTGGGCGTTGTGGTCCTCTAA	MAAKAPKVTPPRLSEIHLEGLAEDPAPDFQRGERYDGVRYSRAAADGLELSGTDFAECEFQGVSFNDAQLRGATFKDCLLAELYAPVFKAARSTWRDVQITNPRLGSAEMYESGWQSVRIDGGKLDFLNLRGSKLMDVLITGCIINELDLGSASATRVVLKDCTIGTLDIGGAKLKDVDLRGTDFRTVNGLGSMAGMVIDDYQLSLLAPLLAGHLGVVVL				NA	NA	NA	NA	NA
D1-29_03748	459			hypothetical protein	ATGGATCACAGCACCAGCCTCACCCAGCACATCCACGCTTCGCCGGATAAGGTCTGGTCCGTCATTTCGGACATTCCGGGCTCGGCGGGAACCCTGTCCGGCGTCCAGTCGGTACAGATGCTCAGCGACGGACCCTATGGCGAAGGGACCCGCTGGAAGGAAACCCGCACCATGATGGGGAAGTCGGAAACGGTGGAGATGTGGGTGGCGCAGGCTGATCCGCCGCGCAGCACCACGGTCAAGGCCATGCAGAACGGCGCCGACTACACCACGCGCTTCAACCTGGCGGAACGCGGCGACGGAACCGACCTCACCCTGACCTTCGGCGCCGAGGTGGTCAAGCCCGGCCTGCTCAGCCGGATCACTATGGCCCTTTTCGGTAAGCTCGGCATGCAGATGACCCGGAAGGCGCTGGCCAAGGATTTGGCGGAAATCGCTGCCAAGGCGGAATCCCTGTAG	MDHSTSLTQHIHASPDKVWSVISDIPGSAGTLSGVQSVQMLSDGPYGEGTRWKETRTMMGKSETVEMWVAQADPPRSTTVKAMQNGADYTTRFNLAERGDGTDLTLTFGAEVVKPGLLSRITMALFGKLGMQMTRKALAKDLAEIAAKAESL				NA	NA	NA	NA	NA
D1-29_03749	177			hypothetical protein	ATGGGCCTCGGAGACAAGATCAGTAACGCAGCAGAAGACATGGGCGGCAAGGCCAAGGAAGCGGCTGGCAAAGCCACCGACAACGATCGCCTCAAGGCAGAAGGCCAGGCCGATCAGGTCAAGGCCGATGCGAAGAAGGTCGGCGAGGACGTCAAGGACGAATTCAAGAGGGACTAG	MGLGDKISNAAEDMGGKAKEAAGKATDNDRLKAEGQADQVKADAKKVGEDVKDEFKRD				NA	NA	NA	NA	NA
D1-29_03750	342			hypothetical protein	ATGAACCAGGATGCCGACGTTGCGCCAGCGGTTGAGGACGGCGGTTCATTGGAGTTCGTGCGCGCCCATGCGTGGGAAGTTAAACACAAGCTCGAGCAGAACCCGGATGAGATGGTGCACTTCGTCTGTTGCCGTGACCTGGACTGGCGGAAAGCTCTCTGCGGGTATGAGGAGCCCGAGATGACGCTCGCACCGCAGGCCACTGTCTTCTGCACGATGTGTGTTGAGGTCATGACAGCAAAGGGGGGTCTCCCCTGGGACGGAAATTGCCCGGTCGACGACCAGCCCTGCCCTGATGAAGAGGAAATAGACAGAATGATCGACGAGCGGACTTCCCGGTAG	MNQDADVAPAVEDGGSLEFVRAHAWEVKHKLEQNPDEMVHFVCCRDLDWRKALCGYEEPEMTLAPQATVFCTMCVEVMTAKGGLPWDGNCPVDDQPCPDEEEIDRMIDERTSR				NA	NA	NA	NA	NA
D1-29_03751	789			hypothetical protein	ATGAGACGGCTGTTTGCGTCTGCTGTGACGCTTGTCCTACTTCTGGGTGGCTGCTCGGGAGTTCCAGAACCCTTGGTCTCGGGAACACCGGCCAGCCCCGGATCTTCGGCGACTTCTCCGGACGGGCCGGTCGGCACCGCCCCGGAGGTAACGATTCCCCCTGAGGGAGTAGGCCCGGGCACCGGTCGTCCGGATGATTCCGGGCGCTATGCCTATGTGTGCACGAGTTTGTATCCCGTGCCGGATGTGAAGCTCTCCAGCCTGGCCGAGGTGTGGGCATCGCCGGGTTATCTCAGGCTGCGTTCCTGCACGGCACTCTACGAGGGCCCCGAACCATATGTACCAACAGAGGGTGAGGCCGGCATCATTGCGATCGCCGCTCCAGGGACACCTCCAGCCGAGGGGCTGGAGGTGTTCCTGTCCGCACTTGAGCTCTGCACGAGGGTCAGCGATGAGGTTGCATCCGAAGTGTTTGGAGGCAGCAGCCGCCAATTGCTCCTTGCGGCAAGCAAACTCTGCCCGAAGGCCCCACAAGGTAAAATACTAGCCCTGTGGGCTGAGGGGTCCCGGGCCGGCGACGGGGAGCACCACGTGGGTGACACTGGACTTTCTTCCGGTACGTTTCATCTGAGCAAGGCCCCGCCCCAGGAATGCACCTGGACCATCGAGGCCCCGGACGGCCATATTAGGACCTCTGGTGGCCCAGCCGAAGGGCAAGAGGGCATAACGTTGGCCGAAGGCGAGGTCCTGAACAGCGAAGCCTGCGGAATCTGGGAGAAACTCCCTTGA	MRRLFASAVTLVLLLGGCSGVPEPLVSGTPASPGSSATSPDGPVGTAPEVTIPPEGVGPGTGRPDDSGRYAYVCTSLYPVPDVKLSSLAEVWASPGYLRLRSCTALYEGPEPYVPTEGEAGIIAIAAPGTPPAEGLEVFLSALELCTRVSDEVASEVFGGSSRQLLLAASKLCPKAPQGKILALWAEGSRAGDGEHHVGDTGLSSGTFHLSKAPPQECTWTIEAPDGHIRTSGGPAEGQEGITLAEGEVLNSEACGIWEKLP				NA	NA	NA	NA	NA
D1-29_03752	924			hypothetical protein	ATGGCCGGACATACCGAAGTCTTCACCGATCATCAGTTCCAGATACGTTTCCAGCTCCTCGCACCCGATGGCAGCGTCTTCGCCGTATCCGGACCATTCGCCGACAAACACGCCGCCGTAGCTGCAATCACCGAACTCCCCGATTGCGCCCGTACTGGGCCGAGCAAGGACCACCGCAGAAAGACCACGGTCACGGCCATACCGAAACCGGATTTGGCTATGGAACTGGAGGACCTCATTCTGAACAACGGAAAACTCGAGGATTTCGTGGAAAGCCTCACCGCCGTTGCGGCAAACACGGTGAACTGCGACAGCCCCGACGCCGTCTGCTCCATAACAATCAGTCGCCCGAAAAAGCATCCAATAGAGGCCTCAAGTGGGCCCTTGGCCCGGTCACTGAACCAATTGGAGGACAACCTCAAACAAGGGCCAAACCAGACAGCCATGACCGAGCAACGCACGGTCCATGCCTCCGACCTAACCGGCGATCACCGCTGGCCCCGCCTTGCTAGATCCGCCACCGAACGAGGCATCAGATCCTGCCTGAGCATCCCCCTGGAAGTGGAAGGCCCAAACCGGGCAGTCATGAGCCTAACTGCCGTCACATCAGGTGCTTTCTCGCCCCAGGACATCTATGCCGCCGAGGTATTCGCAGAGCAGGCCTCAAGGGTGCTCCGATCTGCCCTGCGGATCAGCAAGCTAACGGAAACCGTACAGGACCTGTACGCAGCACTTGAACATAGAACGGTCATTGATTCAGCACTGGGAGTGGTGATGGGCCAGAACCGCTGTGACCATGACACGGCTTTCAAGATTCTCCTCCGCGCTGCCAGTTCCAGAAACGTGAAACTACGCGACCTGGCCGCCTCCGTCGTCGCAACGGTCTCCGGCGATACCAGCATCATTGTTCATTTTGACCCATGA	MAGHTEVFTDHQFQIRFQLLAPDGSVFAVSGPFADKHAAVAAITELPDCARTGPSKDHRRKTTVTAIPKPDLAMELEDLILNNGKLEDFVESLTAVAANTVNCDSPDAVCSITISRPKKHPIEASSGPLARSLNQLEDNLKQGPNQTAMTEQRTVHASDLTGDHRWPRLARSATERGIRSCLSIPLEVEGPNRAVMSLTAVTSGAFSPQDIYAAEVFAEQASRVLRSALRISKLTETVQDLYAALEHRTVIDSALGVVMGQNRCDHDTAFKILLRAASSRNVKLRDLAASVVATVSGDTSIIVHFDP				NA	NA	NA	NA	NA
D1-29_03753	417			hypothetical protein	ATGCAAACAAATCCGCTAACTCCTCGAACTTCCATCCCTCCACCGCCGGCACGGCAACCGGCGGTCGGCCCGCGCACGCCCTCCAACGGCACCAACGCAGACCCGCCGCACCCCACCCGCGCCGCTCTTGTATGGACGGCCACCATCGCTGTCCTTGTACTCCTGGGACTCGTAATTGTCTTCATCCTGCAAAACCAGGAACAGGTGTACGTACAGTATTTCGGGCTCGCGGGCGCGGTGCCCCTTGGCATCGCCCTTTCCATCGCCGCAGTCGTCGGCGGACTCCTCGTGGCAGTCACCGGCGCAATCCGTATCGTGCAACTGCGAACTGCCGCCACTCGCCTACGACACCGTTCCCCGACGAGGCCAACAAAGGTGGGGCATCAACTGTTCAGACACGGACACCCCGTCAGGTGA	MQTNPLTPRTSIPPPPARQPAVGPRTPSNGTNADPPHPTRAALVWTATIAVLVLLGLVIVFILQNQEQVYVQYFGLAGAVPLGIALSIAAVVGGLLVAVTGAIRIVQLRTAATRLRHRSPTRPTKVGHQLFRHGHPVR				NA	NA	NA	NA	NA
D1-29_03754	306			hypothetical protein	ATGGCACTGTCAGAGGAAGAACGAAAACGCCTTGAAATGCTCGAACAGGAGCTGGCTTCCAGCGACCCGGATCTGGAGCGGACACTGCAGACCGGAGCGCCCGGGCACCACCCTCGGGAGGCCACCACGATGGTCCGCGGAATCCTCACGCTGGTAGCCGGATTCGCCCTTGTCATTGTGGGCATCGCAACAGAACTCATCATCATCGGCGCCGTAGGGTTCCTGCTGATGATGGCCGGCGCACACTGGTTCATCAAAGGCCTCGAACTTCAAACAGGGACAGAGGAGACACACCATGAAACCTGA	MALSEEERKRLEMLEQELASSDPDLERTLQTGAPGHHPREATTMVRGILTLVAGFALVIVGIATELIIIGAVGFLLMMAGAHWFIKGLELQTGTEETHHET				NA	NA	NA	NA	NA
D1-29_03755	258			hypothetical protein	ATGGGCCATCCACAGCTTTCCCGACCAGCTCGTCGTGCACGCCGGAAGGAACGACTAAAGGGCGCCGGAGGCGGGAGACCTTCCGAGGATCCGCAACTGCGCCGCATGCTGACCTCCCACATCCACTGTGGCCAGGACATGGAACTGATCATCGTTCATCCCGCCCTGCCGGGCGACCGAGCCACAGCAAAGAACGACCGCGGGCTGCACACTTACCGGTGCGCGTGTGGATTCAGATTTGATCAACGGAGCGACTAA	MGHPQLSRPARRARRKERLKGAGGGRPSEDPQLRRMLTSHIHCGQDMELIIVHPALPGDRATAKNDRGLHTYRCACGFRFDQRSD				NA	NA	NA	NA	NA
D1-29_03756	408			hypothetical protein	ATGACACACGTACAGTCCATGCTGGAAGCACGCCCGAAAGACCTCGGAAGCGTCGACAGGACCAAGCTCGCTGAATGTATCCAGGCGTGCTTTGATTGCGCGCAAACCTGCACCGCTTGCGCCGATGCCTGCCTCAATGAAGACATGGTCGCCGAACTCACCAAATGCATCCGCACCAACCTCGACTGTGTTGACATCTGTGCCACCGCCGGCAAGATCCTCTCCCGCCAAGCGGGCTTTGACACCGACACCACCCGCTCGGTGCTCGAAGCGTGCCGCGCAGCCTGTAAGGCCTGTGCCGACGAATGCGGGCGGCATGCCTCCATGCACCGCCACTGCGAGCTTTCTGCCGAAGCCTGCCGCCGGTGTGAGCGGGCCTGCGCCGAACTTCTCGCCTCGCTGAACTGA	MTHVQSMLEARPKDLGSVDRTKLAECIQACFDCAQTCTACADACLNEDMVAELTKCIRTNLDCVDICATAGKILSRQAGFDTDTTRSVLEACRAACKACADECGRHASMHRHCELSAEACRRCERACAELLASLN				NA	NA	NA	NA	NA
D1-29_03757	483			hypothetical protein	ATGGCCGCGCTGAACTGGTCCTCACTGGGAATGCTTCGCAGCCCCCTTTCGCTGCGAAGCCTATTCGTGTGGCTCCTTCTGACCCTTCTCCTGACGGGAGCCGCGTCCTATACCCACGGCAGCCGGTACGCTATCGTTCCCGGATACGGCCCGGTTCAGACAGCAGACGATCTGGGTCCCAAGGAAGTGCCGCCGCAAGCGGAACCCGCAGCCAGTCCCGCTGATACTTCACTATGGACCTCTCAGGCAACGCGTGCCGTACACCTGGCCGCGCCATCACTGGGGACTGAAGACGTCGAAAAGGACTGCTGCCAGCGCCGCCATGCGCCCCGCGGAGAACCAGCCCCTATGAGGACTGGTGCCCTGGACCCGCCGATCGTGACTTACCAACAGCCCGGTGACGCGTTGCTCAATGGTGCAGCGCCTCCGGAGCCGGACCTGCCGGCGCTTACCGTGGTCGAGCTTTCCATCAGCAGGACGTAG	MAALNWSSLGMLRSPLSLRSLFVWLLLTLLLTGAASYTHGSRYAIVPGYGPVQTADDLGPKEVPPQAEPAASPADTSLWTSQATRAVHLAAPSLGTEDVEKDCCQRRHAPRGEPAPMRTGALDPPIVTYQQPGDALLNGAAPPEPDLPALTVVELSISRT				NA	NA	NA	NA	NA
D1-29_03758	99			hypothetical protein	ATGTTTGAAGCACTCTCACTACAGCTGGAAGTATTTCTTTTCATTGGAGATCAGGAAGCCGTCCGCTTTATCCTGCGCGTCCTTAAAGTTGAAGCCTAA	MFEALSLQLEVFLFIGDQEAVRFILRVLKVEA				NA	NA	NA	NA	NA
D1-29_03759	528			hypothetical protein	ATGTGGTTTGATTCCTGGCCGGAGATTCTCCGTGTCCTGATCATCGGCTCGGTGTCGTATGCCGCCTTGGTGGCGGGCCTGCGGGTCACTGGCAAAAGGACACTGGGGCAGCTGAACGCGTTCGACTTCATCGTGACAGTCGCCTTCGGATCCACGCTGGCGACAATCCTGCTCAATTCCGAAGTCGCGTTCCTCGAGGGGTTTACGGCACTCGCGCTGCTGGTGGGCCTTCAGTTTCTCGTGGCGTGGGTGTCCGCGCATGTTCCTGGGGCCAGATCAGCTGTGACGTCACGACCAGTGGCACTGGTTGTGTCCGGGGAACTTCAGCATGCCCAACTGCGCAGGAACCGCCTCAGCCAATCCGAGGTCCTGCAGGCGGTCCGGGCCACCGGTTCGGGTGACCTCTCGAACGTTGCAGCGGTGATACTGGAGACCAACGGGACCATCAGCGTCATTCCCCGGAGCAAACTCGGCAACGGATCCGCTCTTGATGGTGTCCAGGACGCTCCCGGGCCCGAACATCCATGA	MWFDSWPEILRVLIIGSVSYAALVAGLRVTGKRTLGQLNAFDFIVTVAFGSTLATILLNSEVAFLEGFTALALLVGLQFLVAWVSAHVPGARSAVTSRPVALVVSGELQHAQLRRNRLSQSEVLQAVRATGSGDLSNVAAVILETNGTISVIPRSKLGNGSALDGVQDAPGPEHP				NA	NA	NA	NA	NA
D1-29_03760	588			hypothetical protein	ATGGGAATCCTCGGCGTGATCTTCCTCTTCGTAGTACTCGGCCAGCTCGTGGCCAAAGAACCGGCCATGGTCAGTGCGTTTGCAGTCGCGGGTTGGTTGTTCTGGGCTGTGTTCGTTGCTGAATTTCTGTTGCGGGCCTACATTGCCGGCTTCAGTAAGGACTTTTGGCGGAAAAGCTGGTGGCAGGTCATCTTCCTGCTCGTACCGTTCCTGCGGTTCTTCCGGGCATTGCAGGCACTTCGGCTCTTCCGTATCGCCAGACTGGCCCGCTACGGCTCCATCCTTTCAGCCGGCGTCCGGGGTTCCCGGTCGGCTGGGCGGCTTTTGACCAGCAGGATCGGCTGGCTCACCGCCGTCACCGCGGTGGTCATCCTCGCCTCCAGCCAACTCCTCTACGCAACAGGTGAGCTCAGCTCCTACGCCCAGGCCCTGTACGAGTCGGCCATGGCTGCTATCACCGGTGACGGCATCACCGGGACCAGCACCTTCTCACGCATCATCCAGGTCCTGCTGGCCATCTACTCGGTGGCCGTCTTCGCCACGCTTGCAGGTACCCTCGGCGCCTTCTTCCTCCGGCAAAAAGAATGA	MGILGVIFLFVVLGQLVAKEPAMVSAFAVAGWLFWAVFVAEFLLRAYIAGFSKDFWRKSWWQVIFLLVPFLRFFRALQALRLFRIARLARYGSILSAGVRGSRSAGRLLTSRIGWLTAVTAVVILASSQLLYATGELSSYAQALYESAMAAITGDGITGTSTFSRIIQVLLAIYSVAVFATLAGTLGAFFLRQKE	PGPT0002715_5021	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
D1-29_03761	423			hypothetical protein	ATGGCACTGAAAAGCAAAGCAGGCGTACTGATCGCAGGATCTGCCCTGGTGGCAGGCCTCCTCACAGGTTGCGGGGAAGAAACAGTGGTCGAAGAAGCCCAGGAAGCGGGACCGACCGCGGAGGCGGCCATTCTGGGCGAGACCGTCACCGTGCAAATAGAGGTCCAAGACGTGGCCGGCCCCAACGCCTTCACCGTAGGCGACGCGCTGGAGGAAGGCACTCTGGTCCTGGGCAAGGGAATCAGCGAAGGTCTGGAAGAGGGTAACAAAGTACAAATTACCGGCACTGTCCGCAGCTTTATAAAAGCCGAAGTGGAAAAGGACTACGACATCGATTTCAACGACGATGAAGATAGTTTCGTGGTCGAATACGAACAGGACCTCGCCGTCGTGGCCGACAAGGTTCGGGAACTTCCCGAATAA	MALKSKAGVLIAGSALVAGLLTGCGEETVVEEAQEAGPTAEAAILGETVTVQIEVQDVAGPNAFTVGDALEEGTLVLGKGISEGLEEGNKVQITGTVRSFIKAEVEKDYDIDFNDDEDSFVVEYEQDLAVVADKVRELPE				NA	NA	NA	NA	NA
D1-29_03762	360			hypothetical protein	ATGAGCCGGTTCAAGTTCGTTGCATCCATACCTCAGCCGCTGAAGACCCTCTATATCCTGTTCTTCATTGCCTTTGCTGCCGCTCTTGTCTCGATTCCGCTCGGCGTCCCGGATATCGCACGCTGGTCATTCGCGGCCCTCGGTATCGTGGCCGTCCTTCTCGGACTCTGCTTAGCCAGCAACCTCAATGGCTCCGCTTCTGCAACGGCAAACTATCTGAAGAGATCCAAACGGATGGGCATCGATTACTCAAGAACCTTTTTGGCCAGTACCGGATATGCCAGATTTTTCGGCGGATTCTTCGCACTCGTCGGGCTGATTTTGACAGTCGTAGCGTTCACCCGATCCGGCATCATCTGA	MSRFKFVASIPQPLKTLYILFFIAFAAALVSIPLGVPDIARWSFAALGIVAVLLGLCLASNLNGSASATANYLKRSKRMGIDYSRTFLASTGYARFFGGFFALVGLILTVVAFTRSGII				NA	NA	NA	NA	NA
D1-29_03763	270			hypothetical protein	ATGCGCGACCAGGCTGCCGCCAGCGGCGCGGGGATGGCCTGGAGCGCGACAATAACTTCACTAATCCTATTGGTTCTGCTTATCGCTTTCATCGTCCAGAATCAGGAAGACTTAACCATCACACTGTTCGGGCTCAAAGCCACCATCGCATCGGGCCTCGCTCTCCTTATCGCTGCCGCAGGCGGTGGCCTGCTGGTGGCGGCGGCCGGGACAGCCCGGATACTCCAACTCAAATCCCGACGCCACCAGCGGAAAGCCGGGCTGTTCTGA	MRDQAAASGAGMAWSATITSLILLVLLIAFIVQNQEDLTITLFGLKATIASGLALLIAAAGGGLLVAAAGTARILQLKSRRHQRKAGLF	PGPT0014665_109	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_AFFECTED_LIPOPOLYSACCHARIDE_ASSEMBLY,PGPT0014665-lapA-K08992	NA	NA
D1-29_03764	492			hypothetical protein	ATGGGAAAGACAGCCGAGAATCCAACGGACAGGGCACGGACCTGGCGAGCAGGCCCGCTCCTCAGAATGACGGCAGTGGCAGTGGCCGTAGTTGCGGCTGCCTCTGCTATTGGCAGCTGCGGCACCTCAGAGCCGGAGGCAGCAACTGAGATAGAAGATGTTCACCTTGATGCCATCAGGGAAGTCGTCCCGGATGCCAATCTGGAGTACAAGCGAGTCACAGTGCCCGGCGTAGTAAATGACATCATCTCCCCTTCAGCTTTCTCTATCAGCGATCCCGGGCAACCCTTGGTCGACGACCTTCTCATAGTCCATGAAACCGATCTCGCTGACGTGCGGCCTGAATCCAGAGTCAAAGTCACCGGGATCGTCTACCGGGGCTTCAATGTAGCTGAAGTTGAAAAGGAAACCGGGATTGATTTGGATGAATCCCTGAACCAGCAGTGGCAGGGAGATTCCTACATCGTCGCCTCCGGCGTCGAAGCCCAATAG	MGKTAENPTDRARTWRAGPLLRMTAVAVAVVAAASAIGSCGTSEPEAATEIEDVHLDAIREVVPDANLEYKRVTVPGVVNDIISPSAFSISDPGQPLVDDLLIVHETDLADVRPESRVKVTGIVYRGFNVAEVEKETGIDLDESLNQQWQGDSYIVASGVEAQ				NA	NA	NA	NA	NA
D1-29_03765	420			hypothetical protein	ATGGAAGAAAATACAACTGAACTGGTGAAACTCGGTGACACCGGCAAAACCGTCGCAGGGGCGGAAGAAGACATACGGGGATACACCGTCCGGACAACGTCAGGTGAGGAAATCGGCAAGGTCGAAGAACTCCTGGTCGATGTAAGGGAGCAAAAGGTCAGATTCCTCATTGTTGCCTCCGGAGGGTTCCTCGGCATCGGAAAGGAGAAAACGTTCATTCCTGTAGACGCGCTGAGCAACATCCATGACGAGGAAGTCGTTGTTGACCGGACCCGGGAGCAGATTGCCGGAGCACCCGAGTATGACCCGGCATTGGCCGATGACAGGTCCTATTACGAAAGCGTGTACGGCTACTACGGCTTTTCCCCGTACTGGAGCCCAGGCTACGTCTATGGCGGCTACCCTCACCGTTTCCGCTGA	MEENTTELVKLGDTGKTVAGAEEDIRGYTVRTTSGEEIGKVEELLVDVREQKVRFLIVASGGFLGIGKEKTFIPVDALSNIHDEEVVVDRTREQIAGAPEYDPALADDRSYYESVYGYYGFSPYWSPGYVYGGYPHRFR				NA	NA	NA	NA	NA
D1-29_03766	1299		COG4325	putative protein	ATGAATAGACGTGCAGCACGAATAAGGGACGCGCTGCAGACCCAGCTTTGGCCCTTGCCGGTGGTCGCCGTGGTGCTGTCGGTAGTGCTGGGCGTCGTGCTTCCGGCGGTGGACGCCGCTGTTGACGGCCAGATCCCCGAGAGCGGGGCCGCCCCACTCTTCAGCGGCGGACCTGAAGCGGCCAGGTCAGTGCTGCAGGCGATAGCCGGTTCCCTGATCACGGTTACGTCGCTTACATTTTCGCTCACTGTTGTGACGCTGCAGCTGGCCAGCAGCCAGTTTTCCCCCCGGCTGCTGCGCACGTTTTCCGCGGACCGTTTCGTCCATGCCACGTTGGCCCTGTTCCTGGCTGCCTTTGCCTTCGCCCTGACGGTGCTTCGAACTGTGCGGGCCGAAGGCAGCGGGATTACGGCCTTCGTCCCTGAAATCTCGATCACCGTGGCGTTTGCACTGGCAATCGCCAGTGTCATAGGCCTGGTGCTCTTCCTGGCTCACCTCACTCGGGAGATCCGTGTCGAGACCATAATGCGGCGCGTCAATGTCGAAACGCAGGCGACCATCGAGCGGGTCTTTCCCCAGGACCGCCCGCTCCTCCAGTCCGGGCCGCCGGAACCGGACGGGGCGCTGTTGGTCCGGGCTACACACTCAGGGTTCCTGACCTCGGTGGATAAAGATGCCCTCCTGGGGTCGGCGGTGGAGGCCGGGGCCGTGGTGCGGATGGATTGCCAGCCGGGCAGTTCTTTAGTGGAAGGGGTTCCCTTCGCCACAGCATGGCCCCTTTCCAAAGGCAGGACGTTCAGCCCGGAAACAACGGCAGACCTTCAGATGGCCATCAACGCTTCGATCTCAACCGGTTTCGAACGGACAAACGTCCAGGACGTCGGCTTCGGGTTTCGTCAACTGGTGGACGTAGCCGTCCGGGCGCTCTCACCCGGCATTAACGACCCAACAACGGCTGTGCATATCATCGGCCATCTCTCCGTCCTGTTGTGCCGGCTGGTGGACAGGAATCCGGGCCCGGAAGAGCTCCTTGACGACGAAGGGCGTGTGAGGGTGGTCCTTGCCTTGCCTTCCCTTCCTTTGGTGACCTGCTGGACCTGGCATTGGCGCAGCCGAGGCTCTACGGCGCCGCTGACCCTGCAGTCGTCGGCCGGCTCCTGCTCTTGCTCCAGGAACTTGCCTGGTGTGACCATCGGCACGCCTTCCGAACTGAGATCGAGGAACAGCTGCGCCGGTTACGTGAAGTCATTGACGCCAGCAGCTACGCCGCGGCAGAGCGCCTCCACCTTCTGGCATTGA	MNRRAARIRDALQTQLWPLPVVAVVLSVVLGVVLPAVDAAVDGQIPESGAAPLFSGGPEAARSVLQAIAGSLITVTSLTFSLTVVTLQLASSQFSPRLLRTFSADRFVHATLALFLAAFAFALTVLRTVRAEGSGITAFVPEISITVAFALAIASVIGLVLFLAHLTREIRVETIMRRVNVETQATIERVFPQDRPLLQSGPPEPDGALLVRATHSGFLTSVDKDALLGSAVEAGAVVRMDCQPGSSLVEGVPFATAWPLSKGRTFSPETTADLQMAINASISTGFERTNVQDVGFGFRQLVDVAVRALSPGINDPTTAVHIIGHLSVLLCRLVDRNPGPEELLDDEGRVRVVLALPSLPLVTCWTWHWRSRGSTAPLTLQSSAGSCSCSRNLPGVTIGTPSELRSRNSCAGYVKSLTPAATPRQSASTFWH				NA	NA	NA	NA	NA
D1-29_03767	336			hypothetical protein	ATGCGAACACCTTACCGACAACACAGCCAGATCCTTGGCCCCGTCCTTGCAGGCGTACTCCTTTTTGTGGGTGTATCGGGGTGCAGCACTGCAACCCCTGAGGAAGACTGGCAGGCGATGGCCAATGGCGTGGACGCCGATATTGGTGGAGTGGAGGTTCGCAGCCTGCTCCTTGTCGCTGAAAATGCCAATGAATCGGGAAGGTTTTTGGGGATGCTTTTGAATACTTCTGAGCAGCCGGTGGAATTGGTCTTTTCCGATGAGGACGACAGGGCCGCTGTCCGCGTTGAGCCCCAAGGTGAGCCTCACCAACCGCCCACAAGTAGAAACAGATGA	MRTPYRQHSQILGPVLAGVLLFVGVSGCSTATPEEDWQAMANGVDADIGGVEVRSLLLVAENANESGRFLGMLLNTSEQPVELVFSDEDDRAAVRVEPQGEPHQPPTSRNR				NA	NA	NA	NA	NA
D1-29_03768	804			hypothetical protein	ATGAGCACGACCCCAACCGTCCCTTACCGCCTGGAGTTCAGCATTGAGGTACCGGGGACCCCTGAACAGGTCTGGCAGGCCATCGCTACCGCCACGGGCATGAGCGCCTGGTTCTTGCCGACCGAAATGGAGGAGCGCGAGGGAGGCTCCCTACATTTCACGATGGGCCCGGAGATGGGCTCAGACGGCCAAGTCACTGGCTGGGATCCACCGCGCCGCTTCGCATACGAGGAGGACTGGGCGGCCCTCATGGGCAAAGACCCGGATGCACTCAGCCCGCTGACGTCAGAGTTCCTTGTCGAGGCGCAATCCGGCGGCACCTGCGTTGTGCGCGTCACCACCAGCGGCTTTGGGACCGGCGCTGACTGGGAGTCGGAGTTCTGGGATGACATGGGAGCCAACTGGATGCCGTTCTTCGACAACCTGCGCCTTTACCTGTCGCACTTCCCAGGCCAAAAGGCCACACAGCTCGAGGCCACCGCCTCCCACCCCGGCGACGCACAGGCACTCTGGTCGACCCTGCAGGACGCCCTCCGGCTCGGCGACGAGGGTACGGCGGTCGAGATACGCGGCGCTACCGGCAGGGTCGAGCGTGCCGGCGAGCGGCAGGCGCTGGTCCGGCTCACCGCACCGGTGCCCGGGATGCTCAGCATCTTTGCTTACGGCGAGGGTGAGGGTACGCGCGAGGGTACGGCGACGGCAGGCGTACGAGCGTACCTGTTCTCCCCGGACGCGCAGGACTACGTGCGGCGCGAAGAGCCGGCGTGGCAAACCTGGCTGCAGGAGCTCGTCGTCCTGGCCTGA	MSTTPTVPYRLEFSIEVPGTPEQVWQAIATATGMSAWFLPTEMEEREGGSLHFTMGPEMGSDGQVTGWDPPRRFAYEEDWAALMGKDPDALSPLTSEFLVEAQSGGTCVVRVTTSGFGTGADWESEFWDDMGANWMPFFDNLRLYLSHFPGQKATQLEATASHPGDAQALWSTLQDALRLGDEGTAVEIRGATGRVERAGERQALVRLTAPVPGMLSIFAYGEGEGTREGTATAGVRAYLFSPDAQDYVRREEPAWQTWLQELVVLA				NA	NA	NA	NA	NA
D1-29_03769	579			hypothetical protein	GTGCAAGACGTTGAAGTTATCGAAAGCACTAAGGCAGCGGCCGCCGCGTTGGATCCGGTCCGGGCCAGGTTACTCAGCGAGCTGGCCGTTCCGGCCTCCGCCGGGGGCCTCGCCGCCCGAGTCGGCATCACGCGCCAGAAGATTAACTACCACCTCAAGGCGCTTGAGGAGCACGGCCTCGTTGAGCTGTTTGAAGAGCGCCAGCACGGGGGCATCACCGAGCGGGTGCTGCGGGCCTCGGCTGCATCGTTCGTCGTGTCACCAGCGGCTTTAAGCGCGACGGCGGCTGATCCGGACGCCAACGACGACCACCTGTCAGTGCGATACCTCGTTGCCCTGGCAGGAAGGCTGATGCGGGAGGTCGGGGCCATGGCGCGCAGGGCCGACGCGTCCGGCAAGGGCCTGCCGACGCTGACCATCGACACGAAAATCGGCTTCCAATCGGCGGCCGACCGGGCTGCCTTTGCTGACGATCTGACCGCCGCGGTGCTCGACCTGGCCGCTCGCTACCACCATGACGACGGGCGCCCGCACAGGCTCGTCGTCGCAGCACACCCCCTTCCTGAGGAGAACCGATGA	MQDVEVIESTKAAAAALDPVRARLLSELAVPASAGGLAARVGITRQKINYHLKALEEHGLVELFEERQHGGITERVLRASAASFVVSPAALSATAADPDANDDHLSVRYLVALAGRLMREVGAMARRADASGKGLPTLTIDTKIGFQSAADRAAFADDLTAAVLDLAARYHHDDGRPHRLVVAAHPLPEENR				NA	NA	NA	NA	NA
D1-29_03770	1071	dinB1	COG0389	DNA polymerase IV 1	GTGGGCGAACCGTGGGTACTGCATGTTGACCTTGACCAGTTCATTGCGGCCGTTGAAGTGCTGCGCCGGCCTGAGCTTGCGGGCAAGGCCATCATCGTGGGTGGCCGCGGCGATCCGACCGAGCGGGCGGTGGTGTCCACTGCTTCGTACGAAGCCCGGGCCTACGGCGTCGGCTCTGGGATGCCGCTGCGCATCGCCGCACGGAAAGTGCCCGACGCCGTCATCCTGCCCGTGGATCATGAGGCCTATTTCGCTGCCTCCGAAAACGTCATGTCGGTGCTGCGCTCGCAGCCCGGCGCTACGGTGCAGGTGCTCGGCTGGGATGAAGCGTTCGTTGGTGTGGTTGTGGAGGATCCCGAGGCGTATGCCCGGCAACTACAGCACGACGTACTTGAGGAGACCCGGCTGCACTGCAGCGTGGGCATCGGCGACACCCTGGTCCGCGCCAAGGTAGCAACGACCTTCGGCAAGCCGGCCGGCGTCTTCCGGCTTACGGCCCAGAATTGGCTGGAAGTCATGGGCAGCCGGCCCACCATTGAGCTGTGGGGCGTGGGAACGAAGGTGTCGCGCCGGCTTGCCACGCTTGGCATCAGGACGGTTGCGGAGCTGGCCGCGTGCAATCCCGACGACCTGGTCCCAGAATTCGGCCCCAAGATGGGCCCCTGGTATGCGCAGCTCGGCCGGGGAGACGGCGGGCGGACAGTTGATGACACGCCCTGGGTGGCGCGCGGGCACAGCCGGGAAACCACCTTCCAGCGTGACCTGACGGAGCCAGGCCAAATTGACGACGCCGTCAGGGAGCTCGCGGGGCACGTCCTGGAAGATGTCGCGGCCGAAGGGCGGCCAGTGATCGGGCTGACCCTCAAGGTCCGTTACGCCCCGTTCCTTACCAAGACCTACGCCCGGAAGATCCCCGAGACGTCGGACCCGGCGGAGGTGCTCGCGCGTGCCCTGGACCTTGTGGCGAAGATTGAGCCGGACCGCCCCATCCGGCTCCTCGGGCTGCGGGCCGAAATGCCGATGCCCGAAGACTCCCGGCAGGGGCATACGCCCACCCGCAGCGGATGGTGA	MGEPWVLHVDLDQFIAAVEVLRRPELAGKAIIVGGRGDPTERAVVSTASYEARAYGVGSGMPLRIAARKVPDAVILPVDHEAYFAASENVMSVLRSQPGATVQVLGWDEAFVGVVVEDPEAYARQLQHDVLEETRLHCSVGIGDTLVRAKVATTFGKPAGVFRLTAQNWLEVMGSRPTIELWGVGTKVSRRLATLGIRTVAELAACNPDDLVPEFGPKMGPWYAQLGRGDGGRTVDDTPWVARGHSRETTFQRDLTEPGQIDDAVRELAGHVLEDVAAEGRPVIGLTLKVRYAPFLTKTYARKIPETSDPAEVLARALDLVAKIEPDRPIRLLGLRAEMPMPEDSRQGHTPTRSGW	PGPT0014881_4943	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
D1-29_03771	726			hypothetical protein	ATGACCTACGCAGACCTGAGCGTCGAGAGCACCGCGGCGGGCGGCTCCCCATCCCTGGGCGGCTATCTTGCCACGCCACCCGGCGCCGGCCCGTTCCCCGCCGTCCTGATGATCCACGAAGCGTTCGGGCTGAACGACATGACGCGGCGGCATGCTGACCGGCTGGCGAAGGCCGGCTATCTGACCCTGGCGCTGGATCTGTTCAGCGCTGGCGGGCCGAGCCGCTGCCTGGTCAGCACGATGCGCAGCATGCTCAAGGGAACGGGGCGCCCTTTCACGGACCTGGCCACGGCCCGCAAATGGCTCGCCAGAGCCCCGCAGTCCAACGGCAAAACCGGCGTGATCGGGTTCTGCATGGGAGGCGGCTTCGCTCTGCTGGTGGCACGCGATGGGTTTGACGCTGCCTCAGTCAACTACGGCCGGCTGCCCGGCGACCTCGAGGAGGCGCTCCGCGGCGCCTGCCCCATCGTGGCCAACTTCGGCGGCAAAGACACCACGCTCGAGGGAGCCGCACACAAGCTCGAGACAGCCCTCACCAACCTCGGGATCGAGCACAGCGTCAAGGAGTTTCCCACCGCCGGCCATTCCTTCCTGAACGATGCGCACCTTGGCCCTGCAGTGTTCCGGCCGCTGATGCGGGTCATGGGAATCGGCCCGGATCCGGAAGCCGCCCCCGAGGCGTGGCAGCGGATCGAGGACCACTTCGCCCGGTACCTGAAGGACTGA	MTYADLSVESTAAGGSPSLGGYLATPPGAGPFPAVLMIHEAFGLNDMTRRHADRLAKAGYLTLALDLFSAGGPSRCLVSTMRSMLKGTGRPFTDLATARKWLARAPQSNGKTGVIGFCMGGGFALLVARDGFDAASVNYGRLPGDLEEALRGACPIVANFGGKDTTLEGAAHKLETALTNLGIEHSVKEFPTAGHSFLNDAHLGPAVFRPLMRVMGIGPDPEAAPEAWQRIEDHFARYLKD	PGPT0005685_2776	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_CHLOROBENZENE_DEGRADATION,PGPT0005685-catA-K01061	NA	NA
D1-29_03772	1461	ansP2_3	COG1113	L-asparagine permease 2	GTGCCTCAAAGTACCCCCATCGACCTGCAAAACCCCACGGCACCATCCATCGCCGTCGACCCTTCCCTCAGCGCCGAGGGCTACAGCAAGACCCTTGGCCGCCGCCACGTCACCATGATCGCCATGGGCGGCGCCATCGGCGTCGGCCTCTTTATGGGCGCCGGCGGACGCCTTGCCTCCACCGGCCCGGCCCTGATTTTCTCCTACGCCATTGCCGGCGTCATCGCCTACCTCCTCATGCGGGCCCTGGGCGAACTCATCATGTACCGCCAGACCTCCGGCTCCTTCGTCAGCTACGCCGGTGAAATGTTCGGCAAGAAGGGCGCGTTCCTTTCCGGCTGGATGTACTTCATCAACTGGGGCATGACCGGCATCGCGGAACTGATCGCGATCGGGCTTTACTTCCAGTTCTTCTTCCCCAACGTTCCGGTTGAGGCCTCCGCCATTGCGGCACTGGCGCTCCTGGTGGCAGTGAACCTGCTGAGCGTGAAGGCGTTCGGCGAGTTTGAATTCTGGGCCTCCTGCCTCAAGGTGGGCGCCATCGTGATCTTCCTGGCCGTGGGCACGTTTATGGTGGTCACCAACGCCAAGGTGGGTGACGGCAACGCCTCCGTGGCCAACCTGTTTGCCGCCGACGGCGGGATGTTCCCCAAGGGCGCGCTGGTGATGGTCCTGGTCCTCAACGCCGTTATCTTCGCCTACAACGGCATCGAACTGGTGGGCATTACCGCCGGCGAGATGCAGAACGCGGAACGCGAAGTGCCCAAGGCGATCCGCGCCGTCGTCCTGCGCATCGTGGTGTTCTACGTCGGTTCGGTAACCCTGCTGGCCATGCTGCTGCCGTCCGACCAGTACGTGGCCGGCACCTCGCCGTTCGTTACGGTCTTTGGCCAGATGGGCCTTGCTTGGGTGGGTGACGTGATGAACATGATCGTGATCACCGCGGCCCTGTCCTCCTGCAACTCCGGCCTGTACTCGATCGGCCGCGTGTTCCGCACCATGGCCAACAACGGGCACGCGCCCCAGTGGCTCACCCGGATGTCCAAGCGGCACGTCCCGTACGCTGCCATCCTCGCCATTGCAGCTTTCTACCTGGTGGGCATCCTGCTCAACATCTGGCTGGGCGGCTCCCACGCCTTTGACCTGGCGCTGAACACGGCCTCCATCGGCGTGATCTTCACCTGGGGCGCCATCTTCGCCAGCCAGATCGCACTGCGCCACCGCAAGGGCGTCACCTCCAGCCTGCCCATGCCCGGTTCGCCGTGGGCCAGCTGGGCCGGCCTGATCGGACTGCTGGCCATCACCGTGCTCATCGGCTTCGACACCATGACCAGCAAGAGCGGCGACGTGTTCTACCTGGGCCTGTGGACCCTGGCCACCATCCCGTTCTTCGCCGTGGTCCTCTGGCTGGGCTGGCAGAAGGTCAAGAAAAACGAACCGAAGAACGCGCTGTACAGCTAA	MPQSTPIDLQNPTAPSIAVDPSLSAEGYSKTLGRRHVTMIAMGGAIGVGLFMGAGGRLASTGPALIFSYAIAGVIAYLLMRALGELIMYRQTSGSFVSYAGEMFGKKGAFLSGWMYFINWGMTGIAELIAIGLYFQFFFPNVPVEASAIAALALLVAVNLLSVKAFGEFEFWASCLKVGAIVIFLAVGTFMVVTNAKVGDGNASVANLFAADGGMFPKGALVMVLVLNAVIFAYNGIELVGITAGEMQNAEREVPKAIRAVVLRIVVFYVGSVTLLAMLLPSDQYVAGTSPFVTVFGQMGLAWVGDVMNMIVITAALSSCNSGLYSIGRVFRTMANNGHAPQWLTRMSKRHVPYAAILAIAAFYLVGILLNIWLGGSHAFDLALNTASIGVIFTWGAIFASQIALRHRKGVTSSLPMPGSPWASWAGLIGLLAITVLIGFDTMTSKSGDVFYLGLWTLATIPFFAVVLWLGWQKVKKNEPKNALYS	PGPT0000815_400	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
D1-29_03773	369			hypothetical protein	ATGAGTACGGAATCGCCCGGCTTGGGAGTGACGTACGACGGCGGACCGGGAGCCAGTGCTCTCCACGTCCTGGGCCCGGTGGAACAGATTCCGCTGGGCGAGGGGCGGGCGTTCGCCGTCGAGGGAAAGCAGGTGGCCGTCTTCCGGCTCAGGGACGGTTCCCTGCGCGCGCTCTCCGGAGTTTGCCCGCACCGGGGAGGCCCGCTCGCCGACGGGACCATTGACCAGGAGGTGGTCATCTGCCCCCTGCACCAGCATGCCTTTGACCTTGGGACAGGCTGTTCCACCACCGGCGCCGATCCGCTGACCAGGTATCAGGTGACGTCGGACGAGGAGCAGAACATCGTCCTGCGGACCGGCCAGGTGTAA	MSTESPGLGVTYDGGPGASALHVLGPVEQIPLGEGRAFAVEGKQVAVFRLRDGSLRALSGVCPHRGGPLADGTIDQEVVICPLHQHAFDLGTGCSTTGADPLTRYQVTSDEEQNIVLRTGQV	PGPT0000455_1789	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363	NA	NA
D1-29_03774	2547	nasD_3	COG1251	Nitrite reductase [NAD(P)H]	ATGGCGGGTCTTATGGAAAAGCCTCTGGAGAAGCCTGAGCATAAGCCTCACGAACGTGCCCATTCAGGAAAGCCCGCTTCCCGCCGTCGCTTGGTGGTGATCGGCAACGGGATGGCCGGCGCCCGCGCCGTTGAGGAAATCCTGGCCAGGGGCGGAGCCGAACAGTTCAGCATCACCATGTTCGGCGACGAACCGTACGGGAACTACAACAGGATTATGCTCAGCCACGTGCTCTCGGGGGAGGAAAGCGATGCGGACATCTTCCTCAACGCCCTCTCCTGGTACCGGGAAAACAACATCACCCTTCATTCCGGGGTCAGGGCAGAGCGGATCGACAGGTTCACCAAGAACGTCTTTTCCGACGACGGCCGGGTGACACCCTACGACGTCCTGATCATCGCCACGGGCAGCCGCTCCCACATGCCGCCCATGGACGGGTTGTACACCCCGGGCGGATCCGTCAAACCCGGCGTGTTTGGGTTCCGCACCATCGATGACACCCGCAAAATGGTCCAGCACGCCCAGCATGAACACCACAGCCGGGCGGTTGTTATCGGCGGCGGGCTCCTGGGATTAGAGGCCGCGTATGGCTTGAAAAGCCACGGCATCGACGTCGAAGTGGTGCACTCCGGCGGGCACCTGATGAACGCCCAGATGGGGCCCGACGGCGGTGCGGTGCTTCGTCGCAGTGTGGAAGCGCTCGGCATCCGGGTGCATACCGGCGGCCGCACCACGGCCGTCCTGGGAACAGACAGGGTCAGCGGCGTCAGGCTCCGTGACAAGCCGGATATTGGCTGCGACATGGTGGTGGTTGCGGCAGGCATCCGGCCCAACGTGGACCTGGCCGTGCTCAGCGGGCTGCCGGTGGAACGGGCCATCGTGGTGGATGACCAGCTCCGCGTCCAGGACGAGGACGACATCTATGCCGTGGGGGAGTGCGTGCAGCACCGAGGCGAGGTGTACGGGCTCGTGGCGCCGCTGTGGGAGCAGGCCGTGGTACTGGCCAACCACGTCACCGGCACCGACACCAGTGCTGCCTACCTGGGTTCCCGCACGGCCACCAAGCTCAAGGTGGCCGGGGTTGAAGTGGCGTCCATGGGCCTGCACGGCCCGGAACGCGAAACAGACGAGCACATTGTCTTTTCCGAGCCCAGCCGTGGCGTGTTCAAGTCCATCGTGGTCCGCGACAACAAGATGGTGGGCGCCACGCTCCTGGGCGACAGCCGCAAGGTGGCCTACCTGACCCAGGCCTATGACCGCGGGCTGCCGCTGCCCGAGGAACGGATCAGCCTGTTATTCGATCTCGGCACTCCGGGGGAGGACGTGGGCGTGGCCGAGCTGGATGACGATGCCCAGGTCTGCAATTGCAACGGCGTCAGCAAAAAGGACCTGGTGGGGGTGGTAAAGGGTGGCTGCACCTCGGTTGCCGGTGCCATGGACGCCACCCGCGCGGGCAAGGGCTGCGGCTCCTGCAAGCTCCTGGTCCGGCAGGTGGTGGAATGGGCCGCGGACGGAGCGGTGGAGGAGGATCCGGCCGCCAGCTACTACGTCCCCGGCATCCCGCTGGACAAGCCCTCCTTGATGGCGGAGATCCGCAAACGCGGGCTGCGCTCCGTCTCACAGGTGTTCCAGTCGCTCGCGCCGGGGAGCGCCGAGGATGCCAAGTCGAAAATGGGACTGGCCTCGTTGCTGAAGATGATGCTGGCGGACCAGTACATCGACGAACGCGATGCCCGGTTCATCAATGACCGCGTGCACGCCAACATCCAGCGCGACGGCACTTTCTCCGTGGTGCCGCAGATGAAGGGCGGCGTGACGTCGGTGCAGCAGCTGCGCCGGATCGCGGACGTGGCCGAGAAGCACAGGATTCCCCTGATCAAACTGACCGGCGGCCAGCGGATCGACCTGCTGGGGGTGCCCAAGGAGGACCTGCCGCAGGTCTGGGCTGACCTGGACATGCCCTCCGGCTACGCCTACGGCAAGAGCTTCCGGACGGTCAAGACGTGTGTGGGCAAGGACTTCTGCCGGTACGGCACTGGCGATTCCACCAAGTTGGGCATCGAGATCGAGTCCCGCTTCCAGGGGATTGAGTCCCCGGCCAAGCTGAAACTCGCGGTGTCCGGCTGCCCCCGGAACTGCGCCGAATCCCTGGTCAAGGACGTGGGCGTGGTGGCAGTGGAGGGCGGCCGCTGGGAGATTTACGTTGGCGGGGCCGCCGGCGCTCACATCCGCAAAGGGGACCTCTTGGCAACCGTGGATGATCCGGAGGAGGTCAAGGTCCTGACCGGCCGGTTCATGCAGTACTACCGTGAGAACGCCAACTGGCTGGAACGGACGTATGCCTTTGTCCCCCGGGTGGGCATCGAACATATCAGGGCGGTCATTGTGGAGGACTCGGAGGGGATTGCCGGCCGGCTCGATTCCGCAATGCAGGCTTCCGTGGACAATTATGTGGATCCCTGGAGCGAGCGGGACGATCCCCTTACTCCGGGCCAGTTCAGGACATCCCTGCCGCTAACGGTCCTCCCGCAGGTGCCGGTCCGATGA	MAGLMEKPLEKPEHKPHERAHSGKPASRRRLVVIGNGMAGARAVEEILARGGAEQFSITMFGDEPYGNYNRIMLSHVLSGEESDADIFLNALSWYRENNITLHSGVRAERIDRFTKNVFSDDGRVTPYDVLIIATGSRSHMPPMDGLYTPGGSVKPGVFGFRTIDDTRKMVQHAQHEHHSRAVVIGGGLLGLEAAYGLKSHGIDVEVVHSGGHLMNAQMGPDGGAVLRRSVEALGIRVHTGGRTTAVLGTDRVSGVRLRDKPDIGCDMVVVAAGIRPNVDLAVLSGLPVERAIVVDDQLRVQDEDDIYAVGECVQHRGEVYGLVAPLWEQAVVLANHVTGTDTSAAYLGSRTATKLKVAGVEVASMGLHGPERETDEHIVFSEPSRGVFKSIVVRDNKMVGATLLGDSRKVAYLTQAYDRGLPLPEERISLLFDLGTPGEDVGVAELDDDAQVCNCNGVSKKDLVGVVKGGCTSVAGAMDATRAGKGCGSCKLLVRQVVEWAADGAVEEDPAASYYVPGIPLDKPSLMAEIRKRGLRSVSQVFQSLAPGSAEDAKSKMGLASLLKMMLADQYIDERDARFINDRVHANIQRDGTFSVVPQMKGGVTSVQQLRRIADVAEKHRIPLIKLTGGQRIDLLGVPKEDLPQVWADLDMPSGYAYGKSFRTVKTCVGKDFCRYGTGDSTKLGIEIESRFQGIESPAKLKLAVSGCPRNCAESLVKDVGVVAVEGGRWEIYVGGAAGAHIRKGDLLATVDDPEEVKVLTGRFMQYYRENANWLERTYAFVPRVGIEHIRAVIVEDSEGIAGRLDSAMQASVDNYVDPWSERDDPLTPGQFRTSLPLTVLPQVPVR	PGPT0000450_1391	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
D1-29_03775	381			hypothetical protein	ATGCCAGTCTCAGGCGGCCGAAAGGATCTCACTGTGATCACCAAGAACCTTTTCCTGCAGGGCATCTATCCCTTTGCCGGGGCGGGGCTGGATAAACCGGTCCCGATCCACAGCGAACTCCTGCACTACGTTCCGGACGGGGTGATCAACCAGACGCTCTACTTCCGGGGCGGGAACTCCAGCCCGGAGCTGGTCACCGTGGTGCTGATGCGGGACGGAGTGCCCATGCGGTACTTCCCGATCGGAGCCAGGAGCGATGTCCATGTGCCGCTGCGGGTGGTGGAAGACATTGAAGGCGGCTCGGTGATCGAGCTCTACCTGGTGGCCCCAGAAGGCGTCGCGGGAGCCGTGGTGATTGACCTGGGCATGGTGGAACACTGA	MPVSGGRKDLTVITKNLFLQGIYPFAGAGLDKPVPIHSELLHYVPDGVINQTLYFRGGNSSPELVTVVLMRDGVPMRYFPIGARSDVHVPLRVVEDIEGGSVIELYLVAPEGVAGAVVIDLGMVEH	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
D1-29_03776	1683	ettA_4	COG0488	Energy-dependent translational throttle protein EttA	ATGACTGAACACCTCAGCCTTGTGGGCGTTTCCCACGGCTACGGAGACCGCCAGCTGCTGGACAACATCAGCCTGGTCATTACCGCCCGCGAGCACGTGGCCATCGTCGGCGAAAACGGTGCCGGCAAATCAACACTCCTGCGGCTGATGGCCGGGCTTGAGGCGCCGAATGAAGGAACTGTGGCGAGCCACGGGCGGGTGGGCTACCTGGCCCAGACCCACGGACTCCCGGAATCATTCACCGTTGGCGCCGCCATCGACGAGTCCCTGGCGTCCCTGCGCGCCCTCGAGGCGGAACTTGACCGCCTGGAGACCGGGCTGGCCGAGGCCGAAGCGGACGAACTGGAAGCCTACGGCGCTTTACAGACCGAGTATCAGCTGCGCGAGGGCTATGCTGCTGAGTCCCGCGTGGAGGCAGCCCTGGACCGGCTGGGGCTGGGCGGCCTGGACCGGAACCGGGTGCTCGGCTCGCTGTCCGGCGGCGAACAGGAACGCGTTGCCCTGGCCTGCATCCTGGCGGACCCGGCCGACATCCTGCTCCTGGACGAGCCCACCAACCATCTGGACGCGCGCGGAACGGCCTGGCTGGAGGACAGGCTGGCCGACCACCGCGGCACGGTGGTGGTGGTCTCCCATGACAGGGTGCTCCTGCGGAAGGTTGCCAGCACCGTGATCGAGGTGGATGCCGAGCGCCGCTCCGTCACCCGTTACGGCAACGGCTATGAGGGCTACCTGCGGGAGAAGGCGGCCGAACGCTCGCGCTGGGTCCAGCAGTATCAGACCTGGCTGGACGCGATGGAAGCCGAACAGCGGCAGGCGGACACCGTGGCCGGAAAGATGGGCTACGCTCGCAAGCGCGACGGCGACAAGATGGGTTTCGACTTCAAGGCAGGCACCTGGCAGAAGGCGGCCACCAGTAAGGTCCGCAACGCGCAGGAGCGCCTCCGCCGGCTGGAAGCCAGCCCGGTGGACCGTCCGCCCGTCCCGCTGCGCCTTGCCGCGGAGCTCACCGTTGGTTCGGATGCGCCCCAGCTGGCGGTTCCCGTGCTCAAAGCCCGCGGCGTGGCCGTGCCGGGCCGCCTGGACCCCACGGACTTTTCCGCCGCCGTCGGGGAGAAAATTCTCATTACCGGCCCCAATGGCGCAGGCAAATCCACGCTCCTTTCGGTGCTTGCAGGCACGCTGGAGCCGGCTGCAGGGAAGGTGACGCGCCCTGCCCGGGTGGGCTACCTGCAGCAGGAGCTTGAGCTCCCGAAGCGGCCCGGGCTGCGGCTGCTCCCCGCGTTTGCCGCAGGGCTGGGTGGAAACATCGACGAGCACGCGGAGGCGCTCCTGCGCCTGGGGCTGTTCCGCACCAGTGAGTTCCATGTCCCGGTGGGTGGCATGTCCGCCGGCCAGCAGCGCCGGCTTGCTTTAGCCAGGCTTTTGCTCGGCGGCTACGGAACCCTGATCGTTGACGAACCCACCAACCACCTGGCACCGGTGCTTGTGGAGCAGCTCGAGGAGGCGCTCGCGGGCTTTGCCGGGACGCTGGTCATGGTCAGCCACGACCGCGCCCTGCGAGAGTGGTTCGCCTCCTGCGCGCGGAAGAGCGATAAGGCAAGAACGGACGACGCCGGGCGCTGGGTCAGGTACTCGATGGAGAACGGCGCGCTCGCGGAGGAAGCGCGAACGAACACTTGA	MTEHLSLVGVSHGYGDRQLLDNISLVITAREHVAIVGENGAGKSTLLRLMAGLEAPNEGTVASHGRVGYLAQTHGLPESFTVGAAIDESLASLRALEAELDRLETGLAEAEADELEAYGALQTEYQLREGYAAESRVEAALDRLGLGGLDRNRVLGSLSGGEQERVALACILADPADILLLDEPTNHLDARGTAWLEDRLADHRGTVVVVSHDRVLLRKVASTVIEVDAERRSVTRYGNGYEGYLREKAAERSRWVQQYQTWLDAMEAEQRQADTVAGKMGYARKRDGDKMGFDFKAGTWQKAATSKVRNAQERLRRLEASPVDRPPVPLRLAAELTVGSDAPQLAVPVLKARGVAVPGRLDPTDFSAAVGEKILITGPNGAGKSTLLSVLAGTLEPAAGKVTRPARVGYLQQELELPKRPGLRLLPAFAAGLGGNIDEHAEALLRLGLFRTSEFHVPVGGMSAGQQRRLALARLLLGGYGTLIVDEPTNHLAPVLVEQLEEALAGFAGTLVMVSHDRALREWFASCARKSDKARTDDAGRWVRYSMENGALAEEARTNT	PGPT0027935_68	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
D1-29_03777	957			hypothetical protein	ATGAAGTACCGCCGATCCGACTATGCCAAGTACGCGACTCTCGCAACGCTTGCGCTGGCACTCACTCTCACCGCCTGCATACCGGCAGCCCTCGAAGCCAGTACTTCGATCACACCCGCAGCGTCAGAGGAAATCTCGATCCCTCCGCAGTCACCAGTTGTGCCTGTAGAGGTTAAGCTGCCTGAAGCCAGCGCTCCCAGCCAGGAAAGTGAACCGGCACAGATCACCGTTCCTGCACCCGCTGTCGTGGCTCCCGTCATTGCCACTCCTGTGAGGCAAGCGCCCGTGTCCGTGCCGGCAGCACCAAGCGTTCCTGCCCAACCCACTGTCCCCGCGCCCCAGGTCCCCACCCCACCTGCGGCACCCGTGGTAACGCCGATTACCCCCGTTGTTCCCGCAACCCCGCATGTCTCCCCCGACTACCCGCAGATCGGCACGTTCACGTTCCCTGATGGGCACATCTCCTTCCAACTGCCGGCAGGGTGGACAGTGCAAACCGAGCACCAACCCAATCTAGAAGACGATGACTACGCTGACGAGGACCACGCCGTCATTGCCAAGATCTACAACGAGATCGGCTACAACGTAGCGCGCATCGGCAGCGGTGGTTCCGGTGGTGTCGTCGCCGGACCGGTGAACCGCACCATCCTCGACTCACAGAAGCTCACCGCCTTCGAGAGCCGGGACGGTGCCTCCCACTTCGCCTTCTTCAAGGATGAATACCCCTTCGACCCCTCAACCACCCGCTACTTCATGGGTGTCGTGTCGGACGACCACATGACCGCAGGCCCCGGCAGCACCTCCGCCCATAGTTTCCTGGTCATGGACAACGGAGTAACCAACGCGGTTGCCCACATCGACGTTGCCATGTCCCCCGAAACCGCGGCGACGTGGATGAAATCGGTCCAGTACAGCAATCTGAAGGCCCTGTTCACCAGCATCAAGTACGCGGACTAG	MKYRRSDYAKYATLATLALALTLTACIPAALEASTSITPAASEEISIPPQSPVVPVEVKLPEASAPSQESEPAQITVPAPAVVAPVIATPVRQAPVSVPAAPSVPAQPTVPAPQVPTPPAAPVVTPITPVVPATPHVSPDYPQIGTFTFPDGHISFQLPAGWTVQTEHQPNLEDDDYADEDHAVIAKIYNEIGYNVARIGSGGSGGVVAGPVNRTILDSQKLTAFESRDGASHFAFFKDEYPFDPSTTRYFMGVVSDDHMTAGPGSTSAHSFLVMDNGVTNAVAHIDVAMSPETAATWMKSVQYSNLKALFTSIKYAD				NA	NA	NA	NA	NA
D1-29_03778	861	mntB_3		Manganese transport system membrane protein MntB	ATGCTGCTGGAACCGCTGAGCTACGACTTTATGGTCCGGGCCATCATCACCACGGCGCTCGCCGCCGTTGTGTGTGCGGTCCTGAGCTGCTGGCTGGTGCTGATCGGCTGGTCCCTGATGGGCGACGCCGTCTCCCACGCCGTGCTCCCGGGGGTGGTCCTGGCGTACATCGTGGGGGCTCCGTTTGCCCTGGGCGCCCTGGTGTTCGCGCTGATCGCCGTGACGCTGATCGGGGTGGTCCGCAACACCAGCCGGGTCAAGGAGGACGCCGCCATCGGCATTGTGTTCAGCTCGCTGTTTGCGCTGGGCCTGGTCCTCATCTCGGTCACGCCCAGCCAGACGGACCTGAACCACATCATCTTCGGCAACCTGCTGGGCGTCAGCGTTCCTGACCTCATCCAAGTTGTGGTGTTGGGCGTGGTGGCGTTCGCCATCCTCATCCTGAAACGCCGTGACCTCACCCTCTACGCCTTTGATCCCACTCACGCCCACGCCATTGGACTTTCCCCGAAACGGCTCGGCGCGCTGCTCCTTGGCCTGCTGGCGCTGACGTCGGTAGTGGCGCTGCAAACCGTGGGTGTGGTGCTGGTGGTGGCCATGCTGATCATCCCCGGCGCCACGGCCTATCTGCTGACTGACCGCTTCTCCCGGATGCTGGTTATCGCCCCCGCTATCTCGGCGGCCTGCTCCATCGCCGGAATCTACCTCAGCTACTACTTGGACACCGCGTCCGGCGCCATGGTGGTCCTCACCCAGGGTGCGGTGTTCGCCGTCGTCTATCTCTTCAGTCCCAGGCAGGGACTGATTGGTACCCGGCTCGCGAAGGCCCGCCGCAAGAAGGCTGCCGTCCTCGCCGTCTGA	MLLEPLSYDFMVRAIITTALAAVVCAVLSCWLVLIGWSLMGDAVSHAVLPGVVLAYIVGAPFALGALVFALIAVTLIGVVRNTSRVKEDAAIGIVFSSLFALGLVLISVTPSQTDLNHIIFGNLLGVSVPDLIQVVVLGVVAFAILILKRRDLTLYAFDPTHAHAIGLSPKRLGALLLGLLALTSVVALQTVGVVLVVAMLIIPGATAYLLTDRFSRMLVIAPAISAACSIAGIYLSYYLDTASGAMVVLTQGAVFAVVYLFSPRQGLIGTRLAKARRKKAAVLAV	PGPT0004345_126	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT1_TRANSPORT_SYSTEM,PGPT0004345-mntB1-K11602	NA	NA
D1-29_03779	771	mntB_4	COG1121	Manganese transport system ATP-binding protein MntB	ATGATTACCATGAACAAACCAGCCATCCTCGTGGAGAACGTGACCGTCCACTACGGTCAGGTCCTGGCGCTTGACTCCGCCTCCCTCACACTGGATGCTGCCCGGATCTGCGGCCTGATCGGCATGAACGGTTCCGGAAAGTCCACGCTGTTCAAAGTCATTATGGGGATGATCAAGCCCGACGCCGGCCGTGTCCTGATCAACGGCCAGTCACCTTCCAGGGCGCGTAAGGAGGGCGGGATTGGCTACGTGCCGCAGAGCGAGGATGTGGACTGGCAGTTCCCGCTTTCTGTCCGCGATGTGGTGATGATGGGCCGCTACGGGCACCAGGGGTTCACCCGGCGCCCGTCGAAGGCGGACCGCGCCGCCGTCGACGAAGCACTGGACCGGGTGGAACTGGGGGAGTATGCCGGCCGCCAGATTGGGCAGCTCTCCGGCGGCCAGAAAAAGCGTGCCTTTGTGGCCCGCGGAATTGCCCAGGGCGCCACCATGATGCTCCTGGACGAGCCCTTTGCCGGCGTGGACAAACGCTCCGAGGCCACCATTACCAGGCTGCTGCGCGAACTCGCCGCGGACGGCTGCACCATCCTCATCTCCACCCACGATCTGCACGCCCTCCCGCAACTGTGCGACGAAGCCGTGCTGCTCATGCGCCGGGTCCTGATGCACGGTGCGCCCGAACTGGTGCTGCAGCCCGAGAACCTGGCGATGGCGTTCGGCCTGGACGTCCTGAACCGCGACAAGCCGGCACGCACCGAAAGCAGGGGCTGA	MITMNKPAILVENVTVHYGQVLALDSASLTLDAARICGLIGMNGSGKSTLFKVIMGMIKPDAGRVLINGQSPSRARKEGGIGYVPQSEDVDWQFPLSVRDVVMMGRYGHQGFTRRPSKADRAAVDEALDRVELGEYAGRQIGQLSGGQKKRAFVARGIAQGATMMLLDEPFAGVDKRSEATITRLLRELAADGCTILISTHDLHALPQLCDEAVLLMRRVLMHGAPELVLQPENLAMAFGLDVLNRDKPARTESRG	PGPT0004340_59	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT1_TRANSPORT_SYSTEM,PGPT0004340-mntA1-K11603	NA	NA
D1-29_03780	942		COG0803	putative periplasmic iron-binding protein	GTGGCGTCCCGCGCCATCGGTGCCGCCGCCGTCGTCCTCCTGTCCCTTTCCCTGGCCGCCTGTGGCGGCGCCGCACCCGGCGACACGTCCGCCAACGGTGACGGGGAGAAACCCGTGGTGCTGACCACCTTCACTGTGCTGGCGGACATCGCCCGCAACGTCGCAGGGGACAAGCTGACCGTGGAGTCAATCACCAAGGCTGGAGCCGAAATCCACGGCTACGAGCCCACGCCCGGCGATATTCGCAAGGCCTCCAAGGCGGACCTGATCCTGGACAACGGGCTGAACCTGGAGGCCTGGTTCGGGCAGTTCGTGGAGGGCCTGGACGTTCCCCATGCCGTGGTGAGCGACGGTGTCCAGGCGATGTCCATCAGCGAGGATTCCTACCAGGGAAAGCCCAACCCGCACGCCTGGATGTCCCCGGTGAACGTCCAGATCTATGTGGACAACATGGTGAAGGCCTTCTCCGAACTGGACCCGGATAATGCCGGGGAATTCCGGAGCAACGGTGACGCCTACAAAGCCGAGCTGCAGGCTGTGCAGGACGAGATGAGATCGAGCCTCGCCGGCGTGCCGGCGGCGCAGCGCGCCCTGGTGACCTGCGAAGGCGCCTTCTCCTACCTTGCCCGCGACGCCGGCCTGCACGAGGTTTACATCTGGGCGGTCAACGCCGAGCAGCAGGCCACGCCGCAGCAAATCACCCGGGCCATCCAGTACGTCAAGGCCAACAAGGTCCCCGCAGTCTTCTGTGAATCCACCGTCTCAGACGCGCCCATGCAGCAGGTTGTGGGCGCCACCGGCGCCAAGTTCGGCGGGACCCTGTACGTGGATTCGCTCTCCGAAGCCGACGGTCCCGTTCCCACCTACCTTGACCTCATCCGCCACGACGCCCAGGTCATCACTAAGGCGCTTACAGGGGCGTCCACTACTGCAGCACAATGA	MASRAIGAAAVVLLSLSLAACGGAAPGDTSANGDGEKPVVLTTFTVLADIARNVAGDKLTVESITKAGAEIHGYEPTPGDIRKASKADLILDNGLNLEAWFGQFVEGLDVPHAVVSDGVQAMSISEDSYQGKPNPHAWMSPVNVQIYVDNMVKAFSELDPDNAGEFRSNGDAYKAELQAVQDEMRSSLAGVPAAQRALVTCEGAFSYLARDAGLHEVYIWAVNAEQQATPQQITRAIQYVKANKVPAVFCESTVSDAPMQQVVGATGAKFGGTLYVDSLSEADGPVPTYLDLIRHDAQVITKALTGASTTAAQ	PGPT0004350_20	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT1_TRANSPORT_SYSTEM,PGPT0004350-mntC1-K11601	NA	NA
D1-29_03781	687			hypothetical protein	GTGGGCCTTTACGTCGGCCTGGCTGCCTTCATCGCCCTGGCCGGGCAGCTGCTGCTGCCACTCCTGCGCCAGCTCGGACCCTCCCGGCTGGCCGCTTCATATGGCCTGACTTTTGTTTATTTTGCAACGGTCGCGGTGCTGGCCCTGCTTGCTGCGCGCAGGGTAGTGGCCAGGGACCTCCGGGTGCTGGCCACCCGCCCGTGGTTCACCTTGTTCATTGTGCCCGCCACTGTAGTGGCCATGCTTATTTTCACCAGCCTGGTGGCGGCGGCAGTCGGTGGAACGGAGACTTCAGAGAACGAGGCCGTGTTCAAGGAGCTGATGCAGCGGTTCCCCATTTGGGTTACGGCTCCCCTGGTTGTGGTGATTGTCCCGTTCGTGGAGGAGTACCTCTTCCGTCACCTGCTGATCGGCAAGCTGAGCCGGCGGGTCAACATCTGGTTGTGCTCCGTAGTATCCGCGGTTCTCTTTGCCGTCCTGCATATGGTGGGCCAGGACGCTATCACTGTCGCAGTGTTGCTGCCTTACCTGGCAGCGGGCAGCGTGCTGGTTCTGGTGTATCTGTGGACGGGTAAGAATTTGATGTTCGCCTACTTCGTGCATGCCGCCAATAACCTGCTTGCCCTCGTCATCGCCTACGCCATTCCGCCCGAGGTCTACGAGCAAATCCAGCAGGTGCAGCCTTAG	MGLYVGLAAFIALAGQLLLPLLRQLGPSRLAASYGLTFVYFATVAVLALLAARRVVARDLRVLATRPWFTLFIVPATVVAMLIFTSLVAAAVGGTETSENEAVFKELMQRFPIWVTAPLVVVIVPFVEEYLFRHLLIGKLSRRVNIWLCSVVSAVLFAVLHMVGQDAITVAVLLPYLAAGSVLVLVYLWTGKNLMFAYFVHAANNLLALVIAYAIPPEVYEQIQQVQP				NA	NA	NA	NA	NA
D1-29_03782	1827			hypothetical protein	ATGTTGAACGAACAGCAGACGGATTCGGCCATCGATACCGTTTTTCTTCGCCGGGTGGTGGATGAAGCGGACAGGCATGTTGGCACCCTCCTTGAAACGTCCAACGGCGGTGTTGCGGCTCTTCCGCACCGCGGCGCCATGAGCCGCCTGCTGGCCCTGGTGACGGTTTTTTCCGAGCCGGGGTCCGCCTATTACGGTCAATCAGGGCTGCAGGAACCGATGGGGAGATGCCTGGACCGGCTTGAACGCCTCCAGGGCCCGGCCGGCCTTTTTGACGGCACCAACCTGAGCTCCCCGCCGGACTCGGCCTTCACCATCAATGACGCCTGCCTGGCCCTGGGCCTGATGGACTCCCTGGCGGGCGGGGCGCAGGCCGGCGGGGTGCAGGGTGGCGTTTTGTGGGACGGCGTTTGGCGGGACGTCCGCAGCAGGCTCAGGCTGATCGTTGCCCGTGCCACGGCGTCCCTGGTAGACGGCGGGGTCCACACCCCCAACCACCGTTGGGAACTCTCTGCCGCTCTGGCCCAGATCCATCAGCTCCAGCTCCGCGAGGATGCGCCCCAGCCGGAGATAGAGGCCCGCATCGGGCAATGGCTTGCCGAAGGGATCGACCAGCTTCCGGACGGCATGTATTCCGAACGCAGCCCCCTGTATGCCACGGCGGTGACCAACCCGTCGCTCCTGACCATCGCAGACAATGCCGGCAGGCCCGATCTGCTGGACCATGTCCGCCGGAACCTGGCAGCCTTCCTGCCCTGGTTCAATCCGGACGGGAGTGTGGAATCCGTCTTCTCGAGGCGCCAGGACCAATGGCTGACCTTTGACGCTACCGTCTTCCTGATGCTTTACCGCCGGCTGGCCAACCAGGACGGGCGGGAAGACTTCACCGCCGCCGCCCGCTGGCTGGAGCAGTTCCCGCTGCACGGACCTGACAAACTGCTCGCTCGGATGCGGCTGGATCCCTGGCTGACGAAAACCCTGCCCGGCGCGGGGGCGGATGCGGGCGCGGGCGATATGGCCGCGCACGCTGGCGCCTACGATCCATTGCCGGACGCACTGGCCCCCGCTGAGGCCTCGCTGGACAGCTGCGGCCTGTACCGGTTCCGAAGAGGGGAGACAGTTACCACCGTTTATGGCGGGTGCGACGAGCTGGTGCCGGGTGTGGTTTCAGGGCTGTCCGCCAACCCCACGTTCCTCCGCCTAGAACATGGCGCGGCGGTCCTGAGCGATGTCCGGCTGTCACGGAGCTTCTTTGATCTCGGCCCGTTCCGGAGCCAGGAGACGGCTGCCGGGGGGAATTCCACGGTATCGCTGTCCGAAAGCCTTGCCGCCAACTTCTATCTGCCGCTTCCACCGGAGAAGCAGCGCGGCGACGGCATCTACAGCCTCACCCACGAGGGCCGCTTCAGTGCCAGCATGGACTTTGCCAGCCGGCCGGCGGTGGTTCACAGCCTCGCCACGGCTGTTGCGGTCCAGGTCAGCGGGAATGAAATCGTCCTGGAGATCGGCTTTGACGGCGTTGACACGTCCTTCGCCCTGGAACTGACATTCAGGCCGGGGGGCGAGCTTGACGGTGTTGAGCCTGCCGGAAGTCCCGATGCCTTCCAGCTCGTGGAAGGAACAGGCAGTTACCGCGTAGGCGGGCACGTCATCGAGTTCGGTCCGGGCAACGCAGCGGACCCCGACAACCCGCCGGTGTACAACCCCGGGGAGGCCTACCGCTACCTCAATCGAACGAATGCAACGGAAGGGGTGAAGGTCTACATCACAGGCCGGACCCGGGGCAGCCACACGTTCACCCTGCGCGGGATCTCCGTTTCCTCCTAA	MLNEQQTDSAIDTVFLRRVVDEADRHVGTLLETSNGGVAALPHRGAMSRLLALVTVFSEPGSAYYGQSGLQEPMGRCLDRLERLQGPAGLFDGTNLSSPPDSAFTINDACLALGLMDSLAGGAQAGGVQGGVLWDGVWRDVRSRLRLIVARATASLVDGGVHTPNHRWELSAALAQIHQLQLREDAPQPEIEARIGQWLAEGIDQLPDGMYSERSPLYATAVTNPSLLTIADNAGRPDLLDHVRRNLAAFLPWFNPDGSVESVFSRRQDQWLTFDATVFLMLYRRLANQDGREDFTAAARWLEQFPLHGPDKLLARMRLDPWLTKTLPGAGADAGAGDMAAHAGAYDPLPDALAPAEASLDSCGLYRFRRGETVTTVYGGCDELVPGVVSGLSANPTFLRLEHGAAVLSDVRLSRSFFDLGPFRSQETAAGGNSTVSLSESLAANFYLPLPPEKQRGDGIYSLTHEGRFSASMDFASRPAVVHSLATAVAVQVSGNEIVLEIGFDGVDTSFALELTFRPGGELDGVEPAGSPDAFQLVEGTGSYRVGGHVIEFGPGNAADPDNPPVYNPGEAYRYLNRTNATEGVKVYITGRTRGSHTFTLRGISVSS				NA	NA	NA	NA	NA
D1-29_03783	918	araQ_13	COG0395	L-arabinose transport system permease protein AraQ	ATGGCAACAGCTGCCAACCTGCCTCCCGTCTCGGACGAAGTGGCCGTCATCGGGGCCGAAGAAGCCGCCCGCACCGCGGACCAGCGGAACATGCGGAACGGGCGGACCAAACTGTCCGCGCCGCTGACGGGCCTCATGTGGCTGATCGTCGCCATCTACGCGCTGCCGCTGCTGTGGTTCATCCTCAGTTCCTTCAAGCCGGGCAGCGAATTGTTCACGTATCCGCTGTCCATGATCCCGAGGGAATGGACCTTCCAGGGCTTTGTTGACGCTTGGGAGCGCGTGGACTTTGCCCAGTATTTCCTGAACACCGCCACCGTGGCGCTGGTCACCACTGTGCTGACCGTCTTTTTCAGCGCCTGCACAGGCTATGCCCTGGCCAAGTACAACAACCCAGGCACGCGCCTGTTCTTCGTGTGCATCCTGGCAACCACCATGCTGCCCACCGAGGTGATCCTGAACCCCACGTTTACCGTGATCCGGGATCTGGGCCTGTACAACTCGCTGTCGGGCATCATTGTGCCCTCAGTGCTCACGGCCACAGGCGTCTTTATGTTCCGCCAGTTCTTCCTGACGGTCCCCGATGACCTCCTGCATTCAGCCCGGATTGACGGTGCCAGCGAGCTGACCATCTTCTTCCGGATCATGCTGCCGCTGTCCCGGCCCATCCTGTTCACGCTGGCTATCTTTTCGTTCCAGTGGCGCTGGAATGACTACATCTGGCCGCTGATCGTGCTGAACGATCCCAAGTGGTACACCCTCCAGGTGGCTCTGCGGAGCATCGTGGGCGCCGAGAACATCGACTGGCCCGTCCTCCTCGGCGCGTCGGTGATCTCCATCCTGCCGCTGGTCCTGGTGTTCTTCGTGTTCCAGAAATACGTCCTCAACGCCGACGTCAGCGCCGGCCTGAAGGACTAG	MATAANLPPVSDEVAVIGAEEAARTADQRNMRNGRTKLSAPLTGLMWLIVAIYALPLLWFILSSFKPGSELFTYPLSMIPREWTFQGFVDAWERVDFAQYFLNTATVALVTTVLTVFFSACTGYALAKYNNPGTRLFFVCILATTMLPTEVILNPTFTVIRDLGLYNSLSGIIVPSVLTATGVFMFRQFFLTVPDDLLHSARIDGASELTIFFRIMLPLSRPILFTLAIFSFQWRWNDYIWPLIVLNDPKWYTLQVALRSIVGAENIDWPVLLGASVISILPLVLVFFVFQKYVLNADVSAGLKD	PGPT0017270_133	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALPHA-1|4-DIGALACTURONATE_TRANSPORT,PGPT0017270-aguG-K17243	NA	NA
D1-29_03784	945	araP_3	COG1175	L-arabinose transport system permease protein AraP	GTGGCTACTCCAACCAGGGGATCCACGCTGACGCCTGAGACGCTCCGCACGCCGGCCGTGCGGAGCAAGTCCCAGCAGAAGCGCCACAACCGCTACGTCATTGCCCCGCTGATCCTCATCGGGGTCAACGTGGTGCTCTTCCTCGTGTTTTTCGTCTGGCCCGGGGCCTTGGGCCTGATCTACTCATTCACGGACTACCGCGGTGTGGGCAGGCTGAACTTCATTGGCTTGGCCAACTTCCAGAAGCTCTTCGCGGACAGCACGTTTTACGCTGCACTGACCCGCACGTTCCTCTACACCCTGCTGTCGGTGCCGCTGATCTACGTTTCCTCCCTCGGCGTTGCGGCCCTCCTTGTGAGCAGGGCCGTCAGGGGGCGGACCGCTGCCAAGATCGTGATCTTCCTGCCCTGGCTGATCTCCCCGATTGTGGTGGGTGTCATCTGGAAATGGATGTTCGGACAGGACTTCGGGTTCGTCAACTTCGTGATCTCCGCCCTGGGTGGAAGCCCGTTGCCGTGGTCCAGCAACGCCAACCTGGCCCTGACCGTGGTGATCTTTGCCGCGGCCTGGGGCGGAACCGCCTTCAACATGCTCCTGTTCATCGCAGCGCTGAAGAACATTCCCGAAGCCTTGCTGGAGGCTGCCGAACTGGACGGGGCCAACGCCTGGCAACGGTTCCGGCATGTGACACTGCCCGGCATCGCCCCGACGTCGTTCATGGTCATCCTGCTTTCAACGATCCATGCGATGAAGGAATTCGCCATGATTCAGGCGCTGACCAACGGCGGTCCCGGCACGGAGAACGTCCTGATCGTCCAGTACATCTACAAGACCGGCTTTGAGCAGTCCAAGGTGGGTTACGCCAGCGCCGCGTCCATGGTGCTGATGGTGGTCCTGCTGGCTATCGCGCTGATCCAGCTTCGCTTCAACAAGAAGAAGGGCTGA	MATPTRGSTLTPETLRTPAVRSKSQQKRHNRYVIAPLILIGVNVVLFLVFFVWPGALGLIYSFTDYRGVGRLNFIGLANFQKLFADSTFYAALTRTFLYTLLSVPLIYVSSLGVAALLVSRAVRGRTAAKIVIFLPWLISPIVVGVIWKWMFGQDFGFVNFVISALGGSPLPWSSNANLALTVVIFAAAWGGTAFNMLLFIAALKNIPEALLEAAELDGANAWQRFRHVTLPGIAPTSFMVILLSTIHAMKEFAMIQALTNGGPGTENVLIVQYIYKTGFEQSKVGYASAASMVLMVVLLAIALIQLRFNKKKG	PGPT0017265_137	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALPHA-1|4-DIGALACTURONATE_TRANSPORT,PGPT0017265-aguF-K17242	NA	NA
D1-29_03785	1278			hypothetical protein	TTGTCAGAGCAGACAAGAATCTCCAGCATCAGCCGCAGGCAGTTCGGACTGACGGCGTTTGGCCTTTCGGCCCTTGCCGCGGGGCTTACCGCTTGTGGAAGCGGCGGCGGAGGGGGCACGGCAGATCCTTCAAAGCCCCTTCAGCTGATCCTCTCCGGCGATACCAACCAGGGCGGCGCGTTTGCGGCAGCCGCCAAGAAGTACAAGGAAGCCACCGGCATCACCATCGAAGTGGTGGACGTCCCCACGGCGGACATCACCACCAAGCTCAAGAACGCCGCCACCGCCAACGACCTGCCGGCCCTGGCGCGTGTGACCAGCATTGACCCGCTGTGGGTCAACCAGCTCCAGGACCTGACAGACATCGCCAAGTCCCGGAACATCGACGAAAAGTTCCTGCAGGAGGCCCCGGACGGAACCATTCCGGCCATCCCCTCCGACCTCACCGCCGTCGGACTGTTTGTAAACAAGAGCCTCTTCGACAAAGCCGGCGTGGCCTACCCCTCCGCTCTTGAGGACGCCTGGACCTGGGATGAGTTTGTTGCGGCCGTCACGGAGGTCCGCGAGAAGGCAGGCGCCAAGTACGGCGTGGTCATGGACCGGTCCGGCCACCGCCTGCGCGCCATGATGTACGAGTTCGGCAGCAGCGCCTTCGCCAAGGAAGGCGACAAGTACGCCGGCGACGACAAGGCCGTGGAAACGCTGGAGTACTTCCAAAAGATCAACGACGACAAAACCATGCCGAAGTCCGTCTGGCTCAGCGGCGAAGACGGCAACGCCATGTTCAAGAGCGGCCAGGTGGCGGCGTACTACTCCGGCAGCTGGCAGGTTGCCGACTTCAACAAGAACATCAAGGACTTCGAATGGCTTTCCGTGCCGCTGCCCAAGAAGGAAGTCAGCGCCACTAACCTCGGCGGCGGCTTCATGGTCGCCTTCAAGGACACCGGCGCCGACGAGGAAGCCAAGAAGTTCATCGAGTGGTTCTACGATGACGCCAACTACACGGAGTTCGCTAAGCTCGGCGGCTACCTGCCCGTCAAGGCAGACCTGAAGGTGGAGTACCCGTTCCAGCAGGCCTCTTTCGAGCTGTACCAGAAGCAGATCGCCGGCAATGAGGCAAAGGGTGACAATGCCATCAAGCGGGTGGTGGCCGAAGCATACGCCGAGACCCCGTTCTCCGGGGACCCGCTGCGTGAGGAAACCGTCAAGATGCTCGGCGGCAGCCAGGACGCCAAAACCACGGTGGATAACATCGTGAAGCTCTACAACGGCGGCTAA	MSEQTRISSISRRQFGLTAFGLSALAAGLTACGSGGGGGTADPSKPLQLILSGDTNQGGAFAAAAKKYKEATGITIEVVDVPTADITTKLKNAATANDLPALARVTSIDPLWVNQLQDLTDIAKSRNIDEKFLQEAPDGTIPAIPSDLTAVGLFVNKSLFDKAGVAYPSALEDAWTWDEFVAAVTEVREKAGAKYGVVMDRSGHRLRAMMYEFGSSAFAKEGDKYAGDDKAVETLEYFQKINDDKTMPKSVWLSGEDGNAMFKSGQVAAYYSGSWQVADFNKNIKDFEWLSVPLPKKEVSATNLGGGFMVAFKDTGADEEAKKFIEWFYDDANYTEFAKLGGYLPVKADLKVEYPFQQASFELYQKQIAGNEAKGDNAIKRVVAEAYAETPFSGDPLREETVKMLGGSQDAKTTVDNIVKLYNGG	PGPT0017260_105	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALPHA-1|4-DIGALACTURONATE_TRANSPORT,PGPT0017260-aguE-K17241	NA	NA
D1-29_03786	441			hypothetical protein	ATGGGACTGAACATTCAGATTGTCACCGACTGCAGTAACCCGCACCAGCTCGCTGATTGGTGGGCCGAAACGCTTGAATGGGAGGTGGAGCCGCAGGACGAGGCCTTCATCAGGTCAATGATCAACCAGGGGTTTGCCACGGAGGACCAGACGCTGGTCCACAAGGGCAAGCTCGTCTGGCGCGAGGGCTGCGCCATCCGGCCGCCGGAGGAGCTCGAGGCGGCCAAGCCCACCAGGCGCCTCCTCTTCCAGACTGCACCCGAAGGAAAGACCGTCAAGAACCGGGTGCACTGGGACGTGGACCTGGACGGGCGGGACAAGGATGAGGTAAGAAAGGCACTCGAAGCCCGGGGAGCCACATTCCTTTGGACCGCAAGCCAGGGCCCGCATTCCTGGCACACCATGGCGGACCCCGAGGGCAACGAGTTCTGCATCAGCTGA	MGLNIQIVTDCSNPHQLADWWAETLEWEVEPQDEAFIRSMINQGFATEDQTLVHKGKLVWREGCAIRPPEELEAAKPTRRLLFQTAPEGKTVKNRVHWDVDLDGRDKDEVRKALEARGATFLWTASQGPHSWHTMADPEGNEFCIS				NA	NA	NA	NA	NA
D1-29_03787	969	menB_3	COG0447	1,4-dihydroxy-2-naphthoyl-CoA synthase	GTGAGCAACCAATTCCCCGCCAAGGTGTCCGACGTTTTTGATCCTTCCCGCTGGCGCACCGTGTCCGGCTTCGACGACTTCCAGGACATGACGTACCACCGCCAGGTGGAACGGGGAGCCGACGGCTCGGTGATCAGGGACCTGCCCACGGTCCGGATCGCGTTCAACCGTCCGGAGGTGCGCAACGCCTTCCGTCCCGGCACCGTGGATGAGCTCTACCGCGCCATGGACCACGCCCGGATGACGCCGGACGTCGCCACCGTGCTGCTCACCGGCAACGGACCTTCGGAGAAGGACGGCGGCCACTCGTTCTGCTCGGGCGGGGACCAGCGGATCCGGGGCCGTGACGGTTACCGGTACGTAGTACAAGACACAGGCGATGGCGAGACGACGGAAACCATCGATCCCGCGCGTGCCGGCCGGCTCCACATACTGGAAGTCCAGCGGCTCATGCGCACCATGCCCAAGGTGGTCATCGCCGTCGTCAACGGCTGGGCGGCCGGCGGCGGGCACTCCCTGCACGTGGTCTCGGACCTCACCATCGCCTCCCGCGAGCACGGCAAGTTCAAGCAGACAGATGCCACCGTGGGCAGTTTCGACGCCGGCTATGGCTCCGCGCTGCTGGCCCGCCAGATCGGCCAGAAGGCCGCCCGGGAGATCTTTTTCCTGGCCCGTGAATATTCCGCTGAGGACATGGTTCGGATGGGCGCCGTGAACGAGGCCGTGGACCACCACCGACTGGAGGACGTTGCACTGGAATACGCGGCTGACATCGCCCGCCAGTCCCCCCAGGCCATCCGCATGCTCAAGTTCGCCTTCAACCTCGCCGACGACGGCCTTGCCGGCCAGCAGGTCTTCGCAGGCGAGGCCACCCGGCTTGCCTACATGACGGACGAAGCCGTGGAAGGCAAGGAAGCGTTCCTGGAAAAACGCGACCCCGACTGGTCCCGTTTCCCGCACTACTTCTAA	MSNQFPAKVSDVFDPSRWRTVSGFDDFQDMTYHRQVERGADGSVIRDLPTVRIAFNRPEVRNAFRPGTVDELYRAMDHARMTPDVATVLLTGNGPSEKDGGHSFCSGGDQRIRGRDGYRYVVQDTGDGETTETIDPARAGRLHILEVQRLMRTMPKVVIAVVNGWAAGGGHSLHVVSDLTIASREHGKFKQTDATVGSFDAGYGSALLARQIGQKAAREIFFLAREYSAEDMVRMGAVNEAVDHHRLEDVALEYAADIARQSPQAIRMLKFAFNLADDGLAGQQVFAGEATRLAYMTDEAVEGKEAFLEKRDPDWSRFPHYF	PGPT0009385_303	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009385-menB-K01661	NA	NA
D1-29_03788	1224	menE_3		2-succinylbenzoate--CoA ligase	ATGACTTTCGAACCCATGAATCCAGGCCCCATGAACGCTGGCCCCGTGGACATCGACCCTGCTCTCAAGGCACTCGCAGCTGCGCTCCATGGCGAGGGCCCCGCCGTCGAACTTTCCATTGGCCCTACCGGGAACCTGGTGGTGGGACACGTTGAGACCCCCGGCTGCGACGACGCCGTCGCCGTGGTCCGCACGTCCGGATCCACCGGCGCCCCCAAAGCCACCATCCTGACGGTGGAGGCCCTGGCGTCGTCCTCCATGGCAACGGCCCTGGCACTGCGGGGCGAAGGCCAGTGGCTCCTGGCGCTGCCCGTGCAGTATGTCGCGGGGCTGCAGGTCCTGGTGCGCTCGCTGTTTGCAGGCACGCGTCCATGGGTGATGGACATGTCCGAAGGCTTCACGCCGGAGGCCTTTACCGCCGCCGCGCTGGAGCTGACGGACAAGATAAGGTTCACGTCGCTTGTGCCCACCCAACTGCAGCGGCTGCTGTCCTCGCCGGCTCCCGAGACGCTGGCTGTGCTGCGCCGCTTCAACGGCATCCTGCTCGGCGGCGCCCCGGCGTCGGCGGAACTGCTGGAGGCAGCACGTCAGGCCGGAGTCCGGGTCATCACCACCTACGGCTCGGCCGAAACCTGCGGTGGCTGCGTGTATGACGGCGTGCCGCTGGAAGGGGTGAACGTCCGGGTGGAGGAGGACGGCCGCATCCTCCTGGGCGGTGACACGATAGCCGCCGGCTACCTTGACTCGCCTGAAGGCACCGACACGTTCTTCGAGGAGGACGGCGTGCGCTGGTTCCGTACCAGCGACCTGGGCATCCTTGATGCTGACGGACGGCTGACGGTGCTGGGCCGGGCCGACGACGTCATCGTCACCGGCGGCGTGAAGGTTTCGGCCGCGCACGTCCAGGCTGAGCTGGAAAAGTCCGACGGCGTCCTGGCGGCTTTTGTGGCCGGCGTCCCGTCAGCGGAATGGGGCGAGGCCGTGGCCGCGTATGTCGCACTGGCCGGACATCCTGCCGGACATCCCGCCGGGTCTGCCAGCGCGGGTGACGATCACGGCGCCGGGGATCCCGCCGTCGTCCTCGAGCAGGAGTGGCGCCAGGCCCTGGGACTCCTCGCCCCCAAGACAGTGCTCGCCGATTCGGCGCTTCTTATGTTGCCAAATGGGAAGCCGGACCGCCTGGCTATGACGGAGCGGCTCAACGCTTTGCATCAGGGAAAGTAG	MTFEPMNPGPMNAGPVDIDPALKALAAALHGEGPAVELSIGPTGNLVVGHVETPGCDDAVAVVRTSGSTGAPKATILTVEALASSSMATALALRGEGQWLLALPVQYVAGLQVLVRSLFAGTRPWVMDMSEGFTPEAFTAAALELTDKIRFTSLVPTQLQRLLSSPAPETLAVLRRFNGILLGGAPASAELLEAARQAGVRVITTYGSAETCGGCVYDGVPLEGVNVRVEEDGRILLGGDTIAAGYLDSPEGTDTFFEEDGVRWFRTSDLGILDADGRLTVLGRADDVIVTGGVKVSAAHVQAELEKSDGVLAAFVAGVPSAEWGEAVAAYVALAGHPAGHPAGSASAGDDHGAGDPAVVLEQEWRQALGLLAPKTVLADSALLMLPNGKPDRLAMTERLNALHQGK	PGPT0009380_1310	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009380-menE-K01911	NA	NA
D1-29_03789	882	menA	COG1575	1,4-dihydroxy-2-naphthoate octaprenyltransferase	GTGGCCACAGCCGCACAATGGATCCAAGGCGCCCGCCTCCGCACTTTGCCGGCGGCGATCGCCCCCGTACTGATCGGCACCGCCGCTGCATTCGAAATGGATTCGTTCCGCCCGGTCAATGCCGTGCTGGCCGCCCTGGTGGCGCTCCTCCTGCAGATCGGCGTGAATTACGCCAACGACTACTCAGACGGAATCCGCGGCACGGACGAGGACAGGGTCGGCCCGCTGCGCCTGGTGGGCTCAGGCGCTGCCCGCCCCGAACAGGTCAAATATGCGGCGTTTGGTGCGTTCACGGCGGCCATGGTGCTGGGTCTGGCGTTGGTGATCATCACGCAGAGCTGGTGGCTGATCCTGGTGGGAGTAGGGTGCGTCCTGGCTGCCTGGGGCTACACCGGCGGCAAGAACCCTTATGGCTACAAGGGCCTGGGCGATGTGTTTGTGTTTGTGTTCTTTGGCCTGGTGGCCACCCTGGGCACCACGTACACGCAGGCCGGGCAGATCAACCTGGCGTCCATCATCGGCGCCATCGGGACCGGGCTGATTGCAACGGCGCTACTGATGGCCAACAACGTCCGGGACATTCCCACCGACATGCGGGCAGGCAAGAAGACCCTCGCTGTCAGGCTGGGTGACAAGCATGCCCGCGAAAGCTACGTGCTGATGCTGGCCATTGCGATCCTGCTGGTGATCATCCTGGCCCCGGGACGGCCTTGGATGCTCATTGTCCTGCTGCTCATTCCGGCCTGCCTGATGCCGGCCTGGCTCATGATTAATGGCCGCAAGCGCAAAAGCCTGATTCCGGTGCTCAAGCAGACCGGACTGATCAACCTCGGCTACAGCGTGCTTTTCTCGCTGGGCCTTGCCCTCAGCCACGGGTTCTAG	MATAAQWIQGARLRTLPAAIAPVLIGTAAAFEMDSFRPVNAVLAALVALLLQIGVNYANDYSDGIRGTDEDRVGPLRLVGSGAARPEQVKYAAFGAFTAAMVLGLALVIITQSWWLILVGVGCVLAAWGYTGGKNPYGYKGLGDVFVFVFFGLVATLGTTYTQAGQINLASIIGAIGTGLIATALLMANNVRDIPTDMRAGKKTLAVRLGDKHARESYVLMLAIAILLVIILAPGRPWMLIVLLLIPACLMPAWLMINGRKRKSLIPVLKQTGLINLGYSVLFSLGLALSHGF	PGPT0009395_2274	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009395-menA-K02548	NA	NA
D1-29_03790	369			hypothetical protein	GTGGCCTTTTTGAAATATTCCCTGATCCGTCTGGCGCTCTTCGCGCCGCTCTTCCTGCTCTTCTATTTCCTGGGGCTGGGTGCGCTGATGTCCGTCGTCTGCGCGGCCCTGATCGCGTTCGCGGTGAGCTACCTGTTCTTCCAGAAACAGCGGGATGAGGCCGCCATGGCTCTCCAACACCGGTTCTCCGGCAAGGCGAAGCCGCTCCGCTCGGCGGGTGAGGTGGAGGATGCCGCGGCAGAGGATTCCGTTCTGGACGCGAACCCGGACGCTGTCATCCGTACGGATGCCACAGACCCCAGGCCCGCAAGCCCGGCCCAAAACAGCAGGGCCAAGGACAGCAGGCCAAAGGGCCTGCATAACAGCTGA	MAFLKYSLIRLALFAPLFLLFYFLGLGALMSVVCAALIAFAVSYLFFQKQRDEAAMALQHRFSGKAKPLRSAGEVEDAAAEDSVLDANPDAVIRTDATDPRPASPAQNSRAKDSRPKGLHNS				NA	NA	NA	NA	NA
D1-29_03791	678			hypothetical protein	ATGCTCTTCCGTGTGGCTCTCGCCGTCGCAGTACTCGCCATTTTTGTCTATGGCCTGGTGGACGTGATCCGCACTGACGGACGCCTCACCCGGGGCATCTCCAAACCCGCCTGGATAGTGGTGATGATTGTCCTGCCGGTGGTTGGGGCCATTCTGTGGCTCCTCATCGGCCGCCCGCGCGGCACTTCCCAAGTCCGGCAGAATTACAGCCACCCGACAGCTCCCGACGACGACCCCGCCTTCCTGCGCAACCTCGAAGTCCGGCGTCGCAATCAGGCCGAAGCCGCCCGTCTCCAAAAACTCAAGGATGAACTGGACGCACAGGGGGCCAGCCCCGAAGGCAGCGGCTCAGCGGGGCCAGGCACCTCCGGCTCCGCAGGGTCCGGCGGCGGCTCTACAGGCTCCGGCCCAGCCGGTTCCGGCGGTCCAGGCTCTGGCGGCTCAGGATCTGGCGGCTCAGGCACCCCTGGTTCAGGACCTGGCGGCTCAGGTTCTGGCGGCTCAGGTTCTGGCGGTGCAGGTTCTCGCGGTGGAGGCGCCCCCGGATCAGGATCCTCAGCTTCGGGAGACTCCGGTTCAGGAAGCAACGGCGCTGCCGGTAAGCGCAACGGCCCGCTGGATGAAGAAGGCGCCGGCGGTGCCGATGCGGATGCACGCGATACTGATGAACTGAAGTAG	MLFRVALAVAVLAIFVYGLVDVIRTDGRLTRGISKPAWIVVMIVLPVVGAILWLLIGRPRGTSQVRQNYSHPTAPDDDPAFLRNLEVRRRNQAEAARLQKLKDELDAQGASPEGSGSAGPGTSGSAGSGGGSTGSGPAGSGGPGSGGSGSGGSGTPGSGPGGSGSGGSGSGGAGSRGGGAPGSGSSASGDSGSGSNGAAGKRNGPLDEEGAGGADADARDTDELK				NA	NA	NA	NA	NA
D1-29_03792	429			hypothetical protein	GTGTTGAGTTTTCTGTGCGGCCTGGCGGTGCTGGCAGCAGCATTCTTTTCGCGGGACGCCCATTTGGAGCGCCTCCGCGGTGTAGTGGACCAGATGGCGCCCGGCGCCGAAGCCGATGCCCTGACCACGTCGGTGGCCATCGTGTTCTGGGGCAGCGTCGGCACCCTGCTCCTGGTGATCCTCCTGGAGGCCATGACCCTGGGAAGTGCCATGAACCAGCGCGGCTGGGCCCGCTGGGTCATGATTCCGCTGCTCCTTGGCCATGTGGGCGCCATGCTGGTGGCGGGGTCGTTCCTGGTACCTGCGAACGACTCTGGCAGCTACGTAGTGCTGCTCTGGGCCGCCCAACTGCTCCTTGCCTTCGCCGGGCTGGTGCTGCTCTTTCTGCCTTCCAGCGCAGCGTGGTTCCGCTCCCGGCAGAGGCTGTAA	MLSFLCGLAVLAAAFFSRDAHLERLRGVVDQMAPGAEADALTTSVAIVFWGSVGTLLLVILLEAMTLGSAMNQRGWARWVMIPLLLGHVGAMLVAGSFLVPANDSGSYVVLLWAAQLLLAFAGLVLLFLPSSAAWFRSRQRL				NA	NA	NA	NA	NA
D1-29_03793	1485	iniC	COG0699	Isoniazid-induced protein IniC	ATGACGGAAGAGACCATCACAGAGGTGTCCGACCTCGTGCAGGAGGCCCTCGACGTCTACCGTGATGATCCGGCAGCCACTGCGGCTTTGGAAGGCTATGCCCGCCGGCTGGCCGAACCGCTGCGGATCGCTGTGGCAGGCATGGTGAAGGCAGGAAAATCCACCCTGCTCAATGCGATTATCGGCGAGGAGATAGCCCCCACCGACACCGGTGAATCCACGAAGATCATCACCTGGTACCGCTTCGGGCAAACACCTCGCATCACCATGTATCCCGTGCAGGGCGAGCCGCTGGCCCTGCCCGTCAAACGCGTTGATGGCCGGCTGGTGTTCGTCCTGGGCAGGATGGGCGCAGAGGATGTGAAGCGGCTGGTGGTTGACTGGCCGTCCCGGAACCTCCGCGATGTCACCCTTATTGATACTCCCGGGATCGCCTCGCTGTCTGAGAAGGTATCGGCCCTGTCCACCGGCTTCCTAACCCCTGCCGATGCTCCCTCCCAAGCCGACGCCGTCATATACCTCATGCGGCATATGCATGCAGCGGATCTTCGGTTCCTTGAGTCGTTCAAAGACACGGAGGCGGGAAGGTCCGGGACGGTCAATGCCTTGGCTGTCTTATCCCGGGCAGATGAGATCGGTGCCGGCCGCATCGACTCGCTGCTTTCCGCCGGGGATATTGCAGAGAGGTACCGTCGGGACCACAGCCTGCGCAAGCTGGCATTGGGGGTGGTCCCGGTGGCCGGGCTGTTGGCGCAGAGTGCCCGCAGCCTGCGGCAGTCCGACTTCGAGTCCCTGTCGCTCCTCGCCAGCATGGACCGGCCGGCCCGGGAACGGATACTGCTCTCAGCAGACAGGTTCCTGCGCGCTTCCGTGCCTGAGGGACTGGATCAGGACGCGCGGGCCTCGCTCCTGGCGCGGTTTGGATTGTTCGGCATCAGGCTGGGCGTGGTGCTCATCAGGAGTGGCTTCACGGAGCCCACCCCGCTGGCACACGAACTGGCACGCCGGAGCGGCCTGGATCCGCTCCTTGACATGCTGAACCGCCAATTCCAGGCCCGGGCCGATACGCTCAAAGCCCGGACTGCGCTGGTGGGAGTTGAGGCACTGCTTCGAGATTCGCCACGGGACGGCTCAGGACAATTGGCGGCGGCTTTGGAGCGAATACAGGTCAATGCGCATGAGTTCCGCGAGCTCCGCCTTCTGGCAACCCTGCGCACCACCGGAGTGGCGCTCAACCATGATTTGGCCGAAGAAGCGGAGCGGCTGGTGGGCGGCTGGGGAACGGCACCACGCCTTCGGCTTTGCCTGCAGCCGGAGTCAGGCCCGGAGGAGATCAGCGCTGAGGCGCGCAGGTGCCTGCAACGGTGGCGGATGGTGAGTGAAAGCCCCGTGACGGACCGATCGGCCGCGGACGTATGCCGTGTGGTGATGCGAAGCTGTGAGGGTGTTCTCGCCGAATGCGCTGCACTTCAATTGAACCGCTAG	MTEETITEVSDLVQEALDVYRDDPAATAALEGYARRLAEPLRIAVAGMVKAGKSTLLNAIIGEEIAPTDTGESTKIITWYRFGQTPRITMYPVQGEPLALPVKRVDGRLVFVLGRMGAEDVKRLVVDWPSRNLRDVTLIDTPGIASLSEKVSALSTGFLTPADAPSQADAVIYLMRHMHAADLRFLESFKDTEAGRSGTVNALAVLSRADEIGAGRIDSLLSAGDIAERYRRDHSLRKLALGVVPVAGLLAQSARSLRQSDFESLSLLASMDRPARERILLSADRFLRASVPEGLDQDARASLLARFGLFGIRLGVVLIRSGFTEPTPLAHELARRSGLDPLLDMLNRQFQARADTLKARTALVGVEALLRDSPRDGSGQLAAALERIQVNAHEFRELRLLATLRTTGVALNHDLAEEAERLVGGWGTAPRLRLCLQPESGPEEISAEARRCLQRWRMVSESPVTDRSAADVCRVVMRSCEGVLAECAALQLNR				NA	NA	NA	NA	NA
D1-29_03794	1923	iniA	COG0699	Isoniazid-induced protein IniA	GTGGCTGAAACGCAACCATCCGGGGGGCTGGCAACAAGGGTAAGTCCGGCGGGTTCTGCCAGCCAGGCAGGCGATGCCAAACCCATCCAGCCCATGCGGTCAGCCGAACTGGCGAAGCTCGTGGAGCAGGGCATTGAGCTGGTGGGGGCAGGAGACAGGGCAGACCTTCGCAGGCGGCTGGACCAGACATTGCGCCGCGTGAAGGATCCCAGCATCCGCGTGATCGTGGTGGGCGAATTCAAACAGGGCAAAAGCAAGCTCATCAACGCGTTGGTTAACGCCCCGGTGTGCCCCGTCGACGACGATATTGCCACCTCGGTCCCCACGGTCGTCCGGCACGGTGACAGCGCCTCGGCGTCGATACTGTTGCCCAGGCCTGACGCTGAACCCGGCGAGGAAGGGACACTGGAGCGTCAGCCCATCAACATTGAAGACCTCGCCGTCTATGTCTCGGAACGCGGGAATCCCGGAAATGGAAAGAAGCTCGTAGCGGCAGAAGTGTTCCTGCCCCGCACAGTACTCACCGGTGGGTTGACGGTCATCGACTCGCCGGGCGTGGGGGGACTGGCGTCCACGCATACCTTGACTACCCTGACCGCCCTGCCTTCAGCGGATGCCATGCTGTTCGTTTCCGATGCATCACAGGAGTACACCGAACCTGAAATCCGATTCCTGCGCCAGGCCATGCGCATCACGCCGAGCGTGATTGGAGTGGTGTCCAAGACCGACCTCTATCCGGACTGGCGCCGCGTGGTGGAACTGGACCGCGGCCACCTCGCCGAAGTGGCGCCGGATATCCCCATCTTCCCTGTCTCCTCCGACCTCAGGCTTGAGGCCGCGCGTCTGCGGGACGTCGAACTGAACACTGAATCGGGCTTCGCGGACTTGGTGGCCCACCTCAGGAAGGAGGTGGTAGGGAAAGCAGAACGCATCCAGCGCCGGTCCGTCAGCCAGGACCTGCTGTCGGTGGCTGAGAATCTGCGACTTTCCCTGCAATCTGAACTGGGAGCGCTGGAGGACCCGGAAGGCACACCGCAGATGATTGCCGGCCTGGAAGAGGCGAAAGCGCAGGCCGACGAGCTGCGCAAACGGTCGGCCCGCTGGCAGCTTACCCTCAACGACGGCATCACCGACCTGATAGCGGACATGGAGTATGACCTGCGGGACCGGCTGCGCCGCATCCAACGGGAAGCTGAGACGGCCATTGACCAGGGGGACCCTGGCCCCACCTGGCCGGAGTTTTCACTGTGGCTTGAAGAGTGTGTCGCTGCCGCCGTGTCGGACACCTTCGTTTGGACCAGCGAGCGGGCTCAGTGGCTGGCAGCGCAGGTGGCGGGCCACTTCTCCCAGGACGAGGTGGCCCTGCCGGTGCTGCATGTGGCCGATACGGGCGACGCCCTGGACCCCGTGGACGAGATGCCGACCTTGGACGATGGGCACATCAAGCCCATGCAAAAGGTCCTCATTGGCATGCGCGGGTCATATGGCGGAGTGCTCATGTTCGGCCTGTTGACCGGGATTTTTGGCATGGCGCTCATCAATCCGCTGTCGGTGGGTGCTGGTTTGCTGCTGGGGCGCAAGGCATACCGCGAGGACCAGGAGGCCCGGCTTAAGCGACGCCAGGGCGAAGCAAAGGCACTGGTCCGGCGCCAGGTTGACGATGTTGTCTTCCAGGTCGGGAAGCAGCTCAAGGACAGGCTCAGGATGGTCCAGCGGACCACGCGGGATCATTTCACGGAGATCGCGGACGAGCATCACCGTTCGCTCGCGGATTCTGTGGCGGCGGCCCAAAAGGCAGCCACCACGTTCACGCTGGAAAAGGACCTGCGCATCCGGGAGATCAAGGCTGAACTTACGAGGGTGGACGCCCTGCACGGCGCGGCCGAAGTACTCGCCACCGAATCGGCGGTGGTCTCGGCATGA	MAETQPSGGLATRVSPAGSASQAGDAKPIQPMRSAELAKLVEQGIELVGAGDRADLRRRLDQTLRRVKDPSIRVIVVGEFKQGKSKLINALVNAPVCPVDDDIATSVPTVVRHGDSASASILLPRPDAEPGEEGTLERQPINIEDLAVYVSERGNPGNGKKLVAAEVFLPRTVLTGGLTVIDSPGVGGLASTHTLTTLTALPSADAMLFVSDASQEYTEPEIRFLRQAMRITPSVIGVVSKTDLYPDWRRVVELDRGHLAEVAPDIPIFPVSSDLRLEAARLRDVELNTESGFADLVAHLRKEVVGKAERIQRRSVSQDLLSVAENLRLSLQSELGALEDPEGTPQMIAGLEEAKAQADELRKRSARWQLTLNDGITDLIADMEYDLRDRLRRIQREAETAIDQGDPGPTWPEFSLWLEECVAAAVSDTFVWTSERAQWLAAQVAGHFSQDEVALPVLHVADTGDALDPVDEMPTLDDGHIKPMQKVLIGMRGSYGGVLMFGLLTGIFGMALINPLSVGAGLLLGRKAYREDQEARLKRRQGEAKALVRRQVDDVVFQVGKQLKDRLRMVQRTTRDHFTEIADEHHRSLADSVAAAQKAATTFTLEKDLRIREIKAELTRVDALHGAAEVLATESAVVSA				NA	NA	NA	NA	NA
D1-29_03795	1065			hypothetical protein	ATGCCTACTCTCGCAAATCAGCTCGTCCAGTTCCTGATGAGCCTGTTCAACAACCCTGTCGCCGCCCAGGAATTCCTGAATGATCCGGAAAAGGCACTGGACGATGCCGGGCTTGGCGGTGTTTGCTCAGCAGATGTGGACGCAGCGATGCCAGTCGTCCTGGATTACGCGCCCATCACGGTCAACGCTGCCTCGTTTGACCGTGAGTACAACACAGGTGGCAACACCGCCTGGACTGGGCACAATGGCGGCAGCGGCGGCGCCGGCGGTCGTGACCCCGGACACGGCGGTGGACATGGCGGCGGTGGCGGCGGCGGACACCACGAGGACCACGCCCACGCCGTACAGCAGCTGCACCACGTCGTGAACAACTACTCCTACACCACAACAGTGGATGACCGGGACACGATCACCGACCAGTCAGTCAACCAGAACATCTGGGCCGACGGCGATGTCAGGCAGTTCTTCGACAACGATGCCATCATCGCCTCGGGCGACCAGGCCATGGCGGCCGGTGACGACATCGACGTCGAGGATTCCTTCAATGTGGAGGATTCGTACAACACGGATAACTCGGTGGATCACTCCACAGACAACTCGATCTACGCCGGCCGTGACGCAGTAGTTGGCAACACCGAAATCGATGTCGATGCTGACTTGCAGAATGTTGGAAACACCGACAACTCCAAGACGATCGTGGGTTCCTTCAACGAGGACCACTCGACGGAGGTCGAGATCGAGGCTGATCTGGAGAACGTGGGCAACACCTACGTTGACAAGTCGGTTGACGTGGACGCCAACCTGAACAACGTGGGCAACACGACAACAAACACGACAACGAACACGACGACGAACACAACCAAGACCAACATCGAGGACAACATAGTCGTCAAAGACAACAACATCGACTACACCAACGTCGAGGACAACACCGTTGTTGCAGGCAACACGGTGGTGGCGGAGAACGAGTTCGAGTACACCGAAATCGACGACATCACGGTCATCAAGGACAACGACGTCGAGATTGAGAACAACACCGCTATCAATGACTCGGAAGCGGGCTAA	MPTLANQLVQFLMSLFNNPVAAQEFLNDPEKALDDAGLGGVCSADVDAAMPVVLDYAPITVNAASFDREYNTGGNTAWTGHNGGSGGAGGRDPGHGGGHGGGGGGGHHEDHAHAVQQLHHVVNNYSYTTTVDDRDTITDQSVNQNIWADGDVRQFFDNDAIIASGDQAMAAGDDIDVEDSFNVEDSYNTDNSVDHSTDNSIYAGRDAVVGNTEIDVDADLQNVGNTDNSKTIVGSFNEDHSTEVEIEADLENVGNTYVDKSVDVDANLNNVGNTTTNTTTNTTTNTTKTNIEDNIVVKDNNIDYTNVEDNTVVAGNTVVAENEFEYTEIDDITVIKDNDVEIENNTAINDSEAG				NA	NA	NA	NA	NA
D1-29_03796	2187			hypothetical protein	ATGGAGGAATGGCCGAGCCCCCCGCTGACAGGCCCCGCAAGCAGCTCCAGCCCGCTATCACAGGCCGGGCTGCAGAACGGGGTGCAGACCGAAATCACTGAAAGCACTGAAAGCACTGAAAGCACTATGCCGGAGGAGCCAAGGGTTCAGCCCCCAATGCACGGCAGTGCCGAGTACATGGCCAAGCAGCTGCGGGGTGAAAATGCCGCGGTGCGGGAACTCCTGCTCGCCCTGTCGGTTGGCTTCACCTTGCCAGGCCCACTGCCGCGGGAACTGGAACGGAGGCTGGAAAGCCCCGAAGTGGAGGGCATCGACGCCTTGGTGGCCAGGGCAGAAGCATCAGGCCTGCTGGGGCCGGGCGGCACAGTAGTAGGTCCCGCACAGCATGCTCTCCTGACCGTTACACCTACGGCCAGGATCCACGCGCTGCAGAAGGAACTCGTATCAAACTTCGCCGCGGAGGGGCGGCCATTGGGTGAGTTTGCCCGCGAACTGGCACGGAGCGGCCTGGCCGATCCACGGGTGGCGGCGGAACTTGAAAAAGCGGCGGACAAAGCGCTCGAGCATGATCCGGGCCTGTCCTCCCAACTTTACGGCGAAGCCCTGCTGGCGGGAGCCGATGAGCTGGCCACAGCAGCCCGCCGTGCGCAGGCTGCTGCGGCCATGGGGGACCTGGATGCCGCGGGACGCATCGTTGACGAACTTCTGGTGGCGCCGCATGCTCCCGGCCTCCGCCTGGGCGTGGACGTTGCCGCCGCGGTATGGGCGCAGCGTGGCATGCTGGCCCGCGGCGCCGACGTCTACAGCTGGCTTGGCAAGGAGGGAGTGGGGCCTTCCGCGCCCCTGGCCGCAGTGGCTTTGGTGGGATGCGGTAACCGGGCGGGTGCCGAGGCCATGTTTTCCCCGGATTCAGAGCCTGCTTCTCCCACACTGCTGGGTGTGGCGCTGAGCCAGATGGGAAAAGGCATCCTTGAGTCGCTTGCCGGTGAACCCCATCAGGGGCTGCCCGTGTTGATTCATGCTTCGGACATGCTGAACTCAGCTGGAGTGGCACCCCCGCTTCCGGACACCCCCGGGGCGCTGGCCGCTCTGCTGGCGCTGCACACCGGGGAACCCCACCTTGCAGACACCATCCTCCGATCAGCTATCGCTGCCGGGCAGGGAGGTGATGCCGCCAAGCCACGGCTATGCCTGCTTCAGGCCTGGTCAGCCATGCAGCAGGACAATCCAGACGAAGCCCGGCTGTCCATCAACGAGGCCTCGAAAGCGAACCACTGGCCACTTGTACCGCGCGATGAGTTCCTCTGCGCCACCTTGGAAGTGGGCCTCGCCCGGAGAAGCGGTGAGGTCCATGACCTGGTCATGGCTTGGGAACGTGCGCGCGAGGCAATGCTGCACACCACGGTGGATCTTTATAGCTTGTTGCCGTGGGGTGAGCTCATGATTGCCGGTGCCCGACTGCGGGAAAGCCGGCGGGTGTCGCCTTACCTTGACGAGGCCTGGAAACTGCTGGCCAGGCTTGGCGAGCCTCCGCTCTGGGCCGTACCGCTGCACTGGGCTGCAGTCCAAGCTGCGCTGCTGAACGAGAGCCCCGCTGCCTTGGCGCCGCATGCCTCAAGCCTGGTGCGGGCAGCAGGCCACAGCCATCTGGCCGCGGTGCTCGCGGCGGCGGGCAAGGCATGGGTTTCAGTCCTGGCGGGCCGCTTTCAGGCTGCTGCCGTGGAACAGGCCGCGCACGGCCTGAATGCTGTGGGCATGCCATGGGAAGGTGCACGGTTGGCTGGCCACGCAGCGGCCCGGGCTGATGACCGGAGGGACATGGTGAGGCTGCTGGCGTGTGCCCGGGACCTGCACCCGCAGGCAAGCTCCGCCGGAACCGGGACAGTAAGCCCGGCGCCGGCGTCGGCCGCATCTTCACCTTCTGAGATCCGTGAAAATGCCGCTCCAGAACAAGTTAAGGTCCGCCAGCCGGCCGCCCCCGTCCTCAGCGAACGTGAGAAGGAAGTGGCCCGGCTGGTCCTGGAGGGCAAGACCTACCGCGAAATAGGGGAGACCATCTACATTTCGCCCCGTACGGCTGAGCACCACATGGCACGGATCCGACGCCGGTTAGGGGCTGAAAACCGCTCGGATCTCCTGGTTCGGCTGCGGCTGGTCCTGGGCCCGGAGCACTCGCCGCCGGAGTGA	MEEWPSPPLTGPASSSSPLSQAGLQNGVQTEITESTESTESTMPEEPRVQPPMHGSAEYMAKQLRGENAAVRELLLALSVGFTLPGPLPRELERRLESPEVEGIDALVARAEASGLLGPGGTVVGPAQHALLTVTPTARIHALQKELVSNFAAEGRPLGEFARELARSGLADPRVAAELEKAADKALEHDPGLSSQLYGEALLAGADELATAARRAQAAAAMGDLDAAGRIVDELLVAPHAPGLRLGVDVAAAVWAQRGMLARGADVYSWLGKEGVGPSAPLAAVALVGCGNRAGAEAMFSPDSEPASPTLLGVALSQMGKGILESLAGEPHQGLPVLIHASDMLNSAGVAPPLPDTPGALAALLALHTGEPHLADTILRSAIAAGQGGDAAKPRLCLLQAWSAMQQDNPDEARLSINEASKANHWPLVPRDEFLCATLEVGLARRSGEVHDLVMAWERAREAMLHTTVDLYSLLPWGELMIAGARLRESRRVSPYLDEAWKLLARLGEPPLWAVPLHWAAVQAALLNESPAALAPHASSLVRAAGHSHLAAVLAAAGKAWVSVLAGRFQAAAVEQAAHGLNAVGMPWEGARLAGHAAARADDRRDMVRLLACARDLHPQASSAGTGTVSPAPASAASSPSEIRENAAPEQVKVRQPAAPVLSEREKEVARLVLEGKTYREIGETIYISPRTAEHHMARIRRRLGAENRSDLLVRLRLVLGPEHSPPE				NA	NA	NA	NA	NA
D1-29_03797	1968	dnaK_1		Chaperone protein DnaK	ATGAGCTACGTTCTCGCCATCGATGTCGGGACCAGTTTTACGGCCGCTGCAGTTAGCCGAAGTGATCAGAATGCTCCGCGTGTTCCGGAGAGCCTCCCGCTGGGGCTCCGCGGAACGGCTGTGCCGTCTGTGGTGTTTTATCCGGAAGAGGGGCCAATCCTGGTGGGGGAGGCCGCCGAGCGCCGGGGTCTTGACTCCCCTGAACGGGTGGTGCGCGAGTTCAAACGGCGGGTGGGTGACGCCGTACCGATTTCGGTGGGCACCCTGTCGTTGCCTGCCGAGGACGTCTTCGCCACGATGACCCGCTGGGTGGTGGACCGGGCGCAGGAGCGCGAGGGGGAGCCGCCGTCGGACATCATCCTGTCCCATCCGGCGTCGTGGGGCGGACACCGCACCACGCGCATCCTGGATGCCCTGTCCTCAGCGGGACTCCCTTCCGTCACGCTGATCAGCGAGCCCGAAGCCGCGGCGCTGCACTACGCCTCGCAGGTGCGCGTGGAGGACGGCAGCACCGTTGCCATTTACGATCTTGGCGGCGGAACATTCGACACCGCCATCCTGAGGAAGGCCGGCGCGGGCCATTTCGAATTCCTCGGCAGCCCCCACGGAATTGAGGGCCTGGGTGGCGCTGATTTTGATGCAGCCGTGTTCCGCCATGTCGCCGAACACACGGGTGCCGCCCTCGCCGGCCTGGACCCGGAATTACCCGCCGCACGTGCAGCGCTGGCCCGGCTGCGGCGCGAATGCGTGGAAGCCAAGGAAGCCCTCTCCTCTGACAGCGAGGCAAGCATCCCGGTGTTGCTGCCGGGTGTACAGCAGCAGGTACGGCTGGTCCGGTCCGAGTTCGAGGCGATGATTGAAGAGCCTGTCCGCGAAACCGTGGAGGCACTGGAGCGCTCCCTTCAGGACCTGGGACTGGACGCCGGGGACTTGTCGGCTGTGCTGCTGATCGGCGGATCCTCCCGCATCCCCCTGGTGGCGCAGCTCCTTTCCGAAACGCTGGACAGGCCCATAGCCGTGGACGCGGATCCGAAGTCGTCCATTTGCTATGGGGCCGCCGTCTCAGCTGTGCGGGCGCAGGAAGCTGCAGCGCAGCGGGATGCTGATGCGCAGCGGGTTGTTGCTGCGGAGCAGGTTGTTGCGGCGCAGCCGGATACTGGCCAGGAGCCTGCCTTGGGAGTGGCCGCGGCTGCTGGCGCAGCGCTGGCAGCCCACAGAGGCAGCCGCAGCGCCAGCTGGTCCCGAAAGCCGGACGACAGCAGGCCGGGCACCCACGCTAACAGGCCTACAGTGCGTGTGACCGCCGTCGCTGCAGTGGCGGCGCTCTTTACTGTGCTGACTGCCACCGCGGCCCAAAGTCCGGAGGGCCTGGGCACGCTCACGGGGATCTTCACTCCGCAGGAAGCGGGCGCCGGGACGGGGCCGGATGCTAACGGGTCCACCGGCACCAGTGAAGCTGACAGCGATGCCACCGGGGGGACGCAGGCACCACAGCCGGGGCTTGAGGCCAGCGCACAGCGGAGCATCGGCCAGCCTTCCGGCGGTGCAGGCCCGCAGGCGGCGTTGCCCACCAGCAGTCCAGCCTCCGGGCCCTCGTCCCAACCGGCCGGGGATGGCACAGCCATTGGTGCTGCCAGTTCTTCTCTGGGTGAAGGCGGGGGCGCGGCGGCAGTGGCTGATCCTACTCCGGCAGCGGGCACCGCTTCTCCCACCACACCGTCGGATCCGGCCACAGCTGGTCCAATCACCACGGCCCCGCCAGCTACCGAACCTCCACCAGCTACGGTTCCTCCACCCGCTACGGTGACTCCACCGCCGGCCACCGAACCGCCGCCGGCTACCGAACCGCCGCCGGCCACGGCACCCCCGCCTGCTACAGAGCCGGCGCCCGCTACGGTGGCACCAACCGCCACTGCCCCTGCCCCGCCCCCTGCGGATCCGATGCCAGCGTCAGAACCGGCGGTGTAA	MSYVLAIDVGTSFTAAAVSRSDQNAPRVPESLPLGLRGTAVPSVVFYPEEGPILVGEAAERRGLDSPERVVREFKRRVGDAVPISVGTLSLPAEDVFATMTRWVVDRAQEREGEPPSDIILSHPASWGGHRTTRILDALSSAGLPSVTLISEPEAAALHYASQVRVEDGSTVAIYDLGGGTFDTAILRKAGAGHFEFLGSPHGIEGLGGADFDAAVFRHVAEHTGAALAGLDPELPAARAALARLRRECVEAKEALSSDSEASIPVLLPGVQQQVRLVRSEFEAMIEEPVRETVEALERSLQDLGLDAGDLSAVLLIGGSSRIPLVAQLLSETLDRPIAVDADPKSSICYGAAVSAVRAQEAAAQRDADAQRVVAAEQVVAAQPDTGQEPALGVAAAAGAALAAHRGSRSASWSRKPDDSRPGTHANRPTVRVTAVAAVAALFTVLTATAAQSPEGLGTLTGIFTPQEAGAGTGPDANGSTGTSEADSDATGGTQAPQPGLEASAQRSIGQPSGGAGPQAALPTSSPASGPSSQPAGDGTAIGAASSSLGEGGGAAAVADPTPAAGTASPTTPSDPATAGPITTAPPATEPPPATVPPPATVTPPPATEPPPATEPPPATAPPPATEPAPATVAPTATAPAPPPADPMPASEPAV	PGPT0014555_358	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
D1-29_03798	1113	ccsA		Cytochrome c biogenesis protein CcsA	ATGCCCTTCGCCATCAACGAAACCATGGGCCAGTACAGCGAGTTGTTTATGCTGCTTGCGGCCGGCACCTACACCGTGGCCTTCATCGCCTTCGCCTGGGACCTGGCGAAGAGCAGCAAAGCCCTGCTCGCCGTTGACCTCAAAGCGGCCCAGGCGGAGCAGGGGGCCAAGGTCCCTGTAGGTGCAGGTGCAGGTACATCTGCCGCGGGGGCGGGCACCGACAGGACTGAGTCGCACCTGGCCGGGCCGGCCGGACGGGCCGAGCGGCCGTCGTCGTCGTCGGTCGCCAGCCAGGGCAGCGCTCAGTCCGGGGCGGGAAAGACCGCCGACGCCGACATGCGCTACGCGGCCGAACGCCGCGTTCCGGCACGGGTGGCGGTGGCGCTGACCGTGCTGGGCGTGCTCATCCACGGTGCGGGTGTGGTCACCCGTGCCCTTGGCGCCGGGCGTGTGCCCTGGGGAAACATGTACGAATTCCTCACCACCGGGGCTTTTGTGGCCGTGGCCGTGTTCCTGCTGGCGCTGATCCGGCGGGACCTCAGGTTCCTGGGAACGTTCGTGGTGGGCCTTTCCATCATCATGCTGGTGGCCGCCTCGGTGGCGTACTGGACCCCGGTAGGCCACCTGGTCCCGGCCCTGCAAAGCTACTGGCTCATCATCCACGTTTCCATTGCCGTGTTGTCGTCGGCACTGTTCACCCTCACCTTTGCCATGTCCGCCCTGCAGCTGGTGCAGGCGCACCGGCAAAAGACCGTGGCCGCGGGTGGAGCTGACAAGCTGGGCTTCATGCGCCTGGTGCCGTCTGCCCTGAGCCTGGAAAACCTGTCCTACCGGATCAACGCGATCGCCTTTATCGGCTGGACTTTCACCCTGATGTTCGGTGCCATCTGGGCCGAAAAGGCCTGGGGACGTTTCTGGGGCTGGGACACCAAGGAAGTGTGGACGTTCGTGATCTGGGTGGTTTATGCAGGGTACCTTCATGCCCGTGCCACCCGTGGCTGGACGGGCACCCGCGCCGCCTGGCTGTCGATCGTCGGCTACCTCTGCGTCATCTTCAACTTCACGATTGTGAACCAATTCTTTAATGGGCTGCACTCCTATTCAGGCCTCTGA	MPFAINETMGQYSELFMLLAAGTYTVAFIAFAWDLAKSSKALLAVDLKAAQAEQGAKVPVGAGAGTSAAGAGTDRTESHLAGPAGRAERPSSSSVASQGSAQSGAGKTADADMRYAAERRVPARVAVALTVLGVLIHGAGVVTRALGAGRVPWGNMYEFLTTGAFVAVAVFLLALIRRDLRFLGTFVVGLSIIMLVAASVAYWTPVGHLVPALQSYWLIIHVSIAVLSSALFTLTFAMSALQLVQAHRQKTVAAGGADKLGFMRLVPSALSLENLSYRINAIAFIGWTFTLMFGAIWAEKAWGRFWGWDTKEVWTFVIWVVYAGYLHARATRGWTGTRAAWLSIVGYLCVIFNFTIVNQFFNGLHSYSGL				NA	NA	NA	NA	NA
D1-29_03799	1740	ccs1		Cytochrome c biogenesis protein Ccs1	ATGAGCGAACGAGTGAACGCAGAGAAAAAGTCCTCCACCCCGGTGGCCGAGGCCAAGGCTGATGCCGCGCTGCCGGCCCTGGGCCCCAAGGAAATGCTGCGCTGGGCGTGGACGCAGCTCACCAGCATGCGGACGGCACTTTTCCTGCTCCTGCTGCTGGCGGTTGCTGCGGTGCCCGGCTCGCTGTTCCCCCAGCGGCCCGCGAACCCTTCCACCGTCACGGAGTACATAAGGAACAACCCGGGCTACGGCAAGCTGCTGGACACCCTGCAGCTTTACGACGTCTACTCGTCTGCCTGGTTCTCCGCCATCTACCTGCTGCTGTTCATTTCCCTGATCGGCTGCGTGGTGCCCCGCGCCATGGCCCACTACAAGGCGATGCGGTCCCAGCCGCCGCGTACTCCGAAACGGCTCTCCCGCCTCCCCGAGTACGGCACGCTGGTGGTGCCGGCGGCGGCCGGCCTCCCGGCGTCGGACGCTATTCACAGCGCAGCCGGGCTGCTCAAGAAGCGCGGCTACCGCGTTGAGGTAAGGGACGACGACGGCGCGCGGCCGTCTTTGGGGGCCGAGCGCGGCTTTATGAAGGAAGTGGGTAACCTGCTGTTCCACACATCCCTGATCGGCGTGCTGGTATCCGTGGCGGTTGGCGGACTCTTTGGGTACAGCGGGCAGCGCATCCTGGTGGAAGGCGACACGTTCGTGAACACCCTGGTGGGTTATGACCAATTCACGCCCGGTACCAATTTCCAGTCCAGCCAGCTGCAGCCGTACTCCATTCAGCTGGATAAGTTCGACATCACCTTTGACCGGGAATCCAAGGGCAAGTTCGGCCAGCCCATCGACTTCTCCGCAGCCGTGACCACCAAGGAAAACCCTGACGCGCCCGCGCGGCAGGAAACCCTCAAAGTGAACGATCCCGTCACCCTGGGCGGCACCAGCATCTACCTCACAGGAAACGGCTATGCCCCGCTGGTCACCGTCCGTGACGGGGCGGGCAATGTGGCTTTCCAGGGCCCTGTGGTGGGCAAGCTGCAGGGCGAGAACTACTACTCGTCGGTGGTCATCAAGGTTCCGGACGCCAAGCCGGACCAGCTGGGGTTCCAAGGCTTCTTCCTGCCCACCGCCTTCGTCACCCCTGAAGGTGTGTCCTTCAGCGGGGACCCCGAACTGTTCAACCCGCAGCTGACGTTGAACTCGTACTACGGGGACCTGGGCCTGGACGACGGCGCCCCGCAGAACGTTTTTGAGCTGGACGTCGGGGACCTGACCCCGCTGAACGCCCGCAACCTCGACGCCGGAGGCCTCACGCTGACGCCCGGCGCCAGCCTCACCCTGCCCGACGGCAAGGGGAGCATCAGCTTTGACGGCGTGAAGCGGTACGTGGGCGTGGACATCCACCACAACCCCGGCCAGCTGTACGCGCTGATCTTTGCCCTGCTGGCCGTCGCCGGGCTGGTCATGTCGCTCTACGTCAACCGCCGCCGGGTCTGGATCCGAACCGGCACGCACGAGGACGGCCGGACCATGGTGGAATACGGCCTCCTGGCGCGCGGCGAAGACCATCGTCTCGCGGCCGAGTCGGCCGCACTCCGAAAGCTCCTCTCCGAGGAATGGCGGGTGCCTGCCATTCCTCACGACGAGCCCGCCGGAACCCAGCAAACTCCCAGCCGTTATGACCATAATGGCGCAGACTCTGTCACCACCCCAGCGGGCCCCACCGGGCCGAAAAAGGACCAGTAA	MSERVNAEKKSSTPVAEAKADAALPALGPKEMLRWAWTQLTSMRTALFLLLLLAVAAVPGSLFPQRPANPSTVTEYIRNNPGYGKLLDTLQLYDVYSSAWFSAIYLLLFISLIGCVVPRAMAHYKAMRSQPPRTPKRLSRLPEYGTLVVPAAAGLPASDAIHSAAGLLKKRGYRVEVRDDDGARPSLGAERGFMKEVGNLLFHTSLIGVLVSVAVGGLFGYSGQRILVEGDTFVNTLVGYDQFTPGTNFQSSQLQPYSIQLDKFDITFDRESKGKFGQPIDFSAAVTTKENPDAPARQETLKVNDPVTLGGTSIYLTGNGYAPLVTVRDGAGNVAFQGPVVGKLQGENYYSSVVIKVPDAKPDQLGFQGFFLPTAFVTPEGVSFSGDPELFNPQLTLNSYYGDLGLDDGAPQNVFELDVGDLTPLNARNLDAGGLTLTPGASLTLPDGKGSISFDGVKRYVGVDIHHNPGQLYALIFALLAVAGLVMSLYVNRRRVWIRTGTHEDGRTMVEYGLLARGEDHRLAAESAALRKLLSEEWRVPAIPHDEPAGTQQTPSRYDHNGADSVTTPAGPTGPKKDQ				NA	NA	NA	NA	NA
D1-29_03800	756			hypothetical protein	GTGAACAGCCCCTTTGCTGAAGCCATCCTGAGCGGCTCCCTGCTCCTCGCCATTCCGGTGGCGCTGCTTGCAGGACTCGTGTCATTCCTGTCGCCGTGCGTGCTTCCGCTGGTGCCGGGGTACCTGGGTTACGTCACGGGACTGACCGGCGTGGACCTGCAAAAGCAGAAGCGGGGCCGGATGCTGGCGGGCATTGGGCTGTTCGTGCTGGGGTTCTCCGCGATTTTTGTGCTCCTGGGCGGTGCCTTCGGGCAACTTGGCACGCTGATCACCGGCTCCCAGAATGCCTGGATCACCCAGCTCCTGGGTGTCCTGGTGATCGTCATGGGTGTTGTGTTCATGGGTGGTTTCGGCTGGCTGCAGCGTGATGCGAAAATCCATGCAAAACCGCCGGCCGGGCTGTGGGGTGCCCCGCTGCTGGGCATAACGTTCGGGCTGGGCTGGGCGCCTTGCATCGGCCCCACCTATTCCGCTGTCCAGCTGCTGAGCCTCTCCGGCGGTTCGTCCGCTGCGAAGGGCGCGTTCCTGGCCTTTGTCTACAGCCTGGGCCTGGGCATCCCGTTCCTCCTGATTGCCCTCGCGGTGCGCCGGGGCATGGGCGTGATGTCCTTTTTCCGTACTCACCGGCTGGCCATCCAGCGGACCGGCGGAGCGATCCTGATCGTGCTGGGCCTGCTGATGGCCAGCGGCGTCTGGGGCGCCTGGGTGACCGGGCTGCAGTACTGGTTCCAAACCGATGTGAAGTTGCCGATCTGA	MNSPFAEAILSGSLLLAIPVALLAGLVSFLSPCVLPLVPGYLGYVTGLTGVDLQKQKRGRMLAGIGLFVLGFSAIFVLLGGAFGQLGTLITGSQNAWITQLLGVLVIVMGVVFMGGFGWLQRDAKIHAKPPAGLWGAPLLGITFGLGWAPCIGPTYSAVQLLSLSGGSSAAKGAFLAFVYSLGLGIPFLLIALAVRRGMGVMSFFRTHRLAIQRTGGAILIVLGLLMASGVWGAWVTGLQYWFQTDVKLPI				NA	NA	NA	NA	NA
D1-29_03801	627	resA_1		Thiol-disulfide oxidoreductase ResA	ATGCCGCAGACGTCCGCCGGGTCCACCCCGGCTACCTCACGCCGCAGCCTGCTTGCAGCCGGCGGCGTGGCCCTCACGGCTCTTACCCTGGGGCTCTCTGCCTGCGCCCAGGAGGATGCCTTGGCCAAGCAGGCCAAAGCAGGAGACAACAAAAACTACGTTGCCGGGGACGGCTCCGTCACGGAGTTCGCCCCCGCGGACCGCAAGTCCGCCGTCGAAATCAACGGCACACTCTTCAACGGCACATCCGTGACCCCTGCTGATCTCCAGGGCAAGGTGACGGTCCTGAACTTCTGGTTTGCCGCCTGTGCGCCGTGCCGGGTGGAGGCTCCGCAGCTCGAGGCCCTGCACCAGGAATTCAAGGACCAGGATGTGCAGTTCTACGGCGTCAACCTCCGGGATGAAAAAGCCACCGCCGAGGCGTTCGACAAGTCCTTCAACCTGACCTATCCCAGCTTTGACGACAAGGACGGTGCGGTGCTCCTGGCCGTGTCCGGCATCGTTCCGCCAGGCGCCGTCCCCACCACGCTGGTGCTGGACAAGCAGGGCCGCGTTGCCTCGCGCGTGCTCGGCGAAATCCAGAAGGGCACCCTCAAAGCCCTCATTACCGCCGCAGTGGCAGAGTAG	MPQTSAGSTPATSRRSLLAAGGVALTALTLGLSACAQEDALAKQAKAGDNKNYVAGDGSVTEFAPADRKSAVEINGTLFNGTSVTPADLQGKVTVLNFWFAACAPCRVEAPQLEALHQEFKDQDVQFYGVNLRDEKATAEAFDKSFNLTYPSFDDKDGAVLLAVSGIVPPGAVPTTLVLDKQGRVASRVLGEIQKGTLKALITAAVAE				NA	NA	NA	NA	NA
D1-29_03802	681		COG0406	putative protein	ATGCCCCAAGCCACTGTCCATCTGCTCCGCCACGGCGAGGTCCACAATCCCGACGGCGTTCTGTACGGAAGGCTGCCCGAATTCCACCTCTCCGCGTTGGGCCGGCAGATGGCCGAGATGCTCGCCCGGCACTTTAGCGACCGCGCCGCCGCGGGCGCCAGGATCGTCTACCTCGCATCATCGCCGCTGGTCCGAGCGCAGGAAACAGCAGCCCCCACGGCCGATGTTTTGGGCCTGGAGATCCACACGGACCCGCGGATCATTGAGGCCGAGAACTACTTCGAGGGCATGAAGGTCAGCAAGGCCGAGCTCCGCCGGCCCAAGCACTGGCCGCGGCTGGTCAACCCGCTGAAGCCGTCGTGGGGCGAGCCGTACAAGGACCAGGCGGCCAGGGTCAGGGCCGCTGTCCAGGATGCCCGGCTCCGCGCGATCGAGCTCGCGGGCGGAGACTACGGAACAGGCGGGCCCGAAGCCATCATGGTCAGCCACCAGCTCCCTATCTGGGCCACCCGGCTCAGCGCCGAAGGCCGGCCCCTGTGGCACGACCCCCGGAAACGCGAATGCACGCTGACGTCCATCACCTCCCTGGTGTTCGACGACGACGGCTCGCTCCTGCGCGTTCAGTACACTGAGCCCGCTGCCGCCCTTCTTCCCGGTGCCGCCAGCACCCCCGGAGCCTAG	MPQATVHLLRHGEVHNPDGVLYGRLPEFHLSALGRQMAEMLARHFSDRAAAGARIVYLASSPLVRAQETAAPTADVLGLEIHTDPRIIEAENYFEGMKVSKAELRRPKHWPRLVNPLKPSWGEPYKDQAARVRAAVQDARLRAIELAGGDYGTGGPEAIMVSHQLPIWATRLSAEGRPLWHDPRKRECTLTSITSLVFDDDGSLLRVQYTEPAAALLPGAASTPGA				NA	NA	NA	NA	NA
D1-29_03803	549	yceI_2		Protein YceI	ATGGCACTTCCCGCAGACGTCACCACCGGCACCTGGACCCTCGACAACTCGCACAGCGAAATCGGATTCACCGTCCGGCACGCAGGCATCAGCAAGGTCCGCGGCCAGTTCAAGGATGCAGAAGCAACCTTGGATCTGGCTGAAAACGTCGCCGATTCAAAGATCAGCGCCACCATCAAGACCTCCAGCTTCGACTCCGGCGATGTCAACCGCGACGGCCACGTCCGCGGCGAAGACTTCTTTGACGTAGAGAAGTTCCCTGAAATCTCCTTCGTTTCAAACGGCCTGGTGGCCAACGGCAACAGCTACGAGCTGACCGGGGACCTTACCATCAAGGGCGTCACCCGCCCCGTGTCCCTCGAAACCGAGTTCAACGGTGTGGCCGTGGACCCGTTCGGCAACACCCGCGCCGGCGTTTCCGCGGAGACCACCATCAGCCGCAAGGATTTCGGCCTCACCTGGAACGCCGTCCTGGAAGCCGGTGGCGTCCTGGTCAGCGACAAGGTTGCCATCAACCTCGAGCTCGCCTTCATCGCACCGGCAGCCTGA	MALPADVTTGTWTLDNSHSEIGFTVRHAGISKVRGQFKDAEATLDLAENVADSKISATIKTSSFDSGDVNRDGHVRGEDFFDVEKFPEISFVSNGLVANGNSYELTGDLTIKGVTRPVSLETEFNGVAVDPFGNTRAGVSAETTISRKDFGLTWNAVLEAGGVLVSDKVAINLELAFIAPAA				NA	NA	NA	NA	NA
D1-29_03804	822			hypothetical protein	ATGACCAACCCCAGTGAAGTACCGCAGCCCCAGCAGCCGGGTGCCCAGCCCCCGGCCGGCAACGTTCCCCCGGCTGGCAACGTTCCTCCAGCCGGCGCGGTGCCGCCAGCCGGCGCGGTGCCGCCGCAGGGTTACCAGCCACAGCAGGGTTACCAACCGCCGCAGGGCTATCAGCCCCCGCCGGGTTATCAGGCACCGCCGGGCTATCAGACGCCGCCCCAGGGAAATGGGGCACCGCCCCAGGGATACGGCCAGCCCTATCCGCCTCAGGATCAGCCCTATCCGCCGCAAGGTCAGCCCTATCCCCCACAGGGTCAGCCCTACGGCCAGCCCGGCTACGGTGCCGGTGCCGGCCCCAGCAACGTCCCGCCGTCGGGCCTGGGCTACGCCGCCCCGCCACGCAACGTCTTTGGCCTCAGCCTGGACAACATTCAGCAGCGGTTCATTGACACCCAGGGTGTGCCGCAGCAGCTGGTTACGTCCTACTGGCTCTGGATCGCTGCAGCAGCGCTCGGGGTCGTCTTCAGCCTGGTCAACATGTTCACCGTTAGCAGCGCCTTCGGCGGCATGATGATGGGGGCAGGGATTGGCGGATTTGTGTTCCAGCTCATCTTCGCGGCCCTGTACGTGTTCATCGCCATCCGACTGAAGGAGGGTGCACGGTGGGCCCGCCTTGTCCTCTCCATCCTCGGCGGTCTTGCCGTGTTGGGTTTCTTCGCAAACCTTGTGTTCTTCAACCTCAGCCTCCTCAGTTCCGCCGCCGCCGTAGCGGCCGCGGTCATGATGTGGCTGCCGCAATCCCAGGAACATTTCAAGGGCTGA	MTNPSEVPQPQQPGAQPPAGNVPPAGNVPPAGAVPPAGAVPPQGYQPQQGYQPPQGYQPPPGYQAPPGYQTPPQGNGAPPQGYGQPYPPQDQPYPPQGQPYPPQGQPYGQPGYGAGAGPSNVPPSGLGYAAPPRNVFGLSLDNIQQRFIDTQGVPQQLVTSYWLWIAAAALGVVFSLVNMFTVSSAFGGMMMGAGIGGFVFQLIFAALYVFIAIRLKEGARWARLVLSILGGLAVLGFFANLVFFNLSLLSSAAAVAAAVMMWLPQSQEHFKG				NA	NA	NA	NA	NA
D1-29_03805	837			hypothetical protein	ATGAGCACTCCTCCTGTCCCGCCTCCGACTCCCAACGAGCCTGAGTCCGGCGGCCAGCCGCAGGCTCCCCGTTACGGCGAGAATGCGCCCCAGTTTGGTCACCCTTCGCCGCAGTCCGGCGACAACGCCCCGCAGTACGGGCAAAACGCACCGCAGTATGGCCAGAACGCACCCCAATACGGGCAGAACGCGCCGCAGTACGGCCAGAACCCGGCTACACCGCAGTACGGGCAGAACCCGCCACAGGCACCGGCTTACGGCCAGAACCCGCCGGCTCCCTACGGCCAGCAGCCCTACGGTCAGTCACCCTATGGCCAGTCGCCTTACGGACAGTACCCCTCCGAGCAGCCGCAGGGCTCAGGTACCTCGGGGGTCCCACAGTTGGTCAATATTTCGTTCTGGCTGCTGATTGCATCCGGCGTTATCTACGTCATTTCCATGCTGATGGGCCTCGCCATGCTGGACGATCCGTCAATGCGGCGCCAGTTTGAGGACGCCATGGCCAGTGGCGGCGCCGCGGGGGAAGTTGCGTTTGAAGATATCAAGGGCGTGATCGCCGGCACCCTGGTAGTGGTGGCCATCATCGGCGCCGGGTTGTACGCGCTGGTGGCGTTCTTCGTCCGCAAGGGTAAGAACTGGGCCCGGATCCTGGGTACGGTCTTCGCAGCCATCTCGGTCTTCGGACTGTTCGGCCCCCCGAGCATCGGCACTTTGGGAACCCTGGCGGGAATCGCAGCCATTGTGTTGCTCTACCTGCCTGCCGCCGCTCCGTACTTCCGCAAGCAGCAGCCTTTCGCCAACCCCTACGGCGCACCCGGCAACCCCTACGGCCGCTAG	MSTPPVPPPTPNEPESGGQPQAPRYGENAPQFGHPSPQSGDNAPQYGQNAPQYGQNAPQYGQNAPQYGQNPATPQYGQNPPQAPAYGQNPPAPYGQQPYGQSPYGQSPYGQYPSEQPQGSGTSGVPQLVNISFWLLIASGVIYVISMLMGLAMLDDPSMRRQFEDAMASGGAAGEVAFEDIKGVIAGTLVVVAIIGAGLYALVAFFVRKGKNWARILGTVFAAISVFGLFGPPSIGTLGTLAGIAAIVLLYLPAAAPYFRKQQPFANPYGAPGNPYGR				NA	NA	NA	NA	NA
D1-29_03806	849	rex		Redox-sensing transcriptional repressor Rex	GTGGAGTCACGACGCGACGCGATGGAGGGGAAAGTGACTTCACTGGATTCATCTCCTGCTGCGGTCCCTGCTGCTTCCGAGCTTGCGGGTGTGCCCGCGCTACCGGATGTGCCGGGTGTTCCGGCTACCCCCGGTGTTCCAGGCGCCGTCCAGGGCGTTGCGGGCGTCCACGGAGACGCAACCGTCCAGGGCGAGAAGGTAGCCGCCGGCAAGCAGATCCCGCCTGCTGCCGTAGCCCGGCTGACCCTGTACCTCCGCGCCCTGAATACGATGCTGGCAGAGGGTGTGGAAAGGGTTTCCTCAGAATCCCTGGCGGAAGCCTCGGGCGTGAGTTCTGCAACGCTCCGCAAGGATCTTTCGCACGTTGGCTCCTACGGCACCCGCGGTGTGGGGTACGAGGTGCAATACCTCAGCCGCCACATTGCCGCAGCCCTGGGACTTACCCACGACTGGAAAGTTGCCATAGTTGGTGCCGGTAACCTGGGCAAGGCCCTGGCACGCTATGGCGGTTTCGAATCCCGGGGCTTTGATGTTGTGGCCATCTTTGACGCCGACCAGATGGTGGTGGGCAACGAAGTTGGCTGGCTGCGCGTCAGCGACGTCGCCGACCTTGAAGCAGTCCTGGAACGGACCGGCGCCAATATGGTGGTCCTGGCGCTGCCGGCAGCTGTTGCCCAGGCGGTCTGTGACCGGGTGGTGGCGGCGGGTGTCCGCAGCATCCTGAGTTTCGCGCCCGTGATGCTCCAGGTCCCCGACGGCGTCAACCTCCGGAAGGTGGACATGGCCACCGAACTTCAGATTCTCGCCTACCATGCACAACGGGCGCAGACCCCGGGCCAGACCGCCTAG	MESRRDAMEGKVTSLDSSPAAVPAASELAGVPALPDVPGVPATPGVPGAVQGVAGVHGDATVQGEKVAAGKQIPPAAVARLTLYLRALNTMLAEGVERVSSESLAEASGVSSATLRKDLSHVGSYGTRGVGYEVQYLSRHIAAALGLTHDWKVAIVGAGNLGKALARYGGFESRGFDVVAIFDADQMVVGNEVGWLRVSDVADLEAVLERTGANMVVLALPAAVAQAVCDRVVAAGVRSILSFAPVMLQVPDGVNLRKVDMATELQILAYHAQRAQTPGQTA				NA	NA	NA	NA	NA
D1-29_03807	255		COG0526	putative protein	ATGGCGAAACCGGAGGTTGTCCTCATCACCAAAGCAGACTGTCACCTGTGCGCAGAGGCGCGCGACGCCGTCGGGCGGGTAACAGCCTCTCTGGGACTTGAGTGGACCGAACAGCCGGTTGACCACTTGCCGGAGCTGCGCGAACGTTACGCTGAGGAAATTCCCGTGGTGCTGGTGGATGGAATCCAGCGGGACTTCTGGAAGATTGACGAGCTGAGGCTGGAGCGGGTCCTCCAGCGCGCCATGGCGGAGTAG	MAKPEVVLITKADCHLCAEARDAVGRVTASLGLEWTEQPVDHLPELRERYAEEIPVVLVDGIQRDFWKIDELRLERVLQRAMAE				NA	NA	NA	NA	NA
D1-29_03808	825	serB1	COG0560	Phosphoserine phosphatase SerB1	ATGCACATGCCCGAGGAGAAGTACGTCGCTGTGGTCACCCAGCCGGTCGCGATGCCGCAGACGGGCGAGGCCGCTTTCTTCGACGTCGACAACACCCTGATGAGGGGTGCCAGCCTGTTCCACGTGGCACGCAAAATGCACCAGCGCGGAGCCTTCACCTTTGCACAGGCCGCCGGATTCGCCTGGCAGCAGTTCAAGTTTGTCACCCGCGGGGAGAACATGGATGACGTCCATGCCGTCCGCGATTCCGCCCTCACGCTCGCTGCGGGCATCACTGTGGAAGACGTCAAGGCCCTGGGCGAAGAGGTCTACGACGAAATGATTGCGTCCAGGATCTGGCCCGGCGCCAAGGCCTTGGCGCAGCAGCACCTCCGCGTAGGGCGCAGGGTATGGCTGGTCACCGCCACCCCCATCGAGGTAGCCACCGTGATCTCCACCAGGCTTGGCCTGACTGGCGCCCTCGGAACTGTGGGCGAAGTCGCCGACGGAATGTACACCGGCCGGCTGGTGGGCGATATCCTGCACGGCTCAGCAAAGGCAGTGGCGGTACAGGGCATCGCCGACATCGAAGGACTGGACCTCAAACGCTGCTGGGCCTACAGCGATTCCTACAACGACATCCCGCTGCTGACCCTGGTGGGACACCCTGTGGCCATCAATCCGGACTCCAGGCTTCGGCGCCATGCCCGTGACAACAACTGGCCGGTCTACGACTTCCGTTCGGGCCGCCGGGCCGCCACGCTTGGGCTCAAGGCTGCAACCGCCGGCGGTGCCGTCTACGGCCTCTGGAAAGGCTTCGCCCGCATCCGCGGCCCCCGGGTTTAG	MHMPEEKYVAVVTQPVAMPQTGEAAFFDVDNTLMRGASLFHVARKMHQRGAFTFAQAAGFAWQQFKFVTRGENMDDVHAVRDSALTLAAGITVEDVKALGEEVYDEMIASRIWPGAKALAQQHLRVGRRVWLVTATPIEVATVISTRLGLTGALGTVGEVADGMYTGRLVGDILHGSAKAVAVQGIADIEGLDLKRCWAYSDSYNDIPLLTLVGHPVAINPDSRLRRHARDNNWPVYDFRSGRRAATLGLKAATAGGAVYGLWKGFARIRGPRV				NA	NA	NA	NA	NA
D1-29_03809	213			hypothetical protein	ATGTCCGCAGAACAGAACTTCTCGAACGCGAAGTTCCTGACCGTCGCCGAAGTGGCCGAGGTCATGCGCGTCTCCAAAATGACCGTGTACCGGCTGGTTCATTCCGGCGAAATGCCCGCGGTGCGTTTCGGCCGCTCATACCGTGTGCCGGAAAAGGCCGTCGAACAGTACCTTAAGGGTGCTGTGGTGGAGGGCCACACCGAAACAGCCTGA	MSAEQNFSNAKFLTVAEVAEVMRVSKMTVYRLVHSGEMPAVRFGRSYRVPEKAVEQYLKGAVVEGHTETA				NA	NA	NA	NA	NA
D1-29_03810	222			hypothetical protein	ATGGACAACACTGACCCCAGGTATATGCCATTGCGGTGTGCCGATGCTGAGCCATCCACCAACCATGTGCTAGATACTCTAGAGGTTTATGTGGCCATTGTGAAAGTCATGGAGGGTAATCAATTCGCGGTCCGGCGCTTGCGGGCCGACGCCGCCAACTGGTCCAGCACCGATACCGAGACATCCCACTCCATGCAGGCGTCCGTCACGCTCTGCCCGTAG	MDNTDPRYMPLRCADAEPSTNHVLDTLEVYVAIVKVMEGNQFAVRRLRADAANWSSTDTETSHSMQASVTLCP				NA	NA	NA	NA	NA
D1-29_03811	1128	aroG	COG0722	Phospho-2-dehydro-3-deoxyheptonate aldolase, Phe-sensitive	ATGAGCACCGCAACAGCCGCCACAACGGGCACCACACCCACCGGCAAGTCAACGTCCAACCTGCGTGTCAGCGAATTCACGGCGCTGCCCACGCCCCAGGAGCTCATTGCTGAGCTGCCCATGGACGCCCGGGTGACGGACGTCGTCGAGCGTGGACGCGATGAAGTCCGGGCCATCATGGATGGCGTGGACGACCGCCTGCTGGTGATCGTTGGCCCCTGCTCCATCCACGATCCCAAGGCGGGCCTGGAATACGCCCGCCGGCTGGTCAGCCAGGCGGAGAAGCACAAGGAAGACCTGCTGATCGTGATGCGCGCCTACTTCGAGAAGCCGCGCACCACCGTTGGCTGGAAGGGCCTGATCAACGATCCACGGCTGGACGGCAGCCACGACATGGCCACCGGGCTCCGGGCGGCACGCAGTTTCCTGCAGCAGGTCACATCGCTGGGACTCCCGGCCGCCACCGAATTCCTGGAACCCATCAGCCCGCAGTACATGGCAGACCTGGTTTCCTGGGGCGCCATCGGGGCCCGCACCACGGAGAGCCAGATCCACCGCCAGCTGGCATCGGGGCTGTCCATGCCCATCGGCTTCAAGAACGGTACCGACGGCGACCTCCAGGTGGCGGTCGACGCCTGCGGTGCGGCGGCGGCCGCACAGGCTTTCCTGGGCATTGACGGCGACGGCCGGGCGGCCCTGGTGGCCACCGCCGGTAACCCGGACACCCACGTCATCCTCCGTGGCGGACGCAAGGGACCCAACTACTCCTCCGCCGACGTCGAGGCGGCATCCTCAACGCTCGCCGGCAAGCAGCTGAACCCCAGGCTGATCGTGGACGCAAGCCACGCGAACAGCGGGAAGAGCCACCACCGCCAGGCCGAAGTGGCACTGGAAATCGGGGCCCAGCTGGAGGACGGGGGAGCGGCAGCCCAGGCCATCGCCGGTGTCATGCTGGAGAGTTTCCTGGTGGGCGGTGCCCAGAACCTGGACGTGGCCGAGCACGCGGCCGGCAGGTCCGGGCTGGTCTACGGGCAGAGCGTGACGGACGCCTGCATGGAGTGGGATGTCTCGGTATCGGTGCTGGACCAGTTGGCGGCGTCGGCCCGCAAGCGCCGGACCGCGAATTGA	MSTATAATTGTTPTGKSTSNLRVSEFTALPTPQELIAELPMDARVTDVVERGRDEVRAIMDGVDDRLLVIVGPCSIHDPKAGLEYARRLVSQAEKHKEDLLIVMRAYFEKPRTTVGWKGLINDPRLDGSHDMATGLRAARSFLQQVTSLGLPAATEFLEPISPQYMADLVSWGAIGARTTESQIHRQLASGLSMPIGFKNGTDGDLQVAVDACGAAAAAQAFLGIDGDGRAALVATAGNPDTHVILRGGRKGPNYSSADVEAASSTLAGKQLNPRLIVDASHANSGKSHHRQAEVALEIGAQLEDGGAAAQAIAGVMLESFLVGGAQNLDVAEHAAGRSGLVYGQSVTDACMEWDVSVSVLDQLAASARKRRTAN	PGPT0012920_3055	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
D1-29_03812	1020	axeA	COG3458	Cephalosporin-C deacetylase	ATGCCTCTTTTTGACCTTCCCCTCGAGCAGCTCCGCGGGTACACCTCACCCGTGACGCCCCCGGACGACTTCCAGGCCTTTTGGGACGGCACCATCGAGGAAGCCCGAACATTTCCCCTTGGAGCCACTTTTGAGCCCGTGGAGAACTACCTTTCGGTCATCGACACCTACGACGTGACGTTCGCTGGCTACGGCGGTGCCCCCATCAAAGGGTGGCTGCACCTCCCAGCGAACCGGATGCCCGGAACCCAGCTGCCCGTCGTCGTGAATTATGTTGGCTATTCCGGCGGGCGGGGCCTGGTCAACCAAGACACCCGATGGGCCCAGGCGGGCTATGCGCACTTCATCATGGATACCCGCGGTCAGGGCTATGGCTGGGCGCTCGGCGAGACGGCTGACCCGCACCCCAGTGCCGGAGAGGTGGCCTACGCCGGGTTGATGACGCGGGGAGCCGGAAGCCGGGAGGACTATTACTACCGACGGGTCTACGTGGACGCCTTCCGCGCCGTGGAGGCTGCCCAGTCCCACCCTGCGGTTGACGCCTCACGAGTGGTCCTGGCCGGCGTCAGCCAGGGCGGCGGCATAGTTATTGCCGTCGCGGGACTCGTTCCCGGACGGCTCGACGGCGTCATCGCCGCGCTGCCTGATGTCCCGTTCCTGCAGGACTTCCCCCGCGCCATCGACATCACTCCGAGCGGGCCGTACCCGGAAATCGCCGGGTTCCTGGGCCGGCACCGCGACCGGTATGAGCCCATGCTTGCGGTGCTAAATTATTTCGACGGCGTCAACCTGGCCCGGTGGGCCACCGTTCCGGCGCTCTATTCCGCAGCACAGATGGACGATATCTGCCCCCCGTCAACCGTGTTTGCCAGCTTCGACGCCTACGGTTCCGGGGCAGCAGGCTCCTCAGGTACTGGGGCGGCCAAGGACATCGAGGTGTACCGGTTCAACAGCCATGAGGGCGGCCAGGAACACCACTGGATCAGGCAACTGGAGTTCCTCCGCAAGCTACTGGGCTGA	MPLFDLPLEQLRGYTSPVTPPDDFQAFWDGTIEEARTFPLGATFEPVENYLSVIDTYDVTFAGYGGAPIKGWLHLPANRMPGTQLPVVVNYVGYSGGRGLVNQDTRWAQAGYAHFIMDTRGQGYGWALGETADPHPSAGEVAYAGLMTRGAGSREDYYYRRVYVDAFRAVEAAQSHPAVDASRVVLAGVSQGGGIVIAVAGLVPGRLDGVIAALPDVPFLQDFPRAIDITPSGPYPEIAGFLGRHRDRYEPMLAVLNYFDGVNLARWATVPALYSAAQMDDICPPSTVFASFDAYGSGAAGSSGTGAAKDIEVYRFNSHEGGQEHHWIRQLEFLRKLLG	PGPT0011020_159	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-CEPHALOPORIN_METABOLISM,PGPT0011020-cah-K01060	NA	NA
D1-29_03813	1536	rhaB		Rhamnulokinase	ATGAGCACCGAACGCACCAACGAAACTGCCCCGGTCCAGGCCGGGGAAGTTTCCGCTGGTCCCCGCAAGGTGTTTACCGGCAGTGTCTTCGCCGCGGTCGATATTGGCGCCTCCTCCGGCCGGGTCATCCTGGGCCGGGTCACCGGCGGCGCCGACGGTGACGGCAGTGTGCAACTCGAAGTGGTGCACCGCTTCCCGAACGGGGTGGTAGAGATCGACGGCGGCCTCCGCTGGGACTTCGACGCCCTCTTCGCCGAGGTGCTCGAGGGCCTGCGGGCGGCGTCCGCCGTCGCAGCAGCGCAGGGCGAGCACGTGGCCAGCATCGGCATCGACACCTGGGCAGTGGACTACGGGCTGGTCAATGCGGACGGGGAACTGACGGCCCAGCCCTTCAGCTACCGGGATGACCGCAGCCGCGCCGCCGTCGAACCCGTCCACCGAAAGTTGGATCCCGCGCGGCTTTACGGCACCACGGGCCTGCAGTTCCTGCAGTTCAACACCATCTACCAGCTGGCCACTGAACCCGATCTAGGCGGGCTGCAGGCGCTGCTGATACCGGACCTGATCGCATTCCTCCTCACCGGCGTTCGGCGGACCGAGGCCACCAATGCCTCCACCACCGGTCTCTTCGACGCTGTCGCGGGGGAGTGGGCCACCGAGTTCTTCACTGCACTCGGGTTGCGGAAGGACCTGTTCCCGCCGCTGATCCAGCCCGGGGAAACCTATGGCACCCTCCTGCCGGCCATCGCCGCCCAGGTGGGACTGCCGCAAGACACCACGGTGGTGGCCGTCGGCTCGCACGACACAGCTTCCGCCGTCGCGGCCGTCCCTGCCGCGGCAGCGGGAGAGGGGCAGCGGGATTTCGCCTACATTTCCTCCGGAACGTGGTCGCTGGTGGGGCTGGAGCTGAAGCACCCGGTGCTCACCGAGGCCAGCCGGGAAGCGAACTTCACCAACGAACGCGGCGTGGACGGCACCATCCGGTACCTGCGCAACATGGGCGGGCTCTGGCTCCTCAGCGAATGCCAGCGGGAGTGGTCCCAACAGGGCTACGCAGGCAGCCTGGAGGAACTGTTGGAGGCGGCTGCGGAACTGCCACCCGGCGGTCCCAGGATCAACGCCGAGGATCCGTCGTTTATTGCCCCTGACAACATGCCCGAACGCATCCGCGCGGCAGTGCACAGCGCCGGGGGACTGCTCGCGGACCATCCAGCGGCCATCACCCGGTGCATCCTGGACAGCCTGGCCGCAGGCTACGCCAAGGCCATTTCAACGGCGGAACGGCTCTCGGACCGTCAGGTCGAGGTGGTGCATGTGGTGGGTGGAGGCTCGCAGAACCGCCTGCTCTGCCAGCTCACAGCGGACGCGACCGGAATGCCGGTTGTGGCAGGACCCGTGGAAGCCACGGCCCTGGGCAACGTGCTGGTTCAGGCCCGGGCGGCAGGGGCTGTCTCCGGCGGGCTGTCCGAGCTCCGGTGCCTGGTGGCCAGTGCCGGCGGGCTGCAGGAGTTCAGGCCGCAGCTTTCCCGCCTCTAG	MSTERTNETAPVQAGEVSAGPRKVFTGSVFAAVDIGASSGRVILGRVTGGADGDGSVQLEVVHRFPNGVVEIDGGLRWDFDALFAEVLEGLRAASAVAAAQGEHVASIGIDTWAVDYGLVNADGELTAQPFSYRDDRSRAAVEPVHRKLDPARLYGTTGLQFLQFNTIYQLATEPDLGGLQALLIPDLIAFLLTGVRRTEATNASTTGLFDAVAGEWATEFFTALGLRKDLFPPLIQPGETYGTLLPAIAAQVGLPQDTTVVAVGSHDTASAVAAVPAAAAGEGQRDFAYISSGTWSLVGLELKHPVLTEASREANFTNERGVDGTIRYLRNMGGLWLLSECQREWSQQGYAGSLEELLEAAAELPPGGPRINAEDPSFIAPDNMPERIRAAVHSAGGLLADHPAAITRCILDSLAAGYAKAISTAERLSDRQVEVVHVVGGGSQNRLLCQLTADATGMPVVAGPVEATALGNVLVQARAAGAVSGGLSELRCLVASAGGLQEFRPQLSRL	PGPT0017775_86	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017775-rhaB-K00848	NA	NA
D1-29_03814	2058	hcaB_4		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGGGGCGCGTAACTGCAATGACCACCAACAAGACTGTTGAAGACCTGATCTCCCGTTCCAACCGCCTGGGCGCGGACAAGCGGAACACCAACTTCGCCGGCGGCAACACCTCCGCCAAGGGCACCGAAAAGGATCCGGTGACGGGCGAGGACGTCCAGCTGTTGTGGGTCAAGGGCTCGGGCGGGGACCTGGGCACCCTCAAGGCGGAGAACCTTGCGGTTCTGCGCCTGGACCGGCTGAACGCGCTGAAGAACGTCTACCCGGGCGTGGAACGTGAAGACGAGATGGTGGCCGCCTTCGATTACTGCCTGCACGGCAAGGGCGGTGCCGCTCCTTCGATCGACACCGCCATGCATGGGCTGGTAGACGCCGCGCACGTTGACCACCTGCACCCGGACTCCGGCATCGCCATCGCCACCGCGGTGGACGGCGAGGCCCTGACCACCAAGATCTTCGGCAACAAGGTTCTTTGGGTTCCCTGGCGCCGTCCCGGGTTCCAGCTGGGCCTCGATATTGCCGCAATCAAGGAAGCCAACCCGCAGGCCATCGGCACCATCCTGGGCGGGCACGGCATCACCGCCTGGGGCGCCACCAGCGAAGAGGCTGAACAGAACTCGCTGTGGATCATCGAACAGGCCGAGAAGTACATCCGGGACAACGGCAAGGCCGAACCCTTCGGGCCCAAGCTGCCCGGTTACGGCGCCCTGCCCGAGGCCGAGCGCAAAGCCAAGGCCGCAGCGCTGGCACCGGTGATCCGCGGACTGGCTTCCACGGACAAGCCGCAGCTGGGGCACTTCAGCGATGACGCCGTCGTCCTGGACTTCCTCGAAGCTGCCGAGCACCCGCGCCTGGGCGCTCTGGGCACCTCCTGCCCGGACCACTTCCTGCGCACTAAGGTCAAGCCGCTGATCCTTGACCTGCCGGCGGACGCCTCCATCGAAGACTCGATCTCACGGCTGCATGAGCTGCACGCCGACTACCGCGAGGACTACCAGGCCTACTACGACCGTCATGCGGAAGCGGAAAGCCCCGCCCTGCGCGGCGCGGACCCGGCCATTGTGCTGGTGCCCGGAGTGGGCATGTTCTCCTTTGGCGCGAACAAGCAGACCGCCCGCGTTGCCGGTGAGTTCTACATCAACGCCATTAACGTGATGCGCGGCGCCGAAGCGATCTCCACCTACGGCCCCATCGAGGAATCCGAGAAGTTCCGGATCGAGTACTGGGCGCTGGAGGAAGCCAAGCTGGCCCGGATGCCCAAGCCGAAGTCGCACGCCACCCGCATCGCGATGGTCACCGGTGCAGCTTCCGGCATCGGCAAGGCCATCGCCACCCGCCTCGCCGGCGAAGGCGCGTGCGTGGTTATCGCCGACCTGAACCTCGAGAATGCCGAAAAGGTGGCCGAAGAGCTCGGCGGCCCCGACGTCGCCATCGGTGTCCAGGCGGACGTCACTGACGAAGCCCAGGTGGCAGCCGCCATTGACGCCGCTGTCCTGGCGTTCGGCGGTGTTGACCTGGTGGTCAACAACGCTGGCCTGTCCATCTCCAAACCGCTGCTGGAAACCACCGAGAAGGACTGGGACCTGCAGCACAACGTCATGGCCAAGGGCTCATTCCTGGTGGCCAAGGCCGCAGCCAAGGTCATGATCGCCCAAGGCCTGGGCGGGGACATCATCTACATCTCCTCCAAGAACTCCGTGTTCGCCGGCCCGAACAACATCGCCTACTCCGCCACCAAGGCAGACCAGGCCCACCAGGTGCGCCTGCTCGCGGCCGAATTGGGTGAGTACGGCATCCGCGTCAACGGCATCAACCCCGACGGCGTGGTCCGCGGCTCAGGCATCTTCGCCGGCGGTTGGGGTGCCAAGCGCGCGGCAGTCTATGGCGTGGACGAGGAAAAGCTGGGCGAGTACTACGCCCAGCGCACCCTGCTCAAGCGCGAAGTCCTGCCCGAGCACGTGGCCAACGCCGCCGCCGTGCTCACCAGCAACGAACTGTCCCACACCACCGGCCTGCACATCCCCGTGGACGCCGGAGTGGCCGCAGCCTTCCTGCGATGA	MGRVTAMTTNKTVEDLISRSNRLGADKRNTNFAGGNTSAKGTEKDPVTGEDVQLLWVKGSGGDLGTLKAENLAVLRLDRLNALKNVYPGVEREDEMVAAFDYCLHGKGGAAPSIDTAMHGLVDAAHVDHLHPDSGIAIATAVDGEALTTKIFGNKVLWVPWRRPGFQLGLDIAAIKEANPQAIGTILGGHGITAWGATSEEAEQNSLWIIEQAEKYIRDNGKAEPFGPKLPGYGALPEAERKAKAAALAPVIRGLASTDKPQLGHFSDDAVVLDFLEAAEHPRLGALGTSCPDHFLRTKVKPLILDLPADASIEDSISRLHELHADYREDYQAYYDRHAEAESPALRGADPAIVLVPGVGMFSFGANKQTARVAGEFYINAINVMRGAEAISTYGPIEESEKFRIEYWALEEAKLARMPKPKSHATRIAMVTGAASGIGKAIATRLAGEGACVVIADLNLENAEKVAEELGGPDVAIGVQADVTDEAQVAAAIDAAVLAFGGVDLVVNNAGLSISKPLLETTEKDWDLQHNVMAKGSFLVAKAAAKVMIAQGLGGDIIYISSKNSVFAGPNNIAYSATKADQAHQVRLLAAELGEYGIRVNGINPDGVVRGSGIFAGGWGAKRAAVYGVDEEKLGEYYAQRTLLKREVLPEHVANAAAVLTSNELSHTTGLHIPVDAGVAAAFLR				NA	NA	NA	NA	NA
D1-29_03815	1179	xylA_2		Xylose isomerase	ATGAATGACGTAGCAACGGCGCTGGGCAGGCTCGGGGAGCTTGCCATCGAGGTCCCCTCGTGGGCTTATGGAAATTCAGGCACGCGTTTTAGGGTGTTCGGCACGCCGGGCACGCCGCGGACGGTGCAGGAGAAGATCGCGGACGCCGCCAAAGTCCACGAGCTGACCGGTCTGGCCCCCACCGTTGCCCTCCACATTCCATGGGACAAGGTGGATGACTACGCCGCGCTGAAGGAGTACGCCGCCGGGTTGGGTATGGGCCTGGGCACCATCAATTCCAACACCTTCCAGGATGACGAGTACAAGTTCGGCTCCCTGACATCCTCCAACGAGTCAGTCCGCCGCCGGGCCATCGCCCACCACCTGGACTGCATTGAGATCATGCACGCCACGGGCTCGAAGGACCTGAAGATCTGGCTGGCGGACGGCACCAACTACCCGGGCCAGGATGACATGCGCGGCCGCCAGGACCGCCTGGCAGAATCGCTCCAGGAGATCTACGCCGCACTGGGCGACGAACAGCGCCTGGTGCTGGAATACAAATTCTTCGAGCCCGCTTTCTACCACACCGACGTGCCGGACTGGGGCACCTCCTACGCCCAGACCCTGGCTCTCGGGGAGAAGGCATTCGTCTGCCTGGACACCGGCCACCACGCCCCGGGCACCAACATCGAGTTCATCGTGATGCAGCTGCTGCGCCTGGGCAAGCTTGGCTCCTTCGACTTCAACTCGCGCTTCTACGCCGACGACGACCTCATCGTGGGTGCCGCGGATCCGTTCCAGCTCTTCCGCATCATGTACGAGGTGATCCGCGGCGGCGGCTACGGCAAGGATGCTCGAGGAAATTCCGCTGTCGCGCTCATGCTGGACCAGTGCCACAACCTCGAAGAGAAGATCCCGGGCCAGATCCGCTCGGTCCTGAACGTCCAGGAAATGACCGCCCGCGCACTGCTGGTGGACACCGAGGCCCTGGGCGAAGCGCAGCGTGCCGGTGATGTCCTGGCTGCCAACGGTATTTTCAACGATGCCTTTTACACGGACGTCCGGCCACTGCTGGCCGAGTGGCGTGAATCCCGCGGCCTGCCAGCGGACCCGCTGGCTGCCTTCAAGGCCAGCGGCTACCAGAAGAAGATCAACGAGGACCGCGTGGGCGGCCAGCAAGCCGGATGGGGCGCGTAA	MNDVATALGRLGELAIEVPSWAYGNSGTRFRVFGTPGTPRTVQEKIADAAKVHELTGLAPTVALHIPWDKVDDYAALKEYAAGLGMGLGTINSNTFQDDEYKFGSLTSSNESVRRRAIAHHLDCIEIMHATGSKDLKIWLADGTNYPGQDDMRGRQDRLAESLQEIYAALGDEQRLVLEYKFFEPAFYHTDVPDWGTSYAQTLALGEKAFVCLDTGHHAPGTNIEFIVMQLLRLGKLGSFDFNSRFYADDDLIVGAADPFQLFRIMYEVIRGGGYGKDARGNSAVALMLDQCHNLEEKIPGQIRSVLNVQEMTARALLVDTEALGEAQRAGDVLAANGIFNDAFYTDVRPLLAEWRESRGLPADPLAAFKASGYQKKINEDRVGGQQAGWGA	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
D1-29_03816	354	rhaM_1	COG3254	L-rhamnose mutarotase	ATGAGGGTGTGTTTCCGCTCCTCGGTCAGGCCGGAGCTGATCGATGAATACCGGCGCCGGCATGCCGCGGTGTGGCCGGAGATGCTGGTGGAACTCAAACAAGCCGGCTGGAACAACTACTCGCTGTTCCTTGGATCTGACGGCCTCCTCATTGGCTACGTCGAATGCGACGATTTCGACGCCGTCCGCGCCAGAATGGCGCTGACAGAGGTTAATGCCCGCTGGCAGGCGGAAATGGCCGCTCTTTTCAACAACCCGGACAACCCGGACCAGGCGCCCGACGAGGGGTTCCAGGTCCTGGAGGAAGTCTTCAATCTTGATGACCAGCTCGCCGCGGCAGCTGCTGAGCCCTAG	MRVCFRSSVRPELIDEYRRRHAAVWPEMLVELKQAGWNNYSLFLGSDGLLIGYVECDDFDAVRARMALTEVNARWQAEMAALFNNPDNPDQAPDEGFQVLEEVFNLDDQLAAAAAEP	PGPT0017795_197	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
D1-29_03817	1044	cytR_6	COG1609	HTH-type transcriptional repressor CytR	ATGAATCGTTCAGCCAGTATCAAGGACGTCGCGAACCACGCGAGCGTGGCAGTGGGTACCGTGTCCAACGTCCTGAACTACCCTGACCGCGTCTCCGAGCGGACTAAGGAGCGGGTACTCCGGGCCATCGACGAGCTGGGCTTTGTCCGAAATGATGCTGCGCGGCAGCTCCGCGCCGGCCATAGCCGGACCATCGGCCTGATTGTCCTGGACGTGGGCAACCCCTTCTTCACGGCCGTGGTGCGCGCCGCGGAAGACGCCGCCGCGCTGCAGGGCAGCGCGGTGCTGCTGGGCGACAGCGGCCATGATGCGAGCCGTGAGTCCAACTACATCGATCTTTTCCAGGAACAGCGTGTCCAGGGCCTGCTCATCTCCCCCGTGGGCGACGTCACCGAGCGGCTGGACCTGCTTCGCGAGCGCGGCGTTCCCACCGTTCTGGTGGACCGGCTCGCCGATGAGAGCAAGTACAGTTCAGTCTCCGTGGACGACGACGCCGGAGGTTACCTCGCTGCCCGGCACCTGCTGGACACCGGCCGCCGTCGGCTTGCCTTTGTGGGCGGCCCGGCATCCATCCGCCAGGTGGCGGACCGCCTGCAAGGTGCCCAGCGTGCTGTGAAGGAGGAACCGGATGCCACGCTTGAGGTGCTGGATTCAGAGGGGCAGACAGTGCTGGCAGGCCGCAGTGTGGGCAATGCCCTGGTAGAGCGCAGCGGGGCGGAACTGCCGGACGGGATCTTCTGTGCCAACGATCTCCTCGCCCTGGGAGTGATGCAGTCCCTCACCATGACCCACTCCCTCAGGATCCCGGAAGACATCGCCCTGATCGGCTATGACGACATCGACTTTGCGGTCTCCGCGGTGGTCCCGCTGTCCTCCATCCGGCAGCCCACTGAGGCCCTGGGCCGCACCGCCATAGAACTGCTCGCCGAGGAAGTGGAATCCGAAAACCCCAGGCACCGAGCGGTGATCTTTACACCGGAGCTGGTGGTCCGCCAGAGCACGGGACCCACCACAGGGCTCAATCCCCTGGCGCATCCGCACTGA	MNRSASIKDVANHASVAVGTVSNVLNYPDRVSERTKERVLRAIDELGFVRNDAARQLRAGHSRTIGLIVLDVGNPFFTAVVRAAEDAAALQGSAVLLGDSGHDASRESNYIDLFQEQRVQGLLISPVGDVTERLDLLRERGVPTVLVDRLADESKYSSVSVDDDAGGYLAARHLLDTGRRRLAFVGGPASIRQVADRLQGAQRAVKEEPDATLEVLDSEGQTVLAGRSVGNALVERSGAELPDGIFCANDLLALGVMQSLTMTHSLRIPEDIALIGYDDIDFAVSAVVPLSSIRQPTEALGRTAIELLAEEVESENPRHRAVIFTPELVVRQSTGPTTGLNPLAHPH	PGPT0017992_6297	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
D1-29_03818	720			hypothetical protein	ATGGAGCAGAATCTCCCTCTTGATGAACTCTCCGTTGTGATTGGCAGGATCAACGGCCTGCTCCTCACGGAAGAAAAAGTAGACCGCGCCGTGCACCTCCTGGCCCGGGCGGTCAAGGACGCGATACCAGGGACCGTGGGGGCAGGCGTGTCACTCCTGGACAGTCACGGCCGCAGGACCAGTGCCGGATTTACGGATCGGATTGTCGAACGCGCTGACGCCCTGCAGTATGAGCTTGGACAGGGCCCCTGCCTGACTGCCTGGGCAGCCGAGGAAACTGTGCATGTTGATGACGTCCGGGCCGATAATCGCTGGCCGGACTGGAGTGCTGCGGTGGAAGCGCTGCCGGTCCGCTCGGTGGTCAGTGCCGCGCTCGTCTCAGGGAAGGAATGCATCGGCGCACTGAAGGTCTATGCCGCTCTTCCCTCTGTGTACGATTCAGGCACGGGCCAACTCCTTGAGCTGTTTGCGGCCCCGGCAGCGACGCTGCTGTCCCACATACAAACCAGTGAAGCACCGCACCGTATGAGTGCCGGGCTCCAGGCCGCGCTGCACAGCAGGGATGCGGTCAACCGTGCTTGCGGGATCCTGATGGAACGGCATGGCATGAGTCATGAGCAGGCACTGCAGCAGCTCATGCGCCGGGCCCGCGACACAGGACAAACCCTGCCTCAGACCAGCGCTGAAACAATCGCCGGAACGCCGGCGAACCGGAACTAA	MEQNLPLDELSVVIGRINGLLLTEEKVDRAVHLLARAVKDAIPGTVGAGVSLLDSHGRRTSAGFTDRIVERADALQYELGQGPCLTAWAAEETVHVDDVRADNRWPDWSAAVEALPVRSVVSAALVSGKECIGALKVYAALPSVYDSGTGQLLELFAAPAATLLSHIQTSEAPHRMSAGLQAALHSRDAVNRACGILMERHGMSHEQALQQLMRRARDTGQTLPQTSAETIAGTPANRN				NA	NA	NA	NA	NA
D1-29_03819	408			hypothetical protein	GTGGGCTTCGATCCCCATGAACCCGAACAAAGCCGCCGGCTTCGGGAAGCGCTCAAGGCCTCAGACCTCGGCATCGGGGAGCTGTGGCTGAATTACTTCAGCCTTGGCGGCAGTGTGGGCGAATACGAAGTTGAGGCCTACTTGCAGGGCCTGCTGTCCCTCCCGCCCATCGAACGGGATCTGCTGGCCATGGCGGGTAACGAACTAATCGATAAGGCTCCGCGGATCCACGCCCCCTATTCAGATGACCTCGACTCAGACGACCTCGATTCAGACGACCTCGCCCGACCAACCCAAGAGAATCGTGGCGAACAGGAGCAAATTGGCTCAGGCGGAGAACTGAGCCAGCCGGGCAAGGATCAGGGCACGGGCGAGGACGAACACGGCCAGGAACCGCCCCGGGCGTAG	MGFDPHEPEQSRRLREALKASDLGIGELWLNYFSLGGSVGEYEVEAYLQGLLSLPPIERDLLAMAGNELIDKAPRIHAPYSDDLDSDDLDSDDLARPTQENRGEQEQIGSGGELSQPGKDQGTGEDEHGQEPPRA				NA	NA	NA	NA	NA
D1-29_03820	231			hypothetical protein	ATGGGAGTCCAGATGGGTGCAGAGTCGATCCTCGCGTTGATCGGCGGGTATCTCGCAACAGCCATCACAGTGTTCCTGTTGTACTCGCCCGTATTGATTCTTGTGGTGGTGCTGCTGTTGATAGCGGGCATTCTGCAGCTTATTGCCTTGCCCTTCATCGTCCTGATTCGCAGGCTGCGGGGGCGGGGAAAGCCCAAATCGCCGTCGGACGGAACGTGGCTTTTCCGGTGA	MGVQMGAESILALIGGYLATAITVFLLYSPVLILVVVLLLIAGILQLIALPFIVLIRRLRGRGKPKSPSDGTWLFR				NA	NA	NA	NA	NA
D1-29_03821	744			hypothetical protein	ATGGCCCAGGAACCCAACATTTTGCCCGAAGCGGACGTCGCAGAGCACCTTCAGGACTTGGTCCTACAGTGTGCCGACGTAGAGGAGCTCCTCAATGAACTTGCGGCCTTCTCAGCCTCAAGCCTTTCCACCCGTCATGAGGTGTTCTGCAGCGTCACGTTGATGCGGAAGAAGAAGGCAGCCACCGTAGCCTCCAGCGATCACCGCGCCCTTCCCCTGGACGAACTGCAGTACGGCTTGGGCGACGGCCCCTGCCTCACTGCCATCCGGGAGCTGACCACCATGCACGTCCCCGATCTGCAGGAGGAACGCCGCTGGCCCGGCTACATCGCCGCTGCCTGGAAACAGGGAGTCGGTTCAATCCTGGCTGTTCCCCTGCCCCTCGAGGGCGAAGCGAACGCGGCTTTGAACGTATATTCGGCCAAGACACACGCCTTCAGCGGGGAAGACATTGAAAAGGCCGAGGCTTACGCTGGGCAGGCTTCCAAGTCATTGCGACTGGCCGTCCGAATCGCCCGGCTCACCGACGACCGGAATAACCTGAAAGCGGCAATGGAATCCCGCACCACCATCGACCTTGCAGCCGGCGCGATCATGGCGCAGAACCGCTGCAGCCAGGACGCGGCATTCCAGATCCTGAGAATCGCCTCGAGTTCGCGCAACATGAAACTCCGGGACGTCGCGACCTCAATCGTCACCTCAGTGTCCCGGGATCCAAACGTCCTCACCCACTTCGACGCCTAG	MAQEPNILPEADVAEHLQDLVLQCADVEELLNELAAFSASSLSTRHEVFCSVTLMRKKKAATVASSDHRALPLDELQYGLGDGPCLTAIRELTTMHVPDLQEERRWPGYIAAAWKQGVGSILAVPLPLEGEANAALNVYSAKTHAFSGEDIEKAEAYAGQASKSLRLAVRIARLTDDRNNLKAAMESRTTIDLAAGAIMAQNRCSQDAAFQILRIASSSRNMKLRDVATSIVTSVSRDPNVLTHFDA				NA	NA	NA	NA	NA
D1-29_03822	786	rhgT	COG2755	Rhamnogalacturonan acetylesterase RhgT	ATGAAAATCCTGCTCGCCGGAGATTCCACCGTGGCGAACTGTCCCACCTACGAGTACCCCATGAGCGGCTGGGGAGCGCAGCTACCCCCGCACGTGTACACCTGGGCTGCCGTGCACAATTTCGCCAAGGGCGGTGCCAGCACGGAGTCCTTCCGCGCAGAGGGGCTATGGCGTCAGCTCCTGGAACTGGTCGAGGAAGGGGACCTGGTCCTGATCCAGTTCGGGCATAACGACCAGAAAAAAGTCCATCTTGCGGCCCGGACGGGATACGCCGCAAACCTGCGCACCATGGTGGCGGAGGTCCGCGCCCGCGGGGCCAGGCCTGTGTTGTGCACGTCGGTGGAGCGCCGGCACTTCCTTGAGGAAGCGGACGGTGTCGCCGAGCTGGAACAGACGCTGGAGGACTATCCGGAGGTGGTCCGTGAGATTGCCCTTGAACTGCAGCTGCCCGTCGTCGACCTCAACTCCTGGACTCGAGACCTGTACACCCACCTGGGCGTGGAGAAATCAAAAGAGCTGTTCTGTCATTTCGGGCCGGGCGAACATGCGTACTGGCCGGCAGGGCTGGCGGACAACACCCACTTCTCGCAGGAAGGGGCAGCCCTGGTGGCGGAGCGCGTCGCCAGCCAGATAGCGCTGTTGGGCCTCGCCCCTGGCAGCCGGGACCCTGGCAGCCGGAACCCTGACAGCGGGGAACCTGACGGCCGGGAACCTGAGGTCTGGGAAGTGGCTGGAAGTCCGACGGCGGTACGCCCGCCGGAGGACCTGGCGGCGGCGGTCCGCTAG	MKILLAGDSTVANCPTYEYPMSGWGAQLPPHVYTWAAVHNFAKGGASTESFRAEGLWRQLLELVEEGDLVLIQFGHNDQKKVHLAARTGYAANLRTMVAEVRARGARPVLCTSVERRHFLEEADGVAELEQTLEDYPEVVREIALELQLPVVDLNSWTRDLYTHLGVEKSKELFCHFGPGEHAYWPAGLADNTHFSQEGAALVAERVASQIALLGLAPGSRDPGSRNPDSGEPDGREPEVWEVAGSPTAVRPPEDLAAAVR	PGPT0017810_2456	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017810-lacZ-K01190	NA	NA
D1-29_03823	1278	iolG_11		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGGGAACGCCATCCGGCACCCACGCCGAGTCAACTTTCAAGGAGCCACACTCGGCCCGCACCCAGCCCGCCACGCGGGAGGGCAAGCCGGCAACCCGCGTTGCACTGGTAGGCGTCCATGGGTTTGGTACCCATCATCTGCGCAATCTTGAACGCCTCCAGGCGAACGGCGTTGTGGACCTCGTGGCGGTGGCCGATCCGCAGCCGCCCTCACCCGGTTCCGTGCCCGCCACAGCTGCTGTTTTCCCGGGGCTCACTGAACTCCTGGCGGAAACCCGGGAACTGGACGTCATTATCGTGGCCACCCCTATCCAAAGCCACGCACCGCTGGGCCTTGCCGCGCTGGCAACGGCTGCAGATCTCTACCTGGAGAAGCCGCCCGTTGCATCGCTGGCAGACTTCGACAGGCTGCGTAACGCCGCCGCCGCCTCCGGACGGAGCGTGCAGATTGGCTTCCAAAGCCTCGGTTCGCATGCACTGAAGGCCATCGAGGAATTGTTGGCGGCTGGGACCATTGGCTCCCTCCAGGGCGTCTCGGCAACAGGCCGGTGGGTCCGGGACCGCGCGTATTACCAGCGCTCCCGCTGGGCAGGAAAGCGACGTCTGGACGGTGTTGACGTGGTGGACGGTGTGGCCACCAACCCGCTGGCCCATGCGGTAGCCACCGCGCTGCGGATAGCTGGCGCACGGACGGTGGATGACGTCGCATCGGTGGAAACAGACCTGTACGGCGCCAACCAGATCGAATCTGACGACACCTCTGTGATCCGGATCCGCACGGCGTCCGGGATCTCAGTCACCTGCGCACTGACGCTGTGCGCCGGTGAATCCGTGGAACCGTACATCACCCTGCAGGGGTCGGCCGGAACTGCTGTGTTCCACTACACCGAGGACCGGCTCACCGTCAGCACCAAAGAAAGCTGGACCGAACAGGTTTTCAGCCGTGACGATCTGACCGAGAACCTGATCGCCCACCGCAACCATGGCACTGCACTCATCAGCCCGCTCCTGGACAGCGGTGCCTTCATGCTGGTCCTTGAGGCCATCCGCACCGCACCACCTCCGACGCCGATAGATCCCGGTTTCGTGCGGTGGGAGGGCGACGGCGACGCAGCGCACGCGGTGGTCATCGGGATAGAAGACGCATTGGAACAGGCCACGCAGGAACACGCCACGTTCAGCGAGCTTGGAATCCCTTGGGCGGTCACCGAAAAGGCGAAGACCAGCGCAGCACCCCATCCTGCCCGGCCCCAGTTGGCGTACGGGGGCAGTAACTAG	MGTPSGTHAESTFKEPHSARTQPATREGKPATRVALVGVHGFGTHHLRNLERLQANGVVDLVAVADPQPPSPGSVPATAAVFPGLTELLAETRELDVIIVATPIQSHAPLGLAALATAADLYLEKPPVASLADFDRLRNAAAASGRSVQIGFQSLGSHALKAIEELLAAGTIGSLQGVSATGRWVRDRAYYQRSRWAGKRRLDGVDVVDGVATNPLAHAVATALRIAGARTVDDVASVETDLYGANQIESDDTSVIRIRTASGISVTCALTLCAGESVEPYITLQGSAGTAVFHYTEDRLTVSTKESWTEQVFSRDDLTENLIAHRNHGTALISPLLDSGAFMLVLEAIRTAPPPTPIDPGFVRWEGDGDAAHAVVIGIEDALEQATQEHATFSELGIPWAVTEKAKTSAAPHPARPQLAYGGSN				NA	NA	NA	NA	NA
D1-29_03824	1278	aspC_2	COG0436	putative aspartate aminotransferase	ATGCAATATTCCAGCAAGCTCCAGAACGTCAAGTATGAACTCCGGGGTCCCATCCTCCAGGCGGCACGAAAGATGGAGGCGGAGGGGCACCGGATCCTCAAAATGAATCTTGGAGACACGGCTCCCTTTGGCCTGGAAGCGCCTGAATCCGTAGTGGTGGACATGATCCACCATCTGCGCGGAGCACAGGGCTACAGCGATTCAAAAGGCATATTCTCGGCCCGGACTGCCATTTCGCAGTATTACCAGACGCGCGGGCTGATGCAGATCGGCGTCGAGGACATTTTCATTGGCAACGGTGTCAGCGAACTCATTTCCATGACCCTCCAGGCCTTCCTGGAAAACGATGACGAAATCCTGGTCCCCGCGCCGGACTATCCGCTTTGGACAGCTGCAGTGACGCTGACTGGTGGCCGGCCTGTCCACTACCTCTGTGATGAGGACCAGAACTGGTGGCCGGACATGGCGGACGTCGAGTCCAAGATCACCAGCCGGACCAAGGGGATCGTCATCATCAATCCCAACAATCCGACAGGCGCCGTCTATCCCAGGCGCATCGTGGAACAATTTGCTGCCCTGGCCCGCAAACATGACCTGGTGCTTTTCTCTGACGAGATCTACGAGAAAGTCAGGTATGAGGATGCCGAGCACTTCCATACCGCTTCCGTGGCAGAGGATGTTTGCTGCCTGACTTTCAGCGGACTTTCCAAGGCTTACCGCATGCCGGGATACCGGGCGGGCTGGGTGGCCATCACCGGTCCGCGCACGGCAACACTGGCGTACCGGGAAGCGCTGGAATTGCTGGCCTCGTTGCGGCTGTGCCCCAATGTCCCCGCCCAGCACGCCATCCAGACCTGCCTTGGCGGCTACCAAAGCATTGAGGAACTGATCCGGCCCGGTGGCAGGCTCCGCGAACAGCGGGACCTGGCGCTGGAGCTCCTCACGGCCATTCCGGGCGTGACGTGCGTTCCCGCTGCCGGCGCCATGTACCTTTTCCCGCGGCTGGACCCGGAGGTTTACCCCTTCGTAAGCGACGAGCAGTTTGTCCTTGACCTTCTGCGGGAACAGAAGATCCTGGTGTCCCACGGTTCGGCGTTCAATTGGCCCAGGCCTGATCACTTCCGGTTTGTGATTCTGCCGGCTGTCCAGGACATCAGGGAGGCGGTACGGAGGATCGCAGCCTTCCTGGCGTCCTACCGCAACTCGGAGGCTGTGACGGAACGGCTGCCGCAGCCGCCGCTCACGCCGGTTCTTGCTGCGACGCCTGATCCGGGGTGA	MQYSSKLQNVKYELRGPILQAARKMEAEGHRILKMNLGDTAPFGLEAPESVVVDMIHHLRGAQGYSDSKGIFSARTAISQYYQTRGLMQIGVEDIFIGNGVSELISMTLQAFLENDDEILVPAPDYPLWTAAVTLTGGRPVHYLCDEDQNWWPDMADVESKITSRTKGIVIINPNNPTGAVYPRRIVEQFAALARKHDLVLFSDEIYEKVRYEDAEHFHTASVAEDVCCLTFSGLSKAYRMPGYRAGWVAITGPRTATLAYREALELLASLRLCPNVPAQHAIQTCLGGYQSIEELIRPGGRLREQRDLALELLTAIPGVTCVPAAGAMYLFPRLDPEVYPFVSDEQFVLDLLREQKILVSHGSAFNWPRPDHFRFVILPAVQDIREAVRRIAAFLASYRNSEAVTERLPQPPLTPVLAATPDPG	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
D1-29_03825	1281	entS_3		Enterobactin exporter EntS	GTGTCTTCCGACCGCCACCAGTCCCCAGAGTCCCTCCGCGTTCCCGAGCCTCCGCTCCGTTGGTATCACCCGCTGGCCCACCGCAATTACCGCCTGTTTCTGGGTGTCCAGCTAACCGGCAACGTGGGCGTGTGGATGCAGCGACTGGCCCAGGACTGGCTGGTGCTCCAGCTGACCGGGAGCCCCGCTGCGGTGGGTGTAGCCGTAGCCCTGCAGTTTCTGCCCATGCTGATTGTTGGGCCGCTGGCCGGATTGGTGGTGGATGTCTTTCCGAAACGCCGCATCATGCTTATTTGCCAGGCCGTCATTGCCCTCCTTGCGATGGGCCTGGCCGCCTGGGCAGCCAGCGGCACCATCACCGTCTGGGCTGTGTACGCAAGCTGCGTCGCGCTGGGTGTTACCGCCGCAATTAACCAGCCTGCAAGCCACGTATTCGTGAACGAGGTGGTGGGCGACGCCGCGCTGCAGCCTGCCATCGGCCTAAATAACGCCGTTGCCCAGCTGGGAGCGATGGCCGGTCCGGCGTTGGGCGGTGTGGTCATCGCCCAGGCCGGATCGGCAGTGGCGTTCGCCGCCAACTCCGTCCTTTGCCTGCTGGTGCTGGCCATGATTGCGGCCATTCGTCCTGCACAGCTGCATCCCAGCCCACCCGCCGTCCGTGGACGTGGGCAGCTCCTGGCCGGGTTCCGCTACGTCAGGGACAGGCCCTCGCTCCTGCTGATCATCGCCCTTGCCGGCCTCATGGGGGCATTTGGCATGAACGGTCCCGTAGTGCTGGCCGCCTTCGCCGAACGGGTGTGGCACAACGGTGTGGCCGGATTCGGCATGTTCAACACCCTGAGCTCGTTGGGCGCACTGGCCGGAGCGCTGCTGGCGGCCCGCCTCAAAAACATGGGCCGCAGGGGGATCGTTGCCGCTGCCGGACTTTTTGGGCTGTCCCAACTGGTGGCCGCGCTGATGCCCTCCCTGGTGCTCTTCGCCATCATGCTGGTCATTGTGGGCCTCATGACCCTGCTGTTCCTCACCAGTGCGGTCACCGCCGTTCAGCTGGAAGCCGGTCCGGAAATCCGCGGAAGGGTGATGGCGCTGTACTTGCCGCTTCTGCTGGGCGGGCATGCCCTGGGCGGCCTCTTGGCGGGCTGGCTCACCGAGGCCTTCGGTGTTCGGACGGGACTGGTGGTCACGGGGACGCTGGGCATGGTGTCGGCCGCAGTCATTGGCCTGCTGTTGTGGATGAACTCGCGGCCTACACCCACACCGGTCCACCCAGCTGCCTCCTGA	MSSDRHQSPESLRVPEPPLRWYHPLAHRNYRLFLGVQLTGNVGVWMQRLAQDWLVLQLTGSPAAVGVAVALQFLPMLIVGPLAGLVVDVFPKRRIMLICQAVIALLAMGLAAWAASGTITVWAVYASCVALGVTAAINQPASHVFVNEVVGDAALQPAIGLNNAVAQLGAMAGPALGGVVIAQAGSAVAFAANSVLCLLVLAMIAAIRPAQLHPSPPAVRGRGQLLAGFRYVRDRPSLLLIIALAGLMGAFGMNGPVVLAAFAERVWHNGVAGFGMFNTLSSLGALAGALLAARLKNMGRRGIVAAAGLFGLSQLVAALMPSLVLFAIMLVIVGLMTLLFLTSAVTAVQLEAGPEIRGRVMALYLPLLLGGHALGGLLAGWLTEAFGVRTGLVVTGTLGMVSAAVIGLLLWMNSRPTPTPVHPAAS				NA	NA	NA	NA	NA
D1-29_03826	705			hypothetical protein	ATGAGCATCATGGACAGCACCACACCCGCATCCGGCCGCAATGAACCCATCCCGGTCAACCGCTTCGCACTGTTTTCCGAGACCCTGCTGGCCGGCCTGCTGGTGCTGGTGCTGTCCATTCCGCTTGTTACCATTCCCGCCGCCTACGCGGCAGGCATCGCACACCTGGAACGCCACCTCTCCGGCCGCGACGATTCCCTCCGTGCCCTCTGGGGCACCTTCCGCTTAGCCCTTCCGGGCAGCTGGAAGCTGGGAATCACGACGGCGGCAGCCGCCGTCGTTATTGGGCTGAACCTGTTGCTCGCACTGGTGGGGCAGCTGCCCGGCCGGGCGGTCATCCTTCCGGCCACCCTGGTTCTTGCCGCCGCGGCGGCGGTCCTGCTCCTGCGCACCGCCGCAGCGTGGTCCGACTTTTCCGGCGACGCCGCAGGGCCGGGAGCTACAGGGCCGGGGCCGACAGAGAAAAACCCGGCGGCGTCCGGACCAGCAGCGAAAGACCCGGCATTGAAAGATGGACCCTGGACGGCGGCGCTGGCGACGGCGAAAGTGCTGTCCCTGCGTGACTGGACAGGTTCCCTCCTCCTCGCCGCCGCACTGTTTGCCACAGTTGTGTTCGTCTGGATGCTCGCGGCCCTGTTTGTGGTGGTTCCGGGCACCCTGATCCTGGCATCCGCTTCAGTCAAGATGCGCTCCACCCGCACCTAG	MSIMDSTTPASGRNEPIPVNRFALFSETLLAGLLVLVLSIPLVTIPAAYAAGIAHLERHLSGRDDSLRALWGTFRLALPGSWKLGITTAAAAVVIGLNLLLALVGQLPGRAVILPATLVLAAAAAVLLLRTAAAWSDFSGDAAGPGATGPGPTEKNPAASGPAAKDPALKDGPWTAALATAKVLSLRDWTGSLLLAAALFATVVFVWMLAALFVVVPGTLILASASVKMRSTRT				NA	NA	NA	NA	NA
D1-29_03827	918	ngcG_4	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGACAACCATGGCAACCCCCACCCAGTCGGCACCCCAAGCGGCGGCCGAACACTACAACCCGAAGTCCGAATCAGCCGGTACCAAACGGATCAAGAGCGCCGTCTTCCACCTCGTGGCCCTGGCCCTGACCGCCATAGTGCTCTACCCGGCGCTGTGGATGGTCACATCGTCCTTCAAGCCGAACGACGAAATCGGCGGCGGCAACACCGCGCTCTGGTCGAACAACTTCAGCTTCGACAACTTCGTCACGGCCATGGACGGGATCGGCGGGGTGTCCACCCTGCAGTTCTTCACCAACTCCCTGATTCTGGCCGTCGGCGCCGTGGTCGGCACCATCCTGTCGGCGAGCGTCTCGGCCTATGCCTTCGCCCGGATCAAGTTCCCCGGCCGCAGCGTGTTCTTCGGCATGATGATCGCCACCCTTCTCCTGCCGTTCCACGTGGTGATCATTCCGCAGTACATCGTCTTCCAGCAGCTTGGCCTGATCGACACCTACATCCCGCTGCTGATCGGCAAGTTCCTCGCCGCTGACGCATTCTTCGTGTTCCTCATGGTGCAGTTCATGCGGAACCTTCCTGCGGAACTGGACGAGGCAGCACGCATCGACGGCGCCGGGCACGTGCGGATCTTCGGTTCCATCATGCTGCCGCTGATGAAGCCGGCGCTGATCTCCACGTCGATCTTCTCCTTTATCTGGAGCTGGAACGACTTCCTCGCTCCGCTGCTGTACCTGAACACCCCGGAAAAGTACCCGCTCCCGCTGGCGCTGCGCCTCTTCCAGGACCAGACCCAGAGCTCGGACTACGGCGCTATGATCGCCATGTCAGTCCTGGCCCTGCTTCCGGTACTGATCTTCTTCCTGGTGTTCCAGCGCTACATCGTTGAAGGCGTCTCCACCCAGGGCCTCAAGGGCTAA	MTTMATPTQSAPQAAAEHYNPKSESAGTKRIKSAVFHLVALALTAIVLYPALWMVTSSFKPNDEIGGGNTALWSNNFSFDNFVTAMDGIGGVSTLQFFTNSLILAVGAVVGTILSASVSAYAFARIKFPGRSVFFGMMIATLLLPFHVVIIPQYIVFQQLGLIDTYIPLLIGKFLAADAFFVFLMVQFMRNLPAELDEAARIDGAGHVRIFGSIMLPLMKPALISTSIFSFIWSWNDFLAPLLYLNTPEKYPLPLALRLFQDQTQSSDYGAMIAMSVLALLPVLIFFLVFQRYIVEGVSTQGLKG	PGPT0016540_1484	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
D1-29_03828	951	lacF_11		Lactose transport system permease protein LacF	GTGACTCAAAGCCCAACCCTGAGCAGGCGTTCGACGCCGCCCGCTCCCGCGCTGCGTAAGTCAAAGCAGCGCGGGGCGGACGCCCGCGCCGGCTACACTTTCCTGCTGCCCTGGCTGCTGGGATTCATCGCACTCACCGTGGGCCCGATGATTTCCTCGCTATACCTCTCCTTCACCAACTACAACCTTTTCGAGCCGCCCAAATGGATCGGGCTGGACAACTACACCACCCTGTTCCAGGACGAACGGTTCCTGCAGTCGGTGGGTGTCACCGTGTCCTACGTGGTGTTCGGTACCCCGCTCAAGCTGGCGGCCGCGCTGGCAGTGGCCATGCTGCTCAACAGCAAGCGCAAGGGCCAAGGCTTCTACCGTTCGGCGTTCTACGCACCCTCCCTGATCGGCGCGTCCGTCTCCATTGCGATCGTCTGGAAAGCCGTGTTCGGCGACGCCGGCCCGGTGGATGAGGGCCTGTCCTTCTTCGGTATCAACCTCGGTGGCTGGGTGGGCAACCCCTCCATGACCATGCCCATGTTCGTCCTGCTGACCGTCTGGCAGTTCGGCGCCCCGATGGTGATCTTCCTTGCCGGCCTCAAGCAGATCCCAACAGACCTCTACGAAGCGGCGTCCATGGATGGTGCCGGACCGGTGCGGAAGTTCTTCAACATCACCTGGCCCATGCTCTCCCCGGTGATCTTCTTCAACCTGCTGATGGAAACCATCCACGCATTCCAGATCTTTGCTTCGGCCTACATCATCTCCAACGGTGAGGGCGGCCCGGCGGGCTCCACACTCTTCTACACCCTTTACCTGTACCTGCGGGGCTTCAGCGACTTCCGGATGGGCTACGCCTCGGCCATGGCCTGGCTCCTGGTGATTGTCGTCGGCATCATCACCCTGATCTTCTTCAAAACGTCCAAGTCCTGGGTCCACTACAGCGGTGATGCAAAATGA	MTQSPTLSRRSTPPAPALRKSKQRGADARAGYTFLLPWLLGFIALTVGPMISSLYLSFTNYNLFEPPKWIGLDNYTTLFQDERFLQSVGVTVSYVVFGTPLKLAAALAVAMLLNSKRKGQGFYRSAFYAPSLIGASVSIAIVWKAVFGDAGPVDEGLSFFGINLGGWVGNPSMTMPMFVLLTVWQFGAPMVIFLAGLKQIPTDLYEAASMDGAGPVRKFFNITWPMLSPVIFFNLLMETIHAFQIFASAYIISNGEGGPAGSTLFYTLYLYLRGFSDFRMGYASAMAWLLVIVVGIITLIFFKTSKSWVHYSGDAK	PGPT0016535_2399	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
D1-29_03829	1290	yesO_5	COG1653	Putative ABC transporter substrate-binding protein YesO	ATGATCAACCGAAGGAATTTCCTCACCACTGTGGCTGTAGGCACCGCATCTGCCGCAGCTTTGGCGGCTTGTGGCACAGGCTCCAGCACGTCCGGGGAGACGGGCTCCGCGGAAAACCCCGTCAGCATTGACTACACCTGGTGGGGCAACGACGACCGCGCCGAGCGCACCCGCAAGGCCATCGCCCTGTTTGAGTCAAAGAACCCGGACATCAAGGTCAACGGCAACTTCACCGACTTCGCTGGCTACTGGCAGAAGCGTGCCACCGAGGCAGCCGGCGGCGGGCTGCCTGACGTTATGCAGTGGGACCTCTCCTACCTGCGTGACTACGGCCAGCGCAACCAGCTCCTGGACCTGAGCACAGTCAAGATCAACACGGACGCCTTCGACAAGTCCCTCCTGCCCTCCGGCCAGATCAGGGGCAAGACCTACGGCATCCCTACCAGCACCAACGCGTTCGCCGTCTACTACGATCCGGCCAAGCTGGCCTCCCTCGGCATTGCCGAGCCGGACGGCAGCTGGTCCTACAAGGAATTCAACGAGTTCCTGACCGAAGTAGGCACCAAGAGCAACGGCGCGATCTTCGGCGGAACCGACTACACCGGTGTGTGGTGGATGTTCAACATCTGGCTGCGCCAGAACAACATCGAAGCGTTCACCGAAGACGGCAAGCTCGGCTTCACCAAGGACGATATGAAGAAGTGGTGGAATACCACCGCAGGCCTCCGCGGTACCCCAGCCATTGTTTCGGAAGAGCGCGTTACCCAGCTCGCTCCGAAATCCCCGTTCGGCTCCAACGTCACCGCAACGGAAGTCACCTGGGACAACTTCATGGCCGGCTACCTCTCGGACAGCGGTGCCAAGGAACTGAAGCTCGTTCCGGTTCCCTCGGATGACCAGGACAACCTGGGCCTCTTCCTCAAGCCCTCCATGCTGATGGTGGCCAGCGCCAAGACCAAGAACAAGGACGCTGCGGCCCGCTTCATCGACTTCATGGTCAACGATCCTGAGGTCGGGGAGATCTTCAAGACCTCCCGCGGCGTACCGGCGTCCAAGACCCAGCGTGACGGCACAACGTTCGAAGGTACCGACAAGCTGGTTGTTGACTACGAGAAGTCCATCGAGAAGTACCTCAAGGATGCTCCTGAGCCGCCCATCGTCGGTTTCGGCACGCTGGAGGCTTCCTTCAAGCGCATCAGCTCGGACCTGAACTACGGCAAGGTGACGATCGACGGCGCCGCGGACGCATGGTTCAAGGAAGCCGAAGACCTCATCAAGCAGAACGCCTGA	MINRRNFLTTVAVGTASAAALAACGTGSSTSGETGSAENPVSIDYTWWGNDDRAERTRKAIALFESKNPDIKVNGNFTDFAGYWQKRATEAAGGGLPDVMQWDLSYLRDYGQRNQLLDLSTVKINTDAFDKSLLPSGQIRGKTYGIPTSTNAFAVYYDPAKLASLGIAEPDGSWSYKEFNEFLTEVGTKSNGAIFGGTDYTGVWWMFNIWLRQNNIEAFTEDGKLGFTKDDMKKWWNTTAGLRGTPAIVSEERVTQLAPKSPFGSNVTATEVTWDNFMAGYLSDSGAKELKLVPVPSDDQDNLGLFLKPSMLMVASAKTKNKDAAARFIDFMVNDPEVGEIFKTSRGVPASKTQRDGTTFEGTDKLVVDYEKSIEKYLKDAPEPPIVGFGTLEASFKRISSDLNYGKVTIDGAADAWFKEAEDLIKQNA	PGPT0016545_7069	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
D1-29_03830	2016			Beta-galactosidase	ATGACTTTGCAGCAAACCCCTGGCCCGGCGAGTGTTTGGAGCAAGGTGGAAGGGATCGCCTATGGCGGCGACTACAACCCCGAGCAGTGGCCTCAAAGCGTCCGGCTTGAGGACCTGGAGCTGATGAAGGAAGCCGGCGTTAACTTCCTTAGCGTGGGGATCTTCTCCTGGGCCCTGCTGGAACCGACCGAAGGCACGTACGACTTCGGCTGGCTGGACGAGGTGATGGACAACCTTGCATCCGCGGGCATCAAAGTAGCCCTGGCAACGGCAACCGCGGCTCCCCCGGCCTGGCTGGTGCGCAAGCATCCGGAAATCCTGCCGGTGACGGCTGACGGAACCGTGCTGGGACCGGGATCGCGGCGGCACTACTCGCCGTCGTCGGCTGTTTACAGGCGGTATGCAACGGGCATTACCCGGGTCATCGCGGAGAGGTACAAGGACCACCCGGCGTTGGCGCTGTGGCACGTGGACAATGAGCTGGGCTGTCACGTCAGCGAGTTCTACGGGCCGGAGGACGCCGCCGCCTTCCGGGTCTGGCTGGAGCGCCGGCACGGCAGCATCTCCGCACTCAACGCTGCCTGGGGGACTGCATTCTGGTCGCAGAACTACGCATCGTTTGACGAAATCCTCCCGCCCGGAGCGGCGCCCTCCACCCTTAATCCAGGGCAGCAGTTGGACTTCAAGCGGTTCAGCTCCTGGGCGTTGATGGACTACTACCGTGAGCTCGTGGCGGTCCTGCGGGAGGTCACGCCGGGCATTCCGGCCACCACCAACCTGATGGCATCGAGCGGCTGCAAGTCATTGGACTACTTCGACTGGGCCAAGGACCTGGATGTCATCGCCAACGACCACTACTTGGTGGCCGACGATCCGGAGCGGCACATCGAACTGGCATTCAGCGCGGACCTGACCCGGGGAATTGCGGGCGGTGACCCGTGGATCCTGATGGAACATTCGACGTCGGCCGTTAACTGGCAGCCACGCAACCAGCCCAAGATGCCCGGCGAGATGCTGCGCAATTCCCTGGCCCACGTCGCACGCGGCGCGGACGCCGTGATGTTCTTCCAGTGGCGCCAGAGTTTTGCGGGTTCGGAGAAATTCCATTCGGCCATGGTGCCGCACGCCGGACGCGAAACGCGGGTTTTCCGGGAGGTGGTGGGCCTGGGTGCCGCGCTGAAGCAGCTGGCCTCCGTCCGGGGCTCACGGGTGGAGTCCAAGGTGGCGATCGTGTTCGATTACGAAGCGTGGTGGGCCAGTGAAATCGACTCCAAACCGAGCCAGGACGTTAAGTACCTGGACCTGCTGCGGGCTTTCCACCGCTCACTTTTCCTGCGGGGGATCTCGGCGGACATCGTCCATCCTTCTGCCTCGCTGGAGGGCTACAGCCTGGTTCTTGTCTGCACGCTGTACTCCGTGACTGATGCCGCTGCCGCGAATATTGCGCACGCTGCTCGCGCCGGTGCCACCGTCCTGATCAGCTATTTCAGCGGGATCGCGGATGAGAACGACCACGTCAGGCTGGGCGGCTATCCCGGTGCTTTCCGCGAGCTCCTGGGCGTTCGCGTGGAGGAATTCCACCCGCTGATGCAGGGAGTCCAGCTGAAGTTGAGCGACGGCGGAGTGTCTTCTGTATGGAGCGAACATGTCCAGCTGACAGGGGCCGAGGCCATCCAGACGTTCAGCCAATACCCTTTGGAGAATGTCCCCTCACTGACGCGGAACGCCGTTGGCGACGGCGCTGCCTGGTACTTGGCCACGTTCCCGGACCGTGACGGCATCGAAGCGATCATGGACCGGCTGGTGACTGAATCCGGTGTGGCAGCCGTTGCCTCCGCGGATGCCGGCGTGGAACTGACCCGGCGCCGTTCTGATGACGGCCGGAGTTTCCTGTTCGCAATAAACCACTCACGATCTTCAGCCACGGTGCGCGCCTCCGGAATTGATCTGCTCACTGGAGATCGATTTGAGGGCAGTGTTGAGGGTGGAAGCGTGGCGGTGATCGCGGAGGACTAA	MTLQQTPGPASVWSKVEGIAYGGDYNPEQWPQSVRLEDLELMKEAGVNFLSVGIFSWALLEPTEGTYDFGWLDEVMDNLASAGIKVALATATAAPPAWLVRKHPEILPVTADGTVLGPGSRRHYSPSSAVYRRYATGITRVIAERYKDHPALALWHVDNELGCHVSEFYGPEDAAAFRVWLERRHGSISALNAAWGTAFWSQNYASFDEILPPGAAPSTLNPGQQLDFKRFSSWALMDYYRELVAVLREVTPGIPATTNLMASSGCKSLDYFDWAKDLDVIANDHYLVADDPERHIELAFSADLTRGIAGGDPWILMEHSTSAVNWQPRNQPKMPGEMLRNSLAHVARGADAVMFFQWRQSFAGSEKFHSAMVPHAGRETRVFREVVGLGAALKQLASVRGSRVESKVAIVFDYEAWWASEIDSKPSQDVKYLDLLRAFHRSLFLRGISADIVHPSASLEGYSLVLVCTLYSVTDAAAANIAHAARAGATVLISYFSGIADENDHVRLGGYPGAFRELLGVRVEEFHPLMQGVQLKLSDGGVSSVWSEHVQLTGAEAIQTFSQYPLENVPSLTRNAVGDGAAWYLATFPDRDGIEAIMDRLVTESGVAAVASADAGVELTRRRSDDGRSFLFAINHSRSSATVRASGIDLLTGDRFEGSVEGGSVAVIAED	PGPT0017815_1024	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
D1-29_03831	402			hypothetical protein	ATGGAAGCCATCTGGGAACAGCTTGCGGAGCACGGCGGGGCTGCCGCCGCACTTCCCGGAAGTGGTTACGCGTCCCCGTTCCTCCGGGATCACTCCGCTAAATCTGCTGCCCCCTTAAATGTCGTACCCCCTTGGCAGAGTGGACCTATGGAAGCCATCGGGGAACAGCTTGCGGAGCACGGCGGTACCGCGCTGCTGACACCCGCAGGCACCCCGGCAGCAGCCGTTTCAAATTCAGCTAAGGCGTCCGACGGCGGGGCCAGGCACGGCGGGCCGTCCCACCTTCGTGCCGTCCCGGCCGGAATGGCTGAGACCGCGGCCCTGACTGAAACCGTGGAGCTGGCCGGCCTTGTTTCGCTTCTGACACCCCCCCTGCCGGAGCCTGTCAAGTTATTTGTGTAA	MEAIWEQLAEHGGAAAALPGSGYASPFLRDHSAKSAAPLNVVPPWQSGPMEAIGEQLAEHGGTALLTPAGTPAAAVSNSAKASDGGARHGGPSHLRAVPAGMAETAALTETVELAGLVSLLTPPLPEPVKLFV				NA	NA	NA	NA	NA
D1-29_03832	1377			IS256 family transposase ISAar6	GTGGCTATGACTAGACCCCGTGAGGTGTCCCCGGAGGAGTTGGCCCGCAGGGCTGCGGCGGCCGGCAGCATGGAGGCGTTGAAGGCTTCGGGCGCGTTCGATGAGCTGATGAACCAGATCGATTCCGGACAGCTGGAACTCGACGGCAAGGACGGTTTCATCCAGCAGCTGATCAAGGCCTCGCTGGAACGCGGGCTCCAGGCCGAGCTGTCGGGGCATCTGGGCTATGACAAGGGCGATCCGATCGGGCGTTTCCTGCCTAACGCCCGCAATGGGTCTTATCCGAAGACGCTCGGGACCTCCGCGGGGGACGTGGATCTGGCCGTGCCTCGTGACCGTGCTGGGTCATTCACCCCGCATCTGGTCCCGAAGGGTGCGCGCCGGACAGGTGGCCTGGATGACATGATTATCAGCCTTTACGCCGGCGGGATGACGGTCCGGGACATCGCCCACCATCTGGAATCCACGCTGGGCACGGAGCTGTCCCACGAGACGATTTCCAAGATCACCGATGAGGTCCTGGACGAGGTGATGGAGTGGCAGAAACGCCCACTGGAGCCGCTGTATCCGATCCTGTATCTGGATGCGATCATCATCAAGGTCCGTGACGGGCACCAAGTGCAGAACCGTGCCGCGCACATTGCCGTGGGCGTGGACATGGACGGGATCAAGCACGTTCTGGGGATCTGGGTCGAAGCTACCGAGGGTGCGAAGTTCTGGGCAGGGGTCTGCGCCGAGCTCGCCAACCGCGGCGTGAAGGACGTTCTGATCGTCTGTTGCGACGGGCTCACCGGCTTCCCTGAGGCGATCGCCGCGACCTGGCCGGCCGCGACCGTCCAGACCTGTGTCGTGCACCTGATCCGTGCCTCGATGCGCTTCATCGGCTACCAGGACCGGAAGAAGGTCGCGTCCGCTCTGAGGCCGGTTTACACCGCCCCGACGGCCGACGCCGCGCAGGAGGCACTCGATGCATTCGAGGCCTCCGATCTGGGACGGAAGTATCCCGCAACTGTACGAACCTGGCGCAACGGTTGGGAGAGATTCATCCCCTTCCTGGCGTTCCCACCGCCGGTCAGACGGATTATTTACACCACGAACGCGATCGAGTCGCTGAATTACCAGCTGCGCAAGATCATCAAGAACCGCGGGCATTTCCCCAACGACCAGGCGGCCGTGAAGCTACTCTGGCTGGCGATCTGCAACATCGAGGACAAACGCACCAGTGCCCGGACCAAGCTTGAAGGCAGAGCCCGGGAAAACCGTGCCAAGACGGTGAACAAACTCATCGAGGGAACCTTCACACCTGGATGGAGCGAAGCCCTTGGCGTCCTCCTCCTGAACTATCCCGACAGACTCGGACCTTACCTAAACCGATGA	MAMTRPREVSPEELARRAAAAGSMEALKASGAFDELMNQIDSGQLELDGKDGFIQQLIKASLERGLQAELSGHLGYDKGDPIGRFLPNARNGSYPKTLGTSAGDVDLAVPRDRAGSFTPHLVPKGARRTGGLDDMIISLYAGGMTVRDIAHHLESTLGTELSHETISKITDEVLDEVMEWQKRPLEPLYPILYLDAIIIKVRDGHQVQNRAAHIAVGVDMDGIKHVLGIWVEATEGAKFWAGVCAELANRGVKDVLIVCCDGLTGFPEAIAATWPAATVQTCVVHLIRASMRFIGYQDRKKVASALRPVYTAPTADAAQEALDAFEASDLGRKYPATVRTWRNGWERFIPFLAFPPPVRRIIYTTNAIESLNYQLRKIIKNRGHFPNDQAAVKLLWLAICNIEDKRTSARTKLEGRARENRAKTVNKLIEGTFTPGWSEALGVLLLNYPDRLGPYLNR	PGPT0030665_23	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030665-putative_transposase-K07493	NA	NA
D1-29_03833	1620			hypothetical protein	GTGGAGGCTTCGAACTTCGCCGGCCTGGTCGAAGAGTTCTCTCGGACCGTGGACTACCTGCAAATCCTCTCCGCCGGCGCCGTGGACCGCACCCGGACCCAGGCCATCACCGAAGCCAACACCAGAACCCGCCGCACCAGCGCCAGCACAGCATCAGCCAGCACCGGCACCACCGGCTGGGTCACCGGCCCGGACACCGGAACCGAAACCCTCCCCGAAACCGACGCCGCCTGGCCCGCCACCAGCCCCACAAGCACAAACCCCGAAATGTCAGTGCCGCGGTCCCCGGCCGACGACGGATGCCGGAACACCGCCGAATTCCTCCGCCTCAGACTCAGGATCGGCATCAGCGAGGCCCGCCGCCGGCTCCACCTCGCCCATGACACCCTTCCCGCCACCACCCTCACCGGAGACCCCACACCCCCACCCCGGGAACACCTCGCCACAGCACTGGCACCAGCAACCGGCACCGAAGAAGCCGACACAGAACAAACCGACACCGAGGCGGGACTGGCTGTCACCGGCACCGTGGGCAGCCCGGTGGTGTCCTCCCGGGCCGGGACCATCATCGCCACCACCCTGGACCGGCTCCGGCACCACACCACCCCCCAAACCCTCAGCCGGATCGAACAGCACCTCACCGGCACCGCAGCCACCGCCGACCCCGACTTCCTCACCCGCGTCGCCCGCCGCTGGTCAGACACCATCGACGCCGACGGCACCGAACCCAGCGAAGAAGCCCTCCGCCACACCCAAGGCGCCTTCATCCGCAAACCCCGCCACGGCCTCCACCGCATCGAAATCCTCGCAACCACCGACCAATACGAACACTTCCTCACCGTCATGAACACCGCCACCAACCCCCGCACCCACACAGCCACAGGAACAGCGCAAGGTGACGGTGCAGACGGCGGCGGGGACGGCGGACAAAGGGACGGGAATCAGCAGGTCTGGCAAACCGCGGACCTGGACCGGCGCACCCGCTCCCAAAAACAACTCGACGGCATCATCACCGCCATCAAAGCCGCCCTCACCACCAACACCCTGCCCACCACCGGCGGCAACAGACCCCAAATCCTCGCCACCATCAACTACCAAGACCTCCTCCCCCACCTCCCCCAACCCACCGCAACCCACACCACCACAGGCACGGGCCCCGGCACGGGGACCGGCGCAGAGTCAGGGACCGGGAACTTCACCTTCACCGGACCCGTCGCCGCCACCACCCTGCGCAAAATCGCCTGCGACGCCGACATCATCCCCGCCCTCCTGGGCACCAACAGCGAAATCCTGGACCTCGGCCGCAAAACCCGCCTCTTCACCACCGCCCAACGCCTCGCCCTCACCGCCCGCGACCAAGGCTGCACCTTCCCCAACTGCACCATCCCCGCCCCCTGGTGCGAAGCCCACCACATCACCTACTGGTCACACGGCGGCCCCACCACCACCAACAACGGCACACTCCTCTGCCCACACCACCACCACCTCATCCACAAAGAACAATGGACCATCCACACCCACCACGGCACTCCCTGGTACACACCCCCACCCCACATCGACCCCCACCAAAAACCCCAACAAAACAACTACTTCAAACCACCACCCCCACCACAGGAATAA	MEASNFAGLVEEFSRTVDYLQILSAGAVDRTRTQAITEANTRTRRTSASTASASTGTTGWVTGPDTGTETLPETDAAWPATSPTSTNPEMSVPRSPADDGCRNTAEFLRLRLRIGISEARRRLHLAHDTLPATTLTGDPTPPPREHLATALAPATGTEEADTEQTDTEAGLAVTGTVGSPVVSSRAGTIIATTLDRLRHHTTPQTLSRIEQHLTGTAATADPDFLTRVARRWSDTIDADGTEPSEEALRHTQGAFIRKPRHGLHRIEILATTDQYEHFLTVMNTATNPRTHTATGTAQGDGADGGGDGGQRDGNQQVWQTADLDRRTRSQKQLDGIITAIKAALTTNTLPTTGGNRPQILATINYQDLLPHLPQPTATHTTTGTGPGTGTGAESGTGNFTFTGPVAATTLRKIACDADIIPALLGTNSEILDLGRKTRLFTTAQRLALTARDQGCTFPNCTIPAPWCEAHHITYWSHGGPTTTNNGTLLCPHHHHLIHKEQWTIHTHHGTPWYTPPPHIDPHQKPQQNNYFKPPPPPQE				NA	NA	NA	NA	NA
D1-29_03834	657	tam_2		Trans-aconitate 2-methyltransferase	ATGACCGACACCGAGGTGCAGGCCGCTTATACATCGAGGGCCGCCGAGTACACTGCCAGATTCGGGTCGGCTGAGTCCATGCATCCAGCTGACCGGAAGCTCATAGCCGATTGGGCTGCGACTATCAGAGGGCCGGTGCTGGACATGGGGTGCGGGCCCGGCCAGTGGACCAAGTTCCTTGCTGACCAGGGGGCCGCCGTCGAAGGAATCGATCTGGTGCCGTCATTCATTGAACAAGCAAAGGAACGCTACCCAGGCGTTCCGTTCCGCGTCGCCTCGCTCAGAAATCCTGGAGTGCCGGACGGCTATGCATCCGGCATCTTGGCCTGGTACTCCCTGATCCACTGTGAACCAGACCAGATTGCCTCCGTTCTCCAGGAGCTGGCGCGGCGTCTGGCTCCTGGCGGGCTACTTCTGGTGGGTCTGTTTGAAGGGCAGGAAATCGAGAAGATTCCCCACGCAGTAGCGCCCGCATACTCCTGGCCCGTGGAAGAATTCGCCCGGATGCTTGGAGCGGCCGGCTTCGAAACCCTTGCCCATGAGAGACGAACTGAGCCCGGTCACCGCCCGCATGTCGCAATCAGCGCCCGCCTCAGCCGCTCAAACGTTCCGTCCCGGTCATACCATTCGTCGGAACTAGGACCGACGAAGGCGTAG	MTDTEVQAAYTSRAAEYTARFGSAESMHPADRKLIADWAATIRGPVLDMGCGPGQWTKFLADQGAAVEGIDLVPSFIEQAKERYPGVPFRVASLRNPGVPDGYASGILAWYSLIHCEPDQIASVLQELARRLAPGGLLLVGLFEGQEIEKIPHAVAPAYSWPVEEFARMLGAAGFETLAHERRTEPGHRPHVAISARLSRSNVPSRSYHSSELGPTKA				NA	NA	NA	NA	NA
D1-29_03835	390			hypothetical protein	ATGGTGCGGCTCTCCTTCGATGAGGCTGCCTGGCAGCTGGGCCTTCGCACCATGCCTTTGGAGGCGCAGGTGCAGGCCGAAATTGAGGCAGCACTTCAAGCCCGTCTTGTCGCCCTTGTCGATTCAGGGAAGGACGTGGTCCTCGACTTTTCTTTCTGGTCTTTGAAAATGCGTGAGGAATACCGTTGTCTGCTGAGGCCGCTGGGTGTGGAGCCGGAGACAATCTATCTGGCTACATCCCGGGAGCTGGTTCTGTCCCGAATTCGATCCCGAGTGGCCGCGCATGCGAACGACTTCACTTTAAGTGAGGAGTTGGCAGCCGAGTATTTTGACCACTTCGAGGTTCCTACAGTGAAGGAAGGTCCGCTGAAAGTCATTGCTAGCCCGTAG	MVRLSFDEAAWQLGLRTMPLEAQVQAEIEAALQARLVALVDSGKDVVLDFSFWSLKMREEYRCLLRPLGVEPETIYLATSRELVLSRIRSRVAAHANDFTLSEELAAEYFDHFEVPTVKEGPLKVIASP				NA	NA	NA	NA	NA
D1-29_03836	1374	yesO_6	COG1653	Putative ABC transporter substrate-binding protein YesO	GTGCAGCTTTTTCCCCGCCCTGACTCTGCAAGGCAACGCCAGGCAGAGACATCATCCACCGGAGCAATCCGCCCACGGCGTAAGAGCCCCCTACGTAAGACGGGCGTGGTCGCCGCGGCAGCCGCCGTCGTCCTTGCCCTGAGTGCCTGCGGCGGGGGTGCTGCCCCGCAAAGTGCGGATGGAACCGTTGAGCTCCGCTTCTCGTGGTGGGGCAGCGACAAGCGGGCCCAGCTGACCCAGACGGCCATTGACGCTTTCGAAGCCGAGAATCCGAAGATCAAGATCAAGCCTGAATATGGCGACTGGAGCGGCTATTGGGACAAGCTGGCCACCCAGGTTGCTGCCAATGACGCCCCGGATATTATCCAGATGGATGAAAAGTACATCACGGAATATTCAAGCCGGGGTGCCCTGCTGGACTTGTCCAAGTACGAGATTGATACGTCCAAGCTGGACGAAGCGGCCCTCAATGCCGGAAAGAGCGAGGATGGGCTGACCGGCATCGCAGCTGGCATCAATGCGGCGACGATCATCGCAAACCCTGCCGTCTTCCAGGCTGCTGGTGTGCCGCTTCCGGATGACAAGACGTGGACCTGGGAGGACTTCGAGCGGATCGCCGCGGAGGTCACGGCCAAATCCCCTAAGGGCAGCTACGGCGCTGCAGCGTACGGTACCGATGAAGCTTCGCTGGGCGTCTGGCTCCGTCAGAACGGCAAGTCGCTGTACACCTCGGACGGCAAGCTGGGTTTTGAGCCCAGCGATATCGCCGAGTGGTGGGCCTTCCTGAAGCAGCTCAGCGAGAAAAAGGCAGTTCCCTCAGCGTCCGAGGTTGTGGAGGCAGAGGCTGCACCGCTGGACCAGAGTGGCTTGGCCACAGGCAAGAACGGGCTCGCCTTCTGGTGGTCCAACCAGCTTCCGGCACTTGAGAAGGCAGCAGGCAGCGAACTCCAGATCCTCCGCTTCCCGTCCAAGACCGGGAAAGCCGCGGATACGCAGCTTTGGTACAAGGCATCCCAGTTCTGGTCAGCTTCCTCACGCACCAAGCACCCCGAGGAGACCGCCAAGTTCATCAACTTCCTGGCCAACAGCGAAAAGGCCGGCGAGGCACTGCTGGCGGACCGCGGCGTCTACCCGAACTCCGACGTCCGGGCGGCCATTGAGTCCAAGCTGACCCCCGCCGACATCAAGGTGGTCAAGTTCATTGACCAGATCAAGGAGGAACTGGGTGAGGCCCCCGCTCCGCCGCCGAAGGGTGCCGGAGCCATCCAGGAGATCGTCAAGCGCTACACCTCCGAGGTGCTCTTCAACAGGCTTTCAACCGATGAGGCGGGCAAAAAGGCCCACGACGAAATGAAGTCGGCCATCAGCGGCTAA	MQLFPRPDSARQRQAETSSTGAIRPRRKSPLRKTGVVAAAAAVVLALSACGGGAAPQSADGTVELRFSWWGSDKRAQLTQTAIDAFEAENPKIKIKPEYGDWSGYWDKLATQVAANDAPDIIQMDEKYITEYSSRGALLDLSKYEIDTSKLDEAALNAGKSEDGLTGIAAGINAATIIANPAVFQAAGVPLPDDKTWTWEDFERIAAEVTAKSPKGSYGAAAYGTDEASLGVWLRQNGKSLYTSDGKLGFEPSDIAEWWAFLKQLSEKKAVPSASEVVEAEAAPLDQSGLATGKNGLAFWWSNQLPALEKAAGSELQILRFPSKTGKAADTQLWYKASQFWSASSRTKHPEETAKFINFLANSEKAGEALLADRGVYPNSDVRAAIESKLTPADIKVVKFIDQIKEELGEAPAPPPKGAGAIQEIVKRYTSEVLFNRLSTDEAGKKAHDEMKSAISG	PGPT0016545_2420	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
D1-29_03837	951	ngcG_5	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGACGACTAAGCTTCAGACGCTGCCCGCCCCGGATCAAGAATCTGCCCGCGCCGGTACGCCAACGAACCACCGCAAGCCCAGGAGGCCCCGGGAATCACGCGGGACCCTTGCCTTTAGCCGAGCGGCCCGCTCCAAAGCCCTGATGAAGCATGCCATCCTGATCCTGGCCGGCGGCCTGATGATTTACCCGCTGTTGTGGATGGTGGTTTCCTCGCTTCGGCCCAACGATCTCATCTTCCGGGAGCCCGGCCTCTGGCTCAACAGCCTGGAGATGAGCAACTACACCGATGGCTGGTCCGCACTGACCCATCCCTTTGGGCACTACATGCTGAACTCCGCCATAGTGGTGGTTGGGTCCATCCTCGGAAACCTGATTTCATGCTCCATGGCGGCCTATGCCTTCGCCCGCCTGCAGTTCACCGGCAAGAAGCTGTTCTTCGGCATCATGCTGCTGACCATCATGCTGCCGTTCCACGTGGTGATTGTGCCGCAGTACATCCTGTTCTCGCAGATCGGCTGGGTGAACACCTTCTGGCCGCTCCTGGTGCCCAAGCTACTGGCCACCGACGCGTTCTTCATCTTCCTGATGGTCCAGTTCATCCGCGGCATCCCCAAGGATCTGGATGAGGCCGCAAGGATCGACGGCGCCGGCCACCCCCGCATCTTCCTGCGGGTTATCCTGCCGCTGATGGTTCCGGCCCTGGCCACTACCACCATCTTCACCTTCATTTGGACCTGGAACGACTTCTTCGGGGCCCTCATCTACCTGACGGATCCGGACATGTTCACGGTTCCGGTGGCGCTGCGGGCCTTTGTGGACTCACAGTCCGCCACCAGTTGGGGATCGCTGTTTGCGATGTCCATCGTGTCGCTCCTGCCGGTGTTCCTGGTGTTTCTCTTTGGCCAGCGGTTCCTCATCAAGGGCATCGCCACCACCGGCATCAAATAG	MTTKLQTLPAPDQESARAGTPTNHRKPRRPRESRGTLAFSRAARSKALMKHAILILAGGLMIYPLLWMVVSSLRPNDLIFREPGLWLNSLEMSNYTDGWSALTHPFGHYMLNSAIVVVGSILGNLISCSMAAYAFARLQFTGKKLFFGIMLLTIMLPFHVVIVPQYILFSQIGWVNTFWPLLVPKLLATDAFFIFLMVQFIRGIPKDLDEAARIDGAGHPRIFLRVILPLMVPALATTTIFTFIWTWNDFFGALIYLTDPDMFTVPVALRAFVDSQSATSWGSLFAMSIVSLLPVFLVFLFGQRFLIKGIATTGIK	PGPT0016540_776	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
D1-29_03838	945	lacF_12		Lactose transport system permease protein LacF	ATGAGCGCCATCAGCGAATTAAGCTCCCTGGCCAAGCGCAAGGGACCCGTAACGGCCGAAGAGAAGAAGGCAAACGGCCGCGATAACAAGGCCGCATACATCTTCCTCCTGCCGTGGTTGGTGGGCCTGGTGGCCATCACCATCGGACCCATGCTGATGTCGCTGTATCTCTCCTTCACGGACTACAACCTGCTGCAGCCGCCGGAATGGACCGGGCTGGACAACTTCATCCGCATGTTCAGCGATGCCCGCCTGCATAACTCGCTGGGTGTGACCTTCACTTACGTCCTGGTGGGTGTGCCGCTCCAGCTTGCTGTGGCGCTGCTGATCGCGCTGGTGCTGGACAAGGGCCTCCGCGGCCTTCCGTTCTACCGGTCGGTGTTCTACCTGCCATCGCTCCTCGGTGGTTCGGTGGCTGTGGCCATCCTCTGGAAGCAGATTTTTGGAACCACCGGCCTGGTGAACCAAGCCCTGGCAATGTTCGGGGTCCAGGGGCCGGGGTGGATTTCCGATCCCAGCACCGCCCTGAGTTCCATCATCCTGCTGCACGTATGGACCTTTGGTGCTCCCATGATTATCTTCCTGGCCGGCCTCCGGCAGATTCCCGTGATGTACTACGAGGCAGCGAGGGTGGACGGCGCCGGCACGCTCCAGCAGTTCTGGCGGATCACCCTGCCCATGCTGAGCCCCATCATCTTCTTCAACCTGGTGCTCCAGATCATCGGGTCATTCCAGTCCTTCACGCAGGCGTTCATCGTCTCGGGCGGCAACGGCGGCCCCTCCGACTCCACGATGTTCTTCACCCTGTACCTGTACCAGAAGGGCTTTGGCCAGTTCGACATGGGCTACGCCTCCGCCATGGCGTGGTTCCTGCTGGTCATCATCGGTGTGTTTACCGCCATCAACTTCATCGCCGCAAAGTATTGGGTTTTCTATGACGACTAA	MSAISELSSLAKRKGPVTAEEKKANGRDNKAAYIFLLPWLVGLVAITIGPMLMSLYLSFTDYNLLQPPEWTGLDNFIRMFSDARLHNSLGVTFTYVLVGVPLQLAVALLIALVLDKGLRGLPFYRSVFYLPSLLGGSVAVAILWKQIFGTTGLVNQALAMFGVQGPGWISDPSTALSSIILLHVWTFGAPMIIFLAGLRQIPVMYYEAARVDGAGTLQQFWRITLPMLSPIIFFNLVLQIIGSFQSFTQAFIVSGGNGGPSDSTMFFTLYLYQKGFGQFDMGYASAMAWFLLVIIGVFTAINFIAAKYWVFYDD	PGPT0016535_3099	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
D1-29_03839	1167			hypothetical protein	GTGAGCATCCAACCCGAGCCCGTCCGGCCAAGCGCCATCGCCGGCTACGAAGACTGGCCTGCGTACGTTCGGGACAGTCCCCGCTACCGGGCTGCCAGCCCGCAATCCCAGGAACTCTCGGACGCCCTCGGCGTGCCGGGCGCTTCCCCCACACCGGATGTCACCACAGATTGGGAGCAAACGTACGACGGCGTCACCACCTCCCAGCTCAGCTGGCAGTTGGGATTCGGTCCCCGCACCATTGGCTGGCTTCTGCGTCCGGCCGGAAGCATCGGACCGCTGCCCGGAGTCCTGGCGATGCATTGCCATGGCGGGAACAAGTTCGGCGGGGCCGACAGGCTGGTGGACCTGCCGGATCCCCACCCCTCGGCAAAGGCAGCCCGCGCCGCCCTCTATGACGGCCATTCACTGGCGACAGACATGGCCCGCGCTGGCTTCGCCGTCCTGGCCCACGACGCCTTCGCCTGGGGCAGCCGCTGCTTTGACCTCTCCGTCCCTCCGTGGCGGACGGCCGCCGCGCTGGAGGCGAGGATGTCGCAGTGGCGGCAGGACGGCGTCGTACCTTCCGACGCTGACCTGTACAACGCTGCCGCGGGAATCCATGAGGACACCGTGGCGAAGGCCGCGGGCCTGCTGGGCACAAGCTTTGCCGGCATGGTGGCGCACGATGACCTTGCGGCACTGGAGATCCTTGCAGGGCTGCCGGGGGTGGACTCGGAGCGCCTGGGCTGCATCGGCTTCTCCGGCGGCGGTGGGCGCGCACTGACGCTGGCAGCCCTCAGCCCACGGATCCGGAACTATGTGGTGACGTGCATGATGGCCACGTTCCAGTCGCTGATGCCGGCCTACCTGGATGCGCATTCCTGGCTGCTCCAGACGCCCGGGATCTGGAAACTCGGCGATTGGCCTGAGCTGACCGAGAGGTCGGCTGCCAACGGATTTCTGGTGCAGTATGCGCTGAACGACGAACTGCTTCCGGAAGCGGGCATGCGAGACGCCCACAAGATCCTGGAGTTCCTGCACTCCCCCGGTTACCGAGGCAGCTGGTGGCCGGGCCAGCACGTCTTCACCGCTGAGATGCAAAACGAGGCCATCAATTATCTCGCCGATGCCCTGGGTGCCCAGAGTTCTTCCGGCCCCAATCGTCCAACCGTGCCCACCTTCTAG	MSIQPEPVRPSAIAGYEDWPAYVRDSPRYRAASPQSQELSDALGVPGASPTPDVTTDWEQTYDGVTTSQLSWQLGFGPRTIGWLLRPAGSIGPLPGVLAMHCHGGNKFGGADRLVDLPDPHPSAKAARAALYDGHSLATDMARAGFAVLAHDAFAWGSRCFDLSVPPWRTAAALEARMSQWRQDGVVPSDADLYNAAAGIHEDTVAKAAGLLGTSFAGMVAHDDLAALEILAGLPGVDSERLGCIGFSGGGGRALTLAALSPRIRNYVVTCMMATFQSLMPAYLDAHSWLLQTPGIWKLGDWPELTERSAANGFLVQYALNDELLPEAGMRDAHKILEFLHSPGYRGSWWPGQHVFTAEMQNEAINYLADALGAQSSSGPNRPTVPTF				NA	NA	NA	NA	NA
D1-29_03840	2112	iolG_12		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACGCAGCAACCCGCCCCCACGGCACCAGGTATTTCTGAAGCGGCAGGCGAAGCCACCGTCCCGGAAGCCCGCCCCCGCATAGCCTTAGTGGGCGTGCATGGCTTCGGCGAACGGCACCTTGCGAACCTGGCGCGGCTTGAGGAGTCCGGCGCTTTGGAACTGGTGGCCGTGGCGGACCCGAATCCGCCCCAGCCGGGACGGCTCGCCGAATCGGTAGCGGTTTTCAACACCCTGGACCAGCTGCTGGCCGCCGGCCCGGTCCCTGACGTGGTCATCCTTGCCACTCCGATCCAGACCCACGCACCTTTGGCGCTGGCAGCCCTGGCAGCGGGAGCGGACGTTTACGTGGAGAAGCCGCCGGTGGCCTCCATGGCCCAGTTTCAGGAAGTCCTGGCCGCGGCGGAAATCTCCGGACGGCTGGTCCAGGTGGGCTTCCAGAGCCTCGGGTCCCAGGCCCTGCCGGCTATCCGGGACGCCATTGAGTCCGGTGCGGTCGGCCAGGTGCTCGGCTTCAGCGCCACCGGAATGTGGCAGCGGAGCAAAGGCTATTTCAAGCGCTCACGCTGGGCTGGCAAGCGAAGCCTGGACGGGGTGGACGTGGTGGACGGCGTGGCAACCAATGCGCTGGCTCACGCGGTAGCCACCGCGCTCAGCATGGCCGGCGCCCACACCGTGGCGGACGTGGCATCGGTGGAGACGGACCTCTACCGCGCCAACGGGACCCAAAGCGATGACACGTCCGTCCTCCGCGTCCGCACCATCGCCGGACAAACCCTGCTCTGCGCCCTCACGCTCTGCGCGCCGGAACAGCAGAATCCGTCCGTTACCGTCCACGGGACCCTGGGCGAGATCACCTTCTTCTACACCGAGGACGAGCTGGTGATCACCACATCGGCCGGGGAACGCCGTGAAACTTTCGGCCGGACCGACCTGCTGGAGAACCTGCTCGAAGCCCGGAACTCCGGAACACCGCTGCTTTGCTCCCTTCCGGACACCGGTGCGTTCACTTCCGTACTCGAGGCCATCCGCACGTCGCCTGATCCGCAGGAGATCGGCCCGGAATACGTCACATGGGAGGGCGAAGGGGACGAGGCCCATCCCGTGGTCCACGGCATTGCAGCATTGATGGAACGCGCCGTCAAGGCCCAGGCCACCTTTGCAGAGCTGGGTGTCCCGTGGGCCCGCAGGCTGCCGCCGGCCCACACCTTCAGCATCGGCAGACAGCCAGTGGCCGACTACCAGGACGGGAGCCACATCCGGGTTGTTTCTTCACCCCGGCCGTACCTGCACCCGGTCCGGACTCTCGCCGGAACTGTAGTGACCGACCATCAGCCCCTGGACCATGTCTGGCACCTGGGCGTTGGAGTGGCCCTCCAGGATGTGGATGGCGTGAATTTCTGGGGTGGCCGCACCTATACCCGCGCCGCCGGTGAATACATCTGGCGCCCGGACCATGGCCGGATCGAGCGCACGGCGGCTGCCGAGTCGGAGGGCCGGCTGAGCGAGACGCTCTCCTGGAACGGACCCGACGGCCACCCGATCCTCAACGAGCAGCGCACCTGGACGTGGGACGCTGTGAGCCCCTCCGTCTGGCGCCTGGCGTTGGATTTTGCGCTGTCCCCCGCCGGCAATCAACCGGTGAGCCTGGGCAGCCCCGGTTCAAACGGCCGCCACCAGGGCGGTTACGGCGGCTTCTTCTGGAGGCTTCCCCAATGTACCGGGGCCATTGTGTGGACCCCTACGGCTTCCGGCGAGGCCGCCGTCCACGGGAGTGTGGCGCCATGGCTGGCCTGGTCCGGAACCTTTGATGCAGGAGGATTTAGCAGCGGAACGGCCGACGGCGGGACGGCCGACGGTGGATTGGCGGCCGACGGTGGCACTGACCGGAGCGCCACCCTGGTGTTCGTTGCCCAGGAAGGTTCCACGGATCCGTGGTTCGTCCGGGTGGACGGATACCCGGGTGTGGGCCAGTCGCTCGCCTGGGATGCCCAGGTCATCGCCGAATCCGGTGGTGCCGTTCGCCGCGGAGTCACTGTGTTCATAGCTGACGGGATCCTCGCTGCGGCAGACATCGAGGCATTGATCAACAAACAGGGGGAAAAACGATGA	MTQQPAPTAPGISEAAGEATVPEARPRIALVGVHGFGERHLANLARLEESGALELVAVADPNPPQPGRLAESVAVFNTLDQLLAAGPVPDVVILATPIQTHAPLALAALAAGADVYVEKPPVASMAQFQEVLAAAEISGRLVQVGFQSLGSQALPAIRDAIESGAVGQVLGFSATGMWQRSKGYFKRSRWAGKRSLDGVDVVDGVATNALAHAVATALSMAGAHTVADVASVETDLYRANGTQSDDTSVLRVRTIAGQTLLCALTLCAPEQQNPSVTVHGTLGEITFFYTEDELVITTSAGERRETFGRTDLLENLLEARNSGTPLLCSLPDTGAFTSVLEAIRTSPDPQEIGPEYVTWEGEGDEAHPVVHGIAALMERAVKAQATFAELGVPWARRLPPAHTFSIGRQPVADYQDGSHIRVVSSPRPYLHPVRTLAGTVVTDHQPLDHVWHLGVGVALQDVDGVNFWGGRTYTRAAGEYIWRPDHGRIERTAAAESEGRLSETLSWNGPDGHPILNEQRTWTWDAVSPSVWRLALDFALSPAGNQPVSLGSPGSNGRHQGGYGGFFWRLPQCTGAIVWTPTASGEAAVHGSVAPWLAWSGTFDAGGFSSGTADGGTADGGLAADGGTDRSATLVFVAQEGSTDPWFVRVDGYPGVGQSLAWDAQVIAESGGAVRRGVTVFIADGILAAADIEALINKQGEKR				NA	NA	NA	NA	NA
D1-29_03841	1194			hypothetical protein	ATGAGCCAGACAGCCACCGAAGCAACGGCCACCCGGGTGGTGCCGGCACAGGATCCGAACCGGTCACCAAATGTGACCGGACGGGTTGCGCCGGCGTCGCCGGAAGACCGGGCCGTCAAACGGCGCCGTGTCCTGGATATCCTTGACTCCACGGGCCGTGACTCGCTGCTGCTGACCAGCCACACGGCGCTGACCTGGTACCTGGACGGAAGCCGGGTGCACATCAGCCTGGCAGGGGACCCGATCGCTGCGTTGCTGGTGGACCGCGAGGGCGATCACCTGGTGACGTTCAACAACGAGGCCGGACGAATAGCCGCCGAGGAGCTGCCTGCCGGCGTCACCCTTCACTCCGTGCCGTGGTACGGCAACCTGCACGAGGCTGCTGCCGCCGTCGGCCTCAAAACCGGTTCCACACGTTCTACTGCCAACCTCTCGGCTCCACACGAAGGGCCGCTGGCGGAAGCCGCCGTCGCCGATAAGCTCAGGGCGGCACGCCAGCAGTTGCTGCCGGCTGAAAGCGCACGTTATGCCCAGCTCAGCGCGGAACTGGCAGGCATCATGACCGATGTCCTTTCCACAGCGAAGCCTGACACCACAGAGTTCGAGCTCGTGTCGGCACTCGCCGGCCGCGTGGTAGCCGCGGGCGCCGAGCCGCTGGTGCTTTTGTGCAACGGCAGCTCACGCAGTGGCTTCCGCCATCCCCTGGCCACACACTCCCCGCTGGGCCGCCGCGCCATGGCCGTGGTGTGTGCCCGCCGGGACGGGCTGGTCTCCAACATCACCCGCTGGGTGAGATTCGACGCCGGCACTCCCGGAGAGTTGGATGCGGAGGCCCGGATTGCGGCCGTGGAAGCCGACGTCTTTGACGCCACTGTCCCTGGCGCACGGCTGGACCGGATCTTCACCGAAATCAAGGCCGCCTACCTCCGGCACGGGTTTGGGGCGGACCAGTGGGAGAACCACCACCAGGGCGGTCCTGCCGGTTATGCGGGACGCGATCCAAGGGTCACCGGTGCAGCCACCGATACCGTCGTGCTGAACCAGACGTTCACCTGGAACCCGTCCGGCCCCGGCGTCAAGATCGAGGACACTATCCAGCTCACCGAGTCAGGCATTCAGGTACTCACCCTCGACGAACGCTGGCCTGCAACCCTCGTGAACGGAATCCGCCGGCCCCTGACCCTTCAGCTCTGA	MSQTATEATATRVVPAQDPNRSPNVTGRVAPASPEDRAVKRRRVLDILDSTGRDSLLLTSHTALTWYLDGSRVHISLAGDPIAALLVDREGDHLVTFNNEAGRIAAEELPAGVTLHSVPWYGNLHEAAAAVGLKTGSTRSTANLSAPHEGPLAEAAVADKLRAARQQLLPAESARYAQLSAELAGIMTDVLSTAKPDTTEFELVSALAGRVVAAGAEPLVLLCNGSSRSGFRHPLATHSPLGRRAMAVVCARRDGLVSNITRWVRFDAGTPGELDAEARIAAVEADVFDATVPGARLDRIFTEIKAAYLRHGFGADQWENHHQGGPAGYAGRDPRVTGAATDTVVLNQTFTWNPSGPGVKIEDTIQLTESGIQVLTLDERWPATLVNGIRRPLTLQL				NA	NA	NA	NA	NA
D1-29_03842	2385			hypothetical protein	ATGCCATCAGAAACTATCATTACCCCAGCCAGCAAACTCCGAAGATCCCTGACTGCAGGGCTCCGTTGGGACCTTCCGGCGTCACTCGTGGTTTTCCTTGTGGCAGTACCCCTGTCCCTCGGAATAGCCGCTGCATCCGGCGCCCCGGTTATGGCCGGCCTGATTGCCGCGGCCGTGGGAGGAATCGTGGCAGGAAGCCTCGGTGGTTCAGCTCTTCAGGTCAGCGGACCCGCCGCCGGGCTGACTGTCATTGTGGCCGGACTGATCGAACAGTTCGGCTGGCAGACAACCTGTGCCATCACCGCCGCAGCCGGGGTGCTTCAGGCGTTGCTTGGCGCGGCCAGGATCGGCCGGGTGGCGCTGGCCATCGCCCCGGTGGTGGTGCATGCCATGCTGGCCGGCATCGGCATCACCATCGTGCTGCAGCAACTTCACGTGATGTTTGGTTCGGCATCCGCCAGCTCCGCCTGGGAGAACATCACCGCCATCCCGGCAAGCATCTTCTCCGTGGACATCGCCGCAGCGCTTCTCGGGGCCGTTGTCATTGTGGTGCTCGTCGCGTGGAAGCACCTTCCCTCCGCCGTCCGCCGGATTCCGGGGCCGCTGGTTGCTGTCATCGCAGCAACCGTCCTCTCCCTGCCTTTCACGGTGGACAGAATCACGTTCGACGGCTCGCTTTTGGATGCCCTCTCCTTCCCCCAGCTGCCCGACGGGAACTGGACAGCCGCAGTCATCGGCGTGCTCACCATCGCACTGATTGCCAGCGTTGAGTCCCTGCTGTCGGCGGTGGCAGTGGACAAGATGCACCATGGACAGCGGACCAATTTCAACCGGGAGCTCGTGGGCCAGGGCGCAGCCAACCTGACTTCCGGGCTGCTGGGCGGGCTTCCGGTGACGGGCGTCATCGTGCGCAGCGCCACCAATGTTGAGGCCGGCGCCCGGACACGGAAATCAGCGGTGCTCCACGGTGTGTGGGTGCTGGTCTTTTCGCTGCTGCTGGCGGGCCTGATCCAGCTGATTCCGGAAGGTGTGCTCGCAGGCCTGCTGATCGTGATCGGCTCCCGGCTGGTCCGCGGCGCCGACATCCGGACAGCCCGGCGGACCGGCGATCTTACGGTCTACGGCGTCACACTGTTCTGTGTTGTTTTCGTCAACCTGCTTGCCGGCGTATTTGCCGGCCTGCTTCTCGCGGTGGGACTTGTCCTCTGGCGGGTTGTACGCGCGAGCATCCATGCAGAGCCGCTTGCTGACCACATCAGCAGCGGATCCACTGCCAGCTCCGGGGACGGGGACCGTTGGCGGGTGGTCATCGACGGATCGTGCAGTTTCCTTTCCCTCCCCCGCTTGAGCACCGTCCTGGCCTCCGTGCCGGCAGGCACGCACGTCACGGTGGAACTGGAGGTGGACTTCCTCGATCACCCGGTTCACGACACCCTGGACGCGTGGCGGAACCGGCATGTGGGGAACGGCGGCACGGTGGTAATCGAGGAGAGTGGAACCGCCACGCTCCATGGCGCCCAGGCCGGTCCGCCCAGCCGCGGCAGCTCACGCTCGGCGCTTCGGGGCGGGTTTGCCCCGTGGCGCAGCTGGCAGCAGCGGATCCTGGCCGGGCATGCTGCAGCAGCCCCTGACGTTCCGGGCCCCCTGCGTTCCATTCTCTCCGGCGTGGACAACTACCACCGGCGCAACGCCCACCTTGTCCGGCCGCATGTCCAGGAGCTGGCCTCGTTCCAGGATCCCAACACATTGTTCCTGACCTGCTCGGACTCCCGCCTGGTGCCGAACCTGATCACCAGCAGCGGTCCCGGAGACCTCTTCACTGTCCGGAATGTGGGCAACGTGGTGGGCAGCAAATGGCTGGATTCCTCTGTTGAAGCCGCCCTGGACTTTGCGCTCAACAAGCTGTCGGTGGAATCAGTAGTGGTGTGCGGCCATTCGGGTTGCGGTGCCATGACCGCGCTGAGTGATGACCCACGGCCCACTGAGGCTTACGACGGCGGCCTGCAGGGCTCCGCACGGGAAGGCACCTCCAGTGCGGCAACTGCCGCCGGGGAGCGGGGCGCTGTTGACGTCTGGCTTGACCACGCCAGGCCCAGCCTTGGCGCGTTCCGCGGCGGGCATCCCGTCCAGGTGGCTGCAGCCGAAGCCGGGTACGACGCCGTCGACCAACTGGCGATGGTCAACGTCGCGGTGCAGCTGGACCGGCTCAACCGGCAGCCCGGCCTCCGGGAGGCGCTGCACGCGGGACGGGTACATGTGGCCGGGCTGTTTTACGACATTTCCACGGCACAGGTCCTTCGGATCACTTCCACCGGCATCAGCCACCTTGATCCGCTGCCGTCCCAGTCCCTGGAGACCATGGAGGAAGAACAGCCTGTCCACTAG	MPSETIITPASKLRRSLTAGLRWDLPASLVVFLVAVPLSLGIAAASGAPVMAGLIAAAVGGIVAGSLGGSALQVSGPAAGLTVIVAGLIEQFGWQTTCAITAAAGVLQALLGAARIGRVALAIAPVVVHAMLAGIGITIVLQQLHVMFGSASASSAWENITAIPASIFSVDIAAALLGAVVIVVLVAWKHLPSAVRRIPGPLVAVIAATVLSLPFTVDRITFDGSLLDALSFPQLPDGNWTAAVIGVLTIALIASVESLLSAVAVDKMHHGQRTNFNRELVGQGAANLTSGLLGGLPVTGVIVRSATNVEAGARTRKSAVLHGVWVLVFSLLLAGLIQLIPEGVLAGLLIVIGSRLVRGADIRTARRTGDLTVYGVTLFCVVFVNLLAGVFAGLLLAVGLVLWRVVRASIHAEPLADHISSGSTASSGDGDRWRVVIDGSCSFLSLPRLSTVLASVPAGTHVTVELEVDFLDHPVHDTLDAWRNRHVGNGGTVVIEESGTATLHGAQAGPPSRGSSRSALRGGFAPWRSWQQRILAGHAAAAPDVPGPLRSILSGVDNYHRRNAHLVRPHVQELASFQDPNTLFLTCSDSRLVPNLITSSGPGDLFTVRNVGNVVGSKWLDSSVEAALDFALNKLSVESVVVCGHSGCGAMTALSDDPRPTEAYDGGLQGSAREGTSSAATAAGERGAVDVWLDHARPSLGAFRGGHPVQVAAAEAGYDAVDQLAMVNVAVQLDRLNRQPGLREALHAGRVHVAGLFYDISTAQVLRITSTGISHLDPLPSQSLETMEEEQPVH	PGPT0002415_81	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
D1-29_03843	1452	aldH		NADP-dependent fatty aldehyde dehydrogenase	GTGACAACTGCAACCCTTTCCCTGTCCGAACTCACCGCCGCGGCCACCCGGGCCGCGCAGATATCGGCAGCGTCAACGGATGCCGAACGCGCGGCCTGGCTGACGGCCGTTGCAGACGCGCTTGACGCCAACGTGGCCGAACTCGTGGACATCGCCCACTCCGAGACAAGCCTGGGATCCGTGCGCCTGACCGGTGAAGTGGGCCGCACCTCCGGCCAGCTGCGCCTCTTTGCCCGGGTGATCACTGAGGGGTCCTATCTCGAAGCAATCATTGACCATGCTGACGCTGCCGCCACTCCGCCGAAGCCTGACCTGCGGCGCCTGCTGCGGCCCATCGGGCCGGTGGCGGTGTTCTCGGCCTCCAACTTCCCTTTCGCCTTCTCCGTGGCCGGCGGCGACACAGCATCCGCGCTGGCCGTTGGATGTTCGGTTATTGTCAAGGCCCACTCCGGGCACCTGAAGCTGTCTGAACGGACCGCTGAGATTATGGCAGCGGCCTTACACTCGGCCGGCGCCCCGGAGGGCATCTTCGCCCTGGTCAGCGGCCGCGAGGTTGGCACCGCCCTGGTGCAGGACCCCGCCATCAGGGCTGTCGGCTTCACGGGCTCCATCCCCGGTGGCCGCGCACTGTTTGACCTGGCCGTTTCCCGGCCCGATCCCATCCCCTTCTACGGCGAACTCGGCAGCCTGAACCCCGTGGTCATCACCAGTGCGGCCATGGCTGAGAAGTCCGCCGAACTCGCCGCCGGATTGGCAGGGTCCTTCACCATGGGCGCAGGCCAGTTCTGCACCAAGCCGGGTCTGGTGTTTATCCCCAGCGGCACCGGTTTTGCCGCTGATTTGGCAGCGGCAACCAAAGACAAGCCGACGTCGGCCATGCTCACCGGCCGCATCGCTGACGCCTACCCGGACGGCCTGCGCAGCGTGGCTTCCGTCCCCGGCGTGGCTGTAGTCAGTGGCAGGGTGCAGCAGGACGCCAGCCAGGACGGTGCGGCGCCGGTGGTTTTCTCCACCTCCGCCGCCAATGTCCTGGAACGCCCGGACGAGTTACTGGAGGAGTGCTTCGGTCCCACCACCCTTTTGATCGAATATACGGACCGGGATGAGCTCGCCGCTGCCCTGGCCAAGGTCCCGGGCAGTCTTACCGCCACCGTTCATGCGCTTCCCGGCGAGGACGTTTCAGGTCTCGTTGAGCAGCTGTCCGGCCTTGCCGGCCGGGTGCTGTTCGATGGCTGGCCCACCGGGGTCGCCGTCAACTGGGCCCAGCAGCACGGCGGACCCTACCCGGCCACCACCTCACTGTTCACCTCGGTGGGAGCGACGGCGGTGCGCCGGTTCCAGCGGCCGGTGGCCTACCAGGACGCTCCGGAAGCCGTCCTGCATCCGGCTCTCCGGGAGAGCAATCCGCTGGGAATCCCTCGCCGTGTTGATGACGAGCTGGTGCTGCCCTAG	MTTATLSLSELTAAATRAAQISAASTDAERAAWLTAVADALDANVAELVDIAHSETSLGSVRLTGEVGRTSGQLRLFARVITEGSYLEAIIDHADAAATPPKPDLRRLLRPIGPVAVFSASNFPFAFSVAGGDTASALAVGCSVIVKAHSGHLKLSERTAEIMAAALHSAGAPEGIFALVSGREVGTALVQDPAIRAVGFTGSIPGGRALFDLAVSRPDPIPFYGELGSLNPVVITSAAMAEKSAELAAGLAGSFTMGAGQFCTKPGLVFIPSGTGFAADLAAATKDKPTSAMLTGRIADAYPDGLRSVASVPGVAVVSGRVQQDASQDGAAPVVFSTSAANVLERPDELLEECFGPTTLLIEYTDRDELAAALAKVPGSLTATVHALPGEDVSGLVEQLSGLAGRVLFDGWPTGVAVNWAQQHGGPYPATTSLFTSVGATAVRRFQRPVAYQDAPEAVLHPALRESNPLGIPRRVDDELVLP	PGPT0006195_154	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CAPROLACTAM|DERIVATE_DEGRADATION	XENOBIOTIC_ADIPATE_DEGRADATION,PGPT0006195-aldH-K14519	NA	NA
D1-29_03844	1104	Vejaci	COG4948	3,6-anhydro-alpha-L-galactonate cycloisomerase	ATGACCACGTCCGTCGCCGAAGCCGTCCGGACAGCACCGCGCATCACCGGCCTTTCCACCCGGTTACTGACCGTCCCGCTGCGGCGCAGTTGGGGTGCGGAGGCGCCGGAAAACCATGTGATCGTCACGGACATCCAAACGGACGACGGCGGCGCGGGCCACGGTTTTTCGTGGACGCCCACCATCGGCCCGCATGCCGTCAAAGCACTCCTCGACTACGACATCGCCCCTTTCGTTACCGGGCTGCCCGCCAACCCTGAGACGGTGTGGGACGCATTGTGGAAGCGCCTGCATGAGGCCGGGGGCGGGGGACTGACCACCATCGCCATGGCGGGCGTGGACCTTGCCCTCTGGGACCTGCAGGCTCACAGGGCGAACACCTCCGTGACAGGGCTCCTGGGCCAGCGGCAGGAGTCTGCAGAGGTGTATGGCTCGGGCGTAAACCTGCACTACACCCTTGAAGAGCTGGTGGCCCAGGTTGAGCGCTGGATCAGCGCGGGGCACCAGGCCGTAAAGATCAAGGTGGGCAAGCCCGACATCCGGGAGGACGCCGAGCGGGTGGCCGCCGTCCGTTCCGTGCTGGGGCCCGGCCGCAAGCTGATGGTCGATGCGAACCAGCGCTGGGACCTGCCCGCCACCTTTAGAGCGTTGGAAGTCCTCGTAGAATATGGGCTGGAATGGCTCGAAGAACCCATCCGAGCGGACGATCTCTGGGCCTACCGCAGGCTCCGCAAACATTCGCCCGTGCCCATCGCCCTGGGCGAAAACCTGCACACCATCTACCGCTTCCGGGATTTCATAGCAGCCGAAGCCGTAGACATCATTCAGCCAAACATCATCCGGGTAGGCGGCATCACCCCGTTCCGGCGGATTGTTGAACTGGCACGGACCAACAGCATCCGGGTGATGCCGCACTTGCTGCCCGAGCTCTCCGGCCAGCTTGCCCTGACCCTGGCCGAACCCACCCTGGTTGAGGATGTCGAAGACGCCTCGTTCGAGCAGTTGGGCATCCTGGCAGCGCCCTCTCCGGTCCGCTTCAGCAACAGCCGCGTAACGCTCACGGACCAGCCGGGCCTGGGCTTCCGCTTCCGGGACGAACTTTAA	MTTSVAEAVRTAPRITGLSTRLLTVPLRRSWGAEAPENHVIVTDIQTDDGGAGHGFSWTPTIGPHAVKALLDYDIAPFVTGLPANPETVWDALWKRLHEAGGGGLTTIAMAGVDLALWDLQAHRANTSVTGLLGQRQESAEVYGSGVNLHYTLEELVAQVERWISAGHQAVKIKVGKPDIREDAERVAAVRSVLGPGRKLMVDANQRWDLPATFRALEVLVEYGLEWLEEPIRADDLWAYRRLRKHSPVPIALGENLHTIYRFRDFIAAEAVDIIQPNIIRVGGITPFRRIVELARTNSIRVMPHLLPELSGQLALTLAEPTLVEDVEDASFEQLGILAAPSPVRFSNSRVTLTDQPGLGFRFRDEL				NA	NA	NA	NA	NA
D1-29_03845	906		COG0329	putative 5-dehydro-4-deoxyglucarate dehydratase	ATGAAATTCGACGGCGTACTGTTTTTCCCCGTCACCCCGTTCACGCCTGAAGGCGGCGTCGACGTCGGGCTGCTCAAGGAGCACATCAGCTCCCGCCTGCCTTTCGGCCCCGGCGGCGTCTTCCCGGCCTGCGGGACGGGCGAGTTCCATGCCCTGAGCATCGAAGAGGTGCGCACAGTAGTGACAGCCGCCGTCGAGGTTGTGGCCGGCAAGGTGCCCGTGGTTGCCGGAGCAGGAGGCCCCCTGGGCCACGCGATCGCTGCCGCCCGCGCTGCCGAAGAAGCGGGCGCCGACGCGCTCCTGGTCCTGCCGCCGTACCTTGTCACCGGCCCCACAGAGGGCCTGGTGGCCTACATCGAGGCCGTGGCGGACGCCAGCAGCCTCCCCGTGATCGTCTATCACCGCGGCAACGCCAGGTTCACCGCCGCCTCCATGACCAGGCTCGCGGGCAACCCCAAGGTCATCGGCTTCAAGGACGGCCTGGGCGATGTTGGCCTGGCGCAGGAGATCGTCACCGCGGTCCGCGCCACCGGCCGCGAAGACTTTGCCCTGTTCAACGGCCTGCTGACCGCCGAACTGACGCAGGGCGCCTACCGGGGACTCGGCATCCCGCTGTACTCTTCCGCCGCGTTCGCCATGGCTCCGGAGATCGCCAAGGCCTACTACGACGCTTACATGTCAGGGGACGAGGACCGCCGCAATGCCCTGCTGGAAGGCTTCTACGCTCCGCTGGTTCGGCTCCGCGACCAGACCCCCGGCTTTGGTGTTTCGCTGATCAAGGCCGGGCTCCGGCTGGGCGGGCTGGCTGTTGGCTCCGTCCGTCCGCCGCTGGTGGATCCCACGGACGAGCAGCTGGTGCAGTTGAAGGCCATCCTCGCCAAGGGCCACGAGCTGGCTGGCCGCTGA	MKFDGVLFFPVTPFTPEGGVDVGLLKEHISSRLPFGPGGVFPACGTGEFHALSIEEVRTVVTAAVEVVAGKVPVVAGAGGPLGHAIAAARAAEEAGADALLVLPPYLVTGPTEGLVAYIEAVADASSLPVIVYHRGNARFTAASMTRLAGNPKVIGFKDGLGDVGLAQEIVTAVRATGREDFALFNGLLTAELTQGAYRGLGIPLYSSAAFAMAPEIAKAYYDAYMSGDEDRRNALLEGFYAPLVRLRDQTPGFGVSLIKAGLRLGGLAVGSVRPPLVDPTDEQLVQLKAILAKGHELAGR	PGPT0018160_654	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
D1-29_03846	966	hldD_1		ADP-L-glycero-D-manno-heptose-6-epimerase	ATGAGCAGGATCCTTGTCACCGGCGGCTCCGGCCGCCTGGGCCGCAGTGTTGTGGCGGGGCTGGCCGAAAAAGGCCACCACGTGATCTCGGTTGACCGCGAGGCCGTTCCGGCGGATCAGCTGGCGGCCGGCGTCGTGCAGGAAACGGCAGACCTCCTCGCCCCGGGCGAGGCATTGCGCTTCCTCCGGGAAACCACTCCCGACGCCGTCATCCACCTTGCCGCGATTGCCGTCCCCTTCAGCGCGCCGGAAGACGTCATCTTCGCCACCAACACCCGTCTTGCCTACGCCGTGATCAGTGCGGCTACGGAGCTGGGGATCGGCAAAATCGTCACCGCCAGCAGCCCTACCGTCCTGGGCTACGGCTCGCCGGCAGGCTGGCTCCCGGCCAGCTTCCCGTTGGATGAGCGCACCACGCCCAAGCCCTGGAACGCCTACGCGCTGTCCAAGCTGATCGCGGAACAGACCGTGCAGATGTTCGCCGCCGCCCAGGGCGAGAGGATCCGGTACGCGGCCTTCCGGCCCTGCTACGTCATCTCGCCGGAGGAATGGGAGGGCGCGCCCACTCAGCAGGGTCACACCGTTGCCGAACGGCTCACAGATCCGGCACTGTCCGCCCCTGCCCTGTTTAACTACGTGGATGCGCGCGACGTGGCCGACTTCCTGGACGTCCTGCTGCGGAAGATGGACTCCATCCCCAACGGCGAAACGTTCTTTGTTGGCGCCGCAGACGCCCTGGCAACGGCCCCGCTGGCTGACCTCATGCCGCGGTTCCTTCCCGGCACTGCAGAGCTGTGCTCCGGTCTCACGGGGACCGCTCCGGCATTTTCGATTGACAAAGCCCGTGACCTGCTCGGCTGGCAACCCAAACGGAGCTGGCGGACCGAACTCAAAACATCCACCCCCTACGAAGGGACCTCCGCCGCGCTGGTGACGGCTGGCACGGGATCCAAGGAGACACCATGA	MSRILVTGGSGRLGRSVVAGLAEKGHHVISVDREAVPADQLAAGVVQETADLLAPGEALRFLRETTPDAVIHLAAIAVPFSAPEDVIFATNTRLAYAVISAATELGIGKIVTASSPTVLGYGSPAGWLPASFPLDERTTPKPWNAYALSKLIAEQTVQMFAAAQGERIRYAAFRPCYVISPEEWEGAPTQQGHTVAERLTDPALSAPALFNYVDARDVADFLDVLLRKMDSIPNGETFFVGAADALATAPLADLMPRFLPGTAELCSGLTGTAPAFSIDKARDLLGWQPKRSWRTELKTSTPYEGTSAALVTAGTGSKETP				NA	NA	NA	NA	NA
D1-29_03847	1458	yteT	COG0673	Putative oxidoreductase YteT	ATGGTCAACACAGCCGAGTCGACGTCCGCCACCGCGGCTTCGGGCTCTGAAACCCTCAAGGGGGCAGCAGGAACGCAGGCAGGGCAGCCCTCCAAGGCGCGCATTGCCCTGATCGGCACCGGCGGCCGCTCGGAAATGTACATCCGGGCTATTTTCGGCAAGCACGCGGACACCGCCGAGCTGGTGGCTTTCTCCGACGTGAACCCCGGGCGGGTTCAGTTCTACCAGAAGCTGATCCAGGACCTGGGCGCCGCCGGCCCTGTGGCCTCTTTTGATCCCGCAGATCTCACCGCCTTCGTCAAGGACAACAACATCGACCGGGTCGTGGTGACGACGCCCGACTACACCCACGCCGACTACATCGTGGAGGCGCTCAACGCAGGCGCCGACGTCGTGGTTGAAAAGCCCCTCACCATCGACGCCGAGGGCTGCCGCTGCATCACCAAAGCTGTGCACGAAACAGGCCGCAACGTTGTGGTCACCTTCAACTACCGCTACTCGCCGCGCAACAGCGCCCTCAAGGAGATCATCCAAAGCGGCGTGATCGGCAAGGTCACCTCCATCGACTTCAGCTGGGTCCTGGACACTGTCCACGGTGCGGACTACTTCCGCCGCTGGCACCGGGAAAAGAAGAACTCCGGCGGCCTGCTGATCCACAAGGCGTCCCACCACTTCGACCTTGTTAACTGGTGGATCGATGACGTCCCGGAGCGCGTCTTCGCCTCCGGCGGACTCAAGTTCTACGGCGACAGGAATGCGGCCGAACGCGGACTTGGTCCCCGCCCGGAACGCGGCACCCCGGATGCCGCGGCGCCTGCCAGCGCCGAGAAGGACCCCTTCACCCTTGACCTGCGCGAGGACGAGCGCCTCAAGGCACTTTTCCTGGACAACGAGCACTACGACGGCTACCGCCGCGACCAGGACGTCTTCACCGGCGGCATCACCATCGAGGACAACCTGGCGCTGGTGGTGGAGTACCAGGGCGGTCCGCGCCTGAGCTACTCGCTGAACGCCCACAGCCCCTGGGAAGGCTACCGGGTGGCGGTCAACGGGACAGAAGGCCGTGCAGAACTCGAAGTGGTGGAACGCGCAGCAGTCACCTCCAGCACGGACAAGAAAACGGTGGTGGACCCCAGCGCAACCCCCATCGAGGAGGACGACGCCATCCGCCGCAACGGCGAACGCCTGGTGGTCCAGCGCCACTGGGAAGCCGCTTATGAGGTGCCGATCGTCAATGGTGAAGGCGGCCACGGCGGCGGCGACGAGCTCCTGCTTTCGGACCTCTTCAACGGACCGGGCGAAGACCCGCTGGGACGCCCCTCGGGCTACCTGGACGGTCTCCGTTCCGTCTCTGTGGGCATCGCCGGAAACCGCTCCCTCGAATCCTCTCTTCCCGTCCGCATTGAAGACCTTGACCTCGGCGTTGACCTCCGCCGCGGTGCCCAGTCCGGCGCCTAA	MVNTAESTSATAASGSETLKGAAGTQAGQPSKARIALIGTGGRSEMYIRAIFGKHADTAELVAFSDVNPGRVQFYQKLIQDLGAAGPVASFDPADLTAFVKDNNIDRVVVTTPDYTHADYIVEALNAGADVVVEKPLTIDAEGCRCITKAVHETGRNVVVTFNYRYSPRNSALKEIIQSGVIGKVTSIDFSWVLDTVHGADYFRRWHREKKNSGGLLIHKASHHFDLVNWWIDDVPERVFASGGLKFYGDRNAAERGLGPRPERGTPDAAAPASAEKDPFTLDLREDERLKALFLDNEHYDGYRRDQDVFTGGITIEDNLALVVEYQGGPRLSYSLNAHSPWEGYRVAVNGTEGRAELEVVERAAVTSSTDKKTVVDPSATPIEEDDAIRRNGERLVVQRHWEAAYEVPIVNGEGGHGGGDELLLSDLFNGPGEDPLGRPSGYLDGLRSVSVGIAGNRSLESSLPVRIEDLDLGVDLRRGAQSGA				NA	NA	NA	NA	NA
D1-29_03848	1014	ccpA_9	COG1609	Catabolite control protein A	ATGGTCAGGAAATCGGCAACGGGCAGGATCGGCATCGCGGACGTTGCCATCAGGGCCGGCGTTTCGCATGCCACCGTTTCGCGGGTGATGAACGGCAATTTCACCGTGGATCCTGAGATTGCTGCCCGCGTCCGGGCAGCCGCGGCGGAGCTGAAGTACCAGCCCAATCCGGTGGGGCGCAGCCTGGCCCTGGGTAAAACAGACACCATCGGCATTGTGGTCCCGGACCTCGCCAACCCCACATTCCAGGCCATCCTGCGTGGATTGAGCCGGGCCGCGGCACAGGACGGCTACCGCGTCCTGATTGCCGACTCCTTCGAAGTCTCCAGTGAAGAAGCCATCCTCGCCGGCGAAGCCCGACGGCGTTGTGACGGGCTGGTGCTGTGCGCCCCGCGCATGAGCGACACTGAGCTGGAGGAGATAGCCCCGTCACTGCATCCGCTGGTCCTGATCAACAGGACCACTGCCGCTCCGAAGGTACCCAGCCTGGTGGTGGATTACGGACAGGGCGTCCAGGACCTGGCCGAGCATCTGGCAGAGCTCGGCCACACCCGCCTGGCATTCCTGGCGGGCCCGGCACGCAGCGCCTCCAACGCGCTCCGGCTCCAGGGCCTGGAATCGTTCAAGGCTGCCCATCCCCACGTGGATGTCAGGATGCTCGAAGGCGGCTCTGACTTTGACACCGGCCACGGTGCCGTGGATGCCGTGCTGGACAGTGGCGCCACGGGCATCCTGGCCTTCAATGACCTCGTGGCCATGGGCCTGATGAGCGGGCTTCACGAGCGCGGCGTGGACGTACCCGGGGATATCTCCGTCACGGGCTTCGATGACATTCCCTTCGCGCGGTACACCACCCCCGCCCTGACCACGGCGGCCGTGCCCATCACGGAGCTTGGCCAGCAGGCATGGCACCAGCTGCGGGCGCTGATCCGGAAGGAAGACAACGACGCACCCGGCAGCAGGTACCAGCCGCGCCTGGAGGTCAGGGCCAGCAGCGGGCCGGCGAAGGACTGA	MVRKSATGRIGIADVAIRAGVSHATVSRVMNGNFTVDPEIAARVRAAAAELKYQPNPVGRSLALGKTDTIGIVVPDLANPTFQAILRGLSRAAAQDGYRVLIADSFEVSSEEAILAGEARRRCDGLVLCAPRMSDTELEEIAPSLHPLVLINRTTAAPKVPSLVVDYGQGVQDLAEHLAELGHTRLAFLAGPARSASNALRLQGLESFKAAHPHVDVRMLEGGSDFDTGHGAVDAVLDSGATGILAFNDLVAMGLMSGLHERGVDVPGDISVTGFDDIPFARYTTPALTTAAVPITELGQQAWHQLRALIRKEDNDAPGSRYQPRLEVRASSGPAKD	PGPT0017992_5563	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
D1-29_03849	774	lutR_2	COG2186	HTH-type transcriptional regulator LutR	ATGCGCACCCACCAACTTGTCCTGCACTGGATCGAGAAGCAGCTCTCCGAGGGCCTGCTGACCGTGGGCGGCCGCCTTCCCGCCGAGCGCACGCTGGCCGAACAGCTGCAGGTTTCCCGGACCTCCGTTCGGGAAGCCATCCGGATCCTGGAGGCCATGGGTGTTGTCCGTGCGGGTGTGGGCTCGGGACCGGAATCCGGAACGGTGGTGATTTCAGATCCGACGGCGGCGCTGGGCTCGGCGCTGCGCCTCCACGTTGCCACGCAGCACCTTCCGGTGTCTGACATTGTGGAGACCCGGGTATTGCTGGAGTCCTGGGCCGCTGCACGGGCGAAGCCGGATGCCCCTGAACTGGACACCGCAGCCAGCCTCCTGGACGAGATGGACGCCGTCGGACCGGCCGGAGGTGAGGCCGGGACTGCACGTGAGGCCGGCGCTGCAGTATCGCCCGGCGCGTCCATGGAAGCGGGCTCGCCTGTTGATGACTTTCTCGCGCTGGATGTCAGGTTCCACCTGGCTCTTGCCGATGCCGCTGGAAATGCCGTGGTCAGCGCCATGATGGGATCGCTGCGGGAGTCGATCCAGGGCTACGCCGCAGAGCTCACGGCCAATCTCCCGGACTGGGACGCCACGGCCGCACGCCTTCGGGCCGAGCACCGGGAGATCCTTGCCGCTATCCGGAACGGCGACGGCGAGCGGGGGGCCAAGCTGGTGGCCGCCCACATCGAGGGCTACTACCGGGAAGCAGGCCTGCGTCCGGGATTGCCGGGCTAA	MRTHQLVLHWIEKQLSEGLLTVGGRLPAERTLAEQLQVSRTSVREAIRILEAMGVVRAGVGSGPESGTVVISDPTAALGSALRLHVATQHLPVSDIVETRVLLESWAAARAKPDAPELDTAASLLDEMDAVGPAGGEAGTAREAGAAVSPGASMEAGSPVDDFLALDVRFHLALADAAGNAVVSAMMGSLRESIQGYAAELTANLPDWDATAARLRAEHREILAAIRNGDGERGAKLVAAHIEGYYREAGLRPGLPG				NA	NA	NA	NA	NA
D1-29_03850	1338	lldD_2	COG1304	Putative L-lactate dehydrogenase	ATGACCCATACGATCCAGCCGAACAACCCCGAGACTACTCCGGCGCCGGACGCCACGGACGTTCCCGCCGTCGGCACACCACCGCGGCCCGCAGCGGCGGCTCCTCTGCCGGCCGCCCTCAAGCGCCGCCTCCCTAAATACTCCGACCTGGCGCCCCTGATGCAATTCAAAAAGCCCGAGTTCAGCAAGGAAGCACGGCTCAAGCGCGCCAGCACCATCTGGGAACTGCGGGACATCGCCAAGCGCCGCACACCCCAGGCGCCCTTCGACTACACGGACGGCGCGGCCGAAGGTGAGATCACGCTGCGCCGCGCACGCGAAGCATTCCTGGACATCGAGTTCCGGCCGGGCATCCTGCGCAACGTCTCGAGCATCGACCTGAGCACGGAGATCCTGGGCAAGTCCTCCCGGCTGCCGGTAGGAATCGCCCCCACCGGGTTCACCCGCATGATGCAGTCCGAGGGCGAGTACGCCGGTTCACAGGCAGCCGAGGCCGCAGGCATTCCCTACACGCTGTCCACCATGGGCACCGCCTCCATCGAGGACGTGGCGGCGGCGGCCCCCGGCGGCCGCAACTGGTTCCAGCTCTACCTCTGGACGGACCGCGACCGCTCGCTGGAACTGATCGACCGCGCCGCCAAGGCCGGGAATGACACCCTGATGGTGACGGTGGACACGGCAGTGGCCGGAGCCCGCCTCCGGGACGTCCGCAACGGCATGACCATCCCGCCGGCGCTCACCATCAAGACGGTGCTGGATGCGTCCTACCGCCCGGCCTGGTGGTTTAACTTCCTCACGCACGAGCCGCTGACGTTCGCCTCACTGTCCCGCTACACCGGCACCGTGGCCGACCTCATCAACTCAATGTTCGATCCCACCCTCACGTTCGAGGACCTCGACTGGCTGCGTGAAACCTGGAAGGGCAAGCTGGTGGTCAAGGGCATCCAGACCGTCGAGGATGCCCGCAGAGTGGTGGACCACGGCGCCGACGGTGTGATCCTCTCCAACCACGGTGGGCGCCAGCTGGACCGGGCACCCATCCCGTTCCACCTGCTCCCCGAGGTCAAGCAGGCCTTCACCGCGGACAACACCGACGCCGTGATCATGCTCGATACCGGCATTATGAGCGGTGCGGACATCGTGGCTGCGCTGGCCCTGGGCGCCGACTTCACGCTGATTGGCCGCGCCTACCTCTACGGCCTGATGGCAGGCGGCCGGGCAGGGGTGGACCGCGCCCTCCAGATCCTGGAGAAGGACATGGCCCGCACCATGGCGCTGCTGGGCGTCAGCAGGATCTCCGAGCTCACACCGGACCACGTGCGGCTGCTCAACAAGTAA	MTHTIQPNNPETTPAPDATDVPAVGTPPRPAAAAPLPAALKRRLPKYSDLAPLMQFKKPEFSKEARLKRASTIWELRDIAKRRTPQAPFDYTDGAAEGEITLRRAREAFLDIEFRPGILRNVSSIDLSTEILGKSSRLPVGIAPTGFTRMMQSEGEYAGSQAAEAAGIPYTLSTMGTASIEDVAAAAPGGRNWFQLYLWTDRDRSLELIDRAAKAGNDTLMVTVDTAVAGARLRDVRNGMTIPPALTIKTVLDASYRPAWWFNFLTHEPLTFASLSRYTGTVADLINSMFDPTLTFEDLDWLRETWKGKLVVKGIQTVEDARRVVDHGADGVILSNHGGRQLDRAPIPFHLLPEVKQAFTADNTDAVIMLDTGIMSGADIVAALALGADFTLIGRAYLYGLMAGGRAGVDRALQILEKDMARTMALLGVSRISELTPDHVRLLNK	PGPT0001765_326	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0001765-lldD-K00101	NA	NA
D1-29_03851	636			hypothetical protein	GTGACAGACGACGTATTTGCCGTCATTGCGGAAGCAACCCGGCGTGACATCCTGGTATCCCTTCGTTCGGGGGACAAAGCGGTGGGGGAGCTGGTAGAGGAACTGTCAGCCAGTCAGCCCACCATTTCAAAGCACCTCAAGGTTCTTCGTGAAGCGCAGCTTGTCACCATGCGCGCGCAGGGACAGAAGCGCTATTACGCGCTCAACTCCAAGCCGCTGGAGAGTGTGGCCAGCTGGCTGGGGACGTTCGACGTCGGACCCTCCGCCGCACTGAATAGGTCGCCGGAGCTGCAGGGAACCGAGGTCACCCCGGCCCAGGGGGCGCCAACCCAGGGGACGCCGGCCCAGGGGACGCCAGCCGAGGGCCGCGATGGTGAGCTAGTGGCTGCGCATGCGTTGGCCGCAGAGTCTGTGGCTGCCGGGGCTGTGGCTGCCGGAGCCGTGCCTGCTGGGACGGGCGCGCGCGGGGGCTCGGAGTTGAGTCCCGCCGTCGTTATTCCCGGCGGTACCACCGCTCCGCTAAGCGACGACACCGTCCCGCAGCAGATCGGCCGGACCGTGGGCCGCGCCGCCACCAAGGCCGCGGACCTGCTGGCCAACCTGCCCAACCTCCCGAAGTTCGGCCGCAAGAAGTAG	MTDDVFAVIAEATRRDILVSLRSGDKAVGELVEELSASQPTISKHLKVLREAQLVTMRAQGQKRYYALNSKPLESVASWLGTFDVGPSAALNRSPELQGTEVTPAQGAPTQGTPAQGTPAEGRDGELVAAHALAAESVAAGAVAAGAVPAGTGARGGSELSPAVVIPGGTTAPLSDDTVPQQIGRTVGRAATKAADLLANLPNLPKFGRKK				NA	NA	NA	NA	NA
D1-29_03852	1149	acuC		Acetoin utilization protein AcuC	ATGACCGATTACAACTTCGGCCCCGGACACCCGATGGCACCGGAACGGATGGATCTTACCGCGCGGCTTGCCCGGAGCCTGGGGCTGCTGGACCTGGACCACGTCTCCATTGCCGCGCCGGAGATAGCATCCGACGCCGAGCTGGAGACCGTGCATTCGTCGGATTTTGTGGCGGCGGTACACCGGGTCAGCGAGGATCCATATTTCGCCGACGAAGCCCGGGGTCTGGGGACCGAAGATGATCCGGCCTTTGCGGGTATGCATGAGGCCGCTGCAAGACTGGCCGGCGGTTCCCTGCTCGCAGCCTCGGCCATCCTGGACGGCAGTGCCCTCCGAGCCGTGAACTTTGGCGGTGGCCTCCACCATGCCGCCCGCGATCGGGCCAGCGGCTTCTGCATCTACAACGATTCTGCGCTTGCCGTCCGCAGGCTGCTCGACGGCGGCATTGCGCGCGTTGTCTATATCGACGTCGACGCGCACCACGGGGACGGGACGGAAAGCATCTTCTGGGCTGATCCGCGGGTGCTCACCATTTCGCTGCATGAAAGCGGGCTCACGCTGTTCCCGGGAACCGGCTTCGCGGATGAGATCGGAGGCCCGCAAGCTGAGGGCACGGCCGTGAATGTTGCGCTGCCGTCGGGGACGGCGGATGCCGGCTGGCTGCGCGCCTTTCATGCCGTGGTGCCGCAACTGGTGGGCGCATTCAAGCCTGAAGTGATCGTCAGCCAGCATGGTTGCGACTCGCACCGACTGGACCCTCTGGCCCATTTGAATGTCAGCGTTGACGGCCAGCGCGAGGCCGCCAACGCTATCGCCGCCCTTGCAGCCCGGCACTGCGGGAACCGGTGGATTGCCACCGGAGGAGGCGGCTACAACGTGATGGATGTGGTGCCGCGATCCTGGAGCCATCTGATCGCGATCGCAGCAGGCCGCCCTGTCCCGCCGGGGAGCCGTGTGCCGGAGGACTGGCGCAGTTACGTCCAGGACAAGTTCGGCGCGGCAGCCCCAGCGCTCATGGGCGACGACGTGGAGCTGTGGTGGCGGTCCTGGGAAGTGGGGTTCGATCCCAACGACGCCGTGGACAGGACGGTCATGGCTACGCGGAAAGCAGTCTTTCCCCTCCACGGGTTGGACCCTTGGTTCGACTGA	MTDYNFGPGHPMAPERMDLTARLARSLGLLDLDHVSIAAPEIASDAELETVHSSDFVAAVHRVSEDPYFADEARGLGTEDDPAFAGMHEAAARLAGGSLLAASAILDGSALRAVNFGGGLHHAARDRASGFCIYNDSALAVRRLLDGGIARVVYIDVDAHHGDGTESIFWADPRVLTISLHESGLTLFPGTGFADEIGGPQAEGTAVNVALPSGTADAGWLRAFHAVVPQLVGAFKPEVIVSQHGCDSHRLDPLAHLNVSVDGQREAANAIAALAARHCGNRWIATGGGGYNVMDVVPRSWSHLIAIAAGRPVPPGSRVPEDWRSYVQDKFGAAAPALMGDDVELWWRSWEVGFDPNDAVDRTVMATRKAVFPLHGLDPWFD	PGPT0008225_100	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
D1-29_03853	1434	ktrB	COG0168	Ktr system potassium uptake protein B	ATGACGGAACGCCAGTCGAGGCCCCGGAGCCCGGCCAGCTGGCACCCTGCCGCCCAAGAGCGGGAAGGCCTCTGGATCTTTACGCGGCTGCGCGACTTTATCGACGATATTGCCAATACTTCGCCGGCCCGGCTTGCCCTGAGTGTGTTCGGCGTGGTCATCCTGGTGTTCACCCTGCTGCTTTCCCTGCCAGTCTCTGCTGCCAGCGGCGAAGCGACACCCCTGCACCAGGCAATGTTCACGGCAGCTTCCGCGGTGTGCGTCACAGGCCTGACAGTGGTATCGACGGCTGTCCACTGGTCCTTCTTCGGCCAGCTGGTCATCCTGGTGGGCATCTTCGTCGGCGGCCTGGGCACTTTGACGCTGGCGTCACTGCTGGCCCTGATGGTGAGCAAGAGGCTTGGCGTCCGCGGCAAGCTCATCGCCCAGGAAGCCATGAACAACGCCGGCCGCCTGGGCGAGGTGGGTACGTTGCTCCGGATCGTCATCACCACGTCCGTGGTCATCGAGGGGTTCCTGGCGCTGGCCCTGATCCCGCGGTTCATGACCCTGGGCGAGCCCTTCTGGCAGTCGGTCTGGCACGGTATTTTCTACGCGATCTCCGCCTTTAACAACGCCGGCTTCACTCCGCATTCGGACGGCATTGTGCCCTACGAAACAGATCTGTGGATACTGGTTCCGCTGATGGTGGGCGTGTTCCTGGGCAGCCTGGGCTTCCCCGTGGTGATGGTCCTGCAGCAGAACGGGCTGAACTGGAAAAAGTGGAACCTGCACACCAAACTGACTATTCAGGTCTCCTTCATCCTGCTCGCGGCAGGAACAGTGCTGTGGGCGCTGATGGAGTGGGATAACACCCGGACCATTGGCCCCATGAACCTGGGCGACAAGATCACACACTCCCTTTTTGCCTCCGTCATGACCAGGTCCGGCGGGTTCAACCTCGTTGAACAGAATCACATGGAGTCCACCACCATGCTGCTCACGGACGCCCTGATGTTCGCGGGCGGCGGCTCGGCCTCCACCGCCGGCGGCATCAAGGTCACCACCATTGCCGTGATGTTCCTGGCCATCGTTGCCGAGGCCCGCGGCGATTCCGACGTCCAGGTCTACGGCCGGACCATTCCGCAGGGCACCATGCGCGTGGCCATCTCCGTGATCGTGGCCGGCGCCACCCTTGTTTCCGTCTCCGCCTTCCTCCTTCTTCAAATCAGTGGCGCGTCGCTGGACCGGGTGCTGTTCGAAACCATTTCAGCCTTCGCCACCGTGGGACTCAGCACCAACCTCAGTGCCGAGCTCCCGCCGTCGGGCGTTTATGTCCTTACTGCCTTGATGTTCGCCGGCCGCGTGGGCACCGTTACCCTTGCAGCTGCGCTGGCGTTGCGACAGCGCAGCCAGCTGTACCACTATCCGGAAGAGAGGCCCATCATTGGCTAA	MTERQSRPRSPASWHPAAQEREGLWIFTRLRDFIDDIANTSPARLALSVFGVVILVFTLLLSLPVSAASGEATPLHQAMFTAASAVCVTGLTVVSTAVHWSFFGQLVILVGIFVGGLGTLTLASLLALMVSKRLGVRGKLIAQEAMNNAGRLGEVGTLLRIVITTSVVIEGFLALALIPRFMTLGEPFWQSVWHGIFYAISAFNNAGFTPHSDGIVPYETDLWILVPLMVGVFLGSLGFPVVMVLQQNGLNWKKWNLHTKLTIQVSFILLAAGTVLWALMEWDNTRTIGPMNLGDKITHSLFASVMTRSGGFNLVEQNHMESTTMLLTDALMFAGGGSASTAGGIKVTTIAVMFLAIVAEARGDSDVQVYGRTIPQGTMRVAISVIVAGATLVSVSAFLLLQISGASLDRVLFETISAFATVGLSTNLSAELPPSGVYVLTALMFAGRVGTVTLAAALALRQRSQLYHYPEERPIIG	PGPT0002735_2974	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
D1-29_03854	687	ktrA	COG0569	Ktr system potassium uptake protein A	TTGGCTAATTCCTCAGGCATCCCCAGCCGCCCCGCCCACAATGCGCCGGTCCTGGTGATCGGGCTGGGCCGTTTTGGCTCCTCGACGGCGGAACAGCTGGTGAAGCAGGGCCGGGAAGTCCTTGCCATCGAACGCGACCGGACACTGGTGCAGAAGTGGGCGCCGCTTCTGACCCACGTGGTGGAGGCGGATGCCACCAACATCGACGCGCTGCGCCAGCTGGGCGCCCAGGAATTTACGTCGGCGGTGGTGGGGGTGGGCACGTCCATCGAGTCCTCAGTGCTGATCACCGTAAACCTGGTGGATCTGGGCATAGAGCACCTGTGGGTCAAGGCGATCACGCCGTCGCACGGCAAGATCCTGACCAGGATCGGTGCCAACCACGTCATTTACCCAGAGGCCGATGCCGGTGTCCGGGCCGCGCACCTGGTGTCCGGCCGCATGCTTGACTTCATCGAGTTCGACGACGACTTCGCGATCGTCAAAATGTATCCACCGCGTGAAACAGTAGGTTTCACGCTGGATGAATCCAAGGTCCGCTCCAAATACGGGGTGACAATTGTTGGCGTTAAGTCCCCCGGCGAGGACTTCACCTACGCGCGTCCGGAGACCAAGGTGTCTTCACGGGACATGCTCATTGTGTCCGGCCACGTTGACCTGCTGGAACGGTTCGCCGCCCGCCCTTAA	MANSSGIPSRPAHNAPVLVIGLGRFGSSTAEQLVKQGREVLAIERDRTLVQKWAPLLTHVVEADATNIDALRQLGAQEFTSAVVGVGTSIESSVLITVNLVDLGIEHLWVKAITPSHGKILTRIGANHVIYPEADAGVRAAHLVSGRMLDFIEFDDDFAIVKMYPPRETVGFTLDESKVRSKYGVTIVGVKSPGEDFTYARPETKVSSRDMLIVSGHVDLLERFAARP	PGPT0002710_2605	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
D1-29_03855	798	proC	COG0345	Pyrroline-5-carboxylate reductase	ATGAACGAAGCAATCCTGACCGGCCTGGTGGAAGGCGGAATAGACCCTGCCGACATCGTGGCCACTGTCCGAAGGGCGGAGCGGGCGGCCGAACTGGCACAGCGCCACCATGGCATCACCGCCATCGCCAGCGAGGAAGAACCCGAGAATAACAGGCAGGCGGCCAAGGGTTCCGGCGTCGTCATCCTGGGCGTCAAACCGGCAGGCATAGTTGACCTGGCCCGGGAAATCAGCCGTTCCCTGTCGCCCGATACCATCGTCATCAGCGTGGCCGCGGCGGTTTCACTGGAGCAACTGGAAGCCGCCCTGCCACCCGGACAGCCAGTTATCCGTACCATGCCCAATACTCCGGCAAAGCTGGGCCGTGGCGTGGTCTCCGTATCGCCTGGCACCAACTGCAGCCCTGAGCAGCTTCAGAAGGCCAAGGACATCCTCAAACCGGCAGGCACCGTGGTGGAGGTGCCCGAGGAGCAGGTGGATGCGCTGTCGGCAATCAGCGGCTCGGGGCCGGCCTACGCGTTCTACCTTGCCGAGGCCATGGCATCCGCCGGCGTCGAGCTGGGCCTAGACCGTGAACTGTCGCTGCTCCTCGCCCGGGAAACGGTGGCGGGGGCAGGCTTTATGCTGGCCGAGCCGGGAGCCGATCCGTCGGCGCTGCGGAAGTCCGTGACCAGCCCCAACGGCACCACCGAACGTGCCATCGCCACGTTTGATGAGCAGGGGATTCCTTCGATCATCGCTGCGGGCGCCCGGGCTGCGGCCGAGCGCGCGGCCGAGATCACGCGGCAGCTGGGCTAG	MNEAILTGLVEGGIDPADIVATVRRAERAAELAQRHHGITAIASEEEPENNRQAAKGSGVVILGVKPAGIVDLAREISRSLSPDTIVISVAAAVSLEQLEAALPPGQPVIRTMPNTPAKLGRGVVSVSPGTNCSPEQLQKAKDILKPAGTVVEVPEEQVDALSAISGSGPAYAFYLAEAMASAGVELGLDRELSLLLARETVAGAGFMLAEPGADPSALRKSVTSPNGTTERAIATFDEQGIPSIIAAGARAAAERAAEITRQLG	PGPT0014225_1589	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
D1-29_03856	987	ppx1	COG0248	Exopolyphosphatase 1	ATGCGGCTAGGCGTCCTTGATATTGGGTCCAACACTGTCCACCTTCTCCTGGTGGACGCCCACCCTGGCGCGCGCCCGGTGCCTTTCGCCTCGCACAAACGGCCTCTGTCGTTGGTCCAATACCTGGACGACGACGGCAACATCACCGAGGCGGGCCAACACGAGCTGACGGAATTCGTCCTGGAGGCCTGGGAGTTCGCGGCCAAGCACAAAGCAGCGGATCTCCTGGCCTTCTGTACGTCGGCCATCCGGGAAGCCACCAATGGCCCTGCCGTGCTGGCCCGCGTCAAGCACGAGACCACCGTGACCCTGCAGGAGCTGACGGGAAGCGAAGAGGCCTCCATGACCTTCTTCGCCGTCCGCCGCTGGTACGGCTGGGGCGCCGGCCCCATCCTCAACCTCGATATCGGCGGCGGCTCCTTTGAAATGGCCTTCGGCCAGGACGAGCTTCCCGAAGTGGCAACGTCCGTTCCGCTCGGCGCCAGCCGCCTCACGCGGGACTGGCTGTCGGAGGACCCGCCGTCGGCGAAGAGCGTCAAGGAGCTGCGCCGCTACATTCGGGCCACACTGAAACCCGCGGTCCGCGAGTTCGACGGCTTGGGCCGGGCGAACCTCGTCGGCGGAACATCGAAGACTTTCCGGTCCCTGGCAAGGATCGCGGGGGCAGCCCCCAGCGCGGCAGGTCCATACGTCAAGCGTGAGCTGAACGCCACCGACCTGGGAGTCTGGGCCCAGCGCATTTCCGCCATGAAGTCCGAAGACCGCCTTCACCTGCCAGGCGTCTCCGAAGCCCGCGCCAACCAGCTCCTCGCCGGGGCGCTGGTGGCCGAAGCAGCTTTGGAGCTGTTCAAGTTCAAGAAGGTCAAGATCTGTCCGTGGGCGCTGCGCGAAGGATTGATCCTGCGCCGGCTGGACCAGCTGGTCTTCTCCGGGCCCCTGCATCCGGCCCCGCATGTGATTGCGCCCGAAGGCTCGCTGGCCAGCTGA	MRLGVLDIGSNTVHLLLVDAHPGARPVPFASHKRPLSLVQYLDDDGNITEAGQHELTEFVLEAWEFAAKHKAADLLAFCTSAIREATNGPAVLARVKHETTVTLQELTGSEEASMTFFAVRRWYGWGAGPILNLDIGGGSFEMAFGQDELPEVATSVPLGASRLTRDWLSEDPPSAKSVKELRRYIRATLKPAVREFDGLGRANLVGGTSKTFRSLARIAGAAPSAAGPYVKRELNATDLGVWAQRISAMKSEDRLHLPGVSEARANQLLAGALVAEAALELFKFKKVKICPWALREGLILRRLDQLVFSGPLHPAPHVIAPEGSLAS	PGPT0002595_4077	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
D1-29_03857	453			hypothetical protein	ATGACTGAACAGCCTGGAATTGCCGATACCAACCCGCTGAACGACCTCGAAGAGAAGCTCGCCCAGGGTGGACAGCCCGACGCCAGCCCCGTGGACGTCATCCTGTCCTTCCTCAACAGCGAGGTCTACGTCATCAGCACCGAAGGCATCGAGGGTGAGGACTCACAGGTTGAGCCCCTCGTTTTGGCCAACGCCGACGGCGACCCCGTCCTGGCGGTCTTCTCCCACCCCACCCGCGTTGACCAGCAGTACCTTGAGGCAGCACCAAACATCCTGGGCACGCAGGGCGCCGCCATCATCGCCAACATCGGTGAGGAGCTGGGTATGGTGATCAACCCGGGAGCCGCTTTCGGTTTCGAGATCAACCCCGAGGGCGTGGCCAATATCAAGCGGGACTTCAAGCGCGCGGATGAGCTTCCCGACGGCGCTCCCACGGATCCTGACGCGAACTGA	MTEQPGIADTNPLNDLEEKLAQGGQPDASPVDVILSFLNSEVYVISTEGIEGEDSQVEPLVLANADGDPVLAVFSHPTRVDQQYLEAAPNILGTQGAAIIANIGEELGMVINPGAAFGFEINPEGVANIKRDFKRADELPDGAPTDPDAN				NA	NA	NA	NA	NA
D1-29_03858	2730	topA	COG0550	DNA topoisomerase 1	GTGCCAAGCAAGGCCAAAACAGGCAAGAAACTCGTGATTGTGGAGTCTCCGGCCAAGAGCAAGACTATCGCCAAGTACCTCGGCGAGGGCTTCATCGTAGAGGCCTCCATCGGTCACATCCGCGACCTGCCGCAGCCGTCAGAGCTCCCCGCTGAACTGAAGAAGACATCGGTGGGCAAGTTCGCCGTCGACATCGAAAACGACTTCAAGCCGTACTACGTGGTGTCTCCGGACAAGAAGAAAAAGGTTGCCGAGCTCAAGGCCCAGCTCAAAGATGCCGACGCTCTCTACCTCGCAACCGATGGGGACCGCGAGGGCGAGGCCATCGCGTGGCACCTGCTGGAAGTGCTCAAGCCCAAGGTCCCGGTATACCGGATGACGTTCGGCGAAATCACCAAGGAAGCCATCCACCGCGCCATGGACAACCTGCGCGATGTTGATGCGGCGCTGGTGGATGCCCAGGAAACCCGCCGGGTACTGGACCGCCTCTACGGCTACGAGATTTCCCCCGTCCTGTGGCGCAAGGTGGCCCGCGGCCTGTCCGCCGGCCGCGTGCAGTCCGTGGTCACCCGCATGGTGGTGGACCGCGAACGCGAACGGATGGCTTTCAAGGCGGCGTCCTACTGGGACCTCACCGGGCAGTTTGGAGCCGATTCCGGTTCTTTCAAAGCCAAGCTGGCAGCCGTTGACGGCGCCAAGGTAGCCACCGGCCGTGACTTCAACGACGACGGCGTCCTCACCTCGCGCAACGTGGCGCACCTGAACGAGGAACTGGCCACCTCCCTGGCAGCCGGGCTGCAGGACGCGTCGTTCACTGTCCGCTCGGTAGACACCAAGCCGTACACCCGCCGGCCCGCGGCACCGTTCACCACCTCCACGCTCCAGCAGGAAGCCGGCCGCAAGCTGCGCTTCTCCTCCAAGAGCACCATGCAGGTTGCCCAGCGCCTGTATGAAAACGGCTACATCACCTATATGCGTACGGACTCCTCAGCGCTGAGCGACGAGGCAGTCACGGCCGCCCGCCGCCAGGCGTCCGAGCTCTACGGCCCGGAATACATCCCGGCGTCGCCGCGCGTCTACTCCAGCAAGGCTGCGAACGCGCAGGAAGCCCACGAGGCCATCCGCCCCGCCGGTGACTCCTTCCGCACGCCGGCGCAGGTGGCCAAACAGCTCTCCGGCGACGAGTTCCGCCTCTACGAACTGATTTGGAAGCGCACGGTCGCCTCCCAGATGGGTGACGCCAAGGGTTCGACGGCCACCATCCGCCTCGGCGCAGTGGCTGCTGACGGCAGGGACGCCGAATTCTCCGCCTCCGGCACCGTCATCACCTTCCCCGGCTTCCTCGCCGCCTACGAAGAAGGCAAGGACGAAACCCGTGGCGATGAGGACTCCGACGAAGCCCGTCGGCTTCCCAACGTTGCCAAGGGCGATGCCCTCAAGGCCTCGGACATCATCGCCGTCGGCCACGAAACCTCGCCGCCGCCGCGCTTCACGGAAGCATCCCTGACGGCTGAACTGGAAAAGAAGGGCATTGGCCGCCCGTCCACCTACGCCTCCACGATTTCCACCATCCAGGACCGCGGCTACGTCCGAAAACAGGGCTCCGCACTGGTGCCCAGCTGGATCGCGTTCTCCGTGATCCGCCTGCTGGAGCAGCACTTCACCGACTACGTGGATTACGAGTTCACGGCTGACATGGAAGGCGACCTGGACAAGATCGCCAACGGCCAGGCCGTAGGTTCAGCCTGGCTCAAGCACTTCTACTACGGTGAAGACGCTGATCCTGGCCTGCTGAGCATCGTGAACAACCTCGGCGAGATCGACGCACGCGAGATCAACTCCGTGCCCATCGCTGACGGCATCACCCTGCGAGTGGGGAAGTTCGGCCCGTATCTGGAAAGCTCCATCCCCACCGTGGATGCCAAGACGGGAGAGGTGGTTGAGTCCTCGCGTGCCAACGTCCCCGAGGACCTGGCGCCGGACGAGCTGACTGCTGCCAAGGCTGTGGAGCTGATGGAGACGGCCGCCCCGGAAGAACGCGTGTTGGGCACCGATCCGCACACGGGGCACACCGTCGTGGCAAAAAACGGCCGCTATGGTGCCTATGTCACGGAGGTCATCGCGGAGATGACCGACGAACAGCTGGCCAACCAGCCCGTGGAGTACTACAAGAACGGCAAGCCCAAGCCGCCGAAGAAGCCCGTCAAGGCTAAGCCGCGCACGGGATCGCTGTTTGCCTCGATGTCGGTTGATTCGGTCACCCTGGATGAGGCGCTGCAGCTGATGAGCCTGCCCCGGGTACTGGGCGAGGACGCCGAGGGCAACCTCATCACGGTGCAGAACGGCCGGTTCGGCCCGTACCTGAAGAAGGGCACGGACTCCCGTTCCATCGGTTCGGAAGAAGAAATCTTCACCATCACGCTGGAGCAGGCCCTGGAGATCTACTCCCAGCCCAAGCAGCGCGGTGCCCGCGCCGCGGTTCCGCCGCTGGCCGAGTTCGGTCCGGACCCCGTGTCGGAAAAGAACATCGTGGTGAAGGAGGGCCGCTTCGGCCCGTACATCACCGACGGCGTCACCAACATCACCGTCCCGCGCACCACGTCGCTGGAGGAACTGACCAGGGAACGCGCCGTCGAACTTCTCGCGGAAAAGCGGGCCAAGGGCCCCGTCAAGCGCACCACAACGGCCCGCAAGGCCCCGGCCAAGAAGAAGGCCGCGGCCAAAAAGTAA	MPSKAKTGKKLVIVESPAKSKTIAKYLGEGFIVEASIGHIRDLPQPSELPAELKKTSVGKFAVDIENDFKPYYVVSPDKKKKVAELKAQLKDADALYLATDGDREGEAIAWHLLEVLKPKVPVYRMTFGEITKEAIHRAMDNLRDVDAALVDAQETRRVLDRLYGYEISPVLWRKVARGLSAGRVQSVVTRMVVDRERERMAFKAASYWDLTGQFGADSGSFKAKLAAVDGAKVATGRDFNDDGVLTSRNVAHLNEELATSLAAGLQDASFTVRSVDTKPYTRRPAAPFTTSTLQQEAGRKLRFSSKSTMQVAQRLYENGYITYMRTDSSALSDEAVTAARRQASELYGPEYIPASPRVYSSKAANAQEAHEAIRPAGDSFRTPAQVAKQLSGDEFRLYELIWKRTVASQMGDAKGSTATIRLGAVAADGRDAEFSASGTVITFPGFLAAYEEGKDETRGDEDSDEARRLPNVAKGDALKASDIIAVGHETSPPPRFTEASLTAELEKKGIGRPSTYASTISTIQDRGYVRKQGSALVPSWIAFSVIRLLEQHFTDYVDYEFTADMEGDLDKIANGQAVGSAWLKHFYYGEDADPGLLSIVNNLGEIDAREINSVPIADGITLRVGKFGPYLESSIPTVDAKTGEVVESSRANVPEDLAPDELTAAKAVELMETAAPEERVLGTDPHTGHTVVAKNGRYGAYVTEVIAEMTDEQLANQPVEYYKNGKPKPPKKPVKAKPRTGSLFASMSVDSVTLDEALQLMSLPRVLGEDAEGNLITVQNGRFGPYLKKGTDSRSIGSEEEIFTITLEQALEIYSQPKQRGARAAVPPLAEFGPDPVSEKNIVVKEGRFGPYITDGVTNITVPRTTSLEELTRERAVELLAEKRAKGPVKRTTTARKAPAKKKAAAKK				NA	NA	NA	NA	NA
D1-29_03859	672			hypothetical protein	GTGGAAATCACCGATCCCAAAGCCATCCGCGCCCTGGCCCATGCTGCCCGGCTTGAGGTTATCTCGGAGCTGTATTCCACCCAGCTCAGCCGGACGGCCACGGAACTGGCTGTCCAGACCGGGCTGACGCCCAGCGCCATGAGCTACCACCTGCGCGCTCTGCAGAAGTGGGGCATCGTGGTGCCGGCTGCAGCCTCCGGTGACGCCCGGGAGCGCCGCTGGAAAGCCGCGGGAACCGACGTCACCATCAATTCGGGCGGAGGAGCAGCCAGCCCGGAATTCGCCGTCCTGGACCTGGAACTGGAAGCTTTCAGGCGCCGGGCCCGCGCCTACGGCCAAGCCCGGGAGGAAAGGCGGGGAAACGGGGGCCAGGCGCAGGACCCCACCGCCGTCGTCCTCGCGAGCAACCTGCTGCACCTGACCCGGGAGCAGCAGGCAGAACTGACCGAACGCCTGTTTGCGCTGCTCAAGGAGTACGAGCTGGAGGACCCGCAGCGGATTCCGCCTGGGTCCGAGCGGATGGCCGCGATGTGGTCACTGATTCCGGACGACCGTTCAGACCCTGTTTCCGGCCCTGTTTCAGACCCCGGTCTAAACCCAGGTTCAGGCACTGTTTCCGGCCCCGGCCCCGCCGGAGTCACCTCCACGGCAGACGCGCCGGGAGTTCTGTAA	MEITDPKAIRALAHAARLEVISELYSTQLSRTATELAVQTGLTPSAMSYHLRALQKWGIVVPAAASGDARERRWKAAGTDVTINSGGGAASPEFAVLDLELEAFRRRARAYGQAREERRGNGGQAQDPTAVVLASNLLHLTREQQAELTERLFALLKEYELEDPQRIPPGSERMAAMWSLIPDDRSDPVSGPVSDPGLNPGSGTVSGPGPAGVTSTADAPGVL				NA	NA	NA	NA	NA
D1-29_03860	1677	prmC_4		Release factor glutamine methyltransferase	GTGACTGACTCCTCGCTCTTTACCGCCGGCAACACCCCTGACGCTCCCCGCAGCGATCTTCCGGAACTGCTCACCGCGCTCGCCGCAGACCTGCGCAGGGTGGAGTACACGCTCGACGGCGTAGCGGAGCTCCTGGGTGACTCCGCTTACCGTGCGCTGCACCGGGACCAGCTCATTCCCGCCCTGCTGGCCACCGAAAGTGCAGCCCACGGCGAGGGTACGACGGCGGCGCTCGCCGCCGTTGTACGTCTCTGGCTGCTGGCCGAACCGCAAGAGCGTGACATGCTCGACGCCGCCCTGCCGGGAGTTGGGACGGACGGCTTGCTGACGCTGGACCTGGTGGAGCCCGTTCCCGGCACTGATCAGTCGGCGCAGGACCTGCTCCGCGCCAAGGCGGACCTGCGGCCGTACGGCTGGGCGGGGAGCCCGGCGACTGAGGCGGCAGGCGAAGCCGGCGGCGCTGAGCTCTGGGTTGCGAGCGACCTTGCCGCCCACCAGCTCGGCGGAGTGCTCCGGCATGACCATGTGCTGGGGATCGGGCAGGCTTCCACCACCCTGGTGCAGTCCACCATCCGGCGTCCGGCAGCGAGGGCACTTGACCTTGGCACGGGCTGCGGGATCCAGACGTTCCACCTCCTCCACCAGGCCGCGCATGTGACAGCCACGGACATCTCCGAGCGCGCGCTGGCCTTCACCCGCTTCAACCTGCTCCTCAACGCAGAGGTGCTCCAGGTGGACCCGGAACGCCTGGAGGAGAGGGTGAGCCTGCGCCTGGGGTCCCTCTTGGATCCGGTTAAGGGTGAAAAGTTCGATCAGGTGGTGTCCAATCCGCCGTTTGTCATCACGCCCCGGACCACTCACGAAGACACCTCGGAGCAGTTCACGTACCGGGACGGCGGCCTTCCGGGCGATGAGATCGTGGCGTCGCTGGTGGCCGCTTTGCCCGGCGTTCTTGTCCCGGGAGGCACCGCGCAATTGCTGGGCAACTGGGAGATTGCTGCCGGGACGGAGTGGCAGGAGCGGCCACGGGACTGGGTCAGTCCAGGCGTGGACGCCTGGTTCATCCAGCGTGAGCAGGTGGGTCCGGAGCAGTACGCCGAAACCTGGCTGCGGGATGCCTCCGAAGGCCGGGACAGGAAACATTACCTGGACGCGTATGCCGCGTATCTGGACGACTTTGAGTCGCGGAACGTGGAAGGCATCGGCTTCGGCATGATCTGGCTCCGGCGGCCCCTCGGTGACGGGCCCGGCGCAGCCATCATCAACCGCTTCGAGGAAATCACGTACCCCATTGAACAGCCAATCGGGCCCCACCTGGGCTCCGCCGTCGAGCGTTCCGACTGGCTGGCAGCCTGCAGCCTTGAGGATGCGCACCTGCTGGTGGCGGAGGACGTCACAGAGGAGCGCCACCAGCGTCCGGGGGCGGAACACCCCGGTGTCATCCTCCTCCGCCAGGGAGCGGGGCTCCGCCGTACCAACCTGCTCAGCACGGAACTGGCCGGATTCGTCTCCGCGTGTGACGGTGATCTGTCCGTCGGGCAGATTATCGGCGCCCTGGAAGCGCTCCTGGGCGGCAGTCTTGCGGGGGAGGACGGGTTCGACGCCGGTGCTTTCAGGAGCGGGCTGCGCACCGAGGTGGCGAACCTGGTGCGCGACGGCTTCCTGTTGCCTGCCTAG	MTDSSLFTAGNTPDAPRSDLPELLTALAADLRRVEYTLDGVAELLGDSAYRALHRDQLIPALLATESAAHGEGTTAALAAVVRLWLLAEPQERDMLDAALPGVGTDGLLTLDLVEPVPGTDQSAQDLLRAKADLRPYGWAGSPATEAAGEAGGAELWVASDLAAHQLGGVLRHDHVLGIGQASTTLVQSTIRRPAARALDLGTGCGIQTFHLLHQAAHVTATDISERALAFTRFNLLLNAEVLQVDPERLEERVSLRLGSLLDPVKGEKFDQVVSNPPFVITPRTTHEDTSEQFTYRDGGLPGDEIVASLVAALPGVLVPGGTAQLLGNWEIAAGTEWQERPRDWVSPGVDAWFIQREQVGPEQYAETWLRDASEGRDRKHYLDAYAAYLDDFESRNVEGIGFGMIWLRRPLGDGPGAAIINRFEEITYPIEQPIGPHLGSAVERSDWLAACSLEDAHLLVAEDVTEERHQRPGAEHPGVILLRQGAGLRRTNLLSTELAGFVSACDGDLSVGQIIGALEALLGGSLAGEDGFDAGAFRSGLRTEVANLVRDGFLLPA				NA	NA	NA	NA	NA
D1-29_03861	801	tipA		HTH-type transcriptional activator TipA	ATGGACTGGTCCATCCAGGACATAGCCCGGATTGCAGGCACCACCAGCCGGACGCTGCGCCACTACGACGACATCGGCCTCCTCAAACCAAGCCGCACCGGGCACAACGGCTACCGGTACTACAACCAGGCCGCCCTGGTGCAGCTCCAGCGGATCCTGCTCCTGCGTGGACTGGGGCTGGGCCTGCCGGTCATCAGCCAGGTGCTCGACGACCAGGCGGACGCCGCCACAGCGCTCGCAGGGCACCTCGAGTGGCTGAAGCAGGAACAGGACAGGCTGGCGCGGCAGATCGCGTCGGTCAGGCAAACCATCGAAGCAGTGAAAGGAGGCGGCGAAATCATGGCAGAAGACATGTTCAACGGTTTCGACCACACGCAGTACAAGGACGAGGTGGAGGAGCGCTGGGGCAAGGACGCCTACGCCCGCGGAGACGCGTGGTGGCGCGGCATGGGCGCCCAGGAGAAGGCCGAATGGAAGCAGCGCTCGCAGCAGCTGGGCGCCGACTGGATCGCAGCGGCGACCTCCGGGATTGCCCCGGAAAGCGCTGAGGCCCAGGACATCGCACGCCGGCACGTGCAGTGGCTGACAGATATCCCCGGAACGCCTGCTGATGTTCCAGGGGATGCAGGGGATGCAGGGGTCGCAGGGGCTGCAGGCAGCAAAGGTAACGTCAAGGCATACGTCATGGGTCTCGGCGAGATGTATGTGGCGGATCCCCGGTTCGGCGCCAATTACGGCGGCGCGGAGGGTGCCACCTTTGTCAGGGACGCGCTGGCGGTCTATGCGGAGCGGAACCTGTAG	MDWSIQDIARIAGTTSRTLRHYDDIGLLKPSRTGHNGYRYYNQAALVQLQRILLLRGLGLGLPVISQVLDDQADAATALAGHLEWLKQEQDRLARQIASVRQTIEAVKGGGEIMAEDMFNGFDHTQYKDEVEERWGKDAYARGDAWWRGMGAQEKAEWKQRSQQLGADWIAAATSGIAPESAEAQDIARRHVQWLTDIPGTPADVPGDAGDAGVAGAAGSKGNVKAYVMGLGEMYVADPRFGANYGGAEGATFVRDALAVYAERNL	PGPT0003175_15	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003175-mta|ywnD-K21743	NA	NA
D1-29_03862	1158			hypothetical protein	ATGAAGAACTACCTTTCCCTCACCCAGCTCAACTCTGCCCTGTCCCTGCGCGACCTGTCCGATCCTGAAGCCGGTCCGCATGCCATGCAGCTGCTCCTGGCGGACGTGGTCGCAGCGCTTGAACGCCTGTGGTCGGTGCCGTCCCAGATCCACAGGATCAATCCGCTGGTGGCCACGTCTGACAACTACGACCGGCTGGGGTACTCGCCCGACGACGTCACTCGCGACTCACGCTATTCGCGCCATGTGAGCCCCACCGTGATGCTCCGCAGCCATACGTCCGCCGGAATTCCCGCACTCCTGGACTCGCTGCGCGGCGAACTGGGCCACTACGACGCCCTGCACGTGCTTCCGGGCCTGGTGTATCGCCGGGATGCCATCGACAGGACCCACGTTGGCGCCCCGCACCAGGTGGATCTGTGGCGGCTCAAGGCGCGCGGGCTGTTGGGGCCTACGGACCTGGAGGCGATGATGGCCACCGTGGTGGAAGCTGTGCTCCCTGCTGCTGAGCACCCCGGGATCGAGTGGCGGGCCACGCCGGCACAGCACAGCTATACCGCGGCGGGAAGGCAGCTGGACGTGCTGGTCACCCTGCCCGATGGACGGCGCGAATGGCTGGAACTGGCCGAGTGCGGCCTGGTGGCTGCGCCTGTCCTCCGTGGCTCAGGGTTGGACCCCCGCCGGTGGGCGGGCCTGGCACTGGGCATGGGCCTTGACCGTGCGCTGATGCTGCGGAAGGGCATCACGGACATCCGGCTCCTTCGTTCCGCGCATCCGGACGTCCAGCGCCAGCTGCTGGATCTTGCTCCGTACCGTCCCGTATCGGCCATGCCCGAGGTCCGCCGCGACCTCTCGCTGGTGCTGCCCTCCGCGGACGAGGCCGACGTCGAGCTTCTCGGCGATCTGGCCCGCACCGCGGTGGGGGCGGATGCGGACGTCCTGGCTGCCCTTGAGGTCAAGGCGGTGACGCCGACGGCGGAGCTGCCGCCCGCCGCCGTCGAACGCCTGGCGATGGCCGCCGGCCAGGTGAATGTGCTGGTGCGGCTGGTGTTTCAGCCGCTGGAGCGGACACTGACGGATGCGGAGGCCAACGCCTTGCGGGACCGGGTTTACCTGGCCCTGCACCGAGGCGGCGTGCAGGAGCTGATCGCCGGGTAA	MKNYLSLTQLNSALSLRDLSDPEAGPHAMQLLLADVVAALERLWSVPSQIHRINPLVATSDNYDRLGYSPDDVTRDSRYSRHVSPTVMLRSHTSAGIPALLDSLRGELGHYDALHVLPGLVYRRDAIDRTHVGAPHQVDLWRLKARGLLGPTDLEAMMATVVEAVLPAAEHPGIEWRATPAQHSYTAAGRQLDVLVTLPDGRREWLELAECGLVAAPVLRGSGLDPRRWAGLALGMGLDRALMLRKGITDIRLLRSAHPDVQRQLLDLAPYRPVSAMPEVRRDLSLVLPSADEADVELLGDLARTAVGADADVLAALEVKAVTPTAELPPAAVERLAMAAGQVNVLVRLVFQPLERTLTDAEANALRDRVYLALHRGGVQELIAG				NA	NA	NA	NA	NA
D1-29_03863	450			hypothetical protein	ATGGCTGTCCGTCTTTGGTCGCTTCCGTGCGCCCTGTCCCGTTCCCTCTCCGCCGCAGCTGCAGTCGGTGTCCTGCTGGCGGTTGCCGGCTGCGCCCAGCAGCTTTCCGTGGAGAACGCGGATGTGCCCGGGTGGAAGGCCACTGCGCTGCCGTCCGCCCCCGGAAGTGTGGCAGAAGACGCGGGCAGGATCCTGAACTCGCAGCCGATGGAGCACACCGAGGATGTTGCCGCGGGCAGGTACACACTCACCCTGGTGTGCGAGGGCGGAGGCAAGGCCTTCCTGGCGGTCCGGTCAGGCGGCCGCGAGCTGGTGGATCTGGGGGCCGCCTGCTATGGCACCCGTGAGAGCACCAAGGTCACCGTGGCGGAAGCGGGCCCGCTGGAGATCAGCGCGTCCAGCGTGGATGCGCCGCTGCTCTACGCCTACCAGCTGGTGCCGGCAGGGTAG	MAVRLWSLPCALSRSLSAAAAVGVLLAVAGCAQQLSVENADVPGWKATALPSAPGSVAEDAGRILNSQPMEHTEDVAAGRYTLTLVCEGGGKAFLAVRSGGRELVDLGAACYGTRESTKVTVAEAGPLEISASSVDAPLLYAYQLVPAG				NA	NA	NA	NA	NA
D1-29_03864	600			hypothetical protein	ATGCCCGCCGTTCAGGGGGCGCCATCGCGCCGCAACGCGGTTTCCTTTCCGGGCTGGTGCCCGTCCCGGAACGCGCGGCTGCGCACCCGCTCCAGTGCCGGCGTCGTGCTGTGGGCCGTCGGCGCCATGATCGCTGGAGCGTCGCTGGCAGGGTGTGAATACACGTACGAGGACGGGCGGAACCTTCCTGATCCTGCGGCGTCGGCGGCTCCGGCTGCCACCGCCCCCGTGTTCACCCGGGATCCGCGGCGGGACGATCCCGTCAGCGAGGCCGAGGTGGGGCCATGGCTGGAAGAAGCGCTGCCGGAGACCAAACAGCAGGTCATCCACATGGACCATGGCCTGCTGGCCGGGAACCAGGCCCAGACGGAGGAGGCAGCGGGCCTGCCGGCAGGAACTTATGCGCTGTCCTTGGCCTGCAAGGGCCAGCGGCGCGTGACGTTTACCGTTCGCAGCGACAACGTGACGTTGGTGGACGTGGGCCTGCGGTGCGGATCAACCAGGCAGTACGTCGTCTACATTTCCGGGGAGTCCATGCTGACCTTCCGCATGGAGTCCCGGTCCGCGGCCAACTACGCCTACCGGCTGGCACTGCTCTGA	MPAVQGAPSRRNAVSFPGWCPSRNARLRTRSSAGVVLWAVGAMIAGASLAGCEYTYEDGRNLPDPAASAAPAATAPVFTRDPRRDDPVSEAEVGPWLEEALPETKQQVIHMDHGLLAGNQAQTEEAAGLPAGTYALSLACKGQRRVTFTVRSDNVTLVDVGLRCGSTRQYVVYISGESMLTFRMESRSAANYAYRLALL				NA	NA	NA	NA	NA
D1-29_03865	894			hypothetical protein	GTGGCTTTGAACAGAATTGTGCTTTTTTACGGCTTTACTCCGATCGCTGACCCGGACGCGGTCCGGCTCTGGCAGCGCGCCTTGTGCGAGAAGCTCGGACTCACGGGACGCATCCTGATCTCCAAGGACGGCATTAACGCCACGGTCGGAGGGGAGATCGGCGCGGTGAAGCAGTACGTGAAAACCACCCGCGAATACAAGGGCTTTCATGGCATCGACGTGAAATGGTCTGACGGCGGCGCCGGGGACTTTCCACGGCTCAGCGTCAAGGTCAGGGACGAGATTGTCTCCTTCGGCGCCCCCGGCGAACTCAAGGTTGATGCCAACGGTGTGGTGGGCGGCGGCACTCATCTCCAGCCCGAAGAGCTCCATCAACTCGTGGACACCAGGAAACAGGCTGGCGAGGAGGTGGTGTTTTTCGATGGCCGCAACGCGTTTGAAGCGCAGATTGGCCGGTTCAAGGACGCAGTCGTTCCCGATGTTGCCACCACCCACGATTTCATCAAGGAGCTCGACTCCGGCAAATATGATTCCCTCAAGGACAAGCCGGTTGTCACGTATTGCACTGGCGGCATCCGCTGCGAGGTGCTCTCCAGCCTCATGGTGAACCGGGGGTTCAAAGAGGTCTACCAGCTGGATGGCGGCATCGTCCGGTATGGCGAAACATTCAAGGACCAGGGCCTCTGGGAGGGCTCGCTGTACGTCTTCGACAAGCGCATGCACGTGGAGTTCAGTGAGGACGCCAAGACCATCGGCGAATGTACCCGCTGCGACGCTCCCACCAGCAAATTCGAGAACTGCTCCAACCCCAGCTGCCGCACCCTTACGTTGTACTGCAGTGAATGCGCCTCGAGTCCGGAGACCTTGCGCTGCCCGGACGGCTGTGCGGCCTGA	MALNRIVLFYGFTPIADPDAVRLWQRALCEKLGLTGRILISKDGINATVGGEIGAVKQYVKTTREYKGFHGIDVKWSDGGAGDFPRLSVKVRDEIVSFGAPGELKVDANGVVGGGTHLQPEELHQLVDTRKQAGEEVVFFDGRNAFEAQIGRFKDAVVPDVATTHDFIKELDSGKYDSLKDKPVVTYCTGGIRCEVLSSLMVNRGFKEVYQLDGGIVRYGETFKDQGLWEGSLYVFDKRMHVEFSEDAKTIGECTRCDAPTSKFENCSNPSCRTLTLYCSECASSPETLRCPDGCAA	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
D1-29_03866	675			hypothetical protein	ATGGTTGGAGACATCACACGCCTTCTTGAAGTCTGGGTAGCCGGTTGGGCCGGCTGCCGCGGATACCCGACGGCCACCGAGGGCCGCTTTCCCGCTGTGCTGCGGGCCGACACCACCGGGGAATGGGAGTATTTCGCGCATGACCCCTCAGATGAGGAATTTGCTTCCCTTGCTGCGAAGGCAGCCGAAGCTCCTTCAAGGGTGCTCAGCATTTTGACCAACGACCTTGCCCGCTACACCTACCTGGCCGAAAAACACCGGCTCAACGTCACTTCCGCCTCCCAGGCAATGATGATCGTGGACATGGAAACACAGGACTCGGAAGATCCCTGGCTCTCCGATGACGACCTCGCGCTTGAAACGAGCGAGCTCGACGGCGTGCACCACGCAGTGGTCCGGTCCGGTGACGCCCTGGCGGCCAGCGGGCGTGTCTTTGTGATTGACGGGACGGCAGTTTTCGACAAAATCGTCACGGAACCGGACTTCCAGCGGCGAGGGCTGGGCAGCTTTATCATGAAGGCGCTGGCGGCGCAGGCTTTTGAGCACGATGTGGAAAACGGCCTGCTGCTGGCGTCCCTGGATGGTCAGAAGCTGTATTCGCACCTCGGGTGGTCCACCGTCTGCCGGGTTCTGATGCTGTCCGCCTCCACCGAGGGCTCCGATCTTTCCGTCTGA	MVGDITRLLEVWVAGWAGCRGYPTATEGRFPAVLRADTTGEWEYFAHDPSDEEFASLAAKAAEAPSRVLSILTNDLARYTYLAEKHRLNVTSASQAMMIVDMETQDSEDPWLSDDDLALETSELDGVHHAVVRSGDALAASGRVFVIDGTAVFDKIVTEPDFQRRGLGSFIMKALAAQAFEHDVENGLLLASLDGQKLYSHLGWSTVCRVLMLSASTEGSDLSV				NA	NA	NA	NA	NA
D1-29_03867	2391			hypothetical protein	GTGAACCCCCATGACTCCCTGATTCCCTTGCTGGGCCGCGGCCCGGATCCGGAACAGCTGCGTCATGTCCGCACGATTCCGGCCCGCCGCGCCGTCCACGAGGAATGGCCCGAGTGGGCGCACCCTGATCTCGTGGCTGCCTATGGTTCCCTTGGCATCCACAAGCCCTACCGCCACCAGATCCAGGCCGCCAACCTTGCCAACGGTGGCGAGCACGTGGTGATCGCCACCGGCACGGCCTCCGGTAAGTCGCTGGCATACCAGCTTCCGGCACTGGACGCTATCCACCGCTCGGAGCTTCGGGTCCTGTCCCAGCCAGGAAAAATTCACGACGACGGCGCCGTGACCCTTTATCTCTCTCCCACCAAGGCCCTCGCCGCGGACCAGCTGGCAGCCATCCGCTCGCTGAAGCTGCCCACGGTCCGGGCCGAGACCTACGACGGCGACACTGATCCTTCATCCCGCCGGTGGATCCGGGACCATGCCAACTTCGTCCTGGCCAACCCGGATATGCTCCACTTCGGCATCCTTCCCAACCACGCCTGGTGGGCAAGCTTCTTCCGCCGCCTGCAGTACGTGATCGTTGATGAGGCCCACAGCTACCGTGGAGTATTCGGCTCGCACGTCGCCAACCTGATGCGACGCCTGCGGCGCATCTGCGCTTACTACAATTCCGGAACCTCCAACCCGGGGCCGGTTTTCATCGCTGCGTCAGCCACCGCATCGGAGCCTGGCACATCCTTCGGGCGGCTGATTGGGGCACCTGTCCGGGCTGTTGCCGAGGACTGTTCACCGCACGGCTCAACGACCGTGGCCTTTTGGGAGCCTGCTCTGATGGAGCTCAGGGGTGAAAACGGTGCCCGGGAACGGCGCACAGCCGTCGCGGAAACTGCTGACCTCCTGGCCAACCTGGTCTCCTCCCGCATCCGGACCATTGCCTTCATCAAGTCGCGGCGGGGGGCGGAAACCATCTCCTCCATTACCAAGCGCCTCCTGGACGAAGTGGATCCCAGCCTGCCCCAACGGGTTGCGGCCTACCGGTCCGGTTACCTGCCGGAAGAGCGGCGCGCCCTGGAACGGTCCCTGCGTTCCGGGGAGCTCCTTGGCGTCTCCAGCACTTCGGCCCTGGAACTGGGAATCGATATCTCCGGCCTGGATGCCGTGCTGGTGGCCGGCTGGCCCGGGACCAGGGCGTCCTTGTTTCAGCAGATAGGCCGTGCCGGACGGGCGGGCCAGGACGCCATCGCAGCATTTGTAGCCAGCGATGACCCCCTGGACACCTACCTGGTCAATCATCCCGAGGCGATCTTCGACGTATCCGTTGAGGCGACCGTCTTCGATCCCTCCAACCCGTATGTGCTGGGGCCGCACCTGTGCGCCGCGGCCGCGGAGCTGCCCCTTGGCGTGGCCGAACTGGGCCTGTTCGGCAGTTCATCTGAAAAACTGCTCGGACAGCTCGTGGCGCAGGGATATCTTCGGCGCCGGCCTGCCGGGTGGTTCTGGACGCACTCACAAAGTGCTGCGGCCATGGTCAATCTGCGGGCCGACGGCGGCGGACCGGTGAGTATTGTGGACGCCGATACGGGTTCCCTGCTGGGCACCATGGACTCTCCCCAAACGCACTATCAGGCGCACACAGGTGCCGTCTATGTCCATCAGGGCGAGAGCTACGTGGTGGAAGACCTGAATGAGGACGACCACTGCGTGGTGGTGCGGCGTGCCAACCCGGACTACTACACCACGGCCCGGGACGTCACCCAGATCGAGGTACTGGGGACGCAGCGGACTGCCCAATGGGGCGATGTTTCCGTGCATTTTGGCGACGTGAAAGTCACAACACAGGTGGTCTCCTTTCAGCGCAAGGCGTTGATCTCGAACGAGATCCTGGGCGAGGAGCCCTTGGAGCTGGGGGCCAGGGATCTCTTCACCAAAGCGGTCTGGTTTGTGGTGGAAAACCGATCGCTGGCAGGAGCAGGGCTCATCGAAGCCCAGTTCCCCGGCGCCCTTCACGCCGCCGAGCACGCTGCCATCGGACTGTTGCCGCTGGTGGCCTCCAGTGACCGCTGGGATATTGGCGGTGTGTCCACAGCCATCCATGCCGACACCGGGATGCCCACCATTTTTGTCTACGACGGGCACGCCGGCGGTGCCGGTTTTGCCGAGCGCGGTTTCGAGAAGGCCAAGGTATGGCTCTCCGCCACCCGGGATGCCATCGAGGCCTGCGAATGTGAATCAGGCTGCCCGTCCTGTGTGCAGTCCCCCAAGTGCGGCAATAAGAACAACCCTTTGGACAAGGCAGCGGCCATCACCCTGATCGATGTGCTGCTCAGGGATGCGAGCGAGGCCGCAACAGGCAGCGACTTGTTCGAGGCACCCAGCTTCCAGAGCTAG	MNPHDSLIPLLGRGPDPEQLRHVRTIPARRAVHEEWPEWAHPDLVAAYGSLGIHKPYRHQIQAANLANGGEHVVIATGTASGKSLAYQLPALDAIHRSELRVLSQPGKIHDDGAVTLYLSPTKALAADQLAAIRSLKLPTVRAETYDGDTDPSSRRWIRDHANFVLANPDMLHFGILPNHAWWASFFRRLQYVIVDEAHSYRGVFGSHVANLMRRLRRICAYYNSGTSNPGPVFIAASATASEPGTSFGRLIGAPVRAVAEDCSPHGSTTVAFWEPALMELRGENGARERRTAVAETADLLANLVSSRIRTIAFIKSRRGAETISSITKRLLDEVDPSLPQRVAAYRSGYLPEERRALERSLRSGELLGVSSTSALELGIDISGLDAVLVAGWPGTRASLFQQIGRAGRAGQDAIAAFVASDDPLDTYLVNHPEAIFDVSVEATVFDPSNPYVLGPHLCAAAAELPLGVAELGLFGSSSEKLLGQLVAQGYLRRRPAGWFWTHSQSAAAMVNLRADGGGPVSIVDADTGSLLGTMDSPQTHYQAHTGAVYVHQGESYVVEDLNEDDHCVVVRRANPDYYTTARDVTQIEVLGTQRTAQWGDVSVHFGDVKVTTQVVSFQRKALISNEILGEEPLELGARDLFTKAVWFVVENRSLAGAGLIEAQFPGALHAAEHAAIGLLPLVASSDRWDIGGVSTAIHADTGMPTIFVYDGHAGGAGFAERGFEKAKVWLSATRDAIEACECESGCPSCVQSPKCGNKNNPLDKAAAITLIDVLLRDASEAATGSDLFEAPSFQS				NA	NA	NA	NA	NA
D1-29_03868	360			hypothetical protein	ATGAGCGGCAGGATCCGGGACCACCCGGAGCGCGGCTCGGGCACTGTCCTGGCAGCGGGACTCGCGCTAGTGGTGATGATGGCCATGGCTCTGATGCTGTTGTTGGCGCAGTCAGCGGTGATGGCCAGCAGGGCGGCAGCCGCCGCGGATCTGGCGGCCCTCGCCGCGGCCGATGCCCTGCGCGGCCTCACGCCCGGCGAGCCGTGTGCGGTGGCAGCTGACCTGGCAGGAATACGTTCCGCCAGGCTCGTGAGCTGCACAGAAGGTGCCGGCCAGACAGTTGAGGTCCGGACAGAACTGCTCGCCAGGACAGTCCTGGGGACCGCAACCGGCCAAGCGCGTGCAGGACCTCCGCCCTAG	MSGRIRDHPERGSGTVLAAGLALVVMMAMALMLLLAQSAVMASRAAAAADLAALAAADALRGLTPGEPCAVAADLAGIRSARLVSCTEGAGQTVEVRTELLARTVLGTATGQARAGPPP				NA	NA	NA	NA	NA
D1-29_03869	405			hypothetical protein	GTGGCATTGCCGGCAGTCCTGCTGCTGCTGGCGTTGCTCCTGGCGGGAGCCGCGGCAGGGGTTACCCAGCTTCGTTTGGAGGAGGCGGCGCGGGCCGGTGCCAGGGCATTGGCGCGGGGCGAGAGCGTCGCAGCTGTCGAGGGGATCGTCAGGACGTTGGCCGGAGCCACCGCAACAGCTGCGGTGGCCGCTGATGGCGAATGGGTGAGTATCACGGTGGCTGATCGGGTTGGTGGCCCGTTGGGAACGACGGTGCCCTGGACGTTGACTGCTGTGGCGTCTACGCGTAGTGAAACTTCGGTTGCCCTGCAGATGCCGGCCGCGGAACTGGCAACAACGCTGGGGTCGGTGGCCCTCGGCGAGCTCCTGATGATGCACCAATTGCGGGGGCGGGCGGCCGCATGA	MALPAVLLLLALLLAGAAAGVTQLRLEEAARAGARALARGESVAAVEGIVRTLAGATATAAVAADGEWVSITVADRVGGPLGTTVPWTLTAVASTRSETSVALQMPAAELATTLGSVALGELLMMHQLRGRAAA				NA	NA	NA	NA	NA
D1-29_03870	357			hypothetical protein	ATGTCACTTAGCCAAAGCAGCCCTGAAGCGCCCACGCCAGGCGCTCCCACTCCCACACTCCCGCTCGGCCGCAGTGCCAACGAGTCGAAGGCTGTAGCGCGTCCGGGCGTCGGGCAGGCGCCGGCGGCGCAGGGCAATGACAACGTAATCGAGCTGTACCCAGGTGTCAGCCGCCTGCAGCGGCGTCGGCGCGGTATCCGGCTTATGGGTTCGGAGGCAGGAATGGCCACCGCTGAATATGCCATCACCACGTTGGCGGCGGTGGGATTCGCCGGCCTGCTGGTCTTCATTCTCCGCAGTGACGAAGTACGTGGCTTCCTGCTGAACCTCATCCGTACGGCGCTGGCCTTGCCATGA	MSLSQSSPEAPTPGAPTPTLPLGRSANESKAVARPGVGQAPAAQGNDNVIELYPGVSRLQRRRRGIRLMGSEAGMATAEYAITTLAAVGFAGLLVFILRSDEVRGFLLNLIRTALALP				NA	NA	NA	NA	NA
D1-29_03871	345			hypothetical protein	ATGCTGTTCCCCGCTCTTACCTTGTCCCATCTCATAATTGAGGGCATGGACGACAAAGAGCTGAACAGAGCGCTGAGAGCCTACAGTGAAGCTTGGCGTCGGTACGTCGCTACGCTTGCCGACCCGGCAAGCCCCCGCGTGGAACCGAAACTCCACTCGGCAGTGCAAGCCGCCATCAATAAACTGCGCACTGAAGCGGAGCGCGTCGTGCGTGACCCGGGCGGACCGCTCAGCAACTACAGCGACGCGCTGGCCACCTGGGCTGAGGCCAACCATCCCGAAATCGATTCGTCCGAAATGTCTAGGCATATCACTGAAAAACTAGTCCTGGATCACTTCTGGTAG	MLFPALTLSHLIIEGMDDKELNRALRAYSEAWRRYVATLADPASPRVEPKLHSAVQAAINKLRTEAERVVRDPGGPLSNYSDALATWAEANHPEIDSSEMSRHITEKLVLDHFW				NA	NA	NA	NA	NA
D1-29_03872	639			hypothetical protein	ATGACAGAGAGCTTTTTCCCGGTACTTCCCCTGGTATTCGTCCTGGCCGCCGCCGCGACCCTGGCTTTCGCGGACCACGGCCGGGCCAGGAGGCGGCTGCTCGGCCTTTGCGCTGCACCTGCATCGTCCGCACGCGGGAAGTCGGGGGACCGGTTCCGAAGCCCGGACATGTCTGCGGACCTGGGCCGGGGTGGCGACCTGGAGGGACTGCGTGACACTCCGATGATCCTGGAGCTCGTGGCCGCGATGCTGGACTCGGGGTCAGGAATAGGACGTTCACTGGACCTTGTGGCGTCTGTTGCCTCCAGTGACTACTGCAGATCGCTGCGTCCGGTCGTTTCGGCCCTAGCCATCGGGGCGGACTGGGAGACGGCGTGGCGGAGCTCGGAGGTGCGCCTGCCCGAGATTCTCGAGCTGCGTGACGCGTTGGGTTTCGCAGCACTGACCGGCGCCCCATCCTCGGCCATTCTTTATGCCCAGGCTGCCAGGCTGCGCCGCGAGCGGTACCGGGCCGCGGAGAAACGTGCGGCATCCCTCGGCGTGAAGCTGGTCATTCCCCTCGGACTGTGTTCGCTGCCGGCCTTCATTTGCCTGGGCGTCATTCCGGTGCTGCTGGCACTGGTTCCCTCGGGATCCTGA	MTESFFPVLPLVFVLAAAATLAFADHGRARRRLLGLCAAPASSARGKSGDRFRSPDMSADLGRGGDLEGLRDTPMILELVAAMLDSGSGIGRSLDLVASVASSDYCRSLRPVVSALAIGADWETAWRSSEVRLPEILELRDALGFAALTGAPSSAILYAQAARLRRERYRAAEKRAASLGVKLVIPLGLCSLPAFICLGVIPVLLALVPSGS				NA	NA	NA	NA	NA
D1-29_03873	1014			hypothetical protein	ATGACCGTGCTGCTGGCCATCGTCCTGGTGGTGGCCGTGTTGCTCCTCCATCGGCCCGGGGTCGTTGTGCGACGGTTCCGGCGCGCTGCGGGCACTGGCAAAGTGGGCAGCTTTGGCTCGGCGGGCTCCAAGTGGGGCGGCCGGGGTGCCCCATCCAGTGACGGATCCCTCCGTGGTCCTTCTGTGGATACTGCCTTCGCCGGTTCCTGGTTCAGCGGTGGTTGGTTCAGTGGTTCTTGGTTCCCCGGCGGTTGGTTCCCGAGTCCCGGGCGTCATGCCGGCAGGGCCGGCGCGGGTGCCGCCGGTGTCTCCATGACCCTGGTAGTGCAGCAGCTCGCCGCGTTACTGAAGGGCGGCCGGACTCCCGCGAGGCTGTGGGAGGAGCTATGGCTGGTCCATGCCGGCGTGCCGGAAGGATCTGCCCGGAGGCCTGAAGGACCTGCATCGACGGAAGCGCCTGGACGGACCGGACAACGGGAGAGGAGCGAACAGTCATGGCGGACAATGAGGCAGGAAGTCGCCATGACTGGGCGGGCCGGCTCTGGCCTGAGCTCGGCTTCAATGGCTATGCTCGGAGCCGCCAGGGCCGCAGCCTTCCGTGGCGCACCGGTGTCCGACGCCCTCAGAATGTCGGCCAGGAACGCCTTCCCGCGTGGAGGCAAAGAGAACCGAACCTGGATCGACCTCGCTGCCTGCCTCGATATTGCCGAGGCGAGCGGGTGTCCCCTGGCTGACGTCCTCTCCCGCTTTGCCAGCCAGCTCGAGGTGGAGGATGACGCCGAGGCCGCCCGGCAGACTGCGCTCGCGGGGCCCAAAGCCACGGTCAGCCTCCTGACGTGGCTCCCGCTGATGGGCCTTGGCCTGGGTATTGCCTTGGGCGTAGATCCTCTTGCCGTCCTGTTAGGCACGCCTCTTGGCCTGGCGGCGCTGGCTGCTGGAGTGGTCCTCACCGTTGCCGGGCGGATCTGGTCTTCGCGGTTGGTCCATGCCGCGGCAGGGGCGGCCGTCCCATGA	MTVLLAIVLVVAVLLLHRPGVVVRRFRRAAGTGKVGSFGSAGSKWGGRGAPSSDGSLRGPSVDTAFAGSWFSGGWFSGSWFPGGWFPSPGRHAGRAGAGAAGVSMTLVVQQLAALLKGGRTPARLWEELWLVHAGVPEGSARRPEGPASTEAPGRTGQRERSEQSWRTMRQEVAMTGRAGSGLSSASMAMLGAARAAAFRGAPVSDALRMSARNAFPRGGKENRTWIDLAACLDIAEASGCPLADVLSRFASQLEVEDDAEAARQTALAGPKATVSLLTWLPLMGLGLGIALGVDPLAVLLGTPLGLAALAAGVVLTVAGRIWSSRLVHAAAGAAVP	PGPT0022290_1819	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510	NA	NA
D1-29_03874	1335			hypothetical protein	ATGGCCGACGCCGGACCGGTCACCCCTTCCCGGGTGGCCGCGGCGGTCCAGGCCACCGGCAAGCTGTTGGGGACTGCCGGTTCCCTTGCCGCGATGGAACGCATCAGTGCTGAACTCAACGGGCTGGGCCCCCTTCAGGAGCTGACCAGGGACGTGGCGGTGACAGATATCTTCGTTAACGCCCCGGACTCCGTGTGGGTCGACAGGGGAAAGGGGATTGAGCGGGCCAACGTCTTCTTTGCAGGTGAAAGCCAGTTGCGGGCCCTGGCCTCACGGCTGGTCGCTGCCGGCGGCAGACGGCTTGATGACGGGTCGCCGTGCGTGGATGTCAGGTTGGATGGCGGCTACCGTGTCCACGCTGTGCTGCCGCCCATTTCCACCGCAGGCACCCTGCTCAGTATCCGGATCCGGCGCGAGCAGGTATTCAGCCTTGACGAACTCCGGTCCGGAGGCATGTTCGGCCCTCTTGTCCAGGATGTCCTCGAACGTATTGTGGAGCGCCGGCTGAGCTTCCTCATCAGCGGAGCCACCGGCTCAGGCAAAACAACCCTGCTGTCCACCCTGCTGGGCCTCTGCTCTCCGGGCGAACGGCTGGTGCTGATCGAGGATGCCGCGGAACTGAACCCCGTTCACCCGCATATTGTGTCGCTGGAATCCCGCCACGGGAACCTGGAAGGCGGCGGTGAGGTGGATCTCGGCGAGTTGGTCCGGCAGGCGTTGCGGATGCGGCCGGACAGGCTGGTTGTGGGGGAATGCCGTGGGGCTGAAGTCCGGGAGCTCCTTACCGCCATGAATACCGGCCACACCGGAGGGGGCGGAACCATCCACGCCAACACTGCCACCGCAGTCCCGGCCCGGCTTGTAGCCCTGGGGGCATTGGCCGGGCTGGGGGAGGACGCCGTCAGGCTTCAGGCTGCCAGCGCCCTTGATGTGGTTATCCACGTGAACAGGTCTGCGTCTGGGCGCCGCGTGGCCTGCATCGGGGTGGTGGACAACGGTCCCGACGGCCTGACGGTAGTTCCTGCTTTGGAGGCTGACGTTTTTGAAACTGGAGTGCTGGAGGCTGGTGCAATGGCGAGTGGCACGCTTAAGAGAGGCGCTTGGGGGACTGACCCGCTGGAGACTGGCGTTTGGGAGCCTAGCCCGTCAGAGACCGGTGCGGTGGAGACGGGCGCCAGGGCAACAGACGCTGCGGAAACTGACAGCGGCCAAACCCGTCCCGGTCCGGCGTGGGCGCCGCTCGCCGCACGTCTTGGGCTGCGGCTGGGCCAGGCATCAGGCGGCGGTTTTGTATCCGCCGGCACTTTTCGAACAGTTTCCGGAACGGCAGCATGA	MADAGPVTPSRVAAAVQATGKLLGTAGSLAAMERISAELNGLGPLQELTRDVAVTDIFVNAPDSVWVDRGKGIERANVFFAGESQLRALASRLVAAGGRRLDDGSPCVDVRLDGGYRVHAVLPPISTAGTLLSIRIRREQVFSLDELRSGGMFGPLVQDVLERIVERRLSFLISGATGSGKTTLLSTLLGLCSPGERLVLIEDAAELNPVHPHIVSLESRHGNLEGGGEVDLGELVRQALRMRPDRLVVGECRGAEVRELLTAMNTGHTGGGGTIHANTATAVPARLVALGALAGLGEDAVRLQAASALDVVIHVNRSASGRRVACIGVVDNGPDGLTVVPALEADVFETGVLEAGAMASGTLKRGAWGTDPLETGVWEPSPSETGAVETGARATDAAETDSGQTRPGPAWAPLAARLGLRLGQASGGGFVSAGTFRTVSGTAA	PGPT0016025_2831	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283	NA	NA
D1-29_03875	1209			hypothetical protein	ATGAGCAGGCATCAGCTACCGTCGTCCACCTTTGAACAGGGCGCCCCATCAGGTCCGGCACGCCGCAGCTCCCCTGCGGGCAACCGCTCACAGGCCACCGGAATGACCCTGGCGCGGGGGCCGGATCCTGCCGGGGCAGCATGGCTGCCGGATGACTCTGCAGAGGTTCTGCTGGTCACAGGCTTCAACGTTCTCCGGGGTGAGGTGGAACGGATTGTTGCCGCCGCCGGAGGACAGCTTCGTGTGGTGCCTGACGTGGCCGATGCCGCCAAATACTGGGATTCAGCAGCAGCGGTGCTGGTGGGAAGTGACGTCCGTGAGTTGCCACCCCGGCGGCGGGCGCCGGCGGTCCTGGTGGGACTCAACGGAGAAGGTGACAGCCTCTGGCATCTGGCCGCTGCCCTCGGGGCTGAAAGGGTAGCGGTGCTGCCGGACGCCGCAGCCTGGCTGGCGGAATATCTGAGCAGGTCGCGCTCACCCGAGCCCGGCGGCCTGGTGCTCGGCGTTACGGGCGGTTGCGGTGGGGCAGGTGCCACTACGTCTGCCATCTGGATCGCGCAGGCGGCGGCGGGGCTGGGTGCGCGCGTACTGCTGGTGGACGGCGATCCCTGGGGCGGCGGGCTGGAACTTGCCCTCGCTGCCGAAGAGACGCCGGGCCTGCGCTGGCCGGATCTCTCCGAGGCCAGCGGCAGCATCGATCCTGAACAGCTTTCTGATTCCCTTCCCGTCGCCGGAGGTTTTTCCTTCCTGTCCTGGCCGGGCAGCCGGGACCGGCCCACTCCAGTGGACGGTCCCACCACGGCAGGTGTCATGGATGCGGCACGGCGTGGGTACGAGCTGGTGGTCGTGGACATAGGGCGCGGCTCCGAACAGCTGCAGACCTTCGCCTGGGACTGCGACCGCATCCTGGTGGTGGTTCCTGCACTGCTGAAAGCTGCGGTCGCTTCAGCCCGGCTGTTGCAGGAGCTTCCGCCCGTTGAAACTGCACTCCTCATCAGGGGCAAAACAGGAGCGGCCCTGGACGGTGCCATGATTGCGGACGCCGTGGGGCTGCCGGTGCACGGAAGAGTCCCGGAGATCCGTGGCGTGGGTGCCGCGTCAGAGAACGGACGGCTCCTCGAGTTGGGCAAACGGCGCGGCGTCAGGCACTTTGCCGCTTCGGTTCTGGACCTGCTTGAGGGCGAGCTCCCGATGGGTGAACTCCTGTGA	MSRHQLPSSTFEQGAPSGPARRSSPAGNRSQATGMTLARGPDPAGAAWLPDDSAEVLLVTGFNVLRGEVERIVAAAGGQLRVVPDVADAAKYWDSAAAVLVGSDVRELPPRRRAPAVLVGLNGEGDSLWHLAAALGAERVAVLPDAAAWLAEYLSRSRSPEPGGLVLGVTGGCGGAGATTSAIWIAQAAAGLGARVLLVDGDPWGGGLELALAAEETPGLRWPDLSEASGSIDPEQLSDSLPVAGGFSFLSWPGSRDRPTPVDGPTTAGVMDAARRGYELVVVDIGRGSEQLQTFAWDCDRILVVVPALLKAAVASARLLQELPPVETALLIRGKTGAALDGAMIADAVGLPVHGRVPEIRGVGAASENGRLLELGKRRGVRHFAASVLDLLEGELPMGELL				NA	NA	NA	NA	NA
D1-29_03876	1800			hypothetical protein	GTGATCTATGTGGACAACACTCCGGAATGGCCGGCTGTGGAGGGGCGGTCAATCAGGCCTTTCCCACAGGGCAGAATGAGAACCATGTACTTGCTGCTCGCCGCCCACGCCGATGGCGCAGTGCTGCAGGAAGTCACCCAGGCGGGCGATCCCCACCCGGACAACCCGGAACCGTGCGTGGTCAGCGCGGCCGGTCTCCCCGCCGTCGTACGCCAGCGGGAACAGGCGCACGGAGCGCCTCCACCCCGCTGGATCTGGCACCGGACACAGGACTGGTATCCGGCTCTCCTGGCGTCCGGGGTGGAAGTTGACCGGTGCTATGACCTGACGCTGTGCGGCAACATCCTGGCCTACTCCCAGTTCACGGCGCACACCGAATACGCCCGGAAGGCCGAAATGATCACGCTTGACGATCCGCAGCAGCCGCCGCGTGCCCTCCAGCCGCCGCCACCGCCCGCCGAGCAGGGTGCGCTCTTTGAGGATCTGGCCCGGGGTGCACTATCGCAGCCTACGCTGAACGAACTGCGCGCCGAATACGCTGCCCAGCAGTCAGCCCTGGCCTCGGCCAGCGGCGCCGACAATCAGCAGAAGCGCCTTCAGCTGCTCCTCGCGGCTGAATCTGCCGGGGCGATGATCGCAGCGGAAATGCAGCATACAGGAGTTCCGTGGCGGGAGGACCTGCACGGGCAAATCCTGGCGGACCACCTCGGGCCCCGCCCGCCGCTGGGCCACCGGCCGGCGAAGCTTGAGGCGCTTAATACTGAGTTGCGCGGCCTGCTCAGTTCGCCCGGGCTGAATCCTGACTCCCCGCAGGAGCTGATGCGCGCCCTGCACCGCAACGGCATTGAGGTAAAGAGCACCCGAAAGTGGGAGCTCCAGGAATCCAGCCACCCTGCCATCGAACCGCTGCTGGCCTACAAGAAACTCTCCCGCCTGCACACCGCCAACGGCTGGGCGTGGCTGGACGCGTGGGTTAAGAACGGCCGGTTCCAGCCCGAATACGTGGTGGGCGGAGTAGTGTCCGGCCGGTGGGCCTCCCGCGGCGGCGGTGCCCTGCAGATTCCGCGCCAGATCCGCGGCGCCGTGCATGCGGATCCCGGCTACAAACTTATTGTCGCGGATGCTTCGCAGCTGGAACCCCGGGTCCTGGTGGCCCTCGCGCAGGACTCCAAAATGGCGGAGGCCGCAAGGGACAAGGACCTCTATGCGGGTATTGCGGCGCAGGGGTTCGGCGGTGACCGTGCGAAGGCAAAGATTGCCCTGCTTGGCGCCATTTACGGTGCCACTACCGGCGAATCCGGCCGCCTGATGCCGCAGCTCGCCCGTACTTACCCCCGCGCCGTGGGCTTTGTGGAGCAGGCAGCGCGCGACGGCGAGCAGGGCGGCGCCGTTACTACCCGGCTGGGCCGCAGCAGCCCTCCGCCATCGGAGGGCTGGCTCCAAAGCCAGCGGACCTCCACCGCGGAGGAGCAACGCCGGGCCGACTCAATCGCCCGTTCCCGCGGCCGTTTTACCCGCAACTTTGTGGTGCAGGGTTCGGCGGCTGACTGGGCGGCATGCTGGCTGGCGGAATTACGACGGCGGTTGCGCACCATGCGCGCGGAAGACTCCTTTCAGGCGGAACTGGTGTTTTTCCTGCACGACGAAGTGATGGTGCACGCTCCGGAGGCCGGCGTGCAGGCATGTATCCGTGCCATCGAGGAAGCCGCCGGGGCAGCCAAAGAGCTGCTGTTCGGCCGCATTCCCGTCGAATTTCCGGTCAGTGTGGCCGTGGTCGATTCATACGACAACGCCAAGTAG	MIYVDNTPEWPAVEGRSIRPFPQGRMRTMYLLLAAHADGAVLQEVTQAGDPHPDNPEPCVVSAAGLPAVVRQREQAHGAPPPRWIWHRTQDWYPALLASGVEVDRCYDLTLCGNILAYSQFTAHTEYARKAEMITLDDPQQPPRALQPPPPPAEQGALFEDLARGALSQPTLNELRAEYAAQQSALASASGADNQQKRLQLLLAAESAGAMIAAEMQHTGVPWREDLHGQILADHLGPRPPLGHRPAKLEALNTELRGLLSSPGLNPDSPQELMRALHRNGIEVKSTRKWELQESSHPAIEPLLAYKKLSRLHTANGWAWLDAWVKNGRFQPEYVVGGVVSGRWASRGGGALQIPRQIRGAVHADPGYKLIVADASQLEPRVLVALAQDSKMAEAARDKDLYAGIAAQGFGGDRAKAKIALLGAIYGATTGESGRLMPQLARTYPRAVGFVEQAARDGEQGGAVTTRLGRSSPPPSEGWLQSQRTSTAEEQRRADSIARSRGRFTRNFVVQGSAADWAACWLAELRRRLRTMRAEDSFQAELVFFLHDEVMVHAPEAGVQACIRAIEEAAGAAKELLFGRIPVEFPVSVAVVDSYDNAK				NA	NA	NA	NA	NA
D1-29_03877	975			hypothetical protein	ATGAGCGGTGTTCAGGAGCAGCAGGCCGGCTCCGGGCGATCTTCCGGCATCCAGCACCAAAGCGGAATCCGGCCGCATACGGCGCTGGCCGGCTACCTGCTGGACCAACTGAATGTGCTGGAAGGCGATCTCCCCCTCGCCGGCGCCGGAGATCCGGAAGCCGTCCATAACGCGAGGGTTGCGGTACGCCGCTTCCGCTCGGTGGCCACGTGCAACAGGTTCCTTCTGCCCGATTTCCCGGCGGACGACGTCGGCATGCTGAAGACGCTGGCCCGCGGGCTGGGCGAATCACGTGACGCTGAGGTCCAGGCCCAGCGGATGTCCTTGGTGCTGAATGCCGACGGTCCGTGGCACCGTGAGGAGAGCCTGTGGAAGCTGGTTGAAGGCCTCCGTGCCCGGGCGGTGGAACGGGCGGCGTCGCTGGAGCAGACGGCTGCAGGCCCGGCTTTGGCCAGGGTGCGGGGCATTCTCGCAGCAGGTTGGGGCCACACCGGCAGGATGGAGGTCACAGCAGCGCTGCAGAACCGCTGGGAACGGCTCGGTATCCTGATGGCGAAGGCGCGGGAACCGTTGCCCTTGGACGAGCACCACCTCCACCTGCACAACGTCCGTAAAGCGATTAAGGGACTTCGCTATTCGGCCGAGGCGGTAACCGCGTCATTTGGGGAACCTGCCCTGGCCATCGTTCGCCCTGCCACGGCCCTGCAGCGGCTCCTGGGCGAACAGCATGATGCCATTGTGGCCGGCGCCTTGCTGGCTGATGCTGCACGGGCCCATTCTGCAGGCGGCCTTTCTGTAGGCGTCTCTGTGGGCGTCCTTGACGTTGATCCGCAGGACGCAGCACCACTGGCGCGGCTGGAGTTCCTGCACGCGGTCTCCGCCGAAACGGAGTTTTTCCGACTGGTTGCCCTTGACCCGGTTCCGTCACCCGCCATCGTGATGACCGTCCGACGTACTGAGAGCGCCCTGCCATAG	MSGVQEQQAGSGRSSGIQHQSGIRPHTALAGYLLDQLNVLEGDLPLAGAGDPEAVHNARVAVRRFRSVATCNRFLLPDFPADDVGMLKTLARGLGESRDAEVQAQRMSLVLNADGPWHREESLWKLVEGLRARAVERAASLEQTAAGPALARVRGILAAGWGHTGRMEVTAALQNRWERLGILMAKAREPLPLDEHHLHLHNVRKAIKGLRYSAEAVTASFGEPALAIVRPATALQRLLGEQHDAIVAGALLADAARAHSAGGLSVGVSVGVLDVDPQDAAPLARLEFLHAVSAETEFFRLVALDPVPSPAIVMTVRRTESALP				NA	NA	NA	NA	NA
D1-29_03878	195			hypothetical protein	ATGGCGGGCAGGTTCGAAATTCACCGTGTTGGCGACGAGTCCTACAGGCTCCGGCTTACAGACGCGGAGGGGAACGTTGTGGCGGTTTCGCCGAACTTTAAACATGTCAGCGCACTGCTTGAGGGCATCAAGGCAATGCGCGAAAACGCTGCTACCGGAATAGTGGTTGATCTCCGGCAGCAGACGCAGTCGTAG	MAGRFEIHRVGDESYRLRLTDAEGNVVAVSPNFKHVSALLEGIKAMRENAATGIVVDLRQQTQS				NA	NA	NA	NA	NA
D1-29_03879	657	nudL		putative Nudix hydrolase NudL	ATGGACCTGGTGCGAAGGACCGAATCCGGGACCGCACCCGCACCCAACGCGCTCTGGGCCACCCTCACCGTGGATGAAAGCATTGCCCGCAGGGCCGCGGTCCTGATGCTGTTCGGCGTGCTGGACAACGTCCCCGCTTCCTCAGGGAAATCCCTGGCGCCCGCGGACCTGGACATCCTGCTGCTGGAACGAGCGCACACCCTGGATTCCCATCCCGGCCAGGTAGCGTTTCCGGGCGGCACCATTGACCCCAACGAATCCCCGGTGGCTGCCGCCCTGCGTGAGGCGGAAGAGGAAACCGGGCTGGATGTCACGGGAGTTGAAGTCCTGGGCACCCTCCAGGAGCTGGGGCTGGCCCGGAGCAATTTCCTGGTCACACCCGTGCTGGGCTGGTGGGCTTCGCCGTCGCAGGTTCGGGTGGTGGACTATGCCGAGTCCGCACAGGTGTTCCGGATTCCGGTCCGCGACCTGCTGGACCCGGACAACCGTGTAATGTCCACCGTCAGCCGGGGCGGCCGGACCTTTAACAGCCCGGCCTTCACGGTGAACGGTGTCCTGGTGTGGGGCTTTACCGGGATGGTGCTGACGGGACTCTTCGAGCAGTTGGGATGGGCGGTCCCGTGGGACCGCACCCGCCTGCACGTGATAGACATCTAA	MDLVRRTESGTAPAPNALWATLTVDESIARRAAVLMLFGVLDNVPASSGKSLAPADLDILLLERAHTLDSHPGQVAFPGGTIDPNESPVAAALREAEEETGLDVTGVEVLGTLQELGLARSNFLVTPVLGWWASPSQVRVVDYAESAQVFRIPVRDLLDPDNRVMSTVSRGGRTFNSPAFTVNGVLVWGFTGMVLTGLFEQLGWAVPWDRTRLHVIDI				NA	NA	NA	NA	NA
D1-29_03880	936	nth_2		Endonuclease III	GTGCCGGCTTCCCGTAGTCCCAAGGAGGCTGCGGCCGCTGCAGCGGCCGCGGCCTCCGGCGCTGTCGCCGGTGCGGCCGTGGCCGGTGCAGTGGTGGCGGGTGCAGCGGCAGCCGGCGCACTTTCCGGCGCAGCGGCGGCGGGTCCACGGGTCTCATCGGAGTCCTTGCTTGCCCTCAAGCGCAGGGCACGCCGGATCAACAGGGTGCTGGCAGAGAAGTACCCCTACGCCCACGCAGAGCTTGATTTCCGGAGCCCGCTGGAACTGCTGGTTGCCACGGTTCTGTCGGCGCAGACTACAGACGTCACCGTCAATCAGATCACTCCGCTGCTCTTTGCGCGGTACCCGGATGCGCGCAGCCTTGCCGAGGCTGACCCGGCAGACCTGGAAGCGATCATCAAACCGACAGGCTTTTTCCGGGCCAAAACCCGGAATCTGATTGCCTTGGCCACCCGTCTTGTGGACGACTACGACGGCGTGGTGCCGGGACGGCTTGAGGACCTGGTCACTTTGCCTGGCGTGGGACGCAAGACAGCCAACGTGGTCCTGGGCAACGCCTTTGGAATTCCCGGAATCACCGTGGACACCCATTTCGGCCGCCTGGCCCGCCGCTTTGGCTGGACCCAGTCTGAGGATCCTGTCCAGATCGAATTCGACGTTGCCGAGCTTTTTGAGCCAAAGGATTGGACCATGCTCTCCCACCGCGTGGTGTTCCACGGACGGCGGGTGTGCCATTCACGGAAACCGGCATGCGGTGCGTGTCCTGTGGCCAACTGGTGTCCCAGCTACGGGCTTGGGGAAACAGATCCTGCCAAGGCCGCCAAGCTGCTGAAATACGAACTCGCCCCCGGCAGCGAGCCGCTCCTGGAAAAGCTGCTCGCAGAAACGCACAGGGCCGCCGAGATCCGGATGGAATCCCAGAAGAGAAATCCGTGA	MPASRSPKEAAAAAAAAASGAVAGAAVAGAVVAGAAAAGALSGAAAAGPRVSSESLLALKRRARRINRVLAEKYPYAHAELDFRSPLELLVATVLSAQTTDVTVNQITPLLFARYPDARSLAEADPADLEAIIKPTGFFRAKTRNLIALATRLVDDYDGVVPGRLEDLVTLPGVGRKTANVVLGNAFGIPGITVDTHFGRLARRFGWTQSEDPVQIEFDVAELFEPKDWTMLSHRVVFHGRRVCHSRKPACGACPVANWCPSYGLGETDPAKAAKLLKYELAPGSEPLLEKLLAETHRAAEIRMESQKRNP	PGPT0013735_899	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773	NA	NA
D1-29_03881	1455			hypothetical protein	ATGAACCAGCAGAGCTTCGGCCAGAAACTTGGCCAGAAACTTGGCCGCTCAACAGGGGCCGGGCCTGGTGGCTCGTCCGCGGGCGGCGCGGGAACAGGGACCGACGGCGGGCCAGGAGCCAGTGGTCCGCGGAACACCGCCAAACCCGGCACCACCAACCAGGCAGTCCTGGGGCCGTTCACGGTTCGCGATCTGGCGGTCTTTGCCGCCACCCTCATTCTCTTCGTCGCCTCGCTGCTGCCAATTTTTGGCGGCCGGTTTAACCTCTGGAACGCCGGCAGCCTGTTTTTCCTTGGCCTGGGAATGGTCCTGCCGCTCATCGTGAGCGCACTTTTTGCCGCCCGCAGGCTGGCACCCGCCACACGGATCCGGATCGGTTCGCTGTCCGTTGACCAGTTCGCGTCCGTGGTGGCCTCCTTCGCCCTGGCGTTCTTCTTCCTGACGGTGGCAAGCGCCTACGCCCACAGTCTGCTGGTGGGACTCATCGGCTCCGTGGTCCTGTTTGCCGCTACCGTGCTGGCCCGGTTCATTCCGTATTTTGCCGGCGACTTCCTGGACCGTAAGGAATCACCTGCCCACGTGCTGGCCCGGGAATCAGCCGTTCCGCTGCCGAGGCCGCACACGCCGAAGGCTCCCAAGCCCACCGCGGCTGCCCAGCATGAAGCTATTAATCCGCACGCAACGCCTCACGCCCGCGGAACTGCAGCCCCGCAGGGAGCGACTGTCCCGCACGGTGCTGCCGCCGGAAGCGCTGCGTCGCAGGTCGGAGCATCTGCCGCTCATGGCGGATCATCGGCGGTACCAACGCCGGGCACAGCTCCAACGGGGGCGGTGCCGGCTGCTGCCGGATCCGGAACGGTCCCCGCCGCGGCTGGGGCAGGAAGTGCGGCCGCAGTCTCCTCAGCAGCCGAAATGACCGAGTGGTCAGTGGCAGGTGACCACACCCCCGCAACCCAGGCAGCCGACGTCGTACCTCCGGCTGGCCGGACGTCCGCCGCGGAGGAAACCCAGGCAGCCAGCCTTCCGACGGCGGCTGCCGGCGCCGCAACAACAGGTGGAGCCCTTGCTGGTGCCGGAGCGTCCGGTGCCGCAGCGTCTGGCACTGCGGCTTCGGGCAATTCAGCACCAGGAGACGCCGGATCGTCGGCAGCCTGGGAGCCTGCCCCCGCAACCGTGGTGCATCAGCAGGTCCGGAGCCAGGAGCCCATTGGAGCCACAGTTGATCCGGCAAGCCGTGCGGACGAGTCGGACGAAGCCCCGGTCCACGAGGCCTTCTGGTTCGCCGTAGCGCAGCACCGAACTGCGTTTCACCCACAAACCGGCGCCCCCGCCTTTGTGATCGAACCGGGAGGCTGGGTACTGGCACTGGAGGACCGCGGACACGAGTTCCTGGTTCAGCACACTGACGGGCGTCTTGGTGTGCTGCGCGACCTCAGCAACATCGAGCGCGGGTAG	MNQQSFGQKLGQKLGRSTGAGPGGSSAGGAGTGTDGGPGASGPRNTAKPGTTNQAVLGPFTVRDLAVFAATLILFVASLLPIFGGRFNLWNAGSLFFLGLGMVLPLIVSALFAARRLAPATRIRIGSLSVDQFASVVASFALAFFFLTVASAYAHSLLVGLIGSVVLFAATVLARFIPYFAGDFLDRKESPAHVLARESAVPLPRPHTPKAPKPTAAAQHEAINPHATPHARGTAAPQGATVPHGAAAGSAASQVGASAAHGGSSAVPTPGTAPTGAVPAAAGSGTVPAAAGAGSAAAVSSAAEMTEWSVAGDHTPATQAADVVPPAGRTSAAEETQAASLPTAAAGAATTGGALAGAGASGAAASGTAASGNSAPGDAGSSAAWEPAPATVVHQQVRSQEPIGATVDPASRADESDEAPVHEAFWFAVAQHRTAFHPQTGAPAFVIEPGGWVLALEDRGHEFLVQHTDGRLGVLRDLSNIERG				NA	NA	NA	NA	NA
D1-29_03882	2091	acsA	COG0365	Acetyl-coenzyme A synthetase	ATGATGAGGTTCACCATGTCCCAGGACAACCCCAGCACCACGGTTACCGCAGCCGACGCCGCACCTCAGGAAAGTCAGCAGGAAAGTCAGCCGGGCAGCCAGCACAGAGACCAGCCGGGTGATGCCTTTGAAAACCTGCTGCATGAGACACGGGCCTTCCCGCCTACTCCGGAATTCGCTGCTGACGCCGTTGTCACGGCTGCGGATTATGCAGAGGCCGACGCCGACCGGCCGGCTTTTTGGGCCAAAAAGGCACGCGAGCTGCTCACCTGGAACAAAGACTTCAGCCAGGCCCTGGACTGGTCCAACCCGCCGTTCGCGAAGTGGTTCGTGGGAGGGGAGGTCAACGCCGCGTACAACGCGCTGGACCGGCACGTGGAGAACGGCCTGGGGGACCGGGTGGCCATCTATTTCGAGGGCGAACCCGGCGACACCCGCACGTACACGTACGCCCAGCTCACCGACGAGGTCAAAAAAGCCGCCAACGCTTTTGAGTCCCTCGGTGTTTCCAAGGGTGACCGCGTGGCGGTGTACCTGCCGATGATCCCTGAGGCTGTCATCACGCTCCTGGCCTGCGCCCGGATCGGCGCGGTGCATTCGGTGGTATTCGGAGGTTTCTCCGCCGACGCCCTGCGGTCCCGGATCGAGGACGCCGAAGCCAAGCTGGTGGTCACGGCCGACGGCACGTACCGCCGCGGCAAGCCCAGCGCACTGAAGCCCGCGGTGGACCAGGCCCTGTCCGCCGATGGCCACAGCGTGCAGAACGTGGTGGTGGTCAAACGCAACGGCCAGGACGTGGACTGGCACGAGGGCCGGGACCACTGGTGGTCCGATACCGTTGACGGCGCCTCAACCCGGCACACCGCCGTCGGCCATGACTCCGAACATCCGCTGTTCATCCTCTACACCTCCGGCACCACGGGCAAGCCCAAGGGCATCCTGCACACCACCGGCGGGTACCTCACCCAGACCGCCTACACCCACAAGGCAGTCTTCGACCTGCACCCGGCCACCGACGTGTACTGGTGCACGGCCGACGTCGGCTGGGTCACCGGCCACTCCTACGTCGCTTACGCACCCCTCATCAACGGTGCCACCCAGGTCATATATGAAGGCACCCCCGATTCCCCGCACCAGGGCCGGTGGTGGGAGATCGTGGAGAAGTACAAGGTCTCCATCCTGTACACCGCACCCACTGCCATCCGCACCTTCATGAAATGGGGCCGGGAGATCCCGGACAGGTACGATCTGTCCTCCATCCGCGTGCTGGGCTCGGTGGGCGAATCCATCAACCCCGAGGCGTGGATGTGGTACCGCGAGGTCATCGGCGCAAACGCCGGCAAGAACGGCGAGCGCAAGGACCACCCGGCCCCGATCGTGGACACGTGGTGGCAGACCGAGACCGGCGCGCAAATGATCGCCCCGCTGCCCGGCGTCACCGCCACCAAGCCAGGCTCAGCGCAAACACCGCTGCCCGGCATCGCCGTGGACGTTGTGGACGAACAGGGCGAATCAGTCCCCAACGGCCACGGCGGATTCCTGGTCATTCGCGAACCCTGGCCGGCCATGCTCCGCGGCATCTGGGGCGACCCGCAACGCTTCAAGGACACCTACTGGTCACGCTTTGAAAACATGTACTTCGCCGGCGACGGAGCCAAAAAGGACGACGACGGCGACATCTGGCTCTTGGGCCGGGTGGATGACGTGATGAACGTGTCCGGCCACCGGCTCTCCACCACCGAAATCGAATCAGCACTGGTCTCCCACCCCTCCGTGGCCGAGGCAGCCGTCGTGGGGGCCGCGGACGAAACCACCGGCCAGGCCGTCGTCGCGTTTGTCATCCTGCGCGGTGACGCGGTGGACTCCGGCGACACGATCGTGCAGGAACTCCGCAACCACGTGGGCAAGGAAATCGGCCCCATCGCCAAACCCAAAACCATCCTCGTGGTCCCCGAACTGCCCAAGACCCGCTCCGGCAAAATCATGCGGCGCCTCCTCAAAGACGTAGCGGAGGGCCGCGAAGTAGGCGACGCCACCACCCTGTCGGACAACACAGTGATGCAGCAGATCGCCGCCTCCCTAAGAAAATAA	MMRFTMSQDNPSTTVTAADAAPQESQQESQPGSQHRDQPGDAFENLLHETRAFPPTPEFAADAVVTAADYAEADADRPAFWAKKARELLTWNKDFSQALDWSNPPFAKWFVGGEVNAAYNALDRHVENGLGDRVAIYFEGEPGDTRTYTYAQLTDEVKKAANAFESLGVSKGDRVAVYLPMIPEAVITLLACARIGAVHSVVFGGFSADALRSRIEDAEAKLVVTADGTYRRGKPSALKPAVDQALSADGHSVQNVVVVKRNGQDVDWHEGRDHWWSDTVDGASTRHTAVGHDSEHPLFILYTSGTTGKPKGILHTTGGYLTQTAYTHKAVFDLHPATDVYWCTADVGWVTGHSYVAYAPLINGATQVIYEGTPDSPHQGRWWEIVEKYKVSILYTAPTAIRTFMKWGREIPDRYDLSSIRVLGSVGESINPEAWMWYREVIGANAGKNGERKDHPAPIVDTWWQTETGAQMIAPLPGVTATKPGSAQTPLPGIAVDVVDEQGESVPNGHGGFLVIREPWPAMLRGIWGDPQRFKDTYWSRFENMYFAGDGAKKDDDGDIWLLGRVDDVMNVSGHRLSTTEIESALVSHPSVAEAAVVGAADETTGQAVVAFVILRGDAVDSGDTIVQELRNHVGKEIGPIAKPKTILVVPELPKTRSGKIMRRLLKDVAEGREVGDATTLSDNTVMQQIAASLRK	PGPT0002265_977	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
D1-29_03883	789	srlR_3	COG1349	Glucitol operon repressor	ATGCTCCCCGCTGCACGTCACCAGGCTATTGTGGACACGGTCCAGCGCGAGCGGGTCGTGCGCGTGTCCGACTTGGCGCAGCAGCTGGGCGTTTCCCTCATGACTGTGCGGCGGGACATTGAGCTGCTGGAAGAAAGCGGCCGGCTGGAACGCATCCACGGCGGTGCCAAGCTTCCAGGTGATCCCAGCACTCACGAGCCGGGCTTCGAACTCAAGTCCACCCAGCTGACAGCAGAGAAAAGGGCCATAGCGCAGGAGGCGGCCGCCCTGGTCCAGGAAGGCATGGCTATTGGGCTCAGCGCAGGAACCACTACCTGGGCGCTGGCGCAGGAACTGGTCAACGGTCCGCGGATCACCGTGGTGACCAACTCGATGCGGATTGCCGATCTGTTCCATCACGGTGCCTCGGCCGGAACAGCCCGCTTCGGCTCCACCGTGATCCTGATCGGCGGCGAGCGAACGCCGTCGGATGCACTTGTGGGACCCATCGCGACAGCCGCGCTGAAGCAACTGCACCTGGATGTCCTGTTCCTCGGCGTGCACGGCATGGACGCGGAGGCGGGTTTCACCACTCCAAACCTGCTGGAGGCCGAAACGGACCGCGCCTTTGTGGCCGCGGCCCGGAAGGTGGTTGTCCTTGCGGACCACACCAAGTGGGGGCTGCTGGGGATCAGCACCATTGCCGGTTTGAATGAGGCTGACGAGATCGTCACCGACTCCGGACTGGGCATGGACGCCCAACGGATCCTTGGCGAGCGAATCGGCAAAGTGCGGATCGCCTCAGCCTAG	MLPAARHQAIVDTVQRERVVRVSDLAQQLGVSLMTVRRDIELLEESGRLERIHGGAKLPGDPSTHEPGFELKSTQLTAEKRAIAQEAAALVQEGMAIGLSAGTTTWALAQELVNGPRITVVTNSMRIADLFHHGASAGTARFGSTVILIGGERTPSDALVGPIATAALKQLHLDVLFLGVHGMDAEAGFTTPNLLEAETDRAFVAAARKVVVLADHTKWGLLGISTIAGLNEADEIVTDSGLGMDAQRILGERIGKVRIASA	PGPT0017590_238	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
D1-29_03884	1029	ccpA_10	COG1609	Catabolite control protein A	ATGAAGTCCATGACCACTCCAGCAGTGCAGGCTCCCCGCGGACCAGTGACGCGCAAGGATGTTGCCCGGTATGCGGGCGTCAGCACCGCCGTCGTCAGCTATGTGGTCAATGGCGGGCCCAAGAAGGTGGCGCCCGCCACCGAAGCGAAGGTCCAGGACGCCATCCGCGTCCTGGGCTACCGGCCCAACGCAGCGGCCCGTGCGCTCAAGCTGGGCTCCAGTGAGACGCTGGGGCTCATCGTCCCGGACAACTCGAACCCCTTCTTTTCCCTTTTTGCCCACGCCGTCGAGGACGCGGCCGCTGCCTTGGGCTACGCCCTGGTGCTGAGCAACTCGGACGGAAACCTGGCCAAGGAGCGGCGCAATATCCGCAACCTCGCTGCGCGGCAGGTGGACGGAGTGCTGCTGGCCAGTGTCCTCTTCGAGCCTGACCTGGAGGTCCTGGAAACGGCGGACATCCCGTCGGTGCTGCTGAACCAGGAGAGGGACGCCCCCGGCTTTAACAGCATCGGTGTGGACCTTGCCGCCGGCGCCCGGATCGCCGTAGAGCACCTGATTGGACATGGCCATACCAATATCGGCCTGGCGATGGGAACCAACGTTTCGGGCACCACGGACGGCCGCGAAGTGGGCTGGCGGGAAGCTTTGCAGGAGGCAGGGCTGCCCGAAGGGCCCATCGTCTACAGCTCATTCACCCGGCCCGGCGGATATGTTGCCGGGCAGCGCCTCCTGGCGTCCGTCAACCGGCCAACGGCGATCTTCGCCACCTCTGACATGCAGGGGATCGGCCTGTTGCGGGCCGTCCATGAGGCAGGCCTGGCCGTTCCCGATGAGATCGCGGTGGCGTCCTTTGACGGCTCCGTTGAGGCCGAGTATTCATGGCCGCCGCTGACCACTGTTGAGCAGCCCGTGGCCGAGATGGCAGAGGCCGCCGTGGCTGCCCTGGTGGGCGCCCGCCGGGGCGACAAGCCCATGCACCGGATTTTCGACACCCGGCTCCACGTCAGGCAGTCCTGCGGCTGCCCCTAG	MKSMTTPAVQAPRGPVTRKDVARYAGVSTAVVSYVVNGGPKKVAPATEAKVQDAIRVLGYRPNAAARALKLGSSETLGLIVPDNSNPFFSLFAHAVEDAAAALGYALVLSNSDGNLAKERRNIRNLAARQVDGVLLASVLFEPDLEVLETADIPSVLLNQERDAPGFNSIGVDLAAGARIAVEHLIGHGHTNIGLAMGTNVSGTTDGREVGWREALQEAGLPEGPIVYSSFTRPGGYVAGQRLLASVNRPTAIFATSDMQGIGLLRAVHEAGLAVPDEIAVASFDGSVEAEYSWPPLTTVEQPVAEMAEAAVAALVGARRGDKPMHRIFDTRLHVRQSCGCP	PGPT0017992_8241	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
D1-29_03885	1200	iolG_13		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACGTTTTCAATAGGCGTAGTAGGCGTGGGCCAGTTTGGTGGTCAATTCGCCCACCTGTTCCATCTCCACCCCGGAGTCAGCGCCGTGTACGTGGTGGATGAGGTTCCGGAGCGTGCGGCCGAGGCTGCAGACCGCCTGCACCTTGCAGGGGTCAAGGCGGATTTCGACGAACTCCTTGCCTCCGACGTCGATGCCGTGGCCATCTTCACGCAGCGCTGGACCCACGGCCCGCTGGTGGAGCAGGCGCTCCGCGCCGGCAAGCACGTCTACTCAGCCGTCCCGATGGCCATCTCCGAGGACGAAATCGCCCGCATCATCGACGCCGTCAGGGACACAGGGCTGGTCTACATGATGGGGGAGACCAGCTACTACAACCCCGCCACCGTCTACGCCCGCAAGCAGCTTGCCGCCGGGAAGTTCGGCCGCATCTTCTACAGCGAAGGCGACTACGTCCATGACATGGACCTTGGATTCTACGACGCCTACCAGTACAGCGGAGGCGAACGGTGGAAGGAAACCGCCAGCTACCCTCCCATGCTGTACCCCACCCATGCTGTAGGGGGAGTGCTGGGTGCCATCCCCGCGCATGCTGTCAGTGTGAGCTGTGTAGGAGTCAAGGATGACCGCAATGATGGCGTTTTCGACAAGGACGTCAGCATGTTCGGCAATGACTTTTCCAATGCCACGGCCCTCTTTGAACTCAACGACGGCGGCGTCATGAGGACCAATGAGATGCGTCGAGTGGGTTACCCGTCCCATATCAGGGAGTCCCGGTTCCGGTTCTTCGGCACGGACGCCAGCTTTGAACAGCTGGCAAAGGTCACGGTGTGGCAGGACAAGGAAAACGTCCACGACATTTCCGAGCAGCTGGAAACCCGGGCCAGCATGTCCCTGGACGACCCGTCGCTTGCCAACGTTGCAGTGGAGCTGAGGGACGCCTTCGTTTCGGGGCTCTCGCCCGTCCATGACGCCGAACGGCTTCCGCAGGAGTTCCGCGGCGCCCCGAACGGCCACGAGGGCAGCCACCATTTCCTGGTGGACGACTTCGTGACCGCCGTCAATAGCCGCACCCTGCCACCGGTGAACGCCTGGGTTGCCGCGCGGTTCACGCTGCCCGGCATCGTGGCGCACCAGTCAGCGCAGCGCAACGGGGAGCGGCTGCCCATCCGCGACTTCGGCGACGCCCCCGGAATCTGA	MTFSIGVVGVGQFGGQFAHLFHLHPGVSAVYVVDEVPERAAEAADRLHLAGVKADFDELLASDVDAVAIFTQRWTHGPLVEQALRAGKHVYSAVPMAISEDEIARIIDAVRDTGLVYMMGETSYYNPATVYARKQLAAGKFGRIFYSEGDYVHDMDLGFYDAYQYSGGERWKETASYPPMLYPTHAVGGVLGAIPAHAVSVSCVGVKDDRNDGVFDKDVSMFGNDFSNATALFELNDGGVMRTNEMRRVGYPSHIRESRFRFFGTDASFEQLAKVTVWQDKENVHDISEQLETRASMSLDDPSLANVAVELRDAFVSGLSPVHDAERLPQEFRGAPNGHEGSHHFLVDDFVTAVNSRTLPPVNAWVAARFTLPGIVAHQSAQRNGERLPIRDFGDAPGI				NA	NA	NA	NA	NA
D1-29_03886	966	melD_10	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGACCACCCTTACCAAACAGCAACGGGACCCGGCGGGCCGGGCAGCGCGACCCAAAGCAGGAAAAAACGGCAGTACCGGCAAGAAAAGCGTGATCCATCAACTGGGCGACCTGAAGATGGCAATGTTTTTTATCCTCCCCGCAATGATCGGCTTCGTGGTCTTTTTCCTGATCCCCACCATCCGCGGCGTCTACCTCAGCTTCACCGAATACAGCATCCTGGGGGACCCCACCTGGATCGGCATCAAGAACTACACCGCGATCTTCGCTGATGAACTGTTCTGGAACTCCATGGCGGTCACCGTGCAGTACGTGGCAATCAACATCGGTTTCCAGACAGTTATTGCGCTTGGGCTGGCACTCCTGATGCACCGCGTGGCAAAGTCAACGTTCATCCGCGGCGCCCTGCTGATGCCGTTCCTCGTGGCCAACGTCATCGTTGCGCTGCTGTGGTTCTGGATGCTGGATTACCAGTTGGGCATCGTCAATGAAGTCATCAGCTGGATCGGACTGCCACGCATCGCCTTCTTCGGAAGCGAGCAATGGGCCATCCCCACTATCGCTGCCGTCAACGTGTGGCGCCACATGGGTTACACCGCCCTGTTGATCTTTGCCGGCCTCCAGGCCATACCGCAGCACGTCTACGAGGTGGCATCCCTGGATGGCGCATCTCCCACAAGGACCTTCTGGGGCATCACCATCCCCCTGCTGCGCCCGGTACTGGTGCTGGTCCTGGTAGTTACAGTGATCGGATCGTTCCAGGTCTTCGACACCGTTGCCGTCACCACGGGCGGCGGTCCCATCAACGCCTCCCGCGTCATCCAGATGTACATCTATCAAAAGGCCTTCACCGAGTCGGACTTCGGGTATGCCTCCGCACTGTCCGTCATTCTCTTCGTCATCCTCGCCCTGGTGGCCTTCGTGCAGATGAAGTTCCTCAAGGGCAACGAATCGGACCTGGACTAA	MTTLTKQQRDPAGRAARPKAGKNGSTGKKSVIHQLGDLKMAMFFILPAMIGFVVFFLIPTIRGVYLSFTEYSILGDPTWIGIKNYTAIFADELFWNSMAVTVQYVAINIGFQTVIALGLALLMHRVAKSTFIRGALLMPFLVANVIVALLWFWMLDYQLGIVNEVISWIGLPRIAFFGSEQWAIPTIAAVNVWRHMGYTALLIFAGLQAIPQHVYEVASLDGASPTRTFWGITIPLLRPVLVLVLVVTVIGSFQVFDTVAVTTGGGPINASRVIQMYIYQKAFTESDFGYASALSVILFVILALVAFVQMKFLKGNESDLD	PGPT0016535_1721	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
D1-29_03887	945	ngcG_6	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGACTACCTCGACTCCCTCCCTGCAAGACGCCGCCACGTCAACCCGAGCTCCAATCGCCAAGCCCCGCAAGCCCTTCAACTGGGGCCGTGCCGGGGCGTGGGCCCTCGTGATCCTTGCGTTGATCGTCACTATTGCGCCGTTCCTGTGGATGCTCCGCACTGCCCTTTCCAGCAACCATTCCCTCGCGGCCAACGCAGGCAACCTGCTGCCCGCCGATTTCAGCTGGGGCGCCTTCAAACGCGTCCTGGGCCTGCAAACCCCTGAGGAGGCCATAGCGGAAGGCGGCTCCGGTGCTGCCATCAACTTCTGGTGGTACCTCCGAAGCTCCATCATCGTTTCCACGCTGGTCACGGCGGGGCAGGTCTTCTTCAGTGCAATGGCCGCCTATGCCTTTTCCCGGCTCCGCTGGCCGGGCAGGGACAAAGTATTCGCCCTGTTCCTGGCCACCATGATGGTGCCGCCAATCTTCACAGCACTGCCCAACTTCCTGATGATCAAGAACCTGGGACTGCTGAACACCTACGCCGGCATCATCCTGCCCTTCCTGTTCATGACACCCTTCGCCATCTTCTTCCTGCGCCAGTTCTTCATGAGCATGTCCAGGGAAGTGGAAGAAGCAGCCATGCTGGACGGCGCGCACAAGTTCCGCATCTTCTTCCAAATCGTGCTTCCCAACGCCGCCGCACCCCTGGCCACGCTCGCGTTGCTAACGTTCATCGGCACGTGGAACGAGTACTTCTGGCCCCTACTGGTGGGCCAGGACGAAAGCGTCCGGGTCCTCACTGTGGGGCTGGGTGTTTTCAAGTCCCAGTCGCCACAAGGCGCACCCGACTGGAGCGGCCTCATGGCGGCCACCCTTATCGCCGCGCTTCCTGTCCTCCTGCTGTTCATCGCCTTCGGCAAGAAGGTAGTGAATTCGATCGGGTTCTCCGGGGTCAAATAG	MTTSTPSLQDAATSTRAPIAKPRKPFNWGRAGAWALVILALIVTIAPFLWMLRTALSSNHSLAANAGNLLPADFSWGAFKRVLGLQTPEEAIAEGGSGAAINFWWYLRSSIIVSTLVTAGQVFFSAMAAYAFSRLRWPGRDKVFALFLATMMVPPIFTALPNFLMIKNLGLLNTYAGIILPFLFMTPFAIFFLRQFFMSMSREVEEAAMLDGAHKFRIFFQIVLPNAAAPLATLALLTFIGTWNEYFWPLLVGQDESVRVLTVGLGVFKSQSPQGAPDWSGLMAATLIAALPVLLLFIAFGKKVVNSIGFSGVK	PGPT0016540_762	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
D1-29_03888	1341			hypothetical protein	ATGAAAAAATCCCTTGGCGTCGCCGCTGCTGCCGCTGCCTTTGCCCTGTCCCTGTCCGCCTGTGGCGCACCAGCTCCTGCCTCCACGGAGGCCAAGGGCGAAATCAATTATTGGCTCTGGGACGCCAACCAGCTGCCGGCCTACCAGCAGTGTGCTGACGATTTCACCAAGGCCAACCCGGACATCAAGGTCAAGATCACCCAGCGCGGCTGGGATGATTACTGGACCACCCTGACCAATGGATTTGTTGCCTCAACCGCCCCGGACGTCTTCACCAACCACCTGGCCAAGTACCCTGAATTTGCCTCCAAGAAGCAACTCCTCGCCCTTGACGACGCCGTCAAGAACGACAAGCTCAACTTGGATATCTACAACAAGGGCCTCACCGATCTCTGGGTCACCGAAGACGGCAAACGCTACGGGCTGCCCAAGGACTGGGACACCATCGCTTTGTTCTATAACAAGAAGCTGATCGCCGATGCCGGGTACACCGAGGAGCAGCTCAAGGACCTTGACTGGAACCCGAAGGATGGCGGCAGCTACGAAAAGGCCATCGCCCACCTCACGGTGGACAAGAACGGCAAGCGCGGCGACGAGCCCGGCTTCGACAAGAACAACGTTGCGGTTTATGGCCTTGGCCTGGAAAACTCCGGCTCCGGTACCGGCCAGACCCAGTGGAGTTTCCTCAGTGCCACCATGGGCTGGACCCACACAGACAAGAACCCCTGGGGCAAGGAGTTCAACTACGACGACCCCAAATTCCAGGAAACCATCACCTGGTGGACTGGACTCGTGGATAAGGGCTACATGCCCAAGCTGGAGACCACTGTGGGCGCCAGCGTGACTGACAACTTCGGTGCCGGTAAGGCCGCCATCAACACCAACGGTTCGTGGATGATCGGCCAGTACACCAGCTACAAGGGCGTGGAAACAGGCATTGCTCCCACTCCCAAGGGACCCAGCGGCAAGCGGGCCAGCATGTTCAACGGCCTGGCCGACTCCATCTGGGCGGGTACCAAGAATCCTGCCGCCTCAGTCAAGTGGGTGGAATACCTGGCCTCCGCAGACTGCCAGGACGTCGTAGCCAAGAAGGCTGTAGTCTTCCCGGCCATCAGTACCTCCTCCGAGATCGCGGCCAAGGCATTCGCGGACAAGGGCATTGATGTCAGCGCCTTCACCACACACGTAGAAGACGAAACCACGTTCCTCCTCCCGATCGCTGACAAAGCGGCGAAGGTCGAGGGCATCATGGAGCCGGCCATGGACGCTGTCGTGTCAGGCAAGAAGCCGGCCAGCTCACTTTCCGAGGCCAACGAGCAGGTCAACGCCCTCTTCAAGTAG	MKKSLGVAAAAAAFALSLSACGAPAPASTEAKGEINYWLWDANQLPAYQQCADDFTKANPDIKVKITQRGWDDYWTTLTNGFVASTAPDVFTNHLAKYPEFASKKQLLALDDAVKNDKLNLDIYNKGLTDLWVTEDGKRYGLPKDWDTIALFYNKKLIADAGYTEEQLKDLDWNPKDGGSYEKAIAHLTVDKNGKRGDEPGFDKNNVAVYGLGLENSGSGTGQTQWSFLSATMGWTHTDKNPWGKEFNYDDPKFQETITWWTGLVDKGYMPKLETTVGASVTDNFGAGKAAINTNGSWMIGQYTSYKGVETGIAPTPKGPSGKRASMFNGLADSIWAGTKNPAASVKWVEYLASADCQDVVAKKAVVFPAISTSSEIAAKAFADKGIDVSAFTTHVEDETTFLLPIADKAAKVEGIMEPAMDAVVSGKKPASSLSEANEQVNALFK	PGPT0016545_2820	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
D1-29_03889	2262	rafA		Alpha-galactosidase	ATGGATCCGCTCTACCTCCGTACCACCGGCACCAGCCTGGTGATCAGCTTCAGCAGCGGGGAGGCCGAGATTATCCATTGGGGCGCCGATCTTGGCGCCAGCCTTCCGGACCTCGCCATCCTTGGGGAACCCATCCCGCACTCGGCTGTGGACGCAACGGTCACCGCCGGGCTCCTGCCGCAGGCATCCTCAAGCTGGCGCGGCAGGCCGGCACTCCGTGGACACCGAATCGCTGACGGGATCCCCGGCCACGATTTCTCGGCCCGCCTCCGCGTCACGTCCGCCAGCTCCGGGCCGGGGCCAGGGACCGCCGACGCCGCCGCCTCCGCCGCCATCGTCCAGGCAGACCCCGACGCCGGCATTACCGTTGAGACGTCCATAAAACTGCACGACGGCGGTCTGCTGGAGCTGCGCCACACGCTCACCAACGACGGCTCCTCCCCCTACCAGCTCGACGAACTGGCCACGGTCCTGCCGGTGGCGCCGGACGCCGTCGAGCTCCTTGACCTCACGGGACGCTGGTGCCGGGAACGCCACCCGCAGCGCCGCTCCCTCCAACAGGGAACGTGGGTGCGGACCGGACGGCACGGCCGCACCGGTCACGATTCCTCACTCCTGTTCGCGGCCGGCACCGAAGCCTTCGGCAACCGCCACGGCAAGGTGTGGGCCACGCACCTGGCCTGGAGCGGAAACCATGAACAGTTCGCCGACAGCATCGGCGACGGCCGGACCATGATCGGCGGTTCAGAGCTCCTGGGCCCGGCGGAAGTCATCCTCCAGCCCGGCGGCAGCTACACCACGCCTGCATTGTTCGCGGCCTACTCCGACCGCGGCCTGGACGGCGTCAGCGAAGCGTTCTACAGCTGGTTTAGGTCCCGCCCCCAGCACGTCCTCCCTGCTGCACCCGCCACCGGCGGCAAAAGCACTGCCGGCAAAAGCAGAAACGGCAAAGCAAGGCCCGTTGTGCTGAACACCTGGGAAGCCGTCTATTTTGACCATGACATTGACACGCTGATCGAACTCGCTGACTCGGCGGCAGAGCTGGGTGTGGAGCGATTTGTGCTCGACGACGGCTGGTTCCGCGGGCGCCGCACGGACCGTGCCGGACTGGGCGACTGGTACGTTGACGATGCCCTTTGGCCCCTGGGCCTCACGCCGCTGGTCGAGACTGTCACCTCGCGAGGGATGGAATTCGGCCTGTGGGTGGAACCGGAAATGGTCAATCTGGATTCGGACATCGCCCGGGAACACCCCGAGTGGATTGTGGGCCCCTCCGCACTCTCCCACAAGGACGGCGGCCGGCTCCCGCTGGAGTGGAGGTTCCAACACATCCTGGATCTGGTGAACCCGGAAGCCTGGCAGTACATATTCGACCGGATAGACGCCTTGCTCACGAAGTACAACATCAGCTACCTCAAGTGGGACCAGAACAGGGACCTGCTGGAGCACGGCCATGTCGGACGCCCGTCGGTACACGAACAGACCTTGGCCGCCTACCGCCTCTTTGACGAATTGAAGAAGAGCCATCCCGGCGTCGAGATCGAAAGCTGCTCTTCGGGCGGCGCGCGCGTGGACCTCGGCATCCTGGACCGGACGGACCGGATCTGGGCGTCGGACTGCAATGACGCCCTGGAGCGCCAGACCATCCAGCGCTGGACCGGGCTGGTGGTTCCGCCGGAACTGATGGGAGCGCACATCGGCCCCACCACCTCGCACACCACGGCCCGCACCCACGATCTGTCCTTCCGTGCCATCACTGCGCTGTTTGGCCACTTCGGCATGGAGTGGGACGTCCGCGAGGTCCAGGGTGCCGAGCGGGAGCAGCTCAAGCGCTTCATCGGGCTTTACAAGGAGCACCGGGACCTCATCCACTCCGGGCGCATGGTCCGCGCGGACGTTGCCGAGGGTTCCCTGCTCCTGCACGGTGTGGTGGCTGGCTCTCCTGCCGGCGCATCACCGGCTGGATCGGTGCAGGGCACGACGGCGGCTCTGTTCGCGTTGGTCAGTACCCGCACCGCGTTCGCTGAGCAGCCCGGCCGGATAACCATCCCCGGGCTGGAGGCTGACCGCGGATACCGCGTGGAAGCCATCTTCCCCCTGCCGGGGGACGCGGACTACGCCCACAACTACACCCAGGTCCAGCCGCCAGCGTGGCTTAGTGACGGTGCCGAGGCCAACGGGCGTTTTCTGGCCGAGGTGGGCCTGCCCATGCCCATCCTCAACCCTGAGCACGCCGTCCTGCTGAAGTTCACCGCACTGTAA	MDPLYLRTTGTSLVISFSSGEAEIIHWGADLGASLPDLAILGEPIPHSAVDATVTAGLLPQASSSWRGRPALRGHRIADGIPGHDFSARLRVTSASSGPGPGTADAAASAAIVQADPDAGITVETSIKLHDGGLLELRHTLTNDGSSPYQLDELATVLPVAPDAVELLDLTGRWCRERHPQRRSLQQGTWVRTGRHGRTGHDSSLLFAAGTEAFGNRHGKVWATHLAWSGNHEQFADSIGDGRTMIGGSELLGPAEVILQPGGSYTTPALFAAYSDRGLDGVSEAFYSWFRSRPQHVLPAAPATGGKSTAGKSRNGKARPVVLNTWEAVYFDHDIDTLIELADSAAELGVERFVLDDGWFRGRRTDRAGLGDWYVDDALWPLGLTPLVETVTSRGMEFGLWVEPEMVNLDSDIAREHPEWIVGPSALSHKDGGRLPLEWRFQHILDLVNPEAWQYIFDRIDALLTKYNISYLKWDQNRDLLEHGHVGRPSVHEQTLAAYRLFDELKKSHPGVEIESCSSGGARVDLGILDRTDRIWASDCNDALERQTIQRWTGLVVPPELMGAHIGPTTSHTTARTHDLSFRAITALFGHFGMEWDVREVQGAEREQLKRFIGLYKEHRDLIHSGRMVRADVAEGSLLLHGVVAGSPAGASPAGSVQGTTAALFALVSTRTAFAEQPGRITIPGLEADRGYRVEAIFPLPGDADYAHNYTQVQPPAWLSDGAEANGRFLAEVGLPMPILNPEHAVLLKFTAL	PGPT0018835_581	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407	NA	NA
D1-29_03890	1206	garK_2	COG1929	Glycerate 2-kinase	ATGGTTATGTCCATTCCGCAACGAATCCTCGTGGCACCGTCCGGTTTCAAGGAAAGCCTGGACGCGGTGGAAGTGGCAGCGGCGATTGCCGCAGGCATCCGCCGGGTCATCCCCGGCGTGCAGGTCACCTCGGTGCCCATGGCCGACGGCGGTGAAGGCACCGCCGCGGCACTGGCCTGCGCCACGGGAGGACGCCTGGTTGCCCAGCGCGTGACCGGCCCGGTGGGGAAGCCTGTGGACTCCCACTTCGCCATGCTTGGAAACGTGGACAGTCCCACCGCGGTGGTGGAAATGGCCGCCGCCGCCGGCCTCCGCCTGGTGCCGTCGGATATGCGCGACCCCGGCAGCACCACCACGCGCGGCGTGGGGGAACTGATGCTTGCCGCCCTGAACGAAGGGGCTGAGCGGATTATCGTGGGGTGCGGGGATTCGGGAACGTCCGACGGCGGTGCGGGCGCCCTGCGTGCCCTCGGCGCCCGCGTCTTTGGGCCGGGAGGAGGGGAGCTCGCGGAGGGAGGTGCAGCCCTGGCCGAGACGACGGGCGTGGACCTGACCGGGCTGGACAGCCGGCTTTCCTCCTGCCGGATTGAGCTGGCACTGAATCCGTACAACGTACTGTGCGGCCCCCAGGGCGTGGCCAGGGTGTTCGGGCCGCAGAAGGGTGCCTCGCCAGAGCAGGTGGAGCTGTTGTCCGCCGGGCTGGACCGGTGGGCCCAGTTGCTGGCAGCCGCCGGCGGGCTGTCCGAAAACTACCTGCGGACAGGCCCCGGTACCGGAGCTTCCGGCGGCCTGGGAGCGGGGCTTGCTGCCGTGGGAGCCCGGTTGGTTCCGCGCTTCGAATTGCTGCTGGACTCCGGCCTGGCCGGAGTGGACCTGGATGCCCATATCGCCCGGGCAGACCTTGTGGTGACCGCCGAGGGCGCCATCGATTTCCAGACCCCTCGCGGAAAGGTCCCTGCAGAGATTGCCCGCCGCGCCCAGGCTGCCGGTGTCCCGGTCCTGGCTCTCGCGGGATCCATCGGCAAGGACTCGGCTGACGTGCATGCTGCGGGAATCGATGCCATAGCCGGGATTATCCCCATCCCCATGGACCTGGACAGGGCTGTTGCCGAAGCGGCCGTCCTGCTGCGGGAGGCCACCGAGCGGACCTTCCGCGTACTCCTGTTGGGTTCCGCGATTTCCTCCCGGCTCGGCAACGCAGCCTGA	MVMSIPQRILVAPSGFKESLDAVEVAAAIAAGIRRVIPGVQVTSVPMADGGEGTAAALACATGGRLVAQRVTGPVGKPVDSHFAMLGNVDSPTAVVEMAAAAGLRLVPSDMRDPGSTTTRGVGELMLAALNEGAERIIVGCGDSGTSDGGAGALRALGARVFGPGGGELAEGGAALAETTGVDLTGLDSRLSSCRIELALNPYNVLCGPQGVARVFGPQKGASPEQVELLSAGLDRWAQLLAAAGGLSENYLRTGPGTGASGGLGAGLAAVGARLVPRFELLLDSGLAGVDLDAHIARADLVVTAEGAIDFQTPRGKVPAEIARRAQAAGVPVLALAGSIGKDSADVHAAGIDAIAGIIPIPMDLDRAVAEAAVLLREATERTFRVLLLGSAISSRLGNAA	PGPT0018175_186	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
D1-29_03891	1512			hypothetical protein	ATGAAAACCACCTACTACGAGTCAACCCCGCGCAGCACGGAATCCGGGCCTGGGCCTGCCGCCACACTTCCGCGGGCACTCCGGCCCGCTGCCGTTGTGGCGGCGGCTGTGGCAGTCGCCATCATGGTGTTCCTGTGGCTGAACGTCAGTCCCGGCGGCCTCCATCACGACGCAGCCCTGACGCTGTGCATCTTTGTGGCTGCCGTGTGGTTCTGGATCTTCTCAGCAGTGGAGGATACCTACGTGGCCCTCGGGGCCGCCGCCGCTCTGGTCATCAGCGGGGCGATGCCAACGGAGAGCCTCTTCGCCGCCCTGGGCGACGAAACTGTCTGGCTGCTCATGGCAGCCTTTGTCATCGCGAGTGCCGTTGCGTCAACGGGCCTCGCCGCACGGGGTGCCGCCTTCGTGATCACTGGGGCGCGCAGTGTCCGCCAGCTGGCCTATCTGGCCACTCTGGGCCTGGTGGTGACCAGCTTTGCCATCCCTGCCACGTCAGGCCGGGCGGCCCTGGTGCTGCCCATCTTCCTGGCACTGCGCGCGGTGCTCAAGGAGCGTCCTGCGGTGGTCAGGTTGCTGGCCATCCTGTTCCCCAGCGTCATCCTGCTCTCGGCAGTCAGCTCCTTCCTGGGCGCCGGAGCGCACCTGATCACCAGCCAGGTCCTCCAGTCAGCCGGCTATCCGGGATTCGACTTCGCGTCCTGGCTCCTGCTTGGACTGCCCATCGGCCTGGCATCCAGCTTCCTCGCGGCCGAGTTGACGCTCCGCCTTTTCACGACGGGAGCGGACAGGTCCATGCCCTTGCATGTGAAGGTCAGTCAGCTCCAAAGCGGCAGCAGCACCAGGCTGCGGGGCCCCCTCGACCTGGACGAACAGCGCTCGCTGCTGCTGCTGGCCGCCGTGGTGGTCCTGTGGTGCACGGAGCCCATCCACGGCTTGGAGCCGGCCCTCGTGGCGCTGATCGGTGCCCTGGTGGTTTCCTCTCCGTTCTACGGATCAGTGAAGCTGGGCGCAGCGCTGAAAAAGGTGCCCTGGTCCATGCTGATCTTCATGGCGGCCACCCTTGCCCTTGGCTCCAGCCTGGTCACCTCGGGGGCAGCAGGATGGCTGGCATCCTCTGTGCTGGCCCCGGTGGCCGCCCTGGGCAGCTGGAAGGCGCCTGTCTTTGTGGTGGCTGTTGTAACGGTTTCGTCGGCAGCCCACCTGGTGATCCAGTCCCGGTCTGCACGCTCGGCGGTGCTGATCCCTATGGTGGTGGCGTCGGCGGTTCCGATGGGCATGGATCCCATGGCGGCAGCCTTCGCGTCAACCGCCGCGGCCGGCTTCTGCCATACGCTCACCAGTTCGGCGAAGCCGGTGGCGATGTTTGCAGAAACTGACGGTACTGCCCATTATTCCGCGGCGGACCTGCTTCGGCTCTCTGCCTGGCTGGGCCCGCTCAGCACTGCCCTGGTCCTTGTCTTCAGCTTTGCAGTCTGGCCCGTCCTGGGCCTTCCTCTCTTCACTTCCCGCTAA	MKTTYYESTPRSTESGPGPAATLPRALRPAAVVAAAVAVAIMVFLWLNVSPGGLHHDAALTLCIFVAAVWFWIFSAVEDTYVALGAAAALVISGAMPTESLFAALGDETVWLLMAAFVIASAVASTGLAARGAAFVITGARSVRQLAYLATLGLVVTSFAIPATSGRAALVLPIFLALRAVLKERPAVVRLLAILFPSVILLSAVSSFLGAGAHLITSQVLQSAGYPGFDFASWLLLGLPIGLASSFLAAELTLRLFTTGADRSMPLHVKVSQLQSGSSTRLRGPLDLDEQRSLLLLAAVVVLWCTEPIHGLEPALVALIGALVVSSPFYGSVKLGAALKKVPWSMLIFMAATLALGSSLVTSGAAGWLASSVLAPVAALGSWKAPVFVVAVVTVSSAAHLVIQSRSARSAVLIPMVVASAVPMGMDPMAAAFASTAAAGFCHTLTSSAKPVAMFAETDGTAHYSAADLLRLSAWLGPLSTALVLVFSFAVWPVLGLPLFTSR				NA	NA	NA	NA	NA
D1-29_03892	660	cusR	COG0745	Transcriptional regulatory protein CusR	ATGAGCCGGATCCTGATCGCTGAAGATGACCGCCGAATCGCCGACTTCATTGAGAAGGGGCTCCGGGCTGCGGCCTATTCCTGCCTGGTGGTGGATGACGGCGCCAGCGCCCTCCTCCTGGCCCGGTCCGGGGACTTCGACATGCTTATCCTGGACATCGGGCTCCCCACGCTCAATGGCTTCGAAGTCCTCGAGCGGCTCCGCAGCGAAGGGTCCAAGACTCCTGTCATTGTCCTCACCGCCAGCGATTCCGTAGCGTACACCGTCTACGGGCTGGAAAGCGGCGCGAACGACTACATGACCAAGCCCTTCCAGTTCGCTGAGCTGCTGGCAAGGGTGCGGATCAGACTGGTGGATGACACCGATTCAGCCCCCGTGATGAAGCTTAGCCACGGGGATATGGAACTTGATCTGCGCAGCCGCCGGGTCCGCTGCGGGCAGGCGGACGCCGATCTCACAGCCCGGGAGTTTTCGCTGCTGGAGGTGTTCCTCCGCCATCCAGGCCAGGTCCTGACCCGGGAGCAGCTCATTTCCCATGCGTGGACGATGGATTTTGATCCCGCCTCCAACGTGGTGGATGTGTACGTGCGGGCCCTCCGGGCCAAGATTGGCGCGGAACGGCTGGAGACAGTCCGGGGCGCGGGGTACCGGCTCAGATGA	MSRILIAEDDRRIADFIEKGLRAAAYSCLVVDDGASALLLARSGDFDMLILDIGLPTLNGFEVLERLRSEGSKTPVIVLTASDSVAYTVYGLESGANDYMTKPFQFAELLARVRIRLVDDTDSAPVMKLSHGDMELDLRSRRVRCGQADADLTAREFSLLEVFLRHPGQVLTREQLISHAWTMDFDPASNVVDVYVRALRAKIGAERLETVRGAGYRLR	PGPT0004105_1690	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
D1-29_03893	1572	sasA_9		Adaptive-response sensory-kinase SasA	ATGGGAGAAGTAACGGCAGTATTGGAGCGCCCCCTCCCGAAAGCCCCGGCCAGGGAACCACGCAGCTTGGCCCCGCAGGGCCGCTTGGGGTCACGCGTCCCGGCGCGTTGGCGCATTGCCGCGTGGATTGTCCTGACTACCGCACTGACCCTCCTCGCGGTGCTCCTGACTGTCCGCTCCCTGACCCTCAACCAGGCCCGCACGCAGGCCCACCAGGCGATAGAACAGGAACTCCAGGAATTCCGCGCCTTCGCCAAGGAAGGAGTGGATCCCACCACCGCGAAGCCATTCACGTCAATCGAAAAAATGCTGGAGAGGTACTTGAGCCGGCAGTCTGCGGCTTCTGGCGAAGTGATCCTGGGCAGCGTGGGAGGGCGCGTCCTGTACACACCCAGCGGGGCCATGGGTACCCCGGTTACGGGGCACGAGCTTCCCAAGGATGAAGGGCTGTTGAACGGTATCAGGTCGGGCCAGGATGCCACCGGCATAGCCCAGACCAGCGCGGGTGAGATGCACTGGGCCAGGCTGCCCATCGAGTCCGGCAGCGACACCGGCTACCTCATCGTGGGTGACTATATGGCTCCGCGGGAGGCCCAGGTGGCCAGCACCACTGTGACCATATTCTTCGTCTCCCTCGGTGGGCTCGCGGTGACCGCGGCCATTGCCTGGCTGGTGGCAGGGCAGATTCTCAGGCCGGTCCGGGAGGTCCGGCGCGTGGCTGCGGATATTTCCGAATCGGATCTGACGGCCCGCGTCCCTGTCCAGGGGAACGACGACATCGCTGCTTTGGCCATCACGTTTAACACCATGCTTGACCGCCTCGAAGCGGCGTACCGGACCCAGAGGGCGTTTGTTGATGATGCCTCGCACGAGCTCCGGACACCCATCACCGTTATCCGCGGGCACCTGGAGCTGATGTCCGACAGCCCGGCGGAGAGGACGCGGACGCTGGCGCTGGTGGATGACGAGCTGGCCCGGATGGGGCGCATTGTTTCCGACCTTCTGCTGCTGGCCAAAGTCGACCGGCCCGGGTTTACCCAGCTGCGCAGCACGGACGCAGCCGCCCTGCTGTTGGACATTGAGGCCAAGGCGCAGGCCCTGGGGGCGCGGGGCTGGCCCATCCTGGAGATCGCTGAGGGCCGGGTCAGTCTGGATCCGCAACGCATCACGCAGGCTGTACTCCAGCTTGCCACCAATGCCTGCCAGTATTCGGCGGAAGGCAGCACAGTGCACCTGGGCTCTCGCTTCGAGGGGGCAGGGCCGCACCGCAAATTCCTGATCTGGGTGTCGGACGAAGGAATCGGCGTAGGAGCCCAGGAGGCCGCCCTGATTTTCGGACGCTTCCACCGGGGCGAGGCTGCGCGCGGCGCCGACCGTTCCAGGCCGGGTGCCGGGCTGGGACTGGCGATTGTCCGCAGCATCGCCGAAGCGCACCAAGGCACCGCCTGGCTCCGCAGCACTGAAGGACAGGGTGCAACCTTCGGGATGACCATTCCGGCTCCGGAGCCCGGCCCGGGCGAGGAAGCGCTGAACGACAGAAAGGGCAGCCATGAGCCGGATCCTGATCGCTGA	MGEVTAVLERPLPKAPAREPRSLAPQGRLGSRVPARWRIAAWIVLTTALTLLAVLLTVRSLTLNQARTQAHQAIEQELQEFRAFAKEGVDPTTAKPFTSIEKMLERYLSRQSAASGEVILGSVGGRVLYTPSGAMGTPVTGHELPKDEGLLNGIRSGQDATGIAQTSAGEMHWARLPIESGSDTGYLIVGDYMAPREAQVASTTVTIFFVSLGGLAVTAAIAWLVAGQILRPVREVRRVAADISESDLTARVPVQGNDDIAALAITFNTMLDRLEAAYRTQRAFVDDASHELRTPITVIRGHLELMSDSPAERTRTLALVDDELARMGRIVSDLLLLAKVDRPGFTQLRSTDAAALLLDIEAKAQALGARGWPILEIAEGRVSLDPQRITQAVLQLATNACQYSAEGSTVHLGSRFEGAGPHRKFLIWVSDEGIGVGAQEAALIFGRFHRGEAARGADRSRPGAGLGLAIVRSIAEAHQGTAWLRSTEGQGATFGMTIPAPEPGPGEEALNDRKGSHEPDPDR	PGPT0004100_961	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
D1-29_03894	423			hypothetical protein	ATGAAGGTTTCTTCATTCCCGTTTCATCAGCGCCTCATTAAGGCCTGCAACGATAAAGGCATGCTCATGATGCGACGCGTAATCACAATGGCAGCCGTGCTGGTGATCCCGGTGCTGCTCGCTGTGGCAGGAAGCCTGCTCGCGGCACCTGCCGGGCCGCCGGCCATTGACTCACAGCCTGTCCGTCTGGGGCCCGGTCCGGACGGTCTGCAGGCACCGGGACTGGAGCCCACGGCTCCGGCTCCACCGGAAGAGTCGCCGCCCGCAGCCCCTGATCAGCCGACGCCTGCTGAACCCGATCCCGCCCCCACCGCGTCGCCTGCGGTGCCGCCGGCGCCAGCTGCACCGCCGGCACCGCCGGCGCCAGTAGGGCCGCCGGTCATCATTGACGACGACGACTACACCGACGACGGGGACGAGTGA	MKVSSFPFHQRLIKACNDKGMLMMRRVITMAAVLVIPVLLAVAGSLLAAPAGPPAIDSQPVRLGPGPDGLQAPGLEPTAPAPPEESPPAAPDQPTPAEPDPAPTASPAVPPAPAAPPAPPAPVGPPVIIDDDDYTDDGDE				NA	NA	NA	NA	NA
D1-29_03895	444	aroQ	COG0757	3-dehydroquinate dehydratase	ATGAACGATTCCCGCGGCACCATCCTTGTGATCAACGGGCCCAACCTGAACCTCCTGGGTACCCGTGAACCGGAAAAATACGGCATCTCCACGCTGGCGGATGTGGAGGAGTTGGCGCGCACCACGGCCAAGTCCCACGGCTTCACCGCGGAGTGCGTCCAGTCCAACCACGAGGGTGTCCTGCTGGACACCATCCATGCTGCCCGGGGCGCCGCCGTCGGAATTGTCATTAACGCCGGCGCCTTCACCCACACGTCCGTTGCGCTCCGCGACGCCCTGGCCGCCGTTCAGCTGCCTGCCGTGGAAGTCCACATCACCAACGTGCACCAGCGCGAGGAGTTCAGGCACCACTCCTTCCTCTCCCCGGTCTGCACTGCGGTTATCGTAGGGGCCGGCGTTTTCGGTTACCGGCTCGCCATCGACTACCTGGCGGAAACGCTGTAG	MNDSRGTILVINGPNLNLLGTREPEKYGISTLADVEELARTTAKSHGFTAECVQSNHEGVLLDTIHAARGAAVGIVINAGAFTHTSVALRDALAAVQLPAVEVHITNVHQREEFRHHSFLSPVCTAVIVGAGVFGYRLAIDYLAETL	PGPT0012905_328	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
D1-29_03896	1083			hypothetical protein	ATGGCCGCCGGCCAGGGGCTGCCGTCGGAGCCGCAGCCAAAACCCATCCCGGACGGGGGCGCCACGGCCAGCCGTACGGCGGCGTGGTACCGGCATTTTGGGTTGGTGGAGGCGCCTGGGTCCTCCCCCTGTTACGCCGAGTGGACACTGGGCCTGGCCGATGACCCGCCGCTGATCGCCCGGATCGATGCGTGGCCGCACGACAAGCGCCAACCCAACCTGCTGCTGGCCGCCGCACGCTATCTGGGTGCCCGCGTAGGACCCTATGCGCAGTTCCGCCAATTTCTGGAAGACCATTGGGCGGACATCAGCAGGATCGTCCTCTCGCGTTCCACGCAGACCAACGAGGCAGGCCGCTGCGCCACTCTGCTGCCCTCCCTCGCTGCCATTGCAGCCGCCGAAGGCAGGCCGTTGGCGCTCCTGGAGGTGGGTGCCTCAGCCGGCCTCGGGCTGTTCCCGGACCGGTACGGCTACGAGTTCGACGACGGCACGTCCGTCACGCGGCTTTCCCCGGAACAGCCGTCCCGAACGGACGTAGTGCCTCCTGTGCTGCAGTGCACCACCAAGGGCCCTGTGCCCGTGCCTGCCCACCTCCCGCCCGTAGCCTGGCGTGCAGGAATCGACCTGAACCCGCTGGATATCAGGAATTCCGACGACGTCGCGTGGCTGGAAGCACTCATCTGGCCGGAGCAGGAGTTCCGTCTCAGGAGACTGCGCCAGGCTATCGCCATCGCCCGGGACGAACCACCACTCCTGGTAGCAGGCGACCTGAACGACCGGCTGGTTGACGTGGCAGCCCAAGCGCCGGCCGACACCACCCTGGTGGTTTTCCACAGTGCCGTGATGGCCTACCTCAGCGCCGAGGGAAGGTCCCCGTTCCGCAGGACCATCCGGCAGTTGGCGGCCGGCAGGGGATGCCACTGGCTGTCCAACGAAGGGCATATGGTGATTGACCAGGAGGACGGCTCCAGCGTGGTGCCGGAGGTGGATCCGCAGCTGATCGCGGGCAGGTTCCTGCTCACCCACAACGGCATTCCAGAGGCCATCACAGGACCCCATGGCCAAAGCCTCGAGTGGCTCTGA	MAAGQGLPSEPQPKPIPDGGATASRTAAWYRHFGLVEAPGSSPCYAEWTLGLADDPPLIARIDAWPHDKRQPNLLLAAARYLGARVGPYAQFRQFLEDHWADISRIVLSRSTQTNEAGRCATLLPSLAAIAAAEGRPLALLEVGASAGLGLFPDRYGYEFDDGTSVTRLSPEQPSRTDVVPPVLQCTTKGPVPVPAHLPPVAWRAGIDLNPLDIRNSDDVAWLEALIWPEQEFRLRRLRQAIAIARDEPPLLVAGDLNDRLVDVAAQAPADTTLVVFHSAVMAYLSAEGRSPFRRTIRQLAAGRGCHWLSNEGHMVIDQEDGSSVVPEVDPQLIAGRFLLTHNGIPEAITGPHGQSLEWL				NA	NA	NA	NA	NA
D1-29_03897	1185		COG0265	Serine protease	GTGTTTGGCTTGACTGTTCTGGACCTGGTGCTGATTCTGGCGCTGCTGTCCTACCTGATCTACGGCCTGCGCAACGGCTTCCTGGTGACACTGGGCGGGATCGCGGGTTTCGCCGCCGGTGCCATGGCGGCGTTTTTCGCCGTTCCCCTGGTCAGCGAATTCGTGGACGACTCCGCGTGGAGGCTTACTGCCATTGTGGCGTCCACGGTGGTGCTGGTGGCTTTAGGGCACGGCTTGGGAACCATGATCGGCCGGAAAATCCGCGGCGCAGTGCGGATCACGCCGCTGCGTGCGGTGGACCGGCTGGTGGGCGGAGCGGCCAACCTGGTGGTCTCAGCCTTGGTCATGTCAATGCTCGCGTTCAGCATCAGTTCCCTGGGCGTACCGTTTGTGTCACAGCCGTTGGCCGAATCCAAGGTCATCCGGTTCATCGATGGGCTGACCCCCAACCCGGTGAAGGCCACCATGGCCCAACTCCGTTCCACGGTGATCGGCAACGGCATTCCCACCCTCCTTGAAGGCCTGGATCAGGGTGCGCCTTTGCCCGTTCCGAACGCCAGCACCGACACACCGGCGCTTAACCGCGCCGCCGAATCCGTGCTTAAAATCGCCGGCACAGCCTACGAATGCGGCCAGAACCAGACAGGGAGCGGCTTTGTGGTGTCTCCCGGGCGGGTTGTGACCAACGCCCATGTTGTGGCGGGCGTGTCGCAGCCGGTGGTGGAGATCCTGAACGGCGGTGCCATGCCCGGGCGGGTGGTCTACTTCGACACCAAGAACGATCTCGCAGTCCTGGCGGTTGACGGCCTGCCCACAGAACCGCTGGCGCTCAGCCCTGACCTCCCGAACGGAAGCCCGGCTGCCTTCGCTGGGTATCCCCATGGCGGGCCCTTCCAATCCAAGCCCGCAACAGTCCAGGACATCACCACCGTGCTGGTCCCGGATATCTACGGCAACAACTCCTCGCCCGAGGAAATCTACCGACTGGCAGGGGATATCCAGCCCGGGAATTCCGGCGGGCCACTCCTCACCACAGACGGGCTGGTTGCCGGGGTGATCTTTGCCAAGGCAACCTCGGATACGGAGATGGGTTTCGCCATCACCATGGATGACCTCACGCCCGTTGCCGCCCAGGCGCCAGCGATGAACGCCCCGGTGTCCTCCGGGCAATGCATCCAGAAGTAG	MFGLTVLDLVLILALLSYLIYGLRNGFLVTLGGIAGFAAGAMAAFFAVPLVSEFVDDSAWRLTAIVASTVVLVALGHGLGTMIGRKIRGAVRITPLRAVDRLVGGAANLVVSALVMSMLAFSISSLGVPFVSQPLAESKVIRFIDGLTPNPVKATMAQLRSTVIGNGIPTLLEGLDQGAPLPVPNASTDTPALNRAAESVLKIAGTAYECGQNQTGSGFVVSPGRVVTNAHVVAGVSQPVVEILNGGAMPGRVVYFDTKNDLAVLAVDGLPTEPLALSPDLPNGSPAAFAGYPHGGPFQSKPATVQDITTVLVPDIYGNNSSPEEIYRLAGDIQPGNSGGPLLTTDGLVAGVIFAKATSDTEMGFAITMDDLTPVAAQAPAMNAPVSSGQCIQK				NA	NA	NA	NA	NA
D1-29_03898	678	crp	COG0664	CRP-like cAMP-activated global transcriptional regulator	ATGGACATCGAGGTACTGCGCCGAGCACCCCTTTTCGCCACGCTCGACGACGAAGCATTCCGTCTGCTGACGGATGAGCTGACCGAGGTGGACCTTTCCCGCGGTGCATCGGTTTTCCGGGAAGGCGACCAGGGCGACCAGCTCTACTTCATCGTCTCCGGCAAAGTGAAGCTGGGCCGCACGTCCCCGGACGGCAGGGAATCTCTCCTGGCCATCCTGGGCCCGGGCGAGCTGTTCGGTGAGATGGCCCTCTTTGACCCCAGCCCCCGAACGGCCACAGCAACCGCAGTATCTGAAACCCGCCTTGCGGGGCTCAGGAACGAAAGCCTCAACGCGCTGCTCCGCACCCGTCCCGAGGTTTCCGCGCAGCTGCTGCAGGCCCTGGCCCGACGCCTGCGCCGCACCAACGATTCCCTCTCCGACCTGGTGTTCTCGGATGTTCCCGGCCGGGTTGCCAAGGCTCTCCTGGATCTGGCAGACCGCTTCGGCCGCCCGGCAACCGATGGCGTCCTGGTGGCCCACGAACTCACACAGGAAGAGCTGGCCCAACTTGTCGGCGCGTCCCGTGAAACGGTTAACAAGGCCCTGGCCGAGTTCGTCCAGCGCGGCTGGCTCCGCCTCGAAGCCCGCGCCGTAGTGATCCTGGACATGCAGCGCCTGCGCCAGCGCTCCCGCTAA	MDIEVLRRAPLFATLDDEAFRLLTDELTEVDLSRGASVFREGDQGDQLYFIVSGKVKLGRTSPDGRESLLAILGPGELFGEMALFDPSPRTATATAVSETRLAGLRNESLNALLRTRPEVSAQLLQALARRLRRTNDSLSDLVFSDVPGRVAKALLDLADRFGRPATDGVLVAHELTQEELAQLVGASRETVNKALAEFVQRGWLRLEARAVVILDMQRLRQRSR	PGPT0015075_2766	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
D1-29_03899	180			hypothetical protein	ATGTCTGTGGCAATGATCGTTGTATTGGTCGTCCTGGGCTTGGCGTCGTTAGCCGGTGTTGTCGGCACGGTGGTCCTGGTGATCCGTGACGGGCATGGGCAGATTCCGCTGGAGCCTTCCGTCAGGCCGTGGACGGCAGGCCATCTCCCCAGCCGCCCGTACTCCACCATCCGCCTGTAG	MSVAMIVVLVVLGLASLAGVVGTVVLVIRDGHGQIPLEPSVRPWTAGHLPSRPYSTIRL				NA	NA	NA	NA	NA
D1-29_03900	1173	dapX_2	COG0436	putative N-acetyl-LL-diaminopimelate aminotransferase	ATGAGACCCAGGCCCACCCGACTAAACCATGTAGCGGGCTTCAACATTGATACGGTGGCCGCTTCCGCAGGTGATGATCCGGAGATGTTGCGGCTGGAGAATCTGGACACGGACCTGCTGCCCCCGCCGGCAGCGATTGAAGCCACCCGCGCAGCAGTGGGCCTGGATTCAGCCAATTCCTACCTGCCGTTTACTGGGCAACTGGCCGCCAAGGAAGCCGTCGCCGGATATGTCGCCGCACGGACCGGTGTCAGCTATGACCCGGCAACGGAAGTCATCCTGACCTCCAGCGATGGAGACTGCCTGCTTGATGCCCTGCTGGCCCTGACTGATCCCGGCGATGAAATCGTGCTGACGGATCCAACGTATGCGGGCATGCTCAACCGGGTCTACCTGGCCGGAGGTGTGCCCAGGCTGGTACCCATGACCGTCTCCGCAGGTGCCTGGCGGCTGGACCTTGGTGAGCTGGAGGCAGCCGTGACACCCAAGACCCGGGCGATCTTCCTGCAGAACCCATCGTTTCCCTCGGGGTACCGGCTGACCGAGGACGAATGGTCAGCGATTGCGGGCCTCTGCGTCGGACGGGACCTCTGGCTGATCTACTGGTCCCTGATGGAAGGGATCGTTTTCGATGCCCAGCCAATCCTGAGTCCTGTGGCCTATCCGGGAATGCGTGAGCGCACCATTATCGTGGGATCGGCGTCGATCGAGCAGCGGATGATCGGCTGGCGCATCGGCTGGATTCTGGCTCCGAGGGCAGTGATGTCCGATCTCGCCGTCGTCCATATCTACAACGGCATCACTCCCGGCGGCATTGCACAGGCGGGCCTGATTGCTGCCCTCAGCGACGGTGATGACAGCTTTGCCCAGTGCGTTACCGAATGGGAGCGCCGCCGCAATGCCCTCACCACTACGCTGCAGGGCTTCGCCATGATTCCGGCCGCAGGCGGTTGGTCACAAATCGTGGATACCGTCCATCATGGCGTGGACCCGGGCGACCTCTCCCGGGTCCTGTTGCGGCACGGCGTGGCTGCCACGGCCATGACGGGCTGGGGCGGGCCCGTGGCGGACAGACACCTCCGGCTGGTGTTCAGCAACGAGCCTGTGGAACGGATCCAACTGCTGGGCGACAGGTTCCGGGCAGCCGTTCGGGAGGCCGGCGGCCGCGCGTAG	MRPRPTRLNHVAGFNIDTVAASAGDDPEMLRLENLDTDLLPPPAAIEATRAAVGLDSANSYLPFTGQLAAKEAVAGYVAARTGVSYDPATEVILTSSDGDCLLDALLALTDPGDEIVLTDPTYAGMLNRVYLAGGVPRLVPMTVSAGAWRLDLGELEAAVTPKTRAIFLQNPSFPSGYRLTEDEWSAIAGLCVGRDLWLIYWSLMEGIVFDAQPILSPVAYPGMRERTIIVGSASIEQRMIGWRIGWILAPRAVMSDLAVVHIYNGITPGGIAQAGLIAALSDGDDSFAQCVTEWERRRNALTTTLQGFAMIPAAGGWSQIVDTVHHGVDPGDLSRVLLRHGVAATAMTGWGGPVADRHLRLVFSNEPVERIQLLGDRFRAAVREAGGRA	PGPT0020110_3798	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
D1-29_03901	912			hypothetical protein	TTGCCACAGCTCGCCAGACGCCTTTTTGTACTCCCACCCGATCTTGAAGGGGCAGCACAAAGCTGGCTCGAACACGGCGAGCGGACTCCGCGTGCCGCCCGCCTTGCGTCGTCGGTAGTCCTGCTGCGCGATTCCCCCAGCGGCCTGGAAACCTGGCTTGGATACCGTCCCGGTTCCTCGCCGCTGGGGGTCCTCGCGTTTCCCGGAGGTTCCCTGGACGCGTCCGACGACGATCCCGTCGGCTGGCTGGGTCCCTCACCCCAGTACTGGGCCGAGCAGATGGGAACTGACGACGTCGGCCTGGCCCGGCGCCACGTGGTGGGCGCCATCCGGGAACTCTTTGAGGAAACCGGTGTGCTGCTGGCCGGGCCAGACGCAACCACCACTGTCGAGTCCACGTACGTCCAGGAGTGGATGCGCGCGCGGGAGGCCGTGTCAAACCAGGAGAAATCGTTCACCGAAGTACTGGCGAAGCGTGGCCTTTCGCTGCGCACCGACCTCCTGAAATCCCTGGTCAACTGGCGCAGTCCGGACTTCGCGCACTTTCGCTTTGATACCCGCTATTTCGCGGCAACAGTGCCCATGAACCAGGAACCCACCCTCTTGGAGAGCAAGGGCGTGTGGGGGCGCTGGGTGAGCGCCTCCAAGGTCATCGCGGAGCGGGACACCACAGCGCTGGGCGATGAGGTGGGCCAGGAAAACACGGTTGGCCTTACCCTGGGCCAATTGCTGGTGCCCGGATCGGAGATCATACTCGAGAAAATGGCCGCCGCCAACGGCTGCGTCGCCTACCTCAGCTACAAGCGCAAGGCCCACGTCTACCAGCCCAGGCTGGTGCAGGAAGACGGCAAGCTGATGCTTGAGGTGGAAGCTGCCAAGACCGTAGCAGGCGAGCCGCAGCGCGAACGCTAA	MPQLARRLFVLPPDLEGAAQSWLEHGERTPRAARLASSVVLLRDSPSGLETWLGYRPGSSPLGVLAFPGGSLDASDDDPVGWLGPSPQYWAEQMGTDDVGLARRHVVGAIRELFEETGVLLAGPDATTTVESTYVQEWMRAREAVSNQEKSFTEVLAKRGLSLRTDLLKSLVNWRSPDFAHFRFDTRYFAATVPMNQEPTLLESKGVWGRWVSASKVIAERDTTALGDEVGQENTVGLTLGQLLVPGSEIILEKMAAANGCVAYLSYKRKAHVYQPRLVQEDGKLMLEVEAAKTVAGEPQRER				NA	NA	NA	NA	NA
D1-29_03902	534			hypothetical protein	ATGAGCACCCCCTCAGACACCACGTCCGGCGCGGCAACGGCGCCCATTTCCGCCGTCGAGCAGCGGCTGGCCGAACTCGGCCTAACCCTCCCCGAGGTACCGGCTCCGGTGGCCGTTTACGTGCCCGCGATCATCTCGGGCAACCACGTTTACACCTCCGGCCAGCTGCCGTTTATTAACGGCAAACTCGAAGCAACGGGCAAAGTGTCCACCGGCACCGAGGGCTACGCTGACGAACCCACTGTTTCGCCGGAAGACGCCCACCGCTACGCCGCGGTGTGCGCGGTGAACGCCCTGGCAGCAGTCAAAAGCGTGATCGGCGATCTTGACCGCATCACCCGGATCGTCAAGGTTGTGGGATTCGTCTCATCGGATCCGTCGTTCACCGGCCAGCCCGGTGTTATCAACGGCGCGTCCGAACTCCTGGGCAGGGTCCTGGGTGAGGCGGGGCAGCATGCCCGCTCCGCCGTCGGCGTTAATGTGCTGCCGCTCGACTCTCCGGTGGAACTCGAACTGATTGCGGAATTCAGCTAG	MSTPSDTTSGAATAPISAVEQRLAELGLTLPEVPAPVAVYVPAIISGNHVYTSGQLPFINGKLEATGKVSTGTEGYADEPTVSPEDAHRYAAVCAVNALAAVKSVIGDLDRITRIVKVVGFVSSDPSFTGQPGVINGASELLGRVLGEAGQHARSAVGVNVLPLDSPVELELIAEFS				NA	NA	NA	NA	NA
D1-29_03903	156			hypothetical protein	ATGACCAAATGGGAGTACGCCACGATTCCGCTCATTATTCACGCCACAAAGCAGATTCTTGACCAGTGGGGAGAGGACGGCTGGGAGCTCGTCCAGGTAGTCACAGGACCTGACGGCAACGGCCTTGTTGCCTACCTGAAGAGGGAGAAGCAGTAG	MTKWEYATIPLIIHATKQILDQWGEDGWELVQVVTGPDGNGLVAYLKREKQ				NA	NA	NA	NA	NA
D1-29_03904	2286	ponA1	COG0744	Penicillin-binding protein 1A	GTGACTCGTAAGAACCCCATTTTCGACACGGCCACTACCCTCGGAAAGATTCTTGGCTTCCTTGGCGTGAGCGCTATTTGTGGTGTCCTGGTGGCAGGCCTGCTGGTTCCGGCCGCGGCTGTTTCCGGCAGCACCGCCAGCGGTTCCATCGAGTTTTTCGACGCTCTTCCGGCAGAGCTGAAGGTGGACCCGCCCAGCCAGTCCACCACCATCCTGGCCGCAGACGGCAGCGTGATCGCCAACCTCTACACGCAGAACCGGACCAAGGTTTCCCTGGACCAGATCTCGCCGCTTATGAAGGAAGCTGTCATCGCCGTTGAGGACAGCCGGTTCTACGACCACGGTGGCGTGGACACCACGGGTATTCTCCGAGCCCTGGTCAGCACGGCCCGTGGAAACAGGCAGGGTGCATCCACCATCACCCAGCAGTACGTGAACAACGTCCTTAACTCCAACCTCGAGGCCGAGGGAAACATCGAGGACATCAAACTCAACGGCAGCCTCAACAAGGGCGTTGGGGACAAGCTGCGCGAGATGAAGCTGGCCATCGCGCTGGAGAAGGAATACAGCAAGGACCAGATCCTTGAGGGTTACCTCAACATCGTGTTCTTCAACCGCGACGCCTACGGGATCGAGGCCGCGTCCAAGCTGTTCTTCAGCACCAGCGCAAAGGACCTTACGCTCCCCCAGGCGGCCCTCCTGGCCGGCCTGGTCAACAGCCCCAGTGCCTTTGACCCCCTCACCAACCCTGACAACGCCAAGGTGCGGCGGGATCTGGTACTGGGCCTGATGCTGAGCCAGAACAAGATCACCCAGGCGGACCACGATGCGGCCGTGGCGACTCCGGTGGAGCCCAAGGTCACCCCGGCCAAGCAGGGCTGCGCCTACGCCGCCACGGCACCGTACTTCTGTGACTACGTGCTGCACCTGCTGCTGAACAACCCGGCCTACGGTGCGGATGCCAAAGAGCGGGAAAGAAGGGTCTTCGGCGGCGGCCTGACCATCACCACCACACTGGACCCGAACGCGCAGGCCGCCGCGCAGGCCCAGTCCGATGCCTCCGCCGGCGCCAACCCCGACAAGTGGGGTGCGGCCATGGTGTCCGTGCAGCCGAACACGGGCAAGATCATCTCGATGGCGCAGAACACCTCGTTCCTCCCCGCGGACGGCAAGTTCGATTCCCAGGTGAACTTCAACGTGGACAAGCTGGACAAGGACGGCAACGACCTCAACGGCCTGGGCGGCGCCCAGCCAGGCTCCACCATGAAGCCGTTTACGTTCGCGGAATGGCTCAATGAGGGCAAGTCCATGAACACCGTGGTCAACGCCGCCCAGCGTGTCTATCCGCTGAACTTCAGGTGGCGGAACTCCTGTGGTGTCACCACGGGTGGGTACAACACCGCCGAGAAGGGCCTCGGCGCCGCCGACAACCTCCAGAATGCAGGGGAAGGTTACTACCGTCCCATGACGGTGCTGGAAGGCCTGTACAACTCCATCAACACAGCCACCTTTGCTTCGGCAGCGCAGTTGGACTTCTGCGGCATCCAGAAGATCGTGGACGCAGTGGGGCTGCACGAAGGCCTGCCGGATGCCGAGAATGGAGTTCCCAACCCCAAGGTGGACATGTTTACCTTGAGCAACCTTCTGGGTTCCAGGCAGACGGCACCGCTCACCATGGCCAGCGCCTTTGCCACCTTCGCCAACGACGGAAAGTACTGTGAGCCGATCGCCATCAGCTCCGTGACTGACCAGACCGGGGCGCAACTGCCGGCCCAGTCCTCCAACTGCCGTGACGCCCTCAAGCCTGAAGTGGCCCGCGGCGTGAACTATGCGCTTCAGGAAGTCCTGAACCAGGGCTCAGGTTCGCTGATCAAACCGCGGCTGTCCACCAAGACCAACTTCCCTGTGGCTGCCAAGACCGGAACGTCCAACTTCAACGAGTCCACCTGGGTGGTCGGCTACACCTCGGGTCTGGCCACCGCAGCCTGGTTCGGCGACCCTCTGGGCGACCAGAGGCGGCCGGGCCGGAACCTGTCCTTCAACGGCCAGTTCTACGAAAACCTGGACGGCTACATGATCGCCGGACCAATGTTCTCCAAGTACATGGCGCAGGTTGCTCCGGCCTACGGCACCAATCCGTTCCCGGCACCGCCGTCGAACCTGCTGGGTGGCGGACCGTCGAGGTCCGGCCCGGCACCCACCACGCAGGCCACGCAGGCTCCGCAGCCGTCCACGCAGCCGTCGGCTGAGCCGAGCAAGCCCGGCAACGGCAACGGCAACGGCTAG	MTRKNPIFDTATTLGKILGFLGVSAICGVLVAGLLVPAAAVSGSTASGSIEFFDALPAELKVDPPSQSTTILAADGSVIANLYTQNRTKVSLDQISPLMKEAVIAVEDSRFYDHGGVDTTGILRALVSTARGNRQGASTITQQYVNNVLNSNLEAEGNIEDIKLNGSLNKGVGDKLREMKLAIALEKEYSKDQILEGYLNIVFFNRDAYGIEAASKLFFSTSAKDLTLPQAALLAGLVNSPSAFDPLTNPDNAKVRRDLVLGLMLSQNKITQADHDAAVATPVEPKVTPAKQGCAYAATAPYFCDYVLHLLLNNPAYGADAKERERRVFGGGLTITTTLDPNAQAAAQAQSDASAGANPDKWGAAMVSVQPNTGKIISMAQNTSFLPADGKFDSQVNFNVDKLDKDGNDLNGLGGAQPGSTMKPFTFAEWLNEGKSMNTVVNAAQRVYPLNFRWRNSCGVTTGGYNTAEKGLGAADNLQNAGEGYYRPMTVLEGLYNSINTATFASAAQLDFCGIQKIVDAVGLHEGLPDAENGVPNPKVDMFTLSNLLGSRQTAPLTMASAFATFANDGKYCEPIAISSVTDQTGAQLPAQSSNCRDALKPEVARGVNYALQEVLNQGSGSLIKPRLSTKTNFPVAAKTGTSNFNESTWVVGYTSGLATAAWFGDPLGDQRRPGRNLSFNGQFYENLDGYMIAGPMFSKYMAQVAPAYGTNPFPAPPSNLLGGGPSRSGPAPTTQATQAPQPSTQPSAEPSKPGNGNGNG				NA	NA	NA	NA	NA
D1-29_03905	948	ypbG	COG1408	putative protein YpbG	ATGGTAGCCACCTCCGCCTTGGCCAGCCGCGTCCGGAACATCGGGCGCGGCTTTGCCGTCACCGCCGCCGCGGCATCCGCCGCAGGGCTTGCCGCTTTCGGATACGGGCTGTGGGAGAAGAACCAGTTTGTCCTGCGGGAGGAATCCCTGCCCATCCTGCCCGAGGGAGGGGCCCCGTTCCGCATCCTGCACCTGAGCGACATCCACTTCGTTCCGGGCCAGGACACGAAAGCCGCCTGGCTGCAGTCACTGGCGTCGCTGGAACCGGATCTGGTAGTCAACACGGGCGATAACCTCAGCCACGTCAAGGCTGTGGATCCGCTGCTCAAGGCCCTGCGTCCGCTCCTGGAATTCCCCGGTGTGTTTGTTCCAGGGTCCAACGACTACTACGCCCCCAGCTTGAAGAACCCTGCGTCCTACCTCCTGGGCCCGTCTAAGGCCAAGCGTGACTCCATTGAGCTGGACTGGCCGCGGCTCCGCGCCGGGTTCGGGATGGGCGGCTGGGTTGACCTGACCAACCGCCATCAGTCGCTGGTCCTGAAAGGCCTGCGTTTTGACTTCTCCGGCGTGGACGATCCGCACTTGAACCGTGAACGGTACGCCGGCTGGCCGCGCGGCACCAGGAACCAGGACCAGACCCAGCACCTGCGCGTGGCCGTCATCCACGCCCCCTACCAGCGCGTCCTGGACCACTTCACCCGTGACGGCGCGGACCTGCTGCTGGCCGGCCACACCCACGGCGGCCAAATCTGCATCCCCGGCTACGGCGCAGTGGTGGCCAACTGCGACATTCCCACCTGGCGGGCCAAAGGCCTCAACGACTGGGAATTCGACGGACGCACGACGCCGGTCAACGTCTCCGGCGGTATCGGCACCTCCCGCTTCGCCCCGGTCCGCATTGCCTGCAGGCCGGAAGCCGTCCTGCTGACCCTCACCGCCCGCTCCTAG	MVATSALASRVRNIGRGFAVTAAAASAAGLAAFGYGLWEKNQFVLREESLPILPEGGAPFRILHLSDIHFVPGQDTKAAWLQSLASLEPDLVVNTGDNLSHVKAVDPLLKALRPLLEFPGVFVPGSNDYYAPSLKNPASYLLGPSKAKRDSIELDWPRLRAGFGMGGWVDLTNRHQSLVLKGLRFDFSGVDDPHLNRERYAGWPRGTRNQDQTQHLRVAVIHAPYQRVLDHFTRDGADLLLAGHTHGGQICIPGYGAVVANCDIPTWRAKGLNDWEFDGRTTPVNVSGGIGTSRFAPVRIACRPEAVLLTLTARS	PGPT0022365_2328	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
D1-29_03906	1827		COG1132	Putative multidrug export ATP-binding/permease protein	ATGGCCAAGCAGACTCCATTCTTCAGATCCATCAGCCGTCTTTATCCCCATGTGAGGCCGATTATCCCCCGGCTGGTAATGGGGCTCCTCTGCGCACTCCTGGCCAGCCTGGTGGCACTCACCATCCCCCAGGTGCTCCGTGTGCTGATCAACGAGTCGCTTCAGCCCGGCGGCGAGGCGGGCGCGGTCTGGAGTGCCGCCATCGTGATCCTGATCCTGGGCATCGCCGAGGCCGGACTGGTGGCCTTGCGCCGGCAGTTTGTCATCAACCCGGCAACCACCGTTGAGACCCGGATGCGGGTCTCCCTTTACGGCCACCTGCAGGACCTGACTGTCTCGTTCCATGACCGCTGGGGTTCCGGCCAACTGCTGTCCCGCGCCATGACGGACCTGAACTTCCTGCGCCGGTGGATGGCCTTCGGCGCGATCATGCTGGTTGTCACCACACTGACGGTCATCATCGGCACTGTGGTGATGTTTACCATGAGTTGGCAGCTGGCCCTGGTTTTCCTGGCCGCCGCAGTACCCATCATGGCCTACGGCTTCCGCTTCCGGACACGGTTCAGCAAGGTAACACGGCGCAGCCAGGACCAGGCTGGTGACCTCGCCACCACGGTGGAGGAATCGGTCCACGGGATCCGGGTCCTCAAAGCCTTCGGCCGCAGCCGAGAGGCGCTGGAGACCTTCAACGAACAGGCCGAGGAACTCCGCCAGACTGAGATTGCCAAGGCCCGGCACCAGGCAACGTTCACCATGGTGGTCACCCTGCTGCCCGAGCTGGCGCTGGGTGCCGGGCTGGTGGTGGGTGTGATGCTCTGTGCCAGCGGTGAGCTCAGCATTGGCGCCCTGGTTGCCTTCTTCGCCACCGCCGCGGTCATCGCCACCCCCGTGGAATTCTCCGGGATGCTGCTGGCCATGGCCCTCACCGCCAAAACCGCCATCGACAGGCACTACGAAGTGATGGACACCGCCAACACCATCACCAGCCCACCAGAGCCCCAAAAGCCTTCGCAACTTCGCGGCGCGCTGAGTTTCAACAACGCGACCTTCGCGTTCGAGGACGCCCCAGACAAGCCCATTCTCAGGAACATCAACCTGGAGATCAGGCCCGGCGAAACCATGGCCCTGGTTGGTGTCACCGGAAGCGGCAAGAGCGCCATGATCCAGCTGGTCCCCCGGCTTTACGACGTCACCGATGGTTCCATCACCATCGACGGCGTGGACCTGCGCGACTTCGACGTCGAAGAACTCCGCCGCGTGGTGGCAGTGGCGTTCGAGGACACCACCCTGTTCTCAAATTCCGTCCGGGACAACGTGCTGCTCGGCGCGCAGGAACGGACCGATGAAGCCCTGGAGGAGGCCCTTGACGTCGCCCAGGCACACTTCGTTTACTCTCTTCCCGAAGGTGTGGATACCCTCATCGGCGAGGAAGGGCTCAGCCTGTCCGGCGGGCAGCGCCAGCGCATCGCCCTGGCGCGTGCCATTGCAGCCAAACCGCGGGTCCTGGTGCTGGATGATCCCCTTTCCGCCCTGGACGTGCACACCGAGGAACTGGTGGAGGCGCGGCTCCGTGAGGTACTCGCAGAAACCACCACGCTGATCGTGGCCCACCGTCCGTCAACCGTGGCGCTTGCCGACCGTGTGGCGCTCCTGGAGGAAGGGCGGATCACCGCCGTCGGGACCCACACCGAACTGCTGGCCCGCAACTCCCACTACCGGTATGTGATTGCCAGCCTGGACCGGGAACCGCGCGACCTGGATTCGGAGCTGTCGGATCTTGAAGAAGAGGCAAACGCAGAGGCAGCCGCTGAGGAGATCAACCGATGA	MAKQTPFFRSISRLYPHVRPIIPRLVMGLLCALLASLVALTIPQVLRVLINESLQPGGEAGAVWSAAIVILILGIAEAGLVALRRQFVINPATTVETRMRVSLYGHLQDLTVSFHDRWGSGQLLSRAMTDLNFLRRWMAFGAIMLVVTTLTVIIGTVVMFTMSWQLALVFLAAAVPIMAYGFRFRTRFSKVTRRSQDQAGDLATTVEESVHGIRVLKAFGRSREALETFNEQAEELRQTEIAKARHQATFTMVVTLLPELALGAGLVVGVMLCASGELSIGALVAFFATAAVIATPVEFSGMLLAMALTAKTAIDRHYEVMDTANTITSPPEPQKPSQLRGALSFNNATFAFEDAPDKPILRNINLEIRPGETMALVGVTGSGKSAMIQLVPRLYDVTDGSITIDGVDLRDFDVEELRRVVAVAFEDTTLFSNSVRDNVLLGAQERTDEALEEALDVAQAHFVYSLPEGVDTLIGEEGLSLSGGQRQRIALARAIAAKPRVLVLDDPLSALDVHTEELVEARLREVLAETTTLIVAHRPSTVALADRVALLEEGRITAVGTHTELLARNSHYRYVIASLDREPRDLDSELSDLEEEANAEAAAEEINR				NA	NA	NA	NA	NA
D1-29_03907	1842		COG1132	putative ABC transporter ATP-binding protein	ATGAGCAGCACCACCTTCGGCACCGCCAACGAGGACAACGCCCACCTCAGCAAGAGCGACAGCAGAACCGTACGGCGCCGGTCCCTCGCCCTGCTGGCCTCCCTGATCCGCCCGGTGCGCCTCAGGTTCTGGCTCACCATCGCCACCGTGGTCCTGTCGCAGGCGGCCCGCGTAGCGGGTCCTGCCCTGATCGCCTACGGCATTGACCACGCCCTGCCCGCCCTGCAGGCAGGTGACAACTTCCCGTTGGTGCTGACCGGCGTCGCATATTTGGCGGCGGCCCTTGCGACGGCGGGACTCACCGCCCTGTACGTAACGTCCACAGCGAGGCTCAGCCAGGCCATGCTGCTGGACCTGCGGGTACGGGTTTTCCGCCACACCCAGCGCCTCAGCCTGGAATTCCACGAAAAATACACCTCAGGCAGGATCATCGCCAGGCAGACCTCGGACCTGGAGGCCCTGCGCGAACTCCTCGATTCCGGCGTCAGCTCACTGGCCTCAGGCATGCTGTTTATGGTCTTCACCGCCGTCACAGTGTTTGCCCTTGACTGGCGAAGCGGGCTGATAGTGCTCGCCGCCGGCGTGCCCATGTACTTCCTGTCCCGCTGGTACCAGAAGCATTCCCAGATCGCCTTTCGCGAATCCAGGGTGGTCTCGGCCCGGCTGATTGTGCACTTTGTGGAAACCATGACAGGCATCCGCGCGGTGAAGGCTTTCCGCAAGGAACGTGAAAACGCGGAAACCTACGGCCAGCTCGCCGAGGATTACCGCCTGGTGACGGTCCGCTCCATCAACCTCAACGGCATCTTCCAGCCGGGCCTGGTGCTGATCGGCAACGTCTGTGTTGCTGCCGTGCTGCTCTTCGGCGGTTTCCGGGTGCTCAACGGAGAGCTGGCCGTGGGCGTGCTGCTGGCACTGATCCTCTCCACCAAGCGCTTCTTCCAGCCCGTGGACCAGATGGCCATGTTCTACAACTCCTTCCAAAGCGCCCAGGCCGCCCTCGAGAAGGTCTCCGGCCTGCTCCAGGAGGTCCCCACCGTGCGGCCGCCCAAGAATGCCGTGCCGCTCCGGGACGCTGAAGGAACCATTGACTTCAAGGGCGTGGAGTTCCGCTACGGGGACGGTCCTGTCATCATCCCCAGCCTGGACCTGCATATCCCCGCCGGGCAGACGGTGGCCCTGGTGGGCCAGACTGGTGCCGGCAAGTCCACCCTGGCGAAGCTGATCGCCCGGTTCTACGACGTCTCCTCCGGCTCCCTGACACTGGACGGTATTGACCTGCGCAACCTGGGCAGCACCGACCTGCGGCGGAACATTGTGATGGTCACGCAGGAAGCGTTCCTGTTCAGCGGCTCCGTGGCGGACAACATTGCCTTGGGCCGGCCGGAGGCTTCGCGCGCGGAGATCGAGGAGGCCGCCCGGGCCGTGGGCGCGCACGGGTTCATTACAGAACTGCCCGAAGGCTATGACACTGACGTCAACAAGCGTGGCGGGCGTGTCTCCTCCGGCCAACGCCAGCTCATCAGCTTCGCACGGGCATTCCTCGCCCGGCCGGCAGTCCTCATCCTGGACGAAGCCACCTCGTCACTGGATGTTCCTTCCGAGCGGCTCGTGCAAACAGGGCTGGCGCGCCTGCTGCAGGCAACCGCGGGCAATAGTTCGGCGCGCGGGGGCCGCACCGCGCTCATCATCGCCCACCGGCTCTCCACGGTGGAAACGGCTGACCGGGTGCTCGTGATCCACGACGGCCGTGTGGTGGAGGACGGTACGCCGGCTCAATTGATCGGTGGCGGCGGACGCTTCGCGGACCTTCATGGCGCCTGGAAGGACTCCCTGGTCTGA	MSSTTFGTANEDNAHLSKSDSRTVRRRSLALLASLIRPVRLRFWLTIATVVLSQAARVAGPALIAYGIDHALPALQAGDNFPLVLTGVAYLAAALATAGLTALYVTSTARLSQAMLLDLRVRVFRHTQRLSLEFHEKYTSGRIIARQTSDLEALRELLDSGVSSLASGMLFMVFTAVTVFALDWRSGLIVLAAGVPMYFLSRWYQKHSQIAFRESRVVSARLIVHFVETMTGIRAVKAFRKERENAETYGQLAEDYRLVTVRSINLNGIFQPGLVLIGNVCVAAVLLFGGFRVLNGELAVGVLLALILSTKRFFQPVDQMAMFYNSFQSAQAALEKVSGLLQEVPTVRPPKNAVPLRDAEGTIDFKGVEFRYGDGPVIIPSLDLHIPAGQTVALVGQTGAGKSTLAKLIARFYDVSSGSLTLDGIDLRNLGSTDLRRNIVMVTQEAFLFSGSVADNIALGRPEASRAEIEEAARAVGAHGFITELPEGYDTDVNKRGGRVSSGQRQLISFARAFLARPAVLILDEATSSLDVPSERLVQTGLARLLQATAGNSSARGGRTALIIAHRLSTVETADRVLVIHDGRVVEDGTPAQLIGGGGRFADLHGAWKDSLV				NA	NA	NA	NA	NA
D1-29_03909	222			hypothetical protein	ATGTTGAAGAAGATTGCAGCCGCAGCCGTACTGGCTGGTGCCCTGGCGTTTTCTGCGGCGGCCCCGGCCGTCCTGTCTGCAGGTTCCATTGCTGATACCACGGGTAGCGCCGTAGCAGTAGGCAACTGGCCTGACCCCATGTCCAAGCCCGTCAAGGAGAAGGACAAGGACAAGGACACCACCTACACCACCAACGTCGGCAACTGGCCTGACCCAATGTAA	MLKKIAAAAVLAGALAFSAAAPAVLSAGSIADTTGSAVAVGNWPDPMSKPVKEKDKDKDTTYTTNVGNWPDPM				NA	NA	NA	NA	NA
D1-29_03910	1266			hypothetical protein	GTGGGCAACGGATTCGGGGAGAAGCTCCGGGCGGAGCGACTCGAACGTGGGCTGACGCAGGCTGAACTGGGCAAGGACCTGTACTCCCCTAGTTATATTTCTCTGCTCGAGACCGGCCGGAGGGAACCAACGGCCGAAGTAATCGAGGAACTGGCACGCAGGCTGGAGCTGGCGCCCAAGGCGCTGGAAGCCTGGAGTCAGCCAATTTCAGTCAGCGACGCCGAGTACGTCCTGGCCGGACTCTATGCGCGGCAGGCCTGGGACCTGCGGGATTACCCGCTCGCTGCCAGCCACGCCGCCACCGCCGCACAGATCGCTCTGGAGGGCAAGAACACCAGTGCCTGGTGGAACATGACCTACATGCAGGCGGAGTGCCTGATCAAGCAGGGCAACTGGCAGGAAGCCCAGAAGATCATGTATCACCTGCTGGAACATCCCATGGCCACCGAGTCCGTCGGACTGGGCGTACGGGCACGCCAGATGCTTGCGGGCATTTGCCAGGGACAGGGTCAGCTGAGCACCGCCGTGGACCATGCCCTGGAAGCCGTGAAGCTCTGCGCCCAGCTGCCCAAGGGCTCCACCCTCATCATCGGCGCGCACCGTGCGCTGATTGGCGCCCTCGCGGAAAGCGGCCGGCTGGACGAGGCCTGGAAGTACTGCCAGGCCATGAACGAACACGTGGATGAGCACTCGATGTCCCAGCTGGCCGGGGAAGTCGCCTGGGTCATCGGCAACGTGGCCTTTATGCGCCACGATTACCCGGAGGGCATCAAGTACCACGAGCGTGCCGCCAAGATGCTCTCCCCTGCGAACGACATCGAACTCTGGGCCCGCTTCAACAAGGCTTCCGCCGCAGTCCGGCTGTCCTCAGGAATTGTGGAGCCGGAAACGCTCTCCTCGATCGAACGTGCCGAATTGGCGCTGTCCATTGTGGGCGGGAACAAAACAGACCAACTGGAAGTGGCCTTCATCCGTGCGCGCTGGCTTTACCTCACCGGCGACATCGTGGCCGCCGTGGAAAAGCTGCGCGAAATCCACTCCGAACGCTCCGCACTGGCCAAGCACACGGCTGGGGAGGTCTCACTTTTGCTGGGCAAGTCCCTCAAGGCTGCGGGCGAATCGGACGAGGCCCTGGTGTACCTGGAGGAGGCGCAGAAGGCCTTCAGCGCCGCCGGTGCCCAGGACCGCGTCCAACAGGCGTTGGACGCCGTCCTGGAGATCAAGCTGGCCCAGCAGCGGGCTGCGAAGGCTGCCAAAGCCAGCTAG	MGNGFGEKLRAERLERGLTQAELGKDLYSPSYISLLETGRREPTAEVIEELARRLELAPKALEAWSQPISVSDAEYVLAGLYARQAWDLRDYPLAASHAATAAQIALEGKNTSAWWNMTYMQAECLIKQGNWQEAQKIMYHLLEHPMATESVGLGVRARQMLAGICQGQGQLSTAVDHALEAVKLCAQLPKGSTLIIGAHRALIGALAESGRLDEAWKYCQAMNEHVDEHSMSQLAGEVAWVIGNVAFMRHDYPEGIKYHERAAKMLSPANDIELWARFNKASAAVRLSSGIVEPETLSSIERAELALSIVGGNKTDQLEVAFIRARWLYLTGDIVAAVEKLREIHSERSALAKHTAGEVSLLLGKSLKAAGESDEALVYLEEAQKAFSAAGAQDRVQQALDAVLEIKLAQQRAAKAAKAS				NA	NA	NA	NA	NA
D1-29_03911	954	purC	COG0152	Phosphoribosylaminoimidazole-succinocarboxamide synthase	ATGACTGAAAATTACGAAACCGGCAACGCCGCCAAAGCCGGCCTGCACACGAAGACGCTGGACCTGCCGGGATGGCAGCACGTCTACTCCGGCAAAGTCCGGGACCTGTACGAGCCCGTGGACGAAACCATCCGCCAGCAGGTGGGCCAGGACTGCGTCCTGGTGGTGGCGAGCGACCGCATCAGCGCCTTCGACCACGTCCTGGCCAGCGAAATCCCCGACAAGGGGCGCATCCTCACCCAGCTGAGCCTCTGGTGGTTTGACCAGCTGGACGTGGTCCACCACGTGCTTGCCTCCACGGTGGAAGGCGGGGTCCCCGCCGAGGTTGAAGGCCGGGCCATGATCTGCAAGAAGCTGGACATGTTCCCCGTGGAGTGCATCGCCCGCGGCTACCTCACCGGCTCCGGGCTGCTTGAGTACAACGCGTCCGGCACTGTCTGCGAGATCCCGCTTCCGCCGGGCCTGGTGGACGGTTCCCGCCTGGACAGGGCCATCTTCACTCCCTCCGCCAAGGCTGAGGTGGGCGAGCACGACGAGAACATCACCTACGACGACGTGGTGGCAATGGTGGGAGACGACATCGCAGCACGCCTGAGCGAACTGACCCTCAAGATCTACACCACCGCGGAAAAGGTCGCCCTGGAACGCGGCATCATCCTGGCGGACACGAAAGTGGAGTTCGGCTACGACGCCGTCTCCGGCGCCATCACCTTGGGGGATGAGGTGCTCACCCCGGATTCCTCCCGTTTCTGGGACGCCGCCACGTATCAGCCGGGCCAGGCGCAGCCGTCCTATGACAAGCAGTATGTCCGGGACTGGCTGACTTCAGCAGAATCCGGCTGGGACAGGAAATCGGACACCCCTCCGCCGGCACTGCCTGAGGACGTTATCAGCCGGACGCGAAGCCGCTATGTAGAGGCCTACGAAAAGCTCACCGGTAAAACGTTCTCCTAG	MTENYETGNAAKAGLHTKTLDLPGWQHVYSGKVRDLYEPVDETIRQQVGQDCVLVVASDRISAFDHVLASEIPDKGRILTQLSLWWFDQLDVVHHVLASTVEGGVPAEVEGRAMICKKLDMFPVECIARGYLTGSGLLEYNASGTVCEIPLPPGLVDGSRLDRAIFTPSAKAEVGEHDENITYDDVVAMVGDDIAARLSELTLKIYTTAEKVALERGIILADTKVEFGYDAVSGAITLGDEVLTPDSSRFWDAATYQPGQAQPSYDKQYVRDWLTSAESGWDRKSDTPPPALPEDVISRTRSRYVEAYEKLTGKTFS	PGPT0021565_712	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923	NA	NA
D1-29_03912	1338	purD	COG0151	Phosphoribosylamine--glycine ligase	GTGGGCAAAGTACGCTTGGAGACTGTGAAGGTACTCGTCATCGGCCCCGGAGGCCGCGAACACGCCATTGTCCGCTCCCTGCTCGCCGACCCCAACGTATCCGAGGTCCACTCTGCTCCCGGCAACGCCGGTATCAGCAAGCTGGTCCCCACCCACAACATCAACGGCAATGATCCGGACGCCGTCGCGGCACTGGCCACCAAGCTCGCGGTGGACCTAGTGGTGGTTGGCCCCGAGGCCCCGCTCGCAGCAGGCGTGGCGGACGCAGTCCGGGAGGCCGGCATCCCGGTGTTCGGACCCAGCAAGGCAGCCGCCCAGCTGGAGGCTTCCAAAGCCTTTGCCAAGGAAGTCATGGCGGAAGCCGGCGTGCCCACGGCCATGGCAATGGTGGCGGCCAACGCGGAGGAAGCAGCATCCGCCCTTGATACCTTCGGCGCACCCTACGTGGTGAAGGACGACGGCCTGGCCGCAGGCAAGGGCGTGGTGGTGACCAACAACCGTGACGAAGCACTGGCCCACGCGCAGGCCTGCTTCGACGCCGGCGGCACCGTGGTGATTGAAGAATTCCTGGACGGTCCGGAAGTTTCTGTCTTTGTCCTCTGCGACGGCCGCAACACCGTGGCACTGTCCCCGGCACAGGACTTCAAGCGCATTTTTGACAACGATGAAGGCCCCAACACCGGCGGAATGGGCGCCTACACTCCGCTGGAGTGGGCACCGGAAGGCCTGGTCGAGGAGGTCATCGACCGCGTGGCCCAGCCCACCGTCAACGAAATGGCCCGCCGCGGCACCCCCTTTGTGGGCGTGCTGTTCGTTGGCCTGGCCCTGACCTCGCGCGGAACCCGCGTGATCGAGTTCAACGTCCGCTTCGGCGATCCCGAAACGCAGGCCGTGCTGGCCCGCCTCAAGACGCCGCTCGGTGCGCTGCTGCTGGCAGCCGCCAAGGGCGAACTGGACCAGGCGGAAGAGCTTCGCTGGTCCAAGGAAACCGCTGTCGCCGTCGTCGTAGCGTCCGAGAATTATCCGGACACCCCGCGCACCGGTGACCGGATCCGCGGGCTGAAGAAAATTGACGAGCTGGAAGGCGTCCACGTGATCCACGCGGGCACTGCCCTGGACGAGCAAGGCAAGGTGGTCTCGGCCGGCGGCCGGGTGCTCGCCGTGGTTGCGCTCGGCAGCGACCTCGTGGAGGCGCGTGAAAAGGCGTACGACGGCGTGGAACTGGTTCAGCTGGAAGGGTCCCAGTTCCGGACGGACATCGGCGGCAAAGCCGCCCGTGGCGAGATCAAGGTAGCCAACGCAACCGCGTCACTGCCCGTGACAAAGACAAAGGCATAG	MGKVRLETVKVLVIGPGGREHAIVRSLLADPNVSEVHSAPGNAGISKLVPTHNINGNDPDAVAALATKLAVDLVVVGPEAPLAAGVADAVREAGIPVFGPSKAAAQLEASKAFAKEVMAEAGVPTAMAMVAANAEEAASALDTFGAPYVVKDDGLAAGKGVVVTNNRDEALAHAQACFDAGGTVVIEEFLDGPEVSVFVLCDGRNTVALSPAQDFKRIFDNDEGPNTGGMGAYTPLEWAPEGLVEEVIDRVAQPTVNEMARRGTPFVGVLFVGLALTSRGTRVIEFNVRFGDPETQAVLARLKTPLGALLLAAAKGELDQAEELRWSKETAVAVVVASENYPDTPRTGDRIRGLKKIDELEGVHVIHAGTALDEQGKVVSAGGRVLAVVALGSDLVEAREKAYDGVELVQLEGSQFRTDIGGKAARGEIKVANATASLPVTKTKA	PGPT0021575_349	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021575-purD-K01945	NA	NA
D1-29_03913	1578	msrP_2		Protein-methionine-sulfoxide reductase catalytic subunit MsrP	ATGATCAAGCTCCTGAACTGGCTCAAGGGCCCCACAGCGCTGGCGGCTCTGGCCGGCGTGGTGGCTGCCGCCGTCGTCCTGTCCGTAGCGGAGCTGATCGGGGCGTTCTTTACGGCGCGGGCAACTCCCGTCATTGCGCTCGGCTCCACCTTCATCGATTTCACCCCGCCGTGGATGAAGGACTTTGCCATCGCCACGTTCGGCACCAACGACAAGGCTGCGCTGTTTGTGGGCATGGGCCTGACCATTTTCCTGCTGGCCTGCGTGCTGGGGGTGGTGGCCTACCGTCGGTGGGTGCTCGGCGTGGCGGGAGTGCTGCTGATGGGCTCTGTGATGGTGGCGAGCGTTGTGACCCGGGCCAGCGTCAAGCCGCTGGATGCCATCCCCACCCTGGCAGGCACGCTGGCCGGGCTGGTGGTGCTGCGCCTGCTGGTTGCGCCGCTCTGGCGAATGAAGGCATGGCCTGATGCCCCTGCGGACACTTCATCCAAGGACCCTGAGCGGCCGGCCAGCACCCGCCGCGGCTTTTTCGCAACCGCCGGCATCACGGCGGCAGCCGCCGGGGTGGCGGCAGTTGGCGGCCGGCTCCTGGGTGCTGCCCGCAGCAACATTAATCAGGCCCGGGGAGCCCTGCGGCTTCCTGAGCCGGTCAGGGCTGCGGCCGCGGTTCCGGCCGGGGTTCAGTCGGCGGCATCCGGCGTCACTCCCTGGGTCACGCCCAACAGTGACTTCTACCGGATCGACACCGCGTTGAGCGTGCCCGAGGTCAACGCCGATGACTGGGAGCTGCGGGTCCATGGACTGGTTGAGGAGGAAATTCGCCTCACGTTCCAGGACCTGCTCGACGCCGACCTCATCGAATCGCACATCACCCTCACCTGTGTCTCCAACCCGGTGGGCGGGAACCTCGCCGGGAACGCCACCTGGCTGGGCCTGCCCATTCGTGAGGTCCTCCGGCGCGCCCGCCCCAAGGACGGCGCGGACATGGTGCTGTCGACGTCGGTTGACGGCTTCAGCGCCTCCACGCCTTTGGAGGTCCTCCAGGATGACCGCGATGCCATCCTTGCCATCGGCATGAACGGGGAAGCGCTGCCGCTGGAGCACGGCTACCCGGTCCGGATGGTGGTTCCCGGGCTGTACGGCTTCGTCTCCGCCACCAAATGGGTGGTGGACCTGGAGGTGACGCGTTTTGAGGACAGCAAGGCCTACTGGACCCAGCGCGGCTGGTCCGAGCGCGGCCCCATCAAAACGATGGCGCGTGTGGAGGTCCCCAAGTCCTTCGCCAAGGTCCCGGCCGGGCGCGTGGCCATCGGCGGGACGGCCTGGGCCCAGACCCGTGGCATCACCAAGGTGGAAGTCCAGATAGACAATACCGACTGGGCCGAGGCAACACTGTCCACGGAGGCGTCCCTGATCACGTGGCGGCAATGGTCCTTCGATTGGGACGCCACGCCCGGGCCGCACTACATCAAGGTCCGGGCCACCGACGGGACAGGCGAGGTACAGACGGACCAGCGCGCTGATCCGGTCCCGGACGGCGCCTCCGGCTGGCAGTCGGTCATGGTCACCGTGGAGTAG	MIKLLNWLKGPTALAALAGVVAAAVVLSVAELIGAFFTARATPVIALGSTFIDFTPPWMKDFAIATFGTNDKAALFVGMGLTIFLLACVLGVVAYRRWVLGVAGVLLMGSVMVASVVTRASVKPLDAIPTLAGTLAGLVVLRLLVAPLWRMKAWPDAPADTSSKDPERPASTRRGFFATAGITAAAAGVAAVGGRLLGAARSNINQARGALRLPEPVRAAAAVPAGVQSAASGVTPWVTPNSDFYRIDTALSVPEVNADDWELRVHGLVEEEIRLTFQDLLDADLIESHITLTCVSNPVGGNLAGNATWLGLPIREVLRRARPKDGADMVLSTSVDGFSASTPLEVLQDDRDAILAIGMNGEALPLEHGYPVRMVVPGLYGFVSATKWVVDLEVTRFEDSKAYWTQRGWSERGPIKTMARVEVPKSFAKVPAGRVAIGGTAWAQTRGITKVEVQIDNTDWAEATLSTEASLITWRQWSFDWDATPGPHYIKVRATDGTGEVQTDQRADPVPDGASGWQSVMVTVE				NA	NA	NA	NA	NA
D1-29_03914	1017			hypothetical protein	ATGCCCCACAACCCCCATGCCACCTTTACCGTGGACTCCGCCGTCGAACTCGCCGTTGTTGAACGCAGCGGCTTTGTGGAGTCCCGGCACATCGGCTCCGCCGTGGTGCTGGCAGCCGACGGGTCCGTGGTGACCGAACTTGGTGACATCACCACGCCCATCTATGCGCGGTCCACGCTCAAGCCGCTGCAGGCGCTGGCCGCCATGCAGTCGGGCGTGCCGCTGCGCGGTGCCCAGGTGGCGCTTGCGTGCGCCAGCCATGTGGGATCCCTGGACCACATGGACGTGGTGGAGGGCATGCTCAAGGCCGCAGGGGCCCGCGAGGACCAGCTCCAGTGCCCCGACGCCTGGCCGCACGACGAGACGGCCCGGGACTGGCTGGTCCGTTCCGGTCGCGGCAAATCCAAGCTGGCCTTCAACTGTTCCGGCAAGCATGCCGCGTTCCTCTGGGCCTGCACCGAAAACGGCTGGGACACCCACAGCTACCTGGAGCCCAACCACCCGCTGCAGCAGCGCATCCGGAGCGTGATCGAGGAATACGCCGGCGAACCGATCGCGCATCTGGGAATCGATGGCTGCGGCGCCCCCGTAGCGGCCATCTCACTCCTGGGGCTGGCCCGTTCCTTTTCGAGGCTGGCCAAGGCCCCGGGGGACAAAAACGCCAGTGCCCGCGCCGCCACAATTGCCACGTCCATGCTGGACTACCCCTGGGCGGTGCAGGGCCGCGGCGAGGCCAACACCATTGTGATGGACGAGTTGGAGGTCATCGCCAAGATTGGCGCGGAAGGCGTCCTGGCCATGGCCACGGCGCAGGGTGTGTCCGTGGCCGTCAAGATGCTGGACGGCAACCTCCGTGCCACCTCGCTGGTGGGCCTGACGCTCCTCGCGGCTGCCGGCGCCGTGGACATCCCCGGCGTCTCCAGCGTCCTGGAGAAAGTCGTGGAACCCGTGCTGGGCGGCGGGCGGCCGGTGGGGAAGATCCGGCTGGGACCTGCCGTCTCGGCACTCCTCGACTGA	MPHNPHATFTVDSAVELAVVERSGFVESRHIGSAVVLAADGSVVTELGDITTPIYARSTLKPLQALAAMQSGVPLRGAQVALACASHVGSLDHMDVVEGMLKAAGAREDQLQCPDAWPHDETARDWLVRSGRGKSKLAFNCSGKHAAFLWACTENGWDTHSYLEPNHPLQQRIRSVIEEYAGEPIAHLGIDGCGAPVAAISLLGLARSFSRLAKAPGDKNASARAATIATSMLDYPWAVQGRGEANTIVMDELEVIAKIGAEGVLAMATAQGVSVAVKMLDGNLRATSLVGLTLLAAAGAVDIPGVSSVLEKVVEPVLGGGRPVGKIRLGPAVSALLD				NA	NA	NA	NA	NA
D1-29_03915	378			hypothetical protein	ATGGCTGTAGCGCGCCGTCGTATTGACGTTGAAGAAGGCAAGGCAGCGCTGGCTGCCTGGCAGGAAGCTGCCGCCACGCCGTCGGACGTTTCCGTCCCGCGTACCGTCACCGCAACCGCCGTCCGATACACGCTGGAGGAGGTCACCGCCCGGGCGCCGGGCAACTCGGTGGAGGTGCGGGTGCCGCCGTTCGGGGTCACCCAGTGCGTGGAGGGGCCCCGCCATACCCGGGGTACGCCGCCCAACGTTATTGAGTGCGACGCCGCCACCTGGCTTGCGATGGTGACCGGCCAGTTGAGCTGGGCAGACGCGGTGGAGGCGGGCCGGGTTGCGGCCTCCGGTCTCCGCGCCGACCTCTCCGCCCTCCTCCCCCTCTAA	MAVARRRIDVEEGKAALAAWQEAAATPSDVSVPRTVTATAVRYTLEEVTARAPGNSVEVRVPPFGVTQCVEGPRHTRGTPPNVIECDAATWLAMVTGQLSWADAVEAGRVAASGLRADLSALLPL				NA	NA	NA	NA	NA
D1-29_03916	231			hypothetical protein	ATGGTCCGGGCATTCAAGGGCGAAATCACCAACCATGATTCCGCCATCATGCTGGGCGTGGAGGAAGTCTTTGAGGACCAGGAGCTGGAGCGCCTCAGCGATGGCCAGGCGCCCTCGCCAAAGTTCCGGGGCGGCCCGAACCCGGGCGACATCCCCGAGTTCCAGATGAGCAGGAGGTCCCCGGCAGCCGCCGTCCCTGATTCACCCTCAGGCTCTGCAGCGGGCGAATAG	MVRAFKGEITNHDSAIMLGVEEVFEDQELERLSDGQAPSPKFRGGPNPGDIPEFQMSRRSPAAAVPDSPSGSAAGE	PGPT0001450_11	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0001450-dctA-K11103	NA	NA
D1-29_03917	1014			hypothetical protein	ATGAACAGATTGGTGCCCCTTCCGGAAGCGATGAGAGCGCGGCCCTTTGCCGCCGCGGAGGCTATTCAGGAAGGGGTGTCCGCCAGCAGGCTGAAGGCCGCTGACCTGCTCCTGCCAAGCCGCGGAATCAGGGTTCCCAAGTCCAGCGAACAAAACCTCCATGCCCTCGTCCGATCGCACACCCAACTGCATGCAGATACATTTGCCTGTCTTGTGAGCGCGGCGGAGGTTCACGGCCTCCCACTTCCGCCCTGGGCGGAGTTCAGGCCCGACGGCGGCGCGCCGGTAACTGCCGCCGTCGAACCAGTTCCGTGGGGAAAGAAGAGCGGGGCTCACTTCCGCGAGCCCGGCCGGTTTCTCCATCTCGCACGGCAAGGCGGCGGGACGCTGCCCCGACGCAGAGGCATCGCGGGGCACCGGCTAAAGATCAGGGATGGCGACCTTACGGAAGTCGACGGCCTGCGAGTTACCACGGTGGCTCGAACCTGGGTGGATCTCGGCTCGGTCCTGCCCGTCGACGACCTCATCGTGGCCGGCGATGCGATCGTCAGTGCACACGCAAGGACGTTTGACACCCGGAAAATGGCTCTTGTGCCGCTGGCGGAACTTCGCCAGTTCGTGGAACACGCCAATAGCCTGCACGGAGTTCGCAGGTCACGGATCGCCCTCGACTCATTGCGGGTGGGCGTGGATTCGCCTCCTGAGACCCGGTTGCGCCTCCTTCTGGATGACGCGGGGCTTCCCGAGTTCGTACCGAACTGCCCGGTCGATGACGTCCTTGACCGCCCGGTGTGGACCGATCTGGGTTGCGTCGCATTCCGTACCTGTGTGGAATACGACGGCCTCCATCATTTGACTCCCGAACAGCAGGCGATGGATGCCTACCGGGACCAGCGGGTGACGGAGGCAGGATGGCGTCAGGTGAAGATCAACAGGATCGATATGGAACACGGCCCGGGATGGGTGGCATCGAGGGTCAAGCAGGCGCTCCGGAAGCAGGGCTGGCAGCGCTGA	MNRLVPLPEAMRARPFAAAEAIQEGVSASRLKAADLLLPSRGIRVPKSSEQNLHALVRSHTQLHADTFACLVSAAEVHGLPLPPWAEFRPDGGAPVTAAVEPVPWGKKSGAHFREPGRFLHLARQGGGTLPRRRGIAGHRLKIRDGDLTEVDGLRVTTVARTWVDLGSVLPVDDLIVAGDAIVSAHARTFDTRKMALVPLAELRQFVEHANSLHGVRRSRIALDSLRVGVDSPPETRLRLLLDDAGLPEFVPNCPVDDVLDRPVWTDLGCVAFRTCVEYDGLHHLTPEQQAMDAYRDQRVTEAGWRQVKINRIDMEHGPGWVASRVKQALRKQGWQR				NA	NA	NA	NA	NA
D1-29_03918	762	hcaB_5		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGAACGGCAATCAGAACAGCCCAAGGGTGGCAGTCATCACCGGGGCAGGCTCGGGGATCGGCCGGGCCGTCGCCCGGCTAATGCTGGCTGAAGGGTACGCCGTTGCCCTTGCCGGCCGCCGGGAGCAGCAGTTGCTCGAAGCCGCAGCAGGCCATTCGCAGGCATTGGCTGTACCGTGCGACGTCACCCGGCCCGACGACGTCGAGCGCCTTTTTGAGGCAGCCCGCATGCGGTGGGGGAGGGTGGACGTGCTCTTCAACAACGCCGGGACGTTCGGCCCTGCCGGCGGCGTCGACGAGATCTCCCTTCCGGATTGGGAGGCAACGGTGGCCGTGAACTTGACGGGCTCCATGCTTTGTGCGGCCGCAGCGGTCCGGCTGATGAAGACGCAGGACCCGGGCGGCGGGCGGATCATCAACAACGGTTCCATTGCTGCGCATTCCCCGCGGCCGCAGCGGGTGGCCTACACGGTCACCAAGCATGCCATGACGGGCCTCACCAAGAGTATTGAACTGGACGGGCGTGGCTTTGGCATTACCTGCGGCCAGATCGACATCGGCAACACGGCCACGGAAATCATGGACAACATTGGAGGAGGCCCCGGCGCGCTCCAGGCAGACGGCAGCCGTCGGGTGGAACCAACGTTTCCGGTGGAGGAAGCAGCCCGGGCGGTGCTGCTGATGGCCAACATGCCGCCATCGGCCACCGTAGGCTCCCTGGTAGTAACGGCGGCCGGCATGCCGTTCATCGGACGAGGCTAG	MNGNQNSPRVAVITGAGSGIGRAVARLMLAEGYAVALAGRREQQLLEAAAGHSQALAVPCDVTRPDDVERLFEAARMRWGRVDVLFNNAGTFGPAGGVDEISLPDWEATVAVNLTGSMLCAAAAVRLMKTQDPGGGRIINNGSIAAHSPRPQRVAYTVTKHAMTGLTKSIELDGRGFGITCGQIDIGNTATEIMDNIGGGPGALQADGSRRVEPTFPVEEAARAVLLMANMPPSATVGSLVVTAAGMPFIGRG				NA	NA	NA	NA	NA
D1-29_03919	615	nboR		Nicotine blue oxidoreductase	ATGGGCAATGGCAGCAACACGCGGACAACGGGCGTCCTGCTGGCCGCTGGCGCGGGAACGCGCCTGGGGATGGGACCAAAGGCCCTGCTGCCGTACCGCGGCCGGCCTTTGGTTGAGGCCATCGCCGATGCGTTGCTGGACGGCGGCTGCCGCGAGGTGGTGGTAGTCCTCGGCGCCAGGGCAGCGGATGTCAGCACAACAGCCCACCTTGACCGCTTCCGGACGGTGGTGAACCGCAACTGGCAGTCCGGAATGGGCAGCTCCTACCTGCTGGGAACCAAATCTGCCGACCCCGCGGACCATCTGCTGATTGCCCTGGTGGACCAACCCGGCCTTACCACCCGGACGGTGGGCAGGCTCCTGGCTTTCCACCGGCCAGGACGGATCACCGCTGCTGCATATAACGACGGCGGCCCCGGTGGCGTGCTGCGGCGCGGGCACCCGTTGCTCGTCGACGTCGCGCTCAGGGACGAGGTGGCAGCGACAGTGACGGGCGACGCCGGCGCACGCCTCTACCTTCAGGCCCACCCCGAGCTGGTGGACGAAGTGGATTGCAGCGACCAGTCCACCGGAGAGGATATTGACACTCCGGAGCAGCTCCACCTGTTGGGGTAG	MGNGSNTRTTGVLLAAGAGTRLGMGPKALLPYRGRPLVEAIADALLDGGCREVVVVLGARAADVSTTAHLDRFRTVVNRNWQSGMGSSYLLGTKSADPADHLLIALVDQPGLTTRTVGRLLAFHRPGRITAAAYNDGGPGGVLRRGHPLLVDVALRDEVAATVTGDAGARLYLQAHPELVDEVDCSDQSTGEDIDTPEQLHLLG				NA	NA	NA	NA	NA
D1-29_03920	648			hypothetical protein	ATGAGCACTAGAGTCGGCGCCTTTGTGGAGGGGCTTTCTTCCGTGCCGTCAGCGCCTGGCCGCAACAACTTCTTTGATACCGCTGTCCCGGCCAACGCCCAGCGCCGGCGCAACCTGGAAATCTATCTGCAGGAAATGCTGGACCGCTCGCCCAAGGTGCTGCTGCTGGGCGAGGCACCGGGTTTCAGGGGCATGAGGATCACCGGTGTTCCCTTCACGAACCGCACCATGTTCGAGGGGCCAGCCAACCGCTTCGGACTGTTTGGGCCGGGAAAGGGCTATTCGCTGCCACCGGAGGCTTCAGGGGTCGCATCCGAGCCAACCGCAACGGTGATGTGGGAGGTTCTGGCGGAACTGCAATTCCTTCCCCTGCTGTGGAGTGCGTGCCCGTTTCACACCCATCTCGCAGGCCGGCCCCAGTCCAACCGCACGCCCACGGCTGCGGAAGCTAACCTGGGAACTGCTTTCTGGCGGGCGCTGACGGAAGTGTTCCGCATCGAGACCGTGGTGGCTGTGGGCAACGTGGCGCACCGCAGCCTGCTTCGGAGCGGTGTGGACGCGCCGAAGGTGCGGCACCCCTCCCACGGCGGGCGGTCCGGGTTCAAGCGGGGACTGGGGGAGTTGCTCCTCGCCGGTGCGGAGCAGTGA	MSTRVGAFVEGLSSVPSAPGRNNFFDTAVPANAQRRRNLEIYLQEMLDRSPKVLLLGEAPGFRGMRITGVPFTNRTMFEGPANRFGLFGPGKGYSLPPEASGVASEPTATVMWEVLAELQFLPLLWSACPFHTHLAGRPQSNRTPTAAEANLGTAFWRALTEVFRIETVVAVGNVAHRSLLRSGVDAPKVRHPSHGGRSGFKRGLGELLLAGAEQ				NA	NA	NA	NA	NA
D1-29_03921	981	iolS	COG0667	Aldo-keto reductase IolS	ATGGAACAGCGCAAATTAGGCAAGACAGGACGGAATGTCTCCATCGTGGGTCTGGGCACCTGGCAGCTGGGTGCCGACTGGGGCAACGTGGACCAGTCCCAGGCCCAGGCCATCCTGGCAGCCTCCGTGGAAGCCGGCGTCACATTCTTTGACACGGCTGACGTCTACGGCGATGGCCTCAGCGAGCAGGCCATCGGCACGTTCCTGAAGGACAACCCCGGGCTTGACATCACCGTGGCCACCAAGATGGGACGCAGGCTGGAGCAGCAGCCGGAGAACTACAGCCTGGCCAACTTCCGGCAGTGGGTTGACCGTTCCCGGCACAACCTCGGCACCGACTCACTGGACCTGGTCCAGCTGCACTGCCCGCCCACCGCTGTGTACAGCAATAACGAGGTCTACGACGCCCTGGACACCCTGGTCTCCGAAGGTGCCATCCGCAGCTACGGCGTCAGCGTCGAGCGTACCGACGAGGCCCTGGAAGCCATCCGCCACAAGGGGACGGCGTCCGTCCAGATCATCCTGAACGCCTTCAGGCTCAAGCCGCTGGACGAGGTGCTCCCCGCCGCCAAGGCGGCAGGCGTGGGGATCATCGCCCGGGTTCCGCTGGCTTCGGGCCTCCTGTCCGGCAAATACTCCAAGGACACGTCCTTCGCTGAGAACGACCACCGCAACTTCAACCGCACCGGAGAATCGTTCGACGTCGGCGAGACGTTCTCCGGCGTGGACTACGAGCTGGGGCTCAAGGCCGTGGCCGAGTTCGAACAGCTTGTTCCCGAGGGGACTTCCACGGCACAGGCGGCCATCGCCTGGATCGCGGCCCAGGACGGCGTCACTACCGTGATCCCCGGCGCCCGCACCGTGGATCAGGCGAAGGCCAATGCTGCTGCAGGTTCAGTTGCACTGGGTGAGGAATTCGACGAGGGCGTCCGCTGGATCTACGACCACTACTTCCGCGAGGCCATCCATCCCCGCTGGTAG	MEQRKLGKTGRNVSIVGLGTWQLGADWGNVDQSQAQAILAASVEAGVTFFDTADVYGDGLSEQAIGTFLKDNPGLDITVATKMGRRLEQQPENYSLANFRQWVDRSRHNLGTDSLDLVQLHCPPTAVYSNNEVYDALDTLVSEGAIRSYGVSVERTDEALEAIRHKGTASVQIILNAFRLKPLDEVLPAAKAAGVGIIARVPLASGLLSGKYSKDTSFAENDHRNFNRTGESFDVGETFSGVDYELGLKAVAEFEQLVPEGTSTAQAAIAWIAAQDGVTTVIPGARTVDQAKANAAAGSVALGEEFDEGVRWIYDHYFREAIHPRW				NA	NA	NA	NA	NA
D1-29_03922	2907			hypothetical protein	ATGGCTATCGAAATCAATGGCACCCCGGCGGCGGCTGAACCGCGCCCCGGGCAATGCCTGCGGACCTTCCTCCGGGAGCAGGGCACCCTGGGCGTTAAGAAAGGCTGCGACGGCGGGGACTGCGGAGCATGCACCGTTCATGTAGACGGCACTCCTGTCCACAGCTGCATCTACCCGGCCGTCCGGGCCGAGGGACATGCAGTAACCACCATCGAAGGCCTGGCCGCCAGCACCGGGGCAGGGGGCAGCAGCCTTCACCCCATGCAGCAGCAGTTCCTGGAGCGCCAGGGTTTCCAGTGTGGCTTCTGCACGGCCGGGATGGTGATGACGGCCGCCACCTTCACCGAGGACCAGAAGGACAACCTGCCCCGCAGCCTCAAGGGCAACCTGTGCCGCTGCACGGGCTACCGGGCCATCGGGGACGCCATTTGCGGCCACGCCGGGCATCCTGATCCGGCAGGGCAGGGTTCCGGAATCGGCGGCGAAGGCCAGCCGGAGCCCCACCCGGGGCAACTGGGTGACGACGTCCCCGCTCCCGCCAGCCGCGCCATCGTCACAGGCACTGCCCGCTACACACTGGACGTTCCCCTCGACCGGCTGCAAGACGGGCTGCAGGACGGGCTGCACGGGGACCAGCATCAAAACGGCGGGCTATCCGGCGATCAGCTGCAGGGGCTGCTGCACCTGAAACTCGTGCGCTCGCCGCACGCCCACGCCAAGGTCCTTTCCATCGATACGGAAGCTGCGCTGAAGGTGCCCGGGGTGGTGGCAGTGTTCACGCACCAGGACGCTCCGGCCCAGCTGTTTTCCACTGCCCAGCACGAGCTGTACACCGATGATCCGGACGATACCCGGGTGCTTGATGACGTGGTGAGGTTCATCGGGCAGCGCGTTGCCGCCGTCGTGGCCGAATCCGTGGCCGCAGCCGAAGCAGGCGCCCGGGCGGTGAAGGTGGAGTACCGGGAACTTCCGGCCGTCTTCACCCCTCAGGATGCCATCCGTCCCGGCGCGCCCGCCGTCCACGGGGACAAGGACGGTGCTGCCGCCCGAATCGCCCGGCCGGAGCAGAATGTGGTGGCCGAATTGCACTCCGAACTGGGCAGTGTGGAGCAGGGCTTCGCGGCTGCGGACTTTATCCACGAACAGACCTACCGCACGCAGCGCGTCCAGCACGTGGCGCTGGAGACCCACGCTGCCATCGCTTCCCTGGATAAGGACGGGCGGCTGCAGGTGCGCACCTCCAGTCAGGTCCCATTCCTGGTCCGGCGCACCCTCTGCCGGGTCTTCGGCCTGCCTGAGGAACAGGTCCGCGTGGTGGCAGGACGGGTGGGTGGCGGTTTCGGCGGCAAGCAGGAAGTGCTGACCGAGGACATCGTGGCGCTGGCCGCCTTGAAGCTTGGCCGCCCGGTCCAGCTTGAGCTGACGCGCAGCGAACAGTTCACAGCCACCACCACCCGGCACCCGTTCACCATCCAGCTCAAGGCCGGTGCCAGCCAGGAGGGCACGCTGACCGCGCTGCAGCTGGACGTTCTGACCAACACCGGCGCGTACGGCAACCATGGCCCGGGCGTGATGTTCCACGGCTGCGGGGAATCCCTGGCCGTGTACAACTGCACCAACAAGAAAGTGGACGCCCAGGCGGTCTACACCAACACCGTTCCCTCGGGGGCGTTCCGGGGCTATGGCCTGAGCCAGATGTTCTTTGCCATCGAATCGGCCATGGACGAACTCGCCATCGGGATTGGCATGGATCCCCTGGAGTTCCGCCGCCGCAACATGGTGCGGGAGGGCGACCACATGCTGTCCACCCATCCGGATCCTGAGGAGGACGTCCTATACGGCAGTTACGGCCTGGACCAGTGCACGCAGCTGGTCAGGGATGCACTGGAGCGCGGTGCCGAGCGGTACCGGGCTGCGGGGCTCGATGACCTCGGCCCGGACTGGGTCACCGGTGAAGGAACGGCGCTGTCCATGATTGACACCGTTCCGCCGCGCGGCCACTTCGCCCACTCCAGGCTCCGGCTCCTCCCGGACGGCACATACCAGGCCGACGTCGGCACTGCTGAGTTCGGCAACGGTACCTCCACCGTGCATGCCCAGCTTGCCGCCACCGCGTTGTCCACGGCGGCCTCGCGGGTTCAGGTGCGGCAATCCGACACCGACCTGATCGAGCACGACACCGGCGCGTTTGGCTCGACGGGCACCGTGGTGGCCGGGAAGGCAACCCTGGCGGCAGCCGAGGAGCTGGCCGTCCGGATCCGGGCGTTCGCCGCCGGTATCAAACAGGTCCAGTCCTCCGGCTGCGTCCTGGACGGCGATTCCGTCATCTGCGAGGGAACGCCCGTCCCGCTCGCTGAACTGGCGCGCACGGCTGCGGAAGCCGGCGTCGAACTCGCCGCAGAAGGGCGCTGGGGCGGGACGCCGCGGTCCGTGGCGTTCAACGTGCACGGGTTCCGGGTTGCGGCAAACCGGGGGACAGGGGAGCTGCGGATCCTGCAAAGCGTCCAGGCCGCCGACGCCGGCGTGGTGGTCAATCCGCGGCAGTGCCGCGGCCAGATCGAGGGCGGAATTGCCCAGGCCCTGGGTGCCGCACTGTATGAGGAAGTGGTGGTGGACGACGCCGGCCGCGTCACCACGGATATCCTGCGGCAGTACCACATCCCCACCTTCGCAGACGTGCCCCGAAGCGAGGTGTACTTCGCCGACACCAACGATAAACTGGGCCCGCTCGGAGCTAAGTCCATGAGCGAAAGCCCCTTCAATCCGGTGGCTCCGGCGCTGGCAAATGCCATCCGCAACGCCACGGGAGTACGGTTTGCCGAGCTGCCCATCGCACGGGACAAGATCTACCTTGGCCTCCGGGACGCGGCCAAGGTTACCCGCGAGTCAAGTCCGCAACCCATATAG	MAIEINGTPAAAEPRPGQCLRTFLREQGTLGVKKGCDGGDCGACTVHVDGTPVHSCIYPAVRAEGHAVTTIEGLAASTGAGGSSLHPMQQQFLERQGFQCGFCTAGMVMTAATFTEDQKDNLPRSLKGNLCRCTGYRAIGDAICGHAGHPDPAGQGSGIGGEGQPEPHPGQLGDDVPAPASRAIVTGTARYTLDVPLDRLQDGLQDGLHGDQHQNGGLSGDQLQGLLHLKLVRSPHAHAKVLSIDTEAALKVPGVVAVFTHQDAPAQLFSTAQHELYTDDPDDTRVLDDVVRFIGQRVAAVVAESVAAAEAGARAVKVEYRELPAVFTPQDAIRPGAPAVHGDKDGAAARIARPEQNVVAELHSELGSVEQGFAAADFIHEQTYRTQRVQHVALETHAAIASLDKDGRLQVRTSSQVPFLVRRTLCRVFGLPEEQVRVVAGRVGGGFGGKQEVLTEDIVALAALKLGRPVQLELTRSEQFTATTTRHPFTIQLKAGASQEGTLTALQLDVLTNTGAYGNHGPGVMFHGCGESLAVYNCTNKKVDAQAVYTNTVPSGAFRGYGLSQMFFAIESAMDELAIGIGMDPLEFRRRNMVREGDHMLSTHPDPEEDVLYGSYGLDQCTQLVRDALERGAERYRAAGLDDLGPDWVTGEGTALSMIDTVPPRGHFAHSRLRLLPDGTYQADVGTAEFGNGTSTVHAQLAATALSTAASRVQVRQSDTDLIEHDTGAFGSTGTVVAGKATLAAAEELAVRIRAFAAGIKQVQSSGCVLDGDSVICEGTPVPLAELARTAAEAGVELAAEGRWGGTPRSVAFNVHGFRVAANRGTGELRILQSVQAADAGVVVNPRQCRGQIEGGIAQALGAALYEEVVVDDAGRVTTDILRQYHIPTFADVPRSEVYFADTNDKLGPLGAKSMSESPFNPVAPALANAIRNATGVRFAELPIARDKIYLGLRDAAKVTRESSPQPI	PGPT0004835_92	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004835-xdhD-K12528	NA	NA
D1-29_03923	1011			hypothetical protein	ATGGACATGAACACCATCGAGGCGGTGGTCCGCACTGCGGACCCGGCCGACTGGCGCGACGGCGATGCCTGGCTGGCAGGCGGCACTGTCCTCTTCTCCTATGGCAGCTATGCATTCGGCCCGCAGCCGCCAAGGCGCCTGCTCGATCTGGGCGCGGCCGGGTGGCACGCGGTGACTGTGGACGGGGAATCCGGGCCGGGCATCGAGCTTTCCGCTACCTGCACCGTCGCAGATCTCTACGGCCTGCCGGACACTCTTGCATCCCGCCGAACGGACTGGCCCGCCCTTGACCTCATCAGGCCCTGCTGCGATTCCTTTGTGGCGTCCTTCAAGGTCTGGAACATGTCAACTGTGGGCGGCAACCTCTGTACCTCCTTGCCGGCCGGGCCCGTGATCTCGCTATGCGCCGGCCTGGACGGGGTGGCCACCATCCTTGGCCCGGGCGGCGCCAGCCGCACGGTTCCGGTGGCCGGCTTCGTCACCGGGGACGGGCAAAATAGCCTGGCACCCGGCGAGCTGCTGCGCAGCGTCCACCTCCCGGCGTCGGCCCTTTCCGCACGGGTGGCGTTCCGCCGGCTGTCCCTGAGCAACCTGGGCCGGTCGGGAGTGCTGCTGATCGGAAGGCTCGACGGCGGCACCTCCTTTGTCCTGACCGTCACCGCCGCCACCAAGCGGCCTGTGCAGCTGCGCTTCGGCCAACTGCCGGACGCTGCCGGGCTGGCCGCCGCGCTGGACGACGCCATTCCTGCGGGCCTGTACCACGACGATATCCATGGCCTGCCTGCCTGGCGGCGGGACATGACCTACCGGCTGGCGGAAGAAATCCGGGCCGAGCTGGCAGCCCCGGCCGGCACGGCGCCCGCCAACGTCTCGGGGGATTTCTGGCCGCCACACAGGTCTCCACAGCAAACTGCCGCCCCTCAGACAGCTGCACCGCAAACAGCCGCCCCTCAGACAGCTGCACCGCAAACAGCCGCCCATCAGACAGCTGCACCACAGGAAGGGGCCTGA	MDMNTIEAVVRTADPADWRDGDAWLAGGTVLFSYGSYAFGPQPPRRLLDLGAAGWHAVTVDGESGPGIELSATCTVADLYGLPDTLASRRTDWPALDLIRPCCDSFVASFKVWNMSTVGGNLCTSLPAGPVISLCAGLDGVATILGPGGASRTVPVAGFVTGDGQNSLAPGELLRSVHLPASALSARVAFRRLSLSNLGRSGVLLIGRLDGGTSFVLTVTAATKRPVQLRFGQLPDAAGLAAALDDAIPAGLYHDDIHGLPAWRRDMTYRLAEEIRAELAAPAGTAPANVSGDFWPPHRSPQQTAAPQTAAPQTAAPQTAAPQTAAHQTAAPQEGA	PGPT0007270_243	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0007270-ygeT|xdhB-K13479	NA	NA
D1-29_03924	1395			hypothetical protein	ATGCTCGACCTGATTCCTTCGCTCAACGGCTGGACAGCAGGCCTGCCCGGTAACCGCTGCGCCGTAGCCACCATCGTCCATGTCAGCGGTTCCGTTCCCCGGCCGGTAGGGACGTCCATGCTCATCTCAGAGTCTGGTGCCGTACTGGGCAGCCTCTCCGGCGGCTGTGTGGAAGGGGCGGTTGTGGCGCTGGCATTCGAAGCAATGAACGACGGCGCCACCCGCCTTGAGAGGTTTGGCTACAGCGCCGCCGATGCCTTCGCCGTCGGGCTCACCTGCGGTGGCGAACTGGAGGTGCACATTGAGGCCTTGGCCGCCGAGGGAACCCGGCCGGATGCCGGAGTGGAGACGCTCCAGCATCTGCGCGGCGTCCCGGCGGACGGGCCGGTGGCGGTGATCCGGCGGGTGGACGCCAACGGCCGCGGGCTGGTGGTGGTCCATGATCCGGGGACCTTCCAGGTGGCCCGCTCTGCCGGAATCGCCCGGCTTCTGGAGCTGGCGCCGGACACGGCCCCGAACCCCACCGCCACCGGCCGCAGCATCACCGAGCTCAGCACCGGCAGCACCACCGGCACCACCCCTGAGCGCAGCACAACCCCTGACGATGCCCTGCTTTCGGCCGCCGCGCAGCTTGAACCGCTGCTTCGCGGCGGCCGGACAGGGCTGGTCAGGCTGGCACCACCTAACGGCTGCACGGTGTCCCCCTCCGGTGTTTCACAGGGGCACTCTCCAGCACCCGAACTTGTCACGTTGCTGGTGGAAAGCCGGCTGCCCCCACCCAGGCTGCTGGTTTTTGGCGCCAACGATTTCAGTGCGGCACTGGTGCCGGCCGCCAAGCTGCTCGGCTACCGCGTCACACTGGTGGATGCCCGGCCAGCCTTCGCATCGCAGGCCCGGTTCCGGGCCGCAGATGACGTGGTCACAGACTGGCCGCACAGGTATCTTGCAGCAGAAGCGGCAGCAGGACACCTCGATCCTCGCACCGTGATCTGCGTCCTGACCCATGATCCCAAGTTCGACATCCCGCTCCTGGAAGCTGCTTTGGCCCTGGACGTTGCCTTCGTCGGCGCCCTGGGGTCCAGACGCAGCCACCTCCAGCGGGTGGACGCCCTCCTGGCTGCAAGGGTGCCCCCTGAGCAGATAGCGCAGCTGCATTCACCCCTTGGACTGGACCTCGGTGCTGTGACGCCGGCCGAGGTGGCCGTATCCGTTGCCGCGGAAATCATTGCAGCACGCAACCCGGCCGCCAGCCACCAGCCCCTCAGGGAGACCGCGGGCCCCATCCATCAGGCGCTGATCCATCAGGCGCCCGACCATCAGCAGGCCGCCGCGCGGCCCGCCCCGAACCCCCTTGTCCCGAACCCCCTTGTACAGCAGGAGACAGCATGGACATGA	MLDLIPSLNGWTAGLPGNRCAVATIVHVSGSVPRPVGTSMLISESGAVLGSLSGGCVEGAVVALAFEAMNDGATRLERFGYSAADAFAVGLTCGGELEVHIEALAAEGTRPDAGVETLQHLRGVPADGPVAVIRRVDANGRGLVVVHDPGTFQVARSAGIARLLELAPDTAPNPTATGRSITELSTGSTTGTTPERSTTPDDALLSAAAQLEPLLRGGRTGLVRLAPPNGCTVSPSGVSQGHSPAPELVTLLVESRLPPPRLLVFGANDFSAALVPAAKLLGYRVTLVDARPAFASQARFRAADDVVTDWPHRYLAAEAAAGHLDPRTVICVLTHDPKFDIPLLEAALALDVAFVGALGSRRSHLQRVDALLAARVPPEQIAQLHSPLGLDLGAVTPAEVAVSVAAEIIAARNPAASHQPLRETAGPIHQALIHQAPDHQQAAARPAPNPLVPNPLVQQETAWT	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
D1-29_03925	1500	pbuG_2	COG2252	Guanine/hypoxanthine permease PbuG	ATGACCATCCTGGATCAATCCCACGGGGAGCATCCGGCTCCACAGCCCGCACGCAGGCCCCAACCTCCGGCGTCGAACGTCCTGGACCGCTTCTTCCAGATCACCCAGCGCGGCTCCACCCTGGCCCGCGAATTCCGCGGCGGCCTGGTCACCTTCTTCACCATGGCGTACATCGTGATCCTCAATCCGCTGATCCTGGGCGGCTTCACGGCGGACAATGCGCCCACCGATGTCGCCGGGGGCTGGCTCTCTGCGGCCCAGGTGGGCGCGGTAACCGGGCTGACGGCCGGTGTGATGACCATCCTGTTCGGGCTCGTGGCCAACCTTCCGTTCGGCCTGGCCGCCGGGCTCGGCATCAACTCGTTCCTGGCGGTTTCGGTGATCCAGGAAGTTACGTGGGCCGAGGCCATGGGCCTGGTGGTGATCAACGGCATCCTGATCGTGCTCTTCGGCATCACCGGTGCGCGGACGGCCATCTTCCGGGCCGTGCCCAAGGAGCTGAAGTCCGCCATCACCGTCGGGATCGGCCTGTTCATCGCCTTCATCGGCTTTGTGGATTCCGGCTTCATCCGTGCCACGGCCGGCGGGCCGCCCGTGCAGTTGGGCGACGGCGGCTCCATCACCTCCATCCCCACCCTGGTATTCGTCGTTGGCCTGCTGGCCATGGGCATCCTGGTTGCGCGCAAAGTCCAGGGCGGCCTGCTGATCGGCATCGTGGGCACCACCGTACTGGCGGCCGTGGTGGAAGCCACCATGAAGATCGGCCCCGCCAGCGCCACCAACCCCGGCGGCTGGCACCTCAATACCCCGGTCCTCACCGGGCAGCTCGTCTCCGCCCCGGACCTGGGACTCGTTGGCCAGTTCGACATGTTCGGAGCCTTCGGCAGGATCGGCGGCCTGGCCGCCACCATGCTGGTCTTCACACTGGTCTTCACCAACTTCTTTGACGCCATGGGCACCATGACAGGACTCGCCAAGAGCGCCGGCGTGGCCCACAAAGACGGCACGTTCCCCCGCCTCAAGCCGGCCTTCATCGTCGAAGGCCTCGGGGCTGTGGCAGGCGGGGCCACCTCCGGCTCATCCAACACTGTGTACATCGACTCCGCGGCCGGGATCGGCGAAGGCGCCCGCACCGGCCTGGCCTCGGTGGTCACCGGCGTGCTGTTCCTAGGCTCGATGTTCCTGACGCCGCTCACCAGCGTTGTTCCGCTCGAGGTGGCGGCGGCTGCCCTGGTGGTGGTGGGCGCCATGATGATGGCGCAGATCCGCGAGATCAAGTTCAGCAAATTCTCGGTGGCCCTGCCGGCGTTCCTCACCATTGTCACCATGCCGCTGAGCTACTCGATCGCCAACGGCATCGGCGTGGGCTTTGTCTCCTGGGCCATCATCGGCGCAGCGTCGGGCAAGGCGAAGAAAATCCATCCGCTGATGTGGGTGGTCAGCGCGGGATTCCTGGTGTACTTCGCCCGCGGACCGATCAACGTGCTGCTGGGCGCCTGA	MTILDQSHGEHPAPQPARRPQPPASNVLDRFFQITQRGSTLAREFRGGLVTFFTMAYIVILNPLILGGFTADNAPTDVAGGWLSAAQVGAVTGLTAGVMTILFGLVANLPFGLAAGLGINSFLAVSVIQEVTWAEAMGLVVINGILIVLFGITGARTAIFRAVPKELKSAITVGIGLFIAFIGFVDSGFIRATAGGPPVQLGDGGSITSIPTLVFVVGLLAMGILVARKVQGGLLIGIVGTTVLAAVVEATMKIGPASATNPGGWHLNTPVLTGQLVSAPDLGLVGQFDMFGAFGRIGGLAATMLVFTLVFTNFFDAMGTMTGLAKSAGVAHKDGTFPRLKPAFIVEGLGAVAGGATSGSSNTVYIDSAAGIGEGARTGLASVVTGVLFLGSMFLTPLTSVVPLEVAAAALVVVGAMMMAQIREIKFSKFSVALPAFLTIVTMPLSYSIANGIGVGFVSWAIIGAASGKAKKIHPLMWVVSAGFLVYFARGPINVLLGA	PGPT0007325_774	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
D1-29_03926	495	guaD_2	COG0590	Guanine deaminase	ATGAGTACCACCGTCACGGCCGAGCAGTATTTGGCCAGATCAATCCGGCTGGCAACGGCCAACGTCCTGAACAGCGGCGGGCCCTTCGGCGCCACGATCGTCACGGCTGACGGACAGTCGTTCGACGGCGTCAACCGCGTCACTGCCGACAACGATCCCACCGCGCACGCCGAGGTCACAGCGATCCGCACCGCCTGCCGGGAACTGGGCACCTTCGACCTCAGCGGCGCCATCCTCTACACCAGCTGCGAGCCCTGCCCCATGTGCCTGTCCTCCGCGCTCTGGGCCCGGGTGGAGCGCGTGGTGTTCGCCGCAGACCGGCACGACGCCGCCTCCGTCGGCTTCGACGACGCCGTGTTCTACGAGTACTTCGAGAACAGGGACCGGGATTCCCTGATGCCGGTTGCCAAGCTCACGCTGGACGATCACCGGGGGCCCGCGCCGCTGGAGCCGTTCAACACGTGGAACACGCTCGATTCCAGGATCGACTACTAG	MSTTVTAEQYLARSIRLATANVLNSGGPFGATIVTADGQSFDGVNRVTADNDPTAHAEVTAIRTACRELGTFDLSGAILYTSCEPCPMCLSSALWARVERVVFAADRHDAASVGFDDAVFYEYFENRDRDSLMPVAKLTLDDHRGPAPLEPFNTWNTLDSRIDY	PGPT0021515_2162	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021515-guaD-K01487	NA	NA
D1-29_03927	1374		COG0402	8-oxoguanine deaminase	ATGACCCACCCCCTTCCCGCCAGCCCCGCGCCCCGCCTCTGGATCAGGAATCCGCAGGCCGCCTTCACCGCGAATACCCTGGACGCTTCCGGCGGACTTGTGGTCAGCGGGGGCGTCATCGCGGAGGTTCTTGCCGCCGGGCAGCAACCCGCGTCACCCTGCCAGCAGATCTTCGACGCCGGAAACCACGTGCTGCTGCCGGGCCTGATCAACACCCACCACCACTTCTACCAGACCCTCACCCGCGCCTGGGGTCCGGTGGCGAACGCGCCGCTGTTCCCCTGGCTGCAGAACCTGTATCCCGTCTGGGCCCGGCTGACCCCTCGGGACCTCGAACTGGCCACCACCGTTGCGCTGGCAGAACTCCTGCTTTCCGGTTGCACCACCGCGGCCGACCACCACTACCTGTTCCCGGACGGCCTGGAACACGCCATCGACGTGGAAGTGGACGTGGTCCGCCGGCTTGGCATGCGGGCAACGCTGACGCGCGGTTCCATGACACTGGGAACGGACGACGGCGGCCTGCCGCCACAGTCCACCGTCCAGGCTCCGGAGGTGGTGCTGGCGGACAGTGAACGCCTGATCGGCCAGTACCACGAGCGGGGCGGGGATGCGGTTATCCAGATTGCGCTGGCGCCCTGCTCGCCCTTCTCGGTGACGAAGGAGATCATGGCCGAAAGCGCGGCGCTCGCCGGGCGGCTGGATGTCCGACTGCACACGCACCTGGCCGAAACGCTGGACGAGGAGGACTTCTGCCGGGAGATGTTCGGTCTGCGCACGGTGGACTATCTGGACAGCGTTGGCTGGCTGACCGACCGCACCTGGCTGGGCCACGGCATCCACTTCAGCGACGCCGAGATACGCCGGCTGGGAGCCGCGCGCACCGGCGTCGCGCATTGCCCCACCTCAAACATGCGGCTGGCATCCGGCACCGCGCGGATCCTGGAACTGGAGGACGCGGGAGTCCCCGTGGGGCTGGGGGTGGACGGCTCGGCGTCGAACGATGCCTCCAACATGATCCTTGAAGCGCGGCAGGCGCTCTACCTGCAGCGCCTCCGGTACGGCGCTGACGTCCCGGTGGAGCGGGCGCTTGGCTGGGCGACGCGCGGCTCGGCGGCGGTGCTGGGCCGCCCGGAACTGGGCGAGCTCGCACCCGGGATGCAGGCGGACCTCGCCCTGTTCCGGCTGGATGACCTCCGCTTCTCCGGCAGCCACGATCCCATTGCCGCGCTCCTGCTGTGCGCGGCGGACCGGGCAGACCGGGTGATGGTTGGGGGCCAGTGGCGGGTTGTGGACGGGCAGATCCCGGGCCTGGATATTGCCGGGCTCATCGCAGAGCACTCCGCGGCGGCCCGCCGGCTGGTGGCGGGCTAG	MTHPLPASPAPRLWIRNPQAAFTANTLDASGGLVVSGGVIAEVLAAGQQPASPCQQIFDAGNHVLLPGLINTHHHFYQTLTRAWGPVANAPLFPWLQNLYPVWARLTPRDLELATTVALAELLLSGCTTAADHHYLFPDGLEHAIDVEVDVVRRLGMRATLTRGSMTLGTDDGGLPPQSTVQAPEVVLADSERLIGQYHERGGDAVIQIALAPCSPFSVTKEIMAESAALAGRLDVRLHTHLAETLDEEDFCREMFGLRTVDYLDSVGWLTDRTWLGHGIHFSDAEIRRLGAARTGVAHCPTSNMRLASGTARILELEDAGVPVGLGVDGSASNDASNMILEARQALYLQRLRYGADVPVERALGWATRGSAAVLGRPELGELAPGMQADLALFRLDDLRFSGSHDPIAALLLCAADRADRVMVGGQWRVVDGQIPGLDIAGLIAEHSAAARRLVAG				NA	NA	NA	NA	NA
D1-29_03928	1245			hypothetical protein	ATGAACCCGTCGAAGACCCCGGCCGAGATTCTGGACATTGACGGCGCTGAGGTCCGCATCTCAAGTCCTGACAAGGTGGTGTTCCCCGAGCCCGGGCTGACCAAGCTGGACCTGGTGCGCTACTACCTTGCGGTTGCGGACGGTGCGCTGCGCGGCGCCGGCGGCCGGCCCATGGTACTCAAGCGCTTTCCGAAGGGCATCGACTCGGAACCGTTCTTTCAAAAGCGCGTCCCCGAGAACCACCCAGAGTTTATCGACACGGCAACCCTGCACTACTCCTCCGGGACGTCAGCCGAAGAGGCCGTGATCCGTGATGCTGCCGGCCTGGCGTGGGTGGTGAACCTTGGCTGCCTGGATCTGAACCCGCACCCGGTGCGCGCCGAGGACCTGGAGCACCCCGATGAGCTCCGGGTGGACCTTGATCCGATGCCGGGGGTTGACTGGTCACAGATCGTTGATGTCGCTTATGTGGCGCGGGAAGTGCTCGACGACGTGGGGCTGGTGGGTTGGCCGAAAACGAGCGGATCCCGCGGCCTGCACATCCTGGTGCGTATCACGCCGCAGTGGTCGTACCGCGACGTGCGGCTCGCGGCCGAGACCCTCGCCCGCGAGGTGGAGAACCGCGCCCCGGGCCTCGCCACCGCCCGGTGGTGGAAGGAGGAACGCGGCGAGAGCGTGTTTGTTGATTTCAACCAGAACGCGAAGGACCGCACGGTGGCATCGGCCTACTCTGTCCGGGCGCTGCCTGATGCGCGGGTTTCGACGCCGCTCTCATGGGACGAGGTCCGCTCCACCCGGCCGGAACAATTCACAGCGCGCACCGTCCCGGAGCGCTTCGCCGAGGTGGGCGATCCCCACGCCGGGATCGACGACGCGGCCGGCAGCCTCGACGGGCTCCTCGCTCTGGCGGCTGAACTTGGCCCCGCCGAGAAGGCGCCACGCAGCGGTGACGGTTCCGGCCGCCGTCAGTCCGTGATGCCGCTGATAGAAGTGGCCCGCACCAAGACCAAAGCGGAGGCCAACGCGGCCCTTGACGAGTGGAAGTCCCGGCACCCCTACGTCGTCCCGGCCCTGCACCCGGCCGACGTGCTCATCGACGGGATGCGTGGATCGAGCTCACTCTGGTACCGGGTGCGGGTGAACCTGCAGCACATCCCCGAATCCGAGCGGCCGCCACAGGAGGAACTCATCGCGGACTATGACCCGTGGGCTGGCAAGGAGTGGCCGGGCCGCCCGCTGTCCTGA	MNPSKTPAEILDIDGAEVRISSPDKVVFPEPGLTKLDLVRYYLAVADGALRGAGGRPMVLKRFPKGIDSEPFFQKRVPENHPEFIDTATLHYSSGTSAEEAVIRDAAGLAWVVNLGCLDLNPHPVRAEDLEHPDELRVDLDPMPGVDWSQIVDVAYVAREVLDDVGLVGWPKTSGSRGLHILVRITPQWSYRDVRLAAETLAREVENRAPGLATARWWKEERGESVFVDFNQNAKDRTVASAYSVRALPDARVSTPLSWDEVRSTRPEQFTARTVPERFAEVGDPHAGIDDAAGSLDGLLALAAELGPAEKAPRSGDGSGRRQSVMPLIEVARTKTKAEANAALDEWKSRHPYVVPALHPADVLIDGMRGSSSLWYRVRVNLQHIPESERPPQEELIADYDPWAGKEWPGRPLS	PGPT0014910_1472	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
D1-29_03929	198			hypothetical protein	ATGTACCTGCAGGACACCAAGCAGCTTGCACCGACCAACACGGCGGCACCCGCAGTCCAGGAGTTCTACCTCCCCCTTGGAGGCGGTACGGACCCGGACTTCCATCTGCCGGCGGATTGGGAGCACGTCCCTGGTCGCTTGTCGCGCTGGATCCACGGCCTGCCAGGTTTCGGTGGCCAGCGTTCGTCACGAAGCTGA	MYLQDTKQLAPTNTAAPAVQEFYLPLGGGTDPDFHLPADWEHVPGRLSRWIHGLPGFGGQRSSRS				NA	NA	NA	NA	NA
D1-29_03930	909	uox		Uricase	ATGAGCAGCAACATCATCCTCGGCCACAACCAGTACGGAAAGGCCGAAGTCCGGGTCGTCAAGATCACCCGGGACACGGACCGCCACGAGATTGAAGACCTGAACGTCACCTCGCAGTTGCGGGGCGACTTTGAGGCCGCCCACCGTGAAGGCGACAACGCCCACGTGGTGGCCACCGACACCCAAAAGAACACCATCTACGCCTTCGCCCGGGACGGCGTCGGCTCGCCGGAAGCCTTCCTGCTGCGCCTCGGCGAGCACTTCACCTCCAGCTTCGAATGGGTGTCCGGCGGCCGCTGGGAGGCGGAATCCTACAGCTGGGACCGGATCCAGGCGCACGGCGCCGAGCACAATCACTCCTTCGTGCGCAATGGCCAGGAAGTCCGGACCGCAGTCCTGGTGCGCGACGGCGCCACGGCCCACCTCATCTCCGGGCTGACGGACCTGACTGTCCTCAAGTCCACCCAGTCCGGCTTTGTGGGGTATCCCAAGGACAAATACACCACGCTCCCGGAAACCACGGACCGCATCCTGGCCACCGACGTTTCCGCCCGCTGGCGCTACAAGACCGGCACCGACTTCCGCGCCCTGGACTTCAACAAGAACTACGACGACGTCAAGGCACTCCTGCTCGAAGGCTTCACCGAGAAGTACTCGCACGCCCTGCAGCAGACCCTCTTCGACATGGGCACCAAAGTCCTGGAGGCCCACAGCGAGATTGATGAGATCAGGTTCTCCATGCCCAACAAGCACCACTTCCTGGTGGACCTCTCCCCGTTCGGCCTGGACAACCCCAACGAGGTCTTCTTCGCGGCCGACCGCCCATACGGGCTGATCGAGGCCACAGTCCAGCGCGACGACGCCACCCCGGCGGACATGGCCTGGTCCGGCATAGCGGGCTTCTGCTAA	MSSNIILGHNQYGKAEVRVVKITRDTDRHEIEDLNVTSQLRGDFEAAHREGDNAHVVATDTQKNTIYAFARDGVGSPEAFLLRLGEHFTSSFEWVSGGRWEAESYSWDRIQAHGAEHNHSFVRNGQEVRTAVLVRDGATAHLISGLTDLTVLKSTQSGFVGYPKDKYTTLPETTDRILATDVSARWRYKTGTDFRALDFNKNYDDVKALLLEGFTEKYSHALQQTLFDMGTKVLEAHSEIDEIRFSMPNKHHFLVDLSPFGLDNPNEVFFAADRPYGLIEATVQRDDATPADMAWSGIAGFC	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
D1-29_03931	1506	uacT	COG2233	Uric acid transporter UacT	GTGATTCTTAAGAAAAAGTCATCGAGCCCGGCCGCCAAAACAGGCCGCCAGCCCTCTGCCCGCCCCGAAGACCAGCGCCTCTCCATCGGCAGCAGCTTCGCCTACGGCTTCCAGCACGTCCTCACCATGTACGGCGGAATTATTGCGCCGCCGCTGATCATCGGCGCAGCGGCCGGGATGTCGTCGCAGGACATCGGCCTGCTGATCGCCGCCTGCCTCTTTGTGGGCGGCCTGGCCACAATCCTCCAGACCGTGGGCATCCCGTTCTTCGGCTCAAAGCTTCCGCTGGTCCAGGGCGTCTCCTTCGCCGGCGTCTCCACCATGGTTGCCATCGTCCACGGCGGCGGAGGCATCCAGTCGGTCTTCGGCTCGGTCATTGTGGCCTCGCTGATCGGCCTGGCCATCACGCCGCTGTTCTCGAAGATCATCCGCTTCTTCCCGCCGGTGGTCACGGGAACGGTCATCACCACCATCGGCCTGACCCTTATGCCCGTTGCCGCCAACTGGGCCATGGGCGGCAACAGCAAGGCGCCCAACTACGGGAGCGTGGCCAACATCGGCCTTGCCGCAGCCACCATGGGCATCGTGCTGCTGCTCAGCAAGGTGGGCAGCAGCACCATCTCCCGGCTGTCCATCCTGCTGGCCATGATCATCGGCACGGCCATCGCCTTCGTCACCGGCATGGCTGATTTCTCCAAGGTGGGACAGGGCGAGATCGTCGCGTTCCCCACCCCCTTCGCGTTCGGCCCGCCCACCTTCCATCTTGCGGCCATCATCTCCATGCTGATCGTGATCCTGGTGACGCTTACGGAGACCTCGGCGGACATCATTGCCGTCGGCGAGATCGTGGGCACCAAGGTTGATTCGCGCCGGATCGGCGACGGCCTCCGGGCAGACATGCTCTCCAGCGCCGTGTCCCCGCTCTTCGGCTCCTTCACCCAAAGCGCCTTCGCCCAAAACGTGGGGCTGGTGGCCATCACCGGCATCAAGAGCCGCTTTGTAGTTACCGCCGGCGGCGTGATCCTGGTGGTCCTGGGTCTGCTGCCGGTCCTTGGCCGGGTGGTGGCGGCGGTGCCCACACCCGTCCTGGGCGGTGCCGGCGTCGTACTCTTTGGAACGGTGGCCGCCAGCGGCATCAGGACCCTGTCCAAGGTGGAGTACCGGAACAACATGAACCTGATCATCGTGGCGGCGTCCATCGGTTTCGGCATGATCCCCATTGCCGCGCCTGCCTTTTACGACCAGTTCCCGTCCTGGTTCGGCACCATCTTCCATTCAGGCATCAGCTCGGCCGCCGTGATGGCCATCCTGCTGAACCTGCTGTTCAACCACCTCAAGGCGGGCAACTCCGAGAACCAGTCCGTCTTTGTGGCGGGCACCGGGCGCGTGGTCCGGGAGGAGGACCTGAAGTGCCTGGCCGACGGCGACCGTTACGAAGGCGGCAAGCTCATCGACTGTGACGGCAAGGAAGTCCCGGTGGAGTCGTCGTCGAAGTCTGACCACTAA	MILKKKSSSPAAKTGRQPSARPEDQRLSIGSSFAYGFQHVLTMYGGIIAPPLIIGAAAGMSSQDIGLLIAACLFVGGLATILQTVGIPFFGSKLPLVQGVSFAGVSTMVAIVHGGGGIQSVFGSVIVASLIGLAITPLFSKIIRFFPPVVTGTVITTIGLTLMPVAANWAMGGNSKAPNYGSVANIGLAAATMGIVLLLSKVGSSTISRLSILLAMIIGTAIAFVTGMADFSKVGQGEIVAFPTPFAFGPPTFHLAAIISMLIVILVTLTETSADIIAVGEIVGTKVDSRRIGDGLRADMLSSAVSPLFGSFTQSAFAQNVGLVAITGIKSRFVVTAGGVILVVLGLLPVLGRVVAAVPTPVLGGAGVVLFGTVAASGIRTLSKVEYRNNMNLIIVAASIGFGMIPIAAPAFYDQFPSWFGTIFHSGISSAAVMAILLNLLFNHLKAGNSENQSVFVAGTGRVVREEDLKCLADGDRYEGGKLIDCDGKEVPVESSSKSDH	PGPT0007330_212	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007330-pubX-K16169	NA	NA
D1-29_03932	756	iclR_2	COG1414	Transcriptional repressor IclR	ATGGCTGAAAAAAGCCCCGGAGGCGTGCAGTCCGTAGAGCGCGTTTTTGAACTTTTGGAACTGATCACCGACGCCGGGGGAGACGTCACATTGAGTGAACTCTCCTCCTCGACTGATCTTCCGCTGCCCACCATCCACCGGCTGCTGCGCACCCTGGTGACCCTGGGCTACATCCGCCAGCTCCCCAACCGCCGCTACGCGCTGGGTCCCCGGCTCATCAGGCTGGGCGAAGGAGCGAACAAGCAGCTTGGCGCAGTGGCCCGCCCGCAGCTCAAATCCCTGGTGGACCGGCTGGGGGAGACCTCCAACATGGCCGTGCTTGATTCGGACATGGTCATCTACGTGGCCCAGGTCCCCTCCCTGCATTCCATGCGGATGTTCACCGAGGTTGGACGCCGCGCCCATATGCATGACACCGGCGTGGGTAAAGCCATCCTGGCCCAGCTGGACGACGACGCCGTCCGCGGCATCGTGGGCCGCACCGGCATGCCCACCCCCACCGCCAAGAGCATCGGCGACATTGAGTCCCTGCTCGCGGACCTGGGCAGGATCCGTGAACGTGGCTACTCCATTGACGAGGAGGAGCAGGAACTGGGTGTCCGCTGCTTCGCTATGGCCGTGCCGAACGCCCCTACGCCGACGGCCATCTCCGTTTCCGGTCCGGTGTCCCGCGTGGACCAGTCCTTCGGTGAACGTGCCGTGCCGCTCCTGCGCGAAGCCGCCGAGGCCATCTCGAACGAGCTCAACCGCAACTGA	MAEKSPGGVQSVERVFELLELITDAGGDVTLSELSSSTDLPLPTIHRLLRTLVTLGYIRQLPNRRYALGPRLIRLGEGANKQLGAVARPQLKSLVDRLGETSNMAVLDSDMVIYVAQVPSLHSMRMFTEVGRRAHMHDTGVGKAILAQLDDDAVRGIVGRTGMPTPTAKSIGDIESLLADLGRIRERGYSIDEEEQELGVRCFAMAVPNAPTPTAISVSGPVSRVDQSFGERAVPLLREAAEAISNELNRN				NA	NA	NA	NA	NA
D1-29_03933	1458			NAD-dependent malic enzyme	ATGGCGAATCCCAGCCCCGGAAACTCGATCACCCTTCGCGTGGAGGCCCCTTCCAGCTTCTCCGCCACCAGTGAGCTCGCCGCTGCCGTCGGAGCGGCCGGCGCTGCCATCACCGCGCTGGACGTCAGCGAGTCCCACCACGAAACGCTGGTAGTGGACGTCACCTGCAACACCACAGACGACGAACACGCCGGCAGGGTCAAGGATGCCCTCAACGCGCTCGACGGCGTCACGGTCCAGCACGTCTCGGACCGCACCTTCCTGATGCACTTGGGCGGCAAGCTCGAAGTTGTCCCCAAGGTAGCCCTCCGCAACCGCGACGATCTCTCCCGCGCCTACACTCCCGGCGTCGCCCGCGTCTGCCTGGCCATCGCCGAGGACCCGTCCGCAGCCCGCAATCTCACGGTGAAGCGGAACACCATCGCCGTCCTCACCGACGGTTCCGCGGTCCTCGGCCTGGGCAACATCGGCCCCGCCGCCGCCCTGCCGGTAATGGAGGGCAAGGCTGCGCTGTTCAAGCAGTTCGCCAACGTGGACGCCTGGCCGGTCTGCCTCGATACGCAAGACACCGAAGAAATCATCATGATTGCCAAAGCAATGGCCCCCGTCTACGGCGGCATCAACCTCGAGGACATCGCGGCGCCGCGCTGCTTCGAAATCGAAAACCGGTTGCGGGCGGAACTGGACATTCCGGTCTTCCATGACGACCAGCACGGCACCGCGATCGTCACCCTGGCCGCCCTGGTCAACGCCCTTCGGGTGGTGGGCAAGAAGCTCGGCGAGGTCCGCATTGTTGTCTCGGGCGTGGGTGCTGCAGGTTCCGCCATCATCCAGCTCCTGAAAGCACAGGGCGCGCAGCACATCATCGCCGCCGGCCGCTCCGGCGCGATCCATGCCGGTGAAAAGTACGGCGACGAACACCGCAGCTGGATTGCCGCCAACACCAATGAAGAGGGCTTCGCGGGTACCCTGCACGAAGCCCTCAAGGGGGCGGACGTCTTCATCGGCGTCAGCGCCCCGCACGTGATCGGCGAAGAGCAGGTGGCCTCGATGGCGGAAAACGCCATCGTCTTTGCCATGGCCAACCCCACTCCGGAAATCGACCCCGTCATCGCATCCCGGCATGCAGCCGTCGTGGCCACCGGACGCAGCGACTTCCCCAACCAGATCAACAACGTCCTGGCGTTCCCCGGCTTCTTCCGCGGCCTCCTGGACGCCGGCGCATCGGACGTCACGCCGGAGATGCTGGTGGCCGCCGCCGAGGCAATCGCCAGCCGGGTAGCTGACGATGAGCTTAATGCCAGTTACATTATCCCCAGCGTCTTTGATCCCCACGTAGCCGCCGATGTCGCCAGTGCGGTTGCCCACGCGGCCGCAAACCCGGCAGCGGCAGTTACCCCGCCCGCAACCGCACAGCCCGAAGGTGCGGGAGCCCAAACCGCCTTCGCCTCCGCCTGA	MANPSPGNSITLRVEAPSSFSATSELAAAVGAAGAAITALDVSESHHETLVVDVTCNTTDDEHAGRVKDALNALDGVTVQHVSDRTFLMHLGGKLEVVPKVALRNRDDLSRAYTPGVARVCLAIAEDPSAARNLTVKRNTIAVLTDGSAVLGLGNIGPAAALPVMEGKAALFKQFANVDAWPVCLDTQDTEEIIMIAKAMAPVYGGINLEDIAAPRCFEIENRLRAELDIPVFHDDQHGTAIVTLAALVNALRVVGKKLGEVRIVVSGVGAAGSAIIQLLKAQGAQHIIAAGRSGAIHAGEKYGDEHRSWIAANTNEEGFAGTLHEALKGADVFIGVSAPHVIGEEQVASMAENAIVFAMANPTPEIDPVIASRHAAVVATGRSDFPNQINNVLAFPGFFRGLLDAGASDVTPEMLVAAAEAIASRVADDELNASYIIPSVFDPHVAADVASAVAHAAANPAAAVTPPATAQPEGAGAQTAFASA	PGPT0001350_1486	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
D1-29_03934	1614	aceB_2	COG2225	Malate synthase A	ATGGCCATCACCGTCACAGACCCCCGGCCGATCGAACGCGCGGAGGAGATCCTCACCCCCAAGGCCCTGGCGTTCATCGAAGAGCTGCACAACCGGTTTGCCGGCACCCGCAATGAGCTCCTCGCCGCCCGCGGCGTCAAGCGCCAGCGGGTTGCGGAAACCGGCAAGCTGGACTTCCTGCCGGAGACCCGGGACGTGCGCGACGGCGACTGGAAAGTTGCGCCTGCGCCTGCGGCACTGCAGGACCGCCGGGTTGAAATGACCGGCCCGGCTTCTCCCGCCAAGATGGCCATCAATGCCCTGAACTCGGGCGCCAAGGTGTGGCTGGCCGATCTGGAAGACGCCAGCACCCCCACCTGGCGCAACGTCATCGACTCCATCCTGAACCTGCGTGACGCCGCGCAGGGAACCCTCAGCTACACCTCGGATGAAGGTAAGGAATACACGCTCCGCACCGACGCGCCGCTGGCCGTTGTGGTGGCCCGCCCCCGCGGCTGGCACCTGCCGGAAAAGCATCTGCTGCTCGACGGCGAACCGGCCGTGGGTGCGCTGGTGGACTTCGGCCTGCACTTCTTCCACGTGGCCAAGCAGCTGGTCCTCAACGGCCATGGCCCCTACTACTACCTGCCCAAGATGGAGAGCCACCTTGAGGCCCGGCTCTGGAACGACGTGTTTGTCTTTGCGCAGGATTACCTGGGCCTGGGCCAGGGCACCATCCGGGCCACGGTGCTGATCGAAACCATCCCGGCGGCGTTCGAAATGGACGAGATCCTGTACGAGCTGCGCGACCATGCCTCGGGCCTGAACGCCGGCCGCTGGGACTACCTCTTCAGCATCATCAAGTACTTCCGCGACGCCGGCGAGGAGTTTGTCCTGCCGGACCGCGCTTCCGTGGTGATGACGGCCCCGTTCATGCGCGCCTACACCGAGCTGCTGGTCAAGACCTGCCATCACCGCGGGGCCTTCGCCATGGGCGGCATGGCCGCCGTCATTCCCAACCGCCGGCACCCCGAGGTCACCGAGGCGGCCTTCGCCAAGGTCAAGGCCGACAAAACCCGCGAAGCCAACGACGGGTTCGATGGCTCCTGGGTGGCCCACCCGGATCTGGTCCCCATCTGCCGCGAGGTGTTCGACGCCGTCCTCGGCGACCCGGAAAACGGAGGCCGGCCCAACCAGCTGGACAAGCAGCGCCCCGAGGTGTCGGTGACGGCAGGGCAGCTGCTGGACATCGCCTCGGCGGACGGCCAGGTCACCGAGGCCGGGCTGCGGCTGAACCTGTATGTCGCCGTCGCGTACACAGCCGTCTGGCTGTCCGGGAACGGCGCGGTGGCCATCCACAACCTGATGGAGGACGCGGCAACGGCGGAGATCTCACGCTCCCAGGTGTGGCAGCAGATCCGCAACAAGTCCGTCCTGGCGGATACCGGGAACACGGTGACCCGGGAGCTGGTGGAGCGCATCCTCGGCGAGGAAACGGAGCGGCTCCGCACCGAGTTCGGCGACGAAGCCTTCCGCCGGTACTACGGTCCGGCCAGCCAGCTCATCGCGGACATCTGCCTGTCAGAGGACTACACCGACTTCCTCACCACTCCGGCCTACGAACTGGTGGACTGA	MAITVTDPRPIERAEEILTPKALAFIEELHNRFAGTRNELLAARGVKRQRVAETGKLDFLPETRDVRDGDWKVAPAPAALQDRRVEMTGPASPAKMAINALNSGAKVWLADLEDASTPTWRNVIDSILNLRDAAQGTLSYTSDEGKEYTLRTDAPLAVVVARPRGWHLPEKHLLLDGEPAVGALVDFGLHFFHVAKQLVLNGHGPYYYLPKMESHLEARLWNDVFVFAQDYLGLGQGTIRATVLIETIPAAFEMDEILYELRDHASGLNAGRWDYLFSIIKYFRDAGEEFVLPDRASVVMTAPFMRAYTELLVKTCHHRGAFAMGGMAAVIPNRRHPEVTEAAFAKVKADKTREANDGFDGSWVAHPDLVPICREVFDAVLGDPENGGRPNQLDKQRPEVSVTAGQLLDIASADGQVTEAGLRLNLYVAVAYTAVWLSGNGAVAIHNLMEDAATAEISRSQVWQQIRNKSVLADTGNTVTRELVERILGEETERLRTEFGDEAFRRYYGPASQLIADICLSEDYTDFLTTPAYELVD	PGPT0001445_2608	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
D1-29_03935	1275			hypothetical protein	GTGGCGGCATCCCCCACCCAGGCCCTCGCCGCGGCGGACCTTGCCAGGATCGACTCCCAGCTGGCGGACACCGACCGCCTGCTGGAGCTGCACTACCCCGGCGACGACGGCTCCCGCCAACCCATCCACACGGTCTATGTGCCCGCAGACCGTTTCACGCCGTCGCTCCCCGCTGACTGGGGCGCCCAGGCCATCGCGACGGCGGAGGGGCACGGGGGCCTGGAAAGGCTCGCCGGGCTTCTGGGCCAATCCCTGGCGCTGGGTGCCGCCGTCGCGTCCCGGGTTGCGCACAAGCTGGCCAATGAGCCGATCGAGGACCTGCGCCTTGACTTCGAGGACGGCTATGGCGACCGCGGGGACGAGGCAGAGGACGCCGACGCCGTTGCTGCCGCCGGCCTGGTTGCCGACGCCGTTGCTGCAGGGACTGCACCACCTTTCATCGGGATCCGCTTCAAGTGCTTTGAGGCCCCTACCCGTGCCCGCGGCCTGAGGACGCTGGACCTCTTCGTCTCGGCCCTGGCTGCCGCCGGAGAGCTGCCGGCGGGCCTGGTGCTGACGCTGCCTAAGGTCACCACGGTGGCGCAGGTGCAGGCGATGGATTACGCGGTCGCCAGGCTGGAGGAAGTCCACGGGCTGCCGCACGGCCGGCTGCGCTTTGAGGTTCAGGTGGAGACGCCCCAGCTCATCCTGGGCCCCGACGGCACGTCCCCCGTGGCACGGCTTGCGCATGTTGTGCCCGGGCGCATCAGTGCCCTGCACTACGGCACCTACGACTACAGTGCCTCGCTGCAGATTTCGGCCGAGTACCAGTCCATGGAGCATCCTGTTGCGGATTTTGCCAAGGAGACCATGCAGCTGGCGGTAGCCGGGACAGGTATCCGGCTCTCAGACGGTTCCACCAACATCATCCCGGTGGGCGACAACGTGGAAAACGCCTGGCGGCTCCACGGCCGGCTGGTGCAGCGCTCCCTGGAACGCGGCTACTACCAGGGCTGGGACCTTCATCCCGCCCAGCTGCCCAGCCGTTTCGCGGCGACGTACGGGTTCTACCGGCACGGACTGCCTGCTGCCGCCGCACGGCTGCGAAATTATGTGGAGCAGACCGAAGGCGGCGTGATGGATGAACCGGCAACGGCCCGGGCCCTCGCGGCGTTTGTGCTGCGAGGCGTCCAGTGCGGCGCTGTCGGCGCCGACGAAGTCCAGGCGCTTGCCGGCGTCGGGCTTTCCCGGCTCACCGCGCTGGCGCATCCGCGGCTGGCCCCTTCCAACTCATAA	MAASPTQALAAADLARIDSQLADTDRLLELHYPGDDGSRQPIHTVYVPADRFTPSLPADWGAQAIATAEGHGGLERLAGLLGQSLALGAAVASRVAHKLANEPIEDLRLDFEDGYGDRGDEAEDADAVAAAGLVADAVAAGTAPPFIGIRFKCFEAPTRARGLRTLDLFVSALAAAGELPAGLVLTLPKVTTVAQVQAMDYAVARLEEVHGLPHGRLRFEVQVETPQLILGPDGTSPVARLAHVVPGRISALHYGTYDYSASLQISAEYQSMEHPVADFAKETMQLAVAGTGIRLSDGSTNIIPVGDNVENAWRLHGRLVQRSLERGYYQGWDLHPAQLPSRFAATYGFYRHGLPAAAARLRNYVEQTEGGVMDEPATARALAAFVLRGVQCGAVGADEVQALAGVGLSRLTALAHPRLAPSNS				NA	NA	NA	NA	NA
D1-29_03936	813	allE	COG3257	(S)-ureidoglycine aminohydrolase	ATGGGCAAGTACTACTCCCCCCAAGGCGGTTTACCGCCGCAGACCCACCTGACCACCGAGCGCGCCATCGTCACCGAGGCCTACACCGTCATACCCAAGGGCGTTATGACGGACATCGTGACCAGCAACCTGCCGGGCTTTTCGAACACCCGCGCCTGGATCATTGCCCGGCCCATTTCCGGGTTCGCCACCACGTTCTCGCAGCTGATTGTGGAGATCGGCCCCGGCGGCAGCGCACCCAGGGCGGAGTTCGAGGCCGGTGTGGAGGGCGTCATCTTCGTTAGCCGCGGCAAGGTCAACCTCACCCTGGACGGTGAATTGCACCGGCTGGAGGAGGGCGGCTACGCCTACCTGGCTGCCGGTTCACACTGGGGACTGGAAAACGTCTCCGACGACGTGGTGTCCTTCCAGTGGATCCGCAAGGCGTACGAACGGCTGGAAGGGTACGAGGCCAAGTCCTTCGTCACCAGTGACCAGGAAGTGGAGCCCCGTGAAATGCCGGACACGGACGGCGCATGGAAGACCACGCGCTTCGCTGACCCCAACGACCTTGCGCACGACATGCACGTGAACATCGTGACCTTCCAGCCCGGCGGCGTCATTCCTTTCCCGGAAACGCACGTGATGGAGCACGGGCTGTATGTGCTCGAAGGCAAGGCCATGTATCTGCTGAACAACGACTGGGTGGAAGTGGAGGCCGGCGACTTCATGTGGCTCCGCGCCTTCTGCCCCCAGGCATGCTACGCCGGCGGTCCGGGCCCGTTCCGGTACCTCCTCTATAAGGACGTCAACCGGCAGATCCGCCTGACCTGA	MGKYYSPQGGLPPQTHLTTERAIVTEAYTVIPKGVMTDIVTSNLPGFSNTRAWIIARPISGFATTFSQLIVEIGPGGSAPRAEFEAGVEGVIFVSRGKVNLTLDGELHRLEEGGYAYLAAGSHWGLENVSDDVVSFQWIRKAYERLEGYEAKSFVTSDQEVEPREMPDTDGAWKTTRFADPNDLAHDMHVNIVTFQPGGVIPFPETHVMEHGLYVLEGKAMYLLNNDWVEVEAGDFMWLRAFCPQACYAGGPGPFRYLLYKDVNRQIRLT	PGPT0021650_528	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021650-ylbA-K14977	NA	NA
D1-29_03937	1158	dap_2		D-aminopeptidase	ATGTCAGGAGCCAGGACGCAGCACACTCTGGGACGGATCGCCGCTGCGTTGTCTGTGGCCCTGCTGGCCACCGCTCTGGACGGCTGCACGTTCGGCCCCCGTCCCCCTGATGAGCAGGAGACGGCAGGGCAGCATCAGGGGCTGGAGGCATTCAGCAGGCAAATGCTCGATGAGGGCGCCCCGGCCGTTCTTATCGAACTGCGGCACGGTCCAGACGTATGGACCCACGGGGCAGGGGTACGGAACCTGGAAACGGGGGAACCCGTCACGGCGGCAGATCCGTTCCAGGTGGGGAGTATCTCCAAGTCAATGGTGGCCGTATCCGTCCTGAAGCTGGTTGAGGAGGGCCTGCTCAACCTGGACGCACCCGTGAGCGCTTACCTGCAAGAGTTCGGCACGGTGCTGCATCCGCCGCGGCCGGTCACGGTACACCAGTTACTGATCCATGAATCTGGACTGCCCGATTTCATCGCTCCCCTGCTGGCTTCCGCACCGCCACCGGAATTCCTGAACAGGCCGCTCAGCCTTGAACAGCAGCTGGCCCTGGCCGCCACGGTCCCGTGGGAACGCAAGCTTGTCCAAGGTTTTGAATACTCGAGCTCCAACTACTCCGCGCTTGGACTGATCGCCCAGCGGATCCGGGGTCAAAAAATCGCAGACGTCCTCAAAAGTGACATCGCGGATCCCCTGGGCCTACGGGAAACCCGGCTGCCCGGCGCGGGGCCTCCGCCCGAAAACATGGTCCACGCCTACATTACGGTGGCCGGCAAACGGCTGGACGTAACGCATCCGGCCTGGCTGGCCGAGCTGGCGCCGGGGGGCGTGGTATCCACTGTCAACGAGGTAAACACCTTCTACTCCGCCCTCCTGCAGGGGAAGGTCTTGGCTCCCGCAACTATGGCAGGGATGCGCGGCCAGGACGGTGCACGGTATGGCCAGGGGCTGCAGAAATGGAACGACCTGTGCACCAACAGGTTCTACTACGGCCACACGGGCGACGCCGACGGGTACGGAACCGTCTCCATGACCAGCGAGGACGGCACCCGGCAGCTCACCCTGGCCGTTGCCTACCCGCCGGCACCTCCCACCTTGAGCGTCAATCCACTGATCTCCGATCTGGAAGACGTGGCCCAGGAGACGCTGAATGATTTGTGCTGA	MSGARTQHTLGRIAAALSVALLATALDGCTFGPRPPDEQETAGQHQGLEAFSRQMLDEGAPAVLIELRHGPDVWTHGAGVRNLETGEPVTAADPFQVGSISKSMVAVSVLKLVEEGLLNLDAPVSAYLQEFGTVLHPPRPVTVHQLLIHESGLPDFIAPLLASAPPPEFLNRPLSLEQQLALAATVPWERKLVQGFEYSSSNYSALGLIAQRIRGQKIADVLKSDIADPLGLRETRLPGAGPPPENMVHAYITVAGKRLDVTHPAWLAELAPGGVVSTVNEVNTFYSALLQGKVLAPATMAGMRGQDGARYGQGLQKWNDLCTNRFYYGHTGDADGYGTVSMTSEDGTRQLTLAVAYPPAPPTLSVNPLISDLEDVAQETLNDLC				NA	NA	NA	NA	NA
D1-29_03938	372			hypothetical protein	ATGACGCTCTACCAGCCGGAACCTGTTGAGATTTCCACCCGGATACGCCCCGGGGAATGGACGGAATCCAGCCTGGAGGAACTAGTGACCACCTACCGGGCCCAGATCCTGGCCATGGGCGCCAGGGTCTCGGACGTCGTGACGGATGTTGAGCGGAACGACGACGGGTCCGTCAAGGTAGCGGTGTCCTGGGCCAAACCCGCGCTAGCGGACGAGACGCTAGCGGACCAGACGGTGGCGGATGAAGCCGTAGCGGATGACCTTGCCACGGAAAGGAACGCGGGGGAAGCCACCGCAGTCCCCAGGGATACTGTCCCCAGCCACGGAACAACCCGGCATACCGGCACTACGGGCGGCAGCAGCACTGTTTAG	MTLYQPEPVEISTRIRPGEWTESSLEELVTTYRAQILAMGARVSDVVTDVERNDDGSVKVAVSWAKPALADETLADQTVADEAVADDLATERNAGEATAVPRDTVPSHGTTRHTGTTGGSSTV				NA	NA	NA	NA	NA
D1-29_03939	720	gph_3	COG0546	Phosphoglycolate phosphatase	ATGGGGCCGCAGGGAAACGGCCCCACAGGCCCCGGACCGCGCCGCGGAGTCCTCTTTGACGTGGATGGAACACTGGTGGACTCCTCCTACTTGCACACGCTTGCCTGGTGGCAGGCCTTCCGGCAGCAGGGGTACGACGTCCCGATGGTTTCCATCCACCGGTGCGTCGGCATGGGCGGGGACCGCCTGGTGGACGCCCTTCTCCCGGCCGCCCGCGACAAGGGCGGGGACGGCGAAATTATGGCCAGCCATGCTGCCCTCTTTGCCGTGAATTGGCCGGCGCTCCGGGCATTTGACGGAGCCCGGGACCTGCTCGCACAGTGTCACGCCGGCGGCCTGGCTGTAGCCCTTGCCTCGTCCGCGCGCGAGCAGGACCTGAATGCGCTGAGGATGGCCCTCGGGGCGGATGCCTATATCCACGCCGCAACCAGCGCCAATGATGCGAAGGAGAGCAAGCCCGCGCCCGACATCCTGGTGGCCGCCCTGGAGGCCATAGGCGTCCAGGCAGCTGATGCCCTCTATGTGGGCGATGCGATATGGGACCTGCAGGCGGCAGCCGCCCTCGGCATTCCGGTGGTGGCCGTTACGAGCGGGGGGACCAGTGCGGCTGAACTCAGGGATGCCGGTGCGCTTGAAGTGTACGAGGGCCCGCGGGATCTTCTGGAGAACTTGCAGGCCAGCGCCATCGGCAGGCTGTTCCCGCTGGTCTCCAATGCCTGA	MGPQGNGPTGPGPRRGVLFDVDGTLVDSSYLHTLAWWQAFRQQGYDVPMVSIHRCVGMGGDRLVDALLPAARDKGGDGEIMASHAALFAVNWPALRAFDGARDLLAQCHAGGLAVALASSAREQDLNALRMALGADAYIHAATSANDAKESKPAPDILVAALEAIGVQAADALYVGDAIWDLQAAAALGIPVVAVTSGGTSAAELRDAGALEVYEGPRDLLENLQASAIGRLFPLVSNA	PGPT0014525_12	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
D1-29_03940	216			hypothetical protein	ATGGCCATTTCGGTTACCTTTCCCACGAAACGTGCGGCTGTGGCCGGCGTGGCCATGGCCCGCGAAATCGCAGGCACTGGTTTGATTCGGGACTGCAGCCGCGATGGTGCAGGCTCCGTCCTCAGGGAGCGGGTACGCCAGGTGAGCTCGCCGAAGGTTGATGCCGCGTCCCGTAAGAAGAAGCTCGCCGGAGCCAGGCGGGCTGCGATTAGCTGA	MAISVTFPTKRAAVAGVAMAREIAGTGLIRDCSRDGAGSVLRERVRQVSSPKVDAASRKKKLAGARRAAIS				NA	NA	NA	NA	NA
D1-29_03941	1827		COG3387	Trehalase	ATGTGGCAGGGTATGGGAATGGCGCGAATTGAAGATTATGCGGTGCTGGGCGATCTCTATACCGGGGCCCTGGTGAGCACGGAGGGGTCCATCGATTGGCTCTGCCTGCCCCGGTTCGACTCGCCGGCATGTTTCAACGCACTGCTGGACACCCCGGATGCCGGTCGGTGGCTGCTGGCCCCGAAGGGCGGTGGCCAATGCAGCCGGCGCAGCTACCGGGACGGAACGCTGGTGCTTGAGACTGAGTGGGAAACCCCGGAGGGTTCGGTCCGGGTGATTGACTTTATGCCGCCCCGGGACGAGGTGGCGGACGTTGTGCGGATCGTCGAAGGCCTCAGCGGAACGGTCAGCATGCACAGCGAGCTGACCCTGAGGTTCGATTACGGCCATATTGTGCCGTGGGTCCGGAAGGACGACCAGGGCCTGCACGCCATCGCCGGTCCCGATGCCGTCTACTTCATCACCAAGGCGCCCCTGCACGGCGAGAACATGCACACAGTCAGCGATTTTTCGGTGTCAGCCGGCGAGCGGATCCCCTTTGTGCTGGCCTGGGCCCCCAGCCACAGGCCGCGCCCGGAAACCGTTGATGCCGAGAAGGTGCTGGGCACCACAGCCGCCTTCTGGCGCGGCTGGGCGTCGCAGTGCACCGTCAAGGGAAAGTACCAGGAGGCGGTGTTGCGCTCGCTGGTGACGCTGAAGGCCCTGACCTATGCGCCCACGGGCGGCATTGTGGCGGCAGTGACCACGTCCCTGCCGGAAGAGCTTGGCGGTACCCGCAACTGGGACTACCGCTACTGCTGGCTCCGGGACGCCACCATGACACTCCAGGCCCTCCTGGCCGCCGGCTACACGGCCGAGGCGGCAGCGTGGCGGGACTGGCTGCTCCGGGCGGTGGCAGGGGACCCGGCGGACCTGCAGATCATGTACGGGATCCACGGGGAACGCAGGCTGCCGGAGATGGAGCTGCCGTGGCTCGCCGGCTACGAGAACTCGGCGCCGGTCCGGATCGGCAACGGGGCGGCCGAGCAACTCCAGCTTGACGTCTGGGGGGAAGTGCTGGACTGTCTGTCGCTGACCCGCAACTCCCTGCTGAAGCACACCGATGAAGCCTGGGATGTGCAGGTTGAGCTGATGAAGCACCTGGAGACGGTCTGGGACCAGCCGGACAACGGACTCTGGGAGATGCGCGGCCCGCGCCGGCATTTCACCCATTCCAAGGTCATGGCATGGGTGGCTGCGGACAGGATGGTCAAAGGCGTCCGGGAATCGGGGCTGCCCGGGCCGGTGGAACGCTGGGAGGCGCTGCGGGACACCATCCACCGGGACGTGATGGCCAACGGTTTCGACGCCGCGCGCAACACTTTTGTCCAGGCCTATGGGCGTCCCGAACTTGACGCCAGCCTCCTGCTCATTCCGCGGGTGGGGTTCCTGCCTCCGGACGATCCAAGGGTGGTGGGGACCATCGACGCCATCCAGCGCGAGCTGACCGAAGACGGCTTTGTGCTGCGGTACCGTCCGGAGGTCAGCGACGACGGGCTGCCGGGAAGCGAGGGCGTTTTCCTGGCCTGTTCCTTCTGGCTGGTGGAGGCGTTGCTGGGGGCCGGCCGCCGCCAGGAATCCACCGAACTGTTTGAGCGCCTCCTGGAACTCCGGAACGATGTTGGTTTGCTCAGCGAGGAATGGGCCGTCAGGGCGGGGCGGCAGCTCGGAAATACGCCGCAGGCATTCAGTCACTTCGCGCTTGTCACCAGCGCCCTGGAACTGCATCAGGACAGCGTCCGAAGGAGCGATACACCCATCCCGCCGGAGACGGAGCGGGTGGGCTAG	MWQGMGMARIEDYAVLGDLYTGALVSTEGSIDWLCLPRFDSPACFNALLDTPDAGRWLLAPKGGGQCSRRSYRDGTLVLETEWETPEGSVRVIDFMPPRDEVADVVRIVEGLSGTVSMHSELTLRFDYGHIVPWVRKDDQGLHAIAGPDAVYFITKAPLHGENMHTVSDFSVSAGERIPFVLAWAPSHRPRPETVDAEKVLGTTAAFWRGWASQCTVKGKYQEAVLRSLVTLKALTYAPTGGIVAAVTTSLPEELGGTRNWDYRYCWLRDATMTLQALLAAGYTAEAAAWRDWLLRAVAGDPADLQIMYGIHGERRLPEMELPWLAGYENSAPVRIGNGAAEQLQLDVWGEVLDCLSLTRNSLLKHTDEAWDVQVELMKHLETVWDQPDNGLWEMRGPRRHFTHSKVMAWVAADRMVKGVRESGLPGPVERWEALRDTIHRDVMANGFDAARNTFVQAYGRPELDASLLLIPRVGFLPPDDPRVVGTIDAIQRELTEDGFVLRYRPEVSDDGLPGSEGVFLACSFWLVEALLGAGRRQESTELFERLLELRNDVGLLSEEWAVRAGRQLGNTPQAFSHFALVTSALELHQDSVRRSDTPIPPETERVG	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
D1-29_03942	735			hypothetical protein	ATGCAAGAAGCTTCAACCCCAAGCCTGGTCATCGAAAACGTCCAGGACCTCCTCCTGGATACGCAAGATGTTGAGGACTTCCTCAATGAACTGGCAAGGTATTCGGCCCAGAACCTTTCCAGTCCCCGGGGGGAAGTCCTTTGCGGCATCACACTGCTTCGCCACCGCACGGCGGCTACCGTGGCCAGCAGCAGCGAACGGGCCCGCCTGCTCGATGAAATCCAATACGGCTACAAAGACGGCCCGTGCCTGAAGTGCGCCCGCGAAGGGGTTCTGGTCCACGTTCCGGACTTCAAAACGGAAACGTTGTGGCCGGAGTATTGCGAAGCCGTGCTGAACCACGGCATCAGGTCTGTGCTGGCAATTCCCTTTGAACTGTCCGGCCAAGAGGCCAAGGCAGGCATCAACCTCTACTCGGACAGGCCGCACGCCTTCGATGCCAGCGCAGTGGAGCATGCCATCAGTTACGTTGCCCAGGCATCCAAGGGGCTAAGCCTGGCCGTGCGCCTGGCCCAGCATTCGGATGCAGCGGCCAACCTCAAGGCTGCACTGGATTCCCGCACCGTGATTGACACTGCCGTGGGCATCATCATTGCGCAGAACCGCTGCAGCCAGGACGAGGCAATCGAACTCATCAAGTCCGCCTCAAGCACCCGGAACGTGAAGCTGAGGGAAGTAGCCGCGGCCATTGTGGAATCGGCCGGGGGCGGCCCTCTCAAGACCCACTTCATCTGA	MQEASTPSLVIENVQDLLLDTQDVEDFLNELARYSAQNLSSPRGEVLCGITLLRHRTAATVASSSERARLLDEIQYGYKDGPCLKCAREGVLVHVPDFKTETLWPEYCEAVLNHGIRSVLAIPFELSGQEAKAGINLYSDRPHAFDASAVEHAISYVAQASKGLSLAVRLAQHSDAAANLKAALDSRTVIDTAVGIIIAQNRCSQDEAIELIKSASSTRNVKLREVAAAIVESAGGGPLKTHFI				NA	NA	NA	NA	NA
D1-29_03943	780			hypothetical protein	TTGTGGAATCGGCCGGGGGCGGCCCTCTCAAGACCCACTTCATCTGACTTGGCCATCCATGTCGGCACGTCCGGGTGGAGTTATGACCACTGGGAGAACGTGCTGTATCCCCCTGGCCTTCCGGCCAGGGACAGGCTGGGGCACTATGTTTCCCGGTTCGGCACCGTTGAGCTCAATGCCAGTTTTTACCGCTGGCCCAGGGACACGGCGTTTGCCAGCTGGCGCCGGCGCCTCCCCCCGGGTTTCACTATGTCCGTCAAGGCCCCCCGCGGGCTGACGCACGGCAAGAAGCTCTATGCGCCGGAGGTGTGGCTGGAGCGGATTGAGCGCTGCTGGCATGAACTGGGGGACAAACGCGCCGTCCTGCTGGTCCAGCTGCCGCCCCAAATGGCCAGGGATGACGCCAGGCTGGAGTATTTCCTGGCCAAGGTCCCCTGGTGGATTAGGGTCAGCGTGGAGTTCAGGCATCCCAGCTGGGAGCATCCGGACGTCTTCGCCCTGCTGGAGCGGCACCGGGCGGCCTACTGCATCATGAGTGGAGCACACCTCCCCTGCATCCTGCGGACAACCGCACCTTTCGTTTACGTGCGGCTGCACGGACCGGACCATCAGCACCTGTACGGCGGATCGTATTCGGATACTGACCTGCACTGGTGGGCGGACCGGATCAGGGAGTGGTCCGGTAACGGCCAGGATGTCTTTGTCTATTTCAATAACGACGGCGGCGGGAACGCGGTGCGGAATGCCGAAACCCTCCGCTGGATCCTTGGTGAGGGCTGA	MWNRPGAALSRPTSSDLAIHVGTSGWSYDHWENVLYPPGLPARDRLGHYVSRFGTVELNASFYRWPRDTAFASWRRRLPPGFTMSVKAPRGLTHGKKLYAPEVWLERIERCWHELGDKRAVLLVQLPPQMARDDARLEYFLAKVPWWIRVSVEFRHPSWEHPDVFALLERHRAAYCIMSGAHLPCILRTTAPFVYVRLHGPDHQHLYGGSYSDTDLHWWADRIREWSGNGQDVFVYFNNDGGGNAVRNAETLRWILGEG				NA	NA	NA	NA	NA
D1-29_03944	1143			hypothetical protein	ATGGACAGGGCTTCCCAGGACACACCGCACAACGAATCGCCTCAGAACGAATCGCACGGCGCAGCTGCCGACAATAGTGCCGGCAGCAATGCCGGCGCGCACGCCACGATAGTTTCCGGCGGCCAGATCTTCCGCCTGGCCCACAGGCTTTCCGACGGCGTCAACGGCACCCGCATTCAGCTTGCCAAGCGCTGGAACTTCGAACCGCAGACCGTGGCGTACCAGGGCTATGGATCCACCGACTGGGTCAGGGTGCTCGGCCGTGTTGTGCTGACGAAGAAACCCGCGCCAGGAAGCCGGGCAGAGCACGCAGCCCGCAACGGTACCCAGAACGTTCGGGGCTGGCGCGCCTTCACCAGCGTTCCAGTGCAGTTCACGGACGTGGAAATCACCATCGGCGGCGTGGTGGCCCACGCCCGGGCGGACCGCGGCGGGCTGATCGACACTGTGGTTGACGTCAAGCTCGCCCCGGGATGGCATACCGCTGTCCTCCGGGCCGCTGGGACTGAGCCGGTGGAGGCACTCATCCGGGTGATTGCACCGGACGTCAAGTTCGGCATCATTTCCGACATTGACGACACCGTGATGGTCACCGCCCTGCCGCGTCCCTTCCTGGCGCTGTGGAACACGTTTGTCCTGAGTGAGCGGGCCCGCATGGCCACCCCCGGCATGGCTGTGCTCCTGGACCGGCTGACCATCGAGCACCCGGATGCCCCCGTCATCTACCTGTCCACGGGCCCCTGGAATGCCGCCCCCACCCTGGCACGTTTCCTGAACCGCAACATGTACCCGGCAGGCGCACTGCTGCTCACAGACTGGGGCCTGACCCACGACCGCTGGTTCCGCAGCGGACAGGAACACAAGCGCCGCAACCTGGAGCGCCTGGCCAAGGAATTCCCGGACATGCGCTGGCTGCTGATCGGGGACAACGGCCAGCACGACGAGCAGATTTATTCAGGGTTCGCGCGGGAGCACTCGGACAGGGTGGCCGCCATCGCCATCCGGCAGCTGTCCATCAGCGAATCAGTGTTCGCTGGCGGCCACTCCGAAACCGGCGACCACACCGCCTCTGCCGTCCCCTGGATCTACTCCCCCGACGGCGCCGGAATGGCCAAGCAGCTCACCACCCTTGACATCCTTTAA	MDRASQDTPHNESPQNESHGAAADNSAGSNAGAHATIVSGGQIFRLAHRLSDGVNGTRIQLAKRWNFEPQTVAYQGYGSTDWVRVLGRVVLTKKPAPGSRAEHAARNGTQNVRGWRAFTSVPVQFTDVEITIGGVVAHARADRGGLIDTVVDVKLAPGWHTAVLRAAGTEPVEALIRVIAPDVKFGIISDIDDTVMVTALPRPFLALWNTFVLSERARMATPGMAVLLDRLTIEHPDAPVIYLSTGPWNAAPTLARFLNRNMYPAGALLLTDWGLTHDRWFRSGQEHKRRNLERLAKEFPDMRWLLIGDNGQHDEQIYSGFAREHSDRVAAIAIRQLSISESVFAGGHSETGDHTASAVPWIYSPDGAGMAKQLTTLDIL				NA	NA	NA	NA	NA
D1-29_03945	1557	bglA_2		Beta-glucosidase	ATGCATATCACCGCCAAGGAGCTGGCCGGGCTCATTCCGCCGGGATTCACGCTGGGTGTGGGTACCGCCGCTTTCCAGATCGAGGGTGCCCTGGAGGAGGACGGCCGCGGGCCGGCAGGCTGGGATATTTTCGCGGCAAAGCCGGGGGCGATTGTGGGCGGGCACAGCCCGGCCGTGGCCTGTGACCACTACCATCGGATGCCTGGTGACGTGGCGCTCATGAAGCAGCTGGGCGTGGACTCCTACCGGTTCTCCCTGTCCTGGCCACGGATCCAGCCCAAAGGCAGCGGAGCGGTGAACCGTGCCGGCCTGGACTTCTACGACCGGCTTCTGGATGAGCTGCTGGCCAACGGGATCTCACCCATGGTGACCCTCTATCACTGGGACACGCCGCTGGCTCTGGACGACGCCGGCGGCTGGCTCAACCGGGACACGGCCTACCGTCTGGGCGAGTTCGCCGCTATCGCCGCCGCCGCCTTCGGGGACAGGGTTGCCCGGTGGGTCACCATCAACGAGCCCGCCACCGTCACGACCAACGGCTACACCCTGGGGCTCCACTCACCAGGCGAAGCCCTGCTGCTCAATGCGCTTCCCACAGTGCATCACCAGTTGCTTGGCCATGGGCTGGCGGTCCAGGCGCTGCGGGCCGCCGGAGTACCGGGAGAGATAGGCATGAGCAACGTCTACTCTCCGATGGTTCCCAATTCATTCAACCCGCTGGACAAGCTCAGTGCAGGGCTCATGGACCTCGCGCAGAACCGGCTGTACGCGGATCCGGTGCTCACTGGAAAGTATCCGGACCTGATCCGCGCCGCAAAGTTCTTTGGCTCGTTCGACCACCCGGACGGAGACCTGGAGCTCATCTCCCAGCCGCTGGACTTCTACGGGCTGAACTACTACATGCCTACCAAGGTGGCAGTGGGCGCCGGTGAAGGTGCCGTCCCGGCCAGCATGGCCGAAGCCCTGGGCGATGACCTGACGTCGGCCGCCGGCGGCGGGACGCCTTTCCACGTTGTCCCGTGGCCGGAAGCGGACATCACGGCTTACGGCTGGCCGGTGAAGCCCGACTACATGGCCGTGGCCCTGAAGGAAATGGCCGAGCGGTATCCCAACCTTCCCCCTGTGATCCTCACCGAGGGAGGCGCCAGCTTCGAGGACATCATCGTCCGCGACAAGTCCACCAACCGGACGTTCATCCCGGACGAGCGGAGGCTGAAGTACCTTTCGGACCACATCGAGGCCGCACTCCGGGCCACAGCTCCCGGGGGTGAAGCGGAGGCGGTGGACCTGCGCGGCTATTACGTGTGGTCGCTTATGGATAATTTCGAGTGGTCCGCTGGCTTTAACCAGCCGTTCGGGCTGCTGCATGTGGACTTCGAGACCCTGGAAAGGACCCCCAAGGCGTCCTACTTCTGGCTGCAGGAACTCATTGAAGAACGGAACCTCGCGATATCGGCGGCCTCCGCCATCGCCAAGGCCGTGGGGCCCGCGCCCACAGATTCCGAAGACACAGAAGCCCCCGACGACGGCGTTGCCGCACTGGATGCCACCGCCTAG	MHITAKELAGLIPPGFTLGVGTAAFQIEGALEEDGRGPAGWDIFAAKPGAIVGGHSPAVACDHYHRMPGDVALMKQLGVDSYRFSLSWPRIQPKGSGAVNRAGLDFYDRLLDELLANGISPMVTLYHWDTPLALDDAGGWLNRDTAYRLGEFAAIAAAAFGDRVARWVTINEPATVTTNGYTLGLHSPGEALLLNALPTVHHQLLGHGLAVQALRAAGVPGEIGMSNVYSPMVPNSFNPLDKLSAGLMDLAQNRLYADPVLTGKYPDLIRAAKFFGSFDHPDGDLELISQPLDFYGLNYYMPTKVAVGAGEGAVPASMAEALGDDLTSAAGGGTPFHVVPWPEADITAYGWPVKPDYMAVALKEMAERYPNLPPVILTEGGASFEDIIVRDKSTNRTFIPDERRLKYLSDHIEAALRATAPGGEAEAVDLRGYYVWSLMDNFEWSAGFNQPFGLLHVDFETLERTPKASYFWLQELIEERNLAISAASAIAKAVGPAPTDSEDTEAPDDGVAALDATA	PGPT0019165_594	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019165-bglB-K05350	NA	NA
D1-29_03946	816			hypothetical protein	ATGGATGAAAAACTGGGGAAGTTCATCGACGATTTTGCCGAACTGGTGCAGCTGGCGCAGGCCGGGAACCACAGGCAGCAGCCCGGCAAGCAGCTTCTGGAGGCCCTGACGGAGCATCTTGGGGCACCGGCAGAAGGCCTCGCCGTCGTGGTGGAGAATATCCCGCCGCACCGGTTCGTGGACGCGGACATCCTGTTGGCTGAGTTCGCCGGCCAGGATCCGGACAGCCGCCTGGTGGGGATCGGCGGCGGCGGCCAGCGGCATCATCAGTCCCTCAGCGACATGGTCCAGCAATCCCAGCTCTTCCCGCAGTTTCCGCTGGCACAGCCTGACTACACCAACCTGGCGGTGGGGCCGGAGGAACAACGCCAGGCCGTCGCCCTGGGACTGTGGCTTCTCAGAATCGACGGCAGCCCTCTGGCGGTACTGCAGCGAGACGCCGATCCGCGTTCTGGGCGGCAGGCCGCCTCGCTGGAGGTAGTAGCCGCGGAACCCCGGGCCGGCTCCGCGTTCCTGGCCGAATTCCGCCGCCGGATGGAGAGCCGCAGTGTGCTCAAGGGCCAGGTCATCTCGCTGACCATGGGCGAATACGGTCCAAGCACCGGCGGGGTTACCTTCCATCACCGGCCAGCGCTGCCCGCCTCAGATGTCATTCTTCCGGACGGACTCCTGCAGAAGGTGGCGGACCATACCGTGGGGATCGCCACCCACCGGGAATCCCTCAAACGGCACGGCCAGCACCTCAAGCGAGGAATCCTCCTCTACGGCCGGCCGGGGACCGGCAAAACGCACACCGTGCGTTACCTGCTCAGCTAA	MDEKLGKFIDDFAELVQLAQAGNHRQQPGKQLLEALTEHLGAPAEGLAVVVENIPPHRFVDADILLAEFAGQDPDSRLVGIGGGGQRHHQSLSDMVQQSQLFPQFPLAQPDYTNLAVGPEEQRQAVALGLWLLRIDGSPLAVLQRDADPRSGRQAASLEVVAAEPRAGSAFLAEFRRRMESRSVLKGQVISLTMGEYGPSTGGVTFHHRPALPASDVILPDGLLQKVADHTVGIATHRESLKRHGQHLKRGILLYGRPGTGKTHTVRYLLS				NA	NA	NA	NA	NA
D1-29_03947	618	ftsH_2		ATP-dependent zinc metalloprotease FtsH	ATGGCCAGGGCACTTCAGCCCTCGATTGTGGTCCTGGAAGACTGCGACCTGATCGCCGAAGACCGGAGCTTCGGGCATGGGCCGCAGCCCCTGCTTTTTGAGGTGCTCGATGCCATGGACGGGCTGGACAACGACGCCGACGTGGCCTTCGTCCTGACAACGAACCGGCCGGACATGCTGGAACGCGCCCTGGCGCAGCGTCCAGGCCGCGTGGACCTCGCTGTGGAAATCCCGTTGCCTGCCTTTGAGGAGCGCGTAGCCCTGCTGGAGCTGTACGGGCAGCATGTGGCGTTCAGCCCGGAGGCCTTGGCCGCAGCCGCCGAAAAGACGGCCGGAACCACAGCATCATTCGCCCGGGAACTGGTGAGACGGGCCGTTGTGGGGGCGGCGCTGGAGGACATGCCTGTGTCAGATGCCCATTTGGCCGCGGCAGTGGAAGATCTCATGGCCGACGCCGAATCGCTGACGCGCAGCCTCCTGGGCAGCGGAAACCAGGCCGAGGCGGCGGGATGGGCCGGAGTAGGCGTCCCCGGCCAGACAGTGACAGGCCCGGGGTTCTCCGGGCAGGGCTTTTCGAGTGCAGGCGGACTCGGGCCTGGGCCGGTTGTGCCGGGCTGA	MARALQPSIVVLEDCDLIAEDRSFGHGPQPLLFEVLDAMDGLDNDADVAFVLTTNRPDMLERALAQRPGRVDLAVEIPLPAFEERVALLELYGQHVAFSPEALAAAAEKTAGTTASFARELVRRAVVGAALEDMPVSDAHLAAAVEDLMADAESLTRSLLGSGNQAEAAGWAGVGVPGQTVTGPGFSGQGFSSAGGLGPGPVVPG				NA	NA	NA	NA	NA
D1-29_03948	378			hypothetical protein	ATGAGCGACTGGCGCCGCTATGACTCCCACCTGATCCCCGCGTTCCATGAGCGGTTTGAAGAGCGGTGGGGAAAGGGCACAGCGCCGTTCCTCGATCCTGAAGCACATGAGCAGCCGGTTCCCCGGGCCCAGTGGATCAACCCTGCAACCGGGGCCGCCCTGGCGGTTGTTCCTGTATGGACGGTGGACGAGGGACAGCAACGTTCGTTCGGGGTGTTCTATCTTCCGCCTGCGGGTGATATCTGGGTACTCCGGCCGGGCTACACCGGCTATCTTGAACCGGCAGACGGGGAGACAGAACACCTCGTGACGCTCCGGAACGACGCTTTCCGGAAAGCCGTGGCGCACGCCAAGGAATTCCTGTTCGGATCCCAATAA	MSDWRRYDSHLIPAFHERFEERWGKGTAPFLDPEAHEQPVPRAQWINPATGAALAVVPVWTVDEGQQRSFGVFYLPPAGDIWVLRPGYTGYLEPADGETEHLVTLRNDAFRKAVAHAKEFLFGSQ				NA	NA	NA	NA	NA
D1-29_03949	561	dnaJ_2		Chaperone protein DnaJ	ATGGAGAGCCTCCCTGACTACTACGCAGCATTGCATGTGGGACCTGCTGCCTCGCAGCGGGAGATCTCGCGCGCCTACCGGGCGCTGATGCGGACCCACCACCCGGACGTCGACGGCACAAATGCTGCGGACCGGAAGGCGCAGGACAACGAACTGCTGGGAATCATGCAGGCCTTCGCTGTCCTCCGTGATCCGGTTCGGCGGGCTGCCTACGACCGCAGCATCCGGGGACAGGGCGGCTTGGGACAGGGCGGCTCGGGACAGGGGGCCACTGGACAGGACGGCAGGGGACAAGGCAACAAAGGATACGGCGGCACGTCCCGCGGCCGTGGGGAACAAGAAACTGCGGAGCGGGGAACTTCTGGACAAACAACTGCGGGACGGGAAACTGCAGGGCAAGGCAGCAGCACGCAGGCCGGCGGACGACGGTTCACGGCTCAGAGCACAGGCGATTCCGTTCCGCAGGACATCCCGGTCCGCAAGGTTCGCAGCCGTGCCGAGCGTTCGGGCCACACCATCCGGATCACCCCTGTCCGTTGGGAAAGCGGACCCTGGGCCTGA	MESLPDYYAALHVGPAASQREISRAYRALMRTHHPDVDGTNAADRKAQDNELLGIMQAFAVLRDPVRRAAYDRSIRGQGGLGQGGSGQGATGQDGRGQGNKGYGGTSRGRGEQETAERGTSGQTTAGRETAGQGSSTQAGGRRFTAQSTGDSVPQDIPVRKVRSRAERSGHTIRITPVRWESGPWA				NA	NA	NA	NA	NA
D1-29_03950	426			18 kDa heat shock protein	ATGATGTTGATGCGTACGGACCCGTTCCGTGAGCTGGACCGGCTCACCCAGCAGGTCTTTGGAACAGCAGCCCGGCCAGCCGCCATGCCTATGGATGCCTGGCAGGAGGATGGCACCTTTGTGGTGGCCTTTGACCTCCCGGGCGTCAAGATCGACACAGTAGACCTTAATGTCGAACAAAACGTCTTGACGGTCAGGGCTGAGCGCAAGGATCCAACCCAGCCGAATGTTGAGCTGGTGGCCTCCGAGCGGCCGCGCGGTGTCTTCAGCCGCCAGCTGATCCTGGGCGACACGCTGGATACCGACAACATCAAGGCAAGCTACGACCAGGGCGTCCTGACCCTGCGGATACCAGTGGCGGAGCAGGCCAAGCCGCGCAAGATCGAAATTGAAACCAAGGGACAGATGCACGAGATCGGCACCTAG	MMLMRTDPFRELDRLTQQVFGTAARPAAMPMDAWQEDGTFVVAFDLPGVKIDTVDLNVEQNVLTVRAERKDPTQPNVELVASERPRGVFSRQLILGDTLDTDNIKASYDQGVLTLRIPVAEQAKPRKIEIETKGQMHEIGT	PGPT0014635_7174	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
D1-29_03951	336			hypothetical protein	ATGAACAATGGGCCAACGGGACGGGTGCCGGAACCCAGGGCAGGGCGCGCGCTGTATGCCATTTCCGTGGCGGCCAAGCTGGCCGGCACTGGCCAGCAGAACATTCGACTCTACGAAACGAGGGGTCTCCTCACACCGGTCCGGACGTCCGGCGGAACCCGCCAGTACACCGATTCGGACATTGCCGTGCTGCTGCGCATCGGAGAACTCCTGGACCAGGGGCTCAATCTCGCCGGAGTGGCCAAGGTCCTTGAACTGGAGGCTGCTAACGCCAAACTGCACCGTGCCCTCAAACGCGCGCAGGCGCGCCCGGAGCCGGAACAGAAAGGTCGGTAA	MNNGPTGRVPEPRAGRALYAISVAAKLAGTGQQNIRLYETRGLLTPVRTSGGTRQYTDSDIAVLLRIGELLDQGLNLAGVAKVLELEAANAKLHRALKRAQARPEPEQKGR	PGPT0014625_1062	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014625-hspR-K13640	NA	NA
D1-29_03952	312			hypothetical protein	ATGGCCACTGAAGAGGACGTTCGCCGCATCTGCCTGGCGCTGCCCGGCGTTACCGAGCGCAGCAGCTGGAACCAGCCCGCGTGGTTCGCGAAGACCCTGATGGCCCGTATGTGGGAAGACGGTGTGTTGACGGTGAAAACGGCGGAGCGGGAAGCCCTGGCCGGGACCGACTCCGGAACCTACTTCTGGACGCCCCACCATGAGCGGTCCCCGCAGCTGATTCTGATCCGGCTCGCACGGATTGATGTGGAGGAGCTGGCGGAGGTGCTTGAGGAGTCCTACCTGCTGGCGGGTGGACGCGGAACCTCCTGA	MATEEDVRRICLALPGVTERSSWNQPAWFAKTLMARMWEDGVLTVKTAEREALAGTDSGTYFWTPHHERSPQLILIRLARIDVEELAEVLEESYLLAGGRGTS				NA	NA	NA	NA	NA
D1-29_03953	705			hypothetical protein	ATGGACCCTGGGGCCCGAAGGAGGCTGTACCGGACTGCGATGGTCCTCATCGGGCTGGGTGTTGTCCTGTTCGTCGCCACCCTGCTGGGTGTAGTGCAGGGGAACGGGCTTGCGGCTGTGGACGGTTCGGCCCGTGACTGGCTGCTCACCCTCCGCTCGGAACCGCTGACCGGCGTGATGATCTTCCTGGCGGTGATCTTTGGGCCCGTTGCCCTGCCAATCATTGTTTTGGTGGTCAACGTGGTGTGGGGTTTTGCCGCGAAGCATGCTTGGCGTCCGATCGTCCTGGCTGCCGCGATGCTGTCAGGAGTTCTCATATCGCAGATCATCCTGCAGATCGTCAGGCGCTCGCGGCCTCCCGTGGAGCTGATGCTGTTCGGGGCGGACCATACGTTCTCGTTTCCGTCGGGCCACGTCCTGGGCGCCTGTGACTTCCTGCTGGTCACGGCGTTCCTGATCTTCTCCCGGCGCAAAAATCCGCGTGCCGCAGTCCTGGGTTTTGTGGGAGCAGGGGCGGGGATAGTCCTCGCGGCCCTCAGCAGGCTCTACCTGGGCTACCACTGGCTGAGCGATGCCCTCGCCTCCATCTCGTTGTCGCTGGTGATCCTGGGTGCCGTCATCGCATTGGATACCTGGCGTACCGCCCGGATTCCCGGCGAACGCATCACGGGCGAACTGTCCAAGGCAGATGCACCGGGCGACTGA	MDPGARRRLYRTAMVLIGLGVVLFVATLLGVVQGNGLAAVDGSARDWLLTLRSEPLTGVMIFLAVIFGPVALPIIVLVVNVVWGFAAKHAWRPIVLAAAMLSGVLISQIILQIVRRSRPPVELMLFGADHTFSFPSGHVLGACDFLLVTAFLIFSRRKNPRAAVLGFVGAGAGIVLAALSRLYLGYHWLSDALASISLSLVILGAVIALDTWRTARIPGERITGELSKADAPGD	PGPT0024170_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302	NA	NA
D1-29_03954	1125	yhaZ	COG4335	putative protein YhaZ	ATGGGCGTCATGAATGAACTCATCAACGCGCAAGGCGTGGGATCCCTGGCCGGAATACTTGCTGAAGCCTCAGCCGGGAAGACCTGGGAACACGTTGCTGCCGCGGCAGCCGGACTCAGCCCGCTCAGCCTTCGCGAACGCACGGACCACGTGAGCCACGCTTTACTGGAGGATCTGCGTCAGTTGGCTGATCCGGCGTATCCGACCGCGGCCCGCACTTTCCGGAACGCCCTCCGGAGGCCCGCATTCACCGGCTGGATTCTGTGGCCGGTATCCGAAGCTGCCGTCACGCTCGCACTGGAATCGGGCTCAGACCAGGATTTCGACGATTGCCTGGCCCTGTTGGCCGAACTGACCCCGCGGCTCACCGGCGAATTCGCCGTCCGCCGCCTGCTGGCCCGCGATCAGGGCCGTGCACTCCGCACCATCCTGACATGGACGTCACATCCCGACGAACACGTCCGCCGGCTGGCCAGCGAGGGCACCCGGGCCTACCTTCCGTGGGCAGTGCGTGTGCCTTCGCTGATCCGCACCCCGGAAGCGACTGTCCCCATCCTGGACGCCCTCTACCGCGATCCGTCGGAGTACGTGCGGCGGTCGGTAGCCAACCACCTCAATGATCTGGCCCGGCATGCGCCGTCCCTGGTGGTATCGACGGCGGCACGCTGGCTGGAGGCGCCTGACGCCAACACCGCGGGCCTGGTCCGCCAGGGACTGAGGACGCTGATCAAGAAGGCGCATCCGGAAGCGCTGGCGTTACTTGGCTTCTCCCCCGCTTCGGTGACTGTCAGCGCACCGCGGCTTGACCGGCAGGTGGTGACCATGCCGGCCGAGCTGACTTTTGATTTTGAGGTGTCCAATACCGGCAGCACTGATGCCCGGCTGGCCGTGGACTATGTGGTGCACTACCTCAAGGCAAACGGCAGCCATTCGGCCAAGGTCTTCAAAATGACCTCACTGACCCTGGGCGCGGGAGAGACAAAAACCCTGTCAAAGCGGCACGCCTTCAAGCCCATGACCACCCGGGTGCACCATCCGGGAATGCACGCGCTGGAGCTGCAAATCAACGGAATACGCCATGCACGGGCCGAATTCGTCCTGGAAGCGGAACGCGTGATCCCATAA	MGVMNELINAQGVGSLAGILAEASAGKTWEHVAAAAAGLSPLSLRERTDHVSHALLEDLRQLADPAYPTAARTFRNALRRPAFTGWILWPVSEAAVTLALESGSDQDFDDCLALLAELTPRLTGEFAVRRLLARDQGRALRTILTWTSHPDEHVRRLASEGTRAYLPWAVRVPSLIRTPEATVPILDALYRDPSEYVRRSVANHLNDLARHAPSLVVSTAARWLEAPDANTAGLVRQGLRTLIKKAHPEALALLGFSPASVTVSAPRLDRQVVTMPAELTFDFEVSNTGSTDARLAVDYVVHYLKANGSHSAKVFKMTSLTLGAGETKTLSKRHAFKPMTTRVHHPGMHALELQINGIRHARAEFVLEAERVIP				NA	NA	NA	NA	NA
D1-29_03955	1125	chvE	COG4213	Multiple sugar-binding periplasmic receptor ChvE	GTGAGAATTAAGAAACTCCTGGGCGCGGTCGCCGTCGTCCTCGCAGTGACTGTGGGGGCCACTGGCTGCGGAACCCGTGGCGGGGAAGCAACCTCCACGGGCACTGCGAACCCCAGTGATTCCCTGGTTGGCATCTCCATGCCGACGCAGACATCGGAACGCTGGATCGCTGACGGCGCCAACGTCGAGAAGTCGCTGAAGGACCTGGGCTACAAGACAGACCTCCAGTTCGCCAACGATGACATCCCCACGCAGGTCTCCCAGATCGAGAACATGCTGACCAAGGGCGCCAAGGCCCTGATCATCGCCGCAATTGACGGCACCACCCTTACCGACGTCCTCGCCAAGGCGAAGGAATCCAACGTCAAGGTCATCGCTTACGACCGCCTGATCAACGGGACCGAGAATGTGGATTACTACACCACGTTCGACAACTACACCGTGGGCGTGCAGCAGGCCACATCCCTGCTGACCGGCCTTGGCCTGGTTGACGCCAGCGGCAAGAAGGTCGACGGCAAGGGCCCGTTCAACGTTGAGCTCTTTGCCGGCAGCCCGGATGACAACAACGCCAACTTCTTCTTCACCGGCGCCATGGACACCCTGAAGCCATACCTGGATGCCGGCACCCTGAAGGTCCCCAGCGGCCAGACCAGCTTCGAGCAGGCAGCCATCCTGCGCTGGCAGGCCCCGGTTGCGCAGAAGCGCATGGAAGACATCCTGACCGCGGCCTACAGCTCCGGCACCAAGCTTGATGGCGTGCTGTCCCCGTACGACGGACTCTCCATCGGCATCATCTCGGCACTGACCAGCACCGGTGGCTACGCCAAGGGAACCCTGCCGGTCGTCACCGGCCAGGACGCCGAAAAGGGCTCCGTGAAGTCCATCATCGCCGGCGAGCAGTACTCCACCATCTTCAAGGACACCCGCCAGCTGGGTGAACAGGCCGTGAAGATGGTCGACTCCGTGCTGAAGGGCCAGGAGCCTGAGGTCAACGACACCAAGACCTACAACAACAAGGTCAAGGTTGTTCCGGCCTACCTGCTCAAGTCCGTGATCATCACCAAGGACAACTACAAGAAGGAACTTATTGACTCGGGCTATTACACCGAGGCAGACGTAAAGTAA	MRIKKLLGAVAVVLAVTVGATGCGTRGGEATSTGTANPSDSLVGISMPTQTSERWIADGANVEKSLKDLGYKTDLQFANDDIPTQVSQIENMLTKGAKALIIAAIDGTTLTDVLAKAKESNVKVIAYDRLINGTENVDYYTTFDNYTVGVQQATSLLTGLGLVDASGKKVDGKGPFNVELFAGSPDDNNANFFFTGAMDTLKPYLDAGTLKVPSGQTSFEQAAILRWQAPVAQKRMEDILTAAYSSGTKLDGVLSPYDGLSIGIISALTSTGGYAKGTLPVVTGQDAEKGSVKSIIAGEQYSTIFKDTRQLGEQAVKMVDSVLKGQEPEVNDTKTYNNKVKVVPAYLLKSVIITKDNYKKELIDSGYYTEADVK	PGPT0015735_215	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
D1-29_03956	1530	xylG_2	COG1129	Xylose import ATP-binding protein XylG	ATGAATACACCCATTCTTCAAATGCGAGGAATCACCAAGACCTTTCCGGGCGTTAAGGCGCTGCAGGACGTCACCCTGGATGTTAACCGCGGCGAGGTACACGCCATCTGTGGTGAGAACGGGGCCGGGAAATCCACCCTCATGAAGGTCCTGTCCGGTGTCTATCCGCACAGCTCCTTCGAAGGGGACATCCTCTTCGAAAACGAACCCTGCAACTTCTCCACCATCAATGACAGCGAAAAGCGCGGCATTGTCATCATTCACCAGGAGCTCGCGCTGAGCCCCTACCTCTCCATCGCCGAGAACATCTACCTCGGCAATGAGCAGGCCAAAAATGGCTGGGTGGATTGGCGCAAGACCAATCTTGAGGCCGCAAAGCTGCTGGCCAGGGTGGGGCTGGCCGAAAATCCCATCACTCCTGTCCAGCACATCAGCGTGGGCAAGCAGCAGTTGGTTGAGATCGCCAAGGCCCTGTCCAAGGAAGTCAAGCTGCTGATCCTGGACGAGCCCACCGCGGCTCTCAATGATGAAGACTCCGGCCATCTCCTGGACCTGATCCTCCACCTCAAGGGCCAGGGAATCACCAGCATCATCATCAGCCACAAGCTCAACGAGATCCGTAAGGTGGCCGACGCCGTCACGATCATCCGTGACGGCAAGACCATTGAAACCCTCAGGCTGCATGAAGGCCAGATCACCCAGGAACGCATCATCCGCGGCATGGTGGGCCGCGACCTGGAAAGTCTCTATCCTGACCGCGACCCCAAGATCGGCGAGGAAGTCCTGCGGATTGAGGACTGGTCCGTCCAGCATCCCCAGGACCACACCCGCGTTGTAGTCCATAACGCAAGCCTCAATGTCCGCAAGGGCGAAGTGGTGGGGCTGGCAGGCCTGATGGGGGCAGGCCGGACGGAACTTGCCATGAGCGTTTTCGGACGCACGTACGGCCACGCCATCTCCGGGAAAGTGTTCAAGTATGGCAAGGAAATCGACACTTCCTCGGTCTCCAATGCCATCCGGCATGGCATCGCGTATGCCACCGAGGACCGCAAGCATTACGGTCTGAACCTTATCGAAGATATCCAGCGGAACGTCTCCCTGGCAGCCCTTCGCAAGCTGGTCAAGGGCGGCTGGGTAGACAAAAACCGGGAAACGGTGGTGGCCAACAGCTACCGCAAGAGCATGAACATCAAGGCTCCCTCCGTTGCCGCGATCACCGGCAAACTCTCCGGCGGAAACCAGCAAAAGGTGGTCCTGAGCAAATGGATGTTCTCCGACCCTGATGTGCTGATCCTTGATGAGCCAACCAGGGGTATCGACGTCGGCGCCAAGTTCGAGATCTACACGATCATCGCCAAGCTGGCAGCGGAAGGAAAGGCAGTCATCGTCATCTCATCCGAACTGCCCGAACTCCTTGGCATCTGTGACAGGATCTACACCTTGTCAGCGGGCCACGTCACCGGCGAGGTGCCCATCGCCGAAGCATCCCAGGAAACCCTCATGCACTACATGACCAAAGAGAAGGAATAG	MNTPILQMRGITKTFPGVKALQDVTLDVNRGEVHAICGENGAGKSTLMKVLSGVYPHSSFEGDILFENEPCNFSTINDSEKRGIVIIHQELALSPYLSIAENIYLGNEQAKNGWVDWRKTNLEAAKLLARVGLAENPITPVQHISVGKQQLVEIAKALSKEVKLLILDEPTAALNDEDSGHLLDLILHLKGQGITSIIISHKLNEIRKVADAVTIIRDGKTIETLRLHEGQITQERIIRGMVGRDLESLYPDRDPKIGEEVLRIEDWSVQHPQDHTRVVVHNASLNVRKGEVVGLAGLMGAGRTELAMSVFGRTYGHAISGKVFKYGKEIDTSSVSNAIRHGIAYATEDRKHYGLNLIEDIQRNVSLAALRKLVKGGWVDKNRETVVANSYRKSMNIKAPSVAAITGKLSGGNQQKVVLSKWMFSDPDVLILDEPTRGIDVGAKFEIYTIIAKLAAEGKAVIVISSELPELLGICDRIYTLSAGHVTGEVPIAEASQETLMHYMTKEKE	PGPT0016530_608	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
D1-29_03957	1311	xylH	COG4214	Xylose transport system permease protein XylH	ATGTCCGCCCTACGAGAATCCCTCGGGTTCCTGACAAGCCGCCTCCGGCAGGTCGGCATCTTTGTTGCCCTGATCCTGATCGTCCTGCTGTTCCAGGTGCTCACCGACGGAATCCTGCTGCAGCCGCAGAACGTCAGCAACCTTGTAGTCCAGAACAGCTACATCCTCATCCTCGCAATAGGAATGGTCATGGTGATCATCGCCGGCCATATCGACCTCTCGGTTGGGTCGATCGCCGGCTTCATCGGCGCCGTTGCCGGCGTCATGATGGTTCACTGGGGGTGGGCCTGGTGGCTGGCCATCCCTGCCTGCCTCCTGGTGGGAGCCCTGGTGGGAGCGTGGCAAGGCTACTGGATTGCGTACGTTGGCATCCCGGCGTTCATCGTCACCCTGGCCGGCATGCTGATCTTCCGCGGCCTCACATTGATCACGCTTAAGAACCAGCAGATCACCCCGTTCCCGTCCGAGCTTCGAGCGCTGGGCGGCGGCTTCCTGCCGGACATTTCCGGCGGCACCTCCGTCCTGGAGTGGCTGACCGTGATCCTGGGCGTGGGAGCCACCCTGGCACTGGTCATCCAGGCCCTCAAGGAACGCAGGATCCGAAAGAAGTTCGATCTCGAGAACGAACCGATGGCCTGGTTCGCCACCAAGACAACCTTCGTAGCCCTGCTCGTGCTGATCATCACGTTCCTCCTGGCGAGCTACCGGGGTACACCCATTGTTCTCATCGTGCTGGCTGTCCTGGTGATCGGCTACACGGCGTTGATGAACAACAGCGTCTTCGGCCGCCACGTCTACGCCATCGGCGGAAACCTGCACGCAGCCGAACTCTCCGGTGTGAAGACCAAGGCCGTCACCTTCCGGCTGTTCGTCAACATGGGCGTCCTGGCCGCCCTCGCCGGCCTGGTCTTCACTGCCCGCCTGAACTCCGCACAGCCTGCCGGCGGCACCGGCTTCGAACTGGACTCCATCGCCGCCGCCTTCATCGGCGGCGCGGCGGTTACGGGCGGCATCGGCACCGTGGCTGGAGCAATGATCGGTGGCCTGATCATGGGCGTGCTGAACAACGGCATGTCCATCCTCGGCCTGGGCACCGACTACCAGCAGCTCATTAAGGGGCTCGTCCTCCTGCTGGCCGTCGGTTTCGATATCTTCAACAAGAACCGCACAGGTGGCGGTGGAAGTACCATCGGCAAGAAGTTCAAGTTCAGGACTTCGCCGCCGGCCACCACCGAATCCAAGGCACCCGCGGCTACCCCCGCCCAGTCGCAGGACCGGCCTGTCCCGGTTCCCTCGGTGAAGCCGGAGTAA	MSALRESLGFLTSRLRQVGIFVALILIVLLFQVLTDGILLQPQNVSNLVVQNSYILILAIGMVMVIIAGHIDLSVGSIAGFIGAVAGVMMVHWGWAWWLAIPACLLVGALVGAWQGYWIAYVGIPAFIVTLAGMLIFRGLTLITLKNQQITPFPSELRALGGGFLPDISGGTSVLEWLTVILGVGATLALVIQALKERRIRKKFDLENEPMAWFATKTTFVALLVLIITFLLASYRGTPIVLIVLAVLVIGYTALMNNSVFGRHVYAIGGNLHAAELSGVKTKAVTFRLFVNMGVLAALAGLVFTARLNSAQPAGGTGFELDSIAAAFIGGAAVTGGIGTVAGAMIGGLIMGVLNNGMSILGLGTDYQQLIKGLVLLLAVGFDIFNKNRTGGGGSTIGKKFKFRTSPPATTESKAPAATPAQSQDRPVPVPSVKPE	PGPT0016525_39	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
D1-29_03958	210			hypothetical protein	ATGTCTACCCCCATAGACCGCATTGATATCGAAGTCGCCAGCCGGCACCTTTTGGACGACGAGCTCGACGCCGCCGTCAAACGCCTTCAGGAAGTGGCCCTCCTTGCCGGCACACACGGCATCCTCGTTACCCGGGTAGGACCGGGCCGCTACACCGCAACCCTGTCAGACCAGGTTCCGTTTGGAATGACCCGCGAACTGGTTTCCTAA	MSTPIDRIDIEVASRHLLDDELDAAVKRLQEVALLAGTHGILVTRVGPGRYTATLSDQVPFGMTRELVS				NA	NA	NA	NA	NA
D1-29_03959	216			hypothetical protein	GTGGACGAGCCCACCGAAGACTGGCATCAGCTCATTGGCAGCTGGGTGGAGTTGCGCTCTGGGGGGAGCGTCATCCGCACCGGCGAAGTTGAGACTGCCACGGCGGACTCGTCAGTCATGTGGCTGAAGTTCAACGGCAATCACGGACGGCAGATGGTGGCCAAGACGGACGGCTACGAAGTCCTGCCGATCCGCGAATCCGGCTTCGGGACGTAG	MDEPTEDWHQLIGSWVELRSGGSVIRTGEVETATADSSVMWLKFNGNHGRQMVAKTDGYEVLPIRESGFGT				NA	NA	NA	NA	NA
D1-29_03960	1812			hypothetical protein	GTGCTGCCTGCCGCCGTTTTGGTTGCCGCCGCTGCCCTGGCGGCGGCCGCTGTTCCAGCCGCAGCAGTTGCCCCGGCAGAGGCCGGAGCCAGCTCCCGCTACATCGTCAGGTACTCCGCGGACGCCGACCCGGCCGCCGAAGCAACAGCCCACAAGTCCCGGGGCATAGGGGTTAACAAGACGTTTTCGCACGCCTTCAAGGGCTCGGTGGTGACAGCAAATCCGGCACAGGCTGCGGCGCTGGCCCGTTCAGCCCGCGTCACGTCGGTGGAAGCGGACGCCCCTGTGAGCATCTCGGGAACACAGCAGCCCGCTCCTTGGGGCCTGGACAGGGTGGACCAGCGGCCGCTGCCCCTCTCCGGCTCCTACACCTGGACGGCATCCGGTGCGGGCGTCAGCGTCTACGTGGTGGACACCGGCGTCCTGGCCTCCCACGCCGAATTCTCGGGCCGGATCACAGCCGGCTGGACAGCCGTTGCTGACGGCCTCGGATCGGGTGACTGCAACGGCCACGGCACGCACGTGGCCGGCACGGTGGCCGGGTCCACCTACGGTGTAGCCAAGACCGCAACCGTGGTTCCAGTACGGGTCCTCGATTGCAACGGTTCAGGCTACAACTCCGACGTCGTGGCAGGGCTCGACTGGATCGCTGCCAACCACTCGGCCGGGACGCCCGCCGTCGTCAACATGAGCCTTGGGGGAGCAGCAAGCTCAGCGGTTGACGCCGCGCTCCAGGGCGTTATCAACGACGGTGTAACTGCAGTGGTTGCGGCGGGCAACTCCGCCGTTGATGCTTGCGGCAGTTCCCCGGCACGCCTCCCCGCTGCAGTGACCGTGGCGGCCAGCGATTCCGCTGACCGGCAGGCCTCCTTCTCCAACTTCGGCGCCTGCGTAGACCTCTATGCCCCGGGTGTAGGGATTGTCTCTGCCCACCACACGTCTGCCGCCGCAACTGCTTCCATGTCCGGCACCTCCATGGCCGCACCCCATGCCGCCGGTGCCGCCGCCGTGCTGCTGTCCCAGAATCCGGCATTCACCCCGTCGCAGGTCGCGGCAAGCATCGCCTCGAACGCTACCCCCGGCGCCATCACGGCGGCCGGACCCGGCACACCCAACCGGCTGCTTTTCACAGGAGCGGCTCCGGTCAGCACCCAGCCTCCGGTCGCGCTCGTGCCGCCTGTAGTCACGGCAATGTCACCGGCTCCCGCTACCACGTCGGTGGCTGTTGGCAGCAACGCAACAGCCGTTTTCGGCACCGCGGTTCAGGGGGTCGGGGCAGGAACTTTTGTGCTCAGGAACTCCGCCGGCACCATCATCCCTGCCACAGTCAGTTACAACGCCACCACCCGCACCGCCACCCTGGATCCAACATTGAGCCTGGCTGTTGACGCCACGTTCACCGCCACGCTGGTGGGTGGCGCCACTGCCATCCGCGACGCCGCCGGAACTCCGCTGGCCACCACCAGCTGGACGTTCGTGACCGGTCCGGCTCCAACGCTCACCGCCCTTACACCCCGGATCAACGACAGTCTGGTGCGAAGGAGCAACAACGTCACCGTGACGTTCAGCGAGGCAGTCCAGGGGGTGGGCTCAGCCACCTTCACGCTGAAGAACGCGGCAACGGGCGCAGTGGTCACGGCCGCCGTTGTGCGCAACGGCAACACTAACCAATGGATCCTGGATCCGCAGCAGGCTCTGGCCCCGAAGACCAAGTACACGGTGACCGTCTCCGGCGGACCGGCAGCGGTCCGCGACCTGGCCGGCAACCAGCTGGCCACCAGGACCTGGCAGTTCACCACCGGCTCGTTCTAG	MLPAAVLVAAAALAAAAVPAAAVAPAEAGASSRYIVRYSADADPAAEATAHKSRGIGVNKTFSHAFKGSVVTANPAQAAALARSARVTSVEADAPVSISGTQQPAPWGLDRVDQRPLPLSGSYTWTASGAGVSVYVVDTGVLASHAEFSGRITAGWTAVADGLGSGDCNGHGTHVAGTVAGSTYGVAKTATVVPVRVLDCNGSGYNSDVVAGLDWIAANHSAGTPAVVNMSLGGAASSAVDAALQGVINDGVTAVVAAGNSAVDACGSSPARLPAAVTVAASDSADRQASFSNFGACVDLYAPGVGIVSAHHTSAAATASMSGTSMAAPHAAGAAAVLLSQNPAFTPSQVAASIASNATPGAITAAGPGTPNRLLFTGAAPVSTQPPVALVPPVVTAMSPAPATTSVAVGSNATAVFGTAVQGVGAGTFVLRNSAGTIIPATVSYNATTRTATLDPTLSLAVDATFTATLVGGATAIRDAAGTPLATTSWTFVTGPAPTLTALTPRINDSLVRRSNNVTVTFSEAVQGVGSATFTLKNAATGAVVTAAVVRNGNTNQWILDPQQALAPKTKYTVTVSGGPAAVRDLAGNQLATRTWQFTTGSF				NA	NA	NA	NA	NA
D1-29_03961	696	dehH2		Haloacetate dehalogenase H-2	ATGGCATTCGAATTCGAAACCAAGCCGAAGTTCGTGACGTTCGACATGAACGGAACGCTGATCAAGTTCGCTATCAGCGACGCGCTGCGTCAGGTGCTGGGCGACCGGCTGCCGGCCGAGCTGGCCGAAGACTACCTGCAGGCCTGCAAGGCGTACCGCATCGACGAGTGCATGGGCGAATACAAGCCGTTCCGCGAGATCGTCGCCAACTCCATGGAACGCGCCTCACGCAGGCTTGGCATTGAGTACCGCGAGGCCGATGCACAGGCGGTTTACGAGATCGTCCCCACCTGGGGCCCGTACCCCGGTGTCACCGAGGCACTGAACCGCCTGGCTGAAGAAATCCCCCTGGTCATCATCACGAACAGCGAAACCGCTGATGCTGCCCGCCTTTCGGCCAACCTCAAGGCCCCCTTCGACGTCGTCATCAGCGCAGAGGAGATGGGCACCTACAAGCCGCGGCTCGGTGCATTTGAGTACATGTTCGACAAGCTTGGCGTGACACCGGACGAGATCGTGCACGTCTCTGCGAGCCCGATGTATGACCTGCGCTCAGCCGCTATCCTCGGCATCAAAAACAAGGTGTATGTGGACCGCGGCTTCGAGCAGGACGAGCACTGGCTCGGCTACGAGCGGATCACCGACATCGCCGACCTCCCCGTCCTCTTCGGCCTGCCGCGTCCCGCTGGCTCCTAA	MAFEFETKPKFVTFDMNGTLIKFAISDALRQVLGDRLPAELAEDYLQACKAYRIDECMGEYKPFREIVANSMERASRRLGIEYREADAQAVYEIVPTWGPYPGVTEALNRLAEEIPLVIITNSETADAARLSANLKAPFDVVISAEEMGTYKPRLGAFEYMFDKLGVTPDEIVHVSASPMYDLRSAAILGIKNKVYVDRGFEQDEHWLGYERITDIADLPVLFGLPRPAGS	PGPT0006885_1444	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
D1-29_03962	471			hypothetical protein	ATGAGCGTCACCAAGGCCGGTTCGGCTTCGGATCGTCTCCAGGCCCTTGGCCTGGAACTTCCCAGCCTTGCTGATAATCCGTACTACGTGGACCACCGCGCGGTGGATTCCAGCATCCACATCTCGGGCCAGCTGCCTTACAAGGACGGTGTGCTGCTGGGCCAGGGCGTTGTTGGCCGGGACGTAGACCTGGAGACAGCACGGGAGCTCGCCCGCCATTGCGCGCTGAACTGCCTGGCTGCCGCTGTACAGGCGGTAGGGGACCTGGACCGGGTCCGGATCGTGCAGATGCTGGTCTTCGTGGCCAGTGAGCCGGACTTCGGACTGCAGTCCCGGGTCGCCAACGCGGCCAGCGAATTGCTCATCGAAGTGTTGGGTGAGAACGGGCGCCACGCCCGTACAGCGATCGGTGTCGCAGGGTTACCGGCCAACACGCCGGTAGAGATCCAGATGATCTGCACGGCCGTTTAG	MSVTKAGSASDRLQALGLELPSLADNPYYVDHRAVDSSIHISGQLPYKDGVLLGQGVVGRDVDLETARELARHCALNCLAAAVQAVGDLDRVRIVQMLVFVASEPDFGLQSRVANAASELLIEVLGENGRHARTAIGVAGLPANTPVEIQMICTAV				NA	NA	NA	NA	NA
D1-29_03963	1104			D-threonine aldolase	GTGAACCGCATTCAACAAGCACTCGAGGCTCTCCTCGGGCGAGTTGACACCCCGGCACCGATCGTCCTGGCCGACGTCATGCAGGAGAACATCGACCGCATGCAGGCCTTCGCCGCCCGGCAGAACCTGGACGTTCGGCCGCACGTCAAGACGCACAAGTGTGTGGAAATAGGCCGGCGCCAGGTCAAGGCCGGGGCGGTCGGAATCACCGCGGGCAACGTGGGTGAGGCCGAAGTCTTCGCCGCGGCCGGGTTCGAGGACATCTTCCTCGCCTACCCCATCTGGCCTTCGGGAACGAAAGGGCCAAGGATCCGCAAACTGGCCGAAACCACCCGGCTGCGGGTCGGCGTCGACAACCTCGCGGCGGTCAACGCCCTCGCCGACGCGATGGGATCAGACCCTGACAGGCTGGAGATCGTGATTGAGATCGACTGCGGTGCCCGGCGTTCCGGCGCTCCTGCCGAGGCCGCGGGTGACCTCGCCCTTGCCGCCCGCAACCGCGGCCTGATCCCGGCCGGCGTCTTCACCTACCCCGGCCACGGCAGCGCCGGGCCGGACGCCCGCAAGCGCGCCGCCGAGGACCAGGACGCCGCCCTCGTCACAGCTGTCCGCAGCCTCACTGCGGCCGGGATCACTCCCGAAGTGGTCAGTGCCGGCTCCACACCCACCGTGGAATTCGCCACCAACAGCGTCATCACCGAAATCCGGCCCGGCGAATACGTGTTCAACGACCTGAACAACACCAGGCTCGGCGCCTGCACCGCGGATCAGATCGCGCTCTTCGTCGCCGGCACCGTGGTCAGCGACTGGGTCCCCGACCAGGTCATCCTCGACATCGGCACCAAAGCCCTCGGCCGCGAAGGCAACCCCGAAATCGGCTACGGCGCCATCGCCGGCACCAACGCCCTCCTGTCCAAACTCAACGAATACCACGGATTCCTCCCCCTGCCCGCCGGGTTCCGCCCCAGCGTCGGGACCGTGCTTCCGGTAGTGCCCAACCACGTCTGCCCCGTCGTTGTGAACTTCGAGGAATACATCGTTACCGACAGCACCGGGACCACGCTGGAACGCTGGCCGGTCGACGCCCGCGGATTCCTCAACTGA	MNRIQQALEALLGRVDTPAPIVLADVMQENIDRMQAFAARQNLDVRPHVKTHKCVEIGRRQVKAGAVGITAGNVGEAEVFAAAGFEDIFLAYPIWPSGTKGPRIRKLAETTRLRVGVDNLAAVNALADAMGSDPDRLEIVIEIDCGARRSGAPAEAAGDLALAARNRGLIPAGVFTYPGHGSAGPDARKRAAEDQDAALVTAVRSLTAAGITPEVVSAGSTPTVEFATNSVITEIRPGEYVFNDLNNTRLGACTADQIALFVAGTVVSDWVPDQVILDIGTKALGREGNPEIGYGAIAGTNALLSKLNEYHGFLPLPAGFRPSVGTVLPVVPNHVCPVVVNFEEYIVTDSTGTTLERWPVDARGFLN				NA	NA	NA	NA	NA
D1-29_03964	735	bacC_6		Dihydroanticapsin 7-dehydrogenase	ATGAGACTTGATAAGACCACGGCCCTGGTAACCGGCGCCAACAGCGGAATCGGGCAGGCAGTATGTTCCCATTTCCGGAACGAAGGCGCCCGGCTGCTGCTCACCGGCCGCAGGGAGCAGATCGACAGCGCCCAGCCCGATGACCTGTACGTCCCCGGAGACCTCAACGACGAGGCGTTCGTCGAAAGCCTGGCCCGGCAAGCCGCCGAGTCCTTCGGCACCGTGGACGTCGTCGTCCTCAACCACGGCCTGCAAGTCAGCGGCCCGCTGACGGAAATGGCCTACGAGGACGCGAAGAACGTGCTGCACAGCAACCTGCTCAGCTCCTTCCTGGTGATGAAGCACTTCGCGCCGCTGATGCCCGCCACGGGTGGGTCATTCGTCCTCGTCAGTTCACGGCTGGGCATGGTCGGCAAGCCCGATGAAGTCCTGTACTCCGCGGCCAAGGGCGGCCTGATCATGCTCGCCAAGGGCGCGGCGATCGAATGGGCCGCACGGAACATCCGGGTCAATATCGTCGCACCGGGGCTGACGGCGACCCCGATCATCGAAGCATCGTTCCAGCGCAGGGAGGACCCCGAGGCCTACCGCGCTCAGCGCGAAGGCCAGATCCCGCTCCAGCGACTGGCCACCCCCGAAGAGATCGCCGACGCCATCCTCTTCATGGCGTCCCCGGAATCGTCCTACATCACCGGGGCGGTCCTGCCCGTCGACGGCGGATACACCGCCGCCTAA	MRLDKTTALVTGANSGIGQAVCSHFRNEGARLLLTGRREQIDSAQPDDLYVPGDLNDEAFVESLARQAAESFGTVDVVVLNHGLQVSGPLTEMAYEDAKNVLHSNLLSSFLVMKHFAPLMPATGGSFVLVSSRLGMVGKPDEVLYSAAKGGLIMLAKGAAIEWAARNIRVNIVAPGLTATPIIEASFQRREDPEAYRAQREGQIPLQRLATPEEIADAILFMASPESSYITGAVLPVDGGYTAA				NA	NA	NA	NA	NA
D1-29_03965	1407			hypothetical protein	ATGACAGCCCTTGCGGCAACACCCCGAAACGGCGAACTCGGCTTCTGGATGGCCGGACTCTCGGACACCAGGCCCACCTATCCCCGCTTTACCGGTCAGGACTCTGTAGACCTGGCCATTATCGGCGGCGGCTACACCGGCCTGTGGGCCGCGTACTTCGCCAAGAAACTCGAACCCTCACTCAACGTCGCGGTCTTTGAGGCAGAACAGATCGGCTACGGCGCCTCCGGACGCAACGGCGGCTGGCTCTCGGCAATGCCCCCGGGAAACCGCGCCACCTTCGCCCGCGCATCCGGCGGCGGGATCGACGCCAGCATTGCACTGCAGCAGGAGTTTGTCGCCGGCGTCGATTCCGTCCTGGATATTCTCCAGGCCGAGGGCATCGACGCGGATCAGAACAAGGGCGGCGCGCTCGTGGCTGCCCACACCAGGGCCGGGCTGGGCCGGCTGGTGAGCAGGCGTGACACCGACTGGAAGTACGGGCTGACCGAAGACGATGTCCATCTGCTCAACCGGAACGAATTCCAAAGCCAGATCAACATCTCCACCGTCCACGGCGGACTCTTCTACAAGAACTGCGCGCGGATAAATCCGGCCAAACTCGTCTACGGTCTCGCCGAAACCCTGACCTCCATGGGGGTGAGCATCTACGAAGGCAGCCGGGTAGGCAGCGTCGAGAACAAGACCCTCACTGTGAACAACGGACGGGTGACCGCGGCCAAGACGTTCATCTGCACCGAAGGGTATTCCGGAGAACTGCTGGGCAGCAGGACCCTGATCCCGATCAATTCCTCGATGATCGTGACCAAACCGCTCTCGGAGGAGGCGTGGGAGCAGATCGGCTGGAACGGGCCGCAGTGCCTTAACGACTCCGCGCACACCTTCATCTATTCGCAGCGAACAGCGGACGGCCGGATCGCCATCGGCGGCCGCGGAGCGCCGTACCGCTACGGCTCAGGCACCGGAGGCGCCGGTTCAACACCACAATCCACCATTGACCTGATCTCCACCAAGCTGCGCTCCTTCTTCCCCGGGATCCCCTTCGAAGTGGACCACGCCTGGTCCGGAGTCCTCGGGGTGACCCGTGACTGGAACGGCGGCGTGCACTGGGACCAGGCATCCGGAATCGGATCCTCCACCGGCTACGCGGGACACGGCGTCACGGCAGCCTACGTTGGCGGCAGGACCCTCGCGGAGCTCGCCTTCGAGAAGGAAACAGAACGCACCACGCTTCCCTGGGTCGGCTATCGGGCACGGAAGTGGGAACCCGAACCCCTCCGCTGGCTCGGTGTTCACGGCATGTACCGGCTCTTCGGACTTGCCGACCAGTGGGAAGAACGCCGGGACTCCACCAAGACCTCACTGCTGGCCAAATTCGGCAGCAGGCTCGCCGGACTTCACGAATAA	MTALAATPRNGELGFWMAGLSDTRPTYPRFTGQDSVDLAIIGGGYTGLWAAYFAKKLEPSLNVAVFEAEQIGYGASGRNGGWLSAMPPGNRATFARASGGGIDASIALQQEFVAGVDSVLDILQAEGIDADQNKGGALVAAHTRAGLGRLVSRRDTDWKYGLTEDDVHLLNRNEFQSQINISTVHGGLFYKNCARINPAKLVYGLAETLTSMGVSIYEGSRVGSVENKTLTVNNGRVTAAKTFICTEGYSGELLGSRTLIPINSSMIVTKPLSEEAWEQIGWNGPQCLNDSAHTFIYSQRTADGRIAIGGRGAPYRYGSGTGGAGSTPQSTIDLISTKLRSFFPGIPFEVDHAWSGVLGVTRDWNGGVHWDQASGIGSSTGYAGHGVTAAYVGGRTLAELAFEKETERTTLPWVGYRARKWEPEPLRWLGVHGMYRLFGLADQWEERRDSTKTSLLAKFGSRLAGLHE				NA	NA	NA	NA	NA
D1-29_03966	930			hypothetical protein	ATGAAGACCATAAATAAGATCCAGACGGCGGCCGCCGGGCTCGCTGTTGTGTTGGCCCTGTCCGCTTGTGGCGGCGCGGCATCATCGAATGCCCCGGCGGCGGAACTTTCGAAGACGCAGAATACCCGGGATGTTTCCGAGGGGGTTCAGCCGGACGCTGCGGCGGTGGCGTTGTTGCCTGAGTCGTTTAAGTCCAAGGGTGAGATCACGGTGGCGATGGATCTGAGTTCCCCGCCGATGACGTTCCTCGCCGAGGATAACTCCACCCCGATCGGGCTGAACCCGGACCTGGCCCGGCTCGTGGCGAAGAAACTGGGGCTGAAGCTGAAGTTCGAAAACACCGCGTTTGACACGATCATTCCCGGGATCGACGGCGGCCGGTACGACTTCACCGCCACCACGATGTCCGCCACCGAAGAACGGCTCAAGGTCCTGGACATGATCAACTACCTCAAGGGCGGCTCGGCCGTATCGGTACCCAAAGGCAACCCGAACAACCTGACCAACGACATCCTGTGCGGGAAAAACATCGGCGTGACCAAGGGCTCCACCCAGCAGCTCAAGCACCTGCCCAACGTCTCGAAGTGGACCTGCGAGGAAAAGGGCCAGCCCGCCATCAACGCCATCACCCTGCCCAACGTCCAGGAAGCCCTGACCCAGCTGGACTCCAAACGGATCGACGGTGTCTTCTACGACGCCAGTGCCCTGGCCTGGGCCAACGAACAGCAGCCGGACCACTTCCACATTCTGGAACCGCGGATTGATACCCGCACCAACACCAACGTCGCCATGGGCGTCAAGAAGGGCTCAGCGCTGACCCCGGCGCTGCAGGCAGCCATCCAGTCCGTCCTGGAAACCCCTGAATACAAGGAATCCCTGGAGTACTGGGGCCTGGGCGAATCAGCCATCACCGAAGCCGCAATCCGCTAA	MKTINKIQTAAAGLAVVLALSACGGAASSNAPAAELSKTQNTRDVSEGVQPDAAAVALLPESFKSKGEITVAMDLSSPPMTFLAEDNSTPIGLNPDLARLVAKKLGLKLKFENTAFDTIIPGIDGGRYDFTATTMSATEERLKVLDMINYLKGGSAVSVPKGNPNNLTNDILCGKNIGVTKGSTQQLKHLPNVSKWTCEEKGQPAINAITLPNVQEALTQLDSKRIDGVFYDASALAWANEQQPDHFHILEPRIDTRTNTNVAMGVKKGSALTPALQAAIQSVLETPEYKESLEYWGLGESAITEAAIR	PGPT0020800_2395	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
D1-29_03967	1131	soxA_6		Monomeric sarcosine oxidase	ATGGACGGAAAACTCGCCGTCATCGGCCTGGGCAGCATCGGCTCCATGGCCCTCTGGCAAGCCAGCCAACTCACCGATTCCATCACGGGTTTCGAAGCCCACACCCCCGCCCACGGCCGCAGCGCCGTGGGCGGGGACACCCGGCTCTTCCGCATGATCTACCGCGGCAACCCCCACCTCTACCCCATTCTGGAACGCTCACGGGACCTCTGGGCCGAACTCGAAGCCGAAACCGGCCAGAACATCCTCACCCGCTGCGGTGGGCTCTCCATCGGCACCAAAAACGGCCCCTACCTCACAGCCCTCCTCGAAACCATCAAACAAACCGGGGCCGAGCACGAAATCCTCAGCCACGAACAGATGGCCCAACGCTACCCGCAGCACAACCTCCGCCCCGACGACATCGGAGTCTACGACCCCCACGCCGGCGCCCTGCGCACGGACCGCGCCGTCACAGCCGCCATCACCGCCGCCCAAACCAACGGCGCAACCATCCGCAGCAACACCCCGATCAACAACATCACCGAAACCCCCCACGGGGTCCTCATCACCTCCGGCGAGAAATCCTGGACCTTCGAAAACGTCATCATCGCCTCCGGCGGCTGGTCCCAACTCCTCATGCCCGACTACCTGAAGGCGGCCACAGTAGCCAAACGGCTCTTCCTGACCTGGTTCGTGGCCAGGGACGGGGCCGAATTCACCCCTGACAAATTCCCCACCTTCAGCCGGGTACACGAGGGCCGTTCCATGTATGGCGCACCGGCGGTTGACGGGGTCACCGTCAAGGCAACCCTGGACGGCCGCGGCGGACCAACACCGGACCCGGGCGCCTTGCCCAGGGAACTGACTCCCGCGGAAATAGCCGAGACAACCGAAACCGTCACCGACTTCCTCCCCGGCCTCATCCCCAACATCGTCCGCTCCGACACCTTCCCAGACCTCTACACCAAGGACGGCAACCCGCTGGTCGGCCGGTTCAGCGACGGAAGCAGGATCTACTGCGCCACAGGCTTCTCCGGCGGCGGCTTCAAAAACGCCACCGGCTACGGCCAAATCGCCGCACACGAAGCCCTCGGCAAACGCACCTTCGACGGCTTGGACTTCGTCCGGCCCCAACGATTTCAGACCTAG	MDGKLAVIGLGSIGSMALWQASQLTDSITGFEAHTPAHGRSAVGGDTRLFRMIYRGNPHLYPILERSRDLWAELEAETGQNILTRCGGLSIGTKNGPYLTALLETIKQTGAEHEILSHEQMAQRYPQHNLRPDDIGVYDPHAGALRTDRAVTAAITAAQTNGATIRSNTPINNITETPHGVLITSGEKSWTFENVIIASGGWSQLLMPDYLKAATVAKRLFLTWFVARDGAEFTPDKFPTFSRVHEGRSMYGAPAVDGVTVKATLDGRGGPTPDPGALPRELTPAEIAETTETVTDFLPGLIPNIVRSDTFPDLYTKDGNPLVGRFSDGSRIYCATGFSGGGFKNATGYGQIAAHEALGKRTFDGLDFVRPQRFQT	PGPT0013530_435	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013530-soxA|solA-K00301	NA	NA
D1-29_03968	684	gntR_5		putative D-xylose utilization operon transcriptional repressor	ATGGCAGCACCGGAAGGACTCCTTGCACTGGAGGGAAGGCCCACGGCGCAGCTGATCGCCGATCAGCTGCGCGAACAAATCGTTCAGGGTGCCTTCCGTCCCGGAGAGCAGATCAATGAATCTGTCCTGGCAAGCCAGCTGGACACTTCCAGGGGCTCTGTCCGCGAGGCATTGCAGCGGCTGTGCCAGGAGGGAATCCTGGTCAGGCGCCACAACAGGGGCGTCTTCCTCCTTGAGCTAACTTCCCATGACATCAGCGAGATCTACGCAGCCCGCCAGGCGGTGGAATCAACTGCCGCGGCCGTCCTGGTCGATGCCGGCCAGGACCAGGTCAAGGACACCTGCCAGGCCCTGAAAGCCATCATCAGTGAAATGGCCAAGCAGGCGGCCGTCTCGGACTGGCAGGCAATTGCCCGGCTCGATATCGATTTCCACACCACCTTCGTGGCCGGGGCGGGCAACACACGCCTGATCCGGATCTACGAAACCCTCGCAGCCGAATCCAGGATGTGCATTCTCAACCTGGCCGCCGCCTACCCACGCATGGACGTCCTGGTCCAGGAACACCAGACCCTGCTGGATCTGCTCGAGGCCGGAGACAAGGAAGGACTCAACAAAGCCATCAAACACCACCTGGAAACGGCCGTCGAGGACCTCACCACACCTGAGCGGGAGAAGCCATGA	MAAPEGLLALEGRPTAQLIADQLREQIVQGAFRPGEQINESVLASQLDTSRGSVREALQRLCQEGILVRRHNRGVFLLELTSHDISEIYAARQAVESTAAAVLVDAGQDQVKDTCQALKAIISEMAKQAAVSDWQAIARLDIDFHTTFVAGAGNTRLIRIYETLAAESRMCILNLAAAYPRMDVLVQEHQTLLDLLEAGDKEGLNKAIKHHLETAVEDLTTPEREKP				NA	NA	NA	NA	NA
D1-29_03969	663			hypothetical protein	ATGGACGGCAAATTCGCATGGCAGGAACAGAGGACAACGACACCGGACGGCGTCTACCGCGTGCTGCGCACAGCAATCCTGGATGGCACCGTGGCTCCAGGGGAACAGCTGCGCGAGACGCACATTGCTGCCGACCTTGGGATCAGCCGGTCCCCGCTGCGGGAGGCGCTGACCAAGCTTGAAGAAGAGGGGCTGGTGGTGAAGATCCCCTTCAAGGGATCCTTCGTTGTGGAGGTAAGTGCCCGCGACGTCGCCGAGATCGCCTCAATCCGCATGCTTGTGGAGCCTTATGCCGCTGAGCTCTCTGCCCCAACGTTGCGCGGTCCTGAGCGGCTTCGGTTGAAGCAGACCATCGAGGAACTGTACCGGGCCACGGACACGAACGATATCCCGGCAAGCGTTGACGCCCACCTTCGCTTCCACAGGCTCTTCTACGAACTTTCGGGCAACACTGCCCTGCAAAGTCTGTGGAACGGCTGGGAGAACAAGCTGCGTCTCTACTTCGCGGCAGATCATCCGACCTACAGCAACCTCCATGAAATCGCCGTCGAGCACGAGCGACTGGCTGAACTTGCCTTAAGCGGTGACATCGAATCGTTCCGTCAGGAGATGGCAAGCCAGTTCCACAATGCGCTCAGCGGCGAAAGCCAAAACGAATCCTAG	MDGKFAWQEQRTTTPDGVYRVLRTAILDGTVAPGEQLRETHIAADLGISRSPLREALTKLEEEGLVVKIPFKGSFVVEVSARDVAEIASIRMLVEPYAAELSAPTLRGPERLRLKQTIEELYRATDTNDIPASVDAHLRFHRLFYELSGNTALQSLWNGWENKLRLYFAADHPTYSNLHEIAVEHERLAELALSGDIESFRQEMASQFHNALSGESQNES				NA	NA	NA	NA	NA
D1-29_03970	873	hldD_2		ADP-L-glycero-D-manno-heptose-6-epimerase	ATGAAGATTGCCGTAACCGGTGGCAGCGGAAAGCTGGGACGCCACGTCATCCGCCGGCTGACCGGGGACGGCCACACGGTGCTGAACCTGGACCGGGCAGGGGAGCGCAGCGCTCAGCTTGCCATCGTGGACCTGCGCAACTACGGCCAGGTTCTTGATGTGCTCCTGGGCCTTGATGACAGGCACAGCGGTTTTGACGCCGTGGTGCACCTGGGGGCAGTCCCGGCGCCCGGGATCATTCCGGACGCCGCCACCTTCGAGAACAACATGCTGTCCACCTACAACGTGTTCCAGGCGGCCCGCCGGGCCGGCATCAAAAAAGTGGTGTACGCCTCCAGCGAGACGGTGCTGGGGCTGCCCTTCGACGTCGACCCTCCCTACATTCCTGTGGATGAGGAGTACCCGGCCCGGCCGGAGAGCACCTATTCGCTGGTCAAACACCTGGAAGAGCAGATGGCCGCGGAACTCACACGCTGGGATCCTGAACTGAGCATCGTGGGGCTGCGGTTCTCAAATGTGATGGACGTGGAGGACTACGAAGCGTTTCCAACGTTCGATTCCGATCCCCGGCTGCGCAAATGGAACCTGTGGGGCTACATCGATGGCCGCGACGGTGCACAGGCAGTGGCGCGGGCCCTGGAAAATGGCCAGCCCGGTTTCGAGGCCTTCATCATCGCCAACGCGGACACCGTCATGAGCCGTTCCAGCGCCGGCCTCGCCGCGGAGGTCTTCCCCGACGTCAAGGTGACCAAGGATTTGGGCGAGCACGAAACCTTGCTGTCCATTGGCAAGGCCCGGCGGTTGCTCGGATTTGAACCCGAACACTCCTGGCGTACCTACCACTCCAACCGGACGACACCCACCGAAGACTGA	MKIAVTGGSGKLGRHVIRRLTGDGHTVLNLDRAGERSAQLAIVDLRNYGQVLDVLLGLDDRHSGFDAVVHLGAVPAPGIIPDAATFENNMLSTYNVFQAARRAGIKKVVYASSETVLGLPFDVDPPYIPVDEEYPARPESTYSLVKHLEEQMAAELTRWDPELSIVGLRFSNVMDVEDYEAFPTFDSDPRLRKWNLWGYIDGRDGAQAVARALENGQPGFEAFIIANADTVMSRSSAGLAAEVFPDVKVTKDLGEHETLLSIGKARRLLGFEPEHSWRTYHSNRTTPTED				NA	NA	NA	NA	NA
D1-29_03971	579	adk_3	COG0563	Adenylate kinase	ATGACCAGACTGCTCATTATTGGTCCGCCCGGCTCCGGCAAAGGCACGCAGGCCGAGCACATCGCACGGCATTTCAACATCCCGGCAGTATCAACGGGGGAGATCTTCCGGACCAACGTCAGCCAGGAGACCCCTCTCGGCAGGGAGGCCGCCAGGTACCTGGACGGCGGGGACTTCGTGCCGGACCACCTCACCAACGCCCTGGTCAAAGAGCGGCTCCGCGACTCCGACGTGGGCCCAGGCTTCCTGCTTGACGGCTATCCGCGCACCGCGCCGCAGGTTTCGGAGCTGGACAATATGCTGGCATCCCTGGGGCAACGCCTTGACGCCGTCATCGAACTCCTGGCGCCCGATGCCGAGCTGGAACAGCGGATGCTGCAGCGGGCGAAGGACCAGGGACGCAAGGACGATACCGTGGAGGTGTTCCGGCGGCGGCTGGACCTCTACCACCGCGAAACGCATGAGGTAGTCTCTGTTTACGCGGGCCGGGGGCTGGTGGTGTGCATTGACGGCAGCGGCGAACCAAGCGAGATCACCAAAAGAGCGATTGCCGCCGTCGAAAAGTTCCTCACCACGTAG	MTRLLIIGPPGSGKGTQAEHIARHFNIPAVSTGEIFRTNVSQETPLGREAARYLDGGDFVPDHLTNALVKERLRDSDVGPGFLLDGYPRTAPQVSELDNMLASLGQRLDAVIELLAPDAELEQRMLQRAKDQGRKDDTVEVFRRRLDLYHRETHEVVSVYAGRGLVVCIDGSGEPSEITKRAIAAVEKFLTT	PGPT0009040_6552	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939	NA	NA
D1-29_03972	759			hypothetical protein	ATGGCACCAAGAATCGTGGCCAGCGAGTCAACAGCTAAAACTGATACATCCATCACCGAGCACCTGCATGAACTGGTCCTCAACAGCTCCGACGTTGAGGACTTCCTTAATGAGCTCGCGCGCGTATCCGCGCGTAATCTTTCCGAGCCAGACGACGAGGTACTCTGCAGCATTACCCTTTTGCGTCGTCGCAAGGCGGCCACCATCGCCAGCAGCGGCCCGGAGGCGCAGGCCATCGGCCAGGTGGAGTACCAGTTCAGTGACAGTCCCAGCATGGCCGCCTCGGTGGAACAGGTGACAGTCCATCTGCCTGATGTTGAGGATGACGGCAGGTGGCCGGAGTATTCCGCGGCTGTCCTGGCCCAGGGTGTCCGCTCAGTCCTGGCCCTTCCCTTCCAGCTGGAGGGGGAAACCAAAGCCGCCCTCCTGCTTTACTCCCAGCGGTCCTTCCGTTTCACCGGGCGGATCCTTGAATTCGCCGAGGACTTCGTCAGCCAGACCTCCCTGGCGCTGCGGCTGGCCGTCCGGTTTGCGCATTACAGCGAGTCGGCGGCGAACCTGCGGGCCACGCTTGAGTCCCGGACCGTGATCGACATGGCTGTGGGCATCATCATGGCCCAGAACCGGTGCAGCCAGGACGAAGCGTTTGGGATCCTCAAGACGGCGTCCAGTACCCGCAACTCCAAACTCCATGACGTGGCGGCAGCGGTGGTCAACGCGCTGGGCCAGGGACCGGCGCGGACCCACTACGACGGGTAG	MAPRIVASESTAKTDTSITEHLHELVLNSSDVEDFLNELARVSARNLSEPDDEVLCSITLLRRRKAATIASSGPEAQAIGQVEYQFSDSPSMAASVEQVTVHLPDVEDDGRWPEYSAAVLAQGVRSVLALPFQLEGETKAALLLYSQRSFRFTGRILEFAEDFVSQTSLALRLAVRFAHYSESAANLRATLESRTVIDMAVGIIMAQNRCSQDEAFGILKTASSTRNSKLHDVAAAVVNALGQGPARTHYDG				NA	NA	NA	NA	NA
D1-29_03973	594			hypothetical protein	ATGGCGGAGACGACGGTGCGGCTGGCCACGGTAGGCCATGGAACCTCCAGCGAAGAGGATTTCGGAAAACTGCTGACAGCTGCAGGGATCAACTTGCTGGTTGACGTCCGCATAGCCCCAGGAAGCCGGAAATTTCCGCACTTTGGTAAGGACCTGCTGGCGCAATGGCTGCCAGCCCGTGAGATCGGGTACCGCTGGGAAAAGCGGTTGGGCGGCTTCCGGAAGCTTCCGCCGGATTCGCCGGATACCGCCCTGCGCAATGATTCATTCCGTGCCTATGCGGCCTACATGCGGTCTCCGGATTTCTCCCAGGCCCTCAGCGAACTGATCGCTGAGGCTTCTGGCCGGCCGGCAGCGATCATGTGCAGCGAGACGCTCTGGTGGCGCTGCCATCGCCGGCTCATCGCCGACCATGCCCTGTTGGTGGAGGGAGTGGATGTCCGGCACCTGATGCCCGGCGGAAAGCTGGTTCCGCACCAGCCGACGTCGGGGGTCCGGGTTCACCGCAACGAGCTGTATTACGATCTGTTCCCCGGATCCCGAGTAAAGTCCGTCACTCGCCGAGGTCGTGGGACAGCGTCCAGTTCGCGGTAA	MAETTVRLATVGHGTSSEEDFGKLLTAAGINLLVDVRIAPGSRKFPHFGKDLLAQWLPAREIGYRWEKRLGGFRKLPPDSPDTALRNDSFRAYAAYMRSPDFSQALSELIAEASGRPAAIMCSETLWWRCHRRLIADHALLVEGVDVRHLMPGGKLVPHQPTSGVRVHRNELYYDLFPGSRVKSVTRRGRGTASSSR				NA	NA	NA	NA	NA
D1-29_03974	108			hypothetical protein	ATGGTTGCCGTCACGCAGCCCATAATGGTGACCCCCACGGTCCAGGTCTTGAGCATGACCAGCGATGTCCTGGATCCCCGCGCCAAATACGGCCTGTGGTCGGCCTAA	MVAVTQPIMVTPTVQVLSMTSDVLDPRAKYGLWSA				NA	NA	NA	NA	NA
D1-29_03975	1044	auaG_2		Aurachin C monooxygenase/isomerase	GTGCGAAACGAAGCGGTCATCATCGGTGCGGGAATAGCCGGTCTGAGCACGGCCCGGGCCCTGGCACGCCACGGCTGGTCAGTCACGGTGCTCGAGCAGGCTTCCTCCCTGCCGCGCACCGGCACCATGCTGGGGATGTGGCCGCAGGCAGTCAGCGCGCTTGACGCCATCGGAGCCGGTGAAGCCGCACGCAGCAGCGGCGGCTGGACCCATATTTCCGGCGGTGCCGGCACCCGGCTGTGGACGCCCGAGGGGCGGACTCTGGTGTCCGCCCCCGGCGGTGCAGACCTCAACCTGGTCTCCCGGCCCGCACTCCTGGCCGCGCTGGCCCGGAACGTGGACATCAGCTTCAATACCCGGGTGGATGAACAGGACCTGTTCAAGGGTGCCCGCCTGGTTGTCGGCGCGGATGGCACCTTCAGCCGCAGCCGGCACCGGATGTTCGGCGATCGCTTCAGCGCCCGTCCGCTGGGAGCGGTCGCCTGGCGGGGCACAGTTCCTGGAAGCGTCCGGGAACACGGCGAGATTTGGGCGCCTGGCGCCCTGTTCGGCATCACACCGGCAGGTCCGGATGCCACCAACTGGTACGCCTGCATGAACGCGGACAGTACGTTCGATGGGCCGCACCTGCCGCACCTCAACGAACGTTTTGGATCCTGGCATTTCAGCGTCCGGGACGTGATGGACAGGATCGAGGAAGACGGCATTTTGCATCACGGACTCTTCGAAACGCCCAAGCTGCCTTCGTTCACCAAGGGGAACACGGCTCTGGTGGGCGACGCTGCCCACGCCATGGCCCCCTTCCTTGGCCGCGGTGCGTGCGAAAGCATTGTGGACGGCGCCGCGCTCGGGCGGGCCGTAGCGAAGGCCTCCACGCTCGACGCCGGCCTGGCCGCCTACGACAGGGAGCGGCGCGCGCGGTCGCAGCGGCTGGTGCGTTCCTCACGCCTGATGGGAAAATTCGCCATGATGCGTACTGGGGCTCAGGCCCGAAACGCTGCCATCGGTACGATCGGGAAGCTGCTGAAGCCGCTTATTTCCTGA	MRNEAVIIGAGIAGLSTARALARHGWSVTVLEQASSLPRTGTMLGMWPQAVSALDAIGAGEAARSSGGWTHISGGAGTRLWTPEGRTLVSAPGGADLNLVSRPALLAALARNVDISFNTRVDEQDLFKGARLVVGADGTFSRSRHRMFGDRFSARPLGAVAWRGTVPGSVREHGEIWAPGALFGITPAGPDATNWYACMNADSTFDGPHLPHLNERFGSWHFSVRDVMDRIEEDGILHHGLFETPKLPSFTKGNTALVGDAAHAMAPFLGRGACESIVDGAALGRAVAKASTLDAGLAAYDRERRARSQRLVRSSRLMGKFAMMRTGAQARNAAIGTIGKLLKPLIS				NA	NA	NA	NA	NA
D1-29_03976	321			hypothetical protein	ATGCCTCTGTCCGACGACGAGCGCAGGCGCCTCGAAGCGCTTGAGGAACAGCTGAGCGAAGACGATCCGCGCCTGGCGCGCAACCTGGGAGACGCGCGCCCGGACCGCAAAACCCAACGCCGGAAAAGCTTCGCCGTTCTGGCGATACTGGCCGGCCTCGCGCTTGTCATCACAGGGATCGCCATGCAGATGCCCGTCATCGGGGCAGCGGGTTTTGCCCTCCAATGCGCAGGAGCGTACTGGTTTTCGGCCACGCTGGGCCTGTTTGACGGGTACAGCAGTTTGCATTTCGGGGCCAGGAATGGCAAAGGGGCCACCTGA	MPLSDDERRRLEALEEQLSEDDPRLARNLGDARPDRKTQRRKSFAVLAILAGLALVITGIAMQMPVIGAAGFALQCAGAYWFSATLGLFDGYSSLHFGARNGKGAT				NA	NA	NA	NA	NA
D1-29_03977	609			hypothetical protein	ATGGGGAACAGAGGAGACAGCGAAGAGGGGTTGTGGCACCAGAGCCTTCTGGGCCAGGGCGATGCCTTTGGCGCCCTGTATGACCGGCATCGGGACAGGGTCTTCCGGCACGCTTACCGGCTCTGCGGGAACCACCACGACGCTGAAGACATCATGGCTGCCTCCTTCCTTGAGCTCTGGCGGCGGCGAAAGCAGGTCCGGGTCGTGGACGGGTCCATCCTTCCGTGGCTGCTGGTGACAGCCACGAACATGGCACGCAACAGCACCCGCGCGGTACGGCGCTACCAACGCCTGCTGAACGCCCTTCCCCGAACCGAGGACCTGAGCGACCCAACAGCAGATTCTTACCGCTCTTACCAGGACGCTCTTGACCAGGACCTTGCACGGGCTCTGGCCACACTAACTGCCGAGGACCTGCACCTGGTCACCCTGGTGGTGTTCGAGGAGCACACCATCGTTGCTGCCGCCGCTGTCCTGAATCTGACGCCTGCCGCTGCGAAGTCACGGATCCACCGGGCCCGTCAGCGGCTCAGAGCCGCCCTTGAACCTGGTACATCAACCAACCCGACCACCGCTCCAACCCCGGTGTTGGAAGGAGGACGGCCATGA	MGNRGDSEEGLWHQSLLGQGDAFGALYDRHRDRVFRHAYRLCGNHHDAEDIMAASFLELWRRRKQVRVVDGSILPWLLVTATNMARNSTRAVRRYQRLLNALPRTEDLSDPTADSYRSYQDALDQDLARALATLTAEDLHLVTLVVFEEHTIVAAAAVLNLTPAAAKSRIHRARQRLRAALEPGTSTNPTTAPTPVLEGGRP				NA	NA	NA	NA	NA
D1-29_03978	801			hypothetical protein	ATGAATCAGCTCCACGTCGATGATCGCTTCAGTGATGCCCTCCGGGCAGAACTGGTCTCCCAGGTCAAGAAGGAACAACCAGCCGCGAAGCGGAGCCGCACCAGGGTGTGGCTTGGTGCCGGCGCATTGGCCGGGGCGGGACTCCTTGGCGTTGGAGCGGCGGCGGCAGGGCTCTTCCTCATCCCGGGAGGCGAAAAGGTGTCACCCTTGGCCTCGCCTGTGACCACCACCTATGCCGGCACAGCCACCGTTGAGCTGGGTACTCCTCCCGAGGGAACCACGGGGATTCAAATGGAACTTAGGTGCCTGACCCCTGGCTGGTTTGAGTTTCCCGACGGTGCCTCTAGCAGCTGCTCGGAGGAGGATGCTGCCAGCGACACACTGGGCTGGAGCGGCTACACCATCCCCCTCGCGCCCGGCCAGGACAGTGTCACGATCAAGGCCGGCCCGGAGGCCCGCTGGCAGCTTACCGCCGAGTATGTAAAGCAGGAACGGACCCCTCTGGGTGTCAACGCCAAGGGTGAAACCTACGGCGTCGAAAGCCAGGAGAACGGAACCCCCGACCTGATCGCTGTGATGGCCACCAACGGGCAATCCGGGTACGCATACGCCAGTGACCTGTACGGCGGCCCCATGCCCACCAGCCCGGAAGACGCCGTGAAGAACTTCAGCACCCCGCGCCCTCACCGCGAGGTCCCTGTCTTTTTGAGCGATGGTGAAACCCCCGTCGGCGTCTTCATGGCCGCCGGCTCTGGCGGAGGGATACCCTCCTATCCAACGCGAAGTGCCCCGCCAGGGTGA	MNQLHVDDRFSDALRAELVSQVKKEQPAAKRSRTRVWLGAGALAGAGLLGVGAAAAGLFLIPGGEKVSPLASPVTTTYAGTATVELGTPPEGTTGIQMELRCLTPGWFEFPDGASSSCSEEDAASDTLGWSGYTIPLAPGQDSVTIKAGPEARWQLTAEYVKQERTPLGVNAKGETYGVESQENGTPDLIAVMATNGQSGYAYASDLYGGPMPTSPEDAVKNFSTPRPHREVPVFLSDGETPVGVFMAAGSGGGIPSYPTRSAPPG				NA	NA	NA	NA	NA
D1-29_03979	534			hypothetical protein	ATGAAACGCATGAGGTTGTGGCGATGCCTGATTCCATCCCTACTTCTCATCCTGCTGACATCGTGCGACGGCGGGGTGACGGGCGGACCGGGAACTGCAAAACCCAAGGCCAACGCCACCAGCACAATCCCTGGTTCCACCAGTAGCCCCGTTGCAGGCGGCGGTACCGTAGCGTGCGTTGACTGGGTCTGGTTCGAAACCCCTCAGAACCAATACGACAATGCCGCCGTAGCGCTCATCGGAAGATCTGTCAGCCAGGTCGGCGAGACCACGATTTACGGTTCCCAGGCCACCACCCACCTTGTTGAAGTCGAGCAGGTTCTCAAAGGGAACCCCGGAAACGGGAACCTGCGCATCTCGTCCATGCCCCAGACCTGCTCTGGGGGCGAGTCCTACCTGGACGGCGATCCGCTCGATACCGGTCAGAGAGTCATCATTTTTGCGACCAAGCAGGGCGGCGAGTGGTTCACCATGACACCAGCACAGGGAGTCTTGCCTTTCCCCCAAGGTTCAGAGCTGCCCTTTCACCAATGA	MKRMRLWRCLIPSLLLILLTSCDGGVTGGPGTAKPKANATSTIPGSTSSPVAGGGTVACVDWVWFETPQNQYDNAAVALIGRSVSQVGETTIYGSQATTHLVEVEQVLKGNPGNGNLRISSMPQTCSGGESYLDGDPLDTGQRVIIFATKQGGEWFTMTPAQGVLPFPQGSELPFHQ				NA	NA	NA	NA	NA
D1-29_03980	531		COG3265	Gluconokinase	ATGACCGGGGCACTCCGGCCCATGGTGGTGATGGGTGTTTCGGGAAGCGGCAAAAGCGTCCTCGGGAAAGCCCTGGGCGAAAGCCTGGGCGTCCCCTTCATAGACGCCGATGATCTTCACCCGGCCTCGAACAAGGCCCTGATGGCAGCCGGTACTCCGCTGACCGATGAGGACAGAATCCCGTGGCTTGGGGTGGTCGGGTCAGCCATCGCCAAGGGGGTGAGTGAGGGCCACGCCAGCGTGGTGGCCTGCTCCGCCCTCAAGCGGTCCTACCGGGACCTGCTCCGAAGCCATGTGCCGGATCTGCTCCTGGTTTACATTGACGGAGCCGCGGAAATCATCGCCCGCCGGCTCGAAACCCGGGAGCACGAGTTTATGCCCGCCACGCTGCTGGCATCGCAGCTGGCGACGCTGGAACCGCCCCAGGCCGACGAGGCACATATTCGGGTTCCGGCCGAGCTGACGGTGGAGGAGGCCGTGGAACTCATTCGAAGCACGCTTCGGCTGTCCGCGTCGCCTCCGCCGCACTGA	MTGALRPMVVMGVSGSGKSVLGKALGESLGVPFIDADDLHPASNKALMAAGTPLTDEDRIPWLGVVGSAIAKGVSEGHASVVACSALKRSYRDLLRSHVPDLLLVYIDGAAEIIARRLETREHEFMPATLLASQLATLEPPQADEAHIRVPAELTVEEAVELIRSTLRLSASPPPH	PGPT0018055_1106	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
D1-29_03981	1080	idnD_2	COG1063	L-idonate 5-dehydrogenase (NAD(P)(+))	GTGGTGGCCCACGCCGCCGGGGACCTCCGGATTGAGAACATTCCTTTGACTTCACCACACCCGGACCAGGCTGTCGTCGAAATAGAGTATGGCGGCATCTGCGGCTCCGATTTGCACTACTGGCTGCACGGTGCGGCCGGGGAGTCGGTGCTGAAGGCACCCATGGTGCTGGGGCACGAAATAGTGGGTGTGGTGGCCCGCGCGGCGGCAGACGGATCAGGTCCAGCAGAGGGCTCCGCCGTTGCCGTGCATCCTGCGACGCCGGGGCCGGTAGCCGGCCCCGGCGTCGTCAAGTATCCCGAAGACCGGCCCAACCTGTCGCCGGGCTGCACGTACCTGGGCAGTGCTGCACGGTTCCCGCACACTGACGGGGCCTTCAGCCGCTACGCCAACCTTCCGTCCCGGATGCTGCGCGTCCTGCCGGACAGCCTGGACCTGAAGACGGCCGCGCTGATTGAACCCGCAAGCGTGGCCTGGCACGCGGTGTCCCGCGCCGGCGACGTCCGCGGCAAGACTGCCTTGGTGATCGGCAGCGGACCCATCGGCGCACTGGCCGTGGCTGTGCTGAAGCGGGCCGGCGCAGCCCGCATCGTGGCGGTCGACATGCACAGGAAACCGTTGGAGATCGCCGAGGCGGTGGGCGCCGATGAGGTGTTGGACGCCGGAGCGGTGGAGGCGATCGAAGCGGTCCAGGCCGACGTCGTCATTGAATCCTCCGGCAGCCACCACGGCCTGGCATCTGCCATCAAAGGTGCGGTCCGCGGAGGGAAGGTGGTGATGGTTGGCCTCCTGCCGACCGGGCCGCAGCCGGTCCTGATTTCCCTTGCCATCACCCGCGAGCTGGAGCTGCTGGGATCGTTCCGGTTCAATGACGAGATCGACGACGTCATCGCGGCACTCGCGGACGGCTCCCTGGTGGTGGACCCGGTGGTCACGCACGTCTTCCCCCTGGAACGCGGCCTTGAAGCATTTGAAACGGCCAGGAATTCCGCCGAGTCCGGCAAAGTGCTGCTCAGCTTTGCACCATCCGATCAGCAGCAGGCCCCGCAGGCCTCCGCCCTGGGCGGGGGTAAGCCATGA	MVAHAAGDLRIENIPLTSPHPDQAVVEIEYGGICGSDLHYWLHGAAGESVLKAPMVLGHEIVGVVARAAADGSGPAEGSAVAVHPATPGPVAGPGVVKYPEDRPNLSPGCTYLGSAARFPHTDGAFSRYANLPSRMLRVLPDSLDLKTAALIEPASVAWHAVSRAGDVRGKTALVIGSGPIGALAVAVLKRAGAARIVAVDMHRKPLEIAEAVGADEVLDAGAVEAIEAVQADVVIESSGSHHGLASAIKGAVRGGKVVMVGLLPTGPQPVLISLAITRELELLGSFRFNDEIDDVIAALADGSLVVDPVVTHVFPLERGLEAFETARNSAESGKVLLSFAPSDQQQAPQASALGGGKP	PGPT0018190_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018190-idnD-K00098	NA	NA
D1-29_03982	771	gno_2		Gluconate 5-dehydrogenase	ATGAGTTCACTTTTTGACCTGACAGGGCGGATTGCCCTGGTGACAGGTTCGAGCCGGGGGATAGGCAACGCCCTGGCCCGCGCTTTGGCGGATGCCGGAGCCACGGTGGTGCTGAACGGTATAAACGCCGAGCGTCTCAAGGCAGCCGAAGTTGCCCTCGCCGCGGATTTTGCGCCGGGCCGGATCCACAGCTGCGCCTTTGACGTGACGAAGGATGTTGAGGCCGCCCGGGGCGTGGCCTGGGTCGAGGAGAATGTTGGCCCGCTGGAAATCCTGGTGAACAACGCGGGAATCCAGCACCGGGTGCCGATGCTGGACCTTGACGTTGCGGACTGGGAACGGGTCATCAGCACGGACCTCACCAGCGCCTTTCTGGTGGGACGCGAAGCCGCGCGGTTCATGATCCCGCGCGGGCACGGGAAGATCATCAACATCTGCTCCGTCCAGGCAGACCTGGCCCGGCCCACCATTGCACCGTATGTTGCAGCGAAGGGCGGGCTGCGGAACCTGACACGTGCCATGACAGCCGAGTGGGCTGCCTCGGGTTTGCAGATCAACGGCATAGCTCCGGGCTACATCCACACCGAAATGACGCAGAACCTGGTGGACGACGAGCAGTTCAATTCGTGGATTTTGGGCCGGACCCCGGCGAACAGGTGGGGGACCGTCCAGGACCTTGCCGGCCCCGCGGTGTGGCTGGCGTCGGATGGCTCAAACTTTGTGAACGGTCAGACCATTTTCATCGACGGCGGAATGACGGTGGTGGTCTGA	MSSLFDLTGRIALVTGSSRGIGNALARALADAGATVVLNGINAERLKAAEVALAADFAPGRIHSCAFDVTKDVEAARGVAWVEENVGPLEILVNNAGIQHRVPMLDLDVADWERVISTDLTSAFLVGREAARFMIPRGHGKIINICSVQADLARPTIAPYVAAKGGLRNLTRAMTAEWAASGLQINGIAPGYIHTEMTQNLVDDEQFNSWILGRTPANRWGTVQDLAGPAVWLASDGSNFVNGQTIFIDGGMTVVV	PGPT0018070_585	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018070-idnO-K00046	NA	NA
D1-29_03983	1005	garR_1	COG2084	2-hydroxy-3-oxopropionate reductase	ATGGACAGCAAGGCCACGGCCTTGAACGGCACACCACTCAGTGCCGGCTTCGTCGGGCTGGGGCTGATGGGTGCCCCCATGGCCGCCAATCTGCTGAAAGCCGGGTGGGCGGTCTCGGCCTGGAACCGGTCCCCGGAAGCAGTGGACCACTTTGTGCTGCTCGGCGGAACCCGGGCGCCAGACGTCGCAGCCCTTCGGGACCAGCCGGTGATCATCTTTATGCTCCCGGATCTGTCCTTCATCGAGGACGCGGCGTCACCTCTCCTCGATGAATGGCGGCTGGTCCCGCCGGCGCCGGGAACCGTGGTGGTAGTGATGAGCAGTGTTTCCCCCGTCGGCGTCAGGGCCTTCGGCCTTGCCGTTGCGGAGGCCAGCGGCGGGAACGCCACGGTGCTGGACGCACCGGTCAGCGGCGGCACGGAAGGTGCGCGGCTTGGAACCCTGGCCATTATGGCCGGCGGCCCGGCCGAACATTTCCTGCGCCTCCGGCCAGTGCTGGAGGCGATGGGCACCACGGTCCGGCGGCTGGGCGGGCTGGGCTCGGGGTCCCTCGCCAAGGCGTGCAACCAGTTGATTGTGGGAACCACGACGGCGGCGCTCGCCGAGGCGGCAGAACTCGCCGAACACTCTGGCATGGACGTTGCAGCGCTCTTTGAGGTGCTTTCGGGCGGCCTCGCGGGCAGCCGGGTGCTGGACTTTGTGGGCCCCCGCCTCGCCGCGAAGGACTACGCGCCCACCGGACCGGCAAAGTTTATGCACAAGGATCTTTCCTTTGTGCTGGCAAGTGCCGCCGCTGTGGGGGCGTCCGTGCCGATGGCGACAGCCGCCGTCGGACTGTACGGGGAACTGAAGGACCAGGGCCTGGGCGATCTGGACCTGGCCGTGGTGCGGCAAACCATTGCCAACCTCAGCGCCTCCGCCGCACCTGACGCCGCAGTTGACGCGGCGTCAGCGCCCGCTGCGGCCGCCCGCATGACAGCTACCGTTCAGGAGACCACACCATGA	MDSKATALNGTPLSAGFVGLGLMGAPMAANLLKAGWAVSAWNRSPEAVDHFVLLGGTRAPDVAALRDQPVIIFMLPDLSFIEDAASPLLDEWRLVPPAPGTVVVVMSSVSPVGVRAFGLAVAEASGGNATVLDAPVSGGTEGARLGTLAIMAGGPAEHFLRLRPVLEAMGTTVRRLGGLGSGSLAKACNQLIVGTTTAALAEAAELAEHSGMDVAALFEVLSGGLAGSRVLDFVGPRLAAKDYAPTGPAKFMHKDLSFVLASAAAVGASVPMATAAVGLYGELKDQGLGDLDLAVVRQTIANLSASAAPDAAVDAASAPAAAARMTATVQETTP	PGPT0018170_105	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
D1-29_03984	1146			hypothetical protein	ATGAACCAAACCGCTCCCCGACTGCTGCTCGCGGCCGGCGCCATTATGGCCCTGGGGCTCACTGCCTGCACCAGCGGTTCCTCCGAATCCGCCTCGGCGGGCTCAACTGCCGCGGGGGACAGCGGCTGTGCCGACGTGGTTGCCACGGCCCAGAAGGCCGTTGACGCGGCATCGAAGACGGATACGCCCTGGGACGGGCCCACCACGGGCCCCAAGGCTGTGGCGGGAAAGACCCTGGTGTACGTGGCCCAGTCCATGACCAACCCTGGTGTGGCAGGCGTGGCGAAGGGCCTGCAGGAAGCTGCCGCGGCTATCGGCTGGAACGTCAAGGTCATCGACGGGCTCGGCACGCCGGCCGGGATCCAGAGCGCATTCAGCCAGGCCCTCACCACCAAGCCCGACGGCATTGTGATCGGCGGTTTTGATCCCAAAACCACCGCCGCCCAGGTAGCCGAGGCCAACGCCGCCAACATTCCGCTGGCCGCCTGGCAGGCACTCTCGACGCCGGGTCCCAGCACCGACCCGCTGCTGTTCACCAACATCACCACCAAGGTGGAGGACGTCGCCAAAATCAGCGCCGATTACGTGATCGCGAAATCGAACGGCAATGCCGGCGTCGTGATCTTCACGGACTCCTCCATCCCGTTTGCCGAAGGCAAATCGCAGATGATCAAGAAGGAACTGGAAACCTGCGCCGGCATCAAGGTGCTGGAATACGACAACGTACCACTGTCCGACGTCAGCGCCAGGATGCCCCAGGAGGTGTCCTCCCTGCTGAGCAAGCACAACGAAGCCTGGACCTACTCCGTGGCCATCAATGACGTCTACTACGAAAACGCGGCGGCAGCCCTGCGCGCCGGCGGTGTGAAGGCCGGCGGAGCACCGTTCAACGTGGGCGCGGGCGACGGCGACTCCTCCGCGCTGCAGCGGATCAAGGCCGGCGAATACCAGACCGCCACCGTTCCCTCCCCGTTGAAATCCGAGGGGTGGCAGATCGTGGACGAACTCAACCGGGCCTTCAACAATCAGCCCGCCAGCGGCTACGTCCCCCAGATCCACGTCTCCACCAAAGAAAACACCACTGTCACCGATGCCTGGGATCCAGTAGGTTACCAGGACGCTTACCGCACCATCTGGGGCAAGTAA	MNQTAPRLLLAAGAIMALGLTACTSGSSESASAGSTAAGDSGCADVVATAQKAVDAASKTDTPWDGPTTGPKAVAGKTLVYVAQSMTNPGVAGVAKGLQEAAAAIGWNVKVIDGLGTPAGIQSAFSQALTTKPDGIVIGGFDPKTTAAQVAEANAANIPLAAWQALSTPGPSTDPLLFTNITTKVEDVAKISADYVIAKSNGNAGVVIFTDSSIPFAEGKSQMIKKELETCAGIKVLEYDNVPLSDVSARMPQEVSSLLSKHNEAWTYSVAINDVYYENAAAALRAGGVKAGGAPFNVGAGDGDSSALQRIKAGEYQTATVPSPLKSEGWQIVDELNRAFNNQPASGYVPQIHVSTKENTTVTDAWDPVGYQDAYRTIWGK	PGPT0015740_538	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
D1-29_03985	1107			hypothetical protein	ATGACCCAGCTAAACACCAACCGCCGGCGCGGCGGCGCGGCGCACCTCCTCGGGCCCTACGGACTCGTCCTGATCCTGGTGGTGCTGTTCGCGGTATTTGCCCTGATCCTGCCGCAGACCTTCCTCTCCGGCCGCAACTTCAACGCCATCCTCAGCAACCAGGCGATTCCCGCGCTGCTGGCGCTGGGCGCCATGATCCCGATCGCCACGGGAAAGTTCGATCTCTCCATCGGTTACGGCCTCGGGCTTTCCCACGTCATCGTCCTTAAGCTCATCGTGGATGGCAACATGCCCTGGGGCATCGCCGCCCTCGTGGCCATCGCGGTCATGGCACTGGTGGGAGTGATCAACGGGCTACTGGTGGAATTCGGACAGATCGACTCCTTTGTTGCCACCCTGGGAACGGGAACCGTGCTGTACGCCATCACCGGAGCCATCACCAACGGTGCCCGGGTGGTGCCGGGTGACGGCGGCCTCCCGGTCTCCTTCAAGGACCTCTACGATTCCAAGATCGCCGGAGTGCCGATCGTTGCCGTGTACCTGCTGATCGTCGCCGTGATCCTCTGGATCCTCTTCGAACGGCTGCCGCTGGGCCGCTACTTCTACGTGCTGGGTTCCAACCCGCGGGCAGCTGCCCTGATGGGCATCCCCACCAAGCGGTACTCCATCTACGCCTTCGCGTTCTCCGCAGTAGTCACCGGCGTGGCAGGGGTCCTGCTCGCCTCGCAGCAGCAGATCGGAAACCCCAGCGTCGGCATGGACTACCTGCTGCCGGCGTTCGTCGGGGCGCTGCTGGGAGCCACCGCCATCAAGCCCGGACGGGCCAACGTCATCGGCACCCTGGTTGCTGTTATCACCCTGGCGATCGGCCTGGCCGGCATCTCGCAGCTGGGCGCCCAGTTCTGGGTCACTCCGCTCTTCAACGGCGTCACGCTGCTGATCGCCGTCGGCCTGGCCGGCTACTCAGCCCGGCGCAAGCTCCGGGCGGGAGCTGTCGCCGCCCCGCCGCCCACCCTGCCCAAGGCGGACGACGCCGGACCTTCGGCTCCCGCCGGACCGGCCAGTACGGCCGCACTTCCGCCGGCCCCGGCCACCACCGCTTCCTGA	MTQLNTNRRRGGAAHLLGPYGLVLILVVLFAVFALILPQTFLSGRNFNAILSNQAIPALLALGAMIPIATGKFDLSIGYGLGLSHVIVLKLIVDGNMPWGIAALVAIAVMALVGVINGLLVEFGQIDSFVATLGTGTVLYAITGAITNGARVVPGDGGLPVSFKDLYDSKIAGVPIVAVYLLIVAVILWILFERLPLGRYFYVLGSNPRAAALMGIPTKRYSIYAFAFSAVVTGVAGVLLASQQQIGNPSVGMDYLLPAFVGALLGATAIKPGRANVIGTLVAVITLAIGLAGISQLGAQFWVTPLFNGVTLLIAVGLAGYSARRKLRAGAVAAPPPTLPKADDAGPSAPAGPASTAALPPAPATTAS	PGPT0016590_314	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
D1-29_03986	1506	rbsA_2	COG1129	Ribose import ATP-binding protein RbsA	ATGGGACTCAACCCTCCCGCGATGCCGCTGATTCAGATCGACCAGTTATCCAAACGCTTTGGCGTCAATGCGGCCCTGCAGGACGTCAACCTCACGCTGGAGGCCGGCAGCATCCACGCCTTGCTTGGCCAGAACGGCGCAGGCAAGTCCACCCTGATCAAGATCCTCTCAGGGCTCTACACCCCCACCAGCGGCAGCATCACGGTGGCGGGCCATCCGCTGGGAACGCCGGAAGCCAGCTCCAGCATGGCCTTTATCCACCAGGACCTTGGGCTGGTGGACTCCATGACCATCGCCGAGAACATTGCCTTGGGCACGGGCTTCGGACTCAGGGGCGGTTTCATCTCCTGGCGCCAGGTGCGTGACAGCGCCGCGAAGGCACTGCAGACCGTGGCCTCGCACCTCGAGCCGGACCGGTACGTTTCCGAACTGACCAGGGCAGACAAATCCCTCGTCGCCATTGCCCGGGCGCTGGCCTCCAACGCCTCGGTGATCGTCCTGGACGAACCAACGGCGAGCCTTCCGGCCGCGGATTCCCGCCGTCTCTTTGATGTGCTGGAGAAGCTGCGGAGCAACGGGCAGGGCCTCCTGTACGTCAGCCACCGCCTGGACGAAGTCTTCGCGATCTCGGACACCGTCACGGTGTTGCGCGATGGCCGGCTCATCCACAGCGGTCCAATCGCCGAGAAGTCCCCGCGCGAACTTGTGCTGGACATCGTGGGCCACAAACCCGTCAGCTATACGTCCGGGAGCGGTATCCAGCAACAAACGGTACGCCTGGAAGTCAACGAACTGACCACCTCGCAGACAAGGGCCAGCTCCTTCTCGGTCCGTGCCGGCGAAGTTGTGGGAATGGTGGGGCTCACCGGCGCTGGGCACATGGAGCTGGGACGAGCACTGGCCGGGGCGCACAGGATGACCTCCGGCAGCGTCCTGCTCGACTCAAGAGACTTCCAGCCGAGGACGCCGGCGGAGGCCGTGGATGCCGGCGTCGGATTTGTCACCAGCAACAGGATGGAAGAGGGCTGCGCTCCCGAACTGTCGCTCCGGGAGAACTTCCTGCCCAACCCGAGGATCCGCTCCAGGAACCCCTTCGCCTGGACCAGCCCCCGCAAGGAACGCCAGCTGGCAGCGGAGCTCGTGGAGCGGTACGGCGTCCGGCCTGCCCTGACGGAAGTGGCCATTGCCACGCTGTCCGGCGGCAACCAGCAGAAGATCATGATCGGCCGGTGGCTCAGCACGCGCAGGAAGCTCATCATCCTCGAGGAGCCCACCGCCGGAGTGGATGTCGGCGCCAAGGCAGACATCTACACACTGCTGGAAGAGTCGCTGGCTGCAGGCCTTGCCGTCCTGATGATCTCAACCGACTTCGAGGAAGTCGCCAACGTCTGCCACCGTGCACTCGTTTTTGTCCAGGGAACCGTCACCGCGGAGCTCTCCGGCGCTGACCTGACCATTTCAAACCTCACTGCGGCGGCCTCCGGTGCTGCTCTCACTTCGGAGTAA	MGLNPPAMPLIQIDQLSKRFGVNAALQDVNLTLEAGSIHALLGQNGAGKSTLIKILSGLYTPTSGSITVAGHPLGTPEASSSMAFIHQDLGLVDSMTIAENIALGTGFGLRGGFISWRQVRDSAAKALQTVASHLEPDRYVSELTRADKSLVAIARALASNASVIVLDEPTASLPAADSRRLFDVLEKLRSNGQGLLYVSHRLDEVFAISDTVTVLRDGRLIHSGPIAEKSPRELVLDIVGHKPVSYTSGSGIQQQTVRLEVNELTTSQTRASSFSVRAGEVVGMVGLTGAGHMELGRALAGAHRMTSGSVLLDSRDFQPRTPAEAVDAGVGFVTSNRMEEGCAPELSLRENFLPNPRIRSRNPFAWTSPRKERQLAAELVERYGVRPALTEVAIATLSGGNQQKIMIGRWLSTRRKLIILEEPTAGVDVGAKADIYTLLEESLAAGLAVLMISTDFEEVANVCHRALVFVQGTVTAELSGADLTISNLTAAASGAALTSE	PGPT0016600_3279	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
D1-29_03987	801	xynR_4	COG1414	HTH-type transcriptional regulator XynR	ATGACGGCAGAGACGGCAACAGAAGCGGGCGTCAGCGGGCAGAGCTCAGTTCCGGCGATCACCCGCGGGATGGCCATTCTGGAACTGGTCGCCGCCGCCGGGCAGGCGGGCGCCAGCGTTCCGGAGCTGGCAAAGTCAATGAACCTCGCCAAGTCTTCCACCGCCAACATTTGCGCAGCCCTTGAAGGCGAGGGTATGCTCAGGCGCTCGGACGGCCGCCTGACCCTGGGGCGACGGATCCTTTCGCTGGCCGGAGACTACCTCCGCTCCGCCGACCAGCTGGCCGAGTTCTATGCGTTGTGCCGCCGCTCCCGGCTGATATCCCGCGAAGCCGCTCGCCTTGCACTGCTGGACGGCACCGATGTCCTCTATCTGGCCCGCTATGAGGGGACTAATCCCATCCGACTCACCGCCAACATCGGCGACCGGTTTCCGGCCCACGTCACCGCCACGGGCAAGGCGGTACTCGCTACCCTTCCGGACGCCGTGGTGGAAGACCGGTACCGCGGCAAGACCTTTGTGCCGTTCACGCCCAAATCCTTAACCAGCCTGACGGACCTGATGGGGGAGCTTCAGACGTCCAGGCAGCGCGGCTACTTCATGGATGACGAGGAAACCAACATCGGCGTCGTCTGCTTTGCGGTGCCAGTGGTGAATCTCCCGGGCCAGCCAGCGCAGTTTGCCATCAGTGCCACCCTGCTCAAGGCCCGTGCTGATGAGCTGGATCATGCCGAAATCGTTGGCGAGTTGCAGCATATTGCGCGCGCACTCGCCAATCCCTTGAGTGCCCACTCGCTCTGA	MTAETATEAGVSGQSSVPAITRGMAILELVAAAGQAGASVPELAKSMNLAKSSTANICAALEGEGMLRRSDGRLTLGRRILSLAGDYLRSADQLAEFYALCRRSRLISREAARLALLDGTDVLYLARYEGTNPIRLTANIGDRFPAHVTATGKAVLATLPDAVVEDRYRGKTFVPFTPKSLTSLTDLMGELQTSRQRGYFMDDEETNIGVVCFAVPVVNLPGQPAQFAISATLLKARADELDHAEIVGELQHIARALANPLSAHSL	PGPT0025595_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0025595-blcR-K20539	NA	NA
D1-29_03988	969			hypothetical protein	GTGTGCGCGGAAGAAATCAGGCCTAGTCCACTTTACCCAGCCGAGGCCAGGAATGGGCCCCCTGTCAGCAAAGAGGCCTTTGAAGAGGTGTTCGAACAGGTGAAGACCTGGGGCACCTACCCGGACCCCTCTGCCGGGGCGTGGCAAACAGTCACCCCTGCTTCAATCGTGGAAGCGGCTTCCCTGGTCCGCAGCGGCCGGGTGGTTCCCACCGCCCTGCCCTGGAACACTGTCAGCGGGCCCTCCAACGCCAATCCTGCACTGCATTACATGACAGACCTGGGCGTGCGTGAGGCTCCGGAGCCGTCGTGCAACAAGGACTTCATCGGCGTCGACTACCACGGCAAGGCCGTCAGCCACTTGGATGCCCTGAGCCACATTGCCTACAAGGGACTCCTCTACGACGGGCAAACCTCGAAAGAGGTTGTTACCGCAACCGGGGCAGACTTCGGCTCGGTCAGCTCGCTTGGCTCGCTCGTCACGCCGGCCGTTTTGCTGGACTTCACCGTCCTGTTCGACGTTCCCTGGCTGGAACCCGGCACCGCCATCCATGCGGAGGACATCCTCGCTGCGGAGGCAAAGCTTGGCGTAAAGATCACAGCCGGCGACGCCGTCCTGATCCGGACAGGGCACTTCCGCCGCGCCCACGAGCTGGGCATCTGGGACTCCTCAGACCTGAGCGCAGGGCTGCACGTTGACTGCATGCCGCTGCTTGCCGAGCGCGGCATCAGCGTTTTGGGCGGCGACGGCGACTCGGACGTTCGCCCCTCCCCCACCCCGGGCATCCACTCGCCCATCCATATCCTGGCCATCACCGCGATGGGCCTGCCCCTCTTGGACAACCTCGACCTCGAAGCACTCGGCGCGGCCTGCGCCGAAGAGGACCGCTACCGGTTCATGTTCGTTGTTGCACCCCTCAACATTCCCCGCGGCACAGGTTCGCCCGTAAACCCCTTGGCGGTCTTCTAA	MCAEEIRPSPLYPAEARNGPPVSKEAFEEVFEQVKTWGTYPDPSAGAWQTVTPASIVEAASLVRSGRVVPTALPWNTVSGPSNANPALHYMTDLGVREAPEPSCNKDFIGVDYHGKAVSHLDALSHIAYKGLLYDGQTSKEVVTATGADFGSVSSLGSLVTPAVLLDFTVLFDVPWLEPGTAIHAEDILAAEAKLGVKITAGDAVLIRTGHFRRAHELGIWDSSDLSAGLHVDCMPLLAERGISVLGGDGDSDVRPSPTPGIHSPIHILAITAMGLPLLDNLDLEALGAACAEEDRYRFMFVVAPLNIPRGTGSPVNPLAVF				NA	NA	NA	NA	NA
D1-29_03989	1023	ghrB_2		Glyoxylate/hydroxypyruvate reductase B	ATGACGTTCACAGTAGGAATTTCCCCCGATTTTCTCGACACCGCCGGCAATAACGTCTGGGGCGACATCGGTCTGACGGGCCTCGACGAGGCCGGGATCGGGTGGGAGTACATGAAGGACAAGGCCCAGGCGCTCACGCCGGACCAGATGGAACAGTACGATGCCATCCTCTACGCCGCGCCCGCCGTCACCGCTGACTCCTTTGCCGGCGTCGCCAATCCTCCGCTGATCCTGGCCCGGTTCGGCGTCGGCTATGACGCCGTGGACCTCACCGCCTGCACCGCAGCAGGGACCGTTGCCACCATCACCCCCGACGGCGCCCGCGGCCCCGTGGCCACTGCCACCCTGTCGATGCTCCTGTCAGTTCTTCATCACACGGTGACGAAGGACCGGCTGGTGCGGGACCAGCGCTGGGATCTGCGGGAGAACTTCATGGGCACAGGCCTGACGGGAAAGACGATCGGCCTTCTCGGCGTCGGGAATACCGGAGGTGAACTGGTCCGCCTGCTCGCCCCGTTTGGCGTCCGCTGTGTTGGCTACGATCCCTTCTGCCCGCCGGAGCGGGCCGCCGAACTCGGCGTTGAACTGATGGAACTCGAGGACGTGGCGGGCTGCTGCGACGCGCTGATTGTCATGGCCGTCCTGACGGACCAGACCCGGCATATCGTAGACGCCGGCATCCTGGACCGGATGAAGCCCACCGCCGTTGTCATAAATATGGCGCGCGGACCCATCATCAACGAGCCTGACCTCATTGCTGCGCTGGAGAGCGGATGCATTGCAGGGGCCGGGCTGGACGTCTTCGAAGAAGAACCCGTCAAAAATGCGCTCCTTGGCCTGGCCAACGTCACGTTGTCGCCGCACTGCCTGTCCTGGACGGACGAGATGTCCCTGGGTAACGGCGGTAGCTGCGTGCGCGCCATCGTGGATGTTGCCAACGGGCGCACCCCAACGTTTGTCATCAACCGGGAAGTACTGGATTCAGGGGCCTTTAAGGACCGGCTCAGCCTCCTGGCCCGCTAA	MTFTVGISPDFLDTAGNNVWGDIGLTGLDEAGIGWEYMKDKAQALTPDQMEQYDAILYAAPAVTADSFAGVANPPLILARFGVGYDAVDLTACTAAGTVATITPDGARGPVATATLSMLLSVLHHTVTKDRLVRDQRWDLRENFMGTGLTGKTIGLLGVGNTGGELVRLLAPFGVRCVGYDPFCPPERAAELGVELMELEDVAGCCDALIVMAVLTDQTRHIVDAGILDRMKPTAVVINMARGPIINEPDLIAALESGCIAGAGLDVFEEEPVKNALLGLANVTLSPHCLSWTDEMSLGNGGSCVRAIVDVANGRTPTFVINREVLDSGAFKDRLSLLAR	PGPT0009155_5909	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
D1-29_03990	663			hypothetical protein	GTGGACCTGTTTGCCTGGCCCTTGACCTTTACAGGGGCCTCAACCGCCGACGACGACGCCGTCTTCCTGGCGCCCGTCCGGCCGGCGGTGATTGTTGGCATTGCCCACAACCTCACCATCAACAACCATCCGCTGCCCATCCAGGCGTGGCTCAAATCGGTCCACACGCTCGCGGATCCGGACGCTCCGATCGTGGCCGCACGCGCGCGGGGCACGGTGAACGTTGAGGGGGAACTCGCCGTCGTCATCAGAAAGACCTCCACGGCGCTGACCGCGGAGAACGCGCTGGAACACATCCTCGGGTTTACCTGCGTCAACGACGTCACCAATGTGGACCAGGGTGCGGTGGACGAGCGCAACTTCCAGGGCAAGGCCGGCGTCAACTACACGCCGCTTGGCCCCTGGATTGAGACCGACATTCCGGATCCCGGCCTGGTGGGGATTGATGTGATTGTCAACGGCGAAGTAAAGGCGAAGTCGGGCTCGTTCAACCTGCCGTCGTCGGTGGTGGACTGCCTCATCTACGTGACATCATGGCTGACCCTCGAGCCCGGAGACGTGGTGATGACCGGCGCTCCTGGCACGGCGGTCGCCGTCGAGCCAGGTGACCGGGTGGACATCGACCTGGGCGGCATCGGAAGGCTTTCCAACACGGTCGCCTAA	MDLFAWPLTFTGASTADDDAVFLAPVRPAVIVGIAHNLTINNHPLPIQAWLKSVHTLADPDAPIVAARARGTVNVEGELAVVIRKTSTALTAENALEHILGFTCVNDVTNVDQGAVDERNFQGKAGVNYTPLGPWIETDIPDPGLVGIDVIVNGEVKAKSGSFNLPSSVVDCLIYVTSWLTLEPGDVVMTGAPGTAVAVEPGDRVDIDLGGIGRLSNTVA				NA	NA	NA	NA	NA
D1-29_03991	198			hypothetical protein	ATGCGGATTCTCGGAGCGCTCATTGTTATCTGGCTGATCATCGGAGGCATCGCCGCCTGGCAGCGAGGATACTTCGGTGGAGCAGGCACCACCTGCGCGGAGATCGGCACCGTGGCGGTGACTATCGTCGCCGGACCCCTGAATTACATGGGAGCCAACCCGCAGATTCAATGTGAGCTGCCCCAGCCGTCGCAGTAG	MRILGALIVIWLIIGGIAAWQRGYFGGAGTTCAEIGTVAVTIVAGPLNYMGANPQIQCELPQPSQ				NA	NA	NA	NA	NA
D1-29_03992	837	bpoA2_2		Non-haem bromoperoxidase BPO-A2	ATGGCTTTCATCACCGTTGGAACCGAAAACAGCACTGACATCGAGCTCTACTTTGAAGACCACGGCACGGGCCAGCCGGTGGTCCTGATCCACGGCTACCCTTTGGACGGTTCATCCTGGGAGAAACAGACTGCCGCGCTCCTGGACGCCGGTTACCGCGTCATCACCTATGACCGGCGCGGGTTTGGCAAGTCCAGCAAGACGACGGCGGGCTATGACTACGACACCTTCGCCGCTGACCTTAATACCCTTCTCACCACCCTGGACCTGAACGACGCCGTATTGGTCGGCTTCTCCATGGGCACCGGCGAGGTTGCCCGCTACCTGAGCACCTATGGTTCAGCGCGGGTGGCAAAGGCCGCCTTCCTGGGATCACTGGAACCGTTCCTGCTGCAGACGGAAGACAACCCCGACGGCGTTCCGCAGTCCGTGTTTGACGGGCTCACCGAGGCCGTCACCACCGACCGCTACGCGTTCTTCACCGAGTTCTTCAAGAACTTCTACAACACCGATACGTTCCTGGGCACGCCGCGGCTCAGCCAGGAGGCACTGAGCGCCAGCTGGAACCTCGCGGCAGCCGCCGGAGCCACCGCCTCCGTGGAAGCCCAGCCCACGTGGCTCACTGACTTCCGCGCGGACATTCCCAACATTAAGGTTCCGGCGCTGATCCTGCACGGTACGGCGGATAACATCCTGCCCATCGACTCCACCGGGCGGCTCTTCGCCAAGGCCCTTGCGAGCGCTGAATATGTGGAGATCGACGGCGCGCCGCACGGCCTGCTGTGGACCCACGCCGCTGAGGTCAACGAGGCGCTGCTGCGCTTCCTCGCCAAATAG	MAFITVGTENSTDIELYFEDHGTGQPVVLIHGYPLDGSSWEKQTAALLDAGYRVITYDRRGFGKSSKTTAGYDYDTFAADLNTLLTTLDLNDAVLVGFSMGTGEVARYLSTYGSARVAKAAFLGSLEPFLLQTEDNPDGVPQSVFDGLTEAVTTDRYAFFTEFFKNFYNTDTFLGTPRLSQEALSASWNLAAAAGATASVEAQPTWLTDFRADIPNIKVPALILHGTADNILPIDSTGRLFAKALASAEYVEIDGAPHGLLWTHAAEVNEALLRFLAK	PGPT0013125_1154	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
D1-29_03993	1170	desA3	COG3239	NADPH-dependent stearoyl-CoA 9-desaturase	ATGTCAGTAATTTCAGCAAGCAAGGCAACCTCGACCAGCGGGACACGGACACGCCCCGGAGCGTTGGCCGAGTCCGGCAGTCCCACGGTGCGCCCGCCCGCTGCGGCGCACCTGACAGACGAACAGGTGGCTGAGCTGGGCCGCGAACTCGACGCCATCCGCGACGAGATCCTGGCCAAGCGCGGAGCCTCGGACGCCGCCTACATCCGGCGCATGATCAAGATCCAGCGCGGGCTGGAGATTTCCGGCCGCGCGGCCCTGCTGGTCAGCAAGAACAAGGCCGCCTGGGTCACCGGCACCACGCTGCTGAGCCTGGCCAAGATCCTGGAAAACATGGAGCTGGGCCACAATATCCTGCACGGCCAGTGGGACTGGATGCGGGATCCGGACATCCACTCCACCACCTGGGAATGGGACTTCGTCACGCCGTCGCGCTCCTGGCAGCACACCCATAATGACCTGCACCACCGCTGGACCAATGTGGTGGGCAAAGACAACGACGTCGGATACAACCTCCTGCGCATGGACGAGAACCAGCCGTGGAAGCCCATCAACCTGGCCAACCCGCTGTTCAATGCCATCCTGGCGCCGGTGTTCGAGTGGGGCATTGCCATTTACGATCTCGAGTTGACCGAGTACAAGGAAGGCACCAAGTCCAAGGAAGCACTGCATAAGGACCTCAAGGCCCTGGGCCGAAAGGTGATCACGCAGTTCACGAAGGATTATGCGGCCACGCCCGCCGTGGCAATGCTCACAGGATCGGGCAAGCAGGCACTCTATGGAACCTTGGCTGCCAACGCTGTCCGCAACGTATGGGCCCACGCCGTCATTTTCTGCGGCCATTTCCCGGAGGGCACGGACACCTTTACCGAGGAAATGGTGGAAGGCGAAACGCGCGGCGACTGGTACGTCCGCCAGATGATCGGTTCAGCCAACATCTCTGGTTCCCGGTTCATGCACCTGATGACGGGCAATCTCTCACACCAGATCGAGCACCACCTCTTCCCCGATCTGCCGTCCAACCGGTACGCCGAGGTGGCGCCGCGGGTTCGTGAAATCTGCCAGCGCTACGGCCTGAAGTACACCACCGGCCCGCTGCTGAAGCAGGTTGGATCCTCCTGGGCCAAGGTTTTCAAGCTGGCACTGCCCGGCAAGACCGCCCAGGCCTGA	MSVISASKATSTSGTRTRPGALAESGSPTVRPPAAAHLTDEQVAELGRELDAIRDEILAKRGASDAAYIRRMIKIQRGLEISGRAALLVSKNKAAWVTGTTLLSLAKILENMELGHNILHGQWDWMRDPDIHSTTWEWDFVTPSRSWQHTHNDLHHRWTNVVGKDNDVGYNLLRMDENQPWKPINLANPLFNAILAPVFEWGIAIYDLELTEYKEGTKSKEALHKDLKALGRKVITQFTKDYAATPAVAMLTGSGKQALYGTLAANAVRNVWAHAVIFCGHFPEGTDTFTEEMVEGETRGDWYVRQMIGSANISGSRFMHLMTGNLSHQIEHHLFPDLPSNRYAEVAPRVREICQRYGLKYTTGPLLKQVGSSWAKVFKLALPGKTAQA				NA	NA	NA	NA	NA
D1-29_03994	1098		COG1018	NADPH oxidoreductase	ATGATCCGGCTGCGTCAGCTGGCCCAGGCGGCCTCTGTTTTGACCACGCCCTTGGCGCCCGAAGACATCCTTGCGCTCTTTAATCCAGTCTTCTCCGCCCGGCAGCTCCGCGGCGTGGTGACGCGTGTTGTCCAGGAGACGGCCCATTCGGCCACCATCTTCTTCCGTCCCGGCCGCGGCTGGCATGCCCACTTGGCAGGCCAGTGGGCGCGCATCGGCGTCGAACTGGACGGGGTCCGCCATTGGCGGTCCTACTCGCTCAGCGCCCCCGCAGGCAAAGACCCTGCCATCACCGTCACGGACGTCGGTGCAGTGTCCGGAACGCTGGTCCGCACCACCCGTCCAGGCGATGTCCTGTTCCTGGCCCCGCCGCAGGGCGACTTTGTCCTCCCCGAGCACCCCCGGCCCCTGCTGATGGTCACCGCTGGCAGCGGCATCACCCCGGTGATGTCCATGATCCGTACGCTGGTACCGCGCCGCCGGGATGCCGACGTCGTACTGATCCACTCCGCGCGCACCCCTGGCGAGAGCCTCTTCCGGGAAGAACTGGCCGAACTCGCGGACCAGTTCCCCAACTTCCGGCTTGCCCAGTGGTTTACGGGGCAGCAGGGCCGCCTGGATTTCACCACCACCGCTGAGCTTGAGGAGATCTGCCCGGACTGGAAGGAACGTTCGGCGTACGCCTGCGGCCCGGACAGCTTCCTGGACGACGCCGAGGCGCTCTGGAAACAGGCTGCGCTCACCGCCGGTGCCCCAGGCACGGATGTGGTGCTCCCCGGCGACCCGGGAAACCTGATGATCGAACGGTTCAATACCGCCTTCGCCGGCGGCGTCGGGCACGACGGCGGCCTGGTTACCTTTGAAGCGTCGGACCGGGAAGTGGACGCCGACGGCGATACTCCGCTTTTGGACGTGGGCGAGGACGCCGGGGTACTCATGCCCAGCGGCTGCCGGATGGGCATCTGCCACAGCTGCCTGACCCCCCTCCTGGCCGGACAGGTGCGGGACCTGCGTACCAACGAAGTCCACGGCGAACCCGGCCAACTGATCCAAACGTGTGTCTCGGCAGCCGCCGGACCCGTCAACCTCGAACTCTGA	MIRLRQLAQAASVLTTPLAPEDILALFNPVFSARQLRGVVTRVVQETAHSATIFFRPGRGWHAHLAGQWARIGVELDGVRHWRSYSLSAPAGKDPAITVTDVGAVSGTLVRTTRPGDVLFLAPPQGDFVLPEHPRPLLMVTAGSGITPVMSMIRTLVPRRRDADVVLIHSARTPGESLFREELAELADQFPNFRLAQWFTGQQGRLDFTTTAELEEICPDWKERSAYACGPDSFLDDAEALWKQAALTAGAPGTDVVLPGDPGNLMIERFNTAFAGGVGHDGGLVTFEASDREVDADGDTPLLDVGEDAGVLMPSGCRMGICHSCLTPLLAGQVRDLRTNEVHGEPGQLIQTCVSAAAGPVNLEL				NA	NA	NA	NA	NA
D1-29_03995	204			hypothetical protein	ATGTCTGACAATCTCCATCTCACGCCGGAAGAAGATTTCCCGGCAGACCTCTCTGCAGTGCCTGACCTGGAGCTCCAGGTTCTGGACAGCCAGGTCCAGCGCCAACTCGACTATGAATACGTGGCCGAGGGCGAACCGAACCCCGAGACCGAGTTCCGGCACCACGATCTCGACGAGGAATTCGCAGAGCGGGATTCACGCTGA	MSDNLHLTPEEDFPADLSAVPDLELQVLDSQVQRQLDYEYVAEGEPNPETEFRHHDLDEEFAERDSR				NA	NA	NA	NA	NA
D1-29_03996	1035			hypothetical protein	ATGCAGCGCATCGGATTCCTCTCTTTTGGCCACTGGGGCCCCGGCCAGGGTTCCCGCACCAGGACCGCGGGCGAGGCCCTGGTCCAAGGCATCGAACTCGCCGTCGCGGCGGAGGAACTGGGCATCGACGGGGCGTTCTTCCGGGTCCACCACTTCGCCCGCCAGCAGGCCTCCCCGTTCCCGCTGCTGGCTGCCATCGCTGCCCGCACCAGCCGGATCGAAATGGGTACCGGCGTCATCGACATGCGCTACGAAAACCCGCTCTACATGGCAGAGGAAGCCGCCGCCACGGACCTGATCAGCGGAGGCCGGCTTCAGCTCGGCATCAGCCGGGGTTCACCCGAACCGGCCCGCAACGGAGCCGCCGCCTTCGGGCACCTGCCGGCGGCCGGCGAGACTGACGCTGATATGGCCCGCAGGCACACGGACCAGTTCCGGCATGCCATTAGCGGCGCGGGCGTGGCGGAGGCGGATCCACGCTATGCCGGCGGTGCCACCGGGCTGCTGCCCGTCCAGCCGCAGTCGCCGGGCCTGGCGGAACGCATCTGGTGGGGAGCCGGCAGCCGGAAGACTGCAGTGTGGGCGGCGGGCAAGGGGATGAACCTGATGAGCTCCACCCTGCTGACCGAGGACACCGGGGTGCCCTTTGACCAACTCCAGGCGGAGCAGATCCAGCTCTTCCGGGAGGCCTGGGCGGCGGCTGGGCACAGTCACCAGCCACGGGTTTCGGTCAGCCGCAGCATCCTGCCCATCGTGGATGAGGAAGACAGCCGCTACTTTGGCGGCAGTGCGCTCCGGGACACGCGGGACCAGGTGGGCATCATCGACGGGCTGACGGCACGGTTCGGAAAAAGCTATGTGGGGGATCCGGACGTCCTAGCTGGGGAGCTCGCAGGCGACGCCGCCGTGCAGGCGGCGGACACCCTGCTGGTCACCGTCCCCAACCAGCTCGGCGTGGACTTCAACGCCAAGCTGCTGGGCAACATCGCCCGCCATATCGCCCCTGCCACTGGGTGGAGCCGGGCCGTTTCCTGA	MQRIGFLSFGHWGPGQGSRTRTAGEALVQGIELAVAAEELGIDGAFFRVHHFARQQASPFPLLAAIAARTSRIEMGTGVIDMRYENPLYMAEEAAATDLISGGRLQLGISRGSPEPARNGAAAFGHLPAAGETDADMARRHTDQFRHAISGAGVAEADPRYAGGATGLLPVQPQSPGLAERIWWGAGSRKTAVWAAGKGMNLMSSTLLTEDTGVPFDQLQAEQIQLFREAWAAAGHSHQPRVSVSRSILPIVDEEDSRYFGGSALRDTRDQVGIIDGLTARFGKSYVGDPDVLAGELAGDAAVQAADTLLVTVPNQLGVDFNAKLLGNIARHIAPATGWSRAVS				NA	NA	NA	NA	NA
D1-29_03997	1284	lhgD	COG0579	L-2-hydroxyglutarate dehydrogenase	ATGAGGAAAGCGGCCGAGCCGCGGAAAGGTGGTTGGCCTGTGGCGCACTTCGACTTTTGTGTGGTGGGCGGAGGCATCGTGGGGCTGGCCACCGCCTACCAGCTGCTCCGCAAGAACCCGGGCGCCTCATTGGTCCTGTTGGAGGCCGCCGATACCGTGGCCTCGCACCAGACCGGCCACAACAGCGGCGTCATCCACTCCGGGATCTACTACCCGCCGGGCAGCCTGAAGGCCCGGTTCAGCAAGGCCGGCGCGGAACAGACCCGGGAGTTCTGCCGGGAGCACGGCCTGCGGTACCAGGAGCCTGGCAAGCTGTTGGTGGCCACCACGGAGTTGGAGCGGCGGCGGTTGGACGACCTGGAAAAGCGGGCGGCCATCCACGGCCTGGGCTGTGAACGACTGGACCAGGCGGAGCTGGCGCGGCGCGAGCCCAATGTGGCCGGTCTTGGTGCCCTCCTGATTCCCAGCACCGGAATCGTGGACTACCGGGCGCTTGCCCTCAAGCTGGCAGAGCTTGTGGCGGCAACCGGTGGTCAGGTGCTCACCAGCGCCCGCGTGATCTCCATCAGCGAGTCCGCAGACCGGGTGGACGTTGGAACCGGCAGTGAGCGGTACAGCTGCGGGAGGCTGGTGGTGTGCGGGGGGCTGCAGTCGGACCGGCTCGCGGAGCTGGCGGGCCTGGCCATCGACGTGCAGATCATCCCTTTCCGCGGCGAGTACTTCCAGCTGCCCGCTGAGAAATCCCGTTACGTCAGGCACCTCATCTATCCCGTACCTGATCCTGCCCTCCCCTTCCTGGGTGTCCATCTCACCCCGACCATAGACGGCACTATTACGGTAGGGCCTAACGCCGTCCTGGGCATGTCCCGCGAGGGCTACCCCAAGTTCTCCATCAACGTGCCCGACGTGGCGCGTTACGTCCGCTTCCCGGGGCTTTGGCGGGTCGCCCGGGCCAACCCGGCCACCGCTGCCAGGGAACTGCGGAACTCGATGTTCAAGGGCAGCTACCTGCGGGAGTGCCGGAAGTATGCACCAGGGCTGACCAGGGCGGACCTGCTTCCGCACGAGGCCGGGATCCGGGCCCAGGCCGTCCGCCGCGACGGGACCCTCATCCACGACTTCCTGCTGGCGGAAACACCCCGGATGATCCATGTGCTGAACGCACCCTCCCCTGCCGCCACCGCAGCCCTGCCCATCGGCGGGCATCTGGCGTCCAAGGCATCAGCGCCCTCCACGCCACCCACGCCGTCCACACCGTCCACGCCGTCAGACGGTGTCATGTAG	MRKAAEPRKGGWPVAHFDFCVVGGGIVGLATAYQLLRKNPGASLVLLEAADTVASHQTGHNSGVIHSGIYYPPGSLKARFSKAGAEQTREFCREHGLRYQEPGKLLVATTELERRRLDDLEKRAAIHGLGCERLDQAELARREPNVAGLGALLIPSTGIVDYRALALKLAELVAATGGQVLTSARVISISESADRVDVGTGSERYSCGRLVVCGGLQSDRLAELAGLAIDVQIIPFRGEYFQLPAEKSRYVRHLIYPVPDPALPFLGVHLTPTIDGTITVGPNAVLGMSREGYPKFSINVPDVARYVRFPGLWRVARANPATAARELRNSMFKGSYLRECRKYAPGLTRADLLPHEAGIRAQAVRRDGTLIHDFLLAETPRMIHVLNAPSPAATAALPIGGHLASKASAPSTPPTPSTPSTPSDGVM	PGPT0013225_769	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_GLUTARATE_UTILIZATION,PGPT0013225-lhgO|ygaF-K15736	NA	NA
D1-29_03998	852	cah	COG3338	Carbonic anhydrase	ATGTTAAGCACGCCGGAATTCTCCAGGAAAACGCTCATGCTGGGAGCGGGGATGGGCTTCCTGGCCCTTGCCACGGGATGCGCCAGGGCAGGCAGTGAAGCACAGCCGACGCCGGCCGCTTCTTCGGCTGCCTCCACCGCGGCCGCTGCCCCCGAATGGGAATACACGGGAGCCATGGGGCCGCAGGAATGGGGAACCCTCAGCCCCACTTACGGATCCTGCCAGGCGGGCACCGCGCAGTCCCCCATTGATCTGACAGGCGGAGCCCTCAACGGAACGGCCAGCGGCAGCGGGGACCAGGGCACTGTCATCCAACTGCAATACCAGCCATCGGACGCTGAAGTGGTCAATAACGGCCACACGTCTGAGCTCCACTCGGCGGCTCCGCAGGTGATGCTGCTCAACGGGCTGCCCTGGACGTTCAAGCAGTTCCACTACCACGCACCGTCCGAACACACCCTGGACGGGAAACGGTTCGAGGCCGAATTCCATTTTGTCCACCAGTCCGACGACGGCCGGCTGGCCGTGCTGGGTGTGCTCGCCGTCGAGGGCCCGAACAATGCCGCCTGGGCGGCTTTTGTGGACGCTGCAGCGGCCGCTCCCGCCGCTGGCTCCGAGGCCCCGGCCGGCGTCGTGGATCTTGGCTCACTCATCCCGGCCTCGCTGGACCACTTCGCCTATACCGGCAGCCTCACCACGCCGCCCTGCTCGGAAAACGTCCAGTGGCTTGTCCTGGAAACGCCGGTCGAGCTGGGGCGGGGGCAGCTGGACGCGCTTACCGCAGTCCACGACGGGAACGACCGCCCCCTCCAGGCCCTCAACGGGCGTGCTGTGAGTGTGGTGCACCAGTAA	MLSTPEFSRKTLMLGAGMGFLALATGCARAGSEAQPTPAASSAASTAAAAPEWEYTGAMGPQEWGTLSPTYGSCQAGTAQSPIDLTGGALNGTASGSGDQGTVIQLQYQPSDAEVVNNGHTSELHSAAPQVMLLNGLPWTFKQFHYHAPSEHTLDGKRFEAEFHFVHQSDDGRLAVLGVLAVEGPNNAAWAAFVDAAAAAPAAGSEAPAGVVDLGSLIPASLDHFAYTGSLTTPPCSENVQWLVLETPVELGRGQLDALTAVHDGNDRPLQALNGRAVSVVHQ	PGPT0002420_876	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002420-cah-K01674	NA	NA
D1-29_03999	1104			Carnitine monooxygenase reductase subunit	GTGGCAGCAACAAATAGTGAAGTGTGGCAGCTGGGAACAGTTGTCGAGGCCCAAACCATAGCGGCTGACATCCAGCGGATCGTGCTGGAACCTGACCTGCCGCTCAAAGCGGAGCCGGGCTCGCATCTCGATGTCATGGTGCTCATCGACGGGCAGCGCGTGAGGCGGTCCTATTCCATTGTGGAATCCAGCCAGGATGGCAAGCGGCTGGCGATCAGCGTCCTGAAGGCCCCGGCGTCGAGGGGCGGCTCCCTCTTCATCCACGCCCTGCAGCGCGGCGACAGGCTGGAGATCACCCAGCCGCTGCAGAACTTTCCGCTCCGGGTAGGCGCGGCGCGCTACATCCTTCTGGCCGGGGGAATCGGTATCACTGCCATAGCGGCCATGGCAGGCGTCCTGAAAAACCTGGGGCTTGACTACACGTTGGTGTATGCGGGCCGGCGGCGGGCCGCCATGGCGTACCTGCCGCAGCTGGAGGAGCTGCACGGTGCAAACCTGGTGGTCCACAGCGACGCCGAAGGGACACCCCTGGACGTGAACAGCCTGATGGCCGGCATAGAGGACGACGGTACGGAGCTCTACATGTGCGGTCCCATCCGGCTGATGGACGCCGTCCGCCGGGCGTGGACCCAGCAGGGCCTCAGCCCCGCCAGCCTTCGCTACGAGACTTTTGGAAACAGCGGCTGGTACCGGGCCGAGGAGTTCATCGTCCGGGTTCCCGGCCTGGGGATGGAGGTTCCGGTGGGGCCCGGCGAATCCATGCTGGAGGCCCTTCAGGGAGCCGGCCTGGACATGATGTTCGACTGCCGCAAGGGCGAATGTGGTCTCTGCGAAGTCAGGATCCTCCGGCTGGAGGGCGCCATCGACCACCGCGACGTCTTCTACAGCGCCAGGCAGAAGAATGCCACGGAAAAGATGGCGTGCTGCGTGTCCAGGGCGGTCACCTCGGCCACGGCTGCCATGGCTGCCGCGGCTGCCGCGGCTGCCGCGGCGCCGGGACCCGCAGCGCAGGGCACGGGGGTGTCCGGGCATGCTGTTCCCGGAACCACCGCCCCCGTGTCCGCTGCAGCCGGCCCCGCTGTGGTGACCATCGAGGTCCCCTGA	MAATNSEVWQLGTVVEAQTIAADIQRIVLEPDLPLKAEPGSHLDVMVLIDGQRVRRSYSIVESSQDGKRLAISVLKAPASRGGSLFIHALQRGDRLEITQPLQNFPLRVGAARYILLAGGIGITAIAAMAGVLKNLGLDYTLVYAGRRRAAMAYLPQLEELHGANLVVHSDAEGTPLDVNSLMAGIEDDGTELYMCGPIRLMDAVRRAWTQQGLSPASLRYETFGNSGWYRAEEFIVRVPGLGMEVPVGPGESMLEALQGAGLDMMFDCRKGECGLCEVRILRLEGAIDHRDVFYSARQKNATEKMACCVSRAVTSATAAMAAAAAAAAAAPGPAAQGTGVSGHAVPGTTAPVSAAAGPAVVTIEVP				NA	NA	NA	NA	NA
D1-29_04000	1095	tsaM1		Toluene-4-sulfonate monooxygenase system iron-sulfur subunit TsaM1	ATGAACGCAATGCAAGCCAGGAGTTCCACCACCAACAAGGTCCTCGGCTACCCGCTGAATGCCTGGTACGTGGCGGCGTGGGACAAGGAAGTGACCCGTAAACCAATGGCGCGGAAAGTGGCCGGCCGTCCTTTGGCCCTCTACCGTACCGAGGACGGCAAGGCGGTGGCGTTGGCTGACGCTTGCTGGCACCGGCTGGCTCCGCTCTCCATGGGCAAGACCCTGGGCAAGGACCAGATCCAGTGCCCCTACCATGGCATCGTTTACAACTCGGCCGGGCGCTGCGTTTCCATGCCGGCGCAGGAAACCATCAACCCCAGCGCCACCGTCCCTTCTTTTCCGGTGGTGGAACGGCACCGCTATGTGTGGGTCTGGCTGGGCGACCCCACCCAGGCCAACCCGGCACTTGTCCCGGACATGCATCAGCTGGATTCGGCGGAATGGGCGGGGGACGGTGAAACCATCCATGCGCCGTGCAATTTCCAGCTGGTGCTGGACAACCTGATGGACCTCACCCACGAGGAATTCATCCACTCCTCCTCGATCGGGCAGGAGGAGCTGAGCGAGTCTGACTTCGTGGTCACGCACGACGGCGACACCGTCACCGTCGCCCGGTGGATGTTTGACATCGACGCCCCGCCATTCTGGCTCAAGAACATGAGGGACAAATTTCCGGGCTTCGCGGGCAAAGTGGACCGCTGGCAGATCATCACCTTCCGCTCGCCGTCGGTCATCAACATCGACGTTGGGGTTGCCAAGGCTGGAACGGGAGCGTTCGACGGCGACCGCAGCCAGGGCGTCAACGGTTTTGTCATGAACGCGATCACCCCCGAGGGTGACAGGTCCTGCCACTACTTCTGGGCCTTTATGCGGAATTACCGGCTGGACAGCCAGCTCATCACCACCCAGCTGAGGGACGGCGTGCATGGCGTTTTTGGCGAGGACGAGGCGATGCTGGCCGCGCAGCAGGAAGCGATCGATGCCAATCCTGACTACGAGTTCTACAACCTGAACATCGACGCCGGCGGCATGTGGGTGAGGCGGCTGATTGAACGCCAGCTCGAGGCCGAAGGCCGCCTGGTTCCCAGTGCCTGA	MNAMQARSSTTNKVLGYPLNAWYVAAWDKEVTRKPMARKVAGRPLALYRTEDGKAVALADACWHRLAPLSMGKTLGKDQIQCPYHGIVYNSAGRCVSMPAQETINPSATVPSFPVVERHRYVWVWLGDPTQANPALVPDMHQLDSAEWAGDGETIHAPCNFQLVLDNLMDLTHEEFIHSSSIGQEELSESDFVVTHDGDTVTVARWMFDIDAPPFWLKNMRDKFPGFAGKVDRWQIITFRSPSVINIDVGVAKAGTGAFDGDRSQGVNGFVMNAITPEGDRSCHYFWAFMRNYRLDSQLITTQLRDGVHGVFGEDEAMLAAQQEAIDANPDYEFYNLNIDAGGMWVRRLIERQLEAEGRLVPSA	PGPT0005490_131	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0005490-vanA-K03862	NA	NA
D1-29_04001	588			hypothetical protein	ATGAGTCTTCGTTATGCACTGCTGGCTTTGCTGTCTGTGGAGCCGATGACGGGCTATGACCTCGCCAAGCACTTTGAATCGTCGGTCGCGTACGTGTGGCACGCCCCCGATTCCCAGATCTATCCCGAACTGCGGCGGATGGAGAAGGAAGGGCTGCTGCTGGCCAACGAAGTGCCCTGGGGCCCCAACAGCACAAAGACCCGGTACAGCATTGCGGCCGCAGGCACGGCGGCCTTCCGGGAGTGGATGAATACTCCGCTGGAATATTCCCGCGAGCGCGACCCCGCCCACCTCAAGGCTGCCTACCTGGAATGGGCCGAGCCGCCGTCCGCCCGCGCGCACATGAGGGCGCACCTGGAATACCACTCCCTTCGTCGCAGGCAGTGGGAGGGCATGATCGAGGAGCTGCGGAACGGCACCAACGTGATGCTGAGCAAACGGCTGGCGAAAACACCGGAAGCGGACAGGCGCCGGACCACCGAGTACAAGATCTTCACCTACGAAGGTCTCATTGCCCGGGCGGAGACAGAAATTGCCTGGGCACGCCGGGGCCTTGAACTCATTGATTCCCTCGAAGGCAGCAACTGA	MSLRYALLALLSVEPMTGYDLAKHFESSVAYVWHAPDSQIYPELRRMEKEGLLLANEVPWGPNSTKTRYSIAAAGTAAFREWMNTPLEYSRERDPAHLKAAYLEWAEPPSARAHMRAHLEYHSLRRRQWEGMIEELRNGTNVMLSKRLAKTPEADRRRTTEYKIFTYEGLIARAETEIAWARRGLELIDSLEGSN	PGPT0025575_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR|BF-CELL_DENSITY_REGULATION	CE-QSR|BF-BIOFILM-LOW_CELL_DENSITY_REGULATOR,PGPT0025575-aphA-K10917	NA	NA
D1-29_04002	405			hypothetical protein	GTGCCCACCGACCAGACACCGCCCAACAGTCCCGAGCCGCCGTCGCGCGGGAAACTGGCCGAGCGGCTGCTGCCCGGGGGAACGGAACCTGATCCCCGCTTCACCCTCGCCAACGAACGGACGTTCCTTGCCTGGATCCGCACCTCGCTGGCTCTCCTTGCCGGCGGGATAGCCATCGAGGCATTCACCGCGGATCTTTTCCTGGAGCCTGTGCGCAAAGGCCTGGCTGTCCTGCTGTTGCTGCTGGGAATGTTGCTGAGCGCGGGATCAGCAGTGCGCTGGATCAGGGTGGAGCGCAGCATGCGCAACAAAACACCGCTCCCGCTGCCTCTGATCGTGCCACTGCTGGCCGGGGCCGGTGCCCTGGCGGCCGCCGCTGTCCTGATTTTTGTTCTCTGGCGCTGA	MPTDQTPPNSPEPPSRGKLAERLLPGGTEPDPRFTLANERTFLAWIRTSLALLAGGIAIEAFTADLFLEPVRKGLAVLLLLLGMLLSAGSAVRWIRVERSMRNKTPLPLPLIVPLLAGAGALAAAAVLIFVLWR				NA	NA	NA	NA	NA
D1-29_04003	345			hypothetical protein	GTGGAACGCCGCACACCAGCCCCTGGCCTGCACGGCGATGCCGGGCTGCAGCCGGAACGGACCACGCTGGCGTGGGGCCGCACCATGATGGCGCTGGTCACTGTCAGTGCCATTTTCCTGCGCTGGCTCCCCCAGCACGGCCTGCCCATCCTGTTGCTGTTCGCCGTTTCCATCACGGCCGCAGCGGCCATTTACTTCACCCAGCGCCGCCGCTACCGTGCCAGCGCAGCGGGGATCGTCCGGGAAAATGTCGACGCCGGCGCCTCCGCCGTGATCTGGACGGCGTTCGCGGGGGTTGTGCTGGGGGCGTTGGGAATCGGCGTGGTTCTCCTGGGCAGCCCGTGA	MERRTPAPGLHGDAGLQPERTTLAWGRTMMALVTVSAIFLRWLPQHGLPILLLFAVSITAAAAIYFTQRRRYRASAAGIVRENVDAGASAVIWTAFAGVVLGALGIGVVLLGSP				NA	NA	NA	NA	NA
D1-29_04004	567	tadA_2		tRNA-specific adenosine deaminase	GTGACGGCGCACCTTACCGCCCCACAGAATGCCGAAACGGGGTTTAATGACCGCATGACCCACCCCACACAGCAGTCCACCAGCCCACTGACGCCGCAAGCGGCCCCTGACCCCGCTTTCGAAGCCGCTTTTCAAGCCGCCCAAAAGAGCGCCAACGAAGGCGGCATTCCTATCGGGGCAGCGCTTGCACGTGACGGCGTGGTCATCGCGAGCGGACACAACGAACGGGTTCAAAACGGCGATCCGATAGCGCACGGGGAAATGTCCGCCTTGCGTGCGGCCGGCCGGCAGAAGAGCTACCGGGACACCACTTTGTACACCACCCTGGCCCCGTGTGCCATGTGCACCGGAACCATCATCCAGTTCAAAATCCCCCGGGTGGTGGTGGGCGAAGCGCGCACGTTTGGCGGCGAGTTCGAACTTCTGCGCTCACGCGGCGTGGAGGTGGTGGTCCTGGATGACCAGCGGTGCGTGGACATGATGCGGGCGTTCCAGGAAAACAACCCCGACTTGTGGGCGGAGGACATCTCTGAGGACGTCAGCCCGGACATCACTAAGCAGGACTAG	MTAHLTAPQNAETGFNDRMTHPTQQSTSPLTPQAAPDPAFEAAFQAAQKSANEGGIPIGAALARDGVVIASGHNERVQNGDPIAHGEMSALRAAGRQKSYRDTTLYTTLAPCAMCTGTIIQFKIPRVVVGEARTFGGEFELLRSRGVEVVVLDDQRCVDMMRAFQENNPDLWAEDISEDVSPDITKQD	PGPT0021320_75	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021320-codA|cdd-K03365	NA	NA
D1-29_04005	948			hypothetical protein	GTGCACAATGGGTGCATGATCGATCCACGGCTCATAACACTTCGGGTATTTGCCCGGTGCGGCACTGTTGGTGCGACCGCGGAGCTCACGGGTTATTCTCCCTCCGCAGTCTCCGCGCAACTGCGGGAGCTCCAGCGCGTGCTGGGAATGCAGCTGCTGACGAAGGATGGCCGGGGTGTGCGGCTGACCGCCACGGGCCGCTTTCTCGTAGAAGGCTCGGACGCCCTGATTGCGGAATGGGAGAGCCTGCGCGCCGCCGCCATGGAGGCTGGCGACCAGGTGCAGTCCCGTTTTGGCCTCGGCGGATTCTCGACGGCGGCCGCCCAGTTGCTCGCGCCGCTGGCCGCCACGCTGCGCTCAACACGCCCGCTGCTGGAGGTGCAGGTACTCGAGGCCAATCCGGCCCGCTGCTTCGACTTGTTGGTTGCCGAACGAATCGACCTGGCGGTCATCGTCGCCATGCAGTCCGACACCTATGTTGAGGACGATCCGCGCTTCGAGCAGACCGTTCTGCTCGACGATCCCCTGGACGTGATCATTCCCTCCGACCATCCGTTGGCTTCGCGGGAGACGGTGACGCTCGAAGAATTGGCGTCGGAACCCTGGATCACCGAGGCCGCGGGTTCCACCTACCATTCCCTGTTCACCGCGGCCTTCACGGCAGTCGGCGTGACGCCGCGGATTGCCCATGAGGCCATTGAATGGGAAACCCAGATCGCCTTCGTTGGTGCGGGGCTGGGCGTGGGGCTGCTGCCGCGACTGGCGCCCCTGCGTGGTGCCGAGAACGTGGTTCGACTGCGCATTACCGGCAAGGGGCGGCCCGCGCGCCGCATTGTCGCTGCGGTGCGCAGCGGCAGTATCGCATCACCCCTGATCCAGGAGTCGCTTGGCATCCTTCAGGCCAGGGCCCATCGGATCCTCACCGCCCGGCCCGAAGACGATCTCTGA	MHNGCMIDPRLITLRVFARCGTVGATAELTGYSPSAVSAQLRELQRVLGMQLLTKDGRGVRLTATGRFLVEGSDALIAEWESLRAAAMEAGDQVQSRFGLGGFSTAAAQLLAPLAATLRSTRPLLEVQVLEANPARCFDLLVAERIDLAVIVAMQSDTYVEDDPRFEQTVLLDDPLDVIIPSDHPLASRETVTLEELASEPWITEAAGSTYHSLFTAAFTAVGVTPRIAHEAIEWETQIAFVGAGLGVGLLPRLAPLRGAENVVRLRITGKGRPARRIVAAVRSGSIASPLIQESLGILQARAHRILTARPEDDL				NA	NA	NA	NA	NA
D1-29_04006	1302			Carnitine monooxygenase oxygenase subunit	ATGTCTGCTCCAGTCTTGCCCCTCAATTCACGCGGAAAACTCGCCTCATCATTGCCTGCCGAGCAGCTGGCGGAAATCAAGGAGTTGTTCGATTTCCGGCGCGTGGGATATTCCCTCGATGCCCCCTTCTACACCGACCCGACGATCTTCAACATCGACATGCAGGCCATTTTTGGCCAGCACTGGATCTTCGCCGGCAGCATCGCCGAACTCCCGGAGCCGGGCGACTACATCACCGTCGACTACGGGCCCTACTCCCTGATCGTGCTGCGCAACGACGACGGCGGCGTGAACGTCCTGCACAACGTGTGCCGCCACCGCGGCGCCCGCGTCCTGACCGAGCCCGCCGGGTCAACGGGAAACCTGGTCTGCGGCTATCACTCTTGGACCTACTCGCCGGAGGGCAATCTGATCCACGCCTCGGCACCCGGGGAGACAAAGTTCGACAAGGGCTGCTTCGGCCTCAAGCGCGCCCACAGCCGCGTGGTGGCCGGGCTCATCTTCGTCTGCGTTGCGAACGAACCGCCGGCGGATTTTGACGAAACCGCCAAGATCTTCGAGCCTTACCTCGCGCCCCACGATCTGTCGAAGACGAAAATCGCCTACCAGCAGAACATCATCGAAGAGGGCAACTGGAAGCTCGTCATGGAGAACAACCGTGAGTGCTACCACTGTGACGGCCACCCGGAGCTCGCCTGCTCCCTCTTTCCCACCTGGGGCCTGACGGAGGGCCTGATCCCGGCCCACCTTGAAGAAGTATGGGACCGCAACAAGGAAGCACAGTCCTCACTCGAGGAACGTTGCCGCCGCTACGGCCTTCCCTACGAGGTGGTGGAGGAGCTCGACACACGCGTAGCTGGTATCCGCATCTCACGGGAATCGCTCGACGGTGAGGGCGAATCGTTCTCGCCGGACGGGCGCAGGCTCTCCAAAAAGCTGCTCGGCGACTTGCGGGACTTCCGCCTTGGCCGCTGCTCGATGCACCTGCAGCCCAACAGCTGGTTCCACTTCCAGGGGGACCACGTCATCACGTTCGGTGTTTTCCCCGTGAACGAACACCAGACACTGGTGCGCACCACCTGGCTGGTAGCTGACGACGCCGAGGAAGGCGTCGACTATGACCTGGAGAAGCTCACCTACACCTGGAAGCAGACCAATCTGCAGGACAAGGCGTTCGTGGAGCTGTGCCAGACGGGCGCCGGCAGCCCCGCGTACGAGCCCGGCCCTTATATGAAGAGCGAGTACCAGGTGGAGGCGTTCATCAACTGGTACGTGCAGCGCGTGCAGGAGCACTTGGCATGA	MSAPVLPLNSRGKLASSLPAEQLAEIKELFDFRRVGYSLDAPFYTDPTIFNIDMQAIFGQHWIFAGSIAELPEPGDYITVDYGPYSLIVLRNDDGGVNVLHNVCRHRGARVLTEPAGSTGNLVCGYHSWTYSPEGNLIHASAPGETKFDKGCFGLKRAHSRVVAGLIFVCVANEPPADFDETAKIFEPYLAPHDLSKTKIAYQQNIIEEGNWKLVMENNRECYHCDGHPELACSLFPTWGLTEGLIPAHLEEVWDRNKEAQSSLEERCRRYGLPYEVVEELDTRVAGIRISRESLDGEGESFSPDGRRLSKKLLGDLRDFRLGRCSMHLQPNSWFHFQGDHVITFGVFPVNEHQTLVRTTWLVADDAEEGVDYDLEKLTYTWKQTNLQDKAFVELCQTGAGSPAYEPGPYMKSEYQVEAFINWYVQRVQEHLA	PGPT0013680_69	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013680-gbcA-K00479	NA	NA
D1-29_04007	1416	hmp_2		Flavohemoprotein	ATGATTGAAGTCCTCACTGAGACGGCCACCCAGGAACCACAGCGTATTCGCGGTCTTGAGATGCCCTGGAACAGGGTAATGGGCAGCACCGAGGGAGCCGCAGGCGCAGCCCGCGCCTTGGGCCCCTGGCACCCGCAGGAGTTCATGGCTGAATGTGTCGAGACCGTTCCCGAGGCGGGCGGCATGATGACCTTCGTGTTCCGCCGCTGCGACGGTGCGCCGCTGGCGTTCCGTGCGGGGCAGTACGTGAACGTCGCGTTTCCCCTCAACGGCGAGGACCAGGATCCGGTGGACCGCAGCTACTCGCTGTCCAGTTCACCCACACAGCCCTGGACCTTCAACATCACGGTCAAAAGCGACCCCGCGGGACTCGTCTCACCGTGGGTGCACGAGAACGTCAAGCCCGGCACCGTCCTGGAGATGCTCGGACCGGTCGGGGCATTCCACCTGCCCGACGCCGACCGCCGGGCCCGGTACCTCTTGCTGGCTGCCGGCGCAGGCATCACCCCCATCATGTCGATGCTGCGGACCATCCACTCCCTGCCCGGACAGGCGGATGTTGTGGTGCTCTATCACGGAGCGGAGGCCGGAGGCTTTGCCTTCCACCAGGAGTTGGCCTACATCGCCTCAGTTGACTCGCGGGTCAAGGTCTTCTACTCGCTGGGCGACCGCAGCGTTCCCGAGGGGTGGGAAGGGCTCACCGGAAGGCTGACGGCGGCCATGCTGGAGGAGGTTGCCCCCGATGCCAACGGCCGCCAGGTCTATGCCTGCGGCCCCGAGGGTTACCTGAACACCGCCACTGAGCTCCTCAGGAAGGTCGGCGTCGACGACACCTCCATATACATGGAATTCTTCTCGGGAGACCGCCAGACCCTCCTTGAGTACCAGGCGGAGCTCGCGTTTGCAGTGGATATTGCGGAGGAAATCGCCGAGGAAATCGCCGATTCCGCCGAGGACTACTACGAAAGCCAGCCCACCGCGTTCGGGCTCTACGAGCCCGGTTACGACGCCGAGGGAACCCTGAAGGCCACGGGGCTGGCGCTGGAAACCGTCGATCCGGACGTACCCGCGTCAGAAGCCCCTGGAGGCAATCCGGACGTGGGGTCGGAGGCCGGGTCCCCCGATGCCTCGAGCTTCGACACGGTGGGAACGGGAAGCCTCACCCTGTCCTTCATGCGCACCGGCATCAATGTGCGCATCGACCCCGAAGAACACATCCTTGGGGTGGCCCAGCGTGCGGGCGTCAGGATCGGCGCGAACTGCAAGGAAGGCATGTGCGGCTCCTGCAAGGTCGTCAAGCTTTCCGGGGAGGTGGAGATGAACCACCAGGGCGGGATCCGGGCACGGGAAATCGATGCAGGCAAGTTCCTGCCCTGCTGCTCCACCGCGCGGACGGATATGGTGATCGATGCCTAG	MIEVLTETATQEPQRIRGLEMPWNRVMGSTEGAAGAARALGPWHPQEFMAECVETVPEAGGMMTFVFRRCDGAPLAFRAGQYVNVAFPLNGEDQDPVDRSYSLSSSPTQPWTFNITVKSDPAGLVSPWVHENVKPGTVLEMLGPVGAFHLPDADRRARYLLLAAGAGITPIMSMLRTIHSLPGQADVVVLYHGAEAGGFAFHQELAYIASVDSRVKVFYSLGDRSVPEGWEGLTGRLTAAMLEEVAPDANGRQVYACGPEGYLNTATELLRKVGVDDTSIYMEFFSGDRQTLLEYQAELAFAVDIAEEIAEEIADSAEDYYESQPTAFGLYEPGYDAEGTLKATGLALETVDPDVPASEAPGGNPDVGSEAGSPDASSFDTVGTGSLTLSFMRTGINVRIDPEEHILGVAQRAGVRIGANCKEGMCGSCKVVKLSGEVEMNHQGGIRAREIDAGKFLPCCSTARTDMVIDA	PGPT0013685_69	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013685-gbcB-K21832	NA	NA
D1-29_04008	639			hypothetical protein	ATGGATGTGAAGCCTGAAATCGGTGAATCCAATGCGGGAGGCTGGCAAGCCGAGTCACTGGAAGCCTTGGTGCAGCGGCTCCTGCCGGCAGCAGGACAGCGTCCGAACCGCCCTTGGATTGTAGCCGTTGATGGAAGGAGCGGGGCCGGCAAGACCACCCTGGTCAATCGTCTGCTGGCTCGAGTGCCGGACTCGGATGTGGTCCACACGGACGATGTAGCGTGGCACCTCTCGTTTTTTGACTGGGCCGATGAACTCCGTGAAGGGGTCCTCGAACCCCTGCTCCAAGGCGAGGCAGTCCACTACCGTCCGCCGGGTTGGGTGGCCCGGGAACGTCCAGGAGCCATTGCTTTACGCGCCGGGCGTTCGGTGGTGTGGGTGGAAGGGAGCGGATCATCACGACAAGACCTCACCGACCTGATCGACGCTTCGATCTGGGTGCAGTGCGACAACCTTGAAGCCAGACGTCGCCTCCTGGCACGAGATGGCCAGGAGGAACAAGACCTGCACAGGGAGTGGGAAGCCCAAGAAATTCCCTTCCTACTCCAAGACCGGCCATGGGAGCGGGCTACGGTGATCGTGGCCGGCAGGCCGGCCCTGGAGCACGATCCGAAGACCCAGATTGTGTTCCTGCCGTGA	MDVKPEIGESNAGGWQAESLEALVQRLLPAAGQRPNRPWIVAVDGRSGAGKTTLVNRLLARVPDSDVVHTDDVAWHLSFFDWADELREGVLEPLLQGEAVHYRPPGWVARERPGAIALRAGRSVVWVEGSGSSRQDLTDLIDASIWVQCDNLEARRRLLARDGQEEQDLHREWEAQEIPFLLQDRPWERATVIVAGRPALEHDPKTQIVFLP				NA	NA	NA	NA	NA
D1-29_04009	963	dagK_2	COG1597	Diacylglycerol kinase	ATGAAGGTTGCGCAAGCGCGCTCTGCTGCCGTGGTGATTAACGCCGGATCCCGCCGGGGAGCGGCAGCGCTTGAACTTGCGGTGGACAAGATGAAAATGGCAGGTTTGCCGATCACTTCCGTGCACCACGTGCTGTCGGGAGCAGAACTGGCCGGCACGCTCGATCAAGTGATGGCGGACGGGCACGACCTGGTGGTTGTTGGCGGCGGCGACGGGACGGTGAGCTGCGCCGCCGGCCGGGTTGCCGGCACCGACGTCATGCTCGGCGTTCTTCCACTGGGCACCGCCAACGACTTCGCCCGCACCCTGGAGATACCGAGCAACCTGGCCGAGGCGTGCGCTACCGTCGCGGACGGGAAGGTGGTGGACATCGACCTCGGCCGGGCAAACGGCGAGCCATTCCTCAACGTCGCGTCCGTAGGCCTCTCCGTGGCTGTTACCGAAGCTCTTAGCCCGCGGCTGAAGCGGTACATCGGGCCGCTGGCATACGGCATTGCCACCCTGAACGCTTATGCCCGGCACAAGGCTTTCCCGGCCCGTCTCGAGTTCACCGACGGGGACCACGAGCCGATGGAGCTCGACAACCTGCTTCAGGTGGCAGTCGGCAACGGCCGGCACTACGGCGGTGGCAACACGGTCTCCCCCACGGCTGGGATCGATGATCACACCCTGGACATCTACGCCATCCTGGCGGGGCCGCTCCGTGAGCACGTGAGCATCGCACGGTTACTCAAGGACGGAAGCTTCATCAAACATGACCGGGTGTATCACCTGACAAGCCGACGTGTCCGGGTGGTCACCGAGCAGCCGCTGCCAGTGAACCTCGACGGCGAGATCACCACTGCCACGCCGGCAGACTTCACCATCCAGCGCAACGCCGTGCACGTCGTGGTGCCACAGAGCAGCAGCAGCGCGCTGCTCGATGGACGGCATGCACCGCCGCCAGAAGACCCGTCCATCTAA	MKVAQARSAAVVINAGSRRGAAALELAVDKMKMAGLPITSVHHVLSGAELAGTLDQVMADGHDLVVVGGGDGTVSCAAGRVAGTDVMLGVLPLGTANDFARTLEIPSNLAEACATVADGKVVDIDLGRANGEPFLNVASVGLSVAVTEALSPRLKRYIGPLAYGIATLNAYARHKAFPARLEFTDGDHEPMELDNLLQVAVGNGRHYGGGNTVSPTAGIDDHTLDIYAILAGPLREHVSIARLLKDGSFIKHDRVYHLTSRRVRVVTEQPLPVNLDGEITTATPADFTIQRNAVHVVVPQSSSSALLDGRHAPPPEDPSI	PGPT0024345_785	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
D1-29_04010	1206			hypothetical protein	GTGAGCGAGCGGAAGTCCATTCGGTGGCTGTGGATGCTGATTGCCTCAGCAGTGCTTTGCCAGATCGCCCTCAACCTGGCTAGGCCGCTTATCTCCTATAAGGTGCTGGCCCTCGGCGGCGACTCGGTGGCAGTTGGCCTGACCTCTGCCTCCTTCGCCCTCCTTCCAGTGGCGATCGCCCTCTGGCTCGGGCGACTGTCAGACCGCCGAACGTCGATGAAGGGCATCACCTTGGCGGGGACGCTCCTGCTGGCGGGCGGCCCGTTCCTGCTGTCCACCGCCCCGTCCCTCCTGCTCGTTGGAATCTCCAGTGCGGTACTGGGCATTGGACACCTGTGCTTCACGATTGCTGGACAGTCCGCCATCGCAAGATTTGTTCCGCTCAGCCGGATGGACGCAGCCTTCGGCTGGTTCACTGCGTCATTCTCCCTTGGTCAGCTCGTCGGTCCACTTGTTGCAGGCCTGGCCATGGGATCTGCAGGAAACGCGGCGGCCGCCGCCCGGCTCATGGACGCCAACGCAGCATTGATGTTGGCGGGGGCAATATCTGTGCTGGCCATTCCGGTAGCTCTGGGGGCATCGGCGAAAGAACGCACGAGTGGACGGGAAACTTCAGAGGCAGCGCCGGCGAAGGCGCCCACATCTAAATCTGTAGGCCACCTTCTCGGTATCCCGACAGTGAAGACGAACATGCTGGCCAGCCTTGCATTGCTGGCCACAACCGACATCATCGTTGCGTTCCTCCCTCTGCTCGGAGAGGAAAATGGAATCGCCCCCATCGGAATTGGCGTCCTGCTGGCCATCCGGGCGGCAGCATCCATCACGTCCCGTCTGCTCCTGCCCGTCATGCTGACCCGATGGAGCAGAACCGGACTCATCACAGCCAGCCTTGCAGGGGCAGGCATCAGCTTGTCCATCCTGCCGTGGCTGTTTGGAAATCCAGTCCTTGCAGCCGTCCTCCTGGCAATCGTTGGATTCTTCCTCGGACTCGGACAACCGATCACGATGACCCTCATCACGCAGGCGGTTCCTCCAGATGCGCGGGGCGCCGCACTGGCGCTGAGGCTGCTCGGCAACCGCCTCGGACAGGTGGCCTTGCCGATAGGGGCAGGACTGCTGGCAGCTCCAGCTGGACCCGGGGGAGCCTTATGGATGTCGTCAGCCGTTCTCTGCGCTGCGTCCATCAGATGGCCCAAGAGGCGCTGA	MSERKSIRWLWMLIASAVLCQIALNLARPLISYKVLALGGDSVAVGLTSASFALLPVAIALWLGRLSDRRTSMKGITLAGTLLLAGGPFLLSTAPSLLLVGISSAVLGIGHLCFTIAGQSAIARFVPLSRMDAAFGWFTASFSLGQLVGPLVAGLAMGSAGNAAAAARLMDANAALMLAGAISVLAIPVALGASAKERTSGRETSEAAPAKAPTSKSVGHLLGIPTVKTNMLASLALLATTDIIVAFLPLLGEENGIAPIGIGVLLAIRAAASITSRLLLPVMLTRWSRTGLITASLAGAGISLSILPWLFGNPVLAAVLLAIVGFFLGLGQPITMTLITQAVPPDARGAALALRLLGNRLGQVALPIGAGLLAAPAGPGGALWMSSAVLCAASIRWPKRR				NA	NA	NA	NA	NA
D1-29_04011	915	gltC_3		HTH-type transcriptional regulator GltC	ATGCTTAACATTCGACGACTCGAATTGCTCTTGGACGTAGTGGAGCTTGGATCGATTACGGCTGCTGCCGAAAAGCACGTCTACTCGCCGTCGGGAGTCTCTCAACAGCTGCGGCGCCTGGAAGCCGAAATCGGGCAGCCCCTTCTTCAGCGGCAGACCCGTGGGATGGTCCCCACCGATGCCGGGCATGTCCTCGCTGCACACACGCGCCGTATCCTGCGACAGATGGCTGCCGCGGAGGCTGATCTGGCAGAAATAGCAGGACTGCACCGTGGCAGCCTCACCATGGGAACCTTCCCCACCTTGGGTGGTTCCTTTCTGCCGCTCGTGATCAGCAGATTCAAGAAGGAGTACCCGGCCATTGAACTGCACGTCCGCAGCAGCCGCTTCGAGGACCTCGTGGAAATGCTGGAAAACGGCCAGGTGGGAATGTCTCTTTTGTGGGACTACGAATGGAACCGGATCAATCCCGGGGACTTTGCCCTCACTACTGTCTTCGAAGACGCCACGGCGCTCATTGTTGGCAAAGACCACCGGCTGGCGCGGCGGAAGCAGGTGGACATGGCAGACCTGGCCACAGAAGAATGGATCGTTCGCGGTGATGCACATCCTGTGGTTGAAGTTCTGCAGAGAAGCGCACGTGCCGCGGGGTTCACTCCACGAATAGCTTTCCAGGCCAACGACTACCAGGAGGCCCAAGCCATGGTCAGTGTTGGCCTGGGCATAGCGCTTGCTCCGCGAACCGCAGTGGTCAACAAGCATCCAGGTGTCAGCATTGTTTCCCTCGGTTCGAGTGCCCCGTCCCGAAGAGTGCTCCTCGCCCACCGCCACGACAGGGTGCGCGCCGCCGCGGAAATGGCCTTCCAGGCAACGCTGCTGGACGTTGCCAAAGACACCACCGCGGACTTCCGGTGA	MLNIRRLELLLDVVELGSITAAAEKHVYSPSGVSQQLRRLEAEIGQPLLQRQTRGMVPTDAGHVLAAHTRRILRQMAAAEADLAEIAGLHRGSLTMGTFPTLGGSFLPLVISRFKKEYPAIELHVRSSRFEDLVEMLENGQVGMSLLWDYEWNRINPGDFALTTVFEDATALIVGKDHRLARRKQVDMADLATEEWIVRGDAHPVVEVLQRSARAAGFTPRIAFQANDYQEAQAMVSVGLGIALAPRTAVVNKHPGVSIVSLGSSAPSRRVLLAHRHDRVRAAAEMAFQATLLDVAKDTTADFR				NA	NA	NA	NA	NA
D1-29_04012	1056	galD	COG2828	4-oxalomesaconate tautomerase	ATGCGCGGTGGAACCAGCAAATGCTGGGTGTTCGAGTGGGACAATCTCCAGGTCCCAGGAAAAAGCGTGGACGAAGTTCTCCTGCGTCTCTTCGGCAGCCCCGATAGCCGTCAGATTGACGGCGTGGGGGGCGGAACATCCACCACCAGCAAGGCCGTCATCCTTACCCGCTCCCTCAGCGAGCATGCCGACGTCGATTACACGTTCGCACAGGTGGCCATCGACGAGCAGCGGGTGGACTGGGGCAGCAACTGCGGCAACTGCTCAGCCGTAGTAGCCCCCTATGCAATCCAACGGGGTTGGGTGGCTCCCGGCCAGGAGAGCACATCCGTCCGGACCCTGAACACCAACACAGATCAGCTCATTCTGCAGAAAGTTCCGACGCCGGGCGGCCAGCTTCAGGACACAGGCACCCAGATGATCCCCGGCGTTCCGTTCCCCGGGCTGTCGGTCGGCATGGGGTTCCTGGACCCCGCCGGGAGAACCACCGGGAAACTGTTTCCCACGGGTGAACCGGTGGAGAAAGTGACATTCGACGGGCGTGAAGTTCCGGCCACGCTCATCGATGCAGGTGCTCCCCTCATCATTCTGGACGCTGAGTCCATCGGCCTCACCGCTATGGAGGCGTCTGCCGACATCGACAGCCAGGCTGCACTCCTTGTGCATTTGGACGACGTTCGCCGGGATGCCGCCGTACGCATGGGCCTTGCGGCCACCCGGGCTGAAGCAGCACGGGCGATACCGAAACTGGCGCTGGTGGGCAAGGCGGGCCAGGACGATGAAGCGGACCTCAACGTGAGAATGCTGTCCATGGGAAGGCTCCATCCTGCCCTGGCTATCACGGGAAGCGTCGCCCTGACCATGGCCGCCCAGCACGAAGGGACGGTGGTCCGGGACCTCCTCCCCACTGATCCTTCATCGGGGCTGACCATGCGCACCCCGGCCGGCATCGTTCAGACATGGGCGGAAATTCGTGATGGCGTGTCCGTCGTCGGAACGATTCGAAGCGCCCGCCGCCTCGCGGACGCCGAACTGCTGCTTCCAGAGTCCTGGTAA	MRGGTSKCWVFEWDNLQVPGKSVDEVLLRLFGSPDSRQIDGVGGGTSTTSKAVILTRSLSEHADVDYTFAQVAIDEQRVDWGSNCGNCSAVVAPYAIQRGWVAPGQESTSVRTLNTNTDQLILQKVPTPGGQLQDTGTQMIPGVPFPGLSVGMGFLDPAGRTTGKLFPTGEPVEKVTFDGREVPATLIDAGAPLIILDAESIGLTAMEASADIDSQAALLVHLDDVRRDAAVRMGLAATRAEAARAIPKLALVGKAGQDDEADLNVRMLSMGRLHPALAITGSVALTMAAQHEGTVVRDLLPTDPSSGLTMRTPAGIVQTWAEIRDGVSVVGTIRSARRLADAELLLPESW	PGPT0001520_822	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACONITIC_ACID_BIOSYNTHESIS,PGPT0001520-prpF-K09788	NA	NA
D1-29_04013	1209			hypothetical protein	ATGACGAGCAACAAGTCATCCTTGGAGCCGCCCGGGCTCTTCCCGGAAGGCACCGACGGGCAGACCGAGCCAAGCGAGCAGCCCGATCTGCCCAAGCACTCCCGGCGCACCGTCCTTACAGCCGTCAGCGCTTTCGCACTGCTGGGCGCTGCAACCACCGTCCTGGGTGGAAGCCTGCTGAACCCGCCCTCAAGCACAGAAGACGGCAACTTCAGTGGAGAAACCCTCGAGTTCCTGATTCCCCTGGCTTCAGGCGGTGGAACTGACACCTGGGCGCGGTTCATTGGCACAGAACTGACCAATTATGTTCCGGGCCGGCCGGGTTTTGCGCCAGTGAACGACGCCGGCGGCGAAGGCATCCTGGGCACCAACCGGTTCGCCCGCTCAGCCAAGACCGACGGCACCGAGATCCTGGTCGGCACGGCATCCACCGTGGTGCCGTGGGTCCTGGGACGCTCGGCCGTGAAGTACTCCTTCGAAGACCTTAAGCCTGTAGTGGTGAACGGCACCGGCGGAGTCATTTACGCCCGGGCCGAAGCCGGGGTGGCCGGTGTGCAGGACCTCATCAACAGGGACCAGCCGCTCGAGTTCGGCGGGATCAGCGCCACGGGCCTGGACATTACCACCCTGGTCGCCTTCGACCTGCTCGAAGCCGACGTGACAAGCACCTTCGGGTTCGAGGGCCGGGGCCCTGTCAACCTGGCCCTTCAGCGCGGGGAAATCGATCTGGACTACCAGACGACCTCCGCCTACGGCTCCGCCGTCGCAGGCATTGTCAAGGAAGGCAAAGCCGTCGTGCTGATGTCCTTCGGCCAGCTGAACGAAGCCGGGGACGTCATCCGTGACCCCAACTTCCCCGACGTGCCCACAGTCGCAGAAGCGTACGAAACGCTCCACGGCATGAAACCCTCGGGCGAAAAATACGAGGCCTACAAGACACTGCTCGGGCTGACGTACACCTACCAAAAAGGGCTCTGGGTTCCTCAAGAGACCCCTGAGACCGCCTACGAGCTGCTGCGCCAGTCCAGCGAAAAACTGGGCACAGACGCAGGATTCCAAGAAAAGGCCGCCAAAGTCCTCGGCGGCTACCCCCTCGTTGCGGACGCCGGCGTAGCCGACCGCGTCAGGGACGCCTACAAAGTCAGCGGCTCCGTCCGGTCCTATGTCACAGGGCTGCTCGCGGACAAATACAACATCCACGTTGAGTAA	MTSNKSSLEPPGLFPEGTDGQTEPSEQPDLPKHSRRTVLTAVSAFALLGAATTVLGGSLLNPPSSTEDGNFSGETLEFLIPLASGGGTDTWARFIGTELTNYVPGRPGFAPVNDAGGEGILGTNRFARSAKTDGTEILVGTASTVVPWVLGRSAVKYSFEDLKPVVVNGTGGVIYARAEAGVAGVQDLINRDQPLEFGGISATGLDITTLVAFDLLEADVTSTFGFEGRGPVNLALQRGEIDLDYQTTSAYGSAVAGIVKEGKAVVLMSFGQLNEAGDVIRDPNFPDVPTVAEAYETLHGMKPSGEKYEAYKTLLGLTYTYQKGLWVPQETPETAYELLRQSSEKLGTDAGFQEKAAKVLGGYPLVADAGVADRVRDAYKVSGSVRSYVTGLLADKYNIHVE				NA	NA	NA	NA	NA
D1-29_04014	2028			hypothetical protein	ATGCTTGACTCCGCAATGGCAGCGCTGGCATCCCTCGCTGACCCCTCCCTGCTCATCATGCTCCTGATCGGCACCGTCGCTGGTCTGATCATGGGCCTCATCCCCGGACTCGGCGGCACCGGCGCCGTCGCGATCCTCCTCCCCATCACGTTCGGAATGGAACCGCCCCAGGCTCTGGCCCTCCTTATCGGAGCCCTCGCTGTAGTCCATACCTCGGACACTGTCTCGGCGGTTTTGCTCGGCGCCCCGGGCTCCGCGTCAGCCAGCGTCACCATGCTGGACGGATACTCCATGGCAAAGAAAGGACAAGCGGCCCGGGCACTAACCCTGGCGTTCCTGTCCTCCATGGCCGGCGGCATCATCGGCGCCGTCGGCCTGACACTGGCCATCCCGTTGGCCAGGCCCCTCGTCCTCTCCTTCGCCAGTCCCGAACTCTTCATGCTGACCGTCCTCGGTGTATCTTTGGCGGCAGTCCTGTCACGGGGAAACATCATCAAAGGAGTCTCGGCAGGCCTCCTTGGCCTGATCCTGGGCATGGTTGGGACCTCGCCCACCACAGCCGAGGAACGGTTCACCTTCGGCAGTCTGTTCCTCGGCGACGGCTTGTCACTCGTCGCCGTTGCCCTGGGTATCTTCGGTCTGGCCGAAATCGCATCCCGCGCCAGCCAGCGCCGCGGACAAAAGCAAACCATCAGCCTTGGTGGCGGATGGGGCCAGGGCATCCGGGAATGGCTTACCCATTGGACCCAGGTCATCCGCGGCGCGCTCATCGGTATCTGGGCAGGCGTCCTGCCAGGCGTTGGCGCCACCGCCGGAACCTGGATGGCCTATGGCCAGGCCGTCGCAACCGCCAAGGATAAGCGCCAGTTCGGCAAGGGAGACCCCCGCGGCATTGTCGGCCCCGAAAGCGCCAACAACTCCGTGGAAGCCGGCGACCTGATCCCCACACTCCTCTTCGGCATCCCCGGAGGTGTCCCCTCAGCGATGCTCCTGGGCATGCTCCTTACTTACGGCATCCAGCCCGGACCTTCCATCATCACCGAACACCTCGACCTGATGTACCTGATCGTCTGGTCCTTCGCGATCGCTTCGATCCTTGGCGCGCTGCTCTGCTTCCTCAGCGTCAAACAGCTCGCAAAACTGACCAAGGTCCCGTTCGCCGTCCTGGCAGCAGGCCTCGTAGCCATCATGCTCCTGGGATCATTCCAGGAAGGCGGCCAGCTCGGCGACCTCTGGATCATGATCATCCTCGGCGCCTTCGGTTGGCTGCTGAAATCGACGGGGTTCCCTCGGGCACCGTTCCTCATTGGCTTCGTCCTGGCCATTCCACTGGAACGCTACTACTTCCTCACCGACAGCCTCTACGAAGGGTTCGACTGGATGGCCCGCCCCGGCGTCATGGTCTTCCTGGCAATCCTGATCCTGCCGATGATCTGGGCGTTCATCAAGTTCATCCGCGCCCGCCGACGCACCAACACTGACGATGGTCACCGGGACGAACAGCCTGAGGACGACGAAGCTCCGCTGAAGAATTCAACCTGGTCCCTCACAGCATCAGGCATCTTTTTCGTCGCCTTCGCCGCCGCCCTAATGTCGTCCGCTTCATTCTCACCGGAAGCCAGGCTGGTCCCACAGCTGGTGAGCATCGGAGGCCTGATCTTCTCCGGCATCCTGCTCTTCATTGAGATCCGGAGAAGGCTTCGCGACAGAACCCCGAAGGCAGATGACACCTTTGTTCAGGAGGCAGAGGGGATCCTTGGCACACAGCCCGCGAAGGCAGGTTGGACCCTTGACGCAAAGTTCGCGTTGAAGACGTTCCTCTGGATGACAGGCTTCCTGGCTCTCACGGCCGCCTTCGGATACCTGATTGCAGTCACGATCTTCATCCCGGCCTTCCTCCTGATAGTCGCAAGGGCCCGGCTCAAGGTCGCCATCATCTACACGGGCGTCCTGTACGTCGTGCTTCTGGCACTGCCCTCGCTCCTGCCGATTGACCTGCCGCAGGGCTGGCTCAACACCCTCGTCTAG	MLDSAMAALASLADPSLLIMLLIGTVAGLIMGLIPGLGGTGAVAILLPITFGMEPPQALALLIGALAVVHTSDTVSAVLLGAPGSASASVTMLDGYSMAKKGQAARALTLAFLSSMAGGIIGAVGLTLAIPLARPLVLSFASPELFMLTVLGVSLAAVLSRGNIIKGVSAGLLGLILGMVGTSPTTAEERFTFGSLFLGDGLSLVAVALGIFGLAEIASRASQRRGQKQTISLGGGWGQGIREWLTHWTQVIRGALIGIWAGVLPGVGATAGTWMAYGQAVATAKDKRQFGKGDPRGIVGPESANNSVEAGDLIPTLLFGIPGGVPSAMLLGMLLTYGIQPGPSIITEHLDLMYLIVWSFAIASILGALLCFLSVKQLAKLTKVPFAVLAAGLVAIMLLGSFQEGGQLGDLWIMIILGAFGWLLKSTGFPRAPFLIGFVLAIPLERYYFLTDSLYEGFDWMARPGVMVFLAILILPMIWAFIKFIRARRRTNTDDGHRDEQPEDDEAPLKNSTWSLTASGIFFVAFAAALMSSASFSPEARLVPQLVSIGGLIFSGILLFIEIRRRLRDRTPKADDTFVQEAEGILGTQPAKAGWTLDAKFALKTFLWMTGFLALTAAFGYLIAVTIFIPAFLLIVARARLKVAIIYTGVLYVVLLALPSLLPIDLPQGWLNTLV	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
D1-29_04015	381			Universal stress protein	ATGACAGTACTCGTAGCCTACGCACCCGCCCCCGAAGGCAGGGAGGCGCTGACTGAGGGGATTAGGGAAGCCCATCTTCGGAAATCAGACCTGCTCATCGTGAATGTCGGCCGTGGCCACCACGATCTGGACGCGCAGGAATTGCGGGAGTTGGAAGGCCAATTGACCGACGCCGGCCTGGCCCTGACCATCGAATCCTCGATCCTGGCAGATCCGGGGGACGCGGTCATCCAGATCGCACAGGACCGCAGCGCCGAAATGATTGTCATTGGGCTGAGGCACCGGTCCATGGTGGGAAAGCTCATCCTGGGAAGCACCGTTCAGCGCATCCTGCTGGACGCTACCTGCCCTGTACTTGCAGTCCGGTCAGACAAACTCTGA	MTVLVAYAPAPEGREALTEGIREAHLRKSDLLIVNVGRGHHDLDAQELRELEGQLTDAGLALTIESSILADPGDAVIQIAQDRSAEMIVIGLRHRSMVGKLILGSTVQRILLDATCPVLAVRSDKL				NA	NA	NA	NA	NA
D1-29_04016	348			hypothetical protein	ATGCGTCCATACGTATATGTCCCTGCAGCCAAAATCACCGGCGAGCTCGAGCCCAACGGCCACCGTGCCGGCTACGACTCGGGTGACCCCAAAACGGCGATCCTGAAATTCGACACCGGTTTCCAGACTGGTGTCTGGGAGTGCCAGCCCGGCGGCTGGAACATCACTCCCCGCGAGGACACCGAGGTGTGCTACATCGTCAGCGGCCGCGTGACCGTCACGGATGGCGCCACCGGCAACGTCCACGAGGTCTCTGCCGGCGACGTCGTGGTGCAGCCCAAGGGTTGGTCGGGCCGCTGGGAGGTCACCGAGACCATCCGCAAGGTGTACACCCACGGCTTCGACTGA	MRPYVYVPAAKITGELEPNGHRAGYDSGDPKTAILKFDTGFQTGVWECQPGGWNITPREDTEVCYIVSGRVTVTDGATGNVHEVSAGDVVVQPKGWSGRWEVTETIRKVYTHGFD				NA	NA	NA	NA	NA
D1-29_04017	399			hypothetical protein	ATGCCCACTGTGCTCGAAATGGCAGGTCCCATTCTGGAAATGCTGACCTGGCTGTGCCTGCCCGCCGGGCTGATCCTGCTCGTCTACACGGGGATCCTGCGGCGTTTTGTGCATCCCTGGTCAGTGGCTGAGGGCGTGGTGTACTCCGACCCGACCGGGACGGGTTTTCGCTGGTTTGACCAAAAGTACCGGGTCCACCATGCGCCCATGTCGCCACATGACATCAAAGACCTGGCTGTGGGGGACACGCTGCCGATCTACTACCACCCCAACCGCCCCACGCAGTGGCAGACCGCAGCTCCTGAGCCAGAGGGGAGGACCGCCGTCGCCCTTGGCCGGATCCTCACCGGAATTGGTACCGTCGCCTTCGTCGCGGGTTTTGTGCTTCCGATGTTCTAA	MPTVLEMAGPILEMLTWLCLPAGLILLVYTGILRRFVHPWSVAEGVVYSDPTGTGFRWFDQKYRVHHAPMSPHDIKDLAVGDTLPIYYHPNRPTQWQTAAPEPEGRTAVALGRILTGIGTVAFVAGFVLPMF				NA	NA	NA	NA	NA
D1-29_04018	930			hypothetical protein	ATGAAGACCATAAATAAGATCCAGACTGCGGCCGCCGGGCTCGCTGTTGTGTTGGCCCTGTCCGCTTGTGGCGGCGCGGCATCATCGAATGCCCCGGCGGCGGAACTTTCGAAGACGCAGAATACCCGGGATGTTTCCGAGGGGGTTCAGCCGGACGCTGCGGCGGTGGCGTTGTTGCCTGAGTCGTTTAAGTCCAAGGGTGAGATCACGGTGGCGATGGATCTGAGTTCCCCGCCGATGACGTTCCTCGCCGAGGATAACTCCACCCCGATCGGGCTGAACCCGGACCTGGCCCGGCTCGTGGCGAAGAAACTGGGGCTGAAGCTGAAGTTCGAAAACACCGCGTTTGACACGATCATTCCCGGGATCGACGGCGGCCGGTACGACTTCACCGCCACCACGATGTCCGCCACCGAAGAACGGCTCAAGGTCCTGGACATGATCAACTACCTCAAGGGCGGCTCGGCCGTATCGGTACCCAAAGGCAACCCGAACAACCTGACCAACGACACCTTGTGCGGCAAGAACATCGGCGTGACCAAGGGCTCCACCCAGCAGCTCAAGCACCTGCCGAACGTTTCGAAGTGGACCTGTGAGGAAAAGGGCCAGCCGGCCATTAGCGGCATCACGCTGCCCAACGTCCAGGAAGCCCTGACCCAGCTGGACTCCAAGCGGATCGACGGTGTCTTCTATGACGCCAGTGCCCTGGCCTGGGCCAACGAGCAGCAGCCGGACCACTTCCACATTCTGGAACCGCGGATTGATACCCGCACCAACACCAACGTCGCGATGGGCGTGAAAAAAGGCTCAGCGCTGACCCCGGCGCTGCAAAAAGCCATCCAGTCCGTCCTGGAAACCCCCGAATACAAAGAATCCCTGGAGTACTGGGGCCTGGGCGAATCAGCCATCACCGAAGCCGCAATCCGCTAG	MKTINKIQTAAAGLAVVLALSACGGAASSNAPAAELSKTQNTRDVSEGVQPDAAAVALLPESFKSKGEITVAMDLSSPPMTFLAEDNSTPIGLNPDLARLVAKKLGLKLKFENTAFDTIIPGIDGGRYDFTATTMSATEERLKVLDMINYLKGGSAVSVPKGNPNNLTNDTLCGKNIGVTKGSTQQLKHLPNVSKWTCEEKGQPAISGITLPNVQEALTQLDSKRIDGVFYDASALAWANEQQPDHFHILEPRIDTRTNTNVAMGVKKGSALTPALQKAIQSVLETPEYKESLEYWGLGESAITEAAIR	PGPT0020800_2395	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
D1-29_04019	939			hypothetical protein	ATGCAGCAAACAACCATTGAACGAAGCGGACCCGGCAAAAACGGGACCGACCCGGCGCTGAAACCCCGGCTCAAGCGGCGCAGCACCTTCGAATACGTCGCCTGGGTGCTCTGTTCCCTGATAGCCATCGGCATCCTGGCCTCGGTATCGACCAACCCGAACTTCAGGTGGGGCGTCGTCGCCCAGTACTTCACCCACGAATCCATCCTGCGCGGGCTGATGCTCACGCTCTTCCTGACCTTTGCCAGCATGGCCCTGGGAACCCTGTTGGGCCTGGGCCTGGCCGTCATGAGGGCCTCGAGCATCAAACCCGTCGCGGCCACCGCGGGGGTGTACATCACGATCTTCCGTGGCACGCCGGTGCTGGTGCAGCTGATCTTCTGGTTCAACGTCGCCGCGCTGTATCCGAACCTGTCCATCGGGATCCCGTTCACGGACATCAGCACCGCGATCGACGTCAACGCCCTGATGGCCCCCATCACCGCGGCCCTGGTCGGCCTGACGCTGAACGAGGGCGCCTACATGGCCGAGATCATCCGCGGCGGGTTCTCCTCCGTGGGCAAGGGCCAGATCGAAGCCGCAGACTCCCTCGGCATGAGCGGGTCGATGAAAATGCGCAAAGTCATCATCCCCCAGGCCATGCCCTCCATCATTCCCGCCACCGGCAACCAGGTCATCGGCATGTTCAAGGGAACCTCCCTGGTCAGCGTCCTTGGCGTCGCCGAGCTGCTCCAAAGCGCCCAGCTGATCTACGCCCGGACCTACGAGACCATCCCGCTGCTGCTCGTCGCCAGCATCTGGTACTTGGTCATGACCCTGCTGCTGAGCTACCCACAGTCCAAGCTCGAGGAAAAATACTCCCGCTCAACCTCCAGGCTTCCCCGGAAGGCCAAGAAAGCGGTTGTCCTGACAGAACCGGAAGAAGGTAACCTCCGATGA	MQQTTIERSGPGKNGTDPALKPRLKRRSTFEYVAWVLCSLIAIGILASVSTNPNFRWGVVAQYFTHESILRGLMLTLFLTFASMALGTLLGLGLAVMRASSIKPVAATAGVYITIFRGTPVLVQLIFWFNVAALYPNLSIGIPFTDISTAIDVNALMAPITAALVGLTLNEGAYMAEIIRGGFSSVGKGQIEAADSLGMSGSMKMRKVIIPQAMPSIIPATGNQVIGMFKGTSLVSVLGVAELLQSAQLIYARTYETIPLLLVASIWYLVMTLLLSYPQSKLEEKYSRSTSRLPRKAKKAVVLTEPEEGNLR	PGPT0020795_1526	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
D1-29_04020	768	glnQ_5	COG1126	Glutamine transport ATP-binding protein GlnQ	ATGAGCAACGACGGCACCATCCTCGCCCAGAAAATCCGCAAGTCCTTCGGACCCAAAACAGTCCTCAAAGACATCGACCTGGACATCGCCAGCGGTGAGATCTGCTGCATCATCGGCCCCAGCGGCTCAGGCAAATCCACCATCCTGCGCTGCATCAACGGCCTGGAAACAGTGGACTCCGGCGTCCTGAAAGTCAACGGCGAAGACTTCGGTTACTACGAAACCGACAACGCCTACCACGCCCTGCCACCCAAAAAACTCGCCGAACAGCGCACCAGGGTGGGCATGGTCTTCCAGTCCTTCAACCTGTTCCCCAACATGACCGCCCAGGAAAACATCATGTCCGGCCCCGTCCTGGTCAAAGGCCAGGACAAAAAACAAGCCGCCAAACGCGCCCACGAACTCCTCGCCAGCGTCGGCCTGGCCGGGTTCGGGGACTACTACCCCGCCCAGCTTTCCGGCGGCCAGCAGCAGCGCGTCGCGATCGCCCGGTCCCTGGCCATGGACCCGGAGATCATGCTCTTCGACGAGCCCACCTCGGCCCTGGACCCCGAAAAGGTCGGCGAAGTCCTCACCGTCATGAAACAGCTCGCCAAAAAAGGCATGACCATGGTCGTCGTCACCCACGAAATGGGCTTCGCCCGCGAAGTCGCCGACTCGCTGATCTTCATGGACGACGGCTACGTCATCGAACGCGGCGACGCCCGCGAAGTCCTCACCAACCCCAAAGAAACCCGCACCCAGGCCTTCCTGGAACAGGTTCTCTAA	MSNDGTILAQKIRKSFGPKTVLKDIDLDIASGEICCIIGPSGSGKSTILRCINGLETVDSGVLKVNGEDFGYYETDNAYHALPPKKLAEQRTRVGMVFQSFNLFPNMTAQENIMSGPVLVKGQDKKQAAKRAHELLASVGLAGFGDYYPAQLSGGQQQRVAIARSLAMDPEIMLFDEPTSALDPEKVGEVLTVMKQLAKKGMTMVVVTHEMGFAREVADSLIFMDDGYVIERGDAREVLTNPKETRTQAFLEQVL	PGPT0020790_2472	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
D1-29_04021	1152	soxA_7		Monomeric sarcosine oxidase	ATGGACGGAAAACAAACCATGGACGGAAAACTCGCCGTCATCGGCCTGGGCAGCATCGGCTCCATGGCCCTCTGGCAAGCCAGCCAACTCACCGACAACGTCACCGGTTTCGAAGCCCACACCCCCGCCCACGGCCGCAGCGCCGTAGGCGGGGACACCCGGCTCTTCCGCATGCTCTACCGCGGCAACCCCCACCTCTACCCCATCCTGGAACGCTCACGGGATCTCTGGGCCGAACTCGAAGCCGAAACCGGCCAGAACATCCTCACCCGCACCGGCGGACTGTCCATCGGCACCAAAAACGGCCCCTACCTCACAGCCCTCCTCGAAACCATCAAACAAACCGGGGCCGAGCACGAAATCCTCAGCCGCGAACAGATGGCCCAACGCTACCCCCAGCACAACCTCCGCCCCGACGACATCGCCGTCTACGACCCCCACGCCGGCGCCCTCCGCACCGACCGCGCCGTCACAGCCGCCATCACCGCAGCCCAAACCAATGGCGCAACCATCCACACCAACACCCCCATCGACACCATCACCGAAACCCCCAACGGCGTCCACATCACCTCCGGCGAGAAGTCCTGGACCTTCGAGAACGTCATCATCTCCTCCGGCGGGTGGTCCCGGAAGCTTATGCCGGAGTCTCTGCGGGCGCACACCCAGCCGAACAGGGTCTTCCTCACGTGGTTCGTCGCCAAAGATCCCGCGCTCTTCTCACCTGAGAAGTTCCCCATCTTCATCCGAGTCTCCGGAGACCACTCCATGTACGGCGCACCCGCCATCGACGGCGCCACGGTGAAGGCAACCCTGGACTTCCGGCCAACCCCCACCGAGAACCCCGATGCAGTTCCCCGGGAACTCACCCCGGCAGAGATCGCCGAGACCACCGAGACGGTGAGCGAGTTCTTCCCGGGCCTGTACCCCAACATCGTCCGGTCGGACGCGTTTCCTGACCTCTTTACCACCGACCGCAACCCCCTGGTGGGGCGATTCAGCGATGGCAGCAGGATCTACTGCGCCACAGGATTCTCCGGCGGCGGCTTCAAAAATGCCACAGGCTACGGCCAGATCGCCGCATACGAAGCCCTCGGCAAACGCACCTTTGACGGCTTGGACTTCGTCCGGCCCCAACGATTCAAAACCGGCTAA	MDGKQTMDGKLAVIGLGSIGSMALWQASQLTDNVTGFEAHTPAHGRSAVGGDTRLFRMLYRGNPHLYPILERSRDLWAELEAETGQNILTRTGGLSIGTKNGPYLTALLETIKQTGAEHEILSREQMAQRYPQHNLRPDDIAVYDPHAGALRTDRAVTAAITAAQTNGATIHTNTPIDTITETPNGVHITSGEKSWTFENVIISSGGWSRKLMPESLRAHTQPNRVFLTWFVAKDPALFSPEKFPIFIRVSGDHSMYGAPAIDGATVKATLDFRPTPTENPDAVPRELTPAEIAETTETVSEFFPGLYPNIVRSDAFPDLFTTDRNPLVGRFSDGSRIYCATGFSGGGFKNATGYGQIAAYEALGKRTFDGLDFVRPQRFKTG	PGPT0013530_435	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013530-soxA|solA-K00301	NA	NA
D1-29_04022	1455	davD	COG1012	Glutarate-semialdehyde dehydrogenase	ATGAGTCTTTCCTTTGATCCCACCACTCTTCATACTGACTTGTTCATCGACGGTGCCTGGCGGAAGGCATCCAACGGCGCCACGTTCGCCGTCGAAAACCCGGCCACCAATGAAATCATCGCCCACGTCGCCGACGGCGGACCCGAGGACGCGGCCCTGGCCATCCAGGCCGCCGGCCGGGCCCAGGCAGCCTGGGGCAAGTCCACCCCGCGGGAACGGGCAGACATCCTGCGCCGGGCCTTCGAACTGGTCATCGCCAACACCGACCGGCTCGCCGCGATCATGACCGCGGAGATGGGCAAACCCCTCGCCGAAGCCAAGGGCGAAGTGGCCTACGGCGCCGAGATGCTCCGCTGGTTCTCCGAAGAAGCCGTCCGCATCGGCGGGGACAGCACCACCTCGGTGGACGGCAACACCCGGATCCTGGTCACCAAGGAACCCGTTGGCCCCTCCGTGCTGGTCACCCCGTGGAACTTCCCGCTGGCCATGGGCGCCCGCAAGATCGCCCCCGCCGTCGCCGCCGGCTGCACCATGGTCTTCAAACCCGCAGAACTGACCCCGCTGACCTCCCTGGCCCTGGTGGACATCTTCCAACAGGCCGGCCTGCCCGACGGGGTCCTGAACGTCGTCACCACCGCCAGCGCCGCCCCCGTAGTGGAGAACTGGACCAGCAGCGGCATCGCCCGCAAAATCAGCTTCACCGGCTCCACCGGCGTCGGCAAGATCCTGCTGCGCCAGGCATCCGAGAACGTCATGCGCTCCTCGATGGAACTGGGCGGCAACGCCCCCTTCATCGTCCTGGCCGACGCCGACATCGAAAAAGCAGTCGACGGGGCCATGAAAGCCAAAATGCGCAACATGGGCGAAGCCTGCACCGCCGCGAACCGCTTCTTCGTCCACCGCTCAGTCCTGGCCGAATTCTCCGAGAAGTTCGCCAAGAAAATGTCAGAACTCCAGGTCGGCAACGGCGCCCTCGCCGGAACCGACGTCGGTCCCCTGATCGAACAAAAAGGCCTGGACAAGGTCCAAAGCCTCGTCGCCGACGCCGTCGCCAAGGGCGCACGCGTCCTGACCGGCGGAAACCGCCCCGAAGGCCCGGGCTACTTCTACACCCCCACCGTCCTGACCGACGTGACCCTGGACGCGGACCTGATGAACACCGAAATCTTCGGCCCCGTCGCAGCCATCACCACGTTCGACAGCGAAGATGACGTGCTGCACGCAGCCAACGACACCGAATGGGGCCTGGTGGGCTACGTCTTCACCGAAAACATGGCCAAGGCCCTGCGCTTCTCCCAGGAACTCGAAGTCGGCATGGTGGGCATCAACACCGGCCTCGTCTCCAACCCGATAGCACCCTTCGGCGGCATCAAGCAGTCCGGCCTGGGCCGCGAAGGCGGCAAAATCGGCATCGAAGAATTCCTTGAGTACAAATACACCGCAATAGCAATCTAA	MSLSFDPTTLHTDLFIDGAWRKASNGATFAVENPATNEIIAHVADGGPEDAALAIQAAGRAQAAWGKSTPRERADILRRAFELVIANTDRLAAIMTAEMGKPLAEAKGEVAYGAEMLRWFSEEAVRIGGDSTTSVDGNTRILVTKEPVGPSVLVTPWNFPLAMGARKIAPAVAAGCTMVFKPAELTPLTSLALVDIFQQAGLPDGVLNVVTTASAAPVVENWTSSGIARKISFTGSTGVGKILLRQASENVMRSSMELGGNAPFIVLADADIEKAVDGAMKAKMRNMGEACTAANRFFVHRSVLAEFSEKFAKKMSELQVGNGALAGTDVGPLIEQKGLDKVQSLVADAVAKGARVLTGGNRPEGPGYFYTPTVLTDVTLDADLMNTEIFGPVAAITTFDSEDDVLHAANDTEWGLVGYVFTENMAKALRFSQELEVGMVGINTGLVSNPIAPFGGIKQSGLGREGGKIGIEEFLEYKYTAIAI	PGPT0001580_2994	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
D1-29_04023	705	gntR_6		putative D-xylose utilization operon transcriptional repressor	ATGAGAGGATCCACAGCAGGCAAAGGCCTGTTCACCTTGGAAGGAAGGTCCACCGCGCAGCTGATCGCCGATCAGCTGCGCGAACACATCATCCAAGGCATTTTCCGCCCCGGAGACCAGATCAACGAATCAATCATCGCCGTCCAACTGAACACCTCCAGGAGCCCCGTCCGGGAAGCGGTGCAACGCCTGTGCCAGGAAGGCATTCTCATCAGCCGGCGCAACCATGGCGTGTTCGTGCTGGAAATCTCGGCCCAGGACAGCAAGGAAATCTACCCTGTGCGTGAAGCTATGGAAACAACCGCAGCAGATACCCTGCTCAACAGCAGCCCCAAGCACCTCAAGGAAACCTGCCGGGCCCTGAAAACAATCCTCAGGAACATGCAAAAGCGGGTTGACGCAACCAACAGGCAATCCATCGCCCAACTGGACATGGAGTTCCACACCACAATTGTGGCAGCCGCCGGCAACAGCAGAATGACCCGAATTTACGAAACCTTGGCCGCCGAATCAACGATGTGCATTGTTAACCTGGAGATCTCATACCCGGAAGCACAGACCTTGGTACAGGAGCACGAGAACATCCTCAACCTGCTCGAAACCGGCAACAGGGAGGAACTCCGGAAAGCCCTCAAAAGCCACCTGCAAAAGGCCGTCCATGACCTCGCCAGGCGGGACAAACAGATTGCAGCCAGCACTCCCTGA	MRGSTAGKGLFTLEGRSTAQLIADQLREHIIQGIFRPGDQINESIIAVQLNTSRSPVREAVQRLCQEGILISRRNHGVFVLEISAQDSKEIYPVREAMETTAADTLLNSSPKHLKETCRALKTILRNMQKRVDATNRQSIAQLDMEFHTTIVAAAGNSRMTRIYETLAAESTMCIVNLEISYPEAQTLVQEHENILNLLETGNREELRKALKSHLQKAVHDLARRDKQIAASTP				NA	NA	NA	NA	NA
D1-29_04024	675	gntR_7		putative D-xylose utilization operon transcriptional repressor	ATGGTTGAGCAGATAAAGATAGTCCATTCATCTACGGTGCAGCAGGTCGCAGATGGTCTCACAGCCATGATCCTTAGCGGGGGGCTGAAGCCAGGAGAACGGCTCAGGGAGAGTCTCCTCGCGGACAACCTGGGGCTTTCCAGGAACACCGTTCGTGAAGCCGTCCGCATAGTTCAAGCGGGCGGCCTTATCCGCCACCGCGCAAATCAGGGCGCTATCGTGTGGGACCCCACCGACGCCGAGATCATGGACGTCTATAACGCGCGGTACCACCTGGAGACCACTGCCGCGCGAAGCATCTCCGAAAGCACCTCCATGGACGAAGTCCACGCCGCCATGGAGGAGTTCCGGGCCGTTTTGAAGAGCGGAGATCCGTTCAAGATTGTCGAGAAGGACCTGGCGGTTCACAGCGCGATTGTCGGACTCCTCGGAAGCAAAAAGTTGAGGACCTTCTATCAGCAATTGGTGACCGAACTGAGGTACTTCATGTTTGTTCTTTCCATTGAACATCACGAGTACGAGGACCCGGACACACTCGAATCTGAGCACCAAAACATCGTTGATGCGCTTGACTCGCGAGACCCTGTCCTGGCGGAGAAGGTTGTCTCAGATACGATCATCCAATATCGGGAATCGATCCGGGAAATTATCGCCCAGCGGCACCAAGCAAGCTAA	MVEQIKIVHSSTVQQVADGLTAMILSGGLKPGERLRESLLADNLGLSRNTVREAVRIVQAGGLIRHRANQGAIVWDPTDAEIMDVYNARYHLETTAARSISESTSMDEVHAAMEEFRAVLKSGDPFKIVEKDLAVHSAIVGLLGSKKLRTFYQQLVTELRYFMFVLSIEHHEYEDPDTLESEHQNIVDALDSRDPVLAEKVVSDTIIQYRESIREIIAQRHQAS				NA	NA	NA	NA	NA
D1-29_04025	987		COG1052	Putative 2-hydroxyacid dehydrogenase	ATGAGGACCGGCGCCCCACTGCCCAAGCGTCCCGTCGTCGCCGCCCTCTACCGCGAGGCGCTCCCGCCCCGGCTGGCGGAGGTCGAGGAACTCGCAGAGGTCCGGCTGACCAAGGCAGACGGCCTGGCGGAGGCCCTCGACGGCGCCGACGTGCTCTACCAGTGGCACTCCTTCTCGCCGGCACTGCGTGAGAACTGGGGCGCCGCCTCCACCCTGCAATGGATCCACGTCACCGCAGCAGGTGTCAGCCAGCTCCTGTTCGATGAACTGGTCCGCAGCAACGTGACCTACACGAACTCCCGCGGCGTGCTCAGCACGGCCATCGCCGAGTTCGCGCTGGGCTTCGTCTTGGATATGGCCAAAGACTCCCAGGGCTCCTACCGGTTGCAGCAGGAACAGCGCTGGCAGCACCGGACTACCCGCAAAATCCAGGGCCAAACCGCCCTCGTGGTCGGCACCGGGTCGATCGGCCGGGAAATAGCCAGGCTCTTCCGCGCCGTGGGCATGAAGGTGGACGGCGCCGGAAGGACAGCCCGGCCAGGGGACACGAACTTTGACCGGATCCACTCCTCCCAGAACCTCGCCACTGTTGTCTACGACTACGACTACGTGGTCTTGGCCGCGCCGCTGACCGCCGACACCAAGAATCTGGTCGGCGCTGACGTCCTCAATGCCATGAAACAGTCGGCCCGGCTCATCAACGTCGGACGCGGGGAACTGGTTGATACCGAAGCACTGATCCACGCGCTCACCACAGGCTCCATCGCCGGCGCCGCCCTGGATGTTGTCCACCCGGAACCGCTTCCGGCCGGACACGCCCTCTGGGACATGGAAAACGTCATCATCACCCCACACATGTGCGGCGACACCGAGAACTACCTCGATGACCTCGGCAAGCTCTTCGTAGACAACCTCAAACGCTACTGCAACGGCGAACCACTGGAAAACATCGTGGACAAAGAACTCGGATTCGTCCCCGCCGGCTAG	MRTGAPLPKRPVVAALYREALPPRLAEVEELAEVRLTKADGLAEALDGADVLYQWHSFSPALRENWGAASTLQWIHVTAAGVSQLLFDELVRSNVTYTNSRGVLSTAIAEFALGFVLDMAKDSQGSYRLQQEQRWQHRTTRKIQGQTALVVGTGSIGREIARLFRAVGMKVDGAGRTARPGDTNFDRIHSSQNLATVVYDYDYVVLAAPLTADTKNLVGADVLNAMKQSARLINVGRGELVDTEALIHALTTGSIAGAALDVVHPEPLPAGHALWDMENVIITPHMCGDTENYLDDLGKLFVDNLKRYCNGEPLENIVDKELGFVPAG				NA	NA	NA	NA	NA
D1-29_04026	1554	safD_3	COG1012	Sulfoacetaldehyde dehydrogenase	ATGCTTCCATCCATTAACGCTCTTGACGCGCGCCCGGAAACAACCGGATCCACTGGAACGACCGACGCGCGGGCGGACGTGGCGCGCCTCCCTGGCGGTGCCTTCTTAGAAGGTCGGTGGCAGACCGCCGATCTGACGTTGGAGGTGCGGGATCCTGAGGACGGTGTCCTGCTCGGCCGGGTGTGCACTTCCACTCCAGAGGATGTGGAGCGTGCCATCGCCCACATCCGCCGTCACCTTGAGGCGGGTGAGTGGCCGTTGCGTACCCGCCGGCAGGCACTGGAAAAGGCTGTGCTGCTTTTGGGCGAGCAGGCTGAGCGGTTCGCGAACATCATCGCGTCCGAGAGCAGCAAGACCATCACCGAGGCGGAGCGCGAGGTGCGCCGCTGCGCCGAGACGCTGCGGCTGTCCGCGGCGGCTGCCGGGGAGCTGGCAGGGGAGACCCTGGGTTTTGAGGACAGCATGGCAGGTGCCGGCAAGATTGGCTGGTACAGCCGGAAGCCGGTGGGGATCGTCGCGGCGATCACCCCGTTCAATGATCCTTTGAACCTGGTGGCGCACAAGCTGGGCCCGGCCCTGATCGGCGGCAACGGCGTCCTGCTCAAGCCCTCCACGCGCACACCCCTGGTGGGGCTGGCTTTTGTCCAGCTGCTGCTGGAAGCCGGTGTCCCGGCGGGCCGGATCGCGGCGATCGTGACCGGGCCCGGCGTGTCCGAGGCTGTTGTCACGGACCCGGGCGTTGACCTGATTTCCTTCACCGGCGGTCCCGCCACGGCCGAAAGGATCGCCGCGGCGGCCGGGGCGAAGAAGATCCTCTCCGAACTCGGCGGGAACAACGCCACGATCATCTGCTCCGACGCGAACGCGCAGGCCGCGGCAAAGGCCGTCGTGGCCGGCGCGTTCGGCGTCGCGGGGCAGAACTGCCTGTCGGTCCAGCGGGTCTACGTCCACACCTCACTGTTTGAGGAAGTCCTGGAGCTGGTCACTACGGGCACGAGGGCGCTGCGGACCGGGCCGAAGCTTGACCGGGGAACCGACGTGGGCCCGCTGATCTCCGAGGCCGAGGCCCGCCGGGTGGAGGAATGGGTGGAAGAAGCCACAGCGGCCGGCGCCACCATCCACGCCGGCGGGACCCGCCGGGGCGCCTACTATGAGCCCACGGTCCTGACCGATGTGCCCTCGGAGGCCCGGGTGATCCGGGACGAGGTGTTCGGCCCGGTGGTCAGCATCCTGCCGTTCATCGAGGTCCGCGACGCCGTGTTCGCGGCCAACAACACCGAGTTCGGCCTCCAGACCGGGGTCTTCACCCAGTCCATCGACCTGGCCCTGGCGATCGCGGAGAAACTGCACGTGGGCGCCGTGGTGATCAACGAGACCAGCGACGTCCGGATCGACTCGATGCCCTTTGGCGGGTTCAAGAAATCCGGGGTCGGCCGCGAAGGTGTCAGCCACGCGGTCCGCGAGATGACAGAACCCAAAAACACCATCATCAACCTCGGCCAGTCAACGGCCCGCTGGCAGGTCCTGGGCGGCCTGACGGAACGGACAGCATGA	MLPSINALDARPETTGSTGTTDARADVARLPGGAFLEGRWQTADLTLEVRDPEDGVLLGRVCTSTPEDVERAIAHIRRHLEAGEWPLRTRRQALEKAVLLLGEQAERFANIIASESSKTITEAEREVRRCAETLRLSAAAAGELAGETLGFEDSMAGAGKIGWYSRKPVGIVAAITPFNDPLNLVAHKLGPALIGGNGVLLKPSTRTPLVGLAFVQLLLEAGVPAGRIAAIVTGPGVSEAVVTDPGVDLISFTGGPATAERIAAAAGAKKILSELGGNNATIICSDANAQAAAKAVVAGAFGVAGQNCLSVQRVYVHTSLFEEVLELVTTGTRALRTGPKLDRGTDVGPLISEAEARRVEEWVEEATAAGATIHAGGTRRGAYYEPTVLTDVPSEARVIRDEVFGPVVSILPFIEVRDAVFAANNTEFGLQTGVFTQSIDLALAIAEKLHVGAVVINETSDVRIDSMPFGGFKKSGVGREGVSHAVREMTEPKNTIINLGQSTARWQVLGGLTERTA	PGPT0018005_345	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018005-gapN-K00131	NA	NA
D1-29_04027	1278	puuB_2		Gamma-glutamylputrescine oxidoreductase	GTGAAACTTAACCCCTATTGGCTGGACACTGCCGAACCGTCCGGGGACTACCGGCGAACCCCGGTACCCGAGAACGTCGACGTCGCCATCATCGGCGCCGGCTTCACGGGACTCTCCGCTGCCCTGGAATTTGCCCAGCAGGGCGCCAGCGTTGCCGTTTTCGAACGCCACACCGTGGGGTGGGGCGCCTCGGGCCGCAATGGGGGAATGGCGACGACCGGGTTGGCCATCGGTTTCGGCACGGCGGTGAAGCGCTACGGTGCCACGCGTGCCGTCGAGATGTTCCGTGAATACAACGACGCCATCGACAGCATCGAGAAGCTGGTGCATGACAATGGCATTGAGTGTGACTACAGGCGGGACGGGAAGCTCTCGCTGGCCTTCCACAAGTCCCACTACGAAGGCTTCCTGAGGTCGCAGGAGAAGATGGCCGCCCTGGCCGATCATCATGTCACTGTTATCCCCAAGTCCGAGATCCACAGCGAAATCGGAACGGACTTCTACCAGGGGGCCATGCTGGACCCGCTGGGAGCAGGGCTGCATGTGGGCAAGTTTGTGCATGGGTTGGGCGGGGCGGCTGTCACCGCCGGGGCTGATATCTGCGAGGAAGCCGGTGTCACGGAGCTGAAGAAGGTTGCGGGCACCGTACATGACGTGCACACCACCCGGGGCATCACCAGGGCCAAGCAGGTCCTGGTGGCTACCAGCGGTTACACCGGCAATGTCACACCGTGGCTGCAGCGCCGGGTGATTCCGGTGGGCAGCTTCATCATCTGCACCGAGCCGTTGCCCGAAGACGTGGTCAACCGGATCCTGCCTAACAGGCGCATGGCGTCGGACAGCAAGATGCTCTGTTACTACTTCCGCATTACCCCGGATAACAGGCTGCTGTTCGGCGGCCGGGCCCGTTTTGCACTGTCCAGCCCGGATTCGGACGTCAAGAGCGCCGAGATCCTCCGTAAGGCCATGCTCGAGCTGTTCCCGTACCTCTCCAACGCCAAGGTGGACTACATCTGGGGCGGCCTGGTGGATCTTTCCATGGACCAGATGGTCCACGCCGGTGTTCACGACGGGCTTTACTACTCCTTGGCCTACAGCGGCCACGGCGTGCAGATGGCTGCGCACATGGGCAAGCGGATGGCCCACTACATGGCCGGCGACAAGAGCGCCAACGTGTGGGAAGACCTGAAGAACCCGCCCGTGCCAGGCCACTTTGGCCCACCGTGGTTCCTGCCCTTCATCGGCGGGGCCGCAAAAATCATCGACCGCTTCAGCTAG	MKLNPYWLDTAEPSGDYRRTPVPENVDVAIIGAGFTGLSAALEFAQQGASVAVFERHTVGWGASGRNGGMATTGLAIGFGTAVKRYGATRAVEMFREYNDAIDSIEKLVHDNGIECDYRRDGKLSLAFHKSHYEGFLRSQEKMAALADHHVTVIPKSEIHSEIGTDFYQGAMLDPLGAGLHVGKFVHGLGGAAVTAGADICEEAGVTELKKVAGTVHDVHTTRGITRAKQVLVATSGYTGNVTPWLQRRVIPVGSFIICTEPLPEDVVNRILPNRRMASDSKMLCYYFRITPDNRLLFGGRARFALSSPDSDVKSAEILRKAMLELFPYLSNAKVDYIWGGLVDLSMDQMVHAGVHDGLYYSLAYSGHGVQMAAHMGKRMAHYMAGDKSANVWEDLKNPPVPGHFGPPWFLPFIGGAAKIIDRFS				NA	NA	NA	NA	NA
D1-29_04028	705			hypothetical protein	ATGGCCTCTCAAACTTCAATGAACGGACGAATCATGGCAGACTCCAACCGGCCGAAGTACATCTCCTTTGATATCTACGGCACACTGATCAATTGGGATACCGATTCCACTACCCGCCGGCTGCTCGCCGGCCGTCTGCCCGAAGAGCAGTGGCCTGCGTTCAAGAAGGTTTTCCGCGGGTACCGGTTCGACGAGGTCCTTGGGGACTACAAGCCCTACGAGGAGATCCTCCAGAATTCCTTTGACCGCGTATGCAAGTTCTTTGGCATTGGGCCCACCCGCGGTGCGGGCGCGGAGTTCGCTGACGCTGTGCGCAGCTTTGGTGCCCACGATGACGTGCCGGCTCCGCTGAAGCTCATGGGCGACAACTACAAGCTGGTGGCTCTGTCCAACGCCGACGACAGCTTCCTGGAGATCAGCATTCCCAAGCTCGGCGCTGACTTCCACGCGGTGTTGACCGCTGAGCAGGCCCAGGCCTACAAGCCGCGCTACCAGGCTTTCGAGTACATGCTGGACACCCTGAACGCCAAGCCCGAGGACTTCCTGCACATCGCCTCGCACACCCGCTACGACATGCACCCGATGCACGACATGGGCTTCCGTAACCTCTGGGTGCTGGACCGTGGCTACGACCCCATCACCGGGGGATACGACTACAACGCGGTTAAGTCCCTGGACGAGATCAACAAGCACCTCGGTCTTTAA	MASQTSMNGRIMADSNRPKYISFDIYGTLINWDTDSTTRRLLAGRLPEEQWPAFKKVFRGYRFDEVLGDYKPYEEILQNSFDRVCKFFGIGPTRGAGAEFADAVRSFGAHDDVPAPLKLMGDNYKLVALSNADDSFLEISIPKLGADFHAVLTAEQAQAYKPRYQAFEYMLDTLNAKPEDFLHIASHTRYDMHPMHDMGFRNLWVLDRGYDPITGGYDYNAVKSLDEINKHLGL	PGPT0006885_2041	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
D1-29_04029	1320			hypothetical protein	ATGACCATTTCGATCAATCTCACGGGTGGCATCGACGTTGGCAACGGCTATGTCAAGGGCCTCATCCGCGGCGCCGGCGCATCAGGTGCCACCAACGTGGACGAGATCGACTTGCCAAGCGGCGTGTCAACGATCACGCGCCCGAACGCTCTGCCGACCCCTGACGATGAAGCCCCAACCAAACTGGAAGGCAACTTCTATAATGAGCTGGACGTCAGCTTCGTCTCCCCTCTGGTCAGCAATTATCACCGCAGGCTCTTCGGCCTGCGTGCCCTGAGCGCCCAAGGTGCCTTTGATGAATTCGACGTGGTGGGCCGTCGCAGCAAGGCTCAGCAGGAGCTGAGTAAGGTCCTGGTCATGGGTGCTTTCGCCGCCAAGGCCCTGCGTGACTATGTGCGTAAGCACGGTGGATTGCCCCCGGCTATTGAAACCATAAGTGTGGAGGCTCGGGTAGCACTTGCGCTGCCGATCAACGAGTACATTTCGCACCGCACCAGCTATGCGGCCGAGTTCACGAACGGCACTCATACGGTTACAGTGCATAACTTCGAGACCCCGGTCACCGTGAAGCTTAAATTCGTTGATGTACAGGTGATCCCCGAGGGCGCATCGGCCCAGTATGCGATCACTGCCAAAGGTGAGCCGTTGATGGACGCTATGCTCGCCGATGTCCGCCGCAGGGGCCTGTCGCTGGTGGGAATCACCTCTGCTGACGTGCTGGCAGCGGAGCACACTGTCGGCATCGATGTCGGCGAAGGGACAGTAAATTTTCCCGTGTTCACCGCCGGAGAGTTCAATGCCGACGCCTCCACCACGCACAACCGAGGTTACGGTTCGGTTCTTAATGACGCGCTGAAAGCCATGGAGGACCAGGGCTTCTCGCATGGCTTCACTTCCCGCAAGCAGTTGGCCGAGTACTTGCAGGCCGGAGCGTCGCCATTGAAGCGTAACTTCTACGACAAGGTCGCTCAGTTCGTCGATGAAGAGATGCGATTCTTTGCCAAGGAAGTTACCGAGCGGTTCGGCCGCGTTCTGGCCGTCGTTGGTGCGACCACAGAGGTCGCGTATGTCTTCGGCGGCGGGGCAGGCCCGGTGAAGCCACATCTGTATCCGGCACTCCTGGCCAAGGCCACCGAGATGAACTCGGTGGATTCATTCCCGACTCTGTACCTGGATTCCTCCTACTCACGAAACCTGAACCGTGAGGGTCTCTACATTGCCGCCCAGGCCGTGGAAGAACGAGCCGGCGCCGCACCGGCTGCCAATGGGAAGCGCAGCGCTCGTTCAAGCGACAAGAAGCTCGCCGAGGCTGCTGTGTAG	MTISINLTGGIDVGNGYVKGLIRGAGASGATNVDEIDLPSGVSTITRPNALPTPDDEAPTKLEGNFYNELDVSFVSPLVSNYHRRLFGLRALSAQGAFDEFDVVGRRSKAQQELSKVLVMGAFAAKALRDYVRKHGGLPPAIETISVEARVALALPINEYISHRTSYAAEFTNGTHTVTVHNFETPVTVKLKFVDVQVIPEGASAQYAITAKGEPLMDAMLADVRRRGLSLVGITSADVLAAEHTVGIDVGEGTVNFPVFTAGEFNADASTTHNRGYGSVLNDALKAMEDQGFSHGFTSRKQLAEYLQAGASPLKRNFYDKVAQFVDEEMRFFAKEVTERFGRVLAVVGATTEVAYVFGGGAGPVKPHLYPALLAKATEMNSVDSFPTLYLDSSYSRNLNREGLYIAAQAVEERAGAAPAANGKRSARSSDKKLAEAAV				NA	NA	NA	NA	NA
D1-29_04030	567			hypothetical protein	ATGACGAATCTTCAGAGCAAGGTAGCAGCACCAAAAGCGAGGGCGGCTGCTAAGAAAACGTCAAAAACTTCTGCTGTATCAACTGTGAAACCGCCGCCGCAGCGATTCCGCTTGAGCGTCCCCGCAGCCGATGAGGCTGTGTTGGCGTGGATGGATTTGCAGGACAACCCATCACTATCTGTTCGGATGCTGATCCGTGAGAGCATCGAGCGCCTTGGCTACGTCGATGTCATTAACCGGCCAGTTTCTCAACTACCCACGCGGGAACGTCTTGTTGGTCCTGAAGGGGAATCAACACGGACGGAGCGGAATTTAGAGACGGCTGGGGCTCCGTCTGCGTTGGTTCAGCAGAAGGCGACGCCTGCTGCGTCCGCGGATACGGATCCCAGCCAGCAGACAAACAGCGAACCCGCGATCCTGGGCATCGCAGTGGAATCACCGGCACTGGTTCCGAAGTCTGCACCACAACAGGACGACGTCCACACTTCCTCCCCGGCCACTCCTGAATCGGAGCAATCTTCTGTCGGGCCGGTTGAAGTCAACGACATTTTCTCGATGCTGCGCTGA	MTNLQSKVAAPKARAAAKKTSKTSAVSTVKPPPQRFRLSVPAADEAVLAWMDLQDNPSLSVRMLIRESIERLGYVDVINRPVSQLPTRERLVGPEGESTRTERNLETAGAPSALVQQKATPAASADTDPSQQTNSEPAILGIAVESPALVPKSAPQQDDVHTSSPATPESEQSSVGPVEVNDIFSMLR				NA	NA	NA	NA	NA
D1-29_04031	303			hypothetical protein	ATGAGTGCAGAACGAAAAGCCAGCCGCCACGCCCAAGAATTTCGGTGGCATCAGATTAACCTCCAGTTACCGGAGACTGAAGCTGCCATTCGTGACCTCAGGGCCCTCAAGGAGGCGGTTGACCAGCTCCTCATCGAAGCTGTCATTCGAGCCCACGACGAAGGAATGAGCCCGGCAATCCTTGCTGATTCGCTCGGATTCACTAAGAACGTGGCGGCAGAGCGACCCTCCCCCGAAATCCTGAACCCTGCAGTAGCACGGCCTTCTGGCCGTCGTGGCATTCATTTTGAGCCAATGGCCTAA	MSAERKASRHAQEFRWHQINLQLPETEAAIRDLRALKEAVDQLLIEAVIRAHDEGMSPAILADSLGFTKNVAAERPSPEILNPAVARPSGRRGIHFEPMA				NA	NA	NA	NA	NA
D1-29_04032	855			IS3 family transposase ISBli34	GTGAAGGTCCATGCTCTCATCGCCCTCAAGGCTGACTTCCCACTTCCGGTTCTGCTGCAGGTCTCAGGTCTTGCCCGATCGACATTCTTCTATCACCAGGCCCGTCTCCAAGCCCCTGACCCGCAAGCGGAACTCAAGAGCGCAACCACGGAGATCTTCACGACCAACCACGGCCGGTACGGGCACCGGCGCATCCACTCTGAACTGCTCAAGCAGGGCTGGGGGATCGCGAAGAAGACCGTGCTGAAGCTGATGCGTGTGCTGGGGCTGGTGTGTAAGGTCCGGCGGAAAAAGCGCTACAACTCCTACCAAGGCGGACAGGGCACTGTCGCGCCGAACCTGCTGAACCGCAAGTTTGACGCCACCGCCCCAAACCAGAAGTGGGTGACCGACGTGACCGAGTTCAGCGTCGGCGACCGGAAGCTTTACCTCTCACCAATCATGGACCTCTTCGACCGGCAGATCATTGCCCATTCAATCGGCACATCCCCGAGCCTGGCGCTCACCAACGCTGCGCTGCAGCAGGCCCTGGCCTGTCTTCAGCCCGGTCAGCAGCCACTCGTCCATTCCGACCAGGGCTTCCAGTACCAGCACACCTCGTGGCGGAACCTGCTCCAGGGCGCCGGCGCGGTCCAATCGATGTCCCGCAAGGGCAACTGCTACGACAACGCCGTGATGGAGAATTTCTTCGGCCACCTCAAGGAAGAGCTCTTCCACAGGGTCCGGTTTATCAGCACCGACGCACTGACCGCGCAACTGAACGAGTACATCCATTGGTACAACACCAAAAGGATCTCGACAAAGCTCGAGGGCCTGAGCCCGGTGCAATACCGTGCCCAGGCCCTCGCGGCTTAG	MKVHALIALKADFPLPVLLQVSGLARSTFFYHQARLQAPDPQAELKSATTEIFTTNHGRYGHRRIHSELLKQGWGIAKKTVLKLMRVLGLVCKVRRKKRYNSYQGGQGTVAPNLLNRKFDATAPNQKWVTDVTEFSVGDRKLYLSPIMDLFDRQIIAHSIGTSPSLALTNAALQQALACLQPGQQPLVHSDQGFQYQHTSWRNLLQGAGAVQSMSRKGNCYDNAVMENFFGHLKEELFHRVRFISTDALTAQLNEYIHWYNTKRISTKLEGLSPVQYRAQALAA				NA	NA	NA	NA	NA
D1-29_04033	327			hypothetical protein	GTGACTAAGCCGACAAAACAGTCGTACTCTTTCGACTTCAAGCTCGCCTTAGTGGAACGGTTCCTTGCGGGTGAGACTGCCCCGGATCTGGCGGCGGAGGCTGGCTTGTCTTCGCCTGTGTTACTGAAAACGTGGGTGCGTGCGTATCGTCGCGAGGGCGCGGACTCATTGCGCCCGAAGGCTAAAGGCAGACCCCGGAAGCCTGACGCCCCACCGCCCGCGGAGATATCCGAGCTGGAGCGGTTGCGCCGTGAGAACGAACGGTTGCGGGCAGAAGTGGCCTATCTGGGAAAATTGCGGGCCTTGAGGGCCCAAAAACAACGGTGA	MTKPTKQSYSFDFKLALVERFLAGETAPDLAAEAGLSSPVLLKTWVRAYRREGADSLRPKAKGRPRKPDAPPPAEISELERLRRENERLRAEVAYLGKLRALRAQKQR				NA	NA	NA	NA	NA
D1-29_04034	1077	thrB_2		Homoserine kinase	ATGGATGTCAGTACCGACTCCGAATTTTTCGACGCCGTCGCATCGGAGAGTGGGCTCCTGGCGGAGCAGTCCCAGCTCGCTGACTCCACTGTGTTGGAGCTCCTTAAACAGTCCTATGGCCTGAAGGGGACCCTTGTCCGGATTCCCACCGAGAAGGATGAGACTTTCCGCCTCCGGGACGGCGAACACACCTATCTGGTGAAGGTGTCGCCACCGGATGAGGATCCGCTGATCGTCCACCTTCAGACGGTATGTATGGAGCATTTGGAGGCGACTGCCCCCGAACTTCCGGTCCAGCGTCTTGTCAGGAGCCTTGGCGGAGATCCGCAAGTGCGCATTCCGGCACCGGAGGGACCGTTTGACCGGGTGCTTCGGGTGATGCGCTTCATGCCCGGAAATTTGCTGGCCAGTCACGACGCCTCCGCCGGTCAGCTTCAGCTGGTGGGCTCAAGCCTTGCCCGCGTTGGCCTTGCTTTGCAGGACTTGGATCATCCGCGTGCGGACCGGCTGCTCCTGTGGGACCTGAAGCACTTTCACCGGATGCGGCCGCTGCTTGAGTATGTCGATGAGCCATCCAAACGCTCCCTGGCCGAAGCAATTTTTGACCGTTTCGACGAGAACGTGGTTCCGCTTCTGGGTTCACTGACCTCCCAGATCGTGCACGGGGATTTCAGCCCGTTCAACGTTATTGTCAACCCGGACAGGCCGGAATACGTCACCGGGATTATCGACTTCGGCGACGTCGTGCGCACCCCGGTGATCTTCGACATCAGCGTCACCATGGCCAACCTCCTGGGAACAGACCCCTCCAGCCCCTGGAAACACGCACTGCACGTCATGGACGGTTACCTGAGCGTCCGCCCGCTGCCCGAGGCGGAGCTGGAGGCCCTGATCATCTCAGCCCAGGCCCGGCTGCTCCTGCGCGCCCTGATCACACAGTGGCGGGCAAGCCAACTGCCGCAAAGACGCGATTATCTGCTCTCCCACTCCAAACCGGACTGGGACCGCCTCGCCGCCACCGCCGCTGACCCGGCACCACAGACCGCACGTCCCGCCCCCAACCCCGTCGCACCCTGA	MDVSTDSEFFDAVASESGLLAEQSQLADSTVLELLKQSYGLKGTLVRIPTEKDETFRLRDGEHTYLVKVSPPDEDPLIVHLQTVCMEHLEATAPELPVQRLVRSLGGDPQVRIPAPEGPFDRVLRVMRFMPGNLLASHDASAGQLQLVGSSLARVGLALQDLDHPRADRLLLWDLKHFHRMRPLLEYVDEPSKRSLAEAIFDRFDENVVPLLGSLTSQIVHGDFSPFNVIVNPDRPEYVTGIIDFGDVVRTPVIFDISVTMANLLGTDPSSPWKHALHVMDGYLSVRPLPEAELEALIISAQARLLLRALITQWRASQLPQRRDYLLSHSKPDWDRLAATAADPAPQTARPAPNPVAP				NA	NA	NA	NA	NA
D1-29_04035	1362	dgdA		2,2-dialkylglycine decarboxylase	ATGAGCACTACTCCCCAAACCATCCGCAAGCCTTCCCGGGCCATGATCAATGGCTTTGATCCCAACCGCCTCGGTGAGCTTCCGGATCAGATGCAGAAGAGCATCCGACGGCGGGACCAGAGCCTGGGACCAAGTTACCGGCTCTTCTATGACACCCCGATCGAAATCGTCCGCGGCAAGGGCGTGACGCTCTTTGACCCGGAGGGAAACGAGTACCTCGACGTTTACAACAACGTCCCCTCCGTAGGCCATGCCCACCCAAAGGTCATCGCAGCCGTCCACGAACAGATGCAGACCCTGAACACCAACACCCGGTATGTCCAGGAATCCATCCTCGATTACTCCGAGCAGCTCCTGTCCACGTTCCCGGCCGAGCTCGGCAATGTCATGTTCACGTGCACCGGCTCCGAAGCCAATGACCTCGCCATGCGCGTGGCCAAATACGTCACCGGAAACCAGGGCATCATCGTCACCTCCGGCGCGTACCACGGCCTGACCGCGGAAGTTTCGTCCTTCTCGCCGTCGCTGGGTATCGGCGTGCCGCTGGGCGCAAATGTGCGCGTCATCGACGCCCCCGACGCCCTGCGGTACTCCTCCGACCAGGCATCCCTGGAGGACCACCTGCGGAACCAGGTGCGTGCCGCCATCGCCGATCTTCACCGGCACGGCATCGGACTGGCGGCCTTCATCGCCGACAGCATCTTCTCCTCCGACGGCGTCTTCGCCGGCCCCGCAGGCTTCCTGCGCCCGATCATCGAAGAAGTACACGCCGCCGGCGGCCTCTACATCGCCGATGAAGTCCAGCCCGGCTTTGGCCGTACCGGCGCCGAATGGTGGGGCTTCCAACGCCACGGAATCGTCCCGGACATCGTGACCATCGGCAAACCAATGGGTAACGGGATCCCCGTCGCGGCCGCCATCTTCAAACCCGAACTGCTCGTGGAATTCGGCAAGAACATCCGCTACTTCAACACCTTCGGCGGCAACTCGGTAGCCATCGCCGCCGCCCAGGCAGTGCTGGACGTGATCCGCGAGGAATCACTGATCGAAAACGCCCTCAAGGTGGGCGAGAAGATCATCACCGGGCTGAAGGACCTCTCCCAGGGCCTGGACCAGGTCGCAGAAGTCCGCGGAAGCGGCTTCTTTATCGGTGTCGACCTCGTCACCGACCGATCCTCACTCACACCCGACGGGCAGGCCGCCGCGGCCATCGTGAACTCCCTTCGGGAAGACCGGATCCTCATCTCCGCCTGCGGCGCCCAAGGAAACGTCCTCAAACTCCGCCCCCCGATGCCGTTCTCCAGCAACGACGCCGACCGCCTGCTCGAAGGAATGGGCCGCGCCTTCAAGGCACTGCGCTAA	MSTTPQTIRKPSRAMINGFDPNRLGELPDQMQKSIRRRDQSLGPSYRLFYDTPIEIVRGKGVTLFDPEGNEYLDVYNNVPSVGHAHPKVIAAVHEQMQTLNTNTRYVQESILDYSEQLLSTFPAELGNVMFTCTGSEANDLAMRVAKYVTGNQGIIVTSGAYHGLTAEVSSFSPSLGIGVPLGANVRVIDAPDALRYSSDQASLEDHLRNQVRAAIADLHRHGIGLAAFIADSIFSSDGVFAGPAGFLRPIIEEVHAAGGLYIADEVQPGFGRTGAEWWGFQRHGIVPDIVTIGKPMGNGIPVAAAIFKPELLVEFGKNIRYFNTFGGNSVAIAAAQAVLDVIREESLIENALKVGEKIITGLKDLSQGLDQVAEVRGSGFFIGVDLVTDRSSLTPDGQAAAAIVNSLREDRILISACGAQGNVLKLRPPMPFSSNDADRLLEGMGRAFKALR	PGPT0014253_10	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
D1-29_04036	786			Tropinesterase	GTGTCCCCGCCTCTGTCTGAACTGATGCTTACCACCGCGCCAGGGGTACTCATCCGTTGCTATGACACAGGCGGACCCGGGCCGGTTATGGTCATACTTCACGGCCTGACCGGCAGTGCCGCTGAATTCTTTCCGACGGCGGCGGGCCTGCCGGAATACCGGACAATCCTGATGGATCAGCGCGGCCACGGCGGAAGCACCCGGTTCCCCGGCGACGTCTCGCGCGAGGCGTATGTTGCCGACGTCGTCCGCGTTATTGAGGAAGCAGCGGCGGGTCCGGTCACGCTGGTGGGGCACTCGATGGGCGGGCACACCGCGATGCTGACCGCTGCAGCGCGGCCGGACCTGGTGTCCCGGCTGGTGCTGCTGGAGGCCGGCGCGGGAGGAGGCAGGCCGCAAGACCACGAGTCGATGGGCGAGTATTTCCGGTCCTGGCCGGTGCCTTTCCCCAGCCGAAGGGCTGCCCAGGAATTCCTCGGCGACACAGCCTTGGCCAAGGCTTGGGTAGCTGACCTTGAGGAACACCCGGACGGTTTCCGGCCCCGGTTCGACGCGGACGTGATGGTCCAGGCGATCAGTGCCGTGACGGTGGCTCGGTGGACGGAATGGAAGCAGGTGTCAGCGCGCACGCTGGTGGTCTATGGCGGCAAGGGTATGTTCACGGAGGCCGAGAAGGACGAATTCGTGCGGCGGGGCCATGATGTGACCCGAGTGGACCTCCCCGGGGCATCGCACGACGCCCATCTGGATGCGTTCGACGAATGGGTGGCCGCCCTCAAAAGGTAA	MSPPLSELMLTTAPGVLIRCYDTGGPGPVMVILHGLTGSAAEFFPTAAGLPEYRTILMDQRGHGGSTRFPGDVSREAYVADVVRVIEEAAAGPVTLVGHSMGGHTAMLTAAARPDLVSRLVLLEAGAGGGRPQDHESMGEYFRSWPVPFPSRRAAQEFLGDTALAKAWVADLEEHPDGFRPRFDADVMVQAISAVTVARWTEWKQVSARTLVVYGGKGMFTEAEKDEFVRRGHDVTRVDLPGASHDAHLDAFDEWVAALKR				NA	NA	NA	NA	NA
D1-29_04037	1308	amt_2		Ammonia channel	GTGGAGATCACTGCTCAACACGTCTGGCTGATGATTTCGGCCGCGATGGTACTGCTCATGACGCCGGGCCTCGGCCTCTTTTACGGCGGCATGACCCGCGCCAAGGCAGCATTGAACATGATCCTGATGAGCTTCATCTCCGCCGGCATCGTGGGCGTCGTGTGGGTGCTCTGGGGTTACTCCATGACCACGGGCGAAGGGGTCTTTGGCATCTTCGGAAACCCCTTCACCAGCTTTGGCCTGGAAAGCCTGATGGGTTCACCGGACCTGATCAAGGCCGGCTACAGCGCCACGTTCGCCATGGTCACGGTGGCCCTCATCAGCGGAGCCATCGCGGACCGCGCCAGGTTCAGTGCCTGGGCCCTGTTCGTCCCGCTCTGGATCACCCTGGTCTACTGTCCCTTGGCGTACATGATCTGGGGCGGCGGCCTGATGAGCGCTGACGGCGCCATCACGGCCGTGTTCGGGCAGGTCATCGACTTCGCCGGCGGCGCGGTGGTGGAGATCAGCTCGGGTACGGCGGCCTTGGTCCTGGCGGTGATTGTGGGCCAGCGCCAGGGTTTCGCGAAGGACCCCAACCACCGCCCGCACAATGTCCCGTTCATCATGCTCGGCGCAGCCATCCTCTGGTTCGGCTGGTTTGGTTTCAACGGCGGTGCCGCCACCACCGCTGAGCAGGCCGGTCTCATCTGGGTCAACACGCTGGTTGCCCCTGCCGCTGCCATGCTCAGCTGGCTGGTTACCGAAAAGATCCGCCACGGACACCCCACGTCCCTCGGCGCCGCCTCCGGCGTGGTGGCAGGCCTCGTGGTGATCACACCCTCGTGTGCCAACATCAGCCCGGTGGCGGCCGTCGGCCTGGGCCTGGTGGCCGGGGTTGCCTGCGCCATTTTCGTAGACCTGAAGTACCGCTTCGGCCTGGACGATTCGCTGGACGTCGTGGGTGTCCACCTTGGCGCCGGTGTGATCGGCATGCTAGCGCTGGGTTTCATCGCCCTTCCCTTGGATGGCCACGGCGGCGGCCTCTTCTACGGCGGCGGCCTGCAGCAGCTGGTGGCGCAGTCCGCGGCAGTCCTGGTGACCGTCCTGTTGTCCGGCGCAGTCACCGCCGTGATAGGCCGGGCCATAAACAAGACTGTCGGTTTCCGGGTCAGCGCCGAGGCCGAAACAGTAGGTGTGGACCTCGCCGAGCACGCCGAGACGGCCTACGCCTTCGGAGAACAGGGCACGGGCTTCAGCCCTGTCAACGTCCCCACAGAGCCGGCGGACACCGGTGCCGCCCGGACCCGGGAAAACACCTTCGCCTAG	MEITAQHVWLMISAAMVLLMTPGLGLFYGGMTRAKAALNMILMSFISAGIVGVVWVLWGYSMTTGEGVFGIFGNPFTSFGLESLMGSPDLIKAGYSATFAMVTVALISGAIADRARFSAWALFVPLWITLVYCPLAYMIWGGGLMSADGAITAVFGQVIDFAGGAVVEISSGTAALVLAVIVGQRQGFAKDPNHRPHNVPFIMLGAAILWFGWFGFNGGAATTAEQAGLIWVNTLVAPAAAMLSWLVTEKIRHGHPTSLGAASGVVAGLVVITPSCANISPVAAVGLGLVAGVACAIFVDLKYRFGLDDSLDVVGVHLGAGVIGMLALGFIALPLDGHGGGLFYGGGLQQLVAQSAAVLVTVLLSGAVTAVIGRAINKTVGFRVSAEAETVGVDLAEHAETAYAFGEQGTGFSPVNVPTEPADTGAARTRENTFA	PGPT0000840_4391	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
D1-29_04038	621			hypothetical protein	ATGGAAGGCATTCATGACGACAAGTTTTCGGACAGGGGTGTAGGCCGCGGACGCTTCGAACGCGGCAGGGGCCGCCGCGGACCGCACGGACACCGCGGCGGCGGATTTGGGCCCGGCTTCGGACCTGGTTTCGGCCCTGGTTTCGGACCCGGGCGTGGGTTTGGCCCAGGCTTTGGTCCCGGCTCCCGGAGGGCCAACAGGGGAGATGTCCGGTCAGCGATTCTGTCGCTCCTGGCGGAGGCTCCGTCCAACGGTTACGCGCTGATAAAGACCATTGCGGAGAAAACGTCCGGAGCCTGGCGGCCCAGCCCCGGGTCCATTTATCCGACGCTCCAGCAACTGGTTGATGAAGACCTCATCGCGCCGCTGAGCGAGGGACGGCGGACCGAGTTCACCCTGACTGACGCGGGCAGGGCCTACGTCAGTGAGCACGCCGAGGATCTGGATAACGCCTGGAACGCTGAGCCGGAAGGATCAGGCCAGGCTTTTTACCAGAGTGTGGGAAAGCTGATGGGTGTCATCCACCAGTTCCGGCATGCGGCCACCGAAGAACAGCGCAATGCCGCGGTGGAAAAGATCGACGAAACCCGCCGCGCGCTGTACCACATCCTCGCGGACTGA	MEGIHDDKFSDRGVGRGRFERGRGRRGPHGHRGGGFGPGFGPGFGPGFGPGRGFGPGFGPGSRRANRGDVRSAILSLLAEAPSNGYALIKTIAEKTSGAWRPSPGSIYPTLQQLVDEDLIAPLSEGRRTEFTLTDAGRAYVSEHAEDLDNAWNAEPEGSGQAFYQSVGKLMGVIHQFRHAATEEQRNAAVEKIDETRRALYHILAD				NA	NA	NA	NA	NA
D1-29_04039	2184	pbpG	COG0744	Penicillin-binding protein 2D	ATGGCGAAGAAGAAGAGACGCGGGCACGGATTTGCCGCAACCCTGAAAAGGGTCATCGGCTTCTTTATTGCGAGTGCCCTGTGCGGTGTCCTCGCCGCCAGCCTGGTGGTTCCGGCCGTAGCAGCCGCCGGTTTTGGGGTCACCAATTCCATCAGTTTCTTTGAGAAGCTCCCTGACGAACTGACCGTTGCACCGCCGTCGCAATCAACGAAGGTCCTGACGGCGGACGGCCAACTAATTGCCACCTTCTACGCCGAGAACCGGGTCAGGGTCCCGCTGGACCAGATCTCCCCCTACGTCGTGGATGCCATTGTGGCCATCGAGGACAGCCGCTTCTATGACCACGCCGGCATTGATCCGCAGGGGATTCTGCGGGCAGCCATCTTCAACATCAGCCAGGACGACGGGCGCCAGGGCGCATCCACCCTCACCCAGCAGTACGTCACCAACGTCATCAACGAATCGTTCCTGTCCCAGGAGAAGACCGACGAGGTGATTCTCAGCGGGCAAAAGAGCATCGGCGACAAGCTGCGCGAGATGAAGCTGGCCATCGCGCTGGAGAAGAAGTTCACCAAGGAGCAGATCCTCGAGGGTTACCTCAACATCGTGTTCTTCAACCGCGACGCCTACGGGATAGAGGCCGCTTCCCAGTACTTTTTCAGCAGCACCGCCAAGGATGTCACCCTGCCGCAGGCCGCCTTGCTGGCCGGGCTGGTGAACAGTCCCAGCTACTACAACCCGGCCATCAACCCGGACAAGTCCCTTGCCCGGCGCAACCAGGTGCTCGGTGAGATGCTTGCGCTCGGCAAGATCACCCAGGAGGAGCACGACGCGGCTGTTGCCACTCCCATTGAACTTAAGCTCAACCCCGCGAAGCAGGGCTGCGCCTACGCCACCATGGCACCGTATTTCTGCGATTACATTTCCCATCTGATCCTGAACAATCCGGCCTATGGCAACAGCTTGAGCGAGCGCGAGCGGAAGCTCTACCGCGGCGGCCTCACCATCGTCACCACGCTGGACAGCAGGCTGCAGGCCGCCGCCCAGGTGCAGGTGGACGCGTCCGCCGGAGCAAATCCGGACAGGTGGGGTGCAGCGCTGGTGACCATCCAACCGGGCACCGGCAAGATCCTGGCAATGGCCCAGAACACTGTGTTCCTGCCGCAGGAGGGAAAGTTCGACACCCATCTGAACTTCAACGTGGACGCCAAGGACCCGCAGGGCAACGACCTCAATGGGGCCGGTGGCTTCCAGCCAGGATCCACCATGAAGCCGTTCACGTTCGCGCAATGGCTCAATGAAGGCAAGTCCATGACCGCCATGGTGGACGCATCCAAGCGTGTCTACCCCCTCGGGTTCCCCTGGCGGTCCAGCTGCGGGAAGGTCCTGGGCGCTTACAGCACAGCCCAGAACAACCCCGAACTAGGGGCGGCGGACGATCTCCAGAACGCCGACGAAGGCTACTACCGCCCCATGCCTGTCAACTATGGCCTTTACAATTCCATCAACACCGCCACGTTCGCCTCGGCATCCCAGCTGGACTTCTGTGGCATCCAAAAAATGGTGGATGCTGTGGGCCTGCACAGCGGCCTGGACGGCGCCCAAATCAACATGCACCAGCTGGGCAACCTGCTGGGCGCCATCGGCGTGGCACCGCTTCACCTGGCCAACGCCTTTGCCACCTTCGCCAATGACGGCCGCTACTGCGCACCCATCGCCATTGCGGACGTAACCGACGTAACCGGCGGGAAGCTTCCGGCCCAGGCCAGCGAATGCCGCGACGCCGTGAAGCCGGACGTTGCCCGCGGGGTGAACGCGGTACTCCAGGATGTGCTGAAGGTGGGCTCCGGCGTTTACATCAACCCCAAGCTCCACACCCAGATGCCCATCGCGGCCAAGACCGGCACCTCGAACAATAACGGGGCCACCTGGATCGTTGGCTACACGTCGAGCCTGGCCACCGCATCGTTCTTTGGCGACGCGCTGGAGGGCCAGAAACGCCCCGGCCAGAACGTCACCATCAACGGCACCTTCTATCAGCGCCTGGACGGCTATATGATCGCAGGCCCGCAATGGGCCAACTACATGCAGCAGGTGGGCAAGCTTTACCCCACCAACCCGTTTGCACCGCCGCCGCCGTCCATGGTGGGAACACCCGGTCCTACCCCGACTCCCGGCCGCTGA	MAKKKRRGHGFAATLKRVIGFFIASALCGVLAASLVVPAVAAAGFGVTNSISFFEKLPDELTVAPPSQSTKVLTADGQLIATFYAENRVRVPLDQISPYVVDAIVAIEDSRFYDHAGIDPQGILRAAIFNISQDDGRQGASTLTQQYVTNVINESFLSQEKTDEVILSGQKSIGDKLREMKLAIALEKKFTKEQILEGYLNIVFFNRDAYGIEAASQYFFSSTAKDVTLPQAALLAGLVNSPSYYNPAINPDKSLARRNQVLGEMLALGKITQEEHDAAVATPIELKLNPAKQGCAYATMAPYFCDYISHLILNNPAYGNSLSERERKLYRGGLTIVTTLDSRLQAAAQVQVDASAGANPDRWGAALVTIQPGTGKILAMAQNTVFLPQEGKFDTHLNFNVDAKDPQGNDLNGAGGFQPGSTMKPFTFAQWLNEGKSMTAMVDASKRVYPLGFPWRSSCGKVLGAYSTAQNNPELGAADDLQNADEGYYRPMPVNYGLYNSINTATFASASQLDFCGIQKMVDAVGLHSGLDGAQINMHQLGNLLGAIGVAPLHLANAFATFANDGRYCAPIAIADVTDVTGGKLPAQASECRDAVKPDVARGVNAVLQDVLKVGSGVYINPKLHTQMPIAAKTGTSNNNGATWIVGYTSSLATASFFGDALEGQKRPGQNVTINGTFYQRLDGYMIAGPQWANYMQQVGKLYPTNPFAPPPPSMVGTPGPTPTPGR				NA	NA	NA	NA	NA
D1-29_04040	1413	nplT		Neopullulanase	ATGGCTGGAAAGGCCTGGGTGAAGCAGAATGGAGCAATGGCAGAACCGAGTTGGGTCCAGCACGCCGTCTGGTGGCACGTCTACCCCCTGGGGTTCTCCGGAGCCGGCAAGGAAGCGCTCCCGGTCGGGGCTGCCCCCGAACACGGGCTCAGGCAACTGATCCCCTGGCTCGATTACGTCCTGGAACTGGGAGCCTCCGGCCTCGCCCTGGGGCCCGTCTTCGCCTCCGAAACGCACGGCTACGACACCACGGACTACTTCCGCATCGACCCCCGACTGGGTGACGACGGCGACTTCGACGATCTCATCCGTGAAGCCCACGCGCGGGGCATCAGGGTGCTCCTGGACGGTGTGTTCAACCACACCGGCCGCTCATTCCAGCCTTTCCAGGAGGCCTTGAAGCACGGGCCATCCGCCCCGTCCGCGCGCTGGTTCAGGATCCATTGGCCAGAGAATGGGGCTGCAGGCCGCACCCCGACTAATGAGCCGGACTATGAGGATTTCGAAGGCCATCACCACCTGGTGGCACTGAACCATGATGAACCGCAGGTAGCCGGGTTTGTCGCGGCAGTGATGAAGCATTGGCTGGACCGCGGCGCGGACGGGTGGCGGCTGGACGCAGCCTACGCGGTGCCCGCCGGCTTCTGGGCCAAGGTCTTGGCGGACGTCCGGTCCAGCCATCCCGACGCCTATTTTGTGGGGGAGTACATCCACGGGAATTACGCGGCCGAGGTGGGCAACGCGGCCCTGGATGCCGCCACCCAGTACGAGCTGTGGAAGGCGGCGTGGAGTTCCCTGAACGACACAAACTTCTACGAACTGGCCTCCGCGCTGGAACGCCACAACTCGTTCCTGGAAACCTTCGTTCCGCTCACTTTCGTGGGAAATCACGACGTCACACGGATCGCCAGCAAACTCAAGGACCCGGAGCTGCTGCCGCACGCCCTGGTGGTCCTCTTGACGGTGGGCGGCACCCCGTCCGTCTATTACGGCGACGAGCAGGCGTATCGCGGCGTCAAGGAGGACAGGGAGGGAGGCGATGACGACGTCCGGCCTGCGTTTCCGGCATCCCCGTCGGAGCTGTCCCCTCTGGGCGGGGACGTTTACCGGCTGCATCAGCAGCTGATCGGAGTACGACGGCGGCACGCCTGGCTGCATACAGCCCGCACCAGGGTGCTCGCCCTGGCCAACGGCCACCTTGTGTATGAAGCAACAGCCAGTCGGGCGGCCGCCGATGGCGGGGCCGGCGGAGGAGGGAGCCTTGTGGTGGCGCTCAACCAAACCGAGCAGGAAGCGGCCCTTGAGGTGCCGCCGTCGGCCTCTGTCCTGCTGGCCGGGAACGGCCGGCTGGAGGGGAGCAACCGCGTGTCCCTGCCCGCGAAGGGCTTGGCGGTCCTGTCAGCTGGGGGTTGA	MAGKAWVKQNGAMAEPSWVQHAVWWHVYPLGFSGAGKEALPVGAAPEHGLRQLIPWLDYVLELGASGLALGPVFASETHGYDTTDYFRIDPRLGDDGDFDDLIREAHARGIRVLLDGVFNHTGRSFQPFQEALKHGPSAPSARWFRIHWPENGAAGRTPTNEPDYEDFEGHHHLVALNHDEPQVAGFVAAVMKHWLDRGADGWRLDAAYAVPAGFWAKVLADVRSSHPDAYFVGEYIHGNYAAEVGNAALDAATQYELWKAAWSSLNDTNFYELASALERHNSFLETFVPLTFVGNHDVTRIASKLKDPELLPHALVVLLTVGGTPSVYYGDEQAYRGVKEDREGGDDDVRPAFPASPSELSPLGGDVYRLHQQLIGVRRRHAWLHTARTRVLALANGHLVYEATASRAAADGGAGGGGSLVVALNQTEQEAALEVPPSASVLLAGNGRLEGSNRVSLPAKGLAVLSAGG	PGPT0012200_1092	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0012200-cd|ma|nplT-K01208	NA	NA
D1-29_04041	537		COG1670	Acetyltransferase	GTGCAAAATCTGGAAACCGACCGGCTGATCCTGCGCGCCTGGGAGCGGGAGGATGCCGATTTCGCCTTCGACCTCTACTCACGCTGGGAGGTGCAGCGGTTCATTGGCAACCCGCCGCAGGTCATGACGGCACGATCGCAGGCTGAGGAGCGCATTCTGGCGTGGCGGGAGATGGATCATCCGGTACACGCGGTCTGGGCGGTGCAGCTCAAGGCCACCGGCCAGCTTGCCGGCGCCCTGCTCCTGAAATCCATTCCGGCGTCGGGCGGTTCAATGCCTCTCCAGCCATCCGGTGACACGGAAATCGGCTGGCATTTCCACCCCGATCACTGGGGCCACGGCTACGCCTCCGAAGCCGCCGCCGTTGTCCTGGACTACGCCTTTGACAGCGGCCTGGACGAGGTCGTGGCTGTCACTGCACCCGCGAATGTGGCATCACAGAAGGTCTGCGAACGCATCGGGATGCGCCATGCCGGCCAGACGTCCAGGTACTACAACTCGCTGTGTGAGCTTTTTGTGGTCTCCGCGGCTTCCTAG	MQNLETDRLILRAWEREDADFAFDLYSRWEVQRFIGNPPQVMTARSQAEERILAWREMDHPVHAVWAVQLKATGQLAGALLLKSIPASGGSMPLQPSGDTEIGWHFHPDHWGHGYASEAAAVVLDYAFDSGLDEVVAVTAPANVASQKVCERIGMRHAGQTSRYYNSLCELFVVSAAS				NA	NA	NA	NA	NA
D1-29_04042	591			hypothetical protein	ATGAGCGGCGGGTCGGGGGACTTCAGGCGGCGGATGGAACGCGCTGCGGAGGTTCGTTCTTATCGCGACGCAGGCATCAGGCCGGAGGAAGAAGCCGAGCTTGAGGCCGTGGATGACCAGGAGCGGCAGAAGCGACGGAAAGTGGACGATGCCGCCCGGGTGGAATACCTCATCCGCGACGCAATGGCCCAGGGCAAGTTCGACAACCTGAAGTACGCGGGCAAGCCGATCCCGGGGCTGGGGGAGCCCTACGATCCGGACTGGTGGGTTACGGGCCTGCTCCAGCGGGAGAACGTCAGCGGCCTGGGGCCAAAGGCCATCCTGCTCCGTACCGAGGATGCCGAACTGGACGCCAGGCTGGACGCCCAATTCACCGAGAAACAGGTCAGGGAGATACTGGAGGACTTTAACGCAAGGGTCATTGACGCCCGCCGCCAGCTCCAGGGCGGCCCGCCGGTCATCACCAAAACCAGGGATGTGGAGGCCGAAGTGGCCCGCTGGCAGGAGCGCCGGACCCGGGCTGCTGTACTGCCTTCCGAACCTGAGCCAAGGCGCTCCTGGTGGCAGCGGCTCTGGCGGGGTACAGCCTAG	MSGGSGDFRRRMERAAEVRSYRDAGIRPEEEAELEAVDDQERQKRRKVDDAARVEYLIRDAMAQGKFDNLKYAGKPIPGLGEPYDPDWWVTGLLQRENVSGLGPKAILLRTEDAELDARLDAQFTEKQVREILEDFNARVIDARRQLQGGPPVITKTRDVEAEVARWQERRTRAAVLPSEPEPRRSWWQRLWRGTA				NA	NA	NA	NA	NA
D1-29_04043	273			hypothetical protein	ATGGTCAGAGTCCCCCTAAGCCCCGAAGAGGTCCGTGCAGGGAAGATGCTCGGAGAAATGCTCCGCAATGCGCGTGGGAAACGGACGCTGGTTCAGGTGGCTCTTGGAGCAGGCATATCCCCTGAAACACTCCGGAAAATCGAAACGGGTCGAATCGCCACACCGTCATTCATGATCGTGGCGGCCCTCGCCGAAGAACTGGGTCTCTCCCTTGACGCCATCCAGGGAACGCTGCGCCGCTCATCCGATGAGAACCTCGATGTAGCTTCTTAA	MVRVPLSPEEVRAGKMLGEMLRNARGKRTLVQVALGAGISPETLRKIETGRIATPSFMIVAALAEELGLSLDAIQGTLRRSSDENLDVAS				NA	NA	NA	NA	NA
D1-29_04044	771	map_3	COG0024	Methionine aminopeptidase 1	TTGATTGAAGTGCTTACGCCCCGAGAAGTTGACCAAGCCCGCCTCTCCGGCCAATTTGTGGCCAGGACCCTGTCAGACCTGAGGGACAGGACCGAGCCGGGCACGAACCTCCTGGAAATTAACGACTGGGCAGATTCGATGATCCGGGCCGCAGGAGCCCGCTCCTGTTATGTCGACTACGCCCCGTCCTTTGGGCGCGGCCCGTTTGGCAAAGTGATCTGCACGTCCGTCAACGATGCCGTTCTACACGGACTCCCCCATGACTACGTTCTGATGGAAGGGGATCTGCTGACTTTGGATTTCGCTGCGAGTGTCAACGGATGGGTCACCGATTCCGCCATCAGCTTCGTTGTAGGCGAATCTCCTTCGCGTGCTGACCGGCACATGATTGAAACCACGGAGAAAGCACTTGTGGCCGGCATCCAGGCAGCCCAGTCCGGAGCGCGCATTGGCGATATCTCTTTCGCCATCGGGTCAGTGCTCGAAGCAGCCCGCTTCAAGGTCAACAAAGAATTTGGCGGACATGGGGTTGGAAGCACCATGCACCAGGACCCGCACATTCCGAACACCGGAACACCTGGACGCGGATACACTCTTCGCCCCGGACTGCTTTTGGCCATCGAACCCTGGGTTATGGACGGCACCAGCAAACTCGTCACAGCTGCCGACGGGTGGACCCTGTGCAGCTCCAATGGCCGCCGGACCGCGCACTCCGAGCACACGATTGCCGTCACGGAATCCGGACCGGTCATCCTCACTCAACTGGCCTAG	MIEVLTPREVDQARLSGQFVARTLSDLRDRTEPGTNLLEINDWADSMIRAAGARSCYVDYAPSFGRGPFGKVICTSVNDAVLHGLPHDYVLMEGDLLTLDFAASVNGWVTDSAISFVVGESPSRADRHMIETTEKALVAGIQAAQSGARIGDISFAIGSVLEAARFKVNKEFGGHGVGSTMHQDPHIPNTGTPGRGYTLRPGLLLAIEPWVMDGTSKLVTAADGWTLCSSNGRRTAHSEHTIAVTESGPVILTQLA	PGPT0020010_7327	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
D1-29_04045	894	aes_3	COG0657	Acetyl esterase	ATGGTCGATTGCATGGCGGCGTCCTTCATTGGTGTGAGTGAACTCAAGGTTGCCGAATCATCAGCCTCAGGGCCTTATGGTCCCGTCCCGATCCGCTGGTATCGGCCAGCAGTTGAGAGTGCAGCGGCAGCACCGGTCCCGACGATGGTCTGGGCGCACGGCGGAGGCTTTTTTGCCGGCGGCCTTGACCAGCCTGAAGCCCACGACGTCGCCCGCGCTCTTGCGCAGCGCGGGCTTCCTGTTGCCACAGTGGACTACCGCCTCGCGCCACTTCCCGGGCTGGCGTGGGCCGGAAGGGGCGGAAGGCGGCCCCGCGCGCGGTTTCCTCTTCCCGTTGAAGACATCGTTACCGCGCTTGGCAGTGTGGGCAGTGAGTCACCGGGTGGAGTGATTCTCGGTGGAGCAAGCGCCGGAGCTTGCCTCGCCTCCGCCGCCACTCTCCGTGCCCTCAAGGGTGAGCTGAAACCGAGGGGGATTGTTCTTGCCTACGGCTTTTTCCACTCGTTGCACCCCAGGTCTCACAACATCCGGAGGCGGGTACCCGGCCACCGGCGGCTGACACATTCCCTTTGGATCCTTGACGCCGTTAATCGCAACTACGCGGGCTCACCGTCCGCGTTGGCTAATCGCTTCGCCTTCCCCGGAGGGCACGGCCTCGACGGCTTGCCTCCAACCCTCATGATCAATGCCGACCGGGACGCCATGCGCGCATCCGGTGATCAGTTCGCGGGCGAACTCCTCGCGGCAGGAATCGACGTCGAACAGCACGTTCTGCCAGGCTCCCGTCATGGTTTCCTGAACCGTCCGCGTCTCGAGGCCTTCACAACCGCAATTGATCTCATTGCTTCATGGTCCTTGACGCGGCTGCCGGGGCCGCCGGTACCTATGAAGTGA	MVDCMAASFIGVSELKVAESSASGPYGPVPIRWYRPAVESAAAAPVPTMVWAHGGGFFAGGLDQPEAHDVARALAQRGLPVATVDYRLAPLPGLAWAGRGGRRPRARFPLPVEDIVTALGSVGSESPGGVILGGASAGACLASAATLRALKGELKPRGIVLAYGFFHSLHPRSHNIRRRVPGHRRLTHSLWILDAVNRNYAGSPSALANRFAFPGGHGLDGLPPTLMINADRDAMRASGDQFAGELLAAGIDVEQHVLPGSRHGFLNRPRLEAFTTAIDLIASWSLTRLPGPPVPMK				NA	NA	NA	NA	NA
D1-29_04046	381			hypothetical protein	ATGGATATCGTCCTCTGGGTCATCGCCGGGTTGCTGGCAGCAGCCTTCCTCGCCGCCGGGGCCATGAAGGTCATGCAGTCCAAAGAAAAGCTCGCAGCTTCCGGGATGGGGTGGACGGACGACTTCAGCCAGGGCATGGTGAAGACCATAGGCCTCCTGGAGGTGCTTGCCGCCGTCGGCCTGATCCTACCCGCGGTGCTGGGGATCGTCCCGGTACTGGTTCCGCTGGCGGCCCTCGGGCTCGCAGGCCTGATGGTTGGCGCTGCGATTACACACGGCCGCCGCAAGGAAACCCCGATGGTGGCGATCAACGTGGTTTTGCTCATTCTGGCGGCGGTTGTTGCCTGGGGCCGGTTCGGCCCTTACGCCTTCACTTCATAG	MDIVLWVIAGLLAAAFLAAGAMKVMQSKEKLAASGMGWTDDFSQGMVKTIGLLEVLAAVGLILPAVLGIVPVLVPLAALGLAGLMVGAAITHGRRKETPMVAINVVLLILAAVVAWGRFGPYAFTS	PGPT0028505_4915	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
D1-29_04047	522			hypothetical protein	ATGGATGCAACTCAAGAGCCCCGTTGGCTGACGCCCGAAGAGCGGGACGCCTGGCTGGCACTGACCAGCGTGATCATGAGGCTGCCTTCCGCGCTGGACGCCCAACTCCAGCGCGATGCAGGAATCAGCCACTTCGAATACCACGTGATGGCAGGGCTCTCCGAGAGCAAGGGCCGGACAGCTCGAATGAGCGAACTGGCCGTGATTGCCGAAGGCTCCCTCCCCCGCCTCTCGCAGGTAGTGGGCAGGCTCGAGAAGCGCGGATGGGTGCGCCGCAGACCGGACCCAACGGACGGCCGCTATACCCTGGCGATCCTCACTGATGAGGGGTGGGACAAGGTGGTCAAAACGGCACCCGGCCATGTGGAGGAAGTGCGCACCCTGGTCTTTGACCCGCTCACCAAGGCCCAGGTCCAGCAGCTGACCAATATCGGCCGGCGGGTCACCCGCGCCATCGACCCCAACGACTACTGCCTCCGCGGCCTTGACCAAGGCCGGCAGTCTGGAACTGCAGCGGGCTAA	MDATQEPRWLTPEERDAWLALTSVIMRLPSALDAQLQRDAGISHFEYHVMAGLSESKGRTARMSELAVIAEGSLPRLSQVVGRLEKRGWVRRRPDPTDGRYTLAILTDEGWDKVVKTAPGHVEEVRTLVFDPLTKAQVQQLTNIGRRVTRAIDPNDYCLRGLDQGRQSGTAAG				NA	NA	NA	NA	NA
D1-29_04048	681	lutR_3	COG2186	HTH-type transcriptional regulator LutR	GTGGGTGCCGCTGAAGCTGTATTCGCATCCCTTCGCGGCGCCATCGAGGGCGGCAAGATTCCCGTTGGTACACGCCTGGATTCAGAGGCGTCGCTGGCCAAGCAGTACGGAGTCAGCCGCACCATGGTCCGCGAAGCCCTCCGGTCATGCACCGCCCTCGGCCTGACCGCCACGCATACCGGCAAGGGCACTTTTGTCATCGCCGACAAAGTAGCCCAGGACCTCAAGCTCGGTAAATACTCCGCCAGCGCCCTGATGGAGGCCCGCCCCCACGTGGAAGTTCCGGCCGCAGGCCTCGCAGCCCAGCGCCGGACCAATGAAGACCTCGAGGCCCTCCGGGAGATTCTCCGGGAGATGTCCGAGGCCGAAAACCTCCAACAGTGGGTTCAACTCAACACCGAATTCCACGTGACCATTGCCCGTTCCAGTGGCAACGGCGTCTTCGAATCATTCCTCTCCGACATCGTTGAGGCCATGGCCAACCAGTCGAACACCCTCAACCTGGTGGCCGACCGCCGGAAGGAGTCCGGCGACGAGCACGCCCGCATCTTTGATGCGATCGAGCGCGGTTCGGCCGAGGACGCGTCGGAGGCCATGACCATGCACCTGCATGGCGTGGAGTGTGCCCTGGGCACCATCGTCCCCGGAAGCGGAAATACCAACGCTGGCCGCACAGGCTGA	MGAAEAVFASLRGAIEGGKIPVGTRLDSEASLAKQYGVSRTMVREALRSCTALGLTATHTGKGTFVIADKVAQDLKLGKYSASALMEARPHVEVPAAGLAAQRRTNEDLEALREILREMSEAENLQQWVQLNTEFHVTIARSSGNGVFESFLSDIVEAMANQSNTLNLVADRRKESGDEHARIFDAIERGSAEDASEAMTMHLHGVECALGTIVPGSGNTNAGRTG				NA	NA	NA	NA	NA
D1-29_04049	1485	aspA_1	COG1027	Aspartate ammonia-lyase	ATGAGCACCCCGAGCACCACCGCAGCCGCAACCACTATCGGCACCACCGCCGCTGCCGGCATTGCTACAAAGGCAGTGTCTACGCGTTCTGAGCATGATCTGCTCGGTGACCGGGACGTCCCGGCGGAGGCCTACTGGGGCGTGCATACCCTGCGCGCGGTGGAAAATTTCCCCATCACCGGGCAGCCGCTGTCCTCGAACATGCACCTGGTCCGCGGCCTGGCCGCGGTCAAACAGGCCGCGGCCCGCACCAACCTTGAACTCGGGCTCCTGGACCCCGAACGCGCCGCCGCGATCGAACAGGCCTGCACCGACGTGATCAACGGCCACTACGCTGACCAGTTCGTCGTGGACGTCATCCAGGGCGGCGCCGGGACCTCCTCAAACATGAACGCCAACGAGGTCATCGCCAACCGCGCCCTGCAAATCCTGGGCCACCCCAAGGGCGAATACACCCGCCTGCACCCCAACGACCACGTCAACCTCTCCCAGTCCACCAACGACGTCTACCCCACCGCCGTGAAACTGGGCACCATCTTCGCCGTCAAGGAACTCCTCGCCGCGCTCGAAGAACTCGAAGAAGCCTTCGCCGCCAAAGCCCTGGAATTCCGCACCATCGTCAAAATGGGCCGCACCCAACTCCAGGACGCCGTGCCCATGACCCTGGGCCAGGAATTCGGCACCTACGCCATCACCATCGGCGAAGACCGGCTCCGCCTCGCCGAAGCAAACCTGCTCATCCACGAAATCAACCTCGGCGCCACCGCCATCGGCACCGGCCTGAACGCCCCCGCCGGCTACACCGAAGCCGCCTGCCGCCACCTCGCCCACATCACCGGCCTGCCCCTGGTCACCGCCCCGGACCTGATCGAAGCCACCCAGGACGTCGGCGCGTTCGTCCACCTCTCCGGCGTCCTCAAACGCGTTGCCGTGAAACTCTCCAAAACCTGCAACGACCTGCGCCTGCTCTCCTCCGGCCCACGCGCCGGCCTCGGCGAAATCAACCTCCCCGCCGTCCAGTCCGGCTCCTCCATCATGCCCGGCAAGATCAACCCCGTCATCCCGGAAGTAGTCTCCCAGGTCGCCTACGAAGTGATCGGCAACGACGTCACCATCACCATGGCCGCCGAAGCCGGGCAACTCCAACTCAACGCCTTCGAACCCATCATCGTCCACAGCCTCCACAAGAGCATCTCCCACCTCCAGGCAGCCTGCACCACCCTCACCGCACGCTGCATCCGAGGCATCACCGCCAACACCGAACACCTGCGCCTGACCGTGCAACAATCCATCGGCCTGGTCACCGCACTAAACCCGCACCTGGGCTACACCACGGCCACCGCCATCGCCCAGGAAGCACTCGCCACCGGCAAAGGCGTCGCCGAACTCGTCCTCGAACACGGACTGCTCACCGACGCGCAGCTCCAGGAACTCCTCAGCCCCGAACGCCTGGCAAACCTCACCAAAGAACCCACCCAGCAATAG	MSTPSTTAAATTIGTTAAAGIATKAVSTRSEHDLLGDRDVPAEAYWGVHTLRAVENFPITGQPLSSNMHLVRGLAAVKQAAARTNLELGLLDPERAAAIEQACTDVINGHYADQFVVDVIQGGAGTSSNMNANEVIANRALQILGHPKGEYTRLHPNDHVNLSQSTNDVYPTAVKLGTIFAVKELLAALEELEEAFAAKALEFRTIVKMGRTQLQDAVPMTLGQEFGTYAITIGEDRLRLAEANLLIHEINLGATAIGTGLNAPAGYTEAACRHLAHITGLPLVTAPDLIEATQDVGAFVHLSGVLKRVAVKLSKTCNDLRLLSSGPRAGLGEINLPAVQSGSSIMPGKINPVIPEVVSQVAYEVIGNDVTITMAAEAGQLQLNAFEPIIVHSLHKSISHLQAACTTLTARCIRGITANTEHLRLTVQQSIGLVTALNPHLGYTTATAIAQEALATGKGVAELVLEHGLLTDAQLQELLSPERLANLTKEPTQQ	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
D1-29_04050	330			hypothetical protein	ATGACCGTTGAGCTCCAAAACCCTGCAACCGCACGCCGCATGCTGAATGAAGACCCCGCCCGCAGGAAAGAAGAACGGCGCCGTCCGATCAGATCCCAAATTATCGACTACCTTGCCAGCAACGGCGCCAGCAAGGTGGCAGATATCAGCAGCGACATCATCTGCTCCCGCGATTGCGTGAGGTACCACCTCGCTGCGCTGGAAAAGGCGGCGATCGTCCGTTCAAACATTTCCCCCGGAACCCGCGAGGGGTTTACGCCCTTCTACGCCCTCACCCCCGCGGCAGCCAGCGTCCGCGTCCAGCCCCGCCCCCAGAAAACCAGTTCATAG	MTVELQNPATARRMLNEDPARRKEERRRPIRSQIIDYLASNGASKVADISSDIICSRDCVRYHLAALEKAAIVRSNISPGTREGFTPFYALTPAAASVRVQPRPQKTSS				NA	NA	NA	NA	NA
D1-29_04051	2889			hypothetical protein	GTGGCTAAAACATTCAATGTCGAGGTGCTCCCTGAGGATCTTGAGACCTCGGTCTACCTGCTCGAAACCGGACTGGGCGACGTCGACATCCAGGATCCCTACCTGGTCAACGGAAACCGGAAAACCATCGCCTACCTGCTGGGCCTTGACCCCGGGAAGTTCCTCTTCTCGTTCTACAAGCAGGCGGGCCTGACACCCACGACGGCGGCGGGTTACGGCGGCTGGGAACGCGAATCGGGCACACGCTTCCAGGGGCACTTCTTCGGGCACTACGTCTCGGCGCTGTCCCAGGCCTATGCCACAACCACTGATCAAGCCACCAAGGCGGGGCTGCTCACGAAGCTGACTGCCGCCGTCGACGGCCTGAAACACTGCCAGGATGCCTACGCCGTGAAGGATCCGGCCAACGCCGGCTTCGTCTCGCCGTTCCCGGTGACGTACCTGCCATCAGGGGCCGACGGCCTTCTGGTTCCCTTCTACAACCTGCACAAAATTGTTGCGGGGCTGCTGGCCGCCCATGACTATGCGCCCCAGGACGTCTCCGCCATGGCACTGTCGGTTGCTGACGGTTTCGCCACCTGGATCGCCAACTGGGCAGGCCGGCAGGCAGACCCTTCGGTGCTCCTCAGCACCGAGTACGGCGGCATGAACGAGGCGCTGTACAAGCTGTTCAGCATCACAGGGAAGCCTGCCCACAAGCGCGCGGCGGAATACTTCGATGAAGTTGCACTGTTCCAGAAGCTGGCCGCGGGCCAGGACGTCCTGAACGGCCTGCACGCCAACACCACCATCCCCAAGCTCATCGGGGCACTGAAGCGCTACACCGTCTTCACGGACAATCCGCGCCTGTACGCCACCCTTACAGACGTGGAGAAGAGCGGCCTGGGCATGTACCGTGCTGCTGCGGAGAACTTCTGGCAGATAGTGCTTGCACACCATACCTATGCCAACGGCGGAAACAGCTACTCTGAGCACTTCCACGCCGCCGGCACGCTCTACCAGTACGCCACCAACGGCCAGACCATCGGCTATGGGGAGAACTCGACGTCCGAGGGCTGCAACGAGTACAACATGCTCAAACTCTCCCGGGCCCTGTTCCAGGTCACAAAGGATGTGAAGTACGCGGACCACTACGAGTCAGCGTTCATCAACTCCGTCATGTCAGTCCAGAACCCCGAGACCGGCATGGTCACCTACTTCCAGCCCATGGCCCCCGGCTACGCCAAGGTGTTCGGCCACCAACAGGACGAGTTCTGGTGCGATCACGGTACCGGGATCGAAAGCTTCACCAAGCTCGGAGACTCCATCTACTTCGAAACCCGGGATTCGGTCTATGTGAACCAGTTCCGCTCGTCCGTCCTCCGCTCGTCCGCCCACAACCTGAAGCTGACCCAGAAGGCGGATGTACCCAACCACGAAACCGTCACCCTGTCGGTTGAGGCGCTGGATGGAGGGGCGGTTGTCGGCGGTACCAGCATCAGGCTGCGCATCCCGTCCTGGGTTGACGGAGTGCCCACCCTCCGCATCAACGGCGTCGAAACGGACATAGTGCCGCTCGCCACCGCCGGCTATGTGCTGGTGCCGGTGACTGCGGGAGACACCGCCTCCTACACCCTTCCCGCGAGGGTTACGGTGGAGGACAACACCGAAAATCCCAACTGGGTTGCCTTCAAGTACGGCCCCGTGCTGCTGGCTGCCGAGCTGAACCGCAACAACGTCAATGCTGCCTATACGTCCGGTGTCCTTGTCCGGATGGGCACCGCGGATAAGACGGTCAACTCCCATGTCGTCGTGGACGACGCGGCCGCCTGGAAGCAGGGCATCGGGAGCAACCTGGTGCGCATCCCGAATGGCCGGAACGCGAACGGCACAGAGGCCATGCGGTTCTCGCTCCGGAACGTCGATGAGGCGTCGGCGGCATTAACGTTCGAGCCGTATTACAGCCTGTACAACGCACGGTATGCCATCTACATGACTCTCGTTGAGCCGGATTCCGCGGAGGCGCAGGGGCTGATCCGCAAGGAGAAGGAACGGCTGCGGATCGACGAAACCACCATCGATTCACTGACTTCGTTCGACAACAACAACAGCGAGGCTGACAAGAACTACAAGTACAACAAGTCCGCGGTGGGGACCTTCCACGGACAGGGGTTCCGGGACGGGCAGCGGGCCACCGACGCCTACTTCCAGTACGAGATGATCGTGGACCCGGCACTCGAGGAAAACTACCTTGGAGTGCGCTACTACGGCGGCGACGACGGCAGGAGCTTCGGCGTCTACCTCAACGGTGTGCTGCTCAAGGACGAAGTGGTCACCAACGCCAATGGAGCCACCACCTGGTACACCCAGTACGAGCAGATTCCCCCAGTGGTCCTGGAGGGGATTGCCGCAAGGGACAGCTACAAGCGCGACCAGAATGGCAACTATGTGCTCGATGCGGACGGTGCAAAGGTGCCTGTCGTGACGGTCCGCTTCCAAGGCAACGGCACAAGCTTTGTGGGCGGTGTCTACGGCGTGTCCATTACGTCCAGCAACGCCTTCGGCACCAATGCCCGGCTGAAGGCACTCACCTCCGGCACCGGCGTCCTGAGTCCGGCACTGGCGGAGGACATCTATTCGTACACGCTGACGGTGCCGGCGGCGGCCACAAGCGTAACTCTCGACGCCGAGCCGGCGGCGGGAAGCGGACTGGTGCTGATCGGCGACATCCTGATCGACGACACCAAGACGCGCACCATTGCCCTGGAACCCGGCGCGGAACGCACCAACATCGTCCTGACCACTTACGCGCAGGACCATGCCACTACAGCCACCTACCGGATCGCCATCGTGCGCGCAGATCCGGAACCCGCATTGGCCCCGACTGCTTCCGTCCTGCATATTGACTGA	MAKTFNVEVLPEDLETSVYLLETGLGDVDIQDPYLVNGNRKTIAYLLGLDPGKFLFSFYKQAGLTPTTAAGYGGWERESGTRFQGHFFGHYVSALSQAYATTTDQATKAGLLTKLTAAVDGLKHCQDAYAVKDPANAGFVSPFPVTYLPSGADGLLVPFYNLHKIVAGLLAAHDYAPQDVSAMALSVADGFATWIANWAGRQADPSVLLSTEYGGMNEALYKLFSITGKPAHKRAAEYFDEVALFQKLAAGQDVLNGLHANTTIPKLIGALKRYTVFTDNPRLYATLTDVEKSGLGMYRAAAENFWQIVLAHHTYANGGNSYSEHFHAAGTLYQYATNGQTIGYGENSTSEGCNEYNMLKLSRALFQVTKDVKYADHYESAFINSVMSVQNPETGMVTYFQPMAPGYAKVFGHQQDEFWCDHGTGIESFTKLGDSIYFETRDSVYVNQFRSSVLRSSAHNLKLTQKADVPNHETVTLSVEALDGGAVVGGTSIRLRIPSWVDGVPTLRINGVETDIVPLATAGYVLVPVTAGDTASYTLPARVTVEDNTENPNWVAFKYGPVLLAAELNRNNVNAAYTSGVLVRMGTADKTVNSHVVVDDAAAWKQGIGSNLVRIPNGRNANGTEAMRFSLRNVDEASAALTFEPYYSLYNARYAIYMTLVEPDSAEAQGLIRKEKERLRIDETTIDSLTSFDNNNSEADKNYKYNKSAVGTFHGQGFRDGQRATDAYFQYEMIVDPALEENYLGVRYYGGDDGRSFGVYLNGVLLKDEVVTNANGATTWYTQYEQIPPVVLEGIAARDSYKRDQNGNYVLDADGAKVPVVTVRFQGNGTSFVGGVYGVSITSSNAFGTNARLKALTSGTGVLSPALAEDIYSYTLTVPAAATSVTLDAEPAAGSGLVLIGDILIDDTKTRTIALEPGAERTNIVLTTYAQDHATTATYRIAIVRADPEPALAPTASVLHID	PGPT0019100_11	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_ARABINAN_BREAKDOWN,PGPT0019100-hypBA-K09955	NA	NA
D1-29_04052	1350			hypothetical protein	ATGAAAGTTATGAAGCGTTTATTGACCGGCGTGGCGGTCCTGACGACGGCAGCCACCCTGGCGGCGTGTGGCGGCGGCGCCCCCACGCCGTCGGCCTCAAGCACCGCAGATGCCGGTATCGAAGGCACTGACGACAAGCCCATCACCCTCGAATACTGGGGTTGGGCCAAGGGCACGGGCGAGCAGGTCAAGCTGTTCAACGCCGCCCACAAGAACGTGCAAATCAAGTTCACCGAGGTCAAGGGCGGCAGCGACGCCCTGAACGGCCTGCGCAACGCCGCCTCCGCGGGCAACGCCCCGGACCTCCACCAGGGAATCCAGGACTGGATGGTCCCCCTGGTGGCGGAGAACATCATCACGGACATCACTGATTGGGTTACCCCCGCTGAGAAGGAATTCAAGGCCTCCGCCTTCAATTCCTCCAAGGTGAACGATAAGAACTACATTGTGCCGAACGCCCAGGCACCGCAGTTCTTCGTGTACCAGACCCCCGTCTATGACAAGCTGGGCCTCAAGCCCCCCAAGACCATGGAAGAGTTTGTGGACCAGGGCAAGGTGCTCGGAGCCGCAGGCCACAAACTGACCAACATGGCAGGCGAAGACCCCTCCACGCTGGTGAACTGGGCCTGGCAGGCCGGGGCCTCCTGGTACAAGGTGGACGGCGACTCCTGGAAGATCAATTTCCTGGACGACGCCACCCTCGAGGCAGCAGACGTAACCCAGAAGCTCATTGACGAGGACGCCATCTCCACCCAGACGTTCGCCGACTATGCCGCCGTCCAGCAGATGTACGACAAGGCCAACACCGCCACCCGCCACATCTGGACCTGGTCCACCAACGGCATGGTCAACAACTTCAAGGAGTCCTTCGGCAACTGGGCTGCTGCCCCGATCCCGGAGTTCAGCACGGGCGGCAAGGCCAACGTCAGCCCCATCGGCGGCACGTTCGTCACAGATCAGTCCAAGAGCAAGAAGGCAGCAGCCGAGGCAGCCGTCTGGCTCGCCACCAACAAGGAATCCGTCACGCTTGCCGCGGACCCCATCAAGGGTTCCTCGGCGTTCCCCGCCGTGGCTGACTCCGATTCCTACGTCGCCAACATGCTGCCGGAAAAGCTTTTTGGCGCCAACCACGCCGAAGCTGTCAAGGTGGCCACCCAGGCCTCCAAGGACATCGCCGGAGACTGGACCTACGGCCCCAACTACACCGCGATGTACACGGAAATGGCCGATGGCTGGGCCAAGGTCATCACCAAGCAGCAGAAGGTCACCGCACTGCTTGAACACATGCAGGAATGGACGGTGGATGACCTGAAAAAGAAGGGCATCAACGTCATCGACGGGTCCAAGTAG	MKVMKRLLTGVAVLTTAATLAACGGGAPTPSASSTADAGIEGTDDKPITLEYWGWAKGTGEQVKLFNAAHKNVQIKFTEVKGGSDALNGLRNAASAGNAPDLHQGIQDWMVPLVAENIITDITDWVTPAEKEFKASAFNSSKVNDKNYIVPNAQAPQFFVYQTPVYDKLGLKPPKTMEEFVDQGKVLGAAGHKLTNMAGEDPSTLVNWAWQAGASWYKVDGDSWKINFLDDATLEAADVTQKLIDEDAISTQTFADYAAVQQMYDKANTATRHIWTWSTNGMVNNFKESFGNWAAAPIPEFSTGGKANVSPIGGTFVTDQSKSKKAAAEAAVWLATNKESVTLAADPIKGSSAFPAVADSDSYVANMLPEKLFGANHAEAVKVATQASKDIAGDWTYGPNYTAMYTEMADGWAKVITKQQKVTALLEHMQEWTVDDLKKKGINVIDGSK	PGPT0016545_3640	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
D1-29_04053	954	lacF_13		Lactose transport system permease protein LacF	ATGTCCACCCAGATCCTGAGGACGGAAAGTTCCGCCCCCGCACCTGCAGCTGCACGCCGGCGCATTACGTGGCGGACGCTGCTGGCAGCCAAGGGAGCAGCGTTCACACTGCCATTCGTCGTCGGCTTCATCATCCTCTTTATCCTGCCGATTGCTTACGCAGTGGTGCAGAGCCTGTACACCGTTAAGTCCTCCGGGCTGGGCCTGAGCGGCAACCAGACGGTGTTTGTCGGCCTGGACAACCTCACTGCCGCCGCCACCGATCCGCGCTTCTGGGAGTCCATGGGACGGGTAGCTGTCTTCGCGTGCATCCAGGTTCCCATCAAGCTGGCCATCTCCCTGCTGCTGGCCCTCGGCCTTGACTACCTGAAGGGCCGGGTGGTGGCCGGGTTCCGGATTGGCCTCCTGGTTCCCTACATGATTCCGGGGATCGTGGGCACGCTCGTGTGGATCTACCTCTACTCCCCCAACATCGGCCCGCTGACCGAGATCGGCAAGTTCTTCTCCCTGGACTGGAACTTCCTCTCCGAGGCCATGATGTGGCCCTCCATCGGAAACCTGCTGACGTGGGACAGCATCGGCTTCAACATGCTGATCATCTACGCATCGCTGCAGGCCATCAGCCCGGAACTCTTCGAAGCCGCACGGATTGACGGCGCCGGCGAAGGACGCATTGCCTTCTCCATCAAGGTTCCCTTTGTCCGCTCCGCGCTGGTCCTGACCGGCATGCTCTCCATCATCGGGCTGCTGCAGATCTTCGCGGAGCCCCTGCTGTTCCGCTCCTTTGTCCCGGAAGTGGTCACCAAGGACTACACGCCTACCCTGATGATCTTCAACCAGGCCTTCGACGCCAACAACTACAACTATGCAGCGGCACTTTCGCTGGTCTTCGCCTCTGTCATCGCCCTGGTGTCCTTCTTCTACTACAAATTCACCAACAAGCCGGAAGCCTAG	MSTQILRTESSAPAPAAARRRITWRTLLAAKGAAFTLPFVVGFIILFILPIAYAVVQSLYTVKSSGLGLSGNQTVFVGLDNLTAAATDPRFWESMGRVAVFACIQVPIKLAISLLLALGLDYLKGRVVAGFRIGLLVPYMIPGIVGTLVWIYLYSPNIGPLTEIGKFFSLDWNFLSEAMMWPSIGNLLTWDSIGFNMLIIYASLQAISPELFEAARIDGAGEGRIAFSIKVPFVRSALVLTGMLSIIGLLQIFAEPLLFRSFVPEVVTKDYTPTLMIFNQAFDANNYNYAAALSLVFASVIALVSFFYYKFTNKPEA	PGPT0016535_7580	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
D1-29_04054	1029			hypothetical protein	ATGAGCACCACCACCCCCGCCACCGGCGCCGCTGCCCAGGACGATGCGGCGCTGACCCCGGTCATCGTCCCGTCAGCGCCGGAAGAAACCGGCCACCTCCCGGCCAAGGAACGGCGCCGCGCCAAACGCCGCGCCAGCCTCACCCGCCGCGGCCTGCCTGTCGGGGCCAAGCAGAACAGGGCCACGCAGCTGCTGGTCTTAGCAGGACTGGGCCTGGCCGTCATCTACTCTGCGGGCCCCATCTGGTGGCTCATCGTCGCGTCCACCAAAGGCCAGGCGGACCTCTACGCCTCCACCGGTTTCGAGTCACTCTGGTTCGCCGAATTCAACCTGTGGGAAAACCTGCAGCAGATCTTTATCTACGACGAGGGCTTCTTCCTCCGCTGGATGCTCAACTCCATCCTCTATGCCGGCGTCGGCTCCTTTGTCGGCATGATCATCTCGCTGGCCGCCGGCTACGGCCTGGCCCGCTACGAGTTCTGGGGCAAAAAGGCGGTCTTCGGCGCCGTCGTCGCGTCCTTCCTCCTGCCCAGCGCCCTGCTGACCATCCCGCTGTACCTCCAGTTTTCCGCTTGGGGACTCGTCGGCCGCCCGTGGGCCGTCCTGATCCCCTCCTTCATCAGCCCCTTCAGCGTCTACCTGGCGAAGGTCTACATCGAAGGGGCCATCCCGCCGGAAATCCTGGAAGCAGCGCGGATTGACGGCGCCGGCGAGGTCCGCATCTTCTTCCAGGTGGTCATGCGGCTGATGACCACCGGCGGCGCCACAATCTTCCTGCTCGCCTTCGTGGGCAACTGGAACAGCTTCTTCACACCGCTGACCATGCTGGGGGCATCCGGCAAGGAAAACTGGCCCCTCGCGCTGGGACTGTACGCCTGGTCCGGGAAACGCACCCTTGAAGGTGAGAGCATCGACGGGACCAGCATGCTGATCCTTGGCTCGCTTCTGGCCATCATTCCGCTCGCCGTTTTTATGATTGCCATGCAGCGCTTCTGGAAGACCGGCGTTACGCTCGGCGCCGTCAAGTAA	MSTTTPATGAAAQDDAALTPVIVPSAPEETGHLPAKERRRAKRRASLTRRGLPVGAKQNRATQLLVLAGLGLAVIYSAGPIWWLIVASTKGQADLYASTGFESLWFAEFNLWENLQQIFIYDEGFFLRWMLNSILYAGVGSFVGMIISLAAGYGLARYEFWGKKAVFGAVVASFLLPSALLTIPLYLQFSAWGLVGRPWAVLIPSFISPFSVYLAKVYIEGAIPPEILEAARIDGAGEVRIFFQVVMRLMTTGGATIFLLAFVGNWNSFFTPLTMLGASGKENWPLALGLYAWSGKRTLEGESIDGTSMLILGSLLAIIPLAVFMIAMQRFWKTGVTLGAVK	PGPT0016540_2670	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
D1-29_04055	1074			Formate dehydrogenase, mitochondrial	ATGCACACATCGAGCGCCACCTCGCCGGCCCACCCACATACCGCTCCCCGGCAGCCCGTTACCATGGCGGTGATGGCTCCGCCAGAACTGTTCGGCCAGCTGATCGCCGCCGATTCGCTGGAGCGCCTGCATGGCGTTGCCGACCTTCGCGGCCCCGTCTTTGAGGACTTCTCCTCTGCTGATGCCAGGGCCCTCCTGCCGGAAGTCGAGGTGCTGATCACCGGCTGGGGCTGCCCGCCTCTGCCGCCAGAGGTGCTGGACCTGGCCGTCAACCTCAAAGCCATCATTCACGCGGGCGGAGTCGTCGGCGACAAGGTGCCGCCCCTTCCCGCGGGCCGGGTGATCACGGCGTCGAACGCCGGAGAAGCCAACGGCATCCCCGTGGCCGAGTACAGCCTGGCCATGATTCTGCTCGCCAACAAGCAGACCTTCGACGCCGTACGGATGTACCGCACGCGACGCAACTGGATAGACCGGGAGAGTGAATTTCCGACGGCGGGCAACTACCGCAAGACCGTCGGACTCGTTGGCGCCTCCCGGATCGGCCGCGCCGTGGCCAAACTCCTGCAGCCGTTCCACCTTGACGTCCTGGTATACGACCCGTACCTCAGCAACTACGACGCCAGGGCGTTCGGGGCGGAGCTGGTTCCCCTCGCTGCCCTGATGTCCCGCAGCGACGTGGTTTCCCTGCACGTGCCGGTCACACCAGAAACGACAGGGATGATTGGCGCGGACGAGCTGGCCCTGCTGCGGCCTGGAGCCACCCTCATCAACACCGCCAGGGGCGAAGTCCTGGACCAGGAAGCCCTGGAAGCGGAACTCATGTCCGGGCGGATCAACGCGATCCTGGACGTCGCGGTACCCGATGTACTGCCGCCCGAGCACGTCTTTTACGACCTTCCGAATGTCCTGCTCACCCCGCACATCGCCGGGTCCATGGGAACGGAGCTGCTTCGGATGGGCGACCACGTGGTGTCCGAACTGGAGCGCTACGTGGCCGGGATGCCCTTTGAACACCCCGAAATCCTTGCATCCTTGCCCGATTCGATGCCTCCTCGGGAGACCTCCGCATGA	MHTSSATSPAHPHTAPRQPVTMAVMAPPELFGQLIAADSLERLHGVADLRGPVFEDFSSADARALLPEVEVLITGWGCPPLPPEVLDLAVNLKAIIHAGGVVGDKVPPLPAGRVITASNAGEANGIPVAEYSLAMILLANKQTFDAVRMYRTRRNWIDRESEFPTAGNYRKTVGLVGASRIGRAVAKLLQPFHLDVLVYDPYLSNYDARAFGAELVPLAALMSRSDVVSLHVPVTPETTGMIGADELALLRPGATLINTARGEVLDQEALEAELMSGRINAILDVAVPDVLPPEHVFYDLPNVLLTPHIAGSMGTELLRMGDHVVSELERYVAGMPFEHPEILASLPDSMPPRETSA				NA	NA	NA	NA	NA
D1-29_04056	1689	xynB	COG3507	Beta-xylosidase	ATGACACTGCTCACCAACCCCGTGCTGCCGGGCTTCTCGCCGGACCCCTCACTGATCCGCGTCGGCGACTGGTACTACCTGGCCAACAGCTCCTTCGAGTGGTATCCGGTGATCCCGATCCATCGCTCGCGGGACCTGAAGACGTGGGAATTCGCAGGCTCCTTCACGGGCCCGGACGCACGCGTGGAGCTCAGGGGCCTTCAGGACTCTGGCGGTGTGTGGGCACCGTCGCTGAGCTGGTCCGACGGCGACTTTTGGCTGGTCTTCACCGTGGTTCGCGGTTTTGGCGGGCCGCACAAGGACATGGACACCTACATTTCCCGGGCCGCCGACGTGGCAGGGCCGTGGTCCGCGCCCGCGCGGGTTACCACCACCGGCTTCGACCCGTCCCTCTTCCACCACAACGGCCGGCACTGGCTGGTCAACATGGAATGGGACCACCGCCCCACGGGCCGCGGCGGCTTCGCCGGCATCAACCTGCAGGAGGTGAACGCCGCGGGCACAGCCACCATCGGCACCCCCAAAATCATCCACCGCCGGGACGTCCTGATCGAGGGTCCAAACCTGTACTCCTTCAACAACCGCTTCTACCTCATGCTGGCCGAGGGCGGAACGGGACAGAACCACGGCATCGCCATGATGCGCTCCGACAACCTTTTTGGCCCCTACGAGCCGGATCCGCTGGGGCCCGTCCTGACCACAAGGGACCTTCCCAGCCACGAACTGCAGAAGGCAGGCCATGGCGAGATCGCCGTCGGACATGACGGCACCCTCTACTTGGCCCACCTGGCCAGCCGCTGGGCTGAAAGGGACGGCAAGCAGTATTCGGTCCTCGGCCGGGAAACCTGCATCCAGCGGCTAGCCTTCACCGACGACGGGTGGTTGCGGCTCGAACAGGGCGGCCGGCACCCTGACGTGGAAGTCCGGGGCCCGCTGCCTGCCGTTTCACCGACTCCCGACCGTGACGGTGACGGTGACTTAGCCGGTGACCCTGACGGTGACCCTGGCGAGGACGCCGGATTCGGCGGCTTCACGCCAACTTCCGACGCCGATGGCGGCACCACGGTGGGCTGGCCCTGGAGCACGCTGAGGCATCGTCCCCATGCTGAATGGGCCAGCCTGGACGCCCGGCCTGGCTGGCTCCGGCTTCGCGGCAGGCACAGCACAGACTCATTCTTCGACCAGTCGCTGGTGGCCCGCCGCCTGACCTCCCCCGACGTCACAGCCGGAGTGACGCTGGAGGCCAGTCCCGCCAATTTCACCCAGAGCGCGGGCCTCATTTTCTACTACAACACCGCCAGCTACTTCTATCTCAGGACAACGGTGCGGGAAGTGGGCGGAGACCTGGTGGACGGCGATGCCCCCGTGGAGCAGATCCTGGAAGTGTTCGAACGGGACCCGTTCACCGGCCTGCAGTCACACGGGGCCGTTGTGGTGGAGCCGGGACTTCCGCTCCGCCTCGAGGGCAGCATCAACGGCGACCGGGCGCAGTTCCGCTGGGCCCAGGGCGGCAATCCGTTGAGCCCCATCGGGCCGGAACTGAACGCGCTGCAGCTCTCAGACGACCACGGCCACGTCCTGCGGTTTACCGGCGCTTTTGTGGGTATTGCGGCGCAGGATCTCCGGGACAGGAGCTTCAGCGCAGACTTCACGGATTTCCGCTACGACACGGGCGAGGCTGACCGATGA	MTLLTNPVLPGFSPDPSLIRVGDWYYLANSSFEWYPVIPIHRSRDLKTWEFAGSFTGPDARVELRGLQDSGGVWAPSLSWSDGDFWLVFTVVRGFGGPHKDMDTYISRAADVAGPWSAPARVTTTGFDPSLFHHNGRHWLVNMEWDHRPTGRGGFAGINLQEVNAAGTATIGTPKIIHRRDVLIEGPNLYSFNNRFYLMLAEGGTGQNHGIAMMRSDNLFGPYEPDPLGPVLTTRDLPSHELQKAGHGEIAVGHDGTLYLAHLASRWAERDGKQYSVLGRETCIQRLAFTDDGWLRLEQGGRHPDVEVRGPLPAVSPTPDRDGDGDLAGDPDGDPGEDAGFGGFTPTSDADGGTTVGWPWSTLRHRPHAEWASLDARPGWLRLRGRHSTDSFFDQSLVARRLTSPDVTAGVTLEASPANFTQSAGLIFYYNTASYFYLRTTVREVGGDLVDGDAPVEQILEVFERDPFTGLQSHGAVVVEPGLPLRLEGSINGDRAQFRWAQGGNPLSPIGPELNALQLSDDHGHVLRFTGAFVGIAAQDLRDRSFSADFTDFRYDTGEADR	PGPT0018665_1303	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-XYLOSIDASE,PGPT0018665-xynB-K01198	NA	NA
D1-29_04057	993	ccpA_11	COG1609	Catabolite control protein A	GTGCCTGTGCTGAGCGACGTCGCCAAGGCCGCCGGCGTGTCCGTTCCCACGGTTTCGCGCGTCCTGACCAGCAGCAAGTTCGTGGCCCCGGAACTGCGCGAGCGCGTGATGAAGGCTGTCGGCGAACTTGGCTACCGGCCCAACGGCGCCGCGCGCGCCACCCGCTCCGGAAAACGCTCCATGGTGGCGGTGCTGACGGGCGGAACGTCCAACTACGGCTATGCCAGGACCATCGAGGGCATCGAGAAGGCGGCCCGCGAATCAGGCATGTCCGTGATCATCGCCGTGGTGGAATCCGATGACGACGACGCCGTGAACTCCGCGATCGACCTCGTCCTGTCCCAACCGGTGGCCGGCGTCATCATCCTGGAGTTCGACCGGCCTGGCCTGGCCGCCGTCAAGGCTTTCCCGTCATCCATCCCGCTTGTGGTGGCAGGTGGCGGGACCAGGCGCACCGGCAAGGCACCCGGCGCCCTGCTGGATGAACGCGGAGCCGGCAAGGATGTCACCAATCATCTGCTCTCGTTGGGGCACAAGACCGTCCACCACGTGTCGGTACCCACCATGGGCAAGCACTCTGGCCGTACCGACGGCTGGCGCGCGGCGCTGACAGCCGCCGGCGCCGTCATTCCTCCGGTGCTGCACGCCACGTGGGAGCCTGCCAGCGGTTACCGGGTGGGCCAGGAACTGGCGGCCAGGGATGAAGTAACGGCGGTATTCTGCGGCAACGACGACATCGCCATCGGTGTTGTCCGGGCGCTGCTGGACAGCGGCAAGCGCGTCCCGGAGGACGTGTCGGTGGTGGGGTTCGATGACCAGCCGCACGTCGCCTTGTGGCGGCCCGCGCTGACCACCGTCCGGCAGGATTTCCAGGATCTGGGGGCCAGGGCGTTTGCCCTGCTGGCCTCCACTGTGGAAACGGGCACCATCCCGGCCTCGTCCACGGTCAAACCCGAACTCGTCCTGCGGGAGTCAACCGCCGCCCTCGGCTAA	MPVLSDVAKAAGVSVPTVSRVLTSSKFVAPELRERVMKAVGELGYRPNGAARATRSGKRSMVAVLTGGTSNYGYARTIEGIEKAARESGMSVIIAVVESDDDDAVNSAIDLVLSQPVAGVIILEFDRPGLAAVKAFPSSIPLVVAGGGTRRTGKAPGALLDERGAGKDVTNHLLSLGHKTVHHVSVPTMGKHSGRTDGWRAALTAAGAVIPPVLHATWEPASGYRVGQELAARDEVTAVFCGNDDIAIGVVRALLDSGKRVPEDVSVVGFDDQPHVALWRPALTTVRQDFQDLGARAFALLASTVETGTIPASSTVKPELVLRESTAALG	PGPT0014791_89	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA	NA	NA
D1-29_04058	2184			hypothetical protein	ATGACCCTTGCGAACCTCAGTCCCGAACTAGAGGACAAGCCGCCGACTCCCGACGTCGCGGATGGTGGGGAGATCCTGTCCTGGGGAAACGACTGCCTTCAGCTTCACATTCTGCACGGTGATGACATCGCCCCCAGGCTCCTCGCCATCCAGCACGAACAGGCCCCGCTGGCCGACCTGGAGGAGCTGCGCCAGGCTTCCCTGCCCATCGTCGAGATTGCCCTGGCCGGCGACGGCCGGCACGGTACAGCGGGAAAGCGGCACGTGGACGGGGCTGCGGCCCAGCGGCTGCGGCTGTCCGGCACGCGGGAAACGGTGGCCAACGGCGTACGGGGGCTGGAACTGCAAGCCACAGATCCCGTATCGGGTATCACTGCTGCCGTGCACTATGAGCTTGCCGGCGGCTCCTCCGTCCTGCGCTGCTGGACGGAACTTCGGGCGGGCAGCTCCGCCGTCGGCGTGGAATATGTCTCCTCGTTCACCCTTTCCGGGCTGGGGCATGGCAGGGACTGGGAAGAGGAGCTTGCCCTCTGGCAGGCCGCCAACCCGTGGTCCGGCGAGTTCCGCTGGCGGCGGGCCACACTGGCGGAACGTGGCCTCTATAACGTCGGAATGGTGGAATACGGCCAGGTTGGATCCAAGAACCGGGTGGGTGCCACGTCCATCGGGGCCTGGTCCACTGCCGAACACCTCCCCATGGGCATCCTGGAGGACGCCGGCACCGGGAGCATGCTGGCCTGGCAGCTGGAGCACAACGGTGCCTGGCATTACGAGCTCGGCGACCGCTACAACGATCTCTATCTCACGGTCTCCGGCCCCACCGCGGCCGAGCACCAGTGGGGCGTCACGCTGGAACCGGGCGAAACGTTCACCACCGTCCCGGCCTCCGTGGCTGTTGTCCCGGCCGGCGGCCTTGACGCTGTCGCGGCCGAACTGACTGCCTACCGCCGGCGCATCCGGCGGGCCCACCCTGACAACGTGGCCCTGCCGGTCATCTACAACGACTTCCTGAACTGCCTCATGTCGGACCCCACCACCGAAAAGGAGCTGCCGCTGATCGCTGCCGCCTCAGCGCTGGGTGTGGAGGTCTTTTGCATCGACGCCGGCTGGTACGACGACGAAAACGGCGGCTGGTGGGACTCGGTGGGCGAATGGGAACCCTCCATCAAACGCTTCCCCGACGGCGGCCTGGCCGGGCTGCTCGGAAAAATCCGTGCAGCCGGCATGAAGCCTGGCCTGTGGCTCGAGCCCGAGGTGGTGGGCGCCAGGAGCCGGATCGCGGAGCTGCTTCCAGCCGAAGCCTTCTTCAGCCGCGGCGGAGAGCGGATCAAGGAATGGGGCCGCTACCAGCTGGACCTGCGGCACCCCGCGGCCCGGGCGCACCTGGACGGGGTGGTGGACCGGCTGATGGACGATTTCGACCTCGCCTACCTCAAGCTGGACTACAACGTGGACATCGGAGCGGGCACAGACCTCAACGGCGCTGTCGGCGCGGGCCTGCTGGACCACAACCGCGCATTCCTGGCCTGGGCCTCGGCAGCAATGGACAGGCACCCCGGCCTGACCATCGAAGGCTGCGCCGCGGGCGGATCCCGGCTGGACGGCGCCTCGGGAGCGGTGTTCCCGGTACAGTCCCTGACAGACCAGCAGGATTTCGTCAAGACCCCGCCTATTTCCGCCGCGGCGCCGCTCACGCTCACGCCGGAACAGTCAGGTGTCTGGGCGTCCGTGGAGGGGTCCATGGGCGATGAGCAGCTGGCCTTTTCCCTGGTCAGTGCGCTGCTGTCCCGCGTCCACCTGGCAGGCCGGATCGATACCCTGGATCCCGTGCAATTGGAGGTGGTCCGCGCTGCACTGGAGGTCTACAAGGGATTGCGTGCCGGCATTCCCACCAGCCTGCCCACGTTCCCGCTGGGACTTCCCGCGTGGCGTGATGACTGGATCGCGCAGGGCTCCAGGCTGGGCCAGTCAACGCTGGCCATTGCAGTCCACCGGCGGGGAGGCGACGTGGAGCAGTCCATCGAGCTGCCTGCCTGGCTGGGCCAGAACCCCGACGTGACGGTGGCCTATCCCGCCTGGGGTGCGGCAGACGCCGTCGTACTTTCCGAAACGCCGGGGACGGCTGTCCTGAAGGTGACCCTGACCGAGGTGAACAGCGCCCGGCTGATCCTCCTCCGCGCCTAA	MTLANLSPELEDKPPTPDVADGGEILSWGNDCLQLHILHGDDIAPRLLAIQHEQAPLADLEELRQASLPIVEIALAGDGRHGTAGKRHVDGAAAQRLRLSGTRETVANGVRGLELQATDPVSGITAAVHYELAGGSSVLRCWTELRAGSSAVGVEYVSSFTLSGLGHGRDWEEELALWQAANPWSGEFRWRRATLAERGLYNVGMVEYGQVGSKNRVGATSIGAWSTAEHLPMGILEDAGTGSMLAWQLEHNGAWHYELGDRYNDLYLTVSGPTAAEHQWGVTLEPGETFTTVPASVAVVPAGGLDAVAAELTAYRRRIRRAHPDNVALPVIYNDFLNCLMSDPTTEKELPLIAAASALGVEVFCIDAGWYDDENGGWWDSVGEWEPSIKRFPDGGLAGLLGKIRAAGMKPGLWLEPEVVGARSRIAELLPAEAFFSRGGERIKEWGRYQLDLRHPAARAHLDGVVDRLMDDFDLAYLKLDYNVDIGAGTDLNGAVGAGLLDHNRAFLAWASAAMDRHPGLTIEGCAAGGSRLDGASGAVFPVQSLTDQQDFVKTPPISAAAPLTLTPEQSGVWASVEGSMGDEQLAFSLVSALLSRVHLAGRIDTLDPVQLEVVRAALEVYKGLRAGIPTSLPTFPLGLPAWRDDWIAQGSRLGQSTLAIAVHRRGGDVEQSIELPAWLGQNPDVTVAYPAWGAADAVVLSETPGTAVLKVTLTEVNSARLILLRA	PGPT0018835_861	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407	NA	NA
D1-29_04059	417			hypothetical protein	ATGCTTTTTGTCGGCAATGATGACACAATTGGGCACCGGCGGAAGATGGGTGGTTCGTCTGCAGTCTCCGGGCCTGAGGCGTCGAGTCTCCGGCCTGCGCATTGCGGTCAGGCAATGCAGCTGACCGTCCATCGGGCTGCTGGAGATTCCACTTTATCCAGCCCGCAAGCCGGTGATGATCTGCGCCTTGTTTGGCAATGCCGGTGCGGATTCACTCTTGATCCGCAGCCGGACCCGCGGGAAGACGTGTGGGCTGCCGCCGCCTCGGTTGAAACCTGCCAATGGGAGATGGACCAGGCCCTCCTCCAGCTCCGCACGGCAATTCGGAGCGCTTCGGCCAAAGGCGTCTCCAGCGAACTGCTTGCCGATGCAGGTCAGCTCTCGTGCCTTGAAATCCAGTCGATCCTGAACGAATAA	MLFVGNDDTIGHRRKMGGSSAVSGPEASSLRPAHCGQAMQLTVHRAAGDSTLSSPQAGDDLRLVWQCRCGFTLDPQPDPREDVWAAAASVETCQWEMDQALLQLRTAIRSASAKGVSSELLADAGQLSCLEIQSILNE				NA	NA	NA	NA	NA
D1-29_04060	264			hypothetical protein	ATGCCATTGTCCGATAGGGAGCGGAAACTGCTGGAGGAACTGGAGTTTGACCTGGCAGCAGACGATCCGCCCCTTGCCCGCAAACTCTCATCAGGCTCGCTGGAGGCTGCGTTCAGGGCAAGTACCTACTTCGCCGCCATGGCCTGCCTGATCGGGATGGTGTTGCTTATCGCCGGAGTTGCTTCACAGATCATCGCCGTCGGCATCGCCGGCTTCCTGCTGATGGGTACGGGCGCCTACCTGTTCACCTGGAGGCGCCGCTGA	MPLSDRERKLLEELEFDLAADDPPLARKLSSGSLEAAFRASTYFAAMACLIGMVLLIAGVASQIIAVGIAGFLLMGTGAYLFTWRRR				NA	NA	NA	NA	NA
D1-29_04061	267			hypothetical protein	ATGATGCAGATCGTGACAGGAAAATTCGAACTGGTGGTAACCAATCGCGGGGCTTTTGGTTTCAGGCTGTTGTCCAGCACGGGAGAAGTGCTTGCGGTCTCCGAAACCTACAGCGACAAAGATACGGCCGTTGCTGCCATCCGGGACGCACGCGAGAGTGCAGCAATGGCGCTCATCAACGATTGCACCCTGCCGCCGCGGCCCTCAACGCCCTCCCCCGCAGCACCACGCTTCAACGCGCAGGGTCCGTCGCGCTGGTTCGGCTAG	MMQIVTGKFELVVTNRGAFGFRLLSSTGEVLAVSETYSDKDTAVAAIRDARESAAMALINDCTLPPRPSTPSPAAPRFNAQGPSRWFG				NA	NA	NA	NA	NA
D1-29_04062	252			hypothetical protein	ATGAATGCCAAAGATGAAGGCACCCTCGGCAGTCCTGTCCCGGAACCCGAAGCCGGGCTGAACCGTGATCCCAAGGATTGGGTGACTGGTGACGAACCCATGACGGCGGCGCAGCGCAGCTACCTGGACACCCTCGCCCGCGAGGCAGGCGAGGAAATCTCCGCGGACATCACCAAAGCGGAAGCTTCCGAGCACATTGACCGGCTGCAGAAGCGCAGCGGCAGGCTGTCCGAGGGGGCGGCCGATGAGTAA	MNAKDEGTLGSPVPEPEAGLNRDPKDWVTGDEPMTAAQRSYLDTLAREAGEEISADITKAEASEHIDRLQKRSGRLSEGAADE				NA	NA	NA	NA	NA
D1-29_04063	855	menH_6		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	GTGTTGTCGTACGAATTGTCGCTGCCTCAGGGGCCGGCACGGGCCGTCATTGTGGCGATCCACGGCCTGGCGGAATCGGCCGAGTGCCTTGAGGCTGCCTTTCCGCACTGGCTTTGCCACGGATGGGCTGTCCTGTCGATCGACCTCCGTGGCCACGGCAATTCTCCCCGCTGGTCTGACGAAGATCTCAGCAAGCATCCGGGCGACGTCATGGTGCAGGACGTCCTGGATGTCTTTAGGCCAGCGGACCTCCGCGACGTGGCGGGCCTGCCCGTTCTCTATTACGGCCATTCGGCGGGAGGTTCGGTGGCGGCGGCTGTCGCGGCCGCGGTACTCGATCAAGTGCGGCCCGGATTCAGTCCCGTAGCCGTTTTGCTGGAGGATCCCTTTTGGCGGCTTCCGGTCACTCCCCTACAGGACCGATCTGCGGCGGAAGCGGCCTATGCACACCTCCTCAAAGTCCAGAGCTGCACGGCGGCGGAACGCGCCGCCATCAGGCGGCGTGAGTGGCCAAACTGGAGCGAGGCCGAGATTTTGCGGAGCACCACGGCTCAGGAGAACTGCGACCCCCGGCTGATCCGCAACGGTAACGTCATCCCCTCCACACCGTGGCCTGACCTGACGGCGTCCCTCACGGCTGCCGATGTGCCGGTCCTGATCATCACTGGAACGGTCCGGGCCGGGATCACGCCAGAACACCAGCGCATGGCCCGAGGGTCCGGTGCAAGGGTGGTGGTTTTCGACGGCGCCTCGCATTTCGTCCGCCGGGACATGGAAGACACGTTCATGAGGGCATCCACAGCCTTTTTTGCCGAGGCGTTGGAGGTAAAAAGTGCGCCCGCGGCAAGGCCTTGA	MLSYELSLPQGPARAVIVAIHGLAESAECLEAAFPHWLCHGWAVLSIDLRGHGNSPRWSDEDLSKHPGDVMVQDVLDVFRPADLRDVAGLPVLYYGHSAGGSVAAAVAAAVLDQVRPGFSPVAVLLEDPFWRLPVTPLQDRSAAEAAYAHLLKVQSCTAAERAAIRRREWPNWSEAEILRSTTAQENCDPRLIRNGNVIPSTPWPDLTASLTAADVPVLIITGTVRAGITPEHQRMARGSGARVVVFDGASHFVRRDMEDTFMRASTAFFAEALEVKSAPAARP				NA	NA	NA	NA	NA
D1-29_04064	3474			hypothetical protein	ATGAAGCATCCTTCAACGATGAGGCGATGGGCCCGCATGCTCGGGCTTGCCGCTGCCGTTGCCCTCGTGGCACCGGCCGGCGGTATCCCCTTGCCGGGAAGCGCGGCACCCGCCACCGCTGACACAGGCCAGGACGTCACCATCACCGAAAGTGTCAGCGCAAACGGCTTCGTCCACCCGGGCATCGGCGTCAGCGCTGACAGCCTGCGCAACGCCCGTGCCATGGTCAAGGCCGGCACCGAGCCGTGGAAGAGCTACTACGACGCGATGGTGGAAACGCCGTTCGCCGCCCGCGACTTCCGCTCCTCCAATGGCAGCGCCGTCCCGGATCAGCCAGGCACCACGGCGTTCAATTCCCAGGGCGTCCAGAGCAAGCTCATCAGGGATGCCTTCGGCGCCTACACCCAGGCAACCCTGTACGTCATCACGGGCGATCCGGTGTACCGCGAAAACGGCATGCGGCTCATCCGGACCTGGAGCAACATGGACCCGGCAAAGTACGCGTACTACCCGGATGCGCACATCCATTCGGGCGTCCCGCTCTACAGGATGGTGGCGGCGGCAGAGCTGTTCCGTGCCACCAGCGTCCCCGACGGCTACACGGCCTACGACCTGAACTGGAACGAACAGGACACGTCCAAGCTCAGCGCCAACCTCATCGTCCCCATGACGGAAACGTTCCTCCACACCAACTGGCGCTACCTGAACCAGCACTCCTACCCCCTGATCGGCGCCATTTCCGGGTACATCTTCACCGAGAACCGTGAGCGGTACAGCGAGGCAGTGGAGTGGTACACCGTCAATGCCACCACCTCCCGTCCCGAGCAGAACGGCTCGCTCGCAGCCCTCTTCCCGCTGATCGCCAAGGATGATCCCCGCAATCCCTACGGCTACTCCTTTGTCCAGCACCAGGAAATGGGCCGCGACCAGGCCCACGCCTGGGACGGCATCAACACCAACGGGGCGCTGGCGCGCTTCCTGACCGTCCAGGGCACCAAGGTTGATCCGACAGCAGGCACCGTCTCCACGGCCACCGACGCCGTCTCGCCGTACAAATTCCTGGGGGACCGCCTCCTCAAGGCCGCGAATGCGTTCACGGGTTACATGCTCGGGTACGAAACACCGTGGATTGACACCACCGGCGGGCCTGGGAGCCTCTCTGAGGCCTACCGCGGCCGCATGTTCAACCCGATCGACGAGCTGTACCACGTCTACAAATACGAGCTGGGAGTGGACGTCGAAAAAGAGGCCCCGTACGTGGCTGAACTGCACGCCAAGGCGGACGGACCCAAGTTCTACTGGGGCACAGGACTCCACAACTCCTGGGAAAGCAACCCGGACTACAGCCCGGAATTCTGGCTCTCCCTCCCCTCGGAAATCGCGGGACAGACCCGCCCCGTGGCCACCGATGCCAAGATCCAGTTCGAGACCCGCAGCTCCGCCATGGACGGCGGCTCAAAGACGGTGACCCAGGACGGACGCACGTTTGTCAGGGTCAGCGCGTCGGCGAAGGGCAGCACCGTTGCCGCGCGCACCCTCATGTACGTCAGCCGGACCGGCTACAGCCCCGTGGGTATCCAGTTCCGTACCAACGGTCCTGCAACGCTAGCCATCGGCAAGGATCCAGCCAAGCGGCTAGAGGTGCCGTTGCCCAACACCAGCAACCAGTGGCGGTATATCACCTACGATGTGGACGTCGAGAAGTTGACCGGCGTGAGCCTTGGCGGGGAAAACCTTGCCTACCTGACAGTCATCGGCGCCAACGGCGTCAGCGCGGACTTCGATTACGTCAACCTTGAGGCCAAGACACAGCTGACTATTCCGCAGTTCCCGGCAGATGTGAAAACCCCTGTCATCGCTGTGGCCGGGGGCGAATTGAAGCGCACGTTCGCCGCCACTGATGCTGCAGGCGAGGTGCTGGCGTACAAGGGCACCGGCCTTCCCGTCGGGGCGAGCCTGCACCCGGAGACGGCCCAGCTGAAGTGGAAGCCCTCAGCCAGCAACGTAGGATCCCACAAGTTCCAGGTGGAAGCGGATGACGCCACAACCCTGGCGACACGCCCCGTCACAGTGCTGGTTGCCGCAAACCGGCAGGCCGCGTTTGATGCTGCCCTGACAGGCTTTGACGCGAACGCCGCCTACGAGTCCGCATCGTTCGCACCCTTTGATACGGTCCGTACCGAGGTCCGTGCCGCCATGCAAACGGCCGACGACGCCGGCTACCTCGATCAGCTGGTGCGCCTTCAGAAGGCTGTAACGGAGCTGAAACTCCTGACCCCGCGGCTGGCCGACGACGGTTCGATCGACTACCGCGGACTGGTCACAACAAACCCGACGGGCGTCCAGCCGAGGAACCTCGTGGACGGGAGCTTCCATTCCACCACTGGAGACCTCCGGGCACCGTTCACCGTGGACTTCGGCCAGGGCTTCCAGGTTTCGGCTGAAGCAGTTGGCCTCCAGGCCAGGTACAACTTCGCGAACCGGTCCCAGGGTGCCAACGTTTACGGCTCCCGTGACGGACGGACGTGGACGCTGCTGACTGAGCGGGAGACCACCAACACCACGGCCAGCGGGTTTGCCATGGAGACCATTCCGGTCCGCGCCGACGGGGCGGGCCAGACGTTCCGTTACTTCAAGGTCCAGGTGGACCACCCCGGTGTGCCGACCGACCCCGCCTACCCGGGCATCTCCTCGTTCGGTGAGTTCCGGATCCATGGCGACCGGCACGAGATGGCAACGGCCATTTCCTCGCTGTCCATCGCAACGTCCAACGCGGACAAGGGCCTGGCTACCAACGGTGACACGGTAACGTTCGCCGCCGTCGCCACCGAGCCGCTGTCCGAGCTGAAGATTGTTGTCGAAGGAGCAACCGCAACGGCAACATCCGCTGACGGGCTCAACTGGACGGCCGCCGCCGTCCTGCCTGCCGACGTCGAATACGGCCGGGATGTCCAGTACTCGGTGGATTACCGCACGGTATCGGGCAAGGCCGGGACCACCCTCACCAGCACCACGGACGGCAGCCGGCTGGCCTTGTGGAACACCGCGATCGCACGTGTTCCCGTGGTTCAGGGTTGGGTCGATGCCTCCACCCGGGCATGGCCGGGGACCGGCACCACCCAGGAGAACGCGTGGAAGATGTTCGACAGGAACACGGCTACCTACACGGACACCACGACGGCGAACGGCTGGGTCACGGTGAAGCCCGCCGACGGCACCCGGATCACCACGGACATCGTCCGCGTCTACCCGCGCGCCACCCACATCAGCCGCGGCAACGGCACCGTCCTCCAAGGCTCCAACGACGGCGGGGCAACGTGGACAACGTTCATGACCATCACGGGCATGAGTGCCGCGAACTGGTACACGTTCACCCTTCCGCAACGGGCTGACTACAGCCAGGTCCGGGTGCTCGATGAGCACGGCGGCAACGTCAACCTGGCAGAGGTGGAGTTGCTCTACAGGGTCCCGTAG	MKHPSTMRRWARMLGLAAAVALVAPAGGIPLPGSAAPATADTGQDVTITESVSANGFVHPGIGVSADSLRNARAMVKAGTEPWKSYYDAMVETPFAARDFRSSNGSAVPDQPGTTAFNSQGVQSKLIRDAFGAYTQATLYVITGDPVYRENGMRLIRTWSNMDPAKYAYYPDAHIHSGVPLYRMVAAAELFRATSVPDGYTAYDLNWNEQDTSKLSANLIVPMTETFLHTNWRYLNQHSYPLIGAISGYIFTENRERYSEAVEWYTVNATTSRPEQNGSLAALFPLIAKDDPRNPYGYSFVQHQEMGRDQAHAWDGINTNGALARFLTVQGTKVDPTAGTVSTATDAVSPYKFLGDRLLKAANAFTGYMLGYETPWIDTTGGPGSLSEAYRGRMFNPIDELYHVYKYELGVDVEKEAPYVAELHAKADGPKFYWGTGLHNSWESNPDYSPEFWLSLPSEIAGQTRPVATDAKIQFETRSSAMDGGSKTVTQDGRTFVRVSASAKGSTVAARTLMYVSRTGYSPVGIQFRTNGPATLAIGKDPAKRLEVPLPNTSNQWRYITYDVDVEKLTGVSLGGENLAYLTVIGANGVSADFDYVNLEAKTQLTIPQFPADVKTPVIAVAGGELKRTFAATDAAGEVLAYKGTGLPVGASLHPETAQLKWKPSASNVGSHKFQVEADDATTLATRPVTVLVAANRQAAFDAALTGFDANAAYESASFAPFDTVRTEVRAAMQTADDAGYLDQLVRLQKAVTELKLLTPRLADDGSIDYRGLVTTNPTGVQPRNLVDGSFHSTTGDLRAPFTVDFGQGFQVSAEAVGLQARYNFANRSQGANVYGSRDGRTWTLLTERETTNTTASGFAMETIPVRADGAGQTFRYFKVQVDHPGVPTDPAYPGISSFGEFRIHGDRHEMATAISSLSIATSNADKGLATNGDTVTFAAVATEPLSELKIVVEGATATATSADGLNWTAAAVLPADVEYGRDVQYSVDYRTVSGKAGTTLTSTTDGSRLALWNTAIARVPVVQGWVDASTRAWPGTGTTQENAWKMFDRNTATYTDTTTANGWVTVKPADGTRITTDIVRVYPRATHISRGNGTVLQGSNDGGATWTTFMTITGMSAANWYTFTLPQRADYSQVRVLDEHGGNVNLAEVELLYRVP				NA	NA	NA	NA	NA
D1-29_04065	1188			D-alanyl-D-alanine carboxypeptidase	ATGCAGGGAGCATCCAGCCACGTCCGCCTTTTTGCAGCGCTCGCCGCAGCCCTTTTGGTGCCCTCACTCGGAGGATGCACCGGTTCACCGGATCCTCCCGGCCAGCCCACGCCCGCCGCACCGTCCACGTGGCAGCCTCCTGCCGAGCCGGCTTTTGTCCCAGTGCTGCAGAAATACCGTGACGGCGCGCTTGCTGCCGGAGCTTCGTCGGTCATCATCCAGATCAAGTCCAGGATCGGCGACTGGTCCGATGCCGCCGGCATCCGAAGCCTTGACAACCAGGAGCCGGCACAGCTGACGGACCAGGTCCATGTTGGCGAGATCACCATGGCAATGGTGGCGGTGGCTGTCATGAAGCTGGTGGAGGAGGGGAAGCTGCAACTGGATGACCCCGTCACCCAGCATCTCCCGGAGTTCGGGAACATGGTCAAAACACCCGGGCCTGTCACCGTCCGCAGTCTCCTCAACCACCAGTCAGGCATGCCCGACTATTGGGAGGCCCTGATGCGGTCCGACCCCCTGAACGAGGTACTGGGAAGGCACCTGAGCCACGAGGAGCGCCTGGCTATCGCCGCCGCCAGGCCTTGGGACCGGCAGGGATATTTCCGCTATTCGGGCTCGAATTATGCGGCACTGGCGCTGCTCCTGGAACGCTTGCGGGGACGGGAATTAGGAGAGATCCTGCGCGCCGACATTGTGGAGCCCCTGGGGCTGCAGAATACGGTGATGGCGGGGCCCAAGCCCGGTCCGCAGAACCTGCTGCACGGCTACGTGTTCCTGGACGGCGAACGGGTGGACACAACGCTGCCTGCAGTAGTCCTCGGTTCCGGCGATCAGGGCATGATCTCCACCGTGCCGGACCTGAACACTCTTTTTGGGGCCCTGGCTCAAGGGAAACTGCTGAACTCCAGGACCGTGGTGGAGATGTACACCCTGAACCAGGTCAACAAAGAGGAGCAGTACGGCCTGGGCCTTCAGCAAAGGTACGACGCCTGCTCCAATAACTACTATTTCGGCCATGGTGGAGATGTGCCGGGGTACGCGAGCGTCGCCTTGACCAGCACGGACGGCTCGCGGCAGGTGGCAATAGCGGTGGCGTTCGCCCCGACATCACCGCCGGGGCGGTTCGACGAACCAGTCATCGATCTGATCACCGTGGCCATGGAGTCGCTCGACCTGGCGTGCTGA	MQGASSHVRLFAALAAALLVPSLGGCTGSPDPPGQPTPAAPSTWQPPAEPAFVPVLQKYRDGALAAGASSVIIQIKSRIGDWSDAAGIRSLDNQEPAQLTDQVHVGEITMAMVAVAVMKLVEEGKLQLDDPVTQHLPEFGNMVKTPGPVTVRSLLNHQSGMPDYWEALMRSDPLNEVLGRHLSHEERLAIAAARPWDRQGYFRYSGSNYAALALLLERLRGRELGEILRADIVEPLGLQNTVMAGPKPGPQNLLHGYVFLDGERVDTTLPAVVLGSGDQGMISTVPDLNTLFGALAQGKLLNSRTVVEMYTLNQVNKEEQYGLGLQQRYDACSNNYYFGHGGDVPGYASVALTSTDGSRQVAIAVAFAPTSPPGRFDEPVIDLITVAMESLDLAC				NA	NA	NA	NA	NA
D1-29_04066	498			hypothetical protein	ATGACCGTTATCAGTTCCACCAAGAACCTCGAGGCCCTGAGCTTCACCCTGGTTGCCGAGTTCGATGCCGACGTTGAACGCGTGTGGCAGATCTGGGAAGACCCCCGCCAACTGGAACGCTGGTGGGGCCCGCCCACCTGGCCTGCCACATTCAAGGACTTCGACTTCCAGCCTGGCGGAAAGGCGGGCTACTACATGACCGGTCCGGAGGGCGAAAAAGCCGGTGGCTGGTGGCGTTTCACCGCCATCGAGGCCCCCAGGAAGCTGGAGTTCGACGACGGTTTCGCGGACGACGATGGCGCTCCCGTTGACGCCATGGGCACCACCCACGCCACCGTCTCGCTCGAGGACATTGGCGGCCGCACCCGGATGACCATTCAGTCCACGTTTGAAAGCGAAGAGCAGATGGAGCAAATGGTCCAGATGGGCATGGAGGAAGGCATGAAGGAGGCGGCGGGCCAGATCGACGCCATCCTTGCAGAGCACGCGCGCGCCTGA	MTVISSTKNLEALSFTLVAEFDADVERVWQIWEDPRQLERWWGPPTWPATFKDFDFQPGGKAGYYMTGPEGEKAGGWWRFTAIEAPRKLEFDDGFADDDGAPVDAMGTTHATVSLEDIGGRTRMTIQSTFESEEQMEQMVQMGMEEGMKEAAGQIDAILAEHARA				NA	NA	NA	NA	NA
D1-29_04067	333			hypothetical protein	ATGGTTGTAGATCAGCTCAGTGATTCCGAGGTGGACCGCCTGTTCCAGGCGTTCTCCGACTCCACACGCCGGGACATCGTCCGGCGGGTAACAGTGGGGGAGTACTCGGTGTCCGGCCTGGCTGCCCTCTACGCCATGAGTTTCGCCGCCGTGCAAAAGCATGTGGCGATCTTGGAGCGGGCTTCCCTGGTCACCAAGGAGAAGCGCGGAAGGGAGCAGATCGTGCGGGGCAATCATGAAGGACTGGAAAAAGCCCGCCGCCTGCTCGATGAGTATGAGGCGATCTGGCGGCTCCGAGCCGGGCGGATCGCCGAGATTCTGGCCGAAGGATAG	MVVDQLSDSEVDRLFQAFSDSTRRDIVRRVTVGEYSVSGLAALYAMSFAAVQKHVAILERASLVTKEKRGREQIVRGNHEGLEKARRLLDEYEAIWRLRAGRIAEILAEG				NA	NA	NA	NA	NA
D1-29_04068	2568			hypothetical protein	TTGAACCACCCAATCCGAGGCCTCGGCAGACGCCTCCACAGATCGCGTAAGACCACCGCGGCGGCAGCCGTCATTCTGGCGCTTGTAGCCACGTTGGCCGGCGGCGCGCCGGCCTCCTCGGCGGAGCAGGCGCCGTACACGGAGCAGTACCGGCCCCAGTTCCACTACACCCCCGAGAAGAACTGGATGAACGACCCGAACGGGCTGGTGTTCTACCAGGGCGAGTACCACCTCTTCTACCAGCACAACCCGTCGGGCAACCAGTGGGGAAACATATCGTGGGGACACGCTGTGAGTACGGACCTGGTGCACTGGACGGAGCTGCCGGTCGCGATCGCCCACGATGACGAGGAGATGATCTTCTCCGGCAGCGCGATCATCGACACCAACAACACCAGCGGGTTCGGCACCAAGGACAACCCGGCGATGGTTGCGGTGTACACCCGCCTGGACAAGGCCACCGGCGTCCAGTCCCAGGCACTGGCCTACAGCACCGACCGCGGCCGCACCTTCACGAAGTACGCCGACAACCCGGTCCTCGACATCGGTTCACGCGACTTCCGCGACCCGAAGGTCTTCTGGTACGAAGAAGGCCAGGAGTGGATCATGAGCGTGGCCCTGAGCGCCGAGCGGAAGGTGGCCTTCTACCGCTCGGGCGACCTGAAGACGTGGGAGCACCTCAGTGACTTCGGTCCGGCCGGCGCCATCGGCGGGGTCTGGGAGTGCCCGGACCTGTTCCCGCTGCCGGTGGATGGCGACAAGAAGAACACCAAGTGGGTGCTGCTGGTTAACATCGGCTCGGGCGGCATCGCCGGAGGATCGGCAAACCAGTACTTCACCGGAACTTTCGACGGCACCAGCTTCGTCTCTGACGACAAGCCGTATGTCGCACCGACCGGCCGTGACCTCGGCAGCTTCGACGACAGCACGTATGGCGGATGGACACCCGAAGGTGCTGCCTTCGGAACGGCACCCGCCGCCGGCAACCTGCCGGGTCAGGGCGGTGTCTCCGGCTGGGTGGGGGCTGGGCTCGCCAACAGCTTCAATGGCGCTGACGCTGGCACCGGGACGCTAACCTCTCCCGAGTTCACCCTTGATGCCGCATACCTCAACTTCAAAGTCGGCGGCGGCAAGCACCCGTACGTCGCTGGGTCAACGCTCAACCCCTCACCCCCAGCAGGGGATGTCTTCGCCGACTTCGAGGGCAGCGGGTACGGTGCCGGATGGGTTGCCACAGGCGACTTCGCCGGCACGGGTCCGGTGAAGGGCACCATCGGAGACCAGCAGCAGGTCACCGGATATGTCGGCGAGCAACTGGTCAACACCTTCATCGACCATGACATGTCACAGGGCACTATCACGTCCCCGGAATTCGCCATCGCCAAGAGCCACATCAACCTGCTCGTTGGCGGAGGCAGCCACCCCTGGACCACCAGCGAGCCGACGTCCGTAGACCTGCTCGTCGACGGCCAGATCGTTAGGTCCGCGACCGGGGCCAACAGCGAAGCCCTCAACTGGACAAGCTGGGACGTCTCGGAGTATGCCGGCAGGAACGCCACGATCCAGATCGCCGACAAGAACTCCGGAGGCTGGGGACACATTAACGTCGACCACATCGTGTTTTCCGACGAGGCAGCGGCAGCACGCGCAGTCGATACCTCCGTGCGCCTGGTCGTTGACGGCCAGGTGGTCAGGAACGCCACGGGCTCGGACAGCGAGACGCTTGACTGGAACGGTTGGGATGTTAGCAGCCTTGAGGGCAAGACAGCCCGAATCGTGGTGGCAGACAACAACACCGGGGGTTGGGGCCACATCCTCGCCGACCAGTTCAGCCTGTCGGACACGCCTGCACGCTCCAGCGTCCAGCGGGCGCATTGGGTGGACTACGGCAAGGACAACTACGCCGGTGTGACGTTCGACGACGCACCCGCGGATCGTCGGGTAATGATCGGCTGGATGAACAATTGGAACTACTCCGGCTCCATCCCGACCGATCCGTGGCGTAGCGCGATGACGGTGCCGCGCGAGTTGGGCTTGCGCAGCAGCAACGAGGGTGTGCGCCTGGTACAGCAGCCGGTCTCCGAGCTGCAGGGCCTGCGTGAAGATGCAGTGCTCAACACCAAAAACCTGCTCGTAGCCAACGGCTCCACACCGCTCCGGGCCGCAGGCGCGGCATACGAGCTAACGGCCACTTTTGCCCCCGGAACTGCCAGCACCGTAGGTGTAAAGGTGCGAATCGGCAATGGCCAGGAGACCAGGATCGGCTACGACCGCTCAGCAGGTGAGGTCTTCGTCGACCGGGCCAAGTCGGGTGACGTGGGCTTCAGCCTCGACTTTCCGGGCATGCAAAGGGCCCCGATATCCATCGGCGCCAACGGCGAGGTAACCCTTAAAGTGCTGGTCGACTGGTCCTCGGTGGAAGTCTTCGCCCAGGACGGATCGGCCGTCATCACCGACCAGATCTTCCCCGACCCCATCAGTACCGGCCTAGCGGCTTTCGCTACTGATGGTGATGCCGTCCTCAAGTCAGTCAAGGTGACACCACTGCGCTCCGCCTGGACCGACTAG	MNHPIRGLGRRLHRSRKTTAAAAVILALVATLAGGAPASSAEQAPYTEQYRPQFHYTPEKNWMNDPNGLVFYQGEYHLFYQHNPSGNQWGNISWGHAVSTDLVHWTELPVAIAHDDEEMIFSGSAIIDTNNTSGFGTKDNPAMVAVYTRLDKATGVQSQALAYSTDRGRTFTKYADNPVLDIGSRDFRDPKVFWYEEGQEWIMSVALSAERKVAFYRSGDLKTWEHLSDFGPAGAIGGVWECPDLFPLPVDGDKKNTKWVLLVNIGSGGIAGGSANQYFTGTFDGTSFVSDDKPYVAPTGRDLGSFDDSTYGGWTPEGAAFGTAPAAGNLPGQGGVSGWVGAGLANSFNGADAGTGTLTSPEFTLDAAYLNFKVGGGKHPYVAGSTLNPSPPAGDVFADFEGSGYGAGWVATGDFAGTGPVKGTIGDQQQVTGYVGEQLVNTFIDHDMSQGTITSPEFAIAKSHINLLVGGGSHPWTTSEPTSVDLLVDGQIVRSATGANSEALNWTSWDVSEYAGRNATIQIADKNSGGWGHINVDHIVFSDEAAAARAVDTSVRLVVDGQVVRNATGSDSETLDWNGWDVSSLEGKTARIVVADNNTGGWGHILADQFSLSDTPARSSVQRAHWVDYGKDNYAGVTFDDAPADRRVMIGWMNNWNYSGSIPTDPWRSAMTVPRELGLRSSNEGVRLVQQPVSELQGLREDAVLNTKNLLVANGSTPLRAAGAAYELTATFAPGTASTVGVKVRIGNGQETRIGYDRSAGEVFVDRAKSGDVGFSLDFPGMQRAPISIGANGEVTLKVLVDWSSVEVFAQDGSAVITDQIFPDPISTGLAAFATDGDAVLKSVKVTPLRSAWTD	PGPT0018745_93	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOSIDASE,PGPT0018745-fruA-K03332	NA	NA
D1-29_04069	1509	sacC_2	COG1621	Levanase	ATGACTGCCGCGACCGCCACGACAGCCGATACCTTCCGGCCGGCCCTGCACTACGCCGCCCGGAACACCTGGCTGAACGACCCCAACGGCCTGATTTTCCATGACGGCGTCTACCACCTCTACTACCAGAACAACCCGCTGGATAACGTCTGGGGAAACATGTCATGGGGCCACGCCACCTCCCCGGACCTGGTCAGGTGGACCGAGCACCCCGTCGCCATCGCCTGCGATGAGCAAGAAGACATCTTCTCCGGAAGCATCGTCTTTGACCGGGACAACACCAGCGGCTTCGGCACCGAGTCGGCCCCGCCGCTGGTGGCCGTCTACACCAGCGCCTTCAAGTCCGGCTCCGCAAACGCCGGACTCCAGGCACAGTCGCTCGCCTCCAGCTGCGACGGCGGCTACACCTGGACCAAACACAACGCCAACCCGGTGCTGAACCGCGGGTCAGCCGAGTTCCGTGACCCCAAGGTCATCAGGTACGACGGCGGCGCTGGCAGTTACTGGGTCATGGTCGCCGTAGAAGCCACAGACTTTCAGGTGGTCCTCTACAAATCCGATGATCTGAAGAGATGGGAATTCCTGAGCACCTTCGGACCGGCCAACGCCACCGGCGGCGTGTGGGAATGCCCCGACCTTTTCCCCCTGCCCCTCGACGGCGACTCCGAACAGCTCAAATGGGTCCTCACCGTCAACCTCAATCCTGGCGGCCCCAATTCTGGCTCTGCCGGGCAGTATTTCGTCGGGGACTTCGATGGAACCACCTTCACCTCGGCCACCACGGTGACCGAAGGGCTCCAGGACCCCGCCCGGCTGGGCGAGTACCAGTGGCTGGACTGGGGCCGGGACTACTACGCCGCCGTCTCCTTCAGCGACGCCCCCCACGACCGCCGCCTCATGATCGCCTGGATGAACAACTGGGAATACGCCAACCAGATCCCCACCTCGCCGTGGCGCAGCCCCATGAGCCTGGCCCGCGAAATATCCCTCCGCACCATCGACGGAAGGCCCCGTCTGATCCAAAAGGCCGCAGGAGATTTGTCTGCCCCTTCCAGCATCGGCCAACCCTTCACCCTTGAACGGACGGAAATATCCGACTGCACGCGCGTCCTCGACGGCGCGGAAGGCTCCGTCCAGCGAATCGATCTGACCCTCACGCCCGGAAGCGCCGAGGAATTCGGGCTGATCGTCCGTGCCAACGGCGCCCACGGAACCCGCATAGGCATCCGGCCTGCACAAGGCACGCTCCATGTCGACCGTCGGACATCCGGAAACACCAGCTTCCACGAATCCTTCCCCTCCATCGATACTGCCCCCATTCAACCGATCGGCGGATCCTACGAGCTGACCATTTACGTGGACCGTTGCTCCGTTGAAATCTTCTCCCAAGACGGCCAGGTCACCATGACGGAATTGATCTTCCCCGCGCCCACCAACACCGACTTGGCTGTCTACGCCATCGGCGGAACAGCCATTATCAACAGCCTCCAGGTTGATCAATACGTATAA	MTAATATTADTFRPALHYAARNTWLNDPNGLIFHDGVYHLYYQNNPLDNVWGNMSWGHATSPDLVRWTEHPVAIACDEQEDIFSGSIVFDRDNTSGFGTESAPPLVAVYTSAFKSGSANAGLQAQSLASSCDGGYTWTKHNANPVLNRGSAEFRDPKVIRYDGGAGSYWVMVAVEATDFQVVLYKSDDLKRWEFLSTFGPANATGGVWECPDLFPLPLDGDSEQLKWVLTVNLNPGGPNSGSAGQYFVGDFDGTTFTSATTVTEGLQDPARLGEYQWLDWGRDYYAAVSFSDAPHDRRLMIAWMNNWEYANQIPTSPWRSPMSLAREISLRTIDGRPRLIQKAAGDLSAPSSIGQPFTLERTEISDCTRVLDGAEGSVQRIDLTLTPGSAEEFGLIVRANGAHGTRIGIRPAQGTLHVDRRTSGNTSFHESFPSIDTAPIQPIGGSYELTIYVDRCSVEIFSQDGQVTMTELIFPAPTNTDLAVYAIGGTAIINSLQVDQYV	PGPT0018745_515	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOSIDASE,PGPT0018745-fruA-K03332	NA	NA
D1-29_04070	1608			hypothetical protein	ATGGCATTCAGCCGCAAATTCGCCGCCCTCGGCGCCGTCCTGGCCGGAACATTGATGTTCACCGCCTGCTCCGGCGGTGGCTCAGGAACCACCGAGATCAAAGACGCCTCCGCGGACTTCGGCTTCCAGGAAACAGGCTTCCCGATCGTAACTAAGCAACTGGAGCTGACCTTCTCCGGCACGAAGTCAGCGCTTGCCCCGGATTACAACACCATGACCGTGGTGAAGGAATGGGAAAAGGCCACCAACGTCCATATCAACTGGGAGAACCTGCCCGAAACGGTTTTCAAGGAAAAGAAGAACCTCATCCTGGCCAGCGGTGACCTGCCCGATGCGTTCTTCAATTCGGGCCTGACCGACGCCGAGATCGCCACCTACTCTGCCAGCGGCACCCTCATCCCGCTCGAGGGGCTCATCGAGAAAAATGCACCGAACCTTTCCAAGCTGCTCTCAGACCGGCCAGAGATCAAAGCCGCCATCACCTCCTCTGACGGGCATATCTACTCGCTGCCCTCTATCGAGGAACTCGGGCTGGTCCAGTTCCCCAACGAGCTGGCCATCAACACGGCGTGGCTGAAGAAGCTCAACATCCCGATGCCAAAAACCATCGATGAGTTTCACGACGCACTGCTCGCATTCAAAACCCAGGATGCCTCCGGCACCGGCAAGACCATACCGTTGAGCTTTATGCCCGGCTCCTGGTGCGGGGACATCGTTGACCTGATCGCCGCCCTCGGCGGAGTGCCGGACAACATGGACCACCGGATCGTCCAGGACGACAAAGTCATCTTCACTCCCACACAGGACGGCTACAAGAAAGCCATCCAGACCCTGCACGAGTGGTACCAGGAAGGCCTGATCGACCCCGAATCCTTCTCCCAGGACGACAAGGCATACCTGGCCAAGGGCAAGGCAGCCACGGAAAACCTTGGCTCCTTCGTCTGGTGGGAAGTCCCCGAAATGGTAGGCGCGGACCGCGCCAACAACTACTCCCTGGTCCCCGCCCTGGAAGGCGTGAACGGTAAGCGCCTGGTCAGCCAGTCCAACAACCAGGAAATCGCCCGCGGCGCCTTCGCTATCACCAACGCCAACAAGTACCCGGCCGCGACCATGCGCTGGGCAGACAACCTGTATGACCCCATCCAGTCAGCCCAGGCCAACTGGGGACCTATCGGTGAGACCCTGCAAAAGGATGCCAATGGCATCCTGACCCAGATCCCCGCCCCGGAAGGGACCAGCGAGGGCGAACGGCGCCAAAAGGTGGCCCCGGGCGGCCCCAAGGCCAACACCGCGGAGAACTTCAAAAACGTCGTGGCTCCTGAGCCGAGGGCAGCCCAGCGCCAGAAAACCGTAGAAGAGCACTACAAGCCCTTCGCGGCCAACGACGGGTACCCGCCTGTGGCGCTGTCCACCGAGGAGCTCCAGCAGATCGGCACCATCGAAACGGACGCCGCGTCCCTGGTCAAGCAGAACATGGCCAAGTGGATCGTCTCCGGCGGCATCGAGCAGGAATGGGACGGCTACATCGCCCAGCTCAAGAACATCGGCGTCGACAAAATGGTCGAGGTCTACCAGCAGGGCTACGACCGCTACAAGTCCAACTCCTAG	MAFSRKFAALGAVLAGTLMFTACSGGGSGTTEIKDASADFGFQETGFPIVTKQLELTFSGTKSALAPDYNTMTVVKEWEKATNVHINWENLPETVFKEKKNLILASGDLPDAFFNSGLTDAEIATYSASGTLIPLEGLIEKNAPNLSKLLSDRPEIKAAITSSDGHIYSLPSIEELGLVQFPNELAINTAWLKKLNIPMPKTIDEFHDALLAFKTQDASGTGKTIPLSFMPGSWCGDIVDLIAALGGVPDNMDHRIVQDDKVIFTPTQDGYKKAIQTLHEWYQEGLIDPESFSQDDKAYLAKGKAATENLGSFVWWEVPEMVGADRANNYSLVPALEGVNGKRLVSQSNNQEIARGAFAITNANKYPAATMRWADNLYDPIQSAQANWGPIGETLQKDANGILTQIPAPEGTSEGERRQKVAPGGPKANTAENFKNVVAPEPRAAQRQKTVEEHYKPFAANDGYPPVALSTEELQQIGTIETDAASLVKQNMAKWIVSGGIEQEWDGYIAQLKNIGVDKMVEVYQQGYDRYKSNS	PGPT0017245_2026	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
D1-29_04071	960	dasC_5	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGTCCCTGATAACCAACCCCCCGACTCTCGAGAACCCGAAACGGACCGCCAGCGTGGTCCGTCCCAAGCAGTCGCTGAGGGACAGGTATGGCGACCGTGCGTTCAACATCGCCGCCACAACCGTCCTGCTGCTGTCCATCCTCGCCGTGGTGTATCCGCTGTACTTCATCGTCATCGCCTCCATCAGCGACCCGAACGCCGTTTATGAAGGCAAGGTCTGGCTGTTTCCTTCCGGCGTAACCACGGAGGGCTATGAGCGGATTTTCGCCGACAGCCGGATCTGGAATGGCCTGGGCAACACCGTCATCTACACAGTGCTCGGTACCGCCGTCAGCGTCAGCACCATCCTGTGCGGCGCCTACGCCCTGTCCCGCAAGGACATGCCCGGCCGGAAGATCCTGATGCTCCTGTTCGTGATCACCATGTTCTTCGACGGCGGCCTCATCACCAAGTACCTGGTGGTCCGGGACCTGGGCATGCTGGACACCGTCTGGGCAGTGGTACTGCCCGGTGCGGTGGGGGTGTGGAACCTGATCATCGCCAGGTCATTCTTCGAACACACCATCCCCAATGAACTGCGCGAAGCTGCACAGATGGACGGGGCCACCGACTTCAAGTTCTTCTTCCAGATGGTGCTTCCCCTGTCCAAACCACTGATCATGCTCATGATCATGGTCCACGTGGTAGCCCAGTGGAACTCGTTCTTCGACGCACTGATCTTCCTCAACGACGACTCGAAGTACCCGCTCCAGCTCGTCCTGCGGAACATCCTCATCCAGTCAGATGTCTCATCCACCGGAACCACCGGCGGAGACATCGAATCCTATGCGGCAGCGCAAAGGATCGCAGAGCTCACCAAGTACGCCATGATCGTCGTCTCGAGCCTGCCACTCATGATTGCCCTGCCATTCATGCAGAAGCACTTCACCAAGGGCGCCATGATCGGCGCCGTCAAATAA	MSLITNPPTLENPKRTASVVRPKQSLRDRYGDRAFNIAATTVLLLSILAVVYPLYFIVIASISDPNAVYEGKVWLFPSGVTTEGYERIFADSRIWNGLGNTVIYTVLGTAVSVSTILCGAYALSRKDMPGRKILMLLFVITMFFDGGLITKYLVVRDLGMLDTVWAVVLPGAVGVWNLIIARSFFEHTIPNELREAAQMDGATDFKFFFQMVLPLSKPLIMLMIMVHVVAQWNSFFDALIFLNDDSKYPLQLVLRNILIQSDVSSTGTTGGDIESYAAAQRIAELTKYAMIVVSSLPLMIALPFMQKHFTKGAMIGAVK	PGPT0017255_105	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
D1-29_04072	975	yteP_2	COG4209	putative multiple-sugar transport system permease YteP	ATGAGCCGCACCATCCCGGCCCGACGCGGGCGTCCCGCTGCGGCATCGTTGCCGCAGCGAAAAAATACTCTTTCGCTCCGCCTGAAGAGGATTTCCCGCGCCTGGCAGTTATACGTATTACTAGCTCCAGCGATCGTCTACATCCTGGTCTTCAAGTACTGGCCGATGTACGGCGTCCAGATCGCTTTCAAGAACTACAATCCGGTGGACGGGTTCACCGACAGCCCCTGGGTGGGCCTGACGCACTTCATCAGGTTCATGAACTCTTACCAGTTCGGCCAGGTGGTCGGTAACACGTTGTGGATCGCCGTCCTTGGCCTGCTGGTGGCCTTCCCGATCCCGATCATCCTCGCGTTGCTGGTCAATCAGCTCCAGAGCGAGAGGTTCAAGAAGTTCACCCAGACAGTGCTGTATTCGCCCGCGTTCATCTCCACCGTGGTGGTGGTGGGCATCATGTTCGTGGTTCTCTCGCCGAGGTCTGGCCTCGTGAACAATGCGATCCAACTCGGCGGGGGTGAACCGATCTTCTTCATGGGCTCCGCAGAGTGGTTCCGCCCCATATATGTCATCTCGGATGTCTGGCAGAACGCCGGCTTTTCGATGATCGTCTACCTTGCGGCATTGGCCGCCATCGACCCGGCACTGCATGATGCGGCCAAGGTCGACGGCGCCTCGAAGCTGCAGCGCATCCGGCACATCGACCTGCCGGGCATCATGCCGGTGGTGACGATTCTGTTCATCCTGGCGATCGGAAACCTGCTCAATGTCGGTTTCGAAAAGGCGCTGCTGATGCAGACGCCGCTGAACCTCTCGACCTCGGAGATCATCCAGACTTACGTCTACCACGCGGGCCTGCAGCAGGCGCAGTTCAGCTACTCGGCCGCCATTGGCCTGTTCAACTCCCTCCTTAACCTGACGCTGCTGCTCGTGTTCAACACGATTGCGCGCCGGGCCAACCAAGCAACCCTGTGGTGA	MSRTIPARRGRPAAASLPQRKNTLSLRLKRISRAWQLYVLLAPAIVYILVFKYWPMYGVQIAFKNYNPVDGFTDSPWVGLTHFIRFMNSYQFGQVVGNTLWIAVLGLLVAFPIPIILALLVNQLQSERFKKFTQTVLYSPAFISTVVVVGIMFVVLSPRSGLVNNAIQLGGGEPIFFMGSAEWFRPIYVISDVWQNAGFSMIVYLAALAAIDPALHDAAKVDGASKLQRIRHIDLPGIMPVVTILFILAIGNLLNVGFEKALLMQTPLNLSTSEIIQTYVYHAGLQQAQFSYSAAIGLFNSLLNLTLLLVFNTIARRANQATLW	PGPT0017250_646	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
D1-29_04073	1044	degA_5	COG1609	HTH-type transcriptional regulator DegA	ATGGCTGGATCACGGCCGAAATCAGGACCGACGATGCATGACGTCGCCGCCGCTGCGGGAGTTTCCCAGGCAACCGTCTCCCTGGTGCTGAACTCGGCTGCCGGGTCACGCTTTTCCGAGGATACCCGCAAGCGCGTACGGGATGCCGTGGACCGGCTCGGCTACCGCACCAACGCCCATGCCAAGGTTCTCCGCGAGGGCGTTGCCGGAATGATTGGGTTCATCGGTGATTCCGTGGCTACTACTCCTTTTGCCGGCGCCATCATCGAGGGGGCGCAGCAGCGGGCGTGGGAGGACGGGCTCCTCCTGCTTTCGGTGAATACCGGGGGTGACAAGGAGCTTGAGGCCGCATCTTTGGACACAATGCTCTCCTACAAGGTTGCAGGAGTGGTCTACGCAGCCATGTATCACCGGCGTCTGGATGTGCCGGAGGTGCTGGGGGATGTCAGGTCCGTGGTGCTGAACTCCCAGGACCGTGCTGGACGGGTCCCGAGTGTCGCCCCGGACGAAGTCAAGGGCGGATATGCGGCGACCAGCCGGCTGCTTAAGGCGGGCCACACCCACGTGGGAATGATCGACATCGAAACCCTCGAGAGCGGCCTTCCTGCCGCCGTCGGACGCTACGAGGGCTACTGTGCAGCCCTTCAGGACGCGGGGCTGGACGTTGATCCGGACCTGGTCCGCTTCGGTCAGGGCGGCGAGGAGCATGGCTACAAGTACGCGATGGAGTTGCTCACTTCCAGAAACCCGCCCACAGCGATTTTCTGCGCAAATGACCGTGGGGCCTGGGGTGCCTACCAGGCTGTGTCGGACCTGCGCCTTTCCATCCCCGGGGACGTTTCCATTGTGGGGTTCGACAACCAGGCCACCCTGGCGCCTTTCCTCCGGCCTGGGCTGACTACTTTTGAATTGCCGTTCGTCGCCATGGGCCGTCGCGCGGTTGAACTGATACTTCAGGATGCGGAACCCGATGGCCGGGTCGAGCTGATGGACTGCCCTCTGATTGAACGGAATTCAGTGACTCATCCTAAGGAGATGCCATGA	MAGSRPKSGPTMHDVAAAAGVSQATVSLVLNSAAGSRFSEDTRKRVRDAVDRLGYRTNAHAKVLREGVAGMIGFIGDSVATTPFAGAIIEGAQQRAWEDGLLLLSVNTGGDKELEAASLDTMLSYKVAGVVYAAMYHRRLDVPEVLGDVRSVVLNSQDRAGRVPSVAPDEVKGGYAATSRLLKAGHTHVGMIDIETLESGLPAAVGRYEGYCAALQDAGLDVDPDLVRFGQGGEEHGYKYAMELLTSRNPPTAIFCANDRGAWGAYQAVSDLRLSIPGDVSIVGFDNQATLAPFLRPGLTTFELPFVAMGRRAVELILQDAEPDGRVELMDCPLIERNSVTHPKEMP	PGPT0017992_10742	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
D1-29_04074	1596	lsdA_2		Levansucrase	ATGTTTATGCACCCCAAGCAACCCCGAATGCTGCGGAAGCGCTCTGCTGCCGCAACGCTCGCAGCGGCAGTCGCCGTGTCGACGTTCCTGGCGGTCCCCTCGGCCCAGGCCAACGAGCCGTCGGACCCGCCGGAAAGCCAGCAAATGCCGGCCCCGACCCCCGGGTTCCCGCTCCCCACGGAACACACGCAGCAGGCCCATGATCCGGCGTCGGACTTCACTTCCAAGTGGACCCGCGCGGACGCCAAGCAGATCATGGCGCAGAGCGACTCCACCGTGGCTCCAGGCGAAAACTCCATGAGTCCGGACGTCACCATGCCGGAGATCCCTGAAGATTTCCCCACCATGAACGAGGACGTGTGGGTCTGGGACACCTGGTCGCTCACCGATGAGAACGCGAACCAGATCAGCTACAAGGGCTATGACGTGATCTTCTCGCTGGTGGCGGACCGGCACGCCGGCTACGGCTTTGACCAGCGGCACTGGAACGCCCGGATCGGCTACTTCTTCCGCAAGACCAACGCCGATCCTGCGAAGGACAAGTGGAACTACGGCGGCCATCTGTTTGTTGACGGTTCCTCCATCGGCAACACCGAATGGTCAGGGTCCACCCGGCTGATGCAGGGCAACCACGTCAACGTCTTCTACACGGCCACCAGCTTCTCGGATGTGGCCGCACGCAACGCAGGCGGAGGGGGTGCCCCGCCGGACGCCGCCATTGCGAAGGCCCTGGGCAAGATCCACGCCGATGAGAACGGCGTCACGTTTGACGGCTTCGAGCACACCAAGCTGCTGGAACCGGACGGCAAGATGTACCAAAACAAGGAACAGAACCCCGGTTTCGCCTTCCGTGACCCCTACACCTTCGAGGACCCGGCACATCCCGGGAAGACCTATATGGTGTTCGAGGGCAACACGGGTGGTACCCGCGGAGACTATGAGTGCAAGGAAGAGGACCTCGGTTACAAGCCGGGCGATCCGAACGCTGAAAACGTCAACGAGGTCAACAGCTCGGGAGCCAACCTCCAGACGGCAAATGTGGGCCTTGCTGTGGCGGACAATAAGGACCTGACCAAGTGGTCGTTCCTGCCTCCGCTGCTCTCGGCCAACTGCGTCAATGACCAGACCGAGCGCCCGCAGATCTTCATCCAGAACGAAAATGGCAAGAACAAGTACTACCTGTTCACCATCAGCCACCAGTTCACCTACGCGGCAGGAATGCGCGGGCCCGACGGCGTGTACGGCTTTGTGGGCGACGGCATCCGCTCCGACTACCAGCCGTTGAACAACAGCGGCCTGGCCCTGGGCTCGCCGACGGACCTGAACCTGCCGTCCGAATCCCCCGAAGCTCCAACCCCGCAGCAGAACGGCCGCCAGTTCCAGGCCTACTCGCACTATGTGCAGCCGGGCGGCCTGGTGCAGTCGTTCATTGACAACGTCAACGGCGTCCGCGGCGGATCCCTGTCACCGACGGTGAAGATCAACTTCCGCAACGGAATTTCGGAAGTTGACCGCTCCTTCGGCCAGAATGGTTTGGGGCCGTATGGTTACCTGCCTACCAACGTCAGGGTTGGCGGAGAAGGCCACTACAAGTGA	MFMHPKQPRMLRKRSAAATLAAAVAVSTFLAVPSAQANEPSDPPESQQMPAPTPGFPLPTEHTQQAHDPASDFTSKWTRADAKQIMAQSDSTVAPGENSMSPDVTMPEIPEDFPTMNEDVWVWDTWSLTDENANQISYKGYDVIFSLVADRHAGYGFDQRHWNARIGYFFRKTNADPAKDKWNYGGHLFVDGSSIGNTEWSGSTRLMQGNHVNVFYTATSFSDVAARNAGGGGAPPDAAIAKALGKIHADENGVTFDGFEHTKLLEPDGKMYQNKEQNPGFAFRDPYTFEDPAHPGKTYMVFEGNTGGTRGDYECKEEDLGYKPGDPNAENVNEVNSSGANLQTANVGLAVADNKDLTKWSFLPPLLSANCVNDQTERPQIFIQNENGKNKYYLFTISHQFTYAAGMRGPDGVYGFVGDGIRSDYQPLNNSGLALGSPTDLNLPSESPEAPTPQQNGRQFQAYSHYVQPGGLVQSFIDNVNGVRGGSLSPTVKINFRNGISEVDRSFGQNGLGPYGYLPTNVRVGGEGHYK	PGPT0013775_27	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LEVAN_METABOLISM	CE-EPS-LEVAN_BIOSYNTHESIS,PGPT0013775-sacB-K00692	NA	NA
D1-29_04075	1974			hypothetical protein	ATGATGTCCGAAAAGATGAATCTTTCTTCGCTCCTTAGCAAGCGGAGCACCTGGGTTGCCGTCGCAGCGGCCGGCACCGCCCTGCTGCTGGCCTTAACCGTGCTCATTTCCACCGTTCACACGCCGGACCAGGCCCAGAGCCGGGGAGAAAAGGCCCTCGACGCTGTTGCCGCGGCGCAGGCTGACTTCAAAACCTCCAGGGGCAGCTACGGCACGTACTGGCAGTCGGGCGGGGACCGCAGCCTGGAAGAGGGGCGCCCCATCCAGGCCTCCGGCGTCGATGATCTGCTCAGCATCAGCTGCGCCGAAGGATGGGTGGCTGCTGCCCGGACGGGAAGCGAGATCTTCCTTCGAACCAGCGTTGACAGTGCAACCGCCCGGGCAGGAGCCGGGGAAATCCGCCGGCCGGAATGCATCACCCCCGAGGCTGTTGATGCCATGCTCGGTGACCTCGGCAGAATCGACCGCTCGCCGGCGCCCGGAACGTCACAGGAGCGGCCCGCAGGAGACTCCCTGTACCGCCCGAGCTACCACATCACTCCGGAGCGGGACTGGATGAACGATCCCCAGCGCCCCTTTTTCCTCAATGGGCTCTGGCACTACTACTACCTCTACAACGCGGACTATCCGGACGGCAACGGAACCGAGTGGTACCATCTCACCAGCACGGACCTGGTGACGTGGAAGGACGAGGGCGTTGCCATCCAAAAGTACAAAAACGGGCTGGGTGACATCGAAACCGGCAGTGCCGTGGTGGACCACAACAACACTGCCGGCTTCGGCAAAGATGCAGTTATCTCCGTCCTGACCCAGCAGGACGAAGGCGTCCAAAGGCAGTCACTGTTCTATTCAACCGACGGCGGATTCACCTTTTCCTCCTACGACGGAAACCCGGTGATGGAGAACCCCGGAGCGGAGCACTGGCGCGACCCCAAGATTGTCCGGGATGAGGCGAACGGTCAATGGCTGATGATCCTGGCCGAGGGCCACAAGCTGGGCATGTACACATCGAAGGATCTCAAGAGCTGGCAGTACGCCTCCGGCTTCGAGCGCTCCGGCCTGGGCATCCTGGAATGCCCTGACCTGTTCCAGATGGACGTCGACGGCGACCCCGCCAAGCGGACATGGGTCCTGGCGGCGAGCGCCAACGGAAGCGAAGAAGGCAGGACCACCGGCGTTGCCTACTGGACCGGTGACTGGGACGGGACAACCTTCACTCCCGCCGAGGAGAAACATCAGTGGATGGACGCGGGCTCTGACTTTTATGCCGCCGTTTCATGGAATGACCCGAGGCTTACGGAAGGCCAGCGGATGCAGTCCCGGCAGGTCCTGGGCTGGATTAACAACTGGGACTACGCCCGAAAGCTCCCCACCGGCGACTGGCACGGCGGAATGGATTCCATCGTCCGGGACATCCGGCTTAAGACCGTCGAAGGCAGGCCAACCCTCACCTCAGCTCCCTCCAGGAGCCTGGCCCGGCTCGAGGGAGAACCGTCGGCGTCCGGCCCGCAGACCATCACGCGCGAGGGAACTGACGGGCTCCCTTCCCTGCGGGGCGGTGCCTACCGGCTGGACCTGACGGTTGAGCAGCCGGATTCGGGGCGTGGCGGCGGGGACGTCCCGGAGGCGCTCCTGCAGTTCGCCAGCGACGACTCGATCTTCGCCACGGTTGGCTACAACTTCAAGGACGGCGCCGCCTTCGTGTCGCGTGAGCAGCCGCCGGCCGCTGATGCACACCTTGGCCCCCTGTTCACCGACAGGCGCACGGCCCCGGTTCCGGCAAGGAACGGCACGGTGGACCTGACGGTTTTTGTTGACCACTCCTCCATCGAGGTTTTCGTCAACGGCGGGGAGCAGACGCTCACCTCGCTGGTGTTCCCCAAGTCGGAGGAGCGGGCCCTCAAGCTGGTGTCCGGCGGCGGAAACCTAGGCCTCCGGAACCTGACGTATACGCCGCTGTCGTCCACCCGGTGA	MMSEKMNLSSLLSKRSTWVAVAAAGTALLLALTVLISTVHTPDQAQSRGEKALDAVAAAQADFKTSRGSYGTYWQSGGDRSLEEGRPIQASGVDDLLSISCAEGWVAAARTGSEIFLRTSVDSATARAGAGEIRRPECITPEAVDAMLGDLGRIDRSPAPGTSQERPAGDSLYRPSYHITPERDWMNDPQRPFFLNGLWHYYYLYNADYPDGNGTEWYHLTSTDLVTWKDEGVAIQKYKNGLGDIETGSAVVDHNNTAGFGKDAVISVLTQQDEGVQRQSLFYSTDGGFTFSSYDGNPVMENPGAEHWRDPKIVRDEANGQWLMILAEGHKLGMYTSKDLKSWQYASGFERSGLGILECPDLFQMDVDGDPAKRTWVLAASANGSEEGRTTGVAYWTGDWDGTTFTPAEEKHQWMDAGSDFYAAVSWNDPRLTEGQRMQSRQVLGWINNWDYARKLPTGDWHGGMDSIVRDIRLKTVEGRPTLTSAPSRSLARLEGEPSASGPQTITREGTDGLPSLRGGAYRLDLTVEQPDSGRGGGDVPEALLQFASDDSIFATVGYNFKDGAAFVSREQPPAADAHLGPLFTDRRTAPVPARNGTVDLTVFVDHSSIEVFVNGGEQTLTSLVFPKSEERALKLVSGGGNLGLRNLTYTPLSSTR	PGPT0019220_43	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LEVAN_METABOLISM	CE-EPS-LEVANBIOSE_BIOSYNTHESIS,PGPT0019220-sacC|levB-K01212	NA	NA
D1-29_04076	2100	acyII		Penicillin acylase 2 proenzyme	ATGTCCTCTGAGACGTTCCGGGACCAGTGGGGCGTCCCGCACCTGCGGGCAGACAGCGTGGACGAGCTAGCGTTCCTGCAGGGATTGAACGCGGCCACGGACCGTTCCTGGCAGATAGAGGTGGAGCGGTGGCGCTCGGAAGGCAGGACGGCCGAGCACCTGGGGGCGGACGGGCTCCACTGGGACCGCTTTACCCGCCGTGTGCGGCTTGACGATACAGCCCGCCGTTGCTTCGAAAACCTGGACGCAGGCACCAAGCGCTGGTGCAGCGCGTACGTGGACGGCGTGAACCACGCCCTGAAATCCGGGCGCAGGGACGCCCCGGAATTCGGGACTACGGAAACAGCACCGGCCGCGTGGCAGCCCTGGACGCCGCTGGGTGTCTTCCTGGTCCACCACATCCTGTTCGGCACCTTTCCCAACAAACTGTGGCGCGCCCATGTGGCCGAAACCCTCGGTGCCGATGCCGTGGAGCTGTTCAGCATCGAGGCCCCAGTGTGGGCCGGAAGCAACGCCTGGGCAGCCGCCGGCCACCTGACGGCGTCCGGTTCCCCGCTCATCGCAGGAGATCCGCACCGCCTGATGGAACTGCCCGGCGTTTACCAGCAGGTGCGCCTTGCGTGCCCGGAGTTCGACGTCGTCGGGCTGGCCTTTCCGGGTGTCCCCGGAGTGCCCCACTTCGGCCACACCGGGACAGTTGCATGGGCCGTAACCAACGCGATGGCCGACTACCAGGACCTGTACAGCGAGCAGTTAAGGCACCACGGCGGCGCACTCCAGGCGCTCGGGCCCGCCGGCTGGCGGCCGGTCCCCGTCCATCACCAGGAAGTCATCAGGGTCCGTGGTGCCGAAGCCGAGACTATCGACGTCATTGAAACTGACCGCGGTCCGATCATCTCCGGCGGTATCGACGGCGGCGCGGTCAGTCTGCGGACGCCTGCCCGGGCCGGGGGGACGCTGGGTTTTGACGCCCTCCTGCCGCTGCTGCAGAGCCGTTCCGCCAAGGACGTGGAAGCAGCACTGGAAGCCTGGGTGGAGCCGGTCAACTGTCTGCTCGTGGCGGATTCCGGCGGCGGATTGCGCCAGCTTGTAGCGGGGAAGGTCCCGGTCCGCAGTGCTCAAAACCGTGTGCATCCGGTGCCGGCCTGGTCCCAGGAGCATCAGTGGGCGGGAGGCTGGGAGGAACTTCCGCGTTCTTCCGTGCCAGCTTTGGCGGTGAATGCCAATGACCGCGAGGCCGGCGGCGGAGACCGGCTGGGGCTGGAATTCGCCCCGGCACACCGTGCCCGGCGGATCCGGCACCTGCTGGAGGAAGGCGGGACCGCACTGGATGCCTCAGCCATGCAGAAAATCCATATGGATACCCGGCTGGGTTCCTGGCCTGCGCTCCGCGCCCTGCTCCAGGCGCTGACCGGGCTGTCCGCCGATGCCGCGGCGCTCCGCGAACGGCTGCTGGCCTGGAACGGGCATATGGATGCGGACAGCGAAGACGCCGGTACCTTCGCCGCCTGGCGGTCCGCCCTGGTTCTGGCCCTGGCAGGCACCTCCACGCTGAGTCCGCTGGCGGCTCCCCACGGCCGCTCTCCCCTGTTCGGACCCTGGCTGCATCTGGAGTCGCGGATCGGTTTCGCCTTGGAAACCCTGGTCGCGAATGGCAGCCACCACGGCATCGACGTCGTCGGAGCAGCCACGGACGCCCTGGAACAAGTGGCGGCATCTGCTCCGGCCGGAACAGGGGGCACCAGTACGTGGGGCACCACGCACACCGTGCTGCCGCTCCATGCCCTCGCCGAGCACAGGGCCACTGCCTCAGCAGCACCAACAGTCCCCCAGACGGCCCTGTCCGGTGACACCGGCTGCGTCCTTTCCACCGAAAGCCTGCCCGGCGTGACCGACGGGTCATTCCGGGGGCCGGTGGCCCGCTATGTCTGGGACCTCGCCGACCGCACCAACAGCCGGTGGATCGTACCGTTCGGCAGCTCCGGAGTTCCCGGCCACCCTCACTTCGCCAGCCAGCTCCCGCTGTGGGCCGCCGGGGACCTCATCCCGGTCGTGACTGACTGGGAACAGCTCATCAAGGAGACCAATGACCAGTCTTGA	MSSETFRDQWGVPHLRADSVDELAFLQGLNAATDRSWQIEVERWRSEGRTAEHLGADGLHWDRFTRRVRLDDTARRCFENLDAGTKRWCSAYVDGVNHALKSGRRDAPEFGTTETAPAAWQPWTPLGVFLVHHILFGTFPNKLWRAHVAETLGADAVELFSIEAPVWAGSNAWAAAGHLTASGSPLIAGDPHRLMELPGVYQQVRLACPEFDVVGLAFPGVPGVPHFGHTGTVAWAVTNAMADYQDLYSEQLRHHGGALQALGPAGWRPVPVHHQEVIRVRGAEAETIDVIETDRGPIISGGIDGGAVSLRTPARAGGTLGFDALLPLLQSRSAKDVEAALEAWVEPVNCLLVADSGGGLRQLVAGKVPVRSAQNRVHPVPAWSQEHQWAGGWEELPRSSVPALAVNANDREAGGGDRLGLEFAPAHRARRIRHLLEEGGTALDASAMQKIHMDTRLGSWPALRALLQALTGLSADAAALRERLLAWNGHMDADSEDAGTFAAWRSALVLALAGTSTLSPLAAPHGRSPLFGPWLHLESRIGFALETLVANGSHHGIDVVGAATDALEQVAASAPAGTGGTSTWGTTHTVLPLHALAEHRATASAAPTVPQTALSGDTGCVLSTESLPGVTDGSFRGPVARYVWDLADRTNSRWIVPFGSSGVPGHPHFASQLPLWAAGDLIPVVTDWEQLIKETNDQS	PGPT0028075_1768	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028075-pac-K01434	NA	NA
D1-29_04077	588	iucB_2		N(6)-hydroxylysine O-acetyltransferase	ATGACCAGTCTTGAAACAGCCCTTCCACTTTCTGCCAGGCCTTCCGTTTACCAGGAGACATTGCCCGCCCTCGGCACCCTTCGGCTTCTCCCGCTTGTCCCTGAGGCTGACGCCGACCTGATCCACGGCTGGGTGAAAGAGGAACGTGCCAGGTTCTGGGGCATGCAGAACATGAGCCGGGATGGAGTCAGGGACATTTATTCATTCTTGGACAGCCTGGATACGCATCACGCCTACCTGATCTCGGTTGAAGACAATCCGGTGGGGCTGTTCCAGACTTATGAACCGCTTCAGGACCCGGTGGGCGAAGCCTACGAGGCACGTCGGGCGGATACGGGCCTGCACCTCCTGCTTGCTCCTGCCACGCAACCGGTCCATAACTTCACGCCCATCCTCATTTCGGGGCTGATTGGCTATTTGCTCTCCGACCCCGCCAAGGACCGTGTGGTGGCCGAACCTGATGCCCGGAACGCCAAAATGATCCAGCGGCTGCGGGCATGCGGTTTCGAGCTCGGAGCCAAGGTGCAGCTCCCGGAGAAGGAAGCACAGCTTGTCTTCCTGACCAGGGAACGATTCCAAAGGTTGTAG	MTSLETALPLSARPSVYQETLPALGTLRLLPLVPEADADLIHGWVKEERARFWGMQNMSRDGVRDIYSFLDSLDTHHAYLISVEDNPVGLFQTYEPLQDPVGEAYEARRADTGLHLLLAPATQPVHNFTPILISGLIGYLLSDPAKDRVVAEPDARNAKMIQRLRACGFELGAKVQLPEKEAQLVFLTRERFQRL	PGPT0028075_35	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028075-pac-K01434	NA	NA
D1-29_04078	213			hypothetical protein	ATGACGTTTGAAACCACTGATTCCGTAACGCTGAAAATCTGGGACCGCACAGCTATCGACCACACCCTCGATTCCGTTGTACGGGACCTGTCCCCGCGCGCGGCAGCAGCTAAATGCGGCATCGCCATCACCCGCAGCGGCCCCAACACCTTCACGGTTGGCCTGAGCCACCACGTCCCGCAGGGCTCCACTTTTGAGGAAGTAACCCGCTAA	MTFETTDSVTLKIWDRTAIDHTLDSVVRDLSPRAAAAKCGIAITRSGPNTFTVGLSHHVPQGSTFEEVTR				NA	NA	NA	NA	NA
D1-29_04079	846			hypothetical protein	ATGAGGCAACTACCCGAGGCAGTACCCAGGTTCCAGGCAGGAGAACAAGCAGAGCCGGAAGGCCGGCAGCTCTCCCTGATCCCCGCAACGCTGGTGTCGGCGTCGGGCTTTATCCTGTTCGTGCTGGAGGACCGCCTGAACGGGTTCATCCTGCTGGCGGCGGCGCTGGTCTTGGCGGGACTTATCAGCCGCAAGCTCTTCACCGACCTGGCCCTGATAGCCGTGGGCCTGACCGCTATGAGCCTGGTTCCCATCACTACGGATATCAGCACTGAGCACATGCTGGTGATGGGTACGGCCATGATCGTGGCCGTCGGCGTCCCCTACGCGGTCTCGAGGTATGTCACCAAGGACCATGCCATCAGGTTCCCGGTACGGACAGGCCAGCCGTGGACCCGGGGCGAGAAGTGGTACCTGCCCGCCGTCCTGGTGCTCGGCTATGCGGTGATTCCGGTCTACATGATCCGGACCGGCGTCTACCAAAACTGGCCGGCCGTCAGCGATCCGGACGGCATCGGCCGCCTCTTCCTGGGCACCAATGTGCTGGGCATCTGGGACGAGCTGTTCTTTATCTGTACCGCGTTCACGCTCCTGCGGCGGCACCTTTCCTTCTGGCAGGCCAACCTGCTGCAGGCGGTGCTCTTTACGTCGTTCCTGTGGGAGTTGGGATTCCACGCTTACGCGCCGCTGTTTATCTTCCCGTTTGCGCTGCTCCAGGCGAAGCTTTTCACTCTGACCAAATCACTGTCGTACATTGTGTGCGTCCACCTGCTCTTCGATTTCGTCCTGTTCCTGGTCCTGGTCCATGCACACAACCGCGAGTGGATCGACATCTTCCTGTACTGA	MRQLPEAVPRFQAGEQAEPEGRQLSLIPATLVSASGFILFVLEDRLNGFILLAAALVLAGLISRKLFTDLALIAVGLTAMSLVPITTDISTEHMLVMGTAMIVAVGVPYAVSRYVTKDHAIRFPVRTGQPWTRGEKWYLPAVLVLGYAVIPVYMIRTGVYQNWPAVSDPDGIGRLFLGTNVLGIWDELFFICTAFTLLRRHLSFWQANLLQAVLFTSFLWELGFHAYAPLFIFPFALLQAKLFTLTKSLSYIVCVHLLFDFVLFLVLVHAHNREWIDIFLY				NA	NA	NA	NA	NA
D1-29_04080	264			hypothetical protein	ATGAAGAAGCGCATCCCGGTCACCGAAAAGCTGGCCCGAAGGGTTATGAACCTGTCGGTGCCGCTCCATCAGTCCACCGGCACACATCGCGAACTATCCGGCATCTGGCAGAGCCCCGCCGGAGTGCGGATCCCGATGTTCGAGGGCCAGCTCCTGCCCGCTGATGCCGGCAGGCCCTGCCTCTGGACGCACGTTAGCTTTCATGGATCCGGGCCGGAATCGGGCCGCGCCAGGTGGGCGGTTCCGGAACCCCACCTCCTGTAG	MKKRIPVTEKLARRVMNLSVPLHQSTGTHRELSGIWQSPAGVRIPMFEGQLLPADAGRPCLWTHVSFHGSGPESGRARWAVPEPHLL				NA	NA	NA	NA	NA
D1-29_04081	486			hypothetical protein	GTGGGGGCTTTGATCAATTCGGCCTCGTTCGTTATCAAGGCATGGAATCACGTAGTGGACTTCGTGGTGCAGCCGGAAAACGGGGAGACCCTGAGGGTCCCGCTGGTTTACACCGGCGTGCGGTCGGGGCCTATCCAGCTGCGGGTGGAGTTCCTGCAATCCCGGGTGGAAGCGGAGGTGTTCGATTGGGAGGATGTTCTTGAGCTGTCCCTGGCCCTTCCTGCAGGACGCGTCTACTTCTGTGAATCCGGCGGGGCGGACAGGCAGGAAGTCGGGACGATTCCGGACAAGGAGGAGGGCATCTACCGTGCACGGCTGCACGCCATGGGCAGGGACCGGGCCTTTGACGCTCCCGTGAAGTCGCCCAGGGAACGCCACCTGGTGCAGTTGTGGAAGGAACCGCCCTCGCCCATGTCCGTCCTGGCATCAGGGTCAGAACATGCGGTGGGCGCGGCCCGGCTGGCGAAGATGTGGCACGAGGAGTAG	MGALINSASFVIKAWNHVVDFVVQPENGETLRVPLVYTGVRSGPIQLRVEFLQSRVEAEVFDWEDVLELSLALPAGRVYFCESGGADRQEVGTIPDKEEGIYRARLHAMGRDRAFDAPVKSPRERHLVQLWKEPPSPMSVLASGSEHAVGAARLAKMWHEE				NA	NA	NA	NA	NA
D1-29_04082	213			hypothetical protein	ATGGGACGCGACTTCGGTCCCCTGCTGGTGACCGTCGGCCTGCTGGTGGTCCTGGTGGGCGTGCTGGCATGGACGGGCGGGCTGTCCTGGTTCGGGCGCCTGCCCGGGGACATCCGGATCGAACGCGAAAACACCCGCGTCTACATACCCCTGGTCTCCATGCTCCTGGTCTCGGTCGTGGTCAGCATCGTGATGTCGCTGTTCCGCAGGTAA	MGRDFGPLLVTVGLLVVLVGVLAWTGGLSWFGRLPGDIRIERENTRVYIPLVSMLLVSVVVSIVMSLFRR				NA	NA	NA	NA	NA
D1-29_04083	180			hypothetical protein	ATGAACTATTACAGCCCGGCGGCGCAGGAACGGGTTCGGGACGCCGCATACGATGCAGTCGAAAAGGTCCTCAACAGCATCTTCGAGCCGTTGAACCGGCATGCGCTTACAGCACGCTGGCATCAGGCATGCGAAGCCATGGAAAAACACCTGGAAGCGCAGGACAACGGCGACGAGTAG	MNYYSPAAQERVRDAAYDAVEKVLNSIFEPLNRHALTARWHQACEAMEKHLEAQDNGDE				NA	NA	NA	NA	NA
D1-29_04084	573			hypothetical protein	ATGACGGCAACCTACCGGTACGACATGGAGGTTCTGCACCTCCTCGTGTCGCCTGCGCACGCCTACTTCGGCCGGGCACGCGAAGGGGCGGCGGATGTCCCCACCGCCGACGCCGAGCAAGCGGAACTGGTTGCCGGCAAGGGCATTGTGGGAGACAGGTTCTTTGGCAAGGCCGCGCACATGGATGCCGCAGTCACCCTGTTCGCGGTGGAGGCTCTGGAAGCGATCGCCGCCGAGCTGGGGACGGCGCCTCTTGATCCACTGCTGACGCGGCGCAATGTGGTCCTCCGCGGTGTGCAGTTGGCTCCGCTGCTGGGTCAGGAGTTCTCGCTGGAAACGCGCGGGGACCTGGTACGGCTGAAGGCCGGGCGTCCCGCCAACCCCTGCGCGTGGATGGACCAGATGCTGGCGCCGGGAGCGCACAAGGCGATGCGGGGACGGGGCGGTGTGCGTTGCCAAGTGATCTCAAGCGGGATTCTGCACCGCGGGCCTGCCGTGCTGACCAGCCCGGTGCCGCTTGAGCCTGAGCGTGCCGGCGAGCCCACGTTGTTGCGGCCATCGCGGTTGCCGTAG	MTATYRYDMEVLHLLVSPAHAYFGRAREGAADVPTADAEQAELVAGKGIVGDRFFGKAAHMDAAVTLFAVEALEAIAAELGTAPLDPLLTRRNVVLRGVQLAPLLGQEFSLETRGDLVRLKAGRPANPCAWMDQMLAPGAHKAMRGRGGVRCQVISSGILHRGPAVLTSPVPLEPERAGEPTLLRPSRLP				NA	NA	NA	NA	NA
D1-29_04085	4104	dltA		D-alanine--D-alanyl carrier protein ligase	ATGGTGAGCTTCCCAGTGCCGGTTAAGCCCGCGGCCGCCTCGGCCGTCACCGGCGGGAACGGGGCGGCGCCGATCCACAGCCCGCAGCTGCCAGGGGTCCTGAAGGCACCCCCTGTACGCACCCTGGTGGAGATTTTCGAAGCGACTGTGGCGGCTTATCCGGATTCCTCCGCCCTCGACGACGGCCGCGTGTGCCTCAGTTACGCCGAGCTGCAGGCGGAGGTGAAGGCGTACGCCGGCCGGTTGCGAGGTTCCGGCATTGGCGCCGGGGACAGGGTGGGGGTGCGGATCCCGTCCGGCACCAACGAACTGTATGTGGCGATACTTGCCGTCCTGTTTGTTGGAGCCGCGTATGTCCCCGTGGATGCGGATGATCCGGATGAACGGGCCAGGCTTGTGTTTGCCGAGGCCGGGGTTTCCGCCGTCCTGGGCGCCGGCGGCATCCAGGACGCTCTCGAATCCGGAGCCTCACGTCCCCCTGGCGGCCCCCATCAATCTGGCGACTCCGGGGCGAAGCCGCGTTCGGCCAGCCCCGATGATGATGCGTGGATTATCTTCACCTCCGGGTCCACCGGTACCCCGAAGGGCGTGGCGGTAACGCATCGCGCTGCCGCGGCATTCGTGGATGCCGAGGCCAGGCTGTTCCTGCAGGAGGAACCGCTGGGCCCTTCCGACCGTGTGTTGGCCGGCCTGTCAGTAGCTTTCGACGCTTCCTGCGAAGAGATGTGGCTCGCGTGGCGGCACGGGGCCTGCCTGGTGCCGGCCCCCCGCGCCTTGGTACGGACAGGAATGGACCTGGGTCCGTGGCTTGTCACCAAGGGCATCACTGCTGTCTCCACAGTGCCAACACTGGCGGCGCTCTGGCCGGTGGAGACGCTGGACGCAGTGCGGCTGCTGATCTTTGGCGGTGAAGCCTGCCCGCCGGAGCTGGCAGCCCGCCTCGCCGTGCCGGAACGCGAGGTGTGGAACACCTATGGACCCACCGAGGCGACTGTGGTGTCCTGTGCAGCACTCATGGACGGATCCGGGCCCGTGAGAATCGGCCTTCCGCTGGATGGCTGGGACCTGGCCGTCGTGGACGCCCATGGGATACCCGTCTCCGAGGGCAATGTCGGAGAGCTCATCATTGGCGGAGTAGGACTGGCCAGGTATCTGGACCCGGCCAAGGATGCGGAAAAGTTCGCCCCCATGGAAACTCTGGGATGGAAGCGCGCCTACCGCAGCGGCGACTTGGTGCGCTTTGAACGCGAAGGACTTCTGTTCATGGGCCGGGCCGACGAGCAGGTCAAGCTCGGCGGGCGGCGGATTGAGTTGGGGGAAGTCGATTCCGCCCTGCAGGCACTCCCCGGGATCCACGGCGCCGCCGCCGCGGTGAAGAACACCGGTGCCGGGCACCAGGTCCTGGTCGGCTACCTCGCCCCCGGGCCGGGCGTAGAACCCGACCTTTCCGCTTTCCGTGACCTGCTGGCCCAGACGTTGCCGGCCGCGCTGGTTCCCATGCTGACCGTCGTCGGATCCTTGCCGGTAAAGACCAGCGGCAAAGTGGACCGGGCCGCGCTGCCGTGGCCCCTCATATCTCCCGGCGAGGAAAGCACTGGAACGGCGTCCCTGGATCCGGTTGCCGCGTGGATCGCGGAGCAGTGGACAGCGGTCCTGGGCACGGCACCGGAAGGCCTGGAGGCCGACTTTTTCGCGCATGGCGGTGGCAGCCTGGCCGCCGCCCAGCTGGTGTCTGCCCTGCGGACGCGATACCCGACCATCGCCGTCGCCGATATCTATTCCCGGCCCCGGCTGGGAGCCCTGGTAGAACTGGTCCTGGCATCTGGCGATGAAGCGGCTGCTTTTCCTGCCCGTGAGCGAACCGTCAGGCCGACGGCGCTGAAATCCCAGATCTTCCAGGTCCTGATCAGTGCGCCGCTGCATGTCCTGGTTGGGATGCGGTGGCTGACTTACCTCATGGCCGCCAACAACCTGCTGTCCATGCTGGGGCTTCTCACTGCTGCACCCACCGTTTCCTGGTGGTGGGTACTTGCTTCCTGGGCAGTGTTCGTCAGTCCTTTGGGCCGCATGGCACTTGCCGCGGCCGCAGCCCGGATACTCCTGCGTGGTGTTGTGCCGGGCGCCTATCCCCGCTCGGGCAAGGTGCACCTGAGGCTGTGGCTGGCGGAACAGATCGCTGACCTCACCGGAGCTGTCAGCCTCGCCGGAGCACCGTGGATTCCGTACTATGCCAGGGCATTGGGCGCGAAGATCGGCCCGAATGTCGACCTCCATTCCGTGCCTCCTGTCACCGGGATGCTCTACCTCGGCCCTGAGTCCTCGGTTGAGCCTGAAGTGGATCTGTCGGGCTGGTGGATCGACGGCGACCTGGTCCACATCGGACGCATCCATGTTGGCCGGGGCGCGACTATAGGCTCCCGCAGCACACTGATGCCCGGTGCCCGGGTGGGAGCCGGCGCTGAAGTGGCCCCCGGCTCCGCGGTTCTGGGAAAGGTGCGGGCGAACCAGCATTATGCAGGGTCACCGGCCGTACGGCGAGGCAAGGCCCGCCCAAGCTTTCCTGCAGAGCCGGCCCGCAGCCGCGGCTCCCGTCTTTGGTTCCCGGCGTACGCTGCCGGTTCCACTTTGCTCGCAGGGATCCCGCTGTGCTCAGTGGTGGCTGCCGCCGCGGTGGTCGCCTGGGCAGTTCGCGGCCAAGGTTCCCTGGTGGAGGCCTGGCCGGTTGTGCTGGCGGCTGTGCCGTTGGCGGCCGCCGTCTGGTTCATCACCAACCTCCTGCTCACGGCAGGCCTGGTCCGCATCCTTGGGATGGGGCTGAAGGAAGGCCACTACCGGGTACGAAGCCTGACTGGATGGCGGATCTGGGCCACGGAGCGGGTGCTCGATGCGGCCCGGGACCTGCTGTTTCCCATCTACGCAAGCCTGTTCACCCCGGTGTGGCTCAGGATGCTCGGCGCCAAGGTTGGCCGGAACGTCGAAGCGTCCACCGTGCTGCTCCTTCCGTCAATGACCACGGTTGGCGACGGCGCCTTCCTCGCCGATGACACCATGATCGCCTCCTACGAACTTGCCGGCGGCTGGATGAAAGTGGCTCCCGCGAAGATCGGCAAACGCGCGTTTCTGGGGAATTCCGGAATGACCGGTCCCGGCCGCAGCGTGCCCAAGAATTCCCTCGTCGCGGTGCTCTCCGCAACACCGGCCAAGGCCAAATCCGGGACGTCCTGGCTGGGCAGCCCTCCCGTCCGGCTCAGGAGGTCAAAGCTCGACGCCGACCAGTCACTGACGTTCGATCCTCCCCTTCGGCTGAAGCTCTTCCGCGCGTGCTGGGAACTGTGCCGGGCGATTCCGGTGTTCCTGACAGTGGGTATTGCCGCAGGAGTCCTGCTGGCTCTGGATCTGCTGGCCGGCAGCACCGGCGGCTACGTCACGGCGGCTCTTTTGGGCGGCGTCATCATCGTGGCCGCAGGTGCCGTGGCAGCGGCGGCCTCCGTCGTCGCCAAATGGCTCCTTGTGGGGCGAATCAAGGCCGGAGAACATCCGCTGTGGAGTTCCTTTATCTGGCGCAACGAGGTGGTGGACACCTTTGTCGAGATGGTCACAGCGCCGTGGTTCGCCCGGTCCGCAACAGGCAGTCCTGCACTCGTCTGGTGGCTGCGCGGGCTGGGTGCGCGAATCGGCTCCGGCAGTTGGTGCGAAAGCTACTGGCTGCCTGAAGCAGACCTGGTCACTCTGGGTGAAAACTCCACGGTCAACCGCGGCTGCGTGATCCAGACCCATCTCTTCCACGACCGAGTCATGAGCATGGCCGAGGTCACCCTCGAGGACGGTGCCACCATCGGTCCGCACGGCGTGATTCTGCCGGCGGCACGCATCGCCGCCGGGGGCACCGTCGGCCCGGCGTCCCTGGTCATGCGCGGCGAAACCGTCCCCGCAGGCAGTTATTGGATCGGGAATCCTGTCAGCCCCTGGTCGGGAGGGCCATCGACCCCGACGGCGCCAGCCCCTCAGCCGGCGCCTGTCCCTGAGCCAGCGCCAGCCCCTGGGCCCGATGGTCAGACGCCCGGCCCCGCCGCCAGCCCCGTTCCTGGGCAAGGCCCAGTATGA	MVSFPVPVKPAAASAVTGGNGAAPIHSPQLPGVLKAPPVRTLVEIFEATVAAYPDSSALDDGRVCLSYAELQAEVKAYAGRLRGSGIGAGDRVGVRIPSGTNELYVAILAVLFVGAAYVPVDADDPDERARLVFAEAGVSAVLGAGGIQDALESGASRPPGGPHQSGDSGAKPRSASPDDDAWIIFTSGSTGTPKGVAVTHRAAAAFVDAEARLFLQEEPLGPSDRVLAGLSVAFDASCEEMWLAWRHGACLVPAPRALVRTGMDLGPWLVTKGITAVSTVPTLAALWPVETLDAVRLLIFGGEACPPELAARLAVPEREVWNTYGPTEATVVSCAALMDGSGPVRIGLPLDGWDLAVVDAHGIPVSEGNVGELIIGGVGLARYLDPAKDAEKFAPMETLGWKRAYRSGDLVRFEREGLLFMGRADEQVKLGGRRIELGEVDSALQALPGIHGAAAAVKNTGAGHQVLVGYLAPGPGVEPDLSAFRDLLAQTLPAALVPMLTVVGSLPVKTSGKVDRAALPWPLISPGEESTGTASLDPVAAWIAEQWTAVLGTAPEGLEADFFAHGGGSLAAAQLVSALRTRYPTIAVADIYSRPRLGALVELVLASGDEAAAFPARERTVRPTALKSQIFQVLISAPLHVLVGMRWLTYLMAANNLLSMLGLLTAAPTVSWWWVLASWAVFVSPLGRMALAAAAARILLRGVVPGAYPRSGKVHLRLWLAEQIADLTGAVSLAGAPWIPYYARALGAKIGPNVDLHSVPPVTGMLYLGPESSVEPEVDLSGWWIDGDLVHIGRIHVGRGATIGSRSTLMPGARVGAGAEVAPGSAVLGKVRANQHYAGSPAVRRGKARPSFPAEPARSRGSRLWFPAYAAGSTLLAGIPLCSVVAAAAVVAWAVRGQGSLVEAWPVVLAAVPLAAAVWFITNLLLTAGLVRILGMGLKEGHYRVRSLTGWRIWATERVLDAARDLLFPIYASLFTPVWLRMLGAKVGRNVEASTVLLLPSMTTVGDGAFLADDTMIASYELAGGWMKVAPAKIGKRAFLGNSGMTGPGRSVPKNSLVAVLSATPAKAKSGTSWLGSPPVRLRRSKLDADQSLTFDPPLRLKLFRACWELCRAIPVFLTVGIAAGVLLALDLLAGSTGGYVTAALLGGVIIVAAGAVAAAASVVAKWLLVGRIKAGEHPLWSSFIWRNEVVDTFVEMVTAPWFARSATGSPALVWWLRGLGARIGSGSWCESYWLPEADLVTLGENSTVNRGCVIQTHLFHDRVMSMAEVTLEDGATIGPHGVILPAARIAAGGTVGPASLVMRGETVPAGSYWIGNPVSPWSGGPSTPTAPAPQPAPVPEPAPAPGPDGQTPGPAASPVPGQGPV				NA	NA	NA	NA	NA
D1-29_04086	1671			hypothetical protein	ATGACCCTGCCCGCCGGCGCCCCGGGCACAGTCGGCTACGATGAGCGGGTGAGCCGACCTTTTGCTTCCCCCGAACAGGGCCGGACACTCACCGGGGAACCCCTGCCGGATTCCTACACTCCAGGTCACGGCTCCGCAGACTTCAGCGTTTCACGGTATGAGCTGTACCTCGACTACCGGGTGGCCACAAACCGCCTGGACGCCCACGTAACAGTCGCCGGGACCGCCATCTCCCGGCTGCAGTCCGTCATGCTGAACCTCTCCGGCCTGCAGGTCATCAAGGTGAGGGTGGATGGCAAGCGCCCGGCACGGTTCATCCAGCGCGAGGGCCGCCTTGTTATCACTCCGGCAGCGCCTCTCGCCCCGGGATCCGAATTCAGTCTGGACATCCGCTATGAGGGCCGGCCGGGGCCCCTGCGCGGAAACTGGGGCGACGTCGGCTGGGAAGAACTAACCGACGGCGTCCTCGTCGCCGGGCAGCCCACAGGAGCACCATCCTGGTTTCCCTGCAACGACCATCCCAGCCGCAAAGCCAGCTTCGGATTCACCGTCACCACGGACATGAACTACCAGGTGGTCTGCAACGGGACCCTGGTGTCCAGGCATTCGAAGGCCAGCCGCGAAACCTGGGTTTATGAACAGGCCGAACCCCTGGCGACTTACCTCGCCACCGTACAGATCGGCCGCTACGATATCGTTCCCCTAGCGGGGAGCGCCAGTGGAACGGGAGCCGCAATCGCGGGTGCGGGACCCGCCGTCGCGAATGGCGGAGCCACAATCAGAGCGGCGCGGGCCGCCGTCGGGGATATACCAGTCACTGCCATACCTGCCACCGGAGCCGCAATCACGAGTGCGGGAGCCGCCGTCGGGGGCAGTGGGGTGCCAGTCACGGGTGCGGGAGCCGCAATCACGAGCGCGGGAGCCGCCGTCGGGGGCATACCAGCCAGAGCCATCCCAGTCACAGCCATACCCGCCACCGGAAGCGGGGTCCGGCAACTCGTTGCGGCTCCGGCGGTGCTGATGGACCGGGCGCAGGAAGCGCTCGTCCGGCAGCACGAGATGATGGCGACGTTCGAAGCCTGCTTCGGGACGTACCCCTTTCAGTCTTATACCGTCGTCGTACCGGATGACGAACTGGAGATTCCCCTCGAAGCGCAGTCACTGTCGATTATCGGCCGTAACCACCTGGATCTGCGGTGGGAATCCCAGCGGCTGATCGCCCACGAACTGGCGCACCAATGGTTTGGAAATTCATTAACGGCCTCCTCCTGGAAGGACATCTGGCTCCACGAGGGGTTCGCCTGTTACGCCGAATGGCTGTGGTCAGAAGCATCCGGGCAAGGATCGGCGGCAGCCCGGGCAGAAGCTGCCTGGGAAGGCCTCGCATCCAAACCGCAGGATCTGCGGATCGGAGATCCCGGCCCGGAACTGATGTTCGACGACCGTGTTTACAAACGGGGTGCACTGGCCCTGCACGCCTTGAGGACAGCGGTGGGCGATGCCCTCTTTTTCGGCCTTCTCAGGGCTTGGACCGAACGAAACTGTTTCGGATCAGTGTCCACCGGAGATCTGACCGAGCTGGCTCAGGAACTTTGTGGGAGTGTCCCCGGCTTTGACGCCGAGGGGATTCTTCATCCCTGGCTATACGAATCAGTTCTGCCGCAACGCTAA	MTLPAGAPGTVGYDERVSRPFASPEQGRTLTGEPLPDSYTPGHGSADFSVSRYELYLDYRVATNRLDAHVTVAGTAISRLQSVMLNLSGLQVIKVRVDGKRPARFIQREGRLVITPAAPLAPGSEFSLDIRYEGRPGPLRGNWGDVGWEELTDGVLVAGQPTGAPSWFPCNDHPSRKASFGFTVTTDMNYQVVCNGTLVSRHSKASRETWVYEQAEPLATYLATVQIGRYDIVPLAGSASGTGAAIAGAGPAVANGGATIRAARAAVGDIPVTAIPATGAAITSAGAAVGGSGVPVTGAGAAITSAGAAVGGIPARAIPVTAIPATGSGVRQLVAAPAVLMDRAQEALVRQHEMMATFEACFGTYPFQSYTVVVPDDELEIPLEAQSLSIIGRNHLDLRWESQRLIAHELAHQWFGNSLTASSWKDIWLHEGFACYAEWLWSEASGQGSAAARAEAAWEGLASKPQDLRIGDPGPELMFDDRVYKRGALALHALRTAVGDALFFGLLRAWTERNCFGSVSTGDLTELAQELCGSVPGFDAEGILHPWLYESVLPQR				NA	NA	NA	NA	NA
D1-29_04087	687			hypothetical protein	ATGGCTAACGTGCGCGATACGGAAATAGGAGGGGCTCTAGTCAGGGCGGCAGCCTTGGCGGCCCCCGGCCTTGCGGAGTTAAAGCTGCTTGACGCCTCCGAACACCGCCGCGCCGCTTCTTTCCATAAGCCCACAGACGCTGCTGAATTCCTGGCCGGGAGACTGGCGCTGCGATTATTCGCTGCAGAGCTGGCTGGTACTTCGCCCGCAGCTTTGGTGGCGGCCTACAGGTGCAGCCGTTGCGGCGGAGGAGAAGGGGACCATGGCCAACCAGGCTATGTGCTCCAGGATGGGGGAGCGGGTCCTCTACTGAGCCTGAGCCGGGCGGGCGGGTGGGTTGTCCTAGCCGGCGCCGGCAGCGACGGCGGCAGCCTGAGCGGAATAGGCGTAGACGTGGAGCAGGCCGGCAGAACAGCATTCCCCGGCTTCGACGCAGTTGCCCTGACTCAGCGGGAACGCACTAGCCTGGCGCCTTCCACCACATCAGAAGGGCGTAGCCAGCGGGCGCGGTTCTGGACCCGGAAGGAAGCTTTCCTTAAGTCGATCGGCGAGGGGCTGGGACGGGACCCCGCAACATGCGACGTAACCGCGGAACGCCTTGAAGGAGTCTTGCTGGCCGATGTGGACCCGGCGCGCCTAGGGCTCCCCTCGGGAACTGTCGCAGCCTTAGCGTTGCGGCAGAACTGA	MANVRDTEIGGALVRAAALAAPGLAELKLLDASEHRRAASFHKPTDAAEFLAGRLALRLFAAELAGTSPAALVAAYRCSRCGGGEGDHGQPGYVLQDGGAGPLLSLSRAGGWVVLAGAGSDGGSLSGIGVDVEQAGRTAFPGFDAVALTQRERTSLAPSTTSEGRSQRARFWTRKEAFLKSIGEGLGRDPATCDVTAERLEGVLLADVDPARLGLPSGTVAALALRQN	PGPT0008845_2148	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_METABOLISM	PLANT_VITAMIN_B5|PANTOTHENIC_ACID|CO_FACTOR_BIOSYNTHESIS,PGPT0008845-LYS5|acpT-K06133	NA	NA
D1-29_04088	861		COG3662	putative protein	ATGCCGGTCCACGGGAAAGTCAGCCCATGGGCAGGGAACTCAGCAGTCGGCGTCGCCCGCTTTTGGCCTCTCCGGTACCCTGTTGAAATGGTGGGTGGAAATGCCGACATGGGTGCCGAAGGCATCCTGCTCGCAGGGGCGGGCCGCGCCATTTTGCTGCAGCTCGCCAACCCTGCCGTGGGCCACGGCGTCGCTGATCACAGCAACTTCGTTGACCGTCCGCTGGACAGGTTCCTGGCCACCGTAACCTACGTGTATGCCGTGACGTACGGCGACGAGGAGCAGGTGAAGGCGGTGCGCCGGAAGGTCAATCATGCCCATGCCCGGGTTCGCCGCAAACCTGACGGCAGCTCCGCAGGCTACAACGCGTTCGATCCGCAATCCCAGCTGTGGGTGGTGGCAACCCTCTACGACACAGCAGTCACTGTTTACGAACGAATTTACGGCCCGCTGGAAGACGAGATGGCGGAGAGCGTCTACCGCGAGTACGCCAAACTGGGGACAGCCCTTCAGCTGCCGCCGGAGCTCTGGCCGGCGGACCGTGCAGCCTTCCGCACGTACTGGAATGAGCGCGTACAGACGCTGAAGCCCGACGACGTCACGGCCCGGGTGGCCCGCGATCTCCTGTACCCTCCAACGGGTCCGCTCTGGCTTCGCCTGAGCATGCCCCTGGTCCGGTTCATCACCGCAGGACTCCTGCCGGATCACCTCCGGGAAGGCTTCGGATTGCCGTGGACCGCGCGGCATCATCGGCAGTTCGACCGGACGATGCGAGCCGTTGCGGTGGTCTATCCGCGGCTGCCGCAACGCATCCGGCACTGGTTCAAGAACTACTCCCTTAGACGGCTCAGCACGGCTTAG	MPVHGKVSPWAGNSAVGVARFWPLRYPVEMVGGNADMGAEGILLAGAGRAILLQLANPAVGHGVADHSNFVDRPLDRFLATVTYVYAVTYGDEEQVKAVRRKVNHAHARVRRKPDGSSAGYNAFDPQSQLWVVATLYDTAVTVYERIYGPLEDEMAESVYREYAKLGTALQLPPELWPADRAAFRTYWNERVQTLKPDDVTARVARDLLYPPTGPLWLRLSMPLVRFITAGLLPDHLREGFGLPWTARHHRQFDRTMRAVAVVYPRLPQRIRHWFKNYSLRRLSTA				NA	NA	NA	NA	NA
D1-29_04089	1776			hypothetical protein	TTGGCCCGCGACTTCGAGGGCAGCGTTATTGTCAGACCCTGCTGGGATGCTTTTCTTATGGACAGCACGGGGGCTTGGACAGCGGGGAGCGGGGCGGGCTTGGAGGCTGCCACCGGTCCTGGGATCGAGGATGCCCTGGCTGCTGTTGTAGCCTCCACGGCCGCCCTTGGCCGAATCATCCGGCCCCATTTGGATGACAGCACGGCTGGCCCTGGCGCCGCTGGTGAGGTGGACGCCGATCCTGTTTCGGTGCTGGACGCCGATCCGATGCAGGATTCTGATCCGTTGCGCCGACGGCTGGACGCTTACCTGAATGCGCTGGCCGAGGTTGGCCGCGCTGAGGCAAAACATGCGGCGCTGAAGGTACATCTGGCCGCCGGAATCGCCGAGCTGGAAGAGGCCATCGCCACCCCGGCGGTGACCGCGCAGGACGCCACGGCGCAGGAAATGTCGGTGATCGCGGAGGTCGCGTGCGCCCTCACAGTCAGCGAACGCACCGCGGGTGCGCTGATCTCTGAATCCCAGGCCCTGACCAGCATCCTGCCGCAGACCTTGTCCGCGCTGCAGGAAGGCAGCATTTCCTGGCAGCACGCCCGGATTATGGTTGACGAAACCAACAACCTGGACCCGGACGGGGCGGCGGCGTTGGAGGCACATTTCCTGGACCCCGGAGCACCCAATCCTGCCCGCGGAGTCGCGGCCGGTGAACTCGTCCCGTCCCGCTTCCGCGCCAAGGCCCGTACCTGGCGCGAACGCCACCACCCCGTCTCCATCGAGAAGCGCCACGCCAAGGGAGTCCAGGACCGGCGGCTGGAGTACCAGCCGGACCGCGACGGCATGGCCTGGCTCGCCGCGTACCTCCCGGCCGACCAAGCCTCCGGGATCTGGGACCGGACCACCACCGCCGCCCGCGCCCTGCAGGGCCCGCACGAGAACAGGACCCTCACCCAACTCCGCGCCGACGTGGCCGCCACCTGGCTGCTCACCAACAACACCAGCGGCAGCCTCACCGCGCCTATGGCTGGTGGAGGAACCGATCGCAGACGAATTGCCGGCGGCATTGACGACCGCACGATGGGCGCCACCAGCACTAATAGCAGCATCGGCGGCACCGGAACGGGCAACGGCACCAGGCTCGAGACCGGCATCGCCGGTGCTGTGCCGTCGCCAACGGCGCAGGTCCTCATCACCGTGCCGGTCATGGCCCTCCTGGGCGCCACCGACGAACCAGCCACCCTGGACGGTTACGGGCCTATTCCACCGTCCATGGCCCGCCGCCTCGTCAGCGACGGCGCCACCTCCTTCATGCGGGTCCTGACAGACCCCCGCGACGGCGCACCTCTGGAAATCGGCCGGACCAGCTACCGCATCACCAAAGCGATGCGTCAATGGCTCCGGCTCCGGGACGGCAAATGCCCCTTCCCCGGCTGCAACAACCACTCCCTGGACAACGAAGCAGACCACCTCCTCGCCTGGGCCCGAGGCGGCACCACCGGCATAGCCAACCTGGGACAGCCCTGCCCAAAACACCACAGACTCAGACACACCACGGCCTGGACCCCAACCAGCGCCACCAAAAACAAACCACCCGGCTGGACCTCCCCAACAGGACGCCATTACCGCAGCGAACAACCCGACTGGGAACCACCCCACTGGCCCAGTGAACCCGGCCGGACTTCCCTCCACTCCGACGTGGACTTAGACGTGGACTCAGCCATGCAGCGGGATCCTGAGATGAGGCTGCAGCGCGATCTTGGGGATGCGGCCGGAAAATGA	MARDFEGSVIVRPCWDAFLMDSTGAWTAGSGAGLEAATGPGIEDALAAVVASTAALGRIIRPHLDDSTAGPGAAGEVDADPVSVLDADPMQDSDPLRRRLDAYLNALAEVGRAEAKHAALKVHLAAGIAELEEAIATPAVTAQDATAQEMSVIAEVACALTVSERTAGALISESQALTSILPQTLSALQEGSISWQHARIMVDETNNLDPDGAAALEAHFLDPGAPNPARGVAAGELVPSRFRAKARTWRERHHPVSIEKRHAKGVQDRRLEYQPDRDGMAWLAAYLPADQASGIWDRTTTAARALQGPHENRTLTQLRADVAATWLLTNNTSGSLTAPMAGGGTDRRRIAGGIDDRTMGATSTNSSIGGTGTGNGTRLETGIAGAVPSPTAQVLITVPVMALLGATDEPATLDGYGPIPPSMARRLVSDGATSFMRVLTDPRDGAPLEIGRTSYRITKAMRQWLRLRDGKCPFPGCNNHSLDNEADHLLAWARGGTTGIANLGQPCPKHHRLRHTTAWTPTSATKNKPPGWTSPTGRHYRSEQPDWEPPHWPSEPGRTSLHSDVDLDVDSAMQRDPEMRLQRDLGDAAGK				NA	NA	NA	NA	NA
D1-29_04090	207			hypothetical protein	ATGATCCCCATCCTGATCTGGACCCGGATCTGGACTTTGACCGGGACCAGGACCTGGACCGGGACCTGGACCTGGACCTGGACCTGGACCTGGACCTGGACCAGGCTCTACCGGTCGACCCTTTTCCTGAATGGCGTCTTTGGCCTGCACCAGAGCCGGATGATCACCTGTGCTGGCTGCCTGAATACGCTCCGCCAGACGAACTAA	MIPILIWTRIWTLTGTRTWTGTWTWTWTWTWTWTRLYRSTLFLNGVFGLHQSRMITCAGCLNTLRQTN				NA	NA	NA	NA	NA
D1-29_04091	249			hypothetical protein	ATGAGCGACTCTGGAGCTGATACCGCTGGTGTCCCGTTCGACAGTGATGACGACGACCTGGTAGACGTTGCCGGCCCTGAGACTGTCGAAAGCATTGCCGAGGATGTCCGTGACGATATCCGGCTGGGCCACATCCAGGATGACGTAAGCCATGTCCTTGAGGAACGCTTCCGCAAGGCAGGCATCAACCTGCGCCCCGAAGAGATAGACGACCTCGCCGAAGAAATCGAAAGGGACGTGTCCATCTAG	MSDSGADTAGVPFDSDDDDLVDVAGPETVESIAEDVRDDIRLGHIQDDVSHVLEERFRKAGINLRPEEIDDLAEEIERDVSI				NA	NA	NA	NA	NA
D1-29_04092	852			hypothetical protein	ATGCTCCCCACCAGAATTGAAATCGTCCCGTCCGCGGGAATTGTTGAGCGGGTCAACGCCTTGGTACCGCTGACCACAACGCTCACGGTGACATGCCTTCCGCACCACGGCATCGAGCGGACCATGCGGACCGCCGTGGAGCTGAGCGTCCTCGGATACACGGTGATTCCGCACCTAGCGGCGCGGAGCCTGCGCGACCGTGCCGATCTCACCCGCATCATTCGTGAGTGCGATGCCGCCGGCATCTGCGAGGTGTTCGTGATGGGTGGAGACCGGAAGCAGCCGGCGGGGGTCTATGGAACGGCTCTTCCGGTGCTGGAGGACATCGCGCAATATTCCGGCGGGATGCTGCGGGCAGGCGTCGCAGGATATCCGGAAGGGCACCCGTTGATAGGTCCTAAGGATGTGCTCGATTCCCTCCTGGCCAAGCAGAGCCTGGCCTCGCACGTGGTTACGCAGATGTGCTTTTCCGCGGAGAAGATTCACGATTTCGCGGCCGTCCTGCGGCGCGAAGGCGTGGAGCTCCCCATCTGGGCGGGGGTGGCGGGGTCCGTGCCGCGGACAAGGCTGATCTCCCTGGGGACACAGATCGGCGTCGGAAGTTCGCTCAAATTCCTGAGCCGCAAAGGCCCGCTAGCCCGCAAGCTCCTGAGCGGCGACCGCTATTCACCACAAAACCTGATGTCTGGGCTGGAAAGCCCGGCCGGCGCGATCGCCGGCATCCACCTCTACAGCTTCAACAGCCTCGACTCGATTCCCAGCCAATCCCTGCCCGGGCTGGGCCAGGCATCAGCACCCACTGCACTCCAGACAGCATTGGCTCGGGGAAGAGCACGTGACGATCGAGAGTAA	MLPTRIEIVPSAGIVERVNALVPLTTTLTVTCLPHHGIERTMRTAVELSVLGYTVIPHLAARSLRDRADLTRIIRECDAAGICEVFVMGGDRKQPAGVYGTALPVLEDIAQYSGGMLRAGVAGYPEGHPLIGPKDVLDSLLAKQSLASHVVTQMCFSAEKIHDFAAVLRREGVELPIWAGVAGSVPRTRLISLGTQIGVGSSLKFLSRKGPLARKLLSGDRYSPQNLMSGLESPAGAIAGIHLYSFNSLDSIPSQSLPGLGQASAPTALQTALARGRARDDRE	PGPT0008160_3877	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008160-metF-K00297	NA	NA
D1-29_04094	345			hypothetical protein	ATGATTACTTCCTGCAAGGCCTTAGTTGTCCCGGCCAGACTGTCCCATCCTGTGCACATCAAGCCCGTTGAGCTGGATCTGCCGGCACTGCAGCGCGTGGCCGCGGGAGAAATTGGGTTCATCGTTGGCGAGACGTGGCATGTGTACCTCGACAACAACGGAAGCCGAACCGCCCAGAATATGCGGGCAGAGGTCCTTATTCGCGAAGCGGGCGTCGATCTGGAGGACACCGTCCACGGGACGGCGATCTTCCTTGGCCACCGAAACGGGGGCGAAGATACTGACGCTCCCCACCAGCTCATCCGGCTCGCCGAAGAACTCTTCGACGTGCCGCTGGCCGCGTAG	MITSCKALVVPARLSHPVHIKPVELDLPALQRVAAGEIGFIVGETWHVYLDNNGSRTAQNMRAEVLIREAGVDLEDTVHGTAIFLGHRNGGEDTDAPHQLIRLAEELFDVPLAA				NA	NA	NA	NA	NA
D1-29_04095	135			hypothetical protein	ATGTCAGGAAAATCCCCCAAAAGCAGCGCAGCCAAGAAGGTTGGCAAATCGATTCTCGAAAAGCGGGCCGACAAAAAGGCAAAAAGCGAAAACAGCGAGATTAATTCTATAAAGCCGCGCAAGAACCAGCGCTAA	MSGKSPKSSAAKKVGKSILEKRADKKAKSENSEINSIKPRKNQR				NA	NA	NA	NA	NA
D1-29_04096	1191	rcsC_2		Sensor histidine kinase RcsC	GTGGGGGAATCTTTTCCGGTGGTTCCGGGGCCGGTCCAACGACAAATGGTGGGGCCGCAGCCAGTGGCGGAACCGTCTGCGATTCCCGGTTCGGATGGCCCCCTGCCGGTTATGACGGTGCTGGTGGTGGATGACGACCCAGGCTCCCTGTTGGTTGCCAAAGCCGCCGTGGAAAAGTCCGGCCATCACTGCATCGTTGCCTCCGATGGGGATATGGCGTGGCAGCTGTATCAGGACCACCATCCCGAGGTGGTGGTTACGGACCTCATGATGCCCGGGCTCAACGGGTTTGACCTGTGCCGGACCATCCGCGCCTCAGAGTCCGGGTCCTATGCCTACCTGGTCCTGCTGACTTCGCACGGGGCACGGGAGGACGTCCTGGAAGGGATGAAGGCCGGGGCCGATGATTATGTGACCAAACCGCTGGACCCCTTCATCCTGCACACCCGGCTGCTGGCTGCCAGGCGGGTCACCACCCTTCATGGCGCCCTGGCCGAAGCTCTGACTGAGACCAGGGGCAGCAATGAGCGGCTGGCCGAGTTCACGGGCAGGGTCAGCCACGATCTCCGCAATCCCTTGACGTCAATCCTCGGTTACGTGGAGCTCGGTTCCATGGAAACGGATACCGACTCAGCCGCCGAGTACCTCGAGGTGGTCGGCCACAGTGCGCGGAGGATGCTCTCCATGGTGGAGGAACTGCTCACCTTCGCATCCATTGGTGGCTCGTTGGTCAGGTCCCGGCTATCACTGGCAGACCTCGTGAAGGATGTCGCCGACGACCTGAACCTTGGGTTGAGGGAAGCCGGGGCGGTGGTGGAGTGCGAGGACTTTTACTTCGACGCTGACGGGAGCCAGATGCGGGTGGCGCTGCAGAACCTGATCCAGAATGCCGTGGCCTACCGGCGGACGGGGGTTCCCCCGGTCATACGGATCCATGGTGACAACTTCGGGGCCGGCGTCGTCATCCAGGTGGCGGATAACGGCAAGGGAATCAGCGTGGGGGACCGACGCCGGGTGCTTGAGCCGCTGGTCCGGCTGCACCGGGAGGGGGACCCGCCAGGGTCCGGGCTGGGTCTTGCTACGTGCGCCCGGATCGCGGCCGCCCACGGCGGCCGCCTGGACATCTCCGCGAGCCAGAGCGGCGGGACGGCTGTCAGTCTCTACTTGGGACCAGCAGCACCTGGTAGCTAG	MGESFPVVPGPVQRQMVGPQPVAEPSAIPGSDGPLPVMTVLVVDDDPGSLLVAKAAVEKSGHHCIVASDGDMAWQLYQDHHPEVVVTDLMMPGLNGFDLCRTIRASESGSYAYLVLLTSHGAREDVLEGMKAGADDYVTKPLDPFILHTRLLAARRVTTLHGALAEALTETRGSNERLAEFTGRVSHDLRNPLTSILGYVELGSMETDTDSAAEYLEVVGHSARRMLSMVEELLTFASIGGSLVRSRLSLADLVKDVADDLNLGLREAGAVVECEDFYFDADGSQMRVALQNLIQNAVAYRRTGVPPVIRIHGDNFGAGVVIQVADNGKGISVGDRRRVLEPLVRLHREGDPPGSGLGLATCARIAAAHGGRLDISASQSGGTAVSLYLGPAAPGS				NA	NA	NA	NA	NA
D1-29_04097	300			hypothetical protein	ATGGGGGAAAACAAAACATCCGGGGAACACAACCTGGCCAGGCCCAGCCGACTCTCTTCCGCCGTCGTGCCTTTGGCGGGCGTCGTCGCGGTGGTGGTGGGTTTTTTGGTGGCATGGAGCAACAGGAATACCAGCATTGGCTGGTTCGCCTACGCGCCGCTGAGCAACCAGGAGTTCACCGGCAACGGCACGGCCTTTGTCAGTCAAGGGACGCAGATCGGCTTGGGAATCGCGGTCGCTGGCCTGCTCGTCCTGGCCTTTTGGGCTGGCCTCAGAATCGGCAGGAGATCCGGCTCGTAA	MGENKTSGEHNLARPSRLSSAVVPLAGVVAVVVGFLVAWSNRNTSIGWFAYAPLSNQEFTGNGTAFVSQGTQIGLGIAVAGLLVLAFWAGLRIGRRSGS				NA	NA	NA	NA	NA
D1-29_04098	192			hypothetical protein	ATGGCGGCGCGGGGGAAACCGTTGGGAACGCTGGAAGGCATCACACCGCGTTTGTCCGCGGAGCGGCTCGCACCCTACCCGGTGGTGGTGGCGCCGCGACCGGCCGCGCTGTCGGATGCGGAAATCGCCAGCCTGAAGAGCTACGTCGAGGCTGGCGGCACGCTGTTGGTCACCGGTGGTACCGGAGTGTAA	MAARGKPLGTLEGITPRLSAERLAPYPVVVAPRPAALSDAEIASLKSYVEAGGTLLVTGGTGV				NA	NA	NA	NA	NA
D1-29_04099	660			hypothetical protein	ATGGAAATCAGAGAAGTAGTGCTGCCAGCACGAGACACGGATGCCATCCAGCTCTTCTACGGACATAAGCTGGGGCTAAATGTAGTGAGTGAATCGGCCCGAGTGGCAGTAACGCTTGGAAGCACGCGATTGGTGTTCGAGCAGAGGGAGTACGAAGGCGCCCACCACTTGGCCTTCACGATCCCGACGGGCATGTTCGCGCAAGCCAAGGAATGGATCGCCGCACGGACGACTTTGCTTGGACGTGACGGGGTAGACGAGTTCGAGGGGCCCTCCAGCTGGAACTCCTGTTCGGTGTATTTCGATGGGCCTGATGGCCAGGTACTCGAGCTGATCGAGCGACGCGGGCTGCGGCAGCCGACTACGGATCATTTCGGTCCGAACGGATTTCTCTCGGTGAGCGAAGTGGGTGTGGCGGTGCCCCAGGTCCTCGCGGCGGTCGAGCTATTACACGCGAGTGGGATCGAGCCCTACGGTAGCCCGCCAAGCGAGGGGTTCGCGGCGGTCGGTGACATCAACGGCATGCTGATTCTCGTGTCCGCGGGTCGTGGCTGGATGCCCACAGCGGATCGATACGCCCAGCAAACGCCGGTTATCGTCCGCGCGGACGGGATCCCGGCAACGGAACTCACGCCGCAGCAGGTGGTCCATCCGGCATGA	MEIREVVLPARDTDAIQLFYGHKLGLNVVSESARVAVTLGSTRLVFEQREYEGAHHLAFTIPTGMFAQAKEWIAARTTLLGRDGVDEFEGPSSWNSCSVYFDGPDGQVLELIERRGLRQPTTDHFGPNGFLSVSEVGVAVPQVLAAVELLHASGIEPYGSPPSEGFAAVGDINGMLILVSAGRGWMPTADRYAQQTPVIVRADGIPATELTPQQVVHPA				NA	NA	NA	NA	NA
D1-29_04100	906			hypothetical protein	ATGGGGATGCATACCGGGCAGCACCACGTGGACGTTTCGCTAGCCAGGCGGCTGCTCCAGGAACAGTTTTCGGAGTGGTCCCAACTCCCCGTAAAGCCAGTCGACGGGCCGGGAACCGTCAACGCCATTTTCCGGGTGGGCTCGGCACTGGTAGCACGTTTCCCCCTTGTGGGGTCGGATCCGGTTGAGATACGACTGATACTGGAAGCAGAAGCGGCGGCAACCATTGAAATGGCAGCCGCCAATGTCTATCCCACACCCACACCGCTGGCCATCGGCTCTCCGGGAGGTGGATATCCGTTGCCTTGGTCCGTGCAGACTTGGCTGCCGGGGGAGATTGCCACGCCGCACAGCTCGGGTGATGGCCCTGCATTCGCCGGCGACCTTGTGACTCTGATCAACGGTTTCCGCTCTGCAGATACGAAGGGGCGTCTTTTCTCTGGTTCAGGCCGTGGCGGCCAACTGACCGATCACGATGACTGGGTGGAGAAATGCTTCCGCGAAAGCGAAAGTCTCTTCGACGTGCACAGGCTCCGGAGCCTGTGGTTGGAGTTAAGAGAGCTGCCGGGCAGCGGCCCGGATGTGATGTCACATATGGATCTCATCCCCGCCAATTTATTGGTTGGAGACGGTCGGCTCTCCGGCGTGCTGGATGGAGGCGGCTTCGGCCCGGCTGACCCTGCATTAGATCTGGTGGCGGGTTGGCATCTCCTGGATGAAGGACCTAGGAACATATTTCGCCAGTCGCTGGGCTGCGATGACATCGAGTGGAGTCGCGGTATGGCATGGGCACTCGTGCAGGCCGTAGGTCTGCTCTGGTACTACCGCCAGACCAACCCAACCATGAGCCAACTGGGACGTAGCACGCTAAGCCGCATCATGGCAGCTTGGGAAGTACCCCGATGA	MGMHTGQHHVDVSLARRLLQEQFSEWSQLPVKPVDGPGTVNAIFRVGSALVARFPLVGSDPVEIRLILEAEAAATIEMAAANVYPTPTPLAIGSPGGGYPLPWSVQTWLPGEIATPHSSGDGPAFAGDLVTLINGFRSADTKGRLFSGSGRGGQLTDHDDWVEKCFRESESLFDVHRLRSLWLELRELPGSGPDVMSHMDLIPANLLVGDGRLSGVLDGGGFGPADPALDLVAGWHLLDEGPRNIFRQSLGCDDIEWSRGMAWALVQAVGLLWYYRQTNPTMSQLGRSTLSRIMAAWEVPR				NA	NA	NA	NA	NA
D1-29_04101	420			hypothetical protein	GTGGTCGTGGTTGGGCTCGATACTGTGGCGGAGATGGCCCTGCCTACATTGGCTGACTGGACCTGGGCGCATGAGGTCCACGGTCGACTGATTGGGGCCTGGCTGGAAATGCCGATTCCTACTTTGATCGCCGAGGGACCTGAAACTCCTGAGGAGATCGAGCAGATCATGGCTCATGTTGGTCCGGATGTCAGCGTGCGGAAGGTCCTGATCACAGCGAAGTATGAAACAGCACTGGCACGGGCCGTTTCCGACCCGTCCCGGGGGCTGTCAAAGGAACCGGAATTTCTCCGGCGGATGTATCAACGGTTCGAGCGGACGCGGGCAGATATTTCCCATGACCTTGAGTTCGATACGGAGGCAATGTCCTCGGAGGACATTGCCCTGGCGGTCATCGGGGTACTTCCCAAGCTGCCATGA	MVVVGLDTVAEMALPTLADWTWAHEVHGRLIGAWLEMPIPTLIAEGPETPEEIEQIMAHVGPDVSVRKVLITAKYETALARAVSDPSRGLSKEPEFLRRMYQRFERTRADISHDLEFDTEAMSSEDIALAVIGVLPKLP				NA	NA	NA	NA	NA
D1-29_04102	1008	hcnC_4		Hydrogen cyanide synthase subunit HcnC	ATGGGTAGGCACGTAGTCGTCGTCGGAGCTGGCATCGTCGGCGCCTCGGTGGCTTATCACACCGCCCGGAGGGGCGCCACCGTAACGTTGGTCGACGCCGGGCGGCCAGGCGCGGGCGTGACGGCGGACTCGTTCGCTTGGGTGGGAGTGCCTGGCGTGCCTACCGGTCCGGCTGCCGGCTTACGGGCCACGGCGATGGAGGAGTACCGCCGAGTTGAGGCCGAGTTGCCGGGACTCCCTGTGATCTGGTCCGGCTCACTGAGCTGGCGGGCGGAGGGCGGCGCGCCGGAGGCCGGGCCCGGGCAGGAGATTGTGGACGCGGCCACCGTGATGGCGCTCGAGCCCAACCTACGGCAGCCTCCGGAGTGGGCCATATGGGCGCCGGGCGACGGCGCCGTCGACTCGGTGGGGGTGACCCGGCGGCTGGTCGCGGGCGCCCGCGCCCATGGCGCCCGGATACATGTGGACACCGCCGTCACCGCGGTCCGCCGGGATGCAGCGGGCCAGGTTGCCGGGGTCGAGACGGCAGCAGGACCCCTCTGCGGTACGACTGTGGTGTTGGCGGCCGGTGTTGCCACAGCCGCGCTGGGCTCGCCGCTCGGCGTCCGTGTCCCGGTCGAGCCATCGCCGTGCCCGCTCTTCCGGCTTCGGGCGCCGGCAGGTCTGGTCCGCACAGTGGTCAACACTCAGGACTTCGATCTCCGGCAGGTCGCCGCGGACCGGCTGATCGCCGCCGCGGACTCGCCTGAACGCACCCTTGCCGCCGTCCGATCCACTTTTCGCGGTGCCGGGAGCGTCGAGCTGCTCCGCACACGGCTCGGAGTACGCCCAATGCCGGCTGACGGCGAGCCGATCGTCGGTCCGGTCGCCGATGTACCCGGTCTCTACCTTGCGGTGATGCACGCGGCCGTCACGCTTGCCCCGGCCGTGGGCCGTCTTATCGCGCGAGAGTTGGTAGACGGCATCGCAGAATCGGCATTGTCCGGCTGCCGACCCGATCGCTTCTAG	MGRHVVVVGAGIVGASVAYHTARRGATVTLVDAGRPGAGVTADSFAWVGVPGVPTGPAAGLRATAMEEYRRVEAELPGLPVIWSGSLSWRAEGGAPEAGPGQEIVDAATVMALEPNLRQPPEWAIWAPGDGAVDSVGVTRRLVAGARAHGARIHVDTAVTAVRRDAAGQVAGVETAAGPLCGTTVVLAAGVATAALGSPLGVRVPVEPSPCPLFRLRAPAGLVRTVVNTQDFDLRQVAADRLIAAADSPERTLAAVRSTFRGAGSVELLRTRLGVRPMPADGEPIVGPVADVPGLYLAVMHAAVTLAPAVGRLIARELVDGIAESALSGCRPDRF				NA	NA	NA	NA	NA
D1-29_04103	789			hypothetical protein	ATGAACGCGGAAACAAACGCGGTGGAATTGAACCTCCCCCAAGCCTTTCTCCTTCTGGCAACAAACGACAAAGACGGCAAACCTGAGGTGCCTGTCTACGCGCTCAGGACCACTTTGGCAGGGGCAATTCTGGCCGAGCTGGAACAGATTGGTGCGATCGAGTTGCGGGGGAAGCACGTCAAAGCTACCGGCACGGCCCCCAAAACGGACTTCCAGCGCGAACTGGAGCTCATCCGCCACAAATCACGGCCGCACACACCCAAGCGGTGGGTCTCAAATCTGGAGAACCGTGCTGAAGTGCAGCGTGTCTATGAGGGTATGGCCTCATTGGGCATCGTGGAACAATCCGGCGAAAAGCACCTGGGTCTGTTCCGGACCGTGCGGTATCCGGAGAAGGACCATGGCCCGGAGGCGGCGCTCCTGAAAAAGATCGAGGCCGCCATCAGCGGTCCGCGGGCTGATGCCCCGGCCGCCGATGCCGGGGCGTCCGCCGCCGAGGCTACTGATGAGGAGACGACTGCTGCGGGGACCACGGATGCGGGGGCCACGGATGCGGGGACCTTGGATGCCACGATGCCCGAACCCGCAAAGCCTGGTGCCGAGGCACCCGATGACAGGACCTTGGCCCTGATCGCCCTGCTTCAGGCCGCCGGACTGCTCACCAAGCTCTTCCCGGGCGTAGACAGACTCTGGGCATATGAGTTGGCGAAGGACTATTGGCCGGCACGCGCGGTGGAGGACGAACTTCGTATGATCAGGCTGGCGGAGGAAGAAGCCCCAGCTTTGTGA	MNAETNAVELNLPQAFLLLATNDKDGKPEVPVYALRTTLAGAILAELEQIGAIELRGKHVKATGTAPKTDFQRELELIRHKSRPHTPKRWVSNLENRAEVQRVYEGMASLGIVEQSGEKHLGLFRTVRYPEKDHGPEAALLKKIEAAISGPRADAPAADAGASAAEATDEETTAAGTTDAGATDAGTLDATMPEPAKPGAEAPDDRTLALIALLQAAGLLTKLFPGVDRLWAYELAKDYWPARAVEDELRMIRLAEEEAPAL				NA	NA	NA	NA	NA
D1-29_04104	1038			hypothetical protein	ATGCCTTCGAAGACCCTGAAAACCACGACGGCGGCAGCCGTCCTTGCGCTCGGACTGCTTGCATCCCAGCCCGCCAACGCAGCCGAGACCACTCCCGACAGCCAGGCCTTCACGTTCGGTGTCATCGGCGACATCCCCTACGGCGATGCTGAAATCGCCAAGTTCCCAGCCCGGATCCAGGACATCAACGCCGACGACGATCTGAAGTTTGTAGCACACGTGGGCGACATCAAGAACGGCTCCTCGGTCTGCTCTGACGAGTATTTCGCCAGCATCCGGGCCCAGTTCGATACGTTCGAGCACCCGCTGGTTTTCACCCCGGGCGACAACGAATGGGTGGACTGCCACCGCACCAACAACGGCGCCTACAATCCGCTGGAACGGCTGGACAAGCTGCGGGAAGTTTTCTTCAATGAACCGGGGAAAACGTTGGGCACCAGGATGCCGGTCAAGACCCAGGAGAGCCTGGGGCTGCCGGAAAACGTCCGCTTCAGAGAGAACCGGGTGGCCTTCTCCGTTTTGAACATCCAGGGCAGCAACAACTCGCTGCTTCCGTGGAGCGGCCTGGGCGAAACCACGGCCACACCCGAGCAGCTCGCTGAGGTTGAGCACCGGACGCACGCCGTGCTGGAGCAAATCCGCGACACGTTTGCCGACGCCGAGCGCCGCAACGACCGTGCCGTGGTGCTGATGACCCAGGCGGACATGTTCGATCCGTCCCAGCTTGCCGGGGCCACCGCCAACCCTGAAGCGGTCTCCGGCTTCCGGGAGATCGTGCACGCCATCATCGAGGAAACCAACAGCTTCGACCGCCCGGTCTACCTCATCAACGGCGACAGCCACGTCTTCGCCGAGAACCAGCCGCTGGCGAATGGTTCACCCTGGCTGGACATTTACGGCCAGCCCGCTGCGGATGACCTGCAGCGCATCACCGTGGATGGATCCGCCAACGCCACCAACTATGTTAGGTTCACGGTCGCCGGCAACAGTGCCGACGCGGACGTCCTGACTTGGGAAAAGGTCCCCTTCAGCCAGTAG	MPSKTLKTTTAAAVLALGLLASQPANAAETTPDSQAFTFGVIGDIPYGDAEIAKFPARIQDINADDDLKFVAHVGDIKNGSSVCSDEYFASIRAQFDTFEHPLVFTPGDNEWVDCHRTNNGAYNPLERLDKLREVFFNEPGKTLGTRMPVKTQESLGLPENVRFRENRVAFSVLNIQGSNNSLLPWSGLGETTATPEQLAEVEHRTHAVLEQIRDTFADAERRNDRAVVLMTQADMFDPSQLAGATANPEAVSGFREIVHAIIEETNSFDRPVYLINGDSHVFAENQPLANGSPWLDIYGQPAADDLQRITVDGSANATNYVRFTVAGNSADADVLTWEKVPFSQ				NA	NA	NA	NA	NA
D1-29_04105	567			hypothetical protein	ATGTCCACTCGTGCACAGGTTCTGGATGCCGCCGTCGAACTGCTTGGCACGCAGGGCCTGAAGGCCCTCACGCATATCAGGGTTGATGAAGCGGCGGGGGTGCCGAAGGGCTCGACGTCGAACTATTTCCGGACTCGCGCCGCCCTCCTGACCGGTGTGGTCGAGTGGGTCGCGGAGCAGGATCTGGCCGCGCTTGGAGGGCCGCCAAGCGCCCCGACTGATGTGGCCGCCTTCGTGTCTCTGCTGGCGGAAACAGTAGAGAACATCACCACCGCTTCACGGACCCGGACGATTGCCCGGTATGTCCTCTTCCTCGAAGGCACTCACAACGAAGACGTCCGGCGCCCACTGCTAGCCGGCCGAGTCTACTTCCGTACCTTTGTCGAGAACGCCATGGCCAGCCTCGGAGCGCCTGATCCGGTGGCAGCGGCGACTGCCATCACAGCAGTGGGCGAAGGCATGATCATCCAGCGGGTGGCGGTCGACCCGGATGCGGAAGTGTTCGCGCCCATTGATGCTGTTGTGCGGGCGTTTGTTCCGCAGCATCGTGGTCGCGCAGCAAAGTAA	MSTRAQVLDAAVELLGTQGLKALTHIRVDEAAGVPKGSTSNYFRTRAALLTGVVEWVAEQDLAALGGPPSAPTDVAAFVSLLAETVENITTASRTRTIARYVLFLEGTHNEDVRRPLLAGRVYFRTFVENAMASLGAPDPVAAATAITAVGEGMIIQRVAVDPDAEVFAPIDAVVRAFVPQHRGRAAK				NA	NA	NA	NA	NA
D1-29_04106	744			hypothetical protein	ATGGATACCACCAAAATGACAGACTTCTTCACCATGCAGCCTGGCGAAACTGCAGTTCCACTCCCTCCGGGACCTGTCCTGTCCACGGGGTCGACCGGCATTCGGCGGGTTCACCGCTTCCTCCTCTGGGCATACGAGGAGGCGCCCAACTTGGTGCGTTCCACCGCGCCCGGAGACACTTTCCGCGCCGCCTACGTGGGACAAGTGCTCGGGAACTTCGACAAGGTGCTCCTTATCCATCAGGAAGGCCAGGACCTGTTCATGTACCCGCAACTGGCGGAGCGGGCACCGGCAAGTGCGCCCCACGTGGAGCAGATGCTTGAGCACCACAAGCAAATTCGAGAACGCGTCCAGGGCATCGAGCCCGTGCGTAAGCGTTGGATGCAGACAGCAGACGAAGACGACAGGGAAGAACTCGCAAGGGGCTACGAGGACGTGCAGTCAGTTCTTAATGAGCATTTGCGCCGCGAGGTCACTGAGGTGATGCCCGCCGTCGACCGGGTCATGACAGAGGACGAACTGAAAGCGATGATTCAGCACGGGGTTAAGCAGCACGACAAGAAGTTCCTGGTCACCTACCTCGGAATGATTCTGGCCACGAATCCGCCGGACGACCGAAGGCAAATATTCTTTGAGGAGATTCCTGCCCCCGCCCGTCTCGGCTACCGTCTCATCGGCCGCAGGATGTACCGCAAGCAGTACGCGACACTCTTTCCGGGACGCCCAATCCCGGAAACACTCTAA	MDTTKMTDFFTMQPGETAVPLPPGPVLSTGSTGIRRVHRFLLWAYEEAPNLVRSTAPGDTFRAAYVGQVLGNFDKVLLIHQEGQDLFMYPQLAERAPASAPHVEQMLEHHKQIRERVQGIEPVRKRWMQTADEDDREELARGYEDVQSVLNEHLRREVTEVMPAVDRVMTEDELKAMIQHGVKQHDKKFLVTYLGMILATNPPDDRRQIFFEEIPAPARLGYRLIGRRMYRKQYATLFPGRPIPETL				NA	NA	NA	NA	NA
D1-29_04107	765	COQ3_2		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGGCTACCCCGGAAGAGTTCTATGACGCCCTCGCGCCCGAGTATCACCAGCTCTTCGCTGACTGGTGGTCAGCGGCTCAGTGGCACGGACAGGTCATCGCCGACGTCCTCGCCCAGCGCGGGATCCCCGAGGGACGCCTGCTGGACTGCACCTGCGGCATCGGAACCCAGGCCCTGCCGCTGGCGACGCTTGGATACGGCGTGACAGCCACCGACGTCAGCAAAGAGGCAGTTGACCGGGCCCGCGTGGAGGCAGCCGACAGAGGAATCGACGTCGATTTCAAGGTCTGCGACGTCCGCGAGATCCGCGACCACGTCGAAGGGACCTTCGATGTGGCTATCTCCTGCGATAACGCACTGCCGCACGTGCTGACCGACGAGCACCTGCAAAGTGCCCTGCGCAGTGTTCGTGCCTGCCTGCGACCGGTGGGACTGTTGCTCGCCTCTCTTCGCGACTATGACGCATTGAGACTCACCCGTCCCGACGGGGTCCCGATCTCGGTCCACGGGGAAATCGGGTCGCGGCATGGATCGGGCCAGGCGTGGCGGTGGTCCGCGGACGCCGAGTTTGTGGACATCGAGTTGTTCACCTTTGCCGAAGAGGCTGCCGGATCATGGCGGGCGCGCTCGGGCACCACCCGCTATCGGGCCCTGCAACGCGGGAAGCTCGAAAGCCTGCTGACATCGGCCGGGTTTACCGCCGTCGAATGGCTCATGCCTGACCTCAGCGGCTACTACCAGCCGATCGTGCTCGCGAAACCCTGA	MATPEEFYDALAPEYHQLFADWWSAAQWHGQVIADVLAQRGIPEGRLLDCTCGIGTQALPLATLGYGVTATDVSKEAVDRARVEAADRGIDVDFKVCDVREIRDHVEGTFDVAISCDNALPHVLTDEHLQSALRSVRACLRPVGLLLASLRDYDALRLTRPDGVPISVHGEIGSRHGSGQAWRWSADAEFVDIELFTFAEEAAGSWRARSGTTRYRALQRGKLESLLTSAGFTAVEWLMPDLSGYYQPIVLAKP	PGPT0013540_74	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013540-gsmt_like-K18896	NA	NA
D1-29_04108	741	lldR	COG2186	Putative L-lactate dehydrogenase operon regulatory protein	ATGGAAGAAGAATTGTTCGGAACCCGCACGCGGATCCTTCGTCCTGCCCGGCACGGAAACGCCTTCGAGGAAACCATCGAACGCCTGCTCCAGAACATTAAGCTAGGCCTCTTCGCGGTAGGTGAGAAGCTGCCTGCCGAACGGGAACTTGCGGAGCTGCTGGGGGTGTCCCGCGCCACGCTGCGGGATGCCTTGGCCGAACTGCAAAAGGCGGGATACGTCGAGGTCCAGCGCGGCCGTTATGGGGGAACGTACGTGTGTAGCCGGCCGTCCGCCAGCCCGGGGTCCTACCCGGAACTGGACCCGGGGGAGGTGGAGGACGTCCTGACCCTCCGCAGCGTGCTGGAACCGGCGGCCGCATCCCTGGCAGCGAAAGCCACGCTGTCCCCGGCACAGCGGAGCCACCTGATGAAGACGCTGGCTGAGGTGGCCGCCGCGCCCGCTGACCAGTATCGGCCAAAGGATTCAAGGTTCCACGTGGCCATTGCGGAAGTGACGGGGTCGCCAAGCTTGGCGAGTGCTGTGGCCGATGTCCGCTCCAGGGTTAATGACCTTTTGGACCGGATACCCCTCCTTGAGCCCAACCTTGAACACTCCAACCGGCAACACCAGGAAATCATGGACGCCATCCTCCGGGGCGACGGCGATGAAGCATTCCGGGCGGCCCAGAACCATCTTCAGGGAACGGCTTCACTGCTGCATGGATTCCTGGGCTCTTCCCACACGGAATCTCCCGGCTAG	MEEELFGTRTRILRPARHGNAFEETIERLLQNIKLGLFAVGEKLPAERELAELLGVSRATLRDALAELQKAGYVEVQRGRYGGTYVCSRPSASPGSYPELDPGEVEDVLTLRSVLEPAAASLAAKATLSPAQRSHLMKTLAEVAAAPADQYRPKDSRFHVAIAEVTGSPSLASAVADVRSRVNDLLDRIPLLEPNLEHSNRQHQEIMDAILRGDGDEAFRAAQNHLQGTASLLHGFLGSSHTESPG	PGPT0018120_204	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018120-lldR-K14348	NA	NA
D1-29_04109	1470			hypothetical protein	GTGTCATTCTCTGATTCAATCAAACCTGCGGAAGACAAGCGGTATCTGGAGCATCGGCAGCTGAAGCGCGGTGCCGCGGGCTGGATCCTGCTTGCCGGGCTCGGCGTCGCTTACGTTATTTCCGGCGACTTCGCGGGCTGGAACCTCGGCCTGGCCCAGGGCGGCTGGGGCGGGCTGCTTATTGCCTTTGTCCTCATGGGCATCATGTACACATGCATGGCTTACGGCCTGGCCGAACTGTCCTCCACGCTGCCTGCCGCAGGCGCCGGGTACGGCTTCGCCCGCCGGGCGCTGGGTCCATTGGGCGGTTTTGCCACCGGTATGGCCGTCCTCATTGAGTACGCGGTTGCACCGGCGGCGATAGCCATCTTTATTGGCGGCTACATTGAAGCCCTGGGGCTCTTCGGCCTGACGAACTCCTGGCCGGTTTATCTGGTGACCTACGCCGTCTTCGTCGGTATCCACCTTCGCGGCGTTGGCGAGGCGCTGAAAATGATCTTTGGAATCACGGCGGTGGCCGTCATCGCCCTGATCGCCGTGGTCATCGGCCTGCTTCCGAAGTTCAATGTCCAGAACCTCTTTGACATCGTCCCCGACGGCTCACCGGCGTCGAGTGCTTTCCTGCCGATGGGAATTGGCGGCGTGGTGGGTGCCCTGGTCTACGGCATCTGGTTTTTCCTTGCCGTAGAAGGTGTTCCCCTGGCCGCTGAAGAAACCGCAAATCCGAAGAAGGATATGCCCCGGGGCATTATGGTTGCCGTCCTGATCCTGGTGGTTTTCGGGGCGCTGATGCTGGTGCTGGTTCCGGGTGCTGCCGGGTCGGCAGCCATGAGCGGATCCAATAACCCGCTCCCGGAGGCCCTGCGCCTGGCCTACGGCGGGAACACATTCCTTGCCGACTTCGTCAACTATGCGGGCCTGGCCGGGCTGGTAGCAAGCTTCTTTTCCATCATCTACGCCTATTCCCGCCAGCTCTTCGCGCTGTCCCGGGCTGGATATCTCCCCAAGTGGCTCTCGCTGACCGGCAAGCGCCGAACCCCTTACTGGGCGCTGATCGTGCCGGGAACCCTTGGTTTCATCCTTGCGGCAGCCACCGGCAACGGCGCACTCCTGATCAACATCGCCGTCTTTGGTGCCACCGTGTCCTATGTCCTCCTCAACCTCTCCCACATTGTGCTGAGGAAAAAAGAACCCAATCTGCCGCGCGGGTACCTCACCCCCGGCGGCGTCGTCACGACGTCGATCGCCCTGGTTCTGGCTGCGGTGGCCGTCGTCGCAACTTTTGTGGTGGATGTGTTCGCGGCGTCCATAACAGCCGCAATATTCGGCGCCGCGCTCCTCTACTACTGGTTCTTCAGCCGCCACCGGATCGTCGCCGGCGCTCCGGAGGAGGAATTCGCGCAGCTGGCCGCCGCCGAGGCTGAACTGAAAACCGGCAAACGGGCGGCCCCCGACACCCTTTCCCTCTAA	MSFSDSIKPAEDKRYLEHRQLKRGAAGWILLAGLGVAYVISGDFAGWNLGLAQGGWGGLLIAFVLMGIMYTCMAYGLAELSSTLPAAGAGYGFARRALGPLGGFATGMAVLIEYAVAPAAIAIFIGGYIEALGLFGLTNSWPVYLVTYAVFVGIHLRGVGEALKMIFGITAVAVIALIAVVIGLLPKFNVQNLFDIVPDGSPASSAFLPMGIGGVVGALVYGIWFFLAVEGVPLAAEETANPKKDMPRGIMVAVLILVVFGALMLVLVPGAAGSAAMSGSNNPLPEALRLAYGGNTFLADFVNYAGLAGLVASFFSIIYAYSRQLFALSRAGYLPKWLSLTGKRRTPYWALIVPGTLGFILAAATGNGALLINIAVFGATVSYVLLNLSHIVLRKKEPNLPRGYLTPGGVVTTSIALVLAAVAVVATFVVDVFAASITAAIFGAALLYYWFFSRHRIVAGAPEEEFAQLAAAEAELKTGKRAAPDTLSL				NA	NA	NA	NA	NA
D1-29_04110	1176	ipuC		Glutamate--isopropylamine ligase	ATGACGAACCAAACAAGTGGAACCTCCAAGCAAGGCCAACTGGGCGTTGATGAACTGCGGGACCTGGTAGCTTCCGGTGAAATCGACACCGTTGTTGTTGCCATCACAGATTCCATGGGACGCCTCCAGGGCAAAAGATGCGGCGCACGGTCCTTCCTCGACGACGTACTCGGGCACGGTGCCGAAGGCTGCAACTATCTCCTCGCCGTCGACGTGGAAATGAACACCATTGACGGCTACTCCATGTCGTCCTGGGCCAACGGCTACGGGGACATGGTGATGCAGCCGGACGTCTCCACCCTGCGCCGGGTGCCGTGGCTTGAAGGTACCGCAATGATCCAGTGCGACATCCACTGGCTGGACGGCAGTCCGGTGGTGCAGTCGCCCCGCCAGATCCTGCGCGCACAAATCGACCGCCTGGAGGCACTGGGATACCGGGCCCACATCGGCACCGAACTCGAATTCATCATGTTCGACGACACCTACGAAGAAGCGTGGGACAAGAACTACGAAGGCCTCTCCCCCTCGACGCGTTACAACGTGGACTATTCCCTCCTGGCCACGGCGAGGCTGGAACCGGTGATCCGAAGCATCCGGAACGGAATGGAAAAGGCCGGGCTCGTCGTCGAATCTTCCAAAGGCGAGTGCAACCTGGGACAGCAGGAGATCACCTTTCGCTACGCAGAAGCGCTGGCTGCCTGCGACAACCACGTGTTCTACAAAAACGGGGCCAAGGAAATCGCCGCGCAGCAGGGCAAGAGCATCACGTTCATGGCGAAGTACAACGAACGTGAAGGCAGTTCCTGCCACATCCATTTCAGCCTGACGGATTTGGACGGCAACCCCGTCTTAGCCGGTGAGGGCCAGCACGGCTTCAGCCGTGTGATGGAGCACTTCATCGCGGGACAGCTGGCCGCGTTGAAGGAGCTGGCGTATTTCGTTGCCCCTAACATCAATTCCTACAAGCGGTTCGTGGAAGGCAGCTTCGCCCCCACAGCCATCGCTTGGGGGCTGGACAACCGCAGCTGTGCACTGCGCATCGTGGGACGCGGGCCCGCCATGCGGGTGGAAAACCGCGTGGGAGGCGGCGACGTCAACCCCTATCTGCAGCAGCGGCCCTCATTGCAGCCGCCATCCACGGCATCGAGAACGAGCTCCCCCTTGAGCCGATCATGA	MTNQTSGTSKQGQLGVDELRDLVASGEIDTVVVAITDSMGRLQGKRCGARSFLDDVLGHGAEGCNYLLAVDVEMNTIDGYSMSSWANGYGDMVMQPDVSTLRRVPWLEGTAMIQCDIHWLDGSPVVQSPRQILRAQIDRLEALGYRAHIGTELEFIMFDDTYEEAWDKNYEGLSPSTRYNVDYSLLATARLEPVIRSIRNGMEKAGLVVESSKGECNLGQQEITFRYAEALAACDNHVFYKNGAKEIAAQQGKSITFMAKYNEREGSSCHIHFSLTDLDGNPVLAGEGQHGFSRVMEHFIAGQLAALKELAYFVAPNINSYKRFVEGSFAPTAIAWGLDNRSCALRIVGRGPAMRVENRVGGGDVNPYLQQRPSLQPPSTASRTSSPLSRS	PGPT0000645_4891	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
D1-29_04111	210			hypothetical protein	ATGACGGGCAACGCGTACCAGTCCCAGGCTGACCGCATCCCCAGCAATCTGCGGGACTCCCGGGCGCTGCTGGCGGACAGCGAGATCGCACGCAAGGCATTTGGCGATGAGGTGGTTGACCACTATGTCTTCGCGGCCGGCGTCGAACTGAAGGCCTTCGACAGTGCAGTGACGGATTGGGAGCGCAAGCGTGTCTTTGAACGGCTCTGA	MTGNAYQSQADRIPSNLRDSRALLADSEIARKAFGDEVVDHYVFAAGVELKAFDSAVTDWERKRVFERL	PGPT0000645_4918	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
D1-29_04112	861		COG2071	Putative glutamine amidotransferase	GTGTCTTTGAACGGCTCTGATTCGTACCGCCCGCGCATCGGGCTGACAACCTACTTCCAGGAAGCGTCCTGGGGCGTCTGGACAGCGGACGCGGCGATCCTGCCGGGGACGTACGTGCAGGCGGTCGTCTCCGCCGGTGGCACCCCCGTCCTGTTGCCGCCCGTGGGCACTGATCCCTCCATTGTGAAGGTCCTGGACGGGCTGATCATCTCCGGCGGCAGCGATGTTGGCCCCGAACAGTATGGTGCCGAGCCGCACACTCTCACCCGGGCCCAACCAGCCAGGGACGAGCATGACATCGCCCTCACCAAGGCAGCGTTGGAGGCCGGCGTGCCCCTCTTCGCCATCTGCCGGGGAGCCCAGATCCTCAACGTTGCCCTGGGCGGAACCCTGCTCCAGCACATCCCGGATGTGAACCCGGAAGCCAAGTACCAGCCGGCACCGGGTGTCTACGGCAGCGTGGAGTTCACCAGCTTGCCGGGAACCATCACCAGAGACCTGCTTGGACCCGTGGCCAGCGCACCGTGCTATCACCACCAGGCCATTAACGGTCTGGCGGACGGGCTGCGCGTCACGGCATCAGCGGCCGACGGCACCATCGAAGCGGTGGAAACGACGTCGGGCGGGTGGGTGCTCGGAGTCCAGTTCCACCCCGAACATAACTCCTCCGACCTCCGGCTTTTCAGGGGGTTCGTTGAGGCGGCAGCCGACTATCGCGCGGCGGCCAACCAACGCCCGGCCAACCAACGCACAGAAGCCAACCAACGCCCGGCCAAGCAACGCACGGAAGCCAACGACAGCCCCGCAGACAACCTCCGCACAGAACGAATGGAGAACCCAATTCATGTCCAGCACCTATGA	MSLNGSDSYRPRIGLTTYFQEASWGVWTADAAILPGTYVQAVVSAGGTPVLLPPVGTDPSIVKVLDGLIISGGSDVGPEQYGAEPHTLTRAQPARDEHDIALTKAALEAGVPLFAICRGAQILNVALGGTLLQHIPDVNPEAKYQPAPGVYGSVEFTSLPGTITRDLLGPVASAPCYHHQAINGLADGLRVTASAADGTIEAVETTSGGWVLGVQFHPEHNSSDLRLFRGFVEAAADYRAAANQRPANQRTEANQRPAKQRTEANDSPADNLRTERMENPIHVQHL	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
D1-29_04113	1365	styD		Phenylacetaldehyde dehydrogenase	ATGTCCAGCACCTATGACGTTCTGAATCCGGCCACCGAAGAAGTCATCGAGACCGTCGCCCTCGCCTCGCTGGAGGAAACGGACGCCGCGATCGCCAGGGCCCACCATGCTTTCGAGACGTGGCGCCAAGTAGCTCCCGCTGACAGGGCGATGCTCCTGCGCCGCTTCGCCGCCGCCGTCGACGCCGACCGTGAAAACCTCGCCCTGCTGGAGGTCTACAACGCGGGGCATACCATCGGCAATGCCCGGTGGGAGGCCGGAAATGTCCGGGACGTCCTGGAGTACTACGCCGCCGCACCCGAGCGTCACCTCGGGCAGCAGATTCCGGTATCGGGCGGAATCAACGTCACCTTCCACGAGCCCCTCGGTGTTGTGGGGATTATCGTCCCCTGGAACTTCCCCATGCCCATCGCAGCCTGGGGATTTGCCCCCGCCCTTGCCGCCGGCAACACGGTGGTCCTGAAACCGGCGGAACTGACTCCCCTGACTGCCATCCGGCTGGGGCAGCTGGCGAAGGAAGCAGGGCTGCCCGAGGGAGTCCTGAATATTCTCCCGGGCAAGGGTTCGGTCGTCGGCGAACGGTTCGTGACCCATCCGTCGGTGCGAAAGGTTGTCTTCACCGGCTCCACCGGCGTCGGCAAACGCATCATGGCCGGCTGCGCCGAGCAGCTCAAGCCAGTAACGCTGGAACTGGGCGGCAAGAGCGCCAACATCATCTTCGCCGATTCCGATCTTGAAGCCGCCGCAGCGGCGGCACCTGGAGGGGCTTTCGATAACGCGGGGCAGGACTGCTGCTCCCGTTCCAGGATCCTGGTCCAGGACAGCGTGTACGAAAAGTTCCTTGAGCTCCTGGAACCGGCAGTCAAGGCCCTTCAGGTGGGAGACCCGGGCGACGAGGCTTCCTTCATGGGACCGCTGATTTCGGCCGGGCAGCACAAGACGGTGTCCGGGTTCGTCCCCGACGGGTCCCCCATCGCGTTTCAGGGATCCGCCCCGGACGGCAAGGGGTTCTGGTTCCCGCCCACCGTGCTGACCCCGTCGCGGGAAGACCGGGTGATGCACGAGGAAATCTTCGGCCCCGTGGTGGCTGTGGTGCCTTTTAGTGATGAAGCCGATGCACTCCGGCTGGCCAACGATTCGATCTACGGGCTCTCGGGATCCATCTGGACCCGCGACGTCGGACGGGCGCTGAGGATGGCCCGCGGACTGGAGTCGGGGAACCTCTCGGTCAACTCCCACTCATCGGTGCGCTACTCCACACCCTTCGGAGGCTTCAAGCAGTCGGGACTGGGACGCGAACTTGGCCCGGACGCCCTTGACGCCTTCACCGAGACCAAAAACGTCTTCATCTCCACTAACCCCTAA	MSSTYDVLNPATEEVIETVALASLEETDAAIARAHHAFETWRQVAPADRAMLLRRFAAAVDADRENLALLEVYNAGHTIGNARWEAGNVRDVLEYYAAAPERHLGQQIPVSGGINVTFHEPLGVVGIIVPWNFPMPIAAWGFAPALAAGNTVVLKPAELTPLTAIRLGQLAKEAGLPEGVLNILPGKGSVVGERFVTHPSVRKVVFTGSTGVGKRIMAGCAEQLKPVTLELGGKSANIIFADSDLEAAAAAAPGGAFDNAGQDCCSRSRILVQDSVYEKFLELLEPAVKALQVGDPGDEASFMGPLISAGQHKTVSGFVPDGSPIAFQGSAPDGKGFWFPPTVLTPSREDRVMHEEIFGPVVAVVPFSDEADALRLANDSIYGLSGSIWTRDVGRALRMARGLESGNLSVNSHSSVRYSTPFGGFKQSGLGRELGPDALDAFTETKNVFISTNP	PGPT0006875_6475	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
D1-29_04114	780	bacC_7		Dihydroanticapsin 7-dehydrogenase	ATGATTGAAGTAATCTCCAACCGCCTCAAGGGACGCAGCGCCGTAATCACCGGCGGCGCCAGTGGCATTGGACTCGCAACAGCCCGCCGCTTCGCCGCTGAAGGGGCCAACGTGGTCATCGCCGACCTGGACCCAACCTCAGGGCAGCGCGCGGCCGATGAGGTGGGCGGCCTCTACGTGAAGGTGGACGTCACCAGCGAAGAAGAGGTCAAGAACCTCTACGCCGTCACCAACGAAACCTACGGCAGCGTTGACATCTCGTTCAACAACGCCGGAATTTCGCCCCCGGACGACGCCTCGATCCTCGATACAGGCATCGACGCCTGGCGCAGGGTCCAGGAAGTGAACCTGACTTCGGTCTTCTACTGCTGCAAGTACGCGCTCCCCTACATGCAGGCACAGGGCAAGGGCTCCATCATCAACACCGCGTCCTTTGTGGCCGTGCTGGGTGCTGCCACCTCACAGATTTCCTACAGTGCCTCCAAAGGCGGGGTGCTGGCCATGAGCCGGGAACTCGGCGTCGAGTTCGCCAGGCAGGGAATCCGCATCAACGCCCTTTGCCCCGGACCGGTCAACACCCCGCTGCTGAAGGAACTCTTCGCCAAGGACCCGGAGAAGGCGGCCCGCCGCCTGGTGCATGTTCCCCTGGGCCGGTTCGCCGAACCCGAGGAACTGGCAGCAGCAGTGGCCTTCCTCGCCAGCGACGACGCATCCTTCATCACTGCCTCAACGTTCCTGGTTGACGGCGGGATCTCCGGCGCTTACGTAACACCCGAGTAA	MIEVISNRLKGRSAVITGGASGIGLATARRFAAEGANVVIADLDPTSGQRAADEVGGLYVKVDVTSEEEVKNLYAVTNETYGSVDISFNNAGISPPDDASILDTGIDAWRRVQEVNLTSVFYCCKYALPYMQAQGKGSIINTASFVAVLGAATSQISYSASKGGVLAMSRELGVEFARQGIRINALCPGPVNTPLLKELFAKDPEKAARRLVHVPLGRFAEPEELAAAVAFLASDDASFITASTFLVDGGISGAYVTPE	PGPT0008190_280	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008190-budC-K18009	NA	NA
D1-29_04115	2328			hypothetical protein	GTGAGTGCGGTGAACGCAATCAGAACCATGGCATATGCCAGCATCCGCCGACACAAAGTCCGGACCCTGAGCATCCTGTTGATGTCCTTCCTCGCCGCCGTCACGACAGTCCTGTCGGCCAGCCTGTTGTGGGACACCCACCGCCCGTGGGATCGCGCCTTCGAGGCCGCGGCCGGACCGCATCTGGTTTTCGAGTTCGATTCCGCCCTTGTCAGCAGAAACGACATCCAAGCCACAGCGTCGCTGCCCAACGTAGCTGCCCTTGGCGAGGTCCAGGACAGCGTGGTGCTCCTGGCACAGTCCGGCGACGAGAAAGGTCCGCTGCAGGTTGTGGGGCGTGGTGGCCCCGGCGGAGAGGTGGGGAAGCTGTCCTTTGTGGAGGGACGCTGGCCCGAACAAGCCGGTGAGATTGCGGTGACTCCACACGACGGCTGGAACCCTCCGGAACTGCGTCTCGGAGAGAGCGTTACACTGCCGACGGCGGCCGGCCCTGCTGAATTCCGTATCGTAGGCGTGCTGATAGACCTCACCACGACGTCGGTCCGCGGCGAAACCCAGCGCGGCTGGGTCCTGCCAACAGAGATGGGTTCGCTGATCAGTGCTGATGCCCCGTTGCGGTACCTGGCAGGCTACCGGCTCACGGGCGACGTCTCCGAAGCGGGCATCGCGGCTGCCCAGGAAAAGATCGGGGCCGCGCTGGTTCCCGGCGCCCAGACAAAAGACCCGCTGAGCTGGCTGGAAATGCGCAGCGGCTCCAACTGGACGGTCGCTGCGTTCGGCAGCATCGTCTACGGCTTCGCGCTCGTTATTCTTACCGCCGTCGCCCTCACCATTGCCAGCGTTATCGCGGGTACGGTGCTGGCTGGCTATCGGGATTTCGGCGTCGCGAAGGCCCTGGGCTTTACCCCTTGGCAGATCATGGGGCTCCTCGTCGCCCAGGTTGCGGTACCCGCCGGAATCGGGGCCATACTCGGGCTGCCGTTAGGAGTCCTGCTCGCTTCCTACTTCCTCAGCGAATCGGCTATTCAGCTGGGACTGCCCGCGGCCTCGGCAGTAAACCCGCCCCTGATTTTGCTGGTGGCTGCGGGCTTCATCCTGCTGGTGGTGATTGCCGCTGCCGTTCCCGGCCTGCGGGCAGCCCGAATGAGCGCAGCATCTGCCATCAGCCGCGGCCGTTCGCCTAGTCTTGGGAATCTGTCCCGGCGTGGTTCGGCGATCGTCCGGACTCGGCTGCCCAGGCACGTCGGGCTCGGCGCCGCCGCCGTCGTTGACCGTCCCGTTCGTGCCATGCTTACCGTTGGTGCCGTCGCGGCATGCATGGCTGCCCTGACATTCGCCTCCACTTTTGGCCCCACCATGGACGGATTTATCAAGGACAGGGCCACCTGGGGCGCGGCGCAGGACGTCACGGTATTTAAAACTCCCGGACGGTCAGCCGACGACGTGCAGGCGCTCCTGTCCCAACGGCGGGAGGTCGCCTTCTCGGTGGAGACTTCGGTAGCCTCGTACGTTGTCTCCGGCCAAGCCAAGGCGCTCGGTGTCATGGGCATGCGGGGCGACGCCGAAACCATGGGCTTCCGCGCCGCCAAGGGACGGTGGTTCGCCGCTCCCGGCGAGGCAGTCATGAACGCATTTACCGCCAAAGAGCTTGGCATGAAGCTGGGCGACACAGTGACCGGAATGGTCAACGGCACTGAGCTGAGGCTTACGGTGGTGGGCCTGATGAACGACGTCGCCCACCGCGGATTCCGCGTGGACTGGAACACCCTGACCACGGTGGCTCCCGCCGCCCAGCCTGACACCTACCTTCTCCGGCTGAACGACGGTGTGAGTGATGCCGAGTTCGTGGATTCGCTCAACGCGCAGGCCGGCGATCTGATGCTCGCGAGCTTCCTCGGCTATGAAGCCGACATGACTCCAATTGACCGCACCATCGGAGGTCTGTCGGTGGTGCTTGTCCTCCTGGCTGTGGTGGGTACGTTCAACACAACCCTGCTGGCCATGCGGGAACGGCTTCGCGATACTGCCATCCTCAAGACCCTGGGGATGACGGGAGCGCAGATCACCGGAATGGTTTTCACCTTTGCAGGAGTCCTCACGGTAGCGGCGACGGCCATTGGCATACCACTTGGCCTGTGGATGCAGGAGAGAATCATCAACGAAGGGATCGGGGAAACCTCAGGGTTCGTTGTAGAGGTCGGGATCATCGACGTCAGGAGCATCGTCCTGATCGTGGCCGGCGCCTTGGCAGTGACTCTCCTCGGTGCGCTCGTCCCGGCCCGCAGGGCGCGCCGTTTGCCGGTGGCGGCGGTGCTGCGCTCGGAGTAG	MSAVNAIRTMAYASIRRHKVRTLSILLMSFLAAVTTVLSASLLWDTHRPWDRAFEAAAGPHLVFEFDSALVSRNDIQATASLPNVAALGEVQDSVVLLAQSGDEKGPLQVVGRGGPGGEVGKLSFVEGRWPEQAGEIAVTPHDGWNPPELRLGESVTLPTAAGPAEFRIVGVLIDLTTTSVRGETQRGWVLPTEMGSLISADAPLRYLAGYRLTGDVSEAGIAAAQEKIGAALVPGAQTKDPLSWLEMRSGSNWTVAAFGSIVYGFALVILTAVALTIASVIAGTVLAGYRDFGVAKALGFTPWQIMGLLVAQVAVPAGIGAILGLPLGVLLASYFLSESAIQLGLPAASAVNPPLILLVAAGFILLVVIAAAVPGLRAARMSAASAISRGRSPSLGNLSRRGSAIVRTRLPRHVGLGAAAVVDRPVRAMLTVGAVAACMAALTFASTFGPTMDGFIKDRATWGAAQDVTVFKTPGRSADDVQALLSQRREVAFSVETSVASYVVSGQAKALGVMGMRGDAETMGFRAAKGRWFAAPGEAVMNAFTAKELGMKLGDTVTGMVNGTELRLTVVGLMNDVAHRGFRVDWNTLTTVAPAAQPDTYLLRLNDGVSDAEFVDSLNAQAGDLMLASFLGYEADMTPIDRTIGGLSVVLVLLAVVGTFNTTLLAMRERLRDTAILKTLGMTGAQITGMVFTFAGVLTVAATAIGIPLGLWMQERIINEGIGETSGFVVEVGIIDVRSIVLIVAGALAVTLLGALVPARRARRLPVAAVLRSE				NA	NA	NA	NA	NA
D1-29_04116	741		COG1136	putative ABC transporter ATP-binding protein	ATGAACGCCATCGTCGTCATGCAGAACGTCAGCCGCCTGTTTGCCGAAAATTCGGGCGTCGCTGCGCTCGACGGCATCAGCCTGAACATTGAACGGGGGGAGTTCGCCGCCGTCGTAGGCCCATCCGGCAGCGGTAAATCGACCCTGCTTAATCTGATCGCAGGCCTGGACCGCCCCACCTCCGGGAGGGTGGAGGTTTGCGGGATGGACGTGGGCGGGGCAAGCGAGTCCGCCCTGGCGAAACACCGCCGCAAGGGCGTCGGCTTCGTCTTTCAGTTCTTCAATCTGATCGAAAGCCTGACGGTACTCGAGAATGTCATGGTGCCCGCCGAACTGGCCGGAGTCCGCCGCGGAAAGGCCAAATCCCGGGCGCTTGAGCAGCTGGAGGAACTTGGTGCGGCCGAGCTGGCGCGGCGGTACCCGGAGACGCTCAGCGGGGGCCAGCGGCAGAGGGTTGCGCTGGCCAGGGCCCTCATCAATGCACCGGACATCGTCCTCGCAGACGAACCCACCGGCGCCCTGGATACCCGCTCCGGCAAGAACGTGATGGATCTGCTGGCCGCACTGAATGATGCCGGGCAGACAGTGGTGCTCGTGACGCATGACATTAAGCTGGCGGCAAGCTACGGCCGGCGCATCCTGACTCTGAGGGATGGCCGGCTGGCGGACGACACCAGGCTCAGTGTCCAGCGGACCGGAACAGCAGCAGACCTGATCGGCTGGACGGCAGAGGGCCGGTGA	MNAIVVMQNVSRLFAENSGVAALDGISLNIERGEFAAVVGPSGSGKSTLLNLIAGLDRPTSGRVEVCGMDVGGASESALAKHRRKGVGFVFQFFNLIESLTVLENVMVPAELAGVRRGKAKSRALEQLEELGAAELARRYPETLSGGQRQRVALARALINAPDIVLADEPTGALDTRSGKNVMDLLAALNDAGQTVVLVTHDIKLAASYGRRILTLRDGRLADDTRLSVQRTGTAADLIGWTAEGR	PGPT0013345_9655	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
D1-29_04117	537			hypothetical protein	GTGTCCCTTCGTCTGGGCATCCTTGGACTCCTGACTGCGGGCCCCCTCCACGGGTACGAGGTCAAGCAGCAGTTCGAGGACATGCTGGCAGGTACGTGGGACCTCAACATTGGATCGGTGTACCAGATGCTGCAGCGGCTTGAACGGGACGGGCTGGTTCAGCCGTCCGGAAGCCGCGGGGACCGTGGGCGGCAGGAGTTTGTCGCCACTGACGAGGGGCGCCGGCTCTTCGATGAATGGTTGGATAACCCTGACAAGCAGCCGGAGCTGCTTAGGGAAGAAATTTATGTGAAAGTGCTGCTCCTGGCCCTGCAACGGGAACCGGACACGGCGAGGATCCTCAAGGTCCTCGACAGCCAGCGGCACGCCTACCTGCAGCGGCTGCGCGACCTGGCAGACCAGGAGCGCGCCCTGGAGGGCACGTCCAGCGGACAAACAGGCTCGCCGCTGGCACTTTTGTTCCAGGCTGGGCGGCTGCATACCGAAGCCAGCCTGAAATGGATCGATGCCTGTGTGGAGCAGCTCAGCAGGAACTAG	MSLRLGILGLLTAGPLHGYEVKQQFEDMLAGTWDLNIGSVYQMLQRLERDGLVQPSGSRGDRGRQEFVATDEGRRLFDEWLDNPDKQPELLREEIYVKVLLLALQREPDTARILKVLDSQRHAYLQRLRDLADQERALEGTSSGQTGSPLALLFQAGRLHTEASLKWIDACVEQLSRN				NA	NA	NA	NA	NA
D1-29_04118	1146		COG1073	putative protein	ATGAGCACAAACTTCAACGGAAGCGACACCACTGCTTTGGGAACCGCGGCTGCCCCGGAACAGGGCGTATCGCGCCGGAACCTGATCAAGCTCACCGGCGCGGGTGCGGCGGCCATCGGGCTGTCCGGAGCAACGGGCCTGGCAGGAGCGGAGCAGGCGTTCGCCGCCCCGGCTGCACGCAAGGACCTGGAGCCCGGGGATCTCTCCAACGGCGCAGACAACTTCTACACCAGCAGCCAGGTCACGGTCCGGAAGATCTCATTCAAGAACCGGTACGAGATGAAGGTGGTGGGCAACCTGTTCGTGCCCAACAACCTGAACCGCGGAACCACCCACCCGGCTCTGGTGGTGGGCCACCCCATGGGCGCCGTCAAGGAACAGAGCGCCAACCTCTACGCCACCAAAATGGCCGAGCAGGGCTACGTCACGCTCTCCTTTGACCTCTCCTTCTGGGGAGAAAGCGCCGGCAAGCCGGGCAACGCGGTCTCGCCCGACATCTATGCCGAAGACTTCAGCGCCGCCGTGGACTACCTGCGCTCGCAGCCGTTCGTAGATAAGGAGCGCGTGGGGGCCATCGGGATCTGCGGCAGCGGCAGCTTTGTGATCAGCGCGGCAAAGATCGATCCCAGGATCAAGGTCATCGCCACGGTGAGCATGTACGACATGGGCGCCGCCAACCGCGACGGGCTCAACAAATCCGTGACCCTCGCACAGCGCCAGGCCATCACCGCGCAGGCAGCTGCCCAGCGCGACGTCGAATTCGCCGGCGGCGCGATCCAGTACACCGGCGGCACACCGGACGTGCTCACCTCAGAATCCACGGCGGTGGACCGCGAGTTCTACGACTTCTACCGCACTGCACGCGGGTACCACCCGAACACCACCACGCACCCCGCCCTGGCCACCAACACCAAGTTCATGAACTTCCACCCGTTCAACGACCTGGACCTGATCTCCCCGCGCCCGCTGCTCTTCATCACCGGCGACCAGGCGCACTCGAGGGAGTTCAGCGAAGAGGCCTACCGGCTCGCGACCGGACCGAAGGAGCTCTTCTGGGTCCCCGGGGCCGGCCACGTGGACCTCTACGACCGGGTGGGCCTCATCCCCTTCGACAAGCTCACGGACTTCTTCCGCACCAAGCTCTAG	MSTNFNGSDTTALGTAAAPEQGVSRRNLIKLTGAGAAAIGLSGATGLAGAEQAFAAPAARKDLEPGDLSNGADNFYTSSQVTVRKISFKNRYEMKVVGNLFVPNNLNRGTTHPALVVGHPMGAVKEQSANLYATKMAEQGYVTLSFDLSFWGESAGKPGNAVSPDIYAEDFSAAVDYLRSQPFVDKERVGAIGICGSGSFVISAAKIDPRIKVIATVSMYDMGAANRDGLNKSVTLAQRQAITAQAAAQRDVEFAGGAIQYTGGTPDVLTSESTAVDREFYDFYRTARGYHPNTTTHPALATNTKFMNFHPFNDLDLISPRPLLFITGDQAHSREFSEEAYRLATGPKELFWVPGAGHVDLYDRVGLIPFDKLTDFFRTKL				NA	NA	NA	NA	NA
D1-29_04119	516			hypothetical protein	ATGAAGCGACTTGCCATCATTGCGGCAATCCTGGTCCTGGCCTTCGCCGCCGTCACTGCCTGCGGCAGCAGTGACGGCGCCCCCACAGCCGATCAGCCGCTGCCGACACCGCAAACCAGCACGGAGGACACTGCCACCATGCAAAGCTCACCAATGGCAAACGGCACACCGATCACCATAAACATCGACGGACGGGCGGTAAAAGGCATTCTCCACGACAACGCCACCGCACGCTCATTGATCGGCCAACTTCCCCTGACTCTCACGTTCAAGGACCATGGCGGCCAGGAAAAGAGCGCCCGCCTGCCAGCGCCGCTCTCCCTCGAGGGCATGCCGGCGGGAAGCGACGCGGACCCGCTGACCATCGGCTACTACGCGCCGGACCAGGTACTGGTGCTGTACTACGAACACGTCGGGCGCTTCAACGGGATCGTCCGCATCGGCACGTTCGAGGACCTCGTCGCAGTACGCGACCAGCCCGACGGCTTTACGGCGAAGCTGGACCTTGCGTCTTAG	MKRLAIIAAILVLAFAAVTACGSSDGAPTADQPLPTPQTSTEDTATMQSSPMANGTPITINIDGRAVKGILHDNATARSLIGQLPLTLTFKDHGGQEKSARLPAPLSLEGMPAGSDADPLTIGYYAPDQVLVLYYEHVGRFNGIVRIGTFEDLVAVRDQPDGFTAKLDLAS				NA	NA	NA	NA	NA
D1-29_04120	474			hypothetical protein	ATGCAAACAGTAGAAGAAACTGTCGATGTTGCCGTTCCCGTACGGACGGCGTACGACCAGTGGACACAGTTCGAGACCTTCCCGCAGTTCATGTCCGGTGTTCAGTCCGTCACTCAATTGACTGACACAACGAATCACTGGGTGACCAAAATTGGCGGCGTGGAGCGTGAATTCGACACCGAAATCGTGGAACAGCAGCCCGACGAACGTATCGCCTGGCGGAGCGTGGACGGTAAGTCGCACGCCGGCGTCGTTACGTTCACCCCGCTGGACCCGACGGACACCCGGGTCTCGGTCAGATTCGAATGGGACCCGGAGACCTTCACAGAAAAAGCCGGAGCCGCACTGAACCTCGATGAGATGCAGGTCAAGGCCGATATGCGCAAATTCAAGGACTTCATTGAGTCCCGCGGCACGGAAACCGGTGCATGGCGCGGTGAAGTGGATGAGAACGGCCCGATGGGCCAGCCCTGA	MQTVEETVDVAVPVRTAYDQWTQFETFPQFMSGVQSVTQLTDTTNHWVTKIGGVEREFDTEIVEQQPDERIAWRSVDGKSHAGVVTFTPLDPTDTRVSVRFEWDPETFTEKAGAALNLDEMQVKADMRKFKDFIESRGTETGAWRGEVDENGPMGQP				NA	NA	NA	NA	NA
D1-29_04121	987	lacC_3		Tagatose-6-phosphate kinase	ATGGGTTCAGTAGTGATTTTCGCTCCTTCCCCCGTCCTCACCGTCACCGTGGAGGACATCAAAGGCATCACAGATATCCATATCCACGCGGGCGGCCAGGGAGTATGGCAGGCCCGAATGCTGGGTGCGCTTGGCGCAACAGTGACCATGTGTGCAGTCTTCTCCGGCGAAACCGGGCGGGTCTTGCGGCACCTAATAGCTGATGAAGGTGTCAGGGTGCTGGCCGTGGCCGGAGAAGGCAGCAGCGGGGCATACCTGCATGACCGCCGCGGTGGTGAACGCCATATCCTGGCGGAATCGCCCGGCGACCGGGTTACGCGCCACGAACTGGACGAACTCTACGGGCTGACGCTGCAGGCGGGAATCGAAGCCGGGACCGTGATCCTTAGCGGCACCGGCCGGGAGGATGCGGTACCGGCCGACATGTACCGCAGACTTACGGCCGATCTGGGTGCTGCCGGATGCACTGTCATCGCGGATCTCACCGGCGACAGGCTGAACGGCGTCCTGGCTGGTAAACCAGCGGTGATCAAGATGGCCGACGACGAAATCATGAGCAGTGGCCGTGCCGGCGCCGCGGAGACCAACCGGATTATTAAAGCCATGCACGAACTCGTACGAGAGGGTGCGACGTCGGTCATTATCACCCGCGCCCATCTGCCCTCGCTGCTCCTTCACGACGGTGCGGTCAGCGAAATCCACATCCCGCAACTTCAGACGGTGGATAACCGCGGGGCCGGTGATTCACTCACGGCCGGGATGGCCGCCGTACTGGCTGATCACGGGACCCTGCATGATGCAGTGATTTTAGGCACGGCGGCCGGCGCGCAGAACGTCACCCGCCACGGCCTGGGCACTGGAGAGGCAACAGCAATCCGCGAACTCGCCAACCTCGTCAGGATCGTTCCACTGGACGACACCACCGAGCAAGAACCGGCACAGCAGATGAGCCCCGATGAGCTGGCACGAAAGGTCAGGAAAGCATGA	MGSVVIFAPSPVLTVTVEDIKGITDIHIHAGGQGVWQARMLGALGATVTMCAVFSGETGRVLRHLIADEGVRVLAVAGEGSSGAYLHDRRGGERHILAESPGDRVTRHELDELYGLTLQAGIEAGTVILSGTGREDAVPADMYRRLTADLGAAGCTVIADLTGDRLNGVLAGKPAVIKMADDEIMSSGRAGAAETNRIIKAMHELVREGATSVIITRAHLPSLLLHDGAVSEIHIPQLQTVDNRGAGDSLTAGMAAVLADHGTLHDAVILGTAAGAQNVTRHGLGTGEATAIRELANLVRIVPLDDTTEQEPAQQMSPDELARKVRKA	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
D1-29_04122	786	surE	COG0496	5'-nucleotidase SurE	ATGAGCCAGCCTGCGCGTGTCCTCATTACCAATGACGACGGCATCGCGTCCCCGGGCCTGCTGGCTTTGGCCGCCGCGGCCGTCCGGGCTGGCCTGAGCGTCGTGGTCGCAGCACCCGCGTCCGAAGCCAGCGGCAGCAGTTCCTCGATTACCGCTGTGGAGCAGGACGGCAGAATTTCCATTGAAGAACGCCAGCTGGAGGACCTGGACGGCGTTGAAGCCTACGCCGTCCATGGGGCCCCGGCCTTCATCACGATGATTGCCACCCATGGCGCCTTCGGTCCCCCACCAGACATCGTTCTATCCGGCGTAAACCGTGGGGCCAATGTGGGCCGGGCAATATTGCACTCCGGAACGGTCGGAGCGGCACTGACAGCCGGTGTCAACGACGGACGCGGGATGGCAGTATCCCTGGACACCGGGCTCAATCCGGACGCGATCCACTGGGAAACAGCTGCCCGGCTGGCCACTGGGCTGCTGCCGTTCCTGATGGAACAGGACGTCGGCAGTGTCCTGAACCTCAACGTTCCGAACAGTGCCGGGCCCAAACTTCCCGAGTACCGTACAGCCACCCTAACCAGATTCGGCATCGTGCAGACCACCCTCGCCGAGCGCGGACAGCAGCATTTACGTTTGGCCATCGCGGACACCACGGAGGAACCGGACCCGGACAGCGATGCGGCGTTACTGGCGGCGGGCTTCGCCACGGTGACTGCCATCCAGCCGGTCACCGGAACCAGACTGCCCTCCCTGCCCGCGCTGCCGCACGCAACGTCACGTGGTTAG	MSQPARVLITNDDGIASPGLLALAAAAVRAGLSVVVAAPASEASGSSSSITAVEQDGRISIEERQLEDLDGVEAYAVHGAPAFITMIATHGAFGPPPDIVLSGVNRGANVGRAILHSGTVGAALTAGVNDGRGMAVSLDTGLNPDAIHWETAARLATGLLPFLMEQDVGSVLNLNVPNSAGPKLPEYRTATLTRFGIVQTTLAERGQQHLRLAIADTTEEPDPDSDAALLAAGFATVTAIQPVTGTRLPSLPALPHATSRG	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
D1-29_04123	138			hypothetical protein	GTGACACCCATCGCGATCACCATGATGATCATCGCCATCCTTACGGTTTGGGGCGGCCTGGCGCTGGCGCTGCTCAACCTTGCGCGGCACCCGGAGGATGAGGGGGCGCTGCCCGAGGAGCACGCACCGGAGCTCTGA	MTPIAITMMIIAILTVWGGLALALLNLARHPEDEGALPEEHAPEL				NA	NA	NA	NA	NA
D1-29_04124	1575			hypothetical protein	ATGAGCAGCACATCCTCACCGAACGCATCGGCACCTGTAAAACGCGAGACATTCTCCTCGCGCCGGCTCTTCATCCTTTCGGCCATCGGCTCGGCCGTGGGCCTGGGCAACATCTGGCGCTTCCCGTACATCGCCTACGACAACGGCGGCGGGGCGTTCCTGATCCCGTACCTTGTGGCGTTGCTGACAGCTGGCATTCCGCTGCTGTTCCTGGACTACGCGGTGGGCCACAAGTTCCGTGGCTCGACGCCGCTGGCGTACCGGCGGCTCCACCGGGCCGCAGAACCCCTGGGATGGTGGCAGGTGCTTGTCTGCTTCGTCATCGCAGCCTATTACGCGGTGATCATTGCGTGGTCCCTGATGTACACCATCTTCTCCTTCACCGAGGCGTGGGGGGATGACGCCGAGGGCTACTTCTTCGGAAACTTCCTCCAGGTTGCCGACGCACCGGGCATCGGATTCAGCTACGTCCCGTCCGTCTTCTTCCCGCTGCTGTTGATCTGGGTAGCGGTCATCGTGATCATGGTCGCGGGAATCCGCAAGGGCATCTCACGCGCGAACTCCATCCTGCTCCCGCTGCTGGTAGTGATGTTCCTCCTGCTGGTGCTCCAGTCGCTGTTCCTTCCCGGCGCGGCAGAAGGGCTAAACGCCTTCTTCACTCCCGACTGGGCTGCGCTGGCTGACCCGGGCGTGTGGGCTGCCGCGTATGGCCACATCTTCTTTTCGCTCTCGGTGGGATACGGCATCATGGTCACCTATTCCTCATACCTGAAGCGCAGGACGGACCTGACCGGCTCCGGCATGGTGGTTGCCTTTTCCAACTCCGGGTTCGAGATCCTGGCCGGGATCGGTGTTTTCGCCGCTCTGGGGTTCATGGCGCAGGCCGCGGGTGCGGGTGTCAACGATGTAGTAACCCAGGGGATCGGTCTGGCCTTCGTCGCCTTCCCCACCATCGTTTCGCAGGCTCCCTTCGGGGCAGTCATGGGCGTGCTGTTTTTCGGATCCCTGGTGTTCGCAGGAGTAACATCGCTGATCTCTGTACTGGAAGTCATCGTTGCCGCAGTGCAGGACAAGCTCGGCTGGGGCCGGATCAAGGCCTCAGTAACGGTCAGCGGCCTGGTGGCTGTTGTCTCGCTGGGACTCTTCCCGACGGCAACGGGGCTCTACCTGTTGGATACCTCTGACGCCTTTGTGAACAGCTTCGGCATCACTCTCGGGGCGCTGGTGACCGTAGTGGTCATTGCGTGGTTCCTGCGAAAGCTTCCACTTCTGTCCGCCCATCTGAACCGGATTTCCACCATCAAGATGCGCCGGTCCTGGATGGTGCTGGTAGCCGGCGTTGTGCCGCTGGCGCTGATCTACATGGTGTCCAGCGAATTCATCAGCAAGATCTCCACCACCTATGAGGGCTATCCCGCGTGGTTTGTGGGCCTGTTTGGCTGGGGCATGGCCGGCGGGCTGGTGGTCCTGGCGCTGGTGTTGACCTTCATCCCGTGGAGCCAGAGATCCAAGGCCCATCACGATCCGGAATACGACTCCGTGGTGGCGGAAGAAGCAAAGGAGACGGCACTGTGA	MSSTSSPNASAPVKRETFSSRRLFILSAIGSAVGLGNIWRFPYIAYDNGGGAFLIPYLVALLTAGIPLLFLDYAVGHKFRGSTPLAYRRLHRAAEPLGWWQVLVCFVIAAYYAVIIAWSLMYTIFSFTEAWGDDAEGYFFGNFLQVADAPGIGFSYVPSVFFPLLLIWVAVIVIMVAGIRKGISRANSILLPLLVVMFLLLVLQSLFLPGAAEGLNAFFTPDWAALADPGVWAAAYGHIFFSLSVGYGIMVTYSSYLKRRTDLTGSGMVVAFSNSGFEILAGIGVFAALGFMAQAAGAGVNDVVTQGIGLAFVAFPTIVSQAPFGAVMGVLFFGSLVFAGVTSLISVLEVIVAAVQDKLGWGRIKASVTVSGLVAVVSLGLFPTATGLYLLDTSDAFVNSFGITLGALVTVVVIAWFLRKLPLLSAHLNRISTIKMRRSWMVLVAGVVPLALIYMVSSEFISKISTTYEGYPAWFVGLFGWGMAGGLVVLALVLTFIPWSQRSKAHHDPEYDSVVAEEAKETAL	PGPT0013950_250	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
D1-29_04125	474	ysnE		putative N-acetyltransferase YsnE	ATGATTTCCATTGACCGGGACGACCCCGCACGCCACGATGTCCGTCAGCTCCTGAGCGAACACCTTGCGGACATGTTCGCCACCTCGCCCGCCGAGAGCGTCCACGCCCTGGACCACTCGGCCCTTTCCTCGTCATCAATCACGTTGTGGACAGCCCGCGAGGCGGGCGGCCTGCTGGGGTGCGGTGCACTCAAGGTCCTGGATTCCCCGCCCGGGTCCCCCAGGCATGGCGAAATAAAGTCCATGCGTACCGCAGCGGGTGCACGGGGACGGGGTGTGGCCACTCTTGTGCTCCGGCATATCCTCGACGACGCCCGGGCCCGGAACCTCGAGCGCGTCTTCCTGGAGACCGGGACCGAGGACTACTTCGCTCCCGCCCGGCGCCTGTACCTCGGCAACGGCTTCGCCGAGCGCCCGCCTTTTGCCGACTACACCCTGGATCCAAACAGCGTCTTCATGGAACTCCACCTGTAG	MISIDRDDPARHDVRQLLSEHLADMFATSPAESVHALDHSALSSSSITLWTAREAGGLLGCGALKVLDSPPGSPRHGEIKSMRTAAGARGRGVATLVLRHILDDARARNLERVFLETGTEDYFAPARRLYLGNGFAERPPFADYTLDPNSVFMELHL	PGPT0007180_230	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
D1-29_04126	630			hypothetical protein	ATGATGGCGGGATCGGCGACGTTCCTGGCCGGGGCCTTTATGCCAGTCTCGCGGGTGTATGTCGAACGAGATCCGCAGCGCAAATTGGCCATTCTGCTCGCGGACCCTGGACAGTGGAGTACCCAGCAAGTGCTCTTGGCCGCAGGCACAGCTGCGTTGCCCGTGGGGGTGGTGATGCTGGCCCGTCACTGGGGTACGGGAAGTGATCGGGGTGGTCAGGAACCCTTGGAGGGGCAGCGGTTTGTCCAGGCGGCTGCACTTCCGTTGGCCACGGGAGCCTGTCTGTTCCTGGGTCACCTGGAGGCGCGATACAAGGATCCGGAGGCCTTCGCGTTGGGGAATGTGCCCATGTGGACGTTCCAGGGGTATATGGGGCTGAGCCTTGCCGGCATGGCTGCCCTGGGTGGCGGGTTGCTGGCACGGGCGCGTGCTCACGCCAAGTCCGGTGCCCTGCCACAGGACCCGCGCTGGCCGGGCTGGCTCAATGTGGGCGGGGCCGGAGTCTTCGCCGCCGTCCTGGTTGCTACCGGTGACTTGCCGCCCCTGCTGGTCTACGTCGTGGAGCTGGCGACCGGGGCTGCGCTGCTGCGGCAGCTCCGCCGGAGCGCCGATCTGGGGAAGCCAGGCTAA	MMAGSATFLAGAFMPVSRVYVERDPQRKLAILLADPGQWSTQQVLLAAGTAALPVGVVMLARHWGTGSDRGGQEPLEGQRFVQAAALPLATGACLFLGHLEARYKDPEAFALGNVPMWTFQGYMGLSLAGMAALGGGLLARARAHAKSGALPQDPRWPGWLNVGGAGVFAAVLVATGDLPPLLVYVVELATGAALLRQLRRSADLGKPG				NA	NA	NA	NA	NA
D1-29_04127	1614	clsB		Cardiolipin synthase B	GTGAACGGTAGTCCGGATTACTGGTTCTTGAGTGCCGCTGAGCGGGGGAATGACGCCACCCGGGTGCACGCCGGCGGCGCGGGATTGTCGTCCTGGTCCCAGGGCAACCTTGTGCGGCCCCTGATTCACGGGGCCACCTACTTCGCCCGGCTGCATAAGGAGCTCTCGGCACTTCAGGCGGGAGACCGTGTGTGGTTCACCGACTGGCGTGGCGATGGCGACGAGCGGCTGACGGCGGACGGACCTGCGATCGGCGAGTTACTGGCCCGGCTGGCGCGGGCCGGCGTGGAAGTGCGCGGCTTGGTTTGGAGATCCCACGGAGAGCGCGTCTCTGCCCCCATGAGTAACCGGTCCAATGAGCTGCTCAGCCGCCAGATCAACGACGCCGGCGGCGAGGTGCTGCTGGATCAGCGCGTGCGCATTTTTGGCTGCCATCACCAGAAGCTGTTCGTCATCCGCAGCGGTAGCGATCCCTCGCGGGACGTCGCGTTCGTAGGCGGGATCGACCTCTCCCACAGCCGCCGGGACGACGCCGATCACGCGGGAGACCCACAGGCGGTAGACATGGATCCCCGGTACGGGAAACAACCTCCGTGGCACGACGCCGCCGTCGAACTGCGCGGACCGGTGGTGGCAGACGTGCTGGAGTTGTTCGCGGAAAGGTGGAATGACCCCCATCCCCTGGACCACCGCACACCGTACCGGATGCTGCTGCAACGCCTGGCCGACATGCCCCGGCACCCCGAACCCCTGCAGGAGACTGCGCCGCCGCCGCCACCGGCCGGCCCCCATGCCGTGCAGCTGCTGCGCACGTACGGCGTGAAGCATCCGCCGTTCCCCTTCGCCCCCAGTGGTGAGCGGAGCGTTGCCCGGGCGTACACAAAAGCCTTCGCCCTGGCCCGATCGCTGATCTACATTGAGGACCAGTACCTGTGGTCAGCAGAGGTCGCAGCCGGAATCGCGGCGGCCCTCGAACAGAACCCCGGGTTGAACGTGATCGCCGTGGTCCCCCGCTACCCGGACTCCGATGGTCCGCTCGGAGGGCCACCCAAGCGGCTGGGGCAGCTGCGTGCCATCCAAACCATAAGCCGCTCTGCCCCCGACAGATTCGGTGTGTTCAATCTGGAGAACACAGCGGGGACCCCGATCTATGTGCATGCCAAGATCTGCATCATCGACGACACCTGGTTCACCTGCGGATCGGACAACTTCAACCGCCGGTCCTGGACCACGGACAGCGAACTTACGTGCGCGGTCATCGACACCACGGCCGGTGAGCAGGAAGCGCCAGGAGCAGACACTGGTCCGGGCGCTTCCCGTCCGTTGGCCTACAGCCTCCGGCTCCAGCTCTGGGCCGAACACCTGGGACTCGACGAGAGTGACCCCCGGCTCCACGATCCGTCGGACGGCCTCCGCCTGTGGAACGCCGCCGCCGATGCCCTGGACGATTGGTATGAAACCGATCGCCGCTCGCCCCGGCCGAAAGGCCATGTGCGGCACCACACCACAGAACCGGTGTCGCGACTTCAGCGCCTATGGGCGCAGCCTGCAAACCGCTTCCTGGTTGACCCGGACGGCCGCCCCCGCAAGTTGCGCGGCACTACTGAGTTCTAG	MNGSPDYWFLSAAERGNDATRVHAGGAGLSSWSQGNLVRPLIHGATYFARLHKELSALQAGDRVWFTDWRGDGDERLTADGPAIGELLARLARAGVEVRGLVWRSHGERVSAPMSNRSNELLSRQINDAGGEVLLDQRVRIFGCHHQKLFVIRSGSDPSRDVAFVGGIDLSHSRRDDADHAGDPQAVDMDPRYGKQPPWHDAAVELRGPVVADVLELFAERWNDPHPLDHRTPYRMLLQRLADMPRHPEPLQETAPPPPPAGPHAVQLLRTYGVKHPPFPFAPSGERSVARAYTKAFALARSLIYIEDQYLWSAEVAAGIAAALEQNPGLNVIAVVPRYPDSDGPLGGPPKRLGQLRAIQTISRSAPDRFGVFNLENTAGTPIYVHAKICIIDDTWFTCGSDNFNRRSWTTDSELTCAVIDTTAGEQEAPGADTGPGASRPLAYSLRLQLWAEHLGLDESDPRLHDPSDGLRLWNAAADALDDWYETDRRSPRPKGHVRHHTTEPVSRLQRLWAQPANRFLVDPDGRPRKLRGTTEF				NA	NA	NA	NA	NA
D1-29_04128	1518	efpA_2		putative MFS-type transporter EfpA	ATGTCCACGTCTGCTGCTTCCATTGAAATTGAAGCGGTAGCGCAACCCCCGGGCCGCCGTCTCGGGCTCGCCCTGCTGGTTATTGCGACCGCCCAGTTGATGCTCGTTCTGGACGATTCCATCGCGAACATCGCTTTGCCCACCATCCAGAACGAGGTGGGCATACCTGCCGCAACACTTCCCTGGGTGATCAACGCCTACATCCTCGCCTTCGGCGGGTTGTTGATTTTTGGCGGCCGGGTGGGGGACCTGTTTGGCCGGCGGCGCACTCTTCAGCTTGGTGTCCTGCTGTTCACCGTCGCATCGCTGGCAGCAGGCCTGGCCCCAACAGGCCCTGTGCTGATCGCGGCCCGTGCCCTCCAGGGGATCGGGGCAGCATTGACTGCACCCAACGCGCTGGCCCTCATTGCTACGACATTTCCCGCTGGCGAGGCACGGAACAAAGCGCTTGCCGTCTACGGGGCAATGTCCGGCCTTGGCATCACCGCCGGCCTGCTGCTGGGGGGCGTGCTGACAGGAACCCTGGGTTGGCGGTGGGTCTTCTTTATCAACGTGCCCATCGGACTAGCCCTGCTGGCCGGCACCCGCACCCTGGTGGACGCGCCCAGGCACGAGGGCCGCATGGATCTCGTTGGCGCGCTGACCGGAACCGGAGGCATTACCGCACTCGTCTTCGCGATCATCCGTGGCGGCGAACAGGGATGGAACGACGTCCTCACCCTCGCCTCCCTCGCGGTTGCCGCCGTCCTGATTCCTGTTTTTATCAGGCTGCAGGCCCGCAGCAGCGACCCGCTCCTGCCGCTGCGTCTGTTCCGGGACCGGAACCGCTCCGGCTCCTACCTGGCCATGCTCCTGGTGGCCTTTGGGCCCATGGGGACCTTCTACCTGCTGACGCTGTACATGCAGCACGTCCTTGGCTACAACCCTGTCCTGACCGGCCTCGCCTGGCTTCCGTTTGGTGTCGGCATTGTCCTGGGCGCCGGAACCGCTTCCAAGCTCGTGGTCCGCTTCGCCCCACGGATCATCTCCACGGCCGGGATCCTGATTTCAAGTGCAGCCGTTCTGTGGTTCTCCACCATCCAAAGCTCCACGACATATGCGGCCTTGCTGCCCGGCATCTTTGCCCTGGCCTTCGGCTTCGCCCTGAGCTTCATCCCGCTGACCCTCACTGCCGTCAACAACATCGAGGCCCAGGACTCGGGCATCGCGTCTGCGCTGCTGAACTCGTCCCAGCAGATCGGTGTGGCCCTCGGGGTAGCGGTGCTCTCCACCGTCTCCGTGGGCATCACCGATGCCCGGCTCCCCGATGCGCTCACAAAGCTCTATACCTCCCACGCCGCCGGAGATGCCGCATTGAGGGCAACAGCCGGCGAGGCACTGACCAGTGGCTACAGTGCTGCACTTTTCGTGGCGGCCATCCTCCTCGCTGCATCCGGACTCATCACAGCCCTGGTCATCAATGCCCGAGCCCAAAGCGAAGGCCACCAATCCTTCAGCGGCGCTGTGGAGCCGCGGTAG	MSTSAASIEIEAVAQPPGRRLGLALLVIATAQLMLVLDDSIANIALPTIQNEVGIPAATLPWVINAYILAFGGLLIFGGRVGDLFGRRRTLQLGVLLFTVASLAAGLAPTGPVLIAARALQGIGAALTAPNALALIATTFPAGEARNKALAVYGAMSGLGITAGLLLGGVLTGTLGWRWVFFINVPIGLALLAGTRTLVDAPRHEGRMDLVGALTGTGGITALVFAIIRGGEQGWNDVLTLASLAVAAVLIPVFIRLQARSSDPLLPLRLFRDRNRSGSYLAMLLVAFGPMGTFYLLTLYMQHVLGYNPVLTGLAWLPFGVGIVLGAGTASKLVVRFAPRIISTAGILISSAAVLWFSTIQSSTTYAALLPGIFALAFGFALSFIPLTLTAVNNIEAQDSGIASALLNSSQQIGVALGVAVLSTVSVGITDARLPDALTKLYTSHAAGDAALRATAGEALTSGYSAALFVAAILLAASGLITALVINARAQSEGHQSFSGAVEPR				NA	NA	NA	NA	NA
D1-29_04129	552			hypothetical protein	TTGACTACGATCCGCACCGCCGCCGCGAGCTCCCTCGCCGCCGCAGGTCTACTGTTTACCCTCGCCGCCTGTTCAGCACCGGCCGCCACCCAGCCAACCACCTCCGCGCCGGCTTCCACGGCAACGTCTTCCAGCAGCGCCGACTCCGGACCCTGCACCGGTGTGAAGGTCATCGTCGACTCGGGCGCCCTGAAGCAGGCTGCCGCTGACAAGTCCGTTTGCGTGCCCGTGGACGCAGCAACTCCGGCCTCCAAGGTGCTCGAAGAAGCAGACGTCAAAACCGTAGGCACCACCCAATATCCCAACGAACTGATATGCCGTGTAAACGGTGTGCCAGCCGCAGACTTCGAGATCAAACACAAGGCCGGCACGTACAAGGAAGAATGCAGCGGCATGCCCGCCGCTTTTGCGTACTGGGCTATGTGGGTGAAGCCGGCCACCGGTGACTGGGCCTATGCCCAGGAGGGCCTGGCCACTCTGCAGATGAAGCCCGGAGAGAGCCTGGAACTGCTCTTCTCGGTCGACGGCGAACCGGCCGCCCCGAAGGCATGA	MTTIRTAAASSLAAAGLLFTLAACSAPAATQPTTSAPASTATSSSSADSGPCTGVKVIVDSGALKQAAADKSVCVPVDAATPASKVLEEADVKTVGTTQYPNELICRVNGVPAADFEIKHKAGTYKEECSGMPAAFAYWAMWVKPATGDWAYAQEGLATLQMKPGESLELLFSVDGEPAAPKA				NA	NA	NA	NA	NA
D1-29_04130	2865	btuD_15		Vitamin B12 import ATP-binding protein BtuD	ATGACCTTCCGACCCGCGCCGTTACGTGCAGCGGCGGCTCTCGCCGTCGTCTTCATCGCGGCGCGGGTCATCTACCGCATCCTGTTCAACGGTGCGGGCATCGGCGAACCGGTCCTGCTCGACCTGCCGCCGGTGCGGCTGCCTGCCCCCTTTGCCCACGTGGTCTTCCTCGGTCCTGTCACGGGACCCGGCTTGTGGCAGGCGGTTCTGTCAGCCCTGCCGATCGCCGGGATCATCCTCGGTTTCGGCATCCTCAACGCCTGGGTGGACATTGCCCGCGGCTTCGTGCACTTGGCCCGACGCGGGCCCATGCAGGGCATTGCCCGGATGCTTGTGGTGGCGTGGGCGGCGCTGCCGGCGCTTGCCGACGCCGTAACCTCCGTACGCCTGGCCTTCCGCTTGCGGGGCGAACGCTTCGGAGCCCGTGCCCTGGTGCCCGTACTCGAGCGAACCCTGGAGCACGCCGGGCGGGTTGCCGCGGCCCTGGAGCTGCGCGGCTTCGGGAGCCGGGCAGCGCATAGTTCCAATAACGACGGCGACATTCCGCTTCTGGTGCGAGACGCACAGTTCCGCATCGGTGATGCGCAGGTGCGCGTTGCCGGCTTCACGCCGTCGAGCGGGTCCATTTCGGTGATTACCGGGCCCACCGGCTCCGGCAAGTCCACCGTCCTGCGGGGCATCGCCGGGCTGCTCTCCCACGTTGACGGCGGAGAAATCTCCGGCACCGTGCGCGTCGGCGGAGCGGACCGCGCCACCACTCCGCCACGCGATACCGCACGCCTTATCGGCGTGGTCCTGCAGAATCCCCGGGCCGCGTTTGCCAGCACCCGGGTTCGGGACGAAATCTCCCTCGCACTGGAACTGCGCGGCATGGCATCCGGGGCAGCCAACGCCCGGGTGCTGGAGGTAGCGGAAAGCATCGGGGTGGAAGCCCTGCTGGACCGGAATCTCAGTACCCTCTCGGCGGGTGAGGCCACACTCGTGGCCATTGCTGCCGCGGTGGTGGAGCGTCCGGCCCTGCTCCTGGTCGATGAGCCCCTGGCCGATCTTGACACCGCAGCGCGCCGGCACGTCATCGCCGTACTCAGCGCCCTCGCCCACGAATCCGGTGTCTGCGTCATCGTGGCGGAGCACCGGGCGGAGCAGCTGGTACCCGTTGCCGACTCGTGGTGGACCATCGACGGCGGCGCCCTGGTGCCGGGTTCCGCGCCAGCCGCGCGTTCACACCGTCTCGAGGCCAGGCCGACGCCAGCGGCGCCGGCGGATCTGGTGCCAGTACTGACTGCCACAAACCTTGCCGTGCACCGCAAGGGCAAGCCGCTGGTGCGCGAAGCGTCGCTGACCCTGCACCGCGGTGAGGTGGTGGCCCTGGTGGGGCCGAACGGGGCCGGAAAGTCGTCCCTTCTGGTGGCGCTCGCGCTGGGTGAGGGAACGGTTAGTGACGGAACCGTCGACGGCGGCACGGGCGGTCAAAACATGCTCGACGGCGGCCGCGTCGCCCTCGTCCCGGACGCCTCGGACGACCTCTTCACCAGGGACACGGTGGCGGGAGAGCTGCGCGCGGCCGAGCGGCGCCAGGCGCGCCGAAAGAACGGCGCAAAACCTGAGCCGGGCTCCGCGGCTTCACACTTGGCCCGGTTGCGCGGAGACGTCAGTATTCCCATTGGCCACGAGCATCCCCGGGACCTCTCCGCAGGCGAGCGCAGGATCCTTGCCATCGCGCTGCAGACCATGGACGATCCCCAGGTACTCCTGATCGATGAGCCCACCCGCGGACTCGATCCTGCGGCGCGCGCAGCAGTCGCCGCGGCACTGCGGGCCGCAGCGGACACCGGCACGGCGGTCATGATCGCCACACACGACCACGATTTTGCCCAAGGCCTCGGCGCCCGGATCCTTCCGATGAGTGACGGCGTCGCGCCTTCTTCCGTCGCGGCCGATGTTCCTGAAGAGCCCCTTCCGTCTCCCCGGCCAACAGGTGCCGGAGCACGACCGAGGGTTATCGACGAACAAGCAGACTTCCAGGGCGCGGCCAGAAAGCCCCGTATCCGCATGCCCCGCGGCGTCGAGCTCGCAGTCCTGGCCGCCGCAAACGTTCTGGCCCTCGCAGCTTTCTGCTGGCCGCTCCTCGCCGCGGCCCTCCCGCAGGATGCCGCCGCTGCCCTCCCCTACGCGGCGCTGGCCATCGCGCCGCTCGCCGTCGTCGCCATTGTGGTCTCCCTCGACGGCTCGGTCAGCTCGGCACACACGGTGGCGTTGCTTGGCGTCCTGGCCGCCGTCGGCTCGGCAGTGCGCGTGGCGAGCACCGGCGTCGGCGGCGTGGAGGCAGTGTTTATCCTGCTGATCCTGGCCGGCCGGGCCTTCGGTGCCCGTTTCGGGCTGCTGCTGGGCGCCGCCACCATCGCCGTCTCCAGTGCCTTGTGGAGCGGGATCGGGCCCTGGACACCATTCCAGATTTTCGCCTGTGCATGGGTGGGTGCCGGGGCGGGCCTGCTCCCCCGCAGCGTGCGCGGCAAAGCCGAACTGTGGATGCTGTGCGGCTACGGCGTCGTGGCGTCCTACGTATTCGGCCTGCTGACCAACCTGTGGTTCTGGCCCTTCGCGGTAGGCGCCGGCACCGGCATCTCCTACGTGCCCGGCGCGCCGCTGGGCACCAACCTCAGCAGCTTCCTGCTCTACTCACTGGTGACGTCGACGGCGGGCTGGGACACCCTGCGCGCCGTCACCACCATCATCGGAATCATTCTGGTGGGCCGGGCCGTTCTCGCCGCGTTCCGGCGGGTGAAGCCGGTCTCCAATATGGGCGGGAACGCCGCGAAAGCTCACTCCCCCCAGGCCAAAGACCGGCTGCAACTCCGGGTTTGA	MTFRPAPLRAAAALAVVFIAARVIYRILFNGAGIGEPVLLDLPPVRLPAPFAHVVFLGPVTGPGLWQAVLSALPIAGIILGFGILNAWVDIARGFVHLARRGPMQGIARMLVVAWAALPALADAVTSVRLAFRLRGERFGARALVPVLERTLEHAGRVAAALELRGFGSRAAHSSNNDGDIPLLVRDAQFRIGDAQVRVAGFTPSSGSISVITGPTGSGKSTVLRGIAGLLSHVDGGEISGTVRVGGADRATTPPRDTARLIGVVLQNPRAAFASTRVRDEISLALELRGMASGAANARVLEVAESIGVEALLDRNLSTLSAGEATLVAIAAAVVERPALLLVDEPLADLDTAARRHVIAVLSALAHESGVCVIVAEHRAEQLVPVADSWWTIDGGALVPGSAPAARSHRLEARPTPAAPADLVPVLTATNLAVHRKGKPLVREASLTLHRGEVVALVGPNGAGKSSLLVALALGEGTVSDGTVDGGTGGQNMLDGGRVALVPDASDDLFTRDTVAGELRAAERRQARRKNGAKPEPGSAASHLARLRGDVSIPIGHEHPRDLSAGERRILAIALQTMDDPQVLLIDEPTRGLDPAARAAVAAALRAAADTGTAVMIATHDHDFAQGLGARILPMSDGVAPSSVAADVPEEPLPSPRPTGAGARPRVIDEQADFQGAARKPRIRMPRGVELAVLAAANVLALAAFCWPLLAAALPQDAAAALPYAALAIAPLAVVAIVVSLDGSVSSAHTVALLGVLAAVGSAVRVASTGVGGVEAVFILLILAGRAFGARFGLLLGAATIAVSSALWSGIGPWTPFQIFACAWVGAGAGLLPRSVRGKAELWMLCGYGVVASYVFGLLTNLWFWPFAVGAGTGISYVPGAPLGTNLSSFLLYSLVTSTAGWDTLRAVTTIIGIILVGRAVLAAFRRVKPVSNMGGNAAKAHSPQAKDRLQLRV				NA	NA	NA	NA	NA
D1-29_04131	1167	nagC_4	COG1940	N-acetylglucosamine repressor	GTGAATTCTCAGTCAATGTGGTCGGCCCCGGACGCCTCGCTTCCTGTAGCGATCGAGGTCCTGCGCAGGGGGCCGATTTCCAGGGCAGCGATAGCCCGCCGACTCCAGCTCTCCCCCGGTTCCCTGACGCGCCTCAGTACACCCCTGATTGAGGAAGGCCTGCTCAGAGAGGTAGGGGAGCACAACGACGGCCGGGTGGGCCGGCCCACCCGCCTGTTGGATGTCGACGCCGATTCCAGACATTTCATCGGAATGAAGATCCGCGAAAGCGAGATCATCGCTGCGCAGACGAATCTTCGCGGTGAAATCAGGAGCCACCGAACCGAAGCGATTAAGGATCGCGACCCGGTCGCAGTCGTCCAGCAAATCACAGGGTTGACCCAGCGTCTGGGGCTGGAGAAAGACATCAGCGGCATCGGTATCGGTATCGGCGGTTTGATTCGAGACCGGAAGTTCGTCATTGACGCCAGGTTTCTTGGATGGAGCAACCTCGACCTGGCGGACATGGTCACATCAGCAACAGGAATACCCACCCTGATAGACAACGACCTCGTTGCCTTTACCGAATACGAACATTGGTTCGGCGAGGGGAAGGAAGATGACCGCTTCGCAGTTGTCACACTCGGCATCGGAACAGGGTTCGGCCTTGTAGCCAACGGCGCCCTTGTCACGGGGGACGATTACGGCATCGGCCTCGTAGGACACTGGCCGCTCGACCCCACAGGTCCCCTTTGTTTTGCCGGCCATCGGGGCTGCGCAACTAGCGTTCTGAATTCTGATTCCATCGCACGGCATGTTTCCAATGCCCTCGGGCGTGAAGTGGACTACGAACAGGCCTTGGATCTGGCAGAACAGGGAGATCCTGCCGCGAGGCGGGTCGTCGACGACGCTGGCCGCGGGCTCGGCAGACTGATCGCAGCCATCTGCAACCTCACACTGCCACAGCGCATCATCATCGCCGGAGAAGGCGTCCGGCTCGCCGCGGTAGCCCGCGCCGCCGTCGAAGCGGGCATTGCCTTGGACCGCGACCCCCGGGCCACCACGCCCCCCATCGTCCTGGCGTCAAAAGATAACGTGCAATGGTGCCGCGGGGCCGCTGTCCTTGCCATACAGGCATTCGTCCACGGAACCCTGCCAGCACTCTCCATCCTGTCCGAGCGCGATTAG	MNSQSMWSAPDASLPVAIEVLRRGPISRAAIARRLQLSPGSLTRLSTPLIEEGLLREVGEHNDGRVGRPTRLLDVDADSRHFIGMKIRESEIIAAQTNLRGEIRSHRTEAIKDRDPVAVVQQITGLTQRLGLEKDISGIGIGIGGLIRDRKFVIDARFLGWSNLDLADMVTSATGIPTLIDNDLVAFTEYEHWFGEGKEDDRFAVVTLGIGTGFGLVANGALVTGDDYGIGLVGHWPLDPTGPLCFAGHRGCATSVLNSDSIARHVSNALGREVDYEQALDLAEQGDPAARRVVDDAGRGLGRLIAAICNLTLPQRIIIAGEGVRLAAVARAAVEAGIALDRDPRATTPPIVLASKDNVQWCRGAAVLAIQAFVHGTLPALSILSERD				NA	NA	NA	NA	NA
D1-29_04132	1296			hypothetical protein	ATGTTCACCCAAAACAAACTCTCGAGGCGGGCCTTCGCGGCTCTGGCAACATCTGCTGTCGCCGCACTAGCCCTGTCAGGATGTTCTGCACCCCAAGCCAATTCCGAGGCAAAGACCCTCAAGGTCTGGTGGTGGGAAAACGATGACAGTGCCCTCTCCACCGGCTGGAACCGTGCCATTGAACTCTTTGAAGAGAAGCACCCCGACGTGAAGGTCGAGTTCGAACTCAAGACCTACGAGCAGATGCAGCAGTCAGGTCAGCTCCTGCTCGATTCCAATGACGCACCCGACGTCCTGGAGTACCTGAAAGGCAATGCCACAGCAGGCGTTGTTTCGCAGGCCGGGCTGCTGACCGACCTCACGGATGTGGCCAAGGACCGCAACTGGAAACTGGACAGCACCGCACAGGACGTCGGACTCTACGAAAACGGCGTGATGGGCTCCGGCCAGCGGTACGGCATCACGAACTACGGCGAGTACGTCTCCGTCTGGTACAACAAGGACCTCTTCGCTCAGCAAAACCTGCAGGTTCCCACGTCGCTGCCTGAGCTCGAACAAGCCATGGACAAATTCATCGGTGCAGGGATCACCCCGCTGGCCCTGGGCTCCCAGGACTACCCCGGCACCCACCTGCTGTACGAACTGGCGCTGGCCAACATGGACAAGGATGCCTGGTCCGCCTATCAGCAATTTGAAGGCGACGTTGACTGGAGCGCCTGGGAAAAGGCCGCCCAAACTGTGCAGGACTGGACCAACCGCGGTTACATCAGCAAGGACTCCACCGGCGTCAGCGCCCAGGACGCCGGCAACGCCTTCGCGGCAGGGCAGTACCCCATCTTCGTCTCCGGCACCTGGTGGGCCGGCGGCTTCGCCGACGATATCAAGGACTTCCAGTTCGACCAGTTCCTCTTCCCCGCCACAGACCTGCACCCCGGTTCCGGCGGCAACCTCTGGGTTGTCCCAGAAAAGGCACGCAACAAGGAACTCGCCTACGACTTCATGGAGATCACCATGAGCCCGGAGATCCAGAACCTGCTGGGCAACGAAGGGGCTGTTCCTGTCGCCGCCGATGAAGCGGCCATCACCTCCCCGATCGGCAATCTCACTACTCCGAGGTTCAACGAACTGCTGAACAGCAACGACGGCGGCCTGGGCTGGTACCCCGATTGGCCCGTCCCGGGACTCAATGACGTGCTGATCGCCCAGACCAGTGACCTGGTCCAGGGCAACATCACTCCGGCAAAGGCCGTGGAAAACATCAAGGCAGCTTACGAACAGGGCAAGCCCAGCAAGTAG	MFTQNKLSRRAFAALATSAVAALALSGCSAPQANSEAKTLKVWWWENDDSALSTGWNRAIELFEEKHPDVKVEFELKTYEQMQQSGQLLLDSNDAPDVLEYLKGNATAGVVSQAGLLTDLTDVAKDRNWKLDSTAQDVGLYENGVMGSGQRYGITNYGEYVSVWYNKDLFAQQNLQVPTSLPELEQAMDKFIGAGITPLALGSQDYPGTHLLYELALANMDKDAWSAYQQFEGDVDWSAWEKAAQTVQDWTNRGYISKDSTGVSAQDAGNAFAAGQYPIFVSGTWWAGGFADDIKDFQFDQFLFPATDLHPGSGGNLWVVPEKARNKELAYDFMEITMSPEIQNLLGNEGAVPVAADEAAITSPIGNLTTPRFNELLNSNDGGLGWYPDWPVPGLNDVLIAQTSDLVQGNITPAKAVENIKAAYEQGKPSK	PGPT0016330_1473	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
D1-29_04133	975	ngcF_2	COG1175	Diacetylchitobiose uptake system permease protein NgcF	ATGACCGCAGTAACCCCGGCCCCTACGGCCCCCGCATCCCGGAACACCCCACCCAGAACAGGAACGCCGCGGCGAACTGCACGGGAGACCCCGCTCGGCTACTGGATCTACCTCCTGCCCGGCGCCATCGGCTTCATCGCCATCGTGGCCATCCCTTTCGGCATGAACCTCTACTACAGCCTCACCAGCTGGCGCGGCGTCGGCACCCCCAAGTTCGTCGGCCTGGACAACTACGTGCGCCTCGTGGCCGACCCCGCCTTCTGGGCCTCATTTCTGCACAGCACCGCCTTCATCCTTGCCATGGCCGTCATTCCCACCGCCCTGGGAGTCTTCCTGGCTGCCGTCCTCTTCGACTACATTGCTCCAAAGTTCGGTGCCCGGACAGCCAGCATCCTCCGCGCCATGTTCTACCTCCCGCAGATCCTTCCGATCGTGGTGGCCGGCGTCCTGTGGAAATGGCTGTACCAGCCGCAGTACGGGATCATCAACACAGTCCTTGACGGCATGGGGCTGGGCTGGCTCCAGCAGAACTGGCTGGGTGATTCCGATACAGCCATGCTCGCCGTCATGAACGTCCTGATCTGGCTTCAGATCGGCTACACCATCGTCGTATTCATGGCAGGACTCTCACGGGTGGATCCGGCCCTTTACGAGGCGGCCGAGATTGACGGTGCCGGCTGGTTCCAGCGTTTCTGGAGCATCACCATCCCCCAGCTCCGCCCGGAGATCGCCGTCGTCCTGATCACCACGTCTGTGGCCGCCCTGAAGGTCTTCGCCCCGATCTACGTCCTCACCAAAGGCGGGCCCGGGACCAGCACCATCGTCCCGGCCTACTTCTCGTACTCAAACTTCTTCACCACCACACAGGTGGGCTACGGCGCCGCCGTCGCCTCGCTCCTGGCGCTGCTCGTCACCATCATCGCGATCGTCCTGCTGCGCTACCAGACCCGCAACGCCGAGGGATTCGAAAAGTGA	MTAVTPAPTAPASRNTPPRTGTPRRTARETPLGYWIYLLPGAIGFIAIVAIPFGMNLYYSLTSWRGVGTPKFVGLDNYVRLVADPAFWASFLHSTAFILAMAVIPTALGVFLAAVLFDYIAPKFGARTASILRAMFYLPQILPIVVAGVLWKWLYQPQYGIINTVLDGMGLGWLQQNWLGDSDTAMLAVMNVLIWLQIGYTIVVFMAGLSRVDPALYEAAEIDGAGWFQRFWSITIPQLRPEIAVVLITTSVAALKVFAPIYVLTKGGPGTSTIVPAYFSYSNFFTTTQVGYGAAVASLLALLVTIIAIVLLRYQTRNAEGFEK	PGPT0016335_169	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
D1-29_04134	912	dasC_6	COG0395	Diacetylchitobiose uptake system permease protein DasC	GTGACCACCACAGCCCCCGCTCCCGACACCGCCACACCATCACCGGAACGCCGGCACAAACCGGCCCGCACCAACAGGAGCGCCAGGAGCCGGCGCGGCATCAGCGGCTGGACCGTCCTGATTCTGTTGGCCGTGGCCGCGGCGCTGATGATTTTCCCCTTCTGGCTGGCCCTGATCAACGCGTTCAAACCCTCCACGGAGTACATCGCTGATGGCCCCATCGGAATCCCCACCGAACTGGACTTCACCGCGATCATCGACTTCTGGATCGGCGTGAACTTCAACCAGAAACTGCTCAACAGCGTCATCCTCTCCGGCAGCGTAGCCCTGATTGCCGCCACGTTGAGCCTGCTCAGCGCCTTCGCCATCGGCATCGGCCGGCTCAAAGGTAGGGTGTGGATCCTCGCCGTCTTCATGCTCGCCTTCACAATCCCGCAGGAAGCCTTGGTCTACCCGCTGTTCGTCCTCTCCCGGGAACTGAACCTCTACGACAACCTGCTCGGCGTCACCATCATCCTGGCCGTCCTGCAAAGCGCCTTCGGCACCTACATGCTCGCCTCCGTGCTCGGATCCTTCCCCATGGAAGTCCTCGAGGCAGCCCGACTGGACGGGGCAAGCCGCTTCCAGATCCTCCGGGTCATCGTCCTGCCCCTGACCCGCCCAACACTGGCCGTGCTGGTGACCTTCTTCTTCATCTGGACCTGGAACGACTTCTTCCTCCCCCTGGTCCTACTGCCAAGCGCTTCCAACCAAACCGTGTCCGTGTCTCTGGGCGCACTCAGCGGCCAGTACACCAGCGACCCCACCGCACTGGCCGCAGCATCCATGGCCGGCATCCTGCCAGCACTGATCTTCTTCCTCCTCTTCCAGCGCACCCTCATGCGCGGCGTAAACATCGGAGCCATCAAGTGA	MTTTAPAPDTATPSPERRHKPARTNRSARSRRGISGWTVLILLAVAAALMIFPFWLALINAFKPSTEYIADGPIGIPTELDFTAIIDFWIGVNFNQKLLNSVILSGSVALIAATLSLLSAFAIGIGRLKGRVWILAVFMLAFTIPQEALVYPLFVLSRELNLYDNLLGVTIILAVLQSAFGTYMLASVLGSFPMEVLEAARLDGASRFQILRVIVLPLTRPTLAVLVTFFFIWTWNDFFLPLVLLPSASNQTVSVSLGALSGQYTSDPTALAAASMAGILPALIFFLLFQRTLMRGVNIGAIK	PGPT0016340_206	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
D1-29_04135	1728	malL_5	COG0366	Oligo-1,6-glucosidase	GTGACCACCCTCCAGCCCGCACTCCGACACCCCAGCCTCCGCCCCACTGATGAATGGTGGAAGGCGGCCGTCGTCTACCAGGTCTATCCACGCAGCTTCGCCGACTCCAACGGCGACGGCATCGGCGACATTCGCGGCATCATCAACCGCCTCGACCACCTGGAAGACCTTGGTATCGACGTCGTCTGGCTCTCCCCCGTCTACGCCTCACCCCAAGATGACAACGGCTACGACATCAGCGACTATTACGCCGTGGACCCCACCTTCGGGACCCTGCAGGACCTCGACGAACTGATCGCCGGACTCCACGCCCGCGGCATGAAACTGGTCATGGACCTCGTGGTCAACCACACCTCCGACGAACACGCCTGGTTCCAGGAATCGTGCTCAAGCCTGACAAGTCCCAAACGTGACTGGTACATCTGGCGCGATCCCCGTGACGGCGCAGAACCCAACAACTGGGGCTCCTTCTTCTCCGGCTCCGCCTGGGAGCCGGACGAGACCACAGGACAATACTTTCTCCACCTGTTCTCGAAAAAGCAGCCAGACCTCAACTGGGACAACCCCGAAGTCCGGGCAGCCATCTACCAGATGATGAACTGGTGGCTGGACCGGGGCATCGACGGCTTCCGCATGGACGTCATCAGCTTCATTTCCAAGCACCCGGACCTGCCGGACGGCGACGTCCCGGATGGAGGTAGCTGGGGCGACGGCATCGCGTTCTACGGCTCCGGGCCCCACGTTCACGAATATCTCCAGGAAATGCACCGGGAAGTCTTCGCCCACCGGGACGCCGACCTCATGACCGTGGGAGAAATGGTGGACGCCACGCCCGAACTCGCGCGGCTCTACACGAATCAGCAACGCCTGGAACTGGACATGGTGTTCCACTTCGAACACGTCGGGCTGGACCATGGTCCCGGCGGAAAATTCACCCGTAAGCCCCTTGACCTCGTTGCCGTCAAGCAATCATTCGCCCGATGGCAGGAAGCGCTGGCCGAAGTGGGCTGGAACAGCCTCTACTGGAACAATCACGACCAGCCCCGGGTTGTGTCCCGATTCGGAAACGACACGGACTACTGGTACGAATCCGCGACCGCCCTGGCGACGGTACTTCACCTGATGCGCGGAACACCCTACATCTACCAAGGTGAAGAGCTCGGGATGACCAACATGGCATTCCAAAGCATCCATGAGTTCCGTGACCTGGAAAGCCTGAATCACTACCGCGAAGCCATCACCGGAAGTGACGGCAGCACGGCAGCCGAACTCCTTGCCGGCATCGCCATCGGGGGACGGGACAATGCACGCACGCCTGTGCAGTGGGATGCGACGCCGAACGCCGGCTTCACCACAGGCGAGCCCTGGATTCCGGTCAACCCGAACCATGCCTGGCTCAACGCTGCCGCCCAGCGTCAGGACGCCGATTCGGTCTTGGCCTGGTACCGCAGCCTGGTCCGCCTCCGCCATGAAGAGCCGGTCCTTATCAACGGGCGCTTCACCCTCCTGCACGCGGATGACCCGCAGCTCTTCGCCTACACGCGGATCAACGACACCACCGAGCTGCTGGTCCTGGCCAACTGCTCCTCAGAACCTGCAGCACTCGCCGCGGAAACCTACAGTCATTGGACACGTGCTGACGTCATCCTCAGCAATCAGTTAGTCAACCGCCCCATCCAGAAGGAACTGCTGCCCTGGGAGGTGATCGTCCTTCGCCGCCTCGTCTGA	MTTLQPALRHPSLRPTDEWWKAAVVYQVYPRSFADSNGDGIGDIRGIINRLDHLEDLGIDVVWLSPVYASPQDDNGYDISDYYAVDPTFGTLQDLDELIAGLHARGMKLVMDLVVNHTSDEHAWFQESCSSLTSPKRDWYIWRDPRDGAEPNNWGSFFSGSAWEPDETTGQYFLHLFSKKQPDLNWDNPEVRAAIYQMMNWWLDRGIDGFRMDVISFISKHPDLPDGDVPDGGSWGDGIAFYGSGPHVHEYLQEMHREVFAHRDADLMTVGEMVDATPELARLYTNQQRLELDMVFHFEHVGLDHGPGGKFTRKPLDLVAVKQSFARWQEALAEVGWNSLYWNNHDQPRVVSRFGNDTDYWYESATALATVLHLMRGTPYIYQGEELGMTNMAFQSIHEFRDLESLNHYREAITGSDGSTAAELLAGIAIGGRDNARTPVQWDATPNAGFTTGEPWIPVNPNHAWLNAAAQRQDADSVLAWYRSLVRLRHEEPVLINGRFTLLHADDPQLFAYTRINDTTELLVLANCSSEPAALAAETYSHWTRADVILSNQLVNRPIQKELLPWEVIVLRRLV	PGPT0019145_526	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019145-malL-K01182	NA	NA
D1-29_04136	1941			Dextranase	ATGCCCGAAACAGGTCTGGGCCGTCTGGCCAAACGCATCACTGCCGCAGCCGCCGTCGTACTCTTCAGCACTGCCGCCCTCCCGGCGCACGCAGCGCCCGCCGCCGCGCCGGCAGCTCCGGCAGCACCGGCAGCACCGGCCAAGGAAGCTTCCATTACCACCGTGGACAACGGCAACCTGCACACCTGGTGGCACGACAACGGGGTCTTCAACACCGAAGGCCCCACCGAGGACAACGAGGTGCGCCAGTCCTCGATTTACGACGTCCAGGTCGCCTCGGCCAACCAACCGGAGAAGGCCTACGACGCCTTCACCTACATGAGCATCCCCCGCAGCGGAAAGGACAAGGTCGGCTACACCAAGGAAGACGGCGCGGAGTTCTCCTCCCAGGCAGGCCTGTCTATGAGCTGGTCCAGCTTCGAGTACGCCAAGGACGTTTGGGTGGACGTCAATCTCAAAACCGGCCAGACCATCACCTCGGCCGACCAGGTCCAGATCCGTCCCAGCAGCTACAACTTCGAAAAGAAGCTCGTGGACTCGGACACGGTGAAGATCAAGGTGCCGTACTCTGACGCCGGGTACCGGTTCTCGGTGGAGTTTGAGCCGCAGCTGTACACGGCGTACAACAACATGTCCGGGGACAGCGGCAAGCTGACCACCAATGCGGAGGGCAACCGCGCCATCCACACCGAGCCCCGGAACTCCATGATGATCTTCGCCGAACCGAAACTCAGCGGCGGACAAAAGGAGCGCCTGGTTCCGACCAAGGAATCAGGAAGTATCCACTACCCGGCCGAAGGTGAGGTGACCAACCTCAACTCGGTTGCCGAGGAGATCATCTACTTCAAGCCCGGCACGTACAGCATGGGCTCGGGCTATCACGCGGTCCTGCCGCCGAACGTGAAGTGGGTGTATCTGGCCCCGGGCGCCTATGTGAAGGGAGCCTTCCGGTTCTTCCACGACAACCAGAGCCAGTACAAGGTGACCGGCTATGGCGTCCTCTCCGGCGAACAATACGTGTACGAGGCGGACACGGCCAACAACTATAACGCTCTGAGTGGAGCCTCAAACTGCCACGTCTCCTGCGTGAAAATGCTTCAGTTCGAAGCATCAAACACCGAACAGAAGCTGGACCTGCAGGGCGTCACCATCAACGAACCGCCGTACCACTCCTTCGTCGTCTACGCGCACGAAGGAGAAAAAGAGGTGGGCGTAGAACGCTTCCGGATGAATGTGGAGAACTACAAGCAGGTAGGCAGCTGGTACTGGCAGACCGACGGCATCGAGCTGTACAACGGCAGCACCATGAAGAACACATTCTTCAATTCCAACGACGACGTGCTGAAGATGTACCACAGCGACGTCACCATCGATAACACCGTGATCTGGAAGAACGAGAACGGACCCGTGGTCCAGTGGGGCTGGACCCCACGAAACATCAACAACGTCAACGTCACCAACACCTCGGTCATCCATAACCGGATGTACTGGAAGGACGTCAAATACAACACCTGCATCTTCAATTCCTCCTCCCACTGGGAGGACATGGGCTCCACCACCAAGGCGGACCCCAGCACCACGGTCAAGAACATGACATTCGAAAACTTCAAGGTAGAGGGCATGACCAACTGCGCCATCCGCGTCCATGCCCTGTCCAACACCGAGAACATCAACATCAGGAATCTCAAGATCGACAGCTGGAACGGACTTGACTGGACCTCGCAGGTCAGCCACCTCAAGCGCTACACCAACCCTGCAGGCGAGAAGGTAACCATCGGCAACGAGGTGACTGACGGCAAGGGCCTCGCACTGGAAAACTACTCCGTTGGCGGCGAAATCATCGAGAAAACCGCCGGCAACTGGGCCGACTACCAGCCTGGCCGGCTCGGCTTCGACGGCGAGAACTGGGACAGCTGGAACGCCTTCAAGTCCACCCCATAG	MPETGLGRLAKRITAAAAVVLFSTAALPAHAAPAAAPAAPAAPAAPAKEASITTVDNGNLHTWWHDNGVFNTEGPTEDNEVRQSSIYDVQVASANQPEKAYDAFTYMSIPRSGKDKVGYTKEDGAEFSSQAGLSMSWSSFEYAKDVWVDVNLKTGQTITSADQVQIRPSSYNFEKKLVDSDTVKIKVPYSDAGYRFSVEFEPQLYTAYNNMSGDSGKLTTNAEGNRAIHTEPRNSMMIFAEPKLSGGQKERLVPTKESGSIHYPAEGEVTNLNSVAEEIIYFKPGTYSMGSGYHAVLPPNVKWVYLAPGAYVKGAFRFFHDNQSQYKVTGYGVLSGEQYVYEADTANNYNALSGASNCHVSCVKMLQFEASNTEQKLDLQGVTINEPPYHSFVVYAHEGEKEVGVERFRMNVENYKQVGSWYWQTDGIELYNGSTMKNTFFNSNDDVLKMYHSDVTIDNTVIWKNENGPVVQWGWTPRNINNVNVTNTSVIHNRMYWKDVKYNTCIFNSSSHWEDMGSTTKADPSTTVKNMTFENFKVEGMTNCAIRVHALSNTENINIRNLKIDSWNGLDWTSQVSHLKRYTNPAGEKVTIGNEVTDGKGLALENYSVGGEIIEKTAGNWADYQPGRLGFDGENWDSWNAFKSTP				NA	NA	NA	NA	NA
D1-29_04137	282			hypothetical protein	ATGTCCCACGGCGCCAATCGGCTACCCGACAACGAGGGCGGCCTCACCACACCCAACAGCCTGCTCCCTGGTCCTCCACCGCTCTCGCTAGCCGTTGAGGTCACGACAGGGGACGACACCCTTAGCCGGGACCAGAAAATCAGCGAAGCCGTCGACCGACTGATACCTGCCGCGTTCGAACATAGGCACGGCATCCTCGTCACGGAACAAGACATCGGCATGTACACGGTCCAAGTCGATCCGAGCGTGCCCTGCGGCGTTATCCACGAAAAGCGGCACTGA	MSHGANRLPDNEGGLTTPNSLLPGPPPLSLAVEVTTGDDTLSRDQKISEAVDRLIPAAFEHRHGILVTEQDIGMYTVQVDPSVPCGVIHEKRH				NA	NA	NA	NA	NA
D1-29_04138	810	ppgK_2	COG1940	Polyphosphate glucokinase	TTGGACGAGAAGTCACACAAAAACACGCCGCTGATCGGTATCGACATTGGAGGCACCGGCATTAAGGGCGGCATCGTCGATTTGATGGAGGGCAGGCTGCTGGGCGAGCCGTTCTGCGTACCCACCCCGCGGCCGGCAACACCCGGGGCCGTCGCCGAATCCGTGATGCTGGTCGTCTCTGAACTCTCGGCCCGCCCCGGAGCGCCCGCTCCCGGCTCCCCCGTCGGCGTGACCTTCCCGGGCATCATCCAGCACGGCGTGGTTCGTTCCGCGGCCAACGTGGACAAGAGTTGGCTTAACACCAATATGAATGCCCTCCTAGCGGCGCGTCTGGGTCGGCCCGTTGAGGTCATCAACGACGCCGACGCTGCCGGGCTAGCAGAAGCGCGCTACGGCGCTGGGGCCGGGGTTGCCGGCACCGTCCTCGTGATCACTTTGGGCACCGGAATTGGTTCTGCATTTATCTCGGACGGGAAACTGGTACCGAACACCGAATTGGGTCATCTGGAGATCGGTGGCCACCACGCCGAAAGCAACGCCTCAGCCGTTGCCCGCGAAAGAGCAGGCTTGTCGTGGAACGAATACAGCCTTCTGCTACAGCGCTACTTCTCCCACATCGAGTTCTTGTTCTCCCCCGAACTGGTCATCGTCGGCGGCGGCATCTCCCAGCGGGCACACGACTACCTGCCCAACCTCAAGCTCCGCACGCCCATCGTGCCGGCAGTTCTTCGCAACGAAGCAGGCATCGTCGGTGCCGCCGGCGAAGCTGCATCCAATCATCAAGAAATCCCAAGCTCCCGAATAAGTTAG	MDEKSHKNTPLIGIDIGGTGIKGGIVDLMEGRLLGEPFCVPTPRPATPGAVAESVMLVVSELSARPGAPAPGSPVGVTFPGIIQHGVVRSAANVDKSWLNTNMNALLAARLGRPVEVINDADAAGLAEARYGAGAGVAGTVLVITLGTGIGSAFISDGKLVPNTELGHLEIGGHHAESNASAVARERAGLSWNEYSLLLQRYFSHIEFLFSPELVIVGGGISQRAHDYLPNLKLRTPIVPAVLRNEAGIVGAAGEAASNHQEIPSSRIS	PGPT0017750_226	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
D1-29_04139	1077	mftD	COG1304	Putative mycofactocin system heme/flavin oxidoreductase MftD	ATGCCGCGGGTGGCGCGTGAGACGCCGGAAGAGCAACCGCTGGTGCGTGAGTTGGAGACCACCTCCCTCGGCATGAAGTTGTCCATGCCGGTGATGGTCGGCCCTGCGGGGGCTCAAGCCATCAGCCCGGAGGCCGAGGTTGCCGTCGCCCAGGCGGCCCGCGAGGCGGGCACTGCCATCGGGCTGAGTTCTTTCGCCACCAAGCCCATGGAGGAGGTCGCTGCAGCCAACGCCAACTGGCTCTACCAGCTTTATTGGACAGGCACCCGCGACGACATCCTGTACCGGATCGAGCGCGCCAAGAAGGCCGGCGCCAAAGCACTGATCGTCACCCTCGACGCCACAGGAGGTGGGTTGGGACGCCGGGACTGGGGCAGCCCGCCGATCCCCTCTCAGATCGACTTGCAGGCGGTCTTGAAGTTCGCGCCCATGGCACTTTCCCGTCCCCAATGGCTGGCAAAGTACTTGGCCAACGGTCAGATCCCGAACCTCACCGTCCCTAACTCGGCCAACGGTCCAGGCAACGCCCCGATGTTCGGGCAGGTCTACGCCGAACTGATGTCCACGCCGGTGCCGACCTGGAATGATGTTCGTTGGCTCCGTGAGCAGTGGGATGGCCCTTTCGTGGTCAAGGGTCTCTACCGCGGTGAGGAAGCCAAGCGCGCTGTAGACATCGGAGCAGACGCGATCGTGGTCTCCAACCACGGCGGTAACAACCTGGACAGCACCTATCCCAGCATCCGCGTCCTGCCTGCTGTCGCACGTGCGGTCAACGGCCAGGCAGAGGTCTGGTTCGACGGTGGGATCCGACGTGGAATGGATGTCGCCAAGGCCCTGGCCCTAGGGGCGGACTTTGTCCTCCTCGGACGGTTGTGGATTTTCGGGCTCGCTGCAGGAGGGCAGCAAGGCGTCGAAGACATGCTGAACATGGTCCGAGACGGTCTCCACTGGTCGCTGGTCGGACTCGGGCACAGGTCCTTCAAGGACCTGAACGAAGACGATATCGCCGCACCCGACGACTTCTTCTTCGACCCTGACACCAAGTCAAGGCTGGACAGCCTGGAACTTCGCATCTAA	MPRVARETPEEQPLVRELETTSLGMKLSMPVMVGPAGAQAISPEAEVAVAQAAREAGTAIGLSSFATKPMEEVAAANANWLYQLYWTGTRDDILYRIERAKKAGAKALIVTLDATGGGLGRRDWGSPPIPSQIDLQAVLKFAPMALSRPQWLAKYLANGQIPNLTVPNSANGPGNAPMFGQVYAELMSTPVPTWNDVRWLREQWDGPFVVKGLYRGEEAKRAVDIGADAIVVSNHGGNNLDSTYPSIRVLPAVARAVNGQAEVWFDGGIRRGMDVAKALALGADFVLLGRLWIFGLAAGGQQGVEDMLNMVRDGLHWSLVGLGHRSFKDLNEDDIAAPDDFFFDPDTKSRLDSLELRI	PGPT0001765_702	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0001765-lldD-K00101	NA	NA
D1-29_04140	231			hypothetical protein	ATGGAAACAATCACAGCTCCAACTCCCCTGATCGAGTGGATGGACGGCTACGCATCGCGTCCGCCCGGTGGCCGGTACCCGGGCAAGTGCAGGCACCCACAAAGTACCCACCGTATTGCCGCTACGGGTACCAGTGACGACAGGTTCTCTCTGCGGGAATGCGCCCTCTGCGGAAGCCGGGCATGGTTCAGCCGCAAGAGCAATCGACGTACAGATTGGATACAGGAGTGA	METITAPTPLIEWMDGYASRPPGGRYPGKCRHPQSTHRIAATGTSDDRFSLRECALCGSRAWFSRKSNRRTDWIQE				NA	NA	NA	NA	NA
D1-29_04141	360			hypothetical protein	GTGCGGGTAGACATCAAAGAGAGCCTCGTCTTTACCGGTGAGGACTCCCCCATGGCCAGCCTCATGCTCTCCGTCATGGGGGCCTTCGCCGAATTCGAGCGCTCCCTCATCCGGGAGCGTCAGAGGGAAGGCATCGCCCTGGCCAAGCAGCGCGGCGCCTACAAAGGGCGGAAAAAGACCCTCACTCCGGAGCGGGCCGCCGAACTGGTTAGCGCGCCGGCAGCGGTGTCCCGAAAGCCCTCCTTGCCCGGGGCTACGGGATCAGCAGGGAGACCGTCTACCAGTACCTCCGCCACGCCAACCTGGGGTGAACCTATCCCCTGCCTGCGCTCGATATGCCATATCCGGACCTCGTCCTAG	MRVDIKESLVFTGEDSPMASLMLSVMGAFAEFERSLIRERQREGIALAKQRGAYKGRKKTLTPERAAELVSAPAAVSRKPSLPGATGSAGRPSTSTSATPTWGEPIPCLRSICHIRTSS				NA	NA	NA	NA	NA
D1-29_04142	1044	yhcG_2	COG4804	Putative nuclease YhcG	ATGGTCTCTTCAGAAATCGAACTGCCGGCGGACTATGCGGAGCTGCTGGAAGCTCTGAAGACCGGGATCGCCGGTGCGCGAATCCAAGCGCAGCGAACCGTCAACACCATGGTAATCGAGCTTTACTGGTCATTGGGTAAGGACATTATCGCCCGCCAGGCGAGCCAGGGCTGGGGGACTGGAGTCATCAGGCGGCTTGCCGCCGATCTCGCGATTTCCTTTCCCGATATGAAGGGTCTGTCGTACCGGAATCTGCAGTACATGACCGCGATGGTCCGCGCCTGGGACACGGCTGAACATGTGCCACAGCTTGTGGCACATTTGCCGTGGGGTCACATCCGTACGATTTGGGACAAGGCAGCCACCGGCGAGGAGCGGGACTGGTATGCGGCCGCGGCCGTTCAGTACGGCTGGTCCCGAAACGTACTGCTGAACATGATGATGAATCATTCAATGGAACGCACCGGCGCGGCGCCATCAAACTTCACCCGCCAGCTCGCGGCTCCGGAGTCCGAACTTGCCCAGCAAATGGCAAAGGACCCTTACAACTTCGCGTTCCTCGGCCTGTCGGGTGAGAGCGCCGAACGCGACCTGGAGAACGCGCTGACGAGTCGCATCACCGAAACCCTCCGCGAGCTGGGTCCAGGCTTTTCGTTCGTGGGCCGCCAGGTACACTTCGACGTCGATGGTGATGACTACTACGTCGACCTGCTGTTCTTCCACATCGAGCAACTTCGGTACGTGGTCATCGAACTTAAGACAGGCAAGTTCCAGCCTGAATACGCAGGAAAGCTCAACTTCTATGTTGCCCTCGTCGATGACATGCTCCGCCGGGATTACCACAACGAAACGGTCGGCATCTTGATTTGCGGGACCAAGAACGACCGCAGCGTCCGCTACAGCCTCGGCCGGTCAACATCGCCCATGGCCGTCGCAGCCTACACCTATGACAAGCTTCCTCCAGCGGAACAGCAGGCCCTGCCCAACGAGGGACACCTCGTCGCGGCTCTCGAATGGGCCGAACCGGACACCGCAGAAGGATAG	MVSSEIELPADYAELLEALKTGIAGARIQAQRTVNTMVIELYWSLGKDIIARQASQGWGTGVIRRLAADLAISFPDMKGLSYRNLQYMTAMVRAWDTAEHVPQLVAHLPWGHIRTIWDKAATGEERDWYAAAAVQYGWSRNVLLNMMMNHSMERTGAAPSNFTRQLAAPESELAQQMAKDPYNFAFLGLSGESAERDLENALTSRITETLRELGPGFSFVGRQVHFDVDGDDYYVDLLFFHIEQLRYVVIELKTGKFQPEYAGKLNFYVALVDDMLRRDYHNETVGILICGTKNDRSVRYSLGRSTSPMAVAAYTYDKLPPAEQQALPNEGHLVAALEWAEPDTAEG				NA	NA	NA	NA	NA
D1-29_04143	834	kdgR_4		Pectin degradation repressor protein KdgR	ATGGCATTTATGCGCGATGTTGACCCAATGACGGACGGCGGGCAGTCCGCTTCCGAACTACAGGGGGGCGGCCTTCAATCAGTTGATCGTGCCATTGCAGTTCTGAGGATCCTGGCGCGAACCGGCAGTGCTGGCGTCACGGAAGTCGCCGAGGAAATGGGAGTCCATAAGTCTACCATTTCCCGGCTTCTCAGAGCGCTGGAAGCACAAGGTATGGCCCAGAGCAGCGGGCGGGGGAAGTACCAGCTCGGACTGGGCATCCTTCACTTGGCTAATGCCATACCGATGCGGCTGGACCTGACAAGGGAGGCCCGGCCTGTCCTTGAAGCCCTCGCCGCAAAATTCGGGGAAACTGTCAACCTTGCCGTTATGAGCTCGGACCACGTCGTGAACATCGATGAAGCCTTCGGTCCCTCAACGCTAGCTGCAACGCAAAACTGGATGGGCCGCTTGACCCCCATTCACGCTACGTCGAGCGGAAAAGTCTTCCTGGCATCACTCTCCACCGCACAGCGCAGCCGCATCTTGAAGGATTTGGGTATGCCCGAGGTGACAAAGCAGACCATCACCTCGCGGGAGGAACTGGAGGAGCAACTTTTGACAGTGGCGAACCGCGGATACGCCACAGTGCGCGGAGAACTCGAAGACGGACTCAATGGTATCGCCGCCCCGATCCGTGGCCACGAGGGAACCGTCATTGGGGCCGTCAGCATCGCGGGCCCGTCCTTCAGATTTGACCCCGAAGAGGTGCCCGGACTGATCGAAGAGCTCAAATCGGCCAGCCGAAAAATCAGCGAAAACATGGGATACGGACCCGTACAAGTCCATCATTGA	MAFMRDVDPMTDGGQSASELQGGGLQSVDRAIAVLRILARTGSAGVTEVAEEMGVHKSTISRLLRALEAQGMAQSSGRGKYQLGLGILHLANAIPMRLDLTREARPVLEALAAKFGETVNLAVMSSDHVVNIDEAFGPSTLAATQNWMGRLTPIHATSSGKVFLASLSTAQRSRILKDLGMPEVTKQTITSREELEEQLLTVANRGYATVRGELEDGLNGIAAPIRGHEGTVIGAVSIAGPSFRFDPEEVPGLIEELKSASRKISENMGYGPVQVHH	PGPT0018213_961	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
D1-29_04144	2067	lcoP	COG1292	Betaine/ectoine transporter LcoP	ATGGCTAAAGACGTATCGTCCACTCACAGAAGGAACAGCGACGAAGCGAAAAACGCCGCCCGCAAGGCCGGCAAGCCCATAGGCAGCCTGGATTACATCCGGCCGCGGTACCCCCACAACATTCACCCGGCGTTAGTGCCTGGTATCAGCGTCGATGAACAGCGCCGGAATTACAGTCTGGACAAGGTCGTCCTTGCTGTGGCTGGTACCTTGACCGTGGCATTCGTCGTCTGGGGCATCATCAGCCCATCCAGCGTTTCCGAGGTGGCAAGCGCGGCATTCTCCTGGACCACCACCAACCTGGGCTGGCTCTTCAACGGCGTCGCCACCGTCGTGCTGGTGGCTCTGCTGTGGTTGGCTCTCAGCCGATACGGGAAGATTCCGCTCGGGAAGGACGGTGAGAGCCCCGAATTCTCCACGTTTTCCTGGGTGGCGATGCTCTTCGCCGCCGGTCTCGGCATCGGAGTGCTGTTCTGGGGTCCCGCCGAGCCGCTGACCCACTACCTGAAGCCGCCACCGCGAACGGTCGAGGCCGAATCAGTCGAAGCCATGCATCAGGCACTGGCCCAAACGTACTACCACTGGGGATTTCACGCCTGGGCCATGTATGCCCTGGTGGGCGGTGCGGTCGCCTACGTGGGATACCGGCGCGGACGCGCACTGTTGATGTCCTCGATATTCCGACACCTCTTCGGACAAAGGCAGACTGACGGATTCGCTGGAAAACTGGTGGACATCTTCGCCATCATCGCCACCCTGTTCGGCACGGCTGCAGCCTTAGGGATCGCCGCACTCCAGATCGGCCAAGGCGTCATCATCGTTTCGGGTGTCTCTGAACTGACGAATGCTGTCCTCGTCGGTATCATCGGCGTGCTGACGATCGCCTTTATCCTCTCTGCCGTTTCCGGCGTCGCCAGAGGCATCCGCTATCTCTCGAATATCAACATCATTCTCACTTTGGGCATCGTCGGAGTGGTGTTCATCCTAGGGCCGACGCTGTTCCTGCTGAATATGCTGCCATCGGCGATCATGGAGTATATCGGATCACTGTTCGATCTCATGGCACGTTCTGCTTCCTGGGGAGAAGACACACAGCAGTTCCAATCCACGTGGACTGTCTATTACTGGGCCTGGTGGATCTCCTGGTCACCGTTCGTCGGCATCTTCATCGCTCGCATTTCCCGCGGCAGGACCATCAGGCAATTCATCCTTGGTGTGATCTTCATTCCATCCGCGCTGCTTTTTGTCGCGTACGGAACCATGGGGGCAACTGCAATCTGGATGCATCGCGAGGGGAGTCCGGGGTTCCACGATTCGATGGCTGCTCCCGAAGTGCTATTCACCTTGGTGGACAATCTTCCCTTCGCGGAATGGCTTCCTCTGGTAATCATGGTGGTGCTGGCGATCTTCTTCATCACCTCTGCCGACTCCGCCTCAATGGTTATGGGTATTCTCACCACACGCGGCAGTCAGGATCCTCCCAAACTCGTGGTGGTTTTCTGGGGCCTGGTCATGTCCGGGATCGCCGTGGTCATGTTGTTGATCGGGAACGCGTCCGCTCTTGCAGGGCTGCAATCACTAGTGATTGTCACGGCTGTGCCGTTCGCCATCGTGATGTTCCTGATCATCTTTGCCTGGTTCCGGGAGCTGAGATCAGACCCGTATATCTTGCGGGCCCGATATGCCGAGATCGCAGTGAGCAACGCCGTATTAGAAGGCGTCCACAAGTACGGAGACGACTTCGGCCTCGAGGTGGTAGAGACCGAGCCAGGGCGCGGAGCCGGTGCCGAAACCGATTCGGAGCATGAGGACTACACGGAGTGGTATCAGCGCACCAATGCAGAGGGGGAGCCGGTGGGTTTTGACTACGAAACCGGTAAATGGGCCGACGGCTGGGACCCTGAGACCGGCCAAATCGGCACCGTACCCACGCAGGAGACCGAGGACGCAGAAACGGGTGAAGACGAGGAATCCATGAATGAGGGCATCCGTTCTCATGACGATTCCTCGCAGCCGGTGTCCTCGCTCCCGCCAGGTGGTGCCCGGGCAACGACGGCCGGACTATAA	MAKDVSSTHRRNSDEAKNAARKAGKPIGSLDYIRPRYPHNIHPALVPGISVDEQRRNYSLDKVVLAVAGTLTVAFVVWGIISPSSVSEVASAAFSWTTTNLGWLFNGVATVVLVALLWLALSRYGKIPLGKDGESPEFSTFSWVAMLFAAGLGIGVLFWGPAEPLTHYLKPPPRTVEAESVEAMHQALAQTYYHWGFHAWAMYALVGGAVAYVGYRRGRALLMSSIFRHLFGQRQTDGFAGKLVDIFAIIATLFGTAAALGIAALQIGQGVIIVSGVSELTNAVLVGIIGVLTIAFILSAVSGVARGIRYLSNINIILTLGIVGVVFILGPTLFLLNMLPSAIMEYIGSLFDLMARSASWGEDTQQFQSTWTVYYWAWWISWSPFVGIFIARISRGRTIRQFILGVIFIPSALLFVAYGTMGATAIWMHREGSPGFHDSMAAPEVLFTLVDNLPFAEWLPLVIMVVLAIFFITSADSASMVMGILTTRGSQDPPKLVVVFWGLVMSGIAVVMLLIGNASALAGLQSLVIVTAVPFAIVMFLIIFAWFRELRSDPYILRARYAEIAVSNAVLEGVHKYGDDFGLEVVETEPGRGAGAETDSEHEDYTEWYQRTNAEGEPVGFDYETGKWADGWDPETGQIGTVPTQETEDAETGEDEESMNEGIRSHDDSSQPVSSLPPGGARATTAGL	PGPT0013600_7	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
D1-29_04145	2358			hypothetical protein	ATGAATGAAATCAGAGACATTCTTCCCATCCCGGCAGGGAGAAGCCAGCCGGTAACGGCAGCCATGGGAATTCATCAACAGGAGGCACCCTTCACCCCTGTTGCCCCGCTTCGGGCCCCGGAGGGCGCTCCGAACGTGGTGGTGGTCCTCATCGATGACATGGGCTTTGGCGCCTCGAGTGCGTACGGTGGGCCCTGTGAGATGCCGACCGCGGAAAAGCTGTCTGAAGAAGGCCTTCGTTACAGCCGCTTCCACGTCACAGCTCTATGCTCACCCACCCGCCAGGCGCTGATGACGGGCCGGAATCACCATTCAGTGGGCATGGGCGTGACCACCGAAATGAGCACATCCGCCCCCGGTTACACGGGATTCCGCCCGGATAGTGCGGCAACCATTGCCCAGACCCTGAGCATGAATGGCTACAGCACCGCCGCGTTCGGCAAATGGCACCAGACCCCGCCCCGTGAAGTCAGCCCGTCGGGGCCGTTTGACCGGTGGCCCATTGGCGAGGGCTTCGATAAGTTCTACGGCTTCATGGGCGCCGAGATGAACCACTGGTACCCTCAGCTCTTCGACGGCACCACCCCCGTCGAGCCGACACGCCGGCCAGAAGACGGCTACCACCTCTCGGAAGACCTCGTTGACCAGGCCATCAACTGGGTCCAGACCCAGAAAACCCTCACGCCCGAAAAGCCGTTCTTCAGCTACATAGCCTTTGGCGCCACCCACGGACCCTTCCACGTCGCCCCTGAATGGAAGGACAAGTACCGCGGCCGCTTCGACTGTGGCTGGGACGACCAACGCGAAGCAACCCTGGCCAGGCAGAAAGAACTGGGCGTCGTCCCCGAATCCGCCGAGCTGAGCCCGTGGGCCGACGTCGTGCCGCACTGGGATGAACTAGGCGACACCGAGCACCAGGTAGCCGCCGCCTTCATGGAAACCTACGCCGGATTCGCCGAACACACGGACGCCCAGGTGGGCCGCTTCGTTGATGCCCTGGACGAACTGGGCGAACTGGACAACACCCTCTTCATCTACATCCTCGGTGACAACGGCGCTTCCGGCGAAGGCGGCATCGAAGGCACAATGCGCGAGCATCTGGTAGGCCACGGCTTCAAAGACAGCACGGAGGCCATGGCCCGGGAAATCGACGCCCTCGGCGACGCGAGCACATATGGCATCTACCCTGTCGGGTGGGCCCTGGCCATGAACACGCCGTATCAGTGGACCAAACAGGTCGCTTCCCACCTTGGCGGCACCCGCGACGGCATGATCATGCGCTGGGGCAACGGCATGCGGCAAGGCGGCGGCGGCGTGCGGAACCAGTACCACCACGTCATCGACATCGCCCCAACCATCTTCGAAGCAGCCGGCATCCCCCATCCCGTCACGGTTAACGGGGTGACCCAGCAGCCCATCGAGGGCACCAGCATGGTCTACACCTTCAACGCTCCCGACGCCGAAGACCGCAGGCGCACCCAGTACTTCGAAATGTGCGGCAACCGCAGCATCTACCACGAAGGCTGGACGGCAGTCACCCGCCACGGCACCCCATGGGAAATGGTCCCGGAAGGGCTGCCCTCCTTCGACCAGGACGTATGGGAGCTCTACGACATCCGGAACGACTGGAGCCAGGCCCACAACCTCGCCCACAAGCATCCGGAAAAGCTACGGGAACTCCAGCAGCTCTTCCTGATCGAGGCCAGCAAATACAACGTCTTCCCCCTTGATGACCGGGTCACGGAGCGGGAAAACCCCGAAGTCGCCGGACGGATCGACCTGCTGGGCCACCGGACATCGGTGACCTACCGTGCCGGCATGGGCCGCTTCACCGAAGAAACGACCCTGAACGTGAAGAACAGGTCCCACAGCGTCACCGCCCGGGTTGATGTCCCCGACGGCGGCGCCGAAGGTGTCCTGATAGCCCAAGGCGGCCGCTTCGGCGGCTGGTCCCTCTACGTGGCGGACGGACACCTCAGCTACGCCCACAACTGCTACGGCCGGGACCTCTACATCGTCTGCTCCGACGAGCGCCTCGTGCCGGGAACCCAGGAAGTCACCCTGGAATTCCAGTACGACGGCGGCGGCATCGGCAACGGCGCGGACATCCGCCTCGCCGCTGACGGCAAGATCATCGGCAAAGGCAGGGTAGACCAAACCACCGCCTATTACTTCTCCTTCGATGAGACGCTCAACATCGGTATCGACCGCGGCACCCCAGTCACCGACGATTACCTCCCGGTTGACAACGGGTTCACCGGCACGATCCACACCGTGCGGATCGACTTGCACGACGACGGGCACGACCAGCACCTCACTGCTGCAGACCGTCAGCGCATGGCACTGGCCCACCAGTAA	MNEIRDILPIPAGRSQPVTAAMGIHQQEAPFTPVAPLRAPEGAPNVVVVLIDDMGFGASSAYGGPCEMPTAEKLSEEGLRYSRFHVTALCSPTRQALMTGRNHHSVGMGVTTEMSTSAPGYTGFRPDSAATIAQTLSMNGYSTAAFGKWHQTPPREVSPSGPFDRWPIGEGFDKFYGFMGAEMNHWYPQLFDGTTPVEPTRRPEDGYHLSEDLVDQAINWVQTQKTLTPEKPFFSYIAFGATHGPFHVAPEWKDKYRGRFDCGWDDQREATLARQKELGVVPESAELSPWADVVPHWDELGDTEHQVAAAFMETYAGFAEHTDAQVGRFVDALDELGELDNTLFIYILGDNGASGEGGIEGTMREHLVGHGFKDSTEAMAREIDALGDASTYGIYPVGWALAMNTPYQWTKQVASHLGGTRDGMIMRWGNGMRQGGGGVRNQYHHVIDIAPTIFEAAGIPHPVTVNGVTQQPIEGTSMVYTFNAPDAEDRRRTQYFEMCGNRSIYHEGWTAVTRHGTPWEMVPEGLPSFDQDVWELYDIRNDWSQAHNLAHKHPEKLRELQQLFLIEASKYNVFPLDDRVTERENPEVAGRIDLLGHRTSVTYRAGMGRFTEETTLNVKNRSHSVTARVDVPDGGAEGVLIAQGGRFGGWSLYVADGHLSYAHNCYGRDLYIVCSDERLVPGTQEVTLEFQYDGGGIGNGADIRLAADGKIIGKGRVDQTTAYYFSFDETLNIGIDRGTPVTDDYLPVDNGFTGTIHTVRIDLHDDGHDQHLTAADRQRMALAHQ				NA	NA	NA	NA	NA
D1-29_04146	1545	gbsA_2	COG1012	Betaine aldehyde dehydrogenase	ATGTCCGGAATGTATCTCGGCGAGAAGTCGGCACACGCCGGCGCTGAGCCCTTAGCAGCCGAAGGAACCCCCGCCGGAGCCGAAACCCTGTTCATCGGCGGCCGATGGGTCGCGCCCCAGTCAGGAGAGACCCGGACGATTAGCTGTCCGGCAGACGGGTCTGTCGTCGGGCTCGTTGCTGAGGCCGGGGAAGCCGACACCGTGTCCGCGATCGGAGCGGCCAAAACAGCTCATGACGAGGGCCGCTGGTCCTCGGTGCCCGAGCCTGAACGCGGAGACCTTCTCCTGGCCGTGGCACGCCGCCTGCGGGAGCGAAGGGACGAATTCGCCCGGGCGGAGTCCCTGGACACGGGAAAACGTCTGGTGGAATCAGAGATTGACATGGAGGACGTGGCCGCCTGCTTCACCTACTTTGGGAAGCTCGCAGGCCAGCAGGCGGGACGGGTGGTCGATGCCGGCAATCCCGCCGTCGTCAGCAAAATCGTCCACGAGCCGGTCGGAGTGTGCGGTCTGATCACGCCCTGGAACTATCCACTGCTGCAGGCAGCCTGGAAGGTCGCGCCGGCCTTGGCTGCCGGGAACACCTTCATCCTCAAGCCGGCAGAACTCACACCGCACACAGCGATACTGCTGATGCAGGTCCTGGACGAGGTGGGCCTGCCGCCGGGAGTGGCGAACCTCGTCCTCGGGCCAGGCGCCGTCGTCGGAGCACCCCTGGCAAGCCACCCGGACGTTGACCTGATTTCGTTCACGGGCGGCCTGACCACCGGAAAGACGATCGCTATCCAAGCGGCAGACACCGTCAAGAAGGTAGCGCTGGAGCTGGGAGGAAAGAACCCCAACGTCATCTTCGCGGACGCCGACTTCGATGCCGCCGTCGACAACGCCCTCAACGCGGCTTTTGTGCATTCAGGACAGGTCTGCTCCGCCGGCGCCCGCCTGATCGTGGAGGAATCCATAGCAGAGGCTTTCGTGGACGAGTTGGTGCGCCGCGCCCAGAACATCCGCCTCGGCGGACCCTTCGACTCCGATGTTGACGCCGGACCGCTGATCTCGGCGGCCCACCGCGACAAGGTCACAGCATATGTGGAAGCCGGTCTGGCGGAGGGTGCCCGCCTGCGTTGCGGAGGACGATGGGGAACAGATCAACTGGCCGACGGCTACTACTACCTCCCCACGGTCCTTGACAACGTTCACAGTGGAATGTCGGTACTCACCGAAGAGGCCTTCGGCCCCGTCGTTACCGTCGAAACCTTCAACGGCGAGGACGAAGCTGTGGCCCTGGGCAACGACACGATTTACGGCCTGGCCGGCGCGGTCTGGAGCCAGGACGCCGGACGGTCCCAACGGATGGCCGCCCGGTTGCGGCACGGCACGATCTGGATCAATGACTTCCACCCCTACCTGCCCCAGGCCGAATGGGGCGGCATGAAGCAGTCCGGAAGCGGCCGCGAACTTGGCCCCACCGGTATGGCCGAGTACCAGGAAATCAAGCACGTCTACCAAAACCTCCGCCCCGCCGTCACCGGCTGGTTTCCCCAGTAA	MSGMYLGEKSAHAGAEPLAAEGTPAGAETLFIGGRWVAPQSGETRTISCPADGSVVGLVAEAGEADTVSAIGAAKTAHDEGRWSSVPEPERGDLLLAVARRLRERRDEFARAESLDTGKRLVESEIDMEDVAACFTYFGKLAGQQAGRVVDAGNPAVVSKIVHEPVGVCGLITPWNYPLLQAAWKVAPALAAGNTFILKPAELTPHTAILLMQVLDEVGLPPGVANLVLGPGAVVGAPLASHPDVDLISFTGGLTTGKTIAIQAADTVKKVALELGGKNPNVIFADADFDAAVDNALNAAFVHSGQVCSAGARLIVEESIAEAFVDELVRRAQNIRLGGPFDSDVDAGPLISAAHRDKVTAYVEAGLAEGARLRCGGRWGTDQLADGYYYLPTVLDNVHSGMSVLTEEAFGPVVTVETFNGEDEAVALGNDTIYGLAGAVWSQDAGRSQRMAARLRHGTIWINDFHPYLPQAEWGGMKQSGSGRELGPTGMAEYQEIKHVYQNLRPAVTGWFPQ	PGPT0007165_665	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130	NA	NA
D1-29_04147	1665	codA		Choline oxidase	ATGGCAGGGCATGACGCACAGGTTCCCATGGCACAACCCGGAAAGGAAAGTATGTTGAACGGGCCGCACGAGCAGAATTTTGACTATGTAGTGGTGGGTGCGGGGTCGGCCGGCGCCGTGGTCGCAGCCCGCCTTAGCGAGGATCCCTCGGTGCGGGTAGCACTGATCGAGGCCGGTCCCCGGGATGAAGGCATCGACGAAGTCCTCACCCTGAACCGGTGGATGGAACTGCTGGAATCCGGCTACGACTGGGACTACCCCGTCGAAGAACAGGAGAACGGGAACTCGTTCATGCGGATGGCCCGCGCCAAGGTACTGGGCGGGTGCTCCTCCCACAATTCCTGCATCGCGTTCTGGGCCCCGGCAGAGGACATCGACGAATGGGAATCGAAGTTCGGCGCCACAGGCTGGAACGCCGGGACGGCCTTCCGGATCTACCGCAAGATCGAAAACAACGCCGACGACGGCGAGCACCACGGCCACGACGGCCCCGTAAGGCTTCGCAATGTACCCGCGGCAGATCCCTGCGGCGTGGCCCTGCTTGACGCAGCCGAGGCAGCCGGAATTCCCCGTGCCAAATTCAACGCGGGCAAAACCATCACCCAGGGCGCGAACTTCCTCCAAATCAACGCCACCGAGGACGGAAAGCGGGCATCCTCCTCGGTGTCCTACCTGCACCCCGCCGCGGACCGCGAAAACCTCGTCATCCTTGACTCCACCCACGCCACCCGGTTGGTCTTCGATGACAACAAACGCTGCATCGGCGTCGAAGTCGTTGATAACGCCTTCAGCGCCCCCACGATAGTCAGGGCCTCCCGCGAAGTAATCGTCTCCGCCGGAGCCATCGATTCGCCCAAACTGTTGATGCTCTCAGGGATCGGTCCCGCTGAACACCTGGCCAAGATGGGCGTGGATGTACTCGTTGACGCCCCCGGGGTCGGCGCCAATCTTCAGGACCACCCGGAGGCCGTCATCCAATGGCAGGCCAAGAAGCCGATGGTCACCGAATCGACCCAGTGGTGGGAAATCGGAGTTTTTGCCCAAATCGACGAAGGCCTCGACCGGCCCGACCTCATGATGCACTACGGCACCGTCAATTTCGACATGCACACCTTCCGGCAGGGCTACCCCACAGCCGACAACGTGTTCTGCCTGACTCCGAACATCACGCACGCCCGTTCCAGGGGAACCGTGCGTCTCCGCTCACGGGACTACCGGGACAAGCCGCGGGTGGATCCCCGCTACTTCACCGACCTGGAAGGATACGACCTGCGGATCATGACGGCGGGCCTGCGCAAGGCACGGGAGATCGTGGCACAGACCCCGCTGGCAGAGTGGGCCGGTGAAGAGCTCTTCCCCGGAGCAGACGTCCAAACCGATGAGCAGATCCAGGACTACATCCGGCGCACACACAACACCGTCTACCACCCCGCCGGTACAGTCCGCATGGGCGCGATCGACGACGCCGTGTCGCCGCTGGACCCCGAACTCAGGGTCAAAGGAGTCACAGGCCTGCGCGTCGCGGACGCCTCAGTAATGCCTGAACTCGTCACGGTGAACCCCAACCTCACCGTCTATATGATCGGGGAGCGTGCAGCTGAACTGATCGCGGGGGAATTTAAGACGGCGGCGGCGATTGAAGAAGATGTCCCCGCAACCCTCTGA	MAGHDAQVPMAQPGKESMLNGPHEQNFDYVVVGAGSAGAVVAARLSEDPSVRVALIEAGPRDEGIDEVLTLNRWMELLESGYDWDYPVEEQENGNSFMRMARAKVLGGCSSHNSCIAFWAPAEDIDEWESKFGATGWNAGTAFRIYRKIENNADDGEHHGHDGPVRLRNVPAADPCGVALLDAAEAAGIPRAKFNAGKTITQGANFLQINATEDGKRASSSVSYLHPAADRENLVILDSTHATRLVFDDNKRCIGVEVVDNAFSAPTIVRASREVIVSAGAIDSPKLLMLSGIGPAEHLAKMGVDVLVDAPGVGANLQDHPEAVIQWQAKKPMVTESTQWWEIGVFAQIDEGLDRPDLMMHYGTVNFDMHTFRQGYPTADNVFCLTPNITHARSRGTVRLRSRDYRDKPRVDPRYFTDLEGYDLRIMTAGLRKAREIVAQTPLAEWAGEELFPGADVQTDEQIQDYIRRTHNTVYHPAGTVRMGAIDDAVSPLDPELRVKGVTGLRVADASVMPELVTVNPNLTVYMIGERAAELIAGEFKTAAAIEEDVPATL	PGPT0013605_39	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013605-codA-K17755	NA	NA
D1-29_04148	1026		COG1262	Formylglycine-generating enzyme	ATGAACCTGCCAATTGCTGATGCCACACACGACTCATCTGGTGGCGGACCCCTCATCCCCGGCCAGACGAAGGGATGTTGTGCGCCGTCCCGTGAAGCGCGTCTGCCTGAGATCGCCAACGAGGGGCCGGCCCACTACACGGGACTGACGGGGCAGGAATCCCACCACAGCATTGACATCCCCCAGGGGATATTCAGCATGGGCGATGCATTTGGGGAAGGCTACCCAGCAGACGGGGAGACGCCTGTCCATCAGGTCGAACTGGACGCTTTCCGCATCGACGCCACGGCCGTCACCAACAGCATGTTCGCTGCCTTCATCCAGGCCACTGGGTACCGCACCGAGGCCGAGCAGTACGGATCCTCCGCAGTGTTCCATCTGCTTTCCACCGCCACCGGTCGGGACATCTTCGGAGCCGCTGCCGGAGCCCCCTGGTGGCTGAACATCCGGGGCACCGACTGGGCACACCCCACCGGCCCGGGTTCAAACTGGCAGGACATCCCGGACCACCCTGCAGTGCATGTCTCCCATCACGACGCCCTGGCCTACTGCACCTGGGCCGGCCGTCGTCTGCCCACCGAGGCAGAGTGGGAATATGCCGCACGGGGTGGCCTGGAGGGCCTGCGCTACGCCTGGGGCAACGAGCTCACCCCGGACGGGGAACACCGCTGCAACATCTGGCAAGGCACCTTCCCGGCAACCAACACCAGCGAAGACGGACACGCCGGCACCGCCCCCGTCCGCTCCTTCCCGCCCAACGGGTACGGCCTCTATGAAATGGCAGGCAACGTCTGGGAATGGTGCGCCGACTGGTTCCTGCCCAAGTACTACCGCAACTCCCCCACCCATAACCCGCAAGGACCAACCATCGGCGCGGGACGCGTCATGCGTGGCGGCTCGTACCTCTGCCACGACTCCTATTGCAACCGTTACCGCGTAGCAGCCCGCACCGCCAACACGCCCGAATCATCCTCCGGCAATTTGGGCTTTCGCACTGTAGCGCTAGGACTGGACAGGCAGCGTTGA	MNLPIADATHDSSGGGPLIPGQTKGCCAPSREARLPEIANEGPAHYTGLTGQESHHSIDIPQGIFSMGDAFGEGYPADGETPVHQVELDAFRIDATAVTNSMFAAFIQATGYRTEAEQYGSSAVFHLLSTATGRDIFGAAAGAPWWLNIRGTDWAHPTGPGSNWQDIPDHPAVHVSHHDALAYCTWAGRRLPTEAEWEYAARGGLEGLRYAWGNELTPDGEHRCNIWQGTFPATNTSEDGHAGTAPVRSFPPNGYGLYEMAGNVWEWCADWFLPKYYRNSPTHNPQGPTIGAGRVMRGGSYLCHDSYCNRYRVAARTANTPESSSGNLGFRTVALGLDRQR				NA	NA	NA	NA	NA
D1-29_04149	318			hypothetical protein	GTGGACATCATTGCTGAAATATCCGGCTGGCTAGGGGCACTGGGAGTCCTCGTTGCCTACCTGCTCTTCTCGATTGGCCGTATCCCCAATGGCAGGCTTTTCCAAACCGCTAATCTATTTGGATCCGCCGCGCTCCTTGTCAACGGTTTTCATCATGGAGCCTGGCCATCGGTCAGCACGAATATCGTCTGGTGTGCGATTGCGGCATGGGCTCTGGTCCGTCTCAAGCAGTTGGCAGTGCAGCCGAACTTAACCGAACTCAACCCCCATCTGGACAAGGACGAGCTTTTACCCCGGCCTGGGCCGAGCGACGTCTAA	MDIIAEISGWLGALGVLVAYLLFSIGRIPNGRLFQTANLFGSAALLVNGFHHGAWPSVSTNIVWCAIAAWALVRLKQLAVQPNLTELNPHLDKDELLPRPGPSDV				NA	NA	NA	NA	NA
D1-29_04150	3651	metH	COG0646	Methionine synthase	ATGCCTCGTTTTGCGCTTGATATAGAATCCGTGCCCCGCCCCGCCCGTTCGCAGGAGCTGCTGGACGCCGTGAACCACCGAGTCGTCATTGCCGACGGCGCGATGGGCACCATGCTGCAGGGCCGCGAACTCTCGCTCGAGGAGGACTTCCTGGGGCTCGAAGGCTGCAACGAGATCCTCAACCACACCCGGCCGGACGTCCTCGCAGACATCCATGACGCGTACTTCGCCACAGGCATCGACGCCGTCGAAACCAACACCTTCGGCGCCAACTGGTCCAACCTCTCCGACTACGGCATCGACGACCGGATCGAAGAGCTCGCCCGGAAGGGCGCAGAGATCGCCCGCGACCGCGCCGAAGCGGCAGAAAAAACAGACGGACGCATGCGCTGGGTCCTGGGCTCGATGGGCCCGGGCACCAAGCTCCCCAGCCTCGGGCACACCAGCTACGACTACCTCAAGCAGACCTTCGCGCTGCAGGCCGAGGGCCTCATCGACGGGGGAGCGGACGCCTTCCTCATCGAAACCAGCCAGGACCTCCTGCAGACCAAAGCCGCGGTCAACGGCTGCAAGCAGGCCATCGTCACCCGGGGCATCCGGCTCCCCATCTTCGTCGAGGTGACCGTCGAGACCACCGGAACCATGCTGATGGGATCCGAAATCGGCGCGGCCCTCACCGCGTTGGAACCGCTCGGCGTCGACGCCATCGGCCTGAACTGCGCCACCGGGCCGGACGAGATGAGCGAGCACCTCCGCCACCTGTCCAAGCAGTCCTCCGTGGCCATCGCCTGCATGCCCAACGCCGGCCTGCCCGTGCTTGGCCCCAACGGCGCGCACTACCCGCTGTCACCCTCCGAACTCGCCACCGCGCACGAGCAGTTCGTGCGCGAATTCGGCCTGGGCCTGGTGGGCGGCTGTTGCGGTACGACGCCGGAGCACATGGCCGCCGTCGTCGAACGTCTTGCGCCCTTCCGCAACGGCGCCAGCGTTGCCAGCGGCGGGAGGGGTGCCGATGGCAGCCGCGTTCCCACCGAACGGGAAGCCGGCATCGCGTCCCTCTACCACCACGTGAACTTCGACCAGGAGCTGTCCTACCTCGCCATCGGTGAGCGCACCAACGCGAACGGTTCAAAGGCGTTCCGCCAGGCGATGCTCGAAGAGCGCTGGGACGACTGCGTCGACATTGCCCGCGAGCAGGTCCGCGTTGGCGCGCACCTGCTGGACGTGTGCATCGACTATGTGGGGCGCGACGGCGTGGCCGACATGAAGGAGATCGTCTCCCGTTTCGCGTCGGCCTCCACGCTCCCGCTGGTCATGGACTCCACCGAACCGGCCGTACTCCAGGCCGGGCTCGAACATATCGGCGGCCGCCCGGTGGTCAACTCCGTCAACTACGAGGACGGCGACGGCCCCACCAGCCGCTTCGCACGCATCATGCCGCTCGTGAAGGAACACGGCACCGCCGTGATCGCCCTGACCATCGACGAGCAGGGCCAGGCGCGCACCACCGAGGGCAAGGTGGCCATCGCCTCCCGCCTCGTGGACGCCCTGGTGGGCGAATGGGGGATGCGCGTCGAGGACATCATCGTGGACGCCCTGACCTTCCCGGTTGCCACCGGCCAGGAAGAGACCCGCCGGGACGGCATCGAAACGATCGAGGCCATCCGCCAGATCACCACGAAGTACCCCGGCATCAACACCACCCTCGGCGTCTCCAACGTGTCCTTTGGCCTGAACCCCGCAGCGCGCATGGTCCTGAACTCGGTGTTCCTGCACGAGGCAGTGCAGGCGGGCCTGACCAGCGGCATCATCGACGCCGCCAAAATTGTGCCGCTCGCGTCCCTGCCGGAGGAACAGCGCAAGGTGGCGCTGGACCTCGTCTGGGACCGCCGCGAATACGACGCCGACGGCAACACCACGTACGACCCGCTGGCCATCATGCTGGACCTGTTCGCCGGCGTCGACACCGCAGCGCTCAAGGACCAGCGCGCCGCTGAACTCGCGGCGCTGCCCACCGGTGCGCGCCTTGAGCGGCGCATCATCGACGGCGAGGGCAAGGGCCTGGAAGCGGACCTCGACCTGGCCCGCTCCGAGGGAATGACCCCGCTCGGCATCATCAACGACTACCTGCTCGAGGGCATGAAGGTGGTGGGCGAGCGCTTCGGCGCCGGCGAGATGCAGTTGCCGTTCGTGCTGCAGTCCGCCGAGGTGATGAAGAACGCCGTGGCCCTGCTAGAGCCGCACATGGAGAAGTCGGATGCGTCGGGCAAGGGCACCATGGTGATCGCCACCGTGCGCGGCGACGTGCACGACATCGGCAAGAACCTGGTGGACATCATCCTCACCAACAACGGCTACAAAGTCATCAACATCGGCATCAAGCAGGGGATCGCCGAGATCATGGCCGCAGCGGAGGAGCACAACGCCGATGTGATCGGCATGTCCGGCCTGCTGGTGAAGTCCACCGTGGTGATGAAGGAGAACCTCGCGGAGCTGCAGTCCCGTGGCCTGGCGAAGAAATGGCCCATCATCCTCGGCGGGGCAGCCCTGACCCGCGCCTACGTGGAGCAGGACCTTGCCGAGCAGTTTGATGGCGTGGTGCGCTACGCCAAGGACGCCTTCGAGGGCCTCTCACTCATGGAGCCGCTGGTCCGCGTTGCCCGCGGTGAGTCGCCGGACGACGTCGGCCTTCCGCCGCTGAAGAAGCGGATCCACAAGGGCGGGGCGAAGTTCACGGTGACCGAACCGGAGGCGATGCCCGGGCGTTCCGACGTCGTCGCCGACAACGCCGTGCCCGCGCCGCCGTTCTGGGGCACGCGCATCGTCCGCGGCGTGGCGCTGCACGACTACGCGGCCTTGCTCGACGAGCGCGCCACGTTCATGGGGCAGTGGGGGCTCAAGCCCGGCCGCGGCGACGACGGCGCCTCCTACGAGGAACTGGTGGAACTCGAGGGCCGGCCGCGCCTGCGTTACTGGCTGGACCGCATCCTCGCCGAGGGAATGCTTGACGCGTCCGTCGCGTACGGCTATTTCCCGGTGGTCTCCGAGGGGGAGCAGGTGGTGGTGCTGCACCACGGAGAGGATCACGACGGCGTCCTGGGCACTGCGGGACTGCTCGCCCCCGATGGCGGTTCAGGCGGCCCGATCGGCACCGAGCGCCTGCGTTTCGACTTCCCGCGCCAGCGCCGGGACCGGCACCTGTGCCTCGCCGACTTCGTGCGCTCGCGCGAATCGGGCCAGATCGACGTGCTGCCAATCCAGCTGGTCACCGCCGGTTCAGCGATCGATGAGGTGACAGCGGAGCTGTTCAAGGGGAACCACTACCGCGACTACTACGAACTCAACGGCCTGGTCATGCAGCTCACCGAGGCGCTGGCGGAGTTCTGGCATGCCCGTATCCGCACCGAGCTGGGTTTCGCAGCCGAGGAGCCCAAGGACAAGGCAGGGTACTTCAAGCTCGACTACCGCGGTGCCCGCTTCTCGCTGGGCTACCCGGCGTGCCCGGACATGGAGGACCGCCGCAAGGTGACGGAGCTGCTGAAACCCGAGCGGATGGGCGTGATCCTCAGTGACGAGCTGATGCTGCACCCCGAACAGTCCACCGACGCGTTCGTGTTCCACCACCCGGAGGCGAAGTACTTCAAGGTGTGA	MPRFALDIESVPRPARSQELLDAVNHRVVIADGAMGTMLQGRELSLEEDFLGLEGCNEILNHTRPDVLADIHDAYFATGIDAVETNTFGANWSNLSDYGIDDRIEELARKGAEIARDRAEAAEKTDGRMRWVLGSMGPGTKLPSLGHTSYDYLKQTFALQAEGLIDGGADAFLIETSQDLLQTKAAVNGCKQAIVTRGIRLPIFVEVTVETTGTMLMGSEIGAALTALEPLGVDAIGLNCATGPDEMSEHLRHLSKQSSVAIACMPNAGLPVLGPNGAHYPLSPSELATAHEQFVREFGLGLVGGCCGTTPEHMAAVVERLAPFRNGASVASGGRGADGSRVPTEREAGIASLYHHVNFDQELSYLAIGERTNANGSKAFRQAMLEERWDDCVDIAREQVRVGAHLLDVCIDYVGRDGVADMKEIVSRFASASTLPLVMDSTEPAVLQAGLEHIGGRPVVNSVNYEDGDGPTSRFARIMPLVKEHGTAVIALTIDEQGQARTTEGKVAIASRLVDALVGEWGMRVEDIIVDALTFPVATGQEETRRDGIETIEAIRQITTKYPGINTTLGVSNVSFGLNPAARMVLNSVFLHEAVQAGLTSGIIDAAKIVPLASLPEEQRKVALDLVWDRREYDADGNTTYDPLAIMLDLFAGVDTAALKDQRAAELAALPTGARLERRIIDGEGKGLEADLDLARSEGMTPLGIINDYLLEGMKVVGERFGAGEMQLPFVLQSAEVMKNAVALLEPHMEKSDASGKGTMVIATVRGDVHDIGKNLVDIILTNNGYKVINIGIKQGIAEIMAAAEEHNADVIGMSGLLVKSTVVMKENLAELQSRGLAKKWPIILGGAALTRAYVEQDLAEQFDGVVRYAKDAFEGLSLMEPLVRVARGESPDDVGLPPLKKRIHKGGAKFTVTEPEAMPGRSDVVADNAVPAPPFWGTRIVRGVALHDYAALLDERATFMGQWGLKPGRGDDGASYEELVELEGRPRLRYWLDRILAEGMLDASVAYGYFPVVSEGEQVVVLHHGEDHDGVLGTAGLLAPDGGSGGPIGTERLRFDFPRQRRDRHLCLADFVRSRESGQIDVLPIQLVTAGSAIDEVTAELFKGNHYRDYYELNGLVMQLTEALAEFWHARIRTELGFAAEEPKDKAGYFKLDYRGARFSLGYPACPDMEDRRKVTELLKPERMGVILSDELMLHPEQSTDAFVFHHPEAKYFKV	PGPT0008135_1708	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008135-metH-K00548	NA	NA
D1-29_04151	2373			hypothetical protein	GTGTCAACGATCTTCTTTGGTTATCCGGAACAGCCCCCTGCCAATGCCGAAGTCATGAGAAATACGGCGCAAAGCCTTGGAAGTGACTCCGGCATCACCGCTACGACTTGGCAAGACTTGACCGTTGACGGTCGAATTGTCATCGACCAAGTCCTAGACGCAATTGATAACTGCGACATGGCCGTTTTCGATATCACTTCTCTCAATTCAAATGTTCTGTTCGAATTAGGGTATGCAGTTGGGCGAGGAAAGATAATTTGGCTCACTCTCGATTCCACCGATTCTAGAGCGAAGAAGAACTGGAAAGATCTGGCCATTCTCAGCAATGTTGGTTACACGGCCTACCGAAACAGCGATGATCTCGTAAAGCTCTTTTATAGAAACAAGCCACTGCTGACGCCGGATTCACTCTATGACAAACTTATAGAACCGGCACTTCCGGAGCACGCCAGCGACCGGCGGTCGATTCTCTATTGCACCACATTTGAACCTTTTGAAGCCTCAAACAAGCTAAGTAACATGCTTGATGAGAGACAGCGACGCGGCCAAAGTGTTACAACTTCTGACCCCGGTGAATCTAGCCTTATCCCCATTGACTGGTTCGCACCACGGATTGCAAGCGCGGCCGGAGTGCTCGTAAATTTCGCTGGTGCCAAACGCAACAGAGCGAATATCCATAACAACAGGCACGCCCTAGTGGCCGGGCTAGCTACCGGTCTTGAGACCCCCGTCCTCATGCTCGCAGAAGGGGACTATCCAGCACCTTTTGACTACGAGGCAAAGCTAAGAATTTATGAAACCGCTGAGGAGTGTGTCGAAGAAGCGCGCAAGTGGTTGGACAACCTTGAATATGAAGGAATATCTTGGAACGCCCCTAGGTCTACGTCACCCAGTGCTTTGGGTGGGCTTCGCTTCGGGGAACACGTAGCGGAAAACGAACGAACGGAATTGGCAGAATATTTTGTTGAAACCTCCGCCTACCATGAGGTCGTTGCCGCGCGGGATAGCATCTTCGTGGGCCATCGAGGAACAGGTAAGACTGCTAACGCCATGCAAGCTTATCAACACATTGCAGCCAATAAAACAAATTTAGCTATCCTAATCAAACCATCCGGTTTTGAGTTCCCGGCTATGCTGGCGGTAGTGCTTCGTCTATCGTCGCATCAGCAAGATTACTTTTTTGATTCGCTTTGGCGCTTCATAATTCAAACTGAAATAGCGTCTGCCATGCTCCAACGACTACGCAGCCGCAGCTCCTTTGTGCCTTTCAGCGCAGATGAGCAGGCATTTATTGATTACGCCTCCAGCACCCCTTTCGATATGGACGAGGACATCTCGGTGCGGCTTGAGCAGACATTGATGGCGCTCACTGAATCCCTAGCAGCGACCACCACGACGCTCGATACCGAAAGGAACCTCATAAACGAAGCGTTCCACACTGAGGCGCTAGCCACGCTACGAGCCCAGCTTGGTCACGTTCTGAAAGGGAAGAAACGAGTAGCTGTCTTCGTCGACAACCTGGACAAGGGCTGGGAGCGTGGAGCGGACTTCAAAGTCATGGCTCGCTTTATTTTAGGTCTCCTAACCGCCCGAGGTAGAGTCGTAACTGATTTTGAGAAAGAGGACTACTGGCGTACCGCCATAAAGCTTACCGTCTCCGTGTTCCTGAGGAGCGACATATATACCTATTTGAGACGCGAGGCACGCGAGCCCGATAAGTTGCCTATCTCTACTATTTCTTGGCGCGATGCACAAACCCTCAAATCAGTCATCGAGTCACGGTTTATAATAAGCGAAGCTCATCCAGACCGAGTCTCTGAACTTTGGGAGAAGTATTTCTGCCCCTCTATAGGAAACTTGACCACCGGCGAGTACCTGACCAAGGTCACTCTTCCTCGACCAAGGGATGTGGTTTTTTTCTGCAATGCTGCTGTTGGAAAAGCCATCGACCGCCGACATACGCGTGTGGAGTCCGACGATTTCCTAGCCGCGGAGGAGGTCTATTCGCAATACGCCTACGAGGCGCTATTGGTTGAGAACGGTGTAACAATTCCCGAAATGGAGGATGCACTTCTAAGCTTCATCGACTCTACAGAAATTGCAACCGCAGGTATTCGAAAGCAAGAACTTTCACGCGGTGGTCTCGGGGACGACCGAATAGAACCTATACTCGATAAACTTCTATCGATGTCCTTTTTCGGTATTGAAATCTCAGAGGGAGTATTTGCTTATCCCGAGGTCGGAAGTGACATGGCCGCGGCCAGTGCACGGGCAAAAAAATATGAACCGCATACAGACTCTCGGCGGCTCATTATCCACCGCGCCTTTCGTACCTTTCTTGGCATCAATACCACTAACGGAAATCAGAAATAA	MSTIFFGYPEQPPANAEVMRNTAQSLGSDSGITATTWQDLTVDGRIVIDQVLDAIDNCDMAVFDITSLNSNVLFELGYAVGRGKIIWLTLDSTDSRAKKNWKDLAILSNVGYTAYRNSDDLVKLFYRNKPLLTPDSLYDKLIEPALPEHASDRRSILYCTTFEPFEASNKLSNMLDERQRRGQSVTTSDPGESSLIPIDWFAPRIASAAGVLVNFAGAKRNRANIHNNRHALVAGLATGLETPVLMLAEGDYPAPFDYEAKLRIYETAEECVEEARKWLDNLEYEGISWNAPRSTSPSALGGLRFGEHVAENERTELAEYFVETSAYHEVVAARDSIFVGHRGTGKTANAMQAYQHIAANKTNLAILIKPSGFEFPAMLAVVLRLSSHQQDYFFDSLWRFIIQTEIASAMLQRLRSRSSFVPFSADEQAFIDYASSTPFDMDEDISVRLEQTLMALTESLAATTTTLDTERNLINEAFHTEALATLRAQLGHVLKGKKRVAVFVDNLDKGWERGADFKVMARFILGLLTARGRVVTDFEKEDYWRTAIKLTVSVFLRSDIYTYLRREAREPDKLPISTISWRDAQTLKSVIESRFIISEAHPDRVSELWEKYFCPSIGNLTTGEYLTKVTLPRPRDVVFFCNAAVGKAIDRRHTRVESDDFLAAEEVYSQYAYEALLVENGVTIPEMEDALLSFIDSTEIATAGIRKQELSRGGLGDDRIEPILDKLLSMSFFGIEISEGVFAYPEVGSDMAAASARAKKYEPHTDSRRLIIHRAFRTFLGINTTNGNQK				NA	NA	NA	NA	NA
D1-29_04152	2136			hypothetical protein	TTGCCAGATTTCAACACAGAGGAGCTTGAAAAGTTCACTGAGGCTATTCGACTCCTGAAGCTTTACCGCCGCGCGGAGATGGAGACTGCGGACGGAAAAGACCTCATCGAGCAGCTCTACGTCGATCCGCTACCCCATGACCACGTACTCAAGCAGATCCGACAACCTACGACCACCTTCATCGTTGGCCGGAAGGGTACCGGAAAGTCAACCGTGTTCCTTCGGGCGCGCAAGAGTCTACTTGCGCAGAAGGACGTGATCGCCGCATATGTTGACATCAAAACTGTCTTTGAATCTTCACGCGTCGATCCCGCGCTAACGAGCGCACTGACCTCAACCGACGGTGCACTCAGCGACGCAGCACTGGATCACCTTCTCCTACTGACGGCGTTCCTAAAAGCCGTTGTCATTGGAATTCGCGACGACTTGCGAGCCCAGCTGAACTCCGCTTGGCGCAGTCGCCTGCGCGAAGCTTTCACTGGCGAATACAACGACCTCGAAAAGAAACTCGATGAGTTTCTCATGGAACTTGAAGAACCTAAGTTCGTAAATGTTCAGGGAATTCGCACTGCATCCGTGCGGCAGCGGGACCAGAACGGGGCCTTGATCGGCGTACAAGCGGGGACAGAGTTGTCCGCCACCGGCCCAAGTGCAAACTTTTCTGCTTCCGCAGAAGCCTCCTCCGAATCAGAATCTGAATCGGAGTACTCCGATGTTCTTCTCCGAAGCATCGACGTCCACCGCCTGATCACTGGGCTTAAATCGCTATTGCAACCACTCGGTATCAAGCACCTCTATGTTTTTCTCGACGACTTCTCAGAGCTCCCCGAAGATGCGATGCGGTCCGTGGTCGATGTTCTCGTAGCACCACTCAACAACTGGTCCGAGGAGTTAGTCAAGTTCAAAATTGCTGCCTACCCAGGGCGTATTTACTACGGAAATCTGGACAAATCCAAGATAGAGGAAATAACGCTCGACCTCCACAGCATCTACGGACAATCGGGCGTTGCCTCAATGGAGGAGAAGTCCAGCGAATTCACTAAACGCTTGGTCGAGCGGCGGCTGCATCACTTCGGACTGGACCCCGTCCGATTCATGGATATCGGCCGAGATTCGCAGCTTTGGGACACCCTATTCCAGGCATCGATGGGCAACCCTCGCACACTTGGATACATACTGTTTTTTGCCCACGAATCGCAGTTGCTTTATGGGCGCCGAATAACCGTCCAGGGAGTTCGGGATGCGGCCAAGCGCTACTACGAAGAGAAACTTGAGCCCTACTTCGCGATGGGGGCCTTTCTGCATGAATCATTCCACGAGCGATCGACAATATTCAGCCTGAAGGAACTGCTCGAGCAAGTAGTCGCCCGCGCACGTTCTCTGCGATCGAAGGAAAGCGCAAGCATCTTTCAGTCGGTCGATGGCCGTCATCCTACAAGTCACTTCAATGTGAATCCCTCATTCGAAACTCTACTGTCCACGCTTGAACTGAATTTTTTCATTACCAAATATTTTGTGATGAGTAATCGTGATGGGCTGCTCGTTTCGATCTACGCTCTGAATTTTGGTCTGTGTGAAAAGTACAACATCGCGTTTGGACGCCCTACAAAATCAAGAGAACAAAGACTGTACTTTGTTGAGCGAGTCTTTGACTATAACCCGATTCTGCAGGCCTACGTCTCGACGAATCAAGAAATTCAATGCGACTCCTGTGGCGCAGTTTTCGACTCTTCCGACCTCGATTCCCTCAAGAAGTATCACATGCTTTGCCCGCTCTGTCGGCAGGGGACCTGTGTAGTTACTAACATTGCAAAGAAATACTCCGATGTCGTCGCCCGTGTGGCAAGCGAACAACTACTTCCCCAAACTGAACTGGGGATCTTGCGTAGCCTTGATTCTGAAGCTCGGCCACTTTACGCCAGCGAGATCGCCGGTGAACTAGACGTATCTCATCAGCTCATCGGGTGGCGAGCTAAGCGACTCGACGAGCAGAATCTGATCGTTCGTGAGGCCGTCAAGAGCGGTCGCCGAACGTACAAACTCTCAACTGATGCGCGGCGCATCTACTTTGACGATCGGGCGGCGTGGGGTTTGCAGCTCGCAGAGTTCGGCGATAGCGAACCCCCGGCGGGGTAA	MPDFNTEELEKFTEAIRLLKLYRRAEMETADGKDLIEQLYVDPLPHDHVLKQIRQPTTTFIVGRKGTGKSTVFLRARKSLLAQKDVIAAYVDIKTVFESSRVDPALTSALTSTDGALSDAALDHLLLLTAFLKAVVIGIRDDLRAQLNSAWRSRLREAFTGEYNDLEKKLDEFLMELEEPKFVNVQGIRTASVRQRDQNGALIGVQAGTELSATGPSANFSASAEASSESESESEYSDVLLRSIDVHRLITGLKSLLQPLGIKHLYVFLDDFSELPEDAMRSVVDVLVAPLNNWSEELVKFKIAAYPGRIYYGNLDKSKIEEITLDLHSIYGQSGVASMEEKSSEFTKRLVERRLHHFGLDPVRFMDIGRDSQLWDTLFQASMGNPRTLGYILFFAHESQLLYGRRITVQGVRDAAKRYYEEKLEPYFAMGAFLHESFHERSTIFSLKELLEQVVARARSLRSKESASIFQSVDGRHPTSHFNVNPSFETLLSTLELNFFITKYFVMSNRDGLLVSIYALNFGLCEKYNIAFGRPTKSREQRLYFVERVFDYNPILQAYVSTNQEIQCDSCGAVFDSSDLDSLKKYHMLCPLCRQGTCVVTNIAKKYSDVVARVASEQLLPQTELGILRSLDSEARPLYASEIAGELDVSHQLIGWRAKRLDEQNLIVREAVKSGRRTYKLSTDARRIYFDDRAAWGLQLAEFGDSEPPAG				NA	NA	NA	NA	NA
D1-29_04153	1008	lipA_2	COG0320	Lipoyl synthase	ATGACACTGGCACCAGAAGGCCGGAAGATGCTGCGCATCGAACAGCGCAACGCGGCCACCCCGGTGGAACGGAAGCCGGAGTGGATCAAGGCCAAGGTCCAGATGGGTCCCGAGTTCGTTCAGCTGAAGAATCTGGTCAAGAAGGAAGGCCTCCACACGGTGTGTGAGGAGGCGGGCTGCCCGAACATTTTTGAGTGCTGGGAAGACAAGGAAGCCACGTTCCTGATCGGCGGGTCCGAGTGCACCAGGCGGTGTGACTTCTGCCAGATCGATACCGGCAAGCCGTCGCCGGTGGACATGTTTGAACCCACCAAGGTGGCCCGGTCCGTGCAGGCCATGCAGCTGCGGTACGCCACCGTCACCGGTGTGGCCCGTGATGACCTGGCCGACGAGGGTGTCTGGCTGTACGCCGAGACGGTCCGCAAGATCCACGAACTGAACCCGGGCACCGGCGTCGAGCTTTTGATCCCGGATTTCTCCGGCAAGCCCGAGCACATCGAGGCGATCTGCGATTCAAAGCCTGAGGTGTTCGCGCACAACGTCGAAACCGTGCCGCGGATCTTCAAGCGGATCCGGCCGGCGTTCCGGTATGACCGGTCCCTGGATGTCATCACGCAGGGCCGGAAGCTGGGCATGGTCACCAAGTCCAACCTGATCCTTGGCATGGGTGAAACCCGTGAGGAAATCTCCGAGGCCCTCCGTGACCTGCACGAGGCGGGCTGTGACCTGATCACCATCACCCAGTACCTGCGCCCGAGTGAACGGCACCTGCCGGTGGACCGCTGGGTCAAGCCGCAGGAATTCGTGGACCTCCAGGACGAAGCGATCGAGATGGGCTTCCTGGGTGTGATGTCCGGGCCGCTGGTCCGCTCCTCCTACCGTGCCGGCCGGCTCTGGGCCACAGCGATGCGCAAGAAGGGCTGGGAAATCCCGGCCGAACTGGCGCACATCGAATCCTCGGGCAGCACCCGCCAGGAAGCCAGCTCCCTGCTCGCAGGGCATTCCTGA	MTLAPEGRKMLRIEQRNAATPVERKPEWIKAKVQMGPEFVQLKNLVKKEGLHTVCEEAGCPNIFECWEDKEATFLIGGSECTRRCDFCQIDTGKPSPVDMFEPTKVARSVQAMQLRYATVTGVARDDLADEGVWLYAETVRKIHELNPGTGVELLIPDFSGKPEHIEAICDSKPEVFAHNVETVPRIFKRIRPAFRYDRSLDVITQGRKLGMVTKSNLILGMGETREEISEALRDLHEAGCDLITITQYLRPSERHLPVDRWVKPQEFVDLQDEAIEMGFLGVMSGPLVRSSYRAGRLWATAMRKKGWEIPAELAHIESSGSTRQEASSLLAGHS	PGPT0003935_1247	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
D1-29_04154	1428	sdaA_3	COG1760	L-serine dehydratase	ATGGCCGTTGGAGTCTTTGATCTCTTTTCCATTGGCATTGGACCGTCAAGTTCGCACACCGTCGGGCCGATGCGGGCTGCTGCTGTGTTTGCGGAGGAGCTGAAGGCCTCTGGCATGGTGGCCGAGGTGGCGGGGTTGCGGGTGGACCTTTACGGGTCGTTGGCTGCTACCGGGCACGGTCATGGCACCATGACCGCGATCCTGCTCGGGCTGGAGGGGTTTCATCCGGAGCTGATCCTGCCCGATGAGGTGGAGGAGCGGCTGGCTGCGATTGAGGAGACGGGTGTCCTGCAGTTGGCTGGGACCGTGCCGCTGCCTTATGGCGTGAATGACATGGTGCTGCGGCCGCTGACCATCCTGGCGCGCCACACCAATGGCATGACCTTCACTGTGTCCGATGGCGAGGGCAATGTCCTGCACACTGCCACCTTTTTCTCCGTGGGTGGCGGGTTCATCGTCCGCGAGGGCGAGGAAGACGCTGCGCAGCAGGAGCTAGAGGAATCCAAGAAGGAACTGCCGCTGCCGTTCCGGACTGCCGCTGAACTGTTGGAGCACTGCCGGGAAACCGGGCTGGGCATTAGCGACGTAATGCGGGTCAACGAGGAGGACAACCGCACTCCCAGGGAGATCCGCGAAGGCCTGCTGCACATCTGGTCCGTCATGGAGGACTGCGTGGCCACCAGCCTCAAGCGCGAAGGCCTGCTGCCCGGCGGACTGAAGGTCCGCCGTCGTGCCCCGGATTGGTACGACCGGCTGAAAAAGGAAAGCTCACGGCCGGACGGTGAAGGCCAGGACCAGGACTTCTATGACCAGAAGTATTGGCAGGAGTGGGTTAACTTGATCGCTCTCGCCGTCAATGAGGAGAATGCCTCGGGCGGCCGGGTGGTCACCGCCCCGACCAACGGCGCGGCCGGGATCATCCCGGCAGTGCTGTTCTACGCGCTGCACTTCGCGCCGGGGATGGAGAGCGCCAATCAGGAGGACCGCGACGACGTCGTGGTCAGGTTCCTGCTGGCGGCCGGTGCCATCGGGGTGCTGTACAAGGAACAGGCATCTATTTCGGGGGCGGAGGTGGGCTGCCAGGGCGAGGTGGGTTCGGCGTCGTCCATGGCGGCCGCGGGCCTGGCCGAGGTCATGGGCGGCACGCCGCAGCAGGTGGAGAACGCGGCGGAGATCGCGATGGAGCACAACCTGGGGTTGACGTGTGATCCGATCGGCGGGTTGGTTCAGATTCCGTGTATTGAACGGAACGCCATCGCGTCGGCGAAGGCGATCAACGCCGCCAAGATGGCGCTGTGGGGCGATGGAACGCACCGGGTGTCGCTGGATGAGGTGATCGTGACCATGCGCGAAACGGGCAAGGACATGTCCTCCAAATACAAGGAAACCGCGATGGGCGGCCTGGCCGTCAACGTGGTCGAATGCTAA	MAVGVFDLFSIGIGPSSSHTVGPMRAAAVFAEELKASGMVAEVAGLRVDLYGSLAATGHGHGTMTAILLGLEGFHPELILPDEVEERLAAIEETGVLQLAGTVPLPYGVNDMVLRPLTILARHTNGMTFTVSDGEGNVLHTATFFSVGGGFIVREGEEDAAQQELEESKKELPLPFRTAAELLEHCRETGLGISDVMRVNEEDNRTPREIREGLLHIWSVMEDCVATSLKREGLLPGGLKVRRRAPDWYDRLKKESSRPDGEGQDQDFYDQKYWQEWVNLIALAVNEENASGGRVVTAPTNGAAGIIPAVLFYALHFAPGMESANQEDRDDVVVRFLLAAGAIGVLYKEQASISGAEVGCQGEVGSASSMAAAGLAEVMGGTPQQVENAAEIAMEHNLGLTCDPIGGLVQIPCIERNAIASAKAINAAKMALWGDGTHRVSLDEVIVTMRETGKDMSSKYKETAMGGLAVNVVEC	PGPT0001975_238	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
D1-29_04155	1326	glyA2_2	COG0112	Serine hydroxymethyltransferase 2	GTGAGCGGCGCTGCTGCCGCCACGGCAGCATTTGAGCAGGTTGTTTCGCCGAGCCTGGACGCGGACCTGTCGGTCCTGGATCCGGAGATCGCGGCCAAGATCGACGACGAACTGGGCCGCCAGCGCGACGGCCTGGAGATGATCGCGTCGGAGAACCACACCGCCGTGGCAGTGATGCAGGCGCAGGGCTCGGTGCTGACCAACAAGTATGCCGAGGGTTACCCGGGCAAGCGGTACTACGGTGGCTGCGAGCACGTTGATGTCATCGAACAGCTCGCCATCGAGCGGGTCAAGGCCCTGTTCGGCGCCGAGTTCGCGAACGTCCAGCCGCATTCAGGTGCGCAGGCCAACGCCTCGGTGATGCACGCGCTGATCAAGCCGGGCGACACGATCATGGGCCTGAACCTGGCCCACGGCGGCCACCTGACCCACGGCATGAAGATCAACTTCTCCGGCCGGCTGTACAACGTCATCCCGTACCAGGTCCGCGAAGAGGACCACCGGATCGACATGGCCGAGGTGGAGCGCCTGGCCCACGAGCACAAACCGGTCCTGATCGTGGCAGGCTGGTCGGCCTATGCACGCCAGGTGGACTTCGCCGAGTTCCGCCGGATCGCCGATTCAGTGGGCGCCTACCTGATGGTGGACATGGCGCACTTCGCCGGACTGGTTGCCGCCGGGCTGCACCCCTCCCCGGTGCCGCACGCCCACGTCACCACCTCCACCACGCACAAGACCCTCGCCGGTCCGCGTGGCGGCATCATCCTGACCAACGACGCCGCCATCGCCAAGAAGATCAACTCGGCGGTGTTCCCGGGCCAGCAGGGCGGGCCGCTGGAGCACGTCATCGCGGGCAAGGCCGTGGCGTTCAAGATCGCCGCGTCTGAGGAGTTCCGGGAACGGCAGGAACGGGTCCTTGCCGGCGCCCGGATCCTCGCCGAGCGCCTGGTCCAGCCGGACGTCACCGCCAAGGGCATCAACGTCATCTCTGGCGGCACCGATGTGCACCTGGTTTTGGTGGACCTGCGGAACTGCGAACTGGACGGGCAGCAGGCTGAGGACCGGCTCGCGGAGATCGACATCACGGTGAACCGCAACGCCGTGCCGTTCGACCCCCGCCCGCCCATGGTGACGTCCGGGCTGCGGATCGGCACTCCGGCACTGGCGACCCGAGGGTTCGGCGAAGCAGCCTTCCGCGAGGTTGCGGACATCATCGCCGAGGCATTGATGGCCGACGCCGGAGCCGACCTTTCCGGGCTCCGTCACCGCGTCGAAGCCCTCGCCGCGGCCCACCCGCTCTACCCGGGCGTGGCACCGCTGTCCTAG	MSGAAAATAAFEQVVSPSLDADLSVLDPEIAAKIDDELGRQRDGLEMIASENHTAVAVMQAQGSVLTNKYAEGYPGKRYYGGCEHVDVIEQLAIERVKALFGAEFANVQPHSGAQANASVMHALIKPGDTIMGLNLAHGGHLTHGMKINFSGRLYNVIPYQVREEDHRIDMAEVERLAHEHKPVLIVAGWSAYARQVDFAEFRRIADSVGAYLMVDMAHFAGLVAAGLHPSPVPHAHVTTSTTHKTLAGPRGGIILTNDAAIAKKINSAVFPGQQGGPLEHVIAGKAVAFKIAASEEFRERQERVLAGARILAERLVQPDVTAKGINVISGGTDVHLVLVDLRNCELDGQQAEDRLAEIDITVNRNAVPFDPRPPMVTSGLRIGTPALATRGFGEAAFREVADIIAEALMADAGADLSGLRHRVEALAAAHPLYPGVAPLS	PGPT0008090_1844	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
D1-29_04156	384	gcvH_3	COG0509	Glycine cleavage system H protein	ATGAGCAAAGTAGTTGCTGAACTGAAGTATTCGGCCGAGCACGAGTGGGTTGCCTCGGATGGGGCGGGGCCTGCGGGGATTGGGATCTCCGCCGTTGCGGCCGACGCCTTGGGCGACATTGTGTACGTGGACCTGCCCGACGTCGGCTCTTCCGTGACCGCGGGGGAGACCTGCGGCGAGGTTGAGTCCACCAAGTCCGTGTCCGATTTGTACTCGCCGGTCACTGGTGAGGTGACGGAGATCAACGAGGCCGTTGTCAGTGATCCTGCCCTGATCAACAACGATCCCTATGGTGCCGGCTGGCTGTTCAGGGTGGCCGTGACCGAAGAAGGTCCGCTGATGTCAGCTGCCGAGTACGCAACGGTCAACGGCGGCGAGCTGTGA	MSKVVAELKYSAEHEWVASDGAGPAGIGISAVAADALGDIVYVDLPDVGSSVTAGETCGEVESTKSVSDLYSPVTGEVTEINEAVVSDPALINNDPYGAGWLFRVAVTEEGPLMSAAEYATVNGGEL				NA	NA	NA	NA	NA
D1-29_04157	1137	gcvT_3	COG0404	Aminomethyltransferase	ATGACTGAGAACTACACAGCCCTGTACGAGCAGCACAAAAAGGCCGGCGCGTCCTTCACGGACTTCGGTGGCTGGCAGATGCCCCTCAAGTACGAGTCCGAGCTCGCCGAGCACCACGCGGTGCGTAATACAGCAGGCCTGTTCGATCTCTCCCACATGGGCGAAGTGTGGGTCAGCGGCCCGGATGCAGCCACTTTCCTGGACTACGCGCTGGTGGGAAAGCTTTCAGCCGTTGCCGTGGGCAGGGCGAAGTACTCCCTGATCTGCAACACCGACGGCGGCATCATCGACGACCTCATTTCGTACCGCCGCCCGTCTCCCGAAGACGGCGTGGACGAGTACCTTGTGGTCCCCAATGCCGGCAACGCAAAGGTGGTTGCGGCGGCGCTGGCGGACCGTGCGGCTGGCTTTGACGTCGTCGTTCGGGACGCCTCCGCTGAGACGTCGCTGATCGCTGTGCAGGGACCGAACGCGGAAGCGATCCTGCTGACGCTGGTCCCCGCCGGGCAGCACCAGCCGGTCAGGGACCTGAAGTATTACGCGGCCGTTGAAGCAGATATCAACGGGCAGGAGTTGTTGCTCGCCCGCACCGGCTATACCGGCGAAGACGGCTTCGAGATCTACGTCCCGAACGTGGACGCAGCCAGCCTGTGGGAAGCGCTGCTCGAAGCCGGGGAAAGCCATGGACTCATCCCGGCAGGACTCGCAGCCCGCGACTCACTGCGTCTCGAAGCCGGCATGCCGCTCTATGGCAACGAACTATCCCGCTACGTGAACGCCTACGCAGCAGGACTCGGCCCGGTTGTTTCCCTGGCCAAGGAAAGCGACTTCGTCGGAAGGAAAGCGCTGACGGCCATCAAGGCTGCGGGCGTCGGATCCACCATCGGCGCAAAGCTCGTCGGCCTCAAAGGCACTGGCCGCCGGGCTGCCCGCGCTCACTATTCAATCCTCAAAGACGGCACACTCATCGGCGAGGTCACTTCCGGCCAGCCGAGCCCGACGCTCGGTTACCCCGTGGCGTTGGCCTATGTGGACGTCGCGCACTCCGAGCCGGGCACGGTTGTCGACGTGGATCTTCGCGGCAAATTGGAACCCTTTGAAGTTGTAGCGCTGCCGTTCTACAAGCGGGCCAAGTAA	MTENYTALYEQHKKAGASFTDFGGWQMPLKYESELAEHHAVRNTAGLFDLSHMGEVWVSGPDAATFLDYALVGKLSAVAVGRAKYSLICNTDGGIIDDLISYRRPSPEDGVDEYLVVPNAGNAKVVAAALADRAAGFDVVVRDASAETSLIAVQGPNAEAILLTLVPAGQHQPVRDLKYYAAVEADINGQELLLARTGYTGEDGFEIYVPNVDAASLWEALLEAGESHGLIPAGLAARDSLRLEAGMPLYGNELSRYVNAYAAGLGPVVSLAKESDFVGRKALTAIKAAGVGSTIGAKLVGLKGTGRRAARAHYSILKDGTLIGEVTSGQPSPTLGYPVALAYVDVAHSEPGTVVDVDLRGKLEPFEVVALPFYKRAK	PGPT0008130_1092	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
D1-29_04158	2889	gcvP_2	COG0403	putative glycine dehydrogenase (decarboxylating)	ATGGAGTTCCTCTTGACTGTTCAATCAACCCCCACCGCTTTCGCGGACCGGCACATCGGCGCCCGGCGCCAGGCCGACGTTGACACCATGCTCAAGGCAATCGGCTACGACTCCGTGGACGGCCTGGTAGACGTGGCCGTCCCCGATTCCATCCGTCAGTCCGCACCGTTGACACTTCCAAGCGGCACGGACGCGCTCAGCGAGGTTGAGGTCCTGGCCGAACTGCGCCGCCTCGCCGCCAAGAACAAGACCGCCGTCCAAATGATCGGTCAGGGCTACTACGACACCGTCACCCCGCCGGTGATCCGCCGCAACATCCTGGAAGCTCCGGCCTGGTACACCGCGTACACGCCGTACCAGCCCGAAATTTCCCAGGGCCGGCTCGAGGCGCTCCTGAACTTCCAGACAATGGTGCAGGACCTCACGGCCCTTCCGGTGGCCAACGCTTCCCTGCTGGATGAAGCAACGGCTGTGGCCGAGGCCGTGCTGTTGATGCGCCGGGCCAACAAGTCCAGGTCCGCTGCTGCCGGCAAGACCGTCCTGGACGCGGACTGCCTCCCGCAGACCATCGCCATCGTGAAGGGCCGCGCTGAGGCACTCGGCTTCGAGGTGGAGATCGCGGACCTGAGCCAGGGCTTGCCCGACGGCGACATCAACGGAGTGGTCCTCCAGCAGCCCGGTGTTTCGGGCCGCGTTTTCAACCACGCACCGGTCATCGCTGCCGCCAAGGAACGCGGCGCGCTGGTCACTGTTGCCGCCGATCTGTTGGCGCTCACCCTCATCACGCCCCCGGGCGAGCAAGGTGCCGACATCGCCGTCGGAACCGCGCAGCGCTTTGGCGTGCCGCTGTTCTTCGGCGGCCCGCACGCCGCGTACATGGCCGTCCGCGAAGGCATGGAGCGCACGCTCCCGGGCCGCATCGTTGGCGTTTCCAGGGACAACGCCGGGGTTCCTGCCTACCGGCTGGCCCTCCAGACCCGTGAGCAGCACATCCGCCGCGAAAAGGCCACGTCCAACATCTGCACTGCCCAGGCTTTGCTGGCAATCGTTGCCTCGATGTACGCGGTCTACCACGGCCCGGAAGGCCTGAAGGCGATCGCCGAAACCGTCCACGGCCACGCCCGGACCCTGGCAACCGCCCTCAAGACCGCCGGCCGCGACCTTGTGTCCGAGTCATTCTTCGACACCCTCACGGTCCGCGTCCCCGGCAAGGCGGACAAAGTCATTGCCGCCGCCGAAGCCCGCGGCATCAACCTGCGGCTCATCGACGCTGACACCGTTGGCGTCTCCGTGGATGAAACCACGACGCCGGATGTCCTGTCCGCCGTGGCAGTCGCCTTTGGCGCCGGTCCCGTGAAATCCGCTGCCGGCTTTGAGCTGCCGTCCGGCGTTGTCCGTACGTCCGATTTCCTGCAGCACCCGGTGTTCAACACTCACCGTTCCGAGACGCAGCTGTTGCGCTATATCCGCAAGCTGTCCGACCGGGACCTTTCGCTGGACCGCACCATGATTCCGCTGGGCTCGTGCACCATGAAGCTCAACGCGACGGCCGAGATGGAAGCCATCTCCTGGCCGGAGTTTGCCTCGATCCACCCGTTCGCTCCGGACTCCCAAACGGCGGGCTGGCGGGAACTGATTGAAGGTTTGGAAGCGGACCTTACCGAAATCACCGGCTACGACCAGGTGTCCATCCAGCCGAACGCCGGTTCCCAGGGTGAGCTTGCAGGCCTGCTGGCCATCCGCGGCTACCACCTGTCCCGCGGCGACGAGCAGCGCAACGTCTGCCTGATCCCGGCCTCCGCGCATGGCACCAATGCTGCGTCAGCCGTGCTGGCCGGCATGAAGGTTGTTGTGGTGGCCACGGCTTCCGACGGAACCATCGACCACGCCGATTTGACCGCCAAGATCGAGGCAAACAGGGACGTGCTGTCCTGCATCATGATCACCTACCCGTCCACCCACGGCGTGTACGACGCTGACGTCCGCGAGGTCTGCGACGCCATCCACCAGGCCGGCGGACAGGTGTATGTGGACGGCGCCAACCTGAACGCGCTGGTGGGACTGGCCCAGCCGGGTAAGTTCGGCGGCGACGTGTCCCACCTGAACCTGCACAAGACCTTCTGCATCCCGCACGGTGGCGGCGGTCCCGGCGTTGGCCCGGTCGCAGCCAAGGCACACCTGGCACCGTTCATGCCCGGCGACGCGAACAAGGCTTCCTCAGGCGGGGGCGTGGCCATCTCCGCTTCGCGCTATGGATCGGCCGGTGTCCTTCCGATTTCCTGGGCGTACGTGAAGCTGATGGGAGGGCGGGGCCTGACCGAAGCCACCAAGTCGGCGCTGCTCGCTGCGAACTATGTTGCTTCCCGGCTGGATGAGCACTTCCCCGTCCTGTACACGGGTGCAGGCGGACTCGTGGCCCACGAGTGCATCCTTGACCTCCGCGAACTGACGGCCCGCACCGGCGTCACCGCGGAGGACGTGGCCAAGCGCCTCATCGACTTTGGCTTCCACGCTCCCACCTTGTCGTTCCCCGTTGCGGGCACACTGATGGTGGAGCCCACCGAGTCCGAAGACCTGGCTGAGATCGACCGCTTCATCGAAGCGATGATCATCATCCGCGCGGAAATCGAGCAGGTGGCCAGCGGTGATTTCACTGTTGAGAAGTCGCCGCTGCGCAACGCACCGCACACGGCTGCCGCCGTCGTAAGTTCCGTGTGGGGCCGTGAATACCCGCGCGAGCAGGCGGCGTTCCCGGTCCCGCACCTGAAACAGGACAAGTACTTCCCGCCCGTGGGCCGGGTAGACGGTGCCGCCGGTGACCGGAACCTTGTGTGCTCCTGCCCTCCCCTCGAAGCGTTCGAGGACAACACTGCAGACCTCGAAAACTAA	MEFLLTVQSTPTAFADRHIGARRQADVDTMLKAIGYDSVDGLVDVAVPDSIRQSAPLTLPSGTDALSEVEVLAELRRLAAKNKTAVQMIGQGYYDTVTPPVIRRNILEAPAWYTAYTPYQPEISQGRLEALLNFQTMVQDLTALPVANASLLDEATAVAEAVLLMRRANKSRSAAAGKTVLDADCLPQTIAIVKGRAEALGFEVEIADLSQGLPDGDINGVVLQQPGVSGRVFNHAPVIAAAKERGALVTVAADLLALTLITPPGEQGADIAVGTAQRFGVPLFFGGPHAAYMAVREGMERTLPGRIVGVSRDNAGVPAYRLALQTREQHIRREKATSNICTAQALLAIVASMYAVYHGPEGLKAIAETVHGHARTLATALKTAGRDLVSESFFDTLTVRVPGKADKVIAAAEARGINLRLIDADTVGVSVDETTTPDVLSAVAVAFGAGPVKSAAGFELPSGVVRTSDFLQHPVFNTHRSETQLLRYIRKLSDRDLSLDRTMIPLGSCTMKLNATAEMEAISWPEFASIHPFAPDSQTAGWRELIEGLEADLTEITGYDQVSIQPNAGSQGELAGLLAIRGYHLSRGDEQRNVCLIPASAHGTNAASAVLAGMKVVVVATASDGTIDHADLTAKIEANRDVLSCIMITYPSTHGVYDADVREVCDAIHQAGGQVYVDGANLNALVGLAQPGKFGGDVSHLNLHKTFCIPHGGGGPGVGPVAAKAHLAPFMPGDANKASSGGGVAISASRYGSAGVLPISWAYVKLMGGRGLTEATKSALLAANYVASRLDEHFPVLYTGAGGLVAHECILDLRELTARTGVTAEDVAKRLIDFGFHAPTLSFPVAGTLMVEPTESEDLAEIDRFIEAMIIIRAEIEQVASGDFTVEKSPLRNAPHTAAAVVSSVWGREYPREQAAFPVPHLKQDKYFPPVGRVDGAAGDRNLVCSCPPLEAFEDNTADLEN	PGPT0020480_2485	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020480-gcvP-K00281	NA	NA
D1-29_04160	339			hypothetical protein	GTGAAACTAGGTGAAAGTGGTGAAACTTCGTCACCGGACGGCAGCCGGGCGTACGAGGCAAGTCCATGCGCCCGCGTGTCCCACTGCGCCGGAATTGCCGAGTTAGCCTACAAGGGCCCGCGTGTGGTCGTTGAGGAATATCCCGCGGGGATCGAACTCGCGGCGGACCTGCATGAACGTGTCCAGTTCCGGGTAGAGGCGCTCAAGACGGCTCCGGGTCAGGCGGCGCTAGTCAGCCGCCAGGTCCCTGGCCGGTCAAACCTTGCCTTGCGTAGTTGCAGAAATACCCGCTATGGTGTGAACCGTGCCACCCACCCAAGGGTGACGCAACGCTTTTGA	MKLGESGETSSPDGSRAYEASPCARVSHCAGIAELAYKGPRVVVEEYPAGIELAADLHERVQFRVEALKTAPGQAALVSRQVPGRSNLALRSCRNTRYGVNRATHPRVTQRF				NA	NA	NA	NA	NA
D1-29_04161	1233		COG3268	Putative trans-acting enoyl reductase	ATGGAAAACTCATCTCGGGAACATGACCTCGTTCTCTACGGAGCGACGGGTTTCGCTGGCCGACTGATCGCCGGCTACGTCGCGGAGCATGCACCGGCTGGGATGCGAGTTGGACTCGCGGGCCGGTCGAGGTCCAGACTCGGGGCCCTTCGGTCGCAGTTGCCGGTCGCGGCGCACGGATGGGCCCTCATCGAAGCCGACTCGGAGGACGCGGACTCGATCGCCGCCCTGGCCGTGGGCACACGCGTGCTCTTCACAACCGTCGGTCCATACGCGAAACACGGACTACCTGTGGTCGACGCCTGCGCACGGGCCGGTACCCACTACGCCGACCTCGCGGGTGAGGTGTCCTTCGTCCGGGAGGCGATCGATCGCTACGACGCTCTGGCCAGGACGAGCGGGGCCAGGATCGTGCACTCCTGCGGCTACGACTCCGTGCCGTCCGACCTCGCTGTACTGCTGCTTCATCAGGCGGCAGAAGCCGATGGCGCTGGCGGTTTGGTCGAGGTCCAACTCGTTGCTACGGCCAAGGGTGGCATCAGCGGAGGCACGCTCGAATCGTTTCGCGGGCAGCTCGAGGCGATGCGATCGAGCACCGCCCTGAGGTCATTAGCCGCGGACCCCTATGCTCTGAGCCCCGACCGCACACGGGAGCCGACGACACAACAGCCTCCTGACGCCGGTACTGTGCGCCGTTCCGATGACGGCACCTGGACCGCGCCGTTCATCATGGCCGCGGTCAACACCCGGATAGTGCGCCGCAGCAACGCACTGCAGGGCTGGGCCTACGGCCGCTCCCTTCAGTACGGCGAGGTGATGGGGGTGGCCCGCGGACCGGCAGGAGCGGTTCTCGCCAGGGCAGTGGCACTCGGACTCCGGGCATTCATGGGCGCGATGGCGTTCCCGCCGACCCGGGGGGTGCTCGACCGCTGTCTTCCGGCACCAGGTGCGGGTCCGAGCACCAGCACCCAGCGCGCGGGCTGGTTCCACTCTCAGGTGACCGCCCGCACCGAGGACGGGCACCGATACCAGGCGATTGCTGCTGGCCCTGGTGATCCCGGCTATGCCGCCACCGCCGTGATGGCAGGCGAGACTGCACTCGCTCTTGCCCTCGACGGCGACCGGCTGCCGACCGCGAAAGGGTCGCTGACACCGGCCACTGCACTCGGCAACGTGCTCATACAGCGACTCCGTGCGGCCGGCCACACTTACCAGGTAACCAAACTCGCCTGA	MENSSREHDLVLYGATGFAGRLIAGYVAEHAPAGMRVGLAGRSRSRLGALRSQLPVAAHGWALIEADSEDADSIAALAVGTRVLFTTVGPYAKHGLPVVDACARAGTHYADLAGEVSFVREAIDRYDALARTSGARIVHSCGYDSVPSDLAVLLLHQAAEADGAGGLVEVQLVATAKGGISGGTLESFRGQLEAMRSSTALRSLAADPYALSPDRTREPTTQQPPDAGTVRRSDDGTWTAPFIMAAVNTRIVRRSNALQGWAYGRSLQYGEVMGVARGPAGAVLARAVALGLRAFMGAMAFPPTRGVLDRCLPAPGAGPSTSTQRAGWFHSQVTARTEDGHRYQAIAAGPGDPGYAATAVMAGETALALALDGDRLPTAKGSLTPATALGNVLIQRLRAAGHTYQVTKLA				NA	NA	NA	NA	NA
D1-29_04162	2043		COG1132	Fatty acid ABC transporter ATP-binding/permease protein	ATGAGCTCCCCGCACCGCCCGCCGTCGAACGCTTCTTCCGGAACCACCGGCGGAACGGCACCAGCCGCGAAAGGCGGGCCCGCCGTCGTCGAACGCATCCCGCGTCCGGCGGGCGGACCGGGACGCGGCGGGCCGTTCGCGGGGATGAACGTCCCCGCCGAAAAGGCGATGAACTTCGGGCCGTCGGCCAAACGGCTGCTGGGAACACTCCGGCCGGAGCGGGCGTGGCTGCTGCTGGTGCTTGTAATGGGGGTGGCCAGTGTGGCGCTCTCGGTGATCGGGCCGCGGCTGCTGGGGGAGGGCACCAACCTGATCTTCGCTGGTGTGGTGTCCCGGGAGCTGCCGGCCGGGGTAAGCAAGGCGGACGTGATTGCGCAGCTGCGGGCGTCCGGGCAGAACCAGCAGGCGGACATGCTCACGCCCATGGCGCTGACGCCTGGGCAGGGGATCGACTTCGCGGCGCTGTCCAGCGTGCTGCTGTGGGCGCTGGTGCTGTATGTGCTGGCGTCGGCGTTCATGTGGGTGCAGGCGTATGTGCTGAACGCGGTGGTGCAACGGACGGTGTTCGGGCTGCGGGAGCGGATCGAGGCGAAGATCAACCGGCTGCCGCTGCGGTATTTCGATTCCATCCAGCGCGGCGAGCTGCTGAGCCGCGTGACCAACGACGTGGACAACATTTCGCAGAGCCTGCAGCAGTCCATCAGCCAGGCGGTCACGTCGGTGCTGACCGTGGTGGGTGTGCTGATGATGATGTTCATCCTGTCGCCCACGCTGGCGCTGATTGCGCTGGTGACCGTGCCGATGACGCTGGGGATCACGGCACTGATTGCCAAGCGTTCGCAGAAGCTGTTTGTGGCGCAGTGGAAGCACACGGGGGAGCTGAACGGGCAGATCGAGGAGACGTACACCGGGCACGCGCTGGTGAAGGTGTTCGGCCGGCAGCAGGAGGTGGGCGAGCGGTTCCGGCAGAAGAACGCGGAGCTGTATGAGGCGAGCTTCGGGGCGCAGTTCATTTCCGGGCTGATCATGCCGGCCATGACGTTCATCGGGAACCTGGTGTATGTGGGGATCGCCGTGGTGGGCGGCCTGCAGGTGGCGTCCGGGGCCATGCAGCTGGGCGATGTGCAGGCGTTCATCCAGTACTCGCGGCAGTTCACCATGCCGCTGGCGCAGCTGGGGTCCATGGCCAACCTGCTGCAGTCCGGGGTGGCGTCCGCGGAGCGGGTTTTCTCGTTGTTGGATGAGGACGAGGAGCTGCCGGATCCGTTGCCTGGGGTTTCTTCTGCCGATGGTTTTGGCCGGGGCCGGCTGGTGTTTGAGTCTGTTTCTTTCTCGTATTCGCCGGACAAGCCTTTGATTTCTTCGCTTTCCTTGGTGGCGGAGCCGGGGCAGACGGTGGCAATTGTGGGGCCCACCGGGGCCGGGAAGACCACCCTGGTGAACCTGATGATGCGGTTCTACGAGATTGATGCGGGGCGGATAACGCTCGACGGCGTGGACGTCACCTCGGTGTCCCGGCGTGAGCTGCGCTCGCGGATGGGGATGGTGCTGCAGGATACGTGGCTGTTCGGCGGGACCATCCGGGACAACATCGCGTACGGGCGGCCTTCTGCTACTGAGGACGAGATTTTGGAGGCGGCGCGGGCGACGTACGTGGACCGGTTTGTGCGGTCGCTGCCGGACGGGTACGACACTCTTCTTGAGGACGAAGGCGGGAATGTGTCCGCGGGGGAGAAGCAGCTGCTGACGATTGCGCGGGCTTTCCTGGCGCGGCCTTCGGTTTTGATCCTGGATGAGGCGACGTCTTCGGTGGATACCCGGACGGAGGTGCTGGTGCAGAAGGCGATGAGCGCTTTGAGGTCCGACCGGACTTCGTTTGTGATCGCCCACCGGCTGTCCACCATCCGCGACGCCGACCTCATCCTGGTGATGGAGGCCGGCCAGATCGTCGAGCAGGGGACGCACGCTTCACTGCTTGCTGCGGGCAGGGCGTACGCCCGGCTGTACGAGGCGCAGTTTGCCGCTCCGGTGGCGGAGGTCTGA	MSSPHRPPSNASSGTTGGTAPAAKGGPAVVERIPRPAGGPGRGGPFAGMNVPAEKAMNFGPSAKRLLGTLRPERAWLLLVLVMGVASVALSVIGPRLLGEGTNLIFAGVVSRELPAGVSKADVIAQLRASGQNQQADMLTPMALTPGQGIDFAALSSVLLWALVLYVLASAFMWVQAYVLNAVVQRTVFGLRERIEAKINRLPLRYFDSIQRGELLSRVTNDVDNISQSLQQSISQAVTSVLTVVGVLMMMFILSPTLALIALVTVPMTLGITALIAKRSQKLFVAQWKHTGELNGQIEETYTGHALVKVFGRQQEVGERFRQKNAELYEASFGAQFISGLIMPAMTFIGNLVYVGIAVVGGLQVASGAMQLGDVQAFIQYSRQFTMPLAQLGSMANLLQSGVASAERVFSLLDEDEELPDPLPGVSSADGFGRGRLVFESVSFSYSPDKPLISSLSLVAEPGQTVAIVGPTGAGKTTLVNLMMRFYEIDAGRITLDGVDVTSVSRRELRSRMGMVLQDTWLFGGTIRDNIAYGRPSATEDEILEAARATYVDRFVRSLPDGYDTLLEDEGGNVSAGEKQLLTIARAFLARPSVLILDEATSSVDTRTEVLVQKAMSALRSDRTSFVIAHRLSTIRDADLILVMEAGQIVEQGTHASLLAAGRAYARLYEAQFAAPVAEV	PGPT0029030_116	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
D1-29_04163	1749		COG1132	putative ABC transporter ATP-binding protein	TTGCTCTGGAAACTGCTTGTTGAATACCTGCGGCCGCACCGGCAGCTGCTGGCCGCCGTCGTGGTTTTCCAGCTGGCGCAGTCCATCGCGTCCCTGTACCTGCCCACCCTGAACGCGGACATCATCGATGAGGGCGTGGCCAAGGGGGACACCGGGGTCATCCTGAACCTGGGCGGCCTGATGCTGGCCATCACGCTGCTGCAGATCGTGTGCGCCGTGATCGCGGTGTACTTCGCAGCGAAGGCGGCGATGGGCGTGGGCCGGGACCTGCGCGGGGCTGTTTTCCAACGGGTGGGCGAGTTCTCTGAGCAGGAAGTCACCAAGTTCGGCGCGCCAAGCCTCATCACAAGATCCACCAACGACGTCCAGCAGGTCCAGCAGCTGGTCCTGATGTCCGCCACCATGCTGGTCACCGCGCCCATGCTCAGCATCGGCGGGGTGATCATGGCCGTGCGGCAGGACGCGCAGCTGTCCTGGCTGATCGCCGTCGCGGTGCCGGTGCTGCTGATCGCCGTCGGCCTGATTACCGTCCGGATGGTGCCGCTGTTCCGGAAGATGCAGAAGCGGATCGACACCGTCAACAGGGTGCTCCGCGAGCAGCTCACCGGCATCCGCGTGGTGCGCGCCTTTGTCCGGGAGGACATCGAAACGGAACGCTTTGCCCGCGCCAACGAGGACGTCACGGACACCGCCCTCCGCACCGGCCGGCTGATGGCGCTCGCGTTCCCGGTGGTGATGCTGGTGCTGAACGTCTCAAGCGTGGCAGTGATCTGGTTCGGCTCGTTCCGGATCCAGGACGGCTCCATGCAGGTGGGCACCCTGATCGCGTTCCTCAGCTACCTCCTGCAGATCCTGATGTCCGTCATGATGGCCACGTTTATGGCCGTGATGATCCCACGGGCAGCCGTCTCGGCGGACCGGATCGGCGAGGTGCTGGGAACCGAATCCAGTGTCCGGCCGCCGCTGCATCCTGTCAGCAGCGCCCCCTCCAGCGACGGGCACCGCCGGGGAGAGCTGGAAATGCTCGACGTCGGATTCGCCTACCCGGGTGCCGACCAGCCCGTCCTTTCCGGCATCAGCTTCACCGCCCGCTCCGGCCAGACGACGGCGATCATCGGCAGCACCGGCGCCGGCAAAACAACCCTGGTGAACCTCATGCCGCGGTTGTTCGACGCCACCACCGGCTCGGTCAGGATCGACGGCGTGGACGTGCGTGAGCTGCACCCGGACCTGCTCTGGGGTCACATCGGTTTGGTCCCGCAGCGGCCCTACCTGTTCACCGGCACCGTGCGCAGCAACCTGCTCTACGGCAAGCCTGACGCCACCGAGGACCAGCTCTGGGAAGCGCTAGGCATCGCCCAGGCCAGGGATTTTGTGGAGGAGATGGAGGGCGGGCTGGACGCCACCATCAGCCAGGGCGGCACCAACGTCTCGGGCGGGCAGCGGCAGCGGCTGGCCATTGCCCGGGCCCTGGTGAAACGGCCCGAGCTCTACATCTTCGACGACTCCTTCTCCTCGCTGGACACCGGCACCGACGCCCGGCTCCGGCAGGCCCTCAAGCGCAGCACCGCCGGCGCCACGCTGGTGATCATCGCCCAGCGCGTGTCCAGCATCGTTGACGCGGACCAGATCTTAGTGCTCGACGGCGGCAGGATCGTGGGGCGCGGAACGCACAGTGAGCTGCTGGAGACGTCCGGGACGTACCGCGAGATCGTCTCGTCCCAGCTGGCAGCGGAGGAGACGGTATGA	MLWKLLVEYLRPHRQLLAAVVVFQLAQSIASLYLPTLNADIIDEGVAKGDTGVILNLGGLMLAITLLQIVCAVIAVYFAAKAAMGVGRDLRGAVFQRVGEFSEQEVTKFGAPSLITRSTNDVQQVQQLVLMSATMLVTAPMLSIGGVIMAVRQDAQLSWLIAVAVPVLLIAVGLITVRMVPLFRKMQKRIDTVNRVLREQLTGIRVVRAFVREDIETERFARANEDVTDTALRTGRLMALAFPVVMLVLNVSSVAVIWFGSFRIQDGSMQVGTLIAFLSYLLQILMSVMMATFMAVMIPRAAVSADRIGEVLGTESSVRPPLHPVSSAPSSDGHRRGELEMLDVGFAYPGADQPVLSGISFTARSGQTTAIIGSTGAGKTTLVNLMPRLFDATTGSVRIDGVDVRELHPDLLWGHIGLVPQRPYLFTGTVRSNLLYGKPDATEDQLWEALGIAQARDFVEEMEGGLDATISQGGTNVSGGQRQRLAIARALVKRPELYIFDDSFSSLDTGTDARLRQALKRSTAGATLVIIAQRVSSIVDADQILVLDGGRIVGRGTHSELLETSGTYREIVSSQLAAEETV	PGPT0029025_877	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
D1-29_04164	1587	hbpA_2	COG0747	Heme-binding protein A	ATGAACATGCGCAACACAGCGCTTCCCGGGAACAGGTCCAGGAGAGTGCGCGCTTCCTACACGGCGATGCTGATCGCCGGCGTCCTCGCAACTTCGGCGTGCGCCCCATCGAACAGCGATTCCGGCAATGCCCCCGCGAATGGGTCGGGGGCCAGCGATGCGAAGATTACCCTCGGGGTGACGGCTGCACCGCGGTCGCTGGACCCGGCACAGCTTGATGGCGGTACACAGGCCTATGTTTGGGGGTCCATTTACGACACCCTGCTGTATCTGGACAACGACGGCAACCTGAAGCCTAACGCTGTCAAGGAATGGAAATACAGCGACGACGCACTCACCTTGACCTTGACGCTGCGTGACGACCTGAAGTTCAGCAACGGCGAGGCCGCAACGTCGGCAGATGTCAAAGCAACCTTCGAGCGCAACAAGGCGACCCCGGGGCAGCAGACCGACAAATTCACCTCCGTGGAGTCCGTCGAGGCCCCGGATGAACAAACGGTTATCGTCAAGTTCACCGCCCCGGACCCGGCGTTCCTCAACAACATTGCCACTGACGCCGGCGTAATCGCCGATGACAAAAACCTCAGCGATCCCAACATCGCCACCAATCCGATCGGATCGGGCCCATACACCCTCAACACGCAGAAGAGCGTCACTGGCAGCTCCTTCGTGCTTGAGCGACGTGAAGACTACTGGAACCTTGATGCCTACCCGTTCAAGACGATCACGGTTCGAGTAATTTCCGACGCAACGGCTATCGTCAACGCCCTTAAGGCAGGAGAGATTGATACCGGCCAAGTGCAGGCGAACGCGATGCCCCAGTTCCAGGGCAGGCCAGAGTTTAACCACGTTCAGGTGAAAGGCGCGTCTGTCTCCTACCTCAACCTGGCTGACCGGGCCGGTACCAAGCTCAAGCCGCTTGCGGATGTGCGGGTCCGCCAGGCTATTAATTACGCGTTCGACCGCAAGGCAATGGTCGAAAAAATCCTGTTGGGACAGGGTGTGCCCACCGTTCAGCAGTTCAACCTGAACGGAGCCATCTATGACGAGAGCCTTGACTCCACGTACAGCTACGATCCGGAGAAAGCCCGCAAACTCCTCGCCGAGGCAGGATTCTCCAATGGCTTCGAGATATCAATGCCCAGCACCGTAATGTCGACGAACTTTGAGCCCACTATCTCGCAGGCGCTCGGAGACATCGGAATTAGAGTGAACTGGGAACCTGTCCCCATTCAGAACGCGACGGCGGCAGTGGCCGGTGCCAACTACCCGATGTACTTCTTTACAGTGGGAACTGACGTGGGGCCACGTGAGGTAATCCGCCAACTCAAGGGTAAGACCCAGAACCCGTTCCAGTGGACCGTGCCAGAAGTCGACGCGCTCCTCACGGAGGCGAGCTCGGAGGTGGACCCCGAGGCGCGTAACGAAAAGTACAAGAAGCTGAACGAATACGTCGTCGAGGAGGCATTGTTCGCTCCACTGTTCTACAACTCCGCGAATTATGTAACATCCAAGGATGTTCTCTTCCTGGGAAACGGTAAGAAGAACTTCCCGTCCATCCGGACCTTTGATGTAAAAACGGGCTGA	MNMRNTALPGNRSRRVRASYTAMLIAGVLATSACAPSNSDSGNAPANGSGASDAKITLGVTAAPRSLDPAQLDGGTQAYVWGSIYDTLLYLDNDGNLKPNAVKEWKYSDDALTLTLTLRDDLKFSNGEAATSADVKATFERNKATPGQQTDKFTSVESVEAPDEQTVIVKFTAPDPAFLNNIATDAGVIADDKNLSDPNIATNPIGSGPYTLNTQKSVTGSSFVLERREDYWNLDAYPFKTITVRVISDATAIVNALKAGEIDTGQVQANAMPQFQGRPEFNHVQVKGASVSYLNLADRAGTKLKPLADVRVRQAINYAFDRKAMVEKILLGQGVPTVQQFNLNGAIYDESLDSTYSYDPEKARKLLAEAGFSNGFEISMPSTVMSTNFEPTISQALGDIGIRVNWEPVPIQNATAAVAGANYPMYFFTVGTDVGPREVIRQLKGKTQNPFQWTVPEVDALLTEASSEVDPEARNEKYKKLNEYVVEEALFAPLFYNSANYVTSKDVLFLGNGKKNFPSIRTFDVKTG	PGPT0004430_16795	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
D1-29_04165	870	gsiA_2	COG1123	Glutathione import ATP-binding protein GsiA	ATGAGTCAGCTTCTGGAAGTCAAAGATCTTCGGGTCTCCTTTGCTGGACGAGGTGTCCGCGCCCGCTCGATAGAAGTGCTGCATGGCGTCTCGCTGTCTATCGCACCTGGCGAGGTATTGGGACTCGTCGGTGAGTCGGGGTCCGGCAAGACGACCATTGGCAGAGCTGTACTGGGCCTTGTTAAATCCAGTGGCGGCAACATTGTGCTAAACGGACAAGACATTACGCATGCTGACGCGAAGACGCGGAGGTCCCTGGCGCGCGAGATCCAAGTGGTTTTTCAGGATCCGTACTCTTCGCTTAACCCGGCACTGACAGTCGGGGACATCCTGAGTGAGCCGCTTATCGTCCAGGGGGCCTCGCCGCGCGATGCGCGGGCGAAGGTGCGCACGCTGCTGGATCAGGTCGGGCTGCCCAGCGATGCTGCCGAGCGGCTACCGAAGGAGTTCAGCGGCGGTCAGCGACAGCGCGTGGCCATCGCACGGGCGCTCGCTCCAGGGCCACGACTGATTGTCTGTGATGAACCTGTTTCCGCCCTCGATCTGTCGACGCAGGCCCTCGTGTTGGATTTGCTCCTCGATATCCAGCGCGAAACGGGCCTCGCATATCTGTTCATTTCGCATGACCTCTCCGTGGTTCGGCATGTGAGCCATCGTGTGGCTGTTATTTACAAGGGCGACATCGTGGAGACGGGGCCAGCGCGGACCGTAACACTCAAGCCGGAGCATCCATACACGCAGCGGCTGCTCCTCGCAGCACCGGTCGCCGACCCCGCCAACCAGGAGAAGCGTAGAACGGAGCGCCGCCGGCTTATCGAGCAGCAGCGGCAGATGGACGAGCAGGCTGGAGCAGCCTCGTTGGCCAGCTGA	MSQLLEVKDLRVSFAGRGVRARSIEVLHGVSLSIAPGEVLGLVGESGSGKTTIGRAVLGLVKSSGGNIVLNGQDITHADAKTRRSLAREIQVVFQDPYSSLNPALTVGDILSEPLIVQGASPRDARAKVRTLLDQVGLPSDAAERLPKEFSGGQRQRVAIARALAPGPRLIVCDEPVSALDLSTQALVLDLLLDIQRETGLAYLFISHDLSVVRHVSHRVAVIYKGDIVETGPARTVTLKPEHPYTQRLLLAAPVADPANQEKRRTERRRLIEQQRQMDEQAGAASLAS	PGPT0004440_7201	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
D1-29_04166	207			hypothetical protein	ATGCTCGTTTCGTTATCGCCCGTAAAAAGCCGCCCGCTCACCCGATCGAGACCGCAGATGCTTCGCGGCGAATGTGAACTGGTCCCGGCAGTTGGACTGGCCAATAGTATCCTAAGCAGCGAGGGCCTGGGCCCGGTATTGCACCGGGCTCAGGCCCTCGAGCTTTTTGGAGATCCCTTGCAGACCCAACCCAAGGGCCTGCATTAG	MLVSLSPVKSRPLTRSRPQMLRGECELVPAVGLANSILSSEGLGPVLHRAQALELFGDPLQTQPKGLH				NA	NA	NA	NA	NA
D1-29_04167	2649			hypothetical protein	ATGCTGAACTCCCACCTCACTATCACTTCAGATCCAGCCATCGTCCAGTTGACGGCGGTCCAATGGGCCATTGAAAAGCTGCGGGAGCTTGACGGGCCGGCGCTCAGCGTTGGGGGGCCCGGGAAGCATCCCGCCTTGGAGATCGTGCTTCTGGACAACGCTGATACTGACGCGCTCGCACTGGAGGCGCTCGCAGGTTCGAGCGAGGCCGAGTCGTACTCGCTCATAGTCACAGAGCCGTCCTACGGTGGGCGCCGGGTCGCCATTGTGGCCGGGGACGAGCGTGGGTACGCATATGCTCTCTCGGAAATCACGGAGCGCGCCCGTGCTGATGGCCTGGACGGACTTCCGCTTGGCTGGAAGGAGTCCCAGCGCCCTGCTGTCCCGGTGAGAGGCATTCAACGGAACTTTTCAAGCGTCCACGAAGACAGCCCGTGGTTCCACGACCGTTCCTTCTGGACCGAGTATCTCGACCATCTCGCTGCACAGCGCTTCAACCGGTTCCACCTGGCGTTTGGAATGCAGTACAACTACGGGACGGGGTGGGAGAGCCGTACCGCCACGGACAACTACCTTGTTTTCGCCTACCCCTTCCTGCTGGACGTGCCGGGATACCAGGTGCGGGCAGAGGGTATTTCAAGTGCCGAACGTGACCGGAACTTCGAGGCGTTGGCTTACATAGCCCGGGAGACGCGTCGCCGCGGCATGAGTTTTCAACTGGGTCTGTGGAACCACGCTTACGACTTCGGGTACGACTCCCGCCACTGGTATCCGATCCTCGGCATCGGCCCGGAGTCGCACGCGGACTACTCCGCCGATGCCCTCGGTCTACTCCTGGAACGGATACCCGAAATTGACGGGGTCACTTTCCGGGTCCATCATGAGGGCGGGATTCATGAGGAGGGGCATGAGGTCTTCTGGGAGAAAGTTTTCGACCGAATTTCCAGGATTGGCCGCCCAATCGAGGTCGACATGCACGCGAAAGGGGTGGATCAGCCCCTCATTGATGCAGCCAGGAAGCCAAACCTGCGGCCGGTGATCTCGGCAAAATACTTGGCTGAGCATATGGGCCTGCCCTACCACCAGGCCTCGATTCGCCAGCATGAACGGCACCCCCTCCACTTTCCCGGCATGGAGAAGGCGATGACCGGGGTGACGGACGGCGACCGGCGGTTCACGCGCTACGGTTTCGCCGACTACCTCAACGAGGACCGGCCCACCGACGTCATTTTTCGGGTGTGGCCGGGAACTCAGAAATTGCTCTTGTGGGGTGACCCTGCCATCGCCAGTGGCTTCGGCCGGTATTCGACCATTGGCGGTTCCAGAGGCATCGAATTCTGCGAGCCGTTGACCTTCAAGGGACGACGAGGCACCGGGGAACCGGCCCGCCGCGATCCCTACGTACGTGATGATCTCCGCCTCGGTGTGTCGGACTGGCGCAAATACCGGTACACCTACGTGCTTTGGGGCCGTCTCCTCTACGATCCGGATGCGAGTCCGGAGATCTGGCAGCGCACGCTTCGCTCCGAGTACGGCAGTGCCGCAGGCGACTTCGAGACGGCTCTTGCCAACTTGAGCCGCATCCTGCCGTTGGTAACCGTTGTCCATGGCGTCAGCGGGGCCAACAACTTCTACTCTCCCGAAATGTACGTCGACCTGCCCATCTCTGAATGGAAGCTTTCGATGCATTACGCCTGGGATACACCTGATCCCAAGACGTGGGAAGGGGTCAGCCCGTTTGATCCGACCTTGTTCTACAGCGTCGGAGAGTACGCCGATGATGCGGTTCCAGGCCGACTGCAGCCGAAGTACACACCGCTCGAGGTAGCAGCGTGGATTGAGGCGATGGTTGCAAAAGGCGAGCAGGCGTTGTCACGCGCCACCGCCACCGCCTCCTCCGACAGTGCGCAGACGCTGCGCACCATCATCGATCTACGGGTGCTCATCCAGCTCGGACAGTTTTTTGCCGGCAAGTTCCGGTCCGCAGTGCAGTACGCGCTGTTCCGGCGGACGGGCGATACAGGCCTCCTTGAGGACGCAATCCGGATCCTGGAGACCGCGCACGCCGCTTATGCGGGCATCGCGAGGATTGTCCAGGGTGTCTATCAGGACGACCTCGCGTTCGGCGTCGGAACCTCCGACCGTGGCACCTGGTCCGACAGGATCATGGGGATGCGGGAGGACCTTCACCTCCTTAAGCGGGAACTCGAGCGTGCGCCGAAAAAACGGGCCGGTGAAGCACATTCACGACCTGAGCGACGAAAGGAGCGATGGATCGCCGACGCCCGGTTCGAGCACGTGGCATCCTTCGACCGCGGGGAGTCGCTTGAGGTTCGGCTCCTGACCGCAGATCCCGCCATAACCCGTGCTGTACTCCGCTACCGACACCTTAACCAGGCCGAGGACTACGAGACGGTCGAAATGGCGCATATTCACGGCGGCTTCTCCGCAGTACTGCCGTCCGGTTACACATCGTCGGCATTCCCTCTGGTCTACTTCGCTGAGGTGCACACTGACGGGGACCACCCCGTCTTCGTGCCGGCTTTCAACGAAACCCTCTCGAACCAGCCCTACCAGCTCGTGCATAGCTCGACCTGGACCACGAGGAACAGTGCTGATGTAGAGGTACGTTATATAGCCTCCCGCTGA	MLNSHLTITSDPAIVQLTAVQWAIEKLRELDGPALSVGGPGKHPALEIVLLDNADTDALALEALAGSSEAESYSLIVTEPSYGGRRVAIVAGDERGYAYALSEITERARADGLDGLPLGWKESQRPAVPVRGIQRNFSSVHEDSPWFHDRSFWTEYLDHLAAQRFNRFHLAFGMQYNYGTGWESRTATDNYLVFAYPFLLDVPGYQVRAEGISSAERDRNFEALAYIARETRRRGMSFQLGLWNHAYDFGYDSRHWYPILGIGPESHADYSADALGLLLERIPEIDGVTFRVHHEGGIHEEGHEVFWEKVFDRISRIGRPIEVDMHAKGVDQPLIDAARKPNLRPVISAKYLAEHMGLPYHQASIRQHERHPLHFPGMEKAMTGVTDGDRRFTRYGFADYLNEDRPTDVIFRVWPGTQKLLLWGDPAIASGFGRYSTIGGSRGIEFCEPLTFKGRRGTGEPARRDPYVRDDLRLGVSDWRKYRYTYVLWGRLLYDPDASPEIWQRTLRSEYGSAAGDFETALANLSRILPLVTVVHGVSGANNFYSPEMYVDLPISEWKLSMHYAWDTPDPKTWEGVSPFDPTLFYSVGEYADDAVPGRLQPKYTPLEVAAWIEAMVAKGEQALSRATATASSDSAQTLRTIIDLRVLIQLGQFFAGKFRSAVQYALFRRTGDTGLLEDAIRILETAHAAYAGIARIVQGVYQDDLAFGVGTSDRGTWSDRIMGMREDLHLLKRELERAPKKRAGEAHSRPERRKERWIADARFEHVASFDRGESLEVRLLTADPAITRAVLRYRHLNQAEDYETVEMAHIHGGFSAVLPSGYTSSAFPLVYFAEVHTDGDHPVFVPAFNETLSNQPYQLVHSSTWTTRNSADVEVRYIASR				NA	NA	NA	NA	NA
D1-29_04168	2076			hypothetical protein	ATGCTTCACGGTTCTTCCGGTGAATACGATCGTGACCTGCCCAAAGACAGCCGCTGGCTCGATCCGTACAACGTGCTGCAAACGAATCTGCAGGAAATCGACGTTCATATGGACGTCGACAAGGCTGCTGATGCCGCCGTCGAATACGGCGCGGACACGTGGTTGCTCAACGCGGGCGGGATTGAGTCTTTTTATCCCACCGACCTGCCCTTCCAAACGCGCAATCCGCTCCTCAGCATGCGTCCTTCGGGCGACCTGTTCGGTGACGCCGTGGCAGCAGCGAAGCGGCGCGAACTTAAGATCATTGCCAGGCTGGACATGTCGAAGGTATCGACGCGGATAGCGAAAGAGCATCCTGACTGGCTCTTCCGATCAGTGGAGGGAAAACCGCAGGTATATCACACGCTCTTCAGCGTCTGCCCTTCATCTGAGTACTACCAGTCCCGGACGTTCGATGTGCTCGACGAGCTCATTGATCGCTACGACATCGACGCCGTGTTCTTTAACTGGTTCAACTTTAACGAACGCGATTACGACGAGGTGATGCACGGGCCGTGCCACTGTGACTCGTGCAAGAGTGGGTTTGAGCGCTTCAGTGGCGGGAAAGAACTTCCTGCTGACATGAAGGCGGAGACGTTCGGTCTCTGGCGCCAGTACGTGAGTGCGACACTTGGCGATTTGACCGCGCGGATTGCGGATCATGTGAACTCGAAGTCACGGGACATTGGCGTCATCCTTCGTGCCGGGGCCCCGATTGTCTATTTGGAAGCCAACAACGCCTTCCGATCCATGCCCGGGAAGGAATTGTGGCCACACGCTACGGCGGAGGCGGTCAGCGCCCACGTGTCCTCAAGGCCGGAATCGTCCGTCATGGTCAACTGTGTCGCCTTCATTGACAGCACGTATCGAATGGGTTCAGAGCAACCCGAGCATTTCGCGCAGTACGTGCTTCAGACCATGGCCCGTGGCGGGAATCCTTCGGCGTACTACATGGGCGCGCCCGGGCGTCTCCCCATGGCCTCGAGCATCTCCCTGGGCCGGGAAGTGATGCGATTCCGTAGCCGGCACAGCGACCTGTACCGGACGCTGCGCCCTGCGGCAAACATCGGCCTGGTGCGGCCAGACATCGCCTCGTCGGCACCAAACCACTGGGACGCTCTCGAGGAATTTCGGGGGGTCTACCAGTCACTCCTTGAGGCTCACCTGCCATTCGATGTGATTCCGGTCGACCAGCTGGGAAAGCTCGGAGAGAATGGAGGACTGGACCAGTACTCCCTGCTCGTCTTGCCCGATGTGGGAACATTGGGCAAAGCAGCTGCAGCGGTGGACGCGTTCATCCATCGGGGCGGGAAGATGGTGGCCACCGGTTCCTCCGGTCTAAGCCGTGACGGCGTCGTTGAGCTGCAGTGCAATCCGGCATTTCGCGCCTTGGACTCCGTGCTGTCCGGAACCGAGCTTCGCTCCACTTTCGTGACGGACACTGCTCAGCCCAGGATGGGCGAGTTCCACTATGAGGCACCAGTTGTCCCGGTTTATGGACGATACTTTCCCTATGTATGGAAGCCCGACGCAGCAAAGGTCGGCTTCATGCTTCCCCAAGCTCCGTTCGCTCCGCCCGAACTCGCCTATGGCCACACGGGAAGTGCGCATCCCGATTACGCGCGCAGCATCTATGGAGATGGCGAAGTCGCGTATGTCCCGTGGACAATCGGGCGAACGTATCGGGAGTTCGGAAAAACCGACGTGCGGGACCACCTCCTGGGACTCGTTCAGTCCCTCGTTACCCCGGACATCCGCGGCGACATCCATGAAGGTGTTGAGCTCATTGCAGGACGAAGCGGGAACAGCACTGTCATCCATTTCCTCAACCACACCGGTGCCCGGCGTCGCTCCTATGGACCACACGTTTCCGTCAGCGGAGGCCGGCTGCATTTGACCGGACGCGGCCGGGAGAAGGTCCTGGTGGAGGCTCTGGTCACTGGCCTGGAACTGGATACAGCCGCCGTGAACGACGACCTGGTAATCGATTTGCCCCCACTTGAGCTATTCGAGGTCATCACTGTTACGACGCAGTAA	MLHGSSGEYDRDLPKDSRWLDPYNVLQTNLQEIDVHMDVDKAADAAVEYGADTWLLNAGGIESFYPTDLPFQTRNPLLSMRPSGDLFGDAVAAAKRRELKIIARLDMSKVSTRIAKEHPDWLFRSVEGKPQVYHTLFSVCPSSEYYQSRTFDVLDELIDRYDIDAVFFNWFNFNERDYDEVMHGPCHCDSCKSGFERFSGGKELPADMKAETFGLWRQYVSATLGDLTARIADHVNSKSRDIGVILRAGAPIVYLEANNAFRSMPGKELWPHATAEAVSAHVSSRPESSVMVNCVAFIDSTYRMGSEQPEHFAQYVLQTMARGGNPSAYYMGAPGRLPMASSISLGREVMRFRSRHSDLYRTLRPAANIGLVRPDIASSAPNHWDALEEFRGVYQSLLEAHLPFDVIPVDQLGKLGENGGLDQYSLLVLPDVGTLGKAAAAVDAFIHRGGKMVATGSSGLSRDGVVELQCNPAFRALDSVLSGTELRSTFVTDTAQPRMGEFHYEAPVVPVYGRYFPYVWKPDAAKVGFMLPQAPFAPPELAYGHTGSAHPDYARSIYGDGEVAYVPWTIGRTYREFGKTDVRDHLLGLVQSLVTPDIRGDIHEGVELIAGRSGNSTVIHFLNHTGARRRSYGPHVSVSGGRLHLTGRGREKVLVEALVTGLELDTAAVNDDLVIDLPPLELFEVITVTTQ				NA	NA	NA	NA	NA
D1-29_04169	1791	btuD_16		Vitamin B12 import ATP-binding protein BtuD	TTGAGCACCGAATCAGCGATCATCGCGACGGAGGCTCCGGCAACTCCCGTACGCCGGTCGGCATACCGCAGACTGATCCGAGACCCACAAGCCATCATCACGGCCAGCTTCCTGCTTTTGGTCATCATCATCGGCATACTGGCGCCGGTCATCACGCTGCACGGGCCAAACGAGTCATCGCTGGATGCCGTGAACGCCGAAATGGGGACCCCCGGCTACCTACTGGGCGGAGACCAAAGCGGACAGGACATCTTTGCGCGCCTGCTCTACGCGATCAACACGAGCGTCATCTCCGGTCTGATCGGTACCAGTGTGGCAATCGTCATCGGGCTCTTCTTCGGACTGGTTGGCGGGTACTTCGGGAACCGCGTACGGACCTCGGTCGAGTGGATTTTCAACCTGATCATGACCTTCCCGGGAATCCTTCTGCTGATCGTCCTCATGCCGGTGACGAAGGGCGACTACCGGGCCACGATGCTTATCTTTGGCGTCCTTCTTGCCCCGGGTGTCTACCGTATCGTGCGTAACCTGACAGTCGGTGTGAAGAACGAGCTCTACGTCGACGCCGCCCGAGTGTCGGGGCTGTCAACACTGCGGGTCCTGGGCCGGCACGTCATGCCGGTGGTGCGCGGGCCAGTCATCATCTCTGCGGCGTTCCTCACTGGCTCGGCCATCAACGTCCAGGCCGGCCTGGCATTTCTCGGCCTTGGATCCGCTGAGATCCCGAGCTTCGGCGGAATGATCTCGTCCGGCTTTCTCAATCTCTACGTCGACCCGCTTCAGTTCGTTTGGCCGGCGCTGCTGCTCGGGCTGATGTCTGCGTGTCTGGTCCTGCTGGGAAACTCACTGCGGGATGCGCTTGAGGGTGTCCGCCCCAAGGCCTCGAAGGTGGGGGCGCCGGCCCAAGCGGCAGTCACCCCGGCTGGCCAGACCGACGGCACGGACTCTGACCTGCTTCAAGTACAGAACCTGGAAATCTCCTACCCGACGCCGTCAGGCGAAAAGAAGCCCGTGCTCAAGGGGGTCTCACTCGACCTGCGGGCGGGAGAAACCCTCGGACTTGTCGGCGAATCGGGGTCCGGCAAGACCCAGACCGCCTTTGCGATCCTGGGAGTGCTTCCTCCGGAATCAATCATTACGAACGGCTCAATCAAGCTTGAGGGCCGTGAGCTCATTGGGCTGCGTGAAGGGGAGCTCCGCAAGCTTCGCGGCCGTTCCATCGCTTACGTCCCGCAGGAGCCAATGTCGAACCTCGACGCTTCGTTCACGGTGGGCGCCCAGCTTGTCGAGGGCATCCGGAGTGCGACGACGCTTTCGCGGCGCGCCGCTCGGGAACGGGCGCTTGAGCTGATGGAACATGTGGGCATCACCGATCCGCAAAGGACCTTTGACCTGTATCCGCACCAAATCTCCGGCGGCATGGCGCAGCGAATTCTGATCGCCGGTGCCGTAGCGAGCCGACCCAAGCTCCTGATCGCTGACGAACCCACCACTGCCCTCGACGTCACCATCCAGGCTGAGATTCTCGACCTGCTCCGCGATCTTCAGAAGGAGATGGGAATGGCGATTCTACTGGTCACCCACAACTTCGGCGTCGTAGCGGACATCTGCGACCGGATGGCCGTCATGCAGCAGGGCCGGATCGTCGAGACAGGAGACGTGGTGGAGGTGTTCAGGAACCCACAGCACCCCTACACACGGGAGCTTCTGGAATCGATTCTCGATGAGGAAAGTGTCCGCGAAGACGCCCCAGTCGTCAGAGTGCCGGCGGCTAAGGAACTTGCCGGATAG	MSTESAIIATEAPATPVRRSAYRRLIRDPQAIITASFLLLVIIIGILAPVITLHGPNESSLDAVNAEMGTPGYLLGGDQSGQDIFARLLYAINTSVISGLIGTSVAIVIGLFFGLVGGYFGNRVRTSVEWIFNLIMTFPGILLLIVLMPVTKGDYRATMLIFGVLLAPGVYRIVRNLTVGVKNELYVDAARVSGLSTLRVLGRHVMPVVRGPVIISAAFLTGSAINVQAGLAFLGLGSAEIPSFGGMISSGFLNLYVDPLQFVWPALLLGLMSACLVLLGNSLRDALEGVRPKASKVGAPAQAAVTPAGQTDGTDSDLLQVQNLEISYPTPSGEKKPVLKGVSLDLRAGETLGLVGESGSGKTQTAFAILGVLPPESIITNGSIKLEGRELIGLREGELRKLRGRSIAYVPQEPMSNLDASFTVGAQLVEGIRSATTLSRRAARERALELMEHVGITDPQRTFDLYPHQISGGMAQRILIAGAVASRPKLLIADEPTTALDVTIQAEILDLLRDLQKEMGMAILLVTHNFGVVADICDRMAVMQQGRIVETGDVVEVFRNPQHPYTRELLESILDEESVREDAPVVRVPAAKELAG	PGPT0004435_2459	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
D1-29_04170	942	dppB_3	COG0601	Dipeptide transport system permease protein DppB	ATGCTTCAGTACATTCTTCGCCGTCTCGGTATCGGAGTGATTCTTGCCGCTCTGGTGACCTTTCTTACATATTGGCTGCTGAGCTTTTCATCTGATGGAGTGGCCGCCAATATCCTTGGGCCAGCAGCGACAGCAGAGTCGATCGACGCTCTGAAGAAGGACATGGGACTCGACCGCCCGTTCATCGTTCAGTACTTTGACTGGCTCGGCGGAGTTGTCCGCGGCGACTTCGGAGTCTCCTTTTTTACGAGTGAGGCGGTGGTCGGTGCGGTGGTATCACGTCTTGGCGTGACGCTCTCGATCGTTCTCACCGCACTTATTATCAGTGTCATAGTGGCCGTGGCCCTCGGCGTACTTGCGGCTTCACGTGCCGGGGCGATTGACAGGGTGACGCAGAGCGCGTCGCTGCTTGGGCACCTTCTGCCGAACCTGCTCATTGCAATTGTCCTGGTGGTCGTCCTCTCCATCAATCTGCGTCTCCTGCCTGCAACCGGGTTTACCCCGTTCAGCGAAAGTCCGAGCAAATGGGCCGCGTCAATCACCATTCCGGTGATCGTGCTTGTTATCAACGGAATCGCGAACATCGCCGCCCAGGTACGGGGAACGATGATCGGCGAGCTCCAGAAGGACTACGTCCGGACGCTCCGTACCCGCGGCGTGCCGACGTGGTCCATCGTGTATCGCCATGCGCTGCGCAATGCCGCTGCTCCGGCCCTCGTTGTCCTGTCGCTTGAGTTCATCTCGATGTTCGGCGGTGCACTCATCATCGAGAACGTGTTTGCCCTTCCTGGGTTCGGCTCGTTCGCGTTCAACTCCTCCCTGCAGGGGGACATCCCAGTCATCATGGGCATCACAGTATTCAGTGTGATGCTCGTCGTCAGCGTCAATCTGGTGACGGACCTCATCAATGGTTGGCTAAATCCGAAGGCGAGAATCTATTGA	MLQYILRRLGIGVILAALVTFLTYWLLSFSSDGVAANILGPAATAESIDALKKDMGLDRPFIVQYFDWLGGVVRGDFGVSFFTSEAVVGAVVSRLGVTLSIVLTALIISVIVAVALGVLAASRAGAIDRVTQSASLLGHLLPNLLIAIVLVVVLSINLRLLPATGFTPFSESPSKWAASITIPVIVLVINGIANIAAQVRGTMIGELQKDYVRTLRTRGVPTWSIVYRHALRNAAAPALVVLSLEFISMFGGALIIENVFALPGFGSFAFNSSLQGDIPVIMGITVFSVMLVVSVNLVTDLINGWLNPKARIY	PGPT0004445_12276	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
D1-29_04171	1035	ghrB_3		Glyoxylate/hydroxypyruvate reductase B	ATGGTTGCAGATTCGCCTGTCCACGAGGTACGCAGCGTGCTCGCCACAGTCATGTGGGAGCCTGAGGAAATTGACCAGCTTCGGCAGGCGTTCGCTCCAGCGGAGTTCCTCCACCTTCATCCCGGGGACGCGGACGGCATCGCTGACGCCCTTCAGCGTGTGGATGTTGCCATCCATTTGATGGATATCGATGATCGGTTCCTTGCGGCACCCAATTTGCGCTGGGTGCACTGTGATCATTCCGGATTGACACGCTCGGCACGTCCCGAGGTGTTCGAGAAGGGGATTGTCGTTACAGGATCGGCCGGCAGGTCCGCCCAGGCCCTTGCGCAGCACGGATTCTACTTCGCCCTGTCATTGACCTTTGACGCGAAGCAGCTTTTCGCAATGCAGGACGCACACGTGTGGCGCGGCATTCCGGACTACCACAACCGTTTGGCGCTATGGGGGAAGACCCTGGGGATCGTCGGATTGGGGAACACCGGCCAGGCGATGGCTGAACTAGGCAAGGCGTTTGGTATGAACGTCATCGGCTACCGTCGGAGCGCCGGTGATCTCCCCGGCGGTGTGGACAGGATGCTTTCAGCTGATGCGGGCGATTCCCTGGATGCACTTTTAGAAGAATCCGACGTGGTCATGCTGGCTGCTCCCCTGAACGACGAGACCTACCATCTGTTCTCCCGCGATCAGTTCAAACGGATGAAGAACGACGCCTACCTCATCAACATGGCCCGGGGCCAGCTCGTCGACCAGGACGCACTGATCAGCGCGTTGAACGCAGGAGAAATTGCGGGAGCCGGACTCGATGTGACTGACCCTGAGCCCTTGCCGGGCGACTCCCCGCTTTGGGACATGTCAAACGTCATAATTACGCCCCATATGACCCCGAAGCTTCCGTCACGCACCCAGCGGTCGATCGATCTCATCCTTGAGAACCTCCACCGGTACCAGCGCAATGAGCCGCTGCTCAACGCCCTTACGCCACGGGATGTCTTCACCAAAGGCCCCCGTCCAACTCAACCGATCCATTCCTGA	MVADSPVHEVRSVLATVMWEPEEIDQLRQAFAPAEFLHLHPGDADGIADALQRVDVAIHLMDIDDRFLAAPNLRWVHCDHSGLTRSARPEVFEKGIVVTGSAGRSAQALAQHGFYFALSLTFDAKQLFAMQDAHVWRGIPDYHNRLALWGKTLGIVGLGNTGQAMAELGKAFGMNVIGYRRSAGDLPGGVDRMLSADAGDSLDALLEESDVVMLAAPLNDETYHLFSRDQFKRMKNDAYLINMARGQLVDQDALISALNAGEIAGAGLDVTDPEPLPGDSPLWDMSNVIITPHMTPKLPSRTQRSIDLILENLHRYQRNEPLLNALTPRDVFTKGPRPTQPIHS				NA	NA	NA	NA	NA
D1-29_04172	1545			hypothetical protein	ATGCCTCAAATCCACTCACGGCGCCGCGCGATCGGCGCCATCGCCGCCGCAACCATCCTGGCCCTCTCGGCCTGCGGCACGGGCGAAACCAAGCCTTCGGCCACTGGAGGCGGTAACAGCGACAGCACCGCGACGGTCGCACTCGGCGTGCAGGCCCCGCCCAATTCGTTGGACCCTGCACAGCTGCATGACGGCACCCAACGGTACGTCTGGTCGTCCCTCTACGACACGCTTATTTACAGCAACCACGACGGCAAGCTGGTACCAGCTGCCGCCGAGAGCTGGGAGTACTCCGACGACGCACTCACGCTGACCCTGAAACTCCGGGACGACCTCACCTTCAGCGACGGTGATCCTGTCACCTCGGCGGCGGTGAAGGCCACACTGGAACGCACCAAAAACACCCCGGGACCGCAGCAGAGCAACTTGGCTGCTATCGAGTCCGTCGAGGCTCCCGATGAGCGGACCGCTGTCCTCCGTCTCAAGCATCCGGATCCCAACCTCCTTGTCGCTCTCTCCTATGGGTCCGGTGTCATCGGTGACCCCGACACGCTCGCTGACCCGAGTACCGCCCTCAACCCGGTAGCTTCCGGCCCGTACGTCCTCAACAAGGACAAGACGATCGCTGGGACGACCTACGTCCTGGAACGGCGCGAGGACCACTGGAATGCGGACGCCTACCCGTTCAAGACGGTCACCATCAGGGCGATTCCGGACCGGACTGCGCTCTTCAATGCACTGCTCACCGGAGAACTCGACGCCGGCAGCGTCGACGGGACCCAGGCGGAGCAGGCTAAGGGCGGCGGACTGAACGTGAAGCGCGTCGATTCCACTGCGATCGCTGAGCTGGTGCTCGCCGACCGCGCAGGGACCGTGACCCCGGCGCTTGCCGATGTCCGGGTCCGCAAGGCCATCAACATGGCCCTGGACAAGGAGGGCATCGTGAAAGCGATCCTTCGCGGCAACGGCAAGACGACCAATCAGGTCTTCAACGATTTTTCGCCGGCATACGACCCGGAACTCGACGACGTCTACCGCCATGACCCCGAAGCGGCGCGCAAGCTTCTTACTGAAGCTGGCTACCCGGACGGCTTCAAACTGGTGATGCCCGCCAACCTGCCGTCGCTGCAATATCAGCCCACCATCAGTCAAGCACTCGGGGATATCGGAATAGAGGTGGAATGGGAGCCCGTGCCCGCCCAGAATGCCGGACAGAATACCAAATGGGGTGCCTACTGGAACATCGGTGCCACTGCGGCGGCAACCAGGACGGCAGCTGTGTATTACCGGTCGGGTGGTTCCCAGAATCCATTCAAGTACACGGATCCTGAACTCGACAAACTGTTCGAGCAATTGGATGCCGAGACAGATCCCGAGCGTCAGGGAGCAATCCTGAAGGAAATCAACGAATTCGGAGTGCAGGACGCCTGGTTCGCTCCAGTTTTCTCGCAGGCGGCGCTCTGGGCGACTCAGCCCGGCTTCGAATACGTCGGCACGGGTGTATCGCTGTTCGACGTCCGCAATTTCGGCACAAACAACAAATAG	MPQIHSRRRAIGAIAAATILALSACGTGETKPSATGGGNSDSTATVALGVQAPPNSLDPAQLHDGTQRYVWSSLYDTLIYSNHDGKLVPAAAESWEYSDDALTLTLKLRDDLTFSDGDPVTSAAVKATLERTKNTPGPQQSNLAAIESVEAPDERTAVLRLKHPDPNLLVALSYGSGVIGDPDTLADPSTALNPVASGPYVLNKDKTIAGTTYVLERREDHWNADAYPFKTVTIRAIPDRTALFNALLTGELDAGSVDGTQAEQAKGGGLNVKRVDSTAIAELVLADRAGTVTPALADVRVRKAINMALDKEGIVKAILRGNGKTTNQVFNDFSPAYDPELDDVYRHDPEAARKLLTEAGYPDGFKLVMPANLPSLQYQPTISQALGDIGIEVEWEPVPAQNAGQNTKWGAYWNIGATAAATRTAAVYYRSGGSQNPFKYTDPELDKLFEQLDAETDPERQGAILKEINEFGVQDAWFAPVFSQAALWATQPGFEYVGTGVSLFDVRNFGTNNK	PGPT0004430_16795	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
D1-29_04173	834		COG1028	3-beta-hydroxycholanate 3-dehydrogenase (NAD(+)) 2	ATGGGTGCCCCCGGCCCTCAACGAATCCACATCATCACCGTCTGGAAGGACATCATGGGCAACGAAGCCACGTGGCAAGAAGCCATTACAAACAACCGTTTTGCAGGGAAAACCGTCATCGTCACCGGTGCAGCCTCCGGGATCGGGCAGGCGACCGCCCTGCGCATCGCGAAGGAGGGTGGCAAGGTCATCGCTGCTGACATCAGCAAGGAACGCCTCGACGCCCTGGTGGAAGAGAACGCGGGCCTGGACCTGGTGCCTGTGCCCGGCGACGTCTCCACCGAAGAAACGGTCGCCGCAATCGTCGCGGCTGCCGGAGGGCGCGTCCACGCCCTGGCCAACGTCGCCGGGATCATGGACAACTTCGCGCCCATCCACGAGGTGGACGACGAACTCTGGGACCGCGTTTTCCGGATCAACGTCACCGCTCTTATGCGCCTCACCCGCGCCGTTGTCCCGCTCATGCTCGACGCCGGCGCAGGCTCGGTGGTCAACGTCTCCTCGGAGGCCGGCATCCGCGGCTCGGCTGCCGGCGCCGCCTACACCGCCTCCAAGCATGCCGTTGTCGGCCTCACCAAGAACTCGGCAGTGATCTACGGGCCCAAGGGACTTCGCTTCAACGCGGTGGCTCCCGGCCCCACGATCACCGGCATCGTGGCGAACTTCGGATCCCGGATGGCCGCAGAACGCCTTGGCCCGCTCATGCAGGCCACCATCCCCACCCCGGCAACGGCCGCGCAGTTGGCTGCCTCCATCACCTTCCTGCTCAGCGACGATGGCACCAACATCAACGGCGCCATCCTGGCTTCCGACGGCGGCTGGTCAGCCCTGTAG	MGAPGPQRIHIITVWKDIMGNEATWQEAITNNRFAGKTVIVTGAASGIGQATALRIAKEGGKVIAADISKERLDALVEENAGLDLVPVPGDVSTEETVAAIVAAAGGRVHALANVAGIMDNFAPIHEVDDELWDRVFRINVTALMRLTRAVVPLMLDAGAGSVVNVSSEAGIRGSAAGAAYTASKHAVVGLTKNSAVIYGPKGLRFNAVAPGPTITGIVANFGSRMAAERLGPLMQATIPTPATAAQLAASITFLLSDDGTNINGAILASDGGWSAL	PGPT0030530_3	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-LIPID_METABOLISM|OXIDOREDUCTASE	PUTATIVE-BILE_ACID_BIOSYNTHESIS,PGPT0030530-3beta_hydroxycholanate_3_dehydrogenase_NAD+_EC_1_1_1_391-K22606
D1-29_04174	1647	ksdD	COG1053	3-oxosteroid 1-dehydrogenase	ATGTCAGAGTCAAAGCTTTTTGACCACAGCTATGACGTCGTGGTCGTCGGCACCGGTGCCGCGGGACTGGCGACAGCCATGGGCGCCGCCGATGAAGGCCTTCGGGTACTCCTGCTCGAAAGCACCGGAAAGTGGGGCGGCAACACCGCCATGTCCGGGGGCGGCATGTGGATGCCGAATAACCCGCTGATGCAGCGTGACCGCGCCGGCGACTCCCGCGGTGAGGCGCTGACCTATCTGGAGGCGACGGTCGGCGAGGAGTTCCGGGCCACGACGCGGGCCCGGAAAGAGGCGTTCGTCGACGGCGTCGCCGACTTCGTCAACACAGCAGAGAAGTACGGCGTGAGATTCGTGCGTGCGGCTGACTACCCGGACTACTACCCCGAGCTCCCGGGCGGCAAGATCGGCCGTGGCCTGGAGGTGAAGCCGTTCAATATCAAGAGGATCGGCGATTGGTGGACGACGTGCCAGGCGCCGGTCGCACTCCCGGTGAAGACCGACGACATTTGGCTTCTGGGCCGGGCCTGGTCAACACCGTCCGGCTTCATCCGCGGGGCGCAGCTCGTCTTCCGCGCCCTCGGCGGGGCGGTCACCGGCAAGAAGCTCGCCGGCATTGGCGCCGGATTCGCCGCTGCCTTCCTCGACGTCGTCGTCCAGAAGCAAGGTGCTGACCTGTGGCTGAATGCCCCGCTGCAGGAACTCATCGTGGAGGACGGCCGTGTCGCAGGGGTACGGATAACCCGGGACGGCGAAGCACTGACAATTGGTGCGGCGCGCGGCGTGATGCTGGCCGGCGGCGGCTTCGACCATAACAAGGACCTCCGCCAGAAGCACCACGGAATCGACGGCGCCCCGTCAGGCGCCCCGGGCAACCTCGGGCGGCCCATCGAAATTGCGCAAGACAACGGCGCCGCGCTTGAGCTCATGGACGACGCCTGGTGGGGCGGATCGGTCGCAGCAGCGCCTGGCCATGGCGCCGCATTCATTGTGGGTGAGCGTTCCCTGCCCTACTCGGTCATCCTCGACGCCAAGGGCGATCGGTTCGCGAACGAGTCCGAGTCCTACGTCGACCTCGGCCACCACATGCTCGAGCACGACAAGGACGGCCCGTACTGGCTGGTCGGAGACGCCCGGCACGCCCGCCGCTACCTCCGCACCTTCGCGATCGACCCGAAGAACAACAAGGCCATGAAAGAGGCGGGGATTATGGTCAAAGCGGACACAATTCCCGGGCTCGCTGCGAAACTCGACATGGATCCCGCCCGCCTGGAGGCGACCATCCACCGGTTCAACGGCTTTGCCAGGGCCGGTGTCGACGGCGACTTTGGGCGCGGCAACTCAGCCTACGACCGCTACTACGGCGACCCCACGGTCCACCCCAACGCCTGCCTCGGTCCGCTGGAAAAGGGTCCGTTCACCGCGTTCAAGGTGGTGATTGGAGATCTCGGCACCAAGGGCGGCGTCGTCACCGACGCCGAGGCCCGGGCATTGCGCGAGGACGGCACGGTCATCGAAGGCCTCTACTCGGCCGGCAACAACTCCGCCTCCGTCATGGGACGGACATATCCCGGCCCAGGTTCCACTATTGGCCCCGCCGTCGTGTTTGGTCTCCGCGGCGCCCGCCACATGGCACGCCAAGGCCATTGA	MSESKLFDHSYDVVVVGTGAAGLATAMGAADEGLRVLLLESTGKWGGNTAMSGGGMWMPNNPLMQRDRAGDSRGEALTYLEATVGEEFRATTRARKEAFVDGVADFVNTAEKYGVRFVRAADYPDYYPELPGGKIGRGLEVKPFNIKRIGDWWTTCQAPVALPVKTDDIWLLGRAWSTPSGFIRGAQLVFRALGGAVTGKKLAGIGAGFAAAFLDVVVQKQGADLWLNAPLQELIVEDGRVAGVRITRDGEALTIGAARGVMLAGGGFDHNKDLRQKHHGIDGAPSGAPGNLGRPIEIAQDNGAALELMDDAWWGGSVAAAPGHGAAFIVGERSLPYSVILDAKGDRFANESESYVDLGHHMLEHDKDGPYWLVGDARHARRYLRTFAIDPKNNKAMKEAGIMVKADTIPGLAAKLDMDPARLEATIHRFNGFARAGVDGDFGRGNSAYDRYYGDPTVHPNACLGPLEKGPFTAFKVVIGDLGTKGGVVTDAEARALREDGTVIEGLYSAGNNSASVMGRTYPGPGSTIGPAVVFGLRGARHMARQGH	PGPT0006680_553	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STEROID|DERIVATE_DEGRADATION	XENOBIOTIC_ADROSTENEDIONE_DEGRADATION,PGPT0006680-kstD-K05898	NA	NA
D1-29_04175	144			hypothetical protein	ATGAACTTTCCCAACGAATTCCTCTGGGGTGCCTCCACCGCACCCCATCAGATCGAAGGCAACAACGTCAACAGTGACTTCTGGGCCCGGGAGCAGCTCCGGGCCACTTTTCCAGCGCGGAACTGGCCCACTACCGCCGCATGA	MNFPNEFLWGASTAPHQIEGNNVNSDFWAREQLRATFPARNWPTTAA				NA	NA	NA	NA	NA
D1-29_04176	348			hypothetical protein	ATGATCGACACCGCACTCGCGCTGGGCCTGAAGCCTGTCATCACGCTGCACCACTTCACAAATCCCCGGTGGTTCGCCGAGGAGGGCGGGTGGATGGGGCCGCCGGCAGTCGAGCGGTTCACGGCATATGCCGAAGCCGTTGCAGGCATTCTCGATGGCGTTGACTGGATCTGCACCATGAACGAGCCCAATATGCTCGCGTTGATGACGACGATGAGCCGTGCAGCCGAGCAGCAGACAGACAAAAAGTGGCTCAGCCCCACCGTCGACGATGATGCCCGCCCAGTCCTGCCCGACCCCAACCCTGAGATCGGCTACCGGCTAGTCGAGGCATCACGCCGTCCGTGA	MIDTALALGLKPVITLHHFTNPRWFAEEGGWMGPPAVERFTAYAEAVAGILDGVDWICTMNEPNMLALMTTMSRAAEQQTDKKWLSPTVDDDARPVLPDPNPEIGYRLVEASRRP	PGPT0019165_2956	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019165-bglB-K05350	NA	NA
D1-29_04177	1668	mdtD_3		Putative multidrug resistance protein MdtD	GTGAGTACCAAGAGCGTCGCAGTTGAACAAGCCGGCGGAAAAGTTCGGAGACATGCGCCTTTGGTGGCTGCCCTTGCCTTTGCTGGGTTGGGTGGGTCGTTCATGCAGACCATCCTCATTCCGATCCAGTCGAAGTTGCCCGAGCTGCTGGAGGCCGGCAGAGATGACACCGCTTGGGTCATCACTGTGACGCTCTTGGTGGCGGCCATTTGCACCCCTGTCTCGGGAAAGCTGGGGGATATGTATGGCAAGCGGCGCGTTTCCATCATTTTGCTGTCGCTCCTGGTGGCTGGGTCAGTCGTCTGTGCGTTCTCGCTGTCGGTTCTGCCCCTAATTATTGGCCGGGCGCTGCAGGGTATGGGAACGGGTGTCATACCCCTGGGGATAGCCATTTTGAGGGATGAGCTTCCTCCAGGAAAACTCGGCGGAGCAATCGCCCTGGTAAGCGCCACCTTGGGCGTTGGCGGTGCTCTGGGTCTCCCGGTCAGTGCGCTGGTGACGGAGTACTTTGACTGGCATGCGCTCTTCTGGGTCTCTGCTGGAATCGGCGCAGTCGCTGTGGCGCTGTATCTCCTCGTTGTTCCGGCTGGGGAATCCCGCAATCAGGGGCGGTTCGATTTTTGGGGCGCCGTTGGCCTCGCCATGGGGTTGGTGGGCTTGCTGCTTGCCCTTTCGCGGGGGAACACCTGGGGTTGGCTGAGCGTACCAACGCTGGTGTCTTTATTGATCGGAATTCTCTCGCTGCTGGCGTGGGGATGGTACGAACTCCGGAGACAGAACCCGTTGGTTAACCTTCTTGTGAGCTCCAAAGGGCCTGTCCTGATGACAAACCTGGCGTCGGTCGCCATGGGATTTGCTCTCTTTTCATCCAGCATCGTCTTTCCCCAATTGCTCCAGTTGCCGGAATCTTCCGGCGGTCTCGGATTGAGCATTGTGGATGCGAGCCTGATTCTCGTCCCGTCAGGCTTGGCGATGCTCGCCATGGCACCTATTGCGGGACGCATAAGCCGGCGCGCGGGCCCGAAGCTGCTCCTTGTAGCAGGGGCAACCATCATCGCACTCGCGTATCTCGCAGCTGTGCTCATGCTGCCAAGCATTTGGCTTGTGCTGGTCGTCAACATGATGATCGGAATTGGCATCGGGCTCGGCTATGCGGCTATGCCGACGTTGATTATGCTCGCTGTTCCGGTGGGAGAGACCGGGGCAGCAAACGGCTTGAATACCCTGATGCGTGCATTGGGAACAAGCATTGCCGCAGCTGTTGTGGCAGCCGTTCTCGCTGGCTCCGCCGGGGCTGCAGGGGCACCGATGAACCGAGTCAACAGGGATTTTTTCTGGCACTTGTCCTCGGGCTGCCTGCAGCTGTGGTTTGCGGAGTCCTGGCCGCGTTCATTCCGAAACCGCGGGTTGTGTGACAGAAGGGGAAACAGACCCGCTCTTGGCCACGTTCCCAAGCCATGCCAGGCTCGGTTTCGGGTGGCGCTCGAACATGTCCTCGCCGCCCGGCAAAGCTACCAGTGCCTGGTTCGCCACAGTCCATCCCACTGCGGCGCCGGTCCGTTCCCGCACGAGATCACGGACGGCGTGATGCCTCGACTAGCCGGTAGCCGATCTCAGGGTTGGGGTCGGGCAGGACTGGGCGGGCATCATCGTCGACGGTGGGGCTGA	MSTKSVAVEQAGGKVRRHAPLVAALAFAGLGGSFMQTILIPIQSKLPELLEAGRDDTAWVITVTLLVAAICTPVSGKLGDMYGKRRVSIILLSLLVAGSVVCAFSLSVLPLIIGRALQGMGTGVIPLGIAILRDELPPGKLGGAIALVSATLGVGGALGLPVSALVTEYFDWHALFWVSAGIGAVAVALYLLVVPAGESRNQGRFDFWGAVGLAMGLVGLLLALSRGNTWGWLSVPTLVSLLIGILSLLAWGWYELRRQNPLVNLLVSSKGPVLMTNLASVAMGFALFSSSIVFPQLLQLPESSGGLGLSIVDASLILVPSGLAMLAMAPIAGRISRRAGPKLLLVAGATIIALAYLAAVLMLPSIWLVLVVNMMIGIGIGLGYAAMPTLIMLAVPVGETGAANGLNTLMRALGTSIAAAVVAAVLAGSAGAAGAPMNRVNRDFFWHLSSGCLQLWFAESWPRSFRNRGLCDRRGNRPALGHVPKPCQARFRVALEHVLAARQSYQCLVRHSPSHCGAGPFPHEITDGVMPRLAGSRSQGWGRAGLGGHHRRRWG				NA	NA	NA	NA	NA
D1-29_04178	750	iclR_3	COG1414	Transcriptional repressor IclR	ATGACTGAAAAATCCCCTGTTGGTGTACAGGCCGTCGGACGCGTGTTTGAACTGTTGGAACTGATCGAAAACCTCGGGGGAGCCGCCACACTGAGCGAACTCTCCTCGTCCACCCATATTCCCCCGCCTAGCATCCACCGCCATCTGCGCACCCTGGTCACCCTCGGCTGTATTCGCCAGCTCCCCAACCGTCGCTATGCACTGGGTCCCCGGCTGATCACGTTGGGAGATGGAGCAATCAAACAACTCGGTGCTCTGGCCCTCCCGCAACTCAAGACGCTGGTGGACCAGCTGGGAGAGAGCGCCAAGATGGCGGTGCTTGATGTGGACATGGTGGTTTATGTGGCTCAGGTGCCCTCTCTTCATTCCATGCGCACTTCTACGGAAGTGGGCCGCCGCGCCCACACCCATACGACAGGAATTGGCAAAGCCATTCTTGCCCAATTGAGCGAAGACACGGTCCAGCAAATACTCATGCGGGCAGGAATGCCCACCCCGACGGCCAGAAGCATCAGCGGGGCCAGCGACCTGCTGGCGGACCTCAGGCTCATCCGGGAAAGAGGTTTTTCGGTCGACGAGCAAGAGCAAGAAATTGGCGTCCGCTGTTTTGCCGTAGCGGTCCCTGATGCACCTACACCCACAGCCATTTCAGTGTCCGGCCCTGTTTCCCGGCTGGACGAGCACTTCGCCAGCAGAGCGGTGCCCATCCTTACCAAGGCTGCCCAAACCATCTCGGAGAAGCTTCAGTGA	MTEKSPVGVQAVGRVFELLELIENLGGAATLSELSSSTHIPPPSIHRHLRTLVTLGCIRQLPNRRYALGPRLITLGDGAIKQLGALALPQLKTLVDQLGESAKMAVLDVDMVVYVAQVPSLHSMRTSTEVGRRAHTHTTGIGKAILAQLSEDTVQQILMRAGMPTPTARSISGASDLLADLRLIRERGFSVDEQEQEIGVRCFAVAVPDAPTPTAISVSGPVSRLDEHFASRAVPILTKAAQTISEKLQ				NA	NA	NA	NA	NA
D1-29_04179	444			hypothetical protein	ATGACAGCTGACGTGACGGCAGCCCTGGTGTACGAACTGCTAGGCGTCCAACGTGCACTGCGCCGCATTGATACGGCCAGCCTGCGTGGAGAAGGACTTGGAGTAGCCCTGCACTTCGTGCTTCGGTCCATCAGTGACGGGGAATGCAGGGCTACGCAGCTTGCCGGCCGTCTCGGCGTCGGCGCGCCGGTCCTCAGCCGGCAAATCGCCGAGTTGGAAGAGCAAGGCTTGCTGGTCCGAAGAAAGGACCCCAGGGACGGCCGTGCTCATCTTCTCGCACTGACGCCGGCGGGCGAGGACAAACTCCGGCATGTGCAAACGCAACGATCAGCGCTCTTTCAGCAGTGTCTCGGAGAATGGAGCGAGAGCGATGCTGTCAATGCAGCGGAGGCACTCCGCCAGCTCACGGAATCCCTGACGAAGTCAGCCCTGAAAACACCATGA	MTADVTAALVYELLGVQRALRRIDTASLRGEGLGVALHFVLRSISDGECRATQLAGRLGVGAPVLSRQIAELEEQGLLVRRKDPRDGRAHLLALTPAGEDKLRHVQTQRSALFQQCLGEWSESDAVNAAEALRQLTESLTKSALKTP				NA	NA	NA	NA	NA
D1-29_04180	879	garR_2	COG2084	2-hydroxy-3-oxopropionate reductase	GTGAGCAACGTTGCAGTTATCGGACTCGGAATCATGGGCCTGCCCATGGCCATCAACCTGGTCAAGGCCGGCCACACCGTCACCGGCTTCAACCGCAGCCAGGACAGGATCGACAAGCTCGTCTCCGAAGGCGGCAAGGGCGCCGCCGGGATCGCGGACGCGGTCAAGGACGCCGACGTCGTCATCACCATGGTCCCTGACTCCCCCGATGTTGAAGGTGTCGTCAGCGGCGAAGAAGGCGTCTTCGCCAACGCGAAGAAGGGCGCGCTCTGGATCGACGCGTCCAGCATCCGCCCCGACGTCGCCAAGCGCCTCTCCGACGACGCCCGCGACGCCGGCATCCGCCCCCTCGACGCACCGGTCTCCGGCGGCGAACAGGGCGCCATCGACGCCGCCCTGTCCATCATGGTCGGCGGGAACAAGGAAGACTTCGACGCAGCCGCGGACGTCCTGAACGCAGTCGGCAAAACCATCGTCCACGTCGGACCCTCCGGCTCCGGCCAGACCGTCAAGGCAGCCAACCAGCTCCTCGTCGCCGTCAACATCGAAGTCCTCGCCGAAGCGATCGCCTTCCTCGAGGCCTACGGCGTGGACACCGACGCCGCGCTCAAGGTCCTCGGCGGCGGCCTGGCCGGCTCCAAGGTCCTGGAGCAGAAGGGCCAGAAGATGCTGGACCGCAACTTCGACCCCGGCTTCCGCCTGGCCCTGCACCACAAGGACCTGGGCATCGTCACCTCAGCCGCCCGCGAAGCCAGCGTCGCCGTCCCCCTCGGCGCCGTCGTCGCACAGCTCGTCGCCGCCACCGTCAACCAGGGCGACGGCGCACTGGACCACTCCGGACTCTTCAAGCAGGTCCTCCAGCTCAGCGGCCGCGAGTAA	MSNVAVIGLGIMGLPMAINLVKAGHTVTGFNRSQDRIDKLVSEGGKGAAGIADAVKDADVVITMVPDSPDVEGVVSGEEGVFANAKKGALWIDASSIRPDVAKRLSDDARDAGIRPLDAPVSGGEQGAIDAALSIMVGGNKEDFDAAADVLNAVGKTIVHVGPSGSGQTVKAANQLLVAVNIEVLAEAIAFLEAYGVDTDAALKVLGGGLAGSKVLEQKGQKMLDRNFDPGFRLALHHKDLGIVTSAAREASVAVPLGAVVAQLVAATVNQGDGALDHSGLFKQVLQLSGRE	PGPT0018170_839	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
D1-29_04181	588			hypothetical protein	ATGACTGGTAAACCAGAGTCCGGCGTTCCAGCCCATATCGTGGTGATGGGCGTGACCAGCTGCGGCAAAAGTACAGTGGGTGCCGCCATCGCTGCCCGCCTCGGGGCAGAGTTCGTCGACGGAGACTCGCTGCACCCCCAGTCCAACATTGACAAGATGGCCTCCGGTACTCCACTGGACGACGGCGATCGGGCACCATGGCTCGCCGAAATCGGCAGGCGCTTCTCGGCGTCGCAGACCGGGCTGGTGATCGCATGCAGCGCACTTAAGCGCAGCTACCGTGACATTATCCGCAACGGCGACTCCACAGTAAGGTTCCTCCACCTGAACGGGGCACGGGACCTGCTCGCCAGCCGGATGGCCGCGCGGCCGGGCCATTTCATGCCCCTGTCGCTGCTGGACTCGCAGCTGGAAACGCTGGAGGACCTCGAGTCCGATGAGGCCGGAGTGGTGGTAGACATCGACACGCCCGTCGAGCAGATCGTGTCATTCACTTTAGCTTCGCTCGTGCACGCCGGCACGAATTCGTCGGCGCCGCGCCGCACTTATCGACCAACTACTTCGATCAGCATTGGAGAACCATCGTGA	MTGKPESGVPAHIVVMGVTSCGKSTVGAAIAARLGAEFVDGDSLHPQSNIDKMASGTPLDDGDRAPWLAEIGRRFSASQTGLVIACSALKRSYRDIIRNGDSTVRFLHLNGARDLLASRMAARPGHFMPLSLLDSQLETLEDLESDEAGVVVDIDTPVEQIVSFTLASLVHAGTNSSAPRRTYRPTTSISIGEPS	PGPT0018055_1549	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
D1-29_04182	1230	rspA_2	COG4948	D-galactonate dehydratase family member RspA	GTGAAAATCATTGCCGCGGAAGTCTTCGTGACCAGTCCGTCGCGTAACTTCGTGACCCTGCGCATCACCACCGAGGACGGGGTGACCGGCATCGGTGACGCCACCCTGAACGGGCGCGAGCTTGCCGTAGCGGCCTACCTGAAGGAACATGTTGCGCAGCTGCTGATCGGCAAGGATCCGCACCGGATCGAGGACACCTGGCAGTTCCTGTACCGCTCCTCGTACTGGCGCCGTGGCCCGGTCACCATGGCCGCGATCGCCGCCGTCGACATGGCGTTGTGGGACATCAAAGGCAAAATGGCCGGCATGCCCGTCTACCAGCTCCTGGGCGGGGCCTCCCGTAACGGGCTGCGGGCCTACGGCCATGCCTCAGGCGCGGACATCCCGTCCCTGTTTGACTCGGTCCGGGAACACTTGGAACTGGGCTACAAGTCCATCCGGATCCAGACCGCCGTTCCCGGTATCAAAGCTGTCTACGGGGTTGCCGCCCAGGCGCAGGCCTCGGGGGAGCGCTACGACTACGAGCCCGCCGGCCGCGGCGCCTTCCCGCTGGAGGAGGACTGGGACACCCGCGCGTACCTGCGCCACCTGCCCAGCGTGTTCGAGGCGGTCCGGAACGAATTTGGCCCGGAAATCCCGCTCCTGCACGACGGCCATCACCGGATGACCCCCATCCAGGCAGCCAAGCTGGGCAAGGCGCTGGAACCGTATGACCTGTTCTGGCTGGAGGACTGCACCCCCGCCGAGAACCAGGAGGGCCTGCGCCTGGTCCGCCAGCACACCACCACCCCGTTGGCCATTGGGGAAATCTTCAACACGGTATGGGACTTCCAGACAGTCATCAAGGAACAGCTGATCGACTACGTCCGGGCCGCGTCCACCCACTTCGGCGGGATCTCGCCGCTGAAGAAGGTGATGGACTTCGCCGCGCAGTACCAGATCAAGTCCGGCTTCCACGGCCCCACCGACATCTCCCCGGTGGGATTCGGCGCGCAGCTTCACGTGGGCCTGGCCATCCACAATTACGGCATCCAGGAATATATGCCCCACTCGGACAAGACCAACGAGGTCTTCGAACAGTCCATGTCCTTCGTGGACGGCTACCTCCACCCAGGGGACAAGCCCGGCATCGGCGTCGAATTCAACGAGGAAGCCGCGGCAGCCTACCCGTACCAGCAGGCCTACCTGCCTTACAACCGCCTCGTCGACGGCACGGTCCATGACTGGTAA	MKIIAAEVFVTSPSRNFVTLRITTEDGVTGIGDATLNGRELAVAAYLKEHVAQLLIGKDPHRIEDTWQFLYRSSYWRRGPVTMAAIAAVDMALWDIKGKMAGMPVYQLLGGASRNGLRAYGHASGADIPSLFDSVREHLELGYKSIRIQTAVPGIKAVYGVAAQAQASGERYDYEPAGRGAFPLEEDWDTRAYLRHLPSVFEAVRNEFGPEIPLLHDGHHRMTPIQAAKLGKALEPYDLFWLEDCTPAENQEGLRLVRQHTTTPLAIGEIFNTVWDFQTVIKEQLIDYVRAASTHFGGISPLKKVMDFAAQYQIKSGFHGPTDISPVGFGAQLHVGLAIHNYGIQEYMPHSDKTNEVFEQSMSFVDGYLHPGDKPGIGVEFNEEAAAAYPYQQAYLPYNRLVDGTVHDW	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
D1-29_04183	1458	uxaB		Altronate oxidoreductase	ATGAGCACCGGTCTGGAGAAGCAAACACAGACTGAGGTCGGGCTTCCGCGGCTCAATCGGACCTTCTGGTCCGGCCCAAAGCCACCGGTGCGGATAGTCCACCTGGGCCTGGGCGCCTTCCACCGCTCCCATCAGGCCTGGTACACCCAGCAGGCCGGCGATGCTGCGAATTGGGGCATCGCCGCCTTCACCGGCCGCCGCCCGGATGCCGCACTTGCGCTGGCAGAGCAGGACGGCCTGTTTACGTTGGTGGAACGCGCAGATTCCAAAGACTCGTTCGCTGTCATCGGCAGCATTGTAGAAGCGGCGGACGGCGCGGACGTGGCCAGGCTCGCCGTACTGCTGGCATCGCCCGATACTGCCGTGGTCACCTTGACCATTACCGAAGCGGCGTATTTGGCAGACTCCCAGGGCGCCTTCAACAGTAACGCTCCTGAGGTGGCCGCGGACCTGGCCACCCTGCGCAGCAACGGTGATCCAGCGACTCCGCTGGGCAGGCTGGTATTCGGCCTTGCCTCCCGACGCGCAGCGGGCCGCGGTCCTTTGGCCGTTGTCTGCTGCGACAACCTCGCCAACAACGGTGCCGTCGCCCGCAATGCAGTAGTGGGCATGGCCAAAGCCTGGGAGCCGGGCCTGGCCGAGTGGATCAGTACCAACACGAGTTTTGTCAGCACGTCGGTAGACCGCATCACCCCACGCACCACGGCTGCAGACGTCGCTGCGGTGGAAGCTTCCTGCTGCTACCGGGACATGTCCCCGGTGGTGGCCGAACCGTTTGCCAGCTGGGTCCTCAGCGGAGACTTTCCCGCGGGCCGGCCGCGGTGGGAGGACGCCGGAGCCTTGTTCGTGGCGGATATCGAGCCGTACGAAAACCGAAAGCTTTGGCTTCTGAACGGAGCCCATTCGCTCCTGGCTTATGCCGGGCAGCTACGGGGGCATCGAACCGTGGCACAGGCCCTGGCCGACCCTCTATGCCGCCATGCCGTTGAGGCCTTCTGGGACGAAGCCGAGGCCAACCTGCCCGCCAGGGACCTCGCGATTCCCGCTTATCGGGAGGCGCTGCTGACACGGTTCGGCAATAAACGCATTGCGCACAACCTGTCACAGATAGCCATGGATAGCACCACGAAGCTGCGGATGCGGGCCGTTCCCGTTCTGCGCGCGGAACGGGCCGCAGGCCGGTCCGGCAGCGGTGCCGCACTCATGATTTCCGCATGGATGGAGTGCACGGCCCGGCTGGCTCCTGCCCAGGACCCGCTGGCAACGGACGTGGCTGCTGCAATCGCCTTGGCGGGGACTGCGCGGATCCGTGCCCTGTTGGAACTGGTGGATGCGGGACTGGCAGCGGATGCCGCCGCAGTGCAGCTGATAGAAAGCCTCACAGGCACGTTCGCAGAATCACTCCCACGTACTGAATCCCGTACCTGGCTAACCTCCCCTGAAAGGACCCAGCTGTGA	MSTGLEKQTQTEVGLPRLNRTFWSGPKPPVRIVHLGLGAFHRSHQAWYTQQAGDAANWGIAAFTGRRPDAALALAEQDGLFTLVERADSKDSFAVIGSIVEAADGADVARLAVLLASPDTAVVTLTITEAAYLADSQGAFNSNAPEVAADLATLRSNGDPATPLGRLVFGLASRRAAGRGPLAVVCCDNLANNGAVARNAVVGMAKAWEPGLAEWISTNTSFVSTSVDRITPRTTAADVAAVEASCCYRDMSPVVAEPFASWVLSGDFPAGRPRWEDAGALFVADIEPYENRKLWLLNGAHSLLAYAGQLRGHRTVAQALADPLCRHAVEAFWDEAEANLPARDLAIPAYREALLTRFGNKRIAHNLSQIAMDSTTKLRMRAVPVLRAERAAGRSGSGAALMISAWMECTARLAPAQDPLATDVAAAIALAGTARIRALLELVDAGLAADAAAVQLIESLTGTFAESLPRTESRTWLTSPERTQL	PGPT0018275_1206	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
D1-29_04184	1404	uxaC_2	COG1904	Uronate isomerase	ATGTCATCGATTGCCGCCAACCCAGACCGGCTCCTGCCCGCTGATCCAGGAACCCGCCGCATAGCCCGCGAACTCCTGCAGCGCGTCCAGGACCTTCCCATCATTTCCCCGCACGGGCACGTTGACGCCGCAGTCATCGAGCAGAACACTCCCTTTCCCGATCCGGCAGCGCTGCTGGTCAGCCCGGACCACTACGTCACCCGGCTGATCCATGCCAGTGGCATACCGCTGGACCGGCTCCAGGAATCCGCTACCTACAAGCCGGAGAGCCGATCGGTGTGGCTCGAGTTCTGCAAGGCGTGGCCCTTGTTCGACGGCACTGCCTCGGGATATTGGCTCCGCACCCAGTTCCGCGACGTCTTTGGCTTCGAAGGGGAGCTGAGCGCGGAAACAGCCGATGCCAGCTACGATGCCATCTCGGAAAAGCTCCAGGAGCCCGGCTTCCGGCCCCGGGAACTGTTCAAAGACTTCAACATCGAGGTCCTGGCCACCACGGACGATCCACTGGACACCCTTGAGAGCCACAAAGCAATTGCCCAGGACCCGTCCTTCCATGGGCGCGTCTTGCCCACCTTCCGCCCGGACGCCTATCTCAATATTGCCCACCCCGCGTGGTCGGAGAACGTGGACCGGCTCATTGCGGCAGCGGGCGACGGCGGCACGGGCTATGGTGCCTACCTCACGGCCTTGGAGAACCGGCGTCGTTATTTTGTGGAACATGGCGCAGTCTCTGCGGACCATGGAGTCCGCACCCCGGCCACCCTCAAGCTTGAAGCGGCGGACGCCGCGAAACTGTTTGACCGCGCCCGCTCAGGCACGGCAAGTGCCCAGGACCGCGACGACTTCGAAGCACACATGATGTACCAGATGGCACGGATGTCGGTGGAGGACGGCCTGGTGATGACCATCCACCCCGGTTCCTACCGCAACCACCACGAACCCACCTTCCAGACTTTCGGGGCCGACACCGGACACGACATTCCGTTCGCGATCAACTACACCGAAGGCATCCGTCCCGTCCTGCAGGACTTCGGTACGGCCAAGGATTTCCACCTGGTTCTCTTCACGTTGGACGAAACCGTGTTCTCCCGGGAACTTGCCCCGCTGGCCGGCTTCTACCCGTCCGTCTATCTTGGTTCGCCGTGGTGGTTCCTGGACGCGCCGGACGCCATGCTGAGGTTCCGCTCCGCCGTCACCGAGACTGCAGGCTTCTCCCGTTCCTCCGGTTTCATCGACGACACCCGGGCGTTTTGCTCCATTCCCGCCCGCCACGACGCCGCCCGCCGGATCGAGGCGTCGTTCCTGGCCCGATTGGTGGCTGAACACCGCGTCAGCGAAGACCGGGCACATGAACTCATCGTCGACATTGTGGACGGCTCACCCCGGCGGGTCTTCAAGCTATGA	MSSIAANPDRLLPADPGTRRIARELLQRVQDLPIISPHGHVDAAVIEQNTPFPDPAALLVSPDHYVTRLIHASGIPLDRLQESATYKPESRSVWLEFCKAWPLFDGTASGYWLRTQFRDVFGFEGELSAETADASYDAISEKLQEPGFRPRELFKDFNIEVLATTDDPLDTLESHKAIAQDPSFHGRVLPTFRPDAYLNIAHPAWSENVDRLIAAAGDGGTGYGAYLTALENRRRYFVEHGAVSADHGVRTPATLKLEAADAAKLFDRARSGTASAQDRDDFEAHMMYQMARMSVEDGLVMTIHPGSYRNHHEPTFQTFGADTGHDIPFAINYTEGIRPVLQDFGTAKDFHLVLFTLDETVFSRELAPLAGFYPSVYLGSPWWFLDAPDAMLRFRSAVTETAGFSRSSGFIDDTRAFCSIPARHDAARRIEASFLARLVAEHRVSEDRAHELIVDIVDGSPRRVFKL	PGPT0018210_1003	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTURONATE|TAGATURONATE|ALTRONATE_DEGRADATION,PGPT0018210-uxaC-K01812	NA	NA
D1-29_04185	1062	exuR	COG1609	putative HTH-type transcriptional repressor ExuR	ATGACTAAACTTCCAGCTTCCGACGCCCAAGTTGTGGCTGGCGATTCCCGTTCCAAAAGTGAGGGCAAGGCCCCCGGCAGGACCAATGCCACGATTTATGACATTGCGAAGCTGGCAGGAGTGAACCCGTCCACTGTTTCCAGGGCGCTCAGCAAGCCTGGCCGGGTCAGTGCGGGTACGAGGCAGCTCATCGAGGAAGCCGCCGCCGAGCTCAATTATCAAGTTAACCCGTTTGCCAGGGCGCTTCCGACGGGACGAACAAATACGTTGGGCCTGATTGTTGCCGACATTACGAATCCAACATTCTTCGGAACTATACGGGGTGCGGAATCCACCGCGGCATTCCGCGATTATTCTCTGATTCTGGCTGAGTCAGCCGAGTCGCCTGACCAGGAGCTTGCAGCCGCCCAGCGCATGTTGGCCAGTGTTGACGGGCTAATTCTTGCCAGTCCTCGAATGGACGATGACCACATCCGGGACCTCGCCAAGGAGAAACCGGTTGTGGTCGTCAACCGTGATGTAGAAGGCATCGCCTGCGTCGTTCCTGACGTCAACAAGGGCATTGGTGAAGCCATCCGCCATCTGGCCGGAAACGGGCATCAAAGAATCGTCTTCATTTCAGGTCCCACGGCCTCCTGGATGTCGGGCCAGCGCTGGAGGGGCATCCAGGAGGCTTGCGAGTGGTCGCGCATAGAAGCGGTAAAAATTGACTCCGACAGCCCCACGGTCAAGGGAGGGCGGGCCATGGCCCGTTTCGTCGTCAGCAGCGGCGCTTCAGCGGTGATTGCCTACAACGACCTTTTGGCGATAGGCCTCATGCAGGAACTGCAGGCGGCCGCCTACGCAGTCCCGGATCAGATCAGCATCATCGGGTTTGACGATATTTTTGGCGCAGACTTCACCACGCCGGGGCTCACCACTGTCCGCGCCCCGATGGAAAACTGTGGAATCGAAGCGGCCACCATATTGCTTCGGACACTCAAGGAGCCAGGAGAGGCAACTTTCACCCGCTACATCGATACTGAGCTGGTGGTGCGTGGGTCCAGCGGCCGGCTTCTCTAG	MTKLPASDAQVVAGDSRSKSEGKAPGRTNATIYDIAKLAGVNPSTVSRALSKPGRVSAGTRQLIEEAAAELNYQVNPFARALPTGRTNTLGLIVADITNPTFFGTIRGAESTAAFRDYSLILAESAESPDQELAAAQRMLASVDGLILASPRMDDDHIRDLAKEKPVVVVNRDVEGIACVVPDVNKGIGEAIRHLAGNGHQRIVFISGPTASWMSGQRWRGIQEACEWSRIEAVKIDSDSPTVKGGRAMARFVVSSGASAVIAYNDLLAIGLMQELQAAAYAVPDQISIIGFDDIFGADFTTPGLTTVRAPMENCGIEAATILLRTLKEPGEATFTRYIDTELVVRGSSGRLL	PGPT0017992_2159	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
D1-29_04186	246			hypothetical protein	ATGCGCGAGTCGATACCAAAGCAACAAACAGATTGCTCCTCGCTTCAAGGCGGAGCGTCCCCTCTCGGAGACTGCAGCCAGATCGCCAAGGGGGACTACGTGGAAGTCAAAGTGGGCACTGTTGTCCACCTGACGGGACACGTTGAAGAGATTCAACCGTCCATGGATCTCTTCTGGGTTCTGGCGTCCGATGGGACGCGAAGAATAGTGGAACTCGCCGAGTTTGACGTCTACCTTGCGGCCTAG	MRESIPKQQTDCSSLQGGASPLGDCSQIAKGDYVEVKVGTVVHLTGHVEEIQPSMDLFWVLASDGTRRIVELAEFDVYLAA				NA	NA	NA	NA	NA
D1-29_04187	777	catD_1	COG0596	3-oxoadipate enol-lactonase 2	ATGACCGGAGCTTTCAACATAGTCGTTGAGCCAAGGACGGACTCTGAACCATCGTTGGGCACCATCGTCTTTGTGAATTCCCTCGCCACCGGAATGCAGATGTGGGATGAGGTTGTTGCCGAGCTACGGCCGTTTTTTGACATAGTCCGATTCGATCAGAGGGACCGCGGTGGTCCCCTCGGTCACAGGCCGTTCGACCTTGACGATCTGGTCGAGGATCTGTTTGATGTTTTGGACGGCGCGGGCATCAGCAAGGCTCATGTGGCCGGGGTATCCCTTGGCGGAATGGTCGCGCTGGGGGCTGCTGCTTATAGGCCGGAGCGAATTCAGTCTGTTACCGCGATGTGCTGTGCAGCGCGCTTTCGACGCGATGTTTGGGAAGAGCGCGGCAGGTTGGTGCGGGCCCAGGGAGTTGTGCCCTTGGTGCCTCAAATCATCGATCGATGGTTCACCGCCGATTTCCAGCAAAAAAACCCCGACGTCGTCCTCCGGTACCGGCAGATGCTCGAGTCAACGGATCCTGTCGGGTACGCCAACGCATGCGATCTCCTGTCTGAAGCGGACGTGCGTGAGGATTTACCGACGATACAGGTTCCGGTTCTGGTTATTAGCGGGGAAAGCGACAGCGCCAATCCCATCGAAGATCAGAAACTGATCGCGCAAAGCGCACCCAAGGCACGGCACGAAATCCTCACCCGAACCGCACATCTTGCACCGGTGGCGGAGCCGGCACAGATCGCCCGCCTCGTGGCTGATCACGCTCAATTCAGTAGCTAA	MTGAFNIVVEPRTDSEPSLGTIVFVNSLATGMQMWDEVVAELRPFFDIVRFDQRDRGGPLGHRPFDLDDLVEDLFDVLDGAGISKAHVAGVSLGGMVALGAAAYRPERIQSVTAMCCAARFRRDVWEERGRLVRAQGVVPLVPQIIDRWFTADFQQKNPDVVLRYRQMLESTDPVGYANACDLLSEADVREDLPTIQVPVLVISGESDSANPIEDQKLIAQSAPKARHEILTRTAHLAPVAEPAQIARLVADHAQFSS	PGPT0004995_1643	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
D1-29_04188	90			hypothetical protein	ATGCCGAAACTTACATTCCTCACCTCCAGGATTGGCGCCGAAGGCGCCGCATCTTCCCTGGCCTTGACTGGGTCAGGTGGCCAGGCATGA	MPKLTFLTSRIGAEGAASSLALTGSGGQA				NA	NA	NA	NA	NA
D1-29_04189	1482		COG0277	putative FAD-linked oxidoreductase	ATGTCAGACATAGCGAAAATTTCGGAGAGGGCCGTGGCTGGTGACGTATCCGCAGCGGCCGACAAAGAACGGATTTCTCCCAGTCCACTCCTTGACGAACTGGCGCTGGTACTGCCGGCGGACGCGCTCATTGCTGATCGCAAAGCCATGGAGCCCTACCGTCGGGACCGTGCACTTGATCCAGATGCTGCCGTGCCCATGGCTGTGGTGCTGCCTTTGACGACTGCGCATGTGCAGTCCGTGATCCGATGGGCGGCCAAGCATCGGATCCCGGTAGTACCTCGAGGCGCCGGTACGGGTCTGTCTGGGGGAGCTACGGCAGTGGAGAACGGCATTGTGCTCAGCACCGAGCGGATGCGCTCCATCGATATAGATCCCGCTACGCGTACCGCCGTGGTTCAGCCGGGTCTTTTCAACGCTGAGGTCAAAGCCGCAGTGGCCCAGGAGGGCCTGTGGTACCCGCCTGATCCTGCCTCCTACGAGATCTGCACGATCGGCGGCAACGCCGCCACCAATGCCGGGGGCTTGTGCTGCGTCAAGTATGGCGTCACGTCCGATTACATCCTGGGTATGGAAATCGTCACCGCTGACGGCAGGGCCATAAAGCTGGGAGGCCCACGACTCAAGGACGTGGCGGGGCTATCCATGCTCAAGCTCTTCGTTGGCAGCGAAGGCACCCTCGGAATCATCACTGAACTCACTTTGCGGCTTCTGCCAGCCGCCCCGCCCGCCCGCACTGTGGTTGGGTGGTTTTCAAGCAGCGAACAGGCTGCAAACGCCGTCGTCGACATTGCTTCGAGCATCCGCCCCTCGATGCTTGAGTACATGGACGGAACTTCCATTAATGCTGTCGAAGACGTGCTGGACATGGGGTTGCACAGGCATGCCGCTGCGCTGGTTGTGGCACGTTCAGACGATCAGAGCCCCAGCGGCGCGGAAACCGCAATGATGCTAGGTGCCTTTCAAAAGCACGGCGCGTTTGAGTCGTTTGAGGTTGCGGATCAGGAGGAGGGCGAGCGTTTTGCCCACGCGCGGCGTATTGCCATTCCCGCTGTAGAAGGATTGGGCACATTGCTGTTGGAGGACGTGGGAGTCTCAAGCCCCCGTCTGGGAGAGCTCGTTGTTGGGGTTGAGCGAATTGCACAGAACCGCAATGTCGTCATCGCCTTCATCGCTCATGCGGGTGACGGCAATACACATCCGCTGGTCGTATTTGACCCTGCAGACACGAACATGAGGGACCGCGCCTACCGTGCCTACGGCGAAATCATGGACCTGGCCATCGAACTGGGCGGGACAATCACCGGCGAGCACGGGGTGGGACGACTGAAGCGCCCATGGCTGATAAACCAGATTGGCGAGGACTTACTCCAAATCTCGCACAGTGTGAAAATGGCGCTGGATCCAGATGGCATCTTGAACCCCGGAAGTATTTTTGCCGCACCGCCATCGCGCGGCACTGCCAACGAGGGGCGCTCATGA	MSDIAKISERAVAGDVSAAADKERISPSPLLDELALVLPADALIADRKAMEPYRRDRALDPDAAVPMAVVLPLTTAHVQSVIRWAAKHRIPVVPRGAGTGLSGGATAVENGIVLSTERMRSIDIDPATRTAVVQPGLFNAEVKAAVAQEGLWYPPDPASYEICTIGGNAATNAGGLCCVKYGVTSDYILGMEIVTADGRAIKLGGPRLKDVAGLSMLKLFVGSEGTLGIITELTLRLLPAAPPARTVVGWFSSSEQAANAVVDIASSIRPSMLEYMDGTSINAVEDVLDMGLHRHAAALVVARSDDQSPSGAETAMMLGAFQKHGAFESFEVADQEEGERFAHARRIAIPAVEGLGTLLLEDVGVSSPRLGELVVGVERIAQNRNVVIAFIAHAGDGNTHPLVVFDPADTNMRDRAYRAYGEIMDLAIELGGTITGEHGVGRLKRPWLINQIGEDLLQISHSVKMALDPDGILNPGSIFAAPPSRGTANEGRS	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
D1-29_04190	2205	glcB	COG2225	Malate synthase G	ATGAGTCACCACAATAGCCGCGTCGACGCCGACGGCCTGGCCGTCGACCCAGCCCTTCATGCCTTTATCGAATCCGAGGCGCTGCCTGGAACCGGAATCGACGCTGCCGGGTTCTGGCGCGGCTTCGGAAGAATCGTCAAGGACCTGACACCACGAAACAGGGAGCTCCTCGCTGTACGTGACGAACTGCAGGGCCGTATTGACGAATGGCACAGGCTGCATCCGCTCCCGTTTGACCAAACCGAGTACCAGACGTTTCTGCAGGACATCGGATACCTTCTGCCGGCGCCGGAAGGCACCCAGGTCCGGACGTCCAACGTGGATGATGAGATCGCGAAACTTGCCGGCCCCCAGTTGGTGGTGCCCGTCACCAACGCCCGCTATGCACTCAACGCGGCTAACGCCCGATGGGGATCGCTTTACGACGCCCTCTACGGAACAGACGCACTGGACGCGAAGGCAGCTGCAGCCGGATATGATCCCCAGCGCGGCCAGGAGGTCGTCGCGTATGTGCGTGGTCTGCTCGATGAATTTATCCCGCTGACAGCAGGCAGCCATGCCGGTTCCACCGGTTACGCGGTACGCAACGGAAAGTTGTCGGTCACCCTTTCCGACGGTTCAAGCAGTGGCCTGGTCCATCCTGACCAGTTGGTGGGCTACACAGGAGAAGCCGATTTGCCGTCCACCATCGTTTTCCGCCACCACGGCCTTCACATAGAGGTCATCTTCGACCGAAGCACGGTTGTCGGAGCATCAGATTCAGCTGGTGTAGCCGACGTGCTGGCAGAGGCTGCTATCACCACCATTGTCGACTTCGAAGATTCGGTCGCCGCCGTCGACGCCGAGGACAAGATCGTGGGTTACCGCAACTGGCTGGGCCTGAACAGGGGTGATCTGAAGGACGTCTTTGAAAAGGGCGGCGACAAGGTCGTGCGCCGGTTGGCGGATGACCGGCACTACACATCCCCCTCTGGAGGCGAGGTAGTTCTGCCCGGGCGAGCCGTGCTTTTCGTCCGCAATGTTGGCCACCTCATGACCACCGACGCGGTCCTTGATTCTGACGGAAACGAGATAGGCGAAGGCATCCTGGATGCTGTCCTGACATCGCTGACGGCCCTGGCCGGGCTGGATCCGCAGAATCCTCGACGAAACAGTCGAACCGGCTCAATCTATATCGTCAAGCCCAAGATGCACGGCCCGGAGGAGGTGGCTTTCACCGTGGAACTTTTTGGCCGTGTCGAGCAACTGCTGGGCTTAGCGGCGAACACCCTTAAGCTCGGGCTCATGGACGAGGAGCGCCGCACCACAGTCAACTTGAAGGCCTGCATAGCCGAGGCCGAGGACCGCCTTGTTTTCATCAATACAGGCTTCCTTGACCGTTCCGGCGATGAGATCCACACCTCTATGGAGGCAGGACCTTTCGCCCGCAAGGCCGAACTGCGCAATCATCGGTGGCTTTCGTCCTATGAGGATCAGAACGTCGACATCGGAATTGAAGTGGGTTTGCCGGGCAGGGGCCAGATCGGCAAGGGCATGTGGGCGATGCCTGATCTCATGGCGTCAATGCTCGAACAAAAGATCGTGCACCCGATGGCAGGTGCCAGCACGGCCTGGGTACCGTCCCCCACTGCGGCAACCCTGCACGCAATTCACTATCACCGGGTCGACGTCGCGGAGAGACAGCGGGAAATTGCCCTCCAGGGCCAGCGGGGCACCCTTGAGGGCATTCTCACCGTGCCTGTTGAGACTGACCCGGACTGGTCGCCGGAAGAGCGCCAGGAAGAGCTTGATAACAATATGCAGTCCTTGCTGGGATATGTCGTCCGCTGGGTGGACCAGGGAATTGGATGCTCCAAGGTTCCGGACATTCATGATGTCGCCCTCATGGAGGACAGGGCCACGCTCCGCATCTCAAGTCAACACATTGCGAACTGGCTCCGCCATGGCGTGATCACGGAGCAAGAGGTGCACGAGAGCATGCAGAAAATGGCGGCCGTCGTCGACGCCCAAAATTCAGCCGATCCCCTCTACCGCGCGATGGCTCCCAACATCTCCGAGAGCATCGCATACCAGTGCGCCGTCGATCTGGTGCTGGAGGGAAGCACGCAGCCGAACGGCTACACAGAGCCCCTTCTGCACCAGCGCCGGCGCCAAGTGAAATCAAAGACGCTCAGCTCCATCTACGCGGAAAGCCCCAATTCATGA	MSHHNSRVDADGLAVDPALHAFIESEALPGTGIDAAGFWRGFGRIVKDLTPRNRELLAVRDELQGRIDEWHRLHPLPFDQTEYQTFLQDIGYLLPAPEGTQVRTSNVDDEIAKLAGPQLVVPVTNARYALNAANARWGSLYDALYGTDALDAKAAAAGYDPQRGQEVVAYVRGLLDEFIPLTAGSHAGSTGYAVRNGKLSVTLSDGSSSGLVHPDQLVGYTGEADLPSTIVFRHHGLHIEVIFDRSTVVGASDSAGVADVLAEAAITTIVDFEDSVAAVDAEDKIVGYRNWLGLNRGDLKDVFEKGGDKVVRRLADDRHYTSPSGGEVVLPGRAVLFVRNVGHLMTTDAVLDSDGNEIGEGILDAVLTSLTALAGLDPQNPRRNSRTGSIYIVKPKMHGPEEVAFTVELFGRVEQLLGLAANTLKLGLMDEERRTTVNLKACIAEAEDRLVFINTGFLDRSGDEIHTSMEAGPFARKAELRNHRWLSSYEDQNVDIGIEVGLPGRGQIGKGMWAMPDLMASMLEQKIVHPMAGASTAWVPSPTAATLHAIHYHRVDVAERQREIALQGQRGTLEGILTVPVETDPDWSPEERQEELDNNMQSLLGYVVRWVDQGIGCSKVPDIHDVALMEDRATLRISSQHIANWLRHGVITEQEVHESMQKMAAVVDAQNSADPLYRAMAPNISESIAYQCAVDLVLEGSTQPNGYTEPLLHQRRRQVKSKTLSSIYAESPNS	PGPT0001445_332	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
D1-29_04191	426			hypothetical protein	ATGCAGAACTTCGTTGAAACACCATCGGTGAACTACGCCACTGCCGCCCGGGCTGTTTCCCTGGCCATTGAGGCAGGAGCACAACGCGGCGTCCTGGTTTCGGTCAGTGTCGTGGATCCAGCAATGGGCCTTATCGCCTTCGGCCGCGCAGACGGTTCGATGCCCCACAGTGTGGAGACCAGCCGCCGAAAGGCCAACACCGCCGCCTCATCGAGACGCCCGACAGGGTGGATGCAAGGTGACTTCGCAATTGCCCTCCCGATGGGCACAGACAATCTGCTGACCAACATTCGTGGCGGGTTCCCTTTGATTTATCAGGAGAAACATCTTGGCGGCCTCGGTATCGCTGGAGGTACGCCTGACCAGGATTCCGAGATCGGTCTTGCAGTCCTGGACGCCCTTGCAGGGGATGCGTCGGAGGCCTGA	MQNFVETPSVNYATAARAVSLAIEAGAQRGVLVSVSVVDPAMGLIAFGRADGSMPHSVETSRRKANTAASSRRPTGWMQGDFAIALPMGTDNLLTNIRGGFPLIYQEKHLGGLGIAGGTPDQDSEIGLAVLDALAGDASEA				NA	NA	NA	NA	NA
D1-29_04192	1788	uidA	COG3250	Beta-glucuronidase	GTGCTTAAACCACGTTCCACACCTACCCGCGAACTTCACAACCTCGACGGTCTTTGGCTGTTTGCGCTGGATACCCAAGCAGGAGAAAGCCCATGGACCCGGGTCCTGGATACAAAACTGGAAGCTGCGGTACCGGCGAGTTACAACGATCAATTCGTCTCCCCCGAAATTCGGAATCACGTGGGTTGGGTCTATTACCAGCGCACCGTGCGCGTTCCGCGTGGCTGGTCCGAGGAACGCACCGTGCTGCGTTTCGATGCTGCAACGCATGCAAGCCGGGTGTATGTAGGCGACACCCAGGTTGCCGAACACACCGGAGGCTATACACCCTTTGACGCAGACATCACTGACTTCGTCCAGCCAGGTGAGGAATTCCGGCTGACTGTCGCTGTAGGCAACGAGCTAACCAACACGACAATCCCTCCTGGCACGATCACGATGTCACAGAATGGCCGACGCACCCAGACCTATCTTCACGATTTCTACAATTACGCAGGACTGGCACGGTCTGTCTGGCTGTACAGCACACCTCAACTTCATCTCCAGGACGTGACAGTCACAACACAGGTCCGGGGGATGGCGGGCATCGTTTCCTACACCGTCCAGCAGACGGGCACCGCTGATGTAAGGGTGACCATCCTGGACCAGGAGAAGACACGAGTTGCCTCCGGGTCCGGGCAAAGCGGAACGATGGAAATCGAATCGGTCAATCTATGGCAGCCGGGTGCCGCATACCTCTACGAACTTCTCGTGGAACTCGTTGACGACGGGAAAGTTATCGATTCCTATACTGAGGTTTTCGGTGTCCGGACCGTAGAAGTAAAGGGCACCGAGTTCCTCATCAACGGCGAGCCCTTCTATTTCACTGGCTTCGGAAAACACGAGGACACCGCCATTCGCGGCAAGGGACACGACAATGCTTATCTCGTCCACGACTTCCAACTATTGGATTGGATCGGCGCGAACTCGTTCCGCACTTCCCATTACCCGTACGCCGAAGAAGTGCTGGAGTTTGCAGACCGTCACGGCATTGTGGTCATAGACGAAACAGCCGCTGTGGGCCTGAATCTCGGCGTACAGGCAGGCCTCTCGGGGAAGCCCACAACGCCTTCGTTCTCGCCCGAGACCTTCAATGATCAAACACGGGAAGCACACGCCCAGCACATTCGTGAATTGATCGCCCGCGACAAAAATCATCCCAGCGTGGTGATGTGGTGCATAGCAAACGAAGCGGCGACAAACGAAGAGGGTGCCCGCGAATACTTCGAGCCTCTTGTGAACCTGGTGCGGGAACTCGATCCCACCCGGCCGTTGACTTATGCCGTTGTCATGTTTGCTACCTTCCGCAACGATCTGATCGTTGACCTGTTCGACGTCGTAGGCCTGAACAGGTACTACGGCTGGTACGTCATGAGCGGTGACCTGGAGTCAGCCGAGAACTATTTGCGGATGGACATCCAGGGATGGATTGAGCGCGTCGATAAACCCATCATGATGACCGAGTACGGAGCTGACACTCAGCCGGGGGTCCATTCCGTGTGGGACCAGCCCTGGACGGAAGAATACCAAGAGGCCCTCTTGGAGATGCACCACCGCGTATTCGACGAATTCCCGCAGTTTGTCGGTGAACAAATTTGGAACTTCGCGGACTTCCAGACCAGCAACGGCATCCACCGCGTCGACGGAAACAAAAAGGGCGTGTTCACCAGAACCCGCCAACCGAAGGCCGCGGCACATGCACTCCGCAAACGGTGGCGGACAATCGGCAATCGCAAGCCAAAGAACTAA	MLKPRSTPTRELHNLDGLWLFALDTQAGESPWTRVLDTKLEAAVPASYNDQFVSPEIRNHVGWVYYQRTVRVPRGWSEERTVLRFDAATHASRVYVGDTQVAEHTGGYTPFDADITDFVQPGEEFRLTVAVGNELTNTTIPPGTITMSQNGRRTQTYLHDFYNYAGLARSVWLYSTPQLHLQDVTVTTQVRGMAGIVSYTVQQTGTADVRVTILDQEKTRVASGSGQSGTMEIESVNLWQPGAAYLYELLVELVDDGKVIDSYTEVFGVRTVEVKGTEFLINGEPFYFTGFGKHEDTAIRGKGHDNAYLVHDFQLLDWIGANSFRTSHYPYAEEVLEFADRHGIVVIDETAAVGLNLGVQAGLSGKPTTPSFSPETFNDQTREAHAQHIRELIARDKNHPSVVMWCIANEAATNEEGAREYFEPLVNLVRELDPTRPLTYAVVMFATFRNDLIVDLFDVVGLNRYYGWYVMSGDLESAENYLRMDIQGWIERVDKPIMMTEYGADTQPGVHSVWDQPWTEEYQEALLEMHHRVFDEFPQFVGEQIWNFADFQTSNGIHRVDGNKKGVFTRTRQPKAAAHALRKRWRTIGNRKPKN	PGPT0018200_587	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCURONIDASE,PGPT0018200-uidA-K01195	NA	NA
D1-29_04193	1455		COG3507	Non-reducing end alpha-L-arabinofuranosidase BoGH43A	ATGAGTTCGCTTATCCTTCCAGGCTTTTACCCGGACCCTTCCATATGCCGGGTCGGTGAGGAGTATCTCCTTGTCAACTCCACATTTGAGTATTTCCCCGGTGTGCCCATCTTCTCGAGCCGAGACCTGCTTAGCTGGCGCCAGGTGGGGCACGTACTCGATAGGGAAAGCCAACTTAACGTCAGTTCCGGCATAGAGGGCGCAAGCGGGGGCATATTCGCACCTACGATCCGCTTCCAGGACGGCCGCTTCTGGATGACAACCACCAATATGCACGACCTGCGTAAGGGGCACCTTATTGTCTCGGCGGAGCGTGCGGGTGGGCCTTGGAGCGAACCGGTGTACACACCCGGGCTCATCGGCATTGATCCCGATCTCGCGTGGGACGAGCACGGTGACTGTTACCTCACGTGGTCCGACGTCGTACGGGGTGGCATATCGCAGGCCCGGATTAATCCGCAGACCGGACAGGTGCTGTCCGAATCCCGGGAAATTTGGGGTGGCACGGGTGGCGCCCATGTGGAGGGCCCACACGTCTACGCACGAAACGGCTGGTGGTACCTCCTGGCTGCAGAGGGCGGCACTGCCGCTGGCCACATGATCACTGTGGCTCGGGCGCGCACCATAGACGGCCCGTACATCGCCAATCCAGCAAATCCAATCCTGACGAACCGAAGTACAGCGCATGCAGTGCAGGCGGTAGGTCATGGCGACCTTTTTGAGCTTCATGATGGAAGTTGGGCAATGGTGCATCTTGGGACCCGGCCCCGCGGGTCCTTCCCAAAGTGGCACACCAACGGGCGGGAGACGTTTCTCGTCGGAATCGACTGGGTGGATGACTGGCCCGTCATTGCCGAGGACCGGTTTACCGCACCAAACGTTGACACCTCGTTCGAGGACCTCTTTGCTGAAAACGAGCTCCACTCGAGGTGGATTTCCCCCGGAGCGAACCCCTCTTCATTTGTCACACCGAGCGACAACGGACTCGTACTGCTTGCTGGACGGGCACCAGACTCGACGCGGGCAGAGCGGCTGCTTGCGGTGCGGGCATGCGATCCGGAATGGACTGCAAGCGTTCAAGGTACGGGCGACTTGGCGTTGACTGTACGCATCGATGACCTGCACCAAGCAATCGTTCAACGAGTAGGGGGCAAGGTAACTGCCCGCGTTGTCATCGGTCCAGCAGATCAGACTCTAGCCATGCAGGATTCCGTACCAGAAGACGTCGCACTGACCATTCGCGCAGTATCACCCGGTGGTCAGGCCGGCCACCGACAAGGGCCCGACACCCTCGTGCTCGGCACAGGCGTCGGCGCCGCCTTCCAGCATCTGGCTTCCCTCGATGGCCGCTACCTGTCAACAGAGGTGGCGGGTGGATTCACCGGACGTGTAGTGGGGATTGAAGCCGTCGGTTCCGACGCCCTTGTACGTTCCTTCTCCTACAGTTCGCCCTGA	MSSLILPGFYPDPSICRVGEEYLLVNSTFEYFPGVPIFSSRDLLSWRQVGHVLDRESQLNVSSGIEGASGGIFAPTIRFQDGRFWMTTTNMHDLRKGHLIVSAERAGGPWSEPVYTPGLIGIDPDLAWDEHGDCYLTWSDVVRGGISQARINPQTGQVLSESREIWGGTGGAHVEGPHVYARNGWWYLLAAEGGTAAGHMITVARARTIDGPYIANPANPILTNRSTAHAVQAVGHGDLFELHDGSWAMVHLGTRPRGSFPKWHTNGRETFLVGIDWVDDWPVIAEDRFTAPNVDTSFEDLFAENELHSRWISPGANPSSFVTPSDNGLVLLAGRAPDSTRAERLLAVRACDPEWTASVQGTGDLALTVRIDDLHQAIVQRVGGKVTARVVIGPADQTLAMQDSVPEDVALTIRAVSPGGQAGHRQGPDTLVLGTGVGAAFQHLASLDGRYLSTEVAGGFTGRVVGIEAVGSDALVRSFSYSSP	PGPT0018665_1905	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_DEGRADATIVE_GLYCOSIDASES|GLYCOSYLHYDROLASES	PLANT_DEGRADATIVE_GS|GH-XYLOSIDASE,PGPT0018665-xynB-K01198	NA	NA
D1-29_04194	453	dtd	COG1490	D-aminoacyl-tRNA deacylase	GTGCGAGCCATCCTTCAGCGGGTCACCCGAGCCGAGGTCACAGTCGACGGCGAAACGGTGGGTTCCATTGACCGCCCGGGACTCGTTGTCCTGGCCGGCGCCACCCACACGGACACCTTGGACGATGCTTCGGCCCTCGCTGCCAAGATCTGGACCCTGCGGATCCTTGAGGGCGAGAGGTCGTGTGCCGACCAGAACGGCCCCCTGCTGGTGGTCAGCCAGTTCACGCTGTACGCGGACACACGGCGGGGAAGGCGCCCCTCCTGGTCGGACGCGGCGCCGGCGAACACCAGCGAGCCGTTGATTGAACACCTGATCGCTTCCCTGCGGGGCCTGGGGGCGGAGGTTTCCACCGGGCGGTTCGGGGCCATGATGCAACTGTCCCTGGTCAATGACGGACCGTTCACGATCAGCCTCGACACCGCCGATTTTTCAGCTCCCCGCCGCGGCTGA	MRAILQRVTRAEVTVDGETVGSIDRPGLVVLAGATHTDTLDDASALAAKIWTLRILEGERSCADQNGPLLVVSQFTLYADTRRGRRPSWSDAAPANTSEPLIEHLIASLRGLGAEVSTGRFGAMMQLSLVNDGPFTISLDTADFSAPRRG				NA	NA	NA	NA	NA
D1-29_04195	774			hypothetical protein	ATGCGCAGCCCGGCCGCCTCAGTCGCGGTTTTTCCCACAGCCATACTGATGGCGCTACTGTTCACGGGCTGCGGCCCGCAGGCGGGACCGACGACGACGTCGAGCCCCAGCCCCACCGTCACCTCCGCGACGGCCACCTCGACAGCAACTGCGACGCCGACAACAACTGGGACGCCGACGGCGACAGGCTCGCCGAATGCCACCGGCACGGCACCGGCGTCGGAAGCCTGGACCAGCTACACCACGGCCGACGGCCAGCTGATGTTCGAGCACCCAACCGCCTGGAGCGTCAGGGACCCGGCGGGCGAGCTTCCCGAGGGCGGCGGTGCCTTCGCGGAGGTCACCAACGAGGCCGGGCGGCCGCTGGCGGCGCTCCGGACCAACATGACCGTCGGGTCCACGTGCATGGACCGGTATCCGTACTCTGTGCTGGATTCTGAAGAGTTGCCGGAGCTGATGCAGGGTGAGGGAGCTCCCCGGTTCGTGTACGAGACCCGCGGGAATGGCGCCACCCCCGGTCCGGCTGATACACCGGCGGCAGCCTACGGCATCACCTCGGTCCCGGCACCCAGCGGGGACTCTGCATCGTGCATCTTCCACTTCTTTAACTGGCCGCCCACTGCTGCGATGTTCGGCGCGTTCTTCAACCCGGAGAACAACGTAACGCCGGGGGCCGCGTCCCTGCCCTACCTGGAGCAGGCCAGGAAGTACAAGGAAACGGTGGAGTACGCGGACATCCGGCGGATGATCACGTCACTGCGGCCGGCGGGGTGA	MRSPAASVAVFPTAILMALLFTGCGPQAGPTTTSSPSPTVTSATATSTATATPTTTGTPTATGSPNATGTAPASEAWTSYTTADGQLMFEHPTAWSVRDPAGELPEGGGAFAEVTNEAGRPLAALRTNMTVGSTCMDRYPYSVLDSEELPELMQGEGAPRFVYETRGNGATPGPADTPAAAYGITSVPAPSGDSASCIFHFFNWPPTAAMFGAFFNPENNVTPGAASLPYLEQARKYKETVEYADIRRMITSLRPAG				NA	NA	NA	NA	NA
D1-29_04196	609	betI_8		HTH-type transcriptional regulator BetI	ATGAACCAGCCGTCAACCCGCTTGCCCTATGGAGACGGGCGCGATGCCTTGCTGTCCGCGGTGATTGACGTCGTCGGGGAAAAGGGTCTACGGGGTGTCACGTACCGTGCCGTTGCGTCGCGGGCAGGAGTGAACCACACCCTCGTGACGCACCACTTCGGCTCTATCGAGGGTCTTCTCGCCGCCACCATGGAGTGGGCCATCCAGCGGTCCATCGAGGAGACTGGCCTGGAAAAGATCGCGGACTTTGACGAGAACTTTGCCGATTCACTCATCGAAACGGTGTCGAAGGAACCGGAGCTGCAGCTGTTCCAGTTCGAGATGCTTCTCGAATCCCGGCGCAACCCCGAGGTGCGGGCATTGGTGGAACGCCTTTACGCGAACTACATGAGCACCGTTGAAGATGCCCTGAGGCAACGGGGACTCAACGTGGACAACGGTGCAGCCTTGGCCATCTTTGCTGCCCTGGACGGCCTCATGCTGCAATTCCTCACCATCAGCGACCCCCAACGGATCAAGGCCGCCGTCATCCAGGTGGGCAAGCTCGTCGCAATTCTGGAGAGCACAAGCGACAGCCCCGGCGGCAGCAGCCCCCTCCCGGTTCGGTAA	MNQPSTRLPYGDGRDALLSAVIDVVGEKGLRGVTYRAVASRAGVNHTLVTHHFGSIEGLLAATMEWAIQRSIEETGLEKIADFDENFADSLIETVSKEPELQLFQFEMLLESRRNPEVRALVERLYANYMSTVEDALRQRGLNVDNGAALAIFAALDGLMLQFLTISDPQRIKAAVIQVGKLVAILESTSDSPGGSSPLPVR				NA	NA	NA	NA	NA
D1-29_04197	1455			hypothetical protein	ATGAATCAAGAACCAGTCGGAATCTCTACCCGCCCAGTGCAAGAGGATCCAGCACCTGCCTCCTCCTCCCCACGGCTGAGGCCAAACAAGCTCGGCGTCATCGCCATTGCCTTCTTTGCCATTGCCGCAGCCGCCCCCATGGCCGCCGTGGTGGGAGCCAGCCCGGTACTGTTTTCGGCCAGCGGCCCGGGAACACCCGTTATTTACGTGATTGCTGCCCTGCTGGTGGCTCTCTTCTCAATCGGATACCTGCGGATGAGCCAACACATCACCAACGCGGGCGGCTTTGTCGCCTATATGGCCAAGGGACTGGGCAACAAGTGGGCAACCGGCGGGGCCGGGATCGCCATCCTGACCTACCTGAGCCTTCAAGTTGGCCTGTGGTCCCAGTTCGGCGTTTTTGCGCAGTTGCTGGTCGAAGGCCTGACGGGCATCAGCCTGCCGGTCTACTTCTGGATCGCCGTATTGCTTGCTGTGGTTACGGGCCTGACGATGCGGGGCGTCGATGCGAGCCTGAAGGTCCTGGGAGTCCTCATCCTCGGCGAAGCCTTTGCGGTAGCGGCCCTCGTGGTGTCCCTGATTGCCCAGAAGGGGCTCGGCATCTTCACGTTTGAAGGGTTCACTCCATCCAGTGTTTTCGGTCCGGGCCTGGGCATTTCCCTGCTGTTTGCCTTCGCCTGCTTCACCAGCTTCGAAGCAACCGTCGTCTTCGCCGAGGAGGCAAAGAACCCGCGGCGCACCATTCCCCGTGCGGCTTATTTTGTCATCGCCTTCATTGGCATCTTCTACACCATCTCCACCTGGGCCATCAGTGGAGCCATCGGCATCGACAACATCCAAACCGTCGCCGCCGAAAACCCTGCAGGAATGGTCTTCGATCTCGCCGAATCCAGCGCAGGCTATTGGCTGAACCTGACAATGCAGATCCTGGTTGTCACGAGCTTCCTGGCGATGCTCCTGGGCCTGGCCAACATGTTCTCCCGATACCTGTTTTCCCTCGGCCGGGCCGGAGCCCTGCCCGCCAAGCTGTCCTCCGTCTCCAAGACCGGCGCCCCGCACTTCGCAGGACTCGTCAACGGCCTCGTTCTCCTGGCGATCATCAGCATCTTCCTGCTCGCAGGCGCCGACCCCATTACAACCGTCTTTGCCTGGTTCGTGGCCCTTGGCACTGCAGGCTTCATCACCATCCTGCTGGTGACATCAGCGGCAATCGTCGTCTTCTTCGCCAGAAACCGGATCCGGGACAACCTCTGGGTCACCGTTATTGCGCCGTCCCTGTCTTTCCTGGCCTTCATCGTCATCGGATACCTGACGCTGGACAACTACGACGCACTGCTCGGCGGAGCAGGCGGCGTGGCCCGGTGGCTGCTCCTCGGCATCCCGCTCTTCTTCATGGCCGGGATCGCCCGCGGCGCACAAAAGCCATCCATCAATTTCGCCGCAGTCATCGGCTGA	MNQEPVGISTRPVQEDPAPASSSPRLRPNKLGVIAIAFFAIAAAAPMAAVVGASPVLFSASGPGTPVIYVIAALLVALFSIGYLRMSQHITNAGGFVAYMAKGLGNKWATGGAGIAILTYLSLQVGLWSQFGVFAQLLVEGLTGISLPVYFWIAVLLAVVTGLTMRGVDASLKVLGVLILGEAFAVAALVVSLIAQKGLGIFTFEGFTPSSVFGPGLGISLLFAFACFTSFEATVVFAEEAKNPRRTIPRAAYFVIAFIGIFYTISTWAISGAIGIDNIQTVAAENPAGMVFDLAESSAGYWLNLTMQILVVTSFLAMLLGLANMFSRYLFSLGRAGALPAKLSSVSKTGAPHFAGLVNGLVLLAIISIFLLAGADPITTVFAWFVALGTAGFITILLVTSAAIVVFFARNRIRDNLWVTVIAPSLSFLAFIVIGYLTLDNYDALLGGAGGVARWLLLGIPLFFMAGIARGAQKPSINFAAVIG				NA	NA	NA	NA	NA
D1-29_04198	804	moaF		Protein MoaF	ATGACTTCAGCTGACATCCAGGACTACATCCCCGAAGACCAGTGGCCCCCCGTCTCGGCCATGCTGGAAGGCTTCGGCGATCAGACCCTGCCCGCCTCCCCCGCCCTGGCCGGCACCACATTGAGCCTCCCGGGCGAGGACGGCTCCCACGCCGAGTACGTTTTTGACGATGAGTCTTCGCTGGCATGGACAGTTAGCCGCAATGGGGACACGACCACCGGAACGGCGGGCTACAAGGCGATCGAAGCCCGGCCCGGCATCTTCATCATCGACTTCATCCGAGGCGAAGGTTCCGCCGCAGAAAACGTCACCATCATCGCGGACCGCAACACGGGGGCCACAACAACCGGTGTCTCCCGGTTTGTCACCGTGGACGGCAGGACGCGGAGCACCACCGATTTCAGCCAGGCCAACACTGAGGGTTCCCCAGTGCGCCACCAGCGCTCCACGGCCCTGGTCGGCAAGCGGATCTACTACCGCTACAGCGACGTCGAAACGTACGAACACATCTACCTCAACCCGGGAACCTTCACGTGGAACTGCATCCGCGGCGGCGAGGCAGGGCTGGCCGATACCGACCGTTGCATGACCTGGGAAGTGGCAGAGGACCTTTTCATCTTCTTCTGGACCGAAAAGGTCATGTGTATCGAAGCCGTGCTGCTGGTGGACCTGCGCGGGCAGCGCTCCATCGGCCGGATGTTCGGCTGGGACGATCCTGCAGCCGAACCCGTCGTCCTGCCCTTCAACTCCCGCCTCAGCGTCCTGAACACCACTGAATACCCGCAGGACTTCCAGAAGCACTAG	MTSADIQDYIPEDQWPPVSAMLEGFGDQTLPASPALAGTTLSLPGEDGSHAEYVFDDESSLAWTVSRNGDTTTGTAGYKAIEARPGIFIIDFIRGEGSAAENVTIIADRNTGATTTGVSRFVTVDGRTRSTTDFSQANTEGSPVRHQRSTALVGKRIYYRYSDVETYEHIYLNPGTFTWNCIRGGEAGLADTDRCMTWEVAEDLFIFFWTEKVMCIEAVLLVDLRGQRSIGRMFGWDDPAAEPVVLPFNSRLSVLNTTEYPQDFQKH				NA	NA	NA	NA	NA
D1-29_04199	1410	feaB_2	COG1012	Phenylacetaldehyde dehydrogenase	ATGAAAACGTACGAATCATTGCTGGACGAGGTCACCGCAGTCTCGGGCAGGACCCGCACCATCCTTGACCCTGCCACCGGTGGGATCGTCGGCGAGGCGCCCGTTCATGACCTTGAATACCTTGAGCGGACGGTCACCGGCGCGCAGGCTGCCCAGCCGGCGTGGGCAGCATTGGGCCACGACGCCCGGTCCGCTGCGCTCCTCAAGGCGGCCGACGCCGTCGAACGCTCCGCCGAGGAACTCGCCCATATTCTCTCCCGCGAGCAGGGCAAACCGCTGAACGGCCCGAACGCCCGCTTCGAGGTGGGCGCCTGCGCGGCATGGTTGCGCGCCGCTGCCACCATTCGCCTGGAACCTGAAATGGTAGTGGACGACGGCGAGACCCGGGCGGAGCTGCACTACAAGCCCATCGGCGTCGTTGCCGCTATCGGCCCGTGGAACTGGCCCATGATGATCGCGGTGTGGCAGATCGCCCCCGCCCTGCGAATGGGCAACGCCGTCGTCGTCAAACCCTCCGGCAACACCCCGCTCTCCGTCCTGGCGCTGGTGAAAGTCATGAACGAAGAGCTTCCCGAGGGCATCCTGTCGGTCGTTTCCTGCGGCCGCGAGGTTGGCGCACGCCTGACCGACCACCCGGCCATCGGCAAGATCATGTTCACCGGCTCCACCGCCGCCGGCCGCGCCATCATCAAATCCTCCGCGGACACCGTCAAGCGGCTCACCCTGGAGCTCGGCGGGAACGACGCCGGCATCGTCCTGCCCGACGCCGACCCGAAAGCCATCGCGGAGGACGTGTTCTGGGGCGCGTTCATCAACACGGGCCAAACCTGCGCCGCGCTGAAGCGCCTCTACGTCCACCAGGACATCTACGACGCCGTCTGCGAGGAACTCATCACCGTGGCCAGGGCCATGCCCATGGGCAACGGCCTGGATGAGAACAACGTCCTGGGCCCCCTGCAGAACAAGGCACAGTACGACGTCGTCGCCAACCTCGTGCAGGCAGCCAAGGACTCCGGCGCCCGCGTCCTGCTGGGCGGAAACCCGGATACCAGCCAGCCCGGCTGCTTCTACCCCACCACCCTCGTGGCGGACATCGACAACGACAACCCGCTGGTCACCGAGGAACAGTTCGGCCCCGCCCTGCCCATCATCCGCTACAGCACCATCGACGAAGCAGTGGAAATGGCCAACGGGCTCGACGTTGGACTGGGCGCGTCCGTCTGGTCCCCCAACCTGACGGCCGCCCGCGAAGTCGCAGGCCGCATCCAGGCCGGCACCGTGTGGATCAACAAACACGGCAACGTGGACCCCCGCATCCCCTTCGGCGGCGCCAAACAGTCCGGCTACGGCCTCGAGTTCGGCGTCGAAGGCCTCAAAGCCCTCGGCATCCCCCAGGTCATCAACGGCTAA	MKTYESLLDEVTAVSGRTRTILDPATGGIVGEAPVHDLEYLERTVTGAQAAQPAWAALGHDARSAALLKAADAVERSAEELAHILSREQGKPLNGPNARFEVGACAAWLRAAATIRLEPEMVVDDGETRAELHYKPIGVVAAIGPWNWPMMIAVWQIAPALRMGNAVVVKPSGNTPLSVLALVKVMNEELPEGILSVVSCGREVGARLTDHPAIGKIMFTGSTAAGRAIIKSSADTVKRLTLELGGNDAGIVLPDADPKAIAEDVFWGAFINTGQTCAALKRLYVHQDIYDAVCEELITVARAMPMGNGLDENNVLGPLQNKAQYDVVANLVQAAKDSGARVLLGGNPDTSQPGCFYPTTLVADIDNDNPLVTEEQFGPALPIIRYSTIDEAVEMANGLDVGLGASVWSPNLTAAREVAGRIQAGTVWINKHGNVDPRIPFGGAKQSGYGLEFGVEGLKALGIPQVING				NA	NA	NA	NA	NA
D1-29_04200	1245	kefB		Glutathione-regulated potassium-efflux system protein KefB	ATGCCTGGCCTGTCCACGTCATTGATTCTGATCGCTATGCTGGCCATCGCAGCGCCCCTGGCCAGCCGTTCCCTTGATCGTGTGGTCAAGGTTCCGATTGTGGTGTTCGAGATTGTCCTGGGAATCCTGCTCGGCCCCAGCCTGTTGGGGTGGATCCAGCCCACCGAGTTCGTAGACACCTTGGCCCAGTTCGGGCTGGCCATGCTTTTCTTCGTTGCCGGCAACGAGATTGATTTCGCCGTAATCCGGGGCCGCCCCGCCACCCGTGCGTCTGCCGGCTGGGTCATCTCCCTCGCGGCGGGTATTGGCGCCGGGTTCATCCTGGCCCCGGGTCCGGAGGCTGCGGTGATCATCGGCGTCGCCCTGTGCTCCACAGCCCTGGGCGCGCTGCTGCCCATCCTTCGCGACGCGGGTGAATCAAAATCCCCGATGGGTATCGCGGTCACCGCATTAGGTGCCGCCGGGGAGTTTGGTCCCCTGATTGCGATCTCTCTGTTCTTTAGTGGCAGGGAATTGGGGCCGGCAACAGCGGTACTTCTGGGGTTTGTTCTCGTGACCGCTCTGGCCATTTATCTCGCCTCGCGCGCCCGGCACACACTGCTCCACTCCCAGGTAACCAGGACCCTCCACACCAGCGGCCAGTTCGCCGTCCGGTCCATCATGTTCATCCTCACGGCCCTGGTGGTGCTGAGCATGGTGCTGGGACTGGACATGCTGCTGGGTGCCTTCGCCGCCGGAGTCCTCTGGAAAGTTGCGATCGCGCGTGCCCCCGAACACGACCGGCATGTCATCGAGATGAAAATCGATGCGATCGCCTTCGGGTTCCTGGTGCCGATCTTCTTCATTGACACCGGCATCGACTTCGACCTGCGCGCGCTCACCGCCAGCCCCGCCGCCCTGGCGCTGGTCCCGGTGTTCCTGATCCTCCTGCTCATCATCCGCGGCCTGCCGTCATTGCTCGCCGCTCCTCCAAAGTCCAGCCCCGCCAGCAAACGGGCCATCATGCTGTTCGGGGCAACGGGGTTGCCGATTATCGTGGCGGTGACAGCCATTGGCCGGAACGAGGGGCTGATCTCCAGCGGGATCTCCTCCGCACTTGTTGGGGCAGGGATGCTCTCGGTACTCCTGTTTCCGCTGCTCGCACTTCGTCAGCTTCAACGCACGCCGTCGGAACGCCAGGGCCGCACCAAGAAATCCCGCAGGAAACAGGACCGGGCCAACGTCCCTGGTGAGGCACCACATTAG	MPGLSTSLILIAMLAIAAPLASRSLDRVVKVPIVVFEIVLGILLGPSLLGWIQPTEFVDTLAQFGLAMLFFVAGNEIDFAVIRGRPATRASAGWVISLAAGIGAGFILAPGPEAAVIIGVALCSTALGALLPILRDAGESKSPMGIAVTALGAAGEFGPLIAISLFFSGRELGPATAVLLGFVLVTALAIYLASRARHTLLHSQVTRTLHTSGQFAVRSIMFILTALVVLSMVLGLDMLLGAFAAGVLWKVAIARAPEHDRHVIEMKIDAIAFGFLVPIFFIDTGIDFDLRALTASPAALALVPVFLILLLIIRGLPSLLAAPPKSSPASKRAIMLFGATGLPIIVAVTAIGRNEGLISSGISSALVGAGMLSVLLFPLLALRQLQRTPSERQGRTKKSRRKQDRANVPGEAPH				NA	NA	NA	NA	NA
D1-29_04201	453			hypothetical protein	ATGGAAATGTCCAGCTTCGCGCTGGGAATTCGCCGTTCGGAAGCCGTGGTCCGGCAATGGACTAGGGAGGTGGGCTACCGTCAGTCCATGTACCTGATCCGTTGGCGGGAAGGCGCCTGGGCGTTGCTGGTCCTGCTCGCGGCCGTGCTGATGGCCTGCGGGTTGGCCGACGCCTTTACCTTCATCGTTCAGCCACCCACTTATCCGGTGGGGCACCGGCTGGTCCTGATGGGCGCAACTGCCTTTGCCGTTGCCGCTGGCTGGGCTTGGCTGCGGGGCAGTCCGCGGTGGGTGGCTGTCCTCACCAGCCTGCCCGCGGTGGTGGTGGGCGGACTCGCCCTGCAGTTTGAGGACGGCGGCTGGGGCGTCCTGGCCGGCATCTTCTTGATCCCGGCCGCCGTGATCGCGATGCTGCTGGACTTGCTGAGCGCTGGGAACCGAAGACCAGCCTAA	MEMSSFALGIRRSEAVVRQWTREVGYRQSMYLIRWREGAWALLVLLAAVLMACGLADAFTFIVQPPTYPVGHRLVLMGATAFAVAAGWAWLRGSPRWVAVLTSLPAVVVGGLALQFEDGGWGVLAGIFLIPAAVIAMLLDLLSAGNRRPA				NA	NA	NA	NA	NA
D1-29_04202	585			hypothetical protein	ATGGGGAAATTGGGGGATTTGGATACGGTGCTCTGGGATAAACGGCTTCAGGGGGACGGGGCATCATCGCGCCCGGAGCCGAAGTGGCGAAGGCCCGCATCCCTGACGTTGGCCGGGCTGGCGTTTGCAGGGGTCACGGCCGCGGTGGTCTTCCTGGCGTCCGCCCCCGACGGGGACAAACGGGACGTGCGCTGCTATTACCACGCGGATCTGACCACCACGTACCCCGCCCCCTACGCTCCCCACGTCACTCTGCCGCCCTACATCCTGGCGGGAGAAGTGGATGCCGGATCCAGCACCGCCACTCCCCTCACGCTCTGCAGGGATACCTGGGACCAGGGACTCATGAACCCTGGGAACATTACGGACGACCTCATTCCATCCGATTTTCAGCAGCCCACCGCCCCTGCCAATCCCAGGGATGTCCGGGACGTCGAAGGGGAACCTCCCACCGCTGTTCCGTACGACGTCGGCCCTGGCCACTTCGTGCCGGAACTGACCGCCTGCATCGTGGACAACGCTGTGGCCGTCATCCCGGGCCCGGCGCAGGTCTGCAATCAGCTCGGTATCCCGGCCTTCGAATAG	MGKLGDLDTVLWDKRLQGDGASSRPEPKWRRPASLTLAGLAFAGVTAAVVFLASAPDGDKRDVRCYYHADLTTTYPAPYAPHVTLPPYILAGEVDAGSSTATPLTLCRDTWDQGLMNPGNITDDLIPSDFQQPTAPANPRDVRDVEGEPPTAVPYDVGPGHFVPELTACIVDNAVAVIPGPAQVCNQLGIPAFE				NA	NA	NA	NA	NA
D1-29_04203	588	sutR_3	COG1396	HTH-type transcriptional regulator SutR	GTGAATGACACAAGCATGATGATTCAGTCCGCGCTTGATCAGGTTGGGGTTCGGCTGCGACGGCTGCGCACGCAGCGGAATGTGACCCTGACCAGCCTCGCCGAAGCAACTGGAATCTCAAAAAGCACGTTGTCGCGCCTGGAGAGCGGACAGCGGCGCCCCAGCCTGGAACTTCTCCTCCCACTGGCGCAGGCCTACCGGGTGCCGCTGGAGGAACTGGTGGGCGCACCGGAAGTGGGCGATCCGCGGATACGGCTCAAGCCCCGCAGCGCCAACGGGCGCACCGTGATCCCGCTGACCAGGCAACCGGGCGGGATGCAGGCGTGGAAAATCGTCATCCCCACCACAAAGGCCCACCCTGACCCGAAGACCCATGAAGGATACGAATGGCTTTATGTTCTCTCGGGCCGCCTGCGGCTGATTCTGGGAGATCACGACCTGATCCTGGGGCCCGGCGAGGTAGCCGAATTCGACACTCATGTTCCGCACTGGTTTGGCAGCGACGGCGAGCAGCCGGCAGAAATTTTGAGTCTGTTCGGCGGACAAGGCGAACGCATACATGTCCGTGCCAAGGCGAGTAAGGACTGA	MNDTSMMIQSALDQVGVRLRRLRTQRNVTLTSLAEATGISKSTLSRLESGQRRPSLELLLPLAQAYRVPLEELVGAPEVGDPRIRLKPRSANGRTVIPLTRQPGGMQAWKIVIPTTKAHPDPKTHEGYEWLYVLSGRLRLILGDHDLILGPGEVAEFDTHVPHWFGSDGEQPAEILSLFGGQGERIHVRAKASKD				NA	NA	NA	NA	NA
D1-29_04204	930	trxB_3		Thioredoxin reductase	ATGAGCGATTATGACGTAGTGATAGTGGGCGGCGGGGCTGCAGGACTGTCCGCCGCATTGGTGCTGGCGCGGGCCCGCCGCAAGATTCTGGTGGCTGACTCCGGGGGGCCGCGGAACGGGCCCGCCCCGCACATGCACGGTTTCCTCTCCCGTGATGGCATGCCACCCGCGGAGCTTCTGGCTGTGGGCCGGGCTGAGGTGAAGAGCTACGGCGGCGAGCTGCTCGAGGGTGAGGTCACGGAACTTGTGACCGCCGGCAGTTCAGGATTCTGGGTGCTGATGGCGGGCGGCCGGAGGATTTCGGCGAGGCGCATCCTGGTGGCCACCGGGTTGCGGGATGAGCTTCCTGATATCCCCGGCCTTGCTGACCGGTGGGCCCGCGATGTGTTGCACTGCCCGTACTGCCATGGGTACGAAGTCCGGGACCGGCAGCTGGGTGTGCTCGGCGGCGGACCCGACTCGGTCCGCTACGCGCAGATTGTCCGGCAGTGGGCTGACGACGTGGTGCTGTTCGTACCTGCCGGCTTCCTGACCGTACGCCAGCGTTCGGAGCTGGTGGCCCGTTCGATCGGGATTGTTGAAGGGGACGTGACCAGGGTTCTGGTGGAGGATGACCGCCTGCACGGTGTCGAAACCGACGACGGCCGCATCGTCCACCGGGATGCGCTGTTCGTCCCGCCGCGCTTTGTCCCCAACAACGATCTCCTGGCCCGAATGGGCTGCGAGCTGGACGACGCCGGATGGGCAGTACGGGATGGCGCTGGCCAGACCACCGTTCCCGGAGTATGGATCGCGGGCAACGTCGCCAACCCCCGGGCCCAGGTCATCACTGCGGCCGGCGAAGGATCCACTGCGGCGATGGCCATCAACGCCGATCTGGTGGATCAGGACATCCGGGACGCCGTCAGCGCCTTCAACCTGGGCTTCTGA	MSDYDVVIVGGGAAGLSAALVLARARRKILVADSGGPRNGPAPHMHGFLSRDGMPPAELLAVGRAEVKSYGGELLEGEVTELVTAGSSGFWVLMAGGRRISARRILVATGLRDELPDIPGLADRWARDVLHCPYCHGYEVRDRQLGVLGGGPDSVRYAQIVRQWADDVVLFVPAGFLTVRQRSELVARSIGIVEGDVTRVLVEDDRLHGVETDDGRIVHRDALFVPPRFVPNNDLLARMGCELDDAGWAVRDGAGQTTVPGVWIAGNVANPRAQVITAAGEGSTAAMAINADLVDQDIRDAVSAFNLGF	PGPT0013060_7501	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
D1-29_04205	267			hypothetical protein	ATGTCCAACCAACCTACGATGACCCCCACGGCGAAGATCCTTCCGCCCAACAAGCATCAGCTGGCCCTGATGATCTGGCTGGCGGTGTTCCCCTCCCTGACCCTGATCAACCTCGTATTAGGAGACTGGCTGGGGACCCTGCACCCCATACTGCGCACATTTGTCCTGGCAACAGTCGCCGTCCCGATTGTCATCTATGGCCTGATGCCGTACCTGCATCGGCTACGCGCCAGCCTGCTGAAGCGCGCCGCCGTCGCTAAGCCTTAA	MSNQPTMTPTAKILPPNKHQLALMIWLAVFPSLTLINLVLGDWLGTLHPILRTFVLATVAVPIVIYGLMPYLHRLRASLLKRAAVAKP				NA	NA	NA	NA	NA
D1-29_04206	783			hypothetical protein	ATGGGCCCATCCGCACCCCGGCCCGATGCTGAGCGCGAGCTGGACGAGCTCCGCAGGAGGGCATACGGTCCGCATCCGGATATCCAGTCCGACCCGGCAGCACTGGCAAGACTGGCGGAACTGGAGGCGGCGCGCACCGCGAGTCCGCACGCCGTCACCGGCACCGATGTCAGACGACCCGTTGTAGCACCGGATTCCGGGTCAGTTGCTCACTCCACCCGGACTACGTTTATTGACGAATGGCCGGACCCGGAAACCAGCATCGCGCCCGTGACGGAGTCCAGGATTGGATGGACGTCGTTGACCTGGCGTCGTCTCACGGCGACCCGAGCCCGACGTTACTCATTTACGGCCGGCGCGCTGGCAGTCTTTCTTGCCGGTGTGGTCGCCGTGGCATGGATTGCAACACCGCATCCCGATGCCACATTGCATCCAATCGCAGACGAGGCAGACGGCGTCGTGCTCTCGGTGCTGGGATTCCTGGGTGCGGATGAAGGCCAATCCAGCTTCCGCGGCTATCAACCGTATCGGGGGGTTGAACCCTGGTTCTCAGTGGACGGACAGGGCTTCCAGTGCTTCATGATCATCGACCGTTCCGGTCCCCGTGTAGACGGCGCCAACTGTGTGCCGCCTGGGGTCGATCTTTTTGCAGACATCAACGGGGACTTCCTGTCGGTGGACGACGGCATGGAACGCCTTCCGAATGGGAGCATCTTCCGGTTCCATTACCGCGGCGACACGGTAGAGGTCTTCCTCTACCCCGCGTCGTCGAAGGCAGAATGA	MGPSAPRPDAERELDELRRRAYGPHPDIQSDPAALARLAELEAARTASPHAVTGTDVRRPVVAPDSGSVAHSTRTTFIDEWPDPETSIAPVTESRIGWTSLTWRRLTATRARRYSFTAGALAVFLAGVVAVAWIATPHPDATLHPIADEADGVVLSVLGFLGADEGQSSFRGYQPYRGVEPWFSVDGQGFQCFMIIDRSGPRVDGANCVPPGVDLFADINGDFLSVDDGMERLPNGSIFRFHYRGDTVEVFLYPASSKAE				NA	NA	NA	NA	NA
D1-29_04207	675			hypothetical protein	GTGGAAGGCTTCAGGCACTCTTCGGACGCCGACGGTGAGTTTTATGAGCTCCGCAGGCGGGCATACGGTCCGGATCCGGACATAGGTGTCGACCCTCCGGCCCTGGCGAGGTTGCGCAAACTTGAGGCGGCGGACCGCACTGGCGACGATTCTCTGCCGGTTGCCCCCGTGAGCGAGAGTGCGGCAGATTCGGAAGCCCCCACCGACACTGCCCCGATAGAACACTCCGTGCCAAAGCGGAGTCGCCTGTATTGGCTCGGTGGCGCACTGGTCCTCGCGGGAGTGATCGTTGTGGCGACCCTGCTGTTATCCCCGCCGCGTCCTGACGCCACTCTTCATTCGACCGGTGCCGCCGCCGGTAACGGTCTCCCCGTACTGCTGGTTGAGGGGATGGAGGCCTCAACCCTCCGCGGACACGGGTCGTATCTCGGTCTCGAGATCTATTCCGGGGTGAACGCGTTCGACTCGCCGTGTCTGGTGGCATTGCACCGGGCGAGCCGTACGCTCTCAGAATATCGCTGTACCCCGGCGCCAGCAGATCTCATAATGGACGTTTCCTCACACGGCGATGGGTTTGAAGGATTCGAAGGACGCGCCGGGGACGGGATCATCCGATTCGTACTTCGTTACGACACGGTGGACGCTTACGTCTATCTCGTTCCGGAGGAGGGCTGA	MEGFRHSSDADGEFYELRRRAYGPDPDIGVDPPALARLRKLEAADRTGDDSLPVAPVSESAADSEAPTDTAPIEHSVPKRSRLYWLGGALVLAGVIVVATLLLSPPRPDATLHSTGAAAGNGLPVLLVEGMEASTLRGHGSYLGLEIYSGVNAFDSPCLVALHRASRTLSEYRCTPAPADLIMDVSSHGDGFEGFEGRAGDGIIRFVLRYDTVDAYVYLVPEEG				NA	NA	NA	NA	NA
D1-29_04208	366			hypothetical protein	ATGAGCGAGAAGCTGATCTTCAACTGCACCTATGGAAAGGAAGAACCGGAGCGCGCCACGCTCCCGTTTGTCGCCGCGAACGTCGCCGCGGCAGCGGGTCAGGATGCGATCGTGCTGTGCACGATCGAAGCCGTGTGGCTGGGGACCAAGGGTGGAACCGACGGAGTGGCCCAGCCGGGGCTGCCGGAGCTCGGCAACTTGTACACCGAGTTCATCGAGAACGGCGGCCAGGTCTGGCTGTGCGGCGCTTGCGCCAAGCCCCGAGGCATCAACGAGGAGCAACTCGAGAAGGGCTCCACCATCGTGGGAGCCGCCAAGGTCGTCGAAGAGGTCGTGGCCGGAGCCAAGACGGTCGCGTTCGCCTGA	MSEKLIFNCTYGKEEPERATLPFVAANVAAAAGQDAIVLCTIEAVWLGTKGGTDGVAQPGLPELGNLYTEFIENGGQVWLCGACAKPRGINEEQLEKGSTIVGAAKVVEEVVAGAKTVAFA				NA	NA	NA	NA	NA
D1-29_04209	660			hypothetical protein	ATGCTCTCCAAAGGTACGCACAACAGCCTGCGGGGCGTCCCCGCTGCGGCTGGACCGCGTGACGTCGCGGCCGCTTTTCTGAACGCCCTGGCCGCCCGGGAGTTCACGCGAGCCCAGTCACTGCTGGCCCAGGACATCCAGTTCAGGATGCTGGTCCCGGGCAGGCTCATGACAGACCAGGGTGCGGACGCCACCATCCGCCGGTTCGCTGGCTGGTTCGCGGGGGCAGACCAGTTCCAGGTGGAGGCCTCCAGCGTCCAGGAGATCGAAGGCCGTGCGGTGGTGACGTACCGCTTCCGGCTCCACGACGCGAGGGGATGGCGGCTCCTCGAGCAGCACATGATGCTCGACGTCGGCACCGACGGTCGCGTGGAAGCGATTGATCTGCTGTGCTCGGGCTTCCGCCTGAGCACAGCAGTCGAGCCGGGTCAGGTGCACTCGTACGACGCGGGAGACCTCGGGTGCGCCGACGGTCTCGCCCGAGACTTCCGCGAACAGATCCAACACATCCCGATCGGCGACGTGCTTGTGGTGAGCACGCGCGATCCGGCTGCCAAAGAGGATCTGCCTTCCATGGCCCGTCTGATGGGCCACGTTGTTCATTCAATCAAAGCACCGGGAGACGGACGTCTGCTGGTTAGTGTGGAAAGGGGACGATGA	MLSKGTHNSLRGVPAAAGPRDVAAAFLNALAAREFTRAQSLLAQDIQFRMLVPGRLMTDQGADATIRRFAGWFAGADQFQVEASSVQEIEGRAVVTYRFRLHDARGWRLLEQHMMLDVGTDGRVEAIDLLCSGFRLSTAVEPGQVHSYDAGDLGCADGLARDFREQIQHIPIGDVLVVSTRDPAAKEDLPSMARLMGHVVHSIKAPGDGRLLVSVERGR				NA	NA	NA	NA	NA
D1-29_04210	1728			hypothetical protein	ATGAAGGAAGTGGAATTCCAACTCCTCGGGCGGTTTGCCGTCGCAGTCGATGGCAATCTGATGCCGGGTGACGCTTGGGGAAGCCGTCGGGCAGCAGACGTTCTCAAGCTGCTCGCTCTCTCCCCTGACCTTCGCCTGCACAGATCGCAGGTTATGGAGGCGCTCTGGCCCGAGAGCGATCCTCAGGCCTCTGGCACAAGCCTCCGAAAAGCCCTGTATTTCGCCCGGCGCGCCACAGCAGATGAGCAGACCGTCGTGAGCCACCAGGGGGTGCTCGTGCTCTGGCCCGCTGCCCAGGTCCACACCGACGTCGAGCGATTCGAGGGTGCGGCGCGCCAAGCGCTGGCTGCGAGTAATACTTCGGCCTGCCGAGCTGCAGCGAATCTTCACCACGGCGAACTCCTTCCCGACGACCGCTACGAGTCCTGGCTGGCCGAGCCACGCCAGCGTCTTCGCCAGCTGTATCTGGATCTTCTGCGCGTAGGGGAGCTGTGGCAGCGGCTCTCCGACGAAGACCCTACCGACGAGCAGGCAGCCCGCGCGCTCATGCGGGCCCATCTGGCCGCTGGCGAACGCAGAGAGGCTATCCGGCGGTTCGAGCGGCTGCGCGAGGCACTCCAAGACCACCTGGGCGTCGGGCCGGACCCGGCCACTATCGCCCTCTACGAAAACGTTCTGACCGTCGAAGGTGCGCTCCAACCCACCCAGGCCGAACGTGCCCACGCCCTGCTCGCCTGGGCCTTGGTGCATCTGAACCGCAACGACCTCAAGGAGGCGGAGCGTGCAGCGGAGGAGGCACGCTCCATCGCCCTCGACTCCAGACTGGGCCGAGAGCTTGGAGAAGCCGCTGTCATCCTCGCCAAGGTCGCCATGGCGCAAGGCCGCTGGCGCGAGCGGTTCGCCGAAGAGCTCGTGGAGTCTATGCGCATGAGGGCCAACATGGAGCCCATCGTCTACGACGCCCACCTCTGCCTTGCCGAGTACCACCTCACAGGGCCTGAAGGCTACGTCATCGCTGCCGACTTCGCACGACAGATGATGGGGATGGCCCAGGAGGCTGGGTCCCGGACCGGCACCGCCCTCGGCCAACTCATGCTTGGCGAGGCCCAGCTACTTGCCGGGCATCTCATCGACGCCCAAAAGAACCTCGCACAGGCGGCGCAGGCAAATGACCACGAAGGCTGTCTTTCCGGATCGGCCCTTTCGCGGCAGAGGCTCGCGGAGGTCGCACTCATTGGCGGCCGCAAGTTCGACGCAAACCGGCTGCTCAGCCGGGCGCGCTCATTCGCCGTCCGTTCCGAACTTGCCACCCACCTGTTGGTGCGTGTCTTCGGCACCATGATCCAGGCAGCTGCCGATTCGAAGAAGGCCCTCGCCGTCGTGCGGGCCGCCGAGCGGGAGCTGAGCGGGATGCGTTCCTGCGAGCCCTGCTTGATGGGCTACCTGACCAGTGCTGCGGCGGCCTGCGCGCGAGCCGGCGAACTTGATCGAGCACGCTCCTTCATCAGCAGAGCCGAAGGAATTGCAGGCATGTGGCAAGGAGGCCTGTGGAGCGGCGCTGTGTGGGAAGCCCGTGGCGTCCTCCGTAAGGCCGAAGGCGCGGACGATCAGTCTCGTGCAATGTTCCGCGAGGCAGCCCAGGAGTACACGCGCGCCGGCAGCCAGTCCGATGCCTACCGCTGCCTCGAAGCCGCGGCGACCCACACCAGGAGCACCCCTTCCGGGTAG	MKEVEFQLLGRFAVAVDGNLMPGDAWGSRRAADVLKLLALSPDLRLHRSQVMEALWPESDPQASGTSLRKALYFARRATADEQTVVSHQGVLVLWPAAQVHTDVERFEGAARQALAASNTSACRAAANLHHGELLPDDRYESWLAEPRQRLRQLYLDLLRVGELWQRLSDEDPTDEQAARALMRAHLAAGERREAIRRFERLREALQDHLGVGPDPATIALYENVLTVEGALQPTQAERAHALLAWALVHLNRNDLKEAERAAEEARSIALDSRLGRELGEAAVILAKVAMAQGRWRERFAEELVESMRMRANMEPIVYDAHLCLAEYHLTGPEGYVIAADFARQMMGMAQEAGSRTGTALGQLMLGEAQLLAGHLIDAQKNLAQAAQANDHEGCLSGSALSRQRLAEVALIGGRKFDANRLLSRARSFAVRSELATHLLVRVFGTMIQAAADSKKALAVVRAAERELSGMRSCEPCLMGYLTSAAAACARAGELDRARSFISRAEGIAGMWQGGLWSGAVWEARGVLRKAEGADDQSRAMFREAAQEYTRAGSQSDAYRCLEAAATHTRSTPSG				NA	NA	NA	NA	NA
D1-29_04211	411			hypothetical protein	ATGCTGTTCAGCATGACGATCACCTTTGAATGGCGCGGTGCGGTAGGGAACGAAGAGATCAATCAGCTGCACGCGCAGGGGTTCGATCATGCGTACGTTGAAAATGATTGGACTGGCCTGCTCTCACGCCACAGCCTGGGCTGGGTCACAGCTCGCGACGACGAGGGCCTCGTCGGCTTCGTCAACGTGATCTGGGACGGTCAGGCACACGCGTTCATCGAAGACACGTTGGTTGCTGATCGTGCCCGCCGGCAGGGCGTCGGGAAACGGCTCATTGCCCTGGCAACGGAGGAAGCCAAGGCAGCTGGATGCGAATGGCTGCACGTTGACTTCGACGATCACCTGAAGGGCTTCTACCTGGACGTCTGCGGTTTCCGTCCCACGAGTGCCGGTCTCATTCAGCTCCGGTAG	MLFSMTITFEWRGAVGNEEINQLHAQGFDHAYVENDWTGLLSRHSLGWVTARDDEGLVGFVNVIWDGQAHAFIEDTLVADRARRQGVGKRLIALATEEAKAAGCEWLHVDFDDHLKGFYLDVCGFRPTSAGLIQLR				NA	NA	NA	NA	NA
D1-29_04212	954			hypothetical protein	GTGGTTTTGCCTAGGCTCGACCCCACACACCACGTGAAACGAGACGCATCCATGGGACTGTTTTCCCGCAAATCCAATACCGCCGATCCGCACCTGCCGGAACTGAGCATTAAACAAGCGGACAAACTTCGTGCCATGTCCGTCGCCGCGGTCAGCCGTCTCGGCGTCTCCGCAGTGGCGGCAGGAGACCACCTCGCTGTGTCAGAAGGCAGCGGGAACGGGTACGGACTGTTCGCCGTCGGGCGGAAGGCAGCGCAGCTGCCCGAATCGGACTGGCCCGGCATGGTCGAGCAGCACTTCGGCAGCATCATCGGGGGCACTTCACAGTCTTCGGAGCTAGCGGTGGATGAAATGTTGAGCCGCGTCTATCCCAAATTCATCTCCCCAGGAACACTGGCACATTCCCAGCAGATTGACCCGTCACGGTACGGCTACGCCCGGGACGTCGCCATGATCCCCCTCTTGGTCGCGCTGGATTCCCCGGAATCCGTCACCTACGTGGGCGCACCCGAGATTGAAACCGCCGGCGGAGAAGACATCGTCTGGGACGCCGCGCTGAAGAACCTGATCGCCGAGGGTCCGGGTGAGCCTGAGGCAATGAACTACGAAGACGGATCCTTTCTGGTCTTCGAAACCGAATCGGTCTACCAGGCATCCTGGCTGGCTTACCCGGACCGGTTCTTTGAACTTCTCGGCTACCAGCCCGGACCACTCGGGGCGCTGCTCAGCATCCCGGCTACGAATATCCTTTGCCTCCATTTGGTCACCGAGGCCACAAGCATCACCGACATCTCCGCGATGATCAGCGTCACTGGGGCCATGCAGGCCCAACACCCATCCGCGCTCAGCCCCCTTCTCTACTGGTGGGATGGCACTACCGTGCAGCCCATTACAGGCCACGACGGCGAAAACGTCCATCTGATCGTCCCGGACGAACTCGCCAGCATCCTCTAA	MVLPRLDPTHHVKRDASMGLFSRKSNTADPHLPELSIKQADKLRAMSVAAVSRLGVSAVAAGDHLAVSEGSGNGYGLFAVGRKAAQLPESDWPGMVEQHFGSIIGGTSQSSELAVDEMLSRVYPKFISPGTLAHSQQIDPSRYGYARDVAMIPLLVALDSPESVTYVGAPEIETAGGEDIVWDAALKNLIAEGPGEPEAMNYEDGSFLVFETESVYQASWLAYPDRFFELLGYQPGPLGALLSIPATNILCLHLVTEATSITDISAMISVTGAMQAQHPSALSPLLYWWDGTTVQPITGHDGENVHLIVPDELASIL				NA	NA	NA	NA	NA
D1-29_04213	825			hypothetical protein	ATGAGGGAAAGAATGGCTGATCCGGAGACGACCGGGCAGTTCAGCACGGTGACGGTCGAATCTGAGGACGGAACGCTCACTGCACTTGCCCGCCCTGGACAAGGAGTCCCCATCGTCATCGTGCACGGGGTCATCGCGGATGCGCTTACCTGGAAGCAGGTCTCCAGAAACGTAGCGCCTGGGCGTCCAGTCTTCTTGCTCAATCGCCGGGGACGCGTCCCGAGTGCTCCCCTGGGTGAAGGGTATGGAGTCGAGCGGGAGGTGCAGGACCTCCTGCGCTGGCTATCGACTCTTGAAGGTCCGGTTGACCTTGTTGGGCACAGCTACGGCGGCCTCATAGCGGTTCAGGCTGTTCGACAGGGTGCCAACGTTCGCTCGCTGGTCCTGTACGAGCCGGTCGCACATCCCTTTGGCCTCGAGGCGCTGCCGCTCGTGGCGGCGGCCATTAGCGCCGGCGATCTTGATACCGCCGTCGAAATCATCAACGTTGATCTTTCCGGCTACACCAAAGCACACGTTCAGGCACTCCGGGATGGCCCAGCATGGCCTAAGCTCATGCAGCTAACAGAGCCCGCCGCCGTCGAGCTGCATGCAATCAACCACTTCGTTCTCACCGTCCCACAGTCATGGAGTACTCCAACGACGCTCATCGCAGGCGAGTTGAGCAGGAACCGCCCGCCCTACGGGCCGAGCGTTGACCTGTTTATGGAAACCTTGGACGTCGGGAGTGTCACCATCTTGGCGGGCCAAGACCACCTGGCGCACGTGACCGCTCCACAGGAACTGGCGGACGCAATAAACGGTGGCCTTCCGACTGGACGATGA	MRERMADPETTGQFSTVTVESEDGTLTALARPGQGVPIVIVHGVIADALTWKQVSRNVAPGRPVFLLNRRGRVPSAPLGEGYGVEREVQDLLRWLSTLEGPVDLVGHSYGGLIAVQAVRQGANVRSLVLYEPVAHPFGLEALPLVAAAISAGDLDTAVEIINVDLSGYTKAHVQALRDGPAWPKLMQLTEPAAVELHAINHFVLTVPQSWSTPTTLIAGELSRNRPPYGPSVDLFMETLDVGSVTILAGQDHLAHVTAPQELADAINGGLPTGR				NA	NA	NA	NA	NA
D1-29_04214	780			hypothetical protein	ATGCTCCTGAATCCCGCGGTCCTGCCCGCGCCGCCGAACCGTGCTCCAGACGTTCAAGATGACTTTTCCGGCCCACTGCGTACCGACTTATGGGTGGATCACTACCTGCCGCACTGGACCACCCCGGACAGGTCAGCCGCGCGCTACGAGACGACGCCGGCGGGGATGCAGCTGCGTATCGACGCCGACCAACTCGACTGGCGCCCCGAGGACGCGCCATTGCGGGTCTCCAACCTCCAGACGGGCAACTTCTCCGGCGGTCTTGGGTCGAGTGTGGGTACGCATCGTCACCGGAAGGACGGATTGAGCGTTCGTACGCCGACCGCCACCCAGCTTCTCTGGGCGCCCTCGGCGGGCCGCGTCGACATCACCGTCAGTGCCTCCCGTGACGAAGAGTGCATGCTCGCCGCCTGGCTTGTCGGCGCAGAGCATCTGGGTGCCCGGCATGCCGGCGAGGTTTGCATCTTCGAACTTGACGCTGCCGCCGTCGGGCCTACTACCACCGCGCGGTCGGGGATTAAGGCCCACGGCGACCCGGAGCTGGTCACGGACGTGACCACCGTCGAGATCCCCGTCGACGCTTCCAAGCCGCATACCTGGACGGCGATCTGGGGCAACGGCCAAACGATCATCGGCTGCGAGGGCCTCGCCATCCGGCACATTCAGCAGGCCCCCGACTATCCGCTCTTCCTGTTGATCGACCTCTTCGAGATTGGACCGCCCAGTGGCGCCTACCCGAAATCAGCGACCCTCCACCACTTCAGAGGCTGGACTGCCTGA	MLLNPAVLPAPPNRAPDVQDDFSGPLRTDLWVDHYLPHWTTPDRSAARYETTPAGMQLRIDADQLDWRPEDAPLRVSNLQTGNFSGGLGSSVGTHRHRKDGLSVRTPTATQLLWAPSAGRVDITVSASRDEECMLAAWLVGAEHLGARHAGEVCIFELDAAAVGPTTTARSGIKAHGDPELVTDVTTVEIPVDASKPHTWTAIWGNGQTIIGCEGLAIRHIQQAPDYPLFLLIDLFEIGPPSGAYPKSATLHHFRGWTA				NA	NA	NA	NA	NA
D1-29_04215	615	betI_9		HTH-type transcriptional regulator BetI	ATGCCATCCACACGGGAGCACCGGAGCATTCAGGAGCGGCGCCAACAACTCCTCGACGCCACGATCCATGTGATGTGCGCAGAAGGGGTGGCGTCAGCGACCACGCGCGCCATCACCAAGCAGGCGGGACTGCCCCACGGGGCGTTCCACTACTGCTTTGATTCTAAGAACGATCTCTTCGCAGCACTGCTCGAAAGAGAGCTGCACCAAGCCATAGCAGCAGCCTTTGAGCCCACCGGCACGGGTGTGAACGTCCAGCTCCGGATAGAGCATGGACTAACGACCCGTCTTGAGGCAGTCAAGGCAAGGCCCGATTATGAGCTCGCTCTTGCGGAGCTGGCTGTGATGTCACGGCGTGACCCGGAACTGCAGCCTCTCACCGGCTGGGAGCAGGCAGCCTGCTTGAAAGCTCTCAGTTCGTACCTGGAGAAGTGGTCTGCCGATGACGACATTACGTGGGTGGCACCGCCGGAAAAGGTAGCTGCACTGCTCATTGCGCTGATCGACGGGATCACCTCGGCATGGCTGAACGACCGTGACGATGAACGTGCCGCCTCATCCATCCAGTTGGCCGCTCAAGCCACTTCCTCCCTACGGAAAAGGAACACGCCGTGA	MPSTREHRSIQERRQQLLDATIHVMCAEGVASATTRAITKQAGLPHGAFHYCFDSKNDLFAALLERELHQAIAAAFEPTGTGVNVQLRIEHGLTTRLEAVKARPDYELALAELAVMSRRDPELQPLTGWEQAACLKALSSYLEKWSADDDITWVAPPEKVAALLIALIDGITSAWLNDRDDERAASSIQLAAQATSSLRKRNTP				NA	NA	NA	NA	NA
D1-29_04216	375	mdtJ		Spermidine export protein MdtJ	GTGAAATGGCTTTCCCTCGCCGGCGCCATTCTCTTGGAAGTTGCTGCGGCGCTGTCCATGCAGGCTGCTGTCGTTGACGCCGGGTGGTACGCCCTGGTGGTCATCGGTTACCTGGGTGCTTTCGTACTCCTTGTCCAGGTTCTCAAAGCCGGCATGGCTGTGGGCGTCGCCTACGGCATCTGGGGCGCCTCAGGCGTGGCGCTGACCGCGATTCTGGCAGCAATCCTTTTCGGTCAGGCACTCACCGGTGTGATGATCATGGGTCTGGTGCTGATCGTCGGCGGGGTCCTGCTCGTGGAAATAGGGTCCCAACGAGCCTTGGCCGCCAGAAAGAACTCAGCCCTGCCCGCCGCCGCAGAGCGAGTGGACGCCTGA	MKWLSLAGAILLEVAAALSMQAAVVDAGWYALVVIGYLGAFVLLVQVLKAGMAVGVAYGIWGASGVALTAILAAILFGQALTGVMIMGLVLIVGGVLLVEIGSQRALAARKNSALPAAAERVDA	PGPT0029230_117	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
D1-29_04217	315	ebrA		Multidrug resistance protein EbrA	ATGGGCTGGGTCCTTCTCTCCATTGCGATCATTTCCGAAGTGGGCGCAACCATCAGTCTCAAAGTCGCCACCGACGGAAAGAAGCGCTGGTATGCGCCGGTGGCCATTGGCTATATTGCGGCTTTCACCCTCTTGGCTGGCGCTCTATCGTTTGGGCTCCCCATCGGAGTGGCCTACGGCGTGTGGGCAGCGTCAGGGGTGGCCCTGACCGCCGTCCTGGCCCGCTATATCTTCAAAGACCCCCTGACACTAACGATGGGTGCCGGCATAGGCCTCATCATCGCCGGGGTGTTCCTGGTGGAACTGGGCCACTGA	MGWVLLSIAIISEVGATISLKVATDGKKRWYAPVAIGYIAAFTLLAGALSFGLPIGVAYGVWAASGVALTAVLARYIFKDPLTLTMGAGIGLIIAGVFLVELGH	PGPT0029230_2384	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
D1-29_04218	474			hypothetical protein	ATGACCATAACCACCACAACTAAGGCCCGCCGCACGAACGTCGGAAGCAGGCACCCGGAGCTTTACGGGGCACTGACGGCGGTGGGGACATTAGCGGATAAGACAGCGCTCGCGGAAGGACTGTCGCCGCTGCTCGTCGAACTGGTCAAGATCCGGGCGTCCCAGATCAACGGGTGCGCCTTCTGCCTGCGGATCCATACAAAGGACTCGCTGGCCAAGGGCGAGACGCCGGAGCGGCTGAGTGTGTTGCCTGCCTGGCGGGAAAGCCTGTACTTCGACGAGCAGGAGCGCTCGGCCCTTGCCCTCGCCGAGTACATCACCGCCATCCAGGATTCCCACAGGAACCGGGGACTGTACGAATCGGCGGTAGCCCATCTGACCCCCGGCCAGGTGTCCGCAGTGACGTGGCTGACGATGACGATCAACACCTACAACCGCATCGCCATCAGCGGGGCCTACCCCGTCGCGCCGTAG	MTITTTTKARRTNVGSRHPELYGALTAVGTLADKTALAEGLSPLLVELVKIRASQINGCAFCLRIHTKDSLAKGETPERLSVLPAWRESLYFDEQERSALALAEYITAIQDSHRNRGLYESAVAHLTPGQVSAVTWLTMTINTYNRIAISGAYPVAP				NA	NA	NA	NA	NA
D1-29_04219	702			hypothetical protein	ATGAGTGCATCCAATGACGGAGTGGACAGCCGTCATCGATTCCGGCGGGCGATGGCAGGGTTTCGGGTAGCGCAGCGAAGCGCGGCGGATCCCGCCCATCCCCTGGTGGCCTCGCATGAGGCTGAATTGCGGCTTCGTGTTCTGAAGGCCGCCAGTGTCCTGGTTGACCGTTTGACGTACGACGCCGTCACCATGGACGCCGTTGCCCGGGCGTCGGGTGTGAGCAAGTCAACTCTGTATCGGTATTGGCCCTCCCGTCAGGTTCTGGTGCTGGAAGCCTTTACGTTCAAGACGAATTTGCTGACCAACGTTGATGACTCCGGCGACGTGGCACGGGACCTGCACGCCTACCTTGTCGCTTTGACCTACTGCCTGAAGGTGGGCGGGGCGGCGTCGATAGTTTCCAACCTCATGGCTGAGGCGATCCGCAGTGAAGAGTTCGCAGGGCAGTTCCGCCAGACGCTGCTGCGGGAGCGCCGGCTGGGGTTTCTTGCGGTCCTGCGCCGGGGCCAGCGCCGCGGGCAGATTCGCGACGACGTCGATCTGGTCACGGTGATCGACGCCCTGTATGGGGCGGTCCATCACCGGCTGATCGCTACGGGACAGGACATCGACGGGGCGTTCCTACGGCGGCTGACCGAATTCGCCATTGACGGCACGGCAACCGCCGATTATCTGGCCAGCCACCGGGCAGAGAAGTAG	MSASNDGVDSRHRFRRAMAGFRVAQRSAADPAHPLVASHEAELRLRVLKAASVLVDRLTYDAVTMDAVARASGVSKSTLYRYWPSRQVLVLEAFTFKTNLLTNVDDSGDVARDLHAYLVALTYCLKVGGAASIVSNLMAEAIRSEEFAGQFRQTLLRERRLGFLAVLRRGQRRGQIRDDVDLVTVIDALYGAVHHRLIATGQDIDGAFLRRLTEFAIDGTATADYLASHRAEK				NA	NA	NA	NA	NA
D1-29_04220	405			Tn3 family transposase ISAau4	ATGAATGACGATTCAGAAGGCGCGTTGCATCATATCGAGCTGTGGGTGCCTGACATCCATAGAGCCTCGGCCGAGTGGGGCTGGATCCTGTCCGCCCTGGGATACGAGACGTACCAGACCTGGCCCCGTGGAATCAGTTGGCTAAGAGGCTCCACCTACATAGTGCTGGAGGAATCACCGGATCTGAGTGGCCGGCATCATCAACGAAGGGCACCTGGATTGAATCACCTCGCATTCAAAGCGGGAGGCAGGACCCGCGTGGATGCCCTTGCTGGAGACAGTGTTAAGCACGGCTGGACGCCCTTGTTCCCGGACAAGTACCCACACGCCGGCGGACCGGACCATTATGCTGCCTACCTGGCGAATTCAGACGGCTTCGAAATAGAGCTCGTCGCCACCCGCTAG	MNDDSEGALHHIELWVPDIHRASAEWGWILSALGYETYQTWPRGISWLRGSTYIVLEESPDLSGRHHQRRAPGLNHLAFKAGGRTRVDALAGDSVKHGWTPLFPDKYPHAGGPDHYAAYLANSDGFEIELVATR	PGPT0004575_434	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004575-rhnA_cobC-K22316	NA	NA
D1-29_04221	711	menH_7		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGTTGGCGCTCGATCCAGTCTTCGCCGCGCAGGGCCAGTGGAAGCGTGTGTACATCGATCTTCCGGGCATGGGCAAGTCCGCAGCGGGGCCGGAAATTGACAGCGCCGACAGTGTGGCGGAAGCGGTTGTGGAATTCGCCAGGAACACCTTTGGAAACGAAAAGTTCGCAGTGTTGGGAAACTCATTCGGTGGAATGATCGCGCGGCACATCGTTGCTGAATTTGGCGATCAGGTTCTGGGTCTGGCACTCATTTGCCCGGTTGCGGTGGCAGAGCAAGGTGCACGGAATGTGCCATCCAAGACTGTCCTGCAAAGGGATACAGGCCTTTTGGCGTCTTTGGACTTCGAGGATGCAACGGACTACGAGGCAATGGCCGTGGTCCAGTCGCCCGAGAACTGGGACCTGTTCCGTGAATCAGTGCTGCCGGGATTGCGGGCCTTTGACCAGGAGGCCATCGATCGGATTTCGGGCAACTATTCGTTCAGGACGGAGCCTGAGGATCGCTCGCCCACGTTTCAGGGGCCGACTGTCGTTATCACCGGAAGGCAAGACCACGTGGTCGGGTTCTACGATCAGATCGCCCTCGCCGACCACTACGTGCGATCCACGATTGCAGTTCTCGACGGAGCCGGCCACAACGCCCACCTTGACCAACCGGAGCTGACTGGCCGTCTCCTCGACGAATGGCTTGTTCGCTTGGAGCATTGA	MLALDPVFAAQGQWKRVYIDLPGMGKSAAGPEIDSADSVAEAVVEFARNTFGNEKFAVLGNSFGGMIARHIVAEFGDQVLGLALICPVAVAEQGARNVPSKTVLQRDTGLLASLDFEDATDYEAMAVVQSPENWDLFRESVLPGLRAFDQEAIDRISGNYSFRTEPEDRSPTFQGPTVVITGRQDHVVGFYDQIALADHYVRSTIAVLDGAGHNAHLDQPELTGRLLDEWLVRLEH				NA	NA	NA	NA	NA
D1-29_04222	474			hypothetical protein	ATGACCAGCCCGGACCTTCACCGCTGGCCTCCCGGCAACGGCACATATCGCCGATCAGAGGTGACGGCGGGGATCGGATATGGCGAAGCCGTGTGGCAGCGGGTCGCCAGCGAAGTTCTCCTGTGGAAGGTAAAAACCGCTAGTGGTTTTGCTGTGGACTCCACGGGTCCGGTGTCGCCCGGCGACCGTGTCATCGTCACAGCAGGCCTGTTCGGTCTGACTGTTGTGGAGCCGGTTCAAGTCGTGGCTGTTGTGCAGAAGGCAGACCGGAGCGGTTTCTCCTACCGCACACTGCCGGGACACCCCGTCCATGGGGAGGAAGCGTTTATCGTCCACCGCCACGGCGATGAAGTCCGGCTCACCATTCGCTCACTCACCCGGGCGGCGTCTAGGCATCCGTGGCGGGGGCTCTTCCCACTCCTCCTGGTAGCCCAGCGAATGGTACGACGGCGGTACTTGCGCGCGCTCCGCTGA	MTSPDLHRWPPGNGTYRRSEVTAGIGYGEAVWQRVASEVLLWKVKTASGFAVDSTGPVSPGDRVIVTAGLFGLTVVEPVQVVAVVQKADRSGFSYRTLPGHPVHGEEAFIVHRHGDEVRLTIRSLTRAASRHPWRGLFPLLLVAQRMVRRRYLRALR				NA	NA	NA	NA	NA
D1-29_04223	159			hypothetical protein	ATGCGGGTCACCAGGGGAGGGGGCAGGCGCTGGAAGCTCATGCTGGATCGTCTGAATTTGCTGGGCTTGATGGGTTTGTGGGCGGAAGAGTTCATCCGCAATTCCAAGCAGGTCACCGCTCCCTGCGCGCCTTGTGCCGTTGGCCCGGTTCCTGCGTGA	MRVTRGGGRRWKLMLDRLNLLGLMGLWAEEFIRNSKQVTAPCAPCAVGPVPA				NA	NA	NA	NA	NA
D1-29_04224	177			hypothetical protein	ATGAACGACTCCTCCACTCTCACCTTTACCCTCACGTATGCAGCCACCCTTGGAGTGGCGGCCGTGATGTTCCTGGGCCAGATGATCGCCTTTGGTGCCGTGCTGGCGCTGGCGGGAGCTGCGGGCCTCCTCGGCTATGGAGCACGCCTGATCATACGACGACGGCCACGTTCTTAA	MNDSSTLTFTLTYAATLGVAAVMFLGQMIAFGAVLALAGAAGLLGYGARLIIRRRPRS				NA	NA	NA	NA	NA
D1-29_04225	393			hypothetical protein	ATGACCATGGATTCCCCTGCCCCCGGCGACGCAAGCAGCCTGGCGGCTTCGCTTTTTGCACCGCTGGACCTAAGCCTTCCGGCGAGTGCCGACGGCATTGCGGTGGACCAGACTCCGCTTGAGCCTTTTGCCGGTGCTTCCCTGACGAGTTTCACGGCCGATACTGAGGAGATGAAGTCCATCTGTGTGTCGGCGGGTTCGATGGTGGCCCCCAATGCGGAGATCGTTGGGCAGGACGCGAAGGTGCTGCGCGGCGTCGGGATTGAGCCAGGTTCCACCCTGTGTTCCAAAGAGACAGACTCCGGACGGGGGCCGGCATTCCGGGTAGTCATCCCGCCGAAAGACTCGGGAAAGATCCACGTGGCGATCTACCAGCTCCCTGCTGGGCGCTGA	MTMDSPAPGDASSLAASLFAPLDLSLPASADGIAVDQTPLEPFAGASLTSFTADTEEMKSICVSAGSMVAPNAEIVGQDAKVLRGVGIEPGSTLCSKETDSGRGPAFRVVIPPKDSGKIHVAIYQLPAGR				NA	NA	NA	NA	NA
D1-29_04226	777		COG1028	3-beta-hydroxycholanate 3-dehydrogenase (NAD(+)) 2	ATGAGCAACACGTCATGGCAGGAAGTGGCCACCGAGGGCCGCTTCACCGGCAAGACGGTCATCGTTACCGGCGCAGCTTCGGGCATCGGCCAGGCTACGGCCCTGCGCATCGCGAAGGAGGGCGGCCGGGTGATCGCGGCCGATATCAGCAAGGAGCGGCTGGATGACCTGGTTGCCGACAACAGCGGCCTGGATATCGTTCCCGTGGCCGGAGACATCAGCGCGGAAGAGACGGTGGCTGCCGTGGTTGCCGCGGCGGGCGGCAGGGTTGACGCCCTTGCCAACGTGGCGGGCATCATGGACAACTTCGCTCCCATCCACGAGATCCACGACGACATGTGGGACAACGTCTTCCGCATCAATGTCACCGCACTCATGCGCCTCACCCGTGCGGTGGTTCCGCTGATGCTGCAAGCCGGAGCGGGATCGGTGGTCAATGTCGCTTCCGAAGCGGGCCTGCGCGGGTCCGCCGCCGGTGCCGCGTACACGGCGTCCAAGCACGCCGTCGTCGGCCTGACCAAAAACTCGGCAGTGATTTATGGGCCGCAAGGCCTGAGGTTCAACGCTGTGGCACCGGGCCCCACCATGACCGGCATCGTGGCGAACTGGGGGTCGAAAACGGCCGCCGAGCGTCTGGGTCCGATCATGCAGGCCACCGTCCCCGCCGTCGCCACCGCCGCGCAGCTTGCTGCGTCCATCACCTTCCTGCTGAGCGATGACGGCACCAACATCAACGGCGCCATCCTGGCGTCCGACGGCGGCTGGTCGGCACTGTAG	MSNTSWQEVATEGRFTGKTVIVTGAASGIGQATALRIAKEGGRVIAADISKERLDDLVADNSGLDIVPVAGDISAEETVAAVVAAAGGRVDALANVAGIMDNFAPIHEIHDDMWDNVFRINVTALMRLTRAVVPLMLQAGAGSVVNVASEAGLRGSAAGAAYTASKHAVVGLTKNSAVIYGPQGLRFNAVAPGPTMTGIVANWGSKTAAERLGPIMQATVPAVATAAQLAASITFLLSDDGTNINGAILASDGGWSAL				NA	NA	NA	NA	NA
D1-29_04227	609	mftR		Putative mycofactocin biosynthesis transcriptional regulator MftR	ATGCGAACTGAAGAGTCCACGGCTGCCGGGTCCCGCTCCACCGGACGGCCCGCCACCATCGATCCGGACGCGGTAGCCGCGGTGGCACTGCGGCTGTTCAGCCACCAGGGGTACGAGAACACGTCCATGGAGGACGTCGCCCGGGAAGCGGGCATCGGACGCAAGAGCCTGTACCGGTACTTCTCCACCAAGGCGGACCTGGTGTGGGGCGGGATGGAACCGGTCATTGAGGCCGTGACCCAGGAGTGGGACGTGTCCCCGGCCAGGCAGAGTTCCGACGGCGGCGTCCTGGCTGGGCTCCGGGCCGCCGCCGTCGCTGGGGTCACCACCCTCCCGGATCTTGCAGTGACCCGCGGGCGGCTGCGCCTCATCGCCGAGCACCCCGATCTGTCCAGCCGGAGCTACGAATTCCTGGCGCCGCAGCGGGAGCGCGCACGCCTCCATCTCGTGTCGCTGGGGCTTGGAGAGGATACGGCCCGCTACCTGTGCGCAGCGTTTCTGGGTGCGACGTTTGAGGCGTGGCTGCTGTGGGCGGCCGGCGAAGACGCCGATCCTGCGCCCTACCTCGCCGCGGCTATGGGGGTGCTTAGGGTCCCGGAAGCGGACTGA	MRTEESTAAGSRSTGRPATIDPDAVAAVALRLFSHQGYENTSMEDVAREAGIGRKSLYRYFSTKADLVWGGMEPVIEAVTQEWDVSPARQSSDGGVLAGLRAAAVAGVTTLPDLAVTRGRLRLIAEHPDLSSRSYEFLAPQRERARLHLVSLGLGEDTARYLCAAFLGATFEAWLLWAAGEDADPAPYLAAAMGVLRVPEAD				NA	NA	NA	NA	NA
D1-29_04228	702			hypothetical protein	ATGCCCCCGCGGCCAGAGCCGGATGCGGGCAACGAGGTCTTCAGTGACTATGCCTGGCAGGGCGAGGATGACCCGGGCCGCTTGGATACAGCCGCCGTCCTTTTTGGACGGGACAGGCTCCGGGCACACGGGACGTCCCGCACCGACTGGTACGCGCTGAGCTGGGTCCTGGAAACCGGGGCTCAGTGGGTCACTCGGAGGCTGGCGGCCACGGTTCACGGCCACGGCTGGAGCCGCCAGCTCGAACTTGAACGCAGTGAGGGCGGCGTCTGGAGTTCACACGCGTCCGCTTCCGGAAGCGGTGCGTCGGGAGGTGATGGGCACGCAGTTGCAGCCATGCCGCCGCCGGGTATCGATAACCCCGACGAGCTCCGCGATTCACTGGATTGTGACCTCGGCCTGTGCCCCATGACCAACACCATGCCCATCCGGCGGCTGAATTTGCTGGGTCAGCGAGCGGTGGGTCCGGGATCTTCCGAAGGGGAGTCATTGCTGACCATGGCTTGGGTGGAAGTTCCCAGCCTCAGGGTGTTCCCCAGCAGGCAGAGATACAGCAGCTCACCCGCCTCAGCAGGCACGGTCCGCTTCAGCTCGGAGAGCCGGGACTTCACGGCAGAGCTGACTACCGACCAGCACGGCGTTGTCACCCTGTACCCGGGGCTTGCCAGGTTGGTGCCTTTGCCCCACGGGAAAGGCGCCTGA	MPPRPEPDAGNEVFSDYAWQGEDDPGRLDTAAVLFGRDRLRAHGTSRTDWYALSWVLETGAQWVTRRLAATVHGHGWSRQLELERSEGGVWSSHASASGSGASGGDGHAVAAMPPPGIDNPDELRDSLDCDLGLCPMTNTMPIRRLNLLGQRAVGPGSSEGESLLTMAWVEVPSLRVFPSRQRYSSSPASAGTVRFSSESRDFTAELTTDQHGVVTLYPGLARLVPLPHGKGA				NA	NA	NA	NA	NA
D1-29_04229	231			hypothetical protein	ATGACAATCAATTCACCAGATTCATTGCCCGACGACGAAATGCCCGACGACGATCAGCAGCTAAAGCCAGCGGACGGCGGAACCCCTGCCGGTAAGGATGGGGACCAAAACGCCGACGGCGGGATCCCCGGCGGAGATAAGGGCGTGGGCCTGGGTGCCACGGGGGAGCCCAACACGTTTGAGCCCGAAGAGGACCCGGACGCTGCAGACCCGGACACTGCAGGCAGTTAG	MTINSPDSLPDDEMPDDDQQLKPADGGTPAGKDGDQNADGGIPGGDKGVGLGATGEPNTFEPEEDPDAADPDTAGS				NA	NA	NA	NA	NA
D1-29_04230	930	pld1		Pyridoxal 4-dehydrogenase	ATGGAATACAGGATTCTCGGCCGTACCGGACTCTCCGTCTCCACAGTCTGCGTTGGGACAAGCTCGCTGGGCAGCCACCCTGCCCCTCGCGGCACCGACACCGCCGTGGCCACCATCCGCCGGGTTTTTGAGGGTCCCTTCAATTTCATCGACACGTCCAACGAGTACGGGAACGGCGGCAACAGCGAACGCAGGATCGGCCAGGCCATTGCCGAAGCCGGTGGGCTGCCCGAAGGGGTTGTCATCGCCACCAAAGTGGATCCCGTCGTGGGAACCCGCGACTTCTCGGGCGACCGCGTCCGCCGCTCCGTGGAGGAAAGCCTGGAACGCCTGGGCCTGGACCGCCTCCAGCTGGTGTACCTGCACGACCCCGAGAAAATCACGTTCGAAGAAGGTACCGCGGCCGGCGGCCCCCTGGAAGCACTGACCGAACTCAGGGACCAGGGCGTGATCGGAAACATCGGCGTAGCTGGCGGCCCGATTGACCTGGAGCTGAAGTACCTGGCCACGGACATGTTCGACGTCGTCATCAGCCACAACAGGTACACGCTGGTGGACCGGACTGCCGAACCGCTGATCCAGGACGCGATGGAACGCGGCGTCGCCTTTGTCAACGCCGCCCCCTTTGGCGGCGGGATGCTTGTCAAGGGGCCCGACGCCGAACCCAACTACTGCTACCGCCCCGCGAGCCAGGCTACTATCAGCCGCGTCCGGAAGATGGAGGCGATCTGCGCCGAGCACTCGGTGCCGCTGGCTGCCGCCGCGCTGCAGTTCTCCACCCGGGACCGGCGCATCACGTCCACGATTGTTGGGATGTCCGAACCCGCGCGTGTTGACCAGACCCTCCAACTGGCCGAATGGGATATCCCCGCCGAGGCCTGGGCCCGGATCCTGCCGCTCGCCGCGGCCGGGACCGGCGAACTCGACTAG	MEYRILGRTGLSVSTVCVGTSSLGSHPAPRGTDTAVATIRRVFEGPFNFIDTSNEYGNGGNSERRIGQAIAEAGGLPEGVVIATKVDPVVGTRDFSGDRVRRSVEESLERLGLDRLQLVYLHDPEKITFEEGTAAGGPLEALTELRDQGVIGNIGVAGGPIDLELKYLATDMFDVVISHNRYTLVDRTAEPLIQDAMERGVAFVNAAPFGGGMLVKGPDAEPNYCYRPASQATISRVRKMEAICAEHSVPLAAAALQFSTRDRRITSTIVGMSEPARVDQTLQLAEWDIPAEAWARILPLAAAGTGELD	PGPT0017915_103	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017915-pld-K00064	NA	NA
D1-29_04231	435			hypothetical protein	ATGTTGTGGGAGAGCGTTGCCGGGGTGGTTGCCGGCATCCTGCTGGCATACGCCGTCCTGCTGTTTTTGTTGTGGCTTTACGCGCGCAGGCACCCGGAGACTGTCACCCCGAAGGATGCGCTGCGGATGCTCCCGGACCTGCTGCGCCTGATCCGCCGGCTCGCTGCTGACCGCACCCTGGCCCTGGGGATTCGGGTCCGGCTGGTGCTCCTCCTGGCGTATCTGCTGTCTCCCCTTGACCTGGTTCCGGACTTCATCCCGGTGATTGGCTATGCCGATGACGCCATTATTGTTGCCATGGTGCTGCGTTCAGTCCTCCGGCGTGCGGGACCGGAGGCGCTGAGCCGGCACTGGCCCGGAACCCCTGCCGGCCTGGAAATCATCGTTAAGGCAGCGGGGCGGCCACAGGCTCCAGGCACAGCCGGGGCAGCATAG	MLWESVAGVVAGILLAYAVLLFLLWLYARRHPETVTPKDALRMLPDLLRLIRRLAADRTLALGIRVRLVLLLAYLLSPLDLVPDFIPVIGYADDAIIVAMVLRSVLRRAGPEALSRHWPGTPAGLEIIVKAAGRPQAPGTAGAA				NA	NA	NA	NA	NA
D1-29_04232	2067	ftsH3		ATP-dependent zinc metalloprotease FtsH 3	ATGGCCGAACCAGCACCGTCCAAGGACGAACAACAGGATGGCGGTTCCGCCCCGCCCGCGGCCGCCGACGGCAAGACGCCGTGGCGGACCGAAGGGTTGCCTGCCCGCCAGTCACAGCCTGAAAAACGCTTCGGCGGGTGGAAGCGCACGCTGGTGTTTGTCCTGCTCTACCTTGCCTTCTTCGCTGTGCTGTCCCTCCAGGACCGGCAAAACCAGCCACTGTCCATCGCCTATACCGAGTTCAAGGAAGAGGTCCGGGACAACAACATTTCGGAAGTTTTCGCGCGCGGTCAGACCATTGAGGGGAGCCTCCGGTCCGAAAGGCCAGTGCCCGACGGCGGCGGGGCCAACTACAGCCAGTTCACCACCGAGCGTCCCCTGTTCGCCGACGACAGCCTGCTGACCGAACTGGAGCAGAACGATGTCACGGTGCGGGCCACGCCCCTGGTTGATGAACGGGGTGTCCTGACCAACCTGCTCATCGCCGTCGCCCCCATTGCCCTCCTGGTGGCGTTCTATCTCTGGCTCTTCAAGAAACAGTCCGGACTGCTCGGCGGCCTGGGCGGATTCGGGGCAGGCAAGAAGTTCCAGCCCGTGGACCCGGAGAAGGTGAGGGTCACCTTCAAGGACGTGGCCGGGATCGACGAAGTGGAAGCCGAAATTTCAGAAGTGGTTGACTTCCTCAAACAACCGCAGAGATACCGGGACCTGGGTGCCAAACCACCCAAGGGGGTCCTTCTCAGCGGCCCGCCGGGAACCGGCAAGACGCTGCTCGCGCGTGCCACTGCGGGAGAAGCCGGCGTCCCCTTCTTCCATGCAAGCTCCTCTGAGTTCGTCGAAATGGTGGTGGGCGTGGGAGCCAGCCGCGTCCGGGAGCTGTTCCAGGCCGCCCGGGAGGCGGCGCCGTCCATCATCTTCATCGACGAAATCGACACCATCGGACGCAAGCGGGGCGGTTCGCTGTCAGTGGGCGGGCATGATGAGCGCGAGCAGACGCTGAACCAGATCCTGACCGAAATGGACGGCTTCTCCTCATCGGAGGGCATTGTTGTCCTGGCCGCCACGAACCGGCCGGATGTCCTGGATCCCGCACTCCTGAGGCCTGGCCGGTTTGACCGTTCCATCACAGTCCATGCCCCGGACCAGGCCGGCCGAGCGCAGATTCTCCGGGTGCATTCCGGCAACGTCAAACTTGGCCCGGACGCCGATTTGGAAGCGATCAGCCGGATCACGCCAGGCATGACGGGGGCTGAACTGGCGAACCTCGTCAATGAGGCAGCACTCCTGGCAGTCAAGCGTTCCCGGTCAGCCGTCAGCCAACGGGATCTCCTGGACGCCCTGGAAAAGGTCCAGCTGGGAACCGTGAGGAACGTTGTGATGCCGGCCGAGGAGCGCAGGCGGACGGCGTACCACGAATCAGGGCACGCGCTCCTGGGCATGCTGGAACCCGGCGCCGATCCGGTCCGGAAGATTTCCATCATTCCGCGGGGCCGTGCGCTGGGGGTGACCCTCTCCACGCCCGACACGGACCGGTACGGCTACGACGAGAACTACCTCAGGGGGCGGATCGCCGGAGCCCTGGGCGGCATGGTGGCTGAGGAACTGGTGTTTGGCCTGGTTACCACCGGTGCCGAAAGCGACCTCCAGACCAGCACCCACCTCGCCCGGATGATGGTGGGCCGTTGGGGCATGTCCGAACGAATCGGGCCGGTGCAGGTCCTGCCCGAAGAAGGTGACCCGCGGGCTGCCGGCGTGTCCGAAGGCATGCTGGACGCGGTGGCCGAGGAGGTCAGGGCCCTGGTGGAGCAATGCCACCAACGGGCACGGACCCTTCTGCAGGAAAACCGCTGGCGGCTCGACTCCCTGGCACAACGGCTGCTGGAGAAGGAAACCCTGGATGAGCCCGAGATCTACGAGGCGGCAGGCCTCCAACACCCTCCGGCGAATGCCGACACCGACGCCGCTGGTGCCGGTGCTGGTGCTGGTGCTGCGGCGCCTTCTGCTGCGGCCGGCACAGTCGCCGAAGGAACCAGCCCCGCACAGCGCTTTCGGGCAGACCCGGACTGA	MAEPAPSKDEQQDGGSAPPAAADGKTPWRTEGLPARQSQPEKRFGGWKRTLVFVLLYLAFFAVLSLQDRQNQPLSIAYTEFKEEVRDNNISEVFARGQTIEGSLRSERPVPDGGGANYSQFTTERPLFADDSLLTELEQNDVTVRATPLVDERGVLTNLLIAVAPIALLVAFYLWLFKKQSGLLGGLGGFGAGKKFQPVDPEKVRVTFKDVAGIDEVEAEISEVVDFLKQPQRYRDLGAKPPKGVLLSGPPGTGKTLLARATAGEAGVPFFHASSSEFVEMVVGVGASRVRELFQAAREAAPSIIFIDEIDTIGRKRGGSLSVGGHDEREQTLNQILTEMDGFSSSEGIVVLAATNRPDVLDPALLRPGRFDRSITVHAPDQAGRAQILRVHSGNVKLGPDADLEAISRITPGMTGAELANLVNEAALLAVKRSRSAVSQRDLLDALEKVQLGTVRNVVMPAEERRRTAYHESGHALLGMLEPGADPVRKISIIPRGRALGVTLSTPDTDRYGYDENYLRGRIAGALGGMVAEELVFGLVTTGAESDLQTSTHLARMMVGRWGMSERIGPVQVLPEEGDPRAAGVSEGMLDAVAEEVRALVEQCHQRARTLLQENRWRLDSLAQRLLEKETLDEPEIYEAAGLQHPPANADTDAAGAGAGAGAAAPSAAAGTVAEGTSPAQRFRADPD				NA	NA	NA	NA	NA
D1-29_04233	837	phoP_2	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGGTTGAGCGGGGTATTGCTGTTGTAGTGGAGGACGACGACGACGTCAGGACATCTCTGACGGAGGTGCTGCAGCAGTCAGGTTTCGCTGTGCATGCGACGGTTTCCGGTATCGAGGGCGTGGAGGCGGTCCGGGAGCACAACCCGGTGGTCGTCACCATGGACGTTGGCCTGCCGGACTTTGACGGCATTGAGGCATCGCGCCGGATCCGTACCTTCAGCGATGCCTACCTCATCATCGTCTCGGGCAGGGTGGAGGAAGCGGATGCCCTGATGGGGTTCGAGGCCGGAGCCGACGACTACCTCACCAAGCCGTTCAGGCCGCGGGAGCTCAGGGCCAGGATCGCGGCAATGCTCCGGCGGCCCCGGGCCCTAAGTGCAAGGGCAACAGAAACCACCTCAACACCGCAACAGGGGAACGGGTACCCATCCGGACATCAGCGGCCGGCGCCGCCGCCGTCGTCCCCTGTCTCTCCTGCCGGCCACGTTGCCGAGCGTCAGGGAACAATCATCCGCTGCGACTTCGAACATAAGGGATTGACCCTGCACGAGGGATCGCGCATGGCTGCCATTGATGGCCGGCCGCTGGATCTGACCCGGACCCAGTTCGACCTGCTCCTGGTCCTGATGGAAAACGGACGGGTGGTGCAGACCAAGGCTGACCTGGTCCGCCGGCTGAGGAACGAGCCCTACAACACCGGCTCCTATGTAAGCACCGGCGAGGAGCGCGCCGTCGAGGTCCATTTGGGAAATCTGCGCAAGCGCCTGGGCGACAATTCACGCGACCCCCGCTGGGTGGAAACGGTCCGGGGTGTGGGCTACCGGATGGCTCCGTAA	MVERGIAVVVEDDDDVRTSLTEVLQQSGFAVHATVSGIEGVEAVREHNPVVVTMDVGLPDFDGIEASRRIRTFSDAYLIIVSGRVEEADALMGFEAGADDYLTKPFRPRELRARIAAMLRRPRALSARATETTSTPQQGNGYPSGHQRPAPPPSSPVSPAGHVAERQGTIIRCDFEHKGLTLHEGSRMAAIDGRPLDLTRTQFDLLLVLMENGRVVQTKADLVRRLRNEPYNTGSYVSTGEERAVEVHLGNLRKRLGDNSRDPRWVETVRGVGYRMAP	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
D1-29_04234	1140			hypothetical protein	ATGGGGCGCGAAGCTGCTCACTGGGGAGCAACAGGTAAGGGGCGTTACATGGCTTCTTTTCGGTTTTCCGTTCCGGATCATTCCCGCTGGCTGAAACTGCTGGCGATGTTCACTGCGGCCGGGCTGGCGATGCTGGTGTCTGTCCCGCCGGCTTCCGCGGCAGACACCACTCCGATGGATCCAAATCCCGGTCCGGCTGGAAACTTCGCTTGGAAAGGCTTCAACTGGGAGAAGCGTTTCTGGGGTGGAGCTCCGCAGTACAACAAGGCTTTTGCTGCCGGGAACGTCAGCAACCCGGATGCCAACGGTTACGTCACCATGACCCTGACAAATCCCACCCGGGAAGCTCCGGTGGGAGCGGAGTTCCAGTCCACCAGGCAAGGGTTTGGGTACGGGACCTACTCAACCACTGTGGAGAAGAACTTGAGCCTGCTGCAGAAGGAAGTGGTGTGGGGGTGCCTGTTCACCTACGATCCCTTGGCCGCACCGGGTTTCAACGAGATCGACCTGTGTGAGGCGTCCGCCTGGGGCGGCGGGGCTGCGTACGGCGAGTCGTGGCCCGTCACGCAGGGCCACGGATACTGGTTTGATGCAAGCAAGCCACCGGGGCAGGGAAACAACACCATAGTTTTTGATGTCACTGCAAGTCCCGTCACCACGCACAGGATGGTCTGGGAACCCGGGAAGCTGACGTTTGAAACCTACGCCGGCGCTGGCTTTGTGGGCACGCTGCTCAAGCGCACCGTCCTGGAAGGCGCTACCGTTCCCGTCCCGGCCAAGGAACAGATCCACTTCAACCTGTGGGTCACCGGTGGAGGCGGCGGGGATCCTGCCCATGTGAAGCCGGAAACCGTTGTGATCCGTGACTTCTCCTTCACCGCTGCGTCCACTGCGCCGGCTCCGGCGCCTGTCCCGGCCATCAAGCTCACCGCCGCCACCACCAAGTCGAAGGGGGTTAACACCACCACCCTGAAGTGGGCCGGCGCCGTGGGAACCAACGTCACCCTCTGGATCAACGGCCTGCCCCGGACGGTGGCCAACACAGGCAGCTATGTGAACAAGTTCAAGGGCGGGAGCACCACCTCATACAAGGTCTGCGATGCCGGCGGATGCTCAAACCCCGTCAGTGTGGTGACCTAG	MGREAAHWGATGKGRYMASFRFSVPDHSRWLKLLAMFTAAGLAMLVSVPPASAADTTPMDPNPGPAGNFAWKGFNWEKRFWGGAPQYNKAFAAGNVSNPDANGYVTMTLTNPTREAPVGAEFQSTRQGFGYGTYSTTVEKNLSLLQKEVVWGCLFTYDPLAAPGFNEIDLCEASAWGGGAAYGESWPVTQGHGYWFDASKPPGQGNNTIVFDVTASPVTTHRMVWEPGKLTFETYAGAGFVGTLLKRTVLEGATVPVPAKEQIHFNLWVTGGGGGDPAHVKPETVVIRDFSFTAASTAPAPAPVPAIKLTAATTKSKGVNTTTLKWAGAVGTNVTLWINGLPRTVANTGSYVNKFKGGSTTSYKVCDAGGCSNPVSVVT				NA	NA	NA	NA	NA
D1-29_04235	108			hypothetical protein	ATGACGGGGGCCGGCGACCTCTTCTGGTTCGCCCTCGCCGCGTTTGCCCTGGTGGCCCTCGGAATGGCCGTCAAGAGGATCGTTCCCGTCCGTGGGGCAAAGTCCTAG	MTGAGDLFWFALAAFALVALGMAVKRIVPVRGAKS				NA	NA	NA	NA	NA
D1-29_04236	1050			hypothetical protein	GTGATTACAGTCCTCATTCCGGCCCACAACGAGGCCGCAGGAATCACCGCAACGCTCCAGTCACTTAAAGATCAAACTCTTCCGCCGGGCAGGGTGATTGTCGTCGCAGATAATTGCACAGACGCTACGCAGCAGCTGGCACTTGCCCAGGGAGCTGAGGTTGTCCCGACGGAGGGGAACGTGGACAAGAAGGCCGGAGCACTCAACTTTGTCCTCAGCAGGCTGCTTCCGGACGCTGCGCCCGAGGACTTGATCCTTATCCAGGACGCCGACTCCCAACTGTCCGCTGACTTCATCGAACGGGCAGTGGCTCACCTGCAGGCGGATTCGCGGCTTGGTGCGGTTGGAGGGGTGTTCAGCGGGGGAAGCGGCGGAGGATTCGTTGGCCACCTGCAACGGAACGAATATGCCAGGTACGCCCGCGACGTCAAGCGGCTTAAGGGGAAATGCCTGGTGGTTACGGGCACTGCGGCGCTGTTCCGGGCGCGGACCCTTCGGGACGTTGTGGCAGCCCGCCTGGACGGTTCCCTGCCTCCCGGCAACGGACGCGGTGGGGTATACGACACGTCCGTCCTGACAGAGGACAACGAGCTCTCCTTCGCCCTGCTCACCCTCCATTACCGGATCAAGTCGCCGGCTGACTGCACTCTGGTCACAGAGGTCATGCCGTCCTGGCGGGAGCTCTGGGCCCAGCGGCTTCGGTGGAAACGTGGAGCCGTGGAGAACTGCGTCCAGTACGGATGGACGCGGGTCACCCGTCCCTATTGGGGAAGGCAGGCACTGGCCGTGGTTGGAGTGCTGGTGACACTTGCCTATTTCGGCACGGTGGCGTTTGCACTGGGCACGGGGGCAGGGCTGCACATCCAGCCATTCTGGCTTGCCGTGACCGGTGTCTTCGTGATCGAACGTGTGGTGACGGTGCGGCTGCGGGGATGGAAATACATGCTCGGGGCCGCCACCATGTACGAGCTGGTGATCGACCTGTTCCTGCAGGTGGTCCACGCGAAGGCGTATGCAGATGCAGCCCTTAACAACAAGAAAGCCTGGTAA	MITVLIPAHNEAAGITATLQSLKDQTLPPGRVIVVADNCTDATQQLALAQGAEVVPTEGNVDKKAGALNFVLSRLLPDAAPEDLILIQDADSQLSADFIERAVAHLQADSRLGAVGGVFSGGSGGGFVGHLQRNEYARYARDVKRLKGKCLVVTGTAALFRARTLRDVVAARLDGSLPPGNGRGGVYDTSVLTEDNELSFALLTLHYRIKSPADCTLVTEVMPSWRELWAQRLRWKRGAVENCVQYGWTRVTRPYWGRQALAVVGVLVTLAYFGTVAFALGTGAGLHIQPFWLAVTGVFVIERVVTVRLRGWKYMLGAATMYELVIDLFLQVVHAKAYADAALNNKKAW	PGPT0023485_1140	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-POLY-N-ACETYL-GLUCOSAMINE_METABOLISM	CE-EPS-POLY-N_ACETYL-GLUCOSAMINE_BIOSYNTHESIS,PGPT0023485-pgaC|icaA-K11936	NA	NA
D1-29_04237	111			hypothetical protein	ATGCCGCCGGCTGTGGCCTCAAGTGTTCGTTCGCGCCTGGCGGAGGCCGCCGGCTGGGGCCTCAAGTGTTCGTTCGCGCCGTGGGGCCCGCTGGCCACCCCGAAGATCTGA	MPPAVASSVRSRLAEAAGWGLKCSFAPWGPLATPKI				NA	NA	NA	NA	NA
D1-29_04238	1074	rafR		HTH-type transcriptional regulator RafR	ATGGGTTCCCGGCCAACCCTGGCGAGCCTGGCGCAGCAACTTGGTGTTTCCAGGCAAACCATTTCGAATGCCATCAACGCCCCCGAGCGCGTCAGTCCCCCCACGCTGGAACGGGTGACGGAGCTCATCGCCGCTTCCGGATACCGACCGAACATTGCCGCACGGCAACTGCGCACCCGCCGGTCCCGAAACCTTGGTTACCGGCTCTTTCCCTCAGCGGACGGCATCAACGGTGCCATCATGGACCGGTTCCTCCACTCCCTCACTGCGAGCCTTCAACAGCACGGCTACCGGGTTACGGTCTTTGCCGTCCCGCACGACGACGCTGAAATCGAAGCCTACGGGGAGCTCCTGGAGACATCCGACCTTGACGGATTTATCCTCGCCGACACGCGTCAGGATGATCCCCGGACGCGCTGGCTCATGGATCGGGAAGTCCCGTTTGTCACGTTCGGGCGACCCTGGAGCGCTGACAATGACGCATGCCCCCACGCCTGGGTGGATGTCGATGGCCAGGCCGGGACCGTGGAAGCAACACGATATCTGCTCGATCAGGGCCATCGCCGCATCGGCTTTCTCGGCTGGCCGGACAGTGACAGGCCAGCAAGGGAACGCCCCGCCGGGTATGACCTGGGACGGGACCGGAGGGAAGGCTGGAAAACTGCATTGTCCCCCCACTTGGGGCCACACGAACTGGATCTTTTGTCAGTGGGCGTCCCGGACAGTATCCGGGAAGGTGCAGCAGGAGCGCTTACCTTGCTGGCCAACGGCGCCACAGCAATAGTCTGTGCCAGTGATTCCCTGGCACTCGGTGCCTCGGAACAGCTACGGGCCGCCTTCCCGGACAAGGTCCCGGCAGTGATCGGCTTCGACGACACTCCTGTCGCCGCCGCGGTGGGAATGAGCAGTATCGCCCAGCCGATCGAAGAGGCGGCGGGCACGGTTGTGGACATCATGCGCTCCATCCTCGACGGCCCATCGAGCCAGCAACGCACGCCCGAGCATGTCCTTCTTCCCTCCCGGCTTGTCCTGCGCGACGGCGGAGGCCCACTGGCCACGCCGCCAGGACTGTAA	MGSRPTLASLAQQLGVSRQTISNAINAPERVSPPTLERVTELIAASGYRPNIAARQLRTRRSRNLGYRLFPSADGINGAIMDRFLHSLTASLQQHGYRVTVFAVPHDDAEIEAYGELLETSDLDGFILADTRQDDPRTRWLMDREVPFVTFGRPWSADNDACPHAWVDVDGQAGTVEATRYLLDQGHRRIGFLGWPDSDRPARERPAGYDLGRDRREGWKTALSPHLGPHELDLLSVGVPDSIREGAAGALTLLANGATAIVCASDSLALGASEQLRAAFPDKVPAVIGFDDTPVAAAVGMSSIAQPIEEAAGTVVDIMRSILDGPSSQQRTPEHVLLPSRLVLRDGGGPLATPPGL	PGPT0017992_1377	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
D1-29_04239	900	araQ_14	COG0395	L-arabinose transport system permease protein AraQ	GTGACTGCGCTGATAGCCGATACGCCGGAAACCGCCGCCCCGGCATCCCCAGCGCCGGGCAAGACCCGCCGGAAACGCCAGGGGAAATTTATTTGGCTGGCCTACCTGGTCCTCATTTCACTGGCCGTGGTCTATATATTTCCGTTCCTCATCAACCTCGCCACCTCATTCAAGACCGAACCCGACGCCGCGAGCGATCCCCTGTCGCTGTTTCCGGCAACCTGGTCCACATTGGCCTACGAGAAGCTTTTCCTCAATTCGGATTTTCCATTGTGGTTCGGGAACTCCGTGGTGGTCACGGTCTTCGTCACCTGCGGGCGGGTGTTCTTCGATCTGCTTGCGGGCTATGCCCTGGCCCGGATCCCCTTCCGTGGAAGGTCCGTTATTTTCGCGGGAGTCGTGGCTGTTATGGCCGTCCCCGGGGTCGTTCTCTTGATTCCCAAGTTCCTGGTGATCAACCAGTTGGGACTTTACGACTCCTACGCGGGAATGATCATCCCGCTCATGGCAGATGCGGCCGGCGTGTTCATTATGAAGAACTTCTTCGAGTCCATCCCGGCAAGCGTCGAGGAACAAGCCAGAATCGACGGCGCAGGGACCTTCCGCACTTTCTGGTCCGTCGTCCTGCCTATGTCCATGCCGGCAGTGATGACCATCGTCATTCTCTCGTTTCAAGGTTCCTGGAACGAGCTGAGCCACTTCATCATTGCCGCCCAAAGTCCTGAGCTTGTCACTCTTACCAAGGGTGTGGCCCAGCTCTCGTCCGGCCAGCTCAGTGCCGGAACGCAATATCCGCTCAAACTGGCGGCAGCAGCCATCATGACCATCCCGGTGGCCATAGTGTTTTTCATCTTCCAGAAAAGGATCATGAACAGCACAGCCGGAGCGTTGAAGGAGTGA	MTALIADTPETAAPASPAPGKTRRKRQGKFIWLAYLVLISLAVVYIFPFLINLATSFKTEPDAASDPLSLFPATWSTLAYEKLFLNSDFPLWFGNSVVVTVFVTCGRVFFDLLAGYALARIPFRGRSVIFAGVVAVMAVPGVVLLIPKFLVINQLGLYDSYAGMIIPLMADAAGVFIMKNFFESIPASVEEQARIDGAGTFRTFWSVVLPMSMPAVMTIVILSFQGSWNELSHFIIAAQSPELVTLTKGVAQLSSGQLSAGTQYPLKLAAAAIMTIPVAIVFFIFQKRIMNSTAGALKE	PGPT0016540_1486	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
D1-29_04240	1107	lacF_14		Lactose transport system permease protein LacF	GTGAGCACCCTGACACGCAGTACCCGCGGAACCGGAACCCGCAGAAGCGGGACTAAGGGCAACCAGAACGCCACCGGGTGGCTCTTCACGGCTCCCGTGCTGATCATCCTCGGCCTCTTCCTGGTCCTGCCTGTCATCATGGCAGCCTGGGTCAGCATCTCGGACTGGACGGGAAGGGGGAGCCCGTTCTCCGGCGGCACACACTTCGTGGGAGCAGAGAACTTCGAAGCGGTTATCTCGGGCGGCGGCCTGGCCGAAAGGGACTTCGGTACCGCACTGCGGAACAACCTGTACTACGTTGTGCTGGTTGTTCCGCTGCAGACCATAGCATCCCTCTTCTTGGCGGTACTCGTTAACAGCAGGATTCTGAAGGGAAAGGGCTTCTTCCGGACCGCCTTCTACTTCCCCTCCGTCACCAGCTCAGTGGCCATCACGGTCCTATGGCTGTTCCTGTTCAATGCCACAGGAGCTGTGAACAAATTCCTGTCACTGCTGGGGATTAGCGGCCCTAACTGGTTCCAGGAACCTACCGGGATCATCCATCTCCTGGCGCAGTCGGTTGGCATCGGCGAACCGCCCGCGGCGTTGGCGTCCGGAACACTCATGGGGGTGAGCTGGTGGGACTGGCTTTCCGGGCCTTCCGTGGCCATGTCCGCCTTCATCCTCATGGCGATATTCACAACCTCCGGGACGTTCATGCTGCTCTTTATCGCCGCTCTGCAGAACCTGCAGGGCGAACTTGAAGAAGCGGCAATGCTCGACGGCGCCGGCGCCTGGCAGCGCTTCTGGTACGTAACCCTTCCCATGCTCCGTCCCACGCTCTTCACCGTGATCACCCTCGGTCTGATCGGCTCGTGGCAGGTGTTCGACCAGATCTACACAGGCACACAGGGCGGACCCGCAAAGACCACCCTCACCCCCGCCTACCTTTCCTTCAGCACCGCCTTTAACAATCAACAATGGGGGCAAGGCGCAGCCATCGCATTCCTGCTGTTCGCCATCATCATCGTCTTCACCGTCATCCAGCGCCTGATACTGCGAGAACGTGAATCCGTGCCCCGCCGCAAACGAATGAATCCAAAACCGAGCCGAGGGAGAGCACAGTGA	MSTLTRSTRGTGTRRSGTKGNQNATGWLFTAPVLIILGLFLVLPVIMAAWVSISDWTGRGSPFSGGTHFVGAENFEAVISGGGLAERDFGTALRNNLYYVVLVVPLQTIASLFLAVLVNSRILKGKGFFRTAFYFPSVTSSVAITVLWLFLFNATGAVNKFLSLLGISGPNWFQEPTGIIHLLAQSVGIGEPPAALASGTLMGVSWWDWLSGPSVAMSAFILMAIFTTSGTFMLLFIAALQNLQGELEEAAMLDGAGAWQRFWYVTLPMLRPTLFTVITLGLIGSWQVFDQIYTGTQGGPAKTTLTPAYLSFSTAFNNQQWGQGAAIAFLLFAIIIVFTVIQRLILRERESVPRRKRMNPKPSRGRAQ	PGPT0016535_506	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
D1-29_04241	1248	malE	COG2182	Maltose/maltodextrin-binding periplasmic protein	ATGAAAACACCACGCGCCTCCCGCCTCGCAGCAGCGATCACCATTTGCGTCACCGGCGCCCTTGGCCTGAGCGCCTGCGGTTCCGGTTTTGCCAGCTCGGACACTAAATCATCAGATGCGGGCTCGGGACCGATCAGCGTGCTGATCGCCTCTTCCGGCGATGCAGAGGCAACCGCTGTGAAATCTGCCGTGGCGGACTGGTCCAAGACATCCGGTACCGAAGCCTCCGTGAACGTAGCCTCAGATCTGATCCAGCAGCTCAGTCAGGGCTTCGCTTCAGGAAAGCCTGCCGACGTTTTCTACCTGTCCCCTGACCAGCTCAGCGGCTACGCCTCCAACGGTTCCCTTGAGCCCTACGCTGACTCCCTGGCCAACAAGGCTGACTTCCAGCCAAGCCTGACCAAAGCCTTCACCTATGACGGGAAGTTCTACTGCGCACCCAAGGATTCCTCCACGCTGTCCCTTGTCATCAACATTGACCTGTGGCAGGCGGCAGGTCTGACCGATGCCGATATTCCCACCACCTGGGACGAACTCGAAGCCACGGCCAAAAAGCTGACCTCCGGCAACGCCGTCGGCCTGTCCTTCGGCCCTGAAGTCGCACGCGTCGGTGCCTTCTTCCCCCAGGCAGGCGGGTCCCTGCTCAGCTCCGACGGCAAAACAGCCACCGTCAACAGCGCCGAGAACGTGAAGGCACTCACCTTCGTCAAGAAGATGCTCACCGATGGCGTGGCAAAGTACTCCTCTGACCTGGGCGCCGGCTGGGGAGGCGAGGCCTTCGGCAAACAGCTTTCGGCTATGACGATCGAAGGGAACTGGATAGCAGGAGCCCTGTCCAAGGACTTCCCGTCCATCAAGTACCGCACGGTAGAGCTTCCGGCAGGCCCCAAGGGCAAGGGCACCCTGCAGTTCACCAACTGCTGGGGAATCGCAGCTGACAGCAAGAACAAGCCCGCAGCAAAGGCCCTGGTTGAGCAGCTGACCGGCACCCAGACCCAGATGACCTTCGCGAAGGCCTTTGGCGTCATGCCCTCGGTCGTTTCTGCCGAGAGCGAGTTCAAGAAGGAGTTCCCCGAACAGGAAGCCTCCATTGCCGGCGTCGAGTATGCCCAGACCCTCCCGTCCCAGCCCGGCGCAGCTGACGTACTCAAGGACTTCAACGCGAAACTGGCAACGCTGCAGACCTCAGATCCGAAAGCCATCCTGGATTCCATCCAGACCGAAATGACGGCGACGTTGTCAAAGTGA	MKTPRASRLAAAITICVTGALGLSACGSGFASSDTKSSDAGSGPISVLIASSGDAEATAVKSAVADWSKTSGTEASVNVASDLIQQLSQGFASGKPADVFYLSPDQLSGYASNGSLEPYADSLANKADFQPSLTKAFTYDGKFYCAPKDSSTLSLVINIDLWQAAGLTDADIPTTWDELEATAKKLTSGNAVGLSFGPEVARVGAFFPQAGGSLLSSDGKTATVNSAENVKALTFVKKMLTDGVAKYSSDLGAGWGGEAFGKQLSAMTIEGNWIAGALSKDFPSIKYRTVELPAGPKGKGTLQFTNCWGIAADSKNKPAAKALVEQLTGTQTQMTFAKAFGVMPSVVSAESEFKKEFPEQEASIAGVEYAQTLPSQPGAADVLKDFNAKLATLQTSDPKAILDSIQTEMTATLSK	PGPT0016545_8342	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
D1-29_04242	2031			hypothetical protein	ATGAACAACCGGCAGCCCTTCCTTCACGATTTGAATGTCCTCCTGGCCGCTCCCATGCAGGTCTGGTCTGAGCATGACGGACAGCTGCGGCGCAGCGGCGGCGTCCAGGGCATCTACTGTGCCGATACCCGGGTGATCGATGAGGCTGTACTTACCATCAATGGTGAGGAACCAGAACCTGTTGGCTCATCCTCGGCCCAGGGCCATGTTGTGTCCTTCCAGGCCCTCATCCGGACCCTCGGCAGCGAGAATCCAGATCCGCTGGTCAGCCTGACCCGCCGCCGCAGCATCCTCCCCGATCGCGTCAGCGAGGAAATCATCCTGCGATCCGATCTGAGCAAGGACGTTACAGCGTTGGTTGAGATGGAGCTCGGGTCCGACTTCTCACCGTTGGAGTCGGTGAAGGCCGGTGGCAGGGCGCACCCTGTCCCGCCGGTATTGGACGGCGGGGTTTGGAAGGCGGCCGACGAAGGCGTCAGCTCTTCGATCAGCGCGCCAGGGGCCGTGATTGAACCGAACAGCAGCCAGCTTCGCCTCCGGTGGGAAGTAAGGATTCCGGCCCGCGGTACCGCCCGGGTCGGCTGGGAGGTCCAGGCCAAGGACAGTCTTGCCCCCTTCGTTGCAGCCCAGCCCACGACTGCATCATTCCGCGTCCGTGCTGATGACCGGCGCCTGAGCGCGCTGGCAGAAAAGGCCCTCGGTGACCTTGAAGGGCTGCGAATGTCTGCTCTTTCCTCGCCGCAGGATGTTTTCCTTGCCGCCGGGGCTCCCTGGTTCTTCACGCTGTTTGGACGGGACTCGCTGATCGCAGCCAGAATGCTCCTCCCGGTTGAGCCGTCAGTGGCAGCGGGGACGCTGCGCACGCTGGCCGCCCGCCAGGGCACAAAGTACGATCCTGCCACTGCGGAACAACCAGGCAAGATCCTTCACGAAGTGCGCCGCGGCGAATTCCGGATGCCCGAGGACGCCAGCAACGGCGAATTGCGGCTTCCGCCCGTCTATTTCGGCACAGTTGACGCGACACTCCTCTGGATTTCCCTTCTTCACGACGCCTGGAAATGGGGCATGCCCGAGGAGGAAGTCAAGGACCTGATGAGCAACCTTGAAGAAGCACTGCTCTGGCTCCGGGACTGGGCGGACCCGGACGGCGACGGCTTCCTTGAGTACATCGACGAGACAGGATTCGGCCTGGCCAACCAGGGCTGGAAGGACTCCGCGGACTCCATCCGATGGAACGACGGCTCGCTCGCCACAGGTCCCATCGCGCTGGCAGAGGTGCAGGCTTATGCCTATCAGGCGGCTACACACGCTGCGGATCTGCTGGAGGCGTTCGGACTTAAAGGCGCTGAGGACTGGAGGGGTTATGCAGCGAACATGGCTGACAAGTTCCGCAGTGCGTTCTGGTGCAGGGACGAGATCGGGGCGTACCCGGCGATTGCACTGGATGTGGATAAGCGGCCGGTTGATGGAGTCGCCAGCAACATGGGCCACCTGCTGGGCACCGGCATTCTGAATGAGGAGGAAAGCGAGCTTGTGGCACGCCGGATCATGCACCCCACCATGTTTTCCGGTTATGGTGTCCGCACTTTGGATACGGGGAACGGAGCCTACTGGCCCCTGCGTTACCACTCCGGGTCCGTGTGGGCTCATGACACGGCTATGACCCTGGACGGCCTGACAAAAGCCGGCTTTAACGACGAAGCAGCCCTCCTGGCTGCCGGTGTCATGGACGCAGCCGAAGTCTTCGACTACCGGCTGCCCGAGCTGTTCTCCGGCCACAGCCAAGCCCAGGGCGGGCCCCAGCCTTACCCGGCGTCGTGCCGCCCCCAGGCCTGGGCCGCCGCGTCGGCAATCCCCCTGATGCTGGCAACCCTGGGCCTGACACCGCAGGGGCCCGGGCTGCTGCCCACGGTTTCCGCCAGTGTCCCCACACCCTTTGGTGCGTGCACTTTCGAGGGGCTTCAGGCCGGCGGGCTGCCCTTCGCCGTGCACGTCGACCGGCAGGGTGGTGCCACCGTTATTCCTGCATAG	MNNRQPFLHDLNVLLAAPMQVWSEHDGQLRRSGGVQGIYCADTRVIDEAVLTINGEEPEPVGSSSAQGHVVSFQALIRTLGSENPDPLVSLTRRRSILPDRVSEEIILRSDLSKDVTALVEMELGSDFSPLESVKAGGRAHPVPPVLDGGVWKAADEGVSSSISAPGAVIEPNSSQLRLRWEVRIPARGTARVGWEVQAKDSLAPFVAAQPTTASFRVRADDRRLSALAEKALGDLEGLRMSALSSPQDVFLAAGAPWFFTLFGRDSLIAARMLLPVEPSVAAGTLRTLAARQGTKYDPATAEQPGKILHEVRRGEFRMPEDASNGELRLPPVYFGTVDATLLWISLLHDAWKWGMPEEEVKDLMSNLEEALLWLRDWADPDGDGFLEYIDETGFGLANQGWKDSADSIRWNDGSLATGPIALAEVQAYAYQAATHAADLLEAFGLKGAEDWRGYAANMADKFRSAFWCRDEIGAYPAIALDVDKRPVDGVASNMGHLLGTGILNEEESELVARRIMHPTMFSGYGVRTLDTGNGAYWPLRYHSGSVWAHDTAMTLDGLTKAGFNDEAALLAAGVMDAAEVFDYRLPELFSGHSQAQGGPQPYPASCRPQAWAAASAIPLMLATLGLTPQGPGLLPTVSASVPTPFGACTFEGLQAGGLPFAVHVDRQGGATVIPA				NA	NA	NA	NA	NA
D1-29_04243	474			hypothetical protein	ATGGGAAGCGAATCAGCTCTTCAAGAAGTAACAGCCGTGGGAGGCGTGATCACGGATCAACATCCGCTCGACTTCCACACCTTGGGGCTTGCCGGCTGCATTGACCGGCTCACGGCGCCCCTCCGCCAGCAAGGTACCGCGGTCCGCTGGGACACCCCGCACTGGGGCATCGAGATCCCGGCGAACTGCGCGTCCCTGCTGTACCAGTCGGCCCGGGAAGCGTTGAGCAACTCCTTGAAGTACTCAGATGCTTCCGAGCTCACCATCCAGCTCGCCGCGGTGGACCACGGCATTCGCCTGGTAGTGGCCGACGACGGTTCGGGCTTTGACAGCAGGATCGCCATCAGCGGCAGGCACCACGGTTATGGCTTGCGGCTTATGTCAGTGGCAGTCCATGAGGCCGGAGGCAGCGTTGATATCTGCTCCAGTCCGGGACGCGGCACCTGCGTGACAGTCACCCTTCCGCTGGACTAA	MGSESALQEVTAVGGVITDQHPLDFHTLGLAGCIDRLTAPLRQQGTAVRWDTPHWGIEIPANCASLLYQSAREALSNSLKYSDASELTIQLAAVDHGIRLVVADDGSGFDSRIAISGRHHGYGLRLMSVAVHEAGGSVDICSSPGRGTCVTVTLPLD	PGPT0017175_1129	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
D1-29_04244	612			2-hydroxy-1,4-benzoquinone reductase	ATGGCAACGCACAAGATCGGATACTTTGTCGGCAGCCTGGCAACTGGCTCCATCAACCGGACCCTGTCCAAGGCCCTGATCAAACTGGCTCCGGCCGAGCTGGAGTTCACTGAGATCGCCATCAAGGACCTGCCGCTCTACAGCTACGACTACGACGCGGATTTCCCGCCCGAAGGCCGGGCCCTGAAGGAAGCCATTGAGGAATCCGACGGCATCCTCTTCGTCTCGCCCGAGTACAACCGGTCCATCCCCGGCGCCCTGAAGAATGCCATCGACTGGGGGTCCCGCCCCTGGGGAACAAACTCCTTCGCCCGCAAACCCACCGGCATCATCGGCGCGTCACCCGGCGGCATCGGCACAGCCGTGATGCAGTCCTCCATGCGCAGCGTGCTGAGCTTCCTGGACGCGCCGCAGCTTAATGCCCCGGAAGCTTACGTCAAGTTCAATGCCAACGTCTTCGGTGAGGACGGCGAGGTCAAGGACGAGTCCACAGCCAAATTCCTGAGTCACTACATGGAGGAATACTGCGCCTTTGTCCAGCGGGTCCTTGCTGCCAACGCACCTGGCCACATCGGTGACCCGGAGCCGGACAGGGAGAAGCTGTCGCGCTGA	MATHKIGYFVGSLATGSINRTLSKALIKLAPAELEFTEIAIKDLPLYSYDYDADFPPEGRALKEAIEESDGILFVSPEYNRSIPGALKNAIDWGSRPWGTNSFARKPTGIIGASPGGIGTAVMQSSMRSVLSFLDAPQLNAPEAYVKFNANVFGEDGEVKDESTAKFLSHYMEEYCAFVQRVLAANAPGHIGDPEPDREKLSR	PGPT0004195_147	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004195-chrR-K19784	NA	NA
D1-29_04245	183			hypothetical protein	ATGACTGACAAACCAGAGGCAACGGAGCGCATCCACAACGAGGCTCCGGCAGAAGGGGACCTCGACGCTGACCCCACTGATCTCCGGATGCACTCCCAGGATCCTGCCGAAGGCGCCGACTTCCCGAGCACAGACTTCTCCAAAACTGACACGGGACAGGCGGAGCCCACTTCCGGCCGTTAG	MTDKPEATERIHNEAPAEGDLDADPTDLRMHSQDPAEGADFPSTDFSKTDTGQAEPTSGR				NA	NA	NA	NA	NA
D1-29_04246	501			hypothetical protein	ATGGAGTACAGAATCCGCCAGGCCACTCCTGAGGACGCCGAGGCCGTGGTCCAGATGCATACGCTGGCCCACGAGGAGTGCTACTCGCACCTGCTTCCTTCGGACTTTTTCGCCGCCCGCCGTGCCAGCATTCCGGAGCGGATTGAACGGCGCCGCGCTTACCTTGGGGTCCGGGAGCCGCGGCTCATCGCCCTGGATCCAGGCGGTCAGGTGGTGGGGCTGGCCGACGCCGGCCCCGGCCGTGACAAGGACCAGCCGCACGCCCTGGAACTCTACTGCCTCTACACCCTGAGGCATACGCACGGCTCGGGACTCGGCCGGACGCTGCTGGAGGCCGCGGTTGGTGCGGCTCCCGCCTACCTGTGGGTGCTTGAAGACAACCCTCGCGCCCGCGCCTTCTATGGCAAGCACGGTTTTCGCCCCGACGGCGCGCACAATTTGTTGCCGCCGGACTGGTATAGGTTGCCGGAGATCCGGATGGTCAGGGATCCGGGTCAGTAG	MEYRIRQATPEDAEAVVQMHTLAHEECYSHLLPSDFFAARRASIPERIERRRAYLGVREPRLIALDPGGQVVGLADAGPGRDKDQPHALELYCLYTLRHTHGSGLGRTLLEAAVGAAPAYLWVLEDNPRARAFYGKHGFRPDGAHNLLPPDWYRLPEIRMVRDPGQ				NA	NA	NA	NA	NA
D1-29_04247	927			hypothetical protein	GTGAGCACGAAGGTGGAAAAACGCATTCTGGTGAACGTGCCGGTGAGCACGGCCTACAACCAATGGACCCAATTCGAGGACTTTCCGCACTTCATGGGCGGCGTCAAAAGCGTGACGCAACTGACTGACGACCGCCTGGAATGGGTGGCCGAGATCGGCGGCATTCGCCGGCAATGGACGGCCAAAATCCTGGAGCAGATCCCGGACCGCAAGGTGGCCTGGGCTGCCACGGAAGGGGCAACCAACGCCGGTGCCGTGGAGTTCGAAGACGTCGGCGGGGGCCAGACCTCGCTGCGGCTGACCGTTGAATACGAGCCCGAGGGCATCATCGAGAAGGTGGGTGACAAGCTCAACGTCGTGGAGCGGCAGGCCGAGGCCGACCTGAAGAGGTTCAAGGAGTTCATCGAGGACGAACGGTATGCCAGCGGCGCCTGGCGGGGCACGGTGAATGAGGGGGCCTCCGTGGGCACCCCGGGCGTTGAGGACGCGGCGGCATCCCGCGGTGATTCCGGCAAGGCGGGCGTCTCGGGCAAGATGGCGGCAGCTGCCGGGGCGGCAGCCGCGGCGGGTGCAGCGGCAGCCATGGCCAGCGGCGGCAACAAAGGCGCCACCGCAGCTGCCGACGAAACGGTAACGCCAACCGCTCCCGGGGAGCCAGCCACGGTCACGCCATTGACGACGGACACCACCACAGACACCACAACATCCGGCACGATGGCGGCAGCCGGCTCCACAGGTTCGGTGGCCGACCTGGGCGATGACAGGATCGGGCACGCCTTCGACCAGACCAATGGCCTGGTGGACATGACGGGCGAATCCGATGAGACGGTGGAGGGCGAAAACCTGAGCGCCGGCGAGCGCCGGGAGAACGAGAACAGGCCCGACGGCGGCCTTCCGCCCGTGGGAGGCGGCCTCGGCCAGCACTGA	MSTKVEKRILVNVPVSTAYNQWTQFEDFPHFMGGVKSVTQLTDDRLEWVAEIGGIRRQWTAKILEQIPDRKVAWAATEGATNAGAVEFEDVGGGQTSLRLTVEYEPEGIIEKVGDKLNVVERQAEADLKRFKEFIEDERYASGAWRGTVNEGASVGTPGVEDAAASRGDSGKAGVSGKMAAAAGAAAAAGAAAAMASGGNKGATAAADETVTPTAPGEPATVTPLTTDTTTDTTTSGTMAAAGSTGSVADLGDDRIGHAFDQTNGLVDMTGESDETVEGENLSAGERRENENRPDGGLPPVGGGLGQH				NA	NA	NA	NA	NA
D1-29_04248	789			hypothetical protein	GTGAGCACAAAAGTTGAGAAGCGGATTGTGGTGGATGTACCGGTAACTACCGCCTACAACCAGTGGACCCAGTTTGAGGACTTCCCGCACTTCATGGGCGGCGTCGAGAGCGTCACCCAACTCGGTGATGACCGCCTGAAATGGGTGGCCCGGATCGCCGGTGTGCGCCGCGAGTGGGAAGCCAGGATCCTGGAACAGGTGCCGGACCGGAAGGTAGCGTGGGCATCCACCGGCGGCGCCACCAATGCCGGCGCCGTTGAGTTCGAAGACGCTGGCGGCGGCAAGACAGCCATCGCGTTGACCCTGGACTATCAGCCCGAGGGCGTGGTGGAAAAGGTGGGCGACCTCCTCCATGTGGTGGCGCGGCAGGCCGAGATGGACCTGAAGAAGTTCAAGAAGTTCATCGAGCACGAAGGCCACGCGAGCGGCGCCTGGCGGGGAACCGTCCACGGCGGCACCGTGGGTTCGGGAGCCGACGACGCCGGTGCCGGGGCTGTCGCAGGGTTAGGGTCAAGCGCTGGCGCTGGCGCAGGCGGGACAACCGCTGCAGCCCCTGGCGGGACAACGGCGGCAGGCCCGGACGTTGCAGGCCCGGGCGGCGTGGACCAGCCGGAGCACAACCGGTTTGCCCACCCGTTTGACCAGACCAATGGCCTGGTGGACGTTGAGGGCGAGTCGGACGAAACTGCCGACGGCGAGCTCCGCAGCGCAGCCCAGCGCCGGGAGGACGAGAAGCGCGGCCGGGGCTTCATTCCACCGCCTTCGGGAGGAACAACCGGACAGTTCTGA	MSTKVEKRIVVDVPVTTAYNQWTQFEDFPHFMGGVESVTQLGDDRLKWVARIAGVRREWEARILEQVPDRKVAWASTGGATNAGAVEFEDAGGGKTAIALTLDYQPEGVVEKVGDLLHVVARQAEMDLKKFKKFIEHEGHASGAWRGTVHGGTVGSGADDAGAGAVAGLGSSAGAGAGGTTAAAPGGTTAAGPDVAGPGGVDQPEHNRFAHPFDQTNGLVDVEGESDETADGELRSAAQRREDEKRGRGFIPPPSGGTTGQF				NA	NA	NA	NA	NA
D1-29_04249	402			hypothetical protein	ATGACGCTGACGGCCGATCAGAAGCGCCAGGAATCGCAGGTGGCCTACAACGCCGGGCTGGAGCACTGTCCGGCGCGCCAACTCCTGGAAACCATCAGCAGTAAGTGGGTCACCCTGGTGCTGCTGGAGCTCGCGGAGGGGCAGTTGCGGCACAGCGAACTGAGGCGCCGGATCCCCGGGGCCAGCCAAAAAATGCTGACCTCCACCCTTCGTGCCCTCGAGCGCGACGGCCTGTTGCGACGCCACGTCACCCCGTCGGTTCCGGTGCGAACAGATTACGAACTCACACCGCTGGGGCGCTCGCTGCTGGGCCTGGTGTACGGGCTCAAGGACTGGGCCGAAACAAGCATGCCCGCGGTGGCACTGGCGCGGACGGAGCATGACCGGAACGTGCCGTCCTGA	MTLTADQKRQESQVAYNAGLEHCPARQLLETISSKWVTLVLLELAEGQLRHSELRRRIPGASQKMLTSTLRALERDGLLRRHVTPSVPVRTDYELTPLGRSLLGLVYGLKDWAETSMPAVALARTEHDRNVPS				NA	NA	NA	NA	NA
D1-29_04250	717	azoR1	COG1182	FMN-dependent NADH-azoreductase 1	ATGGACGGGCCTTCAGCCCAGCCCACTTCGAAAGGAAATCCCTTGCCCACCATCCTCCATGTCAACGCGTCCCCCCGAGGCACCAGGAGCGGCTCCCTGCAGCTGGCCCGGCATTTCATCAGGACCGTGCAGGCCTCCACCCCCGGGGACATTGATATCCAGACCCTGAACGTGTTCGATCCCGGCGCCCTGCCCGAGTTCGGCACCACCGCCGCTGCGGCCAAGATGGCGGTATTCTCGGGCCAGGAGCAGACCCAGGAGCAGCTCACCGCGTGGGAGTCAGCCCGTGCCGTCTTTGACCAGTTTGCGGCTGCCGACGCCTACGTCTTCAACATCCCGATGTGGAATGCCGGCGTCCCTTATGCCCTCAAACAGTGGATCGATCTGGTGACGCAGCCCGGCTGGAGCTTCGGCTTTGATCCGAAGGATGGCTACAGCGGCCTCCTGGAGGGGAAGCATGCCATGGCCATCCACACCAGTGGCGTGTACGCACCGGGAGTTCCGCCGGCCTTCGGCCAGGACTTCAGCAGCACCTTCTTCGCTGACTGGCTGGACTTCGTGGGGATCAGCGATGCCGTCCATGTCCGCTTCGCGCCCACTGTGCTCAACGCCAGCCCTGAGGAGACGCGCCGCCTTGCGGAAGAAGAGCTCGACGGCGCCGCGCCGGCTTTCGCTGCGAAACTCACCCCGGCGGAACTACTGGCAGCCCGTGGCTGA	MDGPSAQPTSKGNPLPTILHVNASPRGTRSGSLQLARHFIRTVQASTPGDIDIQTLNVFDPGALPEFGTTAAAAKMAVFSGQEQTQEQLTAWESARAVFDQFAAADAYVFNIPMWNAGVPYALKQWIDLVTQPGWSFGFDPKDGYSGLLEGKHAMAIHTSGVYAPGVPPAFGQDFSSTFFADWLDFVGISDAVHVRFAPTVLNASPEETRRLAEEELDGAAPAFAAKLTPAELLAARG	PGPT0006790_205	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
D1-29_04251	642			hypothetical protein	ATGACAACAATAGGAATCATCGGTGCAGGACACATTGGAAGCCAGATTGCCCGGAAGGCGGTTGAACTCGGCTATGACGTGGTTATCAGCAACTCCAGGGGACCCGAAACCCTCAGCGGCCTGGTGGCGGAACTTGGCCCCAACGCCCGCGCCGCAACGGCGGAAGAGGCAGCAGCGGCGGGCGATTACGCCGTCGTAACCGTGCCTTTGAAGAATTACCGGGACATCCCGGTGGAGCCGCTGGCGGGCAAGATCGTCATCGACACCAACAACTACTACTGGGAACGGGACGGTCGCATTCCGGCCTTGGACAGGGGTGAGGCAACAACCTCCGGGCTCCTCCAGGAACACCTGCCGGAGTCCAAGGTAGCCAAGGGCTTCAACCACATCATGGCCTCGGAGATCACCACCGACGGCACCCCCGCCGGCACGCCGAACCGCCGGGCGCTGGCCACGGCCAGCGACTACCCGGAGGCGGCTGAACTGGTCACCCGGCTGTACGACGAGTTCGGCTTCGACACCGTCAACATCGGGCTGCTGTCCGAGAGCTGGCGGGTGGAGCGGGACCGGCCGGCATATGTCATCCGTCAGGACGAAGCCGAACTCAAGGAAAACCTCGCCAACGCAACCCGCACCATCTGA	MTTIGIIGAGHIGSQIARKAVELGYDVVISNSRGPETLSGLVAELGPNARAATAEEAAAAGDYAVVTVPLKNYRDIPVEPLAGKIVIDTNNYYWERDGRIPALDRGEATTSGLLQEHLPESKVAKGFNHIMASEITTDGTPAGTPNRRALATASDYPEAAELVTRLYDEFGFDTVNIGLLSESWRVERDRPAYVIRQDEAELKENLANATRTI				NA	NA	NA	NA	NA
D1-29_04252	1200	afr		1,5-anhydro-D-fructose reductase	ATGAGCCGCCCCTCCGCCACCATCGACGACGACGGCACGCCTCTGAAAGTGGTGGTGGTGGGCGCCGGTGCCATGGGCCGCGCCTGGCTCGGTGCCGTGGAAGCCTCGCCGCTGGTGGAACTCCGCGGCATCGTGGACCTTGACCTGGACGCGGCGCGCGCCAGCGCCGCTGCGATCGGAAAGCCGGACCTGCCGGTGGGGACGGGAACCGCGCAGCTGGCGTCCGACGTCGGCGCCCAGGCTGTTGTCAACGTCACCGTTCCGGCTGCCCACCATCCGGTGACCACCGAAGCCCTTTTTGCCGGGCTGCCCGTGCTGGGGGAGAAGCCCGTGGCTTCCACGGTGGCCCAGGGGCTGAGCCTTGCGGCAGCTGCCGAAGCCACCGGCCAGTTGTTCATGGTGAGCCAATCCCGCCGGTACAACCGCAACCTCTTTGCAGCCAAGGCTATGGCCGGCGGGGTGGGGCGGCTGGGGATCGTCTCCGCTGACTTCTTCAAAGCCCCCCGTTTCGGTGGGTTCCGCGACCAGATGGACCACCCGCTGCTGCTGGATATGGCCATCCACCAGTTCGATATGGCCCGTTTCCTCCTGGACGGTGATCCTGTCTCCGTTTTCTGCGAGGAGTACAACCCGCCGTGGAGCTGGTACCGCGGCGACGCCGCGGCCGTGGCGTCCTTCGAGATGTCCGGCGGCCAGCGGTTCGTCTTCAACGGAAGCTGGTGCAGCCCGGGGCTGGAAACGTCATGGAACGCAGCCTGGCGGCTGGGCGGCGAACACGGGACCGTGCTGTGGGACGGCGAAAACCAGCCGACGGCGGAGACCTCGCTCATGGCGGAGGCTTCCGGCCCGGAGAGCACCGGCTTTGCCCCGAACGGCGGGACTTTTGCATTCAGCAGCGTGGCGGACCCGGGTACCGAGGTCCACGGTTCCCTCCGGGAATTCGCCACCGCCCTCCGGACGGGAGCGGCACCCATGGGCCAGGTACACGACAACATCCTCAGCCTGGCCATGGTGGAAGCCGCGATTGAGAGCGCCGCCACCGGCCGGCGCATCAGTATCGACGCTCTGCTCCAGCGCTCCTACCGCCAGGCGGTCCTGGACGAGAAACGGCCCGACGTCGCGGATGTCCTTCTGTCCTGGGCCACCGCGGGCGCCTTTTCCGCGGCTGACCTCGGTCCGTCACATCAACCGATCCACTGA	MSRPSATIDDDGTPLKVVVVGAGAMGRAWLGAVEASPLVELRGIVDLDLDAARASAAAIGKPDLPVGTGTAQLASDVGAQAVVNVTVPAAHHPVTTEALFAGLPVLGEKPVASTVAQGLSLAAAAEATGQLFMVSQSRRYNRNLFAAKAMAGGVGRLGIVSADFFKAPRFGGFRDQMDHPLLLDMAIHQFDMARFLLDGDPVSVFCEEYNPPWSWYRGDAAAVASFEMSGGQRFVFNGSWCSPGLETSWNAAWRLGGEHGTVLWDGENQPTAETSLMAEASGPESTGFAPNGGTFAFSSVADPGTEVHGSLREFATALRTGAAPMGQVHDNILSLAMVEAAIESAATGRRISIDALLQRSYRQAVLDEKRPDVADVLLSWATAGAFSAADLGPSHQPIH				NA	NA	NA	NA	NA
D1-29_04253	795			hypothetical protein	ATGACTGATACTGCCCCGATCCGGGTCACCGTCTGGAACGAAAACCGGCACGAACAGGAACACGAGCAGGTGGCAAAGCTCTACCCCCAGGGCATTCACGGCGCCGTGAAGGAGGGCATCGAGGAGAACCTGGGTGCCGCCGTCGTGGTCCGCACCGCCACCCTTGACGAACCGGAACACGGCCTCACCGAGGAAGTCCTGGCCAATACGGACGTCCTGACCTGGTGGGGTCATATGGCCCATGGTGCCGTCGACGACGAAATTGTCGAACGGGTCCACCGCCACGTCCTGTCCGGCATGGGCCTGATCGTGCTTCACTCCGGCCACTGGTCCAAGATCTTCACCAAGCTCATGGGCACCACCTGCACGTTGCGGTGGCGCAGCGAGCAGGACCGCGAACTGGTCTGGACCGTGGACCCCACGCACCCGATTGCCAAGGGAGTCCCGCATCCGATCATCATCGACGAGCAGGAAATGTACGGCGAGTTCTTCGACATCCCCGCGCCGGAGGAACTGGTTTTCATCAGCTCGTTCAGCGGCGGCGAAGTGTTCCGGTCAGGCTGCACCTTCCGCCGCGGCCACGGCAAGATCTTCTACTTCAGCCCCGGGGACCAGGACTATCCCGTGTACCACCACAAGGACATCCGCCGGGTCATCTCCAACGGCGTCCAGTGGGCCGCCACGGACCGGGACCGGCGAGAGCTGCCGGAACTGTTGCGCTACGACACCAACGAGTTCTTCAAGGGCGCCGGGTACCAGGGCGCTACAGCCATTTACGAGGACAGCGACGCATGA	MTDTAPIRVTVWNENRHEQEHEQVAKLYPQGIHGAVKEGIEENLGAAVVVRTATLDEPEHGLTEEVLANTDVLTWWGHMAHGAVDDEIVERVHRHVLSGMGLIVLHSGHWSKIFTKLMGTTCTLRWRSEQDRELVWTVDPTHPIAKGVPHPIIIDEQEMYGEFFDIPAPEELVFISSFSGGEVFRSGCTFRRGHGKIFYFSPGDQDYPVYHHKDIRRVISNGVQWAATDRDRRELPELLRYDTNEFFKGAGYQGATAIYEDSDA				NA	NA	NA	NA	NA
D1-29_04254	891	dasC_7	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGACCATTAAATTGACCTCAAAGGATGCCGGCGCCGGCACAACCCGCCGGCTGCGCAGCACGGCAGGCCACGCCGGCCAGTCCGGAGGATTCCGGCGGTGGGGGAACACGGCCCTGGCGCTACTGTTCCTCGCCATCATGCTTTTCCCCGTCTATTGGATGATCAACGCATCCCTGCAGCCCAATGGGGCCACGCTGCAGACCTCATGGCTCCCGTTGTCGCCCGATTTCAGCGGCTACGCCACGGCCATCAGGGAACAGGGCCGGAACCTGGCAACCAGCCTGGTGGTGGCGCTGGGCAGTGTCCTGTTCAGCCTGGCCATTGCCGCGCCGGCGTCTTATGCCTTGGCCTACTTCAAGGTCCGCGGCGCCGGCGTTGTGCTTTTTGCCATCCTGATCAGCCAGATGATCCCTGGCATCGTGGTGGCCAATGCCCTTTACACGGCGTACAACGACCTCGGGCTGCTGAACTCCATCCCCGGACTCATCCTGGCCGATTCCTCCCACGGCATCCCCTTTGCCATCCTCATCATGCGGGCGTTCATGAACAACATGCCCGCCTCCGTGATCGAGGCTGCCAAGGTGGACGGAGCGGGGCACCTCCGGGCCTTTTGGTCCATTGTGCTTCCGCTGAGCCGCAACGCGCTGATCACGGCCGGGCTCTTCACGTTCCTGTTCACCTGGAGTGATTTCCTCTTTGCCCTCACCCTGACCACCACCGATGCCGTCCGTCCTGTCACTCTGGGCATCTTCCAGTACATGGGTGCGTACGTGAACGACTGGAGCTCGGTCATGGCCACGGCGGTCCTCGCCTCCATCCCCGCCATCATCCTGCTCATCGCGGCGCAGAAGTACGTGGCTGCCGGAACCACCGGCGGCGCGGTGAAGTAG	MTIKLTSKDAGAGTTRRLRSTAGHAGQSGGFRRWGNTALALLFLAIMLFPVYWMINASLQPNGATLQTSWLPLSPDFSGYATAIREQGRNLATSLVVALGSVLFSLAIAAPASYALAYFKVRGAGVVLFAILISQMIPGIVVANALYTAYNDLGLLNSIPGLILADSSHGIPFAILIMRAFMNNMPASVIEAAKVDGAGHLRAFWSIVLPLSRNALITAGLFTFLFTWSDFLFALTLTTTDAVRPVTLGIFQYMGAYVNDWSSVMATAVLASIPAIILLIAAQKYVAAGTTGGAVK	PGPT0016540_2632	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
D1-29_04255	963	dasB	COG1175	Diacetylchitobiose uptake system permease protein DasB	ATGTCAACAACCGTCGAACAGGTGCGGCACCGCCCGGTGCAGGCACTCCCGGGTCCCGCCGGTGCCCGCCGCCAGGGATACCGGCGCCGGGAGCGGGTCTACCAGTGGCTGTTCCTCCTGCCTGCCGTCGCCTATCTCGTGCTGTTCTTTGGCTACCCGGTGGTGAAGAACGTCCTGATGAGCTTCCAGGACTACTCCACCAGCACTTTCTACACCGGGGAAGCCCCATGGGTGGGGTTCGCCAATTACGCAAGTGTTCTGTCGTCGTCGCTCTTTTCCACGTCGTTGATCAACACTGCCCTGTTTACTGCCGGTTCCATTGCCGGACAGTTCGTGCTGGGGCTGGGCCTCGCGGTGTTCTTCAAGCGGCGGTTCCCGCTCAACGGCATTCTCCGCTCGCTGCTGCTTCTGCCTTGGCTGCTGCCGCTCATCGTGTCCAGTGCCGTGTGGCGCTGGATCCTGGACAAAGACAGCGGGGCCCTGAACAACTTCCTGGAAAGCCTTGGCCTCATCAGCACCGGCATTCCCTGGCTCACCAGCACCTCGCTGGCCCTGGCCGCCGTTGTCGGAGTCAACATCTGGATCGGCATTCCCTTCAACGTCACCGTTCTCTACGGCGGGCTGCAGGACATCCCGGATGAACTGTATGAGGCGGCTTCGCTGGATGGTGCCACCGGATGGCGGGCCTTCCGCCACGTGACGTGGCCGATGCTCCGCCCGGTGGTCAGTGTGGTCCTGGTGCTGGGAGTGGTCTACACCCTCAAGGTCCTGGACATCATCCTGGGCCTGACCAACGGCGGGCCCGCCAACTCCACGCAGACCATCGCCACCCAGTCCTACGCCCTGTCCTTCCAGGACTTCAAGTTCGGCGAAGGCGCGGCCATGGGCAACGTCCTGGTGCTGATCTCCCTGGTATTCGCAGTTCTGTACCTGCGCGTTAACCGTCGCGCCGTTGACGAGTGA	MSTTVEQVRHRPVQALPGPAGARRQGYRRRERVYQWLFLLPAVAYLVLFFGYPVVKNVLMSFQDYSTSTFYTGEAPWVGFANYASVLSSSLFSTSLINTALFTAGSIAGQFVLGLGLAVFFKRRFPLNGILRSLLLLPWLLPLIVSSAVWRWILDKDSGALNNFLESLGLISTGIPWLTSTSLALAAVVGVNIWIGIPFNVTVLYGGLQDIPDELYEAASLDGATGWRAFRHVTWPMLRPVVSVVLVLGVVYTLKVLDIILGLTNGGPANSTQTIATQSYALSFQDFKFGEGAAMGNVLVLISLVFAVLYLRVNRRAVDE	PGPT0016535_850	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
D1-29_04256	1236	malX	COG2182	Maltose/maltodextrin-binding protein	ATGAAGTCAGCTTTCGTCAGCACCAAAGCCGCCGCTCTCGCCGTCACGGCACTCGCAGGGTTACCACTGGTTCTCGCCGGCTGTGGCGCAAGCCCAGCGCCGGGCGGCGGCGGAGCCGTGACGGAAATTACCGTTGTGGACTACTACAACAACGAGCCGGACAAGTCGGTCATCGGCAACACGCTGGAGACTTGTGGTTCCCAGGCCGGCGTGAGCATCAAGCGCGAAACCATACCGGGCAAGTCCCTCATCGCCAAGGTGCTGCAGCAGGCATCCTCAAAGACCCTTCCTGACGTCCTGATGCTGGACAACCCCGACCTTCAGCAGATTGCCGGCACCGGCGCCCTGGCACCGCTGAGCGATTTCAAGATCAGCACCGATGGCTATCCAGAGGGAATCCTCAGCGCCGGAACGTACAAGGACGAGGTGTACGGCCTGGCCCCCACGGTGAACACCATCGCCCTCTTCTACAACAAGGACGTACTGGCCCAGGCCGGAGTGACCCCGCCCAAGACCTGGGAGGAGCTTAAGGCAGCGGCAGCAAAGCTCACCTCCGGTGACCAGTACGGACTCGCTTTCAACGCCAACGCGACCTACGAGGGCACCTGGCAGTTCCTTCCCTTTATGTGGTCCAACGGCGGCGACGAGAAAAACATTGCCACCTCCGAAACCGCCGAGGCACTCCAGCTCTGGACCGATCTGGTGGATAGCGGATCGGTGTCCTCATCTGCGTTGAACTGGACCCAGGCGGACGTTAACGACCAGTTCGTTGCGGGGAAGGCCGCCATGATGGTCAACGGCCCCTGGCAGATCCCGGTGCTGGACAAGCAGGCTGCACTCCAGTACGGCGTGGTTGACATCCCGGTCAAGGATTCCAGCAAGACGGCGGTTGGCCCGCTGGGCGGCGAAGTTTGGACCGTGCCGCAGACCGGCAACAAGGACAGGCAGGCAAAGGCCGCCGAAGTCGTGGCGTGCATGAACAGCGATGAAAACCAGCTGGCCATGGCCAAGGCACGCAACACCATTCCTTCCAAGACCGCGGTTGCTGCACAGTTCGCGGCCGAGAACCCGAAGCTGGCTTCATTTGCCGAACTGGTCAAGGACGCGCGGGCCAGGACCGGCCAGCTCGGAGAGGAGTGGCCCGCCCAGGCCACCAAGATCTACACCGCAATCCAGGCAGCACTGACTGACAAGGCCAGCCCCGCGGACGCCCTCAAGCAAGCCCAGGAAGGTTAA	MKSAFVSTKAAALAVTALAGLPLVLAGCGASPAPGGGGAVTEITVVDYYNNEPDKSVIGNTLETCGSQAGVSIKRETIPGKSLIAKVLQQASSKTLPDVLMLDNPDLQQIAGTGALAPLSDFKISTDGYPEGILSAGTYKDEVYGLAPTVNTIALFYNKDVLAQAGVTPPKTWEELKAAAAKLTSGDQYGLAFNANATYEGTWQFLPFMWSNGGDEKNIATSETAEALQLWTDLVDSGSVSSSALNWTQADVNDQFVAGKAAMMVNGPWQIPVLDKQAALQYGVVDIPVKDSSKTAVGPLGGEVWTVPQTGNKDRQAKAAEVVACMNSDENQLAMAKARNTIPSKTAVAAQFAAENPKLASFAELVKDARARTGQLGEEWPAQATKIYTAIQAALTDKASPADALKQAQEG	PGPT0016545_10280	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
D1-29_04257	1011	ccpA_12	COG1609	Catabolite control protein A	GTGGCGGGCGTTTCCCAGAGCACTGTCTCCTACGTCATGAGCGGTAAGCGGCCCATCTCGGAAAAGACCCGGCTGAGGGTGGAGGCCGCCATTGAGCAGCTGACGTACAGGCCGAACGCGGGGGCCCGGGCGCTGGCCAGCCGAAAGTCCCAAGTGATCGGCCTGGTTATTCCCCTCACGCCGGAGTCTCAGTTCGGATCCCTGATGGAGTTCATCGCGGTGATCGCGGCCACGGCCCGGCGCCACGATCACGACGTCCTGCTGGTGACGGATGAGGAGGGCAACCAGGGCTTGGAGCGGGTGGTGGGGCAGCAGCTCTGTGACGGGCTGATCCTGATGCAGGTCCACGCCGAAGACGAACGGATTCCCGTGGTCCGGAAACTGCGGGTACCGGTGGTGTTCATCGGCATCCCGAATGACTCCACCGGCCTCAACTGCATCGATGCGGACTTCGCCAGGGCGGGCGAACTCTGCGTCGAGGAGTTGTCACAGGCGGGACACACCAGCGGAGTCATTATCGGTTGGCGCACTCAGCTGGCCGGAAGCAAGCTGAACTACGTGGACAGATTCCTGGGGGGCGCGAAAGAGGCCGCCCAGAGGCTGGGCGTGACACTTGACCATCTTCCGGCCCGCACTGACCGCAGAAGTATCGAAGCCGCCGTTGATGCCTGCGTTGCCGGCACTGACGGAAGGCCAGCGTTCATCTCCCCGGACACCACCACCTTGGAACTCCTTCCCCGGATCCTTCGTGAAAGGGGGCTGGAACCAGGCAGCGACGCATCGGTCGTCGGGGTCGGCGCGGTTTCCGAGGCCATGGCTGAACTCCAGGAATTCACCATCCTGGACCTCCAGCCAAGGCTGGTTTCCCAGCGCGCCGTTGAAATCCTTTTCAACCTCATGAATGCAGAGAGCCCTGACGCTGGGGGAACACTCGAACTCATACCACCGGTGATAACCCACCGGCATGGCACCGCAGGGCTCGTGGCTCCTGCACCCCAGTCCACCTCCTAG	MAGVSQSTVSYVMSGKRPISEKTRLRVEAAIEQLTYRPNAGARALASRKSQVIGLVIPLTPESQFGSLMEFIAVIAATARRHDHDVLLVTDEEGNQGLERVVGQQLCDGLILMQVHAEDERIPVVRKLRVPVVFIGIPNDSTGLNCIDADFARAGELCVEELSQAGHTSGVIIGWRTQLAGSKLNYVDRFLGGAKEAAQRLGVTLDHLPARTDRRSIEAAVDACVAGTDGRPAFISPDTTTLELLPRILRERGLEPGSDASVVGVGAVSEAMAELQEFTILDLQPRLVSQRAVEILFNLMNAESPDAGGTLELIPPVITHRHGTAGLVAPAPQSTS				NA	NA	NA	NA	NA
D1-29_04258	2037	iolG_14		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAAGGAGTTTGTCGCGGGGTCCATCAGGTGGGGAATCCTCGGGCCGGGACATATTGCCCGGCGGTTCGCAAAGCAACTTCCGTCCAGCCAGACGGGGGAGCTCGTAGCAGTCGGCAGTTCCGACCGGACCCGGGCGAAGGCCTTCGCGGTGGAAGCCGGTGTCCCGCACGCTATCACCGGCACGTACGCAGAGGTGCTGGCCAGCCCGGACGTTGACGCTGTCTACGTGTCAACCGTGAACACCAGTCACGCGCAGCTCGTACTGGCCGCGGTGCGCGCAGGCAAGCATGTCCTGTGCGAGAAGCCGCTCGCGCCGAATCATGGAAGCGTTATGGCTGTTGTCGACGCCGCGCGCACCGCAGGCGTCATCCTCATCGAGGCCTACATGTACCGGTTCCATCCGCAGACGGTGAAGCTCCTCGAGCTCATCCGTAACGGAGCCATCGGGCAGGTCCAGCACATCGATGCCAGTTTCTGCTTTGACGTGCCTGAAAAGAAGGGCCGGTTGTTCGACCCGAACCTTGCCGGCGGCGGCATTCTCGATGTCGGTGGCTATCCGGTGACGATGGCACGTGCCGTGGCAGGCGCAGCTTCCGGGCAACCCTTCGTTGAACCCCTCGATGTGCGCGGGGCCGGACACGTCGGCAGCACAGGCGTGGACGAATGGGCGGTTGCACACCTGACCTTCCCTTCGAAGCTCACGGCAACACTGCGTGCGGGGATCCGCATCGAGAACCCCGAAGAGGTGACAATCTCCGGTTCAGAGGGCACCCTGTTCCTTTCTGATCCCTGGACCATTCACGACCGGCAGGAGCTGGTACTCCGGCGTGTGGGGGAGCAGCCGCAGAAGTTCACCTTCGCTTCGGACAGCCCTGCCAACCGGCCGTACGCCCTGGAGGCCGACGCCCTCGCACAGGCGGTGGCCACCGGCCAGGAGCCCGTTGAGATGTCCCTTGACGACACGCTGGGAACCTCGGCTGTGCTGGAGCGCTGGCGGGACCAGGTGGGTGTGCGGTTCCCGTTCGAAATCGATGAGGCCAACGTTCCTACCGTCTCTGGCCTGCCACTGGCTGTCATGCCCGATACACCCATGCGCTATGCGCAGATTCCCGGGTTGGGCAAATCCGTCTCCAGGCTTGTTATGGGCTGTGACAACCAGCCGAACCTGGCGCATGCATCGTCGCTCTTTGACGCGTTCTGGTCCGCCGGCGGCAACACCTTCGACACGGCGTGGCTGTACGGCACCAACGGTGAACACGAAAAGCGGTTCGGAAAGTGGCTCGCGAACCGCGGGGTCCGCGAGGATGCGGTGGTCATTGTGAAAGGAGCCCACACGCCGCACTGTGATCCTGATTCCCTGTCCCGGCAACTGCTGGAATCCCTGGACCGGCAGGGACTTGAGTATGCCGACGTGTACCTCATGCACCGCGACAATCCTGACATCCCGGTTGGTGAGTTTGTTGATGTGCTGGACGAGCATGCCGCTGCGGGGCGTATTACGGCCTTTGGCGGTTCGAACTGGTCGTTGGAGCGGTTTGATGAAGCCAATGCTTGGGCGGCCGCGAATGGCAAACGGCCCCTCACCGTCCTGAGCAACTACTTCGGCCTGGCGGAAGCCTACGATGTGCCCTGGACCGGATGCCGGACTGCTACCGACCCGGAGTCCAAACGTTGGCTCACGGAACACAATGTGGCGCTCCTGCCCTGGTCTTCACAGGCACGCGGGTTTTTCGCGCGCGCAAATGCTGACGACCTCAGTGACGCTGATCTGGTGCGTTGTTTCTATGGCGATGCAAACTTTGAGCGGAAGCGCCGGGCTGAACAGTTGGCAACAGAATTCGGAGTGCCGGCTACAGCTGTGGCGCTGGCCTACGTGCTGGCCCAGCAATTCCCAACCTTTGCCTTGGTGGGGCCACGGTCAATTGCTGAGTATCGCGGCACGATGACGGGTCTTGGCATCGAACTGACTGACGAGCAGTCCTCGTGGCTGGACCTGCGCAACGGCCAGAAGGGCTTTCCAGCACTCCGCGAATGA	MKEFVAGSIRWGILGPGHIARRFAKQLPSSQTGELVAVGSSDRTRAKAFAVEAGVPHAITGTYAEVLASPDVDAVYVSTVNTSHAQLVLAAVRAGKHVLCEKPLAPNHGSVMAVVDAARTAGVILIEAYMYRFHPQTVKLLELIRNGAIGQVQHIDASFCFDVPEKKGRLFDPNLAGGGILDVGGYPVTMARAVAGAASGQPFVEPLDVRGAGHVGSTGVDEWAVAHLTFPSKLTATLRAGIRIENPEEVTISGSEGTLFLSDPWTIHDRQELVLRRVGEQPQKFTFASDSPANRPYALEADALAQAVATGQEPVEMSLDDTLGTSAVLERWRDQVGVRFPFEIDEANVPTVSGLPLAVMPDTPMRYAQIPGLGKSVSRLVMGCDNQPNLAHASSLFDAFWSAGGNTFDTAWLYGTNGEHEKRFGKWLANRGVREDAVVIVKGAHTPHCDPDSLSRQLLESLDRQGLEYADVYLMHRDNPDIPVGEFVDVLDEHAAAGRITAFGGSNWSLERFDEANAWAAANGKRPLTVLSNYFGLAEAYDVPWTGCRTATDPESKRWLTEHNVALLPWSSQARGFFARANADDLSDADLVRCFYGDANFERKRRAEQLATEFGVPATAVALAYVLAQQFPTFALVGPRSIAEYRGTMTGLGIELTDEQSSWLDLRNGQKGFPALRE				NA	NA	NA	NA	NA
D1-29_04259	2199	yicI	COG1501	Alpha-xylosidase	ATGAAATTCACGGACGGCTACTGGCTGTACCGCAAGGGCCTGTCTGCCCTGCATCCGCGGGACGTGGTGGATGTGGAAGCATCGGAGGACAAACTGACGGTCTTCGCGCCCACCAAGAGGATCGCGGACCGCGGCGATGCATTGAACTGCCCCCAGCTGACCATCACCTTCGAATCACCCCTTCCCGATGTCATTGGCGTGACCATTGAACACTTCCAGGGCGGCGTGGACGTTGGCCCGCACTTCGAACTGAAGGAAGGCACCGCGGACGTCAGCATCGGGAACGACGGCGGGACGGCCACGTTCACCTCCGGCGGCCTTACCGCACGCGTCAGCACAGGGGGCGACTGGAACGTTGACTTCGTGGGTGACGGCCGTCTGCTGACCAGCTCCGTGCCCCGCAGCATCGGCGTGATCACGGACCAGGACGGGAAGCACTTTGTCCATGAACAGCTGACGCTCGGCGTGGGCACCAACGTCTACGGCCTGGGCGAACGGTTCGGACCGCTGGTCAAGAACGGCCAGTCGATCGACATCTGGAATGAGGACGGCGGCACGTCCAGTGAGCTCGCCTACAAGAACGTGCCGTTCTTCATCACCAACGCCGGCTACGGCGTTTTCGTGAACCACCCGGCGCGCGTGTCCTACGAAATAGGCTCCGAAGTGGTGTCCCGTACGCAGTTCAGCGTGGAGGGGCAGAAGCTCCAGTATTTTGTGATCCACGGACCAACGCCCAAGGAGATTCTGCGCCGTTACACCGAGCTGACCGGGAGGCCCTCACGCATCCCGGCCTGGTCCTACGGGCTGTGGCTCTCCACGTCGTTCACCACGGATTACGACGAAAAGACGGTGATGTCCTTCATTGACGGGATGGCAGAGCGCCGGCTTCCGCTGTCCGTATTCCACTTCGACTGCCACTGGATGCGTGCCTTCCACTGGAGCGACTTCATCTGGGATCCTGCCACCTTCCCTGACCCGGAGGGCATGCTCCGCCGGCTCCACGAGCGGGGACTCAAGGTCTGCGTGTGGATCAACCCCTACATAGCGCAGCGCTCGTACCTGTTCCGTGAAGGCGCCGAGCTGGGTTACCTGGTGAAAAAGGCGGATGGCTCGGTCTGGCAATGGGACATGTGGCAGGCCGGCATGGGCCTGGTGGATTTCACCAATCCGGACGCTGTCACGTGGTACCAGGACAAGCTGCGCACCCTGCTGAACCAGGGCGTGGATTCCTTCAAGACGGACTTCGGCGAGCGCATTCCCACCGATGTGGCATGGCATGACGGCTCGGATCCCCAGCGGATGCACAACTACTATGCCCAGCTCTACAACCGGACGGTTTTTGACCTGCTGACCAAGGAGCTGGGCGAAGGCCAGGCCGTGCTGTTCGCCCGCTCGGCCACCGCGGGCGGACAGCAGCTGCCCGTCCACTGGGGCGGGGACTGCGAGTCCACCTTCTCCGCGATGTCCGAATCCCTCCGCGGTGGCCTGTCCATCGCGTCCTCGGGATTCGCGTTCTGGAGCCATGACATCGGCGGGTTCGAAGGCACCCCCGACCCTGAGCTCTTCAAACGGTGGATCGCCTTCGGGCTGCTGTCGTCGCACTCTCGGCTGCACGGTTCAGCCTCCTACCGGGTGCCCTGGCTGGTGGACGACGAATCCAGCGACGTCCTGCGCCACTTCACCGGGCTCAAGATGAAGCTGATGCCCTACCTGCTGGGCGCCGCGGAGGAAGCCCACCAGACGGGGACGCCACTGATGCGCCCCATGTTCCTGGAGTTCCCGGACGATCCGGCGTGCGCCCACCTCGACAGGCAGTACATGCTGGGGTCTGAGCTGCTCGTGGCGCCGGTCATGGGGAGTGGCGGCTCAGTGGACTTCTATTTGCCGGAGGGCACCTGGACGCATCTGGAAAGCGGCGAGCAGCTGTCCGGACAGCGCTGGCACAGCAAGGCCTTCTCGGTGATGGAGGCTGCAGTTTACGTCCGCCAGGGTGCGGTCCTGCCGCTCGGAACTGTCAGCGACAGGCCTGAATATGACTGGGCCAATGAGGTGGAATTCAAGGCCTTCGCCGCCGTCGACGGCCATCACAGGACGGTCACCGTTCCGAAGGCCGACGGCGGTTTTGCCCGGTTTGAGGTGACGGTGGAAAGCGGCCGGGCGGTGGCGCAGGTCCTGGCCGACACCGGCACCAAGCACTAG	MKFTDGYWLYRKGLSALHPRDVVDVEASEDKLTVFAPTKRIADRGDALNCPQLTITFESPLPDVIGVTIEHFQGGVDVGPHFELKEGTADVSIGNDGGTATFTSGGLTARVSTGGDWNVDFVGDGRLLTSSVPRSIGVITDQDGKHFVHEQLTLGVGTNVYGLGERFGPLVKNGQSIDIWNEDGGTSSELAYKNVPFFITNAGYGVFVNHPARVSYEIGSEVVSRTQFSVEGQKLQYFVIHGPTPKEILRRYTELTGRPSRIPAWSYGLWLSTSFTTDYDEKTVMSFIDGMAERRLPLSVFHFDCHWMRAFHWSDFIWDPATFPDPEGMLRRLHERGLKVCVWINPYIAQRSYLFREGAELGYLVKKADGSVWQWDMWQAGMGLVDFTNPDAVTWYQDKLRTLLNQGVDSFKTDFGERIPTDVAWHDGSDPQRMHNYYAQLYNRTVFDLLTKELGEGQAVLFARSATAGGQQLPVHWGGDCESTFSAMSESLRGGLSIASSGFAFWSHDIGGFEGTPDPELFKRWIAFGLLSSHSRLHGSASYRVPWLVDDESSDVLRHFTGLKMKLMPYLLGAAEEAHQTGTPLMRPMFLEFPDDPACAHLDRQYMLGSELLVAPVMGSGGSVDFYLPEGTWTHLESGEQLSGQRWHSKAFSVMEAAVYVRQGAVLPLGTVSDRPEYDWANEVEFKAFAAVDGHHRTVTVPKADGGFARFEVTVESGRAVAQVLADTGTKH	PGPT0019340_980	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0019340-xylS|yicI-K01811	NA	NA
D1-29_04260	2061	bgaB_2		Beta-galactosidase bgaB	ATGATCAACTTTGACCTTTCTCCCACTTCCACCCCTCAGGGCCGCTTGGGCTCCCTGACGGAGACGTTGGGACTCATCCACGGCGCGGACTACAACCCCGAGCAGTGGCCGGCGGAAAGCTGGCCGGAGGATATCCGGCTGATGCAGCAAGCCGGAATCAACTTGGCCACCGTCGGGGTGTTCAGTTGGGCACTGCTTGAACCCAGGGAAGGGGCCCGCAACTTCGGCTGGCTGGACGAGATCCTGGACCTCTTGCACAACGGGGGCATACGGGTCTGCCTGGCTACCCCCACTGCATCACCACCGCCCTGGTTGGGCCACGATTACCCCGAGACGCTTCCTGTTGACGCGGACGGCCGCACCCTTTGGTACGGCTCACGCAACCAGTTCAGCCCGTCGTCTGCCAAATACCGTCGTGCCGCGGCTGCCATTACGGAATCGTTGGCCAAAAGGTATGCGGGCCACCCGGCGGTTGCCATGTGGCACGTGGGCAACGAGCTGGGCCAGATCAGCTACGACGACGAAAGCGCGCTGGCGTTCCGCGCCTGGCTGATGCGGCGTTACGGATCGTTGGAGGAGCTGAACAGCGCTTGGGGCACCACGTTCTGGAGCCAGCGGTATGGCAGCTGGGACCAGATCATGCCGCCGCGCCGGGCGCCTTACCTGATCAATCCCAGCCAAACCCTGGACTTCCAGCGCTTCACCTCCGACCAGCTGTTGTCCCTGTATACCGCCGAACGGGACATCATCCGCCGCCACGACCCCACGAGCCCTGTCACCACCAACCTGATGGGATTTTTCCGCGGCGCCGACTACTTCTCGTTCGCCAAGGAAACGGATGTGGTGGCCAACGACTGGTACACCGATCCGTCCGATCCAGGGTCCCACCGGCTGGGCTCGCTGACCCACGACCTGTGCCGGGGGCTCTCACGCGGTGAACCATGGCTGCTCATGGAGTCCGCAACTTCGGCGGTGAACTGGCGCGAACACAACGTGGCCAAGGAACCGGGCGAACTGCGGGTGGATGCCCTCTCTGCCATTGCCCGGGGTGCCGATGGAGTCTGCTACTTCCAGTTCCGCCAGTCCAGCTTCGGCGCCGAACGCTTCCACTCCGCCGTAGTGCCCCTGGCCGGAGAACACACACGGGTGTTCCGCGAAGTGTCGGAACTCGGAAGCGACCTGCAGTCCCTGCGGCAGCTGGCCGGCACGCCTTGCAAGGCGAGGATCGCGGTCCTTTTTGACTGGGACAGCTGGTGGGCGGCCGAATCGCCGGACACCCCCACCAGCCGGCTGGACGTCCTGAAGCAGATCCAGGCCTACTACGCGCCGCTCCTCCGGAGAGGGCTCGCCGTTGAAGTGGTCCATCCTTCCGCGGACCTGGACAGATTCGAGCTGGTCCTGGCGCCGAGCCTGTTCCTCCTCACGCAGGAGCACGCCGGCTCGCTGGTGGCGTATATGCGGGGCGGCGGACACCTGGTGGTGGGCCCGTTCAGCGCAGTAGCCGACGGAAACGGACATCTGGCACCCGGACGCTTCCCGGGAGTGCTGTCGGAACTCCTTGGTGTGGACGGCGAGGAGTGGTTGCCGCTAGCCTCCCCGCTCCGCATTGATTTTGCCAGCGCGGTACTCGCAGGACGGGCTGAGGCAGCCTGGCAGGCCACTGTCTGGGCGGAGAGCCTGGCCCTCCGGGAGGAAACCGCGCAGGCCGTTGCCCACTTTGGCGAGGGACACCTGAAAGGCAAGCCCGCCGTCGTACATAACCGCCAAGGCGAGGGAAGTGCCTGGTACGTCGGCGCGGACCTTCCCGCAGAGGCGCTGGACGTGGTCATGGCGGCAGCCCTGGATTCAGCTGGCATCGCCTCCCCGCTGGCCGCGGCGCTTCCGGAACAGGTGGAAGCAGCCAGCCGCGGCGGCCACCTGTTCCTGCTCAACCATTCGAAACTGCCGCAGACGGTTCAGCTCGGCTGGGCGTCCGTGGACCTGCTCACCGGCACCGAGCACAACCAGCACCTGACCTTGCCGCCGTTCGGGGCTCTCGTACTTAAAGAACTAGGGAAATAG	MINFDLSPTSTPQGRLGSLTETLGLIHGADYNPEQWPAESWPEDIRLMQQAGINLATVGVFSWALLEPREGARNFGWLDEILDLLHNGGIRVCLATPTASPPPWLGHDYPETLPVDADGRTLWYGSRNQFSPSSAKYRRAAAAITESLAKRYAGHPAVAMWHVGNELGQISYDDESALAFRAWLMRRYGSLEELNSAWGTTFWSQRYGSWDQIMPPRRAPYLINPSQTLDFQRFTSDQLLSLYTAERDIIRRHDPTSPVTTNLMGFFRGADYFSFAKETDVVANDWYTDPSDPGSHRLGSLTHDLCRGLSRGEPWLLMESATSAVNWREHNVAKEPGELRVDALSAIARGADGVCYFQFRQSSFGAERFHSAVVPLAGEHTRVFREVSELGSDLQSLRQLAGTPCKARIAVLFDWDSWWAAESPDTPTSRLDVLKQIQAYYAPLLRRGLAVEVVHPSADLDRFELVLAPSLFLLTQEHAGSLVAYMRGGGHLVVGPFSAVADGNGHLAPGRFPGVLSELLGVDGEEWLPLASPLRIDFASAVLAGRAEAAWQATVWAESLALREETAQAVAHFGEGHLKGKPAVVHNRQGEGSAWYVGADLPAEALDVVMAAALDSAGIASPLAAALPEQVEAASRGGHLFLLNHSKLPQTVQLGWASVDLLTGTEHNQHLTLPPFGALVLKELGK	PGPT0017815_1233	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
D1-29_04261	1002	ccpA_13	COG1609	Catabolite control protein A	GTGGCCACCATGAATGACGTCGCCAGGGCAGCCGGAGTTTCCACCAGCACGGTGTCCTACGTCTTGAGCGGCAAGCGGACTATCTCCGAGGAAACCCGCGAACAGGTCCTGGCCGCCATCCGGAAGCTGGACTACAGCCCCCATTCCGGCGCGAGGTCCCTTGCCTCCAGCAGGTCCAACGTGCTGGGCCTGATGGTTCCCCTGCGAGCGGACGTGAACGTCAGCGTGATCATGCAGTTCGTCGCCGGGGTTGTGACCACTGCCCGGGATTTCAACCAGGACGTCCTGCTCCTGACCCAGGACGACGCCGACGGCATCCACCGGGTGACCTCCCAGTCCATCGTGGACGGGCTGCTCATGATGGATATCGAAGCCCGCGATCCCCGGATCCCCCAGCTTGCGAAGCTCCGGAAGCCCGCTGTCCTGATCGGCTTTCCGGACGATCCACAGGGCCTGAGCTGCGTGGACTTCGATTTCGCCGCAGCCTCCCGCGCTGCCGTCCGCCACATGGCCGAGCTGGGCCACCGGAGTCTGGGTTTCATCGGCTCCCCGCAGGCCTCCCTGGAGCGTCACGCCACCTACGCCGACCGCGCCCGTAAAGGCTTTGAAGACGCCTGCCAGGCTGCCGGCATCACCGCTTCCCTCAGGGCCTGCGAACCCACATCCGGCGCCCTCGCAGGCGCCCTGGACGCCATGTTCTCGCGTGACGAGCCGCCTACTGCCCTGGTGGTCCACAACGAAGGACTGCTCCCCCTGCTGCGGGAAGCCCTGGCCCTGCGCGGACTGCAAATCCCCAAGGACATCTCGGTTGTTGCCATCGCTCCCGAAGACGCGGCCATGGCCTCCGCCCACCCGTGGACTGCAGTCTCCATCCCTGCCCACGACATTGGACGCGCCGCCGTCGAAATGGTCATGGACCGGCTCAACTCGGACAAGCCCGTGGAGATCCGGCTCATTGTGCCCTCCCTGGTGCAGCGCGACACCTCTGCGGCCCCAAGCTAG	MATMNDVARAAGVSTSTVSYVLSGKRTISEETREQVLAAIRKLDYSPHSGARSLASSRSNVLGLMVPLRADVNVSVIMQFVAGVVTTARDFNQDVLLLTQDDADGIHRVTSQSIVDGLLMMDIEARDPRIPQLAKLRKPAVLIGFPDDPQGLSCVDFDFAAASRAAVRHMAELGHRSLGFIGSPQASLERHATYADRARKGFEDACQAAGITASLRACEPTSGALAGALDAMFSRDEPPTALVVHNEGLLPLLREALALRGLQIPKDISVVAIAPEDAAMASAHPWTAVSIPAHDIGRAAVEMVMDRLNSDKPVEIRLIVPSLVQRDTSAAPS	PGPT0014791_330	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA	NA	NA
D1-29_04262	954	araQ_15	COG0395	L-arabinose transport system permease protein AraQ	ATGAGCACCATCAGCAAACAGCCAACAGAATCATTCGCCCTGCCCAAGCCATCAGCCCTGCGCCGCAGGAATCCGTCCAGGCCCGTCTGGGAGGAAGAGCCGGGCCCGGTTGCCAAGATCGGCAAGGCGGCCGTGCTCACCATGGTGGTGCTGGCCGTCCTGGGACCGCTTTACGCAATCGTGCTGACCAGCCTGTCCTCCCAGGCCACCATCACCGCGGCCGGCGGGATGGTCATCATTCCCGGCGAAATCAGCATTGACGCCTATCGCCAGATCATCAGCGGCGGCGTGGTCACCCGGGCCGTGCTGGTGAGCGTGGGCGTGACTGCGGTGGGAACCGTGCTCAGCATGGTGGTGTCGGTCCTGTGTGCCTACGGGCTCTCACGGCCGGGCTCCTTCGCCCATACGCCGCTGCTGTTCACCCTGCTGCTGACCATGTTCTTCAGCGCCGGCATGATTCCGGCCTTCCTGCTGGTGTCCGGACTGGGCCTGATCAACACCTACTGGGCGCTGATCCTTCCCGGGGCCATTTCGGTCTTCAACATCATCATCCTGCGCGGTTTCTTTATGGGGATCGACAGGGGAATCCTGGACAGTGCCCGGATCGACGGTGCCAGCGAATGGCGGATCCTGGCCCAGATTGTGCTTCCGATGTCCAAGGCCGTGACCGCAGTCATCGCCCTCTTCTACGGCGTGGGCTACTGGAACGCGTTCTTCAATGCCGTCCTTTACATCAATGACAGCGCCATGAACCCGCTCCAGGTTGTGCTGCGCTCCTACGTCCTGCAAGGCGTGATGGTTCCCGGCCAGATTGATGTTGGGCAGGGGGCAGCACCGTCCCTGGCCCTGCAGATGGCCGTCATTGTGGTGGCAGTTGTGCCCATTCTGCTGGTTTATCCCCTGGTGCAGAAGCACTTCACCAAGGGAGTAATGATCGGCGCGGTGAAGGGGTGA	MSTISKQPTESFALPKPSALRRRNPSRPVWEEEPGPVAKIGKAAVLTMVVLAVLGPLYAIVLTSLSSQATITAAGGMVIIPGEISIDAYRQIISGGVVTRAVLVSVGVTAVGTVLSMVVSVLCAYGLSRPGSFAHTPLLFTLLLTMFFSAGMIPAFLLVSGLGLINTYWALILPGAISVFNIIILRGFFMGIDRGILDSARIDGASEWRILAQIVLPMSKAVTAVIALFYGVGYWNAFFNAVLYINDSAMNPLQVVLRSYVLQGVMVPGQIDVGQGAAPSLALQMAVIVVAVVPILLVYPLVQKHFTKGVMIGAVKG	PGPT0017255_278	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
D1-29_04263	1020	yteP_3	COG4209	putative multiple-sugar transport system permease YteP	ATGACTACCACTGAATCCACCCGGACTGCCCCGGCAGCTCTGGCGAACGACGGCAAACGCAGCCACCGCGCTGAGGACGGCGGCGGCAAGGCAACTGCGGCCCGGAAGAAGACGGGCTTCCGGACCAGGCTGATGCGGGATAAGTCCCTGGTGCTGATGACCCTGCCGGCAATTGCGCTCCTCCTGGTCTTTTCTTATGTGCCAATGCTGGGCAACATCGTGGCGTTCCAGGACTACTCACCCTTCGTGGGCATCCAGGACAGTCCTATTGTTGGCCTGGACAACTTCGGCCGGGTGCTGGGAGACCCTGGCTTCTGGCTCGCCGTGACAAACACCCTGGTGATTACTGCCTTCCAGCTGGTCTTCTTCTTTCCCATCCCCATTGTGCTGGCATTGCTGCTTAACTCCATGCTGTCCCCGGCGCTGCGTTCCACCATCCAGGCGATTGTTTACCTGCCGCACTTCTTCTCCTGGGTGCTTGTGGTGTCCGTCTTCCAGCAGGTCTTCGGCGGTGCAGGCCTCCTGAGCCAAAGCCTGAGGGCGCAAGGCTGGCAGGCCATGGACATCATGACCAACCCGGATACGTTCCTGTTCCTCATCACTTCGCAGGCCATCTGGAAGGACGCCGGCTGGGGCATCATCGTGTTCCTTGCCGCCCTCAGCGCCATAGACCAGGAGCAGTACGAAGCGGCAGCAGTGGATGGAGCCAGCCGTTGGCGGAGGACCTGGCACGTGACGCTGCCAGGACTGCGCGGTGTGGTTGTCCTGCTGCTCATCCTGCGCCTGGGGGATGCCTTGTCGGTGGGTTTCGAGCAGCTCATCCTGCAGCGGGACGCCGTGGGTGCGCAGGCCTCCGAGGTCCTGGACACATTCGTCTACTACACCGGCATCCAGAACGGTGACTGGAGCTACGCTGCTGCGGCCGGCCTGATCAAGGGCGTCGTGTCCCTGGCCCTCATTCTGGGCGCCAACAAACTTGCCCACATTTTCGGAGAGAGCGGGGTGTACTCAAAGTCATGA	MTTTESTRTAPAALANDGKRSHRAEDGGGKATAARKKTGFRTRLMRDKSLVLMTLPAIALLLVFSYVPMLGNIVAFQDYSPFVGIQDSPIVGLDNFGRVLGDPGFWLAVTNTLVITAFQLVFFFPIPIVLALLLNSMLSPALRSTIQAIVYLPHFFSWVLVVSVFQQVFGGAGLLSQSLRAQGWQAMDIMTNPDTFLFLITSQAIWKDAGWGIIVFLAALSAIDQEQYEAAAVDGASRWRRTWHVTLPGLRGVVVLLLILRLGDALSVGFEQLILQRDAVGAQASEVLDTFVYYTGIQNGDWSYAAAAGLIKGVVSLALILGANKLAHIFGESGVYSKS	PGPT0017250_292	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
D1-29_04264	1671			hypothetical protein	ATGCTTGGAAAAATCACCTCACCGGAACCCAGAGCCTCGCTTTCAACGTTCAAGAGCGCAGGGTTAGGACGCCGGTCCTTTTTGGGAATCGTTGGCGGCGCGGTAGCCGCGGCAGCCCTCAGCTCCTGCAGCAGCGGAGGGGCGGCACCCCAGGCCACCAACTCTGCTGGCCTCTCAGACGCCGCGGCCAAGCTGGTGCCGGATTACATTCCGCTGGACATCGTCAAGCCGGACATCCCAGGGGTAAACGGCTCCGCCCCGGGCTTCACCAGGATTCCCGAGTCACTCGTGAAATCGGTCCAGGGTGTGCCCGGGAAGGGTGGCAGCTACACCGTCATGAGTCCCGCCTGGTGGGCGGTGCCCCCGGCTGATAACAGCTACTACCAGGCAGTCAACGAGCGGCTGGGCACCAAGCTGCATTTCCAGGTCAGTGACGGCAACACCTACGCGGACAAGATCCAGACCGTGCTCGCCTCACCGAAGGACGTCCCGGACTGGGTAGTCATTCCTTCCTGGAACCTTCCTCCTCGTTTCGGCCAGGCTGCCAAGGGACTGTTCACCGACCTTTCCGAGTACCTTGCCGGCGACAAGGTCAAGAAATACCCCAACCTCGCCAACCTCCCCACCGCCTCCTGGAAGTACAGCTGCTTTGAAGGCGGACTTTATGGACTGCCGTACCCGGCCGCGCTTATCACGGACGCCTTCTTCTACCGCAAGGACCTCTTCGACGAACTCGGCGTGGAACCGCCCAAGTCCGCGGATGACTACATTTCCGTGGCTAAGGAACTGACCGATCCGGCCAAGAACCGCTGGGGCTCCGACGACGTGTGGAACGGCGCCCAGATCATGCACGGTGTGGTGCCCAAATGGAAGCTGGTGGATGGCAAGCTCCAGAACAAGTTCGAGACCGACGAATACCGGGCCGCCCTGGAATGGGCGGCCAAGCTCTTCGCCTCGGGAGCGGTCCACCCCGATGCCGTGGCCGGCAACTCCCAGCAGGCCAAGCAGCGGTTCGAATCCGGCGCCGTCCTGATGACCAACGACGGCCTGGGCGGATGGCATGAAGCCCTGGGCCGGGTCCTGCCCAGCAATCCCAAGTTCCAAATGCAGCCGCTTGACTACTTTGCCCCCGACGGCGGCAAGCCCACACTGTTCCGCGGCTCACCGGCCGGCATCTTCAGCTTCATCAAAAAAACCGATGATCCGGCCAAGGTGGAAGAGCTGCTGGCCGTGGCCAACTTCGCGGCCGCACCCTTCGGCACGGAAGAAAACATGCTCATCAACAATGGCGTTGAGGGCGTCCACTACACCCGTGACGCGCAGAACATCCCCCAGGCCACCGAGAAGGGCAAGCAGGAAGTCACCAGTACCTACGCCTTCCTGGTCAACTCTGCAGTGGTCAACAACCATGTCCAGTACCCGGGCTATGTAAAGACCAAAACGGAGTGGGAGGCGCGGCAGGCCCCCAACGTGGTGGACGACGTCTTCTACGGCATGCAGATCCAGGAACCCAATAAGTTCGGTTCACTGGGGGCCCCTTTCGAGGACCTCGCCAAGGACATCCTCCGCGGACGGAAGAGCATTTCCGATCTTGACACCGCCATCGCTACCTGGAAGCGCAATGGCGGCGATGAACTGCGTGAGTTCTACGCAGGATTCCTGAACGCGTAG	MLGKITSPEPRASLSTFKSAGLGRRSFLGIVGGAVAAAALSSCSSGGAAPQATNSAGLSDAAAKLVPDYIPLDIVKPDIPGVNGSAPGFTRIPESLVKSVQGVPGKGGSYTVMSPAWWAVPPADNSYYQAVNERLGTKLHFQVSDGNTYADKIQTVLASPKDVPDWVVIPSWNLPPRFGQAAKGLFTDLSEYLAGDKVKKYPNLANLPTASWKYSCFEGGLYGLPYPAALITDAFFYRKDLFDELGVEPPKSADDYISVAKELTDPAKNRWGSDDVWNGAQIMHGVVPKWKLVDGKLQNKFETDEYRAALEWAAKLFASGAVHPDAVAGNSQQAKQRFESGAVLMTNDGLGGWHEALGRVLPSNPKFQMQPLDYFAPDGGKPTLFRGSPAGIFSFIKKTDDPAKVEELLAVANFAAAPFGTEENMLINNGVEGVHYTRDAQNIPQATEKGKQEVTSTYAFLVNSAVVNNHVQYPGYVKTKTEWEARQAPNVVDDVFYGMQIQEPNKFGSLGAPFEDLAKDILRGRKSISDLDTAIATWKRNGGDELREFYAGFLNA	PGPT0017245_938	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
D1-29_04265	2847	xyl3A	COG1472	Xylan 1,4-beta-xylosidase	ATGCCCTTGCCAACCACTGCAGCAGCCACCCACTCAGGCACAAAACCAGGCACAGAACCAGGCACAGACGCCGCGGCCCCCCGTGCCTCCGCAGTCCCGGCCATGGTGGCCAGGCTTACTCTGGAGCAGAAAATAGCGATGCTCCATCAGCATGCCCCGGCCGTGGAGGAACTGGGCCTGGCACGGTTCCACACCGGTGAGGAAGGTGCACACGGGGTGGCCTGGCGGGGTACGGCCACCGTCTTTCCGCAGCCGGTGGGACTTGCCGCCAGCTGGGACGAGGACCTGATCCGGAGGGTGGGCACCGCCGTCGGGCTGGAGGTCCGGGGCAAGAAGGCCCAGGATCCGGACGTCAGCGCCAATGTCTGGGCGCCGGTGGTAAACCCGCTGCGCCATCCGCTTTGGGGCCGCAATGAGGAGGGCTTCTCCGAGGACCCGCACCTCACGGCGACGCTCGCGAGTGCCTACTGCGCCGGGCTGAAAGGAAACCATGACAGGTTTTGGCTGACCGTACCCACCCTGAAGCATTTCCTGGCCTACAACAACGAGGCTGACCGCAACGTTTCCAGCAGCCAGCTTCGGGCCCGCGTGCTGCACGAATACGAGCTCCCGGCCTACCGGGGACCCATCGAGGACGGCGTGGCCGGGGCCGTTATGCTCTCCTACAACCTGGTCAATGGCCGGCCGGCCCATGTCTCGGACCTGGTGGCGTCCCAGCTGCGCACGTGGCACGGCGGGGAGGACATCGCGATCGTCACCGATGCCGGCGCCCCGTCCGCCCTTTATACCGCGGAAAAGTATTTCGACGACGGCCCCGCCGCCTACGCCGCTGCGCTCCTTGCCGGCGTGGACAGCTTCACCGAAGACAGCGACAACCCGGAACCGTCCCTGCAGCATCTTCGGGCTGCGCTGGAGCGCGGGCTGATTGGCGAAGAGGATATTGACCGTGCGGTGGGCCGCCTCCTCGCCCTGCGGGAGCGCACCGGCGAGTTCGAGCCCGACGGCGGCCCTTACGGGGTGTTGGGGGCGGAACTGATCGGGGATCCCGGGCATGTGGAACTGGCCAGGGAAGCGGCGCGGAAGTCACTGGTCCTGCTGCGCAATGCCGCTTCCGGCCTGGATGTCCCGGTCCTTCCGTTGGGAGCGGAACCAGGGAGGATCGCGGTGATCGGCGCCCTGGGTTCAAGGGTTTTGAGCGACTGGTACAGCGGCACGCTCCAAAACGCCGTGAGCATCGCCGACGGACTTTCGGGCCGGTACGGGGACGTGGTGGCTGAGGCCGGCATGGATCAGGTGACGCTGCGCTGCGTCCGCACCAACACCTACCTGGGAAGCGAGGATCCGGGAACCTCCCTGGCGGCCGGCACAGCAGCCCCCGGGCTCGCGGAGACGTTCCTGCTGAAGGACTGGGGTGGCGGCGAGTCCACCCTGCAGTCCGCCGCCACCGGCAAATTCGTGGCGGCCAACGGCTACTACCTCACGGCGTCTGCGGACCGCGTGGGCGGCTGGGTGGTCCAGGAAACCTTCCGGCTTCACCACGAAGTGGACGGCACGGTGGCCGTGCAGCACATCGGTTCGGGAAAATGGCTCCGGATTGAGGCCCACACCGGCAGCGCGGCGCTGTCGGCAAGCACCAAGGAAACCGCCGACAGGTTTGTGCTCAGGACCGTCGGCTCCGGCCAGCAGGCTGCACGCGAGGCAGCCGCCGCAGCAGATGTCGCCGTCGTGGTGGTGGGAAATGATCCCCACCTGGGCGGCAGGGAAACCATCGACAGGTCCACACTGGCACTTCCCCAGCAGGAGCAGGAACTCATCAGGCTGGTCCGTGAGGCGAATCCCCGCACGGTGGTGGTGATCGCCTCCTCCTACCCTTACTCCCTGGAGGCGCTGGCGGACATTCCGGCCATTGTGTGGACGTCCCATGCAGGCCAGGAACTGGGCAACGGCCTGGCTGACGTCCTCAGCGGAGACTCGGAGCCAACCGGACGCCTGGCCCAAACCTGGTGGGCGCGGGACGGGGATCTTCCGGACATCCTGGACTACGATCTCATCGCATCGAAGGGCACCTACCTCTACAGCGACGCCGAACCGCTGTTCCCGCTGGGGCACGGCCTGGGCTACAGCACCGTGAACTACGAATCTGTGGTCCTGGCCCAAGGTTCACTGGAGGTGGCGGTCCGCAACGTGGGCGCGCGGACGGCCCACGAACTGGTTCAGGTCTACGCTGCATGCTCCGGCCACCCCTTTGAGTTCCCGCGGCGCCTTTTGGTGGCGCACCGGCGCGTGGAACTAGCCCCGGGAGAGCTCCGCACGGTGAACATCGAGGTGCCCCTGGACCGCCTGGCCACGTACAGCGTGACTGAAAACCGGATGGTGGTGGAACCCGGAACGTATGAGCTGATGGTTGGGCCCTCGGCCGGCAGCCTGCTGCTGGGAGCGGAACTGACGCTCAGCGGTCAAGGCAGCGGCCCGCGCCGCCGCGGGGAATGGATCCGGGCGGAGCACTTTGATGATCACACCAACCTCGCGCTGGTGCCGGAAACGCCGCTGGCAGGCACCGCCGTCGCACCCGTTTCCGGGCAGGAAAGGGCGACGGCGGTCTACCGGGGCTGGGAGGGCGGCGCTCCCCAGTCGGTGGTCTTGCGGCTGTCGGCAGCCGGTGCCGGCAGGGTGGCCGTTCAGCTGGCTGCCCGCGGCGGAACCTGGATGGACGTCGGCTCTGCAGACGTAAGCAACGGGTTCAGCGGCGAGCGGCGCCTGGGGCTTTCTGCTGCCGCCGGCACCTTTACGGCGCTTCGGCTGGTACTGGAAGGATCCATCACGGTGACCGAACTGCAGGTGGGCTGA	MPLPTTAAATHSGTKPGTEPGTDAAAPRASAVPAMVARLTLEQKIAMLHQHAPAVEELGLARFHTGEEGAHGVAWRGTATVFPQPVGLAASWDEDLIRRVGTAVGLEVRGKKAQDPDVSANVWAPVVNPLRHPLWGRNEEGFSEDPHLTATLASAYCAGLKGNHDRFWLTVPTLKHFLAYNNEADRNVSSSQLRARVLHEYELPAYRGPIEDGVAGAVMLSYNLVNGRPAHVSDLVASQLRTWHGGEDIAIVTDAGAPSALYTAEKYFDDGPAAYAAALLAGVDSFTEDSDNPEPSLQHLRAALERGLIGEEDIDRAVGRLLALRERTGEFEPDGGPYGVLGAELIGDPGHVELAREAARKSLVLLRNAASGLDVPVLPLGAEPGRIAVIGALGSRVLSDWYSGTLQNAVSIADGLSGRYGDVVAEAGMDQVTLRCVRTNTYLGSEDPGTSLAAGTAAPGLAETFLLKDWGGGESTLQSAATGKFVAANGYYLTASADRVGGWVVQETFRLHHEVDGTVAVQHIGSGKWLRIEAHTGSAALSASTKETADRFVLRTVGSGQQAAREAAAAADVAVVVVGNDPHLGGRETIDRSTLALPQQEQELIRLVREANPRTVVVIASSYPYSLEALADIPAIVWTSHAGQELGNGLADVLSGDSEPTGRLAQTWWARDGDLPDILDYDLIASKGTYLYSDAEPLFPLGHGLGYSTVNYESVVLAQGSLEVAVRNVGARTAHELVQVYAACSGHPFEFPRRLLVAHRRVELAPGELRTVNIEVPLDRLATYSVTENRMVVEPGTYELMVGPSAGSLLLGAELTLSGQGSGPRRRGEWIRAEHFDDHTNLALVPETPLAGTAVAPVSGQERATAVYRGWEGGAPQSVVLRLSAAGAGRVAVQLAARGGTWMDVGSADVSNGFSGERRLGLSAAAGTFTALRLVLEGSITVTELQVG	PGPT0019110_485	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
D1-29_04266	933	psdht		Phenylserine dehydratase	TTGATCACCCGCAACGACGTGGACCAGGCGGCAGCCAGAATCGCTGGACTGACCCGGCAAACGCCCATCCTGAAAGCCGATTCAGGCACCTATCCCGGACCAGTCTGGTTCAAATGTGAATTTATGCAGCATACCGGGACGTTCAAGGCACGTGGGGCGCTCAACCGCATCCTGGCCACCAAGGAGCGCGGGGAGCTCAAGCCCGATGTGGGCGTGGTGGTGGCTTCCGGCGGAAACGCCGGCCTCGCCAACGCCTATGCCGCTGCCCAGTTGGGAGTCCCCGCCACGGTCTTCGTGCCTGAAACCGCCCCTGCCGTCAAAGTGCGGAAACTCGAAGCAACCGGTGCCACTGTCATCCAGGCCGGTGCCGAGTACGCCGTGGCCTATGAAGCCGCTGTCACGCATGCCGCAGAAACTGGAGCGGTGTACTGCCATGCCTACGACCAGCCGGAGATCGTTGCCGGCGCGGGGACAGTGGGATCGGAACTCCTTGAACAGCTCGACGGCGTGGACACAGTCCTGGTGGCGGTGGGCGGCGGCGGTTTGATGGCCGGGATAGCTGCCGCCGTCGAAGGCCGCGCCAGGGTGGTTGCAGTGGAACCGGAAACCGCGCCCACCCTGCACTCCGCGCTCGCCGCCGGGGCGCCGGTGGACGTTGCGGTGTCCGGCATCGCCGCCGACTCCCTGGGCGCGCGGCGAATTGGCGAGATCGCTTTTACGGTGGCGGCGCGCACCGTCGTCGAAAGCGTTTTGGTGTCCGACGCCGATATCATCGCCGCCCGCCGGGAGCTGTGGAGCCAGTACCGCCTGGCAGTGGAGCACGGTGCTGCCGCGGCTTTTGCCGCCCTGCACTCGGGCGCCTACGTGCCCGGCTCAAGAGAGCGGGTGGTAGTGGTCCTCTGCGGGGCCAACACCGATCCCGCCACGCTGTGA	MITRNDVDQAAARIAGLTRQTPILKADSGTYPGPVWFKCEFMQHTGTFKARGALNRILATKERGELKPDVGVVVASGGNAGLANAYAAAQLGVPATVFVPETAPAVKVRKLEATGATVIQAGAEYAVAYEAAVTHAAETGAVYCHAYDQPEIVAGAGTVGSELLEQLDGVDTVLVAVGGGGLMAGIAAAVEGRARVVAVEPETAPTLHSALAAGAPVDVAVSGIAADSLGARRIGEIAFTVAARTVVESVLVSDADIIAARRELWSQYRLAVEHGAAAAFAALHSGAYVPGSRERVVVVLCGANTDPATL	PGPT0001960_6928	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
D1-29_04267	264			hypothetical protein	ATGACCACTTCAAGCGAAGAGCCGCAGAACTCCGCAGACCTCCGCGGCCCCGGCGATCCGGACCACGCAGCGGAGCCGAAGGCCGAACAGCAGCCCAAGCCGGACGCGGGCACGGCAACAAACATCCGCGAGGAGCAGCAGACGCAGGCGCCAGGGACCGTGCCGGCGTCGTACGTGGGCAGCGGCGGCCAGGCTGGCCAAACTGCAGAACCAAAACCGGAAGCGGCTGCGGACGAATCGGGAATGTGGGACGACCAGGCCTAA	MTTSSEEPQNSADLRGPGDPDHAAEPKAEQQPKPDAGTATNIREEQQTQAPGTVPASYVGSGGQAGQTAEPKPEAAADESGMWDDQA				NA	NA	NA	NA	NA
D1-29_04268	597	tmk_2		Thymidylate kinase	ATGCTTATTGTTCTGACGGGAATCGACGGTTCGGGAAAATCAACGGCCGCCGGCGCCCTGGTGTCCGCTGCCCGTGCCCAGGGCAGGAATGCACGGCTGCTGAGCAACCACGCCGGGCGGCGGAGCATGTCCGTGCTCAGCGCCAAGCTGGGCCTCCGGCTTCCCACACGGCTGGCCGACGCCGTCGAAACGACCTTCCGCGTAGTGAATGTGCTGGTCTCCCATGCCAGGGCCAGCAGGTTTGACGGACTGGTGGTGATGGACCGCCACCTGTACTGCCAGCTGGCACTGAGGGAAACCAAGGACCTGCGGCGTGGCCGCCTGCTCCCCTGGCTGCTGTCTGCCCTCCCAGCACCCGATGCGGTGATCCACCTGGACATCGAACCCGAACTGGCGCACCAGCGGATCGTGGCCCGCGGCACCGATGTGGAGTCGCTGGCAGATTTGGTGGCCTTCCGGGACGCCTACCGCTCGCTGCCCGAATATGCGGACTTCCTGGAAGTTAACGCCGGCGTCCCGCCAGCCGAGCTGGTTGCCCGGCTGGCGGGTATCGCCAATGGCCTCTGCGCCCTTAGTGCCTCACCTCAGCCCCGCTAG	MLIVLTGIDGSGKSTAAGALVSAARAQGRNARLLSNHAGRRSMSVLSAKLGLRLPTRLADAVETTFRVVNVLVSHARASRFDGLVVMDRHLYCQLALRETKDLRRGRLLPWLLSALPAPDAVIHLDIEPELAHQRIVARGTDVESLADLVAFRDAYRSLPEYADFLEVNAGVPPAELVARLAGIANGLCALSASPQPR	PGPT0021395_5378	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
D1-29_04269	1476	dctA_2	COG1301	Aerobic C4-dicarboxylate transport protein	ATGATTCCCGTCCCCGCGCCAAGCAAAGTCCCACTGCCGATTGACACAGGTACAGCCGGCAGGAAACCGCTGTACAAGTCCCTTTTCGCGCAGATTCTGGTGGCCGTTGTTGCCGGCATCCTGATCGGACATTTCTGGCCGGACCTCGGGTCCGGCCTGCGGCCGCTGGGAGACGGGTTCATCCAGCTGATCAAGATGATCATCGCGCCGCTGATCTTCCTGGTGATCGTGACAGGCATAGCGGCCGTGGGAGACGTAAAGGCCGTGGGGCGCGTAGGCGTGAAGGCGCTCATCTACTTCACGGCGGCCACCCTGTTCGCGCTGGTGTTCGGACTTGTGGTGGGCAACATCGTGCAGCCGGGCGCGGGCCTGAACATCGATCCGGCGTCGCTCTCCCAGGACGCCCTCAATGCCAAGACCGCCACCGCGCCGCCCAAGGACGCCGGCCAGTTCCTGCTGGGCATCATCCCCACCAGTGTGGTGGGAGCGTTCGCCTCCAACACCCTGCTGCAGGTGCTTTGCTTCTCCGTTTTCTTCGGTGCCGCAATCGTTGTGATGGGCCGCGAGCGCTGCCTGCCGGTGGTCATCCTCCTGGAAACCGTCCTTGAACTGTTTTTCAAGATCATGACCTGGGTCATGCGGGTTGCCCCCATCGGCGCATTCGGGGCGATGGCCTTCATCATCGGCCAGTACGGCCTGGGCTCGCTCGGCACCTACGCACTCCTGATCGCGGCCTGCTACGGTGCTGCGATCGTGTTCATTGGGCTGCTCTTCATTGTGGCGTGGGTGTATCCGCGGGTGCCGCTGTGGCAGTTCATCAAGTACTCCCGCGAAGAATTCCTGCTGGCCCTGGGGACCGCTTCAACGGAGTCAGTCCTGCCACGCATTATGACCAAACTGACCAACGCGGGCTGCTCCCGGGCCACCACCGGGCTGGTGGTCCCCACCGGATACTCGTTCAACCTGGACGGCGCCGCCCTCTACCTGTCCATTTCGCTGCTCTTCCTGGCCCAGGCCTTTGGGCACCAGCTGGACCTCGGCCAGCAGCTGGTGGCTTTGGGCATCCTGATGCTGACGTCCAAGGGCATGGCAGGGGTCCCCGGCTCTGCCTTCCTGGCACTTTCCGCCACCGCCGGGGCATTGGGCATTTTCCCGGTGGCCGGTGTTGCCCTGCTGCTCGGCGCCGACCGCCTCATGGACTCCATGCGCGTCTCCGTCAACCTGCTGGGCAACTGCGTGGCCACGTTCGTCGTGGCCAAATGGGAGGGGCAGTTCGACCGCGAGGCCATGCTCCGGGCCTTCCGGGGAGAGCTCCCGGCGGAGGAACTGGCGGCCGACGCCGCTGACCCGGCACCCGCCGTCGGCTCTTCAGTAATGCCCGATGCAGCACCGCACGCGGTAACGGAAAATGCGGAAACGCACGACGGCGGGCCCTCCGCAGCGCCCGACAGTGCTGTTCCCGTTCCGGCGCGCTAG	MIPVPAPSKVPLPIDTGTAGRKPLYKSLFAQILVAVVAGILIGHFWPDLGSGLRPLGDGFIQLIKMIIAPLIFLVIVTGIAAVGDVKAVGRVGVKALIYFTAATLFALVFGLVVGNIVQPGAGLNIDPASLSQDALNAKTATAPPKDAGQFLLGIIPTSVVGAFASNTLLQVLCFSVFFGAAIVVMGRERCLPVVILLETVLELFFKIMTWVMRVAPIGAFGAMAFIIGQYGLGSLGTYALLIAACYGAAIVFIGLLFIVAWVYPRVPLWQFIKYSREEFLLALGTASTESVLPRIMTKLTNAGCSRATTGLVVPTGYSFNLDGAALYLSISLLFLAQAFGHQLDLGQQLVALGILMLTSKGMAGVPGSAFLALSATAGALGIFPVAGVALLLGADRLMDSMRVSVNLLGNCVATFVVAKWEGQFDREAMLRAFRGELPAEELAADAADPAPAVGSSVMPDAAPHAVTENAETHDGGPSAAPDSAVPVPAR	PGPT0001450_242	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0001450-dctA-K11103	NA	NA
D1-29_04270	399			hypothetical protein	ATGGCCGCAAATTTTGTTAGAGCTTTGGCAGTGAAATCCTTTGATGTCCCGGACAAGAAGCGGTGTCCAGACAAGGCTGAGTTCGATCTGGTCACCGTGGACGACTATTCGGTGGCCCGGCTGATCCTGGCTCCGGGCTGGCGCTGGTCCACGTCCGTCAAACCCACCGAGATGACTGAGTTCTGCGAGCATAACCACCTCGGATACTGCGTCTCGGGCTCACTGGAAATTGAAACGTCAGACGGCGTCCGCTCCACCATTCATGCGAACGATACGTATGCCCTTCCACCGGGCCACGACGAATGGGTTGTGGGCAGCGAACCTTTTGTCGCCGTCGAATTCCTGGGTGCCGCCTCATTCGGCAGGCCCCGGAGCCGCGGTCTGCACGCCCTGACCTAA	MAANFVRALAVKSFDVPDKKRCPDKAEFDLVTVDDYSVARLILAPGWRWSTSVKPTEMTEFCEHNHLGYCVSGSLEIETSDGVRSTIHANDTYALPPGHDEWVVGSEPFVAVEFLGAASFGRPRSRGLHALT				NA	NA	NA	NA	NA
D1-29_04271	921	rbn_2		Ribonuclease BN	ATGACCACTAGCCATCAACCGGAATCGCATGAACCGGAATCGCTCCTCGAGGAATACCTCCAGGGCGGGCAGCTCGCCCGCGCCTGGCTTACCGAACCCCCGTCAGAAGACAAGGGACTGGAGCGGGTACGGCTACGCTGCTGGCTGAGCGGGACGGGTACTCCGGCGGTGGTGGATGGCCGCTACGGCCCCTCCACCGTGCTGGCCATCGGCGACGACGTCGTCATGGTGGATACCGGCAACGGCTGCGTCTACCAGCTCTTCCACCTCGGCTGGCGTCCCGAGGATGTCACCCACGTGCTCATCACCCATAACCACCTGGACCACAATGCTGATCTGGGCTTCCTCATCCTGGCGCCATGGATTCACGGGACCCAAAAGAAGCCGCCCACTGTCATCGGTCCTCCCGGCACCCTCGAATACGTCAACCGGGTCTTTGCGGCCCATGACTACGACATCCGGGCCAGGCTCCGGCATGGCTATGACCCTGCCCTCCTGAGCGTTCCTGTGGTGGAGGTCAAAGACGGGCTCATACTGAACTTTTCCGGATGGCAGGTGTCTGCGGTGGAGGTGGAGCATTCTCCTGTCGAGGATGCGTTCGGATACGTATTCAGGACCGCCGCCCACTCTGTAGCCATATCCGGTGACACAAGGCCCTCCGACAAGCTGATTGCAGCGGCCCAGGGTGCAGACGTGCTCATTCATGAAGCACTCTTCCCGGGGTACGGCATACCGGATTACCACACCTCGGTCCATGACGTGGGCCGGGTGGCAACAGCCGCCAATGTCTCCCGGCTGGTCCTGACCCACCTCATCCCTGGCCATTTGCCGGAAGAAAAATGGAAGGAAATTGTCCAGCAGAGTTTCCACGGCGACCTCACTGTGGGAACCGATCTGCTGCAGGTCTGCGACCTGTCCTAG	MTTSHQPESHEPESLLEEYLQGGQLARAWLTEPPSEDKGLERVRLRCWLSGTGTPAVVDGRYGPSTVLAIGDDVVMVDTGNGCVYQLFHLGWRPEDVTHVLITHNHLDHNADLGFLILAPWIHGTQKKPPTVIGPPGTLEYVNRVFAAHDYDIRARLRHGYDPALLSVPVVEVKDGLILNFSGWQVSAVEVEHSPVEDAFGYVFRTAAHSVAISGDTRPSDKLIAAAQGADVLIHEALFPGYGIPDYHTSVHDVGRVATAANVSRLVLTHLIPGHLPEEKWKEIVQQSFHGDLTVGTDLLQVCDLS				NA	NA	NA	NA	NA
D1-29_04272	1074	iolG_15		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGGCAGCCAACGAACAACCGGTACGCGTCGCCCTGATAGGGGCGGGCGACATTGCTGAAGTGGCGCATCTGCCCGCTTGGGCGGTCGCTGCGGGCGCCCGGGTTGAGGTGCTGGTGGACCCCAACCAGGAACGGGCCCAACAGCTCGCGGACAAGTTCGGGATCCCCAGATGCGTCACGGATCTGGACGAACTCCTCAGATCGGGCGATGTTGACGCAGTGGATATCTGCACCCCGCCGCACCTGCACGCACCCATGGTTCTCCAGGCGCTGAATGCCGGCGTCCACGTTCTGGTTGAGAAGCCGATGGCAACAAACCTGCAGGACGCAGAAGCCATAGCCCGGGCGGCAGAGGCCAGCGGCAAAACAGTCATGGTCGCAGAGAACTGGCTCTTTTCCAGCGCGCGCCGGGAGGCTGAGGAGCTCATTCGCAAGCACGCCCTCGGTCAGCCGTTCCTGATCAAGGCCAGGCACGAAAGCTCACTCTACGTCTCATCAACAGGCGGTGCTCCGGCTTGGACGTTTTCACCGGATACTGCAGGAGGCGGGTATCTTATGCAGGCCGGAATCCACACCGTGGCACTGACCGAGGCCATGGTGGGACCCTTTGAGGAAGTTTCTGCCTTTACCAGTGCGGAAGCCGGTGCGCCCGAGGGGTCACTGGAAACTACTGCGGTGGTCACGTCGCGGTTCACCTCAGGGGCCCTCGGATCATTCGTTTTCACTGCACGTTCCAGGCATCTTGGACCGCGGCGGCTGGGACTCGAGCTGTTCTTCGACAGGGGTTCACTGGAACTGGATGTGTGGACCGGCCGGATCATTTACACGGTCGACGGGCGGCAGACCACAGTCCAGGACGAGAACAGTTCCATGGGGTTTGCCGAGGAGGTCAGCCACTTTGTCCATTGCATCAGAACCGGAGCCGAGCCGGAGGCCACTCCCACCCGGCTGCTCAGCAGCCTGAAGACCATTCTTGCCGCTTACGAGTCCGCCAGGTCCGGCTGCTCCAAACGGCCGTCGGACATGACCTCCATGCAGGTCGGGGCGAAGGGCGGGCCCGAAAATGACCACTAG	MAANEQPVRVALIGAGDIAEVAHLPAWAVAAGARVEVLVDPNQERAQQLADKFGIPRCVTDLDELLRSGDVDAVDICTPPHLHAPMVLQALNAGVHVLVEKPMATNLQDAEAIARAAEASGKTVMVAENWLFSSARREAEELIRKHALGQPFLIKARHESSLYVSSTGGAPAWTFSPDTAGGGYLMQAGIHTVALTEAMVGPFEEVSAFTSAEAGAPEGSLETTAVVTSRFTSGALGSFVFTARSRHLGPRRLGLELFFDRGSLELDVWTGRIIYTVDGRQTTVQDENSSMGFAEEVSHFVHCIRTGAEPEATPTRLLSSLKTILAAYESARSGCSKRPSDMTSMQVGAKGGPENDH				NA	NA	NA	NA	NA
D1-29_04273	1062			hypothetical protein	GTGCAGCTTGGAATGATCGGTTCGGATCTGCTCCACGCGCTGGAGTACACATCCATCATCAACGCGGGCCCTGGGCCCGCCTTTCCCAAGGCCAAGGTGGACCATTCCGCCGCGGTCGGAGGCATGCCCTCGCCTCAGTTCCGGTGTCCGGGGGCCTGGGATCCTGTCCTGCCCTCAGCGGACGACATCCTGGCAGACAGCGCTTTCCGGGATGTCAGGGTCACCTCGTGGTGGGGCCAGGACCAAACATTGGTCAGACAATGGGCCGCGGAAACGGGCGTAGAGCACGTCGCAGCGCGGCCGGAGGAGATGCTCGGCCGGGTTGACGGGGTCCTGATCTGCACCTGGGATGGCAAAGACCATGCAGCACTGGCCCGCCCCTTTGTGGAGGCCGGGTTGCCCGTGTTCGTGGACAAGCCCTTTACGGAAAGTACCAGGGACGCCCAAGAACTCCTCAGCCTGGCCGAGGCGAGTGGCTCTGTCCTCTTTTCATCATCGCCGTGGAAATGGTCGCCCGCCGTCCTCGAGCTGATCAACCAGGCCCCCGATCTGGGGGATATCAAGACCTGTGTTGCCAGCGGTCCGTACCTGGACAACCCCTATTTTTATACGACCCACATGGTGGAGACCGGGCAGGCAATCCTGGGCACCGGCGCCATATCGGTCCAGGCGCAACACTCATCGGCGGCACGCATCATCGTCGTGACCTACCAGGACGGGCGAATGCTCGTGGTGAATGCGCTGCAAGGAGTAGCAGCCACGCGACACGTGGTGCTCTACGGCTCGAAGGGGTACCTCGAAGCCGACATAGGTGAGGGACAAAAAGAAGCAGGAATGGTGGAGACACTCGCCAGGTTCCTGCGTGGAGCCGCCGAAGGGCGGCCCCCTCTCCCCTATGCCTACCCCTTTGAAGCCACCGCAGTAATGGAGGCAGCACAGGCCTCCATCGATGCCGGCGGAACGCCGGTGCGCCTGGACAGCCTCCTGGAAGAACAGGCAGGCGGCCACGAATTCACGCCAGGCGCGGTCACACCACCCCTCAAGAAAGAAGGAGCATCGTGA	MQLGMIGSDLLHALEYTSIINAGPGPAFPKAKVDHSAAVGGMPSPQFRCPGAWDPVLPSADDILADSAFRDVRVTSWWGQDQTLVRQWAAETGVEHVAARPEEMLGRVDGVLICTWDGKDHAALARPFVEAGLPVFVDKPFTESTRDAQELLSLAEASGSVLFSSSPWKWSPAVLELINQAPDLGDIKTCVASGPYLDNPYFYTTHMVETGQAILGTGAISVQAQHSSAARIIVVTYQDGRMLVVNALQGVAATRHVVLYGSKGYLEADIGEGQKEAGMVETLARFLRGAAEGRPPLPYAYPFEATAVMEAAQASIDAGGTPVRLDSLLEEQAGGHEFTPGAVTPPLKKEGAS				NA	NA	NA	NA	NA
D1-29_04274	1005			hypothetical protein	GTGAAAGTTCTCAGTTCCGGACGTTCCGGACTCATTGGACTGCTGTGTCTCGCATTAGCGTTCGTCACCACTGGCTGCGCAGGAGACACGCCCCAGCAAGGCCAGGACGCCAAGATCCCCATGACCTTCACGGGGGCCGGAAACCTGTCCTGGCTCAACGTCTTCGTGGCCGAGGATGAGGGCATCTTCGACAAGCACGGGATCGAATCAACCGTGAGGGTCTTCGACGTCGGATTCCTGGGAACCGAAGCGGTCCTCGCCGGCGAAGCACAAACCGCAGGCTCCGTGGAGTTCCCCCTCCTTGGCCTCCTTGGCCAGGGTGCCGGGCTGGTTGTGCCAGCAGTGGTGGCCACCGCTGAGGACCAGCGCATTGTGGTCAAGGATTCCATCCAGAAGCCGGAAGACCTGCGTGGCAAGAAGATTGGCCTGATCGGCGGTTCGGCCTTCGAATACTCCTTCCAGGAGTATCTGAACCATTTCAACATCCCCAAGGAAGAAGTGGAGTTCGTGAATGTTGACGCGGCTGAGCAGGTGGCCGTGATGGCCCGTGGCGACATCGACGGTTTCCTGAATGTCGAGCCTGTTATCTCCCGTGCGTTGAACTCCCTGGAGAATGTCCATGTCCTTGAGCCCGGCACGGAAGAGGTCTACACCACGCGGATTTTGCTCCAGATGAACAAGGACTGGGTGAACCAAAACCCTGACGGCGTGAAGAAGGCACTGGCTGCCCTGATCGAAGCAAATGATTTCATCAAGGCAAACCGGGACAAGGCAGCCGAGATCGGCGCCAAGTGGACCAAGTCCGACAAGGCAACGGTCACTTCATTCCTGGAGGACGCAAAGTTCGACTACAACGTGCACTATGACGCCGAGACCCGCCAGAGCATGGAAAAGATCGCTAACTGGATGATGCAGAACGGCAAGCTGGAAAAGATGCCTGACCTGAACCAGGTCTTCGTGACGGATCATCTGAAGGAAGTTGCACCGGAGCAGGTGAAGGAATGA	MKVLSSGRSGLIGLLCLALAFVTTGCAGDTPQQGQDAKIPMTFTGAGNLSWLNVFVAEDEGIFDKHGIESTVRVFDVGFLGTEAVLAGEAQTAGSVEFPLLGLLGQGAGLVVPAVVATAEDQRIVVKDSIQKPEDLRGKKIGLIGGSAFEYSFQEYLNHFNIPKEEVEFVNVDAAEQVAVMARGDIDGFLNVEPVISRALNSLENVHVLEPGTEEVYTTRILLQMNKDWVNQNPDGVKKALAALIEANDFIKANRDKAAEIGAKWTKSDKATVTSFLEDAKFDYNVHYDAETRQSMEKIANWMMQNGKLEKMPDLNQVFVTDHLKEVAPEQVKE				NA	NA	NA	NA	NA
D1-29_04275	813	nrtD_2	COG1116	Nitrate import ATP-binding protein NrtD	ATGAAGCGCGCAGAAAGCGGCACCAAGACCGCAACGGGAATTGAGCTGCAGAAGGTCACCAAGCACTTTCCCCCCACCCGGAGCACCGCCGGGTACACGGCGGTCCGGGATGTTGACCTCGCTGTACGCCCGGGAGAGTTTATGTGCATCCTGGGGCCCAGTGGATGCGGGAAGTCCACCCTGCTGCACATGATGGCCGGCTTCGAAAAGCCGAGTGCCGGGGCCATTCTGATCAATGGGCATCAGATCGTTCGGCCTGGTGCAGACAGGGGCGTGGTCTTCCAGAACGAGATCGCGCTGTTTCCCTGGCTGACCGTGGAACACAACGTCGAATACGGGCTCAAAGTCCGTGGCGTGGATAAGGACCGCCGGCTCGCTGCAGTCGATGATGCCCTGACCCTGGTGGGCCTGGACCAGCATCGCCACAAGCTGCCACGGGAACTGTCCGGCGGCATGAAGCAACGCGTCCAGATTGCCAGGGTCCTGGCCAATGACCCGGACGTCATGCTGATGGATGAGCCCTACGGAGCACTCGACGCCCAAACGCGGATGAGGCTCCAGGACGAGTTGGTTGACGTCTGGCAACGGAAGTCAAAGACGGTTGTCTTCGTCACGCACGACGTTTCAGAATCTGTCTACCTGGCAGACCGCGTGGCGGTGATGACTGCCGGGCCGGCTGCAGGGATTAAGAATGTCTTCGAGATTGATCTGCCGCGGGTGAGGAATCGGACTGATTCGGAATTCGTGGACCTGGCCTCGTCATTGACGGCGGAACTCCAGCACGGAAAGGAACACGACGATGGCAATAACTGA	MKRAESGTKTATGIELQKVTKHFPPTRSTAGYTAVRDVDLAVRPGEFMCILGPSGCGKSTLLHMMAGFEKPSAGAILINGHQIVRPGADRGVVFQNEIALFPWLTVEHNVEYGLKVRGVDKDRRLAAVDDALTLVGLDQHRHKLPRELSGGMKQRVQIARVLANDPDVMLMDEPYGALDAQTRMRLQDELVDVWQRKSKTVVFVTHDVSESVYLADRVAVMTAGPAAGIKNVFEIDLPRVRNRTDSEFVDLASSLTAELQHGKEHDDGNN	PGPT0001140_6256	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
D1-29_04276	807	ssuC_6	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGGCAATAACTGACGTCCATGTGACACATCCGCCGGCGGAGGAAAGGGGAAAACTTGAAGCGCGCCCCTGGATTACCTATACCGCCGTGGTGGCAGCTGCCATCGTCCTGTGGCATCTGCTGTCGCTGGTGGTGAATCCGCTGTTTCTGCCCAGCCCGTTGCGGGTGGGAGCAGCCACGGTGGAACTGATCGGCTCCGGTGAAATGCTCCAGCATGTTTCTGCCTCGTACGGCCGGGTGCTGTCCGGGTGGGCTATCGGTGCCGCCCTGGCCATCCCGCTGGGACTGCTGGCAGGGCGGGTGACGTTGCTGCGCGTGGCGTTGGAACCCTTCCTGAACTTCTTCCGGTTTGTTCCACCCATCGCCTTTCTGAGCCTGGCTTTGATCTGGCTGGGCATCGGCGAGACCTCCAAGGTTGCACTCATTGTCTATGCCTCCTTCTTCATCGTCTTCCTCAGCGCAGTGGCGGGGGTGCAGGGTGTTGATAAGGAGAAGATCCATGCAGCGCAATGCCTCGGGGCCAGCAGGAGGCAAGTAATTACCACTGTGGTAATGCCGGCGGCAGTGCCGGAAATCGTCACCGGCCTCCGCACAGCCATGGGCATCGCGTTTATGACCGTGGTTGCAGCCGAACTTGTGGCAGCAGAAACCGGCATCGGGTTCTTGATCTACAACTCGCGGCTATTCGCCCGCACTGACATTGTGTTCGCCGGCATCCTGGCCCTGGGTGTCATGGGCCTGACGGCGGACATCCTGTTCAGGCAACTCACCCGCCCCATCCATTACCGGTACGCGCTTCGCTTCTGA	MAITDVHVTHPPAEERGKLEARPWITYTAVVAAAIVLWHLLSLVVNPLFLPSPLRVGAATVELIGSGEMLQHVSASYGRVLSGWAIGAALAIPLGLLAGRVTLLRVALEPFLNFFRFVPPIAFLSLALIWLGIGETSKVALIVYASFFIVFLSAVAGVQGVDKEKIHAAQCLGASRRQVITTVVMPAAVPEIVTGLRTAMGIAFMTVVAAELVAAETGIGFLIYNSRLFARTDIVFAGILALGVMGLTADILFRQLTRPIHYRYALRF	PGPT0001145_6906	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
D1-29_04277	840			hypothetical protein	ATGGGTGACGTTAGCAGGGCAGACCACGCGTTCGAACAGCTGGAGAGGCTCATTTTGGAGCTCAGCAGCCAGGACGTGGACCGGCTACCACCTGAGACAGAACTTAGTCAGAAATTTGGGGTTTCGAGGGCAACTGTTCGAGAGGCGCTTGGCCGGCTGGAAGCTGCCGGAAGAGTGCAACGCAGACGGGGAAGGGGTACCACTTTGACGCCGTTGGTTCGGCCAGCCATCCGGTACCCCGCGAATATCATCGGCTCCTTCGCGGACTTCCTCCGCGAGTCCGGTGTTGATCACAAGCTCCTTGAGTTTTCCGTGACTCATATGGAGCTTGAGGAGGACATTGTCAGGCTGTTCGATAAAGACAAGTTCGACAAGGACAATATGTCGAACTCGGGCTTCCGAAGCATCAGGTGCTATTCCCTGGGCGGAGTTCCGGCAGCACTCCTTTATCACCTGCTTCCGGCAACCATCCAGGGCAGCCCGCTTCACGTGGAGAAACTGCGCGGTGACATCGTTCCCTTCCTGGAGGCGGTACACCATGTGCAGATCGACAGTGTCACCAGCGCCATCACCGCGGAGGAAGCGTCCGAAGACGTGGCCAGGCAACTGGGCCTCAAAATCGGAAGCGCCGTGCTGGTGATGTACACCCGCGTTATCGACAGCGAAGGGGCCACCCTTGCTTTGGGCGCGCTCGCCTTCAACCCGGCGGTTGTCACGCTCGGGGTGGAGGCGCTGGAGCACGTCACGGCAGGCGGCCAGCTGCAGTTCCCCACGGGATGGCTGCAGCGCAATGTCACCGCCCGAAGTCCCGGAAGGAGGGAAACAAATGAAACATATTGA	MGDVSRADHAFEQLERLILELSSQDVDRLPPETELSQKFGVSRATVREALGRLEAAGRVQRRRGRGTTLTPLVRPAIRYPANIIGSFADFLRESGVDHKLLEFSVTHMELEEDIVRLFDKDKFDKDNMSNSGFRSIRCYSLGGVPAALLYHLLPATIQGSPLHVEKLRGDIVPFLEAVHHVQIDSVTSAITAEEASEDVARQLGLKIGSAVLVMYTRVIDSEGATLALGALAFNPAVVTLGVEALEHVTAGGQLQFPTGWLQRNVTARSPGRRETNETY				NA	NA	NA	NA	NA
D1-29_04278	738			hypothetical protein	ATGAAACATATTGATGTCCACCAGCACCTTGGTCCCTGCAACGTCTTCGATTTGGAGGTTACGAAAAGCCAATTGGCGGCAGCCATAGACGACACACCGCTGGAGGGCTGCATCGTTCAGCCATTTCCGGGAGCTGCTGACGCTCCCCTGCAGCACGACGCGATCGCGGACCTGGCCAGGACGGCTCCGTTCAAGATCTGGGGCATCGCGAGCATCAATCCGCACATCCCCGACGACGCCTACCGCAACGAGATCCGCCGCTGCGTCCAAGACTTTGGTTTTGTCGGGGTTAAGCTCCACTCGATCGGGCACGCTGTCCATCCAGGCAGCAAGGACGGGCACAAGGTATTCACAGTCGCCCAGGAGTTGGGTATTCCGGTTATGGTGCACACGGGAGACGGAGTCCCGTTTGCGGACCCTACCGCCGTCCTCGGCCCGGCCCAGGAGTTCCCCGACGTTTCCATCCTCCTGGCCCACGCCGGCATGTCCACGTTCGCCGGTAACGCCATCGCAGTGGCCCGCGTCTGCCCCAACGTCTACCTCGAACCGTCCTGGTGCAAGACTCCCGAAATCGGCGCCATGATTGAGGCTCTGGGGGCGAACCGCGTGATGTTCGGCGCGGACCTGCCCTTCAACGTCAGGCCTGAAACCGAAAAGTTCCTTGCCCTTGGACTGTCCCCACGCGATCTGGAAGCAGTCATGTGGGGCACCGCCTCCGACTTTTTCAAACTGCAATGA	MKHIDVHQHLGPCNVFDLEVTKSQLAAAIDDTPLEGCIVQPFPGAADAPLQHDAIADLARTAPFKIWGIASINPHIPDDAYRNEIRRCVQDFGFVGVKLHSIGHAVHPGSKDGHKVFTVAQELGIPVMVHTGDGVPFADPTAVLGPAQEFPDVSILLAHAGMSTFAGNAIAVARVCPNVYLEPSWCKTPEIGAMIEALGANRVMFGADLPFNVRPETEKFLALGLSPRDLEAVMWGTASDFFKLQ				NA	NA	NA	NA	NA
D1-29_04279	327			hypothetical protein	ATGACGAACGTGATGGTGCGCGTCAGCGTCTCGATGGTTGTCGCGCCGGACAGAACCAGTGAAGTGATTCGCCGATTCGACGAGTCCTTCTTTCCCGCCATCTCTGCTCAGGACGGATTCCTCGAATGCGTCCTGCTCAGGGAGACAGACCGCGCTGACTCAGGCGATCTTCAACACCTGCGCATGGATATCAGCTTCAGCAGTGAGCGGCAGAGACTCAACTGGGTGGAGACAGAGTTGCACGACGACGTGTTTGCGCTCCTGGTCCAGGATACGAACAGCTACGAAGCCCTCCACCTCTCCGCCGTGTCAGCACAGGAGCAATAG	MTNVMVRVSVSMVVAPDRTSEVIRRFDESFFPAISAQDGFLECVLLRETDRADSGDLQHLRMDISFSSERQRLNWVETELHDDVFALLVQDTNSYEALHLSAVSAQEQ				NA	NA	NA	NA	NA
D1-29_04280	651			hypothetical protein	ATGATTACACCCTCTGATCTTGGGGTTATCGCGATCGTCCGCCTCCGCAACATTGCCGCCGGGGACGAAATCCTCGAGGCCCTAACCGGCGCAGGCATCCAAAGCATTGAGGTCACCCTCGGTACTCCCGGCTGCCTGGAGACAGTGGCTCGCTGGAGCCGGGCCCGGGCAGGCAATATCGGCGTTGGCAGCGTCCGGACGGAATCGGACGCCCGGCAGGCCATCGAAGCCGGTGCCCGTTTCCTTGTCACTCCGACGACGATGCCTCCAGTGCTGCAGGCAGCCCGGGAAGCACAAACCCCGGTGGTCTGCGGCGCCATGACCCCTACCGAAATAGACTCGGCCTGGCAGCAGGGCGCCACAGCGGTGAAGGTATTTCCCATTGATGCGCTGGGTGGTCCTGCCTACATTCGTGCCCTGCAGGGACCCATGCCGGACATCCCGCTGGTTCCCACTGGCGGCGTCGATGCCGAGCAGAGCAGGAACTACGCCCTCCTGGGCTGCGTCGGAGTCGGCGTCGGCAGCGCCATTGTGGAGGAAAAGACCGCCGCCACCGGTGATTGGGCCTCCCTGGCCCAGCGGGCCGCCGCATTCGTCCAGGCATGGCAGGCGCCTGGCCAGGCGGGACGTGGCGCAGGAACCGGAGCCTGA	MITPSDLGVIAIVRLRNIAAGDEILEALTGAGIQSIEVTLGTPGCLETVARWSRARAGNIGVGSVRTESDARQAIEAGARFLVTPTTMPPVLQAAREAQTPVVCGAMTPTEIDSAWQQGATAVKVFPIDALGGPAYIRALQGPMPDIPLVPTGGVDAEQSRNYALLGCVGVGVGSAIVEEKTAATGDWASLAQRAAAFVQAWQAPGQAGRGAGTGA	PGPT0002060_3693	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
D1-29_04281	1008	kdgK_3		2-dehydro-3-deoxygluconokinase	GTGGCGCAGGAACCGGAGCCTGAGGTGGCGTGGTCACCGGCGATCCGGCCGCTGGGCGGGCTGCTCGACGTTGTGGGAGTGGGTGAAGCGATGATGCTCCTGCAGGCCCCGCCGCCGTCGAGCATTAAGGAAGCACCCCACCTCGAGGTGAACGTGGCGGGCGCAGAATTCAACGCCTGCGCGGCCGTGGCGCGACTGGGCGGACGAGCGGCGCTGCTCACCAGCCTTGGCGACGACGCGCCGGGGCAGCGGGTTTGGCAAACAATGATGGAGCTTGGCGTTGAAACCCAGTTTGTCCGCGTGGATCCCGCCCGCCCCACCGGGATCTTCCTCAGGGAGACACCCAGCGATGGAAGCCGCCGGGTGTTCTACTACCGCCGGGGATCGGCCGCCTCGGCGATGGACGGCTCAGACGCGGACCGGCTGGTGGCGGACCAGGCGCCCCGCGCTGTGCTGCTGTCAGGGCTGACGGCGGCGCTCGGTCCGGGGCTGCGGGACCTGATCAAGAGAATTTCCTCGGATGCTGCCAGCCGCGGCAGTGCGGTGGTGGTTGATGTCAATCTTCGTCCCACCCTGGGCAGCATGGCAGAGGTCATCGCCACCATCCGTGACGTGCTTCCCCTCGTTGACCTCCTGGTCCTGGGTGACGACGAATCGCCGGAACTGTTTGGAACAACGTCGCCTGATGCTGTTTTCTCCGCCGCCGCTGAGGCGGGCGTCAAGGAGACGGTCCTGAAGGGCGCTGAGCGTGGCTGCTGGTTCCAGGGCGACGACGGCAAGCCTGTCCACCAGCCGGCCCTCGCGTCCCAGGTAGTGGACCCCATCGGCGCCGGCGATGCATTCTTGGGCGGGTATCTGGGCGCCCGGCTCGCGGGGATCCCGCCGGCTGGGGCGGCAATACTTGGCTCACAGTTCGCGGCGGGTGTTATTGCCTCGGTGGGCGACACCAACGGGCTTCCGGGTCCTGGGGAAGCGAAGTCGCTGCTGGAAGCCGTTTCGAAGGGCTGA	MAQEPEPEVAWSPAIRPLGGLLDVVGVGEAMMLLQAPPPSSIKEAPHLEVNVAGAEFNACAAVARLGGRAALLTSLGDDAPGQRVWQTMMELGVETQFVRVDPARPTGIFLRETPSDGSRRVFYYRRGSAASAMDGSDADRLVADQAPRAVLLSGLTAALGPGLRDLIKRISSDAASRGSAVVVDVNLRPTLGSMAEVIATIRDVLPLVDLLVLGDDESPELFGTTSPDAVFSAAAEAGVKETVLKGAERGCWFQGDDGKPVHQPALASQVVDPIGAGDAFLGGYLGARLAGIPPAGAAILGSQFAAGVIASVGDTNGLPGPGEAKSLLEAVSKG	PGPT0018060_489	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
D1-29_04282	573		COG5592	DNA nickase	ATGACGGAATCCAATGTTGGGCCGGGTTTGGATGTCGTCGACATCCTCACTGCCGACCACCAGGAAATGGTTGAGCTGTTCAGCCAAATTGGGGGCACCCCGGACGCCGAGCGGCGCAAGGACTTGGCAGACACCCTGATCGCTGAAGTGATGCGCCATGCGGTCGCAGAGGAGATGTACGTCTACCCAGCGATGGAGAAGCACATTCCGAACGGCGCTGAGGAGGTGGAGCACGATAAAAAGGAACATGACGAGATCGTTCAGCTGATGAAGCGGATAGAAGGCGTCGATCCTTCTGAGCCGACTTTCATGGAGCTGGTTGGGCAACTTGAGGCACAGTTGCGCCACCACGCGAACGATGAAGAATCCGAACAGTTCCCGAAACTCCGGACTCATATTCCTGCCGAGAAACTCGTCGAATTGGGCGAGAAGGTGCAGAAGGCCAAGAAACTGGCACCCACCAGGCCGCACCCCAGCGCACCCCACTCTGAGCTTTTCCACAAGACCGTCGGACCGGGTGTGGGCATGGTCGACCGGCTTTTGGACAAGCTCACAGGAAGACATACCGGCTAG	MTESNVGPGLDVVDILTADHQEMVELFSQIGGTPDAERRKDLADTLIAEVMRHAVAEEMYVYPAMEKHIPNGAEEVEHDKKEHDEIVQLMKRIEGVDPSEPTFMELVGQLEAQLRHHANDEESEQFPKLRTHIPAEKLVELGEKVQKAKKLAPTRPHPSAPHSELFHKTVGPGVGMVDRLLDKLTGRHTG				NA	NA	NA	NA	NA
D1-29_04283	453			hypothetical protein	ATGCTCAGTCTGCAGCAAGCCGGCATTTCTGCGAAACAGGGCCTTCCTGCCGTGAACGTCTGGTGGGACGATGCCAGTATGAGCGAGAAACAGCACCAGAATCCGCCGGAACCCAGCCACCATGTGGAGGGCTACGCCGGTACACCAAACACCCAGCAAATGCGCACCGTGGGCCAGCGCCGACGGGACGCAGAAGAGAAACTGGAGCACCATTTAGAGGAAGCACGGCACAAGGATCCCCATCACCACCACGGCACTCCCAAGGAGGAAGGCACCAAGAAGGAAACCGAGAACACCAAACAGGAGCAGGCTGACGCCGTCGAAAGTCCCGACGTCGCCGCTATTCAAAACGACGAGGACCTAACGGCAGCGGACCGCGTTGATCTGATCGCCAACCAGGTTGTTCCGGAAGCCGGGGAGAGTGATAAACCCGACGCAGCGGGCAAACCCTGA	MLSLQQAGISAKQGLPAVNVWWDDASMSEKQHQNPPEPSHHVEGYAGTPNTQQMRTVGQRRRDAEEKLEHHLEEARHKDPHHHHGTPKEEGTKKETENTKQEQADAVESPDVAAIQNDEDLTAADRVDLIANQVVPEAGESDKPDAAGKP				NA	NA	NA	NA	NA
D1-29_04284	1311	ftsH_3		ATP-dependent zinc metalloprotease FtsH	ATGACCTGGGCAGCCAAAACCACGGCAGCCATGCAGCCCTGGCACATCCGCGATTTCCATCCTGACGATCTGGACCAGCTCATCGGCGTCTGGCAGGAGTCCAGGATCGAGGGGGTGCATCCGGTCTACACCCTGGCGGAGATTATCGATGCCTGCTCAAATGGGGTTGCTGCTGTAGCCGTGACCGAAGGGAGGGTTGTAGGGGCGGCAGCCTGCAAAATACAGGACGACCGGGCATGGATGGTCATGCTCGCCCAAGCCGCGGACTGGCGGCAGCAGGGACTGGGCAGTGCACTCCTCGCAGGAATTGAAGGCAGGCTTACCAGCCAGCGGATTCGAAGGATCTCGGCGCTTCTCCCGGCCTCGGAGACCCGGATCGAGGCCTTCCGGAACAGCGAATACAGGGTAGAGGAGGACCTGCATTATTTTGAGAGGACCATTCCCCTTCAGCCTCGGGAAATCAAACCCTTGGGTCAGCTGGGAGGACGACTCCTCCCGCACGGACTATGGAATGCCCTGGCCGGCATGCAGCGTGAGAAGGACCTGATCGAACAGCGGTTGATCCTGCCATTGGCGCGGACTGAACTCGCCAAGTCCCTGGGCGTCATTCCGCCGCGTTCCGTGGTCCTTTTCGGCCCTCCCGGCACAGGAAAAACGACATTTGCAAAGGCCGTCGCATCACGCCTTGACTGGCCCTTCGTGGAGGTGTTCCCCTCTCGGCTTGCCTCCGACCCGCAGGGCCTCGCCGGGGCCTTGCGTAAAGTATTCCAGGACATTGGCGAGCTTGAGCACGCGGTGGTGTTCATAGACGAGGTCGAGGAGATAGCCTCCACCCGTAAAGGTGACGCATCATCGCTGCAGGGAGTCACCAATGAACTGCTGAAAATCATTCCGGCCTTCCGGGAGAAGGAAGGCAGGATACTGATCTGCGCGACGAACTTTATCCGGTCGCTGGACAAGGCGTTCCTGCGGCATGGCCGCTTCGATTATGTGATTCCCATTGGTCCGCCCGATCTCACGGCGCGGATAGCCATCTGGAAGCGCTACATCCCTCCCGCAATCTCGCCCCGGATCAATCTCGAAGCGCTGGCTCAGGCGAGCGAGCGCTTCTCCCCTGCGGACATCGAGTTCGCAGCCAGAAAAGCATCCCAGCAGGCACTTGAGCAGGCAGTGCAGGCCGCGACGATTTCTGGAGAACCGGCATTGACGACGGAGGCCTACCTTCAGGCCATCGACGGAACCCGTGCCACCGTCACTGAAGCGGTGGCCAAGGACTTCTTTGAAGATATAGACCGGATAGCGAGGGTTTAG	MTWAAKTTAAMQPWHIRDFHPDDLDQLIGVWQESRIEGVHPVYTLAEIIDACSNGVAAVAVTEGRVVGAAACKIQDDRAWMVMLAQAADWRQQGLGSALLAGIEGRLTSQRIRRISALLPASETRIEAFRNSEYRVEEDLHYFERTIPLQPREIKPLGQLGGRLLPHGLWNALAGMQREKDLIEQRLILPLARTELAKSLGVIPPRSVVLFGPPGTGKTTFAKAVASRLDWPFVEVFPSRLASDPQGLAGALRKVFQDIGELEHAVVFIDEVEEIASTRKGDASSLQGVTNELLKIIPAFREKEGRILICATNFIRSLDKAFLRHGRFDYVIPIGPPDLTARIAIWKRYIPPAISPRINLEALAQASERFSPADIEFAARKASQQALEQAVQAATISGEPALTTEAYLQAIDGTRATVTEAVAKDFFEDIDRIARV				NA	NA	NA	NA	NA
D1-29_04285	801	hyi_2	COG3622	Hydroxypyruvate isomerase	ATGACGTACACAGTGAACTGCTCCATCATGCTGACGGAGCTGCCCCTGCTCGAGCGGCCCGCCGCCGCCAAGGCAGCCGGCTTTGACGCCATCGAGTTCTGGTGGCCATTCGACACGTCCGTCCCCACAGACGCCCAGGTAAACGGGTTTGAGAACGCCATCAAGGACGCTGGCGTCCAGCTCACCGGACTGAATTTCAACGCCGGCAACATGCCGGGCGGTGACCGGGGCCTCGTTTCCTGGCCTGCACGGTCCGCCGAATTCCTGGACAACATCGACGTTGTGGCCGGCATCGGCGAGCGGCTCGGCTGCAAGGCCTTCAACGCCCTCTACGGCAACAGGATCGACGGCGAATCGCCCGAGAAGCAGGACGCCACCGGCGCAGAAAACCTCGCGGCGGCAGCAGCCGGCGTGGCGCGCATCGGCGGCACGGTCCTCCTGGAACCGGTGAGCGGCGCACCCAGGTATCCCCTCCTCACGGCTGAAGACGCGCTCAGGGTTATCGCCCGCGTCAAGGCCGAATCCGGCGCAACCAACGTCAAACTCCTCGCCGACTTCTACCACCTGGCAGTCAACGGCGACGACGTGGAATCCGTCATCGAAAACCACGCCAAGGACTTCGGCCACATCCAAATCGCCGACAACCCCGGCCGCGGGGCTCCCGGAACCGGTGAGCTTCCCCTCGGCGAGTGGATCGCCCGCAGCCGCGCACTCGGCTACACCGGCTACATCGGCCTTGAATACAAGGAACCGCAGGAAACAGCCTTCAACTGGGCCATCCGGCAGCGCGTCTCCAAGTAA	MTYTVNCSIMLTELPLLERPAAAKAAGFDAIEFWWPFDTSVPTDAQVNGFENAIKDAGVQLTGLNFNAGNMPGGDRGLVSWPARSAEFLDNIDVVAGIGERLGCKAFNALYGNRIDGESPEKQDATGAENLAAAAAGVARIGGTVLLEPVSGAPRYPLLTAEDALRVIARVKAESGATNVKLLADFYHLAVNGDDVESVIENHAKDFGHIQIADNPGRGAPGTGELPLGEWIARSRALGYTGYIGLEYKEPQETAFNWAIRQRVSK				NA	NA	NA	NA	NA
D1-29_04286	879	garR_3	COG2084	2-hydroxy-3-oxopropionate reductase	ATGAGCAACGTTGCAGTTATCGGACTCGGAATCATGGGCCTGCCCATGGCCATCAACCTGGTCAAGGCCGGCCACACAGTCACCGGCTTCAACCGCAGCCAGGACAGGATCGACAAGCTCGTCTCCGAAGGCGGCAAGGGCGCCGCCGGCATCGCGGATGCGGTCAAGGATGCCGACGTCGTCATCACCATGGTGCCTGACTCCCCCGATGTTGAGGGTGTGGTCAGCGGCGACGAAGGCGTCTTCGCCAACGCGAAGCAGGGCGCACTCTGGATTGACGCGTCCAGCATCCGCCCCGACGTCGCCAAGCGCCTCTCCGACGAAGCCCGCGAAGCCGGCATCCGCCCGCTCGACGCACCGGTCAGTGGCGGCGAACAGGGCGCCATCAACGCCGCCCTCTCCATCATGGTCGGCGGCGAGAAGGCAGACTTCGACGCAGCCTCGGACGTCCTGAACGCCGTCGGCAAAACCATCGTCCACGTCGGACCCTCCGGCTCCGGCCAGACCGTCAAGGCAGCCAACCAGCTCATCGTCGCCGTCAACATCGAAGTCCTCGCCGAAGCCATCGCCTTCCTCGAGGCCTACGGCGTGGACACCGACGCCGCGCTCAAGGTCCTCGGCGGCGGCCTGGCCGGCTCCAAGGTCCTGGACCAGAAGGGCCAGAAGATGCTGGACCGCAACTTCGACCCCGGCTTCCGCCTGGCCCTGCACCACAAGGACTTGGGCATCGTCACCTCAGCCGCCCGCGAAGCCAACGTCGCCGTCCCCCTCGGCGCCGTCGTCGCACAGCTCGTGGCCGCCACCGTCAACCAGGGCGACGGCGCACTGGACCACTCCGGACTCTTCAAGCAGGTCCTCCAGCTCAGCGGCCGCAGCTAA	MSNVAVIGLGIMGLPMAINLVKAGHTVTGFNRSQDRIDKLVSEGGKGAAGIADAVKDADVVITMVPDSPDVEGVVSGDEGVFANAKQGALWIDASSIRPDVAKRLSDEAREAGIRPLDAPVSGGEQGAINAALSIMVGGEKADFDAASDVLNAVGKTIVHVGPSGSGQTVKAANQLIVAVNIEVLAEAIAFLEAYGVDTDAALKVLGGGLAGSKVLDQKGQKMLDRNFDPGFRLALHHKDLGIVTSAAREANVAVPLGAVVAQLVAATVNQGDGALDHSGLFKQVLQLSGRS	PGPT0018170_839	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
D1-29_04287	1791	gcl	COG3960	Glyoxylate carboligase	ATGAGCAAGATGCGTACCGTTGATGCAGCGGTGGCCATCCTGGAAAAGGAAGGCGCCATCGAGGCGTTCGGCCTGCCAGGCGCCGCCATCAACCCCTTCTATTCCGCCATGCGCGCCCACGGCGGAATCCGGCACACGCTGGCCCGCCACGTTGAAGGCGCCAGCCACATGGCCGACGGCTTCAGCCGCGCCAAGGACGGCAACATCGGCATCTGCATCGGCACCTCCGGCCCCGCAGGCACCGACATGATCACCGGCCTCTACGCTGCGTGGGCCGATTCCATCCCCATGCTCTGCATCACCGGCCAGGCCCCCGTGGCCAAGCTGCACAAGGAAGACTTCCAGGCCGTGGACATCGAGTCCATCGCCAAGCCCGTCACCAAGATGGCCATGACCGTGCTGGAGCCGGGCCAGGTTCCCGGCGCCTTCCAGAAGGCCTTCCAGCTGATGCGCTCGGGCCGCCCCGGCCCCGTGCTGCTGGACCTGCCCATCGACGTGCAGTTGGCCGAAATCGAATTCGACATCGACACCTATGAGCCCCTGCCCGTCGAAAAGCCCAAGGCCTCCCGCAAGCAGCTGGAAAAGGCCCTGGACATGCTGACTGCCGGCGAGCGGCCGCTGATCGTGGCCGGCGGTGGCATCATCAACGCCGGTGCGTCCGCGCAGCTGGTGGAACTGGCCGAAATCCTGAATGTTCCGGTGATCCCCACGCTGATGGGCTGGGGCACCATTCCGGACGACCACCAGCTCATGGCAGGCATGGTGGGCCTGCAGACGAGCCACCGCTACGGCAATGAGAACTACCTGCGCAGCGACTTCGTCATCGGCATCGGCAACCGCTGGGCCAACCGCCACACCGGCGGCCTGGACACCTACACTGCCGGCCGGAAGTTCGTGCACATCGACATCGAGCCCACGCAGATCGGCCGGGTGTTCTCGCCGGACCTGGGCATCGCGTCCGACGCCGGTGCGGCGCTGGCCGGGCTGGTTGAGCTCGCCCGCGAGCGCAAGGCGGCAGGGTCCCTGCCGGACTACAGTGCCTGGGTTGCCGAATGCCAGGAGCGCAAGGCGTCCCTGCACCGCAAGACCCACTTCGAAAATATCCCCATCAAGCCGCAGCGCGTTTATGAAGAGATGAACAAGTCCTTCGGCCGCGACACCATCTACGTGTCCACCATCGGGCTGTCCCAAATCGCCGGCGCGCAGATGCTGCACGTGTTCGGCCCGCGCAAGTGGATCAACGCCGGCCAGGCAGGGCCCCTGGGCTGGACCGCTCCGGCAGCCCTCGGCGTCGTGCGTGGCAAGCCTGACGAGACGGTTGTTGCCCTCTCCGGTGACTACGATTTCCAGTTCATGATCGAGGAACTGGCCGTGGGCGCGCAGTTCAACCTGCCGTACATCCACGTGGTGGTGAACAACTCCTACCTGGGCCTGATCCGCCAGTCCCAGCGCGGCTTCAGCATGGAGCAGAACGTGTCACTGGCGTTCGAGAACATCAACAGCGCGGACCTGTCCGAAACCACCCGCGGCTACGGCGTGGACCACCTGAAGGTGGCCGAGGGCCTGGGCTGCAAGGCCGTCCGAGTGGAGGACCCCAACGACCTCGCCGCCGCGTTCGACAAGGCCAAGGCCCTGATGGGTGAGTTCCAGGTTCCCGTGGTGGTTGAGGTGATCCTGGAAAAGGTCACCAACATCTCAATGGGTGTGGAAATCAACGCCATCAACGAGTTCGAGGAACTGGCCGAGACCGCCGCGGACGCGCCCACCGCCATCCTGGCCCTGCAGGCCTAA	MSKMRTVDAAVAILEKEGAIEAFGLPGAAINPFYSAMRAHGGIRHTLARHVEGASHMADGFSRAKDGNIGICIGTSGPAGTDMITGLYAAWADSIPMLCITGQAPVAKLHKEDFQAVDIESIAKPVTKMAMTVLEPGQVPGAFQKAFQLMRSGRPGPVLLDLPIDVQLAEIEFDIDTYEPLPVEKPKASRKQLEKALDMLTAGERPLIVAGGGIINAGASAQLVELAEILNVPVIPTLMGWGTIPDDHQLMAGMVGLQTSHRYGNENYLRSDFVIGIGNRWANRHTGGLDTYTAGRKFVHIDIEPTQIGRVFSPDLGIASDAGAALAGLVELARERKAAGSLPDYSAWVAECQERKASLHRKTHFENIPIKPQRVYEEMNKSFGRDTIYVSTIGLSQIAGAQMLHVFGPRKWINAGQAGPLGWTAPAALGVVRGKPDETVVALSGDYDFQFMIEELAVGAQFNLPYIHVVVNNSYLGLIRQSQRGFSMEQNVSLAFENINSADLSETTRGYGVDHLKVAEGLGCKAVRVEDPNDLAAAFDKAKALMGEFQVPVVVEVILEKVTNISMGVEINAINEFEELAETAADAPTAILALQA				NA	NA	NA	NA	NA
D1-29_04288	1200	glxK	COG1929	Glycerate 3-kinase	ATGCGGATCGTCATTGCCCCGGATAAATTCAAGGGATCGGCCTCGGCACCGGACGTGTGCAGGCACCTGGAAAAGGGGCTGCAGCGCGCTGCCGGCGGCAAGCTGGAGGTTCTCCGGATTCCAGTAGCCGACGGCGGCGAGGGCACCCTCGACGCCGCCGTCGGCTCCGGCTTCACCCGCCGGAGCGCCACGGTCAGCGGGCCTACCGGCCAGCCGGTCGAGGCGGATTTCGCGGTCCGCGGCCACGAGGCAGTCATTGAGATGGCGGCGGCCTCGGGCCTGGCCCTCCTCCCCGCCGGCGCGCTGGTTGGCGGACGGCCCGGCGCCACAGCGGCCACCACCGCGAGCAGCCTGGGCACCGGGCAGCTGATCCGCGCCGCGCTGGATGCCGGCTGCCGCCGCATCGTCCTGGGTGTTGGGGGGAGTGCGAATACCGACGGCGGTGCGGGGCTCCTGCAGGGGTTCGGCGCCAGGTTGCTGGACGCAACGAACAACGAACTGCCGCCGGGCGGAGCGGCGCTGGCCAACCTGCACAGCATCGACTTCACCCACTTTGAACCCCGCCTGGTAGACGCCCGCTTTGTGCTGGCCTCCGACGTCGACAATCCCCTGCTGGGCGCCCAGGGCGCCGCCGCAGTTTTTGGGCCTCAAAAGGGCGCAACACCGCAAGATGTCGAACTCCTCGACGCCGCCCTGGCCAGGTTTGTCGAAGTCCTGGCCAGGGAAATCGGAATCCGTGCCATCAAAGCCGCAGAGGCTCCGGGCGCCGGGGCGGCAGGTGGGGTGGGCTTCGCTGCAATAGCGGCCCTGGCCGCCAGCCGCCGCCCGGGCATCGACGTCGTGCTTGAATTCACGCAACTGGCGCGGCGGTTGGAGGGCGCGGACCTGGTGATCACCGGGGAAGGCAGCCTGGACGAACAAAGCCTGCTGGGCAAAACCCCTCTGGGCGTGGCCAGGGCGGCTGCGGCAGCCGGCGTGCCGGTGATTGCCGTGTGTGGGCGTACCACGCTTGACGCCGGACAGCTGGTGGAAGCCGGGTTCCAGGATGTTTACGCTTTGACTGGGCTTGAAAGCAATGTAGACAGGTGCATAGCAGAGGCGGGACGGCTGCTGGAGCAGCTGGGCACGCAGATCGGCGGACGGCTGGCGGCCAACAGGCTGCCAGAGCCCGCACGCAGTAAGGAGGACCTCCATGTCTGA	MRIVIAPDKFKGSASAPDVCRHLEKGLQRAAGGKLEVLRIPVADGGEGTLDAAVGSGFTRRSATVSGPTGQPVEADFAVRGHEAVIEMAAASGLALLPAGALVGGRPGATAATTASSLGTGQLIRAALDAGCRRIVLGVGGSANTDGGAGLLQGFGARLLDATNNELPPGGAALANLHSIDFTHFEPRLVDARFVLASDVDNPLLGAQGAAAVFGPQKGATPQDVELLDAALARFVEVLAREIGIRAIKAAEAPGAGAAGGVGFAAIAALAASRRPGIDVVLEFTQLARRLEGADLVITGEGSLDEQSLLGKTPLGVARAAAAAGVPVIAVCGRTTLDAGQLVEAGFQDVYALTGLESNVDRCIAEAGRLLEQLGTQIGGRLAANRLPEPARSKEDLHV	PGPT0018175_226	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
D1-29_04289	1344	allB	COG0044	Allantoinase	ATGTCTGAAGAGCGCTTTGACCTCGTCATCCGGGGTCAGCGGATCCTCACCACCGCCGGCATCGCGGCCCGTGAGGTGGGCGTCCGCGGCGGCAGGATCGTTGCCATCGAGCCGCTGGGCAACGGGCTGACCGGCGCCGAGATCATCGAACTTGCCGACGACGAAACACTGCTTCCGGGCCTGGTGGACACCCACGTCCATGTGAACGAGCCCGGCCGCACCGAGTGGGAGGGCTTCGCTTCCGCCACCCGCGCCGCGGCAGCCGGCGGCGTTACCACCATCATCGACATGCCGCTGAACTCCATCCCGCCCACCACCACGGTGGCAGGCCTCAAGCTCAAGCGCGAAGTCGCGGAGGACCAGGCCTTCGTGGACGTCGGGTTCTGGGGCGGTGCCGTGCCAGGCAACAAGGCCGATCTCCGTCCCCTGCACGATGAGGGTGTGTTCGGCTTCAAATGCTTCCTCCTGCACTCCGGCGTGGACGAGTTCCCGCACCTGGAGGCGGATGAGATGGAGGAGGACATGGCCGAGCTGAAGTCCTTCGATTCCCTCATGATCGTCCATGCCGAGGATTCGCACGCCATCGACCACGCTCCCCACCCGGGCGGCGACCAGTACTCAACGTTCCTGGCTTCCCGCCCCCGCGGCGCGGAGAACAAAGCCATCGCCGAGGTCATCGAACGGGCCCGCTGGACCGGTGCGCGGGCGCACATCCTGCACCTGTCGTCGTCGGACGCGCTGCCCATGATCGCCACCGCAAAGCGCGACGGCGTCAAACTCACCGTGGAGACGTGCCCGCACTACCTCACCCTGGTGGCCGAGGAGATCCCCAACGGGGCCACCGCCTACAAGTGCTGCCCGCCCATCCGCGAAGCGTCCAACCGGGAGCTGCTGTGGCAGGGCCTGCAGGACGGCACCATCGACTGCATCGTCTCGGACCACTCCCCCTCCACACTGGATCTGAAAGACCTGGAGAACGGTGACTTCGCCGTCGCCTGGGGAGGCGTTTCTTCGCTCCAGCTGGGCCTGTCGCTAGTTTGGACCGAGGCCCGGCACCGTGGCATCCCGCTGGAGCAGGTGGTCAGCTGGATGGCCGCGAAGCCGGCCGCCCTGGCCCGGCTTTCCACCAAGGGCCAGCTGGCGCTGGGCTACGACGCCGACTTTGCGGTTTTTGCCCCAGACGAGGCGTTCGTGGTGGACGCCTCCAAGCTCAAGCACAAAAACCCCATCACCCCGTACGACGGCAAAGCGCTCTCCGGTGTGGTCCGCCAGACGTTCCTGCGCGGGAACCGGGTGGACGGCAAAACCCCCATCGGCAAGCTCATCCGCCGCGGCGGGGTCTGA	MSEERFDLVIRGQRILTTAGIAAREVGVRGGRIVAIEPLGNGLTGAEIIELADDETLLPGLVDTHVHVNEPGRTEWEGFASATRAAAAGGVTTIIDMPLNSIPPTTTVAGLKLKREVAEDQAFVDVGFWGGAVPGNKADLRPLHDEGVFGFKCFLLHSGVDEFPHLEADEMEEDMAELKSFDSLMIVHAEDSHAIDHAPHPGGDQYSTFLASRPRGAENKAIAEVIERARWTGARAHILHLSSSDALPMIATAKRDGVKLTVETCPHYLTLVAEEIPNGATAYKCCPPIREASNRELLWQGLQDGTIDCIVSDHSPSTLDLKDLENGDFAVAWGGVSSLQLGLSLVWTEARHRGIPLEQVVSWMAAKPAALARLSTKGQLALGYDADFAVFAPDEAFVVDASKLKHKNPITPYDGKALSGVVRQTFLRGNRVDGKTPIGKLIRRGGV	PGPT0000870_998	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0000870-allB-K01466	NA	NA
D1-29_04290	375			hypothetical protein	ATGACTGTGGTGGCCGACGGCGGCACCCGGCTTCCGCCGTCGCGCGGCCCTGTCAGCCGGGTGGCCGTTGATCTGGCGGCCGGCCAGGTCCTGCTGGACGGCCGGGAGGTTCCGTTGTCCGGCGTCGAATTCCAGCTGCTCCGCTACCTCGCGGAGAACTGTTCGCGCGCGATCGACAGGACAGAACTTCAGCGGTTCCTTGACTCTTTTGATACCCCCGGCGCTTCGCTCCGGGCCATTGACGTGTATGTGGGGAGGCTGCGGCGGAAGCTCGGAAATGCAGGCCATGCAGTCACCACCGTGCGGGGCCGCGGATACAGGTTTATCCAAGGTCCGTGTGCCACCATTCGCGGACCGGCGGAATACTGCATATGA	MTVVADGGTRLPPSRGPVSRVAVDLAAGQVLLDGREVPLSGVEFQLLRYLAENCSRAIDRTELQRFLDSFDTPGASLRAIDVYVGRLRRKLGNAGHAVTTVRGRGYRFIQGPCATIRGPAEYCI				NA	NA	NA	NA	NA
D1-29_04291	480	bcp_2	COG1225	Putative peroxiredoxin	ATGAGCCCCACACTGACCACCAAGCTTCAGCCCGGAACCCAGGCCCCTGATTTCTCCCTGAAGGACGCCAAAGGCAACACCACGTCCCTGGCCGCCTACCGCGGCAAAAACGTCATCGTTTACTTCTACCCGGCGGCGGCCACCCCCGGCTGCACCACTGAGGCCTGCGACTTCCGTGACAACCTGGCTTCCCTGCAGGGCTCCGGTTATGAAGTTATCGGCATCTCACCCGATGCACCGGAAAAGCTGGCCAACTTCACGGGTGATTTTGGCCTGACCTTCCCGCTGCTCTCGGACGAGGATCACCGGGTGGCACTGGCCTACGGCGCATGGGGTGAGAAGCTGGTGAACGGCGAAATCACCGAAGGAATCGTCCGCTCCACGGTTGTCCTTGATCCCGAGGGCAAGGTCACGCTGACCCAGTACCAGGTCAAGGCCGAGGGCCACGTCGCTGCGCTCAAAGAAGCGCTGGGCGTCTAG	MSPTLTTKLQPGTQAPDFSLKDAKGNTTSLAAYRGKNVIVYFYPAAATPGCTTEACDFRDNLASLQGSGYEVIGISPDAPEKLANFTGDFGLTFPLLSDEDHRVALAYGAWGEKLVNGEITEGIVRSTVVLDPEGKVTLTQYQVKAEGHVAALKEALGV	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
D1-29_04292	678	ecsA	COG1131	ABC-type transporter ATP-binding protein EcsA	ATGGGGGATGTGCTTGAAGCGGAGCGATTGTTGGTGGGGTATGCCGGGGCTCCGGTATGTGGAGAGGTCTCCTTCGGTGTTGCTGCCGGGAAGGTCCTGGCGGTGGTGGGTTTCAATGGTGCCGGTAAGTCCACGGTGGTTCGCACCTTGGCTGGTCGTCAGGACCCCTTAGCCGGAGACGTGCGTGTGAATGGGTTGCCGGTGATGCCTGACGCAGTGTGGTTCCGGCGTCACGTCGCGGCTGTATTCGATGAAGATGTCTTCTTCCCTTCGTTGACGGTCCGTGAGCATCTGCTGTTGGTGGCGCGGGGTCACTCGCTGCGCTCCCCTGACGATGCGGTCGAGGCTGAGTTGAGCTTTTTCGGGCTCGCAGAGCGGTCGCATGCGGTTCCTGACGCGCTGTCCTCGGGCCAGCGCCGGCGATTGCTCCTGGCCGCTGCTTTCATCCGGCCGTCATCTCTGTTGATTCTCGATGAGCCGGAGCAGCGCCTGGATCCGGTGATGAGGGACGCGCTTGCCGAACGCATTCAACAGCTCGCCGATGCTGGCACCACCGTAGTGCTTGTTACGCACGACCCCCGATTGCTCGTTCAGACAGCAACCGACTGTCTGGTCATCGATGAGGTTGTCGAGACAGTTGATACGGAACGAGGTGCGCAGATCATTGCTGGCGCCTGA	MGDVLEAERLLVGYAGAPVCGEVSFGVAAGKVLAVVGFNGAGKSTVVRTLAGRQDPLAGDVRVNGLPVMPDAVWFRRHVAAVFDEDVFFPSLTVREHLLLVARGHSLRSPDDAVEAELSFFGLAERSHAVPDALSSGQRRRLLLAAAFIRPSSLLILDEPEQRLDPVMRDALAERIQQLADAGTTVVLVTHDPRLLVQTATDCLVIDEVVETVDTERGAQIIAGA	PGPT0006725_27984	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-29_04293	1161			hypothetical protein	ATGTCCGATGGGGACACGTCGCGCCTTGTAAGAGAGGTCGTCCGTTTCACCCGGACCAGGACCCGGCGGTACAACAGGGCCCGTTCATCACTCCGCGACATCTTCGTGGATGTGTACTCGTACGCCTTGGCCGGAGGCTGCGTCCTCATGCTTGCAGGGTCACTCATCGTGGCGCTCCGCAACGAAATTGCGGGGCTTAGCCTGGGTGCGCTGAGCCTGACGGCGGCACGGTGGCAGGTGTTGCCTGCGGAGTTCCTGTGGATGTTTTTGACCTACCTGGCACTAGTCGCAATCGCACTGACAGCCCGTCGGCTTGGACCGGTAACGGTCAGCCGTGCGGAAGGCGCGTGGTGGTTGCTGCTGCCGATTGACCGGCGCCTGATGGTCCTTCCTTCCTTTCGTTCCCGTCTCGTGGCGTCTGGCGCAGCGGCTTCGGTCGCCTACATGCCTTTCAGCCTGCTGACTGCTATCGACCGGTCCGCCTGGGCGCACGCCGGCTCAGCGGCAACCTTTGGACTCGGAGCCGTACTCGCTGTTGCCAGCGCAGCGATCCTGCAACGCACTCCAACATCGTCCGGGGCCCAGTGGGTGGCGATCTTCGCCGGCTTCATCCCCGTAGCCGTCCTGCCTTTCCTGGCTCCTGCTACATGGCCGCTCGTTTTGGCGCTCGTCGCAGCGGTGGCTCTCGTCGCGCATGTGCTTCCCCGCCTGGGTGATGTGCGTGGTGTCGAGCTGTTGCGTGGCGGTGCTGTTTCAGGCCACGCCGCCGCGTCCATCTTCTTTGTCGACGTCAACGAGTTGCGCCGGGCCCTAACTTCAGAACCGCGCCCGGGCATCAGCAGGCGCGGATCACGGTTCTATGGGAGGCCTACCCGTTGGCCCTTCGCTGCCGTGGTGCGCGCCGATATCGTGGCGTTCCTACGCCTGCAGCCCGCACCCACAGTTCCGCTGCTGGCGTTGGGTATCTGCGTAAGCGTCGCCCTGATCACTCCGGCCCTTCCCGTGCTGCTCCAGCTAGGCGTGATCCTCGTTGCTGGTTGCCTTACGACTGCGGGAACAGGGACAGTACTCGACGGACCGCCGTCGTCATCGCGCTCGACTCGCTTCTGCCCGTCAGCCCGGCGCTGGTGCGCTGCAGCCGATTGCTCATGCCCGCTTTAA	MSDGDTSRLVREVVRFTRTRTRRYNRARSSLRDIFVDVYSYALAGGCVLMLAGSLIVALRNEIAGLSLGALSLTAARWQVLPAEFLWMFLTYLALVAIALTARRLGPVTVSRAEGAWWLLLPIDRRLMVLPSFRSRLVASGAAASVAYMPFSLLTAIDRSAWAHAGSAATFGLGAVLAVASAAILQRTPTSSGAQWVAIFAGFIPVAVLPFLAPATWPLVLALVAAVALVAHVLPRLGDVRGVELLRGGAVSGHAAASIFFVDVNELRRALTSEPRPGISRRGSRFYGRPTRWPFAAVVRADIVAFLRLQPAPTVPLLALGICVSVALITPALPVLLQLGVILVAGCLTTAGTGTVLDGPPSSSRSTRFCPSARRWCAAADCSCPL				NA	NA	NA	NA	NA
D1-29_04294	162			hypothetical protein	ATGTCATCTCTCCTGCGGGGTACGGACATCACGGTCCTGGCGATGGTTCCGGTCCTGCTCGCCCTGTTTCTAGGCTCTGTTCATCCATGGCTGGCCCTCGCCCAAGGCGTCGTCACCGTGGGGGCTGTCATCGCACAAGCCTCAGCCTCGACCGTCCGATAA	MSSLLRGTDITVLAMVPVLLALFLGSVHPWLALAQGVVTVGAVIAQASASTVR				NA	NA	NA	NA	NA
D1-29_04295	297			hypothetical protein	ATGGCCAGCGATGTCGATTTAGTGGTGCTAAGCGACACTCCCAGAAGCCTTGAAGACGCGCGATGGTTCGAACAACTCCATCCTGGGGCGCGTCTCATCCGCTCGGAGGTATGGGGGCCAGTACGCGAAAGAAGATTTCGGTTGGCATCAGGATTGATCGTGGAATTGGGCATCGCTCCCTCCAGCTGGGCTGATACGCCCTTAGACGAAGGAACGCGTCGAGTCCTCAGCGATGGCCACCGCGTTCTGTACGACACAGGCCTCCTCGAAAGTGCTGCCGCAACCGTCACCAGGTAA	MASDVDLVVLSDTPRSLEDARWFEQLHPGARLIRSEVWGPVRERRFRLASGLIVELGIAPSSWADTPLDEGTRRVLSDGHRVLYDTGLLESAAATVTR				NA	NA	NA	NA	NA
D1-29_04296	261			hypothetical protein	TTGGACACCAAAGAGCGTTCCATCGAGCGGTTCAACGGCCGTGGCATGGGGGAGGATGTTCCCTGGCACGAGCAGATCAAGGCAATCGTGGAGCAAGGCGGCGGTTCGCGACTACTGGGGACCCTGTACGACGATCTGGCCCGCGGGCTTCACACGCGACCGTCCGCTTCTGTCATCCGCAGTACCCATGGAGCCATCGAAGAGACCTACGCGAACTTGATACGTGCGCTTGCGCCAGATCGAGCCAAGCCGCCGTCATAG	MDTKERSIERFNGRGMGEDVPWHEQIKAIVEQGGGSRLLGTLYDDLARGLHTRPSASVIRSTHGAIEETYANLIRALAPDRAKPPS				NA	NA	NA	NA	NA
D1-29_04297	303			hypothetical protein	ATGAAGAAGTTCGTGCGAGCACTGGCAAGTGACATCCTCGGTGCTGTCGGTCCAGGGCGCCGGTTAGTGGCAGTCGACGGGGTGGATGGCAGCGGCAAAACATTCTTCGCGGCTAACCTGGCATCCGAGATTCAGAATCGACCCGTGATCACCATCCACGCCGACGACTTTCTGAACCCCTCGCCCTCAATGCTCGTATCGATGGTTACGACACCAACGAGCTCAACCCAGAGCCTCACAGAATCAGCCGGTAAGCGTTGTGGGCGCCCAACGCCGAATGACAGGATGGCGGAATGGGGATAG	MKKFVRALASDILGAVGPGRRLVAVDGVDGSGKTFFAANLASEIQNRPVITIHADDFLNPSPSMLVSMVTTPTSSTQSLTESAGKRCGRPTPNDRMAEWG				NA	NA	NA	NA	NA
D1-29_04298	573			hypothetical protein	ATGGGGATAGAAATTCGGCCGGCCACGGAGTTTGAGGACCTGAAGGCGGTGGTGGGACCCAAGCGGCCCGACGCCAACGTCTGTTGGTGCCTGAGCTACCGCATCCCTTCCAAGCTGAACCTGGAGCTGCAGGGCCCGGCCCGCGGCGACCTGGTGAAGGAGCTGGTGGCCCAGGATCCGCCACCCGGCGTACTTGCGTACGACGGCGGCGACGTGGTGGGCTGGGCGGCTGTCCACCCCCGCTCGGACACCAGTTTTGCCCGCAACCGCAAAATACCGCACGTGGATGAACTCGACGTCTGGTCCGTGTGGTGCATCCGGGTCCGGCCCGGGCACCGCGGCAAGGGAATTTCACATCACCTGCTGGAGGGCGCCGTCGCCATGGCCCGCGCGTACGGCGCGCCTGCCATCGAGGGTTACCCCGTGGATAACAACGGCGAAAAGGTGGACCTCACTATGGCCTATGTGGGCACCCGCCAGCTTTTTGAACGGGCCGGGTTCGTCAAGGCCGCCGATACAGACTCCGTGCTCAACGGATTCCCGCGGGTGCTCATGCGCCTGGACTTGCGCTGA	MGIEIRPATEFEDLKAVVGPKRPDANVCWCLSYRIPSKLNLELQGPARGDLVKELVAQDPPPGVLAYDGGDVVGWAAVHPRSDTSFARNRKIPHVDELDVWSVWCIRVRPGHRGKGISHHLLEGAVAMARAYGAPAIEGYPVDNNGEKVDLTMAYVGTRQLFERAGFVKAADTDSVLNGFPRVLMRLDLR				NA	NA	NA	NA	NA
D1-29_04299	144			hypothetical protein	ATGCTGCTTATCGGGTGGGGCTATCTGATTGCCGGCCTCATGACGGTGGATGGGCTTCTTTTGGCCCTCTGGCTAATGGACATGGACTGGCCCAGGCGCTGGAAAAAAATAGCACGATTATGGAAGAAAATAGCGCGGCGCTGA	MLLIGWGYLIAGLMTVDGLLLALWLMDMDWPRRWKKIARLWKKIARR				NA	NA	NA	NA	NA
D1-29_04300	303			hypothetical protein	ATGCGGAGAATTCAAACCGGGTGGAAGCTGGTGGCCGTTGTGCTGTGGCTTTGGGAACTGGTGGACACGGTGAGGAAACGCCACTATCCCCAGCGAACCTTTCACTACCTGAAGCATTCATGGCGGATCCGTTTGCTTTCGCGTGCCCTCGCCAAAGCCCTGGGGGACTCCAGGGAGGCCTCGAGCTGGCCCGGCGACAGGCTGGCGGTGGGGGTTGAATTCTCGGAGAAAGTCGAGCGGCTCACCCGTCTCGTCAACCGTGAGAACGAAGTCCATGGTCGAGTAGTGGCCCTCCTGAAGTAG	MRRIQTGWKLVAVVLWLWELVDTVRKRHYPQRTFHYLKHSWRIRLLSRALAKALGDSREASSWPGDRLAVGVEFSEKVERLTRLVNRENEVHGRVVALLK				NA	NA	NA	NA	NA
D1-29_04301	1116	cheB_2		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGCCTTACCTTCCCGAAACGCGCCGTGCCGTTGTGATTGAGGATGACCCGGACATCCGCGGACTGCTGGTGCGGGTCCTGACCAAGCAGGGATTCGACGTCACTGAGGCCGCTGCTGGCTTGCCCGGCGTGGAGGAAGTCCGCAGGGCCAAGCCGGACCTGGTCACTTTGGACCTGAACCTGCCCGATCTTGACGGCCTTGAGGTCTGCAAGCTCCTTCGCGAATTTTCGGACGCCTTTATTGTGATGCTCACGGCGCGGACGGATGAGCTGGACAAACTGACGGGGCTGGATAACGGCGCCGATGACTACATCAGCAAGCCGTTCAGCCCCCGGGAACTCCAGTCCCGGGTCAATGCGCTCTTCCGGCGCCGCCAACCCACGGCGGTGGTGGACCCCGCCGCCCAGGATGAACTTACGCGGGCCACCGAGGTGCAGCAGAGCCTGCTGCCCAAGGAGGACGTCAGAGTGGACGGTTACGATCTCGCCGGGATGTTCCGCCCCTCCCGCAGCGTGGGCGGGGACTTCTACGACTGGTACCGGACGCCTGACGGGCTGCACCTGACCTTCGCCGATGCGATGGGCAAGGGCATGGGAGCAGCCCTCATCGCTGCCACTGTCCGTGCTGTCATGCGCTCCATGGGTCCCCTGACGGATCTGGACGAAGCGTTTAGGGCGGCGAGCACGTCGATCGCGTCCGACCTCGATTCGTCCAGCTCATTTGTGACCCTGTTCCATGCCCGCCTTGATGCCGCTTCCGGCACCGTCAGTTATGTCGACGCCGGCCATGGGCTTGCACTGCACGTGGACGCCGGCGGGACGGCCCGCCGTCTTGCCTCCGGCGGCCCACCCGTGGGGGCATGGGGCGGTTCCATCTGGCCGCAGTCCGCACTGGTCCTGGCTCCGGGCGATTCCCTGGTGGTGGTCAGTGACGGCGTGCTGGATGTCTTTGATTCTGTGGATGCTTTCACGGAGGCAGTGCTGCAGGCAACGCACGGCCAGGAGTCGGCTGTCTCCGCCAGTGATGCCATCCTGTCCCTGGCACCGGCGGAATCCGCCGAGGATGACGTCACTGTGGTGGTGGTACGGCGGCTTCCGGTGACAGCCGGAGCATGA	MPYLPETRRAVVIEDDPDIRGLLVRVLTKQGFDVTEAAAGLPGVEEVRRAKPDLVTLDLNLPDLDGLEVCKLLREFSDAFIVMLTARTDELDKLTGLDNGADDYISKPFSPRELQSRVNALFRRRQPTAVVDPAAQDELTRATEVQQSLLPKEDVRVDGYDLAGMFRPSRSVGGDFYDWYRTPDGLHLTFADAMGKGMGAALIAATVRAVMRSMGPLTDLDEAFRAASTSIASDLDSSSSFVTLFHARLDAASGTVSYVDAGHGLALHVDAGGTARRLASGGPPVGAWGGSIWPQSALVLAPGDSLVVVSDGVLDVFDSVDAFTEAVLQATHGQESAVSASDAILSLAPAESAEDDVTVVVVRRLPVTAGA				NA	NA	NA	NA	NA
D1-29_04302	1971			hypothetical protein	ATGACAAGGTTCTGGACCCGGCTGATAGTAGTACTGACGGTTGTCCTCGGCTTGAATTATGTGGCCTGGCGCTGGTCAGCCTCGCTGAACTGGGACGCGTGGTGGATCTCGGTTCCGCTGGTGATTGCAGAAACCTACAGCCTCATCGACGTCATGCTGTTTGGCATGACGGTGTGGAAACTGAAGCTGCGCAAGGGCGCCCCGGAGGCACCCGGGGATGCCACCGTGGACGTTTTCATCACCACCTACAACGAGCCGCTGGATATGGTGATGACCACAGCCCTGGCCGCCCAACGGATCCGCCACCCGCACAGCACCTGGATCCTCGACGACGGCTCCCGCCCGGAACTCAAAGCCCTTGCCGAGGAGCACGGTCTGGGGTACGTCACCCGCAGCGAGGACTGGACCTCGAACGTGCCCCGGCACGCCAAGGCAGGCAACCTAAACAACGCGCTGATGCAGACGCACGGCGAGTTCCTCCTGATCCTGGATGCGGACCAGATCCCTGAGCCGGACATCCTGGAAAAAACCCTGGGCTACTTCAACAACCGCCGCGTGGCGCTGGTCCAGACGCCGCAGTACTTCAGCAACGTTCCTCCCTCAGACCCCCTGGGCAGCCAGGCTCCCCTGTTTTACGGCCCCATTCAGCAGGGCAAGGACGGCTGGAATGCGGCCTTCTTCTGTGGTTCCAACGCCATCCTGCGCCGTGAGGCCCTGATGCAATTGGGCCTGGTGGGTTACGTCAAGGAGACCGAAAAGAGCATCCGGCGGGCCCTGGCGGCCTCCCGGTCTGCCATCCGGCAGGCCAGGAAATCGGCGGACATGGAATCGCCGCTGGTGGCCCAGGTGCTGGACGAGGTAGAGACCGCCACGCTGAAGGCCCAGCAGGAGCTGGACACGGGGGCGCCGCTGGGCGAAATCACGTACCGCGTCCGCCGCCGGGTTGACCAGGCCGTCCAAGCACTGGTGATGGCTGACGTTTCGGCCCTCCAGGCGGACCTTGAGGAGATCGCCGCCATGGAGCTCGCCCATGTTGGCGAAGCCGGGGTACCGGTGGTGGCCGATGACGCCGTGAAGCGGATGGCAGCCCGCGACTGGTCCCCGCTGGGCGCCCTGGAATCCGTGCAGGCAGTGCTGGATGCGCTGTCGGTAGAGCGTAATGACGAGGCACAGCCGGTGATGCCGCTGGCCACCATCTCCGTCACCGAGGACATGGCCACCGCGATGCGCATGCACTCCATGGGCTGGGAAAGTGTCTACCACCACGAGATTCTTGCCTACGGGCTGGCGCCGGAAGATCTCAAGACCATGCTGACCCAGCGGCTCCGCTGGGCACAGGGAACCATCCAGGTGATGCTGCGGGAAAACCCGCTGGTCCAGCGCGGCCTCAAACTTGGCCAGCGCCTGATGTACTTCGCCACCATGTGGACCTACCTCAGCGGATACGCGGCCGTCATCTACTTCGCCGCCCCCATCATCTACCTGCTGCTGGGTATCCTGCCCGTGACGAGCCTGAGCACGGACTTCTTTGTCCGCTTCATCCCCTTCATGGTGGTGAACCAGCTGCTGTTCGCCGTGGCCGGACGCGGGATCAGCACCTGGCGCGGCCAGCAGTACAGCCTGGCGCTGTTTCCCACCTGGATCAAAGCCTGCTCGACGGCGGCCCGAAACGTCTGGTTCGGACGCCCCCTGGGGTTCGCCGTCACCCCGAAGGCGCGCCAAAGCGGCGGTCCCTCCTGGAGCCTGATCCGGCCACAGATCGTGGTGTCCGCACTCCTGGCGGTGGCCGCCGTCGTCGGCCTGGTGCGGCTCGCCGTGGGACTGGCCGAGCCGCTAGGCACGCTGGTCAACGTTGCCTGGGTTATTTTTGACCTGGCGGTGATGAGCGTCCTGGTCCAGGCCGTTCGGTACAAGGGGTTTGAACCCGTTCCGCAAGCAGAGCCTGAAGAGAGGAAATCCGGTGGAGTTTAG	MTRFWTRLIVVLTVVLGLNYVAWRWSASLNWDAWWISVPLVIAETYSLIDVMLFGMTVWKLKLRKGAPEAPGDATVDVFITTYNEPLDMVMTTALAAQRIRHPHSTWILDDGSRPELKALAEEHGLGYVTRSEDWTSNVPRHAKAGNLNNALMQTHGEFLLILDADQIPEPDILEKTLGYFNNRRVALVQTPQYFSNVPPSDPLGSQAPLFYGPIQQGKDGWNAAFFCGSNAILRREALMQLGLVGYVKETEKSIRRALAASRSAIRQARKSADMESPLVAQVLDEVETATLKAQQELDTGAPLGEITYRVRRRVDQAVQALVMADVSALQADLEEIAAMELAHVGEAGVPVVADDAVKRMAARDWSPLGALESVQAVLDALSVERNDEAQPVMPLATISVTEDMATAMRMHSMGWESVYHHEILAYGLAPEDLKTMLTQRLRWAQGTIQVMLRENPLVQRGLKLGQRLMYFATMWTYLSGYAAVIYFAAPIIYLLLGILPVTSLSTDFFVRFIPFMVVNQLLFAVAGRGISTWRGQQYSLALFPTWIKACSTAARNVWFGRPLGFAVTPKARQSGGPSWSLIRPQIVVSALLAVAAVVGLVRLAVGLAEPLGTLVNVAWVIFDLAVMSVLVQAVRYKGFEPVPQAEPEERKSGGV	PGPT0022275_1183	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CELLULOSE_METABOLISM	CE-EPS-CELLULOSE_BIOSYNTHESIS,PGPT0022275-bcsA|yhjN|celA-K00694	NA	NA
D1-29_04303	333	rsbV	COG1366	Anti-sigma-B factor antagonist	GTGGAGTTTAGCTACGAAATCAAGGACTCGTATGCGGAGGTGAAGGCAGACGGCCGGCTCAACATGGTGTCCGCGCCCAAGCTTCGTGAGTTCGTCACGGATATCATCGCGGGCGGGTCGAACAGGATTGTGGTCAACCTGGAAAACACCGCCTTTATGGATTCCTCCGGACTTGGGGCGCTGATTGGCTGCCTCAAAGCAGCACGCCAGGCGGGCGGGGACCTTCGGATCGCCGCTGTCCAGCCGCAGGTGAAGATGGTGCTTGAGCTGACCAGCATGGACCGGGTGCTGACCTCCTACACTTCCTCGGAGGAGGCGTTCAGCAATGACTGA	MEFSYEIKDSYAEVKADGRLNMVSAPKLREFVTDIIAGGSNRIVVNLENTAFMDSSGLGALIGCLKAARQAGGDLRIAAVQPQVKMVLELTSMDRVLTSYTSSEEAFSND	PGPT0014350_2276	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749	NA	NA
D1-29_04304	423			hypothetical protein	ATGACTGACATCCTGGCGCGCCGCAGCTTCCGGGGATTGGCCACCGGAGATGCCATTGAGGCGGTCCATGACCACCTCGACGGCCTTTGGGCGGATGCTCCCTTCGTCCAGGACATGGACCAGATGACGTTCACAACCGCGGTGATCGAGGCTGCCACCAACATCGTCCAGCACGCTGAACCCGCGAAGGAATCGGCGGTTGAGCTGGGGGTGGACATCAGCGTGCAGGCGGCGCTCCTCCAGGCCCGAGTCAGCGCGTTCAATGCCAAACCGCCGTTCGGACCCATGGAACCGGGCGTGCCTGACGATGAATCCGAATCCGGCCGCGGGCTCGCGCTGATCCAGGCACTAGTAACCACGGTGACGTTCGAGCGCCAGGACGGCACCAATACCTGGATCCTGTCCCGGACGTCCCAGGATTAG	MTDILARRSFRGLATGDAIEAVHDHLDGLWADAPFVQDMDQMTFTTAVIEAATNIVQHAEPAKESAVELGVDISVQAALLQARVSAFNAKPPFGPMEPGVPDDESESGRGLALIQALVTTVTFERQDGTNTWILSRTSQD	PGPT0014950_1567	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014950-rsbW-K04757	NA	NA
D1-29_04305	498			hypothetical protein	ATGAAGCTTGCCGAATTCAACAGCGTGGAGCCCTCACGCGCCAGGGACGTCCTTAAGCCCTGCATCGACATCGGGCGCTGGGTGGAGGCGGTCACGGCCGCACGGCCCTTTCCGTCCAAGGCATCCCTCCTGGAGTTTGCTTCCCAGGCAGCTGAGCCGTTCACGCCCGCAGAGGTGGAAGCCGCCCTGGCCCACCACCCGCGAATCGGCGACCGGCCCACCGCCAGCACTGCGGAAGCCTCCATGTCCCGTTCTGAGCAGGCCGGAGTGGACCCTTCGGACGCCGGACTCGCTGAGGCGCTCGCCCAGGGCAACCGTGATTACGAGGAAAAGTTCGGCCGGGTCTTCCTGATCCGGGCCGCCGGAAGGACCGCCCCTGACATCCTGGCGGCCCTCGAATCCCGCCTGGCCAACTCCCCCAGTGAAGAAGATGCCATCGTGTCCCAGCAGCTGCGCGAAATAGCCCTGCTGCGGCTTGAAGGAGTGATCAACGAATGA	MKLAEFNSVEPSRARDVLKPCIDIGRWVEAVTAARPFPSKASLLEFASQAAEPFTPAEVEAALAHHPRIGDRPTASTAEASMSRSEQAGVDPSDAGLAEALAQGNRDYEEKFGRVFLIRAAGRTAPDILAALESRLANSPSEEDAIVSQQLREIALLRLEGVINE	PGPT0021135_588	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0021135-hpxQ-K16840	NA	NA
D1-29_04306	339	hiuH		5-hydroxyisourate hydrolase	ATGAGCCCGTCCCATGTCACCACCCATGTCCTGGATACCGGCGCCGGGCGCCCGGCGGCGGGAGTCGCCGTCGTGCTTTACCAGCACGACGGCGGAAGCTGGCGTGAGCTGGCCCGTTCGGCCACCGATGCCGATGGCCGCGCGAAGGACCTGGGGCCAGAGTCGCTGTCACCCGGGCGCTACCGGCTCAACTTTGGCACCGGCGACTACTACGCCGGCCTCGGCACGACCACGTTCTTCCCGGAAGTGGACCTGGTGTTCGAGGTGACCGGCGCCGAGCACTACCACGTCCCGCTGCTGCTGAGCCCGTTCGCCTACTCCACCTACCGCGGCAGCTAA	MSPSHVTTHVLDTGAGRPAAGVAVVLYQHDGGSWRELARSATDADGRAKDLGPESLSPGRYRLNFGTGDYYAGLGTTTFFPEVDLVFEVTGAEHYHVPLLLSPFAYSTYRGS	PGPT0021125_1718	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
D1-29_04307	315			hypothetical protein	ATGGCTTTTGAAGAAACCCCCGCTGAACGCCGTGATGTAACCGTCCGGCGGGCACCCAGATACGTACCCTTCCTGATCCTGGGCGCACTGGTTGGCGTCGCCGCTGCGGCCGTGGTGGCATACGCGCTGCCGGGCGACGCAAGCTTCGACAGGGGCTCGGTGTTCGGCTTCTTCCTGGTGATGTTCGGGGCCTTCGGCGCGATCCTGGGTGCAGCAGCTGCCCTGATTCTGGACCGGCGGAGTGTGAAGCGCCAGCAACGCGCGGTTGTGGAGGCTGTTCCGGATTCGGAACCGGACGACGGCACGCAGCCGTAA	MAFEETPAERRDVTVRRAPRYVPFLILGALVGVAAAAVVAYALPGDASFDRGSVFGFFLVMFGAFGAILGAAAALILDRRSVKRQQRAVVEAVPDSEPDDGTQP				NA	NA	NA	NA	NA
D1-29_04308	1683	purF	COG0034	Amidophosphoribosyltransferase	GTGGCACGCGGCGATGGAAAACTTTCTCATGATCTTCTCCCTGGCGAAAAAGGCCCTCAGGACGCTTGCGGCGTTTTTGGGGTCTGGGCACCAGGTGAAGAAGTAGCAAAACTCACCTACTACGGGCTGTATGCACTGCAGCACCGCGGTCAGGAGTCGGCTGGTATTGCCACCAGCGACGGCAAGCGGATCAACGTCTACAAGGACATGGGACTCGTTTCCCAGGTCTTCGACGAGACCACGCTGAACACCCTGACCGGGCACCTGGCGGTGGGACACTGCCGCTACTCCACCACCGGAGCCAGCCACTGGGCCAACGCCCAGCCCACGCTCGGCGCCACCAGCACCGGCACGGTGGCGCTGGCGCACAACGGCAACCTGACCAACACGGCCGAGCTCAACGCCATGATCATGGAGCGCAACGGCGGCCAGCTCAGCGGCGAAATGAAGCAGGGCAACACCTCGGACACAGCCCTGGTCACGGCCTTGCTCGAAGGCGAGGAGGGCAAGACCCTCGAACAGACCGCCATCGAGCTGCTGCCCAAGATCAAGGGCGGCTTCTGCTTCGTCTTTATGGACGAGGGCACCCTCTACGCCGCCCGCGACACCTACGGCATCCGTCCGCTGGTCCTGGGCCGGCTGGAACGCGGCTGGGTGGTTGCCTCCGAGCAGTCCGCCCTTGCCACCGTGGGCGCCAGCTTCATCCGTGAAATCGAACCCGGCGAATTCATCGCCATCGACGAGGACGGCGTGCGCTCCCAGCGCTTCGCGGAGCCGACGCCGGCGGGTTGCGTTTTCGAGTACGTTTACCTGGCCCGTCCGGACGCCGCCATCGCCGGCCGCTCCGTCTACGAGTCCCGGGTAGAGATGGGCCGCCAGCTCGCCCGCGAAAACACCCAGGTTGCGGACATTGTCATTCCCGTCCCGGAATCGGGAACGCCGGCCGCCGTGGGCTACGCCGAGGAATCCGGCATCCCGTTTGCACACGGCTTCGTCAAGAACTCCTACGTGGGCCGCACCTTCATCCAGCCCTCCCAGACGCTCCGCCAGCTGGGCATCCGGCTGAAGCTGAACGCCTTGGAATCCGTCATCCGCGGCAAGCGCGTGGTGGTGGTGGACGACTCCATCGTCCGCGGCAACACCCAGCGGGCGATCGTCCGGATGCTCCGCGAGGCCGGCGCGGCAGCAGTCCACGTCAAGATCTCCTCCCCGCCGGTGCAGTGGCCCTGCTTCTACGGCATCGACTTCGCGTCCCGCGCCGAACTGATCGCCAACGGCGCCACCATTGAGGAAATCTCCCAGGCCATCGGCGCCGATTCCCTGGCCTACATCTCGGAAGACGGCATGATCGGCGCCACCCAGCAGCCGCGCGAACGGCTCTGCACCGCGTGCTTCACGGGCAAGTACCCCATCGAGCTGCCGGGCTCGGACAAACTGGGCAAGAATCTGCTGGAGCGCAAAGACCTTGGCGGGCTCCCGCCGTCGCCCTCTGCGCTGCCGGGCGAAACGGCGGCCCTGCTGGTGCCCGCCGTCGGCGACGGCGAGGATCCCGCCGAGAAGCGGGGGGCCACCGGCTGCGACCCCGGACCGGACTCCGAGTTCGAGAACCTGCTGACCGAGGCAGACCTTGTTCCAGACGTACACGTAGCCACCATCGGCGCTGACAAGAAAGAGTCAATATGA	MARGDGKLSHDLLPGEKGPQDACGVFGVWAPGEEVAKLTYYGLYALQHRGQESAGIATSDGKRINVYKDMGLVSQVFDETTLNTLTGHLAVGHCRYSTTGASHWANAQPTLGATSTGTVALAHNGNLTNTAELNAMIMERNGGQLSGEMKQGNTSDTALVTALLEGEEGKTLEQTAIELLPKIKGGFCFVFMDEGTLYAARDTYGIRPLVLGRLERGWVVASEQSALATVGASFIREIEPGEFIAIDEDGVRSQRFAEPTPAGCVFEYVYLARPDAAIAGRSVYESRVEMGRQLARENTQVADIVIPVPESGTPAAVGYAEESGIPFAHGFVKNSYVGRTFIQPSQTLRQLGIRLKLNALESVIRGKRVVVVDDSIVRGNTQRAIVRMLREAGAAAVHVKISSPPVQWPCFYGIDFASRAELIANGATIEEISQAIGADSLAYISEDGMIGATQQPRERLCTACFTGKYPIELPGSDKLGKNLLERKDLGGLPPSPSALPGETAALLVPAVGDGEDPAEKRGATGCDPGPDSEFENLLTEADLVPDVHVATIGADKKESI	PGPT0020225_541	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020225-purF-K00764	NA	NA
D1-29_04309	1167	purM	COG0150	Phosphoribosylformylglycinamidine cyclo-ligase	ATGACTTCCGCAACCCCCGCCGCCGGCAACCTCTCCAACCAGGCCGGCGGCATCACCTATGCCTCCGCCGGCGTTGACGTTGAAGCCGGCGACCGTGCCGTTGAGCTGATGAAGGGCGCCGTCAAGGCCACCCACAACTCATCCGTGATCGGTGGCGTGGGCGGCTTCGCCGGACTGTACGACGTCTCCAGGCTGCTGACCTACAAGCGCCCGCTCCTGGCCACATCCACCGACGGCGTGGGTACCAAGGTTGCCATTGCGCAGGCCATGGACATCCACGACACCATCGGGTTTGACCTGGTGGGCATGGTGGTTGACGACATCGTGGTGGTTGGCGCCGAGCCGCTCTACATGACCGACTACATCGCCTGCGGCAAGGTTGTCCCGGAGCGCATCGCTGACATTGTCCGCGGCATCGCAGCGGCCTGCTCCGTTGCCGGCACCGCCCTGGTGGGCGGCGAGACCGCCGAGCACCCTGGCCTGCTGGGCGAGCACGAATACGACGTCGCGGGCGCCGCCACCGGCGTTGTAGAGGCTGACGCCCTGCTGGGCCCGGACCGTGTCCGCGCGGGTGACGTTGTGATCGGCATGGCCTCGTCCGGCCTGCACTCCAATGGCTACTCCTTGGTCCGCCGGGTCATCAACCACGCCGGCTGGGCCCTGGACCGCCAGGTTTCCGAGCTCGGCCGCACGCTGGGCGAAGAACTGCTGGAGCCCACCCGCGTCTACGCCGCCGACTGCCTTGACCTGGCCCGCACCTTCCCAGTGACCGGCGGCTCGGGCGCTGCCGTGCACGGCTTCAGCCACGTCACCGGCGGCGGCCTGGCAGCCAACCTGGCACGCGTGCTTCCCCAGGGGCTGGTGGCCACCGTGGACCGCGCCACCTGGGAACTGCCTGCCATCTTCAAGCTGGTATCCGAGCTGGGCAACGTCCCGCTGGCAGACCTGGAGCGCACGCTGAACCTGGGCGTCGGCATGGTGGCCATTGTCTCCCCGGAAGCTGCCGATGCCGCCGTGGCCCGCCTGAACGACCGCGGCCTGCCGTCCTGGATCATGGGCACGGTGACCGCAGACTCTGACTCCATCCTCAAGTCCGGCCCTGATTATGTCCAGGGCGCCAAGGGAGTGGACGGCGGCGCTGTCCGCCTGGTCAACGCCTACGCGTAG	MTSATPAAGNLSNQAGGITYASAGVDVEAGDRAVELMKGAVKATHNSSVIGGVGGFAGLYDVSRLLTYKRPLLATSTDGVGTKVAIAQAMDIHDTIGFDLVGMVVDDIVVVGAEPLYMTDYIACGKVVPERIADIVRGIAAACSVAGTALVGGETAEHPGLLGEHEYDVAGAATGVVEADALLGPDRVRAGDVVIGMASSGLHSNGYSLVRRVINHAGWALDRQVSELGRTLGEELLEPTRVYAADCLDLARTFPVTGGSGAAVHGFSHVTGGGLAANLARVLPQGLVATVDRATWELPAIFKLVSELGNVPLADLERTLNLGVGMVAIVSPEAADAAVARLNDRGLPSWIMGTVTADSDSILKSGPDYVQGAKGVDGGAVRLVNAYA	PGPT0021570_475	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933	NA	NA
D1-29_04310	306			hypothetical protein	ATGCACATGAAGAAAACCGGAGCCACAATCGCACTTACGAGCTCTCTCTTACTGGCTGGAGGAGCAATGGCCGGCCCAGCGTCCGCCCAAGTCGAGCAAGCCGGCCTCGTTAATGTCAACATCGGTGACGTCACTGTCCTAGAGGATGTCAGAGTGGCCGTGGCAGCCAACATCGTAGCCAACGTTTGCAACCTACAGGTCAACGCCGTGTTGCTTGCAGCGAATGTTGTGGACACAGGGGGCGACGACTTCACTTGTGTAGCTAGAGGGAATGGCCGCGACATCGTTATCACCCAGGACACTTAA	MHMKKTGATIALTSSLLLAGGAMAGPASAQVEQAGLVNVNIGDVTVLEDVRVAVAANIVANVCNLQVNAVLLAANVVDTGGDDFTCVARGNGRDIVITQDT				NA	NA	NA	NA	NA
D1-29_04311	780		COG3324	Putative glyoxylase CFP32	ATGCCCCATAACTCGAGTCCACGTTCGTTCCGACATGGCGAACCCTGCTGGGCGGACGTCCAGACGCGCGATGTTGAGGCTGGGAAGGCCTTCTACACTGCAGTGTTTGGGTGGCGGTTCCAGGACCTGCCGACGCCGGATGGCCGCAGCTACTCGCAGGCCTTCCTGGGTGATGACCTGGTGGCAGTGGTGGCACCCCAGAACCCGCAGCAGGAAGCCGCAGGCACACCCGCGCAATGGAACATCTACTTTGCGGCTGCCGATGTCCGCGCGGTGGCCGAGGAGGCGCCTCATGCGGGCGGAGCCGTGCAGTTCGGGCCTGAGACGGTGGGGGACAGCGGCGTGATGGTCTTCGTGGATCCGCCGGGCGGTGGTGCTACGGGCGTTTGGCAGGCCGGAACGCACACCGGCACCGCCCGCTACAACCAGCCCGGCGCCCTGTCCTGGGCGGAACTCCTGACGCCCGAGCCGCAGGCCGCCGTCGGGTTTTTCCAGCAGTTGTTCGGTCACGAGGTCACCGAGTATCCACAGGACGACGGCGGGACGTACACAACGCTGATGGTGGACGATGCGGAGGTGGCGGGGATCGCGGCCACCGAGGAGGCGGCCGGCTGGCAGATCTACTTTGGGGTCTCCGATGTGGCGGAGACTGTGCGGAAGGCAGTGGCAGCGGGAGCCGAGGTGCTGATTGCGCCTGAGGCAGAGGATGAGGAAACACCAGGCGCCACGGCCACCCTCAAGGATCCGCAGGGCGGCGTGTTCAGCCTGCTGGAGGTTTAA	MPHNSSPRSFRHGEPCWADVQTRDVEAGKAFYTAVFGWRFQDLPTPDGRSYSQAFLGDDLVAVVAPQNPQQEAAGTPAQWNIYFAAADVRAVAEEAPHAGGAVQFGPETVGDSGVMVFVDPPGGGATGVWQAGTHTGTARYNQPGALSWAELLTPEPQAAVGFFQQLFGHEVTEYPQDDGGTYTTLMVDDAEVAGIAATEEAAGWQIYFGVSDVAETVRKAVAAGAEVLIAPEAEDEETPGATATLKDPQGGVFSLLEV				NA	NA	NA	NA	NA
D1-29_04312	234			hypothetical protein	ATGGGGCGCGGCCGTCAAAAGGCAAAAGCTACCAAGCAGGCTCGGGATATTAAGTACTACTCCCCGAACACTGACTATTCGGCACTTCAGCGTGAGCTGACGGGTCCGGGCAGTCGTGCCACGAGCCATTTCGCGAATGAGCCGGTTGAACCGGACTATTCGGCTTATGTGGATAAGTACGCGGACGATTTGGAAGAAGACGACGACGAGGTAGACACCCGTCGGATCGGCTAG	MGRGRQKAKATKQARDIKYYSPNTDYSALQRELTGPGSRATSHFANEPVEPDYSAYVDKYADDLEEDDDEVDTRRIG				NA	NA	NA	NA	NA
D1-29_04313	933			hypothetical protein	GTGAACGCCCAGGACGACCCTGCACGCCCATCTGAAGAAGGGCCGGGGAAGCCTTCCGGAAGCCCGGCCGGCAGTGGCCAGCGCCGCCTCCCGCCCAAGCCTTCCACGCCGCCCACGGCAAGCCAGCCGCAGGTGCCACCCGCGCCCGCTGGCGCTCCCGCAGCCGCTGGTGCTCCTCCAGCCAAGGTGCCACACGCGCCGGCAGCGCCTCCCGCACACAAGACACCCCAGACGCCCCCCACACCAGGATCAACGCCGAAGGCCCCAAAGGCAGGGCCAGGGACGGCAGGAGCAGTCCGCGGGCCAACGGCGGCGCCTCCCGCTCCTGCCCCCGAGGCACCCTTTCCGAAGAAGCCGCCGGCCCTGAAACCGGGCCGGTTCAAGGAGTTCCTCCTGAAACCCCGGCGCAACCGGCATATCCTGCTGAGGGCCGCCTTTGCGGTGGTGCTGCTGGCCGTTGTAGGAGTGCTGGTGTGGCTTGCCATGTGGCTCACGTCCAATGCCCAGCAACCATCCGCGGAAAACGACGTCCCCGGCGTGGTGGAAATTTCCCCCACCCCGCTGCCGAGCCCACTTCCGCTCCCGCGCGAAGGCGTGCCTCCGGCGGAGTACAGGCTGGGCGACTGCTTCAAGGACTTTGACCCGGAAGCCCTGTCCTCAACGCTGGTGGCCTGCGATACCGGCCACTCGGCCCAACTCGTGGCGATCTACCGGTATCCGGCAGGCGACCCCTATCCGGGCAGCGAGGCCCTCCAGGCCAAGGCCCTGGAGGCCTGCCAGGCAGCACGGCTGGCCCCCGCCGCCGACGACTACACCTTGAACTTCCGGCGCGCCTACCCGAGCAGCAGCAGCTGGGAATCGGGAGACCGCCGTGTGGACTGCTATGTCATGGCCGACGGCGGGAATGTCATCAACGCGAGCGTGTTGCCTTAG	MNAQDDPARPSEEGPGKPSGSPAGSGQRRLPPKPSTPPTASQPQVPPAPAGAPAAAGAPPAKVPHAPAAPPAHKTPQTPPTPGSTPKAPKAGPGTAGAVRGPTAAPPAPAPEAPFPKKPPALKPGRFKEFLLKPRRNRHILLRAAFAVVLLAVVGVLVWLAMWLTSNAQQPSAENDVPGVVEISPTPLPSPLPLPREGVPPAEYRLGDCFKDFDPEALSSTLVACDTGHSAQLVAIYRYPAGDPYPGSEALQAKALEACQAARLAPAADDYTLNFRRAYPSSSSWESGDRRVDCYVMADGGNVINASVLP				NA	NA	NA	NA	NA
D1-29_04314	2658	clpB	COG0542	Chaperone protein ClpB	TTGGACGTCAAATTCACCACCAAGAGCCAGGAGGCGCTTTCGGCTGCAGCCATGAACGCCTCCACGGCGGGCAATCCGCAGGTGGAACCCGCACACCTGCTCAAGGCGCTGCTGGACCAGCGCGAGGGCGTCGCCGTCGCGCTTCTCCGCGCCACCGGCGCGGATCCGGACGCAGTCAGCGTCCAGGCGAGCAGTGCCATCAAGGCACTTCCGGCAACGTCCGGGAGTTCCACCCAGCAGGCCCAGCTCTCCCGGCCTGCCCTGCAGGCCATCCAAAATGCCAAAAACGAGGCGGACAGGCTGGGCGATACCTTCGTCTCCACCGAAGTCCTGCTGCTGGGACTCTCCGCCGGGAGTGACGCCGTCGGCCGGTTAATGCGCGACGCCGGTGCCTCCCATGAGGCGCTGCTCGCCGCACTGCCGGGTGTCCGTGGGGACCGTAAAGTCACCAGCCCGGACCCGGAAAACACCTTCCAGTCACTGGAGAAGTTCGGGACCGATCTGACCGCCATGGCGCGCTCCGCCAAGCTGGATCCTGTCATCGGCCGCGACAACGAAATCCGCCGGATTATCCAGGTCCTGAGCCGCCGCACCAAGAACAACCCCGTGCTCATTGGTGAGCCCGGCGTTGGCAAGACGGCCGTCGTCGAAGGCCTGGCCCAGAGGATCGTCGCCGGCGACGTCCCGGAGAGCCTGCGGGGCAAGACCCTGATCGCCCTGGACCTCGCATCCATGGTGGCGGGCGCCAAGTACCGGGGCGAGTTCGAGGAGCGGCTGAAGGCTGTCCTGGAGGAGATCAAAAACTCGGAAGGCCAGATTGTCACCTTCATCGACGAGATCCATACCGTCGTCGGTGCGGGCGCCACGGGGGAGTCCTCCATGGACGCCGGCAACATGCTCAAGCCCATGCTGGCGCGCGGTGAGCTGCGCCTCATTGGCGCCACAACGCTGGACGAATACCGCGAAAACATTGAGAAGGATCCGGCGCTTGAACGCCGCTTCCAGCAGGTGTACGTGGGGGAGCCGAGCGTTGATGACACCATCGGCATCCTCCGCGGCCTTAAGGAGCGCTATGAGGCCCACCATAAGGTGACCATTGCCGACGCCGCGCTGGTAGCCGCCGCGACGCTCTCCAACCGCTACATCTCGGGGCGCCAGCTGCCGGACAAGGCGATTGACCTGGTGGACGAGGCAGCGTCCCGGCTGCGGATGGAGATCGACTCCGCCCCGGAGGAAATCGACCAGCTGCGCCGTGCCGTGGACCGGCTGACCATGGAGGAGCTGGCCCTCGAAAACGAGACGGATCCTGCCTCTGTTGAGCGCTTGGCCGCGATCCGGGCGGACAAGGCCGACAAGAACGAGGAACTGGCCGCCCTCAACGCGCGCTGGGAAGCCGAGAAGGCCGGACTTAACCGGGTAGGTGACCTGAAGGCAAAGCTCGATGAGCTGCGCTCCGCCGCTGACAAGGCCCAGCGTGAAGGCGACCTGGAGACCGCCTCGCGGGTCCTCTATGGCGAGATTCCAGCGCTGGAACGCGAGCTGACCGCAGCTGCTGCCGCCGAAGCAGAAGTTACGGACAAGCCTGCCCAGATGGTTGCCGAGCAGGTCACGGCTGACGACATCGCCGAGGTCATCTCCGCCTGGACGGGTATTCCTGCCGGACGCATGCTGCAGGGCGAAAGCCAGAAGCTGCTGCACATGGAGGAGGAGCTGGGGAAGCGGCTGATTGGCCAGTCCAAGGCCGTGGCCGCCGTGTCCGACGCCGTCCGCCGTGCCCGTGCCGGCATCAGCGATCCCAACCGTCCCACCGGCTCCTTCCTGTTCCTGGGGCCAACCGGCGTTGGCAAGACGGAGCTGGCCAAGGCCTTGGCGGACTTCCTCTTCGACGACGAACGCGCCATGGTCAGGATCGACATGTCCGAGTACAGCGAGAAGCACTCCGTTGCACGGCTGGTTGGTGCGCCCCCGGGCTACGTCGGCTACGAGGAGGGCGGCCAGCTGACTGAAGCCGTCCGCCGCCGGCCGTACTCCGTGATCTTGCTGGACGAGGTGGAGAAGGCCCACCCGGAGGTCTTTGACATCCTCCTGCAGGTCCTCGACGACGGCCGGCTCACCGATGGCCAGGGCCGCACCGTGGACTTCCGGAACGTGATCCTGGTGCTGACCTCCAACCTGGGCAGCCAGTTCCTGGTGGACCAGAGCCTGGACGCCCAGGCCAAGCGGAATGCCGTGATGGCCACCGTGAACAATGCCTTCAAACCCGAGTTCCTGAACCGTCTGGACGAGGTGGTGCTCTTCGATGCGCTGTCCGTCGAAGAACTCGCACGGATCGTGGAACTGCAGGTGGCCGAACTCAGCAGGAGGCTCTACGAGCGGCGGCTCACCCTCGAGGTGACCGAAGGAGCCCGCGCCTGGCTGGCCATGTCCGGTTTTGATCCGGCCTACGGTGCCCGGCCCCTGCGCCGGCTGGTCCAGCGCGAGATTGGCGACAGGCTTGCCAAAGCCATCCTGTCCGGAGACATCGTTGACGGCGATACGGTGCTGGTGGACACGTCCGCTGACGTCAACGAACTCACGGTTGAAGGACTGGAGGCCATGGCAACTGCCGGCGCGGGCGGCCCTGGAGGCAGCGGCCTCTCTGTCCGGCGGAAGGGCTAG	MDVKFTTKSQEALSAAAMNASTAGNPQVEPAHLLKALLDQREGVAVALLRATGADPDAVSVQASSAIKALPATSGSSTQQAQLSRPALQAIQNAKNEADRLGDTFVSTEVLLLGLSAGSDAVGRLMRDAGASHEALLAALPGVRGDRKVTSPDPENTFQSLEKFGTDLTAMARSAKLDPVIGRDNEIRRIIQVLSRRTKNNPVLIGEPGVGKTAVVEGLAQRIVAGDVPESLRGKTLIALDLASMVAGAKYRGEFEERLKAVLEEIKNSEGQIVTFIDEIHTVVGAGATGESSMDAGNMLKPMLARGELRLIGATTLDEYRENIEKDPALERRFQQVYVGEPSVDDTIGILRGLKERYEAHHKVTIADAALVAAATLSNRYISGRQLPDKAIDLVDEAASRLRMEIDSAPEEIDQLRRAVDRLTMEELALENETDPASVERLAAIRADKADKNEELAALNARWEAEKAGLNRVGDLKAKLDELRSAADKAQREGDLETASRVLYGEIPALERELTAAAAAEAEVTDKPAQMVAEQVTADDIAEVISAWTGIPAGRMLQGESQKLLHMEEELGKRLIGQSKAVAAVSDAVRRARAGISDPNRPTGSFLFLGPTGVGKTELAKALADFLFDDERAMVRIDMSEYSEKHSVARLVGAPPGYVGYEEGGQLTEAVRRRPYSVILLDEVEKAHPEVFDILLQVLDDGRLTDGQGRTVDFRNVILVLTSNLGSQFLVDQSLDAQAKRNAVMATVNNAFKPEFLNRLDEVVLFDALSVEELARIVELQVAELSRRLYERRLTLEVTEGARAWLAMSGFDPAYGARPLRRLVQREIGDRLAKAILSGDIVDGDTVLVDTSADVNELTVEGLEAMATAGAGGPGGSGLSVRRKG	PGPT0014580_823	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014580-clpB-K03695	NA	NA
D1-29_04315	336			hypothetical protein	ATGAAGAAATTTGTCGTTCTTTACATCGCACCGCAGTCCGCACAGGCACAGATGGCCGAGAGTTCCCCTGAAGCCGCCCAGGAAGGCATGAAAGCCTGGATGGAGTGGGCCGAACGCGCGGGCGACGGCCTCGTTGACTTGGGGAATCCGTTGGGCGCCGGCAAGGAAATCACCACGTCGGGAGCCTCCGAAACCACTACCAACGTTGCCGGTTACGGCATTCTCCAGGCCGAGGCTCTGGACGGCGCGCAGGCCTTGCTGGAGGATCACCCGCACCTCATGATGCCGGGGGCCAGCATCCAGGTCTACGAATCCCTTGACCTGCCCGGAATGTAA	MKKFVVLYIAPQSAQAQMAESSPEAAQEGMKAWMEWAERAGDGLVDLGNPLGAGKEITTSGASETTTNVAGYGILQAEALDGAQALLEDHPHLMMPGASIQVYESLDLPGM				NA	NA	NA	NA	NA
D1-29_04316	678			hypothetical protein	ATGAGCGGGTTGGGCAGGAAATTTACGACGGCGGCTGCCGTGCTGGCGCTGGCGGCGGGGCTGAGCGGGTGCAGCCTCTTTCCTTCGCCGCCGCCTCCGTTGCCGCCCAGTCCCACGTCCCTGGTAGCGCCCGCCTGCCCCTTCCTGGGTGAGGAGGACGTGGTCCCGGTCCGGATCCCCAGAGGCACCCCGAAAGAAGCCATAGGCGGGGTGCTGAACTCCTATGAAGCGTGGCTCAACGCCGGCTCGGAGGTTCTGACCTCGTGGACGGCGGCCGGAGTTGTGCCCGAGAAGTGCATCGATGAGCTGGCGGGCCGCAACGCGGAGGCTTACGCCACCACCATTTTCACCTCGCACTCCGACGTCGCGTGGCAACAGTACTTTAGCGCCGTGGAGGCCATGAATGCCCGGACCCTGCGGTCTGTTGCGACGGACGAACCTGGCCAGGGCGGCCGCGGAACCTTTGAATTGGTGCAGGAGATCGATTCCAGTGCCACGGCCAACGGAACCTTCCTGAAGTTCGACGCCGTGTACCGCCCACGCCCGGGTGGCGACGCTTCAGGAGGTTCCTGGGAGGGGTGGGAGACACGCACCCGATGGTACGTGGAGCTGGTGCCGGCAGGCGACTTCCTGGTGATCAACTACATCGAGCAGACCCCTTCGGCCCCCCAGCCCTGA	MSGLGRKFTTAAAVLALAAGLSGCSLFPSPPPPLPPSPTSLVAPACPFLGEEDVVPVRIPRGTPKEAIGGVLNSYEAWLNAGSEVLTSWTAAGVVPEKCIDELAGRNAEAYATTIFTSHSDVAWQQYFSAVEAMNARTLRSVATDEPGQGGRGTFELVQEIDSSATANGTFLKFDAVYRPRPGGDASGGSWEGWETRTRWYVELVPAGDFLVINYIEQTPSAPQP				NA	NA	NA	NA	NA
D1-29_04317	1065	modC	COG1118	Molybdenum import ATP-binding protein ModC	GTGACGTTCACGGTCCAGGCAGCCGTGGAGGCCCGTGGCTTCGATGTCTCCCTCACACTGGGGCCGGCAGAGACTGTAGCGGTGATGGGTCCGAACGGCGCAGGCAAGTCCTCCCTGCTGTCCGTCGTTGCGGGCTTGCTGCACCCGGACTCGGGCAGGGCGGAGCTCGACGGGCGGGTCCTGTTTGACCTCGCGGACGGCAGGGGTGAATGGACAGCTCCGCACCGGCGCGGCACGGCACTCCTGGCGCAGGAACCCCTGCTTTTCCCGCATCTTAGCGCGCTGGACAACGTGGCCTTTGGACCCCGCAGCGCGGGTGCCTCGAAGCACCACGCGCGGGAATCGGCCAGGCGGTGGCTGGCTGAAGTGGAAGCCGAAGGGCTGGCCATGCGGCGACCAGCCGAGCTGTCCGGCGGGCAGGCGCAGCGGGTGGCTGTGGCGAGGGCGCTGGCAGCGGATCCCGGGCTCCTCCTGCTGGACGAGCCCATGGCCGCCCTCGACATTCATGCTGCCCCGCTGCTGCGGCGGCTGCTGAAACGGGTTCTCGCCGGCCGGCGGGCCATCATCATTACGCATGACGTGCTGGATGCCCTGATGCTGGCGGACCGGGTGGTGATCCTGGAGAACGGCCGGATCAGCGAGGCAGGCCCCACCCGTGACGTGTTCCAGCGACCGAAAAGCCGGTTCGCCGCAGGGCTGGCCGGGCTGAACTTCATCCCGGGCAGGATCACGGCGCACGGCCTGGAGTCCGGGACCCTGGCCATCTACGGGCGGCACGATGACTTTCCCGGCCCGCTGCCCACCGGACAGCCCGGCGTGGCGGTCTTCCCGCCGTCGGCCGTTTCAGTGTTCCCCCATGAGGCGCACGGCAGTCCGCGGAATTCCTTCGCCGTGACCATCGCCCACCTGGAGCCGCACGGGGACCTGATCAGGGTCCGCGGCGGCGACGGCGGGTATTTGAGTGCCGACATCACCCCTGAAGCGTCTGCTGACCTGGGGCTGGCGCCGGGGATGCAGGTGTACTTTGTCATCAAGGCTGGCGCGGTGGCCATCTACCCCGGCTGA	MTFTVQAAVEARGFDVSLTLGPAETVAVMGPNGAGKSSLLSVVAGLLHPDSGRAELDGRVLFDLADGRGEWTAPHRRGTALLAQEPLLFPHLSALDNVAFGPRSAGASKHHARESARRWLAEVEAEGLAMRRPAELSGGQAQRVAVARALAADPGLLLLDEPMAALDIHAAPLLRRLLKRVLAGRRAIIITHDVLDALMLADRVVILENGRISEAGPTRDVFQRPKSRFAAGLAGLNFIPGRITAHGLESGTLAIYGRHDDFPGPLPTGQPGVAVFPPSAVSVFPHEAHGSPRNSFAVTIAHLEPHGDLIRVRGGDGGYLSADITPEASADLGLAPGMQVYFVIKAGAVAIYPG	PGPT0008445_1735	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008445-modC-K02017	NA	NA
D1-29_04318	855			hypothetical protein	ATGAGCCGCCGCAGAGCCCCCACCTACACGGGCGTTCCCGCGTGGATCTACGCCGTGGCCGCCGCCGGCGGGTTGCTGGTGTTGCTCCCGCTGGCCGCCATGGTGGCCCGGGTCAACTGGCCCCAATTCCTCCCACTGATCACCTCCGACTCCTCGCTGACGGCACTGGGCCTGAGCCTGCGCACCTCCGCCGCCAGCACCGCGCTGTGCCTCCTGCTGGGGGTTCCCATCGCCCTGGTCCTGGCGCGGGGCAGCTTTCCGGGCCAGCGGCTGCTCCGATCCCTGGTGCTGCTCCCGCTGGTGCTTCCGCCCGTGGTGGGCGGCATCGCCCTGCTGTACACGTTTGGCCGGCAGGGCCTGCTGGGCAGCACCGTTGAGGTCCTGGGCCTGCAGATAGCGTTCTCCACCACCGCGGTGGTCCTGGCCCAGACGTTTGTGGCCCTGCCGTTCCTGGTGGTCAGCCTCGAGGGTGCCTTGAGGACGGCGGGCCCCCGGTACGAGGCCGTGGCGGCCACGCTGGGTGCCCGGCCCAGCACGGTTCTTCGCCGGGTCACGCTGCCGCTGGTGCTTCCCGGCCTGGCCTCGGGCGCCGTGCTGTCCTTCGCCCGCAGCCTGGGCGAGTTCGGCGCAACGCTCACTTTCGCCGGGAGCCTTGAAGGAGTCACCAGGACGTTGCCGCTTGAAATCTACCTCCAGCGTGAAACGGATGCCGATGCCGCCGTCGCCCTTTCCCTGGTCCTGGTGGCAGTAGCGGTCTCGGTGGTGGCCCTCGCGTACCGCAGCCCGCGCCCTTCCGGCAGCGCCACTGCAGAAAGTACGACGGCGCCATCCGCCACCGGTAGGGGTGTCCAGTGA	MSRRRAPTYTGVPAWIYAVAAAGGLLVLLPLAAMVARVNWPQFLPLITSDSSLTALGLSLRTSAASTALCLLLGVPIALVLARGSFPGQRLLRSLVLLPLVLPPVVGGIALLYTFGRQGLLGSTVEVLGLQIAFSTTAVVLAQTFVALPFLVVSLEGALRTAGPRYEAVAATLGARPSTVLRRVTLPLVLPGLASGAVLSFARSLGEFGATLTFAGSLEGVTRTLPLEIYLQRETDADAAVALSLVLVAVAVSVVALAYRSPRPSGSATAESTTAPSATGRGVQ	PGPT0008440_355	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008440-modB-K02018	NA	NA
D1-29_04319	831	modA	COG0725	Molybdate-binding protein ModA	ATGAGGCTGCCAGTTGCAGGAAATCTCAGAGTTGCAGGAAAGCTGCTGGCCGCTGTGCTCGCCACCGGCTTCCTGGCCGCCTGCTCGCCGTCGGGGCCGGCTGGGCCGGCCGGGCCGGGGGGAAACAACGATGGCGGCGCCTCCGGATCCGGTGGCACAGTTACGGTTTTCGCCGCGGCCTCGCTCAAATCCCCCTTCACCGAGTTGGCCAGGCAATTTGAGGCCGCCAACCCGGGAACCAGGGTCACGCTCAATTTTGCCGGCTCTGCAGACCTGGCAACCCAGATCATCCAGGGTGCCCCGGCGGACGTCTTCGCCTCAGCGGACAGCCGGAACATGGGCAAGCTGGTGGATGAGGGACTGGTGGAGGATGAACCGCGAGACTTCGCCAGCAACACGCTCACCATCGCCGTTCCGCCCGGCAACCCCGCCGGCATCTTCACGTTCCGTGATCTGGGAAAGACCGGCACCAAGGTGGTGGTCTGCGCCAGCCAGGTGCCGTGTGGCGGAGCGATCCGCGGCATCACAGAAGAGACCGGCACCACGCTGAGCCCTGTCAGCGAGGAAACGTCCGTCACCGATGTCCTGGGCAAAGTCACGTCGGGCGAGGCTGACGCCGGGCTGGTCTACGTCACGGATGCAAAAGGTGCTGGCGGGAAGGTGGAGTCCGTGCCCTTCCCCGAGGCCGCCAAGGCCGTCAACACCTACCCCATTGCCACGGTGAAGGGCGCCAGGAACAAGGCCGCGGCAGAAGCATTCAGTGATCTTGTCCTGGGCATCGCGGGCCAGGAGGTGCTGGACGCTGCAGGCTTCGGTGCGCCGCCGCCATGA	MRLPVAGNLRVAGKLLAAVLATGFLAACSPSGPAGPAGPGGNNDGGASGSGGTVTVFAAASLKSPFTELARQFEAANPGTRVTLNFAGSADLATQIIQGAPADVFASADSRNMGKLVDEGLVEDEPRDFASNTLTIAVPPGNPAGIFTFRDLGKTGTKVVVCASQVPCGGAIRGITEETGTTLSPVSEETSVTDVLGKVTSGEADAGLVYVTDAKGAGGKVESVPFPEAAKAVNTYPIATVKGARNKAAAEAFSDLVLGIAGQEVLDAAGFGAPPP	PGPT0008435_2223	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020	NA	NA
D1-29_04320	411			hypothetical protein	ATGTCCAGTATCCGCGTTTCGGAAGCAGCCCGGTTCCTAGGCGTCAGCGACGACACCATCCGCCGCTGGATGGAGAACGGCAGCCTGACCCCCGTCAAGGACGCCGCCGGCCGGCTCTCCGTGGACGGCCTGGAGTTGGCCCATCACGCACAGAAGCTGGCACAACTCCCGGACGATCCGCACAGGACTGTCAGTTCGGCACGCAACAGGTTCGTAGGCCTGGTCACCGGCATCACCATGGACACCGTTATGGCCCAGGTGGAGCTGCAGTGCGGGCCGTTCCGCGTCGTGTCCCTGATGAGCAGCGAGGCTGTCCGCGAGCTGGGCCTGGAGCTTGGATCCGTGGCCACTGCCGTGGTCAAGGCCACCACCGTGATTATCGAGACGCCGCACGGAAAGGGCTCCGCATGA	MSSIRVSEAARFLGVSDDTIRRWMENGSLTPVKDAAGRLSVDGLELAHHAQKLAQLPDDPHRTVSSARNRFVGLVTGITMDTVMAQVELQCGPFRVVSLMSSEAVRELGLELGSVATAVVKATTVIIETPHGKGSA				NA	NA	NA	NA	NA
D1-29_04321	1335	mcrA_3		Mitomycin radical oxidase	ATGAAGTGGATAAAGCGGGACAGCCCGGACTACCAGGAGGCCCGGAAGGTCTTCAACGCCATGATCGACCGCAGGCCGGCCGTCATCGCCCAGTGTTCCAACGATGCCGACGTGGCCGAGGCCCTTCGGTACGGCCGGGAAAACTCGCTGCCCATTGCCGTCCGCGCCGGCGGGCACTCAGTGGCCGGAATGTCCACCAACGACGACGGCATAGTCATTGATGTGCGCCCCATGAAGTCCATCCACGTGGACCCGGAAAGCGGTATCGTCACCGCCGGCGCCGGCTTAACCTGGGGCGAGTTCGACCACGCCACGCAGGAGTACGGCCTGGCCGTGACCGGCGGCAGGGCCTCCACTACCGGAGTGGCAGGATTTACGCTGGGCGGCGGGTCCGGTTGGCTGGAACGTTCTTACGGCTTCGCGTGCGACAGCCTGGTATCAGTGAACCTGGTGACGGCCGACGGCGACCGCGTCACCGCGAGCGCACGCGAAAATCCCGACCTCTTTTGGGCTCTGCATGGCGGAGGCGGGAACTTCGGGGTGGCAACCTCCTTCACGTTCCAGGCGCACCGGGTGGGTCCGGTGGTTCATGCCGGCCTGCTGCTGTGGCCCGGCGATGCCGCAGGGGACGTCACCCCGGCGTTCAGGGACCTGGCGCTTGCGGCTCCTGACGGCGTGGGCCTTGGCCTGTTCTATTTGACTGCCCCTTCCGAGGATGGCATTCCCGAGGAGATGGCGGGAAAGATGGCAGTGGGGCTGGCCTACCTCTACGCCGGTGACCCCGAGCAGGGATCCGAGCATGCCAGGCCATTCCGTGAGCTCGGGCCCGCCGTGGACCTCGTGGGAGACACCAGCTACACGGCGTTCCAAAGCTCCCTCGACGACCCTGCCGACCACTACAACTACTGGAGTGCCGACCACCACGACGATCTGCCCGATGATGCGCTGGACCTGTTTGTGGAATCGGCACGGAACCTGCCCGACGCCACCTCCCAGCAGATCATCATCCGCTGGGGCGGGGCGGTGGGAGGGGACGCGGCCGCCGCAACTCCCCTGATGAACCGGAACTCCGCCTGGGTCAGCCATCCCTACGGGATCTCCCCCACCGCTGAGCAAGGCCAGGTTGCCAAGGCCTGGGTGAAGGGCTTCCGGGAGAAGATCTCGCCGTATGCCACGGGTGGCGTCTGGCTCAACTTCATTGGCAACGAGGGCCAGGACCGGATCCGGGCAGCCTTCGGCCAGCAGAACTACGCGCGCCTGGCCAGGGTCAAACGGGAGTTCGATCCGCAGAACGTGTTCCGCGGCAACCAAAACATCCTGCCGGCAGAGGGCTGA	MKWIKRDSPDYQEARKVFNAMIDRRPAVIAQCSNDADVAEALRYGRENSLPIAVRAGGHSVAGMSTNDDGIVIDVRPMKSIHVDPESGIVTAGAGLTWGEFDHATQEYGLAVTGGRASTTGVAGFTLGGGSGWLERSYGFACDSLVSVNLVTADGDRVTASARENPDLFWALHGGGGNFGVATSFTFQAHRVGPVVHAGLLLWPGDAAGDVTPAFRDLALAAPDGVGLGLFYLTAPSEDGIPEEMAGKMAVGLAYLYAGDPEQGSEHARPFRELGPAVDLVGDTSYTAFQSSLDDPADHYNYWSADHHDDLPDDALDLFVESARNLPDATSQQIIIRWGGAVGGDAAAATPLMNRNSAWVSHPYGISPTAEQGQVAKAWVKGFREKISPYATGGVWLNFIGNEGQDRIRAAFGQQNYARLARVKREFDPQNVFRGNQNILPAEG				NA	NA	NA	NA	NA
D1-29_04322	1227			hypothetical protein	ATGTTCCCCCTTGTGAAGCGTTTCCACCTTCCAGCCCGCCAGGCGGCGGCTCCCGTCACGTCAGCGGCAGTGTTGCTGGCCCTTGTGGTGCTGGAGCAACGTGGTTTCAACCGGGACAGCGCCGTGTTGTTTGGGCTGCTTAGCGCTGTAGCCGTCGCCCGCCTGATTCCACTGGGAGCCCTGGCTTTCGTGGCCGGCGTCCTGGTGCTGCAAACCTTCAAGCTGGCACCGGGCGTTATGGTCTCCGGCGTCCTCAGCTACATAGCAGTCCCCCTGGCCATCCTCTTCGCCACCCTGGCCTACCGGGGCCGGCACCGCTGGCTGTTGCCGGCGTTTGCCGCCGCATCGGCCGGGCTCATCACCATCATCTGGTTCAGTGACGGCACCTGGATCAACTTCGTTTTCGGCGCCCAGCTGTACGGCCGAGGCGACGTCCGCACCGGGACCTACATTTTCCTGGTCTTTGGCGCTTTCGCGGCCTTCCACCTCGCCGCCTGGGCCGGCGGGCTGGCCGTCAATAACGCCTCCAGTAGCCGCCGGGCTCAGCTCCGGGCGGAGAGGAACCTGCGGGAGGCCTCCACCGATCTCGCCGTAGAGCAGGAACGCAACAGGATTGCCCGTGAACTCCACGATGTCCTGGCCCACTCCCTGACCGTCATCACCGCGCAGGCCGAAGGAATCCGCTACATACACCGCACGGAGCCCGATACCGTGGAGGAATCCGCCAGGATCATTGCCTCGGCAGCCCGAACGGCATTGCTGGAAACCCGGCACATGCTAGAGAACGTCTCGCCGTCGGACTCCTCCCCTGCGCCGTCCCTCCGCCAGCTGGATTCCCTGGCCGGCCAGTTCTCTGCGAGCGGCATGACGGTCAGCGTGGACGCACCCGAGATGCCGCCCGCGGTGACCCCCGTGCAGGAACTCACGGCTTACCGCCTGATCCAGGAAAGCCTGACAAATGCGTTCCGTCACGGCGACAGGTCCAAGGGGGCCACCGTTTCGGTCACCCCCGGCAGGGATGGGCTCGCGGTTCGGGTGAGCTCTGCGCTTGTCACGGAAAACCCGAAGGCAGGCTCTGCCTCCAATACTTCTGCTTCCGGCACCTCTGCCCGTGCGGGCACCGGACGGGGCATCCCTGGCATGAAGGAACGCGCGACGGCGGTGGGCGGCTCGCTCACTGCGCGCACCACGGGGACGCAGTTCGATGTGGAGGCACTCCTGCCGTGA	MFPLVKRFHLPARQAAAPVTSAAVLLALVVLEQRGFNRDSAVLFGLLSAVAVARLIPLGALAFVAGVLVLQTFKLAPGVMVSGVLSYIAVPLAILFATLAYRGRHRWLLPAFAAASAGLITIIWFSDGTWINFVFGAQLYGRGDVRTGTYIFLVFGAFAAFHLAAWAGGLAVNNASSSRRAQLRAERNLREASTDLAVEQERNRIARELHDVLAHSLTVITAQAEGIRYIHRTEPDTVEESARIIASAARTALLETRHMLENVSPSDSSPAPSLRQLDSLAGQFSASGMTVSVDAPEMPPAVTPVQELTAYRLIQESLTNAFRHGDRSKGATVSVTPGRDGLAVRVSSALVTENPKAGSASNTSASGTSARAGTGRGIPGMKERATAVGGSLTARTTGTQFDVEALLP				NA	NA	NA	NA	NA
D1-29_04323	669	lnrK_2	COG2197	Transcriptional regulatory protein LnrK	GTGACTGAAATAGACGGGAAAGCGCCAGCGATCCGGATTGCCCTGGTGGACGACCAGCCCCTGTTCAGCGCAGGCCTGAAGATGATCCTGCGAAGCCAGGCCGACCTGGACTTCGTTGGGGAGGCACACAATGGTGCGGAAGCCGTGGAACTGGCAGCCGCTGTCGGGCCTGACATCATGCTGATGGATATCCGGATGCCCGTCATGGACGGGATTACCGCAACCCGCAGCATTACCTCCGCTCCCGGTGCTCCGAAGATCATTGTGCTCACCACTATCCAGCACGATGAGGCGGTGGTCCGGGCCATCCAGGCGGGCGCCGCCGGATTCCTGACCAAGGATGCCACGCCCGAATTCCTGCTCGCTGCCATCCGGACCGTCCATTCAGGCCACGCCGTGATGGCTCCGCACGCCACGAACCAGCTGCTTCGCGACTACACCACGCCGTCGGCCGGAAACCCGGCTGCCCTGGCGGCCTTGTCTGAACGGGAAAAGGATGTGTTTCTGCTGGCCGCGGAAGGCCAGGGGAACGCCGAAATCGCCGCCGGCCTGGTCCTGAGCGAGGCGACGGTGAAGTCCCATGTGGGCAGCATTCTGGCAAAACTCAAGCTCCGCAGCCGGATCCAGCTGGTGGCCTACGCCTACCAGAATGGCCTGCTCGGCGGCTGA	MTEIDGKAPAIRIALVDDQPLFSAGLKMILRSQADLDFVGEAHNGAEAVELAAAVGPDIMLMDIRMPVMDGITATRSITSAPGAPKIIVLTTIQHDEAVVRAIQAGAAGFLTKDATPEFLLAAIRTVHSGHAVMAPHATNQLLRDYTTPSAGNPAALAALSEREKDVFLLAAEGQGNAEIAAGLVLSEATVKSHVGSILAKLKLRSRIQLVAYAYQNGLLGG	PGPT0014870_188	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
D1-29_04324	873			hypothetical protein	ATGAAAAGGAAACTCATCGGACTCGCCGTGCTCGCGGCAGGGGCAGCGGCAGCCCTCGCGGCCTCAACTGTGCCGGGCGGTGCCGTCACTGCCTCAGCCTCACCCGTCAGCGGGATTACGGCTGAGGCCCAGTTGTATGCCAGCGCGGATGCGGCAGCTGAAACGGGCCGGGCCGCGGCCATCACGAAGTGCATGGCGGCAGCAGGTTACGACTACGCCCCGCAGGTGGCGGCTTACAAGGTCGATTTCAATGCCAACATGGGCCTCAAGCGCCTGGACGTGGCGGCCGCGAAAGCGGACGGGTATGCCTCGCTGCAGACGGCAGGGCCTGGCGAACCGGCGGACGGGACGGTCGAAGCCGCACTCTTCGCCGACCCCGCCTTTGTGGCCGCCCTGTCCGGAACCGGGCAGGACGATGACATCGTGCAGGTGAACGGCACCGGGCTGGGCACGTCCGGCAGTGGCTGCCGCGGGCAGGCGGCAACGGCGATCTACGGCAGCATGGAGAACTACATTCTGGCGACCGGAGTGGCAGGAAACTCACTCAACTCGGCTGCCGGCGCGGCGATGTCCGATTCAGGCTTCCAAAAGGCCATCGATGCCTGGAAGGACTGCATGGCTTCCTCGCCCTACGCCAACTTTCGCAGCCCGGCGGACGCGGTCAGTGCCGGAGTCCAGGCCGGCGGACTCAACGAGCTCAAGATCGCCGTGACAGACGCGACCTGCCGCGAACAGGTCAGCTTTCACGGCCGCCTGGATACTGTGCTGGACAAGTACCTCACCACCCGAATGCAGGAGCTGGAGCCGGAGATCACCAGGGTGAGGGAGATCCGGAAGCAGGCGGCTGCCCGGGCAGCCGAACTGACGAGGTAG	MKRKLIGLAVLAAGAAAALAASTVPGGAVTASASPVSGITAEAQLYASADAAAETGRAAAITKCMAAAGYDYAPQVAAYKVDFNANMGLKRLDVAAAKADGYASLQTAGPGEPADGTVEAALFADPAFVAALSGTGQDDDIVQVNGTGLGTSGSGCRGQAATAIYGSMENYILATGVAGNSLNSAAGAAMSDSGFQKAIDAWKDCMASSPYANFRSPADAVSAGVQAGGLNELKIAVTDATCREQVSFHGRLDTVLDKYLTTRMQELEPEITRVREIRKQAAARAAELTR				NA	NA	NA	NA	NA
D1-29_04325	870			hypothetical protein	ATGGCCATTTTTCTGGACCCGCCCCTTTGGCCTGCCCACGGAACACACTTCTCGCATCTCATCTCGGACAGTTCACTCGAGGAGCTCCACGCCTTTGCCTCTGCAGCCGGCATTCCGGAACGGGCGTTCGACTGCGACCACTACGACGTCCCGGAACGCCGCATTGAGGACCTGGTGGCCGCCGGGGCTGTCCCGGTTGAGGGGCGGATCCTGGTGCGGAAACTTATTTCCAGCGGGCTGCGCATCCCGGCTCGCCAGCGCAACGGGTCTCTGAAAGTGCCGCTGCTGAACCGCTGGAACTCTGTTATGCCGGGCCATGATGCACTGTTCCTGGACCTGCTGGACCGTTGGGGCGAAGAACACCGCAAGTATCATGGCCGCACCCACCTGCTCGCCGTGCTGGAGGCCCTGGACCTGCTCAGCGAACCCGCCGAGCCTCCCCGCCCGGTGGTCCTCGCAGCCTGGTTCCATGATGCCGTCTACCGCGGTATTGCCGGCCAGGATGAGGAGGAATCAGCCCGGCTCGCCGAGGACAGGCTGGCTGACGCCGGGCTGCCGGCCGCGGACGTCGAGGAGGTTGCCCGCCTGGTCCGGCTGACCGCTGACCACTGCCCGGAACCAGGGGACGACGACGGCGCCCTCCTTTGCGATGCTGACCTTTCGGTCCTCGGCGGCGAACCGGAGCCCTACGCCCGTTACCTGGCGGCCGTCCGGGAAGACTACGCGCACATCGGCGACGCCGACTTCGCGGCCGGACGCGCCGCCGTCGTACGGCGCCTGCTGGAACTGGACCCGCTGTTCCACACTGAACGGGCGCAGGAGCTGTGGCTGGACGCTGCCCGAAGCAACCTTCAGGGCGAGCTGGCCTGA	MAIFLDPPLWPAHGTHFSHLISDSSLEELHAFASAAGIPERAFDCDHYDVPERRIEDLVAAGAVPVEGRILVRKLISSGLRIPARQRNGSLKVPLLNRWNSVMPGHDALFLDLLDRWGEEHRKYHGRTHLLAVLEALDLLSEPAEPPRPVVLAAWFHDAVYRGIAGQDEEESARLAEDRLADAGLPAADVEEVARLVRLTADHCPEPGDDDGALLCDADLSVLGGEPEPYARYLAAVREDYAHIGDADFAAGRAAVVRRLLELDPLFHTERAQELWLDAARSNLQGELA				NA	NA	NA	NA	NA
D1-29_04326	420			hypothetical protein	ATGAACCTGCGAATCCAAGCCGTCTGCATCGACTCCACGAATCCCAAAGTGCCCGCAGATTTTTGGGAGAAAGCCCTGGGGTGGCGCCGGACGTATGAGGTGGAGGACGAGATAGTCCTCGAACCTCCGGCAGGCAGCCCCGAGGACGGCGTCTCACCGGACCTGCTGTTCCTCAAGGTGCCAGAGCGCAAGGAGATTAAGAACAGGCTGCACCTGGACCTTCGCCCGGAAGACCAGGCCGCGGAGGTCAAGCGCCTGCAGGAACTGGGCGCCCGCCGTGTATCGGTAGGCCAAGGGGATGACGTGACCTGGGTGGTGCTGGCGGACCCGGACGGCAACGAGTTCTGCGTGCTCCGCGCCCTCCGGACGGAGGAGCTGGAAGCCCAGGGACTGGTGCCGGGCGTTGAAACAAAGCCTTAG	MNLRIQAVCIDSTNPKVPADFWEKALGWRRTYEVEDEIVLEPPAGSPEDGVSPDLLFLKVPERKEIKNRLHLDLRPEDQAAEVKRLQELGARRVSVGQGDDVTWVVLADPDGNEFCVLRALRTEELEAQGLVPGVETKP				NA	NA	NA	NA	NA
D1-29_04327	402	yccF	COG3304	Inner membrane protein YccF	ATGAAGACACTGCTCAACATCATCTGGCTGATCTTTGGCGGCTTCTGGCTTGCCCTTGGCTATTTCCTTGCTGGAATTATCTGCTGCCTGCTTATCATCACCATTCCGTGGGGGATCGCCTCATTCCGGATTGCCGCGTATACGCTGTGGCCGTTCGGGCGCACAGTGGTGGACAAGCCTGGCGGAACTGGCATCTTCTCGCTGCTGGGCAACGTGATCTGGCTGCTGGTGGCTGGGATCTGGATCGCGATCGGGCACGTGGTCACCGCCTTTGCCATGGCCATCACCATCATCGGCATCCCGCTGGCCATCGCCAACCTCAAGCTGATCCCGGTGTCCCTGATGCCGCTGGGCAAACAGATCGTTCCCACTGACGCGCCGTTCGTCACCAGCTACCGCTAA	MKTLLNIIWLIFGGFWLALGYFLAGIICCLLIITIPWGIASFRIAAYTLWPFGRTVVDKPGGTGIFSLLGNVIWLLVAGIWIAIGHVVTAFAMAITIIGIPLAIANLKLIPVSLMPLGKQIVPTDAPFVTSYR				NA	NA	NA	NA	NA
D1-29_04328	597	trpF	COG0135	N-(5'-phosphoribosyl)anthranilate isomerase	ATGTTCGTCAAAGTGTGCGGGCTGAGTACGCCCGAATCTGTCCGGGAGGCCGTGGCCGCCGGAGCGGACGCTGTCGGCTTTGTCCTGACGGCCAGCCCCCGTGTGGTGTCGCCGTCGCAGGTGCCAGCCCTCCTGGACAGCGTTCCCGACGGCGTTACGGCCGTTGGCGTCTTCCGGCACGAGCCTGCCGCGGATGCGGTGGCCATTGCCCGCGCCGCCGGGCTGCAGTGGGTCCAGTTGCACGGGGAGCGCACCCCTGGGGACGTCGCTACCGTCCACGACGCCGGCATGAAACTGATCAGGGCGGTCACCATGGGGGCGGGGCAGGCAGCCTTCGGCAACTGGGGCGAGGAACTCCTGCTGGTGGACGCCGCCGTCCCCGGCTCCGGCGAGGCATGGGATTACAGTTCGGTCAGGACGGCTGGACTGGAGGGCCGTCACTGGCTGCTGGCCGGCGGCCTTGATTCCGCCAACGTCGCAGAGGCTTCCGCTGCTGCAGGTGCGTGGGGAGTTGACGTGTCTTCCGGCGTCGAGGTTTCCCGCGGGGTGAAGGACCTGGAGAAAATCCGCGCCTTCGTCCATGCAGCCAAGGGCTAG	MFVKVCGLSTPESVREAVAAGADAVGFVLTASPRVVSPSQVPALLDSVPDGVTAVGVFRHEPAADAVAIARAAGLQWVQLHGERTPGDVATVHDAGMKLIRAVTMGAGQAAFGNWGEELLLVDAAVPGSGEAWDYSSVRTAGLEGRHWLLAGGLDSANVAEASAAAGAWGVDVSSGVEVSRGVKDLEKIRAFVHAAKG	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
D1-29_04329	1695			hypothetical protein	ATGCGCAGTCTTTCCTTCATCCGTGCCGGTGCCGCCGCTGTTCTTGCGCTGATGCTCTTGGCCGCACCGATCGTCGCGGATGCCGCCTACGCCGCCCAGGCTGAGACCAACACCATCGCCGTCGGCCGACTTCCGCAGGGGGTGGCTGTTGATCCGGTGACGCACACCGCCTATGTCGTCAACACTGAAGACGGAACTGTTTCCGTCATCAATGGGAACACGGTGACCAGCACCATCCCTGTAGGCGATCACCCTTTGGGGGTGGCAGTGGATCCCGTTACGCACACTGTCTACGTCACGAACGGCGGCAGCCAGTCGGTGTCCGTGATCAAGGGCAACACCGTGACCGGCACCATCCCTGTCGACAGCAGCCCTTATGGAGTGGCGGTGGACCCGGAGACGCACAGGGTCTACGTCACCCACCCTTACGCCAACGTGGTCTCTGTGGTTAGTGGAGCTGCCGTTACCAGCACTATCCCGGTCGGGAATGGACCGCACGGGGTGGCGGTGGATCTGGCGACGCACACGGTCTACATTGCGAACCTCTACGACGGCACCGTATCCGTGATTGACGGAACCGCTGTCAGCAGCACCATAACTGTTGGTGTCGGACCTCTGGGAGTGGCGGTGGATCCGGGGACGCACACCGTCTACGTCACCAACCCCTCGGCGAGCAGCGTGAGTGTTATTAACGGGACGACCGTGACCGGCAGCATTGCCTTCGGCAACAGGACTCCGAATTGGGTGGCGGTCGATCCGCGGACACACACCATTTATGTGACCCACGTATATTCGGACAAAGTGTCAGTGGTTAACGGAACCACGGTGACCAGCATCATTTCCGTCGGAAGCGCACCAGTGGGAGTGGCGGTGGATTCCACGATGCAAACGGTCTATGTCACGAACGCTGTCAGCGGGACAGTGTCAGTGATCACGAACTTAGTCAAAAAGGGCTTCGATGCTGATGGCCACCCTGACGTTTTGGCCCGTGATGGCAGCGGTGCCCTCTGGCTTTACCCGGGCAACGGCACCGGCGGATGGCTGACCCCGGTCCAGGTCGGCTCCGGCTGGAACGTCATGACCGCCATCGTAGGCCCAGGCGACTTCAATGGCGACGGCCACGCAGACGTCACGGCCCGCGACGGCAACGGTGCCCTCTGGCTTTACCCCGGCAACGGCACCGGCGGATGGCTAACCCCGGTCCAGGTCGGCTCCGGCTGGAACGTCATGACCGCCATCGTAGGCCCAGGCGACTTCAATGGCGACGGCCACGCAGACGTCACGGCCCGCGACGGCAACGGTGCCCTCTGGCTTTACCCCGGCAACGGCACCGGCGGATGGCTAACCCCGGTCCAGGTCGGCTCCGGCTGGAACGTCATGACCGCCATCGTAGGCCCAGGCGACTTCAATGGCGACGGCCACGCAGACGTCACGGCCCGCGACGGCAACGGTGCCCTCTGGCTTTACCCGGGCAACGGCACCGGCGGATGGCTGACCCCGGTCCAGGTCGGCTCCGGCTGGAACGTCATGACCGCCATCGTAGGCCCAGGCGACTTCAATGGCGACGGCCACGCAGACGTCACGGCCCGCGACGGCAACGGTGCCCTCTGGCTTTACCCCGGCAACGGCACCGGCGGATGGCTAACCCCCGTCCAAGTCGGCTCCGGCTGGAACGTCATGACCGCCATCATCTAA	MRSLSFIRAGAAAVLALMLLAAPIVADAAYAAQAETNTIAVGRLPQGVAVDPVTHTAYVVNTEDGTVSVINGNTVTSTIPVGDHPLGVAVDPVTHTVYVTNGGSQSVSVIKGNTVTGTIPVDSSPYGVAVDPETHRVYVTHPYANVVSVVSGAAVTSTIPVGNGPHGVAVDLATHTVYIANLYDGTVSVIDGTAVSSTITVGVGPLGVAVDPGTHTVYVTNPSASSVSVINGTTVTGSIAFGNRTPNWVAVDPRTHTIYVTHVYSDKVSVVNGTTVTSIISVGSAPVGVAVDSTMQTVYVTNAVSGTVSVITNLVKKGFDADGHPDVLARDGSGALWLYPGNGTGGWLTPVQVGSGWNVMTAIVGPGDFNGDGHADVTARDGNGALWLYPGNGTGGWLTPVQVGSGWNVMTAIVGPGDFNGDGHADVTARDGNGALWLYPGNGTGGWLTPVQVGSGWNVMTAIVGPGDFNGDGHADVTARDGNGALWLYPGNGTGGWLTPVQVGSGWNVMTAIVGPGDFNGDGHADVTARDGNGALWLYPGNGTGGWLTPVQVGSGWNVMTAII				NA	NA	NA	NA	NA
D1-29_04330	666	ves		Protein Ves	ATGGAGATCATCCGTTATGCAGAGCTCAGGCCCCAACCATGGCGCAACGGCGGTGGTGTGACCCGGGAACTGGCCAGCCATCCCAAAGCAGCCTCCGCCCAGGATGGTGCCTGGGATTGGCGCGTGAGCATCGCCGAAGTCAGCAAGGCAGGCGACTTCTCGGGGTTCCCCGGGATGGAACGCGTGCTGACCGTGATCGACGGTGAACTGCTCCTCCTGACCGTCGACGGCGCCGAGCACCCGCTGGAAAAATACCGGCCCTTCAGGTTCTCCGGCGAAGCCGCCAGCCACGGCGCACTGCCCACGGGTGACATCCGGGACCTGAACGTCATTACCCGGACCGGTTCCTTCAAGGGCTACACGTCCATCATCGAGCTGTCCAAGAAGCGCGCCCACCCCCTCTTTGAGGGCCAGCTGGGCGTCCTGCTGCAGGGCCAAGCCACTGTCAGCGCGGGTGCAGCAGAGGAAGCCGGAGATGGTGCCGAACAAGACAGTGCCGAACATGACAGTGCAAAACCGGAAGCCGCCGCCCCGGCAGCGGAACCCGAGGCACTGAGCCGTTACGACGCCGTCGTGGGTTCTGATGAGCGCTCCCCCGAAATCCTGGGCCGCGGATTCCTGGCGGTGGTCTCGATTGACCGCGTGGCGGGCGAGGGAGCAGGGTAA	MEIIRYAELRPQPWRNGGGVTRELASHPKAASAQDGAWDWRVSIAEVSKAGDFSGFPGMERVLTVIDGELLLLTVDGAEHPLEKYRPFRFSGEAASHGALPTGDIRDLNVITRTGSFKGYTSIIELSKKRAHPLFEGQLGVLLQGQATVSAGAAEEAGDGAEQDSAEHDSAKPEAAAPAAEPEALSRYDAVVGSDERSPEILGRGFLAVVSIDRVAGEGAG	PGPT0020255_83	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
D1-29_04331	1185			ISNCY family transposase ISKol11	ATGATCCAACGGCAGGCTGTGACGAAGAAGAAGGCTCTCGCTTACAAGACGGCGGATCGGGCGGGGAAGTCCCGGATCTTGAACGAGCTGGTCGAGCTGACCGGTTGGCACCGCGATTACGCCCGGGCGGCTCTGCGGGGCGCCTTGGTCCTGAAAGTTGTCAGGCCCAGGCCGGGCCGGAAGCCCGTGTACGGCCCTGATCTGCTGGACCCGCTGATCAGGTGCTGGGCTGTGTTGCGTGCCCCTGCCGGCAGGCTGCTGGCCCCGATGCTGCCGGTCCTGGTACCGCTGCTGCGCCGGGACAAAGAGCTGGTGATCACCGACAGGCAGGCTGATCTGCTGATGCGCATGAGCGCGGCGACGATCGACCGCAAACTCGTCGGTGAACGGGCGAAACTCTTCCCCCGGGGACGGTCCCATACCAAGCCCGGCACCCTCCTGAAATCCCAGATCCCGGTCCGGACCTGGGCCGAGTGGGACGACGCCGTCCCGGGATTCGTGGAGATTGATCTGGTTGGACATGAGGGCGGCAACAGCTTCGGGGAGTTCTGTTTCACCCTGACGGTGACCGATATTTCCACGGGCTGGACGGTGAACCGGTCGGTGCGGAACAAGGCGGCCAAATGGGTCTTCGAGGCCCTCGAACACGTCATCGCGGTGTTCCCTTTCCCGATCATCGGGATCGACTCGGACAACGGCTCCGAGTTCATCAATGAGCAACTGCTCGCTTACTGCCACGCACACCAGATCACCTTCACCCGGTCCCGCCCAGGCAACAAGAACGACGGCGCCCACGTGGAGCAAAAGAACTGGGCAAGGGTCCGGGAACTGGTCGGCTACCTCCGCTACGACACCACCGGGGAGCTCGGGAAACTCAACGAAATCTGGGAGCTGGACCGGCTCTTCACTAACTACCTGCTGCCCCAGCAAAAACTCATTCAGAAACAACGGCACGGCGCAAAAGTGACCAAGAAACACGACGCGCCGGCCACACCCCACCAGCGGGCGATCCGGCACGAGAAGATGCGTAAGCGCCCGATCATCCGGATGAATGCCGCCTTCAAACAGATCAAACCCGGCAGCCTCTCACGCCAGATCCTGGCACTCACCGCCCAGCTGGAGACCCTCTCCCGGGCAAAGAGTCCCGCCGCCGTCAAACCTGTCAACAGGGCTTGGAACAGCTAA	MIQRQAVTKKKALAYKTADRAGKSRILNELVELTGWHRDYARAALRGALVLKVVRPRPGRKPVYGPDLLDPLIRCWAVLRAPAGRLLAPMLPVLVPLLRRDKELVITDRQADLLMRMSAATIDRKLVGERAKLFPRGRSHTKPGTLLKSQIPVRTWAEWDDAVPGFVEIDLVGHEGGNSFGEFCFTLTVTDISTGWTVNRSVRNKAAKWVFEALEHVIAVFPFPIIGIDSDNGSEFINEQLLAYCHAHQITFTRSRPGNKNDGAHVEQKNWARVRELVGYLRYDTTGELGKLNEIWELDRLFTNYLLPQQKLIQKQRHGAKVTKKHDAPATPHQRAIRHEKMRKRPIIRMNAAFKQIKPGSLSRQILALTAQLETLSRAKSPAAVKPVNRAWNS	PGPT0030665_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030665-putative_transposase-K07493	NA	NA
D1-29_04332	531	bfrB	COG1528	Ferritin BfrB	ATGACCTCCACATCCTTCAATTCGCTCCTGTCCACCCAGATCGGCAACGAGTTCACCGCCTCGCAGCAGTACATCGCCGTGGCCACCTGGTTCGCCAACCAGGACCTCCCGCAGCTGGCGCGCTACTTCTACCGGCAGTCCGTGGAAGAGCGGAACCACGCCATGATGATGGTGCAGTACATGCTGGACCGGGACATCGCCTTCACCATTCCCGGCGTCCCCGCGGTCCGCAACGACTTCTCCTCGGTGACCGAACCACTGGCGCTTGCGCTGCAGCAGGAAAAGGAAGTCACCGCCAACATCGAAGCCCTCTTCCGTGCGGCCCGCGGCGAGGATGATGCCCTGGGTGAACAGTTCATGCTGTGGTTCCTCAAGGAGCAGGTGGAGGAAGTGGCCTCGATGACCACGCTGCTGAACATAGCCGAGCGTGCGGACAACCTGTTCGACATCGAGAACTTCATCGCCCGCGAGTCCATCGGCGACGGCGGCCGCGACTCCGCCGCCCCCGCGGCTGCCGGCGGCGCCCTCTAG	MTSTSFNSLLSTQIGNEFTASQQYIAVATWFANQDLPQLARYFYRQSVEERNHAMMMVQYMLDRDIAFTIPGVPAVRNDFSSVTEPLALALQQEKEVTANIEALFRAARGEDDALGEQFMLWFLKEQVEEVASMTTLLNIAERADNLFDIENFIARESIGDGGRDSAAPAAAGGAL	PGPT0003960_202	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003960-bfrB-K22336	NA	NA
D1-29_04334	324	gdx		Guanidinium exporter	ATGTCGTGGTTAATCCTCATCCTCTCCGGAGCGCTGGAAGCCGTCTGGGCCGCCGCCCTGCACCGCACCTTCCAGGCCACCGGCCGCCGCAGGGTCCTGCCCGCCGCACTCTTCCTGGCCTCCGTCCTGGCCAGTACCGGCGGACTCGCGATCGCCATGCAATCCATCCCCACCGGAACCGCCTACGCCGTGTGGGTGGGGGTGGGCGTGGTGCTGACCAGTGCGTATGCCATCATCACCAAGGTGGAACGGCCGACGGCGGCGCGCCTGCTGCTGCTCGCCGGCATCGCCGCCTGCGTGGTTGGCCTGAAGGTGGTGGCATAG	MSWLILILSGALEAVWAAALHRTFQATGRRRVLPAALFLASVLASTGGLAIAMQSIPTGTAYAVWVGVGVVLTSAYAIITKVERPTAARLLLLAGIAACVVGLKVVA	PGPT0028785_792	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
D1-29_04335	381			hypothetical protein	GTGCTGCAACGCTCCGTTCCGTGGCTGGTGCTGCTGGCTTCCGCCATTTTGGAAGCTGTCTGGGCAACGGCACTTGGACTGTCTGACGGCTTCACCAGGCCGCTGCCCACCGCCGTCTTCGCCACCACCGCCACACTGAGCATGCTGGGGCTGGGCATCGCGGTCAAAAGCATCCCCCTGGGCACCGCCTACGCCGTTTGGGTAGGAATCGGCGCCGGGCTGACCGTGGCCTGGGCGATGGCCACCGGTGCCGAGCCCTTCAGCCTGCTCAAAGTGCTGTTCATCGGCGGCATTGTGGTGTGTGCGGCCGGGCTCAAGGCATTGGCCGGCGAACCCGGCAACTCCGCTGCCCCGCCGGCGGCCGCGCGTAGCCGCCGGTAG	MLQRSVPWLVLLASAILEAVWATALGLSDGFTRPLPTAVFATTATLSMLGLGIAVKSIPLGTAYAVWVGIGAGLTVAWAMATGAEPFSLLKVLFIGGIVVCAAGLKALAGEPGNSAAPPAAARSRR	PGPT0028785_185	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
D1-29_04336	627	udk		Uridine kinase	ATGGACTCCCCCGAGATAATGCAGGCCCTGGACGCGCTGCGCCTCAGAGTAGCCGGGGGCAGCCGGACCCTGCTGGGCATTGCGGGCGCCCCCGGGTCCGGTAAATCCACCTTCGCCGAGTGGATCCGGCAGCAATTCGGCCCGGAGCAGGCCGTGGTGGTGCCCATGGACGGGTTCCACCTGGGCAACGCCATCATCGACGGCACTCCGCTGAGGCAGCGGAAAGGCGCCATCGACACGTTCGACGCCGGCGGGTACCTTTCGCTGCTCCAACGGCTGGTGCGCCGGGACGAAGACGTGGTGTATGCCCCGGAATTCCGGCGCTCCATCGACGAGCCCGTGGCGGCTTCCATCGCGGTCCCGGCCAGCATTCCGCTGGTCATCACCGAGGGCAACTACCTGCTGGCGGACACCCCTGCCTGGAAGCAGGTGCGGGCCCAGCTGGACGAAGTGTGGTTCGTTGACACCCCTGCGGATTTGCGGCTGGAACGGCTGGTGGCCAGGCACGAGGCGTTTGGCATGGAGCGTTCCGCCGCAGTGGCCTGGGCGCAGGGCCCGGACGAAGCCAACGCCGTTCTCATCGAGGCCACCCGCCTCGGAGCTGACCGGATCATCCCCTGGGGCTGA	MDSPEIMQALDALRLRVAGGSRTLLGIAGAPGSGKSTFAEWIRQQFGPEQAVVVPMDGFHLGNAIIDGTPLRQRKGAIDTFDAGGYLSLLQRLVRRDEDVVYAPEFRRSIDEPVAASIAVPASIPLVITEGNYLLADTPAWKQVRAQLDEVWFVDTPADLRLERLVARHEAFGMERSAAVAWAQGPDEANAVLIEATRLGADRIIPWG				NA	NA	NA	NA	NA
D1-29_04337	1017	yajO_3	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGAAACCCGCACCCGCAGCATTGGTACAGCTGGCCCAGGGCCTGGAGGTCAGTCCGCTGGGGTTCGGGGGGATGGCCCTCACGCCCGTCTACGGCGGGGTGGATCCGGCCGAGGCGCTGAAAACCCTGCATCACGCCGTAGACGCGGGCGTCAGCTTCATCGACACCGCCGACATCTACGACGGCGGCAGCAACGAAGAACTGATCGCGCACCTGCTCAAGGACCGCCGGGACGAGGTCCAGCTGGCCACCAAGTTCGGGCTGGTGGGGAGCCCGGCCACCGGATACTCAGATATCCGCGGTGATGCCCCGTACGTCCGGCAAGCCGTGGAGAACAGCCTTCGCCGGCTCGGAACGGACACCATCGACCTCTACTACATGCACCGCCGGGATCTCCGGACTCCGCTCGCCGAAACAGTGGGGGCCATGGCGGAGCTCGTGGAACAGGGCAAGGTCCGGCATCTGGGTTTATCCGAGGTGACGGCCGAGGAGCTGCGCGAGGCCCACGCAGTGCATCCTATTGCCGCAGTGCAAAGCGAATGGTCCATCTGGAGCCGGGACGTGGAGCGCAACGTTGTTCCGGCCGCCGCCGAGCTGGGGGTGGGCTTTGTTCCGTACTCGCCGCTGGGCAGGGGGTTCCTCACCGGCACCGTTGACGCTTCACAGCTGGGCGAAAATGACTTCCGACGCCGGATCCCGCGTTTCGCCGCAGACGCCGCCGACGCGAACCAGGCTGTTGTGGCCGCCGTCCGGCTGGTTGCCACGGTGCTTGACGCAACCTCTGCCCAGGTGGCACTTGCCTGGCTGCTGGCGCAAGGCAGGCGGTTCGGCCTTCCTGTTGTCCCCATCCCCGGCACGCGCAAAACCCACCGGATCGACGAGAACCTGGGCGCCCTCGCCCTGGACCTGACCCCGGCGCAACAGGAGGCGCTGGACTTGGCGGCGGACGCCGTCGTCGGCTCCCGCTCGGCTGATCCCAAATGGGTGTCTGAGGGGCGCGAGGAGGCAGCCTCCTAG	MKPAPAALVQLAQGLEVSPLGFGGMALTPVYGGVDPAEALKTLHHAVDAGVSFIDTADIYDGGSNEELIAHLLKDRRDEVQLATKFGLVGSPATGYSDIRGDAPYVRQAVENSLRRLGTDTIDLYYMHRRDLRTPLAETVGAMAELVEQGKVRHLGLSEVTAEELREAHAVHPIAAVQSEWSIWSRDVERNVVPAAAELGVGFVPYSPLGRGFLTGTVDASQLGENDFRRRIPRFAADAADANQAVVAAVRLVATVLDATSAQVALAWLLAQGRRFGLPVVPIPGTRKTHRIDENLGALALDLTPAQQEALDLAADAVVGSRSADPKWVSEGREEAAS	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
D1-29_04338	783			hypothetical protein	ATGACGCAACACACTGAGTCCACCGGCACGCTCCAGACCCAGACGCCCAAACGCCAGGTCAGCTTCGCTCTCCTGACGTGGGTGGAGATCCGAAAGTTGCTGGATACCCGGAGTTCCTTCGCCATCCTGGCCGTCCTCGCTGCTCTGGCCGCGGCGCTGGTAGCAGGATTGGCACTGTTCAGCCAGAGCCAGGGCACGCCCATGACGTTCGCCGGGTATGCAGGAGGCATCGGCCTTTTCACGGGCCTGGCGATGCCGCTGATCGGGATACTCGGAATGACCTCTGACTTCTCGCACCGCACCACCTTTGTCTACTACCCGTTGCTGCGCGGCAGGACCGGACAGTTCTGGGCCAAGGTGGTGGCGGCCGTGGCGGTGGCGCTGGCCCTGCAGCTCTTTGTGCTCCTCTGCTCGGCCGTCACCGCAGGCCTCACCATGGGGAACGCCGCCCCCGCCGACGTCTTCCAGGACTCCGCCGGAGTCATCGGCAGCGGACTGGCCGCCTGCCTGCTGGGCACCATGTTCGGCGTTGCACTGGCCGCGGCCATCCGGCGAACAGCCCTGACCATCGTGGCCGTCATTCTCATCACGCTGGTAGGCAACGGCCTCATCATCACCCTGCTGCCGGACGCCAGCGGCTACCTCAGCACCATTACCGCGATTGCCGTTATCGCCGGCGGTCCCGAAGCCCCGTCCGTCCTTGAGGCTTGCACGTCCGTGGCCATCTGGTACGCGCTTCCCCTGGGGATCGGCTGGTGGATCACGGAACGGGGCGAAGCCTAG	MTQHTESTGTLQTQTPKRQVSFALLTWVEIRKLLDTRSSFAILAVLAALAAALVAGLALFSQSQGTPMTFAGYAGGIGLFTGLAMPLIGILGMTSDFSHRTTFVYYPLLRGRTGQFWAKVVAAVAVALALQLFVLLCSAVTAGLTMGNAAPADVFQDSAGVIGSGLAACLLGTMFGVALAAAIRRTALTIVAVILITLVGNGLIITLLPDASGYLSTITAIAVIAGGPEAPSVLEACTSVAIWYALPLGIGWWITERGEA	PGPT0006730_16774	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-29_04339	936	lnrL_3	COG1131	Linearmycin resistance ATP-binding protein LnrL	TTGGCGTTACAGTCTGAAACCGCGTCCGGAATTGCCTTCATTGGCGTCACCAAGGCCTATGCCGGGAGGGCGGTGGTGGATTCTGTCAGCTTCATTTGCCCGCCGGGTTCGGTCACCGCGTTCCTTGGGCCGAACGGTGCCGGGAAGTCCACCACGCTGCGCATCGCTGCCGGCCTCAGCCGCGCCGACACCGGGGAAGTCCTCTTCGCCGGGCGCAGGCGTGCGGACCTGGTGCACCCTGGCCGCGCCATCGGGTTTGTCCTGGATCCCACAGCGCTTCACCCGGGCAGGTCCGTGCGCGAGACCCTGAAGCTGAACGCCCTGCTCCTGGGAGTGGCGGACCCGCGCATCGAGGAGGTACTCATCCTGACCGGCCTGGTGACGGTCCGGGGCAAACGGGTGTCATCCCTGTCGCTCGGGATGCGCCAGCGTCTGGTCCTTGGCCTGGCCATCCTGGCAGGTCCGCAGTTCCTGGTGTTGGACGAACCGACGAACGGGCTCGACGCCGATGGTGCCGTGTGGGTGCGCAGATTCCTGAAGCACTTCACGTCCCAGGGCGGCACGGTGCTTCTGTCGAGCCACCTGCTCCGGGACGTGCAGGCAGTGGCGGACCACATTGTCATGATCGACCGGGGCCGGGTGGTGGCAGCCGGCCGGGTGGCAGAATTCAGCGTCAGCGCCGGTACCAAGGTATCCGCCGCAGATCCAACGCGCCTCCCGGAGGTGTTCGCGGGGCTGGGTTGGCAGTACAGCCGCACAGGTGACACGTTCATCGTGGAGGCAGCGCCTGAGGACATCGGCCAGGCGTGCCTCGCCCACGGAATAGCCCTCACCCACCTGTCCAACGTGACCGACTCGGCCTTGGAAGAGAAGTTCCTTGCCCTGACATCCGGTGAATTCGCCAGCCGAAACAACGCCCTGGAGCCCACAGCATGA	MALQSETASGIAFIGVTKAYAGRAVVDSVSFICPPGSVTAFLGPNGAGKSTTLRIAAGLSRADTGEVLFAGRRRADLVHPGRAIGFVLDPTALHPGRSVRETLKLNALLLGVADPRIEEVLILTGLVTVRGKRVSSLSLGMRQRLVLGLAILAGPQFLVLDEPTNGLDADGAVWVRRFLKHFTSQGGTVLLSSHLLRDVQAVADHIVMIDRGRVVAAGRVAEFSVSAGTKVSAADPTRLPEVFAGLGWQYSRTGDTFIVEAAPEDIGQACLAHGIALTHLSNVTDSALEEKFLALTSGEFASRNNALEPTA	PGPT0006725_19153	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-29_04340	651	gloC	COG0491	Hydroxyacylglutathione hydrolase GloC	ATGGATACGCTCATTCACTCCTCAGACAGCATTACTGTCCGCCGGATCTCCGTCAGCGAGGTGGACAACAATGTGTATCTGCTCACCGCCAGGAAATCCGGGGCGCAGCTCCTGATCGACGCGGCCGACGACCTTCCTGCCATCCAGGCGCTGCTTGCTGAGTCCGCCGCGGACAGTGCTGTCCCTCCGAAACTGGAGCTGATTGCCACCACCCACCAGCACTGGGACCACGTCCGGGCCCTGCCCGCCCTGGTGGAAGCAAGCGGGGCGCGGACGGCAGCCGGAAAGGACGACGCACCGGAACTGCCGGTGGCTGTTGATGTCCTACTGGACCACGGAGACCGCTACGCCTTGGACGGGTTCGAGGTGACAGCGGTGCACCTGCGCGGCCACACCCCGGGCTCCATCGCCTTGGTCTACCAGGACCCCGAGGGGCCGGCGCACATCTTTTCCGGGGATTCCCTGTTCCCGGGCGGCGTGGGGAACACCCAGAAGGACGCCTCCCGGTTTGAGCAACTCATCACCGATGTCAGCGAACGCCTCTTTGACGTATATCCGGACAGCACGGTGGTCCACCCGGGGCACGGCAAGCCCACCACCCTTGGCGAGGAGCGTCCCCATCTTCAGGAATGGCGCGCCCGCGGATGGTGA	MDTLIHSSDSITVRRISVSEVDNNVYLLTARKSGAQLLIDAADDLPAIQALLAESAADSAVPPKLELIATTHQHWDHVRALPALVEASGARTAAGKDDAPELPVAVDVLLDHGDRYALDGFEVTAVHLRGHTPGSIALVYQDPEGPAHIFSGDSLFPGGVGNTQKDASRFEQLITDVSERLFDVYPDSTVVHPGHGKPTTLGEERPHLQEWRARGW				NA	NA	NA	NA	NA
D1-29_04341	1923	rhlB		ATP-dependent RNA helicase RhlB	TTGACTTTGACTACATTTGCTGCCCTTGGCACGCCCAAAGCCCTTGCTGACACGCTCACCGCACAGGGAATCACTGAACCGTTTCCCATCCAGGTCAAGACCCTTCCGGACACCCTGGCAGGACGCGACGTCCTGGGCCGCGGCCGCACCGGCTCCGGCAAGACCATCGCTTTCGCCATCCCGCTTGTAGCACGACTCGCTGAGCGGGAAGCCAAGCACTTCCGCAAGCCCGGCCGCCCCATGGGCCTGGTCCTGGCACCCACCCGTGAACTGGCCACCCAGATCAACGCCACCATCGAGCCGCTGGCCAAGGCCGCCGGCCTGAACACCACCGTGATCTACGGCGGCATCTCCCAGGCCCGCCAGGAAAAGGCGCTGCGCTCCGGCGTCGACATCGTCATTGCCTGCCCGGGCCGCCTGGAGGACCTGATCCGCCAGCGCATCCTGACCCTTGAGGCCGTGGAAATCACCGTCCTGGACGAGGCCGACCACATGGCCGACCTCGGCTTCCTGCCCGTGGTCAAGAAGCTCATGGACATGACCCCCAGCCAGGGCCAGCGCCTGCTCTTCTCCGCCACGCTGGACAACGGTGTGGACAAGATCGTCCAGCGCTACCTGTCCAACCCGCTGACCCACTCCGTGGATGACCCGCAGGCCGCGGTGACCACCATGGAACACCACGTCCTGGTGGTCAACGACCAGACAGTCAAGAAGCAGCTGATCGTGGAACTCGCCTCAGGAGCCGGCCGCCGCGTCCTCTTTATGCGGACCAAGCACCACGCCCGCAAGCTGGCCAAGACCCTGACCGACGCCGGGATCCCCGCCGTTGATCTGCACGGCAACCTCTCGCAGAATGCCCGTGACCGGAACCTGGCCGAATTCTCCAACGGTGACGTCCGCGTCCTGGTGGCCACCGACGTCGCTGCCCGCGGCGTCCACGTGGACGACGTCGAACTGGTGATCCACGTAGACCCGCCCACCGAGCACAAGGCTTACCTGCACCGCTCGGGACGGACGGCACGCGCCGGCTCAGACGGCACCGTGGTCACACTGACCCTCCCGGAGCAGCAGACCGACGTCAAGAAGCTGATGAAGGCTGCCGGCGTCGAGGTCAGCTTCGAGCGCGTCACCGCCAACTCCCCGCTGGTTGCAGAACTCGTGGGCGAAATGGCCGACAAGATCGATCCCCGCACCCGGGCAGCCCTGCTGGCCGCCAAGGCCAATCAGGGCGGCGGCACCTCCACGGGTGCCAACGCCGAGCGCAAGCGTGCCCGCCGCACTACCCAGGCGGCACCCACCGCAGGTGGCCGTGGCGGACGCGGTGGACGTGGAAGGGTCTCCGCCGAGCCCACCCGCTCCGACATCCCGCGCGCGGAGCGCCGTGCCGTGGCCTACGAAGGCCAGGCCGCTGCCCGCAATGCTGCAGACCGTGTCATTGAGCAGAACGAGGACCGCGCCATTGCCGCAGCTGCAGCGCGGCGCAATGCCCGTGGCCGTGGCACCGCTTCCACGCACCGCAACGACGTCCCCGCGGCAGGTGGCCGCTCATCGGCTGGCCGCGGTTCAGACGGCCGTGCGGACTCCCGCGTAACCCGTAGCGATGCTCCCCGCGGCGGCACCGGCCGGCCGGCTTCAACCGGTGGCCAGCGCAACGGCCGACCCGCCACCGGCCAGCGTGCAGCCGGAACCGGCTCCCGCACGGCTGCAGCCGGCGCCCGCACCGGCGGATCCGGCCAGCGTGCCGGTGCCTCCGCAGGCAGCGCCGGCGGCAACAAGGCTGTTTGGTCCTCCAACACCGGTGGAACCTCCGGCGGATCGTATGCAGGCAACGGCGGCTCCGGCCGGTCCGGCGAAGGCCGTCCTGCCCGCAGTGGCCCCCGCCGCGCGTCGGCTCCGGCGTCCAACGAACGCCGCGGCCGCTAA	MTLTTFAALGTPKALADTLTAQGITEPFPIQVKTLPDTLAGRDVLGRGRTGSGKTIAFAIPLVARLAEREAKHFRKPGRPMGLVLAPTRELATQINATIEPLAKAAGLNTTVIYGGISQARQEKALRSGVDIVIACPGRLEDLIRQRILTLEAVEITVLDEADHMADLGFLPVVKKLMDMTPSQGQRLLFSATLDNGVDKIVQRYLSNPLTHSVDDPQAAVTTMEHHVLVVNDQTVKKQLIVELASGAGRRVLFMRTKHHARKLAKTLTDAGIPAVDLHGNLSQNARDRNLAEFSNGDVRVLVATDVAARGVHVDDVELVIHVDPPTEHKAYLHRSGRTARAGSDGTVVTLTLPEQQTDVKKLMKAAGVEVSFERVTANSPLVAELVGEMADKIDPRTRAALLAAKANQGGGTSTGANAERKRARRTTQAAPTAGGRGGRGGRGRVSAEPTRSDIPRAERRAVAYEGQAAARNAADRVIEQNEDRAIAAAAARRNARGRGTASTHRNDVPAAGGRSSAGRGSDGRADSRVTRSDAPRGGTGRPASTGGQRNGRPATGQRAAGTGSRTAAAGARTGGSGQRAGASAGSAGGNKAVWSSNTGGTSGGSYAGNGGSGRSGEGRPARSGPRRASAPASNERRGR				NA	NA	NA	NA	NA
D1-29_04342	726	COQ3_3		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGACTGAACAGGGCGGACATCACCACCACAAGACGGACGACGGCGGCACCCGGCTCACCGATGAACCCACCCAAAGTGCCGCTGAAGCCTGGGACGAGCGGTACAGCAGCAAGCCGAAGCTCTGGAGCGGCAAGCCCAACCCGCAACTGGTCCGCGAGGGAGGCGGGCTCCGGCCAGGCAAGGCACTGGACCTGGGGTGCGGCGAGGGCGCCGACGCCATCTGGCTCGCCCAGCAGGGCTGGACCGTCACCGCCGTCGACGTTTCCGCCGTCGCCCTGGCACGCGCCGCCGCGCACGAAAAGGCCGCGCTGGAGCGCGAAAGCGTCCACGCCGAAGGTCCTGGCGAGATTCCGAGCCGCATCCACTGGGAACAGTGCGACCTCGAGGAGTGGAAGCCCGTGGGAACGTACGACCTCGTCTCCTCCCAGTTCCTGCACTCGCCGCAACTGGCATGGCAGGGTCCGCTGCGGACAGCCGCCGCCGCAGTCAAGCCCGGTGGCACACTGCTGATCGTGGGCCACCACCCGGACCGGCTGCCGCCATGGGGCAACCACACCTCCCATGAGATGTTCTATACCCCGGCCCAGCTGGTGGAGGAACTTGGCCTCGACTCGCCGGAATGGCTGGTGGAGGTCAACACCACGCGTGACCGGCGCGTAGCAGGGCCTGACGGGCAGGAAGCCGTCATCGGCGATACCGTGCTCCGGGCTACCCGGCTGTCCTGA	MTEQGGHHHHKTDDGGTRLTDEPTQSAAEAWDERYSSKPKLWSGKPNPQLVREGGGLRPGKALDLGCGEGADAIWLAQQGWTVTAVDVSAVALARAAAHEKAALERESVHAEGPGEIPSRIHWEQCDLEEWKPVGTYDLVSSQFLHSPQLAWQGPLRTAAAAVKPGGTLLIVGHHPDRLPPWGNHTSHEMFYTPAQLVEELGLDSPEWLVEVNTTRDRRVAGPDGQEAVIGDTVLRATRLS	PGPT0015670_4492	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
D1-29_04343	1410	sdrM		Multidrug efflux pump SdrM	ATGAAAACTGATCAGGCCGTTACCGTGCACGATTCGACTCTTCCAGCCACCCACCCCGCCGCCGGAATCCTCCGGCGGCCGTATCTGTGGGTGACAATCGGCGCGTGTGCCCTGGTGTTCCTGGCCGCCTTCGAATCGCTCGCGGTGACCACCATCATGCCCCTGGTCAGCCGGGAACTGGACGGCGCCGGCCTCTACGCCCTTGCCTTCGCCGGCCCGCTGGCCACCGGCGTGATTGGCATGGTGGCGGCCGGCAACTGGTCGGACCGCGGCGGGCCTGCCGTGCCGCTCTATTCGTCGGTTGTCCTGTTTGTCCTTGGCCTGCTGATTGCGGGCACGGCAGCCTCCATGCCCGTGCTGGTGGCCGGGCGCCTGGTGCAGGGGCTTGGTGGCGGAGCGATGACCGTGGCACTCTACGTTGTTGTGGCGCGGGTATATCCGGCACTGCTCCATCCGAAGATTTTCGCGGCCTTCTCAGCCGCCTGGGTTATCCCGTCCCTGATCGGACCGTTCGCAGCGGGGATCGTGGCGCAGGTGCTCAGCTGGCACTGGGTGTTCCTTGGCGTGGTTGGCCTGGTGATTCCTGCCCTGGTGATGATCGTGCCGGTACTCCGGGGGATGGCACGGGAACAGAAGGACGGGAGCGGTGCGGCCAAGCCGCCATGGGCTGTTGGCCGCATGGGGTGGGCGGCGCTCGCCGCCCTGGCCGTTCTGGGACTGAACCTGTCCGCCGGGGTCCGGATTCCCGGGGTTCCCGCCGCGGCCGCCGTCTTGGCCGTCGTCGCCGTCGCCATTGCCCTGGCGGCTGTGCGTCCGCTGGTGCCGCGGGGAACGCTGACGTCCCGGCGCGGACTGCCCACCGTGATCCTCACCCGGGGGCTGGCCTCGGCGGCATTCTTCGGTGCAGAGGTCTACCTGCCCTACCTGCTGATTGAGCAGTACTCCTTCCCGCCAACGTTCGCGGGGCTCACCCTCACGGGCGGTGCGTTGGCCTGGGCGGGCGCTTCGGCGATCCAGGGCAGGCTCGGCACCCGGCTGTCCCACAGCGCGGCGGTGCGGATCGGATCGGTGCTGGTGCTGGGCGCCATCATCCTGGCACTGGCAACCACCGCGCTTAACTGGTCCGCCGCCGTCGCGATTGCCGGCTGGATCTTCGCCGGCGGAGGCATGGGGCTCCTGTACCCCCGGCTCAGCGTGATGACGCTGGCGCTGTCCGCCAAGGAGGACCAGGGCTTCAACAGCTCGGCCATGTCCATTTCCGATTCCCTCGGCGGGGCGTTGGCGCTCGCCACCACCGGCATCGTTTTCGCGGCATTCACGACGACGTCAGGATCGTTCAGTGGCGTCTTCGCCCTGGCTGCCGTGCTTGCCGCCGTCGGCGTGGCGGTGGCCCCCCGCGTCTCCCCCTGA	MKTDQAVTVHDSTLPATHPAAGILRRPYLWVTIGACALVFLAAFESLAVTTIMPLVSRELDGAGLYALAFAGPLATGVIGMVAAGNWSDRGGPAVPLYSSVVLFVLGLLIAGTAASMPVLVAGRLVQGLGGGAMTVALYVVVARVYPALLHPKIFAAFSAAWVIPSLIGPFAAGIVAQVLSWHWVFLGVVGLVIPALVMIVPVLRGMAREQKDGSGAAKPPWAVGRMGWAALAALAVLGLNLSAGVRIPGVPAAAAVLAVVAVAIALAAVRPLVPRGTLTSRRGLPTVILTRGLASAAFFGAEVYLPYLLIEQYSFPPTFAGLTLTGGALAWAGASAIQGRLGTRLSHSAAVRIGSVLVLGAIILALATTALNWSAAVAIAGWIFAGGGMGLLYPRLSVMTLALSAKEDQGFNSSAMSISDSLGGALALATTGIVFAAFTTTSGSFSGVFALAAVLAAVGVAVAPRVSP				NA	NA	NA	NA	NA
D1-29_04344	495	soxR	COG0789	Redox-sensitive transcriptional activator SoxR	ATGCCACAGCCCGCAGGCGGAGCGCACCATACTCTCAGCGTCGGCGAGTTGTCGGACCGCAGTGGAGTGGCGGCGTCGGCTCTTCACTTTTACGAACGCAACGGCCTACTCTCCTCCGAACGCACTGCCGGCAACCAGCGGCGATACCGCCGCGACGCCCTGCGGCGGGTGGCGTTCATCCGCGTGTCGCAGCGGGTGGGCATCCCGCTCAAAGACATCCGAGCGGCCCTGGATTCCCTGCCCGAAGGCCGCACACCCACCAAGCGCGACTGGTCACGGCTCTCGCGGCTCTGGCGCACCGAACTGGATGCCCGGATCGAGGCGCTTGAACACTTGCGCCGCGACTTGGATGGCTGCATAGGCTGCGGCTGCCTGAGCCTGAAGGCCTGCCGGCTGCAGAACCCGGCGGACCAGCTGGGCTCGGCCGGAACCGGGGCGGTCCGGTGGAAGGCTGGAGCCGTCCCGCCCACAGCCTCCATGCCGCCCAGCAACTGA	MPQPAGGAHHTLSVGELSDRSGVAASALHFYERNGLLSSERTAGNQRRYRRDALRRVAFIRVSQRVGIPLKDIRAALDSLPEGRTPTKRDWSRLSRLWRTELDARIEALEHLRRDLDGCIGCGCLSLKACRLQNPADQLGSAGTGAVRWKAGAVPPTASMPPSN	PGPT0012955_811	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012955-soxR-K13639	NA	NA
D1-29_04345	924	trmB		tRNA (guanine-N(7)-)-methyltransferase	ATGAGTGAATCCCCAGAATCTCCCCAGCCCCCGCACAATCCGCGGCCGGTTACGCCCGGAACACAGGCCTCGTTCGGCACTTACGGTGGCCGGCCTGTCAGCTTCGTGCGCCGCGGAACCCGGCTGCAGGGACGCCGGCAGGCCGCATGGGAAGAGCACGCCGAGCGCTGGGCCGTGGACGTTCCCCGCCATATCGCCAACACCTCCGTCCACCCTGAGTACACGTTCGACGCCGAAGCGGTGTTCGGCCGGAAGGCGCCGCTGATCGTGGAGATCGGCTCCGGTCTGGGCGATGCCATCTGTCACGCCGCGGAGCAGAACCCGGACACTGACTTCCTGGCCGTGGAGGTCTATACGCCTGGACTGGCCAACACCATCATGAAAATCAACAGCCGCGGACTGCGCAACGTCCGCGTCGTTGAGGCCAATGCTCCGGAGGTGCTTGCCACCATGCTTCCCGCCGGGTCGGTCACCGAACTGTGGGTGTTCTTCCCTGACCCCTGGCACAAGTCCCGGCACCACAAGCGCCGCCTCATCCAGCCCGCGTTCGCCGGCCTTGCCGCGCGTGCCCTGAAGAAGGGCGGCCTGTGGCGGATCGCCACCGACTGGTCCAACTATGCCGTTCACGTCCGCGACGTCCTGGCCGACTCGGAAGACTTCGAAAACCTGCACACCGGCGAGCGCCATGGGCCCGAGAGCCCGCTCACCCAGGTGTGGCAGTCCGGCGTCGAATCCCTGGTGGGTGGCGCCCCGGTCCGCGAAGGCCGTGCCCCGGTCAGCACCGAACATACCGGCCCCAACGAGGGCGTAGACGAAACGGGTGGCTGGGCGCCGCGCTTCGAAGGCAGGATCCGCACCAGCTTTGAAGCGAAGGCCCATGAGGCCGGCAGGCTGATTTTCGACCTCTGCTACCGCAGGCTCTAG	MSESPESPQPPHNPRPVTPGTQASFGTYGGRPVSFVRRGTRLQGRRQAAWEEHAERWAVDVPRHIANTSVHPEYTFDAEAVFGRKAPLIVEIGSGLGDAICHAAEQNPDTDFLAVEVYTPGLANTIMKINSRGLRNVRVVEANAPEVLATMLPAGSVTELWVFFPDPWHKSRHHKRRLIQPAFAGLAARALKKGGLWRIATDWSNYAVHVRDVLADSEDFENLHTGERHGPESPLTQVWQSGVESLVGGAPVREGRAPVSTEHTGPNEGVDETGGWAPRFEGRIRTSFEAKAHEAGRLIFDLCYRRL				NA	NA	NA	NA	NA
D1-29_04346	447			hypothetical protein	ATGTCAGTGCATATCGAATCCCCGCTTGGCTTCACCGCAGATTTTCCCGAACACACCCAGGTTCTGGACAATTCCACCGCAGGACCCAACAGCGAACAGTTCGGGCTCCTGGGCAATGTCCTGGTGACCGTGGCCACGGATGACGCCACCATTGATGGTCCCGCGCAGGCAAACGGCTGGGCGCATCTGATCTCCGAGTTCTACCTGGAAGACCGCGCGGGAACACTTCTGGCCGAAGGCGAATTGAACCTGCCGGGCAAGTCCTCGTACGCCCTGGTGGTGGGTTACACGGATGCTGACGGTGCGGCGAAAGTGGCAGCCCCCGTTGGCGTGTGGGAAAACAACCGCTTCATTGGCGTCCTGGCGATCTGGCCCTGCGTCAACCCTGAGATCGAGCCGCGGCTCAGTATGCTCAAAGAGATTGTGGCCGCCATCAGCGTCAGCTGA	MSVHIESPLGFTADFPEHTQVLDNSTAGPNSEQFGLLGNVLVTVATDDATIDGPAQANGWAHLISEFYLEDRAGTLLAEGELNLPGKSSYALVVGYTDADGAAKVAAPVGVWENNRFIGVLAIWPCVNPEIEPRLSMLKEIVAAISVS				NA	NA	NA	NA	NA
D1-29_04347	1605			hypothetical protein	ATGACTTTTTACGGCGCTGACGTCAGCCAGTTGCGGGATCTGGCCAAGGCCGCGGACAAGGCGGCCTCACTGCTGAGCAGCCAGGCTTCTTCCCTGCAGGGCCAGATTCAGTCCGCGCCGTGGAAAGGTGCCGACGGCGAGAGGTTCCGCCAGGAGTGGACCGGAAGCCACCGTCCCAACCTGGAACAGGTGGCGTCTACTCTCCGTCACAACTCCAAGCTTCTTTTGCAGCACGCCGACGAGCAGGAAAGGTCATCCGCCGGATCTTCCGGAGGGGCGGGTACCGGAGACGCGGGATCATCCGGAGGCGAGGGTGCCGGCCCGTTGGACAACATCGTCAATGACGGCCTGAACTGGCTCGAGCAGCGGGTCAAGGAAGCAGCGGAAGCCAAAGAGCGCCACCACGAATTGGAACAGGACCTGGGCCGGATGGTGGACGCAAGCCCTGAAGAACAGGCCAAATGGTGGGACGGCCTGTCGGCGGAGGACAGGCGGTACCTGATCGAGGGCGAAGACAATAACGATCCGTTCGCCCGGCAGTTGATGTTGATGGACGGCGGGATCCCGGAGTCTGCGCAGGCCCAGGCCATGGCAGAACTGACGAAGGTTGCCTCCAAGGACATCCCCCGCCTCGTAGAGACAGACAAAGCGGAACTGGAGTATAAGGCCGCCTGGCTGCATGGCGGCGCTGCAGTGGGAGCTAAAGTCCAGGAAAACATGGATGGCTCGGCCACCATGAAGGTATACGGAAATCTGGGCATTGGCGTCAATGATCCCTCCGGAACCGCCGGTATAACGGGGAGCAGTGAAGTGTCACGGGAGTACAAGTTCGATACCGCGGCGCAAGCCCTGGCCGCCCGCGATCGGATGATGTCGGATCTCCCGCCTGATGAGTTGTCTGAGGTGACGGATATGGCGGGCAGCCCACCGGCCTATATTCTGGACACCGTCAACGACGCCGCCCGGGACAACGGAGCCACCGGGCATGATGACAAGTTCAAGGGGACGTTGTCCATGAAAGCCCAGGGCGATTCAAGCGGGGCATCGGGTTCGGCCCAGCTTGACCTCGCCTATGAGCGGAGCATGACTCATGGCACGGCCACAGCCAGCAGCGAAGTGTCAGCGCAGGGCAAGCTGGACCTTGACGGACACGTGTGCCAGGCATCCGGGAAAGGCGGGATGGAGGTCAAACTGGATGCCGGCAACAACATGGAATCGATCTCCGTTTCCATGGAAGGAACAATGGCCTCCGGCGGCAGCGCTGGGCTGGACGGGCCGGGCGGCAAGGCCGAGTCAACGTTCACGGCAGGTACTCAGGGCACGGTGAAGATCGACGTCGATTACTCGGACAACAAGGAACTTGTGGACAGCTACGTTCGGAACATTGCCACGGGCAACATCCCGGGGGCAGCCTCGGATGCCGCCAAGCTCTACGAGGCCGGCTCCGCAACAGTGCAGCTCAACCACGTCGCCACCGCCACCCATGAGGTCGGACTCGACTTCGAGGCGGCCAAGGTAGGTCTCAAGACGGAGAGCCAGGTGGTGGTCAACCAGTCCACGTACCACAAGGTGGCGAACGACTCCTCGCTCAATAGGATGCCCTGA	MTFYGADVSQLRDLAKAADKAASLLSSQASSLQGQIQSAPWKGADGERFRQEWTGSHRPNLEQVASTLRHNSKLLLQHADEQERSSAGSSGGAGTGDAGSSGGEGAGPLDNIVNDGLNWLEQRVKEAAEAKERHHELEQDLGRMVDASPEEQAKWWDGLSAEDRRYLIEGEDNNDPFARQLMLMDGGIPESAQAQAMAELTKVASKDIPRLVETDKAELEYKAAWLHGGAAVGAKVQENMDGSATMKVYGNLGIGVNDPSGTAGITGSSEVSREYKFDTAAQALAARDRMMSDLPPDELSEVTDMAGSPPAYILDTVNDAARDNGATGHDDKFKGTLSMKAQGDSSGASGSAQLDLAYERSMTHGTATASSEVSAQGKLDLDGHVCQASGKGGMEVKLDAGNNMESISVSMEGTMASGGSAGLDGPGGKAESTFTAGTQGTVKIDVDYSDNKELVDSYVRNIATGNIPGAASDAAKLYEAGSATVQLNHVATATHEVGLDFEAAKVGLKTESQVVVNQSTYHKVANDSSLNRMP				NA	NA	NA	NA	NA
D1-29_04348	843			hypothetical protein	TTGCACAAAGGAACCACCATCAAAAGAGAACTCAGACAGGCCGCAGACGCGGCGGAGGATGTCACCAACTCGCATGCGTTGGAGGTATTGGCCAGGGCTGGGTTCGCGGCAAGCGGCCTGCTGCATTTCCTTGTAGGGGCCATCGCCATCCGGCTCGCAATGGGCGGAAACGGCAGCGCCGACGTCAGCGGAGCGGTAGCGGAACTCTCGAGCCAGCCGGCCGGGCCGCTCCTGCTGTGGAGCAGCTTTGCAGCCTGCGCAGCCCTGGCCCTGTGGCAAGTGGGTGATGCCATCTTCGATTTCAACCATCTGCCCACCAAAGACAAAGCGCTCAAGAAGGGCAAGGCAGCCGCCCAGGCCCTGGTGTTCACCACCCTGGCACTGACGCTGGCGTCGTTCGCCATGGGCACAGGTTCGGACGAGGACAACAGCCGCTCCGCGAGTGACCTGACTATCTCCGTCATGCAGGCACCAGGCGGCGTCGCCCTCCTGGTCCTTATTGGTGCAGGCATTGCGATAGCCGGAGTGGTGTACGCGGTCCGGGGAATCAGGAAGTCCTTCAAAAAGCACCTTAGGCTCCCCTCCTCCCCCACCGCCAGGACAGCGGTCTCGGCGGTGGGCGTTGCCGGGTACGTGGCCAAGGGCGTTGTGCTGCTGCTGACGGGACTGCTTATCGCGATCGCCACACTTCAGGCCAATCCGGAGGACTCCACAGGGCTCGACGGCGGGCTGAAGGCCCTCCGTGACCAGCCCTTCGGGATCTATCTGCTGGCGGCAGTGGGTGCCGGGGTGATCTGCTACGGCCTGTACATGATGGTCCGGGCGCGCCTGGCGAGAATGTAG	MHKGTTIKRELRQAADAAEDVTNSHALEVLARAGFAASGLLHFLVGAIAIRLAMGGNGSADVSGAVAELSSQPAGPLLLWSSFAACAALALWQVGDAIFDFNHLPTKDKALKKGKAAAQALVFTTLALTLASFAMGTGSDEDNSRSASDLTISVMQAPGGVALLVLIGAGIAIAGVVYAVRGIRKSFKKHLRLPSSPTARTAVSAVGVAGYVAKGVVLLLTGLLIAIATLQANPEDSTGLDGGLKALRDQPFGIYLLAAVGAGVICYGLYMMVRARLARM				NA	NA	NA	NA	NA
D1-29_04349	495			hypothetical protein	ATGCCCCAGGTACGCGCCGAACGCTTCATCCGCCTCGACCCCGAAACCGCCTTCGCCTTCTCCCAGACCACCGGAGCCTTCCGGCTCAAGTGGGACCCGTTCATCTCCGCCCAGGGCTTCCTGGACGGAGCGACCTCTGCCGGGAAGGGCGTCAGGACGCGGACAGTGTCGCGGCTGGGCCTGGTGATGGTGAGCGAGTACGTTTCCTACACGCCGCCCAGGAACGTGGGCATGACCATGGTGTCAGGGCCATGGTTCTTTGCGAATTTCGGCGGGGGCTGGCGGTTCACTCCCGACGACGGCGGCACGCGGGCAGTCTGGAAGTACACCTTTTCCTGCCGGCCGGCATGGTTGCGGCCGGCAGCGGAGCGGATTGGCACCTGGCTCCTGGGCCAGGAGATCGACAAGCGGATCGAAGCGTTCGCCCGGGCCTGCGAGGATCCGGCCCTGGTAGCTGAGTTTCGCCGGACCGGCAGCGGAATCAACAATCAATAA	MPQVRAERFIRLDPETAFAFSQTTGAFRLKWDPFISAQGFLDGATSAGKGVRTRTVSRLGLVMVSEYVSYTPPRNVGMTMVSGPWFFANFGGGWRFTPDDGGTRAVWKYTFSCRPAWLRPAAERIGTWLLGQEIDKRIEAFARACEDPALVAEFRRTGSGINNQ				NA	NA	NA	NA	NA
D1-29_04350	663			hypothetical protein	ATGAGCAGCGAGCTGCACCAACTGCTCGGCGCCTACGTGCTGGGCGGCCTGGACGCCACGGATTCACTCCGCTTCGAAGCCCACCTTCAGGAATGCGCGGACTGCCGGGCTGAGCTGGCGGAACTGCAGAAACTGAGGCTCCTGCTGGACGCCCTGCCCGCCCCGGACGCGCTGGCGCTGACGGAAGGCGGCCGCCCTGCGTCCGTCTCCGAGCCGGCCACCACGGTTCCGGCGGCGGTTCTTGACGAACTCGCGGCCCGCCGTCGGACATCACGACGGCGTTGGGCAGCGCTCGTGGGAGCCGTGGCTGCCGCCTGCCTCGCCTTGGGCCTTGCCGCCGGACCGCTGCTCAACAGGCCCCCGCAACCGGACGCCAGCTACTCCGTCCAGTCCGGCAACGGCCTCCGGTTCAGCATCGACATGGCGAAGAAGACGTGGGGCACCGAACTTGCCGTGAACGGCAGCAGCATGCCCCTGGACGGGACCCTTTCGCTGTGGATCCGCGACCGTGACGGCGGAGAGGACAGGGCCTGCGCCTGGACCGCCACGCCCAGCGGCAGGATCAAGGTCACCGGCGCCACCCCAGTTCAGCTCTCCAGCATCGCCAGCGTGGAGCTGCGGGACGGAACCCAGCAGGCGGTGGCGGTTATCAGCGTTCCGTAG	MSSELHQLLGAYVLGGLDATDSLRFEAHLQECADCRAELAELQKLRLLLDALPAPDALALTEGGRPASVSEPATTVPAAVLDELAARRRTSRRRWAALVGAVAAACLALGLAAGPLLNRPPQPDASYSVQSGNGLRFSIDMAKKTWGTELAVNGSSMPLDGTLSLWIRDRDGGEDRACAWTATPSGRIKVTGATPVQLSSIASVELRDGTQQAVAVISVP				NA	NA	NA	NA	NA
D1-29_04351	501	sigL	COG1595	ECF RNA polymerase sigma factor SigL	ATGCCGCTGGACGAGGACGTGGTGGCCGCCATCTACCGGGAACATGGCAGCGCCCTGCGGCGCTTTGTGCTGAGCGCGTCCCGGGATCCCCAGCTGGCCGAAGACGTGGTTCAGGAAACGGTGCTCCGCGTCTGGCAGCAGGCTCCTGATATCAGCGGAAGCCTGCGAAGCTACCTGTTCCGGACGGCGAGGAACATCATGATCGACAATTACCGCAAGGCGCAGCGGCGGCCTGCCGAAGCCCTGGAGCAGGAGCTCGCCGATCCCGCTGAGGCGGCCGAGCGGGTGGACGAACTCCTTAACAGGGTGCTCATGGAGGAGGCGCTGCTCCGGCTCAGTACCGAACACCGCACCGTCCTGGTGGCGCTCCACTACCGGCGCTTTACGGTCAACGAGGCCGCGGCGCAGCTGAACATCCCCAGCGGAACCGTGAAGTCGCGGGCCTACTACGCGGTGCGTGCGCTGCGGACAATCCTGGACGAAATGGGGGTGGAACGATGA	MPLDEDVVAAIYREHGSALRRFVLSASRDPQLAEDVVQETVLRVWQQAPDISGSLRSYLFRTARNIMIDNYRKAQRRPAEALEQELADPAEAAERVDELLNRVLMEEALLRLSTEHRTVLVALHYRRFTVNEAAAQLNIPSGTVKSRAYYAVRALRTILDEMGVER	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
D1-29_04352	540			hypothetical protein	ATGAAACAGCATCTGGGCACTGGCTTTGCGGCACTGGTCCTTGCGGCCGCGCTCTCCGGCTGCGGCGGCAGCCCCGGAACCACCACAACAACGCCAGCCGCGCCGGCTGCACCGGAGACCACCAGCAGCCCCGGGACCACGTCTGCGTCGCCGGGAACCACTTCTGCAACCGCCGACCTTAAGAAGGCAACCTCCAGCGCCGGAGAGATCGTGGTTGACGCGAAGGGCATGAGCGTCTATTTCTTCACCAAGGATGTGAAGGACTCCGGCACCAGCGCCTGCACGGGATCGTGCATCACGCTGTGGCCGCCGGTTATCACCACCGCATCAACGCCCGCTGCTGAGGGCGTCACCGGAACGCTGGGCACCATCACGACGCCGGAGGGCGCAAAGCAGGTGACCCTGAACGGCCTTCCGCTGTACTACTACGCCGAGGACAAAGAACCCGGCGACGTCAAGGGACAGGGCTTCAGCAACGTTTGGTACCTGGCCAGCCCGTCCGGGGACATGATCAAGACGGGGGCGTCGGCGGGGTACTAA	MKQHLGTGFAALVLAAALSGCGGSPGTTTTTPAAPAAPETTSSPGTTSASPGTTSATADLKKATSSAGEIVVDAKGMSVYFFTKDVKDSGTSACTGSCITLWPPVITTASTPAAEGVTGTLGTITTPEGAKQVTLNGLPLYYYAEDKEPGDVKGQGFSNVWYLASPSGDMIKTGASAGY				NA	NA	NA	NA	NA
D1-29_04353	813			hypothetical protein	ATGAGTGACACCGCAGGCTCCCGCACCAACGGGACTGTTGACCAGCTGCTGCTGGAGGCAGAACTGGGCGACGACGGCGCGCTCCGCCCGGTCCTGCTTGAGCTGCAGGCGCTGGGCGCCGGCCAGCCCGAGCCCTCGGCAGCCGTGGCCGCCCTCATGGCCCCGGCAACTGCCCGGCTTGCTGCTGTCCCGGCAACCTCGACTCTTCCGTCAGTCCAGTCAACTTCCTCGGCCCTGACGGCCCAAAACGCGGCTGCCACCACTGCCTCGACGGCGGCCGCAGCCGGTGCCTCCGCTGCCGGTGCCTCCGCAGGCTCCGGCAAAGTGACCGACGAACTGGCGGCACGGCGCCGTGCCAAGCGCCGGATCGCGCTCACCACTCTTTCTGTAGCAGTTTCACTGGCAGCCGGAGGAGCCGTTGCCGCGGCTTCGGACCAGGGTGTCCGTGACTCCTTTGGCCAGCTGAACCAGGCGGTGACGTCGTTCGTCTCCACCATGGGTGCGGGACCAGCGACCAAACCGGCCGAAGTTCCCGCGCCCGTGCCTGCCCAGCCCGGTAAGCCAGCACCGACCACTCCGGCTGACCAAACTGCCCCGGCTCAGGATGCAAAAGTCCCGGAGACCGAAAGCACGCATGGTGCTGCGCACGATTCGGTTCCTGCCCCGTCGGGGAAGGTAACCCTCCCGGAAGTCCACGTGCCGGATAACCTCACCCCGGCGGTCCCCGGCGGGCCGCTCCACGGTGAGGGAAACACTCCGGCCCTGCCGCTTCCGGCCACCCCACCCGTGCCGCTGCCCAGCCACGGCCCATAA	MSDTAGSRTNGTVDQLLLEAELGDDGALRPVLLELQALGAGQPEPSAAVAALMAPATARLAAVPATSTLPSVQSTSSALTAQNAAATTASTAAAAGASAAGASAGSGKVTDELAARRRAKRRIALTTLSVAVSLAAGGAVAAASDQGVRDSFGQLNQAVTSFVSTMGAGPATKPAEVPAPVPAQPGKPAPTTPADQTAPAQDAKVPETESTHGAAHDSVPAPSGKVTLPEVHVPDNLTPAVPGGPLHGEGNTPALPLPATPPVPLPSHGP				NA	NA	NA	NA	NA
D1-29_04354	564			hypothetical protein	GTGCTTGACATTTTGGCCGAAGAAGACATCGAGATATTCGCAGACACAGCCGGCACGGATCCGGCTGTGCTTTTTAGCGCTGTCTACCGTTTGTTCTCCGGCGCTGTGTTGGGCTACCTCCGCGCCCGTGGAGTTGATGATCCCGAGGCAGTCACCCAGGACGTCTTTCTGGCCTTCTTCCCCAAAATCGGCGATCTTACAGGCGGACTCCCAGGCGCAAAGTCATTACTGTTTTCCATCGCCCACGCCCGGATGGTTGATTACTACCGCAGAGTGGAGCGCAGGCCGGAGTTCACTCCGTATGATCCGCTGCAGGACGGGCGCAGCACCGCCTCGGCCGAAGACCACGCACTGGGCCACGACGGCGGGGCGGCCGCCCTGCTGGACGGCCTGGCAGAGGACCACCGTGAAGTCCTGGCCCTGCGGGTTGTGGCAGACCTCTCCATCGAACAGGTGGCCGGCATCATGGGCAAGTCCCAGGGTGCCATCAAGCAGCTCCAGCGCAGGGCGCTGCAAAATCTCAAAGACCAGACACTCAAAAGAAACCAGGCAGATCATGAGTGA	MLDILAEEDIEIFADTAGTDPAVLFSAVYRLFSGAVLGYLRARGVDDPEAVTQDVFLAFFPKIGDLTGGLPGAKSLLFSIAHARMVDYYRRVERRPEFTPYDPLQDGRSTASAEDHALGHDGGAAALLDGLAEDHREVLALRVVADLSIEQVAGIMGKSQGAIKQLQRRALQNLKDQTLKRNQADHE	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
D1-29_04355	639			hypothetical protein	ATGTCGTTGTTCACTGTTCTCGCCACCAGCAAAATCGCAGCCGGAGTACTGGCTGCCGGCACCCTGGCAGCCGGCGGCACCGCCGTCGCCGCCACGTCCGGTGTGCTTCCCACGGCTGCACAGCAGACCGCCCACGAACTGCTCGGTGCCCCGGCCCCGAAGCTGGTTGACGACGTTGCCGCAGCTGCAAAGGCAGACGCGGATGCTGCTGCAGACGCCTCCGCCAAGACCGCCGTGTCCGGCGAAGAGGTTTCGGCTGAGGCCAAGGCTTCCGCCGCTGCCGGTACTGCAGTGGACGCTGCCGGCGCCGCCGCCTTCGGACTGTGCACCGCCTTCACCCACGGTGGCCTGAACGCCAACTCCGAGGGTTTCGCCTCGCTGGCAATTGCTGCCGATGGCGAAGCGAACATCGAGAGCTTCTGCACCGATGTCACCGCGGAGGCCAAGGCTGCCGCTGACGCCGAGGCTGCTGCCAAGGGCTCCGCTGCCGTCAAGGCAGAGGTTCCGGCTGTTCCGGCAGTCCCCGCCGTTCCGGCCGTTCCTTCTGTTGACGGAGCGCCTGAAGTTCCTGCCGTTCCGGCCGTTCCGGCAGTCCCCGGCAATGTAGTGGACGCTCCGGCCGTTTCGGCCCACCACTAG	MSLFTVLATSKIAAGVLAAGTLAAGGTAVAATSGVLPTAAQQTAHELLGAPAPKLVDDVAAAAKADADAAADASAKTAVSGEEVSAEAKASAAAGTAVDAAGAAAFGLCTAFTHGGLNANSEGFASLAIAADGEANIESFCTDVTAEAKAAADAEAAAKGSAAVKAEVPAVPAVPAVPAVPSVDGAPEVPAVPAVPAVPGNVVDAPAVSAHH				NA	NA	NA	NA	NA
D1-29_04356	594			hypothetical protein	ATGCCCAAGACTCCGGAGCCCCAAAAGACCGCCAAAACGTGGCAGACCATGGTGGAAAGCAACCAGGCCCTCCTCCTGCGGAAGTCAGGGCACGACGTCGCTTATTGGGCGGAACGGGCGCGTGCCGAGGGCATCCAAAACGACGCGCAGCTCCGCGACTGGATGCGCGACCAGCACGGCATTACAGGCTACGCGCAGTACGCCGTGTCCTGGGAACTTTTCGGTTATCCGGAGTTCATGCTGCGCGACGCCGATGAGCTGATTGAGGGCCAGTACGGCCAGCACCCGGAGCTGCGCCCCATTGCGGATGCCCTCCTGGCCTGGGCCTCGGCCACTGACGGTGTGGGGATCCAGATGCGGAAGGGATACGTTTCCCTGCACAGCCCACGTCGGAAGTTCGCGCAGATCACCCGCACCACCAACACCGCCGTGGACGTGACGCTGCGCCTGGATGCCCCCGCACAGGGACGCCTGGAGGCCATCAAGGTCCGCCCCGACGACGCCTTTGACCGCCGCGTCCGCCTCACCTCCGTGGACGATGTTGACACAGAAATCCTGGACATCCTGGCCGCGGCCCTGGACCAGAACCGCTAA	MPKTPEPQKTAKTWQTMVESNQALLLRKSGHDVAYWAERARAEGIQNDAQLRDWMRDQHGITGYAQYAVSWELFGYPEFMLRDADELIEGQYGQHPELRPIADALLAWASATDGVGIQMRKGYVSLHSPRRKFAQITRTTNTAVDVTLRLDAPAQGRLEAIKVRPDDAFDRRVRLTSVDDVDTEILDILAAALDQNR				NA	NA	NA	NA	NA
D1-29_04357	852			hypothetical protein	ATGACCACCAGCCAGCAGCCCGTCGTTCTGACCACCGGCAGCATCGAAGCAAGCAACGAGGAGGTTGTTGACTCCAATGTCCGGGTGGTTGATGCCATGCACCGGGAACTGCTGCACTCCAGCGAAATTTCCCCCGTGGCTTTCCGCAGCTACTACGTGGACTTCTACCTCACCCAGTCCCTGGAGGGCGGGTTCGCCCAGTACGTGTTCACGTCCCTTGACCGGGCGGAAAGTGACACCCTGATCCGCGAGGGTCTGGCAGGTATGGGGGCCACCGCCCACCTGGACCTGTTCAACCGGACCGCTGAGGCATTCGATGCCTTGTCCGAGGAGGACGCCGAACGGTATCTCGACGGCGGGCTGGATGAAGACGAGGAGACCCCCGACGGCGTCCTCCGCATGGAAGAGCTCGACGGCGACTTCGAGGAGCTTCTGGAAACCGAGAATGTCACCGCCCTCAACGCCGCCTGGCTCCGCGGGCAGGACGCGCTGCTGGCGCTCGACGACGACGGCCTCAACGCCCACATCGAGCGTCTGGTGGCTCTCATCCCGGACCTCGCCCAGCGTCAGGCCAGGGCGGAGGCCGAGGCCTTGGAGAACGCCCCGGACTTCGAGATTGTCATTCGTGAACTGTGCAACATCGCCGGCTACAGCCTCCAGAAGATCACCATGGGCGACCCCAACTACCTGCACCACGGGGACAAGACGCTGGCCTGGCACTTCAGCACGGACCATGGAGACTTCCTTATGGTGGAGGAAGACGACGAAGCGTTCATGATCAACCCGGTCACCCAGGAAGTCGTCGCCGCCGTCGAGTTCGAAGAGGCTGACGGGGACATGGTCGACGCGTAA	MTTSQQPVVLTTGSIEASNEEVVDSNVRVVDAMHRELLHSSEISPVAFRSYYVDFYLTQSLEGGFAQYVFTSLDRAESDTLIREGLAGMGATAHLDLFNRTAEAFDALSEEDAERYLDGGLDEDEETPDGVLRMEELDGDFEELLETENVTALNAAWLRGQDALLALDDDGLNAHIERLVALIPDLAQRQARAEAEALENAPDFEIVIRELCNIAGYSLQKITMGDPNYLHHGDKTLAWHFSTDHGDFLMVEEDDEAFMINPVTQEVVAAVEFEEADGDMVDA				NA	NA	NA	NA	NA
D1-29_04358	303			hypothetical protein	ATGCAACCGGATCTGGGCCAGCTCGCAGCAAACGAACACGCAAACTTGGCCACCTCACTGCTGTCATCTGCCGAAGCGGCGCTGCTGGAAAACCCCGGCAGCACCGAAGCCCATGTGGCACTCGCGCAGGCACACGCCACCCTGGCCCTGGCGCTTGAAACGCGCGCAGCGGCGTATGACACCCGCACTGCCACCTACGTCGCCTATCTGGCGACGCTGCCCACCGGAAACCAGGCGGACAAACAGCATGCTGCCGTCGTAGGGAAACTTGTCCGCGACCGACTTGGCTTCGAACCGGCCTGA	MQPDLGQLAANEHANLATSLLSSAEAALLENPGSTEAHVALAQAHATLALALETRAAAYDTRTATYVAYLATLPTGNQADKQHAAVVGKLVRDRLGFEPA				NA	NA	NA	NA	NA
D1-29_04359	396			hypothetical protein	ATGCGTGGATTTGAACACCTGACCCCCTTGCCGTTGGCCACAGCCGGCCAGAGCTGCTGCTCCCCGCACAGTGGAGGCGGACACGGCAAGCCTGTCCAGCTCAAAGCTGGCGAGATGAAAACTGGCGGAATCGAAGCTGGCGAGGATAAGGCCATTGAGGTCAAGGCAGCCGATGTTGCCGCTGCCGGCGAAACTGAGTTCGGCCTTGAGGGCTTGACGTGCGGGCACTGCGTCCAAACTGTGGAAAAGGCCGTCACCCGAGTGGAAGGTGTGGAAGCCGCCTCGGTTGAACTTGTCCCGAGTGGACGCTCACGGCTGGTCGTCGCCGGAACACCGGATGAATCAGCCATAAACCAGGCTGTCACAGCAGCCGGATACACCCTCATCAGCCACTGA	MRGFEHLTPLPLATAGQSCCSPHSGGGHGKPVQLKAGEMKTGGIEAGEDKAIEVKAADVAAAGETEFGLEGLTCGHCVQTVEKAVTRVEGVEAASVELVPSGRSRLVVAGTPDESAINQAVTAAGYTLISH	PGPT0004125_29	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
D1-29_04360	2142	copB		Copper-exporting P-type ATPase B	ATGGAAGACCACACCCACCATCACCACAACCACACTGCCGGCCACGGGACCGTCGCTGAGCGGTATACGCCTCCAGCGCCTGCAACAGACACCGCCCCGGACCATCGTCAGCATGGAGGACACGGCGGCAAGGATGACCACGCGGTCCACACCCAGGGGCAACATGCCGGGCACAGCACAGCCATGTTCAAGAACCGGTTCTGGCTGACACTCGTCCTGTCAGTTCCCGTCGTCTACTTCAGCCCCATGGTGGGCCACCTGCTGGGCTATATGGCCCCCACGTTCCCGGGATCGGCCTGGATTCCGCCAGTGCTCGGAACGGCGATCTTCATTTACGGAGGACAGCCGTTCCTCACCGGTGGCCTTCGGGAGCTGAAGGCCCGGCGCCCCGGAATGATGCTGCTGATTGCGATGGCCATCACCGTAGCGTTCGCGGCCTCCTGGACCACAAGCCTGGGCATCGGCGGGTTTGACCTGGACTTCTGGTGGGAGCTGGCCCTGCTGGTTGCCATCATGCTCCTAGGCCACTGGCTCGAAATGCGCGCCCTGGGTTCCGCGCAGGGAGCACTGGATGCGCTGGCGGCCCTGCTGCCGGATGAAGCCGAGCGGATCCAGGGGGACAGTACCGAAATCATTCCGGTGGCGGAGCTCCGCGAAGGCGACACAGTCCTTGTCCGCTCCGGGGCCAGGATGCCGGCAGACGGCATCATCGTGGGCGGGCAGGCCGAGTTTGACGAGTCGATGATCACCGGAGAATCCAAGACGGTGCCCCGGGGCGACGGAGACACCGTGGTGGCCGGCACGGTGGCCACGGACAACAGCGTCAGGGTGCGTGTCACCGCCGTCGGCGAGAACACTGCGCTCGCGGGCATCCAGCGGCTCGTCGCCGAAGCGCAGGCTTCCTCATCCAAGGCACAGGCGCTGGCTGACAGGGCTGCGGCGTTCCTGTTCTACTTCGCGGCCGGCGCTGGCATCGTCACCTTTGTGGCCTGGACCCTCCTGGGCAGTGTCCCTGAGGCAGTTACCCGGACAGTCACTGTGCTCGTGATCGCCTGCCCCCATGCACTGGGCCTGGCCATTCCCCTGGTCATCGCCATTTCCACGGAGCAGGCCGCCCGTGCCGGAGTGCTCATCAAAAACAGGATGGCCCTGGAACGCATGCGCACCGTCGACGTTGTCCTCTTCGACAAAACGGGCACATTGACCAAAGGCGAGCCCGAGCTGACTGACATCGCCGCTGCCCCGGGTGTTGACGCCGATTCACTTCTGACACTGGCAGGGGCCGCGGAGTCCGACAGTGAACACCCTGTGGCGCGTGCCGTCGTCCGGGCCGCCCGGCAACGCAACCTGACCATCCCGCCCGCCAACGGTTTCAGCTCGCTGACTGGCCGCGGCGTGCGTGCCGAGGTGGACGGCCGGATCGTCCATGTGGGTGGTCCTGCCCTGTTGCGCGAGCTTGGCACCGCCGAACCTGATGAGCTTGCCCCCTCCACCGGAGCCTGGATGGCCCGGGGCGCCGCTGTGCTGCACGTCATCGACGGCGGCAGGGTCCTTGGCGCAGTCAGCCTGGAAGATGCCGTCCGGCCGGAATCCCGCCAGGCGGTGGCTGCCCTGCAGAATCGCGGTGTCAAGGTAGCGATGATCACCGGCGACGCCCGGCAGGTGGCCCAGGCAGTCGCCGAGGACCTGCACATCGATGAGGTCTTCGCCGAAGTCCTTCCTGCAGACAAGGACAAGAAGGTGGCAGAACTTCAGGCCCGCGGCTTGAAAGTGGCCATGGTGGGCGACGGCGTAAACGACTCGCCTGCGCTGGCGAGGGCCGAGGTGGGCATCGCTATTGGAGCCGGCACCGACGTGGCGATGGAATCGGCAGGCGTTGTCCTGGCCGGGAACGATCCCCGGGCTGTACTTTCGATGGTGGACCTGTCCAGGGCCAGTTACGTGAAGATGTGGCAGAACCTCATGTGGGCAACCGGTTATAACGTCCTGGCTATCCCGCTGGCAGCTGGTGTCCTCGCCTTCGCTGGGGTGGTACTTTCCCCGGCGGCCGGCGCTGTCCTGATGTCAGTGTCAACCATCGTGGTGGCCTTGAACGCCCAACTCCTGCGGAGGATACGGCTTAATCCCTCCACGGTCAGTTGA	MEDHTHHHHNHTAGHGTVAERYTPPAPATDTAPDHRQHGGHGGKDDHAVHTQGQHAGHSTAMFKNRFWLTLVLSVPVVYFSPMVGHLLGYMAPTFPGSAWIPPVLGTAIFIYGGQPFLTGGLRELKARRPGMMLLIAMAITVAFAASWTTSLGIGGFDLDFWWELALLVAIMLLGHWLEMRALGSAQGALDALAALLPDEAERIQGDSTEIIPVAELREGDTVLVRSGARMPADGIIVGGQAEFDESMITGESKTVPRGDGDTVVAGTVATDNSVRVRVTAVGENTALAGIQRLVAEAQASSSKAQALADRAAAFLFYFAAGAGIVTFVAWTLLGSVPEAVTRTVTVLVIACPHALGLAIPLVIAISTEQAARAGVLIKNRMALERMRTVDVVLFDKTGTLTKGEPELTDIAAAPGVDADSLLTLAGAAESDSEHPVARAVVRAARQRNLTIPPANGFSSLTGRGVRAEVDGRIVHVGGPALLRELGTAEPDELAPSTGAWMARGAAVLHVIDGGRVLGAVSLEDAVRPESRQAVAALQNRGVKVAMITGDARQVAQAVAEDLHIDEVFAEVLPADKDKKVAELQARGLKVAMVGDGVNDSPALARAEVGIAIGAGTDVAMESAGVVLAGNDPRAVLSMVDLSRASYVKMWQNLMWATGYNVLAIPLAAGVLAFAGVVLSPAAGAVLMSVSTIVVALNAQLLRRIRLNPSTVS				NA	NA	NA	NA	NA
D1-29_04361	579			hypothetical protein	ATGACCACAGCTGCACGCCGGCTCATGACGGCCTCCGTTCAGCGCACGCGCCTTCAGCGGGCCTTTCTTATGCGGCCGCTTCTGATCGCTGCGGTTCTGGCCATCGCGGCGGGGATCTTCGGAATGCATGTCATGACCGGCGGCAATCATGCCGGGCACTCCCCCAACGTGGCCAAAACGCCAGCCGCTGCAGCCAACAGCACGGCAGACGCCCACGGCACAACTGACAGCCACGCGAACGCCCTCACCGCAGGCCAAAGCTTGCCTGACAGCCACGCTGATCACCTCACCGCAGGCCACGACACGGCAACCGGATCCGAATTCGAGCACTCGTCACTTTCGGAACCTCGGTCCTACACCTGTTCCACAGAATGCACGCGCCAGACAGAGGGCAGCGGCGCCCACGCTATGGGCAGTCAATGCGTCCCTTCCGCCAAAACAGGCTCGCTGGCGGCACCGCAACCCGGAACCGCAGCCCTGGCCTTCACGGGCTATGGACGGTCCGTTACACCCACCGTTGCTTATAGCTATCTGCGGGAGGGTCCTTCTCCCGGTGAGCTGTCGATCAGCCGGACGTAG	MTTAARRLMTASVQRTRLQRAFLMRPLLIAAVLAIAAGIFGMHVMTGGNHAGHSPNVAKTPAAAANSTADAHGTTDSHANALTAGQSLPDSHADHLTAGHDTATGSEFEHSSLSEPRSYTCSTECTRQTEGSGAHAMGSQCVPSAKTGSLAAPQPGTAALAFTGYGRSVTPTVAYSYLREGPSPGELSISRT				NA	NA	NA	NA	NA
D1-29_04362	624			hypothetical protein	ATGAACAAAAAACTCCTGACCCTTTCAGCAGCCTCCTTCGCCGTGGCTCTCACCTTGGCCGGCTGCGCCGCCGATTCCGGCTCCACCCCGATGCCAGGCATGAGCCACGGCAGCTCCGGAATGAGTCATGGCAACTCGGCACCGGCAGCATCAGCTGACCACAACGCCGCCGATGTAAAGTTCGCGCAAATGATGATTCCGCACCACGCGCAGGCTGTGGAAATGAGCGACATGATCCTGGACAAAACCGAAATCCCTGCTTCCGTCACAGCCTTGGCCACGAAGATCAAGGAAGCGCAGGGCCCGGAAATCGACACGATGACCGGCTGGCTCAAGAGCTGGAACGAACCCACAGAGATGGCTGCCGGCCACTCCATGAGCGGCAGCGGGATGAGCGGCATGATGGACGAGGCAGCCATGAAGGAACTTCAGGCCGCCCAGGGAACCGATGCCGCCCGGCTGTTCCTCACCCAGATGACTGCCCATCACGAAGGGGCAGTGACCATGGCCAAGGCCGAAACAAGTGAGGGCAAGAATCCGGAAGCAGTAGACCTGAGCAAGAAGATCGTGACCGCACAGGAAGCCGAAATCAAAGAAATGCAGGAGCTCCTGGCCACACTCTGA	MNKKLLTLSAASFAVALTLAGCAADSGSTPMPGMSHGSSGMSHGNSAPAASADHNAADVKFAQMMIPHHAQAVEMSDMILDKTEIPASVTALATKIKEAQGPEIDTMTGWLKSWNEPTEMAAGHSMSGSGMSGMMDEAAMKELQAAQGTDAARLFLTQMTAHHEGAVTMAKAETSEGKNPEAVDLSKKIVTAQEAEIKEMQELLATL				NA	NA	NA	NA	NA
D1-29_04363	600			hypothetical protein	ATGTTGTATGATTCGGGAATGCCGAAGCTCTGGAATGAGACTATCGAGACTCACCGCGATGCTGTGCGGGCGGCCATTCTGGATGCTACTGCCGCCCTCGTACGAACGCAGGGCGTTGGCGCCGTGACCATGTCCGGAATCGCACAGGCGGCCGGGATCGGGCGCGCCACCTTGTACAAGTACTTCACTGACGTGGAGGCCATCCTGACGGCCTGGCATGAGCGTCAGATCCGGATCCACCTGGAGCATCTCGTTCAGGTCCGGGATCAAACGGCCGGGATCGCGCAGCAACTGGAAGCGGTGCTGCAGTCCTATGCGTTCCTGGCACATTCAGGCCATAACGATGCGGAATCTGTGCGACTGCACCAGGGCGGGCACACCGGGCGGGCCCAGCAGCAGCTTCAGGGTTTCCTGTCCGATCTGCTGCGCGAGGGGGCGGAGGCGGGAGTATTCCGGTCAGACGTGGCGCCCGAAGAACTGGCCGGTTTCTGCCTGCACGCCCTCGAGGCCGCTGGCAGTTTGAAGTCTCCTGACGCTGTCCGCCGCCTGGTGAAAGTGACCCTCACGGCCCTGCAGCCGGTAGAGACTTCCGTGGGCTAA	MLYDSGMPKLWNETIETHRDAVRAAILDATAALVRTQGVGAVTMSGIAQAAGIGRATLYKYFTDVEAILTAWHERQIRIHLEHLVQVRDQTAGIAQQLEAVLQSYAFLAHSGHNDAESVRLHQGGHTGRAQQQLQGFLSDLLREGAEAGVFRSDVAPEELAGFCLHALEAAGSLKSPDAVRRLVKVTLTALQPVETSVG				NA	NA	NA	NA	NA
D1-29_04364	531			hypothetical protein	GTGAAACTTTTCACTACGGGGATCCGCAAGTTCGCCCTGACCGTCCACATCGCAACGTCTGTCGGCTGGCTGGGGGCCGTTGCTGTTTTCCTGGTTCTGGCAATGGGAGGCATGACCTCTTCGGATCCGCAGCTGGTCCGGGCAGCGTACGTTGCGATGAACGTGGTCGGCTGGACAGTAATCTTCCCCCTGAGCCTGGCATCGTTGCTCTCCGGCGTTATCCAGGGGCTCGGAACCACGTGGGGCCTCTTTCGCCACTATTGGGTCCTGATCAAACTCCTGGTCACCACCTTGGCCACCGCCCTGCTGCTCCTTCATCTGCAACCGGTCACGCGGATGGCCGAGATCGCCCTGAACGCGGACCTTGCCCTCACTGATGCCGCAGGAATGCGGGTCCAGCTTGTGGCGGACGCCGGCGCCGCGCTGCTCGTACTCCTGGTGGCCACGGTCCTGTCCGTCTACAAGCCGCGAGGCCTGACCCGGTACGGGCAGTCCCGCCTCGAAAAACAGCAGTCCAGCCGCCCCACCTAG	MKLFTTGIRKFALTVHIATSVGWLGAVAVFLVLAMGGMTSSDPQLVRAAYVAMNVVGWTVIFPLSLASLLSGVIQGLGTTWGLFRHYWVLIKLLVTTLATALLLLHLQPVTRMAEIALNADLALTDAAGMRVQLVADAGAALLVLLVATVLSVYKPRGLTRYGQSRLEKQQSSRPT				NA	NA	NA	NA	NA
D1-29_04365	984	btuD_17		Vitamin B12 import ATP-binding protein BtuD	ATGATCATCGAAGCGGAGCAGCTGAGCCGGAACTTTACCGTCGCCGAACCGGGGACGGGGCGTGGGCTCAAACGGCTCAAACGCCGACGGCGGACAGTGCACGCGGTCCGGGACGTGAGCTTCACGGTAGAGGCAGGGGAAGCCGTGGGCTATATCGGCGCCAACGGAGCCGGGAAGTCCACCACCATCAAGATGCTCACCGGCATCCTGGTGCCTTCCTCAGGGCGCGTCTCTGTCTGCGGACTGCAGCCCGTCCCTCAGCGTCAGGCACTGGCCCGGAAGATCGGTGTGGTGTTCGGGCAGCGCTCGCAGCTCTGGTGGGACCTTCCGCTCCAGGATTCCTTTCCCATCCTGGGTGCCATGCACCGCCAGCCGGAGAGCCGCTGGCGTCCCCGGTTCCAGGAACTGTCGGAGCAGCTGGCCCTTGAGCCGTTCCTCGGCACCCCCGTCCGCCAGCTGTCGCTGGGGCAGCGCATGCGCGGAGAGGTGGCGGCGGCGCTGCTGCACCGGCCCGAGCTGGTCATCCTGGACGAACCCACCATCGGCCTTGACATGATCAGCAAGGAGAGCCTGCGCCGCTACCTGGATTTCGAGCGCCGCGAACACGGGACCACGCTGCTGCTGACCACCCACGACATGAGTGATGTCCAGCGGCTCTGCCAGCGGGTACTGGTAGTGGACGACGGCGCCATCGCCTTCGACGGTCCCCTCACCGGGCTCGCGGAAGTTGCGGAAGCCCGCCGCACCATGGTGGTTGACTTCAGTTCGCCATTGCCGGCCGCCGGCCTGGTCCTGCCCCAGGGCGCCACCCACCTCGGGACCGAGGCGGAGGACATCCGGCACCGCATCACCTTCGACCCGCGGCAGCTCTCGGCCGCGGCGCTGCTGGCGGCAGTCTCGGCAACGGCTGCCGTTGCCGACTTGTCATTGCACGAGCCGGATATCGAAGACCTGGTGCGGCGGCTGTACACCGCGGCGCGGTAG	MIIEAEQLSRNFTVAEPGTGRGLKRLKRRRRTVHAVRDVSFTVEAGEAVGYIGANGAGKSTTIKMLTGILVPSSGRVSVCGLQPVPQRQALARKIGVVFGQRSQLWWDLPLQDSFPILGAMHRQPESRWRPRFQELSEQLALEPFLGTPVRQLSLGQRMRGEVAAALLHRPELVILDEPTIGLDMISKESLRRYLDFERREHGTTLLLTTHDMSDVQRLCQRVLVVDDGAIAFDGPLTGLAEVAEARRTMVVDFSSPLPAAGLVLPQGATHLGTEAEDIRHRITFDPRQLSAAALLAAVSATAAVADLSLHEPDIEDLVRRLYTAAR				NA	NA	NA	NA	NA
D1-29_04366	873			hypothetical protein	GTGGCTGAAACTGAAACTGGAACTGGGACTGAAACTGGAACTGCAGACGGCCCGGCCCTGGACAGCACTCCGGTCACCAACGCCAAGCTGCTGCGGCTCCTGGTGTCTGCACGGTTGCGCTCGCAGACGGCGTACCGGGGAAGCTTTGCCGCCGACGTCGCCGGCCAGATGATGCTGGCCCTCACGGAGTTTGTGGAGCTCTACGCCATCGTGCACAACGTCCCGGCCTTCGGGGGCATGACCTTTGCCCAGACCCTGCTGGTGTTCGGCTTCGCGTCGGTGGGCTTCTCTGCCGCGGATCTGCTGCTGGGCGAGACCGATTCCATGAGTGACGCCATCCGGATGGGAAAGCTGGAGGTCCTGCTGGTCCGGCCGCTGCCTGTCCTGCTGCAACTGATGACCTCCGACTTCCAGCTACGGCGTGTGGGCAGGCTGGTCTTCGCGCTGGTGGCCCTGGCTGCGGCCTTGTTCCTGACCGACATTCAGTGGGACCCGGGGAAGGCGGCCTTGTTCATCGCCACGCCCCTGGCCGGCGCCGGGATTTTTGGCGCGCTGTTTGTCGGGGCGGGGGCGCTGCAGTTCTGGCTCCTGGACGGAAGGCAGTTCGCGAATGCCTTTACGTATGGCGGCCGGTATGTGGCGTCGATGCCTGGCGCCGCCCTGTTCCTGCCCCTGCAGGTCTTTTTTACGTTCGTGATCCCTGCGACGCTCGTGGCGTATGCCCCCAGCCTGGTTCTGCTCGGGCTTGACGGACCGGCCGGAATACCCAGCTGGACGGGCTGGCTGGGACTGCCTGCCGCCGTCGTTCTCTGGGCGCTTATGCTGCTGCTGTGGCGGGCGGCCATCAAAAAGTACACCGGAGCAGGAGGCTAG	MAETETGTGTETGTADGPALDSTPVTNAKLLRLLVSARLRSQTAYRGSFAADVAGQMMLALTEFVELYAIVHNVPAFGGMTFAQTLLVFGFASVGFSAADLLLGETDSMSDAIRMGKLEVLLVRPLPVLLQLMTSDFQLRRVGRLVFALVALAAALFLTDIQWDPGKAALFIATPLAGAGIFGALFVGAGALQFWLLDGRQFANAFTYGGRYVASMPGAALFLPLQVFFTFVIPATLVAYAPSLVLLGLDGPAGIPSWTGWLGLPAAVVLWALMLLLWRAAIKKYTGAGG				NA	NA	NA	NA	NA
D1-29_04367	795			hypothetical protein	GTGCGCGCGTATTGGGAGCTGGCCAAGTCATCCTTCCGCCGCCATTCCACCTACCGCCTGGCCGCACTGTATGGAGCGTTCACCAACACTGTCTTCGGCCTCATCCGTGCCTCCCTGCTGCTGTCGGCGATTTCGACGGCGGGCGGCACCATCGGGGGCTACTCGGCAATCGAGGCGGCAACCTATGTGTGGCTGGGGCAGGCGCTCCTGGCCCCGCTGGGACTCTTCGGCAGCGCGGAACTGGCCGGGCGGGTCAAAAGCGGGGACATCGCCGTCGACCTTTCCCGGTCCGTGAACCTCACCGCCTCCTACTGGGCTCAGGACATGGGGCGGGCGGCCTTTGACGTCCTGCCCCGGGGACTTCCGCCGCTGATCGTTGGGGCCATTGTCACCGGGCTGTCCCTTCCCACCGATGCCGGCCCGTACGTGCTGGGTTTCGTCTCCATCCTGGCCGCCATCACCCTGAACTTCCTGGGCTTTTTCATGATCAACCTGCTGGCCTTCTGGGTGGTCGAAGTCCGTGGCTACTGGATGTTGTACATGGTGGTGATGAACCTGCTGTCCGGGTTCCTGGTTCCCGTGACGTGGTTCCCGCAATGGATGCTGGACTTCGCCCGCGCCACTCCGTTCCCCTCCATGCTGCAGACCCCGGTGGACATCCTGGCCGGAAGGACCGACAGCGGAGAAAGCCTTGCGCTGGTGGGCGTCCAGCTCCTGTGGCTGGCAGTGCTGCTGGCCGGCACCCAGCTGATGGTCCGGTACGGTTCGCGGAAGCTGGTGGTCCAGGGTGGCTGA	MRAYWELAKSSFRRHSTYRLAALYGAFTNTVFGLIRASLLLSAISTAGGTIGGYSAIEAATYVWLGQALLAPLGLFGSAELAGRVKSGDIAVDLSRSVNLTASYWAQDMGRAAFDVLPRGLPPLIVGAIVTGLSLPTDAGPYVLGFVSILAAITLNFLGFFMINLLAFWVVEVRGYWMLYMVVMNLLSGFLVPVTWFPQWMLDFARATPFPSMLQTPVDILAGRTDSGESLALVGVQLLWLAVLLAGTQLMVRYGSRKLVVQGG				NA	NA	NA	NA	NA
D1-29_04368	3474			hypothetical protein	ATGCCATCCCTACCGGACGAGAGTGCGGCACTGGCAATACAGACTCCCGCCATCAACGACCGCTCCCTCGCGGCCGGACTGGCCTATGCCATGGGAAGCCGCGTTTCGGGGATCTCGTTCGACGCCACCACCGGCCTCATGCTGGGCAAGGTCCGGGGAGGCGCTGACGTCCCCTATTCCACCACCGCCAAGCTGGTCCGGAAGTCAGGCGGCTGGAGCTGCACCGTTGGTGTCTGCAGCTGCCCGGTGCGCAAGGACTGCAAGCACGTGGCCGCCCTGCTGTTCGCCGCCGAGGACAATCCGGCCACCCGCGTCCAACTGCTGGCCCCGGCGGAGGTTTCGCGCCTCTCCCGCCAGCCCGCCACGTTTGAGCTGGCCGACTGGGAACAGGCCCTGAGCCCGCTCATCTCCCAGCCGGGCATCACCCAGTCCACCAACGGCATCCCCCTGGCACTGCAGTTCGAAATCGAAGAACCGGCCCCGCACTTCTCCTACACAGGCCGCCGGGACCCGCTCCGCAGCGTCCGCCAGCTCAAGGCCCGGCCCGTGATCATGGGCACCAAGGGCAAGTGGATCCGCGGCGATGTCTCGTGGAACACGCTGAGCTACCTGAACTTCCGGCGTGAATGCAACGAGGCGCACGTGGAGTGGATGCAGACGTTCCTGGCCGCCCACACCGCCGCCGCCAACCGCCTGCATAACTCCTCGGCCCTCTGGCTGGGGCTGAATACCTTCGCCGGCAAGAACATGTGGGGCCTGCTGGCAGATGCCCAGAAGATCGGCCTGGCCCTGGTCCACAGCCGCGGCAGTGAGCCGGTGCGGCTCGCAGAGTCCCCCGCCGCCGTCGGGCTTAATCTGAGCCGGTTCGGCTCCGCGGCAACCGCGAATGCCGCAGGCGGCCCGCCCGCTGATAATGAAAAAGCGGACGACGGCGGCGGGCTGGAGCTCGCTCCCACCATCACCGTTGAGGGGGCGGAGGTTGACCCGGCAGCGGTGGGGACCATCGGCCGGCCCGCGCACGGCATCTTCCTGACCACCGGAGGGGAAGCCCTCCCTGGTGTTGCCGCGGACAACGTGATCACCCTGGCCCCGCTGGAGAACGGGCTCAGCGAGGAACTGCTGACTTTCGTCACCGCGGGCAGCACCCTGCACATCCCCGCGAAGGACGAGACGCGTTTCCTCACCGGTTTCTACCCGAAGCTCAAACAGGCAGCCCGGGTCACGGCCAAGGACGAGTCCGTGGAACTGCCCACGCTGGCTGTCCCCACACTCTCGCTGCTGGCCAACTACGGGGCCGACCACAAGGTCCGGCTGCACTGGGAATGGCATTACACCTCCGGCACCCTGGTGACGGCGCAGCCCCTGTGGCGGCACCCCGGTGACCACGGCTACCGTGATGACCTCGCCGAGGCCCGGATCCTGGAGGGCGTCGGCCAGCCCTGGGACCTGGTCCCGGCCCTCGGTGAGTCCGCTACTGGCGGCTGGGGAACTCCGCGGCTGGCGGCTTCGGCCGAACTGGGTGGCCTGGATACGCTGGCGTTCACCGAGGACGTACTGCCCATGCTCCGCCGCACCCCTGACGTTGTGGTGGACACCTCCGGCGACATCGCCGACTACCGGGAGGCCGAGGAAGCCCCGGTGGTGTCCATTTCCACCAAAGCCACCGAGCAGCGCGACTGGTTCGACCTCGGAATCCAGATCTCGCTTGAGGGCCAGCCGGTCTCCTTCGCCGCGGTGTTTTCCGCCCTGGCGGCCGGGCAAACCAAAATGCTGCTGCCCAGCGGCGCCTATTTCTCCCTCGACCTGCCCGAGCTGCATCAGCTGCGCGCGCTGATCGAGGAGGCCCGCTCGCTGCAGGACAACAAGGACGCGCCCCTGCAGATCAGCCGTTTCCAGGCCGGCCTGTGGGACGAACTGGCCCAGCTGGGCATCGTGGATGAGCAGGCCGCTGCCTGGCGCTCGGCGGTGGGTGGGCTGCTGGAAGGCGGCGTCAAAGGACTGCCGCTGCCTGACTCGCTCCACGCCGAGCTGCGCCCGTACCAGCTGGAGGGCTTTAACTGGCTCACGTTCCTTTACCGGCACAGCCTGGGCGGGATCCTCGCGGACGACATGGGCCTGGGCAAAACCGTGCAGGCCCTCGCCCTGATGTGCGCGGCCAAGGAGCATGCCGTTTCCGAGGGCCGCGCCAACGGTGACGCTCCAGGACCAGCGCAGGGAACAGCGTCCGACGGCGGCACGCCCTTTTTGGTGGTGGCGCCCACCAGCGTGGTGGGCAACTGGGCAGCCGAGGCCGCCCGTTTCGCCCCGGGCCTGACGGTGCAAACCATTGGCGAAACGTTCGCGAAAAACAGCAAGGACGCCGCACTGGCGCTCGCCGGTGTGGATATCGTGATCACCTCCTACGCCCTGTTCCGGATCGACTACGACTCCTACGCATCCAGGCCGTGGGCCGGGCTGGTCCTGGATGAGGCCCAGTTTGTGAAGAACCACCAGTCCAAGGCCTACCAGTGCGCCCGAAAACTGCCGGCGGCATTCAAGCTGGCCATCACCGGCACGCCGCTGGAGAACAACCTGATGGAATTCTGGGCACTGACCTCCATCGTTGCGCCGGGCCTGTTCGCCAGCCCCAAGCGGTTTGCCGAGTACTACCAGAAGCCGGTGGAAAAGAACGGCGACAAGGGACAGCTGGAGAAGCTCCGCCGTCGGGTCCGTCCGCTGATGATGCGCCGCACCAAGGACCAGGTCATCCAGGACCTGCCGCCCAAGCAGGAGCAGATCCTTGAAGTGGTGCTGAATCCGCGGCACCAGAAGGTCTACCAGACCCACCTGCAGCGCGAACGGCAGAAGATCCTGGGCCTGATCGAGGACGTTAACAAGAACCGCTTCACCATCTTCCAGTCGCTGACCCTGCTCCGGCAGCTCAGCCTGGACGCCTCCCTGGTGGATCCGTCGCTTTCCGGCGTTCGGTCCAGCAAACTGGATGTTCTCTTTGAGCAGCTGGAGGACCTGGTGGCGGAAGGCCACCGCGCATTGATCTTCAGCCAATTCACCGGGTTCCTGGGCAAGGTGCGCGAGCGGCTGGTGGAGGAAAACATCGAGTTCTGCTACCTCGACGGCAGCACCCGGAACCGCACAGACGTGGTCAATGAGTTCAAGAACGGCGCCGCGCCCGTCTTCCTGATTTCGCTCAAGGCCGGCGGATTTGGCCTGAACCTGACGGAAGCCGATTACGTGTTCCTGCTTGATCCCTGGTGGAACCCGGCGTCCGAGGCCCAGGCCGTGGACCGTACCCACCGGATCGGGCAGGCTCGGAACGTGATGGTGTACCGGCTGGTTGCCAAGGACACCATCGAGGAAAAGGTCATGGCGCTGAAGGCACGGAAGTCCCAGCTGTTCGCGGATGTGATGGAAGGCGACGCCCTCTCCGGCGGAGCCATCACCGCGGAAGACCTGGCTGGCCTGTTCAAAGAGTAG	MPSLPDESAALAIQTPAINDRSLAAGLAYAMGSRVSGISFDATTGLMLGKVRGGADVPYSTTAKLVRKSGGWSCTVGVCSCPVRKDCKHVAALLFAAEDNPATRVQLLAPAEVSRLSRQPATFELADWEQALSPLISQPGITQSTNGIPLALQFEIEEPAPHFSYTGRRDPLRSVRQLKARPVIMGTKGKWIRGDVSWNTLSYLNFRRECNEAHVEWMQTFLAAHTAAANRLHNSSALWLGLNTFAGKNMWGLLADAQKIGLALVHSRGSEPVRLAESPAAVGLNLSRFGSAATANAAGGPPADNEKADDGGGLELAPTITVEGAEVDPAAVGTIGRPAHGIFLTTGGEALPGVAADNVITLAPLENGLSEELLTFVTAGSTLHIPAKDETRFLTGFYPKLKQAARVTAKDESVELPTLAVPTLSLLANYGADHKVRLHWEWHYTSGTLVTAQPLWRHPGDHGYRDDLAEARILEGVGQPWDLVPALGESATGGWGTPRLAASAELGGLDTLAFTEDVLPMLRRTPDVVVDTSGDIADYREAEEAPVVSISTKATEQRDWFDLGIQISLEGQPVSFAAVFSALAAGQTKMLLPSGAYFSLDLPELHQLRALIEEARSLQDNKDAPLQISRFQAGLWDELAQLGIVDEQAAAWRSAVGGLLEGGVKGLPLPDSLHAELRPYQLEGFNWLTFLYRHSLGGILADDMGLGKTVQALALMCAAKEHAVSEGRANGDAPGPAQGTASDGGTPFLVVAPTSVVGNWAAEAARFAPGLTVQTIGETFAKNSKDAALALAGVDIVITSYALFRIDYDSYASRPWAGLVLDEAQFVKNHQSKAYQCARKLPAAFKLAITGTPLENNLMEFWALTSIVAPGLFASPKRFAEYYQKPVEKNGDKGQLEKLRRRVRPLMMRRTKDQVIQDLPPKQEQILEVVLNPRHQKVYQTHLQRERQKILGLIEDVNKNRFTIFQSLTLLRQLSLDASLVDPSLSGVRSSKLDVLFEQLEDLVAEGHRALIFSQFTGFLGKVRERLVEENIEFCYLDGSTRNRTDVVNEFKNGAAPVFLISLKAGGFGLNLTEADYVFLLDPWWNPASEAQAVDRTHRIGQARNVMVYRLVAKDTIEEKVMALKARKSQLFADVMEGDALSGGAITAEDLAGLFKE				NA	NA	NA	NA	NA
D1-29_04369	1149			hypothetical protein	GTGCCTCAGCACCAGGCATCCGAAGAATCTACCGCCACCCATATAATTCCCTTCCTCCGTGGCGGCTCAGCGTATGAGCGGTCCGGCCCCGCTCAGGCGGTGTCGGCCCGCAGCGCTTTTGCGGGCGAGGGCCGCTCGTACGGCGCAGGGCAGGGGGAAACCTCGGCACCGGCCCAGCCGCTCACTCCCCTGCGCCCCGACGCGTTTACAGTCCCCTATCGTGATCCCATCTGGGACGGCCCCACCGATCCCATTCTGGTCCCGGACCACCTCACCGGCGAATGGGTCCTGTTCTACACGCAGCGCCGTGCGACAGCGCCGGGCCTGACCGGCGTCGAGTGGGTGCACGGCACGGGAATAGGCGTGGCGAGATCGTCCGACGGCGGACTCAGCTGGAGCTACGAAGGTACCGTGGACGGACTGGTGCCCCCTGGAACTGAACTCCCCGCCACTCTCTGGGCGCCCGACGTCGTACGGATCGGTGACCAGTGGATCATGTACCTGACCGTCCTGGGCGGGGTGCGTACGGACTGGACGGGTAGTGCGTCCATCGTCCAGTTCGCCAGCCCGGATCTGGTGAACTGGGAGTACCTTGGTGCCCTGGACCTGGATTCGCCGCGCGTCATTGACGCCGCCGTGGCCCTGTGCGGCGATGGCCGCTACCGGCTCTGGTACAAGGACGAAGCCCGGGCGTCGAAAACATACAGTGCTGTCAGCGACACACCTGAGGACCCGTCGTCGTGGGTTCTTGAAGGCCTCACCATCCCGGGCCGCTCACATGAGGGGCCCAAGGTCTTCCAGCTCGAGGGAACGTTCTGGATGATCGTGGACGAGTGGCGGGGCCAGGGTGTTTACCGCTCGGAGGACGGCACGGGAGGTTGGACCCGGCAGGAACACCTCGACGGGCTCATCCTGACGCAACCGGAATCCGTGGGAGGACGGCCCGTCGTCGGACGGCATGCAGACGTGGTTCCCCTCGCACCGGCGGAGGACGGCAGGGAACGTGCCCTGCTGGTCTACTTCACCCACCCGTACTGGGGTGGGGAGGACATCGACACCATGGCCCCTGACCCCAGGACGCACCTGAGCCACGTCCGGGCGGCAGTATTGGAAGTACTGGACGGAAACCTGGTCTGCACGGAGCACTGA	MPQHQASEESTATHIIPFLRGGSAYERSGPAQAVSARSAFAGEGRSYGAGQGETSAPAQPLTPLRPDAFTVPYRDPIWDGPTDPILVPDHLTGEWVLFYTQRRATAPGLTGVEWVHGTGIGVARSSDGGLSWSYEGTVDGLVPPGTELPATLWAPDVVRIGDQWIMYLTVLGGVRTDWTGSASIVQFASPDLVNWEYLGALDLDSPRVIDAAVALCGDGRYRLWYKDEARASKTYSAVSDTPEDPSSWVLEGLTIPGRSHEGPKVFQLEGTFWMIVDEWRGQGVYRSEDGTGGWTRQEHLDGLILTQPESVGGRPVVGRHADVVPLAPAEDGRERALLVYFTHPYWGGEDIDTMAPDPRTHLSHVRAAVLEVLDGNLVCTEH				NA	NA	NA	NA	NA
D1-29_04370	1290	amt_3		Ammonia channel	ATGGATTCGGGAAATGTCGCTTGGATTCTGGCCAGTTCAGCACTGGTCTGCATGATGATTCCCGCCCTCGCCTTGTTCTACGGGGGCATGGTGGGGTCTCGCCGCATTCTCAACATGATGATGATGTGCTTTGGTGGGGCCAGCCTGGTTGCTGTGCTGTGGGCGCTGTTTGGCTACTCGATGGCCTTTGGAAATTCCGTGGGAGGCTTGGGCCTCATCGGGGACATCACCGAGTTCCCCGGCATGGGTCAGCTGATGGAAGCAGATGAGGCAGCATCCATTCCGGTGATCCTCTTCGCGGCTTTCCAGCTGTTCTTCGCCTGCGTCACTACGGCCCTGGTTGCGGGAGCGGCAGCCGGGCGGATGAAGTTCGGGGCCTGGATGTTGTTTGCCGGGATCTGGGCCACCATCGTCTACTTCCCCATCGCACACTGGGTGTTCGCCTTCTCCTCGGCGGACGGGAGCGTTACCGGTGGCTGGATCGCCAGTGGAATCAAGGCGATCGACTTTGCAGGCGGAACCGCTGTTCACATGAATGCGGGTGCCGCAGCGCTCGCCTTGGCCCTGGTGCTGGGCAAGAGTTCCGGCTGGCCGAAGATGGAACACACCAAGCCGCACAGCCGGCCGCTGGTACTGGTGGGCGCAGGGCTGCTCTGGGTTGGCTGGTTCGGTTTCAACGCCGGCTCGGCACTTTCTGCCGGCCAGTCCGCCTCTGTGGTGTTTCTCAACACCGCAGTCGCAGCCTCGGCCGGACTCCTCGCCTGGGCTCTGGTTGAACGGTTGCGCAGCGGGGCCGCCACCAGCATGGGTGCAGCTTCAGGCCTGATCTCCGCACTCGTTGCCATCACCCCTGCCTGTGGTGCCGTGAGCCCCCTCGGTGCCCTCGCCATCGGAGCCATAGCCGGCGCGGTCTGCTCCCTCGCCATCGAGTTGAAGTTCCGTCTGGGCTTCGATGATTCACTCGACGTGGTGGGCGTCCACCTGGTCGGCGGCATGCTGGGCACCCTGCTCATCGGTTTGTTCGCCACCGACGCGGCTCCGAATGGAGTGAGCGGCCTCTTCTACGGCGGCGGCGTCGAGCTCCTCGGTGTCCAGGCTTTGGCCACGGTGACGGTGCTGGCCTACTCGTTCGGCATCACATGGATCCTGGCGAAGATCCTTGACCGGACCATTGGACTCCGCATCAAGCCGGAGGACGAGATGCGCGGCATCGACCTCGCCGCCCACTCCGAGCTGGCGTACCTTACTGACGAAGACCCAGTGGAGCTGGGCTCCCCGCACCGAAGCTAA	MDSGNVAWILASSALVCMMIPALALFYGGMVGSRRILNMMMMCFGGASLVAVLWALFGYSMAFGNSVGGLGLIGDITEFPGMGQLMEADEAASIPVILFAAFQLFFACVTTALVAGAAAGRMKFGAWMLFAGIWATIVYFPIAHWVFAFSSADGSVTGGWIASGIKAIDFAGGTAVHMNAGAAALALALVLGKSSGWPKMEHTKPHSRPLVLVGAGLLWVGWFGFNAGSALSAGQSASVVFLNTAVAASAGLLAWALVERLRSGAATSMGAASGLISALVAITPACGAVSPLGALAIGAIAGAVCSLAIELKFRLGFDDSLDVVGVHLVGGMLGTLLIGLFATDAAPNGVSGLFYGGGVELLGVQALATVTVLAYSFGITWILAKILDRTIGLRIKPEDEMRGIDLAAHSELAYLTDEDPVELGSPHRS	PGPT0000840_5225	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
D1-29_04371	561			hypothetical protein	GTGGAGGGCCATTGTTATTCCAACGGCACACCGATCCAACCAGACCAGGTGGGCGAATCAGAAAGAGATGCAAAGGAAGCAGGGACAGCCGTGAGTCACACAACAGTTCTGGACCAACGTACCGCCGGCGCCGTCACTCATGACCTGGCCGCTGACTTCCATACTCTGGGACTTGCCGGCTGCATCGACAAGCTGACTGCTCCGCTGCGCCGGCAAGGTGTTGCGGTGCACTGGGAGACGCCGCATCACGGCATCGAAATTCCCGCAGCCTGCGCCGCCTTGCTTTACCAGGCTGCCCAGGAAACACTCACCAACGCCTTCAAATACTCCCGGGCAACCGCGGTCACTGTCCGCCTGGCAGCGGTTTTCCATGGCGTTCGGCTGACCATCACCGACGACGGCGTGGGATTCAGCGCCGACAGCAATGCCAACAGCCGGACCAATCACGGCTACGGCCTCAGACTGATGGCCATGGCCGTCCATGAAGCCGCCGGCACCATCACAGTGGAGTCCGCCCGCGGTGAGGGTACCCGCGTATGCATCACCCTTCCGCTGGACTGA	MEGHCYSNGTPIQPDQVGESERDAKEAGTAVSHTTVLDQRTAGAVTHDLAADFHTLGLAGCIDKLTAPLRRQGVAVHWETPHHGIEIPAACAALLYQAAQETLTNAFKYSRATAVTVRLAAVFHGVRLTITDDGVGFSADSNANSRTNHGYGLRLMAMAVHEAAGTITVESARGEGTRVCITLPLD	PGPT0017175_1128	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
D1-29_04372	576			hypothetical protein	GTGGATCCGCTCGAGTTCCGGAACGCCGGGGAGTGGGACTCGTGGCTCACCGCAAACGAAGGCAACACGAGCGAGGCCTGGCTGCTGATCGGCAAGCGGCATTCCGGGGCGGCGTTGCTGACCATTGAGGAAGCGCTGGACGTGGCGCTGTGCCACGGCTGGATCGATGGCCAGCGCAAGTCCAATGACGACGCGTCATTCCTCCAGCGGTACTCGCGGCGGCGGGCGAAAAGCTCGTGGTCCCGGATCAACGTGGTCAAGGCGGAGGCCTTGATGGAATCCGGGCGCATGAAGCCGCCGGGACTTGCGGAGATCGACGCAGCCAAGGCGGACGGACGCTGGGCTGCAGCGTATGAGTCCCAGCGCACCGCGGACGTGCCGCCCGACCTGACGGCCGCGCTGGCCGCTGACCCCGCTGCCGGAACAGCCTTCGAAAACCTGGGCAAATCGGAACGCTACGCCGTGATCCTTCCACTCCTCAAGGCCCGTACGCCTGAATCTCGGGCAAAGACCCTGGCGCGGGAGGTGGCGAAGCTGGCGGGCCCGACTTCTGCTGTCAGTCCAGCGGAAGGGTGA	MDPLEFRNAGEWDSWLTANEGNTSEAWLLIGKRHSGAALLTIEEALDVALCHGWIDGQRKSNDDASFLQRYSRRRAKSSWSRINVVKAEALMESGRMKPPGLAEIDAAKADGRWAAAYESQRTADVPPDLTAALAADPAAGTAFENLGKSERYAVILPLLKARTPESRAKTLAREVAKLAGPTSAVSPAEG	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
D1-29_04373	426			hypothetical protein	GTGAGCCTACGGGGATTCAGCACCATCAACTTCTGGGCCGACGACGTGGCAGCTGCCACCGCCTGGTATCAGGAATTCCTTGGTCTTGACGCCTACTTCCAGCGGCCCGGGCCGGACGGGATCCTCGCCTACTCGGAGTTCCGCATCGGTGATTACCAGAATGAGCTGGGCATCATCGATAGCCGCTTCCGGCCGCCGTCGACAGCAAATGGGCCTGGTGGCGCCGTGATGCACTGGCATGTTGACGATCTCAGTGCCACCGTGGAGCGGCTGTTGGAGATGGGTGCCACGGAGTACCAGCCCATCACCGCCCACGGGGACTCGGGTTTCATCACCGCCTCAGTGGTGGACCCCTTTGGAAATGTGCTGGGCGTGATGAACAACCCCCATTACCTGGACGTGCTTGCCTCCCGCCCGCAGGGCTGA	MSLRGFSTINFWADDVAAATAWYQEFLGLDAYFQRPGPDGILAYSEFRIGDYQNELGIIDSRFRPPSTANGPGGAVMHWHVDDLSATVERLLEMGATEYQPITAHGDSGFITASVVDPFGNVLGVMNNPHYLDVLASRPQG				NA	NA	NA	NA	NA
D1-29_04374	1929	mobA_2	COG0654	3-hydroxybenzoate 4-monooxygenase	GTGCAATTCCACCACCACGGTTACGTATCCGGTGACCCGCGGGTCCAGCCAACCGCCGGCGTCGGCATCAACCGGCCCGCCGACCTTCCCAGTGAGGTGGATGTGCTGATCGTTGGTTCCGGCCCTGCCGGAATGCTGGCCGCTGCCCAGCTGTCCCGGTTCCCGAATGTCACTACGCGCATTATTGAGCGCCGTCCCGGCCGCCTCGCCATCGGCCAGGCCGATGGCATCCAGGCCCGAAGCGTAGAGACCTTCCAGGCTTTTGGCTTCGCCGAACGGATCATTGCCGAGGCGTACCGCATCACTGAAATGGCGTTCTGGAAGCCGGACCCGGCAAACCATGCCAACATCATCCGGACCGCCCGCGCCGTCGACGACGAGATGGGCATCAGCGAGTTCCCGCACCTCATCGTCAACCAGGCCCGCGTCCTGGACTACTTCGCTGAGTACATGGCGAACGCACCCACCCGCATGACGCCGGACTATGGCTACGACTTCCAGGGCCTGAGCGTTGCCGATGAGGGCGAGTACCCGGTCACCGTGACACTCCTCCACACCGCTGGCCCGAACGAAGGGCAGGAGCGCACTGTCCGCGCCAAATACGTGGTGGGGGCTGACGGCGCGCGGAGCAAGGTGCGCCAGGCCATTGGATGCACCCTCGCCGGGGACCAAGCCAACCATGCCTGGGGCGTCATGGATACGCTGGCGGTCACTGACTTCCCGGACATCCGAACCAAGTGCGCCATCCAGGGAGCCGAGGGCAGCATCCTGCTGATCCCGCGCGAGGGTGGCCACCTGTTCCGGATGTACGTGGACCTCGGCGAGGTGGACCCCGCAACCCATCATGCGGTCCGCAATACCAGCATCGAGCAGATCATCGCCAAGGCGAACGCCATCCTTCATCCGTATACCCTGGATGTCCGGAACGTCGCGTGGCACAGCGTCTATGAGGTGGGCCACCGCCTCACGGACCGGTTCGACGACGTCCTGCCGGAGGACCGCGGTACCCGCACCCCCCGCGTTTTCATCACGGGCGACGCCTGCCATACGCACAGCGCCAAGGCCGGCCAGGGCATGAACGTCTCCATGCAGGACGGCTTCAACATTGCCTGGAAACTTGGACACGTCCTGGAGGGGCGCAGCCCGGAGAGCCTGCTGTCCACGTACTCGGAGGAGCGCCAGGTGGTAGCCAGGAACCTGATCGACTTCGACAAAGAGTGGTCCGCGATGATGGCCAAGAAGCCGGAAGAGTTCGAGAACCCTTCCGATCTCGAGGACTTCTACGTGCGCACCGCCGAATTCCCGGCCGGCTTCATGACGCAGTACGCACCATCCATGCTCGTGGCTGCCTCCGACCACCAGGACCTGGCCGCCGGCTTCCCGATTGGCAAGCGTTTCAAGTCGGCGCCCGTTGTCCGTATCGGCGACACCAATCCCCTGCACCTTGGCCATCATGCCACTGCTGACGGCCGGTGGCGCATCTACGTTTTCGCCGATTCCGCCCTGCCCGGAACGGGAACGGGGCCGGCGCGTTCCGCCACCGATCAGCTTGCCGAGTGGCTTGCGAACTCGCCGGAATCACCGCTGGCTGCGACGCCGTCGGACGCTGATCCGGACGCATGGTTCGACGTTAAGGTGATCTACCAGCAGCCCCACACGGCCGTTGACATCGGCGCGGTGCCGGCTGTGTTCAAGCCGCAGGTGGGGCCGTTCAGGCTGACCGACTACGAGAAGGCCTACGCCACCGATCCGAATGCGGACATCTTTGAACTGCGCGGCCTGAGCCGCAACGGCGTTGTGGTGGTGGTGCGTCCGGACCAGTACGTGGCCAACGTCCTGCCCCTGACGGCGACGTCCGAACTGGTAGCGTTCTTTGCGCCCCTGCTGCGCCACCGGATCTCCAGCTCCTCGAGTGAACTGCGTGCATAA	MQFHHHGYVSGDPRVQPTAGVGINRPADLPSEVDVLIVGSGPAGMLAAAQLSRFPNVTTRIIERRPGRLAIGQADGIQARSVETFQAFGFAERIIAEAYRITEMAFWKPDPANHANIIRTARAVDDEMGISEFPHLIVNQARVLDYFAEYMANAPTRMTPDYGYDFQGLSVADEGEYPVTVTLLHTAGPNEGQERTVRAKYVVGADGARSKVRQAIGCTLAGDQANHAWGVMDTLAVTDFPDIRTKCAIQGAEGSILLIPREGGHLFRMYVDLGEVDPATHHAVRNTSIEQIIAKANAILHPYTLDVRNVAWHSVYEVGHRLTDRFDDVLPEDRGTRTPRVFITGDACHTHSAKAGQGMNVSMQDGFNIAWKLGHVLEGRSPESLLSTYSEERQVVARNLIDFDKEWSAMMAKKPEEFENPSDLEDFYVRTAEFPAGFMTQYAPSMLVAASDHQDLAAGFPIGKRFKSAPVVRIGDTNPLHLGHHATADGRWRIYVFADSALPGTGTGPARSATDQLAEWLANSPESPLAATPSDADPDAWFDVKVIYQQPHTAVDIGAVPAVFKPQVGPFRLTDYEKAYATDPNADIFELRGLSRNGVVVVVRPDQYVANVLPLTATSELVAFFAPLLRHRISSSSSELRA	PGPT0005430_229	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
D1-29_04375	1566			hypothetical protein	GTGATCGTATACGATTTCGTACCCGATGAGGAGACAACCTTGGAGAAGGTCAACGAAGACACCCTGGCGGCAGCACGCAAGGTGATCGCGGTGCATATCAATTACCCCAGCCGCGCAGCGCAGCGGGGCCGCACTCCGGCCCAGCCGTCCTACTTCCTCAAGCCATCGTCGTCGCTGGCCCTCGGCTCAGCAGAGGCCCCCGGGACGGTGGAACGGCCCTCAGGCTGCGAACTTCTCGGCTATGAAGGCGAAATTGCCCTGATCATCGGCAAACCTGCCCGCCGTGTGGGCCTTGACGATGCCTGGAGCCACGTCGCCGCCATTACGGCCAGCAATGACCTCGGCGTCTATGACCTTCGCTACGCGGACAAAGGTTCCAACCTCCGGTCCAAAGGTGGCGACGGCTTCACGCCGGTGGGCCCGGGCCTGATCGCGGCAGACATGGTGGACGCCGCCGGGCTCCGAATCCGCACCTGGCGCAACGGCGAACTGGTCCAGGACGACACCACGGAGGACCTGCTCTTCCCGTTTGCCCGCCTTGTGGCCGATCTCTCCCAGCTGCTCACCCTCCAGGAGGGGGACATCATCCTCACCGGCACGCCCGCCGGCGCGTCGGTCGCCACGCCGGGCGATGTCCTGGAAGTGGAGGTGGGCACCGTTGACGGCAGCCTCACCACGGGCCGCCTGGTCACCCGGGTGGAGGAAGGCACGACGCCGTTTGCGGACTTTGGTGCCGAGCCCCAGACTGATGACCTGCAGCGGGAGGAGGCCTACGGCTCTCGCGAGGCCGCCGGACTGCCAGCCGTCGATGATGCAGGGGCGGGCGCCGCCGTCGGGCCTGTCCTCTCCCCCGAACTGAAGGCAAAGCTGGAAAGCGTGTGCACCGCAACACTGTCCTCACAGTTGCGCAAGCGCGGCCTGAACAACGTCAGCATCGACGGCCTCACCGCCACCCGCCCGGAGAAGCGCGTGGTGGGGCTGGCCCGGACGCTCCGTTACGTCCCCAACCGCGAAGATCTCTTCAAGATCCATGGCGGCGGCTTCAACGCGCAGAAAAGGGCCATCGACTCTGTCAACGAGGGCGAAATCCTGGTCATGGAGGCCCGGGGCGAAAAGGGCACCGGCACCATCGGTGACATTCTGGCCCTGCGGGCCCAGGTCCGCGGTGCGGCAGCCATCATCACCGACGGCGGTGTCCGGGATTTCTCCGCTGTGGCAGCGATGGAGATGCCCACCTACTATTCCAACCCGCACCCTGCAGTGCTGGGCCGGCGCCACATCCCGTGGGACACGGACATCACCATCGCCTGCGGCGGCACCACCGTGCAGCCCGGCGACATCATCGTGGCTGACTCGGACGGCATCCTGGTCATTCCGCCGGCTCTGGCCGAGGAAGTGGCGGACGAATCCATCGTGCAGGAACGCGAGGAGACGTTCATTGCGGAAATGGTGGAGCAGGGCCACAGCGTGGACGGGCTCTATCCCTTGAACGCCGCCTGGCGCAAAAAGTACGAGGAATGGGAAGAAGGCATGGGAAGAAGCACGGGAAGCGGGCCGGTCCAATGA	MIVYDFVPDEETTLEKVNEDTLAAARKVIAVHINYPSRAAQRGRTPAQPSYFLKPSSSLALGSAEAPGTVERPSGCELLGYEGEIALIIGKPARRVGLDDAWSHVAAITASNDLGVYDLRYADKGSNLRSKGGDGFTPVGPGLIAADMVDAAGLRIRTWRNGELVQDDTTEDLLFPFARLVADLSQLLTLQEGDIILTGTPAGASVATPGDVLEVEVGTVDGSLTTGRLVTRVEEGTTPFADFGAEPQTDDLQREEAYGSREAAGLPAVDDAGAGAAVGPVLSPELKAKLESVCTATLSSQLRKRGLNNVSIDGLTATRPEKRVVGLARTLRYVPNREDLFKIHGGGFNAQKRAIDSVNEGEILVMEARGEKGTGTIGDILALRAQVRGAAAIITDGGVRDFSAVAAMEMPTYYSNPHPAVLGRRHIPWDTDITIACGGTTVQPGDIIVADSDGILVIPPALAEEVADESIVQEREETFIAEMVEQGHSVDGLYPLNAAWRKKYEEWEEGMGRSTGSGPVQ				NA	NA	NA	NA	NA
D1-29_04376	690			hypothetical protein	ATGACTGAAACAGCCACCGACACTGAGACCACGTCAGCCAACATCACCGGCAGCAAGTCCGAGCAGGCCTACCGGGCCATCAAGGCCAGGATTGTGGAAGGCACGTATACGCCCGGGTACCGGCTGGTGCTGGCCAGCATCGCCAAGGACCTGGGTTTCAGCGTGGTCCCGGTCCGGGAGGCCATCCGGAGGCTTGAAGCCGAAAACCTGGTCAAGTTCGAACGCAACGTGGGCGCCACCGTGTCCGGGATTGATCCCACCGAATACCTGTACACGATGCAGACGCTGAGCATCGTGGAGGGGGCGGCGACGGCGATGTCCGCACCTCTGATCGACTCGGTGGCAATAGCCCGGGCCCGTGCCGTGAATGCCGAGATGCGCGAATGCCTGGAGCACTTCGATCCCGTCCGGTTCACCCGGCTGAACCAGGACTTCCACAGCATCCTGTTCGAGCACTGCCCCAACCCGCACATTCTTGATCTGGTTCATCGCGGCTGGAACCGGCTGGCCTCCCTTCGCTCCTCCACGTTCCGCTTTGTCCCGGGCCGGGCCCATGATTCCGTGGACGAGCACGAGGCCCTCTTGAAGCTGATCGAGGACAGCGCCAGCGCCGACGAGATCGAAAAGGCCGCCCGTCTGCACCGCTCCGCCACCCTGGACGCCTACCTGAGCCAGGCCAAAAACATCTGA	MTETATDTETTSANITGSKSEQAYRAIKARIVEGTYTPGYRLVLASIAKDLGFSVVPVREAIRRLEAENLVKFERNVGATVSGIDPTEYLYTMQTLSIVEGAATAMSAPLIDSVAIARARAVNAEMRECLEHFDPVRFTRLNQDFHSILFEHCPNPHILDLVHRGWNRLASLRSSTFRFVPGRAHDSVDEHEALLKLIEDSASADEIEKAARLHRSATLDAYLSQAKNI				NA	NA	NA	NA	NA
D1-29_04377	1542	amnC		2-aminomuconic 6-semialdehyde dehydrogenase	ATGACGTTCACTGCCCAAGAAACCAAAGCCCATTACGTGCCGCAGGACCTGCCCGCCCACATCCAGCACTACATCAACGGCCAGTTCGTTGATTCCGTGGGCGGGGCGACCTTCGACGTCCTGGACCCTGTCTCCAACACCAACTACGCCACCGCCGCGGCCGGCCAGAAGGAGGACATCGACCTCGCCGTGGCCGCCGCCCGCGAGGCCTTCACCAACGGACCCTGGCCGAAGATGAAGCCCCGCGAACGGGCCCGGGTCCTGAACAGGATCGCCGACGCCGTCGAAGCCCAGGAAGAGCGCCTGGCTGAGCTGGAAACCTTCGATACCGGCCTGCCCATCACCCAGGCCAAGGGCCAGGCCCTTCGCGCCGCAGAGAACTTCCGCTTCTTCGCGGACCTGATCGTGGCCCAGTTCGACGACGCCATGAAGGTCCCCGGCTCCCAGATCAACTACGTGAACCGCAAGCCGATCGGCGTCGCGGGCCTGATCACGCCGTGGAACACCCCGTTCATGCTGGAGTCCTGGAAGCTGGCCCCGGCCCTGGCCACCGGCAATACAGTGGTCCTGAAGCCCGCCGAGTTCACCCCGCTCTCCGCGTCACTCTGGGCCACCATCTTCAAGGACGCGGGCCTGCCGGACGGTGTGTTCAACCTGGTTAACGGCCTGGGCGAGGAAGCCGGCGACGCACTCGTGAAGCACCCGGACGTGCCGCTGATCTCCTTCACCGGCGAGACCACCACCGGCCAGACAATCTTCCGCAACGCCGCCGCCAACCTCAAGGGCCTGTCCATGGAACTCGGCGGCAAGTCCCCCTGCGTCGTATTCGCCGACGCCGACCTGGACGCCGCCATCGATTCCGCCCTGTTTGGCGTCTTCTCCCTTAATGGCGAACGCTGCACGGCCGGCTCCCGCATCCTGGTGGAACGGGCCATCTACGACGAATTCTGCGAAAAGTACGCCGCCCGCGCCAAGAACATCGTGGTTGGGGACCCGCACGATCCCAAGACCCAGGTGGGCGCCCTGGTCCACCCCGAGCACTACGAAAAGGTGGCGTCCTACGTGGAGATCGGCAAGTCCGAAGGCCGGTTGCTGGCCGGCGGCGGCCGCCCTAACCACCTGCCTGAAGGCAACTACATCGCACCCACCGTGTTTGCCGACGTCGCCCCCGACGCCCGGATCTTCCAGGAGGAGATCTTCGGGCCCGTCGTCGCGATTACCCCGTTCGAGAACGATGACGAGGCGCTGGCTTTGGCGAACAACACCAAGTACGGCCTCGCGGCCTACATCTGGACGCAGAACCTGACCCGCGCGCACAACTTCTCGCAAAACGTGGAAGCCGGCATGGTGTGGCTGAACAGCCACAATGTCCGCGACCTCCGTACCCCGTTCGGCGGCGTCAAAGCTTCCGGCCTGGGCCACGAGGGCGGCTACCGCTCCATCGACTTCTACACCGACCAGCAGGCCGTGCACATCACACTCGGCAGCGTCCACACCCCCAAGTTCGGCAACATCGAAGCGTCCGCCGCCAACGAAGGCTAA	MTFTAQETKAHYVPQDLPAHIQHYINGQFVDSVGGATFDVLDPVSNTNYATAAAGQKEDIDLAVAAAREAFTNGPWPKMKPRERARVLNRIADAVEAQEERLAELETFDTGLPITQAKGQALRAAENFRFFADLIVAQFDDAMKVPGSQINYVNRKPIGVAGLITPWNTPFMLESWKLAPALATGNTVVLKPAEFTPLSASLWATIFKDAGLPDGVFNLVNGLGEEAGDALVKHPDVPLISFTGETTTGQTIFRNAAANLKGLSMELGGKSPCVVFADADLDAAIDSALFGVFSLNGERCTAGSRILVERAIYDEFCEKYAARAKNIVVGDPHDPKTQVGALVHPEHYEKVASYVEIGKSEGRLLAGGGRPNHLPEGNYIAPTVFADVAPDARIFQEEIFGPVVAITPFENDDEALALANNTKYGLAAYIWTQNLTRAHNFSQNVEAGMVWLNSHNVRDLRTPFGGVKASGLGHEGGYRSIDFYTDQQAVHITLGSVHTPKFGNIEASAANEG	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
D1-29_04378	1095			hypothetical protein	ATGACAAACTTTGTACCCACCCCCACCGTTCCGGCTCCGGACATCGTCCGCTGCGCCTACATGGAAATCGTGGTCACCGACCTGGCCAAGTCCCGCGCCTTCTACGTGGACCTGCTGGGCCTGCACGTCACCGAGGAAGATGAAAACAACATCTACCTGCGCTCCCTGGAGGAGTTCATCCACCACAACCTGGTGCTGCGCAAGGGACCCATCGCCGCCGTCGCCGCCTTCGCCTACCGGGTCAAGTCCCCGGCCGAGGTGGACGCAGCCGAGGCCTACTACCGCGAGCTGGGCTGCCGAGTGGAACGCCGCAAGGAAGGCTTCACCAAGGGCATCGGGGACTCCGTCCGGGTGGAGGACCCGCTGGGCTTCCCCTACGAGTTCTTCTACGACGTGGAGCACGTCGAACGCCTCACCCAGCGCTACGACCTCTACTCCGCCGGCGAACTGGTCCGCCTGGACCACTTCAACCAGGTCACCCCGGACGTGCCCCGCGGCCGCAAATACCTCGAGGACCTGGGCTTCCGGGTCTCCGAGGACATCCAGGATTCCGACGGCGTCACGTACGCCGCGTGGATGCACCGCAAGCAGACGGTCCACGACACCGCGCTGACCGGCGGGAACGGCCCGCGCATGCACCACGTCGCGTTCGCCACGCACGAGAAGCACAACATCATTCAGATCTGCGACAAGATGGGCGCCCTGCGCATCAGTGACCGGATCGAACGCGGCCCCGGCCGGCACGGTGTCTCCAACGCCTTCTACCTCTACATCCTGGACCCGGACGGCCACCGGATCGAGATTTACACCCAGGACTACTACACCGGCGACCCCGACAACCCCACCATCACCTGGGACGTGCACGACAACCAGCGCCGCGACTGGTGGGGCAACCCCGTGGTCCCGTCCTGGTACACCGAAGCCTCCCTGGTCCTGGACCTCGACGGCAACCCCCAACCGGTGATCGTCCGCGAGGAAAAGTCCGAAATGGCTGTCACCGTGGGTGCCGACGGCTTCTCCTACACCCGCAAGCAGGACAGCGAAGGAACGGATGCCGGAGAAAAGACAGGCTTCAAACTGGGAGCGCAGCTGTAG	MTNFVPTPTVPAPDIVRCAYMEIVVTDLAKSRAFYVDLLGLHVTEEDENNIYLRSLEEFIHHNLVLRKGPIAAVAAFAYRVKSPAEVDAAEAYYRELGCRVERRKEGFTKGIGDSVRVEDPLGFPYEFFYDVEHVERLTQRYDLYSAGELVRLDHFNQVTPDVPRGRKYLEDLGFRVSEDIQDSDGVTYAAWMHRKQTVHDTALTGGNGPRMHHVAFATHEKHNIIQICDKMGALRISDRIERGPGRHGVSNAFYLYILDPDGHRIEIYTQDYYTGDPDNPTITWDVHDNQRRDWWGNPVVPSWYTEASLVLDLDGNPQPVIVREEKSEMAVTVGADGFSYTRKQDSEGTDAGEKTGFKLGAQL	PGPT0005055_103	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
D1-29_04379	786	hpcG		2-oxo-hept-4-ene-1,7-dioate hydratase	ATGATGGATGCCACCACGATTGAGGCCATCGCCGACGAACTGCTGGAAGCCGGCCGGAACCGCAAACCCGTGCCCCGGCTGACGGCACGCTACCCGGAGATGACAGTCGAGGACTCCTACGCCGTGCAGCAACTGTGGCGGCGCCGGAACGAGGACGCCGGCCGGACCCTGGTGGGACGCAAGATCGGCCTCACGTCCAAAGCCATGCAGGCCGCCACCGGCATCACCGAACCGGACTACGGCGCCATCTTCGATGACATGGTGCTGGAAACCGGCTGTTCGGTGCAGTGGGACCAGTACACCCACCCGCGGGTGGAGGTGGAGCTGGCCTTCGTCCTAAAGGACGGGCTGAAAGGCCCCGGCTGCACCATCTTCGATGTCCTGAACGCCACCGACTACGTGGTCCCGGCCCTTGAGATCCTTGATTCCCGGATCGAGATGGAGGGCCGGACCATCGTGGACACCATCGCCGACAACGCGGCCATGGGTGCAATGGTGGTCGGCGGCAACCCGGTCCGGCCTGATGACGTGGACCTGCGCTGGGTGGCGGCCATCCTGTACAAGAACCAGACAGTGGAAGAAACCGGCGTGGCCGCAGGCGTCCTGGACCACCCGGCCAACGGCGTGCACTGGCTGGCCAACAAGATCGCCGCCCATGGGGACAGCATGAAGGCAGGGGACATCATCCTGGCCGGCTCGTTCACCCGTCCGCTGTGGGTCTACAAAGGTGACACCGTCCATGCCGACTACGGACCGTTGGGGAGCATCACATGCCGCTTCGAATAG	MMDATTIEAIADELLEAGRNRKPVPRLTARYPEMTVEDSYAVQQLWRRRNEDAGRTLVGRKIGLTSKAMQAATGITEPDYGAIFDDMVLETGCSVQWDQYTHPRVEVELAFVLKDGLKGPGCTIFDVLNATDYVVPALEILDSRIEMEGRTIVDTIADNAAMGAMVVGGNPVRPDDVDLRWVAAILYKNQTVEETGVAAGVLDHPANGVHWLANKIAAHGDSMKAGDIILAGSFTRPLWVYKGDTVHADYGPLGSITCRFE	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
D1-29_04380	816	hpcH	COG3836	4-hydroxy-2-oxo-heptane-1,7-dioate aldolase	ATGCCGCTTCGAATAGAAGACACCTTCCGGGATGCACTGCGCAAACAAAACGGCAAAGGAGGCAGGCCGCTTGCCGGCATGTGGGTTTGTTCGGGGAGCCCGCTCATCGCCGAAGTGTGCGCCGGCTCCGGCCTGGACTGGCTGCTGATCGATGCCGAGCATAGCCCCAACGGCCTGGAATCCATCCTCGCCCAACTCCAGGCAATCAGCGGCTACCCGGTCCACGCCGTGGTCCGGCCGCCGGTCAACGACACCGTGCTGATCAAGCAGTACCTGGACCTCGGTGTCCAGAACCTGCTGATCCCCATGGTGAATTCCGCCGCGGACGCCGAAGCGGCGGTTGCTGCCACCCGGTACCCTCCCCACGGTGTCCGCGGTGTTGGCTCGGCACTTGCCCGGGCTTCACGCTGGAACCGGATCCCGGACTACCTGGGAAGGGCGGCGGAAACCATCAGTGTCACAGTCCAGATCGAGTCCGCAGCCGCCGTGGAAGCCGTGGACAAGATCCTGGACGTGGACGGTGTGGACGCCATCTTCCTGGGGCCCTCGGACCTTGCGGCCTCCATGGGCGTGCTGGGAGAGCAGGAACACCCGGAGGTCCGGGCCGCCGTCGAACACTGCCTGCAAGCCGCCAGAGCGGCAGGGAAACCGGCGGGCGTGAACGCATTCAATCCCGTCACGGCGAACCAGTACCTGGACAACGGCGCCAATTTCATCCTGGTGGGTGCCGACGTCGCGCTGCTCGCCCGGGGCTCGGAAGCGCTGGCCGCGGAGTTCATCCGGAGATCCGACGGCGGTTCCCGCGCCAGCTACTGA	MPLRIEDTFRDALRKQNGKGGRPLAGMWVCSGSPLIAEVCAGSGLDWLLIDAEHSPNGLESILAQLQAISGYPVHAVVRPPVNDTVLIKQYLDLGVQNLLIPMVNSAADAEAAVAATRYPPHGVRGVGSALARASRWNRIPDYLGRAAETISVTVQIESAAAVEAVDKILDVDGVDAIFLGPSDLAASMGVLGEQEHPEVRAAVEHCLQAARAAGKPAGVNAFNPVTANQYLDNGANFILVGADVALLARGSEALAAEFIRRSDGGSRASY	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
D1-29_04381	372			hypothetical protein	ATGTTCGCCTCATCAGCACCCGGCCAGCTGCTGCTGATCGCCGGGCAGACGCTGGTGGTGGTGTGCCTTTGCTTTGACATGGTGCGGGCGCTTTCGGTGCCGAGGTCGCACCGCCGGTACGTGGCCAGCACCGTCTTCCGGACCCTGGCTATCCCGTCGGTCATCGTCAACGGTGTCACTGTCCTGATCGCTTTGCTGCTGTGGTCCTGGATGGACGTGGTCACCGGCATGTTTGTCCTGGTCGCCATCATCTTCCGGCTGCACCATGACAAGGACGAGGACAACTGGTGGAAGGGCATGGGCAAGAAGCTGGCCCGCTGGGCGCGCCGCCAGTTCGCCGGCCGCACGTCCGCCGCCCCTGCCATGGGTTGA	MFASSAPGQLLLIAGQTLVVVCLCFDMVRALSVPRSHRRYVASTVFRTLAIPSVIVNGVTVLIALLLWSWMDVVTGMFVLVAIIFRLHHDKDEDNWWKGMGKKLARWARRQFAGRTSAAPAMG				NA	NA	NA	NA	NA
D1-29_04382	426			hypothetical protein	GTGGACATCAATGCTGACCAGCCGATCTTTGTGATCTCCGTGGCTGCCGAGCTGGCGGACATGCACCCACAGACGCTGCGGCAGTACGACCGGCTCGGCATCGTCTCGCCCAGCCGCGCGCCCGGCAAGTCCCGCCGCTACTCGCAGCGGGACATCAACATGCTGCGCGAAGTGCAGCGGCTCTCGCACGAGGGCGTCTCACTGGAGGGCATCAAGCGGATACTTGAGCTGGAACACCAGGTGCGTGCCCTTCAGCGCAAGGTGTCGGAGCTGACCGAGGAACTGGGCCGCCGTCGTAATCCCCTTGATTCAAGGATTTTTGCCGCTGGAGCCGCCGGCGACGTCGTGAGCCTGGCACGCGGCCAGCGCCCGCGTGCCCGCTCCCAGGCCGTGGTGCTCTGGCGGCCGCGGGCACTCACCGACTAG	MDINADQPIFVISVAAELADMHPQTLRQYDRLGIVSPSRAPGKSRRYSQRDINMLREVQRLSHEGVSLEGIKRILELEHQVRALQRKVSELTEELGRRRNPLDSRIFAAGAAGDVVSLARGQRPRARSQAVVLWRPRALTD	PGPT0014625_460	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014625-hspR-K13640	NA	NA
D1-29_04383	972	dnaJ_3	COG0484	Chaperone protein DnaJ	TTGGCTAGCCAGGATTGGGTGGACAAGGACTTTTACGCGATCCTTGGTATCGCCAAGGACGCTTCCGACGCCGACATCAAGAAGGCTTACCGGAAGCTCGCCCGCCAGCACCACCCGGATACCAACTCGGGAAACACTGCGTCGGAGAAAAAGTTCAAGGACATTTCCGAGGCGTATTCCGTGCTGTCCGATCCCGAGGAGCGGCAGCAGTATGACGCCATCCGTGCCATGGGCGGCGGCGCCAGGTTTGCGCCCGGCGGCGCCGGTGCCGCCAACGGCGGATTCGAGGACATGTTCGGCGGCCTCTTTACCGGCAGCACCGGTCGCCACGCCGGCGGCTTCAGCACCTCCGGCGGCATTCCGCCCGAGTTCGCCGACCTGTTCGGCGGCGGCTTCGGTGCCCAGCCCGGCTTCCAGCGGACGCCGCAGAAGGGTGCCGACCGTACCGCTTCCACCACTATTTCGTTCGCCGGCTCCATCCGCGGCACCACCATCGGCCTGCGCGAGCCCAGCGGCGAGGTGATTGACGTCCGGGTTCCGCCGGGCATCAAGGATGGCCAGAAGGTCCGCGTCCGCGGGAAGGGCCAGCCAGGTCCGGCCGGCAACGGTGACCTGGTGGTTGCCGTTTCGGTCAAGCCCCACGATTTCTACACGCGCGACGGCGACAACCTGCGCATCCACGTACCGGTCAGCTTCCCCGAAGCTGCTTTGGGCGCCGACATCGAAGTTCCCACCATTGACGGAGACAAGGTCCGGGTCCGGGTACCTGCCGGCACACCTTCCGGGCGTACGCTGCGGGTCAAAGGCCGTGGCGTCAAAACGTCTAAGGGCGAGGGCGATCTCCTGGTGACCATCGACGTCGCGGTCCCCAAGAACCTGAATAAGGAAGCAGAAGCTGCGGTGAAGGCCTTCGCCGAGGCCACAGCCGATGCCGACGTCCGTCAGGGCCTGGCCGCCAAGGCCCGGCTGTAG	MASQDWVDKDFYAILGIAKDASDADIKKAYRKLARQHHPDTNSGNTASEKKFKDISEAYSVLSDPEERQQYDAIRAMGGGARFAPGGAGAANGGFEDMFGGLFTGSTGRHAGGFSTSGGIPPEFADLFGGGFGAQPGFQRTPQKGADRTASTTISFAGSIRGTTIGLREPSGEVIDVRVPPGIKDGQKVRVRGKGQPGPAGNGDLVVAVSVKPHDFYTRDGDNLRIHVPVSFPEAALGADIEVPTIDGDKVRVRVPAGTPSGRTLRVKGRGVKTSKGEGDLLVTIDVAVPKNLNKEAEAAVKAFAEATADADVRQGLAAKARL	PGPT0014545_6464	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
D1-29_04384	747	grpE	COG0576	Protein GrpE	ATGCCCCACCACGGTAACGAGGAAGAGCACAGCTCCTCCGCCCACGAGGAGCACCGTAAAGTCCGGGAAAGCCAGGAGCGCCAGCAGGAACAGCAGGCCAGCGGCCAGCAGGAGCCGGTCATCCGGGACAACCGCAAGGTTGACCCGGTGACCGGGCAGGCCCGCCACCCGCAGGGCGAGCAGCATGCTGCCCCCGCCGAGGCGGCGGCCGGCGCTGAAGCCTTTGCAGATTCTGATGGTGACGCCTTGGCCCAGGCCGAGGAGATCCTTAACGGCATTGAGGTGCCCGCCGAGGAATCCGTGGCCCAGGGGGTTTCGCCGGAGGCAACCACAGCTGAAGCCGCCGAGCTGAAGAATGACCTGCTCCGCCTCCAGGCTGAGTATGTCAACTACCGCAAGCGCGTTGAACGTGACCGTGCCGTAGCAGGGGAGATGGCCGTCATCGGCGTCCTGAACTCGCTGCTCCCGGTACTGGATGACGTGGACGCCGCCCGGCAGCACGGTGACCTGAACGACGGCCCGTTCGCCGCGATCGCCACCAAGCTGGAGAACGCGCTCAAGACGTACGGCCTGATCCGCATCGATGAGACCGGAGTGGAGTTCGATCCCACGATCCATGAGGCCCTCATCCAGCAGCCCGGCGAGGACATCGAGGTTGACACCGTCAGCCAGGTACTCCGCTCAGGCTACAAGTCAGGCGACCGCGTCCTCCGCGCAGCCCAAGTGATTGTGGCCGTCCCGGCTTAG	MPHHGNEEEHSSSAHEEHRKVRESQERQQEQQASGQQEPVIRDNRKVDPVTGQARHPQGEQHAAPAEAAAGAEAFADSDGDALAQAEEILNGIEVPAEESVAQGVSPEATTAEAAELKNDLLRLQAEYVNYRKRVERDRAVAGEMAVIGVLNSLLPVLDDVDAARQHGDLNDGPFAAIATKLENALKTYGLIRIDETGVEFDPTIHEALIQQPGEDIEVDTVSQVLRSGYKSGDRVLRAAQVIVAVPA	PGPT0014650_1503	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0014650-grpE-K03687	NA	NA
D1-29_04385	1872	dnaK_2	COG0443	Chaperone protein DnaK	ATGTCACGTGCAGTAGGTATCGACCTCGGAACAACAAACTCCGTCGTCTCCGTTCTCGAAGGTGGCGAGCCCACCGTCATTGCCAACGCCGAGGGTGGCCGCACCACGCCGTCGGTCGTTGCATTCTCCAAGTCCGGCGAAGTGCTGGTTGGCGAAATCGCCAAGCGCCAGGCCGTCAACAACATTGACCGCACCATCGCCTCCGTCAAGCGCCACATGGGCACCGACTGGAGCGTCTCGGTTGATGACAAGAAGTACACGGCGCAGGAAATCTCCGCCCGTATCCTGATGAAGCTTAAGAACGACGCCGAGTCCTACCTCGGCGAAAAGGTCACCGACGCCGTGGTCACCGTTCCGGCGTACTTCAACGACGCCCAGCGCCAGGCCACCAAGGAAGCCGGCGAGATTGCCGGCCTGAACGTTCTCCGCATTGTCAACGAGCCCACCGCGGCTGCGCTGGCCTACGGCCTGGACAAGGGCAAGGAAGACGAACTCATCCTGGTCTTCGACCTCGGCGGCGGAACTTTCGACGTCTCCCTGCTGGAAGTCGGCAAGGATGAGGACAACTTCTCCACCATCCAGGTCCGCGCCACGGCCGGTGACAACCACCTCGGCGGCGACGACTGGGACCAGCGCGTTGTTGACTACCTGCTGAAGCAGCTCAAGGTCAAGGGCATTGACCTCTCCAAGGACAAGATCGCCCTGCAGCGCCTGCGTGAAGCGTCGGAGCAGGCTAAGAAGGAACTCTCCTCCTCCACCAGCACCAACGTCTCCCTCCAGTACCTCTCCGTCACCCCTGACGGCCCGGTCCACCTGGACGAGCAGCTGACCCGCGCAAAGTTCCAGGACCTCACCAAGGACCTGCTGGACCGCACCAAGAAGCCATTCCAGGACGTCATCAAGGAAGCCGGCATCAAGCTCTCCGAGATCGACCACATCGTGCTGGTGGGCGGTTCCACCCGTATGCCCGCCGTTTACGAACTGGTCAAGGAAATGGCCGGCGGCAAGGAGCCGAACAAGGGCGTCAACCCTGATGAGGTCGTGGCCGTTGGCGCCGCACTGCAGGCCGGTGTCCTCAAGGGTGAGCGCAAGGACGTGCTGCTGATCGACGTCACGCCGCTTTCCCTCGGCATCGAGACCAAGGGTGGTGTCATGACCCACCTGATCGAGCGGAACACGGCTATCCCCACCAAGCGCTCCGAGACCTTCACCACGGCTGATGACAACCAGCCCTCGGTGGCTATCCAGGTCTTCCAGGGCGAGCGTGAATTCACCCGCGACAACAAGCCGCTGGGCACGTTCGAGCTGACCGGCATCGCGCCGGCTCCGCGCGGCGTCCCGCAGGTCGAGGTCACCTTCGACATCGACGCCAACGGCATTGTGCACGTCTCGGCGAAGGACAAGGGCACCGGCAAGGAGCAGTCCATGACCATCACCGGCGGCACCGCCCTGTCCAAGGAAGACATCGACCGCATGGTCCGTGACGCTGAGGAACACGCAGCCGAGGACAAGGCCCGCCGCGAGGCAACCGATACCCGCAACACGGCCGAGCAGCTCGCCTACTCCGTGGACAAGCTGATCGCCGACAACTCGGACAAGCTGCCTGAGGAGGTCAAGACCGAGGTCCAGGCCGACGTCGACGAACTCAAGAAGGCCCTGGAAGGCACGGATGACGCCGCCGTGAAGACTGCTTTCGAGAAGCTGCAGGCTTCCCAGGGCAAGCTCGGCGAAGCCATCTACGCGCAGGCCGGGTCGCCTAACGGCGCCACCGGAGCCGCAGGTGCCGAAGGCGCCGCGGGTGCGGATGAAAAGGCTGCTGACGAAGACATCGTTGACGCCGAAATCATCGACGAAGACGAAGCGAAGAAGTAG	MSRAVGIDLGTTNSVVSVLEGGEPTVIANAEGGRTTPSVVAFSKSGEVLVGEIAKRQAVNNIDRTIASVKRHMGTDWSVSVDDKKYTAQEISARILMKLKNDAESYLGEKVTDAVVTVPAYFNDAQRQATKEAGEIAGLNVLRIVNEPTAAALAYGLDKGKEDELILVFDLGGGTFDVSLLEVGKDEDNFSTIQVRATAGDNHLGGDDWDQRVVDYLLKQLKVKGIDLSKDKIALQRLREASEQAKKELSSSTSTNVSLQYLSVTPDGPVHLDEQLTRAKFQDLTKDLLDRTKKPFQDVIKEAGIKLSEIDHIVLVGGSTRMPAVYELVKEMAGGKEPNKGVNPDEVVAVGAALQAGVLKGERKDVLLIDVTPLSLGIETKGGVMTHLIERNTAIPTKRSETFTTADDNQPSVAIQVFQGEREFTRDNKPLGTFELTGIAPAPRGVPQVEVTFDIDANGIVHVSAKDKGTGKEQSMTITGGTALSKEDIDRMVRDAEEHAAEDKARREATDTRNTAEQLAYSVDKLIADNSDKLPEEVKTEVQADVDELKKALEGTDDAAVKTAFEKLQASQGKLGEAIYAQAGSPNGATGAAGAEGAAGADEKAADEDIVDAEIIDEDEAKK	PGPT0014555_4640	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
D1-29_04386	267			hypothetical protein	ATGACCGAGAACAATGATCTCGAAAACGCAGGGATAGACGACGAGAACGCTCCGGCCGCTGTGGAAGAGGGCGAGGGCGAATACCTTGAAGGCGACTATCGCCGTGCCGGCGCCGTTGACCCCGACGCGCACGTCGGTGAAGGCGAATACGCCCAGGGCGACTACGGCCGGGCCGGCACGGCGGGCGCCGGCGAAAGGCCGGACATTTCCGAAGCGGACGCCGCAGGGGAAGACCGCACTCTCCGCGGCGACAGTGAAGGTACCTAG	MTENNDLENAGIDDENAPAAVEEGEGEYLEGDYRRAGAVDPDAHVGEGEYAQGDYGRAGTAGAGERPDISEADAAGEDRTLRGDSEGT				NA	NA	NA	NA	NA
D1-29_04387	900	araQ_16	COG0395	L-arabinose transport system permease protein AraQ	ATGGCCACCACTACCCTCACACGGCCCGCCCTGCGTCTTAAGGGCTCAGACGCCGGCTTCTCCGCCCGCCGGAAGCGGACTCCGTTGTCCCGCGTCCTTGCCACCGCCGTTGTTACGGTCCTTGCCGTCACGTGGCTCGTCCCCTTCGCCTGGGCAACGGTCACCGCGCTCAAGAGCGAAACAGAAGCCGCGTCCACCCCCATCAGCTGGCTGCCGGCGTCGGGCTTTACGCTGGATGCCTTTACCAAAGTCCTGGCGAGCGGAAACATCCCCACCTGGACGCTGAATTCCCTCTTCACATCGGCGGCCATCACCCTCATCACCCTGGTGATTTCCGCATCAGTGGCCTACGCCATTTCGCGGATCGATTTCCGCGGCAAAGGGATCCTGATGGGCGTTATTATCGCGTCCATCATCATCCCGCCGCCGGTGCTGATTATCCCGCTGTTCCAGCAGATGCAGTCCCTGAACCTTATTGATACCTACTGGGCCCTGATCCTGCCGCAGGTGATCCATTCCCCCATGGTGTTTGTGCTGAAGAAATTCTTCGACCAGATTCCGCGGGAACTGGAGGAAGCGGCACTGATGGACGGTGCGGGCAGGCTGCGGATTTTTACCACGATCGTGCTTCCACTATCCCGTCCGATCCTCGCCGCAGTGGCCATCTTTGTGTTCATCGGGGCGTGGAACAACTTCCTCTGGCCGTTCATCGCCACCAACGAGAGCTCCCTGCTCACCCTGCCGGTTGGCCTGCAGACCATCAAGAGCGCCTACGGCATCCAGTACGCACAGAACATGGCCTCCGCGTTGCTCGCAGCGCTGCCCCTGATCGTGGTGTTCCTGTTCTTCCAGCGGCAGATCATCAAGGGTGTTGCCACTACCGGCCTGGCAGGAACGTAA	MATTTLTRPALRLKGSDAGFSARRKRTPLSRVLATAVVTVLAVTWLVPFAWATVTALKSETEAASTPISWLPASGFTLDAFTKVLASGNIPTWTLNSLFTSAAITLITLVISASVAYAISRIDFRGKGILMGVIIASIIIPPPVLIIPLFQQMQSLNLIDTYWALILPQVIHSPMVFVLKKFFDQIPRELEEAALMDGAGRLRIFTTIVLPLSRPILAAVAIFVFIGAWNNFLWPFIATNESSLLTLPVGLQTIKSAYGIQYAQNMASALLAALPLIVVFLFFQRQIIKGVATTGLAGT	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
D1-29_04388	1020	lacF_15		Lactose transport system permease protein LacF	TTGAGTACCGTACGCACGCCGGCTTCAGCCGGAGAAAACCGGGCCGGACAAAGCCCTGCCCAACACACCGCTGCCATCGAAACCTTGGCCGCCGAAACCCACGCCCGAAAGGCAGGTTCCGGGCAGCCTTCCCCAGCCAGGCTGGCCGGCGCCCAGAGCCGGCGCAACAATATCCACGGCTGGGCGTTTTCCGCCCCTTTCCTGGCCTTCTTCCTGATGTTCCTGGTGTGGCCGATGCTTTCCGGCGCCTACATGAGCATGACCGGAACGTCCCTGACCGGCGCCAACACAGGATTTATCGGCCTGGAGAACTACACGGAGGCGTTCGCGGATTCCGACATGTGGCGCTCGCTGGGCAACACGCTGTACTTCACCCTGATCAGCACTGTCCCGCTGGTGGTGATTGCCCTGGCGCTGGCAGCCCTGGTCAACATGGGGCTGCCTGCACAGTGGCTGTGGCGCCTGTCCTTTTTCTCACCCTTCCTGCTCGCCTCCACCGTGGTCTCGCTCTTCTTTGCCTGGATGTACAACCCGGAGCTGGGACTCTTCAATGATGTCCTGGCGAAAATGGGCCTGCCGCCGGTGGCTTGGCTGAACGATCCAGGTGTGGCCATGTGGGCAATCGTGATCGCCACGGTCTGGTGGACCATAGGGTTCAACTTCCTGCTGTACCTGGCCGCGCTGCAGAACATTCCGCAGCAGCATTACGAGGCCGCGTCGCTGGACGGTGCGGGAGGGTGGCGCCAGTTCTTCTCCATCAGCCTTCCCCAGCTGGGCCCCACCACGGTCATGATCGTCATCCTGCAGATCCTGGCGTCCCTGAAGATCTTCGACCAGATCTACCAGATGACCCAAGGCGGTCCCGGCGGGGCCACCCGGCCGATTGTGCAGTACATCTTCGAGGCCGGCTTCACCGGCTACCGGCTGGGCTATTCGGCGGCCATTTCCTATATCTTCTTCGGCCTGATCCTGCTCATCGCACTGGTCCAGGTCTTTTTCACACGGAAACGGAGCGCCTGA	MSTVRTPASAGENRAGQSPAQHTAAIETLAAETHARKAGSGQPSPARLAGAQSRRNNIHGWAFSAPFLAFFLMFLVWPMLSGAYMSMTGTSLTGANTGFIGLENYTEAFADSDMWRSLGNTLYFTLISTVPLVVIALALAALVNMGLPAQWLWRLSFFSPFLLASTVVSLFFAWMYNPELGLFNDVLAKMGLPPVAWLNDPGVAMWAIVIATVWWTIGFNFLLYLAALQNIPQQHYEAASLDGAGGWRQFFSISLPQLGPTTVMIVILQILASLKIFDQIYQMTQGGPGGATRPIVQYIFEAGFTGYRLGYSAAISYIFFGLILLIALVQVFFTRKRSA	PGPT0016535_5850	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
D1-29_04389	1308			hypothetical protein	ATGCACATGAACCGCCGGCAGGTGCTGATGGGCGGTGGGGCGTTGTTGGGGGGATTGGCCCTGGGGGCGGGGGTGACCGGATGCGGGGGGCCCGTGCAGGCTGCTACCGGTGATATCCGCTTCTGGCACCTGCTCTCCGGCGGCGACGGCATCAAGATGCAGGCCATGATCGATTCGGCCAACGCCCAGCACCGGGCGTTCAACGTCAAACCCACGGTGCTCGCGTGGGGTGCGCCGTACTACACAAAACTTGCCATGGCCTCGGCGGGTGGGCGGCCGCCCGAGGTGGCCGTGATGCACGCGGCCAGGGTTCCCGGCTACGCCCCGGGCGGACTCCTGGATGCCTGGGACCTGGACCTGCTGGCGGAGTTCGGAGTCCGGCCGGAGGATTTCAGCCCCAGGATCTGGGAGAAGAGCCAGTTTGGTGGCCAGGTGTTTTCGCTGGCACTGGACTCCCACCCCTTTGTGATGCTCTACAACACCGAGGTAGCCGACAAGGCCGGAGTGCTGGGGCAGGACGGGCGGCTGCTGGAGATCAGCTCACCTGACCGCTTCTTGGAGGTCAGCCGGGAACTGCAGCGCGTCACAGGAAAACACGGGCTCTCCTACGGCTACCTTGGCGACGGCGCCCAGATGTGGCGCCTCTTCTACACCCTCTACCGGCAGCACGGCGCAGACCTGGTGCTGGACCCGGGCCAGCCGGCCAGAGTGGAGCGGGATGTGGCCATCGACTGCCTGGAGTTCATCACCACCCTGCTTGACAACACCATCGCCACCAAAAGCGGCGACGGCGGGACTGCCATCGCGGAGTTCGCGGGCCAGGGTTCGGGCCTGCTTTTTACCGGCGTCTGGGAGCTGCCCACCATGAAGACGGCGGGGGTTCCCCTGGGTGCGGCCACCATTCCCACCCTGTACGGGACGCCGGCCGCGTTCGCTGATTCGCATTCGTTTGTGCTGCCGCACCAGGCACAGGCTGACGAGGCCAAACGCCGCGGCGTGTACCAGTTTGTGGCGTCCATGCTCAAGGGCTCACTCAGCTGGGCCGAGGCCGGACACATCCCGGCCTTCCAGCCGGTGGTCCGCTCAGCGGAATACGCGGCACTCGATCCGCAGGCCGACTACGCCCACGCCGCGGAGATCATCAACTACGATCCGGAAGCCTGGTTTACCGGATCGGGTTCCGACTTCCAGAGCTACTTTGCCGAGAACGTCCAGAACGTGTTCCTGGGCAGGGACAAGGCCACGGCCGGCTGGGATGCCTTCATCTCCCGGATTAATACCGTCCTGGCCATGCCGAACCCCGTCTGA	MHMNRRQVLMGGGALLGGLALGAGVTGCGGPVQAATGDIRFWHLLSGGDGIKMQAMIDSANAQHRAFNVKPTVLAWGAPYYTKLAMASAGGRPPEVAVMHAARVPGYAPGGLLDAWDLDLLAEFGVRPEDFSPRIWEKSQFGGQVFSLALDSHPFVMLYNTEVADKAGVLGQDGRLLEISSPDRFLEVSRELQRVTGKHGLSYGYLGDGAQMWRLFYTLYRQHGADLVLDPGQPARVERDVAIDCLEFITTLLDNTIATKSGDGGTAIAEFAGQGSGLLFTGVWELPTMKTAGVPLGAATIPTLYGTPAAFADSHSFVLPHQAQADEAKRRGVYQFVASMLKGSLSWAEAGHIPAFQPVVRSAEYAALDPQADYAHAAEIINYDPEAWFTGSGSDFQSYFAENVQNVFLGRDKATAGWDAFISRINTVLAMPNPV	PGPT0016545_4096	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
D1-29_04390	2244	apeX	COG2409	Apo-petrobactin exporter	ATGGTGGAGATACTCTATTATGGAATCAATTCTACTCTCCGCAACCTTCGAGGGAACATGCCATCACATCCTGTACGTCGTCCCCGGGTGCCATTCCTGCTGCGCTGGCTCATTCCGGTCCTCCTGGTGCTGACCTGGCTCGCCGTCGCCGGTGTTGGCGGTCCAACGTTCGGCCGGCTGGAAGAGGTGTCCTCCAACGACCAGGCATCGTTTCTTCCGGCCGGCGCTGAAGCCACCGAGGCCCAGGACTGGCAGGCGAAGTTCCGCGACTCCAATGAAATTCCCGCCGTCATCGTCATCGAAAATGACGCTGCCTTTTCTCCGGCGCAGCTTGGACAGGCCGGGGCGGTCAAGGCGGACCTTGAGGCACTCCAGCTGGGCAGCGCCGTGATTGGTCCCATCCCTTCCGCGGATGGAAAGGCTGTGCAATTCATCGCTCCCATCTCCTCGTCGGATGAGCTCAAGGAGGGCGTTCAGGAACTGCGGGATACGCTGGCGGACGCCGCGCCTGAAGGCATGCAGGCCTACGTCACCGGCCCGGCAGGCCTGACCGCCGATCTGGTCAGCGCCTTTGCGGGCATCGACGGAATCCTGCTGCTGGTGGCCCTGGGCGCGGTCTTTGTGATCCTGCTGGTGGTGTACCGGTCCCTCCTGCTCCCCCTGGTGGTGCTGCTGACGTCAGTGTTCGCGCTGTGCGCCGCCATCCTGCTGGTGTTCGGCATGGCCAAGCTGGGGTGGATCCAGCTCAATGGCCAAAGCCAGGGCATCCTGTCCATCCTGGTGATTGGTGCGGCCACCGACTACGCGCTGCTTTACGTTGCCCGGTTCCGCGAAGCCCTCACCCACACCACCGACCGGACGGCGGCTGTGCTGACGGCGTGGAAAGCGTCGGTTGAACCGATCGTGGCCTCGGGCGCGACGGTGATTATTGCCCTGCTGTGCCTGCTGTTCTCCGACCTGAACTCGAACAAGGCCCTGGGCCCGGTGGCCGCGGCGGGCATCCTGTGCTCGCTGTTTGCGGCGCTTACATTGCTGCCCGCGCTGATGGCGCTCCTGGGCAGGGCATCCTTCTGGCCCTTCGTGCCGAAGCTTGTCCCCGCGGATGAACGCGAACCGGAACTCGTCACCGGTCTTGAGGGGCAAAAGGGCATCTGGCGGGCCACCGGATCGCTTGTCTCGCGCAGGCCGCGCATGGTCTGGATCGGATCGGTGCTCCTGCTCCTGGCAGCCTCGGCCGGCCTCCTGCAGCTGAAGGCGAACGGGGTGCCGCAGACCGACGTCATCCTCACCGCCTCCAACGCAGTGGACGGCCAGGACGCGCTGGCGCGGCACTTCGACGCCGGGAGCGGCAGCCCCGCCGTCGTGGTTGCGGACGAAGGCAAGGCAGCGCAGGTGCTGGAGACGGTCAGGGCGGCCGACGGCGTCGGGGAAGCCTATCTCCTGGCCGCGGGAAGCGTACCCATCACCGGAGCCCCCGGTGCTCCCGCTGTCCCCGACGTGCGGGAAGGGAAAGTGCTGATCAACGCAACGCTCGACTACGCGCCGGACTCCGGGGACGCCGAGAATGCCGTGAAGGCGTTGCGCGACCAGGTGAAAACAGTTGACCCCGATGCGCTGGTGGGAGGCGTCACTGCGACGGCCCTGGACACCAACACCACCGCCCAGCGTGACCTGGTAATCATCATTCCGGTGGTGCTGGCGGTCATCCTGGTCATCCTGATGCTGCTGCTGAGGTCGGTGGTTGCCCCGGTCCTGCTGGTACTTTCGGTGGTCCTTTCCTACGGCGCGGCCATGGGCGTATCGGCGCTGGTCTTCAACAACCTGCTCGGATTCCCCGGCGCGGACGCCACCGTGCCGCTGTTCGGGTTTGTGTTTTTGGTGGCCCTGGGAGTGGACTACAACATCTTCCTGATGAGCCGGGTGCGGGAGGAGTCGCTCAAGCACGGGACCCGGCCCGGCATCCTGCGCAGCCTGGGCGTCACCGGCGGGGTGATCACGTCAGCGGGAGTGGTGCTGGCCGCCACGTTTGCGGCGCTTGGCGTCATTCCCATCATGTTCCTGGTGCAGCTGGCGTTCATTGTGGCGTTCGGCGTGCTGCTGGACACCATGCTGGTGCGCTCGCTGCTGGTCCCGGCCCTGGCGTACCACATCGGGCCCCGCATTTGGTGGCCGGGGAAGCTGGGGAAGCCGGAGCTGGACGCCGCCGAAACGGGGGAGCCGGCGTCACGCCACGCCCTCATTTGA	MVEILYYGINSTLRNLRGNMPSHPVRRPRVPFLLRWLIPVLLVLTWLAVAGVGGPTFGRLEEVSSNDQASFLPAGAEATEAQDWQAKFRDSNEIPAVIVIENDAAFSPAQLGQAGAVKADLEALQLGSAVIGPIPSADGKAVQFIAPISSSDELKEGVQELRDTLADAAPEGMQAYVTGPAGLTADLVSAFAGIDGILLLVALGAVFVILLVVYRSLLLPLVVLLTSVFALCAAILLVFGMAKLGWIQLNGQSQGILSILVIGAATDYALLYVARFREALTHTTDRTAAVLTAWKASVEPIVASGATVIIALLCLLFSDLNSNKALGPVAAAGILCSLFAALTLLPALMALLGRASFWPFVPKLVPADEREPELVTGLEGQKGIWRATGSLVSRRPRMVWIGSVLLLLAASAGLLQLKANGVPQTDVILTASNAVDGQDALARHFDAGSGSPAVVVADEGKAAQVLETVRAADGVGEAYLLAAGSVPITGAPGAPAVPDVREGKVLINATLDYAPDSGDAENAVKALRDQVKTVDPDALVGGVTATALDTNTTAQRDLVIIIPVVLAVILVILMLLLRSVVAPVLLVLSVVLSYGAAMGVSALVFNNLLGFPGADATVPLFGFVFLVALGVDYNIFLMSRVREESLKHGTRPGILRSLGVTGGVITSAGVVLAATFAALGVIPIMFLVQLAFIVAFGVLLDTMLVRSLLVPALAYHIGPRIWWPGKLGKPELDAAETGEPASRHALI				NA	NA	NA	NA	NA
D1-29_04391	519			hypothetical protein	ATGGCAGAGGAAGTGTTCCAGCGCCCGCCAAATGCCGGACCCCAGGCACTGGTCCGACTCCTCCAGGACTTCACCCTCGAGGCAAACCGCTACGTGGACACAGCCGGCGGCCGGAACGACATGCACCGCACTGACCTCAATGCATTGGCCGTGATTATGCGCCACACCGCCAAGGGGCTGGTGGTCACGCCGGGCGTACTGCGCAGGGAACTCAACCTCAGCTCCCCCGCCACCACGGCGTTGATAGACCGGCTGGACAGTTCCGGACACGTGGTCCGCGAACGGCTCGGCTCGGACCGCCGCCAGGTCCAGCTCCGGATGACGCCCAAGGCTTTCCAGGACGGCAGCGCGATGTTTATGCCCCTGTCGCGGCACATGGGCACTGCCATGGCGGCCTTTTCTGCCGAGGAATTGGAAACCGTCTCGCGTTTTATGACCGCCATGGTGGAGGCCACCATCGCCGCCCGGCAGGAGGCTTCCGGAACAGCGTCCGACGCCGGCTCCTCCCCAGCCGGCTGA	MAEEVFQRPPNAGPQALVRLLQDFTLEANRYVDTAGGRNDMHRTDLNALAVIMRHTAKGLVVTPGVLRRELNLSSPATTALIDRLDSSGHVVRERLGSDRRQVQLRMTPKAFQDGSAMFMPLSRHMGTAMAAFSAEELETVSRFMTAMVEATIAARQEASGTASDAGSSPAG				NA	NA	NA	NA	NA
D1-29_04392	819	COQ5_3		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGAGTGCGCAAGAGCCTGAAGACGACGTCTACACCCACGGCCACCACGAGTCTGTGGTCCGCGCCCACGCCGCCCGTACGGCCGAGAATTCCGCCGCGTTTGTCCTTCCGCACCTGACCCCTGGCGTGAGTGTGCTCGACGTCGGCTGCGGACCGGGCAGCATCACCTGCGACTTCGCCGTCCTGGTGTCACCCGGCAAGGTAACAGGGCTGGACCGGTCCCCTGACATCATCGCCCAGGCCACAGCCCTCGCCGCCGAGCGGGGCGTGGACAATGTGGAGTTCCTCGCAGGCAACATCTATGATCTCGATTTTGAGGATGAAACCTTCGATCTGGTCCACGCACACCAGGTTCTCCAGCATCTGACCGATCCGGTGGAGGCGCTGCGGGAAATGCGGCGCGTCGCGAAGCCCGGCGGTATCGTGGCTGTCCGCGACGCCGATTTCCACGGCATGAGCTGGTACCCGGCCATCCCCGAACTGGATGAGTGGATGGACCTGTACCAGCGGATCGCCCGGCGCAACGGAGCGGAGCCCGACGCCGGACGCCGCCTGGTCTCCTGGGCACAGTCCGCAGGGTTTACTGACGTTGCACCCACCAGCAGCAACTGGCTCTATGCCACAGGCCAACAGCGGCGATGGCAGGCCCGTGTGTGGAGCGAACGGGTGCTGCACTCCGCCTTTGCAGAGCAGGCTCTGGAGTACGGCTTCGCCAACCCCGCGGACCTGGCGCGGATTTCAGCAGGCTGGCACCGCTGGGGGTCCACGGACGACGGCTGGTTCCTGATCCCCAACGGGGAAATCATCGCGAGGGCTTAA	MSAQEPEDDVYTHGHHESVVRAHAARTAENSAAFVLPHLTPGVSVLDVGCGPGSITCDFAVLVSPGKVTGLDRSPDIIAQATALAAERGVDNVEFLAGNIYDLDFEDETFDLVHAHQVLQHLTDPVEALREMRRVAKPGGIVAVRDADFHGMSWYPAIPELDEWMDLYQRIARRNGAEPDAGRRLVSWAQSAGFTDVAPTSSNWLYATGQQRRWQARVWSERVLHSAFAEQALEYGFANPADLARISAGWHRWGSTDDGWFLIPNGEIIARA				NA	NA	NA	NA	NA
D1-29_04393	624	rhtB_2	COG1280	Homoserine/homoserine lactone efflux protein	GTGCAACTCTCCCTCTGGCTGGCTCTCGCCGGTACTGGCGCCCTGATCAGCTTCACTCCCGGTGCAGGCGCCATCAACACCATGAGCAATTCGCTGAGAGCGGGCTTCCGGCGCTCCATCTGGGGGATCCTCGGCCAGCAGGCGGCGCTGGTGATCCATGTGGTCATCGTTGCCCTGGGAGTGGGAGTCCTCGTCGCCAGTTCCCCGGTTGCCTTTAACGCCATCCGCTATTTGGGTGCCGCCTACCTGGTCTACCTGGGCATCCGGCAGTTCCTGAGCAAGCCGGGCCTGGACCAGGAGCAGGCTGTGGCCCTCCGGAACGAGCCGGCCTGGTCCATGTTCCGGCGGGGCCTCTGGGTGAATCTGCTCAATCCCAAGGCCGTGGTTTTCTTCCTGGCGTTCATGCCGCAGTTCATCCGCCCGGGGCAGCCACTGCTGGCGCAGTACGCCGTCCTCACGGCCACTGTTGTGGTGATCGACATCCTGGTCATGTGGTTCTTCTTTGCCCTCGCCGCCAAATCCTTCCAGCGGTTCACCCACGATGTCCGGGGACAGCTCATCCTCAACCGGATTTTCGGGGTCCTCTTCGTCGCGGTGGGAGTCCTGCTCGCCCTCATTCACTAG	MQLSLWLALAGTGALISFTPGAGAINTMSNSLRAGFRRSIWGILGQQAALVIHVVIVALGVGVLVASSPVAFNAIRYLGAAYLVYLGIRQFLSKPGLDQEQAVALRNEPAWSMFRRGLWVNLLNPKAVVFFLAFMPQFIRPGQPLLAQYAVLTATVVVIDILVMWFFFALAAKSFQRFTHDVRGQLILNRIFGVLFVAVGVLLALIH	PGPT0021036_675	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
D1-29_04394	552	ptpA	COG0394	putative low molecular weight protein-tyrosine-phosphatase	ATGCTTAGCTCCATGAACTCACCGTCGAGCCCATACCGGATCATTGCCGTGTGCACCGGAAACATCTGCCGGTCCCCCATGGCCGAACTGATGTTGGCCGCGGCCCTTGCTGCGGATGGGCTGGACGGCGTAGTGGAGGTGGACTCGGCCGGAACCACGGGCTATGAGGCCGGACGCCCCATCGATCCCAGGGCGGCACGGCGGCTGACCGCCACCAGGCTCGCGTCAGACCGGCACCTCGCCAGGGAATGGCGGGCCGACTGGTTCAGGGAACGGGATCTCATCCTGGCTTTGGATGTGGACCACTACGCCTGGCTGCGGGAATCGGCACCGGACCAGGAGTCCATGGACAAGGTGCGGATGTTCCGCAGCTTTGACCCTGCCATCGCCTCCAAGGACCTGCTGGACCAGGGCATCGAAGACCCCTGGTACGGCGGACAGTCCGATTTTGACGCCGTCTGGCACCAGATCAACGCTGCCGTGCCGGGGATCATCCGGCACGTCCGGGCAGCCCTCCGGGAATCCAGGCAGCTTCAGCCGCAGCAACAGTAG	MLSSMNSPSSPYRIIAVCTGNICRSPMAELMLAAALAADGLDGVVEVDSAGTTGYEAGRPIDPRAARRLTATRLASDRHLAREWRADWFRERDLILALDVDHYAWLRESAPDQESMDKVRMFRSFDPAIASKDLLDQGIEDPWYGGQSDFDAVWHQINAAVPGIIRHVRAALRESRQLQPQQQ	PGPT0014530_3981	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
D1-29_04395	1116			hypothetical protein	ATGCATCTCACTGTTGTCAGTTCGATCGATTCCCTGTGCCGGCAGCAGGCGTGCCAGGACCTGGCCGCCAGCCACCCTGAAAGTGTGGTGGTCCTGCATGACCTGCTCGAGAACGGCGTGGTCATTCGGCGGGTCTTCAGCGCAGACCAGCTTCTGGAACGGGTAGAGACGCAGCTCGAGCACGGATGCCTGAGCTGCACGGTACGCCTGGACCTGGTCCCCACCATCGAGGGGCTGCTCTCCGCCGGTGCCACCCGCATCATTGTTGGCCTCCCCTCCGCCGTGCCTGCCGCCGCCGCGATTGCCGCCCTTGACCGTGGGCTGTCCAGTCCCTTCACCATTGATTCGGCCGTCCTGGCCTGTGCCCCGGACGCCCTGGAAGACCACATCTGGGACCACCACACGCTGTTCGAGTCCGGTTTCACGCCCATCCATGAAGACCAGCGCACTCCCGGGGAGTTTCTCCTCGGCGAACTGTGCTTCAACGACACTGTCCTCCTGGCAGCACCGGACATCGTTCCGGCCGACCAGCAAGGACACGAGAGGGGCGTTCACCTGATCCGCGAACTTGCCCCGCACGCCCACGTGGCGCCGGGTGCCACCGATGTACGCCCTGGCCTCCACCACTACGCCGACGCCGTTGCCCGGACGGTTCCCGGGACCGTCCATGATCCGGCTTCCTGCGCAACCGTGCCGGCCTCGCCGTTCGCCACCGTTTTCCAAAGCGTGGAGCGCCCGCTGCACCCGGAGCGGTTCCGGCACGCCCTGGCAACCCTCGCCGAAGGCTGCTGCGTTCTGCGCGGCCGGTTATGGATCGCCTCGGCGCCTGAATGCCGGATCGCCATCCAGGGCATCGGGCCACGCGTCTGGCTCGAAAACACCGGCGCCTGGGGCACCCAGACAGGAGCGCCGCCGTCGGGCTCCAGCGCCGCAACCGCTGCCAGATGCAACCGGCAGCCGGAATGCCGGGGGACCGTGCTGGCAGCAACCGGCGAGGACGTTGACTCGGCGGAGATCGAACAGCTGCTGAGGGGCTGCGAACTGACCGACGCGGAGATGCTCGCCGGCTTTGACGGCCTGCATGACCCGTTTGGCCTGAATTCCGAAGAAGCCTAG	MHLTVVSSIDSLCRQQACQDLAASHPESVVVLHDLLENGVVIRRVFSADQLLERVETQLEHGCLSCTVRLDLVPTIEGLLSAGATRIIVGLPSAVPAAAAIAALDRGLSSPFTIDSAVLACAPDALEDHIWDHHTLFESGFTPIHEDQRTPGEFLLGELCFNDTVLLAAPDIVPADQQGHERGVHLIRELAPHAHVAPGATDVRPGLHHYADAVARTVPGTVHDPASCATVPASPFATVFQSVERPLHPERFRHALATLAEGCCVLRGRLWIASAPECRIAIQGIGPRVWLENTGAWGTQTGAPPSGSSAATAARCNRQPECRGTVLAATGEDVDSAEIEQLLRGCELTDAEMLAGFDGLHDPFGLNSEEA				NA	NA	NA	NA	NA
D1-29_04396	123			hypothetical protein	ATGAAGGTACGGAATTCCCTGCGGGCACTGAAAAAGATGCCGGGAGCGCAGGTGGTGCGCCGTCGCGGCAGGACGTTTGTCATCAACAAGAAGAACCCCCGGATGAAGGCCCGGCAGGGCTGA	MKVRNSLRALKKMPGAQVVRRRGRTFVINKKNPRMKARQG				NA	NA	NA	NA	NA
D1-29_04397	2103	menF_3		Isochorismate synthase MenF	ATGACCCCCGCACCTGTGATCATCGCCATCGACGGGCGGTCCGGCGCAGGAAAGACCACATTGGCCATCGAACTGGCCGCACGCCTCAGGAACCATCACAAGGTTTCGCTGTTCCACCTCGAGGACATCTACCCAGGGTGGAACGGCCTGAGGGCTGGTGTGGAGCGCTACGTTTCAACCGTGCTCACGCCCCTGAGCCGCGGAGAACAAGCTACGTGGATCAGCTGGGACTGGGAAAAACACTACGACGGCGACACCCGGGTCACGCTGCCCGCGGAGATTGTCATCATTGAGGGCGTGGGAGCGGCCGCCGCCGAAGCGCGCCCGCTGCTCAGTGCCGTTATTTGGGCCGACTCCCCGACGGACGTCCGCCGGTCGCGCGCCCTGGACCGGGACGGCGGCACCTACGAGCCGTTCTGGGACGAGTGGGCTGCGCAGGAGGACGACTGGCTCGCCGGGGATGACGTCCCCGGGCAGGCGGACCTTCGCGTGCTCAATCCGGCAGACGGGTCCGCCCCCGCCGATGTCCTGCAGCTCCTCCCCTGCCTCCCCGCCCTGGCGCAGGTCCTGGTGCCCGAACTTTTCACCCGCCGCGGCCACAGGCTCCGGGCCGAGCGCCTTCACTCCAGCCCGGACGCCGCAACCCTCTTTAGCAAGCTCTACGGAAGCTCTCCGAATGCCGTCTGGCTGGACTCCTCCAATGCACCGTCCGCTCACGGGGCTGAGAAGTCCCCTGCCACGGAACGCAGCCGCTTCAGCATCCTGGCAGACGACGGCGGGACGTTCGGCCAGGCCCTTACCCACCGTTCCGGCGAGAGCCTGATAACCGCCGGCTGCGCTACCGCCAAGGTGGCAGGCCCGTTCTTCCGCTGGCTCGACACCGCCTGGGGCGGCAGCACCGTCCGGGCACCCGAGGGCTACCCCGGCGAATTTACGCTGGGCTGGCTCGGCTGCCTGGGTTATGAGCTCAAGCGCGAAACCGGGGGAAGCGACGTTTTCGCCCCCACCCCGGATGCCGCGCTGATCTTCGCCGGCCGGGCCGTGGTCCTGGACCATGCGGAGGAAACGGCGTGGCTCCTGGCGCTCGAGTCGCCGGACGCTGACGAGTGGCTGGCGGGCGCCCGGCTGGCGGTAACAGAAGCAGCCCCAGCCGGTCCGGGGACGGCGCACGACGCCGGGAGCAACGCCGTCGTACGTTCCGCGCCGCTGGCGCCTCCAACGCTGCCGGCGTTCAGCAGCCGCGACAGCGAACTGGCCTACAAGCACAAGATCGCCGCGGCGCAGCACGAAATCGGTGAAGGAAATTCCTACGAGGTGTGCCTCACCACCACCCTCACGGCCCTGGTTCCGGCCGAATCGCTGTCACCGTGGGAGGCCTACCTGGCGCTGCGGCGCCAGAACCCGGCACCCTTTGGCAGCTATCTCCGATTCGGCCCGCTGACCGTTGCCAGCACCTCGCCTGAGCGGTTCCTGAAGATAGCCTCCGACGGCGGCATGCGTGCCGAGCCGATCAAGGGCACCCGCCGCCGGGCTGCGGATCCGGTCCGGGACGCCGAGCTGCGGCGGGAGCTGGCCACCTCGCTCAAGGACCGCGCCGAGAACATCATGATCGTGGACCTGCTGCGGAACGATCTGAGCCACTTCGCGGAGCCGGGATCGGTCACCGTCAGCCGGCTGTGCGAGATTGAAAGCTACGCCACGGTGCATCAGATGGTGAGCACCATCGATGCCCGGCTGCTGCCAGGCTCGCCCCGGGCCGAGGCCGTGGCCGCGTGTTTCCCGGCGGGGTCCATGACGGGGGCGCCCAAGATCAGCACCATGGCCATCCTGGACCGGCTGGAGGGGGAGCCGCGCGGGATCTATTCCGGCGCCATCGGCTACTTCTCGCTCAACGGCGCCACGGACCTGGCAGTGGCCATCCGCACCCTGGTGATCAGGGCTGATGCCGGGGACGGCAACGACGGTAAGGCAACGGCCGAACTGACCCTCGGCGTCGGCGGTGCCATCACCTCCGACTCGGCGCCGGACGAGGAGTATGAGGAGATCCGGGTCAAGGCCTTCGGTGTGCTCTCGGCTCTGGGGGCCGTGTTTCCGGACTCCTGA	MTPAPVIIAIDGRSGAGKTTLAIELAARLRNHHKVSLFHLEDIYPGWNGLRAGVERYVSTVLTPLSRGEQATWISWDWEKHYDGDTRVTLPAEIVIIEGVGAAAAEARPLLSAVIWADSPTDVRRSRALDRDGGTYEPFWDEWAAQEDDWLAGDDVPGQADLRVLNPADGSAPADVLQLLPCLPALAQVLVPELFTRRGHRLRAERLHSSPDAATLFSKLYGSSPNAVWLDSSNAPSAHGAEKSPATERSRFSILADDGGTFGQALTHRSGESLITAGCATAKVAGPFFRWLDTAWGGSTVRAPEGYPGEFTLGWLGCLGYELKRETGGSDVFAPTPDAALIFAGRAVVLDHAEETAWLLALESPDADEWLAGARLAVTEAAPAGPGTAHDAGSNAVVRSAPLAPPTLPAFSSRDSELAYKHKIAAAQHEIGEGNSYEVCLTTTLTALVPAESLSPWEAYLALRRQNPAPFGSYLRFGPLTVASTSPERFLKIASDGGMRAEPIKGTRRRAADPVRDAELRRELATSLKDRAENIMIVDLLRNDLSHFAEPGSVTVSRLCEIESYATVHQMVSTIDARLLPGSPRAEAVAACFPAGSMTGAPKISTMAILDRLEGEPRGIYSGAIGYFSLNGATDLAVAIRTLVIRADAGDGNDGKATAELTLGVGGAITSDSAPDEEYEEIRVKAFGVLSALGAVFPDS	PGPT0008010_344	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008010-pabAB-K13950	NA	NA
D1-29_04398	1476	clsA	COG1502	Cardiolipin synthase A	GTGTTGTGGCCGTTGTCGCTTGCGGGTACCTCGCCCACGTGGCTTGTGGTGCTGCTGAGCGTTGCGGACCTGGCCATCAGGGTGCTGGCAGTGGGCATCATCCCCGGCAACAGGCGCCCCACGACGGCCATGGCCTGGCTGCTGGTCATCTTCTTTGTGCCCTTCGTGGGCCTGGTGCTCTTTCTGCTGTTCGGCAACTTCAAGCTCTCCAGCCGTCGGCGGCAGCAGCAGGAACAAGTCAATGACAGGGTGCGCGCGGGCATCTCCTCCCTCGCCGACGTCGAAAGCCACTACCCCGGGCCGGAATGGGTGACGTCCGCCGCGGAACTGAACCGGCGGCTTGGCTCGCTCCCCATGGTGGACGGCAATTCCGTTGAGCTCCTCCCCGGCTACCCGGATTCGATCCTGGCCATGACCCAGGCCGTCCGGAAAGCGAAGAAGTTCGTCAACGCCGAGTTCTACATCATGAGCACCGACCACATCACCGATGACCTGCTCACGGCTCTGGAAGAGGCCACCGAACGAGGCGTCGAAGTCCGGGTCCTGTTCGACCACATCGGCACCCTCCGGATCAAGGGCTACCGTGACCTGCTCAAGCGGCTCAGGGCCGGCAAGATCCAATGGAAGCGCATGCTCCCGCTGCTGCCCATTCATGGCCAGTGGCGCCGGCCGGACCTGCGCAACCACCGCAAGATCATGGTGATCGACGGCGAGCTGGCCTTTACGGGATCCCAGAACCTGATCGAGCCCTCCTACAACAACCCCAGGCACCGCAAAGCCGGCCGCGAATGGGTGGAACTGATGGCCTGCCTGCGGGGCCCCATCGTGACCACCCTCAACGTGGTTTTCGCCACCGACTGGCTCAGCGAAACCGACGAATCCTTGGAGCACCAGCTTCAGCTTCCGTCCAACCCCGAGCCCGGCAAAGTGACGGCGCAGGTGGTACCCAGCGGTCCCGGGTTCATCACCGAAAACAACCTGCGGCTGTTTAACACCCTGATCTACTCGGCCCAGCACCGCATCTCCATCTGCAGCCCCTACTTTGTGCCGGACGATTCCCTGCTCTACGCCATCACCACGGCGGCCCAGCGCGGCGTGGACGTGGAACTTTTCGTCTCGGAGAAGGGCGACCAGTTCCTGGTCCACCATGCCCAGCGTTCCTACTACGAGGCCCTGCTGGAGGCCGGCGTCAGGATTTACCTCTACAAGGCCCCATTCGTGCTCCACGCCAAGCACTTCACCATCGACGATGAAGTGGCAGTCCTGGGGTCCAGCAACATGGACATGCGCTCCTTCTCGCTCAACCTGGAGGTCTCGGTGATGCTCCTGGGCGCTGAGATCGTGAACAATATGCGCGCGGTGGAAAATACCTATCGGGACATTTCGCACGAGCTCAAACTGGAGGACTGGCTGAAGCGCCCGCTCGCGGCCAGGTACGTGGACAACGTGGCGCGGCTGACCGCCACCGTGCAATAA	MLWPLSLAGTSPTWLVVLLSVADLAIRVLAVGIIPGNRRPTTAMAWLLVIFFVPFVGLVLFLLFGNFKLSSRRRQQQEQVNDRVRAGISSLADVESHYPGPEWVTSAAELNRRLGSLPMVDGNSVELLPGYPDSILAMTQAVRKAKKFVNAEFYIMSTDHITDDLLTALEEATERGVEVRVLFDHIGTLRIKGYRDLLKRLRAGKIQWKRMLPLLPIHGQWRRPDLRNHRKIMVIDGELAFTGSQNLIEPSYNNPRHRKAGREWVELMACLRGPIVTTLNVVFATDWLSETDESLEHQLQLPSNPEPGKVTAQVVPSGPGFITENNLRLFNTLIYSAQHRISICSPYFVPDDSLLYAITTAAQRGVDVELFVSEKGDQFLVHHAQRSYYEALLEAGVRIYLYKAPFVLHAKHFTIDDEVAVLGSSNMDMRSFSLNLEVSVMLLGAEIVNNMRAVENTYRDISHELKLEDWLKRPLAARYVDNVARLTATVQ	PGPT0007725_1310	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
D1-29_04399	942			hypothetical protein	ATGACTTCTCCTGCTTCCGTGGTGCTCGTTTTTCTTGACCCTGCCTTCCAGGACGGCCGGCTGGCGGACGCTTCCCAGCCCCAGCTGATGGCCACGGACCAGGGCGCCACCCGCGGCGACGGCGTCTTCGAGTCCATGCTTGCGGTGGGCGGCAGGGTCCGTAAGGTCCAGGCGCACCTGAACCGGCTGGACAGCTCGGCCGTGGCCCTGGACCTGGACATTCCCGGGCAGGATCAGTGGCGGCGTGCCATCGAAACTGGTGTGGCCGAGCATCGTTCCCAGCATCCGGCAAGCACGCCGGCGGATGACGAGCTGGTGGTGAAGCTGGTTGTAACGCGCGGCGTCGAAGGGGCATCCGGACCCACGTGCTGGGTACAGGTGTCACCCGTAGGTTCCCTTGGACGGCGCCAGCGCGAGACAGGCATCGACGTCATCCTCCTTGACCGGGGCTACGACAGTGACGCAGCCGAGCGCGCGCCGTGGCTCCTGCTGGGTGCCAAAACCCTGTCCTATGCGGTGAACATGGCAGCGCTGCGGCACGCACACAAACAAGGCGCTGACGACGTCATCTTTACGTCCTCAGACGGACGTGTCCTGGAGGGACCTACGTCCACTGTCCTGCTGGCCCACCTGCAAAGGTCCGACGACGGCGCCGGTGGCACCCGTACGGTGCGCCGGCTCGTCACGCCCCAGCTGGACAGCGGCATCCTCCCCGGGACATCACAGGAAGCCCTCTTCAAGGCCGCCGCGGCGGCGGGCTGGGAACTCGGGTATGGCCCCCTGCAGCCGCAGGACCTCCTGGAGGCCGACGCCGTCTGGCTGATTTCCAGCATCCGGCTGCTGGCGCCCGTCAACCACATCGACGGCAAGGAGATCGGCACGCCTGCCGTCCAGAAGCAGCTGACCGCCGAGCTGAACGAGCTGTTTGCCCGAATTCAGTAG	MTSPASVVLVFLDPAFQDGRLADASQPQLMATDQGATRGDGVFESMLAVGGRVRKVQAHLNRLDSSAVALDLDIPGQDQWRRAIETGVAEHRSQHPASTPADDELVVKLVVTRGVEGASGPTCWVQVSPVGSLGRRQRETGIDVILLDRGYDSDAAERAPWLLLGAKTLSYAVNMAALRHAHKQGADDVIFTSSDGRVLEGPTSTVLLAHLQRSDDGAGGTRTVRRLVTPQLDSGILPGTSQEALFKAAAAAGWELGYGPLQPQDLLEADAVWLISSIRLLAPVNHIDGKEIGTPAVQKQLTAELNELFARIQ	PGPT0008020_91	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008020-pabC-K02619	NA	NA
D1-29_04400	204			hypothetical protein	ATGACCGCGGAGAATACCATTCCAGCCCTGATCGACAAGGCCCGGGAGGAGATGCTTTTTATCGGACCGGACCACCCCTACTATCCGATCCTCGCAGGCCTGGTCTCCGCCGTCGGAACAGCCTGGCAGCAGGGCTATGACCAGCATCGACGAGGCGGGCCGGCAGAGAACCCATACAGCTGGAGACCATCCCCTGGCGCATAG	MTAENTIPALIDKAREEMLFIGPDHPYYPILAGLVSAVGTAWQQGYDQHRRGGPAENPYSWRPSPGA				NA	NA	NA	NA	NA
D1-29_04401	510			hypothetical protein	ATGGCGGTTCACAGTGCAGGGATCATGTTGTACCGGTGGAGGACCACGGGTCAGCCGGAGGTTTGGATTGCCCACATGGGCGGACCATTCTGGGCGCGCAAGGACGCCCGGTCCTGGTCAATTCCCAAGGGCGAATACCCTGAAGACGAGGATCCGCTCACTGCGGCATTGCGCGAGTTTGCCGAGGAAATGGGAACTCCCGCTCCGGACGCGGAGTACCGCGAATTAGGCGCCTTCCGGCAACCGTCCGGAAAGATCATTACAGCCTTCGCAGCGGAGGCGGACTTCCAGCCCGAACAGATCCTCAGCAATACCTTTCCCCTTGAATGGCCGAAGGGTTCCGGCGTGATCCAGGACTTCCCGGAGATTGACCACGCTGCATGGTTTTCCGAGACGGACGCGCGCGTGAAGCTGGTGAAGGGGCAACTCCCCATCCTTGATGCCCTCCTTCGTGTCTTACGCCCATCCGGGGACAACAAAGAGCGGCGGGCTGATCCGCCCGCCCTTTGA	MAVHSAGIMLYRWRTTGQPEVWIAHMGGPFWARKDARSWSIPKGEYPEDEDPLTAALREFAEEMGTPAPDAEYRELGAFRQPSGKIITAFAAEADFQPEQILSNTFPLEWPKGSGVIQDFPEIDHAAWFSETDARVKLVKGQLPILDALLRVLRPSGDNKERRADPPAL				NA	NA	NA	NA	NA
D1-29_04402	273			hypothetical protein	ATGAATCCCACCCCAAAACAGCCCGTAACTGACGACAGCATCAAAGTACGCCAGGTCAGCCATTATCAGTTCACCTGGGTAGCAGGCGAGGCCACCAAACCAGGCACATGGACCCTCCAGCTGGTACTGGACCAAGGCGCCTGGGAGGAAGTCCTCAGCCTGAGCGCTGACGACGCAGACAACCTCCAGGACCTGCTGACTTCCGCCGGAACGGTTTTTTACGATGTCAGCCGAAGGACCCTCATGTTTGGCACCACCCCTGTGGGTCAGTGA	MNPTPKQPVTDDSIKVRQVSHYQFTWVAGEATKPGTWTLQLVLDQGAWEEVLSLSADDADNLQDLLTSAGTVFYDVSRRTLMFGTTPVGQ				NA	NA	NA	NA	NA
D1-29_04403	546	rimJ_2	COG1670	[Ribosomal protein S5]-alanine N-acetyltransferase	TTGCACCACATCGAGTCCTCGCAGTTAATCGGCAACATCCAGGTCAGGCTGCTTCACCGGGAAGATGCAGCACTGCTGAGTCAGGCCTACGCCCGGAACCGGGAACACCTGGCGCCCTGGGAGCCGGCCCGTGCGGATGAGTTCTTTACCCCTTCCCACCAGCTTGGACTCATCCACATCAGGCTCGCCCAGCATTCAGTGGGGCAGGAAATTCCCTGGATCCTGCTGGACGGCCGCCGCGTCATCGGCACCGTCACCCTGACGGGCATTGTCCGGGGGCCGTTCCTCAACGCCCATCTGGGGTACTGGGTGGACAAAGACTACAACGGCGAGGGGGTAGGTTCCGCTGCCGTGCTGTTTGCCGTGAAGCATGCCCGCATGGAGCTGGGCCTCCACCGGGTCCAGGCAGCCACCCTGGTCCACAACGGTGCATCACGGAAGATCCTCCGGCGGGCCGGCTTCCAGGAAATCGGAGTGGCCCCGGAGTATCTGCACATCGCCGGCAGCTGGCAGGACCACCTCCTCCACCAGCTGCTCCTGCATTAG	MHHIESSQLIGNIQVRLLHREDAALLSQAYARNREHLAPWEPARADEFFTPSHQLGLIHIRLAQHSVGQEIPWILLDGRRVIGTVTLTGIVRGPFLNAHLGYWVDKDYNGEGVGSAAVLFAVKHARMELGLHRVQAATLVHNGASRKILRRAGFQEIGVAPEYLHIAGSWQDHLLHQLLLH				NA	NA	NA	NA	NA
D1-29_04404	1242		COG0183	putative acetyl-CoA acetyltransferase	ATGAGCAACGAGGCCCTGAGTAACGAGCCTATGAGGAGCGAGGCCCTGAAAGCTGACGCGCGTACCGCAGTCATCCTGGGCGGCGCCCGCACTCCCTTCGGACGATTCCGGGGCAGCCTGGCCGCGCTGTCATCCAGTGAACTGGGCGCCCACGCGATCCGCAGTGCACTTGAAAGGACAGGCGTGGACCCCGGCCAGGTCCATGCGGTGATCGTGGGCCAGGTCATCCAGGCAGGTGCAGGGCAAGGACCCGCGCGGCAGGCAAGCCTGGCAGCAGGCATTGGCTGGGACGTTCCCACGGTAACCATCAACAAGCTCTGCCTCTCCGGACTCACTGCGGTGATCGACGCCGCCAGGATGATCCGGGCCGGCGAGGCAGACTTCATCGTGGCAGGGGGCCAGGAATCCATGAGCAACGCCCCGCACCTGCTTCAGCGCCTTCGCAACGGTGTGGCAATCGGCGACGCCCCGCTGATGGACTCACTGAATTACGATGCCCTGCAGGACCCCGTCTCCGGCGTCCTCCAGGGCGCCGCAACCGATGCGGGCAACGCCGAACGCGGAATCAGCCGGGCGGACCAGGACGCTGTTGCCGCGAGGTCCCATCAGCGGTCGGAGGCAGCGAGCTCCGCCGGACTGCTTGCTGCCGAGATCGCACCGGTCAAAGTACCGCAGCGCCGTGGTCCAGCACTGATGGTGGATTCTGATGAAGGCATTCGCCCGGGCACGACGGCGGAGGCCCTGGCTGCCCTTAAGCCCGCCTTCTCCACGGCCGCGACTGCCACTATCACCGCCGGATCCGCCTCTCCCCTTTCAGACGGCGCGGCCGCCGTCGTGATTGCCAGCAAGGCCGCCGCGGAACGTGCCGGACTGAGCTGGATCGCCGAGATCCGCAGCCACGGCCAGACTGCCGGCCCGGACGCTTCCCTGCATTCCCAGCCGTCCCGCGCCATCGAACGCGCCCTGGCTGCGGAAGGGCTTGGCGTGGCTGATCTGGACCTGATCGAAATTAATGAAGCCTTCGCGTCCGTGATTATCCAATCGGCCCAGGACCTGGGCGTCAGCACGGAGCGGATCAACGCCGAGGGCGGCGCCATCGCCTTGGGCCACCCAGTGGGCGCCTCAGGCGCACGCCTTGTGCTGCACCAGGCGCTGGCGCTGCAGCGGCGCGGCGGCGGCACCGGGGTTGTGTCCCTCTGCGGCGGCGGGGGCCAAGGCGAGGCTCTCATCCTCAAGGCCTGA	MSNEALSNEPMRSEALKADARTAVILGGARTPFGRFRGSLAALSSSELGAHAIRSALERTGVDPGQVHAVIVGQVIQAGAGQGPARQASLAAGIGWDVPTVTINKLCLSGLTAVIDAARMIRAGEADFIVAGGQESMSNAPHLLQRLRNGVAIGDAPLMDSLNYDALQDPVSGVLQGAATDAGNAERGISRADQDAVAARSHQRSEAASSAGLLAAEIAPVKVPQRRGPALMVDSDEGIRPGTTAEALAALKPAFSTAATATITAGSASPLSDGAAAVVIASKAAAERAGLSWIAEIRSHGQTAGPDASLHSQPSRAIERALAAEGLGVADLDLIEINEAFASVIIQSAQDLGVSTERINAEGGAIALGHPVGASGARLVLHQALALQRRGGGTGVVSLCGGGGQGEALILKA	PGPT0008320_5501	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
D1-29_04405	201			hypothetical protein	ATGAAGACACTCGTTGGATCGATGGATGGGAAGGGCCCGGCCGAGGCACTCTATGCCGTGGCGGAGCTGCAGAAGGAAGTAGGGCGGGCCGAAGCTGCCTTGGTCAGGAACGCCCGCCAGGCAGGACTCTCATGGGAAGCGATCGCCCTGTGCCTGGGCGTCAGCAAGCAGGCAGTTCACCGGAAGTACGGCAGGCGCTAG	MKTLVGSMDGKGPAEALYAVAELQKEVGRAEAALVRNARQAGLSWEAIALCLGVSKQAVHRKYGRR				NA	NA	NA	NA	NA
D1-29_04406	552			hypothetical protein	ATGGGGAAACAGCAGGATATGGGTGAACGATCTGTGGGAAAAGACTGTGTGGGCAAACAGCGGGGAAGGCCAGCAGTGCAAAACCGGTTGCGATGGACCGCGGTCGTCCTCGCCGTCGCATCCCTTGCCTTTGCACTGACAGGCTGCCGGGACCCCTTCGCTCCGCCGCCCTGCGGGCCGCCGGAGTACTTTGTCTCCCCGTCGGCCGTTCAGGCTGGCGGGAAGGTTACGGTCTCCGCGCAGGACACCACCTGTGATGCGCTCTACGGCGCGGATGCCCGCATCCAGGTGACGGTGACGGATGCTGCGGGGCAGACGGTCCTGGAGGAGCTCGCTCCCATGACCGACGACGGCGGCTTCACCTTTGTCTTCACCGTTCCGGAGACCATGGCTGCCGGAGAGGGCGGAGTCAGCGCTGTCCCGTACGGCGTGGACTGGTGTGATGACACCGGCGTCAACAACAGGGCCGCTCCGGGCACCCTGAGCCTGGAACGTGCGTCCTGCACCCACCGGCTGGTCCCGCTCACAGTTCACGCGGCTCCACCGGCCTGA	MGKQQDMGERSVGKDCVGKQRGRPAVQNRLRWTAVVLAVASLAFALTGCRDPFAPPPCGPPEYFVSPSAVQAGGKVTVSAQDTTCDALYGADARIQVTVTDAAGQTVLEELAPMTDDGGFTFVFTVPETMAAGEGGVSAVPYGVDWCDDTGVNNRAAPGTLSLERASCTHRLVPLTVHAAPPA				NA	NA	NA	NA	NA
D1-29_04408	279			hypothetical protein	GTGACAGACGCACCTGCCACTGAAGAAAAGCTGTCCTACCGACTGATCACAGGGCCGGATGACCGCTCCTTCTGTGAGCGGATCTCAACCGCATTGGCGGAGGGCTACGTCCTGCACGGCAGCCCGGCCGCAACGTTCAACGGCAGCAGCGTGATCGTGGCGCAGGCCCTGGTCCTCCCGGCTGCGATCGCCTCCGCGGACGCCGCCGTCGCCACCGCTGTGGACGATCTGGAAACTGCCGGCGAAGAGCTCGAATTCGACGGCGAGGGCCACGCATGA	MTDAPATEEKLSYRLITGPDDRSFCERISTALAEGYVLHGSPAATFNGSSVIVAQALVLPAAIASADAAVATAVDDLETAGEELEFDGEGHA				NA	NA	NA	NA	NA
D1-29_04409	411			hypothetical protein	ATGAGCTACGCAGGAGACCTCACCCCGGAGGAAGCCTGGACCAAGCTGGAGCAGGGCGCCATCCTGGTGGATGTGCGCACGGAGGGCGAATGGGCGCATATCGGCATCCCGGACACCAAGGCGACCGACAACGATCCCCTTTTCATCCAGTGGACGTTCCCGGGTGGCATCCCCAACCCCGATTTCATCAATGACCTGACACAGCAGGCACCCGAGGACACCGGCACGGAACTGGTGTTCCTGTGCCGTTCCGGGGCCCGGTCCATAGCTGCAGCCATCGCCGCCACCCAAGCAGGCTACACGTCCTACAACGTCCTCGAGGGCTTTGAAGGCGAGCCGGACCGCTACGGCGAACGCACCGTCAATGGCTGGAAGAACCGCGGCCTGCCTACGAATCTGGGAACGAACTAA	MSYAGDLTPEEAWTKLEQGAILVDVRTEGEWAHIGIPDTKATDNDPLFIQWTFPGGIPNPDFINDLTQQAPEDTGTELVFLCRSGARSIAAAIAATQAGYTSYNVLEGFEGEPDRYGERTVNGWKNRGLPTNLGTN				NA	NA	NA	NA	NA
D1-29_04410	1209	metZ	COG0626	O-succinylhomoserine sulfhydrylase	GTGACATTCAATGAAGATGCCGCCGGCTGGAGTCCTGACACCCAGGCAGTCCGTGGCGGGCTGGACCGCACCAATTTCCAGGAGACCGCCGAGCCGGTCTTCCTGAACTCCGGGTTCGTCTACGAATCGGCCGCAGCTGCCGAACGCGCCTTCACCGGCGAGGACGAGCGCTTTGTCTACTCCCGCTACGGGAACCCCTCCGTAGCCACCTTCCAGGAACGGCTCCGCCTCCTCGAGGGCACCGAGGCGTGCTTTGCGACGGCGTCGGGAATGTCTGCAGTCTTCACCGCCCTGGGTGCCCTGCTGGCTGCCGGTGACCGCGTGGTTGCGGCCCGCTCGCTGTTCGGTTCCTGTTTCGTGATCCTGAACGAGATCCTGCCGCGCTGGGGCGTGGAGACCGTCTTTGTGGATGGCCCGGACCTGGACCAGTGGCGTGAAGCATTGTCCCAGCCCACCACCGCAGTCTTCTTCGAGTCGCCGTCCAACCCGATGCAGGAAATCGTGGACATCGCGGCAGTCAGCGAACTGGCGCATGCCGCCGGAGCCACCGTCGTCGTCGACAACGTCTTTGCCACTCCCCTGCTGCAGCGCTGCGGCCAGCTGGGCGCGGACGTCATTGTCTACTCCGGCACCAAGCACATCGACGGCCAGGGCCGAGTCATGGGCGGGGCAATCCTGGGCACCAAGGAATTCATCGACGGCCCCGTGAAACAGCTCATGCGCCACACCGGACCCTCACTGTCCGCCTTCAACGCCTGGGTCCTCACCAAGGGGCTGGAGACCATGGCGCTGCGCGTCAACCATTCCTCGGCCACCGCCCTGAGGCTGGCAGAGTGGCTGGAACAGCAGCCTGCGGTCAGCTGGGTCAAATACCCGCTGCTGAAATCCCACCCGCAGTATGAGCTCGCCGCCAAGCAGATGAAGGCCGGCGGCACCGTGCTGACCCTAGAACTCGCGACGACGGCCGGACGCTCGGGCAAGGAAGCCGCCTTTGCGCTGCTGGACGGGCTGCGGATCATCGACATCTCCAACAACCTCGGCGACGCCAAGTCCCTCATCACCCACCCTGCCACCACGACGCACCGCGCCATGGGTCCCGAAGGCCGTGCGGCCATCGGGCTGAGCGACGGTGTGGTGCGGCTGTCCGTGGGCCTCGAAGACGCGGATGACCTGATCGGCGACCTGGAGCGGGCGCTCAAGCAGATCTGA	MTFNEDAAGWSPDTQAVRGGLDRTNFQETAEPVFLNSGFVYESAAAAERAFTGEDERFVYSRYGNPSVATFQERLRLLEGTEACFATASGMSAVFTALGALLAAGDRVVAARSLFGSCFVILNEILPRWGVETVFVDGPDLDQWREALSQPTTAVFFESPSNPMQEIVDIAAVSELAHAAGATVVVDNVFATPLLQRCGQLGADVIVYSGTKHIDGQGRVMGGAILGTKEFIDGPVKQLMRHTGPSLSAFNAWVLTKGLETMALRVNHSSATALRLAEWLEQQPAVSWVKYPLLKSHPQYELAAKQMKAGGTVLTLELATTAGRSGKEAAFALLDGLRIIDISNNLGDAKSLITHPATTTHRAMGPEGRAAIGLSDGVVRLSVGLEDADDLIGDLERALKQI	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
D1-29_04411	363			hypothetical protein	GTGTTCGTTCGCGCCGAAGGGGTGCGGCTCTCAGGCCGGCGTGGAATACTCAGGCGCGTGACGTCGTCGTACTCTTTTCACGCCAAACTGTGGCATATCCCGGAAGAAGCGGGGTGGCACTTCCTGACTCTCCCCGCGGACGTTGCAGAGGACGTTCGCGACGATGCGGGCTCGCTCCGCAAAGGCTTCGGATCGGTTAGAGTTACCGCCGAAATCTCCGGCCACACGTGGCAGACGTCACTGTTCCCGGACAGCAAAAGCGGTTCGTACCTGCTGCCCGTCAAGAAGGCCGTGAGGGACGCGGCCCGGATCAGCGCCGGTGATGACGTGGCAGTGCGACTCCAAGTCCACGGAACGGATTAG	MFVRAEGVRLSGRRGILRRVTSSYSFHAKLWHIPEEAGWHFLTLPADVAEDVRDDAGSLRKGFGSVRVTAEISGHTWQTSLFPDSKSGSYLLPVKKAVRDAARISAGDDVAVRLQVHGTD				NA	NA	NA	NA	NA
D1-29_04412	903		COG0583	putative HTH-type transcriptional regulator	ATGCGAAGCTTCCAGTTGGAGCAGTTGCGGACCTTTGCTGCTGTGGTGGATGAGGGGACGCTGGAGGCCGCGGCCCGGAGCCTGGTGGTCACGCCGTCTGCCGTTTCCCAACGGCTGAAAGCGATGGAGGACGCGGCCGGGCAAATCCTGCTGCAGCGCACCAACCCCGTCCTGCCCACGGCGGCAGGGGCGGCTGTGCTGCGGTTCGCCCGGCAGGTCCGGCAACTGGAATGGGACGCCCGGCGCGAGCTCGGGGACAGCAGTGACAGCCCGGGCGCGCCGATTCCCCTGGTAGTAAATGCCGACTCACTGTCCACGTGGTTCCTGACGGCGCTGGCCAGCCTTCCCGCGGACGGCGGCGCCTTTTTTGAAATCCGCCGGGAGGATGAACAGCATTCCACGCAGCTCCTGCGCACCGGGACCGTGATGGCGGCTGTGACGGCTACGCCGGAGCCGGTGCAGGGCTGCAGCGTGGAGCCGCTGGGTGCCATGAGATACCGGGCCGTGGCCAGTTCCGGTTACGTCCGTCGCTGGTGGCCGGACGGGCCGGACCTTACCGCCGGAAGCGCGGCACCGGTGATGGATTTTGACCGGAAGGACGAGCTGCAGGGCGGCTTCTTCCAGTCGCTGACCGGCGCTGAACTGACCGCGCCGCGGCACTACGTGCCGTCGTCGGCCGAGTTCGCCCAGGCCATCGGGCTGGGGCTGGGATGGGGACTGTTGCCCGAGCAGCACTGCCTGGCTGATATCAGGAACGGCGAACTGGTGGAGCTGGCACCTGCTCATCCTGTGGATGTCTCGCTGTACTGGCAGCGCTGGAAGATAGACTCCCCGGTGCTGAACCAGCTCACCGCCGCGGTCCGCGAAGCCGCCTCGCGTCAGCTCCGCCAGCCCCAAGCCTGA	MRSFQLEQLRTFAAVVDEGTLEAAARSLVVTPSAVSQRLKAMEDAAGQILLQRTNPVLPTAAGAAVLRFARQVRQLEWDARRELGDSSDSPGAPIPLVVNADSLSTWFLTALASLPADGGAFFEIRREDEQHSTQLLRTGTVMAAVTATPEPVQGCSVEPLGAMRYRAVASSGYVRRWWPDGPDLTAGSAAPVMDFDRKDELQGGFFQSLTGAELTAPRHYVPSSAEFAQAIGLGLGWGLLPEQHCLADIRNGELVELAPAHPVDVSLYWQRWKIDSPVLNQLTAAVREAASRQLRQPQA				NA	NA	NA	NA	NA
D1-29_04413	669	argO	COG1279	Arginine exporter protein ArgO	ATGTTTAGCTGGATTAATTGTAAGCTCCACTTTACGTTGGAGGATATGGATTTGACTCAACTTTTGACCACCACGGCTCTCGGCTTCGGCACGGGACTGGCCCTCATCGTTGCCATCGGGAGCCAGAACGCGTTTGTTCTCCGCCAGGGCATCAGGGGCGAGCATGTGGCCGCCGTCGTCCTGGTGTGCAGCGTCTCGGACGCCCTGCTCATCGCCGCCGGCATCGCGGGAATTGGGGCCCTTGTGGAGGCGAGTCCGGTGGTGGTTGAGGTTGCACGGTACGCAGGAGCGGCGTTTCTGGCCGCCTATGGTGCCCTGGCGGCCAAGCGGGCCATCCGCCCGGGGGCGCTGACCGCCTCTGGCCGCCAGAGTGCCCTCAGCGCCGGGGCGGCAATCTCCACGGTGCTGGCCCTGACGTGGCTCAACCCTCACGTCTACCTGGATACCGTTCTGCTGCTGGGGTCGGTGGCCAACCAGCAGACGCAGGACCTGCGGTGGTGGTTTGGGGCCGGCGCCATCACCGCCAGCATTGCCTGGTTCAGCGCCCTTGGATTCGGGGCACGGAGCCTGCGTCCGTTCTTCGCGCGGCCGTCATCGTGGCGTGTCCTCGACGGACTCATCGCCCTGGTGATGCTGTCGCTGGGAGTGCGCCTGGCAGTGGGGGCCTGA	MFSWINCKLHFTLEDMDLTQLLTTTALGFGTGLALIVAIGSQNAFVLRQGIRGEHVAAVVLVCSVSDALLIAAGIAGIGALVEASPVVVEVARYAGAAFLAAYGALAAKRAIRPGALTASGRQSALSAGAAISTVLALTWLNPHVYLDTVLLLGSVANQQTQDLRWWFGAGAITASIAWFSALGFGARSLRPFFARPSSWRVLDGLIALVMLSLGVRLAVGA	PGPT0020651_976	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
D1-29_04414	1260		COG2170	Putative glutamate--cysteine ligase 2	ATGCGCACATTCGGCGTCGAGGAAGAACTCCTGATCGTTGATCCGGAGACGGGGGAACCCCTTGCACTCGCCGACGCCCTGCTCTCGGGGCGGCGGCTTGCGGCAGATGATTCCCCGCAGGATCCGCATGCCTTGGAAACCGAAGACAAGACCGCCTTCCACGACGACGACATGGGTTTGAGTGCCGAGCTGAAGCTTGAGCAGATCGAGACCCAGACCCGGCCGTGCCTGGAATATGGGGAGTTGCTGCGGCAGATACGTGCCGGCCGCCTGCTGGCCGACCAGGCGGCCCGAAAGAACGGGGCCAGGGTGGCAGCCCTGGCCACATCGCCGCTTGCCTCCACTACCCACACCACTCCGGATCCGCGGTATGCCCGGATGCTGGAGCGTTTTGGCCTGACCGCTCAGGAACAGCTGACCTGCGGATTCCACGTCCACACCTTCATCGAGTCCCCGGAGGAAGGCGTGGCCGTGCTGGACAGGATCCGCGACAAGCTGGCGGTACTCACTGCGCTGAGTGCAAACTCGCCCTTCTGGAACGGCATGCCCACCGGGTTCGAAAGCTACCGTACGCAGGCCTGGAACCGGTGGCCCACCTCCGGCCCGTCCGGCATCTTCGGTACGTATTCGGCGTACCGGCGGCTGGTGGCCCGTCTGCTGGACAGTGGTGTGATGCTGGATGAAGGCATGATCTACTTCGATGCCCGGCTGTCAAGGAACCATCCCACGGTAGAGGTCCGGGTGGCCGACGTCTGCCTTCGGGCCGAGGACGCGGCCCTGATAGCCGTGCTGGTGCGGGCAATGGTGGAGTCAGCCAGCCGGGAGTGGCACGCCGGAGTTGAACCCGCCCCTGTTCCCACCGTTCTGCTGCGGATGGCGGCGTGGCAGGCAAGCAGCAGTGGCCTGAGCGGCGAACTGCTGGACTTCGGCACCTTCCGGCCTGCCCCCGCACACGACGTTGTCCGCTCACTCGTGGATTATCTCGCTCCCGTGCTCAGCGAACAGGGCGAGCTGGGGCTGGCACGCCAGGGCGTGGAGGACGTCATCTCACGCGGCACCGGCGCCGCCGAACAGCGCCGGGTGCGCGATGCGGTAATGGAAAAGGCGGTGAGCGACAAAACGGCTGCCGACGACGGCGGGCTGGCCGCCGTCGTCGCGAAGGCAGTTGCGGTCACCATGCGTGGAGCCTCCGGCTTTCCTGACGAGGACGACGCGCCGGAGCTGCTGCGGGTCCGCCTGTCCCAGCCAGGCTTCCACTAG	MRTFGVEEELLIVDPETGEPLALADALLSGRRLAADDSPQDPHALETEDKTAFHDDDMGLSAELKLEQIETQTRPCLEYGELLRQIRAGRLLADQAARKNGARVAALATSPLASTTHTTPDPRYARMLERFGLTAQEQLTCGFHVHTFIESPEEGVAVLDRIRDKLAVLTALSANSPFWNGMPTGFESYRTQAWNRWPTSGPSGIFGTYSAYRRLVARLLDSGVMLDEGMIYFDARLSRNHPTVEVRVADVCLRAEDAALIAVLVRAMVESASREWHAGVEPAPVPTVLLRMAAWQASSSGLSGELLDFGTFRPAPAHDVVRSLVDYLAPVLSEQGELGLARQGVEDVISRGTGAAEQRRVRDAVMEKAVSDKTAADDGGLAAVVAKAVAVTMRGASGFPDEDDAPELLRVRLSQPGFH	PGPT0026300_158	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026300-gshA|ybdK-K06048	NA	NA
D1-29_04415	1524	murA	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase	ATGACTCAGGAAACTGCTGACCACGTCGCCGCCACCCTTCGCGATGCCCGCAACGAGAAAGGCTGGACCCAAGGCCAGCTGGCCGCAGAGCTTGGGACCAGCCAAAGTGCCATCGCGCGAATGGAACAGGGGAAGCAGAACCTCAGCCTCAAAATGATCCAGCGCCTCGAAGCTATCTTCGGCCGCAGCATCGTCAACATTGGAAAACCCCAGATGACCCACTTGAGGGTTGAGGGCGGCCAAACCCTCTCGGGGGCAGTTGACGTCAACAGTAGCAAGAACGCCGGTGTGGCCCTTCTCTGCGCAAGCCTGATCAACCGCGGCACCACCGTCCTGCGCCGGCTGGCCCGGATCGAGGAAGTGAACCGCATCGTTGAAGTGCTTAGCAGTATTGGCGTTGAATGCACCTGGCTCAACGACACGGACCTCCGGCTCCGCCGCCCGGCCGTACTGGATCTGGCTGACATGGACGTGGAGGCGGCGCGCCGCACCCGGAGCGTGATCATGCTCCTTGGGCCGCTCCTGGATGAAACGTCTGAATACCGGCTTCCCTACGCCGGTGGCTGTGACCTGGGCACCCGGACCGTGGAGCCCCACATGCAGGCCCTTCGTCAGTTCGGGCTCTCGGTGGAAGCAACCTCGGGCTTCTATGCAGTCAAGGCACCGGCCGCGGACGAGCTCTCCCGTTCCTTTGTGCTGACGGAGCGCGGCGACACCGTCACGGAAAACGCCATCATGGCCGCTGCCCACCGGCGTGGCACCACTGTCATCCGTAACGCCAGCCCCAACTACATGGTGCAGGACCTTTGCTTCTACCTGCAGATGCTGGGAGTGGAGATCGACGGCGTGGGGACCACAACGTTGAGGATCACCGGCCAGGAGCACGTTGACGTCGACATCGAATACTTTCCGTCAGAGGACCCGATCGAGGCCATGAGCCTCATCACCGCCGGCATTGTGACCAACTCGGAGGTGACCATCTGCCGCGTTCCCATCGAGTTCATGGAAATCGAACTGGCCATGCTGGAGCAGATGGGCCAGCAGCTGGAGATATCCGGGGAATACATGGCCCGCAACGGCCGCACCCGTCTGGTGGATGTCACCACCAAACCCTCCGAACTCCATGCGCCCGAGGATAAGATCCACCCGATGCCCTTTCCGGGCCTGAACATCGACAACCTGCCGTTCTTCGCGGTGATCGCGGCCAACGCCCATGGCCAGACCCTGATCCACGACTGGGTGTATGAGAACCGTGCCATTTACCTTACCGAACTCAACCGGCTCGGCGCCCAGGTGCAGCTTTTGGACCCGCACCGGATCTACGTCACCGGTCCCACCAGGTGGCGCGCCGCCGAGGTGGGCTGCCCGCCCGCGCTCCGCCCGGCAGCCTGCCTGCTGCTGGCCATGCTTGCGGCACGCGGCGTTTCCGAGCTGCGCAACATTTACGTGATTGAGCGCGGCTACGAGGACCTCGCCGAAAGGCTCAACACCATCGGCGCAAAGGTTGAGTACTTCCAGGACTGA	MTQETADHVAATLRDARNEKGWTQGQLAAELGTSQSAIARMEQGKQNLSLKMIQRLEAIFGRSIVNIGKPQMTHLRVEGGQTLSGAVDVNSSKNAGVALLCASLINRGTTVLRRLARIEEVNRIVEVLSSIGVECTWLNDTDLRLRRPAVLDLADMDVEAARRTRSVIMLLGPLLDETSEYRLPYAGGCDLGTRTVEPHMQALRQFGLSVEATSGFYAVKAPAADELSRSFVLTERGDTVTENAIMAAAHRRGTTVIRNASPNYMVQDLCFYLQMLGVEIDGVGTTTLRITGQEHVDVDIEYFPSEDPIEAMSLITAGIVTNSEVTICRVPIEFMEIELAMLEQMGQQLEISGEYMARNGRTRLVDVTTKPSELHAPEDKIHPMPFPGLNIDNLPFFAVIAANAHGQTLIHDWVYENRAIYLTELNRLGAQVQLLDPHRIYVTGPTRWRAAEVGCPPALRPAACLLLAMLAARGVSELRNIYVIERGYEDLAERLNTIGAKVEYFQD	PGPT0024090_208	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
D1-29_04416	861			hypothetical protein	ATGCATAGAAGCACAAACGCAGTACGCGCTCCAACGCACGTGCGGTTGCTGCTGTCATTGCTGTTATCGCTGGGCTTGGTCCTCTGCCTGCCGGCCGCCGTACTGCTGGCCTTGGCCCCACCGGCCGGCGCAGCCCCTTCGCCGGGAGAGGGCGTCCAGCAGTCCTTGGGCAATGACGTGTCGTGGCCCCAATGCAACAGACCCCTTCCCAAGGGGCAGGCGTTCGCGATCGTCGGCGTCAACAATGGACGGGCGAACACCACCAACCCATGCCTGGCCGAACAGCTCGAATGGGCCAGGACGTCGTCGTGGCATCCGGACCAGCCCGCCGTGGCCCTCTACGTGAACACCGCCAATCCGGCGCTTGCGGGCTCCTGGTGGCCGTTCAACAACGACTATCCTGAGGGTTCGGCTGTCCGGAACCCCTACGGCGCATGCGAGAGTGGGAAGGTTTCCGAGGCCTGCTCCTATATGTACGGTTACGCCAAGGCCTATGACGACGCGTACATCCGCGGCATCGATGATCCTGCGTCCTACCGGTGGTGGCTGGACGTGGAAACCGAAAACAGCTGGTCCACCAACCGGGCTGCCAACCGGGCCGTCCTGGAGGGAATGACAGATTTCTTCCGCAGCATTGGCGCGGAGGTGGGGATCTACTCCAGCAACGTGCAGTGGAACCAGATTGTTGGTCCAGTCAGCAGCTCCAGCAGCCTGTACTCCCTGCCCAGCTGGCTGGCCGGAGCCAGCACGGAACGCGGAGCAAAGGCCAATTGCTCCCGGCCCCCGCTTACGGCCGGCGGCAAAGTCACCCTGGCCCAATTCGTGTACGGCGGCTACGACTACAACTATTCCTGCAGCTGA	MHRSTNAVRAPTHVRLLLSLLLSLGLVLCLPAAVLLALAPPAGAAPSPGEGVQQSLGNDVSWPQCNRPLPKGQAFAIVGVNNGRANTTNPCLAEQLEWARTSSWHPDQPAVALYVNTANPALAGSWWPFNNDYPEGSAVRNPYGACESGKVSEACSYMYGYAKAYDDAYIRGIDDPASYRWWLDVETENSWSTNRAANRAVLEGMTDFFRSIGAEVGIYSSNVQWNQIVGPVSSSSSLYSLPSWLAGASTERGAKANCSRPPLTAGGKVTLAQFVYGGYDYNYSCS				NA	NA	NA	NA	NA
D1-29_04417	795	ykoC_2		Putative HMP/thiamine permease protein YkoC	ATGAGGACAGCCCTGAACCTCCGCGGCAACCACGCTCTCCTGACCCGTGCCAATCCGCTGGCGAAATTCGCGGCCGTGTTCCTGATTACCCTCGTGCTGGCACTGTCCATCGACTGGGTGTCTGCCACCACGGCGCTGGTGGCGGAGCTTGCGCTCTTTCCACTTGCCGGCCTCACGCTGCGTATCCTGTGGCAGCGGGCCTGGCCCCTGATTCTCGCCGCGGCCGTTGGCGGCTGGAGCACATCGATCATGGCAGCTGACAGCGGTGCCGTACTGCTCGACGTCGGGATTTGGTCCATCAGCGAGGGTTCCCTGCAGCTGGGGATCGGATTTATGCTGCGCGGCCTGGCCATTGCGCTGCCGGCCATCCTGCTGATGACCTGCACAGACCCGACGGACCTCGCTGATGCGCTGGCGCAGAAGGCGAAGCTGCCGCACCGTTTCGTCCTGGGCACGCTTGCCGCCATGCGCCTCGTGGGGCTCATGGCGGAGGAATGGCAGACCATTGGCATGGCCCGGCGTGCGCGCGGAGTCGGCTCGCAGGGAAGTCCCCTCGAAAGGCTGCGCGCCACATTGGGCCAGAGTTTTGGCCTGCTGGTGCAGGCAATCCGGCGCGCTTCCCGGCTGGCGGTCACCATGGAAGCCCGCGGTTTTGGCGGTGCCCAGCGGACCTGGGCCCGCGAATCCACCTACTCCCTGCTGGATGTCTGGGTGCTGCTGGGCGGACTTCTCATTGCCGCGGGCGCTGTGCTGGCGGCGGCGGCATTCGGGACCTGGAGCTTCGTCTGGCGCTAG	MRTALNLRGNHALLTRANPLAKFAAVFLITLVLALSIDWVSATTALVAELALFPLAGLTLRILWQRAWPLILAAAVGGWSTSIMAADSGAVLLDVGIWSISEGSLQLGIGFMLRGLAIALPAILLMTCTDPTDLADALAQKAKLPHRFVLGTLAAMRLVGLMAEEWQTIGMARRARGVGSQGSPLERLRATLGQSFGLLVQAIRRASRLAVTMEARGFGGAQRTWARESTYSLLDVWVLLGGLLIAAGAVLAAAAFGTWSFVWR	PGPT0004015_2394	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
D1-29_04418	1632	ykoD_2	COG1122	Putative HMP/thiamine import ATP-binding protein YkoD	ATGACACCTCCCGACGCCGGCGCTTCTGCTGCGCGGCCCGCTTCAGTTTCCGCCCGGGGCTGGGGCTGGCGGCATGCCGGCCGCTCCACACCCGCCGTCCGGGGACTCGATCTGGAGATCGGCCCGGGCGAGCGGGTGCTGCTCCTGGGCCCCTCAGGAGCGGGGAAATCCACACTCCTGCACGCCCTTGCCGGTGTGCTGGGGGATGAAGAGGACGACGCCGACGAAACCGGTTCGCTGCTCATTGACGGTTCGGCTCCGCGGGAGCGGCGAGGCCGGGCCGGGCTTATGCAGCAGGATCCGGAAACGCAGGTGGTGCTCTCGCGGCTTGGTGACGACGTCGCCTTTGGTGCCGAGAACCTGGCAGTGCCCCGGGAAGAGATCTGGCGGCGGGTCAATGAAGCACTTGAGGACGTGGGGCTCCGCAGCGCCGGCTCCAGGCAGAATTCAGGCGGACAGGGTTCTGCCGGACAGAGTGCTGCCGGACAGGCTGCCGCCGGACAGGGTGCCGGCGGGCTGCCGCTGGACCACCCGACGTCGGCCCTGTCCGGCGGGCAGAAGCAGCGCCTCGCGCTGGCCGGCATTCTGGCCATGCGGCCAGGGCTGATCCTGCTGGATGAACCGACGGCTAACCTGGATCCTAACGGGGTGCTGGAGGTCCGCGACGCCGTGGGCCGCTGCCTGGATAAGACCGGCGCCACACTGGTGGTGGTGGAGCACCGCGTCTCCGTCTGGAAAGACCTGGTGGACAGGATTGTGGTGCTGCAGCCGGGCTCTGACTCGGCGTCTGCAGTCCTGCTTGACGGCCCTCCGGACCAGGTGCTTGCAGATGCCCGGGACATGCTGGCCGGCGCCGGCGTCTGGGTGCCGGGCTACGTCCCTGCCACCCGGGCCCGCAGTTCGCCGGGTTCGGGCGGACTTCTGCTGGCCGCCGAGGAACTGGCAGTGTCCCGCGAACGGCCCCGCCGCCGCGGCTTCACGACCATTGCGCCTGTGCCGGTGCAGGAGGGGATTTCCGCGCAGGTCCGCGAGGGGCGCGCGCTGACGGTGACCGGCCCCAACGGCTCCGGGAAATCCACCTTCGCGCTCACACTCGCGGGGCTGTTGGCGCCGGTCCGCGGAAAAGTTTCGGCAACCGTGGACCTGAGCCGCGGCGCGGGTATCGATCCTTTCCGATGGAAGGCCAACCAGCTGATTTCCCGGGTGGGCACCGTGTTCCAGGAGCCCGAGCACCAGTTCGTCACCGGGCGCGTCCTTGACGAGTTGATGTTTGGTCCCCGCCATCTGGGACACGGCGAGGAGCGCGTCGACGACCTGATCCAACGGCTGCGCCTGACCCACCTCGTCGAGGCCAACCCTTACACCCTTTCCGGCGGTGAAAAGCGGCGCCTCTCCGTGGCCACGGTGCTGGCAGCCCACCCCAAGGTCCTGGTGCTGGACGAGCCAACCTTCGGCCAGGACGCCAACACCTGGGCTGAGCTGGCCTCCTTCCTTTCCGAGCTGCTGGACGCGGGAACGGCGGTTGTCTCCGTGACCCATGACCAGGAGTTCAGCGCGGTCCTGGGCGGCACTGAATTGCAGCTTGGCCCCGCCTCCCAAGGAGACGCCCGGCTGGAAGCGGGTGCCGCATGA	MTPPDAGASAARPASVSARGWGWRHAGRSTPAVRGLDLEIGPGERVLLLGPSGAGKSTLLHALAGVLGDEEDDADETGSLLIDGSAPRERRGRAGLMQQDPETQVVLSRLGDDVAFGAENLAVPREEIWRRVNEALEDVGLRSAGSRQNSGGQGSAGQSAAGQAAAGQGAGGLPLDHPTSALSGGQKQRLALAGILAMRPGLILLDEPTANLDPNGVLEVRDAVGRCLDKTGATLVVVEHRVSVWKDLVDRIVVLQPGSDSASAVLLDGPPDQVLADARDMLAGAGVWVPGYVPATRARSSPGSGGLLLAAEELAVSRERPRRRGFTTIAPVPVQEGISAQVREGRALTVTGPNGSGKSTFALTLAGLLAPVRGKVSATVDLSRGAGIDPFRWKANQLISRVGTVFQEPEHQFVTGRVLDELMFGPRHLGHGEERVDDLIQRLRLTHLVEANPYTLSGGEKRRLSVATVLAAHPKVLVLDEPTFGQDANTWAELASFLSELLDAGTAVVSVTHDQEFSAVLGGTELQLGPASQGDARLEAGAA				NA	NA	NA	NA	NA
D1-29_04419	651	ykoE	COG4721	Putative HMP/thiamine permease protein YkoE	ATGACAACTGCAACAATCAAGAAGACCGGCAACTCCTGGCGTGTGGTGGACATCGTGGTGGCCGCCCTCATCGCCATCGCCGGCGGCGTGATCTTCTGGGCCTGGTCCCAGGGCGCCGGAATCGTCTCCGCCCCCATGAACGCCGTCTACCCGCCGCTGACCGGCCTGATCGCCGGCGGCTGGATGATCCCGGCGGTACTGGGCATGCTGATAATCCGCAAGCCGGGCGCTGCCATCTTCTGCGAAACCGTGGCCGCCACGGGCGAGCTCATCATGGGATCGCAGTACGGCGCCACCGTGCTGATCTCCGGACTCCTGCAGGGCCTGGGCGCCGAACTGGTGTTCTTCCTGCTGGTCTACGGCAATTTCAAGTTCAAGTCGTTCCTGCACCAGAAGTTCAACCTCATCGCTGCGCTGCTGGCCGGTGCCGCTGCCGGGCTCTTCTGCGGCCTCAACGACTCCTTTATGCCGTGGGGCTGGAACATCGCCTATGAGGCCGGTGACAAGCTGGCCTACATCCTGTTCTGCACTCTCTCCGGTGCCATCATCGCCGGCGCCCTGTCCTGGATCGCCACCCGCGGCCTGGCCAAGACCGGCGTCCTCAGCTCCTTCGCTTCCCGCAAGGCCGCTTCGGAGCGCGTCTTCAACTGA	MTTATIKKTGNSWRVVDIVVAALIAIAGGVIFWAWSQGAGIVSAPMNAVYPPLTGLIAGGWMIPAVLGMLIIRKPGAAIFCETVAATGELIMGSQYGATVLISGLLQGLGAELVFFLLVYGNFKFKSFLHQKFNLIAALLAGAAAGLFCGLNDSFMPWGWNIAYEAGDKLAYILFCTLSGAIIAGALSWIATRGLAKTGVLSSFASRKAASERVFN				NA	NA	NA	NA	NA
D1-29_04421	543			hypothetical protein	ATGACTGCCGAACCCTCCCCTGTGACGACGTTTGATCCGGACTCTGCCGTGAGCCAGCCGGAAGGGTCGCTTGAAGCCTTGATTGCCCGGATCGAGGCAGAGATCAGCGAGCTGCAGTTCCCGCATTTCACCAAGGACGATGCCCTCAACCTCGGACTGCTCCTGGTGGAACTGGGCAAAGGCCGTCGGTTGCCCATTGCCATCGATATCACCAAGGGTGAGCAGGTCCTTTTCCACGTGGCCCTGGACGGGGCCACACCTGATAACGAACATTGGATCCGGGCGAAGCAGCGCACGGCCGCCCGCTATGAGATGCCGTCCCTGCTGGTGGGGCTCCGCGGACGGCGGGGCGGCGGCCGGGTGGAGGACGAGGGCTGGTTCGACGAGTCCCGGTACGCCCCGCACGGCGGCTCCTTCCCGCTGTACGTGGCGGGTGTGGGCGCGGTAGCCACGGTCACAGTGTCCGGGTTGCCCCAGCAGCAGGACCACGACCTGGTGGTCGAGGCGCTGCGGGAAATCCTGGCGTCGATGCAGGCGAGGTAG	MTAEPSPVTTFDPDSAVSQPEGSLEALIARIEAEISELQFPHFTKDDALNLGLLLVELGKGRRLPIAIDITKGEQVLFHVALDGATPDNEHWIRAKQRTAARYEMPSLLVGLRGRRGGGRVEDEGWFDESRYAPHGGSFPLYVAGVGAVATVTVSGLPQQQDHDLVVEALREILASMQAR				NA	NA	NA	NA	NA
D1-29_04422	276			hypothetical protein	GTGACAGTTACAGCTGATGAAACAGCCGTGGACATCGCCGTTGATGTCAGGTTCAACCTTGCAGGCAAGCCCCTGGCCGTGCGGTACCAAGGCGATGTCTGGCCGGTGGCAGGCACGCCCACGCAGTGGTTTGGTGGCAGCGATAGCCCCGAAAAGGTCGAGTACTGGCGTGCCCAAGTGTGTCTCGGATCAAGCTCTGCCGTCCGCATTTTCACCCTGCGCCGCGAACACCTTTCCAGGCAGTGGTTCCTGGAGTCCATAGCCGAGAGCTGTTAG	MTVTADETAVDIAVDVRFNLAGKPLAVRYQGDVWPVAGTPTQWFGGSDSPEKVEYWRAQVCLGSSSAVRIFTLRREHLSRQWFLESIAESC				NA	NA	NA	NA	NA
D1-29_04423	381			hypothetical protein	GTGAGATCCGGCTGGCCGCCAATTAGCGACCAGACGTGGGCCGCGATCAGAACGGAATTCACCCTGCCTTCCCTGGACCAGGTCCAGCGCAGGCTCTCTGAGCTCATGGAGGATCCCGAACCCGTGATGCAGCAGCTGGTCCGCGTTTTCATTGGGGAGGGCACTTACTGCCCGGGATTCCAGTTCCTCGCCGGCGGCCTTGTCCACCCCACTGTCCTGGACCTTTTTCAGCGAGCCATGGCCTTGAAGATTCCCCACAATCACTTCACCCTATGGATGGTCTCCCCTTCGCCCGCCCTCGCAGGGGCCCGCCCCGTTGAGCTTCTGGAAACCCGGCCTCCGGCCTTGTTCAGGGCGCTGGAAGCGTTAGGCCGGAAGTAG	MRSGWPPISDQTWAAIRTEFTLPSLDQVQRRLSELMEDPEPVMQQLVRVFIGEGTYCPGFQFLAGGLVHPTVLDLFQRAMALKIPHNHFTLWMVSPSPALAGARPVELLETRPPALFRALEALGRK				NA	NA	NA	NA	NA
D1-29_04424	495			hypothetical protein	ATGGGAAAACTGACCATCCTCGTGCTGCGCATTGTCCTCGCCGTGGCGCTCGCCGGCTCGCTGTTCGTGCAGGTAAGGATGGTGCCGCTGCTGGCCGTTGACCTGGAGGAGGCCGGAGCGGATTTGGTCGGCGTTCGGATTCCACTCCTCGCCATTGTGGTGCTGGGCATCATGACCGTCCAGGTCACCCTTGTTTGCGTGTGGCGCCTGCTGACCATGGTGCGGCGGGGGACAGTGTTCTCCCATGGTGCTTTCCGCTACGTCGACATCATTTTTGGAGCCGTCGCGGCGGCATCCGTCCTGGTGTTCGGGATTGCCGTCCTTCTCGCCCCGGGGGACGCGGCGCCGGGCATCGTTCTGCTGATCTGCGGGGCCTCCCTGCTGATTGCGGGCGCGGCCCTCATCGTCCTGGTGCTCCGCACTCTGCTCGCCCAGGCGGTGGCCCGGGACGTGGAGGCACAGCACCTGCGGACAGAGCTGGACGAGGTCATCTGA	MGKLTILVLRIVLAVALAGSLFVQVRMVPLLAVDLEEAGADLVGVRIPLLAIVVLGIMTVQVTLVCVWRLLTMVRRGTVFSHGAFRYVDIIFGAVAAASVLVFGIAVLLAPGDAAPGIVLLICGASLLIAGAALIVLVLRTLLAQAVARDVEAQHLRTELDEVI				NA	NA	NA	NA	NA
D1-29_04425	246			hypothetical protein	ATGCCCATCATCGTGGATATTGATGTGATGCTCGCTAAACGCAAAATGTCCGTTGGTGTGCTGGCGGAACGGGTTGGGATCACGCCCGCCAACTTAGCGGTGCTCAAGAACGGCCGGGCCAAGGCAGTGCGCTTTACAACTCTGGAGGCACTGTGCGAGGTTCTCTCCTGCCAGCCCGGAGACCTGCTCCGCTGGGAGCCCGATGACCAGCGGCAGCCGGCAGACCAGCTTGTCAGCGGGCAATGA	MPIIVDIDVMLAKRKMSVGVLAERVGITPANLAVLKNGRAKAVRFTTLEALCEVLSCQPGDLLRWEPDDQRQPADQLVSGQ	PGPT0014940_95	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014940-yozG-K07727	NA	NA
D1-29_04426	657			hypothetical protein	ATGGCTGCTGCGAAACCTCAGGCTTCGGCCGGACACGTCGTTCTGCTCGGTGACTCGATCCTGGACAACAAGGCATACGTCGACGGCGGTCCCGACGTCATCGCCCAGGTCCGCGCTGAGCTTCCACCCGGCTGGAATGCCACACTGCTGGCCGTGGACGGGGATGTGATTTCCGGGGTCCTGCAACAGCTTGCTTCGCTGCCCCGCGATGCCACCCACCTGGTGGTCAGCGCCGGCGGCAACGATGCACTTGGCTTTGCGTACCTGCTCGAATCGCCGGCCAGCTCCGTCGCGGAAGCCCTGAACCTTTTCAGCAGCGCCCAGGAACAGTTTGCCGCGGACTACGACCTGATGGCTGAAGCCGTTTCGGCCACTGGGATCCCCGTTGCCTTGTGCACGATCTACGACACTCCTGCCTCCACTGCGCAGCACCGGATCATCAAGACCGCCCTGGCGTTTTTCAACGACTGCATCAGCCGCGCGGCATTCTCGCGGGGCATGTCCCTGATAGACCTTCGCCTGATCTGCAACGAGGATGGCGACTACGCGAACCCTATCGAACCCTCCTCCCAGGGAGGGGCCAAGATCGCCCGGGCGGTTGCCGCCGTCGCGGGTCTTCAGGGTTACTCCGTTGAATCCAGGGTCATTGCCCGCTGA	MAAAKPQASAGHVVLLGDSILDNKAYVDGGPDVIAQVRAELPPGWNATLLAVDGDVISGVLQQLASLPRDATHLVVSAGGNDALGFAYLLESPASSVAEALNLFSSAQEQFAADYDLMAEAVSATGIPVALCTIYDTPASTAQHRIIKTALAFFNDCISRAAFSRGMSLIDLRLICNEDGDYANPIEPSSQGGAKIARAVAAVAGLQGYSVESRVIAR				NA	NA	NA	NA	NA
D1-29_04427	264			hypothetical protein	ATGAACCTCTTCATCAAGCTGATTGGCACCGCCGTTAGCCTCGGCGCCGGACTGGTCGGCACCAAGGTGGTCAACGCCGTTTGGGAAAAATCCACCGGCAGGAAGGCGCCCACGGGCAGGGACGAAGATACTCCGACCAGCCTTCGTTCGGCCCTGACGTTTGCGCTCATCTCCGCCTCGGTCAGCACCATCATCCAGGTGCTCGCCAACCGCGGCACCCAGCGCGCCATCACCCGTTTCGCGAAGAGCCAGGACATCGTCTAA	MNLFIKLIGTAVSLGAGLVGTKVVNAVWEKSTGRKAPTGRDEDTPTSLRSALTFALISASVSTIIQVLANRGTQRAITRFAKSQDIV				NA	NA	NA	NA	NA
D1-29_04428	411			hypothetical protein	ATGACTCCTGAGACCAGCACGCTGGATAGCGTCATTGACGCAGTGTCCGCGGTGTTTATGGTGGTGGGCGCACTGATGTCCCTGGCCGCCGCCCTCGGGCTGTTGCGCTTCCCGGACCTGATGAGCAGGATGCACGCGGCCACCAAGCCGCAGGTGCTGGGCCTGTTCCTGCTGCTGGCTGCCATCGGGCTGCAGCTGCGGACGTGGTGGGTGTGGCCGGTGCTGGCGGTGGCGTGGATTTTCCAGCTGCTGACTGTGCCGGTGTCCGCGCACATGGTGGGACGCGCCGGATACCGCACCAAGCACCTGCACAGGGAGCTGCTCAGTTCGGATGAGCTGGAGGCTGTGGTGCAGCGAGCCGCGGCCAAGACGGCCCAGGAGGACACTTCCGACGACCCCTCCCGGGACTAG	MTPETSTLDSVIDAVSAVFMVVGALMSLAAALGLLRFPDLMSRMHAATKPQVLGLFLLLAAIGLQLRTWWVWPVLAVAWIFQLLTVPVSAHMVGRAGYRTKHLHRELLSSDELEAVVQRAAAKTAQEDTSDDPSRD	PGPT0013925_209	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013925-mnhG-K05571	NA	NA
D1-29_04429	279			hypothetical protein	ATGATGCAGACCGTCCTGGCCGTCACGGCAATTATCCTTTCGCTGGCCGCGGCCGGCGCCATTATCAGGATCGCCCGCGGCCCTTCGCTCCTGGACCGGGTGCTGGCGTCCGACGTCCTGCTCGCCATCATCGGCGCTGCATTGTGCATTGACATGGCGGTGAACCGGCACCTGAACAACCTCATGCTGTTGGTGGCCCTGTCCATCATCGGCTTCATCGGCTCGGTGACCGTTGCCCGGTTCGTGGCGGACCGGCGGGAGCAGCCCCATGACTCCTGA	MMQTVLAVTAIILSLAAAGAIIRIARGPSLLDRVLASDVLLAIIGAALCIDMAVNRHLNNLMLLVALSIIGFIGSVTVARFVADRREQPHDS	PGPT0013920_888	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013920-mnhF-K05570	NA	NA
D1-29_04430	543			hypothetical protein	ATGAGCCGGCGCCGGGTCTCACTGCGCCAGGAGTTGCCGCTCCTTGTCTGGCTTGTTGTGGTCTGGGGTGCCCTTTGGCAGGACTTCAGCCCCGGAAATCTCCTCTTCGGCGCCTTGCTGGCGGTGGTGGTGGCACGGATGTTCTACCTGCCGCCCGTGGAACTAAGTGGGCGCTTTAATCTTCTCCACGCCATTCCGTTTGCCCTGGCTTTCCTTGGCAAAGTGGTGGCAGCAAGCTTCCAGGTCTTGTACCTGGCAGTCGTCCGCGGGCCCAACGTCACCAACGCCGTGGTGGCCGTACCGTTGCGTAGCCACCAGGACCTGATGATGACGGCCACAGGCCACGTTATCTCCCTCATCCCGGGTTCCCTGGTGGTGGAGGTGGACCGTTCATCGTCAACTTTGTACGTCCACGGGCTCAACGTAAAAAACGCCGAGGATGTGGAGAACCTGCGCCGCGAAGTGCGGGCCATCGAAGCGGGGCTGATCCGCGTCATGGGAACCAGGGAAGAACTCGACGCCGTCCGGTTGGAGGCAGCATGA	MSRRRVSLRQELPLLVWLVVVWGALWQDFSPGNLLFGALLAVVVARMFYLPPVELSGRFNLLHAIPFALAFLGKVVAASFQVLYLAVVRGPNVTNAVVAVPLRSHQDLMMTATGHVISLIPGSLVVEVDRSSSTLYVHGLNVKNAEDVENLRREVRAIEAGLIRVMGTREELDAVRLEAA	PGPT0013915_474	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013915-mnhE-K05569	NA	NA
D1-29_04431	1605	mrpD	COG0651	Na(+)/H(+) antiporter subunit D	GTGAACATCGCAAGCTTTGCCCCGCTCGCCGTCGTCCTTCCCATCCTGGGCGCCGCCCTGACCTTTCTCCTGATCCGGCACTCGCGGGCCCAGCGGGCTGTCAGCATCACGCTGCTGTCCCTGACGCTGCTGCTGGAGTGCGTCCTGCTGGCTTCTGTCTGGGATGGCGGGACTGCGGCGGTGAACATCGGCGGCTGGCTGCCGCCTTGGGGCATCGTCCTGGTGGTGGACCAGTTCTCCTCCCTGATGCTGGTGGTTTCCTCCGCCGTGAGCCTGGCGGTTCTGGTTTATGCCACGGGCCAGGGCATGGCCGACGGCGACCAGGATGCGCCAGTCTCGATCTTCCACCCCACGTATCTGATCCTGGTCGCCGGCGTCTCCAACGCGTTCCTTTCCGGGGACCTGTTCAACCTTTACGTGGGTTTCGAGATCCTGCTGACGGCAAGCTACGTCCTGATGACCCTGGGCGGCACCGGGCCCCGGATCAGGGCCGGTGTGACGTACGTGGTGGTCTCGGTGGTGTCATCGGTCCTGTTCCTGATCTCCATCGCGATGGTCTACGGGGCTACAGGAACGGTGAATATGGCGGACCTCGCCGTCAAGCTCGCGGAACTGGACCAAGGGACCCAAACGCTCCTGCACGTGATGCTTCTGGTGGCATTCGGGATCAAGGCGGCGGTGTTCCCGCTGTCTTTCTGGCTGCCTGACTCGTACCCGACCGCCCCCGCCCCCGTCACGGCGGTGTTCGCAGGCCTGCTGACCAAGGTGGGCGTCTATGCGATGGTCCGCACCGAGACGCTGCTCTTCCCCGGGGACACGCTCAACACTCCGCTGATGGTGGCCGCGCTGCTCACCATGATCGTGGGAATTCTTGGCGCCCTGGCCCAAAGTGACATCAAACGTCTGCTGTCCTTCACCTTGGTCAGCCACATCGGCTACATGGTGTTTGGCCTGGCGATGTCCTCGGCGGCCGGCCTTGGCGCGGCAGTCTTCTACGTGGCCCACCACATCACCATCCAGACCAGCCTGTTCCTGGTCACGGGGCTGATCGAACGCCGCGGCGGCAGTTCCTCGGTGGACCGGCTGGCCGGACTCGCGAAGCTGTCACCGTTGCTGGCACTGCTGTTCTTTGTGCCCGCCATGAACCTGGCCGGCATCCCGCCGTTCTCCGGGTTCCTGGGCAAGGTGGGGCTCATGCAGGCCGGCATCGAGTTGGGAACACCCCTGGCCTTCACCCTGGTCATTGGCGGCGTGGTCACCAGCCTCCTGACCCTCCTGGCCGTGGCCAGGGTCTGGAACCGTGCGTTCTGGCGGAAACCCTCGGATGCTGAGCACCCGGATCCTGTGCTCCTGGCCGCCCCCGAAGACTCCGACAGGGGCCGGCGCGGCGGCCGCAACAACGTGACGCTGCTGCCGCGCACCATGGTGGGCTCCACCCTGGGCCTGGTGCTGCTGGGTGTTGCGTTGACCGTGTTCGCCGGCCCGCTCTTCAAAGTCTCGGACCAGGCGGCCCAGGACATGCTGGACCGGTCCTCCTACATTCAGGCGGTGCTGGGCGATAACGCTCCGGTGCCTCTTGTCCTGGGCCCCGGGGGTGCCAAATGA	MNIASFAPLAVVLPILGAALTFLLIRHSRAQRAVSITLLSLTLLLECVLLASVWDGGTAAVNIGGWLPPWGIVLVVDQFSSLMLVVSSAVSLAVLVYATGQGMADGDQDAPVSIFHPTYLILVAGVSNAFLSGDLFNLYVGFEILLTASYVLMTLGGTGPRIRAGVTYVVVSVVSSVLFLISIAMVYGATGTVNMADLAVKLAELDQGTQTLLHVMLLVAFGIKAAVFPLSFWLPDSYPTAPAPVTAVFAGLLTKVGVYAMVRTETLLFPGDTLNTPLMVAALLTMIVGILGALAQSDIKRLLSFTLVSHIGYMVFGLAMSSAAGLGAAVFYVAHHITIQTSLFLVTGLIERRGGSSSVDRLAGLAKLSPLLALLFFVPAMNLAGIPPFSGFLGKVGLMQAGIELGTPLAFTLVIGGVVTSLLTLLAVARVWNRAFWRKPSDAEHPDPVLLAAPEDSDRGRRGGRNNVTLLPRTMVGSTLGLVLLGVALTVFAGPLFKVSDQAAQDMLDRSSYIQAVLGDNAPVPLVLGPGGAK	PGPT0013910_640	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013910-mnhD-K05568	NA	NA
D1-29_04432	579			hypothetical protein	ATGAGCGTTAACCTGACCCTCCTGGTTGTCATGGGAGCCCTGTACGCCTGCGGGATCTACCTGATCCTGGAACGCAGTCTCACGCGGGTGCTGCTGGGACTGATGCTTCTGGCCAACGCCACCAACCTGCTGATCCTCGCCACCGGCGGCTACGCGGGGCTGACGCCGCTGTACAACAAGGACACCCCTGCCCAGGACTACAACGATCCGCTTCCGCAGGCATTGATTCTCACCGCGATCGTCATCTCGTTCGCCGTGACGGCTTTTATGCTCAGCATCATCTACCGCACCTGGGTTCTGGCACGGCAGGACGAAATCCAGTTGGACGTGGAAGACCTTCGCGTGGCCGAGACCCCCAGTTTCGACGCCGAGGACGACGCCGAGATCCCGGTGGAGACCTCAGAATTCCCGCTCACCTTGCTGGGCGGTGACGGACGTTCTGTCTCCGACCACGCCACCGACGGTGCCGAACCAACCGTCGAGGCCGGCGGAACACAGCTCACCGCCACCGACGCCGCCTCGGAAGAGCAGCCCGGATCCAAAAATGTCACCCCCGGCCCCGAAGGAGGTGTGAAGTGA	MSVNLTLLVVMGALYACGIYLILERSLTRVLLGLMLLANATNLLILATGGYAGLTPLYNKDTPAQDYNDPLPQALILTAIVISFAVTAFMLSIIYRTWVLARQDEIQLDVEDLRVAETPSFDAEDDAEIPVETSEFPLTLLGGDGRSVSDHATDGAEPTVEAGGTQLTATDAASEEQPGSKNVTPGPEGGVK	PGPT0013905_67	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013905-mnhC-K05567	NA	NA
D1-29_04433	3009	ndhB		NAD(P)H-quinone oxidoreductase subunit 2, chloroplastic	GTGATCACAGTCCTTGCCGTGCATTTCGCGGTGGCTGCTGTGGCGCCCTTCCTGTTCAGGCGGTGGGGCCGGAACACCTTCTACGTACTCGCGGCCGTGCCGGGGTTATCGTTCGTCTGGCTGCTCTTCCAACATGCTGCTGTTTACGCCGGTCCAGGGGCGGTCGCCGAAGTCTTCCCGTGGATTCCAGGGCTCAAGCTTGAATTCGCGTTCCGGATGGATGCCCTTGCCTGGGTGATGTCCTTACTGGTCCTGGGCGTTGGCGCCCTGGTGCTTGTCTACTGCGCGAGGTATTTCAAGAAGACGGACCAGGACCTTGGCGGTTTCGGCGCACAGCTCCTGGCCTTCGCCGGGGCCATGTTTGGGCTGGTGGTGGCGGACGATCTGCTGCTGATGTTCATCTTCTGGGAACTGACCACCATCCTGTCGTACCTGCTGATCGGCTTCGCCCGCACCAGGCTTGCGGCCCGGCGCTCGGCGCTGCAGGCGCTGATGGTGACGACGGCGGGCGGGCTGGCCATGCTGGTGGGCCTGATCATGCTGGGCTTCAGCGCCGGAACCTACCGGATTTCCGCCATCCTGGAACAGGCCCCCGCCCTCGTAGCCGGGCCTTCCGGCGCGGCGGTGGCGGCCGCCGTCGTACTGATCCTGGTGGGTGCCATCACCAAATCTGCCCTGGTGCCGTTCCATTTCTGGTTGCCGGGCGCGATGGCCGCCCCCACGCCGGTGAGCGCCTACCTGCACGCGGCGGCAATGGTGAAGGCCGGCGTCTACCTGGTGGCCCGGCTGGCCCCCGGGTTTGCCGAAACCACCTACTGGCCGCCCATCGTGCTCGGGCTGGGCCTGGCCACCATGCTGGTGGGCGGGTACCGCGCGCTCCGCCAGACCGACATCAAGCTCATACTGGCCTACGGAACCGTCAGCCAGTTGGGATTCCTCACCATGGTGGTGGGGCTGGGCACTCCCGACGCCGCACTGGCCGGCCTCGCGATGCTGCTGGCTCATGGCCTGTTCAAGGCCACGCTGTTCCTGGTGGTGGGGATCATCGACCACCAGTCCGGCACTCGCGATGTGCGTAAGCTCTCGGGAGTGTTCAGCTCTTCCCGGGCCCTGGGCATCGTGGCCGGAATCGGCGCCGCGTCCATGGCGGGAGTCCCCCTGCTGGCAGGGTTCGTGGCAAAGGAATCAGTGCTTGAGGCCTTTGTCCACCATGCAGCCGACGGGGATCCCTGGGGGATGGCAGTGCTGGCAGGAATTGTGCTGGGCTCGGTCCTCACCTTCGCGTACAGTGCCCGTTTTATGTGGGGTGCGTTCGCCACCAAACCGGGAGTCGAACGGACACCGTTCAAGGCCATTCGGCCGTCTTTCATTGCGGCCCCTGCCCTGCTGAGCCTCCTCACCATCGCTTACGGTGTCTGGCCGGCGCCCGTCGATGGCTGGATCCAGCCATACGCTGGGCTGTTCGCCACGGCCACTCCCGACGCCGGCACATCAGCTGCAGAGGCAGGTCACCTGGCGCTGTGGCATGGCTTCACCCCTGCCCTGGGGCTCACGGCTGTCACCTTTGTTCTTGGTTTGGCCATGTACTACGGCCGGGACCTGGTGGCACGCGCCCAGTCCCGCGTCCCCGGCTGGATAGACGGGGACCGGGCCTACCAGCTGACCGTCGGGGCACTCGATGATGTTGCCGTCTGGATCACGGGGCGCACGCAGCGTGGTTCGCTCTACTTCTATCTGGCCGTCATCCTCACTGTGGCGTTTGCGCTTCCGATGACAGCACTGGTCCTGGCCAACAAGCCGCTTCCGGAGGGCCTGTACTTCATTGATCCCAACTCGCCCCTGCAGATCGTGGCAGGCGCGGGCATCGTGATTGGGGCCCTGGCAGCAGTGAAGGCCAACAAACGCTTCCTGGCAGTGCTGATGGTCTCGGTGACCGGCTATGGGATCGCGCTGATGTTCGCGCTCCAGGGTGCGCCGGACCTGGCCCTTACCCAGATGCTGGTGGAAACCATCATCCTGGTGGCGTTCCTGCTGGCCTTACGCAGCCTGCCAGCGGAGCTGAGGGACCGGACCGGCGGCAAATACCGTGTGGTGCGTGTCATCATCGGGCTGGCATTCGGGGCCACTATGGTCTTCGCCGCCATCTACGCGATGGGCGCGCGGGTGGCTACGCCCGTATCCCTGGAATTTCCGCGGCTGGCTTACGAGGGCGGCGGCGGGCTGAACATCGTCAACGTGACCCTCGTCGACATCCGTGTCTGGGACACCTTCGGCGAGATAACGGTCCTCGCCCTGGCTGCCACAGGGGTAGCCAGCCTCATTTTTGTCCGTGGCCGCGGCGACGGCATCCGGATCTCTTCCACTGTGGCGGAGGGCTCCGTGGGCCGCCGAAGGGGAGTGGATCCCGGCTCCCGGGACGCTGCCGCACTGGCCATCAGCCGGAAGTTTGCCGCATCCACCCGGGATGCCTGGATCGTGGCGGGACGGACACTGGCGCCGGAGCGCCGGTCCATCATCTTTGAAGTGGTGACCCGGCTGCTTTTCCACTCCATGATCATCTTCTCGCTCTACCTCCTCCTGGCCGGGCACAACTTCCCGGGCGGCGGCTTTGCGGGGGGCCTGACTGCCGGCCTGGCGCTCACCATCCGCTACCTGGCCGGCGGGCGCTTCGAGCTGCGGGAGGCCACCCCCATCAGCGCGGGGACACTCCTGGGGATGGGGCTAGCGACGGCCGCTGCCTCCGGCGTCGTGCCCCTGTTGCTCGGTGGCCAGGCGTTCCAGACGGCAATCATCGAGCTGTGGCTGCCGGTGTTCGGTGACATCAAGTTTGTCACTTCCACCATCTTCGACATTGGCGTCTACATCGTGGTGATTGGACTGGTGCTGGACGTTCTGCGCAGCCTGGGCGCCGAGATCGATGAGCACTTCGACGAGCAGGCAGCGGCGCCTGCCGAGGAGGGGGAACCGGTGGATGTCGCCGCAGGAACCGCCGGGAAGGGTGACGCATGA	MITVLAVHFAVAAVAPFLFRRWGRNTFYVLAAVPGLSFVWLLFQHAAVYAGPGAVAEVFPWIPGLKLEFAFRMDALAWVMSLLVLGVGALVLVYCARYFKKTDQDLGGFGAQLLAFAGAMFGLVVADDLLLMFIFWELTTILSYLLIGFARTRLAARRSALQALMVTTAGGLAMLVGLIMLGFSAGTYRISAILEQAPALVAGPSGAAVAAAVVLILVGAITKSALVPFHFWLPGAMAAPTPVSAYLHAAAMVKAGVYLVARLAPGFAETTYWPPIVLGLGLATMLVGGYRALRQTDIKLILAYGTVSQLGFLTMVVGLGTPDAALAGLAMLLAHGLFKATLFLVVGIIDHQSGTRDVRKLSGVFSSSRALGIVAGIGAASMAGVPLLAGFVAKESVLEAFVHHAADGDPWGMAVLAGIVLGSVLTFAYSARFMWGAFATKPGVERTPFKAIRPSFIAAPALLSLLTIAYGVWPAPVDGWIQPYAGLFATATPDAGTSAAEAGHLALWHGFTPALGLTAVTFVLGLAMYYGRDLVARAQSRVPGWIDGDRAYQLTVGALDDVAVWITGRTQRGSLYFYLAVILTVAFALPMTALVLANKPLPEGLYFIDPNSPLQIVAGAGIVIGALAAVKANKRFLAVLMVSVTGYGIALMFALQGAPDLALTQMLVETIILVAFLLALRSLPAELRDRTGGKYRVVRVIIGLAFGATMVFAAIYAMGARVATPVSLEFPRLAYEGGGGLNIVNVTLVDIRVWDTFGEITVLALAATGVASLIFVRGRGDGIRISSTVAEGSVGRRRGVDPGSRDAAALAISRKFAASTRDAWIVAGRTLAPERRSIIFEVVTRLLFHSMIIFSLYLLLAGHNFPGGGFAGGLTAGLALTIRYLAGGRFELREATPISAGTLLGMGLATAAASGVVPLLLGGQAFQTAIIELWLPVFGDIKFVTSTIFDIGVYIVVIGLVLDVLRSLGAEIDEHFDEQAAAPAEEGEPVDVAAGTAGKGDA	PGPT0013895_60	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013895-mnhA-K05565	NA	NA
D1-29_04434	213			hypothetical protein	ATGGGTAAGATTCGGTGCCCACAGTTTATCAAGACGCTGCTGTCACTTTTTCCCGCCGCCGCTGCTGCCGCCGCCGGAAAGCCGGGTGTCCGGGATATCCTCCGGCTGATGTTCGCCACGGGCGGATACGATGCTGCCTATGAACAGCGCCAGCGCTCCCGAGGCCATGCAGCCGCCATCGGAACTCGAATCCGGGAACCACGCCACAGGTAA	MGKIRCPQFIKTLLSLFPAAAAAAAGKPGVRDILRLMFATGGYDAAYEQRQRSRGHAAAIGTRIREPRHR				NA	NA	NA	NA	NA
D1-29_04435	1377			hypothetical protein	ATGCAGCCGCCATCGGAACTCGAATCCGGGAACCACGCCACAGGTAAGGGCCGCGTGCTCGCCTGGGCATCGTGGGACTGGGGATCTGCTGCGTTTAACGCCGTGATGACCACCTTCGTTTTCACTGTGTATCTCACCTCGAATGCCTTCGGCGGCCAAGACCGGGCCTCGGCTGTTCTTGGCGGCGCGCTGGCTGTGGCCGGGGTGGCCATCGCCCTGCTGGCTCCAGTGACCGGGCAGCGTTCTGACATCGGAGGACGGCGGAAGCTGTGGCTGGGAGTCAACACCACCGCCGTCGCGATTCTGACCGCGCTGTGCTTCTTTGTGTTTCCCCGGCCGGAGTTCCTGCTGCTGGGCGTTGCCCTGATCGCGCTGGGCAACGTGTTCTTTGAGTTCGCGGGCGTGAACTATAACGCCATGCTGGCCCAGATCTCCACCCCGAAGAACATCGGCAAGGTCAGCGGATTCGGCTGGGGCATGGGGTACCTGGGTGGCATCGTGGCGCTGCTCGCCGTCCTGCAGCTGTTCGTCCAGCCCAGCTTCGACTGGTTCGGCGCCTCCACGGAGAACGGCCTCAACATCCGGCTGGTGGCGGTCTTCTCCGCGCTCTGGTTCTTCATCTTCGCCCTGCCCGTCCTCTTCGCGGTTCCCGAACTGCCGCGGCCCAACCAGGCCAATCCGCTGGGATTCCTCGCTTCCTACCGCCTGCTCTTCCGCCGGATCAAGGCCATCTACGCCACAAGCCCGCACACCATCTACTTCCTGCTCGCCAGCGCCGTGTTCCGCGACGGGCTGGCCGCAGTCTTCACCTTCGGCGGAATCATCGCCGCCGGGACGTTCGGCTTTGAGCTGCCCCAAGTCATCTTTTTTGCGATCTTCGGCAACATTGTGGCCGCCGTGGGAGCAATCATTGGCGGTTTCGTGGATGACCGTGCAGGGCCCAAAGCTGTGATCATCGGCTCGCTGGTGGGACTCCTCATCGCCGGCACCATGATCTTGGTCCTGGGCAACGGTGACTATGTGTTCTTCGGCCTGGCCTGGGAAGGCAGCACTACGTTCTGGGTGTTCGGGCTGTTCCTGTGCCTCTTTGTGGGCCCTGCGCAGTCCTCCTCCCGGGCCTACCTCGCCAGGCTGGCGCCCCACGGCGAGTCGGGCGAACTCTTTGGCCTGTATGCCACCACCGGCCGTGCCGTCAGTTTTCTGGCCCCAGCCCTGTTCACCCTCTGCATCGCTGTAGCCACTCCCCTGGTGGCGCCGGGCGAGGCGCAGCGGTGGGGAATCCTGGGCATTATGGTGGTTCTGCTTGCCGGGCTTCTGGTCCTGCTGCCGGTCAAGTCTCCGGACAAAGCCCCCATCGCGGTGGTCCCCGCAGCCTAG	MQPPSELESGNHATGKGRVLAWASWDWGSAAFNAVMTTFVFTVYLTSNAFGGQDRASAVLGGALAVAGVAIALLAPVTGQRSDIGGRRKLWLGVNTTAVAILTALCFFVFPRPEFLLLGVALIALGNVFFEFAGVNYNAMLAQISTPKNIGKVSGFGWGMGYLGGIVALLAVLQLFVQPSFDWFGASTENGLNIRLVAVFSALWFFIFALPVLFAVPELPRPNQANPLGFLASYRLLFRRIKAIYATSPHTIYFLLASAVFRDGLAAVFTFGGIIAAGTFGFELPQVIFFAIFGNIVAAVGAIIGGFVDDRAGPKAVIIGSLVGLLIAGTMILVLGNGDYVFFGLAWEGSTTFWVFGLFLCLFVGPAQSSSRAYLARLAPHGESGELFGLYATTGRAVSFLAPALFTLCIAVATPLVAPGEAQRWGILGIMVVLLAGLLVLLPVKSPDKAPIAVVPAA				NA	NA	NA	NA	NA
D1-29_04436	483	khtT	COG0490	K(+)/H(+) antiporter subunit KhtT	ATGAACGTGGACGAGACGGACCTCCCCGGCCTGGGCCGGCGGAAGGATTTCATGACGGCTTCCGGCCGCCGTATCGGTGTGGTGGAGTTCCGGGAAGGCCAGACGGAACTCATTGTTTCCACCTGGGACGATCCCGATACCTGCCAGGCGTCGATTCCCCTGACCGGGGATGAGGCAGCCACCCTGGGCAACCTCCTGGGCGGACAGCACCTTGCCATGAAACTGACTGAGGAGCACAGGGACGTCCCGGGCATCGTGACCCGCCAGTTCTCCATCGCACCAGGGTCCCCGTTCCAAAACCAGCCCATGGGGAAGGCGTGCATCCGGACGCGGTGCGGAGTCTCGATCGTGGCGATCATGCGTGAAGGCGAGGTGCTCCCGTCGCCGGGTCCCGACGTCGTCCTTCATTCGGGTGACCTGCTCGTCGCAGTGGGCACGCAAGAAGGCCTGGACCAAGCAGCCGATATCCTGCGCAACGGCTGA	MNVDETDLPGLGRRKDFMTASGRRIGVVEFREGQTELIVSTWDDPDTCQASIPLTGDEAATLGNLLGGQHLAMKLTEEHRDVPGIVTRQFSIAPGSPFQNQPMGKACIRTRCGVSIVAIMREGEVLPSPGPDVVLHSGDLLVAVGTQEGLDQAADILRNG				NA	NA	NA	NA	NA
D1-29_04437	1182	khtU	COG0475	K(+)/H(+) antiporter subunit KhtU	ATGGACCCGCTGGCCCTGACCCTCATTGAACTGGGGGCCGTTGTGTTCTGCCTTGGCCTGTTGGCCAGGCTGGCCGGACGGATCGGAATGTCCCCCATCCCGCTGTACCTCGTAGGCGGCCTCGCCTTTGGTGCCGGCGGCGTGATGGAGCTCGAAGGCATCCACGAGTTCGCCCACCTCTCCGGCGAAATCGGTGTCATCCTCCTCTTGCTTATGCTCGGATTGGAATATACAGCTGCCGAGCTTTTCACCGGTCTGCGCAGGTCATGGCAGGCCGGTGTGCTGGACCTGGCACTGAACTTCGCGCCAGGGGCAGGACTCGCCCTGCTGCTGGGTTGGGGCGTGGTGGGGGCATTGGTGATGGGCGGCGTCACCTACATTTCCTCCTCCGGCATCGCCGCGAAAGTCATCACGGACCTCGGCCGGATCGGTAACCGCGAGACGCCTGTGGTGCTCGCCATCCTGGTATTCGAAGACCTGGCGATGGCTATCTACCTCCCCATTCTCACGGCCACCCTGGCCGGGGTGAGCTTTTGGGGCGGGCTGACCACGGTGGGCATTTCCCTGGCCGTGGTCACCGTGGTTTTGATGGTGGCGCTGCGGCACGGCCACCGGGTCTCCCAGGCGGTCCACAGTGAGAACTCAGAGGTGTTCCTGCTCAACCTCCTGGGTTTGGCCCTGCTGGTGGCCGGGCTTGCTTCCGCCATGCAGGTTTCGGCCGCGGTGGGTGCATTTATGCTCGGTATCGCCATCTCCGGCGCCACCGCCCACAACGCCACCCGGATTCTTGAGCCGCTCCGTGACCTTTTTGCGGCCATCTTTTTTGTGGCCTTTGGGCTCAATACGGATCCCTCCTCCATCCCTCCTGTCCTTGGCTGGGCGCTGGCCCTGGCCTTGATCACGGCCATCACCAAGATGGTCACCGGCGTGTGGGCCGCCAAGCGTGCGGGGATCGCCCGGCCCGGCCGGTACCGGGCCGGCGCCGCCCTCATTGCTCGCGGTGAATTCTCCATTGTCATCGCCGGGCTGGCCGTGGCGTCCGGGGTAGTCACTGGTGAACTGGCAGCCCTCGCCACTGCTTACGTGCTGCTCATGGCGATCATCGGTCCGCTGGCGGCCCGTTATGTAGAGCCCCTGGTCAAGCCGTTCCTGCGCCCGCTGCCCGTGCCTGCCCAGGCCTAA	MDPLALTLIELGAVVFCLGLLARLAGRIGMSPIPLYLVGGLAFGAGGVMELEGIHEFAHLSGEIGVILLLLMLGLEYTAAELFTGLRRSWQAGVLDLALNFAPGAGLALLLGWGVVGALVMGGVTYISSSGIAAKVITDLGRIGNRETPVVLAILVFEDLAMAIYLPILTATLAGVSFWGGLTTVGISLAVVTVVLMVALRHGHRVSQAVHSENSEVFLLNLLGLALLVAGLASAMQVSAAVGAFMLGIAISGATAHNATRILEPLRDLFAAIFFVAFGLNTDPSSIPPVLGWALALALITAITKMVTGVWAAKRAGIARPGRYRAGAALIARGEFSIVIAGLAVASGVVTGELAALATAYVLLMAIIGPLAARYVEPLVKPFLRPLPVPAQA	PGPT0014395_3955	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
D1-29_04438	957			hypothetical protein	ATGCGGCAGCCGTCTCCTCTCCCAAGCCATCTTGCGGGCCGTTCATTCACCCTGCAGGAGCAGCTGGATGCGGGCGTGGGGTCCGGGCGGGCTTGGCGGAGTGACCTGCGCGTGGCCAGCAGGGGAGTACGCGTCCCTTGGGGTGACGCACAGACTCTGCACCACACCTGCGCGTTACTCACGGGGCTGACACCTCAGTCTGTCTGCTGCCTGGGAACGGCCGCGCAACTCTGGGGCTGCCCTTTGCCGCTGGCGCTGCAAAACGATCTGAAAATCCACCTAGCCAAAACTGGTGGAGGCGCCCGCCCGGTCCGAAAAGGTGTTGCCGGTCACCGCTTGCTCCTCCGTGACACAGATGTGGGAGAGTTCGACGGCGTGCCGGTTACCAGCCCCGCCAGGACTTGGTTGGACTTGGCTTCGGTCCTGGATATGGAGGACCTCGTGGCCGCGGGAGATCACTTCATCTGCTGGCAGTCCAGGAGTTTTGGGCCGCGGAAGGAAGCGTTCTGCTCACTCGATGATCTCCGGGAGCAGGTCCTTGCCAACCCTGGGGCGAGGGGAGTCCGAACGGCGAGGCGCGCCGTGGAACTGTGCCGGGTTGGGGCAGATTCTGCGCCCGAGACCCGGCTGCGGCTGGCTCTTGGCCGGCTGCGACTGCCAGAGCCGACGTTGCGCTACGTGGTTCTGGACCACACAGGGTGGGAGTTGGCTTGGCCTGACATTGCCTATCCGGCCTTCAAGGTAGCCGTCAATTACGATGGCCGCCACCACCTGCAGGAGCGTCAGCGCGAATCCGACATCCGCCGGGACGAGTCAATAGCCGCCATCGGCTGGACATCAGTCACCATCACAGCGAGCCAGGTGCGGACGTGGGGCTTCGATGGCTGCGCACATCGGGTAGCCGATGCGTTGGTTCGGGCTGGATGGCGGGTCGAGAGGTGCGGTCTCGGTACTTAG	MRQPSPLPSHLAGRSFTLQEQLDAGVGSGRAWRSDLRVASRGVRVPWGDAQTLHHTCALLTGLTPQSVCCLGTAAQLWGCPLPLALQNDLKIHLAKTGGGARPVRKGVAGHRLLLRDTDVGEFDGVPVTSPARTWLDLASVLDMEDLVAAGDHFICWQSRSFGPRKEAFCSLDDLREQVLANPGARGVRTARRAVELCRVGADSAPETRLRLALGRLRLPEPTLRYVVLDHTGWELAWPDIAYPAFKVAVNYDGRHHLQERQRESDIRRDESIAAIGWTSVTITASQVRTWGFDGCAHRVADALVRAGWRVERCGLGT				NA	NA	NA	NA	NA
D1-29_04439	606	dcd	COG0717	dCTP deaminase, dUMP-forming	GTGGATGACGCATGCGGTACTTTGGGAGGCGTGCTGATCTCTGACCGCGATATTCGTGCCGAAATAGACTCCCAACGGATTGTCCTTGAACCGTACGATTCCGCGATGGTCCAGCCGTCGTCGGTGGACGTCCGGATCGACCGGTTCTTTCGGCTTTTCGACAACCACAAGTACGCGCACATCGACCCGGCGGAAGAGCAGCCCGAGCTGACCCGCCTGGTGGAGGTTGAGACCGGCGAGCCCTTTATCCTGCACCCCGGTGAGTTCGTCCTGGGCTCCACCTACGAGACAGTCACGCTGCCGGATGACATCGCTGCCCGGCTCGAAGGGAAATCCTCGCTCGGCAGGCTGGGGCTGCTGACGCATTCCACGGCCGGGTTTATCGACCCCGGCTTCTCCGGCCACGTGACCCTGGAGCTATCGAATATGGCCACCTTGCCCATCAAGCTGTGGCCGGGAATGAAGATCGGCCAGCTGTGCTTCTTCCGGCTGACCTCGGCCGCCGAGCACCCCTATGGCTCAGGCCAGTATGGCAACCGGTACCAGGGCCAGCGCGGCCCCACCGCCAGCCGCAGCCACCAGAACTTCCACCGAACCTCGATTTAG	MDDACGTLGGVLISDRDIRAEIDSQRIVLEPYDSAMVQPSSVDVRIDRFFRLFDNHKYAHIDPAEEQPELTRLVEVETGEPFILHPGEFVLGSTYETVTLPDDIAARLEGKSSLGRLGLLTHSTAGFIDPGFSGHVTLELSNMATLPIKLWPGMKIGQLCFFRLTSAAEHPYGSGQYGNRYQGQRGPTASRSHQNFHRTSI	PGPT0021225_1495	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021225-dcd-K01494	NA	NA
D1-29_04440	1578			hypothetical protein	ATGAACGACGCCGGCGCCCCCCTTGCCGGGGAAAGTTCAGAAGAGACGGCGCTCACCCCCGCGGTGGAACCGGCCGCCGAACCTGGCATCCGGCCAGCATCGCCGGTACAGGCTCCTGCCACAGGGACGACAGCGAAAGCCGGCACCGGCCAGGCCCTCACCGAAGAAACTGCACCGAACCCCGGATCTACCGAGGAGCCAGCCCCCGAAGTTCCCTGGATTCCGCCGCTCTGGGCGCCGGACTCTGAACTGGCCTCGCCAACGGCCCCGGCGCCGGCGGCACCTCCCGTGCCCGGGGCAGAGTCCGCCACTACTGCCCCCGGCGCCGAGGCACTGGTTCCGGATAACAACGCCGCGGCCATACTCACGGTGTTCAACAGGATCAATGAATACCGGGCGTCCAGGGGCCTGGCGCCGGTCAAGTACCACGCCACGGTGGCCGGGATGGCCCAGGAATGGTCCGACAGCATCGCCTCACGGGAGGTTATTGAGCACCGCGCGAGTTTCTGGACAGACCCCCGCGCCCTGAAACCGAACAACGGCGCCGGCGAGGTCATCGCCATCCGTACCGACCGTGACGCAGCAATGCTCGTGGAGTGGTGGAAGGGTTCCCCCGGCCACAACGCCATGCTGCTCGATCCGCGGTTCAACGTGATGGGCGCAGGGATCACCTACACTGACCGCACGTACAAAATCTGGGGTGTGGTCAACTTCTTCGGCTACACCACGCTGCCGGCAGGCACCACCAACTCCCCCGGCGGCGCCCCGGCGCAGCCTACCCTTCCCCCCACCGTCTGCGACCCTGCCGTCAAGCACATGCCGCCAACTCTTGACCTTGCCAGCGCGGCCATCAACAGCCCGGCGGACCTGATCTCGATCAACTCTTCCGGGCAACTCCTCAACCGGCCAGCGGCCGGGAACCGGGCCTTCGGCGGGGCCAAGGTTATTGGTTCCGGCTTCGGGACTGCCAAGGAAGTGTTCATTACGGACTGGGAGCGTGATGGCACCTATGACCTCCTCACCCAATGGCAGGACGGGCGGCTGACGCTGCATGCCGGCGTGGCCAGCGGAGGCTTCCAGGCCCCGGTGACACTGGGGCAGTCCGGCTGGGCCCCGCTGACTCTGGCAGTGGGCGGCTGGTGCGCCAACAACCGTCTGCCCCAGGTCCTGGCGCTGGACGCTGAAGGAAATCTCTTCCTCTACCCAAACAAGGGCCTGGCCGATATGGCGGCAAGGACACTCATCGCCAGCGGGGTCACGGCCAGGCGGCTGGCCATGGTGGACTATGACGCCGACGGTTTCCAGGACCTGCTGGCCCTGCGGACGGACGGTGCGGTCCAGCTCTATCGTGGTGGAGGGATGCCAACTCCCAAGGCCGAGGGCCGCCCCACCGTGGCCACAGGCTGGTTGGATGTTACGGCGGTCCGGCCGCTGAAGGATGCCACCGGCTTGAACTCCACAGGGGTGGCGCTGCGGCGGGCTAACGACGTTGTGCAGTACTGGGACCTCACCACCGGAAGCCTCGCGGCGCCGTCGAACATCATCGGAAACTGGACGGGGCAGCGGCTGGCGCAATAG	MNDAGAPLAGESSEETALTPAVEPAAEPGIRPASPVQAPATGTTAKAGTGQALTEETAPNPGSTEEPAPEVPWIPPLWAPDSELASPTAPAPAAPPVPGAESATTAPGAEALVPDNNAAAILTVFNRINEYRASRGLAPVKYHATVAGMAQEWSDSIASREVIEHRASFWTDPRALKPNNGAGEVIAIRTDRDAAMLVEWWKGSPGHNAMLLDPRFNVMGAGITYTDRTYKIWGVVNFFGYTTLPAGTTNSPGGAPAQPTLPPTVCDPAVKHMPPTLDLASAAINSPADLISINSSGQLLNRPAAGNRAFGGAKVIGSGFGTAKEVFITDWERDGTYDLLTQWQDGRLTLHAGVASGGFQAPVTLGQSGWAPLTLAVGGWCANNRLPQVLALDAEGNLFLYPNKGLADMAARTLIASGVTARRLAMVDYDADGFQDLLALRTDGAVQLYRGGGMPTPKAEGRPTVATGWLDVTAVRPLKDATGLNSTGVALRRANDVVQYWDLTTGSLAAPSNIIGNWTGQRLAQ				NA	NA	NA	NA	NA
D1-29_04441	447			hypothetical protein	ATGGCATTTGCAGAGCACGAGGTTTTCATCCGGCGTGACGCGATGGCCGTTTACACCTACCTGATTGACGGAATGAACCTCCCCCAGTGGCGCGAAGGGATCCGCACCATCAGCCTCGCATCGGGGGCGGCCGGCACCAAAGGCGCCGTCTATCAGCAGACCGTCTCCAGCCGCTCCGGACGGTTTATCACGAGTGAATTCGAGATAACCCAGGCCCGCCCCGGCGCAGAGATTCAGTTCCGGGTCATCAGCGGACAGGCCCGGCCAGCGGGCGGTTACTACCTCAGCACCGAAGCCGAGGGAACCCGGGTGCGGTTCGCCCTGGAGTTCCAGCCCAAAGGCCTGATGGGCGGCCTGATGAGTGCCATGATCCAGCGGACCATGAAAGCAGAAGTCGCCCAGCTGGAGCGGCTTAAGGACGTCCTGGAACTCCAGGCCGCCGCCTAG	MAFAEHEVFIRRDAMAVYTYLIDGMNLPQWREGIRTISLASGAAGTKGAVYQQTVSSRSGRFITSEFEITQARPGAEIQFRVISGQARPAGGYYLSTEAEGTRVRFALEFQPKGLMGGLMSAMIQRTMKAEVAQLERLKDVLELQAAA				NA	NA	NA	NA	NA
D1-29_04443	378			hypothetical protein	ATGGGATCCATAGCCATTGAAAACACCCTCCTCATCCCCTGCAGCCGCGCCGCGGTCTACGCCTTCTGCGTCGATGCAGCAGCCCGTTCGGAAGTCCCGGGGCAGGAAAACCTCGTGCCGGAGTTCCTGGGTCTGGAACCTGAACGTTCGTGGACCGAGAAATTGGACGGCAGGAATGAAACCATCACCTGCTCGTATGTGGTTTATCCCGTGGCGGACAGTACCAGGATGACGGTGAGCGCTGAATACGCGCCCAAGGGGCTGGCCCGCCTGCTGCCCGCCGCAAAGGAAGGCAGCTACCGCAAACAGGAGGAGGCCAGGCTGGCCGCACTCAAAAAGGCGATCGAGCGGCGGGTCAGGCAGGAGAGGAAAACCTAG	MGSIAIENTLLIPCSRAAVYAFCVDAAARSEVPGQENLVPEFLGLEPERSWTEKLDGRNETITCSYVVYPVADSTRMTVSAEYAPKGLARLLPAAKEGSYRKQEEARLAALKKAIERRVRQERKT				NA	NA	NA	NA	NA
D1-29_04444	138			hypothetical protein	ATGGCTGACAAGTCCCCGCGTCAAGCAGCATCCAAAAAAGCCGGCAAGTCCATCAAAGAAAAACGAGCAGACAAGAGGGCTGCAGCCGCACCGGCCAGTTCCCTGGACGTCACGTCCAAGGCCGCCAAAAAGAAGTGA	MADKSPRQAASKKAGKSIKEKRADKRAAAAPASSLDVTSKAAKKK				NA	NA	NA	NA	NA
D1-29_04445	1368	entS_4		Enterobactin exporter EntS	GTGGCACCCCCACCGCCATCGTCGGCAACAGTCAGCCAGCCCATCATCGACTCCGCTTCCGCCCAGACCCAGCCCATCGCCGTCGTCAGTGAACGCCTGCCCTGGAAGCACACGTTCATCTCCCTGAAGGTTCCCAACTTCCGCATCTTCGCCATCGGGCACTTCGTGGCCGTTATCGCCGTCTGGATGCAGCGCATCGCGCAGGACTGGATGGTCCTTGAACTCTCCGGCTCGGTCACCGCCGTCGGCATCACCGTTGCCCTGCAGTTCATGCCTTCACTTTTCCTGGGGCCGTGGGCCGGGATGATGGCGGACAGGTTCGCCAAGCGAAAGATCCTGATCGTGTGCCAGTGCATGGCCGCAGTCCTGGCCGCTGCGCTCGCTGCCTTGGCCCTCAGCGGAGCGGTGGAGGTCTGGCACGTCTATGTCATCGCGCTGGTGCTGGGCCTGGTCACGGTGCTGGACCAGCCCGCGCGGCAGGTATTCGTGAACGAGTTGGTGGGCCCCAAGTATCTGCGCAACGCCATCAGCGTCAACTCCACCACGTTCCAGCTGGGCGGCCTGATCGGGCCTGCGCTGGCTGGAATCCTGCTCACTGCCGTCGGGGCAGGCTGGGCCTTCGCGGCGAACGCCGTGGCATGTTGCTCCACCGTGACCATGCTGCTACTCCTGCGGAAGGACCAGCTGTATGTCAGCACTCCGGCCCCGAAGCGCAAAGGGATGCTTCGGGAAGGCCTGAGGTACGCGCTGGGCAAACCAACCATTTACTGGCCGTGGCTGATGGCCGGGTTCATCGCCGTCTTCGCCATGAGCCTGCCGGTGCTGCTGGCAGCCTTCGCTGACCACGTGTTCGACGTCGGCGCCGGCGGCTACGGCCTGCTGAATGCGCTGGTGGCGCTGGGTGCCCTCTGCGGTGCCATCGCCTCCACCCGCCGCCGGCAGCTTCGGCTCCGGTCAGTGGTGTTCTGCGCCGGCATGTACGGCCTGATGCTGTGCCTGGCTGCCCTGGCCCCGTCGATGCTGTGGTTCAGCGTGGTGATGGTGCTCTCCGGCTTCTGGTGCCTGATGTTCCTGACCGGCTCCAACCAGCTGGTCCAGATCAGCTCCAACATGGGCATCCGCGGCCGCGTCATGAGCCTGTACATCATGGTGCTGATTGGCGGCCAGGCCATTGGCGGTCCCATGCTGGGCTGGATCGCCGAACATGCAGACCCGCATGCGGCGCTGCTCGTCTCCGGCGGTGTGCCGGCGCTCGCAGCACTCACAGTCGGTGTTGTCCTTGCCCGGAAAGGTGCACTGAAGCTGCGGGTGGACCTGAAAGACCGCCGCCACCCGGTACGGATTGTCAGCCGGCCGGCAGCGGCCTAG	MAPPPPSSATVSQPIIDSASAQTQPIAVVSERLPWKHTFISLKVPNFRIFAIGHFVAVIAVWMQRIAQDWMVLELSGSVTAVGITVALQFMPSLFLGPWAGMMADRFAKRKILIVCQCMAAVLAAALAALALSGAVEVWHVYVIALVLGLVTVLDQPARQVFVNELVGPKYLRNAISVNSTTFQLGGLIGPALAGILLTAVGAGWAFAANAVACCSTVTMLLLLRKDQLYVSTPAPKRKGMLREGLRYALGKPTIYWPWLMAGFIAVFAMSLPVLLAAFADHVFDVGAGGYGLLNALVALGALCGAIASTRRRQLRLRSVVFCAGMYGLMLCLAALAPSMLWFSVVMVLSGFWCLMFLTGSNQLVQISSNMGIRGRVMSLYIMVLIGGQAIGGPMLGWIAEHADPHAALLVSGGVPALAALTVGVVLARKGALKLRVDLKDRRHPVRIVSRPAAA				NA	NA	NA	NA	NA
D1-29_04446	855	cysL	COG0583	HTH-type transcriptional regulator CysL	GTGTTTGAACCCGCCCAACTCCGCTCTTTCCTCGCCGTCGCAGAGACGCTGAGCTTCACCAAAGCAGCGGAACGGCTTGGCCTTGCCCAGCCAACCATCAGCCAGCACGTGCGGAAGTTGGAGGCAGCTGCCAAGCGCGTCCTGGTCACCCGTGACACCCGTGATGTACGGCTTACGGACAACGGCGACGCCATGGCCGGCTTCGCCCGGAACATCCTCTCCGCCCACGACGCCGCCTCGCGCTACTTCTCCGGCTCAGCCATGCGCGGCCGCCTGCGCTTTGGCACCGCCGATGACCTCGCCATCACCGGGCTGCCCCGGATCCTGCGCGAGTTCCGGCAGATCTATCCCCAGATCAACCTGGAACTGACGGTGGGCCAGAGCGATCAGCTCTACAAAAAACTCAACGCCGGCCAGCTGGATCTGGTGTTCGTGAAATGGGTGGCCGGGGCCAAGGACGGCACCGTGGTCCAGCACGATTCATTCTCCTGGGTAGGGCTGGAGCAGACCTTGCTGGAGCCAGGCAGCCCAGTCCCGCTGATTGCCTACCCGTCCCCCAGCCTCAGCCGGAAGCTGGCCATCGACGCCCTGGAATCGCATGGCAGGACGTGGCGGATTACGTGCACCACGCGGCAGATCAGCGGTGTCCTGGCCGCAGTTCGTGCAGGCATTGGCGTTGCCGTCATGCCGTCGTCGCTGGTCCCGGAGGACCTGAAGATCATCACCCGACGCTTCGAGCTTCCCCCGGTTGGCGACGTCGACTTCACCCTGATCCGCAACCCGCTGGCCAACGCCGAGGTGATTGATGCCCTGACGCAGGCCATCGTGGGCAGGACCCTGCAAAAGTCCGCCTGA	MFEPAQLRSFLAVAETLSFTKAAERLGLAQPTISQHVRKLEAAAKRVLVTRDTRDVRLTDNGDAMAGFARNILSAHDAASRYFSGSAMRGRLRFGTADDLAITGLPRILREFRQIYPQINLELTVGQSDQLYKKLNAGQLDLVFVKWVAGAKDGTVVQHDSFSWVGLEQTLLEPGSPVPLIAYPSPSLSRKLAIDALESHGRTWRITCTTRQISGVLAAVRAGIGVAVMPSSLVPEDLKIITRRFELPPVGDVDFTLIRNPLANAEVIDALTQAIVGRTLQKSA				NA	NA	NA	NA	NA
D1-29_04447	315			hypothetical protein	ATGACGACAGCCAAGAACACCCAATTCCACACAGCACACGCACGCCCCCTCAACACGGCGCGCCCGCTGACTACCCGCTATTCAAGCCTCGGCTCCGGCATCGCCGTTGAGTCCGAATATGTCGGAAAGCCCACCTGCGAAAAGTGCGGAACCGACGAATTCATCTACCTTGAGTCCTACGTCCCGCCTGTCTTCCGGCGCGACGGAGCAATAAGGACACTCGGCGAGGTTGCCTACACGTGCACCCGCTGTGAAGACTTCTCCGCCCATAGCGTTCCCGCGTCGTGGACACCCCCAGGCTGGTATCTGGGCTAA	MTTAKNTQFHTAHARPLNTARPLTTRYSSLGSGIAVESEYVGKPTCEKCGTDEFIYLESYVPPVFRRDGAIRTLGEVAYTCTRCEDFSAHSVPASWTPPGWYLG				NA	NA	NA	NA	NA
D1-29_04448	3519	rocA		1-pyrroline-5-carboxylate dehydrogenase	ATGACCAACATTGCAGTGAAGACCGGTGTGAATGCCGGCCCAGCCAGCTCCTCCACACGTGCAGATGTGCCGGAGGCGAAGGCGCTTGCCCAGGAGAGCATCGCGTTGGTGCGCCACTGGCTGACAGAGGCCTCGAAGGTGCCGGTGGACGCTTCCGCGGAGCAGCTGGCCGGTGTCCTCAAGGACCCCAACGGCCTGGAATTCACCGTTGGGTTTGTGGACGGTGTGGTCCGCCCCGAAGACATCCACGTGGCGGCCCGGAACCTGGCGGCCCTGGCCCCCAAGGTCCCCGCCTTCCTCCCGTGGTACATGCGCAGCGCAGTCCGTTTGGGGGGCACCATGGCCCCCGTCCTTCCGCAGGTTGTCATTCCGGTCGCCCGCCGGGTGCTCCGCGAAATGGTGGGCCACCTGATCGTGGACGCCACCGACGCCAAGCTTGGCCCCGCCATCGCGAAGATCCGCAAGGACGGCATCAAGCTCAACGTGAACCTCCTGGGCGAGGCCGTCCTGGGTGAACACGAAGCTTCCCGCCGGCTCGAAGGCACCCACACCCTGCTGGCCCGTCCCGACGTGGACTACGTGTCCATCAAGGTCTCCTCCACCGTGGCACCCCACTCGCCCTGGGCCTTTGACGAGGCTGTGGAGCACGTGGTGGAGAAGCTCACTCCGCTGTTCGCCAAAGCCGCGTCCTTTGCCGGTGCGGGACAGAAGGCCAAGTTCATCAACCTGGACATGGAGGAATACAAGGACCTGGACATGACCATCGCGGTGTTCACCCGGATCCTGGACAAGCCCGAGTTCAAGAACCTCGAGGCCGGCATTGTGCTGCAGGCCTACCTGCCGGACGCGCTCTCCGCCATGATCCGGCTGCAGGACTGGGCGGCCGAACGCCGTGCCCAGGGCGGCGCGCCGATCAAGGTCCGTGTGGTCAAGGGCGCCAACCTGCCCATGGAACAGGTTGAGTCCTCCCTGCACGACTGGCCGCTGGCCACGTGGGGAACCAAGCAGGATTCCGACACCAACTACAAACGCGTCATCAACTACTCCCTGCACCCGGAGCGGATCCGCAACATCCGGATCGGCGTGGCCGGCCACAACCTCTTTGATATCGCCTTTGCCTGGCTTCTGGCCAAGCAGCGCGGCATCGCGGATACCGCACAGCAGAACATCGAGTTCGAGATGCTCCTGGGCATGGCGCAGGGCCAGGCGGAGGCCGTCAAGAAGGATGTGGGCTCGCTGCTGCTCTACACCCCGGTAGTGCACCCGGCCGAGTTCGACGTCGCCATTGCGTACCTGATCCGCCGCCTGGAAGAGGGCGCGAGCCAGGACAACTTCATGTCCGCAGTCTTCGAACTGAGCGAGAACGAATCCCTGTTCGAGCGTGAGAAGCTGCGCTTCCTGGTCTCCCTGGAAAAGCTCGACGACGCCGTCCCGGCGCCCAACCGCCGGCAGAACCGCAGCCTGCCGCCGGAGCCGCTGCCGCACGATTCATTCAAGGACACCCCTGACACCGACCCGTCACTGCCGGCCAACCGGGACTGGGGCCGGGCCATCCTGGGCCGCGTCCCGTCCTCCACGCTGGGCAACGCTGCCGTGGAGGCCGCCACCATCAGGGACGCGGACACCCTCAACACGGTGATCGAAACGGCCGTGGAAAAGGGCAAGGCCTGGGGTGCCCTGTCCGGCGACGAGCGGGCTGAAATCCTGCACCGGGCCGGCGACGTCCTGGAGGCCCGGCGCGCCGACCTGCTCGAGGTCATGGCCAGCGAAACCGGCAAAACCATCGACCAGGGCGACCCCGAGGTCAGCGAAGCCGTGGACTTCGCCCACTACTACGCCGAGTCCGCGCGGAAGCTGGCAAAGGTCGACGGTGCCACGTTCGTCCCGGCGAAGCTCACCGTGGTCACTCCGCCGTGGAACTTCCCTGTCGCCATCCCGGCAGGGTCCACCCTTGCGGCGCTCGCCGCCGGCTCCGCCGTCGTGATCAAGCCTGCCAAGCAGGCCCGCCGCAGCGGTGCGGTGATGATCGAGGCGCTGTGGGAAGCGGGCGTCCCGCGTGACGTGCTCACCATGGTGCAGCTGGGCGAGCGGGAACTCGGGAAGCAGCTGATCTCCCACCCAGCCGTGGACCGGGTGATCCTGACCGGCGGCTACGAGACCGCCGAGCTGTTCCGCTCCTTCCGCCAAGACCTTCCGCTGCTGGCAGAGACCAGCGGCAAAAACGCCATCATCGTCACCCCCAGCGCCGACTTCGACCTGGCCGCCAAAGACGTGGCCTACTCCGCCTTCGGCCACGCCGGACAGAAATGCTCTGCGGCTTCACTGGTGATCCTGGTGGGCTCCGTGGCAACATCCAAGCGGTTCCGCAACCAGCTGATCGACGCCGTGACATCCCTCAAGGTGGGCTACCCGCAGGACCCCACCAGCCAGATGGGACCGATCATCGAGCCGGCCAACGGCAAGCTGCTCAACGCCCTGACCACCCTCGGCGAAGGCGAAAGCTGGGCCATTGAACCCCGCAAGCTGGACGGCACCGGCAGGCTGTGGAGCCCGGGCGTCCGCTACGGCGTCAAGCGTGGATCCTACTTCCACCTCACCGAATTCTTCGGACCCGTGCTGGGCGTCATGACGGCGGATACCCTGGAAGAGGCCATCGCGCTCCAGAACCAGATTGAGTACGGCCTCACCGCAGGTTTGCACTCGCTCAACTCCGCTGAGCTGGCCACATGGCTGGACACCATCCAGGCCGGAAACCTGTACGTGAACCGCGGCATCACAGGCGCCATCGTGCAGCGCCAGCCCTTCGGCGGCTGGAAGAAGTCTGCTGTAGGTCCCGGAACCAAGGCCGGCGGCCCCAACTACCTGGCAGGCCTCGGCGACTGGATCAGCAAGGAAAGCTCGCTCGGTTCACGGGTCACAAACCCCGGTGTCCGCCGGATCATCAACGCGACCGGTAGCGCCGTTGAGCCTGCCGAGCTGGAATCCCTGCAGCGCGCTGTGGCGTCCGATGCCCAGGCCTGGGCGGACGAATTCGGTACCGCCAAGGATGTCTCCGGCCTGAGCGCGGAGCGGAACATCTTCCGCTACCGGTCCCTGCCGGTAACCGTCCGCCTCTCCGAAGGTGCCCCGCTGGTGCACCTGGCGCGGACTGTGGCCGCGGGCGTTGTGGCAGGCTCAAGGCTCACCGTTTCCACCGCCGTCGAACTTCCCGCCCAGCTCCGTTCGGTGTTTACGGGACTCGATATTGACGTGACCGTGGAGTCCGACGCCGGCTGGCTGGCAACGGCTGCCCGGCTCGCCGCCGCCGGCAAATTGTCGGGGGCGCGGATCCGCCTGATCGGCGGGAACTTCACCGCACTGGCGGAGGCGACAGACGGGCGGCCCGACCTCGCGGTTTACGCCCACGAGGTGACCGAATCCGGACGGGTGGAGCTGCTGCCGTTCCTTCATGAGCAGGCTGTCAGCATCACCGCACACCGCTTCGGAACCCCGAACCACCTCTCGGACGAGCTCATCTAG	MTNIAVKTGVNAGPASSSTRADVPEAKALAQESIALVRHWLTEASKVPVDASAEQLAGVLKDPNGLEFTVGFVDGVVRPEDIHVAARNLAALAPKVPAFLPWYMRSAVRLGGTMAPVLPQVVIPVARRVLREMVGHLIVDATDAKLGPAIAKIRKDGIKLNVNLLGEAVLGEHEASRRLEGTHTLLARPDVDYVSIKVSSTVAPHSPWAFDEAVEHVVEKLTPLFAKAASFAGAGQKAKFINLDMEEYKDLDMTIAVFTRILDKPEFKNLEAGIVLQAYLPDALSAMIRLQDWAAERRAQGGAPIKVRVVKGANLPMEQVESSLHDWPLATWGTKQDSDTNYKRVINYSLHPERIRNIRIGVAGHNLFDIAFAWLLAKQRGIADTAQQNIEFEMLLGMAQGQAEAVKKDVGSLLLYTPVVHPAEFDVAIAYLIRRLEEGASQDNFMSAVFELSENESLFEREKLRFLVSLEKLDDAVPAPNRRQNRSLPPEPLPHDSFKDTPDTDPSLPANRDWGRAILGRVPSSTLGNAAVEAATIRDADTLNTVIETAVEKGKAWGALSGDERAEILHRAGDVLEARRADLLEVMASETGKTIDQGDPEVSEAVDFAHYYAESARKLAKVDGATFVPAKLTVVTPPWNFPVAIPAGSTLAALAAGSAVVIKPAKQARRSGAVMIEALWEAGVPRDVLTMVQLGERELGKQLISHPAVDRVILTGGYETAELFRSFRQDLPLLAETSGKNAIIVTPSADFDLAAKDVAYSAFGHAGQKCSAASLVILVGSVATSKRFRNQLIDAVTSLKVGYPQDPTSQMGPIIEPANGKLLNALTTLGEGESWAIEPRKLDGTGRLWSPGVRYGVKRGSYFHLTEFFGPVLGVMTADTLEEAIALQNQIEYGLTAGLHSLNSAELATWLDTIQAGNLYVNRGITGAIVQRQPFGGWKKSAVGPGTKAGGPNYLAGLGDWISKESSLGSRVTNPGVRRIINATGSAVEPAELESLQRAVASDAQAWADEFGTAKDVSGLSAERNIFRYRSLPVTVRLSEGAPLVHLARTVAAGVVAGSRLTVSTAVELPAQLRSVFTGLDIDVTVESDAGWLATAARLAAAGKLSGARIRLIGGNFTALAEATDGRPDLAVYAHEVTESGRVELLPFLHEQAVSITAHRFGTPNHLSDELI	PGPT0020210_1490	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821	NA	NA
D1-29_04449	1464	yhdG_5	COG0531	putative amino acid permease YhdG	ATGAGCACAAGAGATTTGACCCAGTCGATCATGCGGCGAAAGCCCTTGAACGACATCGAAGAAGAAAACAAGCACAGCGGGCTGTTCAAGTCGCTTGGCCTCTGGCAGCTGACCGCGATCGGTGTCGGCGGCATCATCGGCGTCGGGATCTTCTCCCTTGCCGGGCTGGTCGCAGCAGGTAACGAGGACACTCCGGGTGTGGGGCCCGCCGTGCTGATTTCGTTCCTGATTGCAGGCCTCGCATCCGCGGCGGCGGCCCTGTCATACGCGGAATTCGCGGGCATGATTCCCCGTGCCGGCTCCGCCTACACCTACGGTTACGTGGCTTTGGGTGAAGTCATCGGCTGGTTTATTGGCTGGGACCTGCTGCTCGAATACATCGCCATCGTGGCGGTGGTGGCCATTGGCATCTCCGGCTACTTTGAAGCCTTCCTTTCGGGTCTGGGAATTCACCTGCCTACCTGGATGGCATCGACGCCGGATGAAGGCAAGGGGGGCATCATCAACATTCCCGCCATCCTGGTCTGCCTCCTGGTGACGTGGATCCTGAGCCGCGGTACAAAGGCCTTCGGCCGGTTTGAGCTGGTGGCCGTGGCGATCAAGGTAGTCCTGATCCTCTTCATCATCGGTCTTGGCGTCTTCTACATCGATGCCAACAACTACAACCCGTTCATGCCCAGCGGCTTTGGCCCCGTGCTGGCAGGCTCTGCCACTGTCTTCTTCGCTGTCTTCGGTTACGACGCGATGAGCACGGCTGCTGAGGAAGCAAAGGACGGCAAGAAGCACATGCCCAAGGCCATCGTCCTGTCCCTGATCGTGGCCATGCTGCTCTACGTTGCCGCAACCCTGGTTCTCACCGGAATGCAGAACTATAAGGACATTGATCCTGCTGCAGGCTTCGCTTCCGCCTTCACCAGCGTCGGCCTGCCGGTGATAGCCACCATCATCTCCGTGTTCGCAGTCCTGTCCATCCTCACTGTGATGCTGACCTTCCTGCTGGGCGTCACCCGCGTCTGGTTCTCCATGAGCCGCGACGGGCTGCTGCCGGGCTGGTTCGCCGGAACCGACAAGCACGGCACCCCTCAGCGCGTCACATGGATTGCTGGAATTTCCTCCGCCCTGCTGGCCGGCGTTTTCCCCATCAAGGCCGTGGCCGACCTGACCAACATCGGGATTCTGGCCGCGTTCGTAGTGGTCTGCCTCGCCGTCATCGTGTTCCGTTACAAGAGGCCTGATGCGCCGAGGACGTTCCGGCTGCCGCTGATGCCCTTCATCCCGGCTTTCGGCGTCCTGGCCTCTGCCCTGCTCATCTGGCAGCTGCCGGCTGACACCAAATGGCGCTTCGGCGTGTGGCTCCTCATCGGCCTGGCCATCTACTTCTTCTACGGCCGCAAGCACTCGCTGATGAACCCCAACAGCCCGCGCCACACGAAGACCGACGAGGTGGACACTCCCGTCCGCTAA	MSTRDLTQSIMRRKPLNDIEEENKHSGLFKSLGLWQLTAIGVGGIIGVGIFSLAGLVAAGNEDTPGVGPAVLISFLIAGLASAAAALSYAEFAGMIPRAGSAYTYGYVALGEVIGWFIGWDLLLEYIAIVAVVAIGISGYFEAFLSGLGIHLPTWMASTPDEGKGGIINIPAILVCLLVTWILSRGTKAFGRFELVAVAIKVVLILFIIGLGVFYIDANNYNPFMPSGFGPVLAGSATVFFAVFGYDAMSTAAEEAKDGKKHMPKAIVLSLIVAMLLYVAATLVLTGMQNYKDIDPAAGFASAFTSVGLPVIATIISVFAVLSILTVMLTFLLGVTRVWFSMSRDGLLPGWFAGTDKHGTPQRVTWIAGISSALLAGVFPIKAVADLTNIGILAAFVVVCLAVIVFRYKRPDAPRTFRLPLMPFIPAFGVLASALLIWQLPADTKWRFGVWLLIGLAIYFFYGRKHSLMNPNSPRHTKTDEVDTPVR	PGPT0020810_2238	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
D1-29_04450	918	gltC_4		HTH-type transcriptional regulator GltC	ATGCTCGACGTCCGGCGGCTGCGGCTGCTCCGTGAACTGCAGATCCGAGGCACTCTGGCGGAAGTGGCCGAGGCGCTTCAATACAGCCCTTCGTCAGTGTCCCAGCAGCTGGCCCTGCTGGAAAAAGAGGCCGGGGTGGAGTTGCTCCGGAAGACGGGGCGCCGCGTGCAGCTGACCCCCCAGGCGGAAGTCCTGGTGGCCCACACCGCGCAGCTGCTGGAGACCCTGGAGCAGGCGGAGGCGGACCTGGCAGCGTCGCTGACCACCGTCACCGGAACGGTCCGGATCGCCGTTTTCCAGTCCGCGGCCCTGGCCCTGATGCCGGACACCCTGTCCCGGATGTCCACCGCCTACCCCGAGGTCCGGATCGAAATGACCCAACGGGAGCCTGAAACAGCCCTGCATGAAACGTGGGCCCGGGACTTCGACCTGGTGATCGCCGAACAGTATCCGGGTCACGCCGCTCCCCGTTACCCCGAACTGGACCGCATCAAACTCACCACTGACGCCATCAGGCTTGCGGCTCCGCCGGAGGCTCCCGGCAGGCCGCAGATCACGTCCCTCAAGGACACCGCGGACATGCCTTGGGTGATGGAGCCCAGGGGTGCGGCCTCCCGGCACTGGGCCGAGCAGGCGTGCCGCAGCGCTGGTTTTGAACCCGATGTACGGTTCGAAACAGCTGACCTGCAGGCTCAGATCCGGCTGATCGAGTCGGGGAACGCCGTGGCTTTGATGCCGGACCTGGTCTGGACCGGGCGGGGCACCACGGCGCAGTTGCTGGATCTGCCGACCAACCCGTTCAGGACAATTTTTACGTCTGTCAGGCGCGCCAGCGCCTCCAGGCCTGCGATCCTGGCGGCCCGCGAAATGCTGGCCCTCACTGCCGAATCCGTCGCAAAATCGGACGACGCCGGGTAG	MLDVRRLRLLRELQIRGTLAEVAEALQYSPSSVSQQLALLEKEAGVELLRKTGRRVQLTPQAEVLVAHTAQLLETLEQAEADLAASLTTVTGTVRIAVFQSAALALMPDTLSRMSTAYPEVRIEMTQREPETALHETWARDFDLVIAEQYPGHAAPRYPELDRIKLTTDAIRLAAPPEAPGRPQITSLKDTADMPWVMEPRGAASRHWAEQACRSAGFEPDVRFETADLQAQIRLIESGNAVALMPDLVWTGRGTTAQLLDLPTNPFRTIFTSVRRASASRPAILAAREMLALTAESVAKSDDAG				NA	NA	NA	NA	NA
D1-29_04451	414	panD_2	COG0853	Aspartate 1-decarboxylase	ATGTTCAAATCCAAAATCCACCGGGCCACCGTCACGCACGCTGACCTGCACTACGTAGGTTCGGTCACCGTTGACCTGGACCTGCTTGATGCTGCCGACATCCTCCCCGGCGAGCTCGTGGCCATTGTGGACGTAACAAACGGCGCGCGCCTGGAAACGTACACCATCGCCGGCGAGCGCGGCTCCGGCGTCATCGGCATCAACGGACCCGCTGCGCACCTGGTCCATGAGAACGACGTTGTCATCCTCATTACCTACGCCGCGATGACCACCGAGGAAGCCAGGGCTTACCAGCCACGGGTTGTCCACGTTGACCAGGACAACAAGATCATCCAGTTGGGCAATGATCCCGCCGAAGGCTTGACGCCCGGACTGATGCGGCCCCCTTTCGCACTTAACAACGCCACCCTGTAA	MFKSKIHRATVTHADLHYVGSVTVDLDLLDAADILPGELVAIVDVTNGARLETYTIAGERGSGVIGINGPAAHLVHENDVVILITYAAMTTEEARAYQPRVVHVDQDNKIIQLGNDPAEGLTPGLMRPPFALNNATL	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
D1-29_04452	927			hypothetical protein	TTGGTAGGCGTACTTTCGGGCTTCTTTGTGGTCTGGTGCATCATCCTGGTGGGCTGGTTTGTGGGCAGGCGCCGCCTCCTGGGCGAGAACGGACGCCAGGTCCTCAGCGGACTCACGTTTTTTGTTGCCAGCCCGGCGCTGTTGTTCGAAACGCTCGGCAAGGCCCGCCTGCAGGAGGTCTTTGCCGAGCCCCTGCTGGTGACAGCCGTGGCCGCCTTCGCGTCCGCCATGATCTTTTTCGCCATCATCAAATTCTGGCTCAGGCGCCCGCTGCCCGAAGCCCTGATGTCCTCCATGGCAGCATCCCTGGTCAACTCGGCCAACCTGGGCATCCCCATCGCCGTGTACGTCCTGGGGGATGCCAGCTACGTGGCACCCCTGCTGATCTTCCAGCTGGCGTTCTTCAGCCCGCTGTTCTTGATGATCCTGGATGCCAGCACAAGCTCCCACCGGGCCACGCCGCTGAGCTTTGTGGTGATGATCCTGAAGAATCCGATGATTGTGGGCTCGGCCCTGGGGCTGGTGGTGGCCGGAACCGGCTGGGAGGTCCCTGCTCTGGTCATGGAACCCATCCACCTGATTGGCGGCGCAGCCATTCCGGCCATGCTGATCGCGTTTGGTATGAGCCTGAACGGGTCCAGGCCACTGCAGGCTACGGGCGGACGGCGGCTGGATACCTTGCTGGCCAGCGGCTTCAAGCTGCTGGTGCAGCCTGGCATCGCCTACCTGTTTGCCCGGTTTGCGCTGGGGATGGAAGGCCACGCTTTGTTCGCCGTGGTGGTCATCTCCGCCCTCCCTACGGCGCAGAATGTCTTTGTGGCCGCCAGCCGCTACAAAACCGGCCTCATCGTGGCCAAGGACACCGTGCTGATCACCACCGTGGTGGCTGTGCCCGCCATGATAGGGCTCGCCCAACTGCTCACCTGA	MVGVLSGFFVVWCIILVGWFVGRRRLLGENGRQVLSGLTFFVASPALLFETLGKARLQEVFAEPLLVTAVAAFASAMIFFAIIKFWLRRPLPEALMSSMAASLVNSANLGIPIAVYVLGDASYVAPLLIFQLAFFSPLFLMILDASTSSHRATPLSFVVMILKNPMIVGSALGLVVAGTGWEVPALVMEPIHLIGGAAIPAMLIAFGMSLNGSRPLQATGGRRLDTLLASGFKLLVQPGIAYLFARFALGMEGHALFAVVVISALPTAQNVFVAASRYKTGLIVAKDTVLITTVVAVPAMIGLAQLLT	PGPT0001720_2271	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
D1-29_04453	1134	soxA_8		Monomeric sarcosine oxidase	ATGGGAACAATCCTGGATACCGTTGTGATCGGCGGAGGTGCCATGGGCTCTGCTGCCGCTTGGGCCCTGTCCCGGCGCGGCCGGCAGGTCACGCTGCTGGAACAGTTCGGACCCGGCCACCTCAAGGGTGCCTCGCATGGAGCCACCCGCAACCTCAACCCCGGCTACCGCCGCCCGGAGTATGTGGCCATGCTGGCCGAATCACTGGCCTTGTGGGACAAGCTGGAGCAGGAGAGCGGCCAGCGGCTCCTCACCCGAACCGGCATCGTCAGCCATGGCCCGGATCCCCGGCTCTCCGAGGTGCAGGCGGCTCTTTCCGAGGCCGGGCTCCGGGCCGATTTCCTCAGTGTTGAAGCCGCCTCCGAGCGCTGGAGCGGGATCCGCTTTGACCAGCAGGTGCTTTACATGCCCGACGGCGGCCAGCTCAACCCCGAGGCTTCCCTGCCGGTTTTCCAGCAGCTCGCCGTGGCACGGGGAGCCGAAATCCGGCACCACACCAAAGTGGCGGACTTACAGATCGCGGACGACGGCGTCCGGCTCACGTTGGATTCGGAAGCGGGCAGGGAGACCGTCACTGCTGCCCAGGCAGTAGTGACGGCGGGTGGCTGGACGGAGAAACTGTTGGGCGGCAGCGCCGGTGCTTCGCAGCTGAGGCTCCCCCGGCTCCGGGTCACGCAGGAGCAGCCGGTCCACTTTGGCATTGCTGACCCCCATGCCGTATGGCCGGGGTTCAACCATCATCCGGGGAGCGGGGCAGCCTACAAGGACTGGTACTCACCCGTCTATGGGATGCAGACCCCGGGCGAAGGGATCAAGGCGGGCTGGCACGGCGTGGGACCCGTGGTGGACCCGGACCGGAGGTCATTCCAACCCGAACCCCGGCAGCTGGCGGCACTGCAGGACTATGCCCGGAGGTGGCTGCCCGGGGTGGACGCGGACTCTTTCGAGGCCATCAGCTGCACCTACACCACCACCCCGGATGAGGACTTCGTCCTGGACCGGATCGGCCCGGTGGTTATTGGTGCCGGCTTCTCAGGGCACGGGTTCAAATTCACCCCGGTGATCGGCAGGATCCTTGCTGACCTGGCAATCGGCACACGGCCTGCGCCCGCTATCTTCTCCGCGGCGCGCTAG	MGTILDTVVIGGGAMGSAAAWALSRRGRQVTLLEQFGPGHLKGASHGATRNLNPGYRRPEYVAMLAESLALWDKLEQESGQRLLTRTGIVSHGPDPRLSEVQAALSEAGLRADFLSVEAASERWSGIRFDQQVLYMPDGGQLNPEASLPVFQQLAVARGAEIRHHTKVADLQIADDGVRLTLDSEAGRETVTAAQAVVTAGGWTEKLLGGSAGASQLRLPRLRVTQEQPVHFGIADPHAVWPGFNHHPGSGAAYKDWYSPVYGMQTPGEGIKAGWHGVGPVVDPDRRSFQPEPRQLAALQDYARRWLPGVDADSFEAISCTYTTTPDEDFVLDRIGPVVIGAGFSGHGFKFTPVIGRILADLAIGTRPAPAIFSAAR	PGPT0013530_367	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013530-soxA|solA-K00301	NA	NA
D1-29_04454	1488	bmr3_2		Multidrug resistance protein 3	ATGACTACCCAAGCCCAAGGAGTGGGGTTCCGATCTGAACGGGGCCCCATTCTCATTGCCCTGATGCTGGCCACCGGCCTTGTGGCCATTGACGCGACTATCGTGGCCACGGCTGTTCCCTCCATCGTGGATGACCTCGGCGGGTTCTCGTCATTTCCCTGGCTCTTCTCCGCGTACCTGCTGGCCCAGGCCGTTTCGGTGCCCATCTACGGGAAACTGTCCGACATGGTTGGCCGCAAGCCCATCATCCTGGCCGGAATCAGCCTCTTCCTGCTGGGCTCCGTACTCTGCGGCATCGCCTGGAGCATGCCGGCACTGATCGCTTTCCGGGCCCTGCAAGGCCTGGGCGCCGGGGCGGTCCTGCCAGTGTCCATCACCATTGCGGGGGACATCTACTCGCTCGAGGAACGCGCCAAGGTCCAGGGCTACCTCGCCAGCGTGTGGGCCATTTCCTCGGTGGTGGGACCGAGCCTTGGCGGCATTTTCTCCTCCCTGGGCCTTTGGCGGGGGATATTCCTTGTCAATGTTCCGCTGTGCATCCTGGCGGGCTGGATGCTGCTGCGGACCCTGCACGAGAACGTCCAGCGGGCCAAACACCGGGTGGACTATCCCGGCGCGGTCCTCCTGGCCGGTTCGCTCAGCCTACTTATCCTTGGCGCGCTTGAAGGCGGCCAGGCGTGGGCCTGGGATTCGCCGCTGAGCATCGGTGCGTTCGCAGTCGGCGGAGTCCTGCTGATCGTTTTTGTGCTGGTCGAGCGGCGGGCGGCAGAGCCCATCCTTCCGCCGTGGGTGGTGTCCCGGCGCCTGCTGGCCTCTACGGCCCTGGTTTCCTTCGGCGTGGGCTCAATCATGATTGGCCTGACGTCCTATGTGCCCACCTTCCTGGACGGGGCACTGGGCACTTCCCCGCTGGTGGCCGGCCTGGCCCTTGCCGCCCTTACCCTCGGCTGGCCGATCAGTGCCTCGCAGGCCGGAAAGCTCTACCTTCGGATCGGGTTTAAGCCGACGGCCCTGATCGGCATCACAGTCACCATCCTCGGCGTGGCCATCCTGACCCTCACTGCGGCGACTCCCAACGTAGCGCTGATCGCGGTCAGTTGCTTCGTCGTCGGATTAGGTCTTGGGCTGGTGGCCACACCCACGCTGATCGCGGCCCAGTCCAGTGTTCCGTGGAATGAGCGCGGCGTGGTCACCAGCACAAATCTCTTCGCACGCTCCATTGGCAGTGCCCTGGGTGTTGCCGTCTTCGGAGCCGTGGCCAATGCCCTTTATGCCGGCACCCCGCCCGAAGCTGCGGGCGAGCACACCGTTGTGGTCGCCTCCGGTGCCGTCTTCCTGGCAGTCCTTGCCTGCGCCGTGCTCAGCATCGGGGCGGTGGCGGCAATGCCGGCCACGTCCCCGAGCAGAGCAGACCTTGACGTGCAGGCCGAGGGGACTGGCGCCGCCGATAGTGCCCCTACGAATGCTGCCCTGCGCCGCACGCAGTGA	MTTQAQGVGFRSERGPILIALMLATGLVAIDATIVATAVPSIVDDLGGFSSFPWLFSAYLLAQAVSVPIYGKLSDMVGRKPIILAGISLFLLGSVLCGIAWSMPALIAFRALQGLGAGAVLPVSITIAGDIYSLEERAKVQGYLASVWAISSVVGPSLGGIFSSLGLWRGIFLVNVPLCILAGWMLLRTLHENVQRAKHRVDYPGAVLLAGSLSLLILGALEGGQAWAWDSPLSIGAFAVGGVLLIVFVLVERRAAEPILPPWVVSRRLLASTALVSFGVGSIMIGLTSYVPTFLDGALGTSPLVAGLALAALTLGWPISASQAGKLYLRIGFKPTALIGITVTILGVAILTLTAATPNVALIAVSCFVVGLGLGLVATPTLIAAQSSVPWNERGVVTSTNLFARSIGSALGVAVFGAVANALYAGTPPEAAGEHTVVVASGAVFLAVLACAVLSIGAVAAMPATSPSRADLDVQAEGTGAADSAPTNAALRRTQ				NA	NA	NA	NA	NA
D1-29_04455	2631			hypothetical protein	ATGCCAACGCCTTTGAACCAGACCGTCGCGGACACCGCGCTGCTCACCAAATCGCTGCCGCTGGGCCTCCTGCGGGCCTTCGTGCAGTCGGACGCCGCCGACGACGGGCTGACACCAACGCTCCTGGCCCAGCTGAAGGTCCTGGCACGCGCGCCCGGCCTCCTCGTGGCCTGCAACTACGGCGGAACCCTGTGCGACGCAGAGGGCATCTCCACCGAAACGCTGCCGCTGGGGAGCGCCGCGATTGCACTGCGCGCCCTGGCCGCCTTGCCCAATACCCATGCCGCCGTGATTTCCGGGCGCTCGCTGCGTGACCTTGCCGCGGTGTCCCGGCTCCCCGCTGAAGTGCACCTCATCGGATCCCATGGTGCGGAGGCGGATATGGGGTTCGCCCACACACAGTCCCTGGCCACCGAAGCCGCCCTCCAAAGAGCAAGTACCGCACTGTCCGAGGCGGTGGGGTTCCAAAAGGGGATCTGGATTGAACGGAAGCCGGTGGCCGTCTCGGTGCACACCCGGCCGGCCGCACCGGACGTCGTGCGGGCGGTCACAAACACGGCACGGGAAATCGCCCGCGCCCACGGGCTGTTCTTTATTGTGGATGGCTCCGTGCTGGACCTGTCCGTTGTGGAACCGTCAAAGGCCGATGCGCTGGAGAGCCTGAGGTCCCGGCTGGGCGCCAGCGCAGCCATGTATGCGGGGGACGCCTACAGCGACGAACTGGCCATGGCCACACTCCGCGGCCCGGACATGGGCCTGCGCGTGGGCCCCGGCCAGACCGCCGCCGGCCACCGGCTGCGCGATCCGGAATCCTTTGCCCGGGTGCTCGCGATCCTTTTTGAACTGCGCCGGGCCTGGCTCTTCGGCGAGGACGCGGTGGGGCTGGAACGGCATTCCATGATCGGCAACGGGTCCTCCACCGCCCTGGTCACTCCCGACGCCAAAATCTGCTGGATGAGCCATCCACTGCCCGATTCCGGCTCCCTGTTCGCCCACATCCTGGGCGGAGATGCCGCCGGACACTTCTCGGTTGAACCGGTCAAGGCCTCGCAGGTGCTGGGCCAGCGCTACGTGGACAGCACCATGATCGTGGAGACACGCTGGGCGGACGTGACCGTCACGGACTACCTCGAACCGGCACCGGAGGGCATCACCAGCCTGGTCCGTGTGCTCTCCGGCAGCGGCGCGGCCAAGATCGTGTTTGCGCCGCGGCCGGACTACGCCAACGCCCCCTTCAGCATGGAGGCCCGCGGTGACGAAATCCACGTGGTGGGCACGTCGGACCCCATCATTCTCCTGTCACCAGGCGTTACGTTCGCCATCACTTCGGACGGACGGCACGCCACCGCCACGGCATCAGTGAACCTGCAGGAAGGGCCCGTGGTCCTCAACATGCGCTGCGGCGACACCGAGCCGCAGCCCGCAGACCCGGGCGGCGAGACTCAACGCCGTGCCGGGGTGGCGCATCACTCCCGCCGCTGGGTGCAGGACCTGGAGCTGCCCGACGTCAAGCCATCCCTGGTGCGCCGCTCGGCGCTGGTGCTGCGGGCCTTGGTACACGCACCCACGGGCGCCGTGCTGGCCGCCCCCACCACGTCCCTGCCGGAAGGCATCGGCGGAACCCGCAACTGGGACTACAGGTACTGCTGGCTGCGGGACGGATCCATGACCGTAAACGCGCTCGTGGATCTTGGTTCTTCGGCGGAGGCAGCCGGCTTCCTAGACTGGCTGGGCCGCATCCTGGAGAATGCGCCCGGCCCCGAATGGCTGCACCCGCTCTACTCAGTGACGGGGGCGCCGTTATCCACCGAAGCCGTGATCGACAGCCTTCCCGGCTATGCCGGTTCCCGTCCGGTGCGGATCGGGAACGCCGCCGACCACCAGGTCCAGCTGGACGTTTTCGGCCGCGTCGCCGAGCTTATCCACGCCCTCAGCGAGCGGGAGGGCGCGCTCGCCGATGAGCACTGGGAACTGATGGTGCAGATGGCGGCAGCCGTGCTGGCCCGCTGGCACGAGGCCGACCATGGCATCTGGGAGGCGCGGCGGGCACCCCGCCATCACGTGTATACCAAGGTGATGTGCTGGGTGACCCTGGACCGTGCGCTGCGCACCGCCGCCCGTCACGGCCGGGCGCCGGAACCGTCCTGGGCCCCCACGGCCTCCGTGATCCGGGACGAGGTCCTGCGCGAAGGCTGGGATGACTCCGCGCGGTCCTACACCGTCGCCTACGACAGCCCGGACCTGGATGCCGCCGTCCTGCACATCGGGCTCTCCGGCCTGCTGGATGTGAACGACCAGCGCTTCCTGGACACCGTCACCGCCGTCGAACGGGAACTGCGGGTAGGGCCAACAGTCTTCCGGTACAGGTACGACGACGGCCTGCCGGGCCTGGAGGGCGGCTTCCACATCTGCACCACCTGGCTGATTGAGGCGTACGTTGCGGTGGGCAGGATCGAGGAGGCCTGGGACCTTTTCGACCAGCTGGTGAACCTCTTTGGTCCCACCGGCCTGCTGCCGGAGGAATACGATCCGGGCACCGAAACGCATCTGGGGAACCATCCCCAGGCCTATTCGCACCTCGGATTCATCCGCTGCGCCAGGATCCTGGACGGGCATCAAGGTAAAAAGTAG	MPTPLNQTVADTALLTKSLPLGLLRAFVQSDAADDGLTPTLLAQLKVLARAPGLLVACNYGGTLCDAEGISTETLPLGSAAIALRALAALPNTHAAVISGRSLRDLAAVSRLPAEVHLIGSHGAEADMGFAHTQSLATEAALQRASTALSEAVGFQKGIWIERKPVAVSVHTRPAAPDVVRAVTNTAREIARAHGLFFIVDGSVLDLSVVEPSKADALESLRSRLGASAAMYAGDAYSDELAMATLRGPDMGLRVGPGQTAAGHRLRDPESFARVLAILFELRRAWLFGEDAVGLERHSMIGNGSSTALVTPDAKICWMSHPLPDSGSLFAHILGGDAAGHFSVEPVKASQVLGQRYVDSTMIVETRWADVTVTDYLEPAPEGITSLVRVLSGSGAAKIVFAPRPDYANAPFSMEARGDEIHVVGTSDPIILLSPGVTFAITSDGRHATATASVNLQEGPVVLNMRCGDTEPQPADPGGETQRRAGVAHHSRRWVQDLELPDVKPSLVRRSALVLRALVHAPTGAVLAAPTTSLPEGIGGTRNWDYRYCWLRDGSMTVNALVDLGSSAEAAGFLDWLGRILENAPGPEWLHPLYSVTGAPLSTEAVIDSLPGYAGSRPVRIGNAADHQVQLDVFGRVAELIHALSEREGALADEHWELMVQMAAAVLARWHEADHGIWEARRAPRHHVYTKVMCWVTLDRALRTAARHGRAPEPSWAPTASVIRDEVLREGWDDSARSYTVAYDSPDLDAAVLHIGLSGLLDVNDQRFLDTVTAVERELRVGPTVFRYRYDDGLPGLEGGFHICTTWLIEAYVAVGRIEEAWDLFDQLVNLFGPTGLLPEEYDPGTETHLGNHPQAYSHLGFIRCARILDGHQGKK	PGPT0014140_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014140-otsB-K01087	NA	NA
D1-29_04456	990			hypothetical protein	GTGACTCTTCCCCTCTCCATTCTTGATCTGGCAACCATCGGCAAGGGCCAGACGGCGGCGGAGAGTTTCGCGGGCAGCGTGGCCATGGCGCAGCGTGCGGAGGAGCTGGGCTACCGGCGGATCTGGTACGCCGAGCACCACAACATGTCCTCCATCGCCTCCTCCGCCACCAGCGTGCTGATAGCCCACGTGGCGGCGCACACGGAAAGCATCAGGCTGGGCGCAGGGGGCATCATGCTGCCCAACCACTCCCCGCTGACCATCGCCGAGCAGTTCGGCACCCTGGAGGCACTGCACCCCGGACGCATCGACCTTGGCCTGGGCCGTGCCCCCGGCAGCGACCAGAACACCATGCGCGCACTGCGCCGGGACCCGATGTCCGCCGACAGCTTCCCGCAGGACGTCCTGGAACTGCAGGGCTACCTCACCGGCCCCACCCGGATCCAGGGCGTGGAAGCAACCCCCGGCAAGGGCACAAACGTGCCGCTGTACATCCTTGGCTCCTCTCTGTTCGGCGCGCGCCTGGCTGCCCAGCTGGGCCTGCCCTATGCCTTCGCCTCGCATTTCGCGCCCAACGCGCTGCAGGACGCCGTGGCCCTCTACCGCCGGGAGTTCAAGCCGTCGGCCCAGTTGGATGCCCCGCATGTGATCGCCGGCGTCAACGTGATTGCTGCGGACTCGGCGTCCGCCGCCCAGGAAACCCTCCAAGCCACCAAACGCGCCCGCGTTTCGCTGTTCTTCGGCGCTGGACGCGAGTTCACCGACGACGAAGCGGACATGATCCTGGACTCCCCGCAGGGGCAGCACGTGGCGCAGATGATGACGTACTCGGCCGTCGGGACCCCGGACGCCGTGATCGAGTACCTGGATGAGTTCGGCAGGCACTCCGACGCCGACGAACTCATCGTGGCGCACCAGAGCACCGATCCGGCTTCCAGGCTGGAATCTGTTGAGCTGCTGGCCCAGGCTGCAGGCCTGGCCCGGGTGTAG	MTLPLSILDLATIGKGQTAAESFAGSVAMAQRAEELGYRRIWYAEHHNMSSIASSATSVLIAHVAAHTESIRLGAGGIMLPNHSPLTIAEQFGTLEALHPGRIDLGLGRAPGSDQNTMRALRRDPMSADSFPQDVLELQGYLTGPTRIQGVEATPGKGTNVPLYILGSSLFGARLAAQLGLPYAFASHFAPNALQDAVALYRREFKPSAQLDAPHVIAGVNVIAADSASAAQETLQATKRARVSLFFGAGREFTDDEADMILDSPQGQHVAQMMTYSAVGTPDAVIEYLDEFGRHSDADELIVAHQSTDPASRLESVELLAQAAGLARV	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
D1-29_04457	2334	smc_3		Chromosome partition protein Smc	ATGAGTAATGTTCGCTCAACGCCAGCCCTTACCCGACGCCTCGCAGCTGCGGTTGTCCTTCCCGGTCTCCTGACCTCCACCCTCGTTTTTGCCATGCCCGCTGCTGCCAATTCCGGTTCCGGGACAGGCATCTGCACGGGCGTGGTGAATCAGTTGGCGCATCGCGGGACCGTCCAGGAGAATCTGCTCAGGGCTTCCGCCCGGAAGAACGCGGAGCTGATCGCTGCGTTGCAGGCTGATCGGGCCGGGCTGCAGGCAACTGCAGACAGCCTGACGGCGCAGATTGCCGCCGCGGACAAGGAACTGGCCGCCTTGGCCGCCGAGGCAACGCAACTCGACGGCGCCCTCGCTTCGGGGCAGGCCCAGAGCGCCGCTCTTGTAGTGACCCAGGACAGTTTGAACCAATCAATCGCCGATACCGAGCGGGAACTTGCTGCTCTCAGCACCCAGCGGACAGACGTCGAAGGACAAATAGTGCCTCTAAAGGCGGACCAGGTGAAGGCTGAGGCCGACCTCGCCCTGCTCAAGCAGCAGGCTGCTGAAGTCGACGCCGGGATCGCTGAGAAGACCAATCAGATCAACATCGCCGAAGGCGAAAAGGCAACCCTTCAGGCCGCCGCAGATGCTGCCGCCGCTGCGCTCGCGGAGCAGAATGCTGCCATCCGGATAGCCGAGGGAGAACTTACAGCGCTGACCGTCGCGGCTGAGACCGCCGCTGCCGCAGTCACCACTGCAGCCCAGGCCGTGAGCGAGGCCGAGGCTGAGCTGAACCGGCTCGTGGAGCTGGGGAATGCCGCGCAGGCCGAACTCGAAGCGCAGCAGGCAAAGGTCGATGACGCGAAATCGACGCTGGTCGACTCCCGGGCAGCGGCTGCGGCCGCAGCGGCGGCAGCGGCAGCCAAATCCGCGGCCATCAGCACCGCCCAAGGAGAATTGGCTGCCCTGCAGACCGACGTAACCGAGGCTACGGACGCCCTCAACGCCAAGAACGCCCAGATCACGACGGCACAGGCCGAATTGGTCACTTTGCAGGCAGAAGCCGCCGCCGCTGCCGCTGCCCTCGCAGTCAACACCAGCAAAATCGCAGCAGTCAATGCGGAGGTTACCTCCCTGCAGGGGAAGATCATCACACTGAACGCGTCGATCGCCGCCAAGCAGTCGGCTCTGACCACCGCCATCAGCGATCTTGAAGCCCTCAATGTCACTAAAGCGGCCCTGGACGCTGAGATCGCATCGCTCACTGCACAGATTGATGACATCAAGGGCAACTCCTCCCGAAAGCGCGCCCTGCAGGACGAGCGGACCGCCAAACAGACTCTGCTGGACGCTGCGAATGCCCAGATCACCGACAAAAACACGCTGATCTCGGGCCTCCAAGGCGACCTGAATGCGCTCAATACCCAAGTAGCCGCCCTGAACTCCCAGTTGCTGGCCAAGCAGCAGGAAAGCAGCATCTTGCAGCAACAGGCCGCACCACTGCAGGCAACGGTCACGGCGGCGAACGCCGGCGTTGCGGCCAAGGAAGCCGAGATTGCAGCCCTGAAGTCCGAGGTGCCCGACCTCCAGGCCGCCGTAACGCAGGCCAAAGGTTCGGTCACGGCAAAGCAGGGTGAACTCAGCGTCCTTCAGGGGCAGCTCCCGGCGCTACAGGATGCGGCGGCAGCCGCCGCAGACGCCGTCACGGCACAGGCGATAGTTGTAGCGGATCTTGAATCGGCACTCCCGGGACTGACTTCGGGAGTCGAAGACGCCAAGGCAGCTATCGCCGGCCAGAAGTCCGTCCTGGCAGGATTGCAGACCCGGCTGGCAGAAGCTGAGGCCTCGCTGAACTCCGCGAACGCTGCTGTTGAGGACAAGAAGGCTGAGCTCGGCACCTTGGAGAGCCACGTCCCGGCACTTCAGACAGCCGTCGACGAAGCAAACGCCGCAGTCGCAGCTAAGACCGGTGAAATCGATTCGTTGAATCTGATACTGGACAAGCTCGTGGCTGACCTCAAGAGCCTCAACACCCAGATCAGCGGGAAGGAAGCCGAGATCCTGAACCTGCAGACCCGGGTTGCGCCGCTTTTGGAGCAACTCAACAGGCTAAACGGCGAAATCAGCGCCGGGGAAGCTGCGCTGAAGGCTTTGCAGGGTGAGCTGTCGACGCTTGATAAGCAGCTCACGGATGCACAGGCATTGCTCAGGACGCTGGAGGCACAAAAGAAGGTGAACAAGGACGCCGTGGCGGTCCAGAAGAAGTTTGTGGGCGATGTGCAGGGCAAGCTTGGAACAGTCCAGAACCAGATCAAGGCAATCGACGGGCAGATTGTTCTGGGCGGTTGCGTGGCGTGA	MSNVRSTPALTRRLAAAVVLPGLLTSTLVFAMPAAANSGSGTGICTGVVNQLAHRGTVQENLLRASARKNAELIAALQADRAGLQATADSLTAQIAAADKELAALAAEATQLDGALASGQAQSAALVVTQDSLNQSIADTERELAALSTQRTDVEGQIVPLKADQVKAEADLALLKQQAAEVDAGIAEKTNQINIAEGEKATLQAAADAAAAALAEQNAAIRIAEGELTALTVAAETAAAAVTTAAQAVSEAEAELNRLVELGNAAQAELEAQQAKVDDAKSTLVDSRAAAAAAAAAAAAKSAAISTAQGELAALQTDVTEATDALNAKNAQITTAQAELVTLQAEAAAAAAALAVNTSKIAAVNAEVTSLQGKIITLNASIAAKQSALTTAISDLEALNVTKAALDAEIASLTAQIDDIKGNSSRKRALQDERTAKQTLLDAANAQITDKNTLISGLQGDLNALNTQVAALNSQLLAKQQESSILQQQAAPLQATVTAANAGVAAKEAEIAALKSEVPDLQAAVTQAKGSVTAKQGELSVLQGQLPALQDAAAAAADAVTAQAIVVADLESALPGLTSGVEDAKAAIAGQKSVLAGLQTRLAEAEASLNSANAAVEDKKAELGTLESHVPALQTAVDEANAAVAAKTGEIDSLNLILDKLVADLKSLNTQISGKEAEILNLQTRVAPLLEQLNRLNGEISAGEAALKALQGELSTLDKQLTDAQALLRTLEAQKKVNKDAVAVQKKFVGDVQGKLGTVQNQIKAIDGQIVLGGCVA				NA	NA	NA	NA	NA
D1-29_04458	1716			hypothetical protein	ATGGCGAAGAAAACCACCGCGGAAAAAGTTGCCACCATCCAGCAGGGCTACACCCTTGAAGGCGCCACCATCGAGCTTGGCGCGGCCATCATCGACGGGGAGCTGCACAAGGAAGCCCAGGTCCGGCTGCCGCTGGCCATGATGAACCGGCACGGCCTGGTGGCCGGAGCTACCGGCACCGGCAAGACCGTCACCCTGCACATGATGGCCGAGCAGCTCTCAGCTGCAGGGGTGCCCGTTTTCCTGGCGGACATCAAGGGGGATCTCTCCGGCCTGGCGACGGCAGCCACCGGAAGCGGGAAACTGTCAGCCCGCACCGACAGCATCGGGCAGGTGTGGGCGGGCAAGACGTTCCCCGTCGAGTTCCTCGCCCTCGGTGGCGACGGCAACGGCATTCCCGTCCGCGCCACTGTCACCTCCTTCGGCCCCATCCTGCTGTCCCGGGTGATGGAACTCAACGACACCCAGGAATCCAGCCTTCAGCTGGTGTTCCACTTCGCGGACAAAAAGAACCTGGAACTTATTGACCTGAAGGACCTCCGTTCGGTGATCCAGTTCCTGACCTCAGCCGAGGGCAAGGACGAGCTGGAGGAACTGGGCGGCCTGTCCAAGGCAACGGCCGGGGTGATCCTGCGCGAACTGGTCAACCTGGAAGCCCAGGGGCTGGAAAGGTTCTTCGGCGAGCCGGAATTCGACACCGCGGAGCTCCTTCGCACAGCCCCTGACGGCCGCGGAGTGGTCACCTGCCTGGAGCTGCCCACGCTGCAGACCAAGCCCATGCTCTTCTCCACTTTCCTGATGTGGCTGCTGGCGGACCTTTTCGAAGACCTCCCCGAGGCTGGCGACCTGGACAAGCCCAAGCTGGTCTTCTTCCTGGACGAGGCCCACCTGCTGTTCAGCGACGCCTCCAAAGCCTTCCTGGACGCCATCACCACCACCGTCCGGCTGATCCGCTCCAAGGGTGTGGGCATTTTCTTTGTCACCCAGACTCCGAAGGACGTACCCGCCGCCGTCCTTGGCCAGCTTGCCAACCGCATCCAGCATGCCCTCCGCGCCTTCACCCCTGAGGACGCCAAGGCCCTCAAGGCCACGGTTTCCACCTTTCCGGTCAGTGACTACGACCTTGAAGAAACCCTCACCTCCGCAGGGATCGGTGAGGCAGTCATCACCGTCATGAACGAGAAAGGCGCCCCGACGCCGGTGGCCCTGACCCGGCTGCGCGCACCCGAATCCGTGATGGGCCCGAGCACTGACGAGCTCGTCAAAAGCACGGTGGCCGCCTCTGCACTGCTCGCGAAGTACGGCACTGCTGTGGACAACATCTCTGCCTACGAAAAACTCAGGGGAGAAACAGGCGCTGCTCCGGCCGTGGACACAGGGCCAGCCGCGCCCGGCCAGCCGCCGGTTCCGGAGAGTGCCAGCCAGGCCGACGTCGACGCCGAGGCCCGCCGGATCGAGGAGGAAATCCTGGGCCGGCCCAGCAGCCGGCCCGCACCGGCGCCGTTCCCGGAAACATCAAGTCCGGGACACGAACCCGCTCCGGCGCCGCGCGAGCGTCCGGTCCCGGCCGGCGGCGGAATGATGGACGATCTGGCTGGAGCGCTGGGCGGTGCACTGGGCGGTGGCCTGAAAAGCATGGCCAGATCCATGGGAACACAGCTCGGCCGGGAACTGCTCCGGGGCGTGTTCGGAACGTCGTCCAGGCGCCGCCGCTAA	MAKKTTAEKVATIQQGYTLEGATIELGAAIIDGELHKEAQVRLPLAMMNRHGLVAGATGTGKTVTLHMMAEQLSAAGVPVFLADIKGDLSGLATAATGSGKLSARTDSIGQVWAGKTFPVEFLALGGDGNGIPVRATVTSFGPILLSRVMELNDTQESSLQLVFHFADKKNLELIDLKDLRSVIQFLTSAEGKDELEELGGLSKATAGVILRELVNLEAQGLERFFGEPEFDTAELLRTAPDGRGVVTCLELPTLQTKPMLFSTFLMWLLADLFEDLPEAGDLDKPKLVFFLDEAHLLFSDASKAFLDAITTTVRLIRSKGVGIFFVTQTPKDVPAAVLGQLANRIQHALRAFTPEDAKALKATVSTFPVSDYDLEETLTSAGIGEAVITVMNEKGAPTPVALTRLRAPESVMGPSTDELVKSTVAASALLAKYGTAVDNISAYEKLRGETGAAPAVDTGPAAPGQPPVPESASQADVDAEARRIEEEILGRPSSRPAPAPFPETSSPGHEPAPAPRERPVPAGGGMMDDLAGALGGALGGGLKSMARSMGTQLGRELLRGVFGTSSRRRR				NA	NA	NA	NA	NA
D1-29_04459	993			hypothetical protein	ATGAGTCAAGCGTTGGTGAAGATGGCGGCCGTATGGCTGCTGGGCCTCATGCTTGCCGTCGCCGGAGCGGTGGTTGCCGTGAACCTGGTCAACAACACAGTTGCCAGTCCGCAGCAGCCGGTCCGTGAATATCTGGACGCCCTGCACGACGGCGACGGCGGCAAGGCGCTGGGCCTGTTGCGGGCCGCTGTGCCCCCCGGCAACGCCGCAATGCTGGACGGTACCGCCCTGCAGACCGCCGCTTCCCGCTTCACGAATGTCAAGATCGGCAAGGCCGAGGAACGCACCGGCGAGCAGGTGATGGTGCCCATGGAGTACACCATCGACGGCAGCCGGCTCCGCACCGAGTTCCTGCTGGAGAAGACCGGGACGGAGTGGCTCTTCTTCAACACCTGGGCCTTCGTCCCGTCGCGGCTGCCCACACTGGATATCACCGTGGTGAACGCCAGCGAGGCCACGCTGAACGGGGTGCCGGTGAACATGCCCGATGGCCGCAACTCCTTCGCCGTGTTCTATCCCGGCGAATATGAAGCGTCACTGAACGGCGAATATTTCGCTGCCCCGCCCACACGTGCCACTGTCACGTCCCGGGAAGCACCCGTTGCCCCGCTGAACCTGCTGACCGAAGCCACCGGCGACCTGCGGGAGGATGTGTCGGCGAAGGTCAAGGAGTTCCTGGACACGTGCGCGGCCGACGCCGTGAAGCAGCAGAAGCTCCAGCCGGACTGCCCCTTCTACTTCGCCAGCAACAATCTGGTGAAGGACGGGACCATCAAGTGGACCGTGACGAAATACCCCGAGGTAGCGATCGAACCGTTTGACGGCCGCTGGGTGGTGTCCCCGCTGGACGGCAAGGCCAAGGTGGAGGGGCTGCAGCAGAACTCCTTCACGGGAGCCTGGTTCCCGCTGAACGAGGAAGTGGACTTCAGCTTCACCACGCGCCTGGACGTCAACGGCGACACTATCAACGTGACGCCGCTCCTGACCTACTAG	MSQALVKMAAVWLLGLMLAVAGAVVAVNLVNNTVASPQQPVREYLDALHDGDGGKALGLLRAAVPPGNAAMLDGTALQTAASRFTNVKIGKAEERTGEQVMVPMEYTIDGSRLRTEFLLEKTGTEWLFFNTWAFVPSRLPTLDITVVNASEATLNGVPVNMPDGRNSFAVFYPGEYEASLNGEYFAAPPTRATVTSREAPVAPLNLLTEATGDLREDVSAKVKEFLDTCAADAVKQQKLQPDCPFYFASNNLVKDGTIKWTVTKYPEVAIEPFDGRWVVSPLDGKAKVEGLQQNSFTGAWFPLNEEVDFSFTTRLDVNGDTINVTPLLTY				NA	NA	NA	NA	NA
D1-29_04460	1983	resA_2		Thiol-disulfide oxidoreductase ResA	ATGAGCGAAACCGTACGCACCCACCACCGGGTCCGCGCCTCCGAACTGGTGGGCCGCAACTGGCTCAACACCGGCGGCAAATCACTGGACCTGGAAGCCCTGCGCGGCAAGATCGTGCTGCTGGACTTCTGGACTTTCTGCTGCATCAACTGCCTGCATGTCCTGGACGAGCTGCGGCCACTGGAGGAACAGTACTCCGACGTCCTGGTGACCGTGGGCGTCCACTCGCCCAAGTTTGAGCATGAAGCCGATCCGGTGGCACTGGCTGCGGCCGTGGAGCGCTACGAGATCCACCACCCCGTCCTGGATGATCCCGAGCTGGAAACCTGGAAGGCGTACACCGCCCGCGCCTGGCCCACCCTGGTGGTCATTGATCCCGAGGGCTACATCGTGGCGCACCTCTCGGGCGAAGGCCACGCCGATGGCCTGTCCGTCCTCATCCCCGAACTGATCGCCGAACACGAGGCCAAAGGGACCCTGCACCGCGGTTCCGGCCCATACGTGGCACCGGAACCAACCTCCGGCACCCTGCGCTTCCCGGGGAAGGCCCTCTACCTTCCCGACGGGCGCGGTTCAGCCGCTGCCGCAGACGCCTCCGGGCATGGCAGCTGGCTTGTCACCGACACCGGCCACCACCGGCTGGTGGAGCTCGCAACCGACTTCAAGGCAGTACTGGCAACCTTCGGCTCCGGAACCAAGGGGCACGCCGACGGCGACGCCGCCGGTGAGGGAGCCACTGCCCGGTTCAACGAGCCGCAGGGCCTGGTCCTGCTCCCGGAGGACGTGGCAGCGAAGGTGGGCTACGACGTCGTCATTGCCGACTCGGTTAACCACCGCCTCCGCGGGCTGTCCCTGACGGACGGAAAGGCCACAACCCTGGCAGGCAACGGCATCCAGCGGCTCCTGGAAACGGGACCCGCCCGCGTGGATGAGGACGCAGCGGGCTTCACCGGGCGCCTCAGCGAGCACCCGCTGGAGGTTTCCCTGAGCTCGCCCTGGGATGTCATCTGGTCCAGGAAGCTCAACGCCGTGGTCATCGCGATGGCCGGCGTGCACCAGATCTTCAGCTTCGACCCGCTGAGTGGTGCCGTTGCTATCGCGGCGGGCAACGGCCTGGAAGGACTCCTGGACGGCGCCGCCCACGAGGCCTGGTTCGCACAGCCTTCAGGCCTTGCCGAGGACAGCGATGGCAACATCTGGGTGGCGGATTCCGAAACGTCCGCACTCCGCAAGCTGGTGATTGACGACGACGGCACGCTGACGGTGGAGTCCGCCGTGGGCAAGGGCCTGTTTGACTTCGGATTCCGGGACGGTGAGGCGTCTGCTGCCCGGCTCCAGCATCCGCTGGGGGTGACGGTTTTGCCGGACGGCTCTGTGGCCGTGGCGGATACCTACAACGGCGCGGTGCGGCGGTATGACCCGGCGGCGGGAACTGTCTCCACCCTTGCCCGGGGCCTGTCTGAGCCGTCCGATGTCATTGTGGACCACACCCAGGCGGCCGGCTCCGAGCCGCTGCTGGTGGTAGTGGAGGCGAACCAGCACCAGCTGGTGTACGTTCCCATCCCCAAGGAAGCCCAGCAGGTGGATGAGGGTGCGGTCCAGACCCACCGGCCCAAGAGCCCCGTCGCCCCCGGGCTGCATGAGCTGACCGTCCGCTTCACCGCTCCCACGGGCCAGAAGCTTGATGACCGCTGGGGCGATCCCACCCAGCTCAAGATCTCCTCCACGCCCCCGGAGCTCATCGTGTCCGGCGGCGGAACGTCCGTGGGCCTGCTGCGCACACTGGAGCTCGCCTCCGACGTCCCGGAAGGCATCCTGCACATCGCTGCCCGCGCCGCTGCATGTGACGGTGCCGAGACGGAGGACGGCGAGATCCCTGACCATGCGGCCTGCCACCTCTACCAGCAGGACTGGGGCATCCCCGTTCTGATGACGGACGACGGCGACAGGGAACTGGTCCTGGACCTGCGCGGCATGGACTGA	MSETVRTHHRVRASELVGRNWLNTGGKSLDLEALRGKIVLLDFWTFCCINCLHVLDELRPLEEQYSDVLVTVGVHSPKFEHEADPVALAAAVERYEIHHPVLDDPELETWKAYTARAWPTLVVIDPEGYIVAHLSGEGHADGLSVLIPELIAEHEAKGTLHRGSGPYVAPEPTSGTLRFPGKALYLPDGRGSAAAADASGHGSWLVTDTGHHRLVELATDFKAVLATFGSGTKGHADGDAAGEGATARFNEPQGLVLLPEDVAAKVGYDVVIADSVNHRLRGLSLTDGKATTLAGNGIQRLLETGPARVDEDAAGFTGRLSEHPLEVSLSSPWDVIWSRKLNAVVIAMAGVHQIFSFDPLSGAVAIAAGNGLEGLLDGAAHEAWFAQPSGLAEDSDGNIWVADSETSALRKLVIDDDGTLTVESAVGKGLFDFGFRDGEASAARLQHPLGVTVLPDGSVAVADTYNGAVRRYDPAAGTVSTLARGLSEPSDVIVDHTQAAGSEPLLVVVEANQHQLVYVPIPKEAQQVDEGAVQTHRPKSPVAPGLHELTVRFTAPTGQKLDDRWGDPTQLKISSTPPELIVSGGGTSVGLLRTLELASDVPEGILHIAARAAACDGAETEDGEIPDHAACHLYQQDWGIPVLMTDDGDRELVLDLRGMD				NA	NA	NA	NA	NA
D1-29_04461	2151			hypothetical protein	GTGCCTTCCGCAGCAAAGTCCCGTTCCACAGCAGCCCATCCATCCCCTGGCAGGGGAGCATCGGGCGAGGCTGGCGGCGTCTTGGGGGTTTCCCGGCCGTGGCAGGTGGCAGGGCTTGCAGCACTGTTCCTGGGCCTGGCGGCGGCACTGCTGTTCTCCGGTGCGGCCGCCGCCCGTGAGGTCTCAGACCCGGGCGCGTTGGTCCGCTGGGGACTTCCCGTCAGCAAGGCCATCCACAACGTTTCCCTGGCGACGGTCATCGGCGGCCTGATCTTCGCCGTCGGAATTCTCCCCAGAACCTCGGGACCACGTTCCAGGACCAGCGATAGCGATGCTCCCGAACACCCGGCTTTTGCCCGCGCGCTGGCTGTGGCAGCCGCCGCCGGTGCGGCCTGGACATTGTCGGCCATTGCGGTGCTGGTGCTCACCTACGCCGACGTGGCCGGCCAGGGGGTGTCAGGGGACGCTGAGTTCACGCAGGCGCTGGTGTTCTTCATGACGGACATCGAAACGGGGCGCGCCTGGCTGGCGGTGACCATCATCGCCGCCGTCGTAACCACAGCACTCTTTGGTGTGCGGTCCCTCAATGCCTTGGCCCTGACCCTGATCCTGGCTTTGGCGGGGCTGGTGCCCCCAGCGCTGATTGGGCATTCGTCGAGTTCCTCTGACCATGAGGGCGCCATCAACTCCCTGGGCCTGCACTTGGTGGGTGTCAGCGTCTGGGTGGGCGGGATCATCATGCTGGCCCTCATCTCCGGGATCCTGACGGGTTCCAAGGCCGGGGCGGGCACCGACATTACCGAGCCCACGTTGCGCCGGTTCTCCACTCTTGCAGGCTTTGCCTTTGTCCTGGTGTTTGCTTCCGGTGTGATGAATGCAAGCATCCGCATCACCAGCTGGGGCGACCTCTTCGGCTCGCCTTACGGGCAACTGATCCTGGCAAAGTCAGCGGCTACCCTGGTCCTGGGCGGCATCGGACTGATGCACCGGCAATGGGTGATCCCGCAGCTGGGACGGAAGGGAGGTGCCTTCTCCTCCCGCAGGGTGCTGTGGCAGTTGGTACTGGTGGAACTTCTGGTCATGGCGGGGACCTCCGGTGTAGCTGTGGCGCTGAGCCGCTCAGCGCCACCGCAGCCCACCAGCTTTGCGCCTGACGCATCCCCCGCCTTCATCCTCACCGGCTATGAACTCCCGCCCGAGCTGACGCCGGAACGATGGCTCACAGAGTGGCGGCTGGACCTGCTCTGGGTTGCCCTTGCCCTGTTCGGCCTGGTGTCCTACTTCCTGGGCGTGGCCAAAGTCCGCCGGAGGGGGGACAAATGGGCGTGGTTCCGTTCCGTGAACTGGGTGATCGGCCTGCTGGTGCTGACCTACATCACGTCGGGGCCGCCGGCGGTCTATGGCCGTGTCCTTTTCTCGGCCCACATGGTGGATCACATGGCCCTGACCATGGTGGCACCAATCTTCCTTGTTCTCGGTGCCCCCGTAACACTGGCCCTGCGGGCCCTGCCCGCCCGCGGCGACGGGTCCCGGGGCCTGCGCGAGTGGCTCCTGGTCTTTGTGCACTCCAGGTTTTCTCAGCTGGTGACCCATCCCATCTTTGCAGCCGGCAACTTCGCCGGCTCGATTGTGCTGTTCTACTACTCTGACGCCTTCGGCTTTGCCATGCGTGAGCACGTGGGCCACGAACTGATGAACCTGCACTTCGCGCTTACGGGGTACATCTTCATCCTGAGCATGATCGGCACGGACCCGCTGCCCCGCCGGGCGCCCTACCCCATGCGGCTCCTCCTGCTGCTGGCCACCATGGGCTTCCATGCGTTCTTCGGCGTGGCGATCATGGGCGGGACCAACCTCCTGGCAGCAGACTACTTTGGCAACCTTGGCCGGACGTGGGGTCCCTCTGCCCTGGTGGACCAGCAGATGGGCGGTGCCGTGGCCTGGGGCATCGGTGAGGTGCCCACGCTGCTGGTGGCGATCGGCGTCGCCATCATGTGGTCCCGGTCCGATGAACGCGAGAAGCGGCGCGTGGACCGGGCAGCGGACAGGAATAACGACGCCGATCTCACCGCTTACAACGATATGTTTGCCAAATTGGCCGAACGCGACGCCAAGCTGGCAGAACGCAACTCAAAGCTGGAAGGACGCTGA	MPSAAKSRSTAAHPSPGRGASGEAGGVLGVSRPWQVAGLAALFLGLAAALLFSGAAAAREVSDPGALVRWGLPVSKAIHNVSLATVIGGLIFAVGILPRTSGPRSRTSDSDAPEHPAFARALAVAAAAGAAWTLSAIAVLVLTYADVAGQGVSGDAEFTQALVFFMTDIETGRAWLAVTIIAAVVTTALFGVRSLNALALTLILALAGLVPPALIGHSSSSSDHEGAINSLGLHLVGVSVWVGGIIMLALISGILTGSKAGAGTDITEPTLRRFSTLAGFAFVLVFASGVMNASIRITSWGDLFGSPYGQLILAKSAATLVLGGIGLMHRQWVIPQLGRKGGAFSSRRVLWQLVLVELLVMAGTSGVAVALSRSAPPQPTSFAPDASPAFILTGYELPPELTPERWLTEWRLDLLWVALALFGLVSYFLGVAKVRRRGDKWAWFRSVNWVIGLLVLTYITSGPPAVYGRVLFSAHMVDHMALTMVAPIFLVLGAPVTLALRALPARGDGSRGLREWLLVFVHSRFSQLVTHPIFAAGNFAGSIVLFYYSDAFGFAMREHVGHELMNLHFALTGYIFILSMIGTDPLPRRAPYPMRLLLLLATMGFHAFFGVAIMGGTNLLAADYFGNLGRTWGPSALVDQQMGGAVAWGIGEVPTLLVAIGVAIMWSRSDEREKRRVDRAADRNNDADLTAYNDMFAKLAERDAKLAERNSKLEGR				NA	NA	NA	NA	NA
D1-29_04462	288	hup	COG0776	DNA-binding protein HB1	ATGGCTAAGAACCGTAGTGAACTTGTTTCAGAGGTAGCAGGCAAGGCCGGCACCAGCCAGGCTGCCGTCAACTCCGTCCTCGATGCACTGTTCGAGGTTTTCGAGACTTCTGTCGCCCAGGGCGAGAAGATCACCATTCCGGGCTGGCTCGCAGTGGAGCGCACCGACCGTGCAGCACGCACCGGCCGTAACCCGCAGACGGGTGAGACCATCCAGATTGCAGCAGGCCACAGCGTTAAGCTGACCGCCGGCTCCAAGCTGAAGGCTGCAGTAGCCAAGAAGAAGTAG	MAKNRSELVSEVAGKAGTSQAAVNSVLDALFEVFETSVAQGEKITIPGWLAVERTDRAARTGRNPQTGETIQIAAGHSVKLTAGSKLKAAVAKKK				NA	NA	NA	NA	NA
D1-29_04466	3039	lacZ		Beta-galactosidase	ATGTCAGTTCAGTCACCCTCCGCGCCGGCAGCGGCAGAGACCGAAGTACCCGCACAGAGCAGCCAGGGCACTGCCGCCCAAGGCCGCGCCCTGGAAATTGGCGCAGACGCAATCCAGGAGCTGGCCTCGGTTCAGCCAGCCCGGGGAACCCTGCCGGCACGCGCGTACCTGCACAGCGACGCCCCCCGACAGTCACTGAACGGTGACTGGCAGTTTCGGCTGAGCCCGGGCATCCGGCAGGCACCGGAGGACGGCTGGCAGCTGAGACGGAGCACGGACGGATTTACCGGGCTTCCCGTGCCGTCGAGCTGGCCCATGCACGGACACGGCTCACCGTGGTACACCAACGTACAGTTCCCCTTCCCGGTGGAACCCCCTCATGTCCCGGAGACAAACCCCATCGGCGACCACCTGGTGGAGTTCCACGCCGGAGCGGAGTTCCAGCCGCGTGCCATTCTCCGGTTTGACGGCATCGAGTCCGCGGGCACCGTGTGGTTGAACGGGACGGAACTGGGCACAACCCGCGGCAGCCGGCTTGCCCACGAGTTTGACGTGTCCGGGATCCTCGTTGAAGGCAAAAACCTCCTGGCTGTACGCGTAGCCCAGTTTTCCGCTGCCACGTACACGGAGGACCAGGATATGTGGTGGCTCCCCGGCATCTTCCGGGATGTCACCCTGCAGGCCAGGCCCGAACAGGGCATTGATGACGCGTTTGTCCATGCGGATTATGACCATCACACCGGCGAAGGAATCCTGCGTGTGGAGGTGAGCCGGGACGGTGAGGCGATTGACGCCGTCGTACGCATCCCGGAGCTGGGGCTCGAATTGGCCGCCGGCTCTGAACACCGCCTCAAGGACATTTCGCCTTGGTCTGCGGAACTGCCGCGGCTCTATGAGGCCACCGTCAGCACCCCCGGGGTAACGGTTGAGCTGCAGATCGGCTTCCGCAGCATCACCATCGAGGACGCCCAGTTCAAAGTGAACGGGCAGCGGATCCTGTTGCGCGGCGTCAACCGGCATGAGCATCATCCGCGCCTGGGCAAGGTAGTGCCCCGGGAGGTGGTGGAAGCCGAGCTCCGGCTCATGAAGCAGCACAACATCAATGCCATCCGGACTTCGCACTACCCGCCGCACCCCGATTTTCTTGCCCTGGCGGACCAGCTGGGCTTCTACGTTGTGCTCGAGTGCGACCTGGAGACCCATGGCTTTGTCAGTGCCGGCTGGAACCAGAACCCCAGCGATGATCCGCAGTGGGAGCCGGCCCTGCTGGACAGGATGCGCCGTACGGTGGAACGGGACAAAAACCACGCCGCCGTCATCATGTGGTCCCTCGGGAACGAGGCCGGCACTGGCCGTAACCTGGAGGCGATGTCGCGCTGGACCAAGGACCGGGATCCCTCACGGCCCATCCACTACGAGGGTGACTGGACCTGCGCCTACGTGGATGTATATTCCCGAATGTATGCCAACCAGGCGGAAACTGCGTTGATCGGCCAAGGCCTGGAGGAGGCCCTCGAGGATCCCGCGCTTGACGCCCGGCGCCGTGCCATGCCTTTCGTCCTCTGCGAGTACGTCCATGCCATGGGCAACGGTCCGGGAGGAATGTCCGAGTACCAGGAGCTGTTCGACCGCTACCCACGGCTGATGGGCGGCTTCGTGTGGGAGTGGCTCGAGCATGGCATTACGGTCACGGACGAGGACGGCCAGGAGCACTTTGCGTACGGCGGTGACTTCGGTGAGGAAGTTCACGACGGCAACTTTGTCACTGACGGCCTCGTGGACGCTAACCGGAAGCCCCGGCCCGGGCTGCTTGACTTCAAGAAGGTCATCGAGCCGCTGAAAATCGAGGTGGACGAGGACTGGTCCGGATTCACTGTGCGCAACGGCTTTGACTTCGCGGATACCTCGGCGTTCACCTTCCGATACGTGGTGGAGTCCGACGGCGTGACGCTCGACGGCGGCCCCGTGGCCCTTGCGCCACTGCCGCCCCGATCCGACACGCGTGTGGAACTCCCCGCCGGCCTTGCCGGGCTGGGTGAAGGACGGCCGTCAGTCCTCACCGTCAGTGCAGTCCTTGCTGCTGACGCCGATTGGGCGGCCGCTGGTCATGAACTGGCTTGGGGCCAGGCCGTTCAGGGCCTTGCAGCCAGCGAGGAGCCTTTTGCAACCGAAACTGTGCAGGTTGAGGAAAGTGAACTTCGGCTGGGCCCGGTGGTGTTCGACCGTCTCTCGGGGCTGCCCACCTCGATCGGCGCCGTACCGGTGGACCACCTGCGACTCGTGCTCTGGTGGGCTCCCACGGACAATGACATGGGCGGCGAATGGACCGGCCCTGACCGGCGCCCGCTGGCCACCCAATGGAAGGAAGCCGGGCTCAACCGGCTCCACAGCCGCCTGCTGGGCATCTCCGCGGTTCCCTCCCCGGACGGCGGGGAGGTGCTGACGGTCCGCACCCGGATGGGCGCTGCCGACAAGCAGTTCGGCGTGCTGGTGGATTATTCGTGGAGCAGCGACGGTCAAAGCGTGAACCTGCGGACCCAGGTACGGCCGGATGGGGATTGGACCAACGCCGGCCACGGTGTGGAGTGGGCGCGGATCGGGCTCGAAATGGTGCTGGGCACTCAGACGAACACCGTGAGCTGGTTCGGCCAAGGCCCGCACCAGAGCTATGCGGATACCGGTCAGGGTGCCAGGACAGGCTGGTTTCAGCTGCCGCTGGCGGAGATGGACGTCGACTATGTCCGTCCGCAGGAATCGGGTGCGAGGTCCGGCGTCCGCAAGGCGGGCCTGGAGCTCGACGCCGGCAGTCTTGAAATTGCCGGCAGCCCCTTCGCTTTGACGGTCCGCCCTTATGGCCAGGATGTCCTTGACTCAGCCACCCACCGGACTGATCTGCTCGCCGATGGCCGGAGCTACGTCTACATTGACCACGTGATGCGCGGGGTGGGAACGGCAGCCTGCGGGCCCGGCGCCCTGGAGCCGTACCGGCTGAAGCCGCAGGAAGCTGACTTCTCAGTGGTGTTGACCATGCGGGACTGA	MSVQSPSAPAAAETEVPAQSSQGTAAQGRALEIGADAIQELASVQPARGTLPARAYLHSDAPRQSLNGDWQFRLSPGIRQAPEDGWQLRRSTDGFTGLPVPSSWPMHGHGSPWYTNVQFPFPVEPPHVPETNPIGDHLVEFHAGAEFQPRAILRFDGIESAGTVWLNGTELGTTRGSRLAHEFDVSGILVEGKNLLAVRVAQFSAATYTEDQDMWWLPGIFRDVTLQARPEQGIDDAFVHADYDHHTGEGILRVEVSRDGEAIDAVVRIPELGLELAAGSEHRLKDISPWSAELPRLYEATVSTPGVTVELQIGFRSITIEDAQFKVNGQRILLRGVNRHEHHPRLGKVVPREVVEAELRLMKQHNINAIRTSHYPPHPDFLALADQLGFYVVLECDLETHGFVSAGWNQNPSDDPQWEPALLDRMRRTVERDKNHAAVIMWSLGNEAGTGRNLEAMSRWTKDRDPSRPIHYEGDWTCAYVDVYSRMYANQAETALIGQGLEEALEDPALDARRRAMPFVLCEYVHAMGNGPGGMSEYQELFDRYPRLMGGFVWEWLEHGITVTDEDGQEHFAYGGDFGEEVHDGNFVTDGLVDANRKPRPGLLDFKKVIEPLKIEVDEDWSGFTVRNGFDFADTSAFTFRYVVESDGVTLDGGPVALAPLPPRSDTRVELPAGLAGLGEGRPSVLTVSAVLAADADWAAAGHELAWGQAVQGLAASEEPFATETVQVEESELRLGPVVFDRLSGLPTSIGAVPVDHLRLVLWWAPTDNDMGGEWTGPDRRPLATQWKEAGLNRLHSRLLGISAVPSPDGGEVLTVRTRMGAADKQFGVLVDYSWSSDGQSVNLRTQVRPDGDWTNAGHGVEWARIGLEMVLGTQTNTVSWFGQGPHQSYADTGQGARTGWFQLPLAEMDVDYVRPQESGARSGVRKAGLELDAGSLEIAGSPFALTVRPYGQDVLDSATHRTDLLADGRSYVYIDHVMRGVGTAACGPGALEPYRLKPQEADFSVVLTMRD	PGPT0017810_1961	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017810-lacZ-K01190	NA	NA
D1-29_04467	1005	ccpA_14	COG1609	Catabolite control protein A	ATGACCTCCACTTCGCGTATCCACCGGGCAAAACGCGCGACAATCCTGGACGTGGCGGCCGCTGCAGGAGTCTCGCGGCAGACCGTCACCAGGGCCATGAACGATATGCCGGGCATCAGGCAGGAAACGCGCGAGCGTGTCCAGGAGTTGGCTCGGGAGCTTGGCTATACGCCAAGCAGGTACGCAAGAGGGCTGGTCCAGGGAGCACACACCTCCGTGGGGCTGGCCATCCCGGATCTCACCAACCCGTACTTTCCGGCGTTTGCGTCAAGTGTGGTGGAGATGGCCACACAGCGGGGCTGGAATGTGGTGATGGATGATTTTGGTCACGGCACCAGCAGTGCGCTGGACGCCGTCGCCCGGCTCGCCCCTCAGGTCGATGCAGTCATCGGATACCTTGGACCGGACTCGGAGGCGGCGCAAGCCATGCTGGGACGGCGTCCCGCCGTTGTCCTGGATCATCCCTATATGGCTGCCGGGAGGATCTCATTCGATTACCCCCATGCAGCCAGGCTCGCGCTGGACCACTTGGTGACGCGGGGCTGCCGGGAGATCGCCTACCTGGATTCCGGGATGGAAGGGTCACTGACGGCGCGGGGCGCAGCGGTGGCGGGAGTGGCCGAGGAACGTGGAATCGGGCTCATAGTGGCCCATTCCACCGAGGCGGCCCAACCCTCACGTCATGCCGTCGAGGATCTGCTGTCACGCCATCCGGGACTGGACGGAGTGGTGGCTTTTAACGATCTGATGGCTGCCGGCGTCCTGAAGGCACTGGCTGGAAGTGGACGCAGCGTGCCAGATGACTGCGCCGTGATAGGAATGGACGGCATCCCGCTGGGTGAGCTGGTGACCCCTGAACTGACTACCTTGTCTATGAACCTGCGCGACGTGGGCCGGACCGCCGTCGACCTTCTTGAGGGTTTACTGTCCGGATCGATTGTGCCAGGCAGCTCTGATGCCGATTTGATGCTGAGGCATGACCTTGTCCTCCGTCAGTCGGCTTAG	MTSTSRIHRAKRATILDVAAAAGVSRQTVTRAMNDMPGIRQETRERVQELARELGYTPSRYARGLVQGAHTSVGLAIPDLTNPYFPAFASSVVEMATQRGWNVVMDDFGHGTSSALDAVARLAPQVDAVIGYLGPDSEAAQAMLGRRPAVVLDHPYMAAGRISFDYPHAARLALDHLVTRGCREIAYLDSGMEGSLTARGAAVAGVAEERGIGLIVAHSTEAAQPSRHAVEDLLSRHPGLDGVVAFNDLMAAGVLKALAGSGRSVPDDCAVIGMDGIPLGELVTPELTTLSMNLRDVGRTAVDLLEGLLSGSIVPGSSDADLMLRHDLVLRQSA	PGPT0017992_9009	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
D1-29_04471	306	rpsN	COG0199	30S ribosomal protein S14	ATGGCTAAGAAGTCAAAGATTGCTCGCAACGAGCAGCGCAAGGTCATCGTTGAGCGTTACGCCGCAAAGCGCCTCGAACTGAAGAAGACCCTCGTCGACGCCAACGCTACCGACGAAGCACGCGAAGCTGCACGCCTCGGCCTGCAGAAGCTGCCCCGCAACGCGTCCCCGATCCGTCTGCGTAACCGCGACATCATCGACGGCCGCCCCCGCGGTACCTTCCAGAAGTTCGGCATCTCCCGTGTTCGCTTCCGCGACATGGCTCACCGTGGCGAACTCCCGGGCATCACCAAGTCTTCCTGGTAA	MAKKSKIARNEQRKVIVERYAAKRLELKKTLVDANATDEAREAARLGLQKLPRNASPIRLRNRDIIDGRPRGTFQKFGISRVRFRDMAHRGELPGITKSSW				NA	NA	NA	NA	NA
D1-29_04472	168	rpmG2	COG0267	50S ribosomal protein L33 2	ATGGCTAAGGACAAGGACGTACGTCCGATCATCAAGCTCAAGTCGACTGCGGGCACGGGTTACACCTACGTAACCCGCAAGAACCGTCGTAACGATCCGGACCGCATGGTTCTGAAGAAGTACGATCCCAAGATCCGCCAGCACGTCGAATTCCGAGAGGAGCGCTAA	MAKDKDVRPIIKLKSTAGTGYTYVTRKNRRNDPDRMVLKKYDPKIRQHVEFREER				NA	NA	NA	NA	NA
D1-29_04473	237	rpmB	COG0227	50S ribosomal protein L28	ATGGCAGCACACTGCCAAGTGACCGGAGCCGAGCCGGGCTTTGGGCACAGCATTTCGCACTCGCACCGCCGCAACAAGCGTCGGTTCGATCCGAACATTCAGAAGAAGCGCTACTGGGTTCCGTCCCTGCGCCGTAACGTCACGCTGCAGGTTTCTGCACGTGGCATCAAGACCATCGACGTGCGCGGCATCGACGTAGTCGTCGCCTCCATCCTTGCTCGGGGAGTGAAGCTCTAA	MAAHCQVTGAEPGFGHSISHSHRRNKRRFDPNIQKKRYWVPSLRRNVTLQVSARGIKTIDVRGIDVVVASILARGVKL				NA	NA	NA	NA	NA
D1-29_04474	762			hypothetical protein	ATGGATTTTTCAGCCCGGTACGTAGCGCTTGGTGACTCCTTCACGGAAGGCGTCGGCGATGAGGATCCCTCGCGCCCCAATGGTGTCCGCGGCTGGGCGGACCGCGTAGCCGAACAGCTGGGTGCCGCCGATCCCGGTTTCGGTTACGCCAATCTCGCCATCCGCGGGAGGAAACTGCGCCAAATCATGGCAGAGCAGGTGGCCGCCGCCGTCGAACTTAAACCCACGCTGGTGACCGTTTATGCGGGGGCGAACGATATTTTTCGCCCCAAGGTAGACATCGACGATCTCCTGGTTGAGTACGACGCCGGCATCCGCAAGCTGACCGCCACGGGCGCCACCGTGGTCATGTTCACCGGCTTTGATTCCAGGGGTTCGAAGATTTTCGGCACCACCCGGGGCCGGACCGCTATCTACAACGAACTGGTCCGCGGAATCGCCGGCGACCACGGTGCCCTGCTGGTGGATTATTGGCGTTTCAGTGAGTACTACGACTGGGGAATGTGGGCCCAGGACCGGATGCACATGTCGGTGGCCGGGCATGCCAACATGGCCAAGCGCGTCCTCACAGTCCTGGAACACGATCATTCGATCGAGGTTCCGCCGATGACCCCGGTACCGGAACTGAGCCGGACGGAAGCCCTTCGCGCCAACGCCCGCTGGGTCCGCGAGTTCGCGGCCCCGTGGGTGGCCCGCCGAGTAACCGGAAGGTCTTCCGGCGACGGACTGAAGCCCAGATATGCGGAGTTGACCCGCATCTGA	MDFSARYVALGDSFTEGVGDEDPSRPNGVRGWADRVAEQLGAADPGFGYANLAIRGRKLRQIMAEQVAAAVELKPTLVTVYAGANDIFRPKVDIDDLLVEYDAGIRKLTATGATVVMFTGFDSRGSKIFGTTRGRTAIYNELVRGIAGDHGALLVDYWRFSEYYDWGMWAQDRMHMSVAGHANMAKRVLTVLEHDHSIEVPPMTPVPELSRTEALRANARWVREFAAPWVARRVTGRSSGDGLKPRYAELTRI				NA	NA	NA	NA	NA
D1-29_04475	480			hypothetical protein	ATGACTGAACCGCGCTGGCTCAACGCAGACGAACGCCGTGCCTGGCTTGCCCTGGTAAGCATCAACACCCTGTTGCCGGCCGCGCTGGACACGAAGTTGCATGTCGCCGGAAAGCTGTCCCTTTTCGACTACACCGTCCTGGCGATGTTGTCAGAAGCAGACGAGCGGTTCCTTCCAATGAGTGAACTCGCTGCCCGCAGTAGTGCCTCCCTGTCCAGGCTTTCGCACGTCGTGACCAAACTCCAGAAGCGGGGGTGGGTGGAGCGCCGCCCGCACCCGCACGACGCCCGCGTCACCATCGCCCACCTCACCGAAGAGGGGATGGCCACCATCGTGAGCCTGGCACCTGATCACGTCGAGTCGGTGCGGGAGCTATTCCTGGACGCCCTCTCCGAGCAGGATGTCCTGGACCTGGCACGTATCGGCGAAAAGGTCGTGGCACGCCTCGATGAGGACCACTGGATCCTTCGGGAGAGCTGA	MTEPRWLNADERRAWLALVSINTLLPAALDTKLHVAGKLSLFDYTVLAMLSEADERFLPMSELAARSSASLSRLSHVVTKLQKRGWVERRPHPHDARVTIAHLTEEGMATIVSLAPDHVESVRELFLDALSEQDVLDLARIGEKVVARLDEDHWILRES				NA	NA	NA	NA	NA
D1-29_04476	333			hypothetical protein	TTGAGGCTTCAAGTGAGGAGTCCTGCCAGCGGTAAGCTGGAACGCATGTATGTTGTGTCGCTGAGCTACAAAGTGCCCGAGGACATCGTGGAGTTCCATCTTGGAGCCCACGTCGAATGGTTGCAGGAAGCCTTTGACGACGGCGTCTTTGTTGCCGCCGGCCGGAAGGTTCCCCGAACCGGCGGGCTGCTGCTGTCGAGGACCGACCGCGCAACACTGGACGCGAGCCTCGCCAAGGACCCCTTTTACGTGAATGGCGTGGCGGAGTTCGAGGTCATGGAGTTCGCGGCCAACAGGGTGGCCCCTGGTTTTGATAACTTGCTGGACAACTAG	MRLQVRSPASGKLERMYVVSLSYKVPEDIVEFHLGAHVEWLQEAFDDGVFVAAGRKVPRTGGLLLSRTDRATLDASLAKDPFYVNGVAEFEVMEFAANRVAPGFDNLLDN				NA	NA	NA	NA	NA
D1-29_04477	855			hypothetical protein	ATGGGTGCTGGTCCTTTGCTTCCGGATAGGGATGGGCGGCGGGTTTTTGTTGCCCTTGGCGATTCGTTTACCGAGGGGGTCGGTGACCGTGACGAGCGTTTCCCCAATGGCGTTCGGGGATGGGCTGACCGGGTAGCAGAAAAGTTGGCCAAAGCGCAGCCCGGTTGGAGGTACGCCAACCTGGCCATCAGGAGCAAGCGGCTGCGGCACATCATCAGCGAGCAGCTGGAACCGGCCGTGGCGATGCGGCCCACGCTGGTTACGCTGTATGCCGGCGGCAACGACATCCTGGACCTCGGCACCGACATGGACGCGCTGATGGCGGACTACGAATATATGGTGACGCGGCTGGCCCAAACCGGAGCAACCCTTGTCCTTTTTACCGGTTTCGACGTCAAAGTCTCAGCACTCCTTGAGCCCCTGAAGAAACGCAACACCAGTTACAACCAAAGAGTGCGCAAGATAGCTGCGGAGTACGGCGCCGTGCTGGTGGACTACTGGTGCCTCGACGCCTTCCACGACCGGCGGATGTGGGACGCTGACCGGCTGCACATGTCCAAGGCGGGTCACAAGTACCTTGCGGGACAGGTCCTGGACCAACTCGGCGTGCCGCACAAGATTCGTCCCAAGGAGTGGGATCCGCCGGTGAGGCTGAGCCTGCGGGAATGGGAAAGGCGGCAACGGCGCTGGGTCCATGACTGGGTGCTTCCGCTGTTCGGGCGAAAGATCAAGGGCATCACATTGGGGGATGCGCTTAGCCCGCGCTGGCCCGAGCCTGTCCGGGTGCCACCGAAGCGCGGCCTGAAAAAACTGCTCCGGCAGCGAGCTGCCGGAGCCCCGGAACAGCAGGGCTAG	MGAGPLLPDRDGRRVFVALGDSFTEGVGDRDERFPNGVRGWADRVAEKLAKAQPGWRYANLAIRSKRLRHIISEQLEPAVAMRPTLVTLYAGGNDILDLGTDMDALMADYEYMVTRLAQTGATLVLFTGFDVKVSALLEPLKKRNTSYNQRVRKIAAEYGAVLVDYWCLDAFHDRRMWDADRLHMSKAGHKYLAGQVLDQLGVPHKIRPKEWDPPVRLSLREWERRQRRWVHDWVLPLFGRKIKGITLGDALSPRWPEPVRVPPKRGLKKLLRQRAAGAPEQQG				NA	NA	NA	NA	NA
D1-29_04478	1041	viuB	COG2375	Vibriobactin utilization protein ViuB	ATGAAGACCCGCGATGTTGCCTCCACGGAACCGATGACCCTTGCGTTTGAAGTGACGGTTTCCTCCGTGCAGGAGCTCAGCCCCAACTTCCGCCGGGTGACCTTCGGCGGCTATTCCCTGCGCGACTTCGGCGTCCACGGCGACACCATGGATCTTCGGATCAAGCTTATGATCCCGTCCCTGGCCGAGGACGGCACGCAGCTTCCGCTGCCGGTCTTCGAAATGGCCGAGTCCGGCTGGTACCGCGAATGGCTGGCGATGGACCCGGCGGTCCGCGGCTCCATGCGTACCTACACCGTTCGCCAGTCACGGCTGGATTCGGTGTACCCGGAGATCGACGTGGACTTTGTGATGCACTTCGACGACCACGGTCACGGTGGCCCGGCCGCCCACTGGGCCCTCAACGCGAAGCCTGGTGACGCCATCACCATGATCGGCCCCAACAACCGCGCCGCGCACTGCGTGACTGCTGAGATCTATTCGGGCATCGAATGGCGGCCGGGTATGGCCCAGCGGGTCCTTCTGGCCGGGGATGAAACAGCCATTCCAGCGATCTCCGCGATCCTCGAGAACTTGCCCTCGTACATGAGCGGTCACGCCTTCCTCGAGGTGCCGCAGGCCGGTGACTTCCTGGACATCAAGACCGCCGCCGACGTCCAGATCACCTGGCTGGCGAGGGGCGCCGCCATCGGACGGTCCCGGCCGCACGGCGAACTGCTGCAGCAGGCAGTGCGCCAGGCAATCCCGGTTCCCGGGTGGGTGGGTATTAAGGAGTCCGACGGCGGCGCCGGTCCCGAGCCCGAGGACGTCAATGTGGACGTGGACATCCTCTGGGAGACTCCAGCCCGGATGGAAACAGCCGAGATCGAAGCCACGAAGAACCCCGACATGCCTGCCGGCGCCATGCCCTTCTACGCCTGGATCGCCGGGGAAGCCGCGGTCATCAAGGACATGCGTCGGTACTTGGTGCGGGACGTGGGGATCGACCGGAAGCAGGTCGCCTTCATGGGGTACTGGCGGCAGGGGAAGGCCGAGGGGTAG	MKTRDVASTEPMTLAFEVTVSSVQELSPNFRRVTFGGYSLRDFGVHGDTMDLRIKLMIPSLAEDGTQLPLPVFEMAESGWYREWLAMDPAVRGSMRTYTVRQSRLDSVYPEIDVDFVMHFDDHGHGGPAAHWALNAKPGDAITMIGPNNRAAHCVTAEIYSGIEWRPGMAQRVLLAGDETAIPAISAILENLPSYMSGHAFLEVPQAGDFLDIKTAADVQITWLARGAAIGRSRPHGELLQQAVRQAIPVPGWVGIKESDGGAGPEPEDVNVDVDILWETPARMETAEIEATKNPDMPAGAMPFYAWIAGEAAVIKDMRRYLVRDVGIDRKQVAFMGYWRQGKAEG	PGPT0003760_83	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
D1-29_04479	828	fepC	COG1120	Ferric enterobactin transport ATP-binding protein FepC	ATGGCAGTTCTGACCGCCCGGGACCTCACGCTCAAATACGATCAGCGCTGCGTGGTGGACGGCCTCACGGCCGAAATCCCCGAGGGCAAGGTGACCATGATCGTGGGCGCCAACGCCTGCGGAAAGTCGACGCTGCTCCGCGGCCTGTCCAGGCTCCTCAAACCCGCGGCGGGTTCAGTCACGCTGGACGGCAAGGACATCCACTCCCGGCCGGCCCGCGAACTTGCCCGCACCCTGGGGCTCCTCCCGCAGCACCCCACGGCTCCGGACGGCATCACCGTCCGCGACCTCGTGGGCCGGGGACGTTACCCGCACCAGGGCTTCTTCCGCAGCTGGTCCGAGCAGGACGACGCCGCAGTGCAGCGTGCGCTGGAAGCCACCGATACGCTTGAACTCGCCGGGCGGAACGTGGACGAGCTGTCCGGCGGGCAGCGTCAGCGCGTCTGGATCGCCATGGCGCTGGCGCAGGAAACCGAGGTGCTGCTGCTGGATGAGCCCACCACCTACCTGGATCTCGCCCACCAGGTGGAAGTCCTGGACCTCGTCACAGACCTGAACCGCAGGCGCGGCACCACGGTGGCCATCGTCCTGCACGACCTCAACCTGGCGGCGCGCTACGCGGACCACGTCATCGCCATGAAAGCCGGGGCGGTGGTCGCGCTGGGAGCCCCCGGTGACGTTGTCACGGAGGAACTGGTTCGCGAAGTCTTCGGACTGGAGTCCCGCGTGATTCCCGATCCTGTTTCAGGCACCCCCTTGATCATCCCCATCGGCCGCCACCACGCCACCGCTTATGAAGCCGTCAACGAACTGGAGTTTGTTTCATGA	MAVLTARDLTLKYDQRCVVDGLTAEIPEGKVTMIVGANACGKSTLLRGLSRLLKPAAGSVTLDGKDIHSRPARELARTLGLLPQHPTAPDGITVRDLVGRGRYPHQGFFRSWSEQDDAAVQRALEATDTLELAGRNVDELSGGQRQRVWIAMALAQETEVLLLDEPTTYLDLAHQVEVLDLVTDLNRRRGTTVAIVLHDLNLAARYADHVIAMKAGAVVALGAPGDVVTEELVREVFGLESRVIPDPVSGTPLIIPIGRHHATAYEAVNELEFVS	PGPT0003760_2288	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
D1-29_04480	1113	btuC		Vitamin B12 import system permease protein BtuC	GTGAGCACCACCGAAACCAAACGCCCCGTTGACCTATCACTTCCGGTCCCCAAAACACCGTCCAAGCAGCCATATCTGATAGCGCAACCTGGGTGGCGGACACCTGCACTGGCCATCGGTGTGGTGGCGCTCTTCGCCGCGTACGTTCTGCTGGGCAGCTATACGGTGACGGTCCCGGACTTCTTCCGAATCGTCATCGCCCACCTGACCGGCGGTGAACGGATCCCCGGCGCCAGCTTCATCGTGATGGAAAACAAGCTGCCCCGCGCGGTCATCGGCACCATGATCGGCGCCGCATTCGGTCTTGCCGGGGGCCTCTTCCAGACCATGCTTCGCAACCCCCTGGCCAGCCCCGACGTCATCGGCATAACCTCAGGCGCCAGCGCGGCAGCGGTCACATCAATTGTCATCTTTGGAGCCTCGGGCGCTGCCGTGTCCGGCGCGGCTCTGGGCGGCGCGCTGGGCGTGGCCGCCCTGATCTACGCCATCTCCCGCGGGGGCTCCCTTGGTTCAGGGGGCGGCAACACCGGCAACGCGGCCGGCAACCGACTCATCCTGGCCGGAGTGGGCATCGCCGCCGCACTGCACGCAGTTGTCAGCTTCCTGATGACGCGGGCGGACATCCGGACAGCTGCAGATGCCCTTGTCTGGCTCAACGGCTCTCTCAATTCGGCAAACTGGGAACGCTCCGGCGTGCTGGCGCTTTCGCTCCTGATCCTGGTTCCCGCCGTCGTGGCCCTGGCCGGTCCGCTCCGCATCCTGGAACTCGGCGATGACGCCGCAGCAGGATTGGGGATCCGCGTGGGATTCACACGCCTGGCGTTGGTCATCACCGCCGTCGCTTTGGCAGCGGTCGCGACGGCGGCAGCAGGCCCGGTCTCGTTCGTCGCCTTCCTTGCCGGTCCCATCGCCCGCCGCTTTACCCGCCAAGCCAGCCTTCCGGCGTCGGCCTTTGTGGGTGCCCTGATTGTCCTGGCGGCGGATTACTTCGCCGCCAACATCGCCCCCCTGCTGCTGGATGGCACCGTGCTGCCCGTTGGCGTGATCACGGGGGCGCTGGGTGCCCCGTTCCTGCTGTGGCTCCTGGTCACGGCCAACCGAAAGGATGCCTGA	MSTTETKRPVDLSLPVPKTPSKQPYLIAQPGWRTPALAIGVVALFAAYVLLGSYTVTVPDFFRIVIAHLTGGERIPGASFIVMENKLPRAVIGTMIGAAFGLAGGLFQTMLRNPLASPDVIGITSGASAAAVTSIVIFGASGAAVSGAALGGALGVAALIYAISRGGSLGSGGGNTGNAAGNRLILAGVGIAAALHAVVSFLMTRADIRTAADALVWLNGSLNSANWERSGVLALSLLILVPAVVALAGPLRILELGDDAAAGLGIRVGFTRLALVITAVALAAVATAAAGPVSFVAFLAGPIARRFTRQASLPASAFVGALIVLAADYFAANIAPLLLDGTVLPVGVITGALGAPFLLWLLVTANRKDA	PGPT0003770_9240	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
D1-29_04481	1122	yfiZ_2	COG0609	putative siderophore transport system permease protein YfiZ	GTGACGGAAAGTACGACGACGGCGCCCTCCGCTGTGCGCGAACGGACACTTGGGGCCCCAAAAGGGTCGCAAAAAGGGCCTCAACTGTCCGTTCGCGCCGGTGGCGGGCTCCGCGAAGGCGGAAAAAGCAGAACCAGCCAGGCCGCCTGGCTGATCGCCGCCGTCGTCGTACTTGCCCTCCTGACAGCTCTCTCCTTGGCCGTCGGTGCCCGCGGCCTTTCCCTGGGCACCGTATGGCAGGCCCTTACCGGCTTTGATCCGGCCAACGGCGATCACGCAGTTGTCCATGCCCGCATCCCGCGCACCGTGCTGGGCCTGCTCGCCGGCGGCGCCCTCGGCCTCGCCGGCGCCGCCATGCAGGGTGTGGCCCGCAACCCCTTGGCAGATCCCGGAATCATCGGCGTGAATGCCGGGGCCGCCCTCGCCGTCGTCACCGGGATCTACGTGTTCGGGGTTTCCTCGCTCACCGGCTACATCTGGTTCGCCTTCATCGGAGCCGCAGCGGCCGCCGTCGTGGTTTATCTTGTTGCATCCCTGGGCCGGGACGGTGCGACGCCCATCAAACTCGCTTTGGCTGGTGCCGCGCTCAGCGCAGGCCTGTACTCGCTGATGAACGTCATCCTGGTTTCCAGCCAGGACACGCTGGACAGGTTCCGTTTCTGGCAAGTGGGCGGGATAGCGGGCCGCGACTGGTCTGTGGTGCTGCCGGGCCTGCCTTTCCTCGCGGCGGGGGCGTTGATTGTGCTCTTTACGGGCCGCATCCTCAACAGCCTGGCCCTGGGCGACGACATTGCCCGCGGTCTTGGCCAGCGGGTTGGCCTGGCACGCGGCGTGACAGCGCTGGGCATTGTCCTGCTCTGCGGTTCCGCCACGGCCCTGGCCGGCCCCATTGCGTTTGTTGGCCTGGTCATTCCGCACGCCGTCCGTTCCCTCACCGGCCCCGACTACCGCTGGATCCTGCCGTTCTCCCTGGTCCTGGCTCCTGCCTTGCTGCTGGCCGCTGACATCATCGGCCGGGTGGTGCTGCTGCCCGGTGAGGTTCCGGCCGGCATCATGACCGCCATCGTGGGTGCACCCGTTTTCGTCTGGCTGATCCGCCGCGGGAAGGGAGCAGGGCTGTGA	MTESTTTAPSAVRERTLGAPKGSQKGPQLSVRAGGGLREGGKSRTSQAAWLIAAVVVLALLTALSLAVGARGLSLGTVWQALTGFDPANGDHAVVHARIPRTVLGLLAGGALGLAGAAMQGVARNPLADPGIIGVNAGAALAVVTGIYVFGVSSLTGYIWFAFIGAAAAAVVVYLVASLGRDGATPIKLALAGAALSAGLYSLMNVILVSSQDTLDRFRFWQVGGIAGRDWSVVLPGLPFLAAGALIVLFTGRILNSLALGDDIARGLGQRVGLARGVTALGIVLLCGSATALAGPIAFVGLVIPHAVRSLTGPDYRWILPFSLVLAPALLLAADIIGRVVLLPGEVPAGIMTAIVGAPVFVWLIRRGKGAGL	PGPT0003770_539	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
D1-29_04482	1104	yfmC	COG4594	Fe(3+)-citrate-binding protein YfmC	GTGACTTCCCCCTTCTTCTCCGGCCCAAGTGCCACCCGCCGCATGCTGTTCAAGTCGGCCGGCAAGGCATCAGCTGTTCTGGCCGCCGCGGCGCTCACCATGACTGCCTGCTCCACGGGACCTGCATCCTCTGCCGCAGATGCCGGCACCTCCAGCTCCAGCAGCTCGCAATTCCCCGTCACCATCAAGCATGTCTACGGCGAGACCACCATCAAGGAACAGCCCAAGCGCGTCGCCACCGTTTCCTGGGTTAACGACGACGTCTCCATCGCCCTCGGTGTGGTCCCGGTTGGCCTCCCGAAGAACGAATGGGGCGGGAATGACCAGGGTTCCACGCCGTGGAAGGACGCAGCCCTCGAAAAGCTTGGCGCGGGCTTCGGCTCAGACAAGGCTCCCGTACAGTACTCCGAGACTGACGGCATCAACTTCACCGAAATCGCCAAGCTCACCCCGGACGTCATCCTGGCCGCATACTCCGGGCTGACCGAAGAGGACTACAAGAAGCTCAACGAGATCGCCCCCGTAGTGGCGCACCCCGAGCTGGCATACGGTACGTCCTGGCAGGACTCCACCTCCATCATTGGCAAGGCCCTTGGCAAGGACGCCGAGGCCACCAAGCTGATCGCGGACACCGAGTCCACCATCAAGGACAAGGTCGCCAAGTTCCCGCAGATCGCCGGCAAGACCTTCATCTACGGCAACCTGGAACCCGCCTCGGCTGACGGCGTCAACGTCTACACCGCCAACGACAACCGCCCCCGCTTCCTAAGCGAGATCGGCATGAAGCTGGCTTCTGTTGTGGAGGACAACTCCAAGGGCTCCAAGGAATTCTTCATTCCGTGGTCCGCCGAAAAGGCCAACGAGCTGGACTCCGACATCTTCGTCACCTGGGTTCCGGACGCCGCCACCACCGACACCATCAAGTCCGACCCCCTGCTCGGCCAGATCCCGGCCATCAAGAAGGGCGGCCTTGTTGCCGACTCGGACAATACCCTCACGCTGTCCATCTCCGCATCCTCTCCGCTGAGCCTGCCGTGGTCACTGGACACGTTCCTGCCGCAGCTTGCGAGCGCAGCGGATAAAGTCACCGGCGCAGTGAAGTAA	MTSPFFSGPSATRRMLFKSAGKASAVLAAAALTMTACSTGPASSAADAGTSSSSSSQFPVTIKHVYGETTIKEQPKRVATVSWVNDDVSIALGVVPVGLPKNEWGGNDQGSTPWKDAALEKLGAGFGSDKAPVQYSETDGINFTEIAKLTPDVILAAYSGLTEEDYKKLNEIAPVVAHPELAYGTSWQDSTSIIGKALGKDAEATKLIADTESTIKDKVAKFPQIAGKTFIYGNLEPASADGVNVYTANDNRPRFLSEIGMKLASVVEDNSKGSKEFFIPWSAEKANELDSDIFVTWVPDAATTDTIKSDPLLGQIPAIKKGGLVADSDNTLTLSISASSPLSLPWSLDTFLPQLASAADKVTGAVK	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
D1-29_04483	738			hypothetical protein	ATGCGCCCAGCACAAGCACGTCTTTTTGCCGCCATCGCCACCGCCGCCCTCGCTCTGACCGGCTGCATGGCCAACGCCTCGACTGCCGGTTCGGAAGCCCCGGGTTCGGAAGCTTCCGCCGCTGCCAGTCCCTCGGCCTCATCAAGCGCTCCGCCGGTTTCGTCAAACGCCACCCCGTCTGCCGACTCTGCCGGCCCGACGGCGGCCGCCGCACCGCCGTCGTCCTCTTCCGTTCCTGCCGGGCTGGCAACGTATACGTTCCCGGACGGCAGACTGTCGTTTAAGTACCCGGCGGACTGGCGCGTGGAGCTTTTCGAAGCCGCAGCCTCGCCCTTTGCGGGCACGGCCACCGTGTACGACGCGAACGGGACCAGGCAGGCTGAGATATATACGGGAGAGATTGCCGACGGTGTCAGCAGTCCCGTCACCAGGACGGTGTTCGAATCCGTGCCGGTTCCAGGCCTGCAGGGACAACCTGACCCGGCTGCGCACTACTCGTTCTACGTGGACAATGTGAACGACATTGCCATTTACCGGATGCACCTGACGCCGGGCGTCCCTCTGGCCGGGGCCGAGATGGCGCTGGGCGGGATTATCCGGATCGGCGACCGCGTCCTCATTGCGGAGGTTGATTTCATCGACAACCCCTTTGCCAGCGATGATGCCGCCAAGTCCTGGCTCGCCGGTACAGAAGGCCAGGCGCTCAGGGGGCTCCTGATGAGCATCTCCTACGCGTAA	MRPAQARLFAAIATAALALTGCMANASTAGSEAPGSEASAAASPSASSSAPPVSSNATPSADSAGPTAAAAPPSSSSVPAGLATYTFPDGRLSFKYPADWRVELFEAAASPFAGTATVYDANGTRQAEIYTGEIADGVSSPVTRTVFESVPVPGLQGQPDPAAHYSFYVDNVNDIAIYRMHLTPGVPLAGAEMALGGIIRIGDRVLIAEVDFIDNPFASDDAAKSWLAGTEGQALRGLLMSISYA				NA	NA	NA	NA	NA
D1-29_04484	3483			hypothetical protein	GTGAGCATCGCATCCATGCTGCCCATGGGCGAGCTCACGAACCCGGGCCAGATGCGCCTTGCCCTGGTCCAGGTGGTGAACTGGGGCACCTTCCATGGAGCCCACACGATGCACGTGGACCGCAATGGCACTCTGCTGACGGGCAACTCGGGCGTGGGCAAATCCACGCTGTTCGATGCCATGCTGCGCGTGTTTGATGCCCGGCCGCGCTCCAATGAGGCTGCGGCCCAGCGTTCCGGTGGTGCCGTGGAGGACAAGAGGACCACGTTCACGTACATGCGCGGAAAGGTGGGCGACAAGGCCGTGGGCGAGGGCTCGGCAAGTGCCTTCCAGCGCCCGGGTGCCACCTGGTCCGCCGTGGCCCTGACGTTCGATAACGCGGCGGGCACCCGGGTGACGGTGTCGGCTCTCTTTGACTTGCCCAAGAACGGCACGGAATCCAGCGTCGGCCGGTTTTATGTGATTGACGGCAAGCCGCTGGACCTGGCCGCCATCGAGGACATTGCGGAGAAGCGCTTCACCAAGGCGGCGCTGGAAACGATCTTCCCGGACGCCCAGATCTTCGATGTCCACAAGGCCTTCGCCGAACGGTTTCGGCGACTGCTGGGCATCAGCTCGGACCAGGCCTTGCCTCTCCTGCGTGTGATTCAGGCGGGTAAAGGCCTGGGCGGCAGCGTCAACACCTTTTTCCGTGACCAGGTCCTGGACGCCCCGGCCACCCTCGCCGCCGCCGATGACGTGGTGGAGGAGTTCAGCAACCTGATGTCCATCCGGCAGCGGCTGGAGGACGTGCGGCAGCAGCGTGACCAGCTGGCGCCGGTGCCCGGGCTGAACAAGGAGTATGCGCAATCGCTGCTGGACGCAAACCGCCTCCGTGATCTGGCCGGCGAGGAATTCGATGCCTACAAGCAGCAGCTCGCGGTAGCAGTCCACCAACAGACCCTGGCCCGGTTCAAGGAGCTGGCCCAGGCGAAGGCCAAGGAGCTCGGGGCGGAGCGGTCGGTGCGTGACGGACTGGCCAAGGAACTGCGCCAGCTGGAGACCGACTACAACAACCAGGGCGGCAACGCGATTTCCGCCATTGAGCAATCGATGGAAAATGCCCAGGTAGGGCTCCTCCTCCGTGAACAGGTGGAGGAGGCCGCCCGCAAAGCCCTGGCCGACGCCGGGCTGCAGCTTGAGTGGACTGCGGAGGGCTGGGAACAGGCCCACGAGCAGGCGGAGGCCCGATCAGCGGAGCTGAAGGACGATTCGAAGGCGCTCCAGGAACTTCGCTTTGAGGCTTTTGACGGCCACGCCACCAAAAAGCGTGAACTCGCGGCAGCGCAGCAGGAGCTGGTGTCGCTGAAAACGCGCAAGTCCCTGCTGCCGCCGTCGAGCATTGAAAACCGGGCAGCGATAGCAGCAGCCACCGGCGTTCCGGAGGAGCGGATGCCGTTCGGCGGCGAGCTGATCGACCTTGCCGAGGGGGAGGAGCGGTGGCGGCCTGCTGCAGAGCGTGCGCTCCGGAACCTTGCCACCACGCTGCTGGTCCCGGGCGAACATTTCGCGGCAGTGACCCGCTACCTCAATGACAACACAGTCCGTGGTGCCCTGCGCGCAGTGGACGTGTCCAAGCCGCTGCCCGGCGGCGCGCTGGCGGTAGAGGACGTTCGCGACGGCGATCTGCTGACCAAACTGGACATCCTCACTACCAATGCCGCCGCAGACGCCGGGGCGTGGATCCGGGAGCGCATCGCCCTCGATTTCGCCTTCCCGTGCGTCGAGGACCCGGGTGAACTGGCAGCACTGGAGAAGGGCCTGAGCCTGGGCGGTGTGGTCAAGCGGAACCGCCACACGGTGGAGAAGGATGACCGCTTCACAAGCCGGCAGGACTACGTTCTCGGGTTCGACAACGCCTCCAAGCTGGAACTGGTGGCGGCTCAGGTGGAGGATCTGCAGCAGGAACTCGCCAAGGCGGCGGAGCTGGCGCAAAGCCGCGAGGAGTCGCACCAGGGCATGAGCCGCCAGCTCGAGGCGCTGCGGCGCATCGCCGAAGACCACAGGCCATGGGAACAGGTCTCGGCAGCGGTGGCGGCGGAGGAGCTCGCCAGGATTGAACAGCGGCTCAAGGACGCCCTGGCCGCACAGGCGGACCTGGAGCCGCTGCGTGCCAACATCGAAGCGGCGCGGCAAAAACACCAGTCCAGCACGGAGGCGGCTGCCGTCCTGCAAAGCGAATACAAGGCGCTTGACCGGCAGATGAGCACCGCCGATTCCCTGCTGGAAGCTGCCCGGGCCCGCTTGGAGCAGGCGCCGCCGTCGGAGGCCACCGTGACGGCGCTTGAACCGTACTTCACCGAGTTTGGTGACGTCACGGAGATGCATGAGCTGGACAACCTGGCCAACCGGGTACGGACGGTACTCCTGGGCGAGCTGCATGCCGCTGAATCGAGCGGGCAGGCCACCTCCGAGCGGCTGACCCGGATTTTCGAGGGCTTTGTGCGGGAGTGGGGAACCGCGATCTCCGCGGACCATGGCACGTCCATCGGCGCGGCAGGCGAGTTCGAAACCCGGTACCACGCGATTGTGAGCGACGGGCTTCCCTCCCAGGAAGCGGAATTCCGGCAGTTCTTCAACCAGCGCACCCACGAGTCTTTTAGCACCCTCCTGCACTTGCTGGACGAGGAACGCCGGGCCATCACCAGCCGCATCCTGCCGCTGAACGGCATCCTGTCTCAGGTTAACTTCCATGAGGGCAGCTACCTGGAACTGGACATCAAGCAAACCCTGCCCGCCACGGCAAAGCAGTTCAAGGACGCGATCCAGAATGCGTTGAAGGCGCGCCACACGCGTACGGGTAAAGGCGAAGGAACCGACGACGCCGAACTCACCACCCGCTACAAGTCGCTGGAGACCCTCGTCAAACGGCTCAGCTCGCAGGCTCCGGAGGACCGGCGCTGGCGGGCGGAGGTGCTGGACGTGCGCGGGCACCTGTTCATCCAGTGCAAGGAACACCGCCACTTGGTGGCAGAGACAGTCGCAGCAGAGACAGCCGGGGGAGAGATAAGCGGCGGCCGGAACGGCGACGCGAAAAAGACCGACGTCTACATGCACGCGGACACGGGCTCCATGTCCGGCGGCGAGAGGCAGAGGTTCACGGCCTTCATCATGGCCGCGGCGTTGAGTTATCAGCTGGGCATTGCGGAACAGGGCTTCACCACCTACGGCACCGTGATGATGGACGAGGCGTTTGTCCTGGCCTCAGAGGAGTTTGCCGGTGCTGGAATCAAGGCACTTCACGAGTTCGGATTCCAACTGTTGCTTGCTGCCCCGGAGAACGTCATCGATCTCTCCCGGCACCTGGGCTCGGTGACGGAGATTCTGCGGGACAAGCGCACCAACCGCTCCGGTGTACTCACGGCTCCCGTGATCAACGCTGCACGCGGTTCCTCAGGTGTATGGCGTTCGGAGGCCAACCCGGTGGATATTGTGCTCCGCTGA	MSIASMLPMGELTNPGQMRLALVQVVNWGTFHGAHTMHVDRNGTLLTGNSGVGKSTLFDAMLRVFDARPRSNEAAAQRSGGAVEDKRTTFTYMRGKVGDKAVGEGSASAFQRPGATWSAVALTFDNAAGTRVTVSALFDLPKNGTESSVGRFYVIDGKPLDLAAIEDIAEKRFTKAALETIFPDAQIFDVHKAFAERFRRLLGISSDQALPLLRVIQAGKGLGGSVNTFFRDQVLDAPATLAAADDVVEEFSNLMSIRQRLEDVRQQRDQLAPVPGLNKEYAQSLLDANRLRDLAGEEFDAYKQQLAVAVHQQTLARFKELAQAKAKELGAERSVRDGLAKELRQLETDYNNQGGNAISAIEQSMENAQVGLLLREQVEEAARKALADAGLQLEWTAEGWEQAHEQAEARSAELKDDSKALQELRFEAFDGHATKKRELAAAQQELVSLKTRKSLLPPSSIENRAAIAAATGVPEERMPFGGELIDLAEGEERWRPAAERALRNLATTLLVPGEHFAAVTRYLNDNTVRGALRAVDVSKPLPGGALAVEDVRDGDLLTKLDILTTNAAADAGAWIRERIALDFAFPCVEDPGELAALEKGLSLGGVVKRNRHTVEKDDRFTSRQDYVLGFDNASKLELVAAQVEDLQQELAKAAELAQSREESHQGMSRQLEALRRIAEDHRPWEQVSAAVAAEELARIEQRLKDALAAQADLEPLRANIEAARQKHQSSTEAAAVLQSEYKALDRQMSTADSLLEAARARLEQAPPSEATVTALEPYFTEFGDVTEMHELDNLANRVRTVLLGELHAAESSGQATSERLTRIFEGFVREWGTAISADHGTSIGAAGEFETRYHAIVSDGLPSQEAEFRQFFNQRTHESFSTLLHLLDEERRAITSRILPLNGILSQVNFHEGSYLELDIKQTLPATAKQFKDAIQNALKARHTRTGKGEGTDDAELTTRYKSLETLVKRLSSQAPEDRRWRAEVLDVRGHLFIQCKEHRHLVAETVAAETAGGEISGGRNGDAKKTDVYMHADTGSMSGGERQRFTAFIMAAALSYQLGIAEQGFTTYGTVMMDEAFVLASEEFAGAGIKALHEFGFQLLLAAPENVIDLSRHLGSVTEILRDKRTNRSGVLTAPVINAARGSSGVWRSEANPVDIVLR				NA	NA	NA	NA	NA
D1-29_04485	990			hypothetical protein	ATGACTGAAGAAACGACGACGGCGGCGGCCCCCGCTGAAGAGGCGACAGTTCCTTTGGAGGAGGCAGTTTCCTTGGCGGCGGCATCTGGTGCTGAACAAGCCTTTACCGTCACACCCAGGGACACATTCGTTGATGGCGCGGCGCTCTTCCCCGGGGATTCCGGCGTGCTGTCCATGAAGGTCCGTCAGGCGCTGGTCAAGCTCCTGAAAGGTCCGTACATCGACGGCGGCCGGGACGAAAAGCTGTGGACGACGCTCCTGGACAACCAGCTGATTCTCCGAAGCCGCCTGTCCGAGCTTTTCCTTACGCTGCAGTTGGACCATGAGCGCAAGATCGCGGTTTTGCGGCCTGTTGACCCCGAGGCCATCGGCGGCGGCACCCGCTCCAGCATCCTGCGCCAGCAGCGGGCCCTGAGCCGGGTGGAAACCATCGTGCTCCTCCGCCTCCGGCTCCTGCTTGACCGCCACGTCACAGCCCAGACAGATCCCACCATTACGCGGGAGGAAATCGCAGACCTGGTGGCCCACTACCAGCCAGCCGGCCAGCAGGATGCCCTCAGGGACGCCGACGTGGTCAGCAGGGCAATCACCAAACTCATGGCCCGCCAACTCCTCCTCAACACCGGCCTGGACGACGTCTACACCATCTCCAACGCCCTCCCGCTGGCACTGCCGTTCGAAAACATCGGCGACATCCCGGCCCAAATCGAAGCCCTGGTAGCAGCCACCTCGGACCCCGCAGGAACCGAAGCCCTCCTAGAACTCGACGGCGAGAATTCTACGGAAGAGGACGCTGGGGACGACGATTCGGAAGGTGAGCTACCTCCAGGCGCAGCAGCCGATGCCGCCCAGGGAGTGGCATCGGGCCTGTCGGAGCCGGGCGGATCGTCCGCAGGACGAATGCCGCCCGGCGAAGGGGCGGGGGCGGCATCGGCTGTGGAGCCGAACCCAGCAACGACAAACGCAACCACAGCGAAGGAAAGCAAGTGA	MTEETTTAAAPAEEATVPLEEAVSLAAASGAEQAFTVTPRDTFVDGAALFPGDSGVLSMKVRQALVKLLKGPYIDGGRDEKLWTTLLDNQLILRSRLSELFLTLQLDHERKIAVLRPVDPEAIGGGTRSSILRQQRALSRVETIVLLRLRLLLDRHVTAQTDPTITREEIADLVAHYQPAGQQDALRDADVVSRAITKLMARQLLLNTGLDDVYTISNALPLALPFENIGDIPAQIEALVAATSDPAGTEALLELDGENSTEEDAGDDDSEGELPPGAAADAAQGVASGLSEPGGSSAGRMPPGEGAGAASAVEPNPATTNATTAKESK				NA	NA	NA	NA	NA
D1-29_04486	1470			hypothetical protein	GTGCCCCGTTCCGCCAGGTCATCCGCTGATGCGATGAGCGCCAGGCTCCGGGACCTCGAACTCCTCACCAAGGGACCGGCCTGGGCGCTGACACGCTCCGCACCCTGGGTGATTGCTGTACTGCAGGCCTCGTTTACCCGCGTCCGTCCGCAGCTTCCGCTGGAAGAGTTCCATGCCGACGTCGATTCCTTTCTTGAGCAGCTGCGGCGCCAGGAACCGGGGCTGGGCAGCGGGGCGAACGGAACGCCTTCCGGGAAAAAATACGCCGATGAATGGACACGTAAACAGTTCCTGACCCGGCGCAACCAGTCGGGGCAGATCGTGTACGAAGTCACGGAACCCGCGGCCCGCGTTCTGGCGTTCCTGGATAGCCTTTCCAGCGAGCGTTCCACCCTGAACGGTTCCCGGCTGGGCACGCTCCTGGGCGATGTGGAGAAGCTGGCCAACGAGACCAACCCGGACCAGAGCGCGCGGCTGGAATCCCTTGAAGAGGAGATCGAAGACCGCCGGCAGCTGATCCAGGACATCAGCTCCGGAGACTTCGACGGCCTGCTGGACGACGACGAAGCCGTAGAGGCCGCCGGGAACATCCTTGACCTGGCCGCCAGCCTGCCCGCTGACTATAAAAAGATGCGTGACCGCATCGAGGAGCTGGTGGGCGAACTGCGCAACCAGATCATTGAGGAGTCGCTCAGCAAGGGCGCCACCATGGCGCAGGTGCTGGAGGCGGACAAGAGGCTGCGGCAGAGCCCGGAAGGCAGGACTTTCCGTTCCTTCACCGCCTTCCTGGAGGACCCGCAACAGCAGCTCAGGTTCCGCTCGGCCATCGGCGAAGTCCTGAGCCGGCAGTTCGCTGACGACTTGTCGCCCGAGGACCGCGAAACGCTCAAGAACCTGGTGGCCGAACTCCGCCAGCAGCACAGCCAAATCCAGCGCATCTACGGCAAGCTCAGCGAGAGCCTGAACACCTACGTACAAAGTGACGATTTCCGTCAGTCAGTACGGCTCCGGAAGGTGCTGCGCGAAGCCGAACAAGCTATCCGTTCCCTGCCGTACGAGCGGGAACGCCCGGGCCTGGTAGCTGGTCCCGTCCTGTTCAACGCCGGATTTGAATCCCTGGCCATGGTCAAGCTCTATGATCCGGATGAGTTCGCTGTCCCGCCCAGGCTGGCTGACCCCATTGCCTTCAGCGACTCCGACCGCGTGCGCTCGCCGCGGACGGCCAAGGCCCGCCCCGATGTTGTCCGGGCCGCTGTTGCCGGGGCCTCCACCCTCGCCGAGGCCTGGGGCCAGCTGCCGCCGGAAGAGCGCCACATCAACACCATCCGCGCACTCCTCTCGCACGCACTCCAGTCCGGGGCGGACTTCTACCGCGAAGCCTGGGACGGACTGGACTTTGAACAGATAGACGGCACCAGCCGCACGGCCTACCTGCCGGTGGTCACGCTCGCAAAGGACTCAGATGACTGA	MPRSARSSADAMSARLRDLELLTKGPAWALTRSAPWVIAVLQASFTRVRPQLPLEEFHADVDSFLEQLRRQEPGLGSGANGTPSGKKYADEWTRKQFLTRRNQSGQIVYEVTEPAARVLAFLDSLSSERSTLNGSRLGTLLGDVEKLANETNPDQSARLESLEEEIEDRRQLIQDISSGDFDGLLDDDEAVEAAGNILDLAASLPADYKKMRDRIEELVGELRNQIIEESLSKGATMAQVLEADKRLRQSPEGRTFRSFTAFLEDPQQQLRFRSAIGEVLSRQFADDLSPEDRETLKNLVAELRQQHSQIQRIYGKLSESLNTYVQSDDFRQSVRLRKVLREAEQAIRSLPYERERPGLVAGPVLFNAGFESLAMVKLYDPDEFAVPPRLADPIAFSDSDRVRSPRTAKARPDVVRAAVAGASTLAEAWGQLPPEERHINTIRALLSHALQSGADFYREAWDGLDFEQIDGTSRTAYLPVVTLAKDSDD				NA	NA	NA	NA	NA
D1-29_04487	291			hypothetical protein	ATGCAGTTCGACTTAAGTGCAGTGGAGACAGCCACCATGGTGTTCATCGGAACCCTGATGTTTGCCGCCGTCCTGCTGGTCTTTGTCCTGACGGCGGCGTTCATCGCGCTGGTCCTGGTGGGTGTGGGCAAGCTCGCCTGGATAATCCTCTCAAGCACGTTGCTGGCCGTGGTTCATGGCATCAACCACGGCTGGGACAGGCTTGTGCACCACGCCTCAGCGGTGGAGGTGTCCGGGGACTTTCAAGGACAGCAATCCCCTAGCACCGGTAGCTACCCGCGGGTAATATAG	MQFDLSAVETATMVFIGTLMFAAVLLVFVLTAAFIALVLVGVGKLAWIILSSTLLAVVHGINHGWDRLVHHASAVEVSGDFQGQQSPSTGSYPRVI				NA	NA	NA	NA	NA
D1-29_04488	1986		COG1960	putative acyl-CoA dehydrogenase FadE10	ATGAGCTCCGCTACTGACAGTCCCGCCGCCGAAACCCCCGTTGCCGCCCGCAAGATCGGCCCCGAAGTCACTGCCGAGGAAGCCCGCGCAGTGGCGGAAGCCGCCAGAGAGAGCGGCTGGGACAGGCCGAGCTTCGCGAAGGGCCTGTACCTGGGGAGCTTTGACCTTAACCTCATCCATCCGTGGCCGGCGGCTGATGCCGGGGACGTGGAACGCGGTGAGGCTTTTCTGGCGCGGCTGACCGAATATGCCCGCACCCTGTCCGGAAGAGTGATCGAACGCGAGTCCAAAATTCCGGACGAGTATCTGCGGGGACTGGCCGAGCTGGGCGCCTTTGGCATGAAGATCCCGCAGGAGTACGGCGGCCTGGGCCTTTCGCTGGTCTACTACGGCCGCGCCCTGGCGCTGCTGGGCAGTGTCCACCCCAGCCTCGGCGCACTCCTCTCCGCCCACCAGTCAATCGGTGTTCCGGAGCCCGTGAAGGTGTTTGGCACGGCCGAGCAGAAGCACGAATACCTTCCGAGGTGCGCCGGGGGCGCCATCACCGCCTTCCTGCTGACCGAACCCGACGTCGGCAGTGACCCCGCCCGGATGGGCAGCACGGCAGTACCAACGGACGACGGCGAGTCCTACCTTCTGGACGGTGTGAAGCTTTGGACCACTAACGGCGTGATCGCCGAACTGGTGGTGGTCATGGCGCTGGTCCCGGCGCACACCGATGCGGACGGCACCAAGCACAAGGGCGGCATCAGCGCATTCGTTGTTGAGATGGACTCCCCCGGCATCACCGTGGAAAACCGCAACGCCTTTATGGGGCTGCACGGAATCGAAAACGGGGTGACCAGGTTCCACCAGGTCCGCGTTCCTGCCGCGAACAGGCTGGGCCGCGAAGGCCAGGGGCTCAAGATCGCGCTCACCACGCTGAACACCGGCCGGCTCTCCATCCCGGCCCTTTGTGTCGCCTCGGGCCGCTGGAGCCTCAAGATCGCCCGGGAATGGTCCAATGCCCGCATTCAGTGGGGCCGGCCCGTGGGCAAGCATGAAGCCGTGGGCAAGAAGATCGCCTTCATCGCAGCTTCGGCTTTTGCCCTGGACGCCGTTTTTGAACTGTCGGCTGAACTTGCCGACGCCGGCCAGAAGGACGTCCGGATCGAGGCCGCGCTGGCCAAGCTCTGGTCCACGGAAATAAGCTGCCGGATCGCTGACGAACTGGTGCAAATCCGCGGCGGCCGCGGTTTCGAAACCGCCGAATCCCTGGAGGCCAGGGGCGAACGGGCGGTTCCCGCCGAGCAACAGCTGCGCGACCTCCGCATCAACAGGATCTTCGAAGGATCGTCGGAGATCATGAAGCTCCTCATCGCGCGGGAAGCGGTGGATGCCCACCTTGCCGCCGCAGGTGACCTCGCCTCCGCCGATGCCAGCCTGTCAGACAAAGCCAGGGCCGCCGTCGGGGCTTCCGGTTTCTACGCGAGATGGCTGCCCAAGCTCGTGGCCGGCGCGGGGATGGACCCGCGGTCCTACAGCGAGTTCGGCCGGCTGGCCAAGCAAATCAGGTTCGTGGAGCGGTCCTCTCGGCGGCTGGCCCGGCAGACCTTCTACGGCATGGGACGCTGGCAGGCAAAGCTGGAGCACAAGCAGGCGTTCCTGGGCCGTGTTGTGGACATCGGCGCGGAGCTTTACGCCATGGCCGCCTGCTGTTCACGGGCCGAAATGCTGCTCCGCACAGCCCCGGAGCGTGGGGCCACAGCATACGAACTGGCCGAGGCGTACTGCGAGCAGGCCCGGGTCCGCGTTGACGAGTACTTCGACCAGCTGTGGCGCAACACCGACGACGCCGATCATGACCTTTCGCGCAAGGTCCTGGCCGGGGATTACACCTGGCTGGAGGCCGGTGTCCTTGACTCATCTGAAGGCACCGGACCCTGGATTGCGGACGCCACTCCCGGCCCCTCCAAGATGGAAAACCTGCACCGGAACTACCGCTAG	MSSATDSPAAETPVAARKIGPEVTAEEARAVAEAARESGWDRPSFAKGLYLGSFDLNLIHPWPAADAGDVERGEAFLARLTEYARTLSGRVIERESKIPDEYLRGLAELGAFGMKIPQEYGGLGLSLVYYGRALALLGSVHPSLGALLSAHQSIGVPEPVKVFGTAEQKHEYLPRCAGGAITAFLLTEPDVGSDPARMGSTAVPTDDGESYLLDGVKLWTTNGVIAELVVVMALVPAHTDADGTKHKGGISAFVVEMDSPGITVENRNAFMGLHGIENGVTRFHQVRVPAANRLGREGQGLKIALTTLNTGRLSIPALCVASGRWSLKIAREWSNARIQWGRPVGKHEAVGKKIAFIAASAFALDAVFELSAELADAGQKDVRIEAALAKLWSTEISCRIADELVQIRGGRGFETAESLEARGERAVPAEQQLRDLRINRIFEGSSEIMKLLIAREAVDAHLAAAGDLASADASLSDKARAAVGASGFYARWLPKLVAGAGMDPRSYSEFGRLAKQIRFVERSSRRLARQTFYGMGRWQAKLEHKQAFLGRVVDIGAELYAMAACCSRAEMLLRTAPERGATAYELAEAYCEQARVRVDEYFDQLWRNTDDADHDLSRKVLAGDYTWLEAGVLDSSEGTGPWIADATPGPSKMENLHRNYR				NA	NA	NA	NA	NA
D1-29_04489	846			hypothetical protein	ATGAGCAGCTCAACAGACCCAAATGACAGGCTTCCCCAGCGTGCCGGCGATGAGAACAGGCGTGCCGGGGATGAAACCAGGCGTGCCGGGGATGAGAACTTCCGCAGGGAAAGTGCTCGTGACGAAACATTCGCCGGCGGACAGCCCACCCGGGCATTCGACCAGGCTCCCGCGGGCGCCTACGGCGAACGGGAGTACGTGGCGGATCCGGACGTGACGGACACGGCGGCGGCCTATCCCGCTGCGGCAGACCCGAACCTGACCGACCGCGCCACCGCTGTGGCCCGCGAGAAGGAACAGTTCGGCGGCATCAAAGTGGGCTCAGCCTTCTTTGGCTGGCTCACCGCCACTGGAATGTCAGTACTCCTGACTGCCCTGGTGGCCGGAGCCGGGACCGCTGTAGGCCTCGCCAACAACACGGACGTCAATGAAGCGGTCAACCAGGTGACGACGAACGGCGCAGTGGGGATCGTAGGGATCATCGTCCTGCTGGCCATCCTGTTTGTGTCCTACTACTCGGGCGGCTACGTGGCCGGCCGGATGGCCAGGTTCAATGGCGCCAAGCAGGGATTCATGGTGTGGATCTGGGCACTGATCGCCGCCGTGGCGGTGGCGCTGCTGGGCCTCATCGCCGGGCAGCAGTTCAACATCCTGGCCAATCTGAACAGCTTCCCGCGCATCCCCATCAACGAAGGCGAGCTGACCACGGCAAGCATCATCGCCGCTGTAGTTGTGGCGCTGATCGCGCTGGCGGGAGCCGTGCTGGGCGGGCTGGCAGGCATGCACTTCCACCGCAAGGTGGACAAGGCAGGCTTCACTCCGGACGAAGCCTACGACGAGACCTAA	MSSSTDPNDRLPQRAGDENRRAGDETRRAGDENFRRESARDETFAGGQPTRAFDQAPAGAYGEREYVADPDVTDTAAAYPAAADPNLTDRATAVAREKEQFGGIKVGSAFFGWLTATGMSVLLTALVAGAGTAVGLANNTDVNEAVNQVTTNGAVGIVGIIVLLAILFVSYYSGGYVAGRMARFNGAKQGFMVWIWALIAAVAVALLGLIAGQQFNILANLNSFPRIPINEGELTTASIIAAVVVALIALAGAVLGGLAGMHFHRKVDKAGFTPDEAYDET				NA	NA	NA	NA	NA
D1-29_04490	399			hypothetical protein	ATGTTTGAGAAGCCGACCAACGCCCGCACCTGCGTGTGCCTTTCCGGCCTTGAGTACTTTGAGTGCTGCGGCCGTTTCCACAGTGGCGAAGCCCGGGCGGGAACCGCTGAGCAACTGATGCGCTCCCGATACAGCGCGTTTGTCCTGCTCGACGCTGATTATCTGATGTCCACCTGGCACCCCCGCACCGCTCCCGCGGAGCTGGAACTGGACCAGGGGATGCAGTGGCGCCGCCTCGACATCCTGTCCGCCACGGGCGGGCCGTTTGATAATGAGGGCACAGTGGAGTTCAAGGCCCATTTCGTCTATGGCGGGGAACGGGGAGTTCATCATGAAACCAGCCGTTTTGTGCGGGAGGAGGGGCGCTGGTACTACGTCGACGCCGTCCTCATTGCTTAG	MFEKPTNARTCVCLSGLEYFECCGRFHSGEARAGTAEQLMRSRYSAFVLLDADYLMSTWHPRTAPAELELDQGMQWRRLDILSATGGPFDNEGTVEFKAHFVYGGERGVHHETSRFVREEGRWYYVDAVLIA				NA	NA	NA	NA	NA
D1-29_04491	891			hypothetical protein	GTGGACGCAACAACGATTGCCCTCAACCTGACCTTTTTCGGAACACTCGGCCTCGCCTTCCTGATGTTTTTTGTCCTGTTCCTGCTGGTCGTGGCCACCCTGGTCCTGGCCGGCATCGGACGCCTGGCCGCCCTTCTGGTGATGGCCCTCTTTGGAAGGTTTCCCCGGAACGACCCCGCCTCGCTGGTCCACTTCCCTGCCAATGCAGCACAGGAAGCAGAGGATGCGCCCAGGCCCGGCCCAGCGGCCCCGGGGCAGTCAGTCCCGGCGTCAGGGGGCTTTCCAGGGTCCCGCAGCCTCCCAGAGTCCGATGGCTTTCCACAGTCCCGCGGTCTTCCTGAGTCGGGCGGTTTTCCAGAGTCCGACGGCGCCGCTGCCGCCCCCTCCCCTGCCTCCAAAGCACGCGCCGGCGGAGTACTCCGGGCCCTTCGTTCCAAGGCGGCGAAGCCAGCTTCAGCGCCGGCGGCTCCCCGCGACTGGGGCGCCCTCCTGAAGCCGGCGGAGTTTCGTTCCCGGTTCCTCACCGCCGTCGAACATCACCCGTTACTGACGGCCGCCCGGAGTGAGCCGCCAGTACTGGCCAAGGACTGGGCCGCAGCCGTCGCCGAAGCAGACGCCCGGGCCATTGCGCGTGCACGCGCCGCCGCGCCCGAGATCAAGCTGTCCGTGCGGGAACTTCCCAGTCCCGCCGTTCCAGCCGAAAAGGTGGAAGCCGTGGCGCCGCTGGTGGAGTCTGCTTTGCATCAGGACAAGCCGGTGCACGATGTTCCGCGCTCGTTCAAGAAACCTCCGGCCGCTGCTCCGCTGTCCATGCTGGACACAGGCTCGCTGGTATCCCTCTCCGGCCACTCCAACGCACTTAAGGGCAAGCTGCCTGCAGACCGGCACTGA	MDATTIALNLTFFGTLGLAFLMFFVLFLLVVATLVLAGIGRLAALLVMALFGRFPRNDPASLVHFPANAAQEAEDAPRPGPAAPGQSVPASGGFPGSRSLPESDGFPQSRGLPESGGFPESDGAAAAPSPASKARAGGVLRALRSKAAKPASAPAAPRDWGALLKPAEFRSRFLTAVEHHPLLTAARSEPPVLAKDWAAAVAEADARAIARARAAAPEIKLSVRELPSPAVPAEKVEAVAPLVESALHQDKPVHDVPRSFKKPPAAAPLSMLDTGSLVSLSGHSNALKGKLPADRH				NA	NA	NA	NA	NA
D1-29_04492	1074	yajO_4	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGAGCCTCAGCGAACTGCGGGTATTCGGGCGGTCAGGTACGCCCATCAGCCCGCTCACTTTGGGCACCATGAACTTCGGCGCGGGGCCTGGCGCATCCGGCAGCGGCATATCAGGCGGCGCCCCCACCGGCGCTCCCACCGGCGCCGACGAAGCCATCCGCATCATCCAGGCCGCGCTGGACGCCGGCATCACCGCGGTGGACACCGCCGATGTCTATTCACAGGGCGAGTCGGAGCAGGTGGTGGGCCGGGCACTTCGAGGCCGCCGCGACGATGTTTTCCTCGCCACCAAGTTCCACGGGCAGATGAGCCCCAACCCCGCCCATTCGGGAAACTCCCGTCGATGGATCATGCAGGCAGTGGAGGGCAGCCTCCGACGCCTGCAAACAGACCGGATCGACCTCTACCAGGCCCACCGTCCGGACTACAACACCGACGTACTGGAGACCATCACTGCCCTGAACGACCTGATCAGGCAGGGAAAAATCCTCTACTACGGCACCTCGGTATTCACACCCGCGCAGCTGGTGGAAGCCCAATGGCTTGCCACCACCAACCACCTGATCCCTCCGGTGGCCAACCAGGTCCCATATTCAATGCTGGTGCGCGGCAATGAACGCGACGTCCTGCCCATCGCCCAGCAATACGGCCTGGGCGTTCTCGCCTACGGCCCGCTGGCTGGAGGCTGGCTCTCCGGGGACTTTGTTTTGGACTCTGGAAGAGCCCCTACCCGGACGCATTCACTCCCTGGCCGCTACGACATTTCCGGACCGGCCAGCGAGCGGAAGCTGCTGGCCGCCGATTCGCTGGCGCGGCTGGCCGACAAGCTGGAGCTGCCCCTGGTGGAACTGGCTGTTGGTTTCGCCCTTAGCCACCCAGCCGTCAGCAGCGTGATCATCGGTCCCCGCAGCGAAGAGCACCTGCAGGCCTACCTGAAGGCCGCCGAGACCGTATTGGACGAGTCCGTGCTTGATCTGATCGATGACCTGGTGCCTCCCGGAACCAACTTTGTGGAGCGCGATGCCGGGGCTGTAGTCCCCTCCCTGGAGTACGCGGAGCTGCGCCGACGTTAG	MSLSELRVFGRSGTPISPLTLGTMNFGAGPGASGSGISGGAPTGAPTGADEAIRIIQAALDAGITAVDTADVYSQGESEQVVGRALRGRRDDVFLATKFHGQMSPNPAHSGNSRRWIMQAVEGSLRRLQTDRIDLYQAHRPDYNTDVLETITALNDLIRQGKILYYGTSVFTPAQLVEAQWLATTNHLIPPVANQVPYSMLVRGNERDVLPIAQQYGLGVLAYGPLAGGWLSGDFVLDSGRAPTRTHSLPGRYDISGPASERKLLAADSLARLADKLELPLVELAVGFALSHPAVSSVIIGPRSEEHLQAYLKAAETVLDESVLDLIDDLVPPGTNFVERDAGAVVPSLEYAELRRR				NA	NA	NA	NA	NA
D1-29_04493	1005	yajO_5	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGGAATTCAGATACCTCGGAAACAGCGGCTTCAAAGTCTCGGAAATCACGTTCGGCAACTGGCTCACCCACGGCTCGCAGGTGGAGAACGAGGTCGCGAGCCAGTGCGTGCGGGCGGCACTGGACGCCGGCATCAGCACTTTCGACACGGCGGACGTCTACGCCAACACGGCCGCGGAAACGGTCCTCGGTGAGGCGCTGAAAGGCGAGCGCCGGGAGTCCCTTGAAATCTTCACGAAGGTCTTCGGCGCCACCGGGCCCAAGGGCAAAAACGATGTGGGCCTGTCCCGCAAACACATCATGGAGTCCATCAATGGATCCCTGGGCAGGCTTCAGACCGACTACGTCGACCTCTACCAGGCGCACCGCTACGACTTTGAAACGCCGCTGGAGGAGACCATGCAGGCGTTTGCGGATATCGTGCGGCAGGGAAAGGCCCTGTATATCGGAGTCAGTGAATGGACGGCCGCCCAGCTCCGCGAAGGGCACGCGCTCTCCAAGGAACTGGGCTTCCAACTGATTTCCAACCAGCCGCAGTATTCCATGCTGTGGCGGGTCATCGAGGCTGAGGTGGTTCCGGCGTCGGAAGAATTGGGTGTATCCCAGATTGTCTGGTCCCCCATGGCCCAGGGAGTGCTGAGCGGCAAGTACCTGCCCGGCCAGCCGGCGCCCGAAGGCAGCCGCGCCACGGATGAGAAGGGCGGCGCCAGGATGATCGAACGATGGATGCGCGACGACGTCATTACCGGGGTTCAGGCGCTAAAGCCCATTGCGCAGGAAGCCGGGCTATCCATGCCGCAGCTTGCCGTGGCCTGGGTGCTGCAGAACCCGAATGTGGCCTCGGCCATCATCGGAGCGTCCCGGCCTGAGCAGATCGCGGACAGTGCGGCGGCGGCCGGCGTCACGCTTGAACCGCAGGTCATGAAGAAAATCGACGGCGCCATCGGGGCGCTGGCCGAGCGTGATCCTGCGCAGACTAAATCCCCCGCCACCCGGGAAGCCTAG	MEFRYLGNSGFKVSEITFGNWLTHGSQVENEVASQCVRAALDAGISTFDTADVYANTAAETVLGEALKGERRESLEIFTKVFGATGPKGKNDVGLSRKHIMESINGSLGRLQTDYVDLYQAHRYDFETPLEETMQAFADIVRQGKALYIGVSEWTAAQLREGHALSKELGFQLISNQPQYSMLWRVIEAEVVPASEELGVSQIVWSPMAQGVLSGKYLPGQPAPEGSRATDEKGGARMIERWMRDDVITGVQALKPIAQEAGLSMPQLAVAWVLQNPNVASAIIGASRPEQIADSAAAAGVTLEPQVMKKIDGAIGALAERDPAQTKSPATREA	PGPT0010570_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	TUMORICIDAL_COMPOUNDS	TUMORICIDAL-TYPE_II_POLYKETIDE-MITHRAMYCIN_METABOLISM,PGPT0010570-mtmW-K15967	NA	NA
D1-29_04494	1110	msrP_3		Protein-methionine-sulfoxide reductase catalytic subunit MsrP	ATGACAAAGCAGATCTACAGGCAACGTCCATCCACCCGCCCCGTGCCGCAGGCCGGCGAGCCCACCCCGGGGCCGCTGACACCCGAGGAGCTTCAGCTATCGGCCCGCAACCACTCCATGCCGCTGGAGGCGCTCCGGTACGACGTCACGCCCCCCGGGATGCACTACATCCTGACGCACTTCGATATCCCGGACACCGGCACGGGGCCTTGGCATCTGCGCATCGGCGGTGCGGTGGAACGGGCGATGGAACTCAGCCTTGCCGCGCTCAAAAAGGACCCCGCCATCACCATCCCGGTCACGCTGGAGTGTGCCGGCAACGGCCGCTCCCTGCTGAAGCCCCGGCCGCTCAGCCAGCCGTGGGTCCTGGAGGCAGTAGGCACGGCGGAGTGGACCGGGGTGCCGCTGGCCTATTTGCTGGCGAAGGCCGGGGTTCTGGACGAGGCCGTGGAGGTTGTCTTCACCGGTGCCGACGAAGGGATCCAGGGCGGCGTCCGGCAGAAGTACGCCCGCAGCCTGCCCATCCGGGAAGCGCTGCGCCCCGACGTCGTGCTTGCCTACAGGATGAACGGCGCGGACCTGCCGCCGCAGCACGGCTACCCCCTCCGCCTGGTGGTCCCCGGTTGGTACGGCATGACCAGCGTTAAGTGGCTGGAGTCCATCGAAGTGGTGACAGCCCCCTTTACCGGATTCCAGCAGCACGTGGCATACAGGTACCAGGACACCGCGGACGACGCCGGTACACCGGTTTCGCGGATCAGGATCCGTTCGCTGATGATTCCGCCGGGCATCCCGGACTTTTTCACGCGCAGGCGGTCGCTCCCGCCGGGGCCTGTGTTGCTGCAAGGCAGGGCCTGGTCAGGCGAGGCCGCGGTCACGGGCGTTGAGGTGGGGATCGACGGCGAGTGGCTGCCGGCCCAGCTGGAGAAACCTCCGGGCCCGTTCGCCTGGTGCAAGTGGACGCTGCCGTGGGTGGCCGATCCTGGCGAGCATATGCTGGCCTGCCGCGCCACGGATGCCACCGGGGCGGTCCAGCCGCTGGAACAGAACTGGAATTACCAGGGGCTGAGCAACAACATGGTGCAGCACGTGAACGTCACCGTGGAGTAA	MTKQIYRQRPSTRPVPQAGEPTPGPLTPEELQLSARNHSMPLEALRYDVTPPGMHYILTHFDIPDTGTGPWHLRIGGAVERAMELSLAALKKDPAITIPVTLECAGNGRSLLKPRPLSQPWVLEAVGTAEWTGVPLAYLLAKAGVLDEAVEVVFTGADEGIQGGVRQKYARSLPIREALRPDVVLAYRMNGADLPPQHGYPLRLVVPGWYGMTSVKWLESIEVVTAPFTGFQQHVAYRYQDTADDAGTPVSRIRIRSLMIPPGIPDFFTRRRSLPPGPVLLQGRAWSGEAAVTGVEVGIDGEWLPAQLEKPPGPFAWCKWTLPWVADPGEHMLACRATDATGAVQPLEQNWNYQGLSNNMVQHVNVTVE				NA	NA	NA	NA	NA
D1-29_04495	387	hslR	COG1188	Heat shock protein 15	ATGACCAGCCTTCCTTCCTCCCCTGCCAGTGTTCGAATCGACGCTTGGCTGTGGGCCATTCGCGCCTACAAGACCCGCTCCGCAGCCACTGCCTCCTGCCGCGCCGGCCATGTACGCCTCAACGGCAGTCCGGCCAAGGCGTCCGCCACCCTGGTCACGGGGGACACTGTGACAGTCCGGATGTCTGGCTACGAACGGATTCTTGAGGTGAGGCGCCTGATTGCCAAGCGCGTTGGGGCTGAGGCCGCTTCCCACTGCTTCACCGATCACACCCCGCCGCGTCCCGTCGCGCCGGCCTTGGGTCTTCCGCAGCGGGACCGCGGCGCAGGGCGGCCAACCAAGAAGGACCGCCGCGAGATGGAGCGGCTCCGCGGGCCAGCACTTTAG	MTSLPSSPASVRIDAWLWAIRAYKTRSAATASCRAGHVRLNGSPAKASATLVTGDTVTVRMSGYERILEVRRLIAKRVGAEAASHCFTDHTPPRPVAPALGLPQRDRGAGRPTKKDRREMERLRGPAL	PGPT0014620_1780	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014620-hslR|yrfH-K04762	NA	NA
D1-29_04496	591			hypothetical protein	ATGGGGACAGCAAAAGTGCTGGCCGTTCGGCGCATCTGCGGCGTTTCACGAACGCCGCATCGGCGGCTGGCCGTGGCAGGAATTCTGCTCGCAACGCTGCTGCTTCCGTCCCTGACCGGGTGCCAGCAGACACAGACACGTCCCGTACTGCCAACGGTGACCGAGCCGCCGTCGAACGTGGTGGAAAGCGCCCAAAAGTATGGACCGGTCATCGACGACATCCGTAGGGCGCTGGAAGATGAGTTCCCAGGTATCAGCTGGCGCGCGGGGGATGGATACGCCATCGCGGAGCGGACCGACGGGCAGTGCTCGCTCTGGCTGCCGTCGTTCCGGAGCAACGGTGACGTTGTGGGAGCGTCGGAGGAATTTCGGCGGGTTATGGACACTATCAATCCCGTGTTGGAACCGTACGGCTTCAGCCCCGTCTCAGTTCTGGATGAGGGGTCCGAAGGATGGTGGTCCGTCACGTCGGGCAATGCGCAGGGAGCCAGGGTGGGGATTTCCGGGCGGACGTCGGTCGAGTTGAGGCTTAACGTTCCTGTCGAGTCCGGCCGGTGTTCTCCCGAGGAGCTCGCGGGCCTCGCTCCATGA	MGTAKVLAVRRICGVSRTPHRRLAVAGILLATLLLPSLTGCQQTQTRPVLPTVTEPPSNVVESAQKYGPVIDDIRRALEDEFPGISWRAGDGYAIAERTDGQCSLWLPSFRSNGDVVGASEEFRRVMDTINPVLEPYGFSPVSVLDEGSEGWWSVTSGNAQGARVGISGRTSVELRLNVPVESGRCSPEELAGLAP				NA	NA	NA	NA	NA
D1-29_04497	1464	nfdA_3		N-substituted formamide deformylase	ATGACCGGCCTCGTCCTGAAGTCCGTCCGCCAGCCCGGTAGAGACGCCATCTCGGACCTGCACATTGCGGATGGCGCGGTGAGCCGGATCAGCCCGGGAAGTGTGATTCCGGACGGCACACGCGTAGTCAGCCTGGATGGGCGTTATGTCATTCCCGGCCTCTGGGACGAGCACGTTCACATGGTCCAGTGGGCCCTGCATTCCAACAGGCTCGACCTGTCGGAGGTCCGTTCGGCCCGCGAGGCTGCGGCCGCCGTCGGATCCCACGGACTCGACGCCCTGCCTTCCGTCACAACCGTGGGCGTGGGCTTCCGCGATGCCCTCTGGCCGGATGTCCCCACTCTGGAAACGCTCGACGTCGCCACCGGCAATCAGCCGACGGCCCTGATCAGCCACGATCTGCATTGTGTGTGGGTGAACAGCGCTGCCGCGGCGCGCTACGGGGTGGCGGTTGACGGGAGCGGCCTGCTTCGGGAGGAACCGGCTTTCGCGCTGACCCGTGAACTTGGCAGACTGCCGGACGCGGTGGTGGACCGATGGGTCCGGGATGCTGCAGACGCGGCAGCTGCCCGGGGCATCGTGGGCATCGTTGATTTTGAGATGACCTGGAACCGGGACCCCTGGCTGCGGCGCATCGGCAGCGGCTTCGACGCCTTGCGGGTGGACGCGGGCGTTTATCCGGCGGACCTTGGGCGGGCCCGCAGCGACGGCATGCGCACAGGCCTGGTGCTCGACGGCGGGAGAGGACTGCTGCGCGTTGGCCCCCTGAAAGTGCTCATCGATGGCTCACTCAACACGCGCACCGCCTTCTGCACCGACCCATATCCCCACGGCGGCCACGGGCTGCTGACCGTCAGCGAGACGGAGCTGCTGGAGCTCCTGGAGGAGGCCAAGGCGGCGGGCTTCGTTCCGGCGGTACATGCCATCGGCGATGCTGCCAACCGGGTGGCCTTGGACGCCTTTGAACGCGCTGGTATCGGCGGCCGGATTGAGCACGCCCAGTTTGTCCGGCAGCAGGATCTTCCCCGGTTTGGCCAGCTGGGAGTTACCGCCAGCGTGCAGCCGGTCCATGCCCTCGACGACCGTGACGCTGCCGAGGCAAACTGGCCCGGCCGCACCGACCGGGCGTTTCCACTGAGGTCCCTCCTGGATTCAGGGGCCATCCTGGCACTTGGCTCAGATGCTCCCGTTGCGCCGATCGATCCATGGGGTGCCATGTCGGCCGCCACCACCCGATCCAGGCAGGACGGCCGCGGGCCCTGGCATCCCGAGCAGGGAATTAGCAGGCGGCAGGCTCTTTCGGCATCGGCGCGGGGACGTCGCCGTATCAGGGTAGGAGATCCGGCAGATCTCATGGTGCTCGACGCCGATCCGCTCACCGTTCCGGACGCGGTGTTTGCCGCGATGCCTGTTGCCGCCACGCTCCTGGCCGGCAGGTTCACCTACGACGGCGGGCTGGCTTAG	MTGLVLKSVRQPGRDAISDLHIADGAVSRISPGSVIPDGTRVVSLDGRYVIPGLWDEHVHMVQWALHSNRLDLSEVRSAREAAAAVGSHGLDALPSVTTVGVGFRDALWPDVPTLETLDVATGNQPTALISHDLHCVWVNSAAAARYGVAVDGSGLLREEPAFALTRELGRLPDAVVDRWVRDAADAAAARGIVGIVDFEMTWNRDPWLRRIGSGFDALRVDAGVYPADLGRARSDGMRTGLVLDGGRGLLRVGPLKVLIDGSLNTRTAFCTDPYPHGGHGLLTVSETELLELLEEAKAAGFVPAVHAIGDAANRVALDAFERAGIGGRIEHAQFVRQQDLPRFGQLGVTASVQPVHALDDRDAAEANWPGRTDRAFPLRSLLDSGAILALGSDAPVAPIDPWGAMSAATTRSRQDGRGPWHPEQGISRRQALSASARGRRRIRVGDPADLMVLDADPLTVPDAVFAAMPVAATLLAGRFTYDGGLA				NA	NA	NA	NA	NA
D1-29_04498	504			hypothetical protein	ATGGTCAGCAGGAAAACACTCAAGGCTGACGGATTTTCAGGATTCAGGGCAGTGGACGCCCTGGAGATTATGCGGGTGCCGCAGGGCACCGGCGTCTTTGCCGTGCTCAGGCCGGACGGATTCGAGCCCCAATTTCTACACAAAAGCACTGCCGGCGTCTTCAAAAAGAAGAATCCGTCGCTGCCCCTGCCGGCCCTTGGCGCCGAATGGATCAAGGACGCGGATGTCCTCTATATCGGCAAAGCCGGTCCCGGGAGCAAGGGTAACCGGGGACTGCGCCGCCAGATCCAGGAATTCCTCGATTTCGGGAAGGGAAAACCGCCGGGTCACTGGGACGGAAGGCTGGTGTGGCAGCTCAAGCACGCCGAATCGCTGCTCATCGCGTGGAAAGAACTGCCTGCCGGGGAACTGAACGCCGCCGAGGCCCGGCTGCACGCCGATTTTGTCGCGGAGTATGGCCGGTTGCCATTTGCGAACCTGGTGCAGGCCCGTGCGCGGAACTAA	MVSRKTLKADGFSGFRAVDALEIMRVPQGTGVFAVLRPDGFEPQFLHKSTAGVFKKKNPSLPLPALGAEWIKDADVLYIGKAGPGSKGNRGLRRQIQEFLDFGKGKPPGHWDGRLVWQLKHAESLLIAWKELPAGELNAAEARLHADFVAEYGRLPFANLVQARARN				NA	NA	NA	NA	NA
D1-29_04499	618			hypothetical protein	GTGACGATTGACTGGGACGAAAAAAAGGCCCTGCTACAGGAACCGAACATCGCGGCGGTCACGCAGCTTTGCGACGAACTGATGGAAAAGAAGCCAGGGTCAATCGTTCCCTACATCGATCCCGTGCATGACGAGGACGAATGCCGGATCGTGAGCCTGCAGGTAAGCCCCGGCAAGGGCACCGAGTCCGGGTTCATCTCCCACTACAACGACGACGAAGCCGCGCGCCGGGCCACCCAGATCTACGAACTCGCAGAGCTTGATCCCCGCTACGTCATGCCGTGGAACGCCTACCCCTGGATCCGGGATCCGGACCTTCCCTCCGCATTGAATGTCCAGGAGAAGACAGACGGCCTGCGCCCCTTCCGCCAGTTCCTGAAAATCAACCGCCGCGTCTCCGCCGTCATCGCCCACGGCACGGACGCCTCTACGTTCCTGACCCTCTTCGAGAAGACGTACCACTCCTCGCTCAAGAACAGCGGTATCAAGATCTACAAGGCCAGCGCCCTGGGCGGCCGGGCCTTCGCCGTCTCCGAAGCCAAGCAGGAGGACCTCCTGGCCAAGAGCGTGGAGATCTACCGGGACGCCATGCAGCGGGCCGGAATCCAGCACCTCTAG	MTIDWDEKKALLQEPNIAAVTQLCDELMEKKPGSIVPYIDPVHDEDECRIVSLQVSPGKGTESGFISHYNDDEAARRATQIYELAELDPRYVMPWNAYPWIRDPDLPSALNVQEKTDGLRPFRQFLKINRRVSAVIAHGTDASTFLTLFEKTYHSSLKNSGIKIYKASALGGRAFAVSEAKQEDLLAKSVEIYRDAMQRAGIQHL				NA	NA	NA	NA	NA
D1-29_04500	1176			hypothetical protein	ATGAAGCACCGGGTCGCGGATATCTACAAGGCAGGCGTGCTGGCTGCGCGGCTGGAGAGGCATGACGGCGGTACGCGCTTCAGCTACTTCACCGGCCTGCTCCCCGAGGGGCGCCGGCTCAACGCGCTGCGGCGGTCCGTCAAAACCAGTATTGATGATGATCTCTCCCTGCTGATTGCGGCAGGCGCCAACCCGGTGGGAGATGTCCAGATCGTCGGGCACGGTGAGCGGCTGGATCCTGACGAGCATGCGGTAGAGCTGGACACCCGGCAGCCCGTGGACTTCGACGAACTGCTGGGCAATCCGGACCTGATTGATCCAGTAGCCCTCGCCGGGGTGCAGGACAAGCTCTCCGCCGGGATGATTTCATTGCCGGTGGCCAGTGCAGGCAAACGCTTCATCCTCAAGCTCAACGCCCCCGAATTTCCCCATGTGGTGGAAAACGAGCTGGTCATGTTCCGCTACGCTGCAAGGCTGCGGATCCCGCTCAGCAGGGTCCGGCTGATCCGCGATGTGGCCGGCAGGCCCGGCCTGCTGGTGGAACGCTTTGACAGGGTCCCGGCAGCAGGGGGAGGACAGGCAGCAGCGGCAGGGCCGGCAGTCGACGGACCTGATATCCAGCGCCTGGCCGTGGAGGACGCGGCCCAAGTGCTCCGGCTCTACCCCGCGGACAAATACAACGTGGGCTACGGGCAGGTAGTCCACGCCTTGGCCGAATACTGCTCTGCGCCCCTCCCGGCGCTCCGTAACCTGGCGCTCCAGGCCGCTTTTGCCTGGCTCACGGGCAACGGTGACCTGCACGCAAAGAACGTCTCCATGGTTCAGCATCCGGAGGGGGAGTGGACCATTGCACCCGTGTATGACATCCCCTCCACGGTGGTCTACGGGGACAAAACACTGGCACTGACGCTGGGCGGAAAACGCAGCGGGATCTCCCGGCGGCACTTTCTGGCCTGGGCCACCGAACTTGGGCTGACGGAGCGTGCAGCGGCCCACGTGCTGGCGCTCGTATTGACGGCGTCCGGACCGCTGATTCCAGACCTCGAGGCAGGCCGCGCCTTCACCGGCGTGAACGCGGAGGAAGGGGACGACGACGGCGGCTCACCGTTTCCCGATCTGGTCACCAGATCGTGGGTCAAGGAGCTGAAGCACCGGCGGAGGCTGCTGGAAGGGTGA	MKHRVADIYKAGVLAARLERHDGGTRFSYFTGLLPEGRRLNALRRSVKTSIDDDLSLLIAAGANPVGDVQIVGHGERLDPDEHAVELDTRQPVDFDELLGNPDLIDPVALAGVQDKLSAGMISLPVASAGKRFILKLNAPEFPHVVENELVMFRYAARLRIPLSRVRLIRDVAGRPGLLVERFDRVPAAGGGQAAAAGPAVDGPDIQRLAVEDAAQVLRLYPADKYNVGYGQVVHALAEYCSAPLPALRNLALQAAFAWLTGNGDLHAKNVSMVQHPEGEWTIAPVYDIPSTVVYGDKTLALTLGGKRSGISRRHFLAWATELGLTERAAAHVLALVLTASGPLIPDLEAGRAFTGVNAEEGDDDGGSPFPDLVTRSWVKELKHRRRLLEG	PGPT0027480_2020	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
D1-29_04501	267			hypothetical protein	GTGGCAGAACCCATCAGTGCCCTCCTGGCAGCAGAGGTCCGGGCCCGGCGGGGAAGGCTGGGACTCACCCAGCAGGATCTTGCCGACATGGCGGGTGTGTCCGAACGCTTCGTCCGGTTCGTGGAGCAGGGAAAACCAAGCATCCAGCTGGATTCGCTGACTGCTGTACTTGAAACCCTTGGGCTGGAGCTCCGGCTGGCCGCCCGGCCCGGCAAGGCCGCCCACGCCCTCGCCACTCAGGCCAGGGACGGCGAGTCCAAACCATGA	MAEPISALLAAEVRARRGRLGLTQQDLADMAGVSERFVRFVEQGKPSIQLDSLTAVLETLGLELRLAARPGKAAHALATQARDGESKP	PGPT0027485_394	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-HipA-HipB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027485-REGULATION_hipB-K15773	NA	NA
D1-29_04502	567			hypothetical protein	ATGCAGACCAGGCAGCAAACAGCAGAGGAAGCGCAACGCGAAAGACCTTTGACCCGGCCGGCTTCACGCAGCGCAACCCCGGCTCCCGGGCCCGGAGTGCGCTCTCTTGCGGTGGTTCGCATTCTGCTGGGGACAGTCTTTCTCTGGGCATTTCTGGACAAAACGTTCGGACTTGGTTTCGCAACGCTGCCGCAGAAAGCCTGGATCGCCGGCGGCTCACCCACGACTGGCTATCTCGGGAGTCTGGACGGAGCGTTCTCCGGCACCTTTCAGGCGCTAGCTGGAGCCGCCATCGTGGATTGGGCGTTTATGCTTGGACTCCTTGGTTTGGGAACCGCGCTGGTGTTGGGCATCGCGCTCCGCACCGCGGCCGCAGGCGGCACCATCCTTTTGGCCCTGATGTGGCTGTCTTCCCTCCCGCTCAAGAGCAATCCCGTCATTGACGAACACGTTATCTACGCTGCTGTCATCATCGCCCTTGCCGCCGTGCGCGCGGGGGACACGTTTGGCCTTGGCCGGCAATGGGCCGGCATGATCAAGAGTCCGTCGCTGCGCTGGCTGCGCTGA	MQTRQQTAEEAQRERPLTRPASRSATPAPGPGVRSLAVVRILLGTVFLWAFLDKTFGLGFATLPQKAWIAGGSPTTGYLGSLDGAFSGTFQALAGAAIVDWAFMLGLLGLGTALVLGIALRTAAAGGTILLALMWLSSLPLKSNPVIDEHVIYAAVIIALAAVRAGDTFGLGRQWAGMIKSPSLRWLR				NA	NA	NA	NA	NA
D1-29_04503	1854		COG3387	Trehalase	ATGTTTGCTGCGGCGATCCCACGCCCGGTGGAGCGCCTCGATGGGTACCTGCCCATCGAGGATCATGGTCTCATCGGCGACGGTTCCACCTGTGCCCTGGTAGGGCGCGATGGTGCAATTTCCTGGCTCTGCCTCCCTGAATTCGACAGTCCCCCGTTCTTGGCAGGGCTTTTGGATATGGACGCGGGCGGGCTTTTCGAGATCGTCCCGGTGCCTCTGCACTCGTCGGCGCAAAGGTACACGGAAGACTCCTGCGTGCTGGTCACCTCGCTGTTCTCCGACCACGGCATGCTCCAGGTGACGGACTGCCTTACCCTTCGCTCCGGAGCGAACCTTGCCGAACCCGTCCCGGCCGGCCGGCGTGAGCTGCTCCGCCAGGCGCGGGCAGTGGGAGGCGATGTGCGGGTCCGGGTTCGCCTGACCCCCAAGATCGGCACGAGCTTTGACAAGCTTGCCGGCGGGTGGCGGTTTGACTGGCCGGTGAACGGCACCTCGGAAGTGTACCTTTGGTCGTCGGTGGAGCTTAGGCCTGACGGCCGCGGACTCTCCGCTGACTTGACCTTGCGCGCGGGCGAAACAATCACGGTCTCCCTCCACTGGTCCGGGCGCTTCCGGCTGCGTCAACGGCCGGACGCCAGAGTGCTGATCGACCAGACCGTGAGGGGCTGGCGCCAGTGGGCGTCAGGGCTGGACTGTGAGGGATCCCAGGCCGATCTGATGAAGCGCTCGGCCCTCACGCTGAAGATGCTGGACCATGCAGAGACGGGGGCGATCATGGCCGCCGCCACGTCCTCCCTGCCCGAATGGCCCGGGGCGCCCCGCAATTGGGACTACCGCTACACCTGGGTGCGGGACGCAGCATTCTCCAACTACGTCTTCCGCCGGATTGGCGATCCCAGCGATGCCGACGTGTTCCTCGCTTGGGTCCTCACCAACGTGGAGCGCGACGGCGAGCCACACGTGATGTACGCACTGGACGGCTCCCAGCCGCCTGAAGAAGTGGAGGACCCGGTGCTGCGCGGCTACCGGGGATCCTCCCCCGTACGTTGGGGAAATGGCGCCAGGCACCAGGCCCAGCACGATGTCTACGGAGAAATCGTGGACGTTGCCTACCAGTGGTCCAACAGCGGGCAGCCAGTGGACCGCCAGCTTTGGGCTGCCCTGACTCCTATCGTCGAGGCCGCCATCAGGAGCTGGAGAAGCCCGGACAGCGGGCCGTGGGAAGTCAGGAGCACCGGCCGGCCCTTCACCTATTCGGCAGCGATGTGCCACGTGGCCATCGACCGCGCTATCCGGATCGCCCGGCGACACAAGCTGCCGTATCCGAAACGGCGCTGGGAGGCGGCCGCGAGGGAGATTCACAACGCCACCCTTGGATTGTCCTGGAATGAGGATAAGGGAACCTTCACTGAACACCTCGGCGGCGCCGGTGGCCTTGACGCCGCCCTGCTGACGCTCCCCGTCCGGAACGTCATTTCGTTCAGTGACCCCAGGATGGTCGCCACCACCAAAGCCATCGCTGCCAACCTGGACGCCGGCGACGGACTGCTTTTCCGCTACCTGCCGTCGGAATCCCCGGACGGCCTCCCGGGCGGCGAAGGCGCTTTCCTCCTGTGCAGCTTCTGGCTGGTGGACAACTTGGCAGGGCAAGGACGTGTGGATGAGGCGCACGAGCTCTACGAATCCCTCTGCAGGCGGGCGAACCCCCTGGGACTGTTTCCCGAGCAGATCCATCCTGACACCGGGGAGTTCCTGGGGAACTTTCCGCAGGCCTTCAGCCACGTCGGCGTGCTGGCCAGCGGCCTGCGGCTCCTCAAAGCCCAGCAGCGCCGGCGCAGTGCCGAGGCTTCGTGA	MFAAAIPRPVERLDGYLPIEDHGLIGDGSTCALVGRDGAISWLCLPEFDSPPFLAGLLDMDAGGLFEIVPVPLHSSAQRYTEDSCVLVTSLFSDHGMLQVTDCLTLRSGANLAEPVPAGRRELLRQARAVGGDVRVRVRLTPKIGTSFDKLAGGWRFDWPVNGTSEVYLWSSVELRPDGRGLSADLTLRAGETITVSLHWSGRFRLRQRPDARVLIDQTVRGWRQWASGLDCEGSQADLMKRSALTLKMLDHAETGAIMAAATSSLPEWPGAPRNWDYRYTWVRDAAFSNYVFRRIGDPSDADVFLAWVLTNVERDGEPHVMYALDGSQPPEEVEDPVLRGYRGSSPVRWGNGARHQAQHDVYGEIVDVAYQWSNSGQPVDRQLWAALTPIVEAAIRSWRSPDSGPWEVRSTGRPFTYSAAMCHVAIDRAIRIARRHKLPYPKRRWEAAAREIHNATLGLSWNEDKGTFTEHLGGAGGLDAALLTLPVRNVISFSDPRMVATTKAIAANLDAGDGLLFRYLPSESPDGLPGGEGAFLLCSFWLVDNLAGQGRVDEAHELYESLCRRANPLGLFPEQIHPDTGEFLGNFPQAFSHVGVLASGLRLLKAQQRRRSAEAS	PGPT0014070_156	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-TREHALASE,PGPT0014070-EC_3_2_1_28|alpha_trehalase-K22934	NA	NA
D1-29_04504	672	lutR_4	COG2186	HTH-type transcriptional regulator LutR	ATGGCCCAGCCCTTGGCCCGGCTCAGTGCCGCCGAGGCAGTGTTCAATGCCATCCGTGCCGATATCGAGTCAGGCAAGGTAGCTGTAGGCGGCAAACTCAGCTCGGAAGCCACGCTTTCGCAGCAATATGGGGTAAGCCGCTCCGTCATCCGGGAAGCCTTGCGCTCCTGCACCGCCTTGGGCCTCACCGTCACCAAAACTGGCAAGGGCACCTTTGTGGTGGCCAACAAGGTGGCCAACGACCTCACATTGGGGCAGTACTCCGCCCGGGACCTCAACGAGGCCCGGCCCCACATCGAAGTGCCGGCTGCAGGGCTGGCCGCCCAGCGCCGCACCGATGAGGAACTGGAGACCCTCCGGCAGCTTGTGGCGGCAATGTCCACGGAATCCGATCCGGAATCGTGGGTTGCCCTGGACTCCAGCTTCCACGCGGCCATAGCGTTTGCCAGCCGCAACAAGGTCTTTGCCAGTGTGGTCGCAGAAATCAGGGGCGCCCTGGAGTTCCAATCCGAAACCCTGAACATGGTGGCTGACCGCCAGCACGCCTCAGACGTGGAGCATCAGAAGATTCTCGATGCCATCGAAGCAGGCTCCGCCGAAGAGGCAAGCGCCGCGATGGCTGAGCACCTGCACGCCGTGGGCCTCGCCCTCGAGTCCATCCTGAACAAGTAA	MAQPLARLSAAEAVFNAIRADIESGKVAVGGKLSSEATLSQQYGVSRSVIREALRSCTALGLTVTKTGKGTFVVANKVANDLTLGQYSARDLNEARPHIEVPAAGLAAQRRTDEELETLRQLVAAMSTESDPESWVALDSSFHAAIAFASRNKVFASVVAEIRGALEFQSETLNMVADRQHASDVEHQKILDAIEAGSAEEASAAMAEHLHAVGLALESILNK				NA	NA	NA	NA	NA
D1-29_04505	1164			hypothetical protein	ATGCCAACCCCCGCATTTTCCGCTGCCCAGAAGGCTGCCCGCACCGACGTCGGGCCTCTCGACGTGACTGGCACTGCGTCCGGCGCCGTGCCTGACGCCCTGACCGCAGAAGCGGCACCGGCAGCCCAAGATCTGCCGCAGCACGCCGCACTGGCGGTTGCCGTCCGCGACGGCCTGGTGGAAAGCGTGCACTACGGCTCGGTCATTGCCACCGCCCCGGATGGTTCGATCCTCGCGGCGGCCGGCGATCCCCTGGCCCCCTTCTATCCGCGTTCCTCACTCAAGCCGCTGCAGGCCGTAGCTATGGTCCGGGCCGGGCTGGAACTCCCGGCCGATTTGCTGGCCCTGGCCGCAGCCAGCCACTCCGGTGCTGCCAAGCACCGCGACGGCGCCCTGCGGATCCTGGAGCAGCACGGCCTCACGGCCAGCGACCTGGAAAACAGCACGGACCTCCCCTACGGCATCAATGAACGCGAAGAATGGCTCCGTTCCGGAGGTCGGCCAACCCAGCTCACCCAGAATTGCTCCGGCAAGCACGCCGCCATGGCCGCCACGTGCGTCATTAACGGCTGGCCTGTGCGCGGCTACCTTGAACCGTCCCACCCGCTGCAGCAGCTCGTGGCCCAAACCATTATCGAGTTGACCGGTGAGCAGCCGTTCGCCCTCAGCACGGACGGCTGCGGCACCCCTCTCCTGGCCTTGACCCTCCGCGGCATGGCGCGCGCCTTCGGCCGAATCGGCCGGGCCAGCGCCGCTGCCGGAAGCACGGGGAGGGACAGCAGCACACCCGGCGACGGCGGGACCCTGCCGCTGACAGCAGAAGCCACCGTTGGCCGTGCCATCCAGCAGCACCCTGACATGGTGGCCGGCGACCACCGGGACGTCACCGAACTGATGCACCTGCTGCCCGGCACCGTAGCCAAAGACGGTTTTGAGGGGATTCAGCTGGTGGGCCTGCCGGACGGCCGGGCCGTTGCCGTAAAAATCGCCGACGGCGCCGACCGCGCACGGATGCCCGTCACCGTGCGCGTCCTCAAGGCGCTGGGCGAGGACACCGCGTCCCTCGCCGGCATTGCCAGTGCACCCGTGCTGGGTGGAGGCCGCCAGGTAGGGCGGCTGCTGTCCACTGATTTTTTGTCCACGCCTGTCAAAGAAGCCGCGTGA	MPTPAFSAAQKAARTDVGPLDVTGTASGAVPDALTAEAAPAAQDLPQHAALAVAVRDGLVESVHYGSVIATAPDGSILAAAGDPLAPFYPRSSLKPLQAVAMVRAGLELPADLLALAAASHSGAAKHRDGALRILEQHGLTASDLENSTDLPYGINEREEWLRSGGRPTQLTQNCSGKHAAMAATCVINGWPVRGYLEPSHPLQQLVAQTIIELTGEQPFALSTDGCGTPLLALTLRGMARAFGRIGRASAAAGSTGRDSSTPGDGGTLPLTAEATVGRAIQQHPDMVAGDHRDVTELMHLLPGTVAKDGFEGIQLVGLPDGRAVAVKIADGADRARMPVTVRVLKALGEDTASLAGIASAPVLGGGRQVGRLLSTDFLSTPVKEAA				NA	NA	NA	NA	NA
D1-29_04506	1503	aspA_2	COG1027	Aspartate ammonia-lyase	ATGACCACCCCCGATACCAGTAACGCCATCAAGGCCGCAGCCTCAACAAGGGCAGCGGACGGCATGGCGGCAAACTCCGCTGAGGAAAAGAAAGTGTCTACGCGTTCCGAGCATGATCTGCTCGGTGACCGGGACGTCCCGGCGGAGGCCTACTGGGGCGTGCATACCCTGCGCGCGGTGGAAAATTTCCCCATCACCGGCCAGCCGCTGTCCTCGAACATGCACCTGGTCCGCGGCCTGGCCGCGGTCAAACAGGCCGCGGCCCGCACCAACCTTGAACTCGGGCTCCTGGACCCCGAACGCGCCGCCGCGATCGAACAGGCCTGCACCGACGTGATCAACGGCCACTACGCTGACCAGTTCGTCGTGGACGTCATCCAGGGCGGCGCCGGGACCTCCTCAAACATGAACGCCAACGAGGTCATCGCCAACCGCGCCCTGCAAATCCTGGGCCACCCCAAAGGCGAATACACCCGCCTGCACCCCAACGACCACGTCAACCTCTCCCAGTCCACCAACGACGTCTACCCCACCGCCGTGAAACTGGGCACCATCTTCGCCGTCAAGGAACTCCTCGCCGCGCTCGAAGAACTCGAAGAAGCCTTCGCCGCCAAAGCCCTGGAATTCCGCACCATCGTCAAAATGGGCCGCACCCAACTCCAGGACGCCGTGCCCATGACCCTGGGCCAGGAATTCGGCACCTACGCCATCACCATCGGCGAAGACCGGCTCCGGCTCGCCGAAGCAAACCTGCTCATCCACGAAATCAACCTCGGCGCCACCGCCATCGGCACCGGCCTGAACGCCCCCGCCGGCTACACCGAAGCCGCCTGCCGCCACCTCGCCCACATCACCGGCCTGCCCCTGATCACCGCCCCGGACCTGATCGAAGCCACCCAGGACGTCGGCGCGTTCGTCCACCTCTCCGGCGTCCTCAAACGCGTCGCCGTGAAACTCTCCAAAACCTGCAACGACCTGCGCCTGCTCTCCTCCGGCCCACGCGCCGGCCTCGGCGAAATCAACCTCCCCGCCGTCCAGTCCGGCTCCTCCATCATGCCCGGCAAGATCAACCCCGTCATCCCCGAAGTAGTCTCCCAGGTCGCCTACGAAGTGATCGGCAACGACGTCACCATCACCATGGCCGCCGAAGCCGGACAACTCCAACTCAACGCCTTCGAACCCATCATCGTCCACAGCCTCCACAAGAGCATCTCCCACCTCCAGGCAGCCTGCACCACCCTCACCGCACGCTGCATCCGAGGCATCACCGCCAACACCGAACACCTACGCCTGACCGTGCAACAATCCATCGGCCTGGTCACCGCACTAAACCCGCACCTGGGCTACACCACGGCCACCGCCATCGCCCAGGAAGCACTCGCCACCGGCAAAGGCGTCGCCGAACTCGTCCTCGAACACGGACTGCTCACCGACGCGCAGCTCCAGGAACTCCTCAGCCCCGAACGCCTGGCAAACCTCACCAAACGCGCCACCCAGCAATAG	MTTPDTSNAIKAAASTRAADGMAANSAEEKKVSTRSEHDLLGDRDVPAEAYWGVHTLRAVENFPITGQPLSSNMHLVRGLAAVKQAAARTNLELGLLDPERAAAIEQACTDVINGHYADQFVVDVIQGGAGTSSNMNANEVIANRALQILGHPKGEYTRLHPNDHVNLSQSTNDVYPTAVKLGTIFAVKELLAALEELEEAFAAKALEFRTIVKMGRTQLQDAVPMTLGQEFGTYAITIGEDRLRLAEANLLIHEINLGATAIGTGLNAPAGYTEAACRHLAHITGLPLITAPDLIEATQDVGAFVHLSGVLKRVAVKLSKTCNDLRLLSSGPRAGLGEINLPAVQSGSSIMPGKINPVIPEVVSQVAYEVIGNDVTITMAAEAGQLQLNAFEPIIVHSLHKSISHLQAACTTLTARCIRGITANTEHLRLTVQQSIGLVTALNPHLGYTTATAIAQEALATGKGVAELVLEHGLLTDAQLQELLSPERLANLTKRATQQ	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
D1-29_04507	1554	ansP1	COG1113	L-asparagine permease 1	GTGACACAGCCCCCAGTGACCGCCCAGCAACAAGCGGCCATCTCCGACCACACCATTCCGGCGCACGCCCATGCCTCCGAAGCAGCCCTGCATCAGGAGGATGAGGGCTACCACAAGGGCCTAAAGCCCCGCCAGGTCCAGATGATCGCTATCGGCGGCGCAATCGGCACCGGCCTGTTCATGGGTGCCGGCGGCCGCCTGGCCTCCGCCGGCCCCGCCCTGATCCTCAGCTACGCAGTCTGTGGCTTCTTTGCCTTTATGATCCTCCGGGCCCTCGGCGAACTGGTCATGCACCGGCCCTCCTCCGGTTCCTTCGTTTCATATGCCCGCGAATTCTTCGGTGAGAAGGCAGCGTTCGTCACCGGCTGGCTCTACTGGCTGAACTGGGCGATGACGGCGATCGTGGACATCACCGCCGTCGCGCTTTACATGAACTTTTTCAAGAAATACGTACCGGCCATTGCCGATGTCCAGCAGTGGATCTGGGCACTGCTCGCCCTCGTTCTGGTCCTTGGCCTGAACCTGGTTTCCGTCAAGGTGTTCGGCGAGCTTGAGTTCTGGTTCGCTCTCATCAAGGTGGTTGCCCTGGTGAGCTTCCTGGTCATTGGCATCTATTTCGTCATCTTCGGCACCCCTGTGGAGGGCCAGGAAGTTGGCTTCACCCTGATCGCCGACAACGGGGGCATGTTCCCCAACGGCCTGCTGCCGGCAATCGTGGTCATGCAGGGTGTGCTGTTCGCCTACGCCTCCATCGAGCTGATCGGTACCGCCGCCGGTGAAACGGAGAACCCGGAAAAGATCATGCCCAAGGCCATCAACACTGTGGTCCTGCGTATCGCTGTGTTCTATGTCGGTTCCCTGATCCTGCTTTCGCTGCTGCTCCCGTTCACGGCGTACAAGGCCGGCGAAAGCCCGTTTGTCACCTTCTTTGGCTCCATCGGCGTGGAGGGCATCGACGCGATCATGAACCTTGTAGTGCTCACCGCGGCGCTGTCTTCGCTGAACGCCGGGCTGTACTCCACGGGACGCATCATGCGCTCCATGTCGCTGGCCGGCTCGGCGCCGAAGTTCGCCGGGCGGATGAACAAGGCCGGCGTTCCCTACGGCGGCATCGCGCTGACCGCAGTGGTGGCTGTCCTTGGTGTGGTCCTCAATGCGATCGTCCCGGCGGAAGCATTCGAGATTGTCCTGAACGTCGCCTCGCTGGGCATCATCAGCACCTGGGCCATGATCGTCCTGTGCCAGATGCAGCTGGCTAAGCTCGCCAAGCGGGGAGAGGTGCTGCGCCCGGCCTTCCGGATGCCCGGCGCCCCGGTAACGGGCTGGCTTACCCTCGCTTTCCTTGCCGCGGTGCTGGTCATGATGGCCTTTGACTCCCCGGCCGGGACCTGGACTGTCGCTTCGCTGGTGGTCATCATTCCGGCCCTGATGCTCGGCTGGTACCTCTGCCGCGACCGCGTCCTGGAAATCGCCTCGATCCGCGACGGCCACACCGGACCTTACCCCCTGGTGGCCAACCGGCCGGCCCCCGGTACGGGCAAGGACGGCAAGTAA	MTQPPVTAQQQAAISDHTIPAHAHASEAALHQEDEGYHKGLKPRQVQMIAIGGAIGTGLFMGAGGRLASAGPALILSYAVCGFFAFMILRALGELVMHRPSSGSFVSYAREFFGEKAAFVTGWLYWLNWAMTAIVDITAVALYMNFFKKYVPAIADVQQWIWALLALVLVLGLNLVSVKVFGELEFWFALIKVVALVSFLVIGIYFVIFGTPVEGQEVGFTLIADNGGMFPNGLLPAIVVMQGVLFAYASIELIGTAAGETENPEKIMPKAINTVVLRIAVFYVGSLILLSLLLPFTAYKAGESPFVTFFGSIGVEGIDAIMNLVVLTAALSSLNAGLYSTGRIMRSMSLAGSAPKFAGRMNKAGVPYGGIALTAVVAVLGVVLNAIVPAEAFEIVLNVASLGIISTWAMIVLCQMQLAKLAKRGEVLRPAFRMPGAPVTGWLTLAFLAAVLVMMAFDSPAGTWTVASLVVIIPALMLGWYLCRDRVLEIASIRDGHTGPYPLVANRPAPGTGKDGK	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
D1-29_04508	696	lutR_5	COG2186	HTH-type transcriptional regulator LutR	ATGTATGCCGCTAAGATGAGTCCCATGGCAGTCACTGATGAAGCGATCGGCAAGATTAAGGAGATGCTCCTTCGGGGCGAACTCAGGGCCGGCGACCGCCTGCCTCCGGAGAAGGAGCTCAGCGACCGGCTGGGCCTCTCACGGAGCTCCCTGCGCGAGGCAGTCAAGGCGTTGGAGCTCATCAAGGTCCTGGACGTGAGGCGCGGGGATGGCACGTATGTCACCAGCCTGGATGCGAAGCTGCTCAATGAGGCCGTGGCTTTTGTGGTGGAACTCCATCAGGACAAGTCCATCCTTGAACTCTTCGAGGTCCGACGTATCCTCGAACCCGCCACCGCCTTTATCGCCACGGGAAAAATCGGCGCCACCGAACTCCTTGAACTCAGCGCCACCATGGAGGGCATCGACGAGAACACGGACGTGGAGGAACTGGTCGCCCATGACTTGGAGTTTCACCGCATTATCAGCAGGGCGGCGGGCAACGCGTATCTGGAAAGCCTGCTGGATGCCCTTTCCGGCAGCACGGTGCGCGCCCGCATCTGGCGCGGGCTCACGCAGGAGCGGGCGGTTGCGCACACGCTTGCCGAGCACAAGGCCATTGCCGATGCCCTGGAACGCGGCGACGCGGAACTTGTCAGGGCCCTGGTGACCGTGCACATCAGTGGTGTGGAGAGCTGGCTGCGGCAGGCACTCTAA	MYAAKMSPMAVTDEAIGKIKEMLLRGELRAGDRLPPEKELSDRLGLSRSSLREAVKALELIKVLDVRRGDGTYVTSLDAKLLNEAVAFVVELHQDKSILELFEVRRILEPATAFIATGKIGATELLELSATMEGIDENTDVEELVAHDLEFHRIISRAAGNAYLESLLDALSGSTVRARIWRGLTQERAVAHTLAEHKAIADALERGDAELVRALVTVHISGVESWLRQAL				NA	NA	NA	NA	NA
D1-29_04509	996	alsB	COG1879	D-allose-binding periplasmic protein	ATGAACAAGCCCACTTTTGATCGCCGCAGTTTCCTCACCTTGTCCGGCCTGGCGCTGGGCGTGGTGGCAATCGCCGGCTGCGAGGCACCGGCAGGAACGCCGGCCGGAACTGCCGCCGGCGGAGCCAAGCCTTACATCGCCATCGTTTCCAAGGGGTTCCAGCACCAGTTCTGGCAGGCCGTGAAGCAGGGCGCTGACCAGGCCGCCAAGGAGTTCGACGTCGAAGTCAGCTTCGAGGGTCCCAACACTGAGAAGGACGTGGACCAGCAGATCCAGATGCTGACCACCGCCCTGGGCAAATCGCCGGCCGCCATCGGTTTTGCTGCCCTCGACTCACAGGCAGCCACGCCGCTGCTGGAACAGGCCAAGGGCAAGAACATCCCGGTGGTTGCCTTCGACTCCGGCGTCGACTCGGACATTCCCGTCACCACGGCATCCACGGACAACAAGGCTGCCGCTGCGGAGGCCGCCAAACACCTTGCCGAGCTCATTGGCGGCAAGGGTGAGATCGCCATCATCGGCCACGACCAGACGTCCAAGTCGGGTACGGACCGGCGGGACGGTTTCAAGGAATACATCGAGAAGAACCACCCGGAAATCAAGATCGTGGCCATCCAGTATGCCGGCGGCGATCAGCTCCTCTCCGCCGATGCCGCCAAGGCCATTGTGACGGCCAACCCCAACCTCAAGGGCATGTACGGCACCAATGAGGGTTCGGCCATCGGCGTGGTCAAGGCTGTGGAGGAACTTGGCCTCAAGGGCAAGCTGACCATTGTTGGCTTCGATTCCGGCAAAGCCCAGATCGACGCCATCCGGTCCGGGCTGATGGCCGGTGCCGTGACGCAGAACCCGGTGGGAATCGGCTACGAAACCGTGAAGGCTGCCGTGGCCGCGATCAAGGGCGACAAGCTGGAGAAGGTGGTGGATACCGGGTTCTACTGGTACGACGCCACGAACATTGACTCGGAGAAGATTAAACCGAACCTCTACCAGTAG	MNKPTFDRRSFLTLSGLALGVVAIAGCEAPAGTPAGTAAGGAKPYIAIVSKGFQHQFWQAVKQGADQAAKEFDVEVSFEGPNTEKDVDQQIQMLTTALGKSPAAIGFAALDSQAATPLLEQAKGKNIPVVAFDSGVDSDIPVTTASTDNKAAAAEAAKHLAELIGGKGEIAIIGHDQTSKSGTDRRDGFKEYIEKNHPEIKIVAIQYAGGDQLLSADAAKAIVTANPNLKGMYGTNEGSAIGVVKAVEELGLKGKLTIVGFDSGKAQIDAIRSGLMAGAVTQNPVGIGYETVKAAVAAIKGDKLEKVVDTGFYWYDATNIDSEKIKPNLYQ	PGPT0015740_2826	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
D1-29_04510	1038	rbsC	COG1172	Ribose import permease protein RbsC	ATGAGCATCGTACAAACCCCCACACCGAAAGAATCCACGGTGCTGACGGCGAAGTCCCAGCCCACACGGGGAAACGGCCTTAGCCTGCGGCTTCGCTCCTCCCTGCAGCAGCTCCTGGCCTTCGGCTCGCTGATTGTCCTGGTGGTTTTCTTTGGAGCCATGAATTCACGGTTCCTGCTGCCCGGCAACCTCTCGGACATCCTCCTCTCCACCGTTGTCATCGGACTGCTGGCGCTTGGCGCCACGTTTGTCATCATCACGGGCGGCATCGACCTTTCGGTGGGCACCGGAATGAGTCTGTGCTCGGTGATGGTGGGCGTGGTGCTGACCTACCTGGGCCTGCCGCTGTGGGCCGGGGTGGTGGGCGGCATCCTGATGGGTGCGCTGATCGGGGCGGTGAACGGCTTCCTCATCTCGTTCCTGAAAATTCCGCCCTTCATCGCCACACTGGCAACCATGCTGGTGGCCCAGGGCATGGCGCTGGTGGTCTCGGGAACCAAGCCCATCTACTTCACCGGGACCGAAGGCTTTTCCAACCTCGCCCTCGGTAAGCCGATCGTCGGACTGGTGATTCCAAACGCTGTGTTCATCTTCTTCGCCGTGGCCACCGTGGCGGGCGTGGTGATGAGCAAGACCCTCCTGGGCCGCTACACCTTCTCCATCGGATCAAACGAGGAGGCAACGGCACTGTCCGGCATCAACGTCCGCAGCTGGAAGCTCTGGATCTACACCGCGGCGGGCGCCTTCACTGGGCTGGCCGGTGTCATCATCGCTGCCCGGCTTAACTCCGCCCAGCCCGGGCAGGGCATGGGATATGAGCTCCAGGCGATTGCCGCCGTCGTGATCGGTGGAACCTCCCTGGCCGGAGGCAAGGGCTCCATCGTGGGAACGGTGATTGGTGCCCTCATCATGTCCGTCCTCACCAATGGCCTGCGGGTCATCTCGGTGCCGCAGGAGTGGCAGAACGTGGCCATCGGCGTTGTGATCCTGGTGGCCGTCTACCTGGACATGCTTCGCCGGAAGGAGGCTGCCACGTAG	MSIVQTPTPKESTVLTAKSQPTRGNGLSLRLRSSLQQLLAFGSLIVLVVFFGAMNSRFLLPGNLSDILLSTVVIGLLALGATFVIITGGIDLSVGTGMSLCSVMVGVVLTYLGLPLWAGVVGGILMGALIGAVNGFLISFLKIPPFIATLATMLVAQGMALVVSGTKPIYFTGTEGFSNLALGKPIVGLVIPNAVFIFFAVATVAGVVMSKTLLGRYTFSIGSNEEATALSGINVRSWKLWIYTAAGAFTGLAGVIIAARLNSAQPGQGMGYELQAIAAVVIGGTSLAGGKGSIVGTVIGALIMSVLTNGLRVISVPQEWQNVAIGVVILVAVYLDMLRRKEAAT	PGPT0016590_5526	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
D1-29_04511	1533	rbsA_3	COG1129	Ribose import ATP-binding protein RbsA	ATGACCGCGGATCAAACAACGCTGTTATCCGTGCGCGGGGTGGGCAAGACATTCCCCGGGGTCAGGGCTTTGCACAACATGCAGTTGGACCTTCGGCACGGTGAAGTGCTGGCGCTGGTAGGCGAAAACGGTGCGGGCAAGTCAACGCTCATGAAGCTGCTCTCCGGCATCTACGTTCCCGACCAGGGAACCTTCGAGCTCAACGGCGTGGCCTTTACGCCGGCCGGACCAAAGCACGCGCAGGAACTGGGCATCAGCATCATCCATCAGGAGTTCAACCTGATGCCGGACCTGACGGTGGCCCAGAACATCTACATTGGCCGCGAACCCCGGCACTATGGGATCCTCAGCGAGCGCGCCCTGAACCGGAAAACCCAGGACCTGTTTGACCGGATGAGCCTCAAACTGGACCCCCGGGAGCGCTGCGGGGACCTGACAGTGGCAAAGCAGCAGATGGTGGAGATCGCCAAGGCCTTGAGCCATGACTCCAAGGTGATCATCATGGACGAGCCCACAGCCGCCCTCAATGACGCCGAGGTGGCCACCCTGCACGAACTGATCCGCGGCTTTGTTTCATCTGACACCGGCGTCATCTACATTTCTCACCGAATGGATGAGCTCAAGCAGATTTCCCAGCGCATCACCGTTATCCGCGACGGCGAATATGTGGACACCGTGGATACCGCGGCGAGCACCATGCGGGAGGTCATCTCGCTGATGGTGGGCCGTTCCATCTCCGGCGAACAGCGGCCGGCGGCCGAAGAAACACACCGTGCTGACGACGTCGTCCTGGCTGTTGCCGGGCTGTCCACTCCGTCCCTGCTGAAGGACGTCAGCTTTGAGCTGCGCCGGGGCGAGATCCTCGGGTTCGCCGGGCTGATGGGCGCCGGCCGGACGGAGGTTGCCAGGGCCCTGGTGGGCGCGGACAAAGCCAGCTTCCGGCAGCTGCAGGTGAACGGGGCCGACGCGCGGATTCCTAACCCGGCGGCCGCCGCGAAACTGGGAATCGGCTACCTCTCCGAGGACCGGAAGCATCTTGGCCTGCTCCTGGAACGCGACGTCAAGGAGAACATTATGCTCTCCTCGCTGGCAAAAAATTCGACGGCGGGATTCATCAATGACGGGTCCCTGCGCCGCACGGCCGACGAATACTCGCGGAAGCTTCGGATCAAGACGCCGTCCATCAAGCAGCTGGCCCGGAATCTTTCCGGCGGCAACCAGCAGAAGGTGGTTATCGCCAAATGGCTCGTCAAGGACTGTGACATCCTCATCTTTGACGAGCCCACCCGCGGCATTGACGTGGGCGCCAAGGACGAAATCTACAAACTGCTGAACGAACTCGCAGCTGAGGGCAAGGCGATCATCATGATCTCCTCGGAACTTCCCGAAGTCCTGCGCCTGTCCCATCGGATCGCCGTCATGTGCGAAGGGCGAATCACCGGCTTCCTCACCAACGCCGAAGCCACCCAGGAAAACATCATGGAGCTCGCCACCCGACGGGTCTCCATCACCACAGGAGCACCAACCTCATGA	MTADQTTLLSVRGVGKTFPGVRALHNMQLDLRHGEVLALVGENGAGKSTLMKLLSGIYVPDQGTFELNGVAFTPAGPKHAQELGISIIHQEFNLMPDLTVAQNIYIGREPRHYGILSERALNRKTQDLFDRMSLKLDPRERCGDLTVAKQQMVEIAKALSHDSKVIIMDEPTAALNDAEVATLHELIRGFVSSDTGVIYISHRMDELKQISQRITVIRDGEYVDTVDTAASTMREVISLMVGRSISGEQRPAAEETHRADDVVLAVAGLSTPSLLKDVSFELRRGEILGFAGLMGAGRTEVARALVGADKASFRQLQVNGADARIPNPAAAAKLGIGYLSEDRKHLGLLLERDVKENIMLSSLAKNSTAGFINDGSLRRTADEYSRKLRIKTPSIKQLARNLSGGNQQKVVIAKWLVKDCDILIFDEPTRGIDVGAKDEIYKLLNELAAEGKAIIMISSELPEVLRLSHRIAVMCEGRITGFLTNAEATQENIMELATRRVSITTGAPTS	PGPT0016600_1763	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
D1-29_04512	969			hypothetical protein	ATGATCGACTCCCACTTGCACCTATGGGACCTGCAGTCGGCGAACCAGCCACTAGAAACCGGGCGATCCCTGGAACAGGACGGCGCGGCGCGCCCCTACTCGTGGCTGGGACCGCAGCATGGAGCGCTCTTTCGCAGCTTTGGGGAAGCGGAGGCCCAGCAGACCATCTCCGATGCCGGAGTCAGCGCCGCGGTACTGGTGCAGGCTGACGACACCCTTGCCGACACGGAATCCATGCTCGCCGTTGCTGACCGCAATGACTGGGTCATCGCCGTCGTGGGCTGGATTCCTTTGGAACATCCGGAGCAGGCAGCAGCTGCGCTGGAACGGTTTGCCCGGAACCCCAAGTTCCGGGGCGTCCGCCACCTGATCCATGACGATCCACGGGACAACTTCCTGGAGCTTCCGGAGGTCCGCGAGTCTTTGCGGCTGGTGGCCGACCGGGGCCTGACACTGGACATTCCCGATGCCTTTCCCCGGCATCTGGGCCCGGCCGCAGATCTGGCCCGCGACCTTCCGGAGCTGACAGTTGTGCTGGATCACCTGGGCAAGCCGCCCATCGGAGCCAACGGCGGACCTGAAGCAGGCGCTGAAGCAAACCAGGGTCTGGACCGCTGGCGCCGGGAGTTCCGGGCCTTGGCCGGGTTGCCCAATACAGTGGCAAAAGTATCCGGCCTGTACATGCCGGGAACGGAATATACAGCCGAGACGCTGCGCCCGGCCTGGGACGAGGCCCTGGCAAACTTTGGGCCCGAAAGGCTCATGATCGGGATGGACTGGCCGGTCAGCATGCTCGGGGCACCGTATCAACGCACATTGGATGTGTTGCTGGAGCTGGCGGAGGAGCTTGATGCTGCAGGTAAGCACGCTTTCCTCGAAGCCACGGCGCGGCACATCTACGGGACGCAGCACACAGAAGACATGCCGGAATCGGCAACAACAAGCAAGGAAGATGAGGTGAGAGCATGA	MIDSHLHLWDLQSANQPLETGRSLEQDGAARPYSWLGPQHGALFRSFGEAEAQQTISDAGVSAAVLVQADDTLADTESMLAVADRNDWVIAVVGWIPLEHPEQAAAALERFARNPKFRGVRHLIHDDPRDNFLELPEVRESLRLVADRGLTLDIPDAFPRHLGPAADLARDLPELTVVLDHLGKPPIGANGGPEAGAEANQGLDRWRREFRALAGLPNTVAKVSGLYMPGTEYTAETLRPAWDEALANFGPERLMIGMDWPVSMLGAPYQRTLDVLLELAEELDAAGKHAFLEATARHIYGTQHTEDMPESATTSKEDEVRA	PGPT0017915_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017915-pld-K00064	NA	NA
D1-29_04513	993	fdh_2		D-threo-aldose 1-dehydrogenase	GTGAACGCGCCACTGCCCCTCGGCGCCCTGGGCTTTGGGGGAGCGGGTATCGGCAACCTCTACCGCGCCATGCCAGACACCAGGGCCACCGCCACCGTTGAAGCAGCGTGGGAGGCCGGCATCAGGTACTTCGACACGGCCCCCCACTATGGACTGGGCCTGTCGGAGCGCCGGCTGGGCGGGGTGCTTCGGGGAAAGCCGAGGAATGAATTTGTGCTGTCCACCAAGGTGGGACGCCTTCTGGTACCGCACCAGGGCGTTCTGACGGGTGGTACGCCGCCCGATATCCATGCCGCTGAGGATGCACCGGGCGACCCCGAAGGCTTCGACGTGCCCGCCCTGAGCAGGCGCGTCTGGGACTTTTCAGAACAGGGTATCCGGCAAAGCCTGGAGGACTCGCTCGAGCGTCTCGGCCTGGACCAGGTGGACATTGCCTACCTGCACGACGCCGATGTCCACGATCTCGCCGCCGGCATCCGCGACGGGTTGCCTGCGCTGGAGAAGCTGCGCTCCGAAGGGCTGGTTCGCGCCATCGGCGTGGGGATCAACTCGGCGGAGGCAGCGCTGGAATGCGTCGAGGCCGCGAACCTGGACCTCGTGATGCTGGCCGGACGCTACACGCTGCTGGAGCAGCCGCAGGTTCCGCTGCTGGAGCGCTGCGTGGAAAAGGGTACAGGAGTGGTAAATGTTGGAGCCTACAATTCCGGACTGCTGGCGCGGCAGGATGTTCCTGATGACGCGCACTATAACTATGGGCAGGCGCCGCACGAAAAGATTGAGCGTGCCCGGCAGCTCGCCGGCATCTGCGCACGCTTTGGTGTGGAACTTCCGACGGCGGCCCTGCAGTTCGGGCTGCGCCACCCGGCCGTGGTCAATGTGACAGTGGGGGCAACGTCCCCGGAACAGATCCGGGACAACGCTGCCCGGATGGCTGAAGAAGTTCCCGGCGAACTTTGGGCAGAACTGTTGCGGCAGGAGCTGATCCCCTCATGA	MNAPLPLGALGFGGAGIGNLYRAMPDTRATATVEAAWEAGIRYFDTAPHYGLGLSERRLGGVLRGKPRNEFVLSTKVGRLLVPHQGVLTGGTPPDIHAAEDAPGDPEGFDVPALSRRVWDFSEQGIRQSLEDSLERLGLDQVDIAYLHDADVHDLAAGIRDGLPALEKLRSEGLVRAIGVGINSAEAALECVEAANLDLVMLAGRYTLLEQPQVPLLERCVEKGTGVVNVGAYNSGLLARQDVPDDAHYNYGQAPHEKIERARQLAGICARFGVELPTAALQFGLRHPAVVNVTVGATSPEQIRDNAARMAEEVPGELWAELLRQELIPS	PGPT0017915_1022	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017915-pld-K00064	NA	NA
D1-29_04514	315	rhaM_2		L-rhamnose mutarotase	ATGCCTGAGACCATCGTCCTGCACACCAGGCTGAAGGTGGGTGCCGCCGAGGCATATGCGGACGCCCATGACGCCATACCGGCGGAGCTCGTGGCGGCCCTGAAGGGAGCCGGCGTGGTTAACTGGCGCATCTGGCGCAGCGGCCGCGAGCTGATCCACCTGGTGGAAGTGGAGGACTACAAGCGCATGCGCCGCGAACTGGCCCAGCATCCAGCCAACGTCCCCTGGCAGGCGCGGATGGCCGAGCTCCTGGAAGTGCAGGACGATTACAGCGGACAAGACTCCGGCATACCGCTCGTTTGGGAGCTGCCGTGA	MPETIVLHTRLKVGAAEAYADAHDAIPAELVAALKGAGVVNWRIWRSGRELIHLVEVEDYKRMRRELAQHPANVPWQARMAELLEVQDDYSGQDSGIPLVWELP	PGPT0017795_1140	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
D1-29_04515	1368		COG4948	L-fuconate dehydratase	GTGAGCATCATTACCGCGGTAGAAACCTTTGACATCCGCTTCCCCACGTCCAGGGACCTCGATGGTTCCGACGCCATGAATCCGGATCCGGATTACTCGGCCGCCTACCTGATCATTGGCACTGATGCCGGGGACGGTCTCGAGGGCCATGGATTCGTCTTCACCATTGGACGCGGAAATGAGGTGGAGGCGGCTGCAATCGATGCCCTTCGCCCGCACATCCTTGGCCGGAACGCTGAAGAGCTGCTGGACGACATGGGATCCACGTGGAAGCTGCTGGCCCACGATTCCCAGCTGCGGTGGCTGGGCCCGGAAAAGGGTGTAATGCACATGGCGATTGGCGCAGTGGTCAACGCCCTGTGGGACCTCAAAGCCAAACGTGCCGGGTTGCCGCTGTGGGACTTGCTGGCGGGTCTTAGCCCTGAGGAGATCATTGCCCTGGTTGACTTCCGTTACCTCAGCGACGCCCTCACCCCCGAGGAGGCACTGGAGATCCTCCGTAAGGCCGAACCGGGGAGGGCTGAGCGCCGCGCGCGCCTCCTTGAGGAAGGCTACGCCGGCTACACCACCACGCCCGGCTGGCTCGGGTACAGCGACCAGAAGCTGACACGGCTGGCCAAGGAAGCTGTGGCGGATGGCTTCAGCCAGATCAAACTGAAGGTTGGCGCTTCGCTGGAGGACGACCTCCGCCGTGTCCGCGTGGCCCGTGAAGCGGTGGGACCAGACATCAAAATTGCCGTCGACGCCAACCAGCGGTGGGATGTGCAGGACGCGATTGAATGGATGCGTCACCTGGCGCCCTACGACATCGCCTGGATTGAAGAACCCACCAGTCCTGACGACATCCTGGGCCACGCGGCCATTGCCAGGGGCGTCGCGCCCATTCCCGTGGCCACCGGGGAGCACGTCCAGAACCGGGTGATGTTCAAGCAGCTGCTGCAGGCGCAATCCCTGGAAGTACTCCAGATCGACGCGGCCCGCGTGGGCGGTGTGAACGAGAACATCGCGATCCTGCTGCTCGCCGCCAAGTTCGGTGTCCGGGTTTGCCCCCATGCAGGCGGTGTTGGCCTCTGTGAGGCAGTCCAGCATCTGTCCATGTTCGATTTCATTGCTGTCTCGGCCGACAAAGACGGCCGTATGATTGAATTCGTTGACCACCTCCACGAGCATTTCATCACTCCCGTGGACGTTCACGATGGCTGTTACTGGCCACCGTTAGCACCAGGTGCCGGCGCGGAGATGCACCGGAATACGCTGGCTGTTTACAGTTACCCGGACGGCGCGGAATGGAGCGCCACATCAGCCACTGACGGCAGTTACGAGCTGGTGCCGGAATTCCCCCTCAAAGAAGCCGCAGCTGATGCCTGA	MSIITAVETFDIRFPTSRDLDGSDAMNPDPDYSAAYLIIGTDAGDGLEGHGFVFTIGRGNEVEAAAIDALRPHILGRNAEELLDDMGSTWKLLAHDSQLRWLGPEKGVMHMAIGAVVNALWDLKAKRAGLPLWDLLAGLSPEEIIALVDFRYLSDALTPEEALEILRKAEPGRAERRARLLEEGYAGYTTTPGWLGYSDQKLTRLAKEAVADGFSQIKLKVGASLEDDLRRVRVAREAVGPDIKIAVDANQRWDVQDAIEWMRHLAPYDIAWIEEPTSPDDILGHAAIARGVAPIPVATGEHVQNRVMFKQLLQAQSLEVLQIDAARVGGVNENIAILLLAAKFGVRVCPHAGGVGLCEAVQHLSMFDFIAVSADKDGRMIEFVDHLHEHFITPVDVHDGCYWPPLAPGAGAEMHRNTLAVYSYPDGAEWSATSATDGSYELVPEFPLKEAAADA	PGPT0017495_445	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017495-fucD-K18334	NA	NA
D1-29_04516	879			Ureidoglycolate lyase	ATGGATATCAAGCTGGCCCGGCTCGGAGAGCGTGGCAAAGAAGAACCGGTGGTGCTCATGGCCGACGGGAGCGGGGACCACAAATACTTCAGCCTCGCTGCCCTCACGCAGGACATCGACGGCGCCTTCCTCGCTGCAGACGGCATTCAGCGGACGCGTGAAGCTCTGGCAGCCGGGGAACTGGCGGAGGTTTCAGCTTCCGGGGTCCGGATCGGGGCGCCGGTTGCCCGTCCCGGCTCAATCATTTGCATTGGCATGAACTATGCGGCGCACGCCGCAGAATCAGGCTCGGCTCCGCCCGAGATTCCGGTCGTTTTCCTCAAGCCGGCCAACACCGCCAGTGGCCCTTTCGACGCGGCCCCCATCCCGCCGTCGTCGGAAAAATACGACTGGGAAGTGGAGCTCGGCGTTGTTATCGGACGGGAAGCGAGCTACCTTTCCGATCCCGGCCAGGCTTTGGAGTGCGTTGCCGGATACCTCGTGGCCAACGACCTCTCGGAGCGGAACTATCAGCTGCCAGGTGCCGCAGGCCAGTGGACGAAAGGCAAGTCCCTCCCCGCCTCCACACCGCTTGGCCCCTGGCTCGTCCCCGCCGACCAGGTCAACGCCGGCCGCCTTCAGCTCCAGACCAGGGTCAATGGCGAAGTCCGGCAGGACTCCTCCACAGCCGACCTGATTTTTGACGTCCCCACGCTGGTACACCACGTCAGCCAATACATGCTCCTTGAACCAGGAGATGTCATCCTCACCGGCACTCCGGAAGGCGTGGCCCTGTCCGGCCGGTTCCCTTATCTCCAGCCGGGAGACGTGGTGGAACTGGACATCGAAGGCCTGGGCCGCCAACGCCAGGAGTTTTACCGTGAAGGAGCATTGCAGTGA	MDIKLARLGERGKEEPVVLMADGSGDHKYFSLAALTQDIDGAFLAADGIQRTREALAAGELAEVSASGVRIGAPVARPGSIICIGMNYAAHAAESGSAPPEIPVVFLKPANTASGPFDAAPIPPSSEKYDWEVELGVVIGREASYLSDPGQALECVAGYLVANDLSERNYQLPGAAGQWTKGKSLPASTPLGPWLVPADQVNAGRLQLQTRVNGEVRQDSSTADLIFDVPTLVHHVSQYMLLEPGDVILTGTPEGVALSGRFPYLQPGDVVELDIEGLGRQRQEFYREGALQ	PGPT0001745_124	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001745-lra6-K18336	NA	NA
D1-29_04517	774	tsaC1		4-formylbenzenesulfonate dehydrogenase TsaC1/TsaC2	GTGACTGCCACACCTGAGAGTTTTGTGAACAGGGATTTCGAGGGCCTGGTTGCTCTGGTGACCGGAGGAGCGTCCGGAATCGGGGCAGCAGTGGCGGACAGGCTGGAGGCAGGCGGCGCCAAGGTTGCGGTCCTGGACCTCAACCCCGCCGGCACCTCCCACTACGCCGTTGAGTGCAACGTCGCCGAGGACGCCTCGGTGAGGGCCGCGGTGGACGCCGTTGCCAGGCAATTCGGCAGGCTGGACATTGTGGTGAACAACGCGGGCATCGGCGCCATGGGCGATGTCGCAGCCAACGACGACGCCGAATGGGCCCGCGTGCTGGATATCAATGTTGTGGGGGTTGCCAGGATCACGCGTGCTGCCCTTCCGCACCTGCGCCGATCCCCCGCGGCAGCCATTGTCAACATGTGCTCTATCGCTGCCACGGCCGGACTCCCGCAGCGTGCATTGTATTCGGCGTCCAAGGGTGCCGTGCTGTCGCTGACGCTGGCCATGGCGGCTGACCACATCCGCGAAGGCATCCGGGTCAACTGCGTCAACCCGGGAACAGTGGATACCCCCTGGGTTTCCCGGCTGCTTGGCCAGGCGGACGATCCTGAGGCCGAGCGTGCCGCCCTCAATGCCCGCCAACCCCATGGCCGGCTGGTGGCCGCCGAGGAAGTGGCAGAGGCGGTGGCGTACTTGGCAAGCCCTCGGTCCGGGTCAACCTCCGGCACGTCCCTGGCTGTCGACGGCGGCATGCAGGGGCTGCGGCTGAGGCCACTCGGCTAA	MTATPESFVNRDFEGLVALVTGGASGIGAAVADRLEAGGAKVAVLDLNPAGTSHYAVECNVAEDASVRAAVDAVARQFGRLDIVVNNAGIGAMGDVAANDDAEWARVLDINVVGVARITRAALPHLRRSPAAAIVNMCSIAATAGLPQRALYSASKGAVLSLTLAMAADHIREGIRVNCVNPGTVDTPWVSRLLGQADDPEAERAALNARQPHGRLVAAEEVAEAVAYLASPRSGSTSGTSLAVDGGMQGLRLRPLG	PGPT0008190_496	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
D1-29_04518	1317	ftsH_4		ATP-dependent zinc metalloprotease FtsH	ATGACCACTTGGCGGATCAGGGATTTCCATTCTGCTGACCTTGACGGGATCCTGCACCTGTGGGAAACGCTCAAGGCAACCAATGTGGAACCCGTTTATGCTCTTTCCGAGGTGCTGGCCTCCTGCGAAAAGGACCACGCCGTGGTGGCTGTGCTGGGCGATATGGTGGTGGGCGCCGCCGTCGGACGTGCGGCGCACGACCAGGGCTGGATCGTTTTCCTGGCCACCCTTCCGGAGTACCGGGGCCGCGGCATCGGGACCTCGCTGCTGGCTGCCGTCGAAAACCGTATGGCTCCGCACGGCCTCAACAAGCTCTCGGCCCTGATGCCGGAGGCGGAAACCCGGGTGGAGGCCTTCCTCAGCCGGGGGTTCGCGTTGAAGAAGAACCTGCGCTATTTCGAGCGGACCATTCCCGTCCAGCGACAGGAGCTCGGCGCCCTTGGTCAGCTGGGCGGCCGGATCCTGGCCCGCGACCTCTGGGAAAACGTGGCCGGCATGCGCAAGGAAAAGGAACTCCTGGAGCGGCGCCTCGTCCTCCCCCTGGCCGAAGCCGATCTCGCCGATGAATACGGCGTGGTGCCGCCGCGTGCCGTCGTGCTTTTCGGTCCTCCGGGAACGGGCAAAACCACCTTCGCCAAGGCGATCGCATCGCGGCTGGAGTGGCCGTTTGTGGAAGTGTTCCCGTCCAGGCTTGCCTCCGATCCGAAAGGCCTGGCAGGAGCGCTGCGGGAAACATTCCTGGAGATCGCCGAGCTGGAGCACGCCGTGGTGTTCATCGACGAGGTGGAGGAGATCGCCTCCCAGCGTTCTGGCGAGCCGCCATCGCCGCTGCAGGGAGTCACCAACGAGCTCCTGAAGATCATTCCCGCCTTCCGGGAGCAGCCTGGCCGCCTCCTGGTCTGTGCCACCAACTTCATCAAGTCCCTGGACACTGCGTTCCTGCGGCACGGCCGGTTCGATTACGTCATCCCCATCGGCCTGCCGGACCGCCAGGCACGTGAGGCGATGTGGCAGCGCTTCATTCCTGCCGCCGTCGTGGACAACGTGGACGTGGAACTCCTGGTGGACCGCACCGAGGGCTTCTCGCCGGCGGACATCGAGTTCGCCGCCCGCAGCGCTTCCCAGCGAGCGCTGGAAAAAGCCGTGTACGACGACGGGGGGCTGGCTTCGGGCGGGACCCTTTCCGTTCGCGAGGCGGTGCGGAAGGGCCCATCCACGCAGGATTACCTCGAGGCTATCGGCGAGACGCGGACTACCGTCAGCGACGAGGTTCACCAGGACTTCCTGGAGGATATCGACCGCCTGGGCCGCGTCTAA	MTTWRIRDFHSADLDGILHLWETLKATNVEPVYALSEVLASCEKDHAVVAVLGDMVVGAAVGRAAHDQGWIVFLATLPEYRGRGIGTSLLAAVENRMAPHGLNKLSALMPEAETRVEAFLSRGFALKKNLRYFERTIPVQRQELGALGQLGGRILARDLWENVAGMRKEKELLERRLVLPLAEADLADEYGVVPPRAVVLFGPPGTGKTTFAKAIASRLEWPFVEVFPSRLASDPKGLAGALRETFLEIAELEHAVVFIDEVEEIASQRSGEPPSPLQGVTNELLKIIPAFREQPGRLLVCATNFIKSLDTAFLRHGRFDYVIPIGLPDRQAREAMWQRFIPAAVVDNVDVELLVDRTEGFSPADIEFAARSASQRALEKAVYDDGGLASGGTLSVREAVRKGPSTQDYLEAIGETRTTVSDEVHQDFLEDIDRLGRV				NA	NA	NA	NA	NA
D1-29_04519	1545			hypothetical protein	ATGGACAACGGGGAAGTCTTGGAAGCAGTTGAAGCACCTGATGCTGCCCTTGTCCTGATGGAAGTGGCCTCCTCCGCTGCCGGCGCAGGTTCTGATTCTGGTTCTGACGCGGGCACTGACTCTAACTCGGGAGCCGCTTTTGATGCTGGCGCTGGTTCTGATCCGTTGCGGGATTTGGCGGAGGAATGCCTGGCCGTCATGGCGGAGGCGGCCCGCGATGAAGCCCGGGCAGCTGCCCGGAAGGCCCGGGCGGCCGCCACATACGCGGACACCTGCCGCCGCCGGCTTTCACCGTCGGCGTCGCTGCACGAACAGTCCGTGGCGGAGATGGGCATGGTCGCCGAGGTCGCCTGTGCCCTGACCATCAGCGAAGGCGCCGCCTCAGCTTTCCTGGTCCAGTCACACCAGCTAAGCACCGAACTGCCGCGCACCCTGGCGTCCCTGCAGGCCGGGGGCCTGTCCTGGCAGCACGCCCGGATCCTCTGCGATGAAACCACCGGCCTGGGCCCCGCCGGTGCGGCCGCCCTGGAAACCCACTTCCTGGACCCCGACGCCGCCAATGCTGCCCGTGCCTGCCTCGCCGGGGACCTCACACCCTCCAGGTTTCGCGCCAGGGCCAGGACCTGGCGCGAACGCCACCATCCCGTCTCGATCGAAACCCGCCATACCAAGTGCGTCCTGGACCGCCGCCTCGAGTACACCCCGGACCGCGACGGGATGGCCTGGCTCTCCGCCTACCTGCCGGCAGATCAGGCCGCCGCCATCTGGGAACACACCACCGCCGCAGCCCGGGCACTCCAAGGCCCCACCGAGCCCCGCACCCTCACCCAACTCCGCGCCGACACCCTCGCCAGCGCACTCCTCGGCGGAGAGAACACCAACCCCGGCAGCAACAGCAACGGAAATACCGACGGCTCACCCCTAGATAGCGGCAGCGGAGCACTCCTTGGTGGAGGAAGCGACAAGGGCGCAAATAGCCTTGCCAACCCCGGCGAACGAGGCGCTGCCGGGCAGGTCCCGCCGCCACGGGCCCAGGTACTGGTCACCGTGCCCGTGTTCTCGCTCCTCGGCCTCACCGACGAACCAGCCACCCTAGACGGCCACGGCCCCATCCCCGCCGCCATGGCCCGGAACCTGGTCGCCAACGGAGCCCACTCCTTCTACCGCGTCCTGACCGACCCCCGCGACGGCGCACCACTGGAAATCGGCCGAACCAGCTACCGGCTCACCACAGCAATGCGCCGCTGGCTCAGGCTCCGCGACGCCAAATGCCCCTTCCCCGGGTGCAACAACCACTCGCTGGATAACGAAGCGGACCACCTTCTGGCCTGGGCTGACGGCGGCAATACCGGCATCAGCAACCTCGGTCAGCCTTGCCGCAAACACCACCACCTCAAGCACAACACCGCCTGGCAACCGACCCCGGCCACCAAAAACGAGCCACCCGGCTGGACCTCACCCACCGGCCGGCACTACAAAAGCGAACACCAAGACTGGGAACCACCCACCTGGCCGGACCACTCACTCACCGAACGCCTCACCTGA	MDNGEVLEAVEAPDAALVLMEVASSAAGAGSDSGSDAGTDSNSGAAFDAGAGSDPLRDLAEECLAVMAEAARDEARAAARKARAAATYADTCRRRLSPSASLHEQSVAEMGMVAEVACALTISEGAASAFLVQSHQLSTELPRTLASLQAGGLSWQHARILCDETTGLGPAGAAALETHFLDPDAANAARACLAGDLTPSRFRARARTWRERHHPVSIETRHTKCVLDRRLEYTPDRDGMAWLSAYLPADQAAAIWEHTTAAARALQGPTEPRTLTQLRADTLASALLGGENTNPGSNSNGNTDGSPLDSGSGALLGGGSDKGANSLANPGERGAAGQVPPPRAQVLVTVPVFSLLGLTDEPATLDGHGPIPAAMARNLVANGAHSFYRVLTDPRDGAPLEIGRTSYRLTTAMRRWLRLRDAKCPFPGCNNHSLDNEADHLLAWADGGNTGISNLGQPCRKHHHLKHNTAWQPTPATKNEPPGWTSPTGRHYKSEHQDWEPPTWPDHSLTERLT				NA	NA	NA	NA	NA
D1-29_04520	1233			hypothetical protein	ATGGCCCGCATGGGCGGCCGCGATCCGCATCAAGCCCACCGAGCCGCCACTCCGCTGGAACTCTTCTTCGACCTCACCTTCGTGATTGCCTTCGGCGTGGCCGGCAGCCAGTTCGCGCATGAAATTGCCGAAGCCCACTTTGCCGCCGGGTTCCTCGGATTCGGCTTCGCCATGTTCTCGGTGATCTGGGCCTGGATCAATTTCACCTGGTTCGCCAGCGCCTACGACACTGACGACTGGATCTTCCGTGTCGTCACCATGGTCCAGCTGCTGGGAGTCCTGATCCTGGCAATGGGCATCGAGCCGTTGTTTGAGTCGCTCGTCGAGGGCAAAAGCGTGGACAACGCAGTGATGGTGGGCGGCTACGTGATCATGAGGCTGGCTCTCGTCTTCCAATGGGTGCGCGCTTCCCGGCAGGATCCGGCCCGCCGTGAAACCTGCCTGCGCTACGCCACCTGCCTTGGGCTGGTGCAGCTCGGGTGGATCGCAGTGGCGGTCATCCAAGCCGACGTGTTGACCACCTTCCTGATGATCGTGCCCCTGTTCGTGCTGGAAATGGCCACACCGTACTTCGCCGAACGCCGGGCAACCACACCATGGCATGCGCACCATATCGCGGAGCGCTACGGCCTCCTGGCCATCATCGCCCTGGGCGAATGCCTGATCGGCGCCATCGAAACCCTTCGGGCCATCGTGGCCCTCCACGGCTGGAGCGTTGATGCTGCGCTGGTGGGCTTCGGCGGCACGGCTCTCGCCTTTGGCATGTGGTGGATCTACTTCATCCTGCCCGCCGGCCGCGCACTGCACCTTCAACGCGACCGTTCGTACTTCTTCGGCTACGGTCACATGCCTGTGTTCGCGGCCATCGCGGCGACCGGCGCTGGACTCCACGTCGTGGCCTACTACATCGACCACCAGGCGCACATCAGTGCCGCGGTAGCGGTGGCCAGCGTCGCAGTGCCGGTAGTGCTCTTCAAAGTGTCGCTGACCTGGCTGTTCAGCGGCATGATCTGCAGGGACCGCTCAGTGATGGCAGTAACCGCAGGCGTCACCGCAGCAATGGCGGCAACAATCGGCCTGGCGGCGGCCGGAGTCCCGGTTCCAGTCTGCCTCCTGGTGATCGTGCTGGCACTCGGCGCCTCGATTGTCGTGGACGAACGCCGCGGCGTCGACAAAATGAACACGGCCCTCGAACAGCTTGAGGCGGAGGCTAAAACGCCCCGTCCGGCCTAG	MARMGGRDPHQAHRAATPLELFFDLTFVIAFGVAGSQFAHEIAEAHFAAGFLGFGFAMFSVIWAWINFTWFASAYDTDDWIFRVVTMVQLLGVLILAMGIEPLFESLVEGKSVDNAVMVGGYVIMRLALVFQWVRASRQDPARRETCLRYATCLGLVQLGWIAVAVIQADVLTTFLMIVPLFVLEMATPYFAERRATTPWHAHHIAERYGLLAIIALGECLIGAIETLRAIVALHGWSVDAALVGFGGTALAFGMWWIYFILPAGRALHLQRDRSYFFGYGHMPVFAAIAATGAGLHVVAYYIDHQAHISAAVAVASVAVPVVLFKVSLTWLFSGMICRDRSVMAVTAGVTAAMAATIGLAAAGVPVPVCLLVIVLALGASIVVDERRGVDKMNTALEQLEAEAKTPRPA				NA	NA	NA	NA	NA
D1-29_04521	654			hypothetical protein	ATGTCTGAAATGGAATTTACGGAAGCCGGCTCTCCGGATAACGGGCCCCGCCAGCCGGGATTCACGGTGGAGACGGCCAAGGTCCTGGCCGAGGTGGCCCACAACCGCCAGAAGGACAAGCTCAAGCGTCCCTACCGTGAGCACGTGATCGCGGTGGGGGACGCCCTGGCCGACTTCGATGACGACATCCGGATTGCCGGGTACCTGCACGACATCGCGGAGGACACCCCCATTACACGCCAGGCGCTTCTGGACATGGGGGTTTCCGAGCGGGCAGTAGGCATTATCGAGCGCGTCACCAAACGGCTCCATGACGACCCGGATGACTACCAGGCCGGCATCCGCTTCATCGCCGAAGACCACGACGCAGCGCTGGTGAAGATCGCGGACAACGCCCACAACTCCCTGCCCGAGCGGGTCAAAGCGCTGGCCGAAAAGTGGCCGGACAAGCCGCCGGTCACGCGCTATGACGACGCCCGGCCGGTGCTTTACGCGGCCGTGGAAGTGGAAGAGGTGCGGAAGATCCTGGCACGGGTGAACCCCTGGCTGCTCCGGGAACTGGACGACAGGCTGGACGACGAGGACCAGACGGACTATGAGAACCTTTCGTACGAAGAGGCCCCCAGCGGAACGTCCGACTCCCGCGAGTCCTAG	MSEMEFTEAGSPDNGPRQPGFTVETAKVLAEVAHNRQKDKLKRPYREHVIAVGDALADFDDDIRIAGYLHDIAEDTPITRQALLDMGVSERAVGIIERVTKRLHDDPDDYQAGIRFIAEDHDAALVKIADNAHNSLPERVKALAEKWPDKPPVTRYDDARPVLYAAVEVEEVRKILARVNPWLLRELDDRLDDEDQTDYENLSYEEAPSGTSDSRES				NA	NA	NA	NA	NA
D1-29_04522	1107	xylB_2		Aryl-alcohol dehydrogenase	ATGCTTCTTACCACCGACGCCGCTGTAGTTGAGTCCCCGGGCGCCCGCTTTTCCATCCAGCCCGTGCAACTGGACAACCTTAGGCCCCACGAAGTTTTGGTCGACATCAAGGCGGCCGGCCTGTGCCACACCGACCTTTCCGTGGCCGGCGGAGGCCTGCCCTTTCCACTGCCGGGCGTCCTGGGCCATGAAGGTGCCGGCGTGGTGGCTGACGTTGGCACTGCTGTCACCAGGGTCCGGCCGGGCGACAAGGTGGTGCTTTCCTTTACGTCCTGCGGATCCTGCGGGAACTGCCGGGACGGCCACCCCGCCTACTGTGACACCTGGCTTTCCGAGAACCTGATCGGGGGAGCCAGAAGCGACGGAACTTCCCCCATTTCCCGCGGAGGCGAACCCGTGGGTGGCCACTTTTTCGGCCAGTCATCCTTCGCCCGGCAGTCTGTGGTGGACGAGCGGAGCATCGTGAAAGTGGAGAGCGATCTTCCGTTTGAGCACCTGTCCCCGTTGGCCTGTGGAGTGCAGACCGGTGCCGGGGCGGTCTGGAACGCCATTCAGCCCAGGGCAGGATCCAGCCTTGCGGTGTTCGGCGTCGGAGCTGTGGGACTGTCAGCCATCATGGCCGCGGTGCTGTCCCCGGTGGCCACCATCATCGCTGTCGACATGGTTCCTGCCCGACTGGACCTGGCACGGGAGCTGGGCGCGACCCACACCATCGATGCCTCCCAAATCCAGGATGTCCCTGCTGAAATCCAAAGGATCACCGGGGGCGGCGCCAACGCGGCGATCGAAGCGACCGGACACACGAAAGTCCTGGAGCAGGCCGTCTTCTCGACGGCGGCCCGTGGCGAGATTGTGGCTGTTGGCGCGCCCGCTTTTGGTGCGACGGCGGCAGTGGACGTGAACTTCATGATGCCGGGCCGCCGAATCCAGGGAATTACGCTGGGGGACAGCGAAATCGAGAGACTCATCCCAGCCATCATTGCGCTGATGGAAGCCGGCCGGTTCCCCCTGGACAAGCTGGTCAGCACGTACAAACTCGAAGACATCAACCAGGCTGTGGAGGACATGAAATCAGGGCAGGCCATCAAGCCCGTGATGGTCCTCTGA	MLLTTDAAVVESPGARFSIQPVQLDNLRPHEVLVDIKAAGLCHTDLSVAGGGLPFPLPGVLGHEGAGVVADVGTAVTRVRPGDKVVLSFTSCGSCGNCRDGHPAYCDTWLSENLIGGARSDGTSPISRGGEPVGGHFFGQSSFARQSVVDERSIVKVESDLPFEHLSPLACGVQTGAGAVWNAIQPRAGSSLAVFGVGAVGLSAIMAAVLSPVATIIAVDMVPARLDLARELGATHTIDASQIQDVPAEIQRITGGGANAAIEATGHTKVLEQAVFSTAARGEIVAVGAPAFGATAAVDVNFMMPGRRIQGITLGDSEIERLIPAIIALMEAGRFPLDKLVSTYKLEDINQAVEDMKSGQAIKPVMVL	PGPT0005865_300	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_XYLENE|DERIVATE_DEGRADATION	XENOBIOTIC_p|o|m-XYLENE_DEGRADATION,PGPT0005865-EC_1_1_1_90-K00055	NA	NA
D1-29_04523	1497	betB	COG1012	NAD/NADP-dependent betaine aldehyde dehydrogenase	ATGACAATGACAGAGTCTGAAAAAGTGCTCATTCCGTCGGTCACCCTTCCGGAGGCCGTCACCCGGGGCCAGTTGTTCATCAACGGCGAATGGCGGCCTTCGTCCGACGGCGGCACAACCGACATCATCAACCCCGCCACGGGTGCCGTGGCCGTGACGGTCGCTGCCGGGACAATCTCGGACATCAACGCCGCTGTTGCCGCCGCTAAAACCGCGTTCGACGACGGCAGGTGGTCCCGTCTCAGCGGCCGGGAACGCTCACGGGTGCTCAATAAGGCGGCGCTGCTGATACGGGAACGCGCCGAGGACCTGGCGCTCACCGAGAGCACCGACGTCGGTAAGCCCATCATCTTCGCGCGAGTGGTGGATGTGGCCACAGCGGCTGACCAGTACGAGTACGTGGCCGCCCTGGCGCAGCAACTCGACGGTTCCGTCCGGGAGACTCCCCTCCCGGCGCATGCCTTCACCAAGAGGGAGCCGCTGGGCGTGGTGGCGGCCATCACGCCGTTCAATTTTCCGCTGATCCTTTCCAGCACCAAGATTGCAGCGGCCCTGGCTGCCGGCAACTCGGTAGTGCACAAACCCGCAGGCGACACTCCACTGAGTGCCCTGCTGATGGCCGAGATTCTCACCGAAGCAGGTGTGCCGGCGGGTGTCTTTAATGTTGTGACCGGCTCGGGAGGAACCCTGGGTGATCAACTCGTGGCCCACCCCGACGTCAGCAAGGTGGCCTTCACCGGCTCCACCGACGTCGGCCGGCATGTGGCTGCCCTCGCCGGTCAGAACCTCCGGCCGGTCACCGCTGAGCTGGGCGGCAATGCCGCGAACATCCTTTTCGCCGACGCCGACCTCGACAAGGCCATCGGCACCGTCATCGGCGCCTTCGTTTTCAATTCGGGCCAGTTCTGCATGGGCGGGCCACGGCTCCTGGTGGAACGGCCCATCTACGAAACGGTTTTGGGGATCCTGAAAGACGCCGTTGCCGGGGTTCCTGTGGGCGATCCCAGCAACCCGGAAACCGTTATGGGGCCATTGGCCAGCCGGAAACAGCTGGACAAAGTAGCTGACTATGTTGAGGGCGCCAAGGCTGTCGGCGGCCAGGTGGTGGTGGGCGGTGAGCGGCTGGAGCTGAACGGCGGGTTTTTCTACAGGCCGACAGTTATTGCCGGCCTTGCCAACGATGCCGCGGCTGTCCGGGAGGAGGTCTTTGGTCCCGTCCTCACCGTCCAGCCCTTCGACACGGAGGATGAGGCCATCGAGCTTGCAAACAGCACTGAGTACGGGCTCGCCTCCGGTGTCCAGACGTCAAGCATTGCCCGGGCGCACCGCGTTTCCTCGAGGCTTGATGCCGGTATTGTCTGGGTCAATTCCTGGGCGCTGTTGGACCCTGCGGTGCCTTTCGGCGGGGTCAAGAACTCCGGTTGGGGCCGCGAATACGGCCCGGAGGCCTTGGAGTCCTACAGCCGCACCAAGTCCGTCGTCATCGCCACGGATTAG	MTMTESEKVLIPSVTLPEAVTRGQLFINGEWRPSSDGGTTDIINPATGAVAVTVAAGTISDINAAVAAAKTAFDDGRWSRLSGRERSRVLNKAALLIRERAEDLALTESTDVGKPIIFARVVDVATAADQYEYVAALAQQLDGSVRETPLPAHAFTKREPLGVVAAITPFNFPLILSSTKIAAALAAGNSVVHKPAGDTPLSALLMAEILTEAGVPAGVFNVVTGSGGTLGDQLVAHPDVSKVAFTGSTDVGRHVAALAGQNLRPVTAELGGNAANILFADADLDKAIGTVIGAFVFNSGQFCMGGPRLLVERPIYETVLGILKDAVAGVPVGDPSNPETVMGPLASRKQLDKVADYVEGAKAVGGQVVVGGERLELNGGFFYRPTVIAGLANDAAAVREEVFGPVLTVQPFDTEDEAIELANSTEYGLASGVQTSSIARAHRVSSRLDAGIVWVNSWALLDPAVPFGGVKNSGWGREYGPEALESYSRTKSVVIATD	PGPT0006035_714	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-DEHYDROGENASE_ACTIVITY,PGPT0006035-feaB-K00146	NA	NA
D1-29_04524	1023			hypothetical protein	ATGCGAGCCACCGGCGTTTCTGCAGCTGACGCCTCCGCCGAGGCGCTCGGCCGTTTTGCCATCCAGAGCAAAATCCCCGACGAGGCGTTGGACATCGGCGGCAAGGTCTACTACCCGCACCATCTGGACATGGGCCGTTCCGCCGAGGATTTTCAATGGCGCACCAAGGGCATAACCCTCGAGGGCGTGACGCTGGGCCTGCTGGAATACGGCACTCCGATGAAGATCTCGACGGGCGATTTGGAGACCTCCTACCAGGTCAATTTCCCCCGCTTTGGACGGATGAAGTTTTCCCAGGGCAGCAGTGTGGTGCTGGGGAGCCCCTCCCTCGCCGCCATCCACGGGCCTGTGGGGCCCACCACCCTCCAGGGCTGGTCAGAACCAACGCAGTTGCTGGGGCTGAAGATACCCACGTCCCTGATGCATCAGGAACTCGAAGCGCTCCTGGGGCGCTCAGCCGAAAAAGAGCTTGCCTTTGAAGGCTCCTTCGACCTGACCTCGCACCGGGGTAAGGAGTGGCGTGCCGCCGTCGAACTTCTGATTGCCGGTGTGAGCAATCCCGACTCTCTCCTGAGCTCGCCGCTGATGGCACACGCCGCCGTCCAGTACGCCGTGCGGGGGTTGCTCCTGTCGGCGCCGAACAACTTCAGCGAAGAGCTGGCCGGGGATGCGGAGGCTGTGGGCTCTGCGGCCGTGCGGCGGGCCATCGACTTCATGGAGTCCAACGCCCATTTGCCCATCACCCTGGAAGCCTTGGCGGCCGACGCCTTTGTCAGCCCGCGGGCGCTTCAGCTGGGGTTCCGGAAGCATCTCGACACAACGCCCATGGACCATTTGCGCAGCATCCGCCTTCGCCGGGTCCGAAGCGAGCTGCTTTCAGCCAGGCCTTCCACCCGCGTGGGTGATGTCGCCGCACGCTGGGGGTTCCCGCACGCAGGCAGGTTCGCTATCCACTATGCGAAGACTTTTGGCGAGGCGCCGTCCCAAACGTTGAAAAAATCAACGGAACCGACGGCTTCCTGA	MRATGVSAADASAEALGRFAIQSKIPDEALDIGGKVYYPHHLDMGRSAEDFQWRTKGITLEGVTLGLLEYGTPMKISTGDLETSYQVNFPRFGRMKFSQGSSVVLGSPSLAAIHGPVGPTTLQGWSEPTQLLGLKIPTSLMHQELEALLGRSAEKELAFEGSFDLTSHRGKEWRAAVELLIAGVSNPDSLLSSPLMAHAAVQYAVRGLLLSAPNNFSEELAGDAEAVGSAAVRRAIDFMESNAHLPITLEALAADAFVSPRALQLGFRKHLDTTPMDHLRSIRLRRVRSELLSARPSTRVGDVAARWGFPHAGRFAIHYAKTFGEAPSQTLKKSTEPTAS				NA	NA	NA	NA	NA
D1-29_04525	984	hcaB_6		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGAGCCTCTCAGGCAAAGTAGCAATCGTCACCGGAAGCGGACGGGGATTGGGCCTGGCCTACGCCCGGGAACTGGCACGCCAGGGCGCCGCCGTGGTCATCAATGACGTGGACTCCGATGTCGCAGCTGATGCAGTCCGGACGATCGAGGCCGACGGCGGACGCGCCGTTTCCGTCGTCGCCCCCGTGGGCAGCACGGAAGTTGCGAAGCAACTGGTGGCCGGAGCCGTGGAGGCTTTCGGCCGGTTGGACATCCTGGTCACCAATGCCGGGATCCTGCGGGACAAGTCATTGTTGAAGATGACGGATGAGGATTTTGACCTGGTGATCAACGTCCACCTGAAAGGGACGTTCACCTGCGTACGGGAGGCCTTCGCGTACTTCAAGGAAAACAACGTGCCTGGCCGGATCATCACCATCGGTTCGCCGACCGGCCAGCGCGGCAACTTCGGCCAGACCAACTACGCCGCGGCGAAGGCCGGGATTGTGGGCATGGTCCGCACCTGGGCGCTGGAGATGAAGAAGGCCGGCGTGACCGTGAACTGCGTGATCCCGGTAGCCGCTACCGCGATGACCAAAACCATCCCGTATTTCCAGAAGGCTGTGGAAGCGGACGAGCGCGGCGAGGCCATGCCCGCGTTCTTCCGCCACGATCTTGGTTTCGGAACGGCCGACGACGTCGCCGGGCTGGTTGCCTTCCTCGCCTCTGACGAGGCCGCCAACATCACCGGCCAGGCCATCGGCGCCGGCGGTGACCGGCTGCAGGTCTGGACCCACCCGGAGGCAGCCAGCACCGAATACCGCGAGGGCGGCTGGAGCTACGAGGCCCTCCGCGACAGCGCCGATTCGCTCTTCAATGCAGACACCCTGCAGAGCTACGGCGAGGAATTCCTCCCGCTGCCCGAGGAACTGAAGCCCGAACCAGCCCAGCCTGCACCGGCACAGCCCTCGCAAGCACAGCCCTCGCAAGCACAGGCCCGCTGA	MSLSGKVAIVTGSGRGLGLAYARELARQGAAVVINDVDSDVAADAVRTIEADGGRAVSVVAPVGSTEVAKQLVAGAVEAFGRLDILVTNAGILRDKSLLKMTDEDFDLVINVHLKGTFTCVREAFAYFKENNVPGRIITIGSPTGQRGNFGQTNYAAAKAGIVGMVRTWALEMKKAGVTVNCVIPVAATAMTKTIPYFQKAVEADERGEAMPAFFRHDLGFGTADDVAGLVAFLASDEAANITGQAIGAGGDRLQVWTHPEAASTEYREGGWSYEALRDSADSLFNADTLQSYGEEFLPLPEELKPEPAQPAPAQPSQAQPSQAQAR	PGPT0003180_16057	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
D1-29_04526	885			hypothetical protein	ATGGCACGCTACGAACTGGGCATCGATGCCGCCGCGCTGGACGCGATCGACATGCACGTCCACCTCGAAGTGGACAGCTGCGGCCACGGGTCCCTGCCCGACGCGCTGACAGAGGCCTCGGCGAAGTACTTCAAGGCCGAGGACCGCACTCCGTCCCTGGACCGGATCGCCGAGGTGTACCGCGAACTGAACATGGCCGCCGTCATCTTCACCGTGGACGCCCGCACCCAGCTCAAACACGAACCCAACAGCATCCCGGAACTGATCGCCGGCGCGGCCCGGAACAACGACGTGCTGATCCCGTTCGGCAGCGTTGACCCGCGCACCGGCGAAGACGCGATCGCCGGAGCCAAGCACCAGGCCATCGAACTCGGAGCCCGGGGCTTCAAGTTCCACCCGAGTCTGCAGGGCTTTGACCCGTCCAACGAACGCTTCTACCCGCTCTGGGAAACCCTGCAGGAACTCGGCCTGCCGGCCATCTTCCACACCGGTCAGAACGGCATGGGCGCCGGCCTTCCCGGCGGCTACGGGATCAAACTGGCGTACTCCAACCCTTTGCTGCTGGACGCGGTGGCCGCTGATTTCCCGGAACTGCAGATCATCATGGCCCACCCCTCCGTGCCGTGGCAGGACGAAGCCAACTCGATCGCCACGCACAAGGCAAACGTGTTCATCGACCTCTCCGGCTGGTCACCAAAGTACTTCCCGGAATCCCTCGTCCGCCTGTCCAACTCAGTACTGCAGGACAAGGTCCTCTTCGGCACCGACTTCCCGCTCATCACCCCACAAAAGTGGCTCGGCGCCTTCGCCGACCTGCCACTCAAGGAGGAGGTCCGCCCCAAAATCCTCAAACACAACGCCGTCCGCCTGCTTGGACTGGATTGA	MARYELGIDAAALDAIDMHVHLEVDSCGHGSLPDALTEASAKYFKAEDRTPSLDRIAEVYRELNMAAVIFTVDARTQLKHEPNSIPELIAGAARNNDVLIPFGSVDPRTGEDAIAGAKHQAIELGARGFKFHPSLQGFDPSNERFYPLWETLQELGLPAIFHTGQNGMGAGLPGGYGIKLAYSNPLLLDAVAADFPELQIIMAHPSVPWQDEANSIATHKANVFIDLSGWSPKYFPESLVRLSNSVLQDKVLFGTDFPLITPQKWLGAFADLPLKEEVRPKILKHNAVRLLGLD				NA	NA	NA	NA	NA
D1-29_04527	456		COG2030	putative enoyl-CoA hydratase 1	ATGCCCAATCTCGTCGTCGACTTCGACAAACTGCTCACACTCGCCGGGACGGACCTCGGATTCACCGGGTACCGTGAAATCACGCAGGAACAGATCAATAAGTTCGCCGAGGCCACCGGTGACGACCAGTGGATCCACGTGGACCCCGAGCGTGCCAAGGACGGGCCCTTCGGCGCCCCGATCGCGCACGGCTTCCTTACCCTCTCGCTCATCATCCCCTTCTGGGGCGAGCTGTTCGACGTCGAGAACGTCACCACCAAGGTGAACTACGGGCTTGATAAGGTCCGCTTCACGTCGCCCGTGAAGGTGGGCTCGCGGATCCGCATGCAAGCCACTATCGCCGACGTCACCGAGGTAAAGGGCGGAGCCCAGATCAAGGTGGCCAACACCATCCACATCGAAGGCCAGGAACGCCCCGCCGTGGTGGCCGAATTCCTGGCCCGCTTCTACATTTAG	MPNLVVDFDKLLTLAGTDLGFTGYREITQEQINKFAEATGDDQWIHVDPERAKDGPFGAPIAHGFLTLSLIIPFWGELFDVENVTTKVNYGLDKVRFTSPVKVGSRIRMQATIADVTEVKGGAQIKVANTIHIEGQERPAVVAEFLARFYI	PGPT0015282_21	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0015282-nodN_like-NA	NA	NA
D1-29_04528	1596		COG0318	Long-chain-fatty-acid--CoA ligase FadD13	ATGGAAAACTTTGGCATTGGCTCGTGGCTGCAGCGTCGCCGCCCCAAGTCCGGCAACAAAACAGCTCTTATCAGCGGTGACCGGACAGTGAGCTATGACCAACTCGCGGATCGCAGCATCAGGCTTGCCAACGCCTTACGGGACCGCGGAGTTGCCAGGGGAGACAGGGTTGCCTACCTCGGCGAGAACCATCCCTCCTTCCTGGAAACCCTCTTTGCCTGTGGCCTGCTGGGCGCTGTTTTCGTCCCGCTCAACACCCGGCTGGCACCGCCCGAGATCCAGTTCCAGCTTCAGGACTGCGGTGCAGTATGCCTCGTTCATTCCAGCAGCCTGGATGGCCTCGCCATCAGCGGCGCAGCGGGCACACAGGTGGCACGGCGCATCGTCCTAGACGAAGGCATGGAAACAGGAGCCACTGAGTTCAAAACAGAAGCTGAGTTCAACACGGAACAGGGCACGACGGCGGTGGAGGACTTCGAGGCCGCCATTGCGACCGGCTCGAATGAGTTTTTCGACGAGCAAGTGGGGCTCGACGACGGCGCCATGATCCTCTATACGTCCGGCACCACGGGACGGCCCAAGGGTGCGCTCCTGACCCACGGGAACATCGTGTGGAATTGCCTCAATGTGGTGGTGGACTTTGATTTCGCGTCCACGGACGTGGCGCTGATCATCTCGCCGATGTTCCACGTTGCTTCATTGGACATGGGCGTGCTGCCCACCCTGCTGAAGGGCGGAACTGTTGTTCTGGAGGCGAAGTTCAATCCCCAGCGGACGCTGGAACTGATCGAAAAGCACCACGCCACCACCATGAGTGGTGTCCCCACCACCTACCAGATGCTCTGCGAGCACCCGGATTGGGAGGGAACCGACCTATCTTCGCTGAACAAGCTCACGTGCGGCGGCTCCGCTGTTCCCCTGCGGATCCTGGAAGCCTATGAGAGTCGGGGCCTTGTGCTTTCCAACGGCTACGGCATGACCGAAACAGCACCCGGGGCCACCACCCTTCCGGCCGCCCGTTCCCGGGAGAAGGCCGGCTCGTCGGGGCTGCCGCACTTCTTCACCGACGTGCGCATTGCGGACTTTGACGGCAGCGTGGCTGCTCCCGGTGCTGTGGGCGAGATCCAGGTCAAAGGCCCCAACGTTATCCTGCAGTACTGGAACCTGCCCGAGGCAACCGCCGAATCCTACGCCCCCGGTGGATGGTTCAAGTCCGGCGATATGGGCTACAAGGACGACGACGGGTTTGTGTTTGTCTCGGACCGGCTCAAGGACATGATCATCTCCGGCGGTGAGAACATCTATCCCGCGGAAGTGGAACAGGTCATCACGGAGCTGGAGGCCGTGGGCGGCGTAGCTGTGATTGGTGTGCCGGATGAGAAGTGGGGCGAGGTGCCGCGCGCCGTGGTGCTGCTCCGCGAGGGCATGCAGCTGACGGAAGAGGAGCTTCGGGCGCACCTTGAGGGCCGGCTGGCGCGCTACAAGATTCCCAAATCCGTGGTGTTCGTGGACGAGATGCCCAGGACGGCCAGCGGCAAGATCCGGAAGGCCGAGCTCCGGAGGATCAGCGGAGGCCAACCCTCCGGACGGGCCTGA	MENFGIGSWLQRRRPKSGNKTALISGDRTVSYDQLADRSIRLANALRDRGVARGDRVAYLGENHPSFLETLFACGLLGAVFVPLNTRLAPPEIQFQLQDCGAVCLVHSSSLDGLAISGAAGTQVARRIVLDEGMETGATEFKTEAEFNTEQGTTAVEDFEAAIATGSNEFFDEQVGLDDGAMILYTSGTTGRPKGALLTHGNIVWNCLNVVVDFDFASTDVALIISPMFHVASLDMGVLPTLLKGGTVVLEAKFNPQRTLELIEKHHATTMSGVPTTYQMLCEHPDWEGTDLSSLNKLTCGGSAVPLRILEAYESRGLVLSNGYGMTETAPGATTLPAARSREKAGSSGLPHFFTDVRIADFDGSVAAPGAVGEIQVKGPNVILQYWNLPEATAESYAPGGWFKSGDMGYKDDDGFVFVSDRLKDMIISGGENIYPAEVEQVITELEAVGGVAVIGVPDEKWGEVPRAVVLLREGMQLTEEELRAHLEGRLARYKIPKSVVFVDEMPRTASGKIRKAELRRISGGQPSGRA				NA	NA	NA	NA	NA
D1-29_04529	891	gluQ	COG0008	Glutamyl-Q tRNA(Asp) synthetase	ATGACTTCCGCCGGCCGCTTCGCCCCGAGCCCTTCCGGTGAGCTGCACGTTGGCAACCTTCGCACAGCCATCCTGGCCTGGCTGTTTGCCAGGTCCACGGACCGGAACTTCCTGGTGCGCGTGGAGGACCTGGACCGTGCCCGGGCCGGTGCGGAGGCGGAGCAGCTCCGCGATCTGATGGCTATCGGCGTGACTTGGGACGGCGCCGTCGTACGCCAGACGGACCGAACCGGGCTGTATGCGGCGGCGATCAGCAGGCTGGGTGATGCCGGCCGGACGTATGAATGCTTCTGCACGCGCCGGGAAATCCAGGAGGCGCCGTCAGCTCCGCACGCGCCCCAGGGTGCGTATCCAGGCACCTGCAGGAATCTTGACCCTGCCGAGCTTGAGTTCAAGAGATCCACGCGGCCGGCTGCCATCAGGCTGAGGTCGGACACGGCGGAGTACACCGTGCGGGACATCCTGCACGGGGAGTTCACAGGAGTGGTGGACGACTTTGTGCTGCGCCGAAACGACGGCGTGACGGCGTACAACCTGGCGGTAGTGGTGGATGACGCCGAGCAGGGGATTGACCAGGTGGTCCGTGGGGACGATCTGCTGCCGTCCACCCCCAGGCAGGCGTACTTGGCCTCGCTGCTGGACATACCGGTTCCGGAATATGCGCACGTCCCGCTGGTGGTGAATTCCGACGGCGTCCGCCTGGCGAAGCGCGATGGTGCCGTCACGCTGGCCGACCTCGCGCTCGCAGGAGTTTCGGCGTCCGCAGTGCGGGACGTGCTGTTGGAGTCCCTGGGTCTGCCGGCCGGAACATTGGAGCAGGCGCTGAGGGACTTCCGGCCGGAAGGGCTGCCGCGCGAACCGTGGGTGTGGCGCGGCTACCCGGGCGCTTAG	MTSAGRFAPSPSGELHVGNLRTAILAWLFARSTDRNFLVRVEDLDRARAGAEAEQLRDLMAIGVTWDGAVVRQTDRTGLYAAAISRLGDAGRTYECFCTRREIQEAPSAPHAPQGAYPGTCRNLDPAELEFKRSTRPAAIRLRSDTAEYTVRDILHGEFTGVVDDFVLRRNDGVTAYNLAVVVDDAEQGIDQVVRGDDLLPSTPRQAYLASLLDIPVPEYAHVPLVVNSDGVRLAKRDGAVTLADLALAGVSASAVRDVLLESLGLPAGTLEQALRDFRPEGLPREPWVWRGYPGA	PGPT0008460_6210	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
D1-29_04530	459			hypothetical protein	TTGCAGGAACTGGACGTAACGGACAGGCGGATCCTCAAGGCCCTGGACGATGATCCCCGGGTACCCATCATGGTGCTCGCCCAAAAGCTCGGCCTGGCCCGCGGGACTGTGCAGTCGCGCCTGGAGCGGATGACGGCGTCGGGAGCCCTGCGTCCCAACAGCAGCCGCGTGCTTCCTGCAGCATTGGGCCGAGGTGTGGCCGCGGCTGTCAGCGCCGAGCTGGACCAGAGCCACCTCAACGAAGCCATCGCCGCGCTTCGGGAGATCCCCGAGGTCCTGGAGTGCCATGCCCCGGCCGGCGACACCGACCTGCTGATCCGAGTGGTGGCCACCAGCCCGGATGACCTGTACCGCGTTTCCGAGGAAATCCGGCTCTGCCCGGGAATCGTACGGACGTCCACCAGCATGTTCCTGCGGGAAGTCATCCCCTACCGGACCACCGGACTGCTGAAGGGCTGA	MQELDVTDRRILKALDDDPRVPIMVLAQKLGLARGTVQSRLERMTASGALRPNSSRVLPAALGRGVAAAVSAELDQSHLNEAIAALREIPEVLECHAPAGDTDLLIRVVATSPDDLYRVSEEIRLCPGIVRTSTSMFLREVIPYRTTGLLKG				NA	NA	NA	NA	NA
D1-29_04531	1509			hypothetical protein	ATGGCGGGAACATTCTACGGCGCCGACGTGCCGGCGCTTCGGCAGCTCGCCAAGGAGTTGGCCAGCGGCGCCAGCCGGCTGGACCTGCTGGGCCAGCAACTCAACGGCTCGGTCAGCAACAGCCCCTGGAAAGGCCACGACGGCGACAGGTTCCGCAGCGACTGGAACTCTGGGCACCTCAAAGTACTGAAGTCCGCATCGGCGGGGCTGGAGCTGGCGTCCAGGGCGCTGCTCGCCAACGCCGATGAGCAGGACAAGGCAAGCACCAGCGGCGGGCCCGGCTCAGGCAACGGCAGTGGCGCCGGCGGTTCCGGCAACGGGAGTAACAGTGGGCCCGGGGAGGGCACGGCCCAGGATCTGACGGACACGCTGACCGGTATGACCCCGGAAGAACGTGATGACTACCTCAAGAGCGACGAGTTCAAGCAATGGGCCCTGGCTAATCCTGAAGCAGCCAAAACTGCCATGGATGCCGCCGCAGACTCGGGCCTGATCGATAAGAACTCCAAGGTGTACGGTGACTTTCTGAGCTCGTACTGGAACCAGCAAGCCATGCTGGACATGGGCATCGACCTCTCCGATTGGGACACCTCCAAGGGCACGGAGCACAACTGGGAGACCATCAGGAAGGTCTACGACTTCTATGGCCAGGCCTACCTCTCCAACCCTGACCTGCAATGGGCAGGCATGGCCAACATGATTGGCCCGTCATTCGCGGGTGGGTTCAAGGACATGGCCATGCTTCGGGACCTCGCCCAGCAGATTTCGGACAATCCGGCGTCGGATATCCCGCTCCCGGTCCTGGACCAGATCGAACAGCTCGCGGGGATGACCGACCAGGAAATCCGCTACTACGAAACCAGCATGCTGGATATGAACAAGGAAATCTTCCTGGACCAGGCCCGCCAGCATCAGGCCTACATGACCGGGGGACTGGACGAGATCAACCGGTTGCGTGATTCGGGCGCAATAGACCCAGGCACCGCCCAGGAATGGGCCAAAATTGCTTCCGGGGACCCCGAGCTGGTCCAGGAGGGCAACACGGCGTTGCTCTTCCGGGAACAAAACGAGATTATCGCGGACGACTACGACAACATGCGCAACCACCCTGGCGGGGAAGCGGTGACGTACATGGTGACGCTTGCCGGAGAACCCTCCATCCCCGGCGCGAAGAGCTACCCCGAGGTGTTCCCCTACACGTTCGACGTGGAAAGCCCAGGGCCGGAAAACATACCCTTCACCAACTGGGACAACCCCGCCCAATTCCGAACGGACTTCACCACAGGCTTCCCCGACGGCAACATCTCGGACGCAAACCAGCGGTGGGAACTCATCAGGCAGGACACCCTGCCCGCCTATCAGAACCTCCTGGCCGAAGATCCGGCACGCGCCGGCCAGATAATCGGCTCGGACTTCAACGACCGGGTGGAGCAACACCGCCCCATCAACAACATCCCCGGCATTATGGACCGCTTCCTGGATGGCTTTAGCGCGGAGGTCCACCAGTGA	MAGTFYGADVPALRQLAKELASGASRLDLLGQQLNGSVSNSPWKGHDGDRFRSDWNSGHLKVLKSASAGLELASRALLANADEQDKASTSGGPGSGNGSGAGGSGNGSNSGPGEGTAQDLTDTLTGMTPEERDDYLKSDEFKQWALANPEAAKTAMDAAADSGLIDKNSKVYGDFLSSYWNQQAMLDMGIDLSDWDTSKGTEHNWETIRKVYDFYGQAYLSNPDLQWAGMANMIGPSFAGGFKDMAMLRDLAQQISDNPASDIPLPVLDQIEQLAGMTDQEIRYYETSMLDMNKEIFLDQARQHQAYMTGGLDEINRLRDSGAIDPGTAQEWAKIASGDPELVQEGNTALLFREQNEIIADDYDNMRNHPGGEAVTYMVTLAGEPSIPGAKSYPEVFPYTFDVESPGPENIPFTNWDNPAQFRTDFTTGFPDGNISDANQRWELIRQDTLPAYQNLLAEDPARAGQIIGSDFNDRVEQHRPINNIPGIMDRFLDGFSAEVHQ				NA	NA	NA	NA	NA
D1-29_04532	642			hypothetical protein	GTGACATCTACCCGCCATTTCCGCCGGCTCGCCGCCGCAGCTGTCCTTGCTGCAGTGACAGTATGTGTCGTTCTCACCGGCTGCCAGGTCAGCGGTACCACCACCGAACCAACCTCTCAAGGGAGCACCATGAGCACCTCGGAATTCTCTACCCTGGACGCAGCCGGAGTGGAGCAGATCCGCACGTCCAAGGCTGCACGGCTGGACATGAGCTCAGGGCGGCTGGAAAAGACGGCCGTACGCGTCACCGACGACAGCTACGGTCCCGAGATCAACACCAAGGATTCGGGAAAGATCAATCTCACCATCGTTGGCCCCAGCGGCGAGATCAGCGGTGACACGGACCGGATCCGGTTCAACACCACCACCAAGCGGCAGGACTTCACCGAAGTCACCTACTTCCTGACCGCCGAATCACCGGAGGAGTATTTTGAGCTGATCCGGGACGGTGTGGCCCGATACGGCATCGATTCCGGCTCCGCCGAACGCTGGATCAGCAGTACCCGGGACGATCCAGGTACCAAGAGCGACTTCTCCATCACCTCCGGCACGTCAACGGGGCTGGACGTAAATTATGACCTGCGGTACGACGGCGGCAAGGCCACCCAGGTGATCATCGTCCACGTCCGGCCAGCTACGTAG	MTSTRHFRRLAAAAVLAAVTVCVVLTGCQVSGTTTEPTSQGSTMSTSEFSTLDAAGVEQIRTSKAARLDMSSGRLEKTAVRVTDDSYGPEINTKDSGKINLTIVGPSGEISGDTDRIRFNTTTKRQDFTEVTYFLTAESPEEYFELIRDGVARYGIDSGSAERWISSTRDDPGTKSDFSITSGTSTGLDVNYDLRYDGGKATQVIIVHVRPAT				NA	NA	NA	NA	NA
D1-29_04533	402	decR	COG1522	DNA-binding transcriptional activator DecR	ATGACTGCAACAGCGCTCGCCGCCAGGGTGGGCCTTACCGTGGCGCCGTGCCATCGCCGCCTGCGGGACCTGGAGACGTCAGGGGTGATCCGCGGCTACAAGGCGGACATCGATCCCGCGGCGGTTGGACTGGGGTTCGAGGCCATCGTCTTTGTGACCCTGCGGCAGGTGGACCGGCCCACCATGGAGATCTTCGAGAACCGTGTGGCGGACAATCCCAACATCGTGGAGGCGCAGCGGCTGTTCGGCTCTCCTGACTACCTGCTCAAGGTCATTGCGGAGGACCTGCCCGCCTACCAGCGCTTCTACGATGCCGAACTGACGTCCCTGCCCGGCGTTGAGAGACTCACCTCAACCCTGGTGATGAAAAACCTCAAGTCCAACGCGGGTCCGCCGGTTTAG	MTATALAARVGLTVAPCHRRLRDLETSGVIRGYKADIDPAAVGLGFEAIVFVTLRQVDRPTMEIFENRVADNPNIVEAQRLFGSPDYLLKVIAEDLPAYQRFYDAELTSLPGVERLTSTLVMKNLKSNAGPPV	PGPT0014049_269	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014049-doeX-K15782	NA	NA
D1-29_04534	639	rhtB_3	COG1280	Homoserine/homoserine lactone efflux protein	TTGAATGCCCAGCTGTTTTTCGCCTTTGTCCTGGTGGCCGCTGCCCTCGCCTGCACTCCCGGAGTGGATTGGGCCTACTCCATCACTGCCGGCCTGCGGCAGCGCAGCTTTGTTCCCGCGGTGGCCGGGCTGTGCGGTGGTTACGTCCTGCACACCGTGCTGATGGTGGCTGGCCTCGCCGCGCTGCTGACGGGCATGCCCGGCGTCCTCGGCTGGATCACCCTGGCCGGCGCCGTCTATCTTTTGTGGCTCGGGGTCAGCACCCTGCGCTCCTGGCGCGAAGCCTCGTTCAGCGCAGCATCCGATGCCGGGACAGCCGCCAACCAGGTCCGCACCTTTTTCCAGGGGATGGGCACCAGCGGCATCAACCCCAAGGGCCTGCTGTTCTACGTGGCTTTGGTGCCGCAATTTGTGAGCGCCGAGGCGCCCCTCCCGGTGCCGGTGCAGTCAGGGCTGCTGGGCCTGACGTTTGTGCTGCTCGCCGCGGTGGTCTACACCTGTGTAGCGCTCCTGGCCCGCAAGCTCCTCCAGTCCCGTCCCGGGGCTGCGCGAAAGGTCACCCTGGCAAGCGGCATCATCATGGTGGGACTGGGCCTGGTGCTCCTGTCCGAGCAGGCGGTCCCGCTGTTCCTGTCCTGA	MNAQLFFAFVLVAAALACTPGVDWAYSITAGLRQRSFVPAVAGLCGGYVLHTVLMVAGLAALLTGMPGVLGWITLAGAVYLLWLGVSTLRSWREASFSAASDAGTAANQVRTFFQGMGTSGINPKGLLFYVALVPQFVSAEAPLPVPVQSGLLGLTFVLLAAVVYTCVALLARKLLQSRPGAARKVTLASGIIMVGLGLVLLSEQAVPLFLS				NA	NA	NA	NA	NA
D1-29_04535	882			hypothetical protein	GTGCGGGAGCTGGCTGACGGCGTCGGCGGGCTGATCCACGGAGTGCTGGGCGGCCGCGACCCGGCGTTGATTTCGGTGGACGGGGACGTCCCCAGACTCAAGAGGATGCCCAGCAAGGCGGCCAAGGCCGTCCATGCAGCCATCTTCGCCAACAAGGAACCGGAACGGCTGATCACGGTGGCCCGGACCTATCCCGGATGGGCGGGCCTCTGCTACATGATGGCCGGATTGCTGGAGTACAAGCATGGCGGCTACCTGCGTGCGTCCGAGCTCCTCCAGCGCGGCTTGTCCACCAGGAACGACGACGACGCCAACCAGTATGCTGCGGCCTACCTGATGCGCGTGGTCACCCCGGTGGAAGTGGCCGAACGCATCGAAGTCCCCGTGCTCTTCAGTGAGGAGTCGGTGTTCCTGGCGCTCTCGCACTCCCTGCGCGAAACCGGCCAGCTGGAAGCCGCGCTGCAGACTGTGGCCAGGCTGCCGCCGTCGTTGCCCTCAGCGTTGGCCCGCTGTTCACTGGCCTTCGCGCTGGGATGGGACAAGGAGGTAGTGGTCTGGACAGAAGGCCTGCTCAACTCCGATGATCTTTCCGCGGCGTTGCTGTTGCTCAGGGCGCGCTCGCTGCGGCGGCTTGGCGCCCGCGCGAAGGCCCAGGAAACCCTCAAGGAGGTCCTCCGCCGCCGGAAAACGGACCTGGCTTTGCGCAATGACGCCCTGACCGACCGCGCCCTGCTCCTGCTGGACAACGGGAGGAAGTCCCTCAACCCGCGGGACTGGCTTCGCGGCAGGCCCGCGGAGCTCGAAACCTTCGAGGTCATCCGAAAAGACGTCGAGGAGCGCAGGCTCTGGGAACAGGACTGGAAGCAGTCCGGCGGAGAGTGA	MRELADGVGGLIHGVLGGRDPALISVDGDVPRLKRMPSKAAKAVHAAIFANKEPERLITVARTYPGWAGLCYMMAGLLEYKHGGYLRASELLQRGLSTRNDDDANQYAAAYLMRVVTPVEVAERIEVPVLFSEESVFLALSHSLRETGQLEAALQTVARLPPSLPSALARCSLAFALGWDKEVVVWTEGLLNSDDLSAALLLLRARSLRRLGARAKAQETLKEVLRRRKTDLALRNDALTDRALLLLDNGRKSLNPRDWLRGRPAELETFEVIRKDVEERRLWEQDWKQSGGE				NA	NA	NA	NA	NA
D1-29_04536	501			hypothetical protein	ATGAACTCCGAAACGGTGGTGACCGTCCTCTGTGGCCTGGCGATCCTGGTGGGCGTGGCCGGCACCGTTATCCCGATCCTTCCCGGCAGCATCCTGATCGCGGCGAGCCTGTTGGCGTGGGCCATCTGGGGCGGGGCCGGAACAGCCGGCTGGGTGGTTTTGGGCGTGGGGCTGCCGCTTGTTCTCGCCGGAATGGTGGCAAGCACGGTGCTGACCGGCCGCAAACTCAGGGAGCACCGCATTCCCAACCGAAGCGTGCTGATCGGACTGGCCGCCGGCGTGGTGGGCATGTTCATCATCCCGCTGGTTGGACTCTTTGTGGGGTTCGCCGCCGGGCTCCTGCTCAGCGAGTTCCACCGCACCCGGAGCATCGGTACGGCCACGTCCACCAGCTGGGCCGCGCTGAAGGCAACCGGACTGGGCATACTCGTGGAATTTGGCCTGGCGAGCCTGGCGGCAAGCACGTGGGTCATCGGCCTGTGGGTCTCGCTGGCGACGTAG	MNSETVVTVLCGLAILVGVAGTVIPILPGSILIAASLLAWAIWGGAGTAGWVVLGVGLPLVLAGMVASTVLTGRKLREHRIPNRSVLIGLAAGVVGMFIIPLVGLFVGFAAGLLLSEFHRTRSIGTATSTSWAALKATGLGILVEFGLASLAASTWVIGLWVSLAT				NA	NA	NA	NA	NA
D1-29_04537	1200			NAD-dependent malic enzyme	GTGTCCATTGACGCAATTGCACCCATCGATAACTCCGCAGCAACGGCCCTGACCGAAGCCGAGATCTTCGACGCCCACCAGGGCGGCAAGCTCTCGATCTCCAGCACCGTCCCGCTGTCGAACAAGCGCGACCTGTCCATCGCCTACACCCCTGGTGTGGCCGAGGTCAGCCGTGCCATCCACAACAAGCCCGAGCTTGCGCGCACACTCACCTGGGCACAGCGCCTGGTGGTGGTGGTCAGCGACGGAACTGCCGTGCTGGGCCTGGGCGACATCGGACCCAGCGCTTCCCTTCCCGTGATGGAGGGAAAGTCGGCCCTGTTCAAGACCTTCGGCGACCTTGATTCCATCCCCCTGGTCCTTAGCACCACCGACGTGGACGAGATCGTGGAGACCCTTGTCCGGCTGCGCCCCAGCTTCGGCGCCGTAAACCTCGAGGACATTTCCGCGCCGCGCTGCTTCGAGCTGGAAGAAAAGCTCATCGAGGCGCTGGACTGCCCGGTAATGCATGATGACCAGCACGGCACCGCCGTTGTAGCGCTGGCAGCCCTGACCAATGCAGCAAAGGTCACCGGCCGCGAACTGGCCGGCCTCCGCGTGGTGGTTTCCGGCGCCGGGGCAGCGGGCATCGCGGTGGCAGAAATCCTGCTCACGGCCGGCATCCAGGATGTGGTGCTGCTGGATTCGCGCGGCGTCATCAACAGCGAACGTGCCGACATTGCCGCCGGCCCGGAGAGCAAAAAGGCCCAGATGGCACAGCGCAGCAACCCGCGCGGCGTCAGCGGCGGCCCGGGCGAGGCCCTCCTGGGCGCCGACGTCTTCATCGGCGTTTCCTCCTCGAAGCTGGATGAAGAACACCTCAAGCTCATGAACAGCCAATCCATTGTGTTCGCCCTCTCCAACCCGGACCCCGAAGTCCTCCCGGAGGTTGCCTCCAAGTACGCCGCAGTAGTGGCCACCGGCCGCAGTGACTTCCCGAACCAGATCAACAACGTTCTTGCGTTCCCCGGGATTTTCCGCGGCGCCTTGGACGCCGGAGCACGCCGCATCACGCCGGCCATGAAGCTTGCGGCAGCCCGAGCCATTGCAGAACTGGCGGAGGCTGACCTCTCGGCAGAGTACATCGTGCCCAGCCCGCTGGACCCGCGCGTCGCTCCGGCAGTCACTGCCGCTGTGGCCGCAGCGGTGGACGCCGAGTAG	MSIDAIAPIDNSAATALTEAEIFDAHQGGKLSISSTVPLSNKRDLSIAYTPGVAEVSRAIHNKPELARTLTWAQRLVVVVSDGTAVLGLGDIGPSASLPVMEGKSALFKTFGDLDSIPLVLSTTDVDEIVETLVRLRPSFGAVNLEDISAPRCFELEEKLIEALDCPVMHDDQHGTAVVALAALTNAAKVTGRELAGLRVVVSGAGAAGIAVAEILLTAGIQDVVLLDSRGVINSERADIAAGPESKKAQMAQRSNPRGVSGGPGEALLGADVFIGVSSSKLDEEHLKLMNSQSIVFALSNPDPEVLPEVASKYAAVVATGRSDFPNQINNVLAFPGIFRGALDAGARRITPAMKLAAARAIAELAEADLSAEYIVPSPLDPRVAPAVTAAVAAAVDAE	PGPT0001350_2753	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
D1-29_04538	609			hypothetical protein	ATGCCCGAGACCCTTTCAGACCATCCGCCCATGGCCGCGAGGCCCTCTGCTCCACGCCAGCAGTTGCGCTACGCCCGAATCCTGGAGGCCGCTGCAGGGTGGGCGCGCAAGGGCCTGGCTTCGGTGGATATGGCCGAAGTTGCGGCCAAAGCCGATGTGCCGCTCGGCACCCTGTACCGCTACTTTCCCACTCCGACACACCTGATGCTTGCGCTGTATCGCCACCAGTTGGAGGAGTTACAGGGCGCCGCACGGAACGCGAGCCCGCGCTTCCGCAGCCGTGCCCTCGCTGGGGTTGTCATGGAGATCTTCCACATGAGGGTGATGCAGCCCGCCGTCGAGCAGTGCCTCACCAGGGGTGCTTACATCACGGGCCGGGATACCACCGCGCTGCTGCGTGAAATCGACGTCCTGGGTGAGAAGGCGCTGGGACCGGTATGCGACGATCCTGCCGTGGCAAGGGTCCTGCTGCTGACCGTCACTGGTCTGGTCCAGTCGGTCAGAAACAGGCGTCTCTCGCTCTTTGAGGCCGAAGAGGACCTGAAGAAGGCTTGCAGCCTCTTCGATCAGGCCTCCTCCGAGGGCTATTCACTGCACCATTCCGCTTAG	MPETLSDHPPMAARPSAPRQQLRYARILEAAAGWARKGLASVDMAEVAAKADVPLGTLYRYFPTPTHLMLALYRHQLEELQGAARNASPRFRSRALAGVVMEIFHMRVMQPAVEQCLTRGAYITGRDTTALLREIDVLGEKALGPVCDDPAVARVLLLTVTGLVQSVRNRRLSLFEAEEDLKKACSLFDQASSEGYSLHHSA				NA	NA	NA	NA	NA
D1-29_04539	1140			hypothetical protein	ATGAGCATCATCAAGAGTGCCAAGTGGGCGGCGCGCCTGGGGGCCGGCGCGGCCGTGGCAATAGCGGCTGCTTTCGCCATTTCCGGGGCGGCCAACGCCAACAATAACCCGGAAAATCCCGTGATCAATGGGCAGCCCTTCGTCGGGTCAACCCTGACCGTCGAGATCGACCCGACGTCATACCGGGGCTGTGGAGCCGCGGCCGGTCCGGACTACCGCATCTATTGGACCCGCGACGGCGAGATCATGCCAAGTCACGGCACGTGGTGGTTTTACCGTCTGAGCGAAGAGGACCGTGGCAGCCAGATCGAGGCACACGTGGCCAGCAACTACCCCTGCCAGCCCATGGCTGTCCACAGCGGGCCAACGCCGCCCATAGCAGCCTCCAACCGCGTCAACGGATACACGGGCCGCGGCGCATCTGAACTCCTGGCCCGCACGTCCAGCGGCACACTGAACTTGTACTCGAAGGTGAACGGCGCCTGGGAAGCCCCCAGGACTGTCGGATGGGGCTGGAACATATTCAACCACCTTCTCTCCCCTGGCGACTTTGATGCCGACGGCAACAATGACGTACTGGCCCGCGACAGTTCCGGCCGGCTTTTCCTGTACGGCGGAACCGGCGACGGCGGGATGTTTCCGGGGCGGCAGATCGGCAGCGGCTGGAACATCTTCGAATCAATATTCAGCCCGGGGGATTTCAACGGCGACGGCACCAATGATGTCCTTGCCGCCAGCTTTGACGGAACACTCTATTTATATCCGGGAAACGGAGCCGGCGGGTGGCTGGCGCCATCCGTGGTGGGCAGTGGCTGGGGCGTGATGGACGCCATTCTCACACCAGGCGATTTCGACGGCAACGGCACAGTGGACTTGGCTGCCCGCGACCGAAGCGGGGCACTGCATCTGTACAACACCGACGGGACCGGCGGCTGGGGCGAGGTCAGCACCATCGGCCAAGGGTGGGATGTCATGACCATTATTGGCGGCGCCGGAGACTTCAACGGTGATGCAACCAACGACGTTTTCGCCATCGGCTCAGACGGACGCCTATTGGCCTACTACGGCAACGGCGCAGGAGGCTGGACTGGAGATGAAGCCATAGGACAGGGGTGGCAGATCTTTACTGCCGTCTTCTAG	MSIIKSAKWAARLGAGAAVAIAAAFAISGAANANNNPENPVINGQPFVGSTLTVEIDPTSYRGCGAAAGPDYRIYWTRDGEIMPSHGTWWFYRLSEEDRGSQIEAHVASNYPCQPMAVHSGPTPPIAASNRVNGYTGRGASELLARTSSGTLNLYSKVNGAWEAPRTVGWGWNIFNHLLSPGDFDADGNNDVLARDSSGRLFLYGGTGDGGMFPGRQIGSGWNIFESIFSPGDFNGDGTNDVLAASFDGTLYLYPGNGAGGWLAPSVVGSGWGVMDAILTPGDFDGNGTVDLAARDRSGALHLYNTDGTGGWGEVSTIGQGWDVMTIIGGAGDFNGDATNDVFAIGSDGRLLAYYGNGAGGWTGDEAIGQGWQIFTAVF				NA	NA	NA	NA	NA
D1-29_04540	2220			hypothetical protein	ATGGCGTATTCCAGTTCATCTTTTGAAGGACGTTCAACGCGCAACGGCCGCGCACGACTCCGCGAAGGGCCGTCACGTGGCACTGCACGAGGCACGACGGCGGCCCTGCTCTGCGCACTTTTGATCGCCTTCGCCCTGGTCCCGGTGGCGCCGGCTGAAGCAATGGGCCCCGTGCTAACACACTTTGAGCGCACCTCCCCGGACACTATCGACGCCGGGGACACCGTGATCATGCACTTCAGCACTGACATCCCGGTGGCCTTCGGGAGATTGAGGCTGTCCAACGCCAACGGACAGTACCCTCCCCGGGACTTCAGTTGGGGAGACCAAGACGGGCCCGAACTGACTCAGCACGTCATTAGTCTGCCCACCGATGCCGGCTCGTGGCTCGGCGGTCTCTATCTTGTGGAGTCCATATCGTTCTGGGACACCCATACCCATTCTGGTGGGACGACATACCGTAGCCATCCGGGAGGCCAGTGGTTGCGCGCCGCGGATTTCACTGTGGTCAATACCGAACTCACCGCAGCCCGCCCTGACCTGGTTGGGGTGGAGGTAACCTCGGGCGGTGTCCTTGTCCCGGGGGAGGAGGCGGTTATTGCTTTCAGCCTCTCGGCACCTGCTCAAAAGGTCAAACTCCATTTCAACGACGAGTCCCTGCTGAACGCAAAGGTCTTCGAATGGACAGGGAGCCCGGCCCCCCGCCCATTCACAGGCGAGGTGCGCATCCCCATCGATTCCAGCTTCCTCGAAGGTGAATATCAGCTGAAGTCAGTTGCAGTGTCCTACCTTGGCGGCCAGGCCGCATATAGTTTCGGCCGGGGGTTTTGGCCAAACTGGGATGGCGACTTTTTCGTAGTGAACCCCGATAAACCGCTACAAACGTTCGAGAACCTAACTCCGCCTGAGCTCTCAATTGGAAACTACCCGGACAACGTTGAATACGTCCTGAGCATGGGTGACGTTAGACCCAGTCCAACGGGAGGGACCTGGTCGAAGGCACCAACTCAGGTGTGGGGCAGGTGGCTACGGGATGGCAAGCCCCACTGCGGCGCGATGTGGTGCGATTCGAGGTTCTATGCGACCTCAGCCAGTGATATGGGATCGGTGCTCGAATACGAACAGACTGCAATGCTGGCAGGTCACAGGGCGTTAACGGTCCTTTCCAATCCCATCTATTTCTCCCGCTCGGGGCCAACAACTGTCACCGGGGGCAGCCGGGTAGGGAGTGAACTCAGGGCCAGCTTCGATCTATCGACTGTCACGGCATTGCCCGAAGGGGCCGCCCCGACAGTCGGGTTCGAATGGAAGGATTCCGCGGACCCGGCGATTATCCTTGCCACGGGAGACACCTACCGGCCCACCCAAGCGGATGTTGGACGCACTGTTCGTGCGGTGGCCGTGGTCGACTTCGATGGCCAGACGGTCGCCCGGTCGGTCAGTAACGACGTTGGACCGATTGGGAAGGCATCACGACTCAGCGACTTCAACGGTGACGGGTTCAACGACCTCTTTGCGGTGGACCAGACCGGCGTCCTTCGTCTGTACGGGGCCCGCCCGTCCGGCTGGGAGTCTCCGCTCGCCGTCGGCCGGGGCTGGGGTGTTTTCAATCTCGTCCTCTCGCCGGGCGATTTCAACGGCGATGGCAACGTGGACGTCATGGCACGGGATTCCAGTGGCAACCTGTTGCTCTATCAGGGGGATGGCCGCGGGGGCTGGCTTCACGCGTCAGTCGTGGGAACCGGCTGGTCCGGAATGACGGACATCATGGGCCCTGGAGATTTCAACGGCGACGGGACAAGCGATGTCCTGGCCAAAGACAGGAATGGCCGGTTGCTGCTTTATCCGGGTAACGGGCATGGCGGCTGGCTCGCCCCCTTCCAGGTGGGTCAGGGGTGGAACATCTTCGATAAGATCTTCGCCCCCGGCGATTTCGACGGCGACGGCGGACCTGACGTCCTGGCCCGCAACAGCAACGGCGAACTGTTCCTCTACCAAAGTGACGGGCTCGGGGGCATCTTCGGCGTCCACACCATTGGAACCGGCTGGGACGTGATGGCCAATGTGGGGAGCATCGGCGACACCAGCGGGGACGGTTGGAACGATCTCTACGCCATTGACCGTGGAGGAGTCCTGATGGTCTATCACCACAACGCCACCGGCTGGACCGGTCCTCATCCCAGCGGCCCGGACTGGAACACACTGAAATTTGTTTTCTAG	MAYSSSSFEGRSTRNGRARLREGPSRGTARGTTAALLCALLIAFALVPVAPAEAMGPVLTHFERTSPDTIDAGDTVIMHFSTDIPVAFGRLRLSNANGQYPPRDFSWGDQDGPELTQHVISLPTDAGSWLGGLYLVESISFWDTHTHSGGTTYRSHPGGQWLRAADFTVVNTELTAARPDLVGVEVTSGGVLVPGEEAVIAFSLSAPAQKVKLHFNDESLLNAKVFEWTGSPAPRPFTGEVRIPIDSSFLEGEYQLKSVAVSYLGGQAAYSFGRGFWPNWDGDFFVVNPDKPLQTFENLTPPELSIGNYPDNVEYVLSMGDVRPSPTGGTWSKAPTQVWGRWLRDGKPHCGAMWCDSRFYATSASDMGSVLEYEQTAMLAGHRALTVLSNPIYFSRSGPTTVTGGSRVGSELRASFDLSTVTALPEGAAPTVGFEWKDSADPAIILATGDTYRPTQADVGRTVRAVAVVDFDGQTVARSVSNDVGPIGKASRLSDFNGDGFNDLFAVDQTGVLRLYGARPSGWESPLAVGRGWGVFNLVLSPGDFNGDGNVDVMARDSSGNLLLYQGDGRGGWLHASVVGTGWSGMTDIMGPGDFNGDGTSDVLAKDRNGRLLLYPGNGHGGWLAPFQVGQGWNIFDKIFAPGDFDGDGGPDVLARNSNGELFLYQSDGLGGIFGVHTIGTGWDVMANVGSIGDTSGDGWNDLYAIDRGGVLMVYHHNATGWTGPHPSGPDWNTLKFVF				NA	NA	NA	NA	NA
D1-29_04541	1287			hypothetical protein	ATGAGCCTGTCCAACACACCCGCACCGCCGGATCCCGGCGCCGCAGCGGACGGCATGACGGCGGCACTCGCCGAACCCACCCGGAAGGTCACCGCGCGCTGGGTCACCGGCCTGGTGCTGGTCAACGTTGGTATTAATGCGGCGTTCTTTGGACCCATCAACGTCTTTATCGGCCTGCAGGCCATCGGCATTGACGAGGACAACAAGGAAGCCATCCTGTCCCTTGTGACAGCGTGCGGCGCCGCCGTGTCACTAGTGGCCAATCCGTTGTTTGGCGCCCTCTCTGACCGCACCACCTCCCGCTTCGGCCGCCGCTCGCCTTGGGTGCTGGCCGGTGCCATCCTGGGGACGGCCGCGCTCCTGGCCCTGTCAGGCGCAACGACTGTCGCTCTGATGGTGCTCTTCTGGTGCCTGGTGCAGCTGGGAGCCAACGCGGCCTACGCCGCCATTACAGCTGCCGTCCCGGACCGTGTTCCGGTGCTTCAGCGCGGCGGTGTGGGCGGTTTGGCTGCCATGGGCCAGACGGTGGGAATCCTGATCGGGGCGGTGTTCGGCGCCGTCGTCAGTGGCAACTACATGGTGGGATACGCCTTATGTGCTGCGGCGCTCATACTCTCTGTGCTGCCGTATCTGTTCCACCGGAACGATCCGCAACTGCCTAAAGGTGAGAAGGTTCCGTTCCGGCTGGGGGAGTTTGTCCGAAGCTTCTGGATCAGCCCTGCCCGCCACCCGGACTTCGCCTGGGCCTGGCTGACCCGCTTCCTGGTCAACGTCTGCAACCAGATGACCATCGTGTACCTGCTGTTCTTCCTCCGGGACGTCCTTAAGCATGAGGACCCGGCGCTGGGGGTCCTGACCCTGACTGGCATCTATGCGGTGATGGTGATGATCACCGCTGTGGTGGCGGGCCCGTGGAGCGACCGGCTGGGCCTGCGGAAGCCGTTTGTGATCGGGTCCTCCGGAATCATTGCCGCGGCGGGACTGACCATGGCCTTCTTCCCGGTCTGGACCGGCGCCCTCATTGGAGCCGGCATCCTGGGCGTGGGGTTTGGCGCTTACCTTGCCGTTGACTTCGCGCTGCTCACGCAGGTACTGCCTCAGGCGGCGGACCGAGGCAAGGACATGGGTGTCATCAACGTGGCCAACTCGCTGCCGCAGGTGTTCGCGCCAGGCCTCGCATTCCTTGCGGTGACGTACTTTGGCGGGTATCTGACACTGTTCATCACGGCCGCCTGCATCGGGCTCCTGGGCGCGGTCTTTGTGGTGAAGATCAAGGGCGTTGACTGA	MSLSNTPAPPDPGAAADGMTAALAEPTRKVTARWVTGLVLVNVGINAAFFGPINVFIGLQAIGIDEDNKEAILSLVTACGAAVSLVANPLFGALSDRTTSRFGRRSPWVLAGAILGTAALLALSGATTVALMVLFWCLVQLGANAAYAAITAAVPDRVPVLQRGGVGGLAAMGQTVGILIGAVFGAVVSGNYMVGYALCAAALILSVLPYLFHRNDPQLPKGEKVPFRLGEFVRSFWISPARHPDFAWAWLTRFLVNVCNQMTIVYLLFFLRDVLKHEDPALGVLTLTGIYAVMVMITAVVAGPWSDRLGLRKPFVIGSSGIIAAAGLTMAFFPVWTGALIGAGILGVGFGAYLAVDFALLTQVLPQAADRGKDMGVINVANSLPQVFAPGLAFLAVTYFGGYLTLFITAACIGLLGAVFVVKIKGVD				NA	NA	NA	NA	NA
D1-29_04542	498	rraA	COG0684	Putative 4-hydroxy-4-methyl-2-oxoglutarate aldolase	ATGACAACAGCCGCAGGAAACCAGTCCGCCCAGGCCGTCAACACCGCAGACCTCTACGATGAGCGCGGCGAAGACCTGGCCTCGGTGTCCCTGCAGTTCCAGTCCCTCGGTGGCCGCTCACACTTCAGCGGGCCGGTCAGGACCATCCGCTGCTTCCAGGACAACGCCCTGGTGAAGTCGACGCTGGCGACTCCCGGCGATGGTGCGGTGCTGGTGGTGGACGGCGGCGGATCGCTGGGCACGGCCCTGATGGGCGACATGATTGCCGAAAGCGCCGTCGCGAACGGGTGGGCCGGCGTGGTGATCAATGGCGCCATCCGGGACCGCGAGGCCATCGCCCGGCTGGACCTCGGGGTAAAGGCCCTGGGCAGCAACCCGCGAAAGAGTGCCAAGGCTGGCGCCGGGGAAGTTGACGTGGACGTGGAGATCGACGGCGTGACCTTCCGCCCCGGCATCACCGTCTGGTGCGACCCCGACGGCATCCTCGTGGAGCGCTGA	MTTAAGNQSAQAVNTADLYDERGEDLASVSLQFQSLGGRSHFSGPVRTIRCFQDNALVKSTLATPGDGAVLVVDGGGSLGTALMGDMIAESAVANGWAGVVINGAIRDREAIARLDLGVKALGSNPRKSAKAGAGEVDVDVEIDGVTFRPGITVWCDPDGILVER				NA	NA	NA	NA	NA
D1-29_04543	1662	bmr3_3		Multidrug resistance protein 3	ATGTCCAAATCCACCGCAGTGCGGGCCGCCGGAGAAACCCTGACGCACCGGCAAACAGTCACAGTGATGGTGGGACTCATGCTTGGCATGTTCCTCTCATCGCTGGACCAGACCATCGTGTCCACGTCCATCTACACCATCGCCAACGACCTGGACGGGCTCTCCCTCCAGGCGTGGGCCACCACCGCCTACCTCATCACCTCCACCGTCAGCACTCCGCTGTACGGCAAGCTGAGCGACATCTTCGGCCGCCGCCCCCTCTACCTTGCCGCCATCGTGATCTTCCTGGCAGGCTCGCTGTACGCCGGGTCCGTGCACTCCATGACGGAGCTGGCCATCGCCCGCGGCATCCAGGGCATGGGCGCCGGCGGCCTGCTGGCCCTCGCCCTGACCATCATCGGCGACATCGTCTCCCTCAAGGATCGCGCCAAATACCAGGGCTACTTCATGTCCGTGTTTGGCATTTCCTCAGTCCTGGGCCCAGTGGTCGGTGGCGCCTTCGCCGGCTCCGCCAACATCCTGGGATTCGACGGGTGGCGCTGGGTATTCTTCATCAACCTGCCCATCGGCCTGGCAGCGCTGGCCGTGGTGTTCCTCTACCTTCACCTGCCGGCCAAGCACGTCAAGCAAAAAATCGACTACTGGGGTGCAGCAGCCATCACCCTTGCCATCGTGCCGCTCCTGCTCGTCGCGGAGCAGGGGCGCAGCTGGGGCTGGACGTCCCCAAGTTCGTTCCTCTGCTACGGCCTGGGCGTGGTGGGAATCGTCTGGTTCCTGCTGGCTGAGAAGCGCGCCGGAGACTACGCACTGATTCCGCTCCGGCTCTTCAAGAACATGACCTTCGGCCTGTCCTCGCTCCTGAACTTCATCATCGGCGTCGGCATGTTCGGGGCCATCGCCATGCTTCCGATGTACCTGCAGCTGGTCAAGGGGCTCACCCCCACTGAGGCCGGCCTGATGATGATCACCTTCACCGCGGGCATCCTCACCGGCTCCATCACGGCCGGCCGCACCATTTCCGCCTCCGGCACCTACCGGATCTTCCCCATCATGGGTACGGCCATCCTGACCGCCGCCGCTCTGGCCATGGGCCTGACCCTCGGCGTGGATACCGGGCTCTGGGTGCCAGGACTCATTGCCGTCTTCTTCGGCATGGGACTGGGCTTCTGCATGCAGCCGCTCACCCTGGCCATGCAGGTCTCCGTCCCGGCGAAGGACATGGGCGTGGGAACCTCCTCCGCCGCGTTCTTCCGCTCGATGGGCGGTGCGGTGGGCACTGCGGTGTTCATCTCCATGCTCTTCAGCCTGGCCGCGGGCCGCATAGCTGACACCATGAAATCGGCCATGGGCAGTGCCGACTACCAGGCCGTGCTCAATGACCCGGCCGTGGCCGCCGACCCCGCCAACGCCAAGCTCTATGAGTTCTTCCAGCACGGCGCATCCAACGAGTCCCTCAACGACACCAGCTGGCTGCACACCGCCAACACCGTGCTCACCCGGCCCATCACCGAAGGATTCGCCTACGCGATCGACACCGTGATGATCACAGCGGCAGTACTCACGGGGATCGCCTTCCTCATCAGCTTCGCCTTGCCGAACAAGAAGCTGACGGACCCGAAAGCCGCGCCGCAGAAGGAGCCGGAGGCAGTGCCCGCGCACTGA	MSKSTAVRAAGETLTHRQTVTVMVGLMLGMFLSSLDQTIVSTSIYTIANDLDGLSLQAWATTAYLITSTVSTPLYGKLSDIFGRRPLYLAAIVIFLAGSLYAGSVHSMTELAIARGIQGMGAGGLLALALTIIGDIVSLKDRAKYQGYFMSVFGISSVLGPVVGGAFAGSANILGFDGWRWVFFINLPIGLAALAVVFLYLHLPAKHVKQKIDYWGAAAITLAIVPLLLVAEQGRSWGWTSPSSFLCYGLGVVGIVWFLLAEKRAGDYALIPLRLFKNMTFGLSSLLNFIIGVGMFGAIAMLPMYLQLVKGLTPTEAGLMMITFTAGILTGSITAGRTISASGTYRIFPIMGTAILTAAALAMGLTLGVDTGLWVPGLIAVFFGMGLGFCMQPLTLAMQVSVPAKDMGVGTSSAAFFRSMGGAVGTAVFISMLFSLAAGRIADTMKSAMGSADYQAVLNDPAVAADPANAKLYEFFQHGASNESLNDTSWLHTANTVLTRPITEGFAYAIDTVMITAAVLTGIAFLISFALPNKKLTDPKAAPQKEPEAVPAH	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
D1-29_04544	1440	xylE		D-xylose-proton symporter	ATGTCCACCGCCAAGGAGCAGATAACCGCCAAGATCCCGCAGCGGGTGATCTGGCTGGCCCTGGCGGGCGCGGTGGGCGGCTTCCTCTTCGGCTTCGACTCGTCGGTAGTCAACGGCGCTGTTGACGCCATCAAGGACGAGTTTGCGCTCTCCGAGGCCGTCACCGGCTTCGCCGTGGCCATTGCCCTGCTGGGCTGCGCGGCGGGCGCCTACCTGGCCGGCAAGGTTGCCGACCGTTACGGCCGCATTCCCGCCATGAAGCTTGGCGCGCTGCTGTTCCTGGTCAGCGCCATCGGGACAGGATTCGCGTTCGGCGTCTGGGACCTGATCTTCTGGCGCCTGGTGGGAGGACTCGGCATCGGGCTGGCCTCAGTCATCGCCCCCGCCTACATCTCGGAGATCTCCCCCCGGCAGGTGCGCGGCCGGCTGGCCTCGCTGCAGCAGCTGGCCATCACCACGGGTATCTTCGCCGCACTCCTCTCCGATGCCCTCTTCGCCACCAGCGCTGGTGGAGCGGACCAGGGGTTCTGGCTGGGCATTGAAGCCTGGCGCTGGATGTTCCTGGCCGCGGCTGTGCCTGCCGTGGTTTACGGCTGGATCGCCTACACCCTCCCCGAGTCCCCGCGTTTCCTGGTCTTCCAGGGCAAAGACGAGGAAGCCCGCAAGGTCTTCGACTCCATCGCCCCGGCCGAAGACACAGACAGGCACATCCGCGAAATCCAGGATGCCATCGAAGAGGACAAGCTGGCGGGCCAGAAGGGATCGCTCCGCGGCAGGACCTTCGGTCTTCAGGCTGTGGTGTGGGTGGGCATTACCCTCTCCGTGCTGCAGCAGTTCGTGGGCATCAACGTGATCTTCTACTACTCCACCACGCTGTGGAAGGCCGTGGGCTTCCAGGAGAAGGACTCGCTGACCATCTCCGTGGCCACCTCCATCACCAATATCCTGGTCACCCTGGTGGCTATCGCGCTGGTGGACCGCATCGGCCGCCGCCCCATCCTGCTGGCCGGCTCGATCGGCATGGCTGCCTCCCTCGGCACCATGGCCCTGGCGTTCTCCTCCGCGGTGGGCTCCGGCCCGGACATCTCCCTGCCGGGCGCCTGGGGTCCTGTGGCCCTGGTGGCTGCCAACATCTTTGTGGTCAGCTTCGGCGCTTCCTGGGGGCCCCTGGTGTGGGTACTCCTGGGCGAGATCTTCCCGTCCCGGATCCGCGCCCGCGCGCTCGGCCTGGCTGCGGCGGCGCAGTGGGTGGCCAACTTCGCCATCACGCTCAGCTTCCCCGTGATGGCGGCCGCCTCCCTGCCGCTGACCTACGCCATGTATGCACTGTTCGCAGCGGCGTCATTCTTCTTTGTGATGTTCAAGGTACCGGAAACCAATGGCATGTCCCTGGAACAGGCCGAGACCCTGTTTGTGCCCAAGGGATCCGCGAAGGCGTAA	MSTAKEQITAKIPQRVIWLALAGAVGGFLFGFDSSVVNGAVDAIKDEFALSEAVTGFAVAIALLGCAAGAYLAGKVADRYGRIPAMKLGALLFLVSAIGTGFAFGVWDLIFWRLVGGLGIGLASVIAPAYISEISPRQVRGRLASLQQLAITTGIFAALLSDALFATSAGGADQGFWLGIEAWRWMFLAAAVPAVVYGWIAYTLPESPRFLVFQGKDEEARKVFDSIAPAEDTDRHIREIQDAIEEDKLAGQKGSLRGRTFGLQAVVWVGITLSVLQQFVGINVIFYYSTTLWKAVGFQEKDSLTISVATSITNILVTLVAIALVDRIGRRPILLAGSIGMAASLGTMALAFSSAVGSGPDISLPGAWGPVALVAANIFVVSFGASWGPLVWVLLGEIFPSRIRARALGLAAAAQWVANFAITLSFPVMAAASLPLTYAMYALFAAASFFFVMFKVPETNGMSLEQAETLFVPKGSAKA	PGPT0014440_898	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
D1-29_04545	552			hypothetical protein	ATGGGGATCCGGATATGCAATGCTGGGCTGGTGACCCCAAACCCAGGTGCCCTCTCCGCCCTGCTGACTGCCGACGTCGACGGCGGTAGGTTCCTCCTTCGCCGCGCCCTGCGGACGGATGTGGCGGCCATCGTTGGGCTGCTCGCCGATGATTCGTTGGGGGCCGCTCGCGAAAGCGCGGAGGATCTGGCGCCCTACGAGGAGGCCTTCGGGGCGATCGACGCGGACCCCAACCACTTGCTGGTGGTGGGCGAACTCGTGCCTCCCGGCGAGGCGTCAGGGCAGGTAGTGGCAACGTTCCAGCTGAGTTTCCTGCCGGGAATTTCACGCCGCGGTTCGTGGCGTGCCCAGATTGAGGCTGTCAGGGTGGCGGCAAGCCTGCGCGGCCAGGGGATCGGCAACCTCATGCTGAACTGGGCCATCGAAGAGTCACGGACGCGGGGCTGCACCACGATGCAACTGACCACCCACAAGACGCGCAAGGACGCCCACCGGTTTTACGAGCGGCTTGGCTTCGATAGGAGCCACGAAGGCATGAAACTTACGCTCTAG	MGIRICNAGLVTPNPGALSALLTADVDGGRFLLRRALRTDVAAIVGLLADDSLGAARESAEDLAPYEEAFGAIDADPNHLLVVGELVPPGEASGQVVATFQLSFLPGISRRGSWRAQIEAVRVAASLRGQGIGNLMLNWAIEESRTRGCTTMQLTTHKTRKDAHRFYERLGFDRSHEGMKLTL				NA	NA	NA	NA	NA
D1-29_04546	1164	mtlD	COG0246	Mannitol-1-phosphate 5-dehydrogenase	GTGAAGGCGGTACATTTCGGTGCGGGCAACATCGGCCGCGGCTTTGTGGGCCTCCTGCTGCACCAGGCCGGGTATGAGGTGGTTTTCGCAGATGTCGCCGACGAGCTCATCAACCAGCTCGCCGGGGCGGACAGCTACGCGGTTCATGAGGTGGGCGAGAATCCCACAGTCAGGACCGTGACCAACTTCCGCGCACTCAATTCGGGCATGGAGGAAGCACGGCTGGTGGCGGAAATTGCGACGGCGGACATCGTCACCACCGCTGTGGGGCCGCACGTCCTGAAGTTCGTGGCGCCCACCATCACCAAGGGGATCGCCGCCCGGGACACCTCGCTGCCGCCGCTGCAGGTGATGGCTTGTGAGAACGCCATCAATGCCACAGACATCCTGCGGGCAGAGGTTGCCGCGCTCTGGGACGACGCCGCAGGTTCACTCGACTCCATGGCCGTGTTCGCGAACACGGCCGTGGACCGGATCGTGCCCAACCAGGAACCCGGACAGGGCCTGGATGTCACGGTGGAGACGTTCTACGAGTGGGTCATCGACCAGACGCCCTTCGCCGGGGCCGCGCCGGTGATTCCCGGGGCCACCTTTGTGGACGAGCTTTCGCCGTACATCGAACGGAAGCTTTTCACGGTGAACACCGGGCATGCCTCGGCGGCCTACTTCGGCTTCGAGGCAGGCCTGGAGAAGATCTCGGATGCCATGGCTGACCAGGATGTGGCCGAGGACGTGCGGGCGGTCCTGGAGGAAACCAAGCAGCTCCTGGTGGCCAAGCACGGCTTCAACAGCGACGAGCAGGAAGCCTACGTCCAGAAGATCCTGGTCCGGTTCTCCAACCCGCACCTGCCCGATACTGTCCACCGCGTAGGCCGGGCCCCGCTGCGCAAACTCAGCCGGAACGAACGCTTCATCAGTCCGGCTGCTGAGCTGGCCGAACGCGGGATCGTGCCGGAGGCCCTCCTGGGGGCCATCGCCGCCGCGCTGCGCTTCAACGATCCCGCCGACGCAGAGGCAACGGAACTGGCACAGATCCTGGCATCGTCATCTCCGGATGCCGCGACAGAGAGGATCACGGGCCTGGCTCCCGGGCATCCGCTGTTTGCTGCCATCTCCACCCTGGTGGAGGAACGCCAGGCGGAGGTGGCCAAGGCCCCGGCCTGA	MKAVHFGAGNIGRGFVGLLLHQAGYEVVFADVADELINQLAGADSYAVHEVGENPTVRTVTNFRALNSGMEEARLVAEIATADIVTTAVGPHVLKFVAPTITKGIAARDTSLPPLQVMACENAINATDILRAEVAALWDDAAGSLDSMAVFANTAVDRIVPNQEPGQGLDVTVETFYEWVIDQTPFAGAAPVIPGATFVDELSPYIERKLFTVNTGHASAAYFGFEAGLEKISDAMADQDVAEDVRAVLEETKQLLVAKHGFNSDEQEAYVQKILVRFSNPHLPDTVHRVGRAPLRKLSRNERFISPAAELAERGIVPEALLGAIAAALRFNDPADAEATELAQILASSSPDAATERITGLAPGHPLFAAISTLVEERQAEVAKAPA	PGPT0013700_237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0013700-mtlD-K00009	NA	NA
D1-29_04547	2064	mtlA	COG2213	PTS system mannitol-specific EIICBA component	ATGGCAACAGAGACAGTTGCAAAGCCCCGCACCAGCATGCGGGTAGGCGTCCAGAAATTCGGGACGTTCCTGTCCGGCATGATCATGCCCAATATTGGGGCGTTTATCGCCTGGGGCCTGATCACGGCGCTTTTCATCGAAAAGGGCTGGATTCCCGTTCCCCAACTGGGCGGCTTTGGCGAGACAAACGGTGTGCCAAACACAGGCCTGGTTGGCCCCATGATCACCTACCTGCTGCCGCTCCTGATCGCCTACACCGGTGGGCGGATGGTCTATGACGTCCGTGGCGGCGTCGTGGGCGCCATCGGCACCATGGGCGTGATCGTGGGTGCCGGTATCCCGATGTTCATCGGTGCCATGATCATGGGCCCCCTTGGCGGCTGGACCATGAAGAAGATCGACTCCCTCTGGGACGGCAAGATCCGGCCCGGCTTTGAGATGCTGGTGAACAACTTCTCTGCCGGCATCTGGGGCGGGCTGCTTGCGATGCTCGGCTTCTATGGCATCTCCCCGCTGGTCACTGCCTTCAGCACCGCGGCGGGCAACGTGGTCCAGTTCCTGGTCAACAACGGCCTCCTGCCGCTGACCAGTATTTTCATTGAGCCTGCCAAGGTGCTGTTCCTCAACAACGCCATCAACCACGGTGTGCTGACCCCGCTGGGCATCCAGCAGTCGCTTGACCAGGGCAAATCCATCCTGTTCCTGCTGGAAGCCAATCCCGGCCCGGGCTTCGGCATCCTGCTCGCCTACATGCTGTTCGGGAGAGGAGCGGCGAGGGCTTCAGCTCCGGGCGCCGCCATCATCCACTTCCTTGGCGGTATCCACGAAATCTACTTCCCCTACGTCCTGATGCGCCCGCTGCTGATCCTGGCCGCGATCGCTGGCGGCATGACGGGCATCGCCACCCTGGCCATCACCAACTCCGGCCTCGTGGCACCGGCGGCGCCGGGGTCCATAATCGCGGTGCTCGCCCAGACCGCCCGTGACAGCTACCTGGGCGTGATCCTCTCGGTGGTGCTCGCTACCGCGGTTTCGTTCCTGGTTGCCTCAGTGATCCTCAAGACCACCAAGCACAGCGACGAAGTTGGGCTCAGCGATGCCACCAGCCGCATGGAAGCCATGAAGGGCAAGAAGAGCTCGGTCTCCTCGGCCCTGACTGGCGCAGGCACCGCAGGCACTGCTGTCATCGCCGGACCCATCAAGAACATTGTGTTCGCCTGCGACGCCGGCATGGGCTCCAGTGCGATGGGAGCTTCCGTGCTGCGGAACAAGATCAAGGCTGCCGGTTTCCCGGAAGTCAAAGTCACGAACGCCTCCATTGCCAGTCTCGACGACAATTACGACGTTGTGGTCACCCACCAGGACCTCACCGAACGCGCCAAACCTGTCACCTCCAGCGCCGCACACTTCTCCGTGGACAACTTCATGAACAGTCCGCGGTACGACGAGATCGTCGAGCTGGTCAAGAGCAGCCACACTGGGAAAACCGAGATGGAAATGTCAGAGGCCAAGGCTCCCGACGCCGCCGCACACGGCGCCCATGCGGCCGATGTTCCTGCCGGAACAGCCCCCGGCGCTGTCGCAACAGGAACCGCTGCCGCCGGCGCTGCCGCAAGTCCCGCCGTCGGACGTGCTGAGATCCTGGCGCCGGAGAGCGTGATCCTCAACGGCACTGCCACCACCCGCGATGCCGCGATCGACGAAGCCGGCCGGCTCCTGCTGGCGCGGGGCGCCGTGGACGAGGGCTACGTCACCGCCATGCACGAGCGCGAGGAATCTGTCTCCACCTATATGGGCAGCTACCTGGCCATCCCGCACGGTACCAATGCAGCCAAGGACCACATCAAGAGGTCAGCGGTTTCCGTGATCCGCTACCCGGACGGCATCGACTGGAACGGCAAAGAGGTGAAGTTCGTGGTGGGCGTGGCCGGCATCAACAATGAGCACCTCCACATCCTGTCCTCCATTGCCAAGGTGTTCACCGACAAGTCCCAGGTGGCCCAGCTGGAAGCAGCAACCACTGTGGATGAAGTGCTGGCGCTGTTCGGAAAGGTCAACTCATAG	MATETVAKPRTSMRVGVQKFGTFLSGMIMPNIGAFIAWGLITALFIEKGWIPVPQLGGFGETNGVPNTGLVGPMITYLLPLLIAYTGGRMVYDVRGGVVGAIGTMGVIVGAGIPMFIGAMIMGPLGGWTMKKIDSLWDGKIRPGFEMLVNNFSAGIWGGLLAMLGFYGISPLVTAFSTAAGNVVQFLVNNGLLPLTSIFIEPAKVLFLNNAINHGVLTPLGIQQSLDQGKSILFLLEANPGPGFGILLAYMLFGRGAARASAPGAAIIHFLGGIHEIYFPYVLMRPLLILAAIAGGMTGIATLAITNSGLVAPAAPGSIIAVLAQTARDSYLGVILSVVLATAVSFLVASVILKTTKHSDEVGLSDATSRMEAMKGKKSSVSSALTGAGTAGTAVIAGPIKNIVFACDAGMGSSAMGASVLRNKIKAAGFPEVKVTNASIASLDDNYDVVVTHQDLTERAKPVTSSAAHFSVDNFMNSPRYDEIVELVKSSHTGKTEMEMSEAKAPDAAAHGAHAADVPAGTAPGAVATGTAAAGAAASPAVGRAEILAPESVILNGTATTRDAAIDEAGRLLLARGAVDEGYVTAMHEREESVSTYMGSYLAIPHGTNAAKDHIKRSAVSVIRYPDGIDWNGKEVKFVVGVAGINNEHLHILSSIAKVFTDKSQVAQLEAATTVDEVLALFGKVNS	PGPT0016945_18	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
D1-29_04548	729			hypothetical protein	ATGAGTTTGGATGGCCAGCTTCCCCCCAAAATGAGACTGCTGCGTGCGGCGGCCGAATTGCTGGCAAACTCTGCGGGGGCTCCCGTTTCAACCCGCCAGATCACCCAGCTGGCGGGCGTCACGGCGCCCACGCTGTACCACCACTTCGGTGACAAGGAAGGTCTGTTCGACGCCGTCGTCGCCGCAGGTTTTGAAGAGTATGTTGCGGGCGAGAGGGACTTCGCCCCGTCCGGGCATCCGCTGGAAGACATCCGGCGGATGTGGGACAACCACGTACAGTTCGGCCTCAACCAGCCGGAACTGTACCTGGTGATGTTCGGCAATATCCGGCCTGAAAGCCGCCCCGCCATCGTGGCTGATGCTGAGGCGCTGATGGAGGAGATGCTGAACAAGGCAGCAATGGCGGGCCAGCTGAATGTCCAGCCGCGGGAGGCAGCCAGGTCCATCCTGGCCGCGAACGTGGGTGTGACGCTCATGCTGATAGTGGAACCCGCCACTGAACGGAACCTTGAACTCTCCACCATGACCCGGGATGCCATGATTTTTGCGGTGTCCGCCGAGCAGTCCGCCGGTGCGGGCCCGGATGACTCCGGGAAGTCCTCGGTAGTGGTGGCAGCGATTGCCCTGAACGCCGCGCTTCAGTCATCGCACTCCGACCAGCTCTCCAGCTCCGAACTCAAACTCTTCCTCGAATGGCTGCACCGGATCTCGTCCAGCTCCAACGGCTAG	MSLDGQLPPKMRLLRAAAELLANSAGAPVSTRQITQLAGVTAPTLYHHFGDKEGLFDAVVAAGFEEYVAGERDFAPSGHPLEDIRRMWDNHVQFGLNQPELYLVMFGNIRPESRPAIVADAEALMEEMLNKAAMAGQLNVQPREAARSILAANVGVTLMLIVEPATERNLELSTMTRDAMIFAVSAEQSAGAGPDDSGKSSVVVAAIALNAALQSSHSDQLSSSELKLFLEWLHRISSSSNG				NA	NA	NA	NA	NA
D1-29_04549	1662	ptsI	COG1080	Phosphoenolpyruvate-protein phosphotransferase	GTGAGCCCCGGCCGCATCATCGGCACCATCCGGCAGATGCCCAAACCGATCAGCGAACCTCCGGCGGGAGAGCAACTGGCAGCGGAAACCTCCGCCGAGGAAGCCACCGCCGCGCTCAAGTCGGCTTCCCAGGCCGTGCATGACGAGCTCAAAGCCCGTGCCGCCCATGCCACCGGCGACGGCAAGGCAGTCCTGGAAGCCACGGCACTGATGGCCAAGGACACCATGTTGATCAAGGGTGCCGCCAAGCTCGTTGCCCGCGGCGTATCAGCCGAACGCGCCATCTGGGAGTCCGGGTCCTCCGTCTCGGAAATGCTCCACAACCTGGGCGGCTACATGGCAGAGCGCGCCACGGACGTCCTGGACGTCCGGGCCCGCATCGTCGCCGCGCTCCGGGGCGTTCCCGCACCCGGCATCCCCACGTCCAGCACCCCCTTCGTTCTGGTGGCTGAGGATCTGGCTCCCGCGGACACTGCCACCCTGGACCCGAACAAGGTCCTGGCCCTGGTGACCTCAGGCGGCGGGCCCCAGTCACACACCGCCATCATCGCGCGCTCCCTTGGCCTTCCCGCCGTCGTCGCCGCAGTCGGGGTGGACGAACTTCCGGACGGCACGGAAGTGTATTTGGACGGTGCCGCCGGCACCGTCGTCTCCAAGCCGGACGAATCCCTGCGTGCAGCAGCGGAGGCATGGGCGGCCACGGCTTCGCTGCTGGCCGATTTCACAGGCACGGGCGCGACGGCGGATGGCCATCTGGTGCCGCTGCTGGCCAATGTGGGCGGCGGCAAGGACGCCGAGGCGGCCGCCAAGCTGGGCGCGCAGGGAGTAGGCCTGTTCCGCACCGAGTTCTGCTTCCTCGAACGGGATACGGAACCCTCAGTGGAAGAGCAGGCCGTCGCCTATAAGAAGGTTTTTGATGCCTTCCCCGGCAAGAAGGTTGTGCTGCGCACGCTCGACGCGGGCGCCGACAAGCCACTCCCCTTCCTGACGGACTCCACCGAGCCCAATCCCGCCCTGGGCGTCCGCGGTTACCGCACCGATTTCACCACGCCTGGCGTCCTGGACCGCCAGCTGGAGGCCATCGCACTGGCGGAGAAGCAGTCCGAGGCGGACGTGTGGGTCATGGCCCCCATGATCTCGACGGCCGAGGAAGCCGCACGTTTTGCCTCCATGTGCGCAGATGCCGGCATCAAGACTCCGGGCGTTATGGTGGAGGTTCCTTCCGCGGCCCTGACCGCAGAGGCCATCCTGCGCGAGGTGGGCTTCGCCAGCCTGGGCACCAACGACCTCACCCAGTACGCCATGGCGGCAGACCGCCAGCTTGGCCCGCTCGCCAACCTGAACACGCCGTGGCAGCCTGCCGTCCTGCGGCTCGTAGGCCTGACCGTTGAAGGCTCCCGCGCGGAAGGAAACAACAAACCCGTGGGTGTCTGCGGTGAGGCGGCAGCGGATCCGGCCCTCGCCGTCGTCCTCACCGGCCTGGGCGTTTCCACGCTGTCCATGACCGCACGGTCCCTGGCCGCGGTGGCTGCGGTGCTGAAGACTGTCACCCTCGCAGAGGCGCAGCAACTGGCCAAACTTGCGCTGTCCGCGCCAAGCGCCACTGAGGCGCGGGCCTGGGTGCGGGAGAAACTGCCCGTGCTGGAAGAACTCGGGCTCTGA	MSPGRIIGTIRQMPKPISEPPAGEQLAAETSAEEATAALKSASQAVHDELKARAAHATGDGKAVLEATALMAKDTMLIKGAAKLVARGVSAERAIWESGSSVSEMLHNLGGYMAERATDVLDVRARIVAALRGVPAPGIPTSSTPFVLVAEDLAPADTATLDPNKVLALVTSGGGPQSHTAIIARSLGLPAVVAAVGVDELPDGTEVYLDGAAGTVVSKPDESLRAAAEAWAATASLLADFTGTGATADGHLVPLLANVGGGKDAEAAAKLGAQGVGLFRTEFCFLERDTEPSVEEQAVAYKKVFDAFPGKKVVLRTLDAGADKPLPFLTDSTEPNPALGVRGYRTDFTTPGVLDRQLEAIALAEKQSEADVWVMAPMISTAEEAARFASMCADAGIKTPGVMVEVPSAALTAEAILREVGFASLGTNDLTQYAMAADRQLGPLANLNTPWQPAVLRLVGLTVEGSRAEGNNKPVGVCGEAAADPALAVVLTGLGVSTLSMTARSLAAVAAVLKTVTLAEAQQLAKLALSAPSATEARAWVREKLPVLEELGL	PGPT0002025_2616	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
D1-29_04550	783	menH_8		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGAAACTCAGTGGTGGCCGTGACGTGGAGTCCGGTGGACTGACCGGGCGGGTGTATGCGTCCGTGGAACACAAAAACCACGGTCCGCGGCCAACGTACGTGCTGCTTCACGGAATCGGCGTCTCACACCGCTACCTTGCGCGGCTGCATGTTGAGCTGGCCCTCTCGGCAAACGTCTACACTTTTGACCTCCCGGGCTTCGGCGACGCACCACGGCCGCGTCGGCAGGTGCCGGTAGGCGAGTACGCAGCCTTTGTGCACACCGTCCTGACGGAGGCTGGGGCCGGGCCGGTTGTGGTTATTGGCCACTCCATGGGCGTGCAGTACGCCGTGGAACTCGCGCTGCAGGAGCCGTCATCGGTGGCTGGCCTGGTGCTGATGGGCCCGGTGGTCGACGACGAACGGAAGTCCGTGCCACGGCAGGCGATGGCACTGGCCCGCGATGCCCTGCTATATGAGACCCTCTCCTCCAACCTCACAGTATTCTCGGACTACTTCCGTGCCGGGCTGCGCTGGTACCTCACGGAGCTGCCCGTGATGATGGAATATCCGCTCGAAACAAGGCTGCCCGGCGTGAGCCAGCCTGTACTGGTCATGCGCGGAGGCAAAGACCCGGTGGCCCGCCGGCCCTGGTGCGAACGCCTGGCATCCGCGGCACCCCGGGGGAGCCTGACCGAAGTTCCCGGCGTAGGCCACGTCCTCCAGCACACGGCAACGGCGGCCACCGCGGCCGCGATCAGCAGCTGGGTCCGGGCGGCAGACGGCTTCGGAGTGACCGCCTGA	MKLSGGRDVESGGLTGRVYASVEHKNHGPRPTYVLLHGIGVSHRYLARLHVELALSANVYTFDLPGFGDAPRPRRQVPVGEYAAFVHTVLTEAGAGPVVVIGHSMGVQYAVELALQEPSSVAGLVLMGPVVDDERKSVPRQAMALARDALLYETLSSNLTVFSDYFRAGLRWYLTELPVMMEYPLETRLPGVSQPVLVMRGGKDPVARRPWCERLASAAPRGSLTEVPGVGHVLQHTATAATAAAISSWVRAADGFGVTA				NA	NA	NA	NA	NA
D1-29_04551	420			hypothetical protein	ATGGCATTGATCGCCCCAAGGATGACGGCCGGCCTGCCGGCCGAGGAAGCAGAGAAACTGCAGCGCGCCCTTCAGGGCAGCCATGACATCACCGTATTCGTGGATGGCACCGTCCACAGGCTCCCGCCCCAGGCGCGGGACGCCGTCGTCGATCTCCTCAGCCGCTTCAGCAGGGGGGAAGCGGTGACCGTCAGCAGCGTCGAAGAAATGCTGACCACATCCCAGGCCGCCGAACTTGCCGGCATCTCCCACACCTACCTGCGGAACATGACGGACCGTGGCGAGATACCGGTGGAATACCGCGGCACGCACCGGCGAATCCGGCTGGCCGCCATTATGGCGTGGCTGGACCAGCAGAAGAAAACGGCACAGGCAACGCAACAGTCAGGCGAAAATGACGGCGCATCAGCCGCAGGGTGA	MALIAPRMTAGLPAEEAEKLQRALQGSHDITVFVDGTVHRLPPQARDAVVDLLSRFSRGEAVTVSSVEEMLTTSQAAELAGISHTYLRNMTDRGEIPVEYRGTHRRIRLAAIMAWLDQQKKTAQATQQSGENDGASAAG				NA	NA	NA	NA	NA
D1-29_04552	312			hypothetical protein	GTGGTGGCGGGCATCGCCGCCATGATGGTTGCTGCCGTGCTGGGGTCCGCCATGAAGCTGAATAATACGTCCATCGTGATGTCCAGCTGCGTCGTATTTGTTGCCGTGGCCATGTGGACCGACAGTGCCCTCACCCGCCGCCGCCGTGAGGCGCTGACCCTCCAGCAGGCGGCTTCCCTGAAACAGGCCACCTCCCTTGAGCCCGGCCGGGACACTGCCGCCGCGCCGCACCAGGATATTTCCCACCAGCCTCAAGCCGGGCAGGACGAATCCAGCGGCGGGCAATCAAAACACGAGGGCAACGCGGCCTGA	MVAGIAAMMVAAVLGSAMKLNNTSIVMSSCVVFVAVAMWTDSALTRRRREALTLQQAASLKQATSLEPGRDTAAAPHQDISHQPQAGQDESSGGQSKHEGNAA				NA	NA	NA	NA	NA
D1-29_04553	1221			hypothetical protein	ATGCAGCAGCAGGATGTGGAACAGCTCGTGGAGCGGATTGCCGGGAAACTCGGGCGCGGGCTTTCCCTCGAGGATCTTGACGGCCTGCTGCTCGCGTACAGCTCGAACCAGTCCCACGCTGACCGCGTCCGGGTCAACTTCCTGCTGAGCAAGCGGGTCCCCGCTGACGTCAGCGCGTGGCAGCTTTCCCATGGCATTGCGACGGCGGTCCGGCCGGTCGTGGTTCCGGCAAATCCGGATCTGGGGATGCTGGGGCGGGTCTGCGTTCCGTTGATGGTGCGTGGCTTCCGCGTGGGCTACCTGTGGGTCCAGCAGGACTCGGCAGAGGAAAACCCGACGGCGATTCTCACCCAATTGCCTGATGTGGGCCATGAGCTGGAGCTGCTCTCCGGGCTGCTGCTGGAATCCAACACTGCCGAATCCGAGTTCCGGCGCAGCAGGGAACGGGAATTCCTCGCCGCGTGTTCCGGCGAGGCCAATGCGGTGGCGGCGGTGGCCGGCTGGAAGGAAATCCAGGGCCGGGGACCATGGCAGGTAGTCACTGTGCTGGATGCCGACGGCTGGACCGGCAGTTCCGATCCGATCGCTTCCACGCTAATTCACCGGTCTGCTGCCCTCCAGGCCACCGTGGGCGTGGACGCGGCCCTGTTCAGCGCCGGTACGGAAACCCATTCCGTGGTGCTGTTCCAGGAATCTGTGGGCCGCGCCAACCACGCCCAGGTGCTGGTGCACTACCAGCTGGAACTGGCCAAGCGCTCCGGCCGGCCCGTGGACCGTATCATCCTTGGCATCAGCGAGGGGTTCGCCAAGCCAAGGGAACTGGGCGAGGCGTACCGGCAGTCCAAACAGGCGGCCCAGGCCGCCGCGGTGGATCCGCAGCTCGGCGAGCTGGTAGATTCCCGGGCCACGGGGATCTACCAGTTACTGGCAACGGCCGGCGGTGGAGCCGGCGCCTGGGCCGATACAGGATCTGTCTACTTCCGCATGCTTGAAGAACACGACCGCAACGGCGAGCTTATCCCCGTGCTGGAGCTGTTATGCGACAACGATGGCTCCGTCCAGGATGTTGCCAGCAAACTTCACCTGCACCGCAGCAGCATTTATAACCGGCTGGGCCGCATCCGCCAGCTCCTTGGTGTGGATCCGCTCAAGGGGATGGCCCGGCTTGAACTCCATGCAGCCCTGAAAATGCGGCGCTGGGCTGCGCGTCCACGGATCTAG	MQQQDVEQLVERIAGKLGRGLSLEDLDGLLLAYSSNQSHADRVRVNFLLSKRVPADVSAWQLSHGIATAVRPVVVPANPDLGMLGRVCVPLMVRGFRVGYLWVQQDSAEENPTAILTQLPDVGHELELLSGLLLESNTAESEFRRSREREFLAACSGEANAVAAVAGWKEIQGRGPWQVVTVLDADGWTGSSDPIASTLIHRSAALQATVGVDAALFSAGTETHSVVLFQESVGRANHAQVLVHYQLELAKRSGRPVDRIILGISEGFAKPRELGEAYRQSKQAAQAAAVDPQLGELVDSRATGIYQLLATAGGGAGAWADTGSVYFRMLEEHDRNGELIPVLELLCDNDGSVQDVASKLHLHRSSIYNRLGRIRQLLGVDPLKGMARLELHAALKMRRWAARPRI				NA	NA	NA	NA	NA
D1-29_04554	1119	ald	COG0686	Alanine dehydrogenase	ATGATCATCGGTATCCCTAAAGAGATCAAGAACAATGAATTCCGCGTAGCCATCACCGCCGCCGGCGTTCACGAGTTCCGTACCCACGGCCACACCATCCTGGTGGAGCGCGGGGCAGGCCTGGGTTCAGGCATCACCGACGAGGAATACGCCATCGCCGGCGCGGAGATCATCGCCGAAGCAGACGACGTGTGGGCCCGCGCAGACATGGTGATGAAGGTCAAGGAACCCATCAAGGCTGAGTACCACCGCTTCCGCAAAGGTCTGGTGCTGTTCACGTATCTGCACCTCGCCGCCGAGCCGGAACTGACCCGCGAACTCATCAATTCGGGCGTCACCGCCATCGCGTACGAAACAGTTCAGGAGGGACGCACCCTTCCGTTGCTCGCGCCGATGTCCGAAGTAGCCGGCCGCCTTTCGGTGCAGGTGGGGGCAACGTCGCTGATGGCCCCGGCCGGCGGCAAGGGTGTGCTGCTGGGCGGCGTCCCGGGAGTCCGCCCTGCAAAGGTCGTGGTGCTCGGGGCCGGCGTGGCGGGAACAAATGCCGCCGCCATGGCCCTGGGCCTGGGTGCCGACGTAACCATCCTGGACATCAACATCAACCGCCTCCGTGAACTGGACGCCCAGTACCAGGGCAGGCTGAAGACCGTGGCGTCCAACAAGTACGAAGTGGAGAAGTCAGTGGTGGACGCCGACCTGGTGATCGGCTCCGTGCTGATCCCGGGCGCCAGGGCCCCCAAGCTGGTGAGCAACGAGCTGGTGGCGCGCATGAAGCCGGGCTCGGTGCTGGTGGACATCGCAGTGGACCAGGGAGGCTGCTTCGAGGACACGCACCCCACCACCCACCAGGAGCCCACCTACAAGGTGCACAACACCATCTTCTATTGCGTGGCCAACATGCCGGGCGCCGTGCCAAACACATCCACCTATGCGCTGACCAACGTCACCCTCCGGTACGGCGTTGCCTTGGCCAACCTGGGCGTCCGCGCCGCCTTCGAGCGCGACCCCGCCCTGGCCGCCGGCCTCAACATCGCCGCCGGCCACGTGGCCCACCACTCCGTATCCGAGGCACACAACCTGCCCCTCGTGGCGGACTGGCACGAACTGGTGTCGGCGTAG	MIIGIPKEIKNNEFRVAITAAGVHEFRTHGHTILVERGAGLGSGITDEEYAIAGAEIIAEADDVWARADMVMKVKEPIKAEYHRFRKGLVLFTYLHLAAEPELTRELINSGVTAIAYETVQEGRTLPLLAPMSEVAGRLSVQVGATSLMAPAGGKGVLLGGVPGVRPAKVVVLGAGVAGTNAAAMALGLGADVTILDININRLRELDAQYQGRLKTVASNKYEVEKSVVDADLVIGSVLIPGARAPKLVSNELVARMKPGSVLVDIAVDQGGCFEDTHPTTHQEPTYKVHNTIFYCVANMPGAVPNTSTYALTNVTLRYGVALANLGVRAAFERDPALAAGLNIAAGHVAHHSVSEAHNLPLVADWHELVSA	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
D1-29_04555	873	iolW	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolW	GTGGTTGCGCTGGCCGCGGACCTTGACCTGGTGGTGCTGGGCACTCCGCCCGCAACCCACTATCCGCTGGCCAGGGCTGCACTCGAGGCGGGCCTGGATGTGGTGGTGGACAAACCGTTCGCCGTGCGAAGCGCCGAAGGGCAGGAACTGGTTGAACTCGCGGAGCGGCTGGGACGCGTGCTGACCGTGTTCCACAACCGGCGCTGGGACGGGGACTTCCTGACCCTGCGCAAGCTGCTCGCCGGCGATGCCCTGGGCACTGTGACAAGGTTTGAGTCCCGCTTTGAACGGTGGTCACCGGCAATTTCCAAGGCTTGGAAGGCACAGGCATCAGCAGCCGACGGCGGGGGTGTGCTCTTTGACCTTGGCTCACACCTGATCGACCAGGCCCTGCAGCTCTTCGGCTCCGCTACCATTCTCCATGCCGAGCTTCTCGCGCGGCGTCCGGACGAACGGGCGGAGGACGATGTGTTCCTGGCGCTGCGCCATGACTCAGGCGTCATTAGCCACCTGTCCATGAATGCGCTGTGCGCCCAGCAGGGTCCCCGCTTCCGCGTGCTGGGCTCCGCAGCAGGATTCACCAAGCACGGGATCGACCCCCAGGAGCCGTACATCGTAGCCGGCGGCAGTCCCCTGGATGCCGAGTACGGGGTTGAGGCTGCCGAGTGGGCCGGTTCCTTGGGCCGCGATGGCCACCTGGACGCCCTCCCCACCGAGCGCGGCGCCTACCCCGAGTTCTACCGAATCCTGGCAGACAAGATCCTCGACGGCGGAGCAGCATCACAGCTGCCCCGCCCGGTAAACCCGGAAGACGCCGTCGAAGCCCTCAAACTAATAGAACAAGCAAGAGAACTGGCCTCGGCGCATCGTTAA	MVALAADLDLVVLGTPPATHYPLARAALEAGLDVVVDKPFAVRSAEGQELVELAERLGRVLTVFHNRRWDGDFLTLRKLLAGDALGTVTRFESRFERWSPAISKAWKAQASAADGGGVLFDLGSHLIDQALQLFGSATILHAELLARRPDERAEDDVFLALRHDSGVISHLSMNALCAQQGPRFRVLGSAAGFTKHGIDPQEPYIVAGGSPLDAEYGVEAAEWAGSLGRDGHLDALPTERGAYPEFYRILADKILDGGAASQLPRPVNPEDAVEALKLIEQARELASAHR	PGPT0018530_284	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
D1-29_04556	222			hypothetical protein	ATGGCCGGGACTGAAGCTGAACGCACCATCCGCACCGCCGTCGTCGGCTATGGGCTTTCCGGGAGTGTCTTCCATGCGCCGCTGATTGCGGCGGACGCCCGCTACTCGCTGGAAGTCATCGCAACGTCCGACGCCGGGAGGCAGGCAGCCGTCGAAGAGCGGTACCCGGGCGCCAGGACTGTGCCCCGGCGACGCCGTGGTTGCGCTGGCCGCGGACCTTGA	MAGTEAERTIRTAVVGYGLSGSVFHAPLIAADARYSLEVIATSDAGRQAAVEERYPGARTVPRRRRGCAGRGP	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
D1-29_04557	1719		COG0747	putative protein	ATGAAGAATCTGACCAGGATTGGCGGGGTGGCAGCCGTAGCTGCGGCTCTGGCGCTGACGGCCTGCGGGGGCGGTGGCACCGCCACCGGACCGGAGACGGCCAAGGGGCAGGAGGCCGGCAGTGACCTGTCCAAGCTGATCAGCATCAACGAGAAGCCCGCGGCGGATCTTCAGCCGGGTGGCAAAGTGACACTTCCCCTGGGCAGCATCGGCCCGGACTTCAATGGTTTCTCCAACAACGGCAACAGCTCGGACAACTCGGCCCTGATGGTCCCCATCAACACTGTGGCCGTGAGCAGCGGCGGCATCGGTGGCTGCTGGAAGCTCGACTTCGAGGGCAAGGCCACCCCCAACAAGGACTTCTGCGAGTCAGTGGAGAGCGAAGTCAAGGATGGCAAGCAGACCGTCACCATCAAGGTCAATGACAAGGCCACCTACAACGACGGCACTCCGATCGACGTCAAGGCCTTCCAGAACACCTGGAACATCCTGAAAAGCCCCGATGCCGGCTACGACATTGTGACCTCCGGTGGCTACGAGTTCGTTGAATCGGTGGAAGCAGGGAGCAGCGACAAGGAAGTCATCGTCAAGATGAGCCAGCCGGTGTACCCGCTGGAGGACCTCTTCTTCGGCCTGGTCCACCCGGCTGTGAACACGCCGGCAATCTTCAATGAAGGCTTTGTGGGCGAAATGCACCCCGAGTGGATGGCCGGCCCCTTCAAGCTGGATCAGTACGACGCCGCAGCCAAGACCGTGACCCTCGTTCCGAACGAGAAGTGGTGGGGCAACAAGCCGGTGCTGGAAAACGTGGTCTTCCGCCAGCTCGAAACCAGCGCACAGATCGCCGCCTTCAAAAACGGTGAAATCGACGCGATGTCAGCCAACACCATTGCGCTCTACAAACAGCTCGACGGCACCAAGGACTCCGAGGTCCGCCGTGGCCAGCGGCTCTTCGCCGGTGGCATGAACATCAATGCCCAGAAGGTCACGGACGTTGCCGTGCGTGAGGCAATCTTCGCGGCGGTGGACCGTGAGGCCCTCCGCAAGGTGCGCTTCAACGGCCTGAACTGGGAGGAGCCCAGCTCCGGTTCCATGATGCTCCTGCCGTTCTCTGAGTACTACCAGGACAACTACCCCGTGAAGGAGACGGGTCCGGAGGCAGCGAAGAAGGTCCTGACGGATGCCGGCTACGCTCCGAACGCTGCCGGAATCATGGAGAAGGGCGGCGTCCCCGCGGCGTTCAAGATCAGCAACTTCGGTGATGACCCCACCACGCTCGCCTTCACGCAGACACTGCAGAAGCAGCTGCAGGCCGGCGGCATGGATGTTGGAATCGACCAGCGCGCGTCAGCCGATTTCGGCAAGGTCATCGGCGGCCGCGACTTCGACATGAGCGTCTCCGGCTACACCGTGGGCGCCGACGCCACCTCTGCCGTCAAGCAGTACTACGACTCCAAGACCAATGAGAACGGTCTGGGTGACGCCGAGCTGGACAAGAAGATCGCTGACCTGGCATCCATCGAGGACAACGCTGAGCGCAACAAGGCCGCCATGGAGGTGGAAAAGGAGCACATGGCCAAGTACTTCTCCATGGGTGTGGTGATGAACGGCCCGCAGATCTCCTTCGTCCGCACCGGTTTGGCCAACTACGGCCCGTCACTGTTCCAGAGCCTGTCCCAGGTTCCGGACTGGACCACCCTGGGCTGGGAAAAGAAGTAA	MKNLTRIGGVAAVAAALALTACGGGGTATGPETAKGQEAGSDLSKLISINEKPAADLQPGGKVTLPLGSIGPDFNGFSNNGNSSDNSALMVPINTVAVSSGGIGGCWKLDFEGKATPNKDFCESVESEVKDGKQTVTIKVNDKATYNDGTPIDVKAFQNTWNILKSPDAGYDIVTSGGYEFVESVEAGSSDKEVIVKMSQPVYPLEDLFFGLVHPAVNTPAIFNEGFVGEMHPEWMAGPFKLDQYDAAAKTVTLVPNEKWWGNKPVLENVVFRQLETSAQIAAFKNGEIDAMSANTIALYKQLDGTKDSEVRRGQRLFAGGMNINAQKVTDVAVREAIFAAVDREALRKVRFNGLNWEEPSSGSMMLLPFSEYYQDNYPVKETGPEAAKKVLTDAGYAPNAAGIMEKGGVPAAFKISNFGDDPTTLAFTQTLQKQLQAGGMDVGIDQRASADFGKVIGGRDFDMSVSGYTVGADATSAVKQYYDSKTNENGLGDAELDKKIADLASIEDNAERNKAAMEVEKEHMAKYFSMGVVMNGPQISFVRTGLANYGPSLFQSLSQVPDWTTLGWEKK	PGPT0013020_96	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013020-gsiB-K13889	NA	NA
D1-29_04558	2235		COG1123	putative ABC transporter ATP-binding protein	ATGAGCAGCGAGACATACATCGAACCGGCGGACTCCACTCCCTCCACAGCTGAGCGGCTGCACATTGCCGGGCTGCACATGGCCGGGGACGCCGTCCTGTCCGTCCGGGACCTGAACGTCCGCTTTAATTCCGAGAACGGCGTGGTGCACGCTGTCCGTGGCGTTGACTTCGACCTGATGGCGGGCAAAACGCTGGGAATCGTGGGGGAATCCGGGTCCGGAAAATCCGTCACCTCGCTGGCTATCATGGGGCTTCTTCCGCCCACCGCAGAGATCACCGGTTCCGTCCGGCTCAAGGGCACGGAACTGCTGGGCCTCAGTGACAAGGCCATGTGTGCCTACCGCGGCAATGACATTGCCATGGTGTTCCAGGACCCGCTGTCCTCCCTGACCCCGGTCTACACGGTGGGCACCCAGATCACCGAAGCACTGGCCATCCACAACCCCGGCATGAGCAAACAGGCCAAAGAAGCCCGCGCCGTCGAACTTTTGGCGATGGTGGGCATCCCCAGTCCGAAGGACAGGCTCAAGGCGTTTCCGCACGAGTTCTCCGGTGGAATGCGGCAGCGGGTGATGATTGCGATTGCCATCGCCAACAATCCCCGCGTGCTGATCGCGGATGAGCCGACGACGGCCCTGGACGTCACCATCCAGGCCCAGGTGCTGGAGGTACTTCATAAGGCCCAGGAGGAAACGGGCGCCGCCGTGGTGATGATCACTCACGACCTGGGCGTGGTCGCAGGCATGGCGGACGACATCATGGTCATGTACGCGGGAAAACCGGTGGAAACGGGCGGCGTGGATGACATCTACTACAACCCGCGGATGCCGTACACCATGGGCCTGCTCGGCGCGGTGCCGCGGGTTGACGTAGCGGAGAAGACGTCCCTGGTCCCCATCGATGGCATCCCGCCGAACCTGATCCACACCCCCACCGGATGCTCCTTTGCGCCCCGCTGCCCGCTCGCAACGGAGGCGTGCCTGGACGGGGAGCCTCTCCTGGCGCCGGTGGCAGGCGGCACCGCACACCGGGCCGCCTGCATCAAGTCCGGTTCCCTCGAGGACGTGAACGTCCACGCGGTCTTCTCTGCACCTGAAGTGCCCGTATCCCGGTTCGACCTCATTCCCCGCGAAGAACGCTCCACCGTCCTCCAGCTGAAGGACGTGCGGAAGCATTTCCCGCTCACCAAGGGGGCGCTGCTCAAAAGGCGCATCGGCACCGTGAAGGCGGTGGACGGGCTGAGCTTCGATATACGCGAAGGGGAATGCTTCTCGATTGTGGGGGAGTCGGGATCGGGCAAAACCACCACACTGCTGGAAATTATGGAGTTCCATAAGGACCAGGACGGCGAAGTGACGATTGGCGGCATCAGCAACAAGGAAGCCGCCGACGCCAAGACCAAAAGCGCCATGCGCAAGGAACTCCAGATGGTTTTCCAGGACCCCACCGGCGCCCTGGATCCGCGGTTTACGGTGTACGAGGTCCTGGCGGAGCCGCTTCAGAATGCAGGCTTCTCAAAAGCCGCCATCAAGAAACGAATCATGGAGCTGATGAACCTTGTGGGCCTGCAGCCGGACCACGTTAACCGGTTCCCCAACCAATTCTCCGGAGGGCAGCGGCAGCGCGTGGGCATAGCCAGGGCCCTGGCTGTGAACCCGAAACTGGTGGTGCTGGACGAGCCCGTGTCCGCCCTGGACGTCTCCGTGCAGGCCGGTGTCATTAACCTGCTGGATAAACTCCGCGCCGAACTGGGCCTCAGCTACCTGATGGTGGCCCACGACCTTTCCGTGGTGCGCCACATCTCCAACCGCGTGGCTGTTATGTACCTGGGGAAGATCGTGGAGATCGGTGAGGTGGACCGTGTCTTTGACAGTCCCCGCCATCCCTACACCCGAGCACTGCTGTCCGCCATTCCTGTCCCGGACCCGCAGCTCGAGCGCACCCGGGAACGGATCATTCTGCAGGGAGACCTGCCGTCGCCGCTGGATGCACCCAAGGGCTGCAACTTCGCCTCCCGGTGCCCGGTGTTTGCCGCGCTGCCGGTGGCGAAGAAGGAGAAATGCCTCACGCTGGAGCCTCCGCTGGAATCGGTTCGCCCCTCGGCCGCTGTCCGGGCCCTTGAGGCAGGGCCGATACCGCCATTGGACCAGCAGTTCGCCTGCTTCTTCCCGGACGGTGAACTCGACGAGGACATGCTGGTTGTCCACGATCCGGGGGACCACCATGCGCCCTAG	MSSETYIEPADSTPSTAERLHIAGLHMAGDAVLSVRDLNVRFNSENGVVHAVRGVDFDLMAGKTLGIVGESGSGKSVTSLAIMGLLPPTAEITGSVRLKGTELLGLSDKAMCAYRGNDIAMVFQDPLSSLTPVYTVGTQITEALAIHNPGMSKQAKEARAVELLAMVGIPSPKDRLKAFPHEFSGGMRQRVMIAIAIANNPRVLIADEPTTALDVTIQAQVLEVLHKAQEETGAAVVMITHDLGVVAGMADDIMVMYAGKPVETGGVDDIYYNPRMPYTMGLLGAVPRVDVAEKTSLVPIDGIPPNLIHTPTGCSFAPRCPLATEACLDGEPLLAPVAGGTAHRAACIKSGSLEDVNVHAVFSAPEVPVSRFDLIPREERSTVLQLKDVRKHFPLTKGALLKRRIGTVKAVDGLSFDIREGECFSIVGESGSGKTTTLLEIMEFHKDQDGEVTIGGISNKEAADAKTKSAMRKELQMVFQDPTGALDPRFTVYEVLAEPLQNAGFSKAAIKKRIMELMNLVGLQPDHVNRFPNQFSGGQRQRVGIARALAVNPKLVVLDEPVSALDVSVQAGVINLLDKLRAELGLSYLMVAHDLSVVRHISNRVAVMYLGKIVEIGEVDRVFDSPRHPYTRALLSAIPVPDPQLERTRERIILQGDLPSPLDAPKGCNFASRCPVFAALPVAKKEKCLTLEPPLESVRPSAAVRALEAGPIPPLDQQFACFFPDGELDEDMLVVHDPGDHHAP	PGPT0013015_12	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013015-gsiA-K13892	NA	NA
D1-29_04559	975		COG1173	Putative peptide transport permease protein	ATGACCAACCTCAATGCAGTGGATCCGGCGGCAGCCGCGGAGGAAGCGCACCTGCAAAACGCAGATGTGATGATCACCAAATCCACCATCATCTTCCGCCGATTCATGCGGAACAAGACCGCCGTCGCCGGCCTCCTCATCTTCCTGGCACTGACCGTGTTCTCCTTTGTGGGGGGATACCTGACGCCGTGGGACAAGGAGACCATTGATCCCTTCAACATCGGCATGCCGCCATCGGCTGACCATTTCCTCGGGACGTCGCAGGCGGGCATCGACCTGTATGCCATGACCGTGGAGGGGACCAGGATCTCCATCCTCATTGGCCTCATTGTTGGTCTTGTCTCCGTCCTCATCGCTGCGGTGTACGGCTGCACCATGGCGTATTTCGGCGGCAAGGTGGACAAGGTGATGCTCTTTGTCCTCGAAGCCCTCATCATGATGCCTGCCCTGCTGGTGGTGGCAGTGGCCACCAGCGGCGGCGGGGAGGGCCTGAAAAAGAGCCTCCCCAGTTGGCTGCTCCTCATCATTGTGCTCCTGGTCTTCAGCTGGATGGGCACCGCCAGGCTGATCCGTTCCCTCTCGATGTCCCTGATGCAGCGTGACTACGTCAAGGCAGCCCAGTACATGGGTGTGCCGCCGCGGCGGATCGTCTGGCGGCACCTCGTTCCCAACATCGGTTCCCTCCTGGTCCTGGACATCACCCGCGGAGTCACCGGCGCCATCCTTGCCGAAGTTGCTTTCTCCTTCATCGGAATTGGCATCAAGGTGCCGGACGTGAGCCTGGGGGTCCTGATCGGCGGCGCTACATCCCAGGTCCAGACCTTTCCCTGGATGTTCTGGGTTCCGCTGACGGTGATGTTCCTCCTGACCGGATCGCTCGCCATGATGAACGATGGCCTGCGGGACGCCTTTGATCCGAGCTCCAGTTCCATTGGCAGCGCCAGGAAGAACAGCACAAAGAAGAAGAGCGCATGA	MTNLNAVDPAAAAEEAHLQNADVMITKSTIIFRRFMRNKTAVAGLLIFLALTVFSFVGGYLTPWDKETIDPFNIGMPPSADHFLGTSQAGIDLYAMTVEGTRISILIGLIVGLVSVLIAAVYGCTMAYFGGKVDKVMLFVLEALIMMPALLVVAVATSGGGEGLKKSLPSWLLLIIVLLVFSWMGTARLIRSLSMSLMQRDYVKAAQYMGVPPRRIVWRHLVPNIGSLLVLDITRGVTGAILAEVAFSFIGIGIKVPDVSLGVLIGGATSQVQTFPWMFWVPLTVMFLLTGSLAMMNDGLRDAFDPSSSSIGSARKNSTKKKSA	PGPT0013030_86	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013030-gsiD-K13891	NA	NA
D1-29_04560	984		COG0601	Putative peptide transport permease protein	ATGCTCAGATACCTTGCCAAGCGTGGCATCACGTATCTCCTGATGATCTTCCTGACCACCTCGGCCGGTTATTTCCTGGCAGTTACCTCGCTCAAGCCGGCCCTGCTGGAGCAGGAGCGCATACCGCGCCCAACCCCTGAGCAGGTTGCTAACTCCATGCGCCTCAAGGGCCTGGATCCTGACCTCAGTCCCTGGGAACGCTATGTGGACTGGCTAACGGGCATCGTGACACGCTGGGACTGGGGCCGCAGCCCCAACGGTGCCTTTATCAACGCTGAGTTCGGCGACAGGGTGTGGATTTCCACCCGGCTGTTCCTGGCATCCATAGTCCTGACACTGGTCATTGGAGTTGCCCTCGGAGTGTACTCGGCAGCGCGCCAGTACAAATTCCAGGACAGGGTCATCACCTCCTACAGCTATCTCGCGTATATCGTTCCGGCACCCATCGCGTACTTCCTGGTGCAGCTGGGGGCCATCAACATCAACGAGACCGTGGGCGAACGGATCTTTTTTGTCACCGGCATCTCCACTCCCGGTATGGAGCCCGGCTGGGCGCAGTTCATTGACATGCTGGCTCATTATGCGGTCCCCACCATCGCCATCACGCTGGTGGGCTGGGGTTCCTACCAGATCGCCCAGCGGCAGTATCTGCTGGACAACGTCAACGCAGACTTTGTCCGTACCGCCCGCGCCAAGGGGCTCACCCGCAACCAGGCCATCACGCGGCACGCCCTGAGGGTGTCGTTCATCCCCGTGGCCCAGAGCATCGCCTTCACCATTCCGGCCATATTCGCCGGCGGCTTCTTTGCCGAGAAAATCTTCGCCTGGCCCGGGGTCGGCTCGTGGAGCATCGACGCCATCTCGCTGCAGGACGTCAACGCGGCAACAGCCACCTTGGCCTATGGCTCTGTGATCTTCGCCCTCGGCGCCATCCTGGCTGACTTCGCCACCACGCTTGTTGACCCGAGAGTGAGGGTCCAGTAG	MLRYLAKRGITYLLMIFLTTSAGYFLAVTSLKPALLEQERIPRPTPEQVANSMRLKGLDPDLSPWERYVDWLTGIVTRWDWGRSPNGAFINAEFGDRVWISTRLFLASIVLTLVIGVALGVYSAARQYKFQDRVITSYSYLAYIVPAPIAYFLVQLGAININETVGERIFFVTGISTPGMEPGWAQFIDMLAHYAVPTIAITLVGWGSYQIAQRQYLLDNVNADFVRTARAKGLTRNQAITRHALRVSFIPVAQSIAFTIPAIFAGGFFAEKIFAWPGVGSWSIDAISLQDVNAATATLAYGSVIFALGAILADFATTLVDPRVRVQ	PGPT0013025_143	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013025-gsiC-K13890	NA	NA
D1-29_04561	615			hypothetical protein	ATGTGGACTGTGAGCTTCATCCCATTGCGGCCCGGTTCGTTGGCCGGCCCCCATGAACGCAGTGATGCGGCGCGAAACCGCGAACGCCTGCTGGGGGCAGCCCGTGAGCTGATTGAGGAGTGCGGAGCTGACGGGCTCACCATGGACGGACTCGCTGAACGGGCAGGTGTGGGCAAGGGGACGGTCTTCCGCCGATTCGGCAGCCGGGCCGGACTCATGATGACACTCCTGAGTGACGCCGAGGCGGACTTCCAAGCCCGCTTTATGTTTGGTCCCCCGCCGCTGGGCCCCGGAGCGCCGGGGATGGAGCGGCTCATGGCGTTCGGCGTCGAACGCATAGCGTTTGTCATGCAGTACGGCGAACTGGCGCGCGCGGCCGACAAATCAGTCCACAACCGCTTTGATGTGCCGGCGGCCGGGCTGTGGCATCGCCACATTGAGCATCTGTTGCGCGAGGAAGGCGTGGAAGCGGACCCGTGGCTCCTGGCAATGTCCCTTAGCGCCAGCCTGGATCCGGAATGGGTGCTGCACGCGGTCCATGTCCATGGCGTGACCACAGAGCGCCTCGCGAATTCATGGCGCGAACTTGTCACACGGGTAGTGCGCGGGGCGTAG	MWTVSFIPLRPGSLAGPHERSDAARNRERLLGAARELIEECGADGLTMDGLAERAGVGKGTVFRRFGSRAGLMMTLLSDAEADFQARFMFGPPPLGPGAPGMERLMAFGVERIAFVMQYGELARAADKSVHNRFDVPAAGLWHRHIEHLLREEGVEADPWLLAMSLSASLDPEWVLHAVHVHGVTTERLANSWRELVTRVVRGA				NA	NA	NA	NA	NA
D1-29_04562	558			hypothetical protein	ATGAGCAAGAGCACCGTCCTTACCCTCGTCGGCAGCCTTCGCGCCGAGTCCACCAACCAGAAGCTTGCCGAGGCGATCCAGCTAAACGCCCCGGAGCAGGTGGACGTGATCATCCACGAAAGCCTCGGCAACATCCCGTTCTACAACGAGGACATCGACGTTGAGGGTCAGGTGCCGGCCGCAGCCGCCGCTCTCCGCGCCGCAGCCAACGAAGCCGACACCCTGCTGCTGGTTACACCTGAACACAACGGCACGGTGCCCGCTTCCCTGAAGAATGCCATCGACTGGCTGTCCCGCCCCTATGGTGCCGGCGCCCTCACCGGAAAGCCCACCGCCGTCGTCGGTACCGCATTTGGCCAGTTCGGTGGAGTCTGGGCACAGGATGAGGCACGCAAGGCAGTGGGCATCGCAGGCGCCAACGTGCTCGAAGACGCCAAGCTGGCCGTACCGGGTTCCATGGTGCGTTTCGCTGAACTGCACCCGAAGGACGACGCCGAGGTTATTGAGCAGATCAAGGGTGTCTTCGACGCTCTTGCCGCTGCCCAGCCTGTCGCCTGA	MSKSTVLTLVGSLRAESTNQKLAEAIQLNAPEQVDVIIHESLGNIPFYNEDIDVEGQVPAAAAALRAAANEADTLLLVTPEHNGTVPASLKNAIDWLSRPYGAGALTGKPTAVVGTAFGQFGGVWAQDEARKAVGIAGANVLEDAKLAVPGSMVRFAELHPKDDAEVIEQIKGVFDALAAAQPVA	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
D1-29_04563	396			hypothetical protein	ATGCAGACGGTCACGGCCTACTACGTGCTTCTTGACGACGGCGGCAGCAGCGGCGTGCGTTTTGGCTGCAATGACAGCCTGGTGGGCGTCCGCCGGGCCACCTCCGGTTCAACAGAGCCGCTGCCGGCGGCCATCCGGGCCCTGCTTGATGGCAGCGCCCCGGCAGGCGGACTCTACAACTCGCTGTCCGCTTCGGAGCTGAATTTCCTCGCAGGCAGCTTCGACGGAACCACTGTGACGGTCTATCTGGCCGGGTCCCTCCGGCCTGGTGGAGTCTGCGACGTCCCACGGATAGAAGCGCAGCTCACCCAGACTGCAGTCTCCTCAGTGGGAGCCATCAGGGCCGAAATCTATGTAAACGGCGTGGGCCTGGCCGAGACCCTCAATCCCCGGTAA	MQTVTAYYVLLDDGGSSGVRFGCNDSLVGVRRATSGSTEPLPAAIRALLDGSAPAGGLYNSLSASELNFLAGSFDGTTVTVYLAGSLRPGGVCDVPRIEAQLTQTAVSSVGAIRAEIYVNGVGLAETLNPR				NA	NA	NA	NA	NA
D1-29_04564	846		COG2513	putative protein	ATGACTCCCGCCTCGCACTCCCCGGCCAGCGCCGCCGCGTTCCATGCCCTCCACAATGAGGGAGGCGAGCCGCTGGTCTTGGTCAATGTCTGGGATGCCGCTTCAGCCAGGCTGGTTGAGGAAGCCGGAGCCACAGCACTCGCCACGTCCAGCTCTGCCATTTCCTGGAGCCTGGGATTCCCGGATGGCAACAGGCTGCCCCGCGGGCTCGCCATGGAAGCGCTCAAGCGGATTGTCGCGGCCACCAGTCTTCCGGTGACCGCTGATGTGGAAACCGGCTATGCCGGCAGTGATGGCCACTATGAGGATGCGCTCCTTCGGGAGACCATCCTCGCTGTTGTTGACGCCGGCGCGGTGGGCATCAATTTCGAGGACTCCGGGGACCAGCCGCTCACCAGTGTGGCCGAACAGTGCCGGCGGCTGGAAGTGGTGCGTGAAACCGCCGCCGGTGCCGGGGTTGATCTTTTCATCAATGCCCGCATCGACACCTACCTCTCGGGCAATTTTCCGGAGCAGGCTTTTGCCGAGACCCTGTTGCGTGCCGGTGCATACCTGGACGCCGGGGCCAACGGCATCTTTGTGCCCGGGGTGACGGACCTGCATGTCCTGCACGAACTCTCACGCCGGGTTCCCGCCCCACTCAACGCCCTCGCCGGGGTGGGGGCGCCGTCGGTAGGTGAACTGCACGACGCCGGCGTGCGCCGTATCAGCATTGGCGGCAACACTGCCAAGGCGGCGTATGCAACGGTCTCCAAGGTGGCCCTTGAAGTGCTGGGCGATGGCAACTGGTCCGAACTGGCGGGTGCCCGCAGCCACGCGTCGATGGACGCCCTCTTCGGCGGTTGA	MTPASHSPASAAAFHALHNEGGEPLVLVNVWDAASARLVEEAGATALATSSSAISWSLGFPDGNRLPRGLAMEALKRIVAATSLPVTADVETGYAGSDGHYEDALLRETILAVVDAGAVGINFEDSGDQPLTSVAEQCRRLEVVRETAAGAGVDLFINARIDTYLSGNFPEQAFAETLLRAGAYLDAGANGIFVPGVTDLHVLHELSRRVPAPLNALAGVGAPSVGELHDAGVRRISIGGNTAKAAYATVSKVALEVLGDGNWSELAGARSHASMDALFGG				NA	NA	NA	NA	NA
D1-29_04565	1293	lysN	COG1167	2-aminoadipate transaminase	GTGACCAACGAGACACTTGATGCCGCAGCAGGGCTGCTGCCAGCAGAAGCCATTGACGCAATCGAACGCGCGGCCACGTCCGCCCACCGCCACGAGAACCTCTTCTCGGAGCGCGCAGCCAACATCAAGCAATCCGCCGTCCGGGATGTTTTTGATATCTCAATGCGCCCCGGTCTGGTCTCCCTGGCCGGAGGCAGCCCGTACCTGCAGTCACTGCCGCTTGACCGTCTGACCGGCACGGCGGGCAGTATCATCGCCGAGGACGGCCTCACCGCGCTTCAGTATGGCAGCGGCCAAGGCACTGAGGAACTGCGGGCCCAAATCTGCGAGGTGATGGCCGCCGAGGGGATACTGGACGCCCTTCCGCAGAACGTCGTGATCACGGCCGGTTCGCAGTCCGCCCAGGACATCGCCACCAAGGTATTCTGCAATCCCGGAGACGTGGTGCTCGTGGAGAACCCCACTTATGTAGGGGCCCTCAATACCTTCGAGGCCTACCAGGTCCAGGTGGAAACCGTGGAAATGGACGCGTCCGGGATGGTACCGGACTTATTGGAGGCCAGGATCGCCGCCCTCCAGACGGCCGGGAAAAGCATCAAGTTCCTTTACACCATTCCCAGCTTCAATAACCCGTCAGGAATCACCTTGGCTCCCGAGCGCCGCCAGGAGATCGTGGATATATGCCGACGGGCGAATATCCTGGTGCTGGAGGACAACCCGTACGGTTTGCTCCGGTTTGACGGTCAGCCGTTGGAACCCCTCCGGGCTGCGAACCCCGACGACGTGATCTATATGGGCTCGTTCTCGAAGATCTTCGCCCCGGGCCTGCGCATCGGATGGGCACTGGTTCCCGAGCACCTTCAGCGCCGCTACTACCTCGCCGCGGAATCAGTCACCCTTTGCCCTCCCACGTTCAACCAAATGCTGGTGTCTGCCTACCTTCGGGACTATGACTGGAGGGGCCAGATTGAGACTTACCGAGGGCTGTATGCCCAGAGATGCCAGGCGATGCTGGCTGCCCTTGAGGAGTACATGCCGCCCGGCCTGAGCTGGACCACACCCGAGGGCGGCTTCTTTGTGTGGGTGACACTGCCTGAGGGCGTGGACACCTATCCCTTGCTGAAGAAGGCGATAGATGCCGGCGTCGTCTTTATCCCCGGCGCTGCGTTCACTCCATCAGTGGAATCGTCCAATAAGCTGCGGCTCGCCTTCAGCGCCGTGCCGCCTGACGCCATCGTGGAAGGCGTGAGACGTTTGGCCCCCGTGCTGCGCGAAGCCATCGCGGCGCTGTAG	MTNETLDAAAGLLPAEAIDAIERAATSAHRHENLFSERAANIKQSAVRDVFDISMRPGLVSLAGGSPYLQSLPLDRLTGTAGSIIAEDGLTALQYGSGQGTEELRAQICEVMAAEGILDALPQNVVITAGSQSAQDIATKVFCNPGDVVLVENPTYVGALNTFEAYQVQVETVEMDASGMVPDLLEARIAALQTAGKSIKFLYTIPSFNNPSGITLAPERRQEIVDICRRANILVLEDNPYGLLRFDGQPLEPLRAANPDDVIYMGSFSKIFAPGLRIGWALVPEHLQRRYYLAAESVTLCPPTFNQMLVSAYLRDYDWRGQIETYRGLYAQRCQAMLAALEEYMPPGLSWTTPEGGFFVWVTLPEGVDTYPLLKKAIDAGVVFIPGAAFTPSVESSNKLRLAFSAVPPDAIVEGVRRLAPVLREAIAAL	PGPT0007135_325	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
D1-29_04566	429			hypothetical protein	ATGAGCGGAATTATTGTTGTAGGCGTTGACGGCAGCGGAACAGCCAGGAAGGCAGCCGAGGCGGCGCGGGACCTCGCTGCGGCTATGGGTGCCTCGCTGCACGTGGTGTCTGCCTTTGACAGCGACCGCACCGAGGTCTTTGGCTCCGGCAGCGACCAGTGGATTGTCTCCGATGCCGACAGCGCCGAGACCGTGGCCCGCGGGGTTGCCCAAGCCCTGGGGCAGGACATCAAGGTGAGCTACTCAGCAGCCCGGGGCAAGCCTGCCGATGCGCTGATCAAGGAAGCGGACCGCCTGGACGCGCGCATGATCGTGGTGGGCAACCGGAGGATGCGTGGCATCGGCCGTGTACTGGGCAGCGTGGCAAACAGCGTGGCCCACAACGCCCCCTGCGACGTCTACATCGCCAACACCTACGACGCCGACTAA	MSGIIVVGVDGSGTARKAAEAARDLAAAMGASLHVVSAFDSDRTEVFGSGSDQWIVSDADSAETVARGVAQALGQDIKVSYSAARGKPADALIKEADRLDARMIVVGNRRMRGIGRVLGSVANSVAHNAPCDVYIANTYDAD				NA	NA	NA	NA	NA
D1-29_04567	381			hypothetical protein	ATGATGCGGACAGCAAGCATCCGCCCTACCCAAGGGGTCCCCTTGATCGCCTTCCAGCACCGCCACCTTGTTGGCCACGACATCCTCCTGGCCCGCCACGGCAACCACTTCTGCTCCGTGCGGCTGGACCGCAGCGCAGGGCGCGTTGTGGCCCTGCTCGACGACGGAACCACCGACAGCGCGCCGAACCTCATCTCCCCCGACCTTCGCCTGCCGGAGACTGTCCAGGGTGTCCTCCGTGAGGACTGGAAGGTCTTTACGGCCATTTCGGCAGCCACCGCCGGTCTGGGGGCCCTGGTGTTTGCTGCAGCCTGGTCCTTCAGTGGCACGGTCATGGATCCCGCCGTGGCTCAGATGATCTCCACTTACCCGGCGTTCTGA	MMRTASIRPTQGVPLIAFQHRHLVGHDILLARHGNHFCSVRLDRSAGRVVALLDDGTTDSAPNLISPDLRLPETVQGVLREDWKVFTAISAATAGLGALVFAAAWSFSGTVMDPAVAQMISTYPAF				NA	NA	NA	NA	NA
D1-29_04568	1521			hypothetical protein	ATGACTCTCAATAAATTCAACCTTCCCGACGTGGGCGAAGGTCTGACCGAGGCTGAAATCGTCTCCTGGAAAGTCAAGCCCGGTGACACCGTCGCCATCAATGACGTCCTGTGCGAAATCGAGACCGCCAAATCACTGGTGGAGCTGCCCTCGCCTTTTGCCGGGACGGTAACCGAGCTGCTTGTCCCCGAGGGGGTGACCATCGACGTCGGCACAGCCATTATCAGCGTCTCCGACGCCGTCTCCGGAGATCCGACGCCTGCGGATGTCCCCGCCCCCGCAACCCCGGTGCAGCCGTTGTACGGCAAGCTTCCCGAGCCCGACGGCGGCACGGCGGACAGTGCCCTGGCGGGCGGCCCGCTGGTTGGTTCCGGCCCCAAGGCTGACGCCGTCAAGCGGCGGCCGCGCAAGGCCTCCCCCACCGCCAACACGGCAGGGGCCGATACAGCGGCGGCCAATACTGCAGCGGCCGGTCCAGCAGCGGCTGAGCCTGCTCCGCCGGCGCCGGTCCCGGCAGCATCGGCGACAAACGTGACAGCAAACGCGACAGCGCAAACGACGGCTGCCCCTGAACTGGACGAGCCGCTGGACAACCGCCCCACACTCGGCGGGACCATCACGGGCCTGGTCAACCGGGTCCTGGCGAAGCCGCCGGTGCGGAAAATCGCCAGGGACCTGGGCATTGACCTGGCCGATGTTGTGGCCACAGGCTCCCGCGGTGAAGTCACCCGGGAGGACTTGGTCAGCTACCAGGCGCAGCGTGATGCGGAACTGGACATGGCCGAAGGATTCTGGGGCAAGGCCGGAAAGCCGCAGGACCAGCGGATCGAAGTCATTCCCGTCAAGGGTGTCCGTAAGGCTACGGCCAAGGCAATGGTGGAATCTGCCTTCGCGGCACCGCATGTCAGCATCTTCGTGGATGTGGACGCCAGCCGCACTATGGAGTTCGTGAAGCGGCTCAAGGCCTCGCGGGACTTCGAGGGCATCAAAGTGTCCCCGCTGCTGATCCTGGCCAAGGCCGTCATCTGGGCCGCCGCCCGGAACCCCAGTGTCAATGCGACGTGGGTGGACAACGCCGACAACGCCGAGATCCATGTCAAGCACTATATGAACCTGGGTATCGCGGCGGCCACCCCGCGCGGGCTGATGGTTCCCAACATCAAGGACGCGCAGGACCTCTCGCTGAAGGAGTTGGCGCTGGCGTTGAACAACCTCGCCACCACCGCCAGGGCCGGGAAGACCCAGCCGGCACAAATGCAGGGCGGGACCCTCACCATTACCAACATTGGTGCCCTGGGGATCGATACCGGGACCCCCATTATCAACCCGGGCGAAGTGGCGATCGTTGCCTTTGGAACCATCAAGCAGAAGCCCTGGGTGCTGGACGGCGAAGTCATCCCCCGCTGGATCACGACGCTTGGCGGCTCATTCGACCACCGGGTGGTCGACGGCGATCTGTCCGCCCGCTTTATGGCTGACGTAGCGGCCATCCTGGAGGAGCCGGCGCTCCTGCTCGACTAG	MTLNKFNLPDVGEGLTEAEIVSWKVKPGDTVAINDVLCEIETAKSLVELPSPFAGTVTELLVPEGVTIDVGTAIISVSDAVSGDPTPADVPAPATPVQPLYGKLPEPDGGTADSALAGGPLVGSGPKADAVKRRPRKASPTANTAGADTAAANTAAAGPAAAEPAPPAPVPAASATNVTANATAQTTAAPELDEPLDNRPTLGGTITGLVNRVLAKPPVRKIARDLGIDLADVVATGSRGEVTREDLVSYQAQRDAELDMAEGFWGKAGKPQDQRIEVIPVKGVRKATAKAMVESAFAAPHVSIFVDVDASRTMEFVKRLKASRDFEGIKVSPLLILAKAVIWAAARNPSVNATWVDNADNAEIHVKHYMNLGIAAATPRGLMVPNIKDAQDLSLKELALALNNLATTARAGKTQPAQMQGGTLTITNIGALGIDTGTPIINPGEVAIVAFGTIKQKPWVLDGEVIPRWITTLGGSFDHRVVDGDLSARFMADVAAILEEPALLLD				NA	NA	NA	NA	NA
D1-29_04569	981	bkdB_3	COG0022	3-methyl-2-oxobutanoate dehydrogenase subunit beta	ATGACCACCATGACTATTGCCAAGGCAATCAACGAAGGCCTCCGCGCAGCCCTGGCCAATAATCCGAAATCCCTGCTCATGGGTGAGGACATCGGGCCCCTCGGCGGCGTCTACCGTGTTACCGATGGTTTGATCGGCGAGTTCGGCCCGGACAGGGTGGTGGATACGCCACTCGCGGAGTCCGGCATTATTGGCACCGCGATCGGGCTGGCCTTACGGGGCTACAGCCCGGTCTGCGAAATCCAGTTTGACGGCTTTGTGTTCCCTGGCTTCAACCAGATCACCACGCAGCTTGCCAAAATGCACGCCCGAAGCCATGGCAACCTCACAGTCCCGGTGGTCATTCGCATCCCTTACGGCGGCGGCATCGGTTCCGTTGAGCACCATTCGGAGTCCCCTGAAGCGCTCTTCGCCCATACGGCCGGCCTGCGTATCATCACACCATCCAATCCGCACGACGCCTACTGGATGATCCAGCAGGCTGTCGACTGCCAGGACCCCATCATCATCTTCGAACCCAAGCGCCGCTACTGGCTCAAGGGAGATGTTGATGTCCAGGCGGCGGGTCCTGCTGCCGACCCGTTCAAGGCGCACGTTCTCCGCGAGGGCACGGACGCCACCATTGTGGCGTATGGCCCCCTGGTTCCGGTGGCACTCGCCGCCGCAAACGCCGCGGCTGAGGACGGCCGCAATGTGGAAGTGATCGACCTCAGGTCCCTGTCGCCCATCGATTTCGATACCGTCACCGAGTCCGTCACGAAGACCGGACGGCTGATTGTTGCCCACGAGGCCCCAACGTTCGGCGGGCTGGGCGGGGAGATCGCCGCCCGAATCAGCGAGCGGGCCTTCCTTTCGCTTGAAGCCCCCGTGATCCGGGTGGGCGGCTTCCACATGCCGTATCCCGTGGCGAAGGTTGAGGAAGACTACCTTCCGGACATCGACCGGATCCTCGAGGCGCTGGACCGCGCCCTGGCGTACTAG	MTTMTIAKAINEGLRAALANNPKSLLMGEDIGPLGGVYRVTDGLIGEFGPDRVVDTPLAESGIIGTAIGLALRGYSPVCEIQFDGFVFPGFNQITTQLAKMHARSHGNLTVPVVIRIPYGGGIGSVEHHSESPEALFAHTAGLRIITPSNPHDAYWMIQQAVDCQDPIIIFEPKRRYWLKGDVDVQAAGPAADPFKAHVLREGTDATIVAYGPLVPVALAAANAAAEDGRNVEVIDLRSLSPIDFDTVTESVTKTGRLIVAHEAPTFGGLGGEIAARISERAFLSLEAPVIRVGGFHMPYPVAKVEEDYLPDIDRILEALDRALAY	PGPT0008862_2004	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
D1-29_04570	1263	bkdA_3	COG1071	3-methyl-2-oxobutanoate dehydrogenase subunit alpha	ATGGGCGCCACACATCTGCCCTCCACCGAGTTCGATGGAACTGCAGTAGACGACCAGCTTGAGGCTGAGGCCGAGGCCGCCATGGGCGAGCCGCCGGCCCCCATGGTCCAGCTTCTGTGCCCTGAGGGAAAGCTTGGCACACACCCCGTCTTCAGTGAATATGCCGAAAAGCTGGACCCCGAAAAGCTGCGCCGGCTGTATGCCGATATGGCAGCCATCCGCCGGTTCGACGTGGAAGCTACCGCTCTGCAGCGGCAGGGCCAGCTTGCCCTGTGGGTTCCGCTGACAGGCCAGGAAGCCGCACAAATCGGTTCCGGGCGCGCCAGCCAACCCCAGGACTACATCTTCCCCACCTACCGTGAGCACGGCGTTGCCCTGACCCGCAACGTGGACTTGGCCGAACTGCTGCGCCAGTTCAGAGGGGTGTCCAATGGCGGCTGGAACCCCAAGGACACCAATTTCCATCTCTACACACTTGTCCTGGCGGCCCAGACCCTGCACGCAGTGGGTTACGCCATGGGCATCCAGCGCGACCAGAAGCTTGCTGCCACGTCGGATCCGGCACGCACCGAACCTGCGGCAGCAGTGATGGCCTACTACGGCGACGGTGCGAGCTCTGAGGGTGACGTCCACGAGTCCATGGTGTTTGCTTCGTCCTTCAACGCCCCCGTGGTGTTCTTTTGCCAGAACAACCACTGGGCGATTTCAGTGCCGAGCACTGTCCAGACCCGGATCCCGCTGTCCAACCGTGCCAAGGGCTATGGCTTCCCCGGTATCCGGGTGGACGGCAACGACGTCATCGCCGTGCATGCCGTCACCGAGTGGGCACTGGACCACGCGCGCCAAGGCAAAGGCCCGGTCCTGATCGAGGCCTTTACCTACCGGTTGGGAGCCCACACCACCGCCGATGACCCCACCAAGTACCGCGAATCCGCCGAGGAAGACGCCTGGCGGGCCAAAGATCCCCTGATCCGGCTGGAGAAGTACCTCCGCGCCCAGGACCTGGCCGACGACGCCTTCTTTGCGCAGGTCAAAGCTGACGGCGACGAGCTTGCGTCCTATGTCAGGCGCACAACGCATGACCTTGAAACCCCGGACATCCGCAGTGCCTTCGCCAACACCTATGTGGAGGCCCACCCGCTGGTTGCCGAGGAACTGGCGTGGTTCGAGGAATACAGTGCAGGTTTTGCCACTGGCGGGCCGGATGAAGGGGCAGACGCCCGTCCGGGCACACAGGCAGACACGGAGGCAGGCAGCCGATGA	MGATHLPSTEFDGTAVDDQLEAEAEAAMGEPPAPMVQLLCPEGKLGTHPVFSEYAEKLDPEKLRRLYADMAAIRRFDVEATALQRQGQLALWVPLTGQEAAQIGSGRASQPQDYIFPTYREHGVALTRNVDLAELLRQFRGVSNGGWNPKDTNFHLYTLVLAAQTLHAVGYAMGIQRDQKLAATSDPARTEPAAAVMAYYGDGASSEGDVHESMVFASSFNAPVVFFCQNNHWAISVPSTVQTRIPLSNRAKGYGFPGIRVDGNDVIAVHAVTEWALDHARQGKGPVLIEAFTYRLGAHTTADDPTKYRESAEEDAWRAKDPLIRLEKYLRAQDLADDAFFAQVKADGDELASYVRRTTHDLETPDIRSAFANTYVEAHPLVAEELAWFEEYSAGFATGGPDEGADARPGTQADTEAGSR	PGPT0008861_773	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
D1-29_04571	1119	pat_3	COG0079	Putative phenylalanine aminotransferase	ATGACTTCATCAGAGACCCTGGCTGGGGGAGTACGCCCCCGCCCGGTAATAGGCCGGCTTCCCCGCTACGCCGCAGGCAAACCGCCCGTCGCCGTTGAGGGTCTGGCAAGCTACAAGCTTTCCTCCAACGAGAACCCGCTGCCGCCGCTGCCTGCCGTTGTGGACGCCATTGCGCACCAGACAGACTTCAACCGATACCCGGATCCGCTGAGCAGCAAGCTTCGTGCCGCGCTGGCTGATTTCCTGGCTGTCCCGGCGGAGGACATTGTTACCGGCGCAGGCAGCCTGGGCGCCCTGAATCAACTGCTGGCCACGTTCGCCGGCCAGAACGACGACGGCGAACCGGACGAAGTCATTTATGCCTGGCGCTCCTTTGAGGCCTATCCCATCAGCGTGGGCCTGGTGGGTGCCACCGGCGTTGTCATACCTGTCACCCCTGACGGCCGGCACGATCTTGACGCCATGGCCGCGGCCGTCACGGTTCGCACCAAAGTCGTCCTGCTCTGCACGCCCAACAACCCCACCGGGCCCATCCTGACCACCGCCGAAACAGAACGGTTTATCCAGGCGGTCCCCGCGGACGTCATTGTGGTCATCGACGAGGCCTACCAGGAGTTCGTCCGGGCCGAAGACGCTGTGGACGGCATTTCGATGTACCGCAAGTATCCCAACGTGGTGGTGCTCCGGACCTTCTCCAAGGCCCATGGCCTGGCCGGGCTTCGCGTAGGTTACAGCATCTCCAACCCGGAATTGACACAGCACCTGAGAGTGGCAGCCACGCCCTTCGCGGTCTCACAAATCGCCGAGCGCGCAGCCATCGTTTCCCTGCAGAACTACCCCCAGATTGTAGAAAGGGTACAAAGCCTGGTGGAGGAACGCGACAGGGTGACGGCAGGGCTGAAGGAGCTGGGTTGGTTTGTTCCGGAGGCCCAGGGAAACTTTGTGTGGCTGGCTCTGGGAGCCAACAGTGGGGAATTCGCCGAACTGGCGGCTACCCAGGCACTCTCCGTGCGCGCCTTCGGAAACGAGGGCGTCCGGGTGAGCATTGGTGAGGTGGAGGCGAATACCCGCTTCCTCCAACTGTGTGCGAACTATACAAAGCCGCCACGCCGTTCCTAG	MTSSETLAGGVRPRPVIGRLPRYAAGKPPVAVEGLASYKLSSNENPLPPLPAVVDAIAHQTDFNRYPDPLSSKLRAALADFLAVPAEDIVTGAGSLGALNQLLATFAGQNDDGEPDEVIYAWRSFEAYPISVGLVGATGVVIPVTPDGRHDLDAMAAAVTVRTKVVLLCTPNNPTGPILTTAETERFIQAVPADVIVVIDEAYQEFVRAEDAVDGISMYRKYPNVVVLRTFSKAHGLAGLRVGYSISNPELTQHLRVAATPFAVSQIAERAAIVSLQNYPQIVERVQSLVEERDRVTAGLKELGWFVPEAQGNFVWLALGANSGEFAELAATQALSVRAFGNEGVRVSIGEVEANTRFLQLCANYTKPPRRS	PGPT0020305_1890	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
D1-29_04572	429			hypothetical protein	ATGCGCTCCTTTATCGTTCGGATCCTCATCAACGGACTGGCCCTCTGGATTGCCAGCTGGATCCTGCCCGGCATGGACATTTCTACGTCGGCCGCCACTGAAGCCGTTGCCAAGACCGGGGTGACCCAAGGGACGGACACCCTCGGGATCATCGGCGCCTACTTGTTCATAGGCGTGATTTTCGGAGTGGTCAACGCGTTTGTCCGGCCGCTTGTCAGCCTCCTCTCCCTGCCCATCACCATCCTTACGCTGGGCCTCTTCACCATCGTCATCAATGCAGCCATGCTCTACCTGACGTCCTGGATCAGCAGCTACACGCCGGTGCACTTCACCATTGACTCCTTCTTTTGGACAGCGGTGCTGGCAGCCATCATCATCACAGTCATTTCCCTTGTAGCGGGAAGGCTCCCCGGCGCGCGGAAGCGCTGA	MRSFIVRILINGLALWIASWILPGMDISTSAATEAVAKTGVTQGTDTLGIIGAYLFIGVIFGVVNAFVRPLVSLLSLPITILTLGLFTIVINAAMLYLTSWISSYTPVHFTIDSFFWTAVLAAIIITVISLVAGRLPGARKR				NA	NA	NA	NA	NA
D1-29_04573	1455			hypothetical protein	ATGTCAGAAGTGACGCCTTCGGACAGTGGAGGCCCCCTCCGGCCGGCTGGCCCTGCCCGCGATGGCGGCCTGGTAATTTCCGGCGGAATCGGGGGGATCAGCTTCCAGCTTGAGGAACTCATGGGCGGGGCAGAGAAGCTCGACGTCCTGGCGAGTGAACTCAGCGCCGTGGAAGTGGAAATGCACCACATCTGGGAGGACCTGTCGCCCTACCAGAATGCTTCACGCTACTCGGGCATGGAAGCAATCATTTCAGTGGGCGAGGCCCGGCGCAGCGTCCAGGCAGTCCGTACAGAGCTGCAGCGGATAAGTGGCCAAGTGCGTGCCAGCAAGCGGGACTACGAATCCGCAGAAGCACTGGCGAACGTAGTTCATGGGCTTGGTCTCAGGCTGACAAGCTGGGAGCTGCTGGGGCAGCAGGTTGCCGACCTTGGCCTTGGCCCGGTACCCAACAGGGAAGTCGCGGAAATTATGCTAGGCAACGTCCCCGTCACCATGGGTGCCTTCTTGGCTTTCTCGTCGCCGGCACACTTTGTGACGGCTGTGGCGGCGGACCTGGCGGCGGGAAAGCACATCTCGGTTGCAGCTCCCCTGATCAAGGCATTGGCAAGGCAGTCCGTTCCCGTGCTGAAGCCGCGTCCGGTCACCGTGGATCGGGAAGAGTCCCTGCCTCTGGAACTGGATGCTTCGGCCGCCGGCCTCTTGGAACGTGCCCGGGCTGTTGATGAGCGGGGCCAGGGTTACATCGAAGTCATTGAGGTGGACAACGGCGGGCAGAAAGCCTATATCGTGGTGATTCCTGGCACGCAGACAGAAACTGAGGTGGGCGGGACCAATCCCTTTGATCTAGCCGGAATCGGGGAAGGATTGGGCTATGGGTCGGCCGAGGTGAATTCAGCCGTTCTGCAGGCCCTGGAAGCGGCCGGAGCCGAGAAAGGATCGCCTGTCGTAGCAGTGGGTTACAGCCAGGGCGGTGTCCACGCCATGAACCTGGCAGCCGACGAGCTCTTCCTGGACGAGTACGACGTGAAGTATGTGCTGACCGCCGGATCCCCGGTAGGCGGGATCACTCCTGCCGCAGGCATCAGCAGCATGCATCTGGAACACAGGCAGGACTGGGTTCCCGGGAGCGATGGAACCCCCAGTCCTGACACCGTGGACCGTGTCACGGTAACCCTGACCGACCCGGCCCGGATCCCGGAAGGCGAGGAATTTGGCCTGGGCCCGGGGCACCGGCTCAGCGGCTATGTGGATGGCGCCCGGCAGGTGGAGGCCAGTGACGATCCTTCGCTCGTGGCGTCCACTGCCGTACTGGGCGGCGTGCTCGGAGCCGGAGGGACGGCCACCGCCACCCGTTTCTCACTTAACAGGCAGAAACCGCCCGATCCGCAGTCCACGCCGCTGACGGTACCGAATCCCAAACCTCAATCCTCACCGAGGCCACCCGCTGGTTAG	MSEVTPSDSGGPLRPAGPARDGGLVISGGIGGISFQLEELMGGAEKLDVLASELSAVEVEMHHIWEDLSPYQNASRYSGMEAIISVGEARRSVQAVRTELQRISGQVRASKRDYESAEALANVVHGLGLRLTSWELLGQQVADLGLGPVPNREVAEIMLGNVPVTMGAFLAFSSPAHFVTAVAADLAAGKHISVAAPLIKALARQSVPVLKPRPVTVDREESLPLELDASAAGLLERARAVDERGQGYIEVIEVDNGGQKAYIVVIPGTQTETEVGGTNPFDLAGIGEGLGYGSAEVNSAVLQALEAAGAEKGSPVVAVGYSQGGVHAMNLAADELFLDEYDVKYVLTAGSPVGGITPAAGISSMHLEHRQDWVPGSDGTPSPDTVDRVTVTLTDPARIPEGEEFGLGPGHRLSGYVDGARQVEASDDPSLVASTAVLGGVLGAGGTATATRFSLNRQKPPDPQSTPLTVPNPKPQSSPRPPAG				NA	NA	NA	NA	NA
D1-29_04574	303			hypothetical protein	ATGAGCAGTGATACCGCGGCGGCAGACATGGCCTTCCGCATGTCCCGAAGCCACGACATCCAGCAGCTGGCTGCCCGGGTAGACGGCTGTACCCGGCGGGTTGAGGAAGTCCTGGCTGGCTTCTGGAAGATTCAGTTGCTGGACTGGCAGTCTCCTGCGGGCCGCGCCTACCGGGACTCCGTGGCTTTGCAGGCCGCCGCGCTCGGCCGGACGCGAGACCGTCTTCAGGGAGCCGCTGACGCCGTCAACCGCCACTCCCGGGCGGTTTTGGTCTGCGAAGCGCCGCCGGGCGGCGGCTACTGA	MSSDTAAADMAFRMSRSHDIQQLAARVDGCTRRVEEVLAGFWKIQLLDWQSPAGRAYRDSVALQAAALGRTRDRLQGAADAVNRHSRAVLVCEAPPGGGY				NA	NA	NA	NA	NA
D1-29_04575	1443	purB	COG0015	Adenylosuccinate lyase	ATGCCTGAAACTGCTGCCACAGCTGATATCCGTACGCCCTCCGGACGCCTTGCCCTTGCCGCGTCACCGGAACAGATTGCGCTCGGCCCACTGGACGGCCGCTACCAGTCCGCCGTCGCGCCCCTGGTGGACTACCTTTCCGAAGCAGCCCTCAACCGGGACCGTGTGGCCGTCGAGGTGGAGTGGCTCATCCACCTGACCAGCAACAACGTCCTTCCCGGGGCCGGTCCGCTGACCAGCGCACAGCAGGACGAACTGCGCAGGATCGTCACGGAATTCGACGCATCTTCCGTGGCCGAGCTGGCCGAAATTGAGGCGGTGACGGTGCACGACGTCAAGGCCGTCGAGTACTACATCGGCCGCCGCCTGCCGGCGATCGGCATTGAGCACCTGACAGCTATGGTGCACTTCGGCTGCACCTCCGAGGACATCAACAACCTCTCCTACGCGCTGGGCGTGAAGGGCGCTGTGGAGGACGTGTGGCTGCCAGCCGCCCGTGGTTTGGTTGCCCAGATCAGCAGGATGGCCGAGGACAACAGGGCCGTTCCCATGCTGTCCCGCACACACGGCCAGCCTGCCACACCCACCACGCTGGGCAAGGAACTTGCCGTGATGGCGCACCGCCTGAAGCGCCAGCTGGACCGGATCGACACCACCGAATACCTGGGCAAGATCAACGGAGCCACGGGCACCTACGCCGCCCATGTGGCGTCGGTCCCCGGAGCCGACTGGGAGCAGGTGGCCAAGTCCTTCATCGAAGGGCTGGGGTTGACCTGGAACCCGCTGACCACACAGATCGAAAGCCACGACTGGCAGGCAGAGCTGTATGCGGACGTCGCGCGGTTCAACCGGATCCTGCACAATGTCTGCACCGATATCTGGAGCTACATCTCCATCGGCTACTTCGCGCAGGTCCCGGTGGCCGGGGCCACGGGCTCCTCCACGATGCCGCACAAGGTGAACCCCATCCGCTTTGAAAACGCCGAGGCCAACCTGGAGATCTCCTCTGGCCTGCTGGACGTCCTGGGCTCCACGCTGGTGACGTCCCGCTGGCAGCGTGACCTCACCGATTCCTCCAGCCAGCGCAACATCGGCGTGGCGTTCGGGCACTCCCTGCTGGCCATTTCCAATGTTGCCAAGGGCCTGGACCGGCTGGACGTTGCCGAGGACGTGCTGGCCGCCGACCTGGATACCAACTGGGAAGTCCTGGGCGAGGCAATCCAGATGGTCATGCGAGCCGAGGCCATTGCCGGCGTCGAAGGCATGGAGAACCCCTACGAACGCCTCAAGGACCTGACCCGCGGACAGCGCGTGGACGCGGCCCGCATGCAGGAGTTCGTCCAGGGCCTGGGCCTCTCCCCGGAGGCTGAAGCCCGGCTGCTCGCCCTGACCCCCGGCAAGTACACGGGCATCGCGGACCAGCTGGTGGACCACCTGAAGTAG	MPETAATADIRTPSGRLALAASPEQIALGPLDGRYQSAVAPLVDYLSEAALNRDRVAVEVEWLIHLTSNNVLPGAGPLTSAQQDELRRIVTEFDASSVAELAEIEAVTVHDVKAVEYYIGRRLPAIGIEHLTAMVHFGCTSEDINNLSYALGVKGAVEDVWLPAARGLVAQISRMAEDNRAVPMLSRTHGQPATPTTLGKELAVMAHRLKRQLDRIDTTEYLGKINGATGTYAAHVASVPGADWEQVAKSFIEGLGLTWNPLTTQIESHDWQAELYADVARFNRILHNVCTDIWSYISIGYFAQVPVAGATGSSTMPHKVNPIRFENAEANLEISSGLLDVLGSTLVTSRWQRDLTDSSSQRNIGVAFGHSLLAISNVAKGLDRLDVAEDVLAADLDTNWEVLGEAIQMVMRAEAIAGVEGMENPYERLKDLTRGQRVDAARMQEFVQGLGLSPEAEARLLALTPGKYTGIADQLVDHLK	PGPT0021555_789	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756	NA	NA
D1-29_04576	672		COG0406	PE-PGRS family protein PE_PGRS11	ATGAAGCTGCTGCTCATCCGCCATGGACAGACCCCCGGAAACGTCCTCGGCCAGCTGGATACGGCCCACCCGGGACCAGGACTCACGGAACTTGGTGAACGGCAGGCGGAAGCCATGGCACGGTCACTGGCCAACGAGCCCATCTCAGCTCTGTATGCGTCCACCCTGGTCCGCACGCAGGTAACGGCCGCTCCCCTGGCCCGCGTGCATGGACTGGACGTTGAGGTGCTGGACGGTCTGCACGAAATCGAAGCCGGCGCCCTGGAGAAACTGACCGATCACGAGTCCCATAAGCGGTACATGGGAACGGTTTTCGCATGGGCCGCCGGAGACCTTGACCGTCGGATGCCCGCCGGCACGGACGGCCACGCATTTTTTGAGCGGTATGACGCCGCCATCACCCGGATCGCCGAACGCGCCATGAAGGACGGGGACAACGCTACTGCCGCAGCGGTCAGCCACGGTGCCGCGATCCGCACGTGGGCCGGGCGGCGGGCCGCGGATACGGATCACGAGTTCGCCGCCCACCATGTCTTATCCAACACCGGAATTGTGGCCCTGGAGGGTGATCCCGATGCTGGCTGGACGCTCCTCCATTGGGACGGCAGCCCCGTGGGCGGGCTGGCCCTGGCCGACCCGACGGCGGAGGACCCCATGGGCGAGCGCGCCTAG	MKLLLIRHGQTPGNVLGQLDTAHPGPGLTELGERQAEAMARSLANEPISALYASTLVRTQVTAAPLARVHGLDVEVLDGLHEIEAGALEKLTDHESHKRYMGTVFAWAAGDLDRRMPAGTDGHAFFERYDAAITRIAERAMKDGDNATAAAVSHGAAIRTWAGRRAADTDHEFAAHHVLSNTGIVALEGDPDAGWTLLHWDGSPVGGLALADPTAEDPMGERA				NA	NA	NA	NA	NA
D1-29_04577	504			hypothetical protein	ATGCAGACCAATCCCCGTCTCAACATCAGGCAGGTCACCTGGTCCAACCCCGTGGGCGCCGACCTGCGCAGGGCGCAGCAGGCGGAACTGGACGCCCGCTTTGGTACGCCGAACCACGAACCGGGGACCCCGCCGTCGGGCGCGGACTGTGCTGTTTTCCTGGTGGCGTACGACAAAGGCTCCGGGCAGCCAGTGGGGTGCGGCGGCCTGAGGCTGCTGGATGATTCAACGGCGGAAATCAAGCGGCTGTATGTCCTCCCGTACACCCGGGGAAGCGGCGTAGCGAGCTCCATCCTGGCCGCACTTGAAGCCGAGGCGTTCCGGCAGGGAATCAGCCGGATCAAGGCGGAGGCCGGGTCTGCGCAGCCGGACGGCCGGAACTTCTACCAGAACTCAGGCTTCGAGCCCGTGCCCAACTTTGGCCCTTACATCGGGGTGGAGCACTCTTACTGCTACGCGAAGAACATCAACTCGTACAGCGCCGCCAATACCGCTATGGCATAG	MQTNPRLNIRQVTWSNPVGADLRRAQQAELDARFGTPNHEPGTPPSGADCAVFLVAYDKGSGQPVGCGGLRLLDDSTAEIKRLYVLPYTRGSGVASSILAALEAEAFRQGISRIKAEAGSAQPDGRNFYQNSGFEPVPNFGPYIGVEHSYCYAKNINSYSAANTAMA	PGPT0007180_1021	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
D1-29_04578	1086		COG1840	putative protein	GTGCGAAAATTTCAGACTTTGGTTGCTGCTGCCGTCGCCGTTACCCTTCTTTCGGGCTGTGCAGGGGGTGCCGCCACTCCCGCAGCCTCCGGTGATTCCTCTTCGTCCGCGGCAGGCGCATCGGGCGAAACACTGGTCATTTACACAAATTCCAACGGTGAAGGCCGCGGTGAATGGCTGACGGCCAAGGCGGCTGAGGCCGGTTTCAAAGTTGAGGTAGTGGGGGCCGGCGGTGCCGATGCCACAAACAAACTTATCGCCGAAAAGAACAATCCCATTGCCGATGTCGCGTTCGGCCTGAACAACATGTACTTCGCCCAGATCAAGGCTGCGGGGGCGATCGAGCCCTACGAACCCGCCTGGGCTGGTGAGGTGGACACCGCCCTGGGCGATGCCGGCGACGACAAAGCCTATTGGCCGCTGGTCAAGCAGGCGATTCTCCTGGGCTACAACTCCGACAAAATCACCGCTGACGCCGCGCCCAAGGACTGGACGGACCTGTGGACCAGGGACGAATTCAAGTCACGGTATGAGCGGGTGACCGGGCTGGGTACCGCCACCGCGCAACTGGTGTTCGCCAGCCTGCTGACGCGCTATAAGGACGAATCCGGAGATCTGGGCATCTCGGATGAAGGCTGGAAGCAGGTGGAGCAGTACTTCCAGAACGGCAGCCCGGCTGTTGCAAAGACAGACCTTTTCGCCCGGATTGCCGCCGGCGACGTGGACATGGGCCAGATGCCGTCCTCGATCATCGCCGAACGTGAGAAGTCCTTCAAGGTCAACGTGGAGACGGTAGCGCCGTCCGTTGGGGTTCCGCTGGCCGTGGAACAGGTGGCCCTGGTCAAGGGGACGGACAAGAAGGAAGAGGCGCAGAAGTTTATTGACTGGTTCGGCAGCGCAGATGTGCAGGGCGCGTGGGCCAAGCAGTTCAACTCGATGCCCGTGAACAAGGGCGCCGCGGCTCAGGCCAATCCGGAGGTGGTGGACTTCTTCGCTGACGTCAAGCAGCAGGACATCGACTGGAACTTCGTGCAGGAAAACATGGGCGCATGGGTGGAGAAGATCGAGCTCGAATACATGACGTAG	MRKFQTLVAAAVAVTLLSGCAGGAATPAASGDSSSSAAGASGETLVIYTNSNGEGRGEWLTAKAAEAGFKVEVVGAGGADATNKLIAEKNNPIADVAFGLNNMYFAQIKAAGAIEPYEPAWAGEVDTALGDAGDDKAYWPLVKQAILLGYNSDKITADAAPKDWTDLWTRDEFKSRYERVTGLGTATAQLVFASLLTRYKDESGDLGISDEGWKQVEQYFQNGSPAVAKTDLFARIAAGDVDMGQMPSSIIAEREKSFKVNVETVAPSVGVPLAVEQVALVKGTDKKEEAQKFIDWFGSADVQGAWAKQFNSMPVNKGAAAQANPEVVDFFADVKQQDIDWNFVQENMGAWVEKIELEYMT	PGPT0003725_1204	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
D1-29_04579	1068	potA	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGATCCGCTTGGACAACATCGAAGTCTCCTTCGGCGATTTCGTCGCCATCCCCCACTTGGACCTTCACGTTAAACCCGGGGAGTTCTTCACGTTGCTGGGTCCGTCCGGCTGCGGAAAAACGACGGCGCTGCGCACCCTGGCAGGGTTCATTGAACCGTCAGCGGGAAGTGTCCATGTGGACGGCAGGAACGTGACCCGGCTTCCCAGCGACAAGCGGCAGGTGGGCATGGTGTTCCAGAACTATGCCCTGTTCCCCAGCATGAGTGTGTGGGAGAACATCGCCTTCGGACTCAGGGTCCGGAAGGAGAAGTCCGCCGAGACGGACCGCCTGGTGCGCGATATTGCGCGCCGGGTGGAGCTCAGCGATGAGCAGCTGCACAAAAACGTGGCGGAGCTTTCGGGTGGGCAACAGCAGCGTGTGGCGGTGGCGCGGGCCTTGGTGCTGCGTCCCAAGATCCTGCTCCTGGACGAGCCGCTCTCCAATCTGGATGCCAAGCTGCGGCACCAGCTGAGGCAGCAGCTCAAGGACCTCCAGAGCGAGTTCGGCATCACCACCGTGTACGTCACCCACGACCAGGATGAGGCGCTGGCCATGAGCGACCGCGTGGCCGTTTTCAACAAGGGCGTGATCGAGCAGGTGGGCACTCCGCAGGCGATCTATGATGAGGCCGCCACAGAGTTTGTCTGCACCTTCATCGGCGACAGTTCCCCGCTGTCCGCTGGCTTCATCACCGAACTGAACCGGCTCTCCGGTGCCGGCCTCAGCCCTGACGCCAACTCCTACCTGCGGGTGGAAAAGGCGTCACTGACCGCCCCCGCCAATGGCGGCACCGCCGTCGGGCTGGCTGGAACGGTGCTGTCACGCACCTATCACGGCCTCCACAGCCGCTACGTGGTGCGGAGCCACGGCGCTGATATCCGGCTGTTGGTCAGGGAAGACGGCGGCGTGCACCCCGACGCCGGCGCGGAAACGACCATCTATGTCCAGCCGGGCCACGTGCTTCAGTACCACGCCGATACGGGCGCGGCCCTGGCCCGGAAGGCCCAGGCAGTGGCCCTGCCATGA	MIRLDNIEVSFGDFVAIPHLDLHVKPGEFFTLLGPSGCGKTTALRTLAGFIEPSAGSVHVDGRNVTRLPSDKRQVGMVFQNYALFPSMSVWENIAFGLRVRKEKSAETDRLVRDIARRVELSDEQLHKNVAELSGGQQQRVAVARALVLRPKILLLDEPLSNLDAKLRHQLRQQLKDLQSEFGITTVYVTHDQDEALAMSDRVAVFNKGVIEQVGTPQAIYDEAATEFVCTFIGDSSPLSAGFITELNRLSGAGLSPDANSYLRVEKASLTAPANGGTAVGLAGTVLSRTYHGLHSRYVVRSHGADIRLLVREDGGVHPDAGAETTIYVQPGHVLQYHADTGAALARKAQAVALP	PGPT0003735_1080	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
D1-29_04580	1914			hypothetical protein	ATGAGCAGGGTCTCCGTCTCCCTGAAGAACAGGGGCAGGAACAGCGGCAGGAGTGGTGGCAGGAGTAGTGGCGACGCCAGGAGCATGCTCCGCTCGCCGTTCGTCCTGATGGTGGGCGCGGTGCTCACCTGGTTCATCGCAGCGTTCCTGGTCTGGCCCAACCTGAACGTCCTGATAGCAACGTTCTTTCCGGACGGCAGCTTCTCCGGGCGGGCGGCCGAGAAACTGTTCTCCTCCCAGCGCGCCATGAAATCCCTGGGCAACAGCTTCCTGCTGGCGCTTGCCCTGTCCGTCACCGTGAATGTTGTGGGCATCTTCATTGTGCTGGTTACGCAGTACTTCAGGATCCGCGGCTCCCGGATCCTGTTTTTGGGCTACGCCTCCACCTTCATCTACGGCGGCATTGTGCTGGCTGCCGGCTACAAATTCATCTATGGCGACAAAGGGATTGTCACGTCCTGGCTGCTCACGGTGTTCCCCGACATGGATCCGGCGTGGTTCTCCGGCTTCTTCGCCGTGCTGGTGGTGATGACGTTTGCCACCACCACCAACCACATGCTGTTTGTGGGCAATGCGCTTAAGGGCGTTGACTTCCAGACCATCGAGGCGGCCCGGAACCTGGGCGCATCCACTTGGACCATCCTGCGCCGGGTTGTGCTGCCCATGCTCAAACCCACTCTCTTCGCGGTCACCATCCTGTCCTTCCTGACCGGGCTGGGGGCCCTGAGCGCCCCGCAGGTGCTGGGCGGCCGGGAGTTCCAGACCATCACGCCGATGATTCTGACCTTTGCCAACAGCCCCACTTCACGGGACCTGGCTGCGCTGCTGGCTGTCATCCTGGGCGTTTCCACCATCCTGATGCTTGCGGTCATGTCCCGGCTGGAGAAGCGCGGCACCTATTACTCGCTGTCCAAAGTGTCTTCGGCAATGCAGAAACAGCAAATCACCAGTCCTGTCGCCAATGCTGCCGTGCACATCATCGCCTACCTGCTGTTCGCGTTGTACACGCTGCCCGTGGTGCTGATTGTGCTGTACTCGTTCGCCGACGGCGCGGCCATCCAAACCGGCCAGATCTCCCCGGGCAGCCTGACGCTGGACAACTACGTGCGGATCCTGACCCAGCCATCAGGCCTGCATCCTTTTATTGTCAGCGTGGTCTACAGCGGACTGGCAACAGTGATTGCGGTGGGCGGGCTGCTGTTTGTGGCCAGGCTGCTTCAGAAGTACAAAAACTGGGTTGCCTCTGTCTTCGAATACCTGCTCCACATTCCCTGGATCCTGCCCTCGGCCCTGCTGGCCCTGGGGCTCATCATCAGTTACGACCACCCGAATCCGATGGTGGGCGGCGCTGTCCTTACCGGAACCACAGTGATCCTGCTGATCGCGTTTGTGACGGTCAAGATCCCGTTCACCCTCCGGATGCTCAAGGCATCATTCGCGTCGGTCAACACCTCGATGGAGGAAGCCGCCGCCATCATGGGCGCCAAGACGCTGTACGTGTTCCGGCGGATCCTCCTGCCCCTGGTGCTGCCGGCCGCCGCAGCCATTGCCGCCCTGAACTTCAACAACCTGCTGGACGACTACGACACCGCGATCTTCCTGGCTCATCCGCTGGTCCAGCCTCTGGGGCTGGTGATTAAGGCGAACACCGACGGCGCCGAAGGGGTGGAGGGCGTGGCCAACACGTTCGTCTACACCGTGCTGCTGATGGTCATCACCGGGCTGACCATGTACCTCGTCTACGGCCGCTCCAGCAGGCGCGTGGCCGGCCCGGGCCTGAGCAGTGGTGCCGGTGCGGGCAAGGGTGCGGGCGGGAAGCGGCCCGGCGCTTTCCAGGGGACCTCTGGATCCCGGGACGCACCGGTGGCCGGGGCGGCAGGGCCGGAGGCCCCTGTCTTGAGCGGAAAGCGTTAG	MSRVSVSLKNRGRNSGRSGGRSSGDARSMLRSPFVLMVGAVLTWFIAAFLVWPNLNVLIATFFPDGSFSGRAAEKLFSSQRAMKSLGNSFLLALALSVTVNVVGIFIVLVTQYFRIRGSRILFLGYASTFIYGGIVLAAGYKFIYGDKGIVTSWLLTVFPDMDPAWFSGFFAVLVVMTFATTTNHMLFVGNALKGVDFQTIEAARNLGASTWTILRRVVLPMLKPTLFAVTILSFLTGLGALSAPQVLGGREFQTITPMILTFANSPTSRDLAALLAVILGVSTILMLAVMSRLEKRGTYYSLSKVSSAMQKQQITSPVANAAVHIIAYLLFALYTLPVVLIVLYSFADGAAIQTGQISPGSLTLDNYVRILTQPSGLHPFIVSVVYSGLATVIAVGGLLFVARLLQKYKNWVASVFEYLLHIPWILPSALLALGLIISYDHPNPMVGGAVLTGTTVILLIAFVTVKIPFTLRMLKASFASVNTSMEEAAAIMGAKTLYVFRRILLPLVLPAAAAIAALNFNNLLDDYDTAIFLAHPLVQPLGLVIKANTDGAEGVEGVANTFVYTVLLMVITGLTMYLVYGRSSRRVAGPGLSSGAGAGKGAGGKRPGAFQGTSGSRDAPVAGAAGPEAPVLSGKR	PGPT0003730_564	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
D1-29_04581	1188	praI		4-hydroxybenzoate 3-monooxygenase (NAD(P)H)	ATGGCAGCACGCAAGGTCGTCACCACCCAAGTAGCCATCGTTGGCGCCGGTCCGGCGGGACTGATGCTGTCCCACCTCCTGGCTTCCTCTGACATCAATTCCACCGTGATCGAGGCCCGCAGCCATCAAACGATCTCCGAGACAGTCCGCGCCGGCATCCTGGAGCATGGCACGGTTAACCTGCTCGTGGAGAGCGGGGTTTCGGACCGCGTGCTGCGCGACGGCGACCGGCACGACGGCATCGAGCTCAGGTTCCATGGCGAAAGCCACCGCATTGACTTCAAGGGGCTGGTGGGCGAATCCGTCTGGCTCTACCCCCAAACCGATGTATTCCTTGACCTCGCCGCCGCAAGGAAGGCCGACGGCGGGGACGTCCGTTACAGCGTCACTGACACCATGGTGCATGACCTGGAGGGCAGGCCGAAGGTCTGGTTCACCGACGCTGACGGTGTGGAGTATGAGATCCAGGCAGAGTTTGTGGTGGGGGCTGACGGCTCACGCAGCCACTGCCGGCTCCAGATCCCGGAGGCCAGCCGGAAGTGGTACTTCCACGAGTACCCGTTCGCCTGGTTCGGGATTCTGGCCGAAGCGCCGCGCAGTTCCGATGAACTCATCTACGCAAACTCAGCCAACGGCTTCGCCCTGATCAGCCAGCGGACCGAAACTGTCCAGCGCATGTACTTCCAGTGCGATCCCAAGGAGAGCGTGGCTGACTGGGACGATGACAGGATCTGGGCCGAATTCCGCAGCCGCGTCAACGGTAACGGCTTTGAACTAAAGGAAGGGCCGGTCATCGACAAGATGGTCCTGCCGTTCCGCAGCTTTGTCCACACCCCCATGCGCCACGGGAACCTCTTCCTTGCCGGCGACGCCGCCCACACGGTTCCGCCCACCGGTGCCAAGGGCCTGAACCTGGCCATTCAGGACGTCAAAGTGCTCTTCGAGGGACTGGACAGCTACTACCGCTCCGGCTCCAGTCAGCTCCTGGACTCGTTCAGTGACCGCGCCCTGGAGAGGGTCTGGAAGGCGCAGCAGTTCTCCTACTGGATGACCACCATGCTGCACACGCCGGCCGATGCTGACGAGTTCTCCCGTGCCCGCCAGCTCGGCGAACTCAATTCCGTAGTGTCCTCCAGGCACGGCATGGCGTACCTGGCTGAGGCGTACACAGGCTGGCCAGCTTCTTAG	MAARKVVTTQVAIVGAGPAGLMLSHLLASSDINSTVIEARSHQTISETVRAGILEHGTVNLLVESGVSDRVLRDGDRHDGIELRFHGESHRIDFKGLVGESVWLYPQTDVFLDLAAARKADGGDVRYSVTDTMVHDLEGRPKVWFTDADGVEYEIQAEFVVGADGSRSHCRLQIPEASRKWYFHEYPFAWFGILAEAPRSSDELIYANSANGFALISQRTETVQRMYFQCDPKESVADWDDDRIWAEFRSRVNGNGFELKEGPVIDKMVLPFRSFVHTPMRHGNLFLAGDAAHTVPPTGAKGLNLAIQDVKVLFEGLDSYYRSGSSQLLDSFSDRALERVWKAQQFSYWMTTMLHTPADADEFSRARQLGELNSVVSSRHGMAYLAEAYTGWPAS	PGPT0005065_384	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
D1-29_04582	744	xynR_5	COG1414	HTH-type transcriptional regulator XynR	GTGGCCAACTCCGTTTCTGGAGACTCCGTGGTGGACCGCGTGGTGCGTGTCATCTCGGCCTTCCCGGAAGGTGCCGGAAGCCTGCAGTTGTCCGATCTGGCGGCCCGGGCGGGGCTTCCCCTCACCACTGCCCACCGGCTGGTCCGGCAGCTCGCGGCTCACGGACTGCTGGAACCCGGGCCGGGCGGGACGGTTCGATTGGGCCTGAGGCTGTGGGAGCTCGTGAACCGCAATTCCCCCACCCTGGCGCTGCGGCAGGCGGCGCTGCCCTTTATGGAGGACATTCAGGCCGTCCTCAACCAGAACGTCAACCTAGCCGTGCTGGAAGGTTGGGAGGTGCTGTTTGTAGAGCGTCTCTCGCGCAGGGGTTCCGTGGCCAACAGGGCGCGGGTTGCCGGCAGGATGCCGGTCCACGTCTCGTCCGTGGGACTTGCCCTCATGGCCCACCAGCCCAAGGCCCTGCAAAGGGAGTATCTGGACCAGTTCTCGGATCCGGCCGAAAAGGTGACCCCCCAAGCCCTGCGCGGCCTCCTCAGCGAAAGCGCCCGCCAGGGCTTCGCGCAGCTGGCCGGAGCGGTGGATCCGGAGACCTGGGGCATTGCCGTTCCCGTGCTCGACGGCAGGCAGCGGGCTGTCGCTGCCCTCGGCGTCGTGGTTCCCCTGCATGAGATGCGGCTGCAGTCGCTGGTTCCCGCGCTGCAAACCGCAGCGCGCGGGATAGCCCGCCGTCTGAGCGAAGCTTAA	MANSVSGDSVVDRVVRVISAFPEGAGSLQLSDLAARAGLPLTTAHRLVRQLAAHGLLEPGPGGTVRLGLRLWELVNRNSPTLALRQAALPFMEDIQAVLNQNVNLAVLEGWEVLFVERLSRRGSVANRARVAGRMPVHVSSVGLALMAHQPKALQREYLDQFSDPAEKVTPQALRGLLSESARQGFAQLAGAVDPETWGIAVPVLDGRQRAVAALGVVVPLHEMRLQSLVPALQTAARGIARRLSEA				NA	NA	NA	NA	NA
D1-29_04583	837			hypothetical protein	ATGAAGCCCCCTGCAAGGAAACCTGCCACGGCTGATTTGAGCTGCGAAGTCTGCGGCCTGATGCCGGAACCCACCAAGACCCGCCTCACCATGGCCAACGTGGCCGTTATGCTCCCCATCGAACTCCTGGTCCACGCCCTGGTGGTCCAGACGCACCTGCCCTACCTGGCCAAGGTTCTGGTGCTCACCCTCACCGCTACCGTCCTGGTCATCTGGGTGGCGGAACCCTCTGCCGCCCGGGTACTGAAGGGCTGGCTGCACGCCCCGGCACTGCGCCACCGGAGGCGCCTGGGCGCTGCGCCGGCGCTCTGGCGGGCGCGCACCGTGCTGCGGGACCAGCCCGGTGCCCTGCAGAAGATCACGCAGGCGCTGGCCCGCCTGGATACCAACATCCTGAGCATTCACGTCCACCCCGTCCCCGGCGGAGTGCTGGACGAGTTTGTCCTCTCCGCGCCGGGCAACCTCAGCGAGCGCAAACTCCTGGATGCACTGCACGACGGCGGCGGCTCGCGGTCCCATGTGTGGCCCACCACCGCGCTGGCCATGGCGGACGGACAGACCAGGGCGCTGAGCCTGGCCGCCCGGGTCGCCGATGCCCCAGACGAACTGCCGCTGGCAGTGGCCGAGCTGCTGCGGGCACGGATCGTCCCGGCGGCGGATGCGGCTCTGCAGGAAACGGACGACGCCGGCACCCGCCTGAAAATCCCCACAGCCTGGCACGGACCCATCACCTTCGCCCGTCCCGACGAACCATTCACGCCGGCGGAGTCAGCCCGGGCTCATCGGCTGGCGGAGCTGGCCGAGATCCTGTCGCACCGCCCGGCAGCGCCTGTCTAA	MKPPARKPATADLSCEVCGLMPEPTKTRLTMANVAVMLPIELLVHALVVQTHLPYLAKVLVLTLTATVLVIWVAEPSAARVLKGWLHAPALRHRRRLGAAPALWRARTVLRDQPGALQKITQALARLDTNILSIHVHPVPGGVLDEFVLSAPGNLSERKLLDALHDGGGSRSHVWPTTALAMADGQTRALSLAARVADAPDELPLAVAELLRARIVPAADAALQETDDAGTRLKIPTAWHGPITFARPDEPFTPAESARAHRLAELAEILSHRPAAPV				NA	NA	NA	NA	NA
D1-29_04584	927	dagK_3	COG1597	Diacylglycerol kinase	ATGCCAGCCAACAGCTCCACAGCCCTCAAGCGTGCGGCCGTCATTATCAATCCCGCCAAGCCGGTGGATATCGACGTGCGCGGGCTGATCGCCAAGCACTCCGCAGACAATGGCTGGGGCGAGCCCATCTGGCTGGAAACCACCAAGGAGGATCCCGGCGTCGGGCAGGCGGAGGAGGCACTCAAGCAGGGGGCCGACGTCGTTATTGCAGCGGGGGGCGACGGCACCGTCCGTTACGTGGCCCAGGTCCTGGCCGGAACTCCTACCCCGTTGGGCCTGGTGCCGCTGGGTACCGGAAACCTGCTGGCCCGCAACCTGGGCCTGGATGTCACAGACGTGGAGGGCGCCATCAAGGGCGCGCTGGTGGGATGGGAACGCCGGATCGACGTGGTCCGCGCCGTCCGCAGCGACCCGGACAAGGAGCAGCTCTTCGTGGTCATGGCCGGCATGGGCTACGACGCCACTATCATGGCTGACACCGACGAGGAGCTCAAGGACAAGGTTGGCTGGCTGGCCTACGTGGACGCCGGAATCAGGAACCTGCCCGGGAAGCCGGTCAGGGCCACGATCGTGATAGACGGCAAGTCTGTGGTTCACCGCCGAATCCGCGGCGTGATGGTGGGCAACTGCGGAAAAGTCCAGGGCAATTTGGAGATCTTCCCGGACGCTGCAGTGAACGATGGCCTCCTGGACGTGGTGGTCCTGGCGCCAAAAGGCCGCTTCGGCTGGTTCTCCGTCATCGGCGGAATGATCATCAAGGGGCGGAACAGAGACACTTCGGTTCAATACTTCCAGGGCAAATCCGTGGAGATCACGCTGGAGCACAACGACGATTACCAGCTCGACGGCGACCACGAGGGCGAAGGCAAGCACGTAAAGATGAACATCGACCCGGAAGCGCTGACCATCCGCATGGCAGTCGGTTAA	MPANSSTALKRAAVIINPAKPVDIDVRGLIAKHSADNGWGEPIWLETTKEDPGVGQAEEALKQGADVVIAAGGDGTVRYVAQVLAGTPTPLGLVPLGTGNLLARNLGLDVTDVEGAIKGALVGWERRIDVVRAVRSDPDKEQLFVVMAGMGYDATIMADTDEELKDKVGWLAYVDAGIRNLPGKPVRATIVIDGKSVVHRRIRGVMVGNCGKVQGNLEIFPDAAVNDGLLDVVVLAPKGRFGWFSVIGGMIIKGRNRDTSVQYFQGKSVEITLEHNDDYQLDGDHEGEGKHVKMNIDPEALTIRMAVG	PGPT0024345_1310	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
D1-29_04585	315			hypothetical protein	GTGAGCGAGCCGCAGGCAGCCCCTGACTCTTCCACCACACCCTCGTCCGCCACACCCAGGCAGGCGCGTCCCGTTTGGCTGTTGCCCGTCATCATGACAATCGCCACGGGCGTGGTGGGCATGTTCCTTGTGGCCGGCCAGGGCCTGTACTGGATGATCGCCGTCATCGCTCTGGTGGATGCCATCGGCGTCTTCACCATCATCCGATCGGCCCGGATAAATGCCCGCCACCAGGAAGCGCGGAACCTGAGTTCACAGAACCAGGCAAGCCAGAACACCACGATCCGGAACCAGGACGCCCGGCACCGCCCGTAG	MSEPQAAPDSSTTPSSATPRQARPVWLLPVIMTIATGVVGMFLVAGQGLYWMIAVIALVDAIGVFTIIRSARINARHQEARNLSSQNQASQNTTIRNQDARHRP				NA	NA	NA	NA	NA
D1-29_04586	1374	pntB_3	COG1282	NAD(P) transhydrogenase subunit beta	GTGAATATGCTCGATCCGGTATGGACCTCGCTCCTGTACCTCGTCGCCGCGGTCTTCTTTATCCTGGCACTAAGGGGTCTCAGTTCTCCGCGTACAGCCCGCCGGGGCAACCTGATCGGCGCGCTCGGTGCCCTGATCGGCGTCATCACGGTGTTCCTGTCCATGCGGCTGGATAACATCCCCTGGATCCTCGGTTCCATTGCGGTAGGGACAGTGGCGGCTGCCCCGGTGGCCCGTGGAGTGAAGATGACGCAGATGCCGCAGCTGGTGGCCGCCTTCAACGGTGTGGGCGGCGGCGCCGCGGCGCTGGTCGCCCTGCTGGAACTCAGCCACACAGAGGACCCGTGGGTGCGGCTTGCCATTGTGTTCACGCTGCTGGTGGGCGCAGTTTCCTTCGCCGGGTCCGGCGTGACGTTCGCCAAGCTGCAGGAACTGATGACCACCCGGCCGGTGGTCTTTCCTGGCCTGCCCGTGGTCATGGCGGCGGTGCTGCTCGCCGCGGTGGGGGCCGCCGTCGCCATTATCCTGACGGGTTCGCTGGTGCTCGCCGTGCTGCTCATGCTCCTGGGGCTGGTGGCCGGCGTGCTGCTGGTGCTGCCGGTGGGCGGCGCGGACGTGCCAATTGTCATCTCGCTGCTGAACGCCTTCACCGGCCTGGCCGTCGCGGCCTCGGGAATTGTGCTGGGCAACGTGCTCCTGGTGGTGGCGGGCACCCTGGTGGGCGCTTCCGGTACCATCCTGACCCGTGCCATGGCGGCGGCGATGGGCCGTAGCGTGGCCGGGATCCTGTTCGGGGCCTTCAAGGGAGGTTCGACGGCGGGATCCACCGCCGTGAGCGAACGTCCCGTTCGGTCCTCCAGCCCGGAGGACGTGGCGGTGCTGCTGGGCTACGCACAGCGGGTGATCATTGTTCCGGGGTATGGCCTGGCGGTGGCGCAGGGCCAGCACACGGCCGCCGAGCTGGCGACCGCCCTTGAGGCCCGTGGTATCGAGGTGGACTTCGCCATCCACCCCGTGGCCGGCCGGATGCCGGGGCATATGAATGTGCTCCTGGCCGAGGCCAACGTCCCGTACGAGTCGCTCAAGGAGATGGGCGAGATCAATTCCAAGTTCAGGACGGCCGATGTGGCCCTGGTGGTGGGCGCCAACGATGTGGTTAATCCGGCCGCGAAGACTTCCTCCGGCTCGCCCATCTACGGGATGCCCATCCTTGAGGTAGCTGACGCGCGGCAGGTGATTTTCCTGAAGCGCTCCATGCGGCCGGGGTTCGCCGGGATTGAAAACGAGCTGCTGTACGAGCCGCAGACCTCGCTGTTGTTCGGCGACGCCAAGGATTCCCTGGCCAAGGTGCTGGGCGCGGTGAAGGCGCTGTAG	MNMLDPVWTSLLYLVAAVFFILALRGLSSPRTARRGNLIGALGALIGVITVFLSMRLDNIPWILGSIAVGTVAAAPVARGVKMTQMPQLVAAFNGVGGGAAALVALLELSHTEDPWVRLAIVFTLLVGAVSFAGSGVTFAKLQELMTTRPVVFPGLPVVMAAVLLAAVGAAVAIILTGSLVLAVLLMLLGLVAGVLLVLPVGGADVPIVISLLNAFTGLAVAASGIVLGNVLLVVAGTLVGASGTILTRAMAAAMGRSVAGILFGAFKGGSTAGSTAVSERPVRSSSPEDVAVLLGYAQRVIIVPGYGLAVAQGQHTAAELATALEARGIEVDFAIHPVAGRMPGHMNVLLAEANVPYESLKEMGEINSKFRTADVALVVGANDVVNPAAKTSSGSPIYGMPILEVADARQVIFLKRSMRPGFAGIENELLYEPQTSLLFGDAKDSLAKVLGAVKAL	PGPT0013505_2406	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013505-pntB-K00325	NA	NA
D1-29_04587	315	pntA_3	COG3288	NAD(P) transhydrogenase subunit alpha	ATGGACGGAATGAGCCTGCTGACGATTACCGTGCTGGCGGTGTTTGTCGGCTTCGAAGTGGTCTCCAAGGTCTCCAGCACCCTGCACACACCGCTGATGTCCGGGGCCAACGCCATCCACGGCATCATCCTGGTGGGCGCAGTCATCGTGGCCGGGCAGGCAACCGACGGCTGGGTGCTCGCGGTGGCGCTGCTCGCCGTGGTGCTTGCCACCGCCAACCTGGTGGGCGGCTTCGTGGTCACGGACCGGATGCTCCACATGTTCCACGGCAAAAAAGAGGTTGCCCGGACCGCGGCGAAGGCGGACAACAAGTGA	MDGMSLLTITVLAVFVGFEVVSKVSSTLHTPLMSGANAIHGIILVGAVIVAGQATDGWVLAVALLAVVLATANLVGGFVVTDRMLHMFHGKKEVARTAAKADNK	PGPT0013500_2913	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
D1-29_04588	1179	pntAA	COG3288	NAD(P) transhydrogenase subunit alpha part 1	TTGAAACTCGGCATACCGCGGGAAAGCCGCGAAGGTGAGCGGCGGGTGGCCGCCACCCCGGAAACAGTGAAGCAGCTGGCCGGGCTCGGCCTTGAGGTGCTGGTCGAATCGATGGCAGGCGTTTCGGCCGGTTACAGCGACCAGGAGTACCAGCAGGCCGGCGCCCGGATCGTGGAGCGGCTCGAAACCCCCGGCCTGGACGTCCTCGCCCATGTCCGCCCGCTGGAGACCGCAACAGCCAGGTCCCTGAAAAGGGGAGCGGTCAGTGTGGGCCTGGCGTCGCCGTCGTCGGAATTGGCCACGGTTCAGGCACTTGCCGCCGCGGGCGTGACGTCCTTTGCCCTGGAACTGGTGCCCCGCATCTCCCGCGCCCAGTCCATGGATGCCCTCAGTTCGCAGGCCCTGGTGGCCGGCTACCGCTGCGTGCTCGAGGCCGCCATCCGCCTGCCGCGGTTCTTCCCGCTGTACATGACCGCCGCCGGCACAGTCCCGCCCGCCCGTGTCCTGGTGCTCGGCGCCGGGGTGGCCGGGCTCCAGGCCATCGGCACCGCGAAGAGGCTCGGCGCCCGGGTCTCCGCCAATGACATCCGCCCCGCGTCGGCGGATGAAGTCGCCTCGATGGGCGGCACTTTCATCAAACTGGACCTCGAAACCGCGGAGGCCTCAGGGGGCTATGCCCGGGAATTGAGCGCGGACCGGGGTGCGCTCCAACGCGAACTCCTCGCCCCGCATGTCGCCCAGGCTGACGTCCTGATTACGACGGCGGCCGTCCCCGGCAGGCGCGCGCCCCTCCTGGTCAGCCGCGGGATGGTGCAGGGCATGCGCGCCGGCTCTGTCGTCGTGGACCTCGCCGCGGAGTCCGGCGGCAACGTGGAGGGCTGCGTTCCCGGCGAGGACATCCTGGTGCCCACCGCGGACGGGCAGGGCCACGTCACCCTGGTGGGGCTGAAGGACGCGCCGTCCACGATGGCCTTCGACGCCTCCCGGCTTTACGCCAAGAACGTGGCCAACCTGCTCGCCCTGATGACCCGGGACGGCACCGTGGTACCCGATTTCGACGACGACGTGGTGGCGGGCGCCTGCCTCACCCACGACGGCGTGGTGGTCCACCCGCCGACGGCGGAAGCACTCGCCGCGCCCGCAGCCGGATCCCAGCCACATCAGGAAGGGGGGCTCTGA	MKLGIPRESREGERRVAATPETVKQLAGLGLEVLVESMAGVSAGYSDQEYQQAGARIVERLETPGLDVLAHVRPLETATARSLKRGAVSVGLASPSSELATVQALAAAGVTSFALELVPRISRAQSMDALSSQALVAGYRCVLEAAIRLPRFFPLYMTAAGTVPPARVLVLGAGVAGLQAIGTAKRLGARVSANDIRPASADEVASMGGTFIKLDLETAEASGGYARELSADRGALQRELLAPHVAQADVLITTAAVPGRRAPLLVSRGMVQGMRAGSVVVDLAAESGGNVEGCVPGEDILVPTADGQGHVTLVGLKDAPSTMAFDASRLYAKNVANLLALMTRDGTVVPDFDDDVVAGACLTHDGVVVHPPTAEALAAPAAGSQPHQEGGL	PGPT0013500_1089	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013500-pntA-K00324	NA	NA
D1-29_04589	813	pcaR_3	COG1414	Pca regulon regulatory protein	ATGACCGAAGCACCAGCCGCCACGCAGGCCGCTCCCCAGGCGAGTGACCAGTACGTGCAGTCGCTGGCGCGCGGGCTGGCCGTGATCCGCGCGTTCGACGGTGACCATCCGGTCATGACCCTCACCGAGGTGGCTGCCCGCACCGACCTCACCAGGGCCACGGCCCGGCGTTTCCTGCATACGCTCGTGGAGCTCGGCTACGTCAGGACCGACGGCAAGACGTTCGCCCTCACGGCCAAGGTCCTCCAGCTCGGCTACGCGTATCTGTCCGGGCTGTCCCTGCCGCAGCTGGCCCAGCCGCACCTGGAGGAGCTGTCGCTCAAGCTCGGGGAATCCACGTCTGCCGCCGTGCTGGACGGCACGGACATCGCGTACATCGCCCGGGTGACCACACGAAGGATCATGAATGTGGGCATCACCGTTGGCACCCGCTTCCCCGCCTACGCCACGTCGATGGGCAGGGTGCTGCTGGCGGCGCTGTCACCGGCCGAATTGAAGGCTTACCTGGCCGCAGCGGACATCAGGCCCCTCACTCCGCGCGCGCTGGGAACACCCCGCGAACTCCTGGCTGAGCTGGAAACCGTCCGGGCCCAGGGCTGGTGCCTGCTGGACGAGGAGCTGGAACTGGGGCTCATGTCGGTAGCCGCCCCTGTCTATGACGGTCCCAGCAAAGTGGTGGCTGCGGTGAACGTGTCCCTGCAGGCCCAGTCCGTCGCGGCCAAGCCGGACCGGGAGGCATACCTGGGATCGGTGGCGCAGGAGATCGTGGCCACAGCCAAGCTGATCTCGGCGGACCTGTCAGCGAGGCAGTAG	MTEAPAATQAAPQASDQYVQSLARGLAVIRAFDGDHPVMTLTEVAARTDLTRATARRFLHTLVELGYVRTDGKTFALTAKVLQLGYAYLSGLSLPQLAQPHLEELSLKLGESTSAAVLDGTDIAYIARVTTRRIMNVGITVGTRFPAYATSMGRVLLAALSPAELKAYLAAADIRPLTPRALGTPRELLAELETVRAQGWCLLDEELELGLMSVAAPVYDGPSKVVAAVNVSLQAQSVAAKPDREAYLGSVAQEIVATAKLISADLSARQ				NA	NA	NA	NA	NA
D1-29_04590	681	pcaJ	COG2057	3-oxoadipate CoA-transferase subunit B	ATGAGCACCGCAACGTCCCTCCAGACTTCCGCAACACCCCTGGGCCGTGACGACCTCGCACGGCTTGTGGCCAAGGACATCACGCCAGGCTCGTTCGTGAACCTCGGGATCGGCCAGCCCACGCTGGTGTCCAACTACCTCACCGAGGACCAGGACATCACCCTGCACACGGAAAACGGCATGCTGGGCATGGGCCCGGCCGCCGAAGGGGACCAGATCGACGGCGACCTCATCAACGCCGGCAAGATCCCCGTCACCGAGCTCCCGGGTGCGTCCTATTTCCACCACGCCGACTCCTTTGCCATCATGCGCGGCGGGCACCTGGACATCTGCGTGCTGGGCGCGTTCCAGGTCTCGGCCACCGGTGACCTCGCCAACTGGCACACGGGCGCACCGGATGCCATTCCCGCCGTGGGCGGAGCGATGGACCTGGCAACAGGCGCCAAGGACGTCTTTGTGATGATGACGCTCCTGACCCGCGAGGGGGCATCCAAAATCGTGGAAGCGTGCACCTACCCGCTCACCGGCGTGGGCTGCGTGACCCGTGTCTATACGGACAAGGCCGTGTTCCTGACCGGACCGGATGGCGTCAGCGTTCGGGAGACATTCGGCTGCACCTTTGAGGAGCTCCAGGAACTGGTGCCTGTCCCGCTCAAAGCAGCCCCCGCCGTCGGACCCTAA	MSTATSLQTSATPLGRDDLARLVAKDITPGSFVNLGIGQPTLVSNYLTEDQDITLHTENGMLGMGPAAEGDQIDGDLINAGKIPVTELPGASYFHHADSFAIMRGGHLDICVLGAFQVSATGDLANWHTGAPDAIPAVGGAMDLATGAKDVFVMMTLLTREGASKIVEACTYPLTGVGCVTRVYTDKAVFLTGPDGVSVRETFGCTFEELQELVPVPLKAAPAVGP	PGPT0005030_194	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
D1-29_04591	684	pcaI	COG1788	3-oxoadipate CoA-transferase subunit A	ATGCTGAATTTTGTTGACTCCGTGGCTGAGGCCGTTGCCGGGATCAAGGACGGCTCCACCGTCATGATCGGCGGCTTTGGCAACGCCGGGCAGCCGTTTGAGCTGATCGATGCGCTGCTGGACTGCGGCGCAAGGGACCTGACGGTGGTGAACAACAACGCCGGCCAGGGCGACCAGGGATTGGCGCTGCTGATCAAGGAAGGCCGGGTGAGAAAGATGATCTGCTCCTTCCCGCGGCAATCCGACTCCTGGCATTTCGACGCCAAATACAAGGCCGGGGAGATTGAGCTGGAGCTGGTGCCGCAGGGCAATCTGGCAGAGCGCATCCGCGCCGCCGGCGCGGGCATTGGCGGGTTTTTCACCCCCACCGGATACGGCACCATGCTGGCCGAGGGCAAGGAAACCCGGATCATCGACGGCCGCGGCCAGGTCTTCGAAACACCGATCCACGCCGACGTCGCGCTGATCAAGGCGCTCAAGGCCGACGGCAAGGGCAACCTCGTGTACCGCAAGACGGCGCGGAACTTTGGCCCCATCATGGCCGCCGCGGCGAAGCACACCATCGTCCAGGTCTCCGAGATCGTCTCCACCGGAGGATTGGACCCGGAGAACGTGGTGACCCCGGGAATTTACGTCAACACCGTCGTCCGAGTGGCCGGCGGCACTTCAGAGAAGGCGGCCTGA	MLNFVDSVAEAVAGIKDGSTVMIGGFGNAGQPFELIDALLDCGARDLTVVNNNAGQGDQGLALLIKEGRVRKMICSFPRQSDSWHFDAKYKAGEIELELVPQGNLAERIRAAGAGIGGFFTPTGYGTMLAEGKETRIIDGRGQVFETPIHADVALIKALKADGKGNLVYRKTARNFGPIMAAAAKHTIVQVSEIVSTGGLDPENVVTPGIYVNTVVRVAGGTSEKAA	PGPT0005025_409	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
D1-29_04592	1218	pcaF	COG0183	Beta-ketoadipyl-CoA thiolase	ATGAATCAGGCCTTTGTGTACGACGCCGTGCGCACGCCGTTCGGGAAGTTCGGCTCCGGCCTCGCCGCAGTCCGCCCGGATGACCTTGCTGCGCACGTCATCACCGAATCCGTGAAGCGGGCGCCGAAGCTGGATCCCGAGCGCATCGACGAGGTGGTGTTCGGCAACGCCAATGGTGCCGGCGAGGAGAACCGCAACATCGCGCGGATGGGAACGCTTTTGGCCGGGCTGCCCGTGTCCATCCCCGGCACCACGGTCAACCGGCTTTGCGGGTCATCGCTTGACGCCGCGATCATCGCCTCCCGCCAGATCAATGCAGGCGACGCGGAACTGATGCTGGTGGGCGGTGCCGAGTCGATGTCCCGGTCGCCGTGGGTGCTGCCCAAGACGGACAAGCCCTACCCGGCAGGTGACCTGACCCTGGCCTCCACCACCCTGGGCTGGCGCCTGGTGAACAAGGCCATGCCGAAGGAGTGGACCATCTCCCTGGGCGAGGCCACCGAGCGGCTCCGCGAGAAGTATGGTGTGACCCGGCAGGCGCAGGACGAATTCGCCGCTAACTCGCACAACCTCTCCGCCGCGGCCTGGGACGAAGGCTTCTACGACAACCTGGTAGCCCCTGTCCCGGGCACGGACCTGGTCCGCGACGAGGGCATCCGCGCCGGCTCCACGGCCGAAAAGCTGGCAGCCCTTAAGACGGTGTTCCGCTCCGAGCCCGAAGGCGCCGAGGTTGGCGGCACCGTCACGGCCGGGAACGCATCTCCACTGTCCGACGGCGCCTCCGCGGCCTGGATCGGCTCCGAAAGTGCCGCCGGGCTGCTCGGGCTGGAACCGCTGTCCCGGATCGCCGGCCGCGGCGCGCACGCCAACGATCCCCAGTACTTTGGCTACGCCCCGGTGGAGGCGGCGAACAAGGCCCTCGCGAAGGCGGGCATCGGCTGGGACCAGGTGGGCGCCGTCGAACTTAACGAGGCGTTTGCCGCGCAGTCCTTGGCCTGCATCACCGCGTGGGGCATTGATCCAACAATTGTGAACCGGCACGGCGGCGCCATAGCGATGGGCCACCCGCTTGGCGCATCGGGCACCCGCATCCTTGGCACGCTAGCGCGCAGCCTGCAGGCCTCGGGGGAGCGCTGGGGCGTGGCGGCCATTTGCATCGGCGTGGGCCAGGGCTTGGCAGTGGTGCTGGAGAACGTGTCTGCCGGAGTGAAGGGTTAG	MNQAFVYDAVRTPFGKFGSGLAAVRPDDLAAHVITESVKRAPKLDPERIDEVVFGNANGAGEENRNIARMGTLLAGLPVSIPGTTVNRLCGSSLDAAIIASRQINAGDAELMLVGGAESMSRSPWVLPKTDKPYPAGDLTLASTTLGWRLVNKAMPKEWTISLGEATERLREKYGVTRQAQDEFAANSHNLSAAAWDEGFYDNLVAPVPGTDLVRDEGIRAGSTAEKLAALKTVFRSEPEGAEVGGTVTAGNASPLSDGASAAWIGSESAAGLLGLEPLSRIAGRGAHANDPQYFGYAPVEAANKALAKAGIGWDQVGAVELNEAFAAQSLACITAWGIDPTIVNRHGGAIAMGHPLGASGTRILGTLARSLQASGERWGVAAICIGVGQGLAVVLENVSAGVKG	PGPT0001565_699	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
D1-29_04593	504			hypothetical protein	ATGAGCGGCGTCGACAAGAATGTCTCCGAGCGAAACGGGGCCGTACAGCCCACTGCCACCACCCAGGAGATTTACGACGCCGGCATGGTAGTGCGGCGCGAAGTCCTGGGTGAGGCGCACGTGGACCGGGCCAACGCCACGAAGGACGGGTTCACCGAGGATTTCCAGGACATGATTACCCGGATCGCGTGGGCCGGCATCTGGACCCGCCCGGGCCTCACCCGGCAGATGCGCTCCGCCGTGACCATCACCGCCATGGTGGCGCACGGGCACTGGGACGAGCTGGCCATGCATATCCGCGCAGCCATCACCAACGGCCTCAGCAGGGATGAAATCAAGGAAATCCTGCTCCAGACGGCCATCTACTGCGGTGTCCCTTCCGCCAACACGGCTTTCAAGACGGCCCAGCAGGTGTTCCATGAAATGGACAGCACCGCAATGGACAGCACCGAAATGGACGCAAAAGAGCCCGACCAACCCACCACCCCCACCCCACCCAACTAG	MSGVDKNVSERNGAVQPTATTQEIYDAGMVVRREVLGEAHVDRANATKDGFTEDFQDMITRIAWAGIWTRPGLTRQMRSAVTITAMVAHGHWDELAMHIRAAITNGLSRDEIKEILLQTAIYCGVPSANTAFKTAQQVFHEMDSTAMDSTEMDAKEPDQPTTPTPPN	PGPT0005005_1552	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
D1-29_04594	819	catD_2	COG0596	3-oxoadipate enol-lactonase 2	ATGGCTAAACCGGCCCTCAAAGCAGTCCTGCTTTCGCCCCAGCGCGCCCTCGGCAGCCACCCCCTCCTGGTGCTGGGTCCTTCCCTCGGGACCTCCACCATCCTCTGGAATGAGGCCGCGTCGATCCTGGGCAAAGACTTCGACGTAGTGGCCTGGGACCTCCCCGGCCACGGCGTGTCACCGGCAGCCACCGAAGGGTTCGACGTCGCGGGCCTTGCCGATGCCGTGGTGGAGCTCGTTGACTCCATCGCCCCGGGTGAGGCCTTCCACTACGCCGGCGTTTCCCTCGGCGGAGCCACCGGGCTGCAGCTCGGCATCAAACACGGCGAACGGCTCAAGAGCCTGTCCGTCCTGTGCACCGGTGCCAAGCTGGGCACCCCCGAAGGCTGGCTGGAACGCGCCGAGACCGTGCGGAACCAGGGTACGCCCGTCATGATCCAGGGGTCCGCGGAACGCTGGTTTGCGCCCGGCTTTATGGACCGCGAACCCGAGCGCAGCAGCAGGCTCCTCCACGCTCTCCGGGATGCCGACCGTTTCAGCTACGCCTTCTGCTGCGAGGCCCTGGCAGGGTACGACGTCCGGGCAGAACTGGGCAGTATTTCCGTCCCCACGCAGGCCGTCGCCGGCGCCCTGGACGGTGTGGCCCCGCCGTCGTTGGTTCAGGAAATCGCCGATGGCATCACCGCCGGCGGCGGCACGGCAAGCGCCGTGACCCTGGAGGGTGTGGCGCACCTGGCCCCGGCCGAGGCGCCCGCCCATGTTGCGGAACTGCTCCGCGGCCTCATTGCCTGGGCCGAAGCCCGCGGAGCAGCCAAATGA	MAKPALKAVLLSPQRALGSHPLLVLGPSLGTSTILWNEAASILGKDFDVVAWDLPGHGVSPAATEGFDVAGLADAVVELVDSIAPGEAFHYAGVSLGGATGLQLGIKHGERLKSLSVLCTGAKLGTPEGWLERAETVRNQGTPVMIQGSAERWFAPGFMDREPERSSRLLHALRDADRFSYAFCCEALAGYDVRAELGSISVPTQAVAGALDGVAPPSLVQEIADGITAGGGTASAVTLEGVAHLAPAEAPAHVAELLRGLIAWAEARGAAK	PGPT0004995_533	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
D1-29_04595	1557	pcaB	COG0015	3-carboxy-cis,cis-muconate cycloisomerase	GTGACAGACGCTCCAACGGCTGACCTTCCAGTGACTAATTCGCCAGTCACCGGCGCCGGCCACTTCAGCAGTACAGCTGACGGCGACGTCGGCCTGCTGAGTCCTGTTTCGGCGTCGCCGCTGGTCGCGGCGCTGACCGGGGACAGGGCAGTGCTGGGCGCCATCCTCGCCGTCGAAGCCGGCTGGGCCGCCGTACTGGAAAAGGCCGGCCTGGCGCCGGCCGGTTCCGCCGCCGTCGTGGTTTCCGCCGCGGACGCTGGACGTTACGACGTGGCGGACATCGCCCGCCGTGCCCAGGGTGGCGGCAACCCTGTGATCCCGCTCCTGGCGGACCTCCGGAAGAATGTTCAGGCGCTGGACAGCGCCGGTATCGGTGCCACAACAGCAGTGCATACGTCATTGACCAGCCAGGACGTGCTGGATACCGCCCTCATGCTGGTGGCCCGGCACACCGTACAGGCGGTGCTCGGCGACGTGAAGCGCACGACGGCGGCGCTCGCCGCCCTGACGAAACAGCATGCGGAAACGCTGTGCGTGGGCAGGAGCCTGACGCAGCACTCCCTTCCATTCACGTTTGGGCTGCGGGCGGCCCAGTGGTTCCACGGTGTGGCCGCCGCGGGCCGGCAGCTGGAGAGCCTGGAGCTGCCGGTCCAGTTCGGCGGAGCGGCGGGAACTCTCGCCGCCGGCACAGCCCTCACCTCCGGTGCGGTTTCCACCCCCTTCACACTCGCGGATCGCCTGGCCTCCCAGCTGGGTCTGGCGGCAGCACCCACACCTTGGCACACTAACCGCCTGGCCGTCACGTCACTGGGCAACGCACTGGCCTCAGTACTGGACGCGTTCGGCAAGATCGCAGCAGATGTCGTGTTCCTGAGCCGTCCCGAGGTTGCCGAACTCGCCGAGCCCCTGGCGGCCGGTCGCGGGGTTTCCTCGGCGATGCCGCACAAGCAGAACCCGGTCCTTTCCGTCCTGGTCCGCAGCGCCGCCCTCCAGGCTCCCGGCCTCGCCGCCCAACTGCACCTGGCCGCGGCCAACTTCAATGACGAACGCCCTGACGGCGCATGGCACAGCGAATGGCCCGCGCTCCGCCAGCTACTGGCCCTGTCGCTTGGCGCGGCCGGGCACGTCCGCGAGCTGGTCGAAGGGCTCCGGACCTACCCCGACGCCATGCGCCGCAACCTTGACCTCGCCGGGCCGCTGGTGCTGGCCGAGGGAGTGGCCGCCGCCGTGGCCCCGCTGCTCAAGGACGCCGACGGGCAGGAGGGCGGCCCTTCCGGCAAGCAGCAACTGCAGGCCCTGGTGGACCGCACGCTTGAGGCGCCCGCCGCAGAACAGGGTGCCACCTACCGACGGCTCCTTCGTGAAGCCGTCCCGGCGAACCTGCTCCCCGATGACAAGCTGGCCGAGCTCCTGGATCCGGCGAACTACCTGGGCCAGGCCGGCGTGATCTCCCGCCGAATCCTGGCCGCCTTCCCGGATTTCGCCGCCCAGGACAGCCCCCTTCCGAAGACCACGTCATCCGCCCACACCGACGCGAACGGAGCCAACCATGGCTAA	MTDAPTADLPVTNSPVTGAGHFSSTADGDVGLLSPVSASPLVAALTGDRAVLGAILAVEAGWAAVLEKAGLAPAGSAAVVVSAADAGRYDVADIARRAQGGGNPVIPLLADLRKNVQALDSAGIGATTAVHTSLTSQDVLDTALMLVARHTVQAVLGDVKRTTAALAALTKQHAETLCVGRSLTQHSLPFTFGLRAAQWFHGVAAAGRQLESLELPVQFGGAAGTLAAGTALTSGAVSTPFTLADRLASQLGLAAAPTPWHTNRLAVTSLGNALASVLDAFGKIAADVVFLSRPEVAELAEPLAAGRGVSSAMPHKQNPVLSVLVRSAALQAPGLAAQLHLAAANFNDERPDGAWHSEWPALRQLLALSLGAAGHVRELVEGLRTYPDAMRRNLDLAGPLVLAEGVAAAVAPLLKDADGQEGGPSGKQQLQALVDRTLEAPAAEQGATYRRLLREAVPANLLPDDKLAELLDPANYLGQAGVISRRILAAFPDFAAQDSPLPKTTSSAHTDANGANHG	PGPT0005000_67	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
D1-29_04596	564	pcaG	COG3485	Protocatechuate 3,4-dioxygenase alpha chain	GTGAACACGACTCCCAAACTTGTGGCCACCCCCGGCCAGACCATCGGACCCTTCTACGGCTACGCCCTGCCCTATGAAAAGGACAACGAACTCCTTGCGCCGGGCTCGCCAGGTTCCATCCGGCTCCAGGGCACTGTGTACGACGGCGCCGGGGAGACTGTCCCGGACGCCATCCTGGAAATCTGGCAGCCCGACGCCGACGGCAAAGTCGTGCAGCGCACCGGCTCCCTGGTCCGCGACGGCTACACCTTCACCGGTTGGGGCCGCGCTGCCGTGGGCTACTCCGGCGTCTACACCTTCACCACCGTCAACCCCGGTCCCACCGAGGCAGGCGCCGCACCGTTCATCGCGGTGGCGGTTTTCGCCCGCGGCCTCACGAACCGTCTCTTCACCCGCATCTACCTTCCCGAAAACGAGGAAGCCCTGGCCGCCGATCCGCTGCTCAGCTCGCTTGATATGGACCGCCGCAAGACCCTCATCGCCCGCCGGGACCCCGACGGCGGGCTCACCTGGGACGTCCGCCTGCAGGGTGAGGGCGAAACAGTGTTCCTGGACTTCCAGTGA	MNTTPKLVATPGQTIGPFYGYALPYEKDNELLAPGSPGSIRLQGTVYDGAGETVPDAILEIWQPDADGKVVQRTGSLVRDGYTFTGWGRAAVGYSGVYTFTTVNPGPTEAGAAPFIAVAVFARGLTNRLFTRIYLPENEEALAADPLLSSLDMDRRKTLIARRDPDGGLTWDVRLQGEGETVFLDFQ	PGPT0005010_776	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
D1-29_04597	870			hypothetical protein	GTGCCGCAAGAAGCCAACCAGCTTGGGACCGACGAGCTCGTACCGCATGCGGAACCCCGTGCCGCGCACCTGCCCCTGGACCGCGCCATCGAAACCCAGGCCGATCTCAGTGCAGAGATCAACGCCATGAGCGACGCCTACGCGCGGAAGCTGAAGGAGGGCACCCCGGCCGAAACGCAGCCCCGGCTGGACTACCCGCCGTACCGCAGCAGTATCCTGCGCCATCCCACCAAGAGCCTGCACCACGCGGACCCGGAGACCATCGAGCTGTACTCGCCGGCCTTCGGGCACCAGGACGTACACCAGCTCGAATCCGACCTGACCATCCAGCACAACGGTGAACCCCAGGGTGAGCGGATCATTGTGCAGGGCAAAGTGCTCGACGGAAACGGCCGCCCGGTGGCAGGGCAGCTGGTGGAAATCTGGCAGGCCAACGCGTCCGGCCGGTACATCCACAAGCGGGACCAGCACCCCGCGCCCCTTGATCCCAACTTCACCGGCATTGGCCGCTGCATTACGGGCACGGATGGTTCCTACCGGTTCGTCACCATCAAGCCAGGTGCCTATCCCTGGAAGAACCACCTGAACGCCTGGCGTCCGGCCCACATCCACTTCTCGCTGTTCGGCACAGAGTTCACCCAGCGCATCATTACGCAGATGTACTTCCCCGGGGATCAGCTGTTCCCGCTGGACCCCATCTACCAGTCGATTGTGGACCAGGACGCCCGGGACCGCCTGGTGGCCAGCTACGACCACAGCCTCACCGAACCCGAATGGGCATTGGGCTACAACTGGGACATCGTCCTGACAGGATCCAAACGGACCTGGACCGAAAACGAGGCGCTCGGCGCGGCCGGAGATGAGGAATAA	MPQEANQLGTDELVPHAEPRAAHLPLDRAIETQADLSAEINAMSDAYARKLKEGTPAETQPRLDYPPYRSSILRHPTKSLHHADPETIELYSPAFGHQDVHQLESDLTIQHNGEPQGERIIVQGKVLDGNGRPVAGQLVEIWQANASGRYIHKRDQHPAPLDPNFTGIGRCITGTDGSYRFVTIKPGAYPWKNHLNAWRPAHIHFSLFGTEFTQRIITQMYFPGDQLFPLDPIYQSIVDQDARDRLVASYDHSLTEPEWALGYNWDIVLTGSKRTWTENEALGAAGDEE	PGPT0005015_31	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
D1-29_04598	1938			hypothetical protein	ATGCGCACCGGAATTGCCACCGTCTGCCTCTCCGGCACCCTGAAGGAAAAGATGCAGGCGTGCGCCATCGCCGGCTTCGACGGGATCGAAGTCTTCGAACAGGACCTGGTCACGTCACCGCTGACGCCGGAGGACATCCGCAAGATGGCAGCGGACCTTGGCCTCACCCTGGACCTCTATCAGCCGTTCCGCGACTTCGACAGTGTTCCTGACGAGCTGCTGGCCGCGAACCTTCGCCGCGCCGAAGCCAAATTCAGGCTTATGTCCCGCCTGGGCGTGGACACCATCCTGGTGTGCTCCAACGTGGCCACCGCCAGCGTCGACAGCGACGACCTCCGCACCGAGCAGCTGGGCCGCCTGGCCGAACTCGCCGGGGAGTACGGGGTCAACGTCGCCTACGAAGCCCTCGCCTGGGGCAAGTACGTCAACGACTACGAGCACGCCCACCGGCTGGTGGAGGCCGTGGACCACCCCAACCTGGGCACGTGCCTGGACTCCTTCCACATCCTTTCCCGCAACTGGGACACCGCACCCATCGAGGCCTTCAAGCCGGAAAAGATCTTCTTCGTTCAGGTGGCCGATGCCCCCAAGCTGTCCCTGGACGTGCTTTCCTGGAGCCGGCACTACCGCGTGTTCCCCGGCGAAGGCCAGTTCGACCTCGCCAAGTTCATGGGCCATGTTGTCCGGGCCGGGTATTCAGGGCCGGTGTCGCTGGAGGTCTTCAACGACGTCTTCCGCCAGTCCGACGTTGACCGCACTGCCGTGGACGCCATGCGCTCGCTGATCTGGCTTGAGGAACAGAGCGCCGCGTGGCTTGCCGGGGCCTCCGTCGAAGTCAAGGCCGGCAGCGCTCCTGGCTCCCGCCGTCGTTATCCCATGGAACTGGCCACGCTGCCCAAGGTGAGCGAACCGGCCGGATTCAACTTCGCCGAGGTCAAGGCCGAGGACACCGTTCAGCTCGAGAAGCTCTTGGGGCAGCTCGGCTTCGAATTCAACGGACGCCACCGCACCAAGGACGTCCAGCTCTGGACCATGGGCCAGGCCCGCGTGATCATCAACGAGCAGGCGGCGTCGCACTCGGAACCGGCTATCGCCGCGCTGGGGTTCGACGTCGATTCGCCCCTGATTGCTTCCGCCAGGGCACAGCAACTCAAGGCGCCGGTGGTGGCCCGGAAGGTGCAGGCCGACGAGGAAGTCTTCCAGGGCATCTCCGCGCCGGACTCCACCGAGATCTTCCTGTGCCAAGGCAGCCCGGACGGCACCGCAGCCTGGACTGCTGAATTTGGCCAGGCGAACGAGTCTGGCCAGGCGCATGAGTCTGGACAGGCGCAATCTGGAGGGGACCTGGAACACCCTTCCCTGCGGGACGGCGCCACCGCTCATGCTGTCATTGACCACGTGAACCTTGCCCAGCCGTGGCAGCACTTTGACGAAGCCGTTCTTTTCTACACCAGCGCGCTGGCCCTGGAACCGCAGCCCTTCGCCGAAGTTCCGAGCCCCAGCGGGCTGGTCCGCTCGCAGGTCATGCAGACTTCCGACGGCGCCGTACGGCTGGTGCTGAATCTCGCACCCGTGCAGCAGGCCCAGAGCGAGATCCGAAAAACGTACCAGGAACATATCGCCTTCGCCGTGGACGACCTCGTGGCAACGGCGCGGTCCGCCCGGGACCGGGGCCTTGAGTTCCTGCAGATTCCGGCCAACTACTACGAGGACCTGGACGCCCGGTTCAAACTTGAACCGAAGTTCCTGGCCACGCTTCAGGACCTCAACCTCCTGTATGACCGGGATGCCGACGGGGAATTCCTCCATTTCTACACGGCCACCGTAGGCAGTGTGTTCTTCGAAATGGTGGAACGCCGGGGCAACTACGGCGGCTATGGGGCGCCCAACGCTCCGGTGCGCCACGCCGTCCAGTACGACTCACTCCACCGTTTCTAA	MRTGIATVCLSGTLKEKMQACAIAGFDGIEVFEQDLVTSPLTPEDIRKMAADLGLTLDLYQPFRDFDSVPDELLAANLRRAEAKFRLMSRLGVDTILVCSNVATASVDSDDLRTEQLGRLAELAGEYGVNVAYEALAWGKYVNDYEHAHRLVEAVDHPNLGTCLDSFHILSRNWDTAPIEAFKPEKIFFVQVADAPKLSLDVLSWSRHYRVFPGEGQFDLAKFMGHVVRAGYSGPVSLEVFNDVFRQSDVDRTAVDAMRSLIWLEEQSAAWLAGASVEVKAGSAPGSRRRYPMELATLPKVSEPAGFNFAEVKAEDTVQLEKLLGQLGFEFNGRHRTKDVQLWTMGQARVIINEQAASHSEPAIAALGFDVDSPLIASARAQQLKAPVVARKVQADEEVFQGISAPDSTEIFLCQGSPDGTAAWTAEFGQANESGQAHESGQAQSGGDLEHPSLRDGATAHAVIDHVNLAQPWQHFDEAVLFYTSALALEPQPFAEVPSPSGLVRSQVMQTSDGAVRLVLNLAPVQQAQSEIRKTYQEHIAFAVDDLVATARSARDRGLEFLQIPANYYEDLDARFKLEPKFLATLQDLNLLYDRDADGEFLHFYTATVGSVFFEMVERRGNYGGYGAPNAPVRHAVQYDSLHRF	PGPT0009480_178	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0009480-hppD-K00457	NA	NA
D1-29_04599	882	aroE_2		Quinate/shikimate dehydrogenase (NAD(+))	ATGAGTAATCGAACTGAGTCCTACCTTGTGGGACTGGTCGGCGATGGCGTGATGCCATCACTCACTCCCCACATGCACGAACGCGAAGGTGACGTGCAGGGCCTGCGCTACCTTTACCGGCCCATCGATCTCCTCGAAATCAAGGAGCCGGCAGAATCCGTCGGTGACCTGCTGAAGAGCGCCCGCAGCCTGGGTTTCAATGGCTTGAACATCACCCACCCGTGCAAGCAGCTGGTCCTTCAGCACCTGGACGAGGTTTCCCATGATGCCCGCAGGCTGGGCGCGGTCAACACCGTAGTGATTGAGGACGGCCGGTTCGTTGGCCACAACACAGACTTCTCCGGGTTCGCTGCCGCCCTTGCCTCCGGACTGCCCGGCGCCCGACTGGACCGCGTGGTCCAGCTCGGAGCAGGCGGCGCCGGATCCGCCGTCGCCTATGCCCTGCTCACCGCTGGAGTGCAGCAGCTGAACCTGGTGGACATGGACCCTGCCCGGGGCGCGGCCCGAGCCGCCCAACTGGCCGGCTTCTTCCCGGACCGCACCGTGACAGCGCGGACGACGGCGGAGCTGCCGCAGCTGATGCCGCTGGCCGACGGCCTGGTGCACTGCACCCCGGTGGGGATGGCAGCCCACCCGGGAGTGCCCCTGGACCTTGACCTGCTGGAACCCCGGCATTGGGTGGCGGACATCGTCTACCGTCCCATCGACACGGAGCTTGTGCTGGCTGCGAGGGACAAAGGCTGCGAGGTCCTGGACGGCGGGCGCATGGCCGTGGGGCAGGCAGCTGACGCCTTCCGGATCTTCACCGGCCTGGAACCTGACGCCGGGCGCATGCGTTCGCACTTCCTGGAGCTCGTTGCCGCAGAAGAGGTGGCCGCCTGA	MSNRTESYLVGLVGDGVMPSLTPHMHEREGDVQGLRYLYRPIDLLEIKEPAESVGDLLKSARSLGFNGLNITHPCKQLVLQHLDEVSHDARRLGAVNTVVIEDGRFVGHNTDFSGFAAALASGLPGARLDRVVQLGAGGAGSAVAYALLTAGVQQLNLVDMDPARGAARAAQLAGFFPDRTVTARTTAELPQLMPLADGLVHCTPVGMAAHPGVPLDLDLLEPRHWVADIVYRPIDTELVLAARDKGCEVLDGGRMAVGQAADAFRIFTGLEPDAGRMRSHFLELVAAEEVAA	PGPT0012890_744	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
D1-29_04600	930	kdgR_5	COG1414	Transcriptional regulator KdgR	ATGAGTGTGAACCAAACCACAGCCGCCCACGACGCAACCTCCCACCAGCCTTCCGCTGACGCCCAGCCCGCCCACGGCCCCTCCGCTGACGCCCAGCCCGCTGATGCCCAACCCGCTGGCGCGCCACCCGCTGACGCGCCATCTGCTGAAACCAAGGGAGCGGCAGCCAAAGGATCAGACCGGACGGACATGGTAGGCAAAGCCCTGGGCCTGCTGGTGCTCCTCGGTGATGAGCCCCGCGGGGCCAGTGCCGCGGAGATCTCGCGCCGTGCCGAGTTGCCCTTCAGCACCACGTACCGGTTGCTGGGTTCGCTGACCCGGGACGGTTTTGTGGATTATGAACCGGATGGCCGCCGCTACCACCTGGGCCTGCGGATCTTCCAGCTGGGCCAGCGGGCGTCCAACCACCACGGCTTCGCCGGCACCGCGCTGCCTGTCCTGCGCCGCGTGACGGAACAGACTGGCGAGGCCACCATCCTCAGCGTCAGGGACGGCCATCATCACCTGACCGTCAACAAGGTGGATGGCCCGCAGATGTTCCGCGTCACCAGCGATCCTGGCCACCTCGGCGCCCTGCACACCACCGCTGTGGGTAAGGCGCTGGTGGCCTTCGCCGAAGACTCCGAGCGCGAACGCCTGCTGCAGGAGCTGGAACTCGAGCCACTCACCGAGCATTCCATCACCGACCGCGCGGCCTTCCGTGCCGAAATCGAGCAGGTTCGGCGCCAGGGCTACGCCGTCATGGACGAGGAGAATGAAATCGGCATGAGGGCCGTGGCTGTTCCCCTCCTGAATGGACAGGGCCATGCTTTCGCATCACTGGCCACCGCCGTGCCGGTCTTCCGCCTTGAGCTCGATGCGTTGCTCGCCCACGTGCCGCTGTTGCAGGATGCGGCAGCCGAGCTGTCGGCCCGGTTGCCCCAGAGATGA	MSVNQTTAAHDATSHQPSADAQPAHGPSADAQPADAQPAGAPPADAPSAETKGAAAKGSDRTDMVGKALGLLVLLGDEPRGASAAEISRRAELPFSTTYRLLGSLTRDGFVDYEPDGRRYHLGLRIFQLGQRASNHHGFAGTALPVLRRVTEQTGEATILSVRDGHHHLTVNKVDGPQMFRVTSDPGHLGALHTTAVGKALVAFAEDSERERLLQELELEPLTEHSITDRAAFRAEIEQVRRQGYAVMDEENEIGMRAVAVPLLNGQGHAFASLATAVPVFRLELDALLAHVPLLQDAAAELSARLPQR	PGPT0018213_148	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
D1-29_04601	1320	abaF_4		Fosfomycin resistance protein AbaF	ATGAGCCAGACACTTCCGTCCGCGGAGCCGGGCACTGTCGCCCCGGCCGGGACACCGAAGAAGGCCGCCGTCGCCAGCTTCCTGGGCAGCGCCGTCGAGTACTACGACTTCTTCATCTTCGGTTCGGCGGCCGCCCTGATTTTTCCCACAGTCTTCTTCCCCAGCGCCGACGCCAACGCAGCCATCATGTCCTTCGCCACCTTCGGCTTTGCTTACGTGGCGCGTCCCGTGGGCGCGGTCATCCTGGGGCACTTCGGTGACAGGGTGGGCCGGCAGAAAGTGCTGATGTTCACCCTGGTGCTGATGGGCGCCTCAACGTTCCTGATCGGCTGCCTGCCGGACTTCAACACCGTTGGCTGGTGGGCACCGGCGCTGCTGGTGCTGGCTCGGCTGTGCCAGGGCCTCTCGGCAGCCGGCGAACAGGCAGGCGCCTCCTCCATGACCTTGGAACACGCGCCGGACAACCGCCGCTCGTTCTTTACATCCTGGACCCTTACCGGCACCCAGGGCGGCCAGATCCTCGCCGCCCTCGTCTTTATCCCGGTCCTGGCCCTTCCTGACGAGATCAAGTACGGCATCGGCTGGCGCGTCCCGTTCTGGCTGAGCGCCGTGGTGGTGCTGGTGGCGTTCTTCATCCGACGCACGCTGCACGAACCGCCGGCCTTCGAAGAGGCCCAGAAGACCGCCCAGATTTCCAAACTCCCCGTCGCCGATCTCCTGAAATCCCACTGGCGCGACGTGCTGCGTGTTGTCTGCTGCGCCTTCATCGCTGCCGTTTCCACCGTGTTCGGTACCCTCGCCATCAGCTACGCCAAAACAGTTGCCGGTGTTGACGGGACCACCACACTGTGGCTGGTGGTTGGCGCCAACCTGGTGGCCCTGGGAACGCAGCCCGTGTTCGGAATGCTCGCCGACCGGGTTGGCCGCAAGCCTGTCTTCATCTACGGCGCCCTTTCCAGTGCCGTGCTGACCCCCGTTTTCCTGCTCAGCCTGGAATCCGGCAGCGTCCCGCTCATGTTCCTCGCCGCCATCGGATTCTTCTCCTGCGGCTATGCTGCCTCCAATGCTGTCTGGCCGTCCTTCTACGCCGAGATGTTCAGCACCAAAGTCCGCTTCTCTGGCCTGGCCATCGGCACCCAGCTTGGCTTCCTGATGGCAGGTTTTGCGCCGGCTGTCGTGGCAGCCATGGGCGGGATCAAGCCAGGAGGCTGGGTCCAGATCAGCATCTTCACCGCAATCATCTGCGTGGTGGCGGCCACTTCAGCCCTCACCGCCAAGGAAACGTTCAAAACCCCCACAAAGCAGCTCGGCCTGAAGTAA	MSQTLPSAEPGTVAPAGTPKKAAVASFLGSAVEYYDFFIFGSAAALIFPTVFFPSADANAAIMSFATFGFAYVARPVGAVILGHFGDRVGRQKVLMFTLVLMGASTFLIGCLPDFNTVGWWAPALLVLARLCQGLSAAGEQAGASSMTLEHAPDNRRSFFTSWTLTGTQGGQILAALVFIPVLALPDEIKYGIGWRVPFWLSAVVVLVAFFIRRTLHEPPAFEEAQKTAQISKLPVADLLKSHWRDVLRVVCCAFIAAVSTVFGTLAISYAKTVAGVDGTTTLWLVVGANLVALGTQPVFGMLADRVGRKPVFIYGALSSAVLTPVFLLSLESGSVPLMFLAAIGFFSCGYAASNAVWPSFYAEMFSTKVRFSGLAIGTQLGFLMAGFAPAVVAAMGGIKPGGWVQISIFTAIICVVAATSALTAKETFKTPTKQLGLK	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
D1-29_04602	1062			hypothetical protein	GTGGTGAAGGCGTTTGCGGCAATCGACGCCGCCTTTGCTGCGCTGACTGCGGAAGTAACGGACGCTTCCCCTGCGGCCTCCTCTGGTGCCGATGCGCTCCGCCTTCTGGCCGATGGTTGCCTGGAAGTCCTTGAGGGGGCGAGGCGGACAGAGGCGCAAATGGCGGCTCTGAAGGCCCACGCTGCCGTGAAGTTCGCTGATACCACCAAGTCGATCGCAGGGCCGGCGGCGTCGCCACAGGATGCCACGGCGCAAGAGATGGCTGTGACTGCCGAGATCGCCTGCGTGCTGACCGTTGGTTCCCGTGCCGCTGGTGCATTGCTGTCCCAAGCACAGCAACTCACCACAGCATTGCCGCTCACCCTCACAGCGTTGCAGCTCGGAACTATCTCCTGGCAGCACGCCAGGGCAATGGTCGATGAATCCGCCTGTCTTGATCCCGCCGGCGCCGCCTCGCTGGAAGCGCATTTCCTCGATCCGGACGCCCTGGACGCGGCCCGCGGCTGCCCCGCGGGCGAAATGCCCGCGTCCCGGTTCCGCGCCATGGCGCGAACCTGGCGTGAACGCCACCACAAGGAGAGCATCGAGAAGCGGCACGCCAAGGGGCACCTGGACCGGCGGGTGGAATACACTCCGGATCAGGACGGCATGGCCTGGCTCTCCGCCTATCTTCCTGCAACCGAGGCCAGCGGAATCTGGAACCGGATCACCGCCATTTCCCGCAGCCTGCAGGGGCCAGCCGAGGCCCGAACCCTCACCCAGCTGCGGACCGACGTGCTCGCCACCGCACTCCTCAGCAGCGGAAACGGCGGGAGCAGCGGGGACGGCGACAGCAGCGGGAATGGCAAGAGTATCGGAAACGGCGGGAGCAGCGGGAATGGCCAAGAAATGGCCCCCGGGCAGGTCCCGTCGCCCCGGGCACAGGTCCTGGTCACTGTGCCGGTGTTTTCCCTGCTGGGGGCTCAGATGAGCCGGCGATGCTGGACGGGTACGGGCCCATCCCCGCTTCGATGGCCAGGGACGTCGTCGCGAACGGGGCCGACTCCTTCTACCGTGTGCTGA	MVKAFAAIDAAFAALTAEVTDASPAASSGADALRLLADGCLEVLEGARRTEAQMAALKAHAAVKFADTTKSIAGPAASPQDATAQEMAVTAEIACVLTVGSRAAGALLSQAQQLTTALPLTLTALQLGTISWQHARAMVDESACLDPAGAASLEAHFLDPDALDAARGCPAGEMPASRFRAMARTWRERHHKESIEKRHAKGHLDRRVEYTPDQDGMAWLSAYLPATEASGIWNRITAISRSLQGPAEARTLTQLRTDVLATALLSSGNGGSSGDGDSSGNGKSIGNGGSSGNGQEMAPGQVPSPRAQVLVTVPVFSLLGAQMSRRCWTGTGPSPLRWPGTSSRTGPTPSTVC				NA	NA	NA	NA	NA
D1-29_04603	540			hypothetical protein	ATGGCCAGGGACGTCGTCGCGAACGGGGCCGACTCCTTCTACCGTGTGCTGATTGACCCGCGGGATGGGGCACCTCTGGAGATCGGCCGCACGAGTTACCGGCTCACCAAAGCGATGCGGAACTGGCTGCGGATGAGGGACGGCAAGTGTCCGTTCCCCGGCTGCAGCAACCAGTCGCTGGACAATGAAGCAGACCACCTCCTCGCATGGCACCATGGCGGAACCACAGGGATCAGCAACCTCGGGCAGCCGTGCCCCAAACACCATCGGCTCCGACACACCAGCGGCTGGAAACCCACGCCGGCCACAAAGAACGAACCGCCCGGCTGGATCTCACCCTCAGGCCGCCATTACAAAAGTGAACACCAGGACTGGGAACCACCACATTGGCCTAAAGCATTGAAGCCCGAACTGCAATCAAACACGGACCGGCCGCACGCAACGCCGGGTAATGCTTCCTGTCACTCCCCGGACTTCCATCACACCGGACTGTCCCTGGGAGAGAACGGCTTGGAGCGGTTCCTGCACGCCCGTGCGTAA	MARDVVANGADSFYRVLIDPRDGAPLEIGRTSYRLTKAMRNWLRMRDGKCPFPGCSNQSLDNEADHLLAWHHGGTTGISNLGQPCPKHHRLRHTSGWKPTPATKNEPPGWISPSGRHYKSEHQDWEPPHWPKALKPELQSNTDRPHATPGNASCHSPDFHHTGLSLGENGLERFLHARA				NA	NA	NA	NA	NA
D1-29_04604	1056	ligC	COG1793	DNA ligase C	ATGCTCGCCAAATCCGTCAGCGGAATTGGTGGTATCCCGGCGGGGCGTGCCCTGAGTTACGAGCCCAAATGGGACGGTTTCCGGTCCATTATTTTCCGCGACGGGGACGACGTGGAGATCGGCAGCCGGAACGAGAAGCCCATGACCCGGTACTTCCCCGAGCTGGTGGAAGCGCTGAAGGAGAACCTTCCGCCGAAGTGTGTGCTGGACGGCGAGATCGTGCTCGTGGGCGCTTCCGGGGACAGGCTCGATTTTGACGCCCTGCAGCAGCGCATCCACCCTGCGGCCAGCCGCGTCAAGCTTCTTGCTGCCCAGACCCCGGCGAAGTTCGTGGCCTTCGACCTGCTGGCCCTCGGCGACGACGATTACATGGACCGGCCGTTCGCCGAGCGGCGCGCTGCCCTGGAGAAGGCGCTCGCCGCCAGCCGGGCTCCTGTCCATCTCACCGCCGCCACGCAGGACAAAGACCTGGCGGAACAGTGGTTCCAGCAGTTTGAGGGCGCAGGCCTGGACGGGATAGTGGCCAAGCCTCTCGACGGCCGGTACCAGCCGGACAAGCGCGTGATGTTCAAGGTCAAGCACGAACGCACGGCGGACTGTGTGGTGGCTGGCTACCGGGTCCACAAGAATGGGGAGGACGCTGTCGGTTCGCTTCTGCTGGGTCTGTACAAGGACGACGGCGTCCTGGCCAGTGTGGGGGTCATTGGCGCCTTTCCGATGAAGCGCCGCCAGGAACTGTTTAGGGAGCTTCAGCCGCTGGTTACCGATTTCGACGGTCACCCCTGGGCGTGGGCCAAGCAGGAGGAAGGTGAACGCACACCGCGGAACGCCGAGGGCAGCCGTTGGAGCGCAGGCAAGGATCTGTCCTTTGTGCCGCTCCGCCCCGAGCTGGTGGTTGAGGTCAGGTACGACCACATGGAGGGGGACCGGTTCCGCCACACCGCGCAGTTCAACCGTTGGCGGCCGGACCGGGATCCGGAGTCATGCACCTACGAGCAGCTGGAAGAACCGGTTAACTTCGATCTGGAGTCTGTATTGGAGACGGGCAGGCCATAA	MLAKSVSGIGGIPAGRALSYEPKWDGFRSIIFRDGDDVEIGSRNEKPMTRYFPELVEALKENLPPKCVLDGEIVLVGASGDRLDFDALQQRIHPAASRVKLLAAQTPAKFVAFDLLALGDDDYMDRPFAERRAALEKALAASRAPVHLTAATQDKDLAEQWFQQFEGAGLDGIVAKPLDGRYQPDKRVMFKVKHERTADCVVAGYRVHKNGEDAVGSLLLGLYKDDGVLASVGVIGAFPMKRRQELFRELQPLVTDFDGHPWAWAKQEEGERTPRNAEGSRWSAGKDLSFVPLRPELVVEVRYDHMEGDRFRHTAQFNRWRPDRDPESCTYEQLEEPVNFDLESVLETGRP	PGPT0014910_1126	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
D1-29_04605	1029	fgd1	COG2141	F420-dependent glucose-6-phosphate dehydrogenase	ATGGTCACCGTCGGCTTTCACGCCTCACATGAACAGATCAGTCCCGCCCAGCTGCTCAAGGACGTCCAGCACGCAGAACAGGCGGGTTTTGACGCCGCCATGTGCTCGGACCACATCGAGCCCTGGTCCGCCAGGCAGGGACACTCCGGCTTTGCCTGGTCCTGGCTGGGAGCTGCACTGGCCACCACCAACCTCAGCTTCGGCGTGGTGACGGCACCCGGGCAGCGCTACCACCCCGCCATCATCGCGCACGCCTCTGCCACGCTTGCCGGAATGTTTCCCGGCAGGTTCTGGATGGCCCCCGGCAGCGGGGAGAACATGAACGAGCACGTCACCGGCGATGCCTGGCCGCCGAAGGAGACCCGCCAGCGCCGGCTCGAGGAATGTGTGGACGTGATCCGGCGCCTGCACCGCGGTGAGGAAGTGACCCACCACGGCCTGGTGACCGTTGAACAGGCAAGGATCTGGGACGTTCCCGAGCCTCCGCCTCCCCTGATCGCGCCGGCCATCAGTGTGGACACCGCACGCCGCGCCGCCTCCTGGGCCGACGGCCTGGTGACAGTCAACCAGTCGGCCGCGAAGCTGAAGGACATGCTGGCCGCGTACCGGGACAACGGCGGCCGCGGAAAGGCAGTCCTGCAGGTGCATTTGTCCTGGGCCCCGAGTGAAAGAGAAGCAACGGCGGTGGCGCTGGACCAGTGGCGCAGCAATACTTTCGCTCCGCCCATCCCCTGGGATCTCCCCACCGCCGGGCATTTTGACGGCGTCAGCGGCCACGTGGGCGAGGACCAGGTGCGGAAATCCGTCAACGTCTCGGCCAGCCTGGACCGTCATGCCGAGTGGCTTGCCGGCTACGGAGAGCTCGGCTTCGAGGAGCTCTACCTGCATTTTGTGGGCCAGGAGCAGGGACCCTTCATTGAGGCTTTCGCAGCCGATGTCCTTCCCCGGCTCCGTGGGACCGTCGCAAGGGAGAATCCGGTCAAAGTGACGCAGGCAAACGAGACCATGGCAAAGGCGGCCACACCATGA	MVTVGFHASHEQISPAQLLKDVQHAEQAGFDAAMCSDHIEPWSARQGHSGFAWSWLGAALATTNLSFGVVTAPGQRYHPAIIAHASATLAGMFPGRFWMAPGSGENMNEHVTGDAWPPKETRQRRLEECVDVIRRLHRGEEVTHHGLVTVEQARIWDVPEPPPPLIAPAISVDTARRAASWADGLVTVNQSAAKLKDMLAAYRDNGGRGKAVLQVHLSWAPSEREATAVALDQWRSNTFAPPIPWDLPTAGHFDGVSGHVGEDQVRKSVNVSASLDRHAEWLAGYGELGFEELYLHFVGQEQGPFIEAFAADVLPRLRGTVARENPVKVTQANETMAKAATP				NA	NA	NA	NA	NA
D1-29_04606	1695	treS_2	COG0366	Trehalose synthase/amylase TreS	ATGAGGATCGCGGAAACTTCAGACCTCTGGTGGAAGAACTCGGTCATCTACTGCCTGGACGTGGAGACCTTTTTCGACGACGACGGCGACGGCACCGGCGACTTCGCCGGCCTCACCCAGCGAGTGGACTACCTCGCAGCACTGGGCGTTACATGCATCTGGCTGATGCCGTTCTACCCGTCGCCGGACCGGGATGACGGCTATGACGTCACTGACTTCTTCACCGTAGATCCCCGGTTGGGCACCATGGGGGACCTCGTGGAGTTCATCCGCGCGGCCAAGGACCGGGGCATGCGGGTCATCGCCGACTTCGTGGTCAACCACACCTCCATCCAGCATCCCTGGTTCCAGGAAGCCCGGAAATCGACGGACAACCCCTACCGGGACTATTACGTCTGGCGGAAGGACACTCCGCCGGACACCTCGTCCGAAGTGGTGTTTCCGGGGGAGCAAACGTCGCTGTGGACCAAGGATGACGCCACCGGCGAGTGGTACCTCCACATGTTCGCGGAGCACCAGCCGGACCTCAACGTCACCCACCCGGCTGTCCGGAACGAGATCGCCAAGGCAATGGGCCTGTGGCTTGAGCTGGGGCTGGACGGCTTTCGGCTGGATGCCGTCCCGTTCTTCCTGGAAACCCGCGGCCAGCCCAAGGACGAGGCCGCGAACCTTGATCCGCATGAGTACCTGACGGCGCTGCGCAGCTTCGTGAACCGCCGGAACGGCAGCGCGGTGCTGTTGGGCGAAGTCAACCTGCCCTACAAGGAGCAGCTGGAATACTTCGGCGGGCCCGACGGCAATGAGCTGAACATGCAGTTCGACTTTATGTCCATGCAGCACCTCTACCTGTCCCTGGCGCGACAGGATGCCCGGCCCTTGGCCGAGACCCTCAAAAGCAGGCCCGCCCTGCACCCGGACAACCAGTGGGCCATGTTCGTCCGCAACCACGACGAGCTGACGCTGGACAAGCTCAGCGACGCCGAACGGCAGGAAGTTTTCGCCGCCTTCGGTCCCGAGAAATCCATGCAGATCTACGGCCGCGGGCTGCGCCGCCGGCTGCCGCCAATGCTCGGCGGTGATGCGGACAGGATCCGGATGGTCTATTCGTTGCTGTTCTGCCTGCCCGGGACCCCTGTGCTCTTGTACGGCGAGGAGATCGGCATGGGCGAGGACCTGAAGCAGAAAAGCCGGGCCGCCGTCCGAACCCCGATGCAGTGGAACAACGGGAAGAACGGGGGCTTCTCGGATGCCAAGGCCTCAGACCTGGTGGTTCCGCTGGTGCGCGGCGAGTACGGGCCGGAGAATGTCAGTGCGGCGGCCGCCAAACGGGATCCTGATTCCCTCTGGAACTTTATGGCCATCCTGATGCAGCGGTACCGTGAGTCGCCGGAGCTGGGGTGGGGCCACTTCGCCATGATGGACCAGCCGGAGCCTGCGGTCTTCGCCCACACCTGCAGCTCGGACGGCGCCACCATGGTGCTGCTGCACAACCTCGGCGAGGACCCGGTGAAAGTCGCCGGCAGGGCAGGGCCGGAGGACACCGGGCCGCGAGCGTACAAGGGTGCCGTCCTGCTGGACGTGCTCGACGGCGACAATGTGCCTTTGGAACCCGACGGCGCCTTCACGGTGGAGCTGGGCCGTTATGGTTACAAATGGTTCAGGGTGCACCATCCCGGCGACCGGCTGGCGCCGTGA	MRIAETSDLWWKNSVIYCLDVETFFDDDGDGTGDFAGLTQRVDYLAALGVTCIWLMPFYPSPDRDDGYDVTDFFTVDPRLGTMGDLVEFIRAAKDRGMRVIADFVVNHTSIQHPWFQEARKSTDNPYRDYYVWRKDTPPDTSSEVVFPGEQTSLWTKDDATGEWYLHMFAEHQPDLNVTHPAVRNEIAKAMGLWLELGLDGFRLDAVPFFLETRGQPKDEAANLDPHEYLTALRSFVNRRNGSAVLLGEVNLPYKEQLEYFGGPDGNELNMQFDFMSMQHLYLSLARQDARPLAETLKSRPALHPDNQWAMFVRNHDELTLDKLSDAERQEVFAAFGPEKSMQIYGRGLRRRLPPMLGGDADRIRMVYSLLFCLPGTPVLLYGEEIGMGEDLKQKSRAAVRTPMQWNNGKNGGFSDAKASDLVVPLVRGEYGPENVSAAAAKRDPDSLWNFMAILMQRYRESPELGWGHFAMMDQPEPAVFAHTCSSDGATMVLLHNLGEDPVKVAGRAGPEDTGPRAYKGAVLLDVLDGDNVPLEPDGAFTVELGRYGYKWFRVHHPGDRLAP	PGPT0014120_1300	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0014120-treS-K05343	NA	NA
D1-29_04607	1746	malL_6	COG0366	Oligo-1,6-glucosidase	ATGACCAGCCAGGAAACCCAGCGCGAGATGTCCCGCACGGGACGGGAGTGGTTCAGGAATGCCGTGGTCTACCAGATCTACCCGCGGAGCTTCGCCGATTCGGACGGCGACGGCGTGGGCGACCTCCGGGGGATCATCGGGCGGCTGGACTACTTGCACCGGCTGGGGGTGGACGTCGTGTGGCTCTCCCCGGTGTACCGCTCGCCGCAGGACGACAACGGGTATGACATCAGCGACTACCGTGACATCGATCCGGTGTTCGGTGATCTGGAGACGCTGGACGAACTGCTCAACGGCCTGCATGCCCGCGGCATGAAGCTGGTGATGGACCTGGTGGTGAACCATACCTCGGACGAGCACCCCTGGTTCATGGAATCCCGTTCCGGCAAGGACAGCCCCAAGCAGGATTGGTACTGGTGGCGGCCGGCACGCGACGGCATGGAACCGGGCGCTCCGGGAGCCGAACCCAACAACTGGGGTTCCGCCTTCTCCGGCCCGGCGTGGGAGTACGACCAGGCCAGCGGGGAGTATTACCTGCACCTGTTCTCCAAGAAGCAGCCTGACCTGAATTGGGAAAACCCGGAGGTCCGGGCCGCCATCTACGACATGATGAACTGGTGGCTGGACCGGGGCGTGGACGGCTTCCGGATGGACGTCATCAACTTCATCTCCAAGGATCCTGCCTTGCCTGATGGGCCCAGGGCGGACGGCATGCTGTACGGCGACGGCGCTCCGCACTACATTTCTGGGCCAAGGATCCACGAGTTCCTCCAGGAAATGCATCAGGAGGTCTTCGAGGGCAGGGACAAGGATCTGCTGACGGTGGGGGAAATGCCCGGAGTCACGGTTGAGGACGCCCTTCTGTTCACCGATCCCGCGCGCGGCGAAGTGGACATGGTGTTCCAGTTCGAACACGTGGCGCTGGACCAGGAGGGTGGCAATAAGTGGCGGCCCAGGAAGCTCCAGCTCACAGACCTCAAGAAGTCCCTTGGCCGCTGGCAGGAGGCGCTGGGGGAGCGCGGCTGGAACAGCCTGTACTGGGGAAACCACGACCAGGCCCGCGCAGTCTCGCGGTTCGGGGATGACGGCCAGTACCGTGAGCTGTCAGCCAAGATGCTGGCCGCTGTCCTCCACCTGCACCGCGGAACCCCGTACGTCTATCAGGGCGAAGAGCTGGGCATGACCAACATGACGTTCGGCGCCATCAGCGACTACCGCGACATCGAGGTCCTCAACCACCACCGGGAAGCCACCACCCACCTTGGCCACACGGATGCCGAAGTCCTCGCCGCCCTGGCGCCACTGAACCGGGACAACGCCCGCACCCCGGTCCAATGGGACGCCAGCAGGCATGGCGGCTTCACTACCGGGTCCCCCTGGATCGCTGTAAATCCCAATGCCAACACCATCAATGCCGCTGCCCAGGTGGACGACCCGGATTCCGTGTACAACTTCTACCGCCAGGTCATTGCGCTGCGCCACACGGATCCGGTAGTGGCCGACGGCGATTTCACCATGCTCCTGCCTGAGGACCCGCACGTCTACGCCTTCCGGCGCTCGCTGCCGGGCGCCGAGCTTCTGGTGCTGGGCAATTTTTCCGGGGCGCCACAAACGGCCGACGTCGGGATCCCAGCCTGGTCAGATATCGTCCAGTCAGATGCCGTCCAGGTTTTAGGGAACTACCCGGCCTCCCCGGGATTTGAGCTTCGTCCGTGGGAAGTGAAGGTGCTGCGCCGGGAAGCGTAA	MTSQETQREMSRTGREWFRNAVVYQIYPRSFADSDGDGVGDLRGIIGRLDYLHRLGVDVVWLSPVYRSPQDDNGYDISDYRDIDPVFGDLETLDELLNGLHARGMKLVMDLVVNHTSDEHPWFMESRSGKDSPKQDWYWWRPARDGMEPGAPGAEPNNWGSAFSGPAWEYDQASGEYYLHLFSKKQPDLNWENPEVRAAIYDMMNWWLDRGVDGFRMDVINFISKDPALPDGPRADGMLYGDGAPHYISGPRIHEFLQEMHQEVFEGRDKDLLTVGEMPGVTVEDALLFTDPARGEVDMVFQFEHVALDQEGGNKWRPRKLQLTDLKKSLGRWQEALGERGWNSLYWGNHDQARAVSRFGDDGQYRELSAKMLAAVLHLHRGTPYVYQGEELGMTNMTFGAISDYRDIEVLNHHREATTHLGHTDAEVLAALAPLNRDNARTPVQWDASRHGGFTTGSPWIAVNPNANTINAAAQVDDPDSVYNFYRQVIALRHTDPVVADGDFTMLLPEDPHVYAFRRSLPGAELLVLGNFSGAPQTADVGIPAWSDIVQSDAVQVLGNYPASPGFELRPWEVKVLRREA	PGPT0019145_166	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019145-malL-K01182	NA	NA
D1-29_04608	171			hypothetical protein	GTGCTCGCCCTGGTCGCGGCCGGGGCGTCCAACCATGAGATCGCGGACCGGCTTTTCCTCAGCGACCGCACCGTCCACCGTCACGTGAGTCACATCTTCGACAAGCTGGGGGTGCACTCGCGCACCGCGGCTGCCGCGGTGGCTATCCGGGACCGGCTCATCGGCGCGTGA	MLALVAAGASNHEIADRLFLSDRTVHRHVSHIFDKLGVHSRTAAAAVAIRDRLIGA	PGPT0014870_431	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
D1-29_04609	1860	bga_2		Beta-galactosidase	ATGAGGACTTTTGAAATCGGCAGCCAGGACTTCCTGCTTGACGGCGAGCCGTTCCGGGTCCTGTCCGGTGCAATCCACTACTTCCGGGTCCACCCGGACCTGTGGGCAGACCGCATCCACAAGGCCAGGCTGATGGGCCTGAACACCATCGAGACGTATGTGCCCTGGAATGAACACTGCCCTTTGCCGGGAGTTTTTGCCTCGGAAGGACAGCTGGACCTGGGCCGGTTCCTTGACCTGGTGGCGGCAGAAGGCATGCAGGCCATTGTTCGGCCCGGCCCCTTCATCTGTGCGGAATGGGACAACGGCGGGCTTCCGGCCTGGCTTTTCAACGACCCCAGCGTAGGAATCCGGACCAGCGAACCGGGCTACCTTGCCGCCATCGACAGCTTCTTCCAAGCCATACTGCCCATCGTGGTGGCGCGGCAGATCAGCCGGGGCGGACCCGTCATTATGCTGCAGATCGAAAACGAATATGGTGCGTACGGGAAGGACAAGGCGTACCTGCAGCACCTCGTGGACCTGGCGAAACGGGAAGGCGTGGACATTCCGCTCTTCACCTGCGATCAGCCATTCGGCACCATGATCGAAGACGGCTCGCTTCCTGAACTGCACAAGACGGCCACTTTCGGCTCACGGGCCACGGAGCGGTTGGCGTTCCTCCGTGAGCACCAGCCTGACGGACCGCTGATGTGCGCGGAGTTCTGGAACGGCTGGTTCGACAACTGGGGCACCCACCACCACACCACCAACGCCGCCGCGTCCGCAGCCGAGCTGGATGCCCTGCTGGCCGCGGGAGCGTCCGTGAACATCTACATGTTCCACGGCGGCACCAACTTCGGGTTCACCAATGGCGCCAATGACAAGGGCATTTACGAGCCCACCATCACCTCCTACGACTACGACGCACCGCTGACCGAGGACGGCTTCCCCACGGAAAAGTACTTCGCCTTCCGGGACGTCATCGCCAAGTACTTCCCGGTGCCGGCGGAACGTCCGGCCAGCCGCCGGGAGGCCCCATCGGAAAGCATTTCGGTGACCAGCTCCGTGTCCGTCCTGGATTGCCTCGACGTCCTGGGCGCTCCCGCCCGTGTGGAAGGGCCGGCGCCCACTACCGAAGACGCCGGGCACTACCGCGGCTTCACCATGTACAGCACGGAACTTGTTTGCGGCGGCGTCCTGACCGTTGGCGAGGTCCGGGACCGTGCACAGTTCTTCCTGGACGGCCGTCCCGTGGGCGTGCTCAGCCGCGAATTGGGCGAACGGGCCATTGCCCTGCCGTCCGGCGGCCGCCTTGAGGTCCTGGTGGAGGACCAGGGCCGGGTCAACTACGGCCCCCGGATCGGGGAGTTCAAGGGCCTGATGGCACCGGTGAAGCTCGACGGCGTTGAGCTCCTGGAGTGGGACATCCGGCCGTTGGATTTCGGGAACCTGGGCGGACTCCGTGCGGCAGCCGGATTCCCGGGCGGATCCCTCGATGGCCTTGTGGCAGGGGAGGGCGGCGTCGCTGGGGATGGGGTAGACGCCGGGAAAGATGCCGCGGGCAGGGAAGGCACCGGGGACAAGGAACGCGCCGGGCAGGGTGGCGTGCCCGGGCCCTCAGTCTCCTTCGCAGACTTCGAGGCGGACGGACCCGGGGACCGGTACCTCCGGCTGGACGGCTGGACCAAAGGCAACGCCTTCATCAACGGCTTCAACCTGGGCCGGTACTGGAGCCGCGGACCGCAGAAGACCCTGTACGTCCCCGGCCCGCTGCTGCGTAAGGGAACCAACGAACTGGCCATCTTGGAACTGCACGGCAGCACCAGCCGGACAGTCCGGTTCGTGTCCGGACCGGACCTCGGACCCTACGAAAAGTAG	MRTFEIGSQDFLLDGEPFRVLSGAIHYFRVHPDLWADRIHKARLMGLNTIETYVPWNEHCPLPGVFASEGQLDLGRFLDLVAAEGMQAIVRPGPFICAEWDNGGLPAWLFNDPSVGIRTSEPGYLAAIDSFFQAILPIVVARQISRGGPVIMLQIENEYGAYGKDKAYLQHLVDLAKREGVDIPLFTCDQPFGTMIEDGSLPELHKTATFGSRATERLAFLREHQPDGPLMCAEFWNGWFDNWGTHHHTTNAAASAAELDALLAAGASVNIYMFHGGTNFGFTNGANDKGIYEPTITSYDYDAPLTEDGFPTEKYFAFRDVIAKYFPVPAERPASRREAPSESISVTSSVSVLDCLDVLGAPARVEGPAPTTEDAGHYRGFTMYSTELVCGGVLTVGEVRDRAQFFLDGRPVGVLSRELGERAIALPSGGRLEVLVEDQGRVNYGPRIGEFKGLMAPVKLDGVELLEWDIRPLDFGNLGGLRAAAGFPGGSLDGLVAGEGGVAGDGVDAGKDAAGREGTGDKERAGQGGVPGPSVSFADFEADGPGDRYLRLDGWTKGNAFINGFNLGRYWSRGPQKTLYVPGPLLRKGTNELAILELHGSTSRTVRFVSGPDLGPYEK	PGPT0017815_2380	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
D1-29_04610	1263	mlc_2	COG1940	Protein mlc	ATGCCGAAGAGAACCTCAAGGGACATCCGCAACGAGAGCCGGTTCGCGCTGCTCCGCGGCCTGTACTCACTCCGCACCGCCACCCGCCAGGAGTTGGCGGCCGCCACGGGCCTGAGCTTCGCCACCATATCCAACATCGTCGGGGAACTGATCGAGGTGGGAGTGCTAGTGGAGGCCGGCAGGGAGGACTCCGGCGGAGGGCGGCCCGTCACCCGGCTGAAAATATCCCCTGAACGCGGAGCCCTGGTGGGCGTGGACGTCGCTGAAACCTACATCCACGTGGACATCTACGATCTCGCCCTCGGGGTGATCGGCAAGGCCGAAAGCGAGCTGGCCATCGAGGAAAACGAGCCGGCCGCACTGGTCCGGCACGTGGCGGGCGTCATCGAACAAGCCGCAGCGGACGCCGGCATCACCAGGGACCGGCTCCTGCGGGCGGGGGTCAGCCTTCCCGGCCAGGTGGACCCCCAGCGCGGCGTGTCCGTCTTCGCGCCGAACTGGGACTGGCATGAAGTACGGATCCAGTCGCTGCTGTCCGAAGCCATCGGGCTTCCCGTGGACGTGGACAACCCGCTGCGCGCCATCGCCATTGCCGAACTCTGGTTTGGCGCGGGCCGGCTGGTGAACAACGTGGCCACCGTGAACCTGGGGACCGGCGTGGGGGCAGGCCTGGCGATTGACGGTGAGCTGGTTCGCGGAGCCAGCAACACGGCTGGTGAGTGGGGCCATACAACTCTGGTCTTCGACGGCCGCCTGTGCCGCTGTGGCCGCAGGGGTTGTGTGGAGGCCTACCTCGGCGTCCCTGGCCTGCAGCAGACCATGGCCGAAATCAATGCCTCCCACGATCTCCTCACGGGTGACCGCCAGCGCGAGTTCGTTTCGGATGTCGCCAAGGGGCTGTCCGACGGCGATGCCGACTGCCTGGAACTTATTGAGGTCACTGGGCGCTACTTTGCGGCGGCCCTGGGCAACCTGATCAATTTCATCAACCCGGACCACGTCAGTGTCCTGGGCTGGACAGCAGGAAGCATCGGCAAGGAGCTGCTGGACGTCACTGAGAAGTACCTGTCACAGGAGATGTTGCCCAGCGCCGGCCGCGCCGTCCAGGTGGGCCTGTCTACGGTGGCGGGAAATTCCGTCACGCTGGGCATGGCCACGCTGGCACTGGAAAGCTTCCTGGAACAGGTGGGGGTGCCCAGCCGGGGACGCACCGGGCCGGGAGCCACCCGGCGGGGCGCGAAACTTCCCGCAGGCGCGGAATAA	MPKRTSRDIRNESRFALLRGLYSLRTATRQELAAATGLSFATISNIVGELIEVGVLVEAGREDSGGGRPVTRLKISPERGALVGVDVAETYIHVDIYDLALGVIGKAESELAIEENEPAALVRHVAGVIEQAAADAGITRDRLLRAGVSLPGQVDPQRGVSVFAPNWDWHEVRIQSLLSEAIGLPVDVDNPLRAIAIAELWFGAGRLVNNVATVNLGTGVGAGLAIDGELVRGASNTAGEWGHTTLVFDGRLCRCGRRGCVEAYLGVPGLQQTMAEINASHDLLTGDRQREFVSDVAKGLSDGDADCLELIEVTGRYFAAALGNLINFINPDHVSVLGWTAGSIGKELLDVTEKYLSQEMLPSAGRAVQVGLSTVAGNSVTLGMATLALESFLEQVGVPSRGRTGPGATRRGAKLPAGAE				NA	NA	NA	NA	NA
D1-29_04611	2940			hypothetical protein	ATGAGTTCCGCTTCAGGCAGCGCCGTTACGTCCAGCACCATCACACCAGACAGCACCGTCACGTCTAACAGCACCGTCACACCAGGCAGCACTGTCATGCTCGACGGCGGCGCGCTGATGATCGACGGCGAAGCGCAGCTCCTGCTGTGCTCTTCACTGTTCTACTTCCGGCTTCCGCCGGAGCAATGGGAGGAACGCCTGCGGCTGGTCCGTGAATCGGGCTACCGTGCCGTGGACGTCTACATCCCTTGGAACTTTCACGAGACCGCGCCAGGCGTCTTCGACTTCTCCGGCCACCGGGATGTTGCCATGTTCCTGGATCTTGCCGCGGCCGAGGGCCTCTACGTGATGGCCCGCCCGGGACCGTACATCTGCTCAGAAGTGGACGGCGGCGGGCTGCCGGCCTGGCTGGGCCTGGATCCGGAGCTGAAAGTGCGGCAAAACGAACCCCGGTACCTGGAGCAGGCTTTGGGCTGGTACCGGACCGTGCTTCCACTCCTTGCGGAGCGCCAACACGGGCGGCGGGGCAGCATCATCCTGCTGCAGATCGAGAACGAGCTCGACTTCTTCGACTGCCTGGACCGCACGGGCTACATGCAGGCGCTCGCCGACGAGGCTGCCGGGGCCGGAATCACCGTCCCGGTCATCGCCTGCGCGGGCCAGGGGGATCTGCTGGCTGCAACAGGCGGCGCCTCCGGAGTGGTGCCCGCGGCCAACTTCTATCCCGATGACTCATCACCTGAGATTGAGGCCGAGGTCCTTGCCTACCAGCGTGAACTGGCGGCGCGTGGCTACCCCCTGCTGGTGACGGAGACCAACCGGCTGCACCTGACCCTGCGGCGGGAGCTGCTGGCCGGCGCCCGGCTCATCTCCCCCTACCTGCAGAGTTCCGGCTGGAACTTCGGCCTGAATCCCTCCAGCGGGAATTGGGGCAGCCCCGGAAACTTCATGACCCACAGCTATGACTTTGGCGGGTACGTCTCCTCCGACGGCGCACGGCGGCCTGAGTTCTTCGAAGGCCAGATCCTGGCCGGGGTCGTCAACGCCTTGGGCCCCAGGCTCGCGGCTGCGGTTCCCGTGCTCGACTCCCCGGTTGAGCTGGTGCCGGACTTCGCTACGTCCACGGTCCGACCCGTGCTCGCCCTGGCCGGCGGCGGTTATTTGGCCGGCCTGCCCAACCTCAGCGGGCAGCCAGGACAGTTGCAGGTCAAGACTGACAGCGGTGCCATGGCCGCCGTTGAGGTGCCGCCGGGAAAGTGCCCCCTGGTTCCGGTTGGCCTGCCCTTACAGGACTGGGGAGTCCCTGCCGTCCTGGAATTGGCGACGGCGGAACTGACCGGCGTTGCCAGGACGGCGGCTGGGCTTGAACTGACGTTTGCCGCCTCACCGGGTGCCGTGCTGATCGTCTCGGCGGTATTTGAGTCCACGCTGTCTGACTATGCGGTTTCTGGCTCCGCGGCATCTGATCCCGCAGTGTCTGACTCCGCGGTGTTCCTCAGCACAGCATTCCCGGGGACACCCACCGTCCAGGACGGCGAGGTCAGCTACAACGGAAACCAGCTGGTGGTGCAGCTGTCAGCCGGGCCGGGTTCAGTGGTTTTAGACGACGGCACCCAGCTTGCGTGGAGCATGGATTTGCCCCCAAGAGAAGTAATAACGGCGGCAGGGCACCCGGAGGAGCTGACGGATCAAACCGGCGGCGCCGCCGTCGGGCTTTCCGTGTTCGCGGCCGAAACGGCGGAACTCTACGGAGAAATCCCGGCGGCCCTGCACGCGGAGGCGCCGCCGCTGGAAGCGTTGGGGGTTTACGCCGGCCGCGGCAGGTATCGGGCGGCGGTGCCGGCAGGGTGCACCCAGCTCCTCGTCGCGGGGGCCGCAGACATTCTCGCACTCTCGTTCAACCCCGACGCCGGTGAAGCCACGCCGCTGGGCACGCTGACCCCGTTCGGGGCGGCGGCCGTCGTTGACCTGCCGGCCGGAGGGGGCGGCGAACTTACTGCCGACGTTGAGATCTGGGGGCACTCGAATTTTGACGACGCCAGGTTGCCTGCGCTCGCCATGGGTGCGCTCCGTGGCCCCGGAGCAATCATGGCAGTGACCCGGTCCACCGACGTCTCCAGCCTCTGGCGTGTCCATGGTGGCGGGCAATGGGCGGAGCCAGGCCGTGCACTTCGCCATTTCGGCGGCTGGAGCAGCTCCCGGCTGGGGGTGGGCATCCAGTACCGGAAGAGGATTGCGGCGCCGCCGGAGGAGGAGAACTATCTGCATTTTGCAGGGCTGGTTTCACCCATCACCGTACGTGTCGGAAACCTGGCACCGGCTGTGGTCGTCCCGGAAAACGCCTACCTGCGGCTGCCTCCCGTGACGGATGCGTGGGACGTTGAGGTGTCCTTTCCGCATGATCCGTCCAACGGCCCCGGCTTCGTCACGCTCCTGTCCGGCGCCATGCTCGGGGAGTACACTGTCCAGGCCCTTCCGCAGGAGCAGCTGGATGATCTGGCCCACGCCGCCGGAACCTTGGGCAGGTCCAGTCCCACCGGAGAAGCCGCCGGGACCGACTCAGGCATGGTGGAACTTCCGCTTGAGGTTCCTCCGGGCACTGCCTGCTGGGTGACCCCTGACCTGACCGGGCTCGAAACCGGCAGCGGATACTTTCTAAGGGCAGAGGGAACCGGGCTGATGATCAGCGCCTGGCTGGACGGCATCCGGCTGGGCCGCGTTATACCCGGCCAGCAGGATGACAGCAGCGGCCACCAGGATCACAGCGCTGGCCGCCAGGATGACAGTGCGGCGCCCTCAATGCGCGGCGGGGATCCCGGCGTCATCTGGCTTCCGGCGCCTATGATGAAACCGCAGGCCAGGCTCACGCTGCTCCTTGAAAGTCGCGGAACCACCGCGGGCCGGCTTGACTCCCTGCTGTGCCAACGGGCGCATAGCTGA	MSSASGSAVTSSTITPDSTVTSNSTVTPGSTVMLDGGALMIDGEAQLLLCSSLFYFRLPPEQWEERLRLVRESGYRAVDVYIPWNFHETAPGVFDFSGHRDVAMFLDLAAAEGLYVMARPGPYICSEVDGGGLPAWLGLDPELKVRQNEPRYLEQALGWYRTVLPLLAERQHGRRGSIILLQIENELDFFDCLDRTGYMQALADEAAGAGITVPVIACAGQGDLLAATGGASGVVPAANFYPDDSSPEIEAEVLAYQRELAARGYPLLVTETNRLHLTLRRELLAGARLISPYLQSSGWNFGLNPSSGNWGSPGNFMTHSYDFGGYVSSDGARRPEFFEGQILAGVVNALGPRLAAAVPVLDSPVELVPDFATSTVRPVLALAGGGYLAGLPNLSGQPGQLQVKTDSGAMAAVEVPPGKCPLVPVGLPLQDWGVPAVLELATAELTGVARTAAGLELTFAASPGAVLIVSAVFESTLSDYAVSGSAASDPAVSDSAVFLSTAFPGTPTVQDGEVSYNGNQLVVQLSAGPGSVVLDDGTQLAWSMDLPPREVITAAGHPEELTDQTGGAAVGLSVFAAETAELYGEIPAALHAEAPPLEALGVYAGRGRYRAAVPAGCTQLLVAGAADILALSFNPDAGEATPLGTLTPFGAAAVVDLPAGGGGELTADVEIWGHSNFDDARLPALAMGALRGPGAIMAVTRSTDVSSLWRVHGGGQWAEPGRALRHFGGWSSSRLGVGIQYRKRIAAPPEEENYLHFAGLVSPITVRVGNLAPAVVVPENAYLRLPPVTDAWDVEVSFPHDPSNGPGFVTLLSGAMLGEYTVQALPQEQLDDLAHAAGTLGRSSPTGEAAGTDSGMVELPLEVPPGTACWVTPDLTGLETGSGYFLRAEGTGLMISAWLDGIRLGRVIPGQQDDSSGHQDHSAGRQDDSAAPSMRGGDPGVIWLPAPMMKPQARLTLLLESRGTTAGRLDSLLCQRAHS	PGPT0017815_52	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
D1-29_04612	855			hypothetical protein	ATGGCCGAACTTAAGGTCTACAAAAGCTCGGCGTTCACGTACGCCTGGCTGCTGGTCGCCTCCGCGATCTTCTTCGCGCCCGTGGTCTTTGTAGTGTCCATTGCGCTCAGCAGCGACCAAACCGTCAGCACGGGCAGCTTCTCCCTGATCCCGGCGGAGTTCCGCTGGGAGAACTTTGTCCGGATCTTCCAGACCCAGCAGCCGGTGGGCAACTTCGTGATGAACTCGGTGATCATCTCGGTGCTCTCCACCATAGGGCAGGTGTTTTCGTCCGCCCTGGTGGGCTACGCCTTCGCCAGGCTGCGGGCCAAGGGTAAAAACATCACCTTTATGGTGGTGCTTGCCACCATGATGATCCCGGCCCAGATCACCATGATTCCGCAGTTCATCCTGTTCAAGGAGCTCGGCTGGATCAACACCTTCCTGCCACTGATCATCCCCAACTTCTTCGGCAACGCGTACAACATCTTCCTGATCCGGCAGTTCGTTTCGCGGCTACCGCTGGAAATGGATGAGGCGGCGATGGTTGACGGCCTGGGCTACTTCGGCATTTTCCGCCGGATTGTCCTGCCCATGATGACCCCGGTCCTGATCGCCGTTGCGATCTTCACGCTGACCTACACCTGGGGCGACTTTATGGGTCCCCTGATCTACCTCAACGAGGACACCAAGATGCCCCTGGCCCTGGGCGTGCAGCTGCTGACCAGCACCAGCCAGGAGCTCCAGACGCCCCCGTGGAACCTGGTAATGGTGGGCACCATCTTCCTGTCCCTGCCGATGATCATCATTTACTACTTCGGGCAGAGATACATGTACGAGATGAACATCTCCACTGGAAGCGCAGGGGTGAAGTAG	MAELKVYKSSAFTYAWLLVASAIFFAPVVFVVSIALSSDQTVSTGSFSLIPAEFRWENFVRIFQTQQPVGNFVMNSVIISVLSTIGQVFSSALVGYAFARLRAKGKNITFMVVLATMMIPAQITMIPQFILFKELGWINTFLPLIIPNFFGNAYNIFLIRQFVSRLPLEMDEAAMVDGLGYFGIFRRIVLPMMTPVLIAVAIFTLTYTWGDFMGPLIYLNEDTKMPLALGVQLLTSTSQELQTPPWNLVMVGTIFLSLPMIIIYYFGQRYMYEMNISTGSAGVK	PGPT0016540_1187	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
D1-29_04613	975	melD_11	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGACTACGGTTGAGCAAACTGTCCCCGCTCCGGCCGCGGCGCCGGAGCGGGGCGGAACCCCGCCCAAGCCAAGGGCCAGGCCCAGCTCCATGCGGCGCAAGGAAGCCAGGTTCTTCTGGCTCTTTATCTCGCCCTGGATCGTCGGGTTTATGGTCTTCCTCCTGGGGCCCATGCTGGCCTCTGTCTACCTTTCGTTTACTGACTGGGATTCCTTCACGGACCCCAACTGGGTGGGATTCGCCAACTATGCCCGGCTGCTGACGGAGGACGAGGTGTTCCACAAGTCGCTCTGGAACACCTTCTATTTCGCCTTCTTCTCCGTTCCGCTCGGCATGGCCATCGCCCTGTGGCTCGCGGCCCTGCTCAACAAGAAGGTGCGGGCACGCAAGGTCTTCCGCACCCTGGTCTACCTGCCCCACCTGGTTCCCATCGTCGCCGTCGCCCTGATCTTCCAGATGGTCCTTGCCCCCGACGCCGGCCCGCTCAATAAGTTCCTGGCTGTTTTCGGCGTCGACGGCCCTGCCTGGCTTTTCGATTCCGACTGGGTCAAGCCCGCCATCATCCTGCTTTCGCTGTGGCAGGCAGGCGGCGCCACCGTCCTGCTCCTCGCCGGCATGAAAGGCATCCCGCAGGAGTTTTACGAGGCAGCGGAGATCGACGGCGCCTCCTCCAGGCGGCAGTTCTGGAGCATCACTTTTCCGCAGCTGACCCCCATCATTTTCTTCAACCTGATCATGGGCATCATCGGTGCATTCCAGGTGTTCGCCCAGGTGTACATCCTCACCCAGGGCGGGCCGGACAACGCCAGCCAGATGGTGGTCCCGCTGCTCTTCACCGAAGCCTTCCGGAACTACCGCATGGGTTACGCCTCGGCCATCTCCTGGGTGCTGTTCCTGATTGTGATGGCGCTGACGGTGCTGGCCTTTGCCACGGCACGCAAGTGGGTTTTCTACGAGACTGAGGTGAAGAACTGA	MTTVEQTVPAPAAAPERGGTPPKPRARPSSMRRKEARFFWLFISPWIVGFMVFLLGPMLASVYLSFTDWDSFTDPNWVGFANYARLLTEDEVFHKSLWNTFYFAFFSVPLGMAIALWLAALLNKKVRARKVFRTLVYLPHLVPIVAVALIFQMVLAPDAGPLNKFLAVFGVDGPAWLFDSDWVKPAIILLSLWQAGGATVLLLAGMKGIPQEFYEAAEIDGASSRRQFWSITFPQLTPIIFFNLIMGIIGAFQVFAQVYILTQGGPDNASQMVVPLLFTEAFRNYRMGYASAISWVLFLIVMALTVLAFATARKWVFYETEVKN	PGPT0016535_1568	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
D1-29_04614	1296			hypothetical protein	ATGAAGCTTCTGGAAACCAACCTCTCCCGCCGCAATGTCCTGGCCGGGCTCGGTGCCTCCGCCGTCGGGATCATCACGCTGACAGCCTGTGGCGGTTCCGCTGCCCCGGCGTCGTCCGGTCCCAAGGAATTCGTGATGACGGTCTGGGGCGGCGACCCGGACAAGGCCGCGTACCAGGCGCGGCTGGACCTGGCGAAGGCAAAGTTCCCGGACTACAAGATCACCCTTCAGATCATTCCCAACAAGGACTACGCGCAGAAGGTCCAAACCATGATCTCCGGCGGCACCGGACCGGACATCATGCAGGTGGCCGAAGACGCCAACGCGTACAGCTCCAAAAACCAGCTGCTGCCGCTGGATGAGTACATCTCCGGCGCTTCACTGGACCTCCCCGGAACGTTTGGCCCGGTGGCCGAGAACTGGAAGTACAAGGACAAGACCTACGCCGTTCCCGACCGGGCCGGCGCCATGATCCTCTACTACAACAAGGGCGAGTTCGAGAAGAAGGGCATTGGCGCCCCCACCGCTGAATGGACGTGGGATGACCTGCTCTCGGCCGCCAAGGAACTCACCGGGGACGGCGTCTTCGGCTACGGCGGCACCGAATGGTGGCCCATCTGGATGTCCTTCGCCTACCAGAACGGGGGCCACATCATCGACCCCTCCAGCGGCAAACCCACGGTGAACACCCCCGAGGTCATCGAGGCCCTCCAGTTTTGCCAGGACCTGCTGTACAAGCACAAGGTGGCGCCCTCCAAGGTGGACTACGCCAACATGGGAGCCGGCGTGGGCGGCGACGCAGCCTTCGCCTCGGGCAAGGTCATGATGAACAGCACTGGCTTCTGGAACATCGGAAACCTCGCCAAGCAGGACAAGGTCATCTGGGATGTCGCCCCCATCTGGCGCGGCAAGGAAAAGGCCATCGCGGCCTTCGGGTCCGGCCTGGCGGTGTCCCGCAGCAGCAAGAACCCGGCCGACGCCTTCAAGATCATCGAGTTCATGACCTCCGCCGAGGGCCAGAAGCCCATCATGGACCTGGGGCAGGACGTTCCCGCCCGGCAGGACCTGCAAAAGAGCCAGGAGTTCCTGAAGCCGGCTTGGCTCAAGGCAGACGTCGATATGCAGGTGTTCCCGGATTCGGGCCCGTCCATCTTCAAGCCGCCGTTCATCCCGGAGTGGAATGAAATGCAGAAGGCCATGACGGACGCCATGGCGGATTTCTGGCTGGGCAAGTCCGATGCCGCTGCCACTGCGGCCGACCTTCAGAAGCGCCTCGAATCAGTCGTCAAGGCCTAG	MKLLETNLSRRNVLAGLGASAVGIITLTACGGSAAPASSGPKEFVMTVWGGDPDKAAYQARLDLAKAKFPDYKITLQIIPNKDYAQKVQTMISGGTGPDIMQVAEDANAYSSKNQLLPLDEYISGASLDLPGTFGPVAENWKYKDKTYAVPDRAGAMILYYNKGEFEKKGIGAPTAEWTWDDLLSAAKELTGDGVFGYGGTEWWPIWMSFAYQNGGHIIDPSSGKPTVNTPEVIEALQFCQDLLYKHKVAPSKVDYANMGAGVGGDAAFASGKVMMNSTGFWNIGNLAKQDKVIWDVAPIWRGKEKAIAAFGSGLAVSRSSKNPADAFKIIEFMTSAEGQKPIMDLGQDVPARQDLQKSQEFLKPAWLKADVDMQVFPDSGPSIFKPPFIPEWNEMQKAMTDAMADFWLGKSDAAATAADLQKRLESVVKA	PGPT0016545_6641	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
D1-29_04615	789	cypM		Cypemycin N-terminal methyltransferase	ATGCCCGGCCCGCCCGGCTGGAATAGTGGCCGGATGATTAACCAGCAACAGCTCTGGGACGACGAGGCAGCGAAACAGTACGACACGCCCGGGGAGGGGATGTTCTCGCCCGAGGTACTGGCCCCTACGGTGGAGGTCCTGTCACGGCTCGCCGGCGACGGCCCGGCCGTTGAGTTCGCCATCGGCACGGGCCGTGTCGCCATCCCCCTCTACGAGGCAGGGGTCCGGGTCAGCGGAATCGAGCTGTCCCACGCGATGATCTCCCGGCTGCGCGAGAAGGTTGGAGAGGACAGGATTCCCGTGGTCCAGGGGGACATGACAGAGGCAACGGCGGGCGGGGAATTCTCGCTTGCGTTCCTGGTGTTCAACACCATCGCCAACCTCCTGTCACAGGAGGACCAGGTCCGCTGTTTCCAGAACGCCGCCCGTCATCTTGCCCCCGGCGGGCACTTCGTCATCGAGCTTTGGGTGCCGCAATTGCGTTCCCTGCCCCCTGGGCACGGCGGAACCGTGGAGGTGAGCCAGCCGGGCTATCTCCTGGTGGATACCTATGACGTGCTGCACCAGCATGTCATCTCCCACCACGTGCAGTTCGGCCCGGAACTGTCCGACGGGCGGGAAGCAAGGATCTCGCGCACACCTCACCGTTACATCTGGCCCAGCGAGCTCGACCTTATGGCGCAGCTGGCCGGATTTGAGCTGGAGTCCCGGTGGGCGGACTGGGACCGCAGCGAGTTCACCGCAGAATCCCGCAGCCACGTGTCTGTGTACCGGCTCACCGCACGCTGA	MPGPPGWNSGRMINQQQLWDDEAAKQYDTPGEGMFSPEVLAPTVEVLSRLAGDGPAVEFAIGTGRVAIPLYEAGVRVSGIELSHAMISRLREKVGEDRIPVVQGDMTEATAGGEFSLAFLVFNTIANLLSQEDQVRCFQNAARHLAPGGHFVIELWVPQLRSLPPGHGGTVEVSQPGYLLVDTYDVLHQHVISHHVQFGPELSDGREARISRTPHRYIWPSELDLMAQLAGFELESRWADWDRSEFTAESRSHVSVYRLTAR				NA	NA	NA	NA	NA
D1-29_04616	498			hypothetical protein	ATGACCGCCGTTCAACGCAGCAACGTGTTGGTTCCTGACTCCGGACTGGGGCCCGTCGGTCCTCCCCGCAGACGCCGTTTCCTTCGTCGGGCCGTCATGTTCTTGCTGGCGGCCGCCCTCTTGGCTGGTTGCGCCGGTGCGCCTGAGCTGGACGAAGAGGCGGCTGGAAAGTTCCAGGCGCGGGTTGTCGCAGCGAAGCAGCTCGCCGCGGAACAGGAGTTCCATGGTGCCGTGGCTGAACTGGAGCAGCTGGGCAATGAAGTGCAGGCTGCCGGAGACCAGGGACGCCTGTCACAGGAGAGGCGGTCCCGGATCGAGGCCGCAATTGCCAAGGTCAGGGCCGACCTGGACGCTGCCATTGCCGCTGCCGAACGCCCCACACCCAGCCCATCTGTCTCCTCTGCTGCACCCCAGGAGGATGACGGGAAGGGCAAGGACGAGGACGGGAAAACTGAAGACGGCAAGGATGAAAACAAAAATAAGGGGAAGGACGACTGA	MTAVQRSNVLVPDSGLGPVGPPRRRRFLRRAVMFLLAAALLAGCAGAPELDEEAAGKFQARVVAAKQLAAEQEFHGAVAELEQLGNEVQAAGDQGRLSQERRSRIEAAIAKVRADLDAAIAAAERPTPSPSVSSAAPQEDDGKGKDEDGKTEDGKDENKNKGKDD				NA	NA	NA	NA	NA
D1-29_04617	1308	pknD_4		Serine/threonine-protein kinase PknD	GTGAAGGACACTGATGCCGGAATGCAGGGAACAGTGCTGCAGGAGCGCTACAGGGTGGGTGAGGTACTGGGCCACGGCGGGATGGGCACCGTGTACCGCGGTACTGATCTGGCGCTGGGGCGCGACGTGGCCCTCAAGATTTTCCGCGCCGACGTTGCGGACGCGGCTGAGCTCAGCAGGCAGCAAAGCGAAGTTCGTTTGCTTGCCCGGCTGAACCATCACGGCCTGGTGACACTGTTCGACGCCGGCTCCCTCGTCCAGGGGCAGAGGGACGTTCCCTTCCTGGTGATGGAGCTGATCCCGGGGATCGACCTCCACCGTCATTTGCGGGCAGGCCCTCTGACGGGGACGGAAGCAGCACGGATAGGGGCGGAGCTTTCTGAGGCGCTGCAGTACATCCATCACCATGAGGTGGTGCACCGTGACGTTAAACCGGCCAATATCCTGCTGGCCCGCTATGGCTCTGATACGACCATCAGGGCAAAGCTCGCGGACTTTGGCATCGCCCGGATGCTGGACGGCACTCGGCACACCGCCACCAACATGATTCCAGGTACAGCCGCTTACCTGAGCCCGGAACAGGCCAGCGGGGAACCGGTGGGTCCGCCAGCGGACATCTATTCATTGGGCCTGGTGCTGCTGGAGGCCCTTACCGGGAAAGCGGAATTTCCGGGCCCTCCGCTTGAGGCCGCTGTGGCCCGGTTGTCCAGGGCCCCGGTTGTACCGGCTGCGTTGGGCAACCGGTGGAAACCGCTGCTGACCGCGATGACTGCGCGCGATCCTGACATGAGGCCGGATGCAGGAACAATCGCCACGGCCCTCCACGACGGCGGGGACTGGCGCACGTTGTCCGGGCCGGTGGATCCCGCGGGCACTGTGGAAACACCGGGTCCGCAGGGAACCTTGATCCTGGGCGCCGGCCAAGGGCAAAGCCCTGATGCGGCAGCGCCAGGTGGTTGGGAAGGAGGAGTGCTGCCGGCTCTTTCCAGCAGCGAGATAACCAACGCCACGTCCTGGCGTCCGGCTCCTCCGCAGCCGCCGGCGCGCAAGCCGGCCTCCGGCAAGCCTGCCTCCGTCCCCCGGGAGCAGGTTTCGCCGCGGCGCTGGGGAAAGCTGCTCCGCAACACCGGCCGCCGAAAACTATGGATCATCGGGGCGTTGGTTGTGGCTGTGGCTGTCTTCATCGCCATTGTGCTCCTGAATTCAGTGCCTCCGTCGGGTCCTGGCCCTGCAAATGCTCCCGAACCGGTCATTCCAGGGCAGATGGGCGAGCACTTCAAGGAACTGGAAGAGAGTGTGAAGCCATGA	MKDTDAGMQGTVLQERYRVGEVLGHGGMGTVYRGTDLALGRDVALKIFRADVADAAELSRQQSEVRLLARLNHHGLVTLFDAGSLVQGQRDVPFLVMELIPGIDLHRHLRAGPLTGTEAARIGAELSEALQYIHHHEVVHRDVKPANILLARYGSDTTIRAKLADFGIARMLDGTRHTATNMIPGTAAYLSPEQASGEPVGPPADIYSLGLVLLEALTGKAEFPGPPLEAAVARLSRAPVVPAALGNRWKPLLTAMTARDPDMRPDAGTIATALHDGGDWRTLSGPVDPAGTVETPGPQGTLILGAGQGQSPDAAAPGGWEGGVLPALSSSEITNATSWRPAPPQPPARKPASGKPASVPREQVSPRRWGKLLRNTGRRKLWIIGALVVAVAVFIAIVLLNSVPPSGPGPANAPEPVIPGQMGEHFKELEESVKP				NA	NA	NA	NA	NA
D1-29_04618	1884			hypothetical protein	ATGACTATCCCGCAGACTGTCCCGCCGCTGAATCTTCCCGCCGAAAACCGGGAGCTCTCGCCCCACACCGGCCTCACCAGGGAACACTGGTGCGCCTACGCCGATTTCCTGCTGCGCTCGGCCCACCGGTTCGCGACGGATGACCACGCGAACATCCACCTGCCCGGGGCCAACAGCGCCTATGGTCCCCGCAGTGATTCCCTGGAAGCCTTTGCCCGCACGTTCCTGCTGGCGTCCTTCCGGATGGCAGGGGAGCCTGAGCGTACCGGCTGGCTTGCGGAGTGGTACGCCAAGGGCCTGGACGCGGGAACCGATCCGCGCTCGCCGGACCGCTGGCCCACCCCCGCGGAACTGGGGCAGGCCAAGGTGGAGGCGGCCTCGCTGGCCGTGGGCCTGGCGCTGACGCGGGAGCAGCTGTGGGACAAGCTGCCCGAGCGCGTGAAGGAACAGCTCATCGCCTGGTTTGAGACGGTGATCGGCGGCGACTACCCACCCATCAACTGGGTATGGTTCCAGATCGTGGTGGAAACCTTCCTGGAAAGTGTGGGCGGCAAGTCCTCCGCCGCGGACATCGAGGCCGGGCTGGCGGTCCACGATTCCCTTTACCGCGGCCATGGCTGGTTTGCGGACGGCCCGGAGCGCGCCTACGACCACTACGTGGGCTGGGCCTTCCACGTCTACCCTCAGCTCTGGGCCCTCATGGCGCCGGAGGACCCCCGGATAAAGGCCCGCGGAACCCTCGACGGCGACCGTCTTGCGGACTACCTCGACGACGCCGTCCACCTGGTGGGCGCCAACGGCTCGCCCCTGATCCAGGGACGCAGCCTGATCTACCGGTTTGCTGCCGCCGCGCCGTTCTGGGTGGGCGAGCTCTCCGGGCATTCCCGGCTTTCGCCGGGCACCAGCCGGCGGGCCGCCTCCGGGATGCTGGACTATTTCACCCGCCACGGCGCCATCAACAGCGAGGGCCTGCTTTCCATCGGCTGGCACGGCGAATTCAGCGGCATGAAGCAGTCCTACTCCGGCGCAGGGTCACCCTACTGGGCGGCCAAGGGGATGCTGGGCCTGGCCCTTCCGGCGAGCCACCGCGTGTGGACTGCCGTGGAGGAGCCGCTGCCGGTGGAGTCCGGCGACACCAGCCGGCTCATTTCCGCTCCGGGCTGGATGGTGAACGGCACACGGGCGGACGGCATCGTCAGGGTCACCAACCACGGCACGGACCATGCGCGCAAGGGGGACCGGCTGACGGACTCAGCCCTCTACGCCAGGCTGGGGTACTCCACCCACAGCTTCCCTGACCTTTCGTCGGAATCCATGGATAACGCCGTCGTGCTGGTGGACGACGCCGGCCGCCTCACCCACCGCACCGGCTTTGCAACGCACCACCTGGCCGCCGCCGACGGCAGCCTGGAGGGATCATCCGGTGGCCCGGTTAGCTGGATATCCTTGCCAGGCGCCGCGGGTCCGGACCATGGGAGCGGCGTTGCCGGGCTGGTGACGCCAGGGCCGGAAGTGACGGTCAGTTCCTTCACCAGCGGCCCGGTGGAGGTGCGGCTGGTCCGGCTCCGCGGAATGGCTGACTGCCCGCCGGCGCGCCTCCGGATCGGGGGCTGGCCGCTGGATCCGGCGTCGGAACTCTTCAGTTTGGTGGTGCCGCTGGAGCAGGGAGAGGCGCTCGACGACGCCGGCAGCCTGGTGCGGGAGGAACCGCAGCCCATGGGGACAGGCCTGGTTGTGCCCTGGGCGGGGACGTCGGGACCCGCATCAGATGGTGTGTACGGGGTGGTGGTGGGTTTCGGCGGAAACGATGTTCCGGCTGCCGTTGAGGCTGCGCGGCTGGCGAAGGTGCCATCGCTGCGTTGGCAATCGCTGGCGGAGCGATGA	MTIPQTVPPLNLPAENRELSPHTGLTREHWCAYADFLLRSAHRFATDDHANIHLPGANSAYGPRSDSLEAFARTFLLASFRMAGEPERTGWLAEWYAKGLDAGTDPRSPDRWPTPAELGQAKVEAASLAVGLALTREQLWDKLPERVKEQLIAWFETVIGGDYPPINWVWFQIVVETFLESVGGKSSAADIEAGLAVHDSLYRGHGWFADGPERAYDHYVGWAFHVYPQLWALMAPEDPRIKARGTLDGDRLADYLDDAVHLVGANGSPLIQGRSLIYRFAAAAPFWVGELSGHSRLSPGTSRRAASGMLDYFTRHGAINSEGLLSIGWHGEFSGMKQSYSGAGSPYWAAKGMLGLALPASHRVWTAVEEPLPVESGDTSRLISAPGWMVNGTRADGIVRVTNHGTDHARKGDRLTDSALYARLGYSTHSFPDLSSESMDNAVVLVDDAGRLTHRTGFATHHLAAADGSLEGSSGGPVSWISLPGAAGPDHGSGVAGLVTPGPEVTVSSFTSGPVEVRLVRLRGMADCPPARLRIGGWPLDPASELFSLVVPLEQGEALDDAGSLVREEPQPMGTGLVVPWAGTSGPASDGVYGVVVGFGGNDVPAAVEAARLAKVPSLRWQSLAER				NA	NA	NA	NA	NA
D1-29_04619	1179	araR_2	COG1609	Arabinose metabolism transcriptional repressor	ATGAGTCCTGAAGGGACCGCGGAACCGGCCGGCAGGTCACTCTTTTCGCTGCAGCGCCGGGAGCGGCTGATGGAGGAGTTGCGTGCCCACGGCTCCATCACGGTGCGGGGGCTGGCGGCTGAGCTGGGTGTGAGTGAGCTGACCATCCGCCGGGATGTGAACCTTCTGGCCGAGGAGGGCCTGGTGTCGCGGGTTCACGGCGGCGCCACTCTGCCCAGCCCGCTGGACAGATCGGCTTCCAAAGCACGCCACCAACATTCACACAGGTACTCGATCGGCATGGTGGTCCCGTCCCTGGACTACTACTGGCCCCAGGTCATCAGCGGCGCCCGTGCGGAGGCCGAGGAACTGCAGGCAAGGATTGTGGTCCGCGGTTCAAGCTACGACGCCGCGGACAACCGCCGGCAAGTCCAGGCGTTGCTGGACACCCAGAATCTCGATGGCCTGATCGTGGCGCCGGATATGACGGGCGAGGGAGGCCACGAACTGCTGCGGTGGCTCAACGCCCTGCCCCTTCCGGTGGTGCTGGCAGAGCGGCGCGCACCGACGGACACTCCCGCCCACCGCCTGGAGTGGGTGGCCACGGACCACGCCTTCGGGGCCGGAATGGCCACCCGCCACCTGTGGCAGGAGGGGCACCGCAAGATCGGCTGCATGACCGATTCATCCAGCCCCACCAGTTCGCACGTGGTCCGGGGCTGGCGCCAGGCACTGGCCGCCCTGCGGATCCCGCTGGAGGAGTCGGTCAGCGAGGATTCGGCCGAGGTGGCGGCGGGGAACCGTGCCGCGCATTTTGACCGCATCCTGGAGTGGTGCCGGGAAACCGGGACCACTGCCATGCTGGTTCATTCGGACACCCAGGCCGTCGCCTTTGTGCAGCATTGTGTGGACCGCGGCGTCCACGTTCCCGGCGGCATGGCGGTGGTGGGGTACGACGACGAAGTGGCCTACCTGGCCGAGCCCGCCATTTCCGCGGTCCGGCCGCCCAAGCAGTATGTGGGACGGGTGGTGGTCCAGCTGGTCACCGCACGGCTGGCCGAGGGCCGGAAACGTCCGGTGCACAGGATCCAGCTGAACCCTGACCTGATTGTCCGTGAATCCTCGCTGGGCGGTCCCCGCACCCCGGCAGAGGCCGGGGACCAGGCCGTCCCCGCCGCAGGCATGGCCCCCGCAACCTGA	MSPEGTAEPAGRSLFSLQRRERLMEELRAHGSITVRGLAAELGVSELTIRRDVNLLAEEGLVSRVHGGATLPSPLDRSASKARHQHSHRYSIGMVVPSLDYYWPQVISGARAEAEELQARIVVRGSSYDAADNRRQVQALLDTQNLDGLIVAPDMTGEGGHELLRWLNALPLPVVLAERRAPTDTPAHRLEWVATDHAFGAGMATRHLWQEGHRKIGCMTDSSSPTSSHVVRGWRQALAALRIPLEESVSEDSAEVAAGNRAAHFDRILEWCRETGTTAMLVHSDTQAVAFVQHCVDRGVHVPGGMAVVGYDDEVAYLAEPAISAVRPPKQYVGRVVVQLVTARLAEGRKRPVHRIQLNPDLIVRESSLGGPRTPAEAGDQAVPAAGMAPAT				NA	NA	NA	NA	NA
D1-29_04620	2343			hypothetical protein	ATGCCCACTCACGTGAGCGCTTCCCAGCCGGACGCCGACGAGCAGGTTGGCCGCGGGCAGCTGAAAACCCGGCACCCGAAAAACATATCCGCACGCGGAACCTTCCAGGGACCGCTGGCGGCCGCCTGGGGAACTGAAGCCACACAGGACGCACTGCTCAGGACACTGCGGGGTGGCCGCGAACGCCTGGCCAACAGGGAAGCAGAAGGGCAGAAAACGTGGCCGACCGGGACGGCACTGGCGGGTTTGCAGGGGGAGGCGGAAGCCGAACGCAGTGCCCCCTGGCCTCAGCCCCTGCTCTCCCACTACGCCCGGTACTTCAGGGACGGCAACCGGACAGCTTACGAGGACCTGGTGGCGGCCAGGCAGCAGCGGCTGACCCGGGCGGTGGTCATGGCCTGCCTGTCCCGACGCGTCGAACAGGGCGCCGAGCCGGGCGACGGGCCAAGCACAGAGAAGCCCGGGGAGCCGGACTCCGTGGCAGCCTTCAACGAATGGCTGGACGACGTCATTGATGGCGCGTACCTGCTCTGTGAGCAAAGTTCCTGGTGCTGGGCCGCCCACGAGGACGCCTATCATCGGCTGGGACACGTGGTCCCGGAACGATCAGAGCCCTATCTGGACCTCGGGGCAGGAGAAGTTGCTGCCCAGTTGGCCTGGCTGGACCTGCTCCTGGGTGACCAACTGGACCAGCGGGCCCCCGGCCTGCGCCGCCGGATCCGCGGGGAGGTCCTGGATCGCGTGGTCCGCCCCTTCCTAAACCGCCATGACTGGCACTGGCTGGGCCTGGACGGCGACGTCCACAACTGGAACCCCTGGATCCACTCCAACGTGATTGCTGCCGCCGTCGTCCTCGTGGACGATCCCGGGCTGCAGGCCAAAACTATCGCCCTGGCCATTGAAGGACTGGACCGCTTCCTGGCATCGATGCCGGCGGACGGCGCCGTCGACGAAGGCTTTTCGTACTGGTGGAACGGAGCCGGGCGGGCCCTGGAAGCGCTGGCCGTCCTGGAGGACGCAACGGCAGGAAGGCTCGACGGCAACATCCCGGTGGTCCGGGAACTGGTGGCCTTCCCGCACCGCATGCACCTTGGCCACGACTGGTACCTGAACGTGGCGGACGGTCCGGCCAAGGGTGGTACCGACCTCCCCTGGGACCTGGTCCGGCGGTGGGGCGAACGGCTTGGGGACCATAACGCCGCACGCCACGCGACGGCCCAACGCACACAACACAGCACGGCACCACAGCCGGACGTCCTCGATGTTCGGCGTGGGCTGGGCAGGACACTGCGGGCGCTCGCGGACGCCGGGCAACGGAAGGGAACCGGCGGCGAGGGGATTCCGGAACCGCCCGCACCGCCATTAATCGGCTTCACCTACTTGGAATCGGTGCAGATCATGCTGGCCCGCGAAAATCCAGGCCGGACCGATGGCCTGGTCCTTGCTGCCAAGGGCGGCCACAATGGCGAACACCATAACCACCGGGATGTTGGCTCTGTGGTGGTGGCCGTGGACGGCGTGCCGCTGCTGGTGGACGCCGGCCAGCCCACGTACACCGCCCAAACGTTCGGCCCGGACAGGTACGCCATCAGGGCGATGCAGAGTGCATGGCACAACGTCCCTGCCCCGTTCGGCCTGGAGCAGGGCACCGGCCGGAAGTTCGCCGCAGCCGTGCAGGAGGCGCCCACCCCGGAGAAACCGCGGCTGGTCCTCGGGCTGGGGGAAGCATACGGGCTGGGCCCCGCCAACCGCTGGGTACGTTCCGCGTCACTGGTCAGGGCTTCGTCGCCGCCGAACCCTGCCGGCAACGGGGCCTCCGAGAGGAGAAAAGCCCGGGTGCTGATTGAGGACCGCTGGAACCTGCCGTCACCAAACCCTGCCGTCAGCAGAACCCCCGAGGCTCCCTCCGGAACCCCCGACGTCGACATCCACTACCTGCTCTCCGGAACCGTGACGATGGGCCCGGTCGGGACGGCAACCATCCGCCCCAGCAGAATTCCCGGCGGAGTTCCCGGCAGGACTCTTGAGCGGACTCCGCGAGGGATGGCAACCATCCGCCCCAGGGAAATTCCTGACGGAGTTCCAGGCAGGGTTCCCGGCGGAACTTCCATCGCGACTCCCGGCGGGATTTCCCACCTCATTCCCAACGAAGACCGGCGCGGCGGGCTGCTGCGCTGGGAGCCTGCAGCCGCCGTCGTACTGGTGGACGAGTGGCTCCTCGATGATCCCCTCCTGGCAAACATCTGGGGCAGCAAACTGACCAGGCTCCGGTTCCGGATGCCCGCACACATGCGCGCCGCCGGCGCGTTCACCCTGACTGTGGAGGCCAATGATGAGTCCTGA	MPTHVSASQPDADEQVGRGQLKTRHPKNISARGTFQGPLAAAWGTEATQDALLRTLRGGRERLANREAEGQKTWPTGTALAGLQGEAEAERSAPWPQPLLSHYARYFRDGNRTAYEDLVAARQQRLTRAVVMACLSRRVEQGAEPGDGPSTEKPGEPDSVAAFNEWLDDVIDGAYLLCEQSSWCWAAHEDAYHRLGHVVPERSEPYLDLGAGEVAAQLAWLDLLLGDQLDQRAPGLRRRIRGEVLDRVVRPFLNRHDWHWLGLDGDVHNWNPWIHSNVIAAAVVLVDDPGLQAKTIALAIEGLDRFLASMPADGAVDEGFSYWWNGAGRALEALAVLEDATAGRLDGNIPVVRELVAFPHRMHLGHDWYLNVADGPAKGGTDLPWDLVRRWGERLGDHNAARHATAQRTQHSTAPQPDVLDVRRGLGRTLRALADAGQRKGTGGEGIPEPPAPPLIGFTYLESVQIMLARENPGRTDGLVLAAKGGHNGEHHNHRDVGSVVVAVDGVPLLVDAGQPTYTAQTFGPDRYAIRAMQSAWHNVPAPFGLEQGTGRKFAAAVQEAPTPEKPRLVLGLGEAYGLGPANRWVRSASLVRASSPPNPAGNGASERRKARVLIEDRWNLPSPNPAVSRTPEAPSGTPDVDIHYLLSGTVTMGPVGTATIRPSRIPGGVPGRTLERTPRGMATIRPREIPDGVPGRVPGGTSIATPGGISHLIPNEDRRGGLLRWEPAAAVVLVDEWLLDDPLLANIWGSKLTRLRFRMPAHMRAAGAFTLTVEANDES				NA	NA	NA	NA	NA
D1-29_04621	1014	ghrB_4	COG1052	Glyoxylate/hydroxypyruvate reductase B	ATGCCGCGGAAACCCAAAGCGCTTCTGCTGATGAACCGGTCCACCCTGAATGACCAGTTCGATTCCAGCCGCCTGGAGCGGCTCGGCGGCCTGGTGGAACTGGACACACCTCACTGGGCAGACAGCTTGGCCGACCCTCAGGTTGCTGCCCGCCTGCCCGAGGTCGAAGTCCTGCTGACCAGCTGGGGCGTACCCCGGCTGGACCGCGAGGCACTCGACCGTATGCCCCGCCTCCGGGCCGTCTTCCACTGTGCCGGTTCCGTCCGCTCCTTCGTCACCGAGGAACTGTGGGAGCGCGGGATCGTGGTGACAACCGGAGCGGAAGCGAATGCCATACCTGTGGCGGAGTTTACGTTCGCGTCCATCGTCCTGGCCGGCAAGAAAGCACAGGTCCTGGCGAACGCTTCGCGCATTGCGCGGGAGGACTGGACGTACTCAACCGCCTACGGCGAGCTCGGCAACGTTGGCCGGACCATCGGCGTCGTCGGCTTCTCCCGGATCGGGCGCCGGGTTGTCCAGCTCGTCCAGCAACTGCAGGACGTCACCTGCCTTGTCTCGGACCCGTATGCCGAACCTGACACCGTGGCGGCCGCAGGCGCGCGGCTGGTCACGCTGCAGGAGTTGCTGCAGACCTCCGATATTGTCACCATCCACGCCCCCGCGCTCCCGGAAACGCACCACATGATCGGCGCGGAACAGCTCGCCGCAATGAAGGACCATGCCACCCTCATCAACACTGCCCGGGGATCGCTCGTGGATACAAAGGCCCTGGAAGCGGCATGTACCACCGGCCGGCTCCACGCGATTCTGGACGTGACAGAACCCGAACCGCTGCCGGCCGGATCCGTGCTCTATGACCTCCCAAATGTGGTGATAACTCCGCATATCGCCGGCTCCCTGGGCACCGAAACCCGCCGCATGTCGGACGTTGCCATGGACGAACTTGTTCGGTACCTGGCAGGGAAGGACCTTACTGCCGAGGTCCTTTCAAAACACCTTGACCTCATCGCCTAG	MPRKPKALLLMNRSTLNDQFDSSRLERLGGLVELDTPHWADSLADPQVAARLPEVEVLLTSWGVPRLDREALDRMPRLRAVFHCAGSVRSFVTEELWERGIVVTTGAEANAIPVAEFTFASIVLAGKKAQVLANASRIAREDWTYSTAYGELGNVGRTIGVVGFSRIGRRVVQLVQQLQDVTCLVSDPYAEPDTVAAAGARLVTLQELLQTSDIVTIHAPALPETHHMIGAEQLAAMKDHATLINTARGSLVDTKALEAACTTGRLHAILDVTEPEPLPAGSVLYDLPNVVITPHIAGSLGTETRRMSDVAMDELVRYLAGKDLTAEVLSKHLDLIA				NA	NA	NA	NA	NA
D1-29_04622	1284			hypothetical protein	ATGAAGCGCACCACTCTCGTGGCGATAGCCCTCGCCGCCACTGCCAGCCTCGGCCTGACCGCCTGCGCGGGTGCGGCCGGCCCCGCCGAAACGGCCAGTGTGGACGAAAAAACCACACTCAGCATTTCCGTCTGGAACTACGAGGGGACACCGGAATTCAAGGCGCTGTTCGACGGCTACGAAGCTGCACATCCCAACGTCGACATCGAACCGGTGGACATCCTTGCCGATGACTACCCCCAGAAAGTAACCACCATGCTGGCCGGTGGCGACACCACCGACGTCCTCACCATGAAGAACGTCATCGATTACTCCCGCTACGCCAGCAACGGCCAGCTCCAGGAAATCAACAGTGTGGTGGACACCCTGGACAAGGACAACCTCGCCGGGCTGGACGCCTTCGACGTCGGCGGAAAGTACTTCGCCGCCCCGTACCGCCAGGACTTCTGGCTCCTTTACTACAACAGGGACCTCTTTCAGGCCGCCGGCGTGGAAGATCCCGCAAACCTCACGTGGGATGAATACGCAGCCCTCGCCCAGAAGCTCACCACCAAGGGCGCGGACGGCAAGACCGTCTACGGCACCTACCAGCACGTCTGGCGCTCAGTTATCCAGGCCATCGCCGCCGCCCAGAACGGCGGCGACCAGGTCGGCGGCGATTACGGCTTCTTCAAAGACCAGTACAACACGGCCCTGGAGCTGCAGAAGAGCGGCGCCACTCTGGACTTCGGCACCGCCAAGAGTCAGAAGACCAGCTACCGCACCATGTTCGAAACCGGCCAGGCTGCCATGATGCCCATGGGCACCTGGTACATCGCCGGCATTCTCCAGGCGAAGAAGGACGGAAAGACCAACGTCAACTGGGGCCTGGCTCCGATGCCGCAGAAGAACTCCGGCGGCGATGTCACCACCTTCGGCTCCCCCACGGCATTCGCCGTCAACAAGAACGCGGCACACTCTGAGGAAGCCAAGAAATTCATTGCGTGGGCCGCCGGTGAAGAAGGCGCCAAGGCCATTTCGAAGATCGGGGTCGTGCCTGCCCTGCAAAATGACGCGGTAACGGACGCCTACTTCACCCTGGATGGCCTGCCCACCGACGAACTGTCGAAGAAGGCCTTCACCCCTGACGAAACAGCACTGGAAATGCCTGTGAGCGACAAGTCCGCCGCGACCGACAAGATCCTCAACCAGGAGCACGACCTCATCATGGTGGGCGAGCGCTCCGTGGCTGACGGCATCACGGAGATGGGCAAGCGGGTCAAGAGCGAAGTCCTGGGCCAGTGA	MKRTTLVAIALAATASLGLTACAGAAGPAETASVDEKTTLSISVWNYEGTPEFKALFDGYEAAHPNVDIEPVDILADDYPQKVTTMLAGGDTTDVLTMKNVIDYSRYASNGQLQEINSVVDTLDKDNLAGLDAFDVGGKYFAAPYRQDFWLLYYNRDLFQAAGVEDPANLTWDEYAALAQKLTTKGADGKTVYGTYQHVWRSVIQAIAAAQNGGDQVGGDYGFFKDQYNTALELQKSGATLDFGTAKSQKTSYRTMFETGQAAMMPMGTWYIAGILQAKKDGKTNVNWGLAPMPQKNSGGDVTTFGSPTAFAVNKNAAHSEEAKKFIAWAAGEEGAKAISKIGVVPALQNDAVTDAYFTLDGLPTDELSKKAFTPDETALEMPVSDKSAATDKILNQEHDLIMVGERSVADGITEMGKRVKSEVLGQ	PGPT0016545_7738	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
D1-29_04623	924	lacF_16		Lactose transport system permease protein LacF	GTGACAACAGAAACACTCAAGCGGGCCCCGGCTGTCATCAGCCGGGGCAATCGGAAGCAGGCCCGGCGCAACACGCTGGTGGGCTGGACCTTCATCCTCCCCAACTTCCTGGGGTTCCTGGCCTTCACCCTCATTCCCGTCCTCGCCGCGTTCGCCCTCTCGTTTATGGAATGGACCTCCTTCAGTGCCCCGCGCTGGGTGGGCCTGGCAAACTTCCAGAGGATGGTCCAGAGCGACACCTTCTGGGTAGCACTGCGCAACACGGTGGTCTACGCCCTGGGGCACGTCCCGCTGACCATGGCCCTTGCCCTGGTCCTGGCGTTGCTCCTGAACCGCAAACTCAAGGGCATCGGCTTCTTTCGGGTAGCCATCTTCTTCCCGTACATCACCTCCCTGGTGGCGGTCGCCGTCGTCTGGAACATGCTTTTCAGCCCGGACAGCGGCCCCATCAACCAGTTCCTGCATGCCGCGGGCGTCGCAGAAGCTCCGGGCTGGACCTCCAGCTCCGACTGGGCCATGCCGGCGGTGATCATCACCAGCGTCTGGCGGGACATGGGCTACTACATGATCCTGTACTTAGCCGGGCTCCAGGCCATCCCCACCGAACTCTACGAAGCAGCGGAAGTGGATGGCGCCAGCCCCTGGCAGCGCTTCTGGAACGTTACGCTGCCGTCGCTGCGGCCCACCACATTCTTTGTAGTGGTCATGCTGACCGTATCCAGCTTCAAGGTCTTTGACTTGATTGTGGTGATGACCAACGGCGGGCCGGGCCGGGCCACTACGGTGCTGTCCCAGCTCATCTACCAGGAGGGAATCGGCGAGGGCAAGTTCGGCTACTCCTCGGCCATCTCCCTCGTGCTCTTCGTCATCGTCCTGACGATTACCGTCCTGCAATTCAAGCTCCAACAGCGGAGGGAACGCTGA	MTTETLKRAPAVISRGNRKQARRNTLVGWTFILPNFLGFLAFTLIPVLAAFALSFMEWTSFSAPRWVGLANFQRMVQSDTFWVALRNTVVYALGHVPLTMALALVLALLLNRKLKGIGFFRVAIFFPYITSLVAVAVVWNMLFSPDSGPINQFLHAAGVAEAPGWTSSSDWAMPAVIITSVWRDMGYYMILYLAGLQAIPTELYEAAEVDGASPWQRFWNVTLPSLRPTTFFVVVMLTVSSFKVFDLIVVMTNGGPGRATTVLSQLIYQEGIGEGKFGYSSAISLVLFVIVLTITVLQFKLQQRRER	PGPT0016535_4620	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
D1-29_04624	942	araQ_17	COG0395	L-arabinose transport system permease protein AraQ	ATGACCGACATGGCCGAAGACCTCAAGGCCCCTGATCTCAAAGAGACAGGGCCCTCGAGGGGCGGGGCATTCAGCCCGGAAGACCGCCGTCGTTCCCAGCGCAGGCGGTCCACGCGCGAACAGAAGAAGCGGACCAGCGACGCCATCATCTACTGCGTCCTGGCGGTGCTGGTGGTAGCGCTGATGGTGCCGTTCATCTGGATGGTTTCCTCCTCCCTGAAGGAGAACAACCAGGTCCTAACGGTTCCCATCCAATGGATCCCGTCGGAGTTCGTGTGGAGCAACTACACCGATATCTGGACCCGCATCCCGATGACGGGGTACCTGCAGAACTCGCTCTACCTGGCCGTGATCATCACCTGCCTGCAGGTCCTCACCGGGTCCCTCGCGGCGTACGGGTTCTCGAAGGTCCGCTTTCCGGGCCGGGACGTGCTGTTCCTTGCCTACATCGGCACCATCGCCGTGCCGTGGCAGGCCTACATGGTGCCGCAGTACATCATGATGCAGAACCTGGGACTGACCAACAGCTTTAACGCCCTCATCCTGCTCCAGGCCTTCGGCGCGTTTGGAGTGTTCCTGATGCGCCAGTACTACATGACCATCCCCGATGAGCTCTGCGAGGCCGCCCGCATCGACGGCCTTAGCGAGTACGGCATCTGGGCCCGGGTGATCCTGCCCCTGTCCAAGCCGGCCCTGGCCAGCCTGGCACTGCTGACGTTCGTGAATACCTGGAACGACTACATGGGCCCCTTCATCTACCTCACCAGCAACAGGTTGTGGACGGTGCAGCTGGGACTGCGCTCCTTCGTGGGCCAGTTCGACGCCGAATTCGCCATGATCATGACAGGCTCCGTCATCTCTGTGGTTCCCATCCTCATCATCTTCCTGGTGGGTCAGCGTTACTTTATCCAGGGCATCGCGACGAGCGGGATGAAGGGATGA	MTDMAEDLKAPDLKETGPSRGGAFSPEDRRRSQRRRSTREQKKRTSDAIIYCVLAVLVVALMVPFIWMVSSSLKENNQVLTVPIQWIPSEFVWSNYTDIWTRIPMTGYLQNSLYLAVIITCLQVLTGSLAAYGFSKVRFPGRDVLFLAYIGTIAVPWQAYMVPQYIMMQNLGLTNSFNALILLQAFGAFGVFLMRQYYMTIPDELCEAARIDGLSEYGIWARVILPLSKPALASLALLTFVNTWNDYMGPFIYLTSNRLWTVQLGLRSFVGQFDAEFAMIMTGSVISVVPILIIFLVGQRYFIQGIATSGMKG	PGPT0016540_849	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
D1-29_04625	774			hypothetical protein	ATGAGCTCTGTTCGCCAGCATGCGACACCGCCGATGCGGCACCGCTGGACCGGGCTGGGGTTCGAAACCTTCGGCAGCATCTTCGGGTTCGTCTACACGTTCCTGGCGGGGAACGTGATGCTGGCCCTGGCCAACGCCCCGCTTGTGCTCTGCCTCGCCCTCGTGGCCGACCCCATGGCATCGTGGCCGTTCTTCCTGGCGGTTTCGGTCACAGTCCCGCCGTCACTGGGCGGCCTGTTCGCCGCTTTCCAGGCACTGAACGACGACGGCGGTGCAGTCAAGCCGTTTGCCTCCTTCCTCCGGGGCTACGTGCGCAGCTTCCGCCACACCGCACCGCTGGGGCTGGCAGCCATTGCGCTGCTGCTGTTCCTGGGCGTGGACCTCGTGGCTGTTCAGTCGATGCCCGGGGCAGGGCTGCTGGTACCGCTCATCGTGCTGGCGGCTGCTGTCACGGTGAGCGCCGCTGTGATGGTGATCGCCGGCGTCGTACTTCTCCCCGGGGCACGGCTCAAGAGCCTGGCCAAGGCATCGCTCTACCTGTGCGTCCAGCGCTGGTACCTGAGCCTGGCCCTGCTGGTCCTGCTCGGCGTCATCGCTTCGGCGGCGTTGCTGCAGCCGGTGATCGGCGTGGCCCTGGCACCTGCGCCGCTGCTTTTTGTTGTGTGGAGTAACGCGTCGTTTGCGTTCCAGGCGGTAATGGCCCGCCCTGCCCCAACTACCCGCCCTGCCCCAACTAAAATCCCTGGAGTGGCGTGCCAGCTACGCGAGGGCTAG	MSSVRQHATPPMRHRWTGLGFETFGSIFGFVYTFLAGNVMLALANAPLVLCLALVADPMASWPFFLAVSVTVPPSLGGLFAAFQALNDDGGAVKPFASFLRGYVRSFRHTAPLGLAAIALLLFLGVDLVAVQSMPGAGLLVPLIVLAAAVTVSAAVMVIAGVVLLPGARLKSLAKASLYLCVQRWYLSLALLVLLGVIASAALLQPVIGVALAPAPLLFVVWSNASFAFQAVMARPAPTTRPAPTKIPGVACQLREG				NA	NA	NA	NA	NA
D1-29_04626	474			hypothetical protein	ATGGAGATCCTCGACGTGATCTGGAACGGTGTGCTGGGCGTGTCCGCGATAGCACCGCTGGCCACGTTCGGAGTGGTCCTGGTGGCGTACCTGGCCTACCGGCAAAAGGCCCACGCGGACAGGCGGGACCAGTGGTGGAAACGCGCGCAGTGGGCCATCGACTCGGCGTTGAACGATGCTGATCCGCAGCGACGCCTCGCGGGGATGCGCGTGCTGGTCCAGCTCGTTGGCAGCGACCTGGCCACGGCGGAGGACGCTGACCTGATGAGTGCGCTGGCGGTGGGAATCCAGGCCCAGGAGCTCTCTCGGCTCTCCGCCGGCGCTCCCGGGCTTCGTGCCGACGGACCTGCTCACGAACAGTCCCACGGGCGTTCCGGCCGGCGGGCCGGAGATCGTCCCGCGGTTGTTGACGGGATCCTGGCGGAAGCTGAAAAGCTCATCGCCGCAGCGGACGCCCGGTCCGCCCGCCCCTAG	MEILDVIWNGVLGVSAIAPLATFGVVLVAYLAYRQKAHADRRDQWWKRAQWAIDSALNDADPQRRLAGMRVLVQLVGSDLATAEDADLMSALAVGIQAQELSRLSAGAPGLRADGPAHEQSHGRSGRRAGDRPAVVDGILAEAEKLIAAADARSARP				NA	NA	NA	NA	NA
D1-29_04627	237			hypothetical protein	ATGTTGAAGGAAGCCAAAGCCCATGTAACGAGAGTCCGCGCCCTGGACCAGCTCCACCGCGGTGACGAAATCGAAGCCCGCCTCTCCGTGGGCCCCAGCTACGACGACGTGGTGATCCGCCGCGGCAGCGTCCAGGAGACGGCGCCCGGCATTGGCGTTGTCTGGATCATGGACCGGCACACCGGCCTCCGCAAAGCCATCAATACCGACGAGTGCAGCGTCTGGCGGGTCGCCTGA	MLKEAKAHVTRVRALDQLHRGDEIEARLSVGPSYDDVVIRRGSVQETAPGIGVVWIMDRHTGLRKAINTDECSVWRVA				NA	NA	NA	NA	NA
D1-29_04628	1452	ligM_2	COG0404	Vanillate/3-O-methylgallate O-demethylase	ATGGCGCAGAAGACCCTGCAGGATGTTCTTGACGAAGCAGGCAACACCGTCGAACTCCTGCGCAACTCACAACTTGGCACGTATATCTACCCGGTGGTCCCGGCCGAGTTCACCAACTGGCGGCGCGAGCAGCGGGCCTGGCGCGAGACCGCCGTGCTCTATGACCAGTCACACCACATGGTCAACTTCTTTATGAACGGTCCGGGCGCCCTCAAGCTCCTGTCCGACACAGGAATCAACAGCTTCGCCAACTTTCCGGTGAACACCGCCAAACAGTTCGTACCGACGGCATCCAACGGCGGCGTGATCGGCGACGGCATTCTCTTCCACCTGGCCGAGAACGAATTCGTCTACGTCGGGCGCGCCCCCACCGCGAACTGGCTCCAGTTCCACGCCGAGACGGGAGGGTACGACGTCGAGTGCAGGTATGACGACCGGTCGCCGTCGCGTCCCTATGGCCAGGCGGTCAGGCGCGAGTTCTACCGCTTCCAGATCCAGGGCCCCAACGCCTGGCAGATCATCGAGAAGCTCAACAAGGCAACGCTTGAACCGGTGAAGTTTTTCCACATGGGTCAGTTGGGCATTGCCGGGGAGCAGGTTCGTACCCTGCGCCACGGCATGGCCGGCGCACCCGGGCTGGAGATCTGGGGGCCCTATGAGCAGCACGGGAAGATCCGGGATGCCGTGCTGGAGGCTGGCGCCGAGTTTGGCCTGGAACCATGCGGGTCCCGCGCCTATTCCTCGAACACCCTGGAATCCGGATGGATCCCGTCGCCCTTGCCGGCGATTTACAGCAGCGAAGCCGAACGGAACTACCGTGAATGGCTGCCCGCCACGAGTTATGAAGCGATCAATGCTCTCGCCGGCTCCTTCGTGTCCCAGAACATCGAGGACTATTACTTAACCCCGTGGGAGCTCGGCTATGGCTCGTTCGTGAAGTTCGACCACGATTTTATTGGCCGCGACGCCCTCGAGAAGATTGATCCTGCCAGGCAGCGCAAGAAGGTCACGCTGGCCTGGAACGATGAGGACCTGGCGAAGATCTGGGCCTCCTTCCTGGACCGCGACAGCGTGGGCTACCAGTTCTTTGACGTGCCGAACGCGAACTACGGATCATCGAACTATGACTCCGTGGTGGACGCCGACGGCACCGGAGTTGGGCTCTCGCTCTTCACCGGCGTCACCGCCAATGAACGGCGCGGGCTGTCCCTGGCCACCGTGGACCCCGACGTCGATATCGGTACGGAGGTCCATGTCATCTGGGGTGAACCAGACGGCGGAACGACGAAGACCACGGTGGAACCACACGAGCAGTTCAGTGTGCGCGCGGTGGTCAGCCCCGCGCCCTACGCTGTCACTGCCCGCACCGAATACCACGGCGGCTGGCGGACCGCCGCCGCTGCCGGCACGGGAAGCCGAGGGGCCGACGGCGGCTCCGGGCCGGTCATGTGA	MAQKTLQDVLDEAGNTVELLRNSQLGTYIYPVVPAEFTNWRREQRAWRETAVLYDQSHHMVNFFMNGPGALKLLSDTGINSFANFPVNTAKQFVPTASNGGVIGDGILFHLAENEFVYVGRAPTANWLQFHAETGGYDVECRYDDRSPSRPYGQAVRREFYRFQIQGPNAWQIIEKLNKATLEPVKFFHMGQLGIAGEQVRTLRHGMAGAPGLEIWGPYEQHGKIRDAVLEAGAEFGLEPCGSRAYSSNTLESGWIPSPLPAIYSSEAERNYREWLPATSYEAINALAGSFVSQNIEDYYLTPWELGYGSFVKFDHDFIGRDALEKIDPARQRKKVTLAWNDEDLAKIWASFLDRDSVGYQFFDVPNANYGSSNYDSVVDADGTGVGLSLFTGVTANERRGLSLATVDPDVDIGTEVHVIWGEPDGGTTKTTVEPHEQFSVRAVVSPAPYAVTARTEYHGGWRTAAAAGTGSRGADGGSGPVM	PGPT0005520_25	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_VANILLIN|VANILLATE_DEGRADATION,PGPT0005520-ligM-K15066	NA	NA
D1-29_04629	1353	ligM_3	COG0404	Vanillate/3-O-methylgallate O-demethylase	GTGACGCAGACCTTGCAGGAAGCGATCGATCGGCTGGGCTCTCCGGTCGAGCTGCTGCGCAACTCACAGGCGCCGCCCACCGTGTTCCCCGTCAAGCCGGAATTCAGCAACTGGCGGTCCGAGCAGCAATCATGGCGCACGGGATGCGCACTGCTGGACCAGTCACACCACATGACCGATCTGTTCCTTAGCGGTCCCGGCGCCGAACGCCTGCTCAGCAGTCTGGCTGTTAATTCCTTCGCAAGGTTCCCGGTGGACCGCGCCAAGCAGTTCATCGCCGTGAACCACCAGGGTTATCTTATTGGCGACGCCATCCTGACCCACCTGGACGTGGATTCCTACAACCTGGTGGGGCATCACATGGCGATCGACTGGGTGCAGTTCCACGCAGAGACGGGCGCACACGATGTGGACGTTGAGCGGGACGGGAATTCCATCGTGCGCCCCGGCGACCCCCGGCTCTTCAGGTACGAACTCCAGGGACCAACAGCACCAGCCATCGTGGAGAAGCTCATCGGCGGTCCGGTGCCGCAGATCGGCTTCTTCCATATGGGCCGTTTCGGGATCGCCGGGCTCGAGGTCCGCGGCATCCGGCACGGGATGGCCGGCCAGCCCGGCTACGAGCTTTTCGGGCCATGGGCTGACGGGGTGCGGGTCAGGGACGCATTGCTGGAAGCCGGTGCCGGGCTTGGCCTGACCCAGGTTGGCGCCAAGGGCTACTCAACGGCCAACCTTGAATCGGGATGGGTGCCCTCGCCGGTGCCCGCAATCTTCTCGGACAGCCGGTTGCGGGCCTACCGGGAATGGCTGCCGGCACCGGCGGCCGGCTCGCTGGGCGGCAGCTTCGATTCGCCCAACATCGAGGACTACTACCTGACACCCTACGACCTGGACTACGGGCGTGCGGTGGCGTTTGACCACGACTTCATCGGACGGGACGCGCTCGAGGCCCTTCCCCTGGATTCACACCGCCGCAAAGTCACGCTCGTATGGAACCCCGATGATGTCCAGGACGCCATCGGCTCACTCCTGCGCCCTGGCCTCCCGGCCAAGTACATCGACCTGCCAAAGGCGCGGTACGCCCTGTACCAGGTGGATAGTGTGCTCCACGAGGGCGCCACCATCGGCCAGTCCTTTGACTGTGGCTACATCGCCAACGAGCAGTCGTTTGTTTCGCTTGCCAGCGTTGACCCAGCCTTCGCGGAAACCGGCACGGAGGTCACTGTCATCTGGGGCGAACAGCCCAATTCGTCCAAGCTCCAGGTGGAGCCGCACCGGCAGGTTGCCATGCACGCCACCGTCGCCCCCGCCCCCTTCGTGCAATTTGCACGCGAAAACTACCGCGCCGCCTGA	MTQTLQEAIDRLGSPVELLRNSQAPPTVFPVKPEFSNWRSEQQSWRTGCALLDQSHHMTDLFLSGPGAERLLSSLAVNSFARFPVDRAKQFIAVNHQGYLIGDAILTHLDVDSYNLVGHHMAIDWVQFHAETGAHDVDVERDGNSIVRPGDPRLFRYELQGPTAPAIVEKLIGGPVPQIGFFHMGRFGIAGLEVRGIRHGMAGQPGYELFGPWADGVRVRDALLEAGAGLGLTQVGAKGYSTANLESGWVPSPVPAIFSDSRLRAYREWLPAPAAGSLGGSFDSPNIEDYYLTPYDLDYGRAVAFDHDFIGRDALEALPLDSHRRKVTLVWNPDDVQDAIGSLLRPGLPAKYIDLPKARYALYQVDSVLHEGATIGQSFDCGYIANEQSFVSLASVDPAFAETGTEVTVIWGEQPNSSKLQVEPHRQVAMHATVAPAPFVQFARENYRAA	PGPT0005520_135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_VANILLIN|VANILLATE_DEGRADATION,PGPT0005520-ligM-K15066	NA	NA
D1-29_04630	732	galB	COG2120	4-oxalmesaconate hydratase	ATGGCCAATGCAGGCACCGTGCTGGTGGTAAGCGCGCACGCCGGGGACTTCGTCTGGCGGGCCGGCGGCGCCATTGCCGCCGCCACCGCCCGGGGTGATCGCGCCGTCGTCGTCTGCCTCTCCTACGGCGAGCGCGGCGAGTCTGCCAGCCAATGGCGGGCGGGGAAATCACTGGATGAGATTAAGGCCATCCGGCGCGGAGAGGCCCAGGCCGCCGCCGAGGCCCTGGGCGCCGAAATTGAATTCCTCGACGCCGGCGACTACCCCCTGCTGCCCAGCCGCGAACTGCTGGATGAACTGGTGCGGATCTACCGCCGGGTCCAGCCCACCGTTGTGCTGACGCATCCGCTGCTGGATCCTTACAACGGCGACCACCCGGCTGCCGGAAAACTGGCAATCGAGGCCAGGATCCTGGCCCAGGCCATTGGGTACGAGGCCCCGGGCGAAGTGCTGGGTGCACCGCCCGTGTTCTTCTTCGAGCCGCATCAGCCGGAACAATGCGATTTCAAACCCGATGTCCTGCTCGACATCACGTCCGCTTTCCCCGCCAAGGAGCAGGCAATGAAGTGCCTGCCCGCCCAGCAGCATATGTGGGACTACTACACGTCGCTTGCGGTCCGCCGCGGAGTCCAGGTCAAGCGCAACGCTGGCCCCAACCTCGGCCTGCCGGTTGACACCAAGGGAGAGGCGTACATGCGCTATTACCCCCAGGTCACCGAGGTCCTGGAATGA	MANAGTVLVVSAHAGDFVWRAGGAIAAATARGDRAVVVCLSYGERGESASQWRAGKSLDEIKAIRRGEAQAAAEALGAEIEFLDAGDYPLLPSRELLDELVRIYRRVQPTVVLTHPLLDPYNGDHPAAGKLAIEARILAQAIGYEAPGEVLGAPPVFFFEPHQPEQCDFKPDVLLDITSAFPAKEQAMKCLPAQQHMWDYYTSLAVRRGVQVKRNAGPNLGLPVDTKGEAYMRYYPQVTEVLE	PGPT0005285_142	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0005285-galB-K16515	NA	NA
D1-29_04631	756	ligK_5	COG0684	4-carboxy-4-hydroxy-2-oxoadipate aldolase	ATGAAGACCGTTGTGGTCACCGGCATCCCGCGGGCGGACGCTTCCGCCATCGATGCGCTCGGATCGCACGGCGTCGCAACGGTGCACGAAGCAATGGGGCGCACGGGACTGGCGGGCGCCTCGCTCCGTCCCATCCAGGAGGGGGTCCGGATTGCGGGTTCGGCGGTTACAGTCCTGTGCTGGCCCGGCGACAACCTGATGATCCATGCCGCAGTGGAGCAGTGCCGCGAGGGTGACGTCCTGGTGGTGACCACGGCCTCCCCCTCCCTTGACGGCTCGTTTGGCGAACTGTTCGCAACGGCTCTGCGGCAGCGCGGAGTGCGAGGGCTGGTGACAACCGGCGGGGTCCGGGACGTGGCCGACCTGCGGATCATGGGGTTTCCTGCCTGGTCTGCCGCGGTCAATGCCCAAGGGACGGTCAAGGCCACGGCCGGCTCTGTGAATGTGCCGATCACGGTGGGCGGCACGGTGGTGCGCCCGGGCGACGTCATCGTGGCCGATGACGACGGCGTGCTCTGCGTGCCGCGCGCGGACGTGCAGTCTGTCCTCGAAGCGGCCCATGCGCGGGTGATGAAGGAGGCGGAGTCACGTGCGGCCTACATCGCCGGTGAACTGAGCCTGGACCGCAACCGGCTGCGCGGCGTCTTGGAGGACCTGGGCGTACGGTACGTGAGCGCCGCTGAATACAACCAGGCTGAGCACAGCGCGGCTGAGCACAACGCGGCTGAGCACGGGGCGGATCATGGCCGGGGTTGA	MKTVVVTGIPRADASAIDALGSHGVATVHEAMGRTGLAGASLRPIQEGVRIAGSAVTVLCWPGDNLMIHAAVEQCREGDVLVVTTASPSLDGSFGELFATALRQRGVRGLVTTGGVRDVADLRIMGFPAWSAAVNAQGTVKATAGSVNVPITVGGTVVRPGDVIVADDDGVLCVPRADVQSVLEAAHARVMKEAESRAAYIAGELSLDRNRLRGVLEDLGVRYVSAAEYNQAEHSAAEHNAAEHGADHGRG	PGPT0002085_228	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
D1-29_04632	1080	ligU		(4E)-oxalomesaconate Delta-isomerase	ATGGCCGGGGTTGAGGGAATCCCCTGCCTCTATATGCGTGGGGGCACATCCAAGGGTGCGTTCTTCCTCGCTGCGGACCTCCCGGCCGACCACGAGGAACGTGACAACCTGCTCCTGCGCATTATGGGCACGCCGGATCCGCGCCAGATCGACGGGCTGGGCGCTGCGCATCCGCTGACCAGCAAGGTGGCAGTCATTTCACCATCTCCCGACGACGGCGCCGACGTCGACTATCTTTTCCTCCAGCTGGGCATCGACAGCGCCTTCGTGACCGACCGCCAAAACTGCGGCAACATTCTGGCCGGCGTCGGTCCGTTCGCGGTGGAGCGCGGCCTCGTTCCGGCCGGCAACGGGCAGACCGAAGTGCGGATCCGCATGGTCAATACTGACAGCCTGGCCACTGCCACGTTCGCCACTCCGGGCGGGATGGTGGATTACGACGGCGACCTCGAGATCGACGGCGTCCCCGGTACGGCGGGAGCGATCAGGCTCAACTTCGAGGGGACCGCCGGATCCTCCACCGGGGCGCTCTTCCCGTCCGGCAGCGTGCTGGACAAGGTTGCCGGCGTGGACGTCACGTGCGTGGACAACGGTATGCCCACCGTCCTGATCCGCGCCGCCGATCTCGGGCTGACGGGCGGCGAATCACCTGAGGACCTGGAGGGCGACGGCGGCCTGGCCGACCGCCTGAGGGCGCTCCGCCTTGAGGCCGCAAAGGTGATGGGCATGGGGGATGTCACGGACGCCACCGTGCCGAAGCTTGTGCTGCTGGCCCCACCCACCGCGGGGGGCTCCATTGCCACCCGCAGCTTCCTGCCGGTGCGGGTGCACACGTCCATCGGCGTGTTGGGGGCCCTGACCGTGGGCGCGGGAGTGCTGGCAGAGGGATCGGTGGGCCACGCACTCGCTGCGTTGCCGTCCACCGGCGATCCGCTGCGGATCGAACACCCCACCGGGCACTTCGACGTCGACATTGCGGTCGAGTCAACCCCGGACGGGTTCACCGTCACCAAATCGGCTGCCCTCCGCACGGCGCGGAAGATCTTCGACGGGCGTGTTTTCCCGCGCCCCCGCCTGTGA	MAGVEGIPCLYMRGGTSKGAFFLAADLPADHEERDNLLLRIMGTPDPRQIDGLGAAHPLTSKVAVISPSPDDGADVDYLFLQLGIDSAFVTDRQNCGNILAGVGPFAVERGLVPAGNGQTEVRIRMVNTDSLATATFATPGGMVDYDGDLEIDGVPGTAGAIRLNFEGTAGSSTGALFPSGSVLDKVAGVDVTCVDNGMPTVLIRAADLGLTGGESPEDLEGDGGLADRLRALRLEAAKVMGMGDVTDATVPKLVLLAPPTAGGSIATRSFLPVRVHTSIGVLGALTVGAGVLAEGSVGHALAALPSTGDPLRIEHPTGHFDVDIAVESTPDGFTVTKSAALRTARKIFDGRVFPRPRL	PGPT0005280_24	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GALLATE_RESISTANCE,PGPT0005280-galD-K16514	NA	NA
D1-29_04633	954	bphC_3		Manganese-dependent 2,3-dihydroxybiphenyl 1,2-dioxygenase	ATGACCGAGTACACCTCATTCGACGTCGCCCACGTGGGGAACGTGGAACTGCTGACGCCCACCTTCGACAAGAGCCTGTGGTTCTTCCGCGACCTGCTGGCCATGCGTGTCGTCGCCGAGGCCGGCGATTCGGTGTACCTGCGCACCTGGGACGAATATCAGCTGTACACGCTGAAGCTCACAGCATCCGCCGACGCAGGAGTGGGCCGGACGACGTTCCGTGCAACGAGCCAGGAGGCGCTCGAGCGGCGGGTGGCCGCGATCGAAGCCACTGGCCTGGGCATCGGCTGGGTGGACGGGGAAGTGGGCACGGGCCCCGCCTACGCTTTCCAGGATCCTGACGGGCACGACATGGCTATCTATTATGAAACCGAGCGGTACGTGGCCACCGACGACAAGCCCGCCCTGAAAAACCAGGCCTCTGCGTTTCCCGGCCGTGGCGTCAACGCCAGGCGGCTGGACCATATCAATTACCTGGCCAAAGATGTGGTGGCCAACGGAGAGTTCGTGGTTAACGCCCTGCGGGGACGCGAAAGTGAACGAATCAAGCTTAATGACGGCGGTTACGCCGCCTGGTGGTTCCACTTCAACAACAAGTCCTACGACATCGTGTACTCCGACGACTGGCTTAAGCACGGCAACCGGCTGCACCACGTCGCCTTCTCCCCCGACACCCGGGAGGACATCCTCAAGGCAGCTGACATCTTCCTCGAGAACGGCATCCACATCGAGTCAGGCCCGCACAAGCATGCGATCAACCAGACCTTTTTCCTCTACGTCTGGGAGCCCGGCGGCAACCGCATCGAACTCGCCAACGCCGGCGCACGCCTCCTGCTGGACCCCGACTCGCCGGTAGTGGAGTGGACGCAGGAGGAGCGAGCAAAGGGGCAGGCCTGGGGCATGAAAACGATCGAAACGTTCCACACCCACGGAACACCCGTCGTCCACCAGTGA	MTEYTSFDVAHVGNVELLTPTFDKSLWFFRDLLAMRVVAEAGDSVYLRTWDEYQLYTLKLTASADAGVGRTTFRATSQEALERRVAAIEATGLGIGWVDGEVGTGPAYAFQDPDGHDMAIYYETERYVATDDKPALKNQASAFPGRGVNARRLDHINYLAKDVVANGEFVVNALRGRESERIKLNDGGYAAWWFHFNNKSYDIVYSDDWLKHGNRLHHVAFSPDTREDILKAADIFLENGIHIESGPHKHAINQTFFLYVWEPGGNRIELANAGARLLLDPDSPVVEWTQEERAKGQAWGMKTIETFHTHGTPVVHQ	PGPT0005055_570	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
D1-29_04634	1494	gabD_3	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)]	ATGACCGACACAGTGAACACTTCAGCGCCGGTGACCACCGGCCTGTACATCGGAGGGGCCGAACGTCAGGCCGCCGCCACCCTGGAGGTGGCCGATCCGGGAAAACCGGGCGCCATCGTGGGGCATGCGGCAGCGGCAGGCCCCGCCGACGTCGACGACGCGATTGCCGCGGCCAAGGCGGCCTTCCCCGGATGGTCCGCACTGAGCGCACGGGAACGAGCGGACCAGATGCGCGCCGCCATCGAGGGAATCGCCGACTTCCGTGATGAGGACGCCGCCATCCTGTCGCAGGAGAACGGGAAGATCCGGATGGAGGCGTGGATTGACTCACTGGTGTTCGAGCTCCGGTGGAACCTTGCACTGGAGCTGGCGGACGAAGTGGACGCGACCAAGGTCCTCCCCCCGGCGCCAGGGATCCCCGTGTCCACCACGGTGGAGTACCAGCCGCTGGGCGTGGTGACGGTCATCGTGCCGTTCAATTGGCCCATCGCGATCCTCGGGGCATCACTGCCACATGCGCTTCTTGCCGGCAACACCGCTATTGTGAAGCCTCCGCCCACCACTCCGCTAGCCACTACCCGTGTGGTCCAGAGAGTCGCGGAGAAGCTTCCGCCCGGCGTGCTCAACGTGGTGACCGGCAAGGACGCGGACATGTCGGCTCTCATCACAAGCCCCGATGTTGCGAAAGTCTGCTTCACCGGCAGTGTCTCCGGCGGCAAGCGCATCATGGAGATGGCCTCCAAGTCCCTGACCCGGGTAACGCTGGAATTGGGCGGGAACGACGCGGCCGTGGTGCTGGAAGATGCCATCCTTGATGACGCCCACCTTGACCGTCTGTACGCTTCAATCTTCGACACCACCGGGCAGATCTGTATGGCCGCGAAACGGGTTTTTGTCCACCGTTCGCGCCTGGATGAGCTGGTGGCAGGACTGTCGGCCCGGCTCGAGAAAGCCGTCGTCGGTTACGGATTGGACGAGGGGACCACCATGGGACCGTTGCACCAGCCGGCCCAGAAGGCTTTCGTCACCGAGATCATCGAGGAGGCAAAGGAAGCGGGCGCCGACGTCAGGGAGTTTGGGACGCTGCCCTCTGATCCGGACCTTCGAAGCGGCAACTTCCTGCGGCCGGCGCTGGTGATCAACCCGGATCCGTCGCTGCGCGTTGTTACCCAGGAGCAGTTCGGCCCGGTGATTCCGCTTATCCCGTTCGACATCGAGGATGAGGCCATCCGTGCCGCTAACGATTCCTGGTCCGGGCTTTGCGGCTCGGTCTGGACTGCCGACCCGGAGTCGGCCAACCGCGTGGGCGGACGGCTGGTCTGCGGCTACGTCTGGGTGAATGACCACGGCGCCACGCGGCTGGACCTGCGTGCTCCCTTCGGGGGAATGAAGCAGTCCGGCATGGGCCGTGAGCAGGGCATCGAGGGAGTGCGTGCCTTCCAGGACACCCGCTCGATCGCCCACCTCGATCCCGATGCCCTGGCCGCGGGCTGA	MTDTVNTSAPVTTGLYIGGAERQAAATLEVADPGKPGAIVGHAAAAGPADVDDAIAAAKAAFPGWSALSARERADQMRAAIEGIADFRDEDAAILSQENGKIRMEAWIDSLVFELRWNLALELADEVDATKVLPPAPGIPVSTTVEYQPLGVVTVIVPFNWPIAILGASLPHALLAGNTAIVKPPPTTPLATTRVVQRVAEKLPPGVLNVVTGKDADMSALITSPDVAKVCFTGSVSGGKRIMEMASKSLTRVTLELGGNDAAVVLEDAILDDAHLDRLYASIFDTTGQICMAAKRVFVHRSRLDELVAGLSARLEKAVVGYGLDEGTTMGPLHQPAQKAFVTEIIEEAKEAGADVREFGTLPSDPDLRSGNFLRPALVINPDPSLRVVTQEQFGPVIPLIPFDIEDEAIRAANDSWSGLCGSVWTADPESANRVGGRLVCGYVWVNDHGATRLDLRAPFGGMKQSGMGREQGIEGVRAFQDTRSIAHLDPDALAAG				NA	NA	NA	NA	NA
D1-29_04635	1305	yycB_3	COG2807	putative transporter YycB	ATGCCACCATCAGAGCAGGTAAGGCATCCCCGCCTCCTCCTTTTCGCCGCCGTGCTGCTGATCGCAGCAAACCTGCGCTCCACGATCACGGGCGTGGGGCCACTCCTTGCGCAGATCTCCGCAGATCTGGGCACCACTGAGGCTGCACTGGGGCTGCTGGCCGCCATCCCCCTGATTGGCTTCGCCGTGGTCTCACCCCTGGCCCACGCCCTCGGCATGCGCTTTGGCATTTCGCCTGTGGTGTTCTGGTCCCTGATCGGGCTTGGAGCCGGCACCGTGTGGCGCTCACTCCCGGGAACGAACCTGAACCTGTGGGCCGGAACGGTCCTGATCGGAGCGTCCCTCGCGGTGGCCAACGTCCTGCTCCCCGCGGTGATTAAGCATGAATTTAGCGACCGCCTGGCGGTGGTGACGGCACTTTTCACCGCCTTCCTCAGCGGCACGGGAGCACTGGCGTCGGGGATCGTGGTTCCGGTCTCGCAGGTACCTGCGGGCGAGGGAGTACTTGGTTGGCGTGGGGCGTTGCTCTTCTCGGGAGTACTGATTCCACTGGCAACCGTTGCCTGGCTCGCGGTCCTGGCGCGGAAGCGTGCCGGTGGGACCGTGCGCGTCTCCGGGCCGGATACTGGGGGGCCTGATACTGCGGGGTCTGATACGGAAGGGCCGCATGCCGTGGCGTCCTCCGCGGAACCGGGGGCAGCACAAGATAGCCGCTGGGGCGTCTGGGGCGACCGCGTCGCATGGCAGGTGCTCTCGTACATGGGGTTCCAGGCCATGACGTTCTACATGATGGTCACGTGGCTTGCCCCACTCGCACAGAGCATCGGACGTTCAGAGATAGTGGCGGGGATCGACGTCATGGTGCTCCAGGTAAGCTCGCTCGCGGGTTCACTTACCGTCCCGCTGATGCTTCGCGGGCGTTTGGCGCGGTGGACGCCCGCCCTCATCCCGGTGCTCGGCCTGGTGGCAATTATGGGACTCATCACCACGCCGGCGCTTTTCCCGGGCTGGGTGATCCTTTACGGACTCTCGTCAGGAGCATCGCTGGCGATGTCCTTCAGCCTGTTCGGCCTGCGTGCACGCACGTCCGGGGCTGCGGGGCGGTTGTCGGGCATGGCGCAGTCAGGCGGCTATGCCATTGCCGCTGTGGGTCCCGTTGCGTTCGGCAGCCTGCTTGCGCTCACTGGGGGCTGGCTCGTGCCACTGCTGCTCGTGGAGCTCACCCTCGCAGCACAGCTTGCAGTCGGCCTTTTCGTTGGGCGGGAACGGCATGTGCTGCCAACTTCCAGCTCTGCCGCCGGCTGA	MPPSEQVRHPRLLLFAAVLLIAANLRSTITGVGPLLAQISADLGTTEAALGLLAAIPLIGFAVVSPLAHALGMRFGISPVVFWSLIGLGAGTVWRSLPGTNLNLWAGTVLIGASLAVANVLLPAVIKHEFSDRLAVVTALFTAFLSGTGALASGIVVPVSQVPAGEGVLGWRGALLFSGVLIPLATVAWLAVLARKRAGGTVRVSGPDTGGPDTAGSDTEGPHAVASSAEPGAAQDSRWGVWGDRVAWQVLSYMGFQAMTFYMMVTWLAPLAQSIGRSEIVAGIDVMVLQVSSLAGSLTVPLMLRGRLARWTPALIPVLGLVAIMGLITTPALFPGWVILYGLSSGASLAMSFSLFGLRARTSGAAGRLSGMAQSGGYAIAAVGPVAFGSLLALTGGWLVPLLLVELTLAAQLAVGLFVGRERHVLPTSSSAAG	PGPT0005211_864	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
D1-29_04636	912			hypothetical protein	ATGAAGGGACGTGGCATTGTGACTAAAAGCACACAGACGATCAACCGCGCGGCTTCCCGCGAACTCATGAAGGACTTCTCCCTGGAGATGACAGGCAAAGACGTGCCTTCTCTCCTCGAGGCAAGAACGCTCATTCCCCTCGGGACGAGAATCAATGTGACCTTCCTGGGGAATGAAGACCTTGAAATGCGCGTGGCCGCCGCCAAGTCGGTCCGGGAGATGGGCTTTGTTCCCGTACCCCACATCTCGGCCCGGCGGCTGGAGTCCGAGCGGCGGTTTAGGGAGTTCCTCGGCCGCCTGAAGGACGTTGACGCGGCCCAACATATTTTCGCCGTCGGCGGTGATCCCGCCCAGCCCGAGGGTCCCTACAGCGACTCCCTCTCGCTGATACGCAGTGGCATCCTCCAGGAGTTCGGAGTACGCGAAGTCGGGATCGGAGGGTACCCCGAAGGTCATCCGGACATCCCGAAGGAGGTCCTGTGGCGCGCACTGGAAGACAAGTACGCAGCGCTCCGGGACCAGGGTCTTGACCCGGTCATCCTCACCCAGTTCGCGTTCGATACCGATCCTGTGGCCGAGTGGATCGCGGAGGTTCGGGCCAGGGGCATCAACGCTCCAATCCGCGTCGGAACTCCAGGGCCGGCGGGGATCAAACGCCTCCTGGGCTTTGCCCGCCGCTTTGGCGTCGGCGCGAACGCCATGATCGTGAAGAAATACGGATTCTCACTCACCAACCTCGTCGGCGAGGCAGGGCCCGACAACTTCGTCAATGACCTTGCCGCAGTTCTCGCCCATCAATCCGCGCGCAGAGGCCCCGGCCTCCGTGGACAGGTAGGGCTGCACTTCTACACCTTCGGCGGACTGGCGGAGACGGCGGGCTGGGCCCGCCGGTTCACGGGCCGGCAGGAGTGA	MKGRGIVTKSTQTINRAASRELMKDFSLEMTGKDVPSLLEARTLIPLGTRINVTFLGNEDLEMRVAAAKSVREMGFVPVPHISARRLESERRFREFLGRLKDVDAAQHIFAVGGDPAQPEGPYSDSLSLIRSGILQEFGVREVGIGGYPEGHPDIPKEVLWRALEDKYAALRDQGLDPVILTQFAFDTDPVAEWIAEVRARGINAPIRVGTPGPAGIKRLLGFARRFGVGANAMIVKKYGFSLTNLVGEAGPDNFVNDLAAVLAHQSARRGPGLRGQVGLHFYTFGGLAETAGWARRFTGRQE	PGPT0008160_2629	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008160-metF-K00297	NA	NA
D1-29_04637	873	purU_3	COG0788	Formyltetrahydrofolate deformylase	ATGGCTCTGCACAGCCAAGGGCAGAGGGACCAGGCCTGTCTGATTGTCCATGGCCCCGACCGGCCAGGGATCGTCTCCGCGGTTGCGGCCTTGGTCACCCGAAACCAGGGAAACATCGTCTCCCTGGACCAGTACTCCAGCGATCCCACCGGGGGCGACTTCTTTCAGCGGATCGTCTTCAGCCGGGCTGACCTGACAGTTGCCTTGCCCGAGATCGAGGCAGATCTGGGCAGGACGCTGGAGTCATTGGGGCTGGCCTGGAACCTCACCGACCGCTCTGTTCCCAAACGCATGGCCATCATGGTCTCCACGTCAGACCACTGCCTGCTCGAACTGCTGTGGCGGCACCGCCGCGGTGAGCTGCATGTCATCATCCCGATGGTGATTTCCAACCACACAAACACCGCCGAGGACGTCCGCTCGTTCGGGGTGCCCTTCTTCCACGTGCCGTCCGCCGGCAGTGACAAGTCGCACGCGGAGGCCCAGATCCTGAAGCTGCTGGAGGGCAACGTGGATTTCGTTGTTTTAGCCCGCTACATGCAGATCCTGTCGCCGGAGTTCCTCGACCAGGTTGGCGTGCCGCTGATCAACATCCACCACTCCTTCCTGCCCGCTTTCATCGGGGCGGCCCCCTACCGCAAAGCCAAGGAGCGCGGCGTGAAACTGATCGGCGCAACGTCGCACTACGTGACCAAGTACTTGGATGAGGGGCCAATCATCGAGCAGGACGTTGCCAGGGTGACACATGCCCACACCGCCACCGATCTCCAGGCCCGTGGCGCGTATGTGGAACGTGCCGTCCTTTCAAGGGCTGTCGAATGGCACGCCGACGACCGGGTCATCCGGCACGGCAACCACACCATCGTCTTCTGA	MALHSQGQRDQACLIVHGPDRPGIVSAVAALVTRNQGNIVSLDQYSSDPTGGDFFQRIVFSRADLTVALPEIEADLGRTLESLGLAWNLTDRSVPKRMAIMVSTSDHCLLELLWRHRRGELHVIIPMVISNHTNTAEDVRSFGVPFFHVPSAGSDKSHAEAQILKLLEGNVDFVVLARYMQILSPEFLDQVGVPLINIHHSFLPAFIGAAPYRKAKERGVKLIGATSHYVTKYLDEGPIIEQDVARVTHAHTATDLQARGAYVERAVLSRAVEWHADDRVIRHGNHTIVF	PGPT0008155_1510	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
D1-29_04638	1413	ligM_4	COG0404	Vanillate/3-O-methylgallate O-demethylase	GTGGCACCGAAGAATCTGCAGGAAGTCCTCGACTCGTCCAGCGGCGCAGTGGATTTGCTCCGCAACTCACAGATCGGGTCCTACATCTACCCCGTGGTTCCGGCCGACTTCCAGAACTGGATCAAGGAGCAGACCGCGTGGCGCTCGACCGCTGTGCTCTTCGACCAGTCCCACCACATGGACAACCTGATCATGAAGGGTCCGGACGCTATCAAGCTGATCTCGTCGACGGCCATCAACTCCACGGCAGTGTTCCCCGTCAACAGGGCTAAGCAGTACGTCCCCACCACCGAGTCCGGACACGTCATCGGCGATGGCATCCTCTTCCGCCTTGCCGAGGAGGAGTATGTCTACGTGGGACGCGCACCTGCCGCCAACTGGCTGCTTTACCATGGCGAAACCGGCGGCTACCCGAACCTGGACATGACCATCGACCGCCGTTCGCCGTCCCGGCCCTACGGCCAGCAGGTCACCCGCCAGTACTACCGATTCCAGATCCAGGGGCCGAACGCCTGGCAGGTCATCGAAAAGCTGAACCGCGGCCCGGTGGAGCAGCTGAAGTTCTTCAACATGTCCAACATGACCATCGACGGGACAAACGTCCGCACCCTTCGCCACGGTATGGCGGGCGCTCCGGGTCTTGAAATCTTTGGGCCCTATGCCGACCACGGGCGTATCAGGGAGGCGATCATGGAAGCCGGCGCCGAATTCGGGCTGGTGCCGGTCGGTTCGCGGGCCTATCCCTCCAACACCCTCGAGTCCGGCTGGATTCCGTCTCCCTTGCCGGCCATCTACTCAGGCGAAGCGGAGCGCGGCTACCGCGAGTGGCTTCCCGCGGACGGATACGAGGCCACGGGAACACTGGCGGGATCGTTCGTGTCCGGGAACATCGAGGACTACTACCTGACTCCCTGGGAGCTTGGCTACGGCACGTTTGTGAAGTTTGACCATGACTTCATCGGCCGCGATGCCTTGGAGCGGATGGACCAGGATTCGCAGCGCAAGAAGGTCACCCTTGCCTGGGACGGCGACGACGTCACGTCGATCTTCGCATCGCTGTTCAAGGGGGAAGGACCGAACTACAAGTTCTTCGACCTGCCCCTCGCCAACTATGGTTCGGCGAACTACGATTCCGTCATCGACGCCGACGGCACGGTGGTGGGGTACTCCATGTTCACCGGCTACAGCGCGAACGAGCGGCGCGCGCTCTCGCTCGCAACCATCGACCCCAACGTGCCCGAAGGCACCGAACTGAGGGTGGTGTGGGGCGAACCCGACGGCGGCACCGCTAAGGCGGCAGTGGAACCGCACGTTCAGACCGACGTACGGGCGGTGGTCAGCCCCGTGCCATACTCGGCCGTCGCACGCGCCAGCTATCGTGGCGGGTGGCGGACCAACTATAAGTCGGCCTAG	MAPKNLQEVLDSSSGAVDLLRNSQIGSYIYPVVPADFQNWIKEQTAWRSTAVLFDQSHHMDNLIMKGPDAIKLISSTAINSTAVFPVNRAKQYVPTTESGHVIGDGILFRLAEEEYVYVGRAPAANWLLYHGETGGYPNLDMTIDRRSPSRPYGQQVTRQYYRFQIQGPNAWQVIEKLNRGPVEQLKFFNMSNMTIDGTNVRTLRHGMAGAPGLEIFGPYADHGRIREAIMEAGAEFGLVPVGSRAYPSNTLESGWIPSPLPAIYSGEAERGYREWLPADGYEATGTLAGSFVSGNIEDYYLTPWELGYGTFVKFDHDFIGRDALERMDQDSQRKKVTLAWDGDDVTSIFASLFKGEGPNYKFFDLPLANYGSANYDSVIDADGTVVGYSMFTGYSANERRALSLATIDPNVPEGTELRVVWGEPDGGTAKAAVEPHVQTDVRAVVSPVPYSAVARASYRGGWRTNYKSA	PGPT0005520_23	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_VANILLIN|VANILLATE_DEGRADATION,PGPT0005520-ligM-K15066	NA	NA
D1-29_04639	621			hypothetical protein	ATGAGCCTGCGATACGCGCTGCTTGCATTGCTTCGCGTGGGCCCGCTCTCCGGCTATGAACTGCAGAAGCAGTTCTCCATGTCGGTGGGTCACGTGTGGCATGCGCCTGACTCGCAGATCTACCCCGAGCTTCGCAAGATGGAAGCTGAGCACCTCATCGAGGGTGAGGAGCAGCCACGGGGCCAGCGTGCCACCAGGCGCATCTATCACGTGACCGACGCCGGGGAGCAGGCCTTCCTCGCCTGGATGCACACGCCCCTGGAATACGCGCGGGTCCGGGACCCGGCCCATCTCCGGGCTGCCTACCTGGAGGCGGCGGCTCCCGAGGCAGCCCGGGACTTCTTCCGTTCGCACATCGCGCAGTGGGAGAGCGAACTGGCCCAGTGGGAGGGCGAACTCCTGCGCATCGCTGAAATTGCCAACCCGATGCTGGTGCGGCGGCTGGCAGTCACAGCACCAGAGGACCGTGACCGGACCATCGCGTTCAAACGCTTTACGTACGAGGGCCTTGTTGACCGGGCCCGGGGCGAAATCGCGTGGGCGAAGCGCGGACTCAAGCTGATCGATGAGCTGGCAGAAGCGGACGGCGTCTGGGCTGACCAGAACGCCGCCCGCGTCTAG	MSLRYALLALLRVGPLSGYELQKQFSMSVGHVWHAPDSQIYPELRKMEAEHLIEGEEQPRGQRATRRIYHVTDAGEQAFLAWMHTPLEYARVRDPAHLRAAYLEAAAPEAARDFFRSHIAQWESELAQWEGELLRIAEIANPMLVRRLAVTAPEDRDRTIAFKRFTYEGLVDRARGEIAWAKRGLKLIDELAEADGVWADQNAARV	PGPT0025575_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR|BF-CELL_DENSITY_REGULATION	CE-QSR|BF-BIOFILM-LOW_CELL_DENSITY_REGULATOR,PGPT0025575-aphA-K10917	NA	NA
D1-29_04640	1257			hypothetical protein	ATGAAGATTAGAAAAAAGCCAGACGGGGTCCTCGGTATCGTCGCGATGGCGTCGATCATCGCGCTCTCCCTTGCAGGCTGCGCCCGTGACGGCGCCGGACAGGGTAACGGCTCCGGGGCAAGCCCCGGCATCACCGACACCGCGATCACGCTGGGTGTTACCACTCCGCTCAGCGGCCCCACAGCCGGGCCCGGAACCTGTACCGTCGCGGGCCTCGCAGCCTACTTCGGCTCCGTGAATGCGGCCGGTGGCGTGAAATTCGGCGACGGCAAGACGCGCACAGTCGAGATCAAGTCCTACGACGACGGATATGATCCGCAGAAATCGCTGTCGAACTTCCAGCAGATGGTCTCCGACAACGTTTTTGCCGTCACATCCGGCCTCGGTACTCCCACCAACCGCGCCTTCCGTGATGCCGCCATCAGCCAGGAGGTCCCCCAGGTGCTGGTGATGACCGGTGACCCACTGTTCAGCGACCGGGATGAGAGCCCGTGGCAGCTGGGGTTCGTGCCGATCTACCAGAATGAGGGCTCTGCCTTCGGCAAGCTGCTCGCAGAGTCAGGCAATCAGCACAAGGTAGCCATCCTGTCTCAGAACGACGACTACGGCAAGGGCTACGTTTCGGGATTCAAGGATGCCGTCAAGGACGCATCCAACGTCTCGGTCGTGGGAGAACTGACGTACGAAGCGACTGACACATCAGTAGACGCCCAGCTCACCCAGCTCGCCGCCTCAGGCGCCGATGTCTTCTTCAACGCGATGTCCATCACTCCGCTGGTGATCTCATCGCTCCAGAAGGCGCAGCAGATCGGCTGGAAGCCCAGCTGGTTCCTCCCGTCCAATACATCAAGCCCGACGGCGATCCTCCAGCCCGGTGGTGCGGCGGCATACCCCGGCATCTACTCGGTGTCGTTCTCTAAGGCGCCGCAAAGCCCGGCCTTCGCCCAGGATGAGGACGTGGTCAAGTTCCTGGCGGACCTCAAGCAGTACGGCAACTACCCGGATATGCCGGCCTTCCCGCACTGCATGTGGAGTTACATGGTGGGAGCAACGCTCGAGGAAGCCTTCAAGAAGATGACCGAACCGACGCGTGAGGACTTTATGGCCAAGCTGCGGGACATCAAGGGACTGCAGGCTCCACTGATGCTGGAAGGCACGGCCGTGGACACTACAGTCGACGGTCAGCCGGCAGTATCTTCGGTTCTCGTGCAGAAGTACGACGGGAGGGGATACAGCACGGTGGAGAACTTCGGCTAG	MKIRKKPDGVLGIVAMASIIALSLAGCARDGAGQGNGSGASPGITDTAITLGVTTPLSGPTAGPGTCTVAGLAAYFGSVNAAGGVKFGDGKTRTVEIKSYDDGYDPQKSLSNFQQMVSDNVFAVTSGLGTPTNRAFRDAAISQEVPQVLVMTGDPLFSDRDESPWQLGFVPIYQNEGSAFGKLLAESGNQHKVAILSQNDDYGKGYVSGFKDAVKDASNVSVVGELTYEATDTSVDAQLTQLAASGADVFFNAMSITPLVISSLQKAQQIGWKPSWFLPSNTSSPTAILQPGGAAAYPGIYSVSFSKAPQSPAFAQDEDVVKFLADLKQYGNYPDMPAFPHCMWSYMVGATLEEAFKKMTEPTREDFMAKLRDIKGLQAPLMLEGTAVDTTVDGQPAVSSVLVQKYDGRGYSTVENFG	PGPT0020765_2717	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
D1-29_04641	1077			hypothetical protein	ATGCCTGCCATGTCCAGCGTTCTTGCCAAGAGATCCACCCGCGTCATCCTCATAGCGGTGGTGGCCATCGCCCTGATCGTTGCCCCACTCATCCTCCCGGCATTCACCAACCAGACGCTCGTGCGCATTGGTGTGTATGCCGTGGCGGTACTGGGACTGAACATCGTCATGGGCTACACGGGGCAAGTAAACCTTGGACAGATCTTCTTTGTCGGCCTCGGGGCCTATGTCACAGCCTACGGAGTCAACCACGACTGGAACATCATCGTGGTGTTCGTCGCGGCGTGCGTCGTTCCGGGCATCGTAGGGCTGCTGGTGGCCCTGGCTGCAGCCCGGCTTGGTGGCCTGGCCATCGCTATGGTCACCATCGCCCTGCCGATTGTCGGCGTCCCGCTGGCCAAACGCCTTGATGAATTCACTGGCGGCTCCCAGGGGATCTCGGCCCGCTTCACCGATGCGCCGGACTGGTCGGGGCTGTACAACGACCAGTGGCAGTTCTACATCGTCTTGCTGGTGACGGTTGCCGCGTTCCTGCTGGGCCGCAGCCTGGTAACCGGCAAGTACGGCCGGGCGTTCGGTGTGGTGAAGGAAAACGAAGCCGTGGCAGCGTCCATGGGCATCTCGCCGTACCGCACCAAGGTGCTCGCCTTCACTGTCGCCTCCATATTCGGCGGGGCGAGCGGCTTCCTTTACCTTGCGGCGGTGCAGTACACATCGCCCGAGACCCTCAGCTTCGGCCACTCCATCGGCCTGGTGGCCGCGATGGTCATCGGCGGCGCGGGAAGCATCATCGGCGCGCTGATCGGCGGCGCCTACTACGTTTTCGTCCCGCAGCTGACGAACGCCATCGATCCGAACTTAACCACCATCAGCCAGGGCGCGATCCTCCTCGTGGTGCTCTTCCTGCTGCCCCAGGGACTGGTCAGTCTTCCACGTGTGATCCGCTGGCTGCTCCGCCGGCGCACGTCCCGCTCAGCACTACCGGGGAATCCCCCGCAGAACTCTCCTGTGCATCAGCCCGCTCCCGGGGCCGCGCCGGAGGGACTCGAAAAAACAGAGAGGCAAGATCGATCATGA	MPAMSSVLAKRSTRVILIAVVAIALIVAPLILPAFTNQTLVRIGVYAVAVLGLNIVMGYTGQVNLGQIFFVGLGAYVTAYGVNHDWNIIVVFVAACVVPGIVGLLVALAAARLGGLAIAMVTIALPIVGVPLAKRLDEFTGGSQGISARFTDAPDWSGLYNDQWQFYIVLLVTVAAFLLGRSLVTGKYGRAFGVVKENEAVAASMGISPYRTKVLAFTVASIFGGASGFLYLAAVQYTSPETLSFGHSIGLVAAMVIGGAGSIIGALIGGAYYVFVPQLTNAIDPNLTTISQGAILLVVLFLLPQGLVSLPRVIRWLLRRRTSRSALPGNPPQNSPVHQPAPGAAPEGLEKTERQDRS	PGPT0020775_3753	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
D1-29_04642	882	livH_2	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	TTGGGCACCTTCATACAACTCGTAGTCGACGGGCTCGCCACCGGCTCAATTTACGCGGCGTTGGCGCTCGCCATCGTGCTCGTGAACCAGGCGACCGGACTGATCAACTTCGCCCAGGGCGGCATGGCCGTGCTGTCGGCTTACATCGCCTACGCTTTCACGCAGCTCGGCCTGCCGCTCATCCTCGCGATCCTGGCCGCGGTGGTGATTTCGTTCCTTATCGGCGCGGTGATCGAGCGGTTTCTCATCCGCAGGTTCGAGGGAGGCGAGACCGACACGGCCGTGGTGGTCACCATCGGCCTGCTGACCCTGGTCACCGGCATCGCTGCCGTCCTGTGGGGTTACAACAACCTGGCGTTCCCTTCGCTTTTCCCGCTGGACAGCGTGGAGCTCCTCGGTGCTGTGGTGAGTGTGCGGTCGCTGGCGACAACGGTGACAATTGTGGCCATCATGGTGGTTCTGCAGGTGCTCTTCCTGCGTACCAAGCTGGGGCTCGCGCTGCGGGCCGTTGCCGACAACCCGGGCTCCGCTGCCTTCTCGGGCCTGCCCGTCGGCCGGCTCCTGATGGTGGGCTGGGGGCTCGCCGCGGTTCTGGGCGCGATCGCCGGCGTCCTCGTCGCCCCGCAGCTGACCCTCACCCCCGGCATGCTGGATACGGCACTCGTCTACGCGCTCGCCGCCGTGATCCTCGGTGGCCTCAGCAGTCCGATCGGATGTGTGGTGGCCGCTTCCGCCATCGGCGTGCTTGAAAACCTCGTGGCCGTTTACGTGCCGCTCATCGGCCACGACCTCAAGATTGCCGTGCCGTTTGTGCTGATCTTCGTCATCCTCGTCATCCGACCCCAAGGACTGTTCGGGCGAAAGGTCGTGGTGAGGGTCTGA	MGTFIQLVVDGLATGSIYAALALAIVLVNQATGLINFAQGGMAVLSAYIAYAFTQLGLPLILAILAAVVISFLIGAVIERFLIRRFEGGETDTAVVVTIGLLTLVTGIAAVLWGYNNLAFPSLFPLDSVELLGAVVSVRSLATTVTIVAIMVVLQVLFLRTKLGLALRAVADNPGSAAFSGLPVGRLLMVGWGLAAVLGAIAGVLVAPQLTLTPGMLDTALVYALAAVILGGLSSPIGCVVAASAIGVLENLVAVYVPLIGHDLKIAVPFVLIFVILVIRPQGLFGRKVVVRV	PGPT0020770_6289	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
D1-29_04643	711	livF_3	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGACGCTACTTGAACTTGCCGGTGTGACCGCTTCCTACGGACCTGTCCAGGTGCTCGACGGGGTGGAGCTGAGCGTGCCCGAGGGTGGCTCGGTGGGGATCCTCGGCGCAAACGGGGCAGGCAAAACGACGACGCTGCGCGCCATCAGCGGCACGGTGCGCACCGGTGGACGGATCAGGTTCGAGGGACGCGACATCCGCGGTTTGCGCCCCGATCAAGTGGCATCGCTGGGGGTCGCCCATGTTCCGGAGGGCCGCGGAACCCTCGGCCAGCTGAGCGTGCGGGAAAACCTCCTGGTGGGCGCCTATCTCCGCAAGGACAGGAAGGCGATCTCCGGCGATATCGAGTACTGCCTTGACCTGTTCCCGCAGCTGCAGGACCGGGTGGGTTCGCGCGCGGCGTCACTTTCTGGCGGTGAGCAGCAGATGCTTGCGGTAGCCAGGGCCTTTATGGCCAAGCCCAAGCTGCTGTTGCTCGACGAAGCATCCCTCGGACTTGCACCGAGCACATCAAAGGCTGTGTACCAGGCAATCAGGCGGCTGCGGCTCGAGTCAGGCATTGCCATGCTGGTGGTGGAGCAGAACGCCAATCTCGCGTTCTCCCTGGTTGATACTGCCACCGTGCTTGAAACGGGGCGCAACGTGCTAACGGGAACTTCGGCTGAACTTAAGGGCATGGACGAGATCCGCCGTGCCTACCTGGGGGGCTGA	MTLLELAGVTASYGPVQVLDGVELSVPEGGSVGILGANGAGKTTTLRAISGTVRTGGRIRFEGRDIRGLRPDQVASLGVAHVPEGRGTLGQLSVRENLLVGAYLRKDRKAISGDIEYCLDLFPQLQDRVGSRAASLSGGEQQMLAVARAFMAKPKLLLLDEASLGLAPSTSKAVYQAIRRLRLESGIAMLVVEQNANLAFSLVDTATVLETGRNVLTGTSAELKGMDEIRRAYLGG	PGPT0020785_6348	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
D1-29_04644	786	araG	COG1129	Arabinose import ATP-binding protein AraG	GTGGTGGCCGCAAGCCTGAGCCTCAAGGGAGTGGACCTCCACTTCGGCGGCGTCAAGGTTCTGCAGGAAGTGACCTTTGATGTCGAACCGGGAGTGATCTTCGGCCTGGTGGGGCCCAACGGCGCCGGCAAGACTTCTCTTTTCAACTGCATCAGCGGCCACTACAAGCCCAACGCCGGATCGATTACCATCAGCGGCACAGAGGTGCTGGGGAGTGCCCCCTACCGCCTGGCGCGCCTGGGGCTGGCACGCACTTTCCAGCAACCCGCACTGGAGTTGCACGCCACCGTCCTGGAGAATGTGCTGCTCGGAGGGCACATCAGGCTCCCCGGCGGGCCTGTTGCGTGGTCGCTGCGGCTGCCGTTCACGGTGCGGGCCGAGCAAGGAATCCGGGCGGAAGCACTCGAGCTGCTCAACCGGGCCGGGCTGGGCTGGGCCTCCAATCTGCCGGCCGGGGAGCTTTCGCATGGCCTGCATAAGGGCGTGGAGCTCTGGCGTGCGCTGCTCTCCAAGCCGGCGCTCCTGCTGCTGGATGAACCTGCCGCGGGACTCTCGCATGGCGAGGTGGAGCAATTCATCAAGACCGTGCGGCGGCTCCGGGCCGAGCAGGACATTACGATCATCATCGTCGAGCATCACATGGGGCTTATCTCCGCCCTCACCGACCGCGTGGTGGTGCTGGACCATGGACGCAAGCTCATGGAGGGCACTGCTGCCGAGGCGCAGTCCGACGCCCGGGTGATCGAAGCCTACATCGGGAAGGATGCGGCGGATGACGCTACTTGA	MVAASLSLKGVDLHFGGVKVLQEVTFDVEPGVIFGLVGPNGAGKTSLFNCISGHYKPNAGSITISGTEVLGSAPYRLARLGLARTFQQPALELHATVLENVLLGGHIRLPGGPVAWSLRLPFTVRAEQGIRAEALELLNRAGLGWASNLPAGELSHGLHKGVELWRALLSKPALLLLDEPAAGLSHGEVEQFIKTVRRLRAEQDITIIIVEHHMGLISALTDRVVVLDHGRKLMEGTAAEAQSDARVIEAYIGKDAADDAT	PGPT0020780_4251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-GABA_PERCIPITATION|SIGNALLING,PGPT0020780-livG-K01995	NA	NA
D1-29_04645	1353	desA		Syringate O-demethylase	ATGACAAACCAGAGCCTTCAGTCCGCCATTGACCAGCAGGGCAGCGCCGTCGAGGTGTTGCGTAATGCATACTCCAGGCCCTTTACCTTCCCGGTGACCCCTGAATTCACGAATTGGCGAAGCGAACAGGCGTCGTGGCGGGATTCGTGCGCCCTGCTGGACCAGTCGCACCACATGGCGGACCTCTTCGTCCGCGGCCCCGATGCAAGAAGGTTCTTCACCTGGATCGGGACGAACTCCGCCGCCGGCTACCAGGTGGGGAGGGCGAAGCAACTGGTAGCCGTTAACCACGACGGGTACCTCATCGGTGACGGCATCCTGTTCCACCTCGGCGAGGACTCGTTCGACTTGGTGGCCCTTCCCATGCTGAGTGATTGGGTCGAATACAACATCTCCTCCGGCGACTGGGACGTCACCCTCGAGCGCGACGACCACTCGCTGATCAGGCAGGGCGATCCGAAACTCTTCCGGTATGAGCTGCAGGGGCCGAACGCGCTCGCGATCATCGAGAAGGTCACCGGCAAGCCGGCACCTGAGCTCAAGTTCTTCCATATGGGTGAAATCGACATTGGCGGACGCCCCGTGGGCGTCCTGCGCCACGGCATGGCGGGCCAGCCGGGCTTCGAGCTGTGGGGCCCGTGGGCCGACGCGGCCGCGGTGCATGCGCAACTGCTGGCCGACGGGGAGGAATTCGGCATCACTCCGGTGGGGGCCAAAGGATATTCGTCGGCCAACCTGGGCTCCGGATGGGTGCCCTCCCCGCCGCCGGCGATCTTCCAGCCTGAGCTCCAGGCATACCGCGAATGGCTGGACGTGTCGAAGGCCGGTTCATTGGGAGGCAGCTTCTACTCGACTGACATCACTGACTACTACGTCACTCCCTACGACATCGGGCTCGGCCGTTCGGTGTCCTTCGACCATGAATTCCTCGGCAAGGAAGCCCTGCAGCGGCACTCCGAAGACAAGCGGCGCACCAAAGTTACGCTCGTGTGGAACAACCACGACGTGAAGGATGCGCTCGGATCCATCCTGGGCGAAGGCACTCCCGCCAAGTACATCGAGCTTCCCAAGTCGCGCTACGCGCTGTACCAGACAGACCGGGTCCTGAAGGAAGGCGAGACCGTCGGAATGTCGCTCGACGTCGGCTACCTCGCCAATGAGCAGGCCTTCCTCTCCCTGGCGACGATCGACGTCGAGCACTCCCAGACCGGAACGGAGGTGGTGGTGGTCTGGGGCGAGGAGCCAAACTCCCGCAAGGTCCAGGTGGAGCGGCACCGCCAGGTGGAGATCAGGGCAACGGTTGCTCCGGCACCGTACAGCGAGTTTGCGAGGGCCGGTTACCGGGCCCCGTAA	MTNQSLQSAIDQQGSAVEVLRNAYSRPFTFPVTPEFTNWRSEQASWRDSCALLDQSHHMADLFVRGPDARRFFTWIGTNSAAGYQVGRAKQLVAVNHDGYLIGDGILFHLGEDSFDLVALPMLSDWVEYNISSGDWDVTLERDDHSLIRQGDPKLFRYELQGPNALAIIEKVTGKPAPELKFFHMGEIDIGGRPVGVLRHGMAGQPGFELWGPWADAAAVHAQLLADGEEFGITPVGAKGYSSANLGSGWVPSPPPAIFQPELQAYREWLDVSKAGSLGGSFYSTDITDYYVTPYDIGLGRSVSFDHEFLGKEALQRHSEDKRRTKVTLVWNNHDVKDALGSILGEGTPAKYIELPKSRYALYQTDRVLKEGETVGMSLDVGYLANEQAFLSLATIDVEHSQTGTEVVVVWGEEPNSRKVQVERHRQVEIRATVAPAPYSEFARAGYRAP	PGPT0005520_131	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_VANILLIN|VANILLATE_DEGRADATION,PGPT0005520-ligM-K15066	NA	NA
D1-29_04646	195	cysO	COG1977	Sulfur carrier protein CysO	GTGGCGAAGCTGCTGGACTCGGTGACCGGGAACTACCCGGTGCTGGCAAGGCGCCTGCGGGACGAAACCGGGGCGTTGCGCCGTTACGTGAACATATACGTCAACGGTGACGAGGTGCGGCGGCTGCAGGGACTTGAAACCGAGGTGGCTGCCGGCCAGGAAGTGCTGGTCATCCAGTCAGTCGCGGGCGGCTAG	MAKLLDSVTGNYPVLARRLRDETGALRRYVNIYVNGDEVRRLQGLETEVAAGQEVLVIQSVAGG				NA	NA	NA	NA	NA
D1-29_04647	1107			hypothetical protein	ATGGGGTGCATGTCAACTGCAGAGAGTTATGTCCTGGCGATCGGAACCAAAAAAGGCCTGTGGCTGGCTACCAGCCCTGACCGTAAGGACTGGTCCTTTTCCGGACCGCATTTCCTGATGAGTGAGATTCCCAGCATTGGCATCGATACGCGGGACGGCCGGACCCGGATCATGGTCGGCGTGAGGTCCGAGCACTGGGGCCCCACGGTGGCGCACTCGGATGACTTGGGCGCGTCCTGGACGGAGCCTGAACAAGGTGCGATTGGCTTTCCTGAGGATACGGGCGCGGCCTTGGAACGAATCTGGCAGATCTACCCCGACGCAGAGTCGCGGCCCGGGGTGGTATGGGCAGGGGCCGAGCCGATTTCCGTGTGGAAATCCACCGACGGCGGAGAACACTTTGAGCTGAACCGGGGGCTCTGGGACCACCCCCACCGAAGCGAATGGGGCGCGGGCTTTGGGGGAGCGGCAGCCCATTCCATTGTGGTGAACCCTGCCGGGGATAACGTGCACGTCGCCATGAGCACCGGCGGAGTTTACCGTTCGCTCGACGGCGGGACGTCCTGGGAGCCGAGGAATAAGGGAATTTCCGCGTACTTTATGCCCGATCCAAACCCGGAGTTCGGACAGTGCGTGCACAAGATAGCGGCGGATGCCGCCGTCGAAGGCCGTCTTTATGCGCAGAACCATCACGGCGTCTACCGCACCGATGACAATGGCGAAAACTGGGAGTCCATCGCGGAAGGCCTGCCTGCTGACTTCGGCTTTGTGATGCTGACGCACCCGCGCCGTGAAGGAACGGCGTGGGTTGTGCCACTGAAGGCCGACGGCGAGCGGATCCCGCCGGACGGGCAGCTCGCGGTTCACCGCACGGACGATGCCGGGGCCAGCTGGAAGCGGCTGGACTCCGGGCTGCCGGAAAACGAGTACAACAGTGTGCTTCGCGATGCCGCCTCAGTGGATGCCGCGGAACCGGCGGGCGTCTATTTCGGCACGCGCGGCGGCACGGTCTATGCCAGCGCGGATGAAGGGGAGACCTTCACGGAGGTGGCGGCACACCTTCCCGATGTCCTCTGTGTGCGGGCAGCCGTGGTGGCCGGTGCCTGA	MGCMSTAESYVLAIGTKKGLWLATSPDRKDWSFSGPHFLMSEIPSIGIDTRDGRTRIMVGVRSEHWGPTVAHSDDLGASWTEPEQGAIGFPEDTGAALERIWQIYPDAESRPGVVWAGAEPISVWKSTDGGEHFELNRGLWDHPHRSEWGAGFGGAAAHSIVVNPAGDNVHVAMSTGGVYRSLDGGTSWEPRNKGISAYFMPDPNPEFGQCVHKIAADAAVEGRLYAQNHHGVYRTDDNGENWESIAEGLPADFGFVMLTHPRREGTAWVVPLKADGERIPPDGQLAVHRTDDAGASWKRLDSGLPENEYNSVLRDAASVDAAEPAGVYFGTRGGTVYASADEGETFTEVAAHLPDVLCVRAAVVAGA				NA	NA	NA	NA	NA
D1-29_04648	342			hypothetical protein	TTGTCGGATGCCCGGCCTGAACGCGAACAGAAACTGCGGAGCCTCCCAGGCCTTAAAGCGCGTCCGGAACCCCTCATCTTTCCCTTGTACGCAGCCATGCCCGCGCCTAACGTGGAGACATATGAAAGGTGCGTGAACGGCATGGAAATCTTCATGTGGTGGCTCGATCTGGATCTGGCAACGAAGGAATGGCTCCGGGAGAATCTGCGCGCCGAGGAGTTGCCCCTCCCAGTGCTCCAGGGCATCGCCGAGGCAGGCGGACCACATCCGGATAACCCCGTCTCGGTCCTCACCGAAGCCGACTGGGATTTCATCGAGACCCAGTCTGAATTCGTGGACTGA	MSDARPEREQKLRSLPGLKARPEPLIFPLYAAMPAPNVETYERCVNGMEIFMWWLDLDLATKEWLRENLRAEELPLPVLQGIAEAGGPHPDNPVSVLTEADWDFIETQSEFVD				NA	NA	NA	NA	NA
D1-29_04649	900			hypothetical protein	ATGAAACGAACTTCTGCAACCCTGGCGGTGGTGGGGCTGGGACTAATCAGTGTCACCGCCCCCGCCAGCGCCGCTCCGAATATGGTCACCGTCTGCCATGACGGGTCAGACACGGGTACGGGCTGGAACCCAATGCAATTCAATGTGAACGGCTTGAACGGCCACGACGGGCATCCCACCGACATCATTCCGCCTAACAATTCCATTCCGGGCGGCCTGAACTGGACGAATTCGGGAAAGATCATCTACATCGCCAACTGCGCCCCGTTGCCGCCGGGTGAGACGCCGCCGGTCTATCCTCCTGTGGAGGAAGAACCAGTCGTTCCCCCCGTCGAGGAAGAACCAGTGGTCCCCCCGGTCGAGGAAGAACCAGTCGTTCCCCCCGTCGACGAAGAACCAGTGGTCCCCCCGGTCGACGAAGAACCAGTGGTCCCCCCGGTCGACGAAGAACCAGTGGTCCCCCCGGTCGACGAAGAACCAGTCATTCCCCCCGTCGATGAAGAACCAGTCGTTCCCCCGGTCGACGAAGAACCAGTCATTCCCCCCGTCGACGAAGAACCAGTCATTCCCCCCGTCGACGAAGAACCAGTGGTCCCCCCGGTCGACGAAGAACCAGTCGTTCCCCCGGTCGAGGAAGAACCAGTGGTCCCCCCGGTCGACGAAGAACCAGTGGTCCCCCCGGTCGTGAACCAGCCTGTAGTGGCTCCAGCTGCTCCTGCCGCCGCTGTTGCCGCCACCGGCATCCAGAGCAGAAATCGGGGCTTCAACGCACAGACGGCAATCGGCGAAGCCACCGATACCGCACCAACCTGGTTGGGAGGCCTGGGCGTGATGGTTGCGGCAGTTATGGCAGTTACGGTCCGACGTCGGGTTCGCTCAGAAGCACCAGCCGTCCGATAA	MKRTSATLAVVGLGLISVTAPASAAPNMVTVCHDGSDTGTGWNPMQFNVNGLNGHDGHPTDIIPPNNSIPGGLNWTNSGKIIYIANCAPLPPGETPPVYPPVEEEPVVPPVEEEPVVPPVEEEPVVPPVDEEPVVPPVDEEPVVPPVDEEPVVPPVDEEPVIPPVDEEPVVPPVDEEPVIPPVDEEPVIPPVDEEPVVPPVDEEPVVPPVEEEPVVPPVDEEPVVPPVVNQPVVAPAAPAAAVAATGIQSRNRGFNAQTAIGEATDTAPTWLGGLGVMVAAVMAVTVRRRVRSEAPAVR				NA	NA	NA	NA	NA
D1-29_04650	771			hypothetical protein	ATGGGAAAGCATCGGGAATCCACAACAAAACGCCGGCGCCGCTTTAGCCGCGCAGATGCAGCCATCCTGTTGTGCGGGATCCTGGGGTTTCTTTCCCTCACGTTCGGTGCACCGCTCCTCCAAGCGGGAGAACCTGGCGCGGGCGGAACGGCCGCCACGGTCGAGTCGCCAGGAACGACGTCGTTTATTGAGTGGCCGGAATCCGCTGGCGCCACCCAACCGGTGGCCAGGCCTGCAGCACCGACACAGGAGGCTTCTGGTCCCCCGGACCCGGTAGCTGCGGTGGCAGCTGAGCCTGCACCAGCACCCGCCGGTCCCGTTCTTCCCGATGCCTCCGCACCCGTCCGTATCCAATACGCAGCCGCAGCTATCGATACCGCCGTCCATCCTCTTGAGCCGGACAACTCCGCCATGGCCAGCCAGACCATCGTGCCACCCACCACCATGGACGGATACTGGCTGATGCCCTTCGGCGCGCCGGGAAACGGGTCAACAAACACGACGTACATCATTGGCCACAGCTGGGAAGGCCGTGATGCCCCTTTTAACCACCTCAGCTCGGACGCGGCGGTGGGCGACGAGTTCGATGTGGTGACCGGCAACGGCACCATCCGCTATCGCGTGGACAGCGTCACAACGTACGTCAAGGCCGCCCTGAAGGACAGCCCCATCTGGGACATGGTGCCCAATCGCATCGTGCTGATCAGCTGCTACACGGAAGACCCATGGGGAAAGAATGTGGTGGTATCGGCGTCGCCCGCTGTTGCCTGA	MGKHRESTTKRRRRFSRADAAILLCGILGFLSLTFGAPLLQAGEPGAGGTAATVESPGTTSFIEWPESAGATQPVARPAAPTQEASGPPDPVAAVAAEPAPAPAGPVLPDASAPVRIQYAAAAIDTAVHPLEPDNSAMASQTIVPPTTMDGYWLMPFGAPGNGSTNTTYIIGHSWEGRDAPFNHLSSDAAVGDEFDVVTGNGTIRYRVDSVTTYVKAALKDSPIWDMVPNRIVLISCYTEDPWGKNVVVSASPAVA				NA	NA	NA	NA	NA
D1-29_04651	519			hypothetical protein	ATGACTCCAGAACGTTTCAACGCATCGGCTCCGCTGCTGGTGGGGGTTGTGCCGAACCAGCATCCGGAGGTTCTTCAGACTGCGGCAGCCCTCGCAGTCAAGCTCTCAACTCCGCTCGTGTGCGCCTATGTGGATGAAGCAAGCTATCTGGTGGAATGGGACCCGGCCAGGTCAGCGCACCGGCTGTCCCTGCATCCGGACAAGAACGACGACGACATCCGGGCGGTGACCGTGGAGCTCGGGGCCGTGATCGAATCCGCAATGAACGATGCGGCCACAGGAGGTCCCCCACCGGAATGGAGCCTGCGCACCCTGGCAGGGGATCCTGCCCGGGCACTTGCCCGGCTCGCCGCGGAAAGCAACGCCCCGATGATCATTGTGGGAACGTCCGAGCGCGGGCTGGTGCACAAGATTTCCGAAGTCCTGACCGGCTCGGTGGGAGCGTGGCTGACCCATCATCAGAGCAAACCGGTGCTGCTGGTCCCCTATCGGATGCCAGCCCATCAGGATGGATTGTGA	MTPERFNASAPLLVGVVPNQHPEVLQTAAALAVKLSTPLVCAYVDEASYLVEWDPARSAHRLSLHPDKNDDDIRAVTVELGAVIESAMNDAATGGPPPEWSLRTLAGDPARALARLAAESNAPMIIVGTSERGLVHKISEVLTGSVGAWLTHHQSKPVLLVPYRMPAHQDGL				NA	NA	NA	NA	NA
D1-29_04652	354	ricR	COG1937	Copper-sensing transcriptional repressor RicR	ATGAATACACCGGAAGAAGCCGCCCAAGTGCTGCCTACCGCTGAATCGCAGCCGGAGCACGCACACGGCTATACAGGAAATAAAGAGGCTTACCTCCGCCGTTTGAAGCGGATCGAAGGCCAGGTACGGGGAATCGCCCGCATGGTTGATGAGGACAAATACTGCATCGACATCCTGACCCAGGTATCGGCGGTAACCAAGGCCCTCCATGCTGTGAGTCTCGGGCTTGTGGAGGAGCATATCGGGCATTGTGTCGTGGGAGCTGCGGCCGAACCGGACTCGGCGCTGCGGGCGGAGGCCATCGATTTCAAGGTCAAAGAGGCCGCCGACGCTATTGGCCGGCTGCTTCGCTGA	MNTPEEAAQVLPTAESQPEHAHGYTGNKEAYLRRLKRIEGQVRGIARMVDEDKYCIDILTQVSAVTKALHAVSLGLVEEHIGHCVVGAAAEPDSALRAEAIDFKVKEAADAIGRLLR	PGPT0004175_380	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600	NA	NA
D1-29_04653	240			hypothetical protein	ATGAGCACCACCTCCACAGTCACCACCACCGTCAGCGTTTCGGGCATGACCTGCGGCCATTGCGTCTCGTCGGTGAGTGAAGAACTTGAAGCCCTCGCCGGCGTCGAAGCTGTCGACGTCGATCTCAACGCCGGTGGCATCTCCACCGTTACCATCACCTCCAGTGATGAACTGTCCCCCTCCGAAATCGGCGAGGCGGTCGCGGAGGCCGGCTACCTCGTTGTTGCCAACGAAGCCTGA	MSTTSTVTTTVSVSGMTCGHCVSSVSEELEALAGVEAVDVDLNAGGISTVTITSSDELSPSEIGEAVAEAGYLVVANEA	PGPT0004125_771	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
D1-29_04654	2460	ctpA	COG2217	Copper-exporting P-type ATPase	ATGACTAACGAACAACTCCTCCATCAGGGCGGGAGCCGGGTGGTTGAACTTGATATCGAGGGTATGACCTGCGCGTCCTGCGTGAACCGCGTGGAAAAGAAGCTCGGCAAGCTCGACGGCGTGGAAGCCTCGGTCAACCTTCCCCTGGAATCAGCCCACGTGACGGCTCCGGACGGCATCACGGATGAACAGATCGTGAATACGGTCAACGCCGCGGGTTACAAGGCAACGGTCCGCATGCAGGAGGCGCCCCCGCAGGACGACGGGCAGAGCCAAGACCACGGGCAGAGGCAGGACGACGGGCAGACCGGGCACGCAGGTCACGGGATGGATGGCACTGGACCATCCAGTCATGTCCAGCACGGCGGCGCGGCGGCCGCGCTGAAGCCGCGCCTGATGGTGGCCGCCGTCCTGACCGTTCCCGTGTTCCTGATCTCGATGCTGGAGGCCTTCCAGTTCCCGCATTGGGGCTGGGTTGCCGCGGCCCTCGCGCTGCCCGTGGTCACCTGGGCGGCCTGGCCCTTCCACCGTGCGGCAGCCGTCAATGCCCGCCACCTTGCCTCCACCATGGACACCCTGGTGTCCATCGGCGTGGCGGCCGCCTACCTGTTCTCCACCGCGCAACTCCTGATGGATCCGCGCATGACGGAACACCCCGGGATGGAAGGGATGGAGTCCGGCGGGCTGTACTTTGAGGTGGCTGCGGTGGTGACCACCTTCCTGCTCCTGGGCAGGTTCCTGGAAGCCAGTGCCAAGCAAAAGGCCGGTGATGCGCTCAGGGCCCTGCTGAATCTCGGGGCCAAGGAGGCCACCCTCCTCAGTAACGGTACGGAGCGCAAGATTGCCGCCGAGCAGCTCCAGGTGGGTGACGTGATGGTGGTACGCCCCGGTGAGAAGATCGCTGCCGACGGAATAGTCATCGACGGCAGTTCCGCAGTTGATGCCTCCCTGGTGACCGGTGAGTCTGTGCCCGTGGAGGTGGGCCCGGACAGCAAGGTCACCGGCGCCACCATCAACACCTCCGGCCGGCTGCTTGTCCGTGCCACCCGGGTGGGCTCCGAAACCACGCTGGCGCACATGGCCCGCCTCGTGGCACAGGCGCAAACGGGGAAAGCCCCCATCGCCCGGCTGGCCGACCGTATCAGCGCTGTTTTCGTTCCGGTTGTCCTGGTAATTGCGGTGCTCACCTTTGCGCTGTGGCTCCTGTTCGCCGCGCCCGTTATCAGCGACGCGGAGCTGCGCGCCGCCTTCACCGCCGCGGTCACTGTCCTGGTCATTGCCTGCCCGTGCGCGCTGGGGCTTGCCACACCGGTGGGCCTGCTCACCGGATCCGGCCGCGGCGCCCAACTGGGCATCCTGATCAAGGGTCCTCAGGTCCTGGAGGACACCCGGACCGTGGACACCATCCTGCTGGACAAGACCGGTACGGTAACCACCGGGAAGCTTGCGGTAGACGGCGCTGAGGCCTTTGACGGCTTCAATCGGTCCGAAATTCTGCGGCTCTCCGGTGCAGTCGAAGCGGCGTCCGAGCACCCCATTGCGCACGCCATCGCCGCGGCCGCGCTGGCAGAACGTATTGCCCACTTCGCCCCGCAGGCGGGGGCGGCGCATGCCCCCGAGCCGGCACTTACTGGACAATCGGGCCATCCGCTTGCCCACACCCCAATGGGCAACGAAAGCCACGACGACGACGGCAGGCGCCTTCCCGCCGTCGCAAACTTCCGCTCCGCGCCAGGTGGCGGCGTAACCGGAACCGTGGAGGGGCAAGTGGTCGTGGCCGGCCGAACAGGATGGCTGGAAGAGAACGGCATCTCCATTGCGCCAGCACAGCGGCAGGCGTTTGCCGCGGCCGAACTCAGCGGTGCCACAGCCATCTGGGTCGCGGTGGACGGCAGGACCGCTGGCTTTATCACGCTCCGGGACACCATCAAGGAAGGCTCAGCCGAGGCCATCTCCCGCCTCAAGCGGCTGGGTCTGCGCCCCATCCTGCTGACCGGCGACAACGGCGCGGTTGCAGCGCAGGTTGCCGCCGCCGTCGGCATCGCCCCGGAGGATGTTTACGCGGAAGTCCTGCCCGCCGGAAAAGTTGAGGCCGTGCGAAAGCTGCAGGCTGCCGGCGCCACGGTGGCCATGGCCGGCGACGGGGTCAACGATGCCGCCGCCCTGGCGCAGGCAGACCTGGGCATCGCCATGGGCTCGGGCACTGATGTGGCCATCGAGGCTGCGGATCTGACGGTGATGGGCAACGATCTGGGCCAGGTGGCCCAGGCCATCGAACTGTCCCGCCGGACCTTGGGCACCATCAAGACGAACCTGTTCTGGGCCTTCTTCTACAACGCGGTGGGCATACCGGTGGCCGCGCTGGGCCTGCTGAATCCCATGATTGCCGGCGCTGCGATGGCCGCCAGCTCAGTCCTGGTGGTGGCGAACTCCCTTCGGCTTCGCAGCTTCGGCAAGTAG	MTNEQLLHQGGSRVVELDIEGMTCASCVNRVEKKLGKLDGVEASVNLPLESAHVTAPDGITDEQIVNTVNAAGYKATVRMQEAPPQDDGQSQDHGQRQDDGQTGHAGHGMDGTGPSSHVQHGGAAAALKPRLMVAAVLTVPVFLISMLEAFQFPHWGWVAAALALPVVTWAAWPFHRAAAVNARHLASTMDTLVSIGVAAAYLFSTAQLLMDPRMTEHPGMEGMESGGLYFEVAAVVTTFLLLGRFLEASAKQKAGDALRALLNLGAKEATLLSNGTERKIAAEQLQVGDVMVVRPGEKIAADGIVIDGSSAVDASLVTGESVPVEVGPDSKVTGATINTSGRLLVRATRVGSETTLAHMARLVAQAQTGKAPIARLADRISAVFVPVVLVIAVLTFALWLLFAAPVISDAELRAAFTAAVTVLVIACPCALGLATPVGLLTGSGRGAQLGILIKGPQVLEDTRTVDTILLDKTGTVTTGKLAVDGAEAFDGFNRSEILRLSGAVEAASEHPIAHAIAAAALAERIAHFAPQAGAAHAPEPALTGQSGHPLAHTPMGNESHDDDGRRLPAVANFRSAPGGGVTGTVEGQVVVAGRTGWLEENGISIAPAQRQAFAAAELSGATAIWVAVDGRTAGFITLRDTIKEGSAEAISRLKRLGLRPILLTGDNGAVAAQVAAAVGIAPEDVYAEVLPAGKVEAVRKLQAAGATVAMAGDGVNDAAALAQADLGIAMGSGTDVAIEAADLTVMGNDLGQVAQAIELSRRTLGTIKTNLFWAFFYNAVGIPVAALGLLNPMIAGAAMAASSVLVVANSLRLRSFGK	PGPT0004090_3800	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
D1-29_04655	279			hypothetical protein	GTGAATATGTGCCGGAATATCCGAACCCTCCACAACTTTGAACCGCACGCTTCCTCCGAAGAGGTGCATGCCGCCGCGCTGCAATACGTGCGGAAAATCAGCGGCAGCACCAAGCCGTCCAAGGCCAACGAGGAAGCTTTCCAGGAGGCGGTGCACGAGATCGCCCACATCACCCAGCACCTCCTGGATTCGCTCGTTACCCAGGCTCCGCCCAAGGACCGGGAGGAAGAGGCGGCCAAGGCCAAGGCTCGCTCCGCCGTTCGGTTCGGCGCGGCTTAG	MNMCRNIRTLHNFEPHASSEEVHAAALQYVRKISGSTKPSKANEEAFQEAVHEIAHITQHLLDSLVTQAPPKDREEEAAKAKARSAVRFGAA				NA	NA	NA	NA	NA
D1-29_04656	264			hypothetical protein	ATGGCTATTTGGGGCGCAGACGTAGAAGGTCTCAGGACTCTCAGCACCAAGCTCAACGGAGGTGCCGAGGCTATCGAGGCTCAGAAGAGTGAGCTCAACTCACGGCTCGAAAGCACGCAGTGGATGGGCCCGGACGCGGACAAGTTCCGCAGCGAATGGTCCGGCACCCACATGACCGCGCTTTCGCGGGTCGTTGAAGCCCTGCGCGATGCCGGCACCCGTGCAGGCAAGAACGCCGACGAGCAGACCACCGCTTCGGCCTAG	MAIWGADVEGLRTLSTKLNGGAEAIEAQKSELNSRLESTQWMGPDADKFRSEWSGTHMTALSRVVEALRDAGTRAGKNADEQTTASA				NA	NA	NA	NA	NA
D1-29_04657	1086	yicL	COG0697	putative inner membrane transporter YicL	TTGCCTGCCGCCAAAACCATCCGGTTCCGCCGGCCACCAGCTGCAGAACGCCGCGGCTTCGGAGCCCGGGGGCTGTGGATCGCACTGTTTTCGTCTGCCGTGTTCGGAATCTCGGGCTCTTTCGCCAAGGCCCTCCTGGAAACCGGCTGGTCGCCGGGGGCGGCCGTGACTGCCCGCCTCACGGGCGCCGCCCTTATCCTTGCCATTCCGGCGCTCTTCGCGCTGCGCGGAAACTGGCACCAGTTAAGGGACAACTGGGTCACCATCGTGCTGTTTGGCCTGATCGGGGTTGCCGCCTGCCAACTGTTCTACTTCAACGCGGTAGCCAGGCTTTCGGTGGGGGTGGCGCTCCTCCTGGAGTACCTGGCGCCGGTGATCATTGTGCTCTGGCTGTGGGCTGCCAGCCGGAAACGGCCCCGTGCGCTCACCTTCGGCGGAACGCTGCTGTCCCTCGCCGGCCTGGTCCTGGTGCTGGACCTCACAGGGGCCGTCAAGATCGATATCGTCGGCGTCTTCTGGGGAATCGCTGCTGCGGTCTGCCTTGCCATGTACTTCTTCATCACCGCCAAGGAGAACGAGTCCCTGCCGCCGATCGTCCTGGCCTCAACCGGGCTGATGGTTGGTGCGGCGGTCATGTGGCTGGCCGGCGCAACAGGCCTGTTGCCGATGGAATTCAGCACTGCCGATACCAGGCTCGGCCCCTGGGTGACGCCGTGGTGGGTTTCCGTGGGCGGGCTGGTGATCCTGGCGACGGTATTGGCCTACGTGTCCGGCATCATGGCTGCCCGAGCTCTGGGCTCCAAGGTGGCGTCCTTCATGTCACTCACCGAGGTTCTGTTCGCCGTCATCTGGGCGTGGCTGTTGCTGGGTGAACTTCCCGGAGTCATCCAGCTGCTGGGCGGGGCCCTCATCGTCGGCGGTGTCATCCTGGTCCGGCTTGATGAGCTCCGCCGGCCCCGGACACCGTCCACGAAACTGTCAGCCCGGGCACTGGCGGATGGGGAAAAATCGCAGCCGAAAAAGGCAGGTGCTGCAAAGGCGGCGTCGCCCCTGGCGCACGCCAACGACGTCGAACCTGTACCGTAA	MPAAKTIRFRRPPAAERRGFGARGLWIALFSSAVFGISGSFAKALLETGWSPGAAVTARLTGAALILAIPALFALRGNWHQLRDNWVTIVLFGLIGVAACQLFYFNAVARLSVGVALLLEYLAPVIIVLWLWAASRKRPRALTFGGTLLSLAGLVLVLDLTGAVKIDIVGVFWGIAAAVCLAMYFFITAKENESLPPIVLASTGLMVGAAVMWLAGATGLLPMEFSTADTRLGPWVTPWWVSVGGLVILATVLAYVSGIMAARALGSKVASFMSLTEVLFAVIWAWLLLGELPGVIQLLGGALIVGGVILVRLDELRRPRTPSTKLSARALADGEKSQPKKAGAAKAASPLAHANDVEPVP				NA	NA	NA	NA	NA
D1-29_04658	546			hypothetical protein	ATGCTTTTTGCCCCTGACACGGACGTTGCGCTGCGCACCGTCGTCAACCTGATCAATACGGCTGCGAACGGAAGGGAAAACCTAGCCAGCGTTGGCGATCTGGACCGCTTCCTGGAGGCGGAAGGATTCAGCGGCTCACGCACCCGCGATGACGCCGAGCTCGCCAGCGTTCATGAGCTCCGGAGCCAACTGGCTGTGCTCTGGACTATGGATGAGGACACGGCCGTGGCGACAGTTAACCGCCTCCTGCGGGACGCCAATGCCCTCCCGCAGCTGATGAAGCATGACGAATGGGACTGGCATCTGCATGCCACCACGCCCGAAGCGCCACTGGCGGACCGAATGAGCACCGAGGCTGCCATGGCGCTGGTGGACGTCATCCGCAGCAAAGAAATGGACCGAATGCTTGTCTGCGAAGCGGAAGGCTGCGATGCCGTGGTGCTGGACCTCAGCCGCAACCGCTCGAAGCGGTACTGCGATACGGGAAACTGCGCCAACCGGATGCATGTTGCCGCCTACCGGGCACGCCAGGCGGCAACAACCTAA	MLFAPDTDVALRTVVNLINTAANGRENLASVGDLDRFLEAEGFSGSRTRDDAELASVHELRSQLAVLWTMDEDTAVATVNRLLRDANALPQLMKHDEWDWHLHATTPEAPLADRMSTEAAMALVDVIRSKEMDRMLVCEAEGCDAVVLDLSRNRSKRYCDTGNCANRMHVAAYRARQAATT				NA	NA	NA	NA	NA
D1-29_04659	321			hypothetical protein	ATGTTCTCCGCGTTCTGGGCCGTCATCGCCTTCTTTGCAGTACTGATTTTCGCCTCCGGCGGCAGTTCCCGTGCCCCGCGCTTTGACTTGGCCTTTACCGGCGCCGGTATAGCCTTCATCGTCACGCTGGTCATCGCCGCCATGCTTTCCATGAGCTACAAGGACAACGCCGAGCACCTTGGCAAGGGGTCCGGCGTGAACCTGAGTTCGGCCAAGAAGTCATCTCACGGGTTTGGCGGCCACGGCAGCCAGGGAACGGCCCGTCCCGGAGCGCCCGAATCCGATAATCCGGATTCGAGCGGCAAAGGCGCCGGAACCTAG	MFSAFWAVIAFFAVLIFASGGSSRAPRFDLAFTGAGIAFIVTLVIAAMLSMSYKDNAEHLGKGSGVNLSSAKKSSHGFGGHGSQGTARPGAPESDNPDSSGKGAGT				NA	NA	NA	NA	NA
D1-29_04660	591			hypothetical protein	GTGACCCAACCGCTGACACCCGCAGGAACGTCCCCAGGTACCGCACCCCAAGCCGAGCTGTGGAAATCCATACTCCTGCGCGCCGGGGCGGCGCTGGCGTTTGGCGCGGTGACCGTTTTTTGGACTTCACCGTCCGTCGCCGTGATGGGTTGGGCGGGCGGACTCTACCTGCTGGCCACCGGCCTGCTGTTCCTCAAGAGCATCCCGCTGGCCGGTTTCCGAGCTGACGCCATGCCGGGGCGGATTTTTTCCGCCGCCGGATCGGTTCTGGCCGGCGGCGGCGTGGCTCTTGTCCTGATCCACGGGGACCTCGTCTGGGGTGTCCTGGCAGCGCTGGGCCTGGGCCTGGCCGGCGCCGTGGAGTTGTACTGCGGTGTCCAGTACCGCGGCCGGCATGTCCTGGCAAGGGACTGGCTGATCTCCGGCATCGTTGGCCTTGGCACCGCCGCTGCCCTGCCCTTTTTCATCAGCCTGGGCGCCCACGCCCTGCTTGGCGTTGCCGGTGGTGGTGCCATCATTTCCGGAGTTCTGTGGACGCTGTCCGGGCTGACCCTCAGGCACGATGCCAGGCCAGCCAGCGAGAAGCCGTAA	MTQPLTPAGTSPGTAPQAELWKSILLRAGAALAFGAVTVFWTSPSVAVMGWAGGLYLLATGLLFLKSIPLAGFRADAMPGRIFSAAGSVLAGGGVALVLIHGDLVWGVLAALGLGLAGAVELYCGVQYRGRHVLARDWLISGIVGLGTAAALPFFISLGAHALLGVAGGGAIISGVLWTLSGLTLRHDARPASEKP				NA	NA	NA	NA	NA
D1-29_04661	1281	dinF	COG0534	DNA damage-inducible protein F	GTGCCGGCCTTCGGCGCGCTCATTGCCGAACCGATGTTCCTGCTTGCTGATTCCGCCATTGTTGGTCATCTCGGCGTCGCGCAGCTGGCCGGTGTGGGACTGGCCTCGGCGGTGCTGCACACGGTCGTCGGGCTGATGGTTTTCCTGGCCTACTCCACCACGCCCGCAGTGGCCCGCGCCATCGGCCACGGGCAGCTCGCCAAGGCACTGGCTGCAGGCCGTGACGGCGTGTGGCTGGCGTTGTTGCTCGGCATCATCCTTGCCGCGGCAGGGTTTGTCGCCGCCGAGCCTCTGATGGACCTGATGGGCGCCCAGGGTGACGTTCGCACCTTTGCGGTGGATTACCTCAGATGGTCAATGCCCGGACTCGTGGCCATGCTGCTCATTTTCGCCGGGACAGGCGTGCTGCGCGGGCTGCAGGACACGCGCACCCCCCTGGTGGTGGCCACTGTGGGCTTTGCACTCAACATCGCCCTCAACCTGTGGCTTGTTTATGGCCTGGGCTGGTCGGTAACAGGTTCGGCGGTGGGTACCAGCATCGCGCAGTGGGCCATGGCAGCCGTCTATCTCGTTATGGTCCAACGGAATGCCTCCCGGCACGGGGTCAGCCTGCTGCCGGACTGGCACGGCATCCGCACCATGACCCGGATCGGTTCCTGGCTGATGCTGCGCACGCTCAGCCTGCGGGTGGCCATCCTGGCTACCGTCCTGGTGGTCACAGCCCAGGGCGCAACCAACCTTGCCGCACACCAGTTGGCCATGACCATCTTTTCATTCCTCGCCTTCGCGCTCGATGCGCTGGCGATCGCCGCCCAGGCTCTGATCGGAAAGGAATTGGGGGCATCACGCCCCCGCATGGCACGCCAGTTGACCCGCATCATGATCCGTTGGGGTGCGGGCTTCGGGGTGGTCACCGGGATCCTGCTGGCCCTGGCCGCGCCGTGGGTGGGCGCATTGTTTACGCCGGATCCCGGCGTGCAGTCCACCCTCACCCTTGCGCTGTGGGTACTGGCCGCCGGCCAGCCTGTCGCAGGGTACGTTTTTGTCCTCGACGGCGTCCTGATCGGTGCCGGGGATGCGAAGTACCTGGCGCTCGCGGGCGTGGTCAATCTTGCCGTGTATGTGCCCATGCTCCTTGCCATCAGTGGCTCTGGTATTTCCGGGGCATCAGGATTGATGTGGCTCTGGGCCGCCTTTGCCCTGGGTTATATGGCCGCCCGCGCCGTGACGCTCGGTCTCCGTGCGCGGTCCGACCGCTGGATGGTGCTCGGTTCGTCCTAG	MPAFGALIAEPMFLLADSAIVGHLGVAQLAGVGLASAVLHTVVGLMVFLAYSTTPAVARAIGHGQLAKALAAGRDGVWLALLLGIILAAAGFVAAEPLMDLMGAQGDVRTFAVDYLRWSMPGLVAMLLIFAGTGVLRGLQDTRTPLVVATVGFALNIALNLWLVYGLGWSVTGSAVGTSIAQWAMAAVYLVMVQRNASRHGVSLLPDWHGIRTMTRIGSWLMLRTLSLRVAILATVLVVTAQGATNLAAHQLAMTIFSFLAFALDALAIAAQALIGKELGASRPRMARQLTRIMIRWGAGFGVVTGILLALAAPWVGALFTPDPGVQSTLTLALWVLAAGQPVAGYVFVLDGVLIGAGDAKYLALAGVVNLAVYVPMLLAISGSGISGASGLMWLWAAFALGYMAARAVTLGLRARSDRWMVLGSS				NA	NA	NA	NA	NA
D1-29_04662	435	catD_3	COG2259	Putative oxidoreductase CatD	ATGAACCAGACCTCCCTTACCACCAGCGCCATCACCATCCTGCGCGTCATCCTCGGCTTCCTCTTCACGGCCCACGGTTGGCAGAAGTTCAACGAATTCACCATCGCCGGCACCCAGGCCTCCTTCGCCAAGATGGGTGTTCCAGCCGCCGAAGTGGCCGCACCTGTCATAGCAAGCCTTGAGTTGGCCGGCGGAATTGCCCTGATCCTGGGCGTCCTGACCCGCGTAGTAGCCGCCCTCCTTGCCCTGGATATGCTCGGCGCCCTGTTCCTGGTGCATGCCCCGGCAGGCATTTTCGCCGCCACAGGCGGCTATGAGCTGGTACTCCTGCTCGCCGCCGCTGCCTTGGCCCTGGCCCTCACCGGAGCAGGCCGCATTTCGGTGGACCGCGCCCTCTTTGGCCGCAGCAACTCAAAGCTTGCAGTCCTGGCCTAA	MNQTSLTTSAITILRVILGFLFTAHGWQKFNEFTIAGTQASFAKMGVPAAEVAAPVIASLELAGGIALILGVLTRVVAALLALDMLGALFLVHAPAGIFAATGGYELVLLLAAAALALALTGAGRISVDRALFGRSNSKLAVLA	PGPT0028505_3408	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
D1-29_04663	4392			hypothetical protein	GTGAAGAAACCCCCGCAAGCGATATCCAGCTCCAAGGCAGGGCCCCCGCACCGCCGCAGGATCCTCACCTCAGGCACCAGGGCTGCCACCGCAGCCGTTGCCTCTGCCGCGATCGCTTTGACCGGCCTCCCGCCGGTCCACGCGGACACGCTGCCACCGGTGGGCAGCGGATTCAAGTTTGATTTCGGTCCTGGTCCCACGGCGGATGGGTACACCCGAGTGGACGCCGCTACCCAATACACGGCAGCAGGAAAGTTCGGTTTCACGGACACCGCCGTCACCTCCGGCGCAGACCGTGGCACCGGTGATGCCGTCCGCTCAGACTTCGTGCAGGCCCAGGGCAGCACGTTCCTGGTTGACCTGCCCAACGGTGACTACACCATCAAGCTGCTGGCAGGCGATGCCGCAGAAGCAACCAACATCGCCATCACCGCCGAGAAAATGGCAAAAGTCCAGCTCACAGACAAAGCTCCCGGCCAGTACCTGGAGATGGAGTTCCCCATTTCGCTGGTGGACGGCCAGCTGAACCTCGATTTCAGCGGCACCGCAGCCAAGATCAACTCACTGGTCATCGCCGCACGGGCACCCCGCACCGCCACCACCGATCCCGGCATCTACCTGGCCGGCGACTCAACGGTCCAGACCTATGACCCGGGCTTCGTTCCGCAGGCCGGCTGGGGCCAGATGATCGACCGCTACTTCGACAGTGCGGTGACGTTCCGCAACCACGCCATCGGCGGCCGGAGCTCCAAGAACTTCATCAGCCAGGGACGGCTCGATGAGATCCTCCGCGTCATTAACCCCGGCGATTACCTGATGGTCCAGTTCGGCCACAATGACGCAACCATCGGCGTGGACGACCGGTACGCCTCCCCCGCGGACTACAAGGAATACCTGCGGACGTACGTCCACGGCGCCCGGCAGCGCGGTGCCACCCCCATCCTGGTCACTCCCGTGGGCCGCCGCGACTTTGATGAGGCCACCGGCAAATTCAGGGTCAGCTTCCCCGAGTACGTAGCCAAGATGCAGGAACTGGCCGCCGAGGAAAGTGTGGCCCTGGTGGACCTCTCCGCCTCAAGCCGCGCTTATTATGACGAGATCGGGCCGGAGGACACCAAGTCCGTCTTCCTCCACGTGGACGCCGGGGTCTACCCCAACCGGCCCACCGGGACAGTGGACAATACGCACTTCCAGGAGTACGGGGCCATCCAGATCGCCCGCCTCGTGGCCGGCGGCGTGAAGCAGCTCAGCGTTCCGCTGGCCTCCCGCGTCAAGGAAATCGCGCCGCCGTCGTCCGTTCCTGCCAAGCCGAAGGGCCTGGTGGCGGGCAGCATCTCCAACGCGGGCGCCCTCCTGAAGTGGCAGCCCGTTGAGGGTGCGGACATCTACAAGGTGTACCGCAAGCCGGCCGCCGAGCCGGACAGCGCCTACAAGCTGACCACCACCGCCACGGTCCCCACCGCCAACCTCGCCGGGCTGGCCGAAGGCACGGCCTACAGCGTCCGCGTTGCGGCCATGAACGGCAAGGGCCTTTCCGAGCCGAGCGACACCCTCAACCTGACCACCAAGCAGGCGAAATACAAGTTCGATTTCGGCCCGGTGGGAGCACCGGTCGAACCGGGCTACACCGAGGTGAACCGGACCATGGGCTACTCTCCGGAACGCACCTTCGGCTTCAAGGACATCTCCGTCCTCAGCGACCGGGACCGCGGTGCGGTGACCACGAACCTGCTGCGCGACTTCGTCCTCAGCGGCTCCAGCTTCGAATTCCAGCTGGACGTGCCCAACGGCACCTACGCCCTGAAGACCTACCACAGCGACTGGATCGGCTCCACGCGGACAGACGTTGCGGCCGAAGGCACCCCCTTCGGCCAGGTCTCCTCCGGCCGTGCCTCCTCCGCCACCAAAATCATCAACCAGGTCCTGGTCTCGGACGGGCAGCTGAACCTGTCCATCAGCGGCTCCGGGCAGCGGCTCAATGGCTTGGAGGTCACCCCGCTGCTGGTGGGCCCCACGAACCTGCACGCCACGGGCCTCAACGCGGCAGCCGAACCGCCCACCGTGGACCTTGCCTGGGACGCAGTGACGGACGCCGCCAGCTACAAGGTGTTCCGCCAGGCGTCCTTTGAAGCCGAGCCCGGGCTGATCGCGGAAAACGTCTCAGCCCCGTCCTTCCAGGACGCCACTGCTTTCGCCGGGCTGACCTACAAGTACTTCGTCACCGCACTGGACAACACCGGCCTGGAATCAGTCCCCTCCAACACGGTAGGGATTCCGCTGGTGGATCCCGGCACTCCTGTCCCCGCAGCCACAGCCAAGGTGGACATCAAAGCCGTGGAGAAGACCAGCGTGAACCTGAAATGGCAGAAAGTGGCCAACGCTGCCGCCTACCAGGTCTACCGGTCCACGTCACCTGACGGTCCCTTCGACTACGTGGGCCGGGCCACCGAGGTGAACTACACCGACTACACGGTCCTGACCACCATCAAGTACTACTACCGGGTCACCACCGTGAACAAGGGCGGCGAATCTGCTCCCTCGCCTGTTGTGGGCACGGAGAAAGTGACCGTGGTCAACCGGCAGATGGAGAAGCTTGACCGTGCACCAGTGGCCCTGCTGACTGACGGCGGCGTCCGCGTTGGCTGGCGCATGCTGGGCCTGGACCCGGAGCAGGTGGGCTTCCATGTCATCCGCGACGGCGTCCAGCTCACCGAGGAGCCCATCCGCAGCAGCACCACCTTCCTGGACCCGTCAGGGACAGCGGCTTCCCGCTACGTCATCAAGACCGTCGGTGCCGGCGCTGACCAGCTGACCGGAGAGTTCACGCCGCTGGCGCAGGACTACCTGGCAGTCAAGCTGGACAAGCCGGCGGACGACTACACCAAGGACGGGCAGCCCTACTCCTACTCGGCCGGTGACGCGAGCGTTGCTGACCTGGATGGCGACGGAACCTACGAAATCCTCCAGATGTGGTCTCCGTCCAACTCCAAGGACAACTCCCAGGCGGGCTACACCGGCACGGTCTACGTGGACGCCTACCGGATGGACGGCACCAGGCTCTGGCGGATCAACATGGGCCCGAACATCCGCGCCGGCGCACACTACACGCAGCTGCTGGCCTACGACTTCGACGGCGACGGCAAGGCCGAAGTTGCCATGAAGACAGCGGATGGCACACGGGACGGTGCCGGAACCGTCATCGGGAACACTGGGGCGGATTACCGCAACAGCAGCGGCTATGTGCTGACCGGGCCCGAGTTCCTGACGGTCTTCCACGGGGCCACCGGCACGGTCATGGACACAGTGGCCTACGACCCGCCGCGCGGTGATGTGGCTGCCTGGGGAGATGGTTACGGCAACCGGGTGGACCGGTTCCTGGGCGCGGTAGCGTACCTGGACGGGGAACGCCCCTCCATGATGTTCAGCAGGGGCTACTACACCCGCACCGTGCTGGCCACCTATGACCTGCTGGGCGGCAAGATCATCAAACGCTGGATCTTCGACTCCGATGTTGCAGGGGCGCAGTACCGGGGCCAGGGCAACCACAACCTGTCCGTGGCTGACGTGGACGCTGATGGCAAGGACGAATTCATCTTCGGTTCCATGACCGTCGATGACAACGGCAAGCCCTTGTACAACACCGGCCTGGGTCACGGGGATGCCATCCACACCAGTGACTTCGATCCTTCCCGCCCGGGGCTGGAAACGTTTATGCCCCACGAGGACATGGGAGCCAGCGGCAACACGGGCGCCACGTTCCGGGACTCCCGGACCGGCGAAGTCCTGTGGAGCATCCCTGCCGCGAAGGACACGGGCCGGGCCGCTGCCGGCGACATCGACCCCCGCTACGCCGGCGCCGAGGGCTGGGCCATTGGTGGTGATGCTGCCTGGAATTCACCTGTCGGCGAGTTGCGCTCCGCCAAGGGTGAACTGATCGCGAACAAAATCCCGGCCGCCAACTTCCTGGCCTGGTGGGACGGGGATCTGCTCCGCGAAATCGTGGACCATGACTGGGATGCCACCACCAGCCGTGGAACTCCGAGCATCGCCAAATGGAACTGGGAGACAGAGTCCAGCGACAGGTTGCTGACAGCCTCCGGAGCGAAGTCGAATAACACCACCAAGGGCACACCTGCCATCCAGGCGGACCTGCTCGGTGACTGGCGGGAAGAAATTACCTGGCCGTCGTCGGACAGCACCGAACTGCGGATCTACACCACCACCGCCGGCACCGACATCCGCCTCCGGACGCTGATGCACGATCCGGTGTACCGGCTCTCTGTGGCGCGGGAGAACGTCTCCTACAACCAGCCGCCGCACCCGGGCTTCTACATCGGAGTGGGCATGGAAATGCCCTCCCAGCCGGACATCGTCTACACGGGAGTCCGCTAA	MKKPPQAISSSKAGPPHRRRILTSGTRAATAAVASAAIALTGLPPVHADTLPPVGSGFKFDFGPGPTADGYTRVDAATQYTAAGKFGFTDTAVTSGADRGTGDAVRSDFVQAQGSTFLVDLPNGDYTIKLLAGDAAEATNIAITAEKMAKVQLTDKAPGQYLEMEFPISLVDGQLNLDFSGTAAKINSLVIAARAPRTATTDPGIYLAGDSTVQTYDPGFVPQAGWGQMIDRYFDSAVTFRNHAIGGRSSKNFISQGRLDEILRVINPGDYLMVQFGHNDATIGVDDRYASPADYKEYLRTYVHGARQRGATPILVTPVGRRDFDEATGKFRVSFPEYVAKMQELAAEESVALVDLSASSRAYYDEIGPEDTKSVFLHVDAGVYPNRPTGTVDNTHFQEYGAIQIARLVAGGVKQLSVPLASRVKEIAPPSSVPAKPKGLVAGSISNAGALLKWQPVEGADIYKVYRKPAAEPDSAYKLTTTATVPTANLAGLAEGTAYSVRVAAMNGKGLSEPSDTLNLTTKQAKYKFDFGPVGAPVEPGYTEVNRTMGYSPERTFGFKDISVLSDRDRGAVTTNLLRDFVLSGSSFEFQLDVPNGTYALKTYHSDWIGSTRTDVAAEGTPFGQVSSGRASSATKIINQVLVSDGQLNLSISGSGQRLNGLEVTPLLVGPTNLHATGLNAAAEPPTVDLAWDAVTDAASYKVFRQASFEAEPGLIAENVSAPSFQDATAFAGLTYKYFVTALDNTGLESVPSNTVGIPLVDPGTPVPAATAKVDIKAVEKTSVNLKWQKVANAAAYQVYRSTSPDGPFDYVGRATEVNYTDYTVLTTIKYYYRVTTVNKGGESAPSPVVGTEKVTVVNRQMEKLDRAPVALLTDGGVRVGWRMLGLDPEQVGFHVIRDGVQLTEEPIRSSTTFLDPSGTAASRYVIKTVGAGADQLTGEFTPLAQDYLAVKLDKPADDYTKDGQPYSYSAGDASVADLDGDGTYEILQMWSPSNSKDNSQAGYTGTVYVDAYRMDGTRLWRINMGPNIRAGAHYTQLLAYDFDGDGKAEVAMKTADGTRDGAGTVIGNTGADYRNSSGYVLTGPEFLTVFHGATGTVMDTVAYDPPRGDVAAWGDGYGNRVDRFLGAVAYLDGERPSMMFSRGYYTRTVLATYDLLGGKIIKRWIFDSDVAGAQYRGQGNHNLSVADVDADGKDEFIFGSMTVDDNGKPLYNTGLGHGDAIHTSDFDPSRPGLETFMPHEDMGASGNTGATFRDSRTGEVLWSIPAAKDTGRAAAGDIDPRYAGAEGWAIGGDAAWNSPVGELRSAKGELIANKIPAANFLAWWDGDLLREIVDHDWDATTSRGTPSIAKWNWETESSDRLLTASGAKSNNTTKGTPAIQADLLGDWREEITWPSSDSTELRIYTTTAGTDIRLRTLMHDPVYRLSVARENVSYNQPPHPGFYIGVGMEMPSQPDIVYTGVR				NA	NA	NA	NA	NA
D1-29_04664	984			hypothetical protein	ATGACTGAGACCGCACCCAATTCAGTAACCCTCCGCTTCCTGGCCGCTCCCATGGACGTCGGCCACAGCGGATCCGTGGATGCCGGAACTGTGCTGGAGTGGGTGGACAAGGCCGCGTATGCAGCGGCCGTTGGCTGGGCCAAGGCCTATTGCGTCACCGCCTACGTGGGCAATATCCATTTCGCTGACCCCGTCAACGTCGGGGACATGGTGGAGGTCGAAGCCACCATTGTTTACACCGGCCGTTCCTCCATGCACATTCATACCGTTGTTTCCTCGGGGGATCCCAAGGGCGGTCCTGCCACCATGCGGAGCCAGTGCATGGTGATATTTGTGGCGGTGGGCCAGGACGGGAAGCCCGTCCCGGTAAAGCACTTTGAACCGGTCACGCCGCGGGAGATCGAACAACGCGACCACGCTCTGGCACGGATCAGGGTCCGCGAGCAGATCGTGGAGGCAATGAATAGCCAAAAATATACCGACGCCGGCACCGCCGAACGCGTGACCCTGCGGTTTATGGCCGCCCCGACAGATGTCAACTGGGGAGGGAAGGTCCACGGCGGCATTGTGATGAAGTGGATCGACGAAGCCGCATACGTCTGCGCGTCACGCTACTGCGGGAAGGACACCGTTGCCGTCTTCTCCGGCGGCGTCCGTTTCTACCGGCCCCTGCTGATCGGCCACGTGGTGGAAGTGGAAGCCAGGCTGGTGTATACCGGCACAAAAGGCATGCACGTGGCGGTCCACGTCCGCTCAGGAGATCCCAAAAGCGGCGAGCTGGACCTCACTACCTACTGCCTCACCGTGATGGTGGCGCGCGACGCCGAAGGCAACTCCGTGCCCATCCCGCCGTGGGTGCCCGTCTCGGAGGAAGACAAGCGGCTCCACGCCCACGCACGGGAACTGTTGGAGATTCGCGGCACCGCACCGGGTAACCGGCTACCCAACCACCTGCTGGAGGCGGGCGCAGCAGGGCAGAACTAA	MTETAPNSVTLRFLAAPMDVGHSGSVDAGTVLEWVDKAAYAAAVGWAKAYCVTAYVGNIHFADPVNVGDMVEVEATIVYTGRSSMHIHTVVSSGDPKGGPATMRSQCMVIFVAVGQDGKPVPVKHFEPVTPREIEQRDHALARIRVREQIVEAMNSQKYTDAGTAERVTLRFMAAPTDVNWGGKVHGGIVMKWIDEAAYVCASRYCGKDTVAVFSGGVRFYRPLLIGHVVEVEARLVYTGTKGMHVAVHVRSGDPKSGELDLTTYCLTVMVARDAEGNSVPIPPWVPVSEEDKRLHAHARELLEIRGTAPGNRLPNHLLEAGAAGQN				NA	NA	NA	NA	NA
D1-29_04665	1383	dnaB	COG0305	Replicative DNA helicase	TTGTCAGTAACGCACCTGGATTCGATCGAGGGCACCCGCGCGTCGGAAGGCAGCCGTAAACCGCCGCAGGATATTCCTGCCGAACAGTCGGTATTGGGCGGCATGATGCTTTCCAAGGACGCCATCGCTGACGTCGTGGAGATCCTCCGCGGGCAGGACTTCTACCGGCCCGCCCATGAAACCATCTACGAAGCCATCATCGACCTCTACGGCCGCGGTGAACCTGCCGATGCCGTCACGGTCTCGGACGAACTGACCAAACGCGCCGAGATCAACAGGATCGGCGGCCCCGCGTACCTGCACGAGCTCATCCAGACCGTCCCCACGGCAGCCAACGCCGGTTATTACGCGGAGATCGTGGCCGAACGGGCTGTTCTCCGCCGCCTGGTCAATGCCGGCACCAAGATCGTCCAGCTGGGATACGGCTCCGACGGCGAAGTGGAGGACCTGGTTAACCAGGCCCAGGCCGAGGTTTACGCTGTGGCCGAGCGGCGCACTGCCGAGGACTACGTGGTCCTCAAGGACGTGATGGAGTCCACGGTGGACGAGATCGAAGCGTCCGGGCACCGTGGCGAGGGAATGACAGGTGTTCCCACCGGCTTCTATGAACTTGATGAGCTGACGCACGGCCTGCACCCTGGCCAGATGATCGTGATCGCTGCCCGCCCTGCCGTAGGCAAGTCCACCTTCGCCCTGGACTTCGCCCGGTCAGCGGCGATCAAGAACAACCTGGCCACCGTGATGTTTTCATTGGAAATGGGCCGCAACGAGATCGCGATGCGCCTCCTCTCGGCCGAGGCAACCATCGGTCTGCAGGACCTCCGCAAGGGCACCATCAAGGACGAGCAGTGGTCCAAGATCGCCACCACCATGGGCCGGATGAATGATGCGCCGCTGTTCATTGATGACAGCCCCAACATGTCGCTGATGGAAATCAGGGCCAAGTGCCGCCGGCTCAAGCAGCAGCATGACCTCAAGCTGGTCATCCTGGACTACCTCCAGCTCATGAGCTCGGGTAAAAAAGTGGAGTCCCGCCAGCAAGAGGTATCGGAATTCTCCCGTGCGCTGAAGCTGTTGGCCAAGGAGCTGCAGGTCCCGGTTATCGCCCTCTCGCAGCTGAACCGTGGCTCCGAACAGCGCCAGGACAAACGCCCGATGGTCTCGGACCTTCGCGAGTCCGGTTCCATTGAGCAGGACGCTGACATGGTGATCCTGCTGCACCGTGAGGACGTCTATGATAAGGAGTCACCGCGCGCGGGCGAGGCGGACATCCTGATCGCCAAGCACCGTAACGGCCCTACCAAAGACATCGTGGTGGCATTCCAGGGCCACTATTCGCGTTTCGCCAACATGGCCGCGGACGCCGGCGGCGGCGGCTTCTAG	MSVTHLDSIEGTRASEGSRKPPQDIPAEQSVLGGMMLSKDAIADVVEILRGQDFYRPAHETIYEAIIDLYGRGEPADAVTVSDELTKRAEINRIGGPAYLHELIQTVPTAANAGYYAEIVAERAVLRRLVNAGTKIVQLGYGSDGEVEDLVNQAQAEVYAVAERRTAEDYVVLKDVMESTVDEIEASGHRGEGMTGVPTGFYELDELTHGLHPGQMIVIAARPAVGKSTFALDFARSAAIKNNLATVMFSLEMGRNEIAMRLLSAEATIGLQDLRKGTIKDEQWSKIATTMGRMNDAPLFIDDSPNMSLMEIRAKCRRLKQQHDLKLVILDYLQLMSSGKKVESRQQEVSEFSRALKLLAKELQVPVIALSQLNRGSEQRQDKRPMVSDLRESGSIEQDADMVILLHREDVYDKESPRAGEADILIAKHRNGPTKDIVVAFQGHYSRFANMAADAGGGGF				NA	NA	NA	NA	NA
D1-29_04666	456			hypothetical protein	ATGGGCGAACTACTGATGGTGTTACTGCCTGGTTTCATTCTGGTAGCAGTCTTGTGGGCGCTTTCAACAGCCCTGCGCCCGCGCGACTCCGGCATTTCGGACGCAGAGCGATACCAGCTGGACCTCGCATTGCGTTCTGCTGAACACTATGCGGCACAGGTACAGGCCGCCACCGCTGCACGCGCCCGCGTGGATGCCATGACCAGGCCAAGCCAGAATGAGCAGCAGCAGTCCCAGCAGCAGGACCACGCCCGGGCAGCCTTCCGGGCTCAGACTGGTCCGGTCCCCGGGCATTACGGGAACATGGCAGTGCCCGGCGGACAGTTGGATCCCCAGTTCGCCCTGCAGCTGCAGTCGATGGCACGCAACGGGCAGAAGCTGCAGGCCATCAAACTCCTCCGCCAGGCAACCCACTCTGACCTGGCTACCGCTAAGAAGTATGTAGATCGGCTTTAG	MGELLMVLLPGFILVAVLWALSTALRPRDSGISDAERYQLDLALRSAEHYAAQVQAATAARARVDAMTRPSQNEQQQSQQQDHARAAFRAQTGPVPGHYGNMAVPGGQLDPQFALQLQSMARNGQKLQAIKLLRQATHSDLATAKKYVDRL				NA	NA	NA	NA	NA
D1-29_04667	576			hypothetical protein	ATGGAATCGCTTGTGATCCCCGCCCTCATTCTTGTGCTGGTGGCAGCCGGTGTCGCCCTGGCGTCACGCGCCATCAGCAGGCGTCTGGCCGCCACCACACGTCATGCCAGCGCTCCTGCTGTCGTGGACCCTGTGGAGGTTGCCCGGGCAGCCTCAGCCAGGCTCACCGAGGATCAGCACCGCAGGCTGTATGCGCTCATCGCCCAGGGACAGGCGATGGCGGCCATCAAGCTCTACTACGAGTCAACGGGCGAAGGATTGCGGGCCTCACGGGACGCCGTCACTGCGTTGGCGGCCCATCCGCAGCCTTACCGCAGCCCCACTGCTGAACCGGTTGCTGCGGAGCCTGACGACGACGACACCCCCCAGCGGTTTCCGTACCGCTACCGCGCCATCGCCAGCAAGGGTGACGTTACACGGGAGGTCAGCAGCAACATGCTCAACGACGAGATCTACGGGCGGATCCGGACACTGGCACGCAGCGGAGACACCGAAGCAGCCGCCACTGCACTCACGCGGCATTCGGACATCTCCCTGAAGCAGGCCCGCGAGTTCATCGCCCTGCTGGACGACTGA	MESLVIPALILVLVAAGVALASRAISRRLAATTRHASAPAVVDPVEVARAASARLTEDQHRRLYALIAQGQAMAAIKLYYESTGEGLRASRDAVTALAAHPQPYRSPTAEPVAAEPDDDDTPQRFPYRYRAIASKGDVTREVSSNMLNDEIYGRIRTLARSGDTEAAATALTRHSDISLKQAREFIALLDD				NA	NA	NA	NA	NA
D1-29_04668	354			hypothetical protein	ATGAAGTGTCCTGTGGATTCCATTGACCTGATCATGAGCGAACGCAGTGGTGTGGAGATTGACTACTGCCCCCAGTGCCGGGGTGTCTGGCTGGACAGGGGTGAGCTGGACAAGATCATCGACCGCGCCGAAGCCATGGGCGGAACGGCTGCGCCGGAGCGCCCTGCGTCCCCGCCCCCTGCCATGACTCCGCCGCCGCTGTACCAGAACCTGGACCCGCGCCGGGAACAGGGGCACGACAGCAGGAACTACGGCGACAACAGGAACTACGGCAAGCAGGGCTATGACCGCGACTACGACCGGCGGCGGCCCAAGAAGAAGGAAGGCTGGCTGGGCGAGCTCTTCGACTTCTAG	MKCPVDSIDLIMSERSGVEIDYCPQCRGVWLDRGELDKIIDRAEAMGGTAAPERPASPPPAMTPPPLYQNLDPRREQGHDSRNYGDNRNYGKQGYDRDYDRRRPKKKEGWLGELFDF	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
D1-29_04669	627	sfnF	COG0431	NADH-dependent FMN reductase SfnF	GTGGAAACCCGCCGCATCACAGTTCTTTCAGCCGGCCTTGGCGTCCCGTCGTCGAGCAGGCTGCTCGCTGACCAGCTTGCAACGTCAGCAGAACGCCAGCTCACCGATGCCGGCTACCGGGTACGCACGGACGTTGTTGAGCTCCGCGACCTGGCTGTGGACATTGCGAACAACTTTGTGACCGGCTACGCCGCCCCGCGGCTGGCTGATGTTGTTTCGGGGGTGGAGGCATCGCACGGCATCATTGCCGTCACTCCGGTGTTCAGTGCGTCCTACAGCGGCCTCTTCAAGTCCTTTATCGACATCCTGGATCCCAAAGCCCTGGAGGGAAAAGCAGTCCTGCTGGGTGCGACCGGAGGCACAGACCGCCACCAGATGGTTCTGGACTACGCCCTGCGTCCGCTGTTCAGCTACTTGAGGACGCGCATCGCTGCCACGGGTGTCTTTGCCGGGCCGCAGGACTGGGGGAACGCCGATCAAGGCAGCTCCCCGCTTTCGGACCGGATCGCGCGGGCCGCCGGAGAGTTCGCCGGCCTCCTTCAGGGCACCCAGCCAGCGCCCAGGCCTGTGGTCTCTGCCTCGTTGCCCTTTGAGCAGTTGCTCGCCGGTATCTCGGGCGGCCACTGA	METRRITVLSAGLGVPSSSRLLADQLATSAERQLTDAGYRVRTDVVELRDLAVDIANNFVTGYAAPRLADVVSGVEASHGIIAVTPVFSASYSGLFKSFIDILDPKALEGKAVLLGATGGTDRHQMVLDYALRPLFSYLRTRIAATGVFAGPQDWGNADQGSSPLSDRIARAAGEFAGLLQGTQPAPRPVVSASLPFEQLLAGISGGH	PGPT0003045_441	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
D1-29_04670	831	yddE	COG0384	putative isomerase YddE	GTGTTCACCGCTGAACCGTACCGGGGGAACCCGCTGGCCGTGGTGGTGGACGGAGACGGACTGACAACGGAGCAGATGCAGCAGTTCGCCAACTGGACCAACCTCTCGGAGACAACGTTTCTCCTGCCTCCCACTCATCCGGAGGCCGACTACCGCGTGCGTATCTTCACGGCCCGGGAGGAGTTCCCGTTTGCAGGGCATCCCACGCTGGGTTCTGCCCATGCGTGGCTGGAGGCCGGCGGCATGCCCAAACAGCAGGGCCTCCTGGTTCAGGAATGTGGCGCCGGGCTGGTCCGGGTAAAGCGCGACGGCGGCCAGCTGTCCTTCGCAGCGCCCCCGCTCACGCGTTCCGGACCGGTGGATGAGGAAGACCTCCTGAAGATCGCTTTTGGACTCCAGTTGCCCCGTACAGCGCTTCTGGACGCGTCCTGGCTGGTGAACGGACCTCGCTGGATCGGAGTGCTGCTGGAATCGGCCGGGCACGTGCTGGCAGTCACGCCCGACTACCCCGCACTGGACGGGCTTAGTGTGGGTGTTATCGGGCCTTACGGTACGGGCAGCACGGGTGCCTACCCGGATCCGGGCAGGCCGGATTTTGAGGTCCGTACCTTCATCCCGGGCGATGCCGCAGCCGAAGATCCCGTGACAGGCAGTTTTAATGCCGGGGCAGCGCAATGGCTGATCGGCACCGGGCGCGCGCCGGCGTCGTACACTGCCGCGCAGGGCACGGCGCTGGGGCGGGCAGGCAGGGTCAGCGTGTATTCTGTGCAAGGCGACATCTGGATCGGCGGAAGCTCCACTACCTGCATTAACGGATCTGTGGTCCTTTAG	MFTAEPYRGNPLAVVVDGDGLTTEQMQQFANWTNLSETTFLLPPTHPEADYRVRIFTAREEFPFAGHPTLGSAHAWLEAGGMPKQQGLLVQECGAGLVRVKRDGGQLSFAAPPLTRSGPVDEEDLLKIAFGLQLPRTALLDASWLVNGPRWIGVLLESAGHVLAVTPDYPALDGLSVGVIGPYGTGSTGAYPDPGRPDFEVRTFIPGDAAAEDPVTGSFNAGAAQWLIGTGRAPASYTAAQGTALGRAGRVSVYSVQGDIWIGGSSTTCINGSVVL				NA	NA	NA	NA	NA
D1-29_04671	453	rplI	COG0359	50S ribosomal protein L9	ATGGCAAAGCTCATTCTGACCCACGAAGTAACCGGTCTCGGTGCTGCTGGCGACGTTGTCGAGGTCAAGGACGGTTACGCACGTAACTACCTGCTGCCCCGCAACTTCGCCCTGACCTGGTCCAAGGGTGGCGAGAAGCAGGTTGAGTCCATCAAGGCTGCCCGCGCCGCCCGCGAGCACGCTTCCCTGGAAGATGCTCAGAAGCAGGCCGCTGCACTCTCCGCCAAGCCGGTCAAGCTGGTCGTCAAGGCCGGCGAGACCGGACGCCTGTTCGGCACCGTCAAGCAGGCCGACGTTGCTGACGCTGTTGAGGCCGCTGGCCTTGGCCGCATCGACAAGCGCAAGGTTGAACTTCCGGCACACATCAAGTCGGTTGGTTCCTACCAGGCCAACGTCCGTCTTCACGACGACGTTGCCGCTGTGATCGAACTCGACGTCGTCGCCAGCAAGTAG	MAKLILTHEVTGLGAAGDVVEVKDGYARNYLLPRNFALTWSKGGEKQVESIKAARAAREHASLEDAQKQAAALSAKPVKLVVKAGETGRLFGTVKQADVADAVEAAGLGRIDKRKVELPAHIKSVGSYQANVRLHDDVAAVIELDVVASK				NA	NA	NA	NA	NA
D1-29_04672	240	rpsR1	COG0238	30S ribosomal protein S18 1	ATGGCTAAGGCTGAACTCCGTAAGCCCAAACCAAAGTCCAACCCCTTGAAGGCCGCTGACATCACTGTCATCGACTACAAGGACGTAGCATTGCTGCGCAAGTTCATCTCCGACCGCGGAAAGATCCGCGCCCGTCGCGTCACTGGCGTCACGGTGCAGGAACAGCGCAAAATCGCACAGGCAATCAAGAACGCCCGCGAAGTTGCTCTGCTGCCTTACTCCGGCGCTGGCCGCGGCTAA	MAKAELRKPKPKSNPLKAADITVIDYKDVALLRKFISDRGKIRARRVTGVTVQEQRKIAQAIKNAREVALLPYSGAGRG				NA	NA	NA	NA	NA
D1-29_04673	573	ssb	COG0629	Single-stranded DNA-binding protein	ATGGCAGGCGAAACCACCATTACGGTCATCGGTAATCTCACCAGTGACCCGGAATTGCGGTTCACACCGTCGGGTTCGGCAGTTGCGAACTTCACCATCGCTTCCACCCCTCGTACCTTTGATCGCCAGTCCAATGAGTGGAAGGACGGGGAAACCCTGTTCCTCCGCGCCTCTGTCTGGCGTGAAGCTGCCGAGAACGTCGCGGAATCCCTGACCAAGGGCATGCGCGTCATCGTCTCAGGCCGCCTGAAGAGCCGTTCCTACGAAACAAAAGAAGGCGAGAAGCGCACCGTTATCGAGCTTGAGGTCGATGAAATCGGCCCTAGCCTGCGCTACGCCAATGCCAAAGTCAACCGCACCCAGCGCTCCGGCGCCGGAGGCGGACAAGGTGGCTTCGGCGGCGGCAACAGCGGTGGCGGCTTCGGAGGCAACCCTGGCGCAAACCAGGGTGGAAACTCCGGCGGAAGCTGGGGCGGCAACCAGCCTGCTGCACAGGAGGACCCTTGGGCCACCCCCGGTGTCAGCAACGCAGGCGGCTGGGGCAACGGCCCGGATTCCGAACCTCCCTTCTAA	MAGETTITVIGNLTSDPELRFTPSGSAVANFTIASTPRTFDRQSNEWKDGETLFLRASVWREAAENVAESLTKGMRVIVSGRLKSRSYETKEGEKRTVIELEVDEIGPSLRYANAKVNRTQRSGAGGGQGGFGGGNSGGGFGGNPGANQGGNSGGSWGGNQPAAQEDPWATPGVSNAGGWGNGPDSEPPF				NA	NA	NA	NA	NA
D1-29_04674	306	rpsF	COG0360	30S ribosomal protein S6	ATGCGTCCTTACGAATTGATGGTAATCATCGACCCCGAGGTCGAAGAGCGTACCGTTGAGCCGTCGCTTCAGAAGTTCCTGAATGTCATCACCAACGATGGTGGAACCATCGAAAAGGTTGACATCTGGGGCCGTCGCCGACTGGCCTACGACATCAAGAAGAAGTCTGAAGGTATCTACGCCGTGGTGAACTTCACCGCCAAGCCGGACACCGCCAAGGAACTTGACCGCCAGCTGAGTCTCAACGAGACCATCATGCGCACCAAGATCACCCGCCCCGAAGAGCAGAAGGTCGTTGCTGAGTAA	MRPYELMVIIDPEVEERTVEPSLQKFLNVITNDGGTIEKVDIWGRRRLAYDIKKKSEGIYAVVNFTAKPDTAKELDRQLSLNETIMRTKITRPEEQKVVAE				NA	NA	NA	NA	NA
D1-29_04675	651			hypothetical protein	ATGGACGCCTCCCCCACCACCCTCCGCCGCAGCAGGCTTCGCTTCCTCGCCATGTTGGTCGCGGGGGTTGCCGCGGCAGCAGCCACCGGGGCCAGCGGCGGGTGGCTGCAGGCTCCGGCGGCAGGCTGGGCCACCGCGGCACTGGTTTATGTGGTGTGGGTGTGGACTGCGGTGGGCCGCATGGACCCCATGGAAACCAAATCGCACGCCACCACCGAGGACCCGTCCCGGGCCACGACTGACCTCCTCATCCTGGTGGCAAACATCGCCTCACTGGTTGCGGTGGCCGTCGTCGTTGTTGATTCACACCGGCCAGACGGTGGCGCCAGGCTGGAGGGTGCGGCGCTGGTGCTGGCAAGCGTTGCACTGTCGTGGATGCTGGTGCAGACCTTGTTCACACTCCGGTATGCCGGCCATTACTACGGCGGGCAGCAGGACGGCGGAGTGAACTTCAACCAGGACGGGCCACCCCGGTACACCGACTTCGCGTACCTGGCCACGAGCATCGGCATGACCTACCAGGTGTCCGACACCAGCCTGGAGAACCACCTGATCCGGCGCGAAGCCCTCAAGCACAGCCTGCTGTCCTACCTGTTCGGGACGGTCATCCTGGCGGCCACCATCAACCTTGTGCTGGACCTGGCGGCTTGA	MDASPTTLRRSRLRFLAMLVAGVAAAAATGASGGWLQAPAAGWATAALVYVVWVWTAVGRMDPMETKSHATTEDPSRATTDLLILVANIASLVAVAVVVVDSHRPDGGARLEGAALVLASVALSWMLVQTLFTLRYAGHYYGGQQDGGVNFNQDGPPRYTDFAYLATSIGMTYQVSDTSLENHLIRREALKHSLLSYLFGTVILAATINLVLDLAA				NA	NA	NA	NA	NA
D1-29_04676	2694			hypothetical protein	ATGTCGTTAATTGGCCGAAGCAAGGAGCTGGACCGGGTCCTCGCAGTTATCCGAGGGCCGAAGGATTCCGCCCTGACCATCGTCGGCAGGCGCGGTGTCGGCAAGACGGCGCTGCTCTCCGAGATCCCAAGGCTCTCTGATTACCGGACAGTGTTCCTGCGCGCCAGCGCGTCCGAATCGGACTGGCCCCTCTCCGGCCTTACCGCCCTGCTCAACGGAATCGACGATCCGGTCCTGAACAGGTTCACCGATGAACTGCTCCGGGACTCCAACAGATCCATGGACGTCCCTACTGTTTCCACGATGCTGCTCAACGGACTCCACCAACGCTCATCGTCCCGCACCGTGATCGTCATCGACGACGCCGACCGGCTTGATCCCAGCAGCCAGGCCGTGATCGGTTTCCTGGCCCGGCGCCTCGCAGGAACGGAAATCGCGCTCTTCCTCAGTGTGCGGGAGGAAACAGCGGAGAGTCCTTTTGCCAGCCTGCCGGCGCTCGTGCTGAAACCGCTGAACTACAACGACACCGTCCGGATGCTTGAGTCGATTCCGGCGCGGCAGACCGCCACCGCAGCAGTCCACGCCGTTGCGGCAGCCACCCAGGGTAACCCGCTCGCCGCCGTCGAGCTCTACACCTGCCTGCTTGAGCGGCAGGCCGAGGGGAAGTACGCCCTTCCGGTTCCGCTTCCCTGCAGGGGTAGTTTCGAATCTGAGTTTGCCGCAACCGTTGGAGGGCTCTCGCGGGCGGCCCACCATGTCCTTGAGTTGCTTTCGCTGTCATGCCGGAGCGACATCGCAACACTGGAAAAGGTGTACAGCGATCTGTGGCCTGGAGTGGATGAGCTGCTCGCCTGTGGAATGGCCGCCAGAACGGGGCCGCACCTTCGGATTTCGGACCAGCTGCTCCGGGGTTATGTCTTTGCCGCCATGACACCGGCGGTCCGGACAGCTAACCACCGCGCCATGGCTGCAGCGGCGGACCCTACAGACCCTTACGCCAGGCGGTGGCACCTGAGTTTTACCGCACTGGAGCGGCAGACACCGTTTGGCCTCCTCCGGTTCGCCGTGGACCTCATCCGGAGCGGGGAAATTGCCTTCGCCGTCGAATACATTGAGCGCGCCCTTACCATCAACCCCTGGGAAGCAGAGACCGCTTCCCGCCTCGCCACTGTTGCCGAGCTGCTGTTTAACCGAAGCGAGTTTGTCTACGCAAAGCGCTACCTGGAGTGGGCGCAGCGGGTGACGCGCAACCCCGCCCTGATCCTTCGCCTCACAGGCCTCTCCTTCGAAATCCAGTTCGTTCAAGGCGCCGCCGTGCGCTCCAGCATGGTGCTGCGGCTGGTCAAGGAATTCGGCCGGCACGATCCCACTTTCGCCGCCAACCTACTGGCAGTGGGCGCGCTCTACTACGCGGAACGGTGGGAACTGGAGGACGCGGTCGGCCTGCTCCACTATGGGGAACAGTTCAAGGATTCAGCCAACGCGGACTGCCTGGCCCTGATGGGACGCACGAAGCTCCTGATCGAGGCCATCAGCGGAAAAACCGACAACGTCAACCGCAAACGCGACGCCGGAGGGTCGGATAACGCGGCAACCCTCCTGGTGATGGCCCGTGCCCTGAGCTATGCGGAGCACCATGAGCTGGCCCAGGAGGCCTTCGCCATGGTCCGGAACACCGTTGAGCCGGGCAACATCAACTGGCGGGAAACCGCAGCCTACCTTGCGGCGGACAATGAGATCCGTGCAGGCAATGTCCGGACAGCCGTGAGACTGATCGAGGACCTGGAGCTCTCTGAACCGGAGCTCAAATACCACCGCGGGATGCGGCATATCTTTCGGGTCTGGCGGGCCCATGCCTTGGGCGACGAAGCGCTGGCGCGGATCTACGCCACAGAGGCACAACACTTCTCCGGCGCCGAGAGCCACGCTGCCATTACGGCCCAACTGGCCGCCTGCCAGGGCCATTTTGCCCTGATGCGGGGCAACCTGGCTGAGTCATTCGCACAGCTCTCCCGGGCGGTGGAGATCGGAGCGGCATTCGGGAACCCCACACTGCTGCGGTGCGAGGCCGATCTGGTGGAAGTCCTGATCCGAATGGGAAGACACCGCGAAGCCACCGTGGCGCTCTTCCGGTTGGAGAGCCGGTCGGTGGGCCTGAGGTCCCCCTGGCTGATGATGGCTGTTGCGAGGAGCAGGGCGATGCTGGCCGACGGCGAACAGTCCCTGCAGCTGTTCGGCCAGGCGCTGGACGGCCGGAACGGCCATGAGTCCGTGCTCGAGCGGGCGCGGACGCTGCTCTGCTACGCAGAACGGCTCCACGCCTTTGGCCGGCTGCGGGATGCCCGCGACGGCCTGCTGCGTGCCAAGGTGATGTTCGATGAAGCCGGCGCCGATGCCTGGACCCAGCACGTGGACTCGCTTTTGCTTGATGAACGGGTGGAACCGGCACGTGCGGCAGGCAACCCGGCCATGCTCATGCTCATTGACCATGAACGTGCGTTGGCGCAGATGGTGGCCAGGGGGATGCGGAACAAAGAGATCGCAGCCACACTGTACGTCTCCGTCCGCACGGTAGAAGTGCGCCTGACGGCGATCTATCGCAAGCTCGGAGTAGAGTCACGCGCCCAGCTGACGGCCCTGGCTGCGGGCAAGGAAGCTGCCGCCCGGGAACCGTACGTCCTGCCCGTCTTATAG	MSLIGRSKELDRVLAVIRGPKDSALTIVGRRGVGKTALLSEIPRLSDYRTVFLRASASESDWPLSGLTALLNGIDDPVLNRFTDELLRDSNRSMDVPTVSTMLLNGLHQRSSSRTVIVIDDADRLDPSSQAVIGFLARRLAGTEIALFLSVREETAESPFASLPALVLKPLNYNDTVRMLESIPARQTATAAVHAVAAATQGNPLAAVELYTCLLERQAEGKYALPVPLPCRGSFESEFAATVGGLSRAAHHVLELLSLSCRSDIATLEKVYSDLWPGVDELLACGMAARTGPHLRISDQLLRGYVFAAMTPAVRTANHRAMAAAADPTDPYARRWHLSFTALERQTPFGLLRFAVDLIRSGEIAFAVEYIERALTINPWEAETASRLATVAELLFNRSEFVYAKRYLEWAQRVTRNPALILRLTGLSFEIQFVQGAAVRSSMVLRLVKEFGRHDPTFAANLLAVGALYYAERWELEDAVGLLHYGEQFKDSANADCLALMGRTKLLIEAISGKTDNVNRKRDAGGSDNAATLLVMARALSYAEHHELAQEAFAMVRNTVEPGNINWRETAAYLAADNEIRAGNVRTAVRLIEDLELSEPELKYHRGMRHIFRVWRAHALGDEALARIYATEAQHFSGAESHAAITAQLAACQGHFALMRGNLAESFAQLSRAVEIGAAFGNPTLLRCEADLVEVLIRMGRHREATVALFRLESRSVGLRSPWLMMAVARSRAMLADGEQSLQLFGQALDGRNGHESVLERARTLLCYAERLHAFGRLRDARDGLLRAKVMFDEAGADAWTQHVDSLLLDERVEPARAAGNPAMLMLIDHERALAQMVARGMRNKEIAATLYVSVRTVEVRLTAIYRKLGVESRAQLTALAAGKEAAAREPYVLPVL				NA	NA	NA	NA	NA
D1-29_04677	1587			hypothetical protein	ATGGCAGAGATACCAGTTGCCCGCACCCGGCATGGCGCCTTTAGCTGGCCCGTTGCCACCGTTGCTGCACAACGGCAGGCAACCGCGCCGTTGGCGGCAGCAGTACCCGTTGGAACCCGGGACCTGCTGCCGCCGGCGGCGGCCTTCCCCCAGGCCGGGCAAGGCCGTAAGGCGGCCAGTGCCTGGATCGGCACACTCATTGGACTTCTTCGCACCGCGGACTCGCTCCTGGTGGCGGGCGCCGTCTACGCCGGCTACCTGCTGTCCGGGGGCGGAGCTTCAGCCGGCACAGGCAACGGCAACAGAACTCTCGCCACCGCAGCAGTAGTAACCGTCCTGTGGCTCGCAGCCCTGGAGCTCTACCGGACCCGTGACTCAAAGGTCCTGGGCGTTGGCGCCGATGAATACAAGCGCGTTGCCTCCGCAAGCCTGCGGATCTTCGGGCTGATGGCGATCATCGCCGTCGTGTTTTCAGTCCCCGCCACCGCCTTTGTTACCGTCTCCCTGCCACTGGGCCTGGTGGCCCTGACAGGAAACCGCTGGGCCTTCAGGCGCTGGCTTACCAAGGAAAAGGCCCGCGGACACCACCTCTCGAGGGCAATCGTGGTGGGGGAGCCGGAGGATGTCCGGTACGTGGTCCAACAGGTCGCCAGGAAATCCAGTGCGGTCTACAAGATTCTTGGGGTCTGCCTTCCAGGTGCACGCAGGGGGGCAAGTCTCCGGGTGGACAGGGAACAGGTACCGGTCCTGTCCTCCACTGACGACATTGCACGGACCGCGCGCCTGGCAGAGGCCGACGCCGTAATTGTTGCCGGCCCGCTCCCTGGCGGCAACAGGTTCATCCGTGAGCTTGGCTGGAAGCTGGAGGAATGCGCCGCCGAAATGGTCCTGGCGGCTACACTCACCAACGTGGCCGGTCCGCGGATCCATTGGCGTCCGGTGGAGGGCCTTCCCCTCATGCACGTGGACATACCGCAGTACTCCGGGGCGAAGCATGTGCTCAAGCGCGTCATGGATGTTGCGATGGCGCTGGCGGCGCTCCTGGCACTGTCCCCCCTGCTCGTGGCTTTGGCAATCATCGTCCGGATGGACAGCCCGGGCCCGGTGTTTTTCCGCCAGGACCGGGTTGGAAAGGGCGGCAACGTGTTCGCGATGTTCAAGTTCCGGTCCATGGTGGTGGATGCCGAAGCCCGTCTTGCGGCCCTGAACGGCAGCAATGAAGGAGCCGGCGTTCTGTTCAAGCTGCGGGATGATCCCCGGGTCACCCGCTGCGGACGCTGGATGCGGAAGTACTCACTGGACGAACTTCCGCAGCTGTGGAACGTGGTGCTCGGCAACATGAGCCTTGTGGGCCCGCGTCCCCCTCTAAACCGGGAAGTGGACGGCTACGAACGGCACACACACCGGCGCCTGCTGATCAAACCGGGAATCACGGGGCTCTGGCAGATCAACGGCCGCTCGGACCTTTCCTGGGACGAGGCCGTACGCCTGGACCTCTATTACGTCGAAAACTGGTCCATCGCCGGAGATCTCCTGATTCTCTGGCGGACCTTCCGCGCAGTCATCCGGCCTTCCGGCGCCTACTAA	MAEIPVARTRHGAFSWPVATVAAQRQATAPLAAAVPVGTRDLLPPAAAFPQAGQGRKAASAWIGTLIGLLRTADSLLVAGAVYAGYLLSGGGASAGTGNGNRTLATAAVVTVLWLAALELYRTRDSKVLGVGADEYKRVASASLRIFGLMAIIAVVFSVPATAFVTVSLPLGLVALTGNRWAFRRWLTKEKARGHHLSRAIVVGEPEDVRYVVQQVARKSSAVYKILGVCLPGARRGASLRVDREQVPVLSSTDDIARTARLAEADAVIVAGPLPGGNRFIRELGWKLEECAAEMVLAATLTNVAGPRIHWRPVEGLPLMHVDIPQYSGAKHVLKRVMDVAMALAALLALSPLLVALAIIVRMDSPGPVFFRQDRVGKGGNVFAMFKFRSMVVDAEARLAALNGSNEGAGVLFKLRDDPRVTRCGRWMRKYSLDELPQLWNVVLGNMSLVGPRPPLNREVDGYERHTHRRLLIKPGITGLWQINGRSDLSWDEAVRLDLYYVENWSIAGDLLILWRTFRAVIRPSGAY				NA	NA	NA	NA	NA
D1-29_04678	1140	iolG_16		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAAAAACTTCGCCAATCCGTTCCACACCCCCACGCACCGGCAACCGACACGGAAACTCAGGATCGCCGTCGTCGGGGCCGGGTACTGGGGTCCGAACCTGGCCCGGAACCTGCAGGCAAGCCCCGAGTGGGACCTGGTGGCCATCTGTGATCTGGACATTGAGCGCGCCGCCAAGCTGGCTGCCACGCTGGGTGAGATTCCCGTCGTCGAGTCCCTTGATGAACTGCTGGACACCTTTGACGTGGACGCAGTGGCCATCGCGACGCCGGCCCGCACCCACCACGGGACGGTCATGACCGCGCTGCGCGCCGGGAAGCACGTCCTGGTGGAGAAGCCGCTGGCAGACAGCCGGGCGCACGGGCTGGAGATGGTGGCCGAGGCCGAGGCGAACGGGCTGGTCCTGATGGCAGACCACACCTATTGCTATACCCCGGCGGTGCTGAAGATGCAGGAACTGGTGCAGGCCGGCTCACTGGGCGAGATCCTCTTTGTGGATTCCGTACGGATCAATCTGGGGCTGGTGCAGCCCGATGTGGATGTGTTCTGGGACCTGGCGCCCCACGACCTGGCCATCCTGGACTTCATCCTTCCCGGTGGGCTGAACCCGGCTGAGGTGTCAGCATTCGGAGCAGATCCCTTGGGTACGGGCCGTGACTGTGTGGGACACCTGAATTTCAGGCTGCCCAATGACGCCACTGCCCACGTGCACGTGAACTGGCTGAGCCCCACCAAGATCCGGCAGATGGTGATCGGGGGTTCGCTGCGGACGCTGGTGTGGGACGATCTCAACCCGCAGCAGCGGCTCAGTGTCTACGACCGGGGAGTCAGCCTGGACCGGCAGCCCAAATCACCTGGCGAGAAGAAAACCTCCGCGATCTCCTACCGGCTGGGTGACACCTGGTCCCCGGCCCTGCCGGAACGGGAGGCCCTGAGCCAGGTGGTGGAAGAGCTGGCCTACTGCATCCACAACAGGCGTGAAGCCCGCACCGGCGGAGCATCCGGCCTCCGGGTTCTCTCCGTGCTGGAAGCGGTGACCCGCAGCCTGAGCCTGGATGGCCGGGCCTCTTCAGTGGCCGGGGTTGGGGCTGCAGGTTCCGAAACTGTAGATTCCGCTGTTCAGCTGGAGCGTGTGCGGTGA	MKNFANPFHTPTHRQPTRKLRIAVVGAGYWGPNLARNLQASPEWDLVAICDLDIERAAKLAATLGEIPVVESLDELLDTFDVDAVAIATPARTHHGTVMTALRAGKHVLVEKPLADSRAHGLEMVAEAEANGLVLMADHTYCYTPAVLKMQELVQAGSLGEILFVDSVRINLGLVQPDVDVFWDLAPHDLAILDFILPGGLNPAEVSAFGADPLGTGRDCVGHLNFRLPNDATAHVHVNWLSPTKIRQMVIGGSLRTLVWDDLNPQQRLSVYDRGVSLDRQPKSPGEKKTSAISYRLGDTWSPALPEREALSQVVEELAYCIHNRREARTGGASGLRVLSVLEAVTRSLSLDGRASSVAGVGAAGSETVDSAVQLERVR				NA	NA	NA	NA	NA
D1-29_04679	996	galE1	COG1088	UDP-glucose 4-epimerase	GTGAGCGAGCTTCAGGGGGCCAACGTCCTGGTGACCGGTGGAGCCGGGACCGTGGGGTCGACCTTGGTGGACGCCCTGCTGGAAGCAGGCGTGAACCGCATTGACGTACTGGACAACATGGTCCGGGGCAGGCTGACCAATCTCGCCGGGGCGCTGGCCACAGGGCAGGTGGCTCTGGTCCAGGGAAATATCTGCAACCGGGACCTGGTGCACGACCTGACCAGGGGCAAAGACCTCGTCTTCCATCAGGCGGCCATCAGAATTACCCAATGCGCCGAGGAACCCCGGCTTGCCCTGGAGGTCCTGGTTAACGGAACCTTCAACGTTTTGGAAGCTGCCGCCGAACACCAGGTTGACAAGGTGATAGCGGCCTCAAGCGCCTCGGTGTACGGCATGGCGGAAGAGTTTCCCACGCCTGAGCGCCACCATCACGCCAACAATGACACGTTCTACGGAGCCGCCAAGTCCTTCAATGAGGGGATGGCCCGCAGCTTCCACGCCATGACCGGGCTGGACTACGTGATGCTCCGCTACTTCAACGTTTATGGACCCCGGATGGACGTCCATGGCCTGTACACCGAGGTACTGGTCCGGTGGATGGAGAGGATCGCGGACGGCGAACCGCCCCTGATCTTTGGCGATGGGCTGCAGACCATGGACTTTGTGTATACCGCCGACGTGGCCAGGGCCAACGTCCTGGCGGCCGGCAGCGACGTCAGCCATGGCATCTACAACATCGCCAGCGGAACCGAAACAAGCCTGCTGGACATGGCACGCACGCTGCTCCGGGCCATGGGCTCTGAGCTGGCCGTGGAGCACGGCCCGGCGCGTCTGGTGAACAGTGTGGTCCGGCGGCTCGCCGACACCACCGCAGCCCGGCGCGATCTGGGATTCGAAACCGAAGTGGGGCTCGAGGAAGGGCTCCGCGAACTCGTCAGCTGGTGGGAGCCATTGCGGGACGAGATCGCCGCAACCAGGAAAGTTGGTGCCCGATGA	MSELQGANVLVTGGAGTVGSTLVDALLEAGVNRIDVLDNMVRGRLTNLAGALATGQVALVQGNICNRDLVHDLTRGKDLVFHQAAIRITQCAEEPRLALEVLVNGTFNVLEAAAEHQVDKVIAASSASVYGMAEEFPTPERHHHANNDTFYGAAKSFNEGMARSFHAMTGLDYVMLRYFNVYGPRMDVHGLYTEVLVRWMERIADGEPPLIFGDGLQTMDFVYTADVARANVLAAGSDVSHGIYNIASGTETSLLDMARTLLRAMGSELAVEHGPARLVNSVVRRLADTTAARRDLGFETEVGLEEGLRELVSWWEPLRDEIAATRKVGAR				NA	NA	NA	NA	NA
D1-29_04680	1167	arnB	COG0399	UDP-4-amino-4-deoxy-L-arabinose--oxoglutarate aminotransferase	ATGACTGCGGAAACAGTCCTTGCCCGGATCAACGTCATGAAGCCCTGGCTCGGCGACGAGGAGGCCCGTGCTTTGGCGGAGGTTGTTGCCTCCGGCTGGGTTGCCCAGGGACCCAAAGTCAAGGAGTTTGAAGCGGACTTCAGCCGCGCGCAGCAGGTGCGTCACGCCGTCGCGACCTCCAGCTGCACCTCCGCGCTGCACCTGGGGCTGGTGGTGGCCGGCGTCGGGCCCGGAGACGACGTGGTGGTGCCGTCGCTGTCCTTCATTGCCACAGCGAACGCCGTGGCGTATGTGGGGGCCCGGCCCGTGTTCTGCGACGTCGACCCGGCCACCGGCAATGTGACCGCAGAGACGATCCACGCGGCATTGACCCTGGATACGCGGGCGGTCATCGTGGTGGACCAAGGCGGCGTACCCGTTGATCTGGACCCCATCCGGGAGCTGTGCAACCGGCACGAACTCACCGTCATCGAGGACGCGGCATGCGCCGTCGGGTCCACCTATAAAGGCAGGCCGGTGGGGACCGGGGCGGATGTGGCGGTGTGGTCGTTCCATCCGCGCAAGATCCTTACCACCGGCGAGGGCGGGATGCTGACCACCCACCGCGCTGATTGGGCGGCCCGGGCCAGGACATTGCGGGAGCACTCCATGAGCGTTTCCGCCACCGACCGCCACGGGTCCTTGCTGGCCCCGCCGGAGGTGTATCTGGAGATTGGCTTCAACTACCGGATGACTGACCTGCAGGCCGCCGTCGGGATTGTGCAGCTGGGCCGGCTCCATCAGATAGTGGAACGGCGGCGGGAGATCGCAGACCAGTATGTCGCCCGTCTCTCAGGCTTGAAAGGCCTTCGGTTTGTTGCCGACCCGCCATACGGTGCCACCAACTTCCAGTCTTTCTGGCTCGAGGTCCTGCCGGCCTTCCCGGTTGACCGTGAAGGGCTGCTGGCCCGGCTGGCCGATGCCGGCATCTCAGCCCGCCGCGGGATCATGGCGGCCCACCGGCAGCCGGCTTACCGCTGGCGCGACACCGGTAACGCCGCGCTGCAGAACACGGAGCGGCTCACCGACAGGACCCTGATCCTCCCGGTCTTCCACGAACTGGATGCATCGGGGCTGGACCGGGTCATTGCCTGCATCCGTGCCGCGGCCGGCGAGGTGGGAACGTGA	MTAETVLARINVMKPWLGDEEARALAEVVASGWVAQGPKVKEFEADFSRAQQVRHAVATSSCTSALHLGLVVAGVGPGDDVVVPSLSFIATANAVAYVGARPVFCDVDPATGNVTAETIHAALTLDTRAVIVVDQGGVPVDLDPIRELCNRHELTVIEDAACAVGSTYKGRPVGTGADVAVWSFHPRKILTTGEGGMLTTHRADWAARARTLREHSMSVSATDRHGSLLAPPEVYLEIGFNYRMTDLQAAVGIVQLGRLHQIVERRREIADQYVARLSGLKGLRFVADPPYGATNFQSFWLEVLPAFPVDREGLLARLADAGISARRGIMAAHRQPAYRWRDTGNAALQNTERLTDRTLILPVFHELDASGLDRVIACIRAAAGEVGT	PGPT0022785_621	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
D1-29_04681	660	lpxD_2		UDP-3-O-(3-hydroxymyristoyl)glucosamine N-acyltransferase	GTGAGCGAACTGATCCTGATCGCGGCGAGCGGACTTGCCCGCGAAGTCCTGGCAATGGTGCGCAGCAGCGGCCAGTACGACGTCGTGGGACTGCTCGACGACGACAAGGAGATGGCGGGCGTCACCGTCGACGGCGCGCCCGTCCTGGGGACCATCGATGACGCCCCCAAGTACACCCACGCCTTTGTGCTGGTCTGCCTGGGATCCGGCAAGGCGCGTGAGGCGGTGGTGGACCGGCTCACCGCGATGGGCCTGCATGAGGCCCGCTACGGTACGGCGATCGACCCCAGCGTGCAGTGCCCCGAAGGCTGCCGGATCGGCAGGGGCAGCATCCTGCTGCGGAACGTCACGCTGACCGCGTCCGTCACCCTGGGACGGCACGTAGTTGCAATGCCGTCAGTGACGTTCACGCACGACGACGACGTGGCTGACTTCGCCACGTTTGCCGCCGGTGTCTCGCTGGGCGGCGGAGTCCGGATCGGCAGGGCTGCCTACCTCGGGATGAATTCCAGCGTCCGCGAGAGGACATCTGTGGGAGCGTACGCCACAGTGGGCATGGGTGCCGCCGTCCTGAGCAACGTCCCGGATGGCCAAACCTGGGTGGGGGTACCGGCCCACGAAATGGACAACGGAACCTTCAGCTTTGGGAGCGCACGATGA	MSELILIAASGLAREVLAMVRSSGQYDVVGLLDDDKEMAGVTVDGAPVLGTIDDAPKYTHAFVLVCLGSGKAREAVVDRLTAMGLHEARYGTAIDPSVQCPEGCRIGRGSILLRNVTLTASVTLGRHVVAMPSVTFTHDDDVADFATFAAGVSLGGGVRIGRAAYLGMNSSVRERTSVGAYATVGMGAAVLSNVPDGQTWVGVPAHEMDNGTFSFGSAR				NA	NA	NA	NA	NA
D1-29_04682	1191	desV		dTDP-3-amino-3,4,6-trideoxy-alpha-D-glucose transaminase	ATGAGTGCGGGGATGCCCGTCTGGGCGGACGCCGGCACTGCTGAGGCCCCGGCTCTGTTTGTGTTGCCTGGAGCACCAGTGCCGCTGGTTGATCTCGCTGCCCAGCAGGCAGAGGTCAACGACGAGGTGATGGCCGGGGTGCGGGAAGTCCTCGCCCGGGCGGCCTTTATTGGCGGTCCAGCCGTAGCCGGCTTCGAGGCCTCCTACGCGCGCTTCGTCGGTGCCCGCCATTGTGTGGGGGCGGCAAATGGCACCGATGCGCTGGAACTGGCACTGAGGGCATCTGGTGTTGTTTCGGGTGGCGAAGTCATTCTTCCGGCCAATACTTTTATTGCCACCGCTGAAGCGGTGAGCCGCATTGGCGCAGTGCCTGTTCCGGTCGACGTCGATCCTGAGTACCTGCTGATCGATCCAGAGGCCGTCGCGGCCGCCGTGACGTCCCGGACCCAGGCAATCGTCCCCGTGCACCTGTTTGGGCAGACGGCCTTTGTGGAACGCCTCATCCCGATTGCTGCTGCCTGCGGAGCTGTCATCGTGGAAGATGCCGCGCAGGCGCAGGGCGCCAGCCGGTTTGGCCGTTCTGCGGGAACGCTGGGTTTGGCAGCCGGGACAAGCTTCTACCCAGGCAAGAATCTCGGAGCTGCCGGGGATGCAGGGGCCGTTCTGACGGACGACGCCGGCATTGCCGACAGGGTACGCCTGCTTAGCGCTCACGGCAGCTCACAGAAGTACGTGCACGACGCCGTGGGGTTCAACTCCCGGCTGGACGCCATCCAGGCCGTGGTGCTCAGTGCCAAACTGGCCAAACTGCAGACCTGGAACGCGATGCGTCGCGCAGCAGCCGCCCGCTACTCCGAGCTTCTGGCTGATATCCCTGGGCTTGAACTCCCCCGTGAAGCACCTGGCAACAGGGACGTGTGGCACCTCTACGTGGTGCGGGTGGCCGAACGGGATGCGGTTTTGCAGGCTCTGCACGCTGCAGGCATCGAGGCCGGAGTCCACTATCCGGTCCCGGTACACCTCAGCGGAGCCTATGCCGATCTTGGCCTGGGCAGGGGCTCGTTCCCGGTTGCCGAAGCGGCCGCGGCGAGGATCCTCTCACTCCCGCTCTTTCCGCACATAACGCCGGAACAACAGGTGCGCGTGGTGGAGGCGCTGCGGAGGACGCCGGCAGCGGTGGACGGTGCCTAG	MSAGMPVWADAGTAEAPALFVLPGAPVPLVDLAAQQAEVNDEVMAGVREVLARAAFIGGPAVAGFEASYARFVGARHCVGAANGTDALELALRASGVVSGGEVILPANTFIATAEAVSRIGAVPVPVDVDPEYLLIDPEAVAAAVTSRTQAIVPVHLFGQTAFVERLIPIAAACGAVIVEDAAQAQGASRFGRSAGTLGLAAGTSFYPGKNLGAAGDAGAVLTDDAGIADRVRLLSAHGSSQKYVHDAVGFNSRLDAIQAVVLSAKLAKLQTWNAMRRAAAARYSELLADIPGLELPREAPGNRDVWHLYVVRVAERDAVLQALHAAGIEAGVHYPVPVHLSGAYADLGLGRGSFPVAEAAAARILSLPLFPHITPEQQVRVVEALRRTPAAVDGA	PGPT0010900_10	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-ERYTHROMYCIN_METABOLISM,PGPT0010900-erCI|desV-K13310	NA	NA
D1-29_04683	1563	wzxC	COG2244	Lipopolysaccharide biosynthesis protein WzxC	ATGACCGATGAGTCCAAGGTCCGGGTGACGACGCAGGAGGCCCTGCCCCGCCAGCACAAAAAGGCTGCTAATTCCAACGCCGCTTTGGGTTCAGCGGTAAGACGCGGGGCCCTGTGGACAGCAGGCAGCACAGTGCTGCTACGCCTGGGCAACATCGCACTTATGGCAGTCGTGGCCAGAATCGTGTCACCAAGGGAACTGGGGATCTTTACGCTCGCGGTAACGGTTCATGCGGTGATCGTGAGTGTCGCGGAGCTCGGAGCGGCCTCTGCTATTGCACGATCCGACTTGGACCTCGGCCGCATTGCCCCTACCGTAGGCTTGATTTCAATCGTCAGCAGCCTCGCTATGGCTGCACCAATGTTCATCTTCGCTGACAGCATCGCTGAGGTACTTGGCACGGCAGAAGCTGGACCGTCCATGAAGATCATGGCCATCGGAGTGGCGCTCATCGGCCCGTTTGCCGTACCCGGAGCCCTTCTTCAGCGGGATTTCCGTCAGCATGTGATCTTCTGGGCCTCCGCCATCGCCTTCGTGCCCGGCAGCGCCACTTTGCTGCTCCTTGCCCTGCAAGGCAGCGGTCCCGAGTCCTTCGCTTGGTCACGGATTGTGGGCCAGGTGGTAATGGGCGCGATCATCCTGGCGGCAACCGGCAGGCCATTGATGCCCCGGCTGGACCTTAGCGTGCTCAGACCGCTCCTCGCCTTCGGGCTGCCACTGGCGGGGGCGAACCTCCTAAGCCAAGTGCTGCTGAACGCCGACTACCTATTCATCGGACGGATGTTGAGCGCCACCGAACTTGGTATCTACTTCCTTGCCTTCAGTATTGCTATGTGGCCCACGGCAGTGATCGGCTCGATGCTGAACGGGCTCGTGCTACCCGCCATCTCCGCGGTCCGCCGCGACGGCGGGGATGTAGCGGGAGCCGTCAGGTTGGGAGTACGGACCGTTGCTCTCATCGCGTTCCCTTTGGCGGCGTTCCTTTGCACGTTCTCGGCTGCGTTGGTGGAAACGATCTACGGGACGGCGTGGCTGCCGGCTGCACGGGTGCTTTCCGTGCTGGCCATCTATGGTGCGGTGTCGGTCGTGGGACTCTTCCTGGCCAACGTCATCATCGCCACCGGACGCACCGGTGTCCTGCTCGGGGTCCAGGTCTGCGCCCTGGCGGTGCTTCTGCCGGGCCTTCCGTCGGCTATCAACTTGGGCGGCATCGAGGGTGCTGCACTCACGCATGTCATCGTCATCGTGGCCGTCACTTCACCGGTTTACGTGGTTGCCCTGAGGCGCTCCACCGGACTCCGGATCCCCGAACTCCTGGCGGCGCTATCTCTTCCCACGGGGACAGCCGCGCTGACGGCACTGGTCGCGTGGGCGGCCACGCTTGGCCTTGAGGACCCGCTGCTGAAACTCATCGTCGCAGGCATTATCGGCCTGTGCCTCTACATGTCACTCAACTGGCGGGACATATCCTCGCTGGTCCCAGCCAAACTCATCACCCGTCTCCCACGGGCGAAAAGCCGCTTCTTCGGCCGTACAGGCGGTCCAAAGAGGAGTTCACTATGA	MTDESKVRVTTQEALPRQHKKAANSNAALGSAVRRGALWTAGSTVLLRLGNIALMAVVARIVSPRELGIFTLAVTVHAVIVSVAELGAASAIARSDLDLGRIAPTVGLISIVSSLAMAAPMFIFADSIAEVLGTAEAGPSMKIMAIGVALIGPFAVPGALLQRDFRQHVIFWASAIAFVPGSATLLLLALQGSGPESFAWSRIVGQVVMGAIILAATGRPLMPRLDLSVLRPLLAFGLPLAGANLLSQVLLNADYLFIGRMLSATELGIYFLAFSIAMWPTAVIGSMLNGLVLPAISAVRRDGGDVAGAVRLGVRTVALIAFPLAAFLCTFSAALVETIYGTAWLPAARVLSVLAIYGAVSVVGLFLANVIIATGRTGVLLGVQVCALAVLLPGLPSAINLGGIEGAALTHVIVIVAVTSPVYVVALRRSTGLRIPELLAALSLPTGTAALTALVAWAATLGLEDPLLKLIVAGIIGLCLYMSLNWRDISSLVPAKLITRLPRAKSRFFGRTGGPKRSSL	PGPT0023260_22	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-O-ANTIOGEN_BIOSYNTHESIS,PGPT0023260-wzxC|wzx-K16695	NA	NA
D1-29_04684	1164			hypothetical protein	ATGAGAGTAGGAATCATCTACCCGGTTCCGGAGCCGCTTGCAGCGGCTAACTGGTCCGGCACGCCCCACGGGATTGCCTCTGGATTCACGTCCATTGGAGCCGACGTCGTGCCGCTGGGGGTCAAGGTCCCACCGGTTCTGCACGAAGCCGTGGCAGTCCTGTCCCGGGCCACCGGCCGACGGGGCGCCGTCGCCGATCGCATGCAAATCCGGCAGTGGGCGAGGACCAATGCCCTGAAGAGCCGCATCGCCGAAGCACTGCCCCTGAACGCCGTCGTTGCCATGGGCACCGAAATGTACGACTTGGCCAGTATCCTGCCACCGGGTCTACCGGCGGCGACCTACGACGACGGGACCCTACTCCAGATGTACGCGGACCCAATGTCCGACATCAGCCAGTCCCGATTTCCAGCAGGACACGTCAGGCGTTGGGTTGACCGGCAGAAGCGGTCGAGCCAGGCCGCCCAGGTGTGTTGCGTTAGCACTGGCTGGGCTGCTGAATCGTTTGTTGCGGATTACCGTATTCCGTCACATCTCGTTGCAGTTGTAGGTATGGGGCACCGTCCGCGCCGGGCTGCTCCCGGTGTCGTCAGAGACTGGTCAGTACCCAGGTTCCTTTTCGTGGGTGTCGAGTGGCAGCGCAAGAACGGTGACGTCGTGCTGGAGGCATTCCGGGAAGTCCGGCACCGTCACCCGGAGGCCACCCTCGACATTGCCGGAAACCATCCGGCCCTGAACGTCCCCGGTGTCACCGGGCACAAATTCCTTTCCCGTACGGATGTGGCCGCGCAGGAGCGGCTGGATGGCCTTTACGCGCGGGCTACCTGCTTTGTGCTGCCCAGCCGGTTTGATCCCTCACCAATCGCCTACCTTGAAGCCGCATCTTCAGGACTGCCTGTCATCGCGACCACTAGGGGCGGGGCTGCAAGCCTACTAAAAGACGGAGCGCTTGTTGTCGAGCCCGACGACCACGACGCCCTGGTGGCGGCCATGCTCACCTACTCAGATCCGGCCGCAGCCGCCAAGGCCGGTGCGGCCGCCGCGGACAGTGCAGCTACATCGTCCTGGGCCCACGTCGCCCGCCGCATATGTGACAGCCTCGGCCTTGGTGACGGGCGCGAGAGCGTCGCAGCCATCAGAACGCAAGGAAAACGCTATGTTTAG	MRVGIIYPVPEPLAAANWSGTPHGIASGFTSIGADVVPLGVKVPPVLHEAVAVLSRATGRRGAVADRMQIRQWARTNALKSRIAEALPLNAVVAMGTEMYDLASILPPGLPAATYDDGTLLQMYADPMSDISQSRFPAGHVRRWVDRQKRSSQAAQVCCVSTGWAAESFVADYRIPSHLVAVVGMGHRPRRAAPGVVRDWSVPRFLFVGVEWQRKNGDVVLEAFREVRHRHPEATLDIAGNHPALNVPGVTGHKFLSRTDVAAQERLDGLYARATCFVLPSRFDPSPIAYLEAASSGLPVIATTRGGAASLLKDGALVVEPDDHDALVAAMLTYSDPAAAAKAGAAAADSAATSSWAHVARRICDSLGLGDGRESVAAIRTQGKRYV	PGPT0018547_725	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENVIROMENTAL_SURRIVAL	CE-BACTERIAL_FITNESS-ENVIRONMENTAL_SURRIVAL-GLYCOGEN_BIOSYNTHESIS,PGPT0018547-yqgM-K16150	NA	NA
D1-29_04685	1074			hypothetical protein	ATGTTTAGGCGCGTCCGGCAGGGCGGGGGCGACCGCCAGCCCGAGGTCCTGGTCGTCGTCCCGTGTTACAACTACGGCCGCTACCTCCAGGCTTGCGTACTGAGCCTGCTGTCCCAAGAAGGCGTTTCAGTCCGGATCCACATCCTCGACGACGCTTCAACTGATGGGAGTGACAAGGTTGCGGAAGCGATCGCTGAGCGGGACCGGCGGGTCCAGTTGACTCTACATGCCAGCAACCGCGGACACATCGCAACCTACAACGAGGGTCTCATGGTCGCCGATTCCGACTACGTAGTGCTACTGTCCGCTGACGACATGCTCGCACCCGGCGCGCTGGCACGCGCTACCGCACTGATGGATGCCTTTCCTTCCGTTGGATTGGTTTACGGCCATCCGCAAGCATTTGAAACGGAGCCTGAACCCGAGACGGGCCGGCTTCGGAACTGGTCAGTCTGGCATGGTGACCGCTGGATCGCCGCCCAGTGCAGGCGGGGAATCAGCATCATCAGCAGCCCGGAGGCGGTGGTCCGGACAGCAGTTCAGCACCGCGTGGGCTACTACAGGCCGGAGCTGCCGCATTCGGGTGATCTCGAAATGTGGCTCCGGATCGCAGACGTAGCAGGCGTAGGACGGATCAATGGACTCGACCAGGCCTACCGCCGTGTGCATCCTGCCAGCATGATGTCCACCGGATACGGCACCCTGCAGGCGGACCTGCAAGAACGCGTCAAGGCCTACGACTCATTCTTCGCCCGCACTGCACTCGATGACGCTAGAACCCAACAGCTGGGGCGCGTCGTGAAACGCCGGATGGCCATGGAGGCACTCGAATGGTCAGCGACATCATGCACGGCGGGCAACGTTCCCGCCCCTGAAATAGACGAGGCCATTTCCTTTGCCCTCGAAATCTATCCGGAGGCAGTGTCATCGCCCGCGTACCTGGACTACCTCTACCGCTCGGGGACCGCCTCAGGGCCGAGCCTGGCCAAGGCGGTGACCGCGTGGCGCGGGTCCATCCAGCGCGACGTTGGCCCGCGTATCCGGTGGCGCCAGTGGAGGAGATATGGAATCTAA	MFRRVRQGGGDRQPEVLVVVPCYNYGRYLQACVLSLLSQEGVSVRIHILDDASTDGSDKVAEAIAERDRRVQLTLHASNRGHIATYNEGLMVADSDYVVLLSADDMLAPGALARATALMDAFPSVGLVYGHPQAFETEPEPETGRLRNWSVWHGDRWIAAQCRRGISIISSPEAVVRTAVQHRVGYYRPELPHSGDLEMWLRIADVAGVGRINGLDQAYRRVHPASMMSTGYGTLQADLQERVKAYDSFFARTALDDARTQQLGRVVKRRMAMEALEWSATSCTAGNVPAPEIDEAISFALEIYPEAVSSPAYLDYLYRSGTASGPSLAKAVTAWRGSIQRDVGPRIRWRQWRRYGI				NA	NA	NA	NA	NA
D1-29_04686	906			hypothetical protein	ATGGAATCTAAAATGCGCGGCCTCGCTGTGGTTACGCCAAGCTACGCCCCCGACAGCGAACTCTGTCGCGATCTGAACCGCTCTGTCCTGCAATGGACGCCTCCGGACGTACAGCACCACATCATCGTGCCCAAGCAGGACCTGGCGCGCTTCCGGATGCTCGCCAACGACAGAACAGTCATCCACGATGACAGAGAGTTCCTCTCATCCACGATCAGGAGGCTGCCGCTGCTGAAGTTGTGGATCAACAGCCAGCGCCCCTGGCTGCCTGTCCGTGGCTGGATCACGCAGCAGCTGATTAAGCTCTCCGCCGCAGCAAACCTGGATGCGGAAGCCACGCTGCTGGTCGATTCGGACATGGTCTTCGTCTCGACGACCGGATTGAAGTCATTTCAGCAGAACGGCACGCTGGCACTCTACAGAAAGCCCGGGGCTGTCCATTCCGGGCTGCCCAGGCACCGGCAGTGGCTGGAGTCGGCACACTACCTGCTGGGCTTGGAACAGCCCGGCCCGGAGGACCTGACGGACTATATTTGCTGGCCCTGCGCATGGGATCCCGGAACCGTTCGGGCCATGCTCCGACGGGTCGAGGACGTCACGGGGCTTCCATGGCAGTCAGCGATCGCATCCCAGCTTCACTTCTCCGAGATGATGCTCTACGGCGCCTACGTTGACGGGGTCCTGGGTGGTGCACTGGCTACGACATCTTCGATGAACAGTGTCATTTACTCCGCCGAGGCGCCACTGAACCCCGCCGAAATCAACGCCCTGCTTAACAACGCCACCGGAACCGTACAGTCGGTAATGATTTCCGCCAAGTCCGGGATTGCGTACGAGGTCCGCGCGAAGGCCCTGCAGGAATACGTGGATTCCCGCCTCCGCAGCAGAAGTGGAGGCTCTTTGTGA	MESKMRGLAVVTPSYAPDSELCRDLNRSVLQWTPPDVQHHIIVPKQDLARFRMLANDRTVIHDDREFLSSTIRRLPLLKLWINSQRPWLPVRGWITQQLIKLSAAANLDAEATLLVDSDMVFVSTTGLKSFQQNGTLALYRKPGAVHSGLPRHRQWLESAHYLLGLEQPGPEDLTDYICWPCAWDPGTVRAMLRRVEDVTGLPWQSAIASQLHFSEMMLYGAYVDGVLGGALATTSSMNSVIYSAEAPLNPAEINALLNNATGTVQSVMISAKSGIAYEVRAKALQEYVDSRLRSRSGGSL				NA	NA	NA	NA	NA
D1-29_04687	1266			hypothetical protein	GTGACTTCGATCCAGCGTTTCCTCTACCGTCCTTGGCGGCTTCTGCAGACCCAAGGGACAGCCGGCGTGACCACGATTGTGGCACGACGGCTGGTGAACAAGATGAACGAGCACATGGACCTTGTCTCCGCTGAACTGCCCGTGCGGCCCGAAGACCTCGCCGACTCCAGTGCCCTGCCTCCGACAATCACGGGTGCACCTCGGTTGGGCAAACTGCGGATCGGATGGGTGTGCGCCCCGCCGGCTGGCGGTTCGGGTGGCCACACCACCCTGTTCCGGATGGTTGAGATGGCTGAGCAGCGCGGGCACGAGTGCACACTGTTCCTCTACGACAAGAACTCCGACGACGTCACCCGACATAGGGCAGTCATCAGGCGGCACTGGAAAAACCTCAAGGCAGATATCCGCAGCGCCACCACCGGAATGGACGGTATGGATGCCGTCGTCGCCAGTTCCTGGGGTGCGGCGCACGTCGTGGCTATGCGAGCCCCACGAAGGGCCAACAAGTTCTATTTCATCCAGGACTTCGAGCCCTACTTCTATCCGCGGGGTGCCCTCTACACCTTCGCAGAGGACACATACCGGTTCGGATTCACCAACATCGCGTTGGGCGAGATGATTGCTTCCAGGCTGCGGACGGAAATCGGCATCGAACCGGCCACCGTGGTGCCATTCGGCTGCGACGACGCAGAGTACCGAATATTGAGTAGGGATGGTGCGGCGGCACCACGCACTGGAGTCGTCTACTACGCCAAACGCTCAGTGGACCGGCGCGGCTACCTTTTGGCGAAACTCGCCCTTGAGAAGTTCCACCAAGACCACCCGCAACATGAGATCCATGTTTTCGGCGACCGGGTGTCCGGGTGGCCGATTCCGGTGACAAACCATGGGTCCCTAAGCCCACGCGACCTGAACGTCCTTTACAACCGGACCATTGCCAGCCTCACATTCTCCTTCACCAATATCAGCCTTGTTGCGGAGGAGCTGATGGCGGCGGGAAATGTCCCTGTCCTGAACGATCACCCCTTTGCCCGGGCGGATCTTTTCGCGCCGTACGCGATCTGGACGAGGCCGAATCCAGCAGCGATGGCTCGGGCCCTGTCCACCGCGGTAAGCGCACCGGATATCGAAGAACGGGCCCGGCTTCTCAGCGCATCAGCCCGTCGCGGCTGGACCACCACAGCAGTATCCGTGTCAGAAACCATAGAGGGCGCCTGCGCATCTCCGGGCCCGCGCAAGGCTGACGCCCAAATCCTGAGGCCGTGA	MTSIQRFLYRPWRLLQTQGTAGVTTIVARRLVNKMNEHMDLVSAELPVRPEDLADSSALPPTITGAPRLGKLRIGWVCAPPAGGSGGHTTLFRMVEMAEQRGHECTLFLYDKNSDDVTRHRAVIRRHWKNLKADIRSATTGMDGMDAVVASSWGAAHVVAMRAPRRANKFYFIQDFEPYFYPRGALYTFAEDTYRFGFTNIALGEMIASRLRTEIGIEPATVVPFGCDDAEYRILSRDGAAAPRTGVVYYAKRSVDRRGYLLAKLALEKFHQDHPQHEIHVFGDRVSGWPIPVTNHGSLSPRDLNVLYNRTIASLTFSFTNISLVAEELMAAGNVPVLNDHPFARADLFAPYAIWTRPNPAAMARALSTAVSAPDIEERARLLSASARRGWTTTAVSVSETIEGACASPGPRKADAQILRP				NA	NA	NA	NA	NA
D1-29_04688	1431			hypothetical protein	ATGGAGACGGGAAGGGCCGGGAGGGCCGGCGGAGGACGTTCAACCGCCCCCGTTGTTGTCCAAAGCCGCCCGGGGGTTCCTCTGATCATTCGGGCAACGGCCTTTTGCATCTTCTTTTTCCCGTCTTCGATGGTGTTCAAGCCCATCGGGGCTGCCGGAACAGCCCCGATGATCCTGGCCCTGATCGTATTCGGGCTGTGGGTCTGCAGTATCCTTTTCGGCCTGCATGATCCGCTGAGTGTCAGGCATCCCGGACGCCTGGCGGTGGGTGTCCTTTTCCTGGCCACTAGTGCTTCGTATGTAGCCCTGTATGCGGGGATCACCGGGGGAAGTACAGACGTTGCGCGGGCATCCGCGGACCGGTGGATGCTTCTGCTGCTGGCTAGTGCCGGTGTTGTCATAGTCCTGGGTGAGGTAGTGCGGACAATGGACGATGCCATGGTGTTTCTTCGCGCGCTGCTGGCCGGTGCCAGCTTTTGTTGCCTGGTGGCAGTGGTGCAATTCGCCTTCCAATTGAATCCGATGGAATGGTTCCGCGTTGCGATGCCCGGTTTTGACTACAACGGTGGTGACACCCCGTTTCAATCCCGCGGCGCGCTTCTTCGCGTTGCCGGCAGCACGTTCCACTCCATCGAATTGGGTGTGGTATCCGCAATGCTCCTGCCACTATCCATCTGGCGTGTGATTTACGACCGGCGCGGGCACCTGATGCGTCGGTTACTCGGTCCGGCCCTCCTAATTTTCGCTATCGCGTCCACGGTGTCCCGCTCCGGGATTCTGGGGATAATTACCGCGATGGTGGTCTTCATCCCCTTCCTTCCCCGCATTCCCCGGCTGTGGGCCCTGTTAGCCGCCCCGGTCGCGCTGGCAGGTCTGTTCCTGGGAGTGCCGGGACTGGTCAGCACGCTTACAGGCACTGTCACCACATCGGGCTCCGATCCGTCGATTACTACGCGTACCAACAACTTCCCTCGTGTGGAGGCGATGGTTTCCGAACGTCCATGGCTAGGGCTCGGCCCCGGAAACTACCTCGCGGACACAGCGGTGCATATTCTCGACAATCAGTACCTGAACGCAGTCGTCACGCAGGGCATTGTCGGGCTGGTGGCCATCATCATCTACTTGGTGCTGCCGGGCGTGAGCTCCATCATGGCCGCTCTCGCCACCCGCGATCCGCAGCTCAAGTCCTTCACCGGCGCTGTAGGCGCCGGAGCCTTGGTGGCGTCCGTGTGTTCCCTGACTTTTGACTCCATGTCCTTCCCGGTTTTTGCGCTGATCTATCCAGTTCTAGTCGGACTGGGCGGTGCGGTCTGGGTGATGGTAAAGCGCGAGAAGGATACGGATTCACAGATTGAGTTTGATTTTTCCAGACCTGTTCCGAGCACGGGATCGGGTCAGCCCCTGAGAGGAGAAAGCCCATGGACCCGATAG	METGRAGRAGGGRSTAPVVVQSRPGVPLIIRATAFCIFFFPSSMVFKPIGAAGTAPMILALIVFGLWVCSILFGLHDPLSVRHPGRLAVGVLFLATSASYVALYAGITGGSTDVARASADRWMLLLLASAGVVIVLGEVVRTMDDAMVFLRALLAGASFCCLVAVVQFAFQLNPMEWFRVAMPGFDYNGGDTPFQSRGALLRVAGSTFHSIELGVVSAMLLPLSIWRVIYDRRGHLMRRLLGPALLIFAIASTVSRSGILGIITAMVVFIPFLPRIPRLWALLAAPVALAGLFLGVPGLVSTLTGTVTTSGSDPSITTRTNNFPRVEAMVSERPWLGLGPGNYLADTAVHILDNQYLNAVVTQGIVGLVAIIIYLVLPGVSSIMAALATRDPQLKSFTGAVGAGALVASVCSLTFDSMSFPVFALIYPVLVGLGGAVWVMVKREKDTDSQIEFDFSRPVPSTGSGQPLRGESPWTR	PGPT0026055_137	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PSL_POLYSACCHARIDE_METABOLISM	CE-EPS-PSL_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026055-pslJ-K21003	NA	NA
D1-29_04689	837			hypothetical protein	ATGGACCCGATAGCCGTCGTGAGGACCATTTGGCAGCATCGAATCGTTTCGATTCCGATCCTGGTGCTGACAGCACTGGCCGCCCTGTACATCTTCGAGTTTGCACCCCGGTCCTACGAGTCATCGTCGACCTTCGCGATGATCAACCCAGACATCCCCTCGGAACTGGACATCATCAAGCACCCGGAGCTGAAGGACCTGAACAACAAGAATCCGTACCTCCGTTCCTCAGATCCATCATTGATCGTCCAGGTTCTATTGACCAGGCTCAATGACCGGTCCACGGCCGATCTGCTCGTCGAACAGGGCCTCAGCGACCAGTACACGGTCAGCCGCGGCGTGGGCGGTTTGAATGGCTTCCTGGTGGACATCACCGGAGAAGGGGAAACGCCGGAGAAGTCCATAGCCACGACGCAGGCTCTGGGTCAGCTGCTGCAGGAATACCTGCGTGAGGCTCAGAAGGTCAACGGAGCAGATGACCTCTACCTGTTTTCCGCTCTCGTGGTCGCTACCCCTGACAAAGCCAAGGAACAGTTCTCCAGCCGGCTTCGCGCCCTGATCGTTGTGTTCCTCTGCGGAGTGGTGACGATGTTTGGTTCAGTCTCAGTGGCGCGATCGATGGCGGCGGCCAGGGAGCGGCGCCTGCTGTTATCCGACGATGCAGGTGGCAGAAGAAAACGCCGCAAGAGTGCTCCCGACAGCAGCACAGTCCAAGAGCCTCCCCCCACACGCGGGTCGATGGCGCTGACCGGTCAAGCCCAAATCGATCTGGGCTTGGATGAACCCAAAACGCTGGACGCCCTGCCAGGGCATCACCTATCCGGAGTCAAGCAATGA	MDPIAVVRTIWQHRIVSIPILVLTALAALYIFEFAPRSYESSSTFAMINPDIPSELDIIKHPELKDLNNKNPYLRSSDPSLIVQVLLTRLNDRSTADLLVEQGLSDQYTVSRGVGGLNGFLVDITGEGETPEKSIATTQALGQLLQEYLREAQKVNGADDLYLFSALVVATPDKAKEQFSSRLRALIVVFLCGVVTMFGSVSVARSMAAARERRLLLSDDAGGRRKRRKSAPDSSTVQEPPPTRGSMALTGQAQIDLGLDEPKTLDALPGHHLSGVKQ				NA	NA	NA	NA	NA
D1-29_04690	1299	mshA_7		D-inositol-3-phosphate glycosyltransferase	ATGACAGTTAGGACAGTGCCTGATCTGCTGCGGATGGGATATCTTGTTCCTGAGTTTCCTGGCCAGACGCACGGTTTCTTCTGGCGTGAACTGGGGGTCCTGAGGCAGCTCGGCGTCACACCGATGGTCGTTTCAACCCGGCATCCCGGCGCGAATGCGTCCAGGAACGGGTGGGCGGAAAACGCCGAATCGAGTACCATCTACCTGGCATCGGCCTCCGTGCCGGCGTTTCTTTCCGTCGCGCGGGAACTGCGGACTCTGAAGCGCGGCAGGCTGGCAGCCGTCCTCCGTCGCGCCGCCGACATGTCAAAGGCCGGAAACGACTCGCCCCGCCATCCCGCCCGACCTCGCCAGTTCGCCGCCCAGCTCGTGTGGCTGGCCCTCGGCGCGAGGTTGTCTGGCCTGGCACGGGAACTGGGCTGGCAGCATGTGCACGTGCACTCGTGCGGCAACGCGGCCTACATTGCCCTGTACGCCCGGCTCCTCTCCGGCCTGCCTTACAGCCTGACACTGCATGGGCCGCTTAGTGACTATGGCGGCAACCAGGAGTACAAGTGGTCCAACGCCGCCTTTGCGTTCGTCATCACCAATGAACTGCACAGCCAGATCCGACAGTCCCTGGGAGCGGCCCTGCCGGCGACCGTCAAGGTGGTTCCGATGGGCGTGGATGCGAACGAATTCAGCAGGAGCCAGCCTTACGTTCCGTGGACCCCTCCCAGCGCGTTCCGGATCTTCTCCTGTGGCCGCCTGAATCCAAGCAAAGGCCACGACGTTCTCGTGGCCGCGGTAAGGAGGATGGTTGAAACCGGTGCCGACGTCCAACTGACCATCGCCGGTGAGGATGAGGCCGGCGGCAGGGGATATCGCCGGGAACTGGAGGGCCTGATTGGCCAGATGGGCCTCCGTGACCGCGTGCGGCTCCTCGGTTCCGTGCCGGGCAGTGTGATCAGAGAGGAATTGAGCCTTGCGCACGTTTTCACCTTGGCCAGCCACGCTGAGCCGCTTGGCGTAGCGATCATGGAAGCAATGTGCATGGGCGTTCCAGTAGTGGCTACAGATGCCGGTGGGGTTTCCGAGCTGGTGCTGGCAGGTCGGACCGGGATCCTCGTCAGGCCAGGTGATCCGGGAGCCCTGATGGACGGGCTAATTCAATTGATGTCTGATCCTTTGTTGTGCGCAGACCTGGGTGAAGCCGGGCGCAAGCGTGTCAGCGCCCTGTTCGGATACCGCCGGAGCGCGGAGATGCTTGCACAGCTGGCCAGGGCAGGGATGGCCGAGAATACGGAATCAATCCGGTAA	MTVRTVPDLLRMGYLVPEFPGQTHGFFWRELGVLRQLGVTPMVVSTRHPGANASRNGWAENAESSTIYLASASVPAFLSVARELRTLKRGRLAAVLRRAADMSKAGNDSPRHPARPRQFAAQLVWLALGARLSGLARELGWQHVHVHSCGNAAYIALYARLLSGLPYSLTLHGPLSDYGGNQEYKWSNAAFAFVITNELHSQIRQSLGAALPATVKVVPMGVDANEFSRSQPYVPWTPPSAFRIFSCGRLNPSKGHDVLVAAVRRMVETGADVQLTIAGEDEAGGRGYRRELEGLIGQMGLRDRVRLLGSVPGSVIREELSLAHVFTLASHAEPLGVAIMEAMCMGVPVVATDAGGVSELVLAGRTGILVRPGDPGALMDGLIQLMSDPLLCADLGEAGRKRVSALFGYRRSAEMLAQLARAGMAENTESIR	PGPT0023355_222	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_BIOSYNTHESIS,PGPT0023355-wcaL-K16703	NA	NA
D1-29_04691	1308			hypothetical protein	ATGTCCGCAAAAGCCCACCGCGTTGCCGTCCGCAAGCGGTCTGACGTCCACGTCTTTGCCCTGACAACCGTCATAGGGCTGATACTGTCTGCTGCGCTGAGTGCATGCGATGCGGTTGATGTGGGTTCGGCGGGCCCGGCCGGCAGTTCGGCATCACGGATCGGCGACCTGCCGAGGATCCCCTGGGAAGGTGGTCCAGCCTACTGGGATAGGTTCCCCAAGGCCGCTGCCGCCGGTTGGAACGATCCCTCGTTCTTTCCGATCTCTGTATTTATGGGTAAACCCGAGCACGCTCAGCAGTTGAAGGCGCTCGGTATCAACACCTACATGGGGGCTGAGCATGACGGCTCGCCGCTATCAGCCGTTACTGGCAAGGGCCTCTTTGTCCTGCCCCAGGACGAATGGTCAACGGCGGAAGTCGGCGACGATGCACGCGCCGTCGGTTGGTTCGTGTCCGACGAATGTGACATCGGTCTGGGCTGCTCGGGCTTGGACGCCGCCGCCAACCTGATAGATCAGCAACAGAAGGTCGCCAGGATACGTGGGCTCAATGACAACCGCTTCACCATGGCCAACTACTCCAATGGCGTCCTGGACACGTACTGGGCTCAGGGTTCAATGGCCGAGCTGATGAAAACAGTGGATGTAGCCAGTGTGGACAAGTATGCCTACACGAGTCCTTTCGTTGATGATCAGTTAGCTCATTCGCCGCATTGGCCAAGTGGCGTTGAACCTGCTTCCTCAGGCGCCTACGGCTGGCTGGTGGACCGGATGCGGTCTTATCAGGATCCGGCCGGCGTCCATCCCAACTGGATATTTATCGAGTCGGCACGGCCTCTCCTCCTCGAAGACGGTTCCCTCACCATTTCCCTGGAGCAAATGGAAGGCGCCGCCTGGTCAGCCATCATCCATGAGGCACGAGGACTGGCTTATTTCCAGCACAACAACGGCAGCACCTGCGGCTTCTACTCCCTGGTGGACTGCGATACCGACCGACTTAATGGGATCCGCGCCATCAATGCCCGTATACAGGCGCTGGCACCGGTACTGAACACCCAGTCTTACCAATACAACTTCAACACCACAACGGACACAATGCTCAAGGAATTCCAGGGCTCCGCATACATCTTCGCCGGCATTGGACTCACACACTCGCCGGGCCAAAAAACCTTCACCCTGCCGGCAGGTGTTACGTCCTCCATTGTTGAAGTGGTTGGTGAAAACCGGACGCTGAACGTGGTGGGCGGCCAATTCACCGACAACTTCCCGGCTGAGTACTCACACCACACCTACAAAGTGTCCCTCTGA	MSAKAHRVAVRKRSDVHVFALTTVIGLILSAALSACDAVDVGSAGPAGSSASRIGDLPRIPWEGGPAYWDRFPKAAAAGWNDPSFFPISVFMGKPEHAQQLKALGINTYMGAEHDGSPLSAVTGKGLFVLPQDEWSTAEVGDDARAVGWFVSDECDIGLGCSGLDAAANLIDQQQKVARIRGLNDNRFTMANYSNGVLDTYWAQGSMAELMKTVDVASVDKYAYTSPFVDDQLAHSPHWPSGVEPASSGAYGWLVDRMRSYQDPAGVHPNWIFIESARPLLLEDGSLTISLEQMEGAAWSAIIHEARGLAYFQHNNGSTCGFYSLVDCDTDRLNGIRAINARIQALAPVLNTQSYQYNFNTTTDTMLKEFQGSAYIFAGIGLTHSPGQKTFTLPAGVTSSIVEVVGENRTLNVVGGQFTDNFPAEYSHHTYKVSL				NA	NA	NA	NA	NA
D1-29_04692	2727			N-acetylglucosaminyldiphosphoundecaprenol N-acetyl-beta-D-mannosaminyltransferase	ATGACACTGTCAGGCTCCCTCCGAAGCCTCGTGCAGCCCGCGGCACTGCTGCGGCCGGTACGCCAACGCCCGGTCCTTTCCAAGGAAGGCGGACTGGCCAGACAGGACAGCGTCAGCGAATGGGTGAAGCTGGGGGGTGTGCCCGTCAAGTTGCTGGAACTCGATGACGCCCTTAGGACCATCGTTGACCGGGCACGGGCCGGCGGAAGCCAGCCCTTGGCTGTGGCCTCCGCGAACCTTGACCATGTGAAGCACTTCGGCCAGGACAGCCGGTGGGCCGACACCTTGGACCACCAGGCACCGGTGGAATGGCTGACGCTCCTGGACGGCTCTCCCCTGGTTTCCCAAGCCGCGGTGATCACTGGGCGGAAGTGGCCGCGGCTCTCCGGAAGTGACCTTATCGGGCCATTGTTGGATGCCGCCGAAGGCGCCGGACTAAGGGTGGGTTTCATCGGCGGAACCGCTCAGTGCCACGACCTGATACGCGAAAACTTCGCCATCGATCATCCCGGTCTCACTGTGGCTGGCTGGTGGGCTCCCGAACGCAGTTCACTTGTGGACACGGCCGCTTCACGTGACCTTGCGGCCGAAATTTCGAAAGCCCGGACGGACATCCTGGTGGTCTGCCTTGGCAAACCCCGCCAGGAACTTTGGATCTCCGAGTTCGGCCACTTGACAGGAGCGAAGGTGATGCTGGCCTTTGGCGCTGTAGTGGACTTCCTTGCAGGACGTGTGCGCAGGGCTCCAGCACGGGTCAGCAACGCAGGTTTGGAATGGGCCTGGCGGCTCGCGCTCGAGCCCAGGCGGCTGGCGCGCCGCTATCTGGTGGACGGGCCGGAAGCCTACCTTAACCTCCGGCGCTGCAGTGGTATCAGCCATCCGGGAAGCGCGACGGGCGGTACCGGCCGCGGGCGTTTGACGCCTGGACAGGCTGGCACATCGCCAGTTCGCAGAATCGCGCGCGTGCAAGCGTTCTCGCCGAGAGCTGAACATACCGACGTTGCCGTTCTTGTGGTCACTTACAACAGCGAAAAAGATATCCCGATACTCCTTGAAAGTCTGAGAGTGGAGACAGAGGATCAATCAATCAAGGTCATCGTCGCGGACAATTCCCCGGCACCGTCCACTATTTTGGCTCTGACGGATCAGACTGACGTTTTCGTCTTCCAGACAGGGGGAAACGTCGGTTACGCTGCTGCAATCAACGCGGCCGTTATCAAGGCGGGCGACACCGATTCCTATCTGATACTTAACCCGGATATGCGCGTGGTGCCGGGATCGGTCCGGGCGCTGCGGGACAGGTTGGCTTCGTCCGGGGCCGGCGTGGTGGTCCCCCTATTGCTCGACGACGACGGTAGTGTCTACCCATCCCTACGCCGGGAGCCAAGCGTTTCCCGGGCGATCGGAGATGCGCTGATGGGAAGCAAGCTCCCGGGGCGTCCGGGCTGGTTGGCCGAAATGGATCTCGATCCAGAAAGCTACCTTCATGCCCACAAAATCGACTGGGCAACGGGAGCAGCCCTCCTGATCAGGCCTGAAGTGGCAAAGTTGGTGGGAGACTGGGAAGAAGGCTATTTCCTGTACTCCGAAGAAACGGACTATTTGCGGCGGGTTCGAGAGGCCGGAGCCAGTGTCTGGTTCGAACCGCTGGCACGGATGCGGCACAGCCGGGGAGGTTCGGGCAGTTCTTCCGCGTTGGACGCCCTGATGACGATTAATCGCATCAAGTATGTGCGGAAGTTCCATTCCTCGGGTTACGCACGCGCGTTCCGGGCCGCCGTGGTCCTGGCAGCACTGCTGCGTTCAGCGCTGCCGCACGGCAAGGAAATCCTTTCAATAGTAAGTCGGGAACGGCGATGGGAGCAGCTGCCACACGCCACCCGCTATCCCCAGACAGCAGCGGGCCGAGAAGCGTTTCCCGAGGGGTCCGTGATCATACCGGCGCACAACGAGGCGGCAGTCCTGCGGCGGACGCTCGAGGAACTGGCCGTCCCGTTGGCAAGCGGCGCCGTGGAAGTGATTGTGGCGTGCAACGGCTGCACTGATGGGACGGAGGCCATTGCGGAATCGTTTGCCGGTGTCCAGGTCCTCCACGTCCCTGAAGCGTCAAAGGTCGCGGCCCTGAACGCGGGGGACCGTGTGGCAACTCGGTGGCCCCGCGTATACTTGGATGCCGACATCGAGGTGCCGGCCGAAGCGCTCCGTTCCACGTTGGAACTGCTGTCCTGCGACGGGACCGTCCAGTGTGCGCGCCCCGAGTTCAGGTACGACGCCGAGGGCGCATCCTGGCCGGTTCGGGCCTACTACCGTGCGCGGAACCGCTTGCCGCAGGCTTCGGAATCAATGTGGGGAGCAGGAGTTTACGGCATAAGCCTCAAGGGCCACGAGAGACTTGGCGAATTTCCCACAGTCACTGCCGACGACTGCTACGTGGACCGCCTCTTTGACAGCTCCGAGAAGACCGTCGTCCATTGCCCGCCTGTCATCATCCGCACACCCCGGTCGACATCGGGCCTTTTAGCTATCCTGCGAAGGGTCTATAGGGGCAACGCAGAACTTAAAACAATGCCGGGCTCCGGTACCTTCCGCACTGTTGGCCAACTGCTGAGGTCAGTCAGGGGCCCTGGATCGGCGTTCGATGCCGCCGCCTATGCGGCCTTCGCCGTCCGCGGACGCCGCCTCCGCCCCGGGCCTGTCGCATGGGAGCGGGACGATTCAAGCCGCTAG	MTLSGSLRSLVQPAALLRPVRQRPVLSKEGGLARQDSVSEWVKLGGVPVKLLELDDALRTIVDRARAGGSQPLAVASANLDHVKHFGQDSRWADTLDHQAPVEWLTLLDGSPLVSQAAVITGRKWPRLSGSDLIGPLLDAAEGAGLRVGFIGGTAQCHDLIRENFAIDHPGLTVAGWWAPERSSLVDTAASRDLAAEISKARTDILVVCLGKPRQELWISEFGHLTGAKVMLAFGAVVDFLAGRVRRAPARVSNAGLEWAWRLALEPRRLARRYLVDGPEAYLNLRRCSGISHPGSATGGTGRGRLTPGQAGTSPVRRIARVQAFSPRAEHTDVAVLVVTYNSEKDIPILLESLRVETEDQSIKVIVADNSPAPSTILALTDQTDVFVFQTGGNVGYAAAINAAVIKAGDTDSYLILNPDMRVVPGSVRALRDRLASSGAGVVVPLLLDDDGSVYPSLRREPSVSRAIGDALMGSKLPGRPGWLAEMDLDPESYLHAHKIDWATGAALLIRPEVAKLVGDWEEGYFLYSEETDYLRRVREAGASVWFEPLARMRHSRGGSGSSSALDALMTINRIKYVRKFHSSGYARAFRAAVVLAALLRSALPHGKEILSIVSRERRWEQLPHATRYPQTAAGREAFPEGSVIIPAHNEAAVLRRTLEELAVPLASGAVEVIVACNGCTDGTEAIAESFAGVQVLHVPEASKVAALNAGDRVATRWPRVYLDADIEVPAEALRSTLELLSCDGTVQCARPEFRYDAEGASWPVRAYYRARNRLPQASESMWGAGVYGISLKGHERLGEFPTVTADDCYVDRLFDSSEKTVVHCPPVIIRTPRSTSGLLAILRRVYRGNAELKTMPGSGTFRTVGQLLRSVRGPGSAFDAAAYAAFAVRGRRLRPGPVAWERDDSSR				NA	NA	NA	NA	NA
D1-29_04693	1455			hypothetical protein	ATGAGATGGGCTACCAGGGTTGCCACCATAGCGCTGGGAGGTCTGCTGGCCTTGGAAGTGGCGGGATGCTCGGCTGGCGCAAACGGAGGAAGCATCCGGACGACGCATGCCACACCCCCTTCCGGAGGACAGCCCGCCGTTCAGCCCACGTCGGAAGCATTGGGCAAGGTGACTGAATTCCAGCAGATGTCCGGCCTGGGTGTGAACGCCAATGTCCACAGCTGGAATGACGGCGAGCTGAAACCCGCCATCGACAAAATCGCCGGGCTGGGGGAGGTGACCTGGCGAGTCATCATCGACAGGGCGGACTGGGAAACCGAGGAGATCCCCGGCGGCACGGAAACCATCGACTGGGACCGCTACACGCCCATCTATGAGAACGGAAAGATGGCCGACCTTTGGGACACCATCACGTACATCGACTCCAAGCCCGGGCAGCAGATCATGGTCAATGTCATGGGCGGCGTGCCGGGCTGGATGGGTGGCAACAGGATCGACGAGGCCCACGAAGATCATTGGGTACGCATGATCGCCTCCATGGTGGCCTATGGCCGCACAGTCCGGGGCCTGGACTTCACACTGCTCGGACCGATGAACGAATCGGACTGGAACGGCATCGAAGGTCCGCAGGTAGGGCCTGAGCAGTACGTGCGGATGCTCCACAAACTCATCGTCCGCCTCGACGAGCTGGACCTTGCCGATATCCGCCTCGTAGGGCCGGACACGGCGTCTGCATCTACAGGGGTCTCGAAGTACCTTCCGGCACTGGCAGAGGACCCACTTGTTGTGGAGCGGCTGGCGCACTTCGCCATCCATACCTACGACGGCGACTCGGCAGGGACGCAGCGTGCGTTGCAAGGATTGGCCAACCCGGGGCTGGACTTCTGGGTCACGGAATTTTCGGGTCCCTGCCCCGGCTGTGACAACGGATCACCCAACCCCACGGATTGGTCATCCGCCGCCGCCACTGCTGCATACGCCCTCAATCTCCTGGAACAGGGAGCCGCAGGGCTGCAGCAGTATGACGCTTGGGACGGCTACTACGAACACCACGAAAGCATGGGCTACTGGGGCCTGCTGGCTTACGACCAGACGACGGGAAACTACACACCGCGCAAAACCTATTACGTGATGCAGCAACTGATCAGCCACACCCCCCGTAACGCCGTGCGGATAGCCGTATCCTCCGACGACGAAGGCATCAGGGTGGTCGCCTTCCTCGACCAGGCGACGGGGCGCATCACATTCTTCGGGAACAACACGTCCGACAGGGATGTGGTGGCCACTTTGCACTTACCTGGGGTGGTCCAGGACATGCAGCTCGCAACATATACCACGGACGCCCGCAGGAACATGGAGGCCGGCGATCCAGCCGTCCTGACGGACGGGATAGTCACCTTTACAGCCGCTCCCGGCTCTGTCTTTACCTTGACCGGAACACCCACGAAAGGCTAG	MRWATRVATIALGGLLALEVAGCSAGANGGSIRTTHATPPSGGQPAVQPTSEALGKVTEFQQMSGLGVNANVHSWNDGELKPAIDKIAGLGEVTWRVIIDRADWETEEIPGGTETIDWDRYTPIYENGKMADLWDTITYIDSKPGQQIMVNVMGGVPGWMGGNRIDEAHEDHWVRMIASMVAYGRTVRGLDFTLLGPMNESDWNGIEGPQVGPEQYVRMLHKLIVRLDELDLADIRLVGPDTASASTGVSKYLPALAEDPLVVERLAHFAIHTYDGDSAGTQRALQGLANPGLDFWVTEFSGPCPGCDNGSPNPTDWSSAAATAAYALNLLEQGAAGLQQYDAWDGYYEHHESMGYWGLLAYDQTTGNYTPRKTYYVMQQLISHTPRNAVRIAVSSDDEGIRVVAFLDQATGRITFFGNNTSDRDVVATLHLPGVVQDMQLATYTTDARRNMEAGDPAVLTDGIVTFTAAPGSVFTLTGTPTKG				NA	NA	NA	NA	NA
D1-29_04694	5517			hypothetical protein	ATGAAGTCTGCACCTGGATTGTTCTCCCGGCGGATCCTCAAGCAGGGTGTGCCTGCCCTGATCCTCGCACTGATTGTTTCGACGCTTTCGGTCGCGGCCGACCCTTCGCTGCTGGCTCCTGCCCGTGCCGCAGGTCCGTGCGATGCGCCGGTGGTCAGCAAGGTTGCCTGCGAGAATACCCAGCCCGGCAGCCCGGCGTCTGAGTGGCAGGTGGCAGGTGCGGGCAACAGCACCATCCAGGGCTACGCGACGTCGATGAGCGTCAACGTGGGTCAGACCGTCACCTTCAAGGTTAAGACGACGGCCTCCGCGTACCGGATCGACATCTATCGGCTGGGCTACTACCAGGGGCTTGGTGCCCGTAAAGTCGCCCCCAACATTCTTCCCTCGGTACCCCTGCCGCAGGCCCAACCGAACTGCGCCACGTTCCCGGCCACAGGTTTGATCGACTGTGGCAACTGGGCTGTATCGGCGTCCTGGCCAGTGCCGGCGTCGGCGGTATCAGGTGTCTACCTGGCGCGGCTGGTCAGGACGGACAACAGCGCCGCGAGTGTTATTCCGTTTGTTGTCCGCGATGACGCCGCCAAATCCGACATGCTGTTCCAGACATCCGACACCACGTGGCAGGCCTACAACACCTACGGCGGCAACAGCCTCTACAGCTGCACCGTAGCTTGCCCCCCGGGAAACCCCCTGGCCTACAAGGCAGCCTTCAAAGTGTCCTACAACAGGCCATTCAATTCGGCGCTGGATGACCAGGGGCGCAGTTGGCTGATGTATGCCGAATATCCCATGATCCGCTTCATGGAGGCTAACGGCTACGACGTGAGCTACATGAGCGGGCTTGATGTCGCAACCAAAGCCCCGTTGCTGCTCAACCACAAGGCATTCCTGTCCGTGGGTCACGATGAGTATTGGTCCGCCGAACAGCGGACGAACGTCCAGGCTGCCCGGGACGCAGGTGTCAGCCTCGCCTTCTTCAGCGGCAATGAAATGTTCTGGAAAACGAGATGGGAACCCAGCTCTGACGGCACCAACACTGCCGGACGGACCCTGGTCTCCTATAAGGACACGCACTTCAACGGCCCTACGGATCCGGTCTCCTGGACGGGTACCTGGCGGGATCCGCGATATGGGACCTCCACCGGTGGAGGGAATCCGGAAAATGCCCTCACTGGCCAGTACTTCATGGTCAATTCCGGGACAGCAGACATAGATGTGCCTTCAGCGTTCAAACACCTTCGGTTTTGGCGGGGCACATCAATTCCAGGGATGGCTAATGGTGCTTTAGTGACCCTCGGGGATGGCTTAGGGACGCTGGGGTATGAATGGGACATAGATGCGGATAACGGCTTCCGTCCACCGGGCGCCTTCCAGCTGTCTCACACGAACAGTAATTCCGCTGAGATCTTTACGGATTACGGCTCGACTGTTCTGCCTGGTCAGCCAGCGACCCACAACCTCACTTTGTACAAGGCGAACAGCGGCGCCTTGGTGTTCGGCGCCGGGACTGTCCAATGGTCCTGGGGCCTCGACGGCTACACAACGGGCAAAGCCGTGGACCGGAACATGCAACAGGCCACGATCAATCTCTTCGCCGACATGCGGACCCAGCCGACAACGCTGATTTCAGGCCTTTCTGCAGCCCAAGCGTCTACGGACGCAACGGCCCCGACATCCAACGTGACGCAGCCGGCCACAGGGTCGACAGTTGCCGACGGCACGACCGTCACTGTATCAGGGACCGCCTCTGACGTGGGCGGCGTAGTGGCTGGCGTCGAGGTATCCACCGATGGTGGTACGACATGGCGCCGCGCGAGTGGGACCACAAACTGGACCTATACGTGGAACGCGCACGGGAGCCCCAACTCAGTGTTGCGGTCCCGGGCTGTGGACGACAGCGGCAATCTGGGGCCGGCCTCCTCAGGGAGTGTTGTCAATGTTTCCTGCCCCTGCTCGCTTGTGGGAGCAAATCTTGTTCCAGCGAATACGGACGCCGGTGACCCTGGCTCGATCGAGATTGGCGCGAAGTTCTACTCCGACGTCCCCGGTACCATCAGTGCAGTCCGTTTTTTCAAGTCCACCAGGAACACCGGCACCCACATCGGCAGCGTCTGGAGTGAGTCGGGCCAAAGGCTGGCCAGTGCCACGTTCACCGCTGAATCCGCCACTGGCTGGCAGACCGCCACGCTGTCGCCGCCCTTGATTATTGCTGCGAATACCAAATACGTGGTTTCCTATTTCGCACCGTCCGGCCACTATGCCCAGAATGTTGGCTACTTTTACAACAACCCTTCTCCATCCGGGGGGTCAAACAGCACAGACAGTGCTCCGCTTCACTTCACGAGAAGTACTCCGGGGGCACCCAATGGCTTTTACCGCTACGGCTCCACGTCCAGTTTCCCGAACCAGGTTTTTGATGCCGAGTACTACTGGGTGGACGCATTATTCACTCCGTCGGGAACAGTTGCTCCTGCGGTTTCATCAGTCTCTCCAAGCCCCAACGCTTCAAATGTCGACTTGGCCGTCAAGCCCTCTGTTACCTTCAACCAGGCAGTGACTGCGTCGTCGGTGGTGTTCACACTGAAGAATTCGGCGGGCACTACCATCGCAGGTTCACTGGCCCACGACTCGACAAAGAACACATCCACTTTTACTCCGGCGAGTGCTCTGGGCAATGGTACGGCTTACACGGCAACAGTCAGTGGGGCTAGGAATGCGGCAGGGGAAACGATCGCCGCGCCGTATTCGTGGTCTTTCACGACAGTTGCGGAGCCCGCTGCTCCTGAGGTGACCGCGGTTTCGCCGGCGACCAACGCCGCTGGCGTCGCTGTAGATGTGAAGCCGGCGGTCACCTTCAACCAAGGGGTGATTGCCTCATCCGTCGTCTTCGGGCTCAAGGACGCAGCCGGGTCCGCCGTCAGTGGTTCGACCACCTATGACGCCTCGTCCAGCACTGCTACGTTCACTCCGGCTGCCGCGCTGGCATACAGCACCAACTACACAGCGACAGTAAGCGGTGCCACGAACGCATCCGGCCAGCAGATGGCCGGTCCGCATTCCTGGACGTTCGGTACAACTGCTGCGCCGCCGAGCTGTCCGTGCACGGTGTTCAGCCCTACCTCCGTGCCTGCTGTTCCAGCCGACAGCGATTCTAACGCTGTGGAGCTAGGTATGAAGTTCCGCTCCGACGTAGCCGGCAGCGTCACCGGAGTTCGGTTCTACAAGGGCACCTCCAACAGCGGTACCCACACCGGGCACCTCTGGTCCAACACCGGATCACTCCTTGCATCAGTTACGTTTGCGGGAGAGACCGCCTCCGGCTGGCAGCAGGCAGACTTCTCGACTCCGGTGAAGATTACCGCGAATACTACTTACGTAGTTTCCTACCACGCACCGAACGGCCGCTACGCGGCGAACAGCGGATACTTCGGCAGCTCCGCCGACAGGGCGCCGCTGCATGGCCTGGCAAGCGGCGTCGACGGACCAAATGGCGTCTACAGGTACGGAAATTCGGCATTCCCCACGGACAGCTACAACAATACGAATTACTGGGTGGACGTGGTCTTTAGTGCGACGGCCACTACGACGGCCCCATCTGTGACGACCGTTGCACCCGCGGCCGGTGCCACAGGCGTTGCCGTAGACGTGAAGCCGACGGCGGCCTTCAATCAGCCCGTGACGGCATCCTCGGTGGTGTTCACCCTGAAGGACCCAGCCAACGCGGATGTAGCCGGCTCTACGTCATACGACGCCGGCGCAAACACAGCGACGTTCACGCCGTCCGCCTCCCTGTCCCACAACACCACGTACACGGCAACGGTTAGTGGTGCCACCAACGCCACCGGCCAGACTATGGGCGGGCCTTACGCTTGGGCCTTCAGTACAACTGCGGCGGCGATACCACCGGCCGTCTCTTCCTCAACTCCGGCAAACAACGCTACGAACGTGGCTGTTGCCGTGGAACCGACTGCGACGTTTAACCAGGCGGTGACTCCATCCTCCGTCGCCTTCACTTTGAAGGACGCTGCTAACGCGGCCGTTTCGGGCACCGTAGCTTACGACGCGGCCACATCCACCGCGACTTTCACGCCACGCTCCGCACTCAGCTACAGCAGCACCTACACAGCAACGGTCAGTGGTGCAGCAAACTCCACTGGGCAAAGCATGAGCGCGCCACACTCCTGGGCCTTTTCGACGGCATCAGCCCCCGCCGCCTGTCCATGCACAGTGTTCAGTCCAGATGCGGTCCCCGCCACGGTCTCAACCGCGGATAACAACGCTGTGGAACTCGGTATGAAGTTCCGCTCCGATACTGCCGGCACAGTTGCCGGCGTACGGTTCTACAAAGGAGAACTAAATACAGGGACGCACACCGGGCATCTCTGGTCCTCGACAGGAACACTCCTGGCTTCGGTAACTTTCGCCGGAGAGACAGCAAGTGGATGGCAGCAGGCACTCTTCTCATCACCTGTTCCGATTGCCGCAAACACCACCTATGTTGTTTCGTACTTCGCACCCGACGGATTCTATTCATCGAGCAGCGGGTACTTCTCATCCGCCGTTGACCGGGCGCCGTTGCATGGCCTGGCGAGTGGAACCGATGGACCCAATGGCGTCTACCGGTATAGCGCAACGGCCTTCCCAACCGAAAGTTTTAACAGTACGAACTACTGGGTAGACGTGGTCTTCAACGCCAGCACGTCGGGAGTAGCGCCGGCAGTAACCGCCGTTTCACCAGCAAGCAACGCAACGGACGTATCACAGGGTGTGCGCCCTACGGCCACTTTCGACCAAGCGGTGACGGGATCGTCGGTGGTCTTCGGTCTAAAAGATGCCACGGGAACTGTCGTACCCGGGTCAACCGCCTATGATCCGGCGACGAATACATCCACATTCTCGCCTGCTGCGGCACTAGCGTTCGGTACCACTTTCACGGCTACCGTCAGCGGCGCAACGAATGCCGCCGGCACGGCAATGACTGCGCCTTACTCCTGGACTTTCACCACCAAGGCTGCCCCGGCAGCCTGTCCGTGCAGCGTTTTCAGTCCCGCCGCCGTTCCAACCGTTGCCAACTCCAACGACAGAAAGGCCGTGGAGGTGGGCATGAAGTTCCGTTCCGATGTAGCCGGAACGGTAACGGGAGTCCGGTTCTTCAAGGGCAGCTCCAACACAGGAACGCATGTTGGCCACCTCTGGTCATCGACCGGTGCCCTGCTTGCATCCGTCACCTTTACGGGCGAAACAGGCTCCGGCTGGCAGCAGGCGCTGTTCGCCACGCCCGTCCCCATCGCAGCAAACACAACTTATGTTGTCTCTTATCACGCACCTGTGGGCTTCTACTCATCGACTAAGGACTACTTCAGCGGTACATCTGCGGACAACCCTCCGCTGCACGGGCTGGCCAGTGGCGTCGATGGAGCAAATGGTGTCTACCGCTACGGTAGCGCGGCCTTCCCAACGGAAAGCTTCAAAAATACCAACTACTGGGTCGACGTCGTTTTTACCCGTTCCTAG	MKSAPGLFSRRILKQGVPALILALIVSTLSVAADPSLLAPARAAGPCDAPVVSKVACENTQPGSPASEWQVAGAGNSTIQGYATSMSVNVGQTVTFKVKTTASAYRIDIYRLGYYQGLGARKVAPNILPSVPLPQAQPNCATFPATGLIDCGNWAVSASWPVPASAVSGVYLARLVRTDNSAASVIPFVVRDDAAKSDMLFQTSDTTWQAYNTYGGNSLYSCTVACPPGNPLAYKAAFKVSYNRPFNSALDDQGRSWLMYAEYPMIRFMEANGYDVSYMSGLDVATKAPLLLNHKAFLSVGHDEYWSAEQRTNVQAARDAGVSLAFFSGNEMFWKTRWEPSSDGTNTAGRTLVSYKDTHFNGPTDPVSWTGTWRDPRYGTSTGGGNPENALTGQYFMVNSGTADIDVPSAFKHLRFWRGTSIPGMANGALVTLGDGLGTLGYEWDIDADNGFRPPGAFQLSHTNSNSAEIFTDYGSTVLPGQPATHNLTLYKANSGALVFGAGTVQWSWGLDGYTTGKAVDRNMQQATINLFADMRTQPTTLISGLSAAQASTDATAPTSNVTQPATGSTVADGTTVTVSGTASDVGGVVAGVEVSTDGGTTWRRASGTTNWTYTWNAHGSPNSVLRSRAVDDSGNLGPASSGSVVNVSCPCSLVGANLVPANTDAGDPGSIEIGAKFYSDVPGTISAVRFFKSTRNTGTHIGSVWSESGQRLASATFTAESATGWQTATLSPPLIIAANTKYVVSYFAPSGHYAQNVGYFYNNPSPSGGSNSTDSAPLHFTRSTPGAPNGFYRYGSTSSFPNQVFDAEYYWVDALFTPSGTVAPAVSSVSPSPNASNVDLAVKPSVTFNQAVTASSVVFTLKNSAGTTIAGSLAHDSTKNTSTFTPASALGNGTAYTATVSGARNAAGETIAAPYSWSFTTVAEPAAPEVTAVSPATNAAGVAVDVKPAVTFNQGVIASSVVFGLKDAAGSAVSGSTTYDASSSTATFTPAAALAYSTNYTATVSGATNASGQQMAGPHSWTFGTTAAPPSCPCTVFSPTSVPAVPADSDSNAVELGMKFRSDVAGSVTGVRFYKGTSNSGTHTGHLWSNTGSLLASVTFAGETASGWQQADFSTPVKITANTTYVVSYHAPNGRYAANSGYFGSSADRAPLHGLASGVDGPNGVYRYGNSAFPTDSYNNTNYWVDVVFSATATTTAPSVTTVAPAAGATGVAVDVKPTAAFNQPVTASSVVFTLKDPANADVAGSTSYDAGANTATFTPSASLSHNTTYTATVSGATNATGQTMGGPYAWAFSTTAAAIPPAVSSSTPANNATNVAVAVEPTATFNQAVTPSSVAFTLKDAANAAVSGTVAYDAATSTATFTPRSALSYSSTYTATVSGAANSTGQSMSAPHSWAFSTASAPAACPCTVFSPDAVPATVSTADNNAVELGMKFRSDTAGTVAGVRFYKGELNTGTHTGHLWSSTGTLLASVTFAGETASGWQQALFSSPVPIAANTTYVVSYFAPDGFYSSSSGYFSSAVDRAPLHGLASGTDGPNGVYRYSATAFPTESFNSTNYWVDVVFNASTSGVAPAVTAVSPASNATDVSQGVRPTATFDQAVTGSSVVFGLKDATGTVVPGSTAYDPATNTSTFSPAAALAFGTTFTATVSGATNAAGTAMTAPYSWTFTTKAAPAACPCSVFSPAAVPTVANSNDRKAVEVGMKFRSDVAGTVTGVRFFKGSSNTGTHVGHLWSSTGALLASVTFTGETGSGWQQALFATPVPIAANTTYVVSYHAPVGFYSSTKDYFSGTSADNPPLHGLASGVDGANGVYRYGSAAFPTESFKNTNYWVDVVFTRS				NA	NA	NA	NA	NA
D1-29_04695	1374	apeB	COG1362	putative M18 family aminopeptidase 2	GTGGGGCCGTGGCCCGGCACTAGACTCGAGACCATGCCTTTGCCTTCCACCGCCGCTGACCACATCCAGGACCTCGGCGCATATGTCAGCGCCTCGCCGTCGAGCTTTCACGCCGTCCACGAAGCCGCCCGGCGGCTGGACGAGGCCGGCTTCACGGGGCTCGACGAACGCGAGCCCTGGGAGGGTGGGACTTCGGACGGCAAGGCCGACCGGTTCTACATCGTCCGTGATGGCGCCCTCATCGCCTGGGTGGTTCCGCAGGGGGCAGGCCCCACCACCGGCTTCAACATTGTGGGTTCGCACACTGATTCGCCGTCGTTCAAGCTCAAGCCGAAGCCCACCATTGGCGCCCACGGGTGGCTGCAGGCCGGGGTTGAGATCTACGGTGGTCCGCTGCTGAACTCCTGGCTGGACCGCGAACTGCGCCTGGCCGGCAGGCTGGTGATGCTGGACGGCACACAGCACCTCACGTCAACCGGTCCCATGCTGCGTTTCCCCCAGCTGGCGATCCACCTGGACCGTGCAGCGAATGACGCCCTCACGCTGGACAAGCAGCGGCACATGAACCCGGTATGGGGCCTCGGGGACCCGGCCGAATTTGACCTGCTGGGGGTGCTGGCGTCCCACGTGTCCGGGGCCGACTCTGTGAACGCGGCTGAGATCGGAGGGTACGACGTCGTTATTGCAGACACGCAGGCCCCTTCGGTTTTCGGCGCCAACAGTGAGTTCTTTGCCGCCGGGCGGCTGGATAACCTGTCCGCCACGCACGCCGGGCTGATGGCACTGATTGCGCACGGCGCCGACGCGGCAGCGGACAGCACAGCGCCAAACGGTACAGCGCCCATCGCTGTCCTGGCGGCATTCGACCACGAGGAAATTGGCTCCAATTCCCGTTCCGGGGCCTGTGGTCCCATCCTCGAAGACGTGCTGGTCCGTATCTCCGACGGGCTGGGCGCGACGGCGGGCCAACGGCGTCAGGCCCTGGCGGCGTCGTTCTGTGTATCCGCGGACGCGGGCCACGCCGTGCACCCCAACTATGCGGAGCGGCACGATCCCGCCAATCATCCTGTGCTCAACGGCGGGCCCCTGCTGAAGATCAACGCCAACCAGCGCTATGCCACGGATGCCAGCGGGGCTGCTTTCTGGGCCAGGCTGTGTGGGGAGGCCAAGGTGCCGTACCAGGAATTCGTCTCAAACAATGTGATGCCGTGCGGCTCCACCATCGGCCCTTTGACCGCTACGAGGCTGGGCATCCGCACTGTGGACGTTGGGGTGCCGCTGCTCTCGATGCACTCCGCCCGCGAACTGTGCGGTGTGGATGATCCGCACGGACTGGCCAGGGTGGCGGAGCTGTTCTTCAGGACCTCTCCGTAG	MGPWPGTRLETMPLPSTAADHIQDLGAYVSASPSSFHAVHEAARRLDEAGFTGLDEREPWEGGTSDGKADRFYIVRDGALIAWVVPQGAGPTTGFNIVGSHTDSPSFKLKPKPTIGAHGWLQAGVEIYGGPLLNSWLDRELRLAGRLVMLDGTQHLTSTGPMLRFPQLAIHLDRAANDALTLDKQRHMNPVWGLGDPAEFDLLGVLASHVSGADSVNAAEIGGYDVVIADTQAPSVFGANSEFFAAGRLDNLSATHAGLMALIAHGADAAADSTAPNGTAPIAVLAAFDHEEIGSNSRSGACGPILEDVLVRISDGLGATAGQRRQALAASFCVSADAGHAVHPNYAERHDPANHPVLNGGPLLKINANQRYATDASGAAFWARLCGEAKVPYQEFVSNNVMPCGSTIGPLTATRLGIRTVDVGVPLLSMHSARELCGVDDPHGLARVAELFFRTSP				NA	NA	NA	NA	NA
D1-29_04696	885			hypothetical protein	ATGACCAATCACGAACCCCATCCCAACCACGACCGCGGCCTTGAGTTCGATCTGTCCACGCTCATGAGCCGCCGTTCGCTGGGGATGTTCCTCGGCGCAGGCGGGGCCGCCGCGGCACTGGCGGCCTGTACTCCCGGGGGATCATCGTCGGCGCCGGCCACATCATCCGCTGCGGCTACAGAAACTGCCTCCGCAACTGGCTCCCTGGCACCTTCCGCCAGTGCAACTCCCACCGTGACCCGGGCCATTGCCGAGTGTGGCGTGGAGATCCCGGAGGAAACGGCCGGACCCTACCCTGGCGACGGCTCCAACGGTCCCAATGTGCTGGAGGCCTCCGGAGTGGTCCGCCGGGACATCACCTCCAGCTTCGGGACCTCAGGGACCAAGGCCGATGGTGTGCCGCTGACCTTCACCCTGACGCTCCTGGACAACGCCAACGGCTGCGTGCCCCTGGCCGGCGCTGCCGTCTACGCATGGCATTGCGACAAGGACGGCAAGTACTCGATGTACGATTCGGGCCTGACTGACGAAAATTACCTCCGCGGTGTCCAGGAAGCCGATGCCAACGGCCAGGTCACCTTCGCCTCAATCTTCCCGGGGGCTTATCGGGGACGATGGCCGCACATCCACTTTGAAGTGTTCGAATCCATGAGCAATGCGACGTCGGCCGGCCAGGTCCTGGCTGTTTCCCAGATCGCCCTCACAGATTCCTCCTGCCGTGACGTTTATTCCAGAGCAGGCTACGAAGCCAGCGCCAGTAATTTCCCCAGCACCACCCTGCAGTCGGACATGGTGTTCCGCGAGGACGGCGGCGTCTACCAGCTCGCCACCATGTCAGGGTCTGCTGCCACGGGTTACACGGCGGGGCTCAACGTCACCATCTAG	MTNHEPHPNHDRGLEFDLSTLMSRRSLGMFLGAGGAAAALAACTPGGSSSAPATSSAAATETASATGSLAPSASATPTVTRAIAECGVEIPEETAGPYPGDGSNGPNVLEASGVVRRDITSSFGTSGTKADGVPLTFTLTLLDNANGCVPLAGAAVYAWHCDKDGKYSMYDSGLTDENYLRGVQEADANGQVTFASIFPGAYRGRWPHIHFEVFESMSNATSAGQVLAVSQIALTDSSCRDVYSRAGYEASASNFPSTTLQSDMVFREDGGVYQLATMSGSAATGYTAGLNVTI				NA	NA	NA	NA	NA
D1-29_04697	693	lnrK_3	COG2197	Transcriptional regulatory protein LnrK	ATGACCGACTCCCAACCCATCACCGTCCTCCTGGTGGATGATCAGCCGCTCCTCCGAATGGGCTTCCGCCTCATCCTTGAAGGTGAGGATGATCTCCGGATCGTTGGCGAGGCCTCCGACGGCGCCGAGGCAGTTCGCCAGGTCCGCGGGCTCAACCCCGACGTTGTGCTGATGGATGTGCGCATGCCTGTCCTGGACGGCATCGAGGCAACACGTGCCATCACCGCGTCCGGATCGTCGGCGAGGATCATCATCCTGACCACTTTTGATGTGGACGAGTATGCCTTTGCCGGCCTGCAGGCAGGTGCGTCCGCCTTCCTGCTGAAGGACGTGGCCCCGTCAGAGCTGATTCATGCCGTACGTGTGGTGGCCAGCGGCGATGCGGTGGTGGCCCCGCGGGTCACCCAGCGGCTGCTGGAAACGTACGTCCGCGGAGTGGAACGGCCGGCCAACGCTGCAGCCTCCAGGGATCCTCTCCTGGAGGACCTGACGCCCCGCGAAACGGAGATGCTGGAGGCCATGGCCGAGGGACTGTCCAATGGGGAAATTGCACACCGCTATTTCCTGTCCGAAGCCACGGTCAAGACGCACGTCCGAAGGATCCTGACCAAACTCCACCTGCGGGACAGGGTCCAGGCGGTGGTGTATGCCTACGAGACAGGACTGGTTGTCCCGAGCAACCCCGACTACTGA	MTDSQPITVLLVDDQPLLRMGFRLILEGEDDLRIVGEASDGAEAVRQVRGLNPDVVLMDVRMPVLDGIEATRAITASGSSARIIILTTFDVDEYAFAGLQAGASAFLLKDVAPSELIHAVRVVASGDAVVAPRVTQRLLETYVRGVERPANAAASRDPLLEDLTPRETEMLEAMAEGLSNGEIAHRYFLSEATVKTHVRRILTKLHLRDRVQAVVYAYETGLVVPSNPDY	PGPT0014870_122	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0014870-liaR-K11618	NA	NA
D1-29_04698	1518			hypothetical protein	ATGACCCATGCAGTGCCTGTAAAGGACGCGCCGGCCGGGCAGGCCGACGCGTCCTTTGCCGAGATCACAGCCAAGCGCCGCGGCACGATCCGCCGCTACCTCTTCCAGCACCCCCGGGTGATGGACGGGCTGGTTGCGCTCAGCTATGCGCTGCTGGTTGCCCCCACGGTAGTGGATGCCGTGATGTCCGGCAGCTGGCTGGCCGCCGCCCTCCTCCTCTTCGTGGCCGGTGGCATGTTCTTCCGGCGCTCATACCCTGTGGCCCTGGTGGCGTTTATAGCGGTGATGGAAGTGGCCGTCACCCTTCTCCATCCCTGGGGTTCCAATGTTTCCGCCGGACTGTGGTTCTCGCTGTACGCGGTGGCCGTCGTGCACACGAGGCGGTTCGCTCTGATCACGCTGGCAGTGGCTACGGCTCCGCTGGCCCTGCTGTACCTACTGGCCGCCGTCGGCCCCATGGAAAATTCCTTTGTCCACGACCCGGGAGCCAATCCGGGGGACTTCCACCTACTGACCAGCATCGCCACGGGCGCCACCATCGCGCTGTCCAACGTCATTGCCACCGGCATCGGGATCTCCGTGCGGCAGCGGCGGGAACACGAACAGGAAATCGCCGCCTGGGCGGCCCGCACCGCCAGCCTTGCCTCTGTCAACGAACGGAACCGCATCGCCCGCGAAATGCACGACGTCGTGGCGCACTCGCTGACGGTGATGATCAGCCTGTCGGACGGCGCCGCCGTCGTGGTCAGGAAAAGTCCCGACCGCGCCGGCGAAGTCCTCGGTGAGCTCTCCCGCACCGGCCGGATGGCCTTGGGCGACATGCGGCGGGTGCTGGGTGTCCTGCGGGACGACGCCCAAGGAACCGCGCCACGGCAACCGCTCGCCTCAGGAGACAGCCTGGCGAAGCTGCTGGAGGGATTCCGCACCGCCGGTCTCCCGCTGCACTACTCGCACACCGGCCCCGCGCTGCCCCAGGATGCGGCGTTCCAGCTGACGGTCTACCGGATCGTGCAGGAATCCCTCACGAATGTGCTGCGGTACGGCCGCTCGCTCAGCCGCGTGGACGTGGGCATCGTCCGCGCCGGCTCCACCGTGACCATAGACGTGCTCGACGACGGCACCGGGCTTGCTGCGCACGGCTCTTCTGAACCTGGCGGACCCGGCCCGGGTTCCTCGTTCGGATCGGTTCCGGGGCAAGGACTTGGGCTCGGCCCAGGTGTGGGGTCCGGGCAGGGGCTGGCGGGGATGGCAGAGCGTGCGCGGATCTATTCAGGCACGGTGGAGGCCGGGCGGAGCGGACACGGCTGGCGGGTTCGGGCGCTGCTGACCTGGCCCGGTGACCGGGACTCCGAGCAGCCCGGCAGCGGGAATTCCGCAGCCGGGGAACAGATCCAACAGCTCCCATCCGGCAAGGGCCAAATCGACCAGCCCCACATCCACCGGCTTCAAGTCCAGCAGCCCCGAGTCCAAGAGCCTCCAGCCCAACAGCCCCAAGTCCAACAGCAAGGTAAGGCATGA	MTHAVPVKDAPAGQADASFAEITAKRRGTIRRYLFQHPRVMDGLVALSYALLVAPTVVDAVMSGSWLAAALLLFVAGGMFFRRSYPVALVAFIAVMEVAVTLLHPWGSNVSAGLWFSLYAVAVVHTRRFALITLAVATAPLALLYLLAAVGPMENSFVHDPGANPGDFHLLTSIATGATIALSNVIATGIGISVRQRREHEQEIAAWAARTASLASVNERNRIAREMHDVVAHSLTVMISLSDGAAVVVRKSPDRAGEVLGELSRTGRMALGDMRRVLGVLRDDAQGTAPRQPLASGDSLAKLLEGFRTAGLPLHYSHTGPALPQDAAFQLTVYRIVQESLTNVLRYGRSLSRVDVGIVRAGSTVTIDVLDDGTGLAAHGSSEPGGPGPGSSFGSVPGQGLGLGPGVGSGQGLAGMAERARIYSGTVEAGRSGHGWRVRALLTWPGDRDSEQPGSGNSAAGEQIQQLPSGKGQIDQPHIHRLQVQQPRVQEPPAQQPQVQQQGKA				NA	NA	NA	NA	NA
D1-29_04699	903			hypothetical protein	ATGAGCTCAACCACCCTCGACCCCAAGCCTTCCCGCCGCGGCGCGCACGCCGGCACCGTCTTTTCCGGAAAGCTGCCCGGCGACGCCACCAGCACCGGCCCGGGCCCCTCCTTCCTCCGCGTGCTGAACTCCGAATTCATCAAGTTCCGCACGCTGCTGTCCACGCTGATCCTGCTCGGCTGCACCATCCTGGTTATGGTTGGCTTCGGAGCGCTCTCAGCCTGGGGTGTTGGCCAGTTCGCCGAGGAAGCGTTGCGTGACCCGCAAGCCGCCGCGGCCCTTGCCGCCCAGGGCGGAGACCCGGCCATCACCGTCCCCACCTCCGCCATTCCGTTCGCCCAGCTCATCCTGGGATCGCTTGGCGTACTTCTGATGAGCTCCGAGTTCGCAACGGGGATGGCGCGCTCCACCTTTGCAGCGGTGCCGAAGCGGACGCCGGCCTTCATAGCCAAACTGCTGGTGGTGATGCTGACCGCGTTCATTGTCACCGCGGTCTCGGTGTACCTCGCTGGTTTGGTGGCCCTGCCAATCCTGGACAACTACGACCTCAAGCTGGACTTGGCCAGCTCCCAGTCGGTGAAGTTGCTGCTCGTCAACAGCGTCTACGTCGCAGCCGTCGCCGCTATTGGCATGGCACTGGGCTCCTTGCTCCGGAACTCGGCCGGCGGCATCATGAGCCTCGTTGGCCTGTTCTTTGTGGCGCCGATTGCGTTCCAGCTGATTCCGGGCGACTTTTTTGTCCAGACACGCAAGTACCTGCCCGGCAATACGGTGGAGGCCATAACAGCCGTCCAGCACGCGCCCGACACCCTTGAAGTCTGGCAGGCGTCCCTGGTTCTCGGCGCCTGGGTGGTCATCCCGGTGGTGCTCGCCGCCGTCGTCCTCAAGAAGCGCGACGTTTAG	MSSTTLDPKPSRRGAHAGTVFSGKLPGDATSTGPGPSFLRVLNSEFIKFRTLLSTLILLGCTILVMVGFGALSAWGVGQFAEEALRDPQAAAALAAQGGDPAITVPTSAIPFAQLILGSLGVLLMSSEFATGMARSTFAAVPKRTPAFIAKLLVVMLTAFIVTAVSVYLAGLVALPILDNYDLKLDLASSQSVKLLLVNSVYVAAVAAIGMALGSLLRNSAGGIMSLVGLFFVAPIAFQLIPGDFFVQTRKYLPGNTVEAITAVQHAPDTLEVWQASLVLGAWVVIPVVLAAVVLKKRDV	PGPT0006730_9804	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
D1-29_04700	945	btuD_18		Vitamin B12 import ATP-binding protein BtuD	ATGATCGAGGCAAAAGGCCTGACCAAGGTGTACGGCGAGAAGACCGCCGTCGCCGGAGTCGACTTCACCGTCGAGGCAGGACGGGTGACAGGCTTCCTGGGCCCCAACGGCGCCGGCAAATCCACCACCATGCGCATGATTATGGGACTGGACCGTCCGACGTCGGGCACCGTAACCGTCAACGGCGCACCCTTTGCCCGGCACGCCGCGCCACTGCGCGACGTCGGGGCGCTGCTGGACGCGAAGGCCGTCCACACCAGCCGCTCGGCTTACAACCACCTGAGGGCCATGGCAGCCACTCACAGCATTCCCAAGAAGCGGGTGCACGAGGTCATCGAAATGACAGGCCTGGCGGAAGTGGCCAAGAAGAAGGTGGGCGGCTTTTCGCTCGGCATGGGGCAGCGGCTCGGAATTGCTGCTGCCCTGCTGGGGGATCCGCAGACCGTCATCCTGGACGAACCCGTCAACGGCCTGGACCCCGAGGGTGTGGTCTGGGTCCGGAACCTGGTCAAGTACCTGGCCTCGGAGGGACGCACCGTGTTCCTCTCCAGCCACCTGATGAGCGAAATGGCTGTCACCGCGGACCACCTGATTGTGATCGGCCGCGGCAGGATCATCGCCGATGCACCCATCCGGGACATCATCAACGGCAAGGGCCGGATCCGCACCCGCGTCCGGACCGACCAGCCGGACCAGCTGATGCAGCTGCTCGCAGGAGACGGCGTCTCTATCGAGCTGCAGGAAAACGAACTGCTCGAGGTCACCGGCCTGGACCCCCGCCGGATCGCACGCGCCGCGCTGGACAGCCACGTCATGATCTACGAACTGACTCCGCTGCAGGCAAGCCTTGAGGAGGCCTACATGGAGCTGACCAAGGATGAGGTCGAATACCACTCGCTGATCACCACGGGGGACACTGCTCCCGTCCAGTCCGGAGGCAACTGA	MIEAKGLTKVYGEKTAVAGVDFTVEAGRVTGFLGPNGAGKSTTMRMIMGLDRPTSGTVTVNGAPFARHAAPLRDVGALLDAKAVHTSRSAYNHLRAMAATHSIPKKRVHEVIEMTGLAEVAKKKVGGFSLGMGQRLGIAAALLGDPQTVILDEPVNGLDPEGVVWVRNLVKYLASEGRTVFLSSHLMSEMAVTADHLIVIGRGRIIADAPIRDIINGKGRIRTRVRTDQPDQLMQLLAGDGVSIELQENELLEVTGLDPRRIARAALDSHVMIYELTPLQASLEEAYMELTKDEVEYHSLITTGDTAPVQSGGN	PGPT0006725_7150	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
D1-29_04701	1497	yegS		lipid kinase YegS	ATGCGCAGGATATGGGGCAGAGGCCCGGGCTTAATCAGCCGCTTTGACCGGCACTTGGTCCGGGCTGTTTCCGACTTCCCCGGCGGAAACCACGACACCTTTTTCCGCCGCCTCTCTGCGTCCGCCAACCACGGCAAGCTGTGGATGGGCGCAGCCGCTGTGATGGCTGCCTTTCCCGGGAAGCCGCGGCGGGCCGCATTGCACGGACTCATTGCGCAGGCTGTGGCGTCGGCCGTGACCAATGTGGGGTTCAAGACCCTGCTGCCGCGGGCCCGTCCGCTGCCGGAACACCTTCCTGTTTTCCGGTTTGTGCATCCTCAGCCCACCAGTTCCTCCATGCCGTCCGGGCACTCTGCATCAGCGATTGCCTTCGCGGTAGGGGCAGGCCTGGTCCGACCCTCCCTGGGGATGGCCCTGGCCCCGGTGGCGGCAGGGGTTGCATACTCCCGGGTCCATACCGGCGCGCACTGGCCGTCCGACGTCGTGTTCGGTTCCGCTATTGGGGCGGGGGCAGCACTTATTACCCGAAAATGGTGGCCGGTCCGTCCTCCATTCCCTGAGACCGCCCGCAGCAGGACCTCAGCCCCGCAACTTCCCGGCGGTGAAGGACTCAGCATTGTGGTGAACACGCTGGGCGGATCCTTTACGAATGAAACCGCCGCAGCGCTTCAGGAAGTATTCCCTAAGGCCTATATAAATACTGTCGAGACGGGAGAGAAGCTGGAGGACGAGATCCAGTCAACCACCCGCTTTCCAGGAACAGTCGCCCTGGGGGTCTGGGGCGGCGACGGAACGGTGGGGACGGCAGCTGCTGCCGCCATTGAGCATTCAATGCCCTTGCTGGTCCTGCCCGGAGGCACCCTCAATCACTTTGCACGGGACGCCGGCACAGGATCCCTCAAAGCGGCTTTGGCTGCAGCAGCGAACGGCGAAGCGGCCCTTGCTGACGTAGGGATAGTTTCCGTGGAGCGCGGTCTTGCAGAAAATCCGGAGACCGCCGAGCTGGTGATGCTCAATACCGCAAGCATCGGCCTGTATCCGAACCTGGTGCGGCGCCGTGAGCAACTGCAGCCAGCGCTGGGCAAGCCGCTCGCCGGAGTCGTGGCCATGTTCCGGACTTTCGCAGCCGGAACGCCCACCACGCTGACGGTTGATGGGGTGAGGCACAAACTTTGGATTGCCTACATTGGCCGCGGCCGCTACTACCCCAGGGACCATGCTCCCCTGGTGCGTCCGGTGCTGGATGACGGCGTCCTTGATGTCCGCATGATCACCGCCGACGAATCGTTCGCCCGGCTCCGCCTGCTCTGGTCCGTCCTGACCGGTACGGTGGCCACGTCCCGGATCACGCACCTGAGCGAAGCCACCAGCCTGCGTATCGAGTCCGGCGCTTCGCCCATGGTGCTGGCCGTGGACGGCGAGGCCCTGGCCGGAGTCCGCAGGGCAGACTTCCGGGTGGAACGGCATGCGCTGACGTACTACTCGCCGGTGTCCTGA	MRRIWGRGPGLISRFDRHLVRAVSDFPGGNHDTFFRRLSASANHGKLWMGAAAVMAAFPGKPRRAALHGLIAQAVASAVTNVGFKTLLPRARPLPEHLPVFRFVHPQPTSSSMPSGHSASAIAFAVGAGLVRPSLGMALAPVAAGVAYSRVHTGAHWPSDVVFGSAIGAGAALITRKWWPVRPPFPETARSRTSAPQLPGGEGLSIVVNTLGGSFTNETAAALQEVFPKAYINTVETGEKLEDEIQSTTRFPGTVALGVWGGDGTVGTAAAAAIEHSMPLLVLPGGTLNHFARDAGTGSLKAALAAAANGEAALADVGIVSVERGLAENPETAELVMLNTASIGLYPNLVRRREQLQPALGKPLAGVVAMFRTFAAGTPTTLTVDGVRHKLWIAYIGRGRYYPRDHAPLVRPVLDDGVLDVRMITADESFARLRLLWSVLTGTVATSRITHLSEATSLRIESGASPMVLAVDGEALAGVRRADFRVERHALTYYSPVS				NA	NA	NA	NA	NA
D1-29_04702	1197	ybjJ_3		Inner membrane protein YbjJ	ATGAGCATCAATACCAGCACCACAGCCGGACCGGCCGTGAAAGCAGCAGCAATAGCGACATTTGTGGTCTTCGGAATCAACGGACTGGTTTTTGCCAGCTGGGCTGCCCGGATCCCCGCAGTGACCGAAACGCTGCACCTGACGTCGGGACAAATGGGCACGCTCCTGCTGTGCACAGCCATCGGCTCACTGATCGCACTGCCCACTGCAGGGCTCGTGGTAGGCAAGCTCGGGACGGCCAACACGGTACGGGCCGCGGGCGTCCTGGTAACGCTGTCAGGCGTCGGGATTGCCCTGTCACTCCTCGCTGAATCCGTTGCCGGTACCGCCGTTTGCCTATTCTTCTTCGGAATCGGGATTGGTCTGTGGGATGTCGCCCAAAACATTGAAGGGGCCGACGTTGAACACCGGCTCAGGCGCACCATCATGCCGCAGTTCCATGCCGCCTTTAGCGGTGGAGCGTTTGTGGGAGCGCTGATCGGGGCTGGCCTGTCCAACCTGGGAGTCGGCCTGCCGGTTCACCTGTTGGTCATTGCCGGCGCAGTGGGCCTGGTGGCCCTGCTGACCCCGCGCTATTTCCTCCCTCATCTTCCTGCCGCTGTTCCTGCCGATGGTGAACCGAAGCCAGCCAAGGGGCCCTCTGCCTGGCGAGACAGCCGGACCCTGCTGATCGGGGTGGTGGTACTGGGAGCGACACTGACCGAAGGTGCCGGCAATGACTGGATCGCCAAGGCTTCGGTGGACGGGCTCCACACCACAGAGTCCACGGGCGCCCTGATGTTTGCCCTCTTTGTCCTGGCCATGACGGCCATGCGCTTCTTTGGCGGCCGCGTCATCGACATTTATGGCCGTGTGGTTGTCCTGCGGGCCAGTATGGCGGCCGCAGCAGCCGGGCTTTGCCTGTTTGTGCTGGCCGGAAACGTGTGGCTTGCTGCCGTAGGCGCTGCGCTGTGGGGCGTCGGTGCCGCCCTGACGTTCCCCATGGGAATGTCCGCGGCGGCGGATGACCCAAAGCGCGCGGCTGCCAGGGTTTCCGTTGTATCCACTTTGGGGTATGTCTCCTTCCTGGCTGGGCCCCCGCTGCTCGGATACCTGGGCGACCTCACGGGAATCCACCTGGCGCTGCTGGCGATCCTCGCCCCCATCCTGGTGGCGCTCCTGCTGGCTGGAGCAGCCAAACCGCTGCCGTCCAAGTAA	MSINTSTTAGPAVKAAAIATFVVFGINGLVFASWAARIPAVTETLHLTSGQMGTLLLCTAIGSLIALPTAGLVVGKLGTANTVRAAGVLVTLSGVGIALSLLAESVAGTAVCLFFFGIGIGLWDVAQNIEGADVEHRLRRTIMPQFHAAFSGGAFVGALIGAGLSNLGVGLPVHLLVIAGAVGLVALLTPRYFLPHLPAAVPADGEPKPAKGPSAWRDSRTLLIGVVVLGATLTEGAGNDWIAKASVDGLHTTESTGALMFALFVLAMTAMRFFGGRVIDIYGRVVVLRASMAAAAAGLCLFVLAGNVWLAAVGAALWGVGAALTFPMGMSAAADDPKRAAARVSVVSTLGYVSFLAGPPLLGYLGDLTGIHLALLAILAPILVALLLAGAAKPLPSK				NA	NA	NA	NA	NA
D1-29_04703	774	srlR_4	COG1349	Glucitol operon repressor	ATGAAAACCGATGAGCGCCACCGGTTGATCGGGGACCTCCTGCGCGAGCGGGCAGAAGTGAGCGTTGAGGACCTGACGGCGGCCTGCGACGCCTCAGGGGCAACGATCCGGCGCGATCTTGAAGTGCTCGCAGCGCACGGCGTTCTTCGCCGGATCCACGGCGGTGCAAGGAGCCTCATCGTGGGCGGGGAGAACCCTGGCTACGGTCAGCGTGAACTTGAAGACCAGGACATCAAGCTGCGCATCGCTGCCGGTGTGGCCGGATTGCTGCGGGACCAGGAACGCGTGTGGTTGGACAGCGGCACAACCGCCACGGAAATCGCCAGGACCCTGCGGGGCCGGCATTTGACCCTGATGCCCATGTCCCTGCGTTCCCTGAATGCGGTAACAGCCGAGGACCGGAATGCCGGGCAACGCCCCTCGCTGCTCCTGCCTGGTGGGAGCCTCGTCCCGGGGGAACTCTGCTTCCGGGGACCGATGGCGGAATCGAACATCAGGTCCCTCCGCTTTGACAGCGCGGTAGTCACGCCCTGCGCCTTGAACCTCAAGGACGGGCTGCTGGCGCACGACTTGGATGACGCCGCGGTGAAGCGGGCCGGGCTGGAGTCGTCGGGGCGGGTGATTGTTGCCTGCGCCGGCTCCAAATGGAATGCCAAGGCGATGGCGCTGGTGGCCGAACTGGACCTCGTGGACGTGATCGTGACTGAAAAGAACCTCACTGCGCAGGAACTCGCGCAGCTCAAGAACCTCTCGGTGGAAGTAGTGAATGTATGA	MKTDERHRLIGDLLRERAEVSVEDLTAACDASGATIRRDLEVLAAHGVLRRIHGGARSLIVGGENPGYGQRELEDQDIKLRIAAGVAGLLRDQERVWLDSGTTATEIARTLRGRHLTLMPMSLRSLNAVTAEDRNAGQRPSLLLPGGSLVPGELCFRGPMAESNIRSLRFDSAVVTPCALNLKDGLLAHDLDDAAVKRAGLESSGRVIVACAGSKWNAKAMALVAELDLVDVIVTEKNLTAQELAQLKNLSVEVVNV	PGPT0017590_1074	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
D1-29_04704	345			hypothetical protein	ATGGCTGATGAACTGTTCAAAGACGGCAAGGTATCGGGCACCGGTGAATACCTCAATGGTGAACGGCACGGCCGCTGGACGTTCTATTTCCGGAACGGTCAGGTGAAATCTGAAGCCGGATACGCCCACGGCCAGCTGGATGGACCGTGCGTCTGGTACCGGGAGGGCGGTGGACTGCTCCAGAAAGGCGCTTTCGTCGACGGCCGGCAGGACGGCTTCTGGCAGCGCTGGCACAGCACTGGCGAACTGCTGGATGAAGGAGCCTACGACGCCGGACGCAAAGTAGGCGAATGGGTCACTTATGCAGCGGACGGCTCAGAGACCAGGCGCCGGACGTATAAATAG	MADELFKDGKVSGTGEYLNGERHGRWTFYFRNGQVKSEAGYAHGQLDGPCVWYREGGGLLQKGAFVDGRQDGFWQRWHSTGELLDEGAYDAGRKVGEWVTYAADGSETRRRTYK				NA	NA	NA	NA	NA
D1-29_04705	1728	ybiT_2	COG0488	putative ABC transporter ATP-binding protein YbiT	GTGGACAAAAACTCGTGGGGGTGTGGGCATGGGAAGATTGTTGGCGTGGCCCATATTGACATTTCCGGCATCGATTACTTCCTCTCCGACGGCACCCAACTGCTCAACGGCGTGACCTTTAAGGTCCCGGACGGCACCAAAACTGCCCTGATCGGCCCCAACGGCACCGGGAAAACCACCCTCTTCCGCATCATCTCCGGGGACCTCACCCCTGACGAAGGAGTGATCGGACGGTCCGGGAACATGGGCATCATGCGCCAGTTCGTCGGGCAGGTCCGCGACGACTCCACGGTCCGCGACCTCCTGGTCTCCGCCGCCCCTCCCGCGCTGGCAGCTGCCGCCCTCGCTGTGGACGAGTCTGAGCTCGCAATGATCGAGCACGACGACGAACCCAGCCAGATGCGTTACGCTCAGGCCATCGTCGACTGGGGCGATGCCGGCGGCTACGACGTGGAAACCGTCTGGGACGAGGTCTGCATGGCCGCCCTGGGACTGCCCTTTGACCGTGCCCAGCACCGGCCGGCGTCGAGCCTTTCCGGCGGTGAGCAGAAGCGCCTTGTCCTGGAGGCGCTGTTTGCCGGGCCGGATGAACTGCTGCTGCTGGACGAACCGGACAACTACCTGGACGTCCCCGGCAAGCGCTGGCTGGAGGACAAACTGAACGAGTCCAAGAAAACCGTCTTCTTCATCAGTCACGACCGTGAACTGCTGAACAACGCCGCCAGCCGTATAGTCACCCTGGAACCCGGCATTAATGGCGCCGGGGCGTGGGTCCACGGCGGTGGCTTCGGTTCCTATGTGGATGCCCGCGCGGACCGGAACGCGCGCTTTGAGGAGCTGCGAAAGCGCTGGGACGAGGAGCACATCAAGCTCAAGGAACTCGTCAACATGTACAAAAACAAGGCGGCGTTCCGCTCCGACATGGCCAACCGCTACCACGCTGCCCAGACGCGGCTGGCCAAGTTCCTGGAAGCCGGCCCGCCGGAAGCCCTCCCGATCGAGCAGAACGTGAAGATGCGGCTCAAGGGCGGCCGCACCGCCAAACGCGCCATTGTGGCGGAGAAACTCGAACTGACCGGCCTGATGAAACCGTTCTCCACGGAGGTGTGGTTCGGCGACCGGGTTGGCGTGTTGGGGTCAAACGGCTCGGGCAAGAGCCATTTCCTCCGGCTGCTCGCCACCGGCGGAACGGATCCTGAGCGGGAGCACGTTCCTGTGTCAGATGTTGAAATCGCCGAGGTGCCGCACGAAGGCACCGTTAAGCTCGGCGCCCGGATCCGGCCGGGATTTTTTGCCCAGACCCATGTCCGGCCCGACCTTCTGGGCAAAACCCTGCTGGAAATCCTGCACCGGGGCGACGAACACCGCTCGGGACTGGGCCGGGAGGCGGCGGCCGGAGCACTGGATGGCTACGGCCTTGCCGGGCAGTCCGAGCAGAAGTACGAGTCCCTGTCCGGCGGCCAGCAGGCGCGGTTCCAGATCCTGCTGCTCCAGCTCTCCGGGGCAACCCTGTTGCTGCTGGATGAGCCCACCGACAACCTCGATCTGCACTCTGCGGAGGCGCTGGAACGGGCCATCGACCACTTCGAGGGGACGGTCCTGGCGGTGACGCACGACCGCTGGTTCGCCCGCACCTTTGACCGGTTCCTGGTGTTCGGTTCGGACGGCCGCGTTTACGAATCGGCCGAACCGGTGTGGGACGAGAAACGGGTGGAGCGCGCCCGCTGA	MDKNSWGCGHGKIVGVAHIDISGIDYFLSDGTQLLNGVTFKVPDGTKTALIGPNGTGKTTLFRIISGDLTPDEGVIGRSGNMGIMRQFVGQVRDDSTVRDLLVSAAPPALAAAALAVDESELAMIEHDDEPSQMRYAQAIVDWGDAGGYDVETVWDEVCMAALGLPFDRAQHRPASSLSGGEQKRLVLEALFAGPDELLLLDEPDNYLDVPGKRWLEDKLNESKKTVFFISHDRELLNNAASRIVTLEPGINGAGAWVHGGGFGSYVDARADRNARFEELRKRWDEEHIKLKELVNMYKNKAAFRSDMANRYHAAQTRLAKFLEAGPPEALPIEQNVKMRLKGGRTAKRAIVAEKLELTGLMKPFSTEVWFGDRVGVLGSNGSGKSHFLRLLATGGTDPEREHVPVSDVEIAEVPHEGTVKLGARIRPGFFAQTHVRPDLLGKTLLEILHRGDEHRSGLGREAAAGALDGYGLAGQSEQKYESLSGGQQARFQILLLQLSGATLLLLDEPTDNLDLHSAEALERAIDHFEGTVLAVTHDRWFARTFDRFLVFGSDGRVYESAEPVWDEKRVERAR				NA	NA	NA	NA	NA
D1-29_04706	2100	mrdA		Peptidoglycan D,D-transpeptidase MrdA	ATGCCTATGATGACGCCCAGGATGCAGCGCGACTGGGGTGAAAGCCGCCGTGTAATGCCCTCCAGGGCCCCGCGGGACGAAGGACCTCAGAAACGGGGCATAATAGCGCGGGTGGGGAATTCAAAAAAACTGACACTTGGCATCATTGGACTTATTCTCGGTGCCTCCTTGGTGGCGTGCGATGACGGCAAAGCCGCTGCGAGGGATGCCGCCGGGCAGCTTGCGTCGGCAGTTTCCGCGCTCGACGTCGGCTCCGTCGCCTTTGACGGGAAGGACTCCGCGGCCGCCAACGAGCAGCTTCGTGAGGTTTTCAAAGCACTCGATCCGGAGAAGCCGGCGGTTCAAGCCGGTGAGGTGACGGTGGAGGGCGACACCGCCGCCGTTCCGCTGAACTACACCTGGAAAATCGATGGCGCTGAGTGGAAGTACACAGTCTCAGCCAAACTCAAGAAGTCGGGCGACAAGTGGCTGACCGCGTGGGAGCCTGCCGCGTTTGTGCCTGGCCTGGCCGACGGCGAAATCCTCACCAAGGACTCCCAGTCCCCGCCGCGAGCGGACATTCTGGGTGCGGGCGACGCCAAGCTGGTCACCTACCGTCCCGTGGTCAATGTCGGCATTGACAAGCCCCAGTTGGGATCAGCAGACCCTGCGGCGTCTGCGACGAAACTGGCGGAACTGGTGGGTGTGGATCCCGCCGCCTTCGCTCAGCAGGTGGCCGCTTCCGGCCCCGAGGCCTTCGTTTCGGCGATCACCCTTCGTGAGGAGGGCCGCACCATCACGGACCAGCAGATCACCGCGATCCCGGGTGCGCGGGCCATCCCGGCAACCCTGCCACTCGCGCCCAGCCGCACGTTCGCACGGGCAGTGCTTGGTTCTGTTGGCGAGGCCAATGCAGAGCAGATTGAAGCATCGGACGGCGCCCTGACCGCCGGTGACGTGACCGGCACGGGGGGACTGCAGCAGCAGTACGACGCGCAGCTCCGCGGTACGGATGCAGTGGTGATCCGGGCCCAGCGCGCCGGCCTCACCCGGGAAGAGATCCAGGCCACCCGCCCCGATCCCCGACGAGTTGTTTTCGAGGTGTCGCCCACACCGGGCACGCCGTTGAAGACCACCCTTGATCCCAACCTGCAGTCCCTGGCGGAGACCGTCCTGGTGAAGGTGGGCCCGGCGTCGGCCATTGTTGCCCTCCGTCCGTCTTCGGGTGCAGTCCTGGCGGCCGCCTCCGGTCCCGGAAGCAATGGCTATAACACCGCCATGCTGGGCCAGTACGCGCCCGGGTCCACCTTCAAGATGGTTGATTCGCTGGCCATGCTCCGCAACGGCATGACTCCGGATTCAAAAGTGGAGTGCACACCCAGCCTCACGGTCGATGGCCGGACCTTCAAGAACGCCGAGGGCTATCCCGCCGACTCGTTGGGCTCCGTAACGCTCCGCGATGCCTTTGCCCACTCCTGCAACACGGCGTTCATCGCGGCACGTGAGAACGTCACCCAGGCGCAGCTTGAAGCTGCCGCAATGGCCATGGGAGTGGCGGTGGAAGCCCCCGCCCTGGGTGCGGATGCCTTCCTTGGCTCGGTACCCGGTGAGGCTGCAGGCACCGAACATGCAGCCTCCATGATCGGGCAGGGCAAGGTCCTGCTGTCACCGCTGGCCGCTGCCATGATGGCCGGAGCAGTGGCCAAGGGGGCGCCGGTTTCACCGCAGCTCGTCCTGAACCCCGACGCCGGTGCTCCCGCCGCCGATACTGCCGGCGAGCCGAGCGCCGAAGCCGGGCAGCCGACGTCGACCGTTACGCCCGAGGCGCCGTCGAAGGCATCCGACAAGCCGATCACCAAGGAGGAAGCTGCGGCATTGGCGGACATGATGCGGGCCGTGGTCACCTCCGGTCATGCAGGGTTCCTGGCCAGCGTCCCGGGAGCGCCCGTGGCAGCCAAAACCGGCACCGCCGAGTTCGGCAACGAGAACCCGCCCAAAACCCACGCATGGATTGTCGCTGTGCACGGTGACCTTGCGGTGGCTGTTTTCGTGGAGGACGGCGGCCTCGGAGCGACGACGTCCGGGCCCCTGCTGAAGGAATTCCTCACCGCCGCCGGCTAA	MPMMTPRMQRDWGESRRVMPSRAPRDEGPQKRGIIARVGNSKKLTLGIIGLILGASLVACDDGKAAARDAAGQLASAVSALDVGSVAFDGKDSAAANEQLREVFKALDPEKPAVQAGEVTVEGDTAAVPLNYTWKIDGAEWKYTVSAKLKKSGDKWLTAWEPAAFVPGLADGEILTKDSQSPPRADILGAGDAKLVTYRPVVNVGIDKPQLGSADPAASATKLAELVGVDPAAFAQQVAASGPEAFVSAITLREEGRTITDQQITAIPGARAIPATLPLAPSRTFARAVLGSVGEANAEQIEASDGALTAGDVTGTGGLQQQYDAQLRGTDAVVIRAQRAGLTREEIQATRPDPRRVVFEVSPTPGTPLKTTLDPNLQSLAETVLVKVGPASAIVALRPSSGAVLAAASGPGSNGYNTAMLGQYAPGSTFKMVDSLAMLRNGMTPDSKVECTPSLTVDGRTFKNAEGYPADSLGSVTLRDAFAHSCNTAFIAARENVTQAQLEAAAMAMGVAVEAPALGADAFLGSVPGEAAGTEHAASMIGQGKVLLSPLAAAMMAGAVAKGAPVSPQLVLNPDAGAPAADTAGEPSAEAGQPTSTVTPEAPSKASDKPITKEEAAALADMMRAVVTSGHAGFLASVPGAPVAAKTGTAEFGNENPPKTHAWIVAVHGDLAVAVFVEDGGLGATTSGPLLKEFLTAAG				NA	NA	NA	NA	NA
D1-29_04707	444			hypothetical protein	ATGGAAACCATGCAGACCGGGGCCACTGCCTCCAACTCCCCTGCCTCCAACTCCCGCGCCTACAGCTCCCCCGTCTTCGACGTCTTTGAGCCCGACTGTCCCTCCCGTGTGGTCTTCCAGCGCATCGGGGACAAGTGGGCTTCCCTGGTCATCCAGGTTTTGGCGGGCGGCCCGGTCAGGTTCTCTGAACTGCGGAAAATGGTCAACTTCGTCACGCCCAAGGTTTTGACGCAGACGCTCCGGACCCTTGAGCGGGACGGGCTGATCACACGGCATGTTTTTGCGCAGGTCCCTCCCCGGGTGGACTACGAACTGACCGGCCTGGGCCGCTCCCTGCTGGAACCCCTCACCATGCTTCGCCGCTGGGCAGAGAACAATGTGCCCACCATCCTGGATGCACGTGATGCCTATGATGACGCCCAGGATGCAGCGCGACTGGGGTGA	METMQTGATASNSPASNSRAYSSPVFDVFEPDCPSRVVFQRIGDKWASLVIQVLAGGPVRFSELRKMVNFVTPKVLTQTLRTLERDGLITRHVFAQVPPRVDYELTGLGRSLLEPLTMLRRWAENNVPTILDARDAYDDAQDAARLG				NA	NA	NA	NA	NA
D1-29_04708	606			hypothetical protein	ATGAAAATTGCAGTCTATGGAGCCACAGGCATGATCGGCAGCGAGATCGTGAATGAGTCATTGACCCGCGGCCATCAGGTAACGGCCATCTCCCGCTCGGGGGCCGACGTGTCCGGCGCACAATCTGTTGCAGCCCACCTCGCAGACGAAAGCACCTTCGCGGAGATCGCCAAGGACCACGACGCCGTTGTCCTCGCGACGGGACCCAGCCGCACCGGCGGGGACCACGGCGAATGGCTCGCGGCCATGGACACCGCCTACAGCAACTCTGAAGGGACACGCCTCCTCATTGTGGGCGGGGCCGGCTCCCTGGAGATCGACGGCGTTCGGCTGGTCGATTCACCCGACTTTCCCGAAGCCTACAAAGCAGAGGCACAAACCCACGCTGTCGCACTCAACGCCGTCCGGAAGGCTTCCGAGTCCCTGGACTGGACGGTACTTGCCCCGGCTCCCCTCATCCAGCCGGGCGAACGCACGGGCACCTATGTCACCGCCAAGGACACCCCGGCAGGTGGCAGCATCTCCAGCCAGGACTATGCCGTTGCACTGCTGGACGAGATCGAAACGCCTGCCCACCGCCGGGCGCGCTTCACCGCCGCAAACTAG	MKIAVYGATGMIGSEIVNESLTRGHQVTAISRSGADVSGAQSVAAHLADESTFAEIAKDHDAVVLATGPSRTGGDHGEWLAAMDTAYSNSEGTRLLIVGGAGSLEIDGVRLVDSPDFPEAYKAEAQTHAVALNAVRKASESLDWTVLAPAPLIQPGERTGTYVTAKDTPAGGSISSQDYAVALLDEIETPAHRRARFTAAN	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
D1-29_04709	1440			hypothetical protein	ATGCCTGACGTAGCCGTTGTTGGTTCCGGCCCCAACGGGCTGGCTGCAGCCGCAGTGATGGCGCGGGCGGGCCTTTCCGTGGAGGTCTACGAGGCCGCAGACACGTTTGGCGGGGGGACACGAACTGTTGAACTGATGCAGCCCGGGCACTTCCATGATGTTTGCTCGTCCGTCCACCCCATGGCGCTGGCCTCGCCGTTCTTCCGCGATTTTGAGCTGGCCCGCCGGGTGGATCTGGTGGTTCCGGAACTTTCTTTTGGATCACCGCTCGACGGCGGCCGCGCCGCCCTCGCGTACCGCTCCCTGGACCGGACAGCTGACGGACTGGCGCAGGACGGCCCCGCGTACCGGCACCTGATGCGCCCGCTCGTGAGCCGCATCGACGGCGTCATGGACTTCACCCAGCACCAGCTCCTGCGGATGCCCCGGGATCCGCTCGCGGCACTCCTCTTTGGTCTCAGGACGCTTGAGCAGGGATCGCCGCTGTGGAATGCCAGGTTTCGGGAGGACCTCGTGCCCACGCTGCTCAGCGGAGTCGCAGCGCATGCGGTATCGCACCTTCCGTCGCTGGCGGCTTCGGCTGCCGGGTTGATGCTCACCGCGCTGGCACATGCTCAGGGATGGCCAATTCCTGTTGGCGGATCAGCCTCCATCGCGGCAGCACTCGCGGCGGACATCAAAGCCCATGGTGGAACGATCCACACAGGAACACCAATAGACAACATCAAGGACCTTGGTGCCCCCCGTGCCATTCTCCTGGACGTCGCCCCACGGGGACTGGTGAACCTGGCAGGCACGCATCTCCCCACGGCATACCGGCGGGCCCTGGAATCCTTTCGCTATGGCAACGGTTCCTGCAAAGTGGATTTCATCCTCTCCGGTCCTGTCCCATGGGCGGCCGGTGAACTGGCAGAAGCGGGGACTGTGCACGTGGCAGGAACGCGGGCCGAGCTTGCTCTCGCGGAGAACGAGGTTTCGGCTGGCAGGCATCCCGAACGGCCGTACGTGCTTGCGGCGCAGCCCTCGCCGTTTGACAGCGGCCGGGCGCCGGCAGGCAGGCACATTCTCTGGACGTACTGCCATGTGCCGGCCGGATCAGACCGGGATATGGGCGAGGCGGTCACCGCCCAGTTGGAGAGGTTTGCTCCCGGATTCCGCGACGTGGTGGTCCAGACTCATGTGACAACGGCCGCCGGACTTGCCAGGTACAACAGGAACTATGTTGGTGGCGACTTTAGCGCCGGCGTCATGGACGTGCGCGGATTGCTGCAGCGGCCTGTGGTTTCCCCCGTACCATGGCGGACACCCTTGCGCGGGATCTATCTCTGTTCCTCTTCCACGCCTCCGGGCCCGGGTGTCACCGGCATGCCCGGATTCTTCGCAGCAAAGTATGCACTAAAGGACATATTCGGGCTGCCCGTCCCGCACCTTGGCCTCTGA	MPDVAVVGSGPNGLAAAAVMARAGLSVEVYEAADTFGGGTRTVELMQPGHFHDVCSSVHPMALASPFFRDFELARRVDLVVPELSFGSPLDGGRAALAYRSLDRTADGLAQDGPAYRHLMRPLVSRIDGVMDFTQHQLLRMPRDPLAALLFGLRTLEQGSPLWNARFREDLVPTLLSGVAAHAVSHLPSLAASAAGLMLTALAHAQGWPIPVGGSASIAAALAADIKAHGGTIHTGTPIDNIKDLGAPRAILLDVAPRGLVNLAGTHLPTAYRRALESFRYGNGSCKVDFILSGPVPWAAGELAEAGTVHVAGTRAELALAENEVSAGRHPERPYVLAAQPSPFDSGRAPAGRHILWTYCHVPAGSDRDMGEAVTAQLERFAPGFRDVVVQTHVTTAAGLARYNRNYVGGDFSAGVMDVRGLLQRPVVSPVPWRTPLRGIYLCSSSTPPGPGVTGMPGFFAAKYALKDIFGLPVPHLGL				NA	NA	NA	NA	NA
D1-29_04710	1467			hypothetical protein	ATGCAGGAGACCAGACCGCCGGCGAACCGACGACGCACCCGGCTGGTGGTTCCAAGCCGCAGCGACCTGCTGCTGAGGAACTTCACCGAGCTGATCGGTGGACCAATGGGAACCCGTTCGGCCCCCGGAGTTGTTTCACCAGGGATATTTACGGTGGAGCGGGTGCTGATCATCCTGACGGTCATCGCCGCGTTGGCGGGTATTGCCATCAAAGGCTACTGCCGCGCCAACGGGTGGGAGTCCCCCAGCCAGTTTTACGCGACGTGCTACTCCGACTTCCCTGAACTCTTCCGTAACCGCGGCCTTGGGGAGGGGACGTTTCCATTCTTCAGCCAGGGAAGCCTCTTTGAGTACCCGGTCCTGATGGGCCTGATCGCCGGAGCAACAGCCCTTTTGGTTCCCGGCCAGGGGGTCAGCGATGACCGCATCCTGGGCTATTACGACATCAACGCAACCCTGATTGCCGCTGTCTGGATCGTCACCGTGCTGGCTACTGCACGAATGTCGAGCCGTCGCCCTTGGGATGCGGCGATGGTGGCGCTGGCCCCTGGAATCGTCCTCGCCGGGACCATCAACTGGGACATGTGGGCTGTGGGAATGCTGGCCCTGGGAATGTACTTCTTTTCGAAGGAACGGCTGCTGATTGCCGGGGTCCTCATGGGGCTGGGCACGGCAACGAAGGTTTATCCCGTGCTGATCTTCGGTGCGATTCTGCTTCTCGCACTGCGCACAGGCCGGATCAGGGTGTTCCTGGTGACCGCCGGGGCGGCACTGGTGTCATGGCTCGCGGTCAACGTTCCCATCGCGGCAATGAACCCCTCCGGCTGGCAATACTTTTACCAGTTCACGGAAGACCGGCCGGCCGGTTACAGCTCGCCGTGGTTCGCCTACAACCTGGTGGCGGAAAGGCTCCGCTGGCGGATCCTGGACGCCGAGAGCATCAACGCCCTGGCCCTGAACATTTTCGTGCTGGCCTGCATCGGGATAGCTGTGGTGGCACTGACGGCGTCGCGGCGGCCACGGATAGCGCAGCTGGCCTTCCTGATTGTGGCGGCGTTCATCCTCACCAACAAGGTCTACTCCCCCCAGTTTGTGATCTGGCTAATCCCCCTCCTGGCCCTTGCAAGGCCCAGATGGCGGGATTTCCTGATCTGGCAAGGCATTGAAGGCCTGCACTGGGCGGCGATCTGGATGTACCTCGGGCAGGTGACCAGCAATGGGCCCTCGCAGCACAATATAGACATGCCCTACTATGTTTTCGCCGTAGCGGCTCATATGCTGGCGATGGCATATCTTATGTTCAGGGTGGTGTGGGACATTTACGAGCCTACGTACGATCCCATCCGCCGGCATGACCTGGATGACCCCCACGGAGGTCCTTTTGACGGGGCTCCCGACTGGCTGAGGATCGCTGTAGCCCGGCCGGCCGAGTCTGTCCTTCCCTGGAGGGCGAGGAGCCATGCCTGA	MQETRPPANRRRTRLVVPSRSDLLLRNFTELIGGPMGTRSAPGVVSPGIFTVERVLIILTVIAALAGIAIKGYCRANGWESPSQFYATCYSDFPELFRNRGLGEGTFPFFSQGSLFEYPVLMGLIAGATALLVPGQGVSDDRILGYYDINATLIAAVWIVTVLATARMSSRRPWDAAMVALAPGIVLAGTINWDMWAVGMLALGMYFFSKERLLIAGVLMGLGTATKVYPVLIFGAILLLALRTGRIRVFLVTAGAALVSWLAVNVPIAAMNPSGWQYFYQFTEDRPAGYSSPWFAYNLVAERLRWRILDAESINALALNIFVLACIGIAVVALTASRRPRIAQLAFLIVAAFILTNKVYSPQFVIWLIPLLALARPRWRDFLIWQGIEGLHWAAIWMYLGQVTSNGPSQHNIDMPYYVFAVAAHMLAMAYLMFRVVWDIYEPTYDPIRRHDLDDPHGGPFDGAPDWLRIAVARPAESVLPWRARSHA				NA	NA	NA	NA	NA
D1-29_04711	144			hypothetical protein	ATGATCAAGAAGATCCAAAAGGCACTGTTTTCCCGGCGCAAGCCCATCCGTGAACAACCCCGTGAGTTCAACGCGGAACTGTTGAACGCACACCGTGAGTACGTTTTCTTACTGATGCACCAGCAGATGCGCGGCCTGAACTGA	MIKKIQKALFSRRKPIREQPREFNAELLNAHREYVFLLMHQQMRGLN				NA	NA	NA	NA	NA
D1-29_04712	585	gpm2	COG0406	Acid phosphatase	GTGAGCATCCCGATGATTGCGCCCCGACCCCAGCTCTGGATCCTGCGCCACGGCGAAACCGAGTGGTCCAAGAGCGGCCAGTACACAGGCCTGACCGACCTGCCGCTGACCGTGGAGGGTGAACAGCAGGCCGTTGAAGCACGCAAGGTCCTGGACCCGGTGGACTTTGACCTGGTGCTGACGTCGCCCCTGCGCAGGGCCCGCCGCACTGCTGAACTGGCGGGCTTCCCCGACGCCCAGCACGAACCCCTCGCCGTGGAATGGAATTACGGCGACTATGAAGGTGTCAGCTCTGACCTGATCCGCAAGGACAACCCTGACTACCTGATCTGGACGCACGGGGTGCCCAATGGGGAGACCCTGGACGAGGTTGCTGCCCGAGCGGACAAGATTGTGGCCAGGGTCCTCGAATCAGGCCTGGACAATGTGCTGATTGTGGCGCACGGTCATTTCTCCCGAATCCTGACGGCACGCTGGCTTGAACTTCCGCCCAGCGAAGGCCGGCATTTCATTCTGGGAACAGCAAAAGTCTGCACCCTGGGCTGGGACAAAAAGACCCCCGCCATTGTCCGCTGGGGACTCTAA	MSIPMIAPRPQLWILRHGETEWSKSGQYTGLTDLPLTVEGEQQAVEARKVLDPVDFDLVLTSPLRRARRTAELAGFPDAQHEPLAVEWNYGDYEGVSSDLIRKDNPDYLIWTHGVPNGETLDEVAARADKIVARVLESGLDNVLIVAHGHFSRILTARWLELPPSEGRHFILGTAKVCTLGWDKKTPAIVRWGL	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
D1-29_04713	1509	cca		CCA-adding enzyme	ATGGCGCACGCACATCACAAGACTGATACCCACACCGTCGACTTCCAGGTGGACCCGGTGGTCCTGGAGTTGGGGCAGCGCTTTGTCGACGCCGGACATGAGCTCTCGCTGGTGGGCGGCCCGGTGCGGGACCTCTTCTTGGGGCGGACATCACCGGACCTTGACTTCACCACGGACGGCACGCCGGACCAGACGGTGGCCCTGATCAAGAAATGGGCCGACAACTACTGGGAAATCGGCCGCGCCTTTGGAACGATCGGAATGCGCAAGGCAGGCTTCCAGATCGAGATCACTACCTACCGCGCCGAAGCCTACGACCCGGAATCCCGCAAGCCCGTAGTGGCATTTGGATCGTCACTGACGGATGACCTGCTGAGGCGCGACTTCACCATCAATGCCATGGCGCTGCGGCTGCCCAGCTTGGAGCTCGTTGACCCGTTCGGCGGAGTCCGGGACCTGCATGCTTCTGTCCTTGCCACTCCGGGCGCGCCCGAGTCATCCTTCTCCGACGACCCCCTCCGGATGATGAGGGCGGCCAGGTTTGCATCGCAGCTCGGCATTTCAGTGCACGACGACGTTCGCTTGGCCATGAGCCAAATGGCCGAACGGATTGCCATCATTTCCGCGGAACGCGTCCGTGATGAGCTCATCAAGCTGATCTCCGGCGCCCACCCCCGCGTGGGCGTGGACCTGCTGGTGGACACAGGACTGGCGGAGTTCGTGCTGCCGGAAGTGTCAGCTTTGCGGCTTGAATCCGATGAGCATCACCGCCACAAGGATGTCTACCAGCATTCCCTGCAGGTGCTGGAACAGGCTACAGAGCTGGAAACAGGGCCGGACGGTGCCGTTCCCGCCCCGGATTTTGTGCTGCGCTTCGCTGCACTGATGCACGACGTCGGCAAGCCGGCTACGCGGCGCTTTGAACCGGGCGGCGCGGTCAGCTTCAGGCACCACGACATGGTGGGGTCAAAGCTCACCGCCAAACGGATGAAGGCGCTCCGCTTCGACAATGACACCATCAAGGCCGTGGCCCGCCTGGTGGAGCTGCACATGCGCTTCTATGGCTATGGCGAAGCCGGTTGGAGCGACTCCGCCGTTCGGCGCTACGTGACCGACGCCGGCCCGCTCCTGGAACGGCTCCACCGGCTGACCCGCTCGGACGTCACCACGCGCAACCAGCGCAAGGCGGAGCGGCTGGCCTTTGCCTATGACGACCTTGAAGCCAGGATCGCCACCCTGCGTGAGCAGGAGTCCTTGGATGCTGTGCGCCCCGACCTTGACGGGGCACAGATCATGGCCATCCTGGGGCTCAAACCAGGACCTGTTGTGGGCCGTGCCTATAAGTTCCTCCTTGAGGAACGGATGGAAAACGGCCCCCTGGATCCCGACGATGCAAAGTCCAGGCTGCTGGAGTGGTGGGCGGACCAGCCGGAATCAACACCGCCTGCACCCGAGACCGGCATGTCCCCTGCAAATGTGGAACTCTCCCCCACTGAGGAGCCCAAGTGA	MAHAHHKTDTHTVDFQVDPVVLELGQRFVDAGHELSLVGGPVRDLFLGRTSPDLDFTTDGTPDQTVALIKKWADNYWEIGRAFGTIGMRKAGFQIEITTYRAEAYDPESRKPVVAFGSSLTDDLLRRDFTINAMALRLPSLELVDPFGGVRDLHASVLATPGAPESSFSDDPLRMMRAARFASQLGISVHDDVRLAMSQMAERIAIISAERVRDELIKLISGAHPRVGVDLLVDTGLAEFVLPEVSALRLESDEHHRHKDVYQHSLQVLEQATELETGPDGAVPAPDFVLRFAALMHDVGKPATRRFEPGGAVSFRHHDMVGSKLTAKRMKALRFDNDTIKAVARLVELHMRFYGYGEAGWSDSAVRRYVTDAGPLLERLHRLTRSDVTTRNQRKAERLAFAYDDLEARIATLREQESLDAVRPDLDGAQIMAILGLKPGPVVGRAYKFLLEERMENGPLDPDDAKSRLLEWWADQPESTPPAPETGMSPANVELSPTEEPK				NA	NA	NA	NA	NA
D1-29_04714	549			hypothetical protein	ATGGCCCATCCCGTACCGAGCGCTCCCGGCAGGAGGACAAACCCACCGTTGCCGTCGGCAATCGGTGCCCACGTCGCGCCTGCGCAGCATTCGGCGCCGGCATCGCTGCCAACCGTTGAGGAAATTTCCGCCGGGGGCGTTGTGGTGGACACGTCCGACGCCGAACTCCGGGTTGCGATCATTGCCCGCCTGAACAGGGGCGGACGTTTGGAGTGGTGCCTGCCGAAGGGTCATCCGGAGGGCAAGGAGAACAACGAACAGGCCGCAGTCCGCGAGATCGCCGAGGAGACCGGCATTGACGGCCGGATCCTTGCTCCGCTGGGCAGCATCGACTACTGGTTTACGGTCAGCGGCCACCGGGTTCACAAGACCGTGCACCACTACCTCCTGCGCGCCACAGGCGGTGAGCTCACCATTGAAAACGATCCCGACCAGGAAGCCGTTGACGTGGCGTGGGTGCCCATCCAGGAACTCGCGCGGAAGCTCTCCTTTCCCAATGAGCGGCGCATCGCGGATCTGGCCAGGGAAGTCCTGCCCGAGCACCTCTGA	MAHPVPSAPGRRTNPPLPSAIGAHVAPAQHSAPASLPTVEEISAGGVVVDTSDAELRVAIIARLNRGGRLEWCLPKGHPEGKENNEQAAVREIAEETGIDGRILAPLGSIDYWFTVSGHRVHKTVHHYLLRATGGELTIENDPDQEAVDVAWVPIQELARKLSFPNERRIADLAREVLPEHL	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
D1-29_04715	2106	murJ		lipid II flippase MurJ	ATGCCAGCTACCAACTTCCCCTCCGACAACGCAGGCAATGCCGGTGAAGCCGAGCCTGCTGCCGTCCAACCCAGCGAAACGCGCTCCAGTGCCATCATGGCTGTCGGAACGCTGATTTCCCGCTTCCTGGGATTCGGCAAAACCTGGATGCTCGGCATTGCCCTTGGACTCGGGTCCACTGTCAACGACACTTTCATCAACGCGAACAACCTTCCCAACCTGATCTTCCTGCTGGTGGCGGGCGGTGTCTTTAACGCCGTGCTGGTGCCCCAGATCATCAAGGCAAGCAAAGCGCCGGACAGGGGAGCGGACTACATCAGCCGGCTGCTGACCCTGGCCGTGCTCCTGCTGCTGGGGCTCACGGCCCTGGTGACCCTTGCGGCCCCCTGGGTGATTGAACTGACCACACAGGGTTACTCGCCCCAGCAGAAGTCGCTTGCGGTGGCTTTTGCGTTCTGGTGCCTGCCACAGATCTTCTTCTACGGCCTGTACGCGCTCCTCACCCAGGTCCTGAACGCCAACGGAGCCTTTGGCCCTGCCATGTGGGCCCCCATCCTGAACAACCTCGTGGCCATCGCGGGGCTGGGGATGTTCATCTGGATCTTCGGCGCGAACATCGCCAACCCGCACACCCTGGAAAACTGGGGTCCCTCACAGACCCTGCTCGTGGCGGGATTCTCCACCATCGGTGTGGTGGCCCAAACCGCCATCCTGCTGGTGCCTGTGTTCCGTCTGAAGCTGAAGCTGCGTCCGCGGTTTGGCTGGCGGGGAGTGGGACTTGGCCAGGCGGCAAAACTCAGTGTGTGGACGCTGCTGACTGCCGCCGTCGGACAGCTAGCCTTCCTGTATGTCATGCGTATCGCCACGATTCCCGGAGCGGAGCGGCTCAGGCTTGAGGCTGCCGGTGACCCGGCAGCAGACACGCTGCCCGGCAACGCCGTACTGGAGGTGGCCAGCCAGCTGTATCTGCTGCCGCACTCGATCATTGCCATCTCGCTGGCCACAGTCCTGTTCAACCGGATGACCCGTGCATCCCAGGACGGCAACCGGGATGAGCTCCGCGACGCACTGTCCCACGGGCTGCGCACCATGGCAGTCGCAACTGTTTTTGGCGCCTTGGCACTCTTCGCCCTGGCCGGCCCGCTGGGCATGTTCTTCTCCGGCGGCCCCCGGCAGGACGGTGTGATGCTGGCCCAGACGCTCACGCTCCTGGCCCTCAGTACGCCGTTTATGAGCGCTAACTTCATGATGTCCCGTGTCTTCTACGCCAACGAAGACGCCCGCACACCGTTCTATATCCAGCTTCTGCTGGCCCTTGTCTACGTTGTCGGTGCGTTCGCCATCCAGTTCCTGCCCGTCGGCCAGATCATCTACGCCATCGCCATCCTGTACATGATCGGCAACATCCTCTCCGTGGTCATCAGTGCCTACTTCCTGCGCCGGCTGCTGGGGCACCTTGACGGTCCTCGAATTGCCAATTCGTATATCCGGATGGGGTACGCCGCTCTGGGATCCGCCGTTGCGGGTGCCGGTGCGTTATGGCTGATGGGCAGTTACAGCCCGGACGGCTTTGCCTGGACCAATCAGGCAACCGCCTTGGTGACCCTCATCGTCGTCGGGCCTATCATGCTGGTGGTCTATGTCTTCCTGCTCAAAATCTTCCATGTGGCCGAGCTCCGTGATCTCCTCCGGCCCCTGCTGGGGAGGCTCGGTCGGGGTTCGTCCTCAGCGGAACCGGAAACTGCGGTGCCCGGCGGAGCGCCATCGTCGCCGGGAGCTGCTGCCGGGCAAGGAACGGGACGTTCGACGCCGGAACGCGCCACGGTCTCGGTGGACACCGGCCTGATACCCAGGATCTCCGGGGAATTCGACGCCGCCTCCTTCCGGGCCGGTCCGGTGCCCGAACGGTCACCAACGCCCGCCGTTCCTGTGGACCCCGAGACCGGATCTTCCTCTGGACCCCGCTACTTGCCCGCCGAAGACGTTCCCGGAACTGCACAGGGAAGCCTGCTTCGGGACGAGATCCCGCTGCCCGGCCGGCGGACTTTCCAGGGAAAGGCGGGCCACAACCCTCATTTCAAGCCCCGGCGGCCGCGGAAAAAGTGA	MPATNFPSDNAGNAGEAEPAAVQPSETRSSAIMAVGTLISRFLGFGKTWMLGIALGLGSTVNDTFINANNLPNLIFLLVAGGVFNAVLVPQIIKASKAPDRGADYISRLLTLAVLLLLGLTALVTLAAPWVIELTTQGYSPQQKSLAVAFAFWCLPQIFFYGLYALLTQVLNANGAFGPAMWAPILNNLVAIAGLGMFIWIFGANIANPHTLENWGPSQTLLVAGFSTIGVVAQTAILLVPVFRLKLKLRPRFGWRGVGLGQAAKLSVWTLLTAAVGQLAFLYVMRIATIPGAERLRLEAAGDPAADTLPGNAVLEVASQLYLLPHSIIAISLATVLFNRMTRASQDGNRDELRDALSHGLRTMAVATVFGALALFALAGPLGMFFSGGPRQDGVMLAQTLTLLALSTPFMSANFMMSRVFYANEDARTPFYIQLLLALVYVVGAFAIQFLPVGQIIYAIAILYMIGNILSVVISAYFLRRLLGHLDGPRIANSYIRMGYAALGSAVAGAGALWLMGSYSPDGFAWTNQATALVTLIVVGPIMLVVYVFLLKIFHVAELRDLLRPLLGRLGRGSSSAEPETAVPGGAPSSPGAAAGQGTGRSTPERATVSVDTGLIPRISGEFDAASFRAGPVPERSPTPAVPVDPETGSSSGPRYLPAEDVPGTAQGSLLRDEIPLPGRRTFQGKAGHNPHFKPRRPRKK	PGPT0024200_442	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
D1-29_04716	1677			hypothetical protein	GTGTCCCACCCGATCGATGTTGGATCAGTGCTCGGCGGCCGCTACAAGGTCACAGCCACAGTATTGACTTCGCACGACCACGATCTGGTGCTGGACGGGGTGGACCAGGTTCTCAACCGTCCGGTCAGCATTCTGGTTGCCGGCCCGGAGAACACCGAACAGGTGGCCCAGAGCGCCCGGGAGGTAGCCACCGGGGAGCGCCCCGGCACCGTGCAGGTTTTGGACCTCGGCGTTACCGAGGCCGCGACCTACCTCATCACCAACCACACGTCCGCCGCGGACCTGCTGGACCTGGTGGTTGCCTCAAACCCTCCCTATGTTGAACCGTTCTTCACGGACACCCTGGGCAGCGAGATTTTCGGCCAGCCACGTTCCAACGAACCTGAACCGTACGACGACGAAGAAAACGTTGACGCCGGCTACATCAATTACTCGGGTGGCCACGAGAACCAGGCTGACCCCTACCGGTCAACTGCTCCCGTCGTTCCACCCAGGCCGCCTGCCCGTCCATCAGCGGCACCGGCTGCCGGTGTGGCGGGAGCAGCCGCCGCTGGAGCAGCAGCCGGCGCGGGAGCCGCCGGAGTGGGATCCGCTGGTATGGGAGCTGCCGGAAGGGCAGCGGTTGATGAAGCCAAGGCCCGCAACCATGCCCCCGCGGCAGAACGCAGCGCCGCTGATTCGCTGGCATCAAGCCAGGACCCGACGACACAACAACCGCTGCAGTCATCAGGCCGGCAGGCCGAGGCTCTTGGTTCGGGGACGGCCGGGTCCGGCGATGCTCAAGGGCCGGGGAAGCCGAAGGTATCACTGTGGTCCGAGGAGGACTACGGCTATGACAATGGGGACCAGGACGACCTGCATGACGTCGCTGCCGATTCCGGCCAGCGCCGGCAGCCCGGCTCCGGCGAATCCCCGCACGCAGACCGTTCCGCCAAGAAGTTTCCTGCATTTTCGCGGTCCACGGCCGGCGTTTCGCCGGCCTCCGTGCCGCCTTCCACCTCGGGACGGGACTATGACTCCGAGGAGGAGCCTGAGCGGGAACCACGTTCAATGCGCTGGCTGGTGGGCGGACTCCTGGCTCTTGTACTGATTGCCGGCCTGGTGTTTGCAGTCACCAATCTTGGCAGCCTTTTCACCACACCGCAGGCAACGTCCACCGACGCGACCACGTCATCCCCGTCCGATGCCCCTACCTCCGCGCCAACACAGAGTTCAGCAGCTCCCGCAGCACCCCCCGCCATTGAAGGCGTCACCCGTCAGGGTGACTTCGACTTCGCGGCCACTTACGACGTCGATCTGGTCAAGGCCTATGACGGGAATGCTGCCAGTTACTGGTCGGACATGGAGTTCGCCACGGAGAACTGGGGCGGGCTTTCGCCCAACGGTGTCCCGTTGTTCATCAAACTCAAGGCAGAGGCGCCGGTCTCATCCGTCACCCTGACCCAACTGGGCGCCTCTGGCGGCAACGTCAGCGTCTACACCAATGACCGTCCTTCCTTGGACGGCGCCAAGCTGGTGGGGACCAACAGCTTCACTTCCACAGACCTGACCATGCCTCTTGCCCAGCCTGTCGAATCGCAGTACGTCATTGTATCCATCAAGAGCCTGCCCAGGCTGGCCGCGCCGAAGACCCGCTACGGCTACGGAATCCGGCTGGCCGAAATCAAGGTCCAGTAG	MSHPIDVGSVLGGRYKVTATVLTSHDHDLVLDGVDQVLNRPVSILVAGPENTEQVAQSAREVATGERPGTVQVLDLGVTEAATYLITNHTSAADLLDLVVASNPPYVEPFFTDTLGSEIFGQPRSNEPEPYDDEENVDAGYINYSGGHENQADPYRSTAPVVPPRPPARPSAAPAAGVAGAAAAGAAAGAGAAGVGSAGMGAAGRAAVDEAKARNHAPAAERSAADSLASSQDPTTQQPLQSSGRQAEALGSGTAGSGDAQGPGKPKVSLWSEEDYGYDNGDQDDLHDVAADSGQRRQPGSGESPHADRSAKKFPAFSRSTAGVSPASVPPSTSGRDYDSEEEPEREPRSMRWLVGGLLALVLIAGLVFAVTNLGSLFTTPQATSTDATTSSPSDAPTSAPTQSSAAPAAPPAIEGVTRQGDFDFAATYDVDLVKAYDGNAASYWSDMEFATENWGGLSPNGVPLFIKLKAEAPVSSVTLTQLGASGGNVSVYTNDRPSLDGAKLVGTNSFTSTDLTMPLAQPVESQYVIVSIKSLPRLAAPKTRYGYGIRLAEIKVQ				NA	NA	NA	NA	NA
D1-29_04717	957	trxB_4	COG0492	Thioredoxin reductase	GTGAGCAACGCAGAAAACGCCGCGTCCGAAGTACGTGATGTCATCATCGTCGGCTCTGGCCCGGCTGGTTACACGGCAGCTGTCTACACAGCCCGTGCCAACCTGAAGCCCTTGCTGCTGGCGGGTTCTGTCACGGCCGGTGGCGAACTGATGAACACCACTGACGTCGAGAACTACCCTGGGTTCCCAGAGGGCATCATGGGTCCGGACCTCATGGAGAACTTCGAAAAGCAGGCTGTCCGTTTCGGAACCGAAATCCAGTTTGAGGACGTCACGGACCTACAGCTCAACGGCGACATCAAGACGGTAACCATCGCCACGGGGGAGTCCTTCCAGGCACGGGCCATCATTCTCTCGACCGGGTCCGCTTACCGGGAACTGGGATTGCCTAACGAGAAACGGCTTTCCGGTCACGGAGTCAGCTGGTGTGCAACCTGCGACGGTTTCTTTTTCAAGGACCAGGACATCGCCGTTATTGGAGGCGGAGACTCGGCTATGGAAGAGGCCCTGTTCCTGACCAAGTTTGCGAAGTCGGTCACGGTTGTTCACCGCCGCGATTCACTGAAGGCCTCCAAGATTATGGCCGACCGCGCCCTGGCTCATGAGAAGATCCGCTTTGTCTGGAACAGCACAGTGGACGACGTCATCGGAGACAGCAAGGTCACTGGCCTCAAGATCAAGAACCTCCTGGACGGTTCCGTTTCAGATCTCGCTGTGACTGGGGTGTTTGTGGCGATCGGAAACGATCCCCGGACTGAACTGGTCAAGGACATCCTGGAGATCACTCCGGCCGGCACCATCGCAGTGGAGGGCCGCAGTTCCAAAACGAGCCTTCCCGGCGTCTTCGCCGCCGGCGATGTAGTTGACCCCACCTACCGTCAGGCCATCACCGCCTCCGGTTCGGGGTGCGTTGCCGCCATCGATGTAGAACACTACCTCGCAGACCTTCACGCATAA	MSNAENAASEVRDVIIVGSGPAGYTAAVYTARANLKPLLLAGSVTAGGELMNTTDVENYPGFPEGIMGPDLMENFEKQAVRFGTEIQFEDVTDLQLNGDIKTVTIATGESFQARAIILSTGSAYRELGLPNEKRLSGHGVSWCATCDGFFFKDQDIAVIGGGDSAMEEALFLTKFAKSVTVVHRRDSLKASKIMADRALAHEKIRFVWNSTVDDVIGDSKVTGLKIKNLLDGSVSDLAVTGVFVAIGNDPRTELVKDILEITPAGTIAVEGRSSKTSLPGVFAAGDVVDPTYRQAITASGSGCVAAIDVEHYLADLHA	PGPT0013060_5761	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
D1-29_04718	327	trxA	COG0526	Thioredoxin 1	ATGAGCAACGCAAAAGACGTAACGGATGCAAGTTTCGGCAGTGATGTACTGTCAGCCGACAAGCCGGTCATCGTGGACTTCTGGGCGGAATGGTGCGGCCCCTGCCGCAAACTGGGACCCATTCTCGACGAGATCTCGGTTGAGTACGGCGAAAAGGTCAATGTCGTCAAGGTGAACGTGGACGACAATCCCGCCATCGCCGCAGAGTACGGAATCACATCAATTCCCGCCGTTTACCTTTTCCAGGACGGCCAGGTGAAGAGCACTGTGATCGGAGCCAAGCCCAAGCAGTTCTTCGAGAAGGAATTCGCAGACGTCCTGTCATAG	MSNAKDVTDASFGSDVLSADKPVIVDFWAEWCGPCRKLGPILDEISVEYGEKVNVVKVNVDDNPAIAAEYGITSIPAVYLFQDGQVKSTVIGAKPKQFFEKEFADVLS	PGPT0013055_6833	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
D1-29_04719	861			hypothetical protein	ATGGAAGGTTTCGAGCCCTATCTGACCTTGACGCGCACGGTGAGGATGAAAGTATTGGGTCCGTGGTCCTGTTCAGGCCGCTGGTGCTATGACGGTCGAGCAAGACGTAAGTTCCATGGGCAACCTACGAATCAGGCATTGCCGCCGCCCAGTCCATCGGAATCCCGATGCTGGACTCCCGGGTGGTCAACTATCCGTTCTGGTGTTCGTGTTGACAATCAAAACCACCTTCGTGGAGTTGCCGAAGCCACCTTTGTGGATTGGCCTTTCCGTCAACTCTTCGTGTTTCACGTGAAACTTGGAGGTGTCAGCGGTGCACACCCGGCCACTAACAAGCGGCAATTAGTGGCGGGTGCTACCGTTTGGCGTCAGCCCGGTTCCGAGGGCTGGTTCTCAGTGAATCCGCACTACCAGAATCCTCACGTGGGGCGGCTATGGATGCAGTCCGGAGTACGAGCGCGGCATACGTTCCTGGTTTGCACTAACCATGCCTACTTAGTTTGGCTGGGCGGCTCTTGGTGTGAACTAGCCGAGCCAGCATTTGGGGGTTTCGGGCGGCTCTCTGCCGAAGTGGTGGCGCCGAGAATGGTGGACTTCAGAATGTCGATTTTGGGAAGAACGCGGTGGCGACTCTGTCACGGGATCGGGCCGCTTTCAACTGGAACGCGTTTAGCTGGGGACGGTAGACACCTGTCGATCCTGACCCAAGTTCCTCTGTGCGTATTTGGGAGTGACCATGACTGTAGACAGCGCCCTTGGGCGCCTCCCCCACGGTGTGATTCCGCTGCCGGACCAGTAGGTCTAGGTGAAGGAACGGCCAGGGCAGTGTTGAGTATAAACCGCACTGGAAGAGGAGCATAA	MEGFEPYLTLTRTVRMKVLGPWSCSGRWCYDGRARRKFHGQPTNQALPPPSPSESRCWTPGWSTIRSGVRVDNQNHLRGVAEATFVDWPFRQLFVFHVKLGGVSGAHPATNKRQLVAGATVWRQPGSEGWFSVNPHYQNPHVGRLWMQSGVRARHTFLVCTNHAYLVWLGGSWCELAEPAFGGFGRLSAEVVAPRMVDFRMSILGRTRWRLCHGIGPLSTGTRLAGDGRHLSILTQVPLCVFGSDHDCRQRPWAPPPRCDSAAGPVGLGEGTARAVLSINRTGRGA				NA	NA	NA	NA	NA
D1-29_04720	816			hypothetical protein	ATGAGCTCGATGGACAGGAGCGGACCAATCCGCGGCAAAGTTGTCCTTCTCGTTCGGGCCCTTCGCGCCTGCGACTCTTCCGCGTATCGTTCCTTCTGGCCGGCGTCCGTAACTGATCACCGCCTCAAAAGAATGCAGCTAGAGCCGACTGATGGACGCTCCGATGTGGGAATTGCGGGTTTCGTCAAAGTGTCCATACCCCGGAGGGAGTGCTGTAGGGGAGCAATTCTTACTCCACGAAGGCTCGGCAATCGGATCCTAACCGCACAGTCTTCGCTTTGGACGGAGGGCGCGCAGCCACTCGCAGTGTCGGCCCGACGGACGTCCGCGGTTTATCCCCAGATCTTATGCACACGTTTATCCACAGGCTTACCCACAGGTTTCCACACGCCCTTTGGCAACGGCCTGGTTGTCAGGTTGTCCCAAAATTTGTACGGCCCCATCAAGGCCATGCGGCCGCCAGATAATTTAGAGTGTAACGGAGCCCGGTATGAGCTTTTGCGCGGTCAAAAACACCACAAAATCGCCCGAGACCGGGGATTAGCTATCCTTCCGCAAGGCTCACCGCGCCGGTTAGGGCCGTTTCACGTGAAACATGATCGCAAGGTCGTCGGCCCACAAAAGACTTGGCTGTATCAGCATTGTTCTTTAGCGGACCCAGATAGTCTGCGCGACCCAACTCCACTCTCTTATCCCCAAAGTTATCCACAGCGATATCCACCGAGCTTTCCACTGCTTTATCCACCGCTTCGTCACCAGGCAGAGACTAGGGAGCAGCCGTCTCTGAGCTCGACTCGGTTCCTGGCTTCGGCTTGA	MSSMDRSGPIRGKVVLLVRALRACDSSAYRSFWPASVTDHRLKRMQLEPTDGRSDVGIAGFVKVSIPRRECCRGAILTPRRLGNRILTAQSSLWTEGAQPLAVSARRTSAVYPQILCTRLSTGLPTGFHTPFGNGLVVRLSQNLYGPIKAMRPPDNLECNGARYELLRGQKHHKIARDRGLAILPQGSPRRLGPFHVKHDRKVVGPQKTWLYQHCSLADPDSLRDPTPLSYPQSYPQRYPPSFPLLYPPLRHQAETREQPSLSSTRFLASA				NA	NA	NA	NA	NA
D1-29_04721	642			hypothetical protein	ATGATGCAGACACCTTGTAATTGGACGGCTATACCCATTGGATATCTCGGCGAACGCGGGGGGATGGGCGGCAACAGCCGGTCGGCGACTAACAGCGTGAGAGTCAGTGCAGAGGGCCCTGTCGACAAGACCGTTAATCAGGAGCGACCATCCTTGCGTCCTACCGATAGTTCCATGGGTCACCGGGCCGGCACTCTGCTGATACGACTGGCGAACACCAGGGTGCCTTTCAAGCCCCGTGCATTAGATGACCTTTCGTCACTCCCACTGATGCCCTTGAGTGGTCGTCTAAGGACCTGGGCACCTCGATGTATGAATCTTCACTGCACACGACATCCCGATACTTCTCCTTGGTTTCACATGAAACTACCTTGGCTACACACAGATGGCTGCTGGAGTTTCGCCCAGTTGATGGGTCAGCCTAGACACACATTCTCGCCTGAAGAATCAGGGCAAACAGTTGCGCAACATGGATGGTCAAACCGTCTTCGGCGAAGGAAGAGTACTTTAGGCGACGCGTGTCTGGGGGACCGCACACAGTGGATGCTGCGGCCGATCCGGCGCACTGTGGCATCTTCGGTCGGACAGCACCAGATAATGGCACCAGATACCGTCTCATTGGCTAGTGAACTTGTTTTCTGA	MMQTPCNWTAIPIGYLGERGGMGGNSRSATNSVRVSAEGPVDKTVNQERPSLRPTDSSMGHRAGTLLIRLANTRVPFKPRALDDLSSLPLMPLSGRLRTWAPRCMNLHCTRHPDTSPWFHMKLPWLHTDGCWSFAQLMGQPRHTFSPEESGQTVAQHGWSNRLRRRKSTLGDACLGDRTQWMLRPIRRTVASSVGQHQIMAPDTVSLASELVF				NA	NA	NA	NA	NA
D1-29_04722	240			hypothetical protein	GTGTTAGCCTCCACTGAAGTGGTCACGGGTTTCCTGTGCACGCCGATTAAGCAGAGCTGCGTCATCCATACCCCGCTGAAGGAGCCTGGTAATACGCCCTACTATTCCCACCGGATGGGGTGTGCCGCCCTACATCTGCTCCACTTGGGGGCATCGGTCATAGTTGGTAGAACCCAGCCCAGGCCGCTGAGCCGGTTTCACGTGAAACACCATGCCGGCCTACTGGCTAGCGTTTACTAG	MLASTEVVTGFLCTPIKQSCVIHTPLKEPGNTPYYSHRMGCAALHLLHLGASVIVGRTQPRPLSRFHVKHHAGLLASVY				NA	NA	NA	NA	NA
D1-29_04723	1287	noc		Nucleoid occlusion protein	ATGAGCGAAAAGCGACGGGGCCTAGGCCGCGGTCTTGGCGCACTCATTCCAAGTTCCGCCGCCGGCAGTGCGTCTGGCAACGGGGCCGCTGCTTCACGTCCAGTGGATCTCTTCTTTCCCGAAGGCCGTAAGAAAGTGATGCCTGACGAGGCTGAAGGCAACGGCGCCTCACGCGCTCCTTCAACTGAGCCGGACTCTTCGTCCGAGTCAACGATCTCCAAGCAGGCTCCGGCCGTAAAGTCATCCACGGCATCTGCGGATAAGCCCACCAGAAGGGCATCCGGCACAGAAACTGAAAAGCCAGCACTGAAAGGTCCAGCCAAGGGCCGTACGACTTCGGCTGCCGCCGGTGCGGATAAGGATTCGAAAGTATCCCCGACCCCCGCGGCCTCTGACTCAGTTCCGGCAGGCAGTGAGGATGTCACAGCTGACGATGCCGCTGTTGACAATGGCGTTGACCTCGTGGAGGTCCCGGGCGTGCGTTTCGCTGAAATCCCTGTTTCCGACATTCATCCCAACCGCAAACAGCCGCGCTCGGTCTTCGATGAGGACGACATGGCGGAGCTTGTCCACTCTGTTCGCGAAATCGGTGTCCTCCAGCCAATTGTGGTGCGTACTTCAACCGAAGAAGGTGGAGAACCCTATGAGCTGGTTATGGGTGAACGCCGCTGGAGGGCAGTGCAGGCCGCCGGGATGGCCACCATCCCCGCAATCGTTCGCGACACCACCGACGACGCCCTTCTTCGGGACGCCCTGCTGGAGAACCTCCACCGCAGCCAGCTGAACCCATTGGAAGAGGCAGCAGCGTACCAGCAGCTGCTGGAAGACTTTGGCACCACCCACGAGCAGCTTGCTGACCGCATCGGCCGTTCGCGTCCTCAGGTTTCGAACACGCTCCGGTTGCTCAAGCTCCCGCCCCTGGTGCAGCGCAGGGTGGCTGCCAGCGTACTCTCTGCCGGCCACGCCCGTGCTCTGCTGGCACTTCCTGATGCTGCCGCTATGGAACGGCTGGCTCAGAAGATCGTGGCCGAGGGTATGTCGGTGCGCGCCACCGAAGAAGCGGTGACCCTCTATCAGGATCCTGCTAAGCCGGCCAAGAACAACATTCCGCGTCCAGGAGCCCGCCACGAGCGCCTGGATTATCTGGCCTCTTCCTTGTCGGACCGGCTGGACACCAATGTGAAGATTTCCCTGGGTGTCCGGAAGGGCAGGGTAAGCATTGAATTCGCCAGCGTCGAAGACCTGAACCGTATTATGGACGTGCTTGCTCCCGGTTCGGATACCTGA	MSEKRRGLGRGLGALIPSSAAGSASGNGAAASRPVDLFFPEGRKKVMPDEAEGNGASRAPSTEPDSSSESTISKQAPAVKSSTASADKPTRRASGTETEKPALKGPAKGRTTSAAAGADKDSKVSPTPAASDSVPAGSEDVTADDAAVDNGVDLVEVPGVRFAEIPVSDIHPNRKQPRSVFDEDDMAELVHSVREIGVLQPIVVRTSTEEGGEPYELVMGERRWRAVQAAGMATIPAIVRDTTDDALLRDALLENLHRSQLNPLEEAAAYQQLLEDFGTTHEQLADRIGRSRPQVSNTLRLLKLPPLVQRRVAASVLSAGHARALLALPDAAAMERLAQKIVAEGMSVRATEEAVTLYQDPAKPAKNNIPRPGARHERLDYLASSLSDRLDTNVKISLGVRKGRVSIEFASVEDLNRIMDVLAPGSDT	PGPT0014815_1488	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
D1-29_04724	876	soj	COG1192	Sporulation initiation inhibitor protein Soj	ATGGACGATTCCAGTCCCATCGCCCGTGAGCTCGCCCATGAAACCAAGCGGCGGGAACGACTCCTCGGCCGGGAGCTTCTCAAGCCGGAAAAGACCAGGGTCTTTACCGTGTCCAATCAAAAGGGCGGCGTTGGGAAGACCACCACCACCGTCAATATTGCCGCTGCGCTGGCCGCCGCCGGACTGAATGTCCTGGTCATAGATATTGATCCCCAGGGCAACGCCTCCACCGCGCTTGGCGTCGAGCACCACGCCGACGTGGACAGCATCTACGACGTCCTCATCAACGACTTTCCCCTCGCCGACGTGGTGGCGCCCTGCCCGGACATCAAGAACCTGATCTGTGCCCCCGCTACCATCCATTTGGCCGGTGCAGAGATTGAGCTGGTGTCTCTGGTAGCCCGCGAACAGCGGCTTCGCCGCGCCATCGACGTCTATTCGAAGGCACGGGAGAAGAATGGCGAAGAGCGCCTGGACTACATCTTCATCGACTGCCCTCCAAGCTTGGGGCTGCTGACTGTCAATGCCTTCTGTGCCGCCGGTGAGGTGCTGATTCCTATCCAGTGCGAGTACTACGCGCTGGAGGGTTTGAGCCAGCTGCTGAAGAACATCGAGATGATCCAAAAGCACCTCAATGCCGATCTCGAGGTTTCCACCATCCTCCTGACAATGTATGACGGTCGGACCAACCTCGCCGCGCAGGTGGCGGCCGAGGTGCGCCAGCACTTCCCCAAGCAGGTACTCGGAGCAGTCGTACCACGCTCGGTCCGCATTTCCGAGGCACCCAGCTACCAGCAGACCGTCATGACGTACGACCCTTCCTCCAGCGGCGCCCTGTCCTATTTGGAAGCCGCAGCCGAAATCGCTGAACGCTAG	MDDSSPIARELAHETKRRERLLGRELLKPEKTRVFTVSNQKGGVGKTTTTVNIAAALAAAGLNVLVIDIDPQGNASTALGVEHHADVDSIYDVLINDFPLADVVAPCPDIKNLICAPATIHLAGAEIELVSLVAREQRLRRAIDVYSKAREKNGEERLDYIFIDCPPSLGLLTVNAFCAAGEVLIPIQCEYYALEGLSQLLKNIEMIQKHLNADLEVSTILLTMYDGRTNLAAQVAAEVRQHFPKQVLGAVVPRSVRISEAPSYQQTVMTYDPSSSGALSYLEAAAEIAER				NA	NA	NA	NA	NA
D1-29_04725	651	rsmG	COG0357	Ribosomal RNA small subunit methyltransferase G	ATGGTTGACATCACGGCAGCAGAATTACTGGCGGCTGAGAAAATCTTCGGCGACCGCCTGGACCTTGCCAAGCGGTACGTTGAGCACCTGGCCACGTCCGGGACCGAACGGGGCCTCATCGGCCCGCGGGAGATCCCGCGCCTGTGGAGCCGGCATGTGCTCAACTGTGCAGTCATTGAAAGCGTCATCGCCCACGGCAGCCATGTGGCCGACGTCGGCAGCGGCGCAGGGCTTCCCGGTCTCTGTCTCGCCATCGCACGCCCTGATCTGGAACTCACCCTGATCGAACCCCTGGAACGCCGTGTTATTTGGCTCCAGGAAGTGGTTGATGACCTGGACCTGAGCAATGTCACCGTCATGAGGACGCGTGCCGAACTGGCCGTCGGCCTGGTTCAGGCTGATGTGGTCACTGCCCGTGCCGTCTCGGCGCTCAGCAACCTGGCAGGTCTCACCATCCCCCTTCTCGCCGGCAAAGGCGAGGTGGTGGCCATCAAGGGCCGCAGCGCGGGCGAGGAAATCGATAAGGCCGCCAAAGTAATTCGCAAGCTCGGCGGAATCGAGACGTCAGTGCTGACCGTCGGTGAACACCTCCTGGAAGAACCCACCACTGTGGTGCGGATCGTTGTAAACAAGTCGCAAAAGATTGCCTAG	MVDITAAELLAAEKIFGDRLDLAKRYVEHLATSGTERGLIGPREIPRLWSRHVLNCAVIESVIAHGSHVADVGSGAGLPGLCLAIARPDLELTLIEPLERRVIWLQEVVDDLDLSNVTVMRTRAELAVGLVQADVVTARAVSALSNLAGLTIPLLAGKGEVVAIKGRSAGEEIDKAAKVIRKLGGIETSVLTVGEHLLEEPTTVVRIVVNKSQKIA				NA	NA	NA	NA	NA
D1-29_04726	567			hypothetical protein	ATGTCAGCCGAGAGCACCGAACACGCCCTTTCCGACGAGGTTATTGACGATCAGGACGAGTCCGTTACCGACTCCGCTGCTTCCTCCAAAGGTTCCGCTGCCAGCCGTCTCGAAGAAGAAGGCGACGTTGCCGCCGACTACCTCGAAGAGCTCCTGGACATTGCTGACATTGATGGCGATATCGACATTGAGGTCCGGAACGGCCGGACCTACATCTCCATCGTTGCCGAGGAAGAGTCGGACGGCCTCGACAGCCTGGTGGGCGAAGACGGCGAGGTCCTGGAGGCACTGCAGGAACTGACAAGGCTTTCCGTTCTTTCCGCCACGGAGAACCGCTCACGCCTGGTCCTGGACATCAACGGCTACCGCCAGGAGCGCGCCGGGCACCTGCAAAAGATTGCAGAGGATGCCGCCGCTTCCGTCAAGGAAACCGGCAAAGCTGTGGCCCTGGAACCCATGAGCGCCTACGAACGCAAGATCGTCCACGATGCTGTTGCCGACCTCGGCCTGGTCAGCGAATCCGAGGGCGAAGGCGCAGACCGCCACATTGTTGTTTCCGCTGACTAG	MSAESTEHALSDEVIDDQDESVTDSAASSKGSAASRLEEEGDVAADYLEELLDIADIDGDIDIEVRNGRTYISIVAEEESDGLDSLVGEDGEVLEALQELTRLSVLSATENRSRLVLDINGYRQERAGHLQKIAEDAAASVKETGKAVALEPMSAYERKIVHDAVADLGLVSESEGEGADRHIVVSAD	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
D1-29_04727	975	yidC_2	COG0706	Membrane protein insertase YidC	ATGGACTTCTTTGAAACAATCATGTTTCCGTTCAAGTGGCTTGTGTCCGTCATTATGGTGGGCTTCCACGAAGGTCTGAGCACCATTGGGCTGCCGGAGGCCTCCGGCTGGACCTGGACGCTGTCCATCATCGGGCTGGTGCTGGTCATTCGTGCCGCCCTGATCCCAGTGTTCGTCAAGCAGATCAAAGCGCAGCGCGGCATGCAGCTGCTCCAGCCTGATCTGAAGAAGCTCCAGGACAAGTACAAAGGCAAGACCGACCAGCTTTCCCGCCAGGCCATGGCGCAGGAACAGATGGCGATGTACAAGAAGCACGGCACCAACCCGTTCTCGGCCTGCCTGCCCATGCTGATCCAGATGCCGTTCTTCTTTGCACTCTTCCAGGTCCTCTCCGGAATCAGTTCTGCCCGGGACCAGGGCAAGGGCATGGGGGCGATGAGCCACGACCAGGTGGTGCAGTTTGACGACTCCACCATCTTCGGGGCGCCGCTCTCGGCAACACTGCTGCACAATCCCGAGGGCAACGTTGTTGCCGTTTATGTTCTCTCGATTGTGATGATCCTGGCCATGACGGCGTCGCAGTTCATCACCCAAAAGCAGATCATGGCCAAGAACATGTCCGAAGAGGCCATGGCCAGCCCCTTTATGCGCCAGCAGAAGATGATGCTCTACATCCTGCCGATCGTCTTCGGCGTGGGTGGCATCAACTTCCCCATCGGTGTCCTTATCTACTGGACAACCACCAACCTCTGGACCATGGCCCAGCAGTTCTTCGTGATCCGCCGCATGCCGACGCCGGGATCCCCCGCAGCAAAGGCACTCGCCGAACGCCGTGCCGCCAAGGGCCTTCCGGCCCTGCCCATCCTGGGCGGGAAAAAGGCCGATGTTGAAGCCGAAGCTGCCGCCGCGGCTGCAGTTATCGAAGCCAAGGGACAGCGTGTCCAGCCACAACGTAAGAACAGGAAGAAGAAGTAA	MDFFETIMFPFKWLVSVIMVGFHEGLSTIGLPEASGWTWTLSIIGLVLVIRAALIPVFVKQIKAQRGMQLLQPDLKKLQDKYKGKTDQLSRQAMAQEQMAMYKKHGTNPFSACLPMLIQMPFFFALFQVLSGISSARDQGKGMGAMSHDQVVQFDDSTIFGAPLSATLLHNPEGNVVAVYVLSIVMILAMTASQFITQKQIMAKNMSEEAMASPFMRQQKMMLYILPIVFGVGGINFPIGVLIYWTTTNLWTMAQQFFVIRRMPTPGSPAAKALAERRAAKGLPALPILGGKKADVEAEAAAAAAVIEAKGQRVQPQRKNRKKK	PGPT0024530_4851	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
D1-29_04728	390	yidD		Putative membrane protein insertion efficiency factor	GTGCGTAAGGTAACTGCCGCCGTCGTCCGCTTCCTTCAGCCCGCTGTCCTGGGCAGGACTATCTGGAACCTGCCCCGCAATCTCCTCATTCTGCTGCTGATGGCTTACCGCAAGGTGATTTCCCCCTTGTACGGCCAGGTGTGCCGATTCTTTCCTTCATGCTCGGCCTACGCCCTTGAAGCGATCACCGTCCATGGCGCCGTCAAGGGAAGCTGGCTTGCCGTCCGCCGCCTTGCACGCTGCCATCCATGGAATGCCGGTGGTGTGGACCACGTCCCCGCCGGCCATCGGCACTGGCCTGAAAACCAGACCCCCACAATTGTTGTGCTGAACAATCCGGACAAGTACCTGGCTGCTCAGACTGATGGAGAAGGCCGCCTTGCGGCCTGA	MRKVTAAVVRFLQPAVLGRTIWNLPRNLLILLLMAYRKVISPLYGQVCRFFPSCSAYALEAITVHGAVKGSWLAVRRLARCHPWNAGGVDHVPAGHRHWPENQTPTIVVLNNPDKYLAAQTDGEGRLAA				NA	NA	NA	NA	NA
D1-29_04729	324	rnpA		Ribonuclease P protein component	GTGTTATATACGGCAGCCATTGCTGCCGACGAACCCAGCCGGATCGGGTTTATCGTTTCCAAAGGTGTCGGGAACGCTGTGGTCAGGAACCTCGTTAAGAGGAGACTGAGAGAAGCCGGTGCGGCCTCGCTTCGCGAGTACGGCACCGGGTTTGCCATAGTGGTCCGGGCGCTGCCCGCGTCCGCGGCCGCCAGCTGGGATCAACTGCTGGCGGATTACAACGCCGCACTGGAATCGAACATGAACCGGTTGGGCAGACGCCTTCCGCGGGCTGCTGCCAATGGTTCAACGGGTACAACACAGGAAGGGACACAGCGTGCGTAA	MLYTAAIAADEPSRIGFIVSKGVGNAVVRNLVKRRLREAGAASLREYGTGFAIVVRALPASAAASWDQLLADYNAALESNMNRLGRRLPRAAANGSTGTTQEGTQRA				NA	NA	NA	NA	NA
D1-29_04730	1422	dnaA		Chromosomal replication initiator protein DnaA	ATGACAGTAGACGAAGCCAACCATGCCAATACTGTCGGAAGTTCCTGGCGCAGGGTTGTCAGCCTGCTGGAACAGGACGACCGTGTTTCACCACGGCAAAGGGGCTTTGTCATCCTGGCGCAGGCCCAGGGTCTGATCGGCTCCACCCTCCTGGTCGCCGTACCCAATGAGCTCACCCGCGAAGTCCTCCAGACACAGGTCAAAGACGCGCTGGACGATGCACTCCACAACGTCTTCTCGGAAGATATCCGCTGCGCCATCGATGTGGACACCGACCTGGTGCCCATCCATGTAGAGCCGGAACCCGTCGTCGAGCCGTCCTTCACCTCGGACCAGCTGATCGAACAGAAGCCGCAGCCCATGCTGCCCAGCACCTCACACGAATTCGGCAGGCTGAATCCCAAGTACGTTTTTGACACTTTCGTGATCGGCTCGTCCAACCGGTTTGCCCATGCCGCGGCCGTGGCCGTGGCTGAAGCGCCGGCCAAGGCATACAACCCGCTGTTCATCTACGGCGATTCCGGACTCGGCAAGACGCACCTGCTCCATGCGATCGGCCACTATGCCCGCCGCCTCTACAGCGGGATCCGTGTCCGGTACGTGAACTCCGAGGAATTCACCAACGACTTCATCAACTCCATCCGCGATGACGAAGGCGCCAGCTTCAAGACCACGTACCGCAACGTGGATGTGCTGCTGATTGACGACATCCAGTTCCTGGCCGGCAAGGACCGGACGCTGGAGGAGTTCTTCCACACGTTCAACTCCCTGCATAACAACAACAAGCAGGTAGTGATCACCTCGGACCAGCCGCCCAAACTGCTGGCCGGCTTTGAGGACAGGATGAAGTCCCGCTTCGAATGGGGTCTGCTCACAGATATCCAGCCGCCGGAGCTCGAAACCCGCATCGCCATCCTGCGCAAGAAGGCCCTCAGCGAGGGGCTTTCAGCTCCCGATGATGCGCTTGAGTACATCGCCTCCAAGATTTCCAGCAACATCAGGGAGCTCGAAGGTGCCCTCATCAGGGTCACCGCATTCGCCAGCCTCAACCGGCAGCCAGTTGACGTTGCCTTGGCCGAGATGGTCCTGAAGGACCTCATCACGGACGACGGCGCCCAGGAGATCACCTCAAGCCAGATCCTCACGCAGACGGCCGACTACTTCAAGCTCAGCATGGAGGAACTCTGCAGCAAGTCCCGGACCAGGACCCTGGTCACCGCACGGCAAATCGCCATGTACCTGTGCCGTGAACTGACGGACATGTCGCTTCCCAAGATCGGCCAGGAGCTCGGCGGCCGCGACCACACCACCGTCATCCACGCGGACCGGAAGATCCGTGAGCTGATGGCCGAGCGCCGTGTGATCTACAACCAGGTCACCGAGCTCACCAACAGGATCAAACAGCAACAGCGCGACTCCTGA	MTVDEANHANTVGSSWRRVVSLLEQDDRVSPRQRGFVILAQAQGLIGSTLLVAVPNELTREVLQTQVKDALDDALHNVFSEDIRCAIDVDTDLVPIHVEPEPVVEPSFTSDQLIEQKPQPMLPSTSHEFGRLNPKYVFDTFVIGSSNRFAHAAAVAVAEAPAKAYNPLFIYGDSGLGKTHLLHAIGHYARRLYSGIRVRYVNSEEFTNDFINSIRDDEGASFKTTYRNVDVLLIDDIQFLAGKDRTLEEFFHTFNSLHNNNKQVVITSDQPPKLLAGFEDRMKSRFEWGLLTDIQPPELETRIAILRKKALSEGLSAPDDALEYIASKISSNIRELEGALIRVTAFASLNRQPVDVALAEMVLKDLITDDGAQEITSSQILTQTADYFKLSMEELCSKSRTRTLVTARQIAMYLCRELTDMSLPKIGQELGGRDHTTVIHADRKIRELMAERRVIYNQVTELTNRIKQQQRDS	PGPT0014800_1872	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0014800-dnaA-K02313	NA	NA
D1-29_04731	102			hypothetical protein	ATGGGCTTAAAACCCTTAAGGCATCTGTGGATCAGCGAAAACGCCAAAATAGTTATCCCCATCCACACCCTGTTTAAAACCTGCGCCACCCACATTCCATGA	MGLKPLRHLWISENAKIVIPIHTLFKTCATHIP				NA	NA	NA	NA	NA
D1-29_04732	1125	griR		Beta sliding clamp GriR	GTGAAGTTCAGAGTCGAACGGGACGTCCTGGCAGAAGCCGTCACCTGGACAGCCCGGTCGCTGTCTCCGCGGCCGCCGGTACCCGTGCTCTCAGGCCTGCTCCTCAAGGCTGAAGCAGGCACCGTTAGCCTTTCGAGCTTTGACTACGAGACCTCCGCACGGCTGGAGATCCCCGCGGACATCGCTGTTGAGGGCACCATCCTTGTCTCCGGCCGGCTCCTGGCTGACATCTGCCGCAGCCTTCCCTCCGCCCCGGTGGATGTGGAAACCGACGGAAACAAAGTCACGCTCACCTGCCGCCGCAGCAGTTTCCACTTGGCCACCATGCCGGAAGCCGAGTACCCGCCCCTGCCTGCACTGCCCACCATCAGCGGTACAGTCCCCGGCGATGCTTTCGCCCAGGCCGTATCCCAGGTGATCATCGCCGCCAGCAAGGACGACACCCTGCCGATTCTTACCGGCGTCCGGATGGAAATCGAGGACGATCTCATCACCCTCCTGGCCACCGACCGCTACCGGCTCGCCATGCGTGAAGTGCCGTGGAAGCCTGTAAATCCGGGCATCTCCACCAGCGCGCTGGTCAAGGCAAAAACCCTCAACGAAGTAGCCAAGACCCTGGGCAACAGCGGTGACATCAACCTCGCCCTCGCCGATGACGAGAGCCGGCTTATCGGCTTCGAAAGCGGCGGACGAACCACCACGTCCTTGCTGGTTGACGGCGACTATCCCAAGATCCGCTCGCTTTTCCCGGATTCCACGCCCATCCACGCGACTGTCCAGACGCAGGAGCTGGTCGAGGCAGTCCGTCGTGTGTCCCTGGTTGCCGAGCGCAATACCCCGGTCCGACTCGCTTTCACCGAGGGCCAGCTGCACCTCGACGCCGGCACTGGTGAAGACGCCCAGGCTTCCGAAGAGCTCGAAGCACAGCTTTCCGGCGAGGACATCACGGTGGCGTTCAACCCGCACTACCTGGTGGAAGGCCTGAGCGTGATTGAAACCAAGTTCGTCAGGTTCTCGTTCACCACAGCTCCCAAGCCGGCCATGATCACCGCCCAGGCGGAAGCTGACGGCGAAGACCAGGATGACTACCGCTATCTCGTCATGCCTGTCCGCCTCCCCAATTAG	MKFRVERDVLAEAVTWTARSLSPRPPVPVLSGLLLKAEAGTVSLSSFDYETSARLEIPADIAVEGTILVSGRLLADICRSLPSAPVDVETDGNKVTLTCRRSSFHLATMPEAEYPPLPALPTISGTVPGDAFAQAVSQVIIAASKDDTLPILTGVRMEIEDDLITLLATDRYRLAMREVPWKPVNPGISTSALVKAKTLNEVAKTLGNSGDINLALADDESRLIGFESGGRTTTSLLVDGDYPKIRSLFPDSTPIHATVQTQELVEAVRRVSLVAERNTPVRLAFTEGQLHLDAGTGEDAQASEELEAQLSGEDITVAFNPHYLVEGLSVIETKFVRFSFTTAPKPAMITAQAEADGEDQDDYRYLVMPVRLPN				NA	NA	NA	NA	NA
D1-29_04733	885		COG1023	6-phosphogluconate dehydrogenase, NAD(+)-dependent, decarboxylating	GTGCATATCGGACTGATCGGCCTTGGCAAGATGGGTTTCAACATGCGCGAACGCCTGCGCAAGGGCGGGGTTGATGTAACCGGCTTCGACCGCAATCCGGACGTCACCGATGTCTCGTCCATGGACGAACTGATTGCAGCCGTCCCGTCACCCCGGATTATCTGGGTCATGGTTCCGGCCGGCGACATCACCAACGCGGTCATCACCGAACTTGGCGAAAAGCTCGACGCCGGCGACCTGGTAATCGACGGCGGCAACTCACGCTTCACGGAAGACCAGAAACACGGTGCAGCGCTGACCGAAAAGGGCATCCGTTTTGCCGACTGCGGTGTTTCCGGCGGTGTGTGGGGCCTGCAGAACGGTTATGGGCTGATGGCCGGCGGCGACGCCGCCGACATCGAGCGGGCACTGCCGGTCTTTGATGCACTGCGCCCTGACGGTGAACGGGCTGACAGCTTTGTCCATGTGGGAGGCGTCGGCGCAGGCCATTACGCCAAAATGGTCCACAACGGCATCGAATACGGCCTGATGCAGGCTTACGCCGAGGGCTACCAACTGCTTGCTTCCAAGGACATCATCAACGATTTGCCCGGCACGTTCCGCGCCTGGCAAAAAGGTACCGTGGTCCGGTCGTGGCTCCTCGACCTGCTGGTCAAGGCGCTCGATGAAGATCCGGGGCTGCAGAACATCGATGACTACGTCGAGGATTCGGGTGAGGGACGGTGGACGGTTGAAGAGGCGATCGCCAATGCAATTCCCGCGCCGGCCATAACGGCAGCCCTGTTTGCGCGCTTCGAGTCCCGCGAGGACAGCTCCCCGGCCATGAAAATGGTTTCGGCGTTACGCCACCAGTTCGGCGGGCATGCCACCCGCCCCGCCAAATAG	MHIGLIGLGKMGFNMRERLRKGGVDVTGFDRNPDVTDVSSMDELIAAVPSPRIIWVMVPAGDITNAVITELGEKLDAGDLVIDGGNSRFTEDQKHGAALTEKGIRFADCGVSGGVWGLQNGYGLMAGGDAADIERALPVFDALRPDGERADSFVHVGGVGAGHYAKMVHNGIEYGLMQAYAEGYQLLASKDIINDLPGTFRAWQKGTVVRSWLLDLLVKALDEDPGLQNIDDYVEDSGEGRWTVEEAIANAIPAPAITAALFARFESREDSSPAMKMVSALRHQFGGHATRPAK	PGPT0017385_4873	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
D1-29_04734	1203	recF	COG1195	DNA replication and repair protein RecF	GTGTACCTACAGCACCTCTCACTGACTGACTTCCGCAGTTACGCCCAGGTGGACCTTGCCCTCGAACCCGGCGTCACCGTGCTGGTGGGCGCCAATGGGATTGGCAAGACCAACCTCATGGAGGCTATTGGTTACCTCGCCACGCTTAGCTCGCACCGCGTCAGCTCGGACGCGCCGCTGCTGCGGTTCGGCGTGGACCGCGCCCTGGTCCGGGCAAGGCTTGTCCGCGGTGGCCAGATTACTGTGCTGGAACTGGAAATCAACGCGGCCAGGGCAAACCGCGGCCGGATCAACCGCAGTAATCCTGTCCGCGCCCGGGATCTTCTGGGAATTTGCCAGACAGTCCTTTTTGCTCCGGAAGACCTCGCCCTGGTCAAGGGTGACCCGTCCAACCGGCGCCGCTTCCTTGATGAACTCCTGGTGAGCCTGATTCCCCGGCATTCTGCAACCCGGGGTGATTACGACCGAGTCCTGAAACAGCGGAATGCGCTCCTGAAATCGGCGCGGGCCGGGAAATTCACTTCCGCGCACGAGGCCACCCTGGATGTGTGGGACCAGCACATGGCGCGGGCAGCTGCAGAGCTGCTGCATGCGCGCCTGGAACTGGTGGACCGGTTGCGTCCACATCTGGCGAAAGCCTATGCACAGCTCACTGATGGCACCAAGGACGCTGGCGCCGTCTACCGTTCAACCCTTCAAAACCACATGGACGACGACGGCGCCCTGGCTTTTACTGCCGGTGCTGCGCCTGCCGCTTCGGCAGAGGCCGGCCAGGAAGATCTCCGGCAATTTTCCGTCGAAGAGCTCACCGAGCTCTACATCCGGGCATTCGCGGCTTCCCGCCGAAAAGAACTGGAACGCGGCATTTCCCTCGTGGGCCCGCACCGGGACGAGCTGGACCTCATCCTGGGGGAAGCACCGGCAAAGGGATACGCTTCGCACGGCGAAACCTGGTCCATGTGCCTGTCCCTGCGGCTTGCTTCCTACTACGTGATGCTGGACGACGCGCGGACCGGCGGGTCTGCTCCGATTCTTATCCTCGACGACGTTTTTGCCGAGCTGGATGTCCAGCGTCGGCGTAAACTTGCGGCAATAGTCTCCGGCGCGGAACAGGTCCTGGTGACCGCCGCCGTCGACGCCGATATTCCGGAAGAGTTGTCCGGCCGGCGGGTGAAGGTTATTCCGGGAGGAATTGATGAGTAG	MYLQHLSLTDFRSYAQVDLALEPGVTVLVGANGIGKTNLMEAIGYLATLSSHRVSSDAPLLRFGVDRALVRARLVRGGQITVLELEINAARANRGRINRSNPVRARDLLGICQTVLFAPEDLALVKGDPSNRRRFLDELLVSLIPRHSATRGDYDRVLKQRNALLKSARAGKFTSAHEATLDVWDQHMARAAAELLHARLELVDRLRPHLAKAYAQLTDGTKDAGAVYRSTLQNHMDDDGALAFTAGAAPAASAEAGQEDLRQFSVEELTELYIRAFAASRRKELERGISLVGPHRDELDLILGEAPAKGYASHGETWSMCLSLRLASYYVMLDDARTGGSAPILILDDVFAELDVQRRRKLAAIVSGAEQVLVTAAVDADIPEELSGRRVKVIPGGIDE				NA	NA	NA	NA	NA
D1-29_04735	558			hypothetical protein	ATGAGTAGGGACGACAGAAGCGGTCTTCAGCCCGGCCGCGATCCCGACGATATCGATGCACCGCAGGCAGCACTGAACAGGATGCGAGAGGCCGCGGCCGCGCGGGGAGAAATCCGCCGTAAAGCCCCCAAGCCCGGGGGTACGCCAAAGTCCAAACGGGGAATCAGCGATACCCGCGGCTTCAGCCAGTTCCACGCCACGGGGCGCGACCCACTGGGGTTGGGCAAAGTGGTGGGCCGGCTGGTGGCCGAGCGGGGCTGGACCTCTCCGGTGGCTGTCGGATCGGTGATGGCTGAGTGGGCAACACTGGTGGGACCGGAGATCTCGGCCCATTGCACCCCGGAGAGCTTCACCGATACAACGCTCCACGTACGGTGCGATTCCACGGCCTGGGCCACGCAGCTTCGGCTCCTGAGCATCAGTCTGCTGGAGAAGTTCCGCACCGAACTTGGGGACGGCGTTGTCACCAGCATCCAGGTGCTTGGTCCGTCCGCACCGAGCTGGCGCAAGGGCGGCCGCACCGTTAACGGACGCGGGCCCCGCGATACTTACGGATAG	MSRDDRSGLQPGRDPDDIDAPQAALNRMREAAAARGEIRRKAPKPGGTPKSKRGISDTRGFSQFHATGRDPLGLGKVVGRLVAERGWTSPVAVGSVMAEWATLVGPEISAHCTPESFTDTTLHVRCDSTAWATQLRLLSISLLEKFRTELGDGVVTSIQVLGPSAPSWRKGGRTVNGRGPRDTYG				NA	NA	NA	NA	NA
D1-29_04736	2091	gyrB_2	COG0187	DNA gyrase subunit B	GTGGCTAACGACAATACAGATACCCAGGCAGTGGAACTCGCACTTGAAGATGTCCCAACACCTGAGATGCCGACGGAAGCTGTGACACCGCGCGAATACGGCGCAAGTGACATCACTGTACTTGAAGGCCTGGAAGCCGTCCGGAAACGGCCCGGCATGTACATCGGCTCCACTGGCCTGCGCGGCCTCCACCACTTGGTGTACGAAGTGGTTGACAACTCTGTTGATGAGGCCCTGGCCGGATACTGCACGCACATCGAGGTAGTGCTGCAGGCGGATGGCGGCGTCAAGGTGGTGGATGACGGCCGTGGAATCCCGGTGGACATGCACCCCACTGAGCACAAGCCCACCGTCGAAGTGGTCATGACCATCCTGCACGCCGGCGGCAAGTTTGGCGGCGGCGGCTACGCGGTCTCCGGTGGACTTCACGGCGTGGGCATTTCGGTTGTTAATGCACTGTCCAGCCGCGTTGAGACAGAGGTCCGGCGGCAGGGACACGTGTGGCGGATGTCATTCGCCGACGGCGGCAAGCCGCAGGGCGGCCTGGTGAAGGGCGAAGAGACCGACACCACCGGGACCACCCAGACGTTCTACCCCGATGAGAGCATCTTCGAATCCACCGAGTTCGATTTTGAGACCCTCCGCTCGCGCTTCCAGCAGATGGCGTTCCTGAACAAGGGCCTCCGCATCACCCTCACCGACGAACGCGTGCCCGCTAAAAACGCCGTCGACGACGAAGACCTTGATCTTGACGCCGTGGTGACCGAAGGCGAAGTCACTGCGGATCACCGTACCGTGGTTTACCAGTACAACGACGGCCTGCTGGACTATGTAAAGCACCTGAACTCGGGCAAAAAAGTCGATGTTGTCCATGAGGACGTCATTGCCTTTGAAACCGAGGACACGGAGCGCCACATTGCCGTCGAGATGGCCATGCAGTGGACCAGCGCGTATTCGGAAAGCGTGCACACGTACGCAAACACCATCAATACGCATGAGGGCGGCACGCACGAAGAGGGTTTCCGCGCAGCCATGACGTCGCTCATCAACCGCTACGCGCGGGAGAAGAGCATCATCAAGGAAAAGGAAGACAACCTCACCGGCGATGACATCCGCGAAGGCCTGACTGCGGTTATTTCGGTGAAGCTCGCTGAGCCTCAGTTCGAGGGCCAAACCAAGACCAAGCTCGGCAATTCCGAGGTCAAGGGCTTTGTCCAGCGGGTGGTCACCGACCAGCTGGGCGACTGGCTGGAACGGAACCCCGGCCCGGCGCGGGACGTCATCCGCAAAGCGATTTCTGCAGCCCAGGCCCGTATGGCAGCACGCAAGGCCCGCGACAACGCCCGCCGCAAGAGTCCTTTGGAATCGTTCGGCATGCCGGGGAAGCTGTCCGATTGTTCCTCCAAGGATCCGGCCAAGTGTGAGGTCTACCTCGTGGAGGGTGACTCCGCCGGCGGCTCGGCCAAGCGTGGCCGCAACCCGGAAACCCAGGCCATCCTCCCGCTCCGCGGCAAGATCCTGAACGTTGAACGGGCCCGGCTGGACAAGGCCCTTGGTAACGCTGAGGTCCAGTCCATGATCACGGCGTTCGGCACGGGCATCGGCGAGGACTTCGACCTCAGCAAACTCCGGTACCACAAGATTGTGCTGATGGCTGATGCCGATGTTGACGGCCAGCACATCACCACGCTGCTGATGACGCTGCTTTTCCGGTACATGCGCCCGCTCATCGAGAACGGCTACGTGTACCTGGCCCAGCCTCCGCTGTACAGGATCAAGTGGTCCAACGCTCCGCACGACTATGTGTTTAGCGACAAGCAGCGCGATGCGATGCTGCTCTCCGGCCAGGCCGCCGGCCGCCGTATTCCAAAGGACAACGGGATCCAGCGCTACAAGGGCCTCGGGGAGATGGACTACACCGAACTGTGGGACACCACCATGGACCCGGACCACCGCACCCTGCTTCAGGTCACCATGGATGATGCACTGGCCGCTGACCAGATCTTCTCCGTGCTGATGGGCGAAGACGTGGAATCGCGCCGCAACTTCATTCAGCAGAACGCCAAGGACGTCAGGTTCCTGGATATCTGA	MANDNTDTQAVELALEDVPTPEMPTEAVTPREYGASDITVLEGLEAVRKRPGMYIGSTGLRGLHHLVYEVVDNSVDEALAGYCTHIEVVLQADGGVKVVDDGRGIPVDMHPTEHKPTVEVVMTILHAGGKFGGGGYAVSGGLHGVGISVVNALSSRVETEVRRQGHVWRMSFADGGKPQGGLVKGEETDTTGTTQTFYPDESIFESTEFDFETLRSRFQQMAFLNKGLRITLTDERVPAKNAVDDEDLDLDAVVTEGEVTADHRTVVYQYNDGLLDYVKHLNSGKKVDVVHEDVIAFETEDTERHIAVEMAMQWTSAYSESVHTYANTINTHEGGTHEEGFRAAMTSLINRYAREKSIIKEKEDNLTGDDIREGLTAVISVKLAEPQFEGQTKTKLGNSEVKGFVQRVVTDQLGDWLERNPGPARDVIRKAISAAQARMAARKARDNARRKSPLESFGMPGKLSDCSSKDPAKCEVYLVEGDSAGGSAKRGRNPETQAILPLRGKILNVERARLDKALGNAEVQSMITAFGTGIGEDFDLSKLRYHKIVLMADADVDGQHITTLLMTLLFRYMRPLIENGYVYLAQPPLYRIKWSNAPHDYVFSDKQRDAMLLSGQAAGRRIPKDNGIQRYKGLGEMDYTELWDTTMDPDHRTLLQVTMDDALAADQIFSVLMGEDVESRRNFIQQNAKDVRFLDI	PGPT0027710_1240	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
D1-29_04737	1116			hypothetical protein	GTGCTTGGCCACGATCTCGCCGAGTTCATTGCTGATGATCTCGCGCTGGCGTTCCTCGGAGCCGAGGATGCTGTTGTACTCGGTGATCAGTGCTTCCAGTTCCGAGTGCCGGTCCTGGATTTTCTGGCGTTCCAGGGCGGCAAGGCGGCGGAGCTGCATGTCCAGGATGGCCCGGGCCTGCAGTTCGTCGATGTCCAGAAGCTGCATCAGCCCGTCGCGGGCGGCCTCCGTGGTGTTCGATGCCCGGATGAGGGCAATAACCTCGTCCAGCATGTCCAACGCCTTGAGGAGGGCGCGCAGGATGTGCGCCTCTTCTTCCGCCTTGCGCAGGCGGTAGCGTGTCCGGCGGGCAATAACGTCCATCTGGTGGGTCACCCAGTGACGGATGAACGCATCCAGGCTCAGCGTCCGGGGAACACCGTCCACGATGGCCAGCATGTTCGCGGAGAAGTTGCTCTGCAGCTCGGTGTGCTTGTAGAGGTTGTTCAGCACCACCTTGGCCACGGCATCGCGCTTCAGCACAATCACCAGGCGCTGGCCGGTGCGGCCCGAGGTCTCGTCCCGGAGGTCGGCAATCCCGGAGATCTTGCCGTCCTTGACCAGTTCGGCGATCTTGATGGCCAGGTTGTCGGGGTTGGCCTGGTACGGCAGTTCGGTGACCACCAGGCAGGTGCGCCCCTGGAGTTCCTCAACGTTGACCACGGCGCGCATGGTGACGGAGCCGCGGCCGGTCCGGTAAGCGTCCTCAATGCCCTTGTGACCCAGGATGGTGGCACCCGTGGGGAAGTCGGGCCCCTTAATCCGGAGCAGCAGTTCTTCGAGGAGTTCCTCGCGGCTGGCCGTCGGGTTGGCAAGATACCACTGGACACCGTCGGCCACCTCCCGCAGGTTGTGCGGCGGAATGTTGGTTGCCATTCCGACGGCGATCCCGGACGAACCGTTGACCAGCAGGTTGGGGAACCGCGCCGGCAGGATGGTGGGTTCCTGGTTCTTGCCGTCGTAGTTGTCCTGGAAGTCGACGGTTTCCTCGTCGATGTCGCGGACCATTTCCATGGCCAGCGGCGCCATCTTGGTTTCGGTGTACCGCGGGGCGGCTGCGCCGTCATTTCCGGGTGA	MLGHDLAEFIADDLALAFLGAEDAVVLGDQCFQFRVPVLDFLAFQGGKAAELHVQDGPGLQFVDVQKLHQPVAGGLRGVRCPDEGNNLVQHVQRLEEGAQDVRLFFRLAQAVACPAGNNVHLVGHPVTDERIQAQRPGNTVHDGQHVRGEVALQLGVLVEVVQHHLGHGIALQHNHQALAGAARGLVPEVGNPGDLAVLDQFGDLDGQVVGVGLVRQFGDHQAGAPLEFLNVDHGAHGDGAAAGPVSVLNALVTQDGGTRGEVGPLNPEQQFFEEFLAAGRRVGKIPLDTVGHLPQVVRRNVGCHSDGDPGRTVDQQVGEPRRQDGGFLVLAVVVVLEVDGFLVDVADHFHGQRRHLGFGVPRGGCAVISG				NA	NA	NA	NA	NA